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
D1-35_00001	819	suhB	COG0483	Inositol-1-monophosphatase	ATGCAGCCCATGCTGAATATCGCGCTGCGCGCCGCCCGCAGCGCCAGTGAACTGATCTTCCGCTCCATCGAGCGCCTGGATACCATCAAGGTCGATGAAAAAGACGCCAAGGACTACGTGTCCGAGGTTGATCGCGCCGCCGAACAGAAAATCGTCGACGCCCTGCGCAAGGCTTACCCGAACCACTCCATCCTCGGTGAAGAAACCGGCATGCACGCCGGTACCGGCATCGAAGGCGAAGAGTACCTGTGGATCATCGATCCGCTGGACGGTACCACCAACTTCCTGCGCGGCATTCCTCACTTCGCTGTCAGCATCGCCTGCAAATACCGTGGCCGCCTGGAACACGCCGTCGTGCTGGACCCGGTTCGCCAGGAAGAATTCACCGCCAGCCGTGGCCGTGGCGCCCAACTGAACGGTCGCCGCCTGCGCGTCAGCGGCCGCACCAGCCTGGACGGCGCCCTGCTGGGCACCGGTTTCCCGTTCCGTGATGACCAGATGGACAACCTCGACAATTACCTGGGCATGTTCCGCGCCCTGGTCGGCCAGACCGCCGGCATCCGCCGCGCCGGCGCCGCGAGCCTGGACCTGGCCTATGTAGCTGCCGGTCGTTTCGATGCGTTCTGGGAATCGGGCCTGTCCGAGTGGGACATGGCGGCAGGCGCCCTGTTGATCCAGGAAGCGGGTGGCTTGGTGAGCGACTTCACCGGCGGCCACGATTTCCTTGAAAAAGGCCACATCGTTGCCGGCAACACCAAATGCTTCAAGGCTGTGCTGACGGCGATCCAGCCGCACCTGCCGGCCTCGCTGAAGCGCTAA	MQPMLNIALRAARSASELIFRSIERLDTIKVDEKDAKDYVSEVDRAAEQKIVDALRKAYPNHSILGEETGMHAGTGIEGEEYLWIIDPLDGTTNFLRGIPHFAVSIACKYRGRLEHAVVLDPVRQEEFTASRGRGAQLNGRRLRVSGRTSLDGALLGTGFPFRDDQMDNLDNYLGMFRALVGQTAGIRRAGAASLDLAYVAAGRFDAFWESGLSEWDMAAGALLIQEAGGLVSDFTGGHDFLEKGHIVAGNTKCFKAVLTAIQPHLPASLKR	PGPT0018535_2745	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
D1-35_00002	771	trmJ		tRNA (cytidine/uridine/adenosine-2'-O-)-methyltransferase TrmJ	TTGTTGCAGAACATTCGTGTCGTCCTGGTCAATACCAGCCATCCGGGTAACATCGGCGGAGCTGCGCGGGCCATGAAGAACATGGGCCTGTCGCGGCTGGTGCTGGTTGAGCCGCGCTCGTTTCCCCATCACGAAGCCGACGCGCGGGCATCCGGCGCCGGTGACATTCTCGCCAATGCCCAGGTTGTCGCCACCCTGGAAGACGCCTTGGTGGGTTGCAACCTGGTGCTCGGCACCAGCGCCCGCGACCGCCGTATCCCCTGGCCGCTGCTCGATCCTCGCGAATGCGGCACCAAGGTGGTCGAGGAAGCGGGGCAGGGCGCGGAAATCGCCTTGGTGTTCGGCCGTGAAGATTCCGGCCTCACCAATGAAGAGCTGCAGCGATGTCATTTTCACGTGCATATCCCCTCCGACCCCGGCTTCAGCTCGCTGAACCTCGGGGCGGCGGTGCAGGTGTTGAGCTATGAAGTGCGCATGGCCTGGCTGCACGCCGAAGGCCAGCCCAGCAAGGTGGAAAAATTCGAGGCGACGTCGCCGCGCAGTGAGACACTGGCGACCATGGACGAGCTGGAGCGATTCTATGAACACCTGGAGCAGACCCTGGTGGACATCGAATTCCTTGACCCGGACAAGCCTCGGCACTTGATGGCGCGCCTGCGTCGGTTGTACGGACGAAGCTCGGTGAGCCGGGCGGAAATGAATATATTGCGCGGCATCCTCACGGAAACCCAGAAAGCGGCCCGTGGCGAGCTGATTAAGCGGAAGGAATAA	MLQNIRVVLVNTSHPGNIGGAARAMKNMGLSRLVLVEPRSFPHHEADARASGAGDILANAQVVATLEDALVGCNLVLGTSARDRRIPWPLLDPRECGTKVVEEAGQGAEIALVFGREDSGLTNEELQRCHFHVHIPSDPGFSSLNLGAAVQVLSYEVRMAWLHAEGQPSKVEKFEATSPRSETLATMDELERFYEHLEQTLVDIEFLDPDKPRHLMARLRRLYGRSSVSRAEMNILRGILTETQKAARGELIKRKE				NA	NA	NA	NA	NA
D1-35_00003	777	cysE	COG1045	Serine acetyltransferase	ATGTTCGAACGTTTGCGTGAAGATATCCAGAGCGTCTTCCATCGTGACCCGGCGGCGCGCAATGCCTTTGAAGTGCTGACCTGCTATCCCGGCATGCACGCCATCTGGATCCATCGCCTGTCCGGCGCCTTGTGGAGCATGGGTTGGAAATGGCTGGCGCGGCTGGTCTCGAACTTCGGCCGCTGGTTGACCGGCATCGAGATCCATCCGGGCGCCAAGGTCGGCCGGCGGTTCTTCATCGATCACGGCATGGGCATCGTCATCGGCGAGACCGCCGAGATCGGCGACGACGTCACGCTCTATCAGGGCGTGACCCTCGGCGGCACCAGCTGGAACAAAGGCAAGCGCCACCCGACCCTGGAAAACGGCGTTGTCGTCGGTGCTGGCGCCAAGGTGCTCGGCCCGTTCACCGTGGGCGCGGGAGCGAAAGTCGGCTCCAACGCCGTGGTCACCAAGGCCGTGCCGCCCGGCGCGACCGTGGTGGGTATTCCGGGGCGGATCATCGTCAAGTCGGACGAAGAGCAGGACGCCCGGCGCAAGGCCATGGCCGAGAAGATCGGCTTCGACGCCTACGGTGTCGGCGAAGACATGCCCGACCCGGTGGCGCGCGCCATCAACCAGTTGCTCGATCACCTGCAAGCGGTGGACGGGCGCCTGGAGGGGATGTGCGGCGCACTGAAGGAGCTGGGGAGTGATTATTGTGCCAAGGATCTGCCGGAACTGCGCGAGGAAGACTTTGCGTGCGTGAAGGACAAGGACCAAAGCCAGGCTAGCTGA	MFERLREDIQSVFHRDPAARNAFEVLTCYPGMHAIWIHRLSGALWSMGWKWLARLVSNFGRWLTGIEIHPGAKVGRRFFIDHGMGIVIGETAEIGDDVTLYQGVTLGGTSWNKGKRHPTLENGVVVGAGAKVLGPFTVGAGAKVGSNAVVTKAVPPGATVVGIPGRIIVKSDEEQDARRKAMAEKIGFDAYGVGEDMPDPVARAINQLLDHLQAVDGRLEGMCGALKELGSDYCAKDLPELREEDFACVKDKDQSQAS	PGPT0020265_2988	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
D1-35_00004	492	iscR	COG1959	HTH-type transcriptional regulator IscR	ATGCGACTGACTACAAAAGGCCGATACGCCGTGACCGCAATGCTGGATCTGGCATTGCATGCGCAGCACGGGCCGGTGTCCCTGGCCGATATCTCCGAACGCCAGGGCATCTCCCTGTCCTACCTCGAACAGCTGTTCGCCAAGCTGCGCCGCAGCAACCTGGTCTCCAGCGTTCGTGGCCCCGGTGGCGGCTACCAGCTGTCGCGCGAGATGCAAGGCATCCAGGTCGCCCAGGTGATCGATGCCGTGAACGAATCGGTCGATGCGACCAAATGCCAAGGGTTGGGCGACTGCCACGGCGGCGATACTTGCCTGACCCATCATCTGTGGTGCGATTTGAGCCTGCAGATTCACGAATTTCTGAGTGGTATCAGCTTGGCCGACCTTGTGACTCGCCGTGAGGTGCAAGAAGTAGCCCAGCGTCAGGACCAGCGCCGTTGCAATGGCAAGGCGCCGCACCTGGACAAGATTGAAGCGTCCGCCGTCGAATGA	MRLTTKGRYAVTAMLDLALHAQHGPVSLADISERQGISLSYLEQLFAKLRRSNLVSSVRGPGGGYQLSREMQGIQVAQVIDAVNESVDATKCQGLGDCHGGDTCLTHHLWCDLSLQIHEFLSGISLADLVTRREVQEVAQRQDQRRCNGKAPHLDKIEASAVE	PGPT0004960_606	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-ANTIMONY_HOMEOSTASIS,PGPT0004960-iscR-K13643	NA	NA
D1-35_00005	1215	iscS_1	COG1104	Cysteine desulfurase IscS	ATGAAATTGCCGATTTACCTTGATTACTCTGCGACCACCCCGGTTGATCCGCGTGTCGCGCAAAAGATGAGTGAATGCCTGCTGGTCGACGGAAACTTCGGCAACCCGGCCTCGCGTTCCCACGTGTTCGGCTGGAAAGCCGAAGAGTCGGTCGAAAACGCCCGTCGCCAGGTCGCCGACCTGGTCAATGCCGACCCCCGCGAGATCGTCTGGACCTCCGGTGCCACCGAGTCCGACAATCTGGCAATCAAGGGTGTCGCGCATTTCTACCACACCAAGGGCAAGCACCTGATCACCTCCAAGATCGAGCACAAGGCTGTCCTGGACACCATGCGCCAACTGGAGCGTGAAGGCTTCGAAGTCACCTACATCGAGCCCGGTGAAGACGGCATCATCACCCCGGCCATGGTCGAGGCCGTACTGCGCGACGACACCATTCTGGTTTCGATCATGCATGTGAACAACGAAATCGGCACCGTCAACGACATCGCGGCCATCGGCGAACTGACCCGTTCCAAGGGCGTCCTGTTCCACGTCGATGGCGCGCAGTCCACCGGCAAGGTCGACATCGACCTGTCCAAGCTGAAAGTCGACCTGATGTCCTTCTCGGCCCACAAGACTTATGGCCCTAAAGGCATCGGCGCCCTGTACGTCAGCCGCAAGCCGCGTGTTCGCCTCGAAGCGACCATGCACGGCGGCGGTCACGAGCGTGGCATGCGTTCCGGTACCCTGGCGACCCACCAGATCGTTGGCATGGGCGAAGCCTTCCGCGTGGCCAAGGAAGACATGGCCGCCGAGAACGTGCGCATCAAGGCCTTGAGCGACCGTTTCTTCAAGCAGGTCGAGCACCTCGAAGAGCTCTACGTCAACGGCAGCATGACCGCCCGCGTTCCACACAACCTGAACCTGAGCTTCAACTACGTTGAAGGCGAGTCGCTGATCATGGCGCTCAAGGATCTGGCCGTGTCGTCCGGTTCGGCGTGCACCTCGGCGTCGCTGGAGCCTTCCTACGTACTGCGTGCCCTGGGCCGCAACGACGAACTGGCTCACAGCTCGATCCGCTTCACCTTCGGCCGCTTCACCACCGAAGAAGAAATCGATTACGCCGCGCAGAAAGTCTGCGAGGCCGTTACCAAGCTGCGTGCTCTTTCGCCGCTGTGGGACATGTACAAAGACGGCGTCGACATTTCGAAAATCGAATGGGCGGCGCACTGA	MKLPIYLDYSATTPVDPRVAQKMSECLLVDGNFGNPASRSHVFGWKAEESVENARRQVADLVNADPREIVWTSGATESDNLAIKGVAHFYHTKGKHLITSKIEHKAVLDTMRQLEREGFEVTYIEPGEDGIITPAMVEAVLRDDTILVSIMHVNNEIGTVNDIAAIGELTRSKGVLFHVDGAQSTGKVDIDLSKLKVDLMSFSAHKTYGPKGIGALYVSRKPRVRLEATMHGGGHERGMRSGTLATHQIVGMGEAFRVAKEDMAAENVRIKALSDRFFKQVEHLEELYVNGSMTARVPHNLNLSFNYVEGESLIMALKDLAVSSGSACTSASLEPSYVLRALGRNDELAHSSIRFTFGRFTTEEEIDYAAQKVCEAVTKLRALSPLWDMYKDGVDISKIEWAAH	PGPT0000065_2203	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
D1-35_00006	387	iscU	COG0822	Iron-sulfur cluster assembly scaffold protein IscU	ATGGCATATAGCGAAAAGGTCATCGACCACTACGAGAACCCGCGCAACGTCGGCAAGATGGACGCGCAGGATCCTGACGTCGGCACCGGCATGGTCGGCGCCCCGGCGTGCGGCGACGTGATGCGTCTGCAGATCAAGGTCAACGAACAAGGCATCATCGAAGATGCCAAGTTCAAGACCTACGGCTGCGGCTCCGCCATCGCGTCCAGCTCCCTGGCCACCGAGTGGATGAAGGGCAAGACTCTCGACGAAGCCGAAACCATCAAGAACACTCAGTTGGCCGAAGAACTGGCCTTGCCGCCAGTGAAAATCCACTGCTCGGTACTCGCTGAAGACGCCATCAAGGCCGCCGTTCGCGACTACAAGCAGAAGAAAGGCTTGATCTGA	MAYSEKVIDHYENPRNVGKMDAQDPDVGTGMVGAPACGDVMRLQIKVNEQGIIEDAKFKTYGCGSAIASSSLATEWMKGKTLDEAETIKNTQLAEELALPPVKIHCSVLAEDAIKAAVRDYKQKKGLI	PGPT0000075_2825	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000075-nifU|iscU-K04488	NA	NA
D1-35_00007	324	iscA	COG0316	Iron-binding protein IscA	ATGGCTATCCAGATGACAGAAGCGGCAGCTAACCATATCCAGCGCTCACTTGCGGGGCGCGGCAAGGGCGAGGGTATCCGCCTGGGTGTTCGCACCACGGGTTGTTCCGGCCTCGCCTATGTACTGGAATTCGTCGACGAAGTCGGTGAAGACGATCAGGTGTTCGAGAGTCATGGTCAGAAAGTGATCATCGACCCCAAGAGCTTGACGTACCTGGACGGCACCGAGCTGGATTTCGTCAAGGAAGGGTTGAACGAAGGCTTCAAGTTCAACAACCCCAACGTGCGCGGTGAATGTGGCTGCGGCGAAAGCTTCAACATCTGA	MAIQMTEAAANHIQRSLAGRGKGEGIRLGVRTTGCSGLAYVLEFVDEVGEDDQVFESHGQKVIIDPKSLTYLDGTELDFVKEGLNEGFKFNNPNVRGECGCGESFNI				NA	NA	NA	NA	NA
D1-35_00008	522	hscB	COG1076	Co-chaperone protein HscB	GTGGGTACTCCTTGTCATTTTGCGTTGTTCCAGTTGCAGCCTGCTTTCCAGCTGGACCTCGATCAGTTGTCCGCGCGTTATCTGGAACTGGCCCGTGGTGTCCACCCCGACCGCTTTGCCGATGCCTCCGAGGCTGAGCAGCGGCGGGCGCTCGAGCAGTCGGCGAACCTCAACGAGGCCTACCAGACGCTCAAGAGTCCGGCCAAGCGCGCGCGGTACCTGCTCGCCATCAGCGGTCATGAGCTGCCCCTGGAAGTCACGGTGCACGACCCCGAGTTCCTGTTGCAGCAGATGCAATGGCGCGAGGAGCTCGAAGACCTGCAGGACAGTGCCGACCTGGCGGGTGTCGCGGTCTTCAAGCGTCGCCTGAAAGACGCCCAGCAAGAACTCAACGAGAGCTTCGCCGCCTGTTGGAACGACGCTGCGCAACGCGAACAGGCCGAACGCCTGATGCGGCGCATGCAGTTCCTCGACAAGCTGACCTACGAAGTGCGCCAGCTGGAAGAGCGCCTCGACGATTAA	MGTPCHFALFQLQPAFQLDLDQLSARYLELARGVHPDRFADASEAEQRRALEQSANLNEAYQTLKSPAKRARYLLAISGHELPLEVTVHDPEFLLQQMQWREELEDLQDSADLAGVAVFKRRLKDAQQELNESFAACWNDAAQREQAERLMRRMQFLDKLTYEVRQLEERLDD				NA	NA	NA	NA	NA
D1-35_00009	1863	hscA	COG0443	Chaperone protein HscA	ATGGCCCTACTGCAGATCGCCGAACCCGGCCAAAGTCCACAACCGCACCAGCGTCGCCTGGCTGTCGGGATCGACTTGGGTACCACCAATTCCCTGGTCGCTGCTTTGCGCAGCGGTCTTTCCGAGCCGCTGGCCGACGAGCAGGGGCGGGTGATCCTGCCGTCTGCCGTGCGCTACCACGCCGATCGCGTCGAAGTTGGCGAGTCGGCGAAGCTGGCCGCCGCCACCGATCCACTCAATACCGTCGTGTCGGTCAAGCGCTTGATGGGTCGTGGTCTGTCCGACGTCAAGCAATTGGGCGATCAACTGCCGTACCGTTTCGTCGGCGGCGAATCCCACATGCCGTTCATCGAGACCGTGCAGGGCCCGAAAAGCCCGGTAGAAGTTTCCGCCGATATCCTCAGGGTCCTGCGTCAGCGCGCCGAAGCCGCGTTGGGCGGTGAACTGGTGGGCGCGGTGATCACCGTTCCGGCCTATTTCGATGATGCCCAGCGCCAAGCCACCAAGGACGCGGCCAAGCTCGCCGGTCTCAACGTGCTGCGTCTGCTCAACGAGCCGACGGCGGCTGCGGTGGCGTACGGGCTGGACCAGCATGCCGAGGGCCTCGTCGCCATTTACGACCTGGGCGGCGGCACGTTTGATATTTCGATCCTGCGCCTGACCGGCGGGGTCTTCGAAGTCCTCGCCACCGGTGGCGACAGCGCCCTGGGCGGCGACGATTTCGATCACGCTATTGCCGGCTGGATCATCGAGCAGGCGGGGTTGTCCGCCGATCTCGATCCGGGGACCCAGCGCCATCTGCTGCAAACCGCCTGCGCCGCCAAGGAAGCCTTGACCGACGCCGCCAGCGTTGAAGTCGCTTACGGCGAATGGACAGCCACGCTGACCCGCGAAGCCTTCAATGCCCTGATCGAACCCATGGTCGCCCGCAGCCTCAAGGCCTGCCGCCGTGCCGTGCGTGATTCCGGCATCGAGCTGGAAGATGTCAAGGCCGTGGTCATGGTCGGTGGTTCGACCCGCGTGCCTCGGGTTCGCGAAGCCGTTGCCGAAGCCTTTGGCCGCCAGCCGCTGACTGAAATCGACCCGGACCAGGTGGTCGCCATCGGTGCCGCGATCCAGGCCGATACCCTGGCTGGCAACAAGCGCGAGGGCGGCGAATTGCTGCTGCTCGACGTGATTCCGTTGTCCCTGGGCCTGGAAACCATGGGCGGCCTGATGGAGAAGGTGATCCCGCGCAACACCACCATCCCCGTCGCTCGCGCCCAGGATTTCACTACTTATAAAGACGGCCAGTCGGCCATGATGATTCATGTGCTGCAAGGCGAGCGTGAATTGATCAGCGACTGCCGCTCCCTCGCGCGTTTCGAATTGCGCGGCATCCCGGCGATGGTTGCCGGCGCGGCGAAGATTCGCGTGACCTTCCAGGTCGACGCCGATGGCCTGCTCAATGTCTCCGCCCGCGAACTCGGTTCGGGCGTCGAGGCAAGCATCCAGGTCAAGCCGTCCTACGGCCTGACCGACGGCGAAATCGCCAAGATGCTCAAGGATTCGTTCCAGCACGCCAGCGACGACAAAGTCGCCCGTGTGCTGCGCGAGCAGCAGGTCGATGCCCAGCGCCTGGTCGAAGCCGTGCAAGCCGCCCTCGAAGCCGACGGCGAGCGCTTGCTCGACGCCGAGGAGCGCATGGTCATCGAAATGCAGATGCAAGAACTCTCCGAATTGATCAAGGGCACGGATGGTTATGCCATCGAGCAGCAGACCAAGCGTCTGTCGCAAGTCACCGATGCCTTTGCTGCCCGCCGCCTGGACTCGACGGTGAAAGCCGCCCTGGCGGGGCGCAACCTGAATGAAATCGAGGAATAA	MALLQIAEPGQSPQPHQRRLAVGIDLGTTNSLVAALRSGLSEPLADEQGRVILPSAVRYHADRVEVGESAKLAAATDPLNTVVSVKRLMGRGLSDVKQLGDQLPYRFVGGESHMPFIETVQGPKSPVEVSADILRVLRQRAEAALGGELVGAVITVPAYFDDAQRQATKDAAKLAGLNVLRLLNEPTAAAVAYGLDQHAEGLVAIYDLGGGTFDISILRLTGGVFEVLATGGDSALGGDDFDHAIAGWIIEQAGLSADLDPGTQRHLLQTACAAKEALTDAASVEVAYGEWTATLTREAFNALIEPMVARSLKACRRAVRDSGIELEDVKAVVMVGGSTRVPRVREAVAEAFGRQPLTEIDPDQVVAIGAAIQADTLAGNKREGGELLLLDVIPLSLGLETMGGLMEKVIPRNTTIPVARAQDFTTYKDGQSAMMIHVLQGERELISDCRSLARFELRGIPAMVAGAAKIRVTFQVDADGLLNVSARELGSGVEASIQVKPSYGLTDGEIAKMLKDSFQHASDDKVARVLREQQVDAQRLVEAVQAALEADGERLLDAEERMVIEMQMQELSELIKGTDGYAIEQQTKRLSQVTDAFAARRLDSTVKAALAGRNLNEIEE	PGPT0014555_5374	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014555-dnaK-K04043	NA	NA
D1-35_00010	342	fdx_1	COG0633	2Fe-2S ferredoxin	ATGCCGCAGGTGATTTTTCTGCCCCACGAGAAGTTCTGCCCGGACGGCATGGTCGTGGAAGCCGAGCCCGGAACGTCCATTCTTGACCTGGCCCACGAACACCACATCGAGATGGAAAGCGCCTGTGGCGGCGTTTGCGCTTGCACGACCTGCCACTGCATCATTCGTGAAGGTTTCGAGTCGCTGGAAGAGGCGGACGAGCTGGAAGAAGACTTTCTTGACCGCGCCTGGGGGCTTGAGCCGCAGTCGCGTCTGGGGTGCCAGGCTATCGTCGGCACTGAAGACCTGACCGTCGAAATCCCGAGATACTCACTTAACCATGCGGCCGAAGCGCCGCACTGA	MPQVIFLPHEKFCPDGMVVEAEPGTSILDLAHEHHIEMESACGGVCACTTCHCIIREGFESLEEADELEEDFLDRAWGLEPQSRLGCQAIVGTEDLTVEIPRYSLNHAAEAPH	PGPT0006786_368	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0006786-fdx|cndB-K04755
D1-35_00011	201	iscX	COG2975	Protein IscX	ATGAGCTATGGTTGGAATGATGTACAACGCATCGCGGAAGAATTGGCCGAAGCCCACGAGGGTCTCGATCCGTACTCTGTAGGTTTCGTCCGTCTGCAGCAGATGATCCTTGAGCTGCCTGACTTCGATTCCACCTCTGGCCGAGTCGGCGAGAAGGTGTTGGAAGCGGTTCAGGAGCTCTGGGCCGCAGAATTGGACTGA	MSYGWNDVQRIAEELAEAHEGLDPYSVGFVRLQQMILELPDFDSTSGRVGEKVLEAVQELWAAELD				NA	NA	NA	NA	NA
D1-35_00012	426	ndk	COG0105	Nucleoside diphosphate kinase	ATGGCTGTTCAACGTACTTTCTCCATCATCAAGCCTGACGCCGTTGCTAAAAACGTGATCGGCAAGATCGTTACCCGCTTCGAAGACGCTGGCCTGCGCGTTGTAGCTTCGAAAATGAAGCAACTGTCCAAAGCCGAAGCCGAAGGCTTCTACGCCGAGCACAGCGAGCGCGGTTTCTTCGGTGAACTGGTTGCCTTTATGACTTCCGGTCCGGTTGTCGTTCAGGTGCTGGAAGGCGAAAATGCCATCGCTCGCAACCGTGAGCTGATGGGCGCTACCAACCCTAAAGAAGCTGCTGCCGGCACCATCCGTGCTGACTTCGCTGAATCCATCGACGCCAACGCCGTCCACGGTTCGGACTCCGAAGCCGCCGCTGCTCGCGAAATCGCTTACTTTTTCTCCGCTACTGAAGTAACCACTCGCTAA	MAVQRTFSIIKPDAVAKNVIGKIVTRFEDAGLRVVASKMKQLSKAEAEGFYAEHSERGFFGELVAFMTSGPVVVQVLEGENAIARNRELMGATNPKEAAAGTIRADFAESIDANAVHGSDSEAAAAREIAYFFSATEVTTR	PGPT0021210_3568	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021210-ndk-K00940	NA	NA
D1-35_00013	1149	rlmN	COG0820	Dual-specificity RNA methyltransferase RlmN	ATGACTACATCGAACGGCAAAACCAACCTGTTGGGCCTGACCCAGCCGGAAATGGAGAAATTCTTCGACTCGATCGGGGAGAAGCGTTTCCGTGCCGGTCAGGTGATGAAATGGATTCACCACTTTGGCGTCGACGATTTCGACGCCATGACGAATGTCGGCAAGGCCCTGCGCGAAAAGCTCAAGGCCGTTGCCGAGATTCGCGGCCCCGAAGTGGTCAGCCAGGACATTTCCAGCGACGGCACCCGCAAGTGGGTGGTGCGCGTGGCGTCCGGCAGCTGCGTCGAGACCGTCTACATTCCCCAGGGCAAGCGCGGCACCTTGTGCGTTTCGTCCCAGGCAGGCTGTGCCCTGGATTGCAGTTTCTGCTCCACCGGCAAGCAAGGCTTCAACAGCAACCTCACCGCCGCCGAAGTGATCGGCCAGGTGTGGATTGCCAACAAATCCTTTGGCAGCGTCCCGGCAACCGTCGACCGTGCCATCACCAACGTGGTGATGATGGGCATGGGGGAGCCGCTGCTGAACTTCGACAACGTCGTCTCCGCCATGCACCTGATGATGGACGACCTGGGCTACGGCATCTCCAAGCGCCGCGTGACCCTGTCCACCTCCGGCGTGGTGCCGATGATCGATGAGCTGGCCAAGCACATCGACGTCTCCCTGGCGTTGTCGCTGCACGCACCGAATGACGCATTGCGTAACCAATTGGTGCCGATCAACAAGAAATATCCGCTTAAGATGCTGCTCGAGTCGTGCCAGCGCTACATGTCGTCCCTGGGCGAAAAACGCGTGCTGACCATCGAGTACACCTTGCTCAAGGACGTGAATGACAAGGTTGAACACGCGGTCGAGATGATCGAGCTGCTCAAGAACATCCCGTGCAAGATCAACCTGATCCCGTTCAACCCGTTCCCGCATTCCGGCTACGAGCGTCCGAGCAACAATGCGATTCGTCGGTTCCAGGATCAGCTTCACCACGCTGGCTTCAACGTCACCGTGCGCACCACCCGTGGCGAAGACATCGATGCCGCGTGTGGCCAATTGGTAGGACAGGTGCTGGATCGCACCCGTCGCAGCGAACGCTACATTGCCGTGCGCGAATTGAACGCCGCGGACGATGCAGTACAGAACGCTGCGAACAGTCACTAA	MTTSNGKTNLLGLTQPEMEKFFDSIGEKRFRAGQVMKWIHHFGVDDFDAMTNVGKALREKLKAVAEIRGPEVVSQDISSDGTRKWVVRVASGSCVETVYIPQGKRGTLCVSSQAGCALDCSFCSTGKQGFNSNLTAAEVIGQVWIANKSFGSVPATVDRAITNVVMMGMGEPLLNFDNVVSAMHLMMDDLGYGISKRRVTLSTSGVVPMIDELAKHIDVSLALSLHAPNDALRNQLVPINKKYPLKMLLESCQRYMSSLGEKRVLTIEYTLLKDVNDKVEHAVEMIELLKNIPCKINLIPFNPFPHSGYERPSNNAIRRFQDQLHHAGFNVTVRTTRGEDIDAACGQLVGQVLDRTRRSERYIAVRELNAADDAVQNAANSH				NA	NA	NA	NA	NA
D1-35_00014	759			hypothetical protein	ATGTCCCTGCGCTTTGCGCTGCTGTTGCTGCTGGCCGGTCTTTGTTCCGGTTGTGTTCTGTCGGGCGACTATAACCCGATGAAAACCAGCAAGGGCCGTGACGAAGCGCGCGAGGCCTATGTGCAGCTGGGCATCGGCTATTTGCAACAGGGCATGACCGAACGGGCCAAGGTGCCGCTCAAGAAGGCCCTTGAGCTGGACAGCTCGGACGCCGATGCCAATGCGGCGCTGGCCCTGGTGTTCCAGGCCGAGATGGAGCCGGAACTGGCCGACGAACACTTTCGCAAGGCGTTGTCCGCTCGCCCGCAAGACGCCCGGATCCTCAACAACTACGGCAGCTTCCTCTACGAGCAGGCACGCTACAAGGAAGCCTACGAGCGCTTCGAGCAAGCGGCCGCCGATACCCTTTACCCTGAGCGTTCGCGGGTGTTCGAGAACCTCGGCATGACCGCCGCGAAACTCGGCCAGCGTGACCTGGCCCGCCAGCAGCTCGAAAAGGCGCTGCGGCTCAACCGCCAGCAACCGCGCGCGTTGCTGGAAATGGCTGAGTTGTCTTACGAAGACAGGCATTATGTGCCCGCTCGCGACTATTACGAGCGGTTTAGCCTGCTCAGCGAGCAAAATGCACGTAGTCTATTGCTCGGCGTTCGGCTGGCGCATGTGTTTGAAGATCGTGACAAGGCCGCCAGTTATGGCCTGCAACTCAAAAGACTCTATCCCGGTACGCCGGAATATCAGCAATACCTGTCGGAGCAATGA	MSLRFALLLLLAGLCSGCVLSGDYNPMKTSKGRDEAREAYVQLGIGYLQQGMTERAKVPLKKALELDSSDADANAALALVFQAEMEPELADEHFRKALSARPQDARILNNYGSFLYEQARYKEAYERFEQAAADTLYPERSRVFENLGMTAAKLGQRDLARQQLEKALRLNRQQPRALLEMAELSYEDRHYVPARDYYERFSLLSEQNARSLLLGVRLAHVFEDRDKAASYGLQLKRLYPGTPEYQQYLSEQ	PGPT0015935_720	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015935-pilF-K02656	NA	NA
D1-35_00015	1032	rodZ	COG1426	Cytoskeleton protein RodZ	ATGAAAGCGGCGCATCCCGAAGTTGTAGCAGCGACTCGCGTAAATCCCGGTGAGACCCTGCGTCAAGCCCGCGAAAGCAATGGTTGGTCGCTGGCCGAAGTGGCCCTCAAGCTCAATCTCACCGTGACTTCCCTGAGCAACCTGGAAGCCGGCGCGTTCGACAAATTGCCTGGGCATACTTTCGCCCGGGGCTACATCCGCGCCTATGCCAAGTTGCTTGGCATGGACCAGACCGTGCTGGTCCAGCAATTCGATCAATACACCGGTTCCGACGCCCAGGGCAGCAGTGTGCACAGCCTGGGCCGTATCGAGGAGCCAGTGCGCGTTTCCCATACCATTTTGCGTATCGTCAGCCTGTTGCTGCTGATCGCGGTGATCGGTGGCGGTTTCGTCTGGTGGCAGGATCAGGCTTCCTTGCGCAGCAAGGAGCCGGTTGCGATGAACCCTGAGCATGTCGAAGTCGAAGGCGCCGACGGCACCACCCAGATTCATCCGCTGGATGAACCGGAAGACCAGGCTGTTGTCGAGGGGCAGACTGAGGGTGAAACCGCCCTGGCATTGCCTCAAGGCCAAGATAACGGCGAGACTGATGCCGCCGCGGGTGCCGAGCCTGTCGTGCCATCCGTTCCCGCGCCAGCCCCAACACCTGCCGCCCCCACGGCTCCGGCCCATTCCGGCAGCGCGCCGACCACCCCGGCGGCTCCTGCTCCTGTCACGCCAGCGCCAACCGTGGCCGCTCCGGCCGTGCCAGCAGCGCCAGCAACCCCGGCGGCCCCGGCTCCTGCGCCCGGCGATGGCCAGGTACAGATCCAGTTCACCGCCGATTGCTGGACGCAGATTACCGACGGCAACGGCAAGGTCCTGTTCAGCGGCCTCAAGCGCAAGGGCGACAGCACGTCCGTCAACGGCCGGCCGCCGTTTGCCGTACGCCTGGGCTATGCCCGTGGCGCGCAGGTCAGCTACAACGGCCAGCCGGTCGATGTGGCTCCGTTCACCAGTGGCGAGACCGCTCGCCTGAAGTTGGGTCAATAA	MKAAHPEVVAATRVNPGETLRQARESNGWSLAEVALKLNLTVTSLSNLEAGAFDKLPGHTFARGYIRAYAKLLGMDQTVLVQQFDQYTGSDAQGSSVHSLGRIEEPVRVSHTILRIVSLLLLIAVIGGGFVWWQDQASLRSKEPVAMNPEHVEVEGADGTTQIHPLDEPEDQAVVEGQTEGETALALPQGQDNGETDAAAGAEPVVPSVPAPAPTPAAPTAPAHSGSAPTTPAAPAPVTPAPTVAAPAVPAAPATPAAPAPAPGDGQVQIQFTADCWTQITDGNGKVLFSGLKRKGDSTSVNGRPPFAVRLGYARGAQVSYNGQPVDVAPFTSGETARLKLGQ				NA	NA	NA	NA	NA
D1-35_00016	1110	ispG	COG0821	4-hydroxy-3-methylbut-2-en-1-yl diphosphate synthase (flavodoxin)	ATGCACGGCGAATCTCCTATCAAGCGTCGCGAATCCCGGAAGATCTGGGTCGGTAACGTGCCCGTGGGCGGCGATGCGCCAATCGCTGTGCAGAGCATGACCAACAGCGACACCAATGACGTGGCCGCCACGGTCGCGCAAATCAATCGTCTTGAAGCCGCCGGCGTCGATATCGTCCGCGTATCCGTGCCGGACATGGACGCCGCCGAGGCGTTCGGCAAGATCAAGCAGCTGGTCAAGGTGCCGTTGGTGGCCGACATTCACTTCGACTACCGCATTGCCTTGCGCGTGGCCGAGCTGGGCGTCGACTGCCTGCGTATCAACCCGGGCAACATCGGTCGCGAAGATCGCGTGCGCGCGGTGGTGGATGCCGCCCGTGATCGCGGCATTCCGATCCGTATCGGCGTCAATGCCGGTTCCCTGGAAAAAGACCTGCAGAAGAAGTACGGCGAACCGACTCCGGCCGCGCTGGTGGAATCGGCGCTGCGCCATGTCGAGCACCTTGAACGCCTGAATTTCCCGGACTTCAAGGTCAGCGTGAAGGCCTCCGACGTGTTCATGGCCGTCGAAGCCTACCGCCTGCTGGCCAAGGAAATCGTCCAGCCGTTGCACCTGGGCATCACCGAAGCCGGTGGGTTGCGCTCGGGTACGGTGAAATCTGCCGTCGGCCTCGGTATGCTGCTCGCCGAAGGGATTGGCGATACCATCCGCATCTCGTTGGCGGCGGACCCGGTCGAGGAAGTGAAAGTCGGCTACGACATCCTCAAGTCCCTGCACTTGCGTTCCCGTGGGATCAACTTCATCGCCTGCCCGAGCTGCTCGCGGCAGAACTTCGATGTGGTCAAGACCATGAACGAGCTGGAAGGGCGCCTTGAAGACCTGCTGGTGCCGCTGGATGTCGCGGTGATCGGTTGCGTGGTCAACGGGCCCGGCGAAGCCAAGGAGGCCCATATCGGCCTGACGGGCGGCACGCCGAACCTGATTTACATCGACGGCAAGCCGTCGCAGAAACTGACGAATGACAATCTGGTGGATGAGCTGGAAAAGCTGATCCGCCAGAAAGCGGCCGAAAAGGTCGAAGCCGACGCAGCGGTCATCGCGCGCGGTTAA	MHGESPIKRRESRKIWVGNVPVGGDAPIAVQSMTNSDTNDVAATVAQINRLEAAGVDIVRVSVPDMDAAEAFGKIKQLVKVPLVADIHFDYRIALRVAELGVDCLRINPGNIGREDRVRAVVDAARDRGIPIRIGVNAGSLEKDLQKKYGEPTPAALVESALRHVEHLERLNFPDFKVSVKASDVFMAVEAYRLLAKEIVQPLHLGITEAGGLRSGTVKSAVGLGMLLAEGIGDTIRISLAADPVEEVKVGYDILKSLHLRSRGINFIACPSCSRQNFDVVKTMNELEGRLEDLLVPLDVAVIGCVVNGPGEAKEAHIGLTGGTPNLIYIDGKPSQKLTNDNLVDELEKLIRQKAAEKVEADAAVIARG	PGPT0007580_3271	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007580-gcpE|ispG-K03526	NA	NA
D1-35_00017	1290	hisS	COG0124	Histidine--tRNA ligase	GTGAGCAAGTCTCTGCAAGCCATTCGTGGCATGAACGACATCCTGCCCGAGCAGACGCCCCTGTGGCGCTATTTCGAGGGCACCGTCGCGCGCCTGCTGGATAACTACGGTTACCGGCAGATCCGCATGCCCATCGTCGAGTTCACCGAGCTGTTCAAGCGCTCCATCGGTGAAGTGACCGACATCGTCGAAAAAGAGATGTACACCTTCGACGACCGCAACGGCGATTCCCTGACCCTGCGCCCCGAAGGCACGGCAGCATGCGTGCGTGCAGTGCTTGAGCACGGCATCACCGGCGGCGGCCAGGTGCAGAAACTCTGGTACATCGGCCCGATGTTCCGCCACGAGCGTCCGCAGAAAGGTCGTTATCGCCAGTTTCACCAGATCGGCCTCGAAGTATTCAACCTTGAAGGTCCGGACATCGATGCCGAGCTGATTGTGATGACCTGGCGCCTGTGGGGCGAGCTGGGCCTGCGCGATGCGGTCAAGCTTGAGCTCAACAGCCTGGGCACCAGCGAATCCCGTGGCCGCTACCGCGAGGCGTTGGTGGAGTTTCTGTCCGCCCATGTCGACAAGCTCGACGAAGACAGCCAGCGCCGCCTGAAGACCAACCCGCTGCGCGTGCTTGATACCAAGCACCCGGAGACCCAGGCGATCCTGGTGGACGCGCCGAAAATGGCCGACTACCTCGACGACGAATCCCGCGCGCATTTCGAAGGGCTGAAGGCACGTCTGGACGCCGTCGGCATCCCTTACGTGATCAACCCCAAGTTGGTCCGTGGCCTGGATTACTACAGCAAGACCGTCTTCGAGTGGGTCACCGACAAGCTCGGCGCCCAAGGCACCGTGTGCGCCGGTGGCCGCTACGACGGGCTGGTGGAGCAGATGGGCGGCAAGCCGACCCCGGGCGTGGGTTTTGCCATGGGCATCGAGCGTCTGGTGCTGATGCTTGAAGCGCTGGACAAGGTGCCGGAAGAGCTGGCCCGCCAGGTCGATGTGTACCTCTGCGCCTTTGGCGAGGCCGCCGAACTGGCCGCCCTGGCCCTGAGCGAGCGAGTGCGCGATCAGTTGCCCAACCTGCGCCTGCAGATCAACGCCGGCGCCGGCAGCTTCAAGAGCCAATTCAAGAAGGCCGACAAGAGCGGTGCACTGTACGCACTGATTCTTGGTGACGACGAACTGGCCCAACAAGTGGTAGGTTTCAAACCCCTGCGTGGCCAGGGCGAACAACAAAGCATTGCCTGGGATGCGCTTGCTGCACACCTGGCCACCTGCGTCGTGCAGGGTTGA	MSKSLQAIRGMNDILPEQTPLWRYFEGTVARLLDNYGYRQIRMPIVEFTELFKRSIGEVTDIVEKEMYTFDDRNGDSLTLRPEGTAACVRAVLEHGITGGGQVQKLWYIGPMFRHERPQKGRYRQFHQIGLEVFNLEGPDIDAELIVMTWRLWGELGLRDAVKLELNSLGTSESRGRYREALVEFLSAHVDKLDEDSQRRLKTNPLRVLDTKHPETQAILVDAPKMADYLDDESRAHFEGLKARLDAVGIPYVINPKLVRGLDYYSKTVFEWVTDKLGAQGTVCAGGRYDGLVEQMGGKPTPGVGFAMGIERLVLMLEALDKVPEELARQVDVYLCAFGEAAELAALALSERVRDQLPNLRLQINAGAGSFKSQFKKADKSGALYALILGDDELAQQVVGFKPLRGQGEQQSIAWDALAAHLATCVVQG				NA	NA	NA	NA	NA
D1-35_00018	642			hypothetical protein	GTGTCGAGTACCGAAGATGAACAGCTGGCGGATTTGAAGGACTGGTGGACGCGCAACGGCAAGCCGCTGGTCACTGGCGGCCTGTTGGCGCTGGTCATCGTGTTCGGCTGGCAGGCCTACCAGAAATACCAGAGCAACCAGTCGCAAGGTGCCTCGGTGCTTTACCAGCAACTGCTGGAAACCACCCTGACCCCCGACGGCAAGCCTGACGCGGCGCGCGTGGCCGACCTGGCCGGCAAGCTCAACAAAGAGTTCGGCGGCACCGCCTATGCCCAGTACGGCAGCCTGTTCGTGGCCAAGGTCGCGGTCGACAGCGGCAAGCTGGACGACGCGGTCACCGAGCTGAAAGCCATCGTCGACAAACCGGCCAACCCGACCCTGGGCGAAGTCGCGCGTCAGCGCCTGGCGCAGGTGCTGGCAGCACAGAACAAGGCCGAAGACGCGCTGAAGCTGCTCGACGGCGACGCCGACAAGGCGTTCCTGGCGACCCGCGAAGAACTCAAGGGCGACCTGCTGGTACAGCTGGGCCGTGCCAATGAGGCCCATGCGGCCTACCAAAAAGCCAAGGCTGCGCTGTCGGATGAAGCCGCAGTCGGTGGCCTGCAAATCAAGCTGGACGACCTGGCCAAAGGGGATGCGTGA	MSSTEDEQLADLKDWWTRNGKPLVTGGLLALVIVFGWQAYQKYQSNQSQGASVLYQQLLETTLTPDGKPDAARVADLAGKLNKEFGGTAYAQYGSLFVAKVAVDSGKLDDAVTELKAIVDKPANPTLGEVARQRLAQVLAAQNKAEDALKLLDGDADKAFLATREELKGDLLVQLGRANEAHAAYQKAKAALSDEAAVGGLQIKLDDLAKGDA				NA	NA	NA	NA	NA
D1-35_00019	1206	bamB	COG1520	Outer membrane protein assembly factor BamB	ATGAAGCCGCAGTCGGTGGCCTGCAAATCAAGCTGGACGACCTGGCCAAAGGGGATGCGTGACGTGATCCGTTGGAAACATGCAGCATTGCTGGCCCTGGCCATTCTGGCCGCGGGTTGCAGCAGCAACAGCAAGAAAGAACTGCCTCCGGCCGAACTGACCGATTTCAAAGAAGAAGTCGTGCTGCAGAAGCAATGGAGCCGCTCCATCGGTGACGGCCAGGGTGAAACCTACAACATGCTGGTGCCGGCCATCGACGGCGACACCCTCTATGCCGGCGACGTGACTGGCGTCGTCATGGCCATGGATCGCATGAGCGGCGACGTCAAATGGGAAAAGGATCTTGAGCTGCCTGTGTCCGGCGCCGTTGGCGTGGGTTACGGGCTGGTCATGATCGGCACGCTCAAGGGCGAGATCGTCGCCCTGGACGCGAGCAGCGGTGAAGAGAGATGGCGCGCCCGCGTGACCAGCGAAGTGCTCGCGCCGCCCGCTACCAACGGTGACGTGGTGGTGGTGCAGACCCAGGACGACCGCCTGATTGGCCTGGATGCCGCCACCGGCAACCAGCGCTGGTTGTACGACAGCACTCCGGCGGTACTGACCCTGCGTGGCACCAGTGCGCCGATCGTCACCAACCGCCTCGCGGTGGCTGGCTTGTCGACCGGTAAAGTCGTGGCCCTGGATATTTCCAACGGCGTACCGGTCTGGGAACAGCGCGTAGCGATCCCGCAAGGTCGTTCGGAGCTGGAGCGTGTGGTCGACATCGACGGCGGCCTGCTGCTGTCCGGCGGTACGCTGTACGTCGCCAGTTACCAGGGCCGCGTTGCGGCGCTGGACCTGGAAAGCGGCCGTCCGTTGTGGCAGCGCGATGCGTCGAGCTACGCCGGTGTCGCCCAAGGTTTCGGTAGCGTCTACGTGAGCCTGTCCTCGGGCACCGTCGAAGGTGTTGACGAGCGTTCCACCACCGCATTGTGGAGCAACGACTCCCTGGCCCGTCGCCAACTGTCGGCCCCGGAAGTGTTCTCCAGCTACGTTGCAGTGGGTGACCTGGAAGGTTACCTGCACCTGCTCAGCCAGGTTGACGGTCGTTTCGTCGGTCGCGAGCGCATCGACAGCGACGGCCTGCGTGCCCGTCCGCTGGTGGTGGGAAACATGATCTATGTGTATGGCAACAGCGGCAAACTGGAAGCCCTGACCATCAAGTAA	MKPQSVACKSSWTTWPKGMRDVIRWKHAALLALAILAAGCSSNSKKELPPAELTDFKEEVVLQKQWSRSIGDGQGETYNMLVPAIDGDTLYAGDVTGVVMAMDRMSGDVKWEKDLELPVSGAVGVGYGLVMIGTLKGEIVALDASSGEERWRARVTSEVLAPPATNGDVVVVQTQDDRLIGLDAATGNQRWLYDSTPAVLTLRGTSAPIVTNRLAVAGLSTGKVVALDISNGVPVWEQRVAIPQGRSELERVVDIDGGLLLSGGTLYVASYQGRVAALDLESGRPLWQRDASSYAGVAQGFGSVYVSLSSGTVEGVDERSTTALWSNDSLARRQLSAPEVFSSYVAVGDLEGYLHLLSQVDGRFVGRERIDSDGLRARPLVVGNMIYVYGNSGKLEALTIK				NA	NA	NA	NA	NA
D1-35_00020	1473	der	COG1160	GTPase Der	ATGGTTCCCGTAATCGCCCTGGTGGGCCGACCGAACGTCGGCAAGTCCACCTTGTTCAACCGCCTGACCAGGACTCGCGACGCTATCGTCGGCGACTTGTCCGGTCTGACCCGTGATCGCCAATACGGTGAGGCCAAGTGGCAAGGGCGTACCTATATTCTGGTCGACACCGGTGGCATCTCCGGTGATGAACACGGCATGGACGAAAAAATGGCCGAGCAGTCGCTGCTCGCCATCGAAGAAGCCGATGTGGTGCTGTTCCTGGTAGACGCCAAGGCCGGTTTTACCGCCGCCGACCAGATGATCGCCGAGCATTTGCGCAAACGTAACAAGCGTTCCTATGTGGTCGCCAACAAGGTCGACAATATCGACCCGGACATGGCTCGCGCCGAGTTCGCACCTTTGGGCATGGGCCAGGCGATTCCGATCGCCGGTGCCCACGGTCGCGGCATCACCCAGATGCTGGAAATCGCCCTGGCTGATTTCCCCAAGGACGATGAAGACGAGCCGGAAGAGGGCGAGGAAGAAGTCGTTGCCGAGGGCGAGGAAGCCAAGCGCATTCCGGGTCCGAGCGAAAAGGACGGCATCAAGATCGCTATCATCGGCCGCCCGAACGTCGGCAAGTCGACGCTGGTCAACCGCATGCTCGGTGAAGACCGGGTCATCGTCTACGACCAGCCCGGCACCACCCGTGACAGCATCTACATTCCCTTCGAGCGTAACGAAGAGAAGTACACGCTGATTGACACGGCCGGTGTGCGCAAGCGCGGCAAGATCCACGAAGAAGTCGAAAAATTCTCCGTGGTCAAAACGCTGCAGGCGATCAAAGACGCCAACGTGGTCATCTTCGTGATGGACGCCCGCGAAGGCGTGGTCGATCACGACTTGAACCTGCTGGGCTTCGCCCTGGAAGCCGGTCGTGCACTGGTCATCGCGATCAACAAGTGGGACGGCATGACGCCGAGCGAGCGCGATTACGTCAAGGTCGAACTGCAGCGTCGGCTGTTCTTCGTCGACTTTGCCGACATCCACTTCATCTCGGCCCTGCACGGTACCGGCGTGGGCAACCTCTACGCCTCGGTGCAGAACTCGTTCAAGTCGGCGGTTACCCGCTGGCCGACCAACCGCCTGACCCAGATTCTCGAAGACGCGGTCGGCGAGCATGCGCCACCGATGGTCAACAACCGCCGGATCAAGCTGCGCTACGCCCACTTGGGCGGTGCCAACCCACCGATCATCGTGATCCACGGTAACCAGATCGAGAAGGTGCCCAAGTCCTACGTTCGTTATCTGGAAAACACTTACCGTCGCGTCCTGAAGCTGGTCGGCACGCCGATCCGCATCGAGTTCAAGGGCGGCGAGAACCCGTACGAAGGCAACAAGAACACGCTCACCGACCGCCAGGTCAACAAGAAGCGCCGCTTGATGTCGCACCACAAGAAGGCCGACAAGAAGCGCCGCGACAAGCGCTGA	MVPVIALVGRPNVGKSTLFNRLTRTRDAIVGDLSGLTRDRQYGEAKWQGRTYILVDTGGISGDEHGMDEKMAEQSLLAIEEADVVLFLVDAKAGFTAADQMIAEHLRKRNKRSYVVANKVDNIDPDMARAEFAPLGMGQAIPIAGAHGRGITQMLEIALADFPKDDEDEPEEGEEEVVAEGEEAKRIPGPSEKDGIKIAIIGRPNVGKSTLVNRMLGEDRVIVYDQPGTTRDSIYIPFERNEEKYTLIDTAGVRKRGKIHEEVEKFSVVKTLQAIKDANVVIFVMDAREGVVDHDLNLLGFALEAGRALVIAINKWDGMTPSERDYVKVELQRRLFFVDFADIHFISALHGTGVGNLYASVQNSFKSAVTRWPTNRLTQILEDAVGEHAPPMVNNRRIKLRYAHLGGANPPIIVIHGNQIEKVPKSYVRYLENTYRRVLKLVGTPIRIEFKGGENPYEGNKNTLTDRQVNKKRRLMSHHKKADKKRRDKR				NA	NA	NA	NA	NA
D1-35_00021	1149	ybdL	COG0436	Methionine aminotransferase	ATGATCACCAGCAAGTTGCCGAATGTCGGCATCACCATTTTTACCCAGATGTCCCAGCTTGCCGCGCAGACCGGTGCGCTGAACCTGTCCCAGGGCTTTCCCGATTTCGATGGCCCGCAGGCCCTGCGCGATGCAGTGGGCCGGCATATCGCCCAAGGCCACAATCAATATTCGCCGATGACCGGCCTGCCAGCCCTGCGCCAGCAGATCGCGGCAAAGATCGCCCGCAGCTATGGCGCCAGCGTCGACGCCGATCAGGAAGTCACCGTGACCCCCGGCGCGACCCAGGCGATTTTCTGCGCCATCGCGGCGGTGGTACACAGCGGCGACGAAGTGATCGTCTTCGACCCAGCGTACGACAGCTACGAACCTGCCGTGCAACTGGCCGGCGGGCGTTGCGTACATGTGCAACTGGGCCTGGATGATTTTGCCATCGACTTCCAGAAGCTTGGCGAAGCCCTGAGTCCGCGCACGCGAATGATCATCCTCAACACGCCGCACAACCCCAGCGGCGCATTGATCAGCCGCGCCGAGCTGGACCAGTTGGCGGCGTTGATTCGCGACCGCGACATCTACCTGATCAGCGATGAGGTTTATGAGCATCTGGTATTCGACGACGTGCCCCATGTCAGCGTCCTTGCCCACGAAGAGCTTTATCGCCGTGCCTTCGTCGTCAGTTCGTTCGGCAAGACCTACCACGTCACGGGCTGGAAAACCGGCTACGTCGTCGCGCCAGCGGCCCTGACGGCGGAGCTGCGCAAGGTGCACCAGTACGTCAGTTTCTGCGGGGTGACACCGTTGCAATACGCGTTGGCCGACTACATGGCCGAGCATCCGGAGCATGTCGATGAACTGCCGGATTTCTATCAGGCCAAGCGCGACCTGTTCTGCGATCTGCTGGCGCCGTCGCGCTTCACTTTCCAGCGTGTCGCCGGCACGTATTTCCAGTTGGTGGATTATTCGCAGATCCGCCCGGACCTCAATGACGTCGACATGGCGCTCTGGATGACCCGCGAACACGGCGTGGCGACCATTCCGATCTCGGTGTTCTACCAGAACCCGCCGCAGGGCCAGCGCCTGGTGCGCCTGTGTTTTGCCAAACGCGAGGAGACGCTGCGCGAAGCGGCGGAAAAACTATGCGTGATCTGA	MITSKLPNVGITIFTQMSQLAAQTGALNLSQGFPDFDGPQALRDAVGRHIAQGHNQYSPMTGLPALRQQIAAKIARSYGASVDADQEVTVTPGATQAIFCAIAAVVHSGDEVIVFDPAYDSYEPAVQLAGGRCVHVQLGLDDFAIDFQKLGEALSPRTRMIILNTPHNPSGALISRAELDQLAALIRDRDIYLISDEVYEHLVFDDVPHVSVLAHEELYRRAFVVSSFGKTYHVTGWKTGYVVAPAALTAELRKVHQYVSFCGVTPLQYALADYMAEHPEHVDELPDFYQAKRDLFCDLLAPSRFTFQRVAGTYFQLVDYSQIRPDLNDVDMALWMTREHGVATIPISVFYQNPPQGQRLVRLCFAKREETLREAAEKLCVI	PGPT0020025_883	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020025-ybdL-K14287	NA	NA
D1-35_00022	795	yafV		Omega-amidase YafV	ATGCGTGATCTGAGCGCGTTGCCCAATCTGAACATTGCCTTGATCCAGACTACGCTGGCCTGGCATGACCGCGGGGCCAACCTGGAACATTTTGACGCGCTGCTCGAACAGGCGCGCGGGGCGGACCTGATCATCCTGCCGGAAATGTTCACCACCGGTTTTTCCATGGAGTCCGAGGCCCTGGCCGAGCCGGAGAACGGCCCCGCCAGCCAGTGGCTCAAGGCCCAGGCGGCAAAGCTGGACGCCGTGATCACCGGCAGCGTGATCATCCAGGCCGCCGACGGCAGCCATCGCAATCGCTTGCTGTGGGCGCGTCCGGATGGCGAGGTGCTGCATTACGACAAGCGTCATCTGTTTCGCATGGCCGGCGAGCACAACCATTACACACCGGGTGACCAGCAGGTGTTGTTCGAGCTCAAGGGCTGGCGGATTCGGCCGCTGATCTGCTACGACCTGCGCTTCCCGGCTTGGAGTCGCGATGCCGAGGACACCGACCTGTTGCTATACACCGCCAACTGGCCGGGCGCCCGGCGTCAGCACTGGAACCGGCTGCTGCCGGCACGGGCCATCGAAAATCTCTGCTATGTGGCGGCGGTGAACCGGATCGGCACCGACGGCAAGGGCTTCGCTTATACCGGAGACAGTCAGGTGCTGGACTTTCAGGGCGAGACGCTGCTCAGTGCCGGCGACGCCGACGGCGTGTTCACGGTGTGCCTGAGCGCGGCGGACCTGGCGGCGTATCGCACACGCTTTCCGGCGAACCTGGACGCTGATCGCTTCGAATTCATCTATTGA	MRDLSALPNLNIALIQTTLAWHDRGANLEHFDALLEQARGADLIILPEMFTTGFSMESEALAEPENGPASQWLKAQAAKLDAVITGSVIIQAADGSHRNRLLWARPDGEVLHYDKRHLFRMAGEHNHYTPGDQQVLFELKGWRIRPLICYDLRFPAWSRDAEDTDLLLYTANWPGARRQHWNRLLPARAIENLCYVAAVNRIGTDGKGFAYTGDSQVLDFQGETLLSAGDADGVFTVCLSAADLAAYRTRFPANLDADRFEFIY				NA	NA	NA	NA	NA
D1-35_00023	423			hypothetical protein	ATGACCAGTATCAGCGCAACGACCGTAAACCCTTATCCGCTGTCGGCCCCCAAAGTCTCCATCAGGGGCGCCGAGGAAGAGAAAGCCGTCAGTCCGGTGGTATCGCCTGACACCGGCGAAGAGAAGGACAAGGACAAAGAACTGAAAGTCGACACCAGCGGCGCAAATATCGCCGGTGTTGGCGGCAGCAACGGCAGCAATATCATCGAGCAGCTGAAGAAGCAGATCGAGCGGACCGAAAAGTTGCTGGCCGACCAGCAGGCCCAATTGGCCCGCGTGCAGAAAAGCCGAGCCAATGAGGAGCAGAAAGCCCAGCAGGCCATGGCGATCCAGACCCAGATCATGGGGACCCAGGCGACTTTGCAGACTTTGCAGGCCGCGCTGCTGCAGGCGATGACGGTTTCGATCGATACCCATGCCTGA	MTSISATTVNPYPLSAPKVSIRGAEEEKAVSPVVSPDTGEEKDKDKELKVDTSGANIAGVGGSNGSNIIEQLKKQIERTEKLLADQQAQLARVQKSRANEEQKAQQAMAIQTQIMGTQATLQTLQAALLQAMTVSIDTHA				NA	NA	NA	NA	NA
D1-35_00024	1680	leuA	COG0119	2-isopropylmalate synthase	ATGAGCATGCTCAAAGACCCGTCTTCGAAGTACCGCGCCTTCCCGACCATCAACCTGCCGGATCGCACCTGGCCGTCGAAGACCATCACCGCCGCGCCGATCTGGTGCAGTTCCGACCTGCGTGACGGCAACCAGTCGCTGATCGAGCCGATGGATGCGGCCAAGAAGCTGCGCTTCTGGAAAACCCTCGTTGCAGTGGGCGTGAAGGAAATCGAAGCATCGTTCCCGGCCGCTTCGCAGACTGACTTCGACTTTGTGCGCACCCTCATCGAAGAAGGCCACATCCCGGACGACACCACCATCCAGGTGCTGACCCAGGCCCGTGAAGACCTGATCGCTCGCACCTTCGAGTCCCTGCGTGGCGCGAAGAAAGCCATCGTCCACCTGTATAACGCCACCTGCCCGTCGTTCCGCCGCATCGTGTTCAACCAGGACAAGGAAGGCGTGAAGGAAATCGCCGTGAACGCGGCCAAGCTGTTCGTCAAATACGCCGCCCAGCAGCCGGAAACCCAATGGCAGTTCGAGTACTCGCCAGAAACCTTCAGCGCGACCGAGCTGGAGTTCGCCAAGGAAGTCTGCGATGCGGTGATCGAAGTGTGGAACCCGACGCCTGAGCGCAAGGTGATCCTCAACCTGCCGGCCACCGTCGAAGTCGCCACTCCGAACATCTACGCCGACCAGATCGAGTGGTTCCACCGCAACATCACCCGGCGTGACAGCGTGCTCATCAGCCTGCACACCCACAACGACCGTGGCACCGGCGTGGCCGCCACCGAGCTGGGCCTGATGGCCGGCGCCGACCGTGTCGAAGGCTGCCTGTTCGGCAACGGCGAGCGCACCGGCAACGTCGACCTGGTGACCGTGGCGCTGAACCTCTACACCCAGGGCATCGACCCTGAGCTGGACTTCTCCGACATCGACGGCGTGCGCAAGGTCGTCGAGGAATGCAACCAGATCCCGGTCCACCCACGTCACCCGTATGTCGGCGACCTGGTCCACACCGCGTTCTCCGGCTCGCACCAGGACGCAATCCGCAAGGGCTTCGCCCAGCAGAAACCGGATACCCTGTGGGAAGTACCGTACCTGCCGATCGACCCGGCCGACATCGGCCGCAGCTACGAAGCGGTGATCCGCGTGAACAGCCAGTCGGGCAAGGGCGGCATCGCCTACCTCCTGGAGCAGGAATACGGCATCAGCCTGCCGCGCCGCATGCAGATCGAGTTCAGCCAGGTGGTACAGCGTGAAACCGATCGCCTGGGCCTGGAAATGACTGCCCAGCAGATCCACGCCCTGCTTCAGCGCGAATATCTGCAAGCCAACACTCCGTACGCGCTGGTCAGCCATCGCCTGCAGGAAGAGAACGGCAACAGCGCCGTGGAAGTGGAAGTCGCCAGCAAGGGCCAGGGCGAGACCAACCTGCACTGGCGTGGCCGAGGCAACGGCGCGCTGGAAGCGCTGGTGGCCGGGCTGCCGATTCCGGTGGAAATCATGGACTACAACGAACACGCCATCGGCGCCGGCACCAACGCCAAGGCTGCGGCGTACATCGAACTGCGCGTCAACGGCGAACGTGCGGTGCATGGCGTGGGCATCGATGAAAACATCACCACGGCGAGCTTCAAGGCGCTGTTCAGCGCACTGAACCGCTCGCTGAGCCAGCCGGAAGCCAAGGCGGCTTGA	MSMLKDPSSKYRAFPTINLPDRTWPSKTITAAPIWCSSDLRDGNQSLIEPMDAAKKLRFWKTLVAVGVKEIEASFPAASQTDFDFVRTLIEEGHIPDDTTIQVLTQAREDLIARTFESLRGAKKAIVHLYNATCPSFRRIVFNQDKEGVKEIAVNAAKLFVKYAAQQPETQWQFEYSPETFSATELEFAKEVCDAVIEVWNPTPERKVILNLPATVEVATPNIYADQIEWFHRNITRRDSVLISLHTHNDRGTGVAATELGLMAGADRVEGCLFGNGERTGNVDLVTVALNLYTQGIDPELDFSDIDGVRKVVEECNQIPVHPRHPYVGDLVHTAFSGSHQDAIRKGFAQQKPDTLWEVPYLPIDPADIGRSYEAVIRVNSQSGKGGIAYLLEQEYGISLPRRMQIEFSQVVQRETDRLGLEMTAQQIHALLQREYLQANTPYALVSHRLQEENGNSAVEVEVASKGQGETNLHWRGRGNGALEALVAGLPIPVEIMDYNEHAIGAGTNAKAAAYIELRVNGERAVHGVGIDENITTASFKALFSALNRSLSQPEAKAA				NA	NA	NA	NA	NA
D1-35_00025	822			hypothetical protein	ATGCCGCGATTTCTCGCTCCACTGCTCTTGCTGTGCATCGCCGCCAACGCCCAGGCTGACAGCTACATCACTCGCCTGCTGAACAAGCCGGTGCCCGGCGGCGTGGCCGTGGTGGATCTGGGCAGCGCGGCCCAGGCGCCGAAAGCCACGTACCAGGGCAAACCGGTGCTGGTGGTCAAGGAACAGCAGAACTGGCTGGCAATTGTCGGCATTCCGCTGACCGTCCAACCCGGCACCCAGCAGATCAGCAGTGGTGGCGCCACCCAGCCCTTCGTGGTTGGCTACAAGAAATACCCCGAGCAGCACATCACCCTGAAAAACAAGCGCCAGGTCAATCCGGACCCTGCGGATCTGAAGCGCATCGAGGGCGAGCTTGCGGTGCAGTTGAAGGCCTACCGCAGCTTCAGCCCCAACATCCCCAGCAACCTGCTGCTGGACAAACCGGTGAACGGCCCGCTGTCGAGCAAGTTCGGGGTGCGCCGCTTTTTCAACGGCGAAGAGCGCAACCCTCATTCCGGCCTGGACTTCGCCGTGCCCGCCGGCACGCCGATCAAGACCCCGGCCGCCGGCAAGGTGATCCTCACCGGCAACTACTTTTTCAATGGCAACACCGTGTTCGTCGACCATGGCCAAGGCTTCATCAGCATGTTCTGCCACATGTCGAAGATCGACGTGAAGGTCGGCCAGCAACTGGCGCGCGGCACCGTGGTCGGCAAGGTTGGCGCCACCGGCCGCGCAACCGGGCCGCACATGCACTGGAACATCAGCCTGAATGATGCGCGGGTGGATCCGGCGATCTTTATCGGGGCGTTTCAGCCCTGA	MPRFLAPLLLLCIAANAQADSYITRLLNKPVPGGVAVVDLGSAAQAPKATYQGKPVLVVKEQQNWLAIVGIPLTVQPGTQQISSGGATQPFVVGYKKYPEQHITLKNKRQVNPDPADLKRIEGELAVQLKAYRSFSPNIPSNLLLDKPVNGPLSSKFGVRRFFNGEERNPHSGLDFAVPAGTPIKTPAAGKVILTGNYFFNGNTVFVDHGQGFISMFCHMSKIDVKVGQQLARGTVVGKVGATGRATGPHMHWNISLNDARVDPAIFIGAFQP				NA	NA	NA	NA	NA
D1-35_00026	1389	xseA	COG1570	Exodeoxyribonuclease 7 large subunit	ATGCCGCCCATGATTAAAGATCCCTTTGCCCGACTGGGCCTGGACCGCGAGGTCCTGACTGTCAGCCAGCTCAACGGCCGTGCGCGGGTGTTGCTCGAAGACGTGTTCAGCAACATCTGGGTCGAGGGCGAGATTTCCAACCTCGCCCGCCCCGCCTCCGGCCACGTGTATTTCACGCTCAAGGACAGCGGCGCCCAGGTGCGTTGCGCGCTGTTCCGACAGAACGCCGCTCGGGTGCGCCAGGCATTGAAAGACGGGCTGGCGGTGAAGGTACGCGGCAAGGTCTCGCTGTTCGAGGGCCGTGGCGACTATCAACTGATCCTCGACACCGTGGAGCCGGCCGGCGATGGTGCCCTGCGCCTGGCGTTCGACGCCCTGAAGGAAAAGCTCAGCGCCGAAGGCCTTTTCAGTGCCGAGCGCAAGGTACCGCTGCCGGCCCATCCGCAACGCATCGGCATCATCAGTTCGCCCACCGGCGCGGTGATCCGCGACATCATCAGCGTGTTCCGTCGCCGCGCGCCGCAGATTTCCCTGACCTTGATTCCGACAGCCGTGCAGGGCCGTGAAGCCACCGCACAGATCGTCCGCGCGCTGAAACTGGCCGATGCCCGAGGCTTCGATGCGCTGATCCTGGCCCGGGGCGGCGGTTCGCTGGAAGACCTGTGGTGCTTCAACGAAGAAGCCGTGGCTCGTGCGGTAGACGCCTGCGTCACGCCCATCGTCAGCGCGGTAGGCCATGAGACCGACGTCTCCATCAGCGATTTCGTCGCCGATGTGCGCGCCCCGACTCCGTCCGCCGCCGCCGAACTGCTCGCACCGGACGCCGGCGACCTGGTGCGCCGGGTCGAAAGCCTGCACCGGCGCCTGGTGATGCGCATGCGCGACCGCCTGATGCGCGACCAGTTGCGCCTCGAAGGCCTCATTCGCCGCCTGCGTCACCCCGGTGAACGCCTGCGCCAGCAAGCCCAGCGCCTCGACGACCTGGACATGCGCATGCGCCGGGCCTTCGAACGCAGCCTCAATACCCGCCGCGAACGCCTGATTCGCCTGGAAACCCGCCTGGCCGGGCAACATCCGGGCCGTCAGCTGGCCATGTTGCGCCATCGCCTCGACAGCCTCGCCGAACGCCTGCCCCGAGCCATGCGCGAAGGCCTGAAAACCCGCCGCGTACAGTTGCACAACCAGATGCAGACGCTGCACATCGTCAGCCCACTGGCGACCCTTGGCCGTGGCTACAGCATCCTGCTCGACGAACGCGGCCATGCGATCCGCAACGCCGGACAAACCCGCACCGGCCAGCGCCTGACCGCCAGGCTCGGCGAAGGGGAACTGCTGGTGCGGGTCGAAGACAATCACCTGACACCGGTCACCCTTTCTCTACTGGATTGA	MPPMIKDPFARLGLDREVLTVSQLNGRARVLLEDVFSNIWVEGEISNLARPASGHVYFTLKDSGAQVRCALFRQNAARVRQALKDGLAVKVRGKVSLFEGRGDYQLILDTVEPAGDGALRLAFDALKEKLSAEGLFSAERKVPLPAHPQRIGIISSPTGAVIRDIISVFRRRAPQISLTLIPTAVQGREATAQIVRALKLADARGFDALILARGGGSLEDLWCFNEEAVARAVDACVTPIVSAVGHETDVSISDFVADVRAPTPSAAAELLAPDAGDLVRRVESLHRRLVMRMRDRLMRDQLRLEGLIRRLRHPGERLRQQAQRLDDLDMRMRRAFERSLNTRRERLIRLETRLAGQHPGRQLAMLRHRLDSLAERLPRAMREGLKTRRVQLHNQMQTLHIVSPLATLGRGYSILLDERGHAIRNAGQTRTGQRLTARLGEGELLVRVEDNHLTPVTLSLLD				NA	NA	NA	NA	NA
D1-35_00027	888			putative metallo-hydrolase	ATGCGTATCCATCACCTGAACTGCGGATGCATGTGCCCGGTAGGCGGGGCGCTATTCGATGGTTACAGCCGGGGGCTGACGGCGTGCCTGGTGTGTCATTGCCTGCTGGTTGAAACCGACACCAACGGCCTGGTCCTGGTGGACACCGGGTTTGGCCAGCGGGATGTGCAGACGCCGCAACGGCTGAGCCGATTCTTTCGAGTGTTCAACAACATCCAGTTCGAGCATCGCCTCACGGCTTTGGAGCAGGTGCGGCGATTGGGTTTCGAGGCCAACGATGTACGGCACATCCTGCTGACGCACCTGGATTTCGATCACGCCGGCGGGCTCCAGGATTTTCCCCAGGCCCGGGTGCATGTAATGCGCGACGAGATGGCGACGGCCCGCAGCGCCGACACCTGGATAAGTCGACGACGGTTCCAGGCGCGGCAGTGGCAGGGCGTCGATAGCTGGGAGTTCTATGCCCCCGAAGGCGATACCTGGTTCGGCTTCGATTCGGTGCGCGCACTGATCGGCGCCGAGGAAGAGGACATTTTCCTGGTGCCGCTTCAGGGACACACCGCCGGACATGCCGGGATCGCGCTGCGCACTCCGGACGGTTGGCTGCTGCACGCCGGTGATGCCTATTTTTTCCATGACGAGGTCCATCAACCCGAGCGCCATTGCCCACCGGGGCTGAGGTTCTACCAATACATGATGGACACCTACCGTTCGGCACGGATGCGCAACCAGGATCGCCTTCGCGAGTTGGCGCAAGTCCAGAACGGGCACGTCGAGATTTTCTGCAGTCACGATGCCAGGGAATGGGAGCGGGCCGTAAACCAGGCGCACACGGTGCGGGTGGATTCCACCGCCATGTCGCCGGCCGCCGGCAGACAATCTTCCTGA	MRIHHLNCGCMCPVGGALFDGYSRGLTACLVCHCLLVETDTNGLVLVDTGFGQRDVQTPQRLSRFFRVFNNIQFEHRLTALEQVRRLGFEANDVRHILLTHLDFDHAGGLQDFPQARVHVMRDEMATARSADTWISRRRFQARQWQGVDSWEFYAPEGDTWFGFDSVRALIGAEEEDIFLVPLQGHTAGHAGIALRTPDGWLLHAGDAYFFHDEVHQPERHCPPGLRFYQYMMDTYRSARMRNQDRLRELAQVQNGHVEIFCSHDAREWERAVNQAHTVRVDSTAMSPAAGRQSS				NA	NA	NA	NA	NA
D1-35_00028	243			hypothetical protein	ATGCCTGCTTCTCATGATCTCTACCAAGATTTGAATTGCAGCAAAGAGACGGTCCAACAGCGTCGCCAGCAAGACCCGGAACTTGCTCGGCTGCTGGACGAATACACGGACGTGGATAACCAGGTCCTGGCCGCCGAATCGATATCGGCGGGCAACGTCGAGGATGATGACATCCGCAGACTCAAGGAACAGCGTCTGTCGATAAAAGACAAGATCGCTCAGCAACTGACAGCCACTCAATAA	MPASHDLYQDLNCSKETVQQRRQQDPELARLLDEYTDVDNQVLAAESISAGNVEDDDIRRLKEQRLSIKDKIAQQLTATQ				NA	NA	NA	NA	NA
D1-35_00029	933	cyoA_1	COG1622	Cytochrome bo(3) ubiquinol oxidase subunit 2	ATGCGAACTCGACTGCCTTGGCATTTATCAAGGTTGTTGCTGGTCGGCGGGATGCTGTTGCTCGGCGGTTGCGACATGGTGTTGTTCAATCCCAAGGGACAGGTCGGCGTTGACCAACGCAACTTGATCATTCTCTCGACGCTGTTGATGTTGCTGGTGGTGGTGCCGGTCATCGTCATGGCGTTGGTCTTTTCCGTGAAGTACCGCGCCTCCAACACCAAGGCCAAGTACACGCCGGAGTGGGCCCATTCACGCAAGATCGAAACGGTGGTCTGGGGCGTCCCGTTGGTGATCATCATCATTCTCGGCGTGGTTACCTGGAAGTCGACCCATGCGCTGGATCCGTACCGACCGCTGGATTCGGACGTCAAGCCGCTGGTGGTGCAGGTCATCGCGACCGACTGGAAATGGCTGTTCATCTATCCGGAGCTGGGCATTGCCTCGGTCAACGAACTGGCCATGCCACTGGACACACCGGTGAATTTTCGCGTGACCTCGGACGGCGCCATGACCTCGTTTTTCATTCCGGCGCTGGGCGGGCAGATCTATGCCATGGCCGGCATGCAGACCCAACTGCACCTGATCGCCAACGAGGCCGGGGAGTACCGGGGCATCGCCGCCAACTACAACGGCCCGGGTTTCTCCGACATGCATTTCCGGACCCTCGCCACCGATGCGGCGGGCTTCGACAAGTGGGTCGCCGACGTGCGGGCGGGGCAAGGACGGTTGGACAAGGACAGTTATGCCCGACTTGCCAAGCCGACGTTCAAGCACCCGGTTGAACATTACGCATCGGTCCAGCCGGACTTGTTCCAGAGCATCATCGACAAATACGAAGGCATGAATCGTTCCCGTGAAGTCGAGCATCGCATGCACGACATGCAGGGCAGCATCGGGTCTCCCGTCGGGACTCAAAGATCAGCGCAGGAGTAG	MRTRLPWHLSRLLLVGGMLLLGGCDMVLFNPKGQVGVDQRNLIILSTLLMLLVVVPVIVMALVFSVKYRASNTKAKYTPEWAHSRKIETVVWGVPLVIIIILGVVTWKSTHALDPYRPLDSDVKPLVVQVIATDWKWLFIYPELGIASVNELAMPLDTPVNFRVTSDGAMTSFFIPALGGQIYAMAGMQTQLHLIANEAGEYRGIAANYNGPGFSDMHFRTLATDAAGFDKWVADVRAGQGRLDKDSYARLAKPTFKHPVEHYASVQPDLFQSIIDKYEGMNRSREVEHRMHDMQGSIGSPVGTQRSAQE				NA	NA	NA	NA	NA
D1-35_00030	1974	cyoB_1	COG0843	Cytochrome bo(3) ubiquinol oxidase subunit 1	ATGTTTGGAAAACTGACGCTTGAGGCGATCCCGACGGATGAGCCGATCATCATGTGGACGCTGGCGGTGGTGGGACTGGTCGTCTTGGCCGGCATGGGTGCCATCACCTACTACCGCAAATGGACCTATCTGTGGAAAGAGTGGTTTACCTCGGTGGACCACAAACGCATCGGCGTGATGTACATCGTCGTGGCGCTGGTGATGCTGCTGCGCGGTTTCTCCGACGCGATCATGATGCGCACGCAACAGGCCATGGCGTCCGACGGCTCGCCCGGTTACCTGCCGCCGGAACACTACGACCAGATATTCACTGCCCACGGCGTGATCATGATTTTTTTCATGGCGATGCCGCTGGTGGTGGGCTTGATGAACATCGTCGTGCCGTTGCAGATTGGCGCCCGGGACGTGGCGTTCCCGTTCCTCAACGCGTTGAGTTTCTGGCTGTTCGTGGCCGGCGCGATGCTGGTGAATGTTTCCCTGGCGGTCGGCGAGTTTGCGCGCACCGGTTGGGTCGCCTATCCGCCGTTATCCGGGTTGTCCTATAGCCCCGGGGTCGGGGTGGACTACTACATATGGTCATTGCAGATATCCGGCGTCGGGACGTTGCTCACCGGGGTAAATTTCTTCGTCACCATCCTGAAAATGCGTACGCCGGGCATGACCCTCTTCCGCATGCCGGTGTTTACCTGGACGGTACTGTGCACGGCTGTGCTGATCCTGGCGTCATTCCCGATCCTCACCGCGACGCTGTTCATGCTCAGCCTCGACCGCTATCTGGACATGCACTTTTTCACCAACGAGCTGGGCGGCAACCCGATGATGTACGTCAACCTCATCTGGGCCTGGGGCCATCCGGAGGTGTACATCCTGATCCTGCCGGCGTTCGGTATTTTCTCCGAGGTAGCTTCCACATTCAGCCGCAAGCGCCTGTTCGGTTATCACTCGCTGGTGTGGGCGACGATTGTCATCACCATCCTGTCCTTCATCGTCTGGGTGCACCACTTCTTCACCATGGGTTCGGGGGCGAGCGTCAACGCGTTCTTCGGCATCATGACCATGATCATCGCCGTGCCCACCGGGGTGAAGATATTCACCTGGCTGTTCACTATGTATCGGGGGCGCGTGCGCTTCGAAACGCCGATGCTGTGGACCGTCGGCTTCATCGTCACTTTCAGCATCGGCGGCATGACCGGGGTGCTGCTGGCGGTGCCCGGGGCGGATTTCCTGCTGCACAACAGCCTGTTTCTGATCGCGCACTTTCATAACGTGATCATCGGCGGCGCCGTGTTCGGCTACCTGTGTGGACTGACTTACTGGTTCCCCAAGGCGTTCGGCTTCAAGCTTCACGATCGCCTGGGCCGGGCGGCGTTCTGGTGCTGGATCATCGGCTTCTACTTCGCCTTCATGCCGTCCTACTTCCTTGGCTTCATGGGCATGACCCGGCGCCTCAACCATTTCGACGTACCCGAATGGCGGCCCTGGCTGGAGCTGGAGTTGCTCGGCGTCGGCATCATCCTCTGCGGCGTGGTCTGCCAGATCCTGCAGTTCTATTTCAGCATTCGCCAGCGTCACCAGAACCGTGACCTGACAGGCGATCCGTGGGACGGTCGCACCCTGGAATGGTCCACCGCCTCGCCGCCGCCGCTCTACAACTTCGCCCAACAACCGGTGGTGGAGGGCATCGACGCCTACTGGGGCATGAAGGAACGCGGCCAGAAGACCGCCGTCGAAGCCGATTTCCAAGCCATCCACATGCCGCGCAACACCGCGATGGGCCTGGTCATCAGCCTGTTCAGCCTGATCATGTGCTTCGCCCTGGTCTGGCATATCTGGTGGCTGGCCATCGTCGGGCTGGTTGCGACCATTGGTGGGGTGATCTGGCGCAGCGCCGATGACGACATCGATTACTACGTGCCCGCCGAAGAGGTAGCGCGCATCGAAAACCAACGTATCAAGGCACTGGCGGAGGCTTGA	MFGKLTLEAIPTDEPIIMWTLAVVGLVVLAGMGAITYYRKWTYLWKEWFTSVDHKRIGVMYIVVALVMLLRGFSDAIMMRTQQAMASDGSPGYLPPEHYDQIFTAHGVIMIFFMAMPLVVGLMNIVVPLQIGARDVAFPFLNALSFWLFVAGAMLVNVSLAVGEFARTGWVAYPPLSGLSYSPGVGVDYYIWSLQISGVGTLLTGVNFFVTILKMRTPGMTLFRMPVFTWTVLCTAVLILASFPILTATLFMLSLDRYLDMHFFTNELGGNPMMYVNLIWAWGHPEVYILILPAFGIFSEVASTFSRKRLFGYHSLVWATIVITILSFIVWVHHFFTMGSGASVNAFFGIMTMIIAVPTGVKIFTWLFTMYRGRVRFETPMLWTVGFIVTFSIGGMTGVLLAVPGADFLLHNSLFLIAHFHNVIIGGAVFGYLCGLTYWFPKAFGFKLHDRLGRAAFWCWIIGFYFAFMPSYFLGFMGMTRRLNHFDVPEWRPWLELELLGVGIILCGVVCQILQFYFSIRQRHQNRDLTGDPWDGRTLEWSTASPPPLYNFAQQPVVEGIDAYWGMKERGQKTAVEADFQAIHMPRNTAMGLVISLFSLIMCFALVWHIWWLAIVGLVATIGGVIWRSADDDIDYYVPAEEVARIENQRIKALAEA	PGPT0004025_429	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
D1-35_00031	615	cyoC_1	COG1845	Cytochrome bo(3) ubiquinol oxidase subunit 3	ATGTCCAATCTCGTTCAGCCACACGCCACCGCGCCGGAATCCGAACACGGTCACTCGGACGCAAGCTCCATGACCCTGTTCGGGTTCTGGATCTACCTGATGACCGACTGCATTCTGTTCGCGACGTTATTCGCGACCTATGCGGTACTCGGCCAGAGCGTCGCCGGCGGGCCCGGCGCCGCCGATATCTTCGAATTGCCCTACGTCCTCACGGAAACTTTCATCCTGCTGTTCAGCAGCATCACCTACGGCTTCGCCATGCTCGCGCTGAGCGCCGGGAACAAGCAGAAGGTATTGGCCTGGCTCGGCCTGACCTTCGTCCTCGGGTTGGCGTTCATCGGCATGGAAATCCATGAGTTCCAGAAACTCATCGCCGAAGGCTACGGCCCCAACCGCAGCGCCTTTCTCACCGGCTTCTTCACGCTGGTGGGCACTCACGGCCTGCACGTCGCCACGGGGCTGCTGTGGATGGCCGTGCTGATGTTCCAGGTGCAACGCAATGGCCTGACCACCGTCAACGCCACCCGCCTGGGCTGCCTGAGCCTGTTCTGGCACTTCCTCGACGTGGTCTGGATCTGTGTGTTTACCGTGGTCTATCTGTTTGGAGTGATGTAA	MSNLVQPHATAPESEHGHSDASSMTLFGFWIYLMTDCILFATLFATYAVLGQSVAGGPGAADIFELPYVLTETFILLFSSITYGFAMLALSAGNKQKVLAWLGLTFVLGLAFIGMEIHEFQKLIAEGYGPNRSAFLTGFFTLVGTHGLHVATGLLWMAVLMFQVQRNGLTTVNATRLGCLSLFWHFLDVVWICVFTVVYLFGVM	PGPT0004035_2439	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
D1-35_00032	330	cyoD_1	COG3125	Cytochrome bo(3) ubiquinol oxidase subunit 4	ATGAGCAGTCATCAGAGCAGCGTCGATGCCAGCCACGGCAGCGCAAAATCCTACCTCACCGGGTTCGTTCTGTCGGTCATCCTCACCGTTATCCCGTTCGCCCTGGTGATGTATCCCACATTGCCCAAGCCCTTGACGGCCGGGATCGTGGCGATTTTTGCGGTGATCCAGATCGTTGTGCACCTGATCTATTTCCTGCACCTGAACTTCTCACCGCAACAACGCTGGAACCTGACGGCCCTGGTGTTCTCGACCGTGGTGATTGCGCTGTTGGTGGGGCTGTCGCTGTGGATCATGTACAGCGTGCATCACAACATGTTGGCGCATTGA	MSSHQSSVDASHGSAKSYLTGFVLSVILTVIPFALVMYPTLPKPLTAGIVAIFAVIQIVVHLIYFLHLNFSPQQRWNLTALVFSTVVIALLVGLSLWIMYSVHHNMLAH				NA	NA	NA	NA	NA
D1-35_00033	768			hypothetical protein	ATGGATCTTTTCTCGTGGTTGGGTGAATGGGCTTTCGCCCCCACGCAATGGCTGGTGATCGGGCTGGCCATTACCCTGGCCTACATCGTGTTCGGCATCGCCGGGTTCGGCACGGCGCTGGTGGCCGCGCCGATCCTGCTGCTGTACATGCCACTGGCGAAAATCATCCCGCTGCTGGTGCTGCTGGATTTTGTCGCGGCATTCGGCAACTTGTTGCCATCGCGTCGGGACGTCGCCCGGCCCGAGTTGCTGCGATTGTTGCCATGCATGGCGGTGGGTTGCACCCTCGGGGTGATTTTCCTGCTCAACCTCAAATCCGACCTGTTGCTGTTGTTGATGGGCCTGTTCATCAGCGCCTATGCGATCTACAGCCTGTGGATAAAGACCCGACCGACGCAGCTGTCGGTGCTGTGGGCGCTGCCGATGGGCACGGTCGGCGGAATGTTCGGCGCGCTGTTTGGCAGCGGCGGCTTTTTATATGCCATTTATTTGAATAGCCGGTTATCCAAGGAGGCGGCCCGGGCGACCCAGAGTGCGCTGATCAGTTGCAGCACGGTGGTGCGCTTGAGTCTGTTCATCGTCGCCGGGGTGTATGCCGAGCTACCCTTGCTGGTACTGGCGCTGTGTTTGTTGCCGGCCATGGCGCTAGGGCTGTGGGTTGGGCGCCGCTTGACCATGAAGATGTCGCGAGAGGCGTTTGTACGACTGGTCACCTGGCTGGTGCTCGCCAGCGGCCTGGCATTGATCGGGCGCTATCTGAGTGCTTGA	MDLFSWLGEWAFAPTQWLVIGLAITLAYIVFGIAGFGTALVAAPILLLYMPLAKIIPLLVLLDFVAAFGNLLPSRRDVARPELLRLLPCMAVGCTLGVIFLLNLKSDLLLLLMGLFISAYAIYSLWIKTRPTQLSVLWALPMGTVGGMFGALFGSGGFLYAIYLNSRLSKEAARATQSALISCSTVVRLSLFIVAGVYAELPLLVLALCLLPAMALGLWVGRRLTMKMSREAFVRLVTWLVLASGLALIGRYLSA				NA	NA	NA	NA	NA
D1-35_00034	549			hypothetical protein	ATGAATTCGCAAAGCATCATCGTCCCGAAAATTTCCACCTTGCCGGTTCACGAGCCCCGGGCTCGGGCGATCGTGCGCTGGCTGGTGCGCAAGAACATCGTCGAAGAGCAATTGACCACTTGCGGTCGCACTGGCAATCGCATGGCCCACGCCATCGCCCCCGGCGCCCGCCAGGTGGTCCTGCATCCCGACGCGTTGCCGTTCGGCGAGCCGGTCAACGGCCTGGAGATCATCACCAAGCGCTGCATCTACACGCCGGCCAAGGGCTTTCTTGAAGAGGCCGGCTGCGCCGAGTGCCGCAAGGAAATTGGCGAAGCGCTGTTCGAAAGCCTGGAGGAGTGGATGCCGGGTCGCACCGACAACTTCACCTGCCCTGAGTGCGGGCATGAGGATGACATCAACGGGTTCCTGTTCCTGCAACCCTGCGCCTTCTCCAACCTGGGTTTCATCTTCAACAACTGGCTGGAGGCGGGGTTCAGGCAGGAGTTCATCGATGAGTTCGCCGATTGGCTGGACCAGCCGGTGAGTTGGGTGAGGGTGGAGTTGTAA	MNSQSIIVPKISTLPVHEPRARAIVRWLVRKNIVEEQLTTCGRTGNRMAHAIAPGARQVVLHPDALPFGEPVNGLEIITKRCIYTPAKGFLEEAGCAECRKEIGEALFESLEEWMPGRTDNFTCPECGHEDDINGFLFLQPCAFSNLGFIFNNWLEAGFRQEFIDEFADWLDQPVSWVRVEL				NA	NA	NA	NA	NA
D1-35_00035	1470	guaB	COG0516	Inosine-5'-monophosphate dehydrogenase	ATGCTGCGTATCAGCCAAGAAGCTCTGACCTTCGACGACATTCTCCTAGTGCCCGGTTATTCCGAGGTACTGCCTAACGAAGTCAGTCTCAAAACCCGTCTCACCCGTGGCATCGAACTGAATATCCCGCTGGTTTCCGCCGCCATGGACACCGTGACCGAAGCCCGTCTGGCCATTGCCATGGCCCAGGAAGGCGGTATCGGTATCATTCACAAGAACATGACCATCGAACAGCAGGCCGCCGAAGTGCGCAAGGTCAAGCGGTTCGAGGCTGGCGTGGTCAAGGATCCGATCACCATCGAGGCTGACGCCACGGTCCGGGATCTGTTCGAACTGACCCGCATGCACAACATCTCCGGCGTTCCGGTGCTGCACGATGGCGACCTGGTCGGCATCGTCACCTCCCGTGACGTGCGTTTCGAGAATCGCCTGGACGCCAGCGTTCGCCAGGTGATGACTCCGAAAGAGCGTCTGGTCACGGTCAAGGAAGGCACCAGCAAGGACGAAGTCCGCGAATTGCTGCACAAGCACCGCATCGAGCGCGTGCTGATCGTCGACGACAAGTTCGCCCTCAAAGGCATGATGACCGTCAACGATATCGAAAAAGCCAAGGCTTATCCGCTGGCGAGCAAGGACGACCAGGGTCGTCTGCGCGTTGGCGCGGCGGTCGGCACCGGCAAGGACACCGGCGATCGCGTCGCCGCCCTGGTCAATGCCGGCGTTGACGTGGTGGTGGTCGACACTGCCCACGGTCATTCCAAAGGCGTGATCGACCGCGTTCGCTGGGTCAAGCAGAACTTCCCTGACGTCCAGGTGATCGGCGGCAACATCGCCACCGGCGAAGCCGCCAAGGCCCTGGCCGAAGCTGGCGCCGACGCGGTCAAGGTCGGTATCGGCCCTGGCTCGATCTGCACCACCCGCATCGTTGCCGGTGTCGGCGTGCCGCAGATCAGCGCCATCGCCAACGTCGCCGCCGCCCTTGAAGGCACTGGCGTGCCGCTGATCGCCGACGGCGGTATCCGCTTCTCCGGTGACCTGTCCAAGGCCATCGTCGCCGGTGCCTACTGCGTGATGATGGGTTCGATGTTCGCCGGTACCGAAGAGGCGCCGGGCGAGATCGAACTGTTCCAGGGCCGTAGCTACAAGGCTTATCGCGGCATGGGGTCGCTGGGCGCCATGTCCCAGGCCCAGGGCTCTTCCGACCGTTACTTCCAGGACTCCTCCGCGGGTGCCGAGAAGCTGGTGCCGGAAGGCATCGAAGGTCGCGTGCCGTACAAGGGCACCCTGAGCGCGATCATCCATCAACTGATGGGCGGCCTGCGTTCTTCCATGGGCTACACCGGCAGCGCGGACATCGAAGAGATGCGCACCAAGCCGGAATTCGTGCGCATCACCGGCGCCGGCATGGCCGAGTCCCATGTCCACGACGTACAGATCACCAAGGAAGCGCCGAACTACCGTGTAGGTTAA	MLRISQEALTFDDILLVPGYSEVLPNEVSLKTRLTRGIELNIPLVSAAMDTVTEARLAIAMAQEGGIGIIHKNMTIEQQAAEVRKVKRFEAGVVKDPITIEADATVRDLFELTRMHNISGVPVLHDGDLVGIVTSRDVRFENRLDASVRQVMTPKERLVTVKEGTSKDEVRELLHKHRIERVLIVDDKFALKGMMTVNDIEKAKAYPLASKDDQGRLRVGAAVGTGKDTGDRVAALVNAGVDVVVVDTAHGHSKGVIDRVRWVKQNFPDVQVIGGNIATGEAAKALAEAGADAVKVGIGPGSICTTRIVAGVGVPQISAIANVAAALEGTGVPLIADGGIRFSGDLSKAIVAGAYCVMMGSMFAGTEEAPGEIELFQGRSYKAYRGMGSLGAMSQAQGSSDRYFQDSSAGAEKLVPEGIEGRVPYKGTLSAIIHQLMGGLRSSMGYTGSADIEEMRTKPEFVRITGAGMAESHVHDVQITKEAPNYRVG	PGPT0021445_3051	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088	NA	NA
D1-35_00036	1578	guaA	COG0518	GMP synthase [glutamine-hydrolyzing]	ATGGCCCTCGACATTCACGCTCACCGCATCCTGATCCTCGACTTCGGTTCCCAGTACACCCAGCTGATCGCCCGCCGCGTGCGTGAGATCGGCGTGTACTGCGAGCTGCATCCGTTCGACATGGATGAAGAAGCGATTCGCGAGTTCGCTCCCAAAGGCGTCATCCTCGCCGGCGGCCCCGAGTCCGTGCACGAAGCCGACAGCCCGCGCTGCCCGCAAGCGGTGTTCGACCTCGGCGTACCGGTCTTCGGCATCTGCTACGGCATGCAGACCATGGCTGAGCAACTGGGCGGCAAGGTCGAAGGTTCCGACCTGCGTGAGTTCGGTTATGCCCGTGTCGACGTGGTCGGCAAGAGCCGCCTGCTGGACGGCATCGAAGACCACATCGACGCCGACGGCCTGTTCGGCCTCGACGTGTGGATGAGCCACGGTGACAAGGTCACGAAGATGCCGGAAGACTTCCACATCCTCGCCAGCACCCCGAGCTGCCCGATCGCCGGCATGTTCAACGACGATCGCCGCTACTACGGCGTACAGTTCCACCCGGAAGTGACCCACACCAAGCAGGGCGGCCGCATCCTGTCGCGCTTCATCCTCGACATCTGCGAATGCGAAGCCCTGTGGACGCCTTCCAAGATCGCTGAAGATGCCATCGCCCAGGTTCGCGCCCAGGTCGGCACCGACAACGTATTGCTCGGCCTGTCCGGCGGTGTCGATTCCTCGGTGGTTGCCGCGCTGCTGCACAAGGCCATCGGCGACCAGCTGACCTGCGTCTTTGTCGACAACGGTCTGCTGCGCCTGCACGAAGGCGAGCAAGTGATGGCCATGTTCGCCGAGAACATGGGCGTCAAGGTGATCCGCGCCAACGCCGAAGAGCAGTTCCTGAACAACCTGGCCGGCGAGTCCGACCCGGAGAAGAAGCGCAAGATCATCGGTCGCACCTTCATCGACGTGTTCGATGCCGAATCCTGCAAGCTGGACAACATCAAGTACCTGGCCCAGGGCACCATCTACCCCGACGTGATCGAGTCGGCCGGCGCCAAGAGCGGCAAGGCCCACGTGATCAAGTCCCACCACAACGTCGGTGGCCTGCCGGAAGAGATGAACCTGAAACTGGTCGAGCCGCTGCGCGAACTGTTCAAGGACGAAGTGCGTCGCCTCGGCCTGGAACTGGGCCTGCCCTACGACATGGTCTACCGTCACCCATTCCCCGGCCCGGGCCTGGGCGTGCGGATCCTCGGCGAAGTGAAGAAGGAATACGCCGACCTGCTGCGTCGCGCCGACCACATCTTCATCGAAGAACTGCGCAAGGCCGACTGGTACCACAAGGTCAGCCAGGCATTCGTGGTATTCCAGCCGGTGAAATCGGTCGGCGTGGTCGGCGATGGCCGTCGCTACGCCTGGGTCGTGGCCCTGCGTGCCGTGGAAACCATCGACTTCATGACCGCTCGCTGGGCACACCTGCCGTACGAACTGCTGGAAACCGTGTCCGGGCGGATCATCAACGAAATCGAAGACATCTCCCGCGTCACGTATGACGTGTCGAGCAAGCCGCCGGCGACGATCGAGTGGGAATAA	MALDIHAHRILILDFGSQYTQLIARRVREIGVYCELHPFDMDEEAIREFAPKGVILAGGPESVHEADSPRCPQAVFDLGVPVFGICYGMQTMAEQLGGKVEGSDLREFGYARVDVVGKSRLLDGIEDHIDADGLFGLDVWMSHGDKVTKMPEDFHILASTPSCPIAGMFNDDRRYYGVQFHPEVTHTKQGGRILSRFILDICECEALWTPSKIAEDAIAQVRAQVGTDNVLLGLSGGVDSSVVAALLHKAIGDQLTCVFVDNGLLRLHEGEQVMAMFAENMGVKVIRANAEEQFLNNLAGESDPEKKRKIIGRTFIDVFDAESCKLDNIKYLAQGTIYPDVIESAGAKSGKAHVIKSHHNVGGLPEEMNLKLVEPLRELFKDEVRRLGLELGLPYDMVYRHPFPGPGLGVRILGEVKKEYADLLRRADHIFIEELRKADWYHKVSQAFVVFQPVKSVGVVGDGRRYAWVVALRAVETIDFMTARWAHLPYELLETVSGRIINEIEDISRVTYDVSSKPPATIEWE	PGPT0021580_1906	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
D1-35_00037	1614			hypothetical protein	ATGACCGGTTTGCCCGCAGACGCGATAGGCGCCGCCTGGCTGGCCCAAATCTATGATGTGCAGCCTTTGGGGCGATTGCCAGTGATGAGTCAAGTAGGCGGGCGACGCGCAACTCAAGTCACCGATGGCTTTCGTCTGGAGACCTACACCGAGGCGATGCGCCCGGATGCGGAGATTGCTGCACATCTGCAGTTCCATCTGCGCCATGAAGTCCCGCATCTGGAGTTCCTTGCCCGTCTGTTCGAGAAGACCGGGCCTGTTTTCGTCCAGGACTGGGTTACGGTCGAGCCTACTGGGCAGTACGCGCGTCGTGCTGCGTTTCTATATGAATGGCTGACCGGAGACGCTCTGGTCGTGCCCGAGCGCTTAGGCGGCAATTATGTCGATGCCATTGACGAGGCCAAGCTGGTGTCGGCATCCCGCGACCGAGTGGTCAAGGTGCAGCGCTGGCGGGTAAATGACAACCTGCCCGGCACGCGCAAATTCTGTCCTTGCGTGGTCAAGACCGAGGCGGTAATGCGTGCGGTCGAACTGGACGTTCCACGCCTGTTCGGTGAATTGACAGATGAGTTCGGCGAGGATCTGTTGTTGCGGTCGGCGGTCTGGATGACGCTACGCGAGAGCAAGGCCAGCTTCGCCATCGAAGGCGAGGCCGACCGGGTAGGGCGGGTGCAACGCTTTGCCGACGTAATGGCGCGTCGTACAGGGCAAGGTGCGGTCCCATTGAGCAATGCCGCGCTGGCAGAGTTGCAGCAGGAAATTCTCGGTGATCGGACGACGATCACCCACTTCGGCGTGCGTCAGTCTCCGGTTTTCGTCGGCGAAACGGTGCGCTACGAGGAGGTCGTTCATTACGTCGCCCCGGCGGCCGATGAAATCGACGCGATGCTTGAAGGGCTGGGAGTGTTCCTCGAGAGGACGCAGGGCCAGTCGCCGGTAATGCGCAGCGCAATCGCAGCCTTTGGTTTCGTCTATATACACCCGCTCGCTGACGGCAACGGTCGTATGCACCGGTTTTTGGTCAACGACGTACTGCGACGCGACGGCGCGATTCCGGATCCGGTAATTCTGCCGATCTCAGCGGTCATTACAGATGACGTGGGCGAGCGCCGCAGCTACGACCGGGTGCTGGACCAGGTGTCCAAGCCGCTCATGCAGGCTGTACGCGAGCGAGTAGTCTTCGAGCCCATGCAGGCCACCTATCCAGATGGTGTGGTGTCGAACTTCTCTTTTCAGGGCGCTGACCAGGCCCGACCGCTGTGGCGTTATCCGGATCTCGGACCTCATACCGTGTTTCTGGCCAATATCATTGGCCGGACGTTGACTGAGCAGATGCGCGAAGAGTCTCGTTATCTGCGCAGCCACGCGCGGGCGCGGGCGGTGCTGAAGGAGGTGGTCGAGATGCCCGATCACCAGGCGGATCGAGTGCTGCGCTCAATCGAGCAGAATCGCGGCGAGTTGAGCAATGTGCTTGCCAAGGAAATGCCTGTCCTGCAACAGGTCGGGGTGTGGGCTGAAATCGTTGACGCCGTCTCGCGGGCGTTTGCGGAGGACGGCGGAGCGGGGGGTGCTATGATTGACCGATATCGTCCGGGGAAGCCCGTCGACCGCTGA	MTGLPADAIGAAWLAQIYDVQPLGRLPVMSQVGGRRATQVTDGFRLETYTEAMRPDAEIAAHLQFHLRHEVPHLEFLARLFEKTGPVFVQDWVTVEPTGQYARRAAFLYEWLTGDALVVPERLGGNYVDAIDEAKLVSASRDRVVKVQRWRVNDNLPGTRKFCPCVVKTEAVMRAVELDVPRLFGELTDEFGEDLLLRSAVWMTLRESKASFAIEGEADRVGRVQRFADVMARRTGQGAVPLSNAALAELQQEILGDRTTITHFGVRQSPVFVGETVRYEEVVHYVAPAADEIDAMLEGLGVFLERTQGQSPVMRSAIAAFGFVYIHPLADGNGRMHRFLVNDVLRRDGAIPDPVILPISAVITDDVGERRSYDRVLDQVSKPLMQAVRERVVFEPMQATYPDGVVSNFSFQGADQARPLWRYPDLGPHTVFLANIIGRTLTEQMREESRYLRSHARARAVLKEVVEMPDHQADRVLRSIEQNRGELSNVLAKEMPVLQQVGVWAEIVDAVSRAFAEDGGAGGAMIDRYRPGKPVDR				NA	NA	NA	NA	NA
D1-35_00038	735			hypothetical protein	ATGAGCAAAATTGGCGCTTGCATCACTCTGTCTGCAACCCTGGCATTTGCCGTATCCACAGCTTTCGCGGCGGTTCCCACCGATATTTCGGGTGTCGCCCTTGGCTCGACTCTGGAAGAAGCCAAAGATGCGATCATGAAAGCCAACCAGGCCTATACGATCAGCCCGCTGAAAACTGTCGATGGCACCGAGGCCGGCGTGACAGCCGTGACCAACAAGACTCTTGCCCAAGCCGACCAGTTTGCCGCGCTTCAAGACGATGCTGGCAAGGTATGGTTTGTCGGGCATATGAAGCACTACGAAGAAGGGTCGCGTATCCCACTCGACAATCTGGTGGCATCGCTGACCGAAAAATTCGGCCCGACCTCGTTCCGCAATTCCCAGATGGGAGAAGTCATGTACTGGGAGTTTGACCGAAACGGCAAGCTGTATAAGGGTGTAGACCAAGTCTTTAACGACCGTGGCATTGGTCCTTGCGCGCAGGTGCACTTTAGCAATATGCACATTCCTGGCGTTTCCTTCCCTGCACCACAAAACTTCCCATCCGAGTGCAGCCTTCTGATCATGGCTTATTCACAACCTGATCAGGACAAGATGGTGCGTGAGTTCTCTCTGAGCGTAACCGATGTCAAAAGCATGTATGACCAGTTGAATGCCAAAGAGACGCAAGCAAAGGCGGAACAGGCCAGGAAACTGGAGGAAGAAAAATCCAAGGCGGCCAAACCGAACATCTGA	MSKIGACITLSATLAFAVSTAFAAVPTDISGVALGSTLEEAKDAIMKANQAYTISPLKTVDGTEAGVTAVTNKTLAQADQFAALQDDAGKVWFVGHMKHYEEGSRIPLDNLVASLTEKFGPTSFRNSQMGEVMYWEFDRNGKLYKGVDQVFNDRGIGPCAQVHFSNMHIPGVSFPAPQNFPSECSLLIMAYSQPDQDKMVREFSLSVTDVKSMYDQLNAKETQAKAEQARKLEEEKSKAAKPNI				NA	NA	NA	NA	NA
D1-35_00039	1377	mmcO	COG2132	Multicopper oxidase MmcO	ATGTCCTTTACCCGTCGCCAAATACTCGGTGGCCTGGCCGGTCTTGTTGTCGTTGGCGTAGGTGCGGGAGGCGCGTCGCGGTATTGGTTGGGCAAGATGGCCGATGCCGAGGCCGGTCACGACTATGAACTGATCGCGGCGCCGCTGGATGTGGAACTGGTGGCCGGGCACAAGACCCAGGCCTGGGCCTTTGGTCCGTCAGCGCCGGGCACCGAATTGCGGGTGCGCCAGGGCGAGTGGTTGCGGGTGCGATTCATCAACCATTTGCCGGTCGCGACGACCATTCACTGGCACGGCATCCGCTTGCCACTGGAGATGGACGGCGTACCGTATGTCTCGCAACTGCCGGTGTTGCCAGGCGAGTACTTCGATTACAAATTCCGCGTGCCGGACGCCGGCAGCTATTGGTATCACCCGCACGTCAACAGCAGCGAGGAGCTCGGACGCGGGCTGGTGGGGCCGCTGATCATCGAAGAGCGTGAGCCTACCGGCTTCAAATACGAGCAGACGTTGAGCCTCAAGAGTTGGCATGTGGACGAGCAGGGCGAGTTCGTCGCGTTCAGCATCCCTCGCGAGGCGGCGCGTGGCGGCACCGCCGGGCGGCTGTCGACGATCAACGGCTTGCCCCAGGCGGTGATTGATTTGCCGGCCGGGCAGATTACCCGGGTGCGGTTGCTCAACCTCGACAACACGCTGACTTACCGCATCAATATCCCCGGCGTCGAGGCGCAGATCTATGCGCTCGACGGCAATCCCGTCGCGCCGCGCCCGTTGGGCAAGGAGTACTGGCTGGGCCCGGGTATGCGCATCTGCCTGGCGATCAAGGCGCCGCCGGCCGGTGAAGAGTTGTCGTTGCGCAATGGCCCGGTGCGCCTGGGGACGCTGCGTTCGGTGCCCAACAATGACGCACCGACCCAGTGGCCGCCGGCGCTGCCGCCTAACCCGGTGGCCGAGCCGGACCTGGCCAATGCGCAGAAACTCAACTTCAATTTCGAATGGGTCGGTTCGGTCTCGGTCAATGTCGACAATGGCAAGCCGCCGAGCCTGTGGCAAATCAATGGCAAGGCCTGGGATATCACCGACAAGACCTGCGCCGATCGGCCGATTGCCACGCTGAAGAAAGGCCAGAGCTATATATTCGAATTGAAGAACATGACCCAGTACCAGCACCCGATCCATCTGCACGGCATGAGCTTCAAGGTCATTGCGTCGAACCGGCACAAGGTCATTCCGTATTTCACCGATACCTACCTGCTGGGCAAGAACGAGCGGGCACAGGTGGCGCTGGTGGCGGATAACCCCGGCGTGTGGATGTTCCACTGCCATGTGATCGATCACATGGAAACCGGCCTGATGGCCGCCATCGAGGTGGCGTGA	MSFTRRQILGGLAGLVVVGVGAGGASRYWLGKMADAEAGHDYELIAAPLDVELVAGHKTQAWAFGPSAPGTELRVRQGEWLRVRFINHLPVATTIHWHGIRLPLEMDGVPYVSQLPVLPGEYFDYKFRVPDAGSYWYHPHVNSSEELGRGLVGPLIIEEREPTGFKYEQTLSLKSWHVDEQGEFVAFSIPREAARGGTAGRLSTINGLPQAVIDLPAGQITRVRLLNLDNTLTYRINIPGVEAQIYALDGNPVAPRPLGKEYWLGPGMRICLAIKAPPAGEELSLRNGPVRLGTLRSVPNNDAPTQWPPALPPNPVAEPDLANAQKLNFNFEWVGSVSVNVDNGKPPSLWQINGKAWDITDKTCADRPIATLKKGQSYIFELKNMTQYQHPIHLHGMSFKVIASNRHKVIPYFTDTYLLGKNERAQVALVADNPGVWMFHCHVIDHMETGLMAAIEVA				NA	NA	NA	NA	NA
D1-35_00040	498	tadA	COG0590	tRNA-specific adenosine deaminase	ATGCGCCAGATTCGTCCCGCGCGGATCATCGACCGCAGCCGCGACCAGGATTTCATGCGTGAAGCCCTGGCTCTCGCCGCCCAAGGCGCCACGCTGGGCGAAGTCCCGGTGGGCGCGGTGCTGGTGCAGGATGGTGAGATCATTGGGCGTGGCTTCAACTGCCCGATCAGTGGCCACGACCCCAGCGCCCACGCGGAGATGGTCGCCATCCGCGCCGCTGCCCAGGCGGTGAGCAACTATCGCCTGCCTGGCAGCACGCTGTATGTGACGCTGGAACCGTGCAGCATGTGCGCCGGCCTCATCGTCCACTCACGCATCGCCCGGGTCGTCTACGGGGCGCTGGAACCCAAGGCTGGGATCGTGCAGAGCCAAGGGCAGTTTTTCAGCCAAGGCTTTTTGAATCATCGGGTGATGTTCGAGGGCGGGGTGTTGGCTGAGGAATGCAGCGCGGTGTTGAGCGAGTTTTTCAAGGCCAGGCGAGCAAAGCCTTCAGACTGA	MRQIRPARIIDRSRDQDFMREALALAAQGATLGEVPVGAVLVQDGEIIGRGFNCPISGHDPSAHAEMVAIRAAAQAVSNYRLPGSTLYVTLEPCSMCAGLIVHSRIARVVYGALEPKAGIVQSQGQFFSQGFLNHRVMFEGGVLAEECSAVLSEFFKARRAKPSD	PGPT0006855_8	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROPROPENE_DEGRADATION,PGPT0006855-dhaA-K01563	NA	NA
D1-35_00041	957	cmoB	COG0500	tRNA U34 carboxymethyltransferase	ATGATTGATCTGTCCCCCCTCGCCCGCCATCTGGCCGGCACGCCCCTGGCCGACTGGGCCGCGACACTGCAAACGCAGCTCGATATCAAAATGGAAAAGGGCCACGGCGACCTGGAGCGTTGGCAAAGCGCCCTCGATGCGCTGCCGGCCTTGCAGCCCACCACCGTGGATCTGCTGAACGAGCTGACGCTGGACGCAGATTGCTCTGACGAAACCCGCGCCCAGATGCGTACCGCGCTGATGGGTCTTTCTCCGTGGCGCAAGGGCCCGTTCGATCTGTTTGGCGTGCACGTGGACACCGAATGGCGCTCGGACTGGAAATGGTCACGCGTCGCCCCGCATCTAGACCTCAAGGGCAAGCGCATCCTCGATGTCGGCTGCGGCAACGGCTACTACATGTGGCGGATGCTCGGTGCCGGCGCGGACACGGTGATTGGCGTCGACCCGAACTGGCTGTTCTTCTGCCAGTTCCAGGCGGTGCAGCGCTACCTGTCACAGCCCAACGCCTGGCACCTGCCTTTCCCATTCGAAGCCCTGCCGCCGGAGCTGGAAGGTTTTGACACGGTCTTCTCCATGGGCGTCTTCTACCACCGCCGCTCGCCGATCGAGCATCTGTTGGCCTTGAAGGACTGCCTGGTAAAAGGCGGTGAGCTGGTGCTCGAAACCCTGGTGATCGAAGGCGACGAACACCAGGTGCTGGTGCCCGAGGACCGCTACGCGCAGATGCGCAACGTCTGGTTCCTGCCGTCGGTCCCGGCCCTGGAACGCTGGCTGCGCCGCGCCGGGTTCAGCGATGTGCGCTGCGTGGACGTCAGCCTGACGACCGTGGAGGAACAGCGCAGCACCGAGTGGATGAAGTACCAGTCACTGAGTGATTTCCTCGATCCTGCGGACCACAGTAAAACCATTGAGGGACTGCCGGCGCCGATGCGGGCGGTGATTGTGGCGCGTAAGTAA	MIDLSPLARHLAGTPLADWAATLQTQLDIKMEKGHGDLERWQSALDALPALQPTTVDLLNELTLDADCSDETRAQMRTALMGLSPWRKGPFDLFGVHVDTEWRSDWKWSRVAPHLDLKGKRILDVGCGNGYYMWRMLGAGADTVIGVDPNWLFFCQFQAVQRYLSQPNAWHLPFPFEALPPELEGFDTVFSMGVFYHRRSPIEHLLALKDCLVKGGELVLETLVIEGDEHQVLVPEDRYAQMRNVWFLPSVPALERWLRRAGFSDVRCVDVSLTTVEEQRSTEWMKYQSLSDFLDPADHSKTIEGLPAPMRAVIVARK				NA	NA	NA	NA	NA
D1-35_00042	744	cmoA	COG0500	Carboxy-S-adenosyl-L-methionine synthase	GTGAGCAAAGAACCCGATCGCCTATTCGCCCAGCCCTTGGCCCAGGTGCCCGACTTCGCCTTCAATGAAGACGTGGTTCGAGTGTTCCCGGACATGATCAAGCGCTCGGTGCCAGGCTACCCGACCATCGTCGAGAACCTCGGCGTGCTCGCCGCGCAGTTCGCCCAGCCCAATAGCGTGCTGTATGACCTCGGTTCGTCCCTGGGCGCGGTGACCCAGGCGCTGCGCCGTCATGTGCGCACCGACGGTTGCCGGGTGATCGCGGTGGATAACTCGGCGGCCATGGTCGAGCGCTGCCGCGAATACCTCAACGGCCAGGACTCGATGTTCCAGGAGTTGTTGCCGGTGGAAGTGATCGAAGGCGACATCCTTGCGCTGGCGTTCCAGCCGGCCTCGGTGGTGGCGTTGAACTTCACGCTGCAATTCATCGCACCCGAACAACGTACCGCGTTGCTGACCCGTATCCGTCAGTCCTTGCTGCCCGGCGGCGCCTTGATCCTCTCGGAAAAACTGCGCTTCAACGATGCCGAGGAACATGCCCTGCTGACCGACCTGCACGTGGCGTTCAAGCGCGCCAACGGCTACAGCGAGCTGGAAATTGCTCAGAAACGCAGCGCCATCGAAAACGTCATGAAGCCCGACAGCCTCGAAGAACACCGCGAGCGCCTGCTGGCGGCCGGCTTCTCGAAAGTCGTGCCGTGGTTCCAGTGTCTTAACTTCGCCTCGTTGATTGCCTTGCCATGA	MSKEPDRLFAQPLAQVPDFAFNEDVVRVFPDMIKRSVPGYPTIVENLGVLAAQFAQPNSVLYDLGSSLGAVTQALRRHVRTDGCRVIAVDNSAAMVERCREYLNGQDSMFQELLPVEVIEGDILALAFQPASVVALNFTLQFIAPEQRTALLTRIRQSLLPGGALILSEKLRFNDAEEHALLTDLHVAFKRANGYSELEIAQKRSAIENVMKPDSLEEHRERLLAAGFSKVVPWFQCLNFASLIALP				NA	NA	NA	NA	NA
D1-35_00043	393			hypothetical protein	ATGTCTCTCACCCGCCTGCTCGTACCCGTCAGCCTCGCCTTGTTGAGCGCCTGTGCCATGCAACCGAAACACAACGTGACGGTCGAGAAGCTTAGCCAATGCCCGGTGCAGCTCAATAACGGCCAGAACCTGATCCTGAGCCTGCCGACCAACCCAAGCACCGGCTACCGATGGACGGTTCAGGATTCAGCCGGCGGCGTGTTGAAGGCGTTGGGCCCGGAGGTCTACCGCAACCCGGAAGACGCCGGCATCGTCGGCGCCGCCGGGGTGTCAACCTGGCGCTTCCAGGCATTCAACGCCGGCACCGGGCGCTTGCGCCTGACGTATCAACAACCCTGGGCGCCTGAGGTCCCCCCCGTGGAAACCTTCGACTGCGCCATTTCGGTGAATTGA	MSLTRLLVPVSLALLSACAMQPKHNVTVEKLSQCPVQLNNGQNLILSLPTNPSTGYRWTVQDSAGGVLKALGPEVYRNPEDAGIVGAAGVSTWRFQAFNAGTGRLRLTYQQPWAPEVPPVETFDCAISVN				NA	NA	NA	NA	NA
D1-35_00044	2415	lon_1	COG0466	Lon protease	ATGAGCGACCAGCACTCGACTGAAGCAAACGACGAATACGCAGACGCCGAACAGATCGAACACACCGTTTCCGGTACGGGCTTGGCCCTGCCCGGCCAGAGCCTGCCGGACAAGGTCTACATCATCCCGATCCACAATCGTCCGTTCTTCCCGGCCCAGGTACTGCCGGTCATCGTCAACGAAGAACCGTGGGCCGAGACCCTGGAGCTGGTGGCCAAGTCCGATCACCATTCCCTGGCGTTGTTCTTCATGGACACGCCCCAGGAAGACCCGCGCCACTTCGACACCTCGAAACTGCCGCTGTACGGCACACTGGTGAAGGTCCACCACGCCAGCCGTGAGGCCGGCAAATTGCAGTTCGTTGCCCAGGGCCTGACCCGCGTGCGCATTCGCACCTGGCTCAAGCATCATCGCCCGCCATACCTGGTGGAAGTCGAATACCCGCATCAGCCAAGCGAGCCGACCGACGAGGTCAAGGCCTACGGCATGGCGCTGATCAATGCGATCAAGGAACTGCTGCCGCTCAACCCGCTGTACAGCGAAGAGCTGAAGAACTACCTCAACCGCTTCAGCCCCAACGACCCTTCGCCGCTGACCGACTTCGCCGCCGCGCTCACCTCCGCCACCGGCAGTGAATTGCAGGAAGTGCTCGATTGCGTGCCGATGCTCAAGCGCATGGAAAAAGTCCTGCCGATGCTGCGCAAGGAAGTCGAAGTGGCGCGGCTGCAGAAAGAGATTTCCGCCGAGGTCAACAGCAAGATCGGCGAACATCAGCGCCAGTTCTTTCTAAAGGAACAACTAAAGGTCATCCAGCAGGAGCTGGGCTTGACCAAGGACGACCGCAGCGCCGACCTGGAACAATTCGAACAGCGCCTGGAGGGCAAGGTGCTGCCGGCCCAGGCACAGAAACGCATCGAAGAGGAAATGAACAAGCTCTCGATCCTGGAAACCGGCTCGCCGGAATACGCCGTCACGCGTAACTACCTCGATTGGGCAACATCGGTGCCGTGGGGCGTGTATGGCCAGGACAAGCTTGACCTCAAGCACGCCCGCAAGATTCTCGACCAGCACCACGCCGGCCTGGACGACATCAAGGACCGCATCCTGGAATTCCTCGCGGTGGGCGCCTACAAAGGCGAGATCAGCGGTTCGATCGTCTTGCTGGTTGGCCCTCCGGGTGTGGGCAAGACCAGCGTCGGCAAGTCCATTGCCGAATCCCTCGGGCGGCCGTTCTATCGTTTCAGTGTCGGCGGCATGCGCGACGAAGCCGAAATCAAGGGCCACCGGCGCACCTACATCGGCGCCCAGCCGGGCAAGCTGGTGCAGGCGCTCAAGGACGTCGAAGTGATGAACCCGGTGATCATGCTCGACGAAATCGACAAGATGGGCCAGAGCTACCAGGGCGACCCGGCTTCCGCGCTGCTCGAAACCCTCGACCCGGAGCAGAACGTCGAATTCCTCGACCACTACCTGGACATGCGCCTGGACCTCTCGAAAGTGCTCTTTGTGTGCACAGCGAACACTTTGGACTCGATTCCCGGCCCGCTGCTGGACCGCATGGAAGTGATTCGCCTGTCGGGCTATATCACCGAAGAAAAAGTCGCCATCGCCAAGCGCCACTTATGGCCCAAGCAACTCGCCAAGGCCGGCGTTTCCAAGGGCAGCCTGAGCATCAACGACAGCGCTCTCAAGGCACTGATCGACGGTTATGCCCGGGAGGCCGGCGTCCGTCAGTTGGAAAAACAGCTGGGCAAACTGGTGCGCAAGGCGGTCATGAAGCTGATCGACGAGCCGAAAGCCGTGATCAAACTCGGGCCGAAGGATCTCGAGGCGTCCCTGGGCAAACCGGTATTTCGCAATGAGCAGGTGCTGTCCGGCGTGGGTGTGATCACCGGACTGGCCTGGACCAGCATGGGCGGCGCGACCCTGCCGATCGAGGCAACGCGTATCCACACGCTCAATCGCGGCTTCAAGCTCACCGGGCAACTGGGCGAAGTCATGAAGGAATCGGCTGAAATTGCCCACAGCTACGTCAGTTCGCACCTGAAGCAATTCGGCGGTGATCCAAAGTTTTTCGATGAGGCTTTTGTTCACCTGCACGTACCGGAAGGCGCCACGCCCAAGGACGGCCCGAGTGCCGGCGTGACCATGGCCAGCGCCCTGCTGTCCCTGGCGCGTAACCAGCCGCCGAAAAAAGGCGTGGCCATGACCGGTGAACTGACCCTTACCGGGCATGTCCTGCCGATTGGCGGCGTGCGCGAAAAAGTCATCGCGGCGCGTCGGCAGAAGATCAATGAGTTGATCCTGCCGGACGCCAACCGGGGCAATTTCGAGGAACTGCCGGACTACCTCAAGGAAGGTGTCACGGTGCACTTTGCCAAGCGGTTTGCGGATGTGGCGAAGGTGTTGTTCTGA	MSDQHSTEANDEYADAEQIEHTVSGTGLALPGQSLPDKVYIIPIHNRPFFPAQVLPVIVNEEPWAETLELVAKSDHHSLALFFMDTPQEDPRHFDTSKLPLYGTLVKVHHASREAGKLQFVAQGLTRVRIRTWLKHHRPPYLVEVEYPHQPSEPTDEVKAYGMALINAIKELLPLNPLYSEELKNYLNRFSPNDPSPLTDFAAALTSATGSELQEVLDCVPMLKRMEKVLPMLRKEVEVARLQKEISAEVNSKIGEHQRQFFLKEQLKVIQQELGLTKDDRSADLEQFEQRLEGKVLPAQAQKRIEEEMNKLSILETGSPEYAVTRNYLDWATSVPWGVYGQDKLDLKHARKILDQHHAGLDDIKDRILEFLAVGAYKGEISGSIVLLVGPPGVGKTSVGKSIAESLGRPFYRFSVGGMRDEAEIKGHRRTYIGAQPGKLVQALKDVEVMNPVIMLDEIDKMGQSYQGDPASALLETLDPEQNVEFLDHYLDMRLDLSKVLFVCTANTLDSIPGPLLDRMEVIRLSGYITEEKVAIAKRHLWPKQLAKAGVSKGSLSINDSALKALIDGYAREAGVRQLEKQLGKLVRKAVMKLIDEPKAVIKLGPKDLEASLGKPVFRNEQVLSGVGVITGLAWTSMGGATLPIEATRIHTLNRGFKLTGQLGEVMKESAEIAHSYVSSHLKQFGGDPKFFDEAFVHLHVPEGATPKDGPSAGVTMASALLSLARNQPPKKGVAMTGELTLTGHVLPIGGVREKVIAARRQKINELILPDANRGNFEELPDYLKEGVTVHFAKRFADVAKVLF	PGPT0014315_2499	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014315-lon-K01338	NA	NA
D1-35_00045	1314	yhjE		Inner membrane metabolite transport protein YhjE	ATGACCACCACCACTTGCAATGACGCCGTGGCAAACCAACCGACCAACTCGGCCACCCGCGTGGCAACCGCGAGTTTCATCGGCACCGCCATCGAGTTCTACGATTTCTACGTCTACGCGACCGCTGCCGCCCTGGTGATCGGGCCGGTATTCTTTCCGCAAACCTCGGGCACGGCACAGATGCTGTCGTCCTTCCTGACGTTCGGCATCGCCTTCCTCGCCCGGCCGCTGGGCTCGGCGCTGTTCGGCCATTTCGGCGACCGGATCGGGCGCAAGTCCACCCTGGTGGCGTCGCTGCTGCTGATGGGCGTGTGCACCACCCTCATCGGCGTGCTGCCCGGCTACGCCAGCATTGGCGCGTGGGCGCCGATTCTCCTGTGCCTGCTGCGTTTCGGCCAGGGCCTGGGGCTGGGCGGTGAATGGGGCGGCGCGGCGTTGCTCGCCACCGAGAACGCCCCGAAAGGCAAGCGCGCCTGGTTTGGCATGTTCCCCCAACTGGGCCCCTCCATCGGCTTCCTGGCGGCCAACGGATTGTTCCTGACCCTGGCCATGACCCTCGACGACGAGCAGTTCCGCTCCTGGGGCTGGCGGATTCCGTTCCTGCTGAGCGCCGCCCTGGTCATCGTTGGCCTTTATGTGCGTCTCAAGCTCCATGAAACGCCGGTCTTCGCCAACGCGGTGGCCCGTCAGGAACGGGTGAAAATCCCCTTGGTCGAGCTGTTCAGCCAGTATTGGGCGCCAACATTGCTCGGCGCGGCCGCGATGGTGGTGTGTTACGCCCTGTTCTACATCTCGACGGTATTTTCCCTGAGCTATGGCGTGTCCACCCTCGGTTACAGCCGCGAGACCTTCCTCGGCCTGCTGTGCTTTGCCGTGCTGTTCATGGCCGCCGCCACGCCGCTATCGGCCTGGGCCAGCGATCGCTACGGGCGCAAGCCGGTACTGGTTATCGGCGGCGTCCTGGCGATTGCCTCGGGTTTCCTCATGGAACCGTTGCTGACCCACGGTTCTACCGCCGGCGTGGCATTGTTCCTGTGCATCGAACTGTTCCTGATGGGCGTGACTTTTGCCCCCATGGGTGCGTTGCTGCCGGAGCTGTTTCCCACACACGTGCGCTACACCGGCGCGTCGGCGGCCTACAACCTGGGCGGCATCGTCGGTGCGTCGGCGGCACCGTTCTTCGCCCAGAAACTGGTGGCGATGGGCGGCCTGAGCTACGTCGGCGGATACGTTTCCGCAGCGGCGGTGCTCAGCGTTATCGCGGTGCTGTGTCTGAAGGAAACCCGCCATAACGACTTGAATCGCATCGGTTGA	MTTTTCNDAVANQPTNSATRVATASFIGTAIEFYDFYVYATAAALVIGPVFFPQTSGTAQMLSSFLTFGIAFLARPLGSALFGHFGDRIGRKSTLVASLLLMGVCTTLIGVLPGYASIGAWAPILLCLLRFGQGLGLGGEWGGAALLATENAPKGKRAWFGMFPQLGPSIGFLAANGLFLTLAMTLDDEQFRSWGWRIPFLLSAALVIVGLYVRLKLHETPVFANAVARQERVKIPLVELFSQYWAPTLLGAAAMVVCYALFYISTVFSLSYGVSTLGYSRETFLGLLCFAVLFMAAATPLSAWASDRYGRKPVLVIGGVLAIASGFLMEPLLTHGSTAGVALFLCIELFLMGVTFAPMGALLPELFPTHVRYTGASAAYNLGGIVGASAAPFFAQKLVAMGGLSYVGGYVSAAAVLSVIAVLCLKETRHNDLNRIG	PGPT0002956_141	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_SHIKIMATE_TRANSPORT,PGPT0002956-shiA-K08172	NA	NA
D1-35_00046	1239			hypothetical protein	ATGGATAGGCTGCCCTTGGGGCCATTGTTTGCGGTAATGGTCGTGCTGATCCTCTGGTCGGCGCTGTTCACGGCCATCGAAGCGGCCCAACAGTATCTGCTCGCGCAACGCAAAGCGTCGCGCTCTGGCGACAAGCCACTGGCGAAGCTGAACTTCCCTATCGCCAGCCTGATCCTGGGCAACACCCTCTGTCGTGCGCTGGCCGTGGTAATCGGCACCTGGCTGGCGATTTTTGCCTGGCTGGAAAACGGCCCGTGGCTGGCCTGGCTCGGCACCAGCGCGGCCTTGCTGGTTTTTGCCGATTACCTGCCTCGCACCCTGGCGACCCGCTACCCCGACGCGGTGCTGGGCCTGGGCAACAGCTTGCTTGCCCTGCCGCTGAAAATTGTCTATCCGGCCGCCTGGCTGCTCAACGGTTTCAGTCAGTTGCTGCTGCGCCCGTTTGCCCGCAAGACCGGCGCTGTCCAGCACAGCGACGATGAGATGCCCGCACCGCCACGCGCTGAGCATGAACAGGAACACAGCGGCCGGGTCCATCCGGTATCCGGCATCCACGCGCTGGACAACATCACCGTCAACGACATCCTCGTGCCCCGCAGCGAGGTGGACGGGATCAACCTCGACGACCCTATCGGCGAAATCATCGAACAGCTGCGCCTGAACCGTCGGACCCGCCTGCCGGTGTTCCACAGCGATATCAACCAGGTCGAAGCGGTGCTCAACACCCGCCAGATCCGCCACCTGCTGGCGGACGCGAGCCTGACCAAGGAAGCGCTGCTGGCCGCCTGCCACGAGCCTTACTTCGTCCCCGAGAGCACGCCGCTGCAGCTGCAGTTGCTCAACTTCCACAAGCAGCAGCGACGCCTGGGCATGGTGGTGGATGAATACGGCGAAGTGCTGGGCATCGTGACCCTGGAAGACATCCTCGAGGAAATCGTCGGCGAGTTCGAAAGCGAGCACAGCCTCGACAATCCCCATGTCCATCCCCAGCCCGATGGCCGCCTGATGATCGAGGGCGCGGCGTCGATCCGCGAGTTGAACAAGACCCTCGGCTGGCACCTGCCTTGCGATGGCCCCAAGACGCTCAACGGCCTAGTCACCGAGGCCCTGGAAACCATCCCCGAAAGTCCGGTCTGCCTGAAGATCGGCCGCTACCGGCTGGAGATCATCGAGACCGTCGACAACCGCGTCAGCCAGGTGCTGGTGTGGCATAACAGCTCGGTGCCCGCTGTTTCCTGA	MDRLPLGPLFAVMVVLILWSALFTAIEAAQQYLLAQRKASRSGDKPLAKLNFPIASLILGNTLCRALAVVIGTWLAIFAWLENGPWLAWLGTSAALLVFADYLPRTLATRYPDAVLGLGNSLLALPLKIVYPAAWLLNGFSQLLLRPFARKTGAVQHSDDEMPAPPRAEHEQEHSGRVHPVSGIHALDNITVNDILVPRSEVDGINLDDPIGEIIEQLRLNRRTRLPVFHSDINQVEAVLNTRQIRHLLADASLTKEALLAACHEPYFVPESTPLQLQLLNFHKQQRRLGMVVDEYGEVLGIVTLEDILEEIVGEFESEHSLDNPHVHPQPDGRLMIEGAASIRELNKTLGWHLPCDGPKTLNGLVTEALETIPESPVCLKIGRYRLEIIETVDNRVSQVLVWHNSSVPAVS				NA	NA	NA	NA	NA
D1-35_00047	813	ypjD	COG4137	Inner membrane protein YpjD	ATGCTCCCCTTGTCACCCAGCTTGCTTGCTTCCCTCGCCGCCGCTTGTCTTTATGCCGCTGCGACCTTCTATCAGGGCACCCGCCTGGCCTCCGGCGCCAAGGCGAACAAGCGCCTGCTGGTCACGCTCGGCGTGCTGGCGGTGCTTGTCCACGCGGCCAGTCTTGTCACCCACCTGATGACGCCGATCGGCCTGGGCCTGGACTTCTTCAATGCCGCCAGCCTGATTGCCGTGGCCGTGATTGCCCTGACGCTGCTGGCCTGCTCGCGCATCCCCGTGGAAAACCTGCTGGTGCTGCTGTTCCCGCTGGGACTGGCCACGGTGCTGCTGGCGCAGTTCGCGCCCTCGGGCACCGTGCAGATCATCGACGAAGAGCCAGGCATTCTCGCCCATATCCTGTTGTCGATCCTCGCCTACGGCCTGTTCACCATCGCGGTATTCCAGGCATTGCTGCTGCTGGTGCAGGACCATCAGCTCAAGCACAAGCACCCGTCCGGGCTGATCCGCAACTTTCCGCCGCTGCAAACCATGGAAAGCCTGCTGTTCGGTTTCCTCTGGGCCGGCTGGACGCTGCTGTCGCTGTCGCTGATTTCCGGCTGGCTGTTCGTCGAAAACCTGTTCGCCCAACACCTGGTGCACAAGACATTGTTGGCGTGCCTGGCGTGGATCGTGTTCAGCGTGCTGCTGTGGGGCCGTAATCGTCTCGGCTGGCGGGGCCACAAGGCAATTCGCTGGACCCTGGCCGGATTCTGCCTGCTGATGCTCGCCTACTTCGGCAGCAAGCTGGTCCGCGAATACATCCTGCATGTCTGA	MLPLSPSLLASLAAACLYAAATFYQGTRLASGAKANKRLLVTLGVLAVLVHAASLVTHLMTPIGLGLDFFNAASLIAVAVIALTLLACSRIPVENLLVLLFPLGLATVLLAQFAPSGTVQIIDEEPGILAHILLSILAYGLFTIAVFQALLLLVQDHQLKHKHPSGLIRNFPPLQTMESLLFGFLWAGWTLLSLSLISGWLFVENLFAQHLVHKTLLACLAWIVFSVLLWGRNRLGWRGHKAIRWTLAGFCLLMLAYFGSKLVREYILHV				NA	NA	NA	NA	NA
D1-35_00048	1377	ffh	COG0541	Signal recognition particle protein	ATGTTTGAAAACCTAACCGACCGTCTCTCGCAGACGCTGCGCCATGTCACCGGCAAGGCGAAACTGACCGAAGACAACATCAAAGACACCCTGCGCGAAGTGCGCATGGCGTTGCTCGAAGCCGACGTCGCCCTGCCGGTGGTCAAGGACTTCGTCAATTCGGTGAAGGAACGCGCCGTCGGCACCGAAGTGTCGCGCAGCCTGACACCGGGCCAGGCCTTCGTGAAGATTGTCCAGGCCGAACTCGAAAGCCTGATGGGCGCCGCCAACGAAGACCTGAACCTGAGCGCCGTGCCTCCGGCGGTCGTGCTGATGGCCGGCCTGCAGGGCGCGGGCAAGACCACCACTGCCGGCAAGCTGGCGCGCTTCCTTAAAGAGCGCAAGAAGAAGTCGGTGATGGTGGTGTCCGCGGACATCTATCGCCCGGCGGCGATCAAGCAGCTGGAAACCCTGGCCAACGACATCGGCGTGACGTTCTTTCCGTCCGACTTGAGCCAGAAGCCGGTGGACATCGCCCAGGCTGCTATAAAGGAAGCGAAGCTCAAGTTCATCGACGTGGTTATCGTCGACACCGCCGGTCGCCTGCACATCGATGAAGAGATGATGGGCGAGATCAAGGCACTGCACGCCGCGATCAACCCGGTGGAAACCCTGTTTGTGGTCGACGCCATGACCGGCCAGGACGCGGCCAACACGGCCAAGGCCTTCGGCGACGCACTGTCGCTGACCGGCGTGATCCTGACCAAGGTCGACGGCGACGCCCGTGGCGGTGCCGCGCTGTCGGTCCGCGCGATTACCGGCAAGCCGATCAAGTTCATCGGTATGGGCGAGAAGAGCGAGGCGCTCGAGCCGTTCCACCCCGAGCGTATCGCCTCGCGTATCCTCGGCATGGGCGACGTGCTCAGCCTGATCGAGCAGGCCGAACAGACCCTCGACAAGGACAAGGCCGACAAACTGGCCAAGAAGCTGAAGAAGGGCAAGGGCTTCGACCTCGAAGACTTCCGCGACCAGTTGCAACAGATGAAGAACATGGGCGGCCTCGGCGGCCTCATGGACAAACTGCCGAACATTGGTGGCGTGAACCTGGCGCAAATGGGCAATGCACAGGGCGCGGCCGAGAAGCAGTTCAAGCAGATGGAAGCCATCATCAACTCCATGACCCCGGCCGAGCGCCGCGACCCTGACCTGATCAGCGGTTCGCGCAAACGCCGTATCGCCATGGGTTCCGGCACGCAGGTGCAGGACATCGGCCGCTTGATCAAGCAACACAAGCAGATGCAGAAGATGATGAAGAAGTTCTCCGCCAAGGGCGGGATGGCCAAGATGATGCGCGGCATGGGCGGTATGTTGCCCGGCGGCGGTATGCCGAAAATGTAA	MFENLTDRLSQTLRHVTGKAKLTEDNIKDTLREVRMALLEADVALPVVKDFVNSVKERAVGTEVSRSLTPGQAFVKIVQAELESLMGAANEDLNLSAVPPAVVLMAGLQGAGKTTTAGKLARFLKERKKKSVMVVSADIYRPAAIKQLETLANDIGVTFFPSDLSQKPVDIAQAAIKEAKLKFIDVVIVDTAGRLHIDEEMMGEIKALHAAINPVETLFVVDAMTGQDAANTAKAFGDALSLTGVILTKVDGDARGGAALSVRAITGKPIKFIGMGEKSEALEPFHPERIASRILGMGDVLSLIEQAEQTLDKDKADKLAKKLKKGKGFDLEDFRDQLQQMKNMGGLGGLMDKLPNIGGVNLAQMGNAQGAAEKQFKQMEAIINSMTPAERRDPDLISGSRKRRIAMGSGTQVQDIGRLIKQHKQMQKMMKKFSAKGGMAKMMRGMGGMLPGGGMPKM	PGPT0025750_3207	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025750-ffh-K03106	NA	NA
D1-35_00049	252	rpsP	COG0228	30S ribosomal protein S16	ATGCTAACAATCCGTCTTGCCCTTGGCGGCTCCAAAAAGCGCCCGTTTTACCACCTGACCGTAACCGACAGCCGCAATCCGCGTGACGGTTCGCACAAGGAACAGGTTGGTTTCTTCAACCCTGTTGCCCGTGGTCAGGAAATCCGTCTGTCCGTGAACCAAGAGCGCGTAGCCTACTGGCTGAGCGTTGGTGCACAGCCTTCTGAGCGTGTTGCTCAGTTGTTGAAGGAATCGGCTAAGGCTGCGGCCTGA	MLTIRLALGGSKKRPFYHLTVTDSRNPRDGSHKEQVGFFNPVARGQEIRLSVNQERVAYWLSVGAQPSERVAQLLKESAKAAA				NA	NA	NA	NA	NA
D1-35_00050	537	rimM	COG0806	Ribosome maturation factor RimM	ATGAACGCGACGCCAAAAGATGCTGATGATCTGATCGTTGTCGGCAAGATCTATTCTGTTCATGGCGTTCGCGGCGAAGTGAAGGTTTACTCCTTTACTGATCCGATCAAAAACCTGTTGGACTACAAAACCTGGACGCTCAAGCGCGAAGGTAGCGTGAAACAGGTTGAGCTGGTCAGCGGACGTGGGAACGACAAGTTCCTGGTCGCAAAGCTCAAGGGTCTCGATGATCGTGAAGAAGCGCGTCTTCTGGCCGGTTATGAGATCTGCGTGCCGCGCAACCTGTTCCCTGAACTGACCGACGGCGAGTACTACTGGTACCAGCTGGTGGGTCTGAAGGTCATCGACCACCTCGGGCAACTGCTCGGGAAGATCGATCACCTGCTCGAGACCGGTTCGAACGATGTCATGGTGGTAAAGCCTTGCGTCGGCAGCCTGGATGATCGCGAACGCCTGTTGCCCTATACCGAGCAATGCGTGTTGGCCGTTGACCTGGCAGCAGGCGAGATGAAGGTGGAATGGGATGCGGATTTCTAG	MNATPKDADDLIVVGKIYSVHGVRGEVKVYSFTDPIKNLLDYKTWTLKREGSVKQVELVSGRGNDKFLVAKLKGLDDREEARLLAGYEICVPRNLFPELTDGEYYWYQLVGLKVIDHLGQLLGKIDHLLETGSNDVMVVKPCVGSLDDRERLLPYTEQCVLAVDLAAGEMKVEWDADF				NA	NA	NA	NA	NA
D1-35_00051	753	trmD	COG0336	tRNA (guanine-N(1)-)-methyltransferase	GTGGCTAATCTGCGCGTTGAAGTCATCACGTTGTTTCCCGAGATGTTTTCCGCCATCAGCGAGTACGGCATAACCAGCCGCGCGGTGAAACAGGAGCTGTTGCAGCTCACTTGTTGGAATCCGCGGGACTACACCACGGATCGACATCACACTGTGGACGATCGCCCGTTTGGCGGTGGTCCGGGCATGGTGATGAAGATCAAGCCCCTGGAAGATGCGCTGGTTCAGGCCAGGACGGCAGCCGGGGAGGGTGCGAAGGTGATCTACCTGTCGCCCCAAGGCCGTCAGCTGACTCAGTCGGCGGTACGCGAGCTGGCGAAATCGGATGCATTGATCCTGATTGCCGGCCGTTACGAAGGCATTGACGAGCGTTTCATTGAAGCTCATGTCGATGAAGAGTGGTCGATTGGCGACTATGTACTGTCTGGCGGCGAGCTGCCGGCGATGGTCCTGATCGATGCGGTTACACGACTGCTGCCTGGAGCTTTAGGGCATGCGGATTCCGCCGAGGAAGATTCCTTTACGGATGGTCTGCTGGATTGCCCGCACTACACCCGACCGGAGGTGTATGCGGATCAGCGTGTTCCCGACGTGTTGCTAAGTGGCAACCACGCGCACATCCGGCGTTGGCGTTTACAGCAGTCCCTTGGTCGGACCTATGAACGACGCGCCGATCTTCTGGAAAGCCGCTCGCTTTCTGGAGAAGAGAAGAAGCTGCTCGAGGAATACATCCGCGAGCGGGACGATAGTTAA	MANLRVEVITLFPEMFSAISEYGITSRAVKQELLQLTCWNPRDYTTDRHHTVDDRPFGGGPGMVMKIKPLEDALVQARTAAGEGAKVIYLSPQGRQLTQSAVRELAKSDALILIAGRYEGIDERFIEAHVDEEWSIGDYVLSGGELPAMVLIDAVTRLLPGALGHADSAEEDSFTDGLLDCPHYTRPEVYADQRVPDVLLSGNHAHIRRWRLQQSLGRTYERRADLLESRSLSGEEKKLLEEYIRERDDS	PGPT0007595_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
D1-35_00052	351	rplS	COG0335	50S ribosomal protein L19	ATGACTAACAAAATCATCCTTGCACTCGAAGCAGAGCAGATGACCAAAGAAATCCCTCCCTTTGCCCCGGGCGACACCATTGTCGTTCAGGTGAAAGTGAAGGAAGGCGACCGTGCACGTCTGCAAGCGTTCGAAGGCGTTGTTATCGCCAAGCGTAACCGCGGCGTAAACAGTGCATTCACCGTTCGTAAAATCTCCAACGGTGTTGGCGTAGAGCGTACTTTCCAGACCTACAGCCCGCAAATCGACAGCATGGCTGTGAAGCGTCGCGGTGACGTGCGTAAAGCCAAGCTGTACTACCTGCGTGACCTGTCCGGTAAAGCAGCTCGCATCAAGGAAAAACTGGCTTAA	MTNKIILALEAEQMTKEIPPFAPGDTIVVQVKVKEGDRARLQAFEGVVIAKRNRGVNSAFTVRKISNGVGVERTFQTYSPQIDSMAVKRRGDVRKAKLYYLRDLSGKAARIKEKLA				NA	NA	NA	NA	NA
D1-35_00053	897	xerD	COG4974	Tyrosine recombinase XerD	ATGCCTGCCATCGATCACCCGCTGATAGACCAGTTTCTCGATGCCCTGTGGCTGGAGAAGGGGTTGTCCGATAACACCCGCGGTGCCTATCGCAGCGACCTCGCCCTGTTCAACGGCTGGCTCCAGGAAAACAACCTGGAGCTGGCCAATGCCGGGCGGGAGTTGATCCTCGATCATCTGGCGTGGCGCCTGGAGCAGAACTACAAGCCGCGCTCTACTGCCCGGTTTCTCTCTGGCTTGCGTGGGTTCTATCGTTATTTGTTGCGGGAAAAGCTGATCGCGGTGGACCCGACCTTGCGCGTGGAAATGCCGCAACTGGGGCGTCCGCTGCCCAAATCCCTTTCGGAAGCGGACGTCGAGGCGCTGCTGGCGGCACCGGACCTCAGCGACCCCATCGGTCAGCGCGACCGGGCCATGCTGGAAGTGTTGTACGCCTGTGGCCTGCGGGTCACTGAACTGATCAGCCTGACGCTGGAACAAGTGAACCTGCGCCAGGGCGTGTTGCGGGTGATGGGCAAGGGCAGCAAGGAGCGCCTGGTTCCGATGGGCGAAGAAGCGATCGTCTGGGTCGAGCGCTACATGCGCGATGGCCGTCATGACTTGCTGGGCGGGCGTCCCAGCGACGTGCTGTTTCCCAGCCTGCGCGGCGAGCAGATGACCCGCCAGACTTTCTGGCACCGCATCAAGCACCAGGCCAAGGTGGCCGGGATCAACAAATCGCTCTCGCCCCACACGCTGCGCCATGCCTTCGCCACGCACTTGCTCAATCACGGCGCCGACCTGCGGGTGGTGCAGATGCTGCTGGGGCATAGCGACCTGTCCACCACCCAGATCTACACCCACGTCGCCCGGGCGCGGTTGCAGGAGTTGCATGCCAGGCACCATCCGCGCGGCTGA	MPAIDHPLIDQFLDALWLEKGLSDNTRGAYRSDLALFNGWLQENNLELANAGRELILDHLAWRLEQNYKPRSTARFLSGLRGFYRYLLREKLIAVDPTLRVEMPQLGRPLPKSLSEADVEALLAAPDLSDPIGQRDRAMLEVLYACGLRVTELISLTLEQVNLRQGVLRVMGKGSKERLVPMGEEAIVWVERYMRDGRHDLLGGRPSDVLFPSLRGEQMTRQTFWHRIKHQAKVAGINKSLSPHTLRHAFATHLLNHGADLRVVQMLLGHSDLSTTQIYTHVARARLQELHARHHPRG	PGPT0022000_6288	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
D1-35_00054	732	dsbC	COG1651	Thiol:disulfide interchange protein DsbC	ATGCGTTTGATCCAGATGTTCACCGCCGCCGCCATTGCGTTGGCCAGTACCTTTGCCATCGCCGATGACGCGGCCGACCAGGCGATCCGCAAAAGCCTCGCCAACCTCGAGCTTGAAGTGCCGATCGAGGCCATCTCCGCCAGCCCGATGTCCGGCCTGTATGAGGTCAAGCTGCAGGGCAGCCGTGTGCTGTATGCCAGCGCCGACGGTCAGTACATCGTCCAGGGCAACCTGTTCGCGCTCAAGGACGGCAAGCCGGTGAATCTCACCGAGATCACCGAGCGCCAAGGCATCTCCAAATTGATCAACGGTATCCCGGTCGCCGAAACCGTGGTCTACCCGGCGGTGGGCGAAACCAAGTCGCACATTACCGTGTTCACCGACACCACTTGCCCGTACTGCCACAAACTGCACGCCGAAGTGCCAGAGCTGAACAAGCGTGGCATCGAGGTGCGCTACGTGGCGTTCCCGCGTCAGGGCCTCGGCTCGCCGGGCGATGAGCAATTGCAGGCAGTCTGGTGCTCCAAGGACAAGAAAGCGGCCATGGACAAAATGGTCGACGGCAAGGAAATCAAAGCCGCCAAGTGCGAGAACCCGGTCTCCAAGCAATTCGCCCTCGGCCAGTCCATTGGTGTGAACGGCACGCCGGCCATCGTTTTGGCCGATGGCCAGGTGATTCCGGGCTACCAGCCGGCGCCGCAAGTCGCCAAACTGGCCCTTGGGGCGAAATGA	MRLIQMFTAAAIALASTFAIADDAADQAIRKSLANLELEVPIEAISASPMSGLYEVKLQGSRVLYASADGQYIVQGNLFALKDGKPVNLTEITERQGISKLINGIPVAETVVYPAVGETKSHITVFTDTTCPYCHKLHAEVPELNKRGIEVRYVAFPRQGLGSPGDEQLQAVWCSKDKKAAMDKMVDGKEIKAAKCENPVSKQFALGQSIGVNGTPAIVLADGQVIPGYQPAPQVAKLALGAK	PGPT0030050_960	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_TRANSFER_PILUS_ASSEMBLY_PROTEIN,PGPT0030050-dsbC-K03981	NA	NA
D1-35_00055	1305	hom	COG0460	Homoserine dehydrogenase	GTGAATCCGGTCAAAGTAGGCATCTGTGGGTTAGGTACCGTCGGTGGCGGCACCTTCAACGTACTTCAGCGCAACGCCGAGGAAATTGCTCGTCGTGCCGGGCGTGGGATCGAAGTGGCACAAATTGCCATGCGCACGCCAAAGCCTCAGTTCCAGACGACCGGTATTGCGATTACCAACGATGTCTTCGAAGTGGCCACGAACCCTGAGATCGACATCGTGATAGAGCTGATGGGCGGCTATACCGTTGCCCGCGAGCTGGTACTCAAGGCCATCGAGAATGGCAAGCATGTGGTCACCGCGAACAAGGCGCTTATCGCCGTTCACGGCAATGAAATTTTCGCCAAGGCCCGCGAGAAGGGCGTGATCGTGGCTTTCGAGGCCGCCGTAGCCGGTGGTATCCCGGTGATCAAGGCGATTCGCGAAGGGCTGTCGGCCAACCGGATCAACTGGGTGGCCGGGATCATCAACGGCACCGGCAACTTCATCCTCACCGAGATGCGCGAGAAGGGCCGCACTTTTGAAGACGTGCTGGCCGAAGCCCAGGCGCTGGGCTACGCCGAGGCGGACCCGACGTTCGACGTCGAAGGCATTGATGCGGCGCACAAGCTGACGATCCTGGCGTCAATCGCCTTCGGTATTCCGCTGCAGTTCGACAAGGCCTACACCGAAGGCATCACCAAGCTGACCACCGCCGACGTGAACTACGCCGAGGCCCTGGGCTATCGCATCAAGCACCTGGGCGTGGCGCGCAGCACCGCCAGCGGCATCGAGTTGCGTGTGCATCCGACGCTGATCCCCGCCGATCGCCTGATCGCCAACGTCAACGGCGTGATGAACGCGGTAATGGTCAACGGCGACGCCGCCGGCTCGACCTTGTTCTATGGCGCTGGCGCTGGCATGGAGCCGACCGCTTCTTCGGTGGTTGCCGACCTGGTGGACGTGGTTCGCGCCATGACATCCGACCCGGAAAATCGCGTGCCGCACCTGGCGTTCCAGCCGGACTCGCTGTCGGACCACCCGATTCTTCCGATCGAAGCGTGCGAAAGTGCCTACTACCTGCGTATCCAGGCGAAGGACCATCCAGGGGTGTTGGCCCAGGTTGCCAGCATTCTTTCGGAACGCGGCATCAACATCGAGTCGATCATGCAGAAGGAAGTCGAGGAGCACGACGGCCTGGTGCCGATGATCCTGCTGACCCACCGCGTGGTCGAGCAACGCATCAACGATGCGATCGCAGCGTTGGAGGCGCTTCAGGGAGTCGTTGGCCCGGTGGTCCGTATCCGCGTCGAGCATTTGAACTAA	MNPVKVGICGLGTVGGGTFNVLQRNAEEIARRAGRGIEVAQIAMRTPKPQFQTTGIAITNDVFEVATNPEIDIVIELMGGYTVARELVLKAIENGKHVVTANKALIAVHGNEIFAKAREKGVIVAFEAAVAGGIPVIKAIREGLSANRINWVAGIINGTGNFILTEMREKGRTFEDVLAEAQALGYAEADPTFDVEGIDAAHKLTILASIAFGIPLQFDKAYTEGITKLTTADVNYAEALGYRIKHLGVARSTASGIELRVHPTLIPADRLIANVNGVMNAVMVNGDAAGSTLFYGAGAGMEPTASSVVADLVDVVRAMTSDPENRVPHLAFQPDSLSDHPILPIEACESAYYLRIQAKDHPGVLAQVASILSERGINIESIMQKEVEEHDGLVPMILLTHRVVEQRINDAIAALEALQGVVGPVVRIRVEHLN	PGPT0020155_1604	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020155-hom-K00003	NA	NA
D1-35_00056	1410	thrC	COG0498	Threonine synthase	ATGCGCTATATCAGTACCCGCGGCCAGGCACCGGCCCTGAATTTCGAAGATGTCCTGCTGGCCGGCCTGGCCACGGACGGCGGCCTCTATGTGCCGGAGAACCTGCCGCGCTTCACCCAGGAAGAAATCGCTTCCTGGGCCGGCCTGCCGTATCACGAGCTGGCCTTCCGGGTGATGCGCCCGTTCGTCACCGGCAGCATTCCGGACGCTGATTTCAAGAAGATCCTGGAAGAGACCTACGGCGTCTTTTCCCACAACGCCATCGCGCCGTTGCGTCAGCTCAACGGTAACGAATGGGTGATGGAGCTGTTCCACGGCCCGACCCTGGCCTTCAAGGATTTCGCCCTGCAATTGCTCGGCCGCCTGCTGGACTATGTGCTGCAAAAGCGTGGCGAGCGCGTGGTGATTGTCGGTGCCACCTCCGGCGACACCGGCTCGGCCGCCATCGAAGGTTGCAAGCATTGCGAGAACGTCGATATTTTCATCCTGCACCCGCACAACCGCGTCTCGGAAGTGCAGCGTCGGCAGATGACGACGATTTTCGGCGATAACATCCATAACATCGCCATCGAAGGCAACTTCGATGACTGCCAGGAAATGGTCAAGGCCAGCTTCGCCGACCAGAGCTTCCTCAAGGGCACCCGGCTGGTGGCGGTGAACTCGATCAACTGGGCGCGGATCATGGCCCAGATCGTCTATTACTTCCACGCGGCCCTGCAGTTGGGCGGCCCGGCCCGCTCGGTGGCGTTCTCGGTACCCACCGGCAATTTCGGCGATATCTTCGCCGGTTACCTGGCACGCAACATGGGGCTGCCGATCAACCAGCTGATCGTCGCCACCAACCGCAACGACATCCTGCACCGCTTCATGAGCGGTAACCAGTACGTCAAGGAAACCCTGCACGCCACGTTGTCGCCGTCGATGGACATCATGGTGTCGTCGAACTTCGAGCGTTTGCTGTTCGACCTGCACGGTCGTAATGGCGCGGCGATTGCGGGCCTGATGGACAGCTTCCGTCAGGGCGGTGGTTTCAGCGTCGAGGCCGAACGCTGGACCGAAGCCCGCAAGCTGTTCGACTCCCTGGCGGTGGATGACGCGCAGACCTGCGAAACCATCGCCGAGGTGTTCGAGCAGAGCGGTGAGTTGCTCGATCCGCACACCGCCATCGGGGTGCGAGCGGCGCGCGAGTGCCGCCGGAGCCTGGATATCCCGATGGTCATCCTGGGCACCGCTCACCCGGTGAAGTTTCCGGAAGCCGTAGAGAAAGCTGGCGTAGGAAAAGCGCTCGAGCTGCCTGCACATCTTTCTGATTTGTTTGAACGAGATGAGCGTTGCACCGTATTGCCCAATGACTTGAAGGCCGTGCAGGCCTTTGTCAGTCAGCATGGCAACCGCGGCAAGCCGCTCTGA	MRYISTRGQAPALNFEDVLLAGLATDGGLYVPENLPRFTQEEIASWAGLPYHELAFRVMRPFVTGSIPDADFKKILEETYGVFSHNAIAPLRQLNGNEWVMELFHGPTLAFKDFALQLLGRLLDYVLQKRGERVVIVGATSGDTGSAAIEGCKHCENVDIFILHPHNRVSEVQRRQMTTIFGDNIHNIAIEGNFDDCQEMVKASFADQSFLKGTRLVAVNSINWARIMAQIVYYFHAALQLGGPARSVAFSVPTGNFGDIFAGYLARNMGLPINQLIVATNRNDILHRFMSGNQYVKETLHATLSPSMDIMVSSNFERLLFDLHGRNGAAIAGLMDSFRQGGGFSVEAERWTEARKLFDSLAVDDAQTCETIAEVFEQSGELLDPHTAIGVRAARECRRSLDIPMVILGTAHPVKFPEAVEKAGVGKALELPAHLSDLFERDERCTVLPNDLKAVQAFVSQHGNRGKPL	PGPT0009175_1848	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0009175-thrC-K01733	NA	NA
D1-35_00057	1371	bvgS_1		Virulence sensor protein BvgS	ATGCTGTTCGTTAACCGATGCAAACCGGCGTTGAGCTGGATGATGGGCCTCGCCCTGATGTACTGGGGCCAATGGGGCGGCGCTGACCCGTCGACGCCTCCCGGGCAGTCACCGCTCGAAGCGGGCGAGAGACTGGTGCTCGACGCCCGGGAGCTGGACTGGATCAGGCAGAACCCGCGTGTCGTTGTGGCGTCGATGCAAATCCCGCTGTACCTGTTCAAGAATGCACAGGGAGAATGGAGCGGCCTGAACGCTGACATGCTCCATGCCATTGAGCGAATGACCGGACTTGAATTCATCCATCGGGAGTCGTTCTCTGCCGATCAATTGATAGAGATGCTGGAAAACGGCGAAGCCGACATGTCTAGTGTCCTGGCGATGAATGACGAGCGCCGGGCTGTGCTGAATTTCAGCCATGCGTTCGGCGGTTTCGACTGGGTATTCGTTGGCCGTGAGGGGGAGCCTGCGCTTCGTTCGCTGGATCAGTTGGCGGGCAAGGTGCTGGCGTTGCCGGCACGGCATGCCCTGGAAGCGGAAATCCGCCGCGAGCATCCAACCATAGCGCTGCGCACGGTGATGACCCCTGCCGAGGCAAGGGCGTTGGTGGAAAATCGCGAAGCCCATGCCACCATCGAAAGCGAAACCGCCGTGCACCTCTATCCTTCAGGGCAACTGCAGGTGGGGGGCAGTCTCGAAGGCATGTGGGAGCCAGACTATCTCGCTGTACGGCAGGATTCCCAAACATTGCTGGATGTCCTCAACAAGGCGCTGGAAGCGTTTCCCGCCGAAGACATGCGCGCGCTACGTTTCAAGTGGTTCGCCGAGAAAACACCTGATCAAGAACCGTCGTTCTGGTCGCGCATCCCCCTGCAGGGCTATTGGTGTGTGATCGCAGCAGGGGTGTTCGGCCTGTTGTCGCTGCTCTGGAACCGCCGCTTGCAGGGCCAGATCGGACAGCGCCTCAAGGCCGAGACCGTACTCAACGACCAATTGACGTTCCAGCGCGCCTTGATGGATGCCATTCCCGATCCGATCTTTATTCGAGATCTCGAAGGGCGGCTGATCATGTGCAACAAAAGTTATGAGGAGCGGTTCGCGACTCGCTTCGAGAAGCTGCGAGGCACGTGTCTGACGGAGTCTGCGGCAATGCCGGCGGCAACCGCCGAACTGTTGCACGGGGAGCTGATGGAGCAGCTGCGAACCCGTCAGCCCCGGTTTGTCGACCGCCAGCTGATGTTGCGCAGTGGATTGCAGGACATCTATCACTGGTCGGTGCCCTTTTATGCCGCCGATGGCCGGTTGCGCGGTGTCCTGGGCGGTTGGATCGAGGTTGGACGCCGGAGGGATCGTTCCAAGCGGCTGCCGGCTTGA	MLFVNRCKPALSWMMGLALMYWGQWGGADPSTPPGQSPLEAGERLVLDARELDWIRQNPRVVVASMQIPLYLFKNAQGEWSGLNADMLHAIERMTGLEFIHRESFSADQLIEMLENGEADMSSVLAMNDERRAVLNFSHAFGGFDWVFVGREGEPALRSLDQLAGKVLALPARHALEAEIRREHPTIALRTVMTPAEARALVENREAHATIESETAVHLYPSGQLQVGGSLEGMWEPDYLAVRQDSQTLLDVLNKALEAFPAEDMRALRFKWFAEKTPDQEPSFWSRIPLQGYWCVIAAGVFGLLSLLWNRRLQGQIGQRLKAETVLNDQLTFQRALMDAIPDPIFIRDLEGRLIMCNKSYEERFATRFEKLRGTCLTESAAMPAATAELLHGELMEQLRTRQPRFVDRQLMLRSGLQDIYHWSVPFYAADGRLRGVLGGWIEVGRRRDRSKRLPA	PGPT0014485_391	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE_EVG-EMR_SYSTEM,PGPT0014485-evgS|bvgS-K07679	NA	NA
D1-35_00058	288			hypothetical protein	ATGGAAAGTATCAGCCTGTTGCTCAATGAAGCCTTGAGCCCGTATCAGGTCACGCTCACGCCCTCCGGTACCAAAGGCGAATGCCTGGTAACGCTGAAGAATTCCTCGGGGGCCATCATGGTCGAGCGGCTGTTCAACCAGGCCCAACTGACCGACAAGCGCCAACTGACCGACGTGGTCGACGGCCTGCATCGCGATGTGCTGATTGCCGAGGGGCGGCTGGAGCCGTGTGTCATCGCGGCGTTACGTAACGTGGCGCGCGACAAGGTCATGCTTGCTGCCAATTGA	MESISLLLNEALSPYQVTLTPSGTKGECLVTLKNSSGAIMVERLFNQAQLTDKRQLTDVVDGLHRDVLIAEGRLEPCVIAALRNVARDKVMLAAN				NA	NA	NA	NA	NA
D1-35_00059	1200	smtB_1	COG1804	Succinyl-CoA--L-malate CoA-transferase beta subunit	ATGTCGCTTACTGCCAAACCTCTTGCCGGCGTCAAGGTCATCGAACTCGGCACGCTGATCGCCGGCCCTTTTGCCTCGCGTATCTGCGGTGAATTCGGTGCCGAGGTCATCAAGGTCGAATCGCCGGACGGCGGCGATCCGCTGCGCAAGTGGCGCAAATTGTATGAAGGTACGTCCTTGTGGTGGTTCGTCCAGGCACGCAACAAAAAGTCCGTGACGCTGAACCTCAAGCACCCCGAAGGCCTGGCGATCCTGAAAAAACTGCTTGGCGAAGCCGACATCCTGATCGAGAACTTTCGCCCCGGCGTGCTGGAAAAGCTCGGCCTGGGCTGGGACGTGTTGCACGCACTGAATCCGAAGCTGGTCATGGTCCGGCTATCAGGCTTCGGCCAGACCGGGCCGATGAAGGATCAGCCCGGGTTCGGCGCCGTCGGTGAGTCGATGGGAGGCCTGCGCTACATCACCGGCTTCGAGGATCGCCCACCGGTGCGCACCGGTATCTCCATCGGCGACTCGATCGCCGCGCTCTGGGGGGTGATCGGCGCGCTGATGGCCTTGCGTCACCGGGAGGTCAACGGTGGGACCGGCCAGGTGGTGGACGTGGCGCTATACGAAGCGATTTTCGCCATGATGGAAAGCATGGTGCCGGAGTTCGACGTGTTCGGTTTCATCCGCGAACGCACCGGCAACATCATGCCCGGCATCACGCCGTCGTCCATCCACACCAGCGCCGACGGCAAGCATGTACAGATCGGCGCCAACGGTGACGCCATCTTCAAGCGTTTCATGCAGGTCATTGGCAGGGACGACTTGGCGAACGACCCGCAGCTGGCCAGCAATGATGGCCGTGACGAACGCCGCGACGAGTTGTATGGGGTCATTGATCGCTGGGTCAACTCGCTGCCGTTGGATGCCGTCATCGACCAGTTGAACCAGGCCGGCGTGCCGGCAAGCCGGATCTTCAGTGCCGAGGACATGTTCAGCGACCCGCAATTTCTCGCCCGCGAGATGTTCCTGCAAGCCAGGCTGCCGGATGGCAAGGCGTTCAAGATGCCTGGGATCGTACCGAAGCTTTCCGACACACCGGGAACAGCCGAATGGGTCGGGCCAGCATTGGGCGAGCACACGGCAGAGGTGCTCGGTGAGCTTGGCTACGATGCGCAGCAGGTCGCCAGGCTGCGCACCGACGGCGCCGTCTGA	MSLTAKPLAGVKVIELGTLIAGPFASRICGEFGAEVIKVESPDGGDPLRKWRKLYEGTSLWWFVQARNKKSVTLNLKHPEGLAILKKLLGEADILIENFRPGVLEKLGLGWDVLHALNPKLVMVRLSGFGQTGPMKDQPGFGAVGESMGGLRYITGFEDRPPVRTGISIGDSIAALWGVIGALMALRHREVNGGTGQVVDVALYEAIFAMMESMVPEFDVFGFIRERTGNIMPGITPSSIHTSADGKHVQIGANGDAIFKRFMQVIGRDDLANDPQLASNDGRDERRDELYGVIDRWVNSLPLDAVIDQLNQAGVPASRIFSAEDMFSDPQFLAREMFLQARLPDGKAFKMPGIVPKLSDTPGTAEWVGPALGEHTAEVLGELGYDAQQVARLRTDGAV	PGPT0002130_587	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
D1-35_00060	543	yaeQ	COG4681	putative protein YaeQ	ATGGCCCAGCCGTCCACGACCTACAAGTTTGAACTGAACCTCACTGACCTCGACCGCAGCGTGTACGAGAATGTGAAGCAGACCATTGCCCGCCATCCTTCGGAAACCGAAGAGCGCATGACCGTGCGCCTCTTGGCCTACGCGTTCTGGTACAACGAGCTGCTGGCGTTTGGTCGTGGGCTGTCGGATGTCGACGAACCCGCGTTGTGGGAAAAAAGTCTGGATGACCGTGTGCTGCACTGGATCGAAGTAGGCCAGCCGGATGCCGATCGCCTGACCTGGTGCTCGCGCCGCACCGAGCGCACCAGCCTGCTGGCCTACGGCAGCCTGCGGGTGTGGGAAGGCAAGGTGATCCCCGCGGTGAAGAATCTGAAGAACGTGAACATCGCCGCCGTCCCCCAGGAAGTGCTTGAAACCCTGGCCAAGGACATGCCACGGGTGATCAAGTGGGACGTGATGATCAGCGAAGGGACGATTTTCGTGACCGACGACCGTGGCCAGCATGAGGTTCAGTTGCAATGGTTGCTGGGCGAGCGTGGCTGA	MAQPSTTYKFELNLTDLDRSVYENVKQTIARHPSETEERMTVRLLAYAFWYNELLAFGRGLSDVDEPALWEKSLDDRVLHWIEVGQPDADRLTWCSRRTERTSLLAYGSLRVWEGKVIPAVKNLKNVNIAAVPQEVLETLAKDMPRVIKWDVMISEGTIFVTDDRGQHEVQLQWLLGERG				NA	NA	NA	NA	NA
D1-35_00061	1710	recJ	COG0608	Single-stranded-DNA-specific exonuclease RecJ	ATGCGCATAGAACCCCGCCAGTTACCCGCCACCCTGCCGTTTCTCGGTGACCTGCCGCCGTTGTTGACCCGTCTTTACGCAGCACGTGGCGTGCAGTCCGAAGCGGAGCTGGACAAGAGCCTGGCGCGCCTGATTCCTTATCAGCAACTCAAGGGGATCGATGCCGCGGTGGACCTGCTGGTGGTGGCGCTGGAGCAGCGTCAGCGCATCCTCATCGTCGGCGATTTTGATGCCGATGGCGCGACCGCCAGTACCGTGGGCATGCTTGGTCTGCGCCTGCTCGGTGCGGCCCATGTCGACTACCTGGTGCCCAATCGCTTTGAATATGGCTATGGCCTCACGCCGGAAATCGTCGAAGTCGCCCTGACACGCGCGCCGCAATTGTTGGTCACCGTGGACAACGGCATCTCCAGCGTGGAAGGCGTGGCAGCGGCGAAAGCGGCCGGCCTCAAGGTGCTGGTCACCGACCACCACTTGCCGGGGCTCGAATTGCCGGCGGCCGATGCCATCGTCAACCCGAACCAGCCCGGTTGTGAGTTCCCGAGCAAGGCACTGGCGGGTGTCGGGGTGATCTTTTATGTGCTGATGGCCCTGCGGGCCCGTCTGCGCAGCCTCGGTTGGTATGCCAGCAAGCCGCAGCCGAACATCGGCGAACTGCTCGACCTGGTGGCGCTGGGCAGCGTCGCCGACGTGGTGCCGCTGGATGCCAACAACCGGATCCTGGTGCACCAGGGCCTGGAGCGTATTCGCGCCGGACGCGCCCGGCCCGGCATCAAGGCCATCCTCGAAGTAGCCAAGCGCGATCACTCGCGCATCACTTCCACCGACCTCGGTTTCATCCTCGGACCGCGCCTGAATGCGGCGGGGCGGCTGGATGACATGAGCCTGGGTATCGAATGCCTGCTTACCGATGACCCGGCGCTGGCGCGGGACATGGCGGCGCAGCTTGATGGCATGAACCAGGACCGCAAATCCATCGAACAGGGCATGCAACGTGAAGCCATGGCCCAGCTCAAGGATCTGCCGGTGGAGTCGATGCCGTTCGGCTTGTGCCTGTTCGATCCGCAATGGCACCAGGGCGTCATCGGGATCCTGGCGTCACGCATGAAAGAGCGCTATTTCCGTCCGACCATTGCTTTCGCCGATGCCGGGGACGGCCTGCTCAAAGGGTCGGGCCGCTCGGTGCCGGGATTTCATATCCGCGATGCGTTGAGCGTTGTCGCGGCGCAGCATCCGACCCTGATCAGCAAATACGGCGGTCACGCCATGGCGGCGGGGCTGACGTTGCCGGAGGCGAACTTTGCCTTGTTTGCCGAGGCTTTTGACGCGGAGGTGCGCCGGCAACTACGTGAAGAAGACCTGACGGGGCGGCTGTTGTCGGATGGCTCTCTGGCGGTGGAAGAGTTCCACCTGGAACTGGCCCGGGCACTGCGCCATGCCGGGCCGTGGGGACAGCATTTTCCGGAGCCGGTGTTCCACGGCGTGTTCCAGCTGGTCGAGCAGCGAGTGGTGGGTGAACGGCACCTGAAGGTCATTCTCAAGACTGAGTGCGGTTCGGTGAAACTCGATGGCATAGCCTTCGGCATTGATCGGGAAATCTGGCCCAACCCCACCGTGCGCTGGGTAGAGCTGGCCTATAAGCTTGACCTCAACGAGTTCCGTGGCCAGGAAACGGTGCAGTTGATGATTGCTCATATCGAACCGCGGTAG	MRIEPRQLPATLPFLGDLPPLLTRLYAARGVQSEAELDKSLARLIPYQQLKGIDAAVDLLVVALEQRQRILIVGDFDADGATASTVGMLGLRLLGAAHVDYLVPNRFEYGYGLTPEIVEVALTRAPQLLVTVDNGISSVEGVAAAKAAGLKVLVTDHHLPGLELPAADAIVNPNQPGCEFPSKALAGVGVIFYVLMALRARLRSLGWYASKPQPNIGELLDLVALGSVADVVPLDANNRILVHQGLERIRAGRARPGIKAILEVAKRDHSRITSTDLGFILGPRLNAAGRLDDMSLGIECLLTDDPALARDMAAQLDGMNQDRKSIEQGMQREAMAQLKDLPVESMPFGLCLFDPQWHQGVIGILASRMKERYFRPTIAFADAGDGLLKGSGRSVPGFHIRDALSVVAAQHPTLISKYGGHAMAAGLTLPEANFALFAEAFDAEVRRQLREEDLTGRLLSDGSLAVEEFHLELARALRHAGPWGQHFPEPVFHGVFQLVEQRVVGERHLKVILKTECGSVKLDGIAFGIDREIWPNPTVRWVELAYKLDLNEFRGQETVQLMIAHIEPR				NA	NA	NA	NA	NA
D1-35_00062	1107	namA	COG1902	NADPH dehydrogenase	ATGAGTCTGCTGCTGGAACCTTATACCCTTCGTCAACTGACCCTGCCCAATCGCATCGCGGTTTCGCCGATGTGCCAGTATTCGAGCGCCGATGGCCTGGCCAACGACTGGCATCTGGTGCACCTCGGCAGTCGTGCCGTGGGCGGTGCCGGCCTGGTGTTCACCGAAGCCACCGCCGTCACGGCCGATGGCCGGATTACCGCCGAGGACCTCGGGTTGTGGAACGATGAACAGATCGAGCCTTTGCAACGCATCACCCGGTTCATAACCGCCCAAGGCGCCGTGCCTGGCATCCAGCTGGCCCACGCCGGGCGCAAGGCAAGCACCTGGCGGCCCTGGCTGGGCAAGCACGGCAGCGTCAAGCCGGAAGAGGGCGGCTGGGTTCCGGTCGGCCCTTCGCCGATTGCCTTCGACCCCCAGCACACCCAACCGAAGCAGCTCGATGAAGCACAGATCGCCGACGTCATCCAGGCGTTCGTCGACGCGGCCAAACGCGCCCTGACGGCAGGTTTCAAGGTCGTCGAGGTGCATGCTGCCCATGGCTACCTGCTGCACCAGTTCCTGTCGCCGTTGAGCAATCAGCGGCGGGATCAATACGGTGGGTCGTTTGAAAATCGTATCCGCCTGGTACTGCAAGTGACCGAAGCGGTCCGGGCCGTATGGCCGGAGGAGCTGCCGGTTTTTGTTCGGGTATCCGCCACCGACTGGGTCGAAGACGGCTGGAACCCCGATGAAACGGTGGAACTGGCGCGGCGATTCCGGGCGCTGGGGGTGGACTTGATCGATGTGTCGTCGGGCGGTACCGCCGCCAACGCCGAGATTCCCACCGGCCCTGGCTACCAGACGCGCTTCGCCGAGCGGGTGCGCAAGGAGTCGGAAATCGCCACTGGCACGGTCGGGATGATCACCGAGCCGGCCCAGGCCGAACACATCCTGCGCACCTGCCAGGCCGATATTATCTTCCTCGCTCGCGAGCTGTTGCGCGATCCGTACTGGGCGCTGCATGCCGACGACGACCTGGGCGGACGCAAGGCCACCTGGCCGGCGCAGTACCAGCGGGCGACGCATCGGGATCAGCCGATCCATGAGTCGGATTTGCGCGACTGA	MSLLLEPYTLRQLTLPNRIAVSPMCQYSSADGLANDWHLVHLGSRAVGGAGLVFTEATAVTADGRITAEDLGLWNDEQIEPLQRITRFITAQGAVPGIQLAHAGRKASTWRPWLGKHGSVKPEEGGWVPVGPSPIAFDPQHTQPKQLDEAQIADVIQAFVDAAKRALTAGFKVVEVHAAHGYLLHQFLSPLSNQRRDQYGGSFENRIRLVLQVTEAVRAVWPEELPVFVRVSATDWVEDGWNPDETVELARRFRALGVDLIDVSSGGTAANAEIPTGPGYQTRFAERVRKESEIATGTVGMITEPAQAEHILRTCQADIIFLARELLRDPYWALHADDDLGGRKATWPAQYQRATHRDQPIHESDLRD	PGPT0005575_544	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_NITRO-|AMINOBENZOATE_DEGRADATION,PGPT0005575-namA-K09461	NA	NA
D1-35_00063	1626	mdoD	COG3131	Glucans biosynthesis protein D	ATGCACCGCAGGAATCTGCTCAAGGCCTCCATGGCCTTCGCCGCCTACACCGGACTGTCGGCCTCCGGGCTCATGGCCGCGCGTGCCTGGGCTGCCGATCAGACCGCCGACGGCGAAGCCCGTCCCTTCGATTTCAACCAATTGAAAGACCAGGCCCTGCGACTGGCCGCAAGCCGCTACGTCGACACCAAGCAAGTCCTGCCGCCGACGCTGGCGCAGATGTCCCCCTTGCAGTTCAATGCCATCCAGTACGACGCCAATCATTCGCTGTGGAATGAACTGGACGGCAAGCTGGACGTGCAGTTTTTCCATGTCGGCATGGGCTTCAAGCAGCCGGTGCGCATGTACAGTGTCGACCCGAAGACCCGCATGGCGCGTGAAGTACACTTTCGCCCGGAACTGTTCAACTACGAGAAGACCACGGTCAATACCTCGCAGCTCACCGGCGACCTCGGGTTCGCAGGGTTCCGGGTGTTCAAGGCACCGGAGCTGGACCGGCACGACATTGTTTCGTTTCTCGGCGCCAGTTATTTCCGCGCGGTGGACGCCACCGGCCAGTACGGCTTGTCTGCCCGCGGCCTGGCCATCGACACGTATGCGAAAAAACGCGAGGAATTCCCGGACTTCACCAAGTTCTGGTTCGAAACGCCGGACAAGAACAGCACCCGCTTCGTGGTCTATGCCCTGCTCGACTCACCGAGCGCCACCGGTGCCTACCGCTTTGACATCGATTGCCAGCCTACCCGGGTGGTGATGGAAGTCGACGCGCACGTCAACGCGCGTACCGCCATCGAGCAGTTGGGCATCGCGCCGATGACCAGCATGTTCAGTTGCGGCACCGTCGAGCGACGCATGTGCGACACCATTCACCCGCAGATCCACGACTCCGACCGCCTGGCCATGTGGCGCGGCAACGGCGAGTGGGTCTGCCGCCCGCTGAACAACCCCGCCACCCTGCAGTTCAATGCTTTCGCCGACAACAACCCGAAAGGTTTCGGCCTGGTGCAGACCGACCACGACTTCGAGAGTTACCAGGACACCGTGGACTGGTACAGCAAACGGCCAAGCCTGTGGGTCGAACCTACGACCGCTTGGGGCGAAGGCTCGGTCGACCTGCTGGAAATTCCTACCACCGGCGAGACCCTGGATAACATCGTTGCGTTCTGGACGCCGAAAAAACCGGTCGCTGCCGGCGATTCGTTGAACTATGGCTACAAACTCTACTGGAGCGCCCTGCCGCCGGTCAGCACGGACCTGGCCCGCGTCGACGCCACCCGTTCCGGCATGGGCGGCTTCATCGAAGGCTGGGCTCCCGGCGAACACTACCCCACCGTCTGGGCACGGCGCTTCGCGGTGGACTTCACCGGTGGCGGTCTCGATCAGTTGCCACCGGGCACCGGCATCGAGCCGGTGGTGACCTGCTCCCACGGCGAGGTCAAGGATTTCAACGTGCTGGTGCTGGACGCGATCAAGGGTTATCGCATCACCTTCGACTGGTACCCGATCGACGACCGCGTGGACCCGGTGGAGATGCGCCTGTTCATTCGCTCCAAGGACCGGACGCTGAGCGAGACCTGGTTGTACCAGTACTTCCCGCCGGCGCCGGATAAGCGTAAGTACCCCTGA	MHRRNLLKASMAFAAYTGLSASGLMAARAWAADQTADGEARPFDFNQLKDQALRLAASRYVDTKQVLPPTLAQMSPLQFNAIQYDANHSLWNELDGKLDVQFFHVGMGFKQPVRMYSVDPKTRMAREVHFRPELFNYEKTTVNTSQLTGDLGFAGFRVFKAPELDRHDIVSFLGASYFRAVDATGQYGLSARGLAIDTYAKKREEFPDFTKFWFETPDKNSTRFVVYALLDSPSATGAYRFDIDCQPTRVVMEVDAHVNARTAIEQLGIAPMTSMFSCGTVERRMCDTIHPQIHDSDRLAMWRGNGEWVCRPLNNPATLQFNAFADNNPKGFGLVQTDHDFESYQDTVDWYSKRPSLWVEPTTAWGEGSVDLLEIPTTGETLDNIVAFWTPKKPVAAGDSLNYGYKLYWSALPPVSTDLARVDATRSGMGGFIEGWAPGEHYPTVWARRFAVDFTGGGLDQLPPGTGIEPVVTCSHGEVKDFNVLVLDAIKGYRITFDWYPIDDRVDPVEMRLFIRSKDRTLSETWLYQYFPPAPDKRKYP	PGPT0013325_426	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0013325-mdoG-K03670	NA	NA
D1-35_00064	186			hypothetical protein	ATGACCAAAGTACAGAGCATTACCGAAATGCTGGGGATCTTTCCTGGCCTGACCAGAATACGGAGCAAACGCCCGCTCAGCCTGGAGGAAGCGAGGCTGGTCGAACGTTATCGAGAGTTGTCGGAAAGCGACCGGATCGCCATGCGTTATCTGATGGATGCGATGGGCCGTGCTTCGCGGTTTTGA	MTKVQSITEMLGIFPGLTRIRSKRPLSLEEARLVERYRELSESDRIAMRYLMDAMGRASRF				NA	NA	NA	NA	NA
D1-35_00065	264			hypothetical protein	ATGGCCTCGCCCGTTTTGTCCTTCCGCGTGGAAGAAGGTTTGGCCCAACAGCTGGACTTGCTGGCTGCCGCCACCGACCGCGACCGTCAATATCACCTGAAGCGTGCATTGGTTCGATACGTAGAGGCCGAGTCCTGGCACCTGCAAGCGATCAGCGAAGGCATAGCGGATGCCGACGCCGGGAATCTGACCGATCTGGATGCCGTGAAGGCTAAGTGGGCAAAGCGTGCCGAGCATCGTACTGACCAACAAAGCACAAAGTGA	MASPVLSFRVEEGLAQQLDLLAAATDRDRQYHLKRALVRYVEAESWHLQAISEGIADADAGNLTDLDAVKAKWAKRAEHRTDQQSTK				NA	NA	NA	NA	NA
D1-35_00066	1425	prr_1	COG1012	Gamma-aminobutyraldehyde dehydrogenase	ATGCAAACCAAACTGTTGATCAACGGCCATCTGGTGAACGGCGACGGCCCTGGCCAGGCCGTTTTTAATCCGGCGCTGGGCCGGGTCCTGGTGGAAATAAATGAAGCCAGCGAAGCCCAGGTCGATGCCGCCGTGCGCGCCGCCGACAGCGCTTTCGATGCCTGGTCGCAAGTGCCGCCCAAGGACCGCTCCCTGCTGCTGCTCAAGCTGGCCGATGCCATCGAGGCCAATGGTGAAGAACTGGCCAGGCTCGAATCGGACAACTGCGGCAAGCCATTGAGCGCCGCGCTGAACGATGAAATCCCGGCGATCGCCGATGTGTTCCGTTTCTTCGCCGGCGCCAGCCGTTGCATGAACGGCTCGGCGGGCGGCGAGTACCTGCCGGGGCACACCTCGATGATCCGTCGCGACCCGGTGGGCGTGATCGCTTCCATCGCCCCGTGGAACTACCCGTTGATGATGGTCGCCTGGAAAATCGCCCCGGCCCTGGCCGCCGGTAATACGGTGGTGCTCAAGCCGTCGGAACAGACGCCACTGACCGCGTTGCGCCTGGCGGAACTGGCGTCGGAAATTTTCCCGGCAGGTGTGCTCAACGTCGTTTTCGGACGCGGGCAAACCGTCGGCCAGCCGCTCGTCACGCACCCGAAAGTCCGCATGGTTTCCCTGACCGGGTCCATCGCCACCGGCTCGAACATCATTTCCAGCACCGCCGAGAGCGTCAAGCGCACGCACATGGAGCTGGGCGGCAAGGCCCCGGTGATCATCTTCGATGACGCCGACATTGATGCTGCGGTGGAAGGCATCCGCACCTTCGGCTTCTACAACGCCGGCCAGGACTGCACGGCCGCCTGCCGCATCTATGCCCAGCAAGGCATCTACGACAAATTTGTCGAAAAACTCGGCGCCGCCGTCGCCAGTATCAAGTACGGCCTGCAGAACGAACCCGATACCGAGATGGGACCGTTGATCACCGCTCAGCACCGCGACCGCGTGGCCGGCTTCGTCGAGCGGGCCATCGCCCAGCCCCACATCCGCCTGGTCACCGGTGGCAAGGCCGTGGACGGCAACGGCTTCTTCTTCGAACCGACGGTGCTGGCCGACGTCCAGCAGGACGACGAAATTGTCCGCCGCGAAGTGTTCGGTCCTGTGGTGTCCGTCACGCCATTCCTTGAGGAAGCACAAGTGCTGGCCTGGGCCAACGATTCGGACTACGGCCTGGCCTCATCGGTGTGGACCGCCGACATCGGCCGTGCCCATCGCTTGTCGGCACGCCTGCAATACGGCTGCACCTGGGTGAATACGCACTTCATGCTCGTCAGCGAAATGCCCCATGGCGGTCAGAAACGTTCTGGCTATGGCAAAGACATGTCGATGTATGGGCTGGAGGATTACACGGTGGTGCGGCATGTGATGTTCAAGCATTGA	MQTKLLINGHLVNGDGPGQAVFNPALGRVLVEINEASEAQVDAAVRAADSAFDAWSQVPPKDRSLLLLKLADAIEANGEELARLESDNCGKPLSAALNDEIPAIADVFRFFAGASRCMNGSAGGEYLPGHTSMIRRDPVGVIASIAPWNYPLMMVAWKIAPALAAGNTVVLKPSEQTPLTALRLAELASEIFPAGVLNVVFGRGQTVGQPLVTHPKVRMVSLTGSIATGSNIISSTAESVKRTHMELGGKAPVIIFDDADIDAAVEGIRTFGFYNAGQDCTAACRIYAQQGIYDKFVEKLGAAVASIKYGLQNEPDTEMGPLITAQHRDRVAGFVERAIAQPHIRLVTGGKAVDGNGFFFEPTVLADVQQDDEIVRREVFGPVVSVTPFLEEAQVLAWANDSDYGLASSVWTADIGRAHRLSARLQYGCTWVNTHFMLVSEMPHGGQKRSGYGKDMSMYGLEDYTVVRHVMFKH	PGPT0007650_536	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007650-patD|prr|ydcW-K00137	NA	NA
D1-35_00067	813	ydcV_1		Inner membrane ABC transporter permease protein YdcV	ATGCACTCTGACTCCAAGGCTTCGTGGGGCTTGCGGATAGCGGCATGGGGCGGGCTGGTGTTCCTGCATTTCCCGATCCTGATCATTTTCCTCTATGCCTTCAACACCGAAGACGCTGCGTTCAGCTTCCCGCCCAAGGGCCTGACCCTGAAGTGGTTCAGCGTCGCCTTCTCGCGCCCGGACGTGCTGGAGGCGATCAAGTTGTCATTGCAGATCGCAGCCGTCGCCACCCTGATCGCCATGGTGCTCGGCACACTCGCGTCTGCGGCACTGTACCGCCGTGATTTTTTCGGCAAGCAGGGTATCTCGCTGATGCTGATCCTGCCGATTGCGCTGCCAGGGATCATCACCGGCATCGCGCTGTTGGCGACCTTCAAGACCCTGGGCATCGAACCCGGCATGTTCACCATCATCGTCGGTCATGCGACCTTCTGCGTGGTGATCGTCTACAACAACGTCATCGCCCGTCTGCGCCGCACCTCCCACAGCCTGATCGAAGCGTCGATGGACCTGGGCGCCGACGGCTGGCAGACCTTTCGCTACATCGTCCTGCCTAATCTGGGGTCGGCCTTGCTGGCCGGCGGGATGCTGGCGTTTGCCTTGTCGTTCGATGAAATCATCGTCACCACGTTCACCGCCGGCCATGAGCGCACGCTGCCGCTCTGGCTGCTCAACCAGCTCAGCCGCCCTCGCGACGTGCCAGTGACCAATGTGGTGGCGATGCTGGTGATGTTGGTGACGATGCTGCCGATACTCGGCGCGTATTACCTGACGCGCGGTGGGGAGAGCGTGGCGGGGAGTGGTGGGAAGTAA	MHSDSKASWGLRIAAWGGLVFLHFPILIIFLYAFNTEDAAFSFPPKGLTLKWFSVAFSRPDVLEAIKLSLQIAAVATLIAMVLGTLASAALYRRDFFGKQGISLMLILPIALPGIITGIALLATFKTLGIEPGMFTIIVGHATFCVVIVYNNVIARLRRTSHSLIEASMDLGADGWQTFRYIVLPNLGSALLAGGMLAFALSFDEIIVTTFTAGHERTLPLWLLNQLSRPRDVPVTNVVAMLVMLVTMLPILGAYYLTRGGESVAGSGGK	PGPT0007845_2015	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
D1-35_00068	948	ydcU	COG1176	Inner membrane ABC transporter permease protein YdcU	ATGAGCACCCTGGCCATGACTCGAACCGAGACACACGGTTCGCCGTTGCGACGCTTTTCGAACCTGCTGTACCGGCGTCCCAACCTGTACCTGTCGCTGTTGCTGGTGCCACCGCTGATCTGGTTTGGCGCGATCTACCTGGGCTCGCTGCTGACCTTGCTGTGGCAAGGCTTCTATACCTTCGACGACTTCACCATGGCGGTCACGCCGGACCTGACCCTGGCGAATTTTTCGGCGCTGTTCCAGCCGTCGAATTTCGACATCATTGCGCGGACATTGACCATGGCGATCGCGGTGTCCATCGCCAGCGCCATTGTCGCCTTCCCGATCGCCTACTACATGGCGCGCTACACCAGCGGCAAGACCAAGGCGTTTTTCTACATCGCGGTGATGCTGCCGATGTGGGCCAGCTACATCGTCAAGGCCTACGCCTGGACACTGCTGCTGGCCAAGGGCGGCGTGGCGCAGTGGTTCATCCAGCACCTGGGGCTGGGGCCGGTGTTGCAGTTCGTGCTGGGCATTCCCGGCGTCGGTGGCAGCACGCTGTCTACTTCGCACCTGGGGCGCTTCCTGGTGTTCGTCTACATCTGGCTGCCGTTCATGATCCTGCCGATCCAGGCCTCCCTGGAACGGCTGCCGCCGTCGCTGCTGCAAGCTTCGGCGGACCTCGGCGCCAGGCCACGCCAGACCTTCATGCAGGTAATCCTGCCGCTGTCGATCCCGGGCATTGCCGCCGGCTCGATCTTCACCTTTTCGCTGACCCTGGGGGATTTCATCGTGCCCCAACTGGTGGGCCCGCCGGGCTACTTCGTTGGCAGCATGGTCTACGCCCAGCAAGGCGCCATCGGCAACATGCCCATGGCCGCGGCGTTCACGCTGGTGCCCATCGTGCTGATTGCCATCTATCTGTCTGTCGTCAAGCGACTGGGGGCTTTCGATGCACTCTGA	MSTLAMTRTETHGSPLRRFSNLLYRRPNLYLSLLLVPPLIWFGAIYLGSLLTLLWQGFYTFDDFTMAVTPDLTLANFSALFQPSNFDIIARTLTMAIAVSIASAIVAFPIAYYMARYTSGKTKAFFYIAVMLPMWASYIVKAYAWTLLLAKGGVAQWFIQHLGLGPVLQFVLGIPGVGGSTLSTSHLGRFLVFVYIWLPFMILPIQASLERLPPSLLQASADLGARPRQTFMQVILPLSIPGIAAGSIFTFSLTLGDFIVPQLVGPPGYFVGSMVYAQQGAIGNMPMAAAFTLVPIVLIAIYLSVVKRLGAFDAL	PGPT0007850_1032	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
D1-35_00069	1038	potA_1	COG3842	Spermidine/putrescine import ATP-binding protein PotA	ATGACGCTTGCCGTCCAGTTCACTCACGTTTCCCGTCAATTCGGCGAGGTGAAGGCCGTTGACCGGGTCTCCATCGACATCCAGGACGGCGAGTTCTTTTCCATGCTCGGCCCGTCCGGCTCGGGCAAGACCACTTGCCTGCGGCTGATTGCCGGGTTCGAGCAGCCCAGCGCCGGTTCGATTCGCATCCATGGGGAGGAAGCCGTAGGGCTCGCGCCGTATCAGCGGGACGTCAACACGGTGTTCCAGGACTACGCCCTGTTCCCGCACATGAACGTACGCGACAACGTCGCCTACGGCCTGAAAGTCAAAGGCGTCGCCAAGGCCGAGCGCATCAGGCGCGCCGATGAAGCGCTGGAGATGGTTGCCCTGGGCGGCTATGGCGAACGCAAGCCGGTGCAACTGTCCGGTGGCCAGCGCCAGCGCGTTGCCCTGGCCCGCGCGCTGGTCAATCGCCCGCGTGTGTTGCTGCTGGATGAACCGTTGGGCGCGCTCGACCTGAAGCTGCGCGAACAGATGCAAAGCGAGTTGAAAAAACTGCAACGCCAGTTGGGTATCACCTTCATCTTCGTTACCCACGACCAGACCGAGGCCTTGTCGATGTCCGACCGCGTGGCGGTGTTCAACAAGGGCCGGATCGAACAGGTCGATACCCCACGCAACCTGTACATGAAGCCGGCCACCACCTTCGTCGCCGAATTCGTCGGCACTTCCAACGTGATTCGCGGTGAGTTGGCCAGGCAACTGAGCGGTTATCCACAGCCGTTCTCGATCCGCCCGGAACATGTGCGCTTTGCCGAAGGTCCGCTGGCCGGCGATGAAATCGAAGTCAGCGGTCTGCTTCACGACATCCAGTACCAGGGCAGCGCCACGCGCTACGAGTTGAAGCTGGAAAACGGCCAGACCTTGAGCCTCAGCCAAGCCAACAGCCAATGGAACGACAGCGGCGCCCAGCACCATACCGGCCAGCATCGCGCCGTACGCTGGGCCCGCGAGGCAATGGTTGCCCTGCACGATACCGCCGGCAGCGAGGCCTGA	MTLAVQFTHVSRQFGEVKAVDRVSIDIQDGEFFSMLGPSGSGKTTCLRLIAGFEQPSAGSIRIHGEEAVGLAPYQRDVNTVFQDYALFPHMNVRDNVAYGLKVKGVAKAERIRRADEALEMVALGGYGERKPVQLSGGQRQRVALARALVNRPRVLLLDEPLGALDLKLREQMQSELKKLQRQLGITFIFVTHDQTEALSMSDRVAVFNKGRIEQVDTPRNLYMKPATTFVAEFVGTSNVIRGELARQLSGYPQPFSIRPEHVRFAEGPLAGDEIEVSGLLHDIQYQGSATRYELKLENGQTLSLSQANSQWNDSGAQHHTGQHRAVRWAREAMVALHDTAGSEA	PGPT0007860_3078	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
D1-35_00070	1152	ydcS		Bifunctional polyhydroxybutyrate synthase / ABC transporter periplasmic binding protein	ATGTACGCGCACAAGACCGCATTGCTCAGTGCAATCACCACGGCGCTGCTGGCCAGCGCCAGCCTCCAGGCCGCCGAACCGCTCAAGGCCATTGGCGCTGGCGAAGGCCAACTGGATATCGTCGCCTGGCCGGGCTACATCGAACGCGGCGAAAGCGACAAGGCCTACGACTGGGTCACTGGTTTCGAGAAAGAAACCGGCTGCAAGGTCAACGTCAAGACCGCCGCCACCTCCGACGAAATGGTCAGCCTGATGACCAAGGGCGGCTACGACCTGGTCACCGCGTCGGGCGATGCCTCGCTACGGCTGATTGCCGGCAAACGCGTGCAGCCGATCAACACCGCGTTGATCGCCAACTGGAAAAACCTCGACCCGCGCCTCAAGGACGCGCCGTGGTACGTGGTCAGCCAACAGACCTACGGGACGCCGTACCAGTGGGGGCCGAACGTACTGATGTACAACACCGAAGTATTCAAGCAAGCGCCGACCAGCTGGAGCGTCCTGTTCGAGGCGCAGAACCTGCCCGACGGCAAGCCGAACAAGGGCCGGGTGCAAGCCTACGATGGGCCGATCTACATCGCCGACGCGGCGCTCTACCTCAAGACCGCCAAGCCCGAGCTGGGCATCAAGGATCCGTATCAACTCGACGAGGCCCAGTACAAGGCCGTGCTGGAATTACTGCGTGCCCAGCAGCCGTTGATCCACCGCTACTGGCATGACACGACCGTGCAGATGAGCGATTTCAAGAACGAAGGCGTGGTCGCATCCGGCGCCTGGCCATACCAGGTCAACGGCCTGATCAACGAAAAACAGCCGATCGCCTCGACCATCCCCAAGGAAGGCGCCACCGGCTGGGCTGACACGACGATGCTGCACGCCGAGGCCAAGCACCCCAACTGCGCCTATAAATGGATGGACTGGTCGCTGCAGCCGAAAGTCCAGGGCGACGTAGCCGCCTGGTTCGGCTCGTTGCCGGCCGTGCCCGAGGCGTGCAAGGCAAGCGAACTGCTGGGCGCCGAGGGCTGCAAGACCAACGGGTTCGACCAGTTCGACAAGATCGCCTTCTGGAAAACCCCACAAGCCGAGGGCGGCAAGTTCGTGCCGTACAGCCGCTGGACGCAGGATTACATTGCGATCATGGGTGGACGCTAA	MYAHKTALLSAITTALLASASLQAAEPLKAIGAGEGQLDIVAWPGYIERGESDKAYDWVTGFEKETGCKVNVKTAATSDEMVSLMTKGGYDLVTASGDASLRLIAGKRVQPINTALIANWKNLDPRLKDAPWYVVSQQTYGTPYQWGPNVLMYNTEVFKQAPTSWSVLFEAQNLPDGKPNKGRVQAYDGPIYIADAALYLKTAKPELGIKDPYQLDEAQYKAVLELLRAQQPLIHRYWHDTTVQMSDFKNEGVVASGAWPYQVNGLINEKQPIASTIPKEGATGWADTTMLHAEAKHPNCAYKWMDWSLQPKVQGDVAAWFGSLPAVPEACKASELLGAEGCKTNGFDQFDKIAFWKTPQAEGGKFVPYSRWTQDYIAIMGGR	PGPT0007855_1147	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
D1-35_00071	1458	prr_2	COG1012	Gamma-aminobutyraldehyde dehydrogenase	ATGGCCGGCACGCAAACCCCGTTATGTACAGCGTTGTTGATCGACGGCGAAAGCGTACCCGGCGAGGGCTTTGTCGAGCCGATCCTCAACCCGGCCACCGGTGAAGTGCTCGCCCATATCGCCGAGGCCAGTACCGAACAGGTCGAAGCCGCGATCCTCGCGGCTCATCAGGCCTTTGACGGCTGGTCGCGCACCACGCCGCAACAACGCTCGAACCTGCTGTTGGAGATCGCCGGCGCTATTGAAAAAAATGCCGACCACCTGGCCCTTCTCGAATCCCTGAACTGTGGCAAGCCACTGCACCTGGCGCGTCAGGACGACCTGAGCGCCACGGTGGATGTGTTCCGTTTTTTTGCCGGCGCCGTACGCTGCCAGACCGGCCAGCTCAGCGGCGAATACTTGCCGGGCTACACCAGCATGGTGCGTCGCGACCCGATTGGCGTGGTGGCGTCCATTGCGCCCTGGAACTACCCGATCATGATGGCGGCCTGGAAAATCGCCCCGGCCCTGGCCGCCGGCAATACCCTGGTGTTCAAGCCTTCGGAACACACGCCGCTGTCGATCCTGGCCCTGGCGCCGATCCTGGCCGAAATCCTGCCGCGGGGCGTCATCAACGTCATCTGCGGTGGCGGCGAAGGCGTCGGCAGTCATCTGGTCAGTCACCCCAAGGTGCGCATGGTCTCGTTGACGGGCGATATCGTCACCGGCCAGAAAATCCTCCAGGCCGCGGCAAAAACCCTCAAGCGCACGCACCTGGAACTGGGCGGCAAGGCCCCGGTGATCGTCTGTGACGACGCCGACCTGCAGGCAGTGGTCGAGGGTGTACGCACCTATGGTTACTACAACGCTGGCCAGGATTGCACCGCCGCGTGCCGGATCTACGCCCAGGCCGGGATTCACGACCGGCTGGTGGCTGAACTCGGCGCGGCGGTCAGCAGCCTGCGCTTTGCCGGCAAGCGCGACGCCGACAACGAAATCGGCCCGCTGATCAGCACCCGCCAGCGCGACCGCGTCGCCAGTTTCGTCGAGCGTGCCCTCGGCCAGCCGCATATCGAGCGCATCACCGGCGCGGCGGTGCATTCCGGCGCCGGTTTCTATTACCAGCCCACGCTGTTGGCGGGCTGCAAGCAAAGCGACGAGATCGTCCAGCGCGAAGTATTCGGCCCGGTGGTCACCGTGACCCGTTTCGATGAACTCAGCCAGGCGGTGGACTGGGCCAACGATTCGGAATACGGCCTGGCGTCCTCGGTCTGGACCCAGAACCTCGACAAGGCGATGCAGGTGGCGGCGCGGCTGCAATACGGCTGCACCTGGATCAACAGTCATTTCATGCTGGTCAGCGAAATGCCCCACGGCGGCCTGAAACGCTCGGGCTATGGGAAGGACCTGTCCAGCGATTCGCTTCAGGACTACAGCGTGGTGCGCCACATCATGGCCCGCCACGGCCAGCATCTGTAG	MAGTQTPLCTALLIDGESVPGEGFVEPILNPATGEVLAHIAEASTEQVEAAILAAHQAFDGWSRTTPQQRSNLLLEIAGAIEKNADHLALLESLNCGKPLHLARQDDLSATVDVFRFFAGAVRCQTGQLSGEYLPGYTSMVRRDPIGVVASIAPWNYPIMMAAWKIAPALAAGNTLVFKPSEHTPLSILALAPILAEILPRGVINVICGGGEGVGSHLVSHPKVRMVSLTGDIVTGQKILQAAAKTLKRTHLELGGKAPVIVCDDADLQAVVEGVRTYGYYNAGQDCTAACRIYAQAGIHDRLVAELGAAVSSLRFAGKRDADNEIGPLISTRQRDRVASFVERALGQPHIERITGAAVHSGAGFYYQPTLLAGCKQSDEIVQREVFGPVVTVTRFDELSQAVDWANDSEYGLASSVWTQNLDKAMQVAARLQYGCTWINSHFMLVSEMPHGGLKRSGYGKDLSSDSLQDYSVVRHIMARHGQHL	PGPT0007650_71	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007650-patD|prr|ydcW-K00137	NA	NA
D1-35_00072	912	gltC_1		HTH-type transcriptional regulator GltC	ATGATGACCCTGCGCCAGATCCGTCATTTCATCGCGGTAGCCGAAACCGGTTCGATTTCCGCCGCCGCGCAAACCGCGTTCATTTCCCAATCCACCCTGACCCTGGCCATCCAGCAACTGGAAGAGGAAATCGGCGTCAGCCTGTTCAACCGTCACGCCAAGGGCATGACGCTGACCCACCAGGGACATCAGTTCCTGCGTCAGGCGCACCTGATACTCGCCACCGTCGACAACGCCAAGCGCAGCCTGCAACAAAGCACCGATCAGGTTGCCGGGCAGGTCACCATCGGCGTGACCAGCCTGGTCGCCGGGTACTATCTGGCGGACCTCTTGACCCGTTTCCAGCGCGCCTACCCCAATGTGGCCATCCGCGTGATGGAGGACGAACGCCCCTATATCGAACATCTGCTGGTCAGCGGCGAAATCGACGTCGGCGTGCTGATCCTGTCCAACTTGGAAGACCGCCACGCCCTGCAGACCGAAGTATTGACCCACTCGCCCCATCGATTGTGGCTGCCGGCCCAGCATCCGCTGCTCGAACACGACAGCATCAATCTTGCGGATGTGGCTCGCGAGCCGTTGATCCAACTGAACGTCGACGAGATGGATCGCAACGCGCAACGCCTGTGGCGCGGTGCCGGCCTGCAACCGCAGATCACCCTGCGTACCGCCTCGACCGAAGCGGTGCGCAGCCTGGTGGCGGCCGGGCTGGGGGTTTCGATCCAACCGGACATGACCTACCGCCCATGGTCGCTGGAAGGCGACATCATCGAGGCACGACCCATCGCCGACCTCAACCAGACGCTGGATGTCGGACTCGCCTGGCGCCGAGGCACGGCACGCCCGGCCTCGGTCGACCCGTTCCTGGCTGTTGCCCGCGAACAGCCCCACGGACGCAAGCCATCTATTTAA	MMTLRQIRHFIAVAETGSISAAAQTAFISQSTLTLAIQQLEEEIGVSLFNRHAKGMTLTHQGHQFLRQAHLILATVDNAKRSLQQSTDQVAGQVTIGVTSLVAGYYLADLLTRFQRAYPNVAIRVMEDERPYIEHLLVSGEIDVGVLILSNLEDRHALQTEVLTHSPHRLWLPAQHPLLEHDSINLADVAREPLIQLNVDEMDRNAQRLWRGAGLQPQITLRTASTEAVRSLVAAGLGVSIQPDMTYRPWSLEGDIIEARPIADLNQTLDVGLAWRRGTARPASVDPFLAVAREQPHGRKPSI				NA	NA	NA	NA	NA
D1-35_00073	711			hypothetical protein	ATGAACACCCGTGGATTGCTCGATCAGTTACTCAAGTCCGGCCAGGAGATGTTGCAGAACAAGGCCGGCGGCTCCCAGGGCAAGTCGTCCGGCGGTCTGGGTGGTTTGCTCGGCGGCTCCGGCAACCTCGGCGGAATGCTCTCCGGCGCAGGGGGCGGGGCGCTGGCGGCCAGCGCCATGGGGTTGCTGCTGGGCAACAAGAAAGCCCGTAACTTCGGCGGCAAGGCCCTGACTTATGGCGGCCTGGCTGCATTGGGCGTGATTGCCTACAAGGCTTACGGCAACTGGCAGGCCCAGCAGGGCAATGCGCCGAAAACCGAACCGCAGACCCTGGATCGCGTCCCGCCGGCGCAAGTCGAGCAGCACAGCCAGGCGATCCTCAAGGCCCTGGTGGCGGCGGCCAAGGCCGACGGCCATGTGGACGAACGCGAGCGTCAACTGATCGAAGGCGAATTCACCAAGCTCGACAACGACCAGGAACTGCAACACTGGCTGCACGCCGAGCTCAACAAACCGCTGGATCCCGGCGACGTCGCCCGGGCGGCCAGCACACCGGAAATCGCCGCGGAAATGTACATCGCCAGCGTGATGCTGGTGGATGAGGAGAACTTCATGGAGAAATCCTACCTCGACGAACTGGCGCGACAACTCAAGCTGGAACCTGGGCTGAAGGCGGAACTGGAGAAGCAGGTGCGTCAGGCGGCCGCCTGA	MNTRGLLDQLLKSGQEMLQNKAGGSQGKSSGGLGGLLGGSGNLGGMLSGAGGGALAASAMGLLLGNKKARNFGGKALTYGGLAALGVIAYKAYGNWQAQQGNAPKTEPQTLDRVPPAQVEQHSQAILKALVAAAKADGHVDERERQLIEGEFTKLDNDQELQHWLHAELNKPLDPGDVARAASTPEIAAEMYIASVMLVDEENFMEKSYLDELARQLKLEPGLKAELEKQVRQAAA				NA	NA	NA	NA	NA
D1-35_00074	1623			hypothetical protein	GTGAAGAACTGGACGTTGCGCCAACGCATTCTGGCGAGTTTTGCGGTGATCATTGCCATCATGTTGCTGATGGTGGTGGTCACTTACTCGCGGTTGTTGAAGATCGAGGCCAGTGAACAGGAAGTACGTACCGACGCCGTTCCAGGGGTGTATTACAGTTCCATGATCCGTGGGGGCTGGGTCGACAGTTACGTCAAGACCCAGCAGCTCGTGGGTCTGTCCGATCACCGGGAAATCACCGACGAAGACAAGGCGCTCTACCAGCGGTACGAGCAGCATCTGCGCGATGAAATGCAGCAATACCAGAAGCTGATCCAGGACCCGGCCGACCAGGCCTCATTCGATGAATTCGAAGTCAATCACCAGGACTTCAACAAAGCCCTGGCGAAGGTACTGGATCTGTACCAGCGCAAGGACTACGAAGGCGCTCGGCTGGCGGTGGAAAAAGACCTGACGCCGGCATGGCTCGACGGTCGTGGGCACTTGAACCAGATCATCGAGCGCAATCGTGAGTTGGCTGAGCAGGCCGCCCTGACCATCGGCCGTGCGGTGACAGCCGCCGAGGTCGCCATGGGCCTGTCGTTTGTCGTTGCGGTGCTGGTGGCTGTTCTTTGCGGCCTGTTGCTGATGCGCGCGATCATGGCGCCGATGAGCCGCATCGTCGAGATACTCGATGTCATGCGCAGCGGCGATTTGAGCGGACGCCTGAACCTGGCGCGCAAAGACGAGTTCGGCGCTGTGGAGACCGGCTTCAACGACATGATGGCCGAGTTGACGTCGCTGGTGTCCCAGGCCCAGCGTTCCTCGGTGCAGGTCACCACCTCGGTGACCGAGATCGCCGCGACCTCACGGCAGCAACAGGCCACGGCCACCGAAACCGCAGCCACCACCACCGAGATCGGCGCGACGTCCCGTGAAATCGCCGCCACCTCTCGCGACCTGGTGCGCACCATGACCGAAGTCTCCAGCGCCGCCGACCAGGCCTCGGTCGCCGCCGGCTCAGGTCAGCAAGGCCTGGCGCGCATGGAAGAAACCATGCATTCGGTGATGGGCGCCGCCGACCTGGTGAACGCCAAGCTGGCGATCCTCAACGAGAAGGCCGGCAACATCAACCAAGTGGTGGTGACCATCGTCAAGGTTGCCGACCAGACCAACCTGTTGTCGCTCAACGCCGCCATCGAGGCCGAGAAGGCCGGTGAGTACGGGCGCGGTTTCGCCGTCGTCGCCACAGAGGTGCGGCGCCTGGCCGACCAGACCGCTGTCGCCACCTACGACATCGAGCAGATGGTCCGCGAGATCCAGTCCGCTGTCTCGGCGGGTGTGATGGGCATGGACAAATTTTCCGAAGAGGTGCGCCGTGGCATGGCCGAGGTACAGCAGATCGGCGAGCAATTGTCGCAGATCATCCATCAGGTCCAGGCGCTGGCGCCGCGGGTGTTGATGGTCAACGAAGGCATGCAGGCCCAGGCCACCGGTGCCGAGCAGATCAATCACGCCCTGGTGCAACTGGGCGATGCCAGCAGCCAGACCGTGGAGTCCCTGCGCCAGGCCAGTTCCGCCATCGACGAGCTCAGCCAGGTGGCCGTGGGCCTGCGCAGCGGCGTCTCGCGTTTCAAAGTCTGA	MKNWTLRQRILASFAVIIAIMLLMVVVTYSRLLKIEASEQEVRTDAVPGVYYSSMIRGGWVDSYVKTQQLVGLSDHREITDEDKALYQRYEQHLRDEMQQYQKLIQDPADQASFDEFEVNHQDFNKALAKVLDLYQRKDYEGARLAVEKDLTPAWLDGRGHLNQIIERNRELAEQAALTIGRAVTAAEVAMGLSFVVAVLVAVLCGLLLMRAIMAPMSRIVEILDVMRSGDLSGRLNLARKDEFGAVETGFNDMMAELTSLVSQAQRSSVQVTTSVTEIAATSRQQQATATETAATTTEIGATSREIAATSRDLVRTMTEVSSAADQASVAAGSGQQGLARMEETMHSVMGAADLVNAKLAILNEKAGNINQVVVTIVKVADQTNLLSLNAAIEAEKAGEYGRGFAVVATEVRRLADQTAVATYDIEQMVREIQSAVSAGVMGMDKFSEEVRRGMAEVQQIGEQLSQIIHQVQALAPRVLMVNEGMQAQATGAEQINHALVQLGDASSQTVESLRQASSAIDELSQVAVGLRSGVSRFKV	PGPT0015750_226	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-WSP-METABOLISM	CE-EPS-WSP-PATHWAY,PGPT0015750-wspA-K13487	NA	NA
D1-35_00075	537			hypothetical protein	ATGAGCGATTTCGATGCCCGACGCGGTACCGGGCCGGCGGCCCGGCAGGCGTTGTTCCTGGTGTTTTGCATCGGTAACGAGCGCTACGCCCTGCAAGCCATCGATGTGGTGGAGGTGCTACCGCGCCTGCCGCTCAAGCCGATTGCCCGGACGCCGTCCTGGGTGGCCGGGGTCTTCGCCTGGCGTGGCCAAGTGGTGCCGGTGCTCGACCTGTGCGCCTTGACCTTCGGCCAGGCCGCCGAGGCGCGCACCAGCACCCGGCTGGTGCTGGTCAATTACCGGCCCCAGGCGCAGCACGCAGCGCACGTGCTGGGTTTGATCCTGGAACAGGCCACCGACACCCTGCGTTGTGATCCGGCCGACTTCAAGCCTTATGGCCTGGATAACCCCCAGGCGCCTTACCTGGGCCCGGTACGGGAGGATGCCCAAGGAATGTTGCAGTGGGTACGAGTCAACGATTTGCTCGACGAGTCGGTGCGTGCGGTGCTGTTCCCCACGCCGCCGCTGGACCTTGATGGTTTCGAGGATCGGCGATGA	MSDFDARRGTGPAARQALFLVFCIGNERYALQAIDVVEVLPRLPLKPIARTPSWVAGVFAWRGQVVPVLDLCALTFGQAAEARTSTRLVLVNYRPQAQHAAHVLGLILEQATDTLRCDPADFKPYGLDNPQAPYLGPVREDAQGMLQWVRVNDLLDESVRAVLFPTPPLDLDGFEDRR	PGPT0015755_27	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-WSP-METABOLISM	CE-EPS-WSP-PATHWAY,PGPT0015755-wspB-K13488	NA	NA
D1-35_00076	1266	wspC	COG0457	putative biofilm formation methyltransferase WspC	ATGAACAACGACCAGCGTTTTTTCGATTACCTCAAGGAGCGCATCGGCCTGGACGTGACGTCCGTCGGCACCGCGATTATCGAGCGGGCCGTGCGCCAGCGCGTCCTTGCCGTGCCTGGCCGGACCACCGATGACTATTGGCAAAGCCTGCAGCATTCTGCCCAGGAGCAGCAGGCGCTGATCGAAGCGGTGATCGTCCCGGAGACCTGGTTCTTCCGTTATCCCGAATCGTTCGCGACGCTGGGGCGACTGGCCTCCCAGCGCCTCGCTGCGATCAAGCACCTGCGCGCGCTGCGCATCCTCAGCCTGCCATGCTCCACTGGCGAAGAGCCGTATTCGATCGCCATGGCCCTGTTCGACGCAGGCCTCGGGCCGCATCAGTTCAAAGTCGATGCGATGGACGTCAGCCCGCTGTCCGTTGATAAAGCCCGGCAAGCGCGTTACGGCAGGAACTCCTTCCGTGGCGCGGACCTTGGTTTTCGCGAACGGTATTTCCGTGCCGAGGAGGACGGCTATTACCTCGATGAGCACATACGTGAACAGGTGCGCCTGCAAGTGGGCAACCTCTTGGATCCGGCCTTGCTGGTGAATGAGGCGCCGTATGATTTTGTATTCTGTCGCAACCTGCTGATCTATTTCGACCAGCCGACCCAGCAACAGGTATTCGAGGTGCTCAAGCGCCTGACCCATCAGGACGGCGTGTTGTTCATCGGTCCCGCCGAGGGCAGTTTGCTGGGGCGGCTGGGCATGCGCTCGATCGGCATCCCCCAATCGTTCGCCTTCAGCCGCCAGGGCGCGCCCGAGCCGCAACCGCTGCCAACGCTGTTGCCAAGTCCGTTGCCGATTCGCCAGCCGCCACCACGAGTCGCTGCGCCGCCGCCTCAGCCTCGACCGTTTGCAGCTAGTGTGACGCCAATCGCCCCAGCCAGGAGCAGCGACGCGGTGACCTTGCTGGCCAATATCGCCGCCCTGGCCAACGGCGGCAAAAGCGCTGAGGCCCGTGCGGCTTGCGAAGAGTATTTGCGCAGCCATGCGCCCAGTGCGCAGGTGTTCTATTGGCTGGGCCTGCTCAGCGACATGGCCGGCAACGCGCTCGAGGCCCAGGGTTTTTATCGCAAGGCGCTGTATCTTGAACCGCAACACGCCGAGGCCCTGGTGCATCTGGCGGCGCTGCTGGCATCCCAGGGAGACGTGGCCGGTGCCCGTCGATTGCAGGAACGTGCGGCCCGCAGTGGGCGCCCGGTTGAGAGTGAGCGCAAACGATGA	MNNDQRFFDYLKERIGLDVTSVGTAIIERAVRQRVLAVPGRTTDDYWQSLQHSAQEQQALIEAVIVPETWFFRYPESFATLGRLASQRLAAIKHLRALRILSLPCSTGEEPYSIAMALFDAGLGPHQFKVDAMDVSPLSVDKARQARYGRNSFRGADLGFRERYFRAEEDGYYLDEHIREQVRLQVGNLLDPALLVNEAPYDFVFCRNLLIYFDQPTQQQVFEVLKRLTHQDGVLFIGPAEGSLLGRLGMRSIGIPQSFAFSRQGAPEPQPLPTLLPSPLPIRQPPPRVAAPPPQPRPFAASVTPIAPARSSDAVTLLANIAALANGGKSAEARAACEEYLRSHAPSAQVFYWLGLLSDMAGNALEAQGFYRKALYLEPQHAEALVHLAALLASQGDVAGARRLQERAARSGRPVESERKR	PGPT0015760_225	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-WSP-METABOLISM	CE-EPS-WSP-PATHWAY,PGPT0015760-wspC-K13486	NA	NA
D1-35_00077	672			hypothetical protein	ATGAGTGGTTCGGCTTCCTATAACGTGACTCATGACGATGCCCAGGCCATCGATGACTGCTGGAACCGCATCGGGGTTCACGGCGACAAGTCCTGCCCATTGCTGGTCGAACATATCCATTGCCGCAACTGTTCGGTGTACTCGGCGGCGGCCACTCGTTTGCTCGACCGTTATGCCCTGCGCCAGGATGATCGAGAGCTGGCTCTTGCGCCGGTCGACAGTGACATCGTCACGCGCTCGGTATTGATGTTCCGCCTGGGCGAAGAATGGTTGGGCTTGAGTACTCGAAGCCTGGTGGAAGTGGCGCCGTTGCAGCCGATCCATTCGCTGCCGCACCAGCGTTCGCGTGCCTTGCTCGGCGTTGCGAATGTGCGCGGCGCCCTGGTGGCCTGCCTGTCGCTAGTCGAGTTGTTGGGGCTGGAGCCTGGTTCGCTTGCGCCTTCCAGTGGGCGGATCATGCCGCGCATGCTGATTATCGCCGCCCAGGGCGGACCGGTATTGGTGCCGGTGGATGAGGTGGACGGCATTCATGCGATTGACGAACGCATCCTGGCGGGTGCTTCGCAATCGGCGGGCAAGTACACCCGTGGCGTGTTGCAGTACAAAGGCCGCAGCCTGCGTTGGCTGGATGAAGAGCAGTTGTTGTCCGCCGTGTCCCGGAGCCTGTCATGA	MSGSASYNVTHDDAQAIDDCWNRIGVHGDKSCPLLVEHIHCRNCSVYSAAATRLLDRYALRQDDRELALAPVDSDIVTRSVLMFRLGEEWLGLSTRSLVEVAPLQPIHSLPHQRSRALLGVANVRGALVACLSLVELLGLEPGSLAPSSGRIMPRMLIIAAQGGPVLVPVDEVDGIHAIDERILAGASQSAGKYTRGVLQYKGRSLRWLDEEQLLSAVSRSLS	PGPT0015765_203	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-WSP-METABOLISM	CE-EPS-WSP-PATHWAY,PGPT0015765-wspD-K13489	NA	NA
D1-35_00078	2271	rcsC_1		Sensor histidine kinase RcsC	ATGACCCCCGATCAGATGCGCGACGCCTCGTTGCTCGAACTGTTCAGCCTGGAAGCCGAGGCTCAGACCCAGGTACTCAGCGCCGGCCTGCTGGCCCTGGAGCGTGACCCGACCCAGGCTGACCATCTTGAGTCATGCATGCGCGCGGCCCACTCGCTCAAGGGCGCCGCGCGAATCGTCGGGATCCCCGCCGGGGTCAGCGTGGCCCACGTCATGGAAGACTGCCTGGTCAGCGCCCAGGAACGCCGCCTTATATTGCGTGCCGAGCATATCGACGCCTTGCTGCAAGGCACCGACCTGCTGACGCGCATCGCGACCCCAGGCAACAGCGTCGGCGCCGAGGACATCGAGGCCTATGTCGCGTTATTGGGGCGCCTGCTGGATCCTGCCGCTGCGGCGGCTTCAAGCGCCATGTCGCCGACCAGCGAGATACCCCTCGAGCCCGTGCGGGTCGAGATGCCTGAGCCCATGCCCATGCCCATGGAGCCTGTAGAACCGGCGGCAAGGAAAAAGCATGTCACCGAGGAGGGCGAACGGGTCTTGCGGGTCACTGCCGGGCGCCTCAACAGCCTGTTGGACCTGTCGAGCAAGTCGCTGGTCGAAACCCAGCGTCTCAAGCCTTGGCTGGCGACCCTGCTGCGGCTCAAGCGCCAGCAAGGCAATGGCCTGCGTGCTCTTGAAGACCTGAATGTGCATCTCAAGGACCATGCCTTGAGTCTGCAGGCCCAGGAGGCGCTCAACGATGCCCGGCGCCTGTTGGCGGAAACCCAGCAGATCCTGGCGCAAAAAACCGCTGAGCTGGATGAGTTTGCCTGGCAGGCCGGCCAGCGCGCGCAAGTGTTGTACGACACGGCGCTGGCTTGCCGCATGCGCCCGTTTGCCGATGTGCTTGCGGGCCAGGCGCGCATGGTTCGTGACCTGGGACGCAGCCTGGGCAAACAGGTACGCCTGGAAATCGAAGGCGAGAAAACCCAGGTCGATCGCGACGTACTGGAAAAACTCGAAGCGCCCCTGACTCACCTGCTGCGCAACGCCGTTGACCATGGCATCGAGACGCCGGAGCAACGGCTGTTGGCCGGCAAACCCGCCGAAGGCCTGATTCGCTTGCGTGCCTCGCACCAAGCCGGCCTGCTGATGCTGGAACTGGCGGACGACGGTGCCGGCGTGGATCTGGAACGGGTGCGCCGCAGCGTCGTGGAGCGTGGTCTTTCTCCCGAGCACACCGCCGCCAGTCTGAGCGAAGAGGAATTGCTGACTTTCCTGTTCCTGCCCGGCTTCAGCCTGCGGGACAAAGTCACCGAGGTGTCCGGGCGCGGTGTCGGCCTGGACGCTGTCCAGCATATGGTCCGGCAGTTGCGTGGCGCAGTGGTGCTTGAGCAGACGGCGGGGGCGGGCAGTCGCTTCCACCTTGAGGTGCCGCTGACGCTTTCGGTGGTGCGCAGCCTGGTGGTGGAAGTCGGCGGCGAGGCCTACGCGTTTCCGTTGGCCCATATCGAACGCATGTGCGACCTGTCGCCCGAGGACATCGTCCAGGTCGAAGGTCGCCAGCATTTCTGGCATGAAGGCCGCCATGTGGGGTTGGTTGCCGCCACGCAATTGCTCAACCGCCCGGTAGCGCCCAACAACGGCCAGAGTCTCAAGGTCGTGGTGATTCGCGAGCGTGAAGTAATTTATGGCGTGGCGGTGGAACGCTTCATCGGCGAGCGAACCCTGGTGGTGCTGCCCCTGGATGAGCGCCTGGGCAAGGTCCAGGACATTTCCGCCGGTGCCTTGCTCGACGACGGCTCGGTGGTGTTGATCGTCGATGTCGAAGACCTGCTGCGTTCGGTAGAAAAATTGCTCGACACCGGGCGCCTGGAACGCATCGCCCGGCAGAACGAGGCCCAGGCCCCACGCAAGCGGATCCTGGTGGTCGACGATTCCCTGACCGTGCGGGAGCTGGAGCGCAAGCTGTTGCTCAATCGTGGTTATGACGTGGCAGTGGCGGTAGACGGCATGGATGGCTGGAACGCGTTGCGTTCGGAGGATTTCGACTTGCTCATCACGGACATCGACATGCCGCGCATGGACGGTATCGAACTGGTGTCGCTGCTGCGCCGCGACAACCGCCTGCAATCGCTGCCGGTGATGGTGGTTTCCTATAAGGATCGAGAGGAAGATCGCCGCCGTGGCCTGGATGCCGGAGCCGACTATTATCTAGCCAAGGCGAGTTTTCATGACGACGCCTTGCTCGATGCCGTGGTCGAATTGATCGGAGGAGCGCGCGCTTGA	MTPDQMRDASLLELFSLEAEAQTQVLSAGLLALERDPTQADHLESCMRAAHSLKGAARIVGIPAGVSVAHVMEDCLVSAQERRLILRAEHIDALLQGTDLLTRIATPGNSVGAEDIEAYVALLGRLLDPAAAAASSAMSPTSEIPLEPVRVEMPEPMPMPMEPVEPAARKKHVTEEGERVLRVTAGRLNSLLDLSSKSLVETQRLKPWLATLLRLKRQQGNGLRALEDLNVHLKDHALSLQAQEALNDARRLLAETQQILAQKTAELDEFAWQAGQRAQVLYDTALACRMRPFADVLAGQARMVRDLGRSLGKQVRLEIEGEKTQVDRDVLEKLEAPLTHLLRNAVDHGIETPEQRLLAGKPAEGLIRLRASHQAGLLMLELADDGAGVDLERVRRSVVERGLSPEHTAASLSEEELLTFLFLPGFSLRDKVTEVSGRGVGLDAVQHMVRQLRGAVVLEQTAGAGSRFHLEVPLTLSVVRSLVVEVGGEAYAFPLAHIERMCDLSPEDIVQVEGRQHFWHEGRHVGLVAATQLLNRPVAPNNGQSLKVVVIREREVIYGVAVERFIGERTLVVLPLDERLGKVQDISAGALLDDGSVVLIVDVEDLLRSVEKLLDTGRLERIARQNEAQAPRKRILVVDDSLTVRELERKLLLNRGYDVAVAVDGMDGWNALRSEDFDLLITDIDMPRMDGIELVSLLRRDNRLQSLPVMVVSYKDREEDRRRGLDAGADYYLAKASFHDDALLDAVVELIGGARA	PGPT0015770_266	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-WSP-METABOLISM	CE-EPS-WSP-PATHWAY,PGPT0015770-wspE-K13490	NA	NA
D1-35_00079	1011	cheB_1	COG2201	Protein-glutamate methylesterase/protein-glutamine glutaminase	TTGAAGATCGCCATCGTCAATGACATGCCCCTGGCGGTCGAGGCCCTGCGCCGCGCGCTGGCATTCGAGCCCGCGTATCAGTTGGTCTGGGTGGCCGCCAACGGCGCCGAGGCGGTGCAGCGTTGCCATGAATACACGCCGGACCTGATCCTGATGGACCTGTTCATGCCGATCATGGACGGTGTCGAGGCGACCCGGCGAATCATGGCCGACACGCCGTGCGCCATCGTGATCGTCACTGGCGACAGCCAGCAGAACGTCCATCGGGTGTTCGAAGCCATGGGCCATGGCGCCCTGGACGTAGTGGATACCCCGGCGCTGGGCGTCGGCAGGCCCGAGGACGCCGCTGCCCCCTTGCTGCGCAAGATCGCCAACATCGGCTGGCTGATCGGCGAGCGGGGCAACCGTGAGCGCGCCGCGCCGGCTGCGCAGCGGGCCTCGGTGTCACGCAACAGCCTGGTGGCGATCGGCTCGTCTGCCGGCGGCCCCGCCGCGTTGGAAGTGCTGCTCAAGGCGCTGCCCCGTGATTTCGCCCCGGCCATCGTGCTGGTCCAGCATGTGGACGAAGTGTTTGCCGCCGGCATGGCCGAGTGGCTTGGTGGCGTGTCGGGCCTTGAGGTCCGGCTGGCCCGCGAGGGCGAGACACCGCGAGGCGGGGTGGTGCTGTTGGCCGGAACCAATCATCATTTGCGCCTGTTGAAAAACGGCACGCTGGCGTACACGGCGGAGCCCGTCAACGAAATCTATCGGCCCTCCATCGATGTGTTTTTCGAGAGTGTCGCCAATTTCTGGAGTGGTGAGGCGGTAGGCGTGTTGCTCACCGGCATGGGGCGCGACGGTGCGCAAGGGCTTAAACTGATGCGCCAGCAGGGCTGTGTGACCATCGCCCAGGACCAGCAGAGCAGCGCGGTCTATGGCATGCCCAAAGCGGCCGCCGCTATCGACGCGGCGGCGCAGATACTCGCGCTGGACCGGATAGCGCCACGCCTGGTGGAAATTTTCAGCCAATGA	MKIAIVNDMPLAVEALRRALAFEPAYQLVWVAANGAEAVQRCHEYTPDLILMDLFMPIMDGVEATRRIMADTPCAIVIVTGDSQQNVHRVFEAMGHGALDVVDTPALGVGRPEDAAAPLLRKIANIGWLIGERGNRERAAPAAQRASVSRNSLVAIGSSAGGPAALEVLLKALPRDFAPAIVLVQHVDEVFAAGMAEWLGGVSGLEVRLAREGETPRGGVVLLAGTNHHLRLLKNGTLAYTAEPVNEIYRPSIDVFFESVANFWSGEAVGVLLTGMGRDGAQGLKLMRQQGCVTIAQDQQSSAVYGMPKAAAAIDAAAQILALDRIAPRLVEIFSQ	PGPT0015775_191	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-WSP-METABOLISM	CE-EPS-WSP-PATHWAY,PGPT0015775-wspF-K13491	NA	NA
D1-35_00080	1002	cheB_2		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGAATGAATTACAGCTCGACGACTTCAAGCGCGATGAGAACGCCGCCATGGTCTTGCTGGTCGATGACCAGGCGATGATCGGCGAGGCAGTGCGACGCGGGTTGTCGAACGAGCAGAACATCGACTTCCACTTCTGCTCCGACCCTCACCAGGCCATCGCCCACGCCGTGCGCATCAAGCCGACGGTGATTCTCCAGGACCTGGTGATGCCCGGTCTCGACGGCTTGAGCCTGGTGCGCGAATACCGCAACCATCCGGCCACTCGCGACATCCCGATCATCGTCCTGTCGACCAAGGAGGACCCGCTGATCAAGAGCGCGGCGTTTGGCGCCGGAGCCAACGATTACCTGGTCAAGTTGCCGGACAATATCGAACTGGTAGCGCGGATCCGCTATCACTCGCGCTCCTACATGATGCTGTTGCAGCGCGACGCGGCCTACCGTGCGTTGCGGGTCAGCCAGCAGCAGTTGCTCGACACCAATCTGGTGCTGCAACGGCTGATGAACTCCGATGGCCTGACCGGGCTGTCCAATCGCCGGCACTTCGACGAATACCTGGAGCTGGAGTGGCGAAGGGCGCTGCGGGACCAGTCCCAGCTGTCGCTGTTGATGATCGATGTGGATTATTTCAAGTCGTTCAACGACAACTACGGTCACCTTGAAGGCGACGAAGCCCTGCGCAAGGTTGCCACGGCGATTCGCGATGCCTGCAGTCGTCCGTCCGACCTGCCGGCCCGTTATGGCGGCGAGGAGTTCGCCCTGGTCTTGCCCGGCACCTCGCCTGGCGGTGCACGGCTGATGGCCGAAAAGCTGCGCCAGAGCGTCGTTGCCCTGAAAATCCCGCATGCCACGCCCGACGGCGGCGAAAACCTGACCATCAGCATCGGCGTCGCGACCTTCACCCCGCAACAGGGCGGCGAGTGCCGCCAACTGATCTCGGCGGCGGACAAGGGGTTGTACCTGGCCAAGCACAATGGGCGCAATCGGGTGGGGGTTGAATAA	MNELQLDDFKRDENAAMVLLVDDQAMIGEAVRRGLSNEQNIDFHFCSDPHQAIAHAVRIKPTVILQDLVMPGLDGLSLVREYRNHPATRDIPIIVLSTKEDPLIKSAAFGAGANDYLVKLPDNIELVARIRYHSRSYMMLLQRDAAYRALRVSQQQLLDTNLVLQRLMNSDGLTGLSNRRHFDEYLELEWRRALRDQSQLSLLMIDVDYFKSFNDNYGHLEGDEALRKVATAIRDACSRPSDLPARYGGEEFALVLPGTSPGGARLMAEKLRQSVVALKIPHATPDGGENLTISIGVATFTPQQGGECRQLISAADKGLYLAKHNGRNRVGVE	PGPT0015780_205	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-WSP-METABOLISM	CE-EPS-WSP-PATHWAY,PGPT0015780-wspR-K11444	NA	NA
D1-35_00081	882	prfB	COG1186	Peptide chain release factor RF2	TTGTCCAGCGGCCTGGCCGATTGCCGCGACCTGCTGGACATGGCCGTAGAGGAAAACGACGAAGGCGCGGTCGGCGATGTGGTCGCCGAGCTGACACGCCTGGACGAGAACCTGGCCAAGCTGGAGTTCCGCCGCATGTTCAGCGGCGAGATGGACATGAACAACGCCTACCTGGACATCCAGGCCGGCTCCGGCGGCACCGAGGCCCAGGACTGGGCCAACATCCTGCTGCGCATGTACCTGCGCTGGGCCGACAAACGCGGTTTCGACGCAACCATCATGGAACTGTCCGCCGGTGAAGTCGCCGGGATCAAGGGCGCTACCGTGCACATCAAGGGCGAGTACGCCTTTGGCTGGCTGCGTACCGAGATCGGCGTGCACCGCCTGGTGCGCAAGAGCCCGTTCGACTCCGGCAACCGTCGTCACACCTCGTTCTCGGCGGTATTCGTCTCGCCGGAAATCGATGACAACATCGAGATCGAGATCAACCCGGCCGACCTGCGTATCGACACCTACCGTTCCTCGGGGGCCGGTGGCCAGCACGTAAACACCACCGACTCGGCCGTACGGATCACCCACGTACCGACCAACACCGTGGTCAGTTGCCAGAACGAACGGTCCCAGCACGCGAACAAAGACACCGCGATGAAGATGCTGCGGGCGCGTTTGTACGAGCAGGAAGTGCAGAAACGCAACGCGGCGTCCCAGGCCCTGGAAGACACCAAGTCCGATATCGGCTGGGGTCACCAGATCCGCTCGTACGTCCTCGACGCTTCGCGGATCAAGGACCTGCGCACCAGCATTGAACGCAGCGACTGCGACAAGGTGCTCGACGGCGACATCGATGAATATTTGATCGCCAGCCTCAAGCAAGGGCTGTAA	MSSGLADCRDLLDMAVEENDEGAVGDVVAELTRLDENLAKLEFRRMFSGEMDMNNAYLDIQAGSGGTEAQDWANILLRMYLRWADKRGFDATIMELSAGEVAGIKGATVHIKGEYAFGWLRTEIGVHRLVRKSPFDSGNRRHTSFSAVFVSPEIDDNIEIEINPADLRIDTYRSSGAGGQHVNTTDSAVRITHVPTNTVVSCQNERSQHANKDTAMKMLRARLYEQEVQKRNAASQALEDTKSDIGWGHQIRSYVLDASRIKDLRTSIERSDCDKVLDGDIDEYLIASLKQGL				NA	NA	NA	NA	NA
D1-35_00082	1503	lysS	COG1190	Lysine--tRNA ligase	ATGAGCGACCTAGAACTCGACCCGCAAGCCCTGCAACAGGAAGAAAACTCCCTGATCGCCCTGCGCAAGGAAAAGCTTGCTGCCGAGCGCGCCAAGGGCCAGGCCTTCCCCAACGACTTTCGCCGCGATTCGTACTGCGATGCCCTGCAGAAGAAGTACGCGGACAAGACCAAGGAAGAGCTGGCCGAGGCGGCGATTCCGGTCAAGGTTGCCGGTCGCATCATGCTCGACCGTGGTTCGTTCCTGGTGATCCAGGACATGACCGGTCGCATCCAGGTCTACGTCAACCGCAAGACCCTGCCGGAAGAAACCCTGGCCGCCGTCAAGACCTGGGACCTGGGCGACATCATTGCCGCCGAAGGCACCCTGGCCCGCTCCGGCAAGGGCGACCTGTACGTCGAAATGACCAGCGTGCGCCTGCTGACCAAGTCCCTGCGCCCGCTGCCGGACAAGCACCACGGCCTGACCGACACCGAGCAGCGCTACCGCCAGCGCTACGTCGACCTGATCGTCAACGAAGACGTGCGCCACACGTTCCGCGTGCGCTCGCAGGTCATCGCGCACATCCGCAGCTTCCTGATGAAGCGTGACTTCCTGGAAGTCGAGACGCCGATGCTGCAGACCATTCCGGGTGGCGCGGCGGCCAAGCCGTTCGAAACCCATCACAACGCCCTGGACATGGAAATGTTCCTGCGCATCGCGCCGGAGCTGTACCTCAAGCGCCTGGTGGTCGGTGGTTTCGAGAAGGTCTTCGAGATCAACCGCAACTTCCGTAACGAAGGCGTTTCGACCCGGCACAACCCCGAATTCACCATGCTCGAGTTCTACCAGGCCTACGCCGATTACAACGACAACATGGACCTGACCGAAGAACTGTTCCGCGAGCTGGCACAGTTGATCCTGGGCAGCACCGACGTGCCGTACGGCGACAAGGTGTTCCACTTTGGCGAGCCGTTCGTGCGCCTGTCGGTGTTCGATTCGATCCTCAAGTACAACCCGGAAATTACTGCGGCCGACCTGCAGGACATCGACAAGGCGCGTGCCATCGCCAAGAAGGCCGGCGCCAAGGTGCTCGGCTTCGAAGGCCTGGGCAAGCTGCAGGTGATGATTTTCGAAGAGCTGGTCGAGCACAAGCTGGAGCAGCCGCACTTCATTACCCAGTACCCGTTCGAAGTGTCGCCGCTGGCCCGTCGCAACGACGAGAACCCGAGCGTGACCGACCGTTTCGAACTGTTCATCGGTGGCCGTGAAATCGCCAACGCCTACTCCGAGCTCAACGACGCGGAAGACCAGGCCGAGCGCTTCATGGCCCAGGTGGCCGACAAGGACGCCGGTGACGACGAAGCCATGCACTACGACGCCGACTTCGTTCGCGCCCTGGAGTACGGCATGCCGCCGACGGCTGGCGAAGGCATTGGCATCGATCGTCTGGTGATGTTGCTGACCAACTCACCGTCGATCCGGGATGTCATCCTGTTCCCGCACATGCGGCCCCAAGCGTAA	MSDLELDPQALQQEENSLIALRKEKLAAERAKGQAFPNDFRRDSYCDALQKKYADKTKEELAEAAIPVKVAGRIMLDRGSFLVIQDMTGRIQVYVNRKTLPEETLAAVKTWDLGDIIAAEGTLARSGKGDLYVEMTSVRLLTKSLRPLPDKHHGLTDTEQRYRQRYVDLIVNEDVRHTFRVRSQVIAHIRSFLMKRDFLEVETPMLQTIPGGAAAKPFETHHNALDMEMFLRIAPELYLKRLVVGGFEKVFEINRNFRNEGVSTRHNPEFTMLEFYQAYADYNDNMDLTEELFRELAQLILGSTDVPYGDKVFHFGEPFVRLSVFDSILKYNPEITAADLQDIDKARAIAKKAGAKVLGFEGLGKLQVMIFEELVEHKLEQPHFITQYPFEVSPLARRNDENPSVTDRFELFIGGREIANAYSELNDAEDQAERFMAQVADKDAGDDEAMHYDADFVRALEYGMPPTAGEGIGIDRLVMLLTNSPSIRDVILFPHMRPQA	PGPT0012225_4346	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567	NA	NA
D1-35_00083	717			hypothetical protein	GTGAATCGTGCAATGGCTCCAGAAGGTGCAGCGGGCGTCGCCACTGCTGTCGCTGAAAGTGTTCAGTACCAGGGTCGCAAGGCCAGCCGACAGGGCAGTGAACAGCGCCGCCAGGAGATTCTCGACGCGGCCATGCGAATTGTCGTGCGCGATGGCGTGCGGGCGGTGCGCCACCGCGCGGTGGCCGCCGAAGCGGGCGTGCCGCTGTCGGCCACCACTTATTATTTCAAGGACATCGACGACCTGCTCACCGACACCTTCGCCCAGTACGTGGAACGCAGCGCGGCGTTCATGGCCAAGCTGTGGACCAACAATGAAGGCCTGCTGCGCGAGATGGTCGCCTACGGGGATGGCAGCGCCGCGTCGCGCTCGCAACTGGCGGACGACATCGCGCGGATGACGGCGGACTACGTGCAGCATCAATTGCACAGTCGTCGCGACTACCTGATGGCCGAACAGGCCTTCCGCCAGGAAGCACTGCTCAACCCGCGCCTGGCGGTGTTGGTGCGTTCTCACCAGCAGATTTTGCTGCACGGCACCTGCCAGTTTTTCCAGGTCCTGGGCTCCCGCGAGCCACAACAGGATGCCAAAGTGTTGACGGCGATTATCGGACGGATGGAATATCAGGGCTTGCTCAATGGCGCCGAGCCGGTAGCTGAAGAAGACATGCTCGGCATCCTGACCCGTTACATGCACTTGGTACTGGCGTCGGTGTGA	MNRAMAPEGAAGVATAVAESVQYQGRKASRQGSEQRRQEILDAAMRIVVRDGVRAVRHRAVAAEAGVPLSATTYYFKDIDDLLTDTFAQYVERSAAFMAKLWTNNEGLLREMVAYGDGSAASRSQLADDIARMTADYVQHQLHSRRDYLMAEQAFRQEALLNPRLAVLVRSHQQILLHGTCQFFQVLGSREPQQDAKVLTAIIGRMEYQGLLNGAEPVAEEDMLGILTRYMHLVLASV				NA	NA	NA	NA	NA
D1-35_00084	555			hypothetical protein	ATGAAAGCCTGGCGTGCCGTTGCACTGGCCGTGTCGTTGCTGCTGCTCAGTGGCTGCCTGGTGTCGTTCAAGGCGCCGTTGCCCGACAGCGAAGCCGCGCCCAAGGGCCTGCTCGGCCACTGGACCAGCACCAACGCCTGGGGTGAGCCGGTAAACCTGGAGCTGACGGAGGTCGGCAAGCATCGCTACCAGGCCGTCAGTTATTTCAGGGCCAGGCCTCAGGAGCGCGAAGCCATTCCCCTGACCGTCTCCCGCCACGGCAGTCGCTGGTATTTGTCGGCCAAGGTGCCGGCTCGCTTCGGCGGCCATTTCGTCATCGCCGGTTTCGAACTGACCGACAAGCAGGAACTGGTGGTCTACAACCTGGACATGGAACAGATCAACCAGGCCATCGGCCAGAAGCTCCTCAGCGGCCAGCCAAACCAGAGCGAGGAGGGTGATGGCGTGCTGGTGGACAGCGACATGAACAAGGTTTTCAGCTACCTCGACGACCCGGCCAATTCCGATGTGTTCTCGGAAGCCGTGCGCTACCAGCGACTGAGCAAATCCCAATAA	MKAWRAVALAVSLLLLSGCLVSFKAPLPDSEAAPKGLLGHWTSTNAWGEPVNLELTEVGKHRYQAVSYFRARPQEREAIPLTVSRHGSRWYLSAKVPARFGGHFVIAGFELTDKQELVVYNLDMEQINQAIGQKLLSGQPNQSEEGDGVLVDSDMNKVFSYLDDPANSDVFSEAVRYQRLSKSQ				NA	NA	NA	NA	NA
D1-35_00085	1278			hypothetical protein	GTGGACGATTACCAGCAGACGATACGCACCTTGTCCGATCGCATTGTGCTGGCGCAGACACCGATCCGCATTCTCGACGCGGTGAAGTGGGACGAGAGCATCCGCAAGGGGTTTCTCAAGGCCAAGGGCAAGGAAATGCCTGCGGTGGATCGTGATTATTACCTTAACCGGCCACTGTCCTTCGATTCCAGCAAAGTGAAGCTGGAGTTCCAGAACATCGAGCGTGACATCACCCGTCAGCTTGGGCAGTTCAACCCGGTGGGCCAGATCATGCGGCGCATGTGCAAGGAATACCGCATGGTGGTGCGCATGCTCGAAGCGCGCGGCACCGAGGACTTCGGGCTGATTTCCCAGGAGCTGTACGGCGCCGCTTCCGACGCCTTTCACGCCGGTGACCCGACCTTGGCCGACCTGGGCCTGATGCTCTCCGACTACCTTAACAACATCGATGGCCGTGGCGACCTCAAGGACGAGCCCAAGGTGCTCAGTGCCAAGGAGGCCGTCAGCCTGTTGCAGCATCGCCTCAACCGGGTGTTTGGCGAGGCCGAGGAAACCATTCGCGTATTCGAGTCCGACGGTATCGTTGCTGACGCGGCGGCGGGCGCCGACTACATCAAGATCCGCACCGACGCGATGTTCAACGAGCGGGATGTGCGCGCCCTGGAGGTCCATGAGGGACTGGTGCACGTTGGCACCACCCTCAATGGTTTGAACCAGCCGATCTGCACCTTCCTGTCCAAGGGCCCGCCCTCGTCGACGGTGACCCAGGAAGGCCTGGCGATCCTGATGGAAATCATCACCTTCGCCTCCTACCCGAGTCGCCTGCGCAAACTCACCAACCGCACCCGCGCCATCCATATGGTGGAGGAGGGGGCCGACTTCCTGCAGGTCTTCGAGTTCTTCCGCGAGCAGGGCTTCGAAATGGCCGAAAGCTACGGCAACGCCAGCCGCGTTTTCCGTGGCTCGGTGCCGACCGGTCTGCCATTTACCAAAGACTTGTCCTACCTCAAGGGCTTCATCATGGTTTACAACTACATTCAGCTGGCCGTGCGCAAAGGCAAGCTGGAGCAGGTGCCGCTGCTGTTCTGTGGCAAGACCACCCTGGAGGATATGCGCACCCTGCGCCAGTTGGTGGATGAGGGCCTGGTCGTGCCGCCCAAATACCTTCCGGAGCAGTTTCGCGACATGAACGCACTGTCGGCGTGGATGTGCTTCTCCAACTTCTTGAACCACCTGAGCCTGGACCGGATCGAAGCGGATTATTCGAACATTCTTTAA	MDDYQQTIRTLSDRIVLAQTPIRILDAVKWDESIRKGFLKAKGKEMPAVDRDYYLNRPLSFDSSKVKLEFQNIERDITRQLGQFNPVGQIMRRMCKEYRMVVRMLEARGTEDFGLISQELYGAASDAFHAGDPTLADLGLMLSDYLNNIDGRGDLKDEPKVLSAKEAVSLLQHRLNRVFGEAEETIRVFESDGIVADAAAGADYIKIRTDAMFNERDVRALEVHEGLVHVGTTLNGLNQPICTFLSKGPPSSTVTQEGLAILMEIITFASYPSRLRKLTNRTRAIHMVEEGADFLQVFEFFREQGFEMAESYGNASRVFRGSVPTGLPFTKDLSYLKGFIMVYNYIQLAVRKGKLEQVPLLFCGKTTLEDMRTLRQLVDEGLVVPPKYLPEQFRDMNALSAWMCFSNFLNHLSLDRIEADYSNIL				NA	NA	NA	NA	NA
D1-35_00086	906		COG1073	putative protein	ATGCGAACCCTCGGCATCATTTGCCTGCTGCTGGCCCTGAGTGGCTGCAGCTCCCTGCTGTTCTACCCCGAACGCGGCCTGCCGTTCACGCCGCAGCGGGCCAAGCTCGAATACCGCGACGTCACCCTGACCACGGCTGATGGCCTGAAGCTGCGTGGCTGGTGGCTGCCGGTGAAGCCGGGTGTCGAGGTCAAGGGCACGGTGCTGCATTTGCACGGCAACGGCGGCAACCTGTCCTGGCACCTCGGCGGGAGCTGGTGGTTGCCGGAGCAGGGTTATCAAGTGCTGATGGTCGATTACCGGGGTTATGGGGTGTCCGAGGGCGAGCCGAGCCTGCCGGCGATCTACCGGGACATCGACGCTGCGTTCAAATGGCTCGACCAATCGCCCGAGGTCCAAGGCAAGCCGCTGGTGCTGCTCGGCCAGAGCCTGGGTGGCGCGCTGGCGGTGCATTACCTGGTGGAGCATCCTCAGCGTCAACAGCAGCTCAAGGCGCTGGTGCTTGATGGCGTGCCCGCCAGCTATCGCGACGTCGGACGCTTTGCCCTGAGCACTTCATGGCTGACCTGGGCGTTGCAGGTGCCGCTGTCCTGGCTGGTGCCGGACGGCGACAGCGCCATTGGCTCGATCGCACAATTGAACGGCGTGCCGAAACTGATCTACCACAGCCTTGACGACCCCATCGTGCCCCTTTCCAACGGCATCCGCTTGTATCAAGCTGCGCCGCCGCCCCGGGTCCTGCAACTGACCCGGGGCGGCCACGTGCAGACTTTCGCCGACCCGACCTGGCGAACCGTGATGCTGCGCTACCTCGACGATCCCCTGCACTTCGATGGCTTGCGCCGCCTGGGCGAGGTGCCGAACTACCCGAAATCCTCCGTTGAATCATCCGAGAACCCGCAATGA	MRTLGIICLLLALSGCSSLLFYPERGLPFTPQRAKLEYRDVTLTTADGLKLRGWWLPVKPGVEVKGTVLHLHGNGGNLSWHLGGSWWLPEQGYQVLMVDYRGYGVSEGEPSLPAIYRDIDAAFKWLDQSPEVQGKPLVLLGQSLGGALAVHYLVEHPQRQQQLKALVLDGVPASYRDVGRFALSTSWLTWALQVPLSWLVPDGDSAIGSIAQLNGVPKLIYHSLDDPIVPLSNGIRLYQAAPPPRVLQLTRGGHVQTFADPTWRTVMLRYLDDPLHFDGLRRLGEVPNYPKSSVESSENPQ				NA	NA	NA	NA	NA
D1-35_00087	330			hypothetical protein	ATGAGCGAAGAACGCAACGCCATCCCCCTGATCATCACCGGTATCTGCAGCATTCTCGGCACTGTCGCGGCGCTCTGGTACTACGGCTATCTGCATTTCGCCAAGCCCGAGGATGCGTTGCTGCTCAACCAGTTCACCATGCTCAAGACCGTGCCGGGCGAAGACTATAAAGTCGCCCTGGAGCCGGCGCCCCAGGTCGCCCAATGCGTCGATGGCGTACTGGTGCTGTTCGACACCGAGCAGAAAGGCCTGACCGGTGTGCTGATCAACGAGAAGAAACGCGCGGTGCGCTGCATGGGGCAGGAGACGCCGCAGAAGCTTCAGCCATAA	MSEERNAIPLIITGICSILGTVAALWYYGYLHFAKPEDALLLNQFTMLKTVPGEDYKVALEPAPQVAQCVDGVLVLFDTEQKGLTGVLINEKKRAVRCMGQETPQKLQP				NA	NA	NA	NA	NA
D1-35_00088	792	pal_1		Peptidoglycan-associated lipoprotein	ATGACGCACAAACATTTCATGATGCCCGCCCTGCTTGCCGCCTGCGTAGCCCTGGCCGCTTGCTCCCACGACCCGAACGCTAACCTGGAACAGGCCCGTACCAACTACAACGGCCTGCAGGCCGACCCGGCGGCCACCAAGGTCGCGGCCCTGGAAACCAAAGAGGCCTCCGACTTCCTGGCCAAGGCCGACAAGGCCTACCTGGACAACGAAGACGAAGCCAAGGTTGACCAACTGGCCTACCTGACCAACCAGCGCGTCGAAGTGGCCAAGCAGACCATCGCCCTGCGCAACGCCGAAGCCGAGCTGAAAAACGCCGGTGACGAACGCGCCCGCGCACTGCTCGACGCCCGCAACGCGCAGATCAAGCAGTTGCAGGACAGCCTCAACGCCAAGCAGACCGAGCGCGGTACGCTGGTGACCTTCGGTGACGTGCTGTTCGCCACCAACAAATCCGACCTGCGCGCCAGCGGCATGACCAATGTGAGCAAACTGGCGCAGTTCCTCCAGGAAAACCCGGATCGCAAGGTGATCATCGAAGGTTATACCGATAGCACCGGTTCGGATTCCTACAACCAGTCGCTGTCCGAACGCCGCGCCAGCTCCGTGCGTACCGCCCTGGTAAAAATGGGTGTCGACCCGGCCCGCATCGTGACCCAGGGTTACGGCAAGGAATTTCCGGTCGCCGACAACACCAGCGTCTCGGGCCGTGCCATGAACCGTCGCGTGGAAGTCACCATTTCCAACGACAACCAGCCAGTCGCCCCGCGCTCGACCATGAGCGCCAACTGA	MTHKHFMMPALLAACVALAACSHDPNANLEQARTNYNGLQADPAATKVAALETKEASDFLAKADKAYLDNEDEAKVDQLAYLTNQRVEVAKQTIALRNAEAELKNAGDERARALLDARNAQIKQLQDSLNAKQTERGTLVTFGDVLFATNKSDLRASGMTNVSKLAQFLQENPDRKVIIEGYTDSTGSDSYNQSLSERRASSVRTALVKMGVDPARIVTQGYGKEFPVADNTSVSGRAMNRRVEVTISNDNQPVAPRSTMSAN	PGPT0022215_3850	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022215-ompA_ompF_porin|oprF-K03286	NA	NA
D1-35_00089	414			hypothetical protein	ATGGAGTTGAAGCCTATGAATACCTGCACTGCCAAACCCTCATCCACTGGCTTGCGCGGCCTGAAGTTGGCTGCCCTGGCTATCGGTAGCAGCTTCATCCTGGCCGGTTGCGCCGGCAATCCACCTTCGGAGCAATACGCGGTCACGCAATCGGCGGTCAACAGCGCCGTCAGCGCGGGCGGCACCGAGTTCGCCGCGGTGGAAATGAAATCCGCCCAGGACAAACTCAAGCAGGCCGAGATCGCCATGCACGACGAGAACTATGAAGAGGCCAAGCGTCTGGCCGAACAGGCCGAATGGGATGCGCGCGTTGCCGAACGCAAGGCCCTGGCAGCCAAGGCCGAACAGGCCCTCAAGGATTCCCAGAAAGGGGTTCAGGAACTGCGTCAGGAAGGCATGAACAAGGTTCAGTAA	MELKPMNTCTAKPSSTGLRGLKLAALAIGSSFILAGCAGNPPSEQYAVTQSAVNSAVSAGGTEFAAVEMKSAQDKLKQAEIAMHDENYEEAKRLAEQAEWDARVAERKALAAKAEQALKDSQKGVQELRQEGMNKVQ				NA	NA	NA	NA	NA
D1-35_00090	345			hypothetical protein	ATGAAAATCCGTGAACTTGCTCAGCACTGGGAAGAAAACGCCAAGGGTCACCTGACCCAGACCGGTTATACGATTCATCTGGATGTGGAAGCCGCCGCACGCCTGGCGGCGATCTGCGACATGTACCCCAAGCGCCAGCCCGAAGAACTGCTCGGCGAATTGATCGGCGCTGCGCTGGAGGAGCTGGAAGCCAGCTTCCCCTACATCAAGGGCGCGCAGGTCGTGGCCACCGATGAAGAAGGCGACCCGCTGTACGAAGACGTCGGTGCGACCCCGCGATTTCTCGCCTTGTCCCGTCGTCATCTGCGCCAACTCTCTTCGCAAAACGACAAGTCCAAGCACTGA	MKIRELAQHWEENAKGHLTQTGYTIHLDVEAAARLAAICDMYPKRQPEELLGELIGAALEELEASFPYIKGAQVVATDEEGDPLYEDVGATPRFLALSRRHLRQLSSQNDKSKH				NA	NA	NA	NA	NA
D1-35_00091	2631	ppc	COG2352	Phosphoenolpyruvate carboxylase	ATGACCGATATTGATGCCCGCTTGCGCGAGGACGTCCACCTGCTCGGCGAACTGCTGGGCAATACCATTCGCGACCAGTACGGAGACGCCTTTCTCGACAAGATCGAGCAGATTCGCAAAGGCGCGAAGGCTGACCGACGCGGTTCGATGGATGCGGAACTGAGCGCCAGCCTCAACCAGTTGAGCGAGGACGAGTTGCTGCCGGTAGCGCGGGCGTTCAACCAGTTCCTCAACCTGGCCAATATCGCCGAGCAATACCAGCTGATTCACCGCCGCGAAGAATCCAGGCCGGCGCCGTTCGAAGCACGCGTGCTGCCCGAGCTGCTGGCGCGCCTGCGAGCCGAAGGCCATGGCGCCGAAGCGTTGGCCCGGCAGTTGGGCCGGCTGGAAATCGAACTGGTGCTCACTGCGCATCCCACGGAAGTCGCCCGGCGCACGTTGATCCAGAAATACGACGCGATCGCCGCGCAACTGGCCGCCCAGGACCATCGCGACCTCACCAGTGCCGAGCGCGCGCAGATCCACGAACGCTTGCAGCGGTTGATCGCCGAAGCCTGGCACACCGAAGAGATTCGCCGGACCCGCCCGACGCCCGTGGACGAGGCCAAGTGGGGCTTCGCGGTGATCGAGCATTCGCTGTGGCACGCCATCCCCAATTACCTGCGCAAGGCTGACCAGGCCCTGCATGCCGCCACCGGGTTGCGCCTGCCGCTGGAGGCCGCGCCGATCCGCTTTGCCTCGTGGATGGGTGGCGACCGGGACGGCAACCCGAACGTCACCGCCGCGGTCACTCGCGAGGTGTTGCTGCTGGCGCGCTGGATGGCGGCGGACCTGTATTTGCGCGACGTCGACCATCTGGCCGCCGATTTGTCCATGCAGAAAGCCAGCGAGGCCTTGCGCGCCCAGGCCGGTGACAGCGCCGAGCCCTATCGCGCGGTGCTCAAGCAATTGCGCGAACGCCTGCGAGCCACGCGCAACTGGGCCCAGGCCTCCCTGAAGGGCACGACGCCGGCGACCGCCGAGGTGTTGCAGGACAACCGTCAACTGCTTGATCCGTTGGAGTTGTGCTACCAGTCTCTGCATGAGTGCGGCATGGGCGTGATTGCCGACGGGCCGTTGCTCGATTGCCTGCGCCGCGCGGTGACCTTCGGCCTGTTCCTGGTGCGCCTCGACGTGCGCCAGGACTCGACGCGGCACACGGCGGCGATGACCGAGATCACCGATTACCTCGGGCTGGGGCGTTACGAGGAATGGGACGAAGAGCAGCGCATCGGTTTCCTCTTGGGCGAGCTGAATAATCGCCGGCCCTTGTTGCCGCCTTACTTCAAGCCGTCGGCCGATACGGCGGAAGTCCTGGCCACGTGCCGCGAGGTTGCGGCGGCACCGGCAGCGTCCCTGGGCTCTTATGTGATTTCCATGGCCGGCGCGGCTTCCGATGTGCTGGCGGTGCAGTTGCTGCTCAAGGAGGCCGGCGTATTGCGGCCGATGCGCGTAGTGCCGCTGTTCGAAACCCTCGCCGACCTGGACAACGCCGGGCCGGTGATCGAACGCCTGCTGTTGCTGCCGGGTTATCGCTCGCGCCTGCAAGGTCCCCAGGAAGTGATGATCGGCTATTCCGACTCGGCCAAGGACGCCGGGACCACGGCGGCAGCCTGGGCGCAATACCGCGCCCAGGAGCGGTTGGTGGACATCTGCCGCGAGCAGCAAGTCGAATTGCTGTTGTTCCATGGCCGCGGTGGCACCGTCGGCCGTGGCGGCGGCCCGGCGCACGCGGCGATCCTGTCCCAGCCGCCGGGATCGGTGGCCGGACGTTTCCGCACTACCGAACAGGGCGAAATGATTCGTTTCAAATTCGGCCTGCCGGACATCGCCGAACAGAACCTCAATCTTTACCTCGCCGCAGTGCTTGAAGCGACCTTGCTGCCACCACCGCCGCCAACCCCGCAATGGCGGCATCTGATGGATGAACTGGCTGCCGACGGGGTCAATGCCTACCGGGCCGTAGTGCGGGAAAATCCGCAATTTGTCGAGTATTTCCGCCAGTCCACGCCGGAACAGGAACTGGGTCGCCTACCCTTGGGCAGCCGTCCGGCCAAACGTCGGGCCGGCGGTATCGAAAGCCTGCGGGCGATCCCGTGGATTTTCGGCTGGACCCAGACCCGGTTGATGCTGCCGGCCTGGCTCGGTTGGGAAACCGCCCTGGGCAAGGCGCTGGAGCGCGGCGAGGGCGAACTGCTCGGGCAGATGCGTGAGCAATGGCCGTTCTTCCGCACCCGCATCGACATGCTGGAGATGGTCCTGGCCAAGGCCGACGCCGATATTGCCCAGTCCTATGACGAGCGTCTGGTGGAACCGGCGTTGCTGCCTTTGGGCGAGCATTTACGCGACCTATTGTCGCAGGCCTGTTCCGTGGTCCTGGGCCTGACCGGCCAGTCGCAGCTACTGGCACATAGCCCAGACACGCTGGAATTCATCCGCCTGCGCAATACCTACCTCGACCCGCTGCACCTGTTGCAGGCCGAGCTGCTGGCACGTTCGCGGCAGCAGGACGTGGCCCAGGGCAGCCCTGTGGAACAGGCGTTGCTGGTGTCTGTGGCAGGGATTGCCGCCGGTTTGCGCAACACCGGCTAA	MTDIDARLREDVHLLGELLGNTIRDQYGDAFLDKIEQIRKGAKADRRGSMDAELSASLNQLSEDELLPVARAFNQFLNLANIAEQYQLIHRREESRPAPFEARVLPELLARLRAEGHGAEALARQLGRLEIELVLTAHPTEVARRTLIQKYDAIAAQLAAQDHRDLTSAERAQIHERLQRLIAEAWHTEEIRRTRPTPVDEAKWGFAVIEHSLWHAIPNYLRKADQALHAATGLRLPLEAAPIRFASWMGGDRDGNPNVTAAVTREVLLLARWMAADLYLRDVDHLAADLSMQKASEALRAQAGDSAEPYRAVLKQLRERLRATRNWAQASLKGTTPATAEVLQDNRQLLDPLELCYQSLHECGMGVIADGPLLDCLRRAVTFGLFLVRLDVRQDSTRHTAAMTEITDYLGLGRYEEWDEEQRIGFLLGELNNRRPLLPPYFKPSADTAEVLATCREVAAAPAASLGSYVISMAGAASDVLAVQLLLKEAGVLRPMRVVPLFETLADLDNAGPVIERLLLLPGYRSRLQGPQEVMIGYSDSAKDAGTTAAAWAQYRAQERLVDICREQQVELLLFHGRGGTVGRGGGPAHAAILSQPPGSVAGRFRTTEQGEMIRFKFGLPDIAEQNLNLYLAAVLEATLLPPPPPTPQWRHLMDELAADGVNAYRAVVRENPQFVEYFRQSTPEQELGRLPLGSRPAKRRAGGIESLRAIPWIFGWTQTRLMLPAWLGWETALGKALERGEGELLGQMREQWPFFRTRIDMLEMVLAKADADIAQSYDERLVEPALLPLGEHLRDLLSQACSVVLGLTGQSQLLAHSPDTLEFIRLRNTYLDPLHLLQAELLARSRQQDVAQGSPVEQALLVSVAGIAAGLRNTG	PGPT0001165_3086	DIRECT EFFECT	BIO-FERTILIZATION	CARBON_DIOXID_FIXATION	CO2_FIXATION-ALTERNATIVE_PAHTWAYS	CO2_FIXATION-PHOSPHOENOLPYRUVATE_CARBOXYLASE_BIOSYNTHESIS,PGPT0001165-ppc-K01595	NA	NA
D1-35_00092	648	adk		Adenylate kinase	ATGCGCGTCATTCTGCTGGGAGCTCCCGGGGCCGGTAAAGGTACTCAGGCAAAGTTCATCACCGAAAAATTCGGTATCCCGCAAATCTCCACTGGCGACATGCTTCGCGCCGCGGTCAAGGCTGGCACCCCACTGGGTGTTCAGGCCAAGAGCATCATGGATGCCGGCGGCCTGGTGTCGGATGACCTGATCATCGCGCTGGTCAAGGACCGCATTGCTCAAGCCGACTGCGCCAATGGCTTCCTGTTCGACGGTTTCCCGCGCACCATTCCCCAGGCTGAAGCCCTGGTGACTGCCGGTGTGGAACTCGATCACGTGGTCGAAATCGCGGTAGACGACGAAGAAATCGTCCAGCGCATTGCCGGCCGTCGCGTTCACGAAGCGTCCGGTCGTGTCTATCACACCGTCTACAACCCGCCAAAGGTCGCCGGCAAGGACGACGTGACTGGCGACGAGCTGGTGCAGCGCAAGGACGACACTGAAGAAACCGTGCGTCATCGCCTGTCGGTCTACCATTCCCAGACCAAGCCGCTGGTGGATTTCTACCAGAAGCTGTCCGCTGCCCAGGGCAAGCCGAAGTACAGCCACATTCCAGGCGTCGGCTCGGTCGACGCGATCACCGGCAAGGTGCTTGAAGCACTGAGCTGA	MRVILLGAPGAGKGTQAKFITEKFGIPQISTGDMLRAAVKAGTPLGVQAKSIMDAGGLVSDDLIIALVKDRIAQADCANGFLFDGFPRTIPQAEALVTAGVELDHVVEIAVDDEEIVQRIAGRRVHEASGRVYHTVYNPPKVAGKDDVTGDELVQRKDDTEETVRHRLSVYHSQTKPLVDFYQKLSAAQGKPKYSHIPGVGSVDAITGKVLEALS	PGPT0009040_4377	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0009040-adk|AK-K00939	NA	NA
D1-35_00093	678	tsaB	COG1214	tRNA threonylcarbamoyladenosine biosynthesis protein TsaB	ATGAGCACCTTGCTGGCCCTGGACACCGCGACTGAAGCTTGCTCCGTTGCCTTGCTGCATGACGGCAAGGTCACGAGCCACTACGAGGTGATTCCGCGCCTGCATGCGCAAAAATTGCTGCCTATGATTCAGCAATTGCTCAGCGATGCCGGGATCACCTTGCAAGCCGTGGATGCGATCGCCTTTGGTCGCGGCCCAGGGGCGTTTACCGGCGTGCGCATCGCCATTGGCGTCGTGCAGGGCCTGGCCTTCGCCTTGGAACGCCCGGTATTGCCGGTCTCGAACCTGGCCGTACTGGCCCAGCGCGCCTTGCGCGAGCACGGCGCGCATCAGGTAGCGGCCGCCATCGATGCGCGCATGGACGAGGTGTACTGGGGCTGCTATCGCGAAACCGCTGGCGAGATGCGCCTGGTCGGTGCCGAGGCGGTGTTGCCACCCGAAGCGGCGGCGTTGCCGGCTGACACCAGCGGCGACTGGTTCGGCGCCGGTACCGGTTGGGGCTACGGCGAGCGAATCGGCGTCAGCCTTGTCGGCCAGGATGCCTCGATGTTGCCCCATGCCGAAGACCTGCTGGCCCTGGCACGCTTTGCCTGGGAACGCGGCGAAGCCATCCCTGCCGACGATGCGCAGCCGGTGTACCTGCGGGACAAGGTCGCGACGCCCAAGTCCGAACGGTAA	MSTLLALDTATEACSVALLHDGKVTSHYEVIPRLHAQKLLPMIQQLLSDAGITLQAVDAIAFGRGPGAFTGVRIAIGVVQGLAFALERPVLPVSNLAVLAQRALREHGAHQVAAAIDARMDEVYWGCYRETAGEMRLVGAEAVLPPEAAALPADTSGDWFGAGTGWGYGERIGVSLVGQDASMLPHAEDLLALARFAWERGEAIPADDAQPVYLRDKVATPKSER				NA	NA	NA	NA	NA
D1-35_00094	309			hypothetical protein	ATGCGTATAGACGGCGTTTCATCCCAGTCCTACCCCATCAAGCGTCGGCCTCGTGCGGGTAAAGCCGCTGAGCCGGAAAACTTCGATGACATCGATGGTGAGCTGGAATTTCCGTCCGAAGAGCAACTGGCCGCCCGCGCCGCCAAAGCCTCTGCGCAACGCCTGAGCAATCTTCCCGCCCGTCAGCAGGACATGCTGTATCACCGCGCCATGAGCCGCAGTGTCGCCACGGCGCTGGCCAGCTACCTGAGCACCGCCGGTTTTGTTGATTGGGATATGGAAGTGCTGGGCCTCGACCTCTATATCTGA	MRIDGVSSQSYPIKRRPRAGKAAEPENFDDIDGELEFPSEEQLAARAAKASAQRLSNLPARQQDMLYHRAMSRSVATALASYLSTAGFVDWDMEVLGLDLYI				NA	NA	NA	NA	NA
D1-35_00095	861			hypothetical protein	ATGCGGTTGCCCTACTATCTGGGTTGCCCGTCCTGGAGCGAAAACGCCTGGCGCGATTATCTTTATCCCCAGGACGCCAAAAGCTCCGATTTCCTCGGTCTCTACTCTCAAGTATTCAACGCCGTGGAAGGCAACACGACCTTCTACGCGAGCCCGGCCGCGTCCACCGTTCAGCGCTGGGCCGAAATCATGCCCGAGCACTTTCGCTTCACCGCCAAGATCCCCGGTGACATCAGCCACGGCGGCGACCTGCGCGAACACCTGACCGCCACCGAAACCTTTGTCCAGTTGCTAAGCCCCTTGGGCGAGCGCGTCTCGCCGTTCTGGCTGCAACTGTCCAAGGCGTTCACGCCCAATCGATTGCAGGAGCTGGCGGCATTCATCGACGCGTTCCCACGGTCGTTGGCCGTAGAGGTGCGTCACGATGAGTTTTTTGCCAAAGGCGACGCTGAACGACAGCTCAACCGTTTGCTGCTCGATCGTGGTGTCGAACGCATCTGTCTCGATCCCCGCGGCCTGTTCAGCTGCGCGTCGACCGCCCCTGAAGTCATTCACGCGCAATACAAGAAACCCCGGGTGCCGACGCGACCGGCGGCGTTCACTCAATACCCGCAGGTGCGTTTCGTCGGTCATCCGGTAGTGGAGGCCAACGAGCTGTTCCTGACGCCATGGGTAGAAAAAATCGCCGTGTGGATCGAAGAGGGGCGCACGCCGTATATGTTCCTGCACACCGCGGACAATCTGCTGGCGGCGAAACTCGCGATGCATTTTCACAGCCGCCTGATGAAGCGTTTGCCTGGCTTGCCGGCGCTGCCTGAGCTATATAGAGAACCCGCCGCCGAGCAACTCGGTCTGCTCTGA	MRLPYYLGCPSWSENAWRDYLYPQDAKSSDFLGLYSQVFNAVEGNTTFYASPAASTVQRWAEIMPEHFRFTAKIPGDISHGGDLREHLTATETFVQLLSPLGERVSPFWLQLSKAFTPNRLQELAAFIDAFPRSLAVEVRHDEFFAKGDAERQLNRLLLDRGVERICLDPRGLFSCASTAPEVIHAQYKKPRVPTRPAAFTQYPQVRFVGHPVVEANELFLTPWVEKIAVWIEEGRTPYMFLHTADNLLAAKLAMHFHSRLMKRLPGLPALPELYREPAAEQLGLL				NA	NA	NA	NA	NA
D1-35_00096	822		COG2513	putative protein	ATGGATGCACAAACCCGCCGAGCCCAGGCGTTCAAGGCGTTGCACGAACGCGATGGGGCGTTTGTCATTCCCAATCCATGGGATGCCGGTTCGGCAAAGATGCTCGCCAGCCTCGGCTTTGAAGCATTGGCGACGACCAGTGCCGGTCACGCTTTTTCCCTGGCACGACCTGACGGCGCCCTGGGTCTTGATGACACGCTGGCGAATGTGCGAGCGATTGTTGCGGCCATGGACCTGCCAGTAGCCGTCGACCTGGAAAACGGCTTTGCCGATGCGCCCGAAGACTGCGCCCGCAGCTTGCTCCGCGCGGCACAAGCCGGCGCGGTAGGGGGCTCCATCGAAGATGCCACGGGCCGCGAAGACAGCCCGATCTACGATTTCGAGCACGCCGTGGCGCGGGTCAAGGCCGCCGCCGAGGCGGTGCGCAGTCTGCCTTTCCCTTTCCTGCTGACCGCGCGGGCAGAAAACTTCCTGCATGGCAGGCCGGATCTGGACGACACGATCCGACGCCTGAAGGCCTTCGCCGGCGCCGGCGCCGATGTGCTGTACGCGCCGGGGCTGAGCAGCGCCGAGCAAGTGCTGGCGGTGGTCCGGGCCGTGGCGCCCAAGCCCGTTAACGTACTGATGTCCGGCGCGCTGGACCTGACGGTAGCCCAGTTGAGTGAACTGGGCGTCAAGCGCATCAGTGTCGGATCGGCCCTCGCGCTGGCGGCGTATGGCGAGTTTTTCCGCGCCGCCGAAGAAATCCAACGGCAGGGGACCTTCACTTTCACCCGTCGCTCAATGCCTTTCAACCAGGCCAATCAATTATTCAAGGGTTGA	MDAQTRRAQAFKALHERDGAFVIPNPWDAGSAKMLASLGFEALATTSAGHAFSLARPDGALGLDDTLANVRAIVAAMDLPVAVDLENGFADAPEDCARSLLRAAQAGAVGGSIEDATGREDSPIYDFEHAVARVKAAAEAVRSLPFPFLLTARAENFLHGRPDLDDTIRRLKAFAGAGADVLYAPGLSSAEQVLAVVRAVAPKPVNVLMSGALDLTVAQLSELGVKRISVGSALALAAYGEFFRAAEEIQRQGTFTFTRRSMPFNQANQLFKG				NA	NA	NA	NA	NA
D1-35_00097	699			hypothetical protein	GTGCGGTTTTTGAAAGGACTGATGGTATTGGCGCTGATTGCTGGCGTCGCGGTGGTGGCGGTATGGCGCGGTTGGCTGGCCGTGCCGCCGCAATGGAACCCCTGGGCGCCGTTGGACGTGAAAGCGCCGCCAAATCTGCTGACCCGCTACAAACTCATGGCGCTGCGCAACGATCCGCAACTGTGTGACCAGGCGCTCGCCACGTCGGGGCTGCGCACCGCTCGCCAGGCCGACAGCGGCGCCAATACCTCGTGCCCGCTGACCAATGTGCTGCGGGTGCAGGGCGGTGAGGTGGCGCTGAGCAGCAGCTTCCTCGCCAGTTGCCCTCTGGCGGTAGCCTTCGCGCTGTTCGAGCGCCATGCGTTGCAGCCGGCGGCAATGGCCGCCTATGGCAAGCAAGTCACGCGGGTTGATCACTTGGGCAGTTTTGCCTGTCGCAACATGTACGGTCGTGAAAGCGGCGCGCGCAGCCAGCACGCCACTGCCAGCGCGTTGGACATCGCCGGGTTTCGCCTGGCCGATGGACGAGCCGTCAGCGTGCTCAGGGATTGGCCGAAGGACAACACCGATGCGCAGTTTCTACGGCAGGTGCGCGATGGCGCCTGCGACATGTTCAGTGTGGTCTTGAGTCCGGATTACAACGCGGCGCACCGCAACCATTTTCATCTGGATGTGGGGCCCTGGTGGATTTGTCGTTGA	MRFLKGLMVLALIAGVAVVAVWRGWLAVPPQWNPWAPLDVKAPPNLLTRYKLMALRNDPQLCDQALATSGLRTARQADSGANTSCPLTNVLRVQGGEVALSSSFLASCPLAVAFALFERHALQPAAMAAYGKQVTRVDHLGSFACRNMYGRESGARSQHATASALDIAGFRLADGRAVSVLRDWPKDNTDAQFLRQVRDGACDMFSVVLSPDYNAAHRNHFHLDVGPWWICR				NA	NA	NA	NA	NA
D1-35_00098	621			hypothetical protein	ATGTCAGACATTCAATCCACATCGATAGGCGTTATCTCCCCTTACGGCGATTACAGCCTGCGTAACACCCAAGCGCTGAGCGGCGTCAGTCACCTGTGGCAGGATTTTTTTGCCCGGGCCCTGGCCGACCAGTTGGGTGAAAACGCACCGGCGCCCGGCAGCTACCAGCCAGTCGCCCTCGATGAAGCGGTTGAACCGACCCTGGGCGCCGAGCTGCTGGAGCATATCGTCAGCCAGCGCACCTGCGACGTGACGGAAACCCAGGTCAAGCCACCCGAGCCGTTGTTCCTGCCGATCGCCGAGTTCGAACTGGATTTGCTCGACAAGCCGTTCCCGCCCTTCCCGCCAGAAGAAATCGTAGCGCAGCAAAAGCAGCAGACCTTCGAGAGCAATTGGGTTCGCCCGATCGTCCTCGCCGCCGGTCAACCGTTGCCAGAACCGGGCCCGGCACCACAGCCGCGTCGACTGCCCCTGCCGATTGCCGAATTCGAACTCGACCTGTTGGACAAGCCATTCCCTCCATTCCCGGAAGAGGAATTGGTGGCGCAGCAGAAACAACTGGACTTCGACACTCGCTGGGCGCGTCCGATCGTACTGCAGAACCTGCGCATCGCTGCCTGA	MSDIQSTSIGVISPYGDYSLRNTQALSGVSHLWQDFFARALADQLGENAPAPGSYQPVALDEAVEPTLGAELLEHIVSQRTCDVTETQVKPPEPLFLPIAEFELDLLDKPFPPFPPEEIVAQQKQQTFESNWVRPIVLAAGQPLPEPGPAPQPRRLPLPIAEFELDLLDKPFPPFPEEELVAQQKQLDFDTRWARPIVLQNLRIAA				NA	NA	NA	NA	NA
D1-35_00099	783	rsmJ		Ribosomal RNA small subunit methyltransferase J	ATGACTGAGCAACTCGCGGCTTGCCGCATCCATGTCGAGGCCCTGGCCCCGGCGTTCCAGCCCCGCGCCGAGCAGTGGGCCGAGCAGCTCGGCCTGCCGTTGCAGATGGATGACGGCGAGTTCGCCTTGCAGGTCGGCGAGCACGGGTTGCAATTGCAGCAGCTGGGTCCCGATGCGCCGGGACCGGTGCGCGTGGATTTTGTCGAGGGCGGCGCAGCCCATCGTCGTTTGTACGGGGGCGGCAGTCGCCAGATGATCGCCAAGGCAGTCGGTGTCGCCCAGGGTGTGCGTCCGCGAGTGCTGGATGCCACGGCGGGGTTGGGCAAGGATGCGTTCGTGCTGGCGAGTCTCGGCTGCGAGATGAGCCTGATCGAGCGTCAACCCTTGATCGGTGCTTTGCTGGAGGATGGTCTGGCTCGCGGTGCGGAAGATTTCGATGTGGCGCCGATTGTGGCGCGGATGCGCTTGCTCAAGGGCAATTCCATCGAAGTGATGCGCAGTTGGCAAGGCGAGCCGCCCAAGGTGATCTACCTGGACCCGATGTTTCCCCATCGGGAGAAAACCGCCCTGGTGAAAAAAGAGATGCGCCTGTTCCGCCCGCTGGTGGGCGATGATACCGACGCCCCGGCGCTGCTTGCCGCCGCGCTGGCGTTGGCGACCCACCGGGTGGTGGTCAAGCGCCCGCGCAAGGCCCCCTGCATTGAAGGGCCGAAGCCGAGCCATGGGCTGGAAGGCAAGTCCAGTCGGTACGATATCTATCCGAAGAAAGCGCTCAAGGCTTGA	MTEQLAACRIHVEALAPAFQPRAEQWAEQLGLPLQMDDGEFALQVGEHGLQLQQLGPDAPGPVRVDFVEGGAAHRRLYGGGSRQMIAKAVGVAQGVRPRVLDATAGLGKDAFVLASLGCEMSLIERQPLIGALLEDGLARGAEDFDVAPIVARMRLLKGNSIEVMRSWQGEPPKVIYLDPMFPHREKTALVKKEMRLFRPLVGDDTDAPALLAAALALATHRVVVKRPRKAPCIEGPKPSHGLEGKSSRYDIYPKKALKA				NA	NA	NA	NA	NA
D1-35_00100	636			hypothetical protein	ATGTCGAACAATCCTCCCTCCTCCAGCGGCCCTGGTCGTCCCAAGGATCTGGCCAAGCGCCAGGCCATTCTCGACGCCGCGAAACGCCTGTTCCTGAGCCTGGGCTACGCCAGCACCAGCATGGACGCCGTGGCCACCGAGGCCGGCGTCTCGAAGCTGACCGTCTACAGCCACTTCAATGACAAGGAAACGCTGTTTTCCGCCGCCGTGATTGCCAAGTGCGAGGAACAGGTGCCGCCGCTTTTCTTCGAATGGGCCGACGGTGTTCCGATTGAACACGTGCTGCTGAACATCGCCCGCGGCTTCAACCAATTGATCAACAGCGACGAATCGGTGAACCTGCATCGGCTGATGGTGGCGTTGGGTAGCCAGGATCCAAAGCTCTCGACCATCTTCTACCAGGCCGGCCCGCAGCGAATGCTCTCAGAGATGGAAAGGTTGCTGACCAAGATCGACCAGAGCGGCGCCCTGAGCATCGACAAACCGCGCAACGCCGCCGAGCATTTTTTCTGCCTGATCAAGGGCGCGGCGAACTTCAGGTTGTTGTATGGCTGCGACGGGCCGCAGGACGCCGAAGCGGCCGAAGCGCATGTGCAGGAAGTGGTGGGGTTGTTTGTGCGGGCTTATCGGCCTTAG	MSNNPPSSSGPGRPKDLAKRQAILDAAKRLFLSLGYASTSMDAVATEAGVSKLTVYSHFNDKETLFSAAVIAKCEEQVPPLFFEWADGVPIEHVLLNIARGFNQLINSDESVNLHRLMVALGSQDPKLSTIFYQAGPQRMLSEMERLLTKIDQSGALSIDKPRNAAEHFFCLIKGAANFRLLYGCDGPQDAEAAEAHVQEVVGLFVRAYRP	PGPT0028895_550	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexJK-OprM,PGPT0028895-mexL-K18301	NA	NA
D1-35_00101	1101	mdtA_1		Multidrug resistance protein MdtA	ATGTTCCGCTATGTCCTGCCCCTCGCCGTGCCAGTCAGCCTGGCTTTTTTATTGTCTGCGTGCGGTCATGAGGAGCCGACGCCGGTCGCCGTGCGCCCTGCGATGGTCGTCAAGCCGGAGCCTTCGGCCCAGGCGATGGACAGTTATCCCGGCGAAGTACGGGCGCGGTTCGAGCCGGACCTGGCGTTTCGCATTGGCGGCAAGGTGAGCCGCCGGCTGGTGGAAGAGGGCCAGCGGGTCAAGGCCAACCAGGCGCTGGCCGAACTCGACCCCGAGGATGTGCGCCTGCAACTGGAAGCCAGTCGGGCCCAGGTTGCCGCGGCCGAGGCCAACCTGAGCCTGGTAAAAGCCGAGCGTGACCGCTACAAGACCTTGATGGAGCGGCAGATGGTCAGCCGCTCCCAATACGACAACGCCGAGAATCTCTATCGCTCCGGTGCCGCGCGGCTCAAGCAGATCAAGGCCGAATTCGACGTTGCCAGCAACCAGGCCAGCTATTCGGTGTTGCGTGCACCCCAGGACGGCGTGGTGGCCCGGCGGGCGGTGGAAGTCGGCCAGGTGGTGTCGGCTGGACAGACCGTCTTCACCCTGGCCACCGACGGCGAGCGTGAAGTGTTGATCAGCCTGCCGGAGCAGGGATTTGGTCGGTTCAAGATCGGCCAGCCAGTGTCGGTTGAATTGTGGAGCCAGCCCGATCAGCGCTTCAGCGGACGCATCCGCGAACTCTCGCCGGCCGCCGATCCGAAATCCCGTACCTTCGCCGCGCGCGTCGCCTTCACCGCTGGCAGCGTCCCGGCGGAACTGGGCCAGAGCGCCCGGGTGTTTATCCAGACCGCTGAGAAGGCGCCGCTGTCGGTGCCATTGTCGGCCCTCACCGCCGAGAACGGCGCCACCTTCGTCTGGGTGGTCAAGCCCGACAACACGCTCAAGAAAGTCCCGGTGCGCGTTGGCGCCTTCGGTGAAAAGACCGTGCCGGTGCTCGAAGGCCTGAGTGCCAATGACTGGGTGGTGGCCGCTGGCGTGCATGTGCTTCTGGACGGCCAGCAGGTTCGGCCGGTGGATCGCTCCAATCGCGTGGTCAACCTGGCGGCCAAGGAGTAA	MFRYVLPLAVPVSLAFLLSACGHEEPTPVAVRPAMVVKPEPSAQAMDSYPGEVRARFEPDLAFRIGGKVSRRLVEEGQRVKANQALAELDPEDVRLQLEASRAQVAAAEANLSLVKAERDRYKTLMERQMVSRSQYDNAENLYRSGAARLKQIKAEFDVASNQASYSVLRAPQDGVVARRAVEVGQVVSAGQTVFTLATDGEREVLISLPEQGFGRFKIGQPVSVELWSQPDQRFSGRIRELSPAADPKSRTFAARVAFTAGSVPAELGQSARVFIQTAEKAPLSVPLSALTAENGATFVWVVKPDNTLKKVPVRVGAFGEKTVPVLEGLSANDWVVAAGVHVLLDGQQVRPVDRSNRVVNLAAKE	PGPT0028885_562	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexJK-OprM,PGPT0028885-mexJ-K18302	NA	NA
D1-35_00102	3066	czcA_1		Cobalt-zinc-cadmium resistance protein CzcA	ATGGGCTTCAATCTCTCCGAATGGGCGTTGCGTAACCGCCAGATCGTACTGTTCCTGATGCTCTTGCTGGCGATCGTCGGCGCGCTTTCCTACACCAAGCTGGGTCAGAGCGAAGATCCGCCATTCACCTTCAAGGCCATGGTCATCCGTACCGTCTGGCCAGGGGCCACGGCCGAGGAAGTGTCGCGCCAGGTCACCGAGCGTATCGAAAAGAAGCTCATGGAAACCGGCGACTACGAAAAGATCGTCTCGTTTTCCCGGCCGGGAGAATCCCAGGTTACTTTTGCGGCTCGCGACTCCATGCATTCCAAGCAGATTCCCGAGCTGTGGTACCAGATCCGCAAGAAGATCGGCGATATCCGGCAGACCTTGCCGCCGGGTATCCAGGGACCGTTCTTCAACGATGAGTTCGGCACTACCTTCGGCAATATCTACGCGCTCACCGGCGACGGCTTCGATTATGGCGTGCTCAAGGATTACGCCGACCGTATCCAGATCCAGCTGCAGCGGGTCAAGGACGTAGGCAAGGTCGAGTTGGTCGGCCTGCAGGACGAGAAAATCTGGGTCGAGCTGTCGAACGTGAAGCTGGCGACCCTCGGCCTGCCCCTGGCGGCAGTCCAGCAGGCGCTGGAGGCGCAGAACGCGGTATCGACCGCCGGCTTCTTCGAGACCGGCAGCGAGCGATTGCAGCTACGGGTCTCGGGGAATTTCCAGAGCGTGGAAGAGATCCGTGACTTTCCGATCCGCGTGGCCGACCGGACCTTCCGCATCGGTGACGTGGCCGATGTTCGTCGCGGCTTCAATGATCCACCGGCGCCGCGCATGCGTTTCATGGCGGAGGACGCCATCGGCCTGGCCGTGGCGATGAAGGAGGGCGGCGACATCCTGATCCTCGGCAAGGCCCTCGAGGCCGAGTTTGCCCGCATCCAGAACACCCTGCCGGCCGGCATGCAACTGCGCAAGGTTTCCGACCAGCCGGCTGCGGTGAAGACTGGCGTCGGCGAGTTTGTCCAGGTACTGGTGGAAGCACTGACGATCGTGTTGCTGGTGAGCTTCTTTTCCCTGGGGCTGCGCACCGGAATGGTGGTGGCGCTGGCGATTCCGCTGGTCTTGGCGATGACCTTCGCCGCGATGTATTACCTGGGCATCGGTTTGCACAAGATTTCCCTCGGCGCGTTGGTGTTGGCGCTGGGGCTGTTGGTGGACGATGCGATCATCGCGGTGGAGATGATGGCCATCAAGATGGAGCAGGGCTACGACCGGATCAAGGCGGCCAGCTTTGCCTGGACCAGCACGGCGTTCCCGATGCTCACCGGCACCCTGATCACCGCGGCGGGGTTCCTGCCGATCGCCACCGCGCAATCGGGCACCGGTGAGTACACCCGTTCGATTTTCCAGGTGGTGACCCTCGCGCTGGTGGCTTCCTGGGTGGCCGCGGTGGTGTTCGTGCCGTATCTCGGGGAAAAACTCCTGCCGGACTTGGCGAAGATTCACGCGGCCAGGCATGGCACTGCTGACGGCCAGCCGGACCCCTACGGCACGCCGTTCTATCAGCGAGTCCGGCGAACGGTGGAGTGGTGCGTGCGTCGACGCAAGACGGTGATCACCTTGACCGTGCTGTTGTTCGTCGGCTCGGTGGTGCTGTTCCGTTTTGTCCCGCAGCAGTTTTTCCCGGCGTCGGGACGACTGGAGCTGATGGTCGACCTGAAGCTGGCCGAAGGCGCTTCGCTGGTCAACACCGCGGAGCAGGTCAAGCGCCTTGAAGCGCTGCTCAAGGACCACGCTGGCATCGACAATTACGTGGCGTACGTCGGCACCGGCTCACCACGCTTCTACTTGCCGCTGGATCAACAACTGCCGGCGCCGAGCTTCGCCCAGTTCGTCGTGCTGGCCAAGACCATCGAAGACCGCGAGCCCTTGCGCAGTTGGCTGATCAGCACACTGAACGAGCAGTTCCCGACCCTGCGCTCGCGGGTCACACGCCTGGAAAACGGCCCGCCCGTGGGGTATCCGGTGCAGTTTCGGGTGACGGGTGAACACATCGAAGAAGTCCGCGCGCTTGCCCGGAAAGTCGCGACAAAGGTTCGCGAAAACCCCTACGTCGCCAATGTCCACCTGGACTGGGAAGAACCGAGCAAGGTGGTGTACCTCAACATCGATCAGGATCGCGCCCGCGCGTTGGGCGTCACCACCGCCAACCTGTCGAGCTTCCTGCAAAGCTCCCTCACGGGCTCCAGTGTCAGCCAGTACCGCGAAGACAACGAGCTGATCGAGATCCTGCTGCGCGGCACCGTGCATGAGCGCACCGAGCTTTCGCTGTTGCCAAGCCTGGCGGTGCCTACCGACAACGGCACGAGCGTTGCCCTGTCGCAGATCGCGACGCTGGAATACGGCTTTGAAGAAGGGGTGATCTGGCACCGCAACCGTCTACCCAGCGTGACCGTACGGGCCGACATCTATGGCAAGGAACAACCGGCGACGCTGGTGCAACAGATTTTCCCGACCCTGGACCCGATCCGTGCAGAGTTGCCGGACGGCTATCTGCTGGAAGTCGGGGGCACGGTGGAGGATTCAACCCGTGGGCAGAAATCGGTGAATGCGGGCGTGCCGCTGTTCATCGTGGTGGTGCTGACGTTGCTGATGCTGCAACTGCGCAGCTTCTCGCGCACGGCGATGGTGTTTCTCACCGCGCCGCTGGGACTGATCGGCGTCACGCTGTTCCTGCTGGTGTTCCGCCAGCCGTTCGGTTTCGTCGCCATGCTCGGCACTATCGCGTTGTCCGGGATGATCATGCGCAACTCGGTGATCCTGGTGGACCAGATCGAACAGGACATCAAGGCGGGGCTCGCCCCCTGGCAGGCGATCATCGAGGCGACCGTGCGCCGTTTCCGGCCGATTGTACTGACTGCACTGGCGGCGGTCCTGGCGATGATCCCACTGTCGCGCAGCCTGTTCTTCGGGCCCATGGCAGTGGCTATCATGGGCGGCTTGATCGTGGCGACGGCGTTGACGCTGTTGTTCCTGCCGGCGTTGTATGCGGCGTGGTTCAGGGTCAGGAAAACCTGA	MGFNLSEWALRNRQIVLFLMLLLAIVGALSYTKLGQSEDPPFTFKAMVIRTVWPGATAEEVSRQVTERIEKKLMETGDYEKIVSFSRPGESQVTFAARDSMHSKQIPELWYQIRKKIGDIRQTLPPGIQGPFFNDEFGTTFGNIYALTGDGFDYGVLKDYADRIQIQLQRVKDVGKVELVGLQDEKIWVELSNVKLATLGLPLAAVQQALEAQNAVSTAGFFETGSERLQLRVSGNFQSVEEIRDFPIRVADRTFRIGDVADVRRGFNDPPAPRMRFMAEDAIGLAVAMKEGGDILILGKALEAEFARIQNTLPAGMQLRKVSDQPAAVKTGVGEFVQVLVEALTIVLLVSFFSLGLRTGMVVALAIPLVLAMTFAAMYYLGIGLHKISLGALVLALGLLVDDAIIAVEMMAIKMEQGYDRIKAASFAWTSTAFPMLTGTLITAAGFLPIATAQSGTGEYTRSIFQVVTLALVASWVAAVVFVPYLGEKLLPDLAKIHAARHGTADGQPDPYGTPFYQRVRRTVEWCVRRRKTVITLTVLLFVGSVVLFRFVPQQFFPASGRLELMVDLKLAEGASLVNTAEQVKRLEALLKDHAGIDNYVAYVGTGSPRFYLPLDQQLPAPSFAQFVVLAKTIEDREPLRSWLISTLNEQFPTLRSRVTRLENGPPVGYPVQFRVTGEHIEEVRALARKVATKVRENPYVANVHLDWEEPSKVVYLNIDQDRARALGVTTANLSSFLQSSLTGSSVSQYREDNELIEILLRGTVHERTELSLLPSLAVPTDNGTSVALSQIATLEYGFEEGVIWHRNRLPSVTVRADIYGKEQPATLVQQIFPTLDPIRAELPDGYLLEVGGTVEDSTRGQKSVNAGVPLFIVVVLTLLMLQLRSFSRTAMVFLTAPLGLIGVTLFLLVFRQPFGFVAMLGTIALSGMIMRNSVILVDQIEQDIKAGLAPWQAIIEATVRRFRPIVLTALAAVLAMIPLSRSLFFGPMAVAIMGGLIVATALTLLFLPALYAAWFRVRKT	PGPT0028890_665	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexJK-OprM,PGPT0028890-mexK-K18303	NA	NA
D1-35_00103	690			hypothetical protein	ATGCTCCGCCCTACCCTCCGTTTCACCGGCCTCTGCGCCGGCCTGTTGATCTGCGCCAACGCCATGGCCCTGTCGCTCGGTGATCTCTCGCAGAAGGACGCCACGGGCGGTCTGAAGGATGCCCTCACCCAAGGCGCCCAGATCGCGGTCAAGCAACTGGGTAAGCCTGGCGGTTTCAGCAACAACCCCGACGTGAAGATCGAGCTGCCGGGCAAGCTCGGTAAAGTCGCCAGCAAGATGAAGGCCTTCGGCATGGGCGCTCAGGTCGATCAATTGGAAACCAGCATGAACCAGGCTGCCGAAGCCGCCGTAGTGCAGGCCCAGCCGATCCTGGTGGATGCGGTGAAGAACATGAGCGTGACGGATGCCAAGGGCATTCTGAGCGGCGGCAACGACTCGGCCACGCAATACCTGAACAAGAGCAGCCGCGAGCAGATTCGCGCGAAGTTCCTGCCGATCGTCAAGCAAGCCACCGACAAGGTCGGCCTGGTCCAGAAGTACAACGCCTTCGCCGGCCAGGCTGCGACACTCGGCGTGGTGGACACCAAGAGCGCCAACGTCGAGAACTACGTGACCGAGCAGGCGCTGGACGGGTTGTTCAAGATGATTGCCAAGCAGGAAGCAACGATCCGCCAGAACCCGGCGGCCGCGGCGACCAGTTTGGCCAAGAAAGTGTTTGGCACCCTCTGA	MLRPTLRFTGLCAGLLICANAMALSLGDLSQKDATGGLKDALTQGAQIAVKQLGKPGGFSNNPDVKIELPGKLGKVASKMKAFGMGAQVDQLETSMNQAAEAAVVQAQPILVDAVKNMSVTDAKGILSGGNDSATQYLNKSSREQIRAKFLPIVKQATDKVGLVQKYNAFAGQAATLGVVDTKSANVENYVTEQALDGLFKMIAKQEATIRQNPAAAATSLAKKVFGTL				NA	NA	NA	NA	NA
D1-35_00104	2502	plsB	COG2937	Glycerol-3-phosphate acyltransferase	ATGACCCGCTCCCCGTTCCGCCGTCTTGTGTTTGGCACCCTGCGCCGACTGTTGTACCTCTGGGTTCGCTCCGAGACCATCAACCAGTCGTCCTTCACCCTCAACCTCGACCGCAGTCGTCCGGTGTTCTACGTCCTGCAAGATCCTTCGCTCACCGATCTGGCGGTGCTCGACACCGAATGCACCAAGGCCGGCCTGCCACGTCCGGTGCTGCCCGTCTCGGTGGGCGGCCTGCTGGAGCCGGCGGCGTTTTTCTACCTGACGCCGGCGCCGGACTGGCTCGGGCGCCAGGACAAACGCGGTGCGCCGCCGACCCTGACGCGACTGGTCGACGAGTTGACCCACAACGCCGCCGAGGACGCCCAGATTATTCCGGTCAGCGTCTTCTGGGGCCAGTCGCCCGACAGCGAATCCAGCCCCTGGAAGCTGCTGTTCGCCGACAGCTGGGCGGTCACCGGGCGCCTGCGTCGCTTGCTGAGCATCATGATTCTTGGGCGCAAGACACGGGTGCAGTTCTCCGCGCCCATTCATCTGCGCGAACTGATCGAGCACGACAAAGGCCATGAACGCACCGTGCGCATGGCCCAGCGGATCCTGCGGGTGCACTTTCGCAATCTGAAAGCAGCGGTTATCGGCCCGGACATCTCCCACCGGCGCAACCTGGTCAAGGGTCTGTTGAACCAGCCATTGGTCAAGCAGGCCATCCTCGAAGAGGCCGAACGGGAAAAGATCCCGGCTGAAAAAGCCAAGGCCCAGGCCCTGCGTTATGGCAATGAGATTGCTTCGGACTACACCTACACCGCGATCCGCTTCCTGGAAGTGGTGCTGAGCTGGTTCTGGAACAAGATCTACGATGGCATCAAGGTCAACCACATCGAAGGCGTGCAGAACGTTGCCCAAGGCCACGAAGTCATCTACGTACCCTGCCATCGCAGCCATATCGACTACCTGCTGCTGTCGTACCTGCTGTTTCGCAATGGCCTGACCCCACCGCACATTGCCGCCGGCATCAACCTCAACATGCCGGTGATCGGCGGCCTGCTGCGCCGTGGCGGCGCGTTTTTCATGCGTCGCACGTTCAAGGGCAACCCGCTTTACACCGCCGTGTTCAACGAATACCTGCACACGCTGTTCACCAAGGGGTTCCCGGTGGAGTACTTCGTCGAAGGCGGCCGTTCGCGTACCGGGCGCATGCTGCAACCGAAGACCGGCATGCTCGCCATTACCCTGCGTAGCTTTTTGCGCTCCTCGCGCATGCCGATCGTCTTTGTGCCGGTGTACATCGGTTACGAGCGCGTACTGGAAGGCCGCACCTACCTCGGTGAGCTGCGGGGTGCGAGCAAAAAGAAGGAGTCGATCTTCGACATCTTCAAGGTCATCGGCGCCCTCAAGCAACGCTTTGGCCAGGTCGCGGTTAACTTTGGCGAGCCAATCAAGCTGGCGGAGTTCCTCGACGGCGAACAACCCGGCTGGCGCCAGCAGGAGCTCGGGCCGCAGTTCAAACCCGACTGGCTCAACGCGACCACCAACCGCCTCGGCGAACGTGTCGCCCGCCATCTGAACGAAGCCGCGGCCATCAACCCGGTCAACCTGGTCGCGCTCGCGCTGCTGTCCACCAGCCGTCTGGCCCTGGACGATCACGCCATGGCCCGCGTACTGGACCTGTACCTCGCGTTGCTGCGCAAAGTGCCATACTCGCCTCACACCACCTTGCCCGAAGGCGATGGCCAGGCGCTGATCGCGCACGTCAAAGGCATGGACCTGCTGTCGGAACAGAAGGACGCCCTGGGCAAGATTCTGTATCTGGATGAGCAGAACGCGGTGCTGATGACCTACTACCGCAACAATGTCCTGCACATCTTCGCCCTGCCGGCGCTGCTCGCCAGTTTCTTCCAGAGCAGCTCGCGCATGAGCCGCGAACAGATCCTGCGCTACACCCGGGCCTTGTATCCGTACCTGCAGTCGGAGCTGTTCATTCGCTGGTCGCTGGAGGAACTGGACGCGGTGGTCGACCAGTGGCTCGAAGCATTCGTTGAACAAGGCCTGCTGCGTTTCGAAAAAGACCTCTACCTGCGCCCGGCGCCGAGTTCGCGGCATTTCGTGCTGCTGACGCTGCTGTCGAAAAGCATCGCCCAGACCTTGCAGCGTTTCTACATGACCGTCTCGCTGCTGCTCAACAGCGGGCAGAACAGCATCAGCGCCGAAGAACTGGAGGACCTCTGCACCGTCATGGCCCAGCGCCTGTCGATCCTGCATGGGCTGAACGCACCGGAGTTCTTCGACAAGAGCCTGTTCCGCCACTTCATCCAGACGATGCTCGACCTCGACGTCCTGCGGCGCGACGAAGCAGGCAAGCTGAGCTATCACGAACTGCTCGGCGAGCTGGCTGAAGGCGCGGCCAAGCGGGTGCTGCCGGCGGAAATTCGTCTGTCGATCCGCCAGGTGGCGTTGCATCGCAGCGAAGATGCGGCGGATCAGGACGTTCCGACGGCTGCGGACTGA	MTRSPFRRLVFGTLRRLLYLWVRSETINQSSFTLNLDRSRPVFYVLQDPSLTDLAVLDTECTKAGLPRPVLPVSVGGLLEPAAFFYLTPAPDWLGRQDKRGAPPTLTRLVDELTHNAAEDAQIIPVSVFWGQSPDSESSPWKLLFADSWAVTGRLRRLLSIMILGRKTRVQFSAPIHLRELIEHDKGHERTVRMAQRILRVHFRNLKAAVIGPDISHRRNLVKGLLNQPLVKQAILEEAEREKIPAEKAKAQALRYGNEIASDYTYTAIRFLEVVLSWFWNKIYDGIKVNHIEGVQNVAQGHEVIYVPCHRSHIDYLLLSYLLFRNGLTPPHIAAGINLNMPVIGGLLRRGGAFFMRRTFKGNPLYTAVFNEYLHTLFTKGFPVEYFVEGGRSRTGRMLQPKTGMLAITLRSFLRSSRMPIVFVPVYIGYERVLEGRTYLGELRGASKKKESIFDIFKVIGALKQRFGQVAVNFGEPIKLAEFLDGEQPGWRQQELGPQFKPDWLNATTNRLGERVARHLNEAAAINPVNLVALALLSTSRLALDDHAMARVLDLYLALLRKVPYSPHTTLPEGDGQALIAHVKGMDLLSEQKDALGKILYLDEQNAVLMTYYRNNVLHIFALPALLASFFQSSSRMSREQILRYTRALYPYLQSELFIRWSLEELDAVVDQWLEAFVEQGLLRFEKDLYLRPAPSSRHFVLLTLLSKSIAQTLQRFYMTVSLLLNSGQNSISAEELEDLCTVMAQRLSILHGLNAPEFFDKSLFRHFIQTMLDLDVLRRDEAGKLSYHELLGELAEGAAKRVLPAEIRLSIRQVALHRSEDAADQDVPTAAD	PGPT0024370_270	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024370-plsB-K00631	NA	NA
D1-35_00105	210	cspA_1	COG1278	Major cold shock protein CspA	ATGGCAACACGCGAAACTGGCAGTGTGAAGTGGTTCAACGACGCCAAGGGTTATGGCTTCATCCAGCGCGAAGGCGGGGCGGATGTGTTCGTCCACTACCGCGCGATCCGTGGCGAAGGCCACCGTTCACTGACCGAAGGCCAGCAGGTCGAATACGCGGTGGTGGAAGGGCAGAAGGGCTTGCAGGCTGAGGATGTGGTGGGGTTGTAA	MATRETGSVKWFNDAKGYGFIQREGGADVFVHYRAIRGEGHRSLTEGQQVEYAVVEGQKGLQAEDVVGL	PGPT0014675_4293	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
D1-35_00106	378			hypothetical protein	ATGCGCCAACCCGATATCGAGATTTACCTCAAGGACGCCGACGTCGACCACAAGGCGATCGCCGCCTGGCTCGGCCAGGCCCTCGGCCCGTGCAGCGACTGGGTGCAGAAAGGTCAGACGTACAAGTGCAAGGCCGGCGACATCCCGGTGACCTGGTTGCCCAAGGCTGTAGGCAAATGGAACAGCCTGTACCTGGAAAGTGACCAGACCCCGTGGGAAGACGACATCGCCTGCGCCCGCGCCGCCTTCGCCGCGCTGAACGTCGAAGTGCGCTGCGCGCCTGGGTCGTGGGTGGAAGAAGAAGGTGAGGATTCGGCGGATCGCTGGATTCGCATCAGCGCCGATGGGGAAGAAGAGATTACCTGGAAGACGGCGTGA	MRQPDIEIYLKDADVDHKAIAAWLGQALGPCSDWVQKGQTYKCKAGDIPVTWLPKAVGKWNSLYLESDQTPWEDDIACARAAFAALNVEVRCAPGSWVEEEGEDSADRWIRISADGEEEITWKTA				NA	NA	NA	NA	NA
D1-35_00107	810	rlmA	COG0500	23S rRNA (guanine(745)-N(1))-methyltransferase	ATGCTCGCCTGCCCGATCTGCAATGAACCCTTGAATGCGGTGGACAACGGCGTGGCATGCCCCGCCGGGCATCGTTTCGACCGCGCGCGGCAGGGTTACCTGAACCTGCTGCCGGTGCAGCACAAAAACAGCCGCGACCCCGGCGACAATCAGGCGATGGTCGAGGCCCGCCGCGATTTCCTCAACGCTGGTCATTACGCCCCGGTCGCCCGGCGCCTGGCTGAACTGGCCGCCGAACGTGCGCCCGGACGCTGGCTGGACATTGGCTGTGGCGAAGGTTATTACACCGCGCAACTCGCCGACGCCCTGCCCGACGCCGATGGCTACGCCCTGGATATTTCCCGCGAAGCCGTCAAGCGCGCCTGCAAACGCAACCCCCAACTGACCTGGTTGATCGCCAGCATGGCGCGGGTACCGCTGGCGGACGGCTGCTGCCAGTTCCTCGCCAGCGTGTTCAGCCCGTTAGACTGGCAGGAGGCCAAGCGCCTGCTCAGCCCCGGCGGCGGCTTGATGAAAGTCGGGCCTACCAGCGGCCACCTGATGGAGCTGCGCGAGCGGCTGTATGATGAGGTTCGCGAATACACCGATGACAAACACCTGGCCCTGGTGCCGTCGGGGATGGCGCTGGATCACAGTGAAACCCTCGAGTTCAAGCTCACGCTCGACAACAGCCAGGATCGGGCCAACCTGCTGGCGATGACGCCCCACGGCTGGCGCGCCAGCGCCGAACGCCGCGCCAGCGTGATCGAGCAGGCCGAGCCGTTCGAGGTGAGCGTGTCGATGCGCTACGATTATTTCGTTCTGCAGTAA	MLACPICNEPLNAVDNGVACPAGHRFDRARQGYLNLLPVQHKNSRDPGDNQAMVEARRDFLNAGHYAPVARRLAELAAERAPGRWLDIGCGEGYYTAQLADALPDADGYALDISREAVKRACKRNPQLTWLIASMARVPLADGCCQFLASVFSPLDWQEAKRLLSPGGGLMKVGPTSGHLMELRERLYDEVREYTDDKHLALVPSGMALDHSETLEFKLTLDNSQDRANLLAMTPHGWRASAERRASVIEQAEPFEVSVSMRYDYFVLQ				NA	NA	NA	NA	NA
D1-35_00108	1152	dapE_1	COG0624	Succinyl-diaminopimelate desuccinylase	ATGACGGCCCACGCCGACCTCTCGCCGACCCTGCAACTCGCCTGCGACCTGATCCGCCGTCCGTCGGTGACGCCGGTGGATGCCGATTGCCAGAAACTGATGATGCAGCGCCTGGGCGACGCCGGTTTCAAGCTCGAACCCATGCGTATCGAGGATGTGGATAACTTCTGGGCCAGCCATGGCAAGCATGACGGTCCGGTATTGTGCTTCGCCGGTCACACCGATGTGGTCCCGACCGGTCCGGTACAGGCCTGGCAGCTCGACCCGTTCGATGCGGTCATCGACGAACAGGGCATGCTCTGCGGCCGTGGCGCGGCGGACATGAAAGGCAGCCTGGCGGCGATGGTGGTGGCGGCCGAACGGTTCGTCGCCGACTACCCGGATCACCAGGGCTCGATCACCTTCCTGATCACCAGCGACGAAGAAGGCCCGGCCCACCATGGCACCAAAGCCGTGGTCGAGCGCCTCAAGGCCCGCCAGGAACGCCTGGACTGGTGCATCGTCGGCGAACCATCGAGCACCACGCTGGTGGGTGATGTGGTCAAGAATGGCCGTCGCGGCTCCCTCGGCGCAAAACTGACGGTGCGCGGCAAGCAAGGCCACGTGGCTTATCCACACTTGGCGAAGAACCCGATCCACCTGGCCGCGCCTGCCCTGGCCGAATTGGCCGCCGAGCATTGGGATCACGGCAACGATTTCTTCCCGCCGACCAGTTTCCAGATCTCCAACCTCAACTCCGGCACCGGCGCGACCAACGTGATCCCCGGTGACCTGGAAGCCGTGTTCAATTTCCGCTTCTCCACCGAGTCCACCGTCGAAGGCCTGCAGCAGCGGGTCGCCGACATCCTCGACAAGCATCAACTGGACTGGCACATCGACTGGGCGTTGTCCGGCCTGCCATTCCTCACCGAGCCGGGCGCACTGCTCGACGCCGTGTCGTCGAGCATCAAGGACGTCACCGGCCGCGAGACCAAGGCCTCCACCAGCGGCGGCACCTCCGACGGTCGCTTCATCGCGACCATGGGCACTCAAGTGGTTGAGCTGGGGCCGGTCAACGCGACGATCCACCAGGTCAACGAACGCGTGCTGGCCGCCGATCTCGACGTGCTGACCGAGATCTACTACAAGACGCTCATCAAGTTGCTCGCCTGA	MTAHADLSPTLQLACDLIRRPSVTPVDADCQKLMMQRLGDAGFKLEPMRIEDVDNFWASHGKHDGPVLCFAGHTDVVPTGPVQAWQLDPFDAVIDEQGMLCGRGAADMKGSLAAMVVAAERFVADYPDHQGSITFLITSDEEGPAHHGTKAVVERLKARQERLDWCIVGEPSSTTLVGDVVKNGRRGSLGAKLTVRGKQGHVAYPHLAKNPIHLAAPALAELAAEHWDHGNDFFPPTSFQISNLNSGTGATNVIPGDLEAVFNFRFSTESTVEGLQQRVADILDKHQLDWHIDWALSGLPFLTEPGALLDAVSSSIKDVTGRETKASTSGGTSDGRFIATMGTQVVELGPVNATIHQVNERVLAADLDVLTEIYYKTLIKLLA				NA	NA	NA	NA	NA
D1-35_00109	819	tcdA	COG1179	tRNA threonylcarbamoyladenosine dehydratase	ATGGTCATGAGTACAGAAGATCCACGGTTCGCCGGCATTGCCCGTTTGTATGGCATCGAAGGCCTGGAGCGCCTGCGGGCGGCGCATGTGGCGATTGTCGGCGTCGGCGGCGTTGGTTCCTGGGCGGCGGAAGCGATTGCCCGTTGTGGCGTGGGCGAGATTTCGCTATTCGACCTGGATGACGTCTGCGTCAGCAACGCCAATCGTCAGTTACATGCCCTGGACAGCACCGTCGGCAAGCCCAAGGTCGAAGTGATGGCCGAGCGGCTGCGGGGGATCAACCCCGATTGCACCGTGCACGCGGTGGCCGACTTTGTCACCCGCGACACCATGGCCGAGTACATCACGCCGAACATCGACTGCGTGATCGACTGCATCGACAGCGTCAACGCCAAGGCTGCGTTGATCGCGTGGTGCAAGCGCCGCAAGATTCAGATCATCACCACCGGCGGCGCAGGCGGGCAGATCGACCCGACGCTGATCCAGGTCTGCGACCTCAACCGTACGTTCAACGATCCGCTGGCCTCCAAGGTGCGCTCCACCTTGCGCCGCGACTATGGTTTCTCGCGCACCGTGACCCGTCATTACAGCGTGCCCTGCGTATTCTCCACCGAGCAATTGCGCTACCCGAAACCGGACGGCAGCATCTGCCTGCAGAAGAGTTTTGTCGGCGACGGCGTCAAGCTCGACTGCGCTGGCGGGTTCGGCGCAGTGATGATGGTCACCGCGACGTTCGGCATGGTCGCGGCGACCAAGGCTGTGGACAAGATCGTCGCGGGCGTGCGGCGTCCGGCGGACCGGCTTAAGCCCGGGCAGTAA	MVMSTEDPRFAGIARLYGIEGLERLRAAHVAIVGVGGVGSWAAEAIARCGVGEISLFDLDDVCVSNANRQLHALDSTVGKPKVEVMAERLRGINPDCTVHAVADFVTRDTMAEYITPNIDCVIDCIDSVNAKAALIAWCKRRKIQIITTGGAGGQIDPTLIQVCDLNRTFNDPLASKVRSTLRRDYGFSRTVTRHYSVPCVFSTEQLRYPKPDGSICLQKSFVGDGVKLDCAGGFGAVMMVTATFGMVAATKAVDKIVAGVRRPADRLKPGQ				NA	NA	NA	NA	NA
D1-35_00110	405	sufE	COG2166	Cysteine desulfuration protein SufE	ATGAGCCTGCCTGCCGATGCCGCTGCGGCACTGCGGATTTTCCAGGACGCCTCCGGCTGGGAGCAACGCGCCCGGCTGCTGATGCAGTGGGGCGATCGCTTGCCACCGCTGAGCGATGCAGACAAGTGCGAGGACAACCTCGTCAACGGCTGTGAAAGCCAGGTATGGCTGGTGGGTCGGCTGCATGATGGGCACTGGCAGTTTTCCGCCAGCAGCGATGCGCGCTTGATACGCGGGTTGGTGGCGTTGTTGCTGGCGCGGGTCAACGGGTTGTCGGCTGAGGATTTGCGCCAGGTCGATTTGCCGGACTGGTTCAATCAGTTGGGGTTGTCACGGCAGTTGTCGCCTTCGCGCAGCAATGGCTTGAATGCGGTGTTGAAGCGGATGCGCGAGCTGGCGCAATAA	MSLPADAAAALRIFQDASGWEQRARLLMQWGDRLPPLSDADKCEDNLVNGCESQVWLVGRLHDGHWQFSASSDARLIRGLVALLLARVNGLSAEDLRQVDLPDWFNQLGLSRQLSPSRSNGLNAVLKRMRELAQ	PGPT0020195_287	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
D1-35_00111	1206	sufS	COG0520	Cysteine desulfurase SufS	ATGTTAATTCCATCCCCCTGGCGTGCCGATTTTCCGGCCCTCGCCGCCCTGCAACGGCAAGGCCAGACCTATCTGGACAACGCCGCCACCACACAGAAACCCCAAGCCCTGATGGACGCCCTGGCGCATTACTACGCCAACGGCGCGGCCAACGTGCACCGGGCGCAGCATCTGCCCGGCGCACTGGCCACCCAGGCGTTCGAGGACAGCCGACTCAAGGTTTCCCAGTGGCTCAATGCGGGAAATTGCGGACAGATCGTTTTTACCCACGGCGCCACGTCGGCGCTGAACCTGCTGGCCTATGGGCTGGAACACCTGTTCAACCCGGGCGATGAAATTGTCATCAGCGCCCTTGAGCATCACGCCAACCTGCTGCCCTGGCAGCAACTGGCCGAGCGCCGCTCGCTGGCGCTGGTGGTGCTGCCCCTGGATGCCGACGGGGTGATCGATACGGAGGCCGCCACCAGGCTGATCGGTCCGCGCACCCGCCTGCTGGCGGTGAGCCAGTTGTCCAACGTGCTTGGCACCTGGCAACCGGTGCCGGCGTTGCTGGCGATGGCCAAGGCGCAAGGTGCGCTGACGGTAGTCGATGGCGCACAGGGCGTGGTCCACGGGCGCCATGATGTGGAAGCGCTGGGCTGCGACTTCTATGTTTTTTCCAGCCACAAGCTTTACGGTCCCGAAGGCCTGGGCGTGCTGTTCGGCCGTACCGACGCCCTCGCTCGACTGCGTCATTGGCAGTTCGGCGGGGAAATGGTGCAAACGGCTGATTACCACAGCGCCACGTTCCGCCCGGCGCCGTTGGGTTTCGAAGCCGGCACGCCGCCCACCGCCAGCGTGATCGGCCTGGGAGCGACGCTCGACTACCTGTCCGATCTCGACGGGCAGGCGGTAATCGATCACGAAACCGCGCTGCACGATTATCTGCTTCACGGGCTGCTGGCGCGCAACGGCGTGCGGCTGGTGGGCAACCCACAACTGGCGCTGGTCAGCTTCGGCGTCGAAGGCGTTCATAACGCTGATCTGGCGCACCTGTTGACCGAGCAAGGCATTGCCGTGCGCGCCGGGCATCACTGTGCGATGCCGCTGTTCAAGCAGTTGAAGCTTTCCGGGGCGATTCGTGTGTCGCTGGCGCTGTACAACGACTCCGCCGATATCGAACGGTTCTTCGAGGCGCTGGATCAGGCCCTGGAGATGCTGCGATGA	MLIPSPWRADFPALAALQRQGQTYLDNAATTQKPQALMDALAHYYANGAANVHRAQHLPGALATQAFEDSRLKVSQWLNAGNCGQIVFTHGATSALNLLAYGLEHLFNPGDEIVISALEHHANLLPWQQLAERRSLALVVLPLDADGVIDTEAATRLIGPRTRLLAVSQLSNVLGTWQPVPALLAMAKAQGALTVVDGAQGVVHGRHDVEALGCDFYVFSSHKLYGPEGLGVLFGRTDALARLRHWQFGGEMVQTADYHSATFRPAPLGFEAGTPPTASVIGLGATLDYLSDLDGQAVIDHETALHDYLLHGLLARNGVRLVGNPQLALVSFGVEGVHNADLAHLLTEQGIAVRAGHHCAMPLFKQLKLSGAIRVSLALYNDSADIERFFEALDQALEMLR	PGPT0020195_4102	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
D1-35_00112	1035	dapD	COG2171	2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-succinyltransferase	ATGTCCACTACCCTGTTCAGCCTGGCCTTCGGTGTCGGCACTCAAAACCGTGAAGGCGCCTGGCTGGAAGTCTTCTACGCCCAACCGCTGCTCAACCCGTCGGCCGAGATCGTTGCCGCCATTGCGCCGATCCTTGGCTACAGCGAAGGCAACCAGGCCATCACGTTCACCACGGCCCAGGCCTCGCAACTGGCTGAAGCGCTGCGCAACGTCGACGCCGCGCAAGCCAAGCTGCTGACCCGCCTGGCTGAAAGCCACAAGCCGCTGGTCGCCACGCTGCTGGCCGAAGATGCGCAACTGGCATCCACGCCTGAGGCGTACCTCAAGCTGCACCTGCTGTCCCATCGCCTGGTCAAGCCCCACGGCCTGAACCTGGCCGGCATCTTCCCACTGCTGCCGAACGTGGCCTGGACCAGCCAGGGCGCGATCGACCTGGCCGAACTGGCCGAGCACCAGCTCGAAGCCCGTCTGCGTGGCGAGTTGCTGGAAGTGTTCTCGGTGGACAAATTCCCGAAGATGACCGACTACGTGGTTCCGGCCGGCGTGCGTATCGCCGACGCCGCGCGCCTGCGCCTGGGCGCCTATGTGGGCGAAGGCACCACGGTGATGCACGAAGGTTTCGTCAACTTCAACGCCGGTACCGAAGGGCCGGGGATGATCGAAGGCCGGGTCTCGGCGGGTGTGTTCGTCGGCAAGGGCTCGGACCTGGGCGGCGGTTGCTCGACCATGGGCACCCTGTCGGGTGGTGGCAACATCGTGATCAAGGTTGGCGAAGGCTGCCTGATCGGTGCCAACGCCGGCATCGGCATCCCGCTGGGCGATCGCAACACCGTGGAGTCGGGCCTGTACGTGACCGCCGGCACCAAGGTTGCGCTGCTGGATGAGAACAACCAATTGGTCAAAGTGGTCAAGGCTCGCGACCTGGCCGGCCAGCCGGACCTGCTGTTCCGGCGCAACTCCGAGACCGGCGCAGTGGAATGCAAGACCCACAAGTCGGCCATCGAGCTGAACGAAGCACTGCACGCGCATAACTGA	MSTTLFSLAFGVGTQNREGAWLEVFYAQPLLNPSAEIVAAIAPILGYSEGNQAITFTTAQASQLAEALRNVDAAQAKLLTRLAESHKPLVATLLAEDAQLASTPEAYLKLHLLSHRLVKPHGLNLAGIFPLLPNVAWTSQGAIDLAELAEHQLEARLRGELLEVFSVDKFPKMTDYVVPAGVRIADAARLRLGAYVGEGTTVMHEGFVNFNAGTEGPGMIEGRVSAGVFVGKGSDLGGGCSTMGTLSGGGNIVIKVGEGCLIGANAGIGIPLGDRNTVESGLYVTAGTKVALLDENNQLVKVVKARDLAGQPDLLFRRNSETGAVECKTHKSAIELNEALHAHN				NA	NA	NA	NA	NA
D1-35_00113	363		COG1393	putative protein	ATGCCCAATGAAATCAAGCACTTAAAGCTTTACGGCATCAAAGCCTGCGACACGATGAAAAAGGCCCGCACTTGGCTCGATGAACACGCGGTGCATTATGACCTTCACGATTACAAGACTGCCGGCATCGACCGTGAGCACCTGGCCCAATGGTGCAACGAGCATGGCTGGCAAGTGGTGTTGAACCGTGCCGGTACGACCTTTCGCAAACTCGACGACGAACGCAAAGCCGATCTCGACCAGACGAAAGCCATCGAACTGATGCTCGCCCAACCCTCGATGATCAAGCGCCCGGTGCTCGATCTCGGTGACCGAACCCTGATTGGCTTCAAGCCAGATATCTATGCGGCAGAGATCAAGTAA	MPNEIKHLKLYGIKACDTMKKARTWLDEHAVHYDLHDYKTAGIDREHLAQWCNEHGWQVVLNRAGTTFRKLDDERKADLDQTKAIELMLAQPSMIKRPVLDLGDRTLIGFKPDIYAAEIK	PGPT0004720_1693	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004720-arsC1-K00537	NA	NA
D1-35_00114	1371			hypothetical protein	ATGGATGCCATCTCACCGATACCGCTTCATGCCTTGACGAATCAATCCCAAGAAACACTCCCGCCCCAGCAACACGGCGTGCCGGCTCATTCAACAACGGCGAGCACCGGGACCGCTGCGTCCGTCCCGATTGGCCCGGTCACGGCTGAACAGGACCTGGCAGATCGGGCGGGCGCCATCAAAGCCCAGCTCACCAGGGTTTTCGAGCCTCATATGAACGGTGCCAATCGCGAAGCCTTCGAAGCGCTGATCGACGATCGTTCGCGTACCTTGGCCAATGATGGGGAAACCGCGCAAAGCGTCGACGCCGTTCTGGCCAAGGGTTCGCGGCTGGATCGCGCGGCCCATGATGCTGTTGGATTCGTGCGCTCGGTTCCTTTCGGTGCCGCGTCCATCGCATTGGACTTCGCCCCAGCGGTAACGGGAAATGGCTCCATAACAGCGCCGTTGGCGTTGTCGGCGATTTCCGGCCTGGTCAGCAGTGCCGCCGATACCGTCGGCAATGGGCTGATGAAACGCGCGACCAGTGATACCCAATGGCTCGTTGCAGAGGATACCGAGCTGGAGCCGGTCATGCAGGAGGCGGCCCAGGCGGTGAAGCCGAGCCTGGCGACTCAGGCGATCGAAGGCAGCCTGACCTTCCAGACCTTTTCCGCGCGGAACGTGCTGCGCACGGTTATCCAACCCATCGTGACGAAGACCGTCGATGCCCAGACGGGGAGCAAAGTGGACTCGGTGATAGCTGCCGTCGGTTCTCCGCTTTCCGGCATGGCCGCCTATGATCTGCAACATTCCATTGATAAATCGAAACATCGGGTTGGCCCGGAATACCTTTTGGGTCGCCACGACTGGCACCAGCGCTACAAGGACCTCAAGGGCTATGGCGTGGGCAGTGCCGCCATGGGAATTGCGAAGCGGGTCGGCAGCTTACCCCTGGACGCGGTGCGCGACGGCAGCAAATCGCTGCAAGCGCTGGTTACACCCACGGGGCTGGTCAGTGGCCTCGGTGCATTGGCCGGTGGTATCACCGCGATCGGCATGGCCCAGACGGCGGCTGTCAACGCGGCCAGGCGTGCCGGGGTTTCGCCGGCTGGAATAGCGGCGGCGGGCAAGGCGACCGTCACCGCGACTATGGCCCCGGTGGTCGCCGCATGGGTGACCACGGCTGTGATGACGCAGCCCTTGGCGGACAAGGCTTCCGCTGCGTTGGACAGGCTTACCACCGGGCCCGCGCATCCAGATGAGCTACAAGGCATGTTGCCCCTGGTCGAAACGAATGCGACCGAACGGCTCGGTAGTGATAGCGAGAGCGAAGGCGACGATATCGTGTCGGCACGCTCGACCCTCAATGCTGCGGAGCGGGCAGTTTAG	MDAISPIPLHALTNQSQETLPPQQHGVPAHSTTASTGTAASVPIGPVTAEQDLADRAGAIKAQLTRVFEPHMNGANREAFEALIDDRSRTLANDGETAQSVDAVLAKGSRLDRAAHDAVGFVRSVPFGAASIALDFAPAVTGNGSITAPLALSAISGLVSSAADTVGNGLMKRATSDTQWLVAEDTELEPVMQEAAQAVKPSLATQAIEGSLTFQTFSARNVLRTVIQPIVTKTVDAQTGSKVDSVIAAVGSPLSGMAAYDLQHSIDKSKHRVGPEYLLGRHDWHQRYKDLKGYGVGSAAMGIAKRVGSLPLDAVRDGSKSLQALVTPTGLVSGLGALAGGITAIGMAQTAAVNAARRAGVSPAGIAAAGKATVTATMAPVVAAWVTTAVMTQPLADKASAALDRLTTGPAHPDELQGMLPLVETNATERLGSDSESEGDDIVSARSTLNAAERAV				NA	NA	NA	NA	NA
D1-35_00115	1644	nhaK	COG0025	Sodium, potassium, lithium and rubidium/H(+) antiporter	ATGCAAAGCGCCTATACCGTCCTGATCCTGTTGATGCTGGTGGGCGTCTCGCGCCTGGTCGGGCGATTGATCCCGCTGCCGCTGCCCCTGGTGCAGATCGCTGCCGGCGCCGTGCTGGCCTGGCCTTCGCTGGGGCTGCATGTGGCGCTTGATCCCGAGTTGTTCCTGTTTCTGTTCCTCCCGCCGTTGCTGTTCTCTGACGGTTGGCGCATGCCCAAGCGTGAACTGTGGCGCCTGCGCGGGCCGGTCCTGACGCTGGCGGTCGGGCTGGTGTTGTTCACGGTGGTCGGCGCGGGTTATTTCATTCATTGGTTGTTGCCAAGCATTCCGTTGCCGGTGGCCTTCGCCCTGGCGGCGGTGCTGTCGCCGACTGACGCGGTGGCCGTGTCGGCAATCGCCCGAGACCGCTTGCCCGCGCCGTTGATGCACATGCTCCAGGGCGAGGCATTGATGAACGATGCGTCGGGCCTGGTGACTTTCAAGTTCGCTGTGGCAGCGGCCATCACCGGGGTGTTCTCCCTGGCCAGTGCCAGCCTGACTTTTGTCCTGGTCGCTGTCGGTGGCCTGCTGGTAGGCGTGGCCCTGAGTTGGCTGGTGGGTCGTCTGCGGGCGTGGATGATCGCCCGGGGCTGGGACGACCCCGCCACCCATGTGGTGTTCATGTTATTGCTGCCGTTTGCCGCTTATGTGCTGGCTGAACGCCTGGGCGCCTCGGGCATTCTCTCGGCGGTGGCGGCTGGGATGATGCAGAGCTGGCTTGACCTGCTGCCGCGCCAGACCGGCACGCGGTTGCTCAATCGCAGCGTCTGGGCGCTGTTGGAATTTGCCTTCAATGGCTTGATTTTCTTGCTGCTGGGCTTGCAACTGCCGGACATCATCAAAGCCGTGACCAGCCACGAGACCACGTTGTGGCCGATGTTGTTCTACCGCTGCCTGGATGTGGTGGCGATTTTCCTGGTGCTGCTGGTGTTGCGTTTTGTCTGGGTGCAAAGCATCTGGCGCTTGTCCGGGCTGTTGCGCCGCTGGCGCGGCAAGGGCGAGTTGACCCTGGTGCCGACCGCGCGCTCTTGCTGGTTGCTGACGTTTGGCGGCGTGCGCGGGGCGGTAACGCTGGCGGGCGTGATGTCGGTGCCGTTGCTGTTGGGGGCGGGTGAGGCGTTTCCCGAGCGCGACTTGCTGATCTTCATCGCTGCGGGGGTGATTCTGCTGTCACTGGTCGCCGCTTGCATCGCTTTGCCCCTGCTGTTGCGCGGCGTCGAGAAGGGGCCGGACGACAAACGCCGCAACGAAGTCCGTGAGGCCTGGCGTAAAACCGCTGAAGCGGCGATTCATGCCTTGGAAGTGGAGGAGCCGGCCGAGACAGCCGCGCCTGACGCGGCCACGGCGGCTCTGGCGACGGAGGTCAAGGCGCGGCTGATGTCCGAGTATCGTCATCAGCTTGAGGTATTCAACGACTCGGCCGAAGCCCAGGCGCTGGCGTTCGAAATGGACCTGCTGGAGCGCCGATTGCGTTTGAAGGCGTACCGAGCGCAGCGGTTGGAGCTGTATCGCCTCAGTCGCCAGCACCAGATTGGCGATGATGTGTTGCGTGAGGTGCTGGCGGAGCTGGATTTGGCGGAGGCGAATTTGGGGTTGGGTAAATAA	MQSAYTVLILLMLVGVSRLVGRLIPLPLPLVQIAAGAVLAWPSLGLHVALDPELFLFLFLPPLLFSDGWRMPKRELWRLRGPVLTLAVGLVLFTVVGAGYFIHWLLPSIPLPVAFALAAVLSPTDAVAVSAIARDRLPAPLMHMLQGEALMNDASGLVTFKFAVAAAITGVFSLASASLTFVLVAVGGLLVGVALSWLVGRLRAWMIARGWDDPATHVVFMLLLPFAAYVLAERLGASGILSAVAAGMMQSWLDLLPRQTGTRLLNRSVWALLEFAFNGLIFLLLGLQLPDIIKAVTSHETTLWPMLFYRCLDVVAIFLVLLVLRFVWVQSIWRLSGLLRRWRGKGELTLVPTARSCWLLTFGGVRGAVTLAGVMSVPLLLGAGEAFPERDLLIFIAAGVILLSLVAACIALPLLLRGVEKGPDDKRRNEVREAWRKTAEAAIHALEVEEPAETAAPDAATAALATEVKARLMSEYRHQLEVFNDSAEAQALAFEMDLLERRLRLKAYRAQRLELYRLSRQHQIGDDVLREVLAELDLAEANLGLGK	PGPT0013930_220	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013930-nhaK|TC_CPA1-K03316	NA	NA
D1-35_00116	372			hypothetical protein	ATGAACATTCGCCCAATCCGCACCGATGAAGAATACCGGGTAGCTCTCAAAGAGATCTCTCCCCTGTTTGAGAATGAGCCTGAACCTGGCACCCCGGAAGGCGATGTTTTCGAAGTCATGGTCACTCTGATCGAGGCATATGAAGCCAAGCATTTCCCGGTGGATCTGCCCGACCCAATTGAAGCCATCAAGTTTCGCATGGAGCAATCCGGACTCACCGCGGCCGATCTTGCTCCCGCTATCGGAAAAACGAACCGCGTATACGAGGTGCTCAACCGTAAGCGCTCGTTAACTCTGCCCATGATCTGGAAGCTTCACGATATGTTCGGCATCCCAGCAGAAAGCCTGATAAAGCCAGTAAAAGCTGCCTGA	MNIRPIRTDEEYRVALKEISPLFENEPEPGTPEGDVFEVMVTLIEAYEAKHFPVDLPDPIEAIKFRMEQSGLTAADLAPAIGKTNRVYEVLNRKRSLTLPMIWKLHDMFGIPAESLIKPVKAA	PGPT0027580_979	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HigB-HigA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027580-REGULATION_higA-K18831	NA	NA
D1-35_00117	303			hypothetical protein	ATGAGAATTATCGCCCTCAGTCATCTGAAAGCCTTTTGGGAGAAATACCCAGATTCCGAACAGCAGCTTAAGGCTTGGCTTGACGATGCCAAAAAAGCCACTTGGACCAACCCAAACGACATCAAGGCGCAATACGGTAACGCAAGCATTCTCAAGAGTCGCCGCGTGGTGTTCAACATCAAGGGTAACGACTACCGCCTGGTGATCGCCATTGCCTACCGCTTCGGCGCTGTGTACATCAAGTTTGTCGGCACTCATCGCCGGTACGATGAGATCGACGCAAACACCGTGGAAATGGAGTAA	MRIIALSHLKAFWEKYPDSEQQLKAWLDDAKKATWTNPNDIKAQYGNASILKSRRVVFNIKGNDYRLVIAIAYRFGAVYIKFVGTHRRYDEIDANTVEME	PGPT0027570_292	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HigB-HigA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027570-toxin_higB-K19166	NA	NA
D1-35_00118	1200	dapL	COG0436	LL-diaminopimelate aminotransferase	ATGAACAACGCCCTGTCCCAGCTCCAGCCCTACCCGTTCGAGAAGCTTCGCGCCTTGCTCGGCAGCGTCACGCCCAATCCGGACAAGCGCCCGATCGCGTTGTCCATCGGCGAACCCAAGCATCGCTCACCCACTTTTGTGGCTGAAGCCCTGGCCGGCAGTCTGGAAAAAATGGCGGTGTACCCGACCACCCTTGGCATTCCCGAGCTGCGCGAAGCCATCACCGGTTGGTGCGAGCGCCGCTTCAACGTGCCAGACGGCTGGCTCGATCCGGCGCGCCATGTGCTGCCGGTCAACGGTACCCGTGAAGCCTTGTTCGCCTTCACCCAGACCGTGGTCAACCGTGGCGATGACGCCCTGGTCGTCAGCCCGAACCCCTTCTATCAGATCTACGAAGGCGCAGCGTTCCTGGCCGGAGCCAAGCCACACTACCTGCCATGCCTGGACACGAACGGCTTCAACCCGGATTTCGATGCCGTCTCGCCGGATATCTGGAAACGCTGCCAGATCCTGTTCCTCTGCTCCCCGGGCAATCCGACCGGCGCCTTGATTCCGGTGGACGTGCTGAAGAAGCTCATCGCCCTGGCTGACGAGCACGACTTCGTCATCGCCGCGGACGAGTGCTACAGCGAGCTCTACTTCGACGAACAGACCCCGCCGCCAGGCCTGCTCAGCGCCTGCGTCGAACTGGGTCGCAAGGACTTCAAGCGCTGCGTGGTGTTCCACAGCCTGTCCAAGCGCTCCAACCTGCCGGGCCTGCGCTCCGGTTTCGTTGCTGGCGACGCCGACATCCTCAAGGGCTTTTTGCTCTACCGCACCTATCACGGTTGCGCGATGCCGGTTCAGACCCAATTGGCGAGCATTGCCGCGTGGAACGACGAGGTGCACGTCCGGGCCAACCGCGCGCTGTACCGGGAGAAATTCGACGCGGTGCTGGAAATCCTCAGCCCGGTGCTCGACGTGCAACGCCCCGATGGCAGCTTCTACCTGTGGCCGAACGTGGCCGGCGACGACGCGGCATTCTGCCGTGACCTGTTCGAACAGGAACACGTGACGGTCGTCCCAGGCTCGTACCTGTCGCGCGATGTGGACGGCGTCAACCCCGGCGCCGGCCGCGTGCGCATGGCCCTGGTCGCGCCATTGGCCGAATGCGTGGAAGCGGCGGAACGAATCCGCGCATTCATCCAGCGCCGGGGTTGA	MNNALSQLQPYPFEKLRALLGSVTPNPDKRPIALSIGEPKHRSPTFVAEALAGSLEKMAVYPTTLGIPELREAITGWCERRFNVPDGWLDPARHVLPVNGTREALFAFTQTVVNRGDDALVVSPNPFYQIYEGAAFLAGAKPHYLPCLDTNGFNPDFDAVSPDIWKRCQILFLCSPGNPTGALIPVDVLKKLIALADEHDFVIAADECYSELYFDEQTPPPGLLSACVELGRKDFKRCVVFHSLSKRSNLPGLRSGFVAGDADILKGFLLYRTYHGCAMPVQTQLASIAAWNDEVHVRANRALYREKFDAVLEILSPVLDVQRPDGSFYLWPNVAGDDAAFCRDLFEQEHVTVVPGSYLSRDVDGVNPGAGRVRMALVAPLAECVEAAERIRAFIQRRG				NA	NA	NA	NA	NA
D1-35_00119	2703	glnD	COG2844	Bifunctional uridylyltransferase/uridylyl-removing enzyme	ATGCCGCAGGTGGATCCCGAACTCTTCGACCGCGGCCAGTTCCAGGCTGAACTGGCCCTGAAGGCAAGCCCCATCTCGGCATTCAAGAAGGCGATCCGCCAGGCCCACGAAGTGCTCGACCAGCGCTTTCGCAGTGGCCGTGATATTCGTCGGCTGATCGAGGACCGCGCCTGGTTCGTCGACAACATCCTGCAAAAGGCCTGGGAGCAATTCAACTGGAGCGAGGACGCCGACATCGCCCTGGTGGCCGTGGGCGGCTACGGGCGCGGCGAACTGCACCCCTACTCCGATATCGATCTGCTGATCCTGCTGGAGAGCGCCGACCACGAGATTTTCCGTGATTCCATCGAGCGTTTCCTCACGCTGCTGTGGGACATCGGCCTGGAAGTCGGCCAGAGCGTGCGTTCGGTGCAGGAATGCGCCGACGAGGCCCGCGCCGACCTCACGGTGATCACCAACCTGATGGAAAGCCGCACCATTGCCGGCCCCGAGCGCTTGCGCCAGCGCATGCTCGACGTCACCAGCACGGCGCACATGTGGCCGAGCAAGGACTTCTTCCTGGCCAAGCGCGCCGAGCAGAAGGCTCGCCATCACAAGTACAACGATACCGAGTACAACCTGGAACCCAACGTCAAAGGCTCGCCAGGCGGGCTGCGGGACATCCAGACCATCCTGTGGGTCGCCCGTCGCCAGTACGGCACGCTGAACCTGCGCGCACTGGCCGGCGAAGGCTTCCTGGTGGAAAGCGAGAACGCCCTGCTGGCCTCGTCCCAGGAATTCCTCTGGAAGGTCCGCTACGCGTTGCACATGCTCGCCGGGCGCTCCGAGGATCGCCTGCTGTTCGATCACCAGCGCTCCATCGCCGGCCTGCTGGGTTTCGAAGGCCAGGACGCCAAGCAGTCCATCGAAAACTTCATGCAGCAGTACTATCGCGTGGTGATGAGCATCGCCCAGCTCAGCGAACTGATCATCCAGCACTTCGAGGAAGTGATCCTCGCGCCGGAAGACGAGGCGCCGCCGCAGCCGATCAATTCCCGGTTCCAGTTGCACGACGGCTACATCGAGGCGCGCCACGCCAACGTGTTTCGCCGCACGCCGTTCGCCATGCTCGAGATTTTCGTGCTCATGGCCCAGCAGCCGGAAATCAAGGGCGTGCGCGCCGACACCATCCGCCTGCTGCGGGAAAACCGTCACTTGATCGATGACGACTTCCGCCACGATATTCGCAACACCAGCCTGTTCATCGAACTGTTCAAGTGCAAGATCGGCGTGCACCGCAACCTGCGGCGCATGAACCGCTATGGGATCCTCGGACGTTACCTGCCGGAGTTCGGCTACATCGTCGGGCAGATGCAGCACGACTTGTTCCACATCTATACGGTCGATGCGCACACGCTGAACCTGATCAAACACCTGCGCAAGTTGCAGTACACCCAGGTGTCGGAGAAATTCCCGCTGGCCAGCAAGCTCATGGCCAAGCTGCCCAAGCCTGAGCTCATCTACATGGCGGGGCTGTATCACGACATCGGCAAGGGCCGCCAAGGCGACCATTCGGAGATTGGCGCGGTGGATGCTGAGGCGTTCTGCCAGCGGCACCAGTTGCCGGTGTGGGACAGCCGGCTGATCGTCTGGCTGGTGCAGAACCACCTGGTGATGTCGACCACCGCCCAGCGCAAGGATTTGTCCGACCCGCAGGTGATCCACGATTTTGCCCAGGCGGTGGGCGATGAAACCCGCCTGGATTATCTCTACGTGCTGACCGTGGCCGACATCAACGCCACCAACCCGACCCTGTGGAATTCCTGGCGCGCCAGCCTGTTGCGCCAGTTGTACACCGAGACCAAGCGTGCCCTGCGCCGTGGTCTGGAGAACCCGGTGGATCGCGAAGAACAGATCCGCCGCACCCAGAGCGCGGCTCTGGACATCCTGGTACGCGGCGGCACCGATCCGGATGATGTCGAGCAACTCTGGTCGCAACTGGGCGATGACTACTTCCTGCGCCACACCGCCGGCGATGTGGCCTGGCACACCGATGCGATTCTCCAGCAGCCGGCCGATGGCGGTCCGCTGGTATTGATCAAGGAAACCACCCAGCGCGAATTCGAGGGCGGTACGCAGATCTTCATCTACGCCCCCGACCAGCACGATTTCTTCGCCGTGACCGTGGCGGCGATGGACCAGCTCAACCTCAACATCCATGACGCCCGAGTCATCACGTCCAGCAGCCAGTTCACCCTCGACACCTACATCGTGCTCGACACTGACGGCGACTCGATCGGCGACAACCCGGCGCGGGTCAAGCAGATTCGCGACGGTCTCACCGAAGCCCTGCGCAACCCCGCGGACTACCCGACCATCATCCAGCGCCGGGTGCCGCGCCAGCTCAAGCATTTCGCCTTTGCGCCGCAGGTAACGATCCACAACGACGCACAGCGCCAGGTCACCGTGCTGGAACTCAGCGCGCCGGACCGCCCGGGCCTGCTGGCGCGGGTCGGCCATATTTTCCTGGAATTCGATCTGTCGCTGCAGAACGCCAAGATCGCGACCCTCGGCGAGCGGGTGGAAGACGTATTCTTCATCACCGACGCCCATAACCAGCCGCTGTCCGACCCGCAGCTGTGCAGCCGTTTGCAGGAAGCGATCGTGCGGCACCTGAGCGTCAACCAGGAACCCGACATCAACCTGACGCGCATCAGCATCTGA	MPQVDPELFDRGQFQAELALKASPISAFKKAIRQAHEVLDQRFRSGRDIRRLIEDRAWFVDNILQKAWEQFNWSEDADIALVAVGGYGRGELHPYSDIDLLILLESADHEIFRDSIERFLTLLWDIGLEVGQSVRSVQECADEARADLTVITNLMESRTIAGPERLRQRMLDVTSTAHMWPSKDFFLAKRAEQKARHHKYNDTEYNLEPNVKGSPGGLRDIQTILWVARRQYGTLNLRALAGEGFLVESENALLASSQEFLWKVRYALHMLAGRSEDRLLFDHQRSIAGLLGFEGQDAKQSIENFMQQYYRVVMSIAQLSELIIQHFEEVILAPEDEAPPQPINSRFQLHDGYIEARHANVFRRTPFAMLEIFVLMAQQPEIKGVRADTIRLLRENRHLIDDDFRHDIRNTSLFIELFKCKIGVHRNLRRMNRYGILGRYLPEFGYIVGQMQHDLFHIYTVDAHTLNLIKHLRKLQYTQVSEKFPLASKLMAKLPKPELIYMAGLYHDIGKGRQGDHSEIGAVDAEAFCQRHQLPVWDSRLIVWLVQNHLVMSTTAQRKDLSDPQVIHDFAQAVGDETRLDYLYVLTVADINATNPTLWNSWRASLLRQLYTETKRALRRGLENPVDREEQIRRTQSAALDILVRGGTDPDDVEQLWSQLGDDYFLRHTAGDVAWHTDAILQQPADGGPLVLIKETTQREFEGGTQIFIYAPDQHDFFAVTVAAMDQLNLNIHDARVITSSSQFTLDTYIVLDTDGDSIGDNPARVKQIRDGLTEALRNPADYPTIIQRRVPRQLKHFAFAPQVTIHNDAQRQVTVLELSAPDRPGLLARVGHIFLEFDLSLQNAKIATLGERVEDVFFITDAHNQPLSDPQLCSRLQEAIVRHLSVNQEPDINLTRISI	PGPT0000660_724	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	GLN-NITROGEN_REGULATORY_SYSTEM,PGPT0000660-glnD-K00990	NA	NA
D1-35_00120	783	map_1	COG0024	Methionine aminopeptidase	ATGACCGTCACCCTCAAGACTCCCGAGGACATCGCCAAAATGCGTGTCGCCGGCAAACTCGCCGCCGAAGTGCTGGAAATGATCGCCGACTACGTCAAGCCGGGCGTCACCACCGAAGAGCTGGACCGCATCTGCCACGATTACATCGTCAACGAGCAGAAGGCCATCCCGGCTCCGCTCAACTATAAAGGCTTCCCGAAGTCGATCTGCACCTCGATCAACCACGTGGTCTGCCACGGCATCCCCAACGAGAAACCGTTGAAGGATGGCGACACCCTGAACATCGACGTCACCGTCATCAAGGACGGCTACCACGGCGATACCAGCCGCATGTTCCACGTCGGCAACGTACCGGAGTGGGCCGAGCGCCTGTCCAAGGTCACCCAGGAATGCATGTACATGGCCATCGAACTGGTGAAGCCGGGCTGCCGCCTGGGCGACATCGGCGAGGTGATCCAGAAGCACGCGCAGAAAAACGGTTTTTCGGTGGTGCGTGAGTTCTGCGGCCACGGCATCGGCAAGGTGTTCCACGAAGAACCGCAGATCCTCCACTACGGCCGCGCCGGTACCGGCATGGAACTGCAGGCGGGCATGACCTTCACCATCGAACCGATGATCAACCAGGGCCGCGCCGACACCAAGGTACTGGGCGACGGCTGGACCGCCATCACCAAGGATCGCAAGCTGTCGGCGCAGTGGGAGCACACGCTGCTGGTCACCGAGACTGGCTACGAGATCTTCACCCTGCGCAGCGATGACACCATTCCCCGTGTTTCCGCCTGA	MTVTLKTPEDIAKMRVAGKLAAEVLEMIADYVKPGVTTEELDRICHDYIVNEQKAIPAPLNYKGFPKSICTSINHVVCHGIPNEKPLKDGDTLNIDVTVIKDGYHGDTSRMFHVGNVPEWAERLSKVTQECMYMAIELVKPGCRLGDIGEVIQKHAQKNGFSVVREFCGHGIGKVFHEEPQILHYGRAGTGMELQAGMTFTIEPMINQGRADTKVLGDGWTAITKDRKLSAQWEHTLLVTETGYEIFTLRSDDTIPRVSA	PGPT0020010_6564	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
D1-35_00122	738	rpsB	COG0052	30S ribosomal protein S2	ATGTCCCAAGTCAACATGCGCGATATGCTGAAGGCCGGTGTGCACTTCGGCCACCAGACCCGTTACTGGAACCCGAAAATGGGCAAGTACATTTTCGGCGCGCGCAACAAGATCCACATCATCAACCTTGAAAAAACCCTGCCGATGTTCAACGAAGCACTGACCTTCGTAGAGCGCCTGGCCCAGGGCAAAAACAAGATTCTGTTCGTCGGCACCAAGCGTTCCGCTGGCAAGATCGTTGCTGAAGAAGCAGCACGTTGCGGTTCGCCGTACGTCGATCACCGCTGGTTGGGCGGCATGCTGACCAACTTCAAGACCATTCGCGCTTCCATCAAGCGTCTGCGTGACCTTGAAGTCCAGTCCGAAGACGGTACTTTCGCCAAGCTGACCAAGAAAGAAGCGCTGATGCGCACTCGTGATCTTGAGAAGCTGGACCGCTCCCTGGGCGGTATCAAGGACATGGGCGGTCTGCCTGACGCGCTGTTCGTGATCGACGTTGACCACGAGCGCATCGCGATCACCGAAGCCAACAAGCTGGGTATCCCGGTCATCGGCGTTGTCGATACCAACAGCAGCCCGGAAGGCGTTGACTACATCATCCCAGGCAACGATGACGCCATCCGCGCCATCCAGCTGTACATGGGTTCGATGGCTGACGCTGTCATCCGTGGTCGCAACAATGTAAATGGCGGCACCGAAGTCTTCGCTGAAGAAGCTCCGGCAGCAGCCGCTGAGTAA	MSQVNMRDMLKAGVHFGHQTRYWNPKMGKYIFGARNKIHIINLEKTLPMFNEALTFVERLAQGKNKILFVGTKRSAGKIVAEEAARCGSPYVDHRWLGGMLTNFKTIRASIKRLRDLEVQSEDGTFAKLTKKEALMRTRDLEKLDRSLGGIKDMGGLPDALFVIDVDHERIAITEANKLGIPVIGVVDTNSSPEGVDYIIPGNDDAIRAIQLYMGSMADAVIRGRNNVNGGTEVFAEEAPAAAAE				NA	NA	NA	NA	NA
D1-35_00123	864	tsf	COG0264	Elongation factor Ts	ATGGCAGAGATTACTGCAGCGTTGGTCAAAGAACTGCGCGAGCGTACCGGCGAAGGCATGATGGACTGCAAGAAAGCCTTGACCAAGGCTGGCGGCGACATCGAGAAAGCCATTGATGACATGCGCGCTTCGGGCGCCATCAAGGCTGCCAAGAAAGCCGGCAACATTGCCGCTGAAGGCGCGATCGGCATCAAGGATGACGGTAAAGCTGCCGTTATCATCGAAGTCAACTCGCAGACCGACTTCCTGGCCCTGCAAGACGACTTCAAGGCATTCGTTGCCGCCAGCGTCGAAAAAGCATTCGCCGACAAACTGACCGACGCAGCTCCGCTGATCGCCGCTCAGGAATCGGCTCGTGAAGCCCTGGTTGCCAAAGTAGGCGAAAACGTCAACATCCGTCGTCTGGTTCGCGTCGAAGGCGATGTTGTCGGTTCTTACCTGCACGGCAACAAGATCGGTGTTGTTGTGGCCCTCAAAGGCGGCAACGTCGAGCTGGCCAAAGACATCGCAATGCACGTCGCTGCCAGCAATCCTGAGTTCCTGCTGCCGTCGGAAGTTTCCGCTGACGCCATCGAGCGTGAAAAAGCTGTGTTCATGCAGCTCAACGAAGACAAGATCAAAGGCAAGCCAGCCGAAATCGTTGAAAAAATGGTTGCCGGTCGTATCACCAAGTTCCTGGCTGAAGCCAGCCTGGTTGAGCAGGCGTTCGTCAAGAACCCTGAAATCAAGGTCGGTGAACTGGCCAAGAAGGGCGGCGCTGAAATCGTTTCCTTCACCTACTTCAAAGTGGGCGAAGGCATCGAGAAGCCAGTAGACAACTTCGCTGAAGAAGTGGCTGCTCAGCTGGCTGCCAGCAAGCAATAA	MAEITAALVKELRERTGEGMMDCKKALTKAGGDIEKAIDDMRASGAIKAAKKAGNIAAEGAIGIKDDGKAAVIIEVNSQTDFLALQDDFKAFVAASVEKAFADKLTDAAPLIAAQESAREALVAKVGENVNIRRLVRVEGDVVGSYLHGNKIGVVVALKGGNVELAKDIAMHVAASNPEFLLPSEVSADAIEREKAVFMQLNEDKIKGKPAEIVEKMVAGRITKFLAEASLVEQAFVKNPEIKVGELAKKGGAEIVSFTYFKVGEGIEKPVDNFAEEVAAQLAASKQ				NA	NA	NA	NA	NA
D1-35_00124	744	pyrH	COG0528	Uridylate kinase	ATGGCTCAGCAGGGCAGTGGTTATCAGGCTCGCTATAAACGCATTCTACTCAAGCTTAGCGGCGAGGCCCTGATGGGCTCGGAAGAGTTCGGGATCGACCCGAAAGTGCTGGATCGCATGGCCCTGGAAGTGGGCCAGTTGGTCGGGATCGGCGTTCAGGTCGGCCTGGTCATCGGCGGCGGCAACTTGTTCCGTGGCGCGGCGCTGAGCGCGGCGGGCATGGATCGGGTCACGGGCGACCACATGGGCATGCTGGCCACTGTGATGAACGCCCTGGCTATGCGCGACGCGCTGGAGCGTGCCAATATCTCCGCGATCGTGATGTCGGCGATTTCCATGGTTGGCGTGACCGATCACTACGATCGCCGCAAGGCCATGCGCCACCTCAATTCCAAGGAGGTGGTGATTTTTGCCGCGGGTACCGGCAATCCGTTCTTCACCACGGATTCGGCCGCGTGCCTGCGAGCGATCGAGATCGACGCCGATGTCGTGCTCAAGGCTACCAAGGTGGATGGCGTGTACACCGCTGACCCGTTCAAAGACCCGCATGCCGAGAAGTTCGATCATCTGACCTACGATGAAGTGCTGGATCGCAAGCTGGGTGTAATGGACCTGACCGCTATTTGCCTGTGCCGCGACCACAAGATGCCGCTGCGCGTTTTCAACATGAACAAACCCGGGGCCCTGCTCAACATCGTGCACGGTGGCGCCGAAGGAACACTGATCGAGGAAGGCAAGCAATGA	MAQQGSGYQARYKRILLKLSGEALMGSEEFGIDPKVLDRMALEVGQLVGIGVQVGLVIGGGNLFRGAALSAAGMDRVTGDHMGMLATVMNALAMRDALERANISAIVMSAISMVGVTDHYDRRKAMRHLNSKEVVIFAAGTGNPFFTTDSAACLRAIEIDADVVLKATKVDGVYTADPFKDPHAEKFDHLTYDEVLDRKLGVMDLTAICLCRDHKMPLRVFNMNKPGALLNIVHGGAEGTLIEEGKQ	PGPT0021205_790	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021205-pyrH-K09903	NA	NA
D1-35_00125	558	frr	COG0233	Ribosome-recycling factor	ATGATCAACGACATCAAGAAAGACGCTCAAGAGCGCATGCAGAAATCCCTGGAGTCTCTGAGCCACGCATTCGGCCAGATTCGTACCGGCAAGGCTCACCCGAGCATCCTCGGCAGCGTCATGGTGCCTTACTACGGCACTGACACGCCGCTGAGCAGCGTCGCCAACGTCACCGTGAAAGACTCGCGCACCCTGCAGGTCGTGGCTTTCGAGCGCAACATGCTCGCCGCTGTAGACAAGGCGATCCAGAGCGCCGGTTTGAACCTCAACCCAACCAACCTCGGTGAGCTGCTGCTGATCCCGATGCCGGCCCTCACCGAGGAAACGCGCAAAGGCTTCACGAAACAGGCCCGTAGCGCCGCGGAAGACGCGCGTGTTGCCGTGCGCAATATCCGTCGTGACGCGTTGGGTGAGCTGAAGAAGCTGGTCAAGGACAAGGAAATCAGTGAAGACGAAGAGCGTCGTGCCATCGCTGATATCGATAAGCTGACCAAAGAATCCGAGGCCCAGATCAGCAAGGCTACGGATGAGAAAGAAAAAGACCTGATGGCCGTATAA	MINDIKKDAQERMQKSLESLSHAFGQIRTGKAHPSILGSVMVPYYGTDTPLSSVANVTVKDSRTLQVVAFERNMLAAVDKAIQSAGLNLNPTNLGELLLIPMPALTEETRKGFTKQARSAAEDARVAVRNIRRDALGELKKLVKDKEISEDEERRAIADIDKLTKESEAQISKATDEKEKDLMAV				NA	NA	NA	NA	NA
D1-35_00126	756	ispU	COG0020	Ditrans,polycis-undecaprenyl-diphosphate synthase ((2E,6E)-farnesyl-diphosphate specific)	ATGGATAAGACCAAGCAGGCCGTGCCGTTCGCGGTACCGCGCCATGTGGCGATCATCATGGACGGCAATAACCGCTGGGCCAAGAAGCGCTTTATGCCCGGTGTTGCCGGGCATAAAGCCGGGGTCGACGCGGTTCGGGCGGTCATTGAGGTGTGTGCCGAGGCCGGGGTCGAGGTGCTCACCCTGTTCGCGTTTTCCAGCGAAAACTGGCAGCGTCCGGCTGACGAGGTCAGCGCCTTGATGGACCTCTTCCTCAAGGCATTGCGGCGTGAAGCCAAGCGCCTCGACGAGAACCGGATCAGTCTGCGGATCATCGGTGATCGCTCGCGCTTTCATCCGGAACTGCAGGCTGCGATGCGCGAAGCCGAGACCGCCACGGCTGGCGCCGATCGGTTCGTTCTGCAGATTGCCGCCAATTACGGCGGTCAGTGGGATATCGCCCAGGCGGCGCAGCGCCTGGCGCGGGAAGTCCAGGCCGGTCACCTGCGGCCCGAAGACATCACGCCCGAGCTGTTGCAAACCTGCCTGGCAACCGGCGACCTGCCGTTGCCGGATCTGTGCATCCGCACCGGTGGCGAACATCGCATCAGCAATTTCCTCCTCTGGCAGCTGGCTTACGCCGAGCTGTACTTCTCCGACCTGTTCTGGCCGGACTTCAAACACGAAGCCATGCGCACTGCGCTGGCCGATTTCGCTTCCCGTCAGCGTCGTTTCGGTAAAACGAGCGAGCAGATCGAAGCTGGAGCCCGGGTTTAA	MDKTKQAVPFAVPRHVAIIMDGNNRWAKKRFMPGVAGHKAGVDAVRAVIEVCAEAGVEVLTLFAFSSENWQRPADEVSALMDLFLKALRREAKRLDENRISLRIIGDRSRFHPELQAAMREAETATAGADRFVLQIAANYGGQWDIAQAAQRLAREVQAGHLRPEDITPELLQTCLATGDLPLPDLCIRTGGEHRISNFLLWQLAYAELYFSDLFWPDFKHEAMRTALADFASRQRRFGKTSEQIEAGARV	PGPT0024180_2172	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024180-uppS|ispU-K00806	NA	NA
D1-35_00127	807	cdsA	COG0575	Phosphatidate cytidylyltransferase	ATGCTCAAACAACGAATCATCACCGCCCTGATCCTGTTGCCCATCGCCTTGGCTGGCTTTTTCCTGCTTGAAGGAGCCGGCTTCGCCCTGTTCATCGGCCTGGTCGTGACGCTGGGCGCCTGGGAATGGGCGCGGCTGGCAGGTTTTGCTGCGCAGTCGGCGCGCATGATCTACGCGGCAGTGGTCGCCGCCATGCTGTTCATCATGTACCTCGTGCCTGGCATCGCGCCGTGGGTGCTGGGGGCGGCAGTGCTGTGGTGGGCGACGGCAACGTTCCTGGTGCTGACCTATCCACGCACTACGCACCACTGGGCCAATGCCGCGACCAAGCTGATGATCGGCCTGTTGATCCTGCTGCCGGCCTGGCAAGGGCTGATCTGGATCAAGCAGGGCGCACTGGGCAACTGGCAGATCATGGCGGTGATGGTGCTGGTCTGGGGGGCTGACGTTGGCGCCTATTTCTCCGGCCGTGCCTTTGGCAAGCGCAAGCTGGCGCCGAAAGTCAGTCCGGGCAAAAGCTGGGAAGGTGTCTACGGTGGCCTGGCCCTGAGCCTGGTCATTACCGCTGTGGTCGGTTTTGTGCGGGACTGGACCGTCGCGCAATTGCTGATGGGCCTGTTCGGCGCGGCCCTGGTGGTTTTCGTATCGGTCGTCGGCGACCTGACCGAAAGCATGTTCAAGCGTCAGTCCGGGGTCAAGGACAGCAGTAACCTGCTGCCGGGCCACGGTGGTGTACTGGACCGTATCGACAGCCTGACCGCCGCGATCCCGATCTTCGCCGTGCTGTTGTGGATGGCGGCACCGTGA	MLKQRIITALILLPIALAGFFLLEGAGFALFIGLVVTLGAWEWARLAGFAAQSARMIYAAVVAAMLFIMYLVPGIAPWVLGAAVLWWATATFLVLTYPRTTHHWANAATKLMIGLLILLPAWQGLIWIKQGALGNWQIMAVMVLVWGADVGAYFSGRAFGKRKLAPKVSPGKSWEGVYGGLALSLVITAVVGFVRDWTVAQLLMGLFGAALVVFVSVVGDLTESMFKRQSGVKDSSNLLPGHGGVLDRIDSLTAAIPIFAVLLWMAAP	PGPT0007685_4920	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE_ACTIVITY,PGPT0007685-cdsA|ynbB-K00981	NA	NA
D1-35_00128	1191	dxr	COG0743	1-deoxy-D-xylulose 5-phosphate reductoisomerase	GTGAGTCGTCCTCAGCAGATTACCGTTCTGGGGGCCACGGGCTCCATCGGACTGAGTACCCTTGATGTCATCGGTCGCCATCCGGAGCGCTATCAGGTATTCGCTCTCAGTGGCTTCACCCGCCTGAGCGAGCTGCTGGCGCTGTGCATCCGCCACACGCCGCGTTTTGCCGTGGTGCCACATGCCGATGTGGCGCGGGCGCTGCAGGACGACCTGCGCGCCGCTGGCCTGCAAACTCGTGTGCTGGTGGGCGAGGAGGGCCTTTGCCAGGTGGCTTCCGACCCTGAAGTCGACGCCGTGATGGCGGCAATCGTAGGGGCGGCGGGCTTGCGTCCGACGCTGGCGGCGGTGGAGGCTGGCAAGAAAATCCTGCTGGCGAACAAGGAAGCGCTGGTGATGTCCGGTGCACTGTTCATGCAGGCGGTGCGCAAAAGCGGCTCGGTACTGCTGCCCATCGACAGCGAACACAATGCGATTTTCCAATGCATGCCGCAGGATTTTTCCCGCGGCCTGGGGGCGGTCGGCGTTCGGCGGATTCTTCTGACAGCGTCTGGCGGCCCATTCCGGCAGACACCCCTGGAAGAATTGGTGCATGTTTCGCCCGAGCAGGCTTGCGCCCATCCGAACTGGTCCATGGGACGCAAGATTTCCGTGGACTCCGCCAGCATGATGAACAAGGGGCTGGAGCTGATCGAGGCCTGCTGGCTGTTCGATGCCCGGCCGTCCCAGGTCGAGGTGGTGATCCATCCACAAAGCGTGATCCACTCCCTGGTGGATTATGTCGATGGTTCGGTCCTCGCCCAGCTGGGGAACCCGGACATGCGTACGCCGATCGCCAATGCGCTGGCCTGGCCGGAGCGGATCGATTCGGGGGTGGCGCCGCTGGACCTGTTTGCCATCGCCCGTCTGGATTTCCAGGCGCCCGATGAGCAGCGGTTTCCTTGCCTGCGCCTGGCTCGGCAGGCGGCCGAGGCCGGCGACAGTGCCCCGGCCATGCTTAACGCGGCCAACGAAGTGGCGGTCGCAGCGTTTCTCGATGGGCGTGTCCGTTACCTCGAGATCGCGAGTATCATCGAGGAGGTCTTGAATCTCGAGGCCGTGGTTTCGCTTGATGATCTCGATGCGGTATTTACCGTCGACGCCAGGGCTCGTGAGCTGGCGGGCCATTGGTTGAAGCGCCACGGGCGTTGA	MSRPQQITVLGATGSIGLSTLDVIGRHPERYQVFALSGFTRLSELLALCIRHTPRFAVVPHADVARALQDDLRAAGLQTRVLVGEEGLCQVASDPEVDAVMAAIVGAAGLRPTLAAVEAGKKILLANKEALVMSGALFMQAVRKSGSVLLPIDSEHNAIFQCMPQDFSRGLGAVGVRRILLTASGGPFRQTPLEELVHVSPEQACAHPNWSMGRKISVDSASMMNKGLELIEACWLFDARPSQVEVVIHPQSVIHSLVDYVDGSVLAQLGNPDMRTPIANALAWPERIDSGVAPLDLFAIARLDFQAPDEQRFPCLRLARQAAEAGDSAPAMLNAANEVAVAAFLDGRVRYLEIASIIEEVLNLEAVVSLDDLDAVFTVDARARELAGHWLKRHGR	PGPT0007585_1798	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007585-ispC|dxr-K00099	NA	NA
D1-35_00129	1353	rseP	COG0750	Regulator of sigma-E protease RseP	ATGAGCGCGCTCTATATGATTGTCGGCACCCTGGTTGCGCTGGGGGTGCTGGTCACTTTTCACGAATTCGGCCATTTCTGGGTCGCGCGTCGCTGTGGCGTCAAGGTTCTGCGTTTTTCCGTTGGCTTCGGCATGCCTTTGCTGCGCTGGCACGACAAGCAGGGCACCGAGTTCGTCGTCGCGGCCATCCCGCTGGGCGGCTACGTCAAGATGCTCGATGAGCGCGAAGGCGAAGTGCCTGTCGATCAGCTTGACCAATCTTTCAATCGCAAGACCGTTCGTCAGCGTATCGCTATCGTGGCGGCGGGCCCGATCGCCAATTTCCTGTTGGCCCTGGTGTTTTTCTGGGCGTTGGCAATGCTCGGCAGCGAGCAGGTGCGCCCGGTCATCGGTGCAGTAGAGGCCGGCAGCGTGGCGGCTCGGGCCGGGTTGGGCGCAGGCCAGGAAATTGTCGCCATCGATGGTGAACCCACCTCGGGCTGGGCGGCGGTCAACCTGCAGTTGGTGCGCCGCCTGGGCGAAAGTGGCTCGCTGCAATTGCTGGTGCGCGAGCAGGGCTCGACGGCGGATTCGCCGCGAGAGCTGATTCTCGACAACTGGCTCAAGGGCGCCGACGAGCCGGATCCGATCCGTTCCCTGGGGATCCGCCCATGGCGTCCGGCGCTGCCGCCTGTGCTGGCCGAGCTCGATCCGAAAGGCCCGGCTCACGCCGCAGGTCTGAAAACCGGCGACCGATTGCTGGCATTCGATGGCCAGTCGGTGAATGACTGGCAACAGGTGGTTGATTCGGTTCGTGTACGTCCTGATACCAAAATCCTGCTGCGCGTCGAACGCGACGGTGCTTCAATCGACGTCCCGGTGACTCTGGCCGCCCGTGGCGAAAGCAAGGCGCCGACCGGTTACCTGGGGGCGGGCGTCAAGGCGGTCGAGTGGCCGCCGGAAATGATCCGCGAGGTCAGCTTCGGCCCTCTTGAGGCGATTGGCGAGGGTGCGCGTCGTACCTGGACCATGAGTGTCCTGACCCTGGACTCGCTGAAGAAAATGTTGTTCGGCGAGCTCTCGGTAAAAAACTTGAGTGGACCGATAACCATTGCTAAAGTGGCGGGCGCTTCTGCCCAGTCGGGCGTCGCTGATTTCCTGAATTTCCTTGCTTATCTGAGCATTAGCCTGGGGGTTCTGAATTTGCTGCCCATTCCGGTACTGGATGGGGGGCATCTGCTGTTTTATCTGATCGAGTGGGCGCGTGGTCGTCCCTTGTCGGATCGGGTGCAAGGTTGGGGGATACAGATCGGTATCAGCTTGGTGGTCGGGGTGATGTTGCTTGCTCTGGTCAACGATCTGGGTCGTCTGTAA	MSALYMIVGTLVALGVLVTFHEFGHFWVARRCGVKVLRFSVGFGMPLLRWHDKQGTEFVVAAIPLGGYVKMLDEREGEVPVDQLDQSFNRKTVRQRIAIVAAGPIANFLLALVFFWALAMLGSEQVRPVIGAVEAGSVAARAGLGAGQEIVAIDGEPTSGWAAVNLQLVRRLGESGSLQLLVREQGSTADSPRELILDNWLKGADEPDPIRSLGIRPWRPALPPVLAELDPKGPAHAAGLKTGDRLLAFDGQSVNDWQQVVDSVRVRPDTKILLRVERDGASIDVPVTLAARGESKAPTGYLGAGVKAVEWPPEMIREVSFGPLEAIGEGARRTWTMSVLTLDSLKKMLFGELSVKNLSGPITIAKVAGASAQSGVADFLNFLAYLSISLGVLNLLPIPVLDGGHLLFYLIEWARGRPLSDRVQGWGIQIGISLVVGVMLLALVNDLGRL	PGPT0011685_1121	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0011685-rseP-K11749	NA	NA
D1-35_00130	2388	bamA_1	COG4775	Outer membrane protein assembly factor BamA	ATGAAACGTCTGCTGCTAACTGCGGTTCTCACCGTATTGATGATCGCCGAAGTTCACGCCGAGTCCTTCACTATCTCTGATATTCGCGTCAACGGCCTCCAGCGGGTTTCCGCGGGTAGCGTCTTTGGTGCCTTGCCGTTGAACGTCGGCGAGCAGGCGGATGATCGGCGCCTGGTGGAATCCACTCGTGCGCTGTTCAAGACCGGCTTCTTTCAAGATATCCAGCTGGGCCGCGACGGCAATGTCCTGGTCATCACGGTCGTCGAGCGCCCATCGGTTGCCAGTATCGAGATCGAAGGCAACAAGGCGATCTCCACTGAAGACCTGATGAAAGGCCTCAAGCAATCCGGCCTGGCCGAAGGCGAGATCTTCCAGCGCGCGACCCTCGAAGGCGTCCGTAACGAGCTGCAACGCCAATACGTTGCCCAGGGCCGTTATTCGGCGACTGTCGACACCGAAGTCGTGCCGCAGCCGCGCAACCGCGTCGGCCTGAAGGTCAACATCAACGAAGGCACCGTCGCCGCCATCCAGCACATCAACGTGGTCGGCAACACGGTGTTCCCGGATGAAGACCTGATCGACCTGTTCGAACTCAAGACCACCAACTGGCTGTCGTTCTTCAAGAACGACGACAAGTACGCTCGTGAAAAACTCTCCGGTGACCTGGAGCGCCTGCGTTCCTACTACCTGGACCGTGGCTACATCAACATGGACATTGCTTCGACCCAGGTGTCCATCACCCCGGACAAGAAGCACGTCTACATCACTGTCAACGTCAACGAAGGAGAGAAGTACACCGTTCGTGACGTCAAGCTCAGTGGTGACCTGAAAGTTCCGGAAGACCAGGTCAAATCGCTGTTGCTGGTGCAGAAGGGGCAGGTGTTCTCGCGCAAGCTGATGACCACCACGTCCGAGCTGATCACTCGCCGCCTGGGTAACGAGGGTTACACCTTCGCCAACGTGAACGGCGTGCCACAACCGCACGATGAAGACCATACCGTCGACATCACGTTCGGCGTGGACCCCGGCAAGCGTGCCTACGTCAACCGCATCAACTTCCGTGGCAACACCAAGTCCGAGGACGAAGTGCTGCGTCGCGAAATGCGCCAGATGGAAGGTGGCTGGGCGTCGACCTACCTGATCGACCAGTCCAAGACCCGCCTGGAGCGCCTGGGCTTCTTCAAGGAAGTCAACGTCGAGACCCCGGCCGTACCGGGCGTCGATGACCAGGTGGATGTGAACTACAGCGTCGAGGAACAAGCCTCCGGTTCGATCACCGCCAGTGTCGGTTTCGCCCAGAGCGCGGGCCTGATCCTGGGTGGTTCGATCACCCAGAACAACTTCCTCGGTACCGGTAACCGCGTCAGCGTGGGCCTGACCCGCAGCGAGTACCAGACCCGCTACAACTTCGGTTACGTGGACCCCTACTGGACTGCCGACGGTGTGAGCCTGGGCTACAACGCCTTCTATCGCACCACCGACTACGACGAGCTCGACTCTGACATCTCCAGCTATGCGGTGGACAGCCTGGGTGCCGGCGTCAACATCGGCTATCCGATCAGCGAAACGTCGCGCCTGACCTTCGGCCTCACCGCCCAGCAGGACGAGATCAGCACTGGCCGCTATACCGTTGACGAAATTTTCGATTTCGTCGAGAAAGAGGGCGACAAGTACCTGAACTTCAAGGCGTCTGTTGGTTGGTCCGAGTCGACCCTGAACAAGGGTGTGCTGGCGACCCGTGGCCGTTCCCAGAGCTTGGTCCTGGAAACCACTACGCCTGGCAGCGACCTGTCGTTCTTCAAGCTCGACTACCGCGGCCAGCTGTTCCAGCCGCTGTCTGACAACTACACCATGCGCCTGCACACCGAGCTGGGTTATGGCGATGGCTACGGTTCGACCGACGGCCTGCCGTTCTACGAGAACTACTACGCCGGTGGTTTCAACTCGGTGCGTGGCTTCAAGGACAGCACCCTGGGCCCGCGCAGTACCCCGAGCCGAGGTGCAGCTGTCACTGGCAACCAGGGGACCATCCGGGATCCGGACCAGGATCCACTGCCGTTCGGTGGTAACGTCCTGATCCAGGGCGGTGCCGAGCTCCTGTTCCCGATGCCGTTCGTCAAGGATCAGCGCTCCCTGCGTACCTCGGTTTTCTGGGACGTGGGTAACGTATTCGACTCCAGCTGCGATAAGCCTACTAACAACAATGGCACGTCATCCAACGCAGAGTGCAACGACATCAGCCTGAGCAACCTCGCCAGCTCCGTCGGCGTCGGCGTGACCTGGGTCACCGCGCTAGGCCCGTTGAGCTTCGCGTTGGCGATGCCGATCAAGAAACCGGATGACGCTGAAACCCAGGTTTTCCAATTCTCCCTCGGTCAGACGTTCTAA	MKRLLLTAVLTVLMIAEVHAESFTISDIRVNGLQRVSAGSVFGALPLNVGEQADDRRLVESTRALFKTGFFQDIQLGRDGNVLVITVVERPSVASIEIEGNKAISTEDLMKGLKQSGLAEGEIFQRATLEGVRNELQRQYVAQGRYSATVDTEVVPQPRNRVGLKVNINEGTVAAIQHINVVGNTVFPDEDLIDLFELKTTNWLSFFKNDDKYAREKLSGDLERLRSYYLDRGYINMDIASTQVSITPDKKHVYITVNVNEGEKYTVRDVKLSGDLKVPEDQVKSLLLVQKGQVFSRKLMTTTSELITRRLGNEGYTFANVNGVPQPHDEDHTVDITFGVDPGKRAYVNRINFRGNTKSEDEVLRREMRQMEGGWASTYLIDQSKTRLERLGFFKEVNVETPAVPGVDDQVDVNYSVEEQASGSITASVGFAQSAGLILGGSITQNNFLGTGNRVSVGLTRSEYQTRYNFGYVDPYWTADGVSLGYNAFYRTTDYDELDSDISSYAVDSLGAGVNIGYPISETSRLTFGLTAQQDEISTGRYTVDEIFDFVEKEGDKYLNFKASVGWSESTLNKGVLATRGRSQSLVLETTTPGSDLSFFKLDYRGQLFQPLSDNYTMRLHTELGYGDGYGSTDGLPFYENYYAGGFNSVRGFKDSTLGPRSTPSRGAAVTGNQGTIRDPDQDPLPFGGNVLIQGGAELLFPMPFVKDQRSLRTSVFWDVGNVFDSSCDKPTNNNGTSSNAECNDISLSNLASSVGVGVTWVTALGPLSFALAMPIKKPDDAETQVFQFSLGQTF				NA	NA	NA	NA	NA
D1-35_00131	504			hypothetical protein	GTGCGTAAGTTGACTCAATTGGTTCTCCTGGCGACCGTACTGGTCGCAGGTCCGGCTTTTGCCGACATGAAGATCGCCGTCCTGAACTATCAGATGGCCCTGCTGGAATCCGACGCGGCGAAGAAATACGCTGTGGACGCGGAGAAAAAATTCGGCCCGCAACTGACCAAGCTCAAAGGCCTGGAAAGCAGCGCCAAGGGTATCCAGGATCGTTTGGTGGCCGGTGGCGACAAAATGGCCCAGGGTGAGCGCGAGCGCCTTGAGCTTGAATTCAAGCAAAAGGCCCGCGATTTCCAGTTCCAGTCCAAGGAACTGAACGAAGCGAAAGCCGTTGCCGACCGCGAAATGCTCAAGCAGCTCAAGCCGAAACTCGACAGCGCTGTGGAAGAAGTCATCAAGAAGGGTGGTTTTGACCTGGTGTTCGAGCGTGGTGCAGTGATTGATGTCAAGCCTCAGTACGACATCACGCGCCAGGTTATCGAGCGCATGAATCAGCTGAAGTAA	MRKLTQLVLLATVLVAGPAFADMKIAVLNYQMALLESDAAKKYAVDAEKKFGPQLTKLKGLESSAKGIQDRLVAGGDKMAQGERERLELEFKQKARDFQFQSKELNEAKAVADREMLKQLKPKLDSAVEEVIKKGGFDLVFERGAVIDVKPQYDITRQVIERMNQLK	PGPT0024525_1765	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	OTHER_INTEGRAL_MEMBRANE_REMODELLING__PROTEINS,PGPT0024525-hlpA|ompH|skp-K06142	NA	NA
D1-35_00132	1056	lpxD	COG1044	UDP-3-O-acylglucosamine N-acyltransferase	ATGACAGCGACTATCAAGCTCGGCCAGTTGGCCGAGTTCCTCGGCGCCACCCTGCGTGGCGACCCGGAGAAGGTCATCACTGGGCTAGCCACTTTGCAAGAGGCTGGCCCAGCTCAGTTGAGCTTCCTGGCAAATCCTCAATACCGTAAATACCTGGCTGATAGCCGGGCTGCCGCGCTGTTGCTCAAGGCCGGTGATGCCGAAGGGTTTGCCGGTGATTCGCTGATCGTGGCCGACCCCTACCTTGCGTATGCGCGGATTTCCCATCTGTTCGATCCCAAGCCCAAGTCGGCTGCCGGTATTCACCCGACTGCAGTGATCGCAGCGGACGCCGTGGTGGATCCCTCGGCCAGCGTTGGCCCGTTTGTCGTGATTGAAAGCGCGGCCCGGATTGGCGTCGGTGTGACGCTGGGCGCCCATTGCTTCATCGGCGCGCGCTGCGAGATCGGCGAAGGTGGCTGGCTGGCGCCCCGGGTGACGCTGTATCACGATGTGCGCATCGGCAAGCGGGTAGTGATCCAGTCTGGCGCAGTGCTCGGTGGCGAAGGCTTCGGTTTTGCCAATGAGAAAGGCGTCTGGCAAAAGATTGCCCAGATCGGTGGCGTAACCGTCGGCGATGACGTGGAGATCGGCGTCAACACCGCCATCGACCGTGGCGCGCTGGCCGATACGGTCATTGGCAATGGCGTCAAGCTCGACAACCAGATCCAGATCGCCCACAACGTCCAGGTCGGTGACCACACCGCCATGGCCGCCTGCGTGGGCATCTCCGGCAGTACCAAAATCGGCAAGCACTGCATGCTCGCCGGTGGCGTGGGCCTGGTGGGCCATATCGATATCTGTGACAACGTGTTCCTGACCGGAATGACCATGGTGACCCACTCGATTACCGAGCCGGGTGCCTATTCTTCCGGCACAGCCATGCAACCGGCTGCCGAGTGGCGCAAGAGCGCGGCGCGTATCCGCCAGCTCGACGACATCGCGCGGCGCCTCAAGCAGGTGGAAAAGCGTGTAGGGGACGTGACCCCTGGCGGTAATGCTTCATCAGATGGCTGA	MTATIKLGQLAEFLGATLRGDPEKVITGLATLQEAGPAQLSFLANPQYRKYLADSRAAALLLKAGDAEGFAGDSLIVADPYLAYARISHLFDPKPKSAAGIHPTAVIAADAVVDPSASVGPFVVIESAARIGVGVTLGAHCFIGARCEIGEGGWLAPRVTLYHDVRIGKRVVIQSGAVLGGEGFGFANEKGVWQKIAQIGGVTVGDDVEIGVNTAIDRGALADTVIGNGVKLDNQIQIAHNVQVGDHTAMAACVGISGSTKIGKHCMLAGGVGLVGHIDICDNVFLTGMTMVTHSITEPGAYSSGTAMQPAAEWRKSAARIRQLDDIARRLKQVEKRVGDVTPGGNASSDG	PGPT0022340_827	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022340-lpxD-K02536	NA	NA
D1-35_00133	441	fabZ	COG0764	3-hydroxyacyl-[acyl-carrier-protein] dehydratase FabZ	ATGATGGACATCAACGAGATTCGCGAATACCTGCCTCACCGTTACCCGTTCCTGCTGGTGGATCGGGTCGTGGACCTGGATGTTGAAGGCAAGCGCATTCGCGCCTACAAGAATGTCAGCATCAACGAACCCTTCTTCAATGGTCACTTCCCCGCGCATCCAATCATGCCGGGCGTATTGATCATCGAGGCGATGGCTCAGGCTGCCGGGATCCTTGGTTTCAAAATGCTCGACGTGAAGCCTGCCGACGGCACGCTTTACTACTTTGTTGGCTCCGACAAGCTGCGCTTCCGCCAGCCGGTCACTCCGGGCGATCAGTTGATCCTCGAAGCCAGGTTCATCAGTTGCAAGCGCCAGATCTGGAAATTCGAATGTCAGGCTTCGGTCGATGGCAAGCCGGTCTGCTCCGCTGAAATCATCTGTGCGGAACGCAAGCTATGA	MMDINEIREYLPHRYPFLLVDRVVDLDVEGKRIRAYKNVSINEPFFNGHFPAHPIMPGVLIIEAMAQAAGILGFKMLDVKPADGTLYYFVGSDKLRFRQPVTPGDQLILEARFISCKRQIWKFECQASVDGKPVCSAEIICAERKL	PGPT0008365_2677	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008365-fabZ-K02372	NA	NA
D1-35_00134	777	lpxA		Acyl-[acyl-carrier-protein]--UDP-N-acetylglucosamine O-acyltransferase	ATGAGTTTGATTGACCCTCGCGCAATCATCGATCCGACGGCCGTACTGGCCGCCGATGTCGAGGTTGGCCCTTGGTCGATCATCGGCGCAGGTGTGGAAATCGGCGAGGGCACGGTGATCGGGCCCCATGTGATCCTCAAGGGGCCGACCCGGATCGGCCGGCACAACCGCATCTACCAGTTCTCATCGGTAGGTGAGGACACGCCCGACCTCAAGTACAAAGGTGAAGAAACCCGCCTGGTGATTGGCGATCACAACGTGATCCGCGAAGGCGTGACGATTCACCGTGGCACCGTCCAGGACCGTTCCGAAACGACGCTGGGCGACCATAACCTGATCATGGCCTATGCCCACATCGGCCACGACAGCGTTATTGGCAACCATTGCATCCTGGTCAACAACACCGCGTTGGCCGGACATGTGCACGTAGATGACTGGGCGATCCTGTCCGGTTTCACCCTGGTCCACCAGTATTGCCACATTGGCGCCCATAGCTTCTCCGGCATGGGCACCGCCATCGGCAAGGACGTCCCTGCCTACGTCACCGTGTTCGGCAATCCGGCCGAAGCTCGCAGCATGAACTTCGAAGGCATGCGTCGGCGTGGTTTCAGCGAAGAGGCCATAACTGCCCTGCGTCGCGCCTACAAGGTTGTGTATCGCCAGGGCCTGACGGTCGAGCAGGCGCTCGCCGAACTGGCCGAGGCAGCGGCACAGTTTCCGGAAGTCGCAATATTCCGCGATTCCATCCTGTCTTCGACCCGCGGCATCACCCGCTGA	MSLIDPRAIIDPTAVLAADVEVGPWSIIGAGVEIGEGTVIGPHVILKGPTRIGRHNRIYQFSSVGEDTPDLKYKGEETRLVIGDHNVIREGVTIHRGTVQDRSETTLGDHNLIMAYAHIGHDSVIGNHCILVNNTALAGHVHVDDWAILSGFTLVHQYCHIGAHSFSGMGTAIGKDVPAYVTVFGNPAEARSMNFEGMRRRGFSEEAITALRRAYKVVYRQGLTVEQALAELAEAAAQFPEVAIFRDSILSSTRGITR	PGPT0022320_2449	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0022320-lpxA-K00677	NA	NA
D1-35_00135	1131	lpxB	COG0763	Lipid-A-disaccharide synthase	ATGGCGAACCTGCGTATCGCACTGGTGGCGGGCGAAGCTTCCGGTGACATCCTGGGCGCCGGCCTGATGCGCGCGCTCAAGGCGCAGCACCCGGCGGTCGAGTTCATCGGGGTGGGTGGGCCATTGATGGAAGCCGAGGGACTGGTGTCCTACTTCCCGATGGAGCGCCTGTCGGTGATGGGGCTGGTGGAAGTGCTCGGCCGCTTGCGTGAGCTGCTGGCCCGGCGCAAGAAGCTGATCCAGACGCTGATCGAAGAAAAACCGGATGTGTTCATCGGTATCGATGCGCCGGATTTCACCCTCAATATCGAACTCAAGCTGCGCCAGGCCGGGATCAAGACCGTGCATTACGTCAGCCCGTCGGTCTGGGCCTGGCGACAGAAGCGCGTGTTGAAGATCCGCGAGGGCTGCGACCTGATGCTCACGCTGCTGCCGTTCGAAGCCCGGTTCTACGAAGAAAAAGGCGTGCCCGTGCGATTTGTCGGTCACACCTTGGCCGACACCATTCCCCTGGAGGCGGACCGCGAGGCGGCTCGCCAGGCGCTGGGCCTGGCCGCGGGCCCGCTGGTGGCGTTGATGCCCGGTAGCCGAGGCGGCGAAGTGAGTCGCCTGGGCGGGCTGTTCTTCGACGCCGCCGAGCGTCTGCGGGCGATGCGTCCGGACGTACGATTCATCTTGCCGTGCGCCAGTCCACAGCGGCGGGTCCAGCTCGAAGCGCTCCTGGCCGATCGCGATTTGCCGGTCACGCTGCTTGACGGCCAATCCCATCAAGCGCTGGCGGCCTGCGATGCCGTGTTGATTGCCTCCGGCACTGCTACCCTTGAGGCATTGTTGTACAAGCGCCCGATGGTGGTTGCCTATCGTCTGGCGCCGTTGACGTTCTGGATTCTCAAGCGCATGGTCAAGAGCCCTTACGTTTCCCTGCCGAATCTGCTGGCCCAGCGCCTGCTGGTGCCTGAACTGCTGCAGGATGACGCGACCGCCGAGTCCCTGGCCAGCACGCTTTTGCCGTTGATCGATGGCGGCGAGGAACAGACCCGGGGCTTTGACGAAATCCACCGTACCTTGCGTCGCGATGCCTCCAACCAGGCAGCAGACGCGGTACTGACCTTGATCGGCGCCAGACGATGA	MANLRIALVAGEASGDILGAGLMRALKAQHPAVEFIGVGGPLMEAEGLVSYFPMERLSVMGLVEVLGRLRELLARRKKLIQTLIEEKPDVFIGIDAPDFTLNIELKLRQAGIKTVHYVSPSVWAWRQKRVLKIREGCDLMLTLLPFEARFYEEKGVPVRFVGHTLADTIPLEADREAARQALGLAAGPLVALMPGSRGGEVSRLGGLFFDAAERLRAMRPDVRFILPCASPQRRVQLEALLADRDLPVTLLDGQSHQALAACDAVLIASGTATLEALLYKRPMVVAYRLAPLTFWILKRMVKSPYVSLPNLLAQRLLVPELLQDDATAESLASTLLPLIDGGEEQTRGFDEIHRTLRRDASNQAADAVLTLIGARR	PGPT0022325_2444	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022325-lpxB-K00748	NA	NA
D1-35_00136	660	rnhB	COG0164	Ribonuclease HII	ATGAGCAACGTGAAGCTGCAGATGGGCCTGGATTTCAACCTGGTCGCCGAAGTCGAAGAGTTGGTCGCGGGTGTCGATGAGGTGGGCCGTGGCCCGTTGTGCGGTGCGGTGGTGACGGCGGCGGTGATCCTCGATCCGAAGCGGCCGATCCTGGGGCTCGATGACTCCAAGAAGCTCACCGAGGCCCGGCGTGAAAAACTCTACGACGAAATCTGCGAAAAAGCCTTGAGCTGGTGCATTGCCCGGGCCGAGGTCGAAGAGATCGACGAGTTGAACATCCTGCATGCCACCATGCTGGCGATGCAGCGGGCGGTACACGGCCTGCACATCACGCCGAAGCTGGCGATGATCGACGGCAACCGTTGCCCCCAGCTGTCGATGCGCGCTGAAGCGGTCATCCAGGGCGACGGCAAGGTGCCGGCTATCGCAGCGGCCTCGATCCTGGCCAAGGTCAGTCGCGACCGGGAAATGGCCGCGTTCGAATTGATTTACCCAGGCTATGGCATCGGCAGCCACAAGGGCTATCCGACCCCCGTTCATCTGGAAGCCTTGGCGCGCCTCGGGCCGACGCCCATCCACCGGCGCTCGTTCGCCCCGGTGCGGCTGGCCTATGAAGCTCGCGAAGGCTTGATTGTGAGTAGTCAGGCTCTGGTTTCGTGA	MSNVKLQMGLDFNLVAEVEELVAGVDEVGRGPLCGAVVTAAVILDPKRPILGLDDSKKLTEARREKLYDEICEKALSWCIARAEVEEIDELNILHATMLAMQRAVHGLHITPKLAMIDGNRCPQLSMRAEAVIQGDGKVPAIAAASILAKVSRDREMAAFELIYPGYGIGSHKGYPTPVHLEALARLGPTPIHRRSFAPVRLAYEAREGLIVSSQALVS				NA	NA	NA	NA	NA
D1-35_00137	3522	dnaE	COG0587	DNA polymerase III subunit alpha	ATGCCGGCTTCATTCGTTCATCTACGCCTGCACACTGAATATTCCCTGGTCGACGGCCTGGTGCGGATCAAGCCATTGGTCAAGACCCTGGTCGGCATGAACATGCCTGCCGTGGCCGTTACCGATCAGAACAACATGTGTTCGCTGGTCAAGTTCTACAAGAACGCCATGGGCGCCGGGATCAAGCCGATCTGCGGTGCCGACCTGTGGCTGGCGAACAAGGACCCGGATGCGCCGCTGAGCCGTATCAGCCTGCTGGTGATGAACGCCGTCGGCTACCGCAACCTCACCGAGCTGATTTCCCGCGGCTTTATCGAGGGCCAGCGCAATGGCTCGATCATCATCGAGCGCGAGTGGGTGGCCGAGGCGAGCGAAGGCCTGATCATGCTGTCGGCGGCCAAGGAAGGTGAGATCGGCCTGGCCCTGCTCAGCGACAACACCGAGGAAGCCGAGCAACTGGCTCGCGACTGGATGACGGTGTTCCCGGACCGCTTCTATATCGAGGTGCAACGCACCAACCGTCCGAATGACGAAGAGCACCTGCACGCCGCCGTGGCCCTGGCCGACAAGCTGGGCACGCCGCTGGTGGCGACCAACGACGTGCGGTTCATCAAGCAGGAAGATTTCGAAGCCCACGAAACCCGTGTCTGCATCGGTGAGGGGCGGGCCCTTGATGATCCTCGTCGGTCAAAGAACTACAGCGACCAGCAGTACCTCAAGAGCGCCGAGGAGATGGCGGAGCTGTTCAGCGACCTGCCCGAAGCGCTGGAAAACACCGTCGAGATTGCCAAGCGCTGCAACATCGAAGTGAAGCTGGGCAAACACTTCCTGCCCAACTTCCCGATTCCCGATGGCATGACCATCGATGAGTATTTTCGCAAGGTGTCGTTCGACGGCCTGGACGAGCGCCTAAAGGTCCTGCTGCCCAAGGACACCACCGAAGATTACGAAGCCAAGCGCCAGGTCTATGTCGACCGGCTGAATTTCGAGCTGGATATCATCATCCAGATGGGCTTCCCCGGTTACTTCCTGATCGTGATGGATTTTATCCAGTGGGCCAAGAGCAACGGCGTGCCCGTCGGCCCAGGGCGGGGGTCGGGTGCCGGGTCGCTGGTGGCCTATGTGCAGAAGATCACCGACCTCGACCCGCTGGAATATGACCTGCTGTTCGAACGTTTCCTCAACCCGGAACGGGTCTCCATGCCCGACTTCGACGTCGACTTCTGCATGGACGGTCGCGACCGGGTGATCGATTACGTCGCCGAGAAGTACGGCCGCAACGCGGTAAGCCAGATCATCACCTTCGGTTCCATGGCCGCCAAGGCGGTGGTGCGTGACGTGGCGCGGGTGCAGGGCAAGTCCTACGGCCTGGCGGATCGCCTGTCGAAGATGATTCCCTTCGAAGTCGGCATGACCCTGGAAAAAGCCTACGAGCAGGAAGAGATCCTGCGCGATTTCATCAAGGTCGATGAGGAAGCGGCGGAAATCTGGGAAATGGCGCGCAAGCTCGAAGGCGTGGTGCGTAACGTCGGCAAGCACGCCGGTGGCGTGGTGATCGCGCCGACCAAACTGACTGACTTTTCGCCGATCTATTGCGACGAAGAGGGCGACGGCCTGGTGACCCAGTTCGACAAGGATGACGTCGAGGCGGCCGGCCTGGTGAAGTTCGACTTCCTCGGCCTGCGGACCCTGACGATCATCGATTGGGCGCTCAAGACCATCAACCGCGACCGGGCCAAGGTCGGCGAAGAGCCGCTGGACATCGCGTTTATTCCGCTGGACGACAAGCCGACCTACAGCCTGTTGCAAAAAGCCGAAACCACCGCGGTGTTCCAGCTTGAATCGCGCGGCATGAAGGAGCTGATCAAGAAGCTCAAGCCCGACTGCCTCGAAGACCTGATCGCACTGGTGGCCCTGTTCCGTCCGGGCCCTCTGCAATCGGGCATGGTCGATGACTTCATCAACCGCAAGCACGGGCGCGCCGAGCTGGCGTACCCGCACCCCGACTACCAGTACGACGGCCTCAAGCCGGTACTGGCGCCGACCTACGGCATCATCCTGTATCAGGAACAGGTGATGCAGATTGCCCAGGTCATGGCCGGTTATACCCTCGGCGGCGCGGACATGCTGCGTCGAGCCATGGGTAAGAAAAAGCCCGAGGAGATGGCCAAGCAACGCGGTGGTTTCATCGAAGGTTGTGCGAACAACGGCATCGATGCGGACCTGGCGGGCAACATCTTCGACCTGGTGGAAAAGTTCGCCGGCTACGGCTTCAACAAATCCCACTCCGCCGCCTATGGCCTGGTTTCGTATCAGACCGCGTGGCTGAAGGCGCACTACCCGGCGCCTTTCATGGCCGCGGTACTCTCGGCGGACATGCACAACACCGACAAGGTCGTGACCTTGATCGAAGAAGTGCGGACCATGAAGCTGCGCCTCGACGCGCCGGATGTGAACGCTTCGGAGTTCAAATTCACGGTCAACGACGAAGGCCGCATCATCTACGGTCTTGGCGCGATCAAGGGCGTGGGCGAGGGTCCGGTGGAGGCGATCACCGAAGCGCGCCAGGACGGGCCGTTCAAGGACCTGTTCGATTTTTGCGCGCGGGTCGACCTCAAGCGCATCAACAAGCGCACCCTCGACGGGCTGATCCGCAGTGGCGCGCTGGACCGCTTGGGCCCGTACTTCCAGGATGAGCCCAAGGCCTACCAGGCCAACATCGACCGCAACCGCGCGGTGTTGCTGGCGGCGATGGAGGAGGCGATCAAGGCTGCTGAACAGACCGCCCGTACCCACGACAGCGGCCACGCCGACCTGTTTGGCGGGCTGTTTGTCGAGGAAGACGCCGATGTGTATGCCAACCATCGCAAGGCCAAGGAGCTGACCCTCAAGGAGCGCCTCAAAGGTGAAAAAGACACCTTGGGCCTGTACCTGACCGGCCACCCGATCGACGAATACGAGGGCGAAATCCGCCGCTTCGCTCGCCAGCGCATCATCGACCTCAAGCCCGCTCGCGATACGCAAACCGTCGCCGGCATGATCATCGCCCTGCGGGTAATGAAGAACAAAAAGGGCGACAAGATGGGCTTCATCACCCTCGACGACCGCTCCGGGCGTATCGAAGCGTCGTTGTTTGCCGATGCGTTCCATTCGGCGCAGTCGCTGTTGCAGACCGATGCAATGGTTGTGGTGGAAGGCGAGGTCAGCAACGACGACTTCTCCGGTGGCCTGCGGCTGCGGGTCAAGCGGGTGATGAGCATGGAGGATGCCCGTACCAACCTGGCCGAGAGCCTGCGCCTGAAGTTGCAGACCCAGGACCTCAAGGGCGATCAGCTACGCTGGTTGGGCGAGTTGTTCAAGCGCCACCGTGGTGCGTGCCCGATCACCATGGAGTACGTGCGCCCCGATGCCAAGGCCGTGCTGCAGTTCGGCGAGGGCTGGCGGATCGACCCGGCGGATGCGTTGATTCAAGCCTTGCGTGACCAGTTCGGCAAAGACAACGTCTTCCTCCAATACCGTTGA	MPASFVHLRLHTEYSLVDGLVRIKPLVKTLVGMNMPAVAVTDQNNMCSLVKFYKNAMGAGIKPICGADLWLANKDPDAPLSRISLLVMNAVGYRNLTELISRGFIEGQRNGSIIIEREWVAEASEGLIMLSAAKEGEIGLALLSDNTEEAEQLARDWMTVFPDRFYIEVQRTNRPNDEEHLHAAVALADKLGTPLVATNDVRFIKQEDFEAHETRVCIGEGRALDDPRRSKNYSDQQYLKSAEEMAELFSDLPEALENTVEIAKRCNIEVKLGKHFLPNFPIPDGMTIDEYFRKVSFDGLDERLKVLLPKDTTEDYEAKRQVYVDRLNFELDIIIQMGFPGYFLIVMDFIQWAKSNGVPVGPGRGSGAGSLVAYVQKITDLDPLEYDLLFERFLNPERVSMPDFDVDFCMDGRDRVIDYVAEKYGRNAVSQIITFGSMAAKAVVRDVARVQGKSYGLADRLSKMIPFEVGMTLEKAYEQEEILRDFIKVDEEAAEIWEMARKLEGVVRNVGKHAGGVVIAPTKLTDFSPIYCDEEGDGLVTQFDKDDVEAAGLVKFDFLGLRTLTIIDWALKTINRDRAKVGEEPLDIAFIPLDDKPTYSLLQKAETTAVFQLESRGMKELIKKLKPDCLEDLIALVALFRPGPLQSGMVDDFINRKHGRAELAYPHPDYQYDGLKPVLAPTYGIILYQEQVMQIAQVMAGYTLGGADMLRRAMGKKKPEEMAKQRGGFIEGCANNGIDADLAGNIFDLVEKFAGYGFNKSHSAAYGLVSYQTAWLKAHYPAPFMAAVLSADMHNTDKVVTLIEEVRTMKLRLDAPDVNASEFKFTVNDEGRIIYGLGAIKGVGEGPVEAITEARQDGPFKDLFDFCARVDLKRINKRTLDGLIRSGALDRLGPYFQDEPKAYQANIDRNRAVLLAAMEEAIKAAEQTARTHDSGHADLFGGLFVEEDADVYANHRKAKELTLKERLKGEKDTLGLYLTGHPIDEYEGEIRRFARQRIIDLKPARDTQTVAGMIIALRVMKNKKGDKMGFITLDDRSGRIEASLFADAFHSAQSLLQTDAMVVVEGEVSNDDFSGGLRLRVKRVMSMEDARTNLAESLRLKLQTQDLKGDQLRWLGELFKRHRGACPITMEYVRPDAKAVLQFGEGWRIDPADALIQALRDQFGKDNVFLQYR				NA	NA	NA	NA	NA
D1-35_00138	948	accA	COG0825	Acetyl-coenzyme A carboxylase carboxyl transferase subunit alpha	ATGAACCCGAATTTTCTAGATTTCGAACAGCCGATCGCCGACCTTCAAGCCAAGATCGAAGAGTTGCGCTTGGTCGGTAACGACAATTCGCTGAATATCGGCGATGAAATCTCTCGGCTGCAGGACAAAAGCCGCACGCTGACCGAAGACATCTTCGGCAAGCTGACCAGCTGGCAGATCGCGCGTCTGGCGCGGCATCCGCGTCGTCCCTACACCTTGGACTACATTGAACACATCTTTACCGAGTTCGATGAGCTTCACGGCGACCGTCACTTCTCCGATGACGCCGCGATCGTCGGCGGTGTCGCTCGTCTGGATGACCAGCCGGTGATGATCATCGGCCACCAGAAAGGCCGCGAAGTGCGCGAGAAAGTACGCCGCAACTTCGGCATGCCGCGTCCGGAAGGCTACCGCAAGGCCTGCCGCCTTATGGAAATGGCCGAGCGCTTCAAGATGCCGATCCTGACGTTCATCGACACGCCGGGCGCCTACCCGGGTATCGACGCCGAAGAGCGCAACCAGAGCGAGGCGATTGCCTGGAACCTGCGCGTGATGGCTCGCCTGAAGACCCCGATCATCGCTACCGTGATCGGCGAAGGCGGTTCCGGCGGGGCGTTGGCCATCGGCGTTTGCGACCAGTTGAACATGCTGCAATATTCCACTTACGCGGTGATTTCGCCGGAAGGCTGCGCCTCGATCCTGTGGAAAACCGCCGAGAAGGCGCCGGACGCCGCAGAAGCCATGGGCATCACCGCCGAACGCCTGAAGGGCCTGGGTATCGTCGACAAGGTAATCAGCGAGCCAGTGGGCGGTGCCCATCGCGACCCGGCCGCGGCCGCAGCGCTGATTCGCGCGGAGCTGAGCTCCCAGCTGTCGATGCTCAAGAACTTCGATAACGACGCGCTGCTGGCGCGTCGCTACGAGCGGTTGATGAGCTACGGTCTCTGA	MNPNFLDFEQPIADLQAKIEELRLVGNDNSLNIGDEISRLQDKSRTLTEDIFGKLTSWQIARLARHPRRPYTLDYIEHIFTEFDELHGDRHFSDDAAIVGGVARLDDQPVMIIGHQKGREVREKVRRNFGMPRPEGYRKACRLMEMAERFKMPILTFIDTPGAYPGIDAEERNQSEAIAWNLRVMARLKTPIIATVIGEGGSGGALAIGVCDQLNMLQYSTYAVISPEGCASILWKTAEKAPDAAEAMGITAERLKGLGIVDKVISEPVGGAHRDPAAAAALIRAELSSQLSMLKNFDNDALLARRYERLMSYGL	PGPT0001695_2836	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0001695-accA-K01962	NA	NA
D1-35_00139	1326	tilS	COG0037	tRNA(Ile)-lysidine synthase	ATGAACTCCAGCGCGGATCTGCCAACCCGGCTCCTCACCCAACTATCCCCCTGGCGCAACGCCGCCACCTGGCGCATCGCTTTCTCCGGTGGCCTCGATTCCACTGTCCTGTTGCATCTGCTCGCGACCCTTTCGAAAAACCATTCGTTGCCTGCGCTGAGCGCCATCCACGTCCATCATGGCCTCCAGGCTGTGGCCGATGCCTGGCCTGAACATTGTCATCGGGTTTGCGCAGCCCTTGGCGTGGCTCTGGAGGTGGTCAGTGTGCAAGTCCGCCCCGGCGCCAGCATCGAACAAGCCGCCCGTGACGCGCGGTATGCGGCGTTCATTGCCGCGACGCAGGGCAACGAAGTGTTGCTCACGGGGCAGCATCGTGATGATCAGGCAGAAACCCTGATGTTTCGTTTGCTGCGCGGGGCAGGGGCGAGGGGCTTGGCGGCGATGCCCCGGCAGCGTCCCTTGGGCCAGGGGCACTTGTTGCGGCCATTGCTCGACGTGTCCCGGGCAGAGTTGGAAAACTACGCGGCGGAGCAAGGCCTGGACTGGATCGAGGATCCCTCCAACAACGATCTCCGGTACGCGCGCAATTATCTGCGCCAGCGGGTCTTCCCGGTGTTGTCCGCGCAGTGGCCCCAAGCGTCGTTGACCCTGGCCCGCAGCGCCGCGCATTTGAGCGAGGCCCAGGGCTTGCTGGACGAGCTGGCGCAGCTCGATCTGCACCGCGCCCGCATCCCGGACGCATTCGACTGGCTCGGGCTGCAGTCGCTTGAACTGCCGCCGTTGCGGGCCTTGTCGCCCGCCCGACAGCGCAATGCGCTGAGTCATTGGCTGGCGCCGCTGACGACCCTTCCCGACAGCGATCATTGGGTCGGCTGGGACTCACTGCGTGACGCGCAAGAGGACGCCCGCCCGATCTGGCGACTGGCCGGCGGCGAATTGCACCGGGCCGGCGCAAGAGTCTGGTGGTTATCCGACCACTGGCTGCGCCCGGTCTCGGGCTCCGTAGCCTGGGCGCGGGTTGATCAGCCCTTGTCATTGCCCGATAACGGCAGGGTGATCCTGCGCGGCAAGGGCCCCGTCGGCCCACTCTGTATTCGTTATCGCCAAGGCGGCGAAGTGCTTGACGTTCCCGGCCGTGGTCACCGTGATCTCAAGCGCCTGCTCAATGAAAGCGGCCTGCCGGCGTTCGTCCGCGGTCGATTGCCGCTGCTTTATCAAGGTGAACAATTATTGGCGGTGGCCAATCTGGCCGGGCTCGACGCGCAGGCCGATGGCAGTTGGCAATTGATCTGGACGCCAGGAAGCCAAGATCTGGGTTTGAGCTGA	MNSSADLPTRLLTQLSPWRNAATWRIAFSGGLDSTVLLHLLATLSKNHSLPALSAIHVHHGLQAVADAWPEHCHRVCAALGVALEVVSVQVRPGASIEQAARDARYAAFIAATQGNEVLLTGQHRDDQAETLMFRLLRGAGARGLAAMPRQRPLGQGHLLRPLLDVSRAELENYAAEQGLDWIEDPSNNDLRYARNYLRQRVFPVLSAQWPQASLTLARSAAHLSEAQGLLDELAQLDLHRARIPDAFDWLGLQSLELPPLRALSPARQRNALSHWLAPLTTLPDSDHWVGWDSLRDAQEDARPIWRLAGGELHRAGARVWWLSDHWLRPVSGSVAWARVDQPLSLPDNGRVILRGKGPVGPLCIRYRQGGEVLDVPGRGHRDLKRLLNESGLPAFVRGRLPLLYQGEQLLAVANLAGLDAQADGSWQLIWTPGSQDLGLS				NA	NA	NA	NA	NA
D1-35_00140	1632	pyrG_1	COG0504	CTP synthase	ATGACGCGCTACATATTCGTCACGGGCGGTGTTGTTTCTTCATTGGGGAAAGGCATTGCCTCGGCTTCATTGGCGGCCATCCTGGAGGCGCGGGGACTTAAGGTCACCATGCTCAAGCTGGACCCGTACATCAACGTCGACCCGGGCACCATGAGCCCGTTCCAGCACGGTGAAGTGTTCGTCACCCACGACGGCGCCGAGACCGACCTGGACCTGGGCCACTACGAGCGGTTCATCCGCACGACCATGACCCAGAACAACAACTTCACCACCGGCCGTGTCTACGAGCACGTGTTGCGCAAGGAGCGTCGGGGTGACTACCTGGGCGCGACCATCCAGGTCATTCCGCACATCACCGACGAAATCAAGCGCCGCATCATCAAGGGTGCCGGCGACGCCGACGTGGCGATGGTCGAGATCGGCGGTACCGTGGGCGACATCGAATCCCAGCCGTTCCTTGAGGCCATCCGCCAGCTGCGTTTCGAAATCGGCGCCAAGCGCGCGATGCTGATGCACCTGACACTGGTTCCGTACATCGCTACCGCCGGTGAAACCAAGACCAAGCCGACCCAGCACTCGGTCAAGGAGCTGCGCTCCATCGGCCTGCAGCCGGACGTGCTGATCTGCCGCTCCGACCACCCGATCGATATTTCCTCGCGCCGCAAGATCGCCCAGTTCACCAACGTTGAAGAGCGTGCGGTGATCGGCCTGGAAGACGCCGACACCATCTACAAGATCCCCGGCATCCTGCATTCCCAGGGCCTGGATGACTTCGTCGTCGAGCGCTTCGGCCTGCAATGCGCCAGCGCCGACCTGTCCGAATGGGACGCGGTCGTCGATGCCAAGCTGAACCCGGAGCACGAAGTCACCATCGCCATGGTCGGCAAGTACATGGAGCTGCTGGACGCTTACAAGTCGCTGATCGAGGCGATGAGCCATGCCGGCATCAGCAACCGCACCAAGGTCAACCTGCGCTACATCGATTCCGAAGATATCGAGAACCAGGGCACCGGCCTGCTTGAAGGCGCCGATGCGATCCTCGTGCCGGGCGGCTTTGGCCTGCGGGGCGTGGAAGGCAAGATCACCGCGGTGCAATACGCTCGCGAGAACAAGGTGCCTTACCTGGGTATCTGCCTGGGCATGCAAGTGGCCGTCATCGAGTTCGCGCGTAATGTGATGGGCTGGAAGGACGCCAACTCCACCGAATTCGATCGCGCCAGCGGCCACCCGGTCGTGGGCCTGATCACCGAGTGGGAAGACGCCACCGGCTCGGTCGAAGTGCGTACCGAAACTTCCGATCTGGGCGGTACCATGCGCCTCGGTGCCCAGGAATGCCTGCTTGAAGCTGGCTCCAAGGTGCACGATTGCTACGCCAAGGACGTGATCGTCGAGCGTCACCGCCACCGCTATGAAGTCAACAACAACCTGCTGCCACAACTGATCGAAGCCGGCCTGAAAATCTCCGGCCGCTCCGGTGACGGTGCGTTGGTTGAAGTGGTCGAGGCCGCGGATCACCCGTGGTTCGTCGCTTGCCAGTTCCACCCGGAGTTCACCTCGACACCGCGTGACGGTCATCCGTTGTTCAGCGGTTTCGTCAAAGCCGCTTTGGCTCAACACCAGAAGAAGGCATAA	MTRYIFVTGGVVSSLGKGIASASLAAILEARGLKVTMLKLDPYINVDPGTMSPFQHGEVFVTHDGAETDLDLGHYERFIRTTMTQNNNFTTGRVYEHVLRKERRGDYLGATIQVIPHITDEIKRRIIKGAGDADVAMVEIGGTVGDIESQPFLEAIRQLRFEIGAKRAMLMHLTLVPYIATAGETKTKPTQHSVKELRSIGLQPDVLICRSDHPIDISSRRKIAQFTNVEERAVIGLEDADTIYKIPGILHSQGLDDFVVERFGLQCASADLSEWDAVVDAKLNPEHEVTIAMVGKYMELLDAYKSLIEAMSHAGISNRTKVNLRYIDSEDIENQGTGLLEGADAILVPGGFGLRGVEGKITAVQYARENKVPYLGICLGMQVAVIEFARNVMGWKDANSTEFDRASGHPVVGLITEWEDATGSVEVRTETSDLGGTMRLGAQECLLEAGSKVHDCYAKDVIVERHRHRYEVNNNLLPQLIEAGLKISGRSGDGALVEVVEAADHPWFVACQFHPEFTSTPRDGHPLFSGFVKAALAQHQKKA	PGPT0021215_3537	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021215-pyrG-K01937	NA	NA
D1-35_00141	846	kdsA	COG2877	2-dehydro-3-deoxyphosphooctonate aldolase	ATGGCCCAGAAGATCATCCGCGTCGGCGACATCGAGATTGCCAACGACAAACCCATGGTGCTGTTCGGCGGCATGAACGTGCTTGAAAGCCGCGACATGGCAATGCAGGTCTGTGAGGAATACGTCAAGGTCACCCAGAAACTGGGCATCCCTTACGTGTTCAAGGCCAGCTTCGACAAGGCCAACCGTTCATCCGTGACTTCCTACCGTGGCCCGGGCCTGGAAGAGGGCATGCGGATCTTCCAGGACATCAAGCAAGCGTTCGGCGTGCCGATCATCACCGACGTGCACGAGCCTGACCAGGCCGCGGTTGTCGCCGAGGTCTGTGACATCATCCAGCTGCCGGCCTTCCTGTCGCGCCAGACCGATCTGGTGGTCGCGATGGCCAAGACCGGCGCGGTGATCAACATCAAGAAAGCCCAGTTCCTCGCGCCCCAGGAAATGAAACACATCCTGAGCAAGTGCGAAGAGGCCGGCAACGATCAACTGATCCTCTGCGAGCGCGGTTCGAGCTTCGGCTACAACAACCTGGTGGTAGACATGCTCGGCTTCGGCATCATGAAGCAGTTCGAGTACCCGGTATTCTTCGACGTCACTCATGCGCTGCAGATGCCCGGTGGTCGGTCCGATTCCGCCGGCGGTCGTCGCGCCCAGGTAACCGACCTGGCCAAGGCCGGCATGAGCCAGTCCTTGGCGGGCCTGTTCCTAGAAGCCCACCCTGATCCGGACAACGCCAAGTGCGATGGCCCTTGTGCCCTGCGCTTGAACAAGCTGGAACCTTTCCTGTCTCAGCTCAAGGCGCTGGACGAGCTGGTCAAGGGTTTTCCGACGATAGAAACCGCGTAA	MAQKIIRVGDIEIANDKPMVLFGGMNVLESRDMAMQVCEEYVKVTQKLGIPYVFKASFDKANRSSVTSYRGPGLEEGMRIFQDIKQAFGVPIITDVHEPDQAAVVAEVCDIIQLPAFLSRQTDLVVAMAKTGAVINIKKAQFLAPQEMKHILSKCEEAGNDQLILCERGSSFGYNNLVVDMLGFGIMKQFEYPVFFDVTHALQMPGGRSDSAGGRRAQVTDLAKAGMSQSLAGLFLEAHPDPDNAKCDGPCALRLNKLEPFLSQLKALDELVKGFPTIETA	PGPT0023060_1277	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
D1-35_00142	1290	eno		Enolase	ATGGCAAAAATCGTCGACATCAAAGGTCGTGAAGTTCTCGACTCCCGTGGCAACCCCACTGTCGAAGCGGACGTGCTTCTCGACAACGGCATCATCGGCAGCGCCTGCGCGCCGTCCGGTGCTTCCACTGGCTCGCGCGAAGCGCTGGAGCTGCGTGATGGCGACAAGAGCCGTTACCTGGGCAAGGGCGTGCTGAAAGCCGTCGCCAACATCAACGGTCCGATCCGCGACCTGTTGCTGGGCAAGGACCCTGCCGACCAGAAAGCCCTCGACCAGGCCATGATCAAACTCGACGGTACCGAAAACAAAGCGACCCTGGGCGCCAACGCGATCCTCGCCGTTTCCCTGGCCGCCGCCAAGGCTGCCGCCCAGGACCAGGACCTGCCGCTGTACGCGCACATCGCCAACCTGAACGGTACCCCGGGCGTCTACTCGATGCCGGTGCCGATGATGAACATCATCAACGGCGGCGAGCATGCCGATAACAACGTCGACATCCAGGAGTTCATGGTCCAGCCGGTTGGCGCCAAGTCCTTCTCCGAAGGCCTGCGTATGGGCACCGAGATTTTCCATCACCTCAAGGCTGTGCTGAAGGCCCGTGGCCTGAGCACCGCGGTTGGCGACGAGGGCGGCTTCGCGCCGAACCTGGCGTCCAACGAAGACGCGCTGAAAGTGATCTCCGAAGCCGTGGCCAACGCTGGCTACAAGCTGGGCACCGACGTGACCCTGGCCCTGGACTGCGCGGCCAGTGAGTTCTTCGAAGACGGTAAATACAACCTGTCCGGCGAAGGCCAGGTGTTCACCGCCGAAGGTTTTGCCGACTACCTCAAGGGCCTGACCGAGCGCTACCCGATCATCTCCATCGAAGATGGCCTGGACGAGTCCGACTGGGCTGGCTGGAAAATTCTCACCGACAAGATCGGCGAGAAAACCCAGCTGGTGGGTGACGACCTGTTCGTGACCAACACCAAGATCCTGAAAGAGGGCATCGACAAGAAGATCGCCAACTCGATCCTGATCAAGTTCAACCAGATCGGTACCCTGACCGAAACCCTGGAAGCCATCCAGATGGCCAAGGCTGCCGGCTACACCGCGGTCATCTCCCACCGTTCCGGTGAAACCGAAGATTCGACCATTGCCGACCTGGCCGTGGGTACTGCTGCAGGCCAGATCAAGACCGGTTCCCTGTGCCGTTCCGACCGCGTTTCCAAGTACAACCAACTGCTGCGTATCGAAGAGCAGTTGAACGGCAAGGCCAAGTACAACGGCCGTGCCGAGTTTCGCGGCTAA	MAKIVDIKGREVLDSRGNPTVEADVLLDNGIIGSACAPSGASTGSREALELRDGDKSRYLGKGVLKAVANINGPIRDLLLGKDPADQKALDQAMIKLDGTENKATLGANAILAVSLAAAKAAAQDQDLPLYAHIANLNGTPGVYSMPVPMMNIINGGEHADNNVDIQEFMVQPVGAKSFSEGLRMGTEIFHHLKAVLKARGLSTAVGDEGGFAPNLASNEDALKVISEAVANAGYKLGTDVTLALDCAASEFFEDGKYNLSGEGQVFTAEGFADYLKGLTERYPIISIEDGLDESDWAGWKILTDKIGEKTQLVGDDLFVTNTKILKEGIDKKIANSILIKFNQIGTLTETLEAIQMAKAAGYTAVISHRSGETEDSTIADLAVGTAAGQIKTGSLCRSDRVSKYNQLLRIEEQLNGKAKYNGRAEFRG	PGPT0018050_3676	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
D1-35_00143	279	ftsB		Cell division protein FtsB	ATGCGCAGTCCCAATTGGTTGTTTCTTGTCTTGCTTCTCTTGCTGGCCGGCTTGCAGTACCGCCTGTGGGTGGGTAATGGCAGCCTGGCGCAAGTGGCCGACCTGACTCAGCAAATTGCCGACCAGCACGCTGAAAACGAGGCGCTGCTGGAGCGTAACCGGGTAATGGACGCCGAAGTGACAGAGCTGAAAAAAGGCATGGAGACCGTTGAAGAGCGGGCTCGACATGAGCTGGGCATGGTCAAGGAGGGCGAAACCCTCTACCAGTTGGCCCAATGA	MRSPNWLFLVLLLLLAGLQYRLWVGNGSLAQVADLTQQIADQHAENEALLERNRVMDAEVTELKKGMETVEERARHELGMVKEGETLYQLAQ				NA	NA	NA	NA	NA
D1-35_00144	708	ispD	COG1211	2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase	ATGAGTATTCGTTTGCCGGCCTTCTGGGCCGTGATTCCTGCCGCGGGCGTTGGTGCCCGCATGGCCGCGGACCGTCCCAAGCAATATCTGCAGCTGGGCGGACGTACCATTCTCGAACACAGCCTTGGCTGTTTTCTCGACCACCCAACCGTCAAGGGCGTGGTCGTCAGCGTTGCACAGGATGATCCTTACTGGCCGACACTGGCCTGCGCCAGCAATCCTCGAATCCAGCGTGTGGACGGCGGTGAGCAGCGTTCCGATTCGGTGCTCAATGCCTTGTTGCACCTTCATGAACACGGCGCCGACGATTTCGATTGGGTGCTGGTGCATGACGCCGCGCGGCCCAATCTGGCGCGGGGCGATCTCGACACATTGCTCCATGAGCTGGCGAACGATCCGGTCGGAGGACTGTTGGCAGTGCCCGCCCGCGATACGCTCAAGCGCGTCGACAAGCATGGCCGTGTGTTGGAAACGATCGATCGCAGCGTGATCTGGCAAGCCTACACGCCACAGATGTTCCGCCTCGGCGCCTTGCATCGGGCCCTGGCCGACAGCCTGGTGGCGGATGCACTGATCACCGACGAAGCTTCGGCCATGGAATGGGCGGGGCAGGCGCCTCGGTTGATCGAAGGGCGATCGGACAACGTCAAGGTCACCCGGCCGGAAGACCTGGAGTGGTTGCGCCAGCGTTGGGCGAATCGGCATTGA	MSIRLPAFWAVIPAAGVGARMAADRPKQYLQLGGRTILEHSLGCFLDHPTVKGVVVSVAQDDPYWPTLACASNPRIQRVDGGEQRSDSVLNALLHLHEHGADDFDWVLVHDAARPNLARGDLDTLLHELANDPVGGLLAVPARDTLKRVDKHGRVLETIDRSVIWQAYTPQMFRLGALHRALADSLVADALITDEASAMEWAGQAPRLIEGRSDNVKVTRPEDLEWLRQRWANRH	PGPT0007590_1621	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007590-ispD-K00991	NA	NA
D1-35_00145	897	dmlR_1		HTH-type transcriptional regulator DmlR	ATGTCTGACAATCGCTGGGAAGGCATCGACGAGTTCGTCGCCGTGGCCGAATGCAGCCAGTTCACCGCGGCGGCCGAGCGCCTTGGGGTTTCGTCTTCTCACATCAGTCGACAAATCGTACGGCTGGAAGAGCGTCTGCAGACACGATTGCTCTATCGCAGTACCCGGCGTGTGACCCTCACCGAGGCTGGTCAGACTTTTCTGCAGCATTGCCAACGCCTGCAGGACGGACGCGAGGAAGCGCTGCGGGCGGTGGGTGATCTCACCAGCGAACCCAAGGGCATGCTGCGAATGACCTGCGCCGTGGCCTACGGCGAGCGTTTTATCGTGCCACTGGTGACGCGGTTCATGGGGCTGTACCCGCAACTGCGAGTAGACATCGAACTGAGCAATCGCCCACTGGACCTGGTTCACGAAAGCCTTGATCTGGCGATTCGCCTCGGCCGCCTGCAGGACTCGCGCCTGGTCGCGACACGCCTGGCGCCGCGGCGCATGTACCTCTGCGCTTCACCGTCCTATCTGGAACGCTACGGTCGGCCCCACAGCGTGTCGGAACTGAGCCGTCACAACTGCCTCATCGGCAGCTCCGACATTTGGCAACTGGAGCAGAACGGGCGGGAATTTTCTCAACGGGTGCAGGGAAACTGGCGTTGTAACAGTGGGCAAGCGGTGCTTGATGCGGCGCTGCAAGGGGTGGGTTTGTGCCAATTGCCGGATTATTACGTGCTTGAACATCTGCACAGCGGTGCGCTGATCTCTTTGCTGGAGGCTCATCAGCCGCCGAATACGGCGGTTTGGGCGCTGTACCCGCAGCAGCGGCATCTGTCGCCCAAGGTGCGCAAGTTGGTGGATTACTTGAAGGAGGGGTTGGCTGAGCGGCCGGAGTATCGGGGGTGA	MSDNRWEGIDEFVAVAECSQFTAAAERLGVSSSHISRQIVRLEERLQTRLLYRSTRRVTLTEAGQTFLQHCQRLQDGREEALRAVGDLTSEPKGMLRMTCAVAYGERFIVPLVTRFMGLYPQLRVDIELSNRPLDLVHESLDLAIRLGRLQDSRLVATRLAPRRMYLCASPSYLERYGRPHSVSELSRHNCLIGSSDIWQLEQNGREFSQRVQGNWRCNSGQAVLDAALQGVGLCQLPDYYVLEHLHSGALISLLEAHQPPNTAVWALYPQQRHLSPKVRKLVDYLKEGLAERPEYRG				NA	NA	NA	NA	NA
D1-35_00146	1113	frmA	COG1062	S-(hydroxymethyl)glutathione dehydrogenase	ATGATCAAGTCGCGCGCCGCCGTTGCCTTCGAGGCCAAGAAACCCCTGGAAATCGTTGAAGTCGACGTCGCCATGCCGAAAGCCGGCGAGGTGCTGTTGCGCGTGGTGGCTTCGGGCGTTTGCCATACCGACGCCTACACGTTGTCGGGCGCCGACCCGGAGGGGATCTTCCCGTCGATACTCGGTCATGAAGGCGGCGCGATCGTCGAGGCCATTGGCGAAGGCGTGACTTCGGTGGCGGTGGGTGACCATGTGATTCCGCTGTACACACCGGAGTGCGGCCAGTGCAAATTCTGCAAGTCGGGCAAGACCAACCTGTGTCAGGCGATTCGCGCCACCCAGGGCAAAGGCCTGATGCCGGACGGCACTTCGCGCTTTTCCTACAAGGGCGAGACAATTTTCCACTACATGGGCACTTCGACGTTCTCTGAATACACCGTGCTGCCGGAAATCTCCGTAGCGAAGATTCCAAAAGAAGCGCCGCTGGAAAAAGTCTGCCTGCTGGGCTGCGGCGTCACCACCGGCATTGGCGCGGTGCTCAATACCGCCAAGGTCAAGCCAGGGGACACCGTGGCAATCTTCGGCCTGGGCGGCATCGGCCTGTCGGCAGTGATCGGCGCGGTGAAAGCCAAGGCCTCGCGCATCATCGCCATCGACATCAACCCGGCCAAGTTCGAGATCGCCAGGCAGCTCGGCGCGACCGATTGCGTCAACCCGAAAGACTTTGATCGCCCGATCCAGGAAGTCATCGTCGACATGACCGATGGCGGCGTGGACTTCTCCTTTGAATGCATCGGCAATGTCCAGTTGATGCGCGCCGCGCTGGAATGCTGCCACAAGGGCTGGGGCGAGTCGGTGATCATCGGCGTGGCCGGGGCCGGCCAGGAAATTGCCACCCGTCCATTCCAGCTGGTGACCGGCCGCGTCTGGCGCGGTTCGGCCTTTGGCGGCGTGCGTGGTCGCAGCGAGTTGCCAAGCTATGTGGAAATGGCCGAAAAGGGCGAGATCCCGCTGGATACTTTCATCACCCACACCATGGGCCTGGAAGATATCAACAAGGCATTCGACCTGATGCACGAAGGCAAGAGCATCCGTACCGTTATTCATTTCTGA	MIKSRAAVAFEAKKPLEIVEVDVAMPKAGEVLLRVVASGVCHTDAYTLSGADPEGIFPSILGHEGGAIVEAIGEGVTSVAVGDHVIPLYTPECGQCKFCKSGKTNLCQAIRATQGKGLMPDGTSRFSYKGETIFHYMGTSTFSEYTVLPEISVAKIPKEAPLEKVCLLGCGVTTGIGAVLNTAKVKPGDTVAIFGLGGIGLSAVIGAVKAKASRIIAIDINPAKFEIARQLGATDCVNPKDFDRPIQEVIVDMTDGGVDFSFECIGNVQLMRAALECCHKGWGESVIIGVAGAGQEIATRPFQLVTGRVWRGSAFGGVRGRSELPSYVEMAEKGEIPLDTFITHTMGLEDINKAFDLMHEGKSIRTVIHF	PGPT0006355_2406	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006355-frmA|ADH5|adhC-K00121	NA	NA
D1-35_00147	846	yeiG	COG0627	S-formylglutathione hydrolase YeiG	ATGAGCCTGGAAAACATCTCCTGCCAGAAAAGCTTCGGCGGCTGGCACAAACGTTACCGCCACCGTTCCGAAGTGCTCGGTTGTGACATGGTCTTTGCCGTCTACCTGCCGCCGCAAGCCGAGCAGGGCGGCAAGCTGCCGGTGCTGTACTGGTTGTCCGGACTGACCTGCACCGATGAAAACTTCATGCACAAGGCCGGTGCCCAGCGCATGGCCGCCGAGTTGGGGCTGATCATCGTCGCGCCGGACACCAGCCCCCGCGGCGCCGACGTGCCGGGCGATCCGGACGGCGCCTGGGATTTCGGCCTGGGCGCGGGTTTTTATGTGAACGCCACGCAGGATCCTTGGGCGCGGCACTATCGGATGCATGATTATGTGGTGCAGGAATTGCCGACCTTGGTCGAAGCACATTTCCCTGCCTCGGATAAACGCGGCATCAGCGGTCATTCCATGGGCGGCCATGGCGCGCTGGTCTGCGCCTTGCGCAACCCTGGGCGTTACCGTTCGGTGTCGGCTTTTTCACCAATCAACAACCCGATGGATTGCCCGTGGGGGCAGAAGGCTTTTTCCCGTTACCTGGGGGAAGACCGCTCGAAATGGCGTGAGTGGGATGCCTGTGCATTGATTGCCGAGGCGCAGGAAAAGCTGCCACTGCTGGTGGATCAGGGTGACCGCGATGATTTCCTGGCCAATCAGCTCAAGCCCGAAGCTTTGCAGCAGGCGGCCAAAGTGGCCGGTCATCCGCTGGAGTTGCGCCTGCAACCAGGCTACGACCACAGCTATTTCTTCATCGCCAGCTTTATTGATGATCACTTGCAGCATCATGCGCGCGCTCTGAACGCCTAA	MSLENISCQKSFGGWHKRYRHRSEVLGCDMVFAVYLPPQAEQGGKLPVLYWLSGLTCTDENFMHKAGAQRMAAELGLIIVAPDTSPRGADVPGDPDGAWDFGLGAGFYVNATQDPWARHYRMHDYVVQELPTLVEAHFPASDKRGISGHSMGGHGALVCALRNPGRYRSVSAFSPINNPMDCPWGQKAFSRYLGEDRSKWREWDACALIAEAQEKLPLLVDQGDRDDFLANQLKPEALQQAAKVAGHPLELRLQPGYDHSYFFIASFIDDHLQHHARALNA	PGPT0002120_1166	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-FORMIC_ACID_BIOSYNTHESIS,PGPT0002120-frmB|fghA-K01070	NA	NA
D1-35_00148	474	ispF	COG0245	2-C-methyl-D-erythritol 2,4-cyclodiphosphate synthase	ATGCGTATTGGCCACGGCTACGATGTTCACCGTTTCGCTGAAGGCGACTTCATTACTCTGGGCGGCGTGCGTATCGCACACGGCTTCGGGCTGCTTGCGCATTCTGACGGTGACGTGTTGCTGCACGCCTTGAGCGACGCTCTGCTCGGCGCGGCTGCCCTGGGCGACATCGGCAAGCATTTCCCGGACACCGACCCGCAATTCAAGGGCGCCGACAGCCGCGTGCTGCTGCGCCACGTGGTCGCGTTGATCCACGCCAAGGGCTGGGTAGTCGCCAATGTCGACAACACCATTATTGCCCAGGCCCCCAAGATGGCGCCGCACATCGAAGCGATGCGCCAGCGGATTGCCGAGGATCTCCAGGTTGAGCTGGACCAGGTGAACGTCAAGGCCACCACGACCGAGAAGCTTGGTTTCGTTGGTCGCGAAGAAGGCATCGCCGTCCATTCCGTCGCCTTGTTGCAGCGCCCATGA	MRIGHGYDVHRFAEGDFITLGGVRIAHGFGLLAHSDGDVLLHALSDALLGAAALGDIGKHFPDTDPQFKGADSRVLLRHVVALIHAKGWVVANVDNTIIAQAPKMAPHIEAMRQRIAEDLQVELDQVNVKATTTEKLGFVGREEGIAVHSVALLQRP	PGPT0007595_2628	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
D1-35_00149	1059	truD	COG0585	tRNA pseudouridine synthase D	ATGACCGAACTGGAACTCTTGGGCCCGCGGGCCTACGGTGAGACATTGGGCCGTGCGGTACTGAAGGCTACCGCCGAGGATTTCCAGGTCGACGAAGTGCTTGATATCCCGTTGTCCGGTGATGGCGAGCATCTGTGGATCTGGGTGGAAAAACGCGGCTTGAATACCGAGGAGGCTGCCCGGCGAATCGCCAAGGCCGCCGGCGTTCCTTTGCGCACGGTCAGCTACGCCGGGCTCAAGGATCGTCAGGCCCTGACCCGGCAATGGTTCAGCGTGCAATTGCCCGGCAAGGCCGACCCAGACCTGTCGACGGCAGAAAACGATACGCTGAAGATCCTCAAGACCGCACGCCACAGACGCAAGCTGCAGCGCGGCGCGCACTCGGCCAATGGCTTTACCTTGCGCCTGACCCAGTTCTCGGGCGACAAAGAGGCCATCGAGACACGTCTGCAACACATCGCCCTTCAAGGCATTCCGAATTATTTTGGTGCCCAGCGCTTTGGCCATGACGGCGGCAACGTCGTCGATGCCCGTGCCTGGGCGGCGCGCAAGGCTTTGCCGGAGCAGCGCAACGTGCGTTCTCGGCTGTTGTCCACCGCGCGCAGCTTTCTGTTCAACCGGGTGCTGGCGGCGCGAGTCGCCGACGGTACCTGGCGGCAAGCCCAGGTGGGCGACTTGCTCGCCTTTACCGACAGCCGCAGTTTTTTCCCAGCCGGTAAGGCTGAGTGCAGCGATCCGCGCCTGGCCATTCTCGATCTGCACCCGACCGGGCCGCAGTGGGGCGAAGGACCTTCGCCCGCCGCCGGGGCAACCTTCGAATTGGAGCAAGCCATCGCCGCGGACGAGGCCGATCTGCGGGACTGGTTGATAAACGCGGGAATGAGTCACGAACGTCGCATCCTGCGACTGCCCATTGGCGGGCTGTCGTGGCATTATCCCTCGCCTGACATTCTGCAATTGGAATTCGTCCTGCCGGCCGGATGTTTCGCCACTGTCTTGGTGCGCGAACTCGTCGATCTGGTGCCGGTGGGGCAGACGGACAGCCCATGCGTATTCTGA	MTELELLGPRAYGETLGRAVLKATAEDFQVDEVLDIPLSGDGEHLWIWVEKRGLNTEEAARRIAKAAGVPLRTVSYAGLKDRQALTRQWFSVQLPGKADPDLSTAENDTLKILKTARHRRKLQRGAHSANGFTLRLTQFSGDKEAIETRLQHIALQGIPNYFGAQRFGHDGGNVVDARAWAARKALPEQRNVRSRLLSTARSFLFNRVLAARVADGTWRQAQVGDLLAFTDSRSFFPAGKAECSDPRLAILDLHPTGPQWGEGPSPAAGATFELEQAIAADEADLRDWLINAGMSHERRILRLPIGGLSWHYPSPDILQLEFVLPAGCFATVLVRELVDLVPVGQTDSPCVF				NA	NA	NA	NA	NA
D1-35_00150	750	surE_1	COG0496	5'-nucleotidase SurE	ATGCGTATTCTGATTTCTAACGACGACGGGGTGACAGCACCCGGTCTTGCCGCGCTTTATGCTGCGCTGGCGGATTTTGCCGAGTGCGTGGTCATCGCCCCGGACCAGGACAAAAGCGGCGCGAGCAGCTCGCTGACGCTCGACCGTCCGCTGCATCCCTGCTACCTGGACAACGGTTTCATCAGCCTCAACGGTACGCCGACCGATTGCGTGCACCTGGGCCTGAACGGCCTGCTGGAGCGCGAGCCCGACATGGTGGTTTCCGGGATAAACCTGGGGGCCAACCTGGGCGATGACGTACTGTATTCCGGAACGGTCGCCGCCGCCCTGGAAGGTCGTTTCCTCAACCATACGTCGTTCGCCTTTTCGTTTGTTTCACGGCAGGTCGACAATTTGCCCACTGCCGCCTACTTCGCCCGCAAACTGGTGCAGGCCCACGGCGAGCTGGACCTGCCGCCGCGTACGGTGCTGAACGTGAATATCCCGAATCTGCCGCTTGATCATATCCGTGGCATCCAGCTCACTCGCCTGGGTCACCGCGCCCGGGCTGCCAGGCCGATGCATGTCGTCGACCCGCGCGGCAAGGCCGGGTACTGGATCGCCGCCGCCGGCGATGCCGAAGACGGCGGGCCTGGCACCGACTTCCATGCAGTGATGCAGGGCTATGTCTCGATCACACCCTTGCAGCTCGATCGCACTTTCAACGATGCCTTTCGAAGTCTCGATGGCTGGCTGGAGGGGCTGCGCTGA	MRILISNDDGVTAPGLAALYAALADFAECVVIAPDQDKSGASSSLTLDRPLHPCYLDNGFISLNGTPTDCVHLGLNGLLEREPDMVVSGINLGANLGDDVLYSGTVAAALEGRFLNHTSFAFSFVSRQVDNLPTAAYFARKLVQAHGELDLPPRTVLNVNIPNLPLDHIRGIQLTRLGHRARAARPMHVVDPRGKAGYWIAAAGDAEDGGPGTDFHAVMQGYVSITPLQLDRTFNDAFRSLDGWLEGLR	PGPT0013405_3390	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013405-surE-K03787	NA	NA
D1-35_00151	678	pcm	COG2518	Protein-L-isoaspartate O-methyltransferase	ATGGGTCGTGAACAAGACGATATGCTGCGCCGCGGAATTGGCATGACCTCCCAGCGGACTAGGGAACGGTTGATCCAGCGGCTGTACGAAGAAGGCTTGTCCAACGCCCAGGTGCTCGAGGTGATTCGCCGTACGCCGCGTCATCTTTTCGTCGATGAAGCGTTGGCCCATCGCGCCTATGAAGACACGGCGTTGCCGATCGGCCACAACCAGACCATTTCCCAGCCCTACATGGTGGCTCGCATGAGCGAGTTGCTGCTGGAGGCGGGGCCGCTGGACAAGGTGCTGGAGATCGGCACGGGCTCGGGTTACCAGACCGCGGTATTGTCGCAGTTGGTGGAGCGGGTGTTTTCCGTGGAGCGAATCAAGGTCCTGCAGGATCGCGCCAAGGAGCGCCTGGTGGAGCTGAACCTGCGCAACGTGGTGTTTCGCTGGGGCGACGGTTGGGAAGGCTGGCCGGCGCTGGCGCCTTATAACGGCATCATCGTCACGGCCGTTGCCACCGATGTTCCCCAGGCTCTGCTGGACCAACTCGCTCCCGGCGGGCGACTGGTGATTCCGGTGGGTGCGGGCGAAGTCCAGCAACTGATGTTGATTGTGCGTGAAGAACACGGTTTTTCACGACACGTCCTCGGGGCGGTGCGTTTCGTGCCGTTGCTCAACGGGCCATTGGCCTGA	MGREQDDMLRRGIGMTSQRTRERLIQRLYEEGLSNAQVLEVIRRTPRHLFVDEALAHRAYEDTALPIGHNQTISQPYMVARMSELLLEAGPLDKVLEIGTGSGYQTAVLSQLVERVFSVERIKVLQDRAKERLVELNLRNVVFRWGDGWEGWPALAPYNGIIVTAVATDVPQALLDQLAPGGRLVIPVGAGEVQQLMLIVREEHGFSRHVLGAVRFVPLLNGPLA				NA	NA	NA	NA	NA
D1-35_00152	846			hypothetical protein	GTGAGTCTCACAGTCATTGCGCAGCGTATGGGTATCACGAGCTTCAAGCGCCTGGTGACTGGCCTTCTCTTGAGTACCTTGCTGGTCGGTTGTTCCAGTACTCCGTCGGGTAATGTCCGGGTGGTCGATCGCAACAATGCGACACCGCAGCGGCCTACAGTGACGACCGGTCAGTATGTAGTCCGTCGCGGCGATACGCTGTTTTCCATCGCGTTTCGCTACGGCTGGGACTATAAAGCCCTCGCGGCTCGCAACAACATTCCTGCGCCTTATACGATCCATCCGGGTCAGACAATTCGCTTTGACGGTCGCAGTGCCTCAACGCCTACCGCGGTCGTGACGCAGTCGGGTTCGACCCCGTCATCCTCGAGCAAAACCACGGTTATCCGTCGTCCGGCCGGTGCCGCAACGGCGACTGTACCGTCCGTCGCGAACAAGCCGGCACCCGCTCCGATGCCTCCGGCGGGCCCCGCCCCGACCGGCTGGGGATGGCCTTCTAATGGCGTTCTCATTGGAAAATTCTCTTCAAACGGTAGTTTGAATAAAGGAATTGATATCGCCGGGGATTTGGGACAGCCTGTTTTGGCAGCGTCTGATGGCACGGTCGTGTACGCCGGGAGTGGTTTAAGGGGCTACGGCGAACTCGTGATCATCAAACACAGCGATACCTACGTCAGTGCCTACGGTCACAACCGCAGGCTGTTGGTTCGGGAGGGGCAGCAGGTCAAGGTCGGACAGACAATTGCCGAAATGGGCTCAACGGGTACGGATCGAGTGAAACTGCATTTTGAGATTCGCCGACAAGGTAAACCTGTGGATCCGCTGCAATTCCTGCCACGTCGTTGA	MSLTVIAQRMGITSFKRLVTGLLLSTLLVGCSSTPSGNVRVVDRNNATPQRPTVTTGQYVVRRGDTLFSIAFRYGWDYKALAARNNIPAPYTIHPGQTIRFDGRSASTPTAVVTQSGSTPSSSSKTTVIRRPAGAATATVPSVANKPAPAPMPPAGPAPTGWGWPSNGVLIGKFSSNGSLNKGIDIAGDLGQPVLAASDGTVVYAGSGLRGYGELVIIKHSDTYVSAYGHNRRLLVREGQQVKVGQTIAEMGSTGTDRVKLHFEIRRQGKPVDPLQFLPRR	PGPT0023860_1112	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0023860-nlpD-K06194	NA	NA
D1-35_00153	1008	rpoS	COG0568	RNA polymerase sigma factor RpoS	ATGGCTCTCAGTAAAGAAGTGCCGGAGTTTGACATCGACGATGAGGTCCTCCTTATGGAGACCGGCATCGCTATGGATTCGATGTCGAATGATGAAGGGGCGACTCCACCTTCCGTTCGTGCCAAATCCAAACACTCCGCTTCACTTAAACAACATAAGTACATCGATTACACCCGGGCGCTGGACGCCACTCAGCTGTACCTCAACGAAATCGGCTTCTCACCATTGCTCTCCCCCGAGGAAGAAGTTCATTTTGCGCGCTTGTCGCAAAGTGGCGACCCGGCGGGTCGAAAACGCATGATTGAAAGCAACCTGCGCCTGGTGGTGAAAATCGCCCGACGCTACGTCAATCGTGGGCTTTCGCTGCTGGACCTGATCGAAGAGGGCAACCTGGGCCTGATTCGCGCCGTCGAGAAGTTCGACCCCGAGCGCGGCTTCCGTTTCTCGACCTATGCGACCTGGTGGATCCGCCAGACCATCGAACGGGCGATCATGAATCAGACCCGGACCATCCGGCTGCCGATCCACGTGGTCAAGGAGCTCAACGTCTACCTGCGAGCCGCCCGCGAGTTGACCCAGAAGCTCGATCACGAACCTTCACCCGAGGAAATCGCCAACCTGCTGGAAAAACCGGTGGGCGAGGTCAAGCGCATGCTCGGTCTCAACGAGCGGGTCTCATCGGTTGACGTTTCACTGGGGCCAGACTCGGACAAGACGCTGCTCGACACCCTTACCGACGATCGTCCGACCGATCCATGCGAGTTGCTCCAGGATGATGACTTGTCCCAAAGCATCGACCAATGGCTTTCGGAGCTCACGGACAAGCAACGGGAAGTGGTGATCCGCCGCTTCGGCTTGCGCGGTCATGAAAGCAGCACCCTTGAAGACGTGGGTCTGGAGATTGGTTTGACCCGTGAGCGGGTCAGGCAGATCCAGGTCGAAGGCCTCAAGCGCCTCCGGGAGATCCTGGAGAAGAACGGCCTGTCTAGCGAGTCGTTGTTCCAGTAA	MALSKEVPEFDIDDEVLLMETGIAMDSMSNDEGATPPSVRAKSKHSASLKQHKYIDYTRALDATQLYLNEIGFSPLLSPEEEVHFARLSQSGDPAGRKRMIESNLRLVVKIARRYVNRGLSLLDLIEEGNLGLIRAVEKFDPERGFRFSTYATWWIRQTIERAIMNQTRTIRLPIHVVKELNVYLRAARELTQKLDHEPSPEEIANLLEKPVGEVKRMLGLNERVSSVDVSLGPDSDKTLLDTLTDDRPTDPCELLQDDDLSQSIDQWLSELTDKQREVVIRRFGLRGHESSTLEDVGLEIGLTRERVRQIQVEGLKRLREILEKNGLSSESLFQ	PGPT0014685_391	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-OXYGEN_AVAILABILITY_SIGNALLING,PGPT0014685-rpoS-K03087	NA	NA
D1-35_00155	324	fdxA	COG1146	Ferredoxin 1	ATGACCTTCGTCGTCACCGACAACTGCATCAAGTGCAAGTACACCGACTGCGTAGAAGTCTGTCCGGTGGACTGCTTTTACGAAGGCCCGAACTTCCTGGTCATTCATCCGGACGAGTGCATCGACTGCGCCCTGTGTGAACCGGAATGCCCGGCGAACGCCATTTTCTCGGAAGACGAAGTGCCGGCCGGTATGGAAAACTTCATCGAGCTGAACGCCGAACTGGCGGATATCTGGCCGAACATCACCGAGAAGAAAGACGCCCTGCCCGACGCCGAAGAATGGGATGGCAAGCCTGGCAAGATCGCAGACCTGGAACGCTGA	MTFVVTDNCIKCKYTDCVEVCPVDCFYEGPNFLVIHPDECIDCALCEPECPANAIFSEDEVPAGMENFIELNAELADIWPNITEKKDALPDAEEWDGKPGKIADLER	PGPT0030810_861	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0030810-fdxA-K05524
D1-35_00156	2580	mutS	COG0249	DNA mismatch repair protein MutS	ATGAATACAGCCGTGAACGACCTGTCCTCCCACACGCCGATGATGCAGCAATACTGGCGCCTGAAGAACCAGCACCCCGATCAGCTGATGTTCTATCGCATGGGCGACTTCTACGAGATCTTCTACGAGGACGCGAAGAAGGCCGCCAAGCTGTTGGACATCACCCTGACGGCGCGTGGGCAATCGGCGGGCATGGCGATTCCGATGTGTGGGATTCCTTACCACGCGGCGGAAGGCTACCTGGCGAAACTGGTCAAGCTGGGCGAGTCCGTGGTGATTTGCGAACAAGTCGGCGATCCGGCCACCAGCAAGGGCCCGGTGGAGCGCCAGGTCGTGCGGATCATCACCCCGGGCACAGTCAGTGACGAGGCATTGCTGGATGAACGTCGGGACAACCTGATCGCCGCCGTCCTCGGCGACGAGCGCCTGTTCGGCCTGGCCGTGCTGGACATCACCAGCGGCAACTTCTCGGTATTGGAAATCAAGGGCTGGGAAAACCTGCTGGCGGAACTGGAGCGGGTCAATCCGGTGGAGTTGTTGATCCCGGATGACTGGCCCAAAGACCTGCCAGCGGAAAAACGCCGTGGCGTACGTCGCCGGGCGCCGTGGGATTTCGAGCGCGACTCGGCGTTGAAAAGCCTCTGCCAGCAGTTTTCCACCCAGGACCTCAAGGGCTTCGGCTGCGAGAACCTGACCCTGGCCATCGGCGCCGCCGGCTGCCTGCTGGCCTACGCCAAGGAAACCCAGCGCACCGCCCTGCCCCATCTGCGCAGCCTGCGTCACGAACGCCTGGATGACACGGTCGTGCTGGACGGCGCGAGCCGACGCAACCTGGAACTGGACACCAACCTGGCCGGTGGCCGCGATAACACCCTGCAATCGGTAGTCGATCGCTGCCAGACCGCCATGGGCAGCCGCCTGCTGACCCGCTGGCTGAACCGACCGCTGCGGGACCTGACGGTACTGCAAGCACGCCAGTCTTCCATTACTTGCCTGCTGGACCGGTATCGTTTCGAGCAGCTGCAACCGCAGCTCAAGGAAATCGGCGATATCGAGCGGATCCTCGCGCGGATCGGCCTGCGCAACGCCCGTCCTCGCGACCTGGCGCGCCTGCGCGACGCCCTCGGCGCGCTGCCCGAACTTCAGCTGGCGATGACCGACCTTGAAGCACCTCACCTGCAGCAGCTGGCGTGCACCACCAGCACCTACCCGGAACTGGCCGCGCTGCTGGAAAAAGCCATTATCGACAATCCGCCAGCGGTAATTCGGGACGGCGGCGTGCTGAAAACCGGTTACGACGCCGAACTCGACGAGCTGCAATCGCTGAGCGAAAACGCCGGCCAATTCCTGATCGACCTCGAAGCCCGGGAAAAGGCCCGTACCGGCCTTGCCAACCTCAAGGTCGGCTACAACCGCATCCATGGCTACTTCATCGAGCTGCCGAGCAAGCAGGCCGAGCAAGCCCCGGCCGATTACATTCGCCGCCAGACCCTCAAGGGCGCCGAGCGTTTCATCACGCCGGAACTCAAGGCTTTCGAAGACAAGGCCCTGTCAGCCAAGAGTCGTGCCCTCGCCCGGGAAAAGATGCTCTACGAAGCGCTGCTCGAAGACCTGATCAGCCAGCTCCCACCGTTGCAGGACACCGCCGCCGCCCTGGCGGAACTGGACGTGTTGAGTAACCTGGCCGAACGCGCGCTGAACCTGGACCTCAATTGCCCACGCTTCGTCAGCGAGCCGTGCATGCGCATCAGCCAGGGTCGTCACCCGGTGGTCGAGCAGGTATTGACCACGCCGTTCGTGGCCAACGACCTGAGCCTGGACGACAATACTCGCATGCTGGTGATCACCGGTCCGAACATGGGCGGTAAATCCACCTACATGCGCCAGACCGCGCTGATTGTGCTGCTGGCTCACATCGGCAGCTTCGTCCCGGCGGCCAGTTGCGAACTGTCCCTGGTGGACCGGATCTTCACCCGGATCGGCTCCAGCGATGACCTGGCCGGTGGGCGTTCGACCTTCATGGTGGAAATGAGCGAAACCGCGAACATCCTGCACAATGCCACCGAGCGCAGCCTGGTGCTGATGGACGAAGTCGGTCGCGGCACCAGCACCTTCGACGGCCTGTCCCTGGCCTGGGCGGCCGCTGAACGTCTGGCCCAGTTGCGCGCTTATACGCTGTTCGCCACGCACTATTTCGAATTGACGGTGTTGCCGGAGAGCCAGCCGCTGGTGGCCAACGTCCACCTCAACGCCACCGAGCACAACGAACGCATCGTGTTCCTTCACCACGTACTGCCCGGCCCGGCCAGCCAGAGCTACGGCCTGGCGGTGGCACAACTGGCCGGTGTGCCGAGCGACGTCATCACCCGCGCTCGCGAGCACCTCAGTCGCCTGGAGACCACCAGCTTGCCGCACGAGGTACCGCGCCCGACCAAAGGCAAACCGGCCGCGCCGCAGCAAAGCGACCTGTTCGCCAGCCTGCCGCATCCGGTGCTCGACGAACTGGCCAAGCTCGACCTCGACGACATGACCCCGCGCCGGGCGCTGGATTTACTCTATACATTGAAGACACGGGTCTAA	MNTAVNDLSSHTPMMQQYWRLKNQHPDQLMFYRMGDFYEIFYEDAKKAAKLLDITLTARGQSAGMAIPMCGIPYHAAEGYLAKLVKLGESVVICEQVGDPATSKGPVERQVVRIITPGTVSDEALLDERRDNLIAAVLGDERLFGLAVLDITSGNFSVLEIKGWENLLAELERVNPVELLIPDDWPKDLPAEKRRGVRRRAPWDFERDSALKSLCQQFSTQDLKGFGCENLTLAIGAAGCLLAYAKETQRTALPHLRSLRHERLDDTVVLDGASRRNLELDTNLAGGRDNTLQSVVDRCQTAMGSRLLTRWLNRPLRDLTVLQARQSSITCLLDRYRFEQLQPQLKEIGDIERILARIGLRNARPRDLARLRDALGALPELQLAMTDLEAPHLQQLACTTSTYPELAALLEKAIIDNPPAVIRDGGVLKTGYDAELDELQSLSENAGQFLIDLEAREKARTGLANLKVGYNRIHGYFIELPSKQAEQAPADYIRRQTLKGAERFITPELKAFEDKALSAKSRALAREKMLYEALLEDLISQLPPLQDTAAALAELDVLSNLAERALNLDLNCPRFVSEPCMRISQGRHPVVEQVLTTPFVANDLSLDDNTRMLVITGPNMGGKSTYMRQTALIVLLAHIGSFVPAASCELSLVDRIFTRIGSSDDLAGGRSTFMVEMSETANILHNATERSLVLMDEVGRGTSTFDGLSLAWAAAERLAQLRAYTLFATHYFELTVLPESQPLVANVHLNATEHNERIVFLHHVLPGPASQSYGLAVAQLAGVPSDVITRAREHLSRLETTSLPHEVPRPTKGKPAAPQQSDLFASLPHPVLDELAKLDLDDMTPRRALDLLYTLKTRV				NA	NA	NA	NA	NA
D1-35_00157	168			hypothetical protein	ATGATTTCGATCAAGCTGGGCTTGTCCAAAGGAACCAAAAGCACCTTTGCCGATTTTATTCGTAATGCTAAATCGGACCAAAAAAAACGTGTTTATAGCGAGGTTTTGACAGAGGCTACCAAGCAGCAAAACCTGGTGATGATGCAGGCCGAGGCGAAACGAGGCTGA	MISIKLGLSKGTKSTFADFIRNAKSDQKKRVYSEVLTEATKQQNLVMMQAEAKRG				NA	NA	NA	NA	NA
D1-35_00158	759			hypothetical protein	ATGACGGAGAATGCCGATACACGCAGCCGGCTACTGGCCTCAGCAGACCAAGCCGTCCATGAAGACGCATTGCGCTTCGCTCGGTCCAATAAAAAAGCAATCGCGAAGCGACTGACAGATAAGGCTCTTTATCCGCCAGAGGAAGCGCCCGTGTCAGTTTTTATGGCAGGCTCTCCGGGCGCCGGTAAAACCGAGGCATCAATAGCGTTGGTGAATCTGTTCGCAGATTCAGCGATCCTACGCATAGACGCAGATGAGCTACGAAGCGAGTTTCCAGCTTACGCTGGAGCAAACTCCTGGCTTTTTCAGGGAGGAGTTTCGATTCTGGTCGATAAAATGTTGGATTTCGCATTGGATCAAAGGCAGTCCTTCATCCTTGATGGAACGTTTTCCAACATAGACGTAGCAAGACGAAACGTAGATCGCTCCTTGAGAAAAGGCCGATTCGTACAAATTCTTTATGTATATCAGTCGCCTGTACTCGCCTGGGGATTCGTTAATGCTCGCGAGGCGGCCGAAGGCAGGAGGATCCGCAAAGAACATTTCATCAAGCAATATTTCGCCGCACGTGACGTAGTGAACGCGCTTAAGCTAGAGTATCGCGGCGATGTCCATGTGGACCTGTTACTCAAACATATCGACAATTCGGGACGACTTTACAAAGCTGGTGTCGATAAAATTGACTACCATATCCCTGAGCAACACACGCGGGCCGACCTAGAGGCCATGCTCGAGCCACCATCAGGAGGGCACCTATGA	MTENADTRSRLLASADQAVHEDALRFARSNKKAIAKRLTDKALYPPEEAPVSVFMAGSPGAGKTEASIALVNLFADSAILRIDADELRSEFPAYAGANSWLFQGGVSILVDKMLDFALDQRQSFILDGTFSNIDVARRNVDRSLRKGRFVQILYVYQSPVLAWGFVNAREAAEGRRIRKEHFIKQYFAARDVVNALKLEYRGDVHVDLLLKHIDNSGRLYKAGVDKIDYHIPEQHTRADLEAMLEPPSGGHL	PGPT0027620_106	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-PezT-PezA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027620-toxin_pezT|Zeta_toxin-K16214	NA	NA
D1-35_00159	276			hypothetical protein	ATGTCCAAACAGATACCAAATCCCCTCGAAGATAACCTCAAGCCGAAAGCCGACGAGGAAAGATCCGATACCCTCTACCTTATTGCTCCCAACATCGACACCGAATGCCTGCTCGCCAACCTCAGCGAAACCCTGGCCTCGGCCAACGCCATGGTCAGCGATCTCGCGTTTGACCTGGAAGGCTCGCGACGACATATCGCCCTAGGGATCCTCCAGATGATCGAGCTGAGCCAGTTGCTGGCGAATCGGGCATTGGATGTGGTGGATCCCAGATAA	MSKQIPNPLEDNLKPKADEERSDTLYLIAPNIDTECLLANLSETLASANAMVSDLAFDLEGSRRHIALGILQMIELSQLLANRALDVVDPR				NA	NA	NA	NA	NA
D1-35_00161	735	prtR_1	COG2932	HTH-type transcriptional regulator PrtR	ATGCAAAAACGCAACGTTTCTACCGTATTAAGAGCATTGCTCGATCAGCACGGGATCTCCCCCACGGAGCTTCACCGGCGTACCGGCGTGCCTCAGTCCACCCTCTCGCGGATCCTCAGCGGCAAGATCGTCGACCCTTCGGATAAACACATCTCGAAGATCGCCGAATATTTCGCCGTGAGCACCGACCAGTTGCGTGGGCGGGTCGACGTTGCGCCTGCCGGCAACAGCCGCCGCGAAGAGCCACATTCCGAACTCAAGGACATAAGCCTGTGGGACGATGACACGCCCGTCGAGGAAGACGAGGTGTCCGTTCCTTTTCTGCGTGAGGTTGAATTGGCTGCTGGATCAGGAAGATTCGTCATCGAGGAAAGCGAGCGCTCAAGCCTGCGTTTCGGCAAGCGCAGCCTGCGCCATAACGGCGTGCAGTTCGACCAGGCCAAGTGCGTGACGGTGCGTGGCAACAGCATGTTGCCGGTGCTGCGCGACGGCGCCACGGTCGGGGTGAACGCGGGCAAATGCGGGATCGGCGACATCGTCGACGGTGACCTCTACGCCATCAATCACAACGGCCAACTGCGGGTGAAGCAGCTATATCGCCTGCCCACCGGCATTCGCCTGCGCAGCTTCAACCGCGATGAGCATCCGGACGAGGACTACACCTTCCAGGAAATGCAGGACGAGCAGATCGTCATCCTCGGTCACGTCTTCTGGTGGGGCATGTACGCCCGTTAA	MQKRNVSTVLRALLDQHGISPTELHRRTGVPQSTLSRILSGKIVDPSDKHISKIAEYFAVSTDQLRGRVDVAPAGNSRREEPHSELKDISLWDDDTPVEEDEVSVPFLREVELAAGSGRFVIEESERSSLRFGKRSLRHNGVQFDQAKCVTVRGNSMLPVLRDGATVGVNAGKCGIGDIVDGDLYAINHNGQLRVKQLYRLPTGIRLRSFNRDEHPDEDYTFQEMQDEQIVILGHVFWWGMYAR				NA	NA	NA	NA	NA
D1-35_00162	171			hypothetical protein	ATGCTGAAGGATTTCAGATGCGGTCACTGCAAAAGACTTCTGGCCCGCATGGGCGAGAACACCGAACTCCAGATCAAGTGTCCCCGTTGCGGGACATTGAATCATGTGAAGGCCGTTGAGCCTCGAGTGAACGCCGGCGAGCAATGTATCAACCGTGCAATCAATCACTAA	MLKDFRCGHCKRLLARMGENTELQIKCPRCGTLNHVKAVEPRVNAGEQCINRAINH				NA	NA	NA	NA	NA
D1-35_00163	582			hypothetical protein	ATGAATCGTTTCAAGAAATACGCTACCCCGCTGATGCTCTGCGGCGTCCTGTTCGGTGTCGGAGGCAACGCTGTTGCTGCCAACCTTCTGGTCAACGGTAGCTTCGAACAGCCAGGCTGCAGCGCAAGTTGCATATTGAATACTCCAGCGCAAGCCAACTTCATTACGGGTTGGACGACGTTCCTGTCTGGAGCCGAGTATTTCAACCTGCCCGCTTCGATTGGCGGTTCCCTGGCGGCGGATGGCGTCGTAATTGTCGACTTGGCTAACTATATCTATAGCAACGGCGGCGGCATTCAGCAGAACTTTGCAACCTCCGTTGGCGCCAAGTACCGCTTGACCTTCAGCGCAGGTAATTCGCGTTACGCAAGTCGTTCCGGTGAAGGTGTTATCCAAATAAAAGTGGCGGGCCAAAGTGTCACTTTCAACACCCCTTCAGCAAAAGGTAGAGCTGTTGAGTGGAGCACCATTACGTATGACTTCATCGCGACCTCGCCTCAGACAACCCTGGCTTTTTCCAATGAGCAGAATCCGTATGCCAACTATGCCTTTATCGACAACGTAATCGTTGAGCGACTGTAG	MNRFKKYATPLMLCGVLFGVGGNAVAANLLVNGSFEQPGCSASCILNTPAQANFITGWTTFLSGAEYFNLPASIGGSLAADGVVIVDLANYIYSNGGGIQQNFATSVGAKYRLTFSAGNSRYASRSGEGVIQIKVAGQSVTFNTPSAKGRAVEWSTITYDFIATSPQTTLAFSNEQNPYANYAFIDNVIVERL				NA	NA	NA	NA	NA
D1-35_00164	351			hypothetical protein	ATGACAAACGAGCAACAAGCGTTGCTGGACATGCCGATCTGGCTGGTCATCGTGCTCGCCCTGGTGGGCGGGGTGACTGGCGAGATGTGGCGTGCCGACAAGGAGGGCGCCCGTGGCTGGTCACTGCTGCGGCGCCTGGCCCTGCGCTCCGGCGCCTGCATGATCTGTGGCGTCTCGGCGATCATGCTGTTGTACGCCATGGGCCTGTCGATCTGGGCCGCCGGTGCCTTCGGTTGCCTGACCGCGATGGCCGGGGCTGACGTGGCCATCGGGCTTTACGAGCGTTGGGCCGCCAAGCGGATTGGCATCAGTGAGCTACCGCCGCGTGATTCCCGTTCCGACCCACATTGA	MTNEQQALLDMPIWLVIVLALVGGVTGEMWRADKEGARGWSLLRRLALRSGACMICGVSAIMLLYAMGLSIWAAGAFGCLTAMAGADVAIGLYERWAAKRIGISELPPRDSRSDPH				NA	NA	NA	NA	NA
D1-35_00165	513			hypothetical protein	ATGCCTGCCGTCCTCGAAAAACCTTCGCAGCTGTTGACCGCCATTGCCGAAACGTTGCGAACTGCCATGCCTGGCTTGAACGTCGGGAGCCTCCAGGATTTCAACGACATTGGCGACCCGCCCTGGGTGTTGCTCGCCATCGAGCGTGATGCGGTGGGCCAGCGTTCCAGCGAAGGGCGAATCGCCCATGCCCTGACGGTTTCCCTGCAAGTCGTGTCGTCTGGAACGGCGTCGACAGCGTGCGACCTGGGCTGCGAACTGAAGCAGCGTGTCGTCGACAACCGCTGGAATCTGCCGGGTGATCAATGCGACCCGCCCACGTACATCGATGGCGTCGCGTCGGCCTTTGGGAGCGAAACCCGCGCGTACGCCGCCTGGACCCTTTCATTCACACAGACGCTGTACCTCGGCCCGACATTACTGGAGGACCCGCTGGGTATTCCGAAATTCGCCCGTACCTGGGAAGTCTCGGACATCGACGACCCGGACCAATACACCGCACTCGAGGGCTGA	MPAVLEKPSQLLTAIAETLRTAMPGLNVGSLQDFNDIGDPPWVLLAIERDAVGQRSSEGRIAHALTVSLQVVSSGTASTACDLGCELKQRVVDNRWNLPGDQCDPPTYIDGVASAFGSETRAYAAWTLSFTQTLYLGPTLLEDPLGIPKFARTWEVSDIDDPDQYTALEG				NA	NA	NA	NA	NA
D1-35_00166	612			hypothetical protein	ATGTTTGATGCGCTGTTACAGATGCATCTGGCGCCGATCATCGAGCGTCTGGCGCAGATGGAAACCGAGTTTGAGGACCTGCATCGGCGTGCAGAGAGTTTTTGCCGCATCGGCGTTTGCCAGGAAGTCGATGCGGCCAGCAACACTTGCAAGGTCAGTCACGGCGGGCTGGTGACGCCGGCGATCCGCTTTTTCAACCCGAGCGCCGGCGCCCAGAGCGAGTCGCGGATTCCGTCCGTGGGCGAGCAATGCCTGCTGTTCAACCATGGCGGCGGCGACAGCGGCGGACAGACGGTGGCGTTGTTCGGCCTTAACGGCGGCCAGTTTCCACCCGTCTCGACCCACGCCTCGCTGACGCGTCGCCTCTATCAGGACGGCACGGAAAACGGCTACGACCACGCCAGTCATGTCCTGCATTGGGAAAACGGCCCGGCGACGTTCAGCGGTTCCCGTGAATCGCTCCAGTTGAGCATTGGCCCGGCGCGATTGGCGATGACACCCCAGGCCATCGAGTTGCAGCTGGGCGCCGGCGGTTTGCGTATCGACGCGACAGGCGTGCATTTCAGCGGCCCGCTGGTGGATCACCAGGGACGCGTAATCAGTACCGCATAA	MFDALLQMHLAPIIERLAQMETEFEDLHRRAESFCRIGVCQEVDAASNTCKVSHGGLVTPAIRFFNPSAGAQSESRIPSVGEQCLLFNHGGGDSGGQTVALFGLNGGQFPPVSTHASLTRRLYQDGTENGYDHASHVLHWENGPATFSGSRESLQLSIGPARLAMTPQAIELQLGAGGLRIDATGVHFSGPLVDHQGRVISTA				NA	NA	NA	NA	NA
D1-35_00167	333			hypothetical protein	ATGATTGGAATCGATCGCAACACCGGCGCGACGGTCGACGACTGGCTGCAATTCGTGCAGCGCGCCACCCGGGCGTTGACCACCCCGTTGGGTACCCGTCAGAAGCGCCCCCTGTACGGCAGCGCCTTGACCGAGCTGCTCGGGCAAAACCTCGGTGACGACCTGCTGCTACTCGCCCAAAGCCACGCAGCGCAGGCGTTCTACAACCCGCACAACGGCATCGACGATTTCGAGCCGCAAGTCATCGTCGCCAATCGACAGGGGGCTGGTTTGCTGTTGCGCTTCGCCGGCACCTGGAAAAACCGCAAACAGACCTTCGAGGTGGTGACATGA	MIGIDRNTGATVDDWLQFVQRATRALTTPLGTRQKRPLYGSALTELLGQNLGDDLLLLAQSHAAQAFYNPHNGIDDFEPQVIVANRQGAGLLLRFAGTWKNRKQTFEVVT				NA	NA	NA	NA	NA
D1-35_00168	996			hypothetical protein	ATGAGCATGCTGATTCCCGGCCAGAACCAACTGGCCGAACCGGCTATCGTTACCGTCGAAGCGTTCGAGGACCTGCTCGCCGAGTTCAAGACCTTCGTGGTTGAGTACGTTGCCGCGCGCTCTCCCGCAAGCGCCGCGAGGCTGGTCGACAGTCTCGAAAACGAAAGTGAGTTGCTGACCCTTGCCCTTGAGGCATTCTGCGTCCGGCTGCAAACCCACGAACGCAAATACAACGCCCGCATCAAGCAGATGCTGGCGTGGTGGGCCACGGGCAGCAATCTCGATGCTCGCCTCGCGGACATGGGGCTTGAACGTCAATTGCTCGACCCGGGCGACCCCGCGGCATTCCCGCCCATCGCTCCGGTCTACGAGAGCGACGAGGACGCCCGGTTGCGCTATTACCTGGCGCCCCACGCCCCGGCAGCCGGTTCCCGCATGCAGTATCGGCGGGAGATTTTCACCCTGGGGCAACGTCCCGTCGTGAAAGTTGAAAGCGCCTCGGCGGGGCTGGTGACAGTCAGCTACACCTTCGACCCGGATAGCCATGCAGCCCAGATCAAGGACGGCAACGGACGCCGTACGGCACCCGGCGAAGTCACGGTCACGGTGCTGTCCCGAGCGGGCGACGGCACGCCGTCCGAGGCGCTGCTCGCCGGCGTGCGCGAGCATTTCGCCCGGCCCGATGTGCGACCGGAAACGGACCGGGTCATCGTCCAGCCCGCGCAGATCAAGAACTACAGAATCCGCGTCGTGGCAAAGATCAACCCCGGTCCGGATTCAGGCCTGACCCAGGCTGCCGCACAGCAGCAGTTGCGCGAATACGCCGAGGCCTGTCATCGCCTGGAAGGCCGCGTGGATCCGAGCTGGATCGACTACACGCTGCACAGCGCCGGCGCGGTCCAGCTTGAAATTCTCGAACCGCTGGAGCCGATTGTCACGACGGCTTTCCAGGCCCCGTATTGCACGGGCGTCGAGGTTGAGGTGGATACGTTATGA	MSMLIPGQNQLAEPAIVTVEAFEDLLAEFKTFVVEYVAARSPASAARLVDSLENESELLTLALEAFCVRLQTHERKYNARIKQMLAWWATGSNLDARLADMGLERQLLDPGDPAAFPPIAPVYESDEDARLRYYLAPHAPAAGSRMQYRREIFTLGQRPVVKVESASAGLVTVSYTFDPDSHAAQIKDGNGRRTAPGEVTVTVLSRAGDGTPSEALLAGVREHFARPDVRPETDRVIVQPAQIKNYRIRVVAKINPGPDSGLTQAAAQQQLREYAEACHRLEGRVDPSWIDYTLHSAGAVQLEILEPLEPIVTTAFQAPYCTGVEVEVDTL				NA	NA	NA	NA	NA
D1-35_00169	645			hypothetical protein	ATGAGTGACGACACACATCGCCCAAGCCTGCTGCCGGTCAACAGCTCACCGCTGGAGAAGGCACTTGATCTCGGCTTCGCCCGGTTGCTCGAACGCATCGATCCACCGTTTCCCGAGCTGATGAATCCGCGCGGAACGCCTTTGACGTTCCTGCCGTATCTGGCGGCGGATCGTGGAGTCAGTGAATGGGACGCGGCAGCCAATGATCTGGAAAAGCGCTTGACCGTTTCGTTGTCCTGGCAGATCCAGCGTCAGGCCGGCACGCGTCAGGCGCTGAATCATGCCGTCGAATCTATGGGGTTCACACCCAAGGTCACCGCTTGGTATGAGCAACAACCGCTTGCTCAGCCCTACACCTTTGATGTGCAAGCGGTCATCGGTCGCAGTTGGTCCAGTGGCGATCACAATCGCTTGATACGGCGAATCAATGCCGCCAAGAGCGAGCGTGACCAGGCCACCATCACGCTTGTACATCAAACGAACGGCAGCCTGGCGCTGGCATCAGTCGCAGACGGAGCCTTGAGCGAAGGGGAACTGTTCCTGGACGGAGCGCTGCCATCAATTGACCTTGATGCGTGCCTTATCAGTACCGGTTTTTTTCAACCCTACACCATTAACGATTACGACCTCAGGGCGCAGCCATGA	MSDDTHRPSLLPVNSSPLEKALDLGFARLLERIDPPFPELMNPRGTPLTFLPYLAADRGVSEWDAAANDLEKRLTVSLSWQIQRQAGTRQALNHAVESMGFTPKVTAWYEQQPLAQPYTFDVQAVIGRSWSSGDHNRLIRRINAAKSERDQATITLVHQTNGSLALASVADGALSEGELFLDGALPSIDLDACLISTGFFQPYTINDYDLRAQP				NA	NA	NA	NA	NA
D1-35_00170	531			hypothetical protein	ATGACAGAAGACATTACGCGCTTGGTTCGCTTCACTTCCGCCGGCTTGGCCGAAGTGTTGCAGGCAAAGAACCAAGGCTTGAAAGGTGAGATCACTCACATCGGTGCCGGCACCGCTCGCTACGATCCCAGCGGATCGGAAACGGCGCTTCGCAATGAGCGGCAGCGTGTGCCAATCGTGGATTACGAGGACCTTGATCCAGGGCAGCTGAGAATGGCCGCTTTGTTTGAGGGGGCGGATGAATATGAGATTGGCGAGTTCGGTTTCTATCTTTCTACCGGCACGTTGCTAGCGGTGTATTCGGTGGCTGGAAAGTTGCTGACCTACAAAGCGGCGGCCGCGCGAGTATTGCAAAAGTTCACGCTGGATATTTCACCATTGCCGGCGCAAAGCGTCACGGTGGTGGTCGGGTCCGACAACCTGAACATTCTATTGAGTGAAGAAATCGCCACGTTGGCTACCGCCAATATCGACAATATGGCGCGGCACGTTGGCCTGATGTTTCGAGTGATGGCGCTCGAAGCTAAATAA	MTEDITRLVRFTSAGLAEVLQAKNQGLKGEITHIGAGTARYDPSGSETALRNERQRVPIVDYEDLDPGQLRMAALFEGADEYEIGEFGFYLSTGTLLAVYSVAGKLLTYKAAAARVLQKFTLDISPLPAQSVTVVVGSDNLNILLSEEIATLATANIDNMARHVGLMFRVMALEAK				NA	NA	NA	NA	NA
D1-35_00171	621			hypothetical protein	GTGAGCCTGGAAACCACTATCGCGTCGCTGGTATCAGCGGCCAATAACTTGACCACGGCGGTCAATGGAAAGATCGGCAGTATCAACAGTACCATGGCCACCGCACTGGAGCAGTTTAATGAATGGAGGAGTCTCAAGGACGTTGAAGGCGATCCAGCAGCGCTGGGGACGATTCGTCGTAATCTGCTGCAAGGTTTTGTCTCAGGTACCGGAGGTGTACAGGGGGTGGGCGCGCAAGGTGATTTTGTGCTAACCGACTTGGGTACCAGCGCAAACGTCTATATACATTTCAAAGTTCCGCTGAACATCAATGTGAACTCGGAAATGTTCTGGTTCAACATAAAAGGTTACAGTTACGGCACTGCGAAAATCATCGAAGAAACGCTGGTCGGCTATTGCTATCAACCCACTCGTACCCTGCAGAATGTTGCCACGTTTGGCAACATGACACCTGCTTGTTACGTTGATACGAACGGTAATGTTGTGATGCGTATTCTGATTCCGAGTATTTATTACACCACTATACGTATCGACACCATGCGTGTAGGAAACGGCCGTTTGTTTAAACTCGGTGATTTGAAAACAAAACTATCGCTGGCTGAAACAGTGGTTTTTAGTTAA	MSLETTIASLVSAANNLTTAVNGKIGSINSTMATALEQFNEWRSLKDVEGDPAALGTIRRNLLQGFVSGTGGVQGVGAQGDFVLTDLGTSANVYIHFKVPLNINVNSEMFWFNIKGYSYGTAKIIEETLVGYCYQPTRTLQNVATFGNMTPACYVDTNGNVVMRILIPSIYYTTIRIDTMRVGNGRLFKLGDLKTKLSLAETVVFS				NA	NA	NA	NA	NA
D1-35_00172	258			hypothetical protein	ATGTCTGATTTCCCTGAAGATAACAACGCAGAATTTGCGCTCGCTGTGCCTTCGCCTGACATCGAATGGGCTGCAGTTCGTACCCGTCGCGATCAGCTTCTGCGAGCGACTGACTTTACCCAACTACCGGATTACCCGGCCACTGCTGTCCAGTTAGCCCAGGTCACCGCCTACCGTAAGGCGTTGCGGGATATTCCTGAAACGGTGGAACATCCTGACCAATTAGTGTGGCCTGAGCCGCCAACATTTGTGAAGTAA	MSDFPEDNNAEFALAVPSPDIEWAAVRTRRDQLLRATDFTQLPDYPATAVQLAQVTAYRKALRDIPETVEHPDQLVWPEPPTFVK				NA	NA	NA	NA	NA
D1-35_00173	210			hypothetical protein	ATGTCTATCCGCCAAACCTACACCGTGCTCCTCCCATTTCCTACCGGTGGCGGCCACTGGTCGAGCGTCGGCCAGCAGCTCGACTTGCTCGACGTCGAGGCCAGTGCCTTGCGTAGCGCCGGTCGCCTGGAACTGAAAAAAACCGAAGCCGTCGAGTCGGCTTCCACATCGACCCCGGCCAAAAAGGCCGCCACCAAAAAGGCTGAATAA	MSIRQTYTVLLPFPTGGGHWSSVGQQLDLLDVEASALRSAGRLELKKTEAVESASTSTPAKKAATKKAE				NA	NA	NA	NA	NA
D1-35_00174	1167	gpFI_1		Putative prophage major tail sheath protein	ATGGCTGAGGTTTTGAACTTCGAGCACAACGGCATCACCGTCAATGCCACTGAATCTCCCGAGGCCATGGGTGGCCTGGGGGACAACGTCATCGGGCTGGTCGGCACCGCGCCGAATGCCAACGCGCTGATTCCGAAAAACACCCCGTTTCGCATCAACAGCTTCACCACCCAGGCCCAGTTGGACCCCACCGGTGCCGAGGCGGGGACGTTGTTCCACGCGGTCTACCAGATCCTCAAAGTGGTCAAGGTACCGGTGTATGTGGTTATCGTCGAAGAGGGCGCGACCCTGGCCGACACGCAGAACAATGTGATTGGCGGCATCGAGGCGCAGACCGGACGCAAGTTGGGTCTGGCGGCGTTGAGTGGCGTCGCTGAGGACCTGACCATCATCGGCGCGCCTGGCTTCACCGGCACCAAGGCGGTGGCGAGCGAGTTCGCCTCGTTCGGCAAGCGCATCAAGGCCCGTGTGGTGCTCGACGGCAAAGACGCCTCGGTCGCCGATCAAGTGGCCTACAGCCAGGAGCTGGGCGGCGCCGACCTCGGTTTCGACCGTTGCCTGGTGGTGCACAACATGCCGGCTGTGTACTCCAAGGCGGCGAAGAAAAACGTCTTCCTCGCGCCGTCAAGCCTGGCGATTGCCGCGCTCGCCAAGGTCAAGCAATGGGAGAGCCCGGGTAATCAGGTGACCTACGCCGAAGACGTTTCCCGCACCGTGGAATACAACATCCTCGACACCTCCACCGAAGGCGATCTGCTCAACCGCTACGGCGTCAGCTACTACGCCCGCACCATCCTCGGCGGCTTCTCGCTGCTGGGCAACCGCTCCATCACCGGCAAGTTCATCAGCTACGTCGGCCTGGAAGATGCCATCAGCCGCAAGCTGGTGAAAGCCGGCCAGAAAGCCATGGCGAAGAACCTGACCAAGTCGTTCATGGACCAGGAGGTCAAACGCATCAACGACTGGCTGCAAACCCTGGTCGCCGACGAAACCATTCCCGGCGGCAGCGTGTACCTGCACCCGGAATTGAACAGCGTCGAGAAGTACAAGAACGGCACCTGGTACGTGGTCATCGACTATGGCCGCTACGCGCCGAACGAACACATGATTTATCAACTCAACGCCCGCGATGAAATCATCGAGCAGTTCCTGGAGGATGTTCTCTAA	MAEVLNFEHNGITVNATESPEAMGGLGDNVIGLVGTAPNANALIPKNTPFRINSFTTQAQLDPTGAEAGTLFHAVYQILKVVKVPVYVVIVEEGATLADTQNNVIGGIEAQTGRKLGLAALSGVAEDLTIIGAPGFTGTKAVASEFASFGKRIKARVVLDGKDASVADQVAYSQELGGADLGFDRCLVVHNMPAVYSKAAKKNVFLAPSSLAIAALAKVKQWESPGNQVTYAEDVSRTVEYNILDTSTEGDLLNRYGVSYYARTILGGFSLLGNRSITGKFISYVGLEDAISRKLVKAGQKAMAKNLTKSFMDQEVKRINDWLQTLVADETIPGGSVYLHPELNSVEKYKNGTWYVVIDYGRYAPNEHMIYQLNARDEIIEQFLEDVL				NA	NA	NA	NA	NA
D1-35_00175	507			hypothetical protein	ATGTTTACCAACCGCGTAAGACAGGCCATTGCGGCCACCCTGCAGGGCCTGCCGTTGTCGGCGACCGTGGAAGAATTCACGCCGCCAAAAATCGAATTCGAAATGGAAGAAATGCGCGGCGGGCGTTTCATCGGCGAGGAGATGGCCAAGAGCGGCAAGGCGCTGACGGCCAAACTGGTGCTGCAAGGTGTCGGTCCGGAAATCATGCTGGCGCTGGGCGTAAGCGTCGGTGACGACATCCTGCTGAACGTGCGCGAGGCCGGTCAGGATCAGGACGGCAACACATGGTTCACCTACCACACGGTGGGCGGCAAGCTGAAATCCCTCGACGAAGCCGCCCTGAAGATGAACGACAAACCCACCACCACTCTCGAGCTGGCCTGCCGCACCTATAACCGCCTGGAAAACGGCATCCCAGTGATCGACATTGACGTGCGCACCCAGAAGTTCGTGCTCAACGGCGTCGACATTCTTGGCGATGCGCGTCGCGCGGTGTTGCTGCCTTAA	MFTNRVRQAIAATLQGLPLSATVEEFTPPKIEFEMEEMRGGRFIGEEMAKSGKALTAKLVLQGVGPEIMLALGVSVGDDILLNVREAGQDQDGNTWFTYHTVGGKLKSLDEAALKMNDKPTTTLELACRTYNRLENGIPVIDIDVRTQKFVLNGVDILGDARRAVLLP				NA	NA	NA	NA	NA
D1-35_00176	576			hypothetical protein	ATGTCCTGGATGCCTCCTACCCATGAGCTGCTGTCACCGATCACCGCTGACGACGGTTCGCAGATCGAGCAGTTGCAACTCAAACCGTTGTACTACGCCGCGCAAAAAGACGCCCTGGCCCGTGCCGGCGATGATGAAGACGACCAGTTCTTCGAGCTGGCCAAACTGGCGACCGGCCTGTCGGCCAAGGAGCTGGACCAGCTCAAGCGCCCGGACTACGTGAGCATTGCGCAATACGTGCATGAAATGTCCACGCGCCCGGCATCCCACTTTCTGGATCAGACCGAGGGAGCCCCAGGTGATCCCGACCAGGTGCAATTGCTGCAACCGATCGATGTGGCGGGCCGCAGCCTGACCTCGCTGACCCTGGAAATGCCGGTGCTGCGGGCCACCAAGGCGATGAAAAAACTGAAGACGGCCAAGGAACGCGCCGAGTTCATCACGGCCCATTGCACCGGGCTGATGCTGCCGAACCTGGCCTCGCTGAGCGTGCCTGACTGGACGCAACTTCAGGTACGCATCGACGATTTTTTAAACAAACCGGCGGACTTCTTTCGGAGCGCGACATCGAGGTGA	MSWMPPTHELLSPITADDGSQIEQLQLKPLYYAAQKDALARAGDDEDDQFFELAKLATGLSAKELDQLKRPDYVSIAQYVHEMSTRPASHFLDQTEGAPGDPDQVQLLQPIDVAGRSLTSLTLEMPVLRATKAMKKLKTAKERAEFITAHCTGLMLPNLASLSVPDWTQLQVRIDDFLNKPADFFRSATSR				NA	NA	NA	NA	NA
D1-35_00177	126			hypothetical protein	GTGATCCTCGATGTGGTGCCGCTCATTTACCCGGTAAGTGAAGCGGAGATCCTGGAGTGGGACGCCGGCAAGGCCTTGCGCCGATACGACATCGCGATCGCTCGCCTTGGCGTGAAACAGGAGTAG	MILDVVPLIYPVSEAEILEWDAGKALRRYDIAIARLGVKQE				NA	NA	NA	NA	NA
D1-35_00178	2160			hypothetical protein	ATGGCGGACGATAGATATTCGCTCAGATATGCAGCCTTCGATGGGAGTGGGTTGGCGGTCCCCAATGCCAGCGCCAAGAACAGTGTGATCCTTTCCGCTGGGGACCAGCTGCCCGGACTCGATCAGGCGCTGGAAAACCTCGGGCTCAAGCTCGGCTTGCTGACTACGGCAATCGAGTCGTTGACCCTGAAACTCTCGGCACAGCGCGCGTTGTTTCAGGTTATGGGCGCCAGTGCCAAGGGGGATTCAGCCAAAGAGCCAAAAGCGAAGTCGGGTCGTGGAATCGAACCACCGGAACTGCTCAAACCGGCGATAGCAATGGATTCGGCCATGGCCGATCTGAAGCAGGCCGGCCAGTTCACGCCGCGGCAGATCCAGCAGATGGCTGAGCCAACCCAGCGTATCGCCAGCGCGCCATTGGTGGCGGCTGGCGGCACAACAGCGGTTGAGTTGGTGAGAATCGAAGGCCTGGCTGCCAGGGCAGGCATCGGCAGTGATCTGCCCGATGCCTCGGACCGACAATCGGCGCTGTTGCGCTTTGCCAGCGATGCGGGTGTCACCGCATCGACGTTCAAGATGCCAGCCGTGGAAGCCGCCGAGATGCTGCTTGGTTGGCGCACCGCCATGAAGCTCAGCGCCGAGAAAGCCTTTGACCTGGCGGACGCAACCAACCACCTCGGCAAGATTCCCGGCGGTGCGAAAGCGAGCGAGATCGGCACGGTGTTGCAGCGTGACGGTGCGGCCGCGACCTCGGCCGGCCTGCAACCTGCACAGGCCGCTGCGTTGACGGCGGCGTTGCTCAACACCGGTACGCAACAAGCTGAAGCCGGCGCAGCGTTGGCTGGTTTCACGATGGCCTTGGGCAAGGGCAATCAGGCCTCGGCGACCGAGCAAGCGGCCTGGACGCAACTCGGGCTTGATCCCAAGGAAGTCGCGAGTGGGTTGCGTGACAAGGACACCGCGCCGGGGACAGTGATGTCGGTGCTGGCGGCGTTGAACGCGCAGCCGGCGGAAAAACGCTCGGACCTTGCCTCTTCGCTGTTTGGCACGCGGGATGAGGCGGTGCTGCGGATGGCGCAGAAACTGACCGACGTGAATGACGCGTTCTTGCAGGTGAAAGACCCGGCCCAGTACGCCACCTTGCAATTGGGCGACAAGGGCTCGGTGCGGCAGGACGCGTTGGCGTTGGCGAATACCCGGCAAGGTCGGTGGAACGTCTTCAACGCCAGCAATGAGCGTTTGACACTGGCCACGGGCAATGCGGTAGCGCCCGTGGCGGACAGCTCGCTGCAATGGCTGGGTTCGCTGAACGATGGCATGAGTGAGTTGGCCGAGACTTCACCTAAGACCACAGCTGCCATTGTGCTGGTGGGCGCGGCGCTCAAGCCGCTGGTGGGGGCGCTGCTCAAAGCCATCGCGGATGAAATGAGCAATCAAGCGGCCAAACGCGTATTGGGCGGCGTGGCGAAGCGTCTTCCCAGGCGCGTGGGAGAAGTGTTCTCTGAAGACTTCAGAAACGACAATCGTAACGCCAGGCCGGATATCAAGGGCGTCAGCCGGCTCGGACCGGCGAGCGTTGCCAAGGCCGAAGCGGGAGTGACCGTCAACGGTTCCCTTCGCAGCATGGGTGCTTCGTTGCGCCCGTTCAGCCGTTTTGTTCCGGGAGCTGTCGCGTTAAGTGCAGCCCCTGAAGTGCTGGAAGGGGCGCTGAGCGGCGACGCTCGCAAGGTTGGCGCTGGCCTGGGCGCCGCTGGCGGCGGCTGGGCGGGAGCATCGGCAGGCGCCAGCGCGGGCGCGACGATTGGCACGTTCTTCGGTCCGGGTATCGGCACCGCTATTGGCGGAGCACTCGGCGCAATTGTCGGCGGTCTGGCGGGAAGCTGGCTCGGCGGTGAGTCGGGCTCCTGGTTGGGCGAAAAACTCGCCTCGCCCGTCGATAAGCTCGCCGCTCCCGAGCAGGTCAGCAAAGACCTGAGCGGCACCCCGGCGACCGGCCAGCAAAACAACCTGACCGCGAACATCTACATCAATGGCCAGGATCAGGCCAGTGCCGCCCAGTTGGCGAACCTGGTTGTGCAACAGATCACTAGCCAATTCCAACTCATGCCCAACTCGCTTGCCATGCGCAGTGACGCGGCCCTGACCGACGGAGTGACCTGA	MADDRYSLRYAAFDGSGLAVPNASAKNSVILSAGDQLPGLDQALENLGLKLGLLTTAIESLTLKLSAQRALFQVMGASAKGDSAKEPKAKSGRGIEPPELLKPAIAMDSAMADLKQAGQFTPRQIQQMAEPTQRIASAPLVAAGGTTAVELVRIEGLAARAGIGSDLPDASDRQSALLRFASDAGVTASTFKMPAVEAAEMLLGWRTAMKLSAEKAFDLADATNHLGKIPGGAKASEIGTVLQRDGAAATSAGLQPAQAAALTAALLNTGTQQAEAGAALAGFTMALGKGNQASATEQAAWTQLGLDPKEVASGLRDKDTAPGTVMSVLAALNAQPAEKRSDLASSLFGTRDEAVLRMAQKLTDVNDAFLQVKDPAQYATLQLGDKGSVRQDALALANTRQGRWNVFNASNERLTLATGNAVAPVADSSLQWLGSLNDGMSELAETSPKTTAAIVLVGAALKPLVGALLKAIADEMSNQAAKRVLGGVAKRLPRRVGEVFSEDFRNDNRNARPDIKGVSRLGPASVAKAEAGVTVNGSLRSMGASLRPFSRFVPGAVALSAAPEVLEGALSGDARKVGAGLGAAGGGWAGASAGASAGATIGTFFGPGIGTAIGGALGAIVGGLAGSWLGGESGSWLGEKLASPVDKLAAPEQVSKDLSGTPATGQQNNLTANIYINGQDQASAAQLANLVVQQITSQFQLMPNSLAMRSDAALTDGVT				NA	NA	NA	NA	NA
D1-35_00179	384			hypothetical protein	ATGCGTCAGCAAATGGCCCTGGGCAGTTTCATTTTCGGGCTGTCCCGCAGTTTCGCCTACCACTCCTTGGTCCGCACCTCGGACGGTGGCTGGAAAAGCATCGACATCCTTACCAGCAAGCCCAAGTCCAGCCAGATCGGCCAAGGCCTGCAGGGGCTGACGATCACCGGCAAATCGATGTACTCGACCGCCATGGATCGACTCGATGAGCTGCGCGCATTGCAAGCCCTGCGCACCCCACTGCCGTTGGTGGATGGCATCGGTCGCAACTGGGGCCTGTGGCAGATCAACAAGGTCACGGAAACCCAGACCGAGGTCATTGATGACGGCACGGCCATGGTGGTCGGCTGGGTGGTTGAATTGACGGAGTTCGCCAATGCGTAG	MRQQMALGSFIFGLSRSFAYHSLVRTSDGGWKSIDILTSKPKSSQIGQGLQGLTITGKSMYSTAMDRLDELRALQALRTPLPLVDGIGRNWGLWQINKVTETQTEVIDDGTAMVVGWVVELTEFANA				NA	NA	NA	NA	NA
D1-35_00180	213			hypothetical protein	ATGCGTAGAGTACGAAGTATCGCCGGTGACTCGGTGAATCTGCTGCTGTACCGCGAGCTCGGGCGTTGTGATGACGCCGCCGAAGAAGCGCTCTGGCTGCTCAATCCGGGATTGGCCGAATGGGGCCCGATATTGCCTGCGGGCGTTTGGGTTGTCTTGCCTGAGGTGGACCTCAGGCCTGTTGCAATCCCAGCGGTTTCAGCCTGGGATTAA	MRRVRSIAGDSVNLLLYRELGRCDDAAEEALWLLNPGLAEWGPILPAGVWVVLPEVDLRPVAIPAVSAWD				NA	NA	NA	NA	NA
D1-35_00181	1017			hypothetical protein	ATGTCATTGGGTTTTACGCCTGCAGTGGAAATTTATGGCGCGAACGCCGCGCTGCTCAACGAACGCCTGCTCAGTTGGACGCACGTCGACGCGGCGGGCATCGAGTCCGATCAACTGACACTGACCATCAGCCTGGAGGGGCTTGAAGGCATGCCCAGCCTGGGCGGCAAGATCGGCCTGCGGGTCGGTTATCTGGAGTCGGGACTTGTGGATAAAGGCGAATTCGTCGTGACCCGGCGTACACCGACCCTGTTTCCCTTGCGCCTGACACTGGTGGCGACAGCCGCGCCGTTCAGCGCCTCGGACCAGACTGGTTTCAAGCAGCGCCGATCCGTCAGCCATGGCCCGACGACCCTGGGCGCGCTGTTTCGGGAACTGACCTCAAGGCACGGTTTTTCCCCCCGGGTGGCGCCGGAACTGTCACTGATAAAAATCGAGCACATCGACCAAACCAACGAAACCGACATGGGCTTCCTGACCCGTCTGGCCCATCGTTATGACGCGGTCGCCAAGCCGATCAACGAGCTGTATGTGCTCGCCCGGCGCGGGCAGGCGAAATCGCTGTCGGGCAAAGTCTTGCCTGAGGTAAAGCTGTCGGTGACGACGAACAATCGCCCAGGCGACCAGGCGTTTACGTCGGCGATCCTTGATGAGACCGCCCGGGCCAAATACCAGGGTTGCAAGACCACCTGGTGGGATGCGGCGGCGGGCAAGCTGCGGGTCGAAGAGGGCGGCATCGCACCTTTCAAGACCTTGCGCCAGCGCTTCCAGAGCGCCGACGACGCCCGCGCCGCCGCTGAGGGCGAGACACGGCGGATGATGCGCGAAGCCCTCAAGGTCGCCATCGAATGCCCGGGCAACCCGGCCTTGTCCGCCGAGGGCATCGTGCTGCTTGACCCCTCCTGGCCGGATTTCATGCGCGGGCGTTGGTCGATCGACAAAGTCACCGCCAGTGGCAGCCGGGAAAAAAGCTATCGCTGCAAGATCGATGCGACCTGCCTGGATGCCCGGGCCTGA	MSLGFTPAVEIYGANAALLNERLLSWTHVDAAGIESDQLTLTISLEGLEGMPSLGGKIGLRVGYLESGLVDKGEFVVTRRTPTLFPLRLTLVATAAPFSASDQTGFKQRRSVSHGPTTLGALFRELTSRHGFSPRVAPELSLIKIEHIDQTNETDMGFLTRLAHRYDAVAKPINELYVLARRGQAKSLSGKVLPEVKLSVTTNNRPGDQAFTSAILDETARAKYQGCKTTWWDAAAGKLRVEEGGIAPFKTLRQRFQSADDARAAAEGETRRMMREALKVAIECPGNPALSAEGIVLLDPSWPDFMRGRWSIDKVTASGSREKSYRCKIDATCLDARA				NA	NA	NA	NA	NA
D1-35_00182	585			hypothetical protein	ATGAAGATCACCCCGATCCTCACGCAACTGCGTGAGCAATGCCCCACGCTTGCCCATCGCGTGGCTGCAGGCTTTGACCTTGCCACGCTGCAAGCCCAGGCCCCGCTGCAAACCCCCTGCGCCTATGTCCTGGCAACCGCCGACGTTGCCAGTAGGAACGCGGCGCAGAACGTCACGCTGCAAGCGGTACGTGATCGTTTCGATGCCGTGCTGGTGCTCGACGCGACTGACGCGACAAAAGCGCTGGATCTTTCGCACGACCTACGGGCTGAACTGTGGCGCGCGCTGGTGGGGTTCAAGCCGGGCGCTGAGTACACCGGCGTCGAATACGACGGCAGCGAGCTGGTTTCCATCAATAGCAGTCGCGTGTTGTACCGGCTGCGCTTTTTCGCCGAGTTCCAGCTGGGCCGCAATCTGCCGGGCCAGCCTGCCGAAAGCTGGCATGAGCGTGAACTGGACGGCTTGTCGTCCTTTACCGGGGCCACCGTGCGCGTCGATGCCATCGACCCGGCGGACCCCAACCTGAAACGTCCCGGCCCCGACGGGCGCCTGGAACTGACTTTCTCTGGAGACGTAACCCCATGA	MKITPILTQLREQCPTLAHRVAAGFDLATLQAQAPLQTPCAYVLATADVASRNAAQNVTLQAVRDRFDAVLVLDATDATKALDLSHDLRAELWRALVGFKPGAEYTGVEYDGSELVSINSSRVLYRLRFFAEFQLGRNLPGQPAESWHERELDGLSSFTGATVRVDAIDPADPNLKRPGPDGRLELTFSGDVTP				NA	NA	NA	NA	NA
D1-35_00183	183			hypothetical protein	ATGAGCAAACGCATCACCGTGCTGCCGGCCCCTGGCCGCGCCGTACCGGACCCGGAAGCGGGCGATCTGTTGCCCCTCGAAGGCCGTGAAGTGCCGGACAACGCCTGGTGGCGTCGACGTCTGGCCGATGGCGATATCACTACCAAAGCCGTGCAAGCGGCAAAACCAAAGGGAGCCAAATAA	MSKRITVLPAPGRAVPDPEAGDLLPLEGREVPDNAWWRRRLADGDITTKAVQAAKPKGAK				NA	NA	NA	NA	NA
D1-35_00184	1497			hypothetical protein	ATGGCGATTGGATTCAGCAACATTCCCGCGGACATTCGTGTTCCGCTGTTCTACGCCGAGATGGACAACTCGGCCGCCAATAGCGCGTCGTCGGCCATGCGCCGGTTGATCGTCGCCCAGGTCAACGACAACATCGCCCCGGCCGAAGCCGGCAAGCTGGTGCTGGTTTCCAGCGTCGCGCTGGCCAAGAGCATTGGCGGGCAAGGCTCGATGCTGGCGTCGATGTACGAAACCTGGCGCAAGACCGACCCGATCGGTGAGATCTGGTGCCTGCCGCTGCATAACGTCAAAGGGGCGATTGCCCAAGGTACGCTGACGCTGACCGGCAGCGCTGCGGAGAGCGGCGTGCTCAACCTGTACGTCGGTGGCGTGCGTGTCCAGGCCGCTGTCGTCAAAGGTGCCAGCGCTGCCCAGGCGGCCACGGCGCTGACCCTCAAGATCAACGCATCCGCCGACCTGCCGGTGACCGCCGCGGCCGCCGAAGGCGTGGTGACCCTGAGTGCCAAATGGACCGGCGCCAGCGGCAATGACATCAGCCTGCAATTCAATCGCCTGGGCAAGAGCAACGGCGAAGACACCCCGGCCGGCTTGACCACGGCCATCACCGCCATGGCCGGCGGCGCCGGTGCGCCGGACCAGACTGCCGCCGTCGCCGCCCTGGGCGATGAGCCGTTCGAGTTCATCGCCATGCCGTGGTCCGACGTGTCGAGCCTCGACACCTGGCAAGCGGTCATGGATGACAGCACCGGTCGCTGGTCCTGGGCCAAGCAGTTGTTCGGTCACGTCTACAGCGCCAAGCGCGGCACCCTCGGCACTCTTGTCGCCGCCGGCCAGGCCCGCAACGACCAGCACATGACCATCCAGGCCCTGGAGCCGGGCGTGCCGCAACCGTTCTGGGTCCAGGCCGCTGCGCTGGCCGCGCGCACTGCGGTGTTCATTTCCGCCGACGCCAGCCGCCCGACCCAAAGCGGCAGCCTGCCGGGGCTCGATCCGGCACCGGCCAGCGAGCGCTTCACCCTGACCGAGCGACAGTCGTTGCTCAACTACGGCATCGCGACCGCTTACTACGAAGGCGGCTACGTTCGTATCCAGCGTTCCATCACGACCTATCAGAAGAATGCCTTCGGCCAGGCGGACAACTCCTACCTGGACAGCGAAACCATGCACCAGTCGGCGTTCATCGTGCGGCGCCTGCAAAGCGTGATCACCAGCAAATACGGTCGCCACAAACTGGCCTCCGACGGTACTCGTTTCGGCGCCGGCCAGCCCATCGTCACCCCGAGCACCATTCGCGGTGAGTTGATCGCCCAGTACGCCAAGCTTGAGTTGGAAGGTCATGTGGAAAACGCCGAGCTGTTTGCCGAGCACTTGATCGTCGAACGCGACAGCCAGGACCCGAGCCGGGTCAACGTGCTCTTCCCGCCGGATTACATCAACGGACTGCGCGTGTTCGCGCTGCTCAACCAATTCCGCCTGCAATACGACGCCGCCGCCTGA	MAIGFSNIPADIRVPLFYAEMDNSAANSASSAMRRLIVAQVNDNIAPAEAGKLVLVSSVALAKSIGGQGSMLASMYETWRKTDPIGEIWCLPLHNVKGAIAQGTLTLTGSAAESGVLNLYVGGVRVQAAVVKGASAAQAATALTLKINASADLPVTAAAAEGVVTLSAKWTGASGNDISLQFNRLGKSNGEDTPAGLTTAITAMAGGAGAPDQTAAVAALGDEPFEFIAMPWSDVSSLDTWQAVMDDSTGRWSWAKQLFGHVYSAKRGTLGTLVAAGQARNDQHMTIQALEPGVPQPFWVQAAALAARTAVFISADASRPTQSGSLPGLDPAPASERFTLTERQSLLNYGIATAYYEGGYVRIQRSITTYQKNAFGQADNSYLDSETMHQSAFIVRRLQSVITSKYGRHKLASDGTRFGAGQPIVTPSTIRGELIAQYAKLELEGHVENAELFAEHLIVERDSQDPSRVNVLFPPDYINGLRVFALLNQFRLQYDAAA				NA	NA	NA	NA	NA
D1-35_00185	348			hypothetical protein	ATGGGTCAACTGATTGCGGGCACCTGCTACGTCAAAGTGGACGGCGCTCAACTGACCATCAATGGCGGCTGTGAAGCACCACTGATGTTTACCAAACGCGAGACCGTCGTACCGGGTTTCTACAAGGAAACCGACATCGCGCCGTCGTTCAAGGTCACCGCGCTGCACACCGCCGACTTCCCGCTCAAGCAGCTGGTCGCCGGCACTGACATGACCGTCACCTGCGAATTCAGCAACGGCAAGGTCTACGTGCTGGCTGGCGCGTATCTGGTGGAAGAGCCGGTATCCAAAGGTGACGACGCCACCATCGAGCTGAAATTCGAAGGCATCAAGGGGACCTGGCAATGA	MGQLIAGTCYVKVDGAQLTINGGCEAPLMFTKRETVVPGFYKETDIAPSFKVTALHTADFPLKQLVAGTDMTVTCEFSNGKVYVLAGAYLVEEPVSKGDDATIELKFEGIKGTWQ				NA	NA	NA	NA	NA
D1-35_00186	297			hypothetical protein	ATGACTGGTGTCGTGGCGTTGCGCGTGGCCATCGAGGCCCACGGCGAGCCGTTGAGCGAACTGACCTTGCGCCGTCCGACGGTGCAGGAGGTCCGTGCGATCAAGGCGCTGCCGTACAAGATCGACAAGAGCGAGGAGGTCAGCCTGGACATGGATGTCGCGGCCAGATACATCGCGGTCTGCGCCGGTATTCCACCATCATCGGTCAACCAGTTGGACCTGGCTGATCTCAACGCGCTGAGCTGGGCCGTCGCGAGTTTTTTCATGAGTGCGGCGTCGCAGCCATCGGCGACCTGA	MTGVVALRVAIEAHGEPLSELTLRRPTVQEVRAIKALPYKIDKSEEVSLDMDVAARYIAVCAGIPPSSVNQLDLADLNALSWAVASFFMSAASQPSAT				NA	NA	NA	NA	NA
D1-35_00187	1575			hypothetical protein	ATGGCAGAGACACAGAAGGTAGAGAAAAAGGCGCTACTGCTGACCGGTATCGACGAACTGTCGCCCAAGCTCGCCAGCCTGCGAGCGAAGGTCGCGAGTTTCAAGCAGAACCTCGACGCCACGGGCCTGGGCAGCCTGGATATGTCCGGGCTGCTGCCCAGCGGTGGCCTGGCCCAACCGTTCATGGACGGGCTCAAGTCGGCGCTGGCCTTCAAGGACGAAGCCGGCGCAGCGAGCGCGGCAGCCAGTGCCGTCCAGGCGCCGGAAGCGCCTCGCGTAGCGGCACAGAACCTGGAGGGATTGAAGACTTCCATCAGCAACGTGTCGGTGCAGTTCGGCTCGGCGCTGGGGCCTGCGGTCAACGCGGTAGCGGTCGGTTTGCAGCCGATGGTCAACGGCGTGGCGCAGGTGCTGCAGGACAACCCGCAACTAATCCAGGGCCTGGCAAATGGCGTCGTCGCGTTCAACGCGATCCAGACGGCGGTCAGCGGCGCGAGCCAGGCAATGGAAGTGATCAACCTGGCCTTGAAGATGAACCCCATCGGCTTGATTGCCATGGGCATCGCCTTGGCGGCAGGGATGATCATCGCCCACTGGACACCAATCTCGGCATTTTTTGCCGGGCTCTGGCAACGGCTGGCGCCGATCATCCTGCCAATGGTCGAGTTCTTCAAGACGCTGTTCGCCTTTACCCCGATGGGGCAGGTGATCAGCAACTGGGGGCCGATCAGCAGCTTTTTTGGCGCACTCTGGAATGTGATCGTGGCGGCGGCGACGCCGATCATCGGTTTCATGCAGACGCTGTTCGCCTGGTCGCCCCTGGGGTTGATCATTGCCAACTGGACGCCCCTGAGCGGGATGTTCGCGGCGATCTGGGATTTGCTCCAGGCCTTGACCGTGCCGGTGATGGCCGCGCTGAAAGGCCTGTTCGACTGGACACCGTTGGGGCTGATCATGGCCAACTGGGGCACGATCGGCGAGGTCTTCGCCGGGATCTGGGAGGGCATTCGCAATCAGGTTTCGATCATGCTGGCGGTGTTCAGCGGCCTGTTCGACTGGTCGCCCATCGAGGGCCTGACCCGGCAGTGGGGACCGGTGGGCGAATGGTTCAGCCAATGGTGGGCCGAGCTGCAGGGCGTGATCGCGCCAATCAAGGCGTTCTTCAACGGCGGCTTCGGCGAGGTGATTGCCTCGTTCACCGGCAAGGTCGAGGGATTGGCCGAGGCGCAGCGCGCCACCAATGCCGAAGGCAAGGGTGAGCTGGCACCGGCGTTTTTTGGCGGGGCCAGCGAGCAGCCTTCGGGGCTGTCTTCAAGCCTTGCGCCGCCACCCGCCACTGCGTCGCCCAGAGCGTCCTTGACGCCCGGCGCATTGCCGCAGACTTCCAGCGCCCTGGTGCAACAAAGCGCCGCCAACAACCGCACGCAACTGGAAGGCGGCCTGACGGTGCGCTTCGAAAACGCGCCGGCGGGTTTGCGCGCCGACCCGCCCCAGACCAATCAACCGGGCCTGGCGGTGAGTTCGCGCATCGGTTATCGCTCACTTTCCGCAGGAGGTTCCAATGAGCTGGCGTGA	MAETQKVEKKALLLTGIDELSPKLASLRAKVASFKQNLDATGLGSLDMSGLLPSGGLAQPFMDGLKSALAFKDEAGAASAAASAVQAPEAPRVAAQNLEGLKTSISNVSVQFGSALGPAVNAVAVGLQPMVNGVAQVLQDNPQLIQGLANGVVAFNAIQTAVSGASQAMEVINLALKMNPIGLIAMGIALAAGMIIAHWTPISAFFAGLWQRLAPIILPMVEFFKTLFAFTPMGQVISNWGPISSFFGALWNVIVAAATPIIGFMQTLFAWSPLGLIIANWTPLSGMFAAIWDLLQALTVPVMAALKGLFDWTPLGLIMANWGTIGEVFAGIWEGIRNQVSIMLAVFSGLFDWSPIEGLTRQWGPVGEWFSQWWAELQGVIAPIKAFFNGGFGEVIASFTGKVEGLAEAQRATNAEGKGELAPAFFGGASEQPSGLSSSLAPPPATASPRASLTPGALPQTSSALVQQSAANNRTQLEGGLTVRFENAPAGLRADPPQTNQPGLAVSSRIGYRSLSAGGSNELA				NA	NA	NA	NA	NA
D1-35_00188	1239			hypothetical protein	ATGAGCTGGCGTGATCGTTTGCTGCCGGCGTCGTTTCGCGGCGTCGGGTTCTGGGTCGACCAGGCGAAAACCCCGATCGGTCATAAAGGCCAGTTGCATGAGTACCCGCAGCGTGACCTGCCGTATTTCGAGGGGCTCGGCCGGCAGGCACGCATCCACGAGTTGACGGCGTTCATCGTCGGCCCCGATTGCCTGGAGCAGCGCGACAAACTGCTCGCAGCCCTGGAGCAGGGCAGCGGTGAACTGGTGCATCCATGGCTGGGGCGCCTGCAGGTCAAAGTGGGCGAATGCGACATGACCCAGACCCGCCAGGACGGCGGGCTGGTCACGTTTGCCCTGAAGTTCTACCCCGACCAGCCGCTGCAGTTTCCTTCGGCGGCGATCAACAGCCAGAAACTGCTGCTGGTCTCGGCCGACAGTTTCCTCGGCTCGGCGGTGCGGCGTTTCGAAGACGCCATGAGCCTGATCAAGGCGGCGCGGATCGGCATCGCGGATCTGCGCAACAGCCTCAAGGAGGTTTATGGCGTCATCGAGCAGGAGCTCAAACCATTGATCGAGACCTATCGGCAACTCAGCGATCTGGTCAAGGCGGTCAAGGAGCTGCCCAAGGAAGTAGCGGCGGAATTCAAGGGACTGCTGGGCGACATTCGGGAGCTGAAGGATTTTGCCCGTGACGGCTATCGCGGCGTGATTGCCAGCGTGTCGCAACAGGTGGAAGCCATCCGTCAGGCAGACGCGCCCAAACTCACCACCGGCAAGGACACCACGGCGGCGGCCCAGGCGGTTGCCGATCTGGTCCAGGACACCTTGCTGGTGCAAGCGGCGCAATGGATTGCGGCGATGCCCGTGGCGGCGCCGGTGGTCAAGCTGGACGCCACTCCATCGGTGGCGCAACAGGCGGTGCAACCGGTCCAGCGCCGAGACGTGCCGGTGGCCGATGACGTGCTCGCCTTGCGCGATGCCCTCAACGAAGCCATCTGGCAGGCTTCCCTCAAGGCCGCTCCGGATCACTACCAGGCAATGAACAACCTGCGTCAGCAAATGGCCGCGCACTTGACGGCCGTGGCGTCGTCCGGTGTCCGGCTGATCAACCTGTCGTTCAAGCAAAGCCTGCCGGCGCTGGTGGTCGCGTATCAGCAATTTGCTGACGCTACCCGGGTGACCGAGGTGACCCAGCGCAATGGCGTGGCGCATCCTGGCTTCCTGCCGCCCAACGACCTGAAAGTCTCCGGGGAGTGA	MSWRDRLLPASFRGVGFWVDQAKTPIGHKGQLHEYPQRDLPYFEGLGRQARIHELTAFIVGPDCLEQRDKLLAALEQGSGELVHPWLGRLQVKVGECDMTQTRQDGGLVTFALKFYPDQPLQFPSAAINSQKLLLVSADSFLGSAVRRFEDAMSLIKAARIGIADLRNSLKEVYGVIEQELKPLIETYRQLSDLVKAVKELPKEVAAEFKGLLGDIRELKDFARDGYRGVIASVSQQVEAIRQADAPKLTTGKDTTAAAQAVADLVQDTLLVQAAQWIAAMPVAAPVVKLDATPSVAQQAVQPVQRRDVPVADDVLALRDALNEAIWQASLKAAPDHYQAMNNLRQQMAAHLTAVASSGVRLINLSFKQSLPALVVAYQQFADATRVTEVTQRNGVAHPGFLPPNDLKVSGE				NA	NA	NA	NA	NA
D1-35_00189	1041			hypothetical protein	ATGAATGAGCTCGACAACGCTGTCACGCTCACCGTCGGCGGGCTGGATTACGGCGGCTGGAAAAGCGTGGAAATCAGTGCGGACCTGGAGCGCCAGTTCCGCACCTTCAAACTCGACATCACCTGGCAATGGCCGGGGCAGACCCAGGCGGTGCCGATTCGTCCCGGTGACGAATGCCAGGTGCGCATCGGCGCCGACCTGCTGCTCAGCGGCTACGTGTTCAAGGCGCCCATCAGCTACGACGGCCGGCAGATCAGCCTGAGCATCGAAGGCGGCTCCAAGACTCAGGACCTGGTGGACTGCGCGGCGATCAACCGCCCGACGCAATGGCGCGGGCAAACATTGCTGAGCATCGTCCAGGCGCTGGCATCGCCCTATGCCGTGGGGGTGGTCAGCGAGATCCCGGAAACCGCGCGCCTGAGCGAGCACAGCATCGTGCCTGGAGAAACGGTGTTTCAATCCATCGACCGTTTGCTGACATTGTTCCGAGTGTTCTCCACCGATGACCCGCAGGGCCGCGTGCTGCTGGCCAAGCCCGGCAGCGGTGGGCGGGCCAGCGATGTGCTGGAACTGGGCAAGAATATTCTTTCGGGCAACGCGCCGATGGACTACAGCCAGGTGTTCTCCGAATACCGGGTCATCGGCCAGCACAAAGGCAATGACCAGCAGAGCGGGGCGGCGGTGAGCGAGGTCTCGGGCACCGCCACTGACCTGGGCTTCAAGCGCAAGCGGGTGACCGTCATCAGCGAAAGCGCTCAGTTGACCCCGGCGCTGGCCCAGCAACGAGCCGACTGGGAAAGCGCGATTCGCAGCGGCCGCGCCCTGACCACCACCTACCGCGTACAGGGCTGGCGCCAGGCCAACGGCGATCTCTGGCGGCACAACACCCTGGTGCGGGTGATCGATCCGGTGCTGGGATTTGACGCTGACATGCTGATTTCCAAGGTGACCTATTCGCTGTCCGCCCAGGGTTCGATCACCACCTTGCAAGTCGCCCCGCCGCACACCTTCGACGCCAACCCGGTGCCACCCAAGGCCTGA	MNELDNAVTLTVGGLDYGGWKSVEISADLERQFRTFKLDITWQWPGQTQAVPIRPGDECQVRIGADLLLSGYVFKAPISYDGRQISLSIEGGSKTQDLVDCAAINRPTQWRGQTLLSIVQALASPYAVGVVSEIPETARLSEHSIVPGETVFQSIDRLLTLFRVFSTDDPQGRVLLAKPGSGGRASDVLELGKNILSGNAPMDYSQVFSEYRVIGQHKGNDQQSGAAVSEVSGTATDLGFKRKRVTVISESAQLTPALAQQRADWESAIRSGRALTTTYRVQGWRQANGDLWRHNTLVRVIDPVLGFDADMLISKVTYSLSAQGSITTLQVAPPHTFDANPVPPKA				NA	NA	NA	NA	NA
D1-35_00190	510			hypothetical protein	ATGAGCCTACTGACCCGCCTCCTGGCGCGTGGCACTGTCGTGCTCGCCCATTCGGCGAATAAATTGCAATCGCTGCAAATGCGCCTCACCGCTGGCGAAGTGAGCGACGACATGGAGCATTTCGAGCCCTATGGCTTCACCAGCAACCCGCTGGCCGGCGCCGAGGGCATCGCCACGTTCCTCGGCGGCGACCGCTCCCACGCGGTGGTGCTGGTGGTCGCCGATCGGCGCTTTCGTCTCAAGGCCCTGGCCCCGGGCGAAGTCGCGCTCTACACCGATGAAGGTGACAAGCTCCACTTCAAGCGCGGCCGGGTCATCGACATCGAGACCGCGACGCTGAACATCCGCGCCAGCAGCGCGGTGAACATCGACAGCCCCGTCATCAACCACACCGGCAGGATCGTTTCCCAGGGCGATCAGATCGCCGGCGGCATCAGTCAGATCAAGCACGTGCACGTCGGTGTACAGGCCGGCAACGGCCAGACCGGTGCGCCGGCGGGAGGCCAGTGA	MSLLTRLLARGTVVLAHSANKLQSLQMRLTAGEVSDDMEHFEPYGFTSNPLAGAEGIATFLGGDRSHAVVLVVADRRFRLKALAPGEVALYTDEGDKLHFKRGRVIDIETATLNIRASSAVNIDSPVINHTGRIVSQGDQIAGGISQIKHVHVGVQAGNGQTGAPAGGQ				NA	NA	NA	NA	NA
D1-35_00191	399			hypothetical protein	ATGTTCATCAGCCAGAACCTGCACGCCGCGCTGACCCGCTCGGTGCTGGTCAGCCTGTTCACCTGGCGCCGCGCCGCCGCGGGCGATGCGGTCGATGACGACGAGCGTTTCGGCTGGTGGGGCGACACCTTTCCCACGGTCGCCGACGATCGCATCGGCTCACGGCTGTGGCTGTTGCGGCGGGTCAAGCTGACCCGCCAGACCCAACTCGACGCCGAATTCTATGCCCGCGAGGCGCTGCAATGGTTGATCGATGACGGTCATTGCAGCGCCATCGACATCATCAGCGAACGCCTCGACGCCCAGCGTCTGAACCTGCGCACGGTCCTGACCCTGGCCAATGGCGAGCGCCTGGACATCAACCCCGACCACAGTTGGCAGGTGACTTATGCCGTTTGA	MFISQNLHAALTRSVLVSLFTWRRAAAGDAVDDDERFGWWGDTFPTVADDRIGSRLWLLRRVKLTRQTQLDAEFYAREALQWLIDDGHCSAIDIISERLDAQRLNLRTVLTLANGERLDINPDHSWQVTYAV				NA	NA	NA	NA	NA
D1-35_00192	1041			hypothetical protein	ATGCCGTTTGAAACCCCTTCGCTGCCGGTGCTGATCAAGCGCGCCCAAAGTGACCTGGCCAGCGATTCGCTGCGCCAGTCCGACGCCCAGGTCCTGGCGCGTACCCTCGGCGGCGCCGCCTATGGCCTGTATGGCTATCTGGATTGGATCGCCGAGCAGATCCTCCCGGACAAGGCCGATGAAATGACCCTGGAGCGCATCGCCGCGCTGCGCCTTAACCAGGCGCGCAAGGTCGCCCAAGTGGCCACCGGCAGCGTCAGCTTCACCGCCACGGCGGGTGCCGTGCTGGATGCCGACACGCTGCTGCAAGCGGCCGATGGCCGTACTTATAAAGTGACCACCGCGCGAACCACCAGCAATGGCCTGAACACCGCCGCCATTGCGGCACTGGAGGCCGGTAGCCTGGGCAATGCCGATGCGGGTCTGGTGCTCACGCCGGTGCAGCCGCTGTTGGGTATCGGCAACAGCTTCACCGTACTGGCGCCAGGGCTGACCGGCGGTGTCGCCCGGGAAAGCCTTGAATCCCTGCGGTCGAGGGTGATCCGTTCCTATCGGGTCATCCCTCACGGCGGTTCGGCCCAGGACTACGAGACCTGGGCTCTGGAGTTTCCCGGCGTTACCCGCGCCTGGTGTCGCGGCAGTTATCTGGGGCCGGGGACCGTCGGCCTGTTCGTGATGCGCGACGACGATCCGCAACCGATCCCCAACGCCGAGCAACTGGAGGAAGTGCGGGCCTACATCGAGCCCTTGCGCCCGGTGACCGCCGAACTGCATGTGCTGGCCCCGACCCAGGTGCCGGTGAACTACAAGCTGCGCATCACCCCGGACACCAGCGCCGTGCGCGCCGCCATCGAGGCCCAGTTGCGCGACCTGCATAACCGCGAAGCCGGCCTCGGCGAAACGCTGTTGCTGAGTCATATCGCCGAAGCGATCAGCAGCGCCACCGGCGAAACCGACCACAAGCTCAGCGCACCCGCCGCCGATGTCGTCGCCGCCAGCAACCAGTTGCTGACCTTCGGAGGCTGCACATGGCTGGGATAA	MPFETPSLPVLIKRAQSDLASDSLRQSDAQVLARTLGGAAYGLYGYLDWIAEQILPDKADEMTLERIAALRLNQARKVAQVATGSVSFTATAGAVLDADTLLQAADGRTYKVTTARTTSNGLNTAAIAALEAGSLGNADAGLVLTPVQPLLGIGNSFTVLAPGLTGGVARESLESLRSRVIRSYRVIPHGGSAQDYETWALEFPGVTRAWCRGSYLGPGTVGLFVMRDDDPQPIPNAEQLEEVRAYIEPLRPVTAELHVLAPTQVPVNYKLRITPDTSAVRAAIEAQLRDLHNREAGLGETLLLSHIAEAISSATGETDHKLSAPAADVVAASNQLLTFGGCTWLG				NA	NA	NA	NA	NA
D1-35_00193	600			hypothetical protein	ATGGCTGGGATAAGAACCGTCGAACAATACCAGGCCCAACTGCGCAGCCTGCTGCCCAGCGGCCCGGCGTGGGACCCGGAGCGCGTGCCGGAACTGGACGAAGTGCTGCAAGGCATCGCCCAGGAGCTGGCGCGCCTGGATGCCCGCGCCGCCGACCTGCTCAACGAGATGGACCCGGCGGGAGTGAGCGAGCTGGTGCCGGATTGGGAACGGGTGATGGAGCTGCCGGATCCGTGCCTTGGCGCCACGCCGCTGTATGACGATCGCCGTCTGGCGGTGCGACGGCGGTTGCTGGCGGTGGGCAGCCAGGCCATCGCCTATTACGTGGAAATCGCCAGGAGCCAGGGCTACCCCAACGCAACGATTACCGAACTCAAGGCGCCGCGCATGGGCCGCGCACGGTTTGGCGAAGCGCACTTCGGAACGTGGCAGGCGCAGTTCATGTGGACCCTCAACACCGGCGGCCGGCTGCTGCTGGGACGGCGCTTTGGTGCGAGCTATTGGGGCGAACGTTTTGGCGTCAATCCGGGGTCGGCGCTGGAGTGTCTTATTCACCGCAGTGCACCGGCGTATACCAAGGTTCACATCAACTATGACTAG	MAGIRTVEQYQAQLRSLLPSGPAWDPERVPELDEVLQGIAQELARLDARAADLLNEMDPAGVSELVPDWERVMELPDPCLGATPLYDDRRLAVRRRLLAVGSQAIAYYVEIARSQGYPNATITELKAPRMGRARFGEAHFGTWQAQFMWTLNTGGRLLLGRRFGASYWGERFGVNPGSALECLIHRSAPAYTKVHINYD				NA	NA	NA	NA	NA
D1-35_00194	1155			hypothetical protein	ATGGATTATCCGAAAAGTGTACCCAGCGCCGGCTTGGTGAATGGGAGGTTCGTCGATGAAAACCCGTTGACCGGGACGCCGGGATCGTTGATTCCGGCGGATTGGGGGAATGGGGTGACGCAGGAGATCGTGAATGTCATCAAGGCGGGAGATCTGACGCCGGATGAAACCCGCAGCGATCAATTGCTCGCGGCGATTCGGACGGTAACCGCCAAGGGCTGGAACCAGGACTTCGCTCTGCCGATCACAGCGTTGCCGCTGCCGACGATTGCCACGGCGGACAACCGTTTGGCCGTCACTCCAGCAGCGCTGCCCACCAGTGGCGGACGTGTCTCGATTCCGGCGGGTGTGTACGTCAGCATCGGGCAAGAGGTGGTAGCAGGACGGTTGGGGCGGACACGTACCTACGTGACGACGGCCTGGAGCAGCGCCGATCTGTTGCCCAGCGCCAGTTATTTTTTAAGAGCGCAGGTAGTCGGTGATGCGCTGACGTTCTATGTGCAGCGGGGAAGCCTGTATGACCTTGCTCCGGAATCCCTGAAAGGCACCGTCAACGGAACGGCAGGCGGTGGGTTCCCATCGACCCCCCTGGACATGTGCCTGGCCTGGGTGGTGACCGGGACGCCTGGCTCCCTGCCGACGATCCGCACGATTTATAACCGTACTCAATTGACCTGGACGCAAACGGTAAATGGCACCGGGGTGGTGTATCTGCCGCTGGATCCGCATGCGCGTGCGGCGCGGCTTGTGGCGGGTAATCCCACCCCAGCCTCGAACGTCGTGACCACGCTGTCGTTTGTTCAGTCCGGATGGCTTGGCGGCAACTACAGCTATCTGTCGCCCGCCGCGACTAGCCCCGGCAACAATGCGGTGGGTTGGGCGAGCCCGTCAATGTGCGTGCTGTTCTCCAATAACGTCGCCAATGACGTGACCGTTTCCACGGTCACGGCCAGTTTCGACCATTCCCAGTTACGTTCGCTTTGGCAGTGCTATCAGGCCGAGCACACATTGGGTGCGACCACTGCAGACAGCGACGAGTTGCTGTTGAGCATGGGAATCAAGGGGCACCAAGCGCTGACAGATTACAGCGTGGGCATCGGCATCAACTTTATCAACGCAGTCAATGCTCACCTGTCCTGGGAGTTGATCCGATGA	MDYPKSVPSAGLVNGRFVDENPLTGTPGSLIPADWGNGVTQEIVNVIKAGDLTPDETRSDQLLAAIRTVTAKGWNQDFALPITALPLPTIATADNRLAVTPAALPTSGGRVSIPAGVYVSIGQEVVAGRLGRTRTYVTTAWSSADLLPSASYFLRAQVVGDALTFYVQRGSLYDLAPESLKGTVNGTAGGGFPSTPLDMCLAWVVTGTPGSLPTIRTIYNRTQLTWTQTVNGTGVVYLPLDPHARAARLVAGNPTPASNVVTTLSFVQSGWLGGNYSYLSPAATSPGNNAVGWASPSMCVLFSNNVANDVTVSTVTASFDHSQLRSLWQCYQAEHTLGATTADSDELLLSMGIKGHQALTDYSVGIGINFINAVNAHLSWELIR				NA	NA	NA	NA	NA
D1-35_00195	510			hypothetical protein	ATGAAAGTCATTCAAGAGCTGCACCAGTACGAAGATGGGCTTCGCCCGCCTGCGCCTTCCTCCGCTCATATCTGGGTGGACGATACCTGGGTGCTTACCGAAGAGAATGCAGCCGAGCACCTCAGCCTGGAGGCCGAACGCCTTTGCGAAAAGATCGATGCCGCTGCCGACAGCGCCCGTCGCGTTTTGGCCGGTGATCCGTTACGGGCCCTGGAATATCAACAAGCGGCCCTTGAAGCGCAGGCGTTCAAGGATCAGGGCTACCCGAAAAAAGCTGTTCCGTTGTCGGTTTCTGCCTGGGTCGTCAAGGGCCGCACAGCCAGGCAGGCAGCGGACCAGATTCTCGCCAAGGCCGCTGAATTCGACGCGAACCTGCTGACGCTTCGCGAGCTGCGCCTCAAGGCCAAGGCGCAGATTCGCGCGCACGTAGCCAAGGGCAAAGCCGAACTCGCCACTAAAACCGCCGATGACGCGCTCGCAGCCATCCGGACGCTACGCCTTCGGGCTTGA	MKVIQELHQYEDGLRPPAPSSAHIWVDDTWVLTEENAAEHLSLEAERLCEKIDAAADSARRVLAGDPLRALEYQQAALEAQAFKDQGYPKKAVPLSVSAWVVKGRTARQAADQILAKAAEFDANLLTLRELRLKAKAQIRAHVAKGKAELATKTADDALAAIRTLRLRA				NA	NA	NA	NA	NA
D1-35_00196	1095			hypothetical protein	ATGGATTATCCAAAAAGTGTTCCCAGCGTGGGGCTGGTGGACGGTCGGTTCGTGGATGAAAATCCTGTCGAAGGCTCGCCGGGATCCTTGATTCCGGCTGTGTGGGGTAACAGCGTTACCCAGGAAATCCTCGGTGTGATTTCTGGCGCCGATATCGCGCCCTCCGAAGCGGACACCAATCAGCTCTTCAAAGCTATTCAGAAGATCATCGGTATGACCAACCCCATGCGTTCGGTAATCACGCGGTTGGCCCTGTCGAAAACGCTGACGGCAAATGAGCTTGGCCTTGTATTGATTGACGCCAACGCTGGCGCTACGACCATCGGGTTACCCTCGGCCAACGCTGCGCTGGGTGTTCGAGACGTCGTCATTCGGCGTCTGGACAACAGCGGCAATCGTCTTGTGGTTCAGGCCGGCGGGGCTGATCGGATCAGATTTCACACCCATCTTTCGGCCGCTGGCTATCCATTTCTCGTGCTGATGGGCAGTGGTGACTGGTGGCATCTACGTAGTGACGGTGCCGGCAGTTGGTGGCCAATGGGAAGGTTTGACAACACAGCTTTGGGGCGGCCGTTTTTTGAAACAACTATCCAACTCAGCCCGGGTGGTTACGGTGCGCTAAACGGCACGGTCATGAAACGTGCTGAGTGGCCCTGGCTGTGGGATCACGCCCAACAGTCCGGAATGCTCGGCACCGAGGCCACTCGGGAAGGCAGTGAAGGCAAATGGAGTTCTGGTGATGGTGTTCTCACTTTCCGAGCCCCGGAAGGACGAGGTGAATTCTTGCGGATCTTGGACGAAGGGCGCTCCGTGGATCCTGGACGGGCGATGGGGGCCTTTCAAGCCGGCACTGTTCACTCCTATGCGTTGGGGGGACAAGGGGCTGGTGCGGTTGGATCAAGATGGTCCGACAGCCTTACCGGATTCGGTGCCAACACCCGTGAGGAAATCAAAATCATCGGAGACCTTGTAAACGGTGGTCCGATATTTCCTACCGGGACCAGTTTCCAGGTAGATACGGCCAACACGTTGCTCTACTCATTCAAATCGCGCCCGCGCAATGTCGCTTATCCGGCGCGGATCAAACTCATCTGA	MDYPKSVPSVGLVDGRFVDENPVEGSPGSLIPAVWGNSVTQEILGVISGADIAPSEADTNQLFKAIQKIIGMTNPMRSVITRLALSKTLTANELGLVLIDANAGATTIGLPSANAALGVRDVVIRRLDNSGNRLVVQAGGADRIRFHTHLSAAGYPFLVLMGSGDWWHLRSDGAGSWWPMGRFDNTALGRPFFETTIQLSPGGYGALNGTVMKRAEWPWLWDHAQQSGMLGTEATREGSEGKWSSGDGVLTFRAPEGRGEFLRILDEGRSVDPGRAMGAFQAGTVHSYALGGQGAGAVGSRWSDSLTGFGANTREEIKIIGDLVNGGPIFPTGTSFQVDTANTLLYSFKSRPRNVAYPARIKLI				NA	NA	NA	NA	NA
D1-35_00197	561			hypothetical protein	GTGTTTTATTATCTTTTCGATAAAGCCGGCGCGTTGTCCGGACCCGTGGAGTTTCCCGTAACGCCAGGTATTGGCGTTCAGATCCCCAGTAATGCGGTGGCAATTTCCTTTGAACTACCCCCTCCGGAAGGTGGCCGCACGTGGGCGCTGGTGAGCAATGTGCCCCGAGAGGTTATTGACCGTCGCGGCTTGGTCTACCGCAAGAAAGACGGCGGCCAGCAGATTTGGAACGAACTGGGGGAATTGCCGGAAGCGTTCACAACCGAGCCATGGCCAGGTAATTACCATACCTGGAAAAATCACACTTGGGAGTTCGACGTTGACTTGCAGTTGAGCGACATCACTGGCCAGGTTCTGGCCCAACGGGATGCGCTTCTGCGCGACGCAATGTTGCGTATAGCCCCGCTTCAGTACGCCGAGGACATCGGCGACGCCAGCGACCAGGAACAACTGGCCCTGATGGAGTGGAAGCTTTATAGCGTCGAGTTGAATCGCATCCAGCATCAAGCCGGTTTTCCAGCCGCTATCACTTGGCCTGTCCTGCCCGAGCCTGCTCTTTAA	MFYYLFDKAGALSGPVEFPVTPGIGVQIPSNAVAISFELPPPEGGRTWALVSNVPREVIDRRGLVYRKKDGGQQIWNELGELPEAFTTEPWPGNYHTWKNHTWEFDVDLQLSDITGQVLAQRDALLRDAMLRIAPLQYAEDIGDASDQEQLALMEWKLYSVELNRIQHQAGFPAAITWPVLPEPAL				NA	NA	NA	NA	NA
D1-35_00198	912			hypothetical protein	GTGGACTATCCAAAAAGTGTGCCCAGCGCAGGTCTATCGAACGGCAGGTTCGTGGATGAAGATCCTTTGGCGGGAACGCCGGGATCCTTGATTCCCGCCAGTTGGGGCAATGGTGTAACGCTGGAGTTGCTTAATGTTATACAAGCCGCGGGCATAGCTCCGTCGGAGGTCGTCTATAACCAGCTGCTTACAGCCTTACGGGGGAGCGGGCTGTTTCTGACTGCGGCGCAATTCGATAACAGCAGGGCCGCCGCGACGACTGGATACGTAAACCGTACAGGGGTGCAGTATTCCAGATTCGATGTCTACAATAGCAGTGCCACTTTAACAGCATCGGATGTTGGCGGAGTTGCCAGTTTCGCCAGCAATACACCGGTAACCGCCAGACTGCCGGCGACCGCGGAAATCATACAGGGCGCGACTGTAAAGATTGTCAATGCAGGATCGGGCATCGTTACGGTTTCGACGGCATCCGCTATCGATGTGCTGTGCGCTTCGAATGGTGCTCAAGGAACCATCAGTATCGGCCTCGGCGAAACGGCGGAATTCATCAAGTTAAATAATCAATGGCGTCTCGTTGGCGGTAATGTGGCGTTGAAATATTCGGCTATGTCCGCTTCGTCATTGCAACCCAATGGTTGGAAACGAACGCCTGATGCAACAAGTCCGACGGGATATGTTATCGAACAATGGGGCGTTGCCTCCAGCGGAGCGGATGCCAACGGCGTTCTTGTGACGTTCCCCATGTCCTTTCCTAATGCCGTTAGAAACATCGTGGTGACGGATGGCGGTCCCACTTGCGCATGTTTTGGAGTTTCCACCGGCTCGCTGAGCCAGTTCAGGCTTTATGGGCGCGATTATAATGGCGCTTATTCAAGTTGGACCGGGATGTGGCGCGCGATAGGTTATTGA	MDYPKSVPSAGLSNGRFVDEDPLAGTPGSLIPASWGNGVTLELLNVIQAAGIAPSEVVYNQLLTALRGSGLFLTAAQFDNSRAAATTGYVNRTGVQYSRFDVYNSSATLTASDVGGVASFASNTPVTARLPATAEIIQGATVKIVNAGSGIVTVSTASAIDVLCASNGAQGTISIGLGETAEFIKLNNQWRLVGGNVALKYSAMSASSLQPNGWKRTPDATSPTGYVIEQWGVASSGADANGVLVTFPMSFPNAVRNIVVTDGGPTCACFGVSTGSLSQFRLYGRDYNGAYSSWTGMWRAIGY				NA	NA	NA	NA	NA
D1-35_00199	432			hypothetical protein	ATGATGATTTATTATGCTCAATCCACCGGCGGGTTCTACAACTCCATCGATCATTCCGGCAGGCTTCCTGAAGATGCAGTCAAGATCAGCGATGAAGAATATGGAGCGTTATTTGCCGCTCCTTTCCTGAACAAACGTATCGAGTCGGACGCCAAAGGCCGTCCGGTGCTCTTGGAGCTGTCCATTGATGAACTCACGGTGCGAATGGCCAGTGAAAAGAAATGGCGCGATGATCAACTCACCGCAACCGACCGCCTCATAGCGCGCGATCGCGACGAGATGGACGATGGCGGCGGCACGACGCTGGACCAGGCGCAGTACACGCAGTTGCAGGCTTATCGCCGGGCCCTTAGGGAATGGCCACAGGACGAGTACTTTCCAGCCGCCGAACACCGTCCGGCCGCGCCGTCCTGGCTGGCCGGGCAGCTTTGA	MMIYYAQSTGGFYNSIDHSGRLPEDAVKISDEEYGALFAAPFLNKRIESDAKGRPVLLELSIDELTVRMASEKKWRDDQLTATDRLIARDRDEMDDGGGTTLDQAQYTQLQAYRRALREWPQDEYFPAAEHRPAAPSWLAGQL				NA	NA	NA	NA	NA
D1-35_00200	564			hypothetical protein	ATGGACCTTACGCAACAGCAACTCATCAAGATCATGCCCGACGCCCGCGCCCAAGCGGGCGTTTTTATTCCAGCGTTGAACACCGCGATGTCTCGTTACCGCATTGACACTCCCAAGCGCATCGCCGCATTTCTGGCCCAGGTCGGTCACGAATCGGGGCAGTTGCGTTATGTACGAGAGCTGGGCAGCGAGCAATACCTGAGCAAATACGACACCGGAACCCTGGCCGTTCGCCTGGGCAACTCGACCCAGCCCGACGGTGACGGTCAGAAATATCGCGGCCGGGGCTTGATCCAGATTACCGGCCACGACAATTACCTTCGTTGCAGCCTGGGGCTGTTCGGCGACGAACGTTTGCTGGCCTTGCCCGAACTGCTCGAACAACCGCAATGGGCGGCGCAATCCGCCGCCTGGTTCTGGGCGCAGAACGGCCTGAACGAGCTGGCTGATCGTGACCAGTTCAACAGTATTACCCGCCGCATCAATGGCGGCCTGAATGGCTTGCAGGATCGCTTGCAACTCTGGGCGCGGGCGAGGGATGTGTTATGCCAACCTTCAGCCTGA	MDLTQQQLIKIMPDARAQAGVFIPALNTAMSRYRIDTPKRIAAFLAQVGHESGQLRYVRELGSEQYLSKYDTGTLAVRLGNSTQPDGDGQKYRGRGLIQITGHDNYLRCSLGLFGDERLLALPELLEQPQWAAQSAAWFWAQNGLNELADRDQFNSITRRINGGLNGLQDRLQLWARARDVLCQPSA	PGPT0012140_624	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012140-putative_chitinase-K03791	NA	NA
D1-35_00201	537			hypothetical protein	ATGCCAACCTTCAGCCTGATGCCGTTTTCCTGCCGTACGCTAGGTGTCGTTGTATTAGTGGCGCTGCTGATCGGTGGTCCAGCCATGTTGGCGTGGCGGCTCCAGGAGTGGCGGTACGGCAGGCAACTGGCGCAACTGGCGCAGTCGCAGTCCGAGACGCTCAATAGAATGACCCAGGCGGCAGCGAAGCAGCAAAAGACCGAACAGGACAAACGCCTCGCCCTGGAACAGCAACTCTCCGCCAGCGAACAAACCCACTACCGAGCCTTGAGCGATGCCCAACGTGATCAGGATCGCCTGCGCGATCGCCTTGCTACTGCCGATGTCCGGCTGTCAGTCCTCCTCGACGCCGACGATGTTGCCGCCGGTTGTGCAATGCCTGCCGCCACCGGCGCCAGCGGCATGGATCATGGCGCCCCACGCGCCCGACTTGACCCGGCGCATGCTCAACGAATTATCGCCATCACCGACGAGGGCGACCGTGGACTGATCGCCCTGCAGGCCTGCCAGGCTTATGTGAGAGCGCTGGCCCGGTAA	MPTFSLMPFSCRTLGVVVLVALLIGGPAMLAWRLQEWRYGRQLAQLAQSQSETLNRMTQAAAKQQKTEQDKRLALEQQLSASEQTHYRALSDAQRDQDRLRDRLATADVRLSVLLDADDVAAGCAMPAATGASGMDHGAPRARLDPAHAQRIIAITDEGDRGLIALQACQAYVRALAR				NA	NA	NA	NA	NA
D1-35_00202	501	pncC_1	COG1546	Nicotinamide-nucleotide amidohydrolase PncC	ATGGATGACATTACCGGACTGGCCGCTGAGTTGGGCAGGCGCTTGCAGGTGCTCAATGCCCATGTCACTACCGCCGAATCCTGTACCGGTGGCGGGATTGCCGAGGCGATCACGCGGATCCCGGGGAGTTCGGCCTGGTTCGAAGCCGGTTACGTCACCTATTCCAATCGCCAGAAAACCCAGCAGTTGGGTGTGCCCCCCGAATTGTTCGACAAGGTCGGCGCGGTCAGCCGCGAGGTGGTGGAGGCGATGGCGCGGGGCGCCCAGCAGAAAAGCCTGGCGCGTTTCGCCGTGGCGGTCAGCGGCGTGGCCGGGCCGGACGGAGGCTCGCCGAGCAAGCCGGTGGGCACCGTATGGCTCGCCTGGGGCGTTGGCGAGGCGGTGTTCAGCGAGCGGCGCTTCTTTCCAAGCAATCGCGACGAGGTCCGCCGACAAACGGTGAAGGCCGCGCTAGACGGGCTGTTACAACATGCCGCCACAGAAATCTCAAATCAGGGGTAG	MDDITGLAAELGRRLQVLNAHVTTAESCTGGGIAEAITRIPGSSAWFEAGYVTYSNRQKTQQLGVPPELFDKVGAVSREVVEAMARGAQQKSLARFAVAVSGVAGPDGGSPSKPVGTVWLAWGVGEAVFSERRFFPSNRDEVRRQTVKAALDGLLQHAATEISNQG	PGPT0013460_1682	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013460-pncC2-K03743	NA	NA
D1-35_00203	1053	recA	COG0468	Protein RecA	ATGGACGACAACAAGAAGAAAGCCTTGGCTGCGGCCTTGGGTCAGATCGAACGTCAATTCGGCAAAGGTGCCGTAATGCGTATGGGCGATCAGGACCGCCAGGCTATTCCTTCCATCTCTACCGGATCGCTGGGCCTGGACATCGCGCTTGGCATCGGCGGCTTGCCAAAAGGTCGTATTGTTGAAATCTACGGTCCTGAATCCTCCGGTAAAACCACGCTGACTCTGTCCGTGATCGCCCAGGCTCAAAAAGCCGGTGCGACCTGCGCCTTCGTCGACGCCGAACACGCTCTGGACCCGGAATACGCCGGCAAGCTGGGCGTCAACGTCGATGACCTGCTGGTTTCCCAGCCGGACACTGGCGAACAGGCCCTGGAAATCACCGACATGCTGGTGCGCTCCAACGCGGTTGACGTGATCATCGTCGACTCCGTAGCGGCACTGGTACCCAAAGCGGAAATCGAAGGTGAAATGGGCGACATGCACGTGGGCCTCCAGGCTCGCCTGATGTCCCAGGCCCTGCGCAAGATCACCGGTAACATCAAGAATGCCAACTGCCTGGTGATTTTCATCAACCAGATCCGCATGAAAATTGGCGTGATGTTCGGCAGTCCTGAAACCACCACCGGTGGTAACGCGCTGAAGTTCTACGCCTCGGTTCGCCTGGACATCCGTCGTACCGGCGCGGTGAAAGAAGGTGATGAGGTTGTCGGCAGTGAAACCCGCGTCAAGGTCGTGAAAAACAAGGTGGCATCGCCGTTCCGTCAGGCCGAATTCCAGATCCTGTACGGCAAGGGCATCTACCTCAACGGCGAGATGATCGACCTGGGTGTGCTGCACGGTTTCGTCGAGAAATCCGGCGCCTGGTATGCCTACAACGGTACCAAGATCGGTCAGGGCAAGGCCAACTCGGCCAAGTTCCTGGCGGACAATCCGGAAGTCGCGGCAACTCTCGAGAAGCAACTGCGCGACAAACTGTTGAGCCCGGTTGCAGACGTCAAGGCCGTGGCCAACCGCGAGACTGCAGACGATCTGGCTGACGCTGACATCTGA	MDDNKKKALAAALGQIERQFGKGAVMRMGDQDRQAIPSISTGSLGLDIALGIGGLPKGRIVEIYGPESSGKTTLTLSVIAQAQKAGATCAFVDAEHALDPEYAGKLGVNVDDLLVSQPDTGEQALEITDMLVRSNAVDVIIVDSVAALVPKAEIEGEMGDMHVGLQARLMSQALRKITGNIKNANCLVIFINQIRMKIGVMFGSPETTTGGNALKFYASVRLDIRRTGAVKEGDEVVGSETRVKVVKNKVASPFRQAEFQILYGKGIYLNGEMIDLGVLHGFVEKSGAWYAYNGTKIGQGKANSAKFLADNPEVAATLEKQLRDKLLSPVADVKAVANRETADDLADADI	PGPT0007235_2939	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0007235-recA-K03553	NA	NA
D1-35_00204	468	recX	COG2137	Regulatory protein RecX	ATGACCGCCGTACTCGATACCCTCGTCGCAGTGCGGCGAACCGCAATGGACCTGCTCGCCAGACGCGAGCACGGTCGAGTCGAGCTGACGCGTAAACTGCGCCAGCGCGGCGCCTCTGATGAATTGATCGACACAGCCCTGGACCGCTTGACGGAAGAGGGGCTGTTGTCGGAATCGCGCTACCTTGAAAGCTTTGTCTCCTATCGCGCCCGCTCTGGTTATGGCCCGATGCGAATTCGCGAAGAACTTGGCCAGCGCGGCTTGCAACGACCGGATATCGAACTTGCCTTGCGTGAAAGCGGTATCGATTGGCAGGAACAGTTAATCGATACCTGGCGTCGCAAGTTCTCAGGGCATCTGCCCATTGATGCGAAGGAACGGGCCAGGCAAGGGCGTTTCCTGGCGTATCGAGGATACTCCATGGAAATGATCAATCGGCTGTTCAGCGGTCGTAGCATGGATGACTAG	MTAVLDTLVAVRRTAMDLLARREHGRVELTRKLRQRGASDELIDTALDRLTEEGLLSESRYLESFVSYRARSGYGPMRIREELGQRGLQRPDIELALRESGIDWQEQLIDTWRRKFSGHLPIDAKERARQGRFLAYRGYSMEMINRLFSGRSMDD	PGPT0007240_3082	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007240-recX-K03565	NA	NA
D1-35_00205	1119			hypothetical protein	ATGCCTTACAAACCGAATGACCTGCTCAGTCGGCATTTTGAGAACCATGGCCACGACCTCACCCGCAAGGTCGAAGAGCAACTCAACCTGGTATCACCCAACAGTCCCAATCTCCCCATTTACCGCGACATGATCCTTACCGTGCTGCGCATGGCCCAGGAAGATCACAACCGCTGGAACGCCAAAATCACGCTGCAAGCACTGCGCGAACTGGAACATGCCTTCCGCACCCTCGAACAATTCAAGGGCCGTCGCAAAGTCACGGTCTTTGGCTCGGCCCGAACGCCCATCGAGCATCCGCTGTATGGCTTGGCGCGAAAACTGGGGGCGGCGCTGGCCCGGTCGGACATGATGGTCATCACCGGCGCAGGCGGAGGCATCATGGCCGCCGCCCATGAAGGCGCAGGCCGCGAGCACAGCCTGGGTTTCAACATCACCCTCCCCTTCGAACAACATGCGAACCCGACCGTTGAAGGCACGCAGAACCTCCTCCCGTTCCATTTCTTCTTCACCCGCAAGCTGTTCTTCGTCAAGGAAGCAGACGCGTTAGTGCTCTGCCCAGGTGGTTTCGGCACCCTTGATGAAGCATTGGAAGTCTTGACGCTGGTGCAGACAGGCAAGAGCCCATTGGTGCCGATAGTGTTGCTGGATGTGCCGGGAGGTAAATTCTGGCAGAGCGCCCTGGATTTCATTCATGAACAATTGGGAGAAAACCGCTACATCCTGCCCACCGACATGAAGTTGATGCGCCTGGTGTACACCGCCGAGGATGCGGTGGAAGAAATCAATCAGTTCTATCGCAACTTCCACTCCAGCCGCTGGCTCAAGCATCAGTTCGTGATCCGCATGAATCATGCGCTCACCGAACAGGCGATGCAGCAGATGCAGGTCCAATTTGCCGATCTATGCCTGAACGACTGCTTCCATCAGCATGCCTACAGCGGCGAGGAGCCGGAGGAGGCGCCTTTCAGCCACCTGACGCGCCTGGCATTCACCTTCAACGCCCGCGATCACGGTCGACTTAGAGAACTGGTGGACTATATCAACCTGCCGGAAAACTGGGCCCAGCCTGCCGCCCAACCCCACCCGCTGACCTGGGAACCAATCGAGGTGACTTGA	MPYKPNDLLSRHFENHGHDLTRKVEEQLNLVSPNSPNLPIYRDMILTVLRMAQEDHNRWNAKITLQALRELEHAFRTLEQFKGRRKVTVFGSARTPIEHPLYGLARKLGAALARSDMMVITGAGGGIMAAAHEGAGREHSLGFNITLPFEQHANPTVEGTQNLLPFHFFFTRKLFFVKEADALVLCPGGFGTLDEALEVLTLVQTGKSPLVPIVLLDVPGGKFWQSALDFIHEQLGENRYILPTDMKLMRLVYTAEDAVEEINQFYRNFHSSRWLKHQFVIRMNHALTEQAMQQMQVQFADLCLNDCFHQHAYSGEEPEEAPFSHLTRLAFTFNARDHGRLRELVDYINLPENWAQPAAQPHPLTWEPIEVT				NA	NA	NA	NA	NA
D1-35_00206	195			hypothetical protein	ATGACCAGGGTAACTCTGGAACTCGACAAGCAGTTGTACCTGATGCTGTTGGAAGCGGCTCAGGCCAATCAGGTGAGCCTTGAAGAGGAGTGCTGCCGTCGGCTGGAGGGCAGGGAATGGCGCTCGCGCTATTTGCAGGCGCTGGTGGCGGAACTGCGCGCCGACGATGAGCAGCGGCGCGCCAGCTCGGGTTGA	MTRVTLELDKQLYLMLLEAAQANQVSLEEECCRRLEGREWRSRYLQALVAELRADDEQRRASSG				NA	NA	NA	NA	NA
D1-35_00207	423			hypothetical protein	ATGCTGCGCCTTATCGTCCCAACCGTTGCCGTTCTGCTGGCGACGTCCATCAGCGCTCAGGCCGCGTCGCTGAAAGAACTCGAACTGAACAAGATGCTGCAGAACGTGGCCACGCAAAGCAGCGTCGGCACTCCGCGTGCCATCAACGAAGACATTCTCGACCAGGGTTATACCGTCGAAGGCACCGAGCTGATCAACCATCTCAGCGTGCAAAGCAGCCACGCCCAGAAAATGCGCGCCGACCCCAAGGCGGTCTACTTCCAGCTGGGCTCCACGGTGTGCACCAACCCAGGCTTTCGCAAGTTGATGGCCAAGGGCGCAACCATGCGTTACGAATTCACCGAAGTTAAGACCAATCGTCCGGTCGCCACCGAACGCTTCCAGGAATCGGACTGCCCGAAACCGGCCAAGACCAAGAAATAA	MLRLIVPTVAVLLATSISAQAASLKELELNKMLQNVATQSSVGTPRAINEDILDQGYTVEGTELINHLSVQSSHAQKMRADPKAVYFQLGSTVCTNPGFRKLMAKGATMRYEFTEVKTNRPVATERFQESDCPKPAKTKK				NA	NA	NA	NA	NA
D1-35_00208	747			hypothetical protein	ATGATCCATGCCCCCAACGCCGTAGCCCGCCTGCGCGACCAGCGCGTCGACGAGGGCATCAAGCCGCTCCAGGCCCGTGGCTGGCGCGCGCCTCGTTGTAGCGCGTGTCGGGTGATCGAAAGCCATTGCCTGTGTGCCTGGCGCCCGAGCGTCGAGACCCGTTCCGGGGTCTGCCTGATCATGACCAACAAAGAAGTCTTCAAGCCGAGCAATACCGGTTGGCTGATCGCCGATGTGGTGCGCGACAACCATGCCTTCATCTGGTCGCGTACCGAGGTCGACGGGCAATTGCTGGCTTTGCTGAATGACCCGCAATGGCAGCCTTATCTGGTGTTTCCAGGCGAGTATGTCGAACCGTCCCGTGTCACCCACACGGTGGCGCTCGATCAGGGCAAGCGTCCGTTGTTCATTCTGCTGGACGCGACCTGGACGGAAGCGCGCAAGATGTTTCGTAAAAGCCCGTATTTCGACCGATTGCCCATTCTGAGCCTGTTGCCCGACAAGTTGTCTCGTTATCGCTTGCGTCGCTCGACCCGCAGCGAACACCTGTGTACCGCCGAAGTGGCGGCGCTGTGCCTGGAACTGGCGGGGGACAGCGACGCGGCGTCGGCCCTGGACGCCTATTTCGATGTGTTCAGCCAGCATTACCTCGGCGCCAAGCGCCAGCAGGAGGTGAACGAGTCCACGCCGGCCCATGCCGAGCTGCAACCCTTCGTTCGCGCGGCTCCTGCGCTGTTGGCCGAGTAG	MIHAPNAVARLRDQRVDEGIKPLQARGWRAPRCSACRVIESHCLCAWRPSVETRSGVCLIMTNKEVFKPSNTGWLIADVVRDNHAFIWSRTEVDGQLLALLNDPQWQPYLVFPGEYVEPSRVTHTVALDQGKRPLFILLDATWTEARKMFRKSPYFDRLPILSLLPDKLSRYRLRRSTRSEHLCTAEVAALCLELAGDSDAASALDAYFDVFSQHYLGAKRQQEVNESTPAHAELQPFVRAAPALLAE				NA	NA	NA	NA	NA
D1-35_00209	654	lnrK	COG2197	Transcriptional regulatory protein LnrK	ATGGCCACATACGAAATCCTGATTGCCGATGACCACCCGCTTTTTCGCAGCGCGTTGCATCAGGCAGTGACCCTGGGCCTTGGCTCGGATGTCCGGTTGACGGAGGTGGCCAGCATCGCGGAACTGGAAAGCCGATTGGCTGAAAAGGCCGACTGGGACCTGGTGCTGCTGGATCTGAACATGCCCGGTGCGTATGGTTTTTCTGGCCTCGTGCTGTTGCGTGGGCAATACCCGCAAATTCCGGTGGTGATGGTCTCGGCCCAGGAAGAGGCCTCGGTGATGGTCAAGGCCCGCGAGTTCGGCGCCAGCGGGTTCATCCCCAAGTCCAGTTCCCTGGAAATGATTCAAAGAGCGGTGAAGGCCGTCCTTGATGGCGATGTATCCTGGCCGCCCCAGGCGTTCGAGGCGGTGAGTGTTTCCGCGGAAGCCAAGGCCGCCAGCGAAGGGCTGGCCAGCCTCACGCCGCAGCAATTCCGGGTGCTGACCATGGTCTGCGAAGGCCTGCTGAACAAGCAGATTGCCTATGAGCTGAATGTGTCCGAGGCGACTATCAAGGCCCACGTTACGGCGATCTTTCGTAAACTCAACGTGCGCACCCGGACGCAGGCGGCCTTGTTGCTGCAACAACTCGAGTCAATTTCGCCGCAGTCGTAG	MATYEILIADDHPLFRSALHQAVTLGLGSDVRLTEVASIAELESRLAEKADWDLVLLDLNMPGAYGFSGLVLLRGQYPQIPVVMVSAQEEASVMVKAREFGASGFIPKSSSLEMIQRAVKAVLDGDVSWPPQAFEAVSVSAEAKAASEGLASLTPQQFRVLTMVCEGLLNKQIAYELNVSEATIKAHVTAIFRKLNVRTRTQAALLLQQLESISPQS				NA	NA	NA	NA	NA
D1-35_00210	363	dgkA	COG0818	Diacylglycerol kinase	ATGTCACCTTTTAAAGGCCAAACCGGCCTGAAACGCATCCTCAATGCCTCCGGCTATTCCCTGGACGGCCTGCGTGCGGCGTTCGTTGGCGAAGCCGCTTTCCGTCAACTGGTGCTGCTCAATGTCATCCTGATTCCGCTGTCGTTCTTCCTTAACGTCAGCCGCGTCGAGCAGGCCTTGCTGATCGCGGTGTGCCTGCTGGCCCTGATCGTGGAGTTGCTGAACTCCGCGGTGGAAGCGGCCATCGACCGCATTTCCCTGGAGCTGCACCCACTGTCGAAAAATGCCAAGGACATGGGCAGCGCCGCCCAGTTGGTCGCCCTGACGATGATCGCGTTGGTTTGGGGCCTGATACTGCTCTGA	MSPFKGQTGLKRILNASGYSLDGLRAAFVGEAAFRQLVLLNVILIPLSFFLNVSRVEQALLIAVCLLALIVELLNSAVEAAIDRISLELHPLSKNAKDMGSAAQLVALTMIALVWGLILL	PGPT0024340_4724	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024340-dgkA|DGK-K00901	NA	NA
D1-35_00211	987	cmpR_1		HTH-type transcriptional activator CmpR	ATGGCGGCGACAATATCTGTTAAATGGATTATTAAGATAAGGGTTATCGGTTATATCGATATGCGATTTACTCTACGTCAACTTCAAGTCTTCGTCGCCGTCGCCCAGCAGGAAAGCGTGTCCCGTGCCGCGGGCCTGCTCAACCTGTCGCAGTCGGCCGCCAGCACTTCCATCACCGAATTGGAGCGCCAGTCCAGCTGCCAGCTCTTCGACCGCGCCGGCAAACGCCTGAGCCTCAACGCCCTCGGCAAGCAATTGCTGCCCCAGGCAGTGGCGCTGCTGGACCAGGCCAAGGAGATCGAAGACCTGCTCAACGGCAAGTCCGGCTTCGGTTCACTGGCGGTCGGCGCCACCCTGACTATTGGCAATTACCTGGCGACCCTGCTTATCGGCGGCTTCATGCAGCGCCATCCGGAAAGCCAGGTGAAGCTGCATGTGCAAAACACCGCCAATATCGTGCACCAGGTTGCTCACTATGAAATTGATCTGGGTCTGATCGAAGGCGACTGCAGCCACCCGGACATCGAGGTGCAGAGCTGGGTCGAGGATGAATTGGTGGTGTTCTGCGCGCCCCAGCATCCATTGGCCAAACGCGGCCAGGCGACAATGGAGGAGTTGACCCGCGAAGCCTGGATCCTGCGGGAACAGGGCTCCGGCACCCGCCTGACCTTCGACCAGGCCATGCGTCACCACCGTAGCGCGTTGAATATCCGCCTGGAGCTGGAACACACCGAAGCGATCAAGCGCGCCGTGGAGTCCGGCCTGGGGATAGGCTGTATCTCGCGCCTGGCCCTGCGTGACGCTTTTCGCCGCGGCAGCCTGGTGGCCGTGGAAACCCCGGACATGGATCTGTCGCGGCAATTTTATTTCATCTGGCACAAACAGAAATACCAGACATCGGCCATGCGTGAGTTTCTTGATCTGTGCCGGGCGTTCACCGCTGGGGTGCAGCGTAGCGACGAGATCGTCCTGCCCGCCATCGCCTGA	MAATISVKWIIKIRVIGYIDMRFTLRQLQVFVAVAQQESVSRAAGLLNLSQSAASTSITELERQSSCQLFDRAGKRLSLNALGKQLLPQAVALLDQAKEIEDLLNGKSGFGSLAVGATLTIGNYLATLLIGGFMQRHPESQVKLHVQNTANIVHQVAHYEIDLGLIEGDCSHPDIEVQSWVEDELVVFCAPQHPLAKRGQATMEELTREAWILREQGSGTRLTFDQAMRHHRSALNIRLELEHTEAIKRAVESGLGIGCISRLALRDAFRRGSLVAVETPDMDLSRQFYFIWHKQKYQTSAMREFLDLCRAFTAGVQRSDEIVLPAIA				NA	NA	NA	NA	NA
D1-35_00212	780	fpr_1	COG1018	Ferredoxin--NADP reductase	ATGAGCAACATGAACCACGAGCGTGTCCTCAGTGTTCATCACTGGAACGACACTCTGTTCAGCTTCAAGTGCACCCGCGATCCGGGCCTGCGCTTCGAGAACGGTCAGTTCGTGATGATCGGCCTGCAGCAGCCCAACGGCCGCCCGCTTATGCGCGCTTACTCGATTGCCAGCCCGAATTGGGAAGAGCATCTCGAATTTTTCAGCATCAAGGTTCCCGACGGTCCGCTGACTTCCCAGCTGCAGCACCTGAAGGAAGGCGACGAGATCATCATCAGCAAGAAGCCTACCGGCACGCTGGTGCTCGACGACCTCAAGCCTGGCAAACATTTGTATCTGCTCAGCACCGGTACCGGGCTGGCGCCATTCATGAGCGTGATCCAGGATCCGGAAACCTACGAGCGTTTCGAGAAAGTGATCCTGTGCCACGGCGTGCGTTACGTCAATGAAGTCGCCTACCGCGAATTCATTACCGAGCATCTGCCACAGAACGAATTCTTCGGCGAAGCGCTCCGCGAAAAGCTGATCTACTACCCGACCGTGACCCGCGAGCCCTTCGAGAACGAAGGCCGCCTGACCGACCTGATGCGCAGCGGCAAGCTTTTCCGCGACATCGGCCTGCCACCGATCAACCCGCAGGACGACCGCGCCATGTTGTGCGGCAGCCCAAGCATGCTCGACGAGACCAGCGAAGTGCTCAACAGCTTCGGCCTGACCGTTTCGCCGCGTATGCGTGAGCCGGGTGATTACCTGATCGAGCGGGCGTTTGTAGAGAAATAA	MSNMNHERVLSVHHWNDTLFSFKCTRDPGLRFENGQFVMIGLQQPNGRPLMRAYSIASPNWEEHLEFFSIKVPDGPLTSQLQHLKEGDEIIISKKPTGTLVLDDLKPGKHLYLLSTGTGLAPFMSVIQDPETYERFEKVILCHGVRYVNEVAYREFITEHLPQNEFFGEALREKLIYYPTVTREPFENEGRLTDLMRSGKLFRDIGLPPINPQDDRAMLCGSPSMLDETSEVLNSFGLTVSPRMREPGDYLIERAFVEK	PGPT0013215_2511	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528	NA	NA
D1-35_00213	699	trmO	COG1720	tRNA (adenine(37)-N6)-methyltransferase	ATGACCTACAACGTTTCCCCCATCGGCTTCGTCCGCTCCTGCTTCAAGGAGAAGTTCGCCATTCCGCGCCAGCCACACCTGGCCCCGGCCGCGCGTGGCGTGCTGGAGCTGGTGGCGCCGTTCGACCAGGGCGAAGCGGTGCAGGGCCTGGAGCAGGTCAGTCATGTCTGGCTGCTGTTCCTGTTCCACCAGGCCCTGGAGGAAAAACCACGATTGAAGGTGCGTCCGCCCCGACTGGGCGGCAACAAGTCCATGGGCGTATTCGCCACCCGCGCCACCCATCGCCCCAACGGCATCGGTCAGTCAGTGGTGAAGCTGGAACGGGTCGAAGCGGGTCGGCTGTGGATTTCGGGCATCGATCTGCTGGACGCGACGCCAGTGCTGGACATCAAGCCCTACGTGCCCTACGCCGACATCATCGGCTCGGCGACGAACAGCATCGCCAGCGCAGCGCCTGCATTGATTCCGGTGCAATGGGCGGACTCAGCCCTGCTTCAAGCCCGCGAGCATGCCCTGCGCCTCGAAGAGCCCTTGGTGGAGTTGATCGAACAATGCCTGGCCCAGGATCCACGTCCGGCGTATCAGGTCCCCGCAGCCGAACGGGAATACGGCGCGCAGTTCTGGGACCTGGATGTGCGCTGGCATTATCCGCAGCCGGGATTGATCCGGGTACTGGAAGTGATCCCGGCGCAGGAATAA	MTYNVSPIGFVRSCFKEKFAIPRQPHLAPAARGVLELVAPFDQGEAVQGLEQVSHVWLLFLFHQALEEKPRLKVRPPRLGGNKSMGVFATRATHRPNGIGQSVVKLERVEAGRLWISGIDLLDATPVLDIKPYVPYADIIGSATNSIASAAPALIPVQWADSALLQAREHALRLEEPLVELIEQCLAQDPRPAYQVPAAEREYGAQFWDLDVRWHYPQPGLIRVLEVIPAQE				NA	NA	NA	NA	NA
D1-35_00214	462			hypothetical protein	ATGATTCACAACGACGTACTGCGCAGCGTGCGCTACATGCTCGACATCAGCGACAAGAAAGTCATCGAGATCATCAAGCTGGGCGGCCTGGATGTTTCCCTGGAAGACCTGACTGGCTACCTCAAGAAAGACGAGGAAGAAGGCTTTGTGTTCTGCCCGGACCTGGTCATGGCGCATTTTCTCGATGGCCTGGTGATCTTCAAGCGCGGCAAGGACGAAAGCCGTCCGCCGCAGCCGATCGAAGTGCCGGTGACCAACAACATCATCCTGAAGAAACTGCGCGTGGCGTTCGAGCTGAAGGAAGACGACATGCACGCCATTCTCAAGGCCGCCGAATTCCCGGTATCAAAGCCGGAGTTGAGCGCGCTGTTCCGCAAATTCGGCCACACCAACTATCGCCCATGCGGCGACCAGTTGCTGCGCAATTTCCTCAAGGGCCTGACGCTGCGCGTGCGCGGCTGA	MIHNDVLRSVRYMLDISDKKVIEIIKLGGLDVSLEDLTGYLKKDEEEGFVFCPDLVMAHFLDGLVIFKRGKDESRPPQPIEVPVTNNIILKKLRVAFELKEDDMHAILKAAEFPVSKPELSALFRKFGHTNYRPCGDQLLRNFLKGLTLRVRG				NA	NA	NA	NA	NA
D1-35_00215	711	rluF	COG1187	Dual-specificity RNA pseudouridine synthase RluF	ATGACTGACCCGATTCGTCTCTCCAAACGCCTCATCGAACTCGTCGGCTGCTCCCGTCGGGAGGCTGAGCTGTTCATCGAGGGCGGCTGGGTCACCGTGGACGGCGAAGTGATCGACGAGCCGCAGTTCAAGGTCACCGGCCAGAAGGTCGAACTCGACCCGCAAGCCAAGGCCACTGCGCCGGAGCCGGTGACGATCCTGCTCAACGTCCCGGCGGGCATGGACGTCGACACCGCCATGGCAACCCTCGGACCGGAGACCCTGAGCGACGAACATCGCTTCGGCAAGCGCCCGCTCAAGGGCCACTTTCTGCGCCTGACCGCCAGCGCCGACTTGCAGGCCAATGCCAGCGGCCTGCTGGTGTTCACCCAGGACTGGAAGATCCTGCGCAAGCTCACCGCCGACGCGGCCAAGATCGAGCAGGAATACGTAGTCGAAGTCGAGGGTGAAATGGTCGCCCACGGTCTTAATCGCCTGAACCACGGCCTGACCTACAAAGGCAAGGAATTGCCTGCGGTCAAGGCCAGCTGGCAGAACGAAAACCGCCTGCGCTTCGCCATGAAGAATCCGCAACCAGGCGCCATTGCACTGTTTTGCCAAGCGGTCGGCCTGAAGGTCGTCGCTATCCGCCGCATCCGCATCGGCGGCGTGTCCATCGGCAAGGTGCCGTTGGGCCAATGGCGCTATCTGTCCGCCAAAGAAAAATTCTAG	MTDPIRLSKRLIELVGCSRREAELFIEGGWVTVDGEVIDEPQFKVTGQKVELDPQAKATAPEPVTILLNVPAGMDVDTAMATLGPETLSDEHRFGKRPLKGHFLRLTASADLQANASGLLVFTQDWKILRKLTADAAKIEQEYVVEVEGEMVAHGLNRLNHGLTYKGKELPAVKASWQNENRLRFAMKNPQPGAIALFCQAVGLKVVAIRRIRIGGVSIGKVPLGQWRYLSAKEKF				NA	NA	NA	NA	NA
D1-35_00216	474	yjaB	COG0454	Peptidyl-lysine N-acetyltransferase YjaB	ATGCGTCAGCATTCGGTCATCCACACACCGAAACCGAGCGATTACGAGGAATTGACCCGGGTCTGGGAAGCGTCGGTACGCGCTACCCATGACTTCCTGCCAGACAGCTACATCGAGCTGCTGAAGAACCTGGTACTCACCCGTTACCTGGACGCGGTGATGCTGATCTGTACTCGGGACCACCGTCAACGCATCACCGGGTTTGCCGGTGTGGCGGCCGGCAAGATCGAAATGCTCTTCATCGACCCGCAACACCGGGGCCAAGGCCTGGGCAAACAACTGCTGCGCTATGCCATGGAGCACCTGAACGCCAACGAGCTGGACGTCAACGAACAGAACCCGCAAGCCCTGGGCTTTTATCTCAAGCAAGGCTTTGAAGTGGTCGGGCGTTCCGCACGGGATGGCATGAACCAGCCGTACCCGTTGCTGCACATGCGCTACAAACAAGCCGACCTGAAGGCCGGACGCGGCTAA	MRQHSVIHTPKPSDYEELTRVWEASVRATHDFLPDSYIELLKNLVLTRYLDAVMLICTRDHRQRITGFAGVAAGKIEMLFIDPQHRGQGLGKQLLRYAMEHLNANELDVNEQNPQALGFYLKQGFEVVGRSARDGMNQPYPLLHMRYKQADLKAGRG	PGPT0003925_21	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_LIPOIC_ACID_INTERFERRENCE	PLANT_LIPOIC_ACID_BIOSYNTHESIS,PGPT0003925-lipB-K03801	NA	NA
D1-35_00217	1341	rimO	COG0621	Ribosomal protein S12 methylthiotransferase RimO	ATGTCCACCACTCCCGCGCCAGCCAACCCGAAGGTTGGCTTCGTATCACTGGGTTGCCCGAAGGCTCTGGTCGACTCCGAGCGCATCCTGACCCAACTGCGCATGGAAGGTTATGACGTGGTGTCCACCTACCAGGACGCCGACGTGGTAGTGGTCAACACCTGTGGCTTCATCGACTCCGCCAAGGCCGAATCCCTCGAAGTCATCGGCGAAGCCATCAAGGAAAACGGCAAGGTCATCGTGACCGGCTGCATGGGCGTGGAAGAAGGCAACATCCGCAACGTGCACCCGAGCGTGTTGTCGGTGACCGGTCCGCAGCAGTACGAGCAAGTGGTCAACGCCGTGCACGAAGTCGTGCCGCCGCGCCAGGACCACAACCCGCTGATCGACCTGGTGCCGCCGCAAGGCATCAAGCTGACCCCGCGTCACTACGCCTACCTGAAGATTTCCGAAGGCTGCAACCACAGTTGCAGCTTCTGCATCATCCCGTCGATGCGCGGCAAACTGGTCAGCCGTCCGGTCGGTGATGTACTCGACGAGGCCCAGCGCCTGGTCAAGTCTGGCGTCAAGGAGCTGCTGGTGATTTCCCAGGACACCAGTGCCTATGGTGTCGACGTGAAATACCGCACCGGTTTCTGGAACGGCGCGCCGGTGAAAACCCGCATGACCGAGCTGTGCGAAGCGCTCAGCAGCCTCGGCGTCTGGGTCCGCCTGCATTACGTCTACCCGTATCCGCATGTCGACGAGCTGATCCCGCTGATGGCCGCCGGCAAGATCCTGCCGTACCTCGACATCCCGTTCCAGCACGCCAGCCCGAAAGTGCTCAAGGCGATGAAGCGCCCGGCCTTTGAAGACAAGACCCTGGCACGTATCAAGAACTGGCGCGAAATCTGCCCGGACCTGATCATCCGCTCGACCTTCATCGTCGGCTTCCCCGGCGAAACCGAGGAAGACTTCCAATACCTGCTGAATTGGCTGACCGAAGCCCAGCTCGACCGCGTCGGTTGCTTCCAGTACTCGCCGGTCGAAGGCGCACCGGCCAACGACCTGGACCTGGACGTGGTCCCGGACGACGTCAAGCAGGAGCGTTGGGAACGCTTCATGGCGCACCAGCAGGCGATCAGCTCGGCCCGCCTGCAAATGCGCATCGGCCGTGAAATCGAAGTGCTCGTGGACGAAGTCGACGAGCAAGGCGCCGTCGGCCGCTGCTTCTTCGACGCCCCGGAAATCGACGGCAACGTCTTCATCGACAACGGCAGCAACCTCAAGCCAGGCGACAAGGTCTGGTGCAAGGTCACCGACGCCGATGAGTATGATTTGTGGGCTGAGCAGATCGGTTGA	MSTTPAPANPKVGFVSLGCPKALVDSERILTQLRMEGYDVVSTYQDADVVVVNTCGFIDSAKAESLEVIGEAIKENGKVIVTGCMGVEEGNIRNVHPSVLSVTGPQQYEQVVNAVHEVVPPRQDHNPLIDLVPPQGIKLTPRHYAYLKISEGCNHSCSFCIIPSMRGKLVSRPVGDVLDEAQRLVKSGVKELLVISQDTSAYGVDVKYRTGFWNGAPVKTRMTELCEALSSLGVWVRLHYVYPYPHVDELIPLMAAGKILPYLDIPFQHASPKVLKAMKRPAFEDKTLARIKNWREICPDLIIRSTFIVGFPGETEEDFQYLLNWLTEAQLDRVGCFQYSPVEGAPANDLDLDVVPDDVKQERWERFMAHQQAISSARLQMRIGREIEVLVDEVDEQGAVGRCFFDAPEIDGNVFIDNGSNLKPGDKVWCKVTDADEYDLWAEQIG				NA	NA	NA	NA	NA
D1-35_00218	1902	kup		Low affinity potassium transport system protein kup	ATGGGTCATGCAAGTAGTCAGGCGGCGACTGCCGAGCATTCGGCAACGAAGCCGCTGAGCATGCTGGTCGCGGCGGTCGGAGTGGTATATGGCGACATCGGCACAAGCCCCCTGTATACCCTGAAGGAAGTGTTTTCCGGCGGCTATGGCGTGCCGGTCAACCATGACGGGGTGCTGGGGATTCTGTCGCTGATTTTCTGGTCGCTGATCTGGGTCGTGTCGATCAAATACATGATGTTCGTCCTGCGCGCCGACAACCAGGGCGAGGGCGGGATCATGGCCCTGACCGCCCTGGCGCGGCGGGCGGCGGCCGGCAGGGCGCGGTTGCGCACGTTGCTGGTGATCTGCGGCCTGATCGGTGCGGCGCTGTTCTATGGCGATAGCATGATCACCCCGGCGATCTCGGTACTGTCGGCGGTGGAAGGCCTCGGCCTGGCATTTGAAGGCATCGATCACTGGGTGGTGCCGCTTTCGGTGGTGGTGCTGGTCGCGTTGTTCCTGATCCAGCGTCACGGCACCGCGCGGATCGGCATCCTGTTCGGCCCGATCATGGTGACCTGGTTCCTCGTGCTCGGCGCTCTGGGCGTGTATGGCATCAGCCAGCATCCGGAAGTATTAAACGCAGTGAACCCGGCCTGGGCCGTGCGTTTTTTTGTCGTCCACCCGGGCATGGGCGTGGCGATCCTTGGCGCGGTGGTGCTGGCGCTGACCGGGGCTGAAGCGCTGTATGCCGACATGGGGCATTTCGGTCGCAAGCCGATCGCTCGCGCCTGGTTTATCCTCGTGCTGCCGGGCCTTATGCTCAACTATTTCGGCCAGGGCGCCTTGCTGCTCGGCGACCCTGAAGCGGCGCGCAACCCGTTCTATCTGCTGGCGCCGAGCTGGGCATTACTGCCATTGGTGGGCCTGTCGACCCTGGCGACGGTGATCGCTTCGCAAGCGGTGATTTCCGGCGCGTTCTCGCTGACGCGCCAGGCAATCCAGCTCGGCTACATCCCGCGTATGTACATCCAGCACACCTCCAGTGCCGAACAGGGCCAGATCTACATCGGTGCGGTGAATTGGTCGTTGATGGTCGGCGTGGTGCTGCTGGTGCTGGGCTTCGAGTCGTCCGGAGCGCTGGCTTCGGCCTACGGCGTGGCGGTGACCGGTACGATGTTGATGACCACGATCCTGGTCTCCGCCGTGATCCTGTTGTTGTGGAAATGGCCGCCGTTGCTAGCGGTGCCGGTGCTGTTCGGTTTCCTGCTGGTAGATGGGCTGTACTTCGCCGCCAACGTGCCGAAGATCATCCAGGGCGGCGCGTTCCCGGTCATTGCCGGTATCGCCTTGTTCGTGCTGATGACTACCTGGAAGCGCGGCAAACAACTGCTGGTGGAGCGCCTGGACGAAGGTGCGTTGCCGTTGCCGGTGTTCATCAGCAGCATTCGCGTGCAGCCGCCGCATCGTGTGCAGGGCACCGCGGTGTTCCTGACTGCGCGCTCGGATGCCGTGCCCCACGCGCTGTTGCATAACCTGTTGCACAACCAGGTGCTGCACGAGCAAGTGGTGTTGTTGACCGTGGTCTACGAGGACATTCCCCGCGTACCGTCGCAGCGGCGCTTCGAGGTCGATGCCTACGGCGAGGGCTTCTTCCGGGTCATCCTGCATTTCGGCTTCACCGACGAACCGGACGTGCCCCAGGCGCTCAAGCTCTGCCATCTGGATGAACTGGATTTCAGCCCGATGCGCACGACGTACTTCCTCAGCCGCGAGACCGTCATCGCCTCCAAGCTCGAAGGCATGGCCCGCTGGCGCGAGTCGCTGTTCGCCTTCATGCTGAAGAACGCCAACGGCAACCTGCGCTTCTTCAATCTGCCGTTGAACCGAGTGATCGAGCTGGGTACGCAGGTGGAGATGTAG	MGHASSQAATAEHSATKPLSMLVAAVGVVYGDIGTSPLYTLKEVFSGGYGVPVNHDGVLGILSLIFWSLIWVVSIKYMMFVLRADNQGEGGIMALTALARRAAAGRARLRTLLVICGLIGAALFYGDSMITPAISVLSAVEGLGLAFEGIDHWVVPLSVVVLVALFLIQRHGTARIGILFGPIMVTWFLVLGALGVYGISQHPEVLNAVNPAWAVRFFVVHPGMGVAILGAVVLALTGAEALYADMGHFGRKPIARAWFILVLPGLMLNYFGQGALLLGDPEAARNPFYLLAPSWALLPLVGLSTLATVIASQAVISGAFSLTRQAIQLGYIPRMYIQHTSSAEQGQIYIGAVNWSLMVGVVLLVLGFESSGALASAYGVAVTGTMLMTTILVSAVILLLWKWPPLLAVPVLFGFLLVDGLYFAANVPKIIQGGAFPVIAGIALFVLMTTWKRGKQLLVERLDEGALPLPVFISSIRVQPPHRVQGTAVFLTARSDAVPHALLHNLLHNQVLHEQVVLLTVVYEDIPRVPSQRRFEVDAYGEGFFRVILHFGFTDEPDVPQALKLCHLDELDFSPMRTTYFLSRETVIASKLEGMARWRESLFAFMLKNANGNLRFFNLPLNRVIELGTQVEM	PGPT0002720_3040	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002720-trkD|kup-K03549	NA	NA
D1-35_00219	1290			hypothetical protein	ATGATGCAACGCTCCTGGCGATACGTAGTGGCCGCCCTGCTGGTGCTGGCGGTGATTCTCGGTGGCGGCTACTGGTACTGGAACCGCCCGGCCCCGCAACCGACCCTGGAACAACTGGAGCCGGCCGATGGCGTGCCGATGACCCGAGTCATCCCCGGCACCAAGGCACGCGCCCAGGTGCTGGTGGCGGTCAACGAGGACCAGAAGCTCAGCGACACCCAATTGACGACCCTCAGCCGCAGCGGCTCGGCGCAGATCGTCCAGGTGATCCTGCCCAAGGACTGCATGCTCCAGGGGCGCGCCTTGCAAGCCGGCCTGCGGCAGCTGCACGGCCCGGCCACGCTGGTCAGCGGCATCGGTCCCGGCGCGGTGCTGGCCTGGCGCTGGCTGGCTGAACAGAAGGACGACAAGGCCCAGGCCGTCTCGGTCGACCTGGCCCTGGAAAAACCCGGCTGCACCCACCTGCTGCCCAAAAGCGCCGGCCATGGTCGCTGGCTGGTGGCCTGGAACGATAACCCCGACGATACCAGCGCCGCTTTCGTGCGCGACCAGAAGAATGCCGAAACCAGCATCAGCGACTACGACATCAACCTGGCGCAGGTACTCAACAACGAGCTGCGCAAGATCCTGGTGGGCGCCGACAAGGGCAAGGGCGGCCTGAGCATTCCGGTGGTGGAAGTCCCCGCCAGCCAGGCCCGGGACACCGTGACGCTGTTTCTCTCCGGCGACGGTGGCTGGCGTGACCTGGACCGCGACGTGGCCGATGAAATGGCCAAGGTCGGTTACCCGGTGGTCGGCATCGACACCCTGCGCTATTACTGGCAGCACAAGAGCCCCGAACAGAGCGCGACCGACCTGACCGAGCTGATGCAACACTATCGCCAGATCTGGGGCACCAAACGCTTCGTCCTGACCGGCTATTCCTTCGGAGCCGATGTCCTGCCGGCAATCTACAACCGCCTGCCGGCGACAGAACAGCAACGGGTCGATGCGATTATCCTGCTCGCCTTTGCCCGCACCGGCAGCTTCGAAATCGAAGTCGAGGGCTGGCTCGGCAACGCCGGCACCGAAGCCGCCACCGGCCCGGAAATGGCCAAGCTGCCGGCGGAAAAAGTGGTGTGCATCTATGGCGCGGAAGAAGCCAACGAAAGTGGCTGCACCGACAAGACCGCCGTAGGCGAAGCCATAAAGCTGCCCGGCGGCCATCACTTCGATGAAAACTACCCGGCCCTGGCCAAGCGGTTGATCGATGAGATCAACAAGCGGCAGACCACACCTGCCGCGCAGTGA	MMQRSWRYVVAALLVLAVILGGGYWYWNRPAPQPTLEQLEPADGVPMTRVIPGTKARAQVLVAVNEDQKLSDTQLTTLSRSGSAQIVQVILPKDCMLQGRALQAGLRQLHGPATLVSGIGPGAVLAWRWLAEQKDDKAQAVSVDLALEKPGCTHLLPKSAGHGRWLVAWNDNPDDTSAAFVRDQKNAETSISDYDINLAQVLNNELRKILVGADKGKGGLSIPVVEVPASQARDTVTLFLSGDGGWRDLDRDVADEMAKVGYPVVGIDTLRYYWQHKSPEQSATDLTELMQHYRQIWGTKRFVLTGYSFGADVLPAIYNRLPATEQQRVDAIILLAFARTGSFEIEVEGWLGNAGTEAATGPEMAKLPAEKVVCIYGAEEANESGCTDKTAVGEAIKLPGGHHFDENYPALAKRLIDEINKRQTTPAAQ				NA	NA	NA	NA	NA
D1-35_00220	2643			hypothetical protein	ATGCGCGCCCACTCGTCTGACCCACAAGACACTGTCAATGCGACACAACCGATCAAGGCCGAGCGATTGCGCTGGCTGGACCGGATCAGCCAGTACCGGCAACCGATCGGCCTCGCCGTCACGCTGCTGCTGTTTGCGATTGCCTTGATCGCCTGCCGTCACCTCCTGAGCGAACTCGACCTCTACGCCCTTCACGACTCGATCCTCGAGGTGCCGAGGCCGGCGCTGCTCGGTGCGATAGCCGCCACCGTGGCCGGCTTCATCATTCTGCTGGGCTATGAATGGTCCGCCACTCGCTACGCCGGCGTGAAGCTGCCCACCCAAACCCTGATCCTCGGCGGCTTCAGCGCGTTTGCGATCGGCAATGCGATCGGCCTGTCGCTGCTGTCGGGCGGTTCGGTTCGCTACCGCCTGTACGCCCGCCACGGCCTGGGGGCGGCGGATGTCGCCCACATGACATTGTTCGCCAGTCTGTCACTGGGTTGCGCGCTACCGCCACTGGCGGCCCTGGCGACGTTGAGCAATCTGCCTGCCGCCTCTGCCGCCCTGCACCTTCCCGCCACTTTGCTGGGGGTGATCGCCGTTGCCGTGCTGCTGCTGACCAGTGCGCTGGCCATCGGCATCTATCGCCGCCGCCTGCCGGAACAACCCTATCGGGATGCCCTGCTGGTCAAGGCCGGTCGCCGCACGCTGCGTCTGCCGGGCCGCCGGCTGACGTTCCTGCAACTGATCATCACCGCGCTGGATGTCGCCGCCGCGGCAACGGTGCTCTATCTGTTGCTGCCGGAGGCGCCACCGTTCGGCCCCTTCTTGCTGGTTTACCTGCTGGCGCTCGCCGCCGGCGTCCTCAGTCATGTGCCGGGCGGCGTCGGGGTGTTCGAAGCGATCCTGCTGGCCGCGTTTGCCGACAGACTCGGGGCTGCGCCGCTGGCGGCCGCCCTGCTGCTGTATCGCCTGATCTACGTGCTGCTGCCGATGCTGGTGGCGTGCGTATTGTTGTTGATCAATGAGGCACAACGGCTGTTCCAGACCCGCCAGACCCTGCGGGCGGCGTCCGGTTTCGCGGCGCCAATCCTGGCAGTGCTGGTGTTCCTGTCCGGCGTGGTGCTGCTGTTTTCCGGCGTGACGCCGGAGATCGACACGCGCCTGGAGCACATCGGCTTCCTGATCCCGCATCGCCTGGTGGACGCCTCGCACTTTGGCGCCAGCCTGGTGGGCGTGTTGTGCCTGTTGCTCGCCCAAGGCCTGCGTCGCCGCTTGTCCGCAGCCTGGATGCTGACCACTGTCCTGTTGCTGGTGGGCGCCCTCCTCTCGCTGCTCAAGGGTTTCGACTGGGAAGAAGCCACCCTGCTGACGCTGACCGCAGCCCTGCTGGCGGTCTTCCGGCGTTCCTTTTACCGCCCAAGTCGCCTGACCGAGCTGCCCTTCTCGCCGTTGTTCCTGATTGCCAGCCTCTGCGTGCTGGGTGCGTCGATCTGGCTGCTGCTGTTTGCCTATCAGGATGTGCCGTATAGCCATCAACTGTGGTGGCAGTTCACCCTGGACGCCGACGCCCCGCGTGGCCTGCGCTCGCTGCTGGGTGCCGCGGTGCTGCTGGTGGTGGTGTCCCTGACCTGGCTGCTGCGCACCGCTCGGCCGGTGATTCATCTGCCTACGGCTGAAGAACTGGAGCGCGCCCGGACGATTCTCATGGCGTCTTCGCAACCCGACGGCGGCCTGGCCCTGACCGGCGACAAGGCGCTGCTGTTTCATCCCAACGATGAAGCCTTCCTGATGTATGCCCGCCGTGGCCGCAGCCTGGTCGCGCTGTACGACCCGATCGGGCCGACCCAGCAACGGGCGGAAATGATCTGGCAGTTCCGTGACCTTTGCGACATCTACCACGCCAGGCCAGTGTTCTATCAGGTGCGTGCCGAGAACCTGCCCTATTACATGGACATCGGCCTGACTGCGATCAAGCTGGGCGAAGAAGCGCGGGTCGATCTCAAGCGTTTTGATCTCGAAGCCAAGGGCAAGGAGATGAAGGACCTGCGCTACACCTGGAATCGCGGCACCCGTGACGGCCTGTCACTGGAGATCCATGAACCGGGCCAGGCGCCAATGGACGAACTCAAGGTTATTTCCGATGCCTGGCTGACCGGCAAGAATGTACGTGAGAAAGGTTTCTCCCTGGGGCGATTCAGCCATGATTACCTCAAGCACTTCCGCATCGCGGTGATTCGTTTCGAGGGGCGTCCGGTGGCGTTCGCCAACCTGCTGGAAACCCATAGCCATGAGCTGGCCAGCCTTGACCTCATGCGTGCTCATCCCGAAGCCCCGAAGCTGACCATGGAGTTCATGATGGTCGGCCTCATCCAGCATTACAAAAACCATGACTACGCCCGCTTCAGCCTCGGCATGGTCCCGCTCTCGGGCCTGCAACCGCGTCGCGGCGCTCCATTGACCCAGCGCCTGGGTTCGATGGTGTTTCGCCGTGGCGAGCAGCTCTACAATTTCCAGGGCCTGCGCCGCTTCAAAGACAAATTCCAGCCTGACTGGGAACCTCGTTACATGGCCGTGCCCGCCGGACTCGATCCGCTGGTAGCGCTGGCCGATACCGCCGCCCTGATTGCGGGCGGCCTGACTGGATTGGTGAAACGCTGA	MRAHSSDPQDTVNATQPIKAERLRWLDRISQYRQPIGLAVTLLLFAIALIACRHLLSELDLYALHDSILEVPRPALLGAIAATVAGFIILLGYEWSATRYAGVKLPTQTLILGGFSAFAIGNAIGLSLLSGGSVRYRLYARHGLGAADVAHMTLFASLSLGCALPPLAALATLSNLPAASAALHLPATLLGVIAVAVLLLTSALAIGIYRRRLPEQPYRDALLVKAGRRTLRLPGRRLTFLQLIITALDVAAAATVLYLLLPEAPPFGPFLLVYLLALAAGVLSHVPGGVGVFEAILLAAFADRLGAAPLAAALLLYRLIYVLLPMLVACVLLLINEAQRLFQTRQTLRAASGFAAPILAVLVFLSGVVLLFSGVTPEIDTRLEHIGFLIPHRLVDASHFGASLVGVLCLLLAQGLRRRLSAAWMLTTVLLLVGALLSLLKGFDWEEATLLTLTAALLAVFRRSFYRPSRLTELPFSPLFLIASLCVLGASIWLLLFAYQDVPYSHQLWWQFTLDADAPRGLRSLLGAAVLLVVVSLTWLLRTARPVIHLPTAEELERARTILMASSQPDGGLALTGDKALLFHPNDEAFLMYARRGRSLVALYDPIGPTQQRAEMIWQFRDLCDIYHARPVFYQVRAENLPYYMDIGLTAIKLGEEARVDLKRFDLEAKGKEMKDLRYTWNRGTRDGLSLEIHEPGQAPMDELKVISDAWLTGKNVREKGFSLGRFSHDYLKHFRIAVIRFEGRPVAFANLLETHSHELASLDLMRAHPEAPKLTMEFMMVGLIQHYKNHDYARFSLGMVPLSGLQPRRGAPLTQRLGSMVFRRGEQLYNFQGLRRFKDKFQPDWEPRYMAVPAGLDPLVALADTAALIAGGLTGLVKR	PGPT0024390_194	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLGLYCEROL_LYSYLTRANSFERASE,PGPT0024390-mprF|fmtC-K14205	NA	NA
D1-35_00223	1062	dinB	COG0389	DNA polymerase IV	ATGACGCAACGCAAAATCATCCACGTCGACTGCGACTGCTTCTACGCCGCGATCGAAATGCGCGATGATCCGCGGCTGGCCGGCATACCCCTGGCGGTCGGTGGCTCGGCGGACCGGCGTGGGGTCATCGCGACCTGCAATTACGAGGCGCGGGCCTACGGTGTGCGCTCAGCCATGTCTTCTGGCCACGCGCTGAAGCTCTGCCCCGACCTGACCATCGTCAAGCCGCGGATGGACGCCTATCGGGAGGCCTCCAGGGAAATTCAGACGATTTTCAGCGATTACACCGACCTGATCGAACCGCTGTCGCTGGACGAGGCTTATCTGGACGTCTCCGCCAGTCCGCATTTCGGCGGCAGTGCCACGCGCATCGCCCAGGATATTCGCCGGCGTGTTTCCAACCAGTTGCACATCACTGTTTCCGCGGGCGTGGCGCCGAACAAGTTTCTCGCCAAGATCGCCAGTGACTGGAAAAAGCCCAACGGCCTGTTCGTCATCACTCCTGACCAAGTGGAAGATTTCGTCTCGGCGCTGCCGGTGAGCAAGCTGCACGGCGTCGGCAAGGTCACCGCCGACAAGTTGAACAGGCTCGGGATTATTGACTGCCAGCACTTGCGCGAGTGGGACAAGTTGGCACTGGTGCGTGAATTCGGCAGTTTCGGCGAGCGACTCTGGAGCCTCGCCCGTGGAATTGACGAGCGCCTGGTGCACAACGACAGCCGGCGGCAATCCATCAGCGTGGAAAACACCTATGACGTCGATTTGCCTGATCTGCAGAGCTGCCTCGACAAACTGCCCGAACTGATGGAAACCCTGGGCGGGCGCATGGCGCGGATCGACAGCAGCTATCGGCCGGGCAAGCCGTTCGTCAAAGTGAAATTCCATGACTTCACCCAGACCACCCTTGAGCAGGCCGGGGCAGGGCGGGACCTGGGCAGTTACCAGCTACTGTTGACCCAGGCGTTCAACCGCGGCGGCAAACCGGTGCGATTGTTGGGGATCGGAGTGCGGCTGGAGGACTTGCGGGGTGGGTTTGAGCAGTTGGAGTTGTTTGAGCGTTGA	MTQRKIIHVDCDCFYAAIEMRDDPRLAGIPLAVGGSADRRGVIATCNYEARAYGVRSAMSSGHALKLCPDLTIVKPRMDAYREASREIQTIFSDYTDLIEPLSLDEAYLDVSASPHFGGSATRIAQDIRRRVSNQLHITVSAGVAPNKFLAKIASDWKKPNGLFVITPDQVEDFVSALPVSKLHGVGKVTADKLNRLGIIDCQHLREWDKLALVREFGSFGERLWSLARGIDERLVHNDSRRQSISVENTYDVDLPDLQSCLDKLPELMETLGGRMARIDSSYRPGKPFVKVKFHDFTQTTLEQAGAGRDLGSYQLLLTQAFNRGGKPVRLLGIGVRLEDLRGGFEQLELFER	PGPT0014881_4531	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
D1-35_00224	954			hypothetical protein	ATGTTCAAGCGAAACACCTTAGGCCTCGGGGGCGCCGCACTGTGCGGCGCCCTGCTGGTCAGCGGCTGCGCCAACCAGATGTCGCAACGCAACGAGCACGAAGAACGGATCGAGCGCAAATTGCTCGACCATAGCCTGCAGATCGATGTGGGCGAACCCAAGGTGCTCGACTTGCCGCAGCGTCGGGTGCGGATCAACGAGCAGAAGACCTTCGAGGTCACCGAGTTCGAGGTCACCCGCCATTACGATCGCTACACGCCGTACCAGCCTTGGCGGGAGATCTACGAGATCCCGCTGGGCGCGGTGGCGGTAGTGGCCGGCGTCGGCGCGAACGTGGTCAATGTGTTCGCCCTCGGCAGCTTGCCGGACAGTGCGACCCGCGACTGGATCAGCTACGGTTTTGCCGGACTCAATCCGTTCATGAACGTGCCTTCCAATGGCCGTGCCCAGCAGAACCTGGCAGGTATCGATGAGGTCCAGCGCGACAAGCGCACGGAGCATTCGAGCCTGCCCTGGAGCGAGCGTCCGGTACAGGTGAAAGCCGCCCGGCAGACCTTCGAGCTGAGCACCGACCGTAACGGCGTGTTGCGCTTGAACCTGCTGGAAAGCCCGTTCGCCGAGCATGACCTGAGCCAGTTCGGCAAACTGCAGATCAGTGTGACGGATGCCCAGGACGAGGTGCACACCGACTCATCCCTGAGCGTCAGCAGTACGTTGCGCAGCAAACTGGTCGAAGCCCACGCGTTGATCTACGACGATCTGGAAGACGACGAAGTGAGCCAGTGGGTTCATCGGGTCAAGCGTCTCTCGGAGCTGGGGCTTGAAGAAGAGGCCAGCGAACTCGAACAGAGCCTGATCGAACTGACCCGCAACGATCCGGAACTGCAGGCCGAATTCATCAAGGCCCTGACCAAGGATGGCGGGCGGTTGGTGGCGGACCCGGGCGCGAGCTGA	MFKRNTLGLGGAALCGALLVSGCANQMSQRNEHEERIERKLLDHSLQIDVGEPKVLDLPQRRVRINEQKTFEVTEFEVTRHYDRYTPYQPWREIYEIPLGAVAVVAGVGANVVNVFALGSLPDSATRDWISYGFAGLNPFMNVPSNGRAQQNLAGIDEVQRDKRTEHSSLPWSERPVQVKAARQTFELSTDRNGVLRLNLLESPFAEHDLSQFGKLQISVTDAQDEVHTDSSLSVSSTLRSKLVEAHALIYDDLEDDEVSQWVHRVKRLSELGLEEEASELEQSLIELTRNDPELQAEFIKALTKDGGRLVADPGAS				NA	NA	NA	NA	NA
D1-35_00225	1716	proS	COG0442	Proline--tRNA ligase	ATGCGCACCAGTCAATTTTTGCTCGCCACACAGAAAGAAACGCCTTCCGACGCCGTCGTGATCAGCCACCAGCTGATGCTGCGCGCAGGCATGATCCGCAAGCTCGCCTCCGGCCTGTACACCTGGCTGCCGATGGGCCTGCGGGTGATGCGCAAGGTCGAAGCCATCGTCCGCGAAGAAATGGACGCCGCCGGCTCTCTGGAAGTGTTGATGCCGAGCACCCAGCCGGCCGAGCTGTGGCAGGAGTCGGGGCGCTGGGAGGAATACGGCCCGGAGCTGCTGCGCATCAAGGACCGCCATGGTCGCGATTTCTGCGCTGGCCCGACTCACGAAGAAGTGATCACCGACCTGATGCGCAACGAGTTGAGCAGCTACAAGCAACTGCCAATCAACCTGTATCAGATCCAGACCAAGTTCCGTGACGAGATCCGTCCACGCTTCGGCCTGATGCGCGGTCGCGAATTCATCATGAAGGATTCTTATTCGTTCCACGCCGACCTGGCCTCGCTGCAAGTCACTTACGACCGCATGCACCAGGCGTACTGCAACGTGTTCACCCGCCTGGGCCTGAAGTTCCGCCCGGTTGAAGCCGACAACGGCTCCATCGGCGGTGCCGGCTCCCACGAATTCCATGTGCTGGCCGAGTCCGGCGAAGACGACATCGTCTTCAGCAACGGCTCCGACTACGCCGCGAACATCGAGAAAGCCGAAGCCGTGCCACGGGAAACCTCCCGCGCCGCACCGGCCGAAGAATTGCGCCTGGTAGACACGCCGAACGCCAAGACCATTGCCCAATTGGTGGAAGGCTACAACCTGCCCATCGAACGCACCATCAAGACCCTGATCGTGCGCGCGGAAGAAGAAGGCAAGCTGATTGCCCTGATCATCCGTGGCGACCACGAGCTGAACGAAATCAAGGCCGCCAACCAGCCTGGCGTCGCCAGCCCGCTGGTCATGGCCACCGATGCCGAGCTGCGCGATGCCATTGGTGCCGGTGCCGGCTCCCTCGGCCCGTTGAATCTGCCGTTGCCGATCATCATCGACCGCTCGGTGGCATTGATGAGCGACTTCGCCATCGGTGCCAACATCGATGACAAGCACTATTTCGGCGTGAACTGGGAACGCGACCTGCCGGTCCCAACCGTCGCCGACCTGCGCAACGTCGTGGCCGGCGACCCGAGCCCGGACGGCAAAGGCACGCTGGAAATCAAGCGCGGCATCGAAGTCGGGCATATCTTCCAGCTGGGCGACAAGTACAGCAAGGCGATGAAATGCGAAGTGCTCGGCGAGAACGGTAAGCCGGTCACGCTGCAGATGGGCTGCTACGGCATCGGCGTGTCCCGCGTGGTGGCTGCGGCCATCGAGCAGAACAACGACGAGAACGGCATCATCTGGAGCGACACGCTGGCGCCGTTCCAGGTTGCCCTCGTGCCGCTACGCTACGAAACCGAACAGGTTCGCGAAGCGACCGACAAGCTCTACGCCGAACTGACGGCCGCCGGCTTCGAAGTACTGCTGGACGACCGCGACAAGAAAACCAGCCCCGGCATCAAGTTCGCGGACATGGAACTGATCGGCATCCCGCACCGGATCGTCGTCAGTGACCGTGGCCTGGCCGATGGCAACCTGGAATACAAGAGCCGTACCGAGGCCGAGGCGCAAGCGCTGCCGGTCGCCGACGTGCTGTCCTTCCTTCAGGCCCGTATCCGCCGCTGA	MRTSQFLLATQKETPSDAVVISHQLMLRAGMIRKLASGLYTWLPMGLRVMRKVEAIVREEMDAAGSLEVLMPSTQPAELWQESGRWEEYGPELLRIKDRHGRDFCAGPTHEEVITDLMRNELSSYKQLPINLYQIQTKFRDEIRPRFGLMRGREFIMKDSYSFHADLASLQVTYDRMHQAYCNVFTRLGLKFRPVEADNGSIGGAGSHEFHVLAESGEDDIVFSNGSDYAANIEKAEAVPRETSRAAPAEELRLVDTPNAKTIAQLVEGYNLPIERTIKTLIVRAEEEGKLIALIIRGDHELNEIKAANQPGVASPLVMATDAELRDAIGAGAGSLGPLNLPLPIIIDRSVALMSDFAIGANIDDKHYFGVNWERDLPVPTVADLRNVVAGDPSPDGKGTLEIKRGIEVGHIFQLGDKYSKAMKCEVLGENGKPVTLQMGCYGIGVSRVVAAAIEQNNDENGIIWSDTLAPFQVALVPLRYETEQVREATDKLYAELTAAGFEVLLDDRDKKTSPGIKFADMELIGIPHRIVVSDRGLADGNLEYKSRTEAEAQALPVADVLSFLQARIRR				NA	NA	NA	NA	NA
D1-35_00226	1572			hypothetical protein	ATGCCCCGTAAAACCTGGCGCGCCGCCCTTGCCGCCTATGCCAGTCCTTCGACGCTCGTGCTGTTGCTGCTTGGCTTCGCCGCCGGCCTGCCCTACATGCTGGTGTTTTCCACGCTGTCGGTCTGGTTGCGCGAGGCCGGCGTGGCCCGCGAAACCATTGGTTACGCAAGCCTGATCGGCCTGGCCTATGCCTTCAAATGGGTCTGGTCGCCACTGCTCGACCAATGGCGCCTGCCATTGCTCGGCAAACTGGGACGTCGACGCTCCTGGCTGGTGCTCTCCCAGGCCCTGGTGATCCTCGGCCTGGTCGGCATGGGCTTCTGTGACCCACAAAAACACCTGTCCTGGCTGATCGCGATTGCCGTCATCGTGGCCTTCGCCTCGGCCACCCAGGACATCGCCGTCGATGCCTACCGACTGGAAATCGCCGACGACACCCGCCAGGCCGCCCTGGCTGCCAGCTATATGTCCGGCTACCGCGTCGCCGCGTTGCTGGCGACCGCCGGCGCGCTGTTTTTCGCCGAGGGGTTCGGCTCCACCGGGTTCAGCTATAAACATTCGGCCTGGGCCGGTACGTACCTGCTGTTTGGCGTACTGATGGTCCCGGCGCTGCTGACCTCGCTGTTCATGCGCGAGCCGCCAGTACCGTTGCGTACTCAATTGCAAGCCGGGCGCTATACCTTCGTCCACCAGTTGGCCTCGGTATTCGTGTTGATCGTGCTGCTGGTGTCGGTCCCGGCGATGTTCACCCAGCTCTACAACACCGACTTTGCCAGCGTGCTGTTCGAAGGCGTCAGCCTGCTGGACCTGCTGCTCCAGGACCGCGCCTTCCTGCGCGCCATCCTCTATATCATCCTGACCGCCCTGTGCCTGTCGTCCATGGGGCGTCGCGGCCTGGCGCCGGTGCTGACGCCGGTCAACGATTTCATCCTGCGCTACCGCTGGCAGGCCCTGCTGCTGCTCGGCCTGATCGCGACCTACCGGATGTCCGACACGGTCATGGGCGTCATGGCCAACGTTTTTTATATCGACCAGGGTTTCACCAAAGACCAGATCGCCAGCGTCAGCAAGATCTTCGGGCTGATCATGACCCTTGTCGGCGCCGGCATGGGCGGGCTGCTGATCGTGCGTTTCGGCATCCTGCCAATCCTGTTCATCGGCGGCGTGTCGTCGGCCGCCACCAACATCCTGTTCCTGATGCTGACGGACATGGGTGCCAACTTGAAGATGCTGATCGTCACGATCTCCCTCGACAACTTCAGCTCCGGCCTGGCCACCTCGGCGTTCGTCGCCTATCTGTCGAGCCTGACCAACCTGAAATTCTCCGCGACCCAATACGCCCTGCTCAGCTCGATCATGCTCTTGTTGCCGCGCCTGATCGGCGGGTACTCAGGGGTCATGGTGGAAAAATTCGGCTATCACGATTTCTTCCTGATCACCGCGTTGCTCGGCGTTCCGACCTTGCTGCTGATCGCCTTGCACTGGTATCAGGAGAATCGCCGAGAGGGCTCGACGCCTGAATCGGCGCCAGAGTCGGAATCGCCGCCGACCCGGCCCGCTCAAGAGTTGTAG	MPRKTWRAALAAYASPSTLVLLLLGFAAGLPYMLVFSTLSVWLREAGVARETIGYASLIGLAYAFKWVWSPLLDQWRLPLLGKLGRRRSWLVLSQALVILGLVGMGFCDPQKHLSWLIAIAVIVAFASATQDIAVDAYRLEIADDTRQAALAASYMSGYRVAALLATAGALFFAEGFGSTGFSYKHSAWAGTYLLFGVLMVPALLTSLFMREPPVPLRTQLQAGRYTFVHQLASVFVLIVLLVSVPAMFTQLYNTDFASVLFEGVSLLDLLLQDRAFLRAILYIILTALCLSSMGRRGLAPVLTPVNDFILRYRWQALLLLGLIATYRMSDTVMGVMANVFYIDQGFTKDQIASVSKIFGLIMTLVGAGMGGLLIVRFGILPILFIGGVSSAATNILFLMLTDMGANLKMLIVTISLDNFSSGLATSAFVAYLSSLTNLKFSATQYALLSSIMLLLPRLIGGYSGVMVEKFGYHDFFLITALLGVPTLLLIALHWYQENRREGSTPESAPESESPPTRPAQEL	PGPT0028125_209	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028125-ampG-K08218	NA	NA
D1-35_00227	354			DNA base-flipping protein	GTGACCGACACCCCAGCGGCCCCCGAGAACGCCGCCCAGATCCGCCGCACCACGCTTTACCTGACCCTGGCCCAAGTGCCGGCCGGCCAGGTCGTCACCTATGGTCAGCTCGCCGAAATGGCGGGTCTGGGCCGCGCCGCGCGCTGGGTCGGACGAACGCTCAGCCAGTTGCCGAACGACACGAAGCTGCCGTGGCATCGAGTCCTCGGCGCCGGTGGTCGGATCAGCCTGCCGGCAGGCAGCGCCTCGGGGGACGAACAGCGCGCACGCCTGCGCATGGAAGGGATCAGTGTCCTGAATAATCGTGTTGATATTCAGCGTCATGGCTGGCGCCCGGTAGAGCACAGCGGTTAG	MTDTPAAPENAAQIRRTTLYLTLAQVPAGQVVTYGQLAEMAGLGRAARWVGRTLSQLPNDTKLPWHRVLGAGGRISLPAGSASGDEQRARLRMEGISVLNNRVDIQRHGWRPVEHSG				NA	NA	NA	NA	NA
D1-35_00228	1008			hypothetical protein	ATGTTGTCCAGAACCCTGTTGTGCCTAGCTGTTACCAGTGCCTCCATGCCTTTGCTTGCCGATACCGTCTGGTTGAAGAACGGCGACAAGCTCAGTGGCAAGATAACCGTTTTCGACGGCGGCAAATTGTTGATCCAGACCGATTACGCGGGCGCGATCCCGATTGATTGGAAGCAGGTCAAGACGCTTGAAAGCGACCAGCAACTGTTGGTCAAGCAGGATGCCTATACCGGCGAAAAAGCCAAGGCGTTGCAGGCGGCCGAGGATGGCAAGGTCACCTTGGCCAACGGTGATGCGCCCAAGACCGTCGAGCTGGCGAGCATCCAGCAGATCCTCAAGCCCAAGCCGGTGGTCGAGGACCTTGTTTGGAAGGGCAATATCGACGCTGCACTGGATTACCAGCGCGCGGAAGCCGATACCGACGATTACGACATCGACTTCAAGACCTCGGCGCGCCACGGCAGATGGCGGCACATCGCCGAAGGCGAATACAACCGCGAATTCCAGGATGATGTGGTGTCGGCTGACAACTGGCGGCTGGAGTATTCCCTCGACCGCTTCCTCACGGAAAAATGGTTCTGGCAAGGTCGCCTGAACTACAAGCGTGACAAGGTTGAAGACCTGGCCCGCCAGCGCGTGGTCGGTACCGGTCCGGGTTATCAGTTCTGGGACGACGAACTGGGCGCTTTCTCCCTGGGTTCGCTGCTCAACCGCACCGATTATGAATACCGCGACGGCGGCAAGGACAACTTCTATTCCGTGGCGATGAAGTGGGACTACAACCGTTACCTGATCGGCAAGCGCGTCGAGCTGTTTACCAACGGCGAAGTGGGCAAACCGCTGTCCGGCGTGGCTGAATACGCCTATGACGCCGAAATCGGGTTGCGCTACAAGGTCACTGACTGGGCATCGCTCAACCTCAAGGCCGAGAAGGATGTCATCGAAGGGACCGAAGACAGCGACCTGAGCAAGACGCGCTACACCGCCGGGTTTGGCGTGACCTGGTAA	MLSRTLLCLAVTSASMPLLADTVWLKNGDKLSGKITVFDGGKLLIQTDYAGAIPIDWKQVKTLESDQQLLVKQDAYTGEKAKALQAAEDGKVTLANGDAPKTVELASIQQILKPKPVVEDLVWKGNIDAALDYQRAEADTDDYDIDFKTSARHGRWRHIAEGEYNREFQDDVVSADNWRLEYSLDRFLTEKWFWQGRLNYKRDKVEDLARQRVVGTGPGYQFWDDELGAFSLGSLLNRTDYEYRDGGKDNFYSVAMKWDYNRYLIGKRVELFTNGEVGKPLSGVAEYAYDAEIGLRYKVTDWASLNLKAEKDVIEGTEDSDLSKTRYTAGFGVTW				NA	NA	NA	NA	NA
D1-35_00229	210	capB_1		Cold shock protein CapB	ATGTCTAATCGCCAAACCGGTACCGTTAAGTGGTTCAACGATGAAAAAGGCTTCGGCTTCATCACCCCACAGTCCGGTGACGATCTGTTCGTTCACTTCAAAGCTATCCAATCTGACGGCTTCAAAAGCCTGAAAGAAGGCCAACAGGTTTCTTTCATCGCTACCCGCGGTCAGAAAGGCATGCAAGCTGAAGAAGTTCAAGTTATCTAA	MSNRQTGTVKWFNDEKGFGFITPQSGDDLFVHFKAIQSDGFKSLKEGQQVSFIATRGQKGMQAEEVQVI	PGPT0014675_3928	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
D1-35_00230	567	dcd		dCTP deaminase	ATGAGCATCAAATCGGACAAGTGGATTCGCCGCATGGCGCAAGAGCACGGCATGATCGAGCCCTTCGTAGAGCGCCAGATGCGTGGCGAAGGCGCCGACCGGCTGATTTCCTTCGGCGTTTCCAGCTACGGCTACGATGTGCGCTGCGCCGATGAATTCAAGGTGTTCACCAACATCAACTCGGCCACCGTCGACCCGAAGAATTTCGATGAGAAGAGCTTCGTCGACATCAAGAGCGACGTTTGCATCATTCCGCCGAACTCTTTCGCCCTGGCCCGCACCGTCGAGTACTTCCGCATCCCGCGCAACGTGCTGACCATCTGCCTGGGTAAAAGCACCTACGCCCGCTGCGGCATCATCGTCAACGTGACACCTCTGGAACCTGAATGGGAAGGCCACGTGACCCTGGAGTTCTCCAACACCACGACCCTGCCGGCGAAGATCTACGCCAACGAGGGCGTGGCGCAGATGTTGTTCCTTGAGTCCGATGAGGAATGTGAAGTTTCCTACAAGGACCGTGGCGGCAAGTACCAGGGCCAGCGCGGTGTGACCCTGCCGCGTACCTGA	MSIKSDKWIRRMAQEHGMIEPFVERQMRGEGADRLISFGVSSYGYDVRCADEFKVFTNINSATVDPKNFDEKSFVDIKSDVCIIPPNSFALARTVEYFRIPRNVLTICLGKSTYARCGIIVNVTPLEPEWEGHVTLEFSNTTTLPAKIYANEGVAQMLFLESDEECEVSYKDRGGKYQGQRGVTLPRT	PGPT0021225_2250	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021225-dcd-K01494	NA	NA
D1-35_00231	207			hypothetical protein	ATGAAGATCGATCCGCGAATCAGTGCCGAACTGGCAAGGCTTGAGCCCAATCAGATCGGCGTCCTGGCTTGGTCATTACTGGCCCACCCTGCTGAAGCGGCGGGCGGCATCCCTGGCCAGCCCGATCCCGATACCCCTAACGAACAGCCTACCGAACCCGGCGAACCGACTCTTCCGGACGAACCGCCTCCCGCGCCCGTAGCCTGA	MKIDPRISAELARLEPNQIGVLAWSLLAHPAEAAGGIPGQPDPDTPNEQPTEPGEPTLPDEPPPAPVA				NA	NA	NA	NA	NA
D1-35_00232	657			hypothetical protein	ATGCCCGCGCCGTATCCCGTCAACCTCGCGGGCGAAGAGCTCTGGCTGTTGCCGCAAAAAGCCCTGTACTGGCCGGCCCAGGAAACCCTGATGGTGGCCGATGTGCATTTCGGCAAGGCCGCGGCCTACCGTAGCCTCGGCCAACCGGTGCCCCACGGCACCACGGCGAACAACATCGCCATGCTTGACGAGTTGCTGGCGAGCCTGCCGTGCCGACTGCTGATATTCCTCGGGGACTTCCTGCATGGGCCCGGTTCTCATGCCCCAGGCACTTTGAAGGCCCTTGCCGACTGGCGTGAACGGCATCGCAAACTAGCCATCACGCTGATCCGCGGCAATCACGACAAGCGCGCCGGCGATCCGCCAGCGGCACTCGATATCCGCGTCGTCCCCGAGCCGTTGCTGTTGGGCCCTTTCGCCGTGCAACACGAGCCTACCCCGCATCCAAGTCGACACGTGCTCGCCGGTCACGTACACCCGGTCTACCACCTGAGCGGCAAGGGGCGTCAACGCCTGCGCCTGCCATGTTTCCGCCTCGGTAGCGAGATCAGCCTGCTACCGGCCTTCGGTGCCTTCACGGGAGGCTATCGGGTCGATCAGGACAACGACTGCAAGATCTTCGTGGTGGGCGACAACGAAATATGGCCCGTCAGTTGA	MPAPYPVNLAGEELWLLPQKALYWPAQETLMVADVHFGKAAAYRSLGQPVPHGTTANNIAMLDELLASLPCRLLIFLGDFLHGPGSHAPGTLKALADWRERHRKLAITLIRGNHDKRAGDPPAALDIRVVPEPLLLGPFAVQHEPTPHPSRHVLAGHVHPVYHLSGKGRQRLRLPCFRLGSEISLLPAFGAFTGGYRVDQDNDCKIFVVGDNEIWPVS				NA	NA	NA	NA	NA
D1-35_00233	2487			hypothetical protein	ATGGCGACATCCAGCAACTTCGCGAAACAGTGGTTCGATGCCCGCGGCTGGAAGCCGTTCGCCTTTCAAAAGCAGGTATGGGCTGCGGTCAAGCGTGGCGAGTCGGGGCTGTTGCATGCCAATACCGGCGCCGGCAAGACCTACGCCGTCTGGTTTGCCGCACTCAACCGTTTCGCCCGCAGCGTGCCGCCACCAGACAAGCCTCGTAAACGCAAACCGCCGAGCGAACCGCTGACGGTCTTGTGGATAACGCCGATGCGCGCGCTGGCCGCCGACACCGGCAAGGCTCTCGAGGCGCCCCTCGATCCGCTGCAGATTCCCTGGAGCGTAGGCCTGCGCACCGGCGATACCAGCGCCAGCGAACGCGCCCGTCAAGGCCGGCGCCTGCCCACGGCGCTGATCACCACACCCGAAAGCCTGACGCTGATGCTCGCCCGCGCTGATGCGCAAACGGCCGTGTCGACCCTGCGCATGGTCGTGGTAGATGAGTGGCACGAATTGCTCGGCAACAAGCGCGGCGTGCAATTGCAACTGGCCCTGGCTCGCTTGCGCTACTGGCACCCCGACCTGATCGTCTGGGGCGTATCCGCGACCCTGGGCAACCAGGCCCACGCCGAGCAGGTATTGATCCCACAAGGCAGCGGAATTAGTGTGCAGGGCGCCGATGCCAAGGCGTTGCAGGTCGATACGCTGTTGCCGCCAACCCTCGAACGGTTTCCATGGGCGGGGCATATCGGCCTGAAAATGTTGCCCCAGGTGGTCACTGAAATCGACACCAGCAGCAGTTGCCTGGTCTTTACCAATACTCGCGCGCAAGCGGAAATCTGGTACCAGGCCATTCTTGAGGCGCGCCCGGATTGGGCCGGACTGATCGCGTTGCACCATAGTTCTCTGTCCCGCGACACCCGCGACTGGGTGGAACGGGCGTTGAAGGACGGCCAGCTCAAGGCAGTCGTGTGTACGTCCAGCCTCGACCTGGGGGTGGATTTCCTGCCCGTGGAACGCGTGCTACAGATTGGCTCGGCGAAAGGCGTCGCCCGCTTGATGCAACGCGCCGGACGCTCCGGCCATGCGCCGGGGCGGACCTCGCGAATAACCCTGGTGCCAACCCACAGCCTGGAACTGATCGAGGCCGCCGCCGCCCAGGACGCCGTGGCGCAGCGGCGAATCGAGCCGCGAGAATCGCCCCACAAGCCTTTGGATGTATTGGTCCAGCATCTGGTCAGCATGGCCCTGGGTGGCGGTTTTGTTCCAGATGAGCTGTTTGATGAGGTACGCGGCGCCTGGGCCTACCGCGACCTGAACCCGGCCGAGTGGGCCTGGGCGCTGGCTTTCGTGCGCCACGGCGGCCTGTCGCTGACCGCCTACCCTGATTATCGGCGGGTCGAACCGGATGAACAGGGGATCTGGCGCGTGCCTGACGCCCGTCTGGCACGGCGCCACCGCATGAGCATCGGCACCATCGTCAGTGACGCCAGCCTGCAATTGAAATTCTGGAGCAAGGGCGGCGGCGGCAAGACCCTGGGCAGCGTGGAAGAAGGCTTCATCGCACGCTTGCGCCCCGGCGACGGATTCCTGTTCGCCGGGCGGTTGCTGGAGTTGGTCCGGGTCGAGGACATGACCGCTTACGTACGCCGCAGCCAGGCGAAAAAAGCCGCCGTGCCGCGCTGGAATGGCGGACGCATGCCGCTTTCCAGCGAGCTCGCTGCCGCGGTCGTCGCGCGCTTGAGCGAAGCCGCCAAGGGCCGTTTCGACGGACCGGAAATGCAAGCCGTAGAGCCGCTGCTGTCAACGCAGCTACGTTGGTCCGGCCTGCCGACGCAGGGAACGCTGCTGGCCGAAGCGCTCAAATCCCGGGAGGGTTGGCACCTGTTCCTGTATCCGTTCGCCGGGCGCCAGGTACATCTGGGTCTGGCCAGCCTGTTGGCCTGGCGCGTCAGCCAGCGCCAACCGGTGACGTTCTCGATTGCGGTCAATGACTACGGCCTGGAATTGCTCAGCGCCACCGAACTGGATTGGTCAACGCACCTGAACCCGGCGCTGTTGCGCACCGATGGCTTGCTGGCCGACGTTCTCGCCAGCCTGAACGCCGGAGAACTGGCCCTGCGCCGCTTCCGCGAAATCGCCCGGATCGCCGGGCTGGTGTTCGCCGGCTACCCCGGCGCACCGAAGAGCACCCGCCAAGTGCAGGCTTCCAGCGGGTTGTTCTATCAAGTGTTCAAGCAATATGACGCCGATAACCTGCTGCTGGCCCAGGCCGGCGAGGAAGTTTTGCGCGAAGAATTGGATATACGCCGACTGGAGCAGACCTTGGAACGGCTCGATACCTTGAAGCTCGACCTGCATCTCATCAAGCGCCCTACTCCGCTGGGCTTCCCCTTGCTGGTGGAGCGATTTCGCGAAAGCATGAGCTCGGAAAAGCTCGCCGATCGTATCCGGCGCATGGTCAGCGAACTGGAAAAAACCGCTGATCGAGGAAGCGCCTGA	MATSSNFAKQWFDARGWKPFAFQKQVWAAVKRGESGLLHANTGAGKTYAVWFAALNRFARSVPPPDKPRKRKPPSEPLTVLWITPMRALAADTGKALEAPLDPLQIPWSVGLRTGDTSASERARQGRRLPTALITTPESLTLMLARADAQTAVSTLRMVVVDEWHELLGNKRGVQLQLALARLRYWHPDLIVWGVSATLGNQAHAEQVLIPQGSGISVQGADAKALQVDTLLPPTLERFPWAGHIGLKMLPQVVTEIDTSSSCLVFTNTRAQAEIWYQAILEARPDWAGLIALHHSSLSRDTRDWVERALKDGQLKAVVCTSSLDLGVDFLPVERVLQIGSAKGVARLMQRAGRSGHAPGRTSRITLVPTHSLELIEAAAAQDAVAQRRIEPRESPHKPLDVLVQHLVSMALGGGFVPDELFDEVRGAWAYRDLNPAEWAWALAFVRHGGLSLTAYPDYRRVEPDEQGIWRVPDARLARRHRMSIGTIVSDASLQLKFWSKGGGGKTLGSVEEGFIARLRPGDGFLFAGRLLELVRVEDMTAYVRRSQAKKAAVPRWNGGRMPLSSELAAAVVARLSEAAKGRFDGPEMQAVEPLLSTQLRWSGLPTQGTLLAEALKSREGWHLFLYPFAGRQVHLGLASLLAWRVSQRQPVTFSIAVNDYGLELLSATELDWSTHLNPALLRTDGLLADVLASLNAGELALRRFREIARIAGLVFAGYPGAPKSTRQVQASSGLFYQVFKQYDADNLLLAQAGEEVLREELDIRRLEQTLERLDTLKLDLHLIKRPTPLGFPLLVERFRESMSSEKLADRIRRMVSELEKTADRGSA				NA	NA	NA	NA	NA
D1-35_00234	765	hisP_1	COG4598	Histidine transport ATP-binding protein HisP	ATGTACAAACTGACCATCGAAGGCCTGCACAAAAGTTATGGCCACCATGAGGTGCTCAAAGGGGTTTCGCTCAAGGCCAGGACCGGCGACGTGATCAGCCTGATCGGCGCGAGCGGCTCGGGCAAAAGCACCTTCCTGCGCTGCATCAATTTCCTCGAACAACCCAACGACGGCGCCATGAGCCTGGACGGCCAATCGATCCAGATGATCAAGGATCACCACGGCATGCGCGTGGCCGACGCCGACGAGCTGCAACGCATCCGCACGCGCCTGGCCATGGTGTTCCAGCACTTCAACCTGTGGAGCCACATGACCGTGCTGGAAAACATCACCATGGCGCCGCGCCGGGTGCTGGGCGTCAGCAAGCAGGAAGCCGAGGATCGCGCCCGCCGTTATCTCGACAAGGTCGGCCTGCCGGCACGTGTTGCCGAGCAATACCCGGCGTTCCTGTCCGGTGGCCAGCAACAACGCGTAGCGATTGCCCGCGCCTTGGCCATGGAGCCTGAGGTCATGCTGTTTGACGAACCGACCTCGGCCTTGGACCCGGAACTGGTAGGTGAAGTATTAAAAGTGATCCAAGGCCTGGCCGAAGAAGGCCGGACCATGATCATGGTGACCCACGAAATGAGCTTCGCCCGCAAGGTGTCCAATCAGGTGCTGTTTCTGCACCAGGGCCTGGTGGAAGAAGAAGGCGCGCCGGAAGACGTGCTGGGCAGCCCGAAGAGCGAACGGCTCAAGCAGTTCCTCAGTGGCAATCTGAAATAA	MYKLTIEGLHKSYGHHEVLKGVSLKARTGDVISLIGASGSGKSTFLRCINFLEQPNDGAMSLDGQSIQMIKDHHGMRVADADELQRIRTRLAMVFQHFNLWSHMTVLENITMAPRRVLGVSKQEAEDRARRYLDKVGLPARVAEQYPAFLSGGQQQRVAIARALAMEPEVMLFDEPTSALDPELVGEVLKVIQGLAEEGRTMIMVTHEMSFARKVSNQVLFLHQGLVEEEGAPEDVLGSPKSERLKQFLSGNLK	PGPT0020610_461	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020610-hisP-K10017	NA	NA
D1-35_00235	1119			hypothetical protein	ATGCGCCACCAGATTCATGACCTGCTGGCCCCGCTGCCGGGGACCGCACGCAAGATCCACAGCTTCCACTTCGGCCCGGAAAAAGCCGTCGGCAAAATCTACATCCAGTCGTCCCTGCATGCCGATGAACTGCCCGGCATGCTGGTCGCCTGGCACCTCAAGCAGCGCCTGGCCGAACTCGAGGCTTCGGGCCACCTGCGGCACGAAATCGTGCTGGTGCCGGTCGCCAACCCGATCGGCCTCGAACAGGTACTGATGGACGTGCCCCTGGGCCGTTACGAATTGGAGAGCGGGCAGAATTTCAACCGCCGGTTCGTCGACCTGAGCGAAGAGATCGGCAACGAAATCGAAGGCCTGCTGACCGACGACCCGCAGCACAACCTGATGCTGATCCGCACCAGCCTGCGCGACGCCCTGAGTCGGCAGACCGCCAGCACCCAACTGCAATCCCAGCGCCTGGTCCTGCAACGCCTGGCGTGTGATGCCGACATGGTGCTTGACCTGCATTGCGATTTCGAAGCCGTCGCCCATCTCTACACCACGCCCGAGGCCTGGCCGCGGGTCGAGCCGCTGGCGCGCTACATCGGCGCCGAGGCCAGCCTGTTGGCGACCGACTCCGGCGGCCAATCGTTCGACGAATGCTTCACGCTGCTCTGGTGGCAGCTCAAGGAGCGTTTCGGTGAGCGCTTCGAAATTCCCCTGGGCAGCTTTTCGGTAACTGTCGAATTGCGCGGCCAGGGTGACGTCAACCATGGCCTGGCGAGTCTCGACTGCCAAGCCCTGATCGAATACCTGATCCACTTCGGCGCCATCGACGGTGAGCCGGTGCCGTTGCCCGACCTGCCCTACCCGGCCACGCCGCTGGCAGGCGTCGAACCGGTGGCGACACCGGTCGGCGGCCTGCTGGTGTACAGCGCCCTACCCGGTGAGTACCTGGAGGCGGGACAGCTGATCGCCGAAATCATCGACCCGGTCAACGACACCGTCACCCCCGTTCATTGCCGTAATGCCGGGCTGCTGTACGCCCGCTCGCTGCGTCGCATGGCCACCGCCGGCATGGTCATCGCCCATGTCGCCGGGACCGAAGCCTACCGCAGCGGCTACCTACTTTCGCCTTGA	MRHQIHDLLAPLPGTARKIHSFHFGPEKAVGKIYIQSSLHADELPGMLVAWHLKQRLAELEASGHLRHEIVLVPVANPIGLEQVLMDVPLGRYELESGQNFNRRFVDLSEEIGNEIEGLLTDDPQHNLMLIRTSLRDALSRQTASTQLQSQRLVLQRLACDADMVLDLHCDFEAVAHLYTTPEAWPRVEPLARYIGAEASLLATDSGGQSFDECFTLLWWQLKERFGERFEIPLGSFSVTVELRGQGDVNHGLASLDCQALIEYLIHFGAIDGEPVPLPDLPYPATPLAGVEPVATPVGGLLVYSALPGEYLEAGQLIAEIIDPVNDTVTPVHCRNAGLLYARSLRRMATAGMVIAHVAGTEAYRSGYLLSP				NA	NA	NA	NA	NA
D1-35_00236	711	hisM	COG4160	Histidine transport system permease protein HisM	ATGATCGAACTCCTGCAAGAATACTGGCGACCGTTTCTCTACAGCGACGGCGTCCACATCACCGGCCTGGCAATGACCCTGTGGCTGCTCAGCGCCGCGCTGTTGATCGGCTTTGTGGTGTCGATTCCGCTGTCCATTGCCCGGGTTTCGCCCAAGGTCTACGTGCGCTGGCCGGTGCAGTTCTACACCTATCTGTTTCGCGGTACGCCGCTCTATATCCAATTGCTGATCTGCTACACCGGCATCTACAGCATCGAGGCGGTGCGTGCCCAACCCGTGCTCGACAGTTTCTTTCGCGACGCGATGAACTGCACGATCCTGGCGTTCGCGTTGAACACCTGCGCCTACACCACGGAGATCTTTGCCGGGGCGATTCGCAGCATGAACCACGGCGAAGTCGAAGCGGCCAAGGCTTACGGGTTGACCGGCTGGAAGCTCTACACGTACGTGATCATGCCGTCAGCGCTGCGTCGTTCGCTGCCTTACTACAGCAACGAAGTGATATTGATGCTGCATTCGACGACCGTGGCGTTCACCGCTACCGTTCCAGACGTGCTGAAGGTCGCCCGGGACGCCAACTCGGCCACCTTCCTGACGTTCCAGTCGTTCGGGATCGCCGCGTTGATCTACCTGACCGTCACGTTTGCACTGGTGGGCCTCTTCCGTCTCGCCGAACGCCGCTGGCTGGCCTTTCTCGGGCCGACCCACTAA	MIELLQEYWRPFLYSDGVHITGLAMTLWLLSAALLIGFVVSIPLSIARVSPKVYVRWPVQFYTYLFRGTPLYIQLLICYTGIYSIEAVRAQPVLDSFFRDAMNCTILAFALNTCAYTTEIFAGAIRSMNHGEVEAAKAYGLTGWKLYTYVIMPSALRRSLPYYSNEVILMLHSTTVAFTATVPDVLKVARDANSATFLTFQSFGIAALIYLTVTFALVGLFRLAERRWLAFLGPTH	PGPT0020600_395	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020600-hisM-K10015	NA	NA
D1-35_00237	729	hisQ_1	COG4215	Histidine transport system permease protein HisQ	ATGTTCGAACAATTCCTACAAAGTCTGGGGCTCTCGGCCTTCAGCCTGCAGGGCTTTGGCCCGCTGCTGATGCAAGGCACCTGGATGACCATCAAGCTGTCGGCCCTATCCTTGCTGCTTAGCGTCCTGCTCGGGTTGCTCGGCGCCAGCGCCAAATTGTCCAGCGTCAAACTGCTGCGTATTCCGGCCCAGCTCTACACCACGCTGATTCGCGGCGTGCCCGACCTGGTGCTGATGCTGCTGATTTTCTACAGCCTGCAAACCTGGCTGACCTCTTTTACCGATTTCATGGAATGGGAATACATCGAGATCAACCCGTTCGGCGCCGGGGTCATCACCCTAGGCTTCATTTACGGTGCGTACTTCACCGAAACCTTTCGCGGCGCGATCCTTGCGGTGCCTCGCGGTCAGGTCGAAGCGGCCACGGCTTATGGCCTCAAGCGTGGCCAACGTTTCCGTTACGTGGTGTTCCCGCAAATGATGCGCTTTGCCCTGCCGGGGATCGGCAACAACTGGATGGTCATGCTCAAGGCCACCGCCCTGGTGTCGATCATCGGCCTGGCCGACCTGGTCAAGGCCGCCCAGGATGCGGGCAAAAGCACCTACCAGCTGTTTTATTTCCTGGTGCTGGCGGCGCTCATCTATCTGCTGATCACCAGTGCATCCAACTTTATCCTGCGCTGGCTTGAACGCCGCTACGCCGCCGGAGCCCGGGAGGCCGTGCGATGA	MFEQFLQSLGLSAFSLQGFGPLLMQGTWMTIKLSALSLLLSVLLGLLGASAKLSSVKLLRIPAQLYTTLIRGVPDLVLMLLIFYSLQTWLTSFTDFMEWEYIEINPFGAGVITLGFIYGAYFTETFRGAILAVPRGQVEAATAYGLKRGQRFRYVVFPQMMRFALPGIGNNWMVMLKATALVSIIGLADLVKAAQDAGKSTYQLFYFLVLAALIYLLITSASNFILRWLERRYAAGAREAVR	PGPT0020605_18	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020605-hisQ-K10016	NA	NA
D1-35_00238	783	argT_1	COG0834	Lysine/arginine/ornithine-binding periplasmic protein	ATGAAAAAAGCACTGCTGACCCTTTCTGCACTGGCGTTGTGCATGGCCGCCGGCGTCGCCACGGCCAAGGAATACAAGGAACTGCGTTTTGGTGTCGACCCGTCCTACGCCCCGTTCGAATCCAAGGCCGCCGATGGCAGCCTGGTGGGTTTCGACATCGACCTGGGCAATGCGATCTGTGAAGAACTGAAGGTCAAATGCAAATGGGTCGAAAGCGATTTCGACGGAATGATTCCGGGCCTCAAGGCCAATAAATTCGACGGCGTGATCTCCTCCATGACCGTTACCCCGGCCCGTGAAAAGGCTATCGACTTCTCCAGCGAGTTGTTCTCCGGCCCAACGGCCTATGTATTCAAGAAGGGCTCGGGCCTGAGCGCAGACGTTGCCTCGCTCAAGGGCAAGACCGTCGGCTACGAGCAAGGCACCATCCAGGAAGCCTACGCCAAGGCCGTGCTGGACAAGGCCGGCGTCAAGACCCAGGCCTACCAGAACCAGGACCAGGTCTATGCCGACCTGACCTCGGGCCGCCTCGATGCCGCGATCCAGGACATGCTTCAGGCCGAACTGGGCTTCCTGAAATCGCCAAAAGGCGAAGGCTATGAAGTCAGCCAGCCGGTGGACAGCGAACTGCTGCCATCCAAGACCGCCATCGGTATCAAGAAAGGTAACAAAGAGCTGAAGGCACTTTTGGATAAAGGTATCAAAGCGTTACACGACGACGGCAAATACGCCGAGATCCAGAAAAAACACTTTGGCGATCTGAATCTGTACAGCGGCAAATAA	MKKALLTLSALALCMAAGVATAKEYKELRFGVDPSYAPFESKAADGSLVGFDIDLGNAICEELKVKCKWVESDFDGMIPGLKANKFDGVISSMTVTPAREKAIDFSSELFSGPTAYVFKKGSGLSADVASLKGKTVGYEQGTIQEAYAKAVLDKAGVKTQAYQNQDQVYADLTSGRLDAAIQDMLQAELGFLKSPKGEGYEVSQPVDSELLPSKTAIGIKKGNKELKALLDKGIKALHDDGKYAEIQKKHFGDLNLYSGK	PGPT0020595_165	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_HISTIDINE_TRANSPORT,PGPT0020595-hisJ-K10014	NA	NA
D1-35_00239	1689	lig		DNA ligase	ATGAAAGCTTTTGCCGAGCTGTACGCCGAACTCGACGCCACCACCTCAAGCAACGCCAAGCTCGCGGCCATGCAGGATTACTTCAGCAAGGCGCCAGCCGAGGACGCCGCCTGGGCGGTGTATTTTCTCTCGGGCGGGCGTCCCAGGCAGTTGGTACCGGTGAAAATCCTCCGCGAGCTGGCGGTCCAGGTGTCCGGCCTGTCTCTTTGGCTGTTCGAAGAAAGTTACCAGGCCGTGGGCGACCTGGCCGAAACCATTTCGCTGGTACTGCCCGAATCGCCCCACAGTTCCGATGAAGGCCTGGCGGTGTGGATCGAGGAAAAACTCCTGCCGTTGCGCGGTGAGTCGCCAGAGGTACTGGCGCAGCGGCTTCCGGCGCTGTGGGCAGAACTTGACCGATCCAGCCTGATGCTCTGCATCAAGCTCATCACCGGCAGTTTCCGCGTCGGGGTGTCCAAGCTGTTGGTCACCCGGGCGCTGGCTACGATGGCCGGGCTCGACAGCAAACGGGTGGCCCAACGGCTGGTGGGCTACACCGATCTGTCCCATCGCCCGACCGCGGCCAGTTACCTCAAGCTGATCGCCGGCGAATCTGCCGATGAACATGCCCAGCGCGGCGGCCAGCCTTATCCGTTTTTCCTGGCCCATGCCTTGTCACAACCGATTGAGCAATTCGACACCTTGTTGGGGCCGGCCAGCGACTGGCAGGTGGAGTGGAAATGGGACGGAATCCGCGCCCAGGTGATCAAGCGTGACGGCCATTTGTGGGTCTGGTCCCGTGGCGAGGACTTGGTGACCGAGCGCTTTCCTGAATTGCATTGCCTGGCGCAGGCGTTGCCCGACGGCACGGTGATCGATGGCGAAATCGTGGTCTGGAAAGCCCCGCAGGCGATCACCGAGGATGCCTTTGATCCGGAAGCGCCGCTGCAGCCGGCGGTGCAACCTTTCGCCCTGTTGCAACAGCGCATCGGTCGCAAGACCTTGAGCAAGAAAGTGCTGGAAGACGCTCCCGTGGTGGTGATGGCCTACGACCTGTTGGAATGGCAAGGCGAGGACTGGCGCAGCCGGCCCCAGGCCGAGCGTCGCGATCAACTGGAGGCCCTGATTGCCCGCTGCCACAGTCCGGTGCTGTTGCCGTCGCCCATCGTCACTGGCCAGGATTGGTTCGACCTTGCCCGCCAGCGCGAAGCGTCCCGCAGCCTCGGCGTCGAAGGCATGATGCTCAAGGCGCGCAACGCGCTGTACGGCGTCGGCCGGACCAAGGACATGGGCGTGTGGTGGAAATGGAAGATCGACCCGTTCAGTGTCGACGCGGTGCTGATCTATGCCCAGCGCGGCCATGGCCGGCGCGCCAGCCTCTACAGCGACTACACCTTCGCCGTGTGGGACAACCCGCCCGGCAGCCGAGAACGCACGCTGGTGCCTTTCGCCAAGGCCTATTCAGGGCTGACCGATGCAGAAATGCGCCAGGTCGACAGCATCGTGCGCAAGACCACGGTGGAAAAGTTCGGCCCGGTGAGCAGCGTCACCCCGACCTTGGTTTTCGAGCTGGGCTTCGAAGGCATTGCCTTGTCCAAGCGCCACAAGAGCGGGATCGCGGTACGTTTCCCACGGATGCTGCGCTGGCGCCAGGACAAGACCGTCGAAGAGGCGGACACGCTGGCGACGCTTCAGGATCTTCTCAAGTAA	MKAFAELYAELDATTSSNAKLAAMQDYFSKAPAEDAAWAVYFLSGGRPRQLVPVKILRELAVQVSGLSLWLFEESYQAVGDLAETISLVLPESPHSSDEGLAVWIEEKLLPLRGESPEVLAQRLPALWAELDRSSLMLCIKLITGSFRVGVSKLLVTRALATMAGLDSKRVAQRLVGYTDLSHRPTAASYLKLIAGESADEHAQRGGQPYPFFLAHALSQPIEQFDTLLGPASDWQVEWKWDGIRAQVIKRDGHLWVWSRGEDLVTERFPELHCLAQALPDGTVIDGEIVVWKAPQAITEDAFDPEAPLQPAVQPFALLQQRIGRKTLSKKVLEDAPVVVMAYDLLEWQGEDWRSRPQAERRDQLEALIARCHSPVLLPSPIVTGQDWFDLARQREASRSLGVEGMMLKARNALYGVGRTKDMGVWWKWKIDPFSVDAVLIYAQRGHGRRASLYSDYTFAVWDNPPGSRERTLVPFAKAYSGLTDAEMRQVDSIVRKTTVEKFGPVSSVTPTLVFELGFEGIALSKRHKSGIAVRFPRMLRWRQDKTVEEADTLATLQDLLK				NA	NA	NA	NA	NA
D1-35_00240	1032			hypothetical protein	ATGGATCTGGTCATTGCCCGCCCCGAAGGCCTGTATTGTCCGCAGGGAGATTTCTACATCGACCCATGGCGGCCGGTGGACCGCTCGGTCATCACCCACGCCCACGGCGACCACGCCCGCGGCGGCAACCAGCACTACCTGGCAGCGGCACCCGGCGAAGGCATCCTGCGCTCCCGGCTGGGCCAGGACATCAATCTGCAAACCCTGCCCTACGGCGAACGGCTGCTGCACCATGGCGTGACCTTGAGCTTTCATCCCGCCGGCCATGTGTTGGGTTCTGCCCAGGTGCGGTTGGAATACCAAGGCGAGGTGTGGGTCGCGTCCGGCGATTACAAAGTCGAGCCCGACGGCACCTGCGCACCGTTCGAGCCGGTGAAGTGTCATACGTTCATCACCGAATCCACCTTCGGCCTGCCGATCTATCGCTGGCAGCCCCAGGCGCAGGTGTTCGATGAGATCAACCAGTGGTGGCGCGGGAACATCGCCGCCGGCCGGGCCAGCGTGTTGTTCTGCTATTCCTTTGGCAAGGCCCAGCGAATCCTGCACGGCATCGACGCGAGCCTGGGGCCGATACTCGCCCATGGCGCGGTTGAGCCGCTGAACCGGGTCTATCGCGAAGCCGGTGTGCACCTGCCGCCGACGATTTATGCCGGCGATGTGAAAAAGACTGATCCGATCATGAGCCAGGCACTGGTCATCGCCCCGCCCTCCGCCGGTGGCAGCACCTGGATGCGGCGTTTCGGTGATTACAGCGACGCCTTCGCCAGCGGCTGGATGCGCTTGCGTGGCACCCGTCGGCGACGGGGCGTGGATCGGGGCTTCGTGCTTTCCGATCACGCCGACTGGCCCGGCCTGCTCTGGGCCATCGAACAGACCGGCGCCGAACGGGTCATGGTCACCCATGGATCGGTGGCCGTGCTGGTGCGTCATCTCTGTGAACAAGGCCTCGACGCCCAGGGCTTCACCACGGAATACGGCGATGACGAAGAGGACGTCGCCGTGGCGAGCGACAGCGGCGAGGATGCCTCATGA	MDLVIARPEGLYCPQGDFYIDPWRPVDRSVITHAHGDHARGGNQHYLAAAPGEGILRSRLGQDINLQTLPYGERLLHHGVTLSFHPAGHVLGSAQVRLEYQGEVWVASGDYKVEPDGTCAPFEPVKCHTFITESTFGLPIYRWQPQAQVFDEINQWWRGNIAAGRASVLFCYSFGKAQRILHGIDASLGPILAHGAVEPLNRVYREAGVHLPPTIYAGDVKKTDPIMSQALVIAPPSAGGSTWMRRFGDYSDAFASGWMRLRGTRRRRGVDRGFVLSDHADWPGLLWAIEQTGAERVMVTHGSVAVLVRHLCEQGLDAQGFTTEYGDDEEDVAVASDSGEDAS				NA	NA	NA	NA	NA
D1-35_00241	2451	quiP_1	COG2366	Acyl-homoserine lactone acylase QuiP	ATGGCCTCGCCAGCCTCGATTTCTTTCTTTCCCAAGCTCGGCGTTGCCGCAGCAGTGGCCAGCCTGCTCGGTTTGAGCGGTTGCCAGGCCTGGAATACCCAGGACACGGTCGCGCCCACCACCGGCGTACAACCGCTCAAGGGGCTGGCGCAGAATGTCTCGGTCCGGCGTAATGCCTTGGGCATGCCGCTGATCGAGAGCAACAGTTTTCATGACGCCCTGTTTGCCCTCGGCTATGTGCATGCCAGCGACCGGATCACGCAGATGGCCACCCTGCGCCTGCTCGCCCAGGGCCGCCTGGCGGAAATGTCCGGCGCCGAACGGCTGGACGTCGACCGCTACATGCGCGCCGTCAACCTGAAGAAAAGCGCAGATGAGCTGTACAAGGCATCTTCGCCACGCCTGAAGCGCTTTTTCGAAGTCTATGCGCGAGGCGTCAACGCCTACCTGTTCCGCTACCGCGACAAGCTGCCGGCGGACTTGGCCGCCACCGGCTACAAACCCGAATACTGGAAACCGGAAGATTCGGCGCTGCTGTTCTGCCTGCTTAACTTCACCCAATCGGCGAACCTGCCGGAAGAAGTCGCCGCCCTGGTGCTGGCCCAGAGCGTAACCAACGATAAACTGGCCTGGCTGAGCCCGTCCTACCCGGACGAGCCATTGCCCTTGACCGAAGCCGAAAAGCTGCAGGGCGTCCGGCTCAATGGGCAGATTCCCGGTTTGAACGAAATCAGCAAGGCCAGCGCCGAGTTGGCCAACCTGAACCTGCTGGGCGCAGCGTCTTCGAGCAACTGGGCCATCGGCCCGCAGCGCAGCCGCAACGGCAAGAGCCTGTTGGCCGGCGACAGCCATGGCCCGCTGGGCGTGCCGTCGCTCTGGAGCCCAGTGCAGATTCGCGCGCCCAAATATCAGGCGGCCGGGCTTTCCGTGGCGGGCATCCCGATGATCCTCGCGGGCTTCAACGGTAACGTCGCGTGGAGCATGACCAGTGTTCTCGGCGACAACCAGGACCTGTACCTGGAAAAGATCCGACGCCAGGGCAACGGGCTGTCCTACGAAGCCAACGGCAAGTGGCAGCAGGCGACCGTGCGCAACGAGACCTACTTCATCAAGGGCCAACGGTCGATCAGAGAAGCGGTGTACGAAACCCGCCACGGTCCGTTGCTCAACAGCGCCCAAGGTCCGGCCATGGCCAACGGTCTGGGCCTGGCCCTGCAATTGCCGAGCTTCACCGACGACAAGACCCTGGACGCGCTCTTCGATCTGTCGCGCGCGCAGAACGTCGAGAAAGCCTCCGACGCGAGCCGGGAGATCCGCGCCCTCGCAGTGAACATGGTGTTCGCCGACGCCCGCAATATCGGCTGGCAGGTCACCGGTCGCTACCCGAACCGCCGCGAGGGCGAAGGCCTGTTGCCGTCGCCGGGCTGGGACAGCCGTTACGATTGGGACGGTTACGCCGATCCGATGCTGCACCCCTACGACCAGGATCCGGCGCAGGGTTGGCTCGGCACCGCCAACCAGCGCGTCATTCCTCATGGCTACGGCATGCAACTGTCCAACTCCTGGGCGGCGCCGGAACGTGGCGAGCGCCTGGCCGAACTGGCCGGCGCAGGCAAGCACGACGCGCGCAGCCTGATCGCCATGCAATACGACCAGACCACGACATTCGCCGCCAAGCTGAAAAAGGTCTTCGAAGCCCCGGGCATGGCCCAGCCACTCAAGCAAGCCATCGAAGCCCTGCCGGTGGCGGACCGCGCCAAGGCACGCGAGGCCTATACCCGGCTGATGGCGTTCGATGGCAGGCTCAGTCCGGTTTCTGCCGACGCAGCGATCTATGAGTTGTTCCTGCAAGAAAGCATGAAGCAGACATTCCTGGATGAACTGGGCCCCGAGGGTAGTCCGGCGTGGAAAGCGCTGGTCGCCAACGGCCAGCTGTCTTATTCGGCCCAGGCCGATCATTTGCTTGGTCGTGAGGACAGTCCGTTCTGGGACGATGTGCGCACGCCGCAAAAAGAAGACAAGGCCGTTATCCTGGCGCGCAGCCTCGCGGCGGCTGTCAGCGCCGGTGACAGTCTGCTGGGCACTGACCACAGCGCCTGGCAGTGGGGCAAGCTGCACCGCCAGGAATGGAAAAACGCCAGCGGCCAGACCGTACGCGGCCCGCTGGCAGCCGGCGGCGATAACAGCACGCTCAATACCGCCGCGTTCGCCTGGGGCCAGGATTTCAACACGACCCTGGCGCCGGCCACGCGCTTTATCGTTGATTTCAGCCAGCCTGAGCCATTGACGATCCAGGGCGGCGCCGGCCAGTCGGGCAACCCGGCCAGCCCGAACTATCTGAACGGCCTGGACCCGTGGCTCAAGGGTCAATATCAAAGCCTGCCCTTGCAACCGCAGAATTTTGACCGGGCGTATGGCAAGACTCGTTTGACCTTGGTTCCCGGTAAATAG	MASPASISFFPKLGVAAAVASLLGLSGCQAWNTQDTVAPTTGVQPLKGLAQNVSVRRNALGMPLIESNSFHDALFALGYVHASDRITQMATLRLLAQGRLAEMSGAERLDVDRYMRAVNLKKSADELYKASSPRLKRFFEVYARGVNAYLFRYRDKLPADLAATGYKPEYWKPEDSALLFCLLNFTQSANLPEEVAALVLAQSVTNDKLAWLSPSYPDEPLPLTEAEKLQGVRLNGQIPGLNEISKASAELANLNLLGAASSSNWAIGPQRSRNGKSLLAGDSHGPLGVPSLWSPVQIRAPKYQAAGLSVAGIPMILAGFNGNVAWSMTSVLGDNQDLYLEKIRRQGNGLSYEANGKWQQATVRNETYFIKGQRSIREAVYETRHGPLLNSAQGPAMANGLGLALQLPSFTDDKTLDALFDLSRAQNVEKASDASREIRALAVNMVFADARNIGWQVTGRYPNRREGEGLLPSPGWDSRYDWDGYADPMLHPYDQDPAQGWLGTANQRVIPHGYGMQLSNSWAAPERGERLAELAGAGKHDARSLIAMQYDQTTTFAAKLKKVFEAPGMAQPLKQAIEALPVADRAKAREAYTRLMAFDGRLSPVSADAAIYELFLQESMKQTFLDELGPEGSPAWKALVANGQLSYSAQADHLLGREDSPFWDDVRTPQKEDKAVILARSLAAAVSAGDSLLGTDHSAWQWGKLHRQEWKNASGQTVRGPLAAGGDNSTLNTAAFAWGQDFNTTLAPATRFIVDFSQPEPLTIQGGAGQSGNPASPNYLNGLDPWLKGQYQSLPLQPQNFDRAYGKTRLTLVPGK	PGPT0003395_208	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_QUENCHING	CE-QUORUM_QUENCHING-AHL-DEGRADATION,PGPT0003395-pvdQ-K07116	NA	NA
D1-35_00242	558	yecD	COG1335	Isochorismatase family protein YecD	ATGGAGCTACAGAAAAACGCGGCGCTGATCCTTATCGATCAGCAGAAAGGCATCCTCCATCCCAGGCTTGGCCCGCGCAACAATCCCGGGGCGGAGCTGCGCATGCTGGAATTGCTCGGATGCTGGCGAGAGTCGGCGCGGCCAATCATCCATGTCCACCATTTGTCCCGGTCCGAGGCGTCAGTCTTCTGGCCTGGACAATCAGGCGTGGAGGTTCAGGAGCGGTTCAGGCCCATGGCTGGGGAAGGGCTGGTCCAGAAGCAGATGCCCGATGCGTTTTGCGGCACGACCCTGGAGGCGGATTTGCGCAGTGCGGGTATCGGGCAACTGGTGATTGTCGGCGTGGCCACGAACAATTCGGTGGAGTCCACCGCGCGCACGGCGGGCAACCTGGGATTCGATACGTGGGTAGCCGAGGATGCCTGTTACACCTTCGACAAGCCCGACTTCTTCGGTTATGCCCGTTCGGCTGCCGAGGTGCATGCGATGTCCCTGGGGAATCTGCATGGGGAGTATGCGACGGTGGTCAGCGTGGAGCGGATTCTGGCGGCGGGCTGA	MELQKNAALILIDQQKGILHPRLGPRNNPGAELRMLELLGCWRESARPIIHVHHLSRSEASVFWPGQSGVEVQERFRPMAGEGLVQKQMPDAFCGTTLEADLRSAGIGQLVIVGVATNNSVESTARTAGNLGFDTWVAEDACYTFDKPDFFGYARSAAEVHAMSLGNLHGEYATVVSVERILAAG				NA	NA	NA	NA	NA
D1-35_00243	204			hypothetical protein	ATGACCCAACAACCCCACGTCCATGGCCCTGATTGCAACCACGACCATGATCATCACCACGACCATGATCACGGCCATGTCCACGGCCCGAACTGCGGCCACGCCCACCAGGAACCCGTGCGCAATGCCCTGAAGGACGTCGGTCGCAACGACCCTTGCCCGTGCGGCAATGGCAAGAAATTCAAGAAGTGCCACGGGGCTTGA	MTQQPHVHGPDCNHDHDHHHDHDHGHVHGPNCGHAHQEPVRNALKDVGRNDPCPCGNGKKFKKCHGA				NA	NA	NA	NA	NA
D1-35_00244	486			hypothetical protein	ATGACCCAGACATCTCGATTGCTGCGCATCACTTGCCTGCTGCTGTTCGTCGGGCTAGGGGCGTGTGCGTCCTGGCGAGGTGAAGAGGCACCCGAACCACAGGTGCATCTGGTCAAGGTGGAGGTGGTGCGGGCCCGGTTGCTGGAGCAGAAGTTCATGTTGCACTTTCGCGTCGACAACCCCGGCGAAGACGACCTCACCGTACGCGGCCTGACCTACCGGATCCACCTGGACGACTTGCTGCTGACCGAAGGAGAACATGAACACTGGTTTACGGTGCGCCCCGGACACAGCGCCTATTTCAAGGTGCCGATCCGCACCAACCTGTGGCCGCAGGTGCGCGAACTGGTGAAAATGCTGAAGAAACCCCGGCAACAGATTCCCTATCGTCTGGAGGGGGAGCTGGAAACCGGTTTATTCATCGCCGACTACGTGCACCTGGAGCGCAATGGCGTGATAATCGCCGCCGATCTAATTGCGGAGTAA	MTQTSRLLRITCLLLFVGLGACASWRGEEAPEPQVHLVKVEVVRARLLEQKFMLHFRVDNPGEDDLTVRGLTYRIHLDDLLLTEGEHEHWFTVRPGHSAYFKVPIRTNLWPQVRELVKMLKKPRQQIPYRLEGELETGLFIADYVHLERNGVIIAADLIAE				NA	NA	NA	NA	NA
D1-35_00245	498			hypothetical protein	GTGGTAGCTGTGGACACTAGCCTGCATTCAACCATTTGCCCCTGCGGCAGCGGCAACCCGTTGGACGCCTGCTGCGGCCATTATCACGACGGTCATCCGGCGCCCTGCGCCGAAGCCTTGATGCGCTCGCGCTACAGCGCTTATGTGCTGGGCCTGGTGGATTATCTGGTGAGCACCACCCTGCCCGCCCAGCAGGACGGCCTCGACCGCCAGGCCATCAGCGAATGGAGCGCCGGCAGCACCTGGCTGGGCTTGGAGGTGGAGAGCAGCGAGGTATTCGGCGGCCAGCCGGAACATGCCTTCGTCACTTTCACCGCACGCTGGCACGACGGCCAGGGCGAACACAGCCACCGCGAACAATCTTCGTTTGTGCAGAACGGCGGGCGCTGGTACTTCATTGACCCGACCGTGCCGGTCAAGACGGGACGCAACGACAGCTGCCCGTGCGGTAGCGGGCAGAAATTCAAGAAGTGCTGCGCCAGTTACTTCATTCGTTGA	MVAVDTSLHSTICPCGSGNPLDACCGHYHDGHPAPCAEALMRSRYSAYVLGLVDYLVSTTLPAQQDGLDRQAISEWSAGSTWLGLEVESSEVFGGQPEHAFVTFTARWHDGQGEHSHREQSSFVQNGGRWYFIDPTVPVKTGRNDSCPCGSGQKFKKCCASYFIR				NA	NA	NA	NA	NA
D1-35_00246	498			hypothetical protein	ATGACCGTTGCCATTTCTTCGCGCACGCCCCAGCAGGCGCTGGCCGCCGTGCTTGACCGCTATGCCCCGCAAAAGCTGTTGCTGATCGGCGCCGGCAGCTTCCCCGCGCTCGAGGCATTCCAGCAGGCGCATCCCGACACCGAGGTGGTCCATGCTGCCCCCGGCCCCTTGCCGGCGGATCTGGCTGCGCGGCGTTTCGACCTGGCCCTGGCGCTCGATTGCCTGGAGCATTTGCCCAAGCGCGACGGTCTGAACCTGTTGGGCGGTATTCGCAACCTCAACGCCAGCCGGATTGCCGTGCTGGCCGACCTCAACGCCTGCGGCTGGCAGGAAACCGACTTCTTCTCCCTGGCCCTGCAGGCCAGCGAACGCTTTCAGCGCGAAGAACAGGTGCTGACCCTGTTTACCTACGATCTGCTTGAATACAAGCAGGTCCCCGACTGGCTCAACTCACGTTTCTGGGCGAACCCGGAAAACTTTGGAAAATATTGGTGGTAG	MTVAISSRTPQQALAAVLDRYAPQKLLLIGAGSFPALEAFQQAHPDTEVVHAAPGPLPADLAARRFDLALALDCLEHLPKRDGLNLLGGIRNLNASRIAVLADLNACGWQETDFFSLALQASERFQREEQVLTLFTYDLLEYKQVPDWLNSRFWANPENFGKYWW				NA	NA	NA	NA	NA
D1-35_00247	702	ompA		Outer membrane protein A	ATGAGCATAGTTCGGACAGCGTTACCCCTGGTTCTGCTAACCAGTGTGTTGACTGGTTGCGCAGGTTTGCAAAAAACCGACTGGCCGATCTGTGCGGCCACCGGTGGTGTGGTCGGCGCAGGATTGGGCGCCATCGAAAGCAGTTCCTGGATCGGCCCGGGCGCACTGGTCGCCGGTACGGTGGCGGCAGGCTGGTGCTGGGCCCATGGCGATGGCGACGAGGACGGCGATGGCGTGCCGGACAGTCGTGACAAGTGCCCGGGCACGCCGAAGGGCGTGCAGGTCGATGCCGACGGCTGCCCACCACCGGCACCCGCACCGACACCGGTGGCTGAAGCGCCCGTGATGGTCCAGGAAGAAACGATCGTGGTCCGCGACGTGCATTTCGAATTCAACAAGGCCACCCTCACGCCGACGGACAAAGAAGTGCTGAGCACCATCGCGACCCGGCTGAAGCAGGAAACCTCCACCGCACAACTGCGAGTGACCGGGCACACCGACAGCGTCGGCAGCGATGCCTATAACCAGAAACTGTCGGAAAAACGCGCCAACTCGGTGGTTCAATACCTGGTCGAAAGCGGCGTGCCTCGCGCCAGTTTCGTCTCGGTGGCCGGCGCCGGGGAAAGCCAACCGGTGGCGGATAACAAAACCGCCGATGGTCGCGCAATGAACCGTCGCACCGAAATCAAGATAAACCGCTGA	MSIVRTALPLVLLTSVLTGCAGLQKTDWPICAATGGVVGAGLGAIESSSWIGPGALVAGTVAAGWCWAHGDGDEDGDGVPDSRDKCPGTPKGVQVDADGCPPPAPAPTPVAEAPVMVQEETIVVRDVHFEFNKATLTPTDKEVLSTIATRLKQETSTAQLRVTGHTDSVGSDAYNQKLSEKRANSVVQYLVESGVPRASFVSVAGAGESQPVADNKTADGRAMNRRTEIKINR	PGPT0022215_4365	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022215-ompA_ompF_porin|oprF-K03286	NA	NA
D1-35_00248	726	pal_2		Peptidoglycan-associated lipoprotein	ATGAACGTTCTAATCAAGGCCGCCTTACCGCTACTGCTGGCAAGCAGCCTGCTGTCCGGATGCGCCACTCACAGTGATGGCAGTGCCTCGCTCAATCAGCGTACCTGGCCGATCTGCAGCTTGATCGGCGGGCTTGTCGGCGGTGGTCTCGGGGCCATCGAAAGCGGTGGCTGGGCCGCCGGTGGCGCTGCGTTGGGGCTGCTGGGCGGTGGTTTGATCTGTTACGCCCAGGACGGCGACGAAGACGACGATGGTGTATTCGATCGTCGCGACCGTTGTCCCGATACACCGGCCAATACCCCCGTCGAACATCACGGCTGCCCGCTGCCGCAATACCCGGCCAGCACGCCACCGGCCGAGCCGGACATGCCCACCAGCGAAGTCATTACCCTGAACGACGCTGGCAAGGTGCTGTTCGATTTTGACAAATCCGACCTCACCGCCGCGGCCAGGAGCCAGCTCGATGAGCTGACGGCAAAACTGAGTCACGCCAACGTCGCCAGTATCCGCGTGGTGGGCCACACCGACAGTGTCGGTACCGAGGCGTATAACGAGGGCCTCTCGGAACGTCGGGCCGGTAGCGTGGTGGAGTATTTGCTGACCCAGGGCGTGGCCCCGGCAAAACTCACGAGTGAAGGCAAGGGCGAAAGCCAACCGGTGGCCGACAACGAGACTGATGAGGGGCGGGCCCAGAACCGTCGGGTCGAATTGCATATCCAGCGTTAA	MNVLIKAALPLLLASSLLSGCATHSDGSASLNQRTWPICSLIGGLVGGGLGAIESGGWAAGGAALGLLGGGLICYAQDGDEDDDGVFDRRDRCPDTPANTPVEHHGCPLPQYPASTPPAEPDMPTSEVITLNDAGKVLFDFDKSDLTAAARSQLDELTAKLSHANVASIRVVGHTDSVGTEAYNEGLSERRAGSVVEYLLTQGVAPAKLTSEGKGESQPVADNETDEGRAQNRRVELHIQR	PGPT0022215_4248	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022215-ompA_ompF_porin|oprF-K03286	NA	NA
D1-35_00249	273			hypothetical protein	ATGAAGGTGTTTTGGTGGCTGGGGCGCGTGCTGACCCTGCTGTTCTGGCTGGTGGTGCTGGTCAATCTGGTCATGCCGTTCGTCCATCCGCTGCATCTGTTGGTCAATCTGGCCGGGGTGTCGTTACTGGCGATCCATCTGCTCGAACTTCTATTGTTCAGGGCTCGGTTTCGCGGTCGTCCCGCTCCTGGCCGTGATCGCCTCAGGGTGCTGCTGTTCGGCATCTTTCACCTGCAAACCCTCCCGACCGCGCCAGAGGCCTCCCATGCGTAA	MKVFWWLGRVLTLLFWLVVLVNLVMPFVHPLHLLVNLAGVSLLAIHLLELLLFRARFRGRPAPGRDRLRVLLFGIFHLQTLPTAPEASHA				NA	NA	NA	NA	NA
D1-35_00250	759			hypothetical protein	ATGCGTAAACTGTGTCTGCTCGCATTACTCGTATGCCCGTGGGCCAGCGCTCAAGTGGTCCAGGTGGAAAGCCACTCGTTGATGCGCTTGCCCAACACCACCAGCACGCTTGCCCTGGAGCGATTGGACGTGGCCGACTACGGCACGCTGCTGGTGCCTTCGAACGTCACTGAGCTGTCCATTGGCCAATTGCACCTGGGGCGGGAGGCAAGGATCGCGATCGTACCGGCACAACAGGCGCTGGAGATGAAAGTCACCCAGGCCGAACTGGCTGAAGGCAGCCAGATCACCGCCCGTGGCGCGCCGGGAACCTATACCAAGGCGGCGCGCCCGGGGCGTAACCTCAATTTGCGCTTCGAGGCGTTGAACGCGCCGCTGCTGTCGGTGGATGCCCGTGGCGGTACCGGTGCGCCAGGTTACGTGGGCCTTGACGGCGCCAACGGCCAGGCACCGGGTTGCACCTGGGGTTCGGCCGGTCGCGGCGCCGACGGCAGCAACGGCGCGGATGGCCAGCCGGGCGCGGCCGGCGCGCTGGTTCGGCTGCAATTGCCCCGCGCTTATCCCGACGAACAGATCAAGGTAATGGTAGATGGCGGCGCTGGTGGCGCGGCCGGGCCTGGCGGCAAGCCTGGCGCGGGAGGCAAGGCCAAGGGCTGCCTGGTCTACACTGCCGACGGCGGCAAGAGCGGCCGTCCCGGCGCCGATGGCCAGCCAGGGCCTGCCGGCGCGACGGGTGCGGTGACGGTGCAGCGGTTCTGA	MRKLCLLALLVCPWASAQVVQVESHSLMRLPNTTSTLALERLDVADYGTLLVPSNVTELSIGQLHLGREARIAIVPAQQALEMKVTQAELAEGSQITARGAPGTYTKAARPGRNLNLRFEALNAPLLSVDARGGTGAPGYVGLDGANGQAPGCTWGSAGRGADGSNGADGQPGAAGALVRLQLPRAYPDEQIKVMVDGGAGGAAGPGGKPGAGGKAKGCLVYTADGGKSGRPGADGQPGPAGATGAVTVQRF				NA	NA	NA	NA	NA
D1-35_00251	465			hypothetical protein	ATGACACCCTTTGCCCTCGTCTACACCCTGCATTTGCTGGCGGCCCTGGTCTGGGTTGGCGGTATGTTTTTCGCCTGGATGATCCTGCGACCCGCCGCAATCACGGCGCTTGAGGGCCCTGCCCGGCTCAAGTTGTGGGTAGAAGTGTTTCAGCGTTTTTTCGTCTGGGTCTGGGTGGCCGTGGTGCTTTTGCCGATCAGCGGCGTGGGCCTGATCCACATGCGCTTCGCCGGTTTCGAAACCGCGCCGCGTTACGTGCAGGTAATGATGGGATTGTATGTGGTGATGGCGGCGTTGTTCATCCGTATCCAGGGCCTGCAACTGCCAGCATTGCGTAACGCTGTGACGGCGCAGGATTGGCCGACGGGTGCGGCGGTGCTGGGGAAGATTCGCAGGCTGGTGGGGATCAATCTGTTGATCGGTTTGCTGGTGGTGGCGATCGGCGCGGCTCGGCCGATGTTCTGA	MTPFALVYTLHLLAALVWVGGMFFAWMILRPAAITALEGPARLKLWVEVFQRFFVWVWVAVVLLPISGVGLIHMRFAGFETAPRYVQVMMGLYVVMAALFIRIQGLQLPALRNAVTAQDWPTGAAVLGKIRRLVGINLLIGLLVVAIGAARPMF				NA	NA	NA	NA	NA
D1-35_00252	2145	dinG_1	COG1199	ATP-dependent DNA helicase DinG	ATGATCAGCACCGAACTCAAAACCACGATCCAGGGCGCCTATTCGCGTTTTCTCGAAGCCAAGAGCCTCAAGCCGCGATATGGCCAGCGCCTGATGATTGCCGAAGTGGCAAAAGTCCTGGGTGACATCGACACCGACGACGAAGGCCGGCGCAGCGGCGAGCCTGCCGTCGTCGCGGTGGAGGCCGGCACCGGTACCGGCAAGACCGTGGCCTACAGCCTGGCGGCGATCCCCACCGCCAAGGCCGCCGGCAAGCGCCTGGTGATCGCCACGGCCACCGTCGCCCTGCAGGAACAGATCGTCTACAAGGACCTTCCCGACCTGATGCGCAACAGCGGGCTGAATTTCAGTTTCGCGTTGGCCAAGGGGCGGGGGCGCTACATGTGCCTGTCCAAACTCGACATGCTGCTGCAGGAAGGCCACGCGCAGACCGCCACTGCCCAGCTGTTCGAGGAAGAAGGTTTCAAGATCGAGGTCGACGAGGCCAGCCAGAAGCTGTTCACCAGCATGATCGAAAAGCTCGCCGGCAATAAGTGGGACGGCGACCGTGACAGCTGGTCCACGGCTCTGGAAGACGCTGACTGGTCGCGCCTGACCACCGACCACAGCCAATGCACCAATCGCCATTGCCCGAACTTCGGCCAGTGCGCTTTCTACAAGGCTCGCGAAGGCATGGGCAAGGTCGACGTGATCGTCACCAACCACGATATGGTCCTGGCCGACCTGGCCCTGGGCGGCGGCGCCGTGCTGCCGGACCCGCGCGACACGATCTATGTGTTCGACGAAGGTCATCACCTGCCGGACAAGGCCATCGGCCATTTCGCCCATTACACCCGGCTGCGCTCAACCGCCGACTGGCTGGAAACCACTGCCAAGAATCTTACCAAACTGCTCGCCCAGCATCCGTTGCCCGGCGACCTGGGCAAGTTCATCGAGCAGGTGCCGGAGCTGGCGCGGGAGATCAAGACGAACCAGCAGTTCATGTTCACCGCCTGCGAGCAGGTGGCCGACTTCAAGCCCGGCGAAGATGTCGAGGGCCGCGAGCGGCCACGCCATCGGTTTGTCGGCGGGGTGATCCCCGAGCATATGCGCGAGATGGGCATCGAACTCAAGAAGGGCTTCGCGCGCCTGACCGACCTGTTCACGCGCCTGACCGATCTGCTCAAGGAAGGCATGGATGGCGAGGTCAATATCGGCATCGCCAGCAACCAGGCCGAGGAGTGGTATCCATTGTTCGGCAGCTTGCTGTCCCGCTCCCAGGGCAACTGGGAGCTGTGGACCGCGTTCACCACCGAAGACCCGGAAGACAATCCGCCGATGGCGCGTTGGCTGACGCTGGCCGAGAGCGGCTCGCTGTTCGACATCGAGGTCAATGCCAGTCCGATCCTGGCGGCGGACATGCTGCGGCGCAACCTGTGGAACGTCGCCTACGGCGCGCTGGTAACCTCCGCCACGCTGACGGCGCTGGGCACTTTCGACCGTTTCCGCATGCGCGCCGGCCTGCCGAAAAAAGCCGTGACCGCCGTAGTTCCGAGCCCCTTCCACCATGCCGACGCCGGCGTGCTGCGGGTGCCGGACCTCAAGGCCGATCCGCGCGATGCCGCCGCCCACACTGCCGCGATCATTCGCGAGCTGCCTGCGCTGGTGGAAGGTTCGCGCGGCACCCTGGTGCTGTTTTCCTCGCGCAAACAGATGCAGGACGTCTTCGACGGCCTCGATCGTGACTGGCGCAAGCAGGTGTTCATCCAGGGCAACCTGTCGAAGCAGGAAACCTTGAACAAGCACAAGGCCCGGGTCGATGGCGGCGATTCCAGCGTGCTGTTCGGCCTGGCGAGCTTTGCCGAAGGCGTCGATTTGCCGGGGGCCTATTGCGAACACGTGGTGATCGCCAAGATTCCATTCTCGGTGCCGGACGATCCGGTGGAAGCCGCGTTGGCCGAATGGATCGAAGCCCGTGGCGGCAACCCCTTCATGGAGATATCCGTGCCGGATGCCTCGCTGAAGCTGGTCCAGGCCTGTGGCCGCTTGCTGCGTACCGAGGAAGACCGCGGCACCATCACCCTGCTCGATCGCCGGCTGGTGACCCAACGCTACGGCAAGGCGATCCTCAACGCGCTGCCGCCGTTTCGGCGGGAGATTTCCTAG	MISTELKTTIQGAYSRFLEAKSLKPRYGQRLMIAEVAKVLGDIDTDDEGRRSGEPAVVAVEAGTGTGKTVAYSLAAIPTAKAAGKRLVIATATVALQEQIVYKDLPDLMRNSGLNFSFALAKGRGRYMCLSKLDMLLQEGHAQTATAQLFEEEGFKIEVDEASQKLFTSMIEKLAGNKWDGDRDSWSTALEDADWSRLTTDHSQCTNRHCPNFGQCAFYKAREGMGKVDVIVTNHDMVLADLALGGGAVLPDPRDTIYVFDEGHHLPDKAIGHFAHYTRLRSTADWLETTAKNLTKLLAQHPLPGDLGKFIEQVPELAREIKTNQQFMFTACEQVADFKPGEDVEGRERPRHRFVGGVIPEHMREMGIELKKGFARLTDLFTRLTDLLKEGMDGEVNIGIASNQAEEWYPLFGSLLSRSQGNWELWTAFTTEDPEDNPPMARWLTLAESGSLFDIEVNASPILAADMLRRNLWNVAYGALVTSATLTALGTFDRFRMRAGLPKKAVTAVVPSPFHHADAGVLRVPDLKADPRDAAAHTAAIIRELPALVEGSRGTLVLFSSRKQMQDVFDGLDRDWRKQVFIQGNLSKQETLNKHKARVDGGDSSVLFGLASFAEGVDLPGAYCEHVVIAKIPFSVPDDPVEAALAEWIEARGGNPFMEISVPDASLKLVQACGRLLRTEEDRGTITLLDRRLVTQRYGKAILNALPPFRREIS				NA	NA	NA	NA	NA
D1-35_00253	1146	yfeW_1		Putative D-alanyl-D-alanine carboxypeptidase	GTGCAAATTCAAGGTCATTACGAGCTTCAGTTCGAGGTCGTGCGTGAAGCGTTTGCGGCGCTGTTCGACAATTCCCAGGAGCGCGGCGCGGCGTTATGCATTCAGGTGAGCGGCCGCACCGTCGTCGACATCTGGGCCGGCACCGCCGACAAGGATGGTCATGAAGCCTGGCACAGCGACACCATCGCCAATCTGTTTTCCTGCACCAAGACATTCGCCGCCGTAACTGCCTTGCAACTGGTAGCAGAGGGCAAGCTGCAGCTCGATGCGCCGGTCGCCCGCTACTGGCCCGAGTTCGCGGCCGCCGGCAAGGAGTCCGTCACCCTGCGGCAATTGCTCTGCCATCAGGCCGGACTACCGGCGCTGAGAGAGTTGATGGCGCCTGAAGCACTTTATGACTGGCAGGCCATGACCGATGCCCTGGCGGCTGAAACGCCTTGGTGGACGCCTGGCGAGGGCCACGGTTATGCCGCGATCACCTACGGCTGGTTGATCGGCGAGTTGCTGCGCAGGGCCGATGGCCGAGGGCCGGGTGAGTCCATCGTGGCTCGGGTCGCCAGACCGCTGGGGCTGGATTTTCATGTCGGCCTGGCGGACCAGGAATTTCATCGCGTGGCGCATATCGCCCGTGGCAAAGGCAACGCCGGAGATGCGGCGGCACAGCGCCTGTTGCAGGTGACGATGCGTGAACCTTCGGCCATGACCACCCGGGCCTTCACCAACCCGCCATCGATCATGACCAGCACCAACAAACCCGAGTGGCGCCGCATGCAGCAACCGGCCGCCAACGGCCACGGCAATGCCCGGAGCATCGCCGGGTTCTACGCCGGTCTGCTCGACGGCAGCCTGCTGGAAGGCGAAATGCTCGACGAACTGACCCGCCAGCACAGCTTCGGCGAGGACAAGACTTTATTGACCCAGACCCGTTTCGGCCTGGGTTGCATGCTCGACCAGGCGGATGTGCCCAACGCGACCTACGGCCTCGGGCCGCGGGTGTTTGGTCACCCTGGGGCAGGGGGCTCCATCGGTTTTGCCGATCCCGAGCATGACGTTGCGTTCGGTTTCGTGACCAACACATTGGGACCTTACGTCCTGATGGACCCGCGCGCGCAGAATCTCGCGCGGGTGCTTGCCACTTGTCTGTAA	MQIQGHYELQFEVVREAFAALFDNSQERGAALCIQVSGRTVVDIWAGTADKDGHEAWHSDTIANLFSCTKTFAAVTALQLVAEGKLQLDAPVARYWPEFAAAGKESVTLRQLLCHQAGLPALRELMAPEALYDWQAMTDALAAETPWWTPGEGHGYAAITYGWLIGELLRRADGRGPGESIVARVARPLGLDFHVGLADQEFHRVAHIARGKGNAGDAAAQRLLQVTMREPSAMTTRAFTNPPSIMTSTNKPEWRRMQQPAANGHGNARSIAGFYAGLLDGSLLEGEMLDELTRQHSFGEDKTLLTQTRFGLGCMLDQADVPNATYGLGPRVFGHPGAGGSIGFADPEHDVAFGFVTNTLGPYVLMDPRAQNLARVLATCL				NA	NA	NA	NA	NA
D1-35_00254	1107	pal_3		Peptidoglycan-associated lipoprotein	ATGTCATCGAATAAAACCCTCGCTCTGGCGCTGTGCTTCGCTATTACCGGTTGCGCACAAAACCCACAAAATGATGCCGAGGGCGGCGGTGGCTGGTGGCCGTTCGGCTCGTCCGACAAGGTTGCGAGCAAGGATGCGGCGCCACAGGCTCCTTTGAAACCCGCCGCCGCGGCACCGCAGGCCAAGGCCGAGGGAGCCACGCACTGGTGGTGGCCGTTCTCTTCGGATGAATCCGCCGCGGATGATGTCGCCAAAAAAGAACCGCTGAAACCTGAAGCCAAGGCGCCAGCCGTGGCCAAGGCCGAAGCCGAAAGCAACGGCAAATGGTGGTGGCCGTTCGGCGGCAAGGAACAGGAGACCGCCAAGGCGGTGCCGATGCCCGATCCGAAAGTCACCCAGGCCTGGCTCGACGACTATGAGCCGAAGCTGCGTACGGCGATCAAGGACAGCAAGCTCGAACTCGAACGTCGCGATAACGTGCTGGTGGTTACCGCTCCCGCGGACGGTTCGTTCAACCCTGATCGTCCGGCCATGCTGCTGCCGGTGACACTCGGTCCGTTCACTCGCGTCGCCAAGATTCTTGAAGCCGATCCGAAAACCGCCGTACTGATCCTCGGTCACGCCGATACGTCGGGCGCGGCGCCGGCCAACCTGAAGCTCAGCCAGGAACGTGCTCAATCGGTGGCGGCGATTTTCCGTCTCAGCGGTTTGCAGCGTGATCGCCTGATGCTGCGTGGCATGGGCTCGGTGGCTCCGCGTGCGGCCAATGACAGCGTTGAAGGCCGGGCCTTGAACCGTCGCGTCGAGTTGCTGGTTACGCCAGCGAACACCATGGTTGCATTGCTGAGCAAGTACAACATGCCGGCCCCTGCGCCAGTAACCATGGTAGCTGCCCAGGACGTGAAACCCGCCGCGCCGGCCCCGGCCCCGGCGACGAAAAAGGCTGCCGCTCCGGCTGCCAAGAAAGCAGCGGCCAAGAAGGCTCCGGCGAAGGCACCCGCGAAGAAGACCCCAGCCAAGAAGGCTACGCCCGCGAAGAAGCCCGAGCCGGCCAAGGCCGCTGCCGACGGCAAGAAAGTCGCTGCCGCCGATACCGCCAAACAGTGA	MSSNKTLALALCFAITGCAQNPQNDAEGGGGWWPFGSSDKVASKDAAPQAPLKPAAAAPQAKAEGATHWWWPFSSDESAADDVAKKEPLKPEAKAPAVAKAEAESNGKWWWPFGGKEQETAKAVPMPDPKVTQAWLDDYEPKLRTAIKDSKLELERRDNVLVVTAPADGSFNPDRPAMLLPVTLGPFTRVAKILEADPKTAVLILGHADTSGAAPANLKLSQERAQSVAAIFRLSGLQRDRLMLRGMGSVAPRAANDSVEGRALNRRVELLVTPANTMVALLSKYNMPAPAPVTMVAAQDVKPAAPAPAPATKKAAAPAAKKAAAKKAPAKAPAKKTPAKKATPAKKPEPAKAAADGKKVAAADTAKQ				NA	NA	NA	NA	NA
D1-35_00255	648	pdxH	COG0259	Pyridoxine/pyridoxamine 5'-phosphate oxidase	ATGACCCAAACCCTGGCTGATATGCGCCGTGACTACACCCGCGATGGCCTGACCGAGGCGCAAGCCCCAGCCGAGCCGTTCGCCTTGTTTCACCAATGGTTTGCCGAGGCGGTGAAAACCGAACAGGCACCGGTGGAAGCCAACGCCATGACCCTGGCGACGGTGGACGCAGACGGCAGGCCTCACTGCCGGATCCTGCTGCTCAAGGGGCTCGATGCCGAGGGCTTCACGTTCTTCACCAACTACGACAGCGCCAAGGGCCAGCAACTGGCCGCGAGTCCGTTCGCGGCCATGACGTTTTTCTGGCCGACGCTGGAGCGCCAGGTGCGCATCGAAGGCAAGGTCCTGAAGGTCACCCCACAAGAGTCGGACGCTTATTACCAGGTACGGCCGCTGGGCAGCCGTCTCGGTGCCTGGGCCTCACCTCAGAGCCGGGTGATCGCCGGGCGGGATGAGCTGGAAGACTTGCTCAAGGCCACTGAGCAACGCTTCAGCGACAGCCAACCCCATTGCCCCGAGCATTGGGGCGGCTATCGCCTGTTGCCCGAGCGCATCGAATTCTGGCAAGGCCGCCCGAGCCGTCTGCACGATCGCCTCAACTATCGCCTGCAAGGCGCGGACTGGATTCGCGAGCGTCTGGCGCCCTGA	MTQTLADMRRDYTRDGLTEAQAPAEPFALFHQWFAEAVKTEQAPVEANAMTLATVDADGRPHCRILLLKGLDAEGFTFFTNYDSAKGQQLAASPFAAMTFFWPTLERQVRIEGKVLKVTPQESDAYYQVRPLGSRLGAWASPQSRVIAGRDELEDLLKATEQRFSDSQPHCPEHWGGYRLLPERIEFWQGRPSRLHDRLNYRLQGADWIRERLAP	PGPT0009115_1722	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009115-pdxH-K00275	NA	NA
D1-35_00256	285			hypothetical protein	ATGGATTACTTCATCATAGTCGCCACCACCGTCGCCGGTCTGTACTTTCATGGATGGCTCTACGTACGTATCAAACGCTGGATGGACCGCGACCTGGCCTTGTCGTTGGCGGGGCAGGATGGACGGAAGCGAGACTACATGCTGCAACAACTGGCCCTCGCCCGCGAACAAGGGATCAAGCGTCGGGACCTGCCGCACTGGCTCCAGGCCGCTGCGGCAGGTTACTCCGACGTCAGGGCGCCAGACGCTCGCGAATCCAGTCCGCGCCTTGCAGGCGATAGTTGA	MDYFIIVATTVAGLYFHGWLYVRIKRWMDRDLALSLAGQDGRKRDYMLQQLALAREQGIKRRDLPHWLQAAAAGYSDVRAPDARESSPRLAGDS				NA	NA	NA	NA	NA
D1-35_00257	465	slyB	COG3133	Outer membrane lipoprotein SlyB	ATGCGCAAGTCTGTTTTGCTGGTTGCTTCCTTTTCCACGATGGCGATGTTACTGACAGGCTGCCAGTCAAGCCTGACCGGTGACTCCTATTCCCGTGACGAAGCGCGTCGCGTGCAGACGATTCGCATGGGCACCATCGAGTCCCTGCGCCCGGTCAAGATCGAAGGCACCAAGACCCCGATCGGCGGCGCAGCCGGCGCGGTGGTGGGCGGTGTTGGCGGCAGCGCTATCGGCGGTGGTCGTGGCAGCATCGTGGCAGCCGTGATCGGCGCCGTGGCCGGTGGCCTGATCGGCTCCGCCACTGAAGAAGGCCTGACCCGTACCCAGGGTGTAGAGATCACTGTGCGTGAGGATGACGGCAGCATGCGTGCCTATGTCCAGCAGGTTCAGGAGAACGAAGTGTTCCGTGTAGGTGAGCGGGTGCGGATTTCGACTGTCGATGGTACGAGTCGCGTATCGCACTAA	MRKSVLLVASFSTMAMLLTGCQSSLTGDSYSRDEARRVQTIRMGTIESLRPVKIEGTKTPIGGAAGAVVGGVGGSAIGGGRGSIVAAVIGAVAGGLIGSATEEGLTRTQGVEITVREDDGSMRAYVQQVQENEVFRVGERVRISTVDGTSRVSH	PGPT0024490_860	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024490-slyB-K06077	NA	NA
D1-35_00259	1188	nhaA	COG3004	Na(+)/H(+) antiporter NhaA	TTGGCTCTACGTAACTCACTGACGCGGTTTTTCCAGCTGGAAGCTGCCAGCGGCCTGCTCTTGATTGCCGCCGCCGTGCTGGCCCTGGTCATCAACAACTCTCCGCTGTCCTGGCTGTATGGCGGCCTGCTGGACACGCCCGTGGTCGTCCAGGTCGGTGCGTTGAAGATCGCCAAACCGTTGCTGCTATGGATCAATGACGGCCTGATGGCGCTGTTCTTCCTGCTTATTGGCCTGGAGGTCAAACGCGAGGTGCTCGACGGGCAACTGTCGAAACCTTCTCAGATCGTCCTGCCTGGGGCCGCGGCCATAGGCGGCATGCTGGTGCCGGCGCTGATCTACTGGTTTCTCAATCGCGACAACCCCGCCGCGCTCGCTGGCTGGGCGATTCCTACGGCTACCGATATTGCCTTTGCCCTCGGCGTGCTGGCCTTGCTTGGCAAGCGTGTACCGGTATCGCTCAAGCTGTTCCTGATGACGCTGGCGATCATTGATGACCTGGGCGCCATCGTCATTATCGCGATGTTCTACTCCGGCGAGCTGTCGACACTGTCGTTGGGGCTGGCCGCGGCCTGCATCGCAGCCCTGGTGGCAATGAATCGGCTGGGCGTGGTCAAGCTCGGGCCGTACATGGTGATCGGCTTGATTCTCTGGGTCTGTGTGCTCAAGAGCGGCGTGCATGCCACGCTGGCGGGGGTGACGCTGGCATTCTGCATCCCACTGCGCACGAGAAACGCTGAAACCTCCCCCCTGCTGACGCTTGAGCATGCGCTGCATCCTTGGGTGGCCTACATTATCTTGCCGCTGTTCGCATTCGCCAACGCTGGCCTTTCGCTGAGCGGCGTCACGGTCGAGAGCTTTACCCATCATGTTCCGATGGGCATCGCAATCGGCCTGTTGCTGGGCAAGACGGTCGGCGTGTTCAGCCTGACCTGGCTGGCGGTGAAAATCGGCATCGCCAGTCTGCCTGCCGGGGCCAATTGGGGGCAGATACTGGGCGTGGCGATTCTTTGTGGCATTGGTTTTACCATGAGCCTGTTCGTCGGCTCCCTGGCGTTCGTGCCGGAGGTGAGTGAGTATGCGGGGATGGATCGGATGGGGATTCTCACCGGGTCGATCCTGGCGGCGCTGATTGGATATGGGGTGACGGCGATGGCTAGTCGCAGGTCTGCTGTGGTGGCTTCCTGA	MALRNSLTRFFQLEAASGLLLIAAAVLALVINNSPLSWLYGGLLDTPVVVQVGALKIAKPLLLWINDGLMALFFLLIGLEVKREVLDGQLSKPSQIVLPGAAAIGGMLVPALIYWFLNRDNPAALAGWAIPTATDIAFALGVLALLGKRVPVSLKLFLMTLAIIDDLGAIVIIAMFYSGELSTLSLGLAAACIAALVAMNRLGVVKLGPYMVIGLILWVCVLKSGVHATLAGVTLAFCIPLRTRNAETSPLLTLEHALHPWVAYIILPLFAFANAGLSLSGVTVESFTHHVPMGIAIGLLLGKTVGVFSLTWLAVKIGIASLPAGANWGQILGVAILCGIGFTMSLFVGSLAFVPEVSEYAGMDRMGILTGSILAALIGYGVTAMASRRSAVVAS	PGPT0013935_1782	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013935-nhaA-K03313	NA	NA
D1-35_00260	1095	cysM_1	COG0031	Cysteine synthase B	ATGAACAATCCCCGCCAATGGGCGCGTGAAGCCATCCGTATCATCGAGGCGGATTTCCAACGCAGTGCCGATACGCATCTGATCCCATTGCCGTTGGCCGGACTGCCGGGCATCGAGCTGTATTTCAAGGATGAGTCCAGCCATCCCACCGGCAGCCTCAAGCACAGACTGGCCCGCTCGCTGTTCCTGTATGCATTGTGCAATGGCTGGCTCAAGCCCGGTGCACCGGTGATCGAGGCCTCCAGCGGCTCGACGGCGATTTCCGAGGCGTATTTTGCGCGGTTGCTGGGCCTGCCTTTCATCGCGGTGATGCCTGCCACTACCTCCCGGGAAAAAATCGCCCAGATCGCCTTCTATGGTGGCCAGAGCCATCTGGTGGATGACCCTACGCAGATCTACGCCGAATCCGAACGCCTGGCCCGCGAGCATGACGGGCATTTCATCGACCAGTTCACCTACGCCGAGCGGGCCACGGACTGGCGGGCGAACAACAACATTGCCGAGTCGATTTTCCAGCAGATGCGCTTCGAGCGGCATCCGGAGCCAACCTGGCTGATCTCCAGCCCTGGCACGGGCGGTACAACGGCCACCTTGGGGCGCTACGTACGCTACCGCCAGCACAGTACCCGTGTGCTGTGTGCCGACGCCGAGCGTTCGGTATTTTTCGACTACTACCGCAGCGGCGATGCCAGCCTGCGCCTGGATTGCGGGTCGCGGATCGAGGGCATCGGTCGGCCACGGGTCGAAGCCTCGTTCCTGCCCAAGGTGATCGATGCGATGGTCAAGGTGCCGGACGCCCTGTCCCTCGCGGCCATGCACTACCTGGCCCAGCGACTGGGACGGCGGGTCGGCGGATCCAGCGGCACCAACCTGATCGGCGCGCTGATCGCCGCGAAGCGAATGGTGGAAGGCGGTGAGTCGGGGTCGATCGTGGCGATTCTGTGTGATGGCGGGGAGCGTTATGCCACGACGTATTACGATCCGGCGTGGCTCAAGGCCCAGGGGTATGAGTTGGACCCATTGATCGATGCGGTGGCGGCATGTGCGGAGCGCGGAGAAGCGCTGCCGGAGAGCGTGTTGCGGGCCAATATCTGA	MNNPRQWAREAIRIIEADFQRSADTHLIPLPLAGLPGIELYFKDESSHPTGSLKHRLARSLFLYALCNGWLKPGAPVIEASSGSTAISEAYFARLLGLPFIAVMPATTSREKIAQIAFYGGQSHLVDDPTQIYAESERLAREHDGHFIDQFTYAERATDWRANNNIAESIFQQMRFERHPEPTWLISSPGTGGTTATLGRYVRYRQHSTRVLCADAERSVFFDYYRSGDASLRLDCGSRIEGIGRPRVEASFLPKVIDAMVKVPDALSLAAMHYLAQRLGRRVGGSSGTNLIGALIAAKRMVEGGESGSIVAILCDGGERYATTYYDPAWLKAQGYELDPLIDAVAACAERGEALPESVLRANI	PGPT0002810_1090	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
D1-35_00261	1614			hypothetical protein	ATGTTACGAATCACCGAACTCAAGCTGCCGATCGACCATCCCGAAGAAGACTTGCGCCCTGCCATCGTGCAGCGGCTGGGCATCGCCAGCGATGACCTGCTCGACTTCACCCTGTTCAAGCGCAGCTACGACGCCCGCAAGAAATCCTCCGAGCTGTGCTTCATCTACACCATCGACCTGTCGGTGCGCGATGAAGCCGGTGTGCTGCGCAAGTTCGCCGATGACCGTAATGTCAACGAAGCGCCGGACATCAGCTACAAGGTGGTTGGCCAGGCACCGGCGGACTTGAGCGAGCGGCCGATCGTGGTCGGCTTCGGGCCGTGCGGCATCTTCGCCGCCATGCTGCTCGCGCAGATGGGCTTCAAGCCGATCATCCTTGAGCGCGGCCCGGAAGTACGCCAGCGCACCAAGGACACCTGGGGTCTGTGGCGTAAAAGCGTGCTCAATCCCGAGTCCAACGTCCAGTTCGGCGAAGGCGGCGCGGGGACATTCTCCGACGGCAAGCTCTACAGTCAGATCAAGGACCCGAAATTCCTTGGACGCAAGGTCCTGCATGAGTTCGTCAAGGCCGGGGCCCCCGAAGAAATCCTCTATGTCAGCAAGCCGCACATCGGTACGTTCCGTCTGACCGGCGTCGTCGAAAACATGCGTGAGCAGATTCGCGCCCTGGGCGGTGAAGTGCGCTTCGGCGAGCGAGTTACCGACGTCTTGTTCGAGGACAGCCAACTGGTTGGCGTCGAGCTGGCCAGCGGTGAGCAGATCCGTTCGAAACACGTGATCCTTGCCCTGGGCCATAGCGCCCGGGATACCTTCCGCATGCTCCACAGCCGTGGCGTGTACATGGAAGCCAAGCCGTTCTCGGTGGGTTTCCGTATTGAACATCCGCAATCGCTGATCGACAGCGCACGCCTGGGCAAGTACGCCGGCCACCCGAAACTCGGCGCCGCCGACTACAAGCTGGTGCACCACGCGAAGAATGGTCGCTCGGTGTACAGCTTCTGCATGTGCCCGGGCGGCACCGTGGTGGCGGCGACCTCCGAGCCGAACCGCGTCGTGACCAATGGCATGAGCCAATACTCGCGCAACGAGCGCAACGCCAACTCGGGCATCGTCGTCGGCATCACGCCGGAAGTGGATTATCCGGGTGGCCCGCTGGCGGGCATCGAGTTGCAGGAGCGCCTGGAATCCCACGCCTTCGTGCTGGGTGGCAGCAACTATGAAGCCCCCGCGCAACTGGTGGGTGATTTCATCGCCGGCAAGCCGTCCACGGCGCTGGGCAGCGTCGAACCGTCCTACAAGCCTGGGGTTGCCCTGGGCGACCTGGCCCTGGCTCTGCCGGATTTCGCCATCGAGGCCATCCGTGAAGCGCTGCCGGCGTTCGAGAAACAGATCCGTGGTTATTCGCTGCATGATGCGGTGCTCACCGGCATCGAGACCCGGACTTCATCGCCGCTGCGCATCACCCGCAACGAAACGCTGCAGAGCTTGAATGTGAAAGGCCTGTTCCCGGCTGGCGAAGGTGCCGGTTATGCCGGCGGGATCTTGTCGGCGGGCGTGGACGGGATCCGGATCGCCGAAGCGGTGGCGCGGGATATTCTTGGCTTGAACGACTGA	MLRITELKLPIDHPEEDLRPAIVQRLGIASDDLLDFTLFKRSYDARKKSSELCFIYTIDLSVRDEAGVLRKFADDRNVNEAPDISYKVVGQAPADLSERPIVVGFGPCGIFAAMLLAQMGFKPIILERGPEVRQRTKDTWGLWRKSVLNPESNVQFGEGGAGTFSDGKLYSQIKDPKFLGRKVLHEFVKAGAPEEILYVSKPHIGTFRLTGVVENMREQIRALGGEVRFGERVTDVLFEDSQLVGVELASGEQIRSKHVILALGHSARDTFRMLHSRGVYMEAKPFSVGFRIEHPQSLIDSARLGKYAGHPKLGAADYKLVHHAKNGRSVYSFCMCPGGTVVAATSEPNRVVTNGMSQYSRNERNANSGIVVGITPEVDYPGGPLAGIELQERLESHAFVLGGSNYEAPAQLVGDFIAGKPSTALGSVEPSYKPGVALGDLALALPDFAIEAIREALPAFEKQIRGYSLHDAVLTGIETRTSSPLRITRNETLQSLNVKGLFPAGEGAGYAGGILSAGVDGIRIAEAVARDILGLND				NA	NA	NA	NA	NA
D1-35_00262	678			hypothetical protein	ATGATGCGTGCCGCCCGTTCCCTGTTGTGTATTGCCTCGCTTGCGCTTTTCGCCGGCTGCCAGTTGCTCGACGCCCCGCGCCAGAGCGCCTCCCATGCCGGCCAGACGCGCATGCAGGGCGAACTCACGGCGGCCGATGGCAAGCTGGTGTTCCAGCCGTGTCAGGAACAGCGCCGCTACATCGTCAACGACACCGGCGGCACCAGTGTGCTGCAACAAGCCGCCACCCTGGCGGATGATCGCGGCAAACTCTTCGCCGATCTGCGCGGGCGTATCGTTTCCAGCGCGGCGGCCGGCACCGACAGCCAGCTGGACGTCGAGCAGCTGTATCGCCTGGAACGCTCCGGGACCGCTTGCGATGATGTTGACTTCAAACGGGTGATTCTGCGGGCAGCGGGACATGCCCCTGAATGGACACTCAAGGCCAGCGGCAAGGGCCTGGTCCTGGATCGCCAAGGGCAGCCGCCGCTGGCGGTGCCTTACGTCGAGGAGCAGTTGGGCGATGGCCGCTTCAACCTCGGCACCGAGGCCAACGGCCAGAAGGTCGAGTTGTGGGTCACGCCGCAACGCTGCGTCGACAGCACCAGTGGCAGCGTGCAGCACATGAGCGCCGAGTTGCGGGTCAACGGTCAGGTCCAGCGCGGTTGCGCCTACTTTGGTGGCGCGCGCGACGACTGA	MMRAARSLLCIASLALFAGCQLLDAPRQSASHAGQTRMQGELTAADGKLVFQPCQEQRRYIVNDTGGTSVLQQAATLADDRGKLFADLRGRIVSSAAAGTDSQLDVEQLYRLERSGTACDDVDFKRVILRAAGHAPEWTLKASGKGLVLDRQGQPPLAVPYVEEQLGDGRFNLGTEANGQKVELWVTPQRCVDSTSGSVQHMSAELRVNGQVQRGCAYFGGARDD				NA	NA	NA	NA	NA
D1-35_00263	600			hypothetical protein	ATGAAAATCCTGTTGATCGGCGCCAACGGAACCATCGGTTCGGCCATCGCTAACGAGTTGTCGCCCCGTCATGAAATTGTCCGTATCGGCCGCCACAGCGGTGATGTGCAAGTGGATATCAGCGACAGCGCCTCGATCCGCGCCCTGTTCGAAAAAACCGGCCGCTTCGATGCCTTGGTTTGTGCGGCGGGCAACGTCACTTTCGCGCCGCTGGGCGACATGACCGAAGAAAGCTTCGCCCTCGGCTTGAAAGACAAGTTGATGGGTCAGGTCAATCTTGTATTGATCGGCCGCGAATTCGCCAATGACGGTGCATCCTTTACCCTCACCACCGGCGTACTCAGCCACGACCCGATCAAGAGCGGCGCCTCGGCGGCCCTGGTGAACGGCGCCCTCGACAGTTTTGTGCGCGCTGCGGCAATCGAGCTGCCCCGGGGCCTCAGGCTCAACTCGGTAAGCCCGAACGTATTGCGGGAAGCGATGGACAAATATGCGCCGTACTTCCGCGGCTACAAGCCGGTTCCTGCGGCTGAAGTGGCATTGGCCTACGCCAAGAGCGTCGAAGGCCTGCAAACCGGGCAGACTTTTCACGTCGGCTGA	MKILLIGANGTIGSAIANELSPRHEIVRIGRHSGDVQVDISDSASIRALFEKTGRFDALVCAAGNVTFAPLGDMTEESFALGLKDKLMGQVNLVLIGREFANDGASFTLTTGVLSHDPIKSGASAALVNGALDSFVRAAAIELPRGLRLNSVSPNVLREAMDKYAPYFRGYKPVPAAEVALAYAKSVEGLQTGQTFHVG				NA	NA	NA	NA	NA
D1-35_00264	909	dmlR_2		HTH-type transcriptional regulator DmlR	ATGAGCGAGATCGATGATCTGGCAGCGTTTGCCGTGCTGGTCGAGGCCGGTAGTTTTACCCTGGCGGCGCAGCGGTTGGGATGCAGCAAGGGGCAACTGTCCAAGCGCATCAGCCTGCTGGAGGAGCGGTTTTCAGTGATCCTGCTCCAGCGCACGACTCGACGCCTGAGCCTGACGGCGGCGGGTGCGGCACTGTTGCCCCAGGCCCAGGCCTTGTTGGTGCAGGTGGAAAGGGCGCGTCAGGCGTTGGCCCGCTTGAAGGGTGAAATTTCCGGGCCGGTGCGGATGACAGTACCGGTTTCGTTGGGCGAAACCTTTTTTGAAGGCCTGCTGACCGAGTTCGCTCTCGCCTACCCCGACGTGCAGATCGAGCTGGAGCTCAATAACGGTTACCGCGATTTATCGCGCGATGGGTTTGATCTGGCGATCCGCTCGGATGCGGCGATCGACGAGCGGTTGGTGGCTCGCCCGCTGCTGGCCTGGCATGAACTGACCTGCGCCAGCCCGGCCTATCTGGAACGCTTCGGTGAGCCCGCGGTTCCCCAGGCCCTGGCGGAGCACAAATGCCTGCTCAACAGTCACTACAGTGGTCGTGAGGAGTGGTTGTATCACCAGCAACATGAATTGCTGCGGGTGCGGGTGTCCGGGCCGTTTGCCAGCAACCATTACAGCCTGTTGAAAAAAGCCGCCCTGGCCGGCGCTGGAATCGCCCGTCTGCCGTCGTATCTGCTTGACCAGGAACTGGCCGACGGCCGCCTGCGCTGGTTGCTGCGCGACTTTCAGACCCGTCGCATGCCGATGTACCTGGTGCATCCATATCAGGGCGGGTTGCCCAAGCGTACGCAGGTGCTGGCTGATTATCTGATTGAATGGTTCAAACGCAGCGGGGAGGCGCTGGATCGTCTTTAG	MSEIDDLAAFAVLVEAGSFTLAAQRLGCSKGQLSKRISLLEERFSVILLQRTTRRLSLTAAGAALLPQAQALLVQVERARQALARLKGEISGPVRMTVPVSLGETFFEGLLTEFALAYPDVQIELELNNGYRDLSRDGFDLAIRSDAAIDERLVARPLLAWHELTCASPAYLERFGEPAVPQALAEHKCLLNSHYSGREEWLYHQQHELLRVRVSGPFASNHYSLLKKAALAGAGIARLPSYLLDQELADGRLRWLLRDFQTRRMPMYLVHPYQGGLPKRTQVLADYLIEWFKRSGEALDRL				NA	NA	NA	NA	NA
D1-35_00265	702	livF_1	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGCTGCAGTTCGAAAACGTTTCCACCTTCTACGGCAAGATCCAGGCGCTGCACAGCGTCAACGTCGAGGTCCGCCAAGGCGAAATCGTCACGCTGATCGGTGCCAACGGTGCCGGCAAGTCCACACTGCTGATGACACTCTGCGGTTCGCCGCAGGCCCACAGCGGCAGCATCCGCTACATGGGTGAGGAACTGGTGGGCCAGGACTCGGCGCAGATCATGCGCAAGAGCATCGCCGTGGTGCCTGAAGGCCGTCGGGTATTTGCCCGGCTGACCGTGGAAGAAAACCTCGCCATGGGCGGTTTTTTTACCGACAAGGGCGACTTTCAGGAACAGATGGACAAGGTGCTGCACCTTTTCCCACGCCTGAAAGAGCGTTTTACCCAGCGCGGCGGCACCATGTCCGGCGGCGAACAGCAGATGCTCGCCATCGGTCGTGCACTGATGAGCAAGCCCAAGCTGCTGCTGCTCGACGAGCCGTCGCTGGGCCTGGCGCCGATCATCATCCAGCAGATCTTCGACATCATCGAACAGCTGCGCAAGGATGGCGTGACGGTGTTCCTGGTGGAGCAGAACGCCAACCAGGCGCTGAAGATCGCTGACCGGGCGTACGTGCTGGAGAATGGTCGCGTGGTGATGCAAGGCACCGGTGAAGCACTGCTGACCGACCCGAAAGTGCGCGAGGCGTACCTGGGCGGTTGA	MLQFENVSTFYGKIQALHSVNVEVRQGEIVTLIGANGAGKSTLLMTLCGSPQAHSGSIRYMGEELVGQDSAQIMRKSIAVVPEGRRVFARLTVEENLAMGGFFTDKGDFQEQMDKVLHLFPRLKERFTQRGGTMSGGEQQMLAIGRALMSKPKLLLLDEPSLGLAPIIIQQIFDIIEQLRKDGVTVFLVEQNANQALKIADRAYVLENGRVVMQGTGEALLTDPKVREAYLGG	PGPT0020785_8762	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
D1-35_00266	768	lptB_1	COG1137	Lipopolysaccharide export system ATP-binding protein LptB	ATGAGCCGCGAGATCCTGAAAGTCGAAAATCTGAGCATGCGCTTCGGCGGCTTGCTGGCGGTCAACGGCGTGGCCCTGACCGTTAAAGAGAAACAAGTGGTTGCCTTGATCGGGCCGAACGGCGCGGGCAAGACCACCGTGTTCAACTGCCTGACCGGTTTCTACCAGCCTACCGGCGGCACCATCCTGCTGGACGGCGAGCCGATCCAGGGCCTGCCCGGTCATCACATTGCCCGCAAGGGCGTGGTGCGGACCTTCCAGAACGTGCGGCTGTTCAAGGACATGACGGCGGTCGAAAACCTGCTGATCGCCCAGCATCGTCACTTGAACACCAACTTCTTTGCCGGTCTGTTCAAGACCCCGGCGTTCCGCAAGAGCGAACGCGAGGCCATGGAGTACGCCGAGTACTGGCTGGACAAGGTCAACCTCACCGAGTTCGCCAACCGTACCGCCGGGACCCTGGCCTACGGTCAGCAACGGCGCCTGGAAATCGCCCGCTGCATGATGACCCGTCCGCGGATCCTCATGCTCGACGAACCGGCCGCCGGCCTGAACCCGAAGGAAACCGAAGACCTGAAGGCGCTGATCAGCGTGCTGCGCGAGGAGCACAACGTGACCGTGCTGCTGATCGAGCATGACATGAAGCTGGTCATGAGCATTTCCGACCACATCGTCGTGATCAACCAGGGCACGCCCCTGGCCGACGGTACGCCGGAACAGATCCGCGACAATCCTGAAGTGATCAAAGCCTACCTGGGGGAAGCGTAA	MSREILKVENLSMRFGGLLAVNGVALTVKEKQVVALIGPNGAGKTTVFNCLTGFYQPTGGTILLDGEPIQGLPGHHIARKGVVRTFQNVRLFKDMTAVENLLIAQHRHLNTNFFAGLFKTPAFRKSEREAMEYAEYWLDKVNLTEFANRTAGTLAYGQQRRLEIARCMMTRPRILMLDEPAAGLNPKETEDLKALISVLREEHNVTVLLIEHDMKLVMSISDHIVVINQGTPLADGTPEQIRDNPEVIKAYLGEA	PGPT0020780_6447	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
D1-35_00267	1257			hypothetical protein	ATGACTAGGCATCTCAAATCGGCGCTCTTCAGCGCCCTGCTGGTCTGGGCCGTGGCCTATCCGGTACTCGGTCTCAAACTGACCATCGTTGGTATCAACCTGGAAGTGCACGGCACCAGCCCGACCATCCTGGCGACCATCGCCGTATGTTCCGTCCTGATGTTCCTGCGGGTGCTGTTCAGCACGCAGATCAGTGCGGCGTGGAAAGCGTCGCCCGGCGTGCCGGTGATCCCGGCCAAGGCCAGCAACTTCCTGACCCTGCCGTCGACCCAGCGCTGGATCGTCCTGGGCCTGATCGTCGTGGCCCTGGTATGGCCGTTCTTCGGCTCTCGCGGCGCGGTGGACATCGCCACGCTGATCCTGATCTACGTGATGCTCGGCCTCGGTCTGAACATCGTCGTGGGCCTGGCCGGCCTGCTGGACCTGGGTTATGTCGGCTTCTACGCCGTCGGGGCCTACAGCTACGCGCTGCTGTCGCACTACTTCGGCCTGAGCTTCTGGATCTGCCTGCCGATCGCCGGAATGATGGCCGCCACCTTCGGTTTTCTGCTGGGGTTCCCGGTCCTGCGCTTGCGCGGCGACTACCTGGCGATCGTGACCCTGGGTTTTGGCGAGATCATCCGTCTGTTCCTGCGCAACCTGACCGACATCACCGGCGGCCCGAACGGCATCAGCAACATCGAGAAGCCGACGTTCTTCGGCCTGACCTTCGAACGTAAAGCCGCCGAAGGCCTGCAGACCTTCCACGAGTACTTCGGCCTGCAATACAACTCGATCAACAAGGTGATCTTCCTCTACCTGGTTGCCTTGTTGCTGGCCCTGGCCGCGTTGTTCGTCATCAACCGCCTGCTGCGCATGCCGATCGGCCGTGCGTGGGAAGCCTTGCGCGAAGACGAAATCGCCTGCCGTGCGCTGGGTCTCAACCCGACCGTGATCAAGCTTTCGGCCTTTACCCTGGGTGCTGCGTTCGCCGGTTTCGCCGGTAGCTTCTTCGCCGCTCGCCAAGGCCTGGTGACGCCCGAGTCCTTCACCTTCATCGAGTCGGCGATCATCCTCGCCATCGTTGTGTTGGGCGGGATGGGCTCGCAGTTGGGTGTGATCCTGGCGGCGATCGTGATGATCCTGCTGCCCGAAATGATGCGTGAATTCAGCGAATACCGCATGTTGATGTTCGGCGCCTTGATGGTGCTGATGATGATCTGGCGTCCTCAAGGTCTGCTGCCTATGCAACGCCCGCACATGGAGCTGCGCAAATGA	MTRHLKSALFSALLVWAVAYPVLGLKLTIVGINLEVHGTSPTILATIAVCSVLMFLRVLFSTQISAAWKASPGVPVIPAKASNFLTLPSTQRWIVLGLIVVALVWPFFGSRGAVDIATLILIYVMLGLGLNIVVGLAGLLDLGYVGFYAVGAYSYALLSHYFGLSFWICLPIAGMMAATFGFLLGFPVLRLRGDYLAIVTLGFGEIIRLFLRNLTDITGGPNGISNIEKPTFFGLTFERKAAEGLQTFHEYFGLQYNSINKVIFLYLVALLLALAALFVINRLLRMPIGRAWEALREDEIACRALGLNPTVIKLSAFTLGAAFAGFAGSFFAARQGLVTPESFTFIESAIILAIVVLGGMGSQLGVILAAIVMILLPEMMREFSEYRMLMFGALMVLMMIWRPQGLLPMQRPHMELRK	PGPT0020775_2716	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
D1-35_00268	924	livH_1	COG0559	High-affinity branched-chain amino acid transport system permease protein LivH	ATGCCTGACATCTATCACTTCTTCCAGCAGCTGGTTAACGGCCTGACCGTTGGCAGCACGTATGCCCTGATCGCCATCGGCTATACGATGGTCTACGGCATCATTGGAATGATCAACTTCGCCCACGGCGAGGTGTACATGATCGGCTCCTACGTGGCGTTCATCGCCATCGCCGGGCTGGCCATGATGGGACTCGACAGTGTCCCGCTGTTGATGACCGCAGCTTTCATCGCGAGCATCGTGGTTACCAGTTCCTATGGCTACAGCATCGAACGGATCGCCTACCGCCCGCTGCGCGGCAGCAACCGTCTGATCCCGCTGATTTCCGCCATCGGTATGTCGATCTTCCTGCAGAACACGGTACTGCTTTCGCAAGACTCCAAGGACAAATCCATTCCCAACCTGATTCCGGGCAACTTCGCCATCGGGCCAGGCGGGGCACATGAAGTGCTGATTTCCTACATGCAAATCGTGGTGTTCGTGGTGACCCTGGTCGCCATGCTCGGCCTGACGCTGTTCATCTCCCGTTCCCGCCTGGGCCGCGCCTGCCGCGCCTGCGCCGAGGACATCAAGATGGCCAACCTGCTGGGCATCAACACCAACAACATCATCGCCCTGACCTTCGTCATCGGTGCGGCCCTGGCGGCCATCGCCGCGGTGCTGTTGAGCATGCAATACGGCGTCATCAACCCCAACGCCGGTTTCCTCGTGGGCCTGAAAGCCTTTACCGCCGCGGTGCTCGGCGGCATCGGCAGCATCCCCGGCGCGATGCTCGGCGGCTTGGTGCTGGGCGTGGCGGAAGCCTTTGGCGCCGACATCTTCGGCGACCAGTACAAGGACGTCGTGGCGTTCGGCTTGTTGGTTCTGGTTCTGTTATTCCGGCCGACCGGCATCCTGGGCCGTCCGGAGGTTGAGAAAGTATGA	MPDIYHFFQQLVNGLTVGSTYALIAIGYTMVYGIIGMINFAHGEVYMIGSYVAFIAIAGLAMMGLDSVPLLMTAAFIASIVVTSSYGYSIERIAYRPLRGSNRLIPLISAIGMSIFLQNTVLLSQDSKDKSIPNLIPGNFAIGPGGAHEVLISYMQIVVFVVTLVAMLGLTLFISRSRLGRACRACAEDIKMANLLGINTNNIIALTFVIGAALAAIAAVLLSMQYGVINPNAGFLVGLKAFTAAVLGGIGSIPGAMLGGLVLGVAEAFGADIFGDQYKDVVAFGLLVLVLLFRPTGILGRPEVEKV	PGPT0020770_3150	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
D1-35_00269	1128	braC_1	COG0683	Leucine-, isoleucine-, valine-, threonine-, and alanine-binding protein	ATGACTAAGGCTACTAAGCAGATTTCCAAACTGTTTGCCGCTATGGTTCTGGCCGGGGTTGCCAGCCATTCGTTCGCCGCCGACACCATCAAGATCGGCATCGCCGGCCCGAAAACCGGCCCTGTAGCCCAATACGGCGATATGCAGTTCAGTGGCGCGAAAATGGCCATCGAACAGATCAACGCCAAGGGTGGCGTCGACGGCAAGCAACTGGTCGCCGTTGAATACGACGACGCCTGTGATCCAAAACAAGCGGTCGCGGTCGCGAACAAAGTCGTCAACGACGGCATCAAGTTCGTGGTCGGCCACCTGTGCTCCAGCTCCACCCAGCCCGCTTCCGACATCTACGAAGACGAAGGCGTGATCATGATCACTCCGGCGGCTACCAGCCCGGACATCACCGCTCGCGGCTACAAGATGATCTTCCGTACCATCGGCCTGGACAGCGCCCAAGGCCCTGCGGCCGGCAACTACATCGCCGACCACGTCAAGCCGAAAGTCGTTGCGGTCCTGCACGACAAGCAGCAGTACGGTGAAGGCATCGCCAGCGCCGTGAAGAAAACCCTCGAAGGCAAAGGCGTGAAAGTGGCCGTCTTCGAAGGCGTGAACGCCGGCGACAAAGACTTCTCCTCGATGATCGCCAAGCTCAAGCAAGCCAACGTCGACTTCGTCTACTACGGCGGCTACCACCCGGAGCTGGGCCTGATTCTGCGTCAAGCCCAGGAAAAAGGCCTGAAAGCCAAGTTCATGGGTCCGGAAGGCGTGGGTAACGATTCCATCTCGCAAATCGCCAAGGAATCCTCCGAAGGCCTGCTGGTGACCCTGCCGAAATCCTTCGACCAGGATCCGGCCAACGTCGCCCTGGCTGACGCGTTCAAGGCCAAGAAAGAAGACCCGAGCGGTCCGTTCGTATTCCCGTCCTACTCCGCTGTGACCGTGATCGCCGACGCGATCAAGGCTGCCAAGAGCGAAGACGCGACCAAAGTGGCTGAAGCCATCCACGCCGGCACTTTCAAGACGCCAACCGGTGACTTGAGCTTCGACGACAAGGGCGACCTGAAGGACTTCAAGTTCGTGGTTTACGAGTGGCATTTCGGCAAACCTAAAACCGAAGCTTCGCCTCAGTAA	MTKATKQISKLFAAMVLAGVASHSFAADTIKIGIAGPKTGPVAQYGDMQFSGAKMAIEQINAKGGVDGKQLVAVEYDDACDPKQAVAVANKVVNDGIKFVVGHLCSSSTQPASDIYEDEGVIMITPAATSPDITARGYKMIFRTIGLDSAQGPAAGNYIADHVKPKVVAVLHDKQQYGEGIASAVKKTLEGKGVKVAVFEGVNAGDKDFSSMIAKLKQANVDFVYYGGYHPELGLILRQAQEKGLKAKFMGPEGVGNDSISQIAKESSEGLLVTLPKSFDQDPANVALADAFKAKKEDPSGPFVFPSYSAVTVIADAIKAAKSEDATKVAEAIHAGTFKTPTGDLSFDDKGDLKDFKFVVYEWHFGKPKTEASPQ	PGPT0020765_12866	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
D1-35_00270	306			hypothetical protein	ATGAATCAAGAACCTAGCACCCTCTATGCCAAATTGCTCGGTGAAACCGCATCCATTACCTGGAAGGAGCTGGAACCGTTCTTTGCCAAGGGTGCCCTATTGTGGGTCGATCCGGCACTGGATCTGATCGCCGCCGCCGAGGCCATTGCCGAGGACGAAGGTACCAAAGTCGCCGCCTGGCTGGCCGGCGGGCAGCTCGCCAAGCTGTCTGAAACGCGGGCGCTGGATTTTCTCGAGCGTGATCCGCTGCTGTGGGCCGTGGTGGTTTCGCCGTGGATAATGGTCCAGGAAAGGGCGTCGAATTGA	MNQEPSTLYAKLLGETASITWKELEPFFAKGALLWVDPALDLIAAAEAIAEDEGTKVAAWLAGGQLAKLSETRALDFLERDPLLWAVVVSPWIMVQERASN				NA	NA	NA	NA	NA
D1-35_00271	2175			hypothetical protein	ATGACCTCCAAAAAAACAGCCACTGCGGTTTCCGATCTGACCCTGAGCCCGGCCGCCAACGGCGCGGACGCCTCGGCGCTGTCGAGCAGCTCGCGATCCCTGGCGACCCAGCAATATCTGTATTTCACCGAGACCAACACCGACCGCATCCTCGACAACCTCGATGGCCTGCGTGATGCCGTATTCCCCCGCCCGCCGCACCTGGTGGATGACGAGAGCGAACGTGGCCAGCAGGAATTCCCCTCGGTGTGCCTGATCGGCCTCGGGCGCTGCGGCTCCAACATCGCCCTGGACGTAGCGGAACTGGTCTACAACGCGCGCAAGTTCTATCTCAACGAATTCAACGCCGAAGACAAGCACTACGGTGACAAGGGCTATCGCCCCGCGCAGTGGATGCGCAACCTGCGCCTGGGGACCAGCAAGGCCAGCAAACCGGTGTTCCTGGTGGAACCGCTGGTCATGCTCGGCGACCTGGACAAAGACATCGCCGGGCGTATCCGGTTTTCCCGCAAGGGCGAAAAAAGCGGGTTCTTGCGCGACTACAGCAAAATGAAAATCATGGACCTCTCCGAAGTCCACGCCGGTGGTGCCGGTAACGCGCCGATCCTCGGCCAGTACCTGGCGAAGATCATCCTGAACAAGGACACCCAGCGCTTCTCCAGCCCCGACTGGAAAATGATCCACTCGTACCTGATCGATAGCTGCGGCATCAAGGCCAACCAGTCGCGCCTGTACTTCTCGATCTTCAGCGCCGGCGGCGGTACCGGTTCGGGCATGGCTTCGGAGTTCGGCCTGGCCCAGCAGTACTCGTACATGAACAAGACGTTCGACACCAAGCCGATGGACGAACACGACAGCAAGAGCGGTCATTCCTTCGTCTTCGAACCGATTTTCACCAGCGGCATCTGCGTGCTGCCGAACATTTCCGATCACCGCAGTGAAATGTCCGAGGCGCTGCACATCAACGCCGGACGGCTGCTGTGCAAATACCTCTCGGAAGAATGGGATTTCTCGTACAACTTCGCCAACGAAGACAGCAGCGAAGCCAGCGTCATGGGCCGTATCCGGCCATGGAACGCGATGATGCTGATCTCCAACGACATCATGCGCTACGCCGAAGAAAGCGATGACGGCAACATCCAGAACATTGATGTCAATGCCATGGAAAAGCACGCCAACCAGTACATTTCCCAACAGATCTTCAACATCCTCACGGCCCAGGCCGTGACCACCGACTACGACCAGAACTACTTCCGGCGCGCCGGCATCGACATCGGCGAAACCATTCGCCTGGATGCCAACGACCTGTTCATGAGCCTGGCCGGCCCGGTGGCGATTGCCTACGCTGAATCCGTCGTTCCGGAAACCCCGGCGCCGAGCGGCGACAAGTTCAAGGTGTTCGAAAAGGAGCCGCCGCGCCTGAACATCGATGACCTGTTCTTCCGCTCCATCGACCTGCCGCACTTCAACAAGGTCACCCAGGCCATCGAAGGCATCAGCCTGTTGCCGATCGAGTCCAAGCGTTACCGGGCCTCGCTGGAGCAATACAAGAATTCCGGCTATGACGCCGCCGCCCTGCACGACCTGCACTTCTTCAAGAACTGCTCGTCGGTGGTGTCGATCGTCTCGCTGCCCAAGGACTACAAGCTGTCCTACATGGACCTGAACCGGCTCAAGACCCACCTCAACAGCCTGTTCCCGAACACCACGCTCAAGCGCTATGCGCTGGTGATCGGCGCCTCGGCCAACTTGTCGCTGACTACCCTGATCGCCAAGAGCCCGTGCCTGTCGGATGACTTCCTGACCCTGATCGTGGCGTTCATCAAGCGCTGCTTTGCCCGCACGCCGTATCGCTTCGACGAGACCCTGGACAACTCGATCCTGGACTTCATCATCAATGAAGAGTTCGATGAAGGACGCATCGATGAGTTGCTCAACGAATTCGAGAACCCGGCGAAGATCCTCGACACCAACTGGTACGCGATCAAGCCGATGTACGAGAAGAAGTACCGCGAGCTGATCAGCGACAAGGACAAGTTTGTCTCGATCAATGACATCCGGCTGTCCCGCGACTGCGTGAAGAAGTCGATCAAGTACCTGCGCGAGATCTACCGTCACCGGATCGGCAAGACCAAGGTTATTTCGCTGAATAACCATACTGGCAAGAGTTACTGA	MTSKKTATAVSDLTLSPAANGADASALSSSSRSLATQQYLYFTETNTDRILDNLDGLRDAVFPRPPHLVDDESERGQQEFPSVCLIGLGRCGSNIALDVAELVYNARKFYLNEFNAEDKHYGDKGYRPAQWMRNLRLGTSKASKPVFLVEPLVMLGDLDKDIAGRIRFSRKGEKSGFLRDYSKMKIMDLSEVHAGGAGNAPILGQYLAKIILNKDTQRFSSPDWKMIHSYLIDSCGIKANQSRLYFSIFSAGGGTGSGMASEFGLAQQYSYMNKTFDTKPMDEHDSKSGHSFVFEPIFTSGICVLPNISDHRSEMSEALHINAGRLLCKYLSEEWDFSYNFANEDSSEASVMGRIRPWNAMMLISNDIMRYAEESDDGNIQNIDVNAMEKHANQYISQQIFNILTAQAVTTDYDQNYFRRAGIDIGETIRLDANDLFMSLAGPVAIAYAESVVPETPAPSGDKFKVFEKEPPRLNIDDLFFRSIDLPHFNKVTQAIEGISLLPIESKRYRASLEQYKNSGYDAAALHDLHFFKNCSSVVSIVSLPKDYKLSYMDLNRLKTHLNSLFPNTTLKRYALVIGASANLSLTTLIAKSPCLSDDFLTLIVAFIKRCFARTPYRFDETLDNSILDFIINEEFDEGRIDELLNEFENPAKILDTNWYAIKPMYEKKYRELISDKDKFVSINDIRLSRDCVKKSIKYLREIYRHRIGKTKVISLNNHTGKSY				NA	NA	NA	NA	NA
D1-35_00272	93			hypothetical protein	ATGAAGGGGCAAAATGATGGCATTTCCTACAGAAAAATGACCGTTGTCATGGATGCGCCATTCACCATGGTCGGGTATCAGCCGCGCGAATGA	MKGQNDGISYRKMTVVMDAPFTMVGYQPRE				NA	NA	NA	NA	NA
D1-35_00273	1350	sotB_1		sugar efflux transporter	ATGCAGAACTCGACCCAAGCGGCGAATGCCTGGCGCATTCTGTTCCTGCTGTTCCTGGCCAACCTGTTCAACTTTTTCGACCGCACCATCCCAGCGATCATCATCGAGCCGATCCGCATGGAGTGGAGCCTCAGCGATTTTCAGATCGGCATCATCGGTACCGCCTTCACCATCGTCTATGCCATCGCGGGCCTGCCATTGGGACGCATGGCCGATACCGGTTCGCGCAGCAAACTGATGGGCTGGGGCCTGGCGGCCTGGAGTGGGCTGACGGCGGTAAACGGCCTGGTGGGCAGTTTCTGGGCGTTCCTGGTGGTGCGCATGGGCGTGGGCATCGGTGAAGCCAGTTATGCGCCGGCGGCCAACTCGTTGATCGGCGACCTGTTCCCGGCGCACCGTCGGGCTCGGGCGATGGGCATTTTCATGCTGGGACTGCCGCTGGGCCTGCTGCTGGCGTTTTTTACCATTGGCGCGATGGTCAAGGCGTTCGACAGCTGGCGCGCGCCGTTCTTCATTGCGGCGGTGCCGGGCCTGGTGCTGGCGGTGTTCATGTTTTTCATCAAGGAACCCAAGCGCGGCGCGGCGGAAACCGTGGCGGTGTCCCAGGAAAAGGTCGACAAGCCGATTCGCCGGTTGCTGGCGATTCCGACCTTTCTCTGGCTGATCCTGGCGGGTCTGTGCTTCAACTTCGCCACCTATGCCTGCAACTCCTTCCTGGTGCCGATGCTGCAGCGCTATTTCGGGATGCCGCTGCACGAGGCGGCTGTGGCGACCGGGATCATGGTCGGTGTGACCGGGTTGTTCGGGTTGACCCTTGGCGGCTGGGTGGCCGACAAGATTCACCAGCGCGTGCCCAATGGCCGGTTGTTGTTCGCGGCGTTCAGCCTGGCGATTTCCACGGTGACTACCGCTTGGGCCCTGCATGCCGGGCGCATCGAAATCGGCATTTTTGTCGCCGTGTTCAGCGTCGGCTGGCTGTTTGCCTATAACTTCTACACCTGCGTCTACACCGCGATCCAGGACGTGGTGGAGCCGCGCCTGAGGGCCACGGCGATGGCGTTGTATTTTGCCGGGCTGTATCTGCTCGGCGGTGGCCTGGGGCCGGTGGTGGTCGGCGGCTTGTCCGACTACTTCGCCCACACGGCCATGGCGGCCGCAGGCGCCCCGCAGATGACCGAAGCGTTCAAGGCGATCGGCCTGCATGACGCGATGTACCTGATCCCGGTGGCGCTGCTGTTGACCATGGTGTTCCTGTTCCTGGCCTCTCGCTGCTTCGTGCGCGATGCCAAGCGGATGAAGGAAGGGATGAGCGCGGTGGTGGTGCCCGAAGGTGTCGTGGGGGCGGCCTAA	MQNSTQAANAWRILFLLFLANLFNFFDRTIPAIIIEPIRMEWSLSDFQIGIIGTAFTIVYAIAGLPLGRMADTGSRSKLMGWGLAAWSGLTAVNGLVGSFWAFLVVRMGVGIGEASYAPAANSLIGDLFPAHRRARAMGIFMLGLPLGLLLAFFTIGAMVKAFDSWRAPFFIAAVPGLVLAVFMFFIKEPKRGAAETVAVSQEKVDKPIRRLLAIPTFLWLILAGLCFNFATYACNSFLVPMLQRYFGMPLHEAAVATGIMVGVTGLFGLTLGGWVADKIHQRVPNGRLLFAAFSLAISTVTTAWALHAGRIEIGIFVAVFSVGWLFAYNFYTCVYTAIQDVVEPRLRATAMALYFAGLYLLGGGLGPVVVGGLSDYFAHTAMAAAGAPQMTEAFKAIGLHDAMYLIPVALLLTMVFLFLASRCFVRDAKRMKEGMSAVVVPEGVVGAA				NA	NA	NA	NA	NA
D1-35_00274	1536	bmr3		Multidrug resistance protein 3	ATGCCCGCAGGTCCAGCCTTGAATCAGCTCGATACGCCTCAAGTCCCGCAACCCGCCATCCGCAGCGTGCTGGTGGCGCTGATGCTGGCGATTTTCCTCGGGGCGTTGGACCAGACCATCGTCGCCGTTTCGATGCCGGCGATTTCCGCGCAATTCAAGGATGTCAGCCTGCTGGCCTGGGTGATCTCCGGCTACATGGTCGCGATGACCGTTGCGGTGCCGATCTACGGCAAACTGGGCGACCTGTACGGCAGGCGGCCATTGATGCTGTTCGGCATGGGCCTGTTCACGCTCGCCTCGCTGTTCTGCGGCCTGGCGCAGGACATGCAGCAACTGGTACTGGCGCGGATTTTCCAGGGCATCGGCGCTGGCGGGATGATCTCCGTGAGCCAGGCGATCATCGGCGACATCATCCCGCCCAGGGAACGTGGCCGTTATCAGGGCTACTTCAGCAGCATGTATGCAGTGGCCAGCGTCGCCGGGCCGGTGCTGGGCGGCTACATGACCGAATACCTGTCCTGGCGCTGGGTGTTCTGGATCAACCTGCCGCTGGGCCTGGGCGCCTGGCTCGTGGCCCGGCGCACGCTGGTGGGGCTGCCGGTGCCGCAACGCACACCCATCATCGACTACTTGGGCACCGTGTTGCTGATCATCGGCCTGACTGCCTTGCTGCTGGGCATTACCCAGGTGGGCCAGGGCCACGCCTGGCACAGCCGCGAAGTGCTCGGGCTGCTCGGTGGCGCCGTGGTCGTGCTGGGGGTATTCGCCTGGCATGAGCGCCGCGCCCGGGAGCCGCTGCTGCCCATGCACCTGTTCGTCAACCGCAGCGCGGTGCTGTGCTGGTGCACGGTGTTCTTCACCAGTTTCCAGGCGATCTCGCTGACGGTGCTGGTGCCGTTGCGCTTCCAGAGCGTGACCGGCGCCGGGGCCGACAGTGCCGCACTGCATCTGCTGCCACTGGCGATGGGCCTGCCGATGGGCGCCTATTTCGCCGGACGGCGCACCTCGATCACCGGTCGCTACAAACCGATGATCCTCAGTGGCGCCCTGCTCTTCCCGTTCGCCGTCCTCGGCATGGCCTTCACCCCGCCCGCGGCATTCTGGCTCAGCAGCCTGTTCATGCTGCTTGGCGGCATCGCGTCCGGCATGCAATTTCCCACCTCGCTGGTGGGTTCGCAGAATTCGGTGCAGCAACGGGACATCGGCGTGGCCACCAGCACCACCAACCTGTTCCGCTCACTGGGCGGCGCGGTCGGCGTGGCATTGATGTCGGCGTTGCTGCTGGCGCTGTTGCAGGACTCGGGTTTCGCCCAGCTCGCCGGTTCGTCAGTGATCGGCGAAGGGCATTCCGGCAACGTGCTGCTCGACGGCCTGAACGCCGCGCCGGGCGCGGCACGGGACGCCTTGCGCGAGGAGCTGCAAACGACATTCCGGCATTTGCTGATGATCAGCGCAGCGGTGTCGTTGCTGGGGTTGGCGGCGGCGCTGGCAATGCCCGACTGCCTGTTGCGCGGGCGAGAAGAAAAAACTCGCTAG	MPAGPALNQLDTPQVPQPAIRSVLVALMLAIFLGALDQTIVAVSMPAISAQFKDVSLLAWVISGYMVAMTVAVPIYGKLGDLYGRRPLMLFGMGLFTLASLFCGLAQDMQQLVLARIFQGIGAGGMISVSQAIIGDIIPPRERGRYQGYFSSMYAVASVAGPVLGGYMTEYLSWRWVFWINLPLGLGAWLVARRTLVGLPVPQRTPIIDYLGTVLLIIGLTALLLGITQVGQGHAWHSREVLGLLGGAVVVLGVFAWHERRAREPLLPMHLFVNRSAVLCWCTVFFTSFQAISLTVLVPLRFQSVTGAGADSAALHLLPLAMGLPMGAYFAGRRTSITGRYKPMILSGALLFPFAVLGMAFTPPAAFWLSSLFMLLGGIASGMQFPTSLVGSQNSVQQRDIGVATSTTNLFRSLGGAVGVALMSALLLALLQDSGFAQLAGSSVIGEGHSGNVLLDGLNAAPGAARDALREELQTTFRHLLMISAAVSLLGLAAALAMPDCLLRGREEKTR				NA	NA	NA	NA	NA
D1-35_00275	1191	pobA		p-hydroxybenzoate hydroxylase	ATGAAAACCCTCAAGACCCAAGTCGCCATTATCGGCGCCGGCCCCTCTGGACTGCTGCTCGGCCAGTTGTTGCACAACGCCGGCATCGACACGCTGATCCTGGAACGCCAGACACCCGACTACGTCCTCAGCCGCATCCGCGCCGGCGTGCTTGAGCAAGGCATGGTGCAGTTGCTGCGCCAGGCCGGGGTCGGCCAGCGCATGGATGCCGAAGGCCTGCCCCATGATGGCTTCGAGCTGGTCCTCAGTGGCCGGCGCGTGCACATTGACCTGAAGGGACTGACCGGCGGCCAGAACGTCATGGTCTACGGCCAGACCGAAGTCACCCGCGACCTGATGGCTGCCCGCCAGGCCTGCGGCGCGCAGACCCTGTATCAGGTCGATAACGCCCAGCCCCACGACCTGCAGACCGACCAGCCCTTCGTGACCTTCGAGCATGCGGGCGAAACCTGGCGCCTGGACTGCGATTACGTGGCCGGCTGCGACGGCTTCCACGGTGTTGCACGGCAATCGATCCCGGCGGAAAAACTCAAGGTCTTCGAGCGTGTCTACCCGTTCGGCTGGCTCGGCATCCTGGCCGACACCCCGCCGGTCCACGAGGAGCTGGTCTACGCCCGCCATGAGCGCGGCTTTGCCCTGTGCAGCATGCGCTCGCGGACCCGCACCCGTTATTACCTGCAAGTGCCCGCCGAGGAACAGATAGCCGACTGGCCGGACGAGCGTTTCTGGAGCGAGCTGAAAAACCGCCTGCCCGCCGACCTGGCCGAAGCGCTGGTGACCGGCCCCTCCATCGAAAAAAGCATCGCGCCGTTGCGCAGTTTTGTCGTCGAACCGATGCAGTACGGGCGGATGTTTTTGGTCGGCGATGCCGCCCACATCGTCCCGCCCACCGGTGCCAAGGGGCTGAACCTGGCCGCCAGCGACGTCAGCACGTTGTTCAACATCTTGCTCAAGGTCTATCGCGACGGTCGCGTGGATCTCCTGGAACGCTATTCGGCCATTTGCCTGCGGCGAGTCTGGAAGGCCGAACGGTTCTCCTGGTGGATGACTTCGATGCTGCATCGCTTCGACGACGATGCATTCAACCAGCGCATCAGCGAAGCGGAGCTGGAGTATTTCGTCGACTCCGAGGCCGGTCGAAAAACCATTGCGGAAAATTATGTCGGCCTTCCTTACGAGGCTATCGAATAG	MKTLKTQVAIIGAGPSGLLLGQLLHNAGIDTLILERQTPDYVLSRIRAGVLEQGMVQLLRQAGVGQRMDAEGLPHDGFELVLSGRRVHIDLKGLTGGQNVMVYGQTEVTRDLMAARQACGAQTLYQVDNAQPHDLQTDQPFVTFEHAGETWRLDCDYVAGCDGFHGVARQSIPAEKLKVFERVYPFGWLGILADTPPVHEELVYARHERGFALCSMRSRTRTRYYLQVPAEEQIADWPDERFWSELKNRLPADLAEALVTGPSIEKSIAPLRSFVVEPMQYGRMFLVGDAAHIVPPTGAKGLNLAASDVSTLFNILLKVYRDGRVDLLERYSAICLRRVWKAERFSWWMTSMLHRFDDDAFNQRISEAELEYFVDSEAGRKTIAENYVGLPYEAIE	PGPT0005065_322	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYBENZOIC_ACID_GALLATE_RESISTANCE,PGPT0005065-pobA-K00481	NA	NA
D1-35_00276	894	rhaS_1		HTH-type transcriptional activator RhaS	ATGAAGAAAACCGAGCTGCCTTCGATACCGGTGTTCAAGCTCTACGGCGAGAGCCAGGATTGGCCGACGCCGGACCTGCTGCATTGCGAAACCATTTCCACGCGCAGCAGCGAACACCAGTGGGAAATCAAACCCCATCGGCATGCGGACCTGTGTCAGTTGCTGTTTGTCTACAAGGGCCAGGCCGAGCTGGAAATAGAAGGCCAGCGCACCCGGCTCGACGAGCCGGCCGTGCAGATCCTGCCGCCCTTGTCAGTGCACGGCTTTCGCTTTTCCGAGGATGTGCAAGGTTACGTGGTTACCCTGGCGGCGCCGCTGGTGACGCATCTGCAAGGGCAGCTCGGGCATTCGGTGAATGTCCTGGCCCAGGCCGAAGCCTACCCGGCCGGCGAAAACGCCGACTACCTCAACAGCCTTTTCAGCGCCTTGCAGGCGGAATATGTTGGCCACGAACCGGCCCGGGAAATGCTGATGCATGCACTGGTCAGCGTGATCATGGTCTGGGTCAGTCGCCAGGTAATGGACAGGCGTACCTCGTCGCAGCGCCCGCAACGGGCCCGGGAATATCTCAACGGGTTCATCCAGTTGGTTGAGGAAACCTATCGCCAGCATGTCAAGGTCGAAGACCTCGCCCATCGCCTGGGCATCTCGGTATCGCACCTCAACGGCACCTGTCGCGAACTGGCCGGGCAACCGGCGTTGCAGATCATGCACGAGCGTCAGCTGCTGGAGGCCAAGCGGCTGCTGACCTACACCGGCATGACCATCTACGAGATCTCCGAACTGCTCGGCTTTTCCGACCCGACCAACTTCACCCGGCTGTTTCGCCGGCGTGTCGGCATTTCGCCCAAGGCCTTCCGCGACCGGCTCAAGACCGATCAGCAGGACGACTGA	MKKTELPSIPVFKLYGESQDWPTPDLLHCETISTRSSEHQWEIKPHRHADLCQLLFVYKGQAELEIEGQRTRLDEPAVQILPPLSVHGFRFSEDVQGYVVTLAAPLVTHLQGQLGHSVNVLAQAEAYPAGENADYLNSLFSALQAEYVGHEPAREMLMHALVSVIMVWVSRQVMDRRTSSQRPQRAREYLNGFIQLVEETYRQHVKVEDLAHRLGISVSHLNGTCRELAGQPALQIMHERQLLEAKRLLTYTGMTIYEISELLGFSDPTNFTRLFRRRVGISPKAFRDRLKTDQQDD				NA	NA	NA	NA	NA
D1-35_00277	177			hypothetical protein	ATGAACATCAAAACAAGAAGACGCCTCGCCATCTTTGTCACCTGCACGGCCACGCTAGCGCTGTATGGCACCGCGGCTTATCGGGTCGAACAGGCCAGGCAGTTGCCCCGTGAATACGCCAGCTGCAACTTTGAACGCTGCATACCGCACAACGCATCCCTGAACGCTCTGCGCTGA	MNIKTRRRLAIFVTCTATLALYGTAAYRVEQARQLPREYASCNFERCIPHNASLNALR				NA	NA	NA	NA	NA
D1-35_00278	360			hypothetical protein	ATGGCCACGTTCCAACCCGGTCACCTGCACATGGAACGCCATGCGCTGAACAAGGACGACTACAGCTACAACCTGTGCATCGATTACGAGGTGACCCAGGATCCCGAGGAAGGAACGGGCATGTCGTTCCGGCTGCACGGCACGGTGGAAGACAGGAGCGTGGACGAGACGTTTTTCCTGGCCAAGGACCAGGCCTTCGACTTCGCCCGCCACGCCACGCGCATCGCCCAGCAGTACGGCATGCCGAAGACCGCCAGCATCGGCTCGATGCACAAGTATTACGACGAGATGTTCGAAGACGTGCGGCACCAGCTCGACGTCAAGCCGGGTGATCCGATGAAGCCTGAGCATTTGGAATAG	MATFQPGHLHMERHALNKDDYSYNLCIDYEVTQDPEEGTGMSFRLHGTVEDRSVDETFFLAKDQAFDFARHATRIAQQYGMPKTASIGSMHKYYDEMFEDVRHQLDVKPGDPMKPEHLE				NA	NA	NA	NA	NA
D1-35_00279	930	arcC1		Carbamate kinase 1	ATGCGCATCGTCGTTGCCCTGGGCGGTAATGCCCTCCTGCGTCGGGGTGAACCCATGACCGCCGACAATCAACGCAGCAACATCCGCACCGCGACCGAACAGATCGCGAAAATCCATCCCGGCAACGAGCTGGTCATCGCCCACGGCAACGGCCCGCAGGTCGGCCTGTTGTCGTTGCAGGCGGCGGCCTACACCTCGGTCACGCCGTATCCGCTGGACGTGCTGGGCGCCGAAACCGAAGGCATGATCGGCTACATCATCGAACAGGAACTGGGCAACCTGCTGGACTTCGAAGTGCCCTTCGCCACGCTTTTGACCCAAGTCGAAGTGGACGCCAACGACCCGGCTTTCCAGAACCCGACCAAGCCCATCGGCCCGGTCTACAGCCAGCAAGAAGCGCAGCAACTGGCCGCAGAAAAAGGCTGGGCGATTGCCGCCGACGGCGACAAGTTCCGCCGGGTGGTCGCCAGCCCACGGCCCCGGCGCATCTTTGAAATCCGTCCGATCAAGTGGCTGCTGGAAAAAGGCAGCATCGTGATCTGTGCCGGCGGTGGCGGCATCCCGACGATGTACGACGCCGACGGCAACCTGCAAGGCGTCGAAGCGGTGATCGACAAGGACCTGTGTTCGGCACTCTTGGCCGAACAGCTGGGAAGCGATCTGCTGGTCATCGCCACGGACGTCAACGCCGCTTTCATCGATTTCGGCAAGCCGACCCAGAAAGCCATCGCCCAGGCTCACCCCGACGAGATGGAAAAACTGGGCTTTGCCGCCGGGTCCATGGGGCCCAAGGTGCAAGCCGCCTGCGAATTCGCCCGCCACACCGGCAAGGTCGCGGTGATCGGGTCGCTGTCGGACATCGAGGCTATCGTCCAGGGCACCGCCGGCACGCGCATCAGCACGGCAACGCCGGGGATTGTTTATCGGTAA	MRIVVALGGNALLRRGEPMTADNQRSNIRTATEQIAKIHPGNELVIAHGNGPQVGLLSLQAAAYTSVTPYPLDVLGAETEGMIGYIIEQELGNLLDFEVPFATLLTQVEVDANDPAFQNPTKPIGPVYSQQEAQQLAAEKGWAIAADGDKFRRVVASPRPRRIFEIRPIKWLLEKGSIVICAGGGGIPTMYDADGNLQGVEAVIDKDLCSALLAEQLGSDLLVIATDVNAAFIDFGKPTQKAIAQAHPDEMEKLGFAAGSMGPKVQAACEFARHTGKVAVIGSLSDIEAIVQGTAGTRISTATPGIVYR	PGPT0020085_1262	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020085-arcC-K00926	NA	NA
D1-35_00280	1011	arcB	COG0078	Ornithine carbamoyltransferase, catabolic	ATGGCTTTTAATATGCGCAACCGCAGCCTGCTGAGCTTGATGCACCACACCCACCGCGAGCTGCACTTTTTGCTCGACCTGTCCCGCGACCTCAAGCGCGCCAAGTACACCGGCACCGAGCAACCGCACCTCAAAGGCAAGAATATCGCGCTGATCTTCGAGAAGACCTCGACCCGCACGCGTTGCGCCTTCGAAGTCGCGGCCCATGACCAGGGCGCCCACGTCACCTACATCGACCCGGTTTCGTCACAGATCGGCCACAAGGAAAGCATGAAGGACACCGCCCGGGTGCTGGGGCGGATGTTCGACGCCATCGAATACCGTGGCTTCGAGCAGGAAATCGTCGAGGAGCTGGCCAAGTTCGCCGGCGTGCCGGTGTTCAACGGCCTGACCGCAGAATTCCACCCCACGCAAATGATCGCCGACACCCTGACCATGCGCGAGCACAGTGACAAGCCGCTGCATGACATCAGCTACGCCTACCTGGGCGATGCGCGCTACAACATGGGCAACTCGCTGCTGATGATCGGCGCCAAGCTGGGCATGGACGTGCGCATCGGCGCGCCGAAAGCCCTGTGGCCGCATCAGGACTTCATCGACCAGTGCCAGGCCTTCGCCGCCGAAAGTGGTGCACGGATCACCATCACCGAAGACCCGGAAGAAGCGGTCAAGGGCGTGGACTTCATCCATACCGATATCTGGGTCTCCATGGGCGAGCCAGTGGAGGCCTGGGACGAGCGCATCCAGCAACTGCTGCCCTATCAGGTCAACGCGCAAATGATGAAAGCCTCGGGCAATCCGCGGGTGAAATTCATGCACTGCCTGCCGGCCTTTCATAACAGTGAAACCAAGGTCGGCAAGGACATCGCCGCGCGTTATCCGAACCTGGCCAACGGCGTGGAAGTGACCGAGGACGTCTTCGAATCCCCGGCGAACATCGCCTTCGAACAGGCGGAGAACCGCATGCACACCATCAAGGCGATCCTGGTGGCGGCGTTGGCGGATATCTGA	MAFNMRNRSLLSLMHHTHRELHFLLDLSRDLKRAKYTGTEQPHLKGKNIALIFEKTSTRTRCAFEVAAHDQGAHVTYIDPVSSQIGHKESMKDTARVLGRMFDAIEYRGFEQEIVEELAKFAGVPVFNGLTAEFHPTQMIADTLTMREHSDKPLHDISYAYLGDARYNMGNSLLMIGAKLGMDVRIGAPKALWPHQDFIDQCQAFAAESGARITITEDPEEAVKGVDFIHTDIWVSMGEPVEAWDERIQQLLPYQVNAQMMKASGNPRVKFMHCLPAFHNSETKVGKDIAARYPNLANGVEVTEDVFESPANIAFEQAENRMHTIKAILVAALADI	PGPT0020080_884	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
D1-35_00281	1257	arcA	COG2235	Arginine deiminase	ATGACCACGGAAAAAGTGAAATACGGCGTCCATTCCGAAGCCGGCAAACTGCGCAAAGTCATGGTCTGCTCACCAGGCCTCGCCCACCAGCGGCTGACGCCGAACAACTGCGACGAACTGCTGTTCGATGACGTGCTGTGGGTCAACCAGGCCAAGCGCGATCACTTCGATTTCGTCACCAAGATGCGTGAACGCGGTATCGACGTGCTGGAGATGCACAATCTGCTGACCGACATCGTCGCCATCCCCGAAGCGCTCGACTGGATCCTGCATCGCAAGATCACCGCCAACTCCGTGGGCCTGGGCCTGGTGCATGAAGTGGGCGCCTGGTTGCGCAGCCTGGAGCCACGCAAGATCGCCGAATACCTGATCGGCGGCGTCTCGGCCGATGACCTGCCGGACAGCTTCGGCGGCAAGACCATCCAGATGTTCCGCGACTTTCTCGGGCACTCCAGCTTCATCCTGCCACCGCTGCCCAACACCCAGTTCACCCGCGACACCACCTGCTGGATCTACGGCGGCGTGACGCTGAACCCGATGTATTGGCCGGCCCGCCGCCAGGAAACCTTGCTTACCACCGCCATCTACCGATTCCATCCCGAGTTTACCCAAGCCGATTTCCAGATCTGGTACGGCGACCCGGACCTGGACCACGGTAAAGCCACCCTCGAAGGCGGCGACGTAATGCCCATCGGCAATGGCGTGGTATTGATCGGCATGGGCGAACGCTCGTCGCGCCAGGCCATCGGTCAACTGGCACTGAACCTGTTCAAGCACAACGCCGTCGAGCGGGTGATTGTCGCGGGGCTGCCACGTTCCCGCGCAGCGATGCACCTGGACACCGTGTTCAGTTTCTGTGACCGCGACCTGGTGACGATTTTCCCTGAAGTCGTCAGCCAGATCGTCGCGTTTTCGCTGCGCCCGGACGAGAGCAAACCCGGCGGCATCGACGTGCGGCGCGAGGAAGGCAGCTTCCTCAGTACCGTCGCCCGCGCCCTCAAGCTGCCCGCGCTGCGGATCGTTGAAACCGGCGGCAACAGCTTCGCCGCCGAACGCGAGCAATGGGACGACGGCAACAACGTGGTCGCCCTCGAGCCAGGCGTGGTCATTGGCTACGACCGCAATACCTACACCAACACCCTGCTGCGCAAGGCCGGGGTGGAAGTCATCACCATCAGCGCCGGCGAACTCGGTCGTGGCCGTGGCGGCGGCCATTGCATGACCTGCCCGATCGTCCGCGACCCAATCGACTACTGA	MTTEKVKYGVHSEAGKLRKVMVCSPGLAHQRLTPNNCDELLFDDVLWVNQAKRDHFDFVTKMRERGIDVLEMHNLLTDIVAIPEALDWILHRKITANSVGLGLVHEVGAWLRSLEPRKIAEYLIGGVSADDLPDSFGGKTIQMFRDFLGHSSFILPPLPNTQFTRDTTCWIYGGVTLNPMYWPARRQETLLTTAIYRFHPEFTQADFQIWYGDPDLDHGKATLEGGDVMPIGNGVVLIGMGERSSRQAIGQLALNLFKHNAVERVIVAGLPRSRAAMHLDTVFSFCDRDLVTIFPEVVSQIVAFSLRPDESKPGGIDVRREEGSFLSTVARALKLPALRIVETGGNSFAAEREQWDDGNNVVALEPGVVIGYDRNTYTNTLLRKAGVEVITISAGELGRGRGGGHCMTCPIVRDPIDY	PGPT0020075_291	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020075-arcA-K01478	NA	NA
D1-35_00282	1428	arcD	COG0531	Arginine/ornithine antiporter	ATGTCCGATACCCCCGGAAAACTTCGACTGGGCGCGCTGGTTGCGCTGGTAGTGGGTTCGATGATTGGCGGCGGGATCTTTTCCCTGCCGCAGAACATGGCCGCCAGCGCCGATGTCGGCGCCGTATTGATCGGCTGGGCCATCACCGCAGTGGGCATGTTGACCCTTGCATTCGTGTTCCAGACCCTGGCCAATCGCAAACCCAATCTGGACGGCGGGGTGTACGCCTACGCCAAGGCCGGGTTTGGCGACTACATGGGGTTTTCCTCGGCCTGGGGTTACTGGATCAGCGCCTGGCTCGGCAACGTTGGCTACTTCGTTTTGTTGTTCAGCACCCTGGGCTATTTCTTCCCGGTGTTTGGCGAAGGCAACACCGTGGCGGCAGTGATCGGCGCATCGCTGTTGCTGTGGGCCGTGCACTTTCTGGTACTGCGGGGCATCAAGGAAGCGGCGTTCATCAACCTGGTGACCACCGTCGCCAAGGTCGTGCCGCTGCTGCTGTTCGTGCTGATCGCGGTGTTCGCCTTCAAGCTGGATATCTTCACCGCTGACATCTGGGGCTTGAAAAACCCGGACCTGGGCAGCGTGATGGATCAGGTGCGACACATGATGCTGGTCACCGTGTGGGTGTTCATCGGCATCGAAGGCGCGAGCATTTTCTCGGCCCGCGCCGAAAAACGCAGCGACGTCGGCAAGGCCACGGTCATCGGCTTCATCACGGTGCTGTTGTTGCTGGTACTGGTGAACGTGCTCTCGCTGGGGATCATGACCCAACCTGAACTGGCGAAGCTGCAGAACCCGTCCATGGCCGCCGTACTCGAGCACGTGGTCGGTCACTGGGGCGCTGTGCTGATCAGCGTCGGCCTGGTTATCTCGCTGCTCGGTGCCCTGCTGTCCTGGGTCTTGCTGTGCGCCGAGATCATGTTTGCCGCCGCCAAGGACCACACCATGCCGGCCTTCCTGCGCCGGGAAAATGCCAATCATGTACCGGCCAACGCGCTGTGGCTGACCAACGCGATGGTCCAGCTGTTCCTGATCGTCACGCTGTTTTCCGCCAGCACCTACCTGTCGCTGATCTACCTCGCCACCTCGATGATCCTGGTGCCGTACCTGTGGTCGGCGGCCTACGCACTGCTGCTGGCGGTACGCGGTGAAACCTATGAAAACGCCCTGGCCGAACGGCGCAAGGACCTGGTCATCGGCGCCATCGCGCTGATCTACGCGATGTGGCTGCTGTATGCCGGCGGGATCAAGTACCTGCTGCTCTCCGCCCTGCTCTACGCCCCCGGCGCGATCCTGTTCGCCAAGGCCAAGCGCGAACTGGGCAAACCGGTTTTCACCTCGGTCGAGAAGCTGATTTTTGCCGCCGTGGTGGTCGGTGCCCTGGTGGCTGCCTACGGCCTTTATGACGGCTTCCTGAGCCTGTAG	MSDTPGKLRLGALVALVVGSMIGGGIFSLPQNMAASADVGAVLIGWAITAVGMLTLAFVFQTLANRKPNLDGGVYAYAKAGFGDYMGFSSAWGYWISAWLGNVGYFVLLFSTLGYFFPVFGEGNTVAAVIGASLLLWAVHFLVLRGIKEAAFINLVTTVAKVVPLLLFVLIAVFAFKLDIFTADIWGLKNPDLGSVMDQVRHMMLVTVWVFIGIEGASIFSARAEKRSDVGKATVIGFITVLLLLVLVNVLSLGIMTQPELAKLQNPSMAAVLEHVVGHWGAVLISVGLVISLLGALLSWVLLCAEIMFAAAKDHTMPAFLRRENANHVPANALWLTNAMVQLFLIVTLFSASTYLSLIYLATSMILVPYLWSAAYALLLAVRGETYENALAERRKDLVIGAIALIYAMWLLYAGGIKYLLLSALLYAPGAILFAKAKRELGKPVFTSVEKLIFAAVVVGALVAAYGLYDGFLSL	PGPT0020620_689	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020620-arcD|lysl|lysP-K03758	NA	NA
D1-35_00283	1347	frc		Formyl-CoA:oxalate CoA-transferase	ATGTCAGATCTGCTCACATCCATGCAAACCGCCCTCGGTTTGCCCACGACTCCGATCCCCTTCACTGGCGAAGGCGCCCTGCCCTCTGCGTTCGCCGTTACCGAGTTGGCCTGCGCCAGCATCGCCACGGCCGGTCAAGCGGTCGCCGAACTCATTCATCAGCAGACCGGCCGCCTGCCGACGCTTGAAGTCGACCGGCGCCTGGCCTCGTTCTGGTTCGCCACGTCCCTGCGGCCCGTCGGCTGGAGCGTACCGCCGCTGTGGGACCCGGTGGCTGGCGACTACGCCACCGCCGACGGCTGGATTCGCCTGCACACCAACGCACCGCATCATCGTCTTGCTGCGGAAAAAGTCCTCGGTACCTGCACCGACCGCGCCGACATGGCGAGCAAAGTTGTCCGTTGGAACAAGGCCGAACTGGAACAGGCCGTGGTCGACGCCGGTGGTTGCGCCGCACAGATGCGTTCCTGGCAGGCGTGGCAGGCCCATCCGCAAGGTTTGGCGGTGAACGCCGAACCGCTTGTTCGCTTCGATGACATGAGTGCAGCTCCGCTTGAACCCTGGCTCGGCTCCGTCGCCCAGCCGCTGGCGGGCTTGAAGGTGCTTGACCTGACCCGCGTGCTGGCCGGCCCGATTGCCAGCCGCTTTTTGGCCGGGCTGGGCGCCGATGTGCTGCGTATCGACCCGCCGACCTGGAACGAACCCGGCGCGGTTCCGGAAGTTACCCTCGGCAAACGCTGCGCCCGCCTCGACTTGCATCAGCCCGCTGACCGCGCGACGTTCGAAGCATTGCTCAAGGATGCCGACATCCTCCTGCACGGCTATCGCGCCGACGCGCTCGAACGCCTGGGCTATGGCGCCGTGCAACGCCGCCAACTGGCACCTGGGCTGATCGACGTCAGCCTCAACGCCTACGGCTGGAGCGGCCCCTGGCAACACCGGCGCGGCTTCGACAGTCTGGTGCAGATGAGCAGCGGCATCGCCGAGGCCGGCATGGCCTGGAAACAGACAGATAAACCGACGCCGCTGCCCGTTCAGGCGCTGGATCACGGCACCGGCTACCTGATGGCGGCCAGTGCGATTGTACTGCTGGCTCGGCGCTTGGCCGATGGCCGTGGCGGTTCGGCACGCTTGTCACTGGCCCGCACGGCGAAACTGTTGATCGAGGGTGGCGCCGGCGATGAGGCTGCGTTGCGCCCCGAAGACGAGGCCGACCAGGGACTGCTGGTGGAACAAACGCCCTGGGGCCCGGCGCACCGCTTGCAGGTGCCACTGAAAATCACCGGCACGCCGTTGCAGTGGGCCCTGCCAGCCACCGAACTGGGCGCACATCGCCCTCAGTGGTGA	MSDLLTSMQTALGLPTTPIPFTGEGALPSAFAVTELACASIATAGQAVAELIHQQTGRLPTLEVDRRLASFWFATSLRPVGWSVPPLWDPVAGDYATADGWIRLHTNAPHHRLAAEKVLGTCTDRADMASKVVRWNKAELEQAVVDAGGCAAQMRSWQAWQAHPQGLAVNAEPLVRFDDMSAAPLEPWLGSVAQPLAGLKVLDLTRVLAGPIASRFLAGLGADVLRIDPPTWNEPGAVPEVTLGKRCARLDLHQPADRATFEALLKDADILLHGYRADALERLGYGAVQRRQLAPGLIDVSLNAYGWSGPWQHRRGFDSLVQMSSGIAEAGMAWKQTDKPTPLPVQALDHGTGYLMAASAIVLLARRLADGRGGSARLSLARTAKLLIEGGAGDEAALRPEDEADQGLLVEQTPWGPAHRLQVPLKITGTPLQWALPATELGAHRPQW				NA	NA	NA	NA	NA
D1-35_00284	432	ybaN_1	COG2832	Inner membrane protein YbaN	ATGACCCGCATCCCCTCAAAACCCAGCCAACTGCTCTTCGCCCTGCTCGCCTACACCAGCCTGGCCATCGGCCTCATCGCCTTGGTCGTGCCCGGCCTGCCGACCACCGAGTTCATCCTGCTCGCCGCCTGGGCCGCGACCCGCAGTTCGCCGCGTCTGAGCGCCTGGCTGGAGCACCATCGGTGGTTCGGGCCGATGCTGCACAACTGGCGCAACGGCAAGGTCATCCCGCGCCGGGCCAAGGTCGGCGCCACGATCAGCATGCTCGGTTGTGCCGCAATGATGTGGCTGATGCTTGCCCACGGCTGGCCGATGTACCTGGCCATGGCCGGCATGGGCCTGGGCAACCTGTGGATCTGGTCACGCCCGGAAACTCGTGGCGAGGGAGCTTGCTCCCGCTGGGGCGCGAAGCGGCCCCCTACGCAATTTTGA	MTRIPSKPSQLLFALLAYTSLAIGLIALVVPGLPTTEFILLAAWAATRSSPRLSAWLEHHRWFGPMLHNWRNGKVIPRRAKVGATISMLGCAAMMWLMLAHGWPMYLAMAGMGLGNLWIWSRPETRGEGACSRWGAKRPPTQF				NA	NA	NA	NA	NA
D1-35_00285	591	pigA	COG3230	Heme oxygenase PigA	ATGACCACCCCACGCCCCGCCCTACGTTCCCAGCGCCTGAATCAGATCACCCACGAGCCCCACGGCAAGCTCGACGCCCTGGTCAAAGCCCACGCCCCATTCGAAACCCAGGCCAGCTACGCGCGCTTCGTCGTCGCCCAGTACCTGTTCCAGTCAGAACTGGTGGCGCTGTACAACGACGTGCAACTGGCCGCCCTGATACCCGATCTGGCGGCCCGCTGCCGCGCCGAAGCGGCCAAGGCGGATCTCACGGACCTGGACACCGAAGTGCCCGCGCCGGTGGCCGGAGCGGTAAAAAACCCGAGCCAGGCCGAAGCACTGGGCTGGCTGTTCGTCTCCGAGGGCTCGAAGCTCGGCGCCGCGTTCCTGATCAAGCGTGCCGTGGCCCTGGGAATGAACGAAACCTTCGGCGCCCGGCATCTGGCGGAACCGGCGGGCGGCCGTGCCGAAGGCTGGAAAACCTTCACCCGTACCCTCGACGGCCTGGCCTTCACCGAACAGCAGGAAGCCGAGGCGGACAAAGGCGCGCTGGAGGCCTTCAACCGGTTTACCGTGTTGCTGGAACACGCCTATGCGGCCGAGTTGGCCTGA	MTTPRPALRSQRLNQITHEPHGKLDALVKAHAPFETQASYARFVVAQYLFQSELVALYNDVQLAALIPDLAARCRAEAAKADLTDLDTEVPAPVAGAVKNPSQAEALGWLFVSEGSKLGAAFLIKRAVALGMNETFGARHLAEPAGGRAEGWKTFTRTLDGLAFTEQQEAEADKGALEAFNRFTVLLEHAYAAELA	PGPT0003620_221	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_UTILISATION,PGPT0003620-hemO|pigA-K07215	NA	NA
D1-35_00286	2595	hemR	COG1629	Hemin receptor	ATGTCCTCTCGCCTTACTTGCCGGTTTCTTGCCCCCTCTTGCACGCTGTCACTGCTCACCGCCGCCATCCTGATGACCGGCACCGCGCCGGCGGCCTTGGCTGCCGCCGCCGAGCAATCGCCCGCGCGCAACATGGGCGACTACACCTTCAGCATCGCCCGGCAACCACTGGTTTCCGCACTGAATGCATTTACCGCCGTCACCGGCTGGCAGGTGGGGCTGCCGGCAGAACTGGCCGAAGGCGTCGCCTCGCCGGGGGTGAACGGCTCGCTGCCGCCGGAAAAAGCCCTGGAGCGCCTGTTGGTGGGGACCAACCTGAGCTACCGCAAACTGGGCAATAACAACATCGTCCTGGAAAAGCGCAGCGCCGGCAGCGCGCTGGAGTTGCAACAGGTGACCATCAGCGCCACCCGCCAGGAACAAGACATCGCCAGCGTACCGAGCACCGTTTCGATCCATGATCGCCAGGAGCTGGACCGCAACAACGTCAACACCATCAAGGATCTGGTGCGCTATGAGCCCGGCGTGTCGGTGGGCGGCGCGGGCCAGCGCGGCGGCATCAGCGGTTACAACATCCGCGGCATCGACGGCAACCGGATCCTGACCCAGGTCGACGGCGTGGAAATCCCCGGCGGTTTCTTCAACGGCCCGTACGCCAAGACCCAACGCAACTACGTCGACCCGGAAATCATCAAGCGCGTCGAGATTCTGCGCGGCCCGGCCTCGGTGCTGTACGGCAGCAACGCGATCGGTGGTGTCGTCAGTTATTTCACACTCGATCCGGACGACATCATCAAGCCCGGCAAGGACGTCGGCGCGCGTCTCAAGACCGGCTACAGCTCCGTCGATGAGAGCTGGCTCAAATCCGCCACCGTCGCCGGCCGCAGCGGGCCGTTCGACGGGTTGTTGCATTACAGCCAGCGCGACGGCCACGAGACCGAGTCCTACGGCAGCAACAACGGCACCGGCCTGGACCGCACCGCCGCCAACCCGGAAGACGTGCGCGCCAACAACGTGCTGGCCAAACTCGGCTGGGACTACAGCGATGACGCACGCCTGAGCCTGGTGTACGAGAAGTACAAAGACGATCGCGACGTCGACCTGAAAAGCGCTTACGGCGGGCCCTATGCCAACGGCCAACCAGCCATTTCCGCCTCCATCCTGCCCGGCGGCATGTACCAGTGGCGCACCGGTAACGATACGATCACCCGCGAGCGTTTCGGCCTGGAGCACAGCTTCGCCCTCGACAGCCTGCTGGCCGACAACATCAAGTGGAGCCTCAACCACCAGATCGCCAAGACCGACCAGCGCACCGCCGAGTTTTATTTCCCGATCACCCGCCGGGTGTTGCGCACCCGTGAAACGCTCTATGAAGAAAAACAGTGGGTCTTCGACGCGCAGGCAGACAAGTCATTCAGCTTGGCCGACACCGATCACACACTGACCTACGGCACCACGCTCAAGCATCAGAAAGTCACCGGCTCACGCAGCGGCAACGGCGTGTGCCTGGCGATCGGCGTGGGCTGCCCCGCCGTCGGTGCGATCAGCACCCGGGACGTATTGGCAAAAGCCAGCGACTTCCCCGACCCGACCATCAACACCTACAGCGTTTTCGCCCAGGACCAGATCAGCTGGGACAAATGGACCTTCACGCCAGCGCTGCGCTACGACTACACCCGGCTCAAGCCACGCCTGACCGAGGAATTCCTGCGCACCGTGGACCCCACCAACGGCGGTACGGTGAGTGGCGAGGACAAGAACTGGCATCGCGTCTCGCCGAAGTTCGGCCTGACCTATGCCCTGACCGACCAGTACACCTGGTACGGCCAGTACGCAGAAGGGTTCCGCACCCCGACCGCCAAGGCCTTGTACGGACGTTTCGATAACGCCGGCGTGGGCTACAGCGTGGAACCCAATCCCGACCTGGAACCGGAAAAAAGCAAAAGCTACGAAACCGGCCTGCGCGGTCGTTTCGACTCCGGATCGTTCGACGTGGCGGTGTTCTACAACAAGTACCGCGACTTCATCAACGAAGACGCCATCACCCCCGGCGCCGACCAGTTGACCTTCCAGAGCAACAACATCAAGCACGCCACCATCAAGGGCATCGAAGCCAAGGGACGCCTGGACCTGGACGTGTTCGGTGCGCCAAAAGGCCTCTACACCCAAGGCTCGGTGGCGTACCTGTATGGCCGCAACAACGACACGGGCGAGCCGCTCAACAGCGTCAACCCGCTTACCGGCGTGTTCGGCCTGGGCTACGACCAGGAGCAGTTCGGCACGTTGCTCAGCTGGACCCTGGTCCAGAAGAAAAACCGCGTAGACGACAGCAACTTCAATTCGCCCGACGGCGTCAGCGGCCAGTTCAAGACGCCGGGCTTCGGCATTCTCGACCTGAGCGGCTACTACAAGGTGACTCACGACGTCACCGTCAGCGGCGGCCTCTACAACCTCACCGACAAGAAGTACTGGCTGTGGGATGACGTGCGCGGCTACGACAGCGTCGGCGAAGCGGCGGTGCTGAGCCCGGCCAACCTCGATCGCCTGACGGCGCCGGGGCGCAACTTCGCGGTCAACCTGATCTGGGATATCTGA	MSSRLTCRFLAPSCTLSLLTAAILMTGTAPAALAAAAEQSPARNMGDYTFSIARQPLVSALNAFTAVTGWQVGLPAELAEGVASPGVNGSLPPEKALERLLVGTNLSYRKLGNNNIVLEKRSAGSALELQQVTISATRQEQDIASVPSTVSIHDRQELDRNNVNTIKDLVRYEPGVSVGGAGQRGGISGYNIRGIDGNRILTQVDGVEIPGGFFNGPYAKTQRNYVDPEIIKRVEILRGPASVLYGSNAIGGVVSYFTLDPDDIIKPGKDVGARLKTGYSSVDESWLKSATVAGRSGPFDGLLHYSQRDGHETESYGSNNGTGLDRTAANPEDVRANNVLAKLGWDYSDDARLSLVYEKYKDDRDVDLKSAYGGPYANGQPAISASILPGGMYQWRTGNDTITRERFGLEHSFALDSLLADNIKWSLNHQIAKTDQRTAEFYFPITRRVLRTRETLYEEKQWVFDAQADKSFSLADTDHTLTYGTTLKHQKVTGSRSGNGVCLAIGVGCPAVGAISTRDVLAKASDFPDPTINTYSVFAQDQISWDKWTFTPALRYDYTRLKPRLTEEFLRTVDPTNGGTVSGEDKNWHRVSPKFGLTYALTDQYTWYGQYAEGFRTPTAKALYGRFDNAGVGYSVEPNPDLEPEKSKSYETGLRGRFDSGSFDVAVFYNKYRDFINEDAITPGADQLTFQSNNIKHATIKGIEAKGRLDLDVFGAPKGLYTQGSVAYLYGRNNDTGEPLNSVNPLTGVFGLGYDQEQFGTLLSWTLVQKKNRVDDSNFNSPDGVSGQFKTPGFGILDLSGYYKVTHDVTVSGGLYNLTDKKYWLWDDVRGYDSVGEAAVLSPANLDRLTAPGRNFAVNLIWDI				NA	NA	NA	NA	NA
D1-35_00287	963			hypothetical protein	GTGACGGACAACCATCGCTCCCCTGAAGCCGCTGCGGCACAGGACACCGCCCACGCCATGGACCAGGCGCTGGATTGGCTGGTCCTGCTCGACAGCCCCAGCGATGAACAGACCCGACAGTTCCAGGCCTGGCTGGCGGCAGATCCGCGTCATGGCGAAGCGTTCTCCAGAGCCCAGGCGATCTGGAACGGCCCGCAGATCATCGAAAGCGCCCGGCAGCTCCAGGCCCGCCCCAAGGCCACCGCGCTGTCGCGTCTTCGAGCCCATTGGAAACCCCTGGCCACCGCCGCCGTGCTGTTGCTCGGATTGTTCAATTTCAGCGACCTGCCCCTGCAATTGCAGGCCGATCACCTGACCGTGGTCGGTGAGCGCCAGCGGCTGCAACTGGAAGACGGTTCCAAGGTCCTGCTGAATACCGACTCGGCGTTTTCCAGTTCCTTCGACGAACAGCGGCACGTGGCCCGCCTCTACAAGGGCGAGGCTTTTTTCGAGGTGCCGGCCAGTCGCAATGTGCCGTTGGAGATCGACGCCGGGCCGGTCACCGCCAGTGTCAGCGACACCACGTTTGCGGTGCGTTACCTGGACGGCGTCGCTCAGGTCCAGGTGCAGCGTGGCGATGTCGACCTGCGTGCGACCCGCTACGATGCCCATGTCCGCTTGTCGGCAGGAGAAAGCATCCGCATTGGTCCCAACGGCTTCGACCGCCCGGCACGCCTCGATGTCGGCACGGACCTGGCGTGGGTCCAGGGTCGGCTGGTGTTCGAGAATCGGCCGCTGGGCCAGGTACTGGCGGAGTTGCGACGCTACTACCCGGGCTGGATCATCAACAACAACCAGCAGTTGGCCGGCGTGGCCGTGACGGGTAACTATCGCCTCGACCAGCCGCTGGACGTGGTGCGTTCCCTGGCCCATATCACCTCTGCCCGCCTCCGGGAATTCCCGGCGCTGGTAATCCTGAACTGA	MTDNHRSPEAAAAQDTAHAMDQALDWLVLLDSPSDEQTRQFQAWLAADPRHGEAFSRAQAIWNGPQIIESARQLQARPKATALSRLRAHWKPLATAAVLLLGLFNFSDLPLQLQADHLTVVGERQRLQLEDGSKVLLNTDSAFSSSFDEQRHVARLYKGEAFFEVPASRNVPLEIDAGPVTASVSDTTFAVRYLDGVAQVQVQRGDVDLRATRYDAHVRLSAGESIRIGPNGFDRPARLDVGTDLAWVQGRLVFENRPLGQVLAELRRYYPGWIINNNQQLAGVAVTGNYRLDQPLDVVRSLAHITSARLREFPALVILN	PGPT0003910_4976	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003910-prhR|fecR-K07165	NA	NA
D1-35_00288	519	sigE	COG1595	ECF RNA polymerase sigma factor SigE	GTGAGCCAATCACGCTTCCATCAGGTTTTCCTCGCCCAGCGCATGCCGCTGCTGCGCACCCTCGAACGCATGGTCAACAACCCCAGCACCGCCGAAGACCTGCTTCAGGAAACCTACCTGCGCGTCACCCGCGCCCTGAACGAGCGCACGGTCGAGCATCTCGAACCCTTCGTCTTCCAGACCGCCCGCAACCTGGCGCTCGACCATTTGCGCGCGCGACGCATCCAGTCACGCACGCTGCTGGACGACGTGCCGATGGAAGTCGTGAACAACGTCATCGCCCCGCAAAGCAGCGCCGAGGATGCCGCCCATGCCGGCCGGTTACTCGAACAACTCAACCTCAGCCTGCAGTCGCTGAGCCCGCGCCAACAGCAGATCTTCATCCTCAACCGCCTGCATGGCCACAGTTACCAGGACATCGCCGAACGCTTGGGCGTGTCGCTGAGCACCGTGCAGAAAGAACTGAAATTGATCATGGCGATTTGCGTGGGCGTGGCCGAACGGCTGGGCGCCGATTGA	MSQSRFHQVFLAQRMPLLRTLERMVNNPSTAEDLLQETYLRVTRALNERTVEHLEPFVFQTARNLALDHLRARRIQSRTLLDDVPMEVVNNVIAPQSSAEDAAHAGRLLEQLNLSLQSLSPRQQQIFILNRLHGHSYQDIAERLGVSLSTVQKELKLIMAICVGVAERLGAD	PGPT0014960_10384	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-35_00289	1341	sasA_1		Adaptive-response sensory-kinase SasA	GTGCGTTCACTGTTCTGGCGCATCCTGGCCAGTTTCTGGCTGGCCATCGCCCTGGTCGCGGGGCTTTCGATCCTGATGGGCCACATGCTGAACCAGGACGCCTGGATCCTCAGCCGCCATCCAGGGCTCAACACCCTGGCCGAAGAATGGACACAAACCTACGAAAGCCAGGGCGAAGAGGCCGCGCAAGACATCCTGCAACAGCGCAAGCGCAAGTATCACATCGACGTTCAGGTGCTCAACGAGAGCGGCGACCCGGTGGTGCGCGGCACCTTTCCCCATCGCGCCGCGGCTTTCGAGGCGCGCCAGAACAACGACGACCGACGCCTCCCCTGGCGGCGCTTGACTGACGAGTTCACCAGCGCCAAGACCGGTGACACCTACCTGTTCATCTACCGCATCCCCCATCCCGAACTGGACGCCTGGCACCGCGACAGCCTGCTCTGGCCCCTCAGCGCCCTGGCCATTGCGCTGGTGGTACTGACCTTGTTCAGCCTGTTGGTGACCCTCTCCATCACCCGCCCGCTGAGCCGCCTGCGCGGCGCGGTGCATGACCTCGGCCAAGCCACGTACCAGCAGAACAGCCTCGCCAAACTGGCCAACCGCCGGGACGAATTCGGCGTACTGGCCACTGACTTCAATCGCATGGGTGCGCGCCTGCAAAGCCTGATCGCCAGCCAGCGCCAATTGCTGCGCGATGTTTCCCATGAACTGCGTTCGCCCCTGGCCCGGCTGCGCATCGCTCTGGCGCTGGCGGAGCGGGCGAGCCCCGCCGAGCGTGAAAAACTCTGGCCGCGCCTGACACGCGAATGTGACCGCCTGGAAGCATTGATCAGCGAAATCCTGGTGTTGGCCCGGGTCGACGCCGACAACGCCAGCGCCGAGGAAGTCGACCTCAACGGTTTGCTGGAGAACCTGCAAAAAGACGCCCAGCTGGCTTCACCGGAGCAACACGTGCGCCTGGAAACCGAGCCGCAACTGACGCTCAAGGGCTGGCCCACCATGATCGAGCGGGCGGTGGACAATCTCCTGCGCAACGCCCAGCGCTTCAACCCTGCCGGGCAGCCCATCGAAATGCGTGCCGCGCGCCAAGGAGAAAGGATAGTGATCAGCGTGCGCGACCACGGCCCCGGCGTAGAGGCGGAACACCTGGGCCAGTTGAGCGAACCGTTTTATCGCGCTCCCGGCCAGACCGCCCCCGGGCATGGTCTCGGCCTGGCGATCGCGCGCCGTGCGGCGGAACGGCATGGCGGAACCCTGGGATTGGCGAACCACCCCGACGGCGGATTCATCGCCACCCTGGAATTACCGCTGGTGCCGGGCGCGGTGGTGCAACCTTGA	MRSLFWRILASFWLAIALVAGLSILMGHMLNQDAWILSRHPGLNTLAEEWTQTYESQGEEAAQDILQQRKRKYHIDVQVLNESGDPVVRGTFPHRAAAFEARQNNDDRRLPWRRLTDEFTSAKTGDTYLFIYRIPHPELDAWHRDSLLWPLSALAIALVVLTLFSLLVTLSITRPLSRLRGAVHDLGQATYQQNSLAKLANRRDEFGVLATDFNRMGARLQSLIASQRQLLRDVSHELRSPLARLRIALALAERASPAEREKLWPRLTRECDRLEALISEILVLARVDADNASAEEVDLNGLLENLQKDAQLASPEQHVRLETEPQLTLKGWPTMIERAVDNLLRNAQRFNPAGQPIEMRAARQGERIVISVRDHGPGVEAEHLGQLSEPFYRAPGQTAPGHGLGLAIARRAAERHGGTLGLANHPDGGFIATLELPLVPGAVVQP	PGPT0004100_3324	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
D1-35_00290	438			hypothetical protein	ATGCGCAAGACCCTAACCGCTCTGATATTCGCCGCCGCCCTGCCGACCGTGGCCATGGCCATGCCCGAAGGCCCGGGGCCGATGGGCCCGATGGACGGTCCGCGCCACGGTGGCCAGATGCACGACAAAGGCCCCTACAGCCAACTGGACCTGACCCGCGAACAACGCGAGCAGATTCGCCGGATCATGGGTGAACAGCGCCATGAGCAACGCGAACTGGTCGACAAGTACCTGGCCAAGCTGTCGCCAGCCGACCAGAAAGCCATGCAGGACGAAATGGAAGCCCGGCACCAGAAAGTTGATGCCCAGATCCGTGGCTTGCTGAAGCCCGAGCAGCAGAAAGAGTTTGACGCCATTCAGAAAAAACGCGCCGAACGTCGGGCCGAGTGGGCCGAATTCAAGGCCTGGAAAGCGCAACAACCGCAAAAAGCGCAATAA	MRKTLTALIFAAALPTVAMAMPEGPGPMGPMDGPRHGGQMHDKGPYSQLDLTREQREQIRRIMGEQRHEQRELVDKYLAKLSPADQKAMQDEMEARHQKVDAQIRGLLKPEQQKEFDAIQKKRAERRAEWAEFKAWKAQQPQKAQ				NA	NA	NA	NA	NA
D1-35_00291	678	cpxR	COG0745	Transcriptional regulatory protein CpxR	ATGAGCGAGCTGTTACTGATTGATGATGACCAGGAGCTGTGTGAGCTCCTCGGCAGTTGGCTGGGCCAGGAAGGTTTCCAGGTCCGCGCTTGCCACGATGGCCAGAGCGCCCGCAAGGCCCTGGCCGAAACCGCCCCGGCGGCGGTGGTGCTGGATGTGATGCTGCCCGACGGCAGCGGCCTGGAACTGCTCAAGCAGTTGCGCAACGATCACCCGGAATTGCCGGTGCTGATGCTCTCGGCCCGCGGCGAACCGCTGGATCGCATCCTTGGCCTGGAGCTGGGGGCTGACGATTACCTGGCCAAGCCTTGCGATCCACGAGAGCTGACCGCCCGCCTGCGCGCCGTGCTGCGCCGCAGCCATCCCGCCGCGGTTTCCAGCCAGATCGAACTGGGTGACCTGACCTTCAGCCCGGTGCGTGGCGTGGTCAGCATCGATGAACAGGAACAGACCCTCACCGTCTCCGAAAGCCGCCTGCTCGAAGCACTGCTCAAGCAGCCGGGCGAGCCGCTGGACAAGCAGGAACTGGCGCAGATTGCCTTGGGCCGCAAGCTGACCTTGTACGATCGCAGCCTCGACATGCACGTCAGCAACCTGCGCAAGAAGATCGGTCCCCACCCCGACGGCCGCCCGCGCATCGTCGCCCTGCGTAGCCGGGGCTACTACTACAGCCTTTAA	MSELLLIDDDQELCELLGSWLGQEGFQVRACHDGQSARKALAETAPAAVVLDVMLPDGSGLELLKQLRNDHPELPVLMLSARGEPLDRILGLELGADDYLAKPCDPRELTARLRAVLRRSHPAAVSSQIELGDLTFSPVRGVVSIDEQEQTLTVSESRLLEALLKQPGEPLDKQELAQIALGRKLTLYDRSLDMHVSNLRKKIGPHPDGRPRIVALRSRGYYYSL	PGPT0015100_599	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015100-cpxR-K07662	NA	NA
D1-35_00292	411			hypothetical protein	ATGCGCAAAGGTCGGTTGTGCCTGTTGTTGGTCTCGTTGGCGATTGGAGCCCCCGCCCACGGCGAGGAAAGCACCGAGGCTGCTCATTCGGCGCCCTTGTCCCTGAGCGCGGGCGGCCAGATCGCCGAATTGCAGCAGCGCCTGAAAGACAGCGAGCGCATGCGTGAAGCACTCACCCAGCAACTGCAGAACACCAACGGCGAACGCGAGAGCGCGCTGGTGGGACGGCTGCGCCAGGAGAACCAGCGCCTGAAGTTGCAACTCAAGGAAGCCCAGTCCAGCCCGCTGCCGCGCCTGCTGACCGAACAGCAACAGTGGTTCGTCGTCGGCGCCGGGGTAGCGCTATTGGCCCTGCTCTGCGGTATCTTTGCCAGCGGTGGACGTAGACAACGTCGGCAATGGCTAAATTGA	MRKGRLCLLLVSLAIGAPAHGEESTEAAHSAPLSLSAGGQIAELQQRLKDSERMREALTQQLQNTNGERESALVGRLRQENQRLKLQLKEAQSSPLPRLLTEQQQWFVVGAGVALLALLCGIFASGGRRQRRQWLN	PGPT0023725_737	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023725-ygiM|htrG-K07184	NA	NA
D1-35_00293	300	yciI	COG2350	Protein YciI	ATGCTCTACGCAATCATTGCCACTGACGTCGCCGACTCCCTGGAAAAACGCCTGGCCGCGCGCCCGGAGCATCTTGAGCGCCTGCAAAAGCTCAAGGCTGAAGGTCGCATCGTGCTGGCCGGGCCGCACCCAGCGGTGGACAGCAACGACCCAGGCGCCGCCGGTTTCACTGGCAGCCTGATCGTGGCCGAGTTCGAATCCCTGGCCGCTGCACAGGCGTGGGCCGAGGCCGACCCGTTCGTGGCGGCCGGCGTCTACGCCGATGTCGTGGTCAAGCCGTTCAAGCAAGTCCTGCCGTAA	MLYAIIATDVADSLEKRLAARPEHLERLQKLKAEGRIVLAGPHPAVDSNDPGAAGFTGSLIVAEFESLAAAQAWAEADPFVAAGVYADVVVKPFKQVLP				NA	NA	NA	NA	NA
D1-35_00294	708	yciB	COG2917	putative intracellular septation protein A	ATGGCAGTGCAAATCAACATTCACGAGACTTTGTTACCTCAAATCAGCTGGCCCTATCGCGGCCAAGGATGTTTGTTATTATGCCGCCACATCCTGCTTCTGGCTGCCACTGTGAAACAATTCATCGATTTCATCCCGCTCCTGCTGTTTTTCATCGTCTACAAACTTGATCCACGGACCGTCGACGTCGCCGGCCACTCCTTGACTGTAGGCGGTATCTACAGCGCCACCGCGGTGCTGATCATCAGTTCCCTGGTGGTCTACGGCGCGCTGTTCGTATCGCAGCGCAAGCTGGAGAAGAGCCAGTGGCTGACCCTGATCGCCTGCCTTGTATTCGGCAGCCTGACCCTGGCCTTCCACAGCGAGACCTTCCTCAAATGGAAAGCCCCGGTGGTCAACTGGCTGTTCGCCCTGGCCTTCATCGGCAGCCACTTCGTCGGTGATCGCCTGCTGATCAAGCGCATCATGGGCCACGCGCTGAGCCTGCCGGACGCGATCTGGACCCGATTGAACATCGCCTGGATCGCCTTCTTCCTGTTCTGCGGCGCCGCCAACCTGTTCGTTGCGTTCACGTTCCAGCAATACTGGGTCGACTTCAAGGTCTTCGGCAGCCTGGGCATGACCTTGCTGTTCCTGATCGGCCAGGGCATCTACCTGTCCCGTCACCTGCACGATGCCGAACCCACCACGCCAAAAACCGAGGACTGA	MAVQINIHETLLPQISWPYRGQGCLLLCRHILLLAATVKQFIDFIPLLLFFIVYKLDPRTVDVAGHSLTVGGIYSATAVLIISSLVVYGALFVSQRKLEKSQWLTLIACLVFGSLTLAFHSETFLKWKAPVVNWLFALAFIGSHFVGDRLLIKRIMGHALSLPDAIWTRLNIAWIAFFLFCGAANLFVAFTFQQYWVDFKVFGSLGMTLLFLIGQGIYLSRHLHDAEPTTPKTED				NA	NA	NA	NA	NA
D1-35_00295	801	yciV	COG0613	5'-3' exoribonuclease	GTGGCGCGGGCGTTCGAGCACGGCGTGCGAGTCCTGGCCCTGACCGATCACGACACCCTCGAAGGTCTCGACGAAGCGCGTAGCGCCGCCACCGCGCTGGGCATGCAACTGGTCAACGGCGTCGAACTGTCCTGCACTTGGGGCGGTGCGACCATCCACGTGCTGGGCTACGGCTTTGATGTGAATGCACCGTCACTGGTCCAGGCCATTGCCGAATTGCGCGACGGTCGCTGGCTGCGCTCCGAGGAGATCAGCCGCAAACTGGCCCTCAAGGGCATGCCCGGCGCGCTGGAAGGCGCCCGACAGGTCCAGCAGGAACTGGGCGACAGCGGCAACGCCCCGGCCCGGCCGCATTTTGCCGACTGGATGGTGCGCGAGGGCTTCGTCAAGGACCGCGCCGAAGCCTTCCGAAAATGGCTGGGGGCCGGCAAGCTGGGGGACGTCAAGCAGCACTGGCCCACCCTGGAAGAAACGGTCGAGACTCTGCGGGCCGCCGGGGCGTGGGTCAGCCTGGCGCATCCCTGGCATTATGAATTCACCCGCAGCAAGCGCCGCCGCCTGATAGCCGACTATATTCAAGCAGGGGGCCATGCCATCGAAGTGGTCAATGGCCATCAGCCGGCCGAGCAGGTCGGCAGCCTGGCGATCCTCGCCCGGGAGTTTGGCCTGCTGGTGACCGCCGGGAGTGATTTCCACGGCCCGGGAGGCTGGTCCGAGATTGGCGAATACCGCCCGTTGCCGGAAGATCTGCCACCACTATGGTGTAGATTCAAACATGATCCCGTTATCGCCGCCGTCTGA	MARAFEHGVRVLALTDHDTLEGLDEARSAATALGMQLVNGVELSCTWGGATIHVLGYGFDVNAPSLVQAIAELRDGRWLRSEEISRKLALKGMPGALEGARQVQQELGDSGNAPARPHFADWMVREGFVKDRAEAFRKWLGAGKLGDVKQHWPTLEETVETLRAAGAWVSLAHPWHYEFTRSKRRRLIADYIQAGGHAIEVVNGHQPAEQVGSLAILAREFGLLVTAGSDFHGPGGWSEIGEYRPLPEDLPPLWCRFKHDPVIAAV				NA	NA	NA	NA	NA
D1-35_00296	669	yciO	COG0009	putative protein YciO	ATGATCCCGTTATCGCCGCCGTCTGAACAGGTAGAACACGTGAGTCAATTTTTCCAGATTCATCCGGAAAACCCGCAAGCGCGCCTGATCAAACAGGCTGTGGAAATCATCCGTGGCGGTGGTGTTGTGGTCTATCCCACCGACTCGTCCTATGCCATAGGCTGCCAGATCGGCGATAAAAATGCGGTCGAGCGGGTAAGACGCCTGCGTCAGCTGGACGACAAGCACAACTTCGCGCTCATTTGCAGCGACCTCTCGCAGTTGGGCTTGTTCGCCAAGATCGACACCGGCACTTTCCGCCTGCTCAAGGCCCATCTGCCGGGCCCTTATACCTTTATCCTGAATGCCACCCGGGAAGTCCCACGGCTGTTGCTGCACCCAAAGAAGCGCACCATCGGGCTGCGGGTGCCGAGCCATCCCATTGCCCTGGCGCTGCTGGCGGAACTCGGTGAGCCGTTGATGAGCGTGACGCTGATCATGCCCGGCGAGACCGATCCGCTGACCGACCCCTATGAAATGCGCCAACTGCTGGAGCATCAGGTCGACCTGATCATCGACGGCGGTTACGGCGGCATGAAGGCGTCCACGGTGATCAACCTGGCCGACGGCGAACCGCAAGTGGTACGCGTCGGCTGCGGCGATCCGACGCCGTTCATGGTCGAGGCCTGA	MIPLSPPSEQVEHVSQFFQIHPENPQARLIKQAVEIIRGGGVVVYPTDSSYAIGCQIGDKNAVERVRRLRQLDDKHNFALICSDLSQLGLFAKIDTGTFRLLKAHLPGPYTFILNATREVPRLLLHPKKRTIGLRVPSHPIALALLAELGEPLMSVTLIMPGETDPLTDPYEMRQLLEHQVDLIIDGGYGGMKASTVINLADGEPQVVRVGCGDPTPFMVEA				NA	NA	NA	NA	NA
D1-35_00297	831	scpA	COG1354	Segregation and condensation protein A	ATGTCGGTTGTGGAAACCGCGGTCGAAAACGTCGACAGCCAGGCCGGTGCGCAACAGGAGCTGCCGTTCGCCATGGTCTATGGCCAGGCGGTCATGGAAATGCCCCTGGACCTGTACATCCCGCCGGATGCGCTGGAGGTTTTCCTCGAAGCCTTCGAAGGGCCGCTCGACCTGTTGCTGTACCTGATCCGCAAACAGAACATCAACATCCTCGACATCCCGGTGGCGGAAATCACCCGCCAATACATGGGCTACGTCGAGCTGATGCAGTCGGTGCGCCTGGAACTGGCGGCGGAATACCTGGTGATGGCGGCCATGCTGGCCGAGATCAAGTCGCGCATGCTGCTGCCGCGCTCGGCCGAGGTCGAAGAGGAAGAAGACGATCCACGGGCCGAGCTGATCCGTCGCCTGCAAGAGTACGAGCGCTTCAAGGCCGCGGCCGAAGGCATCGACGGCTTGAGCCGGGTCGGGCGCGATGTGCTGGTGCCCAGGCTCGACGCTCCCGAGGCGCGGGCGCGCAAATTGCTGCCGGACGTGAGCCTGGAAGAATTGCTGATGTCCATGGCCGAGGTCCTGCGCCGGGGCGACATGTTTGAAAGTCACCAGGTCAGCCGTGAGGCATTGTCCACTCGCGAGCGCATGAGCGATGTGCTGGAACGGCTCAAGGGCGGCAGTTTTGTGCCCTTTGTCGAGCTGTTCACCGCCGAAGAAGGGCGGCTGGGCGTGGTGGTGACGTTTATGGCGGTCCTGGAATTGGTCAAGGAATCCTTGGTCGAGCTGGTGCAGAATGAGCCGTTCGCAGCGATCCATGTGCGGGCCCGAGCCGAATAA	MSVVETAVENVDSQAGAQQELPFAMVYGQAVMEMPLDLYIPPDALEVFLEAFEGPLDLLLYLIRKQNINILDIPVAEITRQYMGYVELMQSVRLELAAEYLVMAAMLAEIKSRMLLPRSAEVEEEEDDPRAELIRRLQEYERFKAAAEGIDGLSRVGRDVLVPRLDAPEARARKLLPDVSLEELLMSMAEVLRRGDMFESHQVSREALSTRERMSDVLERLKGGSFVPFVELFTAEEGRLGVVVTFMAVLELVKESLVELVQNEPFAAIHVRARAE				NA	NA	NA	NA	NA
D1-35_00298	960	scpB		Segregation and condensation protein B	ATGAATCTGACCGAACCCCGTGAACTGGCGCCCTTGCTTGAAGCTTTCCTGTTGGCCTCTGGAAAGCCGCAATCGATGGAGCGTCTGTTCGAGCTCTTCGAAGAAGGCGAGCGGCCTGAGCCTGCCGTGTTCAAGAAAGCCCTGACGCTGCTGGGTAAATCCTGCGAAGGGCGGGCTTTCGAACTCAAGGAGGTAGCGTCCGGCTACCGCTTGCAGATCCGCGAAAAATTCGCCCCCTGGGTCGGGCGCCTGTGGGAGGAGCGGCCGCAGCGTTATTCCCGCGCGATGCTCGAAACCATGGCGTTGATCGCCTATCGCCAACCGATCACCCGGGGCGAGATCGAGGACGTGCGTGGCGTGGCGGTCAACAGCCACATCGTCAAGACCTTGCTGGAACGTGAGTGGATCCGCGTCGTCGGCTATCGTGACGTGCCGGGCAAGCCAGCGATGTTCGCCACCACCAAGGCGTTTCTCGATCACTTCAACCTGAAGAACCTCGACGACCTGCCGCCGCTGGCCGAACTGCGGGAGCTGGAGCCCGAGCCGATGCTCGAATTCGACGACGCCCCGGTGCCCCAGGCCTTGCAGGAATTGGCCGACGCCAGCGCCGAGCCCGAAGAGCCGAAGGAAGAGACCAGTTTCCACTCGCTGCTGCTGGAGCTGGACACCATGGAGGAGGGCTTGAAGACCGACTTCGATGACCTGCTGCGTGACGCTCCTGGTCCTGAGGGTGAGTCGGATGAGCTGGCGGAGCCCGATAGCGCGGTGGAGCCCGAGCCCGAAGCGGAATGGGAACCGGAACCTGAAGAAGACATCCTCGGCGTTGCCCAAGCCCGGGAAAAACTGCTGGCCGCAGTCGCCGCCCTTGAGCCGCCAGAACCCGAGCTGAGCGACGAAGAAGCCGAAGCCCGCGCCCTGGCCGAAGCGATCGAAAACGAACGGCGCCAGTTCGACGACTGA	MNLTEPRELAPLLEAFLLASGKPQSMERLFELFEEGERPEPAVFKKALTLLGKSCEGRAFELKEVASGYRLQIREKFAPWVGRLWEERPQRYSRAMLETMALIAYRQPITRGEIEDVRGVAVNSHIVKTLLEREWIRVVGYRDVPGKPAMFATTKAFLDHFNLKNLDDLPPLAELRELEPEPMLEFDDAPVPQALQELADASAEPEEPKEETSFHSLLLELDTMEEGLKTDFDDLLRDAPGPEGESDELAEPDSAVEPEPEAEWEPEPEEDILGVAQAREKLLAAVAALEPPEPELSDEEAEARALAEAIENERRQFDD				NA	NA	NA	NA	NA
D1-35_00299	192			hypothetical protein	ATGAGTTCCACCAAAGACCCCTGCATCAGCCTCTGCAAGTTCGACGAAGATATTTGCATCGGTTGCGGGCGCAGCAAGCGCGAGATCAAGGCCTGGAAAAAACTCGACAAGGACGACAAGCGCGCCGTGCTGGCCGAAGCGGCGCTACGCCTGATCAAGCTGGGTGCCACCGGTCGGCGGAAAAAGCGCTGA	MSSTKDPCISLCKFDEDICIGCGRSKREIKAWKKLDKDDKRAVLAEAALRLIKLGATGRRKKR	PGPT0013210_1840	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013210-ydhL-K06938	NA	NA
D1-35_00300	1236			hypothetical protein	ATGAAAGACCTAGACCAGAACGACAGCCAGGAAATCGGCCCAGCAGGCGAGAAACTGCAAAAAGTCCTCGCCCGTATCGGCGTCGGTTCGCGCCGTGACGTGGAAGCCTGGATCACCCAGGGCCGCATCAAGGTCAACGGCAAAGACGCCACCTTGGGCCTGCGTGTCGACATGCACGACGCCATTACCATCGATGGCAAGGTGATCAAGCGCGAAGAGGCCGCCGAAACGGTGCGCCGCGTGATCATGTACAACAAGCCCGACGGCGAAATCTGCACCCGTGACGACCCGGAAGGCCGTCCGACGGTGTTCGACAAGATGCCGCGTCCGAAAGAAGGCCGCTGGATCAACATCGGTCGCCTGGACATCAACACCACCGGTTTGCTGATGTTCACCACTGACGGTGAGTTGGCCAACCGCCTGATGCACCCGTCCTACGAGATGGACCGCGAATACGCCGTGCGCGTACGTGGCGAAGTCGATGACGAGATGATCGAGCGCCTCAAGGCCGGCGTCGTGCTGGAAGACGGCCCGGCCCGTTTCACCGACATCAAGCAAGCACCGGGTGGCGAAGGGTTCAACCACTGGTACCACTGTGTAGTGATGGAAGGCCGTAACCGTGAAGTACGGCGCTTGTGGGAATCCCAGGGCCTGGTGGTCAGCCGCCTGAAGCGCGTGCGTTTCGGCCCGGTGTTCCTCAACTCCGACCTGCCGATGGGCCGCTGGCGTGAAATGACCCAGCAGGAAGTCGACATCCTCGCAGCCGAAGTGGGCCTCAAGCCTGTCTCCATGCCGCAGATGACCGCCAAGAGCAAGGACAAGCTGGAGCGGATGCAGCGCAAGTCCTCGCGTCCGATGGGCAAGACCGAGCGCGTGCGTACGCTGCGTCCGGCGGCCGATGGCGCAGCGACTGGCCCGCGTCCTTCCCGTGAACCGCAGATCGAAGGCGAGCGTCCGGCCCGCAAGCCTGCGCCACGTCAGGATGGCGAGCGCGGCCCGCGTACACCACGTCCGGCCAACGGTCGTACCGAGCGCGGCGAAGGTCGCGGTGCTCCGGCGGGTCGTGGCACGCCGGTCGCCGATCGTCCGGCCGACACCAAGCGTCCGGCCAAGCCGGCGCCAAAAAAACGCCCGGGTATCATCCTGGCCGACCGTGACGCACCGTCGGGCAAGCGCCGTGGCGCGCCGGCAGGTTCGGGGCAGCGTCCGGGGTTTGGGCGTCGTAAGCCGGAGTAA	MKDLDQNDSQEIGPAGEKLQKVLARIGVGSRRDVEAWITQGRIKVNGKDATLGLRVDMHDAITIDGKVIKREEAAETVRRVIMYNKPDGEICTRDDPEGRPTVFDKMPRPKEGRWINIGRLDINTTGLLMFTTDGELANRLMHPSYEMDREYAVRVRGEVDDEMIERLKAGVVLEDGPARFTDIKQAPGGEGFNHWYHCVVMEGRNREVRRLWESQGLVVSRLKRVRFGPVFLNSDLPMGRWREMTQQEVDILAAEVGLKPVSMPQMTAKSKDKLERMQRKSSRPMGKTERVRTLRPAADGAATGPRPSREPQIEGERPARKPAPRQDGERGPRTPRPANGRTERGEGRGAPAGRGTPVADRPADTKRPAKPAPKKRPGIILADRDAPSGKRRGAPAGSGQRPGFGRRKPE				NA	NA	NA	NA	NA
D1-35_00301	966			hypothetical protein	ATGGACACCCAACGAGCCATCTCCCATTTCCTTTACTACCTCGAACATCATCCCGCCCTGGTCGGCATCCAGCCCGCCAAGGTGTTGCTCGGCCACACGGCCGACTACGAAGCCCTGACCGGCGCGATTGCCGAACAGGCCGGCAGCGGCTCACCGTTCAGGTTCAGCGCCATGCGCCTGGATCTTGAACCCACGCAGCGCCTGTCCCAGGCAATTGCCGACAGCGACCTGTACATTTTTTTCTATGACTCTTCCACCCTGCCCAATCCCCGCCCCGACGGCCCGGACTTTGTCCGTGCGCTGCAAGGCGTGATGGCGGAAAACTGGAAGAAATCGCTGCTGTTCAAGGATTACGGCGAATATTTTTACGACACCTTCAGCGTCATTCCGCAACGCATCGCCGGGCTCAATAGCCACCTCATCCGCCGCATGTCCCAGGCCACCACCTTGAGCTTCGAAGATGAGCACGGCTCGTATTTCGACACGGCGCTGGACAGCGTCAAGAAGTGGACCGATATCAATGGCGTCGGCAACTACGATCTGGCCCCAGGCGAAATCGCCACTCACAGCGACACCATCAATGGCCGGGTGAAATTTGTCGGCACGTTTCTCAGTACGATTCCCTTCGCGCGCAAGTACGGCGTGTTGCAATCGCCGCTGGAGCTGTGGATCGAAGACTCCACGATCCAGAAAATCGCCACAGACGTACCGGGCCTGGAGCACGACTTCAACAAGTACCTGGACGCCAACCCGTCCAACCGCCGCATCGAGGAACTGGGCATCGGCACCAACGAAGGGGTCAAGGGCCTGTACGCTCGCAATGCCGGTTTCGAAGAGCGCCATTGCGGCTTGCACCTGGGGCTCGGTGGCGGGGCCAAGGGCAGCCATCACCTGGATCTGATTTTCCAAGGGGGTGTGCTGGCGCTGGACAAGGAGCCGGTGTTTGAGGGGCGGTTTGTGCTTTAA	MDTQRAISHFLYYLEHHPALVGIQPAKVLLGHTADYEALTGAIAEQAGSGSPFRFSAMRLDLEPTQRLSQAIADSDLYIFFYDSSTLPNPRPDGPDFVRALQGVMAENWKKSLLFKDYGEYFYDTFSVIPQRIAGLNSHLIRRMSQATTLSFEDEHGSYFDTALDSVKKWTDINGVGNYDLAPGEIATHSDTINGRVKFVGTFLSTIPFARKYGVLQSPLELWIEDSTIQKIATDVPGLEHDFNKYLDANPSNRRIEELGIGTNEGVKGLYARNAGFEERHCGLHLGLGGGAKGSHHLDLIFQGGVLALDKEPVFEGRFVL	PGPT0020940_2010	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
D1-35_00302	138			hypothetical protein	ATGCAAGCACTGGACAAAGACTTGGAAACCGAACTGCAACTGGATGAATGGTTCGAAGCGCCGACCCATGAAGCCGCCGTTGAAATGATGCAAGCCGACGCCGTTGTGCCGTTCGGCACGGCGATGTGGCCTCTGTAA	MQALDKDLETELQLDEWFEAPTHEAAVEMMQADAVVPFGTAMWPL				NA	NA	NA	NA	NA
D1-35_00303	1422	aroP	COG1113	Aromatic amino acid transport protein AroP	ATGACCGTTGTAGAAAATACGCATTCAGGCGAGCTGAAGCGCGGCCTGAAAAATCGCCACATCCAACTGATCGCCCTCGGTGGCGCGATCGGTACCGGGTTGTTCCTCGGCTCGGCGGGGGTGCTGAAATCAGCCGGCCCGTCGATGATCCTCGGCTACGCAATCTGCGGCTTCATCGCCTTCATGATCATGCGCCAGTTGGGCGAAATGATTGTCGAAGAGCCGGTGGCCGGTTCCTTCAGTCACTTCGCGCACAAATACTGGGGCGGTTTCGCCGGATTCCTGTCGGGCTGGAACTGCTGGATCCTCTATATCCTGGTGGGCATGTCCGAGCTGACCGCCGTCGGCAAATACATCCATTACTGGGCGCCGGACATCCCGACCTGGGCCTCGGCGGCAGCGTTCTTCATCCTCATCAACGCGATCAACCTGGCCAACGTCAAAGTGTTTGGCGAGGCTGAGTTCTGGTTCGCGATCATCAAGGTGGTAGCGATCGTCGGCATGATCGCCCTGGGCAGTTACCTGCTGGTCAGCGGTCACGGCGGCCCGCAGGCTTCGGTTACCAACCTGTGGTCCCACGGTGGGTTCTTCCCCAACGGCGTCAGCGGCCTGGTGATGGCCATGGCGATCATCATGTTCTCCTTCGGCGGCCTGGAGATGCTCGGTTTCACCGCTGCCGAAGCCGACAAGCCGAAAACCGTGATCCCCAAGGCCATCAACCAGGTGATCTACCGGATCCTGATTTTCTACATCGGTGCGCTGGTGGTGCTGCTCTCGCTGACACCATGGGACAGTCTGTTGACCACCCTCAACGCCTCTGGCGATGCCTACAGTGGCAGTCCGTTCGTGCAGGTGTTCTCGATGCTCGGCAGCAACACCGCGGCGCACATCCTCAACTTCGTGGTGCTGACCGCAGCGCTGTCGGTGTACAACAGCGGCACCTACTGCAACAGCCGCATGTTGCTGGGCATGGCCGAGCAGGGCGATGCGCCCAAGGCGCTGGCGAAAATCGACAAGCGTGGCGTGCCGGTGCGGTCGATCCTTGCTTCGGCGGCGATCACCCTGGTGGCGGTGCTGCTGAACTACCTGATCCCCCAGCATGCGCTGGAGTTGCTGATGTCGTTGGTGGTCGCCACCCTGGTGATCAACTGGGCGATGATCAGCTACTCGCACTTCAAGTTCCGCCAGCACATGAACCAGACTCGCCAGACGCCGCTGTTCAAGGCGTTGTGGTACCCGTACGGCAACTACGTCTGCCTGGCGTTCGTGGTGTTCATCCTCGGCGTGATGCTGCTGATCCCGGGCATCCAGGTTTCGGTCTACGCGATTCCGGTGTGGGTGGTGTTCATGTGGGTGTGCTACGTGATCAAGAACAAGCGCAGTGCCCGGCATGAACTGGCCGTGGCGGCTGCCGCCAAGTAG	MTVVENTHSGELKRGLKNRHIQLIALGGAIGTGLFLGSAGVLKSAGPSMILGYAICGFIAFMIMRQLGEMIVEEPVAGSFSHFAHKYWGGFAGFLSGWNCWILYILVGMSELTAVGKYIHYWAPDIPTWASAAAFFILINAINLANVKVFGEAEFWFAIIKVVAIVGMIALGSYLLVSGHGGPQASVTNLWSHGGFFPNGVSGLVMAMAIIMFSFGGLEMLGFTAAEADKPKTVIPKAINQVIYRILIFYIGALVVLLSLTPWDSLLTTLNASGDAYSGSPFVQVFSMLGSNTAAHILNFVVLTAALSVYNSGTYCNSRMLLGMAEQGDAPKALAKIDKRGVPVRSILASAAITLVAVLLNYLIPQHALELLMSLVVATLVINWAMISYSHFKFRQHMNQTRQTPLFKALWYPYGNYVCLAFVVFILGVMLLIPGIQVSVYAIPVWVVFMWVCYVIKNKRSARHELAVAAAAK	PGPT0020807_59	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020807-aroP-K11734	NA	NA
D1-35_00304	414	arfB	COG1186	Peptidyl-tRNA hydrolase ArfB	ATGCTGGTCATTTCCAACACCGTGCACATCCCGGACGCCGAGATCGAGCTGACGGCCATCCGCGCCCAGGGCGCCGGCGGGCAGAACGTCAACAAGGTTTCCAGCGCCGTGCACTTGCGCTTCGATATCCCGGCTTCGTCGCTGCCCGAGTTCTACAAGGAGCGGCTGCTGGCCCTGCGCGACAGTCGCATCACCGGCGACGGCGTATTGATCATCAAGGCCCAGCAATACCGCACGCAGGAACAGAACCGGGCCGATGCGCTGGAGCGCCTGGTCGAGCTGATCCTCAGCGCCACCAAGGTCGAAAAGAAACGCCGTCCGACCAAGCCGACCCTGGGTTCGAAAAAACGTCGTCTCGAATCCAAGACCAAGCGCGGCTCGATCAAGGCCGGGCGCGGCAAGGTGGACTTCTAG	MLVISNTVHIPDAEIELTAIRAQGAGGQNVNKVSSAVHLRFDIPASSLPEFYKERLLALRDSRITGDGVLIIKAQQYRTQEQNRADALERLVELILSATKVEKKRRPTKPTLGSKKRRLESKTKRGSIKAGRGKVDF	PGPT0013740_337	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
D1-35_00305	1200	yhhS_1		putative MFS-type transporter YhhS	ATGCCAGATTCCCAGCGCCCCTTGGCGGTCACGCTGCAAGTCGTCTCCATCGTCCTGTTCACCTTCATCGGTTATCTGAACATCGGTATTCCCTTGGCCGTACTGCCCGGCTTCGTTCATGGCGAGCTGGGCTTCGGCGCGGTGATCGCCGGGCTGGTCATCAGCGTGCAGTATCTGGCCACCCTCCTCAGCCGGCCTTATGCGGGGCGCATCATCGACAACCTGGGCAGTAAACGGGCGGTCATGTTCGGCCTGGCCGGATGTGGCCTGAGCGGCGTGTTCATGCTGGTCTCGGCCTGGACCGCGGGCATGCCGGCCCTGAGCCTGAGCAGCCTGTTGATCGGACGCCTGGTGCTGGGCAGCGCGGAAAGCCTGGTGGGTTCAGGCTCGATTGGCTGGGGCATCGGCCGGGTCGGCGCGGCCAATACCGCCAAGGTGATTTCCTGGAACGGTATCGCCAGCTACGGCGCACTGGCGATCGGCGCGCCGCTGGGGGTCTGGCTGGTCAAGTCCCTGGGGCTGTGGAGCATGGGCGTCAGTATCATCCTGCTGGCGGTGCTCGGGCTGGCACTGGCCTGGCCGAAAACCGCAGCGCCGATCGTCACCGGCGAGCGCCTGCCATTCATGCATGTGCTCGGGCGCGTACTGCCTCATGGTTGCGGCCTGGCCCTGGGCTCCATCGGTTTTGGCACCATCGCCACCTTCATCACCCTGTATTACGCCACCCGGCATTGGGATAACGCCGTGCTCTGCCTGAGCCTGTTCGGTGCGAGTTTCATCGGTGCACGCTTGCTGTTCGGCAACCTGATCAACCGTCTTGGTGGCTTCCGGGTGGCGATCGCCTGCCTCTCGGTGGAAACCCTGGGCCTGCTGCTGTTGTGGTTGGCGCCGGATGCGCAGTGGGCCCTGGCGGGTGCGGCGTTGAGTGGTTTCGGGTTTTCGCTGGTATTCCCGGCGCTGGGGGTGGAAGCGGTCAACCTGGTACCGGCCTCCAGCCGTGGGGCGGCAGTGGGCGCATATTCACTGTTCATCGATTTGTCGCTGGGCATCACCGGTCCGTTGGCCGGCGCGATTGCCGCGGGTTTCGGCTTTGCCTCGATCTTTCTGTTCGCCGCTCTGGCAGCCCTCGGTGGGCTGGCATTGAGCGTCTACCTGTATCGGCAGGCCCCTCGGTATCGCGAGGAGCGGGACAGGCACTAG	MPDSQRPLAVTLQVVSIVLFTFIGYLNIGIPLAVLPGFVHGELGFGAVIAGLVISVQYLATLLSRPYAGRIIDNLGSKRAVMFGLAGCGLSGVFMLVSAWTAGMPALSLSSLLIGRLVLGSAESLVGSGSIGWGIGRVGAANTAKVISWNGIASYGALAIGAPLGVWLVKSLGLWSMGVSIILLAVLGLALAWPKTAAPIVTGERLPFMHVLGRVLPHGCGLALGSIGFGTIATFITLYYATRHWDNAVLCLSLFGASFIGARLLFGNLINRLGGFRVAIACLSVETLGLLLLWLAPDAQWALAGAALSGFGFSLVFPALGVEAVNLVPASSRGAAVGAYSLFIDLSLGITGPLAGAIAAGFGFASIFLFAALAALGGLALSVYLYRQAPRYREERDRH				NA	NA	NA	NA	NA
D1-35_00306	213			hypothetical protein	ATGACCGACGACACCTCCTCCTTCAGCCCGGCCCAGGCCAGCGTACTGATCGACACCGCCGAGAAAATGGTCGACATCTGGACCCGTCTCTCACCCGAGAAACAAGCCGCCCTGCTGGCCCGCTTCGGCACGGAAGAAAATGCCCTGGCCGCTCTCGTCACCACGCATCTGGTCGCTGGCAGAACCCCTGGCGAGACGCCGTCCGGCAAATAG	MTDDTSSFSPAQASVLIDTAEKMVDIWTRLSPEKQAALLARFGTEENALAALVTTHLVAGRTPGETPSGK				NA	NA	NA	NA	NA
D1-35_00307	144			hypothetical protein	ATGCACGAGATTCCGAATCTCCCCTTCCCAAGCCTGCACGAACCTGAGCAGACGCCCACGCTACAAGCCGGGGGGCAACCCGACGCCCAGCAACCCGAGCCGCCGCAAGCCACTGAACGCCGCCAGGCCGACAGCGAAGACTGA	MHEIPNLPFPSLHEPEQTPTLQAGGQPDAQQPEPPQATERRQADSED				NA	NA	NA	NA	NA
D1-35_00308	1626	ctpH		Methyl-accepting chemotaxis protein CtpH	ATGTTTTTACAGAAATCCCTGAAAGCCCAGATTCTGGCGTTGCTGAGCGGCAGCTTGCTGGCAATGCTGCTGATCGCCCTGGCGTCCTTCCATTTCCTTTCCGATGGCATCCAGAATTATCGCAACCTGATCGACGGGCCGTTGCGCGCGTCGCAATTGATCGACGAGGCCAACCTGCAATTCAAGGTCCAGGTCCAGGAATGGAAAAACGTGCTGCTGCGTGGCAAGCAGCCGGCGGATCTGGAGAAATACTGGAAGCAATTCGAAGACCGTCAACGCGATGTCCAGGGCATCCTTGGCGACCTGATCAAACACGAGGGTGTTCCGGCGCAGATCAAGACGCGCATCGAACGCCTGCGAGGCGAACATGCCCAACTGGGCGCGGCCTATCAAAAGGGCCGTGATGCCTATGTTGCGGCGGGCGCCGACGCGGCGGCAGGTGATGCCGCGGTCAAGGGCGTGGACCGTGCGACCAGCGAGCAGATGAGCGAGCTGGTGGTCGAGCTGCACAAACTGGGTGATGAGCAGTCGGCGCTGATCAGTGCCGGTGCCGATCGCACGATCCTGCTGGGGACGGTGATCATGCTCGTCTCGGGAGTGCTGATCGGGTTGCTGAGTCTGTGGTTGGTCAACCGCAACCTGGTGCAACCGATCCGTAAGCTGATCGAGTACGTGACTCAACTGAGCCGCGGGCGTTTCGCCGAGCGTGTCACCAGCACGCGCCAGGATGAGCTGGGCGACCTGGCCCTGGCGGCCAACACGCTGCGCGATTTCCTTGCCGAAACCTTCACCCGCCTGCAACGCAGTGCCACCGAGCTGGACAGTGCCAGCGGTGAACTCAATGCCATTGCCAGCCTGATGAGCCAGGGCACCAGCGAGCAATTCGAGCGTACCGATCAGGTGGCGACGGCGATGAACGAGATGTCCGCCACCGCCCAGGAAGTTGCCCGCCATGCCGCCGATGCGGCGCGCGCTGCCGATGATGCCGATCATTCGGCGCAGCAGGGCGAGAAAGTGATGCAAGGCACGATTCACACCATCACGCAGATGCGTGGCGAAATTGCCAACACGGCCACGGTGATCCGTCGCCTGGAAGCCGACAGCGGGCGCATCGGCAAGGTATTGGAAGTGATCCGCGGGATCGCCGAACAGACCAACCTGCTGGCCCTGAACGCTGCCATCGAAGCCGCCCGGGCCGGTGAGGCGGGGCGTGGTTTTGCGGTGGTCGCCGATGAAGTACGCAGCCTGGCTCAACGCACGGCGTCGTCGATCATCGAGATCAATCAGATCATCCAGACCGTCCAGACCGGGGCGGTGGACGCGGCCCAGGCCATCGAAAGCGGGCAGTCGCGCAGTGAGGAAAGTGTCGAGCAGGTGACCCAGGCCGGCGAGATGCTCGAACGCATCACCCAGGCAGTCGAGGCGATTCGCGACATGAACCGCCAGATCGCCACGGCAGCGGAAGAGCAGACCTCGGTGGCCGAGGACATCTCGCGCAACCTGACGGAAATCACCTGCATCGCCAGCACCAACCTGGACAACGTGCAGCGCACCGAAGCGGCGAGCCGGGATCTGCACGGGTTGTCCGGGCAGTTGAATGAAGTGACGGCGCGGTTGAGTGCTTGA	MFLQKSLKAQILALLSGSLLAMLLIALASFHFLSDGIQNYRNLIDGPLRASQLIDEANLQFKVQVQEWKNVLLRGKQPADLEKYWKQFEDRQRDVQGILGDLIKHEGVPAQIKTRIERLRGEHAQLGAAYQKGRDAYVAAGADAAAGDAAVKGVDRATSEQMSELVVELHKLGDEQSALISAGADRTILLGTVIMLVSGVLIGLLSLWLVNRNLVQPIRKLIEYVTQLSRGRFAERVTSTRQDELGDLALAANTLRDFLAETFTRLQRSATELDSASGELNAIASLMSQGTSEQFERTDQVATAMNEMSATAQEVARHAADAARAADDADHSAQQGEKVMQGTIHTITQMRGEIANTATVIRRLEADSGRIGKVLEVIRGIAEQTNLLALNAAIEAARAGEAGRGFAVVADEVRSLAQRTASSIIEINQIIQTVQTGAVDAAQAIESGQSRSEESVEQVTQAGEMLERITQAVEAIRDMNRQIATAAEEQTSVAEDISRNLTEITCIASTNLDNVQRTEAASRDLHGLSGQLNEVTARLSA	PGPT0015710_21337	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
D1-35_00309	1023	zntB_1	COG0598	Zinc transport protein ZntB	ATGAATCACAGCATCGATCAAAGCCACCGCGATCCGGATCTGTTCGGCCTGCTCTACGGGTTTCGCTTCCGCCCCGGCGAGCGCGGGCGAGAGATCGATTCGGCCCAGGCCCTGCGATGCCTGCAGCAACCGGAGGACGCCGACGAATTCCTCTGGCTGCATCTGAACCTGGCTCATGCCGCTTGCGAGCGCTGGATGAAAAACCATCTGGCCTTGCCCGAGGAGTTTTTCGAAGCCCTGCACGAAGGCTCGCGCTCGACCCGCATCGAGCACGTCGACTCGGCCTTGCTGGCCGTGGTCAACGATGTGGTATTCAACCTCAGCAACCTGGTGTCTTCGGACGTGTCCACCTTATGGGTTTGCGTTCACAGTCGGCTGATAATCAGCGCACGCCTGCAGCCATTGCACTCGGTGGACAAGCTGCGTTCGTCGGTCAAGGCTGGCGAGTGCTTCCGTTCGCCGCTGGAATTGCTCGTGCATCTGCTGCGTGACCAGGGCGAAGTGCTGACCCAGATCGTGCGCAAGACCAGCCTCAGCGTCGACCAGATAGAAGACCAGTTGCTGTCCTCGCGGGTGTCCAACAACCGCGCCGAACTGGGTAGCCAACGGCGGATACTGGTGCGCCTGCAACGCCTGCTGGCATTGGAGCCGGGTTCGTTGCTGCGTCTGCTCAATCGCCCGCCACAGTGGTTGCAGAAAGAAGACGTCAAGGAGCTGCGCAAATCCACCGAGGAATTCGCCCTGATCATCAACGACCTCACCGCGTTGGGCGAGCGGATCAAATTGCTGCAGGAAGAAATCGCCGCCAACCTCAATGAACAGAGCAACCGCACGCTGTTCACCTTGACCGTGGTCACGGTGCTGGCCTTGCCCATCAACATTATTGCCGGTTTTTTTGGCATGAATGTCGGCGGCGTGCCGCTGGCCGATGATGCGCACGGCTTCTGGATTCTTGTTGCACTGGTGGCGACGTTCACGCTGATCGCCGGGCGCTGGGCGTTCCGCAAGCGCCGTGATTATTGA	MNHSIDQSHRDPDLFGLLYGFRFRPGERGREIDSAQALRCLQQPEDADEFLWLHLNLAHAACERWMKNHLALPEEFFEALHEGSRSTRIEHVDSALLAVVNDVVFNLSNLVSSDVSTLWVCVHSRLIISARLQPLHSVDKLRSSVKAGECFRSPLELLVHLLRDQGEVLTQIVRKTSLSVDQIEDQLLSSRVSNNRAELGSQRRILVRLQRLLALEPGSLLRLLNRPPQWLQKEDVKELRKSTEEFALIINDLTALGERIKLLQEEIAANLNEQSNRTLFTLTVVTVLALPINIIAGFFGMNVGGVPLADDAHGFWILVALVATFTLIAGRWAFRKRRDY	PGPT0004205_255	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNT_TRANSPORT_SYSTEM,PGPT0004205-zntB-K16074	NA	NA
D1-35_00310	306			hypothetical protein	ATGAAAACTTTGACTGCCCTGTTCACCGCTGCCGCCCTGACCCTCACCGCCGGCCTGGCCCAGGCTGATGTACGAATCGACCAGGTTCCTCAGTTGGTCAAGGACGGCAAGATCAAGTCGCTGGAATCGATGAATGCCGAAGCCCTGAAGTTGCATCCAGGCGCTACCATCACCGATACCGACCTGGACAATCACTTCAACGGCTACGAATATGAAGTGGAACTGAAAACTGCCGATGGCAAAGAGTTCGACGTTGATTTCGATGCAACAACCGGCAAAGTCCTGACCAACAAACAAGACACTTAA	MKTLTALFTAAALTLTAGLAQADVRIDQVPQLVKDGKIKSLESMNAEALKLHPGATITDTDLDNHFNGYEYEVELKTADGKEFDVDFDATTGKVLTNKQDT				NA	NA	NA	NA	NA
D1-35_00311	1128	glpQ	COG0584	Glycerophosphodiester phosphodiesterase	ATGCCCGTCACCTTTACCCGTAGCGCGTTGATGTTGAGCCTGATGCTCGGTTTCGGCCCGGCACACGCCGCCGAAGTGCCAAGTCCCAAGGCCCTGGCAACCCAGCAGGGCATCCCCCATCCCGCGGTCATCGCCCATCGCGGCGCCTCGTTCGATGCGCCGGAGTCCACCGCCGCGGCCTACAAGCTGGCCCGTGACCTGGGCGCTGATTATCTTGAGCTCGACCTGCAACGCAGCAAGGATGGCGTGCTGTTCGTCCTGCACGACGATAGCCTGCTGCGCACCACCGATGTCGCCACCAAGTTCCCCGAGCGCAAGGACAGCACCGCCAACCAATTCACCATGGCCGAACTCAAGACGCTGGACGCCGGCAGCTGGTTCAACGCGGCCTACCCGGAGCGTGCGCGTCCTGCCTTTGTCGGCCTGAAGATCCTGACCCTGGATGAGGTCATCAATATCGCCGAGGGCAACCCGCAACAGAAGCCGGGGCTTTACATCGAAACCAAGGAACCGAAGCTGTTCCCGGGCATCGAGCGCGACCTCAAGGACAAGCTCCAGGATCGTGGCTGGCTGAGCCCGTCCGGTTCCAAGCTGGCCAAGCGCGCCCTCGGTGTGGGCCAGGGCAAAGGCAAGGTGGTGTTGCAGACCTTCGAAAAGAGCAGCCTGGAACTGCTGCACAAGGAAATGCCCAAGGTGCCGAAAATCCTGTTGCTGTGGATCGGCGAAGGCAATATCGAGCCCCAGTCCAAGGTGCCGTTTGCCGAGTCCGGCGAGACCGACAAGGCGGTTTACTACGCGAAACAGGAGCCCAAGGACAAGGCCGAATTCGAAAAATGGGTCCAGTACGCCAAGGCCCAGGGCGCCATCGGCACCGGCCCTTCGGCAGCATTGACCCACGGCGGCAGCCAGAGTTATGCGGATCTGGTGAAACCCTGGATGAACCAGTACACCCACGATCAGGGTTTGCTGGTGCATGTCTATACGGTGGATGAGCCGGTGGACTTCAAGAAAGTCATGGATGCTGGTGTGGACGGAATTTTCACCAACCGGGCCAGCGAATTGCTCAAGTACTTCAAACGCCCTGAAACAGGCAGCGTGACGCAACTTCTGCAGAAGAACGGATACTGA	MPVTFTRSALMLSLMLGFGPAHAAEVPSPKALATQQGIPHPAVIAHRGASFDAPESTAAAYKLARDLGADYLELDLQRSKDGVLFVLHDDSLLRTTDVATKFPERKDSTANQFTMAELKTLDAGSWFNAAYPERARPAFVGLKILTLDEVINIAEGNPQQKPGLYIETKEPKLFPGIERDLKDKLQDRGWLSPSGSKLAKRALGVGQGKGKVVLQTFEKSSLELLHKEMPKVPKILLLWIGEGNIEPQSKVPFAESGETDKAVYYAKQEPKDKAEFEKWVQYAKAQGAIGTGPSAALTHGGSQSYADLVKPWMNQYTHDQGLLVHVYTVDEPVDFKKVMDAGVDGIFTNRASELLKYFKRPETGSVTQLLQKNGY	PGPT0018470_1585	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
D1-35_00312	327			hypothetical protein	ATGCGCACCACTTCGACACTCATCTGCCAGGCCGCGGACCAGCTCAGGGGCTTCGTTGGCCTGAATCGCAAGACCGGCCATTACATCGTGCGTTTCAGCGAAGACTCCTTTGGCATGGACGTGGCCGCCGACGGCATCATCCCCACCTGCGAATTCGTCTGGGCCCCTGCGACTGGCGGCGCCATGGCGCTCAGGCGCGAGCGAATCCAACTGCTGCTTGACCAGAACATCAACGACCGGATCAACCTTACCGAACCGCTGCGGGTGTACATGGCCCGCCAAGACTTGCCGGAAATCGTAGCGGTGCGGCAGATGGTGGGAGGTTGA	MRTTSTLICQAADQLRGFVGLNRKTGHYIVRFSEDSFGMDVAADGIIPTCEFVWAPATGGAMALRRERIQLLLDQNINDRINLTEPLRVYMARQDLPEIVAVRQMVGG				NA	NA	NA	NA	NA
D1-35_00313	309	yqjZ	COG2329	putative protein YqjZ	ATGAACGGCCATTATTACGCGGTGATCTTCATATCGTTGCGTACCAAGGGAGACCAAGGCTACGCCGAAGCCGCCGAACGCATGCTGGCCCTTGCCCGGGAGCAGCCCGGATTCCTGGGCGTCGAAACGGCCCGTGGCGATGATGGTCTGGGAATCACCGTGTCCTACTGGCGCGATGAAGCAGCCATCCTGGCCTGGAAGCAGCATCCGGAACACCGCGCGATCCGTGAGCGTGGTCGCTCCACCTGGTACAGCCAATGCCATACGCGGGTGTGCAAGGTCGAACGGGACTATGCCTTCCAACGCTAA	MNGHYYAVIFISLRTKGDQGYAEAAERMLALAREQPGFLGVETARGDDGLGITVSYWRDEAAILAWKQHPEHRAIRERGRSTWYSQCHTRVCKVERDYAFQR				NA	NA	NA	NA	NA
D1-35_00314	711	pyrG_2		CTP synthase	ATGGAAAAACAGCGTCCCATCCATATCGCCCTGATCGGCGATCATGACCCGCAAATCACCGCTCACCAAGCGATCCCCCTCGCACTTGAGCTGGCGGGCGAGCGAACCGGCTGTGACATCGGTTTCCAATGGCTGGCCACCGATCTCATCGTCGACGACACGCTGCTTGATAACTTCGATGGCATCTGGTGCGTGCCCGGCAGTCCTTACCGGAACGAAAGCGGTGCCTTGCGGGCCATCCGTTTTGCCCGCGAACAGCGGCGCCCGTTCCTCGGCACCTGCGGTGGTCTTCAGCATGCCGTACTGGAATATGCCCGCAATGTGTTGGGTTGGACCAACGCCGCCCATGGCGAAACCTCTCCAGAGGCGGAACGGGCGCTGCTGACGCCGCTGAGCTGCGCCTTGATCGAAACCATCGACAGCCTTCAGCTCGAAGTGGATTCGCTGATCGCCAAGGCTTATGGCTGCGCGACAGCGTTCGAGGGTTACCGTTGCCGCTTCGGGGTCAATCCGCATTTTGAACAGGACTTGCTGAATGAGCACTTGCACGCCGTGGCCCGAGATTCGGCCGGGGACCTGCGGGCCGTGGAGCTGCGCGATCATCCGTTTTTTGTCGCAACGCTGTTCCAGCCGGAACGTGCCGCGTTGGAAGGCCGGGTGCCGCCGCTGGTCAAAGCGTTTGTCGAAGCCTGCGCGAGGAAAATGCCATGA	MEKQRPIHIALIGDHDPQITAHQAIPLALELAGERTGCDIGFQWLATDLIVDDTLLDNFDGIWCVPGSPYRNESGALRAIRFAREQRRPFLGTCGGLQHAVLEYARNVLGWTNAAHGETSPEAERALLTPLSCALIETIDSLQLEVDSLIAKAYGCATAFEGYRCRFGVNPHFEQDLLNEHLHAVARDSAGDLRAVELRDHPFFVATLFQPERAALEGRVPPLVKAFVEACARKMP	PGPT0021215_5922	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021215-pyrG-K01937	NA	NA
D1-35_00315	948			hypothetical protein	TTGTTGATTCCTGATCGCCACTATAGATTGGCGTTCACGCAATCAATATTGGCGTTTATCCAAGTGCTCAATGCAGCGACGCAATACCGTCTCGGTTATCCCGACTTATCCTTGATCCTGGCGCTGGTCCGTGGCGGCTCGCTGGCCCGGGCCGGGCGGCTGCTGGAGGTGGATGTGTCGACGGTTTTCCGCTCGGTGCGCCGTTTGGAGGCGGCTCTGGGCCAGCCCTTGTTCGAGAAAAGCCGTTCCGGATATTTGCCCACGAGCCTCGCGCAAGCACTGGCCGAGCAGGCCGAGCGCGCTGAGCAGGCGCTGGAGGCCGCGCGTGTCGGGGTGGAGCAGGGCGGCAACGTGGTCAGCGGCACGGTACGCCTGACCTGTACCGACTCGGTGCTGCAGGCACTGCTGTTGCCCGCTTTAGCGAGGTTCATGCCTGCCTATCCGGCGTTGACGCTGGAGCTGAGCACCACGAATGACTTCGCCAACCTTAGCCGTCGCGATGCGGATATTGCCTTGCGGCTGACGCGCACGCCGCCGGAGCATCTGGTGGGTCGAAACCTGGGCCCCGTGGTTTACCGGGTATGTGCCGGCGCCACGTATTTGTCCTCAGCCAATGCGAATGACCTGGCCGCCATGACCTGGATCGCGCCGGACGATTTCCTGCCGGATCACCCCACCGTGGCCTGGCGCCGTCAGCACTTGCCTGGCGTGGTGCCTGCCTATCGCTGCAACAGCATGCTCTCGGTGACTGAACTGGTGCGGGCCGGTCTGGGCGTTGCGGCGCTGCCGGACTTCCTGATCGATGGCAACCAGGGCCTGACGCCCATTGGCGAGCCTTTGGCCGGGTATGACACGGCGCTCTGGTTGCTGACCCGGCCGGATTGCCGCGCGTTGCGCTCGGTGGTGACGCTGTTTGACGAGCTGGGGCGCGATCTGCGGCTGAACTGA	MLIPDRHYRLAFTQSILAFIQVLNAATQYRLGYPDLSLILALVRGGSLARAGRLLEVDVSTVFRSVRRLEAALGQPLFEKSRSGYLPTSLAQALAEQAERAEQALEAARVGVEQGGNVVSGTVRLTCTDSVLQALLLPALARFMPAYPALTLELSTTNDFANLSRRDADIALRLTRTPPEHLVGRNLGPVVYRVCAGATYLSSANANDLAAMTWIAPDDFLPDHPTVAWRRQHLPGVVPAYRCNSMLSVTELVRAGLGVAALPDFLIDGNQGLTPIGEPLAGYDTALWLLTRPDCRALRSVVTLFDELGRDLRLN				NA	NA	NA	NA	NA
D1-35_00316	609	slmA_1		Nucleoid occlusion factor SlmA	ATGACCGTACCGCAACGCCTTACCGAGCGAAAACGCGAAGCTATTCTCCAGGCCGCGATTGCCGAATTCCGCAGCAGCGGCTTCGAGATCACCAGCATGGACAAGATCGCGGCGACCGCGGGGGTGTCCAAGCGCACGGTGTATAACCACTTCCCGAGCAAGGAAGAGCTGTTCGCCGAGATTCTCAATCGGTTGTGGAACAGCATCACGGCGGAACAGCTCACGCCCTACAATTCGCAAACACCACTGCGCGATCAGCTGCGAACGCTGCTCCAAGCCAAACTGCAGATGCTGGCCGACGAGAATTTCCTCGACCTGGCGCGCATCGCCATCGCCGCCACGATTCATTCCCCCGAGCGGGCCCAGGACATGGTTGCGCGCATGGGCGAGCGTGAAGAAGGCCTGACCGTCTGGGTTCGCATGGCCCAGGCCGATGGCCGGCTGAAACCCGTCGACCCGGCATTTGCGGCCCAGCAGATGCACGGGCTGATCAAGACGTTCGCTTTCTGGCCGCAGATCTCCATGGGCCAACCAAGCCTGGCGCCCCATGAACAGGCGCAGGTGATCGAATCGGCACTGGACATGTTCCTCGCCTGCTACCAGCGCTGA	MTVPQRLTERKREAILQAAIAEFRSSGFEITSMDKIAATAGVSKRTVYNHFPSKEELFAEILNRLWNSITAEQLTPYNSQTPLRDQLRTLLQAKLQMLADENFLDLARIAIAATIHSPERAQDMVARMGEREEGLTVWVRMAQADGRLKPVDPAFAAQQMHGLIKTFAFWPQISMGQPSLAPHEQAQVIESALDMFLACYQR				NA	NA	NA	NA	NA
D1-35_00317	1047		COG2220	putative protein	ATGACCACTCCCTCGTTTCGCACCGACAACCCCTCATCACGGCATGAGCAAGGCAAGTTTCGCAATCATGCCTTCACTCCGCGCGAAGGATTCGGTACGACCCTGCGCGTCATCTGGAACATGATTTTTCACAAGCCGCGAACCACACGGCCCGCAGGCACCATCGAGGTCAAGCCGCTGACCCGGGACGCTCTGCTGGCCGCACCGAACCACAGCGTCTTCCGCCTCGGCCATTCCACGGTGCTGCTCAAGCTGCGAGACAAGTTCTGGCTGACCGATCCGGTGTTCGCCGAGCGTGCCTCACCCGTGCAGTGGGCCGGTCCGAAGCGTTTTCATCAGCCGCCCATCAGCCTGGAAGAATTGCCGCCGATCGAAGCGGTGATCCTGTCCCACGATCATTACGACCACCTCGATTATCAGGCCATCCTCAAGCTGGCGGCCAAGACTCGCCACTTCCTGGCGCCTCTTGGCGTCGGCGACACCCTGATCAAATGGGGCGTCGATGCCAGCAAGGTGCGTCAGCTGGATTGGTGGCAAGGCACCGAGGTGGACGATATCGAGTTCATCGCTACGCCATCCCAGCACTTTTCCGGACGTGGCCTGTTCGACAGCAACAGCACCTTATGGTCGTCCTGGGTCATGATCGACGGCGCCACGCGAATCTTCTTCAGTGGCGACACCGGTTACTTCGACGGTTTCAAACGCATCGGCGAGCAATACGGCCCCTTTGACCTGACGCTGATGGAAACCGGCGCCTATAACGTCGACTGGCCCCACGTCCACATGCAGCCGGAGCAGACCCTGCAAGCACATATCGACCTGAAGGGCCGCTGGCTGCTGCCGATCCACAACGGCACGTTCGACCTGGCGATGCACGCCTGGTATGAACCCTTCGATCGCATTCTGGCCCTGGCCTGGGAGCGCAACGTCAGCATCACCACGCCACAAATGGGCGAGGCCTTCAACCTGGCGCAACCGCAACGGGGTCGCGCCTGGTGGCTGGACGTGGAGCCCTCGGTTTATCAGAACCAGACCGGCGTGGCGTGA	MTTPSFRTDNPSSRHEQGKFRNHAFTPREGFGTTLRVIWNMIFHKPRTTRPAGTIEVKPLTRDALLAAPNHSVFRLGHSTVLLKLRDKFWLTDPVFAERASPVQWAGPKRFHQPPISLEELPPIEAVILSHDHYDHLDYQAILKLAAKTRHFLAPLGVGDTLIKWGVDASKVRQLDWWQGTEVDDIEFIATPSQHFSGRGLFDSNSTLWSSWVMIDGATRIFFSGDTGYFDGFKRIGEQYGPFDLTLMETGAYNVDWPHVHMQPEQTLQAHIDLKGRWLLPIHNGTFDLAMHAWYEPFDRILALAWERNVSITTPQMGEAFNLAQPQRGRAWWLDVEPSVYQNQTGVA				NA	NA	NA	NA	NA
D1-35_00318	318			hypothetical protein	ATGGCCTCTCTCGCAATCAAGACCACCCTGGAACGCATCGCCGTCTATCAATTCACCCCTGCCCACAGCGCACAGGCCCGAGCCATGCTGGGGTGGAGTGTCGAAGAGCTGTCCCATGAATCCGGGGTCTCGGTCCAGGCCATACGACGTTTCGAGGCGGGCGGCGAGTTGCTCGATGTCACTCGGCTGGCCCTGGCGTTTCGATTCGAGGCCGAAGGCCTGGTGTTTTTCCCCGGCTTCACTCCTGGGCGCGGCATGAATATCAAGGGCGCGACGCCCAACCCGATGGAGCGGGCGGATTACGCCATGATCGAGTAG	MASLAIKTTLERIAVYQFTPAHSAQARAMLGWSVEELSHESGVSVQAIRRFEAGGELLDVTRLALAFRFEAEGLVFFPGFTPGRGMNIKGATPNPMERADYAMIE				NA	NA	NA	NA	NA
D1-35_00319	696			hypothetical protein	ATGTTGATCTTCAACTGCACCGAAGCGGCGGGCAACTTTTTCAGCCGCTTGAGCAAAGGCAAGAAAATCACCCCGGTGGAAAAACCACCATCGCCTGTTATCGAGGACGATGAGCTGGGTGAACTCGACGAACAATGGCTGGTTCACGCGATCACTGTGCAACGAAAACACGTGTTGTTCGTCATCCACGTACGAACCCGCTACTGCATGATTTTCGCCGATGCTAAAAAGGCTGACATCGAAGGTTTTATCCGGCGGTTTTCCGAACGATGGATAGAAGGCCTGATGCGTCAGGCGGGGCTGCACGATCTTCTTGACTGGGTTGACGACGAACTGATGATGGAGCGTTTCCAGGAGAGCTGTCGCGAATACGTTTTTTACAGGCGCGGTCATCGCGGTGCGCAAAAGCACATCAACGAGATTTCCTGGACGTTCGAGGACTGCGCCGCTGAATGGGGCACGTTACCCTCTAATGAGGTCTCTGCAGGCCGCTTTGATGGCAGCATGAACGACGTCCCCAGAGGCAGTAAGGAATACAAGGGCTATCAGTACCCGGATGAAGAGATGATTGTTCACTGGTTACGACGTTATGGCGGCCTGGATGAATCAGCGGCCCAGGCAGCACATGAGCGGCACATTGAAGTGAAACAGGAGATCTGGGCGTACGGACGCGAACTTGCCCGGGAAACGCAATGA	MLIFNCTEAAGNFFSRLSKGKKITPVEKPPSPVIEDDELGELDEQWLVHAITVQRKHVLFVIHVRTRYCMIFADAKKADIEGFIRRFSERWIEGLMRQAGLHDLLDWVDDELMMERFQESCREYVFYRRGHRGAQKHINEISWTFEDCAAEWGTLPSNEVSAGRFDGSMNDVPRGSKEYKGYQYPDEEMIVHWLRRYGGLDESAAQAAHERHIEVKQEIWAYGRELARETQ				NA	NA	NA	NA	NA
D1-35_00320	993			hypothetical protein	ATGAAATTCGACACTGCCTACTGCCTCAGCCTCGATGCCAAGCTTTCGATCTATGACGTTCGGGATCTTAATTTCGACGAGACCATGGCATTCGATTCGGCCAAGGAGCGCTTTCAGTGCCCCAACGATGTGTGTCGGGCGGGGTTTGATGAGGAGAATCGGCTGACGACGTTCAATGCCAAGAACGTCAATTACATCCGCACGCCACATTTCAAGAATCAGCCAACTACCCGGCATATCGAGGGTTGCCCGTATGTCAGTCCGAAGACGCCGGGGCTGGGTCTGGAGAGTGGCGAGGCAGAAACGGATGACGGCCGTGAAGAGCATTTCCCGTCGGAGCTGTTGCTGACTCGGCGTGAGTACATTCGCAAGCCGCCGGATCAGCCGAAGGATGTTGATACGACTCGGCCCACGTCGAACCTCCCATCGTCCCACGGCGACAACGCCCATTCCGCCCAAGACTCGACGCCCGACAAGACCAGCGTTTTCGCCCATCCGGTGGAATGTTTCGTCTCGAATTTCGACAACAAGGATCTGCTCAAGCGCATGCCGCTGAAGATTGGCGAGCACACCGCGCCTTACAGTTCCTTTTTCAAGAAGATCGACTTTTTACTGGATAACAAGGGACTGATCTACTGGGGCAAGATCAAGCAGATCAAGGATTACACACAAAGCTTTCGCATCGATTTCGAAGCGAAGGTCTGGTTCAAACAGCCGGACGAGGCGAAGAAGAAGCCTTACTCGGTCAACGTCTACCTGAGCAAGAAGCTGATCGATAACTACCGCAAGCGCAAGGCGTTCCTGGAAGAGATCAAACACGCCATCGACAGTGACGCGCCGTTGTATTGCTTCTTTTATGGCGTGACGCCGGAGTTGCAGCAGGTGCCGAGCAAGAAGAACCCCGAGCAGACGTTCGGGGTGTTCAGTGCCAATATCGAGAACCTGGATCACTTCATTATTCGGGAGGCGCCCGGACTGACTGAGTCGCTTTAA	MKFDTAYCLSLDAKLSIYDVRDLNFDETMAFDSAKERFQCPNDVCRAGFDEENRLTTFNAKNVNYIRTPHFKNQPTTRHIEGCPYVSPKTPGLGLESGEAETDDGREEHFPSELLLTRREYIRKPPDQPKDVDTTRPTSNLPSSHGDNAHSAQDSTPDKTSVFAHPVECFVSNFDNKDLLKRMPLKIGEHTAPYSSFFKKIDFLLDNKGLIYWGKIKQIKDYTQSFRIDFEAKVWFKQPDEAKKKPYSVNVYLSKKLIDNYRKRKAFLEEIKHAIDSDAPLYCFFYGVTPELQQVPSKKNPEQTFGVFSANIENLDHFIIREAPGLTESL				NA	NA	NA	NA	NA
D1-35_00321	1323			hypothetical protein	ATGGAAATGTCAGAGCACCTTACGATCCAGACTTACGTTGACGGCCGGTGGCACGATGCTGTGGTCTTCACTGTGTCGAACGCTCAGAAGGTTGAAGAGTCGCGATGCAGCGTAGCTTATGACCAGCATTATTTGCTCCATTTCATCCATAGGCTGGATACGGCGTTTGAACCCGCCATCAGCGTAAACCTTCCGCTGAGCTGGGACGCTATCGATAGCAAAGGCTATCCGCCATTTGTCTACGACATCATACCGGCCGGTGCTGCTCGTAAATCTATGCAAAAACGATTCGGTGGGGATAAGCCTGACGGCATGGACATGAGCTTTTTCCTCCTGAGTCGCTGCACGCCTTCACCCATTGGACATTTACGGGTGAAGGAGTCTTTTGAGCATATCGATCAAACTCGAAAGGAGGCCTTTGCGCGCAAAGAAGTCGTAAGCCGAACCAATGATTTTCTCGAATACGCCTATGAGTCTGGTGCTGCGTTAGGCGGTGCTACGGGGGCTCAGGGGGAAGCTCCGAAGCTGATTATGGTCGAGGATGAGAATGGCGCTCTTTATGCCGACGCGATGCTTTCTGATGAGCTTGCGCGTCGCCATTGGCTGGTGAAATTTGCTCGCAACCAAGCTACTGAGCGCGACAAGAACATCCTTAGGGCCGAGTACCACTACTACAAAGCGATCTCCCAACTCGGTTTGAGCACCATATCTACAAATGAACTGGTACTTGAGGAAGCCGATAAGCCAAGCCTGTGGATGCCACGCTTTGATCGGCGAGTCGCCAACGGGGTGGTAGAGAGGATTCCGATCGAGTCGATTTATTCAGTGTGTGAGAACACTGAGCCTGGTTCGAGAATGAATCATGAGGATGTGCTCAGCCGACTGATCCACCTGTGGCGTACGAATGGGCAGGAAGGTGAGCTTGAGGAACTGTTATTTGAATACCTCCGCCGTGATCTGTTGAATCGTATCCTGGGGAATTCGGACAACCATGGGCGCAACACGGCCATCTTCAGGTATCGGGACAAATTCGAACTGGCGCCGATCTATGATCTTGCACCGATGGTTCTCGATCCGGAAGGCGTCACTCGGGTAACCAAATGGAAGGCCGAGCATATGGGAAGTCCAAACTGGGAAGTGATCTGCAGTGGCTTCCAAGACTTGGTCAGCCCTGACGTGCTCTTTGAGCGTCTGCTCGGAGCCGCCGAGACATTCAGAGCGTTACCGGATCTGCTGGTCGATCTTCCTGATGAAGTGAGGCTCGCTCAGTCTATTCCGCTGAACAATTTGGATAAGCGCCTGGTTGCATGGGGGCTGCGATGA	MEMSEHLTIQTYVDGRWHDAVVFTVSNAQKVEESRCSVAYDQHYLLHFIHRLDTAFEPAISVNLPLSWDAIDSKGYPPFVYDIIPAGAARKSMQKRFGGDKPDGMDMSFFLLSRCTPSPIGHLRVKESFEHIDQTRKEAFARKEVVSRTNDFLEYAYESGAALGGATGAQGEAPKLIMVEDENGALYADAMLSDELARRHWLVKFARNQATERDKNILRAEYHYYKAISQLGLSTISTNELVLEEADKPSLWMPRFDRRVANGVVERIPIESIYSVCENTEPGSRMNHEDVLSRLIHLWRTNGQEGELEELLFEYLRRDLLNRILGNSDNHGRNTAIFRYRDKFELAPIYDLAPMVLDPEGVTRVTKWKAEHMGSPNWEVICSGFQDLVSPDVLFERLLGAAETFRALPDLLVDLPDEVRLAQSIPLNNLDKRLVAWGLR	PGPT0027480_796	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HipA-HipB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027480-toxin_hipA-K07154	NA	NA
D1-35_00322	405			hypothetical protein	ATGAAAGAGAACACCAACGAACGGCGCAGGGAGCTCATTGACAACATCGTCATGCAGCATGTGACGGGGATCGAAACCCTGGGAACCGCTATTCGCCGGCTACGGCTTGAGGTGACTGGCCTGGATCAGGAAACCTTTGCAGCCATGTGCAAGATGTCGACCAAGGCCCTGTACCAGATCGAGAAGGACAAGGGTAATCCAACCATTAGCACCATCGAAGCTATCTTGAGGAAATTCGGGCTGCGCCTGGGATTGACGAAGTCTGCCACGACCCTTTACACGCCGCCGCCCAAGCCGCAAAAAACGACTTCCCCAATGCCCGTTCGCGGTGCCAATCCTAAACGCAAAACCGCAGCACAGCTCGGTACGAAGGCCAAGGATGGCGACAAGGGCGTGACCGAGTAG	MKENTNERRRELIDNIVMQHVTGIETLGTAIRRLRLEVTGLDQETFAAMCKMSTKALYQIEKDKGNPTISTIEAILRKFGLRLGLTKSATTLYTPPPKPQKTTSPMPVRGANPKRKTAAQLGTKAKDGDKGVTE				NA	NA	NA	NA	NA
D1-35_00323	192			hypothetical protein	ATGACGAAAAAAAAAAGAAGTGAGGCCTTCGAGTCGATTCACAGCTCGGCCGAAGCGCTGCTGAAAATCGGCGCTATGGACATGGCCACTATGCGGGAGTTCGATGAGGACTGCATAGCCGAGGTGTCTGCTGAAATCCTAGAGCAAGAAGACTCGTCTGAACTCAGAGCTGGCCACCCTCAAAACCAGTGA	MTKKKRSEAFESIHSSAEALLKIGAMDMATMREFDEDCIAEVSAEILEQEDSSELRAGHPQNQ				NA	NA	NA	NA	NA
D1-35_00324	714			hypothetical protein	ATGGATACCTCAAAGGAAAAAAGTAACTGGAGCGACGAAGAGCTCGAGGCTTCGGTTGATGCGTACTTGAAGATGCTGGACCGCGAGTTAAACGGCCAGAGCTTCAAGAAGTCGGTGGAAAACCAGCTTTTACGCGACGGGCCGCTGAGCAAGCGTAGCCCTGCGTCGATTGAATATCGCATGCAAAACATCTCTGCGGTGCTCGATCAAATGGAGTTGCGCCGAATCAGCGGCTATATGCCTGCCAAGAATATTGGTGCGGGTGTGGCTCAGCGAATCCGCAAGGTGCTTGCCAATAAGATGCTGCCTGGGACGGCCGAGTCTGCTCCAACTGCTGATTTTAAGACGTTGATCCGCCGGGCCACCAAGTTGCAAAAGAATGGGCTCAAGATCGCACCGTTAGGTAACCCGAACCCGCAACAAGTCAGTACGACCACGACGTCTTACGTTCGGGATCCCAAAATCCGGGCATGGGTTGCTGAGTTGGCTAAAGGTGTTTGCGAAGGTTGCGGTCAGAACGCACCGTTCAAGGTGGATGGTTTACCGTTTCTTGAAGTGCATCATGTGAAGCATCTGGCTCAGAACGGGTCGGACAGCATTACTAACGCGGTTGCGCTATGCCCGAATTGCCATCGGCGTTGTCATCTTGCTAGTGATAGAGAGGCATTTACTTTGTCGCTGTATAAGAAGGTTGATCGTTTGGTCGTTGAGTGA	MDTSKEKSNWSDEELEASVDAYLKMLDRELNGQSFKKSVENQLLRDGPLSKRSPASIEYRMQNISAVLDQMELRRISGYMPAKNIGAGVAQRIRKVLANKMLPGTAESAPTADFKTLIRRATKLQKNGLKIAPLGNPNPQQVSTTTTSYVRDPKIRAWVAELAKGVCEGCGQNAPFKVDGLPFLEVHHVKHLAQNGSDSITNAVALCPNCHRRCHLASDREAFTLSLYKKVDRLVVE	PGPT0027235_582	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
D1-35_00325	534			hypothetical protein	ATGTCTGATGCTTACATTCCGGCGGTTTTCATCCGTCATAGCCTCCATCTTCATGCCCTGCTTTTGGAGAACCAACCTTGGTTCTGCGCTCGCGACCTCGGACGGTTAATGGGCGTGCATCTGAGCGACCGCATGGTCAGCAAATTGGATGAGGACCAGCGACACGCCCTGCTGATTCGTTACCACGGCCATCCTGAAAAGCGGCTAATGCTCAGCGAGTCCGGCGCGTATGCCCTACTGGTTTATCACTACGCGCCAGGGAATCGCTTGCTGCGTGAATGGCTAACGCATCAAGTCGTACCGGCCCTGCGTGACGCCCAGGCATCAAGCGATACCGAGCGGCCGATGCTGAGTGTTCTGGACTGGCCGGAGATGTCCTTGAGCATGTTGCATTGGCAAAACGACGGCTGGATTCGACTTCGGGACATGCCGTATTTGTTGCTCAATCGGACTCGGGGGCGGTCAGTTACAGCTAAACCTTGGTGGCGTCGGCTGGTGGAGGTATTTCACGTATCCGGACAATCGACGCCGTAG	MSDAYIPAVFIRHSLHLHALLLENQPWFCARDLGRLMGVHLSDRMVSKLDEDQRHALLIRYHGHPEKRLMLSESGAYALLVYHYAPGNRLLREWLTHQVVPALRDAQASSDTERPMLSVLDWPEMSLSMLHWQNDGWIRLRDMPYLLLNRTRGRSVTAKPWWRRLVEVFHVSGQSTP				NA	NA	NA	NA	NA
D1-35_00326	1251	nrdB	COG0208	Ribonucleoside-diphosphate reductase subunit beta	ATGCTGAGCTGGGACGAATTCGACAAAGAAGACGACGGCGAAGTCGCGGTAAAAGGCGCCAACGCCGGCCACGCTTCTGAAGCCAACATGGACCGCCTCGACAGCGCCGGCGGTGCCGCCGCGCTCGAAGCCCGCGCCGTGACGGCCAGCGACTCGGCCGCGATCATTCGCGCCAAGGCCGCCCTCGACAAACTCGACGTCGCCGAAGGCCTCGCCGAACTCGAAGGCGCCTCCGCCCGTGTCGCCGTCGATGAAAAGCGCATGATCAACTGCCGCGCCGACCTCAACCAGCTCGTGCCTTTCAAATACGACTGGGCCTGGCAGAAGTACCTGGACGGCTGCGCAAACCACTGGATGCCGCAAGAAGTCAACATGACCGCCGACATCGCCCTCTGGAAAAACCCGGAAGGCCTGACCGACGACGAACGCCGCATCGTCATGCGCAACCTGGGCTTCTTCTCCACCGCCGACTCCCTGGTTGCCAACAACCTGGTCCTGGCCGTGTACCGCCTGATCACCAACCCGGAGTGCCGCCAGTACATCCTGCGCCAGGCCTTCGAAGAGGCGATCCACACCCACGCCTACCAGTACTGCATCGAATCGCTGGCCATGGATGAAGGTGAAATCTTCAACATGTACCACGAGATCCCATCGGTCGCGAAAAAAGCCGCCTGGGGCCTGAAATACACCCGTTCGATCTCCGATCCGAAGTTCGAAACCGGCACCCCGGAAACCGACAAAGAGTTGCTGCGCAACCTGATCGCCTACTACTGCGTCCTGGAAGGCATCTTCTTCTATTGTGGCTTCACCCAGATCCTCTCCATGGGCCGCCGCAACAAAATGACCGGCGTCGCCGAGCAGTTCCAGTACATCCTGCGCGACGAATCCATGCACCTGAACTTCGGCATCGACGTGATCAACCAGATCAAGATCGAAAACCCACACTTGTGGGACGCCGAAATGAAGGAAGAAGCAACCCAGATGATCCTGCAAGGGACCCAACTGGAAATCGAATACGCCCGCGACACCATGCCTCGCGGCGTACTGGGCATGAACGCGGCGATGATGGAGGACTACCTCAAGTTCATCGCCAACCGCCGCCTGTCGCAGATTGGCCTGAAGGAAGAGTACCCAGGGACGACCAACCCGTTCCCTTGGATGAGCGAGATCATGGACTTGAAGAAAGAGAAGAATTTCTTTGAGACTCGGGTGATTGAGTATCAGACGGGTGGGGCTTTGAGCTGGGATTGA	MLSWDEFDKEDDGEVAVKGANAGHASEANMDRLDSAGGAAALEARAVTASDSAAIIRAKAALDKLDVAEGLAELEGASARVAVDEKRMINCRADLNQLVPFKYDWAWQKYLDGCANHWMPQEVNMTADIALWKNPEGLTDDERRIVMRNLGFFSTADSLVANNLVLAVYRLITNPECRQYILRQAFEEAIHTHAYQYCIESLAMDEGEIFNMYHEIPSVAKKAAWGLKYTRSISDPKFETGTPETDKELLRNLIAYYCVLEGIFFYCGFTQILSMGRRNKMTGVAEQFQYILRDESMHLNFGIDVINQIKIENPHLWDAEMKEEATQMILQGTQLEIEYARDTMPRGVLGMNAAMMEDYLKFIANRRLSQIGLKEEYPGTTNPFPWMSEIMDLKKEKNFFETRVIEYQTGGALSWD	PGPT0021345_194	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021345-nrdB|nrdF-K00526	NA	NA
D1-35_00327	264			hypothetical protein	ATGAAAGCTTTATGGGTTCTGGTCCTTGGCAGCCTTTGCGCCACCGCCATGGCGGATGAGGCCCCGACCGATGTCGCACCGCAGAAACCGGCGATCGAGGAATACACCTACTCCACCCACCTGGACATCGCCAAAGTCATTTCCATGAGCACCATCCCGAACGTCTGCGAAGTGGTCCCGGCGAAAATGGAATATGAAGATTCCAAAGGCGAGCGCCACATCATGCGCTACAGCGTCATGGGCACCGGCTGCTCCAACGGCTGA	MKALWVLVLGSLCATAMADEAPTDVAPQKPAIEEYTYSTHLDIAKVISMSTIPNVCEVVPAKMEYEDSKGERHIMRYSVMGTGCSNG				NA	NA	NA	NA	NA
D1-35_00328	1956	acs_1	COG0365	Acetyl-coenzyme A synthetase	ATGAGTGCGGCTTCTGTGTATCCCGTTCGTCCCGAGGTTGCGGCCAGTACGCTGACTGACGAGGCGACCTATAAGGCCATGTACCAGCAGTCGGTCGTCAACCCCGATGGCTTCTGGCGCGAGCAGGCCAAGCGCCTCGACTGGATCAAGCCTTTCACCACGGTTAAACAGACCTCGTTCGATGATCACCATGTCGACATCAAGTGGTTTGCCGATGGCACCTTGAACGTTTCCTACAACTGCCTCGACCGTCACCTGGAAGAGCGCGGCGATCAGGTTGCGATCATCTGGGAGGGCGACGACCCGTCCGAGAGCCGCAACATCACTTATCGCGAACTGCATGAAGAAGTCTGCAAGTTCGCCAACGCCCTGCGCGGTCAGGACGTGCACCGCGGCGACGTGGTGACTATCTACATGCCGATGATTCCCGAGGCTGTGGTCGCCATGCTGGCCTGCACCCGGATCGGTGCAATCCACTCGGTGGTGTTCGGCGGCTTCTCGCCGGAAGCCCTGGCCGGCCGCATCATCGACTGCAAATCGAAAGTGGTGATCACCGCCGACGAAGGCATCCGTGCCGGCAAGAAGATCCCGCTCAAGGCCAACGTCGATGACGCGCTGACCAACCCGGAAACCAGCAGCATCCAGAAAGTCATCGTGTGCAAGCGCACGTCGGGCAACATCAAGTGGAACCAGCATCGTGACATCTGGTACGAAGACTTGATGAAAGTGGCTGGCACCGTTTGCGCGCCGAAGGAGATGGGCGCCGAGGAAGCGCTGTTCATCCTCTACACCTCCGGTTCCACCGGCAAGCCCAAGGGCGTGCAGCACACCACCGCCGGTTACTTGCTGTACGCGGCGCTGACCCATGAACGCGTGTTCGACTACAAGCCCGGTGACATCTACTGGTGCACCGCTGACGTCGGCTGGGTTACCGGCCACAGCTACATCGTCTACGGCCCGTTGGCCAATGGCGCGACCACGCTGCTGTTCGAAGGCGTGCCGAACTACCCGGACGTCACCCGGGTGGCCAAGGTGATCGACAAGCACAAGGTCAATATTCTCTACACCGCGCCGACCGCGATCCGCGCGATGATGGCCTCGGGCACCGCCGCTGTCGAAGGTGCCGATGGCAGCAGCCTGCGCCTGCTGGGTTCGGTGGGCGAGCCGATCAACCCGGAAGCCTGGGACTGGTACTACAAGAACGTCGGCAAGGAGCGTTGCCCAATCGTCGACACTTGGTGGCAGACCGAAACCGGCGGCGTGCTGATCAGCCCGCTGCCAGGCGCCACAGCGTTGAAGCCGGGTTCGGCTACGCGTCCATTCTTTGGTGTGGTGCCGGCGCTGGTGGACAACCTCGGCAACCTGATCGAAGGCGCCGCCGAAGGCAACCTGGTGATCCTCGATTCGTGGCCGGGCCAGGCACGTACGCTGTACGGCGACCATGACCGTTTTGTCGACACTTACTTCAAGACTTTCAGCGGCATGTACTTCACCGGTGACGGCGCTCGTCGCGATGAGGATGGCTACTACTGGATCACCGGTCGGGTGGACGACGTGCTCAACGTTTCCGGCCACCGCATGGGCACCGCCGAGATCGAAAGCGCCATGGTCGCCCACCCGAAAGTCGCCGAGGCGGCGGTGGTGGGGGTGCCGCACGACATCAAGGGGCAGGGCATCTATGTCTACGTCACCTTGAATGCCGGCGAAGAAACCAGCGAAGCCCTGCGCCTGGAATTGAAGAACTGGGTGCGCAAGGAGATCGGCCCGATTGCTTCGCCGGACGTGATCCAGTGGGCGCCGGGGCTGCCGAAAACCCGTTCGGGCAAGATCATGCGCCGCATCCTGCGCAAGATCGCCACGGCGGAATACGACGGTTTGGGCGATATCTCCACTCTGGCCGACCCAGGTGTGGTGGCGCACCTGATCGAGACGCACAAGACCATGAACGTCGCCTGA	MSAASVYPVRPEVAASTLTDEATYKAMYQQSVVNPDGFWREQAKRLDWIKPFTTVKQTSFDDHHVDIKWFADGTLNVSYNCLDRHLEERGDQVAIIWEGDDPSESRNITYRELHEEVCKFANALRGQDVHRGDVVTIYMPMIPEAVVAMLACTRIGAIHSVVFGGFSPEALAGRIIDCKSKVVITADEGIRAGKKIPLKANVDDALTNPETSSIQKVIVCKRTSGNIKWNQHRDIWYEDLMKVAGTVCAPKEMGAEEALFILYTSGSTGKPKGVQHTTAGYLLYAALTHERVFDYKPGDIYWCTADVGWVTGHSYIVYGPLANGATTLLFEGVPNYPDVTRVAKVIDKHKVNILYTAPTAIRAMMASGTAAVEGADGSSLRLLGSVGEPINPEAWDWYYKNVGKERCPIVDTWWQTETGGVLISPLPGATALKPGSATRPFFGVVPALVDNLGNLIEGAAEGNLVILDSWPGQARTLYGDHDRFVDTYFKTFSGMYFTGDGARRDEDGYYWITGRVDDVLNVSGHRMGTAEIESAMVAHPKVAEAAVVGVPHDIKGQGIYVYVTLNAGEETSEALRLELKNWVRKEIGPIASPDVIQWAPGLPKTRSGKIMRRILRKIATAEYDGLGDISTLADPGVVAHLIETHKTMNVA	PGPT0002265_3014	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
D1-35_00329	774	argT_2	COG0834	Lysine/arginine/ornithine-binding periplasmic protein	ATGAAGAAACTTGTGCTGCTTGGCGCCCTGGCACTGTCCGTGCTGTCCCTGCCGACATTCGCCGATGAGAAACCCCTGAAGATCGGTATCGAAGCGGCTTACCCTCCGTTCGCCTCGAAAGCCCCGGATGGCAGCATCGTCGGCTTCGACTACGACATCGGCAATGCGCTGTGCGAAGAGATGAAGGTCAAGTGCGTGTGGGTCGAGCAGGAGTTCGACGGCCTGATCCCGGCGCTGAAGGTACGCAAGATCGACGCGATCCTGTCGTCCATGTCGATCACTGAAGATCGCAAGAAGTCCGTTGACTTCACCAACAAGTACTACAACACCCCGGCCCGCCTGGTGATGAAGGCCGGTACCCAGGTGAGCGACGGCCTGGCCGAACTCAAGGGCAAGAACATCGGTGTACAGCGCGGTTCGATCCACGAGCGTTTCGCCCGTGAAGTCCTGGCCCCGCTGGGTGCCGAGATCAAGCCGTACGGTTCGCAGAACGAAATCTACCTGGATGTTTCCGCCGGTCGTCTCGATGGCACCGTGGCCGACGCGACGCTGCTGGATGACGGCTTCCTGAAGACTGACGCGGGCAAGGGCTTCGCCTTCGTCGGCCCGGCCTTCACCGACGAGAAATACTTCGGCGACGGCATCGGTATCGCGGTTCGCAAGGGCGATGCGCTGAAAGACAAGATCAACAGCGCGATCACCGCCATTCGCGAGAACGGCAAGTACAAGCAAATCCAGGACAAATACTTCGCCTTCGATATCTACGGCAAGTAA	MKKLVLLGALALSVLSLPTFADEKPLKIGIEAAYPPFASKAPDGSIVGFDYDIGNALCEEMKVKCVWVEQEFDGLIPALKVRKIDAILSSMSITEDRKKSVDFTNKYYNTPARLVMKAGTQVSDGLAELKGKNIGVQRGSIHERFAREVLAPLGAEIKPYGSQNEIYLDVSAGRLDGTVADATLLDDGFLKTDAGKGFAFVGPAFTDEKYFGDGIGIAVRKGDALKDKINSAITAIRENGKYKQIQDKYFAFDIYGK	PGPT0020680_311	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020680-aotJ-K10022	NA	NA
D1-35_00330	690	hisQ_2	COG4215	Histidine transport system permease protein HisQ	ATGTTGAAAGGCTACGGGGCTGTCATCCTCGATGGCGCATGGTTGACGCTTCAGCTCGCCTTGTCGTCCATGGCCCTGGCCATTGTCCTGGGGCTGATCGGTGTCGCGTTGCGCCTCTCGCCGGTGCGTTGGCTGGCGTGGCTGGGCGACCTGTATTCCACGGTCATCCGCGGCATTCCCGACCTGGTGCTGATCCTGCTGATCTTCTATGGCGGCCAGGACTTGATCAACCGCGTTGCGCCGATGCTCGGCTATGACGACTACATCGACCTGAACCCGTTGGCGGCCGGTATCGGCACCCTGGGTTTCATCTTCGGTGCGTACCTGTCCGAGACCTTTCGCGGCGCCTTCATGGCGATCCCCAAGGGGCAGGCCGAGGCGGGCATGGCGTATGGCATGAACGGCTTCCAGGTGTTTTTCCGGGTGCTGGTGCCGCAGATGATTCGCCTGGCGATCCCGGGCTTCACCAACAACTGGCTGGTACTGACCAAGGCCACCGCGCTGATTTCGGTCGTGGGCCTGCAAGACATGATGTTCAAGGCCAAGCAGGCGGCGGATGCCACCCGTGAGCCTTTCACCTTCTTCCTCGCGGTGGCGGCGATGTACCTGGTGATCACCAGTGTCTCGTTGCTGGCATTGCGTCACCTTGAGAAGCGCTACTCGGTAGGCGTAAGGGCGGCTGATCTATGA	MLKGYGAVILDGAWLTLQLALSSMALAIVLGLIGVALRLSPVRWLAWLGDLYSTVIRGIPDLVLILLIFYGGQDLINRVAPMLGYDDYIDLNPLAAGIGTLGFIFGAYLSETFRGAFMAIPKGQAEAGMAYGMNGFQVFFRVLVPQMIRLAIPGFTNNWLVLTKATALISVVGLQDMMFKAKQAADATREPFTFFLAVAAMYLVITSVSLLALRHLEKRYSVGVRAADL	PGPT0020690_226	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020690-aotQ-K10024	NA	NA
D1-35_00331	699	occM_1		Octopine transport system permease protein OccM	ATGATCTTCGACTACAACGTCATCTATGAAGCCTTGCCGCTGTACTTCAGTGGCCTGCTGACCACCTTGAAGCTGCTGGCCCTGTCGCTGTTCTTCGGCCTGTTGGCGGCGCTGCCCCTGGGGCTAATGCGGGTGTCGAAGCAGCCAATCGTCAACATGACGGCCTGGCTCTACACCTACGTGATCCGCGGCACGCCGATGCTGGTGCAGCTGTTCCTGATCTACTACGGGCTGGCGCAGTTCCAGGTGGTGCGCGAGAGCTTCCTCTGGCCATGGCTGTCCAGCGCGACGTTCTGTGCGTGCCTGGCGTTCGCCATCAACACCAGCGCCTACACCGCCGAAATCATCGCCGGCAGCCTGCGAGCCACGCCTAACGGCGAGATCGAGGCGGCCAAGGCCATGGGCATGTCGCGCTACAAGCTGTACCGCCGAATCCTGCTGCCGTCGGCGTTGCGCCGGGCGCTGCCGCAATACAGCAACGAAGTGATCATGATGCTGCAGACCACCAGCCTGGCGTCCATCGTCACCCTGATCGACATCACCGGCGCCGCGCGCACGGTGAACGCGCAGTATTACCTGCCGTTCGAGGCCTACATCACGGCCGGCGTTTTCTACCTGTGCCTGACCTTCATCCTGGTGCGCCTGTTCAAACTGGCCGAGCGCCGCTGGCTGGGTTACCTGGCCCCGCGCAAGCACTGA	MIFDYNVIYEALPLYFSGLLTTLKLLALSLFFGLLAALPLGLMRVSKQPIVNMTAWLYTYVIRGTPMLVQLFLIYYGLAQFQVVRESFLWPWLSSATFCACLAFAINTSAYTAEIIAGSLRATPNGEIEAAKAMGMSRYKLYRRILLPSALRRALPQYSNEVIMMLQTTSLASIVTLIDITGAARTVNAQYYLPFEAYITAGVFYLCLTFILVRLFKLAERRWLGYLAPRKH	PGPT0020685_157	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020685-aotM-K10023	NA	NA
D1-35_00332	765	hisP_2	COG4598	Histidine transport ATP-binding protein HisP	ATGTACAAGCTTGAAGTCCAAGACCTGCATAAACGCTATGGCAGTCACGAAGTGCTCAAGGGCGTGTCCCTGAAAGCCGCCGCCGGTGATGTGATCAGCATCATCGGCTCCAGTGGCTCCGGCAAGAGCACGTTCCTGCGTTGCATCAACCTGCTTGAGCAACCCCATGCCGGCAAGATTTTGCTCAACAACGAAGAGCTGAAGCTGGTAGCGGGCAAGGACGGCGCCATGAAGGCCTCGGATCCCAAGCAGCTGCAACGCATGCGTTCGCGGTTGTCGATGGTGTTCCAGCATTTCAACCTGTGGTCGCACATGACCGCACTGGAAAACATCATCGAAGCGCCCGTGCACGTACTGGGCGTGGCCAAGGCCGAGGCGCGGGAGAAGGCCGAGCATTACCTGAACAAGGTCGGCGTGGCGCATCGCAAGGACGCCTACCCGGGCCACATGTCCGGCGGCGAACAACAGCGCGTGGCGATTGCCCGGGCGCTGGCGATGGAGCCTGAAGTGATGCTGTTCGACGAGCCAACCTCGGCGCTGGACCCGGAGCTGGTCGGCGACGTGCTCAAGGTGATGCAGGCCCTGGCCCTGGAAGGCCGGACCATGGTGGTGGTGACTCACGAGATGGGCTTCGCCCGCGAGGTGTCGAACCAACTGGTGTTCCTGCACAAAGGCATCGTCGAAGAAAGCGGCAACCCGCGCGAAGTGCTGGTCAATCCGCAATCGGAGCGCTTGCAACAATTCCTGTCGGGCAGCCTGAAGTAA	MYKLEVQDLHKRYGSHEVLKGVSLKAAAGDVISIIGSSGSGKSTFLRCINLLEQPHAGKILLNNEELKLVAGKDGAMKASDPKQLQRMRSRLSMVFQHFNLWSHMTALENIIEAPVHVLGVAKAEAREKAEHYLNKVGVAHRKDAYPGHMSGGEQQRVAIARALAMEPEVMLFDEPTSALDPELVGDVLKVMQALALEGRTMVVVTHEMGFAREVSNQLVFLHKGIVEESGNPREVLVNPQSERLQQFLSGSLK	PGPT0020695_183	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020695-aotP-K10025	NA	NA
D1-35_00333	981	cdhR_1	COG4977	HTH-type transcriptional regulator CdhR	ATGACTGCCCATCGAATAGGTTTCCTGATTTGGCCCAGCACTAAAGCGTTGACGCTGGCGCTGGCCGAGGAGGCCTTGCGTGTTGCGCAGCGAGTGCATCCGGACGTGGTCTACGAGCTGTCGTTTTTGCACGCCGAGCCGCCGGCCGAGGGTGCCTGGCAGCTGCCGGGCGAACCCTGGGCCGGCAAGCTCGAAGGCCTGCAGAAACTGTTCCTGCTGGCCGACGAGCCGCCGACGTCGCTGGCCTCGCCGCTGAGCAGCGCGCTCAAGCAACTGGTGCGCGCCGGATGCGTCATTGGCGGCTTGTCCGCCGGTGTCTATCCGCTGGCCCAGTTGGGCTTGCTTGATGGGTACCGGGCCGCCGTGCACTGGCGCTGGCAGGACGATTTCTCGGAGCGTTTTCCCAAGGTTATCGCCACCAGCCATTTGTTCGACTGGGACCGCGATCGCCTGAGCGCCTGCGGCGGCATGTCGGTGCTCGACCTGTTGTTGGCGGTGCTGGCGCGCGATCACGGCGCCGAGCTGGCCGGTGCGGTCTCGGAGGAACTGGTGGTCGAGCGCATTCGCGAAGGCGGCGAGCGCCAGCGCATCCCGTTGCAGAACCGCCTCGGCTCCAGTCATCCGAAGCTCACCCAGGCGGTGTTGCTGATGGAGGCCAACATCGAAGAGCCGCTGACCACCGACGAAATCGCCCAGCATGTGTGCGTGTCCCGTCGGCAGCTGGAGCGGATCTTCAAGCAATACCTCAACCGCGTGCCCAGCCAGTACTACCTGGAGCTGCGCCTGAACAAGGCCCGGCAGATGCTGATGCAGACCAGTAAATCCATCATCCAGATCGGCCTGTCCTGCGGTTTCTCCTCCGGGCCGCATTTCTCCAGCGCCTACCGCAACTTCTTCGGCGCCACGCCGCGGGAAGATCGTAACCAGCGGCGCAGCAGCAGCCCGTTCGAATTGTCGTCGGTGCCGTCGGAGCGCGGCTGA	MTAHRIGFLIWPSTKALTLALAEEALRVAQRVHPDVVYELSFLHAEPPAEGAWQLPGEPWAGKLEGLQKLFLLADEPPTSLASPLSSALKQLVRAGCVIGGLSAGVYPLAQLGLLDGYRAAVHWRWQDDFSERFPKVIATSHLFDWDRDRLSACGGMSVLDLLLAVLARDHGAELAGAVSEELVVERIREGGERQRIPLQNRLGSSHPKLTQAVLLMEANIEEPLTTDEIAQHVCVSRRQLERIFKQYLNRVPSQYYLELRLNKARQMLMQTSKSIIQIGLSCGFSSGPHFSSAYRNFFGATPREDRNQRRSSSPFELSSVPSERG	PGPT0021945_231	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021945-cdhR-K17736	NA	NA
D1-35_00334	5016			hypothetical protein	ATGCACGAACTTAACACTACAGCCGACACCGGAACCCCGGTCAAATCCCACTATCAGCACGTGCTCGATGCCATCCCGTCCTGGGTGGGCAAGGCCCCCGCACAACAACAGACTGAGCTCAGGCAGGCCAAGCCGCTATTTGCTCCCTGGCTGCTCGGCGCACCCGCCTCCCGGCACGCGCAGATGAAGCGCTTGAATGCCGCCCAGTGGCGCGCACGCAATGGGCTCGAGGAGCGACTGCAAGCGCTGCAGGACATCAATGCCTTTGCCAAGCCGCTGCTTGAAGCCGCTATCAGGACTCAGTTCGGCTTGACGCTGGACGTCGAGAAAACCCAGTTATGGCTGTACGTACCACTGAATATTCCATGGCTGCCGATCCCCTCCGGTGGCGCGCGAACGTGGAAGGTTTCCTTGCTGGATGCTGCTTTGCACAACTTTGAACCGGACGAGGCAAAACCCGATGCCTACGAACCAGACTCGACCTATGTCGCCGAGACCACGAAGAGCTCGGAGGAAGGCGAGACGGGACGTTTCAAACCGCTGACGTCGATCAGGCAGCAGATGCCGATTCCGGCATTTATCCAGCTGTGTCGGGAACTGGATATCGGCGGCCAGTACCAGCGTCATCTTCAGCAACAACTGGGCATCGGCGACACCGTTGCAACCCGCGCACTGCAGCGCCAGGTCAGCGAAAGCCAGGAAGCGGCACTCAAGGCCGCCCTGCACCTGGCGCTGATGAAAAAAGACATCAGCGCGCAAAGCCACTCGCAGGTCCTCGGCCTGCTGGACGGTTTGCCAGGCATGCAGCTCGACGGCCAGCCACTGTGCAGCCATGACTTGAAGATCATGGACGTTGCGCTGACCGGCATAGTGCTGTTCGCCCCGGACTTCGAACAGGCGCAGCACACCGTGCCGTTGGTGGCTTATATTCCCGACGATCCCCAAGGCGCGATCAAGGAATACGCCTCTTCAACGCTGTTCAGCTCGGCGTTGACTCAAAGGCTGCGAGAAAAAGACTACCAGCAATTCTTCAGTCGCTTTGTCGGACACCAGGAACGCCCGTTGTTTTTCTTCGAGCTGAACCAGCGGCTGGCTTCCATCCAATGGCACCGACCGGCTCCCGGTGACTCCCGCCCACCATGGCGAGAAACCCCGGCCGATAAGCCCAACCTGCTGTTCAGCGCACAGTTGACCCCAGGCGACCTGATGCGGCACCTCTATCAAGGCAAGCTGAACAAAATCCTCAATGACGCGCGAACCATTGCCGTTTCCACTGCCAGCGCCGACCGCAACGCCCGCTGGAAACGCTGGGACGCCCTGTCCAGGATTGCCAGCGAACTGGTCAGTATCGCCGCGTTCATCGCCACGCCTTTTTTCCCGCCGCTGGGCGCCCTGATGCTCGGCTATGCCGCTTACCAACTGCTGGACGATACGTTCGAAGGAATTGTCGATTGGGCCGAAGGATTAAAACAGCAGGCTTTCGAGCACCTGATGAGCGTGATGGAAACTCTGGTCCAGCTGGGCGGCTTCGCCGTTGGCGTACCGATAGCCGAAGGTATGCTGCGCCAGGCACTGCCAAAGCAATTGTGGAGCTTCATCGACAACCTGATGCCGGTCACCCGCCCCGATGGCCAGCAACGCTTGTGGTACCCGGACCTGACACCCTATCACCAGGATATCGAACCGGTCAGCAGCGCCGGCCCCGATCAGCTTGGCCTGCATGAGCACCTCGGCCGAAAAATCCTGAAGCTAGACACGCAGCGCTTTGTCGTCAGGCAAGATGCCGGCGAAGGCATTTATCAGATCGAGCACCCGGCACGCGTGGATGCCTATGCTCCACAGCTCAGCCACAATGGCGCCGGCGCCTGGCGAACGGAGCTGGACCGCCCGTTGACCTGGGACGACACCACGCTCGTCCGCCGTCTAGGCCAGCAAACCGACGCATTCTCCGACGAACAACTCCAGCAGATGCTCACCGTCAGCGGCACTCACCCCGATGCGCTGCGCAAATTGCACGTCAACAACGAACCGCCACCGCCGCTGCTGGCCGATACGTTGGAGCGCTTCAAGGTCGCCCAGGATCTTCAACGTTTCGTTGACCTGATGGGCAGTGACGATCCGTTGCTCTATCGCCGCGCCGACGTGCAAACCCAAATACAGCTGTTGACCAGTTATGGGCTGCTGCCATCGACCCGGGGGCTGCGCTTTCTCGATAGCGCCGGAAAAGTCGCATGGAGTTTTCCGCCCGCCTCGCGCCTGCCCATGATCGACATCCCCGAAGCGCAGATGAACAATGGGGCGATGCTCGATACGATCATGCAGGGCTTGAGCGAACCGGAGATCAAGACGCTGCTGGACGAAGAACCCGGCCTCCCGCCCACCAGCCTCGGCGCCCGAACGGCCCGGTTGCGCCAGCAGATGGCAAAACTGGCCAATGACAAATGGGCCTCGTTATTCGAAACGCGCTACAGCGCGAAGCAGGTCCCCCCTGATCCCGCGGCTCGAAACCTGATGGACCGTTATCAGGGTCTGCCTCGCAGCGTCGCCGAAGAGCTGCTGCGCACCGCCACGGTCGAGGAATACAAGGGCATCGGCGCCAACCGTTTTTCGCCGCGCATCGATGAACTGGCGCGCTGGACCCTGCTGGAAACCCGCACCGTTCGCGCCTACGAAGGGCTGTATATCGACAACCTTGGCGGGGCCGACACTGACCGGCTGGTCCTGCATTCGTTGGATCGATTGCCCAACTGGTCCGCGGACGTACGCTTGGACATGCGCGCTTATTCCTTCAGGGGCACGATGCACGACAGCGTCGGAGCCCCCCAGGCAAAAATCGTCAGGACCCTGGTTCGCGGCGACGACAGACGCTATACCCCGTTTGATGATGCCGGTCTTGAGCTGCATGGCCCGACGGATATCTATCAAGGCGTGCTGCAGGCTTTGCCCGACGCACAACGCAACGCGCTGGACATCCACATCGGCCAAGGCGAGCGCCTGCGCCAGGCCATCGGCCGCTCCCCGCTGGACCGCGACAGCATGCGAGTACTGCTGGCCAGCGACCCAGTCCGCAAACCCCACTACGACAGCAGAATCATGCGCCTGCCCGGCGGCATGGATGGCTATCGGCCCGGCGCGCCGGCCAGTGGACCGAGCGCTTCACCAACGCCGGAGGAACGCGCGCAAGACCTGTTTCCGACGTTCAATGCCGAGCAGATCCGCAACCTGGTCAGGTCTCTGGAAAGCCGCCCTGGAGGTGCCAACTCGACCTTGGTGGCATTGCAACAATCCTACTCGGCACTGGAGGTGGATCTTTCCCGATGGGTGAGCGATACGCCGCAACCCGCCGCCGGGACGGGAGTCATCGTGAGCGCCAGCGACTACCAGGCAGCCAGACTCAACCGTCAGCGCTGGGCCGAGGAGATCAAGCGATGCCTGCGGCGGGAAACGGAGCTGGATGAGTTTCAAGGCAGCCATACCAGACCCAGCCACGTATTGGAACTGGAAGAACCGATGCCAGGTCCGTTGCCGCCCCTGAGGATGCGCTTCAGGCATGTGACCTATCTGCAATTGGCTGGCGACAGCACAACCGAGGGCCTCGTCGAATTCCTGCAGGCCTTTCCCAGCCTCCGGCATCTGGACATCGATGGGATACCGATCCGAACGCTACCGAAGCAGATCACCAGCCTGCCGGATCTGGGCGTACTGACGCTGAACAATTGCCGGATCACTCTGGATGCCAACACCCATGCCGCGCTTTCATCCATGACTCGGTTGCGTGTGCTGGACCTGTCCGATAATCCACTCGGGGGGGCCCCCGATGTAAGCAGGATGGCAGAGCTGCGGCAGTTGAAGCTCAGGAACACAGGTATCGATCAGGTGCCAACAGGGCTTGAAACTCGTCCGCACCTGACCACCGCGAGGCTCGAACGCAACCGCATCACCGACCTGCCCCCAGCGCTGTTCGAGTTGCCGGGCGAGGTCAGCAAGAAGATCGACCTCACCGGCAATCCCCTCTCCCGGGCGGCGCTCGACCGAGTGAAAGCCTACGCCCTGGAAAACGCCGAGCACATGAGTGTCGATGCCCCGCATGAATTGAGCCGACGGGTACAGGCGCTGTACCCGTCACTTAGCCGCAGGGACGCCAATCGATTCATTTTCAGCCTGCCGGGTACGCTCGATGAGGTCCCCGGAGGGCTGTCACGCCTGGAAAGCGAATTGGCCCAGCTCACAGCCGACCTCGAACGATGGCGGCAAGACGTGTTCCTGCCGGATCCGATCGCCCTGACACAAGAGCAGCTCAGGCGCAGTGCGCTCAAAGAGAAGCTTGTGGATTGCTGGCAACGCGACTTCTATCAAGACCCCGCCGAGCTTCCCGACAGGTTCGCGTTCGCCGGGAACATCCATGGCGCAATGCCCAGGCTCGATGCGCGATTCGAGCACATTACGACAGTCGACCTGCAAGGCGGCGTTGCCACGACCGGAGTGGATGGCCTGCTCCAGTGCTTTCCCAATCTTCAGACCGTGAACGTGGCCGATTTCAACCTGGGACAGCTGCCCGAATCGATATTCAACATGCCCCAGCTGACCGACCTCACCCTGCAAAACTGCAGGATTCGGCTGACACCTGCCGACGCAGGGCGTCTCGCCGGATTGACCGGGCTGGAAGATCTGGATTTGAGCGGCAACCCGCTGGGTACTACGCCAGAGGTCTGGCGCATGACCCGGTTGAAAACCTTATTGCTACCCGACTCGCAACTGACGCGGGTGCCAGAAGACGTTTTCAGCATGCCCACGCTGCTGACCCTCGACCTCAGCAATAACCTGATCACCGACCTGCCCGTCGATATCCTCGAAATGAGCGCCGAGACTGGTGAGGACTTCGAACTGGACGGCAACCCGTTCTCGGAACAGGGCCTGAGGCTTCTACGAATCCGCTATCAGCAAACCGGTAACGACATGGGCGTGGCCGCGGCCAGGCTGGATGCGCAAGGGAACCCGTTGCAGACACACCGCTAG	MHELNTTADTGTPVKSHYQHVLDAIPSWVGKAPAQQQTELRQAKPLFAPWLLGAPASRHAQMKRLNAAQWRARNGLEERLQALQDINAFAKPLLEAAIRTQFGLTLDVEKTQLWLYVPLNIPWLPIPSGGARTWKVSLLDAALHNFEPDEAKPDAYEPDSTYVAETTKSSEEGETGRFKPLTSIRQQMPIPAFIQLCRELDIGGQYQRHLQQQLGIGDTVATRALQRQVSESQEAALKAALHLALMKKDISAQSHSQVLGLLDGLPGMQLDGQPLCSHDLKIMDVALTGIVLFAPDFEQAQHTVPLVAYIPDDPQGAIKEYASSTLFSSALTQRLREKDYQQFFSRFVGHQERPLFFFELNQRLASIQWHRPAPGDSRPPWRETPADKPNLLFSAQLTPGDLMRHLYQGKLNKILNDARTIAVSTASADRNARWKRWDALSRIASELVSIAAFIATPFFPPLGALMLGYAAYQLLDDTFEGIVDWAEGLKQQAFEHLMSVMETLVQLGGFAVGVPIAEGMLRQALPKQLWSFIDNLMPVTRPDGQQRLWYPDLTPYHQDIEPVSSAGPDQLGLHEHLGRKILKLDTQRFVVRQDAGEGIYQIEHPARVDAYAPQLSHNGAGAWRTELDRPLTWDDTTLVRRLGQQTDAFSDEQLQQMLTVSGTHPDALRKLHVNNEPPPPLLADTLERFKVAQDLQRFVDLMGSDDPLLYRRADVQTQIQLLTSYGLLPSTRGLRFLDSAGKVAWSFPPASRLPMIDIPEAQMNNGAMLDTIMQGLSEPEIKTLLDEEPGLPPTSLGARTARLRQQMAKLANDKWASLFETRYSAKQVPPDPAARNLMDRYQGLPRSVAEELLRTATVEEYKGIGANRFSPRIDELARWTLLETRTVRAYEGLYIDNLGGADTDRLVLHSLDRLPNWSADVRLDMRAYSFRGTMHDSVGAPQAKIVRTLVRGDDRRYTPFDDAGLELHGPTDIYQGVLQALPDAQRNALDIHIGQGERLRQAIGRSPLDRDSMRVLLASDPVRKPHYDSRIMRLPGGMDGYRPGAPASGPSASPTPEERAQDLFPTFNAEQIRNLVRSLESRPGGANSTLVALQQSYSALEVDLSRWVSDTPQPAAGTGVIVSASDYQAARLNRQRWAEEIKRCLRRETELDEFQGSHTRPSHVLELEEPMPGPLPPLRMRFRHVTYLQLAGDSTTEGLVEFLQAFPSLRHLDIDGIPIRTLPKQITSLPDLGVLTLNNCRITLDANTHAALSSMTRLRVLDLSDNPLGGAPDVSRMAELRQLKLRNTGIDQVPTGLETRPHLTTARLERNRITDLPPALFELPGEVSKKIDLTGNPLSRAALDRVKAYALENAEHMSVDAPHELSRRVQALYPSLSRRDANRFIFSLPGTLDEVPGGLSRLESELAQLTADLERWRQDVFLPDPIALTQEQLRRSALKEKLVDCWQRDFYQDPAELPDRFAFAGNIHGAMPRLDARFEHITTVDLQGGVATTGVDGLLQCFPNLQTVNVADFNLGQLPESIFNMPQLTDLTLQNCRIRLTPADAGRLAGLTGLEDLDLSGNPLGTTPEVWRMTRLKTLLLPDSQLTRVPEDVFSMPTLLTLDLSNNLITDLPVDILEMSAETGEDFELDGNPFSEQGLRLLRIRYQQTGNDMGVAAARLDAQGNPLQTHR				NA	NA	NA	NA	NA
D1-35_00335	5103			hypothetical protein	ATGAATACGCCCATCACCGTCGTGCTTCCCAGGCGCAAGATCGCCCATCACAAGCTCATTGAAAAAGCCCTGCCTGAGTGGATCGCCAAGACCCCGCTCAAGCAACTCGAGCGATTGAAAACCATCCGGCCCGAACTTCCCGATTGGTTCAAGCAGGCCACGCCGGCACAACACAAGGAGCTGAGAGGTACACACACAGACAGCTGGACAAAACGTAACGAGGTCGAAAAGGAGCTGGTGCGATTACTGGATGTGCATTCGTTTGCCGAGCCGTTGCTCAAGAAACACATCAAGCAACGCTTCAACATCGATCTGGATGTCAGGGAAACATTCATAAACCTCTATATTCCGACCAGACTTCCAATCATTGACCTGCCCACGGACGGCTCGAAGCAATGGCGTGTGTCGGTACTCGACGCAGCCTTGCATAACTTCGAGGCCTTCGAGGGAGAAGCGGATGCACACCTTCCCGAGTCCGGCTTCATCACCCGCCCTGACGCACATGGCCGGTTCAGGATACTCGACGAGGTCACCGGCAAGCTTCCGGTCGATCAGTTCGTCAGATTTTGCCGGGAGCTGGATATCGGTCGGCGCTACGACACTCATTTGAGGGAGGAGCTGGGCCTGGATGACCATGGCAAACAACTGCGCCTCAAAACCCGGATCATCGCCAGCCAACTAGCGGACCTGAAAGCCGCCCTGCACCACGCAAGCCTGACTCTCGCCATCCAGAAAAGCAGCCTGCAGTCGCTGCTGGCCTTTATCGCGGGGCGGGATAATACATGGCAGACCTATGACCTGACCTTACTCTCGACGCCATTGACCGGCCCGATGATCTTCTCCCCCGGCAATGAGTGGTCAGCCTCCGCCCCCGTCGTCGTCTACATCCCCCACGACCCGAAGGTCCCCCTCAAGGAATACCCGTCGATGGCTGCGTTCATGACGCACCTCACCGAGCAACTACGCGGCGACAGCTACAAAAAGTTTTTCAGCCGCTTTATCCAGCATGACCAACTGGGCAGTTTCCACGGGGCCCTCAAGCGCAAATTTTTCCACGTCATCGAGGATCGCCCTAACGCTCCCGACTTCGGGATGCCGGAGCATGGATTTGTCGAAGATCTGAAACCCATTCCAGACCCAAGCCTGGCCTACTCGGCTTCGAAAATATCCGGGAACGTCCTGGAAGAGCTCTACAGCAAACAATTGAGCAAGATTTTCAAGGACGCGAAAGTCATCGCTGTGTCTACCGACAGTGAAGACCGCAAGACCCGCCATGATCGCTGGGAGCGAATAAAGAGTATCGGCCTTGCGCTGTTCAACGCCGCGCTATTTGTCATCGCGCCCTTTGTGCCGGTCGTCGGCGAGTTGATGTTGCTGCAGATGGCCTATCAACTGCTCGAAGACGCTTACGAAGGTGTACGCGACTGGGTGGCGGGCAAATCGATCGAAGCTTTTGAACATTTGTTCAGCATTGTCGAAACCGTACTCCAAACGGCCGGGTTTGCCGTAGGGGGCAGCATTGTCGGGGATTTGCTCGCCAAACCATCATCGTTCGTCAAAAACCTCAAGCCGGTGATTTCCACCGATGGCAAAACGCGGCTGTGGAACCCTGACCCGGCACCCTATGCACACCCGATCGAAGTACCGCCCACCTCGAAACCCGACACGCTTGGCCTGCACGAACATGACAGCCGCATCTTGCTGAAGCTGGCAGCGGATGACGATTCACAGCACACCCTGGCCCTGAGCAAAACCGCCGAAACAGAACGCTATACCCTGACTCACCCGACCCGGCCCGACGCCTACAGCCCGCGAATGGAACATAACGGCCAGGGCGCCTGGTTGATGGAGGGTGAACAACCGCAAGCCTGGAAAAGCCAGACACTGATGCGGCGCCTGGGCCACGCGACGGATGGCTTCAGCGATGCCGAACTGCAACAGCTGCGCATCATCAGCGGCACCGACGAAGGCGTTCTGCGCAGGGTTCATCTGCAAAACGAAGCCATGCCGCCCTTGCTGGACGATACCCTGGCGCGCTTCAGAACCTACCGGACTGTCGACCAGAATATCGGCCGTATCCGCGCGGGCGAAGCGCTGGACACCCAAGGCGGCTGGTTTGAACCCTTGGTAACCGAACTCGATGGCTGGCCCAGCGACAAAGCCCTGGAAGTATTTGCCGACTTCACGTTAACCGGCACACCTCATCACTACGGGGCATCCGTCCCGTCCGCCGACACCTTCAAGATCTCCCTGGGGGACCTGAACGGCGGAAAACTTGCTCCGCTTATTGTCGAGGGTCTCGATGAGCAACAACTCAGCGACTTGGTCGGATCGCAAACCCCGAAAGAACAGGCGCCACAGCGTCTGAACGAAAAACTGGCCGACCGCGCCGCGAGCCGCAAGATGGAAATCTTCGAGCAGGAATACCGCGGACAAGAACCCAGGCAGGCGCCAGAAGCTGCACTGGTCGAAAACACGATTGCGGACCTGCCTGCGCCCGTGACCCGGGTACTGCTCGACACGGCCACGCCTGCGGAAAACACCGCTATGACCGACCAGAACCGCGTTCCCCTGCGACTCAGGAACCTGGCCGAGGAGATGCACGTACAAACCCGGATAACCCGCGCCCAGGAAGGTCTTCTTGAAGACGACCTGCTCACCCCAGAAGGTGAAACGCTGACGCTCAACACCCTCAAGGCTTTTTCCGACGCGATCAGCGATGTCCACATTGAAGTCCGCGACAAAGTAATTGACGGCACGCTGCGCGCAAACCATCAACCGCAGCGCGCTACGCTCAAACGCGTGCTGGTGCGCACAGAGCCAGGCAAATATGAAGTGCGTGACAATGATGACCAATTGCTGCATCCGGCCAAACGTTTCCACAACGCATTGCTCAATGCCCTGCCGCCGAAAAATCTCGGCAAATTGACCTCGCGCTTCAAGCCAGGCGAAAAATTCAAGCACTGGCTTATCGACCAGTACCAGAACACCCGCCGGATACGCACCGCGATGGATTTCCCAGCCGTCGGCGCCTCCACCGCCCGCGAAACCGAAACCCTGCTGCGTGGGCCGATTTTTAGCCGTTTATGGCCTGCGGCCGAAGCCTTGCCCGCCGAAGTCGACCCGTTGGCTGAACGGCTGAAAAAAATCTACCCGACTCGGGATGAAGAGCAGATCGCCAACATGGTCAGCAGACTCGACTCCGATGAGCAGCTGCAAAAGCTCGCCGAGCTGGAGGACGAGAAGGCACAGCTTTTCGATGAGCTGGACCAGTGGGCGTCCACCCTGCCTCGCCATATCAATGCTCGCAGGATCCTCGCCGCACGACGCGAGATCACCCGTCGAATCAAGGACTCCTGGCTGCGTGGCGAAAAAGAGCAGATCCGCACCAACGGTGAGATATCTCGCGAGGACGTCACACTGAAGCTGGACCAGATATCGTTTGAGGGGGTGAAAATCGAAGATCTCGCGTTGAGCAAAAAGCTGCCCCATGTAATAAAACTGAGCCTGAATCAGTGCAATTTGTCTTCACTCAGCACAGATTTCCTCTCCAACTTCCCTGAGGTTCAGGTGTTGACCGCCGTCGGCAACAACTTGCAAAGCCTGCCTGAGGCCTTGAACGACCTGCCCACATTGCGCGTTATCAATCTTTCGCAAAACAAGATCGTGATTGATCCTGCCTCCGCAGCCAGTCTGCAAAAACCCGCGCTGCTATCTCTGAACCTCAACCAAAACCCCTTGGGGTTCGCTCCCGACGTCAGTCAACTGCCCGCTCTCAAAGCGCTCATGCTGAACAGGACGCAGATCACCGACTGGCCTCGAGGGCTGTTTTCGCACCCAAGAGCCGAGCACTTCGACTTACAAATGCAGGGCAACGAGATAACCACCGTGCCCGACTGCGAAGCCGGATCCCCCGAGGCCTGGATTGTGGCCCGCACGCGCCTGGACCGGCAGAAACTCGATCTGCAAAACGATGACAAGCTCGCCAATTACCGTCGCTCGGTGGGCCTTGATCCTCACCGTACCTACCCGCCGCGGGGCGATAAAGGCAGTGCTTTCTGGGTGAAGGATTATCGCGGAACGGATCTGGAGGCGCTGAGATTCACTTGGGATATTCTGGAAAACGAAGTCGGCTCCCAAGGTTTTTTCGAAGTCATCGCCAAGTTGGAAATAACCGACGACACCCTCTTCCAGACCGACGAGGATCAAGAAGCCTATGAAGAAAACCGCTCTGCACTCACTGACCAGGTCTGGCGAGTGATAGAGGCAGCCAGTGACGACACCGAGCTTCGCGAGAAGCTGTTCACAATGGCCGACGCCCCCACCAACTGTGCAGATGCCGGGGCGCAGATCTTCAATGCCATGGGGATCGAGACCATGCTCTCTGAGTTCTCTCACGCAGGCAGCGATGCGCCGACGCTGGAAAAAAACCTGATCGGCCTGGCCAGGGGCAAAGCACGGCTCAACAAGCTCTACGAAATCGCCCGCGCCGACGTGGCGCAGCGTGTATCGCCTGTAGAAAAGGACGGCCTGGGCCTGCGGTTCACCAGCGAGGTAATCAACGGTGAACCCGGCACGGTGGACGAGGTCGAGGTGCACACGGCCTATCAGGCCCGATTTACCAATAGCCTGGAGCTGCCGTGGGTATCGAAGCACATGGTTTATCGAAACACGGCGAACGTCACCGAACCGCAAATAAAGAATGCCATGCGCCTGGTGCGAGAGGGTGAGCGTAACGGTGGCCTGGTCAATCAGATCCTTGATGTCGAGTTCTGGGACACTTACCTGAGCGACGCCTACGCCGATAGACTCCAGGCCAACGATGAACTCTACGAAGCCCAGGCCGAGCAGCTAGAAGAACTGCGGGACCTGCAACACGAGTGGGTCGAATTCAATACCCGCCTGGAAGACAGGAATCCGGCAAAAAAACAGAGGCTGATCGAGCTCGCCAGCCAGTTGAGCGTGCCTGAAGCTGATGTGCTGACCGCAGGTAAAATGCCGGACAGCACCTATAACCGAGCCTACAGCGCCATCGCCGACCGGCGGAAAGAGCTCAGGCGCCAACTGACCAGTGAAGCGCTCACCCGGGCCCGCCTGGTTTAA	MNTPITVVLPRRKIAHHKLIEKALPEWIAKTPLKQLERLKTIRPELPDWFKQATPAQHKELRGTHTDSWTKRNEVEKELVRLLDVHSFAEPLLKKHIKQRFNIDLDVRETFINLYIPTRLPIIDLPTDGSKQWRVSVLDAALHNFEAFEGEADAHLPESGFITRPDAHGRFRILDEVTGKLPVDQFVRFCRELDIGRRYDTHLREELGLDDHGKQLRLKTRIIASQLADLKAALHHASLTLAIQKSSLQSLLAFIAGRDNTWQTYDLTLLSTPLTGPMIFSPGNEWSASAPVVVYIPHDPKVPLKEYPSMAAFMTHLTEQLRGDSYKKFFSRFIQHDQLGSFHGALKRKFFHVIEDRPNAPDFGMPEHGFVEDLKPIPDPSLAYSASKISGNVLEELYSKQLSKIFKDAKVIAVSTDSEDRKTRHDRWERIKSIGLALFNAALFVIAPFVPVVGELMLLQMAYQLLEDAYEGVRDWVAGKSIEAFEHLFSIVETVLQTAGFAVGGSIVGDLLAKPSSFVKNLKPVISTDGKTRLWNPDPAPYAHPIEVPPTSKPDTLGLHEHDSRILLKLAADDDSQHTLALSKTAETERYTLTHPTRPDAYSPRMEHNGQGAWLMEGEQPQAWKSQTLMRRLGHATDGFSDAELQQLRIISGTDEGVLRRVHLQNEAMPPLLDDTLARFRTYRTVDQNIGRIRAGEALDTQGGWFEPLVTELDGWPSDKALEVFADFTLTGTPHHYGASVPSADTFKISLGDLNGGKLAPLIVEGLDEQQLSDLVGSQTPKEQAPQRLNEKLADRAASRKMEIFEQEYRGQEPRQAPEAALVENTIADLPAPVTRVLLDTATPAENTAMTDQNRVPLRLRNLAEEMHVQTRITRAQEGLLEDDLLTPEGETLTLNTLKAFSDAISDVHIEVRDKVIDGTLRANHQPQRATLKRVLVRTEPGKYEVRDNDDQLLHPAKRFHNALLNALPPKNLGKLTSRFKPGEKFKHWLIDQYQNTRRIRTAMDFPAVGASTARETETLLRGPIFSRLWPAAEALPAEVDPLAERLKKIYPTRDEEQIANMVSRLDSDEQLQKLAELEDEKAQLFDELDQWASTLPRHINARRILAARREITRRIKDSWLRGEKEQIRTNGEISREDVTLKLDQISFEGVKIEDLALSKKLPHVIKLSLNQCNLSSLSTDFLSNFPEVQVLTAVGNNLQSLPEALNDLPTLRVINLSQNKIVIDPASAASLQKPALLSLNLNQNPLGFAPDVSQLPALKALMLNRTQITDWPRGLFSHPRAEHFDLQMQGNEITTVPDCEAGSPEAWIVARTRLDRQKLDLQNDDKLANYRRSVGLDPHRTYPPRGDKGSAFWVKDYRGTDLEALRFTWDILENEVGSQGFFEVIAKLEITDDTLFQTDEDQEAYEENRSALTDQVWRVIEAASDDTELREKLFTMADAPTNCADAGAQIFNAMGIETMLSEFSHAGSDAPTLEKNLIGLARGKARLNKLYEIARADVAQRVSPVEKDGLGLRFTSEVINGEPGTVDEVEVHTAYQARFTNSLELPWVSKHMVYRNTANVTEPQIKNAMRLVREGERNGGLVNQILDVEFWDTYLSDAYADRLQANDELYEAQAEQLEELRDLQHEWVEFNTRLEDRNPAKKQRLIELASQLSVPEADVLTAGKMPDSTYNRAYSAIADRRKELRRQLTSEALTRARLV				NA	NA	NA	NA	NA
D1-35_00336	1221	aruC	COG4992	Succinylornithine transaminase/acetylornithine aminotransferase	ATGTCCGTTGAGCAAGCCGCGGTCCAACGCGCCGATTTCGACCAGGTAATGGTTCCCAACTATGCACCTGCTGCCTTTATCCCTGTGCGTGGTGCCGGTTCCCGCGTGTGGGACCAGTCCGGTCGCGAGCTGATCGATTTTGCTGGCGGTATCGCAGTCAACGTACTGGGCCATGCCCATCCGGCGCTGGTCGGAGCCCTGACCGAGCAGGCCAACAAGCTGTGGCATGTGTCGAACGTATTCACCAACGAGCCGGCCTTGCGCCTGGCCCACAAGCTGGTCGACGCGACCTTTGCCGAGCGTGCGTTCTTCTGCAACTCCGGCGCCGAAGCCAACGAGGCCGCGTTCAAGCTGGCCCGTCGCGTCGGCTTTGATCGGTTTGGCAGCGAGAAATACGAGATCATCGCCGCGCTCAATAGCTTCCACGGGCGGACCCTGTTCACCGTCAACGTTGGCGGGCAGTCGAAGTACTCCGACGGTTTCGGTCCTAAAATCACCGGCATCACCCACGTTCCTTATAACGACCTTGCGGCTTTGCAGGCGGCGGTCTCGGACAAGACCTGCGCCGTGGTGCTGGAGCCGATCCAGGGCGAGGGCGGCGTGTTGCCGGGCGATCTGGCTTACCTGCAAGGCGCCCGCGAGCTGTGCGACGCACACAATGCGCTGCTGGTATTTGACGAAGTGCAGACCGGCATGGGCCGCAGTGGCGAATTGTTCGCCTACATGCACTACGGTGTGGTTCCGGACATCCTCACCAGCGCCAAGAGCCTGGGCGGTGGTTTCCCGATCGCGGCGATGCTCACCACCGAAGCGCTGGCCAAGCACCTGGTGGTCGGCACCCACGGCACCACCTATGGCGGCAACCCGCTGGCCTGTGCGGTGGCCGAAGCGGTGATCGACGTGGTCAATACGCCTGAAGTGCTCGGTGGCGTCAAAGCCAAGCATCAGAAATTCAAGGCGCGCCTGGAGCAGATCGGCGAGAAGTACGGCCTGTTTACCCAGGTGCGCGGTCTGGGCCTGTTGATCGGCTGCGTGCTGAACGACGCCTGGAAAGGCAAGGCCAAGGACATCTTCAACGCCGCCGAGCAGGAAGGCCTGATGATTCTGCAAGCCGGCCCGGACGTGATTCGTTTCGCCCCGAGCCTGGTGGTGGAAGACGCCGACATCGACGCCGGCCTGGACCGCTTCGAGCGGGCTGCGGCGAAGCTGACGCAAGCCTGA	MSVEQAAVQRADFDQVMVPNYAPAAFIPVRGAGSRVWDQSGRELIDFAGGIAVNVLGHAHPALVGALTEQANKLWHVSNVFTNEPALRLAHKLVDATFAERAFFCNSGAEANEAAFKLARRVGFDRFGSEKYEIIAALNSFHGRTLFTVNVGGQSKYSDGFGPKITGITHVPYNDLAALQAAVSDKTCAVVLEPIQGEGGVLPGDLAYLQGARELCDAHNALLVFDEVQTGMGRSGELFAYMHYGVVPDILTSAKSLGGGFPIAAMLTTEALAKHLVVGTHGTTYGGNPLACAVAEAVIDVVNTPEVLGGVKAKHQKFKARLEQIGEKYGLFTQVRGLGLLIGCVLNDAWKGKAKDIFNAAEQEGLMILQAGPDVIRFAPSLVVEDADIDAGLDRFERAAAKLTQA	PGPT0014253_840	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
D1-35_00337	1020	astA_1	COG3138	Arginine N-succinyltransferase subunit alpha	ATGCTGGTGATGCGCCCCGCGCAAATGGCTGACCTGGGCGAGGTACAGCGGCTGGCTGCGGACAGTCCGATCGGTGTCACTTCCTTGCCGGACGACGTGGAACGCCTGAGCGACAAGATCGCTGCAAGTGAAGCCTCGTTCGCCGCCGAAGTCAGTTTTAACGGCGAGGAAAGCTATTTCTTCGTCCTCGAAGACACCACCACCGGCAAGCTGGTCGGCTGTTCGGCCATCGTCGCGTCGGCGGGCTATTCCGAGCCGTTCTACAGCTTTCGCAACGAGACGTTCGTCCATGCCTCCCGCGAGCTGAAGATCCACAACAAGATTCACGTCCTGTCCCAGTGCCACGACCTGACCGGTAACAGTCTGTTGACCAGTTTCTACGTGGTCCCGGAACTGGTCGGCTCGCCCTGGGCGGAGCTCAACTCCCGCGGACGCCTGCTGTTCGTGGCCAGCCATCCGGAGCGCTTCGCCGATTCGGTGGTGACCGAGATCGTCGGCTACAGCGACGAGAATGGCGATTCACCGTTCTGGGACGCCATCGGTCGCAATTTCTTCGACCTCAATTACGCCGCCGCCGAGCGCCTGTGCGGGCTGAAAAGCCGGACCTTCCTCGCCGAGCTGATGCCGCATTACCCGATCTACGTGCCGCTGTTGCCGGACGCCGCCCAGGAAGCCATGGGCCAGGTCCACCCGCGTGCACAGATCACCTTCGACATCCTGATGCGCGAAGGTTTCGAGACCGATCACTACATCGACATCTTCGACGGCGGTCCGACCTTGCATGCGCGTGTCTCGGGGATCCGCTCGATCGCCCAGAGCCGCGTGGTGCCGGTCAAGATCGGTGAAACGGTGAAGGGCGTGGGCCGCCAGTACCTGGTGGCCAATGCCCAACTGCAGGATTACCGCGCCGTGCTGCTCGAACTCGATTACGCGCCGGGCAAGCCCGTGACACTGGATATGGACGCGGCCGAAGCCTTGGGCGTCGGCGAGGGTGCCAGCGTGCGCCTGGTAGCCGTATAA	MLVMRPAQMADLGEVQRLAADSPIGVTSLPDDVERLSDKIAASEASFAAEVSFNGEESYFFVLEDTTTGKLVGCSAIVASAGYSEPFYSFRNETFVHASRELKIHNKIHVLSQCHDLTGNSLLTSFYVVPELVGSPWAELNSRGRLLFVASHPERFADSVVTEIVGYSDENGDSPFWDAIGRNFFDLNYAAAERLCGLKSRTFLAELMPHYPIYVPLLPDAAQEAMGQVHPRAQITFDILMREGFETDHYIDIFDGGPTLHARVSGIRSIAQSRVVPVKIGETVKGVGRQYLVANAQLQDYRAVLLELDYAPGKPVTLDMDAAEALGVGEGASVRLVAV	PGPT0020090_1023	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020090-astA-K00673	NA	NA
D1-35_00338	1026	aruG_1	COG3138	Arginine N-succinyltransferase subunit beta	ATGATCGTTCGTCCCGTACGCAGCAGCGATTTACCCGCGCTGATCGCCCTGGCCCGCAGCACCGGCACCGGCCTGACCACCTTGCCGGCCAACGAAGAGCGCCTGGCGCATCGGGTCGGCTGGGCCGAGAAGACCTTTCGCGGCGAAGCCGGGCGCGGCGATGCGGACTACCTGTTCGTGCTTGAAGACGACGACGGTCGCGTGGTGGGCATTTCCGCCATCGCCGGTGCCGTGGGGCTGCGCGAGCCCTGGTACAACTTCCGGGTCGGCCTGACGGTCAGCGCTTCCCAGGAGCTGAACATCTACCGGGAAATCCCGACGCTGTTCCTGGCCAACGACCTGACCGGCAATTCGGAACTGTGCTCGCTGTTCCTGCACGCCGACTACCGCAACGGCCTCAACGGCCGCATGCTGGCCAAGGCGCGGCTGCTGTTCATCGCCGAATTCTCCCAGCTGTTCGGTAACAAAATCATCGCCGAGATGCGCGGCATGTCCGACGAAAACGGCCGTTCGCCGTTCTGGGAAAGCCTCGGTCGGCACTTCTTCAAGATGGAATTCAGCCAGGCCGATTACCTGACCGGCGTGGGCAACAAGGCTTTCATTGCCGAATTGATGCCCAAGTTCCCGCTGTACACCTGCTTCCTGTCCGAGGATGCCCGGGCCGTGATCGGCCAGGTCCATCCCGACACCGAACCGGCGCTGTCGATGCTCAAGAGCGAAGGCTTCAGCTATCAGGGCTATGTCGACATCTTCGACGCCGGCCCGGCCGTCGAATGCGAGACCGGCAAGATCCGCGCGATTCGCGACAGCCAGGCGCTGGTGCTGGCCATCGGCACGCCGGGCGATGACGCCACGCCGTTCCTCATCCATAACCGCAAGTGCCAGGACTGCCGCATCACCGCGGCGCCTGCGCGCTTCGCCGCGGGCACCCTGGTGGTCGATCCGCTGACCGCCAAACGTCTTCAACTCAACGCCGGCGACCAGGTGCGTGCCGTGGCGTTGTCCGCCGCTCGGGAGACCAAATAA	MIVRPVRSSDLPALIALARSTGTGLTTLPANEERLAHRVGWAEKTFRGEAGRGDADYLFVLEDDDGRVVGISAIAGAVGLREPWYNFRVGLTVSASQELNIYREIPTLFLANDLTGNSELCSLFLHADYRNGLNGRMLAKARLLFIAEFSQLFGNKIIAEMRGMSDENGRSPFWESLGRHFFKMEFSQADYLTGVGNKAFIAELMPKFPLYTCFLSEDARAVIGQVHPDTEPALSMLKSEGFSYQGYVDIFDAGPAVECETGKIRAIRDSQALVLAIGTPGDDATPFLIHNRKCQDCRITAAPARFAAGTLVVDPLTAKRLQLNAGDQVRAVALSAARETK	PGPT0020090_818	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020090-astA-K00673	NA	NA
D1-35_00339	1467	astD	COG1012	N-succinylglutamate 5-semialdehyde dehydrogenase	ATGAAATCGTTGTACATCGCGGGAAGCTGGCTGGAAGGCCAGGGCGACGTCTTTGAGTCGTTGAACCCGGTCACCCAGCAAGTGTTGTGGACGGGCAAGGGCGCCACCGCGGCGCAGGTCGAGTCGGCCGTGCAGGCGGCGCGCCAGGCGTTCCCGGAGTGGGCGCGGCGCTCGCTGGATGAACGCATCCAGGTGCTCGAAGCCTTCGCCGGCACCTTGAAGACGCAGGCTGACGAATTGGCCCGTTGCATCGGTGAGGAAACCGGCAAGCCGCTGTGGGAAGCCGCCACCGAAGTCACCAGCATGATCAACAAGGTGGGGATTTCGGTACAGAGCTACCGCGAGCGCACCGGCGAAAAGAGCGGCCCCCTGGGCGACGCCACCGCCGTGCTGCGGCACAAGCCCCACGGTGTGGTGGCGGTATTCGGCCCTTACAACTTCCCCGGCCATTTGCCCAACGGGCACATCGTGCCGGCGCTGCTGGCGGGTAACTGCGTGTTGTTCAAACCGAGCGAGCTGACCCCGAAAGTCGCCGAGCTGACGGTCCAGTGCTGGGTCGAGGCCGGCCTGCCGGCGGGCGTGCTGAACCTGCTGCAGGGCGCGCGGGAAACCGGTATCGCCCTGGCGGCGGATCCGGGCATCGACGGGCTGTTCTTCACCGGTTCCAGTCGCACCGGCAACCTGCTGCATCAACAATTCTCCGGTCGTCCGGACAAGATCCTCGCGCTGGAAATGGGCGGCAACAATCCACTGGTGGTGGACGAAGTGGCCGACGTCGATGCGGCGGTCTATACGATCATCCAGTCGGCGTTCATTTCCGCCGGCCAGCGTTGCACCTGCGCGCGCCGCCTGTTGGTGCCGGAAGGTGCCTGGGGCGATGCCTTGCTGGCGCGCCTGGTGCAGGTCAGCTCGACTATCGAAGTCGGCGCCTTTGACCAGCAACCGGCACCGTTCATGGGCTCGGTGGTTTCCTTAGGCGCGGCGAAGGCGCTGATGGACGCGCAGAATCATTTGCTGGGCAAGGGCGCCGCGCCGCTGCTCGCCATGACCCAGCCACAGCCCCAGGCCGCGTTGCTGACACCGGGTATCCTCGACGTGACCGCCGTGACCGAGCGCCCCGACGAAGAGTTGTTCGGGCCGCTGCTGCAGGTGATCCGCTACAAGGATTTCGCCGCCGCGATCAGCGAAGCCAACAATACCCAATATGGCCTGGCCGCCGGGTTGCTCTCGGATTCGCAAGAACGTTACGACCAGTTCTGGCTGCAAAGCCGCGCCGGCATCGTCAACTGGAACAAACAGCTGACCGGCGCCGCCAGCAGCGCGCCGTTCGGCGGCATCGGCGCCTCGGGCAACCACCGCGCCAGTGCTTATTACGCGGCGGATTACTGCGCGTACCCGGTGGCGTCGCTGGAGACACCAAGCCTGGTGATGCCGGCCAGCCTGACACCTGGCGTGCGAATGGCGTAG	MKSLYIAGSWLEGQGDVFESLNPVTQQVLWTGKGATAAQVESAVQAARQAFPEWARRSLDERIQVLEAFAGTLKTQADELARCIGEETGKPLWEAATEVTSMINKVGISVQSYRERTGEKSGPLGDATAVLRHKPHGVVAVFGPYNFPGHLPNGHIVPALLAGNCVLFKPSELTPKVAELTVQCWVEAGLPAGVLNLLQGARETGIALAADPGIDGLFFTGSSRTGNLLHQQFSGRPDKILALEMGGNNPLVVDEVADVDAAVYTIIQSAFISAGQRCTCARRLLVPEGAWGDALLARLVQVSSTIEVGAFDQQPAPFMGSVVSLGAAKALMDAQNHLLGKGAAPLLAMTQPQPQAALLTPGILDVTAVTERPDEELFGPLLQVIRYKDFAAAISEANNTQYGLAAGLLSDSQERYDQFWLQSRAGIVNWNKQLTGAASSAPFGGIGASGNHRASAYYAADYCAYPVASLETPSLVMPASLTPGVRMA				NA	NA	NA	NA	NA
D1-35_00340	1347	astB	COG3724	N-succinylarginine dihydrolase	ATGAAATCCTATGAAGTCAACTTTGACGGTCTAGTGGGGCCGACCCATAACTACGGCGGGCTCTCGTACGGCAACGTCGCGTCCCAGAGCAACAGCCAGCAATCCTCGAACCCCAAGGAGGCGGCGCTGCAAGGCCTGGCGAAAATGAAGGCGCTGATGGACATGGGCTTTCAGCAGGGCGTGCTGGCGCCGCAGGAGCGTCCGGACGTGGCGGCCTTGCGTCGGTTGGGCTTTGCCGGCAGCGATGCGCAGGTCATCCAGCGCGCCGCGAAAGAAGCGATGCCGCTGCTGGTTGCCAGTTGCTCGGCCTCGAGTATGTGGGTGGCCAACGCCGCCACCGTCAGCCCGAGCGCCGACACCGCTGACGGCCGCGTGCATTTCACCGCCGCCAACCTCAATTGCAAGTACCACCGCAGCATCGAGCACCCGACCACCAGCCGTGTGTTGGGCGCGATGTTCGCCGACCAGCAGCACTTCGCCCATCACGCCGCGTTGCCCGCGGTGGCGCAGTTCGGCGATGAAGGCGCGGCCAACCACACGCGATTCTGCCGTGCCTATGGCGAGGCCGGCGTCGAGTTTTTTGTCTTCGGCCGCAGCGCCTTCGACAGCCGTTACCCGTCGCCACAGAAATACCCGGCGCGCCAGACCCTTGAAGCGTCCCGCGCCGTTGCCCGCCTGCACGGCCTGAGCGAGGAGGGCGTGGTGTACGCCCAACAGAACCCGGCGGTGATCGACCAGGGCGTCTTCCACAACGACGTGATCGCGGTCGGTAACGGCGAAGTGTTGTTCTATCACGAGGACGCGTTCCTCGACACAGACCGGATGCTGGCCGAGCTGAGCAGCAAGATCGCCAAAGTCGGTGGGAAATTTCAGCCAGTGTGCGTACCGCGTTCGGCGGTCACCGTGGATGATGCGGTACGTTCCTACCTGTTCAATAGCCAGTTGCTGTCGCGTGCCGACGGCTCGATGCTGTTGATCGTGCCGGAAGAATGCCGTGGCAACGAACGCGTCTGGAACTACCTGCAAGGCCTGACGGGGTCTGGCGGGGTGATTCGCGAAGTGAAGGTCTTCGATCTCAAGCAAAGCATGCAGAACGGCGGCGGCCCCGCTTGCCTGAGGTTGCGCGTGGCGCTTAACGAAACCGAACTGGCGGCCGTCAACCCAGGGGTTATCATGACCGCGCCGCTGTATGAGTCGTTGACCCAATGGGTCGAGCGCCATTACCGCGACCGCATGACCGAAAACGACCTGGCGGACCCGCAATTGTTGCTTGAGTGCCGGTCGGCACTGGATGAACTGACACAAATCCTTAAACTTGGCGCGGTTTATCCTTTCCAGATCAATTGA	MKSYEVNFDGLVGPTHNYGGLSYGNVASQSNSQQSSNPKEAALQGLAKMKALMDMGFQQGVLAPQERPDVAALRRLGFAGSDAQVIQRAAKEAMPLLVASCSASSMWVANAATVSPSADTADGRVHFTAANLNCKYHRSIEHPTTSRVLGAMFADQQHFAHHAALPAVAQFGDEGAANHTRFCRAYGEAGVEFFVFGRSAFDSRYPSPQKYPARQTLEASRAVARLHGLSEEGVVYAQQNPAVIDQGVFHNDVIAVGNGEVLFYHEDAFLDTDRMLAELSSKIAKVGGKFQPVCVPRSAVTVDDAVRSYLFNSQLLSRADGSMLLIVPEECRGNERVWNYLQGLTGSGGVIREVKVFDLKQSMQNGGGPACLRLRVALNETELAAVNPGVIMTAPLYESLTQWVERHYRDRMTENDLADPQLLLECRSALDELTQILKLGAVYPFQIN				NA	NA	NA	NA	NA
D1-35_00341	288			hypothetical protein	ATGAGCGATACCCTGCAGCTGATCCTAGAAGACACCGACGGCACGCAACTGGAAACCTCCTGCACCCGCGTCGCGGTGATGTGGCAGGGCAAGGAGCTGTGGATCCAGCAGGACGGCCGCGGCCAGCTGTTGATCGGCGTCGACGTCGAGGAAGGGGACGCGGAATACGCCAACCTCTTGCTGCGTCCATTGGCGACCAACCTGGTCAGCCTGCAACTGGAAATGGAACCGGCCGACATCGGCGATGACGACCACGTCCATGGCCCTGACTGCGGCCACGATCACTAA	MSDTLQLILEDTDGTQLETSCTRVAVMWQGKELWIQQDGRGQLLIGVDVEEGDAEYANLLLRPLATNLVSLQLEMEPADIGDDDHVHGPDCGHDH				NA	NA	NA	NA	NA
D1-35_00342	1008	astE	COG2988	Succinylglutamate desuccinylase	ATGCTCGCCCTCGGCAAACTGCTTGAACTGACCCTCGCCGGCCGCGAACCGGCGGAGAAGACTCAACTGACTGTCGAAGGCGTACGGATGCGCTGGTTGAGCGAGGGCGCGCTGGAGGTCAAGCCGCCCGAAGCCCGGGACAACGGCCTGGACCTGCTGCTGTCGGCCGGTATCCATGGCAATGAAACCGCGCCGATCGAGTTGCTCGATCGACTGCTGCACGACATTGCCCGTGGCGACCTGAAGCCGCGGGCACGCATTCTATTTCTGTTCGGCAACCCCGAGGCGATTCGTCGCGGCGAGCGTTTTGTCGAGCAGGACGTCAACCGGCTGTTCAACGGCCGCCACGAACTGAGCGGCGGCCCCGAGGCGTTGCGCGCCTGTGAGCTGGAACGGCTGGCTGCGAGTTTCTTCAGCGTGCCGGACCGCAGCCGTCTGCACTACGACTTGCACACCGCCATCCGCGGTTCGAAGATCGAGCAGTTCGCCCTGTACCCCTGGAAGGAAGGCCGCCAACATTCACGTCGCGAGCTGGCGCGCCTGCGCGCGGCGGGCATGGAAGCGGTGTTGCTGCAGAACAAACCGTCCATCGTCTTCAGCGCGTACACCTACGATCAGCTGGGCGCCGAGTCCTTCACTCTGGAACTGGGCAAGGCCCGGCCGTTCGGGCAGAACGGTGGCGTCAACGTCAACCAGCTGGAAACCCGCCTGCACCAGGTCATCGAAGGCAACGAGCCGGAGCTGGAAGACAGCCTGGATGGTCTGCAACTGTTCAGCGTGGCGCGGGAAATCATCAAGCACAGCGACAGCTTCCGCCTGAACCTGCCGGCGGACATCGAGAACTTCTCGGAACTTGAAAAAGGTTACGTCCTGGCCGAGGACATCGCCCAGACCCGCTGGGTGATCGAAGAAGAGGGCGCGCGGATCATCTTCCCGAACCCCAAGGTCAAGAATGGCTTGCGCGCGGGCATCCTGATCGTGCCCGCGACGGACGAGAACCTGGCCTAA	MLALGKLLELTLAGREPAEKTQLTVEGVRMRWLSEGALEVKPPEARDNGLDLLLSAGIHGNETAPIELLDRLLHDIARGDLKPRARILFLFGNPEAIRRGERFVEQDVNRLFNGRHELSGGPEALRACELERLAASFFSVPDRSRLHYDLHTAIRGSKIEQFALYPWKEGRQHSRRELARLRAAGMEAVLLQNKPSIVFSAYTYDQLGAESFTLELGKARPFGQNGGVNVNQLETRLHQVIEGNEPELEDSLDGLQLFSVAREIIKHSDSFRLNLPADIENFSELEKGYVLAEDIAQTRWVIEEEGARIIFPNPKVKNGLRAGILIVPATDENLA	PGPT0020091_359	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020091-astE-K05526	NA	NA
D1-35_00343	510	ribH_1		6,7-dimethyl-8-ribityllumazine synthase	ATGCAACCCACCGCAATCGACAGCAAGACCAAAACCCATCCGGGCGAGCGCGTCGCGTTCATCCAGGCCTGCTGGCACAAGGAAATCGTCGACCAGAGCCGTAAAGGCTTCGTCACTGAGATGATCAGCCAGGGTTATCAGGAAAGTGACATCGACTTCTTCGAAGTCGGCGGCGCGTTCGAAATCCCGCTGCACGCCAAGCTGCTGGCCAAGTCAGGTCGTTACGCCGGCATCGTCGCCGCCGGCCTGGTGGTGGACGGTGGCATCTATCGCCACGAGTTCGTCGCCCAATCGGTGATCAGCGGCCTGATGCAGGTCCAGTTGGAAACCGAAGTGCCGGTATTTTCGGTCGTGTTGACGCCGCATCACTTCCACGCTGGCGAAGAACATCAGAAATTCTTCTTCGAGCACTTCGTGCACAAGGGCCAGGAAGCGGCGAAGACCTGTGCCGATACGCTGCACAAGACGCGGGCGTTGCGCCGCAGTGAGCAGCGGGCGGTAGCGGTCTAA	MQPTAIDSKTKTHPGERVAFIQACWHKEIVDQSRKGFVTEMISQGYQESDIDFFEVGGAFEIPLHAKLLAKSGRYAGIVAAGLVVDGGIYRHEFVAQSVISGLMQVQLETEVPVFSVVLTPHHFHAGEEHQKFFFEHFVHKGQEAAKTCADTLHKTRALRRSEQRAVAV	PGPT0008605_767	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
D1-35_00345	1005	ltaE_1	COG2008	Low specificity L-threonine aldolase	ATGAGCGCTATCGACCTTCGCAGCGACACGGTGACCCAACCTTGCGCCGGCATGCTGGATGCCATGGCCAGCGCGCCGACCGGCGACGATGTGTATGGCGAAGACCCGACCGTCAATCGTCTCGAAGCCGAGCTGGCCGCGCGCCTGGGGTTCGCGGCGGCGTTGTTCGTGCCCACGGGCACCATGAGCAACCTGCTGGGGTTGATGGCCCACTGTGAGCGCGGCGATGAATACATCGTCGGCCAGCAGGCCCACACCTACAAATACGAGGGTGGCGGTGCGGCGGTGCTCGGTTCGATCCAGCCCCAGCCCCTGGAAGTGCAGGCGGACGGCTCGCTGGACTTGGCGCAAGTGGCTGCCGCGATCAAGCCCGACGATTTCCATTTTGCCCGCACCCGCCTGCTGGCCCTGGAAAACACCATGCAGGGCAAGGTCTTGCCGCTGGAATACCTGGCGCAAGCCCGGCGTTTCACTCGGCAACATGGCCTGGCGCTGCACCTGGACGGCGCGCGGCTGTACAACGCCGCCGTCAAGCTGAACGTGGACGCCCGGGAGATCACCCAGCATTTCGATTCGGTGTCGGTGTGCCTGTCCAAGGGGCTCGGTGCCCCGGTGGGCTCGGTGCTGTGCGGCACTGACGAGTTGATCGGCAAGGCCCGTCGGCTGCGCAAGATGGTCGGTGGCGGCATGCGCCAGGCCGGGATCCTCGCGGCGGCGGGGCTGTATGCCCTGGAACATAACGTCCGACGCCTGGCCGACGATCACGCCAATGCCCAGCGGCTTGCCGAGGGCTTGCGTGCGGCGGGTTATTCCGTCGAGCCGGTGCAGACCAACATGGTCTACGTGCAGATCGGCGAGCGGGCCGAGGCGATAAAGGCCTATGCCGCCGAGCGACGCATCCAGCTCAGTGCCGCGCCCCGTCTGCGGATGGTCACCCACATGGATGTCGGCGCCGGGCAAATCGACCAGGTGATCGACACTTTCGTCGAATTTTCCCGCAACTGA	MSAIDLRSDTVTQPCAGMLDAMASAPTGDDVYGEDPTVNRLEAELAARLGFAAALFVPTGTMSNLLGLMAHCERGDEYIVGQQAHTYKYEGGGAAVLGSIQPQPLEVQADGSLDLAQVAAAIKPDDFHFARTRLLALENTMQGKVLPLEYLAQARRFTRQHGLALHLDGARLYNAAVKLNVDAREITQHFDSVSVCLSKGLGAPVGSVLCGTDELIGKARRLRKMVGGGMRQAGILAAAGLYALEHNVRRLADDHANAQRLAEGLRAAGYSVEPVQTNMVYVQIGERAEAIKAYAAERRIQLSAAPRLRMVTHMDVGAGQIDQVIDTFVEFSRN	PGPT0020465_3502	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020465-ltaE-K01620	NA	NA
D1-35_00346	2622	alaS	COG0013	Alanine--tRNA ligase	ATGAAAAGCGCAGAAATCCGTGAAGCCTTCCTTCGCTTCTTCGAAGAGCAAGGCCACACCCGAGTAGCCTCCAGCTCTTTGATTCCGGGCAACGACCCGACCCTGCTGTTCACCAACGCGGGGATGAACCAGTTCAAGGACTGCTTCCTGGGCCAGGAAAAACGTGCCTACACCCGCGCGGTGAGCAGCCAGAAATGCGTGCGTGCCGGTGGCAAGCACAACGACCTGGAAAACGTCGGCTATACCGCTCGTCACCACACCTTTTTCGAAATGCTGGGTAACTTCAGCTTCGGTGACTATTTCAAGCGCGACGCCATCACCTTCGCCTGGACATTCCTGACTTCCGAAAAGTGGCTGAACCTGCCGAAGGAAAAGCTCTGGGTCACGGTCTACGCCACCGACGACGAAGCCTACGACATCTGGACCAAAGAGGTCGGTGTCCCGGCTGAACGCATGGTGCGCATCGGCGACAACAAAGGCGCGCCTTACGCTTCCGACAACTTCTGGACCATGGGCGATACCGGCCCGTGCGGCCCTTGCACCGAGATCTTCTACGATCACGGCGCCGACATCTGGGGCGGCCCACCCGGCTCGCCGGAAGAAGACGGCGACCGTTACATCGAGATCTGGAACAACGTGTTCATGCAGTTCAACCGCACCGCCGACGGCGTGTTGCATCCGCTGCCGGCGCCGTCGGTAGACACCGGCATGGGCCTGGAGCGGATCAGTGCGGTGTTGCAGCACGTCCACTCCAACTACGAGATCGACCTGTTCCAGAGCCTGCTGGCCGCTTCGGCCAAGGCCATCGGTTGCACCAACGACAACCAGGCCTCGCTGAAAGTGGTGGCCGACCATATCCGTTCCTGCGGCTTCCTGATCGCCGACGGCGTGCTGCCTTCCAACGAAGGTCGCGGCTATGTGCTGCGCCGGATCATTCGTCGCGCCTGCCGTCACGGCAACAAGCTGGGCGCCAAGGGCAGCTTCTTCTATCAGATCGTCGCGGCGCTCGTGGCCGAGATGGGCGAGGCCTTTCCGGAGCTCAAGACTCAGCAGGCGCACATCGAACGTGTCCTCAAGGGTGAAGAAGAGCAGTTCGCCAAGACCCTGGAGCAGGGCCTGAAGATCCTCGAGCAGGATCTGGCCGAGCTCAAGGGCAACGTGGTTCCTGGTGACGTGGTGTTCAAGCTGTACGACACCTATGGCTTCCCGATGGACCTGACCGGCGACATCGCCCGCGAACGCAACCTGACCCTCGACGAGGAAGGTTTCGAGCGCGAGATGCAAGCCCAGCGCGTGCGTGCGCGCTCCGCCAGCTCCTTCGGCATGGACTACAACAGCCTGGTCAAGGTTGACGTGGCCACCGAATTTACCGGTTACGCCGCGACCACCGGCTCGGCCAAGATCGTGGCGATCTACAAGGACGGGCAATCGGTCGACATCCTGAGCGAAGGCCAGGAAGGCGTGATCGTGCTGGACACGACACCTTTCTACGCCGAGTCCGGCGGCCAGATCGGCGACAGCGGCTACTTGCAGGCCGGCAACTCGCGCTTCGATGTGCGTGACACCACCAAGACCGGCGGCGCGTTCCTGCACCACGGCGTGCTGGCCTCCGGCAGCCTGATGGTCGCAGCGCCCGTGGCCGCCCATGTCGACGCCGAGGTCCGTCACGCGACTGCGTTGAACCACTCCGCGACACACTTGCTGCACGCAGCGTTGCGCCAGGTGCTGGGCGAACACGTTCAGCAGAAGGGCTCGTTGGTGGACAGCCAGCGCCTGCGCTTCGACTTCAGCCATTTCGAAGCGATCAAGCCTGAGCAACTCAAGGCGCTGGAAGACATCGTCAACGCCGAGATCCGCAAGAACTCCCCGGTAGAGACCGAGGAAACCGACATCGAGACCGCCAAGCGCAAAGGCGCGATGGCGCTGTTCGGCGAGAAGTACGGCGATAACGTGCGCGTGCTGAGCATGGGCGATTTCTCGGTGGAGCTGTGCGGTGGCATCCACGCCAATCGTACCGGCGACATCGGCCTGCTGAAGATCATCAGCGAAGGCGGCGTGGCCTCCGGTGTGCGGCGTATCGAGGCGGTCACTGGCGCTGCTGCGCTGGCCTACCTCAACGCGGCTGAAGAACAACTCAAGGAAGCGGCGAGCCTGATCAAGGGCAGCCGTGACAACCTGATCGACAAGTTGTCGGCTGTGCTGGAACGCAACCGCCTGCTGGAAAAGCAGCTTGAACAGTTGCAGGCCAAGGCTGCCAGCGCCGCGGGCGACGATCTGTCGGCCCAGGCGGTGGACGTCAAGGGTGTGAAAGTGCTGGCTGTGCGTCTCGACGGCCAGGACGGCAAGGCGCTGCTGGCGCTGATCGATCAACTGAAAAACAAACTCGGCCGCGCAGTGATCCTGCTCGGCGGTGTCCATGAGGAAAAGGTCGTTCTCGTCGCAGGCGTGACCAAAGACCTGACTGGCCAACTCAAAGCCGGTGATTTGATGAAGCAGGCCGCTGCGGCAGTGGGCGGGAAGGGCGGTGGTCGTCCGGACATGGCGCAAGGCGGCGGTACCGACGCCAGCGCCCTGGACGCGGCACTGGCCCAGACCGTTGCATTTGTAGAGCAGGGCATTTAA	MKSAEIREAFLRFFEEQGHTRVASSSLIPGNDPTLLFTNAGMNQFKDCFLGQEKRAYTRAVSSQKCVRAGGKHNDLENVGYTARHHTFFEMLGNFSFGDYFKRDAITFAWTFLTSEKWLNLPKEKLWVTVYATDDEAYDIWTKEVGVPAERMVRIGDNKGAPYASDNFWTMGDTGPCGPCTEIFYDHGADIWGGPPGSPEEDGDRYIEIWNNVFMQFNRTADGVLHPLPAPSVDTGMGLERISAVLQHVHSNYEIDLFQSLLAASAKAIGCTNDNQASLKVVADHIRSCGFLIADGVLPSNEGRGYVLRRIIRRACRHGNKLGAKGSFFYQIVAALVAEMGEAFPELKTQQAHIERVLKGEEEQFAKTLEQGLKILEQDLAELKGNVVPGDVVFKLYDTYGFPMDLTGDIARERNLTLDEEGFEREMQAQRVRARSASSFGMDYNSLVKVDVATEFTGYAATTGSAKIVAIYKDGQSVDILSEGQEGVIVLDTTPFYAESGGQIGDSGYLQAGNSRFDVRDTTKTGGAFLHHGVLASGSLMVAAPVAAHVDAEVRHATALNHSATHLLHAALRQVLGEHVQQKGSLVDSQRLRFDFSHFEAIKPEQLKALEDIVNAEIRKNSPVETEETDIETAKRKGAMALFGEKYGDNVRVLSMGDFSVELCGGIHANRTGDIGLLKIISEGGVASGVRRIEAVTGAAALAYLNAAEEQLKEAASLIKGSRDNLIDKLSAVLERNRLLEKQLEQLQAKAASAAGDDLSAQAVDVKGVKVLAVRLDGQDGKALLALIDQLKNKLGRAVILLGGVHEEKVVLVAGVTKDLTGQLKAGDLMKQAAAAVGGKGGGRPDMAQGGGTDASALDAALAQTVAFVEQGI				NA	NA	NA	NA	NA
D1-35_00347	1242		COG0527	Aspartate kinase	ATGGCTTTGATCGTACAGAAATTTGGAGGCACCTCGGTCGGCACCGTCGAGAGAATCGAACAAGTCGCCGACAAGGTTAAGAAATTCCGTGACGCTGGCGATGACCTGGTGGTCGTGCTGTCGGCAATGAGCGGCGAGACCAACCGTCTGATCGATCTGGCCAAGCAAATCAGCGGCGACCAGCAACCGGTCCCCCGTGAGCTGGACGTAATCGTTTCCACTGGCGAGCAGGTGACCATCGCCTTGCTGGCCATGGCGCTGATCAAGCGTGGCGTACCGGCGGTGTCCTACACCGGCAACCAGGTGCGTATCCTGACCGACAGTGCGCATAACAAAGCGCGTATCCTGCAGATCGACGACCAGAAGATTCGCGGTGACCTGAAGGCTGGCCGCGTCGTGGTTGTCGCCGGTTTCCAGGGTGTGGACGAGCACGGCAACATCACCACCCTCGGCCGTGGCGGTTCCGATACCACTGGCGTGGCCCTGGCGGCAGCCCTCAAGGCTGACGAATGCCAGATCTATACCGATGTGGATGGCGTCTACACCACCGATCCGCGGGTCGTGCCCGTGGCTCAGCGCCTGGACAAGATCACCTTCGAAGAGATGCTGGAAATGGCCAGCCTCGGTTCCAAGGTGTTGCAGATCCGCGCGGTAGAGTTCGCCGGCAAGTACAACGTTCCGCTGCGCGTTCTGCACAGCTTCAAGGAGGGTCCGGGCACCCTCATTACTATCGATGAAGAGGAATCCATGGAACAGCCGATCATTTCCGGCATCGCTTTCAACCGCGATGAAGCCAAGCTGACCATCCGTGGCGTGCCAGACACTCCCGGCGTGGCGTTCAAGATTCTCGGCCCGATCAGCGCGGCCAACATTGAAGTCGATATGATCGTGCAGAACGTCGCGCACGATAACACCACCGACTTCACCTTCACCGTGCACCGCAACGATTACCAGGCCGCTGAAACCGTGCTGAAAAAGACCGCTGGCGAGATTGGCGCCCGGGAAGTGGTGGGCGACACCAAGATCGCCAAGGTCTCGATCGTCGGCGTCGGCATGCGCTCCCACGCAGGCGTGGCCAGCCGCATGTTCGAATCGCTGGCCAAGGAAAGCATCAACATCCAGATGATCTCCACCTCGGAAATCAAGGTGTCGGTGGTGATCGAAGAGAAGTACCTGGAACTGGCCGTGCGCGCCCTGCACACGGCTTTTGAGCTCGACGCTGCGGCCCGACAGGGCGAGTAA	MALIVQKFGGTSVGTVERIEQVADKVKKFRDAGDDLVVVLSAMSGETNRLIDLAKQISGDQQPVPRELDVIVSTGEQVTIALLAMALIKRGVPAVSYTGNQVRILTDSAHNKARILQIDDQKIRGDLKAGRVVVVAGFQGVDEHGNITTLGRGGSDTTGVALAAALKADECQIYTDVDGVYTTDPRVVPVAQRLDKITFEEMLEMASLGSKVLQIRAVEFAGKYNVPLRVLHSFKEGPGTLITIDEEESMEQPIISGIAFNRDEAKLTIRGVPDTPGVAFKILGPISAANIEVDMIVQNVAHDNTTDFTFTVHRNDYQAAETVLKKTAGEIGAREVVGDTKIAKVSIVGVGMRSHAGVASRMFESLAKESINIQMISTSEIKVSVVIEEKYLELAVRALHTAFELDAAARQGE	PGPT0014040_4387	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928	NA	NA
D1-35_00348	189	csrA2		Translational regulator CsrA2	ATGCTGATTCTGACCCGTCGGTGCGCAGAGAGCCTGATTATTGGCGATGGCGAAATCACCGTGACCGTGCTCGGCGTCAAAGGAAACCAAGTGCGTATCGGCGTCAACGCGCCGAAAGAGGTCGCTGTGCACCGGGAGGAAATTTACCTGCGTATCAAGAAAGAGAAGGACGACGAACCAAGCCATTAA	MLILTRRCAESLIIGDGEITVTVLGVKGNQVRIGVNAPKEVAVHREEIYLRIKKEKDDEPSH	PGPT0015065_1583	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
D1-35_00352	486			hypothetical protein	ATGCTCGCAAACCGCTGTCTGTTTCCACTCGCCGCCTTAGCCTGCCTGCCTCTCTGGAGCGTCGCACAAACCGCGCATCGCTGCGAAAACGGCGCCGGGCAGGTGACGTTCACGAGCCTGAGCTGCCCGTCCGGGGAGATCCTGTCCGTGCAGCAGATAAACTCATTCAACCCAGGCCACGTCGCACCGCTGCTGCCGGAAGCGCTGCCGCTGAAAACATCCGGCAACACAAACAGACGCAAGGCACCGACCATCGTTGGCCAGTTGGAGGACGACTGCGGGAATCTGATCGACGCCAGTCAGCGCCGGGAGGCAATCATGGATCGGCGGGTAATCGCTGGCATGAGCCAGCAAGACGTGGAGAGCGCACTTGGCCGGCCCGACACGATCAAGGTGCGGAATTCGAACACGCGCTATACCTACAAAAAGAGGAACGGCCGCAGCACCGAGGTCGCGTTCGATGGAAAAGGCTGCGTGAAACGTTAA	MLANRCLFPLAALACLPLWSVAQTAHRCENGAGQVTFTSLSCPSGEILSVQQINSFNPGHVAPLLPEALPLKTSGNTNRRKAPTIVGQLEDDCGNLIDASQRREAIMDRRVIAGMSQQDVESALGRPDTIKVRNSNTRYTYKKRNGRSTEVAFDGKGCVKR				NA	NA	NA	NA	NA
D1-35_00353	1443		COG2239	Magnesium transporter MgtE	ATGACCGAAGTAGAAGTAAAAAAAACGCAGGAAAGCCTTCAGGATCGCCTCGCTCAAGTCGTTGAGCTGCTGCATCGTCAGCGGGTCGTCGAAGACCTGACGCATCGCCAGGAAGGCCCTCATTCCGACCGGGTCGGGAACCTGGTCCACCGGCAGAATCTCGTCGAGTTGCAGCGCAAGCTCGATGACCTGCACTCGGCCGACGTCGCCTACATCCTCGAAGCCTTGCCACTGGAAGAACGTCTGACCGTCTGGCAGCTGGTCCAGGCCGATCGCGACGGTGACATCCTGCTGGAAGTGTCCGACTCGGTTCGTGAAACCCTGATCGCCGACATGGATGATCACGAGCTGTTGGCGGCGGCCAAGGAGATGGACGCCGACGAGCTCGCCGACCTCGCCCCCGAACTGCCGCGCGATGTTGTCCATGAGTTGATGGAAGCCCTTGATGGGCAACAGCGCGAGCGTGTCCGCTCGGCATTGTCCTACGACGAGGAGCAGGTCGGTGCGCTGATGGACTTCGAGATGGTGACGATCCGCGAGGACGTCAGCCTTGAAGTGGTCTTGCGTTACCTGCGTCGCCTCAAGGAGCTGCCGGGGCATACCGACAAACTCTTCGTGGTCGATTACGACGGCGTGCTCACCGGCGTGCTGCCGATCAAGCGGCTGCTCGTCAATGACCCGGAGAAGCAGGTTGCCGAGGTCATGGCCAGCGACACGGTGAGTTTCCATCCCGACGAAAATGCCTACGACGCGGCCCAGGCATTCGAGCGTTATGACTTGATTTCCGCGCCGGTGGTGGACAAGAACGGCAAACTGATCGGCCGCCTCACCATCGACGAAATGGTTGACCTGATTCGTGAGGAAAGCGAAAGCGAAGTCCTCAGCATGGCCGGTCTGCGAGAAGAGGAAGACATCTTCGCTTCGGTCTGGAGATCCCTGCGTAACCGTTGGGCCTGGCTGGCGGTCAATCTGGTTACGGCGTTTGTCGCTTCTCGCGTCATCGGCCTGTTCGAAGGCTCCATCGAGAAACTGGTAGCGCTGGCGGCGTTGATGCCTATCGTAGCCGGCATCGGCGGCAACTCTGGCAACCAGACCATCACCATGATCGTTCGCGCCATGGCGCTGGACCAGGTCAGCACCGGCAATACTTCGCGATTGATGCGCAAGGAGCTGGCTGTGGCATTGATCAACGGCGTGATCTGGGGCGGCGTGATCGGCGTGGTGGCGTACCTGCTATACGGCAGTTGGTCGCTGGGTGTGGTGATGACCGCGGCGATGACGCTCAATCTGCTGCTGGCGGCGTTGATGGGAGTATTGATCCCGATGACCCTGGCCCGCCTGGGGCGCGACCCGGCAATGGGCGCCAGCGTGATGATTACCGCCATGACGGACAGTGGAGGGTTCTTCATCTTCCTGGGCCTGGCGACGATTTTTCTGCTCTGA	MTEVEVKKTQESLQDRLAQVVELLHRQRVVEDLTHRQEGPHSDRVGNLVHRQNLVELQRKLDDLHSADVAYILEALPLEERLTVWQLVQADRDGDILLEVSDSVRETLIADMDDHELLAAAKEMDADELADLAPELPRDVVHELMEALDGQQRERVRSALSYDEEQVGALMDFEMVTIREDVSLEVVLRYLRRLKELPGHTDKLFVVDYDGVLTGVLPIKRLLVNDPEKQVAEVMASDTVSFHPDENAYDAAQAFERYDLISAPVVDKNGKLIGRLTIDEMVDLIREESESEVLSMAGLREEEDIFASVWRSLRNRWAWLAVNLVTAFVASRVIGLFEGSIEKLVALAALMPIVAGIGGNSGNQTITMIVRAMALDQVSTGNTSRLMRKELAVALINGVIWGGVIGVVAYLLYGSWSLGVVMTAAMTLNLLLAALMGVLIPMTLARLGRDPAMGASVMITAMTDSGGFFIFLGLATIFLL	PGPT0013995_396	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0013995-mgtE-K06213	NA	NA
D1-35_00354	318			hypothetical protein	ATGAAACAGGCAATTTATTCCAGCCGTACGGCTGACAAGTTCGTCGTGCGTCTGCCAGACGGAATGCGGGAACGCATTGCCGAGGTGGCTCGTAATCATCACCGCAGCATGAACTCCGAAATCATCGCGCGCCTTGAGCAAAGCCTGATTCAGGAAGGGGCATTGGGTGAAGAGTTGAGCATGCGCCTGGACAGCCCTGAGCTGTCGTTGCACGAGCGCGAGTTGCTTCAACGCTTCCGACAACTTTCCCATCGTCAGCAGAACGCCCTCGTTTCGCTGATTGCCCACGACGCAGAAATGGCCGCAGACGCGTCCTGA	MKQAIYSSRTADKFVVRLPDGMRERIAEVARNHHRSMNSEIIARLEQSLIQEGALGEELSMRLDSPELSLHERELLQRFRQLSHRQQNALVSLIAHDAEMAADAS				NA	NA	NA	NA	NA
D1-35_00356	1776	fhaC	COG2831	Filamentous hemagglutinin transporter protein FhaC	ATGCAGCCAGCCGCACCCTGCCGACCGCGTAGCAGCCCTCGCCGTTGTGTTGACGCAACCCGTTCATCTGCACGAAACGCCAGGCGTCTCGCGCTGCTGTTGATGGCGGCCTGCATGACGGGACCGTGGAGTGCTGCACAGGCGGCTGGGCCTGAAGAAGAACTCTTGCGCCAGCAAGAGCGCGAACGGGTGCTGAGGGAGCAACTGGAATCCCGGCCGGACGTGCGCCTGCAGGCGGCACCCGTGGACGAAGGTGTCGATCGTTTGCCCTCCAGGGAGAGTCCCTGCTTCGCCATCAATGACATTCGCCTGATCGGCGAAGCGTCGGAACAATTCCAGTGGGCGTTGCGCGCCGCCAACCCCAAGGATGATCCGGCCATTGGCCGTTGCCTCGGTGGCGGCGGGATCAACCTGACGATGAAACGCATGCAGAATGCGATCATCGAATCCGGCTACGTCACCACTCGCGTACTCGCCGAAGCCCAGGATTTGAACAGCGGCGTTCTGGTATTGACCCTCGTGCCAGGGCGCATCCGCGAAATCCGTTTCGAGGAGGGCACCCGTTCCCGTGCCAATGCGTGGAACGCGATGCCGGCCAGTCCTGGCGATCTGCTCAACTTGCGCGACATCGAGCAGGCGCTGGAGAACTTCAAGCGCGTGCCGACCGCCGAAGCCGACATCAAGATCGCGCCCGCCCGTGCCGCCGACGCCAAACCCGGCGAAAGCGACGTGGTAATCGCCTGGAGCCAGCGGTTCCCCGCCCGCGTGAGCCTGTCGGTGGACAATTCGGGCAGCAAGACCACCGGCAAATACCAGGGCAACGTGTCGCTGTCCTTGGACAACCTGCTGTCGCTCAACGATTTGTTCTACGCCAGTGTGAACCATGACTTGGGCGGTGGTGAATCCGGCCATCGCGGCTCCGATGGCAGCACGCTGCATTACTCGCTGCCGTTCGGCTACTGGCAGTTGGGGTTCACCAGCAGCGAATACAACTATGAACAGTCGGTCGCCGGCGCCAACCAGACCTATCAGTACCGGGGCGAGAGCCGCAACAACGAATTGCGCCTGTCCCGCCTGCTGTACCGCGACGCTGTTCGCAAGACTACCGCCTGGGGCAGCCTGTGGACGCGTTCGTCGGAGAACTTCATCGACGACACCGAAATCGGTAACCAGAAACGCCGCATGGCCGGTTGGCAGTTGGGGTTGGACCATCGGGAATTCATTGGCGCTTCGATTCTCGACCTGGGCGTCGCCTACCGTCGCGGCACTGGGGCCAACGACGCGCTCAGGGCCCCCGAAGAAGATTTTGATGCCGGCACGTCACGCTCGCAGATCATTACCGCCGATGCCCAATTGCAGGTGCCGTTCCTGGTCGGCGATCAGCGCCTGCGCTACATCGGCGGCTGGCGCGCGCAATGGAACCGTACGCCGCTGGTGCCCCAGGATCGCTTCTCCATTGGCGGGCGCTACAGCGTGCGGGGCTTTGATGGCGAAAACATTCTGTCCGCCGACCGCGGCTGGACGCTGCGCAACGAAATCGGCCTGTCCCTGGGGCAGACCGGCCAGGAGCTCTACACCGGTATCGACTATGGCGAAGTCAGCGGCCAGGCCAGTGAATTCCTGATCGGCCAGCGCCTGGCGGGGGCCGTAGTGGGTATCCGCGGTGGTTACAAGGGCCTGTCCTATGACTGGTCGCTGGGTACGCCGTTGAAGAAACCCGATGGTTTCGAGACGGCCAACGTGACCAGCGCGTTCACCGTCATCTGGTCATTCTGA	MQPAAPCRPRSSPRRCVDATRSSARNARRLALLLMAACMTGPWSAAQAAGPEEELLRQQERERVLREQLESRPDVRLQAAPVDEGVDRLPSRESPCFAINDIRLIGEASEQFQWALRAANPKDDPAIGRCLGGGGINLTMKRMQNAIIESGYVTTRVLAEAQDLNSGVLVLTLVPGRIREIRFEEGTRSRANAWNAMPASPGDLLNLRDIEQALENFKRVPTAEADIKIAPARAADAKPGESDVVIAWSQRFPARVSLSVDNSGSKTTGKYQGNVSLSLDNLLSLNDLFYASVNHDLGGGESGHRGSDGSTLHYSLPFGYWQLGFTSSEYNYEQSVAGANQTYQYRGESRNNELRLSRLLYRDAVRKTTAWGSLWTRSSENFIDDTEIGNQKRRMAGWQLGLDHREFIGASILDLGVAYRRGTGANDALRAPEEDFDAGTSRSQIITADAQLQVPFLVGDQRLRYIGGWRAQWNRTPLVPQDRFSIGGRYSVRGFDGENILSADRGWTLRNEIGLSLGQTGQELYTGIDYGEVSGQASEFLIGQRLAGAVVGIRGGYKGLSYDWSLGTPLKKPDGFETANVTSAFTVIWSF	PGPT0030385_336	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5b_TWO-PARTNER_SECRETION,PGPT0030385-fhaC|tpsB-K07326	NA	NA
D1-35_00357	519	apxIC	COG2994	RTX-I toxin-activating lysine-acyltransferase ApxIC	ATGCAGTTCGAGACGCTAGACATTATCGCCCCCGGCCTGATCGACGAACCCTGGAGCGAAGCCGCGGTGTTCGGCTCCGCCACCTGGTTGTGGATGCATTCCAAAGCCCATCGCGATGCGCCGTTGCACACGTTGCCGACGCTGCTGTTGCCGGCCCTCAAGCATCGCCAGTTCGTGCTCGGCTCCGAACACGGCAAGCCGGTGTTCTACCTGTCCTGGCTCAACCTCGACGAGGCGGCAGAGCAACGTTACCTGCGCCAGTCGCCGCTTGCGCTGACCCAGGGCGACTGGAACAGCGGCGAACGCCTCTGGCTCAACGACTGGGTCGCTCCCTTTGGGCACACGGCGGCATTGAGGCGCTTGTTGCAACGTCATCTCTTCATCAATCGCTGCGCCCGTGCTCTCTATCACCGAGGTGACGAGCGCGGCCTGCGGGTCAAGACATTCCAAGGCATCGGGGTCATTCCCGAACAGGCCCAGGCCTGGTTTGCCGCCCATCCGCTGGCAATCGAAGCGTAA	MQFETLDIIAPGLIDEPWSEAAVFGSATWLWMHSKAHRDAPLHTLPTLLLPALKHRQFVLGSEHGKPVFYLSWLNLDEAAEQRYLRQSPLALTQGDWNSGERLWLNDWVAPFGHTAALRRLLQRHLFINRCARALYHRGDERGLRVKTFQGIGVIPEQAQAWFAAHPLAIEA				NA	NA	NA	NA	NA
D1-35_00358	9225			hypothetical protein	ATGAACAAGCATCTGTACCGAATCGTTTTCAACAAGGCTCGCGGACTGTTGATGGTAGTGGCCGAGAACGTTACCAGCCAAGTCAAGGCGCCGGGGACTCGTTCTGGCCCGGCGGCTGGCGCAGCGGCTTGCACGGCGACACTCGGGGCGTTGCGCTTTGCCTTGATGGCAGCGATTGGCCTGGTGTCCTTCAGCGTGGCGCCAACCTGGGCCGGCACCATTGTCGCCGATCCAGGCGCGCCGGCCGGTCAGCGACCAGGAGTGATACAGAGCGCCAACGGCACGCCGCAGGTCAATATCCAGGCCCCCAGCGCCGGCGGTGTCTCGCGCAATACCTATAACCAGTTTGACGTCGATGGCCGGGGGGTAATCCTCAACAACGGCGCGGGCAATAGCCAGACGAAACTGGGCGGTTGGATCGAAGGCAACCCGATGTTGGGCAATGGCGGCGCGCGAGTCATCCTCAACGAAGTCAATTCCAGTAATCCCAGCCAGTTGCGCGGTTACGTCGAAGTCGCCGGCCAGCGCGCCGAAGTGGTGATCGCCAACCCGTCCGGTATCACCTGCAACGGTTGCGGTTTCATCAACGCGGATCGGGCCACCCTCAGCACCGGCCGGGCGCAACTGGAGAGCGGTCGCATCACGGGCTACACCGTGCAGGGCGGCGCCATCAACATTGAGGGCAAAGGCCTGGATGCCCGCGAGACCGACTACACGGACCTGATTGCCCGTTCGGTGCAGGTCAACGCCGGGGTGTGGGCCAACGACTTGAAGGTCACCGCCGGACGTAATCAGGTCAATGCCGACAACACCCAGGCCACGCCGCTGCCGGGCGCCGACGATGAGAAACCCACCGTTGCCGTCGATGTCGCCAAGCTCGGCGGCATGTATGCCGGGAAGATCATGCTGGTGGGTACGGAGGCCGGCGTAGGGGTGCGCAACGCCGGGCAGATCGGCGCCATGGCTGGCGAGGTGGTCATCAGCGCCGACGGCAAATTGCAAAACCAAGGTGCGATCAGCAGCGCAACGGCGACGCGAATCACTGCCGCCAGCGTTGATAACAGCGGCACGCTCTATGCCAAGGGCGACCTGGGGCTCGACAGCGCCAGTGACATCGACAACAGCGGCACCGTTGCCAGCCAGAACCACACGACGCTGACCGCCAAGACTATTCGCAGCACCACGGCCTCGAGCCTGGCGGCGGGCGTCGGGGCGGACGGCAAGCTGGGCAGCAGCGGCAACCTCGCGCTACGGGCCGCCACGGTCAAGGCGCAGGGCCAGAACCTTGCCGGCGGCGATGTCAGCGTCGAGGCGGCTGACCTGGACCTGAGCGGCAGCCAGACCCTGGGCCGCAACATCACCCTGACGGCCCGCACTGGCGATGCCAACCTCAGTGGCAGTCAAGTCGATGCGACCCAGGTGCTGAATGCCAAGGCGGCCAAGACCCTGCGCACCGATGCGGCCAAGGTCAACGCCGGCAACCTGCAAGTGAGCGCGCGTGATGTGTCCAATATCGGCGGTGAACTGGTGCAGACCGGCACCGCCGATACCTCGATCACCGCCGTCGCCACGCTCGACAACAGCGGTGGGCGGATTGCCTCCAACGGCAACAACCTGAAGCTTGGCGCCCATCGCCTCGACAACAGCAACAGCAAGGTCGAACACGCCGGCAAAGGCACCCTGGACATCCAGGCCACTCAGTTGGCCGGCAGCAAAGGCACCTTGGCGAGCAATGGCACGTTGAGCGTCAAGGCCCGCGAGGTGGTGGTCGATGATGGTCTGACCCAAGGCCAACAGATCACGCTCGACACCACGACCCTGTCCAACCAGCGTGGACGCATTCTCCAGACCGGCGCGCAAACGTTGCAGGTCACCGCCCGTGAACGTTTCGACAATCAGGCCGGGCAAGTCAGCAGTCCCGGCGCGGTGAACGTGAAGGTCGGCACGTTGAACAACCAGGGCGGTAAAGTCCTCGCTACCGATAACGGTACGTTGACCGTCACGGCCGACAAAGAGATCAATAACGGCGGCGGGACGCTGGCCGCCAGCGGTACGACAAAGGTCAGCGGCGAGGCGCTGGATAACGCCCAAGGCACCGTGAGTGCCGGCGGTGAGCTGTACGCGACGTTCGACCGCTTGAACAATATCGGCGGCACGCTGGCCGCGACCCAGCGCATGGAGATCATCGCCGGGCAGTTGAACAACACCAACGGCGTGCTGGGTTCGGTGAAGTCCGGACTGCTGGTCAGTGTCTCGGCCGATGAATTGAAGAACAGCGGCGGGCGTCTTGAAGCACTGGCTGATATCACCCTGTCGGCCCAGGGCCTGAATAACCAGGGCGGGGTAATCAGTGGCCGGGCCTTGGACCTGAACAGCCACGGCCTGCTGATGGACAACAGCCAGGGCACGTTGAATGCCGGTGCGACCCTCGACCTGCGCAGCGGCGAACTGCGCAACGCGGCGGGCCTGATCCAGGCCAAGGGCAAGCTGTTCATCGATACCGGCAGCCAGGCGCTGAACAACCTTCAGTCCGGCACCACCCAAGGCATCAGCGGCCAGGACGCGGTGGAAATCCACAGCGCCCATTTCAACAACAGCACCGGCTTCCTCGGCGCCAAGGGCGCGCTGGTGCTCAAGGCCACCGACCTCACCAACGGCAGCGGCGGCCAGATCATTGGCCAGAACAGCGTACAGGTCGAAGGCGCCCGGGTGGATAACCGCGGCGGCCAGTTGCAGGGCCTCGGCGATGTCCAGTTGGTGCTGGGCGAGACGCTCGACAACCAGGGCGGACTGGTTCGCAGTGCCGGAACCCTGGGCGTGACTGCCGATGTGCTCGACAACAGCGCCACCCAAGGTGCCAACCAGGGCCTCGAAGGCCGCGCCATGAGCCTGGCGCTCGACACCTTCGGCAACCAGGCCGGTGCCGTGCGCGCCGACCAAGGGTTGTCCATCGGCGTCAGCCAGGCGTTGGATAACCAGGGCGGCCTGGTTTCCGCGGGAGCCGGCCTGACCATCACCGATCGCGATCCGGCGCAACGTCGCCAGGCGGTGCACAACCTCGACGGAACCCTGCTCGCCGGTAGCCTGCTGTCCCTCAACGCGGCCTATTACGCGGGCACCGGTCGAGCCCTGAGCCTGGGCGACCTGACGTTCAGCCTGCAAAGTGGCCTGGACCTGAGTGGCCAGATCCAGGCCAATAACAAAGTTGACCTGAGCACCGATGGGGCTTTCAACAACAGCGGAAAACTGCTGGCGGGCAATCTCCTGCTGGTGCGTTCGCAGACGCTGGACAACGCCGCCACTGGCGAGATCAGCGCCGGCCAGGTTCGCCTGACCGTCAACAACAGCTTGACCAACCGTGGCCTGATCGACGGCCAGCAAGTGCGTGTGCAAGCGCTGTCGCTGAATAACCTGGGCACCGGGCGTCTGTACGGTGATCGATTGGCGATCGCCACCTCGGCGCTGGCCAACCGCGACGAGAACGGCGTCGCTGCGACCATCGCCGCCCGCGAGTCGCTGGATATTGGCACCGGCACGCTGGACAACCGCGAACAGGCGATGATCTTCAGTGCCGGAGACCTCGCCATCGGCGGTGCGCTGGGCGCCACTGACAGGGCCCAGGACCGGGCCCAACTGCTGACCAACGCCAGTGCGACCATTGAGGCCCTCGGCAACCTGTCGCTCGATGTGCAAAGCGTGCGCAACACCAACGAACACTTCAGTACCCAACAGGTGGAAGTCAGCCGCACCGCCTTGCAGGAATTCCAGCTCAGCGGTTCGCCGAACCGTTACCAGGGCAACCAGATTTCCGTTAGCCACGACGAGGTCAATTACCTCAACACGCCTGAGGGGAGCAAAGATAGCTGGAACCGCTACGACTACACCCGCGTGGTCCAGGAAACCCAGATCGCCACCTCGGCACCGGCGCAGATCCTCTCGGGCGGGACGATGCAGATCAATGCAGGGGATGTGCTCAACGACAAGAGCCGCATCATTGCCGGTGGGTTGTTGCAGGCCGACATTACCAGCCTGACCAACACTGAACTGACCGGCCAGCGCATCACCACCGACAGCGGCACCGCAACGAGCTTCTATCGCATCCAGCGCAAGGGCCGGGACCGTCAGGGAACAGCCATGACGGGCTACACGCCTGCGCCCTTGATCCAGGACATCACCTTGCAACCGACCGTGTTCGCCCAGAACGCCGCCGGCAATGGTACCGGCACCCAGATCAGCGCTCGCGCCACACAGGGCGTCGGCGAACAGATCGCCGCCACGGGCACGGTCAGCGCTCCGGTCGACAGGACCTTTCAAGTGGCACCCATCGTTCAGGTCGCGGCCCAGACCACCCTCAACAGCAAGGGCGTGGCCGAGCAGATCCGCAGCGGCGGGCCATCCCTGGCCTTGCCGGACAACAGCCTGTTCACCACAAATCCCCAGAACACCAGCAGCTACCTGATCGAAACCGATCCGCGTTTTGCCAGCTACCGCACCTGGCTGTCATCGGACTACATGCTGCAGCGCCTGCAAGTCGACCCGGCATTGACGCAACAACGTCTGGGCGACGGTTTCTACGAACAGAAATTGATCCGCGAACAGGTGGCGCAACTTACCGGCCGACGTTTCCTTGATGGTTACGCCAATGATGAAGCGCAGTATCGCGCCCTGATCGACAACGCCGTGACCGTCGCCAGTCAATGGCAGCTGGTGCCCGGCGTGGCCCTGACCTCCGCGCAAATGGCTCAGTTGACCAGCGACATTGTCTGGCTGGTGCAGAAGCAGGTGACCCTGGCCAACGGCGACACCCGCAATGTGCTGGTGCCACAAGTGTATGTACGGGTCCAGGAGGGCGACCTCAACGGCTCCGGCGCGTTGATAGCCGGGCAGCAGTTGAACCTGAACATCGCTGGCGACCTGATCAACAGTGGCAGCCTGGCCGGGCGCAGTGTCATGGCGATCACTGCGCAGAACATCGACAACCTCGGTGGGCGCATCCAGGCCGACAAGGCATCGCTCACCGCGCGGGAAAACCTCAACAACCTCGGCGGCCTGATCGGTGCCGTGGACAACCTGTCGATCAAGGCTGGGCAGGACGTCAACGTCGTCTCCAGCAGCCGGGACAGCAGCAGCGCCCAAGGCACCCGCACCAACCTGTCGCGGGTGGCCGGGCTGTTCGTCAGCGGCGCCCAGGGCACGATGGGCGTGAGTGCCGGCAACGACCTCAACCTCACCGGGGCCCAGGTGGTCAACGCCGGCAAGGGCGGCAGCACGTTGCTGGAGGCAGGCAAGAACATCAACCTGGCCACCGTCGGCGAAGCCCATGAGCAAGCGCTGGCCTGGAACAGCAGCAACTGGCGCAAGGACGCCAGCCAGACCGAAGTCGGCTCTCAGATCCAAGGGCAGGGCGACGTGCGCTTGAGCGCCGGCCAGGACCTCAACGCCCGCGCGGCCCAGGTCACCAGCGAGCAAGGCGCGGTGTTTGCCGAGGCCAAGCGCGACGTCAACCTGACCACCGGCCAGAACTACCAGTTCGCCGATGAAGCCCACAAGGTCAAGGGCAGCAACGGGATGTTCTCCAGCAAGACCACCACCACCCGCGACACCATCAGCCAGACCTCGCTCGAAGGCTCCACTCTGAGCGGCGAGCAGACCTATGTGCAGGCCGGTCGCGACATCAACCTCAAGGGCAGCAACGTGGTCTCGACGACCCAGACGATTCTGGTGGCGGACAACAACGTCAACATCGAGGCCGACACCGCCAGCAGCAGCGAACGCCACGACAAGTCCGTGAAGAAAAGCGGCCTGTTCAGCGGCGGCGGTATCGCCGTTACCATGGGGACCCAGCAACAAAGCGTCAAGGACCTCACCACCGAGCATACGGCCGTGGCCAGCACGGTCGGCTCGACCACCGGTGATGTGCTGATCGAAGCGGGCAAGGGCTATCGCCAAGTGGGCAGCCAGGTGTCGGCGCCACAAGGCAACATCGACGTCACGGCGCAGACCATCGACGTCGTCGAGGCGCGCAACACCCGCGAGCGCGAGCGTGAAACCCTGTTCAAGCAGACCGGGTTCACCCTCACCGTGACCAATCCGGTGATCAGCGCGATCCAGACGTCCCAGCAAATGAAACGGGCATCGGAGAAAACCGATGACGGGCGCATGAAAGCCCTGGCCGCCGCCACCGCCGTACTGGCGACCAACAATGCCGCCACCGCCGTGGCGATGGACCCGGGCGCGGCGGGCGGGATCAACATCAGCCTGTCCCTGGGCACCAAGAAGAACGAAAGCACCACCACCTACACCAGCGACAGCGCGGCCGGTTCGACCATGACCGCCGGCAACGACGTTCGCCTGCGTGCCACGGGCGCGGGTGCCGCCAGCAACATCACCGTACAAGGCAGCGATATCAAGGCCGGCCGCAACGCCAGCCTGCTGGCGGACGGTGACATCAACCTGCTCGCCGCGCGCAATATCGACAAACAGGAAACCGACAGCAAAGGCAGCAGCGCGAGCATTGGCATCGGCTTCTCCCTCGGTGCTCGCAACGGTTTCACCCTGGACCTTGGGGCGTCCGGCACTCGCGGCCAGGCGGACGGTGATGGCCTCACCCACACCAACACCCATGTCCAGGCGGGCAACCAGTTGCTGCTGTCCTCGGGCGGTGACACCAACCTCAAAGGCGCGGTGGCGAGCGGCAAGCGAGTGTTGGCCGATATCGGCGGCGACCTGAACATCGAAAGCCTGCAAGACACCAACACCTACGTGGTCGATGAGAAGAGCCTGGGCGTTGGCATCAGCCTGTGCATCCCGCCGTTCTGCTACGGCATGAGTTCGGTCAACGGCGTCAGCGGCAGCTTCGGTGCCACGGATATCGATTCCAACTACGCCAGCGTGACCGAGCAATCGGGCATCAAGGCCGGGGACGACGGCTTTGATATTCGCGTGGGGGGCAACACCGACCTGGTCGGCGCGGTCATCGCCAGCAGCGACAAGGCCGTGCAGGACGGCAAGAATCGCCTGGTCACCGCCAGCCTCACCAGCCGTGACATCAAGAACAGGGCCGAGTACGACGCCAGTACCGTCAGCGTCGGTGGCGGCTATCGCGAAGTCGGCAAGGACCAACAGGGCAACGCCACCAGCGGTGGCACGCAAACCCCGGGCACCGACCTGCCGAAGAATGACAACGACCTCAGCGCCACCATGCCGATCGCCATCAGTGCCAGCGACGACGCCAGCAGCGTCACCCGCAGCGGCATCAGTGGCGGGACCATCGTCATCAGCAACGACGCCGAGCAACAGAAACGCACCGGCCAGAATGGCGAGCAAACCGTCGCCAGCCTCAATCGCGATGTTTCCAGCGACCGCGACACCACCAACACCCTCAAGCCGATCTTCGACGAAGACGAAATCCGTGCCGGTTTCGAGATCGTCGGGGCGTTCTCCAACGAAGCCAGCACCTTGCTCGCCAACAAGGCCAAGGAAGTCGACTACAAGCGCAAACAGGCCGAGGAGGCGCAGAACAAGGCCCTGGACCCCAACGCCAAACTCACCGACAGCGAACGCCTGGCGTTGCTCGGCAGCGCTCAGCGCCTCAATGCCGAAGCCAGGGGCATCGCCGACAAGTGGGGCGCGGGCGGCACCTACCGGCAGATCACCACCGCCCTGGTCGGCGCGGCCAGCGGCAACATCAGCGGCGGCAACAGTGCGTTCGTCCAAGGGCTGGTGGTCAACTACCTGCAGCAGCAGGGCGCCGGCTACATTGGCGACCTGGTGGCGGACGGCAAACTCACCGAAGGCTCGCCGCTGCACGCCGCCCTGCACGGCATCGTCGCCTGCGCGGGCGCCGCCGCCAGCAGCCAGAGCTGTGGCAGCGGAGCCGCAGGCGCGGCGGCGTCGAGCCTGCTCACCGGCCTGTTCTCCGAAGCCAGCCCCGATGAAAGCGAAGCCCAGCGCGAAGCCAAGCGCAACCTGATCGTCAGCATTGTCACCGGGTTGGCCGCCACCAGTTCCTCGCTCGACCCGGCTACCGCCAATAGCGCGGCCGGTGCAGCGGTGGACAACAACTGGCTGGCGACCCAGCAGTTGGTTCAGGCGGAGAAGGAATACAGCGCGGCTGATGGCTTAGGCGCCAAAGCGCAAGTGATCGCCAAGTGGGCGTACATCCATCAGAAGCAAGACGTCCTGACCCGCTTCGGCTTGGGTAAGGGCTTGGTGCAGGCGGGTTGGAACGACGTCGAAGGGTTGGCGCAATTCCTCCTTAATCCGGTTGACGGGATCAACGGTATCAAAGCCCTGATCAACGATCCGGAGGTCCGCAAGCAGTTACAGGACGGCGTGTTCAATGAGCTCAATGCCAAACTGGACCGCGTTAAAGATGCCTTGGAAAACGGGGGTGATGATCGCGCCGTGCAATTGGGGCAGGACATTGGCGAACTCGTCTGGCAGGTCGGGAGCATCGCCACGGGCGTCGGTGGGGCGGCCAAGGGCGGGGTGGCGTTGGCGAAGGCCGGGATCAAGGTGGGGGCGGAAGGGCTTGAAAAGATGGCCGATATGGCTAGACTCGAAAAGCTCGCGAAAAATGTAGATCAGTTGCCAGAACGTATTCCTGTCGAGCCAGTAAGACCAAATACTTCCAATGCAGGAGCGGAGACTGGCGGGCAACATGTCGAAAGTCCGCTGGCGTTACCAGCACCTGCAAGGCACAGTGTTCCTGACGGCTATACAGTTGCCGAAAATGCGAACGGAACTGTCACCGTAACCGGGCCACGCGGTGGTATCTATAACTCAACAGGTCGGTATACAAATGACGGTAAGCCGATTTATCGAGATAATAACGGTGGCTTTGTATCGCTCGAAGGTGGACGTACACCTGTTTCCGCGCCGCCGGATTATTCCAGCGTTCCTGTACACCATATCTGCACTAATAAATGTAATGCCGGGGCAAACGGACAGATTGCCTGGTCTAAGCAGTTCCAAAAATTCTTTGATGGTTCCGATCTGGACATTAATAAGGCAACTGAGAATCTGGTCGCGGTTCCGGGTCATAGAGGTCCACACCCTCAAAGTTATCATCAATATGTTTATGGTAGCCTCGACGATGCTACGCGTGGGTTGGAACCCGGTACCGCGCAATATAAGAGTGCAGTGGTGAATACTTTAAATAGGATCAAGGTTGAAGCAGTCACGCCGGGAAGCTCGGTTAATCGATGGCTTACAGGAAGCTGA	MNKHLYRIVFNKARGLLMVVAENVTSQVKAPGTRSGPAAGAAACTATLGALRFALMAAIGLVSFSVAPTWAGTIVADPGAPAGQRPGVIQSANGTPQVNIQAPSAGGVSRNTYNQFDVDGRGVILNNGAGNSQTKLGGWIEGNPMLGNGGARVILNEVNSSNPSQLRGYVEVAGQRAEVVIANPSGITCNGCGFINADRATLSTGRAQLESGRITGYTVQGGAINIEGKGLDARETDYTDLIARSVQVNAGVWANDLKVTAGRNQVNADNTQATPLPGADDEKPTVAVDVAKLGGMYAGKIMLVGTEAGVGVRNAGQIGAMAGEVVISADGKLQNQGAISSATATRITAASVDNSGTLYAKGDLGLDSASDIDNSGTVASQNHTTLTAKTIRSTTASSLAAGVGADGKLGSSGNLALRAATVKAQGQNLAGGDVSVEAADLDLSGSQTLGRNITLTARTGDANLSGSQVDATQVLNAKAAKTLRTDAAKVNAGNLQVSARDVSNIGGELVQTGTADTSITAVATLDNSGGRIASNGNNLKLGAHRLDNSNSKVEHAGKGTLDIQATQLAGSKGTLASNGTLSVKAREVVVDDGLTQGQQITLDTTTLSNQRGRILQTGAQTLQVTARERFDNQAGQVSSPGAVNVKVGTLNNQGGKVLATDNGTLTVTADKEINNGGGTLAASGTTKVSGEALDNAQGTVSAGGELYATFDRLNNIGGTLAATQRMEIIAGQLNNTNGVLGSVKSGLLVSVSADELKNSGGRLEALADITLSAQGLNNQGGVISGRALDLNSHGLLMDNSQGTLNAGATLDLRSGELRNAAGLIQAKGKLFIDTGSQALNNLQSGTTQGISGQDAVEIHSAHFNNSTGFLGAKGALVLKATDLTNGSGGQIIGQNSVQVEGARVDNRGGQLQGLGDVQLVLGETLDNQGGLVRSAGTLGVTADVLDNSATQGANQGLEGRAMSLALDTFGNQAGAVRADQGLSIGVSQALDNQGGLVSAGAGLTITDRDPAQRRQAVHNLDGTLLAGSLLSLNAAYYAGTGRALSLGDLTFSLQSGLDLSGQIQANNKVDLSTDGAFNNSGKLLAGNLLLVRSQTLDNAATGEISAGQVRLTVNNSLTNRGLIDGQQVRVQALSLNNLGTGRLYGDRLAIATSALANRDENGVAATIAARESLDIGTGTLDNREQAMIFSAGDLAIGGALGATDRAQDRAQLLTNASATIEALGNLSLDVQSVRNTNEHFSTQQVEVSRTALQEFQLSGSPNRYQGNQISVSHDEVNYLNTPEGSKDSWNRYDYTRVVQETQIATSAPAQILSGGTMQINAGDVLNDKSRIIAGGLLQADITSLTNTELTGQRITTDSGTATSFYRIQRKGRDRQGTAMTGYTPAPLIQDITLQPTVFAQNAAGNGTGTQISARATQGVGEQIAATGTVSAPVDRTFQVAPIVQVAAQTTLNSKGVAEQIRSGGPSLALPDNSLFTTNPQNTSSYLIETDPRFASYRTWLSSDYMLQRLQVDPALTQQRLGDGFYEQKLIREQVAQLTGRRFLDGYANDEAQYRALIDNAVTVASQWQLVPGVALTSAQMAQLTSDIVWLVQKQVTLANGDTRNVLVPQVYVRVQEGDLNGSGALIAGQQLNLNIAGDLINSGSLAGRSVMAITAQNIDNLGGRIQADKASLTARENLNNLGGLIGAVDNLSIKAGQDVNVVSSSRDSSSAQGTRTNLSRVAGLFVSGAQGTMGVSAGNDLNLTGAQVVNAGKGGSTLLEAGKNINLATVGEAHEQALAWNSSNWRKDASQTEVGSQIQGQGDVRLSAGQDLNARAAQVTSEQGAVFAEAKRDVNLTTGQNYQFADEAHKVKGSNGMFSSKTTTTRDTISQTSLEGSTLSGEQTYVQAGRDINLKGSNVVSTTQTILVADNNVNIEADTASSSERHDKSVKKSGLFSGGGIAVTMGTQQQSVKDLTTEHTAVASTVGSTTGDVLIEAGKGYRQVGSQVSAPQGNIDVTAQTIDVVEARNTRERERETLFKQTGFTLTVTNPVISAIQTSQQMKRASEKTDDGRMKALAAATAVLATNNAATAVAMDPGAAGGINISLSLGTKKNESTTTYTSDSAAGSTMTAGNDVRLRATGAGAASNITVQGSDIKAGRNASLLADGDINLLAARNIDKQETDSKGSSASIGIGFSLGARNGFTLDLGASGTRGQADGDGLTHTNTHVQAGNQLLLSSGGDTNLKGAVASGKRVLADIGGDLNIESLQDTNTYVVDEKSLGVGISLCIPPFCYGMSSVNGVSGSFGATDIDSNYASVTEQSGIKAGDDGFDIRVGGNTDLVGAVIASSDKAVQDGKNRLVTASLTSRDIKNRAEYDASTVSVGGGYREVGKDQQGNATSGGTQTPGTDLPKNDNDLSATMPIAISASDDASSVTRSGISGGTIVISNDAEQQKRTGQNGEQTVASLNRDVSSDRDTTNTLKPIFDEDEIRAGFEIVGAFSNEASTLLANKAKEVDYKRKQAEEAQNKALDPNAKLTDSERLALLGSAQRLNAEARGIADKWGAGGTYRQITTALVGAASGNISGGNSAFVQGLVVNYLQQQGAGYIGDLVADGKLTEGSPLHAALHGIVACAGAAASSQSCGSGAAGAAASSLLTGLFSEASPDESEAQREAKRNLIVSIVTGLAATSSSLDPATANSAAGAAVDNNWLATQQLVQAEKEYSAADGLGAKAQVIAKWAYIHQKQDVLTRFGLGKGLVQAGWNDVEGLAQFLLNPVDGINGIKALINDPEVRKQLQDGVFNELNAKLDRVKDALENGGDDRAVQLGQDIGELVWQVGSIATGVGGAAKGGVALAKAGIKVGAEGLEKMADMARLEKLAKNVDQLPERIPVEPVRPNTSNAGAETGGQHVESPLALPAPARHSVPDGYTVAENANGTVTVTGPRGGIYNSTGRYTNDGKPIYRDNNGGFVSLEGGRTPVSAPPDYSSVPVHHICTNKCNAGANGQIAWSKQFQKFFDGSDLDINKATENLVAVPGHRGPHPQSYHQYVYGSLDDATRGLEPGTAQYKSAVVNTLNRIKVEAVTPGSSVNRWLTGS				NA	NA	NA	NA	NA
D1-35_00359	597			hypothetical protein	ATGAAATATTACTTGTTGCGAGAAGATGTACAGTTTCCTGAGCGTTGGTATTTGGGTGATATAAAGCACTGCAATAACTGGCTCTTTATCGATCCTCCTGCAGAATATATGGAGCCATGTACCTACGCTCTTGAGGTTCTTGAAGAGGGCGTGAGTCTGGATTTTTCCTTAGCTGGATATGCCTCCGTGCCGATCTTGAGTAAAAAAGCCAGGGATGCGTTGGCAGGAATTCCCGACGTTGATGAGCCTTATATGAATGTCGTGCTTGAGCCTGTGACGGTTGCAGGTAAGCAAACTCATGATCATTACTATGTAATGATCGTCGAGACTCAATTGGATTGCGTAGATGAATCACGTTCCACTTTTGAAAAATATGAGGTTGATGACCCCGTTCGACCTGATCGAGCTGGTGAGTACAGAGTTTTTCTCAATCTTATAATTGATCCTACCAAGGCTCAGAGAAAACATATTTTTCGTATCAAGAAACATTTGGGGGCATTGATAGTTAGCGAGGATGTAAAACTTAAACTGGAACGAGCAGGTCTTACAGGGATGCTATTCGAAGGTGTTAATGGCGAGGGCGAAGTTGTGTGTTAA	MKYYLLREDVQFPERWYLGDIKHCNNWLFIDPPAEYMEPCTYALEVLEEGVSLDFSLAGYASVPILSKKARDALAGIPDVDEPYMNVVLEPVTVAGKQTHDHYYVMIVETQLDCVDESRSTFEKYEVDDPVRPDRAGEYRVFLNLIIDPTKAQRKHIFRIKKHLGALIVSEDVKLKLERAGLTGMLFEGVNGEGEVVC				NA	NA	NA	NA	NA
D1-35_00360	900			hypothetical protein	ATGATTCGGGCACCGCTGGGAGACTCCCGCTATTGGTCGGAATGGGTTGAGTATGGTGATGAGAGTATCGTCGACGCGCTGGAGACCGCCGCCAAACCTGCTGGCGATCCCGATTATGCGCCGCAGTACGTTTTCATCATTGCGCAGAAACACTGGCACCAGATGCTGCGCCGGTATTCCGCTGGAGATCCGATAGCGGACCTTTCGCGATACTTCCCCGGGCTGCTCGATGCTTGGGAAGAGGCCGAGCACCTTGGCGCGACGGTCTGGACCCAGGAGCAGCAATTCACTCGCCATAGCTGGCGCGTCAACTACGACCATTACATCACCTGCTTCTGGCTGGTAGGGTTGGGATTGGCGCTGGATATTCCAGATGACCAGTGGAAGCGGTTGTTGACGTTGATCGGTAACGAAGGCGAGGACGTGCTACTCGACCGAATAATCGCGAGTCGCAGCCCTGAACGCAAAACAGGTTCTGTGCTTCTTTATCCGAAACCCTACGCTCGGTTGCTGACGGCGATAGACGCTCCGGCGGATTCGCAAGCCTCCCTGTTGAGTGCGTTCGTCAAGCATTGGTACGTGGAGGTGCGTACCGGTGCCAAGTCTGGCTCTGATCTTCAGGCCGTCAGTTATAGACACCCCTATTGGTACACCTATGGCGATGAAAATTTCGAGGGCGGCGCCTATTTCGGTCGTTGGTGCGTTGAGGCCGTGGCGGCGGTCAAGGCTTTCGATATCGACGACTCACAGTGCTTGGGGCTTGAGCATTACCCGGGGGACTTATTGAGACCCAATGGGCCGAGTACGCATCCGGCGAGGCTGGAAGTTGACCCGCCTGCTACGGTGGTTGTGGAGAATAAGGGAGGGTTTTGGGCGAGGTTGTTGGGCCGTCGTGAATGA	MIRAPLGDSRYWSEWVEYGDESIVDALETAAKPAGDPDYAPQYVFIIAQKHWHQMLRRYSAGDPIADLSRYFPGLLDAWEEAEHLGATVWTQEQQFTRHSWRVNYDHYITCFWLVGLGLALDIPDDQWKRLLTLIGNEGEDVLLDRIIASRSPERKTGSVLLYPKPYARLLTAIDAPADSQASLLSAFVKHWYVEVRTGAKSGSDLQAVSYRHPYWYTYGDENFEGGAYFGRWCVEAVAAVKAFDIDDSQCLGLEHYPGDLLRPNGPSTHPARLEVDPPATVVVENKGGFWARLLGRRE				NA	NA	NA	NA	NA
D1-35_00361	1608	lapB		Lipopolysaccharide assembly protein B	ATGCTCGCGTACCACCAAAAAAGTTTTCTGATCGTCGATGATTTCTCGGATTTCCGCAGTTCCGTCCGGTCCATGTTGCGGGAGCTGGGCGTCAAGGACGTGGATACCGCCGATACCGGTGAAGTGGCCCTGCGCATGTGCTCGCAGAAGCGCTACGACTTTATCCTGCAGGATTATCACCTGGGCGACGGGCGCAAGAATGGCCAGCAGGTGCTGGAAGACCTGATGGTCGAGAAGCTGATCAGCCATGAAAGCGTGTTCCTCATGGTGACCGCCGAGACCAGCCAGGCGATGGTGCTCAGTGCCCTGGAACATGAGCCGGATGCGTACCTGACCAAGCCATTCAATCGCTCCGGCCTGGCCCAGCGGTTGGAGCGGCTCGAGCAGCGCAAGACCTTGCTCAAGCCGATCCTGCAAGCCCTTGACCGTGGCAAGCCGATGGAGGTGCTCAATGCCTGTATCGCCCTTTGCAAGCAGGACCCTCGCTACGGGCCGCTGTGCCTGCGTTATCGCGCCGATGCGTTACGCGACCTGAATCAGAACGAGGCCCTTGAGCGGTTGTACAACTCCATCATCGCGGATCGTCCGTTGCCTTGGGCGTACGCGGGGCTGGGGAAGCTGCTGTTCAAGCGCGGGCAGGTGGGCGAGGCCAAGGCTGTCTATGAAAAAGCCTTGAAGGCTTTTCCGATGATGCCCGCCCTGTACGACGGCATGGCCGATGTGCTGGTGGCCGAAGGTGATACGAAGCAGGCGCAAAACGTGCTGGAAGAGGCGGTGCGCCTGTCGCCCCTGGCGGTGCGCCGGCAAGCGCTGCTGGGCAAGCTGGCAATGACCAACGAAGATTACGACACCGCGTCGAGAGCCTACCGCCAGGCGGTGGGGCAGGGCGCGCAGTCGCGCTTCAAGGACCCGGAAACCAACCTCGGCCTGGCCCATGCGCTGATCAGCAAGGGCAGCGAAAAAGGCCTGGATACCCGCACTCGCCTGGAAATCAACACGACGCTCAGCGCCGTGGCCAAGGAAAACCCCAGCGATCCGGGGCTGCAAGTCCGGGCGCGGCTGATGAAGGCCACGAGCCTGCTGCTCAACGATGCCGAAACCGCCGAGAAGCTCACCGAGCAGGCGTTGCAGCGCCTCGACGGCATGGAGCAATTCATGAGCGCCGAAGCCGCCTTGCTGGTGGCCAAGCAGTTGCAGATGCTTGGACAGACCAGCGCCGGCGAGTCGATGCTGAAGAACTGCGCGGAAATCTACGGCGATGACCCGACGGTGATGCAAGGCATCGCCAAGCTCACCGATGACCCCAACATTCTCAATCAGGGCAACGCCGCCGCCGAGCTGAACCGTGAGGGTGTGCGCGTCTACAAGACCGGCGCCTTGCCCGAGGCGCGAGAGCTGTTCCGGCGCGCCCTGAAGCTGCAACCAAAAAACATCAGTATTGCCCTGAACATGGCGCAATCCCTGCTGCACGGCACCGATACCAGCGTCGAATCGGAGCTGCTCCAGGAATGTCGCGCCTGCCTGAAACTGGTGGGCATGATGCCCGATACCGATGCGCGTTTTGCGCGCTATCAGAAACTGCGAAGCAAGGCATTTGGCGATGAATGA	MLAYHQKSFLIVDDFSDFRSSVRSMLRELGVKDVDTADTGEVALRMCSQKRYDFILQDYHLGDGRKNGQQVLEDLMVEKLISHESVFLMVTAETSQAMVLSALEHEPDAYLTKPFNRSGLAQRLERLEQRKTLLKPILQALDRGKPMEVLNACIALCKQDPRYGPLCLRYRADALRDLNQNEALERLYNSIIADRPLPWAYAGLGKLLFKRGQVGEAKAVYEKALKAFPMMPALYDGMADVLVAEGDTKQAQNVLEEAVRLSPLAVRRQALLGKLAMTNEDYDTASRAYRQAVGQGAQSRFKDPETNLGLAHALISKGSEKGLDTRTRLEINTTLSAVAKENPSDPGLQVRARLMKATSLLLNDAETAEKLTEQALQRLDGMEQFMSAEAALLVAKQLQMLGQTSAGESMLKNCAEIYGDDPTVMQGIAKLTDDPNILNQGNAAAELNREGVRVYKTGALPEARELFRRALKLQPKNISIALNMAQSLLHGTDTSVESELLQECRACLKLVGMMPDTDARFARYQKLRSKAFGDE				NA	NA	NA	NA	NA
D1-35_00362	693			hypothetical protein	ATGAATGACAGCGAACAGGCTCTCGATTTTTCCACGGTGATTGCATCTACCGTGCACGATATGAAGAACTCCCTGACCTTGCTCATGCAGGCTCATACGCAATGGCTCGAGCGTTTGCCGGAGTCCGAGCGACAGACTTCGGAGCAGGGCGTGATGGACTTCGAGTTCGCCCACCTCAACGGCCTGCTGGTGCAACTGCTGGGGCTGTACAAGCTGGGGGTCAACCAGTTGCCGTTGCATCCGGCCTATCATGAGTTGGATGACTTCATCGAAGCGCAGCTGGCCGGCCATCAGGACGTGTTCCGCAGCCGCGGAATCATGGCCACCTACGAAGTCGACCCGCTGAGTCCGCTGGGCTTTTTTGATCGTGAGTTGATTGCCTCGGTGCTCGACAACATGATCAACAACGCGATTCGCCATGCTCGGCAGACGCTCTTGATCAGCGTGAGCGACGAGGCCGGGCAACTGGTATTGACCATCAATGACGACGGCGAAGGCTATCCAGCTGCGATGATCGAGCGTCAGGCCGAGTATGTGCAGGGCATCAACCACAGCTCCGGCAGCACCGGCCTGGGCCTGTATTTCGCCGCGAGGATCGCCGGTCTGCATCAGCGGGGTGGCTTGAGCGGGCGTACCGAGATTGCCAATGGCGGCGTGCTGGGCGGCGGGGTGTTCAGGCTTTACCTGCCCTGA	MNDSEQALDFSTVIASTVHDMKNSLTLLMQAHTQWLERLPESERQTSEQGVMDFEFAHLNGLLVQLLGLYKLGVNQLPLHPAYHELDDFIEAQLAGHQDVFRSRGIMATYEVDPLSPLGFFDRELIASVLDNMINNAIRHARQTLLISVSDEAGQLVLTINDDGEGYPAAMIERQAEYVQGINHSSGSTGLGLYFAARIAGLHQRGGLSGRTEIANGGVLGGGVFRLYLP				NA	NA	NA	NA	NA
D1-35_00363	1344	ipuC		Glutamate--isopropylamine ligase	ATGACGACCGATGGCCAGCGTTCACTCGCACAGCGACTGACGGGCATTGATGAGATTGAATGTGTCACGCCGGATTTGAATGGCGTGCCGCGAGGCAAGGTGATGACCGCCGAGGGCTTCCTCGAAGGCCGGCGGTTGCAGATGGCGCGGGGCGTGCTGCTGCAATGCATCATGGGCGGTTACCCGCCGTCGCGTTTTTATGGCAGCGATGATGGCGACCTGGCGCTGGTGGCCGATCCGAAACAGATCCATCGCTTGCCATGGAGTCATCCGCCCCGTGCCCTGGCGATTTGCGACGCCGACGAGCTCAGCGGGGAGAGCTCGCCGCTGTCGACCCGTGGTCAGCTCAAGGCTGTGATAGCGCGCTATGCGGCGCTTGGGCTGGCGCCGGTCGTCGCGACGGAACTGGAGTTTTTTGTCTTCGCAGCCAATCCGGATCCGACCCAGCCGTTCCGACCGCCGGTGGGCCTGGACGGACGCCGCGAAGACGGCCAGTCGGCGTTCAGCGTCAGCTCCAACAATGGCTTGCGCCCGTTCTTCACTGAAGTCTACGAATGCATGGCGGCGTCGGGTTTGCCGCGCGATACGTTCATGCATGAAATGGGCGTGAGCCAGTTCGAAATCAATCTGCTGCATGGCGATCCTCTGTTGCTGGCCGACCAGACGTTCCTGTTCAAGCACTTGCTCAAGGAAGTGGCGCTCAAGCACGGCCTGACGGTGGTCTGCATGGCCAAGCCCCTGGCGCAGACGCCAGGCAGTTCGATGCACATTCATCAGAGCGTCGTCGAGCTGGACAGTGGTCGGAATGTATTCAGCGACGAGGCGGGCGAGCCGACGGCTGTTTTCCGTCACTTCATCGGTGGGCAGCAGGCCGGCATGGCGGATTTCACCGCACTGTTCGCGCCGAACGTGAATTCCTACCACCGCTTGTGCCACCCGTTTGCTTCGCCAAACAACGCCTGTTGGTCCCATGACAATCGTTCGGCCGGGTTGCGCATTCCGGCCAGTTCGCCGGCGGCCCGACGGGTCGAGAACCGCTTGCCGGGGGCTGACGCCAACCCGTACCTGGCGATCGCGGCGAGCCTGGCGGCCGGGCTGTATGGCATCGAAAACCGGCTGGAGCCAAGCGCCGCAATCCAGGGCGAATTCGAAGTGCCGGAGAATCTCTCCCTGCCATGTACCTTGCATGCGGCCCTTGAGCGTCTCAAGCGTAGCCACTTGGCGAAGGAACTGTTCGGCAGCGAGTTCATCGAAGGTTACATCGCGTCGAAGAGCCTGGAACTGACCAGTTTCTTTGACGAGATCACGCCTTGGGAGCGGCGCGTCCTGGCGGCCCAGGCATAA	MTTDGQRSLAQRLTGIDEIECVTPDLNGVPRGKVMTAEGFLEGRRLQMARGVLLQCIMGGYPPSRFYGSDDGDLALVADPKQIHRLPWSHPPRALAICDADELSGESSPLSTRGQLKAVIARYAALGLAPVVATELEFFVFAANPDPTQPFRPPVGLDGRREDGQSAFSVSSNNGLRPFFTEVYECMAASGLPRDTFMHEMGVSQFEINLLHGDPLLLADQTFLFKHLLKEVALKHGLTVVCMAKPLAQTPGSSMHIHQSVVELDSGRNVFSDEAGEPTAVFRHFIGGQQAGMADFTALFAPNVNSYHRLCHPFASPNNACWSHDNRSAGLRIPASSPAARRVENRLPGADANPYLAIAASLAAGLYGIENRLEPSAAIQGEFEVPENLSLPCTLHAALERLKRSHLAKELFGSEFIEGYIASKSLELTSFFDEITPWERRVLAAQA	PGPT0000645_7390	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
D1-35_00364	1368	ycaD_1		putative MFS-type transporter YcaD	ATGCGCCAAATCTGGAAACCTTTTCGAGCGCTTTATTTCGCCTCGCTGATGATGCTCATCGGCTCGGGCCTCCTGAGTACGTACCTGGCCTTGCGTCTGGCTGCCGACAACGTCGACAGCCTGTGGGTCGGTGCGTTGATGGCCGCCAACTATTTCGGCCTGGTGCTGGGCGGCAAGATCGGCCATCGGCTGATCGCCCGGGTCGGGCATATTCGCGCCTATTCGGCGTGCGCCGGGATCGTCGGCGCGGCGGTATTGGGTCACGGCCTGGTGAACTGGCTGCCGGCCTGGATCGTGCTGCGGATGATTGTCGGCCTCGGCATGATGTGCCAGTACATGGTTATCGAGAGCTGGCTCAACGAGCAGGCCGAGGCCAAGCAGCGCGGGGTGGTGTTCAGCGGCTACATGATTGCCTCGTACCTGGGGCTGGTGCTGGGCCAGCTGATTCTGGTCATGCACCCGGCCCTGGGCCTGGAGCTGCTGATGCTGGTGGCGTTGTGTTTCGCCCTGTGCCTGGTGCCCGTGGCGCTGACCCGGCGGATTCACCCGGCGCCGCTGCATCCGGCACCGATGGAGCCGCGTTTCTTTATCAAACGCGTGCCGCAATCGTTGACCACGGTGCTTGGCTCGGGGCTGATCGTCGGCTCCTTCTACGGCCTGGCGCCGCTGTACGCTTCCCAGCAGGGGCTTACTACCGAGCAGGTCGGTCTGTTCATGGGTAGCTGCATCTTTGCCGGCCTGCTGGTGCAGTGGCCGCTGGGTTGGCTGTCGGATCGTTATGATCGTGCGCTGCTGATCCGCTGCTTCGCGCTGATCCTGGTGGTGTGCGCGTTACCACTGGCGATCCTGTCGAAGGTGCCGGTGGAGGTCCTGTTCATCGCGGGATTCTGCTGTTCGCTGGTGCAGTTCTGTTTGTATCCGTTGGCGGTGGCGTTTTCCAACGACCACGTCGAAGGCGATCGCCGAGTGTCGCTTACGGCCATGTTGCTGGTGACTTACGGCGTGGGAGCCAGTATCGGTCCGTTGGCGGCCGGGGTGCTGATGAAGCTGTTCGGTAGCCAGATGTTGTACGGATTTTTCGCCTTGTTCGCCTTGGTGCTGGTGTGGCGGATCCGGCCGAAAGCGGTCACCAACCTGCATCAGGTCGATGATGCGCCGCTGCACCACGTGGCCATGCCGGACAACATGACCAGCTCACCCTTGGTGGCGTGCCTCGACCCTCGGGTAGACGAGCAGGTCGTCCAGGATCAGATGCAGACCTCGCCCAACCCCGACGTGGAGCCTGAGCCTGAGCCGGAATTGGAGCCGGTCACCGAAGGCGCGGAAGACGAACCGCCACCTTCGGATTTCACCCGGGCCAGGCCTTGA	MRQIWKPFRALYFASLMMLIGSGLLSTYLALRLAADNVDSLWVGALMAANYFGLVLGGKIGHRLIARVGHIRAYSACAGIVGAAVLGHGLVNWLPAWIVLRMIVGLGMMCQYMVIESWLNEQAEAKQRGVVFSGYMIASYLGLVLGQLILVMHPALGLELLMLVALCFALCLVPVALTRRIHPAPLHPAPMEPRFFIKRVPQSLTTVLGSGLIVGSFYGLAPLYASQQGLTTEQVGLFMGSCIFAGLLVQWPLGWLSDRYDRALLIRCFALILVVCALPLAILSKVPVEVLFIAGFCCSLVQFCLYPLAVAFSNDHVEGDRRVSLTAMLLVTYGVGASIGPLAAGVLMKLFGSQMLYGFFALFALVLVWRIRPKAVTNLHQVDDAPLHHVAMPDNMTSSPLVACLDPRVDEQVVQDQMQTSPNPDVEPEPEPELEPVTEGAEDEPPPSDFTRARP				NA	NA	NA	NA	NA
D1-35_00365	747	ycgR	COG5581	Flagellar brake protein YcgR	GTGTTCAATGCCACAAACGCGGATGATGCTCCGCAGCCGCCCATGGTCCTCACCACCCCCTTGGAAATCTCCGGCAACCTGCGGATGCTGCAAGAGAGCCACGACCCCCTGATCATTACCTTTCATGAGCGCACCCAGCGTTTCCAGAGCTACCTGGTGGATGTCGATCGCGACACCAACACCATCGCCCTGGACGAAATGATCCCACGGGACGGCGAGCGTTTCCTGCTGGCCGGCGAGCCGTTTCGGGTCGAGGGTTTTCATGACGGCGTGCGCATTGCGTGGGAAGGCAACGGGCCGCTGACTATCCAGGACTCGAAGGACGGCCGCTGCTACCGCGGCGCCCTGCCTGAAGAAGTGGTTTACCACCAGCGCCGCAACGCCTTCCGGGCCGCACTGAAACTGGCGCAACTGGTGAATGTTGAACTGGGTGGCGACAAGTTCAAGTCACCGGTGAACGGCAAACTGCTGGATATCTCCGCAACCGGCTGCAAGCTGCGCTTCGATGGCGACATTACCGCACGCCTGCAACTGGGCCAGGTCTACGAACGTTTTGTCGCCGCCCTGCCCTTCGGCAACATGACCGCGCCGGTCGAACTGCGCTACCTGCATTTTGAAGAGCGGATCAATACCACCTTCGCCGGCGTGCGCTTTCACAACATCAGCGGCCTGGTGCAGCGCCAGGTCGAACGCTTCGTGTATCAATTGCAGCGTGAAGCCCGGCGGTTCGACAAAGACGATTTCTGA	MFNATNADDAPQPPMVLTTPLEISGNLRMLQESHDPLIITFHERTQRFQSYLVDVDRDTNTIALDEMIPRDGERFLLAGEPFRVEGFHDGVRIAWEGNGPLTIQDSKDGRCYRGALPEEVVYHQRRNAFRAALKLAQLVNVELGGDKFKSPVNGKLLDISATGCKLRFDGDITARLQLGQVYERFVAALPFGNMTAPVELRYLHFEERINTTFAGVRFHNISGLVQRQVERFVYQLQREARRFDKDDF				NA	NA	NA	NA	NA
D1-35_00366	468			hypothetical protein	ATGCACGATACTAATTTGTTGCAATTGATCATCGACGACTTTGCCCCGGCGCAACAATTGCTGGAGCTGTTGCAGACCGAAGCCCTGGCATTGCACGGGCGGGATATGCCTCTGCTGGAAAATCTTCTGGCGCAGAAACAGGCATTGATCATTTTGCTCGATCAGCATGGCCGCAAGCGCAGCGAGATTCTCGCCAGCCTCAACCTGCCCGCTGACAACAACGGCCTCGCGCAACTGGCCAGCCAGTCGTCGGTTGGCGATCAGCTGTTGTCGCAAAGCGCGGTGCTCAATGACCTGCTCAGCCAGTGTCAGGCCGCCAACGCCCGCAACGGTCAATCCATCCAGATGCAGCAAGTCGCTACCGCCAACCAGTTGCGGATCCTCAATGGCGGCGAAATCCCGACGCTCTACGACGCTCGCGGTTCGACCGCAAAAATGGTCAAGCACCGTCCGCTCAGCCAGGCGTGA	MHDTNLLQLIIDDFAPAQQLLELLQTEALALHGRDMPLLENLLAQKQALIILLDQHGRKRSEILASLNLPADNNGLAQLASQSSVGDQLLSQSAVLNDLLSQCQAANARNGQSIQMQQVATANQLRILNGGEIPTLYDARGSTAKMVKHRPLSQA	PGPT0015535_299	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015535-flgN-K02399	NA	NA
D1-35_00367	315			hypothetical protein	ATGGTCATCGATTTCAATCGTTTAAACAGCTCCTCGCCGCTGACAGGCACAACGCGCACTGGCGCCAGCAAGGAAACCGTCGAAACCGACAAGTCCAAGCCGGCTGACAAGGCCGTCACTGTCAACAACGGGGAGTCGGTACACCTCAGCAATGAGGCTCAGCAGTTGCAGAAGGTCACTGACAAGCTGCGCGATCAACCTGTCGTCGACGACGCCCGCGTGGCGCAGTTGAAAGCAGCAATCGCCGATGGCAGCTATAAAGTCGACAGCAACCGTGTAGCCAGCAAACTGCTCAACTTCGAAGCCCAGCGCTAG	MVIDFNRLNSSSPLTGTTRTGASKETVETDKSKPADKAVTVNNGESVHLSNEAQQLQKVTDKLRDQPVVDDARVAQLKAAIADGSYKVDSNRVASKLLNFEAQR	PGPT0015530_534	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0015530-flgM-K02398	NA	NA
D1-35_00368	765			hypothetical protein	ATGAACGCACAAACGACATTTTCTCGACGCCTGACCACTCACTGCCGCCACTGGCTCGGTGCACTGTTTGCCGTCTGCCTGTTTGCGGTCGGCGGACGCGCCGTCGCTGATGTGCCGGTTACCTTGCCTGATCTCCTTATCGGCGTCACGCAGGGCTTTCTTGAATTCACCGTAGAAGACTATCTGGCAACCAGTCAAACCGAAGGTCGCTACGAGATTGAAGTCAACCAGCTCGATCCGCGCCTGCGCATGCCGATGTGCGACAAGGAATTGACTGCCTCGCTGGAAAGCCCGGCAAGGCCCCTGGGCCGGGTCACGGTGAAGGTACGTTGCGACAGCGCCGCGCCCTGGACGGTTTTTGTGCCCGCTCAAGTGCGGCTGTTCCGCGAGATTGTCACGACCACCCGTCCGCTCAAGCGCGCCGGGATTGTTGAGCCGCAGGACGTGGTGCTGCGTGAACGCGACATCAGCCAGATCAGCCAGGGTTTCCTGACGTCCGCCGATCAGGCCATCGGGCAGAAACTTGTCCGACCAATGGTCGCCGATCAGGTCGTTACCCTCGTGCACCTGGAACAGGCCGAAGTGATCCGCAAGGGCGACCAGGTCGTCATTACCGCCCGCAGCGGCACCCTGGCCGTGCGGATGCCCGGCGAGGCGCTGGCCAATGGCGGCGTACGCGAGCAGATTCGGGTGAAGAACCTCAATTCGAAACGGGTGATCAAGGCGCAGGTGATAGCGCCCGGCCACGTGGAAGTGGCCATGTAA	MNAQTTFSRRLTTHCRHWLGALFAVCLFAVGGRAVADVPVTLPDLLIGVTQGFLEFTVEDYLATSQTEGRYEIEVNQLDPRLRMPMCDKELTASLESPARPLGRVTVKVRCDSAAPWTVFVPAQVRLFREIVTTTRPLKRAGIVEPQDVVLRERDISQISQGFLTSADQAIGQKLVRPMVADQVVTLVHLEQAEVIRKGDQVVITARSGTLAVRMPGEALANGGVREQIRVKNLNSKRVIKAQVIAPGHVEVAM	PGPT0015415_590	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_M|S|P|L-RINGS,PGPT0015415-flgA-K02386	NA	NA
D1-35_00369	927	cheV_1	COG0784	Chemotaxis protein CheV	ATGGCGGGAGTGATGGATTCGGTAAACCAGCGCACACAGCTGGTCGGTCAGAATCGCCTGGAGCTGTTGTTGTTCCGTCTCGATGGCCAACAACTGTATGGGATCAACGTGTTCAAGGTTCGCGAAGTGCTGCAATGCCCTAAGCTGACCCTGATGCCGAAGTCCAGTCCCGTCGTGTGCGGTGTGGCGAATATCCGGGGGGCGACCATCCCGATTCTCGACCTGGCAATGGCGACCGGTTCCGGTCGGCTGCTGGATCAGAGCAATCCGTTTGTGATCATCACCGAGTACAACACCAAGACCCAAGGGTTCCTGGTGCGGTCGGTGGAGCGCATCGTCAACATGAACTGGGAAGAGATCCATCCGCCGCCCAAGGGCACCGGCCGCGATCACTACCTGACGGCGGTGACCCGGGTCGACAACCAGTTGGTGGAAATCATCGACGTGGAGAAGATCCTCGCCGAAGTGGCGCCGACCCCGGAGACGATTTCCGTCGGCGTGGTGGATGCCGAGACCCAGCACAAGGCGATTTCGCTGCGAGTCCTGACCGTCGACGATTCTTCAGTGGCACGCAAGCAGGTCACGCGGTGTCTACAAACGGTCGGCGTCGAAGTGGTCGCCCTCAACGACGGACGGCAAGCGCTGGATTACCTGCGTCAGATGGTCGATGAGGGCAAGAAGCCGGAAGAAGAGTTCCTGATGATGATTTCCGACATCGAGATGCCGGAGATGGATGGCTACACGCTGACGTCGGAGATTCGCAGCGACCCGCGCATGCAGAAGCTGCACATCATCTTGCATACTTCGTTGTCCGGGGTTTTCAACCAGGCGATGGTCAAGAAAGTCGGCGCCGATGATTTTCTGGCCAAGTTCCGGCCCGATGACCTGGCGTCGCGGGTGGTCGAGCGAATCAAGGCAGCAGAATAA	MAGVMDSVNQRTQLVGQNRLELLLFRLDGQQLYGINVFKVREVLQCPKLTLMPKSSPVVCGVANIRGATIPILDLAMATGSGRLLDQSNPFVIITEYNTKTQGFLVRSVERIVNMNWEEIHPPPKGTGRDHYLTAVTRVDNQLVEIIDVEKILAEVAPTPETISVGVVDAETQHKAISLRVLTVDDSSVARKQVTRCLQTVGVEVVALNDGRQALDYLRQMVDEGKKPEEEFLMMISDIEMPEMDGYTLTSEIRSDPRMQKLHIILHTSLSGVFNQAMVKKVGADDFLAKFRPDDLASRVVERIKAAE	PGPT0015675_1358	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015675-cheV-K03415	NA	NA
D1-35_00370	828	cheR2		Chemotaxis protein methyltransferase Cher2	TTGTCTACGGGTAATTTGGATTTCGAACAGTTCCGGGTCTTCCTGGAAAAAGCCTGTGGCATCTTGCTTGGTGAAAACAAGCAGTACCTGGTGTCGAGCCGTCTCAACAAATTGATGGAACAACAGGGTCTCAAGTCGCTGGGCGAACTGGTGCAGCGCATCCAGACCCAGCCACGCAGCGGTTTGCGCGAGATGGTGGTGGATGCGATGACCACCAACGAAACCCTGTGGTTTCGCGATACCTATCCCTTCGAGGTATTGAAGAACCGGGTGTTGCCGGCGGCCATCAAGGCCAGTCCGGGGCAACGCCTGCGCATCTGGTCGGCGGCCTGCTCGTCGGGACAGGAACCGTATTCGCTGTCGATGTCCATCGATGAGTTCGAACGCTCCAACCTCGGCCAGCTGAAGATGGGCGTGCAAATTGTCGCCACCGACCTGTCCGGGACCATGCTCAACAACTGCAAGACCGGTGAGTACGACAGCCTGGCGATCGGCCGTGGCCTGTCGCCTGATCGCCTGCAACGCTATTTCGATCCGAAAGGGCCGGGCAAGTGGGTGGTCAAGGCGCCGATCAAGAGCCGCGTGGAGTTCCGCTCGTTCAACCTGCTGGACAGCTATGCCAGCCTGGGCAAGTTCGACATCGTGTTCTGCCGCAACGTGCTGATCTACTTCTCCGCCGAGGTGAAGAAAGACATCCTGCTGCGTATCCACAGCACCCTGAAGCCGGGCGGCTACCTGTTCCTAGGCGCGTCCGAGGCGTTGAACGGCTTGCCGGATCATTACCAGATGGTCCAGTGCAGTCCGGGGATCATTTATCAGGCGAAGTGA	MSTGNLDFEQFRVFLEKACGILLGENKQYLVSSRLNKLMEQQGLKSLGELVQRIQTQPRSGLREMVVDAMTTNETLWFRDTYPFEVLKNRVLPAAIKASPGQRLRIWSAACSSGQEPYSLSMSIDEFERSNLGQLKMGVQIVATDLSGTMLNNCKTGEYDSLAIGRGLSPDRLQRYFDPKGPGKWVVKAPIKSRVEFRSFNLLDSYASLGKFDIVFCRNVLIYFSAEVKKDILLRIHSTLKPGGYLFLGASEALNGLPDHYQMVQCSPGIIYQAK	PGPT0015670_3150	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015670-cheR|pilK-K00575	NA	NA
D1-35_00371	408	flgB	COG1815	Flagellar basal body rod protein FlgB	ATGAGCATCAGCTTCGATAAAGCGCTCGGTATCCACGAACAGGCCCTGAGCTTCCGCGCCCAGCGTGCCGAAGTCCTGGCCAACAATATTGCCAACGCCGACACCCCGAACTACAAGGCCCGTGACCTGGACTTTTCCAAGGTGCTCGCCGAGCAGAACGAAAAAACCAAGAACGGCCACTTCGCCTTGAACATGACCAACAACCGTCATATCGAAGCCGAGGGCGTTGGCAGTGGCGACGGATCGTTGATGTATCGCACGCCGATGCAGCCGTCGATCGACCAGAACACCGTGGATGCTCAACTGGAACAGTCCAACTACGCGGAAAACTCCGTGAACTTCCAGGCCAGCTTCACCCTGCTCAACAGTAAATTCAAAGGGCTGGTATCAGCCCTGCGTGGAGAGTAA	MSISFDKALGIHEQALSFRAQRAEVLANNIANADTPNYKARDLDFSKVLAEQNEKTKNGHFALNMTNNRHIEAEGVGSGDGSLMYRTPMQPSIDQNTVDAQLEQSNYAENSVNFQASFTLLNSKFKGLVSALRGE	PGPT0015470_1042	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015470-flgB-K02387	NA	NA
D1-35_00372	444	flgC	COG1558	Flagellar basal-body rod protein FlgC	ATGTCGATCGCGAGCGTATTCAACATCGCCGGCAGTGCCATGAGTGCCCAGACCACTCGCCTGAACACCGTCGCCAGTAACATCGCCAACGCCGAGACCGTCTCGTCGAGCATCGACCAGACCTACCGCGCCCGCCACCCGGTATTCGCCACCATGTTCCAGGGCGGCCAGTCCGGCGGCAGCGACTCGCTGTTCCAGGACCAGGACGCGGCCGGGCAGGGTGTACAGGTACTCGGCGTGGTTGAAGACCAGAGCAACCTCGACGCCCGTTACGAGCCGAATCATCCAGCCGCCGACGCCAAGGGTTACGTCTACTACCCGAACGTCAACGTCGTTGAAGAAATGGCCGACATGATTTCCGCCAGTCGTTCGTTCCAGACCAACGTCGAAATGATGAACACCGCCAAAGCCATGATGCAGAAGGTCCTGACCCTCGGTCAGTGA	MSIASVFNIAGSAMSAQTTRLNTVASNIANAETVSSSIDQTYRARHPVFATMFQGGQSGGSDSLFQDQDAAGQGVQVLGVVEDQSNLDARYEPNHPAADAKGYVYYPNVNVVEEMADMISASRSFQTNVEMMNTAKAMMQKVLTLGQ	PGPT0015475_615	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015475-flgC-K02388	NA	NA
D1-35_00373	720	flgD	COG1843	Basal-body rod modification protein FlgD	ATGAGCGTCACCAATACCACCGGTTTGAGCCTCAACGAAGTACTGGCCAACTCCTCGGTCAAGACCAACACCACGACCGATGGCCTGGGCGCGGCGTCGGCTGCGGCGACTGGCAAGAAAGAGCTGGGCAAGGATGCGTTCCTGCAGTTGCTCGTCACTCAGCTGAATAACCAGAACCCGCTGGAGCCACAGGACAACGGCGAGTTTGTTGCCCAGTTGGCGCAGTTCAGCAGCCTGGAAGGCATCACCACCCTCAACGACACCGTCAGGGGTATTGCCAGCAACTACAACTCGTCCCAGGCCCTGCAGGCTTCTTCGCTGGTGGGCCGTTCGGTCATTGCCCCGGGCGACAAGGCGGTGGTCGACACCTCCAAGAGCCTCAACGGCACCGTGGTGGTACCGACATCGGTGTCGTCCCTCTCGATCAAGATCAACGACAAGGACGGCAAGACGGTGCGCACCATCGAGCTGGGCAGCCAGAACGCCGGCAAGGCCGATTTCATCTGGGACGGCAAGGGCGAAGACGGCACCCCGCTCGAGTCGGGCACCTATACCTTCGCCGCCTCGACCACCATCGATGGCAAGGCGACTTCGCTGGTCACCAACCTGCCGGCCACGGTCAGCAGCGTCACGATCAGCCAGACCGGCGGCGAGCTGATGCTCAACCTCGCCGGCCTGGGCAGCATCCCGCTGTCACGCGTACAAACTATTGGTATGTAA	MSVTNTTGLSLNEVLANSSVKTNTTTDGLGAASAAATGKKELGKDAFLQLLVTQLNNQNPLEPQDNGEFVAQLAQFSSLEGITTLNDTVRGIASNYNSSQALQASSLVGRSVIAPGDKAVVDTSKSLNGTVVVPTSVSSLSIKINDKDGKTVRTIELGSQNAGKADFIWDGKGEDGTPLESGTYTFAASTTIDGKATSLVTNLPATVSSVTISQTGGELMLNLAGLGSIPLSRVQTIGM	PGPT0015480_517	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015480-flgD-K02389	NA	NA
D1-35_00374	1332	flgE	COG1749	Flagellar hook protein FlgE	ATGTCTTTCAATATCGGCCTTAGCGGTCTCTATGCAGCCAACAAACAGCTGGACGTGACGGGTAACAACATCGCCAACGTGGCGACCACCGGTTTCAAGTCGTCCCGCGCGGAATTCGCCGACGTCTACTCGGCCACCAAGCTGGGCTCGGGCTCCAAGACCGTCGGCAACGGCGTGCGCCTGGCCAACGTTTCCCAGCAGTTCGGCCAGGGTGACGTGAACAACACCGGCAACGTGCTGGACATGGGTATCCAGGGCCAGGGCTTTTTTGTCCTGAGCAACAACGGTTCGCTGAGCTACACCCGTGCCGGTACCTTCAAGACCGACAAGGAAGGCTTCATCACCAACAGCGAAGGCACCGCGCGCCTGCAGGGTTATGGCGTGGATGCCAACGGCAAGATCCAGAACGGCATCCTGACCGACCTGCGCATCGACACGTCCAACCTGCCGCCCAAGCCTACCGACCTGATTTCGTCGACCATCAACCTGAACTCGACGGCAGACGCGATTCCGAAGACGGCGACCTACAAGTTCGATCCGGCCAATACCGCCACCTTCACCAAGCAGTTCACCACCCCGGTCTACGATGCCCAGGGTAACCAGCACTCCATGGACCAGTACATGGTCAAGACGGGCGCCAACACCTGGGACGTCTACACCCTGATCGATGGTCGTAACCTGGACGGCAGTTTGCCGACCGCCGCAACCAGTCTTGCGGTCCCTTCGACCATGACTTTTGGTGAGAGCGGCGAGTTGCTTCAGGTGAGCACTCCCGCTCCCATTGCTGTTCCGCCCAATCCACCGATCGTGGGTAGCGATCTGAAGCTCACAGGCTGGATTCCAGGTACCGTGAAAGATGGCGTGTGGAGTGCCAACGGTGCCGATGGCGCTGATACCATTACACTTTCCCTGGGCAAGACCACCCAGTTCAACGCTGACACCGCACGGTCGATTCCTACTCAGAACGGCTACGCCACCGGCCAGATCACCAACCTGACCATCGACGGCAGCGGTGTGCTGCTGGCCAACTTCAGCAACAACCAGACCAAGCCGATCGGCCAGCTCTCCCTGGCCAGCTTCACCAACGAGCAAGGTCTGCAGCCGGTAGGCGGCACCAGTTGGAAAGAAACCTTCGCGTCGGGTATCCCGGGCTACGATGCTCCGGAAACCGGCACCTTGGGTTCGATCGTCTCCAACTCCCTGGAAGAGTCCAACGTCAACCTGACCAACGAACTGGTCGAGCTGATCAAGGCCCAGAGCAACTACCAGGCGAACGCCAAGACCATCTCCACCCAGAGCACCATCATGCAGACCATTATTCAGATGACTTGA	MSFNIGLSGLYAANKQLDVTGNNIANVATTGFKSSRAEFADVYSATKLGSGSKTVGNGVRLANVSQQFGQGDVNNTGNVLDMGIQGQGFFVLSNNGSLSYTRAGTFKTDKEGFITNSEGTARLQGYGVDANGKIQNGILTDLRIDTSNLPPKPTDLISSTINLNSTADAIPKTATYKFDPANTATFTKQFTTPVYDAQGNQHSMDQYMVKTGANTWDVYTLIDGRNLDGSLPTAATSLAVPSTMTFGESGELLQVSTPAPIAVPPNPPIVGSDLKLTGWIPGTVKDGVWSANGADGADTITLSLGKTTQFNADTARSIPTQNGYATGQITNLTIDGSGVLLANFSNNQTKPIGQLSLASFTNEQGLQPVGGTSWKETFASGIPGYDAPETGTLGSIVSNSLEESNVNLTNELVELIKAQSNYQANAKTISTQSTIMQTIIQMT	PGPT0015485_1388	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015485-flgE-K02390	NA	NA
D1-35_00375	2892			hypothetical protein	ATGCACACCGACACAACTCGCGAGAACCCGCAGGGCACCGCGCCGCTGGCCGCCGATTCGAGCCCGGATCTGTCCGCCACCGCGCCTGGCCAGCTGCGCGTGATCAAGCGTAACGGGACTGTCGTTCCTTACACCGATGACAAGATCACCGTCGCCATCACCAAAGCGTTCCTCGCAGTTGAGGGCGGCACCGCTGCCGCCTCGTCGCGAATCCACGACACCGTGGCCCGCCTGACCGAACAGGTCACCGCGACCTTCAAGCGTCGCATGCCGTCGGGCGGCACCATCCACATCGAAGAGATCCAGGACCAGGTCGAACTGGCCCTGATGCGTGCCGGCGAGCAGAAAGTCGCCCGCGACTACGTGATCTACCGTGACTCCCGGGCCAAGGAACGCGCCATCCGCACGCCGGCCGACGCACCGGTCCAGGCTCACCCTTCGATCCGCATCGCCCGCGCCGACGGCAGCCTGGCGCCACTGGACATGGGCCGCCTGAACACCATCGTCACCGAAGCCTGCGAAGGCCTGGAAGAAGTCGACGGCGACCTGATCCAGCGCGAGACCCTGAAGAACCTCTATGACGGCGTCGCCCTCAAGGACGTCAACACCGCGCTGGTGATGACCGCCCGCACCCTGGTGGAGCGCGAACCGAACTACTCGTTCGTGACCGCCCGCCTGCTGATGGACACCCTGCGCGCCGAAGGCCTGAGCTTCCTGGAAGTCGCCGAGAGCGCGACCCACCACGAAATGGCCGACCTGTACGCCAAGGCCCTGCCGGCCTATGTCGCCAAGGGTATCGAGTACGAATTGCTGAACCCTGTCCTGGCCGAATTCGACCTGGAAAAACTCGGCAAGGCGATCAACCACGAGCGCGACCAGCAGTTCACCTACCTGGGCCTGCAAACCCTGTACGACCGTTACTTCATCCACAAGGATGGCGTGCGTTTCGAACTGCCGCAGGTGTTCTTCATGCGTGTGGCCATGGGCCTGGCGATCGAAGAGAAGCAGCGTGAAGACCGTGCCATCGAGTTCTACAACCTGTTGTCGTCCTTCGACTACATGGCGTCGACCCCGACTCTGTTCAACGCCGGCACCCTGCGTCCACAACTGTCGAGCTGCTACCTGACCACCGTGCCGGACGACCTGTCGGGCATCTACGGCGCCATCCACGACAACGCCATGTTGTCGAAATTCGCCGGTGGCCTGGGCAACGACTGGACCCCGGTTCGCGCATTGGGCTCGTACATCAAGGGCACCAACGGCAAATCCCAGGGCGTCGTGCCGTTCCTCAAAGTGGTCAACGACACCGCCGTTGCGGTCAACCAGGGCGGCAAGCGCAAGGGCGCGGTCTGCGCCTACCTGGAAACCTGGCACATGGACATCGAAGAGTTCATCGAGCTGCGCAAGAACACCGGTGATGACCGTCGTCGTACCCACGACATGAACACCGCCAACTGGATCCCGGACCTGTTCATGAAGCGCGTCTTCGATGACGGCAAGTGGACCCTGTTCTCGCCATCCGAAGTGCCAGACCTGCACGACCTGACTGGCAAGGCCTTCGAAGAGCGCTACGAGTACTACGAAGCCCTGACCGAGTACAACAAGATCAAGCTGTTCAAAGTCGTCCAGGCCAAAGACCTGTGGCGCAAGATGCTCTCGATGCTGTTCGAGACCGGCCACCCATGGCTGACCTTCAAGGACCCGTGCAACCTGCGCAGCCCGCAGCAGCACGTGGGCGTGGTCCACAGCTCGAACCTGTGCACCGAGATCACCCTGAACACCAACAAGGATGAGATCGCAGTCTGCAACCTGGGCTCGATCAACCTGCCGAACCATATCGTCGACGGCAAGCTGGACACCGCCAAGCTGCAACGCACCGTGAACACCGCCGTGCGCATGCTCGACAACGTGATCGACATCAACTACTACTCGGTGCCGCAAGCGAAGAACTCCAACTTCAAGCACCGTCCGGTCGGCCTGGGCATCATGGGCTTCCAGGACGCGCTGTACCTGCAGCACATCCCGTACGGTTCGGACGCTGCGGTCGAGTTCGCCGACAAGTCCATGGAAGCGGTCAGCTACTACGCGATCCAGGCTTCCTGCGACCTGGCCGACGAGCGCGGTTCATACGAGACGTTCCAGGGTTCGCTGTGGTCCCAGGGCATCCTGCCGCTGGACTCGCAACAGATCCTGATCGCCCAGCGTGGCCAGAAGTACATCGATGTCGACCTGAACGAATCCCTGGACTGGGCTCCGGTTCGCGCCCGTGTGCAGAAAGGCATCCGTAACTCCAACATCATGGCCATCGCACCGACCGCGACCATCGCCAACATCACCGGCGTGTCGCAGTCGATCGAACCGACCTACCAGAACCTGTATGTGAAGTCGAACCTGTCGGGCGAATTCACCGTGATCAACCCGTACCTGGTTCGCGACCTCAAGGCTCGCGGCCTGTGGGACTCGGTCATGATCAACGACCTGAAGTACTACGACGGTTCGGTACAGCAGATCGAGCGCATCCCGCAGGAGCTCAAAGAGCTCTATGCCACCGCGTTCGAAGTGGACACCAAGTGGATCGTCGACGCCGCCAGCCGTCGTCAGAAGTGGATCGACCAGGCTCAGTCGCTGAACCTGTACATCGCCGGCGCTTCGGGCAAGAAGCTCGACGTGACCTACCGCATGGCCTGGTACCGTGGCCTGAAAACCACCTACTACCTCCGTGCCCTGGCCGCCACCAGCACCGAGAAGTCGACCATCAACACCGGCAAGCTGAACGCGGTTTCCGCTGGCGGCAACCACGGTGACGATTCGGTCCTGGCTGCTCCAGCCGGCCCTGCGCCAGTGCCAAAAGCCTGCGCCATCGACGAGCCGGATTGCGAAGCTTGCCAATAA	MHTDTTRENPQGTAPLAADSSPDLSATAPGQLRVIKRNGTVVPYTDDKITVAITKAFLAVEGGTAAASSRIHDTVARLTEQVTATFKRRMPSGGTIHIEEIQDQVELALMRAGEQKVARDYVIYRDSRAKERAIRTPADAPVQAHPSIRIARADGSLAPLDMGRLNTIVTEACEGLEEVDGDLIQRETLKNLYDGVALKDVNTALVMTARTLVEREPNYSFVTARLLMDTLRAEGLSFLEVAESATHHEMADLYAKALPAYVAKGIEYELLNPVLAEFDLEKLGKAINHERDQQFTYLGLQTLYDRYFIHKDGVRFELPQVFFMRVAMGLAIEEKQREDRAIEFYNLLSSFDYMASTPTLFNAGTLRPQLSSCYLTTVPDDLSGIYGAIHDNAMLSKFAGGLGNDWTPVRALGSYIKGTNGKSQGVVPFLKVVNDTAVAVNQGGKRKGAVCAYLETWHMDIEEFIELRKNTGDDRRRTHDMNTANWIPDLFMKRVFDDGKWTLFSPSEVPDLHDLTGKAFEERYEYYEALTEYNKIKLFKVVQAKDLWRKMLSMLFETGHPWLTFKDPCNLRSPQQHVGVVHSSNLCTEITLNTNKDEIAVCNLGSINLPNHIVDGKLDTAKLQRTVNTAVRMLDNVIDINYYSVPQAKNSNFKHRPVGLGIMGFQDALYLQHIPYGSDAAVEFADKSMEAVSYYAIQASCDLADERGSYETFQGSLWSQGILPLDSQQILIAQRGQKYIDVDLNESLDWAPVRARVQKGIRNSNIMAIAPTATIANITGVSQSIEPTYQNLYVKSNLSGEFTVINPYLVRDLKARGLWDSVMINDLKYYDGSVQQIERIPQELKELYATAFEVDTKWIVDAASRRQKWIDQAQSLNLYIAGASGKKLDVTYRMAWYRGLKTTYYLRALAATSTEKSTINTGKLNAVSAGGNHGDDSVLAAPAGPAPVPKACAIDEPDCEACQ	PGPT0021340_1315	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525	NA	NA
D1-35_00376	723	ompR_1		Transcriptional regulatory protein OmpR	GTGGAACAAGAAGCCTGGCAGATATTGATTGTCGAGGATGACCAGCGCCTGGCCGAGCTGACCCGCGAATACCTGGAAAGCAACGGCCTGCGCGTCGCCATCGAGGGCAACGGCGCGGTGGCGGCCCAGCGGATCATCGACGAGCAGCCGGACCTGGTCATTCTCGACCTGATGCTGCCCGGCGAAGATGGCTTGAGCATTTGCCGCAAGGCGCGCGAGCACTACGACGGGCCGATCCTGATGCTCACCGCGCGGGCTGACGACACCGACCAGATCCAGGGCCTGGACCTGGGCGCCGACGACTATGTCTGCAAACCGGTGCGCCCGCGCGTACTGTTGGCCCGCATCCAGGCCCTGCTGCGACGCAGCGAGCCGGAGCCGTCCGCAGCGCCGAAGCAGCGGCGCCTGGAGTTCGGCCCGTTGGTGGTGGACAACGCCTTGCGCGAAGCCTGGCTGCAGGGCAACGGTATCGAGCTGACCAGCGCCGAATTCGACCTGCTCTGGCTGCTGGTGTCCAACGCCGGGCGCATCCTGTCCCGCGAGGAAATCTTCACCGCCCTGCGCGGCATTGGCTACGACGGCCAGGATCGCTCGATCGACGTGCGCATCTCGCGCATCCGTCCGAAGATCGGCGACGACCCGGACCATCCTCGATTGATCAAGACCATCCGCAGCAAAGGCTACCTGTTCGTCCCTGAAGCCTGCGTAGACGCGACCCCGTGA	MEQEAWQILIVEDDQRLAELTREYLESNGLRVAIEGNGAVAAQRIIDEQPDLVILDLMLPGEDGLSICRKAREHYDGPILMLTARADDTDQIQGLDLGADDYVCKPVRPRVLLARIQALLRRSEPEPSAAPKQRRLEFGPLVVDNALREAWLQGNGIELTSAEFDLLWLLVSNAGRILSREEIFTALRGIGYDGQDRSIDVRISRIRPKIGDDPDHPRLIKTIRSKGYLFVPEACVDATP	PGPT0015035_266	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-BF-RST_PH|TEMPERATURE|STARVATION_SIGNALLING_SYSTEM,PGPT0015035-rstA-K07661	NA	NA
D1-35_00377	1611	sasA_2		Adaptive-response sensory-kinase SasA	GTGAACTCCATCTTCCTGCGCATCTATGGCGGCATGTGCGCGGCACTGGTGCTGGTGGCGGTGCTTGGCGTGCTGGCGCTGCACCTGCTCAACCAGACGCGCGGCGAGCAATACCGCGAGCGCCTGGCCCATGGCACGTTTTCCTTGATGGCCGACAACCTGCGGCCGATGAACGACACCGAACGGCGCCGGGCCCTGGCGGTGTGGGAGCGCCTGCTGGGCATTCCGCTGGCGTTGCAGACGTTCAGCCAGACCGACCTCGACCTGGGCCAGCGCACCCGGGTATTGCGCGGGCAGGTCCTGGTGGAGCAGATCGGGCCGCATGCGGCGAAGGTTTATCGGCTGGTCAGCGACGGCGAGCAGTTGACCCTGGTCGGGGAGGTTCGCCAGATCAGCGAGCAACTGGCCCGGGCGACCATTTACCTGTTGGCCGACGAACTGGTGCGCTATCCGGTAGCCGAGCAACCCGAGCGGCTGGCGCAACTCAAGCAGGAAAAAGGCTTCGGTTTCGACCTGCGCCTGATGACTGTCGAGCAGGCGGACATGGACGACGACCAGCGCCGGCGGGTGGCCGAGGGCGACACGGTGATGGCCCTGGGCAAGGGCGCCGACTCGATCCGGGTGTTCGCCGGCATGGTGGGGACGCCGTGGGTGCTGGAAATCGGCCCGCTGTACCAGATGAATCCGTACCCGCCCGAGTGGCTGGTGCTGATCGCCGCGCTCGGGTTGAGCCTGATCGGCCTGATTGTCTATCTGCTGGTGCGCCAGCTGGAGCGGCGTCTGCGTGGCCTGGAGTCGGCCGCGACCCAGATCGCCCAGGGTAGCCTGGAGACCCGCGTACCCGCTCGGGGCGCTGACTCGGTCGGGCGCCTGGCAGCAGCGTTCAACGGCATGGCCGAGCACTTGCAGCAACTGCTGGCGATCCAGCGCGAGTTAGTGCGCGCGGTGTCCCATGAACTGCGTACACCGGTGGCGCGCCTGCGCTTCGGCCTGGAAATGCTCGGCAGCGCCAGCACGCCCGAGGCCCGGGACAAGTACCTGGCCGGCATGGATCACGACATCGAAGACCTGGATCGGCTGGTGGATGAAATGCTGACGTATGCGCGGCTGGAGCAAGGGTCGCCGGCGTTGAATTTCCAACGGGTCGACCTGGATGCGTTGGTCAACCAGGTCATCGAAGAACTGGGCCCGTTGCGCGCCGGGGTTACCGTGGAGCGCGGTCTGTGCCTGTCCGCCGCCGATTGCGACGGCGCCTGGGTCGAGGCCGAGCCACGCTTTTTGCATCGGGCGTTGCAGAACCTGGTAGGCAATGCCATGCGCCACGCCAGATCCCAGGTGACCGTCAGTTACCAGGTCGGCCAGTTGCGCTGTCGGGTCGACGTCGAGGATGACGGCCCGGGCGTACCGGAGGCGGCCTGGGAGCGGGTGTTCAAGCCATTCCTGCGCCTGGACGACAGCCGCGCACGCGCGTCGGGCGGCCATGGGCTGGGGCTGTCGATTGTGCGGCGGATCATCCATTGGCACGACGGCCGGGCGCTGATCGGCAAGAGCAAGCGCCTGGGCGGGGCGTGTTTCAGCTTGAGCTGGCCGAGGCATCAGGATCGGTCTTGA	MNSIFLRIYGGMCAALVLVAVLGVLALHLLNQTRGEQYRERLAHGTFSLMADNLRPMNDTERRRALAVWERLLGIPLALQTFSQTDLDLGQRTRVLRGQVLVEQIGPHAAKVYRLVSDGEQLTLVGEVRQISEQLARATIYLLADELVRYPVAEQPERLAQLKQEKGFGFDLRLMTVEQADMDDDQRRRVAEGDTVMALGKGADSIRVFAGMVGTPWVLEIGPLYQMNPYPPEWLVLIAALGLSLIGLIVYLLVRQLERRLRGLESAATQIAQGSLETRVPARGADSVGRLAAAFNGMAEHLQQLLAIQRELVRAVSHELRTPVARLRFGLEMLGSASTPEARDKYLAGMDHDIEDLDRLVDEMLTYARLEQGSPALNFQRVDLDALVNQVIEELGPLRAGVTVERGLCLSAADCDGAWVEAEPRFLHRALQNLVGNAMRHARSQVTVSYQVGQLRCRVDVEDDGPGVPEAAWERVFKPFLRLDDSRARASGGHGLGLSIVRRIIHWHDGRALIGKSKRLGGACFSLSWPRHQDRS	PGPT0015040_150	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-BF-RST_PH|TEMPERATURE|STARVATION_SIGNALLING_SYSTEM,PGPT0015040-rstB-K07639	NA	NA
D1-35_00378	735			hypothetical protein	ATGCCCGGCATGAACCCACTCCCTGCCCTGCCCGCCTGCTGTTCGCCCCTGGATGACCAATGGCTGCTGCCTGACGCCCTGCCCGATACGGTGCTGCTCAGTACTCGCTTCGATCCGATGTTGCTTGTCGCTGACGATTTTCCGAACAGCGCCATCGAGCCTCCGGCGAGCATCCGGCGCTCGGTAGCCAAACGTCAGGCGGAGTTTCTCGCCGGGCGGATCTGTGCCCGGGCGGCACTGCTGCGCCTCGACGGGCAGGCCGACGTGCCGGCCATCGGCGAAGACCGCGCCCCGGTGTGGTCGGCCCATGTCAGCGGCTCGATCACCCACAGCACCGGCCGGGCCGCGGCAATCGTCGCGCAAAAACGGGACTGGCAAGGGCTGGGCATGGATCTGGAAAACCTCCTCGACCCCGAACGCGCCGAGCGCCTGGCCGGTGAAATCCTCACCCCGGCGGAACTGCTGCGCATGGCCACCGCGCCGCAGGATGACCGCGCATTGCTGGTCACCCTGACTTTTTCGATGAAAGAAAGCCTGTTCAAGGCGCTGTACCCCATCGTCGGGCAGCGTTTCTACTTCGAGCATGCCGAAATAGTCGAGTGGTCCCACTCCGGGCAAGCGCGGCTGCGGTTATTGACCGATCTGTCGACCGAGTGGCGCCATGGCAGTGAGCTGCAGGGGCAGTTTGGGGTGAAGGATGGGCAGTTGTTGAGCCTGTTGGGAGTCAAGGCCTGA	MPGMNPLPALPACCSPLDDQWLLPDALPDTVLLSTRFDPMLLVADDFPNSAIEPPASIRRSVAKRQAEFLAGRICARAALLRLDGQADVPAIGEDRAPVWSAHVSGSITHSTGRAAAIVAQKRDWQGLGMDLENLLDPERAERLAGEILTPAELLRMATAPQDDRALLVTLTFSMKESLFKALYPIVGQRFYFEHAEIVEWSHSGQARLRLLTDLSTEWRHGSELQGQFGVKDGQLLSLLGVKA	PGPT0003225_172	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN|ACINETOBACTIN|ANGUIBACTIN|CHRYSOBACTIN_METABOLISM,PGPT0003225-entD|basI|angD|cbsD|cbsE|aebD-K02362	NA	NA
D1-35_00379	792			hypothetical protein	ATGCGCAGGTTGCTTGCTGTTGTACTTCTGGCCTTGAGCGGCGCGAGCCACGCCGCCATCCAGACCCAGGAGATTCCCTACACCAGTGCCGACGGCACGAAGCTGATCGGCTATTACGCCTATGACGACGCGGTCAAAGGCCCGCGCCCCGGCGTGGTGGTGGTGCATGAATGGTGGGGGCTGAACGACTATGCCAAGCGCCGCGCCCGTGACCTCGCCGGCCTGGGCTACAGCGCCCTGGCCATCGACATGTACGGCGACGGCAAGAACACCGAGCATCCGGAGGACGCCAAGGGCTTCATGCAGGCCGCGCTCAAGGATGGCAAGGCGGCCAGCGCGCGCTTCCAGGCCGGCCTCGACCTGTTGAAGAAACAACCGCAGACCGACCCGGACAAACTCGCCGCCATCGGCTACTGCTTCGGCGGCAAGGTGGTGCTGGACGCGGCGCGCCAAGGCGTTCCACTGGCCGGCGTGGTGAGCTTCCACGGCGCGCTGGTCACCAACACGCCGGCCACCCCCGGCAGCGTCAAGGCCAGGATCCTGGTGGAGCACGGCGCGCTGGACAGCATGGTCACCGAAGACAACGTCACCGCGTTCAAGAGCGAGATGGACAAGGCCGGCGCCGACTACAAGTTTGTCAGCCTGGAAGGCGCCAAGCACGGCTTCAGCAACCCCGACGCCGACCGCCTGAGCCATGGCGAACATGGTGGGCCGGACATCGCCTACAACAAGGAAGCTGACGAGAAGTCGTGGGCGGATATGCAGAAGTTCTTCAAGAAGATTTTCAACTGA	MRRLLAVVLLALSGASHAAIQTQEIPYTSADGTKLIGYYAYDDAVKGPRPGVVVVHEWWGLNDYAKRRARDLAGLGYSALAIDMYGDGKNTEHPEDAKGFMQAALKDGKAASARFQAGLDLLKKQPQTDPDKLAAIGYCFGGKVVLDAARQGVPLAGVVSFHGALVTNTPATPGSVKARILVEHGALDSMVTEDNVTAFKSEMDKAGADYKFVSLEGAKHGFSNPDADRLSHGEHGGPDIAYNKEADEKSWADMQKFFKKIFN				NA	NA	NA	NA	NA
D1-35_00380	600			hypothetical protein	ATGACTCATATGAAAAAACTGCTGCTGGCCTTCACCGTGCTGGGCGCCAGCGCCCTGGCCCATGCCGATGACAACTTCGCCGGCCTGACCCTCGGCCAGACCAGCGACAAGGTCAAGAAATCCAACGCCCTGGACAGCGCGCTGAACAACCCGAACGCCGACGGTATCATCGGCAAGGACACCACCTACGGCCTGCGCCTGGGTCGTCAGAATGACCAGGGCCGCTACTACGCCACCTACGACAACGTATCGGGCACCCACAACGGAATCAAGCTGCGCCAGGAAAACCTGCTGGGCAGCTACGATCTGTTCTATCCGGTCACCGCCAGCACCAAATTGTTCGGAGGTGGCACGGCGGGGCTGACTAAGTTGACCCAGGATTCCCCAGGCTTCAGCCGCGACAGCGATATCGGTTATGCCGTTGGCCTGCAAGGCGGCGTGCTGCAGCAGATTTCGCAAAACACCTCGGTGGAACTGGGTTACCGTTACCTGCGCAGCAATGCCAGCACCGAGATGAGCCCGCGCGATGGCGCCAAGGTGGGATCGCTGGACCTGACCAGCAGCGCCCAGACCTACCTGTCCGCCAACTATACGTTCTAG	MTHMKKLLLAFTVLGASALAHADDNFAGLTLGQTSDKVKKSNALDSALNNPNADGIIGKDTTYGLRLGRQNDQGRYYATYDNVSGTHNGIKLRQENLLGSYDLFYPVTASTKLFGGGTAGLTKLTQDSPGFSRDSDIGYAVGLQGGVLQQISQNTSVELGYRYLRSNASTEMSPRDGAKVGSLDLTSSAQTYLSANYTF	PGPT0014016_15	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014016-oprH-NA	NA	NA
D1-35_00381	678	phoP_1		Transcriptional regulatory protein PhoP	ATGAAACTATTGGTTGTCGAAGACGAAGCGTTGTTGCGCCACCACCTGCAAACCCGTCTCACCGACAGCGGCCATGTGGTCCAGGCCGTGGCCAATGCCGAGGAGGCCTTGTACCAGGTCGGCGAATTCAATCACGACCTGGCGGTGATCGACCTGGGCCTGCCGGGCATCAGCGGCCTGGAACTGATTCGCCGGTTGCGCTCGCAGGACAAGACCTTTCCGATCCTGATCCTGACCGCCCGCGGCAATTGGCAGGACAAGGTCGAAGGCCTGGCTGCGGGGGCCGATGACTACGTCGTGAAGCCGTTTCAGTTCGAAGAGCTCGAAGCCCGGCTGAATGCACTGCTGCGTCGCTCCAGCGGTTTCACCCAGTCAACCATCGTCGCCGGTCCATTGTTGCTCGACCTCAACCGCAAGCAGGCGTCCCTCGGTGACGAGCCGCTGGCCTTGACCGCCTACGAATACCGCATCCTCGAATACCTGATGCGCCATCACCAGCAGGTGGTCGCCAAGGATCGCCTGATGGAGCAGCTTTATCCCGATGACGACGAGCGCGATCCCAATGTGATCGAAGTGCTGGTCGGGCGCCTGCGCCGCAAACTGGAAGCCCCGGCCGGGTTCAAGCCGATCGATACCGTGCGTGGCCTGGGTTACCTGTTCAACGAGCGCTGCCAGTGA	MKLLVVEDEALLRHHLQTRLTDSGHVVQAVANAEEALYQVGEFNHDLAVIDLGLPGISGLELIRRLRSQDKTFPILILTARGNWQDKVEGLAAGADDYVVKPFQFEELEARLNALLRRSSGFTQSTIVAGPLLLDLNRKQASLGDEPLALTAYEYRILEYLMRHHQQVVAKDRLMEQLYPDDDERDPNVIEVLVGRLRRKLEAPAGFKPIDTVRGLGYLFNERCQ	PGPT0011060_312	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS|LIPID|IVA_REGULATION,PGPT0011060-phoP-K07660	NA	NA
D1-35_00382	1347	phoQ	COG0642	Sensor protein PhoQ	GTGATTCGTTCGCTGCGATTGCGGTTGATGCTGGCCGCCATGACATTGGCGGTGCTGTTCATGCTGGCGCTGCTGCCGGCGATGCAGGGCGCCTTCAGCCTGGCCTTGCAGGAATCCATCGAGCAGCGCCTGGCTTCGGACGTGACCACGCTGATCTCCGCCGCCCGGGTCGAAAACAATCGCCTGAAGATGCCGGCGCAATTGCCCGATGAGCGCTTCAACCTCGCCGATGCCCGCCTGCTGGGCTACATCTATGATCGCGAAGGGCGGTTGGTCTGGCGTTCGAAGGCGACCCAGGAAGAACACATCAACTACGCGCCGCGCTACGACGGGCTGGGCAACCAGTTTGCGCGCATCCGCGAGGACAACGGCCAGGAGTTTTTTGTCTACGACGTCGAGGTCAAGCTGCTCGGGGGCCAGAGCGCGGCGTTCAGCATCGTCACCCTGCAGCCGGTGCACGATTACGAAATGACGCTGCAAGGCCTGCGAGAAAACCTTTACCTGGGGTTCGGCGCCGCGCTGGCGGTGCTGCTGGCGCTGTTATGGATCGGCCTGACCTGGGGCTTGCGGGCGTTGCGCCGTCTGAGCCAGGAGCTGGATGAGATCGAAACCGGCACCCGCGAAAGCCTCAGCACCGCGCATCCCCGCGAACTGCTGCGCCTGACCGGCTCGCTCAACCGCCTGCTGCACAGCGAGCGTGAGCAGCGCAGCCGCTATCGGGACTCCCTCGATGACTTGGCGCACAGCCTCAAGACTCCGCTGGCGGTGCTGCAAGGCGTCAGCGAGGACATGGCCCGGCGTCCCGAGGATCGTGGGCAGGCCTGGGTGCTGCAAACCCAGATCGAGCGCATGAGCCAGCAGATCGGCTACCAGTTGCAGCGCGCCAGCCTGCGCAAAAGCGGCCTGGTGCGCCATCAGGTGCCCTTGCGCCCGGTGTTGCAAAGCCTCTGCGACACCCTCGACAAGGTCTATCGCGACAAGCGCGTGCAGGTCGAATTCGACCTGCCGGAGGATTGCCAGGTGCCGATCGAGCAGGGCGCCTTGCTGGAGATGCTCGGCAACCTGTTGGAAAACGCCTATCGGCTGTGCCTGGGGCACGTGCGGGTGAGCGTGCACCAGACGCTCGGCGGGACGGAGTTGAGCATCGAGGACGACGGACCGGGCGTGCCACCGGACCAGCGTGCACGGATCCTGCAGCGGGGTGAACGGCTGGATCGCCAGCATCCGGGGCAGGGGATCGGCCTGGCGGTGGTAAAAGACATCATCGAGAGCTATGGCGCCCGGTTGACGCTGGGAGATTCAGAACTGGGCGGGGCGGCGTTCCGGATTCATTTCTCGGTGGTTTGA	MIRSLRLRLMLAAMTLAVLFMLALLPAMQGAFSLALQESIEQRLASDVTTLISAARVENNRLKMPAQLPDERFNLADARLLGYIYDREGRLVWRSKATQEEHINYAPRYDGLGNQFARIREDNGQEFFVYDVEVKLLGGQSAAFSIVTLQPVHDYEMTLQGLRENLYLGFGAALAVLLALLWIGLTWGLRALRRLSQELDEIETGTRESLSTAHPRELLRLTGSLNRLLHSEREQRSRYRDSLDDLAHSLKTPLAVLQGVSEDMARRPEDRGQAWVLQTQIERMSQQIGYQLQRASLRKSGLVRHQVPLRPVLQSLCDTLDKVYRDKRVQVEFDLPEDCQVPIEQGALLEMLGNLLENAYRLCLGHVRVSVHQTLGGTELSIEDDGPGVPPDQRARILQRGERLDRQHPGQGIGLAVVKDIIESYGARLTLGDSELGGAAFRIHFSVV	PGPT0011065_540	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_ACIDIC_STRESS	ACIDIC_STRESS_REGULATION,PGPT0011065-phoQ-K07637	NA	NA
D1-35_00383	999			putative HTH-type transcriptional regulator	ATGCGCCAACGCACCATCGCCAGCCACTTCGCCCGCGCCGCCCTGGGTGGCGCGCGTCGCCAGGGGTTCGACTACGTTCCCCTGCTGCAGCAACTGGGGATCAGCCCGGAGCTGCTGGACGAGCCGCGCGCGCGAATCGCCCCCGAGCAATTCGCCCGCCTGTTGCAGGCGCTGTGGGTCGCATTGGCGGACGAATACCTGGGATTTGGCCGGGCACCGAGTAAACCCGGGACGTTCGCCATGATGTGCCACACGTTGATCCACTGTCGGACGCTGGGCAAGGCGCTGCAGCGCGGCCTGTTGTTCTACAGCCTGTTCCCCGACGCCCCGAGCCTGACCCTCGAAGCTGAAGGCGAACGGGTAAGGCTGAGCCTGGACGAGTCGACACTGCGTGATCCCGACCACTTCCTGGCCGAAAGCCTGCTGGTCATCTGGCATCGCCTCGGCAGTTGGCTGATCGGCCAGCGGATCGGCCTGGAACAAGCGACGTTCAGCTATGCCAGGCCAAGCCACGGCGCGGAGTACGACTTGCTGTTCTCCTGCCCCTTGGTCTTCGAGGCGCGAAGCAGCAGCTTGTTATTCCATGCCCGCTACCTGGAAATGCCGTTGCTGCAGGACGAGCGAACCCTCAAGCACTTTCTCGAACGCTCCCCCGCCGACCTGCTCTCGCGCCCGGACGATGGCCACAGCCTCACCAGCCAATTGCGGCGCCTGCTCAGCCGCGACACGGCGCGCTGGCCGGACCTGGACACGGTCGCTGCGCATCTGCATATCAGCTCGCAGACCCTGCGCCGGCATCTGCGCGAGGAAGGCACCAGCTTCCAGGAGCTCAAGGATCAGTTGCGGCGGGATATCGCCATCTACCACCTGGGCCGCGCGGACCTGTCGTTGCAGCAGATCGCCGAACAGCTGGGGTTCTCCGAACCGTCGGCGTTTCATCGGGCGTTCAAGAAGTGGACGGGGGTGACGCCGGGGGCTTATCGGGAGCAGGAGAGCTGA	MRQRTIASHFARAALGGARRQGFDYVPLLQQLGISPELLDEPRARIAPEQFARLLQALWVALADEYLGFGRAPSKPGTFAMMCHTLIHCRTLGKALQRGLLFYSLFPDAPSLTLEAEGERVRLSLDESTLRDPDHFLAESLLVIWHRLGSWLIGQRIGLEQATFSYARPSHGAEYDLLFSCPLVFEARSSSLLFHARYLEMPLLQDERTLKHFLERSPADLLSRPDDGHSLTSQLRRLLSRDTARWPDLDTVAAHLHISSQTLRRHLREEGTSFQELKDQLRRDIAIYHLGRADLSLQQIAEQLGFSEPSAFHRAFKKWTGVTPGAYREQES				NA	NA	NA	NA	NA
D1-35_00384	1353	dctA2_1	COG1301	C4-dicarboxylate transport protein 2	ATGACGACTCGTCAGCCACTGTACAAATCCCTGTATTTCCAGGTGATCGTAGCCATTGCCATCGGCATTCTGCTCGGCCACTTCTACCCGCAGACCGGCGTTGCCCTCAAGCCGTTCGGTGACGGGTTCATCAAACTGATCAAGATGGTCATCGCACCGATCATTTTCTGTACCGTCGTCAGCGGCATCGGCGGCATGCAGAATATGAAATCGGTCGGCAAGACCGGCGGCTATGCACTGCTCTATTTCGAAATCGTTTCCACCATTGCCCTGCTGATCGGCCTGGTCGTGGTCAACGTCGTGCAGCCGGGCAACGGCATGCACATCGACGTGTCGACCCTGGACACCAGCAAGATCGCCGGCTTCATCAATGCCGGTAAAGACCAGAGCATCGTTGCCTTCATCCTCAACGTGATCCCGAACACCATCGTCGGCGCCTTCGCCAACGGCGACATCCTGCAAGTGCTGATGTTCTCGGTGCTCTTCGGTTTCGCCCTGCATCGCCTGGGTGCCTACGGCAAGCCGGTGCTGGACTTCATCGACCGCTTCGCCCACGTCATGTTCATCATCATCAACATGATCATGAAGCTCGCGCCGATCGGTGCGTTCGGTGCCATGGCCTTCACCATCGGCGCCTACGGTGTCGGTTCGCTGGTGCAACTGGGCCAGTTGATGATCTGCTTCTACATCACCTGCGTGGTGTTCGTGCTGGTGGTGCTGGGCGCCATCTGCCGCGCCCACGGCTTCAGCGTGATCAAGCTGATCCGCTACATCCGTGAAGAACTGCTGATCGTGCTGGGCACCTCCTCGTCGGAATCGGCCCTGCCACGCATGCTGATCAAGATGGAGCGCCTGGGTGCCAAGAAGTCCGTGGTGGGCCTGGTGATCCCGACTGGCTACTCGTTCAACCTCGACGGTACCTCGATCTACCTGACCATGGCTGCGGTGTTTATTGCCCAGGCCACCGACACCCCGATGGACATCACGCATCAGATCACCCTGTTGCTGGTCCTGCTGCTGTCCTCCAAAGGTGCTGCCGGCGTAACCGGTAGCGGCTTCATCGTACTGGCGGCCACCCTGTCGGCCGTGGGCCACCTGCCGGTTGCCGGCCTGGCGTTGATCCTCGGCATCGACCGCTTCATGTCCGAAGCTCGTGCGCTGACCAACCTGGTCGGTAACGCCGTTGCTACCATCGTGGTTGCCAAGTGGGTCAAGGAACTGGACGAAGACCAGTTGCAGACCGAACTGGCTTCCGGTGGTCGCGGTATCTCCGACGTGCGTGAAGATGACGAGCAGATCGCTCAAGCGCAGATTGTCGCGGCTGAATCCGCTGCTCCAGGCGCTGTGAAGTAA	MTTRQPLYKSLYFQVIVAIAIGILLGHFYPQTGVALKPFGDGFIKLIKMVIAPIIFCTVVSGIGGMQNMKSVGKTGGYALLYFEIVSTIALLIGLVVVNVVQPGNGMHIDVSTLDTSKIAGFINAGKDQSIVAFILNVIPNTIVGAFANGDILQVLMFSVLFGFALHRLGAYGKPVLDFIDRFAHVMFIIINMIMKLAPIGAFGAMAFTIGAYGVGSLVQLGQLMICFYITCVVFVLVVLGAICRAHGFSVIKLIRYIREELLIVLGTSSSESALPRMLIKMERLGAKKSVVGLVIPTGYSFNLDGTSIYLTMAAVFIAQATDTPMDITHQITLLLVLLLSSKGAAGVTGSGFIVLAATLSAVGHLPVAGLALILGIDRFMSEARALTNLVGNAVATIVVAKWVKELDEDQLQTELASGGRGISDVREDDEQIAQAQIVAAESAAPGAVK	PGPT0001450_712	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0001450-dctA-K11103	NA	NA
D1-35_00385	1176	smtB_2	COG1804	Succinyl-CoA--L-malate CoA-transferase beta subunit	ATGCAAGGCCCACTGGCATCGCTCAAGGTTCTGGATTTTTCCACCCTGCTGCCCGGCCCGTTCGCCTCGTTGTTGCTGGCGGACATGGGCGCCGAGGTGCTGCGCATCGAATCGCCGGAGCGTCCTGACCTGCTGCGGATATTGCCGCCCCACGACCAGGACACCTCGGCCAGTCATGCCTACCTCAACCGCAACAAGCGCAGCCTGGCCCTGGACCTCAAGCAACCGGCGGCACTGGAGATCATCAAACGGTTGCTGGACGACCATGACATTCTGCTGGAGCAGTTCCGCCCCGGCGTGATGGAGCGGCTGGGCCTGGGTTACGAAGCCTTGGAGGCGATCAATCCCCGGCTGATCTACGTGTCGATCACCGGTTATGGCCAGACCGGCCCGTTCAAGGATCGCGCCGGCCACGACATCAACTACCTGGCCCTGGCCGGGCTGGCGAGCCACACCGGTCGGGCCGACAGCGGGCCGCTGCCGCTGGGCATCCAGGCGGCGGACATCGCCGGCGGTTCGCTGCACGGGGTGATCGGCCTGCTGGCGGCGGTCATTGCCCGCCAGCAGAGCGGGCAGGGCCAGCACCTGGACGTGAGCATGACCGACTGCGTCTTCAGCCTGAACGCACTGGCCGGCGCCGGTTACCTGGCCTGCGGTGTGAAACCGGGGTGGGAAAACCATGCGTTGAACGGTGGCAGTTTTTATGATTACTACCGCACGCGGGATGGTCGCTGGATGTCGGTGGGCAGTCTCGAGCCAGGGTTCATGCAGGCACTGTGCGCGGCCTTGGGGCGGCCGGAGCTCGCCGCCCAAGGCCTGGCGCCCGAGCAGCAGCAGCGGCTCAAAGAGCAATTGCGCGCCGAATTCGAGAAGCGCGATTTTGCTGACCTTTGCGCGCTATTCGCCGAGGTGGATGCCTGCGTCGAACCAGTGCTGGAGCTGGACGAAGCGCTTGAGCATCCGCAGTTGAAGGCCAGGCATCTGGTCACCCAGGTGCCCCGTGGCGACGGGTCGAGCCAGGCGCAAATGGCGTGCCCGTTGAAGTTTTCCGAAGGCTTGCCCGAGCCTCGGCATATAGGCGCGAGGCTGGGGGCGCATACGGAGCAGGTGTTGCGGGAGTTGGGGTTCAGTGATGAGCGGATTGCCCGGCTGCGGGATGACGGGGTGGTTGTGTAG	MQGPLASLKVLDFSTLLPGPFASLLLADMGAEVLRIESPERPDLLRILPPHDQDTSASHAYLNRNKRSLALDLKQPAALEIIKRLLDDHDILLEQFRPGVMERLGLGYEALEAINPRLIYVSITGYGQTGPFKDRAGHDINYLALAGLASHTGRADSGPLPLGIQAADIAGGSLHGVIGLLAAVIARQQSGQGQHLDVSMTDCVFSLNALAGAGYLACGVKPGWENHALNGGSFYDYYRTRDGRWMSVGSLEPGFMQALCAALGRPELAAQGLAPEQQQRLKEQLRAEFEKRDFADLCALFAEVDACVEPVLELDEALEHPQLKARHLVTQVPRGDGSSQAQMACPLKFSEGLPEPRHIGARLGAHTEQVLRELGFSDERIARLRDDGVVV				NA	NA	NA	NA	NA
D1-35_00386	495	sprT		Protein SprT	ATGCTCGAGCAACTCAATACCCGCGTCGAAGAGTGTTACCAACAAGCCGAATCCTTTTTCAAACGTCCTTTCAAACGCCCGGTGGTCAGCCTCAAGTTGCGCGGCCAGAAGGCCGGTGTCGCGCACCTTCATGAAAACCTGCTGCGTTTCAATCCCCAGCTGTACCGGGAAAACGCCGACGACTTCCTCAAGCAGACCGTTGCCCACGAAGTCGCGCACCTGATCGCCCATCAGTTGTTTGGCGACCGCATCCAGGCCCATGGCGAGGAATGGCAACTGATCATGCGCGGGGTCTACGAACTGCCGCCCAACCGTTGCCACACCTACGAGATAAAACGTCGCACCGCCACCCGCTACATCTACAAGTGCCCGTGCGACGGCAGCGACTTCCCCTTTACCGCACAGCGCCACAGCCTGGTCCGCCAGGGGCGGCGGTACTTGTGCCGAAGTTGTCGCAATACGTTGGTGTTCAGTGGAGAAACGCGAGTCGAGTAG	MLEQLNTRVEECYQQAESFFKRPFKRPVVSLKLRGQKAGVAHLHENLLRFNPQLYRENADDFLKQTVAHEVAHLIAHQLFGDRIQAHGEEWQLIMRGVYELPPNRCHTYEIKRRTATRYIYKCPCDGSDFPFTAQRHSLVRQGRRYLCRSCRNTLVFSGETRVE				NA	NA	NA	NA	NA
D1-35_00387	603	yohC_1		Inner membrane protein YohC	ATGATCCATCATGTCGTGGGGCTCTTTACCCACCCTGATCAAGAATGGAAGGAAATCCGTGGCGATCAGGAGGAAAGCATCAGCCACATGTACCTCACCCACACGCTGATCCTCGCGGCTATCCCCGCGGTGTCGGCGTTCATCGGCACCACGCAGGTGGGATGGGTCATCGGCAATCGTCCACCGGTCATGCTCACCCTGGAAAGCGCGCTGTGGATGACCATCATGTCGTACCTCGCGATGTTGGGCGGCGTGGCGGTGATGGGCGCGTTCATCCACTGGATGGCTCGCACCTATGACGCCAACCCGAGCCTGGCCCGTTGTGTCGCGTTCGCTACCTACACCGCGACGCCGTTGTTCATTGGCGGGCTGGCAGCGCTCTACCCGCACATGTGGCTGGGGATGATCGTCGGCACCGCGGCGATCTGCTACACGGTCTACCTGCTGTACGTGGGTTTGCCGACGTTCATGAACATCCCGCAGGACGAAGGCTTCCTGTTTTCCAGCTCGGTGCTGGCCGTCGGCCTGGTCGTGCTGGTCGCCATCATGGCGTTCACGGTCATTGTCTGGGGATTGGGCGTGGGTCCGGTCTATACCAACTGA	MIHHVVGLFTHPDQEWKEIRGDQEESISHMYLTHTLILAAIPAVSAFIGTTQVGWVIGNRPPVMLTLESALWMTIMSYLAMLGGVAVMGAFIHWMARTYDANPSLARCVAFATYTATPLFIGGLAALYPHMWLGMIVGTAAICYTVYLLYVGLPTFMNIPQDEGFLFSSSVLAVGLVVLVAIMAFTVIVWGLGVGPVYTN				NA	NA	NA	NA	NA
D1-35_00388	825	ttcA	COG0037	tRNA-cytidine(32) 2-sulfurtransferase	ATGGGCACTCTCACGGTCAACCAGAACAAACTGCAAAAGCGCCTGCGCCGCCTGGCCGGTGAGGCCGTCGCCGATTTCAACATGATCGAGGATGGCGACAAGGTCATGGTCTGCCTGTCCGGCGGCAAGGACAGCTACACCTTGCTCGACGTGCTGATGCATCTGCAGAAAGTTGCGCCGATCAAGTTCGACATCGTTGCCGTGAACATGGACCAGAAGCAGCCGGGCTTTCCCGAGCACGTGCTGCCGGCTTACCTCGAATCGTTGGGCGTTGAATATCACATCGTCGAGAAAGACACCTATTCGGTGGTCAAGGAACTGATCCCCGAAGGCAAGACCACCTGTTCGCTGTGCTCGCGCCTGCGCCGTGGAACGCTCTATACCTTCGCTGACCAGATCGGCGCGACCAAGATGGCCCTGGGTCACCACCGCGACGATATCGTCGAGACCTTCTTCCTCAACATGTTCTACAACGGCTCGCTCAAGGCCATGCCGCCCAAGCTGCGCGCCGACGACGGGCGCAACGTGGTGATCCGTCCGCTGGCCTATTGCAGCGAGAAGGACATCCAGGCCTATTCGGATTTCAAGCAGTTCCCGATCATTCCCTGCAACCTGTGCGGCTCCCAGGAAAACCTGCAACGCCAGGTGGTCAAGGAGATGCTCCAGGAATGGGAGCGCAAGACCCCGGGCCGTACCGAGAGCATTTTCCGGGGCCTGCAAAACGTCATTCCGTCGCAACTGGCGGACCGCAACCTGTTCGATTTCGCCAGCCTGCGCATCGACGAAAGCGCCACGCCGCGGTTCGTCAATGTGGTGAATCTCTGA	MGTLTVNQNKLQKRLRRLAGEAVADFNMIEDGDKVMVCLSGGKDSYTLLDVLMHLQKVAPIKFDIVAVNMDQKQPGFPEHVLPAYLESLGVEYHIVEKDTYSVVKELIPEGKTTCSLCSRLRRGTLYTFADQIGATKMALGHHRDDIVETFFLNMFYNGSLKAMPPKLRADDGRNVVIRPLAYCSEKDIQAYSDFKQFPIIPCNLCGSQENLQRQVVKEMLQEWERKTPGRTESIFRGLQNVIPSQLADRNLFDFASLRIDESATPRFVNVVNL				NA	NA	NA	NA	NA
D1-35_00389	675			hypothetical protein	ATGCGCGATTACAAGTGGCTGCACGAGTATTGTCTGAACCGCTTCGGTTCGGCGGCTGAATTGGAAGCCCACCTGCCTGTACCCAAGACCCCGGCGCAACTGCGCAAGATCAGCGATGATCGCTACCTCTCGACCATGGCGCTGCGGGTGTTTCGCGCCGGGCTCAAGCACAGCCTGGTCGATGCGAAATGGCCGGCGTTCGAAGAGGTGTTTTTCAGGTTCGACCCGGAAAAGGTCGTGCTGATGAGTGCCGAGCACCTGGAGCGGCTGATGCAGGATGCACGGATCATCCGCCACCTGGGCAAGCTCAACAGCGTGCCGCGCAACGCGCAGCTGGTGCTGGATGTGGCCCATGAAAAGGGCAGCTTCGGTGCGATGATCGCCGATTGGCCGGTGACCGATATCGTCGGCTTGTGGATCTACCTGAAAAAACACGGCCATCAGTTGGGCGGCCTGTCGGCGCCGCGTTTCCTGCGGATGATGGGCAAGGATACGTTCGTGCCCAGCTATGACGTCGTGGCGGCGCTCAATGCCCAGGACCTCATCGATAAAGTCCCGACCAGCCTGCGGGACCTGGCTACCGTGCAGAATGCGTTCAACCAGTGGCATGAAGAGAGTGGCGGGCGGCCGCTGAGCCAGATCTCGATGATGCTGGCTTATACCGTGAATCATTGA	MRDYKWLHEYCLNRFGSAAELEAHLPVPKTPAQLRKISDDRYLSTMALRVFRAGLKHSLVDAKWPAFEEVFFRFDPEKVVLMSAEHLERLMQDARIIRHLGKLNSVPRNAQLVLDVAHEKGSFGAMIADWPVTDIVGLWIYLKKHGHQLGGLSAPRFLRMMGKDTFVPSYDVVAALNAQDLIDKVPTSLRDLATVQNAFNQWHEESGGRPLSQISMMLAYTVNH				NA	NA	NA	NA	NA
D1-35_00390	426			hypothetical protein	GTGGCTAAGAAGCCGAAGATCCTGCCGCCGGTCGAGTGGCTGGAGCCGCGTGTGCACATCGCCCGTAACCTCAGCCTGTTGTGCTTTTTCGGCCTGGTGGGGCTGCTCAGCGGGTATTACCTGCTGATCGCCGACCTGCACGGCGCGCGCCCCTGGGTGATTCTGCTGATCGAACTGGTGCCGTTGCTGATACTCGCGCCAGGCATGCTCAGCGGCAGCGCGCGCGGGCATTCGTGGATGTGCTTCGTGGTGAACCTGTATTTCATCAAGGGCGCGCTGGCGGCCTACGATCCGAACCGGCAATGGTTCGGCGTGCTGGAGATGGCGGCGAGCGTGGCGCTGTTCTGCTCGGCATTGCTATATGTGCGCTGGCGTTTCCAGTTGAACCGGCGGTTGGCTGGCGAGGGCGATATCTCCGTCGCCTGA	MAKKPKILPPVEWLEPRVHIARNLSLLCFFGLVGLLSGYYLLIADLHGARPWVILLIELVPLLILAPGMLSGSARGHSWMCFVVNLYFIKGALAAYDPNRQWFGVLEMAASVALFCSALLYVRWRFQLNRRLAGEGDISVA				NA	NA	NA	NA	NA
D1-35_00391	606		COG0655	NAD(P)H dehydrogenase (quinone)	GTGAGCACGCCCTATATCCTGGTGCTGTATTACAGCCGCAGTGGCTCTACCAACGAAATGGCCCGCCAGATCGCTCGCGGCGTCGAGCAGGCCGGACTGGAAGCCAGGTTGCGCACGGTGCCGGCGATCTCCACCGAGTGCGAGGCGGTGGCGCCGGATATCCCCGAACAGGGCCCGCTCTACGCCAACCTCGATGATCTGAAGAACTGCGCCGGCCTGGCCCTGGGCAGTCCGACCCGCTTTGGCAACATGGCCGCGCCGCTCAAATACTTCCTCGACGGCACCAGCAACCTGTGGCTGACCGGCGCCCTGGTGGGCAAGCCGGCCGGGGTGTTCACCTCCACCGCGAGCCTGCATGGCGGCCAGGAAACCACGTTGTTGTCGATGATGCTGCCACTGCTGCACCACGGCATGCTGATCACCGGCCTGCCCTACAGCGAGTCGGCCCTGATCGACACCCAGGGCGGCGGCACACCCTACGGCCCGAGCCACCACGCCGGCGCCGACGGTAAAAGCGGCCTGAATGAACACGAAGTCGCCCTGTGCCGCGCGTTGGGCCTGCGCCTGGCAAAAACCGCTTTGTTGCTGGAGAACGGCCGTGGCTAA	MSTPYILVLYYSRSGSTNEMARQIARGVEQAGLEARLRTVPAISTECEAVAPDIPEQGPLYANLDDLKNCAGLALGSPTRFGNMAAPLKYFLDGTSNLWLTGALVGKPAGVFTSTASLHGGQETTLLSMMLPLLHHGMLITGLPYSESALIDTQGGGTPYGPSHHAGADGKSGLNEHEVALCRALGLRLAKTALLLENGRG	PGPT0009460_1636	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009460-wrbA-K03809	NA	NA
D1-35_00392	354	yfgD	COG1393	putative protein YfgD	ATGACTGATCTGACGCTTTATCACAACCCGCGCTGCTCGAAATCCCGCGGTGCGCTGGAACTGTTGCAAGCCCGTGGCCTGGCGCCAACCGTGGTCCGCTACCTCGAAACTCCGCTGGACGCTGCGCAGCTGGAGCGGCTGCTGGGCAAGCTCGGCATTGAGGCACGCCAGTTGTTGCGCACCGGCGAAGATGAATACAAGACCATGGACCTGGCTGACGAAAGCCTGAGCCAGGCGCAGTTGATCGCCGCCATCGCCGCCCACCCGAAACTGATGGAACGGCCGATTCTCGAAGTCGGCGACAAAGCGGTGATCGGTCGCCCACCGGAGAAAATCCTGGAGATCCTGCCGTGA	MTDLTLYHNPRCSKSRGALELLQARGLAPTVVRYLETPLDAAQLERLLGKLGIEARQLLRTGEDEYKTMDLADESLSQAQLIAAIAAHPKLMERPILEVGDKAVIGRPPEKILEILP	PGPT0004720_3118	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004720-arsC1-K00537	NA	NA
D1-35_00393	468	resA_1	COG0526	Thiol-disulfide oxidoreductase ResA	ATGGCAAGGCGATTGGCGGCGGCACTGACATTCATCGGCTTTTTATTGCTCGGCGGCTGCGGCAACGATTACGGCGTGGACCAGAACGGTCAGCCGATTGCCGCGCAGCGGCTGGACAACCAATGGCTGGTGCTCAACTACTGGGCCGAGTGGTGCGCGCCGTGTCGCACTGAAATCCCCGAATTTAATGCCTTGGCCGAACAGCTCAAGGGACGCAACGTAGGTGTCTTCGGGGTCAACTTCGATCAGGTGCAAGGCGAAGAACTCAAGAGTGCCAGCGAGAAGCTGGGCATCCGCTTCACCGTACTGGCCCGGGATCCGGCCGAGTTCTTTGATGTCCCGCGCAGCGAAGGCCTGCCGGTGACGTACATCATCGACACCCAGGGCAAGGTGCGTGAACAATTGCTGGGAGAGCAGACGGCGGCGGCGGTGATGGCCAGGCTGGAGGCGTTGCAAGCGCTAAAATAG	MARRLAAALTFIGFLLLGGCGNDYGVDQNGQPIAAQRLDNQWLVLNYWAEWCAPCRTEIPEFNALAEQLKGRNVGVFGVNFDQVQGEELKSASEKLGIRFTVLARDPAEFFDVPRSEGLPVTYIIDTQGKVREQLLGEQTAAAVMARLEALQALK				NA	NA	NA	NA	NA
D1-35_00394	405			hypothetical protein	ATGAAACATCTGGTCCTGGCCACGCTGATGGGCGCCGGCCTGATGGGCTGCGCCGCCGATCCGGTGCAACTGCAACCCAACCGCAGCTACATCCTCGAATGGATCGGCGAGCGGCCGTTGATGGACTACAGCCACCTGACCATCACCCTCGACGACGATGGCCGTGCCTACGGCAATGCCGGCTGCAACCACTGGTTTGCGCCCTACACTCTGGAAAGCGACCGCTTGAGTTTCGGCAAGATCGGCAGCACCCGCAAACTCTGCGCCCCGGCGTTGATGGAGCAAGAGACGCGTTTCTTGCAGGCGCTGGAGAAGGTCGAGCGCTGGGACGTATCGCCCACGGGCCAGACCCGTTTCTGGCCGGCCCAGGGCAAGCCGTTGCGGTGGTGGTTGGAAGAGGGTTGA	MKHLVLATLMGAGLMGCAADPVQLQPNRSYILEWIGERPLMDYSHLTITLDDDGRAYGNAGCNHWFAPYTLESDRLSFGKIGSTRKLCAPALMEQETRFLQALEKVERWDVSPTGQTRFWPAQGKPLRWWLEEG	PGPT0014615_847	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014615-hslJ-K03668	NA	NA
D1-35_00395	435			hypothetical protein	ATGGCCGAACACGATTTTCGCTACACCCTGATGAACCCGCAGCACACCTTGACCGAGGTCCGCGCCCTGGCGCCGGGCCGTTACCAGGTCACCGGCAATGGCGGCTCGATCCAGGCCAACGATGTATTGCTCGTCACCCTCAAGGGCAGCAAGGATCTTTCCATGCGCCTGACCGTCGACACCGTTCGCCATCTGCTCAAGCCGATCGGCCAATGGACCGCCATGACCACCGGTCCGGTGTTCGGTGAACTGGCGATCCACACCTGGCAGGTCAAGTGCGACCAATGCGCCAAGGAACTGAGCTTCGAGTTCGCCGTCGATGCCAAGCTCGGCACCAAGGCCCAGAAACCGGCCGCCAGCGCACGCATTGCCGAGCTGGGCTGGACGACCGACGGGGAGAAACACCGGTGCCCGAAATGCCAGGAAGCCGCCTGA	MAEHDFRYTLMNPQHTLTEVRALAPGRYQVTGNGGSIQANDVLLVTLKGSKDLSMRLTVDTVRHLLKPIGQWTAMTTGPVFGELAIHTWQVKCDQCAKELSFEFAVDAKLGTKAQKPAASARIAELGWTTDGEKHRCPKCQEAA				NA	NA	NA	NA	NA
D1-35_00396	990	ldhA	COG1052	D-lactate dehydrogenase	ATGCGTGCAATTCTATTCAGCAGCCAGACCTACGATCGTGACAGTTTCAGCAAGGCCGCCGTACCCGCCGGCCTTGAATTGCAATTCCAGCCGGCACGCCTGAGCCTCGACACCGTGGCCCTGGCCGAACGGTGCGAGGTGGTGTGCGCCTTCATCAACGACGACCTGAGCGCGCCAGTGCTGGAACGACTCGCGGCCGGCGGCACCCGGCTGATTGCCCTGCGCTCGGCCGGCTTCAACCATGTCGACCTGCCCGCCGCCAAGCGTCTGGGGCTGAGCATCGCCCGGGTGCCGGCCTACTCGCCCCATGCGGTGGCTGAACATGCGGTGGCATTGATCATGGCCTTGAACCGCTGCCTGCACCGCGCCTGCAACCGCACCCGGGACGGCAATTTCAGCCTGAATGGGTTGACTGGCTTCGACCTGGTGGGCAAGACCGTGGGCGTGGTCGGCACAGGACAGATCGGCGCGACCTTCGCCCGGATCATGGCCGGTTTCGGTTGCCAGTTGCTGGCCTACGACCCGTTCCCCAACCCTCAGGTCGAAGCCTTGGGGGCCCGCTACCTGCCTCTGGCCGATCTGCTGGCGCAGGCGCAGATCATCAGCCTGCACTGCCCGCTCAACGACCAGAGCCGACACCTGATCAATGCTCATTCCCTGGCAACCCTGCAACGCGGCGCCATGCTGATCAACACCGGACGCGGCGGCCTGGTGGATACGCCGGCACTGATCGAAGCGCTGAAAAGCGGCCAGCTGGGTTACCTGGGGCTGGATGTCTACGAGGAAGAGGCCGAATTGTTCTTCGAGGACCGCTCCGACCTGCCGTTGCAGGACGACGTGCTCGCGCGGCTGCTGACCTTTCCCAATGTCGTGGTGACCGCACACCAGGCGTTCCTGACTCGCGAAGCACTGGCCGCGATTGCCACCACCACCCTCGACAACATTGCCGCCTGGGCGGCTGGCGCTCCGCAGAACCTGGTGGATGGCTGA	MRAILFSSQTYDRDSFSKAAVPAGLELQFQPARLSLDTVALAERCEVVCAFINDDLSAPVLERLAAGGTRLIALRSAGFNHVDLPAAKRLGLSIARVPAYSPHAVAEHAVALIMALNRCLHRACNRTRDGNFSLNGLTGFDLVGKTVGVVGTGQIGATFARIMAGFGCQLLAYDPFPNPQVEALGARYLPLADLLAQAQIISLHCPLNDQSRHLINAHSLATLQRGAMLINTGRGGLVDTPALIEALKSGQLGYLGLDVYEEEAELFFEDRSDLPLQDDVLARLLTFPNVVVTAHQAFLTREALAAIATTTLDNIAAWAAGAPQNLVDG	PGPT0001755_1728	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001755-ldhA-K03778	NA	NA
D1-35_00397	2751	barA	COG0784	Signal transduction histidine-protein kinase BarA	GTGCTCAAGAAACTGGGAATCAAAGGCCGTGTGCTGCTGCTCACCCTACTGCCGACCACCTTGATGGCGCTGGTCCTGGGCGGTTATTTCACCTGGATGCAGCAATCGGACCTGCACGCCCAGTTGCTGCAACGCGGTGAAATGATCGCCGAACAACTGGCCCCGCTGGTCGCTCCGGCCATGAGCCGCCAGGACATCGAGCTGCTGGAACGCGTCGCCACCCAGTCCCTCGAGCAAGCCGACGTTCGCGCGGTGACCTTCCTCGCACCCGACCGCACACCGCTCGCCCATGCCGGCCCGACCATGCTCAACCGGGCGCCGGAGGGCAACAGCAGCCAACTGCTGCAACGCACCGGCAACGATGCCACACGCTATCTGCTGCCGGTGTTCGGCAAGCATCGCAACCTGGCTGGCGAACTGATTCCCGAAGAAGCCGATCGCCTGCTGGGCTGGGTCGAGCTGGAGCTGTCCCACAGCGGCATGTTGCTGCGCGGTTACCGCAGCCTGTTCGCCAGCCTGTTGCTGATCGCCGCCGGCCTGGGTTGCACCGCGCTGCTGGCCCTGCGCATGGGCCGCACCATCAATCGACCGCTGAGCCAGATCAAGCAGGCCGTGGCGCAGCTCAAGGACGGGCATCTGGAAACCCGCCTGCCACCGTTGGGCAGCCAGGAGCTGGATGAGCTGGCGTCGGGTATCAATCGCATGGCCGGCACCTTGCAGAATGCCCAGGAAGAATTGCAGCACAGCATCGACCAGGCCACCGAAGACGTGCGCCAGAACCTGGAAACCATCGAGATCCAGAACATCGAACTGGACCTGGCCCGCAAGGAAGCGCTCGAAGCGAGCCGGATCAAGTCCGAATTCCTCGCGAACATGAGCCATGAAATCCGCACGCCGCTCAACGGCATCCTCGGTTTCACCCATTTATTGCAGAAAAGCGAGCTGACCCCGCGCCAGCTCGACTACCTGGGCACCATTGAAAAATCCGCCGACAGCCTGCTCGGCATCATCAACGAGATTCTCGACTTCTCGAAGATCGAGGCCGGCAAGCTGGTGCTCGACAGCATCCCCTTCAACTTGCGGGACCTGCTGCAGGACACCCTGACCATCCTCGCCCCCGCCGCCCACGCCAAACAGCTGGAGCTGGTGAGCCTGGTCTACCGCGACACGCCGTTGTCGCTGGTGGGTGACCCGCTGCGGCTCAAGCAGATCCTCACCAACCTGGTGAGCAACGCCATCAAGTTCACCCGTGAAGGCACCATCGTCGCCCGCGCCATGCTCGAAGATGAGCACGAAGACAGCGTGCAGTTGCGCATCAGCATCCAGGACACCGGCATCGGCCTGTCCAGCCAGGACGTGCGGGCGCTGTTCCAGGCCTTCAGCCAGGCCGACAACTCCTTGTCCCGGCAGCCCGGCGGGACCGGTCTGGGCCTGGTGATTTCCAAGCGACTGGTGGAACAGATGGGCGGTGAGATCGGCGTCGACAGCACGCCGGGCGAAGGCTCGGAGTTCTGGATCAGCCTGCGCCTGCCCAAGACCCGTGACGACGCCGAAGACCTGCCCGGCCCGCCGCTGCTGGGGCGCCGCGTGGCGGTTCTGGAAAATCACGAGCTGGCCCGCCAGGCCTTGCAGCACCAGTTGGAGGACTGCGGTTTGCAGGTGACGGCGTTCAATACCCTGGAAAACCTGACCAACGGCGTCACCGTCGCCCACCAGACGGATCAGGCGATTAACCTGGCCGTACTCGGCATCACCAGCAACGACATGCCGCCGGAGCGTCTCAACCAACACATCTGGGACCTCGAGCACTTGGGCTGCAAGGTGCTGGTGCTGTGCCCCACTACCGAACAGACGCTGTTTCATCTCTCGGTGCCCAACCCCCACAGTCAATTGCAGGCCAAGCCGGCCTGCACCCGCAAGCTGCGCCGGTCGCTTTCCGACCTGGTCAACCCGCGCCCGACCCGCAACGAACCCAATGAACCGGTGGCCAGCCGCGCGCCAAAAGTGTTGTGCGTGGACGACAACCCGGCCAACCTGCTGCTGGTGCAGACCCTGCTCGAAGACATGGGCGCCCGGGTGCTGGCGGTGGAAAGTGGTTACGCGGCGGTCAAGGCCGTGCAGAAGGAAACCTTCGACCTGGTCCTGATGGACGTACAAATGCCCGGCATGGATGGCCGCCAGAGCACCGAAGCGATCCGCCAATGGGAAAGCGAGCGGCATTGCACGCCACTGCCGATCGTCGCCCTCACCGCCCACGCCATGGCCAACGAGAAGCGCGCCCTGTTGCAAAGCGGCATGGACGACTACCTGACCAAGCCTATCAGCGAGCGGCAATTGGCCCAGGTCGTACTCAAGTGGACCGGCCTGGCGCTGCGCAACCAGACCCCGGATCGGGGCGCTGATGCCCAAGGCAGCAGCGAGCTGCTGGTGCTCGACCACGAGGAAGGCCTGCGCCTGGCCGCCGGCAAGGCCGACCTGGCGGCGGACATGCTGGCGATGTTGCTCGCGTCCCTTGAAGCCGACCGCGAAGCGATCCGCCAGGCCAGCGAGGCCAACGACCACAACGCCCTGATCGAACGGGTCCACCGCCTGCACGGGGCCACGCGCTATTGCGGCGTACCGCAACTGCGCGCGGCCTGCCAGCGCAGCGAAACCTTGCTCAAGCAGCAAGACCCGCGGGCTGCCGCGGCTCTGGAAGACCTGGACCGTGCCATCCACAGGCTGGCCAGCGAGGCGCGCATCAGCGCCTGA	MLKKLGIKGRVLLLTLLPTTLMALVLGGYFTWMQQSDLHAQLLQRGEMIAEQLAPLVAPAMSRQDIELLERVATQSLEQADVRAVTFLAPDRTPLAHAGPTMLNRAPEGNSSQLLQRTGNDATRYLLPVFGKHRNLAGELIPEEADRLLGWVELELSHSGMLLRGYRSLFASLLLIAAGLGCTALLALRMGRTINRPLSQIKQAVAQLKDGHLETRLPPLGSQELDELASGINRMAGTLQNAQEELQHSIDQATEDVRQNLETIEIQNIELDLARKEALEASRIKSEFLANMSHEIRTPLNGILGFTHLLQKSELTPRQLDYLGTIEKSADSLLGIINEILDFSKIEAGKLVLDSIPFNLRDLLQDTLTILAPAAHAKQLELVSLVYRDTPLSLVGDPLRLKQILTNLVSNAIKFTREGTIVARAMLEDEHEDSVQLRISIQDTGIGLSSQDVRALFQAFSQADNSLSRQPGGTGLGLVISKRLVEQMGGEIGVDSTPGEGSEFWISLRLPKTRDDAEDLPGPPLLGRRVAVLENHELARQALQHQLEDCGLQVTAFNTLENLTNGVTVAHQTDQAINLAVLGITSNDMPPERLNQHIWDLEHLGCKVLVLCPTTEQTLFHLSVPNPHSQLQAKPACTRKLRRSLSDLVNPRPTRNEPNEPVASRAPKVLCVDDNPANLLLVQTLLEDMGARVLAVESGYAAVKAVQKETFDLVLMDVQMPGMDGRQSTEAIRQWESERHCTPLPIVALTAHAMANEKRALLQSGMDDYLTKPISERQLAQVVLKWTGLALRNQTPDRGADAQGSSELLVLDHEEGLRLAAGKADLAADMLAMLLASLEADREAIRQASEANDHNALIERVHRLHGATRYCGVPQLRAACQRSETLLKQQDPRAAAALEDLDRAIHRLASEARISA	PGPT0012930_597	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-VarA|VarS_SIGNALLING_SYSTEM,PGPT0012930-gacS|barA|varS-K07678	NA	NA
D1-35_00398	723	copR_1		Transcriptional activator protein CopR	ATGAATCCCATCCCCGCTGTACCGCCGCGCATCCTTGCCATCGAAGACGACCCCGTGCTGGGTGCTTATGTCCATGAGCACCTGGCCCGCAACGGCTTCGAAGTGACCTGGTGCCAGAACGGCCAGGATGGCCTGGACATCGCCTGCCGGCAGGCTTTCGACGTGGTGCTGATGGACATCCTGCTGCCCGGGCTGGATGGCCTCGCGGTGCTGACCCGTTTGCGCCTGAGTCATTCGACCCCGGTGTTGCTGATGTCTGCCCTCGGCGCGGAAGCGGATCGCATCAGCGGCTTTCGCCTCGGCGCCGACGATTACCTGCCCAAACCGTTCAGCATGGCGGAGTTGCGTGTGCGCATCGAGGCCATCCTGCGCCGAGTGGCGCTGGATCGGCGCCCGGCTCAAATGATGACTCTGCCCCAGGCGCAGGACCTGGACTTTGATGAGCAGCGCAGTGATGTACAGGTCCAGGGCCAATGGGCAGGGCTGACGCGCAGCGAATACCGTTTGCTCGACGTCCTGCACCGCAGTGACAGTGAAGTCCTGAGCAAAGCCTTCCTCTATCAGCATGTTTTGCAGCGCGGCTATGCACCACATGATCGCAGCCTGGACATGCATGTCAGCCAGATCCGCCGCAAGCTCAAGTCTATCGGCTACACCGCGCGGGAGCTGCGCACGGTGTGGGGCAAGGGCTACGTGTTGAGTGCCGTCGATGAAGTGGTCTGA	MNPIPAVPPRILAIEDDPVLGAYVHEHLARNGFEVTWCQNGQDGLDIACRQAFDVVLMDILLPGLDGLAVLTRLRLSHSTPVLLMSALGAEADRISGFRLGADDYLPKPFSMAELRVRIEAILRRVALDRRPAQMMTLPQAQDLDFDEQRSDVQVQGQWAGLTRSEYRLLDVLHRSDSEVLSKAFLYQHVLQRGYAPHDRSLDMHVSQIRRKLKSIGYTARELRTVWGKGYVLSAVDEVV	PGPT0003250_28	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN_METABOLISM,PGPT0003250-pfeR|pirR-K19610	NA	NA
D1-35_00399	1422	pfeS	COG0642	Sensor protein PfeS	ATGAAGTGGTCTGATCTGCCTGGGCGGAACTCGTTGTTCTGGAAACTGGCATGCCTGCTGGTGGCGTTCTGTCTGCTGATGATTTGGCTGAGCTGGTCCTGGGGCCGTTATATGGAGGAGCGCAACCAGTTTCTCTCGGACCAGGCCCGCGGCACCCTCACGCGTTACGCCGCCGAGGCCGAGCACGCCTGGCGTTCCGGCCGACAGGCGGGGGTGGACCGCTGGTTGCAAGGCATGCAGCCGCGCGAGGCAAGCTGGGTGGGGGTGATCGGCCCCGACCTGCAATCGTTGAGCGGGCAGCCGTTGACCGAGAAAGAGGTCGAGCGGCTGACCTTCCTCCGTGGTCTGGATTGGCCGATCCACAAGAAGGGCCGACCGTGGCTGCGGGTGCCGTTCCCCGGCGACCCGTCCGTCGGCAGCCTGGTGATCGAACTGCCCGAGCGTTTCCTGCCGGGGCAGTACCAGTTGTTCTGGCGCGTGATGACCAACGGCGTGATCCCCGGACTGTTCACCCTGTTGCTCTGTGTCGGGCTGTATCGCCTGCTGGTGGTGCCGCTCAATCAACTGCGCGAACAGGCCAATGCCTGGCGGGCCGATCAGTTGGGCGTGCGCCTGTCCAGCCGCACCACCGAACGTGCCGATGAACTGGGCGAGCTGGGACGGGCGTTCGATCACATGTCCGAGCGGTTGCAATCGACCGTCGCGCTGCAACAACAGCTGCTCCGCGACCTGTCCCATGAGCTGCGCACACCGCTGAGTCGCCTGCAAGTCGCCAGCGACAGCGAGCAGGACCTGGACCAACTGCGCGAGCGCGTCGCCCGGGAAGTCGAAGGCATGCAGCGATTAATCGAGGACACCCTGCAACTGGCCTGGCTCGACACCGAACGCGCGCCATTGCCGGTCGAGGCGATCCAGGTCCAGGCCTTGTGGGAAATGCTCACGGAAAATGCCTGTTACGAAAGCGGCTGGCCCAGCGCTCAACTGCAATGCGCGGTCGATGCCGATTGCTGGGTCCAAGGCAACCTCAATACCTTGGCGCAAGCTTTGGAAAACATCCTGCGCAACGCCATCCGGCACTCGCCGCCCGGCGGCGTGGTGCGGCTGGACGGTCGACGTGAGGGCGGTTTCTGGCTGCTGTGGCTTGAAGACGAAGGCGGTGGGGTGGCCGAGCAGGATCTTGAGCGTATCTTCGATCCGTTCACCCGTCTCGATGGCTCTCGCCCGGGAGACGGCGGTTTCGGGCTGGGGCTGAGCATTGCCCGTAATGCGCTGGCGCGCCAGGGTGGGCGGCTGTGGGCGCAGAACGGCAGGAAGGGCTTGCGGTTGAACCTGCGTCTGGTCGCCACTCAAGCAGCCACCGCCCCCGTGGCGAGGGAGCTTGCTCCCGCTGGCGCGCGCAGCGGCCCCCTGCAACCTGCCTGA	MKWSDLPGRNSLFWKLACLLVAFCLLMIWLSWSWGRYMEERNQFLSDQARGTLTRYAAEAEHAWRSGRQAGVDRWLQGMQPREASWVGVIGPDLQSLSGQPLTEKEVERLTFLRGLDWPIHKKGRPWLRVPFPGDPSVGSLVIELPERFLPGQYQLFWRVMTNGVIPGLFTLLLCVGLYRLLVVPLNQLREQANAWRADQLGVRLSSRTTERADELGELGRAFDHMSERLQSTVALQQQLLRDLSHELRTPLSRLQVASDSEQDLDQLRERVAREVEGMQRLIEDTLQLAWLDTERAPLPVEAIQVQALWEMLTENACYESGWPSAQLQCAVDADCWVQGNLNTLAQALENILRNAIRHSPPGGVVRLDGRREGGFWLLWLEDEGGGVAEQDLERIFDPFTRLDGSRPGDGGFGLGLSIARNALARQGGRLWAQNGRKGLRLNLRLVATQAATAPVARELAPAGARSGPLQPA	PGPT0003245_10	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN_METABOLISM,PGPT0003245-pfeS|pirS-K19609	NA	NA
D1-35_00400	903	cysM_2	COG0031	Cysteine synthase B	ATGACTTTGCAGTACCCAACCATCGCCGATTGCGTCGGCAACACCCCGCTGGTTCGCTTGCAGCGCCTGCCTGGCGCGACCAGCAATACGCTTTTGCTCAAGCTCGAAGGCAACAACCCGGCGGGTTCGGTCAAGGACCGGCCGGCGCTGTCGATGATCACCCGTGGCGAATTGCGCGGGCAGATCCGCCCGGGCGACACGCTGATCGAGGCGACCTCCGGGAACACCGGCATCGCCCTGGCGATGGCGGCGGCGATCAAGGGCTACAAGATGATCCTGATCATGCCCGACAACTCCAGCGCCGAGCGCAAGGCGGCGATGACGGCCTATGGCGCCGAGCTGATCCTGGTGACCCAGGAAGAGGGCATGGAAGGCGCCCGTGACCTGGCCGAGCGCATGCAGGCCGAAGGCCGGGGCAAGGTGCTCGATCAGTTCGCCAACGGCGACAATCCAGAAGCCCACTACACCACCACCGGCCCGGAGATCTGGCGCCAGACCGATGGCACGATCAGCCATTTCGTCAGCTCGATGGGCACCACCGGCACCATCATGGGTACTTCTCGCTACCTGAAAGAACAGAACCCGAACGTGCAGATCATCGGCCTGCAACCGATGGAAGGCTCGGCCATCCCCGGCATTCGCCGCTGGCCCGAGGAATATCTGCCGAAGATCTACCAGGCCGATCGCGTGGATCGCATCATCGACATGGCCCAGAGCGAAGCCGAAGACGTGACCCGTCGCCTGGCCCGTGAAGAAGGTATTTTCTGCGGCGTGTCGTCGGGCGGTGCCGTGGCGGGCATGCTGCGTTTGTCGAAGGAAGTGGAAAATGCAGTGATCGTCGCGATCATCTGCGACCGTGGCGACCGTTACCTGTCGACCGGCATCTTCGACGCGCCCAACTGA	MTLQYPTIADCVGNTPLVRLQRLPGATSNTLLLKLEGNNPAGSVKDRPALSMITRGELRGQIRPGDTLIEATSGNTGIALAMAAAIKGYKMILIMPDNSSAERKAAMTAYGAELILVTQEEGMEGARDLAERMQAEGRGKVLDQFANGDNPEAHYTTTGPEIWRQTDGTISHFVSSMGTTGTIMGTSRYLKEQNPNVQIIGLQPMEGSAIPGIRRWPEEYLPKIYQADRVDRIIDMAQSEAEDVTRRLAREEGIFCGVSSGGAVAGMLRLSKEVENAVIVAIICDRGDRYLSTGIFDAPN	PGPT0002820_584	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0002820-cysM-K12339	NA	NA
D1-35_00401	1371	rlmD	COG2265	23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD	ATGGCCAAACAAGAAAGAGGCTTGCGCTTCCAGCCCAGCGGCGGAAGCCGGGCCCCGCAAGTGCCCACCGGCAAGAAGCAGCGCCTGACCATTGAACGCCTGGCCAACGATGGCCGGGGCATTGCGTTTGTCGACGGGCGGACCTGGTTTGTCATCGGCGCCCTGGCTGGTGAAGAGGTCGAGGCGCGGGTGCTCGGTACCCACGGCAAAGTGGTCGAGGCCCGCACCGAACGGGTGTTTTCCTCCAGCGAACTGCGTCGTGCAGCGCCCTGCGTGCATGCCGGTCGCTGCGGCGGTTGCAGCGTCCAGCATTTGCCCCATGGCGAACAGCTTGCCCTGAAACAGCGCATGCTCGCCGAGCAACTGTCGCGGGTGGCCGGTGTCGAGCCGGATGAGTGGGCCGCGCCGTTGAGCGGACCGGAGTTCGGCTACCGACGTCGCGCTCGGGTGGCGGTGCGTTGGGATCAGAAAGCAAAATATCTTGAAGTGGGTTTCCGTGCCGTCGGCACCCAGGACATCGTAGCCATCGACGCATGTCCGGTGCTGGTACAGCCCTTGCAGCCGATCATGAGTCGCCTGCCGGAAATGCTCCGTCGCTTGGGCAAACCCCAGGCGCTCGGCCATGTCGAGTTGTTCGCCGGCTCGTCCCTGGCGTTATTGCTGCGGCATATGGCGCCGTTGTCGGAAGCCGACCTGACGATCCTCAAGGATTTCTGCGCGTTCCATGAAGCCCAGTTGTGGCTGCATGGCGAAGGCGAGCCGCAACCGGTCGATCCGGGCCAGGCCCTGGGTTATCGCCTGGAAAGCTGGGACCTGGAACTGGCTTACCGGCCGGGGGATTTCATTCAGGTGAACGCCGCCGTCAACGAGGCGATGGTCGCCCAGGCGCTGCAATGGCTGGCGCCTCGACCCGATGAGCGCGTGCTTGACCTGTTCTGTGGCCTGGGCAACTTTGCCTTGCCGCTGGCCAGGCAGGTGCGCGAGGTCGTGGCGGTGGAGGGCGTGCAGACCATGGTCGAGCGCGCGGCGGCGAACGCCCTCAGCAACAATTTGCATAACACTGCTTTTTTTCAGGCCGATTTATCCCAGCCTTTGGCGGGTGCCGAGTGGATCGGCGAAGGCTTTTCTGCGGTACTCTTGGACCCACCCCGTGATGGTGCTTTCGAGGTGGTGCGCAAGCTGGCCTCGCTGGGTGCCAGGCGGCTGGTTTATGTGTCGTGCAACCCGGCAACTTTGGCCCGGGACACGGTCGAATTGATCAAGCAGGGCTACCGGTTAAAACGTGCCGGGATTCTCGATATGTTTCCTCAGACGGCGCATGTCGAGGCCATGGCGTTATTTGAAGCGAGCCAGGATGGCTTGTCCGACTGA	MAKQERGLRFQPSGGSRAPQVPTGKKQRLTIERLANDGRGIAFVDGRTWFVIGALAGEEVEARVLGTHGKVVEARTERVFSSSELRRAAPCVHAGRCGGCSVQHLPHGEQLALKQRMLAEQLSRVAGVEPDEWAAPLSGPEFGYRRRARVAVRWDQKAKYLEVGFRAVGTQDIVAIDACPVLVQPLQPIMSRLPEMLRRLGKPQALGHVELFAGSSLALLLRHMAPLSEADLTILKDFCAFHEAQLWLHGEGEPQPVDPGQALGYRLESWDLELAYRPGDFIQVNAAVNEAMVAQALQWLAPRPDERVLDLFCGLGNFALPLARQVREVVAVEGVQTMVERAAANALSNNLHNTAFFQADLSQPLAGAEWIGEGFSAVLLDPPRDGAFEVVRKLASLGARRLVYVSCNPATLARDTVELIKQGYRLKRAGILDMFPQTAHVEAMALFEASQDGLSD				NA	NA	NA	NA	NA
D1-35_00402	2247	relA	COG0317	GTP pyrophosphokinase	ATGGTACAGGTGAGAGCACACCAGCCGATCAACACCGACGGCAGTATCAATCTCGAGGCTTGGCTCGATCACGCGGTCAGTATCGATCCGGCACTGGATCGCGAAGCCTTGAAGCAAGCCTGCGAGTTCGCTCGCGAGGCAGAACAGCAACACAACGCGGCGAAGAACCTGTGGTCCGAAGGCACCTCGAGTTTCCAGACGGGCCTTGAGATCGCCGAAATCCTCGCCGACCTCAAGCTCGACCAGGACTCGCTGGTCGCCGCGGTGCTGTACCGCGGCGTGCGTGAAGGGCAGATCCAGCTGCCGATGGTCAACCAGCGTTTCGGCACCGTGGTCGCCAAGCTGATCGACGGCGTGTTGCGCATGGCGGCCATCAGCGCCAGCCTCAGCCCGCGCCAGTCCATGGTTCTGGGCACCCAGGGCCAGGTGGAAAACCTGCGCAAGATGCTTGTGGCCATGGTCGACGACGTGCGTGTCGCGCTGATCAAGCTGGCCGAGCGCACCTGCGCGATCCGCGCCGTGAAATCCGCCGACGATGAAAAACGCAACCGTGTCGCCCGTGAGGTGTTCGACATCTACGCGCCGCTGGCCCACCGTCTCGGTATCGGTCACATCAAGTGGGAGCTGGAGGACTTGTCCTTCCGCTACCTGGAGCCTGACCAATACAAGCAGATCGCCAAGCTGTTGCATGAACGACGGCTGGATCGCGAGCGCTTCATCACCGATGTCATGACTCAGTTGCGTGAGGAATTGCAGGCCACCGGCGTGGAAGCCGATATCAGTGGCCGGGCCAAGCACATCTATTCGATCTGGCGCAAAATGCAGCGCAAAGGCCTCGAATTCAGCCAGATCTACGACGTTCGCGCCGTGCGCGTGCTGGTTCCGGAAATGCGCGATTGCTACACCGCGCTGGGGATCGTCCATACCTTGTGGCGGCACATTCCCAAGGAATTCGACGACTACATCGCCAACCCGAAGGAAAACGGCTACCGCTCGCTGCACACCGCGGTCATCGGCCCGGAAGGCAAGGTGCTGGAGGTGCAGATCCGCACCCATGCCATGCACGAAGAAGCCGAGCTGGGGGTTTGTGCCCACTGGAAATACAAGGGCACCGACGTCAAGTCCGGGTCCAACCATTACGAAGAGAAAATCTCCTGGCTGCGCCAGGTGCTGGAATGGCACGAGGAACTGGGTGACATCGGCGGCCTGGCGGAACAGCTGCGGGTCGACATCGAGCCGGACCGGGTCTACATCTTCACTCCCGACGGCCACGCCATCGACTTGCCCAAGGGCTCGACGCCGCTGGACTTCGCCTACCGGGTGCACACCGAGATCGGTCACAACTGCCGTGGCGCCAAGATCAACGGGCGGATCGTGCCGCTCAACTACAGCCTGCAGACCGGCGAGCAGGTGGAGATCATCACTAGCAAGCACGGCACGCCGAGCCGCGACTGGCTGAACCCGAACCTGGGCTACATCACCACTTCGCGCGCGCGGGCGAAAATCGTCCATTGGTTCAAGTTGCAGGCCCGTGACCAGAACGTCGCCGCCGGCAAGACCCTGCTCGAGCGCGAGCTGAGTCGCCTGGGCCTGCCGCAGGTGGATTTCGACAAGCTGGCTGAAAAAGCCAATATGAAGACCGCCGAGGACATGTTCGCCGCCCTTGGCGCCGGCGACCTGCGCCTGGCGCAACTGGTCAACCTCGCCCAGCAACTGGTTGAGCCGGAACGCGGCAACGAGCAACTGGAACTGATCCCGCGCAAGGCCACCGGCTACAAGCCCGGCAAGCGCGGCGATATCCAGATCCAGGGCGTGGGCAACCTGATGACCCAGATGGCGGGCTGCTGCCAGCCGCTGCCGGGGGATGCGATCGTTGGCTACATCACCCAGGGCCGTGGCGTGAGCATTCACCGCCAGGATTGCGCCTCGGTGCTGCAACTGGCCGGTCGCGAACCGGAGCGGATCATCCAGGTCAGTTGGGGCCCGGTGCCGGTGCTCACCTACCCGGTGGACATCATCATCCGCGCCTACGACCGTTCCGGCCTGCTGCGTGACGTGTCCCAGGTGCTGCTCAACGAGCGGATCAACGTGCTGGCGGTCAACACCCGCTCGAACAAGGAGGACAACACCGCGCTGATGTCCCTGACCATCGAGATTCCGGGGCTGGATGCACTGGGGCGGTTGCTGGGGCGGATTTCCCAGTTGCCGAACATCATCGAGACCCGGCGTAATCGGACACCGGGCTAA	MVQVRAHQPINTDGSINLEAWLDHAVSIDPALDREALKQACEFAREAEQQHNAAKNLWSEGTSSFQTGLEIAEILADLKLDQDSLVAAVLYRGVREGQIQLPMVNQRFGTVVAKLIDGVLRMAAISASLSPRQSMVLGTQGQVENLRKMLVAMVDDVRVALIKLAERTCAIRAVKSADDEKRNRVAREVFDIYAPLAHRLGIGHIKWELEDLSFRYLEPDQYKQIAKLLHERRLDRERFITDVMTQLREELQATGVEADISGRAKHIYSIWRKMQRKGLEFSQIYDVRAVRVLVPEMRDCYTALGIVHTLWRHIPKEFDDYIANPKENGYRSLHTAVIGPEGKVLEVQIRTHAMHEEAELGVCAHWKYKGTDVKSGSNHYEEKISWLRQVLEWHEELGDIGGLAEQLRVDIEPDRVYIFTPDGHAIDLPKGSTPLDFAYRVHTEIGHNCRGAKINGRIVPLNYSLQTGEQVEIITSKHGTPSRDWLNPNLGYITTSRARAKIVHWFKLQARDQNVAAGKTLLERELSRLGLPQVDFDKLAEKANMKTAEDMFAALGAGDLRLAQLVNLAQQLVEPERGNEQLELIPRKATGYKPGKRGDIQIQGVGNLMTQMAGCCQPLPGDAIVGYITQGRGVSIHRQDCASVLQLAGREPERIIQVSWGPVPVLTYPVDIIIRAYDRSGLLRDVSQVLLNERINVLAVNTRSNKEDNTALMSLTIEIPGLDALGRLLGRISQLPNIIETRRNRTPG	PGPT0014820_390	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0014820-relA-K00951	NA	NA
D1-35_00403	834	mazG	COG1694	Nucleoside triphosphate pyrophosphohydrolase	ATGTACAGCCTCGAAGACCTGCTCCACCTGATGAACCGCTTGCGCGACCCGCAATACGGCTGCCCGTGGGACATCAGGCAAACCTACGCAACCATCGTCCCTCACACCCTGGAGGAAGCCTACGAAGTGGCCGACGCCATCGAGCGCGGCGACTTCGATCACCTTCAAGGTGAATTGGGCGATTTACTGTTCCAGGTGGTGTATTACAGCCAGCTGGCCCGGGAAGAAAACCGTTTCGAATTCGCCGGCGTGGTCGATAGCATCACCCGCAAGCTGATTCGCCGCCATCCCCATGTGTTTCCCACCGGTGACCTTTACGCAGCCGTGGATACCCCGCGCCTGAGCGAAGAGCAGGTCAAGCAGCGCTGGGAGAAAATCAAGGCAGAGGAGCGCGCCGAGAGGGCCTCGGTGCCCAAGCAGTTGTCACTGCTTGATGATGTACCGGTGGCATTGCCGGCCTTGTCGCGGTCGGCGAAGTTGCAGAAGCGCGCCGGTCAGGTCGGTTTCGACTGGCCGGGACCGCTGCCGGTGCTCGATAAGGTCCGTGAAGAGCTCGACGAAGTGCTCGAAGCCATGGCGGACAATGACGCCGCGGCCATCAGCGACGAAGTGGGTGACCTGCTGTTCAGTGTGGTGAACCTGGCTCGACACTTGAAAGTCGACCCCGAAACGGCCCTGCGTGGCGCCAATGCAAAGTTTGAAAGACGTTTCCGATTTATCGAACAGGCATTGCGCGAGACCCACCGTCCCATGGAAGATTGCACCCTCGAAGAGTTGGACGCCTTGTGGGGCGAAGCCAAACGTCAGGAAAAGAATTTGCCCAGCTGTGGCTGA	MYSLEDLLHLMNRLRDPQYGCPWDIRQTYATIVPHTLEEAYEVADAIERGDFDHLQGELGDLLFQVVYYSQLAREENRFEFAGVVDSITRKLIRRHPHVFPTGDLYAAVDTPRLSEEQVKQRWEKIKAEERAERASVPKQLSLLDDVPVALPALSRSAKLQKRAGQVGFDWPGPLPVLDKVREELDEVLEAMADNDAAAISDEVGDLLFSVVNLARHLKVDPETALRGANAKFERRFRFIEQALRETHRPMEDCTLEELDALWGEAKRQEKNLPSCG	PGPT0008820_382	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0008820-mazG-K04765	NA	NA
D1-35_00404	540			hypothetical protein	ATGAGCCTTTCCCTTCGCGACCAGTTGCTCAAAGCAGGGCTGGTCAACCAAAAGCAGGCCAAGCAGGTCGGCAAAGAGAAACAGAAGCAGCAACGCCTGGCCCACAAAGGCCAGGTCGAACTGGACGACTCCCAGCAGCGTGCGGCCCAGGAAGCCATGGCCGAGAAGGTCAAGCGCGACCAGGAACTGAACCGCCAGCAGCAGGAAAAGGCCGAGCAGAAGGCCCGTGCCGCGCAGATCAAGCAATTGATCGAGGTGTCGCGCCTGCCGAAGCTGACCACCGACGACTACTACAACTTCGTCGACGACAAGAAGGTCAAGCGCATCTCGGTCAATGCGCTGATGCGTAACAAGCTGAGCAGCGGTTCCCTGGCGATCGTCCATCATGCCGGGAGCTATGAAGTGATCCCGCGCGAAGCGGCGCTGAAGATCCAGGAACGCGACCCCAAGCGCATCGTCCAGCTCAACACCCAGACCGAAGAAGTGGATGCCGATGATCCGTACGCGGCGTATCAGATTCCTGATGATTTGATGTGGTAA	MSLSLRDQLLKAGLVNQKQAKQVGKEKQKQQRLAHKGQVELDDSQQRAAQEAMAEKVKRDQELNRQQQEKAEQKARAAQIKQLIEVSRLPKLTTDDYYNFVDDKKVKRISVNALMRNKLSSGSLAIVHHAGSYEVIPREAALKIQERDPKRIVQLNTQTEEVDADDPYAAYQIPDDLMW				NA	NA	NA	NA	NA
D1-35_00405	195			hypothetical protein	ATGACTGTGAAAGTAACTGAACGCGACGACGCCCACATGTCCCACGAAGGTATTGCCGCCGGTATCCGGATCTGGGATGTGCATCAACAGGATCTGCTGGTGGGCATGTTCCATTCCGAGACGGACGCTCATAGCTACAAGGCCGAGCTGGAACGTGAGGAGCGGCAGCGTTTGCGTGAGACCTCGCATTCCTGA	MTVKVTERDDAHMSHEGIAAGIRIWDVHQQDLLVGMFHSETDAHSYKAELEREERQRLRETSHS				NA	NA	NA	NA	NA
D1-35_00406	714			hypothetical protein	ATGCGTCGCGCCCTGCTCTTCGCTTGCGCTCTGCTTGCCCTGCCCCTGGCACAGGCTGCAGACCTTCAACCGTTCTCCGCCAGCTATACCGCCGACTGGAAACAGCTGCCCATGAGCGGCACCGCCGAGCGCAGCCTGACCAAGGAGGCCAACGGCACCTGGAAGCTGAGCTTCAAGGCATCGATGATGATCGCCAGCCTGACCGAAGAAAGCACCCTGACCCTGGACAAGGACACCCTGCTGCCGCAGTCCTATCACTTCGAGCGCGGCGGCCTGGGTAAAGCCAAGAAAGCAGACCTGGATTTCGACTGGAATGCCAAGATGGTCACCGGCACCGATCGCGGTGACGCGGTCAAGCTGCCATTGAACCGCGGCATGGTCGACAAATCCACGTACCAACTGGCCCTGCAGCACGACGTGGCGGCCGGCAAGAAAAGCATGAGTTATCAGGTCGTCGATGACGGTGAAATCGATACCTATGACTTCCGCGTGCTTGGTTCGGAAAAAGTCGACACCAAGGCCGGCCAGATCGACGCCATCAAGGTCGAGCGCGTGCGCGACCCGACACAAAGCAAGCGCATCACCGTGCTCTGGTTCGCCAAGGACTGGGATTACCTGCTGGTACGCCTGCAGCAAGTCGAGACCGACGGCAAGGAGTACAACATCATGCTCCAGGACGGTACGGTCAACGGCAAGGCTGTGAAAGGCAGCTGA	MRRALLFACALLALPLAQAADLQPFSASYTADWKQLPMSGTAERSLTKEANGTWKLSFKASMMIASLTEESTLTLDKDTLLPQSYHFERGGLGKAKKADLDFDWNAKMVTGTDRGDAVKLPLNRGMVDKSTYQLALQHDVAAGKKSMSYQVVDDGEIDTYDFRVLGSEKVDTKAGQIDAIKVERVRDPTQSKRITVLWFAKDWDYLLVRLQQVETDGKEYNIMLQDGTVNGKAVKGS				NA	NA	NA	NA	NA
D1-35_00407	651	purN	COG0299	Phosphoribosylglycinamide formyltransferase	ATGTCCGCAACCTGTGACGTCGTGGTGCTGTTGTCCGGCACCGGCAGTAACCTGCAGGCCCTGATCGACAGTACACGGACCGGCGACAGCCCGGTCCGGATCCGCGCGGTGATTTCCAACCGCGCCGATGCCTACGGCCTGCAACGTGCCAAGGAGGCGGGTATCGATACCCGCGTCCTCGATCACCAGGCGTTCGACGGTCGCGAGGCCTTCGATGCCGCGCTGATCGAACAGATCGACGCCTTCAATCCGCAACTGGTGGTCCTGGCCGGTTTCATGCGCATCCTCAGCGCCGGTTTTGTGCGTCACTACCAGGGCCGCCTGTTCAATATCCATCCGTCGCTGTTGCCCAAATATAAAGGGTTACACACTCACCAGCGTGCGCTGGAGGCCGGTGACACGGAGCATGGCTGCTCGGTTCACTTTGTCACCGAGGAACTCGATGGCGGACCACTGGTCGTACAGGCAGTAATACCGGTAGAGTTGCACGACACGCCGCAAAGCCTGGCGCAACGGGTCCACGCCCGCGAACACCAGATCTACCCGATGGCCGTGCGTTGGTTTGCCGAAGGCCGGCTGACACTCGACGATCGCGGAGCCTCACTGGACGGCCAGTTGCTCGCCGCCAGCGGCCATTTGATTCGATACTAG	MSATCDVVVLLSGTGSNLQALIDSTRTGDSPVRIRAVISNRADAYGLQRAKEAGIDTRVLDHQAFDGREAFDAALIEQIDAFNPQLVVLAGFMRILSAGFVRHYQGRLFNIHPSLLPKYKGLHTHQRALEAGDTEHGCSVHFVTEELDGGPLVVQAVIPVELHDTPQSLAQRVHAREHQIYPMAVRWFAEGRLTLDDRGASLDGQLLAASGHLIRY	PGPT0008095_1101	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008095-purN-K11175	NA	NA
D1-35_00408	1059	purM	COG0150	Phosphoribosylformylglycinamidine cyclo-ligase	ATGAGCAAGCAACCCTCCCTGAGCTACAAGGACGCCGGTGTAGACATCGACGCCGGTGAAGCATTGGTCGAACGCATCAAGAGCGTCGCCAAGCGCACCGCGCGCCCGGAAGTCATGGGCGGCCTGGGCGGTTTCGGCGCCCTCTGCGAGATCCCGGCCGGCTACAAGCAACCGGTCCTGGTCTCGGGTACCGACGGCGTCGGCACCAAGTTGCGCCTGGCCTTGAACCTGAACAAGCACGACAGCATCGGCATCGACCTGGTGGCCATGTGTGTGAATGACCTGGTGGTCTGCGGCGCCGAACCACTGTTCTTCCTCGACTACTACGCCACCGGCAAACTCAACGTCGACACCGCCGCCCAGGTCGTGACCGGCATCGGCGCCGGCTGTGAATTGTCCGGCTGCTCCCTGGTCGGCGGCGAAACCGCTGAAATGCCAGGCATGTACGAAGGCGAAGACTACGACCTGGCCGGTTTCTGCGTCGGCGTCGTGGAAAAGGCCGAGATCATCGACGGCTCGAAAGTCGCCGCCGGCGACGCCCTGCTCGCCCTGCCATCTTCCGGCCCGCACTCCAACGGCTACTCGCTGATCCGCAAGATCATCGAAGTCTCGGGCGCCGATATCGAGAACACCCAGCTCGACGGCCAGCCACTCGCCGACCTGCTGATGGCCCCGACCCGCATCTACGTCAAGCCCCTGCTCAAGCTGATCAAGGACACCGGCGCCGTCAAGGCCATGGCCCACATCACTGGCGGCGGTCTGCTGGACAACATCCCGCGCGTGCTGCCAAAAGGCGCCCAGGCCGTGGTCGACGTGGCGAGCTGGACCCGCCCGGCGGTGTTCGACTGGCTGCAGGAAAAAGGCAACGTCGATGAAACCGAAATGCACCGCGTGCTGAACTGCGGCGTGGGCATGGTCATCTGCGTGGCCCAGGAGCACGTCGAAACCGCGCTGAACGTCCTGCGCGACGCGGGCGAGCAGCCTTGGGTCATCGGCCAGATCGCCACCGCGGCCGAAGGCGCCGCACAGGTCGAGCTGAAAAACCTCAAGGCACACTGA	MSKQPSLSYKDAGVDIDAGEALVERIKSVAKRTARPEVMGGLGGFGALCEIPAGYKQPVLVSGTDGVGTKLRLALNLNKHDSIGIDLVAMCVNDLVVCGAEPLFFLDYYATGKLNVDTAAQVVTGIGAGCELSGCSLVGGETAEMPGMYEGEDYDLAGFCVGVVEKAEIIDGSKVAAGDALLALPSSGPHSNGYSLIRKIIEVSGADIENTQLDGQPLADLLMAPTRIYVKPLLKLIKDTGAVKAMAHITGGGLLDNIPRVLPKGAQAVVDVASWTRPAVFDWLQEKGNVDETEMHRVLNCGVGMVICVAQEHVETALNVLRDAGEQPWVIGQIATAAEGAAQVELKNLKAH	PGPT0021570_743	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021570-purM-K01933	NA	NA
D1-35_00409	1059			hypothetical protein	ATGCGTCTTTTCAAATTCTTGTCCATGGGCTGCCTGTCGCTGATCAGCCTGGCGAGCCATGCCGAAACCCTCAATAACCTTTATCAGGTGCGTGAGCCGGTCAGCAGCCAGGCGCCGGATGAGCGAAACCAGGCAACGTTGCGAGCGTTGGACACCCTGGTGCTGCGCCTGACCGGCGACGCCAAGGCCGCGCAGAATCCCGGCCTGGCGGCTATCCGCAAGGACCCGCAGCAGATCATTCTGCAGTACGGCTACGACGCCGGTCCTCCGGAAAGCCTGCAGGTGGACTTCGATCCCGCCAGCACCGACCGGGCATTGCGTTCGGCGGGGCTGCCGCTTTGGGGCGCGAATCGTCCATCGATTCTAGGCTGGTGGCTGAATGACTCGGCAGAAGGCTCCAGCCTGGTCGGTGATGGCCAGGCCAGCGCCACGCCTCTGCGCCGCGCGGCCCAGCACCGGGGCTTGCCGCTGCACCTGCCGTTGGCGGATTTGAGCGAGCAGATTGTCGCCACCGCGCCGACGTTGCAAGGCAACGACCCGGCGCCGTTGCGTGAGGCGTCGGACCGGTATGGCTCGGATGCCTTGCTGGCGGTCCATGCCAAGGAGGAGGGAGGCCAGTGGCAGGCCACCTGGCGCCTGTGGCTGGGCGACCAGCGCGAGCAGGGCAGCGCCCAGGGCGCCGATCCCGCTGCGCTGGCCGATGCCGTGATGTTGGCGGTGAGCCAGCGCCTGGCGCCGCGTTTCGTGGCCAAGCCGGGCGTGGCGACCGAGCAGTTGCTGGAAGTCCAAGGCATGAATCTGGAACGTTATGCAGCGCTGGGGCGTCTGCTCGAACCGTTCGCTGGCCAGGTGCAGCGGGTCGAGGGCGACAGAATTGTCTACAAGGTCAACGGCAGCGCCGAGCAATTGAAGGCACAACTGGCCCTGGCCAAACTGCAGGAATTGCCGCCGGGTGAAGCCGTCGCGCAAGCGCCTGCGGCGCAGCCGGCCGCCGACGGAACGGTTCCGGTCGCGACACCGACACCGTCGCCGGCGGCTAACTTGCGATTCCGCTGGTAG	MRLFKFLSMGCLSLISLASHAETLNNLYQVREPVSSQAPDERNQATLRALDTLVLRLTGDAKAAQNPGLAAIRKDPQQIILQYGYDAGPPESLQVDFDPASTDRALRSAGLPLWGANRPSILGWWLNDSAEGSSLVGDGQASATPLRRAAQHRGLPLHLPLADLSEQIVATAPTLQGNDPAPLREASDRYGSDALLAVHAKEEGGQWQATWRLWLGDQREQGSAQGADPAALADAVMLAVSQRLAPRFVAKPGVATEQLLEVQGMNLERYAALGRLLEPFAGQVQRVEGDRIVYKVNGSAEQLKAQLALAKLQELPPGEAVAQAPAAQPAADGTVPVATPTPSPAANLRFRW				NA	NA	NA	NA	NA
D1-35_00410	1074			Sodium-lithium/proton antiporter	ATGGGCGATACGCGGCGTTGGTTCTGGTTGGGTGGGGTCGCCCTGCTGATTGCATTTATCTACTTGCTTCACCCGATCCTCACGCCGTTCCTGGTTGCGCTGTTACTGGCCTATCTGTTCGATCCGGTGGTGGATCGCCTGGAAAAGCTCGGGCTGTCCCGGACCTGGGGCGTGGTGGCGGTGTTCGCGTTGTTTACCTTGATCGTCAGCGCTCTGCTGCTGGTGCTGATACCCATGCTGGCCAAGCAACTGGTGCGCCTGTACGAGCTGGCACCGCAGATGCTCGATTGGCTGCAGCACACCGCAGTGCCTTGGGTGCAATCGAAGCTGGGCCTGTCGGACGGCTTCTGGAAGTTCGACAAGGTCAAGGCCGCCATCAGTGAGCACATGGGGCAGACCACCGATATCGTCGGCGTGGTATTGAGCCAGGCCACGGCTTCGAGCCTGGCGCTGATCGGCTGGCTGGCGAACCTGGTGCTGATTCCCGTGGTGGCCTTTTATCTGCTGCGCGATTGGGACCTGATGATGGCGAAGATCCGCAGCCTGCTGCCGCGTCATCGCGAAGAGCGCATCATGACGCTGACTGGCGAATGCCACGAAGTGCTGGGGGCGTTTGTCAGGGGGCAGTTGCTGGTCATGGTCGCGTTGGGTTTCATCTACGCGGCGGGGCTGATGCTGGTAGGGTTGGAGCTGGGCCTGTTGATCGGCCTGATCGCCGGGTTGGCGGCCATCGTGCCCTACATGGGGTTTGTCATCGGGATTGGCGCGGCGTTGATTGCCGGGCTGTTCCAGTTTGGCGGCGACCTGTATCCCATGGTCGGCATCGTCGCGGTATTCATGGTCGGGCAGGCGCTGGAGGGCATGGTGCTGACGCCGTTGCTGGTGGGAGATCGTATCGGCTTGCACCCGGTGGCGGTGATCTTCGCGATCCTGGCGGGTGGCGAGTTGTTCGGCTTCACCGGGATCCTGCTGGCGCTGCCGGTGGCGGCGGTGATCATGGTGCTGGTGCGTCATATGCACGATCTGTACAAGGATTCCGACATATATAGCGGCGCAGAGGACCCCGACCTCTAG	MGDTRRWFWLGGVALLIAFIYLLHPILTPFLVALLLAYLFDPVVDRLEKLGLSRTWGVVAVFALFTLIVSALLLVLIPMLAKQLVRLYELAPQMLDWLQHTAVPWVQSKLGLSDGFWKFDKVKAAISEHMGQTTDIVGVVLSQATASSLALIGWLANLVLIPVVAFYLLRDWDLMMAKIRSLLPRHREERIMTLTGECHEVLGAFVRGQLLVMVALGFIYAAGLMLVGLELGLLIGLIAGLAAIVPYMGFVIGIGAALIAGLFQFGGDLYPMVGIVAVFMVGQALEGMVLTPLLVGDRIGLHPVAVIFAILAGGELFGFTGILLALPVAAVIMVLVRHMHDLYKDSDIYSGAEDPDL				NA	NA	NA	NA	NA
D1-35_00411	705	hda	COG0593	DnaA regulatory inactivator Hda	ATGAAACCGATTCAGCTGCCCCTTGGTGTGCGTCTGCGTGACGACGCCACCTTCATCAATTACTACCCAGGCGCCAATGCCGCTGCACTCGGCTATGTCGAGCGGCTTTGCGAAGCCGACGCCGGCTGGACCGAGAGCCTGATCTATCTGTGGGGCAAGGACGGGGTAGGGCGCACGCATCTGTTACAGGCGGCGTGCTTGCGCTTCGAGCAGTTGGGTGAGCCTGCCGTGTACCTGCCACTGGCCGAGCTGCTGGATCGCGGCGTGGAAATCCTCGACAACCTGGAGCAGTACGAACTGGTCTGCCTGGATGATCTCCAGGCAGTGGCCGGCAAGGCCGATTGGGAAGAGGCGTTGTTCCATTTGTTCAACCGGTTGCGCGACAGTGGCCGGCGCCTGTTGATTGCCGCATCGACCTCGCCACGGGAGCTGCCGGTGAAGCTGGCCGACTTGAAATCCCGCCTGACCCTGGCGTTGATCTTCCAGATGCGCCCGCTTTCCGACGAGGACAAGCTTCGCGCGTTGCAATTGCGTGCATCTCGACGCGGCCTGCACCTGACCGACGAGGTCGGGCATTTCATCCTCACCCGTGGCACCCGCAGCATGAGCGCGCTGTTCGAACTGCTCGAACGTCTCGACCAGGCCTCACTCCAGGCCCAGCGCAAGCTGACCATTCCTTTTTTGAAAGAAACTTTAGGCTGGTAA	MKPIQLPLGVRLRDDATFINYYPGANAAALGYVERLCEADAGWTESLIYLWGKDGVGRTHLLQAACLRFEQLGEPAVYLPLAELLDRGVEILDNLEQYELVCLDDLQAVAGKADWEEALFHLFNRLRDSGRRLLIAASTSPRELPVKLADLKSRLTLALIFQMRPLSDEDKLRALQLRASRRGLHLTDEVGHFILTRGTRSMSALFELLERLDQASLQAQRKLTIPFLKETLGW				NA	NA	NA	NA	NA
D1-35_00412	627	mepS	COG0791	Murein DD-endopeptidase MepS/Murein LD-carboxypeptidase	ATGCTAAATCGCTTCGCACCCCTCGTGCCTCTCGCACTCGTTACCCTGTTGTTCGGTTGCGCTGCCCACTCCCCAGTGACCCAGCAAGCGCCCCAACCACAGGTGAATAACACCGTTACCGCCCAGTCTTCCGCCGTTGCGTTCCAGGAAGAAATGGCCTCCGACAAAGAGCTGGCAGACTTCGCCGGCAGCAAGCCTTATCAGCTTCCAGTGCTGGCGGACAGCATCCTGGAGCGCGGCATGTCGTTGATCGGCACACGTTATCGTTTTGGCGGGACCTCCGAAGCCGGCTTCGACTGCAGCGGCTTCATCGGCTACCTGTTTCGCGAAGAAGCGGGCATGACCCTGCCGCGTTCCACGCGTGAAATGATCAACGTGAAGGCCCCGCTGGTCGCTCGCAACCAGCTCGAACCCGGTGACCTGCTGTTCTTCAGCACCAACGGTCGTCGCGGTCGCGTCAGCCACGCCGGTATCTACCTGGGCGACAACCAGTTCATCCACTCCAGCAGCCGCCGCAGCGGTGGGGTGCGAATCGACAGCCTGGGCGACAGCTACTGGAGCAAGACCTTCATCGAAGCCAAGCGTGCCCTCGCCATGGCACCGACTGTAGTGACGGCTCGCAAGTAA	MLNRFAPLVPLALVTLLFGCAAHSPVTQQAPQPQVNNTVTAQSSAVAFQEEMASDKELADFAGSKPYQLPVLADSILERGMSLIGTRYRFGGTSEAGFDCSGFIGYLFREEAGMTLPRSTREMINVKAPLVARNQLEPGDLLFFSTNGRRGRVSHAGIYLGDNQFIHSSSRRSGGVRIDSLGDSYWSKTFIEAKRALAMAPTVVTARK	PGPT0023820_142	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_DD-ENDOPEPTIDASE_ACTIVITY,PGPT0023820-mepS|spr-K13694	NA	NA
D1-35_00413	534			hypothetical protein	ATGTCGACGTCGGCCCGCCTCGCTCTCATGTTTCTTGCCGCACTGCTCAGCGCGTGCGCCAGTCGCACCCCGCCGCCCGCGCCAGTGCGGGCTCCGGTGGTGTTCGCACCTTCCCAGACTTTTTCTCCCGCCGCCGAAGACGTGCTGTTCCGGGCGTTGGGCCTGGTGGGCACGCCTTATCGCTGGGGCGGCAACACGCCGGATTCAGGTTTCGATTGCAGTGGCTTGATCGGCTATGTGTACCGTGACGCCGCCGGTATCTCGCTGCCACGCTCCACGCGCGAAATGATCAGCATGCGCGCGCCGGAAGTCGGCAAGGATGCGTTGCAGAGCGGCGATCTGGTGTTCTTCGCCACCAATGGCGGCTCCCAGGTCAGCCATGCCGGAATCTATGTCGGGGAGGGGCGTTTCGTCCATGCGCCGGCCACGGGCGGGACGGTCAAGCTCGACAGTCTGTCCAAGGCCTATTGGCAGAAAGCCTACCTGGGCGCCAAGCGAGTGCTACAGCCGGAGCACCTGGCGCGTAATCCCTGA	MSTSARLALMFLAALLSACASRTPPPAPVRAPVVFAPSQTFSPAAEDVLFRALGLVGTPYRWGGNTPDSGFDCSGLIGYVYRDAAGISLPRSTREMISMRAPEVGKDALQSGDLVFFATNGGSQVSHAGIYVGEGRFVHAPATGGTVKLDSLSKAYWQKAYLGAKRVLQPEHLARNP	PGPT0023830_271	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_DD-ENDOPEPTIDASE_ACTIVITY,PGPT0023830-mepH-K19303	NA	NA
D1-35_00414	1311			hypothetical protein	ATGCTCAAGCCACCTCATCTGTTAATCATTGCCCTGGCTACGGGGCTTGTCGCGTGTGGCGAGTCTTCCACATTGCAGGTTTCCGACGGCACCGGCCCGTCGCCGAAACTGCCCGAACCGAACAAGACCCTGATTCCCACGGTGAATATCGCCGAAGCGGTCGGCTGGCCGGACGGCGCCAAGCCAACCCCGGCCCAAGGCCTGCAGGTAGTCGCGTTTGCCGAAGGGCTGGATCATCCGCGCTGGCTTTACGTACTGCCCAATGGCGATGTACTGGTGGCCGAAACCAACGCCCCGCCCAAGCCCGACGATACCCAGGGCATTCGTGGCTGGGTCATGAAAAAAGTCATGGGCCGGGCCGGCGCCGGCGTGCCCAGCCCCAACCGCATCACCCTGCTGCGAGACGCCAATCACGATGGCGTCGCCGAGACCCGGACGATTTTCCTGGAGAACCTCAATTCGCCGTTCGGCATGACCCTCGTCGGCAATGACCTGTACGTGGCCGACACCGACCGGTTGATCCGCTTCCCGTACAAGGAAGGCGACACACAGATCAAGGCACAGCCAACCAAGGTGGTCGACTTGCCGGGTGGCACTTTGAACCACCACTGGACCAAAAACGTCATCGCCAGCCGGGACGGCAGCAAGCTGTACGTGACCACCGGTTCGAACAGCAACGTTGGCGAGAACGGCATGGAAGCGGAAGAAGGCCGGGCGGCGATCTGGGAAGTCGACCGGGCCACAGGCACCCATCGCATCTTCGCCGCGGGCCTGCGCAATCCCAATGGCCTGGCGTGGGAGCCACGCAGCGGTGCGTTGTGGACGGCGGTCAACGAACGGGACGAGATCGGCAGCGACCTGGTGCCGGACTACATCACGTCGGTCAAGGACGGCGGCTTCTATGGCTGGCCTTACAGTTATTACGGGCAAAACATCGATGTCCGGGTCGAGCCGCAAAACCCCGAGCTGGTGGCCAAGGCCATCGCCCCCGACTATGCGGTGGGCCCGCACACCGCCTCCCTGGGCCTGAGCTTCGCCGAGGGCAGCCAATTGCCCGCGCCGTTCACCGAAGGGGCTTTCATCGGGCAACACGGTTCCTGGAACCGCAAGCCCCACAGTGGCTACAAAGTGATTTTTGTTCCGTTCAGCGGCGGCAAACCGGTCGGGCAACCAGTGGAGGTGTTGACCGGTTTCCTCAATGCAGACGAAAAAGCCCAGGGCCGGCCGGTGGGCGTGGTGATCGACAAGCAGGGCGGGTTGTTGGTGGCGGATGATGTCGGGAACAAGATCTGGCGGGTGTCAGGTAAATAG	MLKPPHLLIIALATGLVACGESSTLQVSDGTGPSPKLPEPNKTLIPTVNIAEAVGWPDGAKPTPAQGLQVVAFAEGLDHPRWLYVLPNGDVLVAETNAPPKPDDTQGIRGWVMKKVMGRAGAGVPSPNRITLLRDANHDGVAETRTIFLENLNSPFGMTLVGNDLYVADTDRLIRFPYKEGDTQIKAQPTKVVDLPGGTLNHHWTKNVIASRDGSKLYVTTGSNSNVGENGMEAEEGRAAIWEVDRATGTHRIFAAGLRNPNGLAWEPRSGALWTAVNERDEIGSDLVPDYITSVKDGGFYGWPYSYYGQNIDVRVEPQNPELVAKAIAPDYAVGPHTASLGLSFAEGSQLPAPFTEGAFIGQHGSWNRKPHSGYKVIFVPFSGGKPVGQPVEVLTGFLNADEKAQGRPVGVVIDKQGGLLVADDVGNKIWRVSGK				NA	NA	NA	NA	NA
D1-35_00415	585			hypothetical protein	ATGCAAGGCATGATCATCAGCAATCCGAAGCTGGAGTTTCTACGCCCGGTGCTGGAACGCTGGTTCGACTGTATCGATCGCTACAACGCCGTGCGCGGCGATAACGACACCCCCTACTGGCATGATCAAAAAGCCAACCTCGGGTTGCTGTCTGCCGCTGCCTGGATGGCTGAGATGGTCACGCTGCAGAACGCAGCGACGCGCAAGCAGAACGAAGAAGGCGAACGCAACGTCAGCGCCGACCTGTTCATTGCCAGCGCCGATGAGCGCGCCTTTATCCAGGCCACCCAGCGCTGGCCGAAGGTCAACAACCTGAACCTGACCCAACCCTTGCTCGAAGCCGCCAGCGACGCCAAGCGCATCAGCTACGCCAGCGACCTGAAACTGGGCTGCCTGTTCGTTGCCCCGCAAAAAGCCCAGCAAAGCGCCACGCCAGAAGAGTTGCAGGACATGATCGACGACCTGCAGAAGGAGAACACCTGCGCCGTGGCCTGGTACTTCCCCTACGCCTATCGCAAATTGCGCAACGAGGCGGGCCAGTACCATCCGGGTATTGCGCTGCTGCTGAAACAGGCGCACGGCTGA	MQGMIISNPKLEFLRPVLERWFDCIDRYNAVRGDNDTPYWHDQKANLGLLSAAAWMAEMVTLQNAATRKQNEEGERNVSADLFIASADERAFIQATQRWPKVNNLNLTQPLLEAASDAKRISYASDLKLGCLFVAPQKAQQSATPEELQDMIDDLQKENTCAVAWYFPYAYRKLRNEAGQYHPGIALLLKQAHG				NA	NA	NA	NA	NA
D1-35_00417	612	cobO_1		Corrinoid adenosyltransferase	ATGACCGATACGCCCGATCGCGACGAACGCCACCTGGCGCGCATGCTGCGCAAGAAAGCCGTGATTGACGAGCGCATCGCCAATTCACCGAACGAGTGTGGCCTGCTGCTGGTGCTGACCGGCAACGGCAAGGGCAAGAGCAGTTCGGCGTTCGGCATGCTCGCCCGTGCCATGGGCCACGGCATGCAGTGCGGCGTGGTGCAGTTCATCAAGGGGCGCAACAGCACCGGCGAGGAGCTGTTTTTCCGACGCTTCCCGGAGCAGGTGCGCTTTCACGTCATGGGCGAAGGCTTCACCTGGGAAACCCAGGATCGTCAGCGCGACATCGCCGCCGCCGAAGCGGCCTGGGCGGTATCGCGGCAACTGCTCGGCGATCCATCGATTGGCCTGGTGGTGCTTGATGAGCTGAACATCGCTCTCAAGCATGGTTATCTCGATCTCGATCAGGTGTTGAGCGATCTGCAGGCCCGTCCGCCGATGCAACACGTGGTGGTCACCGGCCGGGGTGCCAAGCCGGAAATGATCGAGCTGGCCGATACCGTGACCGAAATGGGCATGATCAAGCATGCCTTCCAGGCCGGCATCAAGGCGCAGAAAGGCGTCGAACTGTGA	MTDTPDRDERHLARMLRKKAVIDERIANSPNECGLLLVLTGNGKGKSSSAFGMLARAMGHGMQCGVVQFIKGRNSTGEELFFRRFPEQVRFHVMGEGFTWETQDRQRDIAAAEAAWAVSRQLLGDPSIGLVVLDELNIALKHGYLDLDQVLSDLQARPPMQHVVVTGRGAKPEMIELADTVTEMGMIKHAFQAGIKAQKGVEL	PGPT0004645_532	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004645-cobA|btuR-K19221	NA	NA
D1-35_00418	1380	cbiA	COG1797	Cobyrinate a,c-diamide synthase	ATGACCAGCCGCCACTGTCCGGCGGTGTTGATTGCCGCGCCGGCTTCCGGCCAGGGCAAGACCACCGTCACTGCGGCGCTGGCACGGTTGCATCGCAACCAGGGGCGCAAGGTGCGTGTGTTCAAATGCGGACCTGATTTCCTTGATCCGATGATCCTTGAGCGCGCCAGTGGCGCACCGGTCTATCAACTGGATATGTGGATGGTCGGCGAGCAGGAAAGTCGCCGACTGTTGTGGGAAGCCGCCGCCGAAGCGGACCTGATCCTGATCGAAGGCGTGATGGGGCTGTTCGACGGCACCCCGTCCAGCGCTGACCTGGCGCGCCACTTCGGCGTGCCGGTGCTGGCCGTGATCGACGGCACGGCGATGGCCCAGACCTTCGGTGCCCTGGCCCTGGGCCTGGCCCGTTATCAGCCGGACTTGCCGTTCGCTGGCGTACTGGCCAACCGGGTCGGCACCCTGCGCCACGCGCAATTGCTCGAAGGCAGCCTGACCGAAGGCCTGCGCTGGTACGGCGCGCTCTCGCGAGAAACCGGCATCGAGCTGCCGAGCCGCCACCTGGGGCTGGTCCAGGCCAGCGAACTGAATGACCTGGACGTTCGCCTCGACGCAGCGGCCGAAGCATTGGCCGGCAGTTGTGAAGTGTCGCTGCCGCCCCAGGTCGAGTTCGCCGCGCCCGAACTGACAACCGTCGAGCCGTGGCTCGACGGTGTGCGCATCGCCGTCGCCCGCGACGAAGCGTTTGCCTTCACCTATGGCGCGAGCCTCGACCTGCTGCGGGCCATGGGCGCGCAACTGGCCTTCTTTTCCCCTATTCATGACACCGAACTGCCCGAGGCGGACAGCCTGTATCTGCCTGGCGGTTACCCGGAGCTGCACCACGTTGCACTGGCGCGGAACGTGCCGATGCTGACGGCGATCCGTGCCCACCACGCAGCCGGCAAACCGCTGCTCGCCGAATGCGGTGGCATGCTCTACCTGCTCGATTCATTGACCGACGTCGAGGGCAATCGCGCCGAGCTGCTCGGCCTGTTGAGCGGTGAAGCGCAGATGCAAAAGCGCCTTGCGGCCTTGGCGTTGCAATCAGTCGAGCTGCCGGAAGGCACGCTGCGCGGGCATACCTATCATCACTCCTTGACCAGCACTGAACTCGAGCCGATCGCCCGTGGGCACAGCCCGAACGGTGGGCGAGGGGCTGAGGCGGTTTTCCGCCTGGGGCGGATGACGGCTTCCTATGTGCATTTTTACTTTCCGTCCAATCCCGGGGCGATTGCGGCGTTGCTTGCGCCCGCCCCGGCGGCGGTCTTCGCGAGCTGGCTCGCTCCCACATTTGATCACCTGAACCCTGTGGGAGCGAGCCTGCTCGCGAAGCCGTCATGA	MTSRHCPAVLIAAPASGQGKTTVTAALARLHRNQGRKVRVFKCGPDFLDPMILERASGAPVYQLDMWMVGEQESRRLLWEAAAEADLILIEGVMGLFDGTPSSADLARHFGVPVLAVIDGTAMAQTFGALALGLARYQPDLPFAGVLANRVGTLRHAQLLEGSLTEGLRWYGALSRETGIELPSRHLGLVQASELNDLDVRLDAAAEALAGSCEVSLPPQVEFAAPELTTVEPWLDGVRIAVARDEAFAFTYGASLDLLRAMGAQLAFFSPIHDTELPEADSLYLPGGYPELHHVALARNVPMLTAIRAHHAAGKPLLAECGGMLYLLDSLTDVEGNRAELLGLLSGEAQMQKRLAALALQSVELPEGTLRGHTYHHSLTSTELEPIARGHSPNGGRGAEAVFRLGRMTASYVHFYFPSNPGAIAALLAPAPAAVFASWLAPTFDHLNPVGASLLAKPS	PGPT0004605_914	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004605-cbiA-K02224	NA	NA
D1-35_00419	651	bluB	COG0778	5,6-dimethylbenzimidazole synthase	ATGACTGACAACGCTTTCTCTTCAGCCGAACGCGAAGCCGTCTACCGCGCCATCGCCGAACGCCGCGACATGCGCCATTTCAGCGGCGGCACCGTCGAGCCGGCGTTGCTGCGCCGTCTGCTGGAAGCCGCGCACCAGGCGCCCAGCGTCGGGCTGATGCAACCGTGGCGCTTCATCCGTATCAGCGACCGCGCCTTGCGTGGGCAGATCCAGCGACTGGTGGAAGAGGAACGCATCCGTACCGCCGAAGCCCTGGGCGAGCGCAGCGATGAATTCATGCAGCTCAAGGTCGAAGGTATCAATGACTGCGCCGAGGTACTGGTGGCGGCGTTGATGGACGACCGCGAGCGGCACATATTCGGTCGCCGGACCTTGCCGGAAATGGACCTGGCCTCGCTGTCCTGCGCCATCCAGAACCTGTGGCTGGCGGCCCGCGTCGAAGGGCTGGGGATGGGTTGGGTGTCGCTGTTCGAGCCCCAGGCCCTGGCTGACCTGCTGGGCCTGCCCGCCGGGGCCAAGCCGTTGGCGGTCCTGTGCCTGGGGCCGGTCGAAGGCTTCTACCCAGCGCCGATGCTGGCCCTGGAAGGCTGGGCGCAACCGCGTCCGCTCACTGAACTGCTTTACGAAAACCACTGGGGAGTGCGCCCATGA	MTDNAFSSAEREAVYRAIAERRDMRHFSGGTVEPALLRRLLEAAHQAPSVGLMQPWRFIRISDRALRGQIQRLVEEERIRTAEALGERSDEFMQLKVEGINDCAEVLVAALMDDRERHIFGRRTLPEMDLASLSCAIQNLWLAARVEGLGMGWVSLFEPQALADLLGLPAGAKPLAVLCLGPVEGFYPAPMLALEGWAQPRPLTELLYENHWGVRP	PGPT0006810_663	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0006810-bluB|drgA-K04719	NA	NA
D1-35_00420	909	cobD	COG1270	Cobalamin biosynthesis protein CobD	ATGAGCGTAGCGTTGCTCAGTGCCGCCGCGGTGGCGCTGGATGCGCTGCTGGGTGAGCCCCGGCGTTGGCATCCGCTGGTGGCGTTCGGCGGCTTTGCCGATCGCATCGAACAACGTTTCAACTCCGGCGGGCGTGGCTGGCGCAGCCATGGAGTGACGGCGTGGGTGATCGCCGTGGTGCCGCTGACCTTGCTCGCCACGGCCCTGTCCTGGGCACCGATGATTGGCTGGCTGGTGGAGATTCTGGCGCTGTATTGCGCCCTCGGCCTGCGCAGTCTTGGCGAGCATGTCGAGCCGGTGGCCCGGGCGCTGCGCAGCGGTGAGCTGGACGAGGCGCGCCGACGCGTCGGTTACCTGGTCAGCCGCGAAACCGCCGAGCTGGATGAAGCCGCCGTTGCCCGCGCCGCCACCGAGTCGGTCCTGGAAAACGGCAGCGACGCGGTGTTCGCCGCGCTGTTCTGGTTCGCCGTGGCCGGTGCGCCCGGCGTGGTGTTGTACCGGTTGAGCAATACCCTCGACGCTATGTGGGGCTATCGCAACGAGCGCTTCGAGCGTTTCGGCTGGGCGGCGGCGAAAATCGACGACCTGCTCAACTACATCCCCGCACGCCTGGTGGCGTTGACCTACGCTGCGCTCGGCAAGACCCGCCTGGCACTCAAATGCTGGCGCAGCCAGGGCCCGACCTGGGACAGCCCGAATGCCGGGCCGGTGATGGCCGCCGGTGCCGGCGCGCTGGGTGTGGAACTGGGGGGCGCGGCGGTGTATCACGGCGAACTGCATCAACGCCCGCCATTGGGCGAGGGCGTGCCGGCGAGTGCCGATTCGATTGACCGAGGCTGGCAATTGGTGCAACGCGGCGTATGGTTATGGCTGCTGATTCTCTGCCTCGGAGCCGAGTTTTATGCTTGA	MSVALLSAAAVALDALLGEPRRWHPLVAFGGFADRIEQRFNSGGRGWRSHGVTAWVIAVVPLTLLATALSWAPMIGWLVEILALYCALGLRSLGEHVEPVARALRSGELDEARRRVGYLVSRETAELDEAAVARAATESVLENGSDAVFAALFWFAVAGAPGVVLYRLSNTLDAMWGYRNERFERFGWAAAKIDDLLNYIPARLVALTYAALGKTRLALKCWRSQGPTWDSPNAGPVMAAGAGALGVELGGAAVYHGELHQRPPLGEGVPASADSIDRGWQLVQRGVWLWLLILCLGAEFYA	PGPT0004660_2831	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
D1-35_00421	993	hisC_1		Histidinol-phosphate aminotransferase	ATGCTTGAGCATGGTGGACGACTGCACAACGCCGCCCGGCAATACGGGATTGCCGAGGCCGACTGGCTTGACCTGTCCAGTGGCCTCGCGCCCTGGCCGTTCGAGATCCCGGCGATTCCATTGCGCGCCTGGGCGCGCCTGCCCGAGACCGACGATGGTCTGGAACAGGCCGCTTGCGACTATTACGAAGCGACGCATGTGTTGCCGGTGGCCGGTTCGCAAATGGCCATCCAACTGCTGCCGCGCCTGCGCCGAGCGGGCAAGGTCGGGGTCTTGTCGCCTTGTTACGCCGAGCACGCCGAAGCCTGGCGCCGCAGCGGGTACATCGTGCGCGAAGTGCTGGAAGCGGAAGTGGATTTCTTCCTCGACAGCCTCGACGTGCTGGTGGTGGTCAACCCGAACAATCCCACCGGCCTGAGCCTGGATCCCGAACGCCTGCTGGATTGGCATGCGCGGCTGGCCCAGCGGGGTGGCTGGCTGGTGGTGGACGAAGCGTTCATGGATATCACGCCGCACCTGAGCCTTGCCGCCTACGCCCATCAGGTCGGATTGATCGTGCTGCGCTCGTTCGGCAAGTTTTTCGGCCTGGCCGGGGTTCGCCTCGGCTTCGTCCTGGCCGAGCGACGCTTGCTCAGGCTGCTCGCCGAACAGGTCGGGCCGTGGGCCGTCAGCGGGCCGACGCGGATATTGGGCCAGGCGTGCCTGTTGGATACCGAGGCCCACGCCCGCCAGCGCCAGCGTTGCGAAGAAACCAGCGAGCGCCTGGCGCTGCTGCTCGAGCATTACGGTTTCAGGCCTGATGGCGGTTGCGGGTTGTTCCAGTGGCTGGTTACCGAGCACGCCCGGGCCCTTTATGAATTCATGGCCCAGCGCGGCATTCTCCTGCGGCTGTTCATCAACACCAGCAGTCTGCGCTTCGGGCTGCCGGCCAATGACGCAGAATTCCTGCGTCTCGAACAGGCTTTCGAGGCCTACGCCAAGGACATTCAATGA	MLEHGGRLHNAARQYGIAEADWLDLSSGLAPWPFEIPAIPLRAWARLPETDDGLEQAACDYYEATHVLPVAGSQMAIQLLPRLRRAGKVGVLSPCYAEHAEAWRRSGYIVREVLEAEVDFFLDSLDVLVVVNPNNPTGLSLDPERLLDWHARLAQRGGWLVVDEAFMDITPHLSLAAYAHQVGLIVLRSFGKFFGLAGVRLGFVLAERRLLRLLAEQVGPWAVSGPTRILGQACLLDTEAHARQRQRCEETSERLALLLEHYGFRPDGGCGLFQWLVTEHARALYEFMAQRGILLRLFINTSSLRFGLPANDAEFLRLEQAFEAYAKDIQ	PGPT0004655_572	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004655-cobC1|cobC-K02225	NA	NA
D1-35_00422	1452	cobQ		Cobyric acid synthase	ATGACCACCTTGATGGTGCAGGGCACCACCTCCGATGCCGGCAAAAGCACGCTGGTCACGGCGCTGTGCCGCTGGGTCAGGCGCCAGGGCGTGAGCGTGGTGCCATTCAAGCCGCAAAACATGGCGCTCAATAGCGCGGTGACCGCCGATGGCGGCGAAATCGGCCGGGCCCAGGCGGTCCAGGCCCAGGCTTGTGGCCTCGAACCGCATACCGACATGAACCCGGTGCTGCTCAAGCCCAACAGCGACACCGGTGCCCAAGTCATCATCCATGGCCGCGCCGTGACCAGCATGAACGCCGTGGCGTATCACGATTACAAAGCCATCGCGATGCAAGCGGTGCTGGCTTCCCATGAGCGTTTGCGCGCGGCGTATCCGGTGGTCATGGTCGAGGGCGCGGGGTCGCCGGCGGAGATCAACCTGCGTGCCGGCGACATCGCCAACATGGGTTTTGCCGAGGCCGTCGATTGCCCGGTGCTGCTGATCGCCGACATCAATCGCGGCGGCGTATTCGCCCACCTGGTCGGCACCCTTGAGTTGCTTTCGCCCAGCGAACAGGCGCGGGTAAAAGGTTTCATCATCAACCGTTTTCGTGGCGACCTGGCGTTGCTGCAACCTGGCCTGGATTGGCTCGAAGCGCGCACCGGCAAACCGGTGATTGGCGTATTGCCCTATGTGCTGGACCTGCATCTGGAAGCCGAGGACGGTCTCGATCGGCGTCAGGCCGACAAGGCCGAACAGGTACTCAAGGTTGTGGTGCCGGTGCTGCCGCGCATCAGCAACCATACCGATTTCGATCCGCTGCGCCTGCACTCGCAGGTCGACCTGCAGTTCATCGGCCCCGGCCAGACCATCCCGCCGGCCGACCTGATCATCCTGCCCGGTTCGAAAAGCGTGCGCAGCGACCTGGCCTACCTGCGCGCCAACGGCTGGGAGACAGCAATCAATCGGCACCTGCGCTACGGCGGCAAGTTGCTGGGCATCTGCGGTGGTTTGCAGATGCTTGGCCGCCAGGTCCACGATCCGCTCGGGCTGGAAGGCGCGGCCGGTTCGAGTGCCGGGCTGGGCCTGCTGGACTTCGAGACGACGCTGGAGCATGAGAAGCAGTTGCGCAACGTACGCGGGCGGTTGGCCCTGGAGGATGCCGAGGTCAGCGGCTACGAGATTCATGCGGGTGTGACCACTGGCCCGGCCCTGGAAAACCCTGCGGTGACGTTGGACGGCGGCCGTTGCGACGGCGCCCGAAGCCTCGACGGACAGATTTTCGGCACCTATCTGCATGGGCTGTTTGAAACGCCAGCGGCGAGCAGCGCGTTGCTGCGCTGGGCGGGCGTGCAGGACGTCCAGGCGGTGGATTACCACGGGTTGCGCGAGCGGGATATCGAGCGGTTGGCGGACCTGGTGGAGCGGCATCTGGATACCGGGGTGTTGCGTGAACTCTGTGGGATTTGA	MTTLMVQGTTSDAGKSTLVTALCRWVRRQGVSVVPFKPQNMALNSAVTADGGEIGRAQAVQAQACGLEPHTDMNPVLLKPNSDTGAQVIIHGRAVTSMNAVAYHDYKAIAMQAVLASHERLRAAYPVVMVEGAGSPAEINLRAGDIANMGFAEAVDCPVLLIADINRGGVFAHLVGTLELLSPSEQARVKGFIINRFRGDLALLQPGLDWLEARTGKPVIGVLPYVLDLHLEAEDGLDRRQADKAEQVLKVVVPVLPRISNHTDFDPLRLHSQVDLQFIGPGQTIPPADLIILPGSKSVRSDLAYLRANGWETAINRHLRYGGKLLGICGGLQMLGRQVHDPLGLEGAAGSSAGLGLLDFETTLEHEKQLRNVRGRLALEDAEVSGYEIHAGVTTGPALENPAVTLDGGRCDGARSLDGQIFGTYLHGLFETPAASSALLRWAGVQDVQAVDYHGLRERDIERLADLVERHLDTGVLRELCGI	PGPT0004580_2390	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
D1-35_00423	522	cobP		Bifunctional adenosylcobalamin biosynthesis protein CobP	ATGCTGCAACTGATCCTCGGCGGCGCCCGCTCCGGCAAGAGTCGCCTGGCTGAAAAACTCGCGGCAGGCACCGGCTTGCCGGTGACCTACATCGCCACCAGCCAACCCCTGGACGGCGAGATGAACCAGCGTGTCGCTCAGCATCGCGCCCGGCGCCCGGCCGATTGGGCGTTGGTGGAGGAACCGCTGGCGCTGGCGCAGGTGTTGCGCGAAACCGCCGCGAGCGAGCGCTGCCTGCTGGTGGATTGCCTGACCCTTTGGCTGACCAACCTGTTGGTGCTCGACGATGCCGACCGACTGGCTGCCGAGCGCGAAGCCCTGCTGGACTGCATCGGCGCGCTGCCCGGTGAAATCATTTTTGTCAGCAACGAGACCGGCCTGGGTGTCGTGCCGCTGGGCGAGCTGACTCGCCGTTACGTCGATGAAGCCGGCTGGCTGCATCAAGCCCTGGCCGAACGTTGCCAGCGCGTTGTGCTGACCGTTGCCGGCCTGCCCCTGACTCTCAAAGGTATTGCGTTATGA	MLQLILGGARSGKSRLAEKLAAGTGLPVTYIATSQPLDGEMNQRVAQHRARRPADWALVEEPLALAQVLRETAASERCLLVDCLTLWLTNLLVLDDADRLAAEREALLDCIGALPGEIIFVSNETGLGVVPLGELTRRYVDEAGWLHQALAERCQRVVLTVAGLPLTLKGIAL	PGPT0004585_2039	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
D1-35_00424	1056	cobT		Nicotinate-nucleotide--dimethylbenzimidazole phosphoribosyltransferase	ATGAATCACCGCTGGTGGCTGGACCCGTGCAAGCCCGTTGATAGCCAAGTGCTGGAGCAAGCGATGGCGCGGCAACAACAACTAACCAAACCGGCCGGCTCCCTCGGGCGCCTGGAGTCGGTGGCGGTGCAACTGGCGGGCCTGCAAGGGCAGGTCAAGCCAAGTCTTGAACAATTGTGGATCGCGATTTTTGCCGGCGATCACGGTGTGGTGGCCGAAGGCGTCTCGGCCTATCCCCAGGAAGTGACCGGACAGATGCTGCTCAACTTTGTCAGCGGCGGCGCGGCCATCAGCGTGCTCGCGCGGCGGTTGGGCGCTTCCCTGGAGGTCGTCGACCTGGGCACCGTGACGCCTTCGCTGGACTTGCCCGGCGTGCGGCATTTGCGGGTCGGCCCGGGCACCGCCAATTTCCTCCTGGGCCCGGCCATGACCCTGGTCCAGGGCGAACAGGCCCTGCAAGCCGGACGCGACAGTGCCATGCGCGCCGCTGCCAGCGGCACGCAACTGTTCATCGGTGGCGAGATGGGCATCGGCAATACCACGGCGGCCAGCGCGCTGGCCTGTGCCTTGCTCGATTGCCCGGTGGCGCATCTGGTCGGGCCGGGCACCGGGCTGGATGCGGCGGGTATCAGCCGCAAGGTCCAGGTCATCGAACGCGCCCTGGCCGTGCACGGTGGGTCGAACGGCGACCCGCTGCAAACGCTGTGCAACCTTGGCGGGTTTGAAATCGCCGCGTTGATCGGCGCCTATCTGGCCTGTGCCCAACAAGGCATCGCCGTGCTGGTGGATGGCTTTATCTGCAGCGTCGCGGCCCTGGTGGCGGTGCGGCTCAATCCGGCGTGCCGGCCCTGGTTGTTGTTCGCCCACCGTGGCGCCGAACCGGGACACCGCCACGTGCTGGAAACCCTCGCTGCCGAACCGCTGCTGGACCTCGGCTTGCGCCTGGGCGAGGGCAGCGGGGCGGCGCTGGCGGTGCCGTTGTTGCGCCTGGCCTGTGACCTCCATGGGCAGATGGCGACCTTCGCCGAAGCGGCCGTGGCGGATCGCCCGGCGTGA	MNHRWWLDPCKPVDSQVLEQAMARQQQLTKPAGSLGRLESVAVQLAGLQGQVKPSLEQLWIAIFAGDHGVVAEGVSAYPQEVTGQMLLNFVSGGAAISVLARRLGASLEVVDLGTVTPSLDLPGVRHLRVGPGTANFLLGPAMTLVQGEQALQAGRDSAMRAAASGTQLFIGGEMGIGNTTAASALACALLDCPVAHLVGPGTGLDAAGISRKVQVIERALAVHGGSNGDPLQTLCNLGGFEIAALIGAYLACAQQGIAVLVDGFICSVAALVAVRLNPACRPWLLFAHRGAEPGHRHVLETLAAEPLLDLGLRLGEGSGAALAVPLLRLACDLHGQMATFAEAAVADRPA	PGPT0004595_1359	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004595-cobU|cobT-K00768	NA	NA
D1-35_00425	576	cobC	COG0406	Adenosylcobalamin/alpha-ribazole phosphatase	GTGACCTTGCGCCTGGACCTGTTGCGCCATGGCGAGACCGAACTGGGCGGCGGGCTGCGCGGCAGTCTCGACGACGCCCTGACGCCACGAGGCTGGGAACAGATGCACGCGGCGGTCGCAGCGGGCGGGCCGTGGGATCGGCTGGTGAGTTCGCCCTTGCAGCGTTGCGCGCGTTTCGCCGAACAGCTGGGTGCGCGACTCGGCGTGCCGGTGGACTTGGACAAGGACCTGCAGGAATTGCATTTCGGCGCCTGGGAAGGCCGTAGCGCGGCGGCATTGATGGAGACTGACGCCGAGGCGCTGGGGCGGTTCTGGGCCGATCCCTACGGCTTCACGCCGCCGGAAGGTGAGCCGGTACTCGAGTTTTCGGCGCGAGTGCTGGCGGCGCTTGAACGCTTGCATCAAGCCTACGCCGGGCAGCGCATCCTGCTGGTCAGCCATGGCGGCGTGATGCGGCTGCTGCTGGCCCGCGCCCGCGGCCTGCCGCGCGAGCAATTGCTCAATGTCGAAGTCGCCCACGGCGCGCTGTTTTCTCTCTTGGTGGCGTCCGGTCCAGTCCTCGAAGAGGCGGTCTGA	MTLRLDLLRHGETELGGGLRGSLDDALTPRGWEQMHAAVAAGGPWDRLVSSPLQRCARFAEQLGARLGVPVDLDKDLQELHFGAWEGRSAAALMETDAEALGRFWADPYGFTPPEGEPVLEFSARVLAALERLHQAYAGQRILLVSHGGVMRLLLARARGLPREQLLNVEVAHGALFSLLVASGPVLEEAV	PGPT0004650_1397	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
D1-35_00426	732	cobS	COG0368	Adenosylcobinamide-GDP ribazoletransferase	ATGTTGCCTTTCTGGATCGCCCTGCAGTTTCTCAGCAGCCTGCCGGTGCGCTTGCCGGGCATGCCCGAACCTGCGCAACTGGGTCGTTCGCTGCTGTTCTATCCGCTGGTAGGGGTGATGTTCGGCGGCTTGCTCTGCGGGCTCGATGCCTGGTTGTCAGGCGCACCGTTGCTGCTGCATGCGGCGCTGCTGCTGGCGGCCTGGGTGTTGCTCAGTGGCGGCCTGCACCTCGATGGCCTGGCGGACAGCGCCGATGCCTGGCTCGGTGGTTTCGGTGATCGCGAGCGTACGCTGCTGATCATGAAGGACCCGCGCAGCGGACCGATCGCGGTGGTCACCCTGGTGCTGGTGCTGTTGCTCAAATTCAGCGCGTTGCTGGCGCTGATCGAACAGCAGCAGACCTTGGCGCTGCTCATCGTGCCGGTACTTGGGCGTGGTGCGTTGCTGGCGCTGTTCCTCACCACGCCCTATGTACGTGCCGGTGGCTTGGGCCAGGCGCTCGCCGACCACCTGCCACGCCGCGTCGGTTGGCAGGTGCTGTGCGCCGTTGCGCTGGCCTCCGGGCTGGTGGCGGGCTGGGCCGGCCTGGTGGCGTTGCTGGTCGCGGCGCTGGGCTTTATCGGCTTGCGCCGGATAATGCTGCGCCGCTTGGGCGGGTGCACCGGAGACACGGCGGGGGCCTTGCTGGAACTGCTGGAGATGGCGGTTCTGGTGGCCTGGGCATTGAGCTGA	MLPFWIALQFLSSLPVRLPGMPEPAQLGRSLLFYPLVGVMFGGLLCGLDAWLSGAPLLLHAALLLAAWVLLSGGLHLDGLADSADAWLGGFGDRERTLLIMKDPRSGPIAVVTLVLVLLLKFSALLALIEQQQTLALLIVPVLGRGALLALFLTTPYVRAGGLGQALADHLPRRVGWQVLCAVALASGLVAGWAGLVALLVAALGFIGLRRIMLRRLGGCTGDTAGALLELLEMAVLVAWALS	PGPT0004590_2582	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
D1-35_00427	675			hypothetical protein	GTGCGTCTATCCAGCGGGGAAGCCGCCGGCGGCAGGGCCTTGCCCCTGCAACTGGACGTGCGCGACGAGACGGCGGTAGGCGCGGCCATGGACAGGGCCGCCGAACACTTCGGCGGTATCGATGCCCTGGTCAACAACGCGGGAGCGATTCGGCTCATGGGCGTCGAGCATCTTGTGCCCAAACGCTTCGACCTGATGTATCAGATCAACACGCGTGCAGTGATGGTCTGCAGCCAGGCGGCCCTGCCCTACCTCAAGCGCAGCAGCGGCGGCCACATCCTCAACCTCTCGCCACCGCTGAGCCTGTCGTCCCGCTGGTTCGCCCAGCACGCACCCTACACCGTCACCAAGTACGGCATGAGCATGCTCACCCTCGGCATGAGCGATGAGTTCGAGAAATACGGCATCAGCGTCAACTCGCTATGGCCGAAGACCATCATCGCCACCGCCGCCATCGAGTTCGAACTCGGCGGACGCCAGGCCTTCAAGCGCGCCCGAACCCCCGCGATCATGGCCGACGCCGCCCATGCCATTCTCTCCAGCAGCAATCGCCACGTCACCGGCCGCCTGCTGATTGATGAAGAGCTGCTGGCGGAACAAGGCCAGACCGAGTTCGGACAGTACCGCTACGACCCGCAAGGCGGCCCGCTGACACCCGACCTGTTTGTCGATTGA	MRLSSGEAAGGRALPLQLDVRDETAVGAAMDRAAEHFGGIDALVNNAGAIRLMGVEHLVPKRFDLMYQINTRAVMVCSQAALPYLKRSSGGHILNLSPPLSLSSRWFAQHAPYTVTKYGMSMLTLGMSDEFEKYGISVNSLWPKTIIATAAIEFELGGRQAFKRARTPAIMADAAHAILSSSNRHVTGRLLIDEELLAEQGQTEFGQYRYDPQGGPLTPDLFVD	PGPT0019830_515	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	vCITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019830-atuH-K13775	NA	NA
D1-35_00428	999			hypothetical protein	TTGCTATCGAGCCTGGAAGAACTCGACCTGTCCGAAAATCTCCTCACCCACATTCCGGAAGATGTATTCAGCAACGGAGGCAATCACCAGGCATCCACCGAAGTAGTGCTGGCCGGCAACCCGCTCGATCCCGAGCTTTCCCAGCGATTGCTCGACTCGATGGCCGCGGTGCAGCCGGGTATCCCTCGCTTTACCTTCGAACTGGATGACTTGCAGCTTGATCATTTCGCTCAACCGGGACCGGTCCCTACGCCCAGTGTCGACCCATGGCTCGAAGGACTCGATGAACTCGAAGCGGCACGTCGCCGGCAACTATGGCAAGACATCGGGCGGGCAGGCGCTTCGAACCTCATGACCATGATCAATCAACTGCGGCAAACCAACGATTTTTTCCACGCTGCCCGCCGACCTGAACTGATCGGCTCGGTCTGGACGGTCCTTGAACAAGCTGGCAACGACGCGGTGTTGCGGCGCCGATTGAATGATATGGCCGAGGAGGGCGCGCGGATGCGCGCGCAGGGGGAAACCTGTGTGGATGGCTTGCGTGTCGAATTCGCCCGGATCGAAACCGAGGCCATGGTTCATCAGGCGCTGCCGGCCGGCATGCCGGAGGAGCAACGAGGGGCCTGGTTCTACCAGCGGCTACGGGCCAAGTATCGGGCCGATGCGGTCGAGGTCATTGCCAATCGGCAGGCCGGGGGACGTGATGTTGCCGAGGTACGCATGGCTTACCTGATCGGCACGCGCGAGCCCCTCGGCCTTCTTGTCGCGCCTGGAAGCATGGCATTTGCCGGCGCTGCCCGGATCAGGCACGGCGAGCTGTCCAGGGTGGTACAGATTGTTCTGGAGGAGGAGCGCTTGGGAGGCCTGCTCAACTACGGCCAGCTCCAGCCATTCTGGACCCAGTACCTGCGCGAACGTTACGCCGCTCGTTTCGCTCGCCTCGAAACCGAGTATCGGCAACCCGGCAACAACCGGTCGGCGCTGATCTCAACGTAA	MLSSLEELDLSENLLTHIPEDVFSNGGNHQASTEVVLAGNPLDPELSQRLLDSMAAVQPGIPRFTFELDDLQLDHFAQPGPVPTPSVDPWLEGLDELEAARRRQLWQDIGRAGASNLMTMINQLRQTNDFFHAARRPELIGSVWTVLEQAGNDAVLRRRLNDMAEEGARMRAQGETCVDGLRVEFARIETEAMVHQALPAGMPEEQRGAWFYQRLRAKYRADAVEVIANRQAGGRDVAEVRMAYLIGTREPLGLLVAPGSMAFAGAARIRHGELSRVVQIVLEEERLGGLLNYGQLQPFWTQYLRERYAARFARLETEYRQPGNNRSALIST				NA	NA	NA	NA	NA
D1-35_00429	525			hypothetical protein	ATGATATTGCCTTCGTCATCGTCAAGGAAAACATCCACCCGCTCCTCACCCGTTAGCGGAGGAGATTCGTACCAGGGCTTGAACTCTAGCCTCAAGGGGTTGCTCGGGTCACTCCAGGCCGTACGGTGCAGCAGGTTCGGCTCCCCCCCGGGAATATCAGGCAGTGGTTTGGGCTGTGTCCAGGGCGCGGTCATCGTGCACGGGAGCTGGTTGAACTGGGCTGATGACATCTTTCATGTTCTCCGTTGCTGGCAATCAGAATCCCCAGTCCCGAGAGCGGGGCATCACACGCTTGATGAACACTCGAATGCCGCAGGGGGCAAACGCCAGGGTCGCCCCCCGACGTTTGGCGCCCGTTCAGCCCGCGCTACCAGAGATAGCGCACGCCGATGTTGGCTCCCCACGGCTGATCGATCTTGTCGCCGTTGCTGTAGTCAAAATCGGCGTGGATTGCGACTTTGTCGGTCAAGGTCATTGCAACACCGACGCCCAACTCGCCACGGGAGCCCGAGAGGTCGTTATTGA	MILPSSSSRKTSTRSSPVSGGDSYQGLNSSLKGLLGSLQAVRCSRFGSPPGISGSGLGCVQGAVIVHGSWLNWADDIFHVLRCWQSESPVPRAGHHTLDEHSNAAGGKRQGRPPTFGARSARATRDSARRCWLPTADRSCRRCCSQNRRGLRLCRSRSLQHRRPTRHGSPRGRY				NA	NA	NA	NA	NA
D1-35_00430	2226			hypothetical protein	ATGTCCACTGCTCGCTCGTTCAAGCTGCATCCTTTGTCCCGTACTTTGAAACTGCTCTCCTGCGCACCGCTCTGGTTGTTTTCCGACGTTGCCCTGGCAGCGCGGGTGCTCGTTCCCGGGGAAGTCCTGACCATCGACAACAGCACGCCTGCGGACAATTATGTGTTGAATGGTGCCTCGACGCTGAACGTCAACGGCGCCCAGACCCGGGATATCCTGGTCAATGAATCGACCCTGAATCTCACTGGCGCAGCGGTACAGGCCACGGACGAAAGTGGCGTCCACGTTGTGGCGGGCACAGCGAGCATCGCCCAAAGCAATATCTCCTCCAGCGACCGCACCGGATTGGCGCTCTCCAGCGATACGGCCGCGACCAAGGGGGCCAGCGTAACCGTCTCCGATAGCCTCATCAGCGGCGCGATCGCCGGCGCCAGCGTCAATGCCTTGACCACCTTGACGGTGCTGCGCTCGACACTGTCAGGCAGCGGAACCGGAACCGGAAGCAGCGGTGATGGCCTGCGCATCTTCAACGGCAGCGTAACGGCCGTAGACAGCCGCATCAGTGGCAGCAGCGAGGGAATTCTTTTTGCCGGCGATGCCAGGCTGGACGTACCCGGTACATTGGAGTTGAACAATACCCACGTGGAAGGGCTCAACGGCTCGGCGATTCTGGTCGACACATTGGGTGTAGGACCGGTGCAGGCCGATATCGCCGTACTCAACGGCTCTACCCTGACCGCCAGCAACGGTATCCTGATGGATGTGCGCCGTGGCGCCGAGGGCAACCTGCGGGTGGGCAACAGCAACACCAAGCTGGTCGGCGACATCCGTGCCGACGACACCAGCACGGCCAACGTGACCCTGGAGCAGGGCGCGAGCCTGACCGGCCGGCTGATCAACGTCGATGCGCTCGCGGTCAACAGCGGTGCGACCTGGGCGATGGTCGAGGACGGCGTGGTGGATAGCTTGACCCTGGATGGCGGCAACGTTCAGCTGGGTAGCCCTACCGAGTTCTATAAGCTCTCGGTAGGCAATCTGTCCGGGACTGGCAATTTCATCATGGACGTCGATTTCGCCACCGGCCAAGTCGATACGCTCGAAGTCACCGGCACCGCGACCGGCCGCCATACCATTCTCATGGGCAGCAGTGGCCAGGATCCACTCGCGCCAGGCAGTATCCCGGTGGTGCATATCGCAGACGGCGATGCGCAATTTTCTCTGCTCGATGGTGCAGTGGATCTCGGGACCTATTCCTACGACCTGGTCAAGCATGGTGACAATGATTGGTACCTGGACACCACGTCCCGAGTGTTCAGTCCTGGTACGCGCTCGGTGCTGGCGCTGTTCAATACCGCTCCAACCGTATGGTACGGCGAGTTGAGTACATTGCGCAGTCGCATGGGCGAGGTGCGTATGAACCCCGACAAGGCCGGCGGCTGGATGCGCTCCTACGGCAACAAATTCGACGTCAGTGCCAGTTCCGGCCTGGCTTATCAGCAAGTCCAGCAAGGGGTGTCGTTCGGTGCCGATGCGCCCTTGCCGTTCGGCGATGGGCAGTGGCTCGTCGGGCTGTTGGGGGGCTACAGCCAGTCCGACCTGGATTTGAGCCGGGGTACCAGCGGCACGGTCAACAGCTATTACCTGGGTGCCTACACTACTTGGCTGGATCAGCAGAGCGGCTACTACCTGGATGCCGTCATCAAGTTCAACCGTTTCCAGAACAAGTCCGATGTACAACTGAGCGATGGCAAAAAGGCCAAGGGCGACTACAACAACCATGGCGTTGGTGCCTCCCTGGAAGTCGGTCGTCATATCAAACTGGCGGATGATTACTTCATCGAGCCGTTCACCCAGCTTTCCGGCGTCGTTATCCAAGGCAAGGATTACGATCTGAACAACGACCTGGCTGCCGAAGGCAGTCGCACCCGTTCAATCCTGGGCAAGGCGGGCGCTACCGCCGGGCGCACTTTCAGGCTTGCTGAAGGCAAGACGGTGCAACCCTACCTGCGTGCAGCCTATGTCCATGAGTTCGCCAAGAACAACGAAGTCGAGGTCAACAACAACGTCTTCAATAACGACCTCTCGGGCTCCCGTGGCGAGTTGGGCGTCGGTGTTGCAATGACCTTGACCGACAAAGTCGCAATCCACGCCGATTTTGACTACAGCAACGGCGACAAGATCGATCAGCCGTGGGGAGCCAACATCGGCGTGCGCTATCTCTGGTAG	MSTARSFKLHPLSRTLKLLSCAPLWLFSDVALAARVLVPGEVLTIDNSTPADNYVLNGASTLNVNGAQTRDILVNESTLNLTGAAVQATDESGVHVVAGTASIAQSNISSSDRTGLALSSDTAATKGASVTVSDSLISGAIAGASVNALTTLTVLRSTLSGSGTGTGSSGDGLRIFNGSVTAVDSRISGSSEGILFAGDARLDVPGTLELNNTHVEGLNGSAILVDTLGVGPVQADIAVLNGSTLTASNGILMDVRRGAEGNLRVGNSNTKLVGDIRADDTSTANVTLEQGASLTGRLINVDALAVNSGATWAMVEDGVVDSLTLDGGNVQLGSPTEFYKLSVGNLSGTGNFIMDVDFATGQVDTLEVTGTATGRHTILMGSSGQDPLAPGSIPVVHIADGDAQFSLLDGAVDLGTYSYDLVKHGDNDWYLDTTSRVFSPGTRSVLALFNTAPTVWYGELSTLRSRMGEVRMNPDKAGGWMRSYGNKFDVSASSGLAYQQVQQGVSFGADAPLPFGDGQWLVGLLGGYSQSDLDLSRGTSGTVNSYYLGAYTTWLDQQSGYYLDAVIKFNRFQNKSDVQLSDGKKAKGDYNNHGVGASLEVGRHIKLADDYFIEPFTQLSGVVIQGKDYDLNNDLAAEGSRTRSILGKAGATAGRTFRLAEGKTVQPYLRAAYVHEFAKNNEVEVNNNVFNNDLSGSRGELGVGVAMTLTDKVAIHADFDYSNGDKIDQPWGANIGVRYLW				NA	NA	NA	NA	NA
D1-35_00431	327			hypothetical protein	ATGATGATGAATGGGAGATTCAATCATGTACCAAGCCAGCACTGCTTCAAGTCGTTCGCCAGCAGGCTCTATCCGACACCGCTGCCTCTCGCCTTCAAGACAGCTACTTTTTCCAACATAACCCAAGAGCAGGCCGAGCAAGGCATCGTTTGGCTCATCGAGCCGTATGGCGTTCATATCCTGCCAATCTGGGACCCAGCCAACCAGATAGGTAAAGGCGAAGTGGCCTATCTCATTGAAGGTAAACCTGCCAAGTCCACTCCAACCAACACCAAGGTAGGGCTAGCGCAGGGGGAAGGCAGCTGCAACGTCCCGGCTAATCCTTGA	MMMNGRFNHVPSQHCFKSFASRLYPTPLPLAFKTATFSNITQEQAEQGIVWLIEPYGVHILPIWDPANQIGKGEVAYLIEGKPAKSTPTNTKVGLAQGEGSCNVPANP				NA	NA	NA	NA	NA
D1-35_00432	405			hypothetical protein	ATGCTTGCCTCTCAATGTTTGTGCATCAACCTGCGTCGTGCCGCCCGTGGCGTCAGCAGGTATTACGACGGCGCCCTCGACGGCTTCGGGATCAACGTTGCCCAGTATTCTCTGCTGAACAACCTGGCGCGCCTGGACCAGCCGAGCATTTCTTCCCTGGCCGAGGCCATGGGCCTGGACCGCAGCACGCTGGGGCGCAACTTGCGGGTGCTGGAAGGCGAGGGCCTGGTGAAGCTCGCCGAGGGCGAGGATCTGCGCAACCGTATCGTCGAGCTCACCGAGGCCGGACGTGCCCGACTGGCGGCGGCGCAGCCGGCCTGGGAAACGGCGCAACAGAAACTGATCGACAAGCTGGGCGCGGAAAAGCGTGCGACCCTGTTGGCCTTGCTGGATGAACTGGCGTGA	MLASQCLCINLRRAARGVSRYYDGALDGFGINVAQYSLLNNLARLDQPSISSLAEAMGLDRSTLGRNLRVLEGEGLVKLAEGEDLRNRIVELTEAGRARLAAAQPAWETAQQKLIDKLGAEKRATLLALLDELA				NA	NA	NA	NA	NA
D1-35_00433	1209			L-lactate transporter	ATGACATCGATGTGGCGTACCTGTGGTTGGGTCCTGGTGGGCAGTGCGCTGATCCTGGCGTTATCGCTGGGTGTGCGACATGGCTTTGGCCTGTTTTTGGCGCCGATGAGCGCGGATTTCGGCTGGGGCCGCGAGGTGTTTGCCTTCGCGATCGCCTTGCAGAACCTGATCTGGGGCCTGGCGCAGCCGTTTACCGGCGCGCTGGCCGATCGCTTCGGCGCGGCGAAAGTGGTGCTGATCGGTGGCGTTTTATACGCGCTCGGGCTGGTCTTGATGGGCATGGCCGACTCGCCCTGGTCGCTGTCGTTGAGCGCCGGTCTGTTGATCGGCATCGGCCTGTCCGGTACCTCGTTCTCGGTGATCCTCGGCGTGGTCGGGCGGGCCGTGCCAGCGGAAAAACGCAGCATGGGCATGGGCATCGCCAGCGCCGCCGGCTCCTTCGGCCAGTTCGCCATGCTGCCGGGCACGCTGGGCCTGATCGGCTGGCTCGGCTGGTCCGCCGCGCTGCTGGCGCTGGGTCTGTTGGTGGCGTTGATCGTGCCTTTGGTGAGCATGCTCAAGGACGCACCGGCGCCCCTGTCCGGGCATGAGCAGACGCTATCCGAAGCGTTGCGCGAGGCTTGCAGTCATTCGGGGTTCTGGCTGCTGGCCGTGGGCTTTTTTGTCTGTGGTTTCCAGGTGGTGTTCATCGGTGTACACCTGCCGGCCTACCTGGTCGATCAGCACTTGCCGGCCAGTGTCGGCACAACGGTGCTGGCGCTGGTCGGGTTGTTCAATATCTTCGGCACCTACACGGCCGGCTGGCTGGGTGGACGGATGTCCAAGCCGCGGCTGCTGACCGCGTTGTATCTGGCGCGGGCGGTGGTGATCGGCCTGTTCCTTTGGCTGCCGGTGACCACGACCACGGCCTATGTCTTCGGCATGGCGATGGGCTTCCTCTGGCTGTCGACGGTGCCGTTGACCAACGGTACGGTTGCGACCCTGTTTGGTGTGCGAAACCTCTCGATGCTTGGTGGGATGGTGTTCCTGTTTCACCAGTTGGGATCGTTCCTGGGAGGCTGGCTGGGCGGGGTGGTGTACGACCGCACCGGCAGCTATGACCTGATCTGGCAAGTGTCGATCCTGCTCAGCCTGTTGGCGGCGGCATTGAACTGGCCGGTGCGCGAACGCCCGGTGGCGCGCCTGCAAGCGCAGGCCGGTGCCGCATGA	MTSMWRTCGWVLVGSALILALSLGVRHGFGLFLAPMSADFGWGREVFAFAIALQNLIWGLAQPFTGALADRFGAAKVVLIGGVLYALGLVLMGMADSPWSLSLSAGLLIGIGLSGTSFSVILGVVGRAVPAEKRSMGMGIASAAGSFGQFAMLPGTLGLIGWLGWSAALLALGLLVALIVPLVSMLKDAPAPLSGHEQTLSEALREACSHSGFWLLAVGFFVCGFQVVFIGVHLPAYLVDQHLPASVGTTVLALVGLFNIFGTYTAGWLGGRMSKPRLLTALYLARAVVIGLFLWLPVTTTTAYVFGMAMGFLWLSTVPLTNGTVATLFGVRNLSMLGGMVFLFHQLGSFLGGWLGGVVYDRTGSYDLIWQVSILLSLLAAALNWPVRERPVARLQAQAGAA				NA	NA	NA	NA	NA
D1-35_00434	120			hypothetical protein	ATGAGCCGCGTCGGTCCGTGGTTGGTCGCGGCCGGCGCCGCGCTGTTGCTGGCCTTCGCCTGGTGGGGCTGGCACCAGGGCGGGTTGGCGTTGATGCAATTGGGCATGGGTAACTGCTGA	MSRVGPWLVAAGAALLLAFAWWGWHQGGLALMQLGMGNC				NA	NA	NA	NA	NA
D1-35_00435	552	btuE_1		Thioredoxin/glutathione peroxidase BtuE	ATGCTGATGCGCTGGCTTGCTGTTCCCACCCTGTTGCTGGCTGCGGCCGGGCAAGTTTGGGCGGCTGATTGTCCGCCGCTGCTGGAGGGCTCGCTGCCCAAGCTGCGGGCCAAGGAAACCATCGACCTGTGCCAGCGCTTCGCCGGCAAGCCCCTGGTGGTGGTCAACACCGCCAGCTTCTGTGGTTTTGCACCGCAGTTCAAAGGCCTCGAAGCGCTGAACCAGCACTATAAGGGGCAAGGGCTGGAAGTGCTGGGCGTACCCTCTGACGATTTCAAGCAGGAGTCCAAGGATGGCGCGGAGACGGCCAAGGTCTGCTACGTCAACTACGGCGTGACCTTCACCATGACCGAGCCGCAGCCAGTGCGCGGCGCGGACGCGATCCCCTTGTTCAGGCACCTGGCCGAACAGTCCAGCGCGCCGAAATGGAATTTCTACAAGTACGTTGTAGATCGCCAGGGCAGGGTGGTCGGCAGTTTTTCCAGCCGGATCAAACCCGACGATCCTGACTTCATCAAGGCAGTGGAAACGGCCATCGCTTCGAAACCCTGA	MLMRWLAVPTLLLAAAGQVWAADCPPLLEGSLPKLRAKETIDLCQRFAGKPLVVVNTASFCGFAPQFKGLEALNQHYKGQGLEVLGVPSDDFKQESKDGAETAKVCYVNYGVTFTMTEPQPVRGADAIPLFRHLAEQSSAPKWNFYKYVVDRQGRVVGSFSSRIKPDDPDFIKAVETAIASKP	PGPT0013115_2114	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013115-bsaA|gpx|btuE-K00432	NA	NA
D1-35_00436	1275	fadL	COG2067	Long-chain fatty acid transport protein	ATGAAAAAAATGATGCTCAAAACCACCCTTGGCCTTGCCGTTACCTTGGCATCCACCCAACTCTTTGCCAGTGGTTTTGCCCTGAACGAACAAAGCATCAGTGGCATGGGCACTGGCTTCGCGGGTCGTTCTTCTTCTGCCGATGATGCAAGCACCGTGTTTGGCAACCCTGCCGGTATGTCGCGCCTCAAGCGCGAGCAAGTGACCGGCGGCTTCGCCGTGATCGACGCGTCCACCGATATCAACGATGCCAGCGGTACCCGCTCCGGCACCAACGACGGCGACATGGTTCCGTTCACCGGCGTTCCGATGGGCTACTACGTCAAGCCTATCGATGACAAATGGGCATTCGGCCTGGGTGTCTACGCCCCGTTCGGCCTGATCACCGATTATGAAAACAGCTTCCAGGGCCGCAACTTCGGCAGCAAGAGCGAAGTGAAGGTCGTGACCTTCCAGCCAACCATCAGCTACGCCTTCAACGACAAGGTTTCGATTGGTTTCGGCCCGACCATCAACCGTATTTCCGGCTCACTGGAATCGGCACTGACCACACCGTTCTCGCCTAACGACGGCAACGTCAAGATCAAGGGCGATGACATCGGCTACGGCTACAACATCGGCTTGATGGTCCAGGCTACCGACAGCACCCGTGTCGGCCTGACCTACCACTCCAAGGTCAAGTACAAGCTCGAAGGCCACACCGAAGTGAGCCCGGGCGCCGGTACGCCGGGCTTTCTGTTGAGCCGCGCACGTTATGACGCTTCGCTGGACATCACCACGCCTGAATCGGTGGACTTCTCGGTTACCCAGGAAATCAATGACGCCTGGACCGTCTATGCAGGCAGCACCTGGACCCGCTGGAGCCGCCTGAAGGACATCACCGTCGATAACGACCTGACCGGCGGCGGAGCCCTGAACCCAGCCCTCTTCGGCACCATCACCGAAGAACAGAACTGGCACGACACCTGGGCCTACGCCATCGGTACGTCCTACCAGTTGAACAAACAGTGGGTGCTGCGCACCGGCCTGACGTTCGACCAGTCGCCTGCCAACAACGAAGACCGCTCGCCACGCATCCCTACCGGCGACCGGACCATCTTCAGCCTGGGTGCCGGTTGGAGCCCGACCGACGACCTGACCATCGACGTGGCCTATTCCTACCTCAAGGAAGAAAAAGTCAACGTCAACCGCAGCAACGCCTTGGGTCAGGCCTACAACGCTGAATACGAAAACAGCGCCAACGGTTTTGGTGTCGGTGCAACCTACCGCTTCTGA	MKKMMLKTTLGLAVTLASTQLFASGFALNEQSISGMGTGFAGRSSSADDASTVFGNPAGMSRLKREQVTGGFAVIDASTDINDASGTRSGTNDGDMVPFTGVPMGYYVKPIDDKWAFGLGVYAPFGLITDYENSFQGRNFGSKSEVKVVTFQPTISYAFNDKVSIGFGPTINRISGSLESALTTPFSPNDGNVKIKGDDIGYGYNIGLMVQATDSTRVGLTYHSKVKYKLEGHTEVSPGAGTPGFLLSRARYDASLDITTPESVDFSVTQEINDAWTVYAGSTWTRWSRLKDITVDNDLTGGGALNPALFGTITEEQNWHDTWAYAIGTSYQLNKQWVLRTGLTFDQSPANNEDRSPRIPTGDRTIFSLGAGWSPTDDLTIDVAYSYLKEEKVNVNRSNALGQAYNAEYENSANGFGVGATYRF				NA	NA	NA	NA	NA
D1-35_00437	483			hypothetical protein	ATGGGTATCGCTGCCAGCGAACTGTGTCGATACGTGATCCGTCCGACGCTCCTCTACCTGGGGAGTCACAGCACGACGGCGGAGACCTTGCTGCTGGGCATTGCCGCCAGCCAGTCCGGCCTCGGCGCGGCGCTGCACGACCGGCGCGGGCACGGCTTGTACCGCATCACCGAACCTCGCCACCAAGCCTTGTGGGACGACTATCTGGCGCTGGACCCGGAGCGGGCCAGCCTGGTACGCGGCCTGGCGAGCCAGCATGCGTTCCTGAGCGGTCCCCATCTGGAACTGACCGTCAACCTGCGCTACGCCACGGCCATCGCCTGGCTGCTGGTGGAGGAGCAGGCCACACCGCTGCCCGAGGCCGGCGACCTGTTGGGCATGGCGCGGATCTGGCGGCAGACTTTTCACCCCCAGGGACGCCTGCGAGATTTCACCTATGCCTGGCAAAACTGTGTTACCCCACTGAATCAGGTCGCTTGCTGA	MGIAASELCRYVIRPTLLYLGSHSTTAETLLLGIAASQSGLGAALHDRRGHGLYRITEPRHQALWDDYLALDPERASLVRGLASQHAFLSGPHLELTVNLRYATAIAWLLVEEQATPLPEAGDLLGMARIWRQTFHPQGRLRDFTYAWQNCVTPLNQVAC				NA	NA	NA	NA	NA
D1-35_00438	225			hypothetical protein	ATGTCTACTCAAATCCATACCCAGGATGCCATCCGCACCCTGACCAACGCTTTTGCCCCAATGAACTGCCTGATCATGGCCGCTCGCAAAGGCTGCTTCAGCTTCACGCTGGTCAACGAACACGGCATCGCCCGTCACAGCGAACGCCTGTATCCCGACCAGTACTCCAGCGCAGAACCGCTGCAGGCCGTGATCGAGCGTACCCGCCAGGCACTGGTTGCCTGA	MSTQIHTQDAIRTLTNAFAPMNCLIMAARKGCFSFTLVNEHGIARHSERLYPDQYSSAEPLQAVIERTRQALVA				NA	NA	NA	NA	NA
D1-35_00439	252			hypothetical protein	ATGCGCGTGGCCGAATGGTTACTCGACAGCCCGCGCCTGGGGGACAGCCCCAGCGTCAAGCACCTGGCCGGCCGCCTGCTCAAGCAACCGGCCCGTGAAGGCGTGGTGGCGGCCCAGAGCCGTCTCGGCCAGCTGATGTGCCGCGAATGCGGTAACGCGCGAGACCGGCGTATTGGCCAGGACCTGCTGCGCCAGGCTGCCCGGGCAGGTGATCACCGCGCTCGCCAGGCGTTGGGTGAAATCGAAGACTGA	MRVAEWLLDSPRLGDSPSVKHLAGRLLKQPAREGVVAAQSRLGQLMCRECGNARDRRIGQDLLRQAARAGDHRARQALGEIED				NA	NA	NA	NA	NA
D1-35_00440	1503	smc_1		Chromosome partition protein Smc	ATGGCTATGGATTTGACCAGCCTGTTGCTTGGTCTGGCGGGCGCTGCGCTGCCGTTGCTGGCCCTGGCCTGGCATCTGCAACGACAGGCCAGCGCGGCGCAGACCGAACTCGCCCTGCTGGAAGAACGCCTGGCGACCGCGCACATGGCCCACGACGGGTTGAACGCCCAGCTGGATGCTTGCCGCGACGAAATCAGTGACCTGAGCCAGGCCAATGCCGCCAAACAGGCCGAGCTCGCGGCGGCCAGTCGCGAAGTCGAATTGCTGCAGATCGAGCGCGACAATGCTCGGGACGCGGCCCACGCCTGGAATCTCGAACGGGCCAACAAGGAAGCGGAACTGCGGCGGCTCGATGCCCAGGCGGCTTCGTTGCGCGCCGAGCTGCGCGAGCAGCAGGAAAGCCATCAGCAGCGCCTCAATGACCTGCAAGGTTCGCGCGACGAGCTCCGGGCGCAGTTCGCCGAGCTGGCCGGGAAAATCTTCGACGAACGTGAACAGCGCTTCGCCGAAACCAGCCAGCAGCGTCTGGGACAACTGCTCGATCCGCTGAAGGAGCGCATCCAGTCGTTCGAGAAACGCGTCGAGGAAAGCTATCAGGCCGAGGCTCGTGAGCGGTTCTCCCTGGGCAAGGAGCTTGAGCGCTTGCAGCAATTGAACCTGCGCCTGAGTGATGAAGCCACCAACCTTACCCGTGCCCTCAAGGGGCAGAAAACCCAAGGCAACTGGGGCGAGCTGATCCTCGAGCGGGTGCTCGAACACGCAGGCCTGGAAAAGGGCCGCGAATACCAGACCCAGGTCAGCCTCAAGGGCCCGGACGGTGAGCGTTTCCAGCCGGACGTGTTGATTTACCTGCCCGGCGACAAACAGGTAGTAGTCGATTCGAAGGTCAGCCTCACGGCTTACCAGCAATACGTCGCCGCCGAAGATGACGCCATCGGCCAGCTCGCCCTCAAGCAGCATGTCGTGTCGTTGCGAGCCCACGTCAAGGGCTTGGCCGGCAAGGACTACAAGCGCCTCGACGGTTTGCACAGCCTGGATTTCGTGTTGCTGTTCGTGCCGATCGAGGCCGCGTTTTCCGCCGCGCTGCAAGCCGAGCCGACCCTGTTCCAGGAAGCCTTTGACCGCAACATCGTGATCGTCAGCCCGACGACGCTGCTGGCGACATTGCGGGTCATCGACAGCTTGTGGAAGCAGGAGCGTCAGAGCCAGAACGCCCGGGAAATTGCTGAGCGCGCCGGATGGCTGTACGACAAGTTCGTGCTGTTCATCCAGGACCTCGATGAAATCGGCAATCGCCTGCAGCAACTGGACAAAGCCTACAGCGCCGCGCGCAACAAGCTGACGGAAGGGCGCGGCAACCTGATCAGCCGCAGCGAGCAACTGAAATTGCTCGGCGCCCGGGCGAGCAAAAGCCTGCCGACGGAGCTGCTGGAACGGGCAATGGCGGATGTGGATGGGTTGCCTGAGGTGGCGGAAGAAGGCCCCGCGAAGGTACAGGACTGA	MAMDLTSLLLGLAGAALPLLALAWHLQRQASAAQTELALLEERLATAHMAHDGLNAQLDACRDEISDLSQANAAKQAELAAASREVELLQIERDNARDAAHAWNLERANKEAELRRLDAQAASLRAELREQQESHQQRLNDLQGSRDELRAQFAELAGKIFDEREQRFAETSQQRLGQLLDPLKERIQSFEKRVEESYQAEARERFSLGKELERLQQLNLRLSDEATNLTRALKGQKTQGNWGELILERVLEHAGLEKGREYQTQVSLKGPDGERFQPDVLIYLPGDKQVVVDSKVSLTAYQQYVAAEDDAIGQLALKQHVVSLRAHVKGLAGKDYKRLDGLHSLDFVLLFVPIEAAFSAALQAEPTLFQEAFDRNIVIVSPTTLLATLRVIDSLWKQERQSQNAREIAERAGWLYDKFVLFIQDLDEIGNRLQQLDKAYSAARNKLTEGRGNLISRSEQLKLLGARASKSLPTELLERAMADVDGLPEVAEEGPAKVQD				NA	NA	NA	NA	NA
D1-35_00441	3471	rcsC_2		Sensor histidine kinase RcsC	ATGTCGCTGTCCAGCGGGCTGATTGCCGTTGTCGCCCTGGCCTATATGGCCATCATGTTTGCCATCGCCTTCTACGGCGACCGACGCAGCACGCCGTTGCCGCCGCGCGTGCGGGCCTGGGTCTACAGCCTGTCGCTGGCAGTCTATTGCACCAGCTGGACCTTCTTTGGCGCCGTGGGCCAGGCCGCCGAACAGCTCTGGTCGTTCCTGCCGATCTACCTCGGGCCGATCCTGCTGCTGGTGTTCGCGCCGTGGGTCCTGCAGAAAATGGTGATGATCAGCAAGCAGGAGAACATCACCTCCATCGCCGACTTCATCGCCGCCCGCTACGGCAAGTCGCAGTCCCTGGCGATTGTGGTGGCCCTGATCTGCCTGGTCGGCGTACTGCCCTACATCGCCTTGCAGCTCAAGGGCATCGTGCTCGGGGTGAATCTGCTGATCGGCGCCGGCGCCGACGCCATGGGCACCCGGGCCCAGGACACCGCCCTGATCGTCTCGCTGATCCTGGCGCTGTTCACCATCGTCTTCGGTACCCGCAACCTGGACGCCACCGAGCACCATCGCGGCATGGTCCTGGCGATTGCCTTCGAGTCGCTGGTCAAGCTGTTCGCCTTCCTGGCCGTCGGCGCGTTTGTCACGTTTGGCCTCTATGACGGTTTTGATGACCTGTTCAACCAGGCGATGCTGGCGCCCCGCCTGGAGCAATACTGGAAGGAAACCATCAACTGGCCGTCCATGGTCGTGCAAACCGGCGTGGCGATGATGGCGATCATCTGCCTGCCCCGGCAATTCCATGTGACCGTGGTCGAGAACATCGACCCCCAGGACCTGCGCCTGGCCAAGTGGGTGTTTCCCGCGTACCTGGCGCTGGCCGCGCTGTTCGTGGTGCCGATCGCCCTGGCCGGGCAGATGATGTTGCCCAGTTCGGTACTGCCGGATTCGTTCGTCATCAGCCTGCCGCTGGCCCAGGCCCACCCGGCCCTGGCGGTGCTGGCGTTCATCGGCGGCGCGTCGGCCGCCACCGGCATGGTGATCGTGGCGAGTGTCGCCCTGTCGACCATGGTCTCCAACGACATGCTGCTGCCCTGGCTGTTGCGCCGCAACAACGCCGAGCGGCCCTTCGAGGTGTTCCGCCAGTGGATGCTGTCGGTACGCCGGGTGAGCATCGTCGTGATCCTGCTGCTGGCTTACGTCAGTTACCGGCTGCTGGGGTCGACGGCGAGCCTGGCGACCATCGGCCAGATCGCTTTCGCCGCCGTGACTCAACTGGCGCCCGCGATGCTCGGCGCGCTGTACTGGAAACAGGCGAACCGACGCGGCGTGTTCGCCGGTCTCGCCACGGGAATTTTCCTCTGGTTTTATACGCTGGTGCTGCCGATCGCCGCCCACAGCCTGGGCTGGTCACTGAGCAGTTTTCCCGGCCTGGCCTGGCTGCACGGCAACCCGCTGGACCTGCCGATTACTCCGCTGACGCAAGGGGTGGTTTTGTCCCTGGCCGGCAATTTCATCCTGTTCGCCTGGGTCTCGGTGTTGTCCCGCACCCGCGTGTCGGAGCACTGGCAGGCCGGGCGCTTCATCGGCCAGGAAATCAGCGCCCGCCCCAACCCTCGTTCGATGCTCGCGGTACAGATCGACGATCTGCTGCAACTGGCCGCCCGGTTCGTCGGCGAAGAGCGCGCGCGGCAGAGCTTCATCCGTTTCGCCTACCGCCAGGGCAAAGGTTTCAACCCGAGCCAGAACGCCGACAGCGAGTGGATCGCCCACACCGAGCGCCTGCTGGCCGGTGTGCTGGGCGCCTCTTCGACGCGGGCGGTGGTGAAGGCGGCAATTGAAGGGCGGGAGATGCAACTGGAGGACGTCGTGCGGATCGCCGACGAAGCGTCCGAGGTGCTGCAGTTCAATCGCGCGCTGCTGCAAGGCGCCATCGAAAACATCACCCAGGGCATCAGCGTGGTCGACCAGTCCCTCAGGCTGGTGGCCTGGAACCGTCGCTATCTTGAGCTGTTCAATTACCCCGACGGCCTGATCAGCGTCGGCCGGCCAATTGCCGACATCATCCGCTACAACGCCGAACGCGGCCTCTGCGGGCCCGGCGAGGCCGAGGTCCATGTCGCCCGGCGCCTGCACTGGATGCGCCAGGGCCGCGCGCATACCTCGGAACGGCTGTTCCCCAACGGCCGGGTGATCGAGCTGATCGGCAACCCGATGCCCGGCGGCGGCTTTGTCATGAGTTTCACTGACATCACCGCGTTCCGCGAAGCCGCCCAAGCCTTGACCGAGGCCAACGAAGGGCTGGAGCAACGGGTGGCCGAGCGCACCCGGGAACTGTCGCAGCTGAACCTGGCGCTGACCGAGGCCAAGAGCACCGCAGAAGCCGCCTATCAGTCCAAGACCCGCTTCCTTGCCGCCGTCAGCCATGACCTGATGCAACCCCTGAATGCCGCGCGGCTGTTTTCCGCCGCGCTGTCCCACCAGCATGACAGCCTGCCCGGCGAAGCCCGGCAACTGGTGCAGCACCTGGACAGCTCGCTGCGTTCGGCGGAGGACCTGATCACCGACCTGCTCGACATCTCCCGCCTGGAGAACGGCAAGATCAACCCCGATCGCAAGCCCTTCGTGCTCAACGACCTGTTCGATACCTTGGGCGCCGAATTCACCGTGCTGGCCCAGGAGCAAGGGCTCAAGTTTCGCGTTCGTGGCTCGCGCCTGCGGGTCGACAGCGACATCAAGCTACTCCGGCGGATCTTGCAGAACTTCCTCACCAATGCCTTCCGCTACGCCAAAGGTCCCGTGCTGCTGGGTGTGCGCCGCCGCCAGGGCGAGCTGTGCCTGGAGGTCTGGGATCGCGGCCCCGGCATTGCCGAAGACAAACAGCAGGTCATTTTCGAAGAGTTCAAACGCCTCGACAGCCATCAGACCCGCGCCGAAAAAGGCCTCGGCCTGGGCCTGGCGATCGCCGATGGCCTGTGCCGCGTGCTTGATCACAGGTTGCGCGTGCGTTCCTGGCTAGGGCGCGGCAGCGTGTTCAGTGTCAGCGTGCCGTTGGCCAGCACCCAGGCCGCTGCTCCCAGTGCCGCGCCCGAACCCAACGGCCAATTGCCGAGCGGGGCCCAGGTGCTGTGTGTGGATAACGAAGACAGTATCCTGATCGGCATGAGCAGTTTGCTGACGCGCTGGGGGTGCCAGGTCTGGACCGCGCGCAACCGCGAAGAGTGCGAGCGCTGGCTCGCCCAGGGCGGGCGTCCGCAACTGGCCCTGGTGGATTTTCATCTGGACGACGGCGAGACGGGCACCGAGCTGATGGCCTGGCTGCGCACGCGCCTGGGCGAGCCGGTGCCGGGGGTGGTGATCAGCGCCGACGGCCGGCCGGAGACGGTGGCGCAAGTGCATGCGGCGGGGCTGGATTACCTGGCCAAACCGGTGAAGCCGGCGGCGTTGCGGGCGTTGTTGAGTCGGCATTTGCCGTTGTAA	MSLSSGLIAVVALAYMAIMFAIAFYGDRRSTPLPPRVRAWVYSLSLAVYCTSWTFFGAVGQAAEQLWSFLPIYLGPILLLVFAPWVLQKMVMISKQENITSIADFIAARYGKSQSLAIVVALICLVGVLPYIALQLKGIVLGVNLLIGAGADAMGTRAQDTALIVSLILALFTIVFGTRNLDATEHHRGMVLAIAFESLVKLFAFLAVGAFVTFGLYDGFDDLFNQAMLAPRLEQYWKETINWPSMVVQTGVAMMAIICLPRQFHVTVVENIDPQDLRLAKWVFPAYLALAALFVVPIALAGQMMLPSSVLPDSFVISLPLAQAHPALAVLAFIGGASAATGMVIVASVALSTMVSNDMLLPWLLRRNNAERPFEVFRQWMLSVRRVSIVVILLLAYVSYRLLGSTASLATIGQIAFAAVTQLAPAMLGALYWKQANRRGVFAGLATGIFLWFYTLVLPIAAHSLGWSLSSFPGLAWLHGNPLDLPITPLTQGVVLSLAGNFILFAWVSVLSRTRVSEHWQAGRFIGQEISARPNPRSMLAVQIDDLLQLAARFVGEERARQSFIRFAYRQGKGFNPSQNADSEWIAHTERLLAGVLGASSTRAVVKAAIEGREMQLEDVVRIADEASEVLQFNRALLQGAIENITQGISVVDQSLRLVAWNRRYLELFNYPDGLISVGRPIADIIRYNAERGLCGPGEAEVHVARRLHWMRQGRAHTSERLFPNGRVIELIGNPMPGGGFVMSFTDITAFREAAQALTEANEGLEQRVAERTRELSQLNLALTEAKSTAEAAYQSKTRFLAAVSHDLMQPLNAARLFSAALSHQHDSLPGEARQLVQHLDSSLRSAEDLITDLLDISRLENGKINPDRKPFVLNDLFDTLGAEFTVLAQEQGLKFRVRGSRLRVDSDIKLLRRILQNFLTNAFRYAKGPVLLGVRRRQGELCLEVWDRGPGIAEDKQQVIFEEFKRLDSHQTRAEKGLGLGLAIADGLCRVLDHRLRVRSWLGRGSVFSVSVPLASTQAAAPSAAPEPNGQLPSGAQVLCVDNEDSILIGMSSLLTRWGCQVWTARNREECERWLAQGGRPQLALVDFHLDDGETGTELMAWLRTRLGEPVPGVVISADGRPETVAQVHAAGLDYLAKPVKPAALRALLSRHLPL				NA	NA	NA	NA	NA
D1-35_00442	540			hypothetical protein	ATGGCTATTAAAGAAGGTTTACGCCCCGGCGGCAGAAGCGCCCGGGTCCAGGAGTCGATTCATTCGGCCGTTCGCGCGTTATTGCAGGAGCAGGATCGCGCCAGCCTGACCGTGCCGCAAATCGCCGCGCGCGCCGGGGTGACGCCGTCCACCATTTATCGGCGCTGGGGCGATCTGCAAGCGCTGCTGGCGGATGTCGCCATCGCACGCATGCGTCCGGACGGCGAGCCGGCCAATACCGGCAGCCTGCGCGGCGACTTGCGTGCCTGGGCGGAGCAGTATCTGGACGAAATGAGTTCCGAGCCCGGCCGCAACATGATGCGCGATATCCAGGCCTGCGCCACGCCGGGTTATTGCGTGGGCATTATCAGCGGTCAGTTGCAGATCATCCTGGACCGCTATCCCGATGAGCCGAATCCGGGCATCGAGCGGCTGGTGAATGTGATCGTGGCGCCGACGGTGTTTCGTATCCTGTTTGCCACTGCGCCGCTGGAGGTTGAGGAGTTGTATCGGTTGGTTGACATAGCGTTGGGTCAGTAA	MAIKEGLRPGGRSARVQESIHSAVRALLQEQDRASLTVPQIAARAGVTPSTIYRRWGDLQALLADVAIARMRPDGEPANTGSLRGDLRAWAEQYLDEMSSEPGRNMMRDIQACATPGYCVGIISGQLQIILDRYPDEPNPGIERLVNVIVAPTVFRILFATAPLEVEELYRLVDIALGQ				NA	NA	NA	NA	NA
D1-35_00443	1194			hypothetical protein	ATGTCTCGTCCAGCTTCGACCCGCGCCAGCCTGATATTTCTGGCGCTCACCTTGCTCGGCTTCCTGGCGGCGTCCAGCGCGCCGACGCCGTTGTATCACCTCTATCAGGAACATATGCAGTTTTCCCCGGCGATCCTGACACTGATCTTCGGCGTGTACGCGTTCAGTCTGCTGGCGGCTTTGCTGGTCGTCGGTTCGCTGTCGGATTACCTCGGTCGCAAGCCAGTGATCTTTGCGGCATTGCTGCTCAACATGCTGGCGATGCTGCTGTTTATCAACGCCGACAGCGTCGCCTGGTTGATCGGTGCGCGTTTGATTCAAGGTTTTGCCACCGGAATGGCCACCAGTGTATTGGGGGCGGCGTTGCTGGACTTCGATCGTCAGCAGGGGCCGCTGATCACCAGCGTGGCGCCATTGCTCGGCATGGCGTGTGGCGCGATGGGCTGCGGCCTGCTGGCTGAGTTCGCGCCGATGCCGCTGCAATTGACGTATTGGCTGCTGCTGGCATTGTTTCTCCTCCAGGCGATTTACCTGTGGCGCCTGGCGGAAAGCGTCAGCCCGCAGCCCGGGGCCTGGCGATCGTTGCGCCCGACTTTGCACGTACCTGTCCAGGCCCGGCGCGCCTTGTGGCTGATATTGCCTCTGGACCTGGCGGCTTGGGCGGTCGGGGGATTCTATTTGTCCCTCGCGCCGTCACTGGTGCGGGCCGCGACCGGTTCGACATCGAACCTGATTGGCGGCGCGCTGGTGGCTGTGCTCACCCTCAGTGGTGCCTTGTCGATCTACACGCTGCGTAACCGGGCGGCAAGAACGATGCTGCGGCTTGGCGCCAGCCTATTGGTGCTCGGCCTGGGCCTGGTATTGACCGCCGTACACACGGCCAGTCTGCCGTGGTTTTTCATTGGCACCTTGATCACTGGCAGCGGTTTTGGCGCGGGATTCCTCGGCGCCCTGCGCAGCATCATGCCGCTGGCCTTGCCCCACGAACGGGCCGGCCTGATGTCGGCGTTCTACGTGCTCAGTTACCTGGCCTTCAGCCTGCCTTCGTTGCTGGCGGGAAACCTCACGCGTATTTTCGGACTGATTCCGACCACCGATGGCTACGGCGTCGTGCTGATTGTGATGGCAGTCGGTGCGCTGGCGGGCTTGCTGCGCCAGCCTGCAAAACCGCTGGCGGAGGGGGTGGGGTCGTGA	MSRPASTRASLIFLALTLLGFLAASSAPTPLYHLYQEHMQFSPAILTLIFGVYAFSLLAALLVVGSLSDYLGRKPVIFAALLLNMLAMLLFINADSVAWLIGARLIQGFATGMATSVLGAALLDFDRQQGPLITSVAPLLGMACGAMGCGLLAEFAPMPLQLTYWLLLALFLLQAIYLWRLAESVSPQPGAWRSLRPTLHVPVQARRALWLILPLDLAAWAVGGFYLSLAPSLVRAATGSTSNLIGGALVAVLTLSGALSIYTLRNRAARTMLRLGASLLVLGLGLVLTAVHTASLPWFFIGTLITGSGFGAGFLGALRSIMPLALPHERAGLMSAFYVLSYLAFSLPSLLAGNLTRIFGLIPTTDGYGVVLIVMAVGALAGLLRQPAKPLAEGVGS				NA	NA	NA	NA	NA
D1-35_00444	1149			hypothetical protein	ATGACTTGCTGCGCTGCGAAAAACCGTTTACGCCCGCTGAGCCACTTGGCCGGACCCTTGGAGGCCGTCCGACAATTCACCCCGAACTGGTTCGCCGCCACCATGGGGACTGGCGTGCTGGCATTGGCCCTGGCGCAAGTGCCAGGCGGCAATGCCGGATTGCACGCATTTGCTGAAGGGCTGTGGTTGTTCAACATTTTCCTGTTTGCACTATTCACCGGGCTGTACGGCGCTCGCTGGATGCTTTTTTTCAACGAGGCCCGGCGAGTTTTCGGCCATTCGACGGTCTCGATGTTTTTCGGCACCATTCCCATGGGCCTGGCGACGATCATCAACGGCTTTCTGGTGTTCGGGTTGCCGCGCTGGGGGGATGGCGTGGTGGCGGTGGCAGAAGTGTTGTGGTGGATCGACGTGGTGATGTCGCTGGCCTGCGGCGTGCTTATTCCGTTCCTGATGTTCACCCGCCAGGAGCACCGCATCGACCAGATGACCGCCGTGTGGCTGTTGCCCGTAGTGGCCGCCGAGGTGGCCGCTGCCAGTGGCGGGCTACTGGCGCCACACCTTGGCGACGCCCATGCGCAATTGGTCATGTTGGTCACCAGCTACGTGCTGTGGGCATTTTCGCTACCGGTGGCGTTCAGCATTCTGACCATCCTGCTGCTGCGCATGGCCCTGCACAAACTGCCGCATGAAAACATGGCCGCCTCGAGCTGGCTGGCCCTCGGCCCCATCGGCACGGGCGCCTTGGGCATGTTGCTGCTGGGTGGCGAGGCACCGCTGATTTTCGCCGCCAATGGCTTGCCGGGCGTGGGCGAGGTTGCCTCGGGGCTGGGGCTGGTGGCCGGCATCACCCTGTGGGGCTTGGGTTTGTGGTGGATGTTGATGGCGCTGTTGATCACCGGGCGCTATCTGCGCGAAGGCATCCCGTTCAATCTCGGCTGGTGGGGTTTTACCTTTCCCTTGGGCGTGTACGCACTGACCACGCTGAAACTGGCGAGCGTGCTGGGGCTGGTATTTTTCAACCTGCTGGGTTGCGCATTGGTGGTGGTGCTGGCGGTGATGTGGCTGATCGTCGCTCGGCGCACGGTGCTGGGCGCCTGGCACGGTGAGTTGTTCGTGTCGCCTTGTATTGCGGGGCTGGGGAAATAA	MTCCAAKNRLRPLSHLAGPLEAVRQFTPNWFAATMGTGVLALALAQVPGGNAGLHAFAEGLWLFNIFLFALFTGLYGARWMLFFNEARRVFGHSTVSMFFGTIPMGLATIINGFLVFGLPRWGDGVVAVAEVLWWIDVVMSLACGVLIPFLMFTRQEHRIDQMTAVWLLPVVAAEVAAASGGLLAPHLGDAHAQLVMLVTSYVLWAFSLPVAFSILTILLLRMALHKLPHENMAASSWLALGPIGTGALGMLLLGGEAPLIFAANGLPGVGEVASGLGLVAGITLWGLGLWWMLMALLITGRYLREGIPFNLGWWGFTFPLGVYALTTLKLASVLGLVFFNLLGCALVVVLAVMWLIVARRTVLGAWHGELFVSPCIAGLGK				NA	NA	NA	NA	NA
D1-35_00445	1875	lplT		Lysophospholipid transporter LplT	ATGAGTCACCCCTCGCAGTTCACCTTGCTTCGCACGCGGCGTTTCCTGCCGTTCTTCATCACACAGTCCCTCGGCGCGTTCAACGACAATATCTTCAAGCAGTCGCTGATCCTCGCCATCCTCTATAAATTGACCATCGAGGGTGATCGCTCGATCTGGGTCAATCTGTGCGCGCTGCTGTTCATCCTGCCGTTCTTCCTGTTCTCGGCGCTGGCGGGCCAGTTCGGCGAAAAATTCGCCAAGGATGCGTTGATTCGCCTGATCAAGCTTGGCGAAATCGCGATCATGGCGGTCGGCGCGGTGGGTTTCCTGTTCGATCATCTGTGGCTGATGCTGGTGGCGCTGTTCGCCATGGGCACGCACTCGGCGCTGTTCGGGCCGGTGAAATATTCGATCCTGCCGCAAGCCCTGCGCGAGGATGAGCTGGTCGGCGGCAACGGCCTGGTGGAGATGGGGACGTTCCTGGCGATCCTCGCCGGCACCATCGGCGCCGGGATCATGATGTCCTCGGCCAATTACGCGCCCGTGGTCTCGGTGGCGATTGTCGGCATTGCCGTGGCCGGTTACCTGGCCAGCCGCGGCATTCCACGGGCGGCGGCCGCTTCGCCGCAGATGCGTTTGAACTGGAACATCTTCAGCCAGTCCTGGGCGACCCTGAAGCTGGGCCTCGGGCAGACCCCGGCGGTGTCCCGCTCGATTGTCGGCAATTCCTGGTTCTGGTTTGTCGGCGCGATCTATCTCACCCAGATCCCGGCCTATGCCAAGGAATGGATGCACGGCGACGAAACCGTCGTGACGCTGATCCTGACGGTGTTTTCGGTGGGGATCGCCCTGGGCTCGATGCTCTGCGAAAGGCTCTCGGGGCGCAAAGTGGAGATCGGCCTGGTGCCGTTCGGTTCGTTCGGGCTGACGGTGTTCGGCTTGCTGTTGTGGTGGCATTCCGGTGGAATCCCCGCCAGCGTCGACGGCCACGGCTGGCTGCAAATTCTGGGTTTCGGCCACGCCTGGCTGGTGCTGATCGATATCCTCGGGCTGGGTATCTTTGGCGGTTTCTACATCGTGCCGCTGTATGCATTGATCCAGTCGCGCACCGTTGAAAACGAGCGGGCGCGAGTGATCGCCGCCAACAACATCCTCAACGCCTTGTTCATGGTGGTCTCGGCGATCGTTTCCATCGTCCTGCTGAGCCTGGCCAAGCTGTCGATCCCGCAGCTGTTCCTGGTGGTGTCGCTGCTGAACATCGGCGTCAACGCCTACATTTTCAAGATCGTCCCCGAGTTCAGCATGCGTTTCATGATCTGGCTGCTCAGCCATTCCATGTACCGCGTGGAGCATCGCAACCTGCAAGCGATCCCGGATGAGGGAGCAGCGTTGCTGGTGTGCAATCACGTATCGTTTGTCGATGCCTTGCTGATTGGTGGCGCGGTGCGTCGGCCGATTCGTTTTGTCATGTACTACAAAATCTACAACCTGCCGATCCTGAACTTTATCTTCCGCACCGCCGGGACCATTCCGATTGCCGGGCGCCAGGAGGATATCCACATCTATGAAAAAGCCTTCAGCCGCATCGCCCAATACCTGAAGGACGGTGAGCTGGTGTGCATCTTCCCTGAAGGAAAGTTGACCGCCGACGGTGAGATCAACGAGTTCAAGAGCGGGCTGACGCGCATCCTTCAAGAAACCCCGGTGCCGGTGATTCCCTTGGCATTGCAGGGCTTGTGGGGCAGCTTTTTCAGCCGTGATCCGAGCAAGGGGCTGTTTCGGCGGTTCTGGTCGCGGGTGACGCTGGTGGCGGGGACGGCGGTGGCGGTCGAGGCGGCGGAGCCGGCGAAGTTGCAGGCGTTGGTCGGAGAGTTGCGCGGGGCGGTCAGATAA	MSHPSQFTLLRTRRFLPFFITQSLGAFNDNIFKQSLILAILYKLTIEGDRSIWVNLCALLFILPFFLFSALAGQFGEKFAKDALIRLIKLGEIAIMAVGAVGFLFDHLWLMLVALFAMGTHSALFGPVKYSILPQALREDELVGGNGLVEMGTFLAILAGTIGAGIMMSSANYAPVVSVAIVGIAVAGYLASRGIPRAAAASPQMRLNWNIFSQSWATLKLGLGQTPAVSRSIVGNSWFWFVGAIYLTQIPAYAKEWMHGDETVVTLILTVFSVGIALGSMLCERLSGRKVEIGLVPFGSFGLTVFGLLLWWHSGGIPASVDGHGWLQILGFGHAWLVLIDILGLGIFGGFYIVPLYALIQSRTVENERARVIAANNILNALFMVVSAIVSIVLLSLAKLSIPQLFLVVSLLNIGVNAYIFKIVPEFSMRFMIWLLSHSMYRVEHRNLQAIPDEGAALLVCNHVSFVDALLIGGAVRRPIRFVMYYKIYNLPILNFIFRTAGTIPIAGRQEDIHIYEKAFSRIAQYLKDGELVCIFPEGKLTADGEINEFKSGLTRILQETPVPVIPLALQGLWGSFFSRDPSKGLFRRFWSRVTLVAGTAVAVEAAEPAKLQALVGELRGAVR				NA	NA	NA	NA	NA
D1-35_00446	315	gdx	COG2076	Guanidinium exporter	ATGTCCTGGATCATTCTGTTTTTCGCCGGCCTGTTCGAAGTCGGCTGGGCTGTCGGCCTGAAGTACACCGACGGCTTCAGCCGCCCGCTCCCTACCGCACTGACAATCGCCGCCATGGCGATCAGCCTCGGCCTGCTCGGCCTGGCGATGAAGGAGTTGCCGCTGGGCACCGCCTATGCCATCTGGACCGGGGTCGGTGCCGTCGGCACGGTGATCGCCGGGATCATCCTGTTTGGCGAGTCGATGGCACTGATTCGCCTGGCCAGCGTTGCGCTGATCATAGCCGGGCTGGTCGGGCTAAAGGTCAGCGCTTAA	MSWIILFFAGLFEVGWAVGLKYTDGFSRPLPTALTIAAMAISLGLLGLAMKELPLGTAYAIWTGVGAVGTVIAGIILFGESMALIRLASVALIIAGLVGLKVSA	PGPT0028785_2696	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
D1-35_00448	966	panS	COG0385	Pantothenate precursors transporter PanS	ATGCGTGCACTGGCTGCATTGAGCCGCTTCGTCGGCAATACGTTCGCTTACTGGGTGTTGCTGTTCGCCGTCGTGGCGTTCTTTCTGCCGACCTGGTTCATCGGCCTCAAAAGCGCCATTGTGCCGCTGCTGGGGCTGGTGATGTTCGGCATGGGCCTGGCACTGAAGCTGGAAGACTTTGCCGAAGTGGCTCGTCGCCCTGGACGGGTGGCCCTGGGCGTGATTGCCCAGTTCGTGATCATGCCGGGGACAGCATGGCTGCTTTGCCAGGTTTTCAGCCTGCCGCCGGAAATCGCCGTCGGCGTGATTCTGGTGGGTTGCTGCCCGAGCGGCACGTCCTCCAACGTGATGACCTGGCTCGCCCGCGGCGACCTGGCCTTGGCCGTAGCGATATCCGCCATCACCACCCTGCTTGCCCCGCTGCTGACCCCGACGCTTATCTGGCTGCTGGCTTCGGCCTGGCTGCCGGTGTCGTTCTCGGCATTGTTCTGGTCGATACTGCAAATTGTGTTGCTGCCCATCGCACTGGGTATCGTTGCCCAACGTTTGTTGGGTGCGCGGGTCCGTCATGCCGTAGAGGTGCTGCCGCTGGTATCGGTGGTCAGTATCGTGATCATCGTTGCGGCGGTGGTGGCAGCCAGCCAAGCGAAGATCGCTGAGTCCGGCCTGCTGATCATGGCGATCGTGATCCTGCATAACAGCTTCGGCTACTTGCTGGGGTATTTCACCGGTCGGCTTTTCGGGCTGCCGTTGGCCCAACGCAAGACGTTGTCGCTGGAAGTCGGCATGCAGAACTCCGGCCTCGGTGCGGCATTGGCCAGCGCACACTTTTCGCCGCTGGCGGCAGTGCCCAGCGCGCTGTTCAGCGTCTGGCACAACATTTCCGGCGCCCTGCTCTCGACCTGGTTCCGGCGCATGAGCGAAAAGCAGGACCGCGAAGAACTCGCCCGACAAACCGCGGACTGA	MRALAALSRFVGNTFAYWVLLFAVVAFFLPTWFIGLKSAIVPLLGLVMFGMGLALKLEDFAEVARRPGRVALGVIAQFVIMPGTAWLLCQVFSLPPEIAVGVILVGCCPSGTSSNVMTWLARGDLALAVAISAITTLLAPLLTPTLIWLLASAWLPVSFSALFWSILQIVLLPIALGIVAQRLLGARVRHAVEVLPLVSVVSIVIIVAAVVAASQAKIAESGLLIMAIVILHNSFGYLLGYFTGRLFGLPLAQRKTLSLEVGMQNSGLGAALASAHFSPLAAVPSALFSVWHNISGALLSTWFRRMSEKQDREELARQTAD	PGPT0013890_1256	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013890-panS|yocS|ybaS-K03453	NA	NA
D1-35_00449	921	rdgC	COG2974	Recombination-associated protein RdgC	ATGTGGTTCAAGAACCTGCTTATCTATCGCCTGACCCAAGATCTGCCTGTTGATGCCGAGGCGTTGGAAACTGCACTGGCGAGCAAACTGGCACGCCCCTGTGCAAGCCAGGAGTTGACCACTTACGGTTTCGTCGCGCCGTTTGGCAAAGGTGAAGACGCGCCCCTGGTGCATGTCAGCCAGGACTTTTTGCTGATTGCCGCACGCAAGGAAGAACGCATCCTGCCGGGCAGCGTCGTCCGTGACGCGGTCAAGGAAAAGGTCGAAGAGATCGAAGCCGAGCAGATGCGCAAGGTCTATAAAAAGGAACGCGACCAGATCAAGGATGAAATCATCCAGGCCTTCCTGCCTCGCGCCTTCATTCGCCGTTCGTCCACGTTCGCCGCGATCGCGCCGAAACAGGGCCTGATCCTGGTCAACTCGGCCAGCCCGAAACGCGCCGAAGACCTGCTTTCGACCCTGCGCGAAGTCATCGGCACGCTGCCGGTACGCCCGCTGACAGTGAAGACGGCCCCGACCGCGATCATGACCGACTGGGTCAAGACCCAGAAAGCCGCAGACGATTTCTTCGTGCTGGACGAATGCGAACTGCGCGATACCCATGAAGATGGCGGCATCGTCCGTTGCAAGCGCCAGGACCTGACCAGCGACGAAATCCAGCTGCACCTGAACACCGGCAAGGTGGTGACGCAACTGTCGCTGGCCTGGCAAGACAAGCTGTCTTTCGTGCTCGACGACAAAATGGTGGTCAAGCGCCTGAAGTTCGAAGACCTGCTGCAAGACCAGGCGGAACAGGACGGCGGCGACGAAGCCCTCGGCCAACTGGACGCCAGCTTCACCCTGATGATGCTGACGTTCGGCGAGTTCCTGCCGGCGCTGGTTGAAGCGCTGGGTGGTGAAGAGATTCCGCAAGGGATCTAA	MWFKNLLIYRLTQDLPVDAEALETALASKLARPCASQELTTYGFVAPFGKGEDAPLVHVSQDFLLIAARKEERILPGSVVRDAVKEKVEEIEAEQMRKVYKKERDQIKDEIIQAFLPRAFIRRSSTFAAIAPKQGLILVNSASPKRAEDLLSTLREVIGTLPVRPLTVKTAPTAIMTDWVKTQKAADDFFVLDECELRDTHEDGGIVRCKRQDLTSDEIQLHLNTGKVVTQLSLAWQDKLSFVLDDKMVVKRLKFEDLLQDQAEQDGGDEALGQLDASFTLMMLTFGEFLPALVEALGGEEIPQGI				NA	NA	NA	NA	NA
D1-35_00455	1137			hypothetical protein	ATGCTCATAAAGCTCTGGCTGCGCCTCGGCGCCTTTCTGGGCAAGACGCTCCTCTGGCTGCTGGGCATCGGCCTGCTCGGCTGGGCCCTGGCCACGGCCTGGTTCGCCTGGCAACACAGTGGGCCGGTCGCGGACAAGGAGCAGATACCGCCCGGTGAAAGCGCCATGACCCAGGACATCATCCAGACCGCCATCCGCATCGTCGACCAGCACCGCGAAGGCACGCGCTACCTGCGCGATGCCCATGCCAAGGCCCACGGCTGCGTGATGGCCGAAGTCCAGGTGCCCGGCGATCTGCCGGCACCGTTGCGCCAGGGCGTATTCGCCGAACCGGGCAAGACCTGGCAGGCGACGATCCGCCTGTCCAACGGCAACGCTTATCCACAGTTCGACAGCCTGCGCGATGCACGAGGGATGGCCATCAAGCTGCTGGATGTGCCCGGCAAGCAATTGCTCGCGGACCGGCAATCGCAGGGCGAGCAGGACTTCGTGATGTTCAATCATCCGAACTTCTTTGTCAGCGATGTCGCCGAATACCGTCAGAACGTGGCGGCCCAGGCTGACGGAAAAAAGGCGATGGCTTTCTTTCCGAGCCTGGACCCACGCAGCTGGCAGATCCGTCATCTGTTCATCGCCCTGGCGACACTCTCCCCGCCTCCGGCGAGCCCGACCCAGACCACTTATTTCTCGGTATCGCCGTACAAGTTCGGCGCGGCCAATGCCAAGTTTCGCGTCGCGCCGGATCCGGACAACTGCCCAGCCTACACCCTGCCCAAGCAGAACCAGAACCTGCCGAATTTCTTGCGCAGCGCACTGACTCAACAGTTATCCACAGACCGCGTGCCAGCCTGTTTTGTGCTGCAGATCCAGCGTCAGGACCCGGGCAAATACATGCCGATCGAAGACACCAGTATCGAGTGGCGGGAAAGCGATGCGCCATTCGAGACGGTGGCGCGAATCAAGGTGCCGGCCCAGGATTTCGATACGCCCAAGCTGAACCTGGCTTGCGACAACCTGTCGTTCAACCCGTGGTTTGGGCTCGAGGCACATCGGCCTATTGGCGGTATCAACCGTTTGCGTAAAGCGGTGTATGAGGCGGTCAGCGATTATCGGCATAGTCGGAATGCTGAGCAGTAG	MLIKLWLRLGAFLGKTLLWLLGIGLLGWALATAWFAWQHSGPVADKEQIPPGESAMTQDIIQTAIRIVDQHREGTRYLRDAHAKAHGCVMAEVQVPGDLPAPLRQGVFAEPGKTWQATIRLSNGNAYPQFDSLRDARGMAIKLLDVPGKQLLADRQSQGEQDFVMFNHPNFFVSDVAEYRQNVAAQADGKKAMAFFPSLDPRSWQIRHLFIALATLSPPPASPTQTTYFSVSPYKFGAANAKFRVAPDPDNCPAYTLPKQNQNLPNFLRSALTQQLSTDRVPACFVLQIQRQDPGKYMPIEDTSIEWRESDAPFETVARIKVPAQDFDTPKLNLACDNLSFNPWFGLEAHRPIGGINRLRKAVYEAVSDYRHSRNAEQ				NA	NA	NA	NA	NA
D1-35_00456	1806			hypothetical protein	GTGCGCCTCCTCTCTCGCCTTTTATTGCTGATCCTCACGCTGGCCATCGTGGTCGTGGCCGTGGTGCTTTATTACGTGGCCAACCCGCGCCTGCCGGCCTACACGCCTGTCCAACAGGTGCACTACCTGGACCAATGGAGCGCCGCCGAGCGACAGACTTACTATTTCACGCCTCAGGGCACTCAGGTCAAAGGCCTGCGTTACGAGTGGTTCACCGCGCTTGAATTGCCGTTCTCGCAACAGCGCTTCGCTTCGCCGGAATACCTGGCGCGCTTCGGTTTTCTGGTCGATCCTGCGCAGAAAGCCACGCCACTGAACCCCGGCAACTTACCGGTGGGCTTCACCCGACACCAGAACGCCGGCAGTAACGAGCAATACCTCGACATTACCTGCGCCGCCTGCCACACCGGCGAATTGCATTTCAAGGGCCAGGCGATCCGGATCGATGGCGGCTCGGCCCAACACGTATTGCCATCGACTGTTCCGACATTGCGCGGCGGCAGTTTCGGACAGGCACTGGTGGCAAGTCTCGCCTCGACTTACTACAACCCATGGAAATTCGAACGCTTCGCCCGCCAGGTGCTGGGCAATGACTATGACGCTCGCCATGAAGAGTTGCGCAAGGCCTTCAAGGTTTCCCTGAATGCGTTCCTGCGCACCGCCTGGAACGACACCCATCGCGGTCTCTATCCCACCGAGGAAGGCCCGGGCCGTACCGACGCCTTTGGCCGTATCGCCAATGCCAGCTTTGGCGATGCCATTTCGGCAGAAAACTACCGGGTCGCCAACGCACCGGTGGATTACCCACAGTTGTGGGAAATGTGGACGTTCGACTGGGTACAGTGGAACGGTTCGGCGCAGCAGCCGATGGCCCGCAACGTCGGCGAGGCGCTGGGGGTTGGCGCCACGTTGAGTTTCTTCGATGCCCAGGGCAAGCCGCTGCAAGGCGATGCGCGCTATCCTTCCAGCGTGCGGGTGCGCGACCTGAACAAGATCGAAGAGACCTTGCAACTGCTCAAGCCACCCGTATGGCCGGAAGCGTTGCTGGGTTCGATTGACAAGCCCCTGGCGGCAAAGGGCAAGGCGTTGTTCGAAGAAAACTGCGCCGGCTGCCATGTGCCCAAAGTCGTCCAGGGCCCTGACCGGCCGGTGCAACAGTTGCATATGCTGTCAGTGAAGGTGATCGGCACGGACCCGGGCACCGCGAACAATATTGCCGATCACCGTTTCAACCTGACCAGCCTGCAATGGGACCCGGCCGAACTGGCGAAGCTGGAAGTGCAACTGCACCCTGCCCCGACAGAGCCGCTGGACCTCAGCCAGATCTCGGTCGCCAAGGGGCTGGCCTACGTCACCGCATTCGTCGAAAACCGCGCTTACCGGGATGCCGGCGTCACGCCGGTGGAACGTCCGGCGCTGGACGGTTTCGGGCTGCCCATCGGCGTCCGTGAATTACGCGCCTACAAGGCCCGGCCATTGGCCGGCGTGTGGGCAACACCGCCGTTCCTGCACAACGGCTCGGTGCCGACGATCTATGAGTTGCTGTCGCCGCAGGCCGAGCGGGCGACCACCTTCTATAAGGGCAGCTTCGAATACGACCCGCGGCACCTGGGCTATCGCACCGAAGCGTTTGCCAATGCCTTCCTGTTCGACACTCGCATCACTGGCAACCATAACAGCGGCCATGAATTCCGCGCCGGCGAACGGGGCAATGGGGTCATTGGCCGTTTGCTGCAGCCGCAGGAGCGCTGGGCGTTGCTGGAGTACTTGAAGGTGCTGGGCGGACCGCTGGAGTCGCAACTGTGA	MRLLSRLLLLILTLAIVVVAVVLYYVANPRLPAYTPVQQVHYLDQWSAAERQTYYFTPQGTQVKGLRYEWFTALELPFSQQRFASPEYLARFGFLVDPAQKATPLNPGNLPVGFTRHQNAGSNEQYLDITCAACHTGELHFKGQAIRIDGGSAQHVLPSTVPTLRGGSFGQALVASLASTYYNPWKFERFARQVLGNDYDARHEELRKAFKVSLNAFLRTAWNDTHRGLYPTEEGPGRTDAFGRIANASFGDAISAENYRVANAPVDYPQLWEMWTFDWVQWNGSAQQPMARNVGEALGVGATLSFFDAQGKPLQGDARYPSSVRVRDLNKIEETLQLLKPPVWPEALLGSIDKPLAAKGKALFEENCAGCHVPKVVQGPDRPVQQLHMLSVKVIGTDPGTANNIADHRFNLTSLQWDPAELAKLEVQLHPAPTEPLDLSQISVAKGLAYVTAFVENRAYRDAGVTPVERPALDGFGLPIGVRELRAYKARPLAGVWATPPFLHNGSVPTIYELLSPQAERATTFYKGSFEYDPRHLGYRTEAFANAFLFDTRITGNHNSGHEFRAGERGNGVIGRLLQPQERWALLEYLKVLGGPLESQL				NA	NA	NA	NA	NA
D1-35_00457	714	fklB_1	COG0545	FKBP-type 22 kDa peptidyl-prolyl cis-trans isomerase	ATGAAACAGCATCGGTTGGCGGCGGCGGTAGCCCTGGTTGGCCTGGTACTCGCGGGTTGTGACTCGCAGACCAGCGTAGAGCTGAAAACCCCGGCGCAGAAAGCTTCCTACGGTATCGGCCTGAACATGGGCAAAAGCCTGGCTCAGGAAGGTATGGATGACCTGGACTCCAAGGCAGTCGCCCAGGGCATCGAAGATGCCGTCGGCAAGAAAGAACAGAAGCTGAAAGACGAAGAACTGGTCGAAGCCTTTGCCGCGCTGCAAAAACGTGCCGAAGAGCGCATGGCCAAGATGAGTGAAGAGTCGGCAGCCGCCGGCAAGAAATTCCTTGAGGAAAACGGCAAGAAGGCCGGCGTTACCACCACCGCTTCCGGCCTGCAGTACGAAGTGGTCAAGAAGGCCAGCGGCGCGCAGCCTAAGCCGACCGACGTGGTGACCGTTCACTACACCGGCAAGCTGACCAACGGCACTGTGTTCGACAGCTCCGTGGAGCGTGGCAGCCCGATTGACCTGCCGGTCAGCGGTGTGATCCCGGGTTGGGTCGAAGGCCTGCAATTGATGCACGTCGGCGAGAAGTACAAGCTGTACATCCCGAGCGACCTGGCCTACGGCGCCCAGAGCCCGAGCCCGGCGATCCCTGCCAACTCGGTCCTGGTATTCGACCTGGAACTGCTGGCAATCAAGGATCCGGCAAAAGAAGGCGCAGCCAAGTAA	MKQHRLAAAVALVGLVLAGCDSQTSVELKTPAQKASYGIGLNMGKSLAQEGMDDLDSKAVAQGIEDAVGKKEQKLKDEELVEAFAALQKRAEERMAKMSEESAAAGKKFLEENGKKAGVTTTASGLQYEVVKKASGAQPKPTDVVTVHYTGKLTNGTVFDSSVERGSPIDLPVSGVIPGWVEGLQLMHVGEKYKLYIPSDLAYGAQSPSPAIPANSVLVFDLELLAIKDPAKEGAAK				NA	NA	NA	NA	NA
D1-35_00458	456			hypothetical protein	ATGAAGGCCCCGTGGAATTTCGCGCGATTTCTTCCCCTGGCGGGACGGCTCCTGGCCCGCGGCAGACTGCCCACGCTGCTGTTCGCCGTTGCCAGCAAGGGCGCCCGGGAGGGCGGTCGCCTCGGCAAGCTCAAGGAGGACCTGCGTCTGCTGCAGGCTCTGTGCCTGGCTTACTGGCGGGGCGAATACCGCGCCGTGAGTGCCAAGTCGATGCTCTCGGTGGTGGCGGGCCTCATGTATTTCCTCAGCCCGCTGGATGCGATCCCGGACTTGCTGCCCATGTTAGGCATGTTCGACGACATCGCGGTGCTGGCCTGGATCATGAAAACCCTCGACGACGAGCTGGGTGCCTTCCGTGCCTGGCGCGAACAGCAGTCGCCGGAGAAACTTGCGCGGGTTGAAAGGCTTCCCGACACCCCGGAACAACTCCAGCTGCAAGGGCCGAAAAAAAGCTGA	MKAPWNFARFLPLAGRLLARGRLPTLLFAVASKGAREGGRLGKLKEDLRLLQALCLAYWRGEYRAVSAKSMLSVVAGLMYFLSPLDAIPDLLPMLGMFDDIAVLAWIMKTLDDELGAFRAWREQQSPEKLARVERLPDTPEQLQLQGPKKS				NA	NA	NA	NA	NA
D1-35_00459	339			hypothetical protein	ATGGATATTCAAATAATCACGCGCGACGGAGAGCCCGAGTACGCGGTTTTGCCGTGGGATCAGTACCAGGCGCTGCTGAAGGCAGCCGGCATCAATCAAGCACCGCAAGAAGCCACGGTCCGCCATGCGGCGGCACCCGGCCAGGTTCTCCCTGGCCTGGATCAACTACGCAGTTTGCGCGAAGGGAAGGGCATCGCCATCGAGGCGCTGGCCCGCACGGTAGGCATCAGCCCGTCTTATCTGGCCATGATCGAAAGCGGCGAGCGTCAGCCCGATGCCGCGATCAAGCGCAGTCTGGCCTGGGAACTGACGGTGCCGGGTTGGAGGGATGAATCGTGA	MDIQIITRDGEPEYAVLPWDQYQALLKAAGINQAPQEATVRHAAAPGQVLPGLDQLRSLREGKGIAIEALARTVGISPSYLAMIESGERQPDAAIKRSLAWELTVPGWRDES				NA	NA	NA	NA	NA
D1-35_00460	372			hypothetical protein	GTGAGTGTACGCATCAGTCGGCAACATTGGGACGGGTTGTTGGGTGAGTTGGACCAGGCGCGTCGCCAGCGCCATTTATTGACGTACCGCGCCTTGCTGGAGCGCTTGCAGCTGCCCAGCCCGGCCATGCAGACATTGACCGCCGCACTCGAACACCTGGCGGCGCTGGACGCCCGGGCCGAACAGCCATTGCGCAGTTCGTTGGTCATCAGCCAAGGGGCCAGTCGCCTGCCACGCACTGGTTTTTTCGAATGTGTTGAACGCCTCGGGCGCTTTTCCGGCCCCTCCGACGGCGTCGCCGCTGCATCCTGGCATGCGTCGGAAGTGGTCCGGGTGTTCGAATACGAGTACCCCGAATCGGCGGAGGCCTGA	MSVRISRQHWDGLLGELDQARRQRHLLTYRALLERLQLPSPAMQTLTAALEHLAALDARAEQPLRSSLVISQGASRLPRTGFFECVERLGRFSGPSDGVAAASWHASEVVRVFEYEYPESAEA				NA	NA	NA	NA	NA
D1-35_00461	402			hypothetical protein	GTGCTCTGGCGGATCAAGGCCCGGGCCGGTTATTGGCTGGCGCGCCGATTGTTCCGTTGGTCATGGCTGGTTCGGCAGCCCCGCGGCTGGGCCTGGCTTGAAGGCCAGTTTGCGCGCATGGCGAACCTGGGCGACGTCGGCGCCCAGAGCTTCTACGGGCATATCCTGACGTTTCGCGGCCAAGGGCTCGGCGCACGGGAAGAAGGCATTCGCTTGCTCCGCCTGGCGGCGCTGGCCGGTGACGGCAAGGCCGCCTACCAGGTCGGCGTCATCAGCCTGGCAGGCTCTACCACCAAGGCGCCGGATCCGGACGAAGCGGCGCGTTGGTGGGCCTTGGCCCTGAAGGCCGGGCATCCGCTGGCCGAGATCAAGCTCAAGGCGCTCGAGAGCAAGAAACCCTGA	MLWRIKARAGYWLARRLFRWSWLVRQPRGWAWLEGQFARMANLGDVGAQSFYGHILTFRGQGLGAREEGIRLLRLAALAGDGKAAYQVGVISLAGSTTKAPDPDEAARWWALALKAGHPLAEIKLKALESKKP	PGPT0000855_6613	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-ACIDITY|NITROGEN_RELATED_REGULATION,PGPT0000855-exoR-K07126	NA	NA
D1-35_00462	1788			hypothetical protein	ATGACCACGACAGAACAGCTGAGTGCCTTGAGCTCAATCCTGAGTCAAAGCGGTTTGCACAGCCTGTTCCAGCCGATCATCTGTCTTTCCGAACGACGCATCCTCGGCTATGAGGCCCTGACCCGCGGCCCGTCGAACAGCCCGCTGCACTCCCCCATCGCGTTATTGTCCGTGGCGCGCCAGGCCGGACGCCTCAGCGAACTGGAGCTGGCCTGCCGACGCAGCGCTTGCCAGCGCTTCAATGAACAGAAGCTGCCGGGAAAACTGTTCCTCAACGTCTCGCCAGAATCGCTGCTCGAATCGGCCCACCAGACCGGCCGCACCCTGCAGCTGTTACAGGACTTCGGCATTCCGCCCAGCCAGGTGGTTATCGAACTGACCGAACAAACGCCTATCGATGACTTCCAGCTGCTGCAAACCGCCCTGCATCACTATCGAGCCATGGGTTTTTCCATTGCCCTGGATGACCTTGGTGCCGGGTATTCAAGCTTGCGGCTGTGGTCCGAATTGCGACCTGACTACGTGAAGATCGACCGGCATTTCATCGATGGCATTCACCAGGACGCACTCAAGCGTGAATTCGTCGGTTCCATTCTCAAGATCGCCCAGGCTTCACGGGCCCAGGTGATCGCCGAAGGGATCGAATTGCCGGAAGAGCTCGCCGTGTTGATCGAAATGGGCGTCGACCTGGTCCAGGGCTACTTGCTCGCCCGGCCCCAGGAGCATCCATCCCAGGACGCCAAGGCATTGATGCCCCGCCAGGACAGCGGCGTGGTGCCGCTGGGCGATGAGGTCAACGACCTCACTGCGCTGCTCAACGAACAACCGGCAGTCGCCCACGACACACCGACGGCAGCGGTACTGGAAGCGTTCCGGCGCCAGGCCAACCTCAATTCCCTGGCGGTGCTGGACGATCGCGACCAACCGTGCGGGATCGTCCATCGTCATTCGCTCTCGGATGCCCTGCTCAAGCCTTTCGCCACCGACCTGTTCGCTCGCAAGCCCATCAGCCGCCTGATGAGCGATGATTTCCTCGCGGTTGAACTGAGCCAGTCACTGCAACAAGTCAGCCGCCTCATCACCAGCCGCGCCCGCCAGCGCATCGAAGAAGACTTCATCATCACCCTCAACGGCGGCTACCTGGGCCTGGGCCGGGTGATCGACGTGCTCAAGCTCATCACCGAACTGAAGATCCAACAGGCGCGCTACGCCAACCCGCTGACTTTGCTGCCAGGCAACGTGCCCATCCAGCAGTGCCTTACACGCCTGCTGCAGCAGCGCCAGGAGTCGGTGATCTGCTACGTCGACATCGACAGTTTCAAACCCTTCAACGACATCTACGGCTACGGTCGCGGTGACGAAGTCCTGCTGTGCCTGGCCCAATGCCTGAACGAACGCATTGACCCCAGCCGCGATTTCGTCGGCCACATCGGCGGCGACGACTTCCTGCTGGTCCTCGGCCCGGACGACTGGCGCAAGCGCCTGACCCAACTGCTGAGCGACTTCCAGAACCACTGCCGCCGCTTCTACCGGCCCGAGCATCTGGAAGCCGGATGTTTTACCGCGTTGAACCGACAGGGCATACGACAGGACTTCGCCTTGCTGTCGTTGTCGATCGGGGTGGTGCATCTGCGCGCCGAGGCCTGTGCAGAGCTGGATGCCAGCCAGTTGGCGGAAATGGCTTCGCAGGCCAAGCACCATGCCAAGGAGATCGTCGGGGGGAGTTTGTATTTGATTAACGGGCTGGTTGAGCAGGCGCCCGTGGCGGAGCTGGGTTTCTCAGCGTGA	MTTTEQLSALSSILSQSGLHSLFQPIICLSERRILGYEALTRGPSNSPLHSPIALLSVARQAGRLSELELACRRSACQRFNEQKLPGKLFLNVSPESLLESAHQTGRTLQLLQDFGIPPSQVVIELTEQTPIDDFQLLQTALHHYRAMGFSIALDDLGAGYSSLRLWSELRPDYVKIDRHFIDGIHQDALKREFVGSILKIAQASRAQVIAEGIELPEELAVLIEMGVDLVQGYLLARPQEHPSQDAKALMPRQDSGVVPLGDEVNDLTALLNEQPAVAHDTPTAAVLEAFRRQANLNSLAVLDDRDQPCGIVHRHSLSDALLKPFATDLFARKPISRLMSDDFLAVELSQSLQQVSRLITSRARQRIEEDFIITLNGGYLGLGRVIDVLKLITELKIQQARYANPLTLLPGNVPIQQCLTRLLQQRQESVICYVDIDSFKPFNDIYGYGRGDEVLLCLAQCLNERIDPSRDFVGHIGGDDFLLVLGPDDWRKRLTQLLSDFQNHCRRFYRPEHLEAGCFTALNRQGIRQDFALLSLSIGVVHLRAEACAELDASQLAEMASQAKHHAKEIVGGSLYLINGLVEQAPVAELGFSA				NA	NA	NA	NA	NA
D1-35_00463	2079	prc	COG0793	Tail-specific protease	ATGAAGCACTTTTTACCCAGCACTGCACTTGCCCTCTTCATTGGCCTTGGCGCTTCAGCGCTCTCGAACACTGCGTTCGCGGCCAACAGCTGGGACAAGCTTCAGCCCGATCGCGACGAGGTGATCGCCAGCCTCAATGTGGTTGAGTTGCTCAAGCGCCATCACTACAGCAAGCCGCCACTCGATGACGCGCGCTCGGTCATCATCTATGACAGCTACCTGAAGCTGCTTGATCCGTCGCGCAGTTATTTCCTGGCCAGCGACATCGCCGAATTCGACAAGTGGAAGACCCAGTTCGACGACTTCCTCAAGAGCGGCGACCTCAACGCCGGGTTCATTATCTACAAGCGCTACCTGGACCGCGTCAAGGCGCGCCTGGACTACGCCCTTGCCGAGTTGAACAAGGGCGTCGACAAGATCGACTTCAATGCCAAGGAAACCTTGCTGGTCGACCGCAAGGACGCCGCATGGCTCAAGAGCACCGCCGAACTCGACGACCTGTGGCGCAAACGCGTCAAGGACGAAGTGTTGCGTATGAAGATCGCCGGCAAGGATCCCAAGCAGATCCAGGAAACCCTGACCAAGCGCTACAAGAATCAACTCGCGCGCCTGGACCAGACCCGTGCCGAGGACGTCTTCCAGGCCTATATCAATACCTTCGCGATGTCCTACGATCCGCACACCAATTATCTGTCGCCGGATAACGCGGAAAACTTCGACATCAACATGAGCCTGTCCCTGGAAGGCATCGGCGCGGTACTGCAGAGCGATAACGATCAGGTCAAGATCGTGCGCCTGGTGCCGGCGGGCCCTGCCGACAAGACCAAGCAGGTCGCCCCGGCGGACAAGATCATCGGCGTGGCCCAGGGCAACAAGGAAATGGTCGACGTGGTCGGCTGGCGCCTGGACGAAGTGGTCAAGCTGATCCGCGGCCCGAAAGGTTCGGTGGTCCGCCTGGAAGTCATCCCGGCCAGCAATGCGCCGAACGACCAGACCAGCAAAGTCGTATCCATTACCCGTGAAGCAGTGAAGCTGGAAGAACAGGCCGCGAAAAAATCGGTCCTCCAGCTCAAGCAGGACGGCAAGGACTACAAGCTCGGCATCATCGAGATCCCGGCTTTCTATCTGGACTTCAAGGCTTTCCGCGCTGGGGATCCGAACTACAAGAGCACCACGCGCGACGTCAAGAAACTGCTCACCGAACTGCAGAAGGAAAAGGTCGACGGCGTGGTCATCGACTTGCGCAACAACGGCGGCGGCTCGTTGCAGGAAGCCACCGAACTGACCAGCCTGTTCATCGACAAAGGCCCGACCGTGCTCGTGCGTAACGCCGATGGTCGGGTCGATGTGCTCGAGGACGAAAACCCCGGCGCGTTCTACAAGGGACCAATGGCCCTGCTGGTCAATCGCCTGTCGGCCTCGGCCTCGGAGATTTTCGCCGGCGCCATGCAGGACTACCACCGCGCGCTGATCATCGGCGGCCAGACGTTCGGCAAAGGCACCGTGCAGACCATCCAGCCACTGAACCACGGCGAACTGAAACTGACCCTGGCGAAGTTCTACCGCGTTTCCGGGCAGAGCACCCAGCATCAGGGCGTGCTGCCCGACATCGATTACCCGTCGATCATCGACACCAAGGAAATCGGCGAGAGCGCCCTGCCCGAAGCCATGCCGTGGGACACCATCCGGCCTGCAATCAAGCCGGCCGTGGACCCGTTCAAGCCGTACCTGGCCCAGCTGAAATCCGAGCATGACGCCCGCACCGCCCAAGACGCGGAGTTTGTGTTCATTCGCGACAAGCTGGCCCTGGCGCAGAAGTTGATGATGGAAAAAACCGTCACCCTCAACGAAGCCGAGCGCCGCGCGCAGCATGCCGACATCGAAGCCAAGCAACTGGCCATGGAAAACCTGCGTCGCAAGGCCAAGGGCGAGGAGCCGCTCAAAGAGCTGAAGAAGGAAGACGAAGACCTGATCACCGAGCCGGAAAAAACCAAGCCGGAAGACGACGCCTATCTGAGCGAAACCGGTCGGATCCTGCTCGATTACCTCAAGCTCAATACGGCGGTCGCCAAACATTGA	MKHFLPSTALALFIGLGASALSNTAFAANSWDKLQPDRDEVIASLNVVELLKRHHYSKPPLDDARSVIIYDSYLKLLDPSRSYFLASDIAEFDKWKTQFDDFLKSGDLNAGFIIYKRYLDRVKARLDYALAELNKGVDKIDFNAKETLLVDRKDAAWLKSTAELDDLWRKRVKDEVLRMKIAGKDPKQIQETLTKRYKNQLARLDQTRAEDVFQAYINTFAMSYDPHTNYLSPDNAENFDINMSLSLEGIGAVLQSDNDQVKIVRLVPAGPADKTKQVAPADKIIGVAQGNKEMVDVVGWRLDEVVKLIRGPKGSVVRLEVIPASNAPNDQTSKVVSITREAVKLEEQAAKKSVLQLKQDGKDYKLGIIEIPAFYLDFKAFRAGDPNYKSTTRDVKKLLTELQKEKVDGVVIDLRNNGGGSLQEATELTSLFIDKGPTVLVRNADGRVDVLEDENPGAFYKGPMALLVNRLSASASEIFAGAMQDYHRALIIGGQTFGKGTVQTIQPLNHGELKLTLAKFYRVSGQSTQHQGVLPDIDYPSIIDTKEIGESALPEAMPWDTIRPAIKPAVDPFKPYLAQLKSEHDARTAQDAEFVFIRDKLALAQKLMMEKTVTLNEAERRAQHADIEAKQLAMENLRRKAKGEEPLKELKKEDEDLITEPEKTKPEDDAYLSETGRILLDYLKLNTAVAKH	PGPT0015095_632	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015095-prc|ctpA-K03797	NA	NA
D1-35_00464	963	pikAII		Narbonolide/10-deoxymethynolide synthase PikA2, modules 3 and 4	GTGAAAGCATTGCAAGGCGTTGAAGGCCAAGTGGTATGGGCAGATGAGCCAAGTCCGGCGTGTGATGCCGGGCAAGTTCGCATCCGTGTAGCGGCCGCTGGTCTGAATCGGGCCGATTTGTTGCAGAAAGCCGGGCATTATCCACCGCCACCCGGCGCCAGCCAGGTGTTGGGGCTGGAATGTTCCGGGGTGATCAGTGAAGTCGGGCCGGGTTCCTCCTGGCAGGTCGGCGACCGGGTTTGCGCATTGCTGGCAGGCGGCGCAATGGCCGAGGAAGTGGTGGTCGATGGTCGGCATGTGTTGCCTGTGCCGGAAGGCCTGTCACTGGCCGAAGCCGCCGCGCTGCCTGAGGTCTACGCCACCGCGTGGCTGAATCTGTTCCAGCTGGCCGGGCTCAGCCCGGGAGAAAAAGTGCTGCTGCACGCCGGCGCCAGCGGCGTCGGTTCGGCCGCGATCCAGCTGTGCAAGGCGTTCGGCAACCCGTGCTGGGTCAGCGTCGGTTCGGCCGAGCGGCTGGCCTATTGCGAAGCGCTCGGTGCCCAGGGCGGTGTGGTGCGCACCGACGATATCAACAGCCTGAACGACTTCGGGCCGTTCGACGTGATCCTCGATCCGGTCGGCGCGAACTACGCCAGCCTCAACGTGAAACTTTTGTCAGTTGACGGGCGCTGGGTATTGATCGGACTCATGGGCGGGCGCACCACCGAACTCGATCTGGCCCAGGTGTTGGGCAAGCGTATCCAGTTGCTGGGCTCGACTTTGCGCAGTCGCAATGATCAGTCCAAGGCCGACCTGATCGCCGAGTTGGGGCAGCAGGTGTGGCCGTTGTTCGCCGACAAGCGCCTGAGCCCGCAATTGGCCAGGACGTTTGCGATCAGCGATGCCGAGGCGGCGTTTGCCGAGCTGGCGACCAATCAGGTGTCCGGGAAATTGGTGCTGGTGGTCGATGACAGCCTGAGCTGA	MKALQGVEGQVVWADEPSPACDAGQVRIRVAAAGLNRADLLQKAGHYPPPPGASQVLGLECSGVISEVGPGSSWQVGDRVCALLAGGAMAEEVVVDGRHVLPVPEGLSLAEAAALPEVYATAWLNLFQLAGLSPGEKVLLHAGASGVGSAAIQLCKAFGNPCWVSVGSAERLAYCEALGAQGGVVRTDDINSLNDFGPFDVILDPVGANYASLNVKLLSVDGRWVLIGLMGGRTTELDLAQVLGKRIQLLGSTLRSRNDQSKADLIAELGQQVWPLFADKRLSPQLARTFAISDAEAAFAELATNQVSGKLVLVVDDSLS	PGPT0013255_3602	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
D1-35_00465	654		COG0560	putative phosphatase	ATGGCTCTGGCAATTTTTGATCTGGACGAAACCCTGATCCACGGCGACTGCGCCACCCTCTGGAGCGAGCAGATGGGGCGCCTGGGCTGGGTCGATCCCGAGTCGTTCATGCGCCGCAACAACGAACTGATGGACGCCTACAGCCACGGCAAGCTGCGCATGGAAGAGTACATGGACTTCAGCCTGGAACCGATGATCGGCCGCACGCCGGAAGAAATCGAACACCTGGTGGCACCGTGGGTGGAAGACTTCATCGAACCGATCATCTTCAGCGACGCCACCAAGGCCATCGCCGAGCACCGCAAGGCCGGTGATCGGATCCTGGTGATCTCGGCCTCGGGCACGCACCTGGTCAAGCCGATCGCCGAGCGCCTGGGCATCGATGAGATCCTCGCGATCGAGCTGGACGTCGCCCATGGTGTGTACAGCGGTAAGACCGTGGGCACCCTGACCTATCGCGAAGGCAAGATTGCCCGACTGCTGGATTGGCTGGACGCCGAGGAAGAAAACCTGGAAGGCGCGAGTTTCTATTCCGACTCGCGCAATGACCTGCCGTTGCTGCTCAAGGTCGATCACCCGCACGTCGTGAACCCGGACCCGGTGCTAAAGGCCCACGCCGAATCGGCCGGCTGGCCGATTCATACCTGGAAATAG	MALAIFDLDETLIHGDCATLWSEQMGRLGWVDPESFMRRNNELMDAYSHGKLRMEEYMDFSLEPMIGRTPEEIEHLVAPWVEDFIEPIIFSDATKAIAEHRKAGDRILVISASGTHLVKPIAERLGIDEILAIELDVAHGVYSGKTVGTLTYREGKIARLLDWLDAEEENLEGASFYSDSRNDLPLLLKVDHPHVVNPDPVLKAHAESAGWPIHTWK				NA	NA	NA	NA	NA
D1-35_00466	990	potA_2	COG3842	Spermidine/putrescine import ATP-binding protein PotA	ATGAGCTACGTTAGCGTCCAACATTTGCAGAAAGGCTACGCCGGCACGCCGGTGTTCAGCGACATCAACTGCGAAATCCACAAGGGCGAATTCGTCACCCTGCTCGGCCCTTCCGGGTGCGGCAAGTCCACGCTGCTGCGCTGCATTGCCGGCCTGACAGCGGTGGATGCGGGCCAGATTCTGCTGGACGGCCAGGACATCGTGCCGCTGAGTCCGCAGAAGCGCGGGATCGGCATGGTCTTCCAGAGCTATGCGCTGTTCCCCAACATGACCGTCGAGCAGAACGTCGCCTTCGGCCTGCGCATGCAAAAGGTCGACGCTTCGGACAGTCGCCAGCGTGTGCTGGAGATTCTGCGACTGGTGGAGCTGCATGACTTTGCCGCCCGCTACCCGCACCAACTGTCCGGCGGCCAATGCCAGCGCGTGGCCCTGGCCCGCTCCCTGGTCACCCGGCCGCGCCTGTTGCTGCTGGACGAGCCGCTGTCGGCGCTGGACGCGCGGATTCGCAAGCACTTGCGCGAACAGATCCGTCAGATCCAGCGGGAACTGGGCCTGACCACCATCTTTGTCACACACGATCAGGAGGAAGCCCTGACCATGTCTGACCGGATCTTCCTGATGAATCAGGGAAAGATCGTACAGAGCGGCGATGCCGAGACCCTTTACACTGCCCCCGTCGATGTCTTTGCCGCCGGCTTCATCGGCAACTACAACCTGCTCGACGCCGACGCCGCGAGCAAGCTGCTGCAACGCCCGGTGAACGGTCGCATCGCCATTCGCCCGGAAGCCATCGAGCTGAGTCGCAACGGCGAACCCGACGCGCTGATCCGCAGCCACAGCCTGCTGGGTAACGTGATCCGCTACCGGGTCGAGGCCCGCGGCGTGGAACTGGTGGTGGATGTGCTCAACCGCTCGGCTGCCGACCTGCATCCCGATGGTGCACGGCTGGCACTTTCCATCGATCCATCGGCGCTGTGTGAGGTAGCCTGA	MSYVSVQHLQKGYAGTPVFSDINCEIHKGEFVTLLGPSGCGKSTLLRCIAGLTAVDAGQILLDGQDIVPLSPQKRGIGMVFQSYALFPNMTVEQNVAFGLRMQKVDASDSRQRVLEILRLVELHDFAARYPHQLSGGQCQRVALARSLVTRPRLLLLDEPLSALDARIRKHLREQIRQIQRELGLTTIFVTHDQEEALTMSDRIFLMNQGKIVQSGDAETLYTAPVDVFAAGFIGNYNLLDADAASKLLQRPVNGRIAIRPEAIELSRNGEPDALIRSHSLLGNVIRYRVEARGVELVVDVLNRSAADLHPDGARLALSIDPSALCEVA	PGPT0007860_4050	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
D1-35_00467	801	cysW_1	COG4208	Sulfate transport system permease protein CysW	ATGTCTCGCGCTGAATCGGGCCCGGCTGGGTTCTATCATCGAGCGGTGGTGTACCTGCTGTTCGCCATCCTGCTGCTACCCCTCGCCGGCACGCTCATCTACTCCATCGCCAGCAGTTGGTCGGCCACAGTGCTGCCCAGCGGCTTCACCTTCAAGTGGTACTTGCAGCTGTGGAGCGACCCGCGCTTTCTACACGCCTTCGGCCAATCGCTGATTGTCTGCGTGGGCGCGCTGGTGCTCTCGGTGGTGCTGATCCTGCCGCTGCTGTTCGTGGTGCATTACCACTTCCCGAAACTCGACGCGCTGATGAACATCCTCATCCTGCTGCCCTTCGCGGTGCCGCCGGTGGTGTCTTCGGTGGGGTTGTTGCAGCTCTATGGCTCCGGGCCGCTGGCGATGGTCGGCACACCGTGGATCCTGATTGGCTGCTACTTCACAGTCGCCTTGCCGTTCATGTACCGGGCGATCACCAACAACCTGCAAGCGATCAACCTGCGCGACCTGATGGACGCCGCCCAACTGCTCGGCGCCAGCACTTTCCAGGCCGCGTTGCTGGTGGTGCTGCCGAACCTGCGCAAGGGCCTGATGGTGGCGCTACTGCTGTCCTTCTCGTTCCTGTTCGGCGAGTTCGTGTTTGCCAACATCCTCGTCGGCACCCGCTATGAAACCCTGCAGGTGTACCTGAACAACATGCGCAACAGCAGCGGCCATTTCACCAGTGCGCTGGTGATTTCCTACTTCTTCTTCGTACTGGTCCTGACCTGGGCGGCCAACATCTTGAACAAGGACAAAAGCCAATGA	MSRAESGPAGFYHRAVVYLLFAILLLPLAGTLIYSIASSWSATVLPSGFTFKWYLQLWSDPRFLHAFGQSLIVCVGALVLSVVLILPLLFVVHYHFPKLDALMNILILLPFAVPPVVSSVGLLQLYGSGPLAMVGTPWILIGCYFTVALPFMYRAITNNLQAINLRDLMDAAQLLGASTFQAALLVVLPNLRKGLMVALLLSFSFLFGEFVFANILVGTRYETLQVYLNNMRNSSGHFTSALVISYFFFVLVLTWAANILNKDKSQ	PGPT0007845_3161	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
D1-35_00468	846			hypothetical protein	GTGAGTGCCATGACGCGCGGCAAATGGCTGGCAGTGTTGTGCCTGGTGCCCTTCGCAATTTTTTTCATTGTGTTCCAGGTCGCCCCGCTGCTCTGGGTGCTGGTCAACAGCCTGGAATCGGAAGAGTTCGGCTGGGGCCTGGCCAACTTCAGCAAGATCTTCAGCTCGAAATTCTACCGACAGGCGATCCAGCACAGCCTGGAAATCAGTTTCTGGTCCAGCGTGTTCGGCATCATCATCGCCGTGCTCGGCAGCTACTCCCTGCGCCGCGTCGATTCGCGGCTGCGCAATTTCGTCAACGCCTTCGCCAACATGACCAGCAACTTCGCCGGCGTGCCCCTGGCCTTCGCGTTCATCATCCTGCTGGGGTTCAACGGCAGCATCACGATCATGCTCAAGCAGGCGGGGATCATCGAGGATTTCAACCTGTATTCGAAAACCGGGCTGATCATTCTCTACACCTATTTCCAGATTCCCCTGGGCGTGCTGCTGCTTTACCCGGCCTTCGACGCGCTGCGCGAAGACTGGCGCGAGTCGGCGTCCCTGTTGGGCGCCAGCGGCTGGCAGTTCTGGCGGCACATCGGCCTGCCGGTGCTGACCCCGGCGCTGCTCGGCACGTTCGTGATCCTGCTGGCCAATGCCCTCGGCGCCTATGCCACGGTCTATGCGCTGACCACCGGTAATTTCAACGTCCTGCCAATTCGCATCGCGGCGATGGTTTCCGGCGATATTTCCCTCGACCCGAACATGGCCAGCGCCCTGGCCGTGGTGCTGGTGGCGTTGATGACCCTGGTGACCGTCATCCATCAGTTGCTGCTCAAGAGGAGCTACCATGTCTCGCGCTGA	MSAMTRGKWLAVLCLVPFAIFFIVFQVAPLLWVLVNSLESEEFGWGLANFSKIFSSKFYRQAIQHSLEISFWSSVFGIIIAVLGSYSLRRVDSRLRNFVNAFANMTSNFAGVPLAFAFIILLGFNGSITIMLKQAGIIEDFNLYSKTGLIILYTYFQIPLGVLLLYPAFDALREDWRESASLLGASGWQFWRHIGLPVLTPALLGTFVILLANALGAYATVYALTTGNFNVLPIRIAAMVSGDISLDPNMASALAVVLVALMTLVTVIHQLLLKRSYHVSR	PGPT0007850_3273	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
D1-35_00469	807			hypothetical protein	ATGAAGCACAACGTCATCCTGGTGGTGCTCGACGGCCTCAACTACGAAGTCGCCCGGCATGCCATGGGACATTTGCAGGCGTATGTCGGCGCAGGACGCGCGGCGCTCTACACACTGGAATGTGAACTACCCGCCTTGTCCCGCCCACTCTACGAATGCATCCTCACCGGCGTCGTGCCCATCGACAGCGGGATCGTGCACAACAATGTCTCGCGCCTGTCGAACCAGCGCAGCATTTTCCATTACGCCACCGACGCCGGCCTGAGTACGGCGGCTGCGGCCTATCACTGGGTCAGCGAGCTGTACAACGTGTCACCCTTCGTCGCCGGTCGTGATCGCCATACCGAAAACCCCGACCTGCCGATTCAATACGGACATTTCTACTGGAATGACCACTACCCCGATTCACATCTGTTCGCCGACGCCGAACACCTGCGCCAGCGCTACCTGCCGAATTTCCTGCTGGTGCACCCGATGAACATCGACGATGCCGGTCACAAGCACGGCCTCGACACCCCGCAGTACCGCAACAGCGCCCGCTCGGCGGACATCAACCTGGCGGTTTATCTGCAAGCCTGGCTCGACGCCGGTTATCAGGTGCTGGTGACTTCCGACCATGGCATGAACAACGACCGCTCCCACAACGGCCTGCTACCGGAAGAACGGGAAGTGCCGCTGTTTGTCCTCGGCGATGGCTTCAGCCTTGACGCCAACGCGGCCCCTCGGCAAACCGAACTGTGCGGCACCATTTGCCAGCTGCTCGGGGTTGCCCACGACAAACCTTATTGCCAGGAGTTGCTCAAGTGA	MKHNVILVVLDGLNYEVARHAMGHLQAYVGAGRAALYTLECELPALSRPLYECILTGVVPIDSGIVHNNVSRLSNQRSIFHYATDAGLSTAAAAYHWVSELYNVSPFVAGRDRHTENPDLPIQYGHFYWNDHYPDSHLFADAEHLRQRYLPNFLLVHPMNIDDAGHKHGLDTPQYRNSARSADINLAVYLQAWLDAGYQVLVTSDHGMNNDRSHNGLLPEEREVPLFVLGDGFSLDANAAPRQTELCGTICQLLGVAHDKPYCQELLK				NA	NA	NA	NA	NA
D1-35_00470	1068			hypothetical protein	ATGAAACAGCTTTTCCTGGCATCACTGTTAGGCTCGACCATTGCCATGTGCACCGCCGCCATGGCCGCTGATACCGATCTGAAAACATTGGAAGCCGCTGCGAAAGCGGAAGGCGCCGTCAACAGCGTCGGCATGCCCGATGACTGGGCGAACTGGAAAGGCACCTGGGACGACCTGGCCAGACTCTATGGCTTGAAACACATCGACACCGACATGAGCTCGGCCCAGGAAATCGCCAAGTTCGCCGCCGAGAAGGACAACGCCAGCGCCGACATCGGCGACGTCGGTGCCGCCTTCGGCCCGATCGCGGTCAAGCAAGGCGTGGTCCAGCCCTACAAACCAAGCACCTGGGAACAGATCCCGGACTGGGCCAAGGACAAGGACGGCAACTGGGCCCTGGCCTACACCGGCACCATCGCGTTCATCGTCAACAAGAAACTGCTGCACGGCTCCGAAGTGCCGACCAAATGGGCCGACCTGAAGACCGGCAAGTACAAAGTCTCCATCGGTGACGTGAGCACCGCCGCCCAGGCCGCCAACGGCGTGCTGGCTGCGGCCCTGGCCAACGGTGGCGATGAAAAGAACATTAAACCGGCCCTGTTGTTGTTCGCCGATATCGCCAAGCAAGGCCGCCTGTCCATGGCCAACCCGACCATCGCCACGATGGAAAAAGGTGAAGTCGAAGTCGGCGTGGTCTGGGACTTCAACGGCCTGAGCTACAAGGCCAAGATGGCCAGCCCGGATGACTACGTCGTGCTGATTCCGTCCGACGGCTCGGTGATCTCCGGCTACACCACCATCATCAACAAATACGCCAAGCACCCGAACGCCGCCAAGCTGACCCGAGAATACATCTTCAGCGACGCCGGCCAGATCAACCTGGCCAAGGGCAACGCCCGGCCGATCCGCGCCGAGCACCTGAAACTGCCGGAAGAAGTCCAGGCCAAGCTGCTGCCGAACGAGCAGTACAAAGGCGTGACGCCGATCAAGGATGCCGACGCGTGGGAGAAGACCTCCAAGGCGCTGCCGCAGCAGTGGAATGAAGAAGTCATCGTCGAGATGAAGTGA	MKQLFLASLLGSTIAMCTAAMAADTDLKTLEAAAKAEGAVNSVGMPDDWANWKGTWDDLARLYGLKHIDTDMSSAQEIAKFAAEKDNASADIGDVGAAFGPIAVKQGVVQPYKPSTWEQIPDWAKDKDGNWALAYTGTIAFIVNKKLLHGSEVPTKWADLKTGKYKVSIGDVSTAAQAANGVLAAALANGGDEKNIKPALLLFADIAKQGRLSMANPTIATMEKGEVEVGVVWDFNGLSYKAKMASPDDYVVLIPSDGSVISGYTTIINKYAKHPNAAKLTREYIFSDAGQINLAKGNARPIRAEHLKLPEEVQAKLLPNEQYKGVTPIKDADAWEKTSKALPQQWNEEVIVEMK	PGPT0007855_2942	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
D1-35_00471	726	phnR	COG2188	Putative transcriptional regulator of 2-aminoethylphosphonate degradation operons	ATGCGCGTTGAGACAACCAAAGCGGTGACAACCATCGGGCAGGTCCTGCAGGAGCAGCTCGATCACGGCTTGCTGGCGCCTGGTAGCAAGTTGCCGGCCGAGCGCAAGCTCAGCGAGCTGTTCGGCACCACCCGGATTACCGTGCGCGAGGCGCTGTTGCAGCTCGAAGCCCAGGGGCAGATCTACCGGGAAGAGCGCCGGGGTTGGTTCGTGTCGCCACCACGGCTGGCCTACAACCTGATGCAGCGCAGTCATTTCCACGCGATGGTCAGTGCCCAGGGACGAGTGCCGTCGACCCAGGTGATCTCGGCTCGACTGCAACCCGCGTCGGCGGCGGTCTGTGCCTGGCTGCAGTTGCCGGCGCTGTCCAGCGTCATCCAGATCTGCCGCACCCGGCGCATCGACGAACGCCTGGTGCTGTACGTCGAGCACTACCTGAATCCCGCCTACTTCCCGGACATCCTCGAATTTGATCTCAACCAGTCGATGACCGAGCTGTACGCTCGCCATTACGACCTGCGCTACGGCCGGGTGAAATTCGAAATCGTGCCGACATCACTACAGCCGGAAGCCGCGGCGGCGCTGAAAGTGTCGGTCGGCAGCCCCGGCCTGCGGATTGCACGGGTCAACTACGACCAGCATCAGCGGCTGATCGATTGCGACCTGGAGTTCTGGCGCCACGATGCGATCCATGTCGGGGTGGACGTGCCGGAACAGTCGGCCTGA	MRVETTKAVTTIGQVLQEQLDHGLLAPGSKLPAERKLSELFGTTRITVREALLQLEAQGQIYREERRGWFVSPPRLAYNLMQRSHFHAMVSAQGRVPSTQVISARLQPASAAVCAWLQLPALSSVIQICRTRRIDERLVLYVEHYLNPAYFPDILEFDLNQSMTELYARHYDLRYGRVKFEIVPTSLQPEAAAALKVSVGSPGLRIARVNYDQHQRLIDCDLEFWRHDAIHVGVDVPEQSA				NA	NA	NA	NA	NA
D1-35_00472	183			hypothetical protein	ATGATCTCCATGACCTCGTTCAACGCCATGCTGGTGCCCATCATCGCCGGCATGATCCTGCTCGCCATCGGCTTCAATTTCCGCGACAAGAACGTCGGGGTGTTTGCCATGTGGATCGGCATGTTGCTGATTCTCGTCACGGTACTGTTCAGGATCCTGGCCAAGCTCAACGACGTTTCCTGA	MISMTSFNAMLVPIIAGMILLAIGFNFRDKNVGVFAMWIGMLLILVTVLFRILAKLNDVS				NA	NA	NA	NA	NA
D1-35_00473	1290	apeB	COG1362	putative M18 family aminopeptidase 2	ATGCGTGCACAGTTGAACCAGGGCCTGATCGACTTCCTCAAGGCCTCCCCTACCCCGTTCCATGCCACCGCCAGCCTTGCCCAGCGCCTGGAAGCGGCGGGTTACCAGCGTCTTGATGAGCGCGAAACCTGGGCTACCGAGGCCAATGGTCGTTATTACGTCACGCGCAACGATTCCTCGATCATTGCCTTCAAACTGGGCCGCAACTCACCGCTGCACGACGGCATCCGCCTGGTTGGCGCCCACACCGACAGCCCCTGCCTGCGGGTCAAGCCGCAGCCGGAACTGCAACGCCACGGGTTCTGGCAACTGGGCGTGGAAGTCTACGGCGGCGCACTGCTGGCGCCGTGGTTCGACCGCGACCTGTCCCTGGCCGGGCGGGTGACCTTCCGCCGCGACGGCAAGGTCGAGAGCCAGTTGATCGATTTCAAGGCGCCGATCGCCACGATCCCGAACCTGGCTATCCACCTCAACCGTGAAGCCAACCAGGGCTGGGCGATCAACCCGCAGAACGAACTGCCGCCGATCCTCGCCCAATTCGCCGGTGACGAACGCGTCGATTTCCGTGCCGTGCTCACCGACCAGCTGGCGCGGGAACATGGCTTGAACGCCGACGTGGTGCTCGACTACGAGTTGAGCTTCTACGACACCCAAAGCGCAGCGGTCATCGGTTTGCACGGCGACTTCATCACCGGCGCGCGCCTGGACAACCTGCTGTCGTGTTACGCCGGCCTGCAAGCCTTGCTGACCGCCGACACCGAAGAAACCTGCGTGCTGGTGTGCAACGACCACGAAGAAGTCGGTTCCACCTCGGCGTGTGGCGCCGACGGTCCGATGCTCGAACAGACCCTGCGCCGCCTGCTGCCTGAAGGTGAAGAGTTCGTACGCACGATTCAGAAATCCCTGCTGGTTTCAGCGGACAATGCCCACGGCGTACACCCCAACTATGCCGACAAGCACGACGCCAACCACGGCCCCAAGCTCAACGCCGGCCCGGTGATCAAGGTCAACAGCAACCAGCGCTACGCCACCAACAGCGAAACCGCCGGGTTCTTCCGCCATCTGTGCATGGCCGAGGAAGTGCCGGTGCAGAGCTTCGTGGTGCGCAGCGACATGGGTTGCGGCTCGACCATCGGCCCGATCACCGCCAGCCAGCTGGGCGTACGCACGGTCGACATCGGCCTGCCAACCTTCGCCATGCATTCGATCCGCGAGCTCTGCGGCAGCCACGACCTGGCGCACCTGGTGAAAGTGCTGAGCGCTTTCTACGCGTCTCGCGAATTGCCGTAA	MRAQLNQGLIDFLKASPTPFHATASLAQRLEAAGYQRLDERETWATEANGRYYVTRNDSSIIAFKLGRNSPLHDGIRLVGAHTDSPCLRVKPQPELQRHGFWQLGVEVYGGALLAPWFDRDLSLAGRVTFRRDGKVESQLIDFKAPIATIPNLAIHLNREANQGWAINPQNELPPILAQFAGDERVDFRAVLTDQLAREHGLNADVVLDYELSFYDTQSAAVIGLHGDFITGARLDNLLSCYAGLQALLTADTEETCVLVCNDHEEVGSTSACGADGPMLEQTLRRLLPEGEEFVRTIQKSLLVSADNAHGVHPNYADKHDANHGPKLNAGPVIKVNSNQRYATNSETAGFFRHLCMAEEVPVQSFVVRSDMGCGSTIGPITASQLGVRTVDIGLPTFAMHSIRELCGSHDLAHLVKVLSAFYASRELP				NA	NA	NA	NA	NA
D1-35_00474	636	rluA	COG0564	Dual-specificity RNA pseudouridine synthase RluA	ATGCCCCTGTCCAACATCCGCATCATCCACCAGGACGCCGCCGTGCTGGTGGTCGACAAGCCGACCCTGCTGCTCTCCGTGCCTGGCCGGGCGGACGACAACAAAGATTGCCTGATCACCCGCTTGCAGGAAAACGGTTATCCGGAAGCGCGAATCGTGCACCGGCTGGATTGGGAAACGTCCGGCATTATCCTGCTGGCCCGTGACCCGGACACTCACCGCGAACTGTCCCGGCAATTTCATGATCGAGAAACCGAAAAAGCCTACACGGCATTGTGCTGGGGCCAACCGGAGCTGGACAGCGGCAGCATCGACCTGCCCTTGCGCTACGACCCGCCGACCAAGCCCCGCCATGTGGTCGATCACGAACAGGGCAAGCATGCCTTGACGTTCTGGCGTGTACTGGAGCGTTGCGGTGATTGGTGTCGGGTCGAATTGACGCCGATCACCGGGCGCTCGCATCAATTGCGCGTGCACATGCTCTCTATCGGCCATCCGCTGCTGGGCGACGGGCTCTATGCCCACCCGCAAGCCCTGGCCGCCTGGCCACGGCTGTGCCTGCACGCGAGCATGCTCAGCTTCACCCACCCGCAAAGCGGCGAGCGCCTGCGCTTCGAGTGCCCTGCACCGTTCTGA	MPLSNIRIIHQDAAVLVVDKPTLLLSVPGRADDNKDCLITRLQENGYPEARIVHRLDWETSGIILLARDPDTHRELSRQFHDRETEKAYTALCWGQPELDSGSIDLPLRYDPPTKPRHVVDHEQGKHALTFWRVLERCGDWCRVELTPITGRSHQLRVHMLSIGHPLLGDGLYAHPQALAAWPRLCLHASMLSFTHPQSGERLRFECPAPF				NA	NA	NA	NA	NA
D1-35_00475	255	minE	COG0851	Cell division topological specificity factor	ATGAACCTTTTTGACTTCTTTCGTGCCAACAAAAAGCCAAGTACCGCCTCGGTCGCGAAAGAGCGTCTACAGATCATCGTGGCGCACGAACGCGGCCAACGCAGTACCCCGGACTACCTGCCTGCCTTGCAGAAGGAACTGGTGGAAGTGATCCGCAAGTACGTCAATATCGGCAACGATGACGTGCATGTCGCGCTGGAAAGCCAGGGCAGCTGCTCGATCCTGGAACTCAATATCACCCTGCCGGATCGCTGA	MNLFDFFRANKKPSTASVAKERLQIIVAHERGQRSTPDYLPALQKELVEVIRKYVNIGNDDVHVALESQGSCSILELNITLPDR				NA	NA	NA	NA	NA
D1-35_00476	813	minD	COG2894	Septum site-determining protein MinD	TTGGCCAAGATTCTCGTGGTTACATCCGGCAAGGGTGGTGTGGGTAAGACCACCACCAGCGCCGCTATCGGTACCGGCCTCGCCTTGCGCGGCCATAAAACAGTCATCGTCGACTTCGACGTCGGCCTGCGTAACCTCGACCTGATCATGGGTTGCGAGCGTCGCGTGGTCTATGACTTCGTCAACGTGGTCAATGGCGAAGCGAACCTGCAGCAGGCCCTGATCAAGGACAAGCGCCTTGAGAACCTCTACGTACTGGCCGCCAGCCAGACCCGCGACAAAGACGCGCTGACCCAGGAAGGCGTGGAAAAAGTCCTGATGCAACTCAAGGAAGACTTCGAATTCGTGGTCTGCGACTCCCCGGCCGGTATCGAGAAAGGTGCCCACCTGGCCATGTACTTCGCTGACGAAGCGATCGTCGTGACCAACCCGGAAGTCTCGTCGGTACGCGACTCCGATCGCATGCTCGGCCTGCTGGCAAGCAAATCCCGGCGCGCCGAGAACGGCGAGGAGCCGATCAAGGAGCACCTGCTGCTGACCCGCTACAACCCGCAACGCGTCAGCGACGGCGAAATGCTCGGCGTCGAAGACGTCAAGGAAATCCTCGCGGTGACCCTGCTGGGCGTGATCCCGGAATCCCAGGCGGTACTCAAGGCTTCGAACTCCGGCGTGCCGGTGATCCTTGACGACCAGAGCGACGCCGGCCAGGCGTACAGCGATGCGGTCGATCGTCTGCTGGGCAAAACCGTCGAGCATCGATTCCTCGACGTCACGAAGAAAGGTTTCTTCGAGCGCCTGTTTGGAGGTAGGTAA	MAKILVVTSGKGGVGKTTTSAAIGTGLALRGHKTVIVDFDVGLRNLDLIMGCERRVVYDFVNVVNGEANLQQALIKDKRLENLYVLAASQTRDKDALTQEGVEKVLMQLKEDFEFVVCDSPAGIEKGAHLAMYFADEAIVVTNPEVSSVRDSDRMLGLLASKSRRAENGEEPIKEHLLLTRYNPQRVSDGEMLGVEDVKEILAVTLLGVIPESQAVLKASNSGVPVILDDQSDAGQAYSDAVDRLLGKTVEHRFLDVTKKGFFERLFGGR				NA	NA	NA	NA	NA
D1-35_00477	735	minC	COG0850	Septum site-determining protein MinC	ATGAGCCAAACCGAACCGCTAGACCAAGATCCCGTGTTCCAGCTGAAGGGCAGCATGCTCGCCATTACGGTGCTGGAGCTGGCCCGTAACGACCTGGAAGGCCTTGACCGGCAACTCGCGGCGAAAGTCGCCCAGGCGCCGAATTTTTTCAGCAATGCCCCGCTGGTACTGGCGCTGGACAAGCTGCCGGCCGGTGAGGGCTCGGTCGACTTGCCGGGGCTGATGCGCGTTTGCCGCCAGCATGGGCTACGCACCCTGGCGATCCGCGCCAGCCGCATCGAAGACATCGCCGCCGCCATCGCCGTGGACATTCCGGTGCTGCCACCCTCCGGCGCCCGTGAACGTGTACTGGAGCTGAGCCCGGCGGAACCGAAAAAACCGGAAAAACCGCCGGAGCCGACCATCAAGCCGACCCGTGTGATCACCTCGCCGGTGCGCGGCGGGCAGCAGATCTACGCCCAGGGCGGCGACCTGGTGGTGGTGTCCTCGGTCAGCCCGGGTGCGGAACTTCTCGCCGATGGCAACATCCATGTATACGGCCCGATGCGCGGCCGTGCGCTGGCCGGTGTCAAGGGTGACACCAAGGCAAGGATCTTCTGTCAGCAGTTGAGCGCTGAACTGCTCTCTATCGCCGGGCAATACAAGGTTTCCGAGGACTTGCGGCGCGACCCGTTATGGGGCGCCGGGGTCCAGGTCAGCCTGTCGGGCGACGTGTTGAACATCATTCGGCTTTAA	MSQTEPLDQDPVFQLKGSMLAITVLELARNDLEGLDRQLAAKVAQAPNFFSNAPLVLALDKLPAGEGSVDLPGLMRVCRQHGLRTLAIRASRIEDIAAAIAVDIPVLPPSGARERVLELSPAEPKKPEKPPEPTIKPTRVITSPVRGGQQIYAQGGDLVVVSSVSPGAELLADGNIHVYGPMRGRALAGVKGDTKARIFCQQLSAELLSIAGQYKVSEDLRRDPLWGAGVQVSLSGDVLNIIRL				NA	NA	NA	NA	NA
D1-35_00478	933	lpxL	COG1560	Lipid A biosynthesis lauroyltransferase	ATGGATCGCCCGCGTTTTCGAGCTGCTTTTTTTCATCCGCGTTTCTGGCTGCTGTGGTGCGGCCTGGGGCTGTTGTGGCTGATCATCCAGTTGCCTTATCCGCTGCTGTTGCGGATCGGCCGCGCCTTGGGAACATTGATGTACCGGGCGGCCGGCGACCGACGGCGCATCGCCAGTCGCAATCTCGAGCTGTGTTTTCCCGAGAAATCCGCCGCTGAGCGCAAGCGTCTGCTCAAGGAAAACTTCGCCTCCACCGGCATCGCCTTCTTCGAAATGGCCATGAGCTGGTGGTGGTCGCGTTCGCGGCTGGCGAAGCTGGCCCATGTCGAAGGCCTGGAGCATCTCAAGCAGGCCCAGCGCGACGGCAAGGGCGTGATCCTGATGGCGCTGCATTTCACCACGCTGGAAATCGGCGCGGCGCTGCTCGGCCAGCAGCACACCATCGACGGCATGTATCGCGAGCACAAGAACCCGTTGTTCGACTATATCCAGCGCCGTGGCCGCGAACGGCATAACCTCGATTCCCTGGCGGTAGAACGTGATGACGTGCGCGGCATGCTCAAGTTGCTGCGCGCCGGCCGGGCAATCTGGTACGCACCGGATCAGGACTACGGCGCCAAGCAAAGCGTGTTCGTGCCGCTGTTCGGCATCCAGGCGGCCACGGTCACCGCGACCAGCAAATTCGCGCGCCTGGGCAAGGCACTGGTCGTGCCGTTCGTTCAGGAGCGCCTGGCCGATGGCAGCGGCTATCGTCTGGTGATCCAGGCGCCGCTGGAGGATTTTCCCGGCGAGACCGAAGAGGCTGATTGCCTGCGCATCAACCAATGGGTCGAGCGCTCGGTAAGCCAGTGTCCCGAGCAATACCTCTGGGCCCACCGGCGCTTCAAGACCCGGCCGCCCGGCGAGCCGAAGCTGTACGATAAACGCGGTTGA	MDRPRFRAAFFHPRFWLLWCGLGLLWLIIQLPYPLLLRIGRALGTLMYRAAGDRRRIASRNLELCFPEKSAAERKRLLKENFASTGIAFFEMAMSWWWSRSRLAKLAHVEGLEHLKQAQRDGKGVILMALHFTTLEIGAALLGQQHTIDGMYREHKNPLFDYIQRRGRERHNLDSLAVERDDVRGMLKLLRAGRAIWYAPDQDYGAKQSVFVPLFGIQAATVTATSKFARLGKALVVPFVQERLADGSGYRLVIQAPLEDFPGETEEADCLRINQWVERSVSQCPEQYLWAHRRFKTRPPGEPKLYDKRG	PGPT0013315_908	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0013315-lpxL|htrB-K02517	NA	NA
D1-35_00479	1188			hypothetical protein	ATGACCCCAGCTGAACCGGTAACAGGTTTGATTCTTTCCGGCGGCGGGGCTCGAGCGGCGTATCAGGTCGGTGTATTGGCAGCGATTGCCGAGTTGCTGCCGGACGGCGGTCGGAACCCGTTTCCGGTGATTGTCGGTACCTCTGCCGGTGCGATCAATGCGGTCAGCCTGGCGAGCGGAGCGATGGACTTCAAGACCGCCATCGAACGCCTGACGGCCTTCTGGCAAACCGTGCGCAGCCACCAGGTGATGCGCAGCGACTGGCGCGGGGTCATGGGCCAGGCGACGCGGTTCATCGGCCATAGCCTGCTTGGCCTGGGAGCCAAGCTGCCGGTGGCGCTGATCGACAGTTCGCCACTGCGCGAACTGCTCCAGGCGCAATTCCATGGCGCGGGTATCGAGCAGGCGATTGCCGAGCACCAATTGCGCGCGGTGGCGGTCACTGCGTTTGGCTACGAATCCGGCCAGGCGGTGACCTTCTATCAGGGCCGCGGCACCATCGACGCCTGGCTGCGTCATCGGCGTATCGGTGTGCCCACGCAGCTGTCGGTGGAACACCTGCTCGCCAGCTCGGCGATCCCTTTGCTGTTCGCGCCGGTGAAGATCGGCCCGCAATATTTCGGCGACGGCGCGGTGCGCCAATCGGCTCCCATCAGCCCGGCCCTGCACCTGGGGGCCAACCGCGTGCTGGTCATCGGCGTCAGCGGCAATCCGCGCGGCGTGTCGGCCCAGGATCCACTGGAACGCAGCTACACCGGCCTGCAGCCGACCCTGGCGCAGATCGGCGGGCACATGCTCAACAGCACGTTCATCGACAGCCTGGAAAGCGACATCGAGCTGCTTGAGCGCCTGAACAGGTTCAGCCACATGCTGCCAGACGATGTGCCGGCCCACGCCCTCGGCGCGGCACCGGTGGAGGTGCTGGTGATTTCCCCAAGCCAGCCGATCGACGAAATTGCCGCGCGCCATCGCCAGGAGCTGCCCCGAGCGTTGCGGGTATTTTTGCGTGGGCCGGGTGCAACCAAGACCAGCGGTGCGAGTGTGTTGAGTTATCTGTTATTCGAGAAAGGTTATTGCAGCGAACTGATCGAGCTGGGACGACAGGATGCCCTGGCGCAACGCGAAGCCTTGATCCGGTTCCTGAGGTTGGCCCAGCCCGGGGTTGCGCTCGGCCTCGCGGCGAATTGA	MTPAEPVTGLILSGGGARAAYQVGVLAAIAELLPDGGRNPFPVIVGTSAGAINAVSLASGAMDFKTAIERLTAFWQTVRSHQVMRSDWRGVMGQATRFIGHSLLGLGAKLPVALIDSSPLRELLQAQFHGAGIEQAIAEHQLRAVAVTAFGYESGQAVTFYQGRGTIDAWLRHRRIGVPTQLSVEHLLASSAIPLLFAPVKIGPQYFGDGAVRQSAPISPALHLGANRVLVIGVSGNPRGVSAQDPLERSYTGLQPTLAQIGGHMLNSTFIDSLESDIELLERLNRFSHMLPDDVPAHALGAAPVEVLVISPSQPIDEIAARHRQELPRALRVFLRGPGATKTSGASVLSYLLFEKGYCSELIELGRQDALAQREALIRFLRLAQPGVALGLAAN				NA	NA	NA	NA	NA
D1-35_00480	276			hypothetical protein	ATGAAAAACCTCATCCAACTCACCCTCGCCGCCACCCTCACCTGCGCCCTGCCCGCCTGGGCCACTTGCACGCCCGAGGAAGCGACCATCAAGCGCGAGCAACTGGCGGATAAGGTGACCAAGCTCACCGAACAGGATCCGGCCAAGGCCAAGGAAATGAATGAAGAATTGCAGGCGATGAACCTGGAAACGTCCAGCAAGGACGTACCGGACAAATGCCAACTGATCGATAAACGCCTGAAGGAGCTTGAAGAGGCGCAGAACAAGGCCGAGTAA	MKNLIQLTLAATLTCALPAWATCTPEEATIKREQLADKVTKLTEQDPAKAKEMNEELQAMNLETSSKDVPDKCQLIDKRLKELEEAQNKAE				NA	NA	NA	NA	NA
D1-35_00481	732			hypothetical protein	ATGAACATCGAGTCCCATCAGGTCGTCTCGCGGGAAGCCTGGCTCGCCGCCCGCCGCGAACACCTCGCCCACGAGAAAGCGTTCACCCGCGAACGGGACAAACTCAGCGCCGAACGCCGCGCGCTGCCCTGGGTAAAAATCGAAAAACCCTACCGCTTCCAAGGCCCCCACGGCGAACTGAGCCTGGCCGACCTGTTCGGCGGCCGCAGCCAACTGATCATCTACCACTTCATGTTCGGCCCCGGCTGGACCGAGGGCTGCCAAGGCTGCTCGTTCCTGTCCGACCACATCGACGGCGCCAACCAACACCTGGCCCACCACGATGTCGCCGTCGTGGCCATCTCCCACGCCCCGTTCGCCGAATTCCAGCCGTTCAAACGGCGCATGGGCTGGGCCTTCGACTGGGTCTCATCGGCAGGCTGCGACTTCAACTACGATTTCGGCGTCAGCTTCAACGCACAAGACAGCGCCGCCGGAACAGCCACCTACAACTACGAAAAAACCGACAGCGCCGAAAGCGAACTCCCAGGCCTGAGCGTCTTCTATCGCAACGAAGCCGGCGACATCTTCCACACCTACTCCACCTACGCCCGCGGCCTCGACATCCTGGTCGGCACCTACAACTACCTCGACCTCACGCCAAAGGGCCGCAACGAAGTCGAAATCATGGACTGGGTGCGCCATCACGATAAATACCAGGAAGCCAAGCCCCACAGCTGCTGCCATGGCTGA	MNIESHQVVSREAWLAARREHLAHEKAFTRERDKLSAERRALPWVKIEKPYRFQGPHGELSLADLFGGRSQLIIYHFMFGPGWTEGCQGCSFLSDHIDGANQHLAHHDVAVVAISHAPFAEFQPFKRRMGWAFDWVSSAGCDFNYDFGVSFNAQDSAAGTATYNYEKTDSAESELPGLSVFYRNEAGDIFHTYSTYARGLDILVGTYNYLDLTPKGRNEVEIMDWVRHHDKYQEAKPHSCCHG				NA	NA	NA	NA	NA
D1-35_00482	393			hypothetical protein	ATGACGACTTATAACTGGGACTTGATCGAACGGTTGCTGCACGAAGTGCAAAATGGCGCCGGCCACAGTTTTACCCCTCGGCCCTATGCGGAGCAGTACGCGGCGGAAAAGGCGGCTCAGGGCGAGGACATCGAGAACCTCGATCATCTGAAAGCGGTTGCCGGAGAGTATGAAAAACTGCTGCTGGAGCGGGGTTACATCGAACCGCGGCCAGAGGAAGAGGGCGGCAATGGCGAGAATTTTGTGCTGACGCCCCGTGGCTCGCGGTTGTTGAGCCTGATCGACAGCAGCATTCCGGGCAATGATCATCCGCGCCAGGTGCTGGATGAGCAGGAAGATGCGCTGGATGAGTTTACTTTTGATGATCTGGCTTCGAAGGCGCAAATTGCCTGA	MTTYNWDLIERLLHEVQNGAGHSFTPRPYAEQYAAEKAAQGEDIENLDHLKAVAGEYEKLLLERGYIEPRPEEEGGNGENFVLTPRGSRLLSLIDSSIPGNDHPRQVLDEQEDALDEFTFDDLASKAQIA				NA	NA	NA	NA	NA
D1-35_00483	867			hypothetical protein	ATGTCGCGCTGGTTAACACGCACCGCCATGTTCATCGCCCTGCTGCTGACACTCACCGCTTGCAGCCGTGTCGGCCTGGCCTACCGCAACCTCGACCTGATCATCCCCTGGACCCTCAACGATTACCTGGAGATCAACGGCGAGCAGAAAGACTGGTTCAACGACCGCCTCAAGGAACACCTGAGCTGGCATTGCACTACGCAATTGCCCGGCTACCTGGATTGGCTCGATCGCCTCAAAACCATGGTGCAGAACGACCAGGTAACCGACGAATCCCTGCAGCAACGCACCCGCGAAGCCAAGGCCGCGATCGCCGAAACCGCCCGGGAAATCACCCCATCGGCCACCGAACTGTTACAAGGCCTGAGCGATGACCAGGTGGCCGACATGGACGCCGCCTTCATCAAGGATCAACGCAAACGCCAGCGGGACTACCTCAAGCCGACCTTGCAACAACAGATCAAGGAACGCGCCGAGCGCATGGAAAAACGCCTGAACGACTGGATCGGCCCGCTCAACGACGCCCAGCGCCAACGCGTACAAGCCTGGTCCACCGCGCTTGGCGATCAGAACCAGCAATGGATCGCTAACCGCGCCCACTGGCAGAACCAGTTCAGCGAAGCCGTCGCCCAGCGCCACAGCCCCGACTTCCCGAAACGCATCGAGCAATTACTGGTGAACCGCGAAAGCCTGTGGACGCCCGCCTACCGCGAGGCCTACAACAAAACCGAAGCCCAGGCCCGCAGCCTGTTGGTGGACCTGATGGCGCAGAGCACCCCGACGCAGCGTGAACAGCTGTTGAAGAAGATTGACGGGGTGAAGAAGGATTTCAGCGATCTGAAGTGCCTGAAAGCAGCACGCCCGTAA	MSRWLTRTAMFIALLLTLTACSRVGLAYRNLDLIIPWTLNDYLEINGEQKDWFNDRLKEHLSWHCTTQLPGYLDWLDRLKTMVQNDQVTDESLQQRTREAKAAIAETAREITPSATELLQGLSDDQVADMDAAFIKDQRKRQRDYLKPTLQQQIKERAERMEKRLNDWIGPLNDAQRQRVQAWSTALGDQNQQWIANRAHWQNQFSEAVAQRHSPDFPKRIEQLLVNRESLWTPAYREAYNKTEAQARSLLVDLMAQSTPTQREQLLKKIDGVKKDFSDLKCLKAARP				NA	NA	NA	NA	NA
D1-35_00484	711			hypothetical protein	ATGCGCATTCCTGTTGTCTTGCTGACGTTCAGCCTGCTCGCTTGCCCCGCATCTTATGGGCAGGTGTTCCAGCGCGAGCTCGGCGACTTCGATCTCAAACTCGGCACCACACCCAGCCGCAGCATGGCCCAAGGCCTGGTCACGCCGTCGAGCACCGGCTCGTTCCACGGTGGCCTGGACCTGAGTCATGACAGCGGTTGGTACGTCGGCCAGTGGTCACCCAGCGCCGGCGTATCCGCCGACCTTGAGATCGATTCCTACATGGGTTTCAAACAACCCTTCGACCAGACCCTGGGCTACGAAGTCGGCTTGATCCACTACAGCTACCCTACCGTCGATACTCTCGACAGCCAGGAATTCTACGGCGGCCTGACCCTGCTCGGCAGCCGCTTCGGCGCCGCCTTGAGCAACGATCCGGACAAACAGAACAGCACCCTGTTCGCCGACCTGGGCGGCAACGTGCCGTTCGGCATTGGCATCAGCGCCAAATACACCACCCACCAGCTCAACTCGCCTGTTTCCGTGGATAACGGCTACGTCAGCAGCTTCAGCGACTGGTCACTGAAAATCTCCCGCCCATGGAAAGGCATCGACCTGGACCTGATCTACAGCGACTCAAGCCTCAGCGGCAGCAGTTGCTCCGCCTACTCCGGCCACAACAGCGAATGCGACAGCCTGCTGACCCTCAAGATGGCCCATCCTTTTTACTAA	MRIPVVLLTFSLLACPASYGQVFQRELGDFDLKLGTTPSRSMAQGLVTPSSTGSFHGGLDLSHDSGWYVGQWSPSAGVSADLEIDSYMGFKQPFDQTLGYEVGLIHYSYPTVDTLDSQEFYGGLTLLGSRFGAALSNDPDKQNSTLFADLGGNVPFGIGISAKYTTHQLNSPVSVDNGYVSSFSDWSLKISRPWKGIDLDLIYSDSSLSGSSCSAYSGHNSECDSLLTLKMAHPFY				NA	NA	NA	NA	NA
D1-35_00485	180			hypothetical protein	ATGCGCGTAAAAGCATCCAACAGCAAAGCAAAGCCAGCTCCAGCCGTTGAAACCAGCGAGTCGATCAACGACCAGATCGCTGCGTTCCTCAAGTCCGGCGGTGAAATCCAGCAGATTGCCAAAGGTGTCAGCGGCCAGACCTTCGGTCCGTCCAAGCAGATCAGCCTGGGCAAGAAGTAA	MRVKASNSKAKPAPAVETSESINDQIAAFLKSGGEIQQIAKGVSGQTFGPSKQISLGKK				NA	NA	NA	NA	NA
D1-35_00486	837	cvfB	COG2996	Conserved virulence factor B	ATGGCTTTAGTCGGGCGCTACAACAGTTTGCAAGTGGTTAAGCACACCAACTTCGGTTTATATCTGGACGGCGGTGCGGACGGCGAAATCCTGCTGCCTAACCGATATATCCCCAAGGATATTCCGAGTGAAGATGAAGACTGGCTCAATGTTTTCATTTATCTCGACAGCGACGACAAACTGATCGCTACCACGGAAAAACCGAAAGTCCAGGTGGGCGAGTTCGCCAGCCTGAAAGTGGTTGAGGTCAACAGCATCGGCGTGTTCCTGGATTGGGGCCTGCCCAAGGATCTGCTGCTGCCGTACTCCGAAGAAAAACGCCAGATGACCGCCGGCGAATACTGCGTGGTACACGTCTACCTCGACAAACACACCCGCCGCATCACCGCAACGGCGCGCCTGGACCGTTATCTGGACAAGACCCCGGCCAACTACACGCCAGGGCAGGAAGTCGATCTGCTGGTTGCCGAAGCCACTGACATGGGTTTCAAGGCAATCATCAACAACAAGCATTGGGGCTTGATCCACAAGAACGAAATCTTCAAGTTCATGCGCGCCGGCATGCAGGAGAAGGGGTTCATCAAGGAAATCCGCCCGGACGGCAAGATCAGCCTGAGCTTGCAGCCAGTCGGCCAGGAAGCGGCGACCAGCCTCAATGCGAAGATCCTCGCCAAGTTGCGCGACAACAACGGCACGCTGCCGGTCAGCGACAAGAGCGACCCGGCGCTGATCAGCAGCCTGTTTGGCGTGAGCAAGGGCAACTTCAAGAAGGCCATTGGCGCGCTGTACAAGAATGGGCAGATTGTCATTCATGCGGATCGTATTGAATTGAGCTGA	MALVGRYNSLQVVKHTNFGLYLDGGADGEILLPNRYIPKDIPSEDEDWLNVFIYLDSDDKLIATTEKPKVQVGEFASLKVVEVNSIGVFLDWGLPKDLLLPYSEEKRQMTAGEYCVVHVYLDKHTRRITATARLDRYLDKTPANYTPGQEVDLLVAEATDMGFKAIINNKHWGLIHKNEIFKFMRAGMQEKGFIKEIRPDGKISLSLQPVGQEAATSLNAKILAKLRDNNGTLPVSDKSDPALISSLFGVSKGNFKKAIGALYKNGQIVIHADRIELS				NA	NA	NA	NA	NA
D1-35_00487	102			hypothetical protein	ATGGAACCTTGGCAGGGTATTACCCTGTGGCGAGGGGATTTATCCCCGCTGGGGCACGAAGTGCCCCTAACTCCTCTCACCGTGATCTGCCAGAAAGATTGA	MEPWQGITLWRGDLSPLGHEVPLTPLTVICQKD				NA	NA	NA	NA	NA
D1-35_00488	1455	pucI_1	COG1953	putative allantoin permease	ATGTCCGAGCAATTGCCCAACGGCTACAGCCCCCGTCTCTATAACGAAGATCTGGGGCCGCTGCCGCAGAAATGGAATTGGTACAACATCTTCGCGTTCTGGATGAGTGATGTGCACAGCGTCGGCGGCTATGTGTTTGCCGCCAGCTTGTTCGCTCTGGGCCTGGCGAGTTGGCAGGTACTGATCGCGCTGCTCGGCGGGATCTGCATTGTGCAGTTGATCGCCAACCTGGTCGCCAAGCCGAGCCAACAGGCGGCGGTGCCTTATCCGGTGATATGCCGGCTGGCGTTCGGCGTGTTCGGAGCGAATATCCCCGCGGTGATCCGCGGCCTGATCGCCGTGGCCTGGTATGGCATCCAGACGTATCTGGCGTCCAGCGCACTGATCATTGTGGTGCTGCGGTTCTTTCCTTCGATGGAAGCCTACGCAACGCCGCATTTTGCCGGTTTGTCCTACCTGGGCTGGTTCGGTTTCCTCGGGTTGTGGTTTGTCCAGGCGCTGGTGTTCTGGACGGGCATGGAGTCGATCCGGCGTTTTATCGACTGGGCCGGGCCGGTGGTGTATGCGGTGATGTTCCTGTTGGCCGGCTGGATCGTCTGGAAGGCCGGCTGGAGCAACATCAGCTTTACCCTGGCGGAGAAATCCCTGTCTGGCTGGCAGGCGTTCGGCCAAGTGATCGTGGCAACAGCCCTGGTGGTCTCGTATTTTTCCGGCCCGACCCTGAATTTCGGTGATTTCAGCCGGTACTGCCGGAGCATGTCTGACGTGCGTCGGGGCAATTTCTGGGGGCTGCCGGTAAATTTCCTGGCCTTCTCGCTGGTCACCGTGGTGATTGTGTCCGGGACGTTGCCAGTATTCGGCGAAATGCTCCATGACCCGATCGCCACCGTGGCGCGCATCGACAACGACGTAGCGGTGTTGCTGGGGGCTTTTGCCTTCGTGACCGCGACCATCGGCATCAATATTGTCGCCAACTTCGTGTCCCCGGCCTTCGACTTCGCCAACGTGGCACCGAGCAAGATCAGTTGGCGCGCCGGCGGCATGATCGCGGCGGTGGCCTCGATTTTCATCACGCCGTGGAACCTGTTCAACAATCCTGAAGTAATCCACTACACCCTGGACGTCTTGGCGGCGTTTATCGGCCCGTTGTTCGGCATCTTGCTGGTGGATTACTACCTGATCAAAAAGCAGCAGATCGACGTCGACGCGCTGTTCAATGATGGGCCGAGCGGGCGTTATTACTACAGCGGCGGCATCAACTGGACGGCGGTCAAGGCGTTGATTCCGGCGACGCTGATGGGCGTAGCAATCACCTTCACACCGCTGCTGCAATCGATGGCCAACTTTGCCTGGTTCACCGGGTGTTTCCTCGGCGGGGTGCTGTATTTCGCCTTGGCGCGGCGTGAGCCAGCCCTACAACTGAATACCTCGCTCAACCCGGCTGGCCAGGCCTGA	MSEQLPNGYSPRLYNEDLGPLPQKWNWYNIFAFWMSDVHSVGGYVFAASLFALGLASWQVLIALLGGICIVQLIANLVAKPSQQAAVPYPVICRLAFGVFGANIPAVIRGLIAVAWYGIQTYLASSALIIVVLRFFPSMEAYATPHFAGLSYLGWFGFLGLWFVQALVFWTGMESIRRFIDWAGPVVYAVMFLLAGWIVWKAGWSNISFTLAEKSLSGWQAFGQVIVATALVVSYFSGPTLNFGDFSRYCRSMSDVRRGNFWGLPVNFLAFSLVTVVIVSGTLPVFGEMLHDPIATVARIDNDVAVLLGAFAFVTATIGINIVANFVSPAFDFANVAPSKISWRAGGMIAAVASIFITPWNLFNNPEVIHYTLDVLAAFIGPLFGILLVDYYLIKKQQIDVDALFNDGPSGRYYYSGGINWTAVKALIPATLMGVAITFTPLLQSMANFAWFTGCFLGGVLYFALARREPALQLNTSLNPAGQA	PGPT0009075_2177	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
D1-35_00489	1173			hypothetical protein	ATGTCGCCCTTGACTCGCCTGCTCGCCAGCTTCATTGCCTTGATAATGGCCATGGGCATCGGCCGCTTCGCCCTTACACCGCAGTTACCTCATTTGATCGGCGAAGGTCAGGTCGACTTGACCGCCGCCGGTCTGATTGCCGCCGCCAACTATCTGGGTTACTTCCTAGGCGCTCTGGACGCCATGTTCGCCCGTCGCGCCGAACAGGTGCAGCGACGGCTGTTGGGCGGCCTGTGGTTATGCGTGCTGCTGACGCTGGCGTCGTTCTGGGCCTGGGGCTTCTGGCCGCACCTGGCGCTGCGCTTCGGCACCGGCGTGGCGAGCGCCTGGGTGATGGTGATGATCACCGCGTTGAGCCAACCCCTGGCGGCGGCAGCGGGACGGCCTCGGCTGGGCGCGTTGGTATTTGCCGGGCCGGGCATGGGGATTTTTCTTACCGGCTTGCTGGCCCTTGGCTCGAACCTGTTGGGCCAGACATCCGCCACCTTGTGGCTGGTGTACGCTGGCGCGGCGCTGCTGATGCTGCTGGTCATCCTGCCGGCCCTGCCGAAACCCGCGCCGGCGGCCACCCTCGCAGCGCCAGTCGTCGCTTCCGGCAGCAGCGGCATCGCCCGTCTTTGCGTGGTCTACGCCTTGTATGGCGTGGGCTACATCATTCCAGCGACGTTTCTGTCGCAGATGGCTTCGGCGCAATTTCACGGGCAATGGCAGGCCGACCTGTTCTGGCCCTGCTTCGGCCTGGCCGCCGCCACCGGTGTGCTGCTGGTGAGCCTGCGCCGGCCGAACCCGAACACCACCAGTCGCTGGCTGATGGCGACGTTGTGGCTGCAAGCCGCTGGCGTGTTTGCCTGCCTGCTGGGCAGCGGCACGGGCCTGGCCCTGGGCGTGTTTCTCTGTGGCGCGCCGTTTCTCGCCTGCATGCAACTGATGGTGATGCGTGCCCGAGAACTGGCCCCCCACGCGACCCAGCGCAACGTCGGCCTGCTGACCGCGTGTTTTGCCATCGGCCAGCTCAGCGGCCCCCTGCTGGCGGCGCTGAGCAGCCATTTCAGTGGCGGCCTGCAACCGGCACTGATTGTCGCCGGCAGCGGACTGTTGTTGGCCGGCGGACTGTTGCTGCGGCCCGCCAGACGTGGCGCGGCGAGCCCCTGCGCGCAGACCGCCCTGCGCTGA	MSPLTRLLASFIALIMAMGIGRFALTPQLPHLIGEGQVDLTAAGLIAAANYLGYFLGALDAMFARRAEQVQRRLLGGLWLCVLLTLASFWAWGFWPHLALRFGTGVASAWVMVMITALSQPLAAAAGRPRLGALVFAGPGMGIFLTGLLALGSNLLGQTSATLWLVYAGAALLMLLVILPALPKPAPAATLAAPVVASGSSGIARLCVVYALYGVGYIIPATFLSQMASAQFHGQWQADLFWPCFGLAAATGVLLVSLRRPNPNTTSRWLMATLWLQAAGVFACLLGSGTGLALGVFLCGAPFLACMQLMVMRARELAPHATQRNVGLLTACFAIGQLSGPLLAALSSHFSGGLQPALIVAGSGLLLAGGLLLRPARRGAASPCAQTALR				NA	NA	NA	NA	NA
D1-35_00490	894	gltR_1	COG0583	HTH-type transcriptional regulator GltR	GTGGAGTTCAGCCAGTTACGGATTTTCCAGGCCGTGGCCGAGGAAGGTTCCATCACCCGGGCGGCCGAGCGCTTGCACCGGGTGCCCTCGAACCTCTCGACCCGGCTCAAGCAGCTCGAAGAGCAGCTGGGCGTGGACCTTTTTCTGCGCGAGCGTCAGCGTTTGCAGTTGTCGCCTGCGGGAAAAGTCCTGTTGGACTACGCGACCAAGCTGTTCGCCCTGCATGACGAAGCCCATGCGGCGGTGCAGGGCGGCCAGCCGGCCGGAGATTTTGTGTTGGGCACGATGTACAGCACAGCGGCGACCCACTTGCCGGACTTGCTGGCGGCTTACCACCGGGCCTACCCGGCGGTGAACCTGCAAGTGCAATCGGGGCCGAGTGGAGAATTGCTTGAAGGCCTGCTCACCAATCGCCTCGATGCGGCGCTGGTAGACGGTCCGCTGGAGTTGGCCGGGCTGGATGGCGTGCCGTTGTGCGACGAGCGGCTGGTGCTCATCACCGAGGCCGCCCATCCACCGGTGCGCAGCGCGCTGGACGTGCAAGGCCGTGCGGTATTCACCTTCCGGCGTGGCTGTTCGTACCGGATGCGCTTGGAAGCCTGGTTTGCCCATGATCATGCGACCATGGGCCGGGCGATGGAGATCGAGTCGTACCAGGGGATGCTGGCCTGTGTGATTGCCGGCTCCGGAGTGGCGCTGATGTCCGAGTCGATGCTCGCCAGCCTGCCGGGGCGGGAACGGGTAAATGTGCATGCGTTGGCCGAGCCGTTTGCCAGCGCGACGACCTGGTTGATGTGGCGCAAAGGCATGGTCGGCGCCAACCTGAACGCCTGGATCGAGTTGCAGCAACAAGCGTGGCCGCGGGCGCCAATGATCACGGCGCAATCGGCTTGA	MEFSQLRIFQAVAEEGSITRAAERLHRVPSNLSTRLKQLEEQLGVDLFLRERQRLQLSPAGKVLLDYATKLFALHDEAHAAVQGGQPAGDFVLGTMYSTAATHLPDLLAAYHRAYPAVNLQVQSGPSGELLEGLLTNRLDAALVDGPLELAGLDGVPLCDERLVLITEAAHPPVRSALDVQGRAVFTFRRGCSYRMRLEAWFAHDHATMGRAMEIESYQGMLACVIAGSGVALMSESMLASLPGRERVNVHALAEPFASATTWLMWRKGMVGANLNAWIELQQQAWPRAPMITAQSA				NA	NA	NA	NA	NA
D1-35_00491	129			hypothetical protein	ATGAAAGAGAAAATCCAGAACTGGCTTCACGACTTGGGTGTCGCGCTCGGCTTGATCGAACCTCCCATGCAGCCGATCCCGATCCGCACCGACGACGAGCAACGCCGCCGCCAGCCGCGCCGCCGGTAA	MKEKIQNWLHDLGVALGLIEPPMQPIPIRTDDEQRRRQPRRR				NA	NA	NA	NA	NA
D1-35_00492	1389	opuE	COG0591	Osmoregulated proline transporter OpuE	ATGGCCTTGGATTTAATCGTCGTTCTCATCTACGCCACCGGCATGATCGCCCTGGGCTGGTACGGCATGCGCCGCGCCAAGACCCGCGACGACTACCTCGTCGCCGGGCGCAACCTCGGTCCGGGTTTTTACCTGGGCACCATGGCCGCCACCGTGCTGGGTGGCGCGTCGACCATCGGCACTGTGCGTCTGGGCTATGTCCACGGCATTTCCGGCTTCTGGTTGTGCGGCGCCATCGGCCTGGGCATCGTCGGGCTGAGCCTGTTCCTCGCCAAGCCGTTGCTCAAGCTGAGGATCTACACCGTGACCCAAGTGCTGGAGCGCCGCTACAACCCGGCCGCGCGCCATGCCAGCGCGGTGATCATGCTGGTCTATGCGCTGATGATCGGCGCCACCTCGACCATCGCCATCGGCACGGTCATGCAGGTGCTGTTCGGCCTGCCCTTCTGGGTTTCGATCCTGGTGGGCGGCGGCGTGGTGGTTCTTTATTCCACAATCGGCGGCATGTGGTCGCTGACCCTGACCGACATCGTCCAGTTCCTGATCATGACCATCGGCCTGGTGTTTCTGCTGATGCCAATGTCCATCAGTGACGCTGGTGGCTGGGACGCGATGGTAGCGGCTTTGCCGGCGCGTTATTTCGATTTCACCGCCATCGGCTGGGACACTATCCTCACCTACTTCCTGATCTACTTCTTCGGCATCTTCATCGGCCAGGACATCTGGCAACGGGTGTTCACCGCCCGCAGCGAAGGCGTGGCGAAAGTCGCCGGCACCGCGGCAGGTCTGTATTGTGTGCTCTACGGCCTTGCCGGTGCGCTGATCGGCATGGCCGCCAAAGTCTTGCTGCCGGACCTGGAAAACGTCAACAACGCCTTCGCCAGTGTGGTGCAAACCAGCCTGCCGAACGGCATTCGTGGCCTGGTGATCGCAGCCGCGTTGGCGGCATTGATGTCCACCGCCGCAGCAGGCCTGCTTGCGGCATCCACCACGGTGGTCCAGGACTTGCTGCCCCGCTTGCGCCAGGGCCGTGAAAGCGGCGACGGCGACGTTCACGAAAACCGTATCGCGACCCTGCTGCTGGGCGCGGTGGTATTGGCTATCGCCTTGGTCGTCAGCGACGTGATCAGCGCCCTGACATTGGCCTACAACCTGCTGGTCGGCGGCATGCTGATCCCGCTGATCGGGGCGATCTACTGGAAACGCGCAACCACCGCCGGCGCGATCACCAGCATGTCGCTGGGTTTCGTCACCGCGCTGTTCTTCATGTTCAAGGACGGCCTGGATGCGAACACGCCGATCTACTACAGCCTGAGCGTGGCGTTGGTGAGCTTCGTGGTGGTGAGCCTGCTGTCGCCACGGTCGGAGGTGGTGGCCAAGGCGGTTTGA	MALDLIVVLIYATGMIALGWYGMRRAKTRDDYLVAGRNLGPGFYLGTMAATVLGGASTIGTVRLGYVHGISGFWLCGAIGLGIVGLSLFLAKPLLKLRIYTVTQVLERRYNPAARHASAVIMLVYALMIGATSTIAIGTVMQVLFGLPFWVSILVGGGVVVLYSTIGGMWSLTLTDIVQFLIMTIGLVFLLMPMSISDAGGWDAMVAALPARYFDFTAIGWDTILTYFLIYFFGIFIGQDIWQRVFTARSEGVAKVAGTAAGLYCVLYGLAGALIGMAAKVLLPDLENVNNAFASVVQTSLPNGIRGLVIAAALAALMSTAAAGLLAASTTVVQDLLPRLRQGRESGDGDVHENRIATLLLGAVVLAIALVVSDVISALTLAYNLLVGGMLIPLIGAIYWKRATTAGAITSMSLGFVTALFFMFKDGLDANTPIYYSLSVALVSFVVVSLLSPRSEVVAKAV	PGPT0013955_5603	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
D1-35_00493	1527			hypothetical protein	ATGAATAACAATAACGATAAAAGCCTTACGCAAATTGAAACCAATGGGGTCGAACAGATCCCCGACCACCAACGAACCGCCGGCCCGGGGGATCTGTTTCGACTGATCTTCGGCGGCGCCAACACCTTTGCCACCGCGGTGCTCGGCAGCTTTCCGGTGCTGTTCGGGCTGTCATTCCAGGCCGGAGTCTGGGCCATCGTGCTGGGGGTACTGGTCGGTTCGATCATCCTCGCGCCGATGGGCCTGTTCGGCCCGCTCAACGGCACCAACAACGCCGTGTCCTCGGGTGCGCATTTTGGCGTCCATGGGCGAATCGTCGGCTCGTTCCTCTCGCTGCTGACCGCCATCGCGTTCTTCTCGCTGTCGGTGTGGAGCTCGGGCGACGCGCTGATCGGCGGCGCCAAGCGACTGGTCGGCGTACCGGAAACCGACCTGAGCCTGGGCCTGGCCTACGGCCTGTTTGCCCTGCTGGTATTGACGGTGTGCATCTACGGCTTTCGTTTCATGCTGTGGGTCAACCGCATCGCCGTGTGGGCCGCCAGCCTGTTGTTCCTGCTGGGCATCTTCGCCTTCGCGCCGAGCTTCGACAGCCAGTTCGCCGGCACGGTCAGCCTCGGCCAGCCGGGCTTCTACGCCGCCTTCATCGGCGCGGCGCTGGTGGCCATGAGCAACCCGATTTCCTTCGGCGCGTTCCTCGGCGACTGGTCGCGCTACATCCCGCGCAACACGCCCAAGCCACGCATCATGCTGGCGGTCATCGCCGCTCAGTTGGCCACGCTGATACCGTTTCTGTTCGGCCTTGCCACCGCCACCATCGTCGCGATCAAGGCGCCGGACTACATCGCCGCGAGCAACTACGTGGGCGGCCTGCTGGCGGTCTCGCCGGGCTGGTTCTTCCTGCCGGTGTGCCTGATCGCGGTGATCGGCGGCATGTCCACCGGCACCACCTCGCTGTATGGCACCGGGCTGGACATGTCCAGCGTGTTCCCACGGCTGCTGTCGCGGGTCAAGGCGACGCTGCTGATCGGCGTGCTGTCGATTGCGTTCATCTTCATCGGGCGCTTCGCCGCGAACCTGGTACAGAGCGTCTCGACCTTCGCCGTGCTGATCATCACCTGCACCACGCCGTGGATGGTGATCATGATCATCGGCCTGCTGGTGCGCCGCGGCTTCTACTGCCCGGACGACCTGCAAGTCTTCACCCGTGGCGAAACCGGCGGGCGCTACTGGTTCAGCCATGGCTGGAACTGGCGCGGCCTGGGGGCGTGGATTCCCAGCGCACTGGTGGGGCTGTGCTTCGTCAACCTGCCGGGGCAATTCGTCGGGCCGTTGGGAGAGCTGGCCGGTGGCATCGACGTCAGTCTGCCGGTGACCCTGGGGCTGGCCTCGGTGGTGTACCTGCTGTTGCTCGGGCTGTTTCCGGAACCGGCGGCGGTGTATGGGCCGCAGGTATGGCGAGGGGATTCATCCCCGCTGGAGCGCGAAGCGGTCCCAAACCCTGACATCTCGGTGTGCCAGACAGATTGA	MNNNNDKSLTQIETNGVEQIPDHQRTAGPGDLFRLIFGGANTFATAVLGSFPVLFGLSFQAGVWAIVLGVLVGSIILAPMGLFGPLNGTNNAVSSGAHFGVHGRIVGSFLSLLTAIAFFSLSVWSSGDALIGGAKRLVGVPETDLSLGLAYGLFALLVLTVCIYGFRFMLWVNRIAVWAASLLFLLGIFAFAPSFDSQFAGTVSLGQPGFYAAFIGAALVAMSNPISFGAFLGDWSRYIPRNTPKPRIMLAVIAAQLATLIPFLFGLATATIVAIKAPDYIAASNYVGGLLAVSPGWFFLPVCLIAVIGGMSTGTTSLYGTGLDMSSVFPRLLSRVKATLLIGVLSIAFIFIGRFAANLVQSVSTFAVLIITCTTPWMVIMIIGLLVRRGFYCPDDLQVFTRGETGGRYWFSHGWNWRGLGAWIPSALVGLCFVNLPGQFVGPLGELAGGIDVSLPVTLGLASVVYLLLLGLFPEPAAVYGPQVWRGDSSPLEREAVPNPDISVCQTD				NA	NA	NA	NA	NA
D1-35_00494	408			hypothetical protein	ATGAGCCATCGAGATCAGGTTCTCAAGGCCGCCGCCGAACTGGTATCGGCCTTCGCCCGCAATGACCGCGAGGCTTACTTCGGCGCATTCAGCGCCGATGCGAGCTTCGTGTTCTACACCCTCGAACAGCCGCTGCTGTCACGCGAGGCCTACCAGGCCATGTGGGACCGCTGGCGCGCCGAGGATGGCTTCGAGGTGCTGCGTTGCACCTCGAACAACGCCTTCGTCAGCCTGCAAGGGGACGTGGCGATTTTCATCCATGACGTGGCCACCGAGCTGCGCATGCAAGGGGAGCTGCACTTTAGCCAGGAGCGCGAAACCATCGTGTTTCGCCAAGAACAACAAGGCCTATGGCTGGCCTGTCATGAACATTTGTCCGCAATGCCGGAAGGGCTGCCACCCCCTTAG	MSHRDQVLKAAAELVSAFARNDREAYFGAFSADASFVFYTLEQPLLSREAYQAMWDRWRAEDGFEVLRCTSNNAFVSLQGDVAIFIHDVATELRMQGELHFSQERETIVFRQEQQGLWLACHEHLSAMPEGLPPP				NA	NA	NA	NA	NA
D1-35_00495	951	gbuA	COG0010	Guanidinobutyrase	GTGGACAAGATTCTTCACCAACCACTGGGCGGCAACGAAATGCCGCGCTTCGGCGGCATCGCCACCATGATGCGCCTGCCCCATTTGCCCACCGCCGCCGGCCTGGACGCAGCCTTTGTCGGCGTGCCACTGGACATCGGCACCTCCCTGCGCGCCGGTACCCGCTTCGGGCCCCGCGAGATCCGCGCCGAATCCGTGATGATCCGTCCCTACAACATGGCCACCGGTGCCGCGCCGTTCGACTCGCTGTCGGTGGCGGACATTGGCGACGTGGCAATCAATACCTTCAACCTGCTGGACGCGGTGCGGATCATCGAAGAGTCGTACCACAAGATCCTCGAACACAACGTCATCCCCCTGACGCTGGGCGGCGACCACACCATCACCCTGCCGATCCTGCGGGCGATCCACAAAAAGCATGGCAAGGTCGGCCTCGTGCACATCGACGCCCACGCCGATGTGAACGATCACATGTTCGGCGAAAAAATCGCCCACGGCACCACTTTCCGCCGCGCCGTGGAAGAAGGCCTGCTCGACTGCGATCGCGTGGTGCAGATCGGCCTGCGCGCCCAGGGTTATACCGCCGAGGATTTCAACTGGAGCCGTAACCAGGGCTTCCGTGTGGTCCAGGCCGAAGAATGCTGGCACAAGTCTCTGGCCCCATTGATGGCCGAAGTGCGCGAGAAAGTCGGTGGCGGCCCGGTGTACCTGAGCTTCGACATCGACGGCATCGATCCGGCCTGGGCGCCAGGCACCGGCACCCCGGAAATCGGCGGCCTGACCACCATCCAGGCGATCGAGATCGTCCGTGGCTGCCAGGGCCTCGACCTGGTCGGTTGCGATCTGGTAGAAGTTTCGCCGCCGTACGACACCACCGGCAACACCTCGCTGCTGGGCGCCAACCTGCTGTACGAGATGCTCTGCGTACTGCCCGGCGTGGTCCATCGCTGA	MDKILHQPLGGNEMPRFGGIATMMRLPHLPTAAGLDAAFVGVPLDIGTSLRAGTRFGPREIRAESVMIRPYNMATGAAPFDSLSVADIGDVAINTFNLLDAVRIIEESYHKILEHNVIPLTLGGDHTITLPILRAIHKKHGKVGLVHIDAHADVNDHMFGEKIAHGTTFRRAVEEGLLDCDRVVQIGLRAQGYTAEDFNWSRNQGFRVVQAEECWHKSLAPLMAEVREKVGGGPVYLSFDIDGIDPAWAPGTGTPEIGGLTTIQAIEIVRGCQGLDLVGCDLVEVSPPYDTTGNTSLLGANLLYEMLCVLPGVVHR	PGPT0007635_241	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007635-gbuA-K12255	NA	NA
D1-35_00496	894			hypothetical protein	ATGGCCAACGCTCTACCCGACCTGAAACTGCTGCGCATTTTCGTCAGCGTGGTCCGTCACCAAGGGTTTGCCAATGCCCAGCACGAGCTCAACCTTTCCACGTCGGCGATCAGCACCTATATGAGCCAACTCGAATCGGCCCTGGGCCTGGTGCTCTGTCATCGTGGGCGGGGCGGGTTCAGCCTGACCAGCAAAGGCGAGCTGTTCCATCAGGAGACCCTGCGCCTGTTGGGCGAGCTCGAAGGTTTCGAGCAATACGCCGCGGCGCTCAAGGGTGAGTTGCGCGGTACGCTGAACCTGGGCGTGATCGATTCGACGGTCAGCGACAAGGCGTTGCCGTTCGCCGAAGCCATCGGCGCCTACAGCCAGGAGCACCCGGCGGTGCATTTGCACCTGTCGGTCATGAGCCCCTACGAGTTGCAACTCGGCGTGCAGGACAATCGCCTGGACCTGGCCATCGGCGCGTTTTCCACGCGTATGAGCGGGCTGGTCTATATGCCGCTGTACCGCGAACAGCACTGGTTGTATTGCAGCAACCGGCATCCGTTATTCAACGAACGGCGCATCCCTGAGCAACTCATTACCCAGCAGCGTATGGTCGGGCGCGGTTACTGGAGCCAGGCCGAACTGGCGCGCCACGGCTTCAAGCACAGCGCGGCGACGGTAGAAAGTATGGAAGCGCAACTGATTCTGGTGCTGTCCGGTGCCTACATCGGTTATCTGCCCGAGCACTACGCCCAGGCCTGGGTCGACAAGGGCGATCTGCGCGTGCTGCTGCCGGCAACCTTTGGCTATCAGGCGCCGTTTTCGATGATCGTGCGCCGTGGCCGCAGCCGCGAGCCGCTGATCCAGACCTTCCGTGATCTGCTCAAAGCTCAACTGAACCAGGCCTGA	MANALPDLKLLRIFVSVVRHQGFANAQHELNLSTSAISTYMSQLESALGLVLCHRGRGGFSLTSKGELFHQETLRLLGELEGFEQYAAALKGELRGTLNLGVIDSTVSDKALPFAEAIGAYSQEHPAVHLHLSVMSPYELQLGVQDNRLDLAIGAFSTRMSGLVYMPLYREQHWLYCSNRHPLFNERRIPEQLITQQRMVGRGYWSQAELARHGFKHSAATVESMEAQLILVLSGAYIGYLPEHYAQAWVDKGDLRVLLPATFGYQAPFSMIVRRGRSREPLIQTFRDLLKAQLNQA	PGPT0003120_872	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ACINETOBACTIN_METABOLISM,PGPT0003120-bauR-K21699	NA	NA
D1-35_00497	597			hypothetical protein	ATGTCCAGAATTCAATGCCCGCGTTGCCACCGTCCGCAAAGCCATTGCCTGTGCCCGTTGATCCCCAGTCTCGACAGCCGCACCCGTGTTCTGCTGTTGCAGCATCCCAGCGAGGTGAACCATGCCTTGAACACGGCGCGGTTGGCGGCATTGGGCCTGAACAACGCCGAATTGATCGTCGGCGAGGTGTTCGACGATTTGCCCAGGTTGCTCGATCAACCGGGTTATCAGGCGCGGTTGTTGTTTCCCGCCGACGATGCGCAGCCGATGCAAGCCTACGGTCCCAGCAATGACCCGTTGTTATTGGTCGTCCCCGACGGCACCTGGCGCAAGGCGCGCAAGCTGCTGCACCTGAACCCGTTGCTGGCGGCGCTGCCGAGGGTCACCCTCGCCAACGGCGGCGTGTCCCGTTACCGCTTGCGCAAGGCGCCCGGGCCGGGCGCGTTGTCGACGGTGGAGGCGATTGTCCAGGCACTGCAAACCCTCGAAGCACCGACAAGTTTCGAGCCGTTGCTGAGGCCGTTCGAGGCGCTGATCGAGGGGCAGATCGCGGCGATGGGGGAGGACACCTTCAGGCGTAATCATTCCGGGAAGTAG	MSRIQCPRCHRPQSHCLCPLIPSLDSRTRVLLLQHPSEVNHALNTARLAALGLNNAELIVGEVFDDLPRLLDQPGYQARLLFPADDAQPMQAYGPSNDPLLLVVPDGTWRKARKLLHLNPLLAALPRVTLANGGVSRYRLRKAPGPGALSTVEAIVQALQTLEAPTSFEPLLRPFEALIEGQIAAMGEDTFRRNHSGK				NA	NA	NA	NA	NA
D1-35_00498	1365	prsE_1		Type I secretion system membrane fusion protein PrsE	ATGCCAGCTCAAACACCTGATTCAGCCGCCCGAAGCTACTTCGGCAGTTTCAGCAAAAGCGCCGAAAGCGAGTTCATGCCGGAAACCGCCAGCGCGACATTGCAGGACTCGCCCCGGCGTTCGCGCGTGACGGTGTGGCTGGCCGCCGGGCTGATTGTCAGCGGTTTGGTCTGGGCCAAACTGGCCGTGCTGCAGGAAGTCACCACGGGCGAAGGCAAGGCGATTCCATCGAGCAAGGTCCAGGTGATCCAGAACCTGGAAGGCGGCATCGTCACCGAGATTTTCGTGCGCGAAGGCCAGATGGTGAACAAGGGCGAGACCCTGCTGCGCCTGGATGACACGCGGTTCCTCTCAAACAAGGGCGAGAGCGAGGCCGATCGTTATGCCCTCACGGCCCAGGTCGAACGCCTGTCGGCCGAGGCTGAAGGGCGACCGTTTGCGCTGTCGGCAGAGGTGACCGCCAAGGCCCCGCAAGTGGCCGAAGACGAACGTTCGTTGTATCAACAACGCCAGCGGCGCCTGGCCAGCGAGCAACGCACCCTCACCGAACAGCTGCGGCAGAAAACCCAGGAACTCGCCGAGTTTCGCTCCAAACAAGGCCAGTTCAGCTCGGCCCTGTCCTTGCTGCAGGAAGAAATGAACATGTCGGCGCCGCTGGTGCGTACCGGGGCGGTTTCACCGGTGGAAATCCTCCGGCTCAAGCGCAGCGCGGTGGAGGTGCGCGGCTCACTCAACGCCACCACCCTGGCGATCCCTCGGGCCGAGTCGGCGATCAACGAGATCAAGAGCAAGATCGACGAATCGGAGCAGTCCTTCCGCTCCGACGCGGCCAAGGAGCTCAACGAGAAACGCACTGAACTGTCGAAAATCACCGCATCGAGCATCGCCATCGATGACCGGGTGACCCGCACCACCGTGGTCTCGCCGGTGCGTGGGGTGATCAAGCAGCTCAAGGTCAACACCATTGGCGGTGTGGTCCAGCCGGGCAGCGACATGGTCGAAATCGTGCCACTGGAGGACAACCTGCTGATCGAAGCCAAGGTCCGTCCGCAAGACGTGGCCTTTCTCCACCCGGGCCAGAAAGCCATGGTCAAGTTCAGCGCCTACGACTACACAATCTATGGCGGCCTGAGCGCCAAGCTCGAACTGATCGGCGCCGACACCATCACCGATGACAAGGGCAACAGCTTCTACCTGATCCAGGTGCGCACCGATAAAAACCATTTGGGCGGCGATGCCAAACCGTTGCTGATCATCCCGGGGATGGTGGCCACGGTGGACATCATTACCGGGGAGAAAAGTGTACTGGATTACCTGCTCAAGCCGGTGTTGAAGGCGCGGACCGAGGCGATGCGTGAGCGCTGA	MPAQTPDSAARSYFGSFSKSAESEFMPETASATLQDSPRRSRVTVWLAAGLIVSGLVWAKLAVLQEVTTGEGKAIPSSKVQVIQNLEGGIVTEIFVREGQMVNKGETLLRLDDTRFLSNKGESEADRYALTAQVERLSAEAEGRPFALSAEVTAKAPQVAEDERSLYQQRQRRLASEQRTLTEQLRQKTQELAEFRSKQGQFSSALSLLQEEMNMSAPLVRTGAVSPVEILRLKRSAVEVRGSLNATTLAIPRAESAINEIKSKIDESEQSFRSDAAKELNEKRTELSKITASSIAIDDRVTRTTVVSPVRGVIKQLKVNTIGGVVQPGSDMVEIVPLEDNLLIEAKVRPQDVAFLHPGQKAMVKFSAYDYTIYGGLSAKLELIGADTITDDKGNSFYLIQVRTDKNHLGGDAKPLLIIPGMVATVDIITGEKSVLDYLLKPVLKARTEAMRER	PGPT0022230_414	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ADHESIN_TRANSPORT,PGPT0022230-lapC-K12542	NA	NA
D1-35_00499	2160	apxIB	COG2274	Toxin RTX-I translocation ATP-binding protein	ATGACCCGCATGGAACCGGTAATCCCCGGCGCCGACCCGCGCCTGAACTTCGATGACCCGTTGCTGGACGGCTTGTTGATCCTCTGCAAACTCCATGGCGCGACTGTCAGCCGCGCCAGCCTCAGCGCCGGGTTGCCAATGGCGCACCAACGCCTGAGCCTGGACCTGCTGCCTCGCGCAGCGGCCCGGGCCAGTCTGCAGGCGCGGCTGCTGCGTCGCGACCTGGCGGACATTTCAGCGCTCAATCTGCCGGTGATGCTGATTCTGGCCGGAGGTCGCTGCGCGATATTGCGCCGCTGGGGTGACGACGGCCAGGCGCTGATCCTGCCCAGCGAAGCCGATGGCGGCGAACAATGGGTCAGCCGCCAGGAGCTGGCCGCCGACTACAGCGGCCAGGCCTTGTTCGCCCGACCGCGCCACGAACTGGAAGATTTGCGCGCGCCGCTGGTCCCGCGAGTCGAGGCCTGGTTTCGTGACACCTTGAAACTGTCGCGCTGGCTGTACAGCGACGCGATCCTGGCGAGCTTTCTGATCAACTTGCTGGGATTGATGGTGCCGCTGTTCGTAATGCAGACCTACGACCGCGTGGTGCCGAACCAGGCCACGTCGACATTGTGGGTGCTGGCTGTCGGGCTGCTGATTGGCACCGGCTTCGAACTGGTGTTGCGGGTCGTGCGGGCTCATCTGCTGGACAGCGCCGGCAAAAAGACCGACGTGATTCTCTCCGCCACGCTGTTCGAACGCATCACCGGCATGGCGATGAAAGCCAAGCCGGTGACCATCGGCGGCTTCGCCCAGAGCATCCATGACTTCCAGGGCCTGCGGGAATTTCTTACCGCCGTGACCCTGACCAGCCTGATCGACTTGCCCTTTGCCGTGCTGATGCTGGTGGTGATCGGCCTGCTTGGCGGCTGGCTGGTGGTGATACCCGTGGTGGCGTTCCCGATCACCGTGGTTTTCGCCATGATCATCCAGGCGCGCCTGCGCGACACCGTGCAGAAAAGCCTGGCCCTCGGCGCCCAACGCCAGGCCTTGCTGATCGAAACCCTCGGCGGCCTGGAAACCCTCAAGGCCTGCAGCGCCGAAAGCGAACGCCAGCATCAGTGGGAAAGCACTCATGGCGCCCTCACCCGCCTCGACAGCCACGCCCGCAACCTTTCGGCGCTGGCAACCAATGGCACGCTGTTCCTGCAACAACTGGCCGGCATGGCAACCATCGTCGCCGGCGTCTACAGCATCATTGCCGGCAACCTCAGCGTCGGCGCACTGGTGGCGACCTACATGCTCGGCAGCCGGGTCCTCGCGCCGCTGGGCCAGATCGCCGGGCTGATCACTCGCTACCAGCAAGCCCAGCTCACCATGCGCAGCACCGATGCCTTGATGGCCCTGCCCCAGGAGCGCGACGCCAGCCAGCGTCCGCTGGAGCGCACCCAATTGCAGGGCGCCCTGGATGTCAGCGGCGTGACCTTCCACTACGACGGCCAGAGTACCCCGGCGTTGGCGAACGTCAGTTTCAGCCTCAAGCCTGGCGAGCGCGTCGGGATCATCGGCCGCAGCGGCTCGGGCAAAAGCACCCTGGCGCGCCTGGTGATGGGTTTTTATGCCCCGCAGGAAGGTCAGTTGCTGCTCGATGGCCTGGACCTGCGGCAACTGGACGTCGCCGACCTGCGTCAACAGATCGGCTACGTCGCCCACGACCTGCCTCTGCTGGCCGGCAGCCTGCGCGACAACCTCACCCTTGGCGCCCGCTACATCAGCGACGGCCGCATGCTGGAGGTGGCGGAACTCACCGGCGTGACCGAACTGGCGCGCCAGCACCCGCAAGGCTTCGATCGCCCGGTCGGCGAGCGCGGCCAGCTGCTGTCCGGAGGCCAGCGCCAGGCCGTGCTGCTGGCGCGGGCCCTGCTGCTCGACCCGCCGATCCTCTTGCTCGATGAACCCACCAGCGCCATGGACAACAGCAGCGAAGATACCTTGCGGCAAAAACTTCACGCCCATGTGCAGGGCAAGACCGTGCTGCTGGTCACCCACCGTACCTCGATGCTGAGCCTGGTGGATCGCCTGGTGGTGCTGGAAAACGGACGGATCGTGGCGGACGGACCGAAGGACGCGGTGATCGATGCGCTGCGCAAAGGGCGGGTGGGGTCTGCTGCAGTATAA	MTRMEPVIPGADPRLNFDDPLLDGLLILCKLHGATVSRASLSAGLPMAHQRLSLDLLPRAAARASLQARLLRRDLADISALNLPVMLILAGGRCAILRRWGDDGQALILPSEADGGEQWVSRQELAADYSGQALFARPRHELEDLRAPLVPRVEAWFRDTLKLSRWLYSDAILASFLINLLGLMVPLFVMQTYDRVVPNQATSTLWVLAVGLLIGTGFELVLRVVRAHLLDSAGKKTDVILSATLFERITGMAMKAKPVTIGGFAQSIHDFQGLREFLTAVTLTSLIDLPFAVLMLVVIGLLGGWLVVIPVVAFPITVVFAMIIQARLRDTVQKSLALGAQRQALLIETLGGLETLKACSAESERQHQWESTHGALTRLDSHARNLSALATNGTLFLQQLAGMATIVAGVYSIIAGNLSVGALVATYMLGSRVLAPLGQIAGLITRYQQAQLTMRSTDALMALPQERDASQRPLERTQLQGALDVSGVTFHYDGQSTPALANVSFSLKPGERVGIIGRSGSGKSTLARLVMGFYAPQEGQLLLDGLDLRQLDVADLRQQIGYVAHDLPLLAGSLRDNLTLGARYISDGRMLEVAELTGVTELARQHPQGFDRPVGERGQLLSGGQRQAVLLARALLLDPPILLLDEPTSAMDNSSEDTLRQKLHAHVQGKTVLLVTHRTSMLSLVDRLVVLENGRIVADGPKDAVIDALRKGRVGSAAV	PGPT0022225_803	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ADHESIN_TRANSPORT,PGPT0022225-lapB-K12541	NA	NA
D1-35_00500	1359	bepC_1		Outer membrane efflux protein BepC	ATGCGCGTTCTTACCCCTCTCTGCAGCGCGGTTTTGCTGGCCATGGCCTGCTCTTCTCAAGCGCAGGCCATGTCCTTGACCGAAGCGATACAGAGCACCATCGCGACCCACCCGGAACTCGCACAGCGGGTGGACAGCCGTTTGTCGGCCAATGAAGACGTCAAGGTCGCCCGGGGCGGTTTTTTCCCGTCGGTGGATTTGAACGCCGGCTATGGTCGGGGCTACAGCGACAACACCAACACCCGGGCGCTGGGCAACCATCACACCAATATCCTCACCTACACCCAGTCGGAGCTGCGCCTGCGCCAGATGATCTTTGACGGGTTCAACACCGCCAACGAAGTGGAACGCACCAAGGGTGTGGTCAACTCCCGCGCCTATTACGCCCAGGGCACCGCGCAGGACCTGGCCCTGCGGACCATCGAGGTCTACCTGGAAGTGCTCAAGCGTCGCGAGCTGGTAACCCTGGCCAAGAACAACCTGCAGGCGCACCTGCGCGTCAACGACCAGATCGGCCTGCGCACCGAGCGTGGGGTGGGCAGCACGGCCGACTCCGACCAGTCCAATGCCCGTCGGGCCCTGGCGGAAAACAACTACGATACCGCCCAGGTCGACCTGGCCGATGCCGAGGCGAACTTCTACAGCGTGGTCGGGCGCATGCCCGATGAGCTGGAAGCCCCGCCGTCGACCAAGGGCGAAATCCCGGTCGACCTGCGCGAAGCCCAGCAGAGCATGGTGGATAACAACCCGTACCTGAAATCGGCCCAGGCCGACATCCAGTCCGCCGAAAGCCAGTATGAAGTGGCGAAATCGCCGTTCTACCCGCGCTTCGATGCGGAAGCGGCGGTGGGCGCCAACAACAACCTCGGCGGCGAAGAAGGCCACGACAACAACTGGCGGCTGGGCGTGGTGATGAACTACAACCTGTTGCGCGGTGGTAGCGACAAGGCCCGGCTGGCCTCCAACGCCCACCAGATCAACCAGGCCATGGACATCCGCAACAACGCCCTGCGCCAACTCAACGAAGACACGCGCCTGGCCTGGAACGCGATGCTCAACGCCCGCAAACAGACCCCGACGGCCCGTGAGTACGCCGACACCACCGCCCGCGTGCGTGCCGCTTATCAAGACCAGTTCGGCCTCGGCCAACGGACCCTGCTCGACTTGCTCGACAGCGAAAACGAGCTGTACAACGCCAACCGTCGCTACACCGAGGTGCGCTACACCGAGGAATACTCCATGTACCGCGTGCTGGCGAACATGGGCCTGTTGTTGAGCAAACAGCGGATCGTGCTGCCGGCCGACGCCGTCGCCCAGACCGAAGTCAAGAACCAGGCACGGCTGCCGGAACTGAAGTAG	MRVLTPLCSAVLLAMACSSQAQAMSLTEAIQSTIATHPELAQRVDSRLSANEDVKVARGGFFPSVDLNAGYGRGYSDNTNTRALGNHHTNILTYTQSELRLRQMIFDGFNTANEVERTKGVVNSRAYYAQGTAQDLALRTIEVYLEVLKRRELVTLAKNNLQAHLRVNDQIGLRTERGVGSTADSDQSNARRALAENNYDTAQVDLADAEANFYSVVGRMPDELEAPPSTKGEIPVDLREAQQSMVDNNPYLKSAQADIQSAESQYEVAKSPFYPRFDAEAAVGANNNLGGEEGHDNNWRLGVVMNYNLLRGGSDKARLASNAHQINQAMDIRNNALRQLNEDTRLAWNAMLNARKQTPTAREYADTTARVRAAYQDQFGLGQRTLLDLLDSENELYNANRRYTEVRYTEEYSMYRVLANMGLLLSKQRIVLPADAVAQTEVKNQARLPELK	PGPT0022235_756	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ADHESIN_TRANSPORT,PGPT0022235-lapE-K12543	NA	NA
D1-35_00501	702			hypothetical protein	TTGCACCAGCGCGCCAGGATTGCTGGCGGTACCGTCGGCAAGATTGGCCTCGTTGGTGCTCAGCTCGCCGCCGTCCACGGTCACGCCATCAAGGGTGACGGGGTTGTCCGGCGTTTCAGGAATGACCGGCGGCACGGTTCCATCGCCATCATCGCCATCGTTGGCGTCCGGATCAGCCGCCAGCTCCAGTTGTGGAAACTCGGGAATCCCGTTGAACCCGGCGGTTGGGAAGCCAATCAGAGGATCAACCTCCCCGGCTACCTCCTCCAGCAGCACAAAGCTGTGCCCACCGCCCACTCCGCCCGGGTTGCCGCCCTCGGCGCCCGCCGCCGTGGCCTCGCCCGTCTGGGTCGGGTCGGCGCCGGCGGCGATGGCTTGCTGCAATTGCTGCACATCGGTCAGTTGCGCATTACTTGGCACTGGCGCTTCGGGCGTGTCGACAGGCGCTGCCTGGTTGGCGAGCAGCTGCGGGGTCAGGGTCAGGTCACTTTCGCGGCCCAAGGTCAGTTCCTGGCCGTTCTGCAAATGCACGGCTACCGCCCCCTCAGCGCCGGTGATCAGGTGCTCACCGGCGTACAACCGATCACCTTCGATCAACGGGCGCCGCAGCCCACCGGCGGCCTCTGCGAAAACCTGCCCTACGACCTTACTGACGGTACCGATGAGCGCTGCCATGTGCATTTCCTCCGTTGCCAACCGTAG	MHQRARIAGGTVGKIGLVGAQLAAVHGHAIKGDGVVRRFRNDRRHGSIAIIAIVGVRISRQLQLWKLGNPVEPGGWEANQRINLPGYLLQQHKAVPTAHSARVAALGARRRGLARLGRVGAGGDGLLQLLHIGQLRITWHWRFGRVDRRCLVGEQLRGQGQVTFAAQGQFLAVLQMHGYRPLSAGDQVLTGVQPITFDQRAPQPTGGLCENLPYDLTDGTDERCHVHFLRCQP				NA	NA	NA	NA	NA
D1-35_00502	4779			hypothetical protein	TTGCTCGACAACGAAGCGCATCCAAATGCCAACGGCGCGAACAGCCTGGGCGAGCAGTTCAGCGTGGTGGTCACTGATGACAACGGCACCACGGCCACCGGCAACCTGGACGTGAACATCGTCGATGACTTGCCTCAGGCCGTGGACGACAGCAACGCCGGTACTGCCTCGGAAAACAACCTGACCCTGACCGGCAGCGTGCTGCCCAACGACAACCAAGGCGCCGATCAGGTGGCGTCCGGGCCGATTACTCCCGGCACTTTCACCGGCACCTACGGCACGCTGGTGCTCAACGCCGACGGCTCCTACACCTACACGCTTAACCCTGGCGACACCGATTTCAAAGGCCTGCACGGCGGCGGCAACGGCACCGAAACCTTCACCTACACCCTGACCGACGCCGACGGCGACACCAGCACTGCCAACCTGGTGCTGCAAGTGCACAACAACGACGACCCGGTGATCATCAACGGCCTCGACACCGAGGGCGGCGAGCTCACGGTGCAGGAGAAAAACCTCGGCGACGGCAGCAACCCGGACGCCTCGGCGCTGACCCAGAGCGGCACTTTCACCATCACCGCGCTGGACGGCGTGCAAACCCTGAGCGTCGGCGGCATCACTGTGGTCAGCGGTGGCGTCGCCGCCGGTTTCCCGCAATCGATCACCACCGCGTTGGGCAACACCTTGACCGTCACCGGCTTCAACGCCGCCACGGGCGTGGTCAGCTACAGCTACACCTTGCTCGACAACGAAGCGCATCCAAATGCCAACGGCGCGAACAGCCTGGGCGAGCAGTTCAGCGTGGTGGTCACTGATGACAACGGCACCACGGCCACCGGCAACCTGGACGTGAACATTGTCGATGACTTGCCCAAGGCCCACGCCGACTCCGCCTCGGTGGAAGAGGGCGCGACGGTCAGCGGCAACGTGCTGAACAACGACGAGGGCGGCGCCGACGGGCCTGCCGCCAGCGGCGCAGTGATCGGCGTACGCGCCGGCAGCGATACATCGACCTCCGCCGTAGGCGGCCTCAACAGCCAGATCAATGGCACCTACGGCTACCTTACCCTGGACGCCAACGGCAACGCGGTCTACCACAGCAACCCGAACGCCGTCAGCGCACCGGGCGCCACCGATGTGTTCACCTATACCGTGCGCGACGCCGATGGCGACGAGAGCACCACGACCATCACCATCGACGTTTATAACAGCTGCCTGGCCGCAACCCCTGACCAGGAAATCCGCGTCTATGAAAAAGCCCTGGATCTCAACCAGGATGGCCAGGACCTGGCCCCCGGCACCGTCACCGGCAGTGCGCCGAATGCCAGCAGTGAAACCGCGAGCGGCAGCCTTGTCGGCTCGGTGACCGGTGCCGTCGGCGCCGTCACCTTCGCCCTGATCGGCAATGCCACTGGCGCCCATGGACAACTGTTGCTCAACCCGGACGGTTCGTACACCTACACCCTGACGTCGCCCGCCACGACAACGCCCGCCGCCAATGATGGTCCGAACGTGTTGAGCGAAAGCTTCACGTACCAAGCTACGGACTCACTCGGTAACAGCGTCACCAGCACCATCGTTATCAACATCGTCGACGATGTGCCCAAGGCGCACTGTGATACCGCGGCGGTGGTGGAGGGCGGGACGGTCAGCGGCAACGTGCTGGATAACGACGTGCTCGGCGCCGATGGTGGCGTGGTGATCGGCGTGCGGTCCGGCAACGATACGTCAAGCCCGGCCAGCGGCGTCCTGAACAGCCAGATCAACGGCACCTACGGCTACCTGACCCTGGATGCCAATGGCAACGCGGTCTATCACAGCAATCCGGACTCCGTTGGCGTACCGGGTGCCACCGATGTATTCACCTACACCGTGCGCGATGCCGATGGGGATGAAAGCACCACGACCATCACCATCGACGTGCACAACAGTTGCCTGGTCGCTGAAACCGATCATGACGTCACCGTTTACGAAAAAGCCCTGGACCTGAAACAGGACGGCCAGGACCTGGCACCCGGCAGCGCCACCGGCAGCGAGCCGGGCAGCACCGGCGAAACCGCCACCGGCACCTTGGTCGGTTCGGTCAGCGGTGCAACCGGCGCCGTGACATTTGCCTTGGTGGGAGACGCCAATGGCGCTCACGGCCAGTTGCTGCTCAACGCCGACGGCTCTTACACCTATACGCTGACCTCGCCGGCGAATACCACGCCGCATGCCAACAATGGCCCGAACGTATTGACCGAAAGCTTCACCTATCAGGCCACCGATTCCCTGGGCAACAGCACCACCGGCAACCTGGTGGTGAGCATCGTCGACGATGTGCCCAAGGCTGTCGCGTCCGAGCGTTCGGTCCCGGCGGTGGAGATCGATTCGAACCTGCTGATCGTGCTCGACGTGTCCGGCAGCATGAAAGACGATTCCGGTGTGCCGGGCCTCTCGCGAATGGACCTGGCCAAACAGGCGATCAGCGCCTTGCTCGACAAATACGACGACATGGGCGACGTGAAAGTCCAGCTTGTGACCTTCAGCGGCAGCGCCACCGGCCAGAGTGCCGTGTGGGTGGACGTGGCAACCGCCAAGACACTGATCGCCGCGCTGAAAGCGCACGGTGATACCAATTACGATGCGGCCGTAGAGATGGCCAAGACGGCGTTCGCAACACCGGGGCAACTGACCGGCGCCCAGAACATTGGCTATTTTTTCTCCGACGGCAAGCCGACCAAGGGCGACATCGGCCCGGCGGACGAGGCCGCGTGGAAGGCCTTCCTCGACGCCAACAGCATCAAGAATTACGCCGTCGGCCTGGGCAGCGGCGCCAGAAACGTCAATCTTGACCCGCTGGCCTACGACGGCAGCACCCACACCAACACCAACGCGGTGGTGGTGACTGACTTGAACCAGCTCAATTCGGTGCTTTCCGGCACGGTGCAAGGTGTGCCGGTTACCGGCAGCCTGTTTGGCGAAGGCGGCTCGTTCGGTGCCGACGGCGGGTTTATCAAAAGCCTGGTGGTGGACGGCACGACCTACAGCTACAACCCCGATGCCAACGGTGGCCAGGGGGCGCTGACCGTCAGCGGCGGGGCCAACCACGGCACCTTCAACACCGCGACCAACACCGTCAGCATCGCCACCGGGCATGACGGCATGCTCGTGGTGAATCTTGATACCGGCGCGTTCAGCTACACCTCCCAGACCACCACCAGCACCTTGATCACCGAGAACATCGGCTACACCCTCAGCGATAACGATGGTGACCTGGCGGGCTCCAACCTGGTGATCAAAGTCCAACCCAACAGCGCTCCGGTGGCGGTCGATGACAACGTCATCACCAACGTGCTCTCGGGCAATATCGTGGTTCCGGGTGAACTGCTGCTGGGCAATGACAGCGACGCCAACGGCGACCCGCTCTCCGCATCACCGACCAGTTTTAATACCGGCTGGGTGGCCAGGGGCGCGGATTTCACCGGCAGCGCCGGTACCGCCAGTTTCACTGGCAACAACGCCCAGTCGATCAGCCTCAACCGCAGTGCCTTCGTCGCCAACACCGCGAGCATGACCGCGGTGCTGGTGGTCAGCGGGGCGCTGGGGGCGGTGTCGAACAACAACGCCAACGATGAAGACCGGCTCAACATCAGCCTCAAGCAAGGCGAAACCCTGACCCTGGATCACAATCTCACGGCCGGTCGCATCGCCATGGAATATTCGCTTAACGGCGGCCCCTTCATCGCAATCAACGACGGCGCCTCGTTCACCGCGGCGGCGGATGGCAATTATCAGATCCACGTCACCAACATTCCCAACCCCGGCAATGGCAACGCCAATGCCTCGGAAAATTACCAACTGACCCTGACCGTCAACTACGCCGGTGCCCAGGACACTACTCCCGATTATCACGGCAGCTACACTGCCAGCGACAACCACGGCGGCAGCGATTCCGCCGGGGTGGGCATCAGCTATCAGGCGGGCCACACCCTGACGGGGACCACGGGCAACGATGTACTGCTGGCCGGCAATGGCAACAACGTGCTCAACGCCGGCGACGGCAACGACATCCTCAGCACCGGCGCGGGCAACAACACCTTGCATGGCGGGGCTGGCGATGACTTGCTCTACAGCAGTGCCGGTAACGACCTGCTCGACGGCGGCACTGGCAACGACACCGCCAGTTATGCCCATGCCACCGGCGGCGTCACGGTAAATCTCGGCCTGCTGGCCGGACAGAACACCCTGGGGGCCGGCACCGACACCCTGGCCGGCATCGAGAACCTGGTCGGTTCGAACTTCAACGACCACCTGACCGGCGACAGCCTGAGCAATCGCATCGACGGCGGCCTCGGCCATGACGTGCTCAACGGCGGTAACGGCGATGACCTGCTGATCGGCGGCCTGGGCAACAACACCCTCACCGGTGGCAACGGCGCCGACACGTTCCAATGGCAGGCGGGCAACAGCGGTCACGACGTCATTACGGATTTCACACCGGGCCTCGACAAACTCGACCTGTCGCAACTGCTGCTGGGCGAGAACGGCAGCGCGGCGTCGCTTGATGACTACCTGCACTTCAGCGTGACCGGCAGTGGAGCCTCGTTGATCACCAGCATCGACGTCAGCAGCACCGCCGGCGCCACGCCGAACCAGACCATCGACCTGGCCGGCGTCAACCTCGCCAGTCACTACGGCGTCACGCCGGGCGCAGGCGGAATGATCGGCGGCGCGGATACCGCGACCATCATCAACGGCATGCTGAACGACCATTCGTTGAAGGTCGACACGGTGTGA	MLDNEAHPNANGANSLGEQFSVVVTDDNGTTATGNLDVNIVDDLPQAVDDSNAGTASENNLTLTGSVLPNDNQGADQVASGPITPGTFTGTYGTLVLNADGSYTYTLNPGDTDFKGLHGGGNGTETFTYTLTDADGDTSTANLVLQVHNNDDPVIINGLDTEGGELTVQEKNLGDGSNPDASALTQSGTFTITALDGVQTLSVGGITVVSGGVAAGFPQSITTALGNTLTVTGFNAATGVVSYSYTLLDNEAHPNANGANSLGEQFSVVVTDDNGTTATGNLDVNIVDDLPKAHADSASVEEGATVSGNVLNNDEGGADGPAASGAVIGVRAGSDTSTSAVGGLNSQINGTYGYLTLDANGNAVYHSNPNAVSAPGATDVFTYTVRDADGDESTTTITIDVYNSCLAATPDQEIRVYEKALDLNQDGQDLAPGTVTGSAPNASSETASGSLVGSVTGAVGAVTFALIGNATGAHGQLLLNPDGSYTYTLTSPATTTPAANDGPNVLSESFTYQATDSLGNSVTSTIVINIVDDVPKAHCDTAAVVEGGTVSGNVLDNDVLGADGGVVIGVRSGNDTSSPASGVLNSQINGTYGYLTLDANGNAVYHSNPDSVGVPGATDVFTYTVRDADGDESTTTITIDVHNSCLVAETDHDVTVYEKALDLKQDGQDLAPGSATGSEPGSTGETATGTLVGSVSGATGAVTFALVGDANGAHGQLLLNADGSYTYTLTSPANTTPHANNGPNVLTESFTYQATDSLGNSTTGNLVVSIVDDVPKAVASERSVPAVEIDSNLLIVLDVSGSMKDDSGVPGLSRMDLAKQAISALLDKYDDMGDVKVQLVTFSGSATGQSAVWVDVATAKTLIAALKAHGDTNYDAAVEMAKTAFATPGQLTGAQNIGYFFSDGKPTKGDIGPADEAAWKAFLDANSIKNYAVGLGSGARNVNLDPLAYDGSTHTNTNAVVVTDLNQLNSVLSGTVQGVPVTGSLFGEGGSFGADGGFIKSLVVDGTTYSYNPDANGGQGALTVSGGANHGTFNTATNTVSIATGHDGMLVVNLDTGAFSYTSQTTTSTLITENIGYTLSDNDGDLAGSNLVIKVQPNSAPVAVDDNVITNVLSGNIVVPGELLLGNDSDANGDPLSASPTSFNTGWVARGADFTGSAGTASFTGNNAQSISLNRSAFVANTASMTAVLVVSGALGAVSNNNANDEDRLNISLKQGETLTLDHNLTAGRIAMEYSLNGGPFIAINDGASFTAAADGNYQIHVTNIPNPGNGNANASENYQLTLTVNYAGAQDTTPDYHGSYTASDNHGGSDSAGVGISYQAGHTLTGTTGNDVLLAGNGNNVLNAGDGNDILSTGAGNNTLHGGAGDDLLYSSAGNDLLDGGTGNDTASYAHATGGVTVNLGLLAGQNTLGAGTDTLAGIENLVGSNFNDHLTGDSLSNRIDGGLGHDVLNGGNGDDLLIGGLGNNTLTGGNGADTFQWQAGNSGHDVITDFTPGLDKLDLSQLLLGENGSAASLDDYLHFSVTGSGASLITSIDVSSTAGATPNQTIDLAGVNLASHYGVTPGAGGMIGGADTATIINGMLNDHSLKVDTV				NA	NA	NA	NA	NA
D1-35_00503	399	ybaN_2	COG2832	Inner membrane protein YbaN	GTGCCTGCGCCCCTCGGCAATCGCCCGCTGATCCTGCGCTACGCTCTGCTCGCCATCGGCTGGCTGAGCGTGGTGCTGGGGGTCATCGGCATCTTTATTCCCGTCCTTCCCACCACCCCCTTCCTGTTATTGGCCGCGGCCTGCTTCGCCCGCAGTTCGCCACGCTTCTACCGCTGGCTGGTGGAGCATCCGCGCCTCGGCCCCTGGATCGGCGACTACCTCAGCGGCAACGGCATCCCGCTCAAGGGCAAGGTCTACGCTATCGGGTTGATGTGGGCGAGCATCCTGCTGTCGTGCTACCTGGTGCCCCTGCCATGGGCGCGGGTGTTCATGCTGACCAGCGCGGTGCTGGTGACGGTGTATATCCTCAGGCAGAAGACGCTGCGCAAACCTGATTGA	MPAPLGNRPLILRYALLAIGWLSVVLGVIGIFIPVLPTTPFLLLAAACFARSSPRFYRWLVEHPRLGPWIGDYLSGNGIPLKGKVYAIGLMWASILLSCYLVPLPWARVFMLTSAVLVTVYILRQKTLRKPD	PGPT0009435_7	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009435-mqnB-K11783	NA	NA
D1-35_00504	588			hypothetical protein	ATGTCCTTCGCTGAGCAACTGACCCGCCTGCAAGTGTTCCTCGACGCCGATGAGCTGCACGAAGAGGCGCTGGATTACGTGGCCGCTCATGGCTACCTGACCGCCCTGTCGATCTGCTCCGAGCAGGTGCCGGAGCGTGAATGGATCGACGCCCTGTTCGCCGAAGAACCGCACTACAGCGACGAAGCCCAACGCGCCGAAATCGAAGCGACGCTGGTCGGCCTCAAGGCTCACATCGCCCGCCAACTGGCTTCCGATGAAGAATTCGAGCTGCCGTGCGAGCTGGACCTGGGCGACGATCCGGACGATTCGGAACTGCGCGGCTGGTGCATCGGCTTCATGGAAGGCGTGTTCCTGCGCGAAGCGGCCTGGTTCGAAACCGCCGAAGAGGAAGTCAGCGAAATGCTGTTGCCGATCATGGTCGGTTCCGGTCTGTTCGACGAGCAACCGGAGTTTTCCGACATTGCCGCCGACGCGAACCTGATGGACGACATGATCGTGCAAATCCCCGAAGCGCTGACCGCCTTGTACCTGCTGTGCAACGCCCCGGACGAAAAACCGGCGATCCTCAAGCCGCGCCACCACTGA	MSFAEQLTRLQVFLDADELHEEALDYVAAHGYLTALSICSEQVPEREWIDALFAEEPHYSDEAQRAEIEATLVGLKAHIARQLASDEEFELPCELDLGDDPDDSELRGWCIGFMEGVFLREAAWFETAEEEVSEMLLPIMVGSGLFDEQPEFSDIAADANLMDDMIVQIPEALTALYLLCNAPDEKPAILKPRHH				NA	NA	NA	NA	NA
D1-35_00505	2127	recQ	COG0514	ATP-dependent DNA helicase RecQ	ATGCTCGAACAGGCTCAACGCGTCCTCAAGGACATCTTCGGCTACGACAGTTTTCGTGGCCGCCAGGGTGCCATCATTGAGCGCGTGGCCAGCGGTGGCGATGCCTTGGTGCTCATGCCTACCGGCGGCGGCAAGTCCTTGTGCTTCCAGGTGCCCGCGCTGCTGCGCAACGGCCTCGCGGTGGTGGTATCGCCGCTGATCGCCTTGATGGACGACCAGGTCGCGACCCTCGAGGAATTGGGCGTTGCCGCCGCCGCGTTGAACTCCACGCTGAGCGCCGAGCAGCAGCGGGACCTGGCGGAACGCATCAAGCGCGGTGAAGTGAAAATGCTTTACCTGGCGCCTGAACGTCTCGTGCAGCCGCGCATGCTGGCTTTTCTCCAGAGCCTGGAAATCGCCCTGTTTGCCATCGACGAAGCCCACTGCGTATCCCAATGGGGCCATGACTTCCGTCGTGAATATCTGCAACTGGGGCAATTGGCCGAGCTGTTTCCCGACGTGCCGCGCATCGCCCTGACCGCCACCGCCGACAAACGTACCCGCGAAGAAATCGTCGAGCGCCTGCACCTGCAGAACGCCGAGCGGTTCCTCTCCAGCTTCGACCGCCCGAACATTTTTTACCGCATCGTGCCCAAGGAACAGCCGCGCAAGCAACTGCTGGCGTTCCTCGCCGAGCGCCGCAGCGACGCGGGTATCGTCTATTGCCTGTCGCGCAAGAAAGTCGAGGAGGTGGCGGCGTTTCTCAGCGAGCAAGGTTTCCCGGCATTGCCCTACCATGCTGGGCTGCCCAACGATTTGCGGGCCTATCACCAGAAGCGCTTTCTCAACGAGGAAGGCCTGATCATGGTCGCCACCGTGGCGTTCGGCATGGGTATCGACAAGCCCAACGTACGGTTCGTCGCGCATTTGGATCTGCCCAAGTCCCTGGAGGCCTATTACCAGGAAACCGGCCGTGCCGGTCGTGACGGTTTGCCGGCCGATGCCTGGATGGCCTACGGCCTGCAGGACGTGGTGATGCTCAAGCAGATGCTGCAGAACTCCGAGGGCGATGAGCGCCACAAACGCCTGGAACAACACAAGCTCGACGCGATGCTATCGCTCTGCGAAGAAACCCGTTGCCGCCGCCAGACCTTGCTGGCCTATTTCGATGAGGACATGCCCGAACCTTGCGGGCACTGCGACAACTGCGTCGACGGCGTGGAGACCTGGGACGCCACCGAGCCGGCCCGCCAGGCGCTGTCGGCCATCTATCGCACGGGCCAGCGTTATGGCGTGGGGCATCTGGTGGACGTGCTGCTGGGCAAGGACAACGAAAAGGTCCGCAGCTTTGGCCATCAGCACCTTTCGGTGTTCGGCGTGGGCAAGGCCCGCACCGAGAGCGAATGGCGCTCGCTGTTCCGGCAACTGGTGGCGCGCGGCCTGGCCGACATCGACCTGGAAGGTTATGGCGGCCTGCGCCTGAGCGCGACCTGCCGGCCCTTGCTCAAAGGCGAGGTCAGCCTGGAACTGCGTCGCGACCTCAAGCCCGCAACAGCGATCAAGAGCAGCAAGAGCCAGGCCAGCCAACTGGTGCGTGGCGAGGAGCGCGATCAGTGGGAGGCCTTGCGCGCCTTGCGGCGCAAGCTGGCGGAGGAGCATGGCGTGCCGCCCTACGTCATTTTCCCCGACTCGACGTTGCTGGAAATGCTCCGCAGCCAACCGACTTCCCTCGCGGAAATGGCCCGGGTCAGTGGCGTTGGCGCGCGCAAGCTGGAGCGTTACGGCGAGGCTTTCCTCCAGGTGCTCGGCGGCGAAGCCGAAGCGCCAAAAGCCGTGGCCGATGTACGCCACGAACTGATCACGCTGGCTCGTGCCGGCATGACCCCGCTACAGATCGCCGGGCAACTGCAGTGTTCGGAAAAGAATGTCTACACGATGCTGGCCGAGGCGATCGGTCAACAGCAGCTATCCCTGGAGCAGGCGCTGGATTTGCCCGAAGAACTGATGGGCGAAATCCAGGACGCGTTTCTCGACGGCGAGGGTGAATTGCCCGCGGTATCTGACGTTGCCGCGCTGTTTGCAGGCCGCGTTCCGGAAGGCGTCCTGTATTGCGTAAGAGCTGCATTGCAATCGGAATTTGAAGTCTGA	MLEQAQRVLKDIFGYDSFRGRQGAIIERVASGGDALVLMPTGGGKSLCFQVPALLRNGLAVVVSPLIALMDDQVATLEELGVAAAALNSTLSAEQQRDLAERIKRGEVKMLYLAPERLVQPRMLAFLQSLEIALFAIDEAHCVSQWGHDFRREYLQLGQLAELFPDVPRIALTATADKRTREEIVERLHLQNAERFLSSFDRPNIFYRIVPKEQPRKQLLAFLAERRSDAGIVYCLSRKKVEEVAAFLSEQGFPALPYHAGLPNDLRAYHQKRFLNEEGLIMVATVAFGMGIDKPNVRFVAHLDLPKSLEAYYQETGRAGRDGLPADAWMAYGLQDVVMLKQMLQNSEGDERHKRLEQHKLDAMLSLCEETRCRRQTLLAYFDEDMPEPCGHCDNCVDGVETWDATEPARQALSAIYRTGQRYGVGHLVDVLLGKDNEKVRSFGHQHLSVFGVGKARTESEWRSLFRQLVARGLADIDLEGYGGLRLSATCRPLLKGEVSLELRRDLKPATAIKSSKSQASQLVRGEERDQWEALRALRRKLAEEHGVPPYVIFPDSTLLEMLRSQPTSLAEMARVSGVGARKLERYGEAFLQVLGGEAEAPKAVADVRHELITLARAGMTPLQIAGQLQCSEKNVYTMLAEAIGQQQLSLEQALDLPEELMGEIQDAFLDGEGELPAVSDVAALFAGRVPEGVLYCVRAALQSEFEV				NA	NA	NA	NA	NA
D1-35_00506	435	slyA_1		Transcriptional regulator SlyA	ATGCCTCTAACCGATCAACACCGCTTTGGCATGCAGTTGGCGCAAATGTCCCGGGGCTGGCGAGCCGAGCTGGACCGTCGCCTCGCCGGGCTGGGCCTGTCCCAGGCGCGTTGGCTGGTGCTGCTGCACCTGGCCCGCTTCGAACAGGCGCCGACCCAGCGTGAGCTGGCCCAGAGCGTCGCCGTTGAGGGCCCGACCCTGGCCCGCTTGCTCGATAGCCTGGAAACCCAGGGACTGGTGCAGCGCCAGGCCGTGGCCGAGGACCGCCGCGCCAAGAAAATCGTGCTCTGCGCGCCGGCCTTGCCGCTGATTGAACAGATCGAAACCATTGCCACGCAGCTGCGTCGGGAGTTGTTTGAAGGCGTTGACGAAGAGGATATGCGGGTGTGCATGCGGGTTCACGGCAGAATCCTGGCCAACCTGGAAAAATCCTGA	MPLTDQHRFGMQLAQMSRGWRAELDRRLAGLGLSQARWLVLLHLARFEQAPTQRELAQSVAVEGPTLARLLDSLETQGLVQRQAVAEDRRAKKIVLCAPALPLIEQIETIATQLRRELFEGVDEEDMRVCMRVHGRILANLEKS	PGPT0016255_1557	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016255-sylA-K06075	NA	NA
D1-35_00507	2013			hypothetical protein	ATGCTTGAAAGTCTGCAGTCCACGTTGCGCAACTGGGTCAACGTGTTGATAGTCGTGGGTGCCCTGGGCTTTCCGGCCCTGGCGTCGGCGCTGGGGCTGGGAGAGATCACGCTTCATTCCGCGCTGAACCAGCCGTTGCGCGCCGATATTGCTTTGGTCGATGCGGCCGGCCTGGGCGAGGGGGATTTGTCGGCCAGCCTGGCGAGTCCGGACGATTTCACTCGCGCCGGGGTGGAGCGGGTGTTTTTTCTCAACAGCTTGCGTTTCACGCCGGTGTTGCGCGGCGAGCGCAGCTTCATCCGGGTGACTTCCAGCAAGCCGGTGGAAGAACCCTTCCTCAATTTCCTGGTACAGCTCAACCAGCCTAACGGCCGGGTGCTGCGCGAATATACCGTGCTGATCGATCCGCCGGGCACGCCAGGGATTGTGCCGGCCGTGGACGAGCCTTCCGCTGCGGCCGAAGCGACACCCGCGATCAAGCCACCACCGGCCATACAAGGCAAGCGCTACACCGTCGTGCAGGGCGACAACCCCTGGATCATCGCCAAGCGCCTGCATGACGCCGGCAGCAATGCCTCTGTCAATGAGCTCATGCAGGGCATCCAGGCGCTGAACCCTGGCAGCGAGCGGCTTTCCATCGGTCAGCGCCTGTTGCTGCCCGACTCGGCCATATTGCCGCCTCCCGCCGCAACCCCTTCAACGCCGGCCTCTGTCGCCCCCGACAGCAACGCCGAGCAACTCGCCGCCACGGTGCTGCAAAACCAGCAACAACAGAAAACCATCGACGAACTTCAAGCCCGGCTTCAGGCCCAGGACGCGGAAATCGCCGGCCAGCGCCAGCAGATCAGCGAGTTGCAGGCGCAACTGGCCCAGGAGCCGCCGGATGCCGTTGCCGCGACAGCGGCGCCAGCGGAAGACGTCGAGCCCACTCCGGTGGTCGAGGCGACGCCGACCGACGAGGCAGAGGGCATCGATTGGGTGTGGGTGGCGGGGCTGGTGGGGCTGCTGGGGTTGCTCGTCGTGTTGCTGTTCCTTCGCCGTCGGCAACAGCAGGAGCTGGCGGATCCGCAGCCGATGTCCGAGCCTCGCGAATTGATCCTGGACGATGACGAACCCGAAACCTACGGGCAATCGGACGCCGAACGCCCTGAAGTCGCCGCGTCGTTCAATAACGGCGATGCGCCCCTCGGCGATGTGCTCGAAGGGGTGGGAATCTACCTGACCTATGGCCGCTTCACCGAAGCGGCGGGCTTGTTGCGCGCCGCGTTGCTGGCGGAGCCGGAGCGTACCGACCTGGGCCTCAAGTTGCTCGACGTGCTGGGCAAGCAGGGCGATGTCATCGGTTTCCAGGCCCAGGAGAACCACCTGCTGGCCCAGGGTATCGATCGCCAGGCGCTGGAAGAAGTCCGCGGGCGCTACCCGAGGATCTCCATGGTTACCGCGCCCGTTGAGACCTCCCTTGATACGCCGCGTGATACGCCGCGTGATACGCCACTTGATGCGCCTGCGCCGACAGAACCCCTGGCACGCATTCCAGAGCCCGAACCGCCCAGTCCCCCCAGCGACGAATTCGAGCTGAAGCTCGATAGCTTGTCCATGGAGAACAGCTGGGACCTGACCGACACCCCGCAGGCAGCCGCTGAACCGAAACCCCTGGAAACCTTCGAAACCGGCACCTTGTCGCTCTCGGGGTTCGATGAGCCCGACCTGCAATGGGGCGCGCCTCTGGAAACCGAGTCGTTGGACGATGATTTTCTCGACGGGTTTGCCGACGAAGAGCAGTCGCTGGAGTTGGAGCCGCTGACCGCCGAACCGGAATTCGACTCCCTGTCGCTCGAACCGGTGTCCTTTGAGGCGCAACCCTCGCAGCATTCGGAAAAGCTCGAAGAAGCCCAGAATCGTATCGATGAGGGTGACCTCAAGAGCGCCATCACGCTGCTGGAGGAACTGGTGGAAGAGGGCGACGAGCCGCTCAAGGAAACGGCCCGGGTGCTGCTGGCCGGGATTCGTTGA	MLESLQSTLRNWVNVLIVVGALGFPALASALGLGEITLHSALNQPLRADIALVDAAGLGEGDLSASLASPDDFTRAGVERVFFLNSLRFTPVLRGERSFIRVTSSKPVEEPFLNFLVQLNQPNGRVLREYTVLIDPPGTPGIVPAVDEPSAAAEATPAIKPPPAIQGKRYTVVQGDNPWIIAKRLHDAGSNASVNELMQGIQALNPGSERLSIGQRLLLPDSAILPPPAATPSTPASVAPDSNAEQLAATVLQNQQQQKTIDELQARLQAQDAEIAGQRQQISELQAQLAQEPPDAVAATAAPAEDVEPTPVVEATPTDEAEGIDWVWVAGLVGLLGLLVVLLFLRRRQQQELADPQPMSEPRELILDDDEPETYGQSDAERPEVAASFNNGDAPLGDVLEGVGIYLTYGRFTEAAGLLRAALLAEPERTDLGLKLLDVLGKQGDVIGFQAQENHLLAQGIDRQALEEVRGRYPRISMVTAPVETSLDTPRDTPRDTPLDAPAPTEPLARIPEPEPPSPPSDEFELKLDSLSMENSWDLTDTPQAAAEPKPLETFETGTLSLSGFDEPDLQWGAPLETESLDDDFLDGFADEEQSLELEPLTAEPEFDSLSLEPVSFEAQPSQHSEKLEEAQNRIDEGDLKSAITLLEELVEEGDEPLKETARVLLAGIR	PGPT0016075_1081	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	SURFACE_ADHESIVE_FIMBRIAE,PGPT0016075-fimV-K08086	NA	NA
D1-35_00508	2190	bamA_2		Outer membrane protein assembly factor BamA	ATGCGCCGCCTGCTGCCATGCCTGCTCCTGTTACTGCTGCCCCTGTTCGCCGACGCGGTCGAAGCGCCGCGACCGAAGATCGGCCTGGTACTTTCCGGCGGCGCGGCCCGTGGGCTGGCGCATATTGGCGTGCTCAAAGCCCTGGAAGAACAAGGCATCAAGATCGACGCGATCGCCGGCACCAGCATGGGCGCGGTGATCGGCGGTCTATACGCCTCCGGGTACAAGATCGACGAGCTGGAGAAACTTGCCCTGGGCATCGACTGGCAGCAGGCGCTGTCCGATGCCCCGCCGCGCAAGGACGTGCCCTTCCGGCGCAAGCAGGATGACCGGGATTTTCTGGTGAAGCAGAAGCTGAGCTTTCGCGACGACGGCAGCCTCGGCCTGCCATTGGGCGTGATCCAGGGACAGAACCTGGCCCTGCTCCTGGAAAGCCTGCTGGCCCACGCCAGCGATACCCGGGATTTCGACAAGCTGCCAATCCCCTTCCGCGCCGTGGCGACCGACATCGCCACTGGCGAAAAAGTCGTGTTCCGCAAGGGCCACCTGCCCAAGGTGATCCGTGCCAGCATGTCGATCCCGGCGGTGTTCGCCCCGGTGGAACTGGACGGGCGGCTGCTGGTGGACGGCGGCATGAGCGACAACATTCCCTTGGACGTGGCCCGGGAAATGGGCGTGGACATGGCCATCGTCGTCGATATCGGCACGCCGCTGCGCAACCGCAAGCAATTGGTCACGGTGGTGGATGTGCTGAATCAGTCGACCACCCTGATGACCCGCCGCAACTCGGAGGAACAACTGGCGACGCTGAAAAACAACGACGTGCTGATCCAGCCCGCCCTGGCGAGCTTTGGCTCCACCGATTTCGGCCGCGCCACGGAAATAATCGACGCCGGTTACCGCGCCACCCGGATACTCGAGGCGCGCCTGGCGCACCTGCGTCGCCCTGAACCGGCCGACGCCGAGCTGATGGCGGCGCGCACCCCCAGCGAACGCACGCCGGTCATCACCGCGATACGGGTGGAAAACGATTCGAAAGTCGGCGACGACGTGATCCGCTATTACGTTCGTCAACAGATCGGCGAGCCGTTGGACCTGGGTCGGCTGCAAACCGACATGGGCACCTTGTACGGCCTGGATTATTTCGAGCAGGTGCAATACCGCGTAGTACACAAGGGCGCGGACAACACCCTGGTGATCAGCGCCCGGGGCCGACGCACCGGCACGGACTACCTGCGCCTGGGCCTGAGCCTGTCGGACGACATGCGCGGCGACAGCGCTTTCAACCTCGGTGCCAGCTACCGGGTCAATGGTATCAATCGCCTCGGCGCCGAATGGCTGACACGGGTGCAGATCGGCGACAAGCAGGAGCTGTACAGCGAGTTCTACCAGCCGCTGGACGTCGGCTCGCGCTACTTCATCGCGCCCTACGGACAATTCGAATCGCGCAACGTCGAGTCGATCCTCGATAACGACCCGGTCGCCCAGTATCGGGTCGAGCGCTATGGCTTCGGCCTGAACCTGGGCCGCCAGATCGGCAACAGCGGGGAAATCCGCTTCGGTGTCGGCCAGGCCTGGGGCAAGGCGGACGTGCGCATCGGCGATCACGACCAGCCCAGCGAAAACTTCAACGAAGGCTTCTACGAGCTCAAGTATTCATTCGACTCGCTGGACAACGTCTACTTCCCCCACGAAGGGGAAGACATCGGCTTGTCCTGGCGCCAGTACGAACCCGGATTAGGTTCCGACCAGCGTTATCGCCAGTGGGAATTCAGGTTGGACAAGGCCCTGAGCAGCGGCCCGGATACCCTCATCCTCGGCGGTCGTTATGGCCGGACCCTGGACACCGCCGAGGTCGTGACGTCGAGTTTCGTCCTCGGCGGCGCCCGACAGCTGTCGGGTTTTCGTGAAGACGGGGTATCCGGCCAGAACATGAGCCTGATGCGCGCCGTGTACTACCGCAGGCTCACGCCGCGCGCCTACCTGCCGCTGGATTTCCCGTTGTATGTCGGCGGTTCGCTGGAGCGCGGCCGGGCCTGGAACAACGACAATGAATTCGACAGCGGCTACATCAACGCCGCCAGTATTTTCCTCGGGTTCGACACGCCGCTGGGGCCACTCAACTTCAGTTATGGCTTCAACGACGATGATGAGCAGGCGGTGTATCTGAATCTGGGGCAGACGTTCTAG	MRRLLPCLLLLLLPLFADAVEAPRPKIGLVLSGGAARGLAHIGVLKALEEQGIKIDAIAGTSMGAVIGGLYASGYKIDELEKLALGIDWQQALSDAPPRKDVPFRRKQDDRDFLVKQKLSFRDDGSLGLPLGVIQGQNLALLLESLLAHASDTRDFDKLPIPFRAVATDIATGEKVVFRKGHLPKVIRASMSIPAVFAPVELDGRLLVDGGMSDNIPLDVAREMGVDMAIVVDIGTPLRNRKQLVTVVDVLNQSTTLMTRRNSEEQLATLKNNDVLIQPALASFGSTDFGRATEIIDAGYRATRILEARLAHLRRPEPADAELMAARTPSERTPVITAIRVENDSKVGDDVIRYYVRQQIGEPLDLGRLQTDMGTLYGLDYFEQVQYRVVHKGADNTLVISARGRRTGTDYLRLGLSLSDDMRGDSAFNLGASYRVNGINRLGAEWLTRVQIGDKQELYSEFYQPLDVGSRYFIAPYGQFESRNVESILDNDPVAQYRVERYGFGLNLGRQIGNSGEIRFGVGQAWGKADVRIGDHDQPSENFNEGFYELKYSFDSLDNVYFPHEGEDIGLSWRQYEPGLGSDQRYRQWEFRLDKALSSGPDTLILGGRYGRTLDTAEVVTSSFVLGGARQLSGFREDGVSGQNMSLMRAVYYRRLTPRAYLPLDFPLYVGGSLERGRAWNNDNEFDSGYINAASIFLGFDTPLGPLNFSYGFNDDDEQAVYLNLGQTF				NA	NA	NA	NA	NA
D1-35_00509	288			hypothetical protein	ATGACCGCTCACAAACCGGAAGTCGTCATCACTTACTGCACGCAGTGCCAATGGTTGCTGCGCGCCGCCTGGCTGGCCCAGGAGTTGCTCAGCACGTTTGGCGACGATTTGGGCAAGGTGTCCCTGGTGCCGGGCACCGGCGGGGTGTTCCATATCAGCTGTGACGGTACGCAGGTCTGGGAGCGCAAGGCTGACGGCGGTTTTCCCGAGGCCAAGGTCCTCAAGCAGCGGGTCCGCGACCGGATCGACCCGGAGCGCGACCTGGGGCACAACGACCGGGTTCAGTGA	MTAHKPEVVITYCTQCQWLLRAAWLAQELLSTFGDDLGKVSLVPGTGGVFHISCDGTQVWERKADGGFPEAKVLKQRVRDRIDPERDLGHNDRVQ				NA	NA	NA	NA	NA
D1-35_00510	891			hypothetical protein	ATGACTCCCCGTACCGCCCTCGGCGCCTTGCACATCGGCGCGCTCATGTTTGGCCTGACCGGCGTGTTCGGCAAACTGGCCGCCGCCTCGCCGGCGGTCATTGTGTTTGGCCGTGCGGTGTTCGCCGTGCTGGCCCTGGCGGTGTTTGCCCGGTTCGCCAGCCGCACCCGCTGGCAAAAACTGCGCGGCCGCGACGCTCGCCGGTTGCTGCTCGGCGGGCTGTTGCTGGCCGGACACTGGGTCAGTTTTTTCATCTCGGTAAAAGTCGCCGGGGTGGCCATCGCCACGCTGGGGTTCGCCAGTTTCCCGGCCTTCACCGTATTGCTCGAAGGGCTGATTTTCCGCGAGCGGATCCGCGCCAACGAAATTCTCCTGGTGGTGCTGGTGAGCGTCGGCCTGGTGCTGGTCACACCGGATTTCGAACTGGCCAGCGGCGCCACCACCGGTTTGCTCTGGGCCGTGGCTTCGGGTCTATTGTTCTCGCTGTTGTCGCTGACCAATCGCGCCGGCTCCGCACACGTACCGCCGGTGCAGGCCGCGCTGTGCCAGAACGTGGTCGTGGGGTTATGCCTGTTGCCGATGGCCGCGCCACAACTGAGCGATGTGCGCCCCATCGACTGGTTGTGGATCGGCCTGCTCGGGGTGTTCTGCACCGGCCTGGCCCACAGCCTGTTCGTCGCCAGCCTCGCGGTGATCAAGGCGCGCACCGCGGCGGTAGTGTTCGCCATGGAACCAGTCTACGGCATTACCATTGCCTGGCTGCTGTTCGATGAAAACCCGACGCTGCGCATGCTGCTCGGTGGCGTGCTGATCATCGTTGCGATTGTGGTGTCGAGCCAGCTCGACGGCACGAAAAAATCCAGCGCCGGCGCCCAGGCCTCGTCTCACTGA	MTPRTALGALHIGALMFGLTGVFGKLAAASPAVIVFGRAVFAVLALAVFARFASRTRWQKLRGRDARRLLLGGLLLAGHWVSFFISVKVAGVAIATLGFASFPAFTVLLEGLIFRERIRANEILLVVLVSVGLVLVTPDFELASGATTGLLWAVASGLLFSLLSLTNRAGSAHVPPVQAALCQNVVVGLCLLPMAAPQLSDVRPIDWLWIGLLGVFCTGLAHSLFVASLAVIKARTAAVVFAMEPVYGITIAWLLFDENPTLRMLLGGVLIIVAIVVSSQLDGTKKSSAGAQASSH				NA	NA	NA	NA	NA
D1-35_00511	744	rhaS_2		HTH-type transcriptional activator RhaS	ATGAGACCGATCCTCACGCTACGCCACTACAGCCACGATCTGATTGTCCACAGCCACGACCATGCGCAGCTGGTGTTCGGCTTGTCCGGCGCGCTGGACTTCGAAGTCGAAGGGCGTGGCAGCCAGGTGGTGCAGCAGAGTTTCGTGGTGGTACCCGCCGGCGCCCATCACGCCTGCGGCAGCCCCCAGGGCAGCCGTTGCCTGGTGCTGGATGTGCCTGATGATGACTGGGTCGGGCAATGCCTGGGCGATCACGCCGATGCCAGCCGGCGCTTGCTCGACCGCAATATCCGCTTGCCCCTGGATACGGGGCAGAGCCAGTTGGTAAGTTGGCTCGCGGGCAGTCCGGTGGACGATCCGCTGATCGCCCAGCAAGGCGCGGTGCTGCTGTTGGCCAGCCTCAACGGCGCCCGCCAGCAAACGAGCGGCAGCCGGCGCCTGCCCTATGCCGCGCTGGACGCTCATATCGACCAGCACGCGGCCTATCCGCTGCAAGTGGCGGACCTGGCGCGGGTCGCCGGGCTTTCCAGCGCGCGCCTGCATGCGCGTTTTGTCGCTGAATGCGGGCAGACGCCAATGGAATACATCCGCAGCCGCCGCCTGCACAAAGCCGTGGGACTGTTGCGAGACTCAAACCTGCCTATCGGCGAAATCGCCCATCAGGTTGGCTACAGTTCGCAAAGCGCCTTCGCGGCGGCGGTGCTGCGCGAGTTCGGTGTTTCGCCGGGCAAGCTTCGGCGCTAG	MRPILTLRHYSHDLIVHSHDHAQLVFGLSGALDFEVEGRGSQVVQQSFVVVPAGAHHACGSPQGSRCLVLDVPDDDWVGQCLGDHADASRRLLDRNIRLPLDTGQSQLVSWLAGSPVDDPLIAQQGAVLLLASLNGARQQTSGSRRLPYAALDAHIDQHAAYPLQVADLARVAGLSSARLHARFVAECGQTPMEYIRSRRLHKAVGLLRDSNLPIGEIAHQVGYSSQSAFAAAVLREFGVSPGKLRR				NA	NA	NA	NA	NA
D1-35_00512	819	lpxH_1		UDP-2,3-diacylglucosamine hydrolase	ATGACCAGCGCCGAGCTCGCCAGGCCCAGCCGCAAACAGCGTGTCCGCACCCTGTGGATTTCCGACGTTCACCTGGGTACGCGAGATTGCCAGGCCGAGCACCTGTCGCACTTTCTCAAGGGCTATCACGCCGACAAGGTCTACCTGGTGGGCGATATCATCGACGGCTGGAAACTGCGCAGTGGCATGTATTGGCCCCAGGCCCATACCAACGTCATTCGTCGCTTGCTGACCATGAGCAAGCGCGGCACCGAGGTGATCTATGTCACCGGCAACCATGACGAATTCCTGCGACGCTATTCGAAGCTGATCCTGGGCAACATTCAATTGGTCGACGAAGCGGTGCATGTCACCGCCGATGGTCGACACCTGCTGGTGATCCATGGCGACCAGTTCGATGTGATTACCCGTTATCACCGTTGGTTGGCCTTTCTTGGGGATTCGGCCTACGAATTCACCCTGACGCTCAATCGCTGGCTCAATCATTGGCGGGCCCGTTACGGCTACGGTTACTGGTCGCTGTCGGCGTACCTCAAGCACAAGGTCAAGACCGCCGTCAGCTTCATCAGCGACTTTGAAGAAGCCATCGCCCATGAATGCGTGAAGCGTGAACTGCATGGCGTGGTGTGCGGGCACATCCACCATGCCGAGATTCGCACGGTGGGCGGGGTGGAGTACCTCAACTGCGGCGATTGGGTCGAGTCGTGCACGGCGCTGATCGAGCATTGGGACGGCTCGATCGAGCTCTATCGCCTGGCGGACGCCCAGGCGCGCGAAGCGCTGGTCAAGGCTGAGTTGAAAGTGACTGAGCCTGCCTGA	MTSAELARPSRKQRVRTLWISDVHLGTRDCQAEHLSHFLKGYHADKVYLVGDIIDGWKLRSGMYWPQAHTNVIRRLLTMSKRGTEVIYVTGNHDEFLRRYSKLILGNIQLVDEAVHVTADGRHLLVIHGDQFDVITRYHRWLAFLGDSAYEFTLTLNRWLNHWRARYGYGYWSLSAYLKHKVKTAVSFISDFEEAIAHECVKRELHGVVCGHIHHAEIRTVGGVEYLNCGDWVESCTALIEHWDGSIELYRLADAQAREALVKAELKVTEPA				NA	NA	NA	NA	NA
D1-35_00513	582			hypothetical protein	ATGACGTCTCACGCGCGCTTCACCCACATGCAGGACGGCAGCCGGGAAGACTGGGCAATCATCGCCGCCGACTTCAGCGCTTACGCGCGGCAGTTGCCGGGCCGGATTCTGACCCACCTGAGATTGCTCGATGGCGACTTCGGCGGTTTCCCCGTGGATCGCCTGACCCACTCCCTGCAAACCGCCACCCGTGCCTACCGCGACGGGCGAGACGAGGAGTACGTGGTCTGCGCCCTGCTCCACGATATTGGCGACACACTGGGTTCGTACAACCATCCGGACATCGCGGCGGCGATCCTCAAGCCGTTCGTCAGCGCCGAGAACCTGTGGATGGTGGAAAAACACGGGATATTCCAGGGCTACTACTTCTTCCATCACCTGGGCATGGACCGGCACCTGCGCGAGCAGTTTAGGGAGCACCCGCAGTACCAGGCGACGATCGATTTCTGTGCAGAATACGACGCCGCGGCGTTCGATCCCGAGTACGACACGCTGCCGCTGAGTTTCTTCGAGCCAATGCTGGAAAGACTGTTTGCGGCACCGAAGCAATCGATCTACAAGGCGGCGATGGCCGAGAGATAA	MTSHARFTHMQDGSREDWAIIAADFSAYARQLPGRILTHLRLLDGDFGGFPVDRLTHSLQTATRAYRDGRDEEYVVCALLHDIGDTLGSYNHPDIAAAILKPFVSAENLWMVEKHGIFQGYYFFHHLGMDRHLREQFREHPQYQATIDFCAEYDAAAFDPEYDTLPLSFFEPMLERLFAAPKQSIYKAAMAER				NA	NA	NA	NA	NA
D1-35_00514	312			hypothetical protein	TTGGAAAACACCAAACGATTCAACACGTTCGCCGAGTTCTACCCGTATTACCTCAGCGAACACAGCAACAGCACCTGCCGGCGCCTGCACTTCATCGGCACCTCCCTGGTCGTCCTGGTTTTCGCCCTGGCCCTCGTCGTCGGCGCCTGGTGGCTGTGGGTTGCGCTGCCGGTGGCCGGCTACGGCTTCGCCTGGGTCGGGCACTTCTTCTTCGAAAAAAACCGCCCTGCGACTTTCCAACACCCTCTCTACAGTCTGCTCGGCGACTTCGTCATGTACCGCGACATGCTGCTGGGCAAGGTGGCGTTCTAA	MENTKRFNTFAEFYPYYLSEHSNSTCRRLHFIGTSLVVLVFALALVVGAWWLWVALPVAGYGFAWVGHFFFEKNRPATFQHPLYSLLGDFVMYRDMLLGKVAF				NA	NA	NA	NA	NA
D1-35_00515	1023	virS		HTH-type transcriptional regulator VirS	ATGGGGATTGTCAAGGCGTTGGAAATGGACGGCCTGGACTGTAGGGCGCTGTTCAAGCAACTGGCGCTGGATTTTGCTGCGCTGGAAGATCCCGACGCGCGCTTTACCCAGGACTCGATGACGCGGCTCTGGCAATTGGCGGTGGCTCGTTCCGGCAATCCGGCCATCGGCCTGAACATGGGCAAGGTGGTACGCCCGGCATCGTTCCATGTGGTCGGTTACGCATTGATGTCCAGTCGCACGCTGGTCGAAGGCTTCCAGCGGCTGGTGCGCTACCAGCGGATCATTGCCGAAAGCGCCGACTTGAGTTTTCGTCATCTGGAGGAGAGCTATGGGCTGATTCTCACCGTGCATGGCGATCACCTTCCGCCGACCCGGCAAAGTGCCGAAGCCTCCCTGGCCTGCGCGCTGTCCTTGTGCAGTTGGTTGACCGGACGCACCTTGCATCCGGTAAAGGTACTGTTCCAGGGTTCCGAACCCGTTGACCTGGCACCTTATCAACAGGCTTTTGGCGCGCCACTGGTGTTCGATGCTCCCTATGACGCGCTGATTTTCCAGCAGGAGGACATGGAGGCGCCGCTGCCCACGGCCAACGAGGCCATGGCGCAGCTCCACGATCGGTTTGCCGGCGAATACCTCGCGCGTTTTTCCGGAAGCCGCGTGACCCACCAGGCGCGGCAGGTGCTCTGCCGGCTGCTGCCCCGGGGCGAGCCCAAGCGGGACGTGGTCGCGCAGACCCTGCATTTGTCGCAACGTACCTTGCAGCGGCGCTTGCAGGATGAGGGCACGAGTTTCCAGAACTTGCTGGACGATACGCGCCGCGAACTGGCCGAGCAGTACCTGGCGCAGCCGACCATGACGCTGCTGGAAGTGGCTTATCTGTTGGGGTTTGCCGACCCGAGCAATTTTTTCCGGGCCTTTCGGCGCTGGTTCGGCACCACGCCCGGCGAATACCGGGCGCGGGCTGTAGCGACGCCGGTCAGTGACGCCAGAACGCCGGAATACACAGCACGAACACCGTAA	MGIVKALEMDGLDCRALFKQLALDFAALEDPDARFTQDSMTRLWQLAVARSGNPAIGLNMGKVVRPASFHVVGYALMSSRTLVEGFQRLVRYQRIIAESADLSFRHLEESYGLILTVHGDHLPPTRQSAEASLACALSLCSWLTGRTLHPVKVLFQGSEPVDLAPYQQAFGAPLVFDAPYDALIFQQEDMEAPLPTANEAMAQLHDRFAGEYLARFSGSRVTHQARQVLCRLLPRGEPKRDVVAQTLHLSQRTLQRRLQDEGTSFQNLLDDTRRELAEQYLAQPTMTLLEVAYLLGFADPSNFFRAFRRWFGTTPGEYRARAVATPVSDARTPEYTARTP				NA	NA	NA	NA	NA
D1-35_00516	1455	trkI_1	COG0168	Trk system potassium uptake protein TrkI	ATGGCGTTGCCGACCCTGCGGATCATTGGTTTCATCATCGGCATCTTCCTGATCACCCTGGCGATCTTCATGATCGTGCCGATGGCCACGTTGCTGATCTACGAACGCACCAGCGACCTGCCATCATTCCTCTGGTCGAGCATGATTACTTTTGTCGCCGGCCTCGCGTTGATTCTTCCCGGACGCCCCGAGCACATCCATCTGCGCCCCCGGGACATGTACCTGCTGACAGTCAGCAGTTGGCTGGTGGTGTGTGTCTTTGCCGCGCTGCCGTTCTTGCTAACTCAGCACATCAGCTACACCGATTCTTTTTTCGAAAGCATGTCGGGCATCACCGCCACTGGCGCAACGGTCCTCAGCGGCCTGGACACGATGTCGCCGGGGATCCTGATGTGGCGCTCGCTGCTGCACTGGCTCGGCGGTATCGGCTTCATCGGCATGGCGGTGGCGATTCTGCCGTTGCTGCGCATCGGCGGCATGCGGCTGTTCCAGACCGAATCATCCGATCGCTCGGAGAAAGTCATGCCTCGCTCGCACATGGTGGCGCGGCTGATCGTGGCCTCCTACGTCGGCATCACCATTCTCGGCACGCTGGCACTGTGGTGGGCCGGGATGAGTCTGTTCGATGCGATCAACCATTCGATGTCAGCCATTTCCACCGGCGGTTTTTCCACCTCCGACCTGTCCCTGGCCAAATGGACGCAACCGGCCGTGCATTGGGTCGCCATTGTCATCATGATCCTCGGCAGCCTGCCGTTTGCCCTCTACGTCTCGACCCTGCGCGGCAACCGCCGGGCGCTGATCAAGGACCAGCAAGTCCAGGGGCTGATCGGCGTGCTGCTGGTCACCTGGCTGGTGCTCGGCACCTGGTACTGGGCCACCACCGACCTGCATTGGCTCGACGCCCTGCGGCACGTGGCGCTGAACGTGACGTCCATCGTCACCACCACCGGTTTTGCCTTGGGCGACTACAGCCTGTGGGGCAATTTCTCGCTGATGTTGTTCTTCTACCTGGGTTTTGTCGGCGGCTGCTCGGGTTCGACCGCCGGCGGGATCAAGATTTTCCGCTTCCAGGTTGCCTACATCCTGCTTCGGGCCAACCTTAACCAACTGATTCACCCGCGCGCGGTGATCAAGCAGAAATACAACGGTCACCGCCTCGACGAAGAAATCGTCCGGTCGATCCTGACATTCTCGTTCTTCTTCGCCATTACCATCTGCGTGATCGCGCTGCTGCTATCGCTGCTGGGCGTCGAATGGATGACGGCACTGACCGGCGCGGCCAGTACCGTGTCCGGCGTCGGCCCGGGGCTTGGCGAGACCATCGGCCCGGCCGGCAACTTCGCTCCGCTGCCGGATGCGGCCAAGTGGATTCTTTCCGGCGGCATGCTGCTCGGCCGGCTGGAGATCATTACGGTGTTCGTGCTGTGTATTCCGGCGTTCTGGCGTCACTGA	MALPTLRIIGFIIGIFLITLAIFMIVPMATLLIYERTSDLPSFLWSSMITFVAGLALILPGRPEHIHLRPRDMYLLTVSSWLVVCVFAALPFLLTQHISYTDSFFESMSGITATGATVLSGLDTMSPGILMWRSLLHWLGGIGFIGMAVAILPLLRIGGMRLFQTESSDRSEKVMPRSHMVARLIVASYVGITILGTLALWWAGMSLFDAINHSMSAISTGGFSTSDLSLAKWTQPAVHWVAIVIMILGSLPFALYVSTLRGNRRALIKDQQVQGLIGVLLVTWLVLGTWYWATTDLHWLDALRHVALNVTSIVTTTGFALGDYSLWGNFSLMLFFYLGFVGGCSGSTAGGIKIFRFQVAYILLRANLNQLIHPRAVIKQKYNGHRLDEEIVRSILTFSFFFAITICVIALLLSLLGVEWMTALTGAASTVSGVGPGLGETIGPAGNFAPLPDAAKWILSGGMLLGRLEIITVFVLCIPAFWRH	PGPT0002735_1716	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498	NA	NA
D1-35_00517	564	ydjA	COG0778	Putative NAD(P)H nitroreductase YdjA	ATGCAGGCTCTCGACGCTTTGCTCAACCGTGTTTCCGTTCCGCGTCTGGTGGACCCTGCGCCCACGCCCGAACAACGCCAGGTCATGTTCGCCGCAGCGATGCGTGCGCCGGATCATGGCCAACTGCGCCCGTGGCGTTTCCTGACCGTCGAAGGCGAAGCACGTCACCGCATGGGTGAGCTGCTGGCCGAGGCGGCACGCTTCAATGATCCGCTGGTGCCGGAAGCCGTGGTGGAGAAGGCCCTCAACGGCCCATTGCGCGCGCCCTTGGTCGTGGTGGTGATCGCGCGATTGCAGGACCATTTCAAGATTCCCAAGCCTGAGCAATTGCTGGCAGCCGGCTGCGCGGCCCATGGGATTTTGCTGGCCGCTTATGCCCAGGGCGTTGGCGGGGTGTGGCGTACCGGGGAATTGGCCTATTCGCCCCACGTCGCGCGGGGGCTGGGCTTGGAAGAAGGGGAGGAGGTTATCGGCTTCCTTTACCTGGGTACACCGCAGAAAGAGGCGCGCGCGGCGCCGCAGGAAGATATCGGGCCGTTTGTTCAGGAATGGACCGGCGCCTAG	MQALDALLNRVSVPRLVDPAPTPEQRQVMFAAAMRAPDHGQLRPWRFLTVEGEARHRMGELLAEAARFNDPLVPEAVVEKALNGPLRAPLVVVVIARLQDHFKIPKPEQLLAAGCAAHGILLAAYAQGVGGVWRTGELAYSPHVARGLGLEEGEEVIGFLYLGTPQKEARAAPQEDIGPFVQEWTGA				NA	NA	NA	NA	NA
D1-35_00518	1194	aspC_1	COG1448	Aspartate aminotransferase	ATGCATTTCGATGCCATCGGCCGCGTGCCCGGCGACCCGATCCTCGGCCTGATGGAGGCCTACGGGGCGGACAGCAATCCTGGCAAGTTCGACCTGGGCGTGGGTGTCTACAAGGATGCCCAGGGCCTGACGCCGATTCTCCAGTCAGTGAAACAGGCCGAACAGCAACTGGTAGACCGTCAGTTCACCAAGACTTACATCGGTGGCCATGGTGACGCCGCGTTCGGCCGGTTGATCAATGAACTGGTGCTCGGAGCAGACTCGCCGCTGCTCGCCGATAAACGCGCCGGCGCCACCCAGACGCCGGGCGGTACCGGCGCCCTGCGCTTGAGCGCCGACTTCATCGCCCAGTGCCTGCCGGGCCGTGGCGTCTGGCTGAGCAACCCGACCTGGCCGATCCACGAGACCATTTTCGCCGCCGCCGGCGTCAAGGCCAGCCACTACCCCTACGTCGGTGCCGACAACCGCCTGGATTTCGAGGCAATGCTGGCAACCCTGAGCCAGGTGCCAAAGGGTGACGTGGTACTGCTGCACGCCTGTTGCCACAACCCCACCGGTTTCGACCTGACCCATGAGCAATGGCGCCAGGTGCTCGACGTAATGCGCAGCCGCGACCTGCTGCCGCTGATCGACTTCGCCTACCAGGGCTTTGGCGACGGGCTGGAGCAGGACGCCTGGGCTGTGCGGTTGTTCGCCGAAGCGCTGCCCGAAGTACTGATCACCAGCTCATGCTCGAAGAACTTCGGTCTTTATCGCGACCGCACCGGTGCGCTGATCGTCTGCGCGCGCGATGGGGAGAAACTGATCGACATCCGCAGTCAACTGGCGAACATCGCTCGCAACTTGTGGTCGACGCCACCGGACCATGGTGCGGCGGTGGTTGCGACGATCCTTGGCGATCCGCAGTTGAAAGGCCTGTGGGCCGACGAAGTGGAAGCCATGCGCCTGCGCATCGCGCAGTTGCGCAGCGGCCTGCTGGAAGCGCTCGAACCCCACGGTCTGCGCGAACGCTTCGCCCATATGGGGGTGCAACGCGGTATGTTTTCCTACACCGGACTCTCGCCGGAACAGGTCGGGCAACTGCGCGAGCGCCATAGCGTCTACATGGTCGGCACCGGCCGGGCCAACGTGGCCGGCATCGACGCGACGCGCCTGGATGCGCTGGCGCTGGCGATTGCGGATGTTTGCAAGTAA	MHFDAIGRVPGDPILGLMEAYGADSNPGKFDLGVGVYKDAQGLTPILQSVKQAEQQLVDRQFTKTYIGGHGDAAFGRLINELVLGADSPLLADKRAGATQTPGGTGALRLSADFIAQCLPGRGVWLSNPTWPIHETIFAAAGVKASHYPYVGADNRLDFEAMLATLSQVPKGDVVLLHACCHNPTGFDLTHEQWRQVLDVMRSRDLLPLIDFAYQGFGDGLEQDAWAVRLFAEALPEVLITSSCSKNFGLYRDRTGALIVCARDGEKLIDIRSQLANIARNLWSTPPDHGAAVVATILGDPQLKGLWADEVEAMRLRIAQLRSGLLEALEPHGLRERFAHMGVQRGMFSYTGLSPEQVGQLRERHSVYMVGTGRANVAGIDATRLDALALAIADVCK	PGPT0020115_217	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TRYPTOPHANE_DEGRADATION,PGPT0020115-aspC-K00813	NA	NA
D1-35_00519	357			Putative pterin-4-alpha-carbinolamine dehydratase	ATGAACACTCTGAACCAAGCCCATTGCGAAGCCTGCCGCGCCGATGCCCCGCAAGTCAGCGACGAAGAACTGCCGATCCTGATCAAGCAGATCCCCGACTGGAACATCGAAGTGCGCGACGGCGTGATGCAGCTGGAAAAGGTTTTCCTGTTCAAGAATTTCAAGCATGCCCTGGCGTTCACCAACGCGGTCGGCGAAATCTCCGAGGCTGAAGGGCATCACCCCGGCCTGCTCACCGAGTGGGGCAAAGTCACCGTGACCTGGTGGAGCCACTCCATCAAGGGTCTGCACCGCAACGACTTCATCATGGCCGCCCGTACCGACGACGTCGCCAAGACCGCCGAGGGCCGCAAGTAA	MNTLNQAHCEACRADAPQVSDEELPILIKQIPDWNIEVRDGVMQLEKVFLFKNFKHALAFTNAVGEISEAEGHHPGLLTEWGKVTVTWWSHSIKGLHRNDFIMAARTDDVAKTAEGRK				NA	NA	NA	NA	NA
D1-35_00520	786	phhA	COG3186	Phenylalanine-4-hydroxylase	ATGAAGCAGACGCAATACGTGGCCCGCGAGCCCGATGCGCAAGGTTTTATCGACTACCCCGCCGAAGAACACGCGGTGTGGAACACGCTGATCACCCGCCAGCTGAAAGTCATTGAAGGCCGTGCGTGCCAGGAATACCTGGACGGCATCGACAAGCTTGGCCTGCCCCACGACCGCATTCCACAACTGGGGGAAATCAACAAGGTGCTCGGCGAAACCACGGGCTGGCAAGTCGCCCGGGTACCGGCGCTGATTCCGTTCCAGACGTTCTTCGAACTGCTCGCCAGCAAACAGTTTCCGGTCGCGACGTTTATTCGTACCCGTGAAGAACTCGATTACCTGCAAGAGCCGGATATTTTCCACGAGATCTTCGGCCACTGTCCGCTGCTGACCAACCCGTGGTTCGCTGAATTTACCCACACCTACGGCAAACTTGGCCTACAGGCTTCCAAGGAAGAACGCGTTTACCTGGCGCGCCTCTATTGGATGACCATCGAGTTCGGCCTGGTGGACACCCCGCACGGTCGGCGCATCTACGGCGGCGGCATCCTGTCGTCCCCCAAGGAAACCGTTTATTGCCTGTCGGACGAGCCGGAGCATCAAGCCTTCGACCCGCTGGAGGCCATGCGCACGCCGTATCGCATCGACATCCTGCAGCCGGTGTATTTCGTCCTGCCCGAGCTCAAGCGCCTGTTCGACCTGGCCCACGAGGACATCATGGGCATGGTCGGGCGCGGCCGGGAACTGGGCCTGCACGCGCCGAAATTTCCACCGAAAGCGGCGTGA	MKQTQYVAREPDAQGFIDYPAEEHAVWNTLITRQLKVIEGRACQEYLDGIDKLGLPHDRIPQLGEINKVLGETTGWQVARVPALIPFQTFFELLASKQFPVATFIRTREELDYLQEPDIFHEIFGHCPLLTNPWFAEFTHTYGKLGLQASKEERVYLARLYWMTIEFGLVDTPHGRRIYGGGILSSPKETVYCLSDEPEHQAFDPLEAMRTPYRIDILQPVYFVLPELKRLFDLAHEDIMGMVGRGRELGLHAPKFPPKAA	PGPT0020295_1344	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PHENYLALANINE_DEGRADATION,PGPT0020295-phhA-K00500	NA	NA
D1-35_00521	1599	tyrR_1		Transcriptional regulatory protein TyrR	ATGGCGCGCTTTTCTACTCATATGCACCTGGGCCCTTTTATGCGCATCAAAGTCCACTGCCAGAATCGCATCGGCATCCTGCGGGACATCCTCAACCTGCTGGTGGAATACGGCATCAACGTCGCCCGTGGCGAAGTGGGGGGCGAGCACGGCAATGCGATCTACCTGCACTGTCCGAACCTGATCAATATCCAGTTTCAGGCGTTGCGTCCCAAGTTCGAAGGGATCGCCGGGGTATTCGGCGTCAAGCGGGTAGGGCTGATGCCCAGCGAGCGTCGGCACATGGAGCTCAACGCCTTGCTCGGCGCCCTCGAGTTTCCGGTGCTGTCCATCGACATGGGCGGCTCTATTGTCGCGGCCAACCGGGCGGCGGCGCAGTTGCTCGGGGTGCGGGTCGACGAAGTGCCCGGCATCCCGCTGTCCCGCTACGCCGAGGACTTCGACTTGCCGGAGCTGGTGCGCGCCAACCAGTCGCGTATCAACGGGCTGCGGGTCAAGGTCAAGGGCGATGTGTTCCTGGCCGACATCGCCCCGCTGCAATCGGAGCACGACGACAGCGAAGCCATGGCCGGTGCGGTACTGACCCTGCACCGCGCCGACCGGGTCGGCGAGCGTATCTACAATGTGCGCAAGCAGGAGCTGCGCGGCTTCGACAGTATTTTCCAGAGTTCGAAAGTGATGGCGGCAGTGGTTCGCGAGGCGCGGCGCATGGCCCCGCTGGACGCGCCGCTGTTGATAGAAGGCGAAACCGGTACCGGCAAGGAACTGCTGGCCCGCGCCTGTCACCTGGCCAGTCCGCGCGGGCAGTCACCGCTGATGGCGCTCAACTGCGCCGGGCTGCCGGAGTCCATGGCCGAGACCGAGTTGTTCGGCTACGGCCCCGGTGCCTTTGAAGGCGCCCGGGCCGAAGGCAAGCTCGGCCTGTTGGAGCTGACTGCGGGAGGCACGCTGTTCCTCGACGGCGTTGGGGAAATGAGCCCGCGCCTGCAAGTGAAGTTGCTGCGCTTTTTGCAGGACGGTTGCTTTCGTCGCGTCGGCAGTGACGAAGAGGTCTACCTGGATGTCCGGGTGATCTGCGCGACCCAGGTCGACTTGTCCGAACTCTGCGCCCGAGGGGAATTCCGTCAGGATCTGTACCACCGCTTGAACGTGCTTTCCTTGCATATCCCACCGTTGCGCGAATGCCTCGATGGGCTGGAGCCATTGGTGGAGCATTTTCTCGACCAGGCCAGCCGCCAGATCGGCTGTCCGCTGCCAAGGCTTGCCCCGGCGGCGATGGAACGTCTCAGCCACTACCATTGGCCGGGCAACGTCCGGCAGTTGGAAAACGTGCTGTTCCAGGCCGTTTCCCTGTGCGACGGCGCAAAGGTCAAGGCCGAGCACATCCGCCTGCCGGACTACGGCGTGCGCCAACCCCTTGGCGACTTTTCCCTGGAGGGTGGGCTGGACGAGATCGTCGGGCGTTTCGAGAAAGCGGTGCTGGAGCGCCTGTACTCCGAACACCCCAGCAGCCGGCAACTGGGCAAGCGGTTGGGGGTTTCCCATACGACTATTGCCAATAAGCTGCGCGAGTATGAAGTCGGTAAAACCGAGTCATAG	MARFSTHMHLGPFMRIKVHCQNRIGILRDILNLLVEYGINVARGEVGGEHGNAIYLHCPNLINIQFQALRPKFEGIAGVFGVKRVGLMPSERRHMELNALLGALEFPVLSIDMGGSIVAANRAAAQLLGVRVDEVPGIPLSRYAEDFDLPELVRANQSRINGLRVKVKGDVFLADIAPLQSEHDDSEAMAGAVLTLHRADRVGERIYNVRKQELRGFDSIFQSSKVMAAVVREARRMAPLDAPLLIEGETGTGKELLARACHLASPRGQSPLMALNCAGLPESMAETELFGYGPGAFEGARAEGKLGLLELTAGGTLFLDGVGEMSPRLQVKLLRFLQDGCFRRVGSDEEVYLDVRVICATQVDLSELCARGEFRQDLYHRLNVLSLHIPPLRECLDGLEPLVEHFLDQASRQIGCPLPRLAPAAMERLSHYHWPGNVRQLENVLFQAVSLCDGAKVKAEHIRLPDYGVRQPLGDFSLEGGLDEIVGRFEKAVLERLYSEHPSSRQLGKRLGVSHTTIANKLREYEVGKTES				NA	NA	NA	NA	NA
D1-35_00522	738	flgF	COG4787	Flagellar basal-body rod protein FlgF	GTGGACAAGTACCTTTATGTGGCAATGACCGGCGCCAGCCAGAACGCACTGGCGCAGCGGGCCCATGCCAACAACCTGGCGAACATCTCCACCAACGGTTTTCAGAAAGACCTGGAGCAGGCACGTTCGATGCCGGTGTTCGGCGACAGCTTTCCGGCGCGGGCGTTTGCCATGTCCGAACGGCCTGCTACCGATTTCACCCCGGGTGCGCTGATTGAAACCGGCCGTGAACTGGACGTGGCGGTCAGCGGGCCGGGCTGGATGGCCGTGCAGAACCCCGACGGTGGCGAAAGCTACGTGCGCACCGGCAGCCTCAACGTCGACGCCCTAGGCGTGCTGCGCGCCGGCAACGGCATGCCGGTGATGGGCAACGGCGGTCCGATTGCCGTGCCGCCAGAGCAGAAAATCGAAATCGGCCAGGACGGCACCATCAGCATCCGCGCCATGGGTGAAGGCCCACGGGTGATGGCTGAGGTGGACCGCATCAAGCTGGTCAACCCGGACCTCAAGACCATGACCAAGGGCCTGGATGGCTCGATCCGTTCCAAGGACGGCCAGCCGGCGCCCATCGATGGCAACGTGCAGCTGGTGTCGGGGTTCCAGGAGGCGAGCAACGTCAATGCCGTGGATGAGATGACTTCGGTGCTGGCCCTGGCCAAGCAGTTCGAGCTTCACGTCAAGATGATGACCACCGCCAAAGAAGGCGATGAGGCCATGGCTCGGGTCTTGCAGATCTAA	MDKYLYVAMTGASQNALAQRAHANNLANISTNGFQKDLEQARSMPVFGDSFPARAFAMSERPATDFTPGALIETGRELDVAVSGPGWMAVQNPDGGESYVRTGSLNVDALGVLRAGNGMPVMGNGGPIAVPPEQKIEIGQDGTISIRAMGEGPRVMAEVDRIKLVNPDLKTMTKGLDGSIRSKDGQPAPIDGNVQLVSGFQEASNVNAVDEMTSVLALAKQFELHVKMMTTAKEGDEAMARVLQI	PGPT0015490_1917	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015490-flgF-K02391	NA	NA
D1-35_00523	786	flgG	COG4786	Flagellar basal-body rod protein FlgG	ATGCTTCCGGCTCTTTGGGTTGCCAAAACAGGTCTGTCCGCCCAGGACACCAACCTTTCCACTATTTCCAACAACCTGGCGAACGTTTCGACCACGGGTTTCAAACGTGATCGCGCCGAGTTCCAGGACCTGCTCTATCAGGTAAAACGCCAGCCAGGCGCCCAGTCGACCCAGGACAGCGAATTGCCGTCGGGCCTGCAAGTGGGTACCGGTGTGCGCATTGTCGGCACCCAGAAGAACTTCAACGCCGGTAGCCTGCAAACCACCGAGCAGCCGCTGGACATGGCCATCGACGGTCGCGGTTTCTTCCAGATCCTGCAGCCGGACGGCACCACGTCCTACACCCGTGACGGTACCTTCCACCTCGACTCCAACGGCCAGATCGTCAACGCCAGCGGTTTCGCCCTGGAGCCGGCCATCGTCATCCCGAACGATGCGCAGACATTCACCGTGGGCCGTGACGGCACCGTGTCCATCACCATCGCGGGCAATCCGGCTGCGCAGGTGATCGGTAACCTGCAGACCGCTGACTTCATCAACCCGGCCGGCCTGCAGGCGGTGGGTAACAACCTGTTCCTGGAAACCGCCGCCAGCGGCGCGCCGCAAGTCGGCACCCCGGGCCTGAACGGTTTCGGCACTACGCTGCAGAACACCCTGGAAACCTCCAACGTGAGCACCGTCGAGGAAATGGTCAACATGATCACTACTCAGCGTGCCTACGAGATGAACTCCAAGGTGATCTCCACCGCCGACCAGATGCTCTCGTTCGTCACGCAGAACCTGTAA	MLPALWVAKTGLSAQDTNLSTISNNLANVSTTGFKRDRAEFQDLLYQVKRQPGAQSTQDSELPSGLQVGTGVRIVGTQKNFNAGSLQTTEQPLDMAIDGRGFFQILQPDGTTSYTRDGTFHLDSNGQIVNASGFALEPAIVIPNDAQTFTVGRDGTVSITIAGNPAAQVIGNLQTADFINPAGLQAVGNNLFLETAASGAPQVGTPGLNGFGTTLQNTLETSNVSTVEEMVNMITTQRAYEMNSKVISTADQMLSFVTQNL	PGPT0015495_1287	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015495-flgG-K02392	NA	NA
D1-35_00524	696	flgH		Flagellar L-ring protein	ATGAATCGCTTTGTATCTGTTCTGGCATTGAGTGGGGTTACCGCGCTGGCGGGCTGTGTCGCGCCAACGCCCAAGCCCAATGACCCGTATTACGCTCCGGTGTTGCCACGCACGCCGTTGCCGGCTGCCGCCAATAACGGCTCGATCTACCAGGCTGGCTTCGAACAGAACCTGTACAGCGACCGCAAGGCTTTCCGGGTCGGTGACATCATCACCATCACCTTGAACGAGCGGACCCAGGCCAGCAAGAACGCCAACTCGCAGATCGACAAGACCAGCCAGACCAGCGTCGGCCTGACGTCGTTGTTCGGCTCCAGCCTGACCACCAACAACCCGATCGGTGGCGGCGACCTGAGCCTCAACGCCGGCTACGGTTCCGACCGCGCCTCCAAGGGCGACAGCCAGTCTGGCCAGAGCAACAGCCTGACCGGTTCGATCACCGTGACCGTCGCCGATGTACTGCCCAACGGCATCATCGCCGTGCGCGGCGAGAAGTGGCTGACGCTCAATACCGGTGACGAACTGGTGCGCATCGCTGGCATGGTCCGCGCCGATGACATCTCCACCGACAACACTGTTCCGTCGACCCGCGTGGCCGATGCGCGCATCACCTATTCGGGCACTGGTGCCTTTGCCGATGCGAGTCAGCCAGGTTGGTTCGACCGTTTCTTCCTCAGCCCGAAGTTCCCTTTCTAG	MNRFVSVLALSGVTALAGCVAPTPKPNDPYYAPVLPRTPLPAAANNGSIYQAGFEQNLYSDRKAFRVGDIITITLNERTQASKNANSQIDKTSQTSVGLTSLFGSSLTTNNPIGGGDLSLNAGYGSDRASKGDSQSGQSNSLTGSITVTVADVLPNGIIAVRGEKWLTLNTGDELVRIAGMVRADDISTDNTVPSTRVADARITYSGTGAFADASQPGWFDRFFLSPKFPF	PGPT0015420_1191	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_M|S|P|L-RINGS,PGPT0015420-flgH-K02393	NA	NA
D1-35_00525	1107	flgI		Flagellar P-ring protein	TTGAATCTTAAACAGCTGTTGATCGGTGCCCTGGTGATGTCGGCAGCCTTCACCGCTCAAGCCGAGCGCCTGAAGGACATCGCCAGCATTTCCGGCGTGCGTTCCAACCAGTTGATCGGTTACGGCCTGGTCGTGGGCCTGAACGGTACCGGTGACCAGACCACCCAGACTCCGTTCACCCTGCAGACCTTCAACAACATGCTGTCGCAGTTCGGCATCAAGGTGCCGGCCGGCTCCGGCAACGTGCAGTTGAAGAACGTCGCGGCGGTGTCGATCAGTGCCGACCTGCCGCCGTTCGCCAAGCCCGGCCAGCAAGTGGATATCACTGTCTCGTCCATCGGTAACTCCAAGAGCCTGCGTGGCGGCACCTTGCTGCTGACCCCGCTCAAGGGTATCGACGGCAACGTCTACGCCATCGCCCAGGGCAACCTGGTGGTGGGCGGGTTCGATGCCGAGGGGCGTGACGGTTCGAAGATCACCGTCAACGTTCCGTCGGCCGGCCGTATTCCCGGCGGTGCGTCGGTTGAACGTGCCGTGCCGAGCGGCTTCAATCAGGGCAACAGCCTGACCTTGAACCTCAACCGTTCCGACTTCACCACGGCCAAGCGCATCGTCGACAAGATCAACGACATGCTCGGCCCAGGCGTGGCCCAGGCCATCGACGGTGGCTCGATTCGTGTCACCGCGCCACTGGACCCGAGCCAGCGCGTCGACTACCTGTCGATCCTCGAAAACCTTGAGGTCGATCCGGGCCAGGCGGTGGCGAAAGTCATCATCAATTCGCGCACCGGCACCATCGTGATCGGCCAGAACGTCAAGGTTTCGCCGGCCGCCGTGACCCACGGCAGCCTGACCGTGACCATCACCGAAGACCCGATCGTCAGCCAGCCGGGGCCATTGTCCAACGGCCAGACCGCCGTGGTTCCGCGCTCGCGGGTCAATGCCGAACAGGAAGCCAAGCCGATGTTCAAGTTCGGCCCGGGCACCACCCTGGATGAGATCGTCCGGGCGGTAAACCAGGTCGGCGCGGCACCGGGCGACCTGATGGCGATTCTCGAAGCCTTGAAGCAGGCCGGCGCGTTGCAAGCCGACCTGATCGTGATTTAA	MNLKQLLIGALVMSAAFTAQAERLKDIASISGVRSNQLIGYGLVVGLNGTGDQTTQTPFTLQTFNNMLSQFGIKVPAGSGNVQLKNVAAVSISADLPPFAKPGQQVDITVSSIGNSKSLRGGTLLLTPLKGIDGNVYAIAQGNLVVGGFDAEGRDGSKITVNVPSAGRIPGGASVERAVPSGFNQGNSLTLNLNRSDFTTAKRIVDKINDMLGPGVAQAIDGGSIRVTAPLDPSQRVDYLSILENLEVDPGQAVAKVIINSRTGTIVIGQNVKVSPAAVTHGSLTVTITEDPIVSQPGPLSNGQTAVVPRSRVNAEQEAKPMFKFGPGTTLDEIVRAVNQVGAAPGDLMAILEALKQAGALQADLIVI	PGPT0015425_1201	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_M|S|P|L-RINGS,PGPT0015425-flgI-K02394	NA	NA
D1-35_00526	1305			hypothetical protein	ATGGATATGCGCAAGGGCGCTTTGATCAGCGGCGATTCGGGGTCCTACTCGGACCTCAACCGCCTGAACCAGCTCAAGGTCGGCGACAAGAACAGCGACGGCAACCTGCGCAAGGTGGCGCAGGAGTTCGAGTCGCTGTTCCTTGGCGAGATGCTCAAGTCCATGCGTTCGGCCACCGAAGCGATGGGCAAGGACAATCCGATGAATACTGCCGAAGCCAAGCAGTATCAGGAAATGTACGACCAGCAGCTGGCCGTTTCGATGTCCCGCGAGGGCGGCGGTATCGGCCTGGCCGACGTGCTGCTGCGCCAGATGTCGAAGAACAAACCGACGGCGCCAGGTGAGGCGGCTACGTTGTCCGCCGCCAAGCAGCAAGAGGCGCTGGACAAGGTGACCAAGCCGGTTGTAACGCCGGTGGCCGCCGGAACGCTGCCCACCGACGGGCCTTTGTCGCGCACCAATGGCCAGCGCCCGCTGTGGGCTTCGCGAGCCGTGAACGCGCCGCAAGGTGCAGGCGAGGGCGTGCACCGCAACGATATGGAATTGCTCAACCAGCGTCGCCTGGCGCTGCCGCCGAAACTGGCCGACCGCCTGCTCGCCGGGCTGGTGCCTGCGGCTGCGGCCTCGACCGAGGCGCCCGCACAGAACATCCTGCCTGACCGCGCCGTTGCCGCCGTCAAGCCGGCCACCGGCGAATTGGGCAATGGTGACTGGCTGGCCGCGCTCAAGGATTCCGAGGCCAAAGGGCAGGTACAGGTTTATGGGCGCGCCGTGGCACAACCGCCACTGGCGCCGGCCCGCAAGGCGTTCCGCGATGCTGATGAATTCGTCAATGCGATGTTGCCGATGGCCAAGGAAGCCGCCGAGCGCATCGGTGTCGATCCGCGTTACCTGGTGGCCCAGGCCGCCCTGGAAACCGGTTGGGGTAAATCGGTCATGCGTCAGCCTGATGGCAGCAGCAGTCACAACCTGTTCGGCATCAAGGCCAGCAAGAACTGGACGGGCGATTCGGCGCGGGCAATCACCAGCGAATTCCGCAACGGTGAGATGGTCAAGGAAACCGCCGAGTTCCGCTCCTACGCATCGTACCGCGACAGCTTCCATGACCTGGTCAATCTGCTGCAAAGCAACAGTCGCTATCAAGCTGTGCTGAAGTCGGCCGATAACCCGGAACAGTTTGTACGCGAGTTGCAGAAGGCCGGTTACGCCACCGACCCGAACTACGCCAGCAAGATTTCGCAGATAGCTCGGCAGATGACGAGTCCACAAAACTTCGCTTCGGCAAGCGCTACCACGATTTTATAA	MDMRKGALISGDSGSYSDLNRLNQLKVGDKNSDGNLRKVAQEFESLFLGEMLKSMRSATEAMGKDNPMNTAEAKQYQEMYDQQLAVSMSREGGGIGLADVLLRQMSKNKPTAPGEAATLSAAKQQEALDKVTKPVVTPVAAGTLPTDGPLSRTNGQRPLWASRAVNAPQGAGEGVHRNDMELLNQRRLALPPKLADRLLAGLVPAAAASTEAPAQNILPDRAVAAVKPATGELGNGDWLAALKDSEAKGQVQVYGRAVAQPPLAPARKAFRDADEFVNAMLPMAKEAAERIGVDPRYLVAQAALETGWGKSVMRQPDGSSSHNLFGIKASKNWTGDSARAITSEFRNGEMVKETAEFRSYASYRDSFHDLVNLLQSNSRYQAVLKSADNPEQFVRELQKAGYATDPNYASKISQIARQMTSPQNFASASATTIL	PGPT0015500_13	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015500-flgJ-K02395	NA	NA
D1-35_00527	2067			hypothetical protein	ATGAGTCTGCTCAACATAGGGATGTCGGGCCTGTCGGCCAGTCAGTTCGCCCTGTTAACCACGGGTAACAACATTGCCAACGTCGATACCGATGGGTATTCGCGCCAGCAGACCGTGCAGGGCACCAAGGCTTCCAATCAATACGGCAACGTGTTCATCGGTTCCGGCACCACCCTGGCCGACGTGCGGCGGGTATACAACGCCTATCTCGAAGCGCAGTTGAAGACCACCACCTCGCTCAACAGTGACGCGGCGGCCTACCAGTCGCAGATTTCCCCGCTCGATGCGCTGTTGTCGGACACCGGCACCGGTCTCAATGGTGCCCTGACCAAGTTCTTCGCCTCGGTGCAGAACGTCAACGCCAAGCCGGGCGACGATGCGTCCCGCCAGTTGCTGCTCAGCGATGCCCAGGCCATGAGCGCCCGGTTCAATTCCGTCGCCAGCGAGCTGAACAAACAGAGCGAGACCATCAACGGCAACCTCAAGACCATGGTCGAGCAGGTCAACAGCCTGGCTAACACCGTGGCTCAGTTGAACAAGAAAATCGCCGAGGTTTCCAACAGCGGTGGCGCACCCAACGACTTGCTCGATACCCGCGGCGAAGTCATTCGGCAGATTTCCAGCCTGACCGGTACCCAGGTCGTGGAAAATGGCAGCAGCCTGGACATCTACCTGGGCTCCGGCCAGCCCTTGGTGCTGGGCACCACGGTCAACAAGCTGGAAACCGTGCCGGACAAGAACGATCCGGGGCGCCTGGGCATCCAGCTCAACAGTGGTTCCAGTGTCATGGACCTCACTCAGGTCCTCTCGGGCGGCGAGATCGGCGGCCTGATGCGCTACCGCAGCACCGTGCTCGACCCGGCCATGAACGAGCTGGGGCGCGTGGCCCTGGTCGTTGCCGACCAGATGAATGCCATCCAGGCCTCGGGCATCGACCGCAACGGTGATTTTGGCTCCAACCTGTTCTCCAATATCAACAGCGCCGCGCAGGTAAGCCAGCGCAGCGTGGCGTCGCTGAACAACAGCACCGGGTCCGGCAACTTCGAAGTGGCCATCAAGGACACCGGCAAGCTGAGCACCAATGACTACAAGGTCACCTTCACCAGCGGCACCGACTACACCGTGCAGCGCCTGCCTGACGGCACGTCGATGGGCAGCTTCAGCACCACGACCAATCCGCCGCCGGAAATCGACGGTTTCTCGATGAAATTCGTCAACGGCACGGCGGCAACCGGCGACTCGTTCAAGCTGACCCCGACCCGCAACGCGGCGGCCAGCATCAAGACCGAGATGACCGACTCCAAGCGGCTGGCGATCGCCGCGCCGCTGGGCGCTGCCATCGCACCCGGCGGCAGCGGCACGCTGACCATTCCGGCCAGCGGCCAGCCGACCCTGACGACCAAGCTGGACATCTACGACGCCGCCACCACCACCATCATCCAGAATGGCATCAAGACGTCCACGCCGGTCAAGGTGGTGTTCGGTGATCCGTCCGCCGATGGCACCAGCCAGCCGTATCAGTTGCTCGATGCCCAGGGCAACGAGATCAGTACCGGTTCGATCAAGCCCGGCGAAAGCAACACCCTGAACCTGACCATTCCGCTCAAGGATGCCAATGGCAACCCGATCACGGATGGCGCGACCCCGCCGGTACAACGCACGGTCGCTTTTGAAATGAGCATCGCCGGCGCACCGACCAAAGGTGCCGCCATCAACGTCACGCTTACCCAGCCCGGCAGCCTGGACAACCGTAACGGCACCGCCCTGGCCGACCTGCAGACAGGCAAGACCGTCGACACCAACAGCAACAGCAAAGGTATTTCCCTGAGCGATGCCTACGGCAAGCTGGTCGAAGGCGTCGGTGCCAAGGCCGCTCAGGGCAAGCTCGACAGCGCCGCCACTGGCGCGATCCTGAAAAACGCCTCGGACGCCCGCGACTCGCTGTCCGGCGTGGACCTGGACGAAGAGACCGGGAACCTGGTGAAGTTCCAGCAGTACTACACCGCGTCCTCGCAGATCATCAAGGCGGCGCAGGAAATCTTCAGCACTTTGATCAACAGTCTTTAA	MSLLNIGMSGLSASQFALLTTGNNIANVDTDGYSRQQTVQGTKASNQYGNVFIGSGTTLADVRRVYNAYLEAQLKTTTSLNSDAAAYQSQISPLDALLSDTGTGLNGALTKFFASVQNVNAKPGDDASRQLLLSDAQAMSARFNSVASELNKQSETINGNLKTMVEQVNSLANTVAQLNKKIAEVSNSGGAPNDLLDTRGEVIRQISSLTGTQVVENGSSLDIYLGSGQPLVLGTTVNKLETVPDKNDPGRLGIQLNSGSSVMDLTQVLSGGEIGGLMRYRSTVLDPAMNELGRVALVVADQMNAIQASGIDRNGDFGSNLFSNINSAAQVSQRSVASLNNSTGSGNFEVAIKDTGKLSTNDYKVTFTSGTDYTVQRLPDGTSMGSFSTTTNPPPEIDGFSMKFVNGTAATGDSFKLTPTRNAAASIKTEMTDSKRLAIAAPLGAAIAPGGSGTLTIPASGQPTLTTKLDIYDAATTTIIQNGIKTSTPVKVVFGDPSADGTSQPYQLLDAQGNEISTGSIKPGESNTLNLTIPLKDANGNPITDGATPPVQRTVAFEMSIAGAPTKGAAINVTLTQPGSLDNRNGTALADLQTGKTVDTNSNSKGISLSDAYGKLVEGVGAKAAQGKLDSAATGAILKNASDARDSLSGVDLDEETGNLVKFQQYYTASSQIIKAAQEIFSTLINSL	PGPT0015195_245	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015195-flgK-K02396	NA	NA
D1-35_00528	1566			hypothetical protein	ATGCGAATTTCCACCAATCAGTTTTATGACACCTCGGCTGCGAACTATCAGAAGAACTTCGCAAAAGTCCTCAAGACCATGGAAGAGAGCTCAAGCCAGGTTCGCGTGAACACCGCGGCCGATGATCCGGTGGGCGCTTCGCGTCTGCTGCAGTTGGGTACCCAGGCGGCGTTGCTCGACCAGTACGAAACCAACACCAAGACCATCAGGGCGACCCTGGGCACTACTGAAGCGGTCATGGAGAGCATTGGTAACGTGCTGCAGCGCGCCAGGGAACTGTCCGTGAGTGCCGGTAACGCCGGCTACACCGATGCTGACCGTCAAGCCACTGCCTCGGAGCTGGGCCAGATCGAAGAGCAGTTGCTGAGCCTGATGAACTCCAAGGACGAAAACGGCAAGTACATATTCGCCGGGTCCAAGGGCGACACCATCCCGTTCACCCGCAACGACGATGGCACCTACAGCTATAACGGTGATCAGGTCACCCTCGACCTGCCGATCGGCGATACCATGTCCATGGCCACCAACAGCACCGGCTGGGAAGTGTTCCAGCAAGCCGTCAATACCAGCCGCAGCCAGGTCACCATGACCGCGCCGGCAGTCAATGACGGTCGTGTCGTGCTGTCCGACGGCCAGGTGTCGTCCAGTGTCAGCTACAACAGCAAGTTTCGCAGCGGCGAGCCGTACACCGTGGAATTCGTCAGCGGTACGCAGCTGAAAATCACCGACTCGCTCGGTAATGACGTGACGGCGGAAGCCAGCCAGGGCGGCAGTTTCGACCCTGCCAGCAAGAGTGGTCAGGCAGTCAATTTCCGTGGCGTGGAGCTGACCCTGAACATCAATCTGCAAACGGGTGACGACCCCGCCACGGTGTTGCCAGGGCGCACCTTCACGCTGGCTGCCAAGCCGGACACCTTTGTTCCGACACGCAGCCCCGGCAACCCGACAGCGGTGCAGATCACCGGCAGTGAGATCACCGACCCGGTGGCGTACCACGCCAGTTTCCCTACCGGTTCGGCAGTGCTGAAGTTCACCAGCGCTACCGATTTCGAACTTTATGCCGCGCCGCTGACCGCTGACAGCCGGCCGGTTTCCAGCGGTACCCTCGCCGGTAACGTGGCAACAGCTTCGGGCGTCAGCTTCACCTTGAACGGCGCGCCCGCCGCGGACGATCAGTTCAGCGTCGCAATCAACACCCACGAAACCCAGAATATCCTGGACACCGTGAGCCAGTTGAAGAAGGCGTTGAACACCCCTACCAATGGTGACCCTCTCGAGGTACAGAAACTTCAGGCTTCGTTGGCTTCCGGTATCGGTAACCTGGCGAGCGGCACCGATCAACTCTCCAGTGCCCGGAGTTCGGTCGGCGGTCGGGGTCAGTCGCTGGATACCCAAAGCGGCACCAACCAGAGTCTGGTCCTGGCCAACAGCCAGACCCAATCGTCGATTCGTGATTCCGACTCAGCCGAAGTATTGATCCGCCTGACGATGCAAAGCACCATGCTGCAAGCCTCGCAACTGGCCTTCAGCAAAATCGCGCAGTTGGGTCTGTTCAACAAGATCTGA	MRISTNQFYDTSAANYQKNFAKVLKTMEESSSQVRVNTAADDPVGASRLLQLGTQAALLDQYETNTKTIRATLGTTEAVMESIGNVLQRARELSVSAGNAGYTDADRQATASELGQIEEQLLSLMNSKDENGKYIFAGSKGDTIPFTRNDDGTYSYNGDQVTLDLPIGDTMSMATNSTGWEVFQQAVNTSRSQVTMTAPAVNDGRVVLSDGQVSSSVSYNSKFRSGEPYTVEFVSGTQLKITDSLGNDVTAEASQGGSFDPASKSGQAVNFRGVELTLNINLQTGDDPATVLPGRTFTLAAKPDTFVPTRSPGNPTAVQITGSEITDPVAYHASFPTGSAVLKFTSATDFELYAAPLTADSRPVSSGTLAGNVATASGVSFTLNGAPAADDQFSVAINTHETQNILDTVSQLKKALNTPTNGDPLEVQKLQASLASGIGNLASGTDQLSSARSSVGGRGQSLDTQSGTNQSLVLANSQTQSSIRDSDSAEVLIRLTMQSTMLQASQLAFSKIAQLGLFNKI	PGPT0015505_341	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015505-flgL-K02397	NA	NA
D1-35_00529	3573			hypothetical protein	GTGAATTCACTTCCGCTTGTAAGCATCGTCATCCCCGCGTACAACCCTCGGTTCTTCGACCAGGCACTGCTCAGCGCCTTGGCGCAGACTTACGAAAACATTGAGATCATCGTTTGCGACGATTCGCCTGGCGATGAAATCCGCCATATCGTCACATCCTTCACAGAACCGGCCCATCCGGTCCGTTATCTGAAAAACTCACAACGGCTGGGGCTTCAGGGCAACCTGTTGCGCTGTGTCGAAGAGGCGCAGGGCGAGTTCATCAAGGTGTTGTGCGATGACGATCGACTGTTTGCGCCGAGCATTGCGATGCAGGCTCAGGCGTTGGTGGACCATGCTGACGTGAGCGTTGTGTTCGCGCTTCGATTGTTGTGTGACGCAGGTAACTTCATCCTGCCACCCCGCGTGGACAATTGCCGTTTCTCGCCAAACGACGCTTTGCTCAAGGGCGACGACATGCTGGCGATTTTCGAGAGCACGCCAACCAATTTCATCGGCAATTTCAGTTCGGCCCTGATGCGTCGCGCCGATGTGCTGGAATTGTTGCCTGCGTTGATCCAGGACGGTGCTGGTTTTGTCGCGGTGCTCGATTTTGCCTTGTTTGTCTGCCTGATGCGCCGCGGCAATCTAATTGCCTTGAACACCGTGTTGAGTGTCGAACGTCTGTACCCGGAGCGTTTGAGCAAGACCCCGGAGATGCTCAAGGCCGCAAAAACAGAGTGGGAATGGCTGGCGCAGATGCTGGTTGCGCGCAGTGGTGAAGCGGCTCCGGCCTCGGGTTGGGTGCGCTGCATCGATTTGAATAAGATCACTGAACAGCCTCATGCGTGGCAGGAGCTCTGCGTAACCCGCGTATTGGGCAACCGCAATACCGTCGTCAATGGTCGAGTGGGCGCGCAAAGTGAGAGTTATGCGGACTTCTATCGCGAATGGCTGGCCGTGCGTCGGTTCAGTGAGGTGGAGCGACGCGTCATGCCCGCGCGGGTGGACAGTTGGCCGTTTCGGCCGAATATCGTGCCTTTGATCATCGACGCTCTCGGCGATGCGCCGTCAGTTGCGGCGACGTTACGTAGCATCAAGGACCAGTTATATCCAGCACAGGCCGTGGTAGTGCTTTCCGATGCCCATTGCGAAGTGGACGGGCGAGTGCTGCAACTGCCTTATCAGGCCGATTGGCCGAGCCAGTTCAATGCCATCGTTCCACAGCTGGAAGGTGCGCACTGGTTCTACGTGCTGCGAGCGGGCGACGTGCTGCGCGAGTCGGCGTTGCTGATCCTGGCCGAGCGCGTCGCCGGGAAACAGGGCATCCTATGCGTCTACAGTGATGAAGGCGCGTTGGTGGACGGCGAGTCCTTCGAACCGGTGTTCAAGCCGGATTTCAACCTGGACCTGATGCGCGCCTATCCCTATGTGGGTCGGACCCTGGCTTTCGAGCGTGAACGATTCATGGCCCTTGGTGGTTTTGAACCGGATCACGGTGAACTGGCGCCCCATGATCTGCTCTGGCGCCTGGTGGAAGAGGCTGGCCCTCAGACCATAGAACACATCGCGGAAATCCAGGTCGAGTCGGTCCTGAGCTTCGCTCAATGGTTATCGCTGCCCGAGGTCATCGAGGGCAATGCCCGATTGGTTGGCGCACATCTGAATCGTATCGGCATCGATCATCAGATTTCTCCGGACACATTGCCGTTGATCAACCGCATCAACTATCGACACGGTGGACGCCCGCTGGTATCGATTATCCTGCGTACCGGTGACTCGCTTGCAGCCTTGCAGCGTTGCGCCGAGAGCCTGATCGAACGCACGGCTTACACCCACTATGAAATCCTGATCGTGGACAGCGGCGTCCGGGATCCGGCCATGCTTGATTGGCTTGAGAACATGTCGCTGCTGGGCGCTAGCATGTTGCGGGTACTGCGTCATGTCGGTGAGGGAAATGATGCAGCGGTGTGTAATTTCGCCGCTGCTCAGGCCCGGGGCGAGTACCTTCTATTGCTGAGTCCGCACCTGGCTGTTTGCGAAAGTGACTGGCTGGACGAGATGGTCAATCATGCCCAGCGTCCTGAGGTGGCGGTGGTCGGTGCGAGGATTCTCAGTCCTCAAGGCACGATTGTTGCCGGGGGGCAGATTCTCGGGTTGGCTGGGCCTGTGGGCACGCCGTTCTACGGGGAGCCAGCGGCTTCGCGCGGCTACATGCAACGTTTGCATACGACCCAGAACTGGAGTTCAGTCAGCAGTGACTGTCTGATGGTGCGCAAGCAGGTTTTCGATGAGCTCGGCTGCCTGGACGATGCGTCTTTCACCTTCGGCCTCAGCGATGTCGACCTGTGCCTGCGCGCAGGCAAAAACGGCTATCTGGTGGTCTGGACGCCTTACGCCACGGTCATTAAAAATCACCCTCAATCGACCGCAGCCCAGCCAGAAGAAAACACGTTGGTAGAACGCGAGCGCGAAGTTTTCTTTCGCAAATGGCTGCCGCAGATCGCCCGGGATCCGGGCTACAACCCTGCGCTGAGCCTCGGGGCGTCCAGCTTCAGCCTGGAACCTTCGTTGCGCAACAATTGGAACCCGTTCTGCACCCGCGCCCTGCCATTGATACTTGGCTTGCCGGTCAACGCCACCGCAGTCGGTCATTATCGTGTTACGGCCCCGTTGGCCGAATTGGAGGCCGCGGGGCGGGTAATCGCCCGGGTCGCCTACGAGTCGCCTTCCACCGTTGAGATCGAGCGTCTGTCGCCGGACACGATCGTATTGCAGGGGCGCTACAGCGAAGGGGCCGCCGGCGATATTCTCAGAATGAAGAAATATTCCGGTGCGTTGCGGATTTTCGAACTCGACGATTACGTCGTCCAGGCGCCCAAGAAAAACACGCATGCGCGCAACAAGCCGGCCAACATTGAACAGATGCTGCGCGAAGGAATAGGATTGTGTGATCGCGTGGTGGTGACGACACCTTCGCTCGCGGATGCCTTGTCCAGCATGCACAATGAAATCCGCATCGTACCCAATATGTTGCCGCCCGAGCCGTGGGCGAAGCTGACCAGCCGGCGTGGCGCCTCCTCCAAGCCTCGGGTGGGCTGGGGGGGAGGGACCAGCCACAGTGGCGACCTGGAAATCATTGCAGACGTGGTTCGCGAGCTGGCAAATGAAGTGGAGTGGGTATTCTTCGGCATGTGCCCGGATGCGCTGCGGCCATACATCCATGAGTTCCACGGCTCGGTCGCCCTGAGTACCTATCCATTCAAGCTGGCCAGCTTGAACCTTGACCTGGCCCTGGCCCCGCTGGAGTTCCATATCTTCAACGATTGCAAGAGCAATCTGCGCTTGCTGGAATACGGAGCGTGTGGCTATCCGGTCATCTGCACCGACACCAAGGCCTACGACGGTTTTCTGCCTTGCACCAAAGTGCGCAGCAACAGCACCGAGGAATGGATCGCGGCAATCCGCATGCACCTGGCCGATCCGGACGCCAGCTACCGCATGGGTGACGAACTGCGCGAAGCGGTATTGCGCGACTACATGCTCAGCGGCAAAAACCTGCAGCATTGGTTGTGGGGGTGGTTGCCGGATTGA	MNSLPLVSIVIPAYNPRFFDQALLSALAQTYENIEIIVCDDSPGDEIRHIVTSFTEPAHPVRYLKNSQRLGLQGNLLRCVEEAQGEFIKVLCDDDRLFAPSIAMQAQALVDHADVSVVFALRLLCDAGNFILPPRVDNCRFSPNDALLKGDDMLAIFESTPTNFIGNFSSALMRRADVLELLPALIQDGAGFVAVLDFALFVCLMRRGNLIALNTVLSVERLYPERLSKTPEMLKAAKTEWEWLAQMLVARSGEAAPASGWVRCIDLNKITEQPHAWQELCVTRVLGNRNTVVNGRVGAQSESYADFYREWLAVRRFSEVERRVMPARVDSWPFRPNIVPLIIDALGDAPSVAATLRSIKDQLYPAQAVVVLSDAHCEVDGRVLQLPYQADWPSQFNAIVPQLEGAHWFYVLRAGDVLRESALLILAERVAGKQGILCVYSDEGALVDGESFEPVFKPDFNLDLMRAYPYVGRTLAFERERFMALGGFEPDHGELAPHDLLWRLVEEAGPQTIEHIAEIQVESVLSFAQWLSLPEVIEGNARLVGAHLNRIGIDHQISPDTLPLINRINYRHGGRPLVSIILRTGDSLAALQRCAESLIERTAYTHYEILIVDSGVRDPAMLDWLENMSLLGASMLRVLRHVGEGNDAAVCNFAAAQARGEYLLLLSPHLAVCESDWLDEMVNHAQRPEVAVVGARILSPQGTIVAGGQILGLAGPVGTPFYGEPAASRGYMQRLHTTQNWSSVSSDCLMVRKQVFDELGCLDDASFTFGLSDVDLCLRAGKNGYLVVWTPYATVIKNHPQSTAAQPEENTLVEREREVFFRKWLPQIARDPGYNPALSLGASSFSLEPSLRNNWNPFCTRALPLILGLPVNATAVGHYRVTAPLAELEAAGRVIARVAYESPSTVEIERLSPDTIVLQGRYSEGAAGDILRMKKYSGALRIFELDDYVVQAPKKNTHARNKPANIEQMLREGIGLCDRVVVTTPSLADALSSMHNEIRIVPNMLPPEPWAKLTSRRGASSKPRVGWGGGTSHSGDLEIIADVVRELANEVEWVFFGMCPDALRPYIHEFHGSVALSTYPFKLASLNLDLALAPLEFHIFNDCKSNLRLLEYGACGYPVICTDTKAYDGFLPCTKVRSNSTEEWIAAIRMHLADPDASYRMGDELREAVLRDYMLSGKNLQHWLWGWLPD				NA	NA	NA	NA	NA
D1-35_00530	2082			hypothetical protein	GTGACCTTTGAAGGCGGCTCCGGTAACGATATCTACAACGTTGCTACAACCGGTGTGAAGATCATCGAACAGGACAACGGCGGTTTCGACGAACTGCGCACCAGAGCCGCAACGACCACCATGGACGTGTTCGTCGAAAAAATGGTGTACACGGGCACGGGCTCTTTTACCGGTTACGGCAACGCCGGTGACAACATCATTATTGGCGGTGCAGGCAACGACGTTTTGTTTGGTGGTGACGGCGCTGATCAGTTCTTCGGCGGTGCGGGGCTTGATGTGGTCGGTTATATCGACAGTAAAGTGGCCGTGAACATCAATCTCAAAACTGGTGTCCATTCTGGTATCGCAGCAGGCGATACTTTCACCGACATTGAAGTCATTCGTGGCACAGGTGCTGCTGATACCGTGGTGGCTGATGACCGGGCCATCGGTTTTGATGGTGGGGCAGGTGTCGACACCATGGATTATTCTGCTTCTTCTGCCGCCATTGACATAGATATCCGCAACGGTGTGGGCAGGGCTGGCATCGGTGGTGACGCAGAGGGCGACACGTTATCGGCGGTGGAAAAGGTCATCGGGACGGCTTTCGATGACACTTTCACCAGCGCGATTGGTAACGTGACCTTTGAAGGCGGCTCCGGTAACGATATCTACAACGTTGCTACAACCGGTGTGAAGATCATCGAACAGGACAACGGCGGTTTCGACGAACTGCGCACCAGCGCCGCAACGACCACCATGGACATATTCGTCGAAAAAATGGTGTACACGGGCACGGGCTCTTTTACCGGTTACGGCAACGCCGGTGACAACATCATTAATGGCGGTGCAGGCAACGATGTTTTGTTTGGTGGTGACGGCGCTGATCAGTTCTTCGGCGGTGCGGGGCTTGATGTGGTCGGTTATATCGACAGTAAAGTGGCCGTGAACATCAATCTCAAGACTGGTGTCCATTCTGGTATCGCAGCAGGCGATACTTTCACCGACATTGAAGTCATTCGTGGCACAGGTGCTGCCGACACCTTCATCGGCGGCTCACAAGCGATGGGACTCGATGGAGCGCTGGGTACAGACTTGGCCAGCTATGAACAATCCACGAGCGCGGTGACCATCGACCTGACAACGAATGTGAACGCAGGTGATGCTGCGGGTGATACGTTTACCGCGATCGAGATATATCAGGGTTCTAGCTTCAATGACACGCTGTTGGGTTCTGCTAAAGCCGACATTTTTATCGGCGGTGCGGGTGCCGATGTCATTGATGGCCGCGATGGCGTGGACCAGGTTTGGTATGTCAACAGTGCCGCCGCTGTGGATATCAACCTTCATACGGGTGTTCACCAAGGAGGCGACGCCCAGGGTGATGTGCTGACTAACATCGAGCGGGTCATAGGCAGCCAGTTCAATGACTCCATGACTGGAGACGGCCAGGCTAACTGGTTGGAGGGTGGGTTGGGCGGCGACACCATTTATGGGGGCGATGGGGACGATTACATTTATGGCGGCTTGTACACGGCTACAGGTCCGATGCTTCTCGGTAGCTCTACCGACGTTACCCAGGCCGATCAGCTCTATGGTGGCCTCGGCAATGATTCGATCACCACGGCCAGCCTGGACACCGGAGCAGTGGCTTACGGCGAAGTTGGCAACGATGGTATTTTGGTGTTCAGCGGCACCGCTGATGGTGGGGTCGGTAACGATACTCTGTTGGGCAAAGGGGATGGTTTCCGCTTATTGGGCGGGGCAGGCAATGACACTTTGACTGTCGCCGAAGGTGGTCGGGGGTTCCTAAATGGAGGTCAGGATGATGATACCTACGTCATAGATACCTACGGCCAAGTCACGATCAAGGATGATGGTACAGGAGGATTTGACCGGGTTCTGCTTAAGAGCATGGAATCTATGGATACCATAACGACCGTGCGAAACGGCAATGACGCCTATATCTTCAATACCTCCAACTACCATTTAGGCCAGTCTCTGTCGGAGACGGGCGTGAAGCTGCAAGATTGGTACGCAGGTTCCAACACCATCGAGCAATTCCAAACCTCCAATGGGGATGTCTTTACGATTCCTGCATAA	MTFEGGSGNDIYNVATTGVKIIEQDNGGFDELRTRAATTTMDVFVEKMVYTGTGSFTGYGNAGDNIIIGGAGNDVLFGGDGADQFFGGAGLDVVGYIDSKVAVNINLKTGVHSGIAAGDTFTDIEVIRGTGAADTVVADDRAIGFDGGAGVDTMDYSASSAAIDIDIRNGVGRAGIGGDAEGDTLSAVEKVIGTAFDDTFTSAIGNVTFEGGSGNDIYNVATTGVKIIEQDNGGFDELRTSAATTTMDIFVEKMVYTGTGSFTGYGNAGDNIINGGAGNDVLFGGDGADQFFGGAGLDVVGYIDSKVAVNINLKTGVHSGIAAGDTFTDIEVIRGTGAADTFIGGSQAMGLDGALGTDLASYEQSTSAVTIDLTTNVNAGDAAGDTFTAIEIYQGSSFNDTLLGSAKADIFIGGAGADVIDGRDGVDQVWYVNSAAAVDINLHTGVHQGGDAQGDVLTNIERVIGSQFNDSMTGDGQANWLEGGLGGDTIYGGDGDDYIYGGLYTATGPMLLGSSTDVTQADQLYGGLGNDSITTASLDTGAVAYGEVGNDGILVFSGTADGGVGNDTLLGKGDGFRLLGGAGNDTLTVAEGGRGFLNGGQDDDTYVIDTYGQVTIKDDGTGGFDRVLLKSMESMDTITTVRNGNDAYIFNTSNYHLGQSLSETGVKLQDWYAGSNTIEQFQTSNGDVFTIPA				NA	NA	NA	NA	NA
D1-35_00531	1740	prsD_1		Type I secretion system ATP-binding protein PrsD	TTGAAAACCGACAACGCTGTCAGTGCGCCTGTTGTTGCGCCTTCATTAAAATCGCTGTTGCGCCGCGGGCTGATTGGCGCCGCGCTGTTCTCTGGGGTGATCAATATTCTGGCATTGATCGGCCCGGTGTTCATGCTGGAGGTCTACGACCGCGTCATTCCCAGCCAGAGCGTCCCGACCCTGGTCGCCCTGGGGCTGCTGGCGCTAGGGGTTTATGCGCTTTCGGGGCTGCTGGATATTATTCGTTCACGGGTCATGGTGCGCATTGCCTCCTCGCTGGACCTGGCGCTGTCATCCAAGGTCTTCAAAGTCATCGCCGGCGCATCACTGAAGACACCCATTACCGGCGACGCCTTGAAACCGGCCCAGGAGCTGGACCAGATTCGCGGTTTTATTGGCGGACCGGGCCTGGTGGCTTTTTTCGATTTGCCCTGGATGCCGGTCTATCTCGCCGTCTGCTTTTATATCCATCCGCTGTTTGGCCTTTTGACCGTCGGCCTGATGGTCATCCTTATCGGCCTGACCCTGATCACCGACCGCCAGACCCGCAAGCTGATGCAGGCTTCGGTCGATGCGTTGAACAAGCGCAACCACCTCGGTCAGCAAGCTCACCAGAACGCCGAAGCGCTGATGGCCATGGGCATGTTGGCCAACACGTCGAATATCTGGCAGAAGAGCCACGGTACCTTCATCACCCTGCAGCGACGCTCGATCGACATCGGCGGTTTTTACGGTGGTATCTCCAAGACCTTGCGCCAGATCGTGCAGTCGGCCGCCCTAGCCCTGGGGGCATGGCTGGTGATCAAAGGTGACTTGAGCGGTGGCACTATGATCGCGGCGTCGATCATCGTGGCGCGGACCCTGGCACCGGCTGAGCAAGTGATTGCCACGTGGCGCAGCCTGTTGGGTGCCCAGATTGCCTGGAAGAAGCTGGTGGAAGTGTTCGCCCTGTTCCCTGATGTCCAGAGCAAAACCGAGCTACCCGCTGCTCATCGCAGTTTGCAGGTCGAAAACGTTTTTGCGGCGCCGCCCGGCGCGCAGCGCCTGACTTTGCAAAATATCAACTTCATGGTCGCCGCGGGCACCGCCGTAGGCGTGGTAGGGCCGAGCGCATCGGGCAAGTCATCACTGGCGCGCGTGCTGGTCAACGCCTGGACGCCGGCCCGCGGGCATGTGCGGCTCGATGGTGCGCCGCTCGATCTGCTGACCGAACAGGCGCGAGGCAAGTTGATCGGCTACGTGCCTCAAAGCGTCGGTCTGTTCACTGGAACCGTCGCCCAGAACATCGCCCGGTTGGACCCTGCTGCACAGGACAGCGCAATTGTCAGCGCTGCGCAATTGGCCGGCGTGCATGAGCTGATCCTGCAATTGCCCCAGGGCTATGAAACCCAAGTGGGCGAGGGCGGGGTCAACCTCTCGGCAGGCCAACGGCAACGGGTGGCGCTGGCCAGGGCGCTGTTTGGTGATCCGTTCCTGGTGGTGTTGGACGAGCCGAATTCAAACCTCGATGCCGAAGGCGAGCAGGCGCTGGCCAAGGCCATCCTGGCGCTCAAGGCCCGGGGTGCAATCGTGATAGTGATTGCCCACCGCACCAATATCCTGTCGGTGATCGATCAGGTGCTGATCCTCGAACAGGGCGTGCAGGCCGCTTACGGCCCGAGGGATGTCGTCCTTAAGCGCCCTCCCGCAGCGCCTCCCCGGCCCTCCAGCAATGTTGTGGAACTGGGAGCGTCGAACTGA	MKTDNAVSAPVVAPSLKSLLRRGLIGAALFSGVINILALIGPVFMLEVYDRVIPSQSVPTLVALGLLALGVYALSGLLDIIRSRVMVRIASSLDLALSSKVFKVIAGASLKTPITGDALKPAQELDQIRGFIGGPGLVAFFDLPWMPVYLAVCFYIHPLFGLLTVGLMVILIGLTLITDRQTRKLMQASVDALNKRNHLGQQAHQNAEALMAMGMLANTSNIWQKSHGTFITLQRRSIDIGGFYGGISKTLRQIVQSAALALGAWLVIKGDLSGGTMIAASIIVARTLAPAEQVIATWRSLLGAQIAWKKLVEVFALFPDVQSKTELPAAHRSLQVENVFAAPPGAQRLTLQNINFMVAAGTAVGVVGPSASGKSSLARVLVNAWTPARGHVRLDGAPLDLLTEQARGKLIGYVPQSVGLFTGTVAQNIARLDPAAQDSAIVSAAQLAGVHELILQLPQGYETQVGEGGVNLSAGQRQRVALARALFGDPFLVVLDEPNSNLDAEGEQALAKAILALKARGAIVIVIAHRTNILSVIDQVLILEQGVQAAYGPRDVVLKRPPAAPPRPSSNVVELGASN	PGPT0029385_802	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-HEMOPHORE|METALLOPROTEASE_TRANSPORT,PGPT0029385-hasD|prtD|-K12536	NA	NA
D1-35_00532	1311	prsE_2		Type I secretion system membrane fusion protein PrsE	ATGCATACCGATCAAGAAGTCACTCTGACCGATTCCTTGTCCCGTCATCTGCGTTGGGGCGCTATCTCGTTGCTGGTGCTGCTCGGCGGAGGGCTGACCTGGGCGGTATTCACCAATCTGTCCGGCGCAGTCATTGCCACCGGTGTGGTAGCGGTGGAGGGCAGCGTCAAGACCGTCCAGCATCCTACCGGTGGCATCGTCGCCGAATTGCTGGTCAAGGAGGGACAGGCCGTCGCCGCCGGAGACGTGCTGTTGCGCCTCGATGCCACACTGCCCGCCGCCAGCCAGGCCATCGTCAGTAAATCATTGAACCAGGCCTGGGCTCGACTGGCTCGCCTGGAGGCCGAGCGCGACAATGCCGGCGAAGTCGCAATACCCAAAGAGTTGTTGACCCGCATGAGCCTGGAAGAGGCCAAGGCGGTCATGGCTATCGAGCAGCAATTGTTCTTCGACCGTCGAGCGTCCCGTGAAGGCCAGAAAAAACAGCTTCGCGAGCGCGTTCAGCAACTCAACGAAACCATTGCCGGCCATGACATCCAGCAGAAAACCAAGCTGGAAGAAATCGAGCTTATCGACTCGGAATATCAGGCGGTCAAGACGCTGTTCGACAAAGGCATGATGACCCTTGACCGGGTCAATGCCCTGGCTCGGGGGATTGCCCGGCTGCGCGGCGAACGCGGTCAATTGATGGCCTCCATCGCCGAGGCGCGGGGCAAGATCGCCGAAACCGAGTTGCAACGACTCCAGGTCGATCAGACTTTCCGCAGTGAAGTGTCCCAGGAACTGCGCGATCTGCTGGCCCGCCAGGGCGAACTGATCGAGCGGGAAATCACTGCCAGCGACCAACTCAAACGCATCGACATCACCGCGCCTATCGCCGGGCGCGTGCAGCAATTGGCGGTACATACCGTCGGTGGCGTCATCTCACCGGCCGAAGGGCTCATGCAGATCGTGCCGGCAGACGATGAATTGTTGGTGGAGGCGAAGATCAGTGCGCAGGACATTGATCAATTAACTGTCGGGCAATCCGCGACCTTGCGCTTGAGCGCGTTCAACCGCAGCACCACCCCAGAACTGACCGGCACTGTGGTGCGGCTGTCGGCGGATCTGATCGAGGATCAGCGTACCGGAGTGGGGTTTTATCGGGCAGGCATTCGTATCCCCAAAGAACAGGTCGAGCGGATATCCGGCCTTACACTGGTGCCGGGCATGCCGGTCGAGTCGCTTATAAAAACGGGCGACAGAACGGTGTTGTCTTATTTACTCAAGCCTATTGGAGATCATGCCCAGCGGGCATTCAGGGAAGGCTAG	MHTDQEVTLTDSLSRHLRWGAISLLVLLGGGLTWAVFTNLSGAVIATGVVAVEGSVKTVQHPTGGIVAELLVKEGQAVAAGDVLLRLDATLPAASQAIVSKSLNQAWARLARLEAERDNAGEVAIPKELLTRMSLEEAKAVMAIEQQLFFDRRASREGQKKQLRERVQQLNETIAGHDIQQKTKLEEIELIDSEYQAVKTLFDKGMMTLDRVNALARGIARLRGERGQLMASIAEARGKIAETELQRLQVDQTFRSEVSQELRDLLARQGELIEREITASDQLKRIDITAPIAGRVQQLAVHTVGGVISPAEGLMQIVPADDELLVEAKISAQDIDQLTVGQSATLRLSAFNRSTTPELTGTVVRLSADLIEDQRTGVGFYRAGIRIPKEQVERISGLTLVPGMPVESLIKTGDRTVLSYLLKPIGDHAQRAFREG	PGPT0029390_941	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-HEMOPHORE|METALLOPROTEASE_TRANSPORT,PGPT0029390-hasE|prtE-K12537	NA	NA
D1-35_00533	774	rfbF	COG1208	Glucose-1-phosphate cytidylyltransferase	ATGAAGGCAGTTATCTTGGCAGGTGGTCTCGGCACGCGGATCAGCGAGGAGTCGCACCTCAAGCCCAAGCCGATGATCGAAATCGGTGGCAAGCCAATTCTTTGGCACATCATGAAGCAGTATTCCGCCCATGGAATTCATGACTTCGTTATTTGCCTAGGCTACAAGGGCTATGCCATCAAGGATTTCTTCGCCAATTACTTCCTGCACACCTCCGATGTTACTTTCGATATGTGCAACAACCGCATGGACGTTCACCAGAACTACAGCGAGCCGTGGCGCGTGACCCTGATCGATACGGGCGAAGAGACCATGACCGGCGGACGGCTGCGTCGGGCGGCCCGTTACCTGGAAAATGAAGAGGCGTTCTGCTTCACCTATGGCGATGGTGTTTCGGACCTCAATATCGGTGCGCTGGTGGATTTTCACCTGGCGCACGGCAAGCTCGCCACGGTCACCGCAGTCCAGCCGCCGGGACGCTACGGCGCGCTAGAGCGCGATGGCGATACGGTCCTGGGTTTTACTGAAAAACCTCGGGGTGACGGTGGCTGGATCAACGGTGGTTTCTTTGTACTCTCGCCGCAGGTCCTGCCTTATATCGCTGACGACCAGACTTCCTGGGAAGCCGAGCCGCTGGCGGCATTGGCGACCGAGCAGCAGCTTCAGGCGTTTCAGCACGACGGTTTCTGGCATCCAATGGACACCCTGCGGGATAAAAACCACCTCGAAGCCCTGTGGCAAAGCGGGGAGGCCCCATGGAAGCAATGGGACTGA	MKAVILAGGLGTRISEESHLKPKPMIEIGGKPILWHIMKQYSAHGIHDFVICLGYKGYAIKDFFANYFLHTSDVTFDMCNNRMDVHQNYSEPWRVTLIDTGEETMTGGRLRRAARYLENEEAFCFTYGDGVSDLNIGALVDFHLAHGKLATVTAVQPPGRYGALERDGDTVLGFTEKPRGDGGWINGGFFVLSPQVLPYIADDQTSWEAEPLAALATEQQLQAFQHDGFWHPMDTLRDKNHLEALWQSGEAPWKQWD	PGPT0022605_548	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PARATOSE|TRYLOSE|ABEQUOSE|ASCARYLOSE_MODIFICATION,PGPT0022605-rfbF-K00978	NA	NA
D1-35_00534	1083	rfbG	COG0451	CDP-glucose 4,6-dehydratase	ATGGAAGCAATGGGACTGAGCGCGGAATTCTGGCGCGGTAAGCGGGTGCTGGTTACCGGTCATACCGGTTTCAAGGGCAGTTGGCTGACGCTGTGGCTGCAAAGCCTGGGGGCCAAGGTCAGTGGTTTTTCCCTTGACCCGGCCACCCAGCCGAACCTGTACGAACTGGCCCGCGTGGGCGAGGGCATCGATGACCGACGCGGCGACTTGCGCGACCTCGGTGCCTTGCTGGAAATCCTGGCGGACGCGCAGCCGGAAATAGTCCTGCATCTGGCAGCCCAGCCGTTAGTGCGCGAAGGTTATCGAGACCCGTTGGGCACGTATTCCAGCAACGTCATGGGCACTCTCAACCTGCTGGAAGCGGTTCGCCAGGTGGGCGGCGTCAAGGCGTGCGTACTGGTTACTACCGACAAGGTCTACGCCAACCAGGAATGGTTATGGCCCTACCGCGAAAACGAGGCCCTGGGCGGTCACGATCCCTATAGCAGCAGCAAGGCCTGCTGCGAGTTGCTGGCACAATCTTACGCTGCCTCGTTCTTTTCGGTTGAGCGCTATGCCGAGCATGGTCTGGCCCTGGCCACTGCGCGGGCAGGCAACGTGCTGGGCGGCGGTGATTTCGCTCCCGAGCGCCTGATTCCTGATGTGCTTAAGGCCTGGTCGGCAGACGAGCCGGTGACGCTGCGTTATCCACAAGCCGTGCGTCCATGGCAGCACGCCCTCGAACCGTTGGCCGGTTACTTGCAGTTGGCTGAGTGCCTGTATCAGCAGGGACCAGAGTTCGCCGGGGCCTGGAACTTCGGCCCGGGTGAGGCTGACATGTGCAGCGTTGGCGAAGTAGTCCAGTTGCTGGCCGAGCGCTGGCCGCAAGCGCCGGGCTTGCGCATCGAGCCGAGCGACTTGCATGAGGCCGGCCTGTTGCGCCTGGACAGCAGCCGCGCCCGGCAACTGCTGGGCTGGCAGCCGCGCTGGTCGCTGCAACAGTGTCTGGGCCAGACCCTGGATTGGCACTTGGCATGGCAGAACGGTGACGACATGCGTCAAGTCACCCTCGGCCAACTGAACCTGTACCGAGGCGGGTTGTGA	MEAMGLSAEFWRGKRVLVTGHTGFKGSWLTLWLQSLGAKVSGFSLDPATQPNLYELARVGEGIDDRRGDLRDLGALLEILADAQPEIVLHLAAQPLVREGYRDPLGTYSSNVMGTLNLLEAVRQVGGVKACVLVTTDKVYANQEWLWPYRENEALGGHDPYSSSKACCELLAQSYAASFFSVERYAEHGLALATARAGNVLGGGDFAPERLIPDVLKAWSADEPVTLRYPQAVRPWQHALEPLAGYLQLAECLYQQGPEFAGAWNFGPGEADMCSVGEVVQLLAERWPQAPGLRIEPSDLHEAGLLRLDSSRARQLLGWQPRWSLQQCLGQTLDWHLAWQNGDDMRQVTLGQLNLYRGGL	PGPT0019060_318	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PARATOSE|TRYLOSE|ABEQUOSE|ASCARYLOSE_MODIFICATION,PGPT0019060-yfnG|rfbG-K01709	NA	NA
D1-35_00535	561	rfbC_1	COG1898	dTDP-4-dehydrorhamnose 3,5-epimerase	GTGAGCGAATTTTATTTGAAGACATTGCCGCTGGACGGTCTGTTCAGCGTCCAGCACAAACGCTTCGAAGACCAGCGCGGACATTTCGCCCGGCTGTTCTGTGAAGGTAGCTTGAGTGCCTTCGGCCAGCCGTTCCATATCCGCCAGATCAATCATTCCTGCACCCGTGAGCGGGGTAGTGTGCGCGGTTTGCATTATCAGAACGCAGCGCAGCCGGAAGCCAAACTGATCACCTGTCTGCGTGGCGAAGTCTGGGATGTGGCCGTGGATTTGCGACCCGAGTCCGAGACCTTCCTGCGATGGCATGCCGAGCACCTGAAGGCTGGTGATGGCCGCAGTCTGTTGATCCCGGCCGGGTTTGCCCATGGGTTCCAGACCCTGACCGACGACGCTGAGCTGCTTTACTTGCACAGTGCCGACTACGCTCCGGAGCATGAGGGTGGCCTGTCTGTGAATGACCCGCGGCTGGCGATTGCCTGGCCGCTGTCTGTCAATAATCTGTCGAGCCGGGATAGCAACCATCCTTTACTCGACGAACGTTTTGCTGGAGTGCGTCTATGA	MSEFYLKTLPLDGLFSVQHKRFEDQRGHFARLFCEGSLSAFGQPFHIRQINHSCTRERGSVRGLHYQNAAQPEAKLITCLRGEVWDVAVDLRPESETFLRWHAEHLKAGDGRSLLIPAGFAHGFQTLTDDAELLYLHSADYAPEHEGGLSVNDPRLAIAWPLSVNNLSSRDSNHPLLDERFAGVRL	PGPT0014300_1481	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PUTATIVE_TRYLOSE_DERIVATES_MODIFICATION,PGPT0014300-rfbC|rmlC-K01790	NA	NA
D1-35_00536	1227			hypothetical protein	ATGAACTGCCGAGGTTGCGGGACTGCCCTGGCTTTGCCACTGATCGACCTCGGTACTTCGCCGCCGTCGAACGCATATGTGCGGGCCGAACAATTGGATCAGGCCGAGCAGTGGGTGCCGCTTAAAGTTGCAGTGTGCCAGCAATGCTGGCTGGTGCAGACCGAGGATTACACCAGCGCGGATGCGCTGTTCGACGCCGAGTACGCCTATTTCAGTTCTTTTTCCAGCACCTGGCTGGCCCACGCCGAGCGTTATGTTGCCGAGATGGTCGAGCGCTTCGACCTGAGCGCTGACAGTCGCGTGGTGGAAATTGCCGCCAACGACGGCTACCTGTTGCAGTTCGTGGCCAAGCGCGGTATCCCGTGCCTGGGGGTCGAGCCGACGCGCAGCACCGCCGAGGCCGCCCGTGCCAAAGGTCTGGAGATCCGCGAGTTGTTCTTTGGTCGCGAAACGGCCGCGCAGCTGGAGGGCGAAGGCTGGGCAGCGGATTTGATGGCGGCCAACAACGTATTGGCCCACGTGCCGGACATCAATGATTTCCTCGCCGGGTTTGCCACCCTGCTCAAGCCGACCGGTGTCGCCACGTTCGAGTTTCCGCAACTGCTCACATTAATGGCCGGGCAGCAGTTCGACACGCTCTATCACGAACATTTTTCTTACTTGTCGCTGACGTCCGTGCAAACCCTGTGCGAGCGCAATGGGCTTGAAGTCTTCGATGTCAGCCAGCTGTCGACCCATGGCGGTTCGTTGCGAGTCTTCGTCCAGCGTGTCGACGGCATTCGACGCCCGGTCCAGTCCTCGGTGCAACAACAGTTACAGGCCGAACTGGATGCCGGCGTGAAAACCGCCGCGTACTACGCCACCCTGGCGCCGGCTGCCGAAGCGATCAAGCATGGCCTGTTGCGCTTTTTGTTGCAGGCCAAGGCCGATGGTAAGCACGTGGTCGGTTACGGCGCGGCCGCCAAGGGCAACACCTTGCTCAACTACGCCGGGGTCAAGCCTGATCTGCTGGCGTGGGTGGCGGATGCCAATCCGCACAAGCAGGGTAAATATTTGCCGGGCAGTCGGATTCCTGTCGTGTCGCCTGAGCGTATCGCAATAGAGAAACCCGACTACGTTGTCGTCCTGCCCTGGAACTTGCTGAGCGAAGTCAGCCAGCAGCTGGTTGAGGTTCGTCAATGGGGCGGGCAATTCGTCATCGCGGTGCCTGAGCTGACGCTGCTATGA	MNCRGCGTALALPLIDLGTSPPSNAYVRAEQLDQAEQWVPLKVAVCQQCWLVQTEDYTSADALFDAEYAYFSSFSSTWLAHAERYVAEMVERFDLSADSRVVEIAANDGYLLQFVAKRGIPCLGVEPTRSTAEAARAKGLEIRELFFGRETAAQLEGEGWAADLMAANNVLAHVPDINDFLAGFATLLKPTGVATFEFPQLLTLMAGQQFDTLYHEHFSYLSLTSVQTLCERNGLEVFDVSQLSTHGGSLRVFVQRVDGIRRPVQSSVQQQLQAELDAGVKTAAYYATLAPAAEAIKHGLLRFLLQAKADGKHVVGYGAAAKGNTLLNYAGVKPDLLAWVADANPHKQGKYLPGSRIPVVSPERIAIEKPDYVVVLPWNLLSEVSQQLVEVRQWGGQFVIAVPELTLL				NA	NA	NA	NA	NA
D1-35_00537	858	tll		dTDP-6-deoxy-L-talose 4-dehydrogenase (NAD(+))	ATGAAGGTGTTAGTGACTGGCGCCACCGGGTTTGTCGGCCGTCATCTGGTCGCGGCCCTGCTCGCTCGCGGTTGTCAGGTCAGGGCCGTTGCGCGCCGGGAGGAGCCTGCCAAGGCATTGCCCTGGTTCGACCGGGTTGAATTCGTCGCGGCCGATGTCCATGCCGAAGAACTGGACGTTGCTGCATTGGTCGAGGATGTCGATGCCTTGGCGCATCTGGCGTGGCCGGGATTGCCGAATTACCAGGCACTGTTTCATTTCGAACATAACCTGATGGCCGATTATCAGTTCATCAAAAAGGCGGTCATGGCGGGAGTGGGCCAGGTGCTGGTCACGGGGACCTGTTTCGAATATGGCCTGCAGAGCGGACCGCTCGATGAGCAGACTGCGCCGCAACCGGCCAACCCTTACGGCTTGGCAAAAAACACCTTGCGCCTGTTCCTTGAACACCTGCAACGCGAGCACCCGTTCACCTTGCAGTGGGCACGTTTGTTCTATCTGCACGGCGCTGGTCAGAACCCCACCAGCCTGCTCGCGGCGCTGGACCGGGCCATTGATGCCCAGGCGCCGGTATTCGATATGTCGGGTGGCGAGCAGTTGCGCGATTACCTGGCAATCGAAACAGCGAGTGCTTATCTGGCGGGGCTGCTGTCGCGGCGCGAATTCAATGGTGTCGTCAATTGCTCAAGTGGCGAGCCGGTGTCGGTTCGTGCGCTGGTAGAAGCAAGGTTACGTGAGCGTGGCGCGGCCATTCGCCTGAACCTCGGTCATTATCCGTATCCGACTCACGAACCCATGGCGTTCTGGGGCGTGGCCGAACGTTTGCATACTTTGTTGGGAGCCGAACATGACGCGTGA	MKVLVTGATGFVGRHLVAALLARGCQVRAVARREEPAKALPWFDRVEFVAADVHAEELDVAALVEDVDALAHLAWPGLPNYQALFHFEHNLMADYQFIKKAVMAGVGQVLVTGTCFEYGLQSGPLDEQTAPQPANPYGLAKNTLRLFLEHLQREHPFTLQWARLFYLHGAGQNPTSLLAALDRAIDAQAPVFDMSGGEQLRDYLAIETASAYLAGLLSRREFNGVVNCSSGEPVSVRALVEARLRERGAAIRLNLGHYPYPTHEPMAFWGVAERLHTLLGAEHDA				NA	NA	NA	NA	NA
D1-35_00538	1071			hypothetical protein	ATGACGCGTGAGCTATACCGGGCCACCGGCCTTCCGGTTCTGCAGAACCGTACCTTCGCCAACGAGCAGTCGGCCAGAGCCTCGGCGAGCGCCGACATGGTGTTGGTCCAGGACGACGTGAGCGGGTTGGTTTTCAATCAGGCGTTCGATGCTGACAAGCTCAGCTATGACAGCGATTACCAGAATGAACAGGCCTATTCCGGTCAGTTCCAGAAGCATCTTGCTGACGTGGAAGGCATCATCGCCCGGCATTTCAGCGGCCAGGAATTGATCGAGGTCGGTTGCGGCAAAGGCTATTTTCTGGAACTGCTCAAGGAGCGTGGCTACACGATCACGGGTATCGATCCCGCCTATGAGGGCGACAGCGCAGGCGTGATCAAGGCGCCGTTCACTCGCGAACTGGGCCTGTCCGCCGATGCGGTGGTGTTGCGTCATGTGCTGGAGCATATCCAGGACCCGGTGGCTTTTCTTGCTGAGATCGCGGCGGCCAACCAGGGCGGACAGATTTACATCGAGGTGCCGTGCCTGGACTGGATCCTCGAACATCGTGCCTGGTTCGACCTGTTCTACGAACATGTCAACTATTTCCGCCTCGCTGACCTGCACCGGATGTTTGGCACGGTACATGAGGCCGGGCACCTGTTCGGCGGTCAGTACCTGTATATCGTTGCTGATCTGGCCACGTTGCGCCTGAAGCCGGATCAGCCCGTTCCAGCCTTGCAATTGCCCAACGGATTCACCGCCAGTCTCGGTCACGCCGTGCAGATTGTTCAGGCTGCGCCGCGGCAAGGCTCGGCGATCTGGGGGGCGTCGTCCAAGGGCGTGATCTACTCGCTATTCCTGCAACGAGCCGGTGTTGCAGTGGACTGCGTGGTGGATATCAACCCGGCCAAGCAGGGGCGATACCTGCCGTTGAGTGGGGTGCGGGTTTCCTCCCCCGAGGAGGCGATGGCTGCTCTACCTGAAGGGGCGCATGTATTTGTCATGAATTCTAATTACCTCGAAGAGATCAAGCGGATGACCGGTGGGCGCTACGTCTACCACGCCGTTGACAGCGCTTCGTTTCAATAA	MTRELYRATGLPVLQNRTFANEQSARASASADMVLVQDDVSGLVFNQAFDADKLSYDSDYQNEQAYSGQFQKHLADVEGIIARHFSGQELIEVGCGKGYFLELLKERGYTITGIDPAYEGDSAGVIKAPFTRELGLSADAVVLRHVLEHIQDPVAFLAEIAAANQGGQIYIEVPCLDWILEHRAWFDLFYEHVNYFRLADLHRMFGTVHEAGHLFGGQYLYIVADLATLRLKPDQPVPALQLPNGFTASLGHAVQIVQAAPRQGSAIWGASSKGVIYSLFLQRAGVAVDCVVDINPAKQGRYLPLSGVRVSSPEEAMAALPEGAHVFVMNSNYLEEIKRMTGGRYVYHAVDSASFQ				NA	NA	NA	NA	NA
D1-35_00539	738		COG3510	Rhamnosyl O-methyltransferase	ATGACCGACAACACTATCCATAAAGCATTCGAAGCCCAATGCCAGACCGAAATCGCCGGTCAAGGCCAAGATCAGAAACTCGTCGGCCTGGCCAAGGCGTTTTTCAACGAATCGGCCCGCCACAAGTACAGCTACCATTTTTCATGGATGGGGCGGCCGATCATCCAACTGCCACAGGACATGATGGCCATGCAGGAACTGATCTGGCAGATCAAGCCTGACCTGATCATTGAATGCGGTATCGCCCACGGCGGTTCGATCATCTATTACGCTTCGTTGCTGGAGTTGCAAGGCCACGGCGAAGTGCTGGGTATCGACCTGGATATTCGCCCGCACAATCGCGAAGCCATCGAGAGCCATCCGATGAGCAAACGCATCTCGATGATCGAAGGTTCGAGTATCGATCCGGCCATCGCCGAGCAGGTGCGTGCAGCGGCCAAAGGCAAGAAAGTCATTCTGGTACTCGATTCCAACCACACCCATGACCATGTACTTGAAGAGCTGCGTCTGTATGCGCCGTTGGTTTCGGTGGGCAGCTACTGCGTGGTGATGGACACGGTGGTGGAAGACATGCCGGCGGACTTCTTCCCGGATCGCCCATGGGGGCCGGGCGACAACCCTAAAACCGCGGTGTGGAAATACCTCGAAGAAAACGACAGCTTCGAAATCGACCAGCAACTGCAGAACAAACTCCTGATCACCGTTGCCCCGGATGGTTATCTGCGTCGGGTTCGTTAA	MTDNTIHKAFEAQCQTEIAGQGQDQKLVGLAKAFFNESARHKYSYHFSWMGRPIIQLPQDMMAMQELIWQIKPDLIIECGIAHGGSIIYYASLLELQGHGEVLGIDLDIRPHNREAIESHPMSKRISMIEGSSIDPAIAEQVRAAAKGKKVILVLDSNHTHDHVLEELRLYAPLVSVGSYCVVMDTVVEDMPADFFPDRPWGPGDNPKTAVWKYLEENDSFEIDQQLQNKLLITVAPDGYLRRVR				NA	NA	NA	NA	NA
D1-35_00540	2919			hypothetical protein	ATGCTTCAAAACAACGTGGCACCGCTGAACGAGCGGTTCACCGTGGTGGTCATTTCCCACAACCGCAGCGCATTCCTGCGCCGCACATTGCATTACTACAGCAGCTATCCGTGCTCGGTGCTGGTGCTGGATTCCTCGGTGGAGCGGGATGATCAGATCGCCCGGGATTTTCCATCGGTCGATTACCGCCACTTGCCTCAATTCACCTACAAAGGGCTTCAGGAAAAATTGACCTATGGTGTCAACCAGGTCAAAACGCCTTATATGGTGTTCGCCGCCGATGACGATTTCCTGCTGCATGATGCCTTGACCGAGTCGGTGGAGTTTCTCGAAGCCAACCCCGACTACGGCCTTTGCCACGGCTACGGCATCATGTATTTGTCCTGCGCGACAGAAGTCTGCTACTTCCGCCGAGACCGCAAGGTGCACGAGGACTACGACAGCGAACTGGCCGAGGACCGGGTGATCCGCTTCATGGATCAGTTCCTGCCGCCGTTCTACGCCGTTACCCGCACTGACCTGCTGCAACAGTGGTACGGCATGCTGCCGCCAGGCACCAGTTTCGAGTGGCAGGAAATCGGCCATAGCTTTTACCTATTGGCTTGTGCCAAGGCACGGATCCTGCCGATTCCGTTCGCCGTGCGCGAACTCAACTACGGCGGCTCCGAACACAACACCAACGTGCTGACGGTGCTGAGTTACAAAGACGCCAAAAGCGTCGCCGAGCGTGAGCAGTTCGCCGAGTTCCTGGCGTCTCTCCCTACGCCTCTGCGCGAGCAGGCGCCGGGGCGCGTCAAGCAGATTGCCCTGGACAGCTTCGCGGCCATGGCTGACTGCCTGCTGCAGGGGCGCTCACTCAAAGGCACGCAGATCATCCGCTCGACATGGCTGGAGGCGGGGGGCGAGCCGGTCCGTTCGTTTGGCCCACAGCAATTTGTCGAAATGCCGTTCTACAATCAGCGGGTCTTCGACCTGCTCACTCAATTTGAGTTCCTGCTGCATGCAATGCCGGCCGGTCGCCTTCAGCTTCAGCAGTTGGAAGGCATCCTGCTGCGTCAGCATGAACTGATGCGGCTGCAACCTAACGACAACGAGCGCACGATACGCAGCCGGTTATGGGAGGCCCAGAGCCTTTACGCATTCAACCGCACAGTGGTCAAGCGCCTGGCCGAGTCGTTGAAAAACAGCGACGAACCAGACGAAGCGGTGAAATTGCAGGCCTGGGCCGAGCGGCTGGATTCGGTGCCGGGCCAGCAGGATCGCCGGTTGCTGGATAACATGCACTCCGGCCGTCTGTTGAGCTGGCTTGAAGCACGCAGCCCCAACGCCCAACAGCTCACATCCATTGCAGCCCATCTGGTCGAGCATCAGGGCGGACCGCGCTTTGGCATTCTGCTGCTGGACCTGGACGCTGACATGTTCAAGCTACAGGCCACCTTCGACAGTCTGGTCAATGGCCACTGCAAGGCGTTCAACGTGGTGGTCTTCACCACCGGCGACCTGCCGGCGACCACCACCGTGCGCGACACCGTGCACTTCGTCAAAGTCAGCACCTCCAATTATGTTGAGCGCGTCAATCAGATCATCGGGCAATCGACTGCTGACTGGATGGTGCTTGCCGAGACCGGTGACCAGTTCACCCCGAGTGGCCTGTTGCGCGCGAGCCTCGAGCTGATCGATGCCGACGGCGTTCGCGCGGTGGCCATGGATGAAATCCAGCGTAAGGCTGATGGCAGCCTCATCGATGTGTTCCGCCCTGGCGTCAATCTCGATTTCCTGCAATCGGTGCCTTCGCTGATGGCGCGGCATTGGCTGATTAATCGCCAAGTGCTGGCCCAGGCCCGAGGATTCACGCCCGAATACACCCAGGCCCTGGAGCAGGATCTGCTGTTGCGCCTGATTGAAGACGCAGGGCTGGCCGGCCTGGCGCACCTGGCCGAGCCGTTGCTGATCTGCGACGCCCCGCCGGAAGAGGAAAAGCCCCAGGAGCGTCAGGTACTGACGCGCCACCTGGCCGCCCGCGGCTATCGCGCCCAGGTCATCTCGGCGCTACCGCTGACATACCAGATCGATTACCAGCATGCCGAGCGGCCACTGGTGTCGATCATTCTCGAAAGTCGAGACAATTTCGAGCAGGTACAGCAGGCGCTGGTCAGCGTGCTGCAACGCACCCGCTACCATCGGCACGAAATATTGGTTGCCGATAACCACAGCCGATCCGAGGAACTGGCTCAGTGGCTCGATAGCCTGGAAGGCAAGGGCGAGCGGATCCGCGTTCTGCGCAGCGACAGTCGCCTCAGTGCGTCGGCTCTGTACAACTGGGCGAGCTCGCAAGCCAAGGGCGAGTATCTGGTGCTATTGTCGGCCGAAGTGCAGGTGATCAATGCCAACTGGCTCGACAGCCTGCTCAATCAGGCCCAGCGGCCCGAGGTGGGGATTGTCGGCAGTAAGCAAATGGATAACCGTGGTATCACTACCCAGGCAGGGCTGGTACTGAAGCCCGATGGGAGGGTGGCCTCGGTGTTCGTTGGCGAACGCAAGGACGCCAAGGGCTATCTTAACGGCCATCAGGCGGAACAGAACTACTCGGCGGTGTCCGGCGCGTGCCTGATGATCCGCAAAGACTTGTTCGAAGCCGTTGGCGGCCTGGACGAGGAACATTTCGGTGAAGCGTTTGCCGACGTCGACCTGTGCCTGAAAGCGGCGGATGCGGGTTATCTCACCGTCTGGACTCCCCAGGCCCAAATGCTGCACTCCGGTACGTTCCCTGATGCACCGGAGGCGACCAAGGTCTTGCGCAACAAGTGGGAGGCGCGCTTCAGCCATGACGCGGTGCGTAACCCAAACCTGGCCTTGACCGGAACCGGCTTTGCGCTGGGCACCGCTGCGGCAGTGGATTGGGCAAGGTTGCTCGCATAG	MLQNNVAPLNERFTVVVISHNRSAFLRRTLHYYSSYPCSVLVLDSSVERDDQIARDFPSVDYRHLPQFTYKGLQEKLTYGVNQVKTPYMVFAADDDFLLHDALTESVEFLEANPDYGLCHGYGIMYLSCATEVCYFRRDRKVHEDYDSELAEDRVIRFMDQFLPPFYAVTRTDLLQQWYGMLPPGTSFEWQEIGHSFYLLACAKARILPIPFAVRELNYGGSEHNTNVLTVLSYKDAKSVAEREQFAEFLASLPTPLREQAPGRVKQIALDSFAAMADCLLQGRSLKGTQIIRSTWLEAGGEPVRSFGPQQFVEMPFYNQRVFDLLTQFEFLLHAMPAGRLQLQQLEGILLRQHELMRLQPNDNERTIRSRLWEAQSLYAFNRTVVKRLAESLKNSDEPDEAVKLQAWAERLDSVPGQQDRRLLDNMHSGRLLSWLEARSPNAQQLTSIAAHLVEHQGGPRFGILLLDLDADMFKLQATFDSLVNGHCKAFNVVVFTTGDLPATTTVRDTVHFVKVSTSNYVERVNQIIGQSTADWMVLAETGDQFTPSGLLRASLELIDADGVRAVAMDEIQRKADGSLIDVFRPGVNLDFLQSVPSLMARHWLINRQVLAQARGFTPEYTQALEQDLLLRLIEDAGLAGLAHLAEPLLICDAPPEEEKPQERQVLTRHLAARGYRAQVISALPLTYQIDYQHAERPLVSIILESRDNFEQVQQALVSVLQRTRYHRHEILVADNHSRSEELAQWLDSLEGKGERIRVLRSDSRLSASALYNWASSQAKGEYLVLLSAEVQVINANWLDSLLNQAQRPEVGIVGSKQMDNRGITTQAGLVLKPDGRVASVFVGERKDAKGYLNGHQAEQNYSAVSGACLMIRKDLFEAVGGLDEEHFGEAFADVDLCLKAADAGYLTVWTPQAQMLHSGTFPDAPEATKVLRNKWEARFSHDAVRNPNLALTGTGFALGTAAAVDWARLLA				NA	NA	NA	NA	NA
D1-35_00541	1002	pseB	COG1086	UDP-N-acetylglucosamine 4,6-dehydratase (inverting)	ATGTTCAACGGTAAATCGATCTTCATCTCAGGCGGCACCGGCTCGTTCGGGCGTAATTTCATCCGCCGGTTGCTGGAGCAGTACCAGCCCAAGCGCGTGGTGGTGTTTTCCCGCGATGAGCTCAAGCAGTACGAGATGCAACAAACCTTCAATGCTCCCTGCATGCGTTATTTCCTGGGAGACGTGCGTGACGCCGATCGTCTGCGCCAGGCCATGCGCGGGATTGATTATGTGGTGCATGCAGCAGCGCTCAAACAAGTGCCCGCGGCTGAATACAATCCCACCGAATGCATTCGCACCAACGTCAATGGCGCAGAAAATATCATCGCAGCGGCGATCGAGAACGGTGTGAAAAAAGTCGTTGCACTGTCCACTGACAAAGCGGCCAGCCCAATCAACCTGTATGGCGCGACCAAGTTGCTGTCGGACAAATTGTTCGTGGCGGCCAACAATATCGCGGGTGAACAGCAGACCCGGTTCGCCGTCGTGCGCTATGGCAATGTTGCCGGCTCCCGGGGTTCGGTGGTGCCGTTCTTCAGCAAGCTCATCGCCGAGGGCGCGACGGAGCTGCCAATTACCGATGAACGTATGACTCGCTTCTGGATCACCCTCGATCACGGTGTGCAATTCGTGCTGGACAGCTTCGCCCGCATGCACGGCGGCGAAGTGTTCGTGCCGAAGATTCCATCGATTCGCATCATCGATTTGGCGTCGGGCATGGCTGGACATTTGCCGCGCAAGAACGTGGGCATACGCCCCGGTGAAAAACTACATGAGTTGATGGTGCCGCTGGATGATGCACGCATGACGATCGAGTTCACAGACCATTACACAATCCAGCCGTCGATTCGCTTCACCAACGTGGATGTGGATTTCGCTATGGACAACCTGGGCGAACGAGGCACTCCCGTCGCGGAGGACTTCGAGTATCGTTCTGACACCAATCCTCACTTTTTATCGGTGGAACAGATCGCCGATCTGCACGCCCGGCTATCGGTATGA	MFNGKSIFISGGTGSFGRNFIRRLLEQYQPKRVVVFSRDELKQYEMQQTFNAPCMRYFLGDVRDADRLRQAMRGIDYVVHAAALKQVPAAEYNPTECIRTNVNGAENIIAAAIENGVKKVVALSTDKAASPINLYGATKLLSDKLFVAANNIAGEQQTRFAVVRYGNVAGSRGSVVPFFSKLIAEGATELPITDERMTRFWITLDHGVQFVLDSFARMHGGEVFVPKIPSIRIIDLASGMAGHLPRKNVGIRPGEKLHELMVPLDDARMTIEFTDHYTIQPSIRFTNVDVDFAMDNLGERGTPVAEDFEYRSDTNPHFLSVEQIADLHARLSV	PGPT0018935_803	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
D1-35_00542	1161	arnB_1		UDP-4-amino-4-deoxy-L-arabinose--oxoglutarate aminotransferase	ATGATTCCCTACGGTCGGCAAAGCCTCGATCAGGCTGACATCGATGCCGTCGTCGCCGTGTTGCAGTCCGATTGGCTGACGCAAGGGCCGGCGATTGAATGTTTTGAACAGGCCATGGCCCGTCGCTGCCGGGCCGGTTATGCCGTGGCGGTGTGCAACGCGACCGCCGCGCTGCACATCGCTTGCCTGGCTGCGGGGCTTGGGCCTGGGGATCGCTTGTGGACCACGCCAAACACTTTTCTGGCCTCAGCCAATTGCGGCCGTTATTGCGGCGCGCAGGTGGATTTCGTCGATATCGATCCGCTGACCTGGAATCTCGATGCCGTTGCCTTGGCCATAAAACTCGACAGGGCCGAGTGTGACGGGACCCTGCCAAAGGTCTTGGTGGCGGTAGCCTTCTCCGGGCAAAGCTGTGACATGCGTGAGATCTCTCGCCTGTCCGAGCGATACGGCTTCACGGTCATTGAGGACGCCTCTCATGCCGTGGGCGCGTCTTATGCCGACAGGCCAGTGGGGTGTGGCGAATTCGCGGACATGACGGTGTTCAGTTTCCATCCGGTGAAAATCATTACCAGCGCTGAAGGCGGGATGGTCCTGACCAATCGCCCGGAGCTGGCGCAGCGCCTGCAACGTCTGCGCAGCCATGGGATGACCCGTGACGCCGCGCAGATGAGCGAGCCCAGCCATGGGCCCTGGTACTATCAGCAGGTGGAGCTGGGTTTCAATTACCGTATCACGGATCTTCAAGCTGCCCTGGGGCTTTCCCAGTTGGACAAGCTCGATGGGTTTGTCGCCCGGCGTCGTGGTTTGGCGGCGCGCTATAATCAGTTGCTGGGTGGTTCGCCGCTGACCTTGCCCGGCGTGCAAGCCGACGCCGAATCGGCCTGGCATTTGTATGTGGTGCGCTTGCGACTTGATGAGATTTCCCTCAGTCATCGTCAGGTTTTCGAAGGCTTGCGCGCGGCCAAGATCGGCGTGAACCTGCATTACATACCGGTCCATTTGCAACCGTATTACCGCGATCTGGGATTTGCCCAAGGTGATTATCCACAGGCTGAACGTTATTACGCCGAGGCCATCAGCCTACCGATGTTTCCTTCCCTCAGCGACGAACAGCAGGACTATGTGGTTGGGCAACTGAAACGATTGCTTGAGGAGTAA	MIPYGRQSLDQADIDAVVAVLQSDWLTQGPAIECFEQAMARRCRAGYAVAVCNATAALHIACLAAGLGPGDRLWTTPNTFLASANCGRYCGAQVDFVDIDPLTWNLDAVALAIKLDRAECDGTLPKVLVAVAFSGQSCDMREISRLSERYGFTVIEDASHAVGASYADRPVGCGEFADMTVFSFHPVKIITSAEGGMVLTNRPELAQRLQRLRSHGMTRDAAQMSEPSHGPWYYQQVELGFNYRITDLQAALGLSQLDKLDGFVARRRGLAARYNQLLGGSPLTLPGVQADAESAWHLYVVRLRLDEISLSHRQVFEGLRAAKIGVNLHYIPVHLQPYYRDLGFAQGDYPQAERYYAEAISLPMFPSLSDEQQDYVVGQLKRLLEE	PGPT0022785_638	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
D1-35_00543	702	neuA	COG1083	N-acylneuraminate cytidylyltransferase	GTGAGCGCAATCGCGATCATTCCTGCCCGTGGCGGCAGCAAGCGCATTCCCCGCAAGAACCTCAAGCCATTCGATGGCGTGCCGATGGTTGTCCGCTCGATTCGCACGGCGCTGGAGTCGACGTTGTTCGACGCGGTGTTCATCAGCACCGATGACGAAGAAATCGCCGAAGTGGCGAAGGCTCACGGTGCGCAGGTGCCATTCCTGCGACCGGCAGCGTTAGCGGATGATTTCACCGGAACGGCGACGGTGATTGTCCATGCCCTGAATGAATTGCGTGCGCGTTCGTTCGACTTTGTCTGTTGCATTTATGCCACCGCCCCCTTGTTGCAACCGCGGTTTCTACGTGAAGGTTTTGACTTACTGCGCGAGCATCCCGAGAAGTCGTTCGCGTTTTCCGTGACCGGTTTTGGCTTTCCGGTGCAACGTGCATTGACACTGGACGAACAGGGCGCGTTGACGCCTCTGTACCCGCAATTTCGCGACACCCGCTCCCAGGACCTGGCCGAAGCTTTTCAGGATGCTGGCCAATTCTATTGGGGGCGCCGGGACGCCTGGTTGCGTGGCGATGCATTGTTTTCGCCGAAAAGCCTGCCGGTAGTGCTGCCTCGTCATCTGGTGCAAGACATCGATACAGCCGAAGACTGGAAGCGCGCCGAGTATCTCTACGCCGCTTTGAAAGCAGGCGGTGAATTGCAATGA	MSAIAIIPARGGSKRIPRKNLKPFDGVPMVVRSIRTALESTLFDAVFISTDDEEIAEVAKAHGAQVPFLRPAALADDFTGTATVIVHALNELRARSFDFVCCIYATAPLLQPRFLREGFDLLREHPEKSFAFSVTGFGFPVQRALTLDEQGALTPLYPQFRDTRSQDLAEAFQDAGQFYWGRRDAWLRGDALFSPKSLPVVLPRHLVQDIDTAEDWKRAEYLYAALKAGGELQ	PGPT0022745_140	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PSEUDAMINIC_ACID_MODIFICATION,PGPT0022745-pseF-K15899	NA	NA
D1-35_00544	1506			hypothetical protein	ATGAGAGTGCTGATCCGCGCCGACGCTTCACCCAGCATCGGCAGCGGGCACATCGCCCGTTGCCTGACCTTGGCGCGAGTCCTGCGCGGGCAGGGCGCGCACGTCGCGTTCGCCTGTCGGTTGCTCATCGGGCATCGTCTGCACGCCTTGGAGGCCGAGGGCTTCGAGACGTTCTCCCTGCCGGACTTTTATCCCGGAGAAGATCCGCAACAGTCCATCGAGTCATTGTTGCCCTGGCAAGCGGATATCGAGGCGTTGGAGCAGGCGCTGGCCGATAGGCCCGGTTTCGACTGGATCATCGTTGACCACTATGGTCTGGATCATAATTGGCAGACCGCTGCCCGGCGCCTTGCGCCAAGGATCATGGCGGTGGATGACCTGGCGACCCGGACTTATAGCGTCGACCTCCTGCTTAATCAGAATCTGTCCGGTACCCAAGCTGCGTATGAAGGGTTGCTGCCCGAGCATTGCCGTACGCTGCTGGGACCGCGTTACGCGTTGTTGCGCGATGAGTTTCGTTGCGGGGCGATCGAGATAAAACCGAAGGTCAGGCGCGTGCTTGTCAATTTCGGCGGTTTTGATGCGGCGATGCAGACTCATCACGCAATGCTGGCGCTGGCGGATTACCCTGAGCTGGAAGTGGATTTTGTTGCCGGTGCGGATAACCCGGCGTGGGCTCGCATGCAACGGATGGCGGCAAGTCGTCCCCATTGGCGATTGCACAGTTTCGTCAGTCATTTTCATCGGCTCATGCTGGAGGCCGACCTGTTCATTGGTGCCGGTGGTGGAACCAGTTGGGAGCGGGCCGCCATGGGGTTGCCCACGATTTGTATCGCGGTATCGAACAATCAGCAGGCCAACAGCGAGATGATGGCGACATTCGGGGCTCATGTTTATCTGGGACCCAAAGAGGACGTTACGATGGAGCAGTTGCGCCAAGCCATCGGATTCCTCGTCGGCAACCAAGGGTTGCGCCAAAGTTTGGCCCAGCGTTCCCTGCAGTTGGTCGATGGCTTGGGCGCATCCAGGGTCGCTGTAGCCATGGCCGGCGCGTTGCTGCAGGTTCGACCGGCCACGCAAGCTGACACCCATCTGCTTTTCGAGGGGCGTAATGCCGACGCCGTGCGCCGTGTATCGCTGGATCGTTCACCCGTCGACTGGGATCGCCATTGCCAATGGCTGCAAGGCAGCCTGGTCAATCCACAGCGTTTATTGCTGGTTGGCGATGCGTCCGACGGACCTGTCGGCGTATTGCGTTATGACCTGCAAGGCAGCGAAGCGCTGGTATCGATCTATTTATTCGAGAACCGCCTGGGGCTGGGGTGGGGCAGGGCATTGCTGGCCCATGGTGAGGCGTTTGCTACCGTCCACTGGCCGCAATTGAGCCGCTTTACCGCTCAGGTTCTGCCCGCTAACCAAGCGTCTCTGGACCTGTTCCGCCAAGCCGGTTTCAGTCAAGGCACATGCGTGTTCACGCGCGTATTGAAGGATCATCCTCATGAGTAG	MRVLIRADASPSIGSGHIARCLTLARVLRGQGAHVAFACRLLIGHRLHALEAEGFETFSLPDFYPGEDPQQSIESLLPWQADIEALEQALADRPGFDWIIVDHYGLDHNWQTAARRLAPRIMAVDDLATRTYSVDLLLNQNLSGTQAAYEGLLPEHCRTLLGPRYALLRDEFRCGAIEIKPKVRRVLVNFGGFDAAMQTHHAMLALADYPELEVDFVAGADNPAWARMQRMAASRPHWRLHSFVSHFHRLMLEADLFIGAGGGTSWERAAMGLPTICIAVSNNQQANSEMMATFGAHVYLGPKEDVTMEQLRQAIGFLVGNQGLRQSLAQRSLQLVDGLGASRVAVAMAGALLQVRPATQADTHLLFEGRNADAVRRVSLDRSPVDWDRHCQWLQGSLVNPQRLLLVGDASDGPVGVLRYDLQGSEALVSIYLFENRLGLGWGRALLAHGEAFATVHWPQLSRFTAQVLPANQASLDLFRQAGFSQGTCVFTRVLKDHPHE	PGPT0022735_33	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
D1-35_00545	1053	pseI	COG2089	Pseudaminic acid synthase	ATGAGTAGTTTCAAGATCGGTCAGCGCAGTATCGGGGCTGACGCGCCGCCTTTCATCATTGCGGAGATGAGCGGCAACCATAACCAATCGCTGGAAGTGGCCTTGCAGATCGTCGAAGCCGCCGCCCATGCCGGCGCTCACGCTTTGAAGCTGCAGACCTACACTGCCGATACCATGACGCTGGATCTGAGCGAAGGGGAATTCTTCATCAAGGACCCCAGCAGCCTTTGGGCGGGTACATCGCTCTATGACTTGTACGAAAAGGCCCATACGCCCTGGGAATGGCACGCTCCGATTTTCGCCCGGGCCAAGGCGCTGGGCATGCTCGCGTTCTCGACGCCGTTCGACGAGACCGCTGTGGATTTCCTCGAAAGCCTGGACGTGCCCGCCTATAAGATCGCCAGTTTTGAAAACACGGACTTGCCGCTGATTCGTCGGGTCGCTGCGACGGGCAAACCGCTGATCATTTCCACCGGCATGGCGAGCATCGCTGAGCTCGATGAAACCGTGCGTGCCGCCCGCGAGGCCGGTTGCAAGGATCTGGTGTTGCTCAAATGCACCAGTACGTATCCCGCCACACCAGCCAACAGCAACGTGCGCACCATCCCCCATCTGCGGGAGTTGTTTGGTTGCGAGGTGGGCTTGTCGGATCACTCCATGGGAGTCGGCGTGTCCGTTGCTGCGGTGGCGATAGGGGCGACTGTCGTTGAAAAACATTTCACCCTTGATCGCGCCGCTGGCGGGGTGGATGCCGGTTTTTCCCTGGAACCTGCAGAATTGGCAGCGCTGGTGATCGAAACCGAGCGTGCCTGGCAGGCCATGGGGCAGGTGCTTTACGGCGTGACCGAGGCCGAGCGCAAATCTTTGGTCTACCGTCGTTCGTTGTACGTAACGCAAGACATGGCCCCCGGCGAAGCGTTTACGTCGCAGAACGTCCGTGCCATCCGCCCGGGCCTTGGACTCGCGCCCAAACACCAGGATTCATTGATGGGCCGTCGCGCTCGGCAGGCTATCAAGCGTGGCACTCCGCTGTCCTGGTTGTTGGTTGAATAG	MSSFKIGQRSIGADAPPFIIAEMSGNHNQSLEVALQIVEAAAHAGAHALKLQTYTADTMTLDLSEGEFFIKDPSSLWAGTSLYDLYEKAHTPWEWHAPIFARAKALGMLAFSTPFDETAVDFLESLDVPAYKIASFENTDLPLIRRVAATGKPLIISTGMASIAELDETVRAAREAGCKDLVLLKCTSTYPATPANSNVRTIPHLRELFGCEVGLSDHSMGVGVSVAAVAIGATVVEKHFTLDRAAGGVDAGFSLEPAELAALVIETERAWQAMGQVLYGVTEAERKSLVYRRSLYVTQDMAPGEAFTSQNVRAIRPGLGLAPKHQDSLMGRRARQAIKRGTPLSWLLVE	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
D1-35_00546	927	fabH		3-oxoacyl-[acyl-carrier-protein] synthase 3	ATGATTGGCATAAAGAGCATTGCGAGCTACGTTCCTGTAGCCGGCGTGGACAATTACGCACAAGGTGCAAAATTTGAAAAGGATGAAGAATTCATCCTTGGCAAGATTGGTTCCGCCTTCTTGCCACGCAAGGATGACGGGCAGGAAACCTCCGATCTGTGCGTCGAAGCAGCTAATGCGCTGTTTGCCAATAATCCCGATCTGAAGCGCGAATCCATTGACGTGCTGATTGTCGTCACCCAGAACGGTGACGAAGAAGGCTTGCCCCACACTGCGGCAATCGTCCAGGACAAACTCGGCCTGCCCACCAGTGTGGCAGCGTTCGACATCTCCCTGGGTTGCTCGGGTTATGTCTACGGTATCTACGCCATCAAGGGTTTCATGGAAGCCGCCGGCCTGAAGAACGGCCTGCTGGTGACTGCCGACCCTTACTCGAAGATTGTCGATCCGGAAGACCGCAACACTACGATGCTGTTCGGCGACGCCGCCACCGTTACATGGATGGGCGAAGATGCGCCGTGGCAATTGGGCAAGGCCAAGTTCGGCACCGACGGTTCCGGTGCGCCGCACCTGAAGGTCAGTGATGGCGTATTCTTCATGAACGGTCGCCAGGTATTCAACTTCGCCTTGCTCAAGGTGCCGGCACATCTGCACGAGTTGCTTGCCGATTCCGACCTGCAACCCAGTGACATCGATGCGTTCTGCATCCATCAGGGCAGTGCCGCGATTGTCGACGCTGTGGCGCGTCGTTTCGAAGGCGAGCCGGAAAAGTTCATCAAGGATATGGTCGAGACCGGCAACACCGTGTCGTCGAGCATTCCACTGCTGCTGGAGAGACACGTGCTCAACTCCGAATGGAAGCGTGTGGCGTTGAGTGGCTTCGGCGTAGGTCTGTCATGGGGTTCGGCGATCATCTATCGCCCCTAA	MIGIKSIASYVPVAGVDNYAQGAKFEKDEEFILGKIGSAFLPRKDDGQETSDLCVEAANALFANNPDLKRESIDVLIVVTQNGDEEGLPHTAAIVQDKLGLPTSVAAFDISLGCSGYVYGIYAIKGFMEAAGLKNGLLVTADPYSKIVDPEDRNTTMLFGDAATVTWMGEDAPWQLGKAKFGTDGSGAPHLKVSDGVFFMNGRQVFNFALLKVPAHLHELLADSDLQPSDIDAFCIHQGSAAIVDAVARRFEGEPEKFIKDMVETGNTVSSSIPLLLERHVLNSEWKRVALSGFGVGLSWGSAIIYRP	PGPT0008355_7517	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
D1-35_00547	1293			hypothetical protein	ATGAGCGAGTACTTTGAACGCAACCTCCAGGTGATCCAGCATCGTTGGCCGGCCTTGGCCGAGCGTCTGTTGCTTGAGGATGTCAGTGAATTGCAGGCTGATCTTGTAGAGGGTCTTGGGTCGACACTGAGTGTCAATGGCATTCAACTGACCAGTCGACACGACCGTCTTGCCGAGGCCGGCCTGCAAGCCGCCACGCTTCCGCTGGACGCTCCCGTGGTGCATGTATACGGCACCGGGCTGGGCGATCTGCAGAACCGCTTGCTGGAGCGAGCAGGGCTCGAAAGGTTGTGCGTGCATATTCTCAACGGTTCGGTGTTTGCCCTGGTGTTGCAGGTGCTGGATCAATCACAGTGGCTGTGCGACCCGAGAGTGGTATTGCTTCATGCCGGTGATCTGGCGGAGATCCAGTTGCCATTTTTTGCATTGCCCGCCGAGCTGGTGTTGGCCGACGATTACAATGCCAAGATTCGTGATCGATTGATCAGTGAAATCCATCTGGCTTTCACTAATCGTGAGTTCGATCCGCAGTCCCCTGAGATTGTTGAACGCCTGCAATCTACCTTCAGCCTCGCGAGCGAAGATCGGGATGTCGCCGAGCTGTTCGGCGCCTTCACGGGCCGTAAGGCGTTCGTCTTGGCCACCGGCCCCAGCCTTGAGCGACATTTCGAAAGACTGCGCCACCTTAGCGAGCAAGCCGAGCGACCATTGTTGATTTGTGTCGATACGGCATACCGGCCGTTGATCAATCACGGCATTCGTCCCGACATCGTGGTCAGCATCGACCAGCGTATCTCGGCGCGTCATCTTCCCTCTGAAAACACCGACGGCATCGCGCTGGTTTATCTGCCGATGGCCGACCCCTTGGTGATTGAGGCGTGGCAAGGGCCTCGCTACGTCGCTTACTCCTCCAGCCCGGTCTATCGCCAGATGCGTGAGCAACTGCACCGGGCCGAACTCCATGTAGGCGGAAGCGTGATTCATCCGGCGGTCGACCTGGCGGTGCAAATGGGCGCTGCGCACATCACGCTTTTTGGTGCTGATTTTGCCTTTCCCAATGACAAGACCCATGCAGGATGGGGCGATGGCGACTTGGGACCGCAGTTAGGGGCGTCCAGGCATTGGGTGCTTGATGGGCACGGCCGGCGAGTCAAGACCCAGCTCAACTTCCGCAGCTACCTCTGTGAGCTGGAGCGTTTTATCGCCAGGCATCCCCAGGTGCGGTTCTATAACAGCAGTCGAGACGGAGCGTTGATTGTGGGCACCGATTTTGATCCGGAATATGTGCAATGA	MSEYFERNLQVIQHRWPALAERLLLEDVSELQADLVEGLGSTLSVNGIQLTSRHDRLAEAGLQAATLPLDAPVVHVYGTGLGDLQNRLLERAGLERLCVHILNGSVFALVLQVLDQSQWLCDPRVVLLHAGDLAEIQLPFFALPAELVLADDYNAKIRDRLISEIHLAFTNREFDPQSPEIVERLQSTFSLASEDRDVAELFGAFTGRKAFVLATGPSLERHFERLRHLSEQAERPLLICVDTAYRPLINHGIRPDIVVSIDQRISARHLPSENTDGIALVYLPMADPLVIEAWQGPRYVAYSSSPVYRQMREQLHRAELHVGGSVIHPAVDLAVQMGAAHITLFGADFAFPNDKTHAGWGDGDLGPQLGASRHWVLDGHGRRVKTQLNFRSYLCELERFIARHPQVRFYNSSRDGALIVGTDFDPEYVQ				NA	NA	NA	NA	NA
D1-35_00548	270			hypothetical protein	ATGACCGAGCTACAGGTAGTGATCGATGATGCCCGTGAGTGCGCGCGTCTGTTTCGCCTTGGACGAGATGTCGAGGCGGGGCTGGCGATGGTCGCGCTGATCGAATCGGTGCAGCCTTTAGTCGAATTGATGCCAGGCGACGTCCCTGCGTCGTGGAACAGGCTGCTTGCCTTGATGCTGGTTGATCAGCAGGCGCAGAACTGGATTTCGTTGGCCGATTATCTTGAGTATGAATGGGCTCAATTGTTGACTGCCGGTCGGCCGAAATAA	MTELQVVIDDARECARLFRLGRDVEAGLAMVALIESVQPLVELMPGDVPASWNRLLALMLVDQQAQNWISLADYLEYEWAQLLTAGRPK				NA	NA	NA	NA	NA
D1-35_00549	852	hag	COG1344	Flagellin	ATGGCTTTAACAGTAAACACTAACGTCACATCGTTGAACGTTCAGAAGAACCTGAACAAGGCTTCCGATGCTCTGTCCACTTCGATGACCCGTCTGTCGTCCGGCCTGAAAATCAACAGCGCCAAAGACGACGCCGCCGGCCTGCAAATCTCCACTCGTATGACTTCGCAAATCCGCGGTCAGACTGTTGCGATCAAGAACGCCAACGATGGTATCTCCATCGCTCAGACCGCTGAAGGCGCTCTGCAGGAATCCACCAACATTCTGCAGCGTATGCGTGAACTGGCCGTACAGGCACGAAACGACAACAACGGTACAGCTGACCGTGATGCTCTGAACAAAGAATTTGCTCAGATGTCCGACGAGCTGACTCGTATCGCTGATTCGACCAACCTCAACGGCAAGAACCTGATCGACGGTTCCGCTGGCACCATGACCTTCCAGGTCGGTTCCAACACCGGTGCTACCAACCAGATCACTCTGACCCTGAGCGACAGCTTCGACGCTGCTACCCTGAGCGTTGACTCTGGTGCCATCGCGATCAGTGCTGCCGACAGCGCCGAAGCTGAAACCAACACCTCTGCTGCAATCGACGCGATCGACGCTGCTTTGGCGACCATCAACGCCAGTCGTGCGGACCTCGGTGCTGCCCAGAACCGTCTGACCAGCACTATCTCCAACCTGCAGAACATCAACGAAAACGCTGCTGCTGCACTGGGTCGCGTACAAGACACCGACTTCGCTGCTGAAACTGCACAACTGACCAAGCAGCAGACTCTGCAACAGGCTTCCACTTCGGTTCTGGCCCAGGCCAACCAACTGCCGTCCGCTGTACTGAAGCTGCTTCAGTAA	MALTVNTNVTSLNVQKNLNKASDALSTSMTRLSSGLKINSAKDDAAGLQISTRMTSQIRGQTVAIKNANDGISIAQTAEGALQESTNILQRMRELAVQARNDNNGTADRDALNKEFAQMSDELTRIADSTNLNGKNLIDGSAGTMTFQVGSNTGATNQITLTLSDSFDAATLSVDSGAIAISAADSAEAETNTSAAIDAIDAALATINASRADLGAAQNRLTSTISNLQNINENAAAALGRVQDTDFAAETAQLTKQQTLQQASTSVLAQANQLPSAVLKLLQ	PGPT0015190_3850	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
D1-35_00550	366			hypothetical protein	ATGGATATGAGCGTGAAGCTGAACTTGTCTTATCCAGCGGCGAAGCCGGCGCCTACAGTGGTCGACAAGCCAGTGGAGAAGCCTCAGGCTGACGTGGCTATTTTGACACCGGTCAAGGAAACTCCGAAAGACGCTGCCGCCGAACAGGACAAACTGAAGAAAGCTGTCCAAGAAATCGAGAAGTTCGTCCAGTCGGTCAAGCGTAACCTGGAGTTCTCTATTGATGAGCCTTCTGGCAAAGTAATCGTCAAAGTGATTGCCAGTGGTTCCGGTGAAGTGATTCGTCAGATCCCGAACGAAGAAGTTCTGAAACTGGCCCACAGCTTAAATGATGCAAACAGCTTGTTGTTCAGCGCTGAAGCCTGA	MDMSVKLNLSYPAAKPAPTVVDKPVEKPQADVAILTPVKETPKDAAAEQDKLKKAVQEIEKFVQSVKRNLEFSIDEPSGKVIVKVIASGSGEVIRQIPNEEVLKLAHSLNDANSLLFSAEA	PGPT0015440_669	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015440-flaG-K06603	NA	NA
D1-35_00551	1437	fliD	COG1345	B-type flagellar hook-associated protein 2	ATGGCAAGTCCAATTCTTCCGGGTCTGGGTCTAGGCTCAGGCCTTGATACCGGTGCAATCGTCAAGGCGCTGGTGGATTCTGACAAAGCGGCCAAGCAAGGCCAGATTGACCGGGCAACCAAGACCAATGCCTCCAATATCTCCGGGATTGGCACCCTGAGATCCTTATTGGCTACCTTTCAGTCCACGCTGAAGGCCTTAGGCAGCACGACCACTCCCCAATTTACCGGCGTCGCCGCCACTTCCGCCAACACCAGTGCATTGACGGTGACGGCAGGCAACTCTGCAGTAGCTGGTATCTACACGGTAGACGTCACTCAACTGGCAACTTCTTCAAAAGTTGCGACGGCTGCTTTCGCCGGTGGAGCTTCCAGCGCTGTGGCGAGCGGTACGCTGACGATTAGTCAGGGTGGCACGGATTATGCCCTTGATATCCCGGCGGATTCGACGTTGCAGTCGGTGCGGGATGCCATTAACAGTAAGTACTCCTCCAGCGGACTCACCGCCAACATCGTGACCGACGGCTTCGGTTCACGCCTGGTGGTTGGCTCGACTAAAACCGGTGCGGGCAACGATATTTCCCTTAGTGGCATTGCCAGTCTTGCCGCTGATGGCTCCGTAGCGATGGCTTCGCCACCCACTGCGGCTTCTTCAGGTTCGCTGGGATTTGCCAAGGACGCCATTTTCAAAGTTGACGGCCTGGAAATGACCAGCGCAACCAATAAGCTGGACAACGTGGTCTCGGGCTTGAGCATGACGCTACTCGTTGCGGGCACAGGCCCGACAACCGTTACGGTCGCTACTAACACTGACGGTCTGAAGGCTTCGATCCAGAAGTTCGTCGATGCCTATAACGCCGTTGCGAAGGCTGTGACATCCCTGACCAAGCCATCGATAGACGCCGAGGGGAATTCGGTCCCTGCGGCATTGACGGGCGACTCGTTGCCTCGCTCGCTGTTGGCGGCCATTCGCACGCCTTTATCTGAGGCCGGTTCAGGCGACAAGCTGACCGTTCTTTCTCAGTTGGGGATCACCACCAACCAGACGACTGGCGCTCTGGATTTCGACAGTGGGAAATTTACTGCGGCACTCAATGACAAACAATTGGGTGGGGAAGTCCAGACGCTGTTCGCTGGTGAAAATGGCCTGCTTGAGCGCATGAATAATGCCATCAAGCCGTACACTGAAGGCAAGACTGGTGCGGGTGGTGTTGGAGGCTCAGAGGCCATCCTGACCACTCGCTCCAAGAACCTGGATCTTCTCAAGGCGAAACTGAGCGAAGAGCAGTTGGCCCTGGACCGTCGCATCGAAACCCTTACCGCGGTACTGACTAAAAAGTACAACGACATGGACACCCTGGTTGGCAAGTTGAAAGCCACCGCCAACAACATCACCTCCATGTTCGAAGCGATGACGGCACAGCAGAAAAACAGCTGA	MASPILPGLGLGSGLDTGAIVKALVDSDKAAKQGQIDRATKTNASNISGIGTLRSLLATFQSTLKALGSTTTPQFTGVAATSANTSALTVTAGNSAVAGIYTVDVTQLATSSKVATAAFAGGASSAVASGTLTISQGGTDYALDIPADSTLQSVRDAINSKYSSSGLTANIVTDGFGSRLVVGSTKTGAGNDISLSGIASLAADGSVAMASPPTAASSGSLGFAKDAIFKVDGLEMTSATNKLDNVVSGLSMTLLVAGTGPTTVTVATNTDGLKASIQKFVDAYNAVAKAVTSLTKPSIDAEGNSVPAALTGDSLPRSLLAAIRTPLSEAGSGDKLTVLSQLGITTNQTTGALDFDSGKFTAALNDKQLGGEVQTLFAGENGLLERMNNAIKPYTEGKTGAGGVGGSEAILTTRSKNLDLLKAKLSEEQLALDRRIETLTAVLTKKYNDMDTLVGKLKATANNITSMFEAMTAQQKNS	PGPT0015200_1368	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015200-fliD|flaB-K02407	NA	NA
D1-35_00552	396	fliS	COG1516	Flagellar secretion chaperone FliS	ATGAATCCGATGTTAGCCCTTCGCCAATACCAGAAGATTGGCGCCCAGGCGCAAACCTCCGAAGCAAGTCCCCATCGCCTTGTGCAAATGCTCATGGAAGGCGGGCTGGACCGTATCGCCCAAGCCAGAGGCGCGATGGAGCGCAAGGATATTCCAAACAAAGGCATTCTGATCGGCAAGGCCATCGGCATCGTCGGCGGTCTGCGTGAAGGCCTGGACCTGGAAAACCAGGCCGAGTCGGTCGCCGAGCTGGATGCGCTCTACACCTACATGATGAAACGCCTGGCCGAAGCCAACGCCAAGACCGATCCGAAGATCCTCGACGAAGTCGCCGATCTGCTTCGCACGGTCAAGGAAGGCTGGGATGCCATCGCCACGCCTGGTCCGCAATTCTAA	MNPMLALRQYQKIGAQAQTSEASPHRLVQMLMEGGLDRIAQARGAMERKDIPNKGILIGKAIGIVGGLREGLDLENQAESVAELDALYTYMMKRLAEANAKTDPKILDEVADLLRTVKEGWDAIATPGPQF	PGPT0015620_1549	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015620-fliS-K02422	NA	NA
D1-35_00553	297			hypothetical protein	ATGAGTCTTGTCCTGCAGCGAATCGAACAAACCCGTGATGCCCTGGTTGGCGCCTTGGCTGAGCGTAATTGGGAAGCCATTGGTCAACTGGACCTGGCGTGCCGTTCCTGCATGGAGGACGTCTTGAGCGAGTCCGAGGTGGACGAGGCGGCGTTGCGTAATAATCTGGAAGAGCTGCTGGGGGTCTATCGCCAGTTGCTGGAAGCGGCAACGGGCGAGCGTCAGGCAATCGTGAGCGAAATGTCGCAGATTCATCAGGCACAGAACGCGGCGAAGGTTTATCACTTGTTCGGCTGA	MSLVLQRIEQTRDALVGALAERNWEAIGQLDLACRSCMEDVLSESEVDEAALRNNLEELLGVYRQLLEAATGERQAIVSEMSQIHQAQNAAKVYHLFG	PGPT0015625_844	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015625-fliT-K02423	NA	NA
D1-35_00554	1476	norR_1		Anaerobic nitric oxide reductase transcription regulator NorR	ATGTGGCGTGAAACCAAAATTCTCCTGATCGATGACGATAGCGTCCGCCGCCGCGACCTGGCGGTGATCCTGAATTTTCTTGGCGAAGAAAATTTGCCCTGCGGTAGCCATGATTGGCAGCAGGCTGTCGGCTCTCTGTCGTCCAGTCGGGAAGTCATTTGCGTCCTTATCGGGACGGTAAATGCTCCCGCTTCGCTTTTGGGCTTGCTAAAGACACTCTCGACCTGGGATGAGTTCCTTCCAGTTTTGCTGATGGGCGAAAATTCTTCCCTCGACCTGCCGGAAGACCAGCGCCGCCGGGTGCTTTCCACCCTGGAAATGCCGCCGAGCTACAGCAAACTGCTCGATTCGCTGCACCGCGCCCAGGTTTATCGCGAAATGTACGACCAGGCGCGTGAGCGCGGCCGGCATCGCGAACCCAACCTTTTCCGCAGCCTCGTCGGCACCAGCCGTGCCATCCAGCACGTGCGCCAGATGATGCAGCAGGTGGCCGACACCGACGCCAGCGTGCTGATTCTCGGCGAATCCGGTACCGGCAAGGAAGTGGTCGCGCGCAACCTGCATTACCATTCCAAGCGCCGCGAAGCGCCATTCGTGCCGGTCAACTGCGGGGCGATTCCCGCCGAGCTGCTCGAAAGCGAATTGTTCGGTCACGAGAAGGGCGCGTTCACCGGTGCAATCACCAGCCGCGCCGGACGTTTCGAGTTGGCCAATGGCGGCACGCTGTTCCTCGATGAAATCGGCGACATGCCGCTGCCGATGCAGGTCAAGCTGCTGCGCGTCTTGCAGGAGCGTACCTTCGAGCGCGTGGGCAGCAACAAGACCCAGAGCGTCGACGTACGGATCATCGCCGCGACCCACAAGAACCTCGAGACCATGATCGAGGTCGGCAGCTTCCGCGAAGACCTTTATTACCGTCTCAATGTTTTCCCGATCGAAATGGCGCCGTTGCGCGAGCGGGTCGAAGACATCCCGCTGTTGATGAACGAGCTGATCTCGCGCATGGAGCATGAGAAGCGTGGTTCGATCCGCTTCAACTCGGCGGCGATCATGTCCCTCTGCCGTCACGGTTGGCCGGGCAACGTCCGCGAGCTGGCCAACCTGGTGGAGCGCATGGCGATCATGCACCCCTACGGTGTGATCGGCGTGAATGAGCTGCCGAAGAAATTCCGCTACGTCGATGACGAAGACGAGCAAATGGTCGACAGCCTGCGCAGCGACCTGGAAGAGCGGGTGGCGATCAACGGCCATACGCCGGATTTCACCACCAATGCCTTGCTGCCGCCGGAAGGCCTGGACCTCAAGGATTACCTGGGCGGCCTGGAGCAAGGGCTTATCCAGCAGGCGCTGGACGACGCCAATGGCATCGTCGCCCGCGCGGCAGAGCGCTTGCGCATTCGTCGAACCACCCTGGTGGAAAAGATGCGCAAGTACGGCATGAGCCGCCGTGAAGGAGATGAACAGGCGGATGATTGA	MWRETKILLIDDDSVRRRDLAVILNFLGEENLPCGSHDWQQAVGSLSSSREVICVLIGTVNAPASLLGLLKTLSTWDEFLPVLLMGENSSLDLPEDQRRRVLSTLEMPPSYSKLLDSLHRAQVYREMYDQARERGRHREPNLFRSLVGTSRAIQHVRQMMQQVADTDASVLILGESGTGKEVVARNLHYHSKRREAPFVPVNCGAIPAELLESELFGHEKGAFTGAITSRAGRFELANGGTLFLDEIGDMPLPMQVKLLRVLQERTFERVGSNKTQSVDVRIIAATHKNLETMIEVGSFREDLYYRLNVFPIEMAPLRERVEDIPLLMNELISRMEHEKRGSIRFNSAAIMSLCRHGWPGNVRELANLVERMAIMHPYGVIGVNELPKKFRYVDDEDEQMVDSLRSDLEERVAINGHTPDFTTNALLPPEGLDLKDYLGGLEQGLIQQALDDANGIVARAAERLRIRRTTLVEKMRKYGMSRREGDEQADD	PGPT0015560_125	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0015560-flrA|fleQ-K10941	NA	NA
D1-35_00555	1209	atoS	COG0642	Signal transduction histidine-protein kinase AtoS	ATGACCCAAGCCGCCCTGATGTCTTCTGTCCCCGAGCCGGGACATATGCCGTCCGCCGAACAGGCTGGCCGGCTTGGACTTGAACAGGCGTTTTCGCTGTTCAGCCAGATGTCCAGCCAGTTGACCGACTCCTACAGCCTGCTTGAAGCGCGGGTTACCGAGCTCAAGGGTGAGCTGGCGGTGGTCAGTGCCCAACGCATGCAGGAGCTGGCGGAAAAAGAACGCCTGGCCAACCGGCTGCAGAACCTGCTCGACCTCCTGCCCGGCGGCGTCATTGTCATCGATGCCCACGGCTTTGTGCGCGAAGCCAACCCGGCGGCATGTGAGCTGCTTGGCCTGCCTCTGGAGGGCCAGCTCTGGCGGCACGTCATCGCTCGCTGCTTCGCGCCCCGCGAAGACGACGGCCACGAAGTTTCCCTGAAGGATGGTCGGCGGTTGTCCATTTCGACCCGTTCGCTGGATGCCGAGCCCGGACAGTTGGTGCTGCTCAACGACCTGACCGAAACCCGTCACTTGCAGGACCAGTTGGCCCGTCACGAGCGTCTGTCTTCCCTTGGGCGGATGGTCGCGTCGCTGGCCCATCAGATCCGTACGCCGCTGTCTGCCGCGTTGCTGTACGCCAGTCATCTGACCGAACAGCAACTGCCGATGGAGACCCAGCAGCGTTTTGCCGGCCGCTTGAAGGAGCGCTTGCATGAGCTGGAACACCAGGTGCGCGACATGCTGGTGTTCGCCCGTGGCGAGTTGCCGCTGACCGACCGCGTCGCGCCCAAGGTGCTGCTGCAGTCTTTGCAGGCTGCAGCACTGACCCATGTGCAGGGCGTGTCGATCCGCTGGCAGTGCGACAGCCATGCGGGCGAGGTGCTGTGCAACCGTGACACGCTGGTGGGCGCGGTATTAAATCTTATTGAAAACGCGATTCAGGCCAGTGACGTTGATGTCCGTCTGAAAGTGCACCTGTATACCCGCGACAACACCCTGCGCCTGTGTGTCAGCGACAGCGGCAGCGGTATCGAGCCGTCCGTGCTTGCACGTCTGGGCGAGCCATTTTTTACCACCAAGACCACTGGAACCGGCCTGGGCCTGACCGTGGTCAAGGCGGTGGCGCGTGCCCATCAGGGCGAATTGCGGCTGCGCTCGCGGCTGGGGCGCGGTACGTGCGCGACGGTGTGCTTGCCGCTGTTTTCCAGCGCGCCAGGGGTGGAGTGA	MTQAALMSSVPEPGHMPSAEQAGRLGLEQAFSLFSQMSSQLTDSYSLLEARVTELKGELAVVSAQRMQELAEKERLANRLQNLLDLLPGGVIVIDAHGFVREANPAACELLGLPLEGQLWRHVIARCFAPREDDGHEVSLKDGRRLSISTRSLDAEPGQLVLLNDLTETRHLQDQLARHERLSSLGRMVASLAHQIRTPLSAALLYASHLTEQQLPMETQQRFAGRLKERLHELEHQVRDMLVFARGELPLTDRVAPKVLLQSLQAAALTHVQGVSIRWQCDSHAGEVLCNRDTLVGAVLNLIENAIQASDVDVRLKVHLYTRDNTLRLCVSDSGSGIEPSVLARLGEPFFTTKTTGTGLGLTVVKAVARAHQGELRLRSRLGRGTCATVCLPLFSSAPGVE	PGPT0015565_134	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015565-flrB|fleS-K10942	NA	NA
D1-35_00556	1389	atoC_1	COG2204	Regulatory protein AtoC	ATGGCGACCAAGGTTCTACTGGTTGAAGATGATCGCGCGCTACGCGAAGCACTCGCCGATACGCTGCTGTTGGCCGGGCATGATTATGCCGCTGTCGGTTCGGCGGAAGAGGCATTGCTCGCAGTGGCCCGTGAGCCATTCAGCCTGGTGGTCAGTGACGTCAATATGCCGGGCATGGACGGCCATCAATTGCTCGGCCTGCTGCGCGCACGCCAGCCGCAACTGCCAGTCCTGTTGATGACCGCCCACGGCGCCGTCGAGCGGGCGGTGGATGCCATGCGCCAAGGGGCGGCGGATTATCTGGTCAAGCCGTTCGAGCCCAAGGCCCTGTTGGATCTGGTGGCTCGCCACGCCTTGGGCAGCCCCGCGGTCGAGGGCGAGGGACCGGTGGCCCTCGAGCCGGCCAGCGCGCAGTTGCTGGAATTGGCCGCGCGGGTGGCTCGCAGCGATTCAACCGTGTTGATTTCCGGTGAGTCCGGCACGGGCAAGGAAGTCCTGGCCCGCTATATTCATCAGCAATCCCGGCGCGCCAGCGAACCGTTCGTTGCCATCAACTGCGCGGCGATTCCCGACAACATGCTCGAGGCGACTCTGTTCGGCCACGAGAAAGGTTCGTTTACCGGCGCCATCGCGGCCCAGCCTGGCAAGTTCGAGCAGGCTGATGGCGGGACCATTCTGCTGGATGAAATTTCCGAGATGCCGTTGGGCCTGCAAGCCAAGCTGCTGCGCGTATTGCAGGAGCGGGAAGTGGAGCGGGTGGGGGCGCGCAAGCCCATCAGCCTGGACATTCGCGTGGTGGCGACGACCAACCGCGACCTGGCCGGAGAAGTGGCGGCGGGGCGCTTTCGTGAAGACCTTTATTACCGGCTGTCGGTTTTCCCGCTGGCCTGGCGTCCACTTCGTGAGCGCACCGCCGATATCCTGCCGCTGGCCGAGCGCCTGCTGGCCAAACACGTCAATAAAATGAAGCACGCGGCGGCGCGGTTGTCCGCCGAGGCGCAGGCCTGCCTGATTGCCTATCCCTGGCCGGGCAATGTCCGGGAACTGGACAACGCTATCCAGCGGGCGTTGATCCTGCAGCAGGGCGGCTTGATCCAGCCGGAAGATTTCTGCCTGGCCGGCCCGGTGGCCTGCGCGCCTTTGCCGGTGTTGCAGTCCGCCCCGGCGCAGATTCCTCCCGGGGAAATGATGGGGGAAACCGCCGGCGCCCTGGAAGATGACCTGCGCCGTCGCGAATTCCAGATGATCATCGACACCCTGCGCGCCGAACGCGGCCGACGCAAGGAGGCGGCTGAACGCCTCGGTATCAGCCCGCGGACCCTGCGCTACAAACTGGCGCAGATGCGTGATGCCGGGATGGATGTAGAGGCTTATCTCTTCGCCAGTTGA	MATKVLLVEDDRALREALADTLLLAGHDYAAVGSAEEALLAVAREPFSLVVSDVNMPGMDGHQLLGLLRARQPQLPVLLMTAHGAVERAVDAMRQGAADYLVKPFEPKALLDLVARHALGSPAVEGEGPVALEPASAQLLELAARVARSDSTVLISGESGTGKEVLARYIHQQSRRASEPFVAINCAAIPDNMLEATLFGHEKGSFTGAIAAQPGKFEQADGGTILLDEISEMPLGLQAKLLRVLQEREVERVGARKPISLDIRVVATTNRDLAGEVAAGRFREDLYYRLSVFPLAWRPLRERTADILPLAERLLAKHVNKMKHAAARLSAEAQACLIAYPWPGNVRELDNAIQRALILQQGGLIQPEDFCLAGPVACAPLPVLQSAPAQIPPGEMMGETAGALEDDLRRREFQMIIDTLRAERGRRKEAAERLGISPRTLRYKLAQMRDAGMDVEAYLFAS	PGPT0015570_269	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015570-flrC|fleR-K10943	NA	NA
D1-35_00557	327	fliE		Flagellar hook-basal body complex protein FliE	ATGAGCCAAGGTATTGAATTTAATCGGTTGATGCTGGACATGCGCTCCATGCAGATGGACGCCATGGCCCAGCCTAAATCGGTCGCGGTGCCCCAAGTGGCCGGCAGCAGCTTTTCCGACATGCTCGGTCAGGCCGTCAATAAAGTGAACGATACCCAGCAGGCTTCGAACCAGTTGGCCAGTGCTTTCGAGATTGGCAAAAGTGGCGTCGACCTGACGGACGTAATGATCTCTTCGCAGAAAGCCAGTGTCTCGTTTCAGGCGTTGACCCAGGTACGCAACAAGCTGGTTCAAGCCTATCAAGACATCATGCAGATGCCGGTCTAA	MSQGIEFNRLMLDMRSMQMDAMAQPKSVAVPQVAGSSFSDMLGQAVNKVNDTQQASNQLASAFEIGKSGVDLTDVMISSQKASVSFQALTQVRNKLVQAYQDIMQMPV	PGPT0015515_1088	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015515-fliE|lfiE-K02408	NA	NA
D1-35_00558	1785	fliF	COG1766	Flagellar M-ring protein	ATGGCAGAAGCAGCCGTTGATAACGTTCCAGCCAAGGCAACTCCGGTAGACGGCAAACCGCCGTTGTTCGGCCTGTCTTTCCTGGAAAACCTCTCCGAGATGACCATGCTGCGTCAGGTTGGCCTGTTGGTCGGCCTGGCTGCCAGCGTGGCGATTGGTTTTGCCGTGGTCCTCTGGTCCCAGCAGCCGGACTACCGTCCGCTGTACGGCAGCCTGGAGGGCATGGATGCCAAACAAGTCATGGAAACACTGGCTTCCGCCGACATTCCTTATACCGTCGAACCCAATTCCGGCGCCTTGCTGGTCAAGGCGGACGACGTCGCTCGCGCGCGCCTCAAGCTCGCTGCCGCCGGCGTGACGCCGACCGATGGCAACATCGGATTCGAGATCCTCGACAAGGACCAGGGCCTGGGCACCAGCCAGTTCATGGAAGCGACTCGTTATCGTCGCGGCCTGGAAGGCGAATTGGCGCGGACCATTTCCAGCCTCAACAACGTCAAGGGTGCCCGCGTGCACCTGGCGATTCCGAAAAGCTCGGTATTTGTGCGCGATGAGCGCAAGCCGAGTGCCTCGGTACTGGTCGAACTGTATTCCGGCCGCTCGCTTGAGCCAGGCCAGGTCGTTGCCATTATCAACCTGGTGGCGACCAGCGTTCCCGAGTTGAGCAAGTCGCAGATCACCGTGGTCGACCAGAAGGGCAACCTGTTGTCCGACCAGGCGGAAAATTCCGAACTGACCATGGCCGGCAAGCAATACGATTACAGCCGCCGCATGGAAGGCATGTTTACCCAGCGGGTGCACAACATCCTGCAACCGATCCTCGGCAACGGCCGCTACAAGGCCGAAGTTTCGGCGGACGTGGACTTCAGCGCCGTCGAATCGACTTCCGAGCAGTTCAACCCGGATCAACCGGCGTTGCGCAGCGAGCAGTCGGTGAACGAACAACGTACCGCCAGCAATGGCCCGCAAGGTGTGCCGGGTGCCCTGAGCAACCAGCCACCAGCACCGGCCAGCGCGCCGCAAACCACCGGTGGCGCTACCGCCGCCGCAGGCATGGTGCAGCCAGGCCAGCCGCTGATCGACGCCAATGGCCAGCAGATCATGGATCCGGCCACCGGCCAACCGATGCTTGCACCGTACCCGGCCGACAAGCGTCAACAATCGACCAAGAATTTCGAGCTCGACCGTTCCATCAGCCACACCAAGCAGCAGCAGGGCCGTTTGAATCGCCTGTCGGTCGCGGTGGTGGTGGACGATCAGGTCAAGGTCAACCCGGCCAACGGCGAAACCAGCCGCGCGCCATGGACCGCCGACGAATTGGCGCGCTTCACTCGCCTGGTGCAGGACGCCGTCGGTTTCGACGCCAGCCGTGGCGACAGCGTCAGCGTGATCAACGTACCGTTCTCCCTGGAGCGCGGTGAAGAAATCGCCGATATCCCGTTTTATTCGCAACCCTGGTTCTGGGATGTGGTCAAGCAGGTATTGGGTGTGTTGTTCATCCTGATACTGGTATTTGGAGTGCTGCGTCCGGTGCTCAACAACATCACCGGTGGCGGCAAGAACAAGCAGCTGGCAGGCTTGGGCGATGTAGAGCTGGGAGGCATGGGCGGCCTGGATGGCGAATTGGCCAACGATCGCGTCAGCCTCGGCGGGCCGCAGAGCATCCTGCTGCCAAGCCCGAGCGAAGGCTATGACGCTCAGTTGAACGCCATCAAGAGTCTGGTGGCAGAGGATCCGGGTCGTGTGGCCCAGGTCGTGAAAGAGTGGATTAACGCAGATGAGTGA	MAEAAVDNVPAKATPVDGKPPLFGLSFLENLSEMTMLRQVGLLVGLAASVAIGFAVVLWSQQPDYRPLYGSLEGMDAKQVMETLASADIPYTVEPNSGALLVKADDVARARLKLAAAGVTPTDGNIGFEILDKDQGLGTSQFMEATRYRRGLEGELARTISSLNNVKGARVHLAIPKSSVFVRDERKPSASVLVELYSGRSLEPGQVVAIINLVATSVPELSKSQITVVDQKGNLLSDQAENSELTMAGKQYDYSRRMEGMFTQRVHNILQPILGNGRYKAEVSADVDFSAVESTSEQFNPDQPALRSEQSVNEQRTASNGPQGVPGALSNQPPAPASAPQTTGGATAAAGMVQPGQPLIDANGQQIMDPATGQPMLAPYPADKRQQSTKNFELDRSISHTKQQQGRLNRLSVAVVVDDQVKVNPANGETSRAPWTADELARFTRLVQDAVGFDASRGDSVSVINVPFSLERGEEIADIPFYSQPWFWDVVKQVLGVLFILILVFGVLRPVLNNITGGGKNKQLAGLGDVELGGMGGLDGELANDRVSLGGPQSILLPSPSEGYDAQLNAIKSLVAEDPGRVAQVVKEWINADE	PGPT0015430_126	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015430-fliF-K02409	NA	NA
D1-35_00559	1020	fliG	COG1536	Flagellar motor switch protein FliG	ATGAGTGATAATCGAGCCGCTGTTGCCAAATTGTCCCGGGTCGACAAAGCCGCGATCCTGCTGCTGTCCCTGGGTTCGACGGACGCCGCCCAGGTGCTGCGCCACATGGGACCCAAAGAGGTCCAGCGCGTCGGCGTGGCCATGGCGCAGATGGGCAATGTGCACCGCGAGCAGGTCGAGCAGGTGATGAGCGAGTTCGTCGACATCGTCGGCGATCAGACCAGCCTGGGCGTCGGTTCCGACGACTACGTGCGCAAGATGCTCACCCAGGCCCTGGGCGAGGACAAGGCCAACGGCCTGATCGACCGGATTCTGCTGGGTGGCAACACCAGCGGCCTGGACAGCCTGAAGTGGATGGAGCCGCGCGCGGTCGCCGACGTGATCCGTTACGAGCACCCGCAGATCCAGGCGATCGTCGTCGCGTACCTCGATCCGGACCAGGCCGGTGAGGTGCTCGGCAACTTCGACCATAAAGTGCGCCTCGACATCATCCTGCGGGTTTCGTCGTTGAATACCGTGCAGCCGGCGGCCCTGAAAGAATTGAACCAGATTCTCGAGAAGCAGTTCTCGGGCAACTCCAATGCTTCGCGCACCACCCTGGGCGGTATCAAGCGCGCGGCGGACATCATGAACTTCCTCGACAGTTCGATCGAAGGTCAACTGATGGACTCGATCCGCGAAGTCGACGAAGACCTGTCCGGTCAGATCGAAGACCTCATGTTCGTGTTCAACAACCTGGCCGATGTCGACGACCGCGGTATCCAGGCACTGTTGCGCGAAGTGTCCTCCGATGTGCTGGTGCTGGCCCTCAAGGGTTCGGACGAAGGCGTCAAGGAGAAGATCTTCAAGAACATGTCCAAACGGGCGGCCGAACTGTTGCGCGACGACCTCGAGGCCAAGGGCCCGGTGCGCGTCAGCGATGTGGAAACCGCACAGAAGGAAATCCTCACCATCGCCCGCCGTATGGCCGAAGCCGGAGAAATCGTGCTCGGTGGCAAGGGCGGCGAAGAGATGATCTAA	MSDNRAAVAKLSRVDKAAILLLSLGSTDAAQVLRHMGPKEVQRVGVAMAQMGNVHREQVEQVMSEFVDIVGDQTSLGVGSDDYVRKMLTQALGEDKANGLIDRILLGGNTSGLDSLKWMEPRAVADVIRYEHPQIQAIVVAYLDPDQAGEVLGNFDHKVRLDIILRVSSLNTVQPAALKELNQILEKQFSGNSNASRTTLGGIKRAADIMNFLDSSIEGQLMDSIREVDEDLSGQIEDLMFVFNNLADVDDRGIQALLREVSSDVLVLALKGSDEGVKEKIFKNMSKRAAELLRDDLEAKGPVRVSDVETAQKEILTIARRMAEAGEIVLGGKGGEEMI	PGPT0015400_1118	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_C-RING,PGPT0015400-fliG-K02410	NA	NA
D1-35_00560	831			hypothetical protein	ATGTCTGCCAAGAGCGATGATTCACCCAGCGACCTGATCCGCGCCCGCGACGTCGGTGGTTTCGACGTCTGGTCGCTGCCCAGCTTCGATCCCCACGTGCCCGAGCCTGAGCCAGAACCGGTGGAAGAGTTGCCGGAGATGGAAGAGGTGCCGCTGGAGGAAGTCCAGCCGCTGACCCTCGAAGAAGTCGAGAGCATTCGCCAGGAGGCCTACAACGAAGGCTTCGCCATCGGCGAAAAGGAAGGCTTCCACAGCACCACGATCAAGGTCCGCCGGGAAGCCGACGTGGCGCTGACGGCCAAGCTGCGGGCGCTGGAATCGCTGATGCTGAACCTGTTCGAACCCATCGCCGAGCAGGACACCCAGATCGAGAAATCCCTGGTCGGGCTGGTGCAGCACATCACCCGACAAGTGATCCAGCGCGAGCTGGCCATCGATTCGAGCCAGATCGAGCACGTCATGCGCGAGGCCCTCAAGCTGCTGCCCCTGGGCGTCGGCAATGTGCGGCTGTACATCAATCCGCAGGACTTCGAGCTGGTCAAGGCCTTGCGCGAGCGTCATGAGGAAAGCTGGCGCATCGTCGAGGATGAGACCTTGCTGCCGGGCGGTTGCCGGGTGGAAACCGAGCACAGCCGCATTGATGCGACAATCGAAACACGCATCAGCCAGGTCATGGCCAAGCTGTTCGACCAATTGCACGAGCAGGCCCTGCATCCGGCTCCGGCCGACCTCAGCCTTGAGTTGCCGGACGAACCGGAGGCCGCCGTTATCGCCGATCCGGACGCGGCCGAACTGATTGCTGCCGAAGTGGAAGGTCGCAATGCGCCTTGA	MSAKSDDSPSDLIRARDVGGFDVWSLPSFDPHVPEPEPEPVEELPEMEEVPLEEVQPLTLEEVESIRQEAYNEGFAIGEKEGFHSTTIKVRREADVALTAKLRALESLMLNLFEPIAEQDTQIEKSLVGLVQHITRQVIQRELAIDSSQIEHVMREALKLLPLGVGNVRLYINPQDFELVKALRERHEESWRIVEDETLLPGGCRVETEHSRIDATIETRISQVMAKLFDQLHEQALHPAPADLSLELPDEPEAAVIADPDAAELIAAEVEGRNAP	PGPT0015335_341	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015335-fliH-K02411	NA	NA
D1-35_00561	1359	fliI	COG1157	Flagellum-specific ATP synthase	ATGCGCCTTGACCGAACCAGCTTCGGCAAGCGCCTGGGCAGCTACGCCGAGGCCACTGAGCTGGCCGGCCAGCCGATCCTGGAAGGGCGCCTGTTGCGTATGGTTGGCCTGACCCTAGAAGCGGAAGGCCTGCGCGCCGCGATGGGCAGCCGGTGCCTGGTGATCAACGATGACAGTTATCACCCGGTGCAGGTCGAAGCCGAAGTGATGGGCTTCTCCGGCAGCAAAGTATTTCTGATGCCGGTGGGCAGTGTCGCCGGTATAGCCCCTGGTGCCCGCGTGGTTCCGCTGGCCGATACCGGTCGGCTGCCCATGGGCATGAGCATGCTCGGCCGTGTGCTGGACGGGGCCGGGCGGGCCTTGGACGGCAAGGGCGGAATGAAAGCTGAAGATTGGGTGCCGATGGACGGCCCGACAATCAACCCGCTCAAGCGCGACCCCATCAGCGTGCCGCTGGACGTCGGCATCCGTTGCATCAACGGGTTGTTGACGGTCGGTCGCGGTCAGCGCCTGGGCCTGTTCGCCGGTACCGGGGTGGGCAAGAGTGTGCTGCTGGGCATGATGACCCGCTTTACCGAAGCCGACATCATCGTGGTCGGGCTGATCGGCGAGCGGGGCCGCGAGGTGAAGGAATTCATCGAGCACATTCTCGGCGAAGAAGGGCTCAAGCGTTCCGTGGTGGTGGCTTCGCCCGCGGACGATGCGCCGTTGATGCGCCTGCGGGCCGCGATGTATTGCACGCGTATCGCCGAATATTTTCGCGACAAGGGCAAGAACGTCCTGTTGCTGATGGATTCGCTGACCCGTTTCGCCCAGGCCCAGCGGGAAATCGCCCTGGCCATCGGCGAGCCTCCGGCGACCAAGGGTTATCCGCCTTCGGTGTTTGCCAAGTTGCCGAAACTGGTGGAGCGGGCCGGTAACGCGGAGAAGGGTGGCGGTTCCATCACCGCTTTTTACACCGTGCTGTCCGAGGGTGACGATCAGCAAGACCCGATCGCCGACTCGGCCCGAGGCGTACTCGACGGTCACATCGTGCTGTCCCGGCGCCTGGCCGAAGAAGGGCATTATCCCGCCATTGATATCGAAGCGTCGATCAGCCGGGTCATGCCGTCGGTCATCAGCGCCGAGCACATGAAACGCGCCCAGCAATTCAAGCAATACTGGTCACGTTACCAGCAGAGTCGCGACCTGATCAGCGTGGGCGCCTACGTGCCCGGCGGTGATCGTGAGACCGACATGGCCATCAATCTTTATCCGGCCATGGCGGTCTACCTGCGCCAAGGCCTGAACGACAACATCGGCATGGGCGCGAGCGAAGCGCACCTGCAGACCATCTTCACCCCCGTCTCGGGCGGATAA	MRLDRTSFGKRLGSYAEATELAGQPILEGRLLRMVGLTLEAEGLRAAMGSRCLVINDDSYHPVQVEAEVMGFSGSKVFLMPVGSVAGIAPGARVVPLADTGRLPMGMSMLGRVLDGAGRALDGKGGMKAEDWVPMDGPTINPLKRDPISVPLDVGIRCINGLLTVGRGQRLGLFAGTGVGKSVLLGMMTRFTEADIIVVGLIGERGREVKEFIEHILGEEGLKRSVVVASPADDAPLMRLRAAMYCTRIAEYFRDKGKNVLLLMDSLTRFAQAQREIALAIGEPPATKGYPPSVFAKLPKLVERAGNAEKGGGSITAFYTVLSEGDDQQDPIADSARGVLDGHIVLSRRLAEEGHYPAIDIEASISRVMPSVISAEHMKRAQQFKQYWSRYQQSRDLISVGAYVPGGDRETDMAINLYPAMAVYLRQGLNDNIGMGASEAHLQTIFTPVSGG	PGPT0015340_1017	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015340-fliI|lgiI-K02412	NA	NA
D1-35_00562	450	fliJ	COG2882	Flagellar FliJ protein	ATGGCCACGAGTCGTGCGGCGCGCCTGGCGCCGGTGGTGGACATGGCGGAAAAAGCCGAGAAGACCGCCGTTCAGCGGCTGGCTTATTTCCAGGGACAAGTGGTCGTGGCCGAGAGCAAGCTGGCCGACCTGGAGAATTTTCGTCTCGAATACCAGGAGCAGTGGATCGCCCGCGGCAGCCATGGCGTTTCCGGGCAATGGCTGTTGGGCTACCAGGGGTTCCTCGCACAACTGGGCACCGCGATCGATCAGCAGCGCCAAAGCCTCGTCTGGCACCAGAACAACCTGGAAAAGGCCCGCCAGAGCTGGCAGGAAGCCTTCGCCCGGGTCGAAGGGCTGCGCAAACTTGTACAGCGTTATATCGATGAAGCTCGGCAGCTGGAAGACAAGCGCGAGCAGAAGTTGCTTGATGAACTGTCTCAGCGTCTGCCGCGCCATGATCCGTATTGA	MATSRAARLAPVVDMAEKAEKTAVQRLAYFQGQVVVAESKLADLENFRLEYQEQWIARGSHGVSGQWLLGYQGFLAQLGTAIDQQRQSLVWHQNNLEKARQSWQEAFARVEGLRKLVQRYIDEARQLEDKREQKLLDELSQRLPRHDPY	PGPT0015615_548	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015615-fliJ-K02413	NA	NA
D1-35_00563	306			STAS-domain containing protein	ATGTCTGTCGTAACTGAAGTGTCCGAAGATGGGAAAAAATTGACGATTGCGATTGAAGGTCGCTTCGATTTCGGGCGGCATCAGGAGTTTCGTGAATCCTACGAGAGACTCGTTAGTAAGCCCGAGTCTATCGTGGTGGATTTGAAGAAGGCCACCTACCTCGACAGCTCTGCCTTGGGCATGCTCCTGCTGTTGCGCGATCATGCCGGTGGCGACGAGTCGGATATCCGTGTGGTCAACAGCAGCAGCGACGTCAAGAAAATCCTCGCGATTTCCAATTTCGACAAGTTGTTCGATATCAGTTGA	MSVVTEVSEDGKKLTIAIEGRFDFGRHQEFRESYERLVSKPESIVVDLKKATYLDSSALGMLLLLRDHAGGDESDIRVVNSSSDVKKILAISNFDKLFDIS	PGPT0025860_87	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0025860-hsbA-K20978	NA	NA
D1-35_00564	1707	rcsC_3		Sensor histidine kinase RcsC	ATGCAATCGTCGCCGGAGCCGCTGACGATCCTGATTGCCGAAGACAGCGCCGCCGACCGGCTGCTGTTGTCGACCATCGTCCGCCGTCAAGGCCATCAGGTGCTCACCGCAGCGGATGGCGCCGAGGCGGTCGAAGTCTACCGGGAGCAGCGTCCGCACCTGGTGCTGATGGACGCGATGATGCCGGTCATGGATGGCTTCGAAGCCGCGCAGCAGATCAAGCAACTGGCCGGGGACCAACTGGTTCCGATCATTTTCCTCACCTCGTTGACTGAAAGCGAAGGGCTGGCCCGTTGCCTGGAGGCTGGCGGTGACGATTTCCTCGCCAAGCCCTATAACCAAGTGATCCTGGCTGCCAAGATCAAGGCCATGGACCGCTTGCGTCGGTTGCAGGCCACGGTGGTCGAGCAACGTGACCAGATCGCCCGGCACCACGACTACCTGCTTAACGAGCAGCGGGTTGCCAAGGCGGTGTTCGACAAGATTGCCCACTCCGGTTGCCTGAGCGCGCCGAATATCCGTTACCTGCAATCGCCCTATGCCTTGTTCAATGGCGATCTGCTGCTGGCCGCCTTCAACCCGGCTGGTGACATGCACATCCTGCTTGGGGATTTTACCGGCCACGGCTTGCCGGCGGCTGTCGGGGCGATGCCACTGGCTGAAGTGTTCTACGGGATGACCGCGAAAGGCTACGGCCTGGCGCAGATCCTGCGAGAAATGAATGCCAAGCTCAAGCGCATCCTGCCAGTGGACATGTTCTGTTGCGCAACGCTGCTGTGCCTGAGCTTCCAGCGCTGCACTGTCGAAGTCTGGAACGGCGGCATGCCCGATGGTTACCTGCATGACAGCCTCAGCGGCGTGCGTACACCGTTGCCGGCGCGCCACTTGCCGTTGGGCGTGCTCACGCCGCAACTGTTTGATGATCGCACTGAGGTGCATCCGATGTCGGTGGGTGACCGGGTATTCCTGTTGTCTGACGGCGTCATCGAAGCCAGCGACCGCGATGATCAGCCGTTTGGCGTGGAAAGGTTGCAGCAGGTGTTTGCGGCCAACCGCGAGCCCGATCGACTGTTCGAAGATATCCAGCAGGCCCTCGGTGATTTTCGCGGCGAGGCCCGCGACGACTTCAGCATGGTCGAGGTGCGGCTGGTCGCGCCGACGCAACTCAGCCCGCCACCACCGGTCTATTCCGATAGCGGCCAGTCGAGCCCGCTGGATTGGTCGGTGAGCTTCGAGTTCCGTGGGCAGACGCTCAAGCGCTTCAACCCGATGCCTTACCTGTTGCAGTTATTGCTTGAGGTCCATGGGCTCAGGGGCCAGAGTGGCGCTTTGTACAGTGTCCTGACGGAGCTTTATTCCAACGCGCTGGAACACGGCGTACTGGGGCTCGATTCGAGTCTCAAGCGTGATGCGGCGGGGTTTGCCCGCTACTATACGGAGCGCGGCATCCGTCTGGATGAGCTGGACAGCGGCCATATCCGCGTGCATCTGCACGTGACTCCCCAAGGGGAGGGTGGGCGCCTGGTCATTGAGGTCGAGGACAGCGGCCAGGGGTTCGATGTCAGCCGGGTGCTGGCCCGGCCTGTGGATCGTGACCGGTTATCCGGGCGCGGTGTCAGCCTGGTGCGCCAGCTATGCCACGAGGCCAGTTGGTCCGACGATGGTCGTAGTGCGCGCGTGGAGTTTTTCTGGGAGGCTCTGGCATAA	MQSSPEPLTILIAEDSAADRLLLSTIVRRQGHQVLTAADGAEAVEVYREQRPHLVLMDAMMPVMDGFEAAQQIKQLAGDQLVPIIFLTSLTESEGLARCLEAGGDDFLAKPYNQVILAAKIKAMDRLRRLQATVVEQRDQIARHHDYLLNEQRVAKAVFDKIAHSGCLSAPNIRYLQSPYALFNGDLLLAAFNPAGDMHILLGDFTGHGLPAAVGAMPLAEVFYGMTAKGYGLAQILREMNAKLKRILPVDMFCCATLLCLSFQRCTVEVWNGGMPDGYLHDSLSGVRTPLPARHLPLGVLTPQLFDDRTEVHPMSVGDRVFLLSDGVIEASDRDDQPFGVERLQQVFAANREPDRLFEDIQQALGDFRGEARDDFSMVEVRLVAPTQLSPPPPVYSDSGQSSPLDWSVSFEFRGQTLKRFNPMPYLLQLLLEVHGLRGQSGALYSVLTELYSNALEHGVLGLDSSLKRDAAGFARYYTERGIRLDELDSGHIRVHLHVTPQGEGGRLVIEVEDSGQGFDVSRVLARPVDRDRLSGRGVSLVRQLCHEASWSDDGRSARVEFFWEALA	PGPT0025865_104	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0025865-hsbR-K20977	NA	NA
D1-35_00565	345			hypothetical protein	GTGAGCGAGATTCATCTGGATCGGGACGTGCTCAGCACGTTGAAGGAAGTCATGGAGGAAGGGTATCCGGAATTGCTGGATACGTTCCTCAACGATTCCGAGGCACGCCTGCGTGTGTTGCTTGAGGCCAAGGACGCCGAGCAATTGAGCGCCACCGCCCACAGTTTCAAGGGCAGTAGCAGCAATATGGGCGCCATCCGCCTGGCTGAACTGTGCGGCGAGCTGGAACAACGCGCCAAGCAGCCCTCGCTGCGTGGAATCGAAAAATTGGTCAGCGAGATCAACAGCGAATTTACCTACGTTCGAAAGCTTTGCAAGGAAGAGCGCGAAGGCTTTCACTGTTAA	MSEIHLDRDVLSTLKEVMEEGYPELLDTFLNDSEARLRVLLEAKDAEQLSATAHSFKGSSSNMGAIRLAELCGELEQRAKQPSLRGIEKLVSEINSEFTYVRKLCKEEREGFHC	PGPT0025855_437	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_REGULATORS	CE-QSR-QUORUM_SENSING_REGULATED_FLS,PGPT0025855-hptB-K20976	NA	NA
D1-35_00566	1371			hypothetical protein	ATGCCCGTTACGCCTAATACACTCCTTCAGGCCGTTACCCAGTCCAAGCCGCAGGCCGCCGTCAATCCGTTGGCGGCTGGCCCGGACGCCGGGACTAAAGCCTCCAGTTTCGCCCAGGTCTTCGCCAAGCAGGCCCCCGTCAAACCCTCGACGGCCCTTGAGCCGGAGATTAAGCCTGTGCGCGACAAGGCTTCCGACAACACCGTCAAAAAGGATGCAGGCAGCGACACGGCTGCCGCTCCTGAGCCGGCGGTTGCCGATAGCGGCAAACCCTTGCCCGCCGACAAGCCGGCCACGGCCGACGACAAGCCCACGCAGGACGATAGCGATACGGCCGAGACGCCTGTAGCCGACGCCGCCCCAGTCGATCCGACACTCGACCCGGCTTTGCTGCCCGGGGTCATCGTGCCTGAAGTCATTGCCGAGGCGCTGCCCGCGCCTGTGGTGAGCCCGACCGAGGCGCCAGTCGTCGCGGCAGTCGCGGCGCCGGTGGTGGCCTCGGCCACGTCGGCTACGCCGACACCGGTGACCGATCCGGAATTCGACCCGCAGGCCGATCCGCTCGACGCCTTGCCGGCGTTGCGATTGGCGATGGAGCAGAGCGGCCATGTGTCCGCTTCCAGCCAGGCGCAGCCCAAGGCAACAGCGCCAGCGTCCGTCGATGGCGAGCCGACGTCGGCCCAGACGTTCGCGGCCGGCATGGCGAGCATGCTCAATGTACAAGCCGACCAGGACAGTACCAGTGCCGGCAGCCAGGGCGGTGAGAAGGCGTTCAGTGGCTTGCTCAACGAAGGCCTCAAGGATCTGACCGCCGCCTCCAGCGACACGCGGGTAGATGATTTCGCCAACCGCCTGGCGGCATTGACCCAGGCGGCTACGCCAAAAACCGCCAACGCGGTCCCGGTCAACCAGCCCATCGCCATGAACCAGAGCGGCTGGACCGAAGAAGTGGTCAACCGGGTGATGTACCTGTCGAGCGTCAATCTCAAGGCGGCTGATATCCAACTGCAGCCGGCCGAGCTGGGGCGCCTGGATATTCGCGTGAACATGGTCCCCGACCAGCAGACCCAGGTCACGTTCATGAGCGCCCATTCCGGCGTCCGTGAAGCCCTCGAAGGCCAGATGCATCGCCTGCGCGACAGCTTTGCCCAGCAGGGCATGGGCCAGGTCGACGTCAGCGTGTCGGATCAGTCGCGTGGCTCCCAGGGTCAGGAACAGCAAGCCCAGCAGCAGGCCCAGGCTGGTCGCACGAGCTCTTCCTCTGGCGGCCGAGTGGATTCGGTGGACGAAGAGTTGCCGGTCAGCGTTGCCGAAGTGGCGGCCAACACCACCAGCGTCATCGGCACCAGCGCGGTCGACTACTACGCCTGA	MPVTPNTLLQAVTQSKPQAAVNPLAAGPDAGTKASSFAQVFAKQAPVKPSTALEPEIKPVRDKASDNTVKKDAGSDTAAAPEPAVADSGKPLPADKPATADDKPTQDDSDTAETPVADAAPVDPTLDPALLPGVIVPEVIAEALPAPVVSPTEAPVVAAVAAPVVASATSATPTPVTDPEFDPQADPLDALPALRLAMEQSGHVSASSQAQPKATAPASVDGEPTSAQTFAAGMASMLNVQADQDSTSAGSQGGEKAFSGLLNEGLKDLTAASSDTRVDDFANRLAALTQAATPKTANAVPVNQPIAMNQSGWTEEVVNRVMYLSSVNLKAADIQLQPAELGRLDIRVNMVPDQQTQVTFMSAHSGVREALEGQMHRLRDSFAQQGMGQVDVSVSDQSRGSQGQEQQAQQQAQAGRTSSSSGGRVDSVDEELPVSVAEVAANTTSVIGTSAVDYYA	PGPT0015520_1158	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015520-fliK|motD-K02414	NA	NA
D1-35_00567	504			hypothetical protein	ATGGCGAAGAGTGAAGCAGCAGCTGTAAAAGACCCCGCAACCAAAGGCAAACTCAAGCTGATCATCATGATCGTGGTGGGTTTGCTCCTGGCGATGGGCGTTTCCGTGGGGGCGACCTGGTATTTCATGCACAGCGCTCAAAGCAAGCCGGCAGAAGTGGTGGAGACCGCGCCGGTGGGCAAGCAGCCGGCGATTTTCGAGCCGATGGCTCCCGCATTTGTGGCCAACTACACCCAGAACGGTCGCCAGCGCTACATGCAGGTGAGCATCACCCTGCTGGGCCGCAACCAGGCTGACCTGGAAGCGCTGCGGGTGCACATGCCGCTGATTCGCAATAACCTGGTGATGCTGTTCTCTGGACAGAGTTTCGACACCCTGGCCACTCCGGTCGGCCAGGAAATGCTGCGTCAGAAAGCCACGGCCAGCGTTCAGGAAGTGGCTCAGAAAGAGCTTGGCAAAGTGGTGATCGAACAGTTGCTCTTCACTAACTTCGTATTGCAGTAG	MAKSEAAAVKDPATKGKLKLIIMIVVGLLLAMGVSVGATWYFMHSAQSKPAEVVETAPVGKQPAIFEPMAPAFVANYTQNGRQRYMQVSITLLGRNQADLEALRVHMPLIRNNLVMLFSGQSFDTLATPVGQEMLRQKATASVQEVAQKELGKVVIEQLLFTNFVLQ	PGPT0015525_1237	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015525-fliL-K02415	NA	NA
D1-35_00568	969	fliM	COG1868	Flagellar motor switch protein FliM	ATGGCCGTGCAGGACTTGTTGTCCCAGGACGAAATCGACGCGCTGTTGCATGGTGTCGACGACGGCCTGGTGCAGACCGAAAACGCTGCTGAACCGGGCAGCGTCAAAAGCTACGACCTGACCAGCCAGGATCGCATCGTTCGCGGACGCATGCCGACCCTGGAAATGATCAACGAGCGTTTTGCCCGTTACACCCGCATCAGCATGTTCAACATGCTGCGCCGTTCGGCCGACGTGGCCGTCGGTGGCGTGCAGGTGATGAAATTCGGCGAATATGTGCACTCGCTGTACGTGCCCACCAGTCTCAACCTGGTGAAGATCAAGCCGTTGCGCGGCACTGCACTGTTCATCCTTGACGCCAAGCTGGTGTTCAAGCTGGTGGATAACTTCTTCGGCGGTGACGGCCGTCACGCCAAGATCGAAGGCCGCGAATTCACGCCGACCGAGCTGCGCGTCGTGCGCATGGTGCTGGAGCAGGCTTTCATCGACTTGAAGGAAGCCTGGCAGGCGATCATGGAAGTCAACTTCGAGTACATCAACTCGGAAGTGAACCCGGCCATGGCCAACATCGTCGGTCCGAGCGAAGCCATTGTCGTGTCGACTTTCCACATCGAACTCGACGGTGGCGGCGGCGACCTGCACGTGACCATGCCGTACTCGATGATCGAGCCGGTGCGCGAAATGCTCGACGCCGGTTTCCAGTCGGACCTCGACGACCAGGACGAGCGCTGGATCAATGCGTTGCGCCAGGACGTGCTGGACGTCGACGTGCCGATCGGCGCGACGGTTGCCCGGCGCCAGCTGCGCCTGCGGGACATCCTGCATATGCAGCCGGGGGACATCATCCCCGTCGAGATGCCGGAAGACATGATCATGCGCGCCAATGGCGTGCCGGCCTTCAAGGTCAAGATGGGCTCTCACAAAGGCAACCTCGCGTTGCAAGTGATCGAGCCGATCGAACGCCGCTGA	MAVQDLLSQDEIDALLHGVDDGLVQTENAAEPGSVKSYDLTSQDRIVRGRMPTLEMINERFARYTRISMFNMLRRSADVAVGGVQVMKFGEYVHSLYVPTSLNLVKIKPLRGTALFILDAKLVFKLVDNFFGGDGRHAKIEGREFTPTELRVVRMVLEQAFIDLKEAWQAIMEVNFEYINSEVNPAMANIVGPSEAIVVSTFHIELDGGGGDLHVTMPYSMIEPVREMLDAGFQSDLDDQDERWINALRQDVLDVDVPIGATVARRQLRLRDILHMQPGDIIPVEMPEDMIMRANGVPAFKVKMGSHKGNLALQVIEPIERR	PGPT0015405_1974	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_C-RING,PGPT0015405-fliM-K02416	NA	NA
D1-35_00569	459	fliN	COG1886	Flagellar motor switch protein FliN	ATGGCTGACGATATGAATACCCAGGATGACCAGGCGCTGGCCGACGAATGGGCTGCGGCCCTGGAAGAAACCGGCGACGCCGGGCAGGCCGATATCGATGCGCTGCTGGCCGCCGATACCGGCAACCACGCTTCCAATCGCATGCAGATGGAAGAGTTTGGCAGCGTGCCGAAAAGCAATGAGCAAGTCACCCTCGACGGGCCGAACCTGGACGTGATTCTCGACATCCCGGTGTCGATTTCCATGGAAGTGGGCAGCACCGACATCAACATCCGCAACCTGTTGCAGCTCAACCAGGGCTCGGTGATCGAACTGGATCGCCTGGCCGGTGAACCGCTGGACGTACTGGTCAACGGTACCCTGATCGCCCATGGCGAAGTGGTGGTGGTCAACGAGAAGTTCGGCATTCGCCTGACGGACGTGATCAGCCCGAGCGAACGCATCAAGAAGCTGCGCTGA	MADDMNTQDDQALADEWAAALEETGDAGQADIDALLAADTGNHASNRMQMEEFGSVPKSNEQVTLDGPNLDVILDIPVSISMEVGSTDINIRNLLQLNQGSVIELDRLAGEPLDVLVNGTLIAHGEVVVVNEKFGIRLTDVISPSERIKKLR	PGPT0015410_1296	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
D1-35_00570	438			hypothetical protein	ATGAAAGGCTTTCTCGCCGCAGCCTTGATGCTGCCGTTCAGCGTGCTGGCGGCCGAGCCCGCGGCCACGGCGGCGGTTGCGCCGGCAAGTGGCGGCAGCATGGCCGGGCAATTGGCGCAGTTGGTGCTGGGCCTGCTCGTGGTGCTCGGGTTGATTTTTTTCCTCGCGTGGATGCTGCGGCGGGTGCAACAGGCGGGGCCTGCCGGCAAAGGCCAGGTCATCGACATCATCAGTTCCCGCGCGCTCGGCCCGCGGGATCGGCTGGTGCTGGTGCAAGTTGGCAACGAGCAGATCCTGCTCGGCCTGAGCCCTGGCACGATCACCGCTTTGCACGTTCTCAAGGAGCCGGTGCAGGTGCCCGCCACCGAGCAGGCCGCCCCCGAATTTGCCCAGCGGCTCATGGAACTGCTGGGTAAAGATCAGAAGGATAAAAAGTAA	MKGFLAAALMLPFSVLAAEPAATAAVAPASGGSMAGQLAQLVLGLLVVLGLIFFLAWMLRRVQQAGPAGKGQVIDIISSRALGPRDRLVLVQVGNEQILLGLSPGTITALHVLKEPVQVPATEQAAPEFAQRLMELLGKDQKDKK	PGPT0015345_974	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015345-fliOZ-K02418	NA	NA
D1-35_00571	750	fliP	COG1338	Flagellar biosynthetic protein FliP	ATGCCGTTGCGCATTCTGTTGGCGCTGGCCCTGTTGCTGGCTGCACCGTTGGCGTTTGCCGCCGACCCGTTGTCGATTCCGGCGATCACGTTGGGCACCAACGCCGAAGGGGCTCAGGAGTATTCGGTCAGCCTGCAGATTCTGCTGATCATGACCGCGCTGAGTTTCATCCCGGCGTTCGTCATGCTGATGACCAGTTTCACCCGGATCATCATTGTCTTTTCGATCCTGCGCCAGGCCCTGGGTTTGCAGCAGACGCCGTCGAACCAGATCCTCACGGGCATGGCGTTGTTCCTCACCATGTTCATCATGGCGCCAGTCTTCGACCGGGTGAACCGTGATGCGCTGCAACCCTACCTGGCCGAAACCCTCAGCGCCCAGGACGCGGTGGCCAGGGCCCAGGTGCCGATCAAGGATTTCATGCTCGCCCAGACTCGCAGCAGCGACTTGGAGTTGTTCATGCGCCTGTCCAAGCGCACCGACATCGCCAGCCCCGACCAGGCCCCATTGACCATCCTGGTGCCAGCGTTCGTGACGTCCGAGCTGAAAACGGCGTTCCAGATCGGTTTCATGATCTTCATCCCGTTCCTGATCATCGACCTGGTGGTCGCCAGTATCCTCATGGCGATGGGTATGATGATGCTGTCACCGCTGATCATTTCGCTGCCGTTCAAGATCATGCTGTTCGTGCTGGTGGATGGCTGGGCCTTGATCATCGGCACGCTGGCGGGCAGTTTCGGCGGTGTTTAG	MPLRILLALALLLAAPLAFAADPLSIPAITLGTNAEGAQEYSVSLQILLIMTALSFIPAFVMLMTSFTRIIIVFSILRQALGLQQTPSNQILTGMALFLTMFIMAPVFDRVNRDALQPYLAETLSAQDAVARAQVPIKDFMLAQTRSSDLELFMRLSKRTDIASPDQAPLTILVPAFVTSELKTAFQIGFMIFIPFLIIDLVVASILMAMGMMMLSPLIISLPFKIMLFVLVDGWALIIGTLAGSFGGV	PGPT0015350_1504	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015350-fliP|rhcR-K02419	NA	NA
D1-35_00572	270	fliQ	COG1987	Flagellar biosynthetic protein FliQ	ATGACGCCTGAAGTAGCGGTAGACCTGTTCCGCGAAGCACTCTGGCTGACCACCGTGATGGTTGCCATCCTGGTGATTCCGAGCCTGCTGGTGGGCTTGCTGGTGGCGATGTTCCAGGCCGCCACGCAGATCAACGAACAGACCCTGAGCTTCCTGCCGCGCCTGCTGGTGATGCTGGTAACGCTGATCGTCGCCGGCCCGTGGCTGGTGCAAACCTTCATGGAATACATCCTGCAGCTGTACGGCAGTATTCCCCAGTTGATCGGCTGA	MTPEVAVDLFREALWLTTVMVAILVIPSLLVGLLVAMFQAATQINEQTLSFLPRLLVMLVTLIVAGPWLVQTFMEYILQLYGSIPQLIG	PGPT0015355_526	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015355-fliQ|lfiQ-K02420	NA	NA
D1-35_00573	783	fliR	COG1684	Flagellar biosynthetic protein FliR	ATGTCGATGCTCGAACTGACGGACACCCAGATCAGCAGCTGGGTGGCGTCGTTTATCCTGCCGCTGTTTCGCGTCACCGCCGTTCTGATGAGCATGCCGGTCTTCGGCACGACCCTGGTGCCAGGCCGTGTGCGCCTGTACCTGGCTGTGGCAATCACCGTGGTCATCGCGCCCGGACTGCCGCCGATGCCGCCGGTCAATGCCCTTGACCTCAGTGCGCTGATGCTGGTGGCCGAGCAGATCCTCATTGGTGTCCTGCTGGGGTTTTCACTGCAGCTGTTCTTCCAGGCGTTCGTGGTGGCCGGGCAAATCATTTCGATCCAGATGGGCATGGCGTTCGCCTCCATGATCGACCCCACCAACGGCGTCAACACCGCGGTCATCGGGCAGTTCCTGACGATGCTGGTGACGTTGCTGTTCCTCGCCATGAACGGGCATCTGGTGGTGTTTGAAGTGCTCACCGAGAGCTTCACCACAATGCCGGTGGGCAGTGCGATGCTGGTCAATCATTTCTGGGACATCGCCGGCAAGCTCGGCTGGGTCCTGGGGGCGGCGATGCTGCTGGTATTGCCAGCCATCACCGCGCTGCTGGTGGTCAACATCGCTTTTGGCGTGATGACCCGCGCGGCGCCGCAGCTGAACATTTTTTCCATCGGCTTCCCCCTCACGCTGGTGCTGGGCATGGTGATCTTCTGGGTCAGCCTGGGGGATATTCTCAACCAGTATCAGCCGTTGGCGACTCAGGCCTTGCAGCTGCTACGCGACATGGCACAGGCGCGCTGA	MSMLELTDTQISSWVASFILPLFRVTAVLMSMPVFGTTLVPGRVRLYLAVAITVVIAPGLPPMPPVNALDLSALMLVAEQILIGVLLGFSLQLFFQAFVVAGQIISIQMGMAFASMIDPTNGVNTAVIGQFLTMLVTLLFLAMNGHLVVFEVLTESFTTMPVGSAMLVNHFWDIAGKLGWVLGAAMLLVLPAITALLVVNIAFGVMTRAAPQLNIFSIGFPLTLVLGMVIFWVSLGDILNQYQPLATQALQLLRDMAQAR	PGPT0015360_886	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015360-fliR|lfiR-K02421	NA	NA
D1-35_00574	1137	flhB_1	COG1377	Flagellar biosynthetic protein FlhB	ATGGCTGAGAGCGAAAGCGGTCAGGACAAGACAGAAGACCCCACGGAGAAACGCACCAGGGAGTCCCGCGAGAAGGGTGAGATCGCCCGTTCCAAGGAGCTCAACACCCTGGCGATCATGCTCGCCGGCGCTGGCGGCTTGCTGATCTATGGCGGCGGGCTGGCGCTGGAACTGCTGGAAATCATGCGCCTGAATTTTTCCTTGCCTCGGGAAGTATTGCTGACCCCTGGCGCCATGACGCAGTACCTGCTGCATTCGGGCAAGATCGCGCTTCTGGCGATGCAGCCCGTGCTGATTTTTTTATTGTTGGCGGCATTCATCGGCCCGATTTCCCTGGGCGGATGGCTCTTCGCCGCCGGCAGCCTGGCACCTAAGTTCAGCCGGATGAACCCGGCCGCCGGCATCAAGCGCATGTTTTCCACCACGGCGCTGGTGGAGCTGCTCAAGGCTTTCGGCAAGTTCCTGCTGGTCCTGTCCGTCGCGTTGGTGGTGCTGGAGGGCGACATCGACGATCTGCTGCGCATCGCCCATCAACCGCTGGAACAGGCCATCATTCATAGCGTGCAGCTGGTGGGATGGAGCACGTTGTGGATGTCTTGCGGCCTGATCCTGATCGCTGCCATCGATGTGCCGATCCAGCTCTATCAGAGCAAGCAGAAGCTGATGATGACCAAGCAGGAAGTGCGCGACGAGCACAAGGACGCGGAGGGCAAGCCGGAGGTCAAGCAGCGGATTCGCCAATTGCAGCGCGACGCCTCCCAGCGGCGCATGATGGCGGCGATTCCCGATGCCGACGTGGTCATCACCAACCCGACCCACTATGCGGTGGCGCTCAAATACGATCCTGAAAAAGGCAATGCGCCGGTGCTGCTGGCCAAGGGCAGTGATTTCCTGGCGTTGAAAATCCGCGAAATCGCCGTTGCCAACGAAGTGATGCTGCTCGAATCGCCGGCGCTGGCGCGCTCGATCTACTACTCCACCGAACTCGATCAGGAAATTCCCGGAGGTCTGTACCTGGCTGTGGCCCAGGTGCTGGCCTACGTCTACCAGATCCGCCAGCACCGCGCCGGCAAGGGCAAGCGTCCCGAACCGCTCAAGGACCTGCCGATCCCGCCGGATTTGCGGCGTGACTCCTGA	MAESESGQDKTEDPTEKRTRESREKGEIARSKELNTLAIMLAGAGGLLIYGGGLALELLEIMRLNFSLPREVLLTPGAMTQYLLHSGKIALLAMQPVLIFLLLAAFIGPISLGGWLFAAGSLAPKFSRMNPAAGIKRMFSTTALVELLKAFGKFLLVLSVALVVLEGDIDDLLRIAHQPLEQAIIHSVQLVGWSTLWMSCGLILIAAIDVPIQLYQSKQKLMMTKQEVRDEHKDAEGKPEVKQRIRQLQRDASQRRMMAAIPDADVVITNPTHYAVALKYDPEKGNAPVLLAKGSDFLALKIREIAVANEVMLLESPALARSIYYSTELDQEIPGGLYLAVAQVLAYVYQIRQHRAGKGKRPEPLKDLPIPPDLRRDS	PGPT0015325_1015	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015325-flhB-K02401	NA	NA
D1-35_00575	2133	flhA	COG1298	Flagellar biosynthesis protein FlhA	TTGGTGGATCGCTCTCAGTTATTCAGCACCGCACGCAGCAACGTAGCCGACCTCAGCCGGGGGAATCTGGGTGTGCCGCTGTTGCTGCTGGTCATGCTCGCCATGATGATGCTGCCGATACCCCCGTTCCTGCTCGACGTGTTCTTCACGTTCAACATTGCGCTGTCCATCGTGGTACTGCTGGTCTGCGTATACGCCTTGCGGCCGCTGGATTTCGCGGTGTTCCCGACCATCCTGCTGGTGGCGACGCTGATGCGCCTGGCGCTGAACGTGGCGTCCACTCGCGTGGTCATGCTCCACGGCCAGGACGGCCACGCTGCCGCCGGTAAGGTGATCCAGGCCTTCGGTGAAGTGGTGATCGGCGGTAACTACGTGGTCGGTATCGTGGTTTTCGCCATCCTGATGATCATCAACTTCGTCGTGGTGACCAAGGGTGCCGGGCGGATTTCCGAGGTGAGCGCACGTTTCACCCTCGATGCGATGCCCGGCAAGCAGATGGCGATCGACGCTGACCTCAACGCCGGCCTGATCGATCAGAACCAGGCCAAGGCTCGTCGTCTTGACGTGGCTCAGGAGGCCGAGTTCTACGGTTCCATGGACGGTGCGAGCAAGTTCGTGCGTGGCGACGCCATCGCCGGCCTGCTGATCCTGTTCATCAACCTCATCGGCGGCATGGCCGTCGGTATCTTCCAGCACGGTATGACGTTCGGTGACGCTGGCAGGGTTTACGCCTTGCTGACCATCGGTGACGGTTTGGTGGCGCAATTGCCATCACTGTTGTTATCCACAGCTGCCGCGATCATGGTGACCCGTGCTTCGGGCTCCGAAGACATGGGCAAGCAAATCAATCGCCAGATGTTCGCTTCGCCCAAGGCCCTGGCCGTGGCGGCCGGCCTGATGGCGGTGATGGGTATCGTGCCGGGCATGCCCCACGTGTCGTTCCTGAGCATGGCTGCCCTGGCTGCTGGTGGCGCCTACCTGTTCTGGAAAAAGCAGAACGGGCAAAAGGTCCAGGCGCTGGAGGAGGTCAAGCGTCAGCAGGAACTGCTGCCATCGCCGGCGCGGGCCATGGAAACCAAGGAGTTGGGTTGGGACGATGTGACGCCGATCGACATGATCGGCCTGGAAGTCGGCTACCGCCTGATCCCGCTGGTCGACCGCAACCAGGGTGGTCAACTGCTGGCCCGGATCAAGGGCGTGCGCAAGAAGCTGTCCCAGGACCTGGGCTTCCTGATGCCCACCGTGCATATCCGCGACAACCTCGATCTGGCCCCGAGCGCCTATCGCCTGACGCTCATGGGCGTGATCCTGGCCGAAGCGGAGATCTATCCCGACCGCGAGCTGGCGATCAACCCAGGACAGGTCTACGGTTCGCTCAACGGTATTACCGCCAAGGATCCGGCTTTCGGCCTGGAAGCGGTGTGGATCGAAATCAGCCAGCGGGCCCAGGCGCAATCGCTCGGTTATACCGTGGTAGACGCCAGCACCGTGGTGGCGACCCACTTGAACCAGATTTTGTACAAGCACTCCAGCGAGCTGATCGGTCACGAGGAAGTCCAGCAATTGCTGCAAGTACTGGCCAAAGGCTCGCCAAAACTGGCCGAGGAGCTGGTGCCGGGCGTGGTGTCGCTGTCGCAGTTGCTCAAGGTGTTGCAGGCGCTGTTGGCCGAACAGGTCCCGGTGCGCGACATTCGCAGTATCGCCGAAGCCATCGCCAACAACGCTTCGAAGAGTCAAGATACCGCCGCGTTGGTCGCTGCGGTGCGGGTCGGCGTATCCCGCGCAATCGTCCAAAGCATTGTAGGCACTGAGTCTGAGCTGCCTGTGATCACTCTGGAGCCAAGGTTGGAACAGATATTGCTCAATAGTCTGCAGAAGGCAGGACAAGGCTCGGAAGAGGGTGTTCTGCTGGAGCCAAGCATGGCCGAGAAGCTGCAGCGTTCGTTGATCGACGCAGCCCAGCGGCAAGAGATGCAAGGCCAACCGGTGATCCTGCTGGTGGCCGGTCCGATTCGCGCGATGCTCTCGCGATTCGGTCGCCTCGCGGTCCCGGGGCTGCATGTGCTGGCGTACCAGGAAATACCGGACAACAAGCAAGTGACCATCGTTGCGACAGTAGGGCCCAACGGCTGA	MVDRSQLFSTARSNVADLSRGNLGVPLLLLVMLAMMMLPIPPFLLDVFFTFNIALSIVVLLVCVYALRPLDFAVFPTILLVATLMRLALNVASTRVVMLHGQDGHAAAGKVIQAFGEVVIGGNYVVGIVVFAILMIINFVVVTKGAGRISEVSARFTLDAMPGKQMAIDADLNAGLIDQNQAKARRLDVAQEAEFYGSMDGASKFVRGDAIAGLLILFINLIGGMAVGIFQHGMTFGDAGRVYALLTIGDGLVAQLPSLLLSTAAAIMVTRASGSEDMGKQINRQMFASPKALAVAAGLMAVMGIVPGMPHVSFLSMAALAAGGAYLFWKKQNGQKVQALEEVKRQQELLPSPARAMETKELGWDDVTPIDMIGLEVGYRLIPLVDRNQGGQLLARIKGVRKKLSQDLGFLMPTVHIRDNLDLAPSAYRLTLMGVILAEAEIYPDRELAINPGQVYGSLNGITAKDPAFGLEAVWIEISQRAQAQSLGYTVVDASTVVATHLNQILYKHSSELIGHEEVQQLLQVLAKGSPKLAEELVPGVVSLSQLLKVLQALLAEQVPVRDIRSIAEAIANNASKSQDTAALVAAVRVGVSRAIVQSIVGTESELPVITLEPRLEQILLNSLQKAGQGSEEGVLLEPSMAEKLQRSLIDAAQRQEMQGQPVILLVAGPIRAMLSRFGRLAVPGLHVLAYQEIPDNKQVTIVATVGPNG	PGPT0015320_313	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
D1-35_00576	1350	srp54		Signal recognition particle 54 kDa protein	ATGCAAGTGAAGCGTTTTTTTGCCGCCGATATGCGTCAGGCCATGAAGCTGGTACGTGACGAGCTGGGCGCTGAAGCAGCCATCATCGGTAATCGCCGGATCGCCGGCGGTGTCGAGCTGACGGCTGCCCTGGATTACAAATTGTCGGCGCTGGCCCCGCGGGTTCCGAACATGGAGCTTGAGGATGAGCTGCGCAAGACCCAGTCGCGCATCGCCAGCGCCCAGGCCGAACTGAGCCTGCGCAGCAGCGAAGGCGAAGGCAGCGCGGGGACCAATCGTCAATTGTTCGCCGGCCAGCCACTGACGGCCGGCCTGCCGCTGACCGCTGCCGAACCGCTGATCGAGCCAGCCCAGGCCGAGCCGCGTCGTCCGGCACCGGCGCCAGCCGCGCCAGCCGCGGGTGTCGACCCACGTGCCCTGGACTCGATGCGCTTTGAACTCAACAGCCTGCGTGAGCTGATGGAAGTCCAGCTTGGCTCGTTGGCCTGGAACCAGCTGCAAGGCAGCCGTCCGGCCCAGGCCAACCTGTGGCGTCGCCTGCAACGCATCGGCTTGTCCGGCCCGTTGTCCCGCGACCTGCTGGCACTGATCAACGATATCGAAGAGCCTCGCCAGGCCTGGCGCATGTTGTTGGCGCACCTGGCGCGGATGATCGCCACGCCGGAAGTCGAGCCGCTGGAAGAGGGCGGGGTAATTGCCATGGTCGGCCCGGCCGGCATGGGCAAGACCACCACCCTGGCCAAGCTCGCCGCCCGTTATGTACTCAAGTACGGCGCCCAGAGCATCGCCCTGGTGAGCATGGACAGTTTCCGCATCGGCGCCCAGGAGCAACTCAAGACCCTGGGCCGGATCCTCAATGTGTCGGTGACCCATGTGGATCCGGGCCAATCGCTGGCCCAGGCGCTGGAACCACTGCTGCGCAAGCGCGTCGTGCTGATCGACACCGCCGGCCTGCAAGCCAGCGATCCGGCCCTGCGCATGCAGCTGGAAAGCCTGGCCGGGCGTGGCATCAAGTCAAAAAATTATCTCGTGTTGGCAACCACCAGCCAGAAACAGGTTCTAACCGCCGCATACCACAGCTACAAACGCTGCGGGCTGGCCGGTTGCATCCTGACCAAGCTGGACGAAACGGCAAGCCTGGGCGAGGTGTTGAGCCTGGCGATCGGTCATGAACTACCGGTGGCCTACCTGACCGACGGGCCGCGGATCCCGGATGATTTGCATCTGCCGCGCCGTCATCAACTGGTCAGTCGTGCCGTGAGTGTGCAAATGCAGGAAGAACCCAGCGACGAAGCCATGGCTGACATGTTCGCTGACATCTACCACAGCCCGACCAAGCAGGTCGGCTGA	MQVKRFFAADMRQAMKLVRDELGAEAAIIGNRRIAGGVELTAALDYKLSALAPRVPNMELEDELRKTQSRIASAQAELSLRSSEGEGSAGTNRQLFAGQPLTAGLPLTAAEPLIEPAQAEPRRPAPAPAAPAAGVDPRALDSMRFELNSLRELMEVQLGSLAWNQLQGSRPAQANLWRRLQRIGLSGPLSRDLLALINDIEEPRQAWRMLLAHLARMIATPEVEPLEEGGVIAMVGPAGMGKTTTLAKLAARYVLKYGAQSIALVSMDSFRIGAQEQLKTLGRILNVSVTHVDPGQSLAQALEPLLRKRVVLIDTAGLQASDPALRMQLESLAGRGIKSKNYLVLATTSQKQVLTAAYHSYKRCGLAGCILTKLDETASLGEVLSLAIGHELPVAYLTDGPRIPDDLHLPRRHQLVSRAVSVQMQEEPSDEAMADMFADIYHSPTKQVG	PGPT0015550_774	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015550-flhF-K02404	NA	NA
D1-35_00577	831	ylxH	COG0455	Flagellum site-determining protein YlxH	ATGGGCAGCATGCATCCCGTACAGGTGATCGCGGTGACCGGCGGCAAAGGTGGCGTCGGGAAGACTAACGTGTCAGTGAACTTGTCCCTGGCTCTGGCAGAGCTTGGCCGACGGGTCATGCTGCTGGACGCCGACCTGGGCCTGGCGAACGTCGACGTGCTGCTGGGGCTCACTCCCAAGCGCACGCTGGCGGACGTGATCGAAGGCCGCTGCGAACTGCGCGACGTGCTCCTGCAGGGGCCTGGCGGGATTCGCATCGTGCCGGCCGCCTCCGGTACCCAAAGCATGGTTCACCTGACGCCGGCGCAGCACGCCGGCCTGATCCAGGCTTTCAGCGACATCGGCGACAACCTCGATGTGCTGGTGATCGACACGGCCGCCGGTATCGGTGACTCGGTGGTCAGTTTTGTCCGCGCCGCCCAGGAAGTCCTGCTGGTGGTCTGTGACGAACCGACCTCCATCACCGATGCCTACGCCCTGATCAAACTGCTCAACCGCGACTATGGCATGAACCGCTTCCGCGTCCTGGCCAACATGGCCCAGAGCCCGCAGGAAGGACGCAACCTGTTCGCCAAGTTGACGAAGGTCACGGATCGCTTCCTGGACGTCGCCCTACAATATGTCGGCGCAGTGCCTTACGACGAAAGTGTACGCAAGGCTGTCCAGAAGCAACGTGCCGTCTATGAAGCTTTTCCACGTTCCAAATGCGCGCTGGCGTTCAAGGCTATCGCCCAGAAGGTCGATACCTGGCCGCTGCCGGCCAACCCTCGCGGGCATCTGGAATTTTTCGTCGAGCGTCTCGTGCAACAAACGGCAGGGCCCGTGTTATGA	MGSMHPVQVIAVTGGKGGVGKTNVSVNLSLALAELGRRVMLLDADLGLANVDVLLGLTPKRTLADVIEGRCELRDVLLQGPGGIRIVPAASGTQSMVHLTPAQHAGLIQAFSDIGDNLDVLVIDTAAGIGDSVVSFVRAAQEVLLVVCDEPTSITDAYALIKLLNRDYGMNRFRVLANMAQSPQEGRNLFAKLTKVTDRFLDVALQYVGAVPYDESVRKAVQKQRAVYEAFPRSKCALAFKAIAQKVDTWPLPANPRGHLEFFVERLVQQTAGPVL	PGPT0015555_1274	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015555-flhG-K04562	NA	NA
D1-35_00578	744	fliA	COG1191	RNA polymerase sigma factor FliA	ATGACAGCCAGCGGTTACAACCATCTCTACAAAAAATCGGCACGGGACGCCCAGTACGAACTGATCGAGCGTTATGCGCCGTTGGTCAAGCGCATCGCCTATCACTTGCTGGCACGCTTGCCGGCCAGCGTCCAGGTCGAAGACTTGATCCAGGCGGGCATGATCGGCCTGCTCGAAGTGTCGAACAAATACGACGCGAGCAAGGGCGCCAGTTTCGAGACGTATGCCGGTATCCGGATTCGCGGAGCGATGCTCGATGAAGTCCGCAAGGGCGACTGGGCGCCGCGTTCGGTGCACCGCAATACCCGTATGGTCAGTGACGCGATCCGTGCGATTGAAGCTAAAACCGGGCGTGACGCTAAAGATCATGAAGTTGCGGCCGAACTCCAGTTGAGTCTCGATGATTATTACGGGATTTTGAACGATACCTTGGGCAGCCGCCTGTTCAGTTTCGACGACCTTTTGCAGGACGGCGAGCACGAAGGGCTGCACGAGGACAATGCGAGTGCTCACATGGAGCCGTCGCGTGACCTGGAAGACGAACGTTTCCAGAGCGCGCTGGCGGATGCGATTGCCAATTTGCCGGAGCGTGAGCGACTGGTCTTGGCGCTGTACTACGACGAAGAGCTGAATCTCAAGGAAATCGGTGAGGTCCTGGGGGTCAGCGAATCGCGGGTCAGCCAGTTACACAGCCAGTGCGCGGCCCGCTTGCGGGGGCGTTTGGGGGAGTGGCGAGCGCGCTGA	MTASGYNHLYKKSARDAQYELIERYAPLVKRIAYHLLARLPASVQVEDLIQAGMIGLLEVSNKYDASKGASFETYAGIRIRGAMLDEVRKGDWAPRSVHRNTRMVSDAIRAIEAKTGRDAKDHEVAAELQLSLDDYYGILNDTLGSRLFSFDDLLQDGEHEGLHEDNASAHMEPSRDLEDERFQSALADAIANLPERERLVLALYYDEELNLKEIGEVLGVSESRVSQLHSQCAARLRGRLGEWRAR	PGPT0015610_1065	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
D1-35_00579	372	cheY_1	COG0784	Chemotaxis protein CheY	ATGAAAATCCTCATCGTTGATGACTTCTCAACGATGCGGCGGATCATAAAAAACCTGTTGCGTGACCTCGGGTTCACCAACACGGTCGAGGCTGACGATGGCACCACTGCCATTCCAGTCCTCAACAGCGGGAGCATCGACTTTCTGGTGACTGACTGGAACATGCCCGGCATGACCGGTATCGACTTGCTGCGCCACGTGCGCGCCGATGAAAAACTCAAGCACCTGCCGGTGCTGATGGTCACCGCCGAAGCCAAGCGCGAGCAGATCATCGAAGCGGCCCAGGCCGGTGTAAACGGCTATGTGGTCAAACCCTTCACGGCCCAGGCGTTGAAAGAGAAGATCGAAAAAATCTTCGAACGCATCGGTTAA	MKILIVDDFSTMRRIIKNLLRDLGFTNTVEADDGTTAIPVLNSGSIDFLVTDWNMPGMTGIDLLRHVRADEKLKHLPVLMVTAEAKREQIIEAAQAGVNGYVVKPFTAQALKEKIEKIFERIG	PGPT0015690_2098	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015690-cheY|yneI-K03413	NA	NA
D1-35_00580	786	cheZ	COG3143	Protein phosphatase CheZ	ATGGACAACGAATCTTCAATGGGCGATTTCGAATCGACCCTGAAAAAACATGCCCGCGAACTGGTCGACAGCCTTGAAAAGGGCCGCTTCGGTGACGCGGTTCAAATGATTCATGAGCTCAACCAGACCCGTGACCGCGGTCTGTACCAGGAAGTCGGCAAGCTCACCCGTGAACTGCACAGCGCGATCGTCAATTTCCAGATCGATCCTAACATGCCACAGGCCGAGGAAGTCTCGCAGATCACCGACGCCACCGAGCGCCTGGGGTATGTGGTCAAGCTGACCGAAGCCGCGGCCAACCGCACCATGGACCTGGTGGAAAGCGCTACGCCCCTGGTCAACGGCCTGAGCGAGGAAGCCCAGGCGTTGAGTACCGATTGGGGGCGCTTCATGCGTCGCGAAGTCGGTGCCGAGGAGTTTCGCGAGCTGGCCCGTCGGGTCGACGGTTTCCTGACGCGCAGCAGCAGCGAAAACCGCGCCGTGGCGAGCAATCTCAATGACATCCTGCTGGCCCAGGACTACCAGGACCTGACAGGCCAGGTGATCAAGCGCGTGACCCAGTTGGTCACCGAAGTGGAAAGCAATTTGCTCAAACTGGTGCTCATGGCCAGCCAGGTCGATCGCTTTGCCGGCATCGAACACGACCGTGAGGCGATGCTTGCTGAAAAAGATCCACAAAAACATCTCTCTCAGGGTGAAGGTCCGCAGATTCATGCCGATAAAAGAGAAGACGTTGTGTCCGGTCAGGACGATGTGGACGATTTGCTGTCCAGCCTTGGATTTTGA	MDNESSMGDFESTLKKHARELVDSLEKGRFGDAVQMIHELNQTRDRGLYQEVGKLTRELHSAIVNFQIDPNMPQAEEVSQITDATERLGYVVKLTEAAANRTMDLVESATPLVNGLSEEAQALSTDWGRFMRREVGAEEFRELARRVDGFLTRSSSENRAVASNLNDILLAQDYQDLTGQVIKRVTQLVTEVESNLLKLVLMASQVDRFAGIEHDREAMLAEKDPQKHLSQGEGPQIHADKREDVVSGQDDVDDLLSSLGF	PGPT0015695_200	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015695-cheZ-K03414	NA	NA
D1-35_00581	2250			hypothetical protein	ATGAGCTTCGGCGCCGATGAAGAGATCCTTCAGGATTTCCTGGTTGAGGCCGGCGAGATTCTAGAGCAACTGTCCGAACAGCTGGTCGAGCTGGAAAGCCGACCTGATGATGCGGATCTGCTCAATGCAATTTTTCGCGGTTTCCACACTGTAAAAGGAGGCGCCGGCTTCCTCCAGCTCAATGAGCTGGTGGAGTGCTGCCACATTGCCGAAAACGTGTTCGACATCCTGCGCAAGGGTGAGCGTCGCGTTGACTCGGAATTGATGGACGTCGTGCTCGAAGCGCTGGATGCGGTCAACAGCATGTTCAGCGAAGTGCGCGAGCGTTCGCCGATCACCCCCGCCACGCCTGAGCTGCTTGCTGCATTGGCGCGGCTGGCCGAGCCGCAGTCGGCTGACGAAGCCGCGCCGGTTGCCGAGGCTGTGGCTGAAGAGCCGGTTGCCGAGGAATCGGGTGACATTACCGACCACGAATTTGAATCGCTGCTGGACTCGCTGAGTGCCGTCAAGGCCCAGGCCGAGGCTCCGGCCGCACCCGCTGCGCCAGCCGCCGCTGCTGCCCCAGGCAGTGATGAAATCACCGACGCCGAGTTCGAGTCGTTGCTCGACCAGCTCCACGGCAAGGGCCAGTTCGCCCCTGATGCCGTTGCCGCCCCGGCGGCCCCGGCCGCGCCAAAGGCTGCGGGGGATAACTCCGACATCACCGACGACGAATTCGAAGCATTGCTCGACCAGTTGCACGGCAAGGGCACCTTTGCCGTCGATGCGCTGGATTCGGCCATCGCTGCTGCGCCAGCCCCGGCCAAGCCAACCGCGGCCGCCGCCGGTGGCGACCTGATCAGCGACCACGAATTCGAATCCCTGCTCGACGAATTGCACGGCAAGGGCAAGTTCAGCGAAGTCGGCACGGCCACCGCCGCGCCTGCCGCCGCCACTGCTGCGCCTGCCGCCAAAGCCGCGCCCAAGCCCGCTGCCAAGGCACCGGAGCCGAAGGCCGAGACACCCAAGCCTGCCGCCGCCGCAGCGCCGGCCCCAGCCCGTGCGCCGTCTGCGCCGCCTGCGGAGAAACCGGCCAGCGAAGCCGAGACCACCGTTCGGGTCGACACCGCGCGCCTGGACGAAATCATGAACATGGTTGGCGAACTGGTGCTGGTGCGTAACCGCCTGGTGCGCCTGGGCCTCAACAGCCAGGACGAAGCGATGTCCAAGGCCGTGTCGAACCTCGACGTGGTCACGGCTGACCTGCAGACCGCGGTCATGAAGACCCGGATGCAGCCGATCAAGAAAGTCTTCGGGCGCTTCCCGCGCCTGGTTCGTGACCTGGCTCGCCAGCTCAAGAAAGAAATCAACCTGGAGCTGGTGGGTGAAGAGACCGACCTCGACAAGAACCTTGTCGAGGCCCTGGCCGACCCGCTGGTCCACTTGGTGCGCAACGCGGTCGACCACGGCATCGAGTCGCCGGAAGAGCGCGAGGCCTCGGGCAAGGTCCGCAGCGGCAAGGTGATCCTGGCCGCCGAGCAGGAGGGCGACCACATCCTGCTGTCGATCTCCGACGACGGCAAGGGCATGGACCCGCACGTACTCCGGGCGATCGCGGTGAAACGCGGCGTGATGGACAAGGACGCGGCCGACCGCCTGAGCGACACCGAGTGCTACAACCTGATTTTCGCTCCGGGCTTCTCGACCAAGACCGAGATTTCCGACGTGTCGGGTCGTGGCGTGGGCATGGACGTGGTGAAAACCAAGATTTCCCAGCTCAACGGCTCGATCAACATCTACTCGACCAAGGGCCAGGGCTCGAAAATCGTCATCAAGGTCCCGTTGACCCTGGCGATCATGCCGACCCTGATGGTGATGCTGGGCAACCAGGCCTTCGCCTTCCCGCTGGTCAACGTCAACGAGATCTTCCACCTCGACCTGTCGCGCACCAACGTGGTCGACGGCCAGGAAGTGGTCATCGTACGGGACAAGGCGCTGCCGCTGTTCTACCTCAAGCGCTGGCTGGTCAGCTCCGCCGCTCATGTCGAGCAGGGCGAGGGCCACGTGGTGATCCTTTCGGTGGGCACCCAGCGGATCGGCTTCGTCGTCGACCAACTGGTGGGCCAGGAAGAAGTGGTCATCAAGCCGTTGGGCAAGATGCTCCAAGGCACCCCGGGCATGTCCGGCGCCACCATCACCGGCGACGGCCGCATCGCGTTGATTCTCGATGTGCCTAGCATGCTCAAGCGCTACGCCGCCCGGCGTATTTGA	MSFGADEEILQDFLVEAGEILEQLSEQLVELESRPDDADLLNAIFRGFHTVKGGAGFLQLNELVECCHIAENVFDILRKGERRVDSELMDVVLEALDAVNSMFSEVRERSPITPATPELLAALARLAEPQSADEAAPVAEAVAEEPVAEESGDITDHEFESLLDSLSAVKAQAEAPAAPAAPAAAAAPGSDEITDAEFESLLDQLHGKGQFAPDAVAAPAAPAAPKAAGDNSDITDDEFEALLDQLHGKGTFAVDALDSAIAAAPAPAKPTAAAAGGDLISDHEFESLLDELHGKGKFSEVGTATAAPAAATAAPAAKAAPKPAAKAPEPKAETPKPAAAAAPAPARAPSAPPAEKPASEAETTVRVDTARLDEIMNMVGELVLVRNRLVRLGLNSQDEAMSKAVSNLDVVTADLQTAVMKTRMQPIKKVFGRFPRLVRDLARQLKKEINLELVGEETDLDKNLVEALADPLVHLVRNAVDHGIESPEEREASGKVRSGKVILAAEQEGDHILLSISDDGKGMDPHVLRAIAVKRGVMDKDAADRLSDTECYNLIFAPGFSTKTEISDVSGRGVGMDVVKTKISQLNGSINIYSTKGQGSKIVIKVPLTLAIMPTLMVMLGNQAFAFPLVNVNEIFHLDLSRTNVVDGQEVVIVRDKALPLFYLKRWLVSSAAHVEQGEGHVVILSVGTQRIGFVVDQLVGQEEVVIKPLGKMLQGTPGMSGATITGDGRIALILDVPSMLKRYAARRI	PGPT0015645_1447	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015645-cheA|wspE-K03407	NA	NA
D1-35_00582	1137	cheB1	COG2201	Protein-glutamate methylesterase/protein-glutamine glutaminase 1	ATGGTAGTTAAAGTCCTGGTGGTGGACGATTCGGGGTTCTTCCGCCGCCGCGTCTCGGAAATTCTTTCGGCGGACACCAGCATCCAGGTCGTCGGTACGGCGACCAACGGCAAAGAGGCGATCGATCAGGCGCTGGCGCTCAAGCCGGACGTGATCACCATGGACTATGAGATGCCGATGATGGACGGCATCACGGCGGTGCGGCATATCATGCAGCGCTGCCCGACCCCGGTGTTGATGTTCTCGTCCCTGACCCATGAAGGCGCCCGTGTCACCCTCGATGCGCTGGACGCCGGGGCGGTCGACTTCCTGCCGAAGAATTTCGAAGACATCTCGCGCAACCCGGACAAGGTCCGTCAGTTGCTGTGCGAGAAAGTCCACAGCATTTCCCGCAGCAACCGCCGGGTCAGTGCCTACAGCACACCGGCGCCCGCGCCGGTTGTTGCGCCGACGTCCGCGCCCGCGTCTTCATCCTCGTCAAGCAGCTTCAATCCGGCACCGGTTCGCAGCGCTCCGGCACCAGCGCCGGCGCGCTCGGCACCGGCCAGCGCAGCGTCGCCGGCACCCAAGCGCAAGGCCTACAAACTGGTTGCCATCGGTACGTCCACCGGCGGTCCGGTGGCGCTGCAGCGGGTCCTGACCCAACTGCCGGCGAATTTCCCGGCGCCCATCGTGCTGATCCAGCACATGCCCGCGGCATTTACCAAGGCATTTGCCGAGCGTCTGGACAAACTCTGTCGTATCAGCGTCAAGGAAGCCGAGGACGGCGACATCCTGCGGCCGGGCCTGGCGCTGTTGGCGCCGGGTGGCAAGCAGATGATGATCGACGGCCGTGGCGCGGTGAAAATCCTGCCAGGTGACGAGCGTCTGAACTACAAGCCTTGCGTGGACATTACCTTCGGTTCCGCGGCGAAATCCTACGGCGACAAAGTTCTGGCGGTGGTCCTCACCGGCATGGGCGCCGACGGTCGCGAGGGCGCGCGCCTGCTCAAGCAGGGCGGCAGCGCGATCTGGGCCCAGGACGAGGCCAGTTGCGTGATCTATGGCATGCCCATGGCAATCGTCAAGGCCGACCTGGCCGACGCGGTCTACAGCCTGGACGACATGGGTAAACATCTGGTCGAGGCGTGCCTGTAA	MVVKVLVVDDSGFFRRRVSEILSADTSIQVVGTATNGKEAIDQALALKPDVITMDYEMPMMDGITAVRHIMQRCPTPVLMFSSLTHEGARVTLDALDAGAVDFLPKNFEDISRNPDKVRQLLCEKVHSISRSNRRVSAYSTPAPAPVVAPTSAPASSSSSSSFNPAPVRSAPAPAPARSAPASAASPAPKRKAYKLVAIGTSTGGPVALQRVLTQLPANFPAPIVLIQHMPAAFTKAFAERLDKLCRISVKEAEDGDILRPGLALLAPGGKQMMIDGRGAVKILPGDERLNYKPCVDITFGSAAKSYGDKVLAVVLTGMGADGREGARLLKQGGSAIWAQDEASCVIYGMPMAIVKADLADAVYSLDDMGKHLVEACL	PGPT0015650_692	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015650-cheB|chpB|wspF-K03412	NA	NA
D1-35_00583	741	pomA	COG1291	Chemotaxis protein PomA	ATGGACGTGCTCAGCCTGATCGGCATCATCATGGCGTTCGTCGCCATCATTGGTGGCAATTACCTGGAAGGCGGTCACCTCGGCGCGTTGGCCAACGGCCCGGCCGCGTTGATCGTGATCGGTGGCACCGTAGGCGCTGCGCTGTTGCAGTCGCCGATGAGCGCCTTCAAGCGCGCCATGCAGGTATTGGTGTGGATTCTGTTCCCGCCGCGGGTCGACCTGGCCGGCGGCATCGACCGCGTGGTGAACTGGAGCCTGACCGCCCGCAAGGAAGGTCTGCTGGGTCTGGAAGGGGTGGCCGACGCCGAACCCGACAGCTACTCGCGCAAGGGCCTGCAATTGCTGGTCGACGGCGCCGAGCCGGAAGCGATCCGCAGCATCCTGGAGGTGGATTTCTACACCCAGGAAAGTCGCGACATCGAAGCGGCGAAAGTCTTCGAAAGCATGGGTGGCTATGCGCCGACCATCGGCATCATCGGTGCGGTGATGGGCCTGATCCATGTGATGGGCAACCTGGCCGATCCGTCGCAACTGGGCAGCGGCATCGCCGTGGCCTTCGTCGCGACCATCTATGGTGTGGCGAGCGCCAACCTGGTGCTGCTGCCGATCGCGGCCAAGCTCAAGTCCATTGCCATGCGCCAGTCGCGCTATCGGGAAATGCTCCTGGAAGGCATCCTGTCTATCGCCGAAGGTGAAAACCCGCGCTCCATCGAATTGAAGCTCCAGGGCTTCATGGACTGA	MDVLSLIGIIMAFVAIIGGNYLEGGHLGALANGPAALIVIGGTVGAALLQSPMSAFKRAMQVLVWILFPPRVDLAGGIDRVVNWSLTARKEGLLGLEGVADAEPDSYSRKGLQLLVDGAEPEAIRSILEVDFYTQESRDIEAAKVFESMGGYAPTIGIIGAVMGLIHVMGNLADPSQLGSGIAVAFVATIYGVASANLVLLPIAAKLKSIAMRQSRYREMLLEGILSIAEGENPRSIELKLQGFMD	PGPT0015370_3278	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015370-motA-K02556	NA	NA
D1-35_00584	885	motB_1	COG1360	Motility protein B	ATGGCACGTCGCAGACATCGTGAAGAACACGTCAACCATGAACGCTGGCTGGTTTCCTACGCCGACTTCATCACGTTGCTGTTTGCCTTTTTTGTGGTCATGTATTCGATCTCCTCGGTCAACGAGGGCAAGTACAAGGTCATTTCCGAAGCGTTGATTGGCGTTTTCACTGATTCGGACCGTGCTCTCAAGCCGATTCCCATCGGCGACGAACGCCCGAAGACGACGACCCCGGCCAAGCCGTTGGTCAAGGACAGCGAGCAGGTCGATGCTGGCATTGCCGGTGGCAGCGATCCGTTGAAAAGCATTGCCGACGACATCAGCGCGGCGTTCGGCGACCTTATCAGCTCCAACCAGATGACCGTGCGCGGCAATGAGTTGTGGGTCGAGATCGAGCTCAACTCCAGCCTGCTGTTCGGTAGCGGCGACGCGATGCCTAGCGACATGGCGTTCAATATCATCGATAAGGTCGCGGCGATCCTGAAACCGTTCGACAACCCGATCCACGTCGAAGGTTTCACCGATGACCAGCCGATCCGCACCGCGCAGTACCCGACCAACTGGGAGCTGTCGTCGGCCCGTTCGGCGAGCATCGTGCGCATGCTTGCCATGCAGGGCGTCAATCCCGGACGCCTGGCCTCGGTGGGGTATGGCGAGTTCCAACCGGTGGCCAACAACGCCACCGCCGAAGGGCGCGCGCGCAACCGGCGGGTAGTGCTCGTGGTGTCGCGTAACCTTGATGTCCGGCGCAGCCTGACCGGTACCGGCACCGCCAATGCAAAACCCGATGCGGCATTGAAGCGGGCTGGCACACAAACTGCACCGACCCCGGTCAAGTCGCCGGAAAGACAGAACGCCGTCAATTCTCCGTCACCGGCTTTATAA	MARRRHREEHVNHERWLVSYADFITLLFAFFVVMYSISSVNEGKYKVISEALIGVFTDSDRALKPIPIGDERPKTTTPAKPLVKDSEQVDAGIAGGSDPLKSIADDISAAFGDLISSNQMTVRGNELWVEIELNSSLLFGSGDAMPSDMAFNIIDKVAAILKPFDNPIHVEGFTDDQPIRTAQYPTNWELSSARSASIVRMLAMQGVNPGRLASVGYGEFQPVANNATAEGRARNRRVVLVVSRNLDVRRSLTGTGTANAKPDAALKRAGTQTAPTPVKSPERQNAVNSPSPAL	PGPT0015375_2530	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015375-motB-K02557	NA	NA
D1-35_00585	792	soj_1	COG1192	Sporulation initiation inhibitor protein Soj	ATGAGAGTCTGGGCAGTCGCCAATCAAAAAGGTGGTGTGGGCAAAACCACATCCTCCATCGCTTTAGCCGGTTTGCTGGCCGAGGCGGGCAAGCGCGTGGTCATCGTCGATCTGGACCCCCACGGCTCGATGACCAGCTATTTCGGCTACGATCCCGATAGCCTGGAGCACAGCAACTACGACTTGTTCCTGCACAAGGGCAGCGTGCCCGAGGGCCTGCCGGGCCAGTTGTTGCTGTCTACCAGTGACGAGCGGATTTCCCTGTTGCCATCGAGTACGGCCCTGGCCACCCTGGAGCGCCAGTCGCCCGGGCAGGGCGGCCTGGGCCTGGTGATCGCCAAGAGTCTGGCGCAGCTGTGGCAGGATTTCGATTACGCAATCATCGACAGCCCACCATTGCTCGGGCTACTGATGGTCAATGCCCTGGCCGCGAGCCAGCAACTGGTGATTCCGGTGCAGACCGAACACCTGGCTGTCAAAGGCCTGGAGCGCATGGTCAACACCCTGGCGATGGTCAACCGCTCGCGCAAGCAATCCCTGGCGTTCAACATCGTGCCGACCCTGTTCGACCGTCGCACCCAGGCGTCCCTCGGTACCCTGCGCGTGTTGCGCGATATGTACCCCGAGGACATCTGGCAAGGTTATATCCCGGTCGATACGCGTCTGCGAGACGCCAGCCGCGCCGGCGTGACCCCTTCGCAATTCGATGGCAAAAGCCGTGGCATCCTGGCCTATCGCGCGCTTCTCAAACATTTGCTGGCCCAGCAGCTCGTTCCGCAGCAGGTGGCTTGA	MRVWAVANQKGGVGKTTSSIALAGLLAEAGKRVVIVDLDPHGSMTSYFGYDPDSLEHSNYDLFLHKGSVPEGLPGQLLLSTSDERISLLPSSTALATLERQSPGQGGLGLVIAKSLAQLWQDFDYAIIDSPPLLGLLMVNALAASQQLVIPVQTEHLAVKGLERMVNTLAMVNRSRKQSLAFNIVPTLFDRRTQASLGTLRVLRDMYPEDIWQGYIPVDTRLRDASRAGVTPSQFDGKSRGILAYRALLKHLLAQQLVPQQVA				NA	NA	NA	NA	NA
D1-35_00586	885			hypothetical protein	ATGAACCGCCCGATCAAGACAACCTCGCGTCCGCAACTGGCCTTGCAGTCCTACCTGGACGGGCTCTTGCAGGAAGCGACCGAAGAATTGCCAGCGCCGCCGAGCGCGGCCGAGGCGTTGCCCGAGCCCGTCGTCGAAGCCGAAGCTGAAGCTGTACTGGACGAGTTCCAGGCGGCCGTGCTCGAAGAGCAGGCTCGTGATGCACGGATTTCCATGACTGCCGCAGCGGTCGAGGCGCCGCTCGTCAAGCCGAAGGTGGCCGTGATGGAAGCGCCCGCGCCGATCCTGGCGCCGGTCTCGACCGTTGCACCGTTGTTGCAGGGCCTGGTGACGCCGGTAGTGGAAATCCACTTGCCGCCGCCGAGCAACACACCGCCGCCGGTGCAGGGCGACGACCGTCCGGCCTGGGCCGCCGAGCCGTTCGAGTGTCTGTTGTTCGATGTGGCCGGGTTGACCCTGGCGGTGCCGCTGGTGTGCCTGGGATCGATTTATTCCCTGGCGGGGCAGGAATTGACGCCGTTGTTCGGCCAGCCGGAATGGTTCCTCGGGATCCTGCCGAGCCAGGCCGGCAACCTGAAGGTGCTGGACACCGCGCGCTGGGTCATGCCGGACCGTTATCGCGATGATTTTCGCCAGGGCCTGCAATACGTGATTTCAGTGCAAGGCTACGAGTGGGGATTGGCGGTGCATCAGGTCAGCCGTTCGCTGCGCCTGGACCCGAACGAGATCAAATGGCGAAGCCATCGAGGACAACGGCCATGGCTGGCCGGTACGGTGATCGAACACATGTGCGCCTTGCTGGACGTTTCCGAACTGGCGGAGCTGATCGCCAGCGGCGGGGCAAAACACCTGGGCGGCAGCAAGCCGGTCCAGAAACCGAAATAA	MNRPIKTTSRPQLALQSYLDGLLQEATEELPAPPSAAEALPEPVVEAEAEAVLDEFQAAVLEEQARDARISMTAAAVEAPLVKPKVAVMEAPAPILAPVSTVAPLLQGLVTPVVEIHLPPPSNTPPPVQGDDRPAWAAEPFECLLFDVAGLTLAVPLVCLGSIYSLAGQELTPLFGQPEWFLGILPSQAGNLKVLDTARWVMPDRYRDDFRQGLQYVISVQGYEWGLAVHQVSRSLRLDPNEIKWRSHRGQRPWLAGTVIEHMCALLDVSELAELIASGGAKHLGGSKPVQKPK	PGPT0015680_422	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015680-cheW-K03408	NA	NA
D1-35_00587	486	cheW_1	COG0835	Chemotaxis protein CheW	ATGAATGATAAGGCGTCGTCTCAAAAGGGTTCTGAAGATCCGATTCTGCAGTGGGTGACCTTCAAGCTCGATAACGAAACCTACGGCATCAACGTGATGCGCGTTCAGGAAGTGCTGCGCTACACCGAGATCGCCCCGGTTCCAGGTGCGCCAAGCTATGTGCTGGGGATCATCAACCTGCGTGGCAACGTGGTCACCGTGATCGATACCCGTCAACGCTTCGGCCTGATGAACGCCGAGATCAGCGACAACACCCGGATCGTCATCATCGAAGCCGACAAACAAGTGGTTGGCATCATGGTCGACAGCGTCGCCGAAGTGGTTTACCTGCGTCAGTCGGAAATCGAAACCGCGCCGAACGTCGGTAACGAAGAGTCCGCCAAGTTCATTCAGGGCGTGTGCAACAAGAACAACGAGTTGCTGATCCTGGTTGAACTGGACAAGATGATGAGCGAAGAAGAGTGGTCGGAACTGGAGAGTATCTGA	MNDKASSQKGSEDPILQWVTFKLDNETYGINVMRVQEVLRYTEIAPVPGAPSYVLGIINLRGNVVTVIDTRQRFGLMNAEISDNTRIVIIEADKQVVGIMVDSVAEVVYLRQSEIETAPNVGNEESAKFIQGVCNKNNELLILVELDKMMSEEEWSELESI	PGPT0015680_3276	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015680-cheW-K03408	NA	NA
D1-35_00588	339			hypothetical protein	ATGTTCGTGTCCTATATACGCGGCCAGCGGCAGATCGCCGCTCAGCAGGCCCAGGGCGATGCGCTGCGCGATCAGCGCATCCGCGACCTGGCCAAGCGCGTCGACGACTATCAGAACGGCACCGTGCGCATGGGCGAAGCGCTCCATGAGCTGCGTGCCGTGGTCGGGCCATTGCCGGACAAACTGGCGCAGCTGGAACAGCGCGACCCCTCCAGCCTGTCCTTCGCCCAGGCCGCCCGCCTGGTCGGCATGGGCGCCAGCGTCGACGAACTGACCCAGGCGTGTGGTCTGACCCAGGCCGAAGCGGAATTGATGAGCAAGTTGCACAAGGGCGGCTGA	MFVSYIRGQRQIAAQQAQGDALRDQRIRDLAKRVDDYQNGTVRMGEALHELRAVVGPLPDKLAQLEQRDPSSLSFAQAARLVGMGASVDELTQACGLTQAEAELMSKLHKGG				NA	NA	NA	NA	NA
D1-35_00589	156			hypothetical protein	ATGGGTCTAGAGGACAGCATCCCGGAAGAGCTGTACCGCACGATTGCCGAGATCATTGCGTTTGCGTGGAACCTGAAGGGCAAGTTTGCGCAAGGTTATGACCCGAATGCACCAAGTGTCGAGAAGGACGTGACCGAGCGCGGCGACGATTACTGA	MGLEDSIPEELYRTIAEIIAFAWNLKGKFAQGYDPNAPSVEKDVTERGDDY	PGPT0029865_251	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0029865-flhB2-K04061	NA	NA
D1-35_00590	1341			hypothetical protein	ATGCCGGGCATTAATAAAAATGTTGCGTTGCATGTACGTTCCAGGTCTGAAGGTGGAGGCGCTACTAGCTCAATCATTACAAAAAAACTACTCGCCACGTCGAACTCTTCTTCTGATTTGGTCAAGACTGGCTTGAAAACCCAATCGGGATTAAATTCGAGATCTGCAGCATCCGGCGTGTTGGACGAGAAGCCTGCTCAATTGATCAACAAACGTACCGCCAAAGCAGTGTTGGCTGAGTTGTTAAGGCAACCGCGGTCAGAGAGTAATTACGCCAATCGTCTCGCATGTTTGAGCGCAGATCGCTCAATTCAAACGTGGCAAGCGCTTACTCATGATCCAGAAACATTAAAAGTTTTAGAACAGACAACTCCAACTGCTCTGCCATCGCGTTTAGCTGAGCCAGCTGTATGGCTCCCAGAAGTCGAAAAAATACATACGAACGTTCTGATGAACCTGATGAGCAAGCTGGCGGGCGAATACTCGGTTTCATTCCAGTCATTGGCTCTAGGTAGAGAGGAGGCTGAGATAAAAGAGGTGTCTATCGTGCGCGGACCTCCTGGCGCGGGCAAAACGTTTTATTTGAAGGGTGGTTTTTCGCTAGGGGGGGATGAAGTAAAAAACTACCTACAGAACCGAATGCCCGGACTTACGATGTCTCAAGTACACCTGCAAGGATCTGTTTTGCTTGATCGATTTATGAGCTCTATGGAACGTAAGCTTGAGCAAAGCCTGACACGGGATGGGCTTTACTTAAATCCACTGATATTTGAACAGAAACTACAAGCAGTTGGCTTGCAGGACGGAAGGCAAAAAGCTGCAGTTCGCGACATTCACGTGGATTTAACGACATTATGTTGTCGGATGCTTAAGCGCTCTACAGATGAGGCGCTACTTGGCTTTGACTACTTAAGCCAATCTTTTCGCTTGTCTTTGGAGAATAGGGCAAGAACAATCGAGTTGGTTGGGGAGAAACATGGCAACATCAGCGACTACTTGCTATTGGCCTGGGATGGGAGCAAAAACATCAAAGTCGCGGAATGTCCAGCCGGTTTAAAGAACATTACGGTGTATGACCATTCTCTTTTCGACCAGCTTGTGATGCGCGATCCTGCGCTGATTGATGCGGAAATAGCGCGTGTGGGTGAAACGGTGATCGACGGGGCATTCATCTCCAGATTTACTGCTGGATTTGAGCCGACCATAGCGGCACTCTTTACCGAGGCACTGAGCACGTACGATGGGAAAACCATCGCTCATGCCCTAGCGTTGAACCTCGATAGGGGGCACGTAGCAACTTCAGTAGCTTCTCGGATTATCGCTAGAGCTGTCTCCGCTTAA	MPGINKNVALHVRSRSEGGGATSSIITKKLLATSNSSSDLVKTGLKTQSGLNSRSAASGVLDEKPAQLINKRTAKAVLAELLRQPRSESNYANRLACLSADRSIQTWQALTHDPETLKVLEQTTPTALPSRLAEPAVWLPEVEKIHTNVLMNLMSKLAGEYSVSFQSLALGREEAEIKEVSIVRGPPGAGKTFYLKGGFSLGGDEVKNYLQNRMPGLTMSQVHLQGSVLLDRFMSSMERKLEQSLTRDGLYLNPLIFEQKLQAVGLQDGRQKAAVRDIHVDLTTLCCRMLKRSTDEALLGFDYLSQSFRLSLENRARTIELVGEKHGNISDYLLLAWDGSKNIKVAECPAGLKNITVYDHSLFDQLVMRDPALIDAEIARVGETVIDGAFISRFTAGFEPTIAALFTEALSTYDGKTIAHALALNLDRGHVATSVASRIIARAVSA				NA	NA	NA	NA	NA
D1-35_00591	327	flhB_2	COG1377	Flagellar biosynthetic protein FlhB	ATGACAACCCATACCGAACCCCGCCAGGCCATCGCACTCAAGTACGACGGCCACCACGCCCCCACCCTCACCGCCAAGGGCGACGAAGCCCTGGCCGAGGAAATCCTGCGCATCGCCCGCGAAAGCGAAGTGCCGATCTATGAAAACGCCGAATTGGTGAAATTGCTGGCGCGGCTGGAGTTGGGCGATAGCATCCCCGAGGAGCTGTACCGCACGATCGCCGAGATCATTGCCTTTGCCTGGAACCTGAAGGGCAAGTTTCCGCGGGGTTATGACCCGAATGCACCGAGTGTCGAGAAGGACGTGACCGACCGCGGAGAGGATTAA	MTTHTEPRQAIALKYDGHHAPTLTAKGDEALAEEILRIARESEVPIYENAELVKLLARLELGDSIPEELYRTIAEIIAFAWNLKGKFPRGYDPNAPSVEKDVTDRGED	PGPT0029865_251	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0029865-flhB2-K04061	NA	NA
D1-35_00592	1572			hypothetical protein	ATGACAGGCGACATGAACATCCCGCCGCTGCCCCAGCCCACGGCAACGACACGTATGCCGGCAGTGACTGGCGAGCTGCTGAAGTTGCTGGCGCCGGCCGAGGGGCTGATCGGCCCGGGCCAGACAGCCAAGGCCGAGGTGTTGTCACTCAAGCAGGCGGACCAGGCCTTCCAGCTGTTGCTCAAGCTGACCCTGGAAAGCGGCCGGCAGGCCACGGTGCAGGCCACCAGCGCCCAGCCGTTGCCGCAAGGCACCAGCCTGGCCGTGACCCAGCCGTCCGCCAGCAACCTGGCGATTGCCGTGCAACAGGCCGTCGCCTCCAGCGTCGCCACCTTGACGCGCATCGACACCGCGCAGCTGCCGGTGGGCACGTTGCTGCAAGGCAAGGTGCTGACCAGCCAGGTGCTGCCGCAGTTGCCAGGGCAAGCGGCGGTATATCGCTCGCTGGTGAGTTTGCTCAACACCGTCCAGGCCGGCAGTACCCTGGACATCGACAGCCCCCAGCCCCTGCGCATCGGCACGTTGTTGAGCGCTCAGGTGCAGGATGTGCAGACCTTGAAGTTCGTCCCCCTGAGCAACCGCCAGGAACAATTGGCGGTCAGCCAGCAGCTGGTTACGCAGGTGAGCCGCCAGGGTTCGCTGGACAGCTTGCTCACCGCCCTGCAAAACCTTCCCGCCAGCGAAGACGCCGGCTCCGAGCTGCGCGCGGCGGTAACGCGCCTGTTGGCCGGTCTGCCAGACGTCCAGCAACTGAGCACACCCAAGGGCCTGGCCCAGGCCATGGTCGCCAGCGGCATGTTCCTGGAGAGCAAACTCCTCGCCGGGCAGCCGCCGAGCCTCGCCCCGGACATGAAAGGCGACCTGCTGAAACTGATCGCCCAACTGACACCGGCCCTGCCCGCGTCCACCAATCTCAGCGCCATCATCGCCGCCAACACCCTGGCCCAGGCGCTGCCCAACTTCGTGCGCAGTGCCTTGGGGATGCTTGGCCAGGTCAGCGCCAAGCCGCAGCCCACGAGTTTTCCGCTGCCCTCGCGCCTGCTCAAAGGCCAGGACGAAGAAGGCGATCTGGAGCACCTGTTGCGTCTGGCCGCAGCCGCTGTCTCGCGCCTGCAAAGCCATCAGTTGTCGAGCCTGGAGCAGACCGGGCTGACCGACGATGGCCGGCTGATGAGCACCTGGCAGTTGGAGATCCCGATGCGCAACCTGCAGGACATCGTGCCATTGCAGGTCAAGTTCCAACGCGAAGAAACCCCTGCCCGGGAGCAGCCGGACGAGCGCCGCGAACCACGCGAAGCGAAACAGCAACTGTGGAAGGTCGAGCTGGCGTTCGACATGGAGCCGCTGGGCCCGTTGCAGATTCAGGCCCAGTTGCTCGGCGGCAGCCTGTCCAGCCAGCTGTGGGCGCAAAGGCCGTACACCGCAAGCCTGATCGAAAGCAACCTGACCGCCCTGCGCGAGCGCCTGGTGACATGCGGGCTGAACGTCGGCGACCTGGATTGCCACCTCGGCACCCCGCCCCAGGGGCCCAAGACCCGACTGGATCAACGCTGGGTGGACGAAACCGCATGA	MTGDMNIPPLPQPTATTRMPAVTGELLKLLAPAEGLIGPGQTAKAEVLSLKQADQAFQLLLKLTLESGRQATVQATSAQPLPQGTSLAVTQPSASNLAIAVQQAVASSVATLTRIDTAQLPVGTLLQGKVLTSQVLPQLPGQAAVYRSLVSLLNTVQAGSTLDIDSPQPLRIGTLLSAQVQDVQTLKFVPLSNRQEQLAVSQQLVTQVSRQGSLDSLLTALQNLPASEDAGSELRAAVTRLLAGLPDVQQLSTPKGLAQAMVASGMFLESKLLAGQPPSLAPDMKGDLLKLIAQLTPALPASTNLSAIIAANTLAQALPNFVRSALGMLGQVSAKPQPTSFPLPSRLLKGQDEEGDLEHLLRLAAAAVSRLQSHQLSSLEQTGLTDDGRLMSTWQLEIPMRNLQDIVPLQVKFQREETPAREQPDERREPREAKQQLWKVELAFDMEPLGPLQIQAQLLGGSLSSQLWAQRPYTASLIESNLTALRERLVTCGLNVGDLDCHLGTPPQGPKTRLDQRWVDETA				NA	NA	NA	NA	NA
D1-35_00593	636	ccmA	COG4133	Cytochrome c biogenesis ATP-binding export protein CcmA	TTGACCAGTCCTCTCTTGCAAACCATCGGCCTCGCCTGCGAGCGAGACCTGCGGCTGCTTTTCGAAAATCTCGAATTGAGACTCTCGCGTGGCGATATGGTGCAAGTCAGTGGCCCCAACGGCAGCGGCAAGACCAGCCTGTTGCGCCTGCTGGCCGGGTTGATGCAACCCACCGCAGGCCAGGTGCTGCTCAACGGCCAGCCCCTCGACAGCCAGCGCAGCGAACTGGCCCGCAACCTGCTCTGGATCGGCCATGCCGCCGGTATCAAGGACCTGCTGACGCCGGAAGAAAACCTCAGCTGGCTGTGCGCCTTGCACCGGCCGGCCGGTCGCGAGGCGATCTGGCAGGCCCTGGCGGCGGTAGGTCTGAAGGGTTTCGAGGATGTGCCCAGCCACACACTGTCGGCCGGCCAGCAGCGCCGCGTGGCCCTGGCCCGGTTGTACCTGGACAGCCCGCCGCTGTGGATTCTCGACGAACCCTTCACCGCACTGGACAAGCAGGGCGTCGCCCAGCTCGAAGAACACCTGGCCCGGCATTGCGAGAGCGGCGGCATGGTGTTGTTGACGACCCATCACACGTTGACCCGGATGCCCGCCGGCTATCGCAGCATTGACCTGGGGAACTGGGCGGTATGA	MTSPLLQTIGLACERDLRLLFENLELRLSRGDMVQVSGPNGSGKTSLLRLLAGLMQPTAGQVLLNGQPLDSQRSELARNLLWIGHAAGIKDLLTPEENLSWLCALHRPAGREAIWQALAAVGLKGFEDVPSHTLSAGQQRRVALARLYLDSPPLWILDEPFTALDKQGVAQLEEHLARHCESGGMVLLTTHHTLTRMPAGYRSIDLGNWAV				NA	NA	NA	NA	NA
D1-35_00594	669	ccmB	COG2386	Heme exporter protein B	ATGAGCGTCTTTGGCCTGTTGCTTGCCCGTGAAGCACGCCTGCTATGTCGGCGTCCGGCTGAACTGGCCAATCCGCTGGTGTTTTTTGCGATCGTCATCGCGCTGTTCCCTCTGGCGGTCGGTCCGGAGACTCAATTGTTGCAAACCTTGTCGCCAGGGCTGGTCTGGGTGGCCGCGCTTTTGTCGGTCCTGCTCTCGCTGGACGGGCTTTTCCGCAGTGATTTCGAAGACGGTTCCCTGGAACAGTGGGTCCTTTCGTCGCACCCCCTGGCCCTTCTGGTTTTGGCCAAGGTACTGGCACACTGGGTTTTTTCCGGCCTGGCGCTGGTGCTGCTCTCGCCGCTGCTTGCGATGATGCTGGGCTTGCCCGCCGCGTGCATGCCGGTGCTGCTGCTGTCACTGTTGCTCGGCACGCCGGTGCTGAGCCTGCTCGGCGCGGTGGGTGCGGCGCTGACGGTAGGGCTCAAGCGTGGCGGCTTGTTGCTGGCGCTGCTGATCCTGCCGCTGTACATCCCGGTACTGATCCTCGGCAGTGGCGCCTTGCAAGCGGCGCTGCAAGGCCTGCCGGCAACCGGTTATCTGCTGTGGCTTGGGAGCCTGAGCGCCCTGGCGATAACCCTGACACCCTTTGCAATAGCCGCTGGCCTGAAGATCAGCGTCGGCGAATAA	MSVFGLLLAREARLLCRRPAELANPLVFFAIVIALFPLAVGPETQLLQTLSPGLVWVAALLSVLLSLDGLFRSDFEDGSLEQWVLSSHPLALLVLAKVLAHWVFSGLALVLLSPLLAMMLGLPAACMPVLLLSLLLGTPVLSLLGAVGAALTVGLKRGGLLLALLILPLYIPVLILGSGALQAALQGLPATGYLLWLGSLSALAITLTPFAIAAGLKISVGE				NA	NA	NA	NA	NA
D1-35_00595	756	ccmC	COG0755	Heme exporter protein C	ATGAACTGGACCTGGTTTCATAAGCTCGGCTCACCCAAGTGGTTCTACGGCATCAGCGGCAAGATGCTGCCCTGGTTGAGTATCGCCGCCCTGTTGCTGATCGGCATCGGCCTGGTCTGGGGCCTGGCTTTCGCGCCGCCGGACTACCAGCAGGGCAACAGCTTTCGCATTATCTATATCCATGTTCCGGCGGCGATGCTCGCCCAGTCGGTCTACGTGATGCTGGCAATCTGCGGTGTGGTCGGGCTGGTGTGGAAGATGAAGCTGGCCGACGTCGCGCTGCAATGCGCAGCGCCCATCGGTGCCTGGATGACCGCCGTGGCGCTGGTCACCGGGGCAATCTGGGGCAAGCCGACCTGGGGTTCATGGTGGGTCTGGGATGCACGACTGACGTCGATGCTGATCCTGCTGTTCCTGTACTTCGGTCTTATTGCGCTGGGCAACGCCATCAGCAATCGTGACAGCGCGGCCAAGGCCTGCGCGGTGCTGGCGATTGTCGGCGTGATCAACATCCCGATCATCAAGTACTCGGTGGAATGGTGGAACACCCTGCATCAGGGCGCGACCTTCACCCTCACCGAAAAACCGGCGATGCCGGTCGAGATGTGGCTGCCGCTGCTGCTGACCGTGCTGGGTTTCTACTGCTTCTTCGGCGCGGTGTTGCTGCTGCGCATGCGCCTCGAAGTACTCAAGCGCGAAGCCCGCGCCAGTTGGGTGAAAGCCGAAGTACAGAACAGCCTGGAGGCCGCTCGATGA	MNWTWFHKLGSPKWFYGISGKMLPWLSIAALLLIGIGLVWGLAFAPPDYQQGNSFRIIYIHVPAAMLAQSVYVMLAICGVVGLVWKMKLADVALQCAAPIGAWMTAVALVTGAIWGKPTWGSWWVWDARLTSMLILLFLYFGLIALGNAISNRDSAAKACAVLAIVGVINIPIIKYSVEWWNTLHQGATFTLTEKPAMPVEMWLPLLLTVLGFYCFFGAVLLLRMRLEVLKREARASWVKAEVQNSLEAAR				NA	NA	NA	NA	NA
D1-35_00596	177			hypothetical protein	ATGAGTTTTGCGTCATTCGGCGACTTCCTCGCCATGGGCCATCACGGCCTGTATGTCTGGTCAGCCTATGGCATCTGCCTGGCGGTGCTGGCCCTCAACGTGGCGGCGCCGATCCTGGCCCGCAAGCGGTATCTGCAACAAGAGGCGCGTCGTCTGCGTCGGGAGAACGGTCAGTGA	MSFASFGDFLAMGHHGLYVWSAYGICLAVLALNVAAPILARKRYLQQEARRLRRENGQ				NA	NA	NA	NA	NA
D1-35_00597	462	ccmE	COG2332	Cytochrome c-type biogenesis protein CcmE	GTGAATCCGCTGCGCAAAAAACGTCTTGTCATCATCCTGGCGATTCTGGTCGGCGTCGGTGCGGCGGTCGGCCTCGCCCTCAGCGCCTTGCAACAGAACATCAACCTGTTCTACACCCCGACCCAGATCGCCAATGGCGAAGCGCCCAAGGGTACGCGCATCCGCGCTGGCGGCATGGTGGAGCAGGGCTCGCTGGCGCGTTCCGGTGATTCGCTGGACGTGAAGTTCAACGTCACCGACTTCAACAAGACCGTGACCATCAGCTATCGCGGGATCCTCCCGGACCTGTTCCGCGAAGGGCAGGGCATCGTTGCCCTGGGCAAACTCAACGCCGACGGCGTGGTGGTGGCCGACGAGGTACTGGCCAAGCACGATGAGAAATACATGCCGCCGGAAGTGACCAAGGCCCTGAAAGACAGCGGCCAGTCGGCGCCCGCTCCCGCTCCCGTGAAGGAGGGTTGA	MNPLRKKRLVIILAILVGVGAAVGLALSALQQNINLFYTPTQIANGEAPKGTRIRAGGMVEQGSLARSGDSLDVKFNVTDFNKTVTISYRGILPDLFREGQGIVALGKLNADGVVVADEVLAKHDEKYMPPEVTKALKDSGQSAPAPAPVKEG				NA	NA	NA	NA	NA
D1-35_00598	1989	ccmF	COG1138	Cytochrome c-type biogenesis protein CcmF	ATGAATGCCGGTCTGTTTATTCCTGAGCTGGGCCATCTGGCGATGATCCTGGCCCTGTGTTTTTCCCTGGTCCAGGCGGTTGTGCCGTTGCTCGGTGCCTGGCGTGGCGACCGCTTGTGGATGAGCCTCGCCCAGCCGGCGGCATGGGGGCAGTTTGCATTCATGCTGTTCGCGTTCGGCTGCCTGACCTACGCGTTCATGGCCGACGATTTTTCCGTGGCCTATGTCGCCAGCAACTCCAACAGCGCCTTGCCCTGGTACTACAAGTTCAGCGCGGTGTGGGGTGCCCACGAAGGTTCGTTGCTGCTCTGGGCGTTGATTCTTGCCGGCTGGACCTTCGCGGTGTCAGTGTTCTCCCGACAGTTGCCGCAAGTGATGCTGGCCCGGGTGCTGGCGGTGATGGGCATGATCAGCATCGGTTTCCTGCTGTTCCTCATCCTCACGTCAAACCCGTTCGAGCGCATCCTGCCGCAAGTGCCGATGGACGGCCGCGACCTCAACCCGTTGCTTCAGGACATCGGTCTGATCGTCCATCCGCCGATGCTCTACATGGGCTACGTCGGCTTTTCCGTGGCCTTCGCGTTCGCCATCGCCGCTTTGCTCGGTGGTCGCCTCGACGCCGCGTGGGCGCGCTGGTCGCGGCCATGGACCATTGTCGCCTGGGCCTTCCTCGGGATCGGCATCACACTCGGGTCGTGGTGGGCCTACTACGAACTCGGCTGGGGCGGCTGGTGGTTCTGGGACCCGGTGGAGAACGCCTCCTTCATGCCATGGCTGGTCGGCACGGCGCTGATCCACTCCCTGGCCGTCACCGAAAAACGCGGTGTGTTCAAGAGCTGGACCGTGCTGCTGGCGATCGCGGCGTTCTCGCTGAGCCTGCTCGGGACCTTCCTGGTGCGCTCCGGCGTGCTGACCTCGGTGCATGCCTTCGCCTCGGACCCCGAGCGTGGCGTATTCATCCTAATGTTCCTGCTGTTCGTGGTCGGCGGTTCGCTGACGCTGTTCGCCCTGCGTGCACCCGTGGTGAAAAGCCAGGTCGGCTTCAACCTCTGGTCCCGGGAGACCCTGTTGCTGGGCAATAACCTGGTGCTGGTGGTGGCGGCGTCGATGATCCTCCTCGGGACGTTGTATCCGCTGGTGCTCGATGCGTTGTCCGGCGCCAAGCTGTCGGTCGGCCCGCCATATTTCAACGCACTGTTCATTCCGTTGATGGCGATCCTGATGGTGGTGATGGCGATCGGTATGCTGGTGCGCTGGAAGGACACGCCGGTCAAATGGCTGCTGGGCATGCTCACGCCGGTGCTGCTCGGCACCGCCGCCCTGGCCGTGGTGGCGGGCATCGCTTATGGCGATTTCAACTGGGCGGTGCTGGCGACATTCGTGCTGGCGGCGTGGGTATTGCTGGCGGGCGTGCGGGATATTTTCGACAAGACCCGCCATAAAGGTCTTGTCAAAGGTCTGCCGACCCTGACCCGAAGTTACTGGGGCATGCAGCTCGCCCACCTGGGGATCGCCGTCTGCGCCCTCGGTGTGGTGCTGTCCAGCCAGAACAGCGCCGAACGCGACCTGCGCCTGGCACCGGGCGAGTCCATGGACCTGGGCGGTTATCAGTTCGTTTTCGAGGGCGCCAGGCATTTCGAAGGTCCGAACTTCACGTCCGACAAGGGCACCGTGCGGGTCATTCGCGACGGCCAGGAGATCACCGTGTTGCACCCGGAAAAACGCCTCTACACCGTACAGAACTCGGTGATGACCGAAGCCGGGATCGACGCCGGGTTCACCCGCGACCTCTACGTGGCGCTGGGCGAACCCCTCGGTGATGGCGCCTGGGCGGTACGCGTCCACGTCAAGCCGTTCGTACGCTGGATCTGGTTCGGTGGCCTGCTCACCGGCCTGGGCGGCGTATTGGCTGCGCTGGATCGACGCTATCGGGTCAAAGTGAAAACCCGGGTGCGCGAAGCCCTGGGCGTGACGGGAGCCACTGCATGA	MNAGLFIPELGHLAMILALCFSLVQAVVPLLGAWRGDRLWMSLAQPAAWGQFAFMLFAFGCLTYAFMADDFSVAYVASNSNSALPWYYKFSAVWGAHEGSLLLWALILAGWTFAVSVFSRQLPQVMLARVLAVMGMISIGFLLFLILTSNPFERILPQVPMDGRDLNPLLQDIGLIVHPPMLYMGYVGFSVAFAFAIAALLGGRLDAAWARWSRPWTIVAWAFLGIGITLGSWWAYYELGWGGWWFWDPVENASFMPWLVGTALIHSLAVTEKRGVFKSWTVLLAIAAFSLSLLGTFLVRSGVLTSVHAFASDPERGVFILMFLLFVVGGSLTLFALRAPVVKSQVGFNLWSRETLLLGNNLVLVVAASMILLGTLYPLVLDALSGAKLSVGPPYFNALFIPLMAILMVVMAIGMLVRWKDTPVKWLLGMLTPVLLGTAALAVVAGIAYGDFNWAVLATFVLAAWVLLAGVRDIFDKTRHKGLVKGLPTLTRSYWGMQLAHLGIAVCALGVVLSSQNSAERDLRLAPGESMDLGGYQFVFEGARHFEGPNFTSDKGTVRVIRDGQEITVLHPEKRLYTVQNSVMTEAGIDAGFTRDLYVALGEPLGDGAWAVRVHVKPFVRWIWFGGLLTGLGGVLAALDRRYRVKVKTRVREALGVTGATA	PGPT0000484_36	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000484-nrfE-K04016	NA	NA
D1-35_00599	537	dsbE	COG0526	Thiol:disulfide interchange protein DsbE	ATGAAACGTTGGTTGATGGTGTTGCCGCTGGCGCTGTTTCTGGTGATGGCGGTGTTCTTGTACCGCGGGCTTTACCTGAACCCGTCCGAATTGCCCTCGGCGATGATCGGCAAACCGTTTCCGGAGTTCTCCCTGCCATCGGTACAAGGCGACAAGACGCTGACTCGCGCCGACCTGCTGGGCAAGCCGGCGCTGGTCAACGTGTGGGGCACCTGGTGCATTTCCTGCCGGGTCGAACATCCGGTGCTGAACAAACTGGCCCAGAACGGCGTGGTGATCTACGGCGTCAACTACAAGGACGTCAATGCCGATGCCTTGAAGTGGCTTGCCGAGTTCCACAACCCGTATCAACTGGACATCCGTGATGAGGAGGGCACCCTCGGCCTGAACCTGGGCGTCTACGGTGCGCCGGAAACCTTCTTTATCGACGCCAAGGGCATCATCCGGGACAAGTTCATCGGGGTGGTCGACGAGCAGGTCTGGCGCGAGAAGCTGGCCGGCAAATATCAGGCACTGGTGGACGAGGCCAAGCCATGA	MKRWLMVLPLALFLVMAVFLYRGLYLNPSELPSAMIGKPFPEFSLPSVQGDKTLTRADLLGKPALVNVWGTWCISCRVEHPVLNKLAQNGVVIYGVNYKDVNADALKWLAEFHNPYQLDIRDEEGTLGLNLGVYGAPETFFIDAKGIIRDKFIGVVDEQVWREKLAGKYQALVDEAKP				NA	NA	NA	NA	NA
D1-35_00600	474	ccmH	COG3088	Cytochrome c-type biogenesis protein CcmH	ATGAGGCGCTGGTTAGCGGCTGCCGTCCTCGGCTTGAGCCTGGCGGGTGTGGCCCACGCCGCCATCGACACTTACGAATTTGCCAACGATGCCGAGCGCGAGCGGTTTCGCGAACTGACCAAGGAACTGCGCTGCCCCAAATGTCAGAACCAGGACATCGCCGACTCCAACGCGCCGATTGCCGCCGACCTGCGCAAGGAGATCTTCCGCATGCTCGGCGAGGGCAAGGACAACCAGCAGATCATCGACTTCATGGTTGATCGCTACGGTGAGTTCGTGCGCTACAACCCGGCGCTGTCTTCCAAGACCGCGCTGCTCTGGTTCGGCCCCGCCGGGCTGCTGCTCGGTGGTTTCGTCGTCATCGCGGTGATCGTGCGTCGCCGCCGGGTCCAGCGCACTGCCGCCCCGGACACGCTTTCTGTCGAAGAGCGCCAGCGCCTCGACCAACTGTTGGATAAAACCAAGCATGATTGA	MRRWLAAAVLGLSLAGVAHAAIDTYEFANDAERERFRELTKELRCPKCQNQDIADSNAPIAADLRKEIFRMLGEGKDNQQIIDFMVDRYGEFVRYNPALSSKTALLWFGPAGLLLGGFVVIAVIVRRRRVQRTAAPDTLSVEERQRLDQLLDKTKHD	PGPT0000486_25	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000486-nrfF-K04017	NA	NA
D1-35_00601	1203			hypothetical protein	ATGATTGATTTCTGGCTCGCCGCAGGTCTGCTTCTCCTGGTTGCCCTGAGTTTTCTGTTGATCCCCGTGTTGCGTGGCCGCCGCGCCCAATTGGAAGAAGACCGTACTGCGCTGAACGTGGCGCTGTACCAGGAGCGCGTCGCCGAACTGCAGGCCGAGCGGGAGGAGGGCGTGCTCAACGCCGCGCAACTGGACACCGGTCGCGCCGAGGCCGCCCGTGAATTGCTCGCCGACACCGAGGGCGCCGAGGCGCCGCGCGAATCGCGACTGGGCAAGCCGTTGCCGCTGCTCGCGGCGGTATTGGTGCCGGTATTGGGCCTGGCGCTGTACCTGCATTTCGGCGCAAGCGACAAGGTCGAGCTGACCCGTGAATTCGCCCAGGCGCCCAAGTCCATGGAAGAAATGACTTTGCGCCTGGAGCGCGCGGTGGCGGCACAACCGGATTCCGCCGAAGGTTTGTATTTCCTCGGGCGGACCTACATGGCGCAGGATCGGCCGGCGGATGCGGCAAAGATCTTCGAGCGCACCGTGGCACTGGCCGGCCGCCAGCCCGAGCTGCTCGGACAGTGGGCCCAGGCGCAGTATTTTGCCGACGGCAAGAAATGGTCGGACAAGGTCCAGGCCCTCACCGACGAGGCGCTGAAGCTCGATCCGAAGGAGGTCACCAGCCTCGGCCTGTTGGGCATCGCCGCGTTCGAAGGCGAGCGCTATCAGGAGGCGATCGATTACTGGGGCCGCCTGCTGGCGCAGTTGCCCGAAGGCGACAAGTCGCGGGAGGCGTTGCAGGGGGGCATCACTCGCGCCACCGAGAAGCTGCAAGCCAATGGCGGCAAGGTTGCCCAAGCGCCGGTCGCCAAGCCTGCGGCGCTGCTCAAGGTCCGTGTCGAGCTCGATCCGGCCCTCAAAGCCAAGGTGCAGCCGGGCGACAGCGTGTTCATTTTCGCGCGCGCCGTGTCCGGCCCGCCCGCGCCGTTGGCGGCCAGGCGCCTGACCGTCGCCGACCTGCCGGCCAGCGTCGAGCTGGGTGACGCTGATGCGATGATGCCGCAGCTGAAACTGTCGAACTTCCCTGAAGTCCAACTGGTGGCGCGCATCTCCCGAGCCGGCCAACCCACCGCCGGCGAGTGGATCGGTCGCAGCCAGCCCCTGGCGAGCAGCACCACGGCGCTACAACAATTGATTATCGACAGTCCGGACCAATGA	MIDFWLAAGLLLLVALSFLLIPVLRGRRAQLEEDRTALNVALYQERVAELQAEREEGVLNAAQLDTGRAEAARELLADTEGAEAPRESRLGKPLPLLAAVLVPVLGLALYLHFGASDKVELTREFAQAPKSMEEMTLRLERAVAAQPDSAEGLYFLGRTYMAQDRPADAAKIFERTVALAGRQPELLGQWAQAQYFADGKKWSDKVQALTDEALKLDPKEVTSLGLLGIAAFEGERYQEAIDYWGRLLAQLPEGDKSREALQGGITRATEKLQANGGKVAQAPVAKPAALLKVRVELDPALKAKVQPGDSVFIFARAVSGPPAPLAARRLTVADLPASVELGDADAMMPQLKLSNFPEVQLVARISRAGQPTAGEWIGRSQPLASSTTALQQLIIDSPDQ				NA	NA	NA	NA	NA
D1-35_00602	408			hypothetical protein	ATGACCGCCATCGCTCGTATGACCCTGCTCACCCTCGTCCTGGGCCTGAGCGCTTGTGCGGTCCAGCGTCCACCGGAGCCTTCGGCGCCATTGCCACCGATTCCGCCTTCGACGCCGACCACCAAACCAGGCCCGTCGACCGCGCCCGGCAAACCCGTGACCCCGAACAAACCGGCCAAGCCGCTGCCGCGCACCTCCGCCAGTTTCGCTCCACCACCGGGCGGCAACAGCCACTGGGACGCCAAGCTCGGGGTCTATGTGCTGGACAAGCAGCCCAACACGTTCTATCGCCAGCGCACCTATTATCGTTGGAACAACGGCTGGAGCCGCTCCGTCAGCCCGAACGGCCCGTGGGAAGAAACCACTATCGAAGGCGTACCGGCGGGGCTCGGACAGAAGTTTCACTGA	MTAIARMTLLTLVLGLSACAVQRPPEPSAPLPPIPPSTPTTKPGPSTAPGKPVTPNKPAKPLPRTSASFAPPPGGNSHWDAKLGVYVLDKQPNTFYRQRTYYRWNNGWSRSVSPNGPWEETTIEGVPAGLGQKFH				NA	NA	NA	NA	NA
D1-35_00603	876	speE_1	COG0421	Polyamine aminopropyltransferase	ATGACGACCACCCCGACCGGCGACTACCTGGAAACCCTCTACGAAGGCTATGGCCAGCGTTTTCGCATGGACAAGCTGCTGCACGAAGTGCGCACCGAGCACCAGCACCTGGTGATTTTCGAAAACCCGCGCATGGGCCGGGTCATGGCCCTGGATGGTGTCATCCAGACCACCGAAGCCGATGAATTCATCTATCACGAGATGCTCACCCACGTACCCATCCTCGCTCATGGCGCCGTCAAGCGCGTGCTGATCATCGGTGGCGGTGACGGCGGCATGCTCCGTGAAGTGACCAAGCACGTCGGCATCGAGCACATCACCATGGTCGAGATCGATGGTACGGTGGTGGACATGTGCAAGGAGTTCCTGCCCAACCACTCCAAGGGTGCCTACGACGACCCGCGGCTGAACCTGGTGATCGACGATGGCATGCGTTTCGTCGCCACCACCCAGGAGAAATTCGACGTCATCATTTCCGACTCCACCGACCCGATCGGCCCGGGCGAAGTGCTGTTCTCGGAAAACTTCTACCAGGCTTGCCATCGCTGCCTGAACGAAGGCGGGATCCTGGTGACCCAGAACGGCACGCCGTTCATGCAACTGGGCGAAGTGCAGACCACCGCCGGACGCTTGCACGGCCTGTTCGCCGACTGGCATTTTTACCAGGCCGCTGTGCCGACCTACATCGGCGGCGCCATGACCTTCGCCTGGGGCTCGACTGATACCGCTCACCGCAAGCTTTCTCGCGAAACCCTGCGCGAGCGCTTCATTGGCAGCGGTATCGTGACGCGCTACTACAACCCCGAGATCCACCTGGGCGCGTTCGCCATGCCGCAATATGTGCTGCAGGCGATCAACAAGCCGAGCAACGACTGA	MTTTPTGDYLETLYEGYGQRFRMDKLLHEVRTEHQHLVIFENPRMGRVMALDGVIQTTEADEFIYHEMLTHVPILAHGAVKRVLIIGGGDGGMLREVTKHVGIEHITMVEIDGTVVDMCKEFLPNHSKGAYDDPRLNLVIDDGMRFVATTQEKFDVIISDSTDPIGPGEVLFSENFYQACHRCLNEGGILVTQNGTPFMQLGEVQTTAGRLHGLFADWHFYQAAVPTYIGGAMTFAWGSTDTAHRKLSRETLRERFIGSGIVTRYYNPEIHLGAFAMPQYVLQAINKPSND	PGPT0007750_1997	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
D1-35_00604	2094	mdoB_1		Phosphoglycerol transferase I	ATGGCAATCCCGGACGCCCTGAGTCAGCAGCGCACCACGCATCGCCTGCTGCAACCGACCGTCAAATCGCACCTGGCCTACACGTTGCTCTGTGCGTTGGTGATAATGGTCATGCTGAGCCTGCTGCGCGTTGCGCTGCTGGTCTACAACCGCGAGATGATCCTTGATACACCGGCCTCTACCTTCGTCGAAGCGTTCGCCAACGGCCTGCGTTTCGACGTGCGCCTGGTGGTCTACCTGTGCATCCCGCTGCTGCTGGCCCTGTTCAGCGCACGGGCGATGGCGGCACGTGGGTTCTTTCGTTTCTGGCTGACCGTCACGTCCAGCATCGCGCTGTTTCTCGGCTTGATGGAAATGGACTTCTACCGCGAGTTCCACCAGCGCCTCAACGGCCTGGTCTTCCAATATGTGCAGGAAGACCCGAAAACCGTCATGAGCATGCTCTGGTACGGTTTCCCAGTGGTGCGCTACCTGCTGGCCTGGGCCGGCGGCACGCTGATCCTGGCCCTGGCCTTCAAAGGTGCTGATCGCGCTACCCGGCCACGCGGGCCGTTCAGTGGCGGCAGCATCGGCACCCGCCAGATCGCCCCGTGGTATGGCCGCGTCGCGGTGTTCCTGGTCTGCCTGGTGGTGGCCGTCGCCGCCGCCCGTGGCACCTTGCGCCAAGGCCCGCCCCTGCGTTGGGGCGACGTCTATACCACCGATTCGAACTTCGCCAACCAGTTGGGCCTCAACGGTACTCTGTCGCTGGTGGCGGCGGCCAAGAGCCGAATGTCCGAACACCGTGACAATGTCTGGAAGGCCACCCTCGAATCGTCGCTGGCGCAGCAGACCGTGCGCGACATGCTGGTGATGCCCGACGACAAGCTCGTCGACGCCGGGACTGCCGCGGTAAGACGCGACTACACGCCGCCGGCCGACAAGACACTGCCGATCAAGAACGTGGTGGTGATCCTGATGGAAAGCATGGCCGGTCACTCGGTCGGCGCCCTGGGCGCGCCGGGTAACATCACGCCATACCTGGACAAGCTGTCCAAGGAAGGCCTGCTGTTCGACCGCTTCTTCTCCAACGGCACCCACACCCACCAGGGCATGTTTGCCACCATGGCGTGTTTCCCGAACCTGCCCGGTTTTGAATACCTGATGCAGACCCCGGAAGGCAGTCACAAGCTCTCGGGCCTGCCGCAACTGCTCAGCGCCCGGGACTACGACGATGTGTATGTCTACAACGGCGATTTCGCCTGGGACAACCAGTCGGGTTTCTTCAGCAACCAGGGCATGACCACGTTCATCGGACGCAATGACTATGTGAACCCGGTGTTCTCCGACCCGACCTGGGGCGTGTCCGACCAGGACATGTTCGACCGTGGCCTGATCGAGCTCAAGGCGCGCGAGAACGGCAAGCCGTTCTATGCGTTGTTGCAGACCCTGTCCAACCACACGCCTTACGCACTGCCGACGCCGTTGCCGGTCGAGCCGGTCACGGACCGTGGTCGCCTGAACGAACACTTGACCGCCATGCGTTACTCCGATTGGGCGCTGGGGCAGTTCTTCGAGAAAGCGCGCAAGGAGCCTTACTTCAAGGAAACCCTGTTTGTCGTGGTCGGCGACCATGGCTTCGGCAACGAGCGTCAGATCACCGAAATGGACCTTGGCCGCTTCAACGTGCCGATGTTGCTGATCGGCCCGGGCATCCAGGAAAAATTCGGCCAGCGCAGCCACACCGTGGGCACCCAGGTCGATATCGTCCCAACCATCATGGGACGGCTCGGCGGACAGGTGCGTAACCAGTGCTGGGGCCGTGACCTGTTGAACCTGCCGTCAGGCGACACCGGGTTTGGCGTGATCAAGCCGTCGGGCAGCGACCAGACCACCGCGATCATTCGCGACGACACGATCCTGGTACTGCCGGAAGAAAAGGCCATGCCAGCGAAGCTGTTCCGCTATCAGCTGGGGGCCAATCCGCATGCCGAGATCATTCCGGACGCACCTGACACCGCACAGATGAAACTCAAGCTCGAGGCGTTCCTGCAAACCGCGACCAAGAGCCTGCTGGATAACACCGCCGGTGTTGTTGACGGCAAGCCGGACTGA	MAIPDALSQQRTTHRLLQPTVKSHLAYTLLCALVIMVMLSLLRVALLVYNREMILDTPASTFVEAFANGLRFDVRLVVYLCIPLLLALFSARAMAARGFFRFWLTVTSSIALFLGLMEMDFYREFHQRLNGLVFQYVQEDPKTVMSMLWYGFPVVRYLLAWAGGTLILALAFKGADRATRPRGPFSGGSIGTRQIAPWYGRVAVFLVCLVVAVAAARGTLRQGPPLRWGDVYTTDSNFANQLGLNGTLSLVAAAKSRMSEHRDNVWKATLESSLAQQTVRDMLVMPDDKLVDAGTAAVRRDYTPPADKTLPIKNVVVILMESMAGHSVGALGAPGNITPYLDKLSKEGLLFDRFFSNGTHTHQGMFATMACFPNLPGFEYLMQTPEGSHKLSGLPQLLSARDYDDVYVYNGDFAWDNQSGFFSNQGMTTFIGRNDYVNPVFSDPTWGVSDQDMFDRGLIELKARENGKPFYALLQTLSNHTPYALPTPLPVEPVTDRGRLNEHLTAMRYSDWALGQFFEKARKEPYFKETLFVVVGDHGFGNERQITEMDLGRFNVPMLLIGPGIQEKFGQRSHTVGTQVDIVPTIMGRLGGQVRNQCWGRDLLNLPSGDTGFGVIKPSGSDQTTAIIRDDTILVLPEEKAMPAKLFRYQLGANPHAEIIPDAPDTAQMKLKLEAFLQTATKSLLDNTAGVVDGKPD				NA	NA	NA	NA	NA
D1-35_00605	153			hypothetical protein	ATGGGCACTATTCTTATCATCATCCTGATCCTCCTGCTGATCGGTGGCCTTCCGGTCTTCCCGCACTCCAGAAGTTGGGGTTATGGCCCGTCCGGTATCATCGGCGTTGTGCTGGTCGTGCTGTTGATCTTGTTGTTACTTGGCAAGATATAA	MGTILIIILILLLIGGLPVFPHSRSWGYGPSGIIGVVLVVLLILLLLGKI				NA	NA	NA	NA	NA
D1-35_00606	810	hcaB_1		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGCAAAATCGCATGATGATCACCGGTGCCGGCTCCGGCCTGGGCCGCGAAATCGCGCTGCGCTGGGCCCGTGAAGGCTGGCGCCTGGCCCTGTCCGATGTCAGCGAGCCCGGCCTTCAGGAAACCCTCAGGCTGGTGCGCGAGGTCGGTGGCGAGGGTTTCGTCCAGCGCTGTGACGTGCGCGACTACAGCCAGCTCACCGCATTCGCCCAGGCCTGCGAGGAGAAGCTTGGCGGCATCGACATCATCGTCAATAACGCTGGCGTGGCTTCGGGCGGGTTCTTCAGCGAGCTCTCGCTGGAGGATTGGGACTGGCAGATCGCAATCAACCTGATGGGGGTGGTCAAGGGCTGCAAGGCGTTCCTGCCACTGCTGGAAAAAAGCCGCGGCAAGATCATCAACATCGCCTCCATGGCGGCGCTGATGCAGGGGCCTGCCATGAGCAACTACAACGTGGCCAAGGCCGGCGTCGTGGCGCTGTCGGAAAGCCTGCTGGTCGAGCTGGCCCAGCAGGAAATCGGCGTACACGTGGTATGTCCGTCGTTCTTCCAGACCAACCTGCTGGACTCGTTCCGTGGCCCGACCCCGGCCATGAAGGCCCAGGTGGGCAAACTGCTGGAAAGCTCGCCGATCACCGCGGCGGACATTGCCGATTACATCTACCAGCATGTCGCCCAGGGTGAATTCATGATCCTGCCCCACGAGCAGGGGCGCATGGCCTGGGCCCTCAAACAGAAAAATCCGCAACTGCTGTACGACGAAATGACCGCCATGGCCGACAAGATGCGCGCCAAGGCACGGCAGGCCTGA	MQNRMMITGAGSGLGREIALRWAREGWRLALSDVSEPGLQETLRLVREVGGEGFVQRCDVRDYSQLTAFAQACEEKLGGIDIIVNNAGVASGGFFSELSLEDWDWQIAINLMGVVKGCKAFLPLLEKSRGKIINIASMAALMQGPAMSNYNVAKAGVVALSESLLVELAQQEIGVHVVCPSFFQTNLLDSFRGPTPAMKAQVGKLLESSPITAADIADYIYQHVAQGEFMILPHEQGRMAWALKQKNPQLLYDEMTAMADKMRAKARQA				NA	NA	NA	NA	NA
D1-35_00607	333			hypothetical protein	ATGCTCAATTACCTGTGGTTTTTTCTCGCCGCGCTGTTCGAGATCGCTGGCTGCTACGCCTTCTGGATGTGGTTGCGCCAGGGCAAGAGTGCCTGGTGGATCGTGCCGGCGCTGCTCAGCCTTGCGTTATTCGCCCTGTTGCTGACGCGCATCGAAGCCACTTATGCCGGTCGTGCCTACGCCGCCTACGGTGGCATTTACATCATCGCCTCGATCGGCTGGCTGGCCGTGGTGGAACGGGTGCGGCCGCTGGGTTCCGACTGGATCGGCGTGGCCCTCTGTGTCGTGGGGGCCAGCGTGATTCTGTTCGGTCCGCGTTTTTCGGGGCCATAA	MLNYLWFFLAALFEIAGCYAFWMWLRQGKSAWWIVPALLSLALFALLLTRIEATYAGRAYAAYGGIYIIASIGWLAVVERVRPLGSDWIGVALCVVGASVILFGPRFSGP	PGPT0029120_657	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
D1-35_00608	192	csrA		Translational regulator CsrA	ATGCTCGTATTAAGCCGTACCGTAGGTGAGTTGATTTCCATCGGTGATGAGATTTCCGTCCGTGTGCTGTCGATCAGCGGCGGCACCGTGCGCTTTGGCGTAGAAGCGCCCCGGCATGTGGAGGTTCATCGTTCCGAGGTCTACGACAGGATCCAGAGAAAAAAGGCCGGGTCCGACCGCAAGGTCGGTTAA	MLVLSRTVGELISIGDEISVRVLSISGGTVRFGVEAPRHVEVHRSEVYDRIQRKKAGSDRKVG	PGPT0015065_1263	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
D1-35_00609	228			hypothetical protein	ATGCTGATCCCCTACGACCAACTCGAAGTCGATACGCTCACCCGCCTGATCGAGGATTTCGTCACCCGTGACGGTACTGACAATGGCGACGATACCCCGCTGGAAACCCGCGTCCTGCGGGTCAGGCAGGCCCTGACCAAAGGCCAGGCCATGATTGTCTTCGATCCCGAAAGCGAACAGTGCCAATTGATGCTCAAGCACGATGTGCCCAGACATCTGTTCGATTAA	MLIPYDQLEVDTLTRLIEDFVTRDGTDNGDDTPLETRVLRVRQALTKGQAMIVFDPESEQCQLMLKHDVPRHLFD				NA	NA	NA	NA	NA
D1-35_00610	1191			hypothetical protein	ATGATCAGCAAAATTCCCGAACCGGATCTCGCATACCTGCAGAAAGTCCTGTTGGAAATGCTCGCCATTCCCAGCCCGACCGGCTTCACCGATACCATCGTGCGGTACGTTGCCGAGCGACTCGAAGAGCTGGGCATCCCTTTCGAAATGACCCGGCGCGGCACGATCCGCGCCACCCTCAAGGGCCGCAAGAGCAGCCCTGACCGGGCCGTATCGGCTCACCTGGACACCATCGGCGCCTCCGTTCGCGCCATCAAGGACAACGGCCGCCTGACGCTGGCGCCGGTGGGCTGCTGGTCGAGCCGCTTTGCCGAGGGCAGCCGGGTCAGCCTGTTTACCGACACCGGGGTGATCCGTGGCAGCGTGCTGCCGCTGATGGCCTCCGGGCACGCGTTCAACACCGCCGTGGATGAGATGCCCATCAGTTGGGACCACATCGAACTGCGCCTGGACGCCTACTGCGCCACCCGCGCCGATTGCGAAACGTTGGGGGTGGGCATCGGCGACTATGTGGCGTTCGACCCCTTGCCGGAGTTCACCGAAAGCGGCCATATCAGCGCCCGTCACCTGGATGACAAGGCCGGGGTCGCCGCGTTGCTGGCGGCGCTCAAGGCGATTGTCGACAGCGGCGAGGAACTGTTGATCGACTGCCACCCGCTGTTCACCATCACCGAGGAAACCGGCAGCGGCGCGGCGGCCGCGCTGCCTTGGGACGTCAGCGAATTCGTCGGGATAGACATTGCACCGGTCGCGCCAGGCCAGCACTCCAGCGAACATGCGGTAAGCGTGGCCATGCAGGACTCGGGAGGCCCGTATGACTATCATCTGTCGCGACATTTGCTGAAGCTGGCCAAGGAGCACGAACTACCGGCGCGCCGCGACCTGTTTCGCTATTACTTCAGCGACGCCCATTCGGCGATTACCGCCGGGCACGACATCCGGACTGCCCTGCTCGCCTTCGGCTGCGACGCGACCCATGGTTACGAGCGCACCCACATCGACAGCCTGGCCGCGCTGAGCCGCCTGCTCGGTGCCTACATCCTGAGCCCTCCGGTATTTGCCAGCGACGCCCAACCGGCCCAGGGATCACTGGATCGCTTCAGCCATCAGATCGAGCACGATGCGCAGATGGAAAGCGACACCCGGGTGCCGTCGGTGGACAGCCTGATCGGGCACCGTTCGGATAGCTGA	MISKIPEPDLAYLQKVLLEMLAIPSPTGFTDTIVRYVAERLEELGIPFEMTRRGTIRATLKGRKSSPDRAVSAHLDTIGASVRAIKDNGRLTLAPVGCWSSRFAEGSRVSLFTDTGVIRGSVLPLMASGHAFNTAVDEMPISWDHIELRLDAYCATRADCETLGVGIGDYVAFDPLPEFTESGHISARHLDDKAGVAALLAALKAIVDSGEELLIDCHPLFTITEETGSGAAAALPWDVSEFVGIDIAPVAPGQHSSEHAVSVAMQDSGGPYDYHLSRHLLKLAKEHELPARRDLFRYYFSDAHSAITAGHDIRTALLAFGCDATHGYERTHIDSLAALSRLLGAYILSPPVFASDAQPAQGSLDRFSHQIEHDAQMESDTRVPSVDSLIGHRSDS				NA	NA	NA	NA	NA
D1-35_00611	1746	gshAB		Glutathione biosynthesis bifunctional protein GshAB	ATGAAACCCCACCCGACCCTTCACAACCAACGTCTCTTGCGTGGACAGCCACCGTCCTACGAACGCTTACAGGCGCGCCTGGCCGAAGATGGCAGCGAACTGGGCGCCGCTCCGATCGCCGTGCATTGCGGCTGGGGCCGCTTGCTCATCGGCCATACCTTTCCGGACCCGGCGACTCTTGCCCAGGAGCTGCTCAACGAGCAGCCCGGCGAGCGTGACATTGCCTTGTACGTCGCCGCGCCGCAGCAAGTGCTGGGGCTGGAACCGGCGCATCTGTTCCTTGACCCGTCGGATACCCTGCGCCTGTGGTTCAGCGATTATCGCCAAGCCACGCGAGTGTTTCGCGGCTTCCGGATCCGCCGGGCCCAGAGCGAGAGCGACTGGCAAGCCATCAACCAGCTCTACCAGGCTCGCGGCATGCTGCCCATCGATCCCGAGCGCCTGACCCCGCGTCACCAGGGCGGCCCGGTGTACTGGCTGGCCGAAGACGACGACACCGGCGCGGTGATCGGCAGCGTCATGGGCCTCAACCACCAGAAAGCGTTCAACGACCCGGAAAACGGCAGCAGCCTCTGGTGCCTGGCGGTGGACCCGCAATGTTCGCGGCCCGGCGTCGGCGAAGTGCTGGTGCGCCATCTCATCGAGCATTTCATGAGCCGTGGCTTGAGCTACCTGGACCTGTCGGTGCTGCACAACAATCGCCTGGCGAAAAATCTCTACGCCAAGCTCGGTTTCCGCAACCTTTCGACCTTCGCCATCAAACGCAAGAACGGCATCAACCAGCCGCTGTTCCTCGGGCCGGGGCCCGAGGCGCAATTCAACCCGTACGCGCGGATCATCGTCGAGGAAGCGCACCGGCGTGGCATCGAAGTGCAAGTGGATGACGCCGAGGCCGGGCTGTTCACCCTGGTGCATGGCAGCCGGCGGGTGCGCTGCCGGGAATCGCTGAGCGACTTGACCAGTGCGATCAGCATGACCCTGTGCCAGAACAAGAGCCTGACCCACAAGGTGCTGAAAAATGCCGGTCTGAACCTGCCGGCGCAACAGCTGGCGGGCAATGCCGACGACAACCTGGCGTTTCTAGATGAACACGAGCGCGTGGTGGTCAAGCCGCTGGACGGCGAACAGGGCCAGGGCGTGGCGGTGGACCTGCGGACCATCGAGGAAGTCCAGAACGCCATCGAAACAGCCCGACGCTTCGACAGCCGCGTGCTGCTGGAGAGCTTCCACGAAGGGCTCGACTTGCGAATTCTGGTGATCGGTTTTGAAGTGGTGGCGGCGGCGATCCGGCGCCCGGCAGAAGTGATCGGCGACGGCCAGCACACCATTGGCGCGCTGATCGAGGCGCAGAGCCGGCGGCGGCAGGCGGCTACCGGGGGTGAAAGCAAGATCCCGATGGATGCCGAGACCGAGCGAACGCTGAGCGCGGCCGGGTATGACTATGACAGCGTGCTGCCGGCGGGTGAGCATCTGTTTGTCCGGCGCACCGCAAACCTGCATACCGGCGGCGTGCTGGAAGACGTCACCGCGATTCTGCATCCGACCCTGGCCGATGCGGCGGTGCGCGCCGCGCGGGCGCTGGACATCCCGATGGTCGGCCTCGACCTGCTGGTACCGGCGGCCGATCAACCGGAGTACGTGTTCATCGAAGCCAACGAACGCGCCGGCCTGGCCAACCATGAACCGCAACCCACTGCCGAGCGCTTTGTGGATCTGTTGTTTCCCCATAGCCAGGCAGTGGTCTGA	MKPHPTLHNQRLLRGQPPSYERLQARLAEDGSELGAAPIAVHCGWGRLLIGHTFPDPATLAQELLNEQPGERDIALYVAAPQQVLGLEPAHLFLDPSDTLRLWFSDYRQATRVFRGFRIRRAQSESDWQAINQLYQARGMLPIDPERLTPRHQGGPVYWLAEDDDTGAVIGSVMGLNHQKAFNDPENGSSLWCLAVDPQCSRPGVGEVLVRHLIEHFMSRGLSYLDLSVLHNNRLAKNLYAKLGFRNLSTFAIKRKNGINQPLFLGPGPEAQFNPYARIIVEEAHRRGIEVQVDDAEAGLFTLVHGSRRVRCRESLSDLTSAISMTLCQNKSLTHKVLKNAGLNLPAQQLAGNADDNLAFLDEHERVVVKPLDGEQGQGVAVDLRTIEEVQNAIETARRFDSRVLLESFHEGLDLRILVIGFEVVAAAIRRPAEVIGDGQHTIGALIEAQSRRRQAATGGESKIPMDAETERTLSAAGYDYDSVLPAGEHLFVRRTANLHTGGVLEDVTAILHPTLADAAVRAARALDIPMVGLDLLVPAADQPEYVFIEANERAGLANHEPQPTAERFVDLLFPHSQAVV				NA	NA	NA	NA	NA
D1-35_00612	1773	asnB_1	COG0367	Asparagine synthetase [glutamine-hydrolyzing] 1	ATGTGCGGATTAGCTGGTGAGTTACGTTTCGATCAACAACCTGCGGACCTTGCGGCCGTAGAGCGCATCACCCACCACCTGGCCCCTCGCGGCCCTGACGCGTGGGGCTTTCATAGCCAGGGGCCGATCGCCCTCGGCCACCGGCGCCTGAAAATCATGGACCTGTCCGATGGTTCGGCCCAGCCGATGATCGACAATCAACTGGGCCTGTCCCTGGCGTTCAACGGCGCGATCTACAACTACCCGGAACTGCGCAGCGAACTCGAAGGCCTGGGCTACACCTTCTACTCTGGCGGCGACACCGAAGTGTTGCTCAAGGGTTATCACGCCTGGGGCGAAGCCCTGCTGCCCAAACTCAATGGCATGTTCGCCTTCGCCATCTGGGAACGCGACGCCAAGCGGCTGTTCATCGCCCGCGACCGTCTCGGCGTCAAGCCGCTGTACCTGTCGCGTACCGGCCAGCGCCTGCGCTTTGCCTCGGCGCTGCCGGCCCTGCTCAAGGGTGGCGACATCAATCCGGTGCTTGACCCGATCGCCCTCAATCACTATCTGAATTTCCACGCGGTCGTCCCGGCGCCACGCACCTTGTTGGCGGGCATTGAAAAACTGCCACCGGCGACCTGGATGCGCATCGAAGCGGACGGTCGCACCGAGCAGAAAACCTGGTGGACGCTGCCCTACGGCCCACGGTCCGATGAACAGAACCTCAACCTGGAAGACTGGATCGATCGCGTGCTCGACAGCACCCGCGAAGCCGTCGCCATTCGCCAGCGCGCCGCCGTCGACGTGGGCGTGCTGCTCTCGGGCGGCGTCGATTCGAGCATGCTCGTCGGCCTGTTGCGCGAAGTGGGCGTGGAAGACCTGTCCACCTTCTCCATCGGCTTCCAGGACGCCGGCGGCGAGCGCGGTGACGAGTTCCAGTATTCGGACCTGATCGCCAAGCACTACGGCACCCGCCATCATCAGTTGCGCATCGATGAGAAAGAAATCATCGAACAGCTGCCAGCGGCGTTTCGCGCCATGAGCGAGCCGATGGTCAGCCACGACTGCATCGCCTTTTACCTGTTGTCGCGGGAAGTCGCCAAGCACTGCAAAGTGGTACAAAGCGGCCAGGGCGCCGACGAGCTGTTCGCCGGTTACCACTGGTATCCGCAAGTGGACGGCGCCAGCGACCCGTACGCCGCCTATCGCGCCGCGTTCTTCGACCGCAGCTATGAAGAATATGCCGCGACCGTGCAGCCTGGATGGCTGACGGCCAACGACGCCGCCGGCGACTTCGTCAAGGAGCACTTCGCCCAGCCGGGCGCCGATGCGGCCGTCGACAAGGCCCTGCGCCTGGACAGCACCGTGATGCTGGTGGACGACCCGGTCAAGCGCGTCGACAACATGACCATGGCCTGGGGCCTGGAAGCGCGCACGCCGTTCCTCGACTACCGGCTGGTGGAGCTTTCGGCACGGGTGCCGGCGAAATTCAAGCTGCCCGATGGCGGCAAGCAGGTACTCAAGGAAGCGGCCCGCCGGGTGATTCCGAGCGAGGTCATCGATCGCAAGAAAGGTTATTTCCCGGTCCCGGGCCTCAAGCACTTGGAAGGCAACACCCTGGCCTGGGTTCGCGAACTGCTGCTGGACCCGAGCCAGGATCGCGGCTTGTTCAACCCGACCATGCTCGACCGTTTGCTGACCGATCCCAACGGCCAGCTCACGCCTTTGCGCGGCTCGCGGTTATGGCAATTGGCGGCGCTGAACCTGTGGCTCAGCGAGCAAGGAATCTGA	MCGLAGELRFDQQPADLAAVERITHHLAPRGPDAWGFHSQGPIALGHRRLKIMDLSDGSAQPMIDNQLGLSLAFNGAIYNYPELRSELEGLGYTFYSGGDTEVLLKGYHAWGEALLPKLNGMFAFAIWERDAKRLFIARDRLGVKPLYLSRTGQRLRFASALPALLKGGDINPVLDPIALNHYLNFHAVVPAPRTLLAGIEKLPPATWMRIEADGRTEQKTWWTLPYGPRSDEQNLNLEDWIDRVLDSTREAVAIRQRAAVDVGVLLSGGVDSSMLVGLLREVGVEDLSTFSIGFQDAGGERGDEFQYSDLIAKHYGTRHHQLRIDEKEIIEQLPAAFRAMSEPMVSHDCIAFYLLSREVAKHCKVVQSGQGADELFAGYHWYPQVDGASDPYAAYRAAFFDRSYEEYAATVQPGWLTANDAAGDFVKEHFAQPGADAAVDKALRLDSTVMLVDDPVKRVDNMTMAWGLEARTPFLDYRLVELSARVPAKFKLPDGGKQVLKEAARRVIPSEVIDRKKGYFPVPGLKHLEGNTLAWVRELLLDPSQDRGLFNPTMLDRLLTDPNGQLTPLRGSRLWQLAALNLWLSEQGI	PGPT0020150_4415	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020150-asnB-K01953	NA	NA
D1-35_00613	1986	mnmC_1	COG0665	tRNA 5-methylaminomethyl-2-thiouridine biosynthesis bifunctional protein MnmC	ATGACGCCCATCCAGCACCACGCCCAACTCGACTGGGATGACCAGGGTCGCCCCCGCTCCCGGGTATTCGGCGACGTGTATTTCTCCGACCAGTCGGGCCTGGAAGAAACCCGCTACGTGTTCCTTGCGCAGAACAACCTGGCCGAGCGTTTCGCCGCGCTGGCGGAGCACGGACGACTGGTGATCGGCGAAACCGGATTTGGCACCGGGCTGAATTTTCTCTGCGCCTGGCAGCTGTTCGAAGAATGCGCACCGACCGGTGCGCGCTTGCATTTCGTCAGCGTCGAAAAATTTCCCCTGAGCCCCGAGGACCTGCGTCGGGCCCTTGCCCTGTGGCCGGAGCTCAAGTACCAGGCTGATCAATTACTTGAGCAGTACGTCGCGATTCACCAGGGTTTCCAGCGCATGACCCTGGCGGGCGGGCGAGTGACATTGACCCTGTTGATTGGCGATGCACTGGAGCAACTGCCGCAGCTGGACGGACAGATCGACGCCTGGTTCCTCGACGGTTTTGCCCCGGCGAAAAACCCGGAGATGTGGACCGCCGAGCTGTTCGCCGAACTGGCGCGGCTGGCAGCGCCCGGCGCCACCCTCAGCACCTTTACCAGCACCGGTTGGGTGCGCAGGCTGCTCAATGCGGCGGGCTTCAAGATGAAGCGCACCCCGGGCATCGGCCACAAGTGGGAAATTCTCCGTGGGGTATTTCTCGGCTGGCCGGACCAGGTGCCCAAACCCGCCCCGGCCAAGCCCTGGTACGCCCGCCCCGCCCCGCCGGCTGGCGAACGCCATGCGCTGGTGATCGGCGGCGGCCTGGCCGGTTGCGCCAGCGCGGCGAGTCTCGCGGCCCGCGGCTGGCGAGTGACCTTGCTGGAGCGTCACGCCGGGTTGGCCGAGGAAGCGTCCGGCAACCCCCAAGGCGTGCTGTACCTCAAGTTGTCGGCCCACGGCACGGCGTTGTCGCAGATGATCCTCAGCGGTTTCGGCTACACCCGGCGCTTGCTCGAAAACCTGCAACGGGGCCTCGACTGGGACGGATGCGGAGTCTTGCAGCTGGCCTTCAACGAGAAGGAAGGCCAACGCCAGCGCCAACTGGCCGAGGCGTTTCCCGCGGGTCTGCTGCGAATTGTCGATCGCGCCGAAGCCGAGGCGCAGTCTGGTATCGGCCTGGCCTGTGGCGGCCTGTTCTATCCCGAAGGCGGCTGGGTACACCCGCCAGCCCTGTGCCGCTGGCAAGCCTCGGCTGCTGCGATTACCGTGCAGCCACATCGCGAAGTGCTTGAACTGCGACGTGTCGACGGCCAATGGCAGGCTTGGGACGGCGAACGTTGCCTGGCCAGCGCCCCGGTGGTAATCCTCGCCAGCGCCGCCGAGATCAAACGCTTCGAACCGGCCGCCGGGTTACCCCTCAAGCGCATTCGCGGGCAGATCACGCGGCTGACGCAAACCACCCGCAGCCAAAGCCTGGCGACGGTGGTCTGCGCCGAAGGCTATGTGGCGCCGTCGCGAATGGCCGAGCACACCCTGGGCGCCAGTTTCGATTTCCACAGCGATGACCTGACCCCCACCGCCGCCGAGCACGCCGGCAACCTGCAAATGCTCGAAGAAATCTCCCACGATCTGGTGGACCGCCTGAACGCCGATACCCTCGATCCGCAGCGCCTCGAAGGCCGCGCGGCGTTCCGTTGCACCAGCCCCGATTACCTGCCGATTGTCGGACCGCTGGCTGACAGCCGGGCGTTCGTCGAAACCTACGCGGCCCTGGGCAAGGATGCGCGCCAAGTGCCGGACACGCCGTGTCCCTGGCTCGACGGCCTGTACGTCAACAGCGGGCATGGCTCCCGGGGCCTGATCACTGCGCCGCTGTCGGGCGAACTGATCGCCGCCTGGCTGGACAACGAACCGCTGCCACTGCCGCGAAGCGTCGCCGAGGCCTGCCACCCGAACCGGTTTGCCTTGCGGGCGGTGATTCGCGGCAAGGCCAATTGA	MTPIQHHAQLDWDDQGRPRSRVFGDVYFSDQSGLEETRYVFLAQNNLAERFAALAEHGRLVIGETGFGTGLNFLCAWQLFEECAPTGARLHFVSVEKFPLSPEDLRRALALWPELKYQADQLLEQYVAIHQGFQRMTLAGGRVTLTLLIGDALEQLPQLDGQIDAWFLDGFAPAKNPEMWTAELFAELARLAAPGATLSTFTSTGWVRRLLNAAGFKMKRTPGIGHKWEILRGVFLGWPDQVPKPAPAKPWYARPAPPAGERHALVIGGGLAGCASAASLAARGWRVTLLERHAGLAEEASGNPQGVLYLKLSAHGTALSQMILSGFGYTRRLLENLQRGLDWDGCGVLQLAFNEKEGQRQRQLAEAFPAGLLRIVDRAEAEAQSGIGLACGGLFYPEGGWVHPPALCRWQASAAAITVQPHREVLELRRVDGQWQAWDGERCLASAPVVILASAAEIKRFEPAAGLPLKRIRGQITRLTQTTRSQSLATVVCAEGYVAPSRMAEHTLGASFDFHSDDLTPTAAEHAGNLQMLEEISHDLVDRLNADTLDPQRLEGRAAFRCTSPDYLPIVGPLADSRAFVETYAALGKDARQVPDTPCPWLDGLYVNSGHGSRGLITAPLSGELIAAWLDNEPLPLPRSVAEACHPNRFALRAVIRGKAN				NA	NA	NA	NA	NA
D1-35_00614	1512		COG2326	Polyphosphate:AMP phosphotransferase	ATGTTCGAATCCGCTGAAATCGGTCACGTCGTCGACAAAGAAACCTATGAAGCCGAGGTGCCGGCATTGCGTGAAGCATTGCTCGAAGCTCAGTACGAGTTGCATCAGCAAGGCCGCTTCCCGGTCATCATCCTGATCAACGGCATCGAAGGCGCGGGCAAAGGCGAGACGATAAAGCTGCTCAACGAATGGATGGATCCGCGGCTGATCGAGGTGCGCACCTTCGACCAGCAGACCGACGAGGAACTGGCGCGGCCGCCGGCCTGGCGCTATTGGCGGATGCTGCCAGCGAAGGGGCGGATGGGGATCTTTTTTGGCAACTGGTACAGCCAGATGCTCCAGGGGCGGGTGCACGGCGAGTTCAAGGACCCGCGGCTCGATCAGGCGATCAACGGCGCCGAGCGTCTGGAGAAGATGCTCTGCGATGAGGGCGCGCTGATCTTCAAGTTCTGGTTCCACCTCTCCAAGAAGCAGATGAAGGCCCGCCTGAAAAGTCTCAAGGACGACCCGCTGCACAGCTGGCGGATCAGCCCCTTGGACTGGCAGCAGTCCCAGACCTACGACAAGTTCGTCAAATACGGCGAGCGCGTGCTGCGCCGCACCAGTCGCGACTACGCACCCTGGCATGTGATCGAAGGCGTGAATGCCTGTTATCGCAGCCTCGCGGTCGGGCAGATTTTGCTCGAAGGCCTGCGCCAGGCCCTGGACCGACCGAAGATCAGCCCGGAAAAAGTCAACGTGGCAGCATTGCCGGCACTGGACGACCAAGTGACTTTGCTCGACAGCCTCGACATGACGCTGCGCCTGGACAAGGCCGATTATGAGGAGCAGTTGATCACCGAGCAGGCCCGCTTCGCCGGGCTGCTGCGGGACAAGCGCATGCGCCGGCACGCCTTGGTGGCGGTGTTCGAAGGTAACGACGCGGCCGGCAAGGGCGGGGCGATCCGCCGGGTCGCGGCGGCGCTCGACCCGCGTCAGTACAGCATCGTGCCGATTGCCGCGCCCACCGAGGAAGAACGCGCCCACCCCTACATGTGGCGTTTCTGGCGGCACATTCCGGCGCGGGGCAAGTTCACCATGTTCGACCGCTCCTGGTACGGGCGGGTATTGGTGGAGCGGGTCGAAGGTTTTTGCAGCCGTGCCGACTGGCTGCGAGCCTACGGTGAAATCAACGACTTCGAAGAACAACTGGCCGATGCCGGCGTGGTGGTGGTGAAGTTCTGGCTGGCCATTGACAAGGAGACCCAACTGGAGCGCTTCCAGGAACGCGAGGAAATCCCGTTCAAGCGGTTCAAGATCACCGAGGATGATTGGCGCAACCGTGACAAGTGGGATGCCTATCGGTCGGCGGTCTGCGACATGGTCGATCGCACCAGCACCGAAATATCACCGTGGACCCTGGTCGAGGCGAACGACAAGCGTTGGGCCCGGGTCAAGGTATTGCGTACGCTCAACGACGCGCTGGAGGCCGCGTTCGAACGTTCCGCCAGGCAGGCGCGCAAAAAGAAATAG	MFESAEIGHVVDKETYEAEVPALREALLEAQYELHQQGRFPVIILINGIEGAGKGETIKLLNEWMDPRLIEVRTFDQQTDEELARPPAWRYWRMLPAKGRMGIFFGNWYSQMLQGRVHGEFKDPRLDQAINGAERLEKMLCDEGALIFKFWFHLSKKQMKARLKSLKDDPLHSWRISPLDWQQSQTYDKFVKYGERVLRRTSRDYAPWHVIEGVNACYRSLAVGQILLEGLRQALDRPKISPEKVNVAALPALDDQVTLLDSLDMTLRLDKADYEEQLITEQARFAGLLRDKRMRRHALVAVFEGNDAAGKGGAIRRVAAALDPRQYSIVPIAAPTEEERAHPYMWRFWRHIPARGKFTMFDRSWYGRVLVERVEGFCSRADWLRAYGEINDFEEQLADAGVVVVKFWLAIDKETQLERFQEREEIPFKRFKITEDDWRNRDKWDAYRSAVCDMVDRTSTEISPWTLVEANDKRWARVKVLRTLNDALEAAFERSARQARKKK	PGPT0002695_90	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002695-ppk2-K23753	NA	NA
D1-35_00615	1185	fadA_1	COG0183	3-ketoacyl-CoA thiolase	ATGCGTGAAGTGGTGATCGTCGACAGCGTACGGACCGGCCTGGCCAAGTCCTTTCGCGGCAAGTTCAACATGACCCGCCCGGACGACATGGCGGCCCATTGCGTCAACGCGTTGCTGGCGCGTAACGATATTGATCCGGCCAGCGTCGAGGACTGTATCGTCGGCGCCGGTTCCAACGAAGGCGCCCAAGGCTATAACATCGGGCGCAACGTGGCGGTGCTCTCGCAGCTGGGCATCGGCACGGCCGGGATGACACTGAACCGCTTCTGTTCCTCGGGCCTGCAAGCCATCGCCATCGCCGCCAACCAGATCGCCTCCGGCTGCAGCGAGATCATCGTCGCCGGTGGCGTGGAATCCATCAGCCTGACGATGAAAAGCGTCAACACTGACAACCTGATCAACCCCTTGCTCAAGGAGCAGGTGCCGGGGATCTACTTCCCCATGGGCCAGACCGCCGAGATCGTCGCGCGCCGTTACCAGGTCAGCCGCGATGAGCAGGACCGCTACGCCTTGCAGAGCCAGCAGCGCACTGCCCGGGCCCAGGCAGCCGGGCTGTTCGACGATGAAATCGTGCCGATGGCGGTGAAATACCGGGTCGAGGACAAGACCACCGGTGCGGTGCAGATCGTTGACGGGGTGGTTGATCGCGATGATTGCAACCGCCCCGATACCACGTATGAAAGCCTGGCCGGGCTGAAACCGGTGTTCGCCGAAGACGGTTCGGTGACGGCGGGCAACTCTTCGCAGTTATCCGACGGCGCCTCGATGACCCTGGTGATGAGCCTGGAAAAAGCCCTGGCGTTGGGGCTCAAGCCCAAGGCATTTTTCCGTGGCTTTACCGTGGCCGGCTGCGAGCCGGACGAGATGGGCATCGGCCCGGTGTTCTCGGTGCCTAGATTGCTCCAGGCCAAGGGTTTGCAGATCGGCGATATCGATTTGTGGGAGCTCAACGAAGCGTTTGCATCCCAGTGCCTGTACAGCCGCAATCGACTGGAGATAGATAACGAGAAATACAACGTCAACGGCGGCTCGATTTCCATCGGTCATCCGTTCGGCATGACCGGCTCGCGGCAGGTGGGGCATCTGGTGCGTGAGCTGCAACGGCGCAGTCTGCGCTACGGCGTCGTGACCATGTGCGTGGGCGGCGGGATGGGGGCAACGGGGTTGTTCGAGGCGGTTCGCTAA	MREVVIVDSVRTGLAKSFRGKFNMTRPDDMAAHCVNALLARNDIDPASVEDCIVGAGSNEGAQGYNIGRNVAVLSQLGIGTAGMTLNRFCSSGLQAIAIAANQIASGCSEIIVAGGVESISLTMKSVNTDNLINPLLKEQVPGIYFPMGQTAEIVARRYQVSRDEQDRYALQSQQRTARAQAAGLFDDEIVPMAVKYRVEDKTTGAVQIVDGVVDRDDCNRPDTTYESLAGLKPVFAEDGSVTAGNSSQLSDGASMTLVMSLEKALALGLKPKAFFRGFTVAGCEPDEMGIGPVFSVPRLLQAKGLQIGDIDLWELNEAFASQCLYSRNRLEIDNEKYNVNGGSISIGHPFGMTGSRQVGHLVRELQRRSLRYGVVTMCVGGGMGATGLFEAVR	PGPT0001565_2994	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
D1-35_00616	315			hypothetical protein	ATGCCTGGAACGCGCGCCGAAGATACAGATGCTCCCAAGACGATTTACCGCAGCAGCGATCGGATCGTCCGGGAGAATGGCAAGTTCTATTTCGATACGCGCGAAGGCACCCAGGAAGGTCCGTTCGAAAGCCGCGAGGCTGCGGAGCGGGAGATAGCGGCGTATATCCAGCGGATGCTGCAGCTGACCAGGTTGCCAACTGAGGGCTCGATAGCTGGTGAAGAGAAGCTTCCGTGGCGAGGGGATTTATCCCCGCTGGGCCGCGAAGCGGCCCCACAAGGTCATCCAATCGGGCCTGATATACCCAGTCGCTGA	MPGTRAEDTDAPKTIYRSSDRIVRENGKFYFDTREGTQEGPFESREAAEREIAAYIQRMLQLTRLPTEGSIAGEEKLPWRGDLSPLGREAAPQGHPIGPDIPSR				NA	NA	NA	NA	NA
D1-35_00617	963	yhbE	COG0697	putative inner membrane transporter YhbE	ATGCACATATCGTCCGGTCGCTGGGTCTACGGCCTGTTCCTCGCCCTGCTGACCGCCTTGTTGTGGGGAATCCTGCCGATCAAGCTCAAGCAAGTGCTGCAGGTGATGGATCCGGTGACGGTGACCTGGTTTCGGCTGACGGTGTCCGGTGGCCTGCTGTTCATCTACTTGGCGGCAACCCGACGCCTGCCCAGCCGCAAGGTGCTCGGGCCCCGTGGCGGTTGGCTGGTAGGCATGGCGGTGCTGGGGCTGGTGGGCAACTACGTGCTGTACCTGATGGGCCTGAACCGCCTGAGCCCCGGCACCGCCCAACTGGTGGTGCAGATGGGGCCGATCATGCTGCTGGTCGCCAGCCTGTTTGTATTCAAGGAGCGTTTCAGCGTGGGGCAGGGCATTGGTTTGCTGGTGCTGCTGATCGGTTTTGCGCTGTTCTTCAATCAGCGCCTCGTCGAATTGCTGACATCCCTGAGCGAGTACACCGCTGGCGTTCTGTTGGTATTGCTGGCCTCGACCGTCTGGACGTTCTATGCCCTGGGCCAGAAGCAATTGCTGACGGTGTGGAATTCACTGCAGGTGATGATGGTGATCTACCTGTTCTGCGCGCTGTTGCTCACGCCCTGGGTGCATCCACTGGAAGCCTTGCAATTGAGCCCGCTGCAAGGCTGGCTATTGTTGGCCTGCTGCCTCAATACGCTGATTGCCTATGGCGCGTTCGCCGAGGCGTTGGCGCATTGGGAGGCTTCGCGGGTCAGCGCGACGCTGGCGATCACGCCGCTGGTGACCTTCGCGGCCGTGGCGATGGCTGCCTGGTGGTGGCCCGACTATGTGCATGCCGAGCAGATCAATCTGCTGGGTTACGGTGGGGCAGTGTTGGTGGTATTGGGGTCGGCGCTGGTGGCGCTGGGGCCATCGCTCATCGCCGGGCTCAGGGCCCGGCGCGAACGCCTGGCGCTCGGGCGTTAG	MHISSGRWVYGLFLALLTALLWGILPIKLKQVLQVMDPVTVTWFRLTVSGGLLFIYLAATRRLPSRKVLGPRGGWLVGMAVLGLVGNYVLYLMGLNRLSPGTAQLVVQMGPIMLLVASLFVFKERFSVGQGIGLLVLLIGFALFFNQRLVELLTSLSEYTAGVLLVLLASTVWTFYALGQKQLLTVWNSLQVMMVIYLFCALLLTPWVHPLEALQLSPLQGWLLLACCLNTLIAYGAFAEALAHWEASRVSATLAITPLVTFAAVAMAAWWWPDYVHAEQINLLGYGGAVLVVLGSALVALGPSLIAGLRARRERLALGR				NA	NA	NA	NA	NA
D1-35_00618	1395	fumC_1	COG0114	Fumarate hydratase class II	ATGAGCCGTATCGAAACCGACAGCCTTGGCCAGGTTGAAGTCCCGGATGAAGCCTATTGGGGCGCCCAGACACAGCGCTCGATGATCAACTTTGCCATTGGCAACGAACGCATGCCGCTGTCGGTGCTGCATGCCCTGGCGCTGGTCAAGAAAGCCGCCGCGCGGGTCAACGACCGCAACGGTGACTTGCCCGCCGACATCGCCCGCCTGATCGAACAGGCGGCCGACGAGGTGCTGGCCGGCCAGCATGACGATCAGTTTCCCCTGGTGGTCTGGCAGACCGGCAGCGGAACCCAGAGCAACATGAACGTCAACGAGGTGATCGCCGGGCGCGCCAACGAGCTGGCGGGCAACCCCCGTGGCGGCAAGAGCCCGGTGCATCCCAACGACCATGTCAACCGGTCCCAGAGCTCCAACGACTGCTTCCCCACCGCCATGCACATCGCCGCCGCCCAGGCCGTGTACCAGCAATTGCTGCCGGCCATCAGCGAGTTGTCCGGCGGCCTCGCGGAACTGGCGGCGCGCCACATGAAACTGGTCAAGACCGGCCGCACCCACATGATGGATGCCACGCCGATCACGTTCGGCCAGGAACTGTCCGCCTTCATTGCCCAACTCGACTACGCCGAGCGGGCGATCCGCGCTTCGTTGCCGGCGGTCTGCGAGCTGGCCCAGGGCGGCACGGCGGTGGGCACCGGGCTCAATTCGCCGCACGGTTTCGGCGAAGCGATCGCCGCTGAACTCGCGGCGCTGTCCGGGCTGCCGTTTGTCACGGCGCCGAACAAGTTCGCCGCACTGGCAGGTCATGAACCGTTGACCACGTTGTCCGGCGCGTTGAAAACCCTGGCCGTGACGCTGATGAAAATCGCCAATGACCTGCGCCTGCTGGGCTCCGGGCCACGGGCGGGATTTGCCGAAGTGAAATTGCCGGCCAACGAACCGGGCAGTTCCATCATGCCTGGCAAGGTCAACCCGACCCAGTGTGAAGCCTTGTCGATGCTGGCGTGCCAGGTATTGGGCAATGACGTGGCGATCGGTTTTGCCGCCAGTCAGGGACACTTGCAGTTGAACGTGTTCAAGCCGGTGATCATCCACAACCTGCTGCAATCGATCCGCCTGCTGGCCGATGGCTGCAGCAACTTCCAGCAGCACTGCATCGCCGGCCTCGAACCGGATGCCGAGCAGATGGCCGCGCACCTGGAGCGTGGCCTGATGCTGGTGACGGCGCTGAATCCGCATATCGGCTACGACAAGTCGGCGGAGATCGCCAAGAAAGCCTACGGCGAAGGGCTGACGCTACGGGAGGCAGCGGTGCAGCTGGGGTACCTGACCGACGAAGAGTTCGACGCCTGGGTCAGGCCGGAGAACATGCTGGAGGCGGGTGGCCAGGGCTGA	MSRIETDSLGQVEVPDEAYWGAQTQRSMINFAIGNERMPLSVLHALALVKKAAARVNDRNGDLPADIARLIEQAADEVLAGQHDDQFPLVVWQTGSGTQSNMNVNEVIAGRANELAGNPRGGKSPVHPNDHVNRSQSSNDCFPTAMHIAAAQAVYQQLLPAISELSGGLAELAARHMKLVKTGRTHMMDATPITFGQELSAFIAQLDYAERAIRASLPAVCELAQGGTAVGTGLNSPHGFGEAIAAELAALSGLPFVTAPNKFAALAGHEPLTTLSGALKTLAVTLMKIANDLRLLGSGPRAGFAEVKLPANEPGSSIMPGKVNPTQCEALSMLACQVLGNDVAIGFAASQGHLQLNVFKPVIIHNLLQSIRLLADGCSNFQQHCIAGLEPDAEQMAAHLERGLMLVTALNPHIGYDKSAEIAKKAYGEGLTLREAAVQLGYLTDEEFDAWVRPENMLEAGGQG	PGPT0001650_2664	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
D1-35_00619	522			hypothetical protein	ATGACCCGTCTTCGTGCCATCTGTACCGCAGTTGCTCTGGTGTGTGCCAGCGGCCCTGTTCTTGCCGATACCGCCAGCCACAACGCCAGTGCCGAAGCGTTCCTGACCCTGGCGCACGCTGACAAGCTGGGTACTCCGGTGTACATGCAGGTACAGCAGATGTTTGCCCAGCGCTTTGAGCAGACCAAGGCTCCCGAGTCGAAAAAAGCCACCCTGGAAACCTACCAGGCCAAGGCCAATGCCGCCCTGGACCAGGCGATCGGCTGGAACAAGCTCAAGCCGGACATGGTCAAGCTCTACACCTCCAACTTCAGCGAATCGGAGCTCAAGGACCTGGTGTCCTTCTATCAGTCTCCCTTGGGCAAGAAGGTCCTGGAAAAAATGCCGCAGCTGACCCAGCAATCGGCGCAACTGACCCAGGCCAAGCTGGAAAGCGCGGTGCCGGTGGTCAACAAGCTGCTGGCCGACATGACCGCCGAGCTTGAGCCGAAAGCCGCCGCCCCGGCCAAGAAAAAGCCATAA	MTRLRAICTAVALVCASGPVLADTASHNASAEAFLTLAHADKLGTPVYMQVQQMFAQRFEQTKAPESKKATLETYQAKANAALDQAIGWNKLKPDMVKLYTSNFSESELKDLVSFYQSPLGKKVLEKMPQLTQQSAQLTQAKLESAVPVVNKLLADMTAELEPKAAAPAKKKP				NA	NA	NA	NA	NA
D1-35_00620	300	bolA	COG0271	DNA-binding transcriptional regulator BolA	ATGAGCATGCAACAACGCATTGAATCGACCCTCGGGCTGCTGCAGCCCGAGCACCTGCAAGTGCTCGATGAAAGCCACATGCACAGCCGTGGGCTTGAGACCCACTTCAAGGCAGTGGTGGTCAGCCAGCAGTTCGAGGGGCTCAATCGGGTCAAGCGACACCAGAAGGTCTACGGTACGTTGGGCGAGCTGATGGGCGAATTCCATGCGCTGGCGCTGCACACCTACACGCCTGAAGAATGGGCCCAGGTCGACGCAGCCCCGGCGTCGCCGACCTGTGCCGGCGGCAGTAAGCACTGA	MSMQQRIESTLGLLQPEHLQVLDESHMHSRGLETHFKAVVVSQQFEGLNRVKRHQKVYGTLGELMGEFHALALHTYTPEEWAQVDAAPASPTCAGGSKH	PGPT0014930_837	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014930-bolA-K05527	NA	NA
D1-35_00621	942			hypothetical protein	ATGACACCACCGATTGTCGTGGCGGCACTGTATAAGTTCGTCACGCTGGAAGATTACGTCGAGCTGCGTGAGCCCCTGCTCAAGGCGATGCTCGACAACGGCATCAAAGGAACCTTGCTGATTGCCGAGGAAGGCATCAACGGCACCGTTTCCGGCACCCGCGAAGGCATCGACGGGCTGATGGCCTGGCTCAAGAACGATCCGCGCATGGACGACATCGACCACAAGGAGTCGTACTGTGACGAGCAGCCGTTCTACCGCACCAAGGTCAAGCTCAAGAAAGAGATCGTTACCCTCGGCGTAGAAGGCGTGGACCCGAACAAGCGGGTCGGCACCTATGTCGAACCGCAAGACTGGAACGCGCTGATCAGCGATCCGGAAGTGCTGCTGATCGACACGCGCAACGATTATGAAGTCTCCATTGGCACCTTCGAAGGCGCGATCGATCCCAAGACCGCCAGCTTCCGTGAGTTTCCCGAGTACATCAAAGCCAACTTCGACCCGGCCCGGCACAAGAAAGTCGCGATGTTCTGCACCGGTGGCATTCGCTGTGAAAAAGCCTCGAGCTTCATGCTCAATGAGGGTTTCGAAGAGGTCTACCACCTAAAGGGCGGGATTCTCAAATACCTCGAAGAGGTGCCCCAGGAAGAGACCAAATGGCGCGGTGACTGCTTTGTCTTCGACAACCGCGTGACCGTGCGCCACGATCTCAGCGAAGGCGACTACGATCAGTGCCATGCCTGTCGCACCCCGATCAGCGCAGAGGATCGTGCTTCGGAGCATTATTCGCCTGGCATCAGTTGCCCGCATTGCTGGGACAAACTGAGCGAAAAGACCCGTCGCAGCGCCATCGACCGGCAAAAGCAGATCGAACTGGCCAAGGCGCGCAACATGCCGCATCCGATCGGCTACAACTACAAGCAATCATCTTCCGAGGCTTGA	MTPPIVVAALYKFVTLEDYVELREPLLKAMLDNGIKGTLLIAEEGINGTVSGTREGIDGLMAWLKNDPRMDDIDHKESYCDEQPFYRTKVKLKKEIVTLGVEGVDPNKRVGTYVEPQDWNALISDPEVLLIDTRNDYEVSIGTFEGAIDPKTASFREFPEYIKANFDPARHKKVAMFCTGGIRCEKASSFMLNEGFEEVYHLKGGILKYLEEVPQEETKWRGDCFVFDNRVTVRHDLSEGDYDQCHACRTPISAEDRASEHYSPGISCPHCWDKLSEKTRRSAIDRQKQIELAKARNMPHPIGYNYKQSSSEA	PGPT0013330_1442	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013330-UPF0176_protein-K07146	NA	NA
D1-35_00622	636			hypothetical protein	ATGGCGTCGCGCCTGCTGTATGTGATGGACCCGATGTGTTCCTGGTGCTGGGGCTTCGCGCCAGTGGCCGAAGCGTTGGCCGAGCAGGCGCAGGCGGCGGGCGTGGAGTTGCACCTGGTGGTGGGCGGCTTGCGCACCGGCAGCGGTTCGGCTCTCGAGCCGACCACCCGACGCTACATTCTCGAGCACTGGCAGGCCGTTACCCAAGCCACCGGCCAGCCGTTCAAGCTTGAAGGCGCGTTGCCGGACGGTTTTGTCTACGACACCGAACCCGCATGCCGCGCCTTGGTGACGGCCCGCAGCCTGGCGCCGGACCTGGCCTGGCAGTTACTGAAGCTGATCCAGCAGGCGTTTTATGTGCAAGGCCGCGACGTGACCCACGCCAGCGTCCTGGTGGAACTGGCCGAACAGGCCGGGCTGCCCCGCATCGAGTTTGCCGCGGCATTCGACCGCGCCGACCAGCATGCCGCCACCGCCGCCGACTTCACCTGGGTGCAAGACCTTGGCATCGCCGGATTCCCTACGATGCTGGCCGAACGTGACGGCCAATTGGCCCTGCTGACCAACGGCTACCAACCGTTGGACCAGCTGTCGCCATTGCTGGGGCGCTGGCTGGAGCGTGCGGCCTGTGCCTGA	MASRLLYVMDPMCSWCWGFAPVAEALAEQAQAAGVELHLVVGGLRTGSGSALEPTTRRYILEHWQAVTQATGQPFKLEGALPDGFVYDTEPACRALVTARSLAPDLAWQLLKLIQQAFYVQGRDVTHASVLVELAEQAGLPRIEFAAAFDRADQHAATAADFTWVQDLGIAGFPTMLAERDGQLALLTNGYQPLDQLSPLLGRWLERAACA				NA	NA	NA	NA	NA
D1-35_00623	1830	bmrA	COG1132	Multidrug resistance ABC transporter ATP-binding/permease protein BmrA	GTGCCTGACCTGCCCGATGATGACGCATCGACCTCGCGGCGCATCGACCGGTTGAGCTGGACGGAAATCCGTCGTCTGGCCCTTACGCACAAAAAAGCCCTGTGGATCGCCAACGGCGTCGCCGTGCTGGCGACGCTGTGCAGCGTGCCGATTCCGTTGTTGCTGCCGCTGCTGGTGGACGAAGTGCTGCTGGGCCACGGCGACGCGGCATTGAAGGTCATGAATCAGGCGTTGCCGAGCGCTTGGCAGAGCGCTGCCGGCTACATCGGATTGATGTTGCTGGTGACCTTGGCCCTGCGCTGCGGCGCCTTGCTGTTCAACGTGTTGCAGGCGCGGCTGTTCGCCAGTCTCGCCAAGGACATCGTCTATCGCATCCGCATCCGGTTGATCGAGCGCCTCAAGCGGATTTCCCTTGGCGAATACGAAAGCCTGGGCAGCGGCACGGTGACGACGCACCTGGTCACCGACCTGGACACCCTCGACAAATTTGTTGGCGAAACCCTGAGCCGGTTCCTGGTGGCGATGCTGACCCTGGTAGGCACCGCGGGCATCCTGGTATGGATGCATTGGGAACTGGCGCTGCTGATCCTGCTGTTCAACCCGCTGGTGATCTACGCCACGGTGCAGTTGGGCAAACGGGTCAAGCACCTCAAGAAGCTGGAGAATGACAGCACCTCGCGCTTCACCCAGGCCCTGACCGAAACCCTGGATGCGATCCAGGAAGTGCGCGCCGGCAATCGCCAGGGGTTTTTCCTTGGACGCCTGGGCACGCGCGCCCGGGAAGTGCGCGACTACGCGGTGAGCTCGCAGTGGAAAACCGACGCCTCGAACCGCGCCAGTGGTTTGCTGTTCCAGTTCGGCATCGATATTTTTCGCGCGGCGGCCATGCTGACCGTGCTGTTCTCCGATCTGTCGATCGGCCAGATGCTCGCGGTGTTCAGCTACCTGTGGTTCATGATCGGCCCGGTCGAGCAACTGCTTAACTTGCAGTACGCCTACTACGCGGCGGGTGGGGCATTGAACCGTATCAACGAACTGCTGGCGCGCGCCGATGAGCCCCAGTACAGCGGTGGCGTCGATCCTTTCAAGGGGCGCGACACCGTGGGCATCGACATCCAGGGGCTCAGCTTCGGTTACGGCGAGGAAAAGGTGCTCGACCAATTGAACCTGTCCATTTCGCCGGGGGAAAAGGTCGCTATCGTCGGGGCCAGCGGGGGCGGCAAAAGTACCCTGGTGCAACTGCTGTTGGGGCTCTACACACCACAGTCCGGCAGCATCCGCTTCGGCGGTGCCACCCAAGAGGAAATCGGCTTGGAAACCATCCGCGAAAATGTCGCGGTGGTCCTGCAACATCCGGCGCTGTTCAACGACACGGTGCGCGCCAATCTGTCCATGGGCCGCGAGCGCAGCGACGAGGCGTGCTGGCGAGCCCTGGCGATTGCCCAACTGGACGAAACAGTGCGGGCGCTTCCGATGGGGCTGGAGAGCATCGTCGGGCGTTCCGGTGTGAGGCTGTCGGGCGGGCAACGCCAGCGACTGGCGATCGCCCGTATGGTCCTGGCCGATCCGCGCGTGGTGATTCTCGACGAAGCCACGTCCGCGCTGGACGCGGCTACGGAATACAACCTTCACCAGGCGTTGGCGCGGTTCCTGAGCGGGCGCACCACGTTGATCATCGCCCATCGGTTGTCGGCGGTGAAACAGGCTGACCGGGTATTGGTGTTCGACGGCGGGCAGATCGCCGAAGACGGCGACCACTTGCAGCTGATTGCCGAGGGTGGCCTGTACGCCCGGCTCTACGGTCATTTGCAACAAATACAGCGACCTTGA	MPDLPDDDASTSRRIDRLSWTEIRRLALTHKKALWIANGVAVLATLCSVPIPLLLPLLVDEVLLGHGDAALKVMNQALPSAWQSAAGYIGLMLLVTLALRCGALLFNVLQARLFASLAKDIVYRIRIRLIERLKRISLGEYESLGSGTVTTHLVTDLDTLDKFVGETLSRFLVAMLTLVGTAGILVWMHWELALLILLFNPLVIYATVQLGKRVKHLKKLENDSTSRFTQALTETLDAIQEVRAGNRQGFFLGRLGTRAREVRDYAVSSQWKTDASNRASGLLFQFGIDIFRAAAMLTVLFSDLSIGQMLAVFSYLWFMIGPVEQLLNLQYAYYAAGGALNRINELLARADEPQYSGGVDPFKGRDTVGIDIQGLSFGYGEEKVLDQLNLSISPGEKVAIVGASGGGKSTLVQLLLGLYTPQSGSIRFGGATQEEIGLETIRENVAVVLQHPALFNDTVRANLSMGRERSDEACWRALAIAQLDETVRALPMGLESIVGRSGVRLSGGQRQRLAIARMVLADPRVVILDEATSALDAATEYNLHQALARFLSGRTTLIIAHRLSAVKQADRVLVFDGGQIAEDGDHLQLIAEGGLYARLYGHLQQIQRP				NA	NA	NA	NA	NA
D1-35_00624	2460			hypothetical protein	ATGAAGCAAAAGCGGACTCTCGGAACGCCTCGGTTGTTGGGCATCGTCTGGCCCTTTATCGCCGTCGTGCTATTTCAAGCATTGCTAGGAGGCGTCAGCCTTTATGTCCTGTCCGCAGTTCGCGGCTACGTGGCGGGGGAGAGCCTTTGGTCCAAGGGCCAGAAGGACGCTATCTATTACCTCAATCTTTACGCCGACAGCCGTGACGAGGCGATCTTTCGCAAATACCAGCAGGCCATCGCCGTGCCCGAGGGTGGACACGATCTACGCGTGGCCCTGGATCGCCAGCCGCCGGATCTCGAAGCGGCGCGGGTCGGGATTCTCCAGGGCGGCAATCATCCGGACGACGTGGCCAGCCTGATCTGGTTGTACCTCAACTTTCGCCATTTCAGTTATCTGGAAGAAGCCATCGATCTGTGGACGGTTGGCGATGGTTACCTGACCGAACTGGATAACGTCGCCCGGCAGATGCATCGCAGCATCACGGTGGGAGAAGCCTCCGAGGCCGATGTCCGCGGCTGGAAAGCGCAGATTTTCGCCATCAACGATTCCGTCACCCCTGCCGCCAAGGCATTCAGCGACGCGCTGGGCGAAGGATCGAGATTTATCCTGCGCCTGTTGCTGGTGACCAATTTCGCCACCGCGCTGGGATTGATCGTGCTGGCGCTGTTGCGCACGCACAAGTTACTGGCACAGCGGCAGGTCTTCGCCAATGCGCTGCAACTGGAGAAGGAACGGGCGCAGATCACCTTGCAATCGATTGGCGATGGCGTGATCACCACCGACGTCGAAGGCGCCATTGCGTACATGAATCCCGCTGCCGAAGCGATGACCCACTGGAAAGCCGAGCACGCCACGGGGCTGCCCCTGGCGGCGCTGTTCAATCTGCTTGACGACAATGCCCAGACCGAAGGCCTGACCTTGATCGAGCACATACTCAGCGGACGACTCGGCGGCGGCAGCGAGCATTCCAAGCTGATCCAGCGACTTGACGGCAGCACGGTGTCGGTGACCCTGGTGGGGGCGCCGATCCGTCATGCCGGCAAAGTCAGCGGCGCGGTGCTGGTGCTGCATGACATGACCCAGGAGCGCCAGTACATTGCCAACCTGTCATGGCAGGCTACCCACGACGCCCTGACCGGCCTGGCGAACCGCCGGGAATTCGAATACCGCCTCGAGCAGGCCCTGCACAACCTCACGCGCCAGGTCGGGCGCCACGCGTTGATGTTTCTCGACCTGGACCAATTCAAACTGGTCAACGACACCTGCGGCCACGCGGCGGGCGACGAGTTGCTGCGACACATCTGTGCCTTGCTGCAATCGGGGTTGCGGGAAAACGACACGCTTGCCCGGCTGGGCGGGGACGAGTTCGGCATCCTGCTGGAAAACTGCTCGCCCGAGGCGGCGGAAAAGATCGCCGAAGGCCTGCGCCAGACCGTGCAGAACCTGCATTTTGTCTGGAAAGGCCGGCCATTCGTGACCACTGTGAGCATCGGCCTGGTGCACATCGCCCAAAGCCCGACGACGCTGGAAGCCTCATTGCGTGCCGCCGACATGGCCTGCTATATGGCCAAGGAGAAAGGGCGCAACCGGGTCCAGGTCTACCATGCCGACGACTCGGAGTTGTCCCTGCGTTTTGGCGAAATGGCCTGGGTGCAGCGCTTGCACATGGCGCTGGAGGAAAACCGTTTCTGCCTCTACGCCCAGGAAATCGCCGCGTTGGGCCCGGGTGACCACGATGGCGGACATATCGAGATCCTGTTGCGCCTGCATGACGAGGCAGGGCGAATGATCCTGCCGGACAGCTTCATTCCGGCGGCGGAGCGTTACGGCTTGATGACCTCGCTGGACCGTTGGGTCGTGGAGAATGTGTTCAAGATCATTCGCCAATGCCTGAATGAGTCGCGGCAAGGTCCGTTGGCCATGTGTGCCATCAACCTGTCAGGCACCACCATTGGCGATCAGGCGTTCCTGGATTTCCTGCGTAAACAGTTCGCTGCCTACTCGATTCCCCCGGAAATGATTTGTTTTGAAATCACCGAGACCAGTGCCATTTCCAATCTGGGCAGCGCGATTCGTTTTATAAACGAACTCAAGAGCTTGGGTTGTTACTTCTCGCTGGATGACTTTTGTGCCGGAATGTCTTCATTCGCTTACTTGAAACATTTACCTGTAGACTTCCTGAAGATCGATGGGAGTTTCGTAAAGGATATGCTGGACGACCCGATTAACCGGGCAATGGTCGAGGTGATCAATCACATCGGCCATGTCATGGGGAAGCGCACCATTGCCGAGTTCGTGGAAACGACTCAGATCGAACAGGCATTGTTGGAAATCGGCGTGGATTTCGCCCAGGGTTATGTCATCGAGCGTCCACAACTGTTTACTTGTGACACGTTGCAATGCCGGCCGGCCAGGCCTCAGCCATTGTTGTTCAAGGCCCCCGGCACGTTTCGCTGA	MKQKRTLGTPRLLGIVWPFIAVVLFQALLGGVSLYVLSAVRGYVAGESLWSKGQKDAIYYLNLYADSRDEAIFRKYQQAIAVPEGGHDLRVALDRQPPDLEAARVGILQGGNHPDDVASLIWLYLNFRHFSYLEEAIDLWTVGDGYLTELDNVARQMHRSITVGEASEADVRGWKAQIFAINDSVTPAAKAFSDALGEGSRFILRLLLVTNFATALGLIVLALLRTHKLLAQRQVFANALQLEKERAQITLQSIGDGVITTDVEGAIAYMNPAAEAMTHWKAEHATGLPLAALFNLLDDNAQTEGLTLIEHILSGRLGGGSEHSKLIQRLDGSTVSVTLVGAPIRHAGKVSGAVLVLHDMTQERQYIANLSWQATHDALTGLANRREFEYRLEQALHNLTRQVGRHALMFLDLDQFKLVNDTCGHAAGDELLRHICALLQSGLRENDTLARLGGDEFGILLENCSPEAAEKIAEGLRQTVQNLHFVWKGRPFVTTVSIGLVHIAQSPTTLEASLRAADMACYMAKEKGRNRVQVYHADDSELSLRFGEMAWVQRLHMALEENRFCLYAQEIAALGPGDHDGGHIEILLRLHDEAGRMILPDSFIPAAERYGLMTSLDRWVVENVFKIIRQCLNESRQGPLAMCAINLSGTTIGDQAFLDFLRKQFAAYSIPPEMICFEITETSAISNLGSAIRFINELKSLGCYFSLDDFCAGMSSFAYLKHLPVDFLKIDGSFVKDMLDDPINRAMVEVINHIGHVMGKRTIAEFVETTQIEQALLEIGVDFAQGYVIERPQLFTCDTLQCRPARPQPLLFKAPGTFR	PGPT0023624_1603	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
D1-35_00625	804			hypothetical protein	GTGATCGACACATTCAACCGAACAGGCCCGCTCATGGACGCCGCCAGTTATCCACAATGGGCACAGCAGCTCATTGCCGACTGCAGCGAGAGCAAGCGCCGGGTTGTCGAACACGAACTGTATCAACGCATGCGCGACAACAAGCTCAGCGCCAAGACCATGCGCCACTACCTCATCGGTGGTTGGCCGGTCGTCGAACAGTTCGCCTTGTACATGGCACAGAACCTTACCAAGACCCGCTTCGCCCGCCACCCCGGCGAGGACATGGCGCGTCGTTGGTTGATGCGCAACATTCGTGTCGAGCTCAATCATGCCGATTATTGGGTCAACTGGAGCGCTGCTCACGGCGTGACGCTCGAAGACCTGCAGGCGCAGCAGGTGCCGCCTGAGCTTCATGCGTTGAGCCATTGGTGCTGGCACACCAGTTCGGCGGACTCGCTGATCGTGGCTATTGCCGCGACCAACTATGCCATCGAGGGGGCGACCGGGGAGTGGTCGGCACTGGTCTGCTCTACCGGTGTCTATGCGTCGGCGTTCGCCGAGGAAGACCGCAAGCGGGCCATGAAGTGGCTGAAGATGCATGCCCAGTATGACGATGCCCACCCGTGGGAAGCGCTGGAAATCATCTGTACGCTGGCGGGCATGAACCCGAGCAAGGCGTTGCAGATGGAACTGCGCCAGGCCGTTTGCAAGAGCTACGACTACATGTATCTGTTTCTCGAAAGGTGCATGCAGCTGGAACACTCGGGCGCCGGCGAAAAAGCCTCGGCTGGCCGTGAACGGCTGGCGCTGGCCAGTAACTGA	MIDTFNRTGPLMDAASYPQWAQQLIADCSESKRRVVEHELYQRMRDNKLSAKTMRHYLIGGWPVVEQFALYMAQNLTKTRFARHPGEDMARRWLMRNIRVELNHADYWVNWSAAHGVTLEDLQAQQVPPELHALSHWCWHTSSADSLIVAIAATNYAIEGATGEWSALVCSTGVYASAFAEEDRKRAMKWLKMHAQYDDAHPWEALEIICTLAGMNPSKALQMELRQAVCKSYDYMYLFLERCMQLEHSGAGEKASAGRERLALASN				NA	NA	NA	NA	NA
D1-35_00626	927			hypothetical protein	ATGAAAACGCCCACGCAGACCAATGCTATTGATTTCGACAGCGCCAAGTTGCAGCGCCTGGGCCTCGCCCAGCCGTCGGCGCTCGTGACGCGGCCGATCAGCCTGACGCAGCTGCGCCAGCAATTGGGCCAGCAGTTGCAGACCAGCCTGGAGCCGCAAAGGATTCTCGGTTTGTTCTTCCGTGAAATCCAGCGGCTGGTGCCTCTGGACGCACTGGTTTACCAGCACAAACCCAGCGACCTGCGCCTGGAGTTTGGCCAGCGCGGGCACCACAACCTCAGCTACAACCTCAGCCATGAGGGCGAGCATCTGGGTGAGCTGGTGTTTCGGCGCAACCAGCGCTTCAGCAGCGCGGAACAAAGCGACCTGGAGTCAATCCTGTCGGCGCTGTTTTTCCCGCTGCGTAACGCATTGCTCTACCGCGCCGCCACCCAAAGCGCCCTGCGCGATCCACTGACCGGCACCGGCAACCGCATTGCCATGGACCAGACGCTGGAGCGGGAAATCGACATGGCCAGGCGGCACATGCAGCCGCTGTCGTTGCTGATGCTGGACATCGACCATTTCAAACGCATCAACGACAGCCATGGGCATGGGGTCGGCGACGAAGTACTCAAGGCCGTTGCCGACTCGATCAAGGGCCAGTTGCGCAATGTGGATATGGTGTTCAGATTCGGTGGTGAGGAATTCCTGATCCTGCTGGCCAACACCAGCCGGGAAGCGGCGGCCATGGTCGGTGAACGGCTGCGTTATGCCGCCCAGGCCCAGGATTATTTTGCCGACGGCACGAGGATCGAATTGACGGTGAGCCTGGGCTGCGCGACGTTGCTGCCGGGCGAGTCCGCTGAAAGTCTCGTGCGCCGGGCGGACAATGCGCTGTATGTAGCCAAGCGCGAGGGGCGGAACCGGTTGACGATGGCGGGCTGA	MKTPTQTNAIDFDSAKLQRLGLAQPSALVTRPISLTQLRQQLGQQLQTSLEPQRILGLFFREIQRLVPLDALVYQHKPSDLRLEFGQRGHHNLSYNLSHEGEHLGELVFRRNQRFSSAEQSDLESILSALFFPLRNALLYRAATQSALRDPLTGTGNRIAMDQTLEREIDMARRHMQPLSLLMLDIDHFKRINDSHGHGVGDEVLKAVADSIKGQLRNVDMVFRFGGEEFLILLANTSREAAAMVGERLRYAAQAQDYFADGTRIELTVSLGCATLLPGESAESLVRRADNALYVAKREGRNRLTMAG				NA	NA	NA	NA	NA
D1-35_00627	741	yciK	COG1028	putative oxidoreductase YciK	ATGTTTGACTACTCCGCCCGCCCCGACCTGCTCGAGGGCCGGATCATCCTGGTCACCGGTGCCGGTCGCGGTATTGGCGCCGCTGCCGCCAAGGCCTATGCCGCCCATGGCGCCACCGTGTTGTTGCTGGGCAAGACCGAAGCCAACCTGACCCAGGTCTATGATGAAATCGAGGCGGCTGGTCATCCGCAGCCAGCGGTGATCCCCTTCAATCTCGAAACCGCCCTGCCCCATCAATACGATGAACTGGCGGCGATGATCGAGAGCGAATTCGGTCATCTGGACGGCCTCCTGCACAACGCCTCGATCATCGGCCCGCGCACGCCGCTGGAACAGCTTTCCGGCGAGAACTTCATGCGGGTGATGCAAGTGAACGTCAACGCCATGTTCATGCTCACCAGCACTTTGCTGCCGTTGCTCAAACTGTCCAAGGATGCATCGGTGGTGTTCACGTCCAGCAGCGTCGGTCGCAAGGGCCGGGCCTATTGGGGCGCTTATGGCGTGTCCAAGTTCGCCACAGAGGGGCTTATGCAGACCCTGGCCGACGAAGTCGACACGGTAGCCCCGGTGCGCTCCAACAGCATCAACCCCGGCGCCACCCGCACCAGCATGCGCGCACAGGCCTATCCGGGAGAAAATCCGCTGAACAACCCGACGCCCGAAGAAATCCTGCCGGTGTACCTGTACCTCATGGGCCCGGACAGTACCGGCGTCAACGGCCAGGCTTTCAACGCGCAGTAA	MFDYSARPDLLEGRIILVTGAGRGIGAAAAKAYAAHGATVLLLGKTEANLTQVYDEIEAAGHPQPAVIPFNLETALPHQYDELAAMIESEFGHLDGLLHNASIIGPRTPLEQLSGENFMRVMQVNVNAMFMLTSTLLPLLKLSKDASVVFTSSSVGRKGRAYWGAYGVSKFATEGLMQTLADEVDTVAPVRSNSINPGATRTSMRAQAYPGENPLNNPTPEEILPVYLYLMGPDSTGVNGQAFNAQ				NA	NA	NA	NA	NA
D1-35_00628	672	mupP_1	COG0546	N-acetylmuramic acid 6-phosphate phosphatase	ATGCGTCTCAAAGCGGTTCTCTTCGACATGGATGGCACGCTGCTCGACACCGCGCCAGACTTCATCGCCATCTGCCAGGCCATGCGCGCCGACCGTGGCCTGCCGCCGATGAACACCCAGCACATCCGCGACGAGATTTCCGGCGGCGCCCGGGCGATGGTCGCAGTGACGTTCTCCATGGACCCTGAATCGCCGGGTTTCGAGGAGCTGCGCCAGGAGTTCCTCGACCGCTATCTCAAGGGTTGCGCGGTCCACAGCCATCTGTTCGATGGGATGGCCGAAGTACTGGCCGATATCGAGGCGGCCAATCTCATCTGGGGCGTGGTCACCAACAAGCCGGTGCGCTTCGCCGAGCCGATCATGCAGCAGTTGGGCCTGGCCGAGCGGTCGAAAGTGCTGGTCTGCCCCGACCATGTGAAAAACAGCAAACCGGACCCCGAACCGCTGATTCTCGCTTGCAAGATGCTCGACCTCGATCCGGCCAGCGTGCTGTTCATCGGCGACGACCTGCGGGACATCGAGTCCGGCCGCAGCGCCGGGACCAAGACCTGCGCGGTGACCTACGGCTACATCCACCCGGACGACAACCCCAAGCACTGGGGCGCGGATGTGGTAATCGACCATCCCCTGGCGCTGCGCGAAGTGCTGGATAACGCGTTGTGCAGTTGCTGA	MRLKAVLFDMDGTLLDTAPDFIAICQAMRADRGLPPMNTQHIRDEISGGARAMVAVTFSMDPESPGFEELRQEFLDRYLKGCAVHSHLFDGMAEVLADIEAANLIWGVVTNKPVRFAEPIMQQLGLAERSKVLVCPDHVKNSKPDPEPLILACKMLDLDPASVLFIGDDLRDIESGRSAGTKTCAVTYGYIHPDDNPKHWGADVVIDHPLALREVLDNALCSC	PGPT0019045_599	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_MURAMATE_DEGRADATION,PGPT0019045-mupP-K22292	NA	NA
D1-35_00629	699	ubiG	COG2227	Ubiquinone biosynthesis O-methyltransferase	ATGAGCAACGTCGACCACGCTGAAATTGCCAAGTTCGAGGCCCTGGCCCATCGCTGGTGGGACCGCGAAAGCGAATTCAAGCCGCTGCACGACATCAACCCGCTGCGCGTCAACTGGATCGACGAGCGCGTCGGCCTGGCCGGCAAGAAAGTCCTCGACGTCGGCTGTGGTGGCGGCATCCTCAGTGAAGCCATGGCCCTGCGCGGCGCTACCGTAATGGGCATCGACATGGGCGAGGCGCCGCTGGCAGTGGCGCAACTGCATCAGCTGGAGTCCGGCGTCAGCGTCGAATACCGGCAGATCACCGCCGAAGCCCTGGCCGAGGAAATGCCCGGCCAGTTCGACGTGGTCACCTGCCTGGAGATGCTCGAACACGTACCGGACCCGTCATCGGTGATCCGTGCCTGCTTCCAGATGGTCAAGCCCGGCGGCCAGGTGTTCTTCTCCACCATCAACCGCAACCCGAAGGCGTACCTGTTCGCGATCATCGGCGCCGAATACATCATGAAGCTGCTGCCACGCGGCACCCACGACTTCAAGAAATTCATCCGGCCTTCGGAGCTGGGCGCCTGGAGCCGCATGGCCGGGCTGACCGTCAAGGACATCATCGGCCTGACCTACAACCCGCTGACCAAGCACTACAAGCTGGCTGCCGATGTGGACGTCAACTACATGATCCAGACTCTGCGCGAGGAATAA	MSNVDHAEIAKFEALAHRWWDRESEFKPLHDINPLRVNWIDERVGLAGKKVLDVGCGGGILSEAMALRGATVMGIDMGEAPLAVAQLHQLESGVSVEYRQITAEALAEEMPGQFDVVTCLEMLEHVPDPSSVIRACFQMVKPGGQVFFSTINRNPKAYLFAIIGAEYIMKLLPRGTHDFKKFIRPSELGAWSRMAGLTVKDIIGLTYNPLTKHYKLAADVDVNYMIQTLREE	PGPT0009545_1982	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009545-ubiG-K00568	NA	NA
D1-35_00630	1332	mtaD	COG0402	5-methylthioadenosine/S-adenosylhomocysteine deaminase	ATGCCCAAGCCTGCCGTTGCGCTCGACTTATTATTGCTGCCGACCTGGTTGGTGCCTGTCGAACCCGCCGGTATCGTGCTCAAGGATCATGGCCTGGGCATTCGCGACGGTTGCATCGTGTTCATCGGGCCACGGGCCGAAGCCATGCAATGCGCTGCCACGGAGGTTCGCGAACTGCCCGGCATGCTGCTCAGTCCGGGCCTGGTCAATGCCCACGGTCACGCGGCAATGACATTGTTCCGTGGCCTGGCCGACGACCTGCCGCTGATGACCTGGCTCGAACAGCACATCTGGCCCGCCGAGGGTAAATGGGTCGACGAGGCCTTCGTCCGCGACGGTACTGACCTGGCGATCGCCGAGCAGATCCAGGGCGGCATCACCTGTTTCTCCGACATGTACTTCTATCCCAAGGTGGCCAGCGAACGCGTGCATAACAGTGGCATCCGCGCGCAGATCGCCATTCCGATCCTCGACTTTCCGATCCCCGGCGCCGCCAGCGCCGACGAAGCCATTCGTCAGGGCATCGAATTGTTTGGCGACCTCAAGCACCATCCGCGGATCAAAGTCGCATTCGGCCCTCACGCCCCGTACACCGTCGGCGATGACAACCTGGAAAAGATCCGCGTGATCGCCGAGGAACTGGACGCGGCCATCCACATGCATGTTCATGAAACCGCCTTCGAAGTGCAGCAGGCTGTGGATAACACTGGCGAGCGGCCGATGGCCCGGTTGGCGCGCGTTGGCCTGCTGGGGCCGCGCTTCCAGGCGGTGCACATGACCCAGGTCAGCGACGAGGACCAGGCGCTGCTGGTAGAACACAATTGCAGCGTGATCCATTGTCCGGAATCGAATCTGAAGCTGGCCAGCGGTTTCTGCCCGGTGGAACGCCTGTGGCAGGCCGGCGTCAACGTCGCGGTCGGCACCGATGGCGCGGCGAGCAACAACGACCTCGATCTGCTGGGCGAAACCCGCACCGCCGCCCTGCTGGCAAAGGCTGTCGCCGGTTCGGCCACGGCCCTGGACGCGCACCGGGCGTTGCGCATGGCCACGCTCAATGGCGCCCGCGCGCTGGGCATCGAGGCGATCGTCGGCTCTCTGGAAGTCGGCAAGGCCGCCGACCTGGTGGCCTTCGACCTGTCCAGCCTGGCGCAGCAACCGATCTATGACCCGGTGTCGCAACTGATCTACGCCACCGGCCGCCATTGCGTGAAACACCTCTGGGTGGCCGGCAAGCCGTTGCTGGAGGATGGCCGCCTGACGCGCATGGACGAATCGCAACTGATCGCCACGGCCCAGGACTGGGGCCGTCGGGTCAGCGGCCAGAACGAATAG	MPKPAVALDLLLLPTWLVPVEPAGIVLKDHGLGIRDGCIVFIGPRAEAMQCAATEVRELPGMLLSPGLVNAHGHAAMTLFRGLADDLPLMTWLEQHIWPAEGKWVDEAFVRDGTDLAIAEQIQGGITCFSDMYFYPKVASERVHNSGIRAQIAIPILDFPIPGAASADEAIRQGIELFGDLKHHPRIKVAFGPHAPYTVGDDNLEKIRVIAEELDAAIHMHVHETAFEVQQAVDNTGERPMARLARVGLLGPRFQAVHMTQVSDEDQALLVEHNCSVIHCPESNLKLASGFCPVERLWQAGVNVAVGTDGAASNNDLDLLGETRTAALLAKAVAGSATALDAHRALRMATLNGARALGIEAIVGSLEVGKAADLVAFDLSSLAQQPIYDPVSQLIYATGRHCVKHLWVAGKPLLEDGRLTRMDESQLIATAQDWGRRVSGQNE	PGPT0023665_1322	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023665-mtaD-K12960	NA	NA
D1-35_00631	1077	mtnA	COG0182	Methylthioribose-1-phosphate isomerase	ATGCGCGATCGACTGTTGGCTGCGGAGAAGGTGAAGGCCATCGATTGGCGCGATGGCGCTCTTTACCTGCTGGATCAGCGTGTTTTGCCGTTCGAGGAAAACTGGATCGCCTACACCAGCGTGGCCGGTGTGGCCGAGGCCATTCGTTCGATGGTGGTGCGCGGTGCGCCAGCCATCGGTATCAGCGCCGCTTATGGCGTGGTGCTGGCGGCGCGGGCGCGGATGGCCGAGGGCGGCGATTGGCAAGCGGCGCTGGAAGCGGATTTCGCCTTGCTGGCCGATTCCCGGCCGACGGCGGTCAATCTGTTCTGGGCGCTGGATCGCATGCGGGACCGGTTGGGACGCTTGAAGGAGCATGCCGAACCGCTAGCGGTGCTTGAGGCTGAGGCCATTGCGATCCATGAAAGTGACCGCGAAGCCAACCTGACCATGGCCCAGCTTGGCGTCGACCTGATCCGCAAGCACCAGGGCAACGCCCAGGCCATCTTGACCCATTGCAACACCGGGGCCCTGGCCACCGGCGGCTTCGGAACGGCCCTCGGGGTAATTCGCGGGGCGTTTCTGGAGGGCATGGTCGAACGGGTCTACGCCGACGAAACCCGTCCATGGCTGCAGGGTTCACGGTTGACGGCATGGGAGCTGGCGAACGAGGGCATTCCGGTGACGCTCAACGCCGATTCCGCCGCTGCCCACATCATGAAGACCAAGGGCGTGACCTGGGTCATCGTCGGCGCCGACCGCATCACGGCCAACGGCGACGTGGCGAACAAGATCGGCACCTACCAGCTGGCGGTCTGTGCCATGCACCACGGCGTACGTTTCATGGTGGTGGCGCCGAGCTCGACCATCGACATGAACCTGGCCAGCGGTGATGACATCCCGATCGAAGAGCGCGACGGGCGCGAGCTGCTGGAAGTCGGCGGCAAGCGGGTCGGGGCGGATGCCGATGCGTTCAACCCGGTGTTCGACGTGACCCCGGCGGACCTGATCGATGCGATCGTGACGGAGAAGGGCATCGTCGAGCGGCCGGATACGGCCAAGATGGCCCAATTGATGTGTCGCAAGCGGTTGCATTGA	MRDRLLAAEKVKAIDWRDGALYLLDQRVLPFEENWIAYTSVAGVAEAIRSMVVRGAPAIGISAAYGVVLAARARMAEGGDWQAALEADFALLADSRPTAVNLFWALDRMRDRLGRLKEHAEPLAVLEAEAIAIHESDREANLTMAQLGVDLIRKHQGNAQAILTHCNTGALATGGFGTALGVIRGAFLEGMVERVYADETRPWLQGSRLTAWELANEGIPVTLNADSAAAHIMKTKGVTWVIVGADRITANGDVANKIGTYQLAVCAMHHGVRFMVVAPSSTIDMNLASGDDIPIEERDGRELLEVGGKRVGADADAFNPVFDVTPADLIDAIVTEKGIVERPDTAKMAQLMCRKRLH				NA	NA	NA	NA	NA
D1-35_00633	2664	gyrA	COG0188	DNA gyrase subunit A	ATGGGCGAACTGGCCAAAGAAATCCTCCCGGTCAATATCGAAGACGAGCTGAAACAGTCCTACCTCGACTACGCGATGAGCGTGATCGTCGGGCGGGCGCTGCCGGATGCGCGCGATGGCTTGAAGCCCGTGCACCGGCGCGTGCTGTTCGCGATGAGCGAACTGGGCAACGACTTCAACAAGCCGTACAAGAAATCCGCCCGTGTCGTCGGCGACGTGATCGGTAAGTATCACCCCCACGGCGACACTGCCGTGTACGACACCATCGTTCGGATGGCCCAGCCATTCTCCCTGCGCTACCTGCTGGTGGACGGCCAGGGCAACTTCGGTTCGGTGGACGGCGACAACGCCGCGGCCATGCGATACACCGAAGTGCGCATGACCAAGCTGGCCCACGAGCTGCTGGCCGACCTGCACAAGGAAACCGTGGACTGGGTGCCGAACTACGACGGCACCGAGATGATCCCGGCGGTCATGCCGACGCGTATCCCGAACCTGCTCGTCAACGGCTCCAGCGGTATCGCCGTGGGCATGGCGACCAACATCCCGCCGCACAACCTCGGTGAAGTCATCGACGGTTGCCTGGCCCTCATCGACAACCCCGAGCTGTCCGTCGATGAACTGATGCAATACATCCCCGGTCCGGACTTCCCGACGGCGGCGATCATCAACGGTCGCGCCGGCATCATCGAGGCCTATCGCACCGGTCGCGGCCGCATCTACATGCGCGCCCGCTCGACCGTCGAGGACATCGACAAGGTCGGTGGCCGCCAGCAGATCGTCATCACCGAGCTGCCGTACCAGCTGAACAAGGCCCGCCTGATCGAAAAGATCGCCGAGCTGGTGAAAGAAAAGAAACTCGAAGGCATCACCGAGCTGCGTGACGAGTCCGACAAGGACGGCATGCGCGTCGTGATCGAGCTGCGCCGTGGCGAAGTGCCGGAGGTGATCCTCAACAACCTCTACGCCCAGACCCAGCTGCAAAGCGTGTTCGGCATCAACATTGTCGCGCTGATCGACGGCCGTCCGCGGATCCTGAACCTCAAGGACCTGCTGGAAGCCTTCGTGCGTCACCGTCGCGAAGTGGTCACCCGGCGGACCGTATTCGAACTGCGTAAAGCTCGCGAACGCGGCCACATCCTTGAAGGCCAGGCCGTTGCCCTGTCGAACATCGACCCGGTCATCGCCCTGATCAAAGCCTCGCCAACCCCGTCGGAAGCCAAGGAAGCGCTGATCAGCACCCCTTGGGAATCCTCCGCGGTGGTGGCGATGGTCGAGCGCGCCGGCGCCGACTCGTGCCGTCCGGAAAACCTCGACCCGCAATACGGCCTGCGCGAAGGCAAGTACTTCCTGTCCCCGGAACAGGCGCAAGCCATCCTGGAACTGCGCCTGCACCGCCTGACCGGTCTGGAGCACGAGAAGCTGCTGGCCGAGTACCAGGAGATCCTCAACCAGATCGGCGAGCTGATCCGCATCCTCAACAGCGCCACGCGCCTGATGGAAGTGATCCGCGAAGAACTGGAAGTGATCCGCGCCGAGTACGGCGACGTGCGCCGCACCGAGATCCTCGATGCGCGCCTCGACCTGACCCTGGGCGACATGATTCCGGAAGAAGAGCGCGTGGTGACGATTTCCCACGGCGGCTACGCCAAGACCCAGCCGCTGGCCGCCTACCAGGCCCAGCGTCGCGGCGGCAAGGGCAAGTCGGCGACCGGCGTCAAGGACGAGGACTACATCGCTCACCTGCTGGTCGCCAACAGCCATACCACGCTGCTGCTGTTCTCCAGCAAGGGCAAGGTGTACTGGCTCAAGACCTACGAAATCCCTGAGGCGTCCCGTGCGGCTCGCGGTCGTCCGCTGGTGAACCTGCTGCCGCTGGACAGTGACGAATACATCACCACCATGCTGCCGGTGGAGGAATACACAGAAGGTCACTTTATCTTCATGGCGACCGCCAAGGGCACCGTGAAGAAGACCCCGCTGGAATCCTTCAGCCGTCAGCGCAGCGTCGGCCTGATCGCCCTGGAGCTGGACGAAGGCGACGTGCTGATTTCCGCTGCCATCACCGACGGTGCGCGTGAAGTCATGCTGTTCTCCGACGGCGGCAAGGTCACGCGCTTCAAGGAATCCGACGTCCGCGCCATGGGCCGTACCGCCCGTGGTGTTCGCGGCATGCGCCTGCCGGAAGGGCAGAAGCTGATTTCCATGCTGATTCCGGAAGAAGGCAGCCAGATCCTCACCGCTTCCGCGCGGGGCTACGGCAAGCGTACCGCCATCAGCGAGTTCCCCGAGTACAAGCGTGGCGGCCAGGGCGTGATCGCGATGGTCAGCAACGAGCGTAACGGCCGTCTGGTCGGCGCTGTCCAGGTGCTCGATGGCGAAGAGATCATGCTGATCTCCGACCAGGGCACCCTGGTGCGCACGCGCGTCGCCGAAGTGTCGAGCCTGGGTCGTAACACTCAGGGCGTGACGCTGATCAAACTCGCCAGCGACGAAACGCTGGTCGGGCTTGAACGGGTCCAGGAGCCGTCGGAAGTCGAAGGCGAGGAGCTGGAAGGCGAGGAAGGCGTGGCGTTCGACGGCACCCTCGGTGCCGATGTCGATGACGCCGTCGGCGATCAACAGCTCGATGCCGCCGCAGACGAAGAAGAACCGCAGGACTAA	MGELAKEILPVNIEDELKQSYLDYAMSVIVGRALPDARDGLKPVHRRVLFAMSELGNDFNKPYKKSARVVGDVIGKYHPHGDTAVYDTIVRMAQPFSLRYLLVDGQGNFGSVDGDNAAAMRYTEVRMTKLAHELLADLHKETVDWVPNYDGTEMIPAVMPTRIPNLLVNGSSGIAVGMATNIPPHNLGEVIDGCLALIDNPELSVDELMQYIPGPDFPTAAIINGRAGIIEAYRTGRGRIYMRARSTVEDIDKVGGRQQIVITELPYQLNKARLIEKIAELVKEKKLEGITELRDESDKDGMRVVIELRRGEVPEVILNNLYAQTQLQSVFGINIVALIDGRPRILNLKDLLEAFVRHRREVVTRRTVFELRKARERGHILEGQAVALSNIDPVIALIKASPTPSEAKEALISTPWESSAVVAMVERAGADSCRPENLDPQYGLREGKYFLSPEQAQAILELRLHRLTGLEHEKLLAEYQEILNQIGELIRILNSATRLMEVIREELEVIRAEYGDVRRTEILDARLDLTLGDMIPEEERVVTISHGGYAKTQPLAAYQAQRRGGKGKSATGVKDEDYIAHLLVANSHTTLLLFSSKGKVYWLKTYEIPEASRAARGRPLVNLLPLDSDEYITTMLPVEEYTEGHFIFMATAKGTVKKTPLESFSRQRSVGLIALELDEGDVLISAAITDGAREVMLFSDGGKVTRFKESDVRAMGRTARGVRGMRLPEGQKLISMLIPEEGSQILTASARGYGKRTAISEFPEYKRGGQGVIAMVSNERNGRLVGAVQVLDGEEIMLISDQGTLVRTRVAEVSSLGRNTQGVTLIKLASDETLVGLERVQEPSEVEGEELEGEEGVAFDGTLGADVDDAVGDQQLDAAADEEEPQD	PGPT0027705_998	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
D1-35_00634	1086	serC	COG1932	Phosphoserine aminotransferase	GTGAGCAAGAGAGCCTATAACTTCTGTGCCGGCCCGGCGGCGCTTCCTGAAGCGGTCCTGAAGCGCGCCCAGGGTGAACTTCTCGACTGGCATGGCAAGGGCCTGTCCGTCATGGAAATGAGCCATCGCAGCGATGAGTTCGTGTCCATCGCGACCAAGGCCGAGCAGGACCTGCGCGATCTGCTGAACATCCCGTCCAACTACAAAGTGCTGTTCCTGCAGGGCGGCGCCAGCCAGCAGTTCGCGCAGATTCCGTTGAACCTGTTGCCGGAAAGTGGCAAGGCCGACTACATCGACACCGGTATCTGGTCGCAGAAAGCCATCGAAGAAGCGTCGCGCTACGGCCACGTCAACGTTGCCGCCACCGCCAAGCCTTACGACTATTTCGCGATCCCCGGCCAGAACGAGTGGAACCTGTCCAAGGACGCGGCCTACGTGCACTACGCGCCGAACGAAACCATCGGTGGCCTGGAATTCAACTGGATCCCGGAAACCGGTGACGTGCCGCTGGTGGCCGACATGTCCTCGGACATCCTCTCGCGTCCTGTGGATATCTCCCGTTTCGGCATGATCTACGCCGGCGCCCAGAAAAACATCGGCCCGAGCGGCATCCTGGTCGCGATCATCCGCGAAGACCTGCTCGGTCGCGCCCGTTCCCTGTGCCCGACCATGCTCAACTACAAGGTCGCGGCCGACAACGGCTCGATGTACAACACCCCGCCGACCCTGGCCTGGTACCTGTCGGGCCTGGTATTCGAGTGGCTGAAAGAGCAGGGCGGTGTCGAAGCCATCGGCAAGCTCAACGAAGTGAAGCAGCGCACGCTGTATGACTTCATCGACGCCAGCGGCCTCTACAGCAACCCGATCAACAAGTCCGACCGCTCTTGGATGAACGTGCCGTTCCGCCTGGCGGACGACCGTCTCGACAAGCCGTTCCTGGCCGGCGCCGACGAGCGCGGCCTGCTGAACCTCAAGGGCCACCGCTCGGTCGGCGGCATGCGCGCCTCCATCTACAACGCCGTAGACATCAACGCCGTCAATGCGCTGGTCGCCTACATGACAGAGTTCGAGAAGGAACACGGCTGA	MSKRAYNFCAGPAALPEAVLKRAQGELLDWHGKGLSVMEMSHRSDEFVSIATKAEQDLRDLLNIPSNYKVLFLQGGASQQFAQIPLNLLPESGKADYIDTGIWSQKAIEEASRYGHVNVAATAKPYDYFAIPGQNEWNLSKDAAYVHYAPNETIGGLEFNWIPETGDVPLVADMSSDILSRPVDISRFGMIYAGAQKNIGPSGILVAIIREDLLGRARSLCPTMLNYKVAADNGSMYNTPPTLAWYLSGLVFEWLKEQGGVEAIGKLNEVKQRTLYDFIDASGLYSNPINKSDRSWMNVPFRLADDRLDKPFLAGADERGLLNLKGHRSVGGMRASIYNAVDINAVNALVAYMTEFEKEHG	PGPT0009160_2541	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009160-serC|pdxF-K00831	NA	NA
D1-35_00635	1095	pheA		Bifunctional chorismate mutase/prephenate dehydratase	ATGTCTGAGCAAGAACTCAAGGCGCTGCGCCTGCGCATCGACGCCCTGGACGAAAAAGTCCTGGAACTGATCAGCGAGCGTGCACGCTGCGCCCAAGAAGTCGCCCGGGTGAAGATGGCTTCCCTGGCTGAAGGCGAAGTGCCGGTGTTCTATCGGCCGGAGCGCGAAGCCCAGGTGCTCAAGCGCGTCATGGAGCGCAACAAGGGCCCGCTGGGCAACGAAGAGATGGCGCGGCTGTTTCGCGAAATCATGTCCTCCTGCCTGGCCCTTGAACAGCCGCTGAAAGTCGCGTACCTGGGGCCGGAAGGAACCTTCACCCAGGCTGCCGCCATGAAGCATTTCGGTCATGCGGTGATCAGCAAGCCGATGGCGGCCATCGACGAAGTCTTCCGCGAAGTGGCCGCTGGCGCGGTGAATTTCGGTGTGGTGCCGGTGGAAAACTCCACCGAAGGCGCGGTCAACCACACGCTGGACAGCTTCCTTGAGCATGACATGGTGATCTGTGGCGAAGTCGAGCTGCGGATCCACCACCACCTGCTGGTGGGCGAGAGCACCAAGACCGACAGCATCAGCCGCATCTATTCCCACGCCCAGTCCCTGGCCCAGTGCCGCAAATGGCTGGACGCGCATTATCCGAATGTCGAGCGCGTGGCAGTGTCGAGCAACGCCGAGGCGGCCAAGCGGGTCAAGGGCGAGTGGAACTCGGCGGCCATCGCCGGGGATATGGCGGCAGGCCTCTACGGCTTGACGCGCCTGGCCGAGAAAATCGAGGACCGTCCGGACAACTCCACCCGGTTCCTGATGATCGGCAGCCAGGAGGTCCCACCGACCGGTGACGACAAGACCTCGATCATCGTTTCCATGAGCAACAAGCCGGGCGCGCTGCACGAATTGCTGGTGCCGTTCCACGACAATGGGATCGACCTGACGCGGATCGAGACCCGTCCGTCGCGCAGCGGTAAATGGACCTACGTGTTCTTCATCGATTTTGTCGGCCACCACCGCGATCCGCTGGTCAAAGGTGTGCTGGAGAAAATCAGTCAGGAAGCAGTGGCACTCAAAGTGCTGGGTTCCTACCCCAAGGCAGTTCTTTAA	MSEQELKALRLRIDALDEKVLELISERARCAQEVARVKMASLAEGEVPVFYRPEREAQVLKRVMERNKGPLGNEEMARLFREIMSSCLALEQPLKVAYLGPEGTFTQAAAMKHFGHAVISKPMAAIDEVFREVAAGAVNFGVVPVENSTEGAVNHTLDSFLEHDMVICGEVELRIHHHLLVGESTKTDSISRIYSHAQSLAQCRKWLDAHYPNVERVAVSSNAEAAKRVKGEWNSAAIAGDMAAGLYGLTRLAEKIEDRPDNSTRFLMIGSQEVPPTGDDKTSIIVSMSNKPGALHELLVPFHDNGIDLTRIETRPSRSGKWTYVFFIDFVGHHRDPLVKGVLEKISQEAVALKVLGSYPKAVL				NA	NA	NA	NA	NA
D1-35_00636	1113	hisC_2	COG0079	Histidinol-phosphate aminotransferase	ATGAGTGGCAACTTCCTCGCACTGGCGCAGCCAGGCGTGCAACAACTTTCGCCTTACGTTCCAGGCAAGCCTGTGGACGAACTGGCTCGCGAGCTGGATCTGGATCCGGCCAGCATCGTCAAGTTGGCGAGCAACGAAAACCCGCTGGGCGCGAGCCCTAAGGCATTGGCGGCGATCCGCGACGAGCTGGCCGAGCTGACCCGCTACCCCGACGGTAATGGCTTTGCCTTGAAAAGCCTGCTGGCCGAGCGCTGCGGCGTCGAGCTGAGCCAGGTGACCCTGGGTAACGGCTCCAACGACATTCTCGAGCTGGTCGCTCGTGCCTATCTGGCGCCGGGCCTCAACGCTGTGTTCAGCGAGCATGCGTTTGCGGTCTATCCGATTGCCACCCAAGCCGTTGGTGCCGATGCCCATGTGGTTGCGGCCAAGGATTGGGGACACGATCTGCCGGCCATGCTGGCCGCCATCGACGCCAATACCCGCGTGGTCTTCATCGCCAACCCGAACAATCCGACCGGCACCTGGTTCGATGCCCAGGCCCTAGACGACTTCCTGCAGGACGTGCCCGAGCACGTGCTGGTGGTGCTGGACGAGGCCTACATCGAGTACGCCGAGGGCAGCGACCTGCCCGACGGCCTGGATTTCCTCGCCGCGTACCCGAACCTGCTGGTGTCGCGCACGTTCTCCAAGGCCTATGGCCTGGCGTCGCTGCGGGTCGGTTACGGCCTCTCCACCGCAGTGGTGGCCGATGTGCTGAACCGCGTGCGCCAACCGTTCAACGTCAACAGCTTCGCCCTGGCCGCCGCCTGCGCCGCCTTGCAGGACGAGGCCTACCTGGCCGAGAGCCGCCGCTTGAACGAGGCCGGTATGCAGCAGTTGGAAGCCGGCTTCCGTGAGCTGGGGCTGAGCTGGATTCCTTCCAAGGGCAATTTCATCTGTGTCGACGTCGGCTGCGTCGCGGCGCCGGTGTTCCAGGGCTTGCTGCGCGAAGGCGTGATCGTCCGTCCGGTGGCCAATTACGGCATGCCGAATCACCTGCGGGTCACCGTCGGCCTGCCGGCGGAAAACAGCCGTTTCCTGGAGGCGCTGAGCAAGGTCCTGGCTCGTGGTTGA	MSGNFLALAQPGVQQLSPYVPGKPVDELARELDLDPASIVKLASNENPLGASPKALAAIRDELAELTRYPDGNGFALKSLLAERCGVELSQVTLGNGSNDILELVARAYLAPGLNAVFSEHAFAVYPIATQAVGADAHVVAAKDWGHDLPAMLAAIDANTRVVFIANPNNPTGTWFDAQALDDFLQDVPEHVLVVLDEAYIEYAEGSDLPDGLDFLAAYPNLLVSRTFSKAYGLASLRVGYGLSTAVVADVLNRVRQPFNVNSFALAAACAALQDEAYLAESRRLNEAGMQQLEAGFRELGLSWIPSKGNFICVDVGCVAAPVFQGLLREGVIVRPVANYGMPNHLRVTVGLPAENSRFLEALSKVLARG	PGPT0020305_2300	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
D1-35_00637	2208	aroA		3-phosphoshikimate 1-carboxyvinyltransferase	ATGATCGGTCGCCTGGTGGTGGTCGGCCTAGGGTTGATCGGCGGTTCATTCGCCAAGGGCCTGCGTGAAAGCGGGCTGTGCCGGGAAGTCGTGGGGGTCGACCTCGATCCGCAATCGCGCAGGCTCGCCGTCGAGCTGGGCGTGGTGGATCGCTGCGAGGATGACCTGCTGGTCGCCTGCCAAGGGGCTGACGTGATCCAGCTGGCGGTGCCGATCCTGGCCATGGAGAAACTGCTGGCCCGGTTGGCCGGCATGGACCTCGGGCAAGCGATTCTCACCGATGTCGGCAGCGCCAAGGGCAATGTCATACGGGCGGCGACCGAGGCGTTCGGCGGCATGCCGGCGCGCTTCGTGCCCGGTCATCCGATTGCCGGCTCCGAGCAGAGCGGGGTAGAGGCTTCCAACGCCGAGCTGTTCCGTCGTCATAAGGTCATTTTGACGCCGCTGGACCAGACCGATCCCGAGGCATTGTCGGTGGTGGATCGTCTGTGGCGCGAGCTGGGGGCCGATGTCGAGCACATGCAGGTCGAGCGACACGACGAAGTATTGGCCGCCACCAGCCATTTGCCGCACCTGTTGGCGTTCGGTCTGGTGGATTCATTGGCCAAACGCAATGAAAATCTTGAGATCTTCCGTTACGCTGCCGGCGGTTTCCGCGATTTCACGAGAATCGCGGGTAGCGACCCGGTCATGTGGCACGACATCTTCCTCGCCAACCGCGAAGCTGTCCTGCGCACACTCGATACATTTCGCAGCGACCTCGACGCCTTGCGCGACGCGGTCGATGCAGGGGACGGGCACCAATTGCTGGGCGTTTTCACACGCGCCAGGGTGGCCCGCGAGCATTTCAGTAAAATCCTGGCCCGTCGGGCCTATGTGGACGCTATGAACTCCAACGATCTGATTTTCCTGGCACAACCTGGTGGCTCCTTGAGTGGGCGGATTCGTGTACCGGGCGATAAATCGATTTCCCACCGCTCGATCATGCTCGGCTCCCTGGCTGAAGGCGTGACCGAGGTGGAAGGTTTCCTCGAGGGCGAAGACGCCCTGGCAACGCTGCAAGCGTTCCGCGACATGGGCGTGGTCATCGAGGGGCCGCACCACGGCCGCGTGACTATCCATGGTGTTGGCCTGCACGGTCTGAAGCCCGCTCCGGGCCCGATCTACCTGGGCAACTCCGGCACGTCGATGCGCCTGTTGTCCGGCCTGCTGGCTGCCCAGGATTTCGACAGCACCCTGACCGGTGATGCCTCGCTGTCCAAGCGTCCGATGAACCGCGTCGCCAACCCGCTGCGGGAAATGGGCGCAGTGATCGAGACCGCGGCCGACGGTCGCCCGCCGATGACCATTCGCGGCGGCAACAAGCTCAAGGGCCTGACCTACACCATGCCGATGGCCAGCGCCCAGGTTAAATCCTGCCTGCTGCTCGCCGGCCTTTATGCCGAAGGCAAGACCACCGTCACCGAGCCGGCACCGACCCGCGACCACACCGAGCGCATGCTGCGTGGCTTCGGTTATCCGGTCAGCGTTGACGGCGCCACCGCTTCTGTCGAATCGGGCAGCAAGCTGACCGCGACCCATATCGAAGTGCCGGGCGATATTTCCTCGTCGGCGTTCTTCCTCGTGGCCGCGTCGATCGCCGAAGGCTCCGACCTGGTACTCGAACACGTCGGGATCAACCCGACCCGTACCGGCGTGATCGACATCCTGCGCCTGATGGGCGCCGACATCACCCTGGAAAACCAGCGTGAAGTGGGCGGCGAGCCCGTTGCAGACTTACACGTAAGAGCGGCTAAACTCAAAGGCATCGAAATTCCCGAGGCGCTGGTTCCCCTGGCGATCGACGAGTTCCCGGTGCTGTTCGTGGCGGCGGCGTGCGCAGAAGGCCGCACAGTGCTGACCGGCGCTGAAGAGCTGCGGGTCAAGGAGTCGGATCGCATTCAGGTGATGGCCGACGGCCTGCTGGCCCTTGGCGTCAAATGCGAACCGACGCCGGACGGCATCGTCATTGATGGTGGCCAGATTGGCGGTGGCGAAGTCCATGGCCATGGCGACCATCGCATCGCCATGGCATTCAGTGTTGCGTCCCTGCGCGCCAGCGCGCCGATCCGCATCCATGACTGCGCCAACGTCGCCACGTCTTTCCCGAACTTCCTGGCGTTGTGCGCGCAGGTCGGTATTCGAGTAGCACAAGAGGCACAGTCGTGA	MIGRLVVVGLGLIGGSFAKGLRESGLCREVVGVDLDPQSRRLAVELGVVDRCEDDLLVACQGADVIQLAVPILAMEKLLARLAGMDLGQAILTDVGSAKGNVIRAATEAFGGMPARFVPGHPIAGSEQSGVEASNAELFRRHKVILTPLDQTDPEALSVVDRLWRELGADVEHMQVERHDEVLAATSHLPHLLAFGLVDSLAKRNENLEIFRYAAGGFRDFTRIAGSDPVMWHDIFLANREAVLRTLDTFRSDLDALRDAVDAGDGHQLLGVFTRARVAREHFSKILARRAYVDAMNSNDLIFLAQPGGSLSGRIRVPGDKSISHRSIMLGSLAEGVTEVEGFLEGEDALATLQAFRDMGVVIEGPHHGRVTIHGVGLHGLKPAPGPIYLGNSGTSMRLLSGLLAAQDFDSTLTGDASLSKRPMNRVANPLREMGAVIETAADGRPPMTIRGGNKLKGLTYTMPMASAQVKSCLLLAGLYAEGKTTVTEPAPTRDHTERMLRGFGYPVSVDGATASVESGSKLTATHIEVPGDISSSAFFLVAASIAEGSDLVLEHVGINPTRTGVIDILRLMGADITLENQREVGGEPVADLHVRAAKLKGIEIPEALVPLAIDEFPVLFVAAACAEGRTVLTGAEELRVKESDRIQVMADGLLALGVKCEPTPDGIVIDGGQIGGGEVHGHGDHRIAMAFSVASLRASAPIRIHDCANVATSFPNFLALCAQVGIRVAQEAQS	PGPT0012870_223	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012870-cyclohexadieny|prephenate_dehydrogenase|3_phosphoshikimate_1_carboxyvinyltransferase-K24018	NA	NA
D1-35_00638	690	cmk		Cytidylate kinase	GTGAACATCAAGGCACCGGTCATCACCATTGATGGCCCAAGCGGCTCGGGCAAGGGCACCATCGCCGGCATGCTGGCCAAGCAATTGGGCTGGAATCTGCTCGATTCCGGCGCCCTCTATCGCTTGCTGGCCTTCGCCGCCAAGAACCATGGCGTCGACCTGACCAACGAGGAACTGCTCAAGGCCCTGGCAGCCCATCTGGACGTGCAGTTCATCGCCGCCACCGATGGCCAGTTGCAGCGCATCATCCTGGAAGGTGACGAAGTCAGTGACGTCATCCGTACCGAAAGCGTTGGTGCCGGGGCCTCCCAGGTCGCCGCGCTGCCGGCGGTGCGCGAAGCGCTGCTGCAGCGTCAACGGGCGTTCCAGGAGCCGCCAGGACTGGTGGCCGATGGCCGCGACATGGGCACAGTGGTATTTCCGGATGCGCCGCTGAAGATATTCCTCACCGCCAGCGCGGAGGAGCGGGCTCGCCGCCGATATTTGCAGTTGAAGGGCAAAGGCGAGGATGTTAGTCTGTCGAGTCTGCTAGATGAGATCCGTGCACGCGACGAGCGTGATACCCAGCGCGCAGTAGCCCCGCTAAAGCCGGCGGCCGATGCGATTCAGCTGGATTCCACGGAGTTGTCCATTGATCAGGTGTTGCAACGCATCATGAGCGAGATCGCGCTTCGCGATATCGCCGGGTGA	MNIKAPVITIDGPSGSGKGTIAGMLAKQLGWNLLDSGALYRLLAFAAKNHGVDLTNEELLKALAAHLDVQFIAATDGQLQRIILEGDEVSDVIRTESVGAGASQVAALPAVREALLQRQRAFQEPPGLVADGRDMGTVVFPDAPLKIFLTASAEERARRRYLQLKGKGEDVSLSSLLDEIRARDERDTQRAVAPLKPAADAIQLDSTELSIDQVLQRIMSEIALRDIAG	PGPT0021220_1259	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021220-cmk-K00945	NA	NA
D1-35_00639	1689	rpsA	COG0539	30S ribosomal protein S1	ATGAGCGAAAGCTTTGCGGAACTCTTTGAAGAAAGCTTGAAAACCCTGAACCTTCAGGCAGGCTCCATCATCACCGGCGTTATCGTTGATATCGATTACCAGGCTCGCTGGGTAACCGTTCACGCTGGTCTGAAGTCTGAAGCGCTGATCCCGCTTGAGCAGTTCTACAACGACGCTGGCGAACTGAACATCAACGTCGGTGACGAAGTTCACGTTGCGCTGGACTCGGTTGAAGATGGCTTTGGTGAAACCAAGCTGTCCCGTGAAAAAGCCAAGCGTGCTGAATGCTGGATCGTTCTGGAAGCGGCCTTCGCAGCTGAGGAAGTGGTCAAGGGCGTTATCAACGGTAAGGTTAAAGGCGGCTTCACTGTCGACGTTAACGGCATCCGTGCGTTCCTGCCAGGTTCCCTGGTTGACGTCCGTCCAGTGCGCGACACCACGCACCTGGAAGGCAAAGAGCTGGAATTCAAGGTCATCAAGCTGGACCAGAAGCGCAACAACGTTGTCGTTTCCCGTCGCAGTGTCCTGGAAGCCGAGAACTCCGCCGAGCGTGAAGCTCTGCTGGAATCGCTGCAGGAAGGCCAGCAGGTCAAGGGTATCGTCAAGAACCTCACCGATTACGGCGCATTCGTCGATCTGGGTGGCGTCGATGGCCTGCTGCACATCACCGACATGGCCTGGAAGCGTATCAAGCATCCTTCGGAAATCGTCAACGTTGGCGACGAGATCGATGTCAAGGTTCTGAAGTACGATCGCGAGCGCAATCGTGTTTCCCTGGGCCTCAAGCAACTGGGTGAAGATCCATGGGTCGCTATCAAAGCCCGTTACCCAGAAGGCACTCGCGTTACCGCTCGTGTTACCAACCTCACCGACTACGGCTGCTTCGCTGAGCTGGAAGAAGGCGTTGAAGGCCTGGTACACGTTTCCGAAATGGACTGGACCAACAAGAACATCCACCCTTCGAAAGTCGTACAAGTCGGCGACGAAGTGGAAGTCATGGTTCTGGACATCGACGAAGAGCGTCGTCGTATCTCCCTCGGCATCAAGCAGTGCAAGTCCAACCCATGGGAAGACTTCTCTGGCCAGTTCAACAAGGGCGATAAAATCTCCGGCACCATCAAGTCGATCACCGATTTCGGTATCTTCATTGGTCTGGACGGCGGCATCGACGGCCTGGTTCACCTGTCCGACATCTCCTGGAACGAAGTGGGCGAAGAAGCCGTACGCCGCTTCAAGAAGGGCGACGAGCTGGACACCGTTATCCTGTCGGTTGACCCAGAGCGCGAGCGCATCTCCCTGGGTATCAAGCAACTGGAAAGCGATCCGTTCTCCGAGTACGTTCAAGAGAACGACAAAGGCGCAATCGTTAAGGGCATCGTGAAAGAAGTTGACGCCAAAGGCGCCATCATCACCCTGGCCGACGATATCGAAGCGACTCTGAAAGCCTCCGAAATCAGCCGTGACCGCGTTGAAGACGCGCGTAACGTTCTGAAAGAAGGCGAAGAAGTAGAAGCCAAGATCATCAGCGTTGACCGCAAGAGCCGCGTAATCCAGCTCTCCATCAAGTCGAAAGACGATGCTGAAGAGAAAGAAGCAATCCAGAGCCTGCGCGAGAAGCCAGCTACTGATGCTCCTGGTCCTACCACTCTGGGCGACCTGCTGCGTGCACAGATGGAAAAGCAGAACTGA	MSESFAELFEESLKTLNLQAGSIITGVIVDIDYQARWVTVHAGLKSEALIPLEQFYNDAGELNINVGDEVHVALDSVEDGFGETKLSREKAKRAECWIVLEAAFAAEEVVKGVINGKVKGGFTVDVNGIRAFLPGSLVDVRPVRDTTHLEGKELEFKVIKLDQKRNNVVVSRRSVLEAENSAEREALLESLQEGQQVKGIVKNLTDYGAFVDLGGVDGLLHITDMAWKRIKHPSEIVNVGDEIDVKVLKYDRERNRVSLGLKQLGEDPWVAIKARYPEGTRVTARVTNLTDYGCFAELEEGVEGLVHVSEMDWTNKNIHPSKVVQVGDEVEVMVLDIDEERRRISLGIKQCKSNPWEDFSGQFNKGDKISGTIKSITDFGIFIGLDGGIDGLVHLSDISWNEVGEEAVRRFKKGDELDTVILSVDPERERISLGIKQLESDPFSEYVQENDKGAIVKGIVKEVDAKGAIITLADDIEATLKASEISRDRVEDARNVLKEGEEVEAKIISVDRKSRVIQLSIKSKDDAEEKEAIQSLREKPATDAPGPTTLGDLLRAQMEKQN				NA	NA	NA	NA	NA
D1-35_00640	1014	wbgU		UDP-N-acetylglucosamine 4-epimerase	GTGAAGGTTTTAGTGACGGGGGCAGCTGGCTTTATCGGCTTTCATGTGAGCCAGGCGCTGCTTGCCCGCGGTGACGAGGTTATCGGCATCGATAACCTGAATGATTATTACGAGGTTTCCCTCAAGGAAGCCCGGCTCGCGCTGCTGACTCCTCATTCTAACTTTCGCTTCATACGGATGGACATTGGCGACCGTAATACAATGGCGGCTCTTTTTGCCAATGAAGGTTTCGACAAAGTTGTCCACCTTGCGGCACAAGCAGGAGTCCGTTACTCACTGGAAAACCCTCTTGCCTATGCGGACAGCAATCTTGTCGGTTTCTTGAACATCCTGGAGGGCTGTCGTCAGGGGAAAATACAGCATTTGGTGTATGCCTCCTCCAGCTCCGTCTATGGAGCAAATGAGAGCATGCCCTTCTCGGTGCACGACAATGTCGACCACCCAGTATCCCTTTACGCAGCGACTAAAAAAGCCAATGAACTGATGGCTCACTCCTATAGCCATCTTTATGGCTTGCCAACTACCGGGTTGCGCTTCTTCACGGTGTACGGGCCTTGGGGGCGGCCTGACATGTCGCCGTTCCTGTTTGTCAGGGCGATATTGCAAGGTAAACCGCTAAAAATCTTCAATTATGGGAAACATCGTCGCGACTTTACTTATATCGACGATATTGTCGAAGGCGTGCTGCAGGCTCTCGACCATACGGCAACGCCAAATACCGACTGGTCAGGGCTGGCGCCAGATCCTGCATCCAGTCGTGCGCCGTGGAAAATCTATAACATCGGAAATAGCCAGCCGGTAGAACTGCTCACCTATATCGGCCATATTGAAAATGCATTGGGGCGAAGCGCGCAGAAGGAACTGCTGCCATTGCAGCCAGGGGATGTTGAACATACTTATGCCGACGTTGAACAGCTAAAGATCGATACCGGTTATGCCCCCAGCACGTCAATAGAAAGCGGCATTAATAAATTCGTGAGCTGGTACAAGAACTTCTACAACGTAGCGGATTGA	MKVLVTGAAGFIGFHVSQALLARGDEVIGIDNLNDYYEVSLKEARLALLTPHSNFRFIRMDIGDRNTMAALFANEGFDKVVHLAAQAGVRYSLENPLAYADSNLVGFLNILEGCRQGKIQHLVYASSSSVYGANESMPFSVHDNVDHPVSLYAATKKANELMAHSYSHLYGLPTTGLRFFTVYGPWGRPDMSPFLFVRAILQGKPLKIFNYGKHRRDFTYIDDIVEGVLQALDHTATPNTDWSGLAPDPASSRAPWKIYNIGNSQPVELLTYIGHIENALGRSAQKELLPLQPGDVEHTYADVEQLKIDTGYAPSTSIESGINKFVSWYKNFYNVAD	PGPT0019020_1613	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
D1-35_00641	1353	rkpK_1	COG1004	UDP-glucose 6-dehydrogenase	ATGAGAGTTACAATTTTCGGCACGGGCTACGTAGGTCTCGTTACTGGCGCATGCCTTGCCGATGCCGGCCATGAAGTCATGTGCGTCGATATCGACGCCGGAAAGATCGAAGGCCTCAAGCGCGGGATCATCCCCATCTACGAGCCTGGGTTGGATGCGCTGATCGAACAGAATCAGTTGCAGGGCCGATTGCACTTCACGACCGCCCCGCACGAAGGCGTCGACTTCGCAGAATTGCAGATAATAGCCGTGGGGACGCCCCCCAACGAAGACGGCTCCGCAGATCTCCAACATGTACTGGCCGTCGCCCGCACCATTGGCCAGCATATGAGTGACCCAAAAATCATCGTCAACAAATCGACCGTTCCCGTGGGAACGGCCGATAAGGTAACCGATGCGATCAAGGAAACGCTTAGAGCCAGGCAAGTCGAGTTGGACTTCTCAGTATGCTCAAATCCGGAGTTCCTGAAGGAAGGTTCAGCCATTGAGGACTTTTCCAAGGCAGCACGCATCATTGTCGGGACCGACTCGGAAATGGTCAGAACAGTCATGCGTGAATGCTATGCCCCTTACAGCCGCAATCGCGACAAGTTGATTTTTATGGACGTGCGCTCCGCCGAGCTCACTAAATACGCAGCCAATGCAATGCTCGCGACGAAAATCAGCTTCATGAACGAAATTGCTCAGATGGCAGAACGCCTCGGGGCGGACATCGAGCACGTCAGGCTGGGTATCGGCTCAGATCCGCGAATCGGCTTTCAGTTTATCTATCCGGGCTGTGGCTACGGCGGCTCCTGCTTCCCCAAAGACGTCCAGGCGCTGGCTCGCACCGCGCAAGAAATCGGTTATGAAGCCGAGCTGCTCAACGCTGTGGAGTCGGTAAACAATCGTCAAAAAAATGTGCTGTTCAGCAAGCTATCCCACGCCTTCGACCATGAGCTGACCAACAAGACCATCGCAGTCTGGGGGCTTTCCTTCAAACCCAATACTGACGATATGCGCGCCGCTCCGAGCCGCAATTTATTGGAAGCGATCTGGGCAGCGGGGGGAAAAGTCCAAGCATTCGACCCGGCCGCAATGAACGAAACATCTCGGATCTACGGATCACGTAGCGATCTGAAACTGGTGGATAATCGCGAGCAGGCCCTGGAAGGCGCCGATGCGCTGGTCATTTGTACAGAATGGAAGCAGTTCCGTACTGTGGATTTCCAATGGCTCAAGACCCGCCTTAATTTTCCAGTGCTAATCGATGGGCGCAACCTGTTTGATCCGGTTGCCGCCAAGGAAGCCGGGATGATGTATTACGCAATCGGCCGTGGTGATGCCCCACAACCGGAAGGAACGCGCCTGTGA	MRVTIFGTGYVGLVTGACLADAGHEVMCVDIDAGKIEGLKRGIIPIYEPGLDALIEQNQLQGRLHFTTAPHEGVDFAELQIIAVGTPPNEDGSADLQHVLAVARTIGQHMSDPKIIVNKSTVPVGTADKVTDAIKETLRARQVELDFSVCSNPEFLKEGSAIEDFSKAARIIVGTDSEMVRTVMRECYAPYSRNRDKLIFMDVRSAELTKYAANAMLATKISFMNEIAQMAERLGADIEHVRLGIGSDPRIGFQFIYPGCGYGGSCFPKDVQALARTAQEIGYEAELLNAVESVNNRQKNVLFSKLSHAFDHELTNKTIAVWGLSFKPNTDDMRAAPSRNLLEAIWAAGGKVQAFDPAAMNETSRIYGSRSDLKLVDNREQALEGADALVICTEWKQFRTVDFQWLKTRLNFPVLIDGRNLFDPVAAKEAGMMYYAIGRGDAPQPEGTRL	PGPT0017855_1981	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
D1-35_00642	1218			hypothetical protein	ATGGTGGAAGGTCGCAGCTTGATAACGCCGAATATAGAGATCCTGCTGGTCATTGAGGGGGAGATTGCTACGACTCATTTGATTGAGCATATGCTCTCCGCCTGCAAACCTTATCGGATCGTTTACCGCAAGGTATTTCTTTCCGCTCTGAAGACGTCGGATATACGGAAGAGCACCATTCCGTTATTCGTCCGCAGCGGCGACCCGTCGCTGCGTCTCTGGATTGACAAGCTGCACAGGGCCAATCATCCCTATATATATTACCTGGATGATAATTTCTGGAAAATCGAAGGCAATTCTCCCATTGCCCTGTATTACCAGCATCCGCTAATTCGTCACACTCTGGAAGCAGCCGTCTGCGGGGCTTACCGGGTACTGACCAACTCGGATTTATTGGCGGAGTTTCTCTGCCAATTCAACAGCAAAATAGAAGTGTTGCCTTCGTTCTTCGATTTTTCCCTGTTAAAACCCGTGCAGGACATTTCCCACGACGAGCTGCGCATCGGATTTGCCGGGAGCCCATCCAGAGTTGATGATCTGAATATCATCAAACCGGTCATTCAACCCATCCTGGATACCTATCCGCACGTCGTTTTCGAGTTTATCGGCGCGATGCCGTCAGGCATAGAACCTGATAGCCGCATCCGCAGCTTTCCGCACAATGCAGATTACGAGGACTTCGTCCATTTCAAGCAGGGCCGTCAATGGGCAATCGGTCTGGCGCCGCTTATCGACAACTACTCGAATCGCTGCAAAACCAATAACAAGTATCGGGAGTATTCAGCGTGCGGCATAGCTGGGATCTATTCCGATATGCCACCGTATCAACGCTCCGTCACCAACGGCGAAACCGGCGTCCTGGCCGAGCACACCACGCAGGCGTGGTTCTCAGCCATCAGTCGACTGATCTCCGACCAGCCGCTACGAGAGAGCATCGCAGCCAATGCATATCAAGACGTATTCGAGAAGCACAGCGTTGAACGAGTAGCTACGATCTGGTCCGACCATTTCACACATGTGCAGCGACACATGAGGCGCACCAAAATCAAAGCGTTGCGAGTCAACAGGCTGAGGTCGTTTATCATCACCCGCTTCCTCCAGCTTGAATCCCTATGGGTAAGGGCTTCTACCGTCTACGCTGAAGGAGGCATGCGCCTGGTTGTCAGGAAGATCGTGAACCGCATCAAGTTCACCTTGGCGTCCAACAAAACTCTTTAA	MVEGRSLITPNIEILLVIEGEIATTHLIEHMLSACKPYRIVYRKVFLSALKTSDIRKSTIPLFVRSGDPSLRLWIDKLHRANHPYIYYLDDNFWKIEGNSPIALYYQHPLIRHTLEAAVCGAYRVLTNSDLLAEFLCQFNSKIEVLPSFFDFSLLKPVQDISHDELRIGFAGSPSRVDDLNIIKPVIQPILDTYPHVVFEFIGAMPSGIEPDSRIRSFPHNADYEDFVHFKQGRQWAIGLAPLIDNYSNRCKTNNKYREYSACGIAGIYSDMPPYQRSVTNGETGVLAEHTTQAWFSAISRLISDQPLRESIAANAYQDVFEKHSVERVATIWSDHFTHVQRHMRRTKIKALRVNRLRSFIITRFLQLESLWVRASTVYAEGGMRLVVRKIVNRIKFTLASNKTL				NA	NA	NA	NA	NA
D1-35_00643	1947			hypothetical protein	ATGAAACCTGAAAACGAACCAGTAAGAATCGACCTCGGTTGCGGCAAACGCAAACAGGACGGTTTCATCGGAATTGACCGTTTCCCCATGCCAGAAGTCGATATCCTGGCAGATATCGATACCGTTCTGCCGCTAGAAGATAACTCGGTCGACGTATTGTTCTCGTCACATGCCCTGGAACATACCAAGGACTTGATGTTCACGATGCGCGAGATCTATCGGATTTGTAAGCATGGCGCGCAAGTATGTATCATCGCGCCCTACTACGAACAAAAGCTGAACGTCGCCAACCCCTATCATCTTATGGTGTTCAACGAACACACGCCTCGTTTCTGGACGGATCACCCCGAGACTCCGGTAGACGTACTTGACTATGCCGATCCGATACAGCGTCCATGGGGTCTTTCAAAGTCGGACAATTCGAACCCAGGGCTCGACATCCGTCTGATCAACGTTGAATTTTTCTACTTTCCCGAATACCGCCATTTACCCCTCGATCAAAAGAGAAAGTTTCGTAACGAACGATTCAATGTATGTGACCAGATCATGTACCAACTGATTGTTTGGAAGGGTGATGAATGCTCGCCTGATGCAAGCTTTGCGGATCACGTCAGCGCATTCGTCCCCTATGAACCTCATTACATCAGGCACCTCAAGATGCACGAGCAAGAAGAAATCATTCAGAAGTTCACTCAGACCGAAACATCGCTTCGTCAGCGCATCGAAGATCTGGAGACGCAACTCGCCGGCAAGGCCGCCCCCCTTCATGCTCCTGATCGAAATGTCGAGCAACGAATCAGTGAGCTGTTGGAAGACCGTGCGCAATCCGAACGGCTGCTTCATGAAGCCAGGACGGAAAATCATCAACTTCGCCTGCAAATCATGGGGCTGTTTGAAAAAACTGAACTGCTCAGCACTCAATTGCAGGACAGCAATACTCGTCTGGTGAAATCCGAGCTGCAGCAGCAGTTACTCGATGAGAAAACCATTGATCTCAACGAGCAAAACAGGCGTCTTCATGACGAGGCTGAACAAATGTCTGGCCGTCTCAACGAGTTGTTGGAACGTCTGACACATGCCCAGGCAAATGCCGTAGAGGCCAACCAGGAGATCCTGGTTCTGCTACGGACGAACCAGGAACTGCACGGCAAGCTGGAAGCTCTCGCAAAAATTGACGCAAAAGCTGCGCTGCTCAAGGCAGAACTTTTGACAGCCAACGGCATTATTGATTGGTATCGCACCAAGGAGGGATCCTGGAAAGGCGAGCAGGACAAATTCAAACAGGAACTACTGTCCCTGCAGCAGGTTTCGCAGGGACAGTCGTCTCCATTGCTGCAAGAAGTACAACATTTGAAACAGGCGCTGAACAACGCACAGCAACACGCTCATCATTCCCGCCATGAGGCGCTGCAGGTCATTGACAACCTTCAGGCGGAAGTGAGCGGGTATCGCGCTTCACGCTCGTTGCAACTGGCCTCTCTGTACAAGAGCAAAGGCTCGTTGTGGGATTCGATTTCACCAGCATTTTCCTCCCTCAGGAGCTTTACGGAAAAACACCTCCTCAACACTTCCCGCCCACAGTTGGCGCTGAGTGACGACCTGAGAAATATTCCGTATCGCGAGTATCTGATTCCAGTCAAACAGGAAGATCTATGCCGCGTAACCCTGGCGATCCGTCCGCTGATGCGCGGAACTCAAGGACTGGTTGGCATTGAAATTGTCTCGAAGGATAAAGCGGTGGTCGCTCAAGTCGTCCTGCCGCTCGCTAGCGTGGACCCTGATGCACCAACACATTTCGAACTGCCGGTACCAACCGCACTGGAGCAAAACTGGCACCTGAGGATCTTCGTAAAGGACTCGGACGTCCCCGTGGGTCTTTATGAAGTCAGCGAGTACTCGCTGATAAGGAAACGCTACAAATATTTCCCTTTTGCTGCATTACAGTAA	MKPENEPVRIDLGCGKRKQDGFIGIDRFPMPEVDILADIDTVLPLEDNSVDVLFSSHALEHTKDLMFTMREIYRICKHGAQVCIIAPYYEQKLNVANPYHLMVFNEHTPRFWTDHPETPVDVLDYADPIQRPWGLSKSDNSNPGLDIRLINVEFFYFPEYRHLPLDQKRKFRNERFNVCDQIMYQLIVWKGDECSPDASFADHVSAFVPYEPHYIRHLKMHEQEEIIQKFTQTETSLRQRIEDLETQLAGKAAPLHAPDRNVEQRISELLEDRAQSERLLHEARTENHQLRLQIMGLFEKTELLSTQLQDSNTRLVKSELQQQLLDEKTIDLNEQNRRLHDEAEQMSGRLNELLERLTHAQANAVEANQEILVLLRTNQELHGKLEALAKIDAKAALLKAELLTANGIIDWYRTKEGSWKGEQDKFKQELLSLQQVSQGQSSPLLQEVQHLKQALNNAQQHAHHSRHEALQVIDNLQAEVSGYRASRSLQLASLYKSKGSLWDSISPAFSSLRSFTEKHLLNTSRPQLALSDDLRNIPYREYLIPVKQEDLCRVTLAIRPLMRGTQGLVGIEIVSKDKAVVAQVVLPLASVDPDAPTHFELPVPTALEQNWHLRIFVKDSDVPVGLYEVSEYSLIRKRYKYFPFAALQ				NA	NA	NA	NA	NA
D1-35_00644	3237	mshA_1		D-inositol-3-phosphate glycosyltransferase	ATGAAATTTAGCGATTTTTCCACTGATCTGAAAATCCACGCCAGTCCCAGAGCTCCATCGACTCCCAAAGTCACCGTGATCCTGCCAACTTATTCTCGTGGTCATGGCCCGCTGCAGGAAGCCATCGAAAGTGTCTTGGCTCAAAACTACAGCGATTTCGAGCTGATCATCGTCGATGATGGTTCTCGGGACGGTACCGCGCTCGTGCTGCAAGAGTACCTGAAGAAAGACCCGCGAATCATCGTCCACTCCTACCACAAGAACAGTGGTCTGCCGGCTCTTCGGGTCAATCAGGCGGCGCTACGGGCGAAGGGCAAGTACATCGCCTATCAGTTCGACGATGATCAATGGACTGAACACAGTTTGCAGGTACGTGTAGAGCAACTGGATAAATGCAACAAACCGGCAGTAGTGTATGCGAATGCCAGTGTTGATATTGCCCTCGCTGATGGCACGACGACTTCAAGGACGCTGGGCGGCCCTTTCAATTACGGTCTCTTGATGAACGGTAACTACATCGCCAACAACACGGTGATGCATCACAAAGCGCTGTTCGACGTCGCTGGCATGTATGACGCTCACGTAATGATGCGCCGATACTCAGACTATGACTTGTGGCTGAGATTCGCCAAGCATGCCGACATCATTTGGGTCGACGAAGTGACGTCCCACGTGCGCGCCAACCTGGCGGACTCCTTGGGTAAGGAGATTCCATTGTTCTTCACTCGTTATCGCAAGAGTCTACCCATCCCCCGTGATCACCTGTTGACGCCTGCCGCGATCGACAATTATGACGTCGTTGACCTTTCACAGTTCTCCGGTGCATTTACCGATGCGGAGATCGATGAGTATCGCCGAATGGAGGCAATCCCCTTCCTGACGAAATTCAACGATTATTGCAGCGATGACGAAATGGCTGTGGCGGCAAGTGCCCGCGGCCGCAAGCTTCATCTGCTGACCGCCAAACCGGACTATTCCACGTCGATTGACGTCACAATAAATAACTTTGCGTTGCTACCGGCACAACGCGCAATCAGCAGTACATTCGTCAAAGAGAACGAGCTGTTGACTATCGACGTGACCGGTATCGACGTGGCTGTGCTCTACCGCACCGTTGGTGCTGCGGCCAGTCACTTCGTCAACATCCAAAAAGGTAAGACGCCTACGGCTTATCTGATGGACGATAATATGCTGCACTTTCACGCTGTGGGCCCGCAGCACGGTTTTCTTGCACCTGGAACACCGGCTTATCAGGAAATCGTTCATCAGATCAAGAACGTGGATACCTGCATCGGCTACAGCGAGGCGATCAATGAAGACTTGCTACAACTCAACAGCAAGACCGTGCGACTCCAAACCAACATCAATGCTCGTTTCGTCCGGCAGCGGAAATATGATCGCGCTAAACGCCTGAAAGTCGCCGTTATGTCCGGTGCGGTGCGCGAAGACATTCTGAGAGAGCTTTGGCCAGCCCTTGCGAACTTTGCCCGCCGGTATTCAGAGACGGTGGAGTTTCATTTCTGGGGCCTGGACCCGGAAAAATTCGGCCCCCTGGACTGTCCGGTCCATTTCAAACCGTTCACCCACGTCTATGAAAGCTATGTTCGGGATCTGAGCACGAGCAGCTTCGACGTAGCGCTGGTCCCACTGGACTTCGGTACCCGGGCAGCACGCAGCAAAAGCCCGGTCAAGCTCCTGGAGTCAGTCGCCGCTGGCGCGATATGCATCTTCACCGATACCATCCCTTACTCCAGTATTCCAGACGCTTGTTGTCTCAAGGTTGAAAATACCGTGGCAGCTTGGGAGGAGGCACTGCTAAAGGCCTATGAGATGGGCCAGCAAGAGCGAACGACAATGCTCGAAAATGCTCGTGAACTGGTTCTGTCCCGGTATACCACCGAGTCGCAGTTCTACGACTTCCTGGCGACGTTCGAATCCGTTCGCTTGCACTCCAGGCTCGGCGATAAAACAATCGCCTATGCATTTCACGAAGCCGCCCTGGGTGGCGCCACGCTTCACTTGATCAGACATGCAAGCCTGTTGGTATCCCTTGGCTTTCGCGTCGTAGGGATCGTTCCCAAAGACCCCATCTACAGCGCCGCTTTCAAATCTCGCTGGGACGCCGCCACTGACAGGGCGAATCTCATTGAAGAGAGCTGGCCTTCAGGCTACGTTGAGCCCCCCCTGCCCCAGCGCCCATTTCAACGCGAGGATGAGTTGGCGGCCGATCAACTTGCCCGTCGCCTGGCCCACCAGAAGATTGGTCTTCTTCACTTCGCGACGTGGTCGCCCACCATGAGTCTGCTGGCCAAGCGTTTGGGCATCCCGTGTACCGCAAGTGTCCACCAGTATTATGAAGGGGCGGAAGGCTTTATCGACCGTTTCGCCGATTCGATCCACTGCTCCTCGCTTACCCACGGGCTCAAATGGGCACGTCTGTCGAAAAGCCCTGCCAGACGAATCGTCTGTCCAGTCTCTTGCGACTACTTCGACTCTTTCCGAGTAAATCGGGAGCGAGTTGCAAAAAGTCGGAACACCTTGCGAATACTGGTCTCAGGTACGCTCCAGCCAAGAAAAAACCAGCTTGGCGCGATCCAGGCGGCGATACTTTTGAATGAGGCGGGCCTGGATGTATCGGTGGATTTGATTGGCTATGACGTATTCAATGATGCCTACTTGGGCCAGTGTAAGTCATTGATCGCAGCCAGCGACTTCAAAGACAAATTCACCATTTACGGTTTCATCGATGACCCGAAACCTTTTTATGACAAGGCGGATCTTCTGCTGATTTCAGCCATCGACGAATCGATGCCGCAAACCATGCTACAAGCCATGGCCATGGGCATCCCTGTTGTGTCGACCAACGTCGGCGGCGTAGCTGAGATTATCAAGCATCGCTACAGTGGCTTCATCTCCCGGGATCACAGCCCTGAAGCGTTGGCCGCAGCGATTTCGGAATATGCGCAGCTGTCGGCGGATCAGCGTTTGGAAATCGTTGACCGGGCCCAGCGATCAATGCAATTTCTCGCCAAACCTACATACGTTCGTTCCGAACTGGTGGACTTGTACAATCAGGCCTTTGACGAGTTCTCCAAACATAAGACCGGCGCACAGCCATCAACGATCGCAGAACACACGCTATCAATGCTCTCGCACGAGGACATGCTACTCGAAACACTTTTTGAAACGCGCAAACACATCAGTCAATTGAGCAGAGCGCTGGATAATGAAACCTGA	MKFSDFSTDLKIHASPRAPSTPKVTVILPTYSRGHGPLQEAIESVLAQNYSDFELIIVDDGSRDGTALVLQEYLKKDPRIIVHSYHKNSGLPALRVNQAALRAKGKYIAYQFDDDQWTEHSLQVRVEQLDKCNKPAVVYANASVDIALADGTTTSRTLGGPFNYGLLMNGNYIANNTVMHHKALFDVAGMYDAHVMMRRYSDYDLWLRFAKHADIIWVDEVTSHVRANLADSLGKEIPLFFTRYRKSLPIPRDHLLTPAAIDNYDVVDLSQFSGAFTDAEIDEYRRMEAIPFLTKFNDYCSDDEMAVAASARGRKLHLLTAKPDYSTSIDVTINNFALLPAQRAISSTFVKENELLTIDVTGIDVAVLYRTVGAAASHFVNIQKGKTPTAYLMDDNMLHFHAVGPQHGFLAPGTPAYQEIVHQIKNVDTCIGYSEAINEDLLQLNSKTVRLQTNINARFVRQRKYDRAKRLKVAVMSGAVREDILRELWPALANFARRYSETVEFHFWGLDPEKFGPLDCPVHFKPFTHVYESYVRDLSTSSFDVALVPLDFGTRAARSKSPVKLLESVAAGAICIFTDTIPYSSIPDACCLKVENTVAAWEEALLKAYEMGQQERTTMLENARELVLSRYTTESQFYDFLATFESVRLHSRLGDKTIAYAFHEAALGGATLHLIRHASLLVSLGFRVVGIVPKDPIYSAAFKSRWDAATDRANLIEESWPSGYVEPPLPQRPFQREDELAADQLARRLAHQKIGLLHFATWSPTMSLLAKRLGIPCTASVHQYYEGAEGFIDRFADSIHCSSLTHGLKWARLSKSPARRIVCPVSCDYFDSFRVNRERVAKSRNTLRILVSGTLQPRKNQLGAIQAAILLNEAGLDVSVDLIGYDVFNDAYLGQCKSLIAASDFKDKFTIYGFIDDPKPFYDKADLLLISAIDESMPQTMLQAMAMGIPVVSTNVGGVAEIIKHRYSGFISRDHSPEALAAAISEYAQLSADQRLEIVDRAQRSMQFLAKPTYVRSELVDLYNQAFDEFSKHKTGAQPSTIAEHTLSMLSHEDMLLETLFETRKHISQLSRALDNET				NA	NA	NA	NA	NA
D1-35_00645	759	btuD_1		Vitamin B12 import ATP-binding protein BtuD	ATGACTCATGCATCGCTTGTTTTGAAGAATGTCGATATCACCTTCGAAGGAGCATTGAGTAGCGAAGAAGGATTGAAAAGCTGGGTCAAACGCAAGCTGCTCACTCGTAAAGCTGCAACTGCCACCAACTATCGTATCGCCGCGCTTCAAGACATCAATCTTGAAATCAATCATGGAGAGCGCGTCGGCCTGATCGGACTCAATGGCGCGGGCAAAAGTACTCTGCTCAAAGTGATGGCAGATATCTACCCCCCGACATCCGGAACAGTTTTGATCAAGGGCCATGTCTGCCCAATGTTCGAATTTGCTACCGGCTTCGAAATGAATCAATCCGGCTGGGACAACATCCGTATCCGCGGGCTGCTCCTGGGGATGTCTCCGGAGGCGATCGAAGAAAAGCTTCCTGAGATCGCGAAGTTTACCGAATTGGGCGATTTCCTAGACTACCCGGTTCGAACCTATTCCTCTGGCATGTTCATTCGCTTGGCATTCGCTGTATCGACCAGTATCAACCCGGAAATCCTTTTGATTGATGAGGTGATGGGGGCCGGCGACATTTCCTTTGCCGAAAAAGCCAAGCGCAGAATGTTCGAGTTTATGGAGCAGGGAAAAATTCTCGTCTTTACCACCCACAACTTCAGTCTTTTGAACGATTTCTGCAACAGGACAATATGGCTGCATAAAGGTCAGATAGTGGCTGACGGCCCTACTGACGAAATCGTAAAACGCTACAACGAAGCGCATACGAATAGCCTGTGA	MTHASLVLKNVDITFEGALSSEEGLKSWVKRKLLTRKAATATNYRIAALQDINLEINHGERVGLIGLNGAGKSTLLKVMADIYPPTSGTVLIKGHVCPMFEFATGFEMNQSGWDNIRIRGLLLGMSPEAIEEKLPEIAKFTELGDFLDYPVRTYSSGMFIRLAFAVSTSINPEILLIDEVMGAGDISFAEKAKRRMFEFMEQGKILVFTTHNFSLLNDFCNRTIWLHKGQIVADGPTDEIVKRYNEAHTNSL	PGPT0023305_1677	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
D1-35_00646	798			hypothetical protein	ATGACGAGTGTCACAAGACTGTTTATCGATAGCGGCCGCGCATTAAAGATGTGGCGTGTATGGACTTACCTAGGCGTTCAGGACATCAAGGCAAGATTTCATCGATCGTTCATAGGTCCTCTATGGATCGTGTTGACGACCGGTTTCTTCGTGATCGGTGTCGGCTTGATCTACGGATTATTGTTCGGCCAGCCCGTACATGAGTTCCTGCCCTATCTCGCGTGCGGTTTCGCTCTGTGGGGATTTATTGTCGCCTCCATCACTGACGCCAGTGCAACATTCGTCAGGGCTGAAGGATACATAAAGCAATTCTCCTATCCCAAGCAGATTTATTTGCTCAGAACCTTGATATCAAGCGTGATCGTACTACTGATCGGCATTGCCGTAGTGATACCGGTCCAACTCTTCTTCAATGAAGTAAGCGCAATCGGTTGGCTATGCGCAATCCCAGGCTTGTTGCTTCTTGTTATGGCGGCATTGGGTCATATCACGATCAGCGCCTACCTCGGCGCGCGTTTTCGGGATTTCCCCCACGCAATGGCGGTCATGCTGCAAATGTTGTTTTTTGTCACTCCCATCATGTTTCCAATCAAGATGTTGCATGATAAAGGACTCGGATTTATCTATCAGCTCAATCCGCTTTACTATCTCATTGATGTAGTACGCCACCCCATCATCCAAGGTGAATTGGCACTGCCGGAAAATTATCTTTGGGCAGGTGTCTATGTACTGGTCTCCTGGATAGTGGCACTGCTGGCAGCCCTCAAGCTCGACTCTCGCGTGGTTTTCCTGTTATGA	MTSVTRLFIDSGRALKMWRVWTYLGVQDIKARFHRSFIGPLWIVLTTGFFVIGVGLIYGLLFGQPVHEFLPYLACGFALWGFIVASITDASATFVRAEGYIKQFSYPKQIYLLRTLISSVIVLLIGIAVVIPVQLFFNEVSAIGWLCAIPGLLLLVMAALGHITISAYLGARFRDFPHAMAVMLQMLFFVTPIMFPIKMLHDKGLGFIYQLNPLYYLIDVVRHPIIQGELALPENYLWAGVYVLVSWIVALLAALKLDSRVVFLL	PGPT0023304_1465	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
D1-35_00647	513			hypothetical protein	ATGAAGCGTTCACTCCCCTCGTTTGGAGACGACGCGTTGCGTCTTCGCTTAATCGAAGAGAGTGACTTGCATGAGACCTTGTCCTGGCGAAACCGGGACGAGGCTCGTGTCTGGTTCAAGACTTCGGCCCTATTGACCTATGAGCAGCATTCCAACTGGTTCCACAATCACTACCAACCGAAGGATAATGACTTTCTGTTTGTAGTCGAAGCAGACGGTGCGCTGGTGGGACAAGCCTCGGTGTACGCGATTGACTGGCAACAGCGCTCAGCCGAAGTTGGCCGATTCCTGGCCGATCCCGATCACTCGGGACGGGGCCATATCAGCCGAGCCTGCGGGCACCTGCTGGACATCTGTTGGGACGCACTGGACTTGGAGTATGTATTTCTTGAAGTCATCGAGACTAATGAACGTGCAATCCGCCTTTATCTCCGGCATGGTTTTCGTGAAGAGCAGCGCTACGAGGGACTGATTAGAATGGGCGTCCGAAAGAACCAGGCGGGAATTGAATGA	MKRSLPSFGDDALRLRLIEESDLHETLSWRNRDEARVWFKTSALLTYEQHSNWFHNHYQPKDNDFLFVVEADGALVGQASVYAIDWQQRSAEVGRFLADPDHSGRGHISRACGHLLDICWDALDLEYVFLEVIETNERAIRLYLRHGFREEQRYEGLIRMGVRKNQAGIE	PGPT0007790_1168	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
D1-35_00648	1128	arnB_2	COG0399	UDP-4-amino-4-deoxy-L-arabinose--oxoglutarate aminotransferase	ATGTCGATTCAGCTGTTCGTTCCAAAATTCCGCATCGATGAATGCCTCGCTGCGATCCGCGAATGCCTTGAAAAAGGCTGGACCGGCCTCGGCTTCAAGACAGCCACCATGGAAGAGGAATGGAAAACCTACACAGGTTTGCCGCACGCCCACTTCCTGAGCTCAAACACCGTCGGCCTACACCTGGCCGTCGAGCTGTTCAAGACCAAGTTCGGCTGGGCCGACGACGATGAGGTCATCACCACTCCACTGACCTTTATTTCCACCAACCATGCCATCCTGTACGCGGGAATGAAGCCAGTGTTCGCGGATGTCGACGAATCCCTGTGCCTGGATCCGGAAAGCGTGGTTGAGCGAATCACCGCAAAGACCAAAGCACTGATTTTCGTCGGTATCGGCGGTAATATCGGTCAGTATCAGAAGATCGTGGAAATCTGCAGAGATCGCGGTATCAAGTTGATTCTCGATGCGGCTCATATGGCTGGCACTCGATTCAACGGCAAGCATGTCGGTCAAGAAGCAGACAGCGTTGTATTCAGTTTCCAAGCGGTCAAGAACCTGCCAACCGCCGACTCTGGCATGATCTGCTTCAAGGATCAGGAAGACGATGAACGCGTTCGCAAGCTGACTTGGCTGGGCATCAACAAGGACACCTTTGCGCGCACCGCGGCACAGGGCGCCTACAAGTGGATGTATGACGTCGAAGAGTTGGGTTACAAGTATCACGGCAACTCGATCATGGCTGCCATGGGCCTGGTACAGCTCAAGTATTTGGATCAGGACAACGCTTATCGCCGTCAGCTTGCCACTTGGTATCGCCAGAATCTCGCGGGTCATGCAAAGATTCGCATTGTCGACGTGACGCCAGGTTGCGAGTCATCGACGCACCTGCTTCAAATCCGAGTCAAGGATCGCGACGCACTGATGCTGGCTCTGAACGAGCACCAGATCTATCCTGGCGTCCACTACCGCGACAACACCGAGTATGCCATGTACTCATTTGGTGCAGGCACTTGCCCTAAAGCCGCACAGGCCAGCCTGGAAATCCTGTCGCTGCCAATGCACCTCGGCCTCACGCGCGCCGACGTCGATACCGTGTGCGAACTCCTGATCCGCTACGCAAAATGA	MSIQLFVPKFRIDECLAAIRECLEKGWTGLGFKTATMEEEWKTYTGLPHAHFLSSNTVGLHLAVELFKTKFGWADDDEVITTPLTFISTNHAILYAGMKPVFADVDESLCLDPESVVERITAKTKALIFVGIGGNIGQYQKIVEICRDRGIKLILDAAHMAGTRFNGKHVGQEADSVVFSFQAVKNLPTADSGMICFKDQEDDERVRKLTWLGINKDTFARTAAQGAYKWMYDVEELGYKYHGNSIMAAMGLVQLKYLDQDNAYRRQLATWYRQNLAGHAKIRIVDVTPGCESSTHLLQIRVKDRDALMLALNEHQIYPGVHYRDNTEYAMYSFGAGTCPKAAQASLEILSLPMHLGLTRADVDTVCELLIRYAK	PGPT0025263_20	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025263-spsC-NA	NA	NA
D1-35_00649	291	ihfB	COG0776	Integration host factor subunit beta	ATGACGAAATCGGAGTTGATCGAACGAATTGTCACCCATCAAGGGCTGCTCTCGTCCAAGGATGTCGAGTTGGCCATCAAGACTATGCTTGAACAGATGTCACAATGCCTTGCAACTGGTGATCGAATAGAGATCCGCGGTTTTGGCAGCTTTTCCCTGCATTATCGCGCGCCACGTGTCGGCCGAAATCCCAAGACAGGCCAGTCTGTAAGTCTCGACGGAAAGTTCGTTCCTCATTTCAAGCCAGGCAAGGAGTTGCGAGATCGCGTGAATGAGGAGGAGGGACATTGA	MTKSELIERIVTHQGLLSSKDVELAIKTMLEQMSQCLATGDRIEIRGFGSFSLHYRAPRVGRNPKTGQSVSLDGKFVPHFKPGKELRDRVNEEEGH				NA	NA	NA	NA	NA
D1-35_00650	270			hypothetical protein	TTGACAGGAAGCAGATATCAAAAGAGTTCCATGCGCAACATGATGCGCACGCTACTGGCGTTGTTTGCTCTGTTGCTGGTTCTGGCGACCCTGACCTTTGTCCTGGAGAATCAGGAGCCGACATCGTTGCTCTTCCTTGGTTGGAAGGCGCCGGAACTCCCAATCTCAATGCTTATGGTCTTCGCGTTGCTGCTCGGTATGAGCATCGGGCCGCTCATCGGGTGGAACCTAGGGCGCAGATTCAGAGCTTCGCGTAATAAAGGAGGCTGA	MTGSRYQKSSMRNMMRTLLALFALLLVLATLTFVLENQEPTSLLFLGWKAPELPISMLMVFALLLGMSIGPLIGWNLGRRFRASRNKGG	PGPT0014665_1622	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_AFFECTED_LIPOPOLYSACCHARIDE_ASSEMBLY,PGPT0014665-lapA-K08992	NA	NA
D1-35_00651	1134	rfbB	COG1088	dTDP-glucose 4,6-dehydratase	ATGGATTTAGACAGTGCTCCGTTGAGGCCTGTCAGTAACTCAAGGGTATGGTTTCGAGTGAAAATTCTAGTAACCGGCGGCGCCGGGTTTATCGGGTCGGCAGTCATCCGTCATATCATTTCCAATACCACCGATTCTGTCATCAATGTCGATAAGCTTACGTATGCCGGTAACCTGGAGTCGCTTGCCGAAGCGAGCCTGAGCCCGCGATATGCGTTCGAGCACGTCGATATCTGCGATCGCAACCAGATGGACCGGGTACTGAATGAGTATCAACCTGATGCGATCATGCATTTGGCAGCTGAGTCGCATGTAGACCGCTCGATCACTGGCCCATCTGAATTCATCCAGACCAATATCATTGGTACCTACACATTACTGGAAGCTGCGCGCCACTATTGGGCGTCACTCGATACCGCGCGCAAGAAGGATTTTCGCTTTCATCATATTTCCACCGATGAAGTCTACGGAGATCTTGAAGGGCCGGAAGACCTGTTCACCGAAACTACTCCCTATCAGCCAAGCTCACCGTACTCTGCGAGCAAAGCCAGCTCCGACCACTTGGTCCGTGCATGGGCACGAACGTACGGACTGCCAACGCTGGTCACCAATTGTTCCAATAATTATGGTCCGTGCCATTTCCCTGAAAAGCTGATTCCGCTGATCATTCTTAACGCACTGGAAGGCAAGTCTCTGCCCGTCTATGGCAAGGGTGATCAGGTTCGTGATTGGCTATACGTCGAAGATCACGCTCGCGCCCTCTACTGCGTTGTGACCAAAGGTGCCGTAGGCGAAACCTACAACATCGGTGGACACAATGAAAAACAGAACATCGAAGTCGTGCGCGCGCTCTGCGAGCTCCTTGACGACCTGTGTCCGGACTCTGCTTTTCATCCACATGCCAGTCTTATCACCTACGTTGAGGACCGTCCGGGCCACGACCAGCGTTACGCCATCGACGCCAGCAAAATCCAGCGCGAGTTGGGTTGGGTGCCAGAGGAAACCTTTGAGACTGGCCTGCGTAAAACGGTCGAGTGGTATCTGAACAACCCGGAATGGGTGGCTCATGTGAAGAGCGGTAGCTACCAGCAATGGATTGATCAGAACTACGCGGGACGCCCTAACAGCGCATGA	MDLDSAPLRPVSNSRVWFRVKILVTGGAGFIGSAVIRHIISNTTDSVINVDKLTYAGNLESLAEASLSPRYAFEHVDICDRNQMDRVLNEYQPDAIMHLAAESHVDRSITGPSEFIQTNIIGTYTLLEAARHYWASLDTARKKDFRFHHISTDEVYGDLEGPEDLFTETTPYQPSSPYSASKASSDHLVRAWARTYGLPTLVTNCSNNYGPCHFPEKLIPLIILNALEGKSLPVYGKGDQVRDWLYVEDHARALYCVVTKGAVGETYNIGGHNEKQNIEVVRALCELLDDLCPDSAFHPHASLITYVEDRPGHDQRYAIDASKIQRELGWVPEETFETGLRKTVEWYLNNPEWVAHVKSGSYQQWIDQNYAGRPNSA	PGPT0022625_940	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0022625-rfbB|rmlB|rffG-K01710	NA	NA
D1-35_00652	894	rfbD_1	COG1091	dTDP-4-dehydrorhamnose reductase	ATGAAAGTCCTCCTACTTGGTAAGAATGGACAGATTGGGTGGGAACTTCAGCGCTCACTCGCTCCGCTTGGAGAGTTGACCGCTCTCGCGCGTCATTCGGACGATGGCCCATATCTGGACGTATCCGACCTTGATGCGCTGCGTGCGATGATTCGCCAAGTCGAGCCGGACGTTATTGTCAATGCGGCAGCTTATACAGCGGTTGATAAAGCCGAGTCTGAAAAGGATTTGGCTGATCGCGTGAACAGGCAGGCAAGTGGGGTGATGGCCGAGGAGGCTTTACGCTTGGGCGCCTGGCTGGTCCATTACTCGAGCGACTACGTTTTTGGTGGCCAAGGGGTGGTTCCTTGGCAGGAAGCTGACAAGGTCGCGCCCGTAAATTATTACGGCATGAGTAAGTTGGCCGGCGAGCGGGCCATAATCGCGACAGGATGCAAATACCTGATTTTTCGTACTAGTTGGGTATACAGTGCTCGTGGTAATAATTTTGCCAAGACGATGCTGCGCTTGGCAGCGGAGCGCGAAACCTTGAGAGTGATTGCGGACCAGATTGGCGCCCCCACCAGTGCTGAATTAATCGCGGACGTGACGGCCCTGGTTCTTCGGCAGGCCATAGACCACCCTGAATTGGCGGGTCTCTACCATTTGGCGGCCAGGGGGGAAGTGTCATGGTACGGTTATGCTAATTATGTGATTGATTTTGCCAAGGCGAGCGGTGAGGCGCTTGCTGTCGAGTCGGTCGAACCGATCGAGGCAACTGCTTACCCCGCTACCGCTCGCCGTCCTTTGAATTCACGATTGAATACTCAGAAACTGCGCGACAGTTTTTCTTTACACTTGCCGGATTGGCAAAGTGGCGTAACCCGAATGCTTAGGGAAGTTTTAGACAAATGA	MKVLLLGKNGQIGWELQRSLAPLGELTALARHSDDGPYLDVSDLDALRAMIRQVEPDVIVNAAAYTAVDKAESEKDLADRVNRQASGVMAEEALRLGAWLVHYSSDYVFGGQGVVPWQEADKVAPVNYYGMSKLAGERAIIATGCKYLIFRTSWVYSARGNNFAKTMLRLAAERETLRVIADQIGAPTSAELIADVTALVLRQAIDHPELAGLYHLAARGEVSWYGYANYVIDFAKASGEALAVESVEPIEATAYPATARRPLNSRLNTQKLRDSFSLHLPDWQSGVTRMLREVLDK	PGPT0022630_1590	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PUTATIVE_TRYLOSE_DERIVATES_MODIFICATION,PGPT0022630-rfbD|rmlD-K00067	NA	NA
D1-35_00653	891	rffH	COG1209	Glucose-1-phosphate thymidylyltransferase 2	ATGACCACGACAAATCGTAAGGGCATCATCCTCGCCGGTGGTTCAGGCACAAGACTGCACCCATTGACTCTCGGCGTGTCCAAGCAGATGTTGCCGATTTACGACAAGCCGATGATTTTCTATCCCTTGTCTGTACTGATGCTTGCAGGCATGCGTGAGATCCTGATTATTTCCACGCCTGAAGACCTGCCATGTTTTCGTAAGTTGCTGGGCGACGGCAGCCAGTACGGAATCAAACTGACCTATGCCGAGCAGCCTAGCCCGGATGGTCTGGCTCAGGCCTTCATTATTGGGGAAACGTTCATCGGCCAGGATCCCTGCTGTCTTATTCTCGGGGATAATATCTTCTACGGTCAGCATTTTTCGGAGAACCTGCGTTCTGCCTGCATGCAAGAGCAAGGCGCAACAGTATTCGGATATCACGTGTCGGACCCTGAGCGGTTTGGTGTGGTGGAGTTTGATGCGACCGGTCGCGCGTTGAGCATCGAAGAGAAGCCGGCCAATCCGAAATCCAGCTACGCAGTGACTGGTCTTTATTTTTACGACAATCAGGTTGTAGAGATAGCCAGGAATATCAAGCCTTCTGCGCGTGGAGAGCTGGAAATCACGGATGTCAACCGTGCTTATCTTGAGCAGAAGGAGCTTAATGTGGAAATGCTCGGGCGTGGCTTTGCATGGCTGGATACGGGTACCCACGATTCGCTGTTGGAAGCCAGTCACTTTGTGCATACGATCGAGCAGAGACAAGGCTTGAAAGTGGCGTGTCTGGAAGAGATTGCATACAACAATGACTGGATCACCGCCGAGCAGTTGGCTGTCCAGGCAGAGGCTCTGAAAAAAACCGGATACGGTCAGTATTTGCAGAAACTGCTGCGCTTGTCCAATCCCTGA	MTTTNRKGIILAGGSGTRLHPLTLGVSKQMLPIYDKPMIFYPLSVLMLAGMREILIISTPEDLPCFRKLLGDGSQYGIKLTYAEQPSPDGLAQAFIIGETFIGQDPCCLILGDNIFYGQHFSENLRSACMQEQGATVFGYHVSDPERFGVVEFDATGRALSIEEKPANPKSSYAVTGLYFYDNQVVEIARNIKPSARGELEITDVNRAYLEQKELNVEMLGRGFAWLDTGTHDSLLEASHFVHTIEQRQGLKVACLEEIAYNNDWITAEQLAVQAEALKKTGYGQYLQKLLRLSNP	PGPT0022600_1680	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0022600-rfbA|rmlA|rffH-K00973	NA	NA
D1-35_00654	921			hypothetical protein	ATGTCGGTAAAGCTCCCCAAGATTGCAGTTTTGCTGGCTGCCTATAATGGTATGCGCTGGATTGAAGAGCAGTTGAATTCAATCCTCGGTCAGTTGACTGTGGATGTAACTGTTTTTATCAGCATTGATTCTTCCAGTGACGGCACTGAGGGATGGTGCGCGAGTTACGCCGAGGAGCGTTCCGGTATTGTCGTCCTGCCTTCCGCCGGTCGCTTCGGAGGGGCGTCGCGCAATTTTTTCAGGTTGGTCCGTGATGTTGATTTCAGTGATTATGATTTCATCGCTTTCGCTGATCAGGATGATATCTGGCAGCCTGATAAACTCCACCGCGCCACCCAAATCATGCGCACCCTTGATGTAGAAGGGTACTCCAGCAACGTAGTGGCGTTCTGGCCCGACGGCAAAACTCATTTGCTCGACAAGGCGCAGCCCCAGGTCGAATGGGATTTTCTATTTGAAGCAGCTGGGCCCGGCTGTACCTACGTGATGAGCAAGGGCCTGGCGGCTTCGCTCACGACTTCCGTTTGTGAAAACTGGCAACAACTGCAAAGCGTCAGCTTGCATGATTGGTATTGCTATGCGTACGCCCGTGCCCACGGTTATCGTTGGTACATTGATCCTCAACCATCAATGAGTTACCGCCAGCATGAAAGCAATCAGGTGGGTGCCAACAAGGGCTTGAGTTCTTTGCTGGCACGCTATAAGGCAATTCGCAGCGGCTGGTGGTTCAATCAGGTTCGGCTGATAGCCCAGTTAGTAGGGTGTTCAGACGAACCGTTTGTTAGAGGCTGGTTGGGATTGCAGCGTAAGCAACTAATAAGATTGTCGTTCAGCGCTCGGAAGTGCCGACGTTGCTTTCGAGACAGAGTGTTTTTCTTTCTGGTTTGCTGGGTAGTGGCTTTTAGAGAAAACACAGCCTGA	MSVKLPKIAVLLAAYNGMRWIEEQLNSILGQLTVDVTVFISIDSSSDGTEGWCASYAEERSGIVVLPSAGRFGGASRNFFRLVRDVDFSDYDFIAFADQDDIWQPDKLHRATQIMRTLDVEGYSSNVVAFWPDGKTHLLDKAQPQVEWDFLFEAAGPGCTYVMSKGLAASLTTSVCENWQQLQSVSLHDWYCYAYARAHGYRWYIDPQPSMSYRQHESNQVGANKGLSSLLARYKAIRSGWWFNQVRLIAQLVGCSDEPFVRGWLGLQRKQLIRLSFSARKCRRCFRDRVFFFLVCWVVAFRENTA	PGPT0006850_15	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0006850-rfbG-K12991	NA	NA
D1-35_00655	948	gnu	COG0451	N-acetyl-alpha-D-glucosaminyl-diphospho-ditrans,octacis-undecaprenol 4-epimerase	ATGAGCGTTTCAAAGATCCTCGTGACAGGGGCGAACGGCTTTATTGGAAAAGCCTTGGTTTCCCGTTTGTTGGCGGATCGCCAATACGCCGTTATCGGGGCAACTCGTGACAAAACGCCGGCCAATGCGCAGTGTCAATTTGAGCGCCTCGATTTAACAGACCCTGACGTCTTGCCATCACTGCGGGACGTTCAAGTCATTGTCCATGCCGCCGCTCGTGTGCATGTCATGAATGACGTCGCAGTTGATGCGCTAGCTGAGTATCGCAAAGCCAACGTCGAAGGAACTCTGCGGCTGGCGAAGCTTGCAGCCGCCTCCGGCGTCAAGCGTTTTATCTTCATAAGTTCGATCAAGGTCAATGGTGAGCGAACTGGGCCGGGAAGGCCGTTCAGGGCCGACGACACGCCTGCTCCAGTGGATGCATATGGAATATCGAAACGGGAGGCAGAGGATGGTCTGATGAAGGTCAGCCGCGATACTGGGATCGAAATTGTGATCATCCGCCCGCCACTCGTGTATGGGCCCGGAGTAAAAGCCAACTTCCTGAATATGATGCGTTGGCTCAGCAGGGGAGTGCCGCTTCCGTTGGGTGGGCTGAACAACCGCCGCAGTTTGGTGGCGCTGGACAATCTCGTGGATCTGGTCATTACCTGTATTGCTCATCCTGCTGCCGCAAATCAAATTTTCCTCGTGAGCGATGGTGAGGATCTGTCTACGACGCAACTGCTCCTACGGATGGCTGAAGCGTTGAAGGTTCGCGTGTATTTGTTGCCGTTGCCGGAAACCGCGCTGCGCTTAGCTGCATCATTGCTGGGGAAGAAGGCGATGGCAGACAGATTGTGTGCTTCATTACAGGTCGATATTGAAAAGACATGCTCCTTGTTAGGTTGGTCTCCGCCAGTCAGCGTGGACGAGGCGCTTGAATTGGTTGCTAACCGCCCATCATAA	MSVSKILVTGANGFIGKALVSRLLADRQYAVIGATRDKTPANAQCQFERLDLTDPDVLPSLRDVQVIVHAAARVHVMNDVAVDALAEYRKANVEGTLRLAKLAAASGVKRFIFISSIKVNGERTGPGRPFRADDTPAPVDAYGISKREAEDGLMKVSRDTGIEIVIIRPPLVYGPGVKANFLNMMRWLSRGVPLPLGGLNNRRSLVALDNLVDLVITCIAHPAAANQIFLVSDGEDLSTTQLLLRMAEALKVRVYLLPLPETALRLAASLLGKKAMADRLCASLQVDIEKTCSLLGWSPPVSVDEALELVANRPS	PGPT0022965_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_QuiNAc_MODIFICATION,PGPT0022965-wbpV-K24310	NA	NA
D1-35_00656	804	tagG	COG1682	Teichoic acid translocation permease protein TagG	ATGACGCCGAAGGAAGCTATCAACAGTTTCTGGCGAAATCGCAGTTTGATCAGTGCTTTGGTACAGCGAGAGGTGGTTGGACGATACCGGGGTTCGTTCATGGGTATTCTCTGGTCTTTTTTTAATCCTATATTCATGTTGGCCGTCTACACATTTGTATTTAGCGTCGTTTTCAAGGCTCGCTGGAGTGGTGGAAGTGATTCAAAAACGGAGTTTGCCTTGATTTTGTTTGCGGGCCTGATTGTGTTTAATCTGTTTGCGGAATGTTTCAATCGAAGTCCCACACTGATTATCGCCAATACGAATTATGTCAAGAAAGTTGTTTTTCCTCTGGAAATTCTACCGTGGGTGACTGTTGGCTCTGCACTGTTTCATATGGTAATCAGCTGGATCGTCTGGCTGGTCGCCTATATCCTGCTGTTTGGAGTGCCACAGATGACCGCCATACTTTTTCCCTTGGTAATATTGCCGCTGATATTTCTGGTGCTAGGGTTGATGTGGCTATTCGCCTCACTCGGTGTTTACTTGCGGGACGTAACACAAGTTATAGGTATATTAACCACCGTATTAATGTTTCTCTCACCCATTTTTTATCCTGTCAGTGCGTTGCCGGAGAGGTATCAGAGTTTCATGATTTTTAACCCACTCACTCCAGCCGTCGAGTATGCACGTGATGTGCTGTTTTGGGGGCGGTGGCCTGATTTTAAAGTATTGGCGATCTATATGGCTGGTTCGCTCACGGTGGCTTGGTTGGGCTTCGCATGGTTTCAGAAAACACGTAAGGGGTTTGCTGATGTCCTCTGA	MTPKEAINSFWRNRSLISALVQREVVGRYRGSFMGILWSFFNPIFMLAVYTFVFSVVFKARWSGGSDSKTEFALILFAGLIVFNLFAECFNRSPTLIIANTNYVKKVVFPLEILPWVTVGSALFHMVISWIVWLVAYILLFGVPQMTAILFPLVILPLIFLVLGLMWLFASLGVYLRDVTQVIGILTTVLMFLSPIFYPVSALPERYQSFMIFNPLTPAVEYARDVLFWGRWPDFKVLAIYMAGSLTVAWLGFAWFQKTRKGFADVL	PGPT0023304_1152	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
D1-35_00657	1308	btuD_2		Vitamin B12 import ATP-binding protein BtuD	ATGTCCTCTGAAATCGCCATTAAGGTTCAAAATCTCAGTAAGTGTTATGAGATTTATGACAAGCCAAGAGATCGATTGCTTCAAATGCTAAGCCGCGGAAAAAAACGCTACTGTCGGGAATTTTGGGCGCTCCGCGATATCTCTTTTGAAATACGTAAAGGAGAAACCGTAGGTATCGTCGGACGTAACGGCAGCGGTAAGTCGACCCTGTTACAAATTTTGTGTGGCACGCTTAATCCAACTGGCGGAACCGTAGAAACTCATGGTCGAATAGCAGCCTTGCTAGAGCTAGGGTCTGGTTTCAATCCGGACTTTACCGGGCGAGAGAACGTGTACCTGAACGCTTCGATTCTGGGGCTGAGTAAGGCGGAAATAGACAGTAAGTACGATGCCATTATAGGCTTCGCCGATATCGGCGACTTCATAAATCAGCCCGTAAAGACGTACTCGAGCGGCATGTTGGTACGTTTGGCTTTCTCCGTTCAGGCTCAGGTAGAACCTGACATTCTGATCGTTGACGAGGCCTTGGCCGTCGGGGATGCTAAATTCCAGGCGCGCTGTTTTGATCGCCTGAAAAAACTCAAGGAGAATGGCACCAGCATTCTCCTGGTTACCCATTCGAGTGAACAGATAGTTTCCCATTGCGATAAGGCGTTCCTGCTGGATTATGGCCTGCAGCTGGAGCAGGGAGAACCACGCCAGGTGGTCAATCGTTATCTGGACTTGCTTTTTGGCAAGACTCCGCATTCGGTAGCCACCATGGACGAATCGGTGAAGAGTGAGTCGCAGACGTACCTTGCGCCCGCTGGAGGTGCTGACGTTTTCGAATCGCATCCCAATTACAACCCAAACGAGTACCGCTGGGGCGATGGAGCCGCCACGATCATCGATTTTTATCTTGGTTGTGCCGGAGTCGATTATCCTGTTGCCGTCGATACGGGATCGAACATCAAGCTTGTGGTCTTTGTGAAGTTTGATACCGATTTGGTATGCCCTATCCTCGGTATGACAATCAAAACCAAGGAAGGTGTAACCGTATATGGTGTCAACAGTGAGACTCTGGAATGTCCGGATTTCCGGATGTTAGGTCGCAAGGGCGATATTGTTGAAGTTGAAATGCGAATCTCCTGCGATCTGGCGCCTGGTGACTATTTCATTTCCATAGGTGTCTCGACCAAGGAAGGAGAGGATGTCACGCCAAGGGATCGCCGCTACGACTCGATTCATATTCAGGTTCGTCCTACAGATAAATTTTTTGGGCTGGTGAATCTTGACTCCAGCATTCGTGCCAAGAAGGTTGTAAATTGA	MSSEIAIKVQNLSKCYEIYDKPRDRLLQMLSRGKKRYCREFWALRDISFEIRKGETVGIVGRNGSGKSTLLQILCGTLNPTGGTVETHGRIAALLELGSGFNPDFTGRENVYLNASILGLSKAEIDSKYDAIIGFADIGDFINQPVKTYSSGMLVRLAFSVQAQVEPDILIVDEALAVGDAKFQARCFDRLKKLKENGTSILLVTHSSEQIVSHCDKAFLLDYGLQLEQGEPRQVVNRYLDLLFGKTPHSVATMDESVKSESQTYLAPAGGADVFESHPNYNPNEYRWGDGAATIIDFYLGCAGVDYPVAVDTGSNIKLVVFVKFDTDLVCPILGMTIKTKEGVTVYGVNSETLECPDFRMLGRKGDIVEVEMRISCDLAPGDYFISIGVSTKEGEDVTPRDRRYDSIHIQVRPTDKFFGLVNLDSSIRAKKVVN	PGPT0023305_416	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
D1-35_00658	3786			hypothetical protein	GTGTTGGCTGAGTCATTTGAAGATTTTGATATTGATAAAAAGTTTGATGTCGTTACGTTGATTGGCGTGTTTGAATATGCCAATTTATTCATTTCCGGAGACAGCCCCGGACCGAAGATGCTGGAAAAGGTTCGTTCACTGCTAAAGCCGGATGGATTGTTGATCATCGCTATCGAGAACCAGCTCGGCTTGAAATATTTTGCGGGTGCTCCTGAAGATCACGTGAGCGCGCCAATGTTTGGCGTTGAAGGTCGTTACAGCAGCCATACCCCGCAAACCTATGGAAAAAAGGCGCTGAGTTCATTACTTGCCGATGCGGGTTTTTCAACGCGAGAGTTCATGGCGCCCTTTCCGGATTACAAACTGCCGGTTTCAGTTGTAACCGAGCGCGGGTTTAATGAATCCGTCTTTGATGCGTGTGCTTTCGCTACGCAAACCGTTAGACGCGATCCGCAGCTGCCAAAACTTACGACGTTTTCGCTTGAGTTGTCTTGGCCGCAAATAATCAGCAACGGCCTTGGGCTGGATATGGCCAATTCTTTCCTGATTGCTGCTTCGGCCGGGTCGCGGAAACGAGTAGAGCCTGAGGTCTTGGCTGTGCATTATAGTTGCGACCGTCGCGCTGTCTATTGTAAGCGTTCAGAATTCAGGATGAACCCGAACGATGGGATTCGCGTGCATTATGAGAAGCTCGGCAAGCTTGCAGCCAACGCCTCCGATGAGGGCACGATCGTCAAGTTCAGGCTGCCTGAGTCAGAGCCTTACATACAGGGTGAGGTTTTTGTAAACAAGCTGATCCACATAGTCAATGCCGAGGGCTGGACGTACGCCGATGTGGGGGCGTTTCTTAAGCAATATGTAACTGTTCTGGGACTCGTATCGGAAACAGCGGGAAATGAGCTGAATATATTGCCAGGGACTTTGATAGACGCAGTCCCGCAGAATATTATTGTCAACGGTGATAGCAGTCCTCAGCTAATCGACAAGGAGTGGGCGCTGAATTCGCCTGTACGACTTGAATTTCTGTTGTTCAAAACCTTGACGCAGTTGTTGTCATCGGTAACTCGCTTCGCTAAAGGTGCTGAATCGGGACCTGTCACGAGAAGAGGTTTTGTTTTCAAAAGTTGTGAGGCGGCCGGTTATCCAATTAGCGATAACGATGTTAAAGATTTTCTGCTCCTCGAAGCGTCAGTTCAAAACGTCATCAATGGTCGGGAGATCAGTGAGTTCCTGAGTTGGGACGGTGATCAGATCATTACTGAAGATAATCTGTTCTCAGCCTTCAACGTTTCCCAAACCTTACTGGCGCAAACCTCTCGAGGCCTGAACGTTGCAGAAGAGGAGATCGACAGATTATCCAAACAGCTGGTTGAACGAGAGGCGATTTATGGCGCTATCGTCAGTTCCAACTCCTGGCTCATAACAAAACCTCTCCGTTTTTTTGCGCGCTCCCTGCGTAAAGGTAGTGGTTGTCTTCAAAGGGGATTGGAGCATTCCAAAAAAACGCTGACCGCTTATCTACGGGGTCAAGAGATAAATGCTTCGATGTTGGAAGCCACTCATGGCGTCGTGGAGGAGCCTGTAAAGCGTGTGCGTTCCATAAGTGTCATCTTGCCTATCTACAGGGATGTGGAGATGACCAGGCGCTGCATTCTGGCCGCAATGCCAGGCATTATTGCCTGTGAGTCGAAACTCATTGCGCTTAATGACTACAGTCCAGACGCGGGCATGCAGGACATGCTGCTTGAGTTGCAGAAACAATGGCCTGATGTCCTCATGGTTCTGGAAAATCAGCAGAATCTTGGTTTCGTCAAAACCGTGAATCGCGGTATGCGCCATAGGCCTGAGGACGACATTGTCTTTTTGAACAGTGACGTCATCGTTCCGGTGGATTGGTTGGAGCGTTTGGCGTCGGAGGCATACATCGCACCCAACATCGGCACGGTCACCCCATTTTCCAACAATGCTACTATCTGTAGTTTCCCGGCTTTTCTGCTCGAGAACGAAGCGGCGTTCGGATTAAGCGTCGACGAGATCGACTCGGTGTTCTCTAATCCGCGTCTGCCAGTCGCCCAGGTGCCGACGGGTGTAGGCTTTTGCATGTATGTACGTCGGGATTGCCTGGAGCTTATCGGTCTACTGAATGAAGAGAAGTTCGGTAGAGGTTACGGCGAGGAAAACGATTTGTGTCAGCGCGGACTGAAAGCGGGCTGGCTTAACATCGTCACCCCTAACCTTTATGCTTTTCATGAGGGAGGGGTAAGCTTCTCTTCCTCCAAACAGGCTCTGACTGACCATGCCTCCAAGATGATCGCGGAGCTTCATCCAGATTATCACTTGGACATACAACGCTTCATCGTTGCAGATCCGCTAAAGAGCGTCCGTATCAGGCGTTTTGCTCAACTGATCGGGTCTTTGGATCGGCCAAAGGTGTTGCACATTTCTCATGAAGCAGGCGGTGGCGTTCGACAGCATCTGGAAGAGTTGGCCGAAGCGGTCGGGTCCAATGCGTGCTGCCTGTTCTTGGCGCCTCACAGGGGCACCGCTGCGATTACGTTGCGTATGGGACTTTTTACCGGAGCGGACGAACTGGTGTTCCAGCTGCCCAAGGATCACAGCGCCCTCGTAGCGCTCCTAAAAGCCTGCGGAGTCAACTTGGTGCATTTCCATCATTCGTTAGGGCTCAATCCTGCGCTGCTGGAACTGCCCGCAGAACTGGACGCCGCGTATGCTTTGACGGTTCATGACTATTATTGGCTTTGCGGTAATCCTACGTTGACAAATCAACGAGGTTTCTACCCTGGTGCTTACGCGGATAACATTGAAAATCCGAACTTCCCTTTACCTCGTGGCGTTTCCGCGCAGGACTGGCGCGAACAGCTAAGGGGATTTATAGAACATGCCCTGAAGGTGATTTTTCCTTCCAGCTATACGCTTTCGATCTATAAACGACATTATGAATTGGCTAACGCTGTAATCGCAGGGCACGTCGAGCATTTGCGTAACATTCACGCTGCGGTAACCCCATTGTTGACCAAATCACGGTACAACGTGGGGGTGATCGGTGCGTTGGGTAAGGAAAAGGGCGCAGATTATCTGGAGCAGATGGCGGCAGTCGCATTCTCCACGCAAACCCCTATCGACTTTAAATTGATCGGATTTGCTTACCGAGAACTGAACGGTATTAAGTGCACTGGCCATTATGAATCTGACGAACTGGCCGCCTTGATCAAGACTAACGATATCGATCTCTTCCTGTTTCCGAGTCAGTGCCCCGAAACGTACAGCTATACATTGAGTTTTGCGATGGAGTCAGGATTGCCCATCATCGCTCCCGATATTGGAGCTTTTCCGGAGCGGCTCAGTGGTCGAAACAGTACCCTGATCTATGAGTACGGGATGGAACCTGCCGTTTTGCTGTCAAAAGTCCAGATGTTCATTAAGGAACTGGCTGCCGGCCAAAGTTTACCCGCACCGTGTGTTGATAACTCGGCATGCCAGGATGATTTTTACAACACCGATTACCTCGCGTTATGCCATTGTGGATTCGACGGTGCCCGAGACAGTCAAGCTGTATTGCAACTACCGGTTAGGTCAGCTGTTTCGGCTGATATGGACAGTTTGTTGACCTATAAAGAGTTGATGCTGCTGGCTCTTTGGACTCTTTACCGTAAGCCTGGAATGCACAGGGTTCGGGATTCCGTTCCGTATGAGGTGCGTCAGAAGATCAAGAGGATGCTGACAAAACGGCCTTTATATGAAGTGGTCGGTGTCCATAAGAAATGA	MLAESFEDFDIDKKFDVVTLIGVFEYANLFISGDSPGPKMLEKVRSLLKPDGLLIIAIENQLGLKYFAGAPEDHVSAPMFGVEGRYSSHTPQTYGKKALSSLLADAGFSTREFMAPFPDYKLPVSVVTERGFNESVFDACAFATQTVRRDPQLPKLTTFSLELSWPQIISNGLGLDMANSFLIAASAGSRKRVEPEVLAVHYSCDRRAVYCKRSEFRMNPNDGIRVHYEKLGKLAANASDEGTIVKFRLPESEPYIQGEVFVNKLIHIVNAEGWTYADVGAFLKQYVTVLGLVSETAGNELNILPGTLIDAVPQNIIVNGDSSPQLIDKEWALNSPVRLEFLLFKTLTQLLSSVTRFAKGAESGPVTRRGFVFKSCEAAGYPISDNDVKDFLLLEASVQNVINGREISEFLSWDGDQIITEDNLFSAFNVSQTLLAQTSRGLNVAEEEIDRLSKQLVEREAIYGAIVSSNSWLITKPLRFFARSLRKGSGCLQRGLEHSKKTLTAYLRGQEINASMLEATHGVVEEPVKRVRSISVILPIYRDVEMTRRCILAAMPGIIACESKLIALNDYSPDAGMQDMLLELQKQWPDVLMVLENQQNLGFVKTVNRGMRHRPEDDIVFLNSDVIVPVDWLERLASEAYIAPNIGTVTPFSNNATICSFPAFLLENEAAFGLSVDEIDSVFSNPRLPVAQVPTGVGFCMYVRRDCLELIGLLNEEKFGRGYGEENDLCQRGLKAGWLNIVTPNLYAFHEGGVSFSSSKQALTDHASKMIAELHPDYHLDIQRFIVADPLKSVRIRRFAQLIGSLDRPKVLHISHEAGGGVRQHLEELAEAVGSNACCLFLAPHRGTAAITLRMGLFTGADELVFQLPKDHSALVALLKACGVNLVHFHHSLGLNPALLELPAELDAAYALTVHDYYWLCGNPTLTNQRGFYPGAYADNIENPNFPLPRGVSAQDWREQLRGFIEHALKVIFPSSYTLSIYKRHYELANAVIAGHVEHLRNIHAAVTPLLTKSRYNVGVIGALGKEKGADYLEQMAAVAFSTQTPIDFKLIGFAYRELNGIKCTGHYESDELAALIKTNDIDLFLFPSQCPETYSYTLSFAMESGLPIIAPDIGAFPERLSGRNSTLIYEYGMEPAVLLSKVQMFIKELAAGQSLPAPCVDNSACQDDFYNTDYLALCHCGFDGARDSQAVLQLPVRSAVSADMDSLLTYKELMLLALWTLYRKPGMHRVRDSVPYEVRQKIKRMLTKRPLYEVVGVHKK				NA	NA	NA	NA	NA
D1-35_00659	1017	wecA		Undecaprenyl-phosphate alpha-N-acetylglucosaminyl 1-phosphate transferase	ATGAACTGGTTCTGGTTTTTGCTGTTCAGTTTCACCAGCGCGTTTGTTTTGACGGCGCTGTTGCGGCGCTATGCATTATGCAAAAGTTTAATCGATATGCCCAACGACCGTAGCTCTCATTCTATACCTACGCCGCGGGGTGGGGGGGTCGCTGTCGTCGTGACGTTTCTGGTCGCGCTGTCGGTACTGTTGTTTAAGCAATTGATCCCCGTCGATTTATTTCTGTCTGCGATTGGAGCTGGAGCATTTGTTGCAGTAATAGGTTTCATGGATGATCATGGGCATATTGCTGCGCGATGGCGGTTACTGGGACATTTTGCAGCAGCGATATGGGCTCTTTGTTGGATCGGCGGTCTAGCTCCTATAAGTGTATTTGGCGAGCATGTCAACTTAGGTTGGCTGGGGTCGATATTGGCTGCATTCTTCCTTGTCTGGATGCTTAATCTGTTCAACTTCATGGACGGTATCGATGGCATTGCAAGCATCGAAGTGATTACTGCTTGCTTGGGTGCATGTGTGCTGTATGCATTGGGCGATGCGGATCACTTGGTTTGGCCTGCTCTTTTGCTGGCCTCTTCCACTGCCGGATTTCTGCTATGGAATTTTCCACAGGCCCGAATTTTCATGGGGGATGCTGGCAGCGGGTTCCTGGGTATTATCCTTGGTATCGTCACGCTTCATGCAGCCTGGACATCATTTATGTTTTTCTGGGGCTGGTTGATTCTTTTAGGGGTATTTATCGTCGATGCATCCCTCACTTTATTTCGGCGTTTGATTCGCGGCGAGAAGGTCTATGAGGCGCACCGCAGTCATGCCTATCAAGTTGCATCGCGTAGATACCGCAGGCACTGGCCTGTGACCGTTGTGGTCGGAGGAATCAACTTGCTGTGGCTGTTACCCATCGCGGTGTGCGTCACATGGTACGGGTTGGATGGGGTTATAGGTTTGTCCCTGGCCTATTTACCCTTGGTACTGCTTGCGATCAAATACGAAGCGGGGCAGGCTGAAGCCGGATGA	MNWFWFLLFSFTSAFVLTALLRRYALCKSLIDMPNDRSSHSIPTPRGGGVAVVVTFLVALSVLLFKQLIPVDLFLSAIGAGAFVAVIGFMDDHGHIAARWRLLGHFAAAIWALCWIGGLAPISVFGEHVNLGWLGSILAAFFLVWMLNLFNFMDGIDGIASIEVITACLGACVLYALGDADHLVWPALLLASSTAGFLLWNFPQARIFMGDAGSGFLGIILGIVTLHAAWTSFMFFWGWLILLGVFIVDASLTLFRRLIRGEKVYEAHRSHAYQVASRRYRRHWPVTVVVGGINLLWLLPIAVCVTWYGLDGVIGLSLAYLPLVLLAIKYEAGQAEAG	PGPT0023190_118	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023190-wbpL-K13007	NA	NA
D1-35_00660	987			hypothetical protein	ATGAATACGCGCCCTTCTCACACCGAATTGAATCTGCACACAGCAGCCGGTATCGACTTGACAACTCATCACAGCAAAGTTGGTATTCTACTTTGCACCTATAATGGCGCTGCTTATATCCAGGAACAATTGCGCTCATTTGCAACCCAGACCCATAAGGATTGGGTAATCTACGCATCCGATGACGGTTCAAGCGACGACACCATAAAGCATCTCAAGAATTTCCAGCTCCAGAATGGAGAAGACCGCTTAATCATTCTAAATGGCCCGCATCAGGGCTTTGCAAAAAATTTCCTGTCTTTAATAAAAAACCGATCCATTGAAGCGGACTACTTCGCATTCAGTGACCAGGACGATGTCTGGTTTCCCGACAAATTAGAACGAAGTATCGCCCAGCTCGAGCCCCTGCAAGACACGCCGGCGCTTTACTGCTCCAGAACCCGTCTTGTTTCTGCCGACGGGCAGTTCATCGGGCTTTCGCCGCGCTTTTCAGCGCCTCCTCACTTTCGCAACGCATTGGTTCAAAGTATAGCCGGGGCCAACACAATGCTGATAAATCGTCAGGCCCGAGCGTTATTGGCGAAAACGCCCGACGAGTCAATAATTGTCGCCCACGATTGGTTGACGTATCTCTTGGTCAGCGGGTGTGGGGGCAAAGTTTTTTTCGATCAGACGCCCACCCTCGATTACCGGCAACATGACGGCAACCTGATCGGAGCAAACTCAGGCCTCAGGGCGCGACTGACTCGCTTGGTCAAGATGTGTACGGGACGGTTCAAAGAGTGGAGCGACCAGAACCTCAATGTATTGGCCGAATTCAAGCCGACATTGACAACGGAAAACCGACGCGCACTTGAACAATTCGAACAAGCGCGCCAAAGCGCCCTATTCCCTAGATTACGCCTGATGAAGGAAGCCGGAATATACCGACAGACGAGCAAAGGGAATGTCAGCCTCTTTCTCGCCGCGTGCCTTAATAAAATCTGA	MNTRPSHTELNLHTAAGIDLTTHHSKVGILLCTYNGAAYIQEQLRSFATQTHKDWVIYASDDGSSDDTIKHLKNFQLQNGEDRLIILNGPHQGFAKNFLSLIKNRSIEADYFAFSDQDDVWFPDKLERSIAQLEPLQDTPALYCSRTRLVSADGQFIGLSPRFSAPPHFRNALVQSIAGANTMLINRQARALLAKTPDESIIVAHDWLTYLLVSGCGGKVFFDQTPTLDYRQHDGNLIGANSGLRARLTRLVKMCTGRFKEWSDQNLNVLAEFKPTLTTENRRALEQFEQARQSALFPRLRLMKEAGIYRQTSKGNVSLFLAACLNKI	PGPT0023115_78	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023115-rgpB-K12997	NA	NA
D1-35_00661	2010	pglF	COG1086	UDP-N-acetyl-alpha-D-glucosamine C6 dehydratase	GTGTTCGATGACGTTATGAAGGGGCTGAGGACGTTCCTCTTAGGCTTGCCGCGTCGGAAAAAACGCCTCATTCAAGTCGTTACAGATGTAGCCCTTGTGTGGTTGGCCCTCTGGCTGGCCTTCATCGTCCGCCTCGGCATAGATGACATGTATGATCCTTTGAAGGCTCATGTCTGGCTGTTCGCCTCCGCTCCTCTCATCGCCATTCCGTTATTCATCCGTTTCGGTATGTATCGAGCGGTCATGCGCTATTTTGGCAACGACGCTCTTGTAGCCATTATCAAGGCGGTCAGCCTTTCGTCGCTTGTTCTGGCGGTCGTTGTCTATTGGTACAGTAACCACCAAACGGTGATCCCACGATCGATCATCTTTAACTATTGGTGGCTGAGCCTTGTCATTATCGGCGGATTGCGGCTGTGTATGCGCCAGTATTTCATGGGGGATTGGTTTACGGCTGCCCAGCATGTGCCGTTTACCACTCGTGACGATGGCCTGACCAAGGTCGCCGTGTATGGGGCGGGCGTGGCTGGCAATCAGTTGGTTGCGGCGTTGCGCATGGGAAAGGTCATGCGTCCGGTCGCTTTTATTGATGACGACCCCGGCATTGCCGATCGTTCCATCTCGGGTCTTCAGGTTTACAAGCCCAAGCACATCCAGCAAATGATTGATGTAACGGGTGCGCAGGAAATTCTCCTTGCGTTGCCGTCGTCCACCCGTGCACGGCGCAGGGAGATCCTCAATCTGTTGGAGGGTTATCCGCTTCACATACGAAGCGTGCCGAACTTTACTGATCTGGCCAGTGGCCGGGTAAAAGTGGACGATATCCAGGAAGTCGACATCGCCGACCTGCTCGGTCGGGATGCCGTACCGGCTCGCCCTGACTTGCTCAGGCGTTGCGTCAAGGGTAAGACAGTGATGGTGACAGGCGCTGGGGGCTCAATCGGTTCGGAGCTGTGCCGGCAGATATTTTCCTTGGGGCCGACCACGCTTCTACTGTTCGATCACAGTGAGTTCAATCTCTACAGCATTCTGTCCGAGCTGCAGCAGCGTACTGATCGCGAGTCTACTTCGATCAAGTTGTTACCGATCCTGGGTTCTATCCGTCATCCGGAAAAATTGCTGGATGTGATGAAAACCTGGAAGGTGGACACCGTTTACCACGCGGCGGCGTATAAGCATGTGCCGATGGTAGAGCACAACATTGCCGAGGGCGTGTTGAACAACGTTATAGGTACGTTGAACACGGCGCAGGCTGCACTGCAGTCGGGGGTTTCCAATTTTGTTCTGATTTCCACCGACAAGGCGGTGCGGCCGACGAATGTCATGGGTAGCACCAAGCGTTTGGCTGAGTTGACGCTTCAGGCCTTGAGTCGGGAGGTTGCGCCTGTGTTGTTTGGCGACAGGGCTAATGTATCGCGGGTAAACAAGACCCGTTTCACGATGGTTCGCTTTGGCAACGTATTGGGTTCCTCGGGTTCGGTGATTCCTTTGTTTCACAGCCAGATCAAGTGTGGGGGGCCGCTGACGGTCACCCACCCGAAAATCACCCGTTATTTCATGACGATCCCCGAAGCTGCGCAGTTAGTGATCCAGGCGGGGTCCATGGGGCAGGGTGGGGATGTCTTCGTGTTGGATATGGGTGAACCGGTAAAGATTGTCGAGCTTGCGGAGAAGATGATTCATCTTTCCGGCTTGAGCATCCGTTCGGAGCGCAATCCCCAGGGTGACATTTCCATCGAGTTCACCGGCCTGCGGCCTGGTGAGAAGCTGTACGAGGAGTTGCTGATCGGCGACAACGTTGCGGCTACCGAGCATCCGATGATCATGACCGCCAACGAGGATCATTTGCCTTGGGACGTACTCAAGCTCAAGTTGGGCGAGTTGCTCGTCGCGGTCGAGGGAGATGATTACACTCGAGTGCGACAGCTGCTGCGCGAGACTGTCCACGGCTATACACCCGACGGCGAGATCGTCGACTGGGTGTACCAGCAGCGCCGTCTCGAACCCTGA	MFDDVMKGLRTFLLGLPRRKKRLIQVVTDVALVWLALWLAFIVRLGIDDMYDPLKAHVWLFASAPLIAIPLFIRFGMYRAVMRYFGNDALVAIIKAVSLSSLVLAVVVYWYSNHQTVIPRSIIFNYWWLSLVIIGGLRLCMRQYFMGDWFTAAQHVPFTTRDDGLTKVAVYGAGVAGNQLVAALRMGKVMRPVAFIDDDPGIADRSISGLQVYKPKHIQQMIDVTGAQEILLALPSSTRARRREILNLLEGYPLHIRSVPNFTDLASGRVKVDDIQEVDIADLLGRDAVPARPDLLRRCVKGKTVMVTGAGGSIGSELCRQIFSLGPTTLLLFDHSEFNLYSILSELQQRTDRESTSIKLLPILGSIRHPEKLLDVMKTWKVDTVYHAAAYKHVPMVEHNIAEGVLNNVIGTLNTAQAALQSGVSNFVLISTDKAVRPTNVMGSTKRLAELTLQALSREVAPVLFGDRANVSRVNKTRFTMVRFGNVLGSSGSVIPLFHSQIKCGGPLTVTHPKITRYFMTIPEAAQLVIQAGSMGQGGDVFVLDMGEPVKIVELAEKMIHLSGLSIRSERNPQGDISIEFTGLRPGEKLYEELLIGDNVAATEHPMIMTANEDHLPWDVLKLKLGELLVAVEGDDYTRVRQLLRETVHGYTPDGEIVDWVYQQRRLEP	PGPT0022960_46	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
D1-35_00662	336			hypothetical protein	ATGCGTACAAGCTACCTCTACTCGGTGATCTTTGCCTTGCTTACCAGCGCCTCGATCGTTGCTATCGCGGCCCCAGCGGCCAAGCCGGTGTCAATGGCTGCGCAACAAGCGGTGGAGCAACCGGTCACCACGCAAAGCGCCAAGGTCGATATCAATGGGGCAGATGCTGCGACATTGCAGCGCGAGCTGTCCGGCATAGGCAAGGGTAAGGCGGAGGCGATTGTTGCATATAGGGATAGTAATGGACCTTTCTCTTCAGTGGAGGAGCTGCTGGAGGTCAAAGGGATCGGAAAGGCGATCCTCGACAGAAACCGCGACAAACTGGAAGTGAATTGA	MRTSYLYSVIFALLTSASIVAIAAPAAKPVSMAAQQAVEQPVTTQSAKVDINGADAATLQRELSGIGKGKAEAIVAYRDSNGPFSSVEELLEVKGIGKAILDRNRDKLEVN	PGPT0029410_3021	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
D1-35_00663	654			hypothetical protein	ATGACTAGCTCTCTCTCCCTGGCCGACCAGATCACCCTCGAACTGCGAGCCGATATTATCGGCGGTCGCCTGGTTCCAGGCATGGCGCTGATAGAAAACAACCTGGCATCCGCCTATAACGCATCACGCAATACCATCCGTGAAGCCTTGCATCGTCTCGGCCAGGAAGGGTTGACCCGTTACGTGCGTAACAAAGGGGTGATGGTCCGTAGGTTGGATGCCGATGACGTGCGGGATCTGTTCAAGGTCCGTCGTACCTTGGAGCTACAGGCCATCATGGCCAGCAAGCCCTTGAGCGACTATCAGTCCGACCGGATGCTCGAAACCCTTGAAGCGGCTGAGCTGGCTCGTGAGCGCGAGGACTGGCGCGCCGTCGGGACCCACGGCTTGGCGTTCCACCAGCACATCGTTGGGCTGATGCGCAGTCCTTTGCTTGATGAGTTTTTCACTAACGTGGTTGCCCAGATGCGCCTGGTGTTCTGTTCCGCTCCCGATGAGGCGCGCTTCCAGGCGCCTTGGCTCGCCCGAGATCGACAAATCCATGACTGGTTGGCTGAAGGCAACAAGCTCGCAGCCCTGGAGGGGATGAACCTTTATCTCGACGATTCCGAACAGTTGCTTCTGCACCTGTTGGTTTGCGCCACACCTCAATGA	MTSSLSLADQITLELRADIIGGRLVPGMALIENNLASAYNASRNTIREALHRLGQEGLTRYVRNKGVMVRRLDADDVRDLFKVRRTLELQAIMASKPLSDYQSDRMLETLEAAELAREREDWRAVGTHGLAFHQHIVGLMRSPLLDEFFTNVVAQMRLVFCSAPDEARFQAPWLARDRQIHDWLAEGNKLAALEGMNLYLDDSEQLLLHLLVCATPQ				NA	NA	NA	NA	NA
D1-35_00664	852			hypothetical protein	ATGTACAAAGACTACCCCGCTGCTTACCAGGTCAGCAAAGGCTCAGCCTTGCAAGTAGACCAACCCTTCTACGAGCGCATCCGCGCCGAGCAGGGCAAGCGCACGCTCATCGAGCAGTTCGAGGTGCCGATCCGCACCGGTCGCGCTTGGCATGTGCCAGCGGGGCATGTGTTTCGCGTCACCACACCGGTGGGGCCGCAGGTGGGAGACTTCAACGTCTGGAATGCCCATGATCCGCGAGAGCGCCTGTGGGCTGCGCGTACTCGGCAACTCCAGGGCGCGCATGTCAGCACCCACGATCGGTTGTGGTCGAATTTGCCGTTTCTACGTCCACTGGTGACGATCACTGATGACAGCCTGGCCGGCTACGGCATCGACGAGCATGGCGGGCGTCTACATGATCTGTTGGGGACGCGTTGTGATCCTTACGTGAACAAGATGCTGACCGGTGAGGATTTCCATCATCATTGCCACTCGAATCTGACCCGGGCGGTATTGCCTCATGGTTTGACCGAGTTCGATGTGCACGATGTGTTGAATATTTTCCAATGCACCGGGCTGAATCATGACGACATGTATTTCATGAAGGCGTGTCCGGCGCAGAAGGGTGATTACTTGGAATTCTTCGCAGAGATTGATTTGTTGTGCGCGTTATCGACCTGTCCTGGGGGGGATCTGTCGTTGGCCATGTGGGGGCCGGATGCCGAGGATCCTTTAAGCGTCTGTCGTCCGCTGGGGGTGGAGGTTTACCGGTTGGAGGATTCGTTGTTGCAGGGCTGGAGTCAACCGGAGCGGGCGGCTTACAAGGGGCTGCATGGGTTGCATATTGCCAAGGCGGATTGGGAGAAGTAA	MYKDYPAAYQVSKGSALQVDQPFYERIRAEQGKRTLIEQFEVPIRTGRAWHVPAGHVFRVTTPVGPQVGDFNVWNAHDPRERLWAARTRQLQGAHVSTHDRLWSNLPFLRPLVTITDDSLAGYGIDEHGGRLHDLLGTRCDPYVNKMLTGEDFHHHCHSNLTRAVLPHGLTEFDVHDVLNIFQCTGLNHDDMYFMKACPAQKGDYLEFFAEIDLLCALSTCPGGDLSLAMWGPDAEDPLSVCRPLGVEVYRLEDSLLQGWSQPERAAYKGLHGLHIAKADWEK	PGPT0001000_182	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0001000-ycgI-K09967	NA	NA
D1-35_00665	168			hypothetical protein	ATGCCCTGGTATGCCTGGTTGATCCTGATCGTCGCCATCGGCTCGATCGTTGGCGGCCTGATGATGCTGCGTGACACCGCCAACAAGGTGGAACTGACGGATGAGCAACGCAAACGTGTTGCCGAGCGCAATGCGGAAATGGATGCGAAAGAGGCCAAGGACCGCTGA	MPWYAWLILIVAIGSIVGGLMMLRDTANKVELTDEQRKRVAERNAEMDAKEAKDR				NA	NA	NA	NA	NA
D1-35_00666	1365	yhdG_1	COG0531	putative amino acid permease YhdG	ATGAACACACAACTCAAACCCACCCTGGGCACCCTGCACTTATGGGGCATCGCCGTTGGCCTGGTGATTTCCGGTGAGTATTTCGGCTGGAGTTACGGCTGGGGAGTCGCCGGAACGCTGGGCTTTCTGGTGACGTCGTTCATGGTCGCGGCCATGTACACCTGCTTCATCTTCAGCTTTACCGAACTGACCACCGCCATTCCCCACGCTGGCGGACCGTTCGCTTACAGCCGTCGAGCCTTTGGCGAAAAAGGCGGCTTGATCGCCGGCCTGGCAACCCTGATCGAATTTGTCTTCGCACCACCGGCCATTGCCTTGGCCATCGGCGCCTACCTGAATGTGCAATTCCCGGCGCTCGACCCGAAACACGCTGCCGTCGGCGCCTACATCGTGTTCATGGGCCTGAACATCCTCGGGGTGAAACTGGCCGCGACCTTCGAGCTGATCGTCTGCGTGCTTGCCGTCGCCGAGTTGCTGGTCTTCATGGGCGTGGTCGCACCCGCGTTCAGTTTCAGCAGCTTTGCCCTGAACGGCTGGGCCGGTTCCGACGTGTTCGGTGCACCGGCCATTGCCGGAATGTTCGCCGCCATTCCCTTCGCGATCTGGTTCTTCCTCGCCATCGAAGGCGCGGCCATGGCCGCTGAAGAAGCCAAGGATCCGAAACGCACGATCCCCAAAGCCTACATCAGCGGCATCCTGACGTTGGTGTTCCTGGCCATGGGCGTGATGTTCTTCGCCGGTGGCGTCGGTGACTGGCGCACCCTGTCAAACATCAACGATCCCCTGCCGCAAGCCATGAAAACCGTCGTCGGTGAAAGCTCCGGCTGGTTGCACATGCTGGTGTGGATCGGCCTGTTCGGCCTGGTAGCCAGTTTCCACGGGATCATCCTTGGCTACTCACGCCAGTTCTTCGCCCTGGCCCGCGCCGGTTACCTTCCCGCGTCCCTCGCCAAACTGTCACGCTTCCAGACCCCACACCGGGCCATCATCGCCGGCGGCCTGATCGGCATCGCGGCGATCTACAGCGACGGCCTGATCAACCTCGGCGGCATGACCTTGACCGCGGCCATGATTACCATGGCCGTGTTCGGCGCAATCGTCATGTACATCATGAGCATGCTCAGCCTGTTCAAACTGCGCAAAACCGAACCGAATCTCGAACGTACGTTCCGCGCCCCCGGCTATCCGATCGTACCGGGGATCGCCCTGGCGCTGGCGGTGGTGTGCCTGGTGGCGATGGCCTGGTTCAACACGCTGATCGGGCTGATCTTCCTCGGCTTCATGGCAGTCGGCTTCGTCTATTTCTTCCTCACGGCACAACTGCGCGCAGACGCGCCGGCCGATGCGATGTTGACCGGGCTATAA	MNTQLKPTLGTLHLWGIAVGLVISGEYFGWSYGWGVAGTLGFLVTSFMVAAMYTCFIFSFTELTTAIPHAGGPFAYSRRAFGEKGGLIAGLATLIEFVFAPPAIALAIGAYLNVQFPALDPKHAAVGAYIVFMGLNILGVKLAATFELIVCVLAVAELLVFMGVVAPAFSFSSFALNGWAGSDVFGAPAIAGMFAAIPFAIWFFLAIEGAAMAAEEAKDPKRTIPKAYISGILTLVFLAMGVMFFAGGVGDWRTLSNINDPLPQAMKTVVGESSGWLHMLVWIGLFGLVASFHGIILGYSRQFFALARAGYLPASLAKLSRFQTPHRAIIAGGLIGIAAIYSDGLINLGGMTLTAAMITMAVFGAIVMYIMSMLSLFKLRKTEPNLERTFRAPGYPIVPGIALALAVVCLVAMAWFNTLIGLIFLGFMAVGFVYFFLTAQLRADAPADAMLTGL				NA	NA	NA	NA	NA
D1-35_00667	90			hypothetical protein	ATGAGTGTTCTGGACGGGGTGTCATTGCTGCTGGCAGTGGCGCTGTTCATTTATCTGCTGGTTGCGCTGTTGCGCGCGGATCGGAACTAG	MSVLDGVSLLLAVALFIYLLVALLRADRN	PGPT0002765_59	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002765-kdpF-K01545	NA	NA
D1-35_00668	1695	kdpA	COG2060	Potassium-transporting ATPase potassium-binding subunit	ATGCACGGTTATGACTTCGGGCTGATCCTCGGCTTTTTTGCTCTGGTGCTGATTCCGGCACCGTTTCTGGGACGGTTTTACTACCGGGTGATGGAGGGCCAGCGTACCTGGCTGTCGCCGATTCTTGGGCCGGTGGAGCGCGGTTGCTACAAGGTGGCCGGCATTGATCCGACTGCCGAGCAGAGTTGGCAGAAGTACACCCTGGCCTTGCTCGCATTCAATCTGGCGGGATTTGTGCTGTTGTTTGCGATCCTGTTGTTGCAGGGTCATTTGCCACTTAACCCGGAAAACCTGCCAGGCATGGAATGGACCCAGGCCTTCAATACGGCGGTCAGCTTCGTGACCAACACCAACTGGCAGTCCTACAGCGGGGAGGCGTCCCTCAGCTATTTGAGCCAGATGGTCGGTCTGACGGTGCAGAACTTCGTCAGCGCCGCCACCGGCTTGGCCGTGCTGGTGGCGCTGTGTCGTGGGATCGGGCGCAAGTCCGCGACGACGTTGGGCAATTTCTGGGTCGACATGACCCGTGCCACCCTCTATGGACTGTTGCCGCTGTGCCTGCTGCTGGCGCTGTTTCTGGTGTGGCAGGGCGTGCCGCAAACCTTCGCGCAGTATGTGCACGGGGTGACGATGCAGGGCGTCGACCAGGTGATTCCATTGGGCCCGGCCGCCAGCCAGATTGCAATCAAGCAACTGGGCACCAACGGCGGTGGTTTTTTCGGTGTCAACTCGGCGCACCCGTTCGAGAACCCGACGGCCTGGAGCAATCTGTTTGAAGTCGCGTCGATCATCCTGATCCCGGCGGCGCTGGTGTTCACGTTCGGCCATTACGTCAAGGACCTGCGCCAGAGTCGGGCAATCATCGCCTGCATGCTGGCGCTGTTCCTGATCGGCGGCGCGACGTCGCTGTGGGCGGAATTCCAACCCAACCCGGCCCTTGATAACGCGGCCGTTGAACAGGCCGCGCCGCTGGAAGGCAAGGAGTCACGTTTCGGCACCACGGCCACGGTGCTCTGGTCGGTGACCACCACGGCAGCCTCGAACGGCTCGGTCAACGCGATGCACGACAGCCTCAACCCGCTGAGCGGCATGATCGCGCTGGTGAACATGATGCTGGGCGAAGTAATTTTCGGCGGTGTTGGCGCCGGGCTCTACGGGATGCTGCTCAACGTGTTGATCGCGGTGTTCCTGGCCGGGTTGATGATCGGTCGTACGCCGGAATACCTGGGCAAGAAACTCGGCGCCCGGGAAGTGCAGTTGCTGGTGGTGACGCTGCTGGTGATGCCGGTGAGTGTGCTGGTGCTCGGCGCGATTGCCGCAGGCCTGCCCGGGCCCGCCGCGGCGGTGAGCAATCCTGGCGCTCATGGCTTCAGTCAGTTGCTCTACGCCTACACCTCGGCGGGGGCGAACAACGGTTCTGCGTTTGCCGGTTTCGGCGCGAACACGCCGTTCCATAACCTGATGCTGGGCCTGGGCATGTTGATTGGCCGTTTCGGCTACATCCTGCCGGTGCTGGCGTTGGCCGGCAGCCTGGCCCTGAAGAAAACCGCACCGATCGGCCAGAACAGCTTCCCGACCCACGGCCCGCTGTTCGTGACCCTGCTGACCGTGACCATCCTCCTGGTGGGTGGCCTGACGTTCTTGCCGACCCTGGCCCTGGGGCCGATCGCCGAACACCTGAGCATGGGTTTCTGA	MHGYDFGLILGFFALVLIPAPFLGRFYYRVMEGQRTWLSPILGPVERGCYKVAGIDPTAEQSWQKYTLALLAFNLAGFVLLFAILLLQGHLPLNPENLPGMEWTQAFNTAVSFVTNTNWQSYSGEASLSYLSQMVGLTVQNFVSAATGLAVLVALCRGIGRKSATTLGNFWVDMTRATLYGLLPLCLLLALFLVWQGVPQTFAQYVHGVTMQGVDQVIPLGPAASQIAIKQLGTNGGGFFGVNSAHPFENPTAWSNLFEVASIILIPAALVFTFGHYVKDLRQSRAIIACMLALFLIGGATSLWAEFQPNPALDNAAVEQAAPLEGKESRFGTTATVLWSVTTTAASNGSVNAMHDSLNPLSGMIALVNMMLGEVIFGGVGAGLYGMLLNVLIAVFLAGLMIGRTPEYLGKKLGAREVQLLVVTLLVMPVSVLVLGAIAAGLPGPAAAVSNPGAHGFSQLLYAYTSAGANNGSAFAGFGANTPFHNLMLGLGMLIGRFGYILPVLALAGSLALKKTAPIGQNSFPTHGPLFVTLLTVTILLVGGLTFLPTLALGPIAEHLSMGF	PGPT0002740_1196	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002740-kdpA-K01546	NA	NA
D1-35_00669	2055	kdpB	COG2216	Potassium-transporting ATPase ATP-binding subunit	ATGAATATGCCAATGAGCAAAACCGTCGTCGCCAAGGCGCCGGAACAACCGCAAACCCAGCTGTCGGCGCTGTGGCGGCCGGCGCTGGTGCAAGCCTTCGTCAAGCTCGATCCGCGCCAGTTGCACCGCGCCCCGGTAATGCTGGTGGTGGAGCTGACCGCAATCCTCACCACCGTGCTCTGCCTGGTTCCCGACGACGCCGTGCCGACTTTCGTCGCTGCCCAGATCGCCCTGTGGCTGTGGTTCACCGTGTTGTTTGCCAACTTCGCCGAAGCCTTGGCCGAAGGTCGTGGCAAGGCCCGTGCCGACAGTCTCAAGGCTGGCAGCGAAGGCCTGAGTGCTCGCCGCCAGACGGCGGACGGCTTTGAAGTGATTCCCGCCACCCGTTTGCGCAAAGGTGACGTGGTGCGTGTCGCCGCAGGGGAAATGATCCCTGGCGACGGGGAAGTGATCGAGGGCATCGCGGCCGTCAACGAAGCGGCGATCACCGGGGAGTCGGCACCGGTCATTCGCGAATCCGGCGGGGACCGTTCGGCCGTCACCGGCAACACTCGGCTGGTCTCCGACTGGTTGCTGGTACGCATCACCAGCAATCCCGGCGAATCCACCCTGGACCGCATGATTGCCTTGGTCGAAGGCGCCAAGCGCCAGAAAACCCCGAACGAAGTGGCGCTGGACATCCTGCTGATCGGCCTGACGCTGATCTTCCTGCTGGTGGTGGTGACGCTGCAGCCGTTCGCCCATTTCGCCAATGGCAGCCTGCCGCTGGTGTTTCTGGTAGCACTGTTGGTGACCTTGATTCCCACCACCATCGGCGGGCTGCTGTCGGCGATCGGCATCGCCGGGATGGACCGTCTGGTGCGCCTGAACGTCATCGCCAAATCCGGCCGTGCGGTGGAGGCGGCGGGCGATGTCCACGTGCTGATGCTGGACAAGACCGGCACCATCACCTTTGGCAACCGTCGCTGTGCGGCGATCTATGCCGCTCCTGGGGTGAGCGCCAGGGAACTGGCTGAAGGCGCGTTGTTCGCCTCGTTGGCCGATGATACGGCCGAGGGCAAATCCATCGTCGAGTATCTGCGCGGCTTGCATCCCCAACCCGAGCCTGCTTTGGACGCGCTGACGGCGGTGCCATTCAGCGCCGAGACGCGGTTGTCCGGCGTGGATCATCAGGGGCGCGTCTATCGCAAGGGCGCGGTGGATTCCTTGCTGAGTTTCATCGGCCTGCCACGCAACGAGCTGCCGCCGGTACTGGCGCGGGAAATCGACAAGATCGCCCAAAGCGGCGGCACGCCGTTGCTGGTCTGCGTGGACGGCAGATTGCTCGGTGCCATTCACCTCAAGGATGTGGTCAAGCCCGGCATCCGCGAGCGCTTTGCCGAGCTGCGCAAGCTGGGCATCCGCACCGTCATGGTCACCGGTGACAACCCGCTGACCGCTGCCGCGATTGCCGCCGAGGCGGGCGTCGATGATGTGCTGGCGGAGGCCACGCCGGAGAAAAAACTGGCGCGCATCCGTCACGAACAGAACGACGGCCGGCTGGTCGCCATGTGCGGCGACGGCGCCAACGACGCCCCGGCCCTGGCCCAGGCCGATGTCGGCATGGCGATGAACGACGGCACCCAGGCGGCGCGGGAGGCGGCCAACATGGTCGATCTCGACAGCGACCCGACCAAGTTGCTGGACGTGGTCCAGATCGGCAAGGAATTGCTGGTAACCCGCGGGGCCCTGACGACCTTTTCCATCGCCAATGACATCGCCAAGTACTTTGCGATTTTGCCGGCGCTGTTCGCCTCGATTTATCCACAGCTCGGCGTGTTGAACGTCATGCACCTGAACAGCCCACAGAGCGCGATCCTCTCGGCCATCGTCTTCAATGCCCTGATCATCGTCGTGCTGATTCCCTTGGCCTTGCGTGGCGTGCGAGTGCAGGCGGCAAGTGCGGCGGCGTTGCTGCGACGCAATCTGCTGATCTACGGCCTCGGCGGGATCGCGGTGCCGTTCGTGGGGATCAAGGCGATTGATCTGTTGCTGACGGGGTTGGGGTTGGTTTGA	MNMPMSKTVVAKAPEQPQTQLSALWRPALVQAFVKLDPRQLHRAPVMLVVELTAILTTVLCLVPDDAVPTFVAAQIALWLWFTVLFANFAEALAEGRGKARADSLKAGSEGLSARRQTADGFEVIPATRLRKGDVVRVAAGEMIPGDGEVIEGIAAVNEAAITGESAPVIRESGGDRSAVTGNTRLVSDWLLVRITSNPGESTLDRMIALVEGAKRQKTPNEVALDILLIGLTLIFLLVVVTLQPFAHFANGSLPLVFLVALLVTLIPTTIGGLLSAIGIAGMDRLVRLNVIAKSGRAVEAAGDVHVLMLDKTGTITFGNRRCAAIYAAPGVSARELAEGALFASLADDTAEGKSIVEYLRGLHPQPEPALDALTAVPFSAETRLSGVDHQGRVYRKGAVDSLLSFIGLPRNELPPVLAREIDKIAQSGGTPLLVCVDGRLLGAIHLKDVVKPGIRERFAELRKLGIRTVMVTGDNPLTAAAIAAEAGVDDVLAEATPEKKLARIRHEQNDGRLVAMCGDGANDAPALAQADVGMAMNDGTQAAREAANMVDLDSDPTKLLDVVQIGKELLVTRGALTTFSIANDIAKYFAILPALFASIYPQLGVLNVMHLNSPQSAILSAIVFNALIIVVLIPLALRGVRVQAASAAALLRRNLLIYGLGGIAVPFVGIKAIDLLLTGLGLV	PGPT0002745_1469	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002745-kdpB-K01547	NA	NA
D1-35_00670	546	kdpC	COG2156	Potassium-transporting ATPase KdpC subunit	ATGTTCACCATGATTCGCCCGGCCCTGAGCCTGTTATTGCTGATGACCCTGATCACCGGCGTCGCCTACCCATTGTTCGTCACCGGCGTGGCACAAATCGCTTTTCCGGAGCAGGCCAACGGCAGTCTGATCCACGATGCCGACGGCAAGGTCCGCGGTTCCCGATTGATCGCCCAGGACTTCACCGGCGATGCCTGGTTTCATCCGCGCCCTTCGGCCGGCGCCTTCGCCACGGTCGCCAGCGGCGCGAGCAACTTTTCCCCGAGCAACCCGGCGCTGGCCGCCCGGGTCATCGATGACGCCGGCAAGCTGCAAGTGCCCGGCCAGGGACCGGTGCCCCTGGCGCTGCTGAGCACTTCCGGCAGCGGCCTGGATCCGCACTTGCCTCCGGCCGCGATTGCCTATCAACTGGCGCGTGTCGCCGCGGCGCGCAACTTGCCGGTGTCGACGTTGCAGCAGTTGCTTGACAGCCATATCGAGCGGTCCCTGGTGGGCCCGCCCGTGGTGAATGTGCTGGCGCTGAACCTGGCCCTGGAAAACCTGTAA	MFTMIRPALSLLLLMTLITGVAYPLFVTGVAQIAFPEQANGSLIHDADGKVRGSRLIAQDFTGDAWFHPRPSAGAFATVASGASNFSPSNPALAARVIDDAGKLQVPGQGPVPLALLSTSGSGLDPHLPPAAIAYQLARVAAARNLPVSTLQQLLDSHIERSLVGPPVVNVLALNLALENL	PGPT0002750_2140	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002750-kdpC-K01548	NA	NA
D1-35_00671	2652	kdpD	COG2205	Sensor protein KdpD	ATGAGCGACTCCGGCCGCGCCGATGCACTATTAGCCAACCTGCCACGCAACGACCGTGGCCGCCTCAAGGTTTTCCTCGGCGCCGCCCCAGGCGTGGGCAAGACCTACGCCATGCTGCAAGCGGCCCATACCCGGTTGCGCCAAGGAACAAACGTCATCGCCGCGGTCGTCGAGACCCACGGGCGCGCCGAGACCGAAGCCTTGTTGAATGGCCTGGCGCAACAGCCGATGGTGCGTTCGGAATACCGCGGCGTGATGCTCGAGGAGATGGATCTCGACGGCCTGCTTGCCGCTCGCCCGAGCCTGGCGCTGGTGGACGAGCTGGCCCACAGCAACGCCCCCGGCAGCCGCCATGCCAAGCGCTGGCAAGACATCCAGGAACTGCTCGCCGCCGGTATCGACGTCTTCACCACGGTCAACGTCCAGCATCTGGAAAGCCTCAACGATCAGGTTCGTGGCATCACCGGAGTGCAGGTGCGCGAGACTTTGCCGGACTGGGTCTTGCAGGAAGCCGATGAGCTGCTGCTGATCGACCTGCCACCGCGCGAACTGCTGGAGCGTCTGCGCGACGGCAAGGTCTATGTGCCGGAACAGGCCCGCGCGGCGATCGATGCGTTTTTCACCCAGACCAATCTCACCGCCCTGCGTGAGCTGGCCATGCAGACCGCTGCCGCGCAAGTGGACAACGACCTGGCCCAGGGTTATCGGCAACTGGGCCAGTCGGCTCCAGCGGTCCAGGGCCGGTTGCTGGTGGGCGTGGACGCTGATCACCAGGCCGAACGGCTGGTGCGCCACGCCAGCCGGGTCGCCCAGCGCCGGCATCTGCCCTGGAGCGTGGTGCATGTAGACAACGGCACGGCACGGGACGAGTCCTCGCGCCAGCGTCTGCAGAGCGCCCAGCAACTGGCGGAACGCCTTGGCGGGGAGGTGGTGCTGCTGCGGGCGGGAGAGGTCGCCAGGACGCTCATCCAGCACGCGATGCAACGGCGTGCCACGTTGGTGTTGGTCGGCCAGTCCCGCCGGCGTTTGCGCAGGCGCCTGTTCGGCGGCGGCCTGGCTTCGCGATTGCTGCGCGATGCCCGTGGGCTGGAGATCAACGTGCTGGACGGCGATGAAACACCGCCGCCGCCCCGCCTGCGTCCGGGCACCGTCCAGACCGGGTTCGACTATGCGCTGGCGGTGGTGGCTACGCTGGCCGCCAGTGCCCTGGCCTGGGGGATTTCCGGGTTGCTTGCGTTGCCCAATATCTCCCTGGTATTCCTGATGGCGGTGTTGCTGGTGGCGGTGCGCAGCAGCCTCGGCCCGGCGCTGGCCTGTGCGGCGCTGTCGTTCCTGGCGTACGACTTTCTGTTCATCCCGCCGAATTTCTCCCTGACGATCCAGCGCGAAGAAGACGTACTGACGCTGGTGTTTTTCCTCTTGATGGCCGCCCTGACCGGCAATCTCGCGGCGCGCCAGCGTCGGCAATTGCAGGCGCTGCGCGACACCCAGCAGGAAACCGCTGAGCTGCTGGATCTGTCGCGCAAACTGACGGCCGCGACCGATCGCCAGGCCGTAATCAGCGCCGCCGTGCAACACCTCAACAGCGAGGGCGATCTGCAACTGTGCCTGCTCAAGCGCGACGCACAGCACGGCTGGCACGTCGAGACGGCAGAACCGTTGACCTTCACCGAGGCCGAGCGCGCTGCCGCCGACTGGTCCTGGCAGCACGATCAGCCGGCCGGCGCCGGCACCGCGACGCTGCCGTCCGGGCGCTGGTGGTGGTGGCCCTTGTCGTCCGAGGGTGGCCCGCTGGGCCTGTTGGGAGTCTGCCTGAAGGACGGCAAGCCGTTGAGCGGTCAGCGTCGCCGCTTGCTGGCGGCGCTCAGCCAGCCGCTGGCCCAGGCGCTGGCTCGGGCGCAGCTGGCGCAGGACCTGGAAGCGGCGCGGCTGCACGGCGAAACCGAGCAATTGCGCAGCGCCTTGCTGGCCTCCGTCTCCCATGATTTACGCACACCCTTGACTTCCATGCGCGGCAGCATCGACAGCCTGCTGGCGCTGGGCGAGGCGATCCCGCTGCAGGACCGTCGCGAATTGCTCGAAGGCACCCGCGACGAAGCCGAGCGCCTGGATCGTTATATCCAGAACCTGCTCGACATGACCCGCCTCGGCCACGGTGCGCTGAAGCTGGCGCGCGATTGGGTATCGCCGGCCGACATCGTTGCCAGTGCGTTGAACCGGTTGCGGGCGGTACTGGCGCCACTGGCGGTCAGCATCGAAGTGCCAACCGGCTTGCCGCTGTTGTATGTCCATGCGGCGCTGATCGAACAGGCGCTGGTCAACGTGCTGGAAAACGCCGCGCGGTTTTCGCCGGCCCATGGTCGGTTGCTGTTGAGCGCCGCAGCGACGACCGATGAAATATGCTTCGCCGTGGCCGATGAAGGGCCCGGAATTCCCGAGCCGGAGCGTGAGAAAATCTTCGACATGTTCTACACCGCTGCGCGCGGCGACCGTGGCGGGCAGGGCACCGGGCTGGGGCTGGCGATCTGTCAGGGCATGGTCGGCGCCCATGGCGGGCGGATCAGCGTCGACGAGGGGCTCGATGGGCGCGGCACCTGCATCACCTTGCACCTGCCCTTGCAGGCACAACCGGGCATGGACGATGAAGCCTGA	MSDSGRADALLANLPRNDRGRLKVFLGAAPGVGKTYAMLQAAHTRLRQGTNVIAAVVETHGRAETEALLNGLAQQPMVRSEYRGVMLEEMDLDGLLAARPSLALVDELAHSNAPGSRHAKRWQDIQELLAAGIDVFTTVNVQHLESLNDQVRGITGVQVRETLPDWVLQEADELLLIDLPPRELLERLRDGKVYVPEQARAAIDAFFTQTNLTALRELAMQTAAAQVDNDLAQGYRQLGQSAPAVQGRLLVGVDADHQAERLVRHASRVAQRRHLPWSVVHVDNGTARDESSRQRLQSAQQLAERLGGEVVLLRAGEVARTLIQHAMQRRATLVLVGQSRRRLRRRLFGGGLASRLLRDARGLEINVLDGDETPPPPRLRPGTVQTGFDYALAVVATLAASALAWGISGLLALPNISLVFLMAVLLVAVRSSLGPALACAALSFLAYDFLFIPPNFSLTIQREEDVLTLVFFLLMAALTGNLAARQRRQLQALRDTQQETAELLDLSRKLTAATDRQAVISAAVQHLNSEGDLQLCLLKRDAQHGWHVETAEPLTFTEAERAAADWSWQHDQPAGAGTATLPSGRWWWWPLSSEGGPLGLLGVCLKDGKPLSGQRRRLLAALSQPLAQALARAQLAQDLEAARLHGETEQLRSALLASVSHDLRTPLTSMRGSIDSLLALGEAIPLQDRRELLEGTRDEAERLDRYIQNLLDMTRLGHGALKLARDWVSPADIVASALNRLRAVLAPLAVSIEVPTGLPLLYVHAALIEQALVNVLENAARFSPAHGRLLLSAAATTDEICFAVADEGPGIPEPEREKIFDMFYTAARGDRGGQGTGLGLAICQGMVGAHGGRISVDEGLDGRGTCITLHLPLQAQPGMDDEA	PGPT0002755_1276	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULAR_POLYSACCHARIDE_REGULATION,PGPT0002755-kdpD-K07646	NA	NA
D1-35_00672	699	kdpE	COG0745	KDP operon transcriptional regulatory protein KdpE	ATGAGCCAGAACGCGACCCTTTTGGTCATCGATGACGAACCGCAGATCCGCAAGTTCCTGCGGATCAGCCTGACCTCGCAAGGCTACAAGGTGCTCGAAGCCGAGACCGGCGCAGCGGGCCTGGCCCAGGCGGCGTTGAACAAGCCTGATCTTCTGGTGCTCGACCTTGGCCTGCCGGACATGGACGGCCAGCAGGTACTGCGCGAGTTTCGCCAATGGTCTGCCGTGCCGGTGCTGGTCCTGTCAGTACGCGCCAGCGAAGCACAGAAGGTCGAGGCGCTGGACAACGGTGCGAATGACTACGTGACCAAGCCTTTCGGCATCCAGGAGTTCCTCGCCCGGGTGCGCGCGCTCCTGCGCCAGGCGCCAGCGGGCGAGGCACCGTCGGCGGCATTGACGTTCGGCCCGCTGACGGTCGACCTGGCTTACCGCCGGGTCCTGCTGGACGGCGCCGAAGTGGCCCTGACCCGCAAGGAATACGCGGTGCTGGCGCAACTGGCGCGGCATCCAGGGCGGGTCATCACCCAGCAACAATTGCTCAAGGACATCTGGGGCCCGACCCACGTCGAAGACAGCCATTACCTGCGCATCGTCATCGGTCACCTGCGGCAGAAACTCGCCGACGACCCGACTCGGCCGCGGTTCATCGTGACTGAGGCGGGCGTGGGGTATCGGTTGTTGGAGGAGGGTGGGTTTTAG	MSQNATLLVIDDEPQIRKFLRISLTSQGYKVLEAETGAAGLAQAALNKPDLLVLDLGLPDMDGQQVLREFRQWSAVPVLVLSVRASEAQKVEALDNGANDYVTKPFGIQEFLARVRALLRQAPAGEAPSAALTFGPLTVDLAYRRVLLDGAEVALTRKEYAVLAQLARHPGRVITQQQLLKDIWGPTHVEDSHYLRIVIGHLRQKLADDPTRPRFIVTEAGVGYRLLEEGGF	PGPT0002760_680	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULAR_POLYSACCHARIDE_REGULATION,PGPT0002760-kdpE-K07667	NA	NA
D1-35_00673	1038		COG1752	putative NTE family protein	ATGACAAAACGTGTCGCATTGGTATTGGGCTCGGGCGGCGCCCGGGGCTATGCCCATATCGGAGTGATCGAGGAAATCGAACGACGCGGCTATGACATCGCCTGTATCGCCGGTTGTTCCATGGGGGCGGTCGTAGGCGGGATCTACGCGGCGGGCAAACTCGAAGACTACCGCAACTGGATCGAAAGCCTCGACTACCTGGATGTGCTCCGGCTGGTGGATGTCAGCTTTCGCCTCGGGGCCATTCGCGGCGAAAAAGTCTTCGGGCAGATCCGCAAGATCGTCGGCGAGCTCAATATCGAAGACCTGCGCATTCCTTACACGGCGGTAGCCACCGACCTGACCAACCAGCAGGAAATCTGGTTCCAGGAAGGTTGCCTGCACCAGGCGATGCGCGCCTCGGCGGCGATTCCCAGCCTGTTCACCCCGGTGATGCAAGGCAACCGCATGCTGGTGGATGGCGGCTTGCTCAATCCGCTGCCGATCGTGCCGGTGGTGTCGAGCCATTGCGACCTGATCATCGCGGTCAACCTCAACGCCACCAACCAGAAACAATACCGGTTGCCTGTGATCCAGCGCCCCGCCGCGTTCCGGCGGCGCTTCGACACCTTGGTCAGTTCCCTCGGTTCACGGTTGCCGTTTCGCCGCAAACAAGCCGAGCAACTGTTGCTGTTGGAACAGGAAGCGCTGAAGGCCGAGGCGGCCGATATCAACCCATGGCTCGATTCGGCCGAGCCGGAAGGCCAGCAACCGGCCGCCGCGCCCGAAATCGAAGGCGCGCCGAAATCCGCCACCGGATCTTTCATCATCGATAACGTCGGACCGGCCTCGTTGCTCGATCTGATCAACCAGAGCTTCGAGGTGATGCAGACGTCGCTGGCCCAATACAAGATCGCCGGCTACCCGCCGGATGTGCTGATCAACGTGCCAAAACGGGTGTGCCGATTCTTCGAGTTCTACAAGGCACCGGAGCTGATCGCGCTGGGACGGGAGATAGCCAGCGATACGCTGGATCGGTATGAGAGCGAGCAGAGCTGA	MTKRVALVLGSGGARGYAHIGVIEEIERRGYDIACIAGCSMGAVVGGIYAAGKLEDYRNWIESLDYLDVLRLVDVSFRLGAIRGEKVFGQIRKIVGELNIEDLRIPYTAVATDLTNQQEIWFQEGCLHQAMRASAAIPSLFTPVMQGNRMLVDGGLLNPLPIVPVVSSHCDLIIAVNLNATNQKQYRLPVIQRPAAFRRRFDTLVSSLGSRLPFRRKQAEQLLLLEQEALKAEAADINPWLDSAEPEGQQPAAAPEIEGAPKSATGSFIIDNVGPASLLDLINQSFEVMQTSLAQYKIAGYPPDVLINVPKRVCRFFEFYKAPELIALGREIASDTLDRYESEQS				NA	NA	NA	NA	NA
D1-35_00674	291			hypothetical protein	ATGAAAGCCCGGATCTGCCTGCCCCTGGTGGCGTCCCTGATGGTTCTGGCCTTGGCCGGTTGTGCCGGCAAGACCGCTTACCGCGACAGTTGCGGCAGCCAGCTCGACAGCGCGTGGCGCGAACTTGACCTGGCCAAGGCCGAAGGCTTCGCTGGCACCGTCAGCTACTCCAAGGCTCTTTCATTGCTGACCGGGGCCAAGACCCAGCAGCAATTCGAAGCTTTCGAGGGCTGCGCCAAGAAAGCCGAGAAGGCGCGTTTCTACATTCGCGAATCCCGCGCGGGGCGATAA	MKARICLPLVASLMVLALAGCAGKTAYRDSCGSQLDSAWRELDLAKAEGFAGTVSYSKALSLLTGAKTQQQFEAFEGCAKKAEKARFYIRESRAGR				NA	NA	NA	NA	NA
D1-35_00675	762			hypothetical protein	ATGATTGATCGGCTGGTGGCCCGTATTCTGGGCCTGGAAGTCCGCCTGCTGGCCTGTCAGGCCCGCTTGAATGCCCATACCGACAGCGAAGCTTTGCACGACCTGCGGACCACCGTTCGCCGTTTGCGCAGCCTGCTTCGTCCGTTGCGCGGATTGCCCGGCGTCGAGCAGTTGGAAACAGCCGCTTCGGCAGTTGGCAGCCTGACCACACCCTTGCGCGACCGTGAGGTGCTGGCAGCTTATCTTCAGCAGCACGGCAAGACCGAGGCCGCGCAGCGACGCCAGCTGCAAATGGCCGAGGCCTATCCCGCCGTGGCCAGCAGTCCGGAGTTGGCGCATTTGCTGATGATCCTCGATGCGTTCCCACGCTTCATCCGCGCTGCCCAGCGCCAGGGTCTGCTTGCAGGGTTGCGCAAACGTGTCGAAAAGCGCCTCGACAAACAATGGAAAAAGCTCGGCGAGGCCTTGCGCGATCCGGCTCACGACCGCCACCGACTGCGCCTGCTGATCAAGCGCGTGCGTTATGCCATCGAAGCCTATCCCGAACTCGACCGCTTGCCGGAAGCGGCCATGCCCCGACTCAAGGCCGCCCAAGGCGCGTTGGGCGATTGGCATGATTGCTGGCAATGGCTGGCGCGTGCCGAGCAGGAAGCCGACTTGCGGGCCTGCGTACCGGTCTGGCGGATCACCATGGAAAAGGCCGAGGCCAAGTCCGACCGGGTACTCGAAAAGCTAATCGTCAGCTGCTTCGGGAAATCCTGA	MIDRLVARILGLEVRLLACQARLNAHTDSEALHDLRTTVRRLRSLLRPLRGLPGVEQLETAASAVGSLTTPLRDREVLAAYLQQHGKTEAAQRRQLQMAEAYPAVASSPELAHLLMILDAFPRFIRAAQRQGLLAGLRKRVEKRLDKQWKKLGEALRDPAHDRHRLRLLIKRVRYAIEAYPELDRLPEAAMPRLKAAQGALGDWHDCWQWLARAEQEADLRACVPVWRITMEKAEAKSDRVLEKLIVSCFGKS				NA	NA	NA	NA	NA
D1-35_00676	798	tesB_1	COG1946	Acyl-CoA thioesterase 2	ATGCGCTTTTCCGATTTGATCGATGCCGTGCGTCATCAGCCAGGCGCCGTCATCATTCCACCTGAGTGGGGTCAGGGCCGGGCCAGTTTTGGCGGCCTGGTGGCGGCGCTGCAATACGAGGCGATGCGTGCCCGGGTTCCGGCCGATCGCCCGGTGCGCTCGCTGGCGATCACCTTTGTCGGCCCGGTCGAACCGGATGTCCCGGTCAGTTTCGAGGTTGATATATTGCGTGAGGGCAAGGCTGTCAGCCAGGTGCTGGGGCGCGCTGTGCAGAAAGGCCAGGTGGTGACCGTGGTGCAAGGCAGCTTTGGCGCATCGCGAACCTCGGTGGTGGCGGTACAGGCTGATCCCGCGCCGCCGTTCAAGGACGTCGAGCAATGCCAGGAATTGCCCTACATCAAAGGCGGGACACCGGAATTCATGCGGCACCTGGCGATGCGCTGGAGCGTCGGCGGCCTGCCGTTTTCCGGTAACAAATCCCGAAGCATGGGTGGCTGGGTGCGCTTGCGCGGTGATGTGAAAGAGGAGGCGCTGGACGAAGGCCATATCCTGGCGTTGGTGGACGCCTGGCCGCCGGCGTTGTTGCCTCACCTGACGCAAATGGCACCGGGCAGCACGCTGACCTGGACCATCGAGTTCGTCCAACCATTGCTTGAGCTCACGACATTGGATTGGTGCCAGTACCTGGCCGAGATCGAGCACGCCCAGGATGGGTATGGCCATGTCGCGGCGAAGTTCTGGAGCGCCGATGGCCGCTTGATCGCCATGAGCCGGCAGACGGTGACGATTTTCGGCTGA	MRFSDLIDAVRHQPGAVIIPPEWGQGRASFGGLVAALQYEAMRARVPADRPVRSLAITFVGPVEPDVPVSFEVDILREGKAVSQVLGRAVQKGQVVTVVQGSFGASRTSVVAVQADPAPPFKDVEQCQELPYIKGGTPEFMRHLAMRWSVGGLPFSGNKSRSMGGWVRLRGDVKEEALDEGHILALVDAWPPALLPHLTQMAPGSTLTWTIEFVQPLLELTTLDWCQYLAEIEHAQDGYGHVAAKFWSADGRLIAMSRQTVTIFG				NA	NA	NA	NA	NA
D1-35_00677	363			hypothetical protein	ATGGGCAAACGTCACCCCAACCTTCCGGCCTGGCAATGGCGCGCCTATCCCGAGAATCACCGCCACCCGACCAACCTGGTGTTGCATCTGATCGCGGTGCCGCTGTTCATTGTCGCGTTTCTGTTGATCGTATCGGGCGTCTTCAGCCTGAGCCTGGGCGATGTCGCCATCGGCGTGATCGGTGTACTCGCCGCACTCGGATTGCAGCGCCACGGCCACGGTCTCGAGGCGCAGGCCTCAGAACCTTTCAGCGATCGCAAGGACGCCATGTCGCGCCTGCTGGTGGAACAGTTCCTGACCTTCCCACGCTTTTTCCTCAGCGGCGGATGGTGGCGGGCCTGGCGGGATCGCCACCGTCACTGA	MGKRHPNLPAWQWRAYPENHRHPTNLVLHLIAVPLFIVAFLLIVSGVFSLSLGDVAIGVIGVLAALGLQRHGHGLEAQASEPFSDRKDAMSRLLVEQFLTFPRFFLSGGWWRAWRDRHRH				NA	NA	NA	NA	NA
D1-35_00678	1218			hypothetical protein	ATGGGTGCCTGGCTTAGCAATATCTCGCTGAAGTATAAATTCTGGGCGGTCAATGCGGTCGCCTTTGTCACCACATTGCTGTTGGTGCTTTATGCCATGCACCTTGAACAGCAGGTCCGAGGGGTCAGCCTGGGCCAGGTGTTCGGCGAACGCTTCAGTCAGTATGCCGTGGCAGTATTCGTGCTGATGCTGGCGATGTTGGGAGCATCGCAGCTATTGATCCGCTTTCTCCTCAGTCAGCTCAACACGTTGAAAGACGTGATGCTGCATGTCGAAAAAAGCGGCGACCTCTCCGCCCGCGTGCCTTTGGCCTGCGAGGACGAAGTGGGCCAGATGGCCGCTGCGTTCAACGCCATGCAAGCTGGCTACCAGCGGGTGGTGGACACCGTTGCCAGCACTGCTCGGCAGCTGGATAGCGGTGCGACGCGCCTGGCTTCGAGCATGAACGATGTGCGCCAGGGTATGCTCGGCCAGCAGAGCGAAACGGATCAGGCCGCCACGGCCATCAATGAGATGACCGCCACGGTCTATCACATCGCCCAGCACGCCGGCGCCACCCGCGACCTGTCGAAAACCACGGATATCCTGGCGGGTAACGGACGGCAAGTGGTCAGTCGCGTGCAGCAATCGATCACCGGGCTGTCCACTGGCGTGCAGCAGACCGCCGAGATGATCCAGCGCCTGGCCGAAGACAGCCAGAAGATCAACGGTGTGGTCAATGTGATCCACAGCATCGCCGAGCAGACCAACCTGCTGGCACTCAACGCCGCCATCGAAGCGGCGCGAGCCGGCGAAATGGGCCGGGGTTTCGCAGTCGTGGCCGATGAAGTCCGCAACCTCGCCAAGCGGGTCCAGACCTCGACCGACGAGATCACCGCCATGGTGTCGGCCTTGCAGGCAGGCACCCGCGATGCGGTGGAGTTCATGCAGCAAAGCTCGCACAAGGCTGACGACTGCGTGCAACAGGCTTGCGAGGCCGGCGACGCGTTGCTGCAGATCACCGAGGCGGTGGCGCAGATGCGCGAAAGCAACACGCAGATCGCGGTCGCCGCCGAACAGCAAAGCCAGGTGGCCGAAGACATGAACCGCGCCGTAGTGAGCATCCGCGACGTGACCGAAAATACCGTGCGCCAGACCGTGGATTCGGCCACCACCAGCGATGAGCTGGCGACGCTGGCGGGTGAGTTGAACAGGGCGATTGGGCAGTTGAAGCTTTAA	MGAWLSNISLKYKFWAVNAVAFVTTLLLVLYAMHLEQQVRGVSLGQVFGERFSQYAVAVFVLMLAMLGASQLLIRFLLSQLNTLKDVMLHVEKSGDLSARVPLACEDEVGQMAAAFNAMQAGYQRVVDTVASTARQLDSGATRLASSMNDVRQGMLGQQSETDQAATAINEMTATVYHIAQHAGATRDLSKTTDILAGNGRQVVSRVQQSITGLSTGVQQTAEMIQRLAEDSQKINGVVNVIHSIAEQTNLLALNAAIEAARAGEMGRGFAVVADEVRNLAKRVQTSTDEITAMVSALQAGTRDAVEFMQQSSHKADDCVQQACEAGDALLQITEAVAQMRESNTQIAVAAEQQSQVAEDMNRAVVSIRDVTENTVRQTVDSATTSDELATLAGELNRAIGQLKL	PGPT0015710_20745	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
D1-35_00679	807	tatD	COG0084	3'-5' ssDNA/RNA exonuclease TatD	ATGCAACTCATCGATATCGGCGTCAACCTGACCAACCCCAGTTTCGCCGAAAAACACCAGGCGGTGCTTGAGCGCGCCTATGCCGCCGGGGTCTGCCAGTTGGTGCTGACCGGCACCAGCATCGAGGGCAGCGAACAGGCCTTCGAACTATGCCAGCAGCTCGACGAGGACGGGACGCGACTGTTTTCCACCGCCGGCATCCACCCCCACAGCGCCAGCGACTGGACAGCTGACAGCGCCAGGCATTTGCACGAGTTGCTCAAGCAGGACCGTGTGCGCGCAGTGGGTGAATGCGGGTTGGATTTCAATCGTGATCTTTCTCCTCGCCCGCTGCAGGAAAAAGTCCTCGAAGAACACCTCGCGCTTGCCGCGGAGTTGCAAATGCCGGTGTTTCTCCATGAGCGCGACGCCGACCAGCGACTGCTGGAGATTCTTCGGGACTTTCGCGACCGATTGCCCGCCGCTGTGGTGCATTGTTTTACCGGTGAGAAAAAAGCGCTGTTCAGTTACCTGGACCTGGACTTGCACATCGGCATTACCGGGTGGATCTGCGATGAACGCCGAGGCACACATCTGCATCCGTTGGTGCGGGAAATTCCCCGCGGCCGGCTCATGCTCGAAAGCGACGCCCCGTATCTGCTGCCCCGCACCCTGCGCCCTAAGCCCAAGAACGGTCGCAATGAGCCGGCCTATCTGACAGACGTATTGCGTGAAGTAGCCTTGCACCGGGGCGAAAGCGAGGAAGACCTGGCGGCCCACAGCACGGCGTGTGCGCGGGCGTTTTTCGGCTTGCCGGTGATTTCCTGA	MQLIDIGVNLTNPSFAEKHQAVLERAYAAGVCQLVLTGTSIEGSEQAFELCQQLDEDGTRLFSTAGIHPHSASDWTADSARHLHELLKQDRVRAVGECGLDFNRDLSPRPLQEKVLEEHLALAAELQMPVFLHERDADQRLLEILRDFRDRLPAAVVHCFTGEKKALFSYLDLDLHIGITGWICDERRGTHLHPLVREIPRGRLMLESDAPYLLPRTLRPKPKNGRNEPAYLTDVLREVALHRGESEEDLAAHSTACARAFFGLPVIS				NA	NA	NA	NA	NA
D1-35_00680	1422	mltF_1	COG4623	Membrane-bound lytic murein transglycosylase F	ATGGTTCGTCCCCAGGTATTGCTACTGCTGTGTTGCTCGCTGCTGTTGCCAATGGCGGCCGAAGCACGCCTGCCCGGACCGCTGCAAGTGGTAGCGCCGGGCACCGTGCGTGATCTGGCGCAGATCCGTAGCAGCCGGGTACTGAAGGTGTTGGTCAACCAGAGCCGCAACAGCTCCGGTGAAGTCCAGGGCCAGCCCATCGGTGTCGAATACCATCGCTTGCGGGCCTTCGAGCAGTACCTCAATGGTCATGCCCGGGATGGCCAGGAAATCACCCTCAAAATCATTCCCAAGGCCAAGGATCAATTGCTCGGCGCACTGCAGCGCGGGGAAGGGGATCTGGTGGCGCCAGGCGAACTGCTTGAGCCGCAAGCCGGCCATGCGGTGAGCGCCAGTGAGCCGATACGCACGGATGTGCCGTTGCTGCTGGTGGGGATCAAGGGCGAAAAGCGTTATTCGCGCGTGGAGCAATTGTCTGGCAAGACCCTGGCGCTGCCCAACGGCAGTGCGGCGGGGGATGCGGTCAGCCAGATCAACCAGAAGCTGGCGTTGCTCAAGTTGCCGCCGGTGAAAATCGAATGGGTCGATCCCACCCTGGCGGTGGAAGATGTGTTGGAGATGGTCCAGGGCGGGATCTTCCACCTCACCATCGTCGAACAGCCCATCGCCGAACGCTGGGGCAAGATCCTGCCCAAGTTGCGTTTCGACCGCCAGGTGCTCATCGGCGAGCCGAGCGATGAATATTGGTTCGTCCGCCGCGACGCCGCCATGCTGCGGGCGAGCATTGATCGATTCCTCACCACCTATAAAGTCCCCGACAACCAGGACGCTGCATTCCTGCGTATCTACCGACGCTTGTACCAGGTTCACTATCCGCTGGCCCGGGCCAATCGCCAACGCCTGGAAAAACTTCGGCCGGTGCTGCAAAAACATGCCCAGGCCCAGGGCATGGACTGGCTCAACCTGGCGGCCCTGGCGTTCAAGGAGTCAGCCTTGCAACCCAACGCGCGCAGCGGCAGCGGCCCAACCGGCCTGATGCAGATCACGCCGTCCGCGGCCCAGCGGGTCGGGGTCAACAACATCCAGGACCTGGATGCCAATGTGCAGGCCGGCGCCAAATACCTGGCCATGATCCGCCGCAAATTCTTCTCCAGCCCCAAGCTCAACGAGCGCGAACGCATGGCGTTTGTCCTGGCTGCGTACAACATGGGACCGGAGCGCGTCCAAGGCATGCGTGCCGAGGCCCGGCGGCGAGGCTTGAACCCTGACCAGTGGTTTTTCCAGGTCGAGCGAATAGCCATGGAGCAGGTGGGCATGGGCGCCGTCAGCTACGTTAACAGCGTGAACAAGTATTACCTGGCGTTTGATCGAGAGCGTGAATCCCTGGAGCCGCAAGAGCGGAAAGTGGCTTCGACTAAATAA	MVRPQVLLLLCCSLLLPMAAEARLPGPLQVVAPGTVRDLAQIRSSRVLKVLVNQSRNSSGEVQGQPIGVEYHRLRAFEQYLNGHARDGQEITLKIIPKAKDQLLGALQRGEGDLVAPGELLEPQAGHAVSASEPIRTDVPLLLVGIKGEKRYSRVEQLSGKTLALPNGSAAGDAVSQINQKLALLKLPPVKIEWVDPTLAVEDVLEMVQGGIFHLTIVEQPIAERWGKILPKLRFDRQVLIGEPSDEYWFVRRDAAMLRASIDRFLTTYKVPDNQDAAFLRIYRRLYQVHYPLARANRQRLEKLRPVLQKHAQAQGMDWLNLAALAFKESALQPNARSGSGPTGLMQITPSAAQRVGVNNIQDLDANVQAGAKYLAMIRRKFFSSPKLNERERMAFVLAAYNMGPERVQGMRAEARRRGLNPDQWFFQVERIAMEQVGMGAVSYVNSVNKYYLAFDRERESLEPQERKVASTK				NA	NA	NA	NA	NA
D1-35_00681	435	mhqP	COG2259	Putative oxidoreductase MhqP	ATGAGCACTTTCATCAACAAGGTTCTGTTTTCCCGCGCCGGCTACGGCCTGACTGTCCTGCGCATCGTCGTCGGGGTCATTTTTGCCGCCCATGGCTCGCAGAAACTGTTCGGGCTGTTTGGCGGTTATGGGTTGGCGGGCACGGCGCAATGGATGGACAGCATCGGCCTGACGCCTGGCTACCTGATGGCAACCCTGGCCGGTGGCACCGAGTTTTTCGCCGGGCTGGCCTTGATCATCGGCCTGCTGACGCGCCCGGCGGCTTTGGGTCTGGCCTTCCTGTCACTGGTGGCGATTTTCTCCGTGCACATCGGCAACGGTCTGTTCATGGCCAACAACGGTTATGAGTTTGCCCTGGCCTTGCTGGCCGGCAGTATCGCGGTGTTGATCGAAGGTGCAGGCAAGCTGTCGGCGGATAACGCCATCGCCCGTTGA	MSTFINKVLFSRAGYGLTVLRIVVGVIFAAHGSQKLFGLFGGYGLAGTAQWMDSIGLTPGYLMATLAGGTEFFAGLALIIGLLTRPAALGLAFLSLVAIFSVHIGNGLFMANNGYEFALALLAGSIAVLIEGAGKLSADNAIAR	PGPT0028505_3484	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028505-catD-K15977	NA	NA
D1-35_00682	309			hypothetical protein	ATGAACGCACCCAGCCCCCTCGTACGTCTGGCGCCGATCACGGCGAACCTGCTGCAACGCAATCCGAAAATTCTCCTGGGCGGTACCCATCAGCCTACGCTGTTGCGTTATCTCGACGGCTGGCCGCGACGCAGCCATGGCCCCGCGGCCTTCCTGATCCAGTTTGTCGAAGACGGTGAGTCGCTGGCGCGTTTCGCCGATGACAGTTTCGACCTGGCGGTAATCCAGTCACCGACGGCGGCGGACGCTGCCGAAATGATCCGGCACTTGACCCGTGTTGCACGGCAGGGGCTGATCACTCGCCGTTGA	MNAPSPLVRLAPITANLLQRNPKILLGGTHQPTLLRYLDGWPRRSHGPAAFLIQFVEDGESLARFADDSFDLAVIQSPTAADAAEMIRHLTRVARQGLITRR				NA	NA	NA	NA	NA
D1-35_00683	498	greB_1	COG0782	Transcription elongation factor GreB	ATGAGCCGCTATCGTCCACCCCGTACCGCCGGCACCGCGCTGATCACCCCCGAGGGTGAAGCGCGGATGCGCGCTGAACTCCATGAACTGTGGCATGTCCGCCGCCCCCAGGTGACCCAGTCGGTCAGCGAAGCGGCGGCCCAGGGTGATCGCTCGGAAAATGCCGAATACACCTACGGCAAGAAGATGCTGAGGGAAATCGACAGTCGCGTGCGTTTCCTCACCAAACGCCTCGAAGCACTCAAGGTCGTCAGCGAAAAACCCAGTGACCCGAACAAGGTGTATTTCGGCGCCTGGGTCACCGTTGAGGATGAGGACGGCAAGGAATCGCGCTATCGCATCGTCGGGCCTGACGAGCTGGACCTGAAGCAGAACCTGATCAGTATCGACTCGCCCCTGGCCCGCGCCCTGATTGGCAAGACGCTGGACGCTGAAGTCAGGGTCCAGGCGCCAACCGGAGAAAAGCTCGTCTACATCGTCGATATCAGCTATCCGTAG	MSRYRPPRTAGTALITPEGEARMRAELHELWHVRRPQVTQSVSEAAAQGDRSENAEYTYGKKMLREIDSRVRFLTKRLEALKVVSEKPSDPNKVYFGAWVTVEDEDGKESRYRIVGPDELDLKQNLISIDSPLARALIGKTLDAEVRVQAPTGEKLVYIVDISYP	PGPT0030495_2727	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSCRIPTIONAL_CONTROL	PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624
D1-35_00684	2505			hypothetical protein	ATGGCACGCTTGCCCTTGTTGCGCCTGTTCAGCCTTGCCCTGCGCCAGTTGCTGCGCGATGCCCGCGCCGGCGAGTTGCGCGTGCTGTTCTTCGCCCTGCTGGTGGCCGTGGCGGCGAGCACCGCCATCGGTTACTTCGGCGCCCGCCTGAATGGCGCGATGATGATGCGCGCGACCGAATTTCTCGGCGCCGACCTGCTGCTCGAGGGCAGCTCCCCTGCCCGCCCGGAGCAGATCCGCAGCGGCACCGAACTGGGCCTGGAACATGCCCGAGTGGTGGAGTTCTCCAGCGTTGTCGCCACCGACAACGGTATCCAGCTGTCCAGCGTCAAGGCAGCCGATGACATCTATCCCTTGCGCGGGGAACTGAAAAGCGCCCCGGCGCCCTTCGCTCCGGAAGAGACCGGTGGACGACCAGCCCCCGGGGAGGCCTGGGTCGAAGCACGGCTGCTGACGGCGCTGGACCTGAAGATCGGTGACAGCATCGATGTCGGCAACAAGACCGTTCGCCTCAGCCGCGTGCTGACTTATGAGCCGGACCGCGCCGGTAATTTCTACAGCCTGACCCCGCGCGTCATGATCAACCTCAAGGACCTGGACGCCACGGGCGTGGTGCAACCCGGCAGCCGCGTCAGCTATCGCGACCTGTGGCGCGGCCCGGCGTCGGCGCTGCAAACCTATCGCGACCTGGTCAAGCCAGGTCTTGAGCCGAACCAGCGCCTGCAGGACGCTCGCGACGGCAATCGCCAGATCGGCGGCGCCTTGGGCAAGGCCGAGCGCTACCTGAACATGGCCAGCCTGGTGGCGGTGCTGCTGTCCGGCGTTGCCGTGGCCCTCTCCGCCAACCGTTTTGCCACTCGACGCTTCGATGCCAGTGCATTGCTGCGCTGCCTTGGCCTGTCGCGCCGGGAAACCATGGTGCTGTTCAGCCTGCAACTGGCCGTGCTGGGCCTGTTGGCGAGCATCAGCGGTGCGCTGCTGGGCTGGGTGGCCCAGTTGGGATTGTTTGCCTTGCTGCATGACTTGCTGCCCACCACCGTCCCCCCGGGTGGCCTGTTGCCGGCGATCGCCGGGATCGGCACCGGGCTGGTGGCACTGGCGGGTTTTGCCTTGCCGCCGCTCGCCGCACTGGGCCGGGTGCCGCCGTTGCGCGTGCTGCGTCGGGACATGTTGCCGATTCCCTCCAGTAGCTGGGTGGTCTACGGTGCGGCCCTCGGTGCGCTCGGGCTGATCATGTGGCGCCTGAGCCTGGACCTGGTGCTGACTTTCGCGCTGCTCGGTGGTGGGGTGATTGCCGCGCTGGTGCTCGGCGGACTGCTGTTGCTGGTGCTGCAGAGCCTGCGCCGGATGCTGGCCCGGGCCTCGCTGCCCTGGCGGTTGGGACTCGGTCAGCTGTTGCGCCATCCCTTGGCGGCAGCCGGGCAAGCCCTGGCGTTTGGCCTGATCCTGTTGTCCATGGCCTTGATCGCGCTGCTGCGCGGCGAGTTGCTGGACACCTGGCAAAACCAGTTGCCAAAAAACGCCCCGAACTATTTCGCCTTGAACATCCTGCCCAACGACAAGCAGGCCTTCACCGACAAGCTGATGGCGTTGTCGGCGCAGTCGGCCCCGCTCTACCCCGTGGTACCGGGACGGCTGATCAGCATCAACGGCGAGCCGGCCAAGGAGTTCGTCACCAAGGACTCGGCCGGTGACCGTGCGCTGCAACGCGACTTGAGCCTGACCTGGGCGGCGGAGCTGCCGGCGGGCAACGTCGTCACGGCCGGGAACTGGTGGCCGCAACAGCCACCGGACGATATCCCGGGGGTTTCGGTGGAAGGCAAGGTGGCCGAGAATCTCAAGATCAAACTGGGCGACCGCCTGGTGTTCAACGTCGGCGGCCTCAACCGGGAAGCCAAGGTCACCAGCCTGCGGGAAATCAACTGGGACAATTTCCAGCCGAACTTCTTCATGATTTTCCAGCCCGGTACGCTGAAGGACCTGCCGGCAACCTACCTCACCAGCTTTTATCTGGCTCCCGGCCATGACCAGCAGATCGTCGACCTGTCGCGCGCCTTCCCGGCCGTGACGATCCTGCAGGTCGAGGCGTTGCTCGAACAACTGCGCAGCATCCTGGCCCAGGTGACCCTGGCCGTGGAATACGTATTGCTGTTTGTGCTGGCGGCGGGGATGGCGGTGCTGTTCTCCGGCTTGCAGGCCACCCTCGACGAAAGGATCCGCCAAGGCGCGCTGCTGCGTGCCCTGGGCGCCGAGCGGTTGCTGTTGACCAAGGCCCGGCGCATCGAATTCGGCCTGTTGGGTGCGGTCAGCGGTTTGCTCGCGGCGCTGGGTTCGGAACTGGTCAGCCTGGTGCTCTACCGTTATGCCTTCGACTTGCCGTGGCATCCGCATCCATGGCTGCTGGTATTGCCGCTGGTGGGCGCGTTGCTGATCGGTGCGGCGGGCGTATTTGGCACTCGCCGGGCGCTCAACGCCAGCCCACTGACAGTGTTGCGCGAGGGTTGA	MARLPLLRLFSLALRQLLRDARAGELRVLFFALLVAVAASTAIGYFGARLNGAMMMRATEFLGADLLLEGSSPARPEQIRSGTELGLEHARVVEFSSVVATDNGIQLSSVKAADDIYPLRGELKSAPAPFAPEETGGRPAPGEAWVEARLLTALDLKIGDSIDVGNKTVRLSRVLTYEPDRAGNFYSLTPRVMINLKDLDATGVVQPGSRVSYRDLWRGPASALQTYRDLVKPGLEPNQRLQDARDGNRQIGGALGKAERYLNMASLVAVLLSGVAVALSANRFATRRFDASALLRCLGLSRRETMVLFSLQLAVLGLLASISGALLGWVAQLGLFALLHDLLPTTVPPGGLLPAIAGIGTGLVALAGFALPPLAALGRVPPLRVLRRDMLPIPSSSWVVYGAALGALGLIMWRLSLDLVLTFALLGGGVIAALVLGGLLLLVLQSLRRMLARASLPWRLGLGQLLRHPLAAAGQALAFGLILLSMALIALLRGELLDTWQNQLPKNAPNYFALNILPNDKQAFTDKLMALSAQSAPLYPVVPGRLISINGEPAKEFVTKDSAGDRALQRDLSLTWAAELPAGNVVTAGNWWPQQPPDDIPGVSVEGKVAENLKIKLGDRLVFNVGGLNREAKVTSLREINWDNFQPNFFMIFQPGTLKDLPATYLTSFYLAPGHDQQIVDLSRAFPAVTILQVEALLEQLRSILAQVTLAVEYVLLFVLAAGMAVLFSGLQATLDERIRQGALLRALGAERLLLTKARRIEFGLLGAVSGLLAALGSELVSLVLYRYAFDLPWHPHPWLLVLPLVGALLIGAAGVFGTRRALNASPLTVLREG	PGPT0013350_4404	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
D1-35_00685	684	lolD_1	COG1136	Lipoprotein-releasing system ATP-binding protein LolD	ATGGGCTCAAGCATTCTCACCGCGAAGGACCTTAGCAAAGTGGTTCCCAGCGCGGAAGGTGAACTGACCATCCTGCACGAACTCAGCCTGGAACTGAACAAGGGCGACAGCCTGGCCATCGTCGGCGCGTCCGGTTCCGGCAAATCCACGCTCCTTGGGCTGCTGGCCGGCCTCGACTTGCCCAGCAGCGGTGAAGTGACCCTCGCAGGCCAAGCCCTCAGCGCACTGGACGAAGACCAGCGCGCCCGGGTTCGCGCCGAACACGTCGGTTTCGTTTTCCAGTCGTTCCAACTGCTCGACAGCCTCAACGCGCTGGAGAACGTCATGCTGCCGCTGGAACTGGACGGCCGCAAGGATGCCCGGGAACGCGCTACACAACTGCTGCAACGGGTCGGCCTCGGCCAACGGCTGACGCATTCGCCACGCCAGCTCTCGGGCGGCGAACAACAACGCGTCGCGATTGCCCGCGCCTTTGCCGCCGAGCCCGACGTGCTGTTCGCCGACGAGCCGACCGGCAACCTCGACAGCCACACCGGCGAACGCATCAGCGATCTGCTGTTCGAGCTGAACAAGGAACGCGGCACCACCCTGGTGCTGGTGACCCACGACGAACGCCTGGCCCATCGCTGCCGGCGCCTGATCCGACTTGAAGCCGGCCTGATGGTCGCGCCCCTGGAGCCTTGA	MGSSILTAKDLSKVVPSAEGELTILHELSLELNKGDSLAIVGASGSGKSTLLGLLAGLDLPSSGEVTLAGQALSALDEDQRARVRAEHVGFVFQSFQLLDSLNALENVMLPLELDGRKDARERATQLLQRVGLGQRLTHSPRQLSGGEQQRVAIARAFAAEPDVLFADEPTGNLDSHTGERISDLLFELNKERGTTLVLVTHDERLAHRCRRLIRLEAGLMVAPLEP	PGPT0013345_13191	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
D1-35_00686	606	tesA	COG2755	Esterase TesA	ATGCGAGTGTGGTTTTTGAGTGCCGGCCTGGCCTTGATGTGCATGGTCCAGAACGCAGCGGCGGGTACAGTCCTGATCGTTGGCGATAGTATCAGCGCGGCTTTCGGCCTGGATACCCGCCAAGGCTGGGTGTCGTTGCTGGAACAACGGCTCAAGGCCGAGGGTTTCGACGATAAAGTGGTCAATGCATCGATCAGTGGCGACACCAGCGCAGGCGGCCTGGCGCGCCTGCCGACGCTGCTTGCAGCCCATAAGCCGGAGCTGGTGGTCCTGGAGTTGGGAGGCAACGATGGCCTGCGTGGACAGCCGCCAACACAATTGCAACAAAACCTTGCAGCGATGATCGACAGCTCCCGCGCCAGCGGTGCCAAGGTGCTTTTGCTGGGCATGCAGTTGCCGCCGAACTATGGGCGACGCTACACCGAGGCTTTCTCGAAGGTCTACAGCACCTTGGCCGAGGAGAAAAACGTCCCGCTGGTGCCGTTTTTCCTCAAGGATGTCGGCGGCGTTCAGGGAATGATGCAGGGCGACGGATTGCACCCGTCCGTCGCGGCCCAGGGCAAGTTGCTGGAAAATGTCTGGCCGACGCTGAAACCGCTGCTTTGA	MRVWFLSAGLALMCMVQNAAAGTVLIVGDSISAAFGLDTRQGWVSLLEQRLKAEGFDDKVVNASISGDTSAGGLARLPTLLAAHKPELVVLELGGNDGLRGQPPTQLQQNLAAMIDSSRASGAKVLLLGMQLPPNYGRRYTEAFSKVYSTLAEEKNVPLVPFFLKDVGGVQGMMQGDGLHPSVAAQGKLLENVWPTLKPLL	PGPT0001840_2392	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001840-tesA-K10804	NA	NA
D1-35_00687	294			hypothetical protein	ATGCCGCGTCCCGCCTGGTCCCTGTTTGCCTACCAACTGATCGAGCCTGACGAACAGCTGGATCTGTTCGCCTGCCAGGAAGTGCGGGTGCATCTGGTGACCCGGCAGCTGGAGCTCGGCGGCTCGGCCGACCGGACCCTTTGTGGCAGTCTTTTGCCGGCGCAGCCACGCTGGTCGGCCGTCGACCGCAGGATTTTCCAGGACCATCGCCTCTGTTCCTTGTGCCGGGCAATCCTGGAATCGCAGAAGCGCGGTACCTCGCCGATCTGGCCGGAGCTGCGGTTCGAGTTGTGA	MPRPAWSLFAYQLIEPDEQLDLFACQEVRVHLVTRQLELGGSADRTLCGSLLPAQPRWSAVDRRIFQDHRLCSLCRAILESQKRGTSPIWPELRFEL				NA	NA	NA	NA	NA
D1-35_00688	972	ybiS	COG1376	putative L,D-transpeptidase YbiS	ATGTTGCCGCGCTTGCCTGCCGTCGCCCGCTGCCTGTCTCTTGCCGCCCTGTGTATGGCGGGTCCCGTTGCTGCATTGGAGCTGCCTCTGCCGCCACCGGGTGAAGACATCATCGGCCAGGTGCAGGTCATCAAGGCCAAATACGAAGACACCTTCGCTGACCTGGGCACCACCTATGACCTGGGTTACACCGAGATGGTCGCCGCCAACCCGGGCGTTGATCCGTGGTTGCCGGGTGCTGGCACTGAAATCGTCTTGCCGACCCGTTTTATCCTGCCACCGGGCCCGCGCGAAGGCATCGTGATCAACCTCGCGGAATACCGTCTCTATTATTTCCCCAAGGGGCGGAACGTGGTTTACACCTTCCCGCTGGGAATCGGTCGCGAAGGTTGGGGCTCGCCCATCGCCCACACCAGCATCATCGCCAAGACGCCAAACCCGACGTGGACCCCGCCGGCCTCGATCAAGGCTGAACATGCCGCCGACGGCGATCCCTTGCCGAATGTGGTTCCGGCCGGCCCCGATAACCCGCTGGGCCCGTTCAAGTTCACGCTGGGAACGCCGGGTTACCTGATCCATGGCTCGAACAAGAAATTCGGCATCGGCATGCGTACCAGCCACGGCTGCTTCCGGATGTTCAACAACAACGTGCTGGAGATGGCCGGCATGGTGCCGGTGGGGACTTCGGTCCGGATCATCAACGACCCGTACAAACTGGGCCTGAGTGGCGGCAAGGTTTACCTGGAAGCCCACACTCCGCTGGACGACAAGGGCAACCCGTCGGTGGTGGACAAACACACCGCGGTCATCAACGCGATGCTCAAGCGTGAGGACATCACCAGCAACTTGCGCATGAACTGGGATGTGGTGCGTGACGTGGTGGCCGCTGAAGACGGCCTGCCGATAGAGATCGCTGTTCCGAGTGCCTCGGCACCGATGGTATCGAGCGCGCCGATCGACCTGACGCAATAG	MLPRLPAVARCLSLAALCMAGPVAALELPLPPPGEDIIGQVQVIKAKYEDTFADLGTTYDLGYTEMVAANPGVDPWLPGAGTEIVLPTRFILPPGPREGIVINLAEYRLYYFPKGRNVVYTFPLGIGREGWGSPIAHTSIIAKTPNPTWTPPASIKAEHAADGDPLPNVVPAGPDNPLGPFKFTLGTPGYLIHGSNKKFGIGMRTSHGCFRMFNNNVLEMAGMVPVGTSVRIINDPYKLGLSGGKVYLEAHTPLDDKGNPSVVDKHTAVINAMLKREDITSNLRMNWDVVRDVVAAEDGLPIEIAVPSASAPMVSSAPIDLTQ	PGPT0023745_237	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-L|D_TRANSPEPTIDASE_ACTIVITY,PGPT0023745-erfK-K16291	NA	NA
D1-35_00689	252			hypothetical protein	ATGAACAACGTTCTGAAATTCTCTGCTCTGGCCCTGGCCGCAGTTCTGGCTACCGGTTGCAGCAGCGCATCGAAAGAAACCGAAGCACGTCTGACTGCCACCGAAGACGCAGCAGCTCGCGCCCAAGCTCGTGCAGACGAAGCCTACCGCAAAGCTGATGAAGCTCTGGCTGCTGCTCAAAAAGCACAACAGACTGCTGACGAAGCTAACGAGCGTGCTCTGCGCATGCTGGAAAAAGCTAGCCGCAAGTAA	MNNVLKFSALALAAVLATGCSSASKETEARLTATEDAAARAQARADEAYRKADEALAAAQKAQQTADEANERALRMLEKASRK				NA	NA	NA	NA	NA
D1-35_00691	282			hypothetical protein	ATGAGCGAGGCGGTTTCCATCCACCATGACCAGGCTGGTCATCAGTTCGAGACCATTGTGGACGGTCATCGTGCCTATCTGACCTACATGGACCTGGGCAAACAGACCCTGGACATCTATCGCACCTTCGTGCCTAACGCGCTGCGTGGCAGGGGGATTGCTGCGAAGTTGACCGAAGAGGCGTTGAAGTACGCTGAAGAAATGGGCTACACGGTGATCCCGTCCTGCTCCTATGTGGAGCGCTACATGGAGCGGCACCAGCGGCACGCGGCGAAGCTCTGA	MSEAVSIHHDQAGHQFETIVDGHRAYLTYMDLGKQTLDIYRTFVPNALRGRGIAAKLTEEALKYAEEMGYTVIPSCSYVERYMERHQRHAAKL	PGPT0021955_152	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021955-lcdH|cdhA-K17735	NA	NA
D1-35_00692	1077	aroF_1	COG0722	Phospho-2-dehydro-3-deoxyheptonate aldolase, Tyr-sensitive	ATGGCTGATTTACCGATCAATGACCTTAACGTCGCCTCCAACGAGACCCTCATCACGCCTGACCAGCTCAAGCGCGATATCCCCCTGAGCGATGCTGCACTGCGCACCGTGACCAAGGGCCGGGAAGTCATCCGCAACATTCTCGACGGCACCGACCATCGCCTGTTCGTGGTCATCGGGCCCTGCTCGATCCATGACATCAAGGCCGCCCATGAATATGCCGAGCGCCTGAAAGTGCTCGCGGCGGAAGTCTCCGACACCTTGTACCTGGTGATGCGGGTGTATTTCGAAAAGCCCCGGACCACCGTCGGCTGGAAAGGCCTGATCAACGACCCTTACCTGGACGACTCCTTCAAGATCCAGGATGGCCTGCACATCGGTCGCCAGTTGCTCCTGGACCTGGCCGAAATGGGCTTGCCCACCGCCACCGAAGCCCTCGACCCGATCTCCCCGCAATACCTGCAGGACCTGATCAGCTGGTCGGCCATCGGCGCGCGCACCACCGAATCCCAGACCCACCGCGAAATGGCTTCCGGCCTGTCATCGGCAGTGGGCTTCAAGAACGGCACCGACGGCGGCCTCACCGTGGCGATCAACGCCTTGCAATCGGTGTCCAGTCCTCACCGTTTCCTGGGCATCAACCAGGAAGGCGGCGTTTCGATCGTCACCACCAAGGGCAACGCCTACGGCCACGTCGTGCTGCGTGGCGGCAACGGCAAGCCGAACTATGACTCGGTCAGCGTCGCGCTGTGCGAGCAGGCGCTGAACAAGGCGAACATCAAGCCGAACATCATGGTTGATTGCAGCCACGCCAACTCCAACAAGGATCCGGCATTGCAGCCGCTGGTGATGGAAAACGTCGCCAACCAGATCCTCGAGGGCAACCAGTCGATCATCGGCCTGATGGTCGAAAGCCACTTGAACTGGGGCTGCCAGGCGATTCCGAAGGACCTTGCCGATTTGCAGTACGGCGTCTCCATCACCGATGCCTGCATCGACTGGAGCGCCACCGAGAAGACCCTGCGCGGCATGCACGCCAAACTCAAGGACGTGCTGCCAAAGCGTCAGCGCAGCTGA	MADLPINDLNVASNETLITPDQLKRDIPLSDAALRTVTKGREVIRNILDGTDHRLFVVIGPCSIHDIKAAHEYAERLKVLAAEVSDTLYLVMRVYFEKPRTTVGWKGLINDPYLDDSFKIQDGLHIGRQLLLDLAEMGLPTATEALDPISPQYLQDLISWSAIGARTTESQTHREMASGLSSAVGFKNGTDGGLTVAINALQSVSSPHRFLGINQEGGVSIVTTKGNAYGHVVLRGGNGKPNYDSVSVALCEQALNKANIKPNIMVDCSHANSNKDPALQPLVMENVANQILEGNQSIIGLMVESHLNWGCQAIPKDLADLQYGVSITDACIDWSATEKTLRGMHAKLKDVLPKRQRS	PGPT0012920_3899	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012920-3_deoxy_7_phosphoheptulonate_synthase|aroF|aroG|aroH-K01626	NA	NA
D1-35_00693	954		COG1893	2-dehydropantoate 2-reductase	ATGCAGGCAGGCGGTAAACCGAGGATCGGGGTGATCGGCACAGGCGCGATTGGCGGGTTCTATGGCGTGATGCTGGCTCGTGCCGGCTACGACGTTCACTTTCTGCTGCGCAGCGAATTTGCCGCCGTGGCCGAGGCTGGCCTGCGGGTCGACAGCGCGGTGCATGGCGCGCTGACGCTCCAGCCGGCCCAGGCCTATCGCTCGGCGGCCGACATGCCGCCTTGCGACTGGCTGCTGGTCGGTGCCAAGACCACCAGCAATGCCGACCTGGCCCCAGCCATCATCCAGTCCGCGGCCGACGGCGCGAAAGTCCTGTTGCTGCAGAATGGCCTCGATGTCGAAGAGGAACTGCGACCACTGTTACCCGATTCACTGCACCTGCTTGGCGGCTTGTGCCTGATCTGCGTCAATCGGCTCGGCCCGGGCGTCATTGCCCACCAGGCGCTCGGGGCAATCAACATCGGTTACCACAGCGGTCCAGGGACGGATCAGGCCGCACGCATGGCGATCGTCGAGGAGGGAGCGGGGCTGTTCCGGGCAGCGGGCCTGGATTCCCAGGCCATGCCAGACCTCGGGCAGGCACGCTGGCAGAAACTGGTGTGGAACGTGCCCTATAACGGCCTTTCGGTTCTGCTCGGCGCGAGCACCACGCCGCTGATGGCCGACGACCACAGTCGTGGACTGATCCAGGCGCTGATGGCTGAAGTGGTGCGTGGCGCACAAGCCTGCGGTCATGAGATCGCGCCAGGCTACGCGGAATATCTGTTCACGATGACCGGAAAAATGCCCGACTATTGGCCCAGCATGTACCACGACTATTCCCAACGGCGCCCGTTGGAGCTGGAGGCGATCTACGCTCGGCCACTGGCGAGGGCCAGGGCGGCGGGGTGCGAGTTGCCGAAAATCGAAGCCTTGTATCAGGCGCTGGCGTTCATCGATCGACGCAACCGCTGA	MQAGGKPRIGVIGTGAIGGFYGVMLARAGYDVHFLLRSEFAAVAEAGLRVDSAVHGALTLQPAQAYRSAADMPPCDWLLVGAKTTSNADLAPAIIQSAADGAKVLLLQNGLDVEEELRPLLPDSLHLLGGLCLICVNRLGPGVIAHQALGAINIGYHSGPGTDQAARMAIVEEGAGLFRAAGLDSQAMPDLGQARWQKLVWNVPYNGLSVLLGASTTPLMADDHSRGLIQALMAEVVRGAQACGHEIAPGYAEYLFTMTGKMPDYWPSMYHDYSQRRPLELEAIYARPLARARAAGCELPKIEALYQALAFIDRRNR	PGPT0008745_2057	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
D1-35_00694	906			hypothetical protein	ATGGCAAACAATATCGATGACAGGCTGGTGCTGGCGATTTCGTCGCGAGCGCTGTTCGACCTGAGCGAAAGCCACAAGGTTTACCTGTCGGGGGGCGTCGAAGCCTATCGGCAATACCAGATCGAACACGAGGATGAAGTCCTTGAACCGGGGGATGCCTTCGCGCTCGTGCAGAAACTGCTCAACCTCAACGAGCACCTGGGCCGTGCCCGCGTCGAGGTCATCCTGGTTTCGCGTAACAGCGCCGACACCGGCCTGCGGGTCTTCAACTCGATTCACCACTATGGACTGGCGATTTCCCGTGCCGCGTTTGTCGGCGGTCGCAGCCCATACCCGTACCTCAAGGCGTTCGGCTGCGATCTGTTCCTGTCCACTCACGCTGAAGATGTACGCAGTGCCCTGGATGCCGGATTTGCCGCGGCGACGATCCTTTCGGGCGGTGCCAGCCGCGCCGCCAGCGAAGAGCTGCGCATTGCCTTTGACGGCGACGCGGTGTTGTTTTCCGACGACTCTGAGCGTGTCTACCAGGCTGGTGGCCTGGAGGCGTTCCAGGCCAGCGAACGCCAGGCCGCGCGCGAGCCGCTGCGAGGAGGGCCGTTCAAGGGGTTCCTGGCGGCGCTCAATGCGCTGCAACGCGAATTCCCCGAGGACGCCTGCCCGATCCGGACCGCGCTGGTCACCGCCCGTTCGGCGCCGGCCCATGAGCGGGTCATCCGCACGTTGCGCGAATGGGACATCCGCCTGGACGAGTCGCTGTTTCTCGGTGGTCTGACCAAGTCCGCCTTCCTCGAAGCCTTTGCCGCCGACGTGTTTTTCGACGACCAGACCGGGCACTGCGAGCTTGCCCGGGAAGTGGTCGCCACCGGGCATGTGCCCCACGGCATCAGTAACGAAGTGAAGCCCTGA	MANNIDDRLVLAISSRALFDLSESHKVYLSGGVEAYRQYQIEHEDEVLEPGDAFALVQKLLNLNEHLGRARVEVILVSRNSADTGLRVFNSIHHYGLAISRAAFVGGRSPYPYLKAFGCDLFLSTHAEDVRSALDAGFAAATILSGGASRAASEELRIAFDGDAVLFSDDSERVYQAGGLEAFQASERQAAREPLRGGPFKGFLAALNALQREFPEDACPIRTALVTARSAPAHERVIRTLREWDIRLDESLFLGGLTKSAFLEAFAADVFFDDQTGHCELAREVVATGHVPHGISNEVKP	PGPT0013395_3088	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
D1-35_00695	501			hypothetical protein	ATGATTCGTTCGATGCTGTATGCCACGGACCTGGGGCTGTACGCCCCGTATGTGATGCAGCATGCCTTGGCGTTGGCACGGACGTTTGAAGCCGAGTTGTATGTGGTGCATGCGGTAGAGCCGATGGGGCTGTTCGCCGAATCGGTGTTGCAGAGCTATCTCGACGAGCAGGCGTTGAACGAATTTCATCGCCAGGGTCTGAGTACGGTGATGGCTAACATCGAGCAGCGGGTCCTCGACAATTTTCGCGAAGAGTTGGGCGAGGGGCAGCAGGACCTGAAATTGATCAAGTCGGTTCGGGTGTTCCAGGGCGACCCCTCCCAGGTCATTCTTGAACAGGCTGCGAAACTCTCCGTCGATTTGCTGATCGTAGGCAGTCATTGCCAGGGGGCGAGCGGCGAAACGCCGTTGGGCAGGACCGCCGCGCGGGTATTGCAGTTATCCCGCGTGCCGGTCTACCTGGTGCCGCTGGTCCAGCGCAGGCGCCAGGGCGAAGCTTGA	MIRSMLYATDLGLYAPYVMQHALALARTFEAELYVVHAVEPMGLFAESVLQSYLDEQALNEFHRQGLSTVMANIEQRVLDNFREELGEGQQDLKLIKSVRVFQGDPSQVILEQAAKLSVDLLIVGSHCQGASGETPLGRTAARVLQLSRVPVYLVPLVQRRRQGEA				NA	NA	NA	NA	NA
D1-35_00696	975	cysB_1		HTH-type transcriptional regulator CysB	ATGAAGCTTCAACAACTGCGCTACATCTGGGAAGTGGCGCACCACGACCTCAACGTTTCCGCAACCGCTCAAAGCCTCTACACGTCGCAACCTGGCATCAGCAAGCAGATCCGCCTCCTGGAAGACGAGCTGGGCGTCGAAGTCTTCGCCCGCAGCGGCAAGCACCTGACTCGCGTCACTCCCGCCGGTGAACGCATCATCACCACCGCCGGCGAGATCCTGCGCAAGGTCGAAAGCATCAAGCAGATCGCCCAGGAATTCTCCAACGAGAAAAAAGGCACCCTGTCCATCGCGACCACCCACACCCAGGCGCGTTATGCCTTGCCGCCGGTTATCAGCAATTTCATCAAGCAATACCCTGACGTGGCGCTGCACATGCACCAGGGGTCGCCGATGCAGATCGCCGAAATGGCCGCTGACGGCACCGTCGATTTCGCCATTGCCACCGAGGCCCTGGAGCTGTTCGGGGACCTGGTGATGATGCCGTGCTATCGCTGGAACCGCTGCGTGGTCGTGCCTCAGGGGCACCCGCTGACCAAGCTGCCGAAGCTGACCCTCGAAGCGCTGGCCGAATACCCGATCGTGACTTATGTGTTCGGTTTCACCGGTCGCTCGAAACTCGACGAAGCCTTCAGCCATCGCGGCCTGACCCCGAAAGTGGTGTTCACCGCTGCCGACGCCGACGTCATCAAGACCTATGTGCGCCTCGGACTGGGCGTGGGTATCGTCGCGAAGATGGCGGTCGACACCAAGCTCGACAATGACCTGGTGGTTCTGGATGCGAGCGAGTTGTTCGAATCCAGCGTGACCAAGATCGGTTTCCGCCGCGGTACGTTCCTGCGCGGATTCATGTGCGATTTCATCGAGAAATTTGCCCCGCACCTGACCCGGGAAGTCATGGCCAAGGCCATCCAGTGCCACAACAAGCAGGAACTCGAAGAACTGTTCGACGGCGTCGAACTGCCGGTGCATTAA	MKLQQLRYIWEVAHHDLNVSATAQSLYTSQPGISKQIRLLEDELGVEVFARSGKHLTRVTPAGERIITTAGEILRKVESIKQIAQEFSNEKKGTLSIATTHTQARYALPPVISNFIKQYPDVALHMHQGSPMQIAEMAADGTVDFAIATEALELFGDLVMMPCYRWNRCVVVPQGHPLTKLPKLTLEALAEYPIVTYVFGFTGRSKLDEAFSHRGLTPKVVFTAADADVIKTYVRLGLGVGIVAKMAVDTKLDNDLVVLDASELFESSVTKIGFRRGTFLRGFMCDFIEKFAPHLTREVMAKAIQCHNKQELEELFDGVELPVH	PGPT0002965_328	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002965-cysB-K13634	NA	NA
D1-35_00697	489			hypothetical protein	ATGAACATGAACAAACAGACCGTCCACCAACTGATTCTCGACAAGCTCAGGATTGACCTCGATATCGCCGAACGCGCCGCGCAGACCGCCTACGAAACCGCGACCCACGAGGAAAACATCGCCGAAAACAAATACGACACCCTGGGCCTGGAGGCTTCGTACCTTGCGGCCGGGCAAGCCAGGCGCGTGGAGGAAATCCGCCAGGCACTGGTGCTCTGCCAGAACCTCGCGCTGAGACCTTACGATGAAGAACGCGGCATCCAGGTCGGCACATTGATCGGGCTGGAAGATGAGGAGGGTCGCCAGCAGTGGCTGTTCCTGGGACCCGACGCGGCGGGGCTGAAGGTCTCGCTGGTGGGGCAGCCGATTACCGTCATCACCCCTCGCTCACCACTGGGCCGAGGCCTGTTGGGCAAATTCGAAGGGGATGAAGTGGAGATCGTCGTGGCAGGCGCCCGGCAACAGTTCGCTGTCACCGAGGCGATCTAG	MNMNKQTVHQLILDKLRIDLDIAERAAQTAYETATHEENIAENKYDTLGLEASYLAAGQARRVEEIRQALVLCQNLALRPYDEERGIQVGTLIGLEDEEGRQQWLFLGPDAAGLKVSLVGQPITVITPRSPLGRGLLGKFEGDEVEIVVAGARQQFAVTEAI				NA	NA	NA	NA	NA
D1-35_00698	393			hypothetical protein	ATGCCCGACCACTCCTCTCCCCGCCTCACAACGTTGCAACTGACGCTGGGCATCGCCTTGGGCTTGTGGCTGGGATTCCTTGCCATCGTGCTGACGGGATGGCTGCTGTCCAGGTTTCTGTTCGATGAGCAACTGGCCCCGGTGGCCGCCGCGGTTCATCAATTGGCGCAGCCGCCGGCAGCACCGCCAGCCCCGGAGCCGACCCCAACGCCAACCCCAATGTTCGAGCAGTATCAACAGAACCTGCAGAAGAACGAGCAACGCCAGGCCCTCGACCAGGCCCGCAGCAACCCTCGCAACCTGTCCAACCCAAAGTGTCAATTCTGGCTCCAACAGGACCAGAACGCGCCTAGCGAGAAAAGCCGCGCCAATGTCCTGCAATTCTGCGAATGA	MPDHSSPRLTTLQLTLGIALGLWLGFLAIVLTGWLLSRFLFDEQLAPVAAAVHQLAQPPAAPPAPEPTPTPTPMFEQYQQNLQKNEQRQALDQARSNPRNLSNPKCQFWLQQDQNAPSEKSRANVLQFCE				NA	NA	NA	NA	NA
D1-35_00699	1134			hypothetical protein	ATGACTGTGCGTTGGGATATTTTTTGCACCGTCGTCGATAACTATGGCGACATCGGCGTCACCTGGCGCCTGGCTCGGCAATTGGTCGCCGAGCATCAATGCGCGGTGCGGCTGTGGGTCGACGACCTGCGCGCCTTCGAGCGGTTATGTCCGTCTATCGATGTCACGCTGACCGAGCAATGGCAGCAAGGCGTACAGGTGCGTCACTGGCCCAAGGACTGGCAGCCCACCGAAGCTGCCGATGTAGTGATCGCCGCATTTGCCTGCCAGTTGCCCAGCGCCTACATGGACGCGATGGCCGAGCGTCCGGCGGCGCCTTTGTGGATGAACCTCGATTACCTGAGCGCCGAGGATTGGGTGATCGGTTGTCACGGTTTGCCGTCGGTGAAGTACAAACATGTGCAGAAATATTTCTTTTTTCCGGGCTTTCAGGAGGGCACGGGTGGCTTGCTGCGGGAGGCCGGTTTGTTGGGGCGTCGTCGAGAATTTCAGCAGGATGGCGAGGCACAAAGGGCTTTCCTGCAAGGACTGGGCGTCGAGCGCGAGTCCGGGGCGCGGCTGATTTCGTTGTTTGCCTATGAGAACGACGGTTTGGCCAGCTGGTTTGATGCGCTGGCGAGGGATGCTCGTCTGTCGCATGTGCTGGTTCCGGAAAGCCGCATCCTCGCCGATGTGGAGCGTTGGGTTGGTATCGACGGCCTGAAAGCCGGTGCCTTGCATCGCCGTGGCGCCCTGACCGTGCAGGTGCTGCCTTTCGTGCGCCAGGATGAATACGATCAACTGTTGTGGTGCTGTGATTTCAACGCCGTGCGTGGCGAAGACTCCTTCGTGCGCGCGCAGTGGGCCGGCCGGCCGCTGCTCTGGCATATCTATCAACAGGAAGAGGACGTCCACCTGGAAAAACTCGAGGCGTTTCTCCGCTTGTATACCGAGGGGCTCCCGGAGGCTGCGGAAAAAGCGATCAGCGGTCTCTGGCGGGCCTGGAACGCCGGCCAAGGCGTGGCAGAGCACTGGAGCGCCGCCTGCGAGCAACACCAGGTGCTCGCCGAACATGCCCAGGCGTGGTGCCAGAAACAGGCCTCTCGAGCCGATCTTGCCACGGCGCTGGTGAAGTTTTACCGAAATTGGATATGA	MTVRWDIFCTVVDNYGDIGVTWRLARQLVAEHQCAVRLWVDDLRAFERLCPSIDVTLTEQWQQGVQVRHWPKDWQPTEAADVVIAAFACQLPSAYMDAMAERPAAPLWMNLDYLSAEDWVIGCHGLPSVKYKHVQKYFFFPGFQEGTGGLLREAGLLGRRREFQQDGEAQRAFLQGLGVERESGARLISLFAYENDGLASWFDALARDARLSHVLVPESRILADVERWVGIDGLKAGALHRRGALTVQVLPFVRQDEYDQLLWCCDFNAVRGEDSFVRAQWAGRPLLWHIYQQEEDVHLEKLEAFLRLYTEGLPEAAEKAISGLWRAWNAGQGVAEHWSAACEQHQVLAEHAQAWCQKQASRADLATALVKFYRNWI				NA	NA	NA	NA	NA
D1-35_00700	570	efp	COG0231	Elongation factor P	ATGAAAACTGGTAAAGAACTCAAACCCGGTACCGTGATTCGTATCGACAACGATCCTTGGCTGGTTCAGAAAGCTGAATTCACCAAGTCGGGTCGTAACAGCGCGATCATGAAGACCAAGCTGAAAAACCTGCTGACCGGCTACAAGACCGAAACCGTCTACGGTGCGGACGACAAGCTGGACGACGTGATCCTGGACCGTAAAGAGGCGACCCTGTCTTTCATCAGCGGCGATACCTACACGTTCATGGACACCACTGACTACACCATGTACGAACTGAACGCCGAAGACATCGAAAGCGTCCTGCCATTCGTTGAAGAAGGCATGACCGACGTCTGCGAAGCCGTATTCTTCGAAGAGCGCCTGGTTTCCGTGGAACTGCCGACCACTATCGTGCGTGTAGTTGACTACACTGAAGGTTCCGCTCGCGGCGACACTTCCGGCAAGGTCATGAAGCCTGCCAAGCTGAGCAACGGTACTGAGCTGCAAGTTGCTGATTTCATCGAAATCGGTGACAAAATCGAGATCGATACCCGCGAAGGCGGTTCCTACAAAGGCCGCGCTAAATAA	MKTGKELKPGTVIRIDNDPWLVQKAEFTKSGRNSAIMKTKLKNLLTGYKTETVYGADDKLDDVILDRKEATLSFISGDTYTFMDTTDYTMYELNAEDIESVLPFVEEGMTDVCEAVFFEERLVSVELPTTIVRVVDYTEGSARGDTSGKVMKPAKLSNGTELQVADFIEIGDKIEIDTREGGSYKGRAK	PGPT0016205_1052	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-SWARMING_REGULATOR,PGPT0016205-efp-K02356	NA	NA
D1-35_00701	1014	nlhH_1	COG0657	Carboxylesterase NlhH	ATGAACACCCTCAGCAAAGCCCTGACCGGCACCCTTCTCGCCCTGAGCATCAGCAACGCCTTCGCCGACGGCATCGTCGAGCACAACACCCAGGCGTTCCTCGACGCACTGAATGCCGGCACCGGCAAACCGCTGGAGCAGTTGTCGCCAAAAGATGCCCGTGCCGTATTGGTCGGCGCCCAGGCGGGGGTGAAGTTGACGCTACCCAAGGCCGACGTCAGCGAGAAAACCATCCAGGTCGATGGCCAGTCGATCAGTCTGACCATCGTTCGTCCGGCCGGGGTCAAGGGTGAGTTGCCCGCGTTCATGTTCTTTCACGGCGGTGGCTGGGTACTGGGCGATTTCCCCACCCATGAACGACTGGTTCGGGATCTGGTGGCGGGTTCGGGTGCCGTTGCGGTGTTCGTCAACTACACACCATCGCCCGAGGCGCATTACCCGGTAGCGATCAACCAGGCCTACGCCGCGACAAAGTGGGTGGCCGAGCATGGCAAACAGATCAACGTCGATGGCAAGCGCCTGGCCGTAGCGGGCAACAGCGTCGGCGGCAACATGGCGGCGGTCGTCGCGCTGATGGCCAAGGACAAGGGTACGCCGGCGATCCGCTTCCAGGCATTGTTGTGGCCGGTGACCGACGCCAGCTTCGAGACGGCGTCCTACAACCAGTTCGCCGAAGGGCACTTCCTCAGCAAGAACATGATGAAGTGGTTCTGGGACAACTACACCACCGATGCGGGGCAGCGTAACGAGATCTATGCCTCGCCATTGCGGGCAACTACCGCACAACTCAAGGGCCTCCCGCCGGCGCTGGTGCAGACCGCCGAGGCTGATGTGCTGCGCGACGAAGGTGAAGCCTACGCTCGCAAACTGGATGCGGCGGGTGTACCGGTTACAGCCGTGCGCTACAACGGCATGATCCACGATTATGGCTTGCTTAACGTGGTGAGCCAGGTGCCGGCGGTGCGTTCGGCGATGCTGCAGGCGTCCGAGGAACTCAAGCAACACCTGAAGTAA	MNTLSKALTGTLLALSISNAFADGIVEHNTQAFLDALNAGTGKPLEQLSPKDARAVLVGAQAGVKLTLPKADVSEKTIQVDGQSISLTIVRPAGVKGELPAFMFFHGGGWVLGDFPTHERLVRDLVAGSGAVAVFVNYTPSPEAHYPVAINQAYAATKWVAEHGKQINVDGKRLAVAGNSVGGNMAAVVALMAKDKGTPAIRFQALLWPVTDASFETASYNQFAEGHFLSKNMMKWFWDNYTTDAGQRNEIYASPLRATTAQLKGLPPALVQTAEADVLRDEGEAYARKLDAAGVPVTAVRYNGMIHDYGLLNVVSQVPAVRSAMLQASEELKQHLK				NA	NA	NA	NA	NA
D1-35_00702	420	ohrB_1	COG1764	Organic hydroperoxide resistance protein OhrB	ATGAAAACTCTCTACACCGCAATCGCAACCTCCACCGGCGGCCGTGACGGTCGTGCCATCTCCAGCGATAACATCCTCGACGTCAAACTTGCCACGCCCAAGGAACTCGGCGGTGCGGGCGGTGCTGCGACCAACCCAGAGCAACTGTTCGCCGCCGGCTACTCGGCCTGCTTCATCGGCGCGCTGAAATTTGTCGCCAGCCAGAGCAAACGCAAGATCCCGGACGACGCCTCGATCACTGCTCACGTCGGCATCGGCCAGATTCCCGGTGGTTTTGGTCTCGACATCGACCTGCACATCAGCCTGCCAGGTCTTGACCAGGTCGACGCCCAAAGCCTTGTGGAAGCCGCTCACCAGGTTTGCCCGTACTCCAACGCCACCCGCGGCAACGTTGATGTTCGCCTGCACGTAACCGTCTAA	MKTLYTAIATSTGGRDGRAISSDNILDVKLATPKELGGAGGAATNPEQLFAAGYSACFIGALKFVASQSKRKIPDDASITAHVGIGQIPGGFGLDIDLHISLPGLDQVDAQSLVEAAHQVCPYSNATRGNVDVRLHVTV	PGPT0013160_3584	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
D1-35_00703	462	ohrR_1		Organic hydroperoxide resistance transcriptional regulator	ATGACTACCCAACACGACACCCCCGATCCTTGCGAAGCCCTGCTGCTGGAAAACCAGGTCTGCTTCGCCCTGCACTCCACGTCGCTGTTGATGACCAAGGTCTACAAGCCCCTGCTCCAGGCGTTGGGCCTGACCTATCCGCAGTACCTGGCGATGATGGTGTTGTGGGAACAAGACGGGCTGACCGTCGGCGAAATCAGTAACCGCCTGCTCACCGACCCTGGCTCCCTGACCCCGCTGCTCAAGCGCCTGGAGGCCGAAGGCCTGTTGAGTCGCACCCGCAGCCGTGAAGATGAACGCGTGGTCATTGTCGAGCTGACCGAACAGGGCCGCGCCCTGCAGAAAAAGGCCCTCGACATCCCCCAATGCATCCTCGCCGCGAGCGGCCAGACGCTGGAACAACTGAAAAAACTGCAACATGACCTGCAGGAACTGCGCGGGCATTTGCAGGACAGCCTTTGA	MTTQHDTPDPCEALLLENQVCFALHSTSLLMTKVYKPLLQALGLTYPQYLAMMVLWEQDGLTVGEISNRLLTDPGSLTPLLKRLEAEGLLSRTRSREDERVVIVELTEQGRALQKKALDIPQCILAASGQTLEQLKKLQHDLQELRGHLQDSL	PGPT0013155_2357	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
D1-35_00704	750			hypothetical protein	GTGATCGAGGTCATGCTGTATTTGCTGTTGGGCGCCGCGCTGGGCACTTTGGGGGGATTGTTCGGCATTGGTGGCGGGCTGATCGCGATTCCAGTTCTGGGTGTATGGTTCGGCCTGGATCAGCATCTCGCCCAAGGTACGGCATTGGTGATGGTCGTCCCCAACGTGATGCTGGCGCTGTGGCGTTATCACCAGCGTAATCGTATCGAAATGCGCCATGTCCTGCCGCTGGCATCCATGGGCTTCTGCTTCGCGTGGCTTGGCTCCATCTGGGCCGTGGGCATTGACGCGCAAAGCATGCGGATTGGTTTTGTGGTGTTCCTGGTGGTCCTGGCGGCCTACAACCTGATCCGCATGTTCGCCGCGACGGCGCCGGCTTCGGCGCGGATGCGCCACGGCTGGCCTTGGCTCGCCGTGCTGGGCGCGGCATCGGGCACCATGGGCGGTCTGTTTGGGGTGGGCGGAGCGGTTGTCGCCACGCCAATACTGACCAGCGTGTTTGGCACTTCCCAGGTCGTCGCCCAAGGGTTGTCCCTGGCGCTGGCCTTGCCCAGCACGGGTGTGACCCTTGCCACCTATGCGTTTCACCATGAGGTGAACTGGTGGATCGGGCTGCCCCTGGCTGTCGGTGGGCTGATGAGCATCAGTTGGGGGGTGAAGGTCGCCCACGCGATGCCGGAGCGATTGCTGCGCGGGCTGTTCTGCGGCTTCCTGGTGCTGTGCGCGGTGTTGCTCCTGCTTAAAGTTTGA	MIEVMLYLLLGAALGTLGGLFGIGGGLIAIPVLGVWFGLDQHLAQGTALVMVVPNVMLALWRYHQRNRIEMRHVLPLASMGFCFAWLGSIWAVGIDAQSMRIGFVVFLVVLAAYNLIRMFAATAPASARMRHGWPWLAVLGAASGTMGGLFGVGGAVVATPILTSVFGTSQVVAQGLSLALALPSTGVTLATYAFHHEVNWWIGLPLAVGGLMSISWGVKVAHAMPERLLRGLFCGFLVLCAVLLLLKV				NA	NA	NA	NA	NA
D1-35_00705	882	hdfR_1		HTH-type transcriptional regulator HdfR	ATGCAATACATCTCGGAGATTGATCAATTGTCGAGTTACCCGAGCATTGATACGGAAGTGCTGCGGACCTTCGTCGCCATCGCCGACCAGGGCGGCTTCACTCGCGCCGGGGAGCTAGTCAACCGTACGCAATCGGCCGTCAGCATGCAGATGAAGCGCCTGGAAGAGGACGTCTTGCAGCGCCGCCTGTTCGAGCGCGACGGGCGGCAGGTCAAGCTCACCGCCGAGGGCCAGGTGTTGCTGGGTTACGCCCGGCGGATCCTCAAGCTGCACAGTGAAGTGTTCAACACGCTGCGCGAACCGCACATGGTCGGCACGGTCCGCATCGGCACGCCGGACGATTATGTGATGCGCTTTTTGCCGGGAATCCTGCAGCGCTTCGCCCAGTTCTATCCACTGATCGAAATCGAAGTGCACTGCGAATCGTCCAAGCAACTGCTGCTGCGCCAGGATCTCGACCTGTCCATCGTCACTCGCAAACCAGGCGACGAGATCGGTCAGTTGCTGCGCAAGGAACGTTTTGTCTGGGCCGAGGCGGCCTGCTTCAACACTCATGAACAAACACCGCTGCCGCTGGCGATGTTCAACAGTGATTGTTTCTGTCGGCAATGGGCGTGCAATGCGCTGGACGCCATGGGGCGTGATTATCGCGTGGCGTACAACAGCTCAAGCCTGTCAGCGATCATGGCGGTGGTCGGCGCGGGCCTGGCGATCACCGCGCAACTGGAGAGCCTGCTGACCCCGGACATGCGCGTCCTAGGCGAGGCCGAGAACCTGCCGGAGCTGCCCGAGGCCAGCATCATGTTGATCCGCAACCTGCACAATCCGTCGCCGATCACCGAGTGCCTGGCCGAACACATCGTCGAAGGTTTCAAACTTTAA	MQYISEIDQLSSYPSIDTEVLRTFVAIADQGGFTRAGELVNRTQSAVSMQMKRLEEDVLQRRLFERDGRQVKLTAEGQVLLGYARRILKLHSEVFNTLREPHMVGTVRIGTPDDYVMRFLPGILQRFAQFYPLIEIEVHCESSKQLLLRQDLDLSIVTRKPGDEIGQLLRKERFVWAEAACFNTHEQTPLPLAMFNSDCFCRQWACNALDAMGRDYRVAYNSSSLSAIMAVVGAGLAITAQLESLLTPDMRVLGEAENLPELPEASIMLIRNLHNPSPITECLAEHIVEGFKL				NA	NA	NA	NA	NA
D1-35_00706	222			hypothetical protein	ATGAAAGGTCAAAAAGGTTATTTGCTGATTGATAAATTCTCATCCCACGGTTTTTCGCTCAGCGCGCTGTTGCACAAGTTTAGCCGCTGGTACGAATTGCACCACGAGCGTGAACTGCTCGCCTCGATGAGCGATGAGGCGCTCAAGGACATAGGTGTCAGCCGTGCCGATGTTGAAAAGGAAGTGGTTCGGCCATTCTGGGATGACCCGATGCACAAATGA	MKGQKGYLLIDKFSSHGFSLSALLHKFSRWYELHHERELLASMSDEALKDIGVSRADVEKEVVRPFWDDPMHK				NA	NA	NA	NA	NA
D1-35_00707	1230			hypothetical protein	ATGCCCGCGACTGTATCCTTTACCCTCAGACAGGCCCGACGCCTGGCGTTGGCCGCCCAAGGATTCGATGGGCGACCATCGCCAGCTTCGGTGCAACCCGCGCGCCTCAACCGTCTGATCGAGCGCCTCGGCGTCGTGCAGATCGATTCAGTCAATGCCTTGGTGCGCTCGCATTACCTCCCGCTGTTCTCCCGCCTTGGTCACTACAATCGTGACTTGCTCGATCAGGCAGCCTGGAGCCAGGGGGGCCGCCGTACGTTGTTTGAATATTGGGGGCATGAAGCTTCGTTGATGCCGGTTGCGATGTATCCGCTGATGCGTTGGCGCATGGCGCGGGCGGCCCGTGGCGAAGGCATTTACCAGCAGTTGGCGCGGTTTGGTCGTGAGCGGCAGGACGTGATTCATCGGGTCCTTCAGGCGGTTCAGGAGCAGGGCGCGCTTGGCGCCGGCAGCTTGTCCACCCGTCAGGAGAAGGCCGGTCCCTGGTGGGACTGGAGCGCCGAGAAACATGCGCTGGAATGGCTGTTCGCCGCGGGCAAAGTCACCGTAGCCGGGCGGCGGGGGTTCGAGCGGCTCTATGATCTGCCTGAGCGGGTGCTGCCCGAGTCGGTCCTGCGCCAACCGCAGCTGGACGAAGCCCATGCCCAACGCGCGTTGCTCCTGCATGCGGCGCAGGCCTTGGGCGTCGGCACCGAGAAGGACCTGCGTGATTACTTCCGCCTGGATCCGGCCGACAGCCGCGCGCGACTGGCCGAGTTGGAGGAGGCGGGTGAGTTGTTGCGATGTCAGGTGCAGGGCTGGAAGCAGCCGGCCTGGTGCCAACCCACCGTGAAAATCCCCCGCAAGGTCGCTGCCAGTGCCTTGCTGTCGCCGTTCGACTCGCTGGTCTGGGAGCGCAGCCGCACCGAGCGCTTGTTCGACTTCCGCTATCGCCTGGAAATCTACACGCCGGTGCACAAGCGCGTGTATGGCTATTACGTCTTGCCGTTTTTGCACAATGAGCGGATTGCGGCGCGGGTCGATCTTCGTGCGGAGCGGGCCTTGGGGCGGCTGGCCGTGCATGCCGTGCATGAGGAAGAGCCGGGGCTTGACGAGGAGGGCATGCAGGCGCTGGCGATGAATCTGCGGCGCATGGCTGACTGGTTGGGACTGGAGCGGGTGCAGCTCAATTGCCAGCGGGAGGGTGGGGCGCGGTTGGCGGTGGCGTTGGCGCGGGTTGATGGTGGCTGA	MPATVSFTLRQARRLALAAQGFDGRPSPASVQPARLNRLIERLGVVQIDSVNALVRSHYLPLFSRLGHYNRDLLDQAAWSQGGRRTLFEYWGHEASLMPVAMYPLMRWRMARAARGEGIYQQLARFGRERQDVIHRVLQAVQEQGALGAGSLSTRQEKAGPWWDWSAEKHALEWLFAAGKVTVAGRRGFERLYDLPERVLPESVLRQPQLDEAHAQRALLLHAAQALGVGTEKDLRDYFRLDPADSRARLAELEEAGELLRCQVQGWKQPAWCQPTVKIPRKVAASALLSPFDSLVWERSRTERLFDFRYRLEIYTPVHKRVYGYYVLPFLHNERIAARVDLRAERALGRLAVHAVHEEEPGLDEEGMQALAMNLRRMADWLGLERVQLNCQREGGARLAVALARVDGG				NA	NA	NA	NA	NA
D1-35_00708	1347	aroH	COG3200	Phospho-2-dehydro-3-deoxyheptonate aldolase	ATGAGCCAACCCTGGAGCCCTGACAGCTGGCGCGCCCTGCCGATCCAGCAACAACCTCGCTACCCCGACGCGGCGCATCTGCTGCAGGTGGAGCAGACCCTGGCCAGTTATCCGCCCTTGGTGTTTGCCGGTGAAGCCCGGGAATTGCGTCGTCAGTTTGCCGAAGTCACCCAGGGTCGGGCATTCCTGCTGCAGGGCGGCGATTGCGCCGAGAGCTTTGCCGAATTTTCCGCCGCCAAGATCCGCGACACCTTCAAGGTGCTGCTGCAAATGGCGATCGTCATGACCTTCGCCGCCGGTTGCCCGGTGGTCAAGGTCGGGCGCATGGCGGGCCAGTTCGCCAAACCTCGCTCGGCCAACGATGAGACGATCGATGGCGTGACACTACCGGCCTACCGGGGCGACATCGTCAACGGCATCGGCTTCGACGAGAAAAGTCGCGTGCCGGATCCGGAGCGGCTTTTGCAGTCCTATCATCAGTCCACCGCAACCCTCAACCTGCTGCGGGCGTTCGCCCAGGGCGGGTTCGCCGATCTGCACCAGGTGCATAAGTGGAACCTGGACTTCATCGCCAACTCGGCCCTGGCGGAAAAGTACAGCCACCTGGCCGACCGCATCGACGAAACCCTGGCGTTCATGCGCGCCTGCGGCATGGACAGCTCGCCGCAACTGCGCGAGACCAGTTTTTTCACCGCCCACGAAGCGTTGTTGCTCAACTATGAAGAAGCCTTCGTACGCCGTGACAGCCTGACCAACGATTATTACGACTGCTCCGCCCACATGCTGTGGATCGGCGATCGTACCCGCCAGCTGGACGGAGCGCATGTGGAGTTCCTGCGGGGGGTGAACAACCCGATCGGGGTCAAGGTCGGCCCGAGCATGAACCCTGACGACCTGATCCGCCTGATCGACGTGCTCAACCCGGATAACGACCCCGGTCGACTGAACCTGATCGCGCGGATGGGCGCCAACAAGGTCGCTGATCACCTGCCGCAACTGTTGCGCGCCGTGCAGCGTGAAGGCAAGCAGGTGCTCTGGAGTTCCGACCCGATGCACGGCAATACCATCAAGGCCAGCAGCGGCTACAAGACCCGGGATTTTGCGCAGATTCTTGGCGAGGTGAAGCAGTTCTTCCAGGTGCATGAAGCCGAAGGGACCTACGCCGGCGGGATTCATATCGAGATGACCGGGCAGAACGTCACCGAATGCATCGGCGGCGCCCGACCGATCACCGAGGATGGGCTGTCGGATCGTTACCACACGCACTGCGACCCGCGGATGAATGCCGATCAGTCGCTGGAGCTGGCGTTCTTGATTGCCGAGACGCTGAAGCAGGTACGGCGGTGA	MSQPWSPDSWRALPIQQQPRYPDAAHLLQVEQTLASYPPLVFAGEARELRRQFAEVTQGRAFLLQGGDCAESFAEFSAAKIRDTFKVLLQMAIVMTFAAGCPVVKVGRMAGQFAKPRSANDETIDGVTLPAYRGDIVNGIGFDEKSRVPDPERLLQSYHQSTATLNLLRAFAQGGFADLHQVHKWNLDFIANSALAEKYSHLADRIDETLAFMRACGMDSSPQLRETSFFTAHEALLLNYEEAFVRRDSLTNDYYDCSAHMLWIGDRTRQLDGAHVEFLRGVNNPIGVKVGPSMNPDDLIRLIDVLNPDNDPGRLNLIARMGANKVADHLPQLLRAVQREGKQVLWSSDPMHGNTIKASSGYKTRDFAQILGEVKQFFQVHEAEGTYAGGIHIEMTGQNVTECIGGARPITEDGLSDRYHTHCDPRMNADQSLELAFLIAETLKQVRR	PGPT0012920_1972	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012920-3_deoxy_7_phosphoheptulonate_synthase|aroF|aroG|aroH-K01626	NA	NA
D1-35_00709	756	speE_2		Polyamine aminopropyltransferase	ATGACAGAGGAGCGCGTCGAGCATTTGCTCGCCGAGGTGCACGACGAGTTCGGCATGATCCGCGTACTCGAAGTGGCCGATTACCGGTTTCTCGAATTTGGCGATGCGATCGAGCAGAGCTGCGTGTTCACGGCTGATCCGAGCTGGCTCGAATATGACTACACCCGCGCCATGCTCATCGGTGCGTTGTGCCACGAGCAACCGGAGAGCGCGCTGTTCCTCGGGCTGGGGGCCGGTACGCTGACCCAGGCCTGTCTCAAGTTCCTGCCGCTGGAGGATGTCGAGGCCATCGAACTGCGCCCCGACGTGCCGCGCCTGGCCATCGAATACCTCGGGCTGGACGATGATCCGCGCCTGTACATTCGTGTCGGTGATGCCTTGGAGCTGCTTGAAACGGCGGAGCCGGCGGACCTGATTTTCGTCGACCTCTATACCGATGTCGGTCCCGGCGTCGGTCACCTGGCCTGGGGATTTCTGGAAAACTGCCAGAAGCGCCTCAATCCCGGCGGCTGGCTGGTGATCAACCAGTGGGCCACCGACGATGGCAAGCCGCTGGGCGCGGCGCTCTTGCGCGGCTTGTATCACCGGCACTACTGGGAGTTGCCGGTGAAGGAGGGCAACGTCATCCTGATCGTGCCGGCGGACCTGGACCAGGCATTGGACATGCAAGGTCTGGTCGCCCGTGCCGAAGGGCTCGCGCCGCGGCTGGGTTATTCGTTGCAATCGTTGATCAAGGCAATCCGCCCGGCGACTTGA	MTEERVEHLLAEVHDEFGMIRVLEVADYRFLEFGDAIEQSCVFTADPSWLEYDYTRAMLIGALCHEQPESALFLGLGAGTLTQACLKFLPLEDVEAIELRPDVPRLAIEYLGLDDDPRLYIRVGDALELLETAEPADLIFVDLYTDVGPGVGHLAWGFLENCQKRLNPGGWLVINQWATDDGKPLGAALLRGLYHRHYWELPVKEGNVILIVPADLDQALDMQGLVARAEGLAPRLGYSLQSLIKAIRPAT				NA	NA	NA	NA	NA
D1-35_00710	1674	deaD	COG0513	ATP-dependent RNA helicase DeaD	ATGACCCAGGAAACCGGCGGCTTCGCCGCTTTTAATCTCAACCCGAACATTCTTGCTGCCGTCATTGCGACTGGCTACGAAGAACCTTCGGCTATTCAGCAGCAATCGATCCCGATCATCATGGCCGGCCACGACATGATTGGCCAGGCGCAAACCGGTACGGGTAAAACCGCTGCGTTCGCCCTGCCGATCCTGCATCGCATCGATCCTGCCAAGCGCGAGCCGCAAGCCCTGATCCTGGCGCCAACCCGTGAGTTGGCGCTGCAAGTAGCAACCGCTTTCGAAACCTACTCCAAGCAGATGCCTGGCGTTACCGTTGTGGCCGTTTACGGCGGCGCCCCGATGGGCCCACAACTGAAAGCAATCCGTAATGGCGCGCAGATCGTTGTCGCCACCCCGGGCCGTCTCTGCGACCACCTGCGTCGTGACGAGAAAGTCCTCGCTACCGTGAACCACCTGGTTCTCGACGAAGCGGACGAAATGCTCAAGCTGGGCTTCATGGATGACCTGGAAGTCATCTTCAAGGCCCTGCCAGCGACTCGCCAGACTGTTTTGTTCTCGGCCACCCTGCCGCAATCGATCCGTGCCATTGCCGAGCGCCACCTGCGCGATCCGCAACACGTGAAGATCCAGACCAAGACCCAGACCGTTACCGCGATCGAGCAGGCTCACCTGCTGGTTCACGCTGACCAGAAGACTTCTGCCGTTCTCAGCTTGCTGGAAGTGGAAGACTTCGACGCCCTGATCATGTTCGTGCGCACCAAGCAAGCGACCCTGGACCTGGCCAGCGCCCTGGAAGCCAAAGGCTACAAAGCCGCTGCGCTGAACGGTGACATTGCCCAGAACCAGCGCGAGCGCGTGATCGATTCCCTCAAGGATGGCCGTCTGGACATCGTTGTGGCGACCGACGTTGCTGCCCGTGGTCTGGACGTTCCGCGCATCACCCACGTGTTCAACGTGGACATGCCATACGATCCGGAATCCTACGTCCACCGTATCGGCCGTACCGGCCGTGCCGGTCGCGAAGGTCGCGCGCTGCTGCTGGTGACTCCGCGTGAGCGCCGCATGCTGCAAGTGATCGAGCGTGTAACCGGTCAGAAGGTCGCGGAAGTTCGCCTGCCGGACGCCCAGGCCGTTCTCGATGCCCGCATCAAGAAACTGACCAACAGCCTGTCGCCGCTGGTGGCTGACGCCGAATCGACCCACGGTGATCTGCTCGATCGCCTGACCGCCGACATCGGTTGCACCCCGCGTGCCCTGGCCGCTGCCCTGCTGCGCAAGGCTACCAACGGTCAGGCGCTGACCCTGGCGGCGATCGAGAAGGAACGTCCACTGGTGCCGAACAGCGCGCCGCGTGGCGATCGTCCCGAGCGTACCGGTGATCGTCCGGACCGTGGTGATCGCGAGCGTCGCGCGCCGATCCCGCTGGGTGAAGGCCGTGCCCGCTGCCGTACCGCGCTGGGCGCTCGTGACGGCATTGCCGCCAAGAACCTGCTGGGCGCGATCCTCAACGAAGGCGGCCTGGCCCGCGAAGCGATCGGTCGCATCCAGGTGCGTGACAGCTTCAGCCTGGTGGAACTGCCGGAAGAAGGCCTGGAGAAGTTGCTGACCAAGCTCAAGGACACTCGCGTAGCTGGCAAGCAGCTCAAGCTGCGTCGCTACCGCGAGGATTGA	MTQETGGFAAFNLNPNILAAVIATGYEEPSAIQQQSIPIIMAGHDMIGQAQTGTGKTAAFALPILHRIDPAKREPQALILAPTRELALQVATAFETYSKQMPGVTVVAVYGGAPMGPQLKAIRNGAQIVVATPGRLCDHLRRDEKVLATVNHLVLDEADEMLKLGFMDDLEVIFKALPATRQTVLFSATLPQSIRAIAERHLRDPQHVKIQTKTQTVTAIEQAHLLVHADQKTSAVLSLLEVEDFDALIMFVRTKQATLDLASALEAKGYKAAALNGDIAQNQRERVIDSLKDGRLDIVVATDVAARGLDVPRITHVFNVDMPYDPESYVHRIGRTGRAGREGRALLLVTPRERRMLQVIERVTGQKVAEVRLPDAQAVLDARIKKLTNSLSPLVADAESTHGDLLDRLTADIGCTPRALAAALLRKATNGQALTLAAIEKERPLVPNSAPRGDRPERTGDRPDRGDRERRAPIPLGEGRARCRTALGARDGIAAKNLLGAILNEGGLAREAIGRIQVRDSFSLVELPEEGLEKLLTKLKDTRVAGKQLKLRRYRED				NA	NA	NA	NA	NA
D1-35_00711	768	ygiD	COG3384	4,5-DOPA dioxygenase extradiol	ATGCTGCCCAGCCTGTTTATCTCCCATGGTTCACCGATGCTTGCTCTGGAACCCGGCGAGAGCGGCCCGGCCTTGGCTCGCCTGGCCGCGCAAATGCCGAAGCCCAAGGCCATCGTGATTGTGTCCGCCCATTGGGAGAGCAATGAACTGCTGGTCAGCGCCAACCCGCGACCGCGTACATGGCATGACTTCGGTGGCTTCCCGAAAGCGTTGTACGAAGTGCAATATCCGGCGCCAGGCGATCCCCTGCTGGCAACGCAGGTCGCCGAACTGCTCAATGCAGCGCAATTGCCGGTACGCCTGGAGACAGGGCGGCCATCGGACCATGGCGTCTGGGTGCCGCTGTCGTTGATGTACCCCGAGGCCGATATTCCCGTGGTACAGGTTTCCCTGCCCAGCCAGCGCGGCCCGACACTGCAGACGCAGGTCGGCCGGGCCCTGGCAGGACTGCGCGAACAGGACATCCTGCTGATCGGTTCCGGCAGCATCACGCATAACCTGGGGGATCTGGACTGGAACGCCGGCCCTGACAGCATCGAGCCCTGGGCCAAGGCATTCCGCGATTGGATAGTGGCGCAACTGGCGGCCAACGACGAGTTCGCGTTGCATGATTACCGCCGCCAGGCCCCCAGTGCGGTGCGTAGCCATCCCAGCGACGAGCACCTGCTGCCGCTGTATTTTGCCCGGGGTGCGGGTGGGAAATTCAGCATTGCCCATGAAGGGTTCACGATGGGAACGTTGGGGATGGACATTTATCGGTTTGATTGA	MLPSLFISHGSPMLALEPGESGPALARLAAQMPKPKAIVIVSAHWESNELLVSANPRPRTWHDFGGFPKALYEVQYPAPGDPLLATQVAELLNAAQLPVRLETGRPSDHGVWVPLSLMYPEADIPVVQVSLPSQRGPTLQTQVGRALAGLREQDILLIGSGSITHNLGDLDWNAGPDSIEPWAKAFRDWIVAQLAANDEFALHDYRRQAPSAVRSHPSDEHLLPLYFARGAGGKFSIAHEGFTMGTLGMDIYRFD				NA	NA	NA	NA	NA
D1-35_00712	705	tpm		Thiopurine S-methyltransferase	ATGGACCCCGAGTTTTGGCACAAGCGTTGGTCAACCAACCAGATCGGTTTTCATCTGCCGGAAGTGAACCCTTACTTGCAGCGTTTCTGGCCACAGTTGGGATTGCCTGAAGAAACTCGAGTATTGGTGCCCTTGTGCGGCAAGACGCTGGATCTGCTGTGGTTGGCGCAACAAGGTTTTTCCGTGCTGGGGGTGGAGCTATCGGAAAAGGCCGTCACTGATTTTTTCCAGGAGCATCAGCTTGAGCCAAACGTGAGTGAGGAGGGCGCCTTCAAGGTATTTCGTTCTGGTGCCATCGAGATCCGCTGCGGTGATGTCTTTGCGTTGACGCCTTTGGACGTCGCGGATTGCGCGACGTTGTATGACCGTGCGGCACTGATCGCCCTGCCTGCACCGATGCGCGAGCGTTATGCGGCCCATCTGCAGAACATAATGCCGGACTGCGTCGGCCTGCTGATTACCCTGGACTACAACCAGGACGAGATGCCTGGGCCGCCGTTTTCGGTAGGACATGAAGAGGTGCAGCGGTTGCTGGGCGGGGCTTGGCAATTGCAAGTCCTGCAGGAGCAGGATGTGCTGGGCGAGAGTTGGAAGTTCTTGCAGGCGGGCGTGAAGCGGCTGGATGAGCGGGTATATCTGGTGTCCAGTCGTGGGGTGCGCTCAATGACCCCGTCCCGGACGGGCCCGCTGCCGCTTTTGACTTAG	MDPEFWHKRWSTNQIGFHLPEVNPYLQRFWPQLGLPEETRVLVPLCGKTLDLLWLAQQGFSVLGVELSEKAVTDFFQEHQLEPNVSEEGAFKVFRSGAIEIRCGDVFALTPLDVADCATLYDRAALIALPAPMRERYAAHLQNIMPDCVGLLITLDYNQDEMPGPPFSVGHEEVQRLLGGAWQLQVLQEQDVLGESWKFLQAGVKRLDERVYLVSSRGVRSMTPSRTGPLPLLT				NA	NA	NA	NA	NA
D1-35_00713	888	htpX	COG0501	Protease HtpX	ATGATGCGCATCCTGCTGTTCTTGGCCACTAACCTGGCGGTCGTGCTGATTGCCAGCATCACCCTGAGCCTTTTCGGCTTCAACGGGTTCATGGCGGCCAACGGGGTTGATCTCAACCTCAATCAGCTGCTGATCTTCTGTGCGGTGTTCGGTTTTGCCGGTTCCCTCTTCTCGCTGTTCATCTCCAAGTGGATGGCGAAGATGAGCACCGGCACCCAGATCATCAGCCAGCCGCGCACTCGTCACGAACAATGGCTGCTGCAGACCGTCGAGCAGTTGTCCCGTGAAGCCGGGATCAAGATGCCGGAAGTCGGGATCTTCCCGGCGTACGAAGCCAACGCCTTCGCCACCGGCTGGAACAAGAACGACGCCTTGGTCGCCGTCAGCCAGGGCCTGCTGGAACGGTTTTCGCCAGATGAAGTGAAAGCTGTGCTGGCCCACGAGATCGGCCACGTCGCCAACGGCGACATGGTGACTCTGGCGTTGATCCAGGGTGTGGTGAACACCTTCGTCATGTTCTTCGCCCGCATCATCGGCAACTTTGTCGACAAGGTGATTTTCAAGAACGAAGAAGGCCAGGGTATCGCCTACTACGTGGCGACCATCTTCGCCGAGCTGGTCCTGGGCATCCTCGCCAGCGCCATCGTCATGTGGTTCTCGCGCAAACGCGAGTTCCGCGCCGATGACGCCGGTGCGCGCCTGGCCGGCACCAGCGCCATGATTGGCGCCCTGCAGCGCCTGCGCGCCGAACAAGGCCTGCCGGTGCACATGCCCGATACCTTGAATGCCTTCGGCATCAACGGCGGCATCAAGCAGGGCCTGGCTCGCATGTTCATGAGCCACCCACCGCTGGAAGAGCGAATCGACGCACTGCGTCGTCGCGGCTAA	MMRILLFLATNLAVVLIASITLSLFGFNGFMAANGVDLNLNQLLIFCAVFGFAGSLFSLFISKWMAKMSTGTQIISQPRTRHEQWLLQTVEQLSREAGIKMPEVGIFPAYEANAFATGWNKNDALVAVSQGLLERFSPDEVKAVLAHEIGHVANGDMVTLALIQGVVNTFVMFFARIIGNFVDKVIFKNEEGQGIAYYVATIFAELVLGILASAIVMWFSRKREFRADDAGARLAGTSAMIGALQRLRAEQGLPVHMPDTLNAFGINGGIKQGLARMFMSHPPLEERIDALRRRG	PGPT0014605_1969	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014605-htpX|ykrL-K03799	NA	NA
D1-35_00714	1212	alaA	COG0436	Glutamate-pyruvate aminotransferase AlaA	ATGCAGGTCAGCAAATCGAACAAGCTCGCCAACGTCTGCTACGACATTCGCGGCCCGGTGCTCAAGCACGCCAAACGCCTGGAAGAGGAAGGCCATCGCATCCTCAAGCTGAACATCGGCAACCCGGCGCCCTTTGGTTTCGAAGCCCCCGATGAAATTCTCCAGGACGTCATCCGCAACCTGCCGACCGCGCAAGGCTACAGCGACTCCAAGGGCCTGTTCAGTGCGCGCAAGGCCGTGATGCAGTATTACCAGCAGAAGCAGGTCGAAGGCATCGGCATCGAGGACATCTACCTGGGCAACGGCGTGTCCGAGCTGATCGTGATGTCGATGCAGGCCTTGCTCAACAACGGCGACGAAGTGCTGGTGCCGGCGCCGGATTATCCGCTGTGGACCGCCGCCGTCAGCCTGTCCGGCGGCAACCCGGTGCATTACCTGTGCGACGAGCAGGCCAACTGGTTCCCTGACCTGGCGGACATCAAGGCCAAGATCACCCCGAATACCAAGGCCCTGGTGATCATCAACCCGAACAACCCGACCGGCGCGGTGTATTCCCGCGAGGTGCTGCTGGGCATGCTCGAACTGGCCCGCCAGCACAACCTGGTGGTGTTCTCCGACGAGATCTACGACAAGATCCTCTACGATGACGCCGTGCACGTCTGCACCGCCTCGCTGGCACCGGACCTGCTGTGCCTGACCTTCAACGGCCTCTCCAAGTCCTATCGTGTCGCCGGCTTCCGCTCCGGCTGGATCGCCATCTCCGGCCCCAAGCACCACGCTCAGAGCTACATCGAAGGCATCGACATGCTGGCCAACATGCGCCTGTGCGCCAACGTGCCGAGCCAGCATGCGATCCAGACAGCGTTGGGTGGCTACCAGAGCATCAACGACCTGGTCCTGCCCCAGGGCCGTTTGCTGGAACAGCGCAATCGCACCTGGGAACTGCTCAATGACATCCCCGGCGTCAGCTGCGTCAAACCGATGGGTGCGCTGTATGCCTTCCCGCGAATCGACCCGAAGGTCTGCCCGATACACAACGACGAGAAATTCGTCCTCGACCTGCTGCTGTCGGAGAAATTGCTGGTCGTCCAGGGAACGGCGTTCAACTGGCCATGGCCGGACCATTTCCGCGTCGTGACCCTGCCGCGGGTTGACGACCTCGATCAGGCCATTGGCCGCATCGGCAATTTCCTCAAATCCTACCGTCAATGA	MQVSKSNKLANVCYDIRGPVLKHAKRLEEEGHRILKLNIGNPAPFGFEAPDEILQDVIRNLPTAQGYSDSKGLFSARKAVMQYYQQKQVEGIGIEDIYLGNGVSELIVMSMQALLNNGDEVLVPAPDYPLWTAAVSLSGGNPVHYLCDEQANWFPDLADIKAKITPNTKALVIINPNNPTGAVYSREVLLGMLELARQHNLVVFSDEIYDKILYDDAVHVCTASLAPDLLCLTFNGLSKSYRVAGFRSGWIAISGPKHHAQSYIEGIDMLANMRLCANVPSQHAIQTALGGYQSINDLVLPQGRLLEQRNRTWELLNDIPGVSCVKPMGALYAFPRIDPKVCPIHNDEKFVLDLLLSEKLLVVQGTAFNWPWPDHFRVVTLPRVDDLDQAIGRIGNFLKSYRQ	PGPT0001880_1708	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0001880-alaA-K14260	NA	NA
D1-35_00715	396	msrB	COG0229	Peptide methionine sulfoxide reductase MsrB	ATGGAAAAGTTGCAGAAAACCCTTGAAGAATGGCGTGAGATGCTCGACCCGGAGCAGTACAACGTCTGTCGCCTCAAAGGCACCGAACGCCCATTTTCCGGCAAGTACAACGCGACCAAGACCGACGGCATCTACCACTGCATCTGCTGCAACGAGCCGTTGTTCGATTCGACGACCAAATTCGATTCCGGCTGCGGCTGGCCGAGTTTCTACGCCCCGATCGAGGGGAGCGCGGTGGTGGAGGTGCGAGATGTCAGCCACGGCATGATTCGCACCGAGGTGGTCTGCGCCAGATGCGACGCGCATCTGGGCCATGTCTTCCCTGACGGCCCACCGCCCACTGGCTTGCGTTACTGCATCAACTCGGTGTGCCTGGATCTCGTGCCTCGCGAGTAA	MEKLQKTLEEWREMLDPEQYNVCRLKGTERPFSGKYNATKTDGIYHCICCNEPLFDSTTKFDSGCGWPSFYAPIEGSAVVEVRDVSHGMIRTEVVCARCDAHLGHVFPDGPPPTGLRYCINSVCLDLVPRE	PGPT0013070_5013	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013070-msrB-K07305	NA	NA
D1-35_00716	486	gpx1		Hydroperoxy fatty acid reductase gpx1	ATGTCCGACAATCTGCTGAGCATTCCCTGCACCACCATCAAGGGCGAGCAGAAGACGCTCGCCGATTTTGCCGGCAAGGCCGTGCTGGTGGTCAACACCGCCAGCCAATGCGGCTTCACCCCGCAGTACAAAGGTCTTGAGGCTTTGTGGCAATCCTACAAGGACCAGGGCCTGGTGGTGCTGGGCTTTCCTTGCAACCAGTTCGGCAAGCAGGAACCAGGCAACGAAGGGGCGATCTCCGAGTTTTGCGAGCTCAACTTCGGCGTGAGTTTTCCGTTGTTCAAGAAGATCGATGTCAACGGGGCAAACGCCCATCCGCTATTTGTCCAGCTCAAGCAGCGGGCGCCCGGTGTGCTGGGGTCCAAGGGCATCAAGTGGAATTTCACCAAGTTCCTGATTGGCAAGGACGGCCAGGTGGTCAAGCGCTTCGCCCCGACCACCAAGCCCGAGGATCTCACCGGCGAGATCGAAGCCCTGCTGAAATGA	MSDNLLSIPCTTIKGEQKTLADFAGKAVLVVNTASQCGFTPQYKGLEALWQSYKDQGLVVLGFPCNQFGKQEPGNEGAISEFCELNFGVSFPLFKKIDVNGANAHPLFVQLKQRAPGVLGSKGIKWNFTKFLIGKDGQVVKRFAPTTKPEDLTGEIEALLK	PGPT0013115_4245	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013115-bsaA|gpx|btuE-K00432	NA	NA
D1-35_00717	462	ohrR_2		Organic hydroperoxide resistance transcriptional regulator	ATGAGCGACCTGTCAGTCGATTCGCTGAAGCTCGACAGCCAGTTGTGCTTCAAGCTGTACGCCGCATCACGGGCGGTGATTCGTGGCTACAAGCCGATGCTCGATCAGCTTGGCCTGACCTATCCGCAGTACCTGGCGATGCTGGTGCTGTGGGAATGGCAGGACAACTCCCCGGAGCAGCCCACGGTCAAGGCGCTTGGAGAGCGTCTGCTGCTGGATTCCGGCACGCTGACACCGTTGCTCAAGCGCCTGGAGCAACTGAGTCTGATCCGCCGCCAACGCTCGGTCCAGGATGAGCGAGAGGTACATTTGAGCCTGTCGGATGCGGGCCGCGCCTTGCGCGAGCAGGTCGGCCCGCTCAAGGCGCGCCTGCTGTGCGACAGCGGGATCGATCTGGATCGCGTGGGCGAGTTGCGCGATGGCCTGGATCACCTGCTCAAGCAGATCAAAGGGCTGACGTAG	MSDLSVDSLKLDSQLCFKLYAASRAVIRGYKPMLDQLGLTYPQYLAMLVLWEWQDNSPEQPTVKALGERLLLDSGTLTPLLKRLEQLSLIRRQRSVQDEREVHLSLSDAGRALREQVGPLKARLLCDSGIDLDRVGELRDGLDHLLKQIKGLT	PGPT0013155_2356	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
D1-35_00718	2322	rcsC_4		Sensor histidine kinase RcsC	ATGGACATCAGATTCACCCAACGGCTGTCGTACAAACAGGCTCGACTGACCGTCATGGTGGGTTTCGTGCTGGGCACCTTCCTAAGCCTGGTACAGATCGGCATCGATTATGCCAGCGAAGACGCGTCGATCAACCGTGAAATCCTCTCGTTGCTGGAAATCAGCCACAACCCGGCCTCGCGCATCGCCTATAACATCGATGCCGAGCTTGCCCAGGAACTGGCCCTGGGCCTGTTGCGCTCGCCGGCCATCGTCGGCGCCGAACTGATCGATAACAACAATACGGTGCTGGCCAGCGTCAAGCGACCCGAGCTGCAAAGCAGTTACCGATTTATCAGCGACTCGCTTTTTGGCGCCCAACGACAGTTCGAAGACCGGCTCTACCTGAATCATTCGCCGGGCGAGTCCCTCGGCGTGCTGCGACTGGATGTAGACACCTATGCGTTCGGCAGCCGTTTCCTGCGCCGGGCCGAGGTGACACTGCTCAACGGTTTCGCCCGCAGCCTGATCCTGACCGGCCTGCTGCTGGCGCTGTTCTATGTCATGCTGACCAAACCCTTGGTGCGGGTCATCCGCGAACTCAGCAGCCGCGACCCGGGCAGCAGCGAACAGCGCCCGCTGGAATGTCCTTCCGGCCACCAACACGACGAAATCGGCGTGCTGGTCTCGGTCGCCAACCAGCAGTTCGAGAATGTCTCCACTGAAATCCAGCAACGGCGCGCGGCTGAAAATCGTCTGACCGATTACCTGGCGCAACTGGAGAATATCGTTTCGGCGCGCACGGCCGAGCTAAAGGCCATCAATGCCCGGCTCAGCCAGTCCAACGAGGAGCTGGATATTGCCCGGCGCACCGCCCTCGACATGGCTGACGCGCGCTCCGCGTTCCTGGCCAACATGAGCCATGAGATCCGCACCCCCCTCAATGGCTTGCTCGGGATGATCGCCCTGTCCCTGGATGGCCCGTTGACGGCCGAGCAACAACAACAGCTGTCGATAGCGCATGACTCCGGCAAGGTATTGGTCGAGCTGCTCAACGACATTCTCGATCTGTCCAAATTCGACGCCGGCCAACTGGAACTCGAACGTATCCCGTTCGACCTTGGCGCGCTGGTCGAAGACACCGCCAACCTGCTGTCGCAGAACGCGGCGCCAAGCGTCGAACTGGCGTGTCTGATCGATCCGCAGTTCCCAGCCCAGGTACTGGGCGACCCGACCCGCGTTCGCCAGATCGTCAGCAACCTGCTTTCCAACGCGTTGAAGTTCACCCGTTTCGGTCGGGTCGATGTGCGATTGAATCACTATGAAGGCGGCGTGCGGGTCGAGGTCTGGGACACCGGCATCGGCATTCCCCAGGAGGACCAGGCGCGGATTCTCCAGCCGTTCACCCAGGCCGGCGCGGGCATTACCCGCCAGTTCGGCGGCACCGGGCTGGGCCTGGCACTGACCTACAACCTCTGCGAGGCGATGCAGGGCCGGTTGACGATCAGTTCCGAGGCGGGCTTCGGCAGCCAGTTCTGCGCCGACCTGCCGCTGCCCGCCCACAGCCCGGCCGCGCCCGTCGAGACCTTGCGGGGCAACGTGGTCGCCATCACCACCGCCAACAGCGGGCTGGCCGAATTGCTGGGCATGTTGCTGCCGGTCTGGGGACTGGATTACATACAGCGCACCGTGGACGACGGGCTGCTGGGGCTCAAGCCGGACATCCTGATCACCGATTGCCCGGAATGCCTGTTCAATTTACGCCCGACCTTCGACGCCCCGATCCTGCTCGTCACCGCCTATGGCAGTTTCATGCCCAGCGAAGAAGCCGCCACCCTCGCGCCTTTGCTGCAGCAGGCCCGACCGCTGGCGCGCCACGCGCTTTACCAGATCCTGCGCCGGGCCCTGCAAAGCGAGGCGACGACCATCAACGACGCGCAGATCGAAGCACTGGCGCCCTCGCGGCGTGGCCGGGTGCTGCTGGTGGAGGACAACCCGGTCAACCAACTGGTGGCCAAGGGCATGCTGGTCAAGCTGGGGTGTGAGGTAGTGGTCGCGGCCCATGGCGCCGAAGCCCTGGACCAGCTCGAACAGCAAGCGTTCGACCTGGTCCTGATGGACTGCAACATGCCGGTCATGGATGGTTACGAAGCCAGCCGGCAGATTCGCCGCAGCGGCCGCTGGCCGGACCTGCCGATCGTCGCGCTGACGGCCAACGCGATGCCCGAGGAACGCGAACGCTGCCGGGCCGCCGGCATGAGCGATTACCTGTCCAAGCCGTTCCGTCGCGAGGAACTGGCGGCATTGCTGGACCAGTGGGTGCCGACTACGTCAGCCCTTTGA	MDIRFTQRLSYKQARLTVMVGFVLGTFLSLVQIGIDYASEDASINREILSLLEISHNPASRIAYNIDAELAQELALGLLRSPAIVGAELIDNNNTVLASVKRPELQSSYRFISDSLFGAQRQFEDRLYLNHSPGESLGVLRLDVDTYAFGSRFLRRAEVTLLNGFARSLILTGLLLALFYVMLTKPLVRVIRELSSRDPGSSEQRPLECPSGHQHDEIGVLVSVANQQFENVSTEIQQRRAAENRLTDYLAQLENIVSARTAELKAINARLSQSNEELDIARRTALDMADARSAFLANMSHEIRTPLNGLLGMIALSLDGPLTAEQQQQLSIAHDSGKVLVELLNDILDLSKFDAGQLELERIPFDLGALVEDTANLLSQNAAPSVELACLIDPQFPAQVLGDPTRVRQIVSNLLSNALKFTRFGRVDVRLNHYEGGVRVEVWDTGIGIPQEDQARILQPFTQAGAGITRQFGGTGLGLALTYNLCEAMQGRLTISSEAGFGSQFCADLPLPAHSPAAPVETLRGNVVAITTANSGLAELLGMLLPVWGLDYIQRTVDDGLLGLKPDILITDCPECLFNLRPTFDAPILLVTAYGSFMPSEEAATLAPLLQQARPLARHALYQILRRALQSEATTINDAQIEALAPSRRGRVLLVEDNPVNQLVAKGMLVKLGCEVVVAAHGAEALDQLEQQAFDLVLMDCNMPVMDGYEASRQIRRSGRWPDLPIVALTANAMPEERERCRAAGMSDYLSKPFRREELAALLDQWVPTTSAL	PGPT0025845_100	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_REGULATORS	CE-QSR-QUORUM_SENSING_REGULATED_FLS,PGPT0025845-sagS-K20973	NA	NA
D1-35_00719	891			hypothetical protein	GTGGACGCCCGATTGAATGCTTTTCTTGAGCGCGCCGATGCGGTGCTTGCCCGTATCGAGCCCTTGTTGCCCGCTCCGCGGCCCGACATCGACTGGAGCCAGACCCTGGCCGCCCGCTGGCAACGCGACGGGCGCAGCGGCTTCCTGATGCCGTTGACGGTCAGCCTCGACATGCGCCTGTCGGACCTGATCGGTGTCGACCGTCAGGTTGAACAACTGGGCCGCAACACCCGTCAGTTCATCGATGGCATGCCGGCCAACCACGCTTTGCTCTGGGGCTCGCGCGGCACCGGCAAGTCGTCGCTGGTACGGGCCTTGCTGGCTGAGCATGCCGGGCAGGGCCTGCGCTTGATCGAGATCGAGCGTGACCACCTGGCCGATCTGCCCCGGGTAGTCGAGCAGGTGGCAAAACTGCCCCAGCGTTTTGTGCTGTTCTGCGATGACCTGTCGTTCGAGTCCGGCGAAGGCGACTACCGCGTGCTCAAGAGTGTGCTCGACGGTTCCCTGGAACAGGCGCCGGACAATGTGCTGCTGTACGCCACCTCGAACCGCCGTCACCTGGTACCGGAAAAGGAAAGCGACAACGAGAACTGGAAACGGGTCGACGGCGAGCTGCACCCCAGCGAGGCGGTGGAAGACAAGATCGCCTTGTCCGACCGCTTCGGGTTATGGCTATCGTTCTATCCATTTACCCAGGAGCATTTCCTCGATGTGGTAGAGCATTGGATCGGCGAGCTGGCGGCCAAGGCCGGGCTCGACTGGCAGCGTGACGAAGCACTGGATGTGCAGGCGGTGCGCTGGGCAACCGGACGTGGCAACCGCAACGGACGTTGCGCCTATCAATTTGCCCGTTATTGGGTGGGCCTCAAACTCCTGGAGCACAAAGCATGA	MDARLNAFLERADAVLARIEPLLPAPRPDIDWSQTLAARWQRDGRSGFLMPLTVSLDMRLSDLIGVDRQVEQLGRNTRQFIDGMPANHALLWGSRGTGKSSLVRALLAEHAGQGLRLIEIERDHLADLPRVVEQVAKLPQRFVLFCDDLSFESGEGDYRVLKSVLDGSLEQAPDNVLLYATSNRRHLVPEKESDNENWKRVDGELHPSEAVEDKIALSDRFGLWLSFYPFTQEHFLDVVEHWIGELAAKAGLDWQRDEALDVQAVRWATGRGNRNGRCAYQFARYWVGLKLLEHKA				NA	NA	NA	NA	NA
D1-35_00720	483	msrC	COG1956	Free methionine-R-sulfoxide reductase	ATGATCGATTTGACCCACACCGGTGACGGCCTCGAAGGCTACGGCCTGTTGTCGGCACAGCTGCAATCGTTGCTGGCGGATGAACGCGACTTCATCGCCAATGCCGCGCAATTCTCGGCTTTCCTGTTCAGTCAGTTGGAGGGTCTGAACTGGGCCGGTTTCTACCTCAACCGCAGCGAGGAATTGGTGCTGGGGCCGTTCCAGGGCCAGATTGCCTGTGTGCGCATTCCCTTCGGTCGTGGTGTCTGCGGCACGGCGGCGGCGACTCGCCAAACCCAGCGTGTCGAAGATGTCCACGCGTTTCCCGGGCACATTGCCTGCGACAGCGCCTCGAACAGCGAACTGGTGGTGCCGCTGGTCAAAGAGGGACGACTGATCGGCGTGCTGGACCTGGACAGTCCGAAACCGGCGCGCTTCACCGAGCACGACCAGGCCGGCATCGAGCAACTGGCGGCAATCTTCCTGCGGCTGACCGATTGCTGA	MIDLTHTGDGLEGYGLLSAQLQSLLADERDFIANAAQFSAFLFSQLEGLNWAGFYLNRSEELVLGPFQGQIACVRIPFGRGVCGTAAATRQTQRVEDVHAFPGHIACDSASNSELVVPLVKEGRLIGVLDLDSPKPARFTEHDQAGIEQLAAIFLRLTDC				NA	NA	NA	NA	NA
D1-35_00721	2949			hypothetical protein	ATGCCCAGCGCACCGCGTCCGGAAAAACGCCGGTTTCCCCTGCACGTCCATATCAGCGTGATGTTTACCCTGCTCCTGCTGCTGACCGGCGTCGTGCTGGGCGTCTTCAACTACCGGCAAACCACCCAGATCATCCTGTCCAGCAGCGAAAAGCTGTTCAATCGAATTGAACAGGACGTACGCCTGGACCTGTACGACACCTACGAACCGATCCGTCATCTGCTGGGCCTGCTGGCCGATTACCCGGCGACGCGTGCGCCTGGGATGGCGCAACGGCTGGACCTGCTCGTGCCCTTCAGCCAGGCGCTGCGAGACAACCCGAACCTGGCGTCGCTGTACCTGGGTGACAGCAAGGGCGAGTTTTTCATGGTCCGGCCGTTGCGCACCGATGCCTTGAGGGCTGCGATGAAGGCACCGGTCGGCGCGCTGTATCAGGTCTGGACCGTTGAGCGCGCCGGCAACGAAGGCCTGGTTCGCTCGCAATCGTTGTTCTATGACCGGGACCTTAACCTTCTCAGCCGCCTGCAACATCCTGACGAAACCTACGATCCGCGGAGCCGGGGCTGGTTCCGTAGCGCCTTGAACAGCCATGAACAGATCACCACCGAACCCTACGTGTTCTTTTCCACCCGAAACATCGGCACCACCCTTGCGCGGCGCAGCGGCGAGCAGGCCGTCATCGGCGCTGACCTGACCCTCGCCGCCCTGTCCCAGACATTGGCCAAGCACAAGGTGAGCGCCGGCACCGAAATTGTCCTGATCGATCCCCAAGGCAACGCGGTGGGCTATCCGGACAGCCCCCGGTTGATCGCCGACATTCAGTCGTCCCGCCTGATCAAGGCGCGTGACCTTGCCCCGGCCATCGCCGCTGCGCTCGATGACCACACTGACACGCCACGCCTGGAAGCGGCCGGACGCCATTGGATCGTTTCCCGCAGCCACATGCAGGAGGGCGGGCCGCAGGGTTTGGAGTTGGCCTTGCTGGTGCCGGAGGACGAACTGCTCGCCGATGCCTATCGCCTGCGCTGGCAAGGCGCGCTGATTACCCTCGCCACGTTGCTGATGTGCCTGCCCCTCGGCTGGCTGACCTCGCGAATCCTGGTCAAGCCCTTGCGCGCACTGGTCAAGGAAGCCGACGCCATTCGCAGCTTCGACTTCAACTATCCGGTGTCCCGCCGTTCTCCGGTGCTGGAGGTCGATCAACTGGGTGTTTCGATGGCACGCATGAAAGAAACCCTGGCGAGTTTTTTCGAGATCACGGCCAGCCTGCGCGCTGAAACCCGCTTTGCCCCGCTATTGGAGCGGGTGTTGTTCGAGACGGTGAAAATCGGCCAGGCCCAGGCCGGCCTGATCTATCTGCGCGAACACGACGAGGAGCAAGTCAAGCCCTACGGGCTGGTGATCGATGGGACGCCTCGGGACCTGCAAGCCTTCGCCCTGCGAGGCTACGCACTGAATGGCGCGGACAGCCCGCCGTGGTTACAGGAACTGGCCACCGCGGAGACCCTGGTGTCCTCGCTGGGCTTCGAGCAGGCTGCCGATTTGCGCAGCGTCCTGCTGGAACTGGATGCCCCGCGCGTGCACCTGATCGGCATCCGCTTGCGCAACCGCCATCAGGAAACCGTTGGCATCTTGTTGCTGTTGATCACAGACAGCGGCGCTGAAGCCGACCTGGAGAAACTCCAGCCGGACCGCATCGCCTTTCTCCAGGCCGTTTCCGGCACCGCGACGGTGAGCATCGAAAGCCAGCGCCTGCAAGCCAGGCAAAAGCAGCTGCTGGACTCATTCATCCAACTGCTCGCCGGGGCGATCGATGCCAAGAGCCCTTACACCGGCGGCCATTGCCAGCGAGTGCCAGCCCTGACGCTGATGCTCGCCCAGGCCGCGGCCGCCAGCCAGGCACCGGCGTTCGACGCCTACCGGCCAACGGACGATGAATGGGAAGCGCTGCACATCGCTGCCTGGCTGCATGACTGCGGCAAGGTCACCACACCCGAGTACGTAGTGGACAAGGCCACCAAGCTGGAAACCCTGAACGACCGGATCCATGAAATCCGTACCCGCTTCGAGGTACTCAAGCGCGACGCCTGGATCAATTACTGGCAGGCCCTGGCAACCGGTGGCGAGTCGTCAGCCCTGGCCCGCCAGCGCGACGCGACGCTGGCCGCCCTCGATGATGACTTTGCCTTTGTCGCACGCTGCAACCTGGGCTCCGAAGCCATGGCCGAGCGTGATCTGCAGCGTCTGCAACGCATCGCCCAGCGCACGTGGACGCGCACCCTGGATGATCGTCTGGGAGTTTCCTGGGAGGAAAGCCGACGCCAGGCGCGCACACCTTCGCCGACGCTTCCGGTGACTGAATCGCTGCTGGCGGACAAACCCGAGCATTTGATCGAGCGGCATGCAGCCGAGCTGATTCCGGCAGACAACCCATGGGGCTTCCAGCTCGATGTACCGCGCTGGAAATACAACCGCGGCGAACTCTACAACCTCAGCATCACGCGCGGCACACTGACCCGCGAAGAACGTTATGTGATCAACCACCACATGGTGCAGACGATCCTGATGCTCAGCCAGCTGCCCTTCCCCAGCCACCTGGAAAACGTTGCGGAAATCGCTGGCGGCCATCACGAGAAAATGGATGGCACCGGTTATCCGAAGCGACTCAAGCGCGAGCAGATGAGCCTGCCGGCTCGAATGATGGCGATTGCCGATATCTTCGAAGCGCTGACCGCAGCGGATCGCCCGTATAAAAAAGCCAAGAAACTGAGTGAAGCCCTCGGCATCATGGCCACCATGTGCCGCGACGCCCACATCGATCCCGAGCTGTTCCAGCTGTTTGTCGACGAGCGAATCTACTTGCTTTATGCCGATGAGTTCCTGGACCCGAGCCAGATCGATGAGATCGACCCGGGCAGCCTGCTGGTCAATGCCGGGCTGAAGGCGTGA	MPSAPRPEKRRFPLHVHISVMFTLLLLLTGVVLGVFNYRQTTQIILSSSEKLFNRIEQDVRLDLYDTYEPIRHLLGLLADYPATRAPGMAQRLDLLVPFSQALRDNPNLASLYLGDSKGEFFMVRPLRTDALRAAMKAPVGALYQVWTVERAGNEGLVRSQSLFYDRDLNLLSRLQHPDETYDPRSRGWFRSALNSHEQITTEPYVFFSTRNIGTTLARRSGEQAVIGADLTLAALSQTLAKHKVSAGTEIVLIDPQGNAVGYPDSPRLIADIQSSRLIKARDLAPAIAAALDDHTDTPRLEAAGRHWIVSRSHMQEGGPQGLELALLVPEDELLADAYRLRWQGALITLATLLMCLPLGWLTSRILVKPLRALVKEADAIRSFDFNYPVSRRSPVLEVDQLGVSMARMKETLASFFEITASLRAETRFAPLLERVLFETVKIGQAQAGLIYLREHDEEQVKPYGLVIDGTPRDLQAFALRGYALNGADSPPWLQELATAETLVSSLGFEQAADLRSVLLELDAPRVHLIGIRLRNRHQETVGILLLLITDSGAEADLEKLQPDRIAFLQAVSGTATVSIESQRLQARQKQLLDSFIQLLAGAIDAKSPYTGGHCQRVPALTLMLAQAAAASQAPAFDAYRPTDDEWEALHIAAWLHDCGKVTTPEYVVDKATKLETLNDRIHEIRTRFEVLKRDAWINYWQALATGGESSALARQRDATLAALDDDFAFVARCNLGSEAMAERDLQRLQRIAQRTWTRTLDDRLGVSWEESRRQARTPSPTLPVTESLLADKPEHLIERHAAELIPADNPWGFQLDVPRWKYNRGELYNLSITRGTLTREERYVINHHMVQTILMLSQLPFPSHLENVAEIAGGHHEKMDGTGYPKRLKREQMSLPARMMAIADIFEALTAADRPYKKAKKLSEALGIMATMCRDAHIDPELFQLFVDERIYLLYADEFLDPSQIDEIDPGSLLVNAGLKA				NA	NA	NA	NA	NA
D1-35_00722	3621	bvgS_2		Virulence sensor protein BvgS	ATGTACAGATGTCTACGCGAATTTCTTCTGCTGTCGTGCGCAGGACTCTATGTCGCGACTCTCATGGCCGCCCCGCAGTTGCCCGAGCGTTATACGCTGCTGAGTCGGGCGACGGCGGATCCCATGCAGATCAGACTCGACGCTCCCCATCGCGCCTGGCTGCAAGGTCGTCAGGAGCTGGTCCTGGGTACATCCGCACCGGATTATCCCCCGTTCGATCTTTCCACCAGTGGCCGCGATTATGAAGGCATGACTGCCGATTACGCGGGTGTCGTCGCCCAGGCGACCGGTTTGCCCATGAAGGTATTGCGCTTCAGTTCCCGTGGCGACGCGATTGCCGCGCTGGAAAGCGGGCAAATCGACTTGCTCGGCAGCGCCAACGGTTTCGAGGCCAGCAATCCGGGCATCGCCCTGTCGAAACCCTATGCAGTAGACCAGCCCGTCCTTGTTACCCGGACGGGCGACAGCCCGTCCCTGACCGAAGATCTCGAAGGGCTGCGGCTGAGCATGGCCTATCACTACCTGCCCCTGGATGAAATCAGAAAACTCTATCCCAGGGCGCAGATCACCACCTACACCTCTTACCAGAACGCCATCAATGCCGTCGCCTTCGGCCAGGCCGACGTATTTCTCGGCGACACCGTTTCTACCCACTATCTGATCAACAAGGGTTACCTGAGCAACGTCCGCATGGCCAGCTTCGGAAAACACGAAACCTACGGTTTCAGTTTCGCGGTCCGCCGGGATAATGCCCTGCTGCTGGAAATCCTGAACGCCACGCTGAGCCAGCTCCCGATTGCGGAGCAGACGGCGATCTCAAAACGCTGGAGTGCCGGCAGCGACCTGTACCTCACGGATCAGCGGATACAACTGACTGACCGCGAACAACGTTGGCTGACGAAGCATCCCGTCGTTCGCGTGGCCGTAAACGAAACGTTCGCGCCGTTTACGTTCTTCGATCCGGACGGTGATTTTCGCGGTATCAGCGCCGACCTGCTGGAACTGATCAGGCTGCGTACCGGCCTGCGCCTGGAGATCCAGCGGCGCCAGACTGACGGCGAAATGATCTCCGCGGTGGTGAAAGGCGAGGCCGACATGATTGCCGCGCTCCTGCCCAGCAGCGAACGGCAACAGTCCTTGAAGTTCAGCCGTCCCTACCTCGACAGCGCCTTTGTCCTGCTGACCCGCAAACAATCCGACACGCCCGCGACCCTCGACCAGCTCGCCGGCAAGCGTCTGGCAATCGCCGCGGGCAATCCCATCATCGACTGGCTGCGCAGCGAATATCCGCATATCCAACTGGTCGAGGCCGCCGACTCCCTGCGGGCCGTCGATATGCTCGCCCAGGGAGAGGCCGATGGCAGCGTCAGTTCGCTGGTCATGGCCAATTATTTCCTGTCTTCCCACACGCTGCGCGACACATTGCAGATCAGCAGCACCGTAGGCACCCGACAAGCCCTGTTCTCGTTGGCCAGCGCAACGAACTCACCAGAGTTGAGCTCGATCCTGGACAAGGCCCTGACCAGCATCGAACCCGCCGAACTGGGGGTCATCAACAACCGCTGGCGAGGGCATATCTCGGCGGCGGAGCTTACCTGGCGCACCTATCACCGGGTATTCCTGCAGTTTGTCGCAGGCGCCGGCCTGTTATTGCTGCTGTCCCTGGCGTGGAATGCCTATATGCAGCGGCAGATCAGGCAACGCCAGAAGGCGGAGCTGGCGCTCAACGACCAGCTTGAATTCATGCATGCCCTGCTCAACGGCACCCCACATCCGATCTACGTGAGGGACCGCCATGGGCTTCTGCAAAGCTGTAACGACAGTTACCTGGAATCATTCAACGCAACACGCGAAGAAGTGATCGGCAAGGACGTCGCGGCGGTATCCATGAGCAATGTTTTCGAAGCGCAGGAATATCGGGCGGACTACCAGCGTGTCATGGCCGAAGGCACCGCCTTGATCACCGACCGGCCACTGCAGATTGGCGCTCGGAAGCTGACGATCTATCACTGGATCCTCCCCTACCGTAACGCCGCGGGACACGTGCAAGGCATCATCGGTGGCTGGATCGACATCAGTGAACGGCGCCAGCTTGTCGAGGAACTGCATGCCGCCAAGGAACAGGCCGACGCCGCCAATCGCGCGAAAAGCACCTTCCTGGCGACCATGAGCCATGAAATCCGTACGCCCATGAACGCAGTGATCGGCATGCTGGAACTGGCCCTCAAGCATGCCGACAAGGGACAGGTCGACCGTTCGACCATAGCGGTCGCGTACGAATCGGCCTCAGGCATGCTGGAGCTGATCGGCGATATCCTGGACATTGCCCGCATCGAATCAGGCCACCTGACCCTGGCCCCCGAACGAGTGAATGTCAGCACCTTGCTGCGCTCGGTGGTCAGGGTATTCGAGGGACTGGCCCGGCAAAAAAATCTGCTGTTGTCGCTGCAAGTAGAGCCCGACGACGACAAACACGACGTCCTGATAGACCCGTCGAGATTCAAGCAGGTGATCTCGAACCTGATCAGCAATGCCTTGAAATTTACCGAGCAGGGCGAGGTGAAGGTCCGCGCCAGGCTTTCCCGAACCGCTCACGAAAATACGTTGCGGATGCAGATAGAAGTCAGCGACAGCGGCATTGGCATCAGTCCGGTGGACATGCAGCGCCTGTTCGAACCGTTTGCCCAGGCCGACAACAGCAGCCGGATGGCCCGCAAAGGCGCGGGGCTGGGCCTGGTGATCAGCCGCCAGTTGTGCCAGATGATGGGCGGTGAGTTGTCCCTGGACAGCCAACCGGGCGTCGGTACCCAGGTCCGGCTTACCCTGGAGCCGAGCATCCTGCCCGAGACGACGATCGGCATCCCGGTGGAGCCTGCGGTCGAAACGGCCACGGCCCAATTGAGCGTCCTGGTGGTGGATGATCACCCGGCCAATCGTTTATTGATGACGCAGCAACTGGAATACCTCGGTCATCGCCACTCCCTCGCCAACGATGGCGCGCAAGGGCTCAAGGCTTGGCTTGAGGGTGATTTCGACCTGATCATCGCCGACTGCAACATGCCTGTCATGAGCGGTTACGAGCTTGCCAGGGCCATCCGTCGGTACGAGGCCGAACATCAACAGCCGCGCTGCACCATCCTCGGGTTCACCGCCAATGCGCAACCCGAGGAGAAGCAGCGCTGCAAGGAGGCCGGAATGGACGACTGCCTGTTCAAGCCGATCAATTTGAGCACCCTGAGCCAATGGATGAACACGATCAAGCCCGCGAGCCGCCCAGCCGTGTTCAATGTCCGGAGCCTGCACATGCTCACCGGCGGCGACCCGATCTCCGTCCGGCGGCTGCTGGCGGAACTGCTCAGCAGCAACCGTTCCGACCGCCAGGAACTGCTCCAAGCCGCCCGTACCGGCGCTTCCCAAGCGCTCGCCGAAACGGCGCACAAGATAAAAGGTGTCGCCCGTATCGTGCAGGCAAATGGGCTGATCGAATTGTGCGAGGCTCTGGAAATCGCCTGTCATCAAGAGCAGGCACCCGGACAAATCGACGCCTGCGCGAAAGCGCTCCACCGAGCGATGACCGAACTGGAACAGGCGCTGGAAACGGAGATCGCCAAGGCAGGATAA	MYRCLREFLLLSCAGLYVATLMAAPQLPERYTLLSRATADPMQIRLDAPHRAWLQGRQELVLGTSAPDYPPFDLSTSGRDYEGMTADYAGVVAQATGLPMKVLRFSSRGDAIAALESGQIDLLGSANGFEASNPGIALSKPYAVDQPVLVTRTGDSPSLTEDLEGLRLSMAYHYLPLDEIRKLYPRAQITTYTSYQNAINAVAFGQADVFLGDTVSTHYLINKGYLSNVRMASFGKHETYGFSFAVRRDNALLLEILNATLSQLPIAEQTAISKRWSAGSDLYLTDQRIQLTDREQRWLTKHPVVRVAVNETFAPFTFFDPDGDFRGISADLLELIRLRTGLRLEIQRRQTDGEMISAVVKGEADMIAALLPSSERQQSLKFSRPYLDSAFVLLTRKQSDTPATLDQLAGKRLAIAAGNPIIDWLRSEYPHIQLVEAADSLRAVDMLAQGEADGSVSSLVMANYFLSSHTLRDTLQISSTVGTRQALFSLASATNSPELSSILDKALTSIEPAELGVINNRWRGHISAAELTWRTYHRVFLQFVAGAGLLLLLSLAWNAYMQRQIRQRQKAELALNDQLEFMHALLNGTPHPIYVRDRHGLLQSCNDSYLESFNATREEVIGKDVAAVSMSNVFEAQEYRADYQRVMAEGTALITDRPLQIGARKLTIYHWILPYRNAAGHVQGIIGGWIDISERRQLVEELHAAKEQADAANRAKSTFLATMSHEIRTPMNAVIGMLELALKHADKGQVDRSTIAVAYESASGMLELIGDILDIARIESGHLTLAPERVNVSTLLRSVVRVFEGLARQKNLLLSLQVEPDDDKHDVLIDPSRFKQVISNLISNALKFTEQGEVKVRARLSRTAHENTLRMQIEVSDSGIGISPVDMQRLFEPFAQADNSSRMARKGAGLGLVISRQLCQMMGGELSLDSQPGVGTQVRLTLEPSILPETTIGIPVEPAVETATAQLSVLVVDDHPANRLLMTQQLEYLGHRHSLANDGAQGLKAWLEGDFDLIIADCNMPVMSGYELARAIRRYEAEHQQPRCTILGFTANAQPEEKQRCKEAGMDDCLFKPINLSTLSQWMNTIKPASRPAVFNVRSLHMLTGGDPISVRRLLAELLSSNRSDRQELLQAARTGASQALAETAHKIKGVARIVQANGLIELCEALEIACHQEQAPGQIDACAKALHRAMTELEQALETEIAKAG	PGPT0014485_207	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE_EVG-EMR_SYSTEM,PGPT0014485-evgS|bvgS-K07679	NA	NA
D1-35_00723	627	bvgA_1		Virulence factors putative positive transcription regulator BvgA	ATGAACTCCGTTTTCATTGTCGACGATCATCCGGTCATCCGCCTCGCCGTTCGAATGCTGCTGGAGCATGAAGGTTATAAAGTTGTAGGAGAAACCGACAACGGCGTCGACGCGATGCAAATGGTCCGTGAATGTATGCCGGACCTGGTCATACTGGACATCAGCATTCCCAAGCTTGATGGGTTGGAAATTCTTTCACGTTTCAACGCAATGACCGCCCCGATCAAGACGCTGGTGCTGACGGCGCAATCACCGACGCTGTTTGGCATCCGCTGCATGCAATCTGGTGCCTCCGGCTATGTGTGTAAACAGGAAGACCTCAGTGAATTGATCAGCGCAATTAAGGCCGTACTGTCCGGCTATAACTATTTCCCGAGCCAGGCGTTGACGCCCCTGCGTCATGATGATCCGCGCAGTATCGAGCTGGATCTTTTCAAAAGCGTCAACGATCGCGAATTGATGGTGCTGCAACTTTTCGCGCAGGGCCGTACCAACAAAGACATCGCCAAAGGCATGTTTCTCAGCAATAAAACCGTCAGCACGTATAAAAAACGCTTGATGCAGAAACTCAAGGTCAAGTCCCTGGTAGATCTGATCGAGATGGCCAAGCGCAACGCACTGGTTTGA	MNSVFIVDDHPVIRLAVRMLLEHEGYKVVGETDNGVDAMQMVRECMPDLVILDISIPKLDGLEILSRFNAMTAPIKTLVLTAQSPTLFGIRCMQSGASGYVCKQEDLSELISAIKAVLSGYNYFPSQALTPLRHDDPRSIELDLFKSVNDRELMVLQLFAQGRTNKDIAKGMFLSNKTVSTYKKRLMQKLKVKSLVDLIEMAKRNALV	PGPT0014490_189	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MdtEF-TolC,PGPT0014490-evgA|bvgA-K07690	NA	NA
D1-35_00724	1329	dgt	COG0232	Deoxyguanosinetriphosphate triphosphohydrolase	TTGGATTGGCACACCCTGCTGACTCGCGAACGCCTGGGAAAACCCCTGCACAGTCCGGAAGAACTGGGCCGCAGCCCTTTCCATAAAGACCACGACCGCATCATCTTTTCCGGTGCATTCCGTCGCCTCGGACGCAAGACCCAGGTGCATCCGGTCTCCAGCAACGATCATATCCACACGCGCCTGACCCATTCGCTTGAAGTCAGTTGCGTCGGGCGCTCTCTGGGCATGCGCGTGGGAGAAACCATCCGCGGCGCCCTGCCAGACTGGTGTGAACCCAGCGACCTGGGCATGGTGGTGCAATCGGCCTGCCTGGCCCACGACATCGGCAACCCGCCGTTCGGCCACTCCGGTGAAGACGCCATCCGCTACTGGTTTCAACAGGCGGCCGGACGAGGCTGGCTGGATGCCATGAGCGAGGCCGAGCGCAATGACTTTCTCAATTTCGAGGGTAATGCCCAAGGATTCCGGGTCCTCACGCAGCTCGAATACCATCAGTTCGACGGCGGCACCCGGCTGACCTACGCGACGCTTGGCACTTACCTGAAATATCCCTGGACTGCCCGCCACGCCGACTCCTTGGGCTACAAGAAGCACAAGTTCGGCTGCTATCAGAGCGAACTGCCGTTGCTCGAGCAGATTGCCCACAAGCTCGGCCTGCCGCAAATCGAGGACCAGCGCTGGGCAAGGCATCCGCTGGTCTACCTGATGGAGGCCGCCGACGATATCTGCTACGCGCTCATCGACCTGGAAGACGGCGTGGAAATGGAGCTGCTGGAATACCCGCAGGTGGAATCGCTGCTGCTGGATCTGGTCGGCGATGACCTGCCGGAGACTTATCGTCAGCTTGGCCCGCTGGATTCCCGGCGGCGCAAACTGGCGATCCTGCGCGGCAAGGCCATCGAACACCTGACCAACGCCGCCGCCCGGGCGTTCGTCGAGCAGCAGGAGGCACTGCTGGCAGGCACGCTGCAGGGAGACCTGGTGGAACACATGCATGGCCCGGCCAAACGCTGTGTCTTGAACGCCAAGGACATGGCCCGCAAGAAGATATTCCAGGACAAGCGCAAGACCCTGCATGAAATCGGTGCCTACACCACGCTGGAAATTCTGCTCAACGGGTTCTGTGGTGCCGCCCTGGAACAACACGGCGGCCGTACACCCTCGTTCAAGAATCGGCGCATCCTCGATCTGCTGGGTAACAACGCGCCAGACCCTGACGGCCCCTTGCACAGCGCGTTCCTGCGAATGATCGATTTCATCGCCGGCATGACCGACAGCTATGCCAGCGAAATGGCACAGGAAATGACCGGTCGCACTCGTCAATGA	MDWHTLLTRERLGKPLHSPEELGRSPFHKDHDRIIFSGAFRRLGRKTQVHPVSSNDHIHTRLTHSLEVSCVGRSLGMRVGETIRGALPDWCEPSDLGMVVQSACLAHDIGNPPFGHSGEDAIRYWFQQAAGRGWLDAMSEAERNDFLNFEGNAQGFRVLTQLEYHQFDGGTRLTYATLGTYLKYPWTARHADSLGYKKHKFGCYQSELPLLEQIAHKLGLPQIEDQRWARHPLVYLMEAADDICYALIDLEDGVEMELLEYPQVESLLLDLVGDDLPETYRQLGPLDSRRRKLAILRGKAIEHLTNAAARAFVEQQEALLAGTLQGDLVEHMHGPAKRCVLNAKDMARKKIFQDKRKTLHEIGAYTTLEILLNGFCGAALEQHGGRTPSFKNRRILDLLGNNAPDPDGPLHSAFLRMIDFIAGMTDSYASEMAQEMTGRTRQ	PGPT0021495_1525	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021495-dgt-K01129	NA	NA
D1-35_00725	345			hypothetical protein	ATGAGTCGGCCCGATATTCCCCAAGCCCGTACCCGGCAGGAGATGCGCAAGGCGCTGGTGCGCCTGCGCATGGAGATGCACCGCCAGGAAATTCGTCAGGAAACCCGGCAACTGCTGCACCCGCTGCAACGGGTGCGCGGCTTTACGCAAAGCTGGCATGAGGGCTTCGGCCTGAAGCATGCGTCACTCTGGGGCGTGGCCGCCGTGTCCTTGCTCGGCTTCCTCGGCGGCAAGCGGACCCGAAGCGGACGCTCAGGACGCTCAGGTGGCTTCTCGCGACTGATCCGGCTAGCAACCGCGCTGCTGCCGCTGATCAAGCTGGCCAAGACTGTACGCAAACCCTGA	MSRPDIPQARTRQEMRKALVRLRMEMHRQEIRQETRQLLHPLQRVRGFTQSWHEGFGLKHASLWGVAAVSLLGFLGGKRTRSGRSGRSGGFSRLIRLATALLPLIKLAKTVRKP				NA	NA	NA	NA	NA
D1-35_00726	393			hypothetical protein	ATGATGGGCATCGACGAATCCGGCTCGCCCGAATCGGGCACGAAGCCTACCGCGCGGCGCCTGGGCGCGGCATTCCTCGGCTTGCTGCACAGTCATGTCGAACTGTTCGGCATCGAATTGCAGGAGCAGAAGGCCCGCACCGTCAGCCTGTTGTTGTTTGCCGGGCTCGCGCTGGTTTTCGGTTTGCTGCTGCTGGTCGGGCTGTCCGCACTGGTGCTGATTCTGGTGTGGGATACCTATCGCCTCGCGGGGATCATCGGCCTCTGCCTGTTTTATCTGCTGGCGGCGTTGTTCTGCGGGCTTCGGCTCAAGGCAGCGATTTTTGATGAGTCCTCGCCTTTCCATGCCACCCTCGAAGAACTCGCCAACGACCGGGAGCGCCTGTTGCCATGA	MMGIDESGSPESGTKPTARRLGAAFLGLLHSHVELFGIELQEQKARTVSLLLFAGLALVFGLLLLVGLSALVLILVWDTYRLAGIIGLCLFYLLAALFCGLRLKAAIFDESSPFHATLEELANDRERLLP				NA	NA	NA	NA	NA
D1-35_00727	315	yqjD_1	COG4575	putative protein YqjD	ATGGCCAGAACCCAGGCAAAGACTGCTCAAGAAACCTTGAAGGAAGACTTCCAGACGCTGGTCAAGGACACCGAACGGTTGCTGGACCACACGGCGACCCTGGCTGGTGATCAGGCTGACGAATTGCGCAGCCAGATCCACGAAACCCTTTTGCGCGCCCGTGAAACCCTCCAGCTGACCGAAGACTCGGTACGCGAGCGCGGTCAGGCTGCAGTGATTGCCACCGAAGAATATGTGCAGGCCAATCCTTGGCAATCGGTCGGCATCGCTGCGGGCGTGGGCTTTTTGATCGGACTGCTGGCGACACGGCGCTAA	MARTQAKTAQETLKEDFQTLVKDTERLLDHTATLAGDQADELRSQIHETLLRARETLQLTEDSVRERGQAAVIATEEYVQANPWQSVGIAAGVGFLIGLLATRR				NA	NA	NA	NA	NA
D1-35_00728	1209	amtB_1		Ammonia channel	ATGGAAAATCTGCAAAGCGCCGTGGACAATCTGGTCCACAGCTCCAACACGCTGTTCATCCTGCTCGGTGCGGTCATGGTTCTGGCCATGCACGCCGGCTTCGCGTTCCTTGAAGTAGGCACCGTCCGACAAAAGAATCAGGTTAATGCGTTGTCGAAGATTCTCAGCGATTTCGCAGTGTCGACCTTGGCCTATTTCTTCATAGGCTACTGGATTTCCTACGGCGTGACCTTTTTGCAGCCGGCGGCGGTGCTCAGCGCTGACCACGGCTACAGCCTGGTGAAGTTTTTCTTCCTGCTGACCTTTGCCGCCGCGATCCCGGCCATTATTTCCGGAGGGATCGCCGAGCGTGCCCGGTTCGTACCGCAGTTGTGCGCCACGGTGCTGATAGTAGCGTTCATCTACCCGTTTTTCGAAGGCCTGGTCTGGAATGGCAACTACGGCCTGCAAGGCTGGCTGCAAGCCCGTTTCGGCGCCAGTTTCCATGACTTTGCCGGCTCCGTGGTCGTGCATGCCATGGGCGGCTGGCTGGCATTGGCCGCGGTACTGTTGCTCGGGCCGCGCAATGGTCGCTACCGGGACGGGCGCCTGGTGGCGTTCGCGCCTTCGAGCATCCCGTTCCTGGCGTTGGGCTCGTGGATTCTTATTGTCGGCTGGTTCGGTTTCAACGTTATGAGTGCCCAGACGTTGCCTGGAGTCAGTGGGTTGGTGGCGGTCAACTCGTTGATGGCAATGGTCGGCGGGACCGTGGCGGCTTTGATCATCGGGCGCAACGACCCCGGCTTCCTGCATAACGGCCCGTTGGCCGGGTTGGTGGCGGTCTGTGCCGGTTCCGACCTGATGCATCCGGTGGGGGCGCTGGCGACCGGAGCCATCGCGGGCGGGCTGTTTGTCTGGTGTTTCACCGCGGCCCAGGGCAAGTGGAAAATCGACGACGTGCTCGGGGTCTGGCCCCTTCATGGCCTGTGCGGCGTCTGGGGTGGCATTGCCTGCGGCATTTTCGGCCAGCAAGCCTTGGGTGGCCTGGGCGGCGTCAGCCTGGTCAGCCAACTGGTCGGCACTGCGTTGGGCGTCGTCATTGCCCTGGTTGGCGGGTTCGCGGTTTATGGTGCGATCAAGTTCGTGCTGGGCCTGCGGCTGACCCAGGAAGAGGAGTACTACGGCGCCGATCTGTCGATCCACAAGATCGGTGCCGTCAGTCAGGACTGA	MENLQSAVDNLVHSSNTLFILLGAVMVLAMHAGFAFLEVGTVRQKNQVNALSKILSDFAVSTLAYFFIGYWISYGVTFLQPAAVLSADHGYSLVKFFFLLTFAAAIPAIISGGIAERARFVPQLCATVLIVAFIYPFFEGLVWNGNYGLQGWLQARFGASFHDFAGSVVVHAMGGWLALAAVLLLGPRNGRYRDGRLVAFAPSSIPFLALGSWILIVGWFGFNVMSAQTLPGVSGLVAVNSLMAMVGGTVAALIIGRNDPGFLHNGPLAGLVAVCAGSDLMHPVGALATGAIAGGLFVWCFTAAQGKWKIDDVLGVWPLHGLCGVWGGIACGIFGQQALGGLGGVSLVSQLVGTALGVVIALVGGFAVYGAIKFVLGLRLTQEEEYYGADLSIHKIGAVSQD	PGPT0000840_6968	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320	NA	NA
D1-35_00729	1713	kefC_1	COG0475	Glutathione-regulated potassium-efflux system protein KefC	TTGTTCGCCAACCTGCTGATCATCCTAGCCTCGTCCCTGGTAGTCATCGCCCTGTTCAGGCGATTACGCCTGCCACCGGTGCTCGGCTACCTCTGCGTCGGGCTGGCGGTCGGCCCCACAGCCCTGGACTGGGTAAACGACAGCGAGGAATTGCCGGATCTGGCCGAACTCGGCGTGGTCTTCCTGTTGTTCTCGCTGGGGCTGGAATTCTCGTTGTCGAAGATGCTCGAACTGCGCAGGGTGGTGTTCGGCCTCGGCAGTTTGCAGGTGGTGTGTTCGGGGGTGCTGCTGGGGGGCGTGCTGGTGATCTGCGGTGCCCCGGCGCTGGCGGCACTGCTCCTGGGCGCCGGGCTGGCGCTGTCGTCCACGGCCATAGTCAGCAAGGAGCTGACCAGCCTGGGGGAAATTTTCAGTAGTCACGGCCAGAACGCTATCGGTGTGCTGCTGTTCCAGGATGTCGTTGCGGTATTACTGCTGACCCTGGTGCCGGTCTTTGCCGGCAGCAGCGAGTACGCCTGGTACTGGGCGCTGCCCCTGACCCTGGGCAAGACTCTGTTTCTGTTCGGCGGTCTGCTGCTTGCCAGCCGCTGGCTGCTGCCCCGGCTATTCCATGAAGTAGCCGCGTCCCGGTCCGCCGAACTGTTCGTGCTGCTGGCGCTGGTGATCGTACTGCTCACCGCATGGCTGACGCACCTGCTCGGCCTGTCACCGGCCCTGGGGGCATTCCTAGCCGGCATGCTGCTGGGAGAAAGCCATTACCGGCACCAGATCGAGGCCGATATACGTCCATTCCGCGACATCCTGCTGGGGCTGTTTTTCGTCAGCATCGGCATGCTGATCGACCTTCGACTGTTCATCGACGATGGCCTGCAGATACTCGGATTGACCCTCGGCTTGATGATCATCAAGGGCTGCGTGGTCGCCGCACTGGTCAAGTGGCGCGGCAGCGACGGCGAAACCGCGTGGCGCAGCGGCCTGGCCCTGGCTCAAGGTGGCGAGTTCTGTTTTGCCCTGATGGCATTGATGCAGCAGAACCGCCTGATGCCCGCCGACATCGGCGGCCTGCTGTTGGCCGCGACATTCTGCTCGATGCTGCTGACCCCGCTTTTGCTGCGTGCAGCGCCGGCGATTGCCGCGCGCCTGCACCGCAAACCCAACCAGGAAGCACAACTGGACCAGATCAGCGAACTCAATGCAGGCTTGTCGGGTCATGTGGTGATCTGCGGGTATGGTCGGGTGGGCCAATCCATCGGGCGGTTCCTGCGCCGCGAAGGCCTGGCCTTTGTCGCCCTCGACGACGACCCGGTGATCATTCAGGAAGCCACGGTCGACGAGCGTTGCGTACATTACGGGGACTCACGCCGGGCAGACCTGCTGGCCGCCGTCGGACTGAGCCGCGCCCGGCTGCTGGTCATTGCGGTCGACAAGACGGACATCGCGCTGACCGTGCTCAGGGCAGCCCGACGCGTAAACTCGCAGGTACCGATCCTGGTGCGCACTCGGGACGACAGCCAACTGGCCGAACTGCAGGCCGCCGGAGCGACCGAAGTGGTCCCGGAACTGCTTGAATCGAGCCTGATGCTCGCCTCTCACGCGCTGGTCATGCTCGGGCTGCCGGAGCAGCGGGTCCGGCATCATGTGGATCAGGTTCGTCACGAACGCTATGGCCTGCTGCACGGGTTCTATCCCGGCAATCAGGACAAGGAACCGTAG	MFANLLIILASSLVVIALFRRLRLPPVLGYLCVGLAVGPTALDWVNDSEELPDLAELGVVFLLFSLGLEFSLSKMLELRRVVFGLGSLQVVCSGVLLGGVLVICGAPALAALLLGAGLALSSTAIVSKELTSLGEIFSSHGQNAIGVLLFQDVVAVLLLTLVPVFAGSSEYAWYWALPLTLGKTLFLFGGLLLASRWLLPRLFHEVAASRSAELFVLLALVIVLLTAWLTHLLGLSPALGAFLAGMLLGESHYRHQIEADIRPFRDILLGLFFVSIGMLIDLRLFIDDGLQILGLTLGLMIIKGCVVAALVKWRGSDGETAWRSGLALAQGGEFCFALMALMQQNRLMPADIGGLLLAATFCSMLLTPLLLRAAPAIAARLHRKPNQEAQLDQISELNAGLSGHVVICGYGRVGQSIGRFLRREGLAFVALDDDPVIIQEATVDERCVHYGDSRRADLLAAVGLSRARLLVIAVDKTDIALTVLRAARRVNSQVPILVRTRDDSQLAELQAAGATEVVPELLESSLMLASHALVMLGLPEQRVRHHVDQVRHERYGLLHGFYPGNQDKEP	PGPT0014395_2502	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014395-ybaL|TC_KEF-K03455	NA	NA
D1-35_00730	240			hypothetical protein	ATGCCGCCTGAATGCCAGTTGTTCGGCACCCTGGGGTGCCACCTGTGTGAAGTTGCCGAGGGCGTGCTGATGCCTTTCGTCGAGCATGGCCTCTTGGTAGAACTGGTGGATATCGCCGAAAGCGAGGCCTTGTCCGAAGCCTATGGCTTGCGCATCCCCGTGCTCCGTCGGATCGATACAGGGGCGGAGCTGGACTGGCCCTTCGATGACCCTGATCGGGTTGCGGCGTTTCTACGTTGA	MPPECQLFGTLGCHLCEVAEGVLMPFVEHGLLVELVDIAESEALSEAYGLRIPVLRRIDTGAELDWPFDDPDRVAAFLR				NA	NA	NA	NA	NA
D1-35_00731	447			hypothetical protein	ATGACCCTGATCGGGTTGCGGCGTTTCTACGTTGATACCTTCCATCGCCTGAGTCCATCCACCGCCATTGGCGAAATGACATTCTTCGGTTACTGTATGCCCATACAGCAATCCGGAGTGCGTCCCTTGGTCAATGTCGAACAATTGAAAAACAGCGTGAACAGGATGTCCGCGGACGTTGTGCGCGAGGCGGTCCTGGAGTTGCGCCTGGATGGTCTGGTAACCGAAGGCAAGACACCCTTCAACAAGCTGCATTTCAACACCTGTTTTGCCGAGATCGAAGCGTTGTTCCAGCGTGCCGGTTACCACAAGCAATTGGACGTGGTGGGTTACCAGGGGCTGTTGTATGCATTGTACGACCCGGGACGTTGGGAGGCAGTCGAGGTGCTGCGCTGGTTGAAGGAGTTCACCGAGGCAGCGGAAAAACCGACATCAGTTCGCGCATGA	MTLIGLRRFYVDTFHRLSPSTAIGEMTFFGYCMPIQQSGVRPLVNVEQLKNSVNRMSADVVREAVLELRLDGLVTEGKTPFNKLHFNTCFAEIEALFQRAGYHKQLDVVGYQGLLYALYDPGRWEAVEVLRWLKEFTEAAEKPTSVRA				NA	NA	NA	NA	NA
D1-35_00732	891			hypothetical protein	ATGTCCGGTTCATCATTTTCCGCCGCGCACCATCAGGCCAGCACACTGTACTTGCCGCCTGGCTCCTGGCAGACGGTGCTGGAATGTCTTTGCGAGCATTTCAGCACGATCAGCCGCGAGCAGTGGCTGGATCGGATTGTCCGGGGGCGGGTGTTGGACGGGGAGGGGCGGGCGATCGGTATTGACCTGCCCTATCGCGAAGGTATGCGGATCCACTATTTTCGCGAAGTACCCGATGAAAAACCGATCCCTGTGGTGGAGTCGATTCTCTACATCGACGAGCATCTGGTGGTGGCGGACAAACCGCATTTCCTGCCTGTCACGCCGGCGGGGGAATACGTGGAGCAGACATTGCTGCGCCGTTTGATCCGTCGCCTGGACAACCCCCATCTGGTGCCCTTGCACCGTATTGATCGGCACACGGCCGGGCTGGTCTTGTTCTCAGCCAATCCGCAGACGCGTTCGGCTTATCAATCGTTGTTTCCGACGCGGCGAATCGAAAAAAGTTATGAAGCCATTGCCCCCGCACTGCCCGGAGTGGCTTTTCCGTGTGTGCACAGAAGCCGGATGATCGACGGCGAGCCTTTTTTCCGGATGCAGGAGGGGCCAGGCGAGCCCAATACCGAGACGGCCATGGAAGTGCTTGAGAGGAACGGCGACCTGTGGCGGTACGGCCTGTATCCGGTTACCGGGAAAAAGCACCAGCTGCGGGTGCATATGAGTGCCTTGGGGGCTGGCATCTGCAACGATCCGTTTTATCCCGATGTGATTAGGGATGCCCAGGATGACTATGCCAACCCGCTCAAGCTGTTGGCCAAGAGATTAGGTTTCATCGATCCGATCACGGGTCAGGAGCGGGTCTTCAAGAGTGATATTGCCCTGCGCTGGTAG	MSGSSFSAAHHQASTLYLPPGSWQTVLECLCEHFSTISREQWLDRIVRGRVLDGEGRAIGIDLPYREGMRIHYFREVPDEKPIPVVESILYIDEHLVVADKPHFLPVTPAGEYVEQTLLRRLIRRLDNPHLVPLHRIDRHTAGLVLFSANPQTRSAYQSLFPTRRIEKSYEAIAPALPGVAFPCVHRSRMIDGEPFFRMQEGPGEPNTETAMEVLERNGDLWRYGLYPVTGKKHQLRVHMSALGAGICNDPFYPDVIRDAQDDYANPLKLLAKRLGFIDPITGQERVFKSDIALRW				NA	NA	NA	NA	NA
D1-35_00733	222			hypothetical protein	ATGACTCAACGGACCCTCGCCACTTTCATGCTCGCGCTGGGCCTCGCCACTCTCGCCGGGTGTGCATCGCCAACAGTGATTACCCTGAATGACGGTCGCGAAATCCAGGCCGTCGACACGCCAAAATACGACGAAGACAGCGGCTTCTACGAATTCGAGCAACTGGACGGCAAGCAGACTCGCGTGAACAAGGACCAGGTTCGTACCGTTAAAGACCTGTGA	MTQRTLATFMLALGLATLAGCASPTVITLNDGREIQAVDTPKYDEDSGFYEFEQLDGKQTRVNKDQVRTVKDL				NA	NA	NA	NA	NA
D1-35_00734	603	mobA	COG0746	Molybdenum cofactor guanylyltransferase	ATGACCTCGAACGATCCCTTGCCAGCCTGCTCGATCCTGCTCCTGGCGGGTGGCCGCGGACAACGCATGGGAGGCCAGGACAAAGGCCTGCTGGAATGGCAAGGCGAACCGTTGATTGCCCACCTTCATCGGCGGACCCGGGCCCTGAGCGACGATCTGATCATCTCTTGCAACCGCAACCCGCAGCGCTACGCATTGTATGCCGATCAGTTGGTGCATGACGCCGAAGGGGATTTTCCCGGGCCATTGGCAGGCATCCGGGCGGGTCTCAAGGTGGCGCGACACGCGTATTTGCTGGTACTGCCTTGTGATGTCCCGCAAATCGACTCAAGCCTGCTCGACAGCATGCGCGAAACGGCAAGCCGCCATCCCGGCAAGCCGTTGATGGTGCGTCAGGGTGAGCATTGGGAGCCGTTGTTATGCATCATCCCACGGGTCCTGGCAGCAGACTTTGAAAGGGCCTGGGACGAAGGCGAACGCAGTCCCGGCCGCATCATGCGCACACTACACGCCGTCGCCTTGCAATGCCCGGCCAACGATGCCCGGCTGGCCAATCTCAATACGCCGGAACTGCTGGCCCGGCATACAGGCGTGTCAGATTGA	MTSNDPLPACSILLLAGGRGQRMGGQDKGLLEWQGEPLIAHLHRRTRALSDDLIISCNRNPQRYALYADQLVHDAEGDFPGPLAGIRAGLKVARHAYLLVLPCDVPQIDSSLLDSMRETASRHPGKPLMVRQGEHWEPLLCIIPRVLAADFERAWDEGERSPGRIMRTLHAVALQCPANDARLANLNTPELLARHTGVSD				NA	NA	NA	NA	NA
D1-35_00735	540	moaB	COG0521	Molybdenum cofactor biosynthesis protein B	ATGAAAGCCAAGGCTGATGTACCTTTCGTACCGCTCAATATCGCGGTGCTGACTGTCAGTGATACCCGTACTCTGGAAACCGACACGTCGGGACAGGTTTTTGTCGACCGCCTCACGGAGGCTGGGCATAACCTTGCGGCCCGGGTACTGCTTAAAGATGATCTGTACAAGATCCGCGCACAAGTCGCCACCTGGATCGCCGACGACGTGGTGCAAGTGGTGTTGATCACCGGTGGCACCGGCTTCACCGGTCGCGACAGCACGCCCGAGGCCGTTACGTGCCTGTTGGACAAGCAGGTCGATGGTTTTGGTGAATTGTTCCGGCAGATATCCGTGGCGGACATTGGCACTTCTACCGTTCAGTCCCGGGCGCTGGCCGGCCTGGCCAACGGTACGTTGGTCTGTTGCTTGCCGGGTTCGACCAATGCGGTGCGTACCGGATGGGACGGGATCCTGGCCGAACAACTGGACGCGCGCCATCGGCCCTGTAATTTCGTCGCCCATCTGAAACAGGCTGCCCCTTGTGAATCCCGTGGGTAA	MKAKADVPFVPLNIAVLTVSDTRTLETDTSGQVFVDRLTEAGHNLAARVLLKDDLYKIRAQVATWIADDVVQVVLITGGTGFTGRDSTPEAVTCLLDKQVDGFGELFRQISVADIGTSTVQSRALAGLANGTLVCCLPGSTNAVRTGWDGILAEQLDARHRPCNFVAHLKQAAPCESRG	PGPT0008420_659	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008420-moaB-K03638	NA	NA
D1-35_00736	1227	moeA	COG0303	Molybdopterin molybdenumtransferase	GTGAATCCCGTGGGTAAACCGGGCAAGGCCGGCGCCCTGATGGCCGTCGAGGTCGCGCTGGAGCGGTTGCTCGAGATGGCGGCAGCCACGCCCATCACTCAGCATGAGCGCGTGCCGCTGGCTGAGGCGCAGGGGCGAGTATTGGCCGAGGACCTGGTCTCGACACTTGACCTGCCGCCCTGGCCCAACAGTGCGATGGACGGCTACGCCTTGCGCCTGAATGACTGGAGCGGCGAGGCGTTGGTCGTCAGTCAGCGGGTTTTCGCCGGGCAGGCTCCAGACGCTCTCGCCGCCGGTACCTGCGCGCGTATCTTCACGGGTGCGCCGGTCCCGCCGGGTGCCGATTGCGTCGAAATGCAGGAAAACGCCATTGTCGACGATGATCAGCGGGTAAGATTCACCCAGCCCATGGTCAGCGGACAGAACATTCGACCTCAAGGACAGGAAACAACCATCGGGGAGCGAGTCCTCGACGCCGGCACCCGCCTGGGTCCGATCGAGTTGGGTCTAGCGGCATCCCTGGGGTGCGCATCGCTGCCAGTGGTGCGCAAAGTACGCGTTGCGGTGCTGTCGACCGGTGATGAACTGGTGGAGCCTGGTCAGAACCTGGGTCCAGGCCAGATCTATAACAGCAATCGTGTCCTGCTCTGTAGCTGGTTGCAGCGCCTGGGTTGCGATGTTGTCGACGCAGGTATCCTGCCCGATGATTTGCCCGCTACGCGTCGCTGTCTGGCCGGGCTGTCGGATGTCGACCTGATCCTTTCCACCGGCGGCGTATCGGTGGGGGAGGCGGATTTTCTCGGCGTTGCATTGCGCGAAGAAGGCGAGTTGACGCTCTGGAAGCTCGCTATCAAGCCTGGAAAGCCGCTGACGTTCGGGCACTTCCGTGGCCTGCCGGTAATAGGCCTGCCGGGAAATCCCGCTTCTACGCTGGTGACCTTTGCGCTGTTGGCTCGGCCTTACCTGCTGCGGCGCCAGGGCGTTCAGTCAGTGGCGCCCCTCAAGTTCAAGATACCTGCAGGCTTCACCTGGCCGAAGGCGGGCTCTCGCCGAGAGTATTTGCGAGGTCGCATTGAAAACGGTCAGGCGATCATCTACCGCAACCAGAGCTCAGGTGTCCTGCGCAGCGCCGCCTGGGCCGAGGGGCTGGTCGAAGTCCTCGAAGGGCGAACACTGGTCCAGGGTGATGAAGTGAGCTTCATTCCCTTGAGCGAAGTGCTGGATTAA	MNPVGKPGKAGALMAVEVALERLLEMAAATPITQHERVPLAEAQGRVLAEDLVSTLDLPPWPNSAMDGYALRLNDWSGEALVVSQRVFAGQAPDALAAGTCARIFTGAPVPPGADCVEMQENAIVDDDQRVRFTQPMVSGQNIRPQGQETTIGERVLDAGTRLGPIELGLAASLGCASLPVVRKVRVAVLSTGDELVEPGQNLGPGQIYNSNRVLLCSWLQRLGCDVVDAGILPDDLPATRRCLAGLSDVDLILSTGGVSVGEADFLGVALREEGELTLWKLAIKPGKPLTFGHFRGLPVIGLPGNPASTLVTFALLARPYLLRRQGVQSVAPLKFKIPAGFTWPKAGSRREYLRGRIENGQAIIYRNQSSGVLRSAAWAEGLVEVLEGRTLVQGDEVSFIPLSEVLD	PGPT0008430_3851	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
D1-35_00737	309			hypothetical protein	ATGCCCGGCCATGAATTCAAATTGTCCCCCCGGCAATTTGGCCCGCTCAGGAGCGAGCGGGCCGATAAGCAGAACGAAGGCAAAAGTTGCATTAATCCCGTAGGAGGAATTGATTTGGAACCGCGCGTCGTTGAACTGGAAACTCACCTCAAATACATCCGCAGGGACATGGATGAAATCCGTACCGATGTGAAAGCGGTCCGACACCGGCTCGCCTATCTGGCCGGCGCAGCCGCAGTGGTGGTCGGCCTGCTGGGCTGGGTGGCGAACAGCCGCTTCGATCAGGTGGTGACGTTGCTGTCGCGATAA	MPGHEFKLSPRQFGPLRSERADKQNEGKSCINPVGGIDLEPRVVELETHLKYIRRDMDEIRTDVKAVRHRLAYLAGAAAVVVGLLGWVANSRFDQVVTLLSR				NA	NA	NA	NA	NA
D1-35_00738	918	yegS	COG1597	Lipid kinase YegS	ATGAGCAAAGGCAAGGCGCTACTGATCCTGCACGGCAAGCAAGCGCTCAACGAAGAGGTTCGCGCGGCAGTGATGCTCAAGCGCAAACAGGGCTGGGACCTGGCGGTACGGTTGACCTGGGAAGCAGGGGATGCCCGGCGATGCGTCGACGAAGCACTGGATGCCGGTTACACCCGATTGATCGCCGGCGGCGGTGACGGAACCCTGCGCGATATCGCCGAGGCGATGGTCCAGCGGCCTGGCGATGCCAGCCTGGTGTTGCTCCCCCTGGGCACTGCTAACGATTTTGCCCGGGCGGCCGGCGTCCCGTTGGAGCCGGACCAGGCCCTGGATCTGCTGGATGTCACGCCCAGGGCGATTGATGTGGGCGAGGTCGGCGGCTGTATTTTCCTGAACATGGCGACGGGCGGCTTCGGTAGCCAGGTGACCGCCAATACCTCCGAGGACTTGAAGAAAGTCCTTGGGGGCGCCGCTTATCTGTTTACCGGCCTGTCGCGTTTCAGTGAGTTGAGCGCAGCCTATGGCGAACTGCAGGGCCCCGATTTTCACTGGCGCGGCGACTTGCTGGCGCTGGGCATCGGCAATGGTCGGCAGGCGGGTGGGGGGCATTTGCTCTGTCCGCAGGCGTTCGCCGACGACGGTTTGCTCGATATCAGCATCCTCCCGGCGCCTCAAGAGGTTGTCAGTACGCTCAAGGATCTGCTGGCCGGTGGCCTGGGCATAGACAACATGTTCGTACGAGCGCGTTTGCCCTGGGTGGAAATCAAGGTGGCGCAGGGCCTGGACATCAATCTGGATGGCGAGCCGTTGCAGGTCGACGATCTGCGTTTCACCGTGCGCCCGAAAGCGCTACGGGTGCACCTGCCGTCGGATTCGCCATTGCTGGAGGGTGCGGCGCTGCTCAATCATCCAGGCTGA	MSKGKALLILHGKQALNEEVRAAVMLKRKQGWDLAVRLTWEAGDARRCVDEALDAGYTRLIAGGGDGTLRDIAEAMVQRPGDASLVLLPLGTANDFARAAGVPLEPDQALDLLDVTPRAIDVGEVGGCIFLNMATGGFGSQVTANTSEDLKKVLGGAAYLFTGLSRFSELSAAYGELQGPDFHWRGDLLALGIGNGRQAGGGHLLCPQAFADDGLLDISILPAPQEVVSTLKDLLAGGLGIDNMFVRARLPWVEIKVAQGLDINLDGEPLQVDDLRFTVRPKALRVHLPSDSPLLEGAALLNHPG				NA	NA	NA	NA	NA
D1-35_00739	660	degU_1	COG2197	Transcriptional regulatory protein DegU	TTGACTTGTAATTTGCTTCTGGTAGATGACCACTCGCTGATCCGGGCCGGTGTACGCGCCCTGGTCCTGGATCTCCCTGGCTACGCCGTCGTCGGCGAAGCCAGTGACGGCGCGCAATTGCCGGAACTGGTAGAACGCCTCAACCCCGATATCGTGCTGCTGGATATTTCCATGAAGGATACCGGCGGCCTGGAAGCCTTGCAGCAACTCAGGAAGGTACGCCCCCAGAGCAAGGTGCTGATCCTGTCCATGCACACTGACCCCGCGCTGATCATGCAGGCGCTGGAATCAGGAGCCCATGGCTACCTGCTCAAGGACACCACTGCCACCGAGCTGGCGCACGCCCTGGACGCGTTGCGCAACAACGAACGCTACCTGAGCCCGGCCATTGCCCATACCGTGATCAACCAGGCGCTGACCCGCGTTCAGAAACATCAGCCCGATCCAGCCCAGAACCACAACCTGACGGCGCGCCAGCTGGAGATCCTGCGGCTGATCGTTCGTGGCAAGTCCACCCGGGAAATCGCCAACGGCCTGAGCCTGAGCATCAAGACCGTGGAAACGCACCGGGCCCAGATCATGAAGCGCCTGCAGATCCATGACGTGGCCGGACTGGTACTGTTTGCGGTCCGCGAACAGATCATCAGCCTGGATGATTGA	MTCNLLLVDDHSLIRAGVRALVLDLPGYAVVGEASDGAQLPELVERLNPDIVLLDISMKDTGGLEALQQLRKVRPQSKVLILSMHTDPALIMQALESGAHGYLLKDTTATELAHALDALRNNERYLSPAIAHTVINQALTRVQKHQPDPAQNHNLTARQLEILRLIVRGKSTREIANGLSLSIKTVETHRAQIMKRLQIHDVAGLVLFAVREQIISLDD	PGPT0014870_111	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
D1-35_00740	894	degS_1		Signal transduction histidine-protein kinase/phosphatase DegS	ATGCACGCCAGCTTCAAGTCAATCATCACCTGGCCACCGTCCCGAGAAAACGCCCGCCGGTTCACATTGCTGCTGTGTATCTGCTCGACCCTCGGTTGCCTGCTGGCCTACTTGTTGGCCCATCCGCTGCCGTTGGGCTTGCTGGTGCTCAATGGCGCGGCGCTGGCCTGTGTCTGGATCCACTATCGACTGTCGCGCAAGTCCATCAAGTTCCAGCCGCAGGAACTGGCCGACCGACTGCTGGAGGTCCAGGAAAACGAGCGTCACCGGCTCAGCCGCGAACTGCACGATGACATTGGCCAACTGCTGACCGCGGCAAAACTGCAAAGTGAATGGCTCAAGCGCCGCCTGCCGGAAGACTTGCAGGGCCAATGCAGCGTACTGAGCGACACGCTGGACGAAACCCTGAACAAAGTGCGTGATGTCTCGGCGATCCTCAATCCCAGGCAACTGACCAGCCTTGGGCTCGAAGCCAGTCTCCGCGCTCATCTACTCAAGACATTGGCCAATACGCCGGTGAAATGGAGCCTCGATTGCCAGCAGCGCATGACCGGCATCCCGGACGAAATGACCGTCGCCGCCTTTCGGATCACCCAGGAGGCCGTCACCAACATGTTGCGCCACGCCCAGGCGAGCAATCTGCTGGTGCGCCTGCAACGCCTTCCTGAAGGGCTGACGTTGCTGATCAGCGATGACGGCCAGGGATTCGTCCCGGCCAGCCACCCCGGCCGCGAAGGACAGCGCGGCATGGCCGGCATGTCGGAGCGAGTCGAACAGTTGGGCGGCACCCTCAAGGTCACCAGCGAGGCCGGCAAAGGCACGCATATCGAAGCTCGTATTCCCTGGGCACCGCGTGCCCTTGAGCGGGCCAGCAAGAATAAGGTTCTCCATTGA	MHASFKSIITWPPSRENARRFTLLLCICSTLGCLLAYLLAHPLPLGLLVLNGAALACVWIHYRLSRKSIKFQPQELADRLLEVQENERHRLSRELHDDIGQLLTAAKLQSEWLKRRLPEDLQGQCSVLSDTLDETLNKVRDVSAILNPRQLTSLGLEASLRAHLLKTLANTPVKWSLDCQQRMTGIPDEMTVAAFRITQEAVTNMLRHAQASNLLVRLQRLPEGLTLLISDDGQGFVPASHPGREGQRGMAGMSERVEQLGGTLKVTSEAGKGTHIEARIPWAPRALERASKNKVLH	PGPT0017175_1081	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_HEXOSE_PHOSPHATE_UPTAKE_SENSING,PGPT0017175-uhpB-K07675	NA	NA
D1-35_00741	471			hypothetical protein	ATGCCGAACGATCGCAACAATTGGAGCCAGCGCCTTCCCGAGTTCCTGATTGAAGCCGAGACACTCTTGGCCAAGTCGGAGGAATGCCTGAGCCATCTGGAGCTGATCAACAACGACAAGGATGCCATCGACTGCATGCTCAGCACGTTGCTGAAGCTGGCAAACAAGGCCGACGCTCTCGCATTGGAGGCCGTTTCGGAGTTTTCGCTGCATATCCATGGCTTGCTCAGTCATGCGCAACACCACATGGAGCTGCATGACCAGGCACTGGTCGCGCTGAAAGATTGCTTTACCCTGATGGCCTGGCAATTGGAGCTCGTCGACCACACCACCGGCAAACTGAGTCTGGACAACACTGAACAGACTTCCCTGATCGAAGCATTTGCCTTCCAGGTTGGCCAGAGTCCCTGCGAGGCGTTGCCGACGCCGCGCCCGATGGCGTTGGTTCCTTACGCACAAAAACAAGCGTGA	MPNDRNNWSQRLPEFLIEAETLLAKSEECLSHLELINNDKDAIDCMLSTLLKLANKADALALEAVSEFSLHIHGLLSHAQHHMELHDQALVALKDCFTLMAWQLELVDHTTGKLSLDNTEQTSLIEAFAFQVGQSPCEALPTPRPMALVPYAQKQA				NA	NA	NA	NA	NA
D1-35_00742	924	cheV_2	COG0784	Chemotaxis protein CheV	ATGGCCGGCATTCTCGACACAGTAGATCAACGAACCCAATTGGTGGGTGAGAATCGCCTGGAAATTCTCATGTTTCGCCTGGCGGGGCGCCAATTGTTCGCCATCAACGTATTCAAGGTCCAGGAAGTGCTGCAACTGCCGAAGCTGACCTTGATGCCCCAGCGCCACCCGTTCGTCTGTGGCGTGGTCAATCTGCGTGGCCAGACCCTTCCGGTGATCGATCTTTCCCAGGCCATCGGCATGCGTCCGCTCGTGCCCGGACCTAACAGCACCATCATCGTCACCGAGTACAACCGTTCGGTACAGGCGTTCCTGGTAGGGGGCGTGGACCGCATCGTCAACATGAACTGGGAAGCCATCCTGCCGCCTCCGACCAGTGCCGGTCGCGAGCATTACCTGACGGCTATCAGCAAGGTCGACGACCAGTTGGTGGAAATCATCGACGTGGAGAAAGTCCTCGCCGAAATCGTCCCCTACAACGCCAAGGTCTCACGGGACAAGCTCGAGGATCCGGTGCTGGAACGAGCCCGCGGTCGAGAAGTCCTGCTGGTGGACGATTCCAATGTCGCGCTCTCGCAGTTGCGTGACACCCTGGGCCAGTTGGGCGTGAAGATGCACATCGCCAGCGACGGCTTGAAGGCACTGAACATGCTCAAGGCCTGGGCCGACACCGGCGAAGTGATGACCGACAAGTTGCTGATGATTTTCACCGACGCGGAAATGCCCGAGATGGACGGCTACCGCCTGACCACGGAAATCCGCAACGATCCACGCCTGCGTGGGCTCTACGTGGTGCTGCACACCTCGCTGTCCGGCAGCTTCAACGATTCGATGGTCAAGAAGGTTGGCTGTGACAACTTCCTTTCCAAATTCCAGCCGGACAAGCTGGTCGACGTGGTGCGCCAGCGGTTGATGCTCGGCTGA	MAGILDTVDQRTQLVGENRLEILMFRLAGRQLFAINVFKVQEVLQLPKLTLMPQRHPFVCGVVNLRGQTLPVIDLSQAIGMRPLVPGPNSTIIVTEYNRSVQAFLVGGVDRIVNMNWEAILPPPTSAGREHYLTAISKVDDQLVEIIDVEKVLAEIVPYNAKVSRDKLEDPVLERARGREVLLVDDSNVALSQLRDTLGQLGVKMHIASDGLKALNMLKAWADTGEVMTDKLLMIFTDAEMPEMDGYRLTTEIRNDPRLRGLYVVLHTSLSGSFNDSMVKKVGCDNFLSKFQPDKLVDVVRQRLMLG	PGPT0015675_1387	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015675-cheV-K03415	NA	NA
D1-35_00743	810	ycbX	COG0633	putative protein YcbX	ATGTTGCGGCTGAGCGCGCTGTATCGGTATCCGTTGAAGTCCGGCAAGGGGCAGCCGCTGCAGGGCATCGGCCTGGACAAGCTCGGGCTCGACGGTGATCGACGCTGGATGCTGGTGGATGAGGCCACCGGGCGCTTCCTGACCCAGCGGGCCGTGGCAAAGATGAGCCAGCTTTCGGCGTTGTGGAACGCGGCGGGCGGACTGACACTCAGCGCGCCGGGCTACGGCGCCATCGAGGTGCCGCTGCCGTCTTCTCTCGAAGAACAACGGCGTGGCGTGATCATCTGGCGCGATACTCTGCGTGTGCCGGATGCCGGTGACGCGACGGCAGCCTGGGTCAGTGAATTCATCGGCAATCGCACCCGGCTGGTCCATGTGCCGGTGGAATTGGCTCGCACCACGGCAGCCGGCTACGGCAAGGATGATGACAAGGTGGCCTTCGCCGACGGTTTTCCCTTGTTGTTGATCGGCCAGGCCTCGTTGGAGGATTTATCGGGCAGGGTCGGCCGCTCGCTGGAAATGCTGCGCTTTCGTCCCAACCTGGTGGTCGAGGGCAGCGAGGCGTTCGCCGAAGACGGCTGGAAGCGTATTCGTATCGGCGAGGTGGAGTTTCGGGTGGTCAAGCCGTGTTCACGCTGCATCATGACCACGGTCGATCCGCAAACCGGCGAACGCGATCCGCAGCGCGAGCCTTTCGCCACGTTGCAGCAGTACCGTTCTACCCCGGATGGTGCGATGTTCGGCCAGAATCTGGTCAACGATGGCAATGGCCGACTTGAGGTCGGCATGCCGGTCGAGGTGCTGGAATAG	MLRLSALYRYPLKSGKGQPLQGIGLDKLGLDGDRRWMLVDEATGRFLTQRAVAKMSQLSALWNAAGGLTLSAPGYGAIEVPLPSSLEEQRRGVIIWRDTLRVPDAGDATAAWVSEFIGNRTRLVHVPVELARTTAAGYGKDDDKVAFADGFPLLLIGQASLEDLSGRVGRSLEMLRFRPNLVVEGSEAFAEDGWKRIRIGEVEFRVVKPCSRCIMTTVDPQTGERDPQREPFATLQQYRSTPDGAMFGQNLVNDGNGRLEVGMPVEVLE				NA	NA	NA	NA	NA
D1-35_00744	285	ppnP	COG3123	Pyrimidine/purine nucleoside phosphorylase	ATGTTCAAAGTCAACGAGTACTTCGACGGCACCGTCAAGTCGATCGCCTTCGGCACCTCCGAAGGTCCAGCGACCATCGGCGTCATGGCACCGGGCGAATATGAGTTCGGCACCGCGCAGCGGGAAATCATGCATGTTGTTTCCGGCGCCCTGACCGTGAAACTGCCCGACAGCACCGATTGGGAAACCTTCGCCGCCGGTAGCCAGTTCAACGTCCCGGCCAACAGCAAGTTCCAGCTCAAGGTAGCCGTCGACACGGCTTACCTCTGCGAATATCGCGGCTGA	MFKVNEYFDGTVKSIAFGTSEGPATIGVMAPGEYEFGTAQREIMHVVSGALTVKLPDSTDWETFAAGSQFNVPANSKFQLKVAVDTAYLCEYRG	PGPT0021300_682	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021300-ppnP|yaiE-K09913	NA	NA
D1-35_00745	543	dinG_2		3'-5' exonuclease DinG	ATGCCTTACTGGCTGGTGATTGATCTGGAAGCCACCACCGACGAAGGTGGCTGGCCGGTTACCGAAATGGAAATCATCGAAATCGGCGCCACCCTGGTGAATCGGGATGGGCGCGAGGTGGATCATTTCCAGCGCTTTGTACGGCCGCTGAGGCGCCCGTTGCTGACCTCTTTCTGTCGCACGCTGACGCATATCAGCCAGGCCAATATTGACGGCGCCGCACCGCTGACCGAGGTCTGGCCGGCATTCGAACACTGGCTGGCGCCTTATCGAGCGAACCTCGAAGGCTGGGTCAGTTGGGGCGACTACGACCGCAAGCAATTGCTTCAGGAATGGCAAGGCCAGCACTTGCACAGCGCGCTCGGCCAGGTACCGCACATGAATCTCAAGCAGCGCTTTGCCAAGGCCCGTCGGCTGGAGCGACCGCTGGGGCTCAATGCGGCGTTGCAACTGGCCGGCCTGCAGTTCTGCGGCCAACAACACCGTGCATTGGAGGACGCCCGCAATACGGCGCGATTGTTGCCGCTGGTGCTGACCGGCTGA	MPYWLVIDLEATTDEGGWPVTEMEIIEIGATLVNRDGREVDHFQRFVRPLRRPLLTSFCRTLTHISQANIDGAAPLTEVWPAFEHWLAPYRANLEGWVSWGDYDRKQLLQEWQGQHLHSALGQVPHMNLKQRFAKARRLERPLGLNAALQLAGLQFCGQQHRALEDARNTARLLPLVLTG				NA	NA	NA	NA	NA
D1-35_00746	798			hypothetical protein	TTGACGTGTTCGCCGATGGGGATGACCTCACGTACCTTGCTGGCCGTCCTGGCCATGTTCTTGACCGTGTCAGCTGAAGCTGCACAAGTGGTCCGGATCGGCGCGGCGCATTTCCCGCCCTATACCGTTCGTCCCGAAAACGGCGCCGACACCGGTCTGTTACCGCAATTGGTGGAAGCCTTGAACCGGTCACAGGCCGATTATGAATTCGTGCTGGTACCCACTTCGATTCCGCGCCGGTTCAACGATTTCAAGCAGGGCCGGGTCGACATGGCGATTTTCGAGAACCCCGACTGGGGTTGGCAGGATGTGCCCCATACTCCGGTAGACATGGGCCTGGAGGATGCGGAGATATTCGTCGCCCAACGCCAGCCGGATCGCCAGCAGAGCTATTTCGCCGATCTCAGGGGCAAGCGCCTGGCCCTGTTCAGCGGTTATCACTATGCGTTTGCCGAATTCAACGCCGATCCCAAGTTCCTCATCGGCCAATACAACGCCACGTTGACCTATTCCCACGACAGCAACCTGCAGATGGTACTACGCACCCGCGCGGACATTGCCCTGGTGACCCGTTCCTACCTCAGCGATTACGTGTTGCGCAATCCGCAAGTGGCCTCGCAGTTGCTGGTATCCGAACGCATCGACCAGATTTACCACCATTACGCACTGATTCGGCCCCAGGCGCCCATTTCTCCCCAAGCGTTCGCCCAGATATTGCAGAAGTTGCGGGACGACGGCCAGTTGCTGGAAATCTTCCAGCCCTACCGGATCGAGCTGGTGCCGACCCACGCCCATTGA	MTCSPMGMTSRTLLAVLAMFLTVSAEAAQVVRIGAAHFPPYTVRPENGADTGLLPQLVEALNRSQADYEFVLVPTSIPRRFNDFKQGRVDMAIFENPDWGWQDVPHTPVDMGLEDAEIFVAQRQPDRQQSYFADLRGKRLALFSGYHYAFAEFNADPKFLIGQYNATLTYSHDSNLQMVLRTRADIALVTRSYLSDYVLRNPQVASQLLVSERIDQIYHHYALIRPQAPISPQAFAQILQKLRDDGQLLEIFQPYRIELVPTHAH	PGPT0020800_11437	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
D1-35_00747	1014			hypothetical protein	ATGTCCAACCTCAATCAGCCGACCCTGTTGCCCTTGCCCGGCGGGCGCAGCCTGGGTGCCGATGAAACCGAACGCCACCTCTGCCTGATGCTCGAAGGCGCGCCGCTGATCCGCCTGCGCCTGGAGCGCGGTCCCCAGTTGCACGTGCATTTGCAGGAAAGCAACGACCGGCCGGTCGGCCCGGCACTCTGGGCGGCCTGCTATTGGCTGTTTGCCAGGGATCCCGAATGTCAGCGCCTGGTCTGGCACCTCAATGAGCGTCCCGGTGAGGCCCTGCTCAGTGGTTTGCTGACGGGCGGGGAACTCAGCGACGAATACATCTGCGAACGCACGCTGTTCTGGCAACTGCCGCAGCCCTGGCTGGGAGAGTCGTTCAGCGGCAGTTATCCGCAACAGATGATCGTCACCGACGGCAAGCGCCATCCGCGTCGCCCGATCAAGCCGCGTGGCGAGGTGTATCGCCGTTTCGACGCGCGGCTGGGGGCCTGGGTGTCTTTGCGCACGCTTGAAATCGAGCAGGACCTGACGCGATTCAACCGCTGGCAGAACAGCCCCAGGGTGGCGAGCTTCTGGCAGGAGGAGGGCAGCCTGGAACAGCACCGCGAGTACTTGACCAGGCTTGAGCATGACCCTCGGGTCTTGACCTTGATCGGTTGTTTCGATGAGCAGCCATTCGCCTACTTCGAAGCCTATTGGGCCAAGGAGGATCGAATCGCACCGTTTTATGACGCTCACGCCTATGACCGCGGCATCCACATGCTGGTGGGCGAAGAGCAGCATCGAGGTCCGCACAAGGTCGCAAGCTGGCTATCGGCGCTGGTGCATTACCTGTTTCTCGACGATCCGCGTACCCAGCGCGTGGTGGCCGAGCCTCGGGCCGACAATGCCCGGATGATCAGGCATCTGCATAACCAGTGTTTTCACTGTGAAAAGGAATTCGATTTCCCGCACAAGCGCGCGGCACTGATGATCCTGGGGCGCGAGCGGTTTTTTGACCGGTGTTCGTTGGTGTAG	MSNLNQPTLLPLPGGRSLGADETERHLCLMLEGAPLIRLRLERGPQLHVHLQESNDRPVGPALWAACYWLFARDPECQRLVWHLNERPGEALLSGLLTGGELSDEYICERTLFWQLPQPWLGESFSGSYPQQMIVTDGKRHPRRPIKPRGEVYRRFDARLGAWVSLRTLEIEQDLTRFNRWQNSPRVASFWQEEGSLEQHREYLTRLEHDPRVLTLIGCFDEQPFAYFEAYWAKEDRIAPFYDAHAYDRGIHMLVGEEQHRGPHKVASWLSALVHYLFLDDPRTQRVVAEPRADNARMIRHLHNQCFHCEKEFDFPHKRAALMILGRERFFDRCSLV	PGPT0031100_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-AMPHIBACTIN_METABOLISM,PGPT0031100-iucB_like-NA	NA	NA
D1-35_00748	549			hypothetical protein	ATGACGGAACAAGTATCCACAAGCAGGTGCGACTCACCGCTACTCCAGGCCTTCGTCGACAACCGGATGATCCTGGTCAAGATCGCAGCGCGTATCACCGGTTGCCGCTCCCGCGCGGAAGACGTGGTCCAGGATGCGTTTTTCCGGTTGCAATCGGCGCCCCAGATCACCTCGTCCTTCAAGGCTCAACTCAGCTACCTGTTCCAGATCGTGCGCAATCTGGCGATCGACCACTACCGCAAACAGGCGTTGGAACAGAAATATTCGGGGCCGGAAGAAGAAGGGTTGAACGTGGTGATCCAGGGTGCTTCGCCAGAAACGTCGCATATCAACTTTTCCACCCTCGAGCACATTGCCGACGCGCTGACCGAGCTGCCCAGCCGAACCCGTTACGCCTTCGAGATGTACCGGCTGCACGGCGTACCGCAGAAAGACATCGCCAAGGAACTGGGCGTCTCGCCGACACTGGTGAACTTCATGATCCGCGACGCCCTGGTGCATTGCCGCAAGGTGTCAGGGGTGCGTGGGGATACGTTCGCCCGGCGGTGA	MTEQVSTSRCDSPLLQAFVDNRMILVKIAARITGCRSRAEDVVQDAFFRLQSAPQITSSFKAQLSYLFQIVRNLAIDHYRKQALEQKYSGPEEEGLNVVIQGASPETSHINFSTLEHIADALTELPSRTRYAFEMYRLHGVPQKDIAKELGVSPTLVNFMIRDALVHCRKVSGVRGDTFARR				NA	NA	NA	NA	NA
D1-35_00749	12987	lgrB_1		Linear gramicidin synthase subunit B	ATGACCGACGCGTTCGAACTCCCCAGCACCCTGGCCCATGCCCTCCAGCGCCGCGCCGCGTTGACGCCGGACCGGGTGGCCTTGCGCTTTCTTGCCGACACCCCGCAGCAGGGCGTCGTGTTGAGTTATCGCGACCTGGACTTGCGCGCCCGGACCATCGCCGCCGCTTTGCAGGCCGAGGCGGAACTGGGAGATCGCGCCGTACTGCTATTCCCGAGCGGCCCGGATTACGTCGCGGCGTTTTTCGGTTGCCTGTACGCCGGCGTGATCGCCGTTCCGGCCTACCCACCCGAGTCCACCCGCCGCCACCATCAGGAGCGTCTGCTGTCGATCATCGCCGACGCCCAGCCGCGGCTGTTGCTCACCAGCAGTGAAGTGCGCGACACGCTGCAGGCCATCGAATCGGCACCGCCGGTACTCTGTGTCGATATCCTCGATCCGGCCCACGCCGGCCAATGGCGGGCGCCGAACCTGCAAGACGACGACATCGCCTTCCTGCAATACACCTCCGGCTCCACTGCGTTGCCCAAGGGGGTGCAGGTGAGCCACGGCAACCTGGTGGCCAACGAAGCGCTGATCCGGCATGGCTTCGGGATTGACGTGAATCCCGACGACGTCATTGTCAGCTGGCTGCCGCTGTATCACGACATGGGCCTGATCGGCGGTTTGCTGCAACCGATCTTCAGCGGAGTGCCGTGCGTACTGATGTCGCCGGCGTATTTCCTCGCCCGACCGTTGCGTTGGCTGGAAGCGATCAGCGAGTACGGGGGCACCATCAGCGGCGGCCCGGATTTCGCCTACCGGCTGTGCAGCGAGCGGGTCAGCGAGTCGGCCCTGGAGCGCCTCGACTTGAGCCATTGGCGCGTGGCCTATTCCGGCTCCGAACCGATTCGCCTCGACAGCCTGGAGCGCTTCGCCGAAAAGTTTGCCTCGTGCGGCTTCACGCCGGACAGTTTCATGGCTTCCTATGGCTTGGCCGAAGCCACCCTGTTCGTCGCCGGCACGCCGCGTGGCCTAGGGATCCCCGCGATGCGAATGGATGACGCGGCATTGGCGCAAAACCGCGCCGAGCCGGGGCAGGGCAACGCAGTGATGAGTTGCGGCGTGAGCCAGCCGGACCACGCGGTACTGATCGTCGAGCCCGCCACGCTACAGCCGCTGGCCGACAATCAGGTCGGCGAAGTCTGGGCCGCCGGGCCGAGCATCGCCCACGGTTACTGGCGCAACCCCGAGGCCAGCGCCAGGACATTCGTCCAGCATGCCGGCCGCACCTGGCTGCGCACCGGCGACCTTGGCTTTGTGCGCGAAGGCGAGCTGTTCATCACGGGGCGCCTGAAGGATTTGCTCATCGTGCGCGGGCATAACCTTTATCCACAGGACATCGAGCAAGCCGTAGAGCGCGAAGTCGAGGTGGTGCGCAAGGGGCGGGTCGCTGCATTCGCGGTCGACAACGGCGGCGAAGAGGGGATCGGGATTGCCGCGGAAATCAGCCGCAGCGTGCAGAAAATCCTCCCGGCCGAGGCCTTGATCAAAGCGATTCGCCAGGCCGTGGCCGATGCCTGCCAGCAAGCCCCGAGCGTGGTGGTGCTGCTCAACCCAGGGGCCTTGCCGAAGACTTCGAGCGGCAAGCTGCAGCGTTCGGCCTGCCGGGCACGACTGGCTGACGGCAGCCTCGACAGCTATGCGCTGTTTCCCTCGGTCGAGGTGGAGCAAACCCATGAGGCGGGCGCTTCATCGAAGCTGCAAACGCTGATTGGCCAGATCTGGTGCGAGCAGTTACAGGTCGACCAGGTCCAGGGCGCCGATCATTTCTTCCTGCTGGGGGGCAATTCCATCGCCGCCACCCAAGTCATTGCGCGGCTGAGCGAAACCCTCGGCCTGGAGCTCAACCTGCGCCTGCTCTTCGAAGCCCCAACGCTCGGCGCTTTTGCCGCGGCGGTGGCGAACCTGCAGGAGGACGGCGGCCAGGCCCAGGGCGCCATCAGCCGGTTGCCACGCCACGAGCCGCTGCCGCAATCGTTGGCGCAAAACCGCTTGTGGCTGACCTGGCAGCTGGACCCGGCAAGCCGTGCCTACAACATTCCCGGCGCCATCCGCCTGCGCGGCGAGCTGGACGAAAACGCCTTGCGCGCCAGCTTCCAGCAATTGATCGAGCGCCATGAGTCCCTGCGCACGCGGTTCCTGGAACGCGATGGGGTGGCCTTGCAGCAAATCGATCCGGCCGGCGAGTTCAATCTTCAGGTGATCGATCTTTGCGACATGCCCGCTGACCAGCGCGAAGCGCGGGCGCGGCAGATCCGCGAAGACGAAGCCGCCACGCAGTTCGATCTGGAAAAGGGTCCGCTGCTGTGGGTCACCTTGTTGCGCCTGGATCAGGACGACCACCAACTGTTGGTGACGATGCACCACATCATCGCCGATGGCTGGTCGATGAACGTCCTGATCGAGGAGTTCTCACGGCTCTATGCCGCGGCGTCCCAGGGACAGGTCGCCGAGTTGGCGCCGTTGCCGCTGCACTACGCCGACTACGGCAGTTGGCAGCGCCAATGGCTCGGGCAAGGTGAAGCCGAGCGCCAACTGGCCTATTGGAAACAGCAACTGGGCGATGAGCATCCGACCCTGGCGCTGAGCACCGATCATCCGCGCAGCGCCCTGCATCAGCGCAGCGCCGCGCGCCACAGCCTGCGCCTGGACAAGGTCCTCGGCGATGCCCTGCGCCGGACGGCCCAGGCCCATGACGCCACGCCGTTCATGTTCTTGCTGGCGGCATTCCAGGCGCTGCTGCAGCGCTACACCGGCCAGTCCGACATCCGCATCGGCGTGCCCAACGCCAATCGTCCGCGCCGGGAAACCCAGGGCCTGATCGGCTTCTTCATCAACACCCAGGTGCTGCGCGCGCAAACCGATTCGCGCCAGCCATTCGCCGCGCTGCTGGCCCAGGCCCGGGAAGCCACGCTGGGCGCCCAGGCGCATCAGGACCTGCCTTTCGAACAACTGCTGGAAGCGTACCCACAGGCGCGGGACCAAGGTCTGTTCCAGGTCATGTTCAACCATCAGCAGCGCGACCTCGGCGCGTTGCGGCGCCTGCCGGGGCTGTTGGCCGATGAGTTGCCGTGGCACAGCCGCGAAGCCAAGTTCGACTTGCAGTTGCATAGCGAAGAGGACCGCAACGGACGGCTGACGCTGTCGTTCGATTACGCTGACGAGCTGTTCGAGGCGACGACTATCGCCCGCTTGGCCGAACACTTTTGCAGCCTGCTTCGGTCGGTTTGCAGCAACCCGCAACAGGCGATCGGCGACGTGCAGCTGTTGAGCGACGCTGAATCCGCGCAACAACTGCCATGGGGCTCGGCGCCTTGCGAGCCGGCCAGCCAGTGGCTGCCGGAACTGCTCAACGAACAGGCCCGCCGCACCCCGCAACGTACCGCGTTGCAGTGGGACGGTGGTGCGCTGGACTATGCCGAGCTGCACACCCAGGCCAATCGCCTGGCCCATTACCTGCGGGACAAAGGCGTCGGCCCGGACGTCTGCGTGGCGATTGCCGCCGAGCGTTCGCCGCAGTTGCTGATCGGCGTGTTGGCGATCATCAAGGCGGGGGGCGCCTATGTGCCGCTGGATGTCGATTATCCGGCCGAGCGCCTGGCCTACATGTTGGGTGACAGCGGCGTCGATCTGCTGCTCACCCAAACCGCCTTGCTGGACCGCTTGCCGGCCTGCGCAGGCGTCAGCGTCATCGCCATGGACGCCCTGCACCTGGAACAGTGGCCGAGCAACCCGCCGGGGCTGCATTTGCATGGCGAGCATCTGGCGTACGTGATCTACACCTCCGGTTCGACCGGTCAGCCGAAGGGCGTCGGCAACACCCATGCCGCCCTGGCCGAGCGCCTGCAATGGATGCAGGCCGCCTATGGGCTGAATGAAACCGACGTGCTCATGCAAAAGGCGCCGATCAGTTTCGACGTGTCAGTGTGGGAGTGCTTCTGGCCGCTGATCAACGGCTGCCAACTGGTACTGGCCGGCCCCGGCGAGCACCGCGACCCGCACCGCATCGCGCAGTTGGTCGAGCGGTTTGGCGTGACCACGCTGCATTTTGTACCGCCGCTGCTCAGCCTGTTCCTCGAGGAGCCGTTGAGCGCCCGCTGCACGAGCTTGCGGCGGATCTTTTCCGGCGGCGAAGCGTTGCCGGCCGAGTTGCGCAACCGGGTGCTGGCGCAACTGCCGGCGGTGCAGCTGCACAACCGCTACGGCCCGACCGAAACCGCTATCAACGTCACGCACTGGCACTGCAGCGAGGCCGATGGCGAGCGCTCGCCGATCGGTCGTCCGCTGGCCAATGTGCTCTGCCGCATCCTCGACAGTGACCTCAATCCGGTGCCGGTCGGTGTGCCGGGTGAATTGTGCATCGGTGGCCTCGGCCTGGCCCGGGGTTACCTGGGGCGACCGGGGCTGACGGCCGAGCGGTTTGTCGCCGACCCGCTGGGTTCGGCCGGCGCGCGGCTGTACCGCACCGGCGACCGGGCGCGCTGGGGCGCTGACGGCGTCATCGAATACCTCGGCCGCCTCGACCAGCAGGTCAAGCTGCGTGGTTTCCGGGTCGAGCCGCAGGAAATCGAAGCGCGACTGCTCGCCCAGCAGGGCGTCGCCCAGGCGGCGGTGCTGGTGCGTGACACCGCGGCCGGTGCGCAATTGATCGGCTACTACACCGCGGTCGATGTCGATGAAGATGAAACCGTCCAGGCTGCTCGCCTGAAAAACGCCCTCGTCGGTGAATTGCCCGACTACATGGTGCCTGCGCAATTGCTGCGCCTGGACGTCATGCCCCTGAGTCCGAGCGGCAAGCTCGACCGTCGCGCCTTGCCCGAGCCGCAGTGGCAAGTGCGCGAGCACGTCGAGCCGGTCAGCGCCCTTGAACAGCGGGTCGCCGGCATCTGGCGCGACGTGCTGGGTCTGGAGCGCGTTGGCTTGCGCGATGACTTTTTCGCCTTGGGCGGCCATTCGTTGCTGGCGACCCAGATCATTTCCCGCACCCGCCAGGCCTGCGATGTCGAGCTACCGCTGCGCGCGTTGTTCGAAGCCAGTGAGCTGGGCGCCTTCGCTGAGCAGGTGCGGTTGATCCAGGCCAGCGGCCAGACCAACCGCCAGCCGCCGATCGAGAAAGTCGACCGCAGCCAACCGGTGCCGCTGTCCTATTCCCAACAGCGTATGTGGTTCCTCTGGCAAATGGAGCCGGATAGCCCAGCCTACAACGTCGGCGGCATGGCGCGGTTGCGCGGGGTGCTGGATGTCGGACGCTTTGAAGCGGCGTTGCAGGCCCTGATCCTGCGCCACGAAACCCTGCGCACAACGTTCCCGAGCATTGATGGCGTGCCTCGCCAACAGGTACACGGCGAGACGGGCCTGCGCATGGGCTGGAAGGATTTCTCGATGCTGGACGCCGACATGCGCCAGCAACGGGTCCGGCAACTGGCCGACAGCGAGGCCCACGAACCCTTCGACCTGGAAGCCGGGCCGCTGCTGCGGGCCTGCCTGGTCAAGACCGCCGAGCATGAGCATTACTTTGTGCTGACCTTGCACCACATCGTCACCGAAGGGTGGGCGATGGATATTTTCGCCCGTGAGCTGAGCGCGCTGTATGAAGCCTTCGTCGATGATCGCGAGTCGCCGCTGGAGCCGTTGCCGGTGCAATACCTCGACTACAGCGTCTGGCAGCGCCAATGGCTGGAATCCGGCGAGCGCCAGCGTCAGCTGGACTACTGGACCGCCCAACTGGGCCGCGAACATCCCTTGCTGGAGCTGCCCGCCGATCGCCCGCGTCCGCCGGTGCAAAGTCATCGTGGCGAACTGTTCCGTTTCGACCTCAGCGATGAGTTGGCCGCGCGGGTCCGCGCCTTCAATGCCGAACGTGGCCTGACCCTGTTCATGACCATGACCGCCGCCCTGGCCGTGCTGCTCTATCGCTACAGCGGCCAGACCGACCTGCGCATCGGCGCGCCGGTGGCCAACCGCATCCGCCCGGAAAGCGAAGGGCTGATCGGCGCGTTCCTCAACACCCAGGTGCTGCGTTGCCAGCTCGACGGGCAAATGTCGGTGGGCGAACTGTTCGAGCAGGTGCGCCACACCGTGATCGAAGGCCAGTCCCACCAGGACTTGCCCTTCGATCATCTGGTCGAAGCCCTGCAGCCACCGCGCAGTGCCGCATACAACCCGCTGTTCCAGGTGATGTGCAACGTCCAGCGCTGGGAATTCCAACAGAGCCGCACGTTGGCCGGCATGAGCGTCGATTACTTGGTCAACGACGCCCGCGCCACCAAGTTCGACCTCAACCTGGAAGTCACCGACCTCGACCAGCGCCTGGGTTGCTGCCTGACCTACAGCACCGATCTGTTCGATGAGCCGCGCATCGCCCGCATGGCCGGTCATTGGCGCAACCTGTTGGAGGCGTTGCTGGTCGATCCGGCTCGGCGGCTGAGCGAATTGCCGTTGCTTGGCGTCGGCGAGCAGCAGCAAATGCTCGACAGCCTGGGCGTCGAGCCCGGTGAGCATCGCCTCGATCAATGCCTCCAGGTGCTGTTCGAAGAACAGGCCCGGGCGCGTCCCGACGCAGCCGCGCTGACGTTCGCTGGGCAGACCCTGAGCTATGCCGAACTCGAACGCCGCGCCAATCGCCTGGCCTGGATGCTGCGCGAGCGGGGCGTCGGGCCGCAGGTGCGGGTGGGCCTGGCGCTGGAGCGCTCGCTGGAAATGGTCATCGGCCTGCTGGCGATCCTCAAGGCCGGTGGCGCCTACGTGCCGCTGGATCCGGAATACCCGCTGGACCGTTTGCACTACATGATCGAAGACAGTGGCGTCGGTCTGCTGCTCAGCGACCGGACCATGTTCCAGGCCCTCGGCCCATTGCCGCCGGGCGTGCAGCGCTGGTGCCTGGAGGACGACAGCGAGGCGTTGGCGCAGTACCCGGACCAGTCGCCATCGCTGATCAATCTGCCGCAGCACCAGGCGTACCTGATCTACACCTCCGGCTCCACCGGCAAGCCCAAGGGCGTGGTCGTGTCCCACGGTGAAATCGCCATGCATTGCCAGGCGGTGATCCGCCGTTTCGGCATGCGCCCGGACGACTGCGAGCTGCATTTCTATTCGATCAATTTCGACGCGGCCACCGAACGCCTGCTGGTGCCTTTGCTCAGCGGCGCTCACGTGGTGCTGCGCGCCCAGGGCCAGTGGGATGCTCAGGAGATTTGCGGGCTGATCCGTCAGCACCGCATCAATATTCTTGGCTTTACCCCGAGTTATGGCAGCCAGTTGGCGCAATGGCTGGCGACCCAGGGGCAAACGTTGCCGGTGCGCATGTGCATCACCGGTGGCGAAGCCTTGACCGGCGAACACCTGCAGCGCATCCGCGCCGCGTTCAGCCCGAGTCTGTTTTTCAACGCTTATGGTCCGACCGAGACGGTGGTGATGCCGCTGGCGAGCCTGGCGCCGGAACAACTGGAGGAGGGCGCGGGCAGCGTACCGATCGGCAGCGTGATCGGCGCCCGGCGGGCCTACATTCTCGACGCGGACCTGGCGTTGGTGCCGCCAGGCGCGACGGGTGAGCTGTACGTTGGTGGCGCCGGCCTGGCCCAGGGTTATCACCAGCGTCCGGGCATGACCGCCGAGCGCTTCGTCGCCGATCCGTTTGCCGCCGATGGCGGTCGGCTGTACCGCACCGGCGACCTGGTGTGCCAGCGTGCCGACGGCCAAGTGGAGTACCTGGGACGAATCGATCATCAAGTGAAGATTCGCGGTTTCCGCATCGAACTCGGGGAAATCGAAAACCGCCTGCTGGAGCACGACGCCGTGCGCGAAGCGGTGGTCCTGGCCCTCGACATGCCGGGCGGCAAGCAGTTGGCCGCTTATCTTGCCAGCGACATCGCCGAGCAGGACGCCATGGCACAAGTGGCCCTGCGCGAAGCGCTGAAGCAGCACCTCAAGACGCAACTGCCGGAGTACATGGTGCCCGCTCACCTGATCCTGCTGGCGAGCATGCCGCTGACCGCCAACGGCAAACTCGATCGCCGCGCCTTGCCGATGCCCGATCCGGAGCTCAATCGCCAGCAATACGTGGCGCCGAGCAATGCCCTGGAGCAAGCGCTGGCAGCGATCTGGTGCGACGTGCTGAACGTCAAACAGGTTGGCCTCAACGACAACTTCTTCGAGTTGGGCGGCGATTCGATCCTGTCGATCCAGGTCGTCAGCCGTGCCCGGCAGCAGGGCATCCACTTCACGCCGCGAGACCTGTTTCAGCACCAGACCGTGCAGGCCTTGGCCGCCATCGCCACCCGCAGCGAGCAGGTGAGTGTCGAGCAGGGGCTGTTGAGCGGTGAGTCGGGGCTTACGCCGATCCAGCATTGGTTCTTTGCCAGCGAGATACCCAACCGTCACCACTGGAACCAGGCGCTGCTACTGGAGCCGACCACGCTGCTCGAACCACAGCTTCTGGAGCAGGCGCTGCAGGCTGTTTTCCAGCAGCATGATGCCTTGCGCCTTGGCTTCGCCAATACCACTGGGCATTGGCGCGCCGAGCACCAGCCCTTGTTCGATGGGGCGTTGCTGCAGCATCTTTCGGTGCAGTCCACACAAGCCTGCGAAGCGCTGTTTGCCCAGGCGCAGCTTGGCTTCCAGCTGTCGAGCGGGCCGTTGCTGCGCGCCGTGCTGGCGGACTTGCCGGACGGTCGGCAGCGCCTGCTGATCGCCATCCATCACCTGGTGGTGGACGGAGTTTCATGGCGGGTGTTGATGGACGATCTGCAGACGGCTTACCGCCAATCTGCCGGCGGGCAGCCGCTGCGGTTACCGGCCAAGACCAGCCCGTTGCGTGACTGGGCTGCGCGGTTGCAGGCCTACGCCGGCAGCGAATCCCTGCGCGAGGAATTGAACTGGTGGCGCGACCAACTGAGCGGGCCGGACGTTACGCTGCCTTGCGCGAACCCTGGCGGCGGGCGGCAGGAGCGACACGCCGCAAGCGTCAGCGTGCGCCTGGACGCCGAGCGTACCCGGCAACTGTTGCAGCAGGCACCGAGCGCCTATCGCACCCAGGTCAACGACCTGCTGCTCACGGCGCTCGCCCGCGTGCTGTGCCGCCAAGGCAATCAGCAATCGGCGCTGATCCAGCTCGAAGGCCATGGCCGCGAGGCGCTGTTTGATGACGTCGACCTGACGCGCACCGTGGGCTGGTTCACCAGTGTCTATCCGCTGCGCCTGAGCCCGGCGGCCGATGATGTCGGCGCGTCGATCAAAGCCATCAAGGAGCAACTGCGCGCGGTGCCCCACAAGGGCCTCGGCTACGGCGTGCTGCGTTATCTGGCGGACGCCGGCACACGCCAGGCGATGGCCGGTTTGCCGCAAGCGGCGATCACTTTTAATTACCTCGGTCAGCTTGACCATACGCTCGGCCAGGACGCGTTGTTCCAACCGCTGGATACGCCACTTGGCGCCATTCATGACCCTGACGCGCCACTGCCGAACGAGTTGAGTGTCGACGGCCAGGTCAGCGGCGGCGAACTGCTGTTGCGCTGGACCTTCAGCGCCGAGCGGCATGACCGTGAAAGCATCGTCGCGCTGGCCGAGGCCTATCTCGACGAGTTGCAGCGGCTGATCGAACATTGCCTGGCGGACGAGGCGGGCGGCCTGACGCCGTCGGATTTCCCGCTGGCAAAACTGACCCAGGCACAGTTGGACAACCTGCCGGTGCCGGCCGGGCAGATCGAGGATGTCTACCCGCTGACGCCGATGCAGGAAGGCATGTTGCTGCACACCCTGCTCGAGCCGGGCACGGGCCTGTACTACATGCAGGACCGCTACCGCATCAACAGCGAGCTGGACCCGCAGCGTTTCGCCCAGGCCTGGCAGGCGGTGATTGCCCGCCACGAAGCCTTGCGCGCTTCGTTCTGCTGGAACGTCGGCGAAGACATGCTGCAGATCATCCACAAGCCCGGGCGCACGCCGGTGGAATACCTCGACTGGCTGCACGTGCCTGAGAACGATCAGGAGCCCAAGCTCCAGGCGCTGCTCAAGCGCGAGCGCGAGGCCGGTTTCGATCTGCTCAACGAGGCACCGTTTCACCTGCGATTGATCCGGGTCGGCGCGGCGCGCTACTGGTTCATGATGAGCAACCACCACATCCTGATCGATGCATGGTGCCGTTCACTGCTGATGGATGATTTTTTCGAGATCTACACCGCCCTCGGTGAACATCGCGAGCCCCGGCTGGCCGTGCCGCCGCGCTATCGCGATTACATCGGCTGGTTGCAACGCCAGGGCCTGGCTGAAGCCCGGCAATGGTGGAAGCAGAACCTGGAAGGCTTCGAGCGGACCACGCCGATCCCCGCCGATCGCCCGTTCCTGCGCGAACACGCCGGTGACAGTGGCGGCATGGTCGTCGGTGACTGCTACACCCGGCTCGACGCTCGGGACGGCGCGCGACTGCGAGAACTGGCCCAGGCCCATCAATTGACCGTCAATACGTTCGCCCAGGCCGCGTGGGCCCTGGTGCTGCGCCGGGTCAGCGGCGATCGGGACGTACTCTTCGGCGTCACCGTGGCCGGGCGCCCGGTGGAATTGCCGCAGATGCAACACACCGTGGGCTTGTTCATCAACAGCGTCGCCCTGCGGGTGCAGATCCCGGGCGATGACCAGCGTTGCAGCGTGCGTCAGTGGCTCAACGGCTTGCTCGACAGCAACATGCAGTTGCGCGAATACGAATACCTGCCGCTGGTGAGCATCCAGGAAGTCAGCGAACTGCCCAAGGGCCAACCGCTGTTCGACAGCCTCTTCGTGTTCGAGAACGCACCGGTGGAAGTCTCGGTGCTGGATCGTGCCCAGAGTCTCAATGCCACCTCGGACTCGGGCCGCACCCACACCAACTTCCCGCTGACGGCGGTCTGCTATCCGGGCGATGACCTGGGGCTGCACCTGTCTTACGACCAGCGCTATTTCGATGAGTCCACCGTCCAGGGCCTGCTGGGCGAGTTCAAGCGATTGCTGCTGGCCTTGATGGAAGGTTTCCACGGTGACGTGGCCGAGCTGCCGCTGATTGGCAGCGCGGAACAGGACTTCCTGATCGAAGGCTGCAACCAGAGCGAGCGCGCCTATCCGCTGGAGCGCAGTTATGTCGAGCTGTTCGAGGCCCAGGTGGCGGCCCATCCGCAACGCATCGCCGCCAGTTGCCTGGAGGACCGCTGCACTTACACCGAGCTGAACGAGCGCAGCAATCGCCTCGGCCACGCGTTGGTCGCCGCTGGCGTCGGGCTCGATCATCCGGTGGCGCTGCTGGCCGAACGCGATCTCGACCTGTTGGGCATGATCATCGGCAGCTTCAAGGCCGGCGGCGGTTACCTGCCGCTTGATCCGGGCCTGCCGAGCCAGCGCCTGAGCCGTATCATCGAACTGAGCCGCACGCCGTTGCTGGTCTGCACCCAGGCCTGTCATGAACAGGCGCTGGCCTTGCTGGAAGAGTTCGCCTGCGCCGGCCGGCCAAAGCTGCTGGTCTGGGAAACCGTTCAGGCCAGCGATGTGTCGCGGGACAATCCGCGCCTCTACAGCGGGCCGGACAACCTGGCCTACGTGATCTACACCTCCGGTTCCACCGGCTTGCCCAAAGGCGTCATGGTGCAACAGCGGGGCATGCTCAATAACCAGCTCAGCAAGGTGCCATACCTGGCGCTGGACGAGACGGATGTGATCGCCCAGACGGCGTCGCAGAGCTTCGACATTTCCGTGTGGCAGTTCCTTGCCGCGCCGCTGTTCGGTGCTCGGGTGGACATCGTGCCCAATGCCATCGCCCACGATCCGCAAGGGCTGCTGGAGCACGTAAAACGCCAGGGCATCAGCGTGCTGGAGAGCGTGCCATCGTTGATCCAGGGCATGCTCGCCGAGGAACGCATCGGCTTGGAAGGCCTGCGCTGGATGCTTCCGACCGGCGAGGCAATGCCGCCGGAACTGGCCCATCAATGGTTGTTGCGTTATCCGGACATCGGCCTGGTGAATGCCTACGGTCCGGCCGAATGTTCCGATGACGTGGCGTTCTTCCGGGTCGACCTGGCTTCGACGCGCGGCAGCTACCTGCCCATCGGCACGCCGACCGACAATAACCGCCTGTACCTGCTCGACGGTGCGCTGGAGCTGGTGCCGCTGGGCGCGGTGGGCGAGTTGTGCGTCGCCGGCACCGGGGTCGGGCGCGGTTATGTCGGCGATCCGCTGCGCACGGCGCCGGTGTTCATGCCCGATCCGTTCGGGGCGCCGGGCGACCGGCTGTACCGCACCGGTGACCTGGCGCGCCGCCGCAGCGATGGGGTGTTGGAATATGTCGGGCGGATCGACCACCAGGTGAAGATTCGCGGCTATCGCATCGAACTGGGGGAAATCGAAGCGCGGCTGCATGAACAGCCCGAAGTACGCGATGCGGCAGTGGGCGTGCAGGAAGGCGCCAATGGCAGACATCTGGTGGGTTATCTGGTCGCCGCCGACGCGACGCTGAGCCCGACCGAGCGCCTGGATCGCATCAAGCAGCGCCTGCGCAGCGAATTGCCGGAATACATGGTGCCGCTGCACTGGCTGTGGCTCGACCGCCTGCCCCTGAACGCCAACGGCAAGCTCGATCGCAAGGCCTTGCCGGCCCTGGAGATCGGCCAGTTGCAAAGCCAGGATTACCAGGCCCCGGCCAACGAGCTGGAACAGACCCTGGCGGAAATCTGGGCCGAGGTGCTGAAGGTCGAGCGGGTGGGCGTACGCGACAACTTCTTCGAGCTGGGCGGACACTCATTGCTGGCCACACAGATCGCCTCGCGCGTGCAAAAAACCCTGCAGCGCAACGTGCCGCTCAGGGCCATGTTCGAGTGCAGCACGGTGCAGGAACTGGCCGAATATATCGCAGGGCTGGAAGCCAGTGAAATCACCGAGGAGAAAGTCGATCGACTGAATGATTTGATGGCGGAATTGGAAGGAATGTAG	MTDAFELPSTLAHALQRRAALTPDRVALRFLADTPQQGVVLSYRDLDLRARTIAAALQAEAELGDRAVLLFPSGPDYVAAFFGCLYAGVIAVPAYPPESTRRHHQERLLSIIADAQPRLLLTSSEVRDTLQAIESAPPVLCVDILDPAHAGQWRAPNLQDDDIAFLQYTSGSTALPKGVQVSHGNLVANEALIRHGFGIDVNPDDVIVSWLPLYHDMGLIGGLLQPIFSGVPCVLMSPAYFLARPLRWLEAISEYGGTISGGPDFAYRLCSERVSESALERLDLSHWRVAYSGSEPIRLDSLERFAEKFASCGFTPDSFMASYGLAEATLFVAGTPRGLGIPAMRMDDAALAQNRAEPGQGNAVMSCGVSQPDHAVLIVEPATLQPLADNQVGEVWAAGPSIAHGYWRNPEASARTFVQHAGRTWLRTGDLGFVREGELFITGRLKDLLIVRGHNLYPQDIEQAVEREVEVVRKGRVAAFAVDNGGEEGIGIAAEISRSVQKILPAEALIKAIRQAVADACQQAPSVVVLLNPGALPKTSSGKLQRSACRARLADGSLDSYALFPSVEVEQTHEAGASSKLQTLIGQIWCEQLQVDQVQGADHFFLLGGNSIAATQVIARLSETLGLELNLRLLFEAPTLGAFAAAVANLQEDGGQAQGAISRLPRHEPLPQSLAQNRLWLTWQLDPASRAYNIPGAIRLRGELDENALRASFQQLIERHESLRTRFLERDGVALQQIDPAGEFNLQVIDLCDMPADQREARARQIREDEAATQFDLEKGPLLWVTLLRLDQDDHQLLVTMHHIIADGWSMNVLIEEFSRLYAAASQGQVAELAPLPLHYADYGSWQRQWLGQGEAERQLAYWKQQLGDEHPTLALSTDHPRSALHQRSAARHSLRLDKVLGDALRRTAQAHDATPFMFLLAAFQALLQRYTGQSDIRIGVPNANRPRRETQGLIGFFINTQVLRAQTDSRQPFAALLAQAREATLGAQAHQDLPFEQLLEAYPQARDQGLFQVMFNHQQRDLGALRRLPGLLADELPWHSREAKFDLQLHSEEDRNGRLTLSFDYADELFEATTIARLAEHFCSLLRSVCSNPQQAIGDVQLLSDAESAQQLPWGSAPCEPASQWLPELLNEQARRTPQRTALQWDGGALDYAELHTQANRLAHYLRDKGVGPDVCVAIAAERSPQLLIGVLAIIKAGGAYVPLDVDYPAERLAYMLGDSGVDLLLTQTALLDRLPACAGVSVIAMDALHLEQWPSNPPGLHLHGEHLAYVIYTSGSTGQPKGVGNTHAALAERLQWMQAAYGLNETDVLMQKAPISFDVSVWECFWPLINGCQLVLAGPGEHRDPHRIAQLVERFGVTTLHFVPPLLSLFLEEPLSARCTSLRRIFSGGEALPAELRNRVLAQLPAVQLHNRYGPTETAINVTHWHCSEADGERSPIGRPLANVLCRILDSDLNPVPVGVPGELCIGGLGLARGYLGRPGLTAERFVADPLGSAGARLYRTGDRARWGADGVIEYLGRLDQQVKLRGFRVEPQEIEARLLAQQGVAQAAVLVRDTAAGAQLIGYYTAVDVDEDETVQAARLKNALVGELPDYMVPAQLLRLDVMPLSPSGKLDRRALPEPQWQVREHVEPVSALEQRVAGIWRDVLGLERVGLRDDFFALGGHSLLATQIISRTRQACDVELPLRALFEASELGAFAEQVRLIQASGQTNRQPPIEKVDRSQPVPLSYSQQRMWFLWQMEPDSPAYNVGGMARLRGVLDVGRFEAALQALILRHETLRTTFPSIDGVPRQQVHGETGLRMGWKDFSMLDADMRQQRVRQLADSEAHEPFDLEAGPLLRACLVKTAEHEHYFVLTLHHIVTEGWAMDIFARELSALYEAFVDDRESPLEPLPVQYLDYSVWQRQWLESGERQRQLDYWTAQLGREHPLLELPADRPRPPVQSHRGELFRFDLSDELAARVRAFNAERGLTLFMTMTAALAVLLYRYSGQTDLRIGAPVANRIRPESEGLIGAFLNTQVLRCQLDGQMSVGELFEQVRHTVIEGQSHQDLPFDHLVEALQPPRSAAYNPLFQVMCNVQRWEFQQSRTLAGMSVDYLVNDARATKFDLNLEVTDLDQRLGCCLTYSTDLFDEPRIARMAGHWRNLLEALLVDPARRLSELPLLGVGEQQQMLDSLGVEPGEHRLDQCLQVLFEEQARARPDAAALTFAGQTLSYAELERRANRLAWMLRERGVGPQVRVGLALERSLEMVIGLLAILKAGGAYVPLDPEYPLDRLHYMIEDSGVGLLLSDRTMFQALGPLPPGVQRWCLEDDSEALAQYPDQSPSLINLPQHQAYLIYTSGSTGKPKGVVVSHGEIAMHCQAVIRRFGMRPDDCELHFYSINFDAATERLLVPLLSGAHVVLRAQGQWDAQEICGLIRQHRINILGFTPSYGSQLAQWLATQGQTLPVRMCITGGEALTGEHLQRIRAAFSPSLFFNAYGPTETVVMPLASLAPEQLEEGAGSVPIGSVIGARRAYILDADLALVPPGATGELYVGGAGLAQGYHQRPGMTAERFVADPFAADGGRLYRTGDLVCQRADGQVEYLGRIDHQVKIRGFRIELGEIENRLLEHDAVREAVVLALDMPGGKQLAAYLASDIAEQDAMAQVALREALKQHLKTQLPEYMVPAHLILLASMPLTANGKLDRRALPMPDPELNRQQYVAPSNALEQALAAIWCDVLNVKQVGLNDNFFELGGDSILSIQVVSRARQQGIHFTPRDLFQHQTVQALAAIATRSEQVSVEQGLLSGESGLTPIQHWFFASEIPNRHHWNQALLLEPTTLLEPQLLEQALQAVFQQHDALRLGFANTTGHWRAEHQPLFDGALLQHLSVQSTQACEALFAQAQLGFQLSSGPLLRAVLADLPDGRQRLLIAIHHLVVDGVSWRVLMDDLQTAYRQSAGGQPLRLPAKTSPLRDWAARLQAYAGSESLREELNWWRDQLSGPDVTLPCANPGGGRQERHAASVSVRLDAERTRQLLQQAPSAYRTQVNDLLLTALARVLCRQGNQQSALIQLEGHGREALFDDVDLTRTVGWFTSVYPLRLSPAADDVGASIKAIKEQLRAVPHKGLGYGVLRYLADAGTRQAMAGLPQAAITFNYLGQLDHTLGQDALFQPLDTPLGAIHDPDAPLPNELSVDGQVSGGELLLRWTFSAERHDRESIVALAEAYLDELQRLIEHCLADEAGGLTPSDFPLAKLTQAQLDNLPVPAGQIEDVYPLTPMQEGMLLHTLLEPGTGLYYMQDRYRINSELDPQRFAQAWQAVIARHEALRASFCWNVGEDMLQIIHKPGRTPVEYLDWLHVPENDQEPKLQALLKREREAGFDLLNEAPFHLRLIRVGAARYWFMMSNHHILIDAWCRSLLMDDFFEIYTALGEHREPRLAVPPRYRDYIGWLQRQGLAEARQWWKQNLEGFERTTPIPADRPFLREHAGDSGGMVVGDCYTRLDARDGARLRELAQAHQLTVNTFAQAAWALVLRRVSGDRDVLFGVTVAGRPVELPQMQHTVGLFINSVALRVQIPGDDQRCSVRQWLNGLLDSNMQLREYEYLPLVSIQEVSELPKGQPLFDSLFVFENAPVEVSVLDRAQSLNATSDSGRTHTNFPLTAVCYPGDDLGLHLSYDQRYFDESTVQGLLGEFKRLLLALMEGFHGDVAELPLIGSAEQDFLIEGCNQSERAYPLERSYVELFEAQVAAHPQRIAASCLEDRCTYTELNERSNRLGHALVAAGVGLDHPVALLAERDLDLLGMIIGSFKAGGGYLPLDPGLPSQRLSRIIELSRTPLLVCTQACHEQALALLEEFACAGRPKLLVWETVQASDVSRDNPRLYSGPDNLAYVIYTSGSTGLPKGVMVQQRGMLNNQLSKVPYLALDETDVIAQTASQSFDISVWQFLAAPLFGARVDIVPNAIAHDPQGLLEHVKRQGISVLESVPSLIQGMLAEERIGLEGLRWMLPTGEAMPPELAHQWLLRYPDIGLVNAYGPAECSDDVAFFRVDLASTRGSYLPIGTPTDNNRLYLLDGALELVPLGAVGELCVAGTGVGRGYVGDPLRTAPVFMPDPFGAPGDRLYRTGDLARRRSDGVLEYVGRIDHQVKIRGYRIELGEIEARLHEQPEVRDAAVGVQEGANGRHLVGYLVAADATLSPTERLDRIKQRLRSELPEYMVPLHWLWLDRLPLNANGKLDRKALPALEIGQLQSQDYQAPANELEQTLAEIWAEVLKVERVGVRDNFFELGGHSLLATQIASRVQKTLQRNVPLRAMFECSTVQELAEYIAGLEASEITEEKVDRLNDLMAELEGM				NA	NA	NA	NA	NA
D1-35_00750	813	rutD_1		Putative aminoacrylate hydrolase RutD	ATGCCCTTCGCAACGATCGACGGACAACCGCTCCATTACCTCGACCAGGGCCAGGGCCCGGTGGTGCTGCTTGGCAGCAGCTATTTGTGGGACCACAGCATGTGGGCGCCGCAGATTGACGCCTTGTCGAAGCACTATCGGGTCATCGTCCCTGAACTGTGGGGCCACGGCCAGTCCGGACGTTTGCCCGAGAATACGTCCTCGCTGAACGATCTGGCTCGCCAGGCATTGGCGTTGCTCGATCAGCTGGGCATCGACTGCTTCAGCCTGGTGGGGCTGTCGGTGGGCGGCATGTGGGGCGCACGCCTGGCGCTGGCGGCGCCCAAACGCGTGCAATCGCTGGTATTGATGGACACCTATGTGGGCGTCGAACCGGAGCCAACCCGTCTGTACTACTTTTCGCTGTTCGACAAGATCGAGGCCAGCGGTAGCATCCCGGAGCCGTTGCTGGACATCGTCGTGCCGATTTTCTTCCGGCCCGGCATCGACCCGCAATCAGCGCTTTACCAGCAGTTTCGCGCCACCTTGGCGGCGTTGCCAGCCGACCGCCTGCGCGACAGCATCGTACCGCTGGGGCGGATTATCTTTGGTCGGGACGACATCCTGGGGCAATTGCGTGAGTTGAACGCCGAGCGCACGCTGGTGATGTGTGGTGACCAGGACAAGCCACGGCCACCGTCCGAGGCGCTGGAGATGGCTGAATTGATCGGCTGCGAGCATGTGTTGATTCCCGAGGCGGGGCATATTTCCAACCTGGAGAACCCGGCGTTTGTGACCGAGGCGTTGCTGGGGTTCCTGAAACACAGGCATTGA	MPFATIDGQPLHYLDQGQGPVVLLGSSYLWDHSMWAPQIDALSKHYRVIVPELWGHGQSGRLPENTSSLNDLARQALALLDQLGIDCFSLVGLSVGGMWGARLALAAPKRVQSLVLMDTYVGVEPEPTRLYYFSLFDKIEASGSIPEPLLDIVVPIFFRPGIDPQSALYQQFRATLAALPADRLRDSIVPLGRIIFGRDDILGQLRELNAERTLVMCGDQDKPRPPSEALEMAELIGCEHVLIPEAGHISNLENPAFVTEALLGFLKHRH	PGPT0004995_465	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0004995-pcaD|catD-K01055	NA	NA
D1-35_00751	768	dsbG	COG1651	Thiol:disulfide interchange protein DsbG	ATGCCCCGCCTCCACCACCTGCTGACCCTGGCATTCGCCGGCGCACTGCTACAAGCGCCGCTGCTTCAGGCCGAAGAGCTGCCCGCGGCGATCAGGAAGATCGAAGCCAAGGGCGCAAAGATCGTCGGCACCTTCGACGCACCGAACGGCTTGCGCGGCTACGCGGCGCAGTACCAGAGCCGCGGCATGACGCTCTACCTGACGCCGGACGGCCAGCATGTGCTGCTGGGCAACCTGTACGACGCCGATGGCAAGGACCTGAGCCTCGAACCCCTGAAAAAGCTGGTCTACGATCCGATGTCGAAGGAGATCTGGGCGAAGATGCAAGCCAGCAGCTGGATCGCCGACGGCAGCAAGGACGCACCGCGCACCGTGTACCTGTTCAGCGACCCGAACTGCCCGTACTGCAACATGTTCTGGGAGCAGGCGCGGCCGTGGGTCAATGCCGGCAAGGTGCAGTTGCGCCACATCATGGTGGGCATCATCCGCGAAGACAGCCCGGGGAAATCAGCCGCATTGCTGGCCGCCAAAGAGCCGGAAAAAGCCCTGGCGGACCACGAAAAGGCCGGCAAGGGCAGCCCGCTGAAACCGCTGAAAGAAATACCGCCGGCGATCCAGGCCAAACTGGACGCCAACCAGCAGTTGATGGATGAACTGGAGCTGTCCGCGACCCCGGCGATTTTCTACCTGGACGACCAGGGCGACCTGCAACAGCAGCAAGGCGCGCCCTCGCCGGACAAACTGGTGAAGATTCTCGGGCCGAAATAA	MPRLHHLLTLAFAGALLQAPLLQAEELPAAIRKIEAKGAKIVGTFDAPNGLRGYAAQYQSRGMTLYLTPDGQHVLLGNLYDADGKDLSLEPLKKLVYDPMSKEIWAKMQASSWIADGSKDAPRTVYLFSDPNCPYCNMFWEQARPWVNAGKVQLRHIMVGIIREDSPGKSAALLAAKEPEKALADHEKAGKGSPLKPLKEIPPAIQAKLDANQQLMDELELSATPAIFYLDDQGDLQQQQGAPSPDKLVKILGPK	PGPT0013200_210	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CHAPERONES,PGPT0013200-dsbG-K03805	NA	NA
D1-35_00752	870	resA_2		Thiol-disulfide oxidoreductase ResA	ATGCTGACGTTTACCCTGGGCACCTTTGCCATCGCCCTCAATCATCTGCTGCTGATCAGCGCACTGGCCTTGGCGACTTTCGTCGGCTGGCGCGTGGCCAAGCGCGGCGGCGAGAACCCCGAGTCGGTGCTGTTCGGGCTGTTCCTGCTGGGACTGCTTGCCGCGAGAATCGGCTTCGTCGCCGCGTACTGGAACCATTACCGGGACGACCCGTGGCAGATCGTCGATTTACGCGACGGCGGATTCCTGGCCTGGCCTGGCATCATCGCCCTGCTGGTCGCCGCGCTGCTCTGGGCGCGTCGCCGACCCGCCCTGCGCCGGCCCCTGGGCTTCAGCGTCGGCAGCGGTCTGCTGTTCTGGCTGGTGGCGACAATGTCGCTGACGATCTACGAGCAAGGCACCCGGCTGCCGGAGATCGAGCTGCGCAACGCTGAAGGCGAAACCGTGAACCTCGCCGACTACCAGGGCGGCCCCTTGGTGATCAACCTGTGGGCCACCTGGTGCCCGCCTTGCCGACGGGAAATGCCGGTCCTGGAAGAGGCGCAAAAACAGCGCCCGGACCTGACGTTCCTGTTCGTCAATCAGGCCGAAAGCATGCAAAGCGTCAGCACCTACCTCGCCACCCAGGGCCTGAGCCTGACCAACGTGCTGTTCGACGGCAGTGGACGCCTCGGCCAGGCCGTCGGCTCCATGGCCCTGCCAACGACCCTGTTCTACAGCGCCGAGGGTCGCCTGCTGGGCAGCCACCTGGGCGAACTGTCGGAAGCGAGCCTGGCCCGCGCCCTGGAAAATTTCGAAACGCCGGGTTCCACCACGGCGATCCACCCCGCGACAAGGAAATTGCCATGCCCCGCCTCCACCACCTGCTGA	MLTFTLGTFAIALNHLLLISALALATFVGWRVAKRGGENPESVLFGLFLLGLLAARIGFVAAYWNHYRDDPWQIVDLRDGGFLAWPGIIALLVAALLWARRRPALRRPLGFSVGSGLLFWLVATMSLTIYEQGTRLPEIELRNAEGETVNLADYQGGPLVINLWATWCPPCRREMPVLEEAQKQRPDLTFLFVNQAESMQSVSTYLATQGLSLTNVLFDGSGRLGQAVGSMALPTTLFYSAEGRLLGSHLGELSEASLARALENFETPGSTTAIHPATRKLPCPASTTC				NA	NA	NA	NA	NA
D1-35_00753	1728	dsbD	COG4232	Thiol:disulfide interchange protein DsbD	ATGCGTCGATTGTTTTTGCTGTGTCTACTGCTGATCTCGGGTCTGGCCCAGGCCGCCAATCCCTTCGAGACCAAACCCGACTTCCTGCCGGTGGAAAAGGCCTTCGTCTTTACCTCCGAACGCCTGGACTCGGGTGAGACCCAGTTGTTCTGGCAGATCGCCGACGGTTACTACCTGTATCAGCAACGGCTCAAATTCGACGGCCTGGCCGACGCGCAGAAGCCCAGGCTGCCCGAGGGCGAAGCTCACAGCGATGAGTTCTTCGGCGACCAGCAAGTCTATCGCCAGGCACTGGAGCTGAAGATTCCCGCCGGGGCCACCGGCAAGATCAAGGTCGGTTTCCAGGGTTGTGCCGACGCGGGCCTCTGCTATCCGCCCCAGACCCAGGTGGTCGACCTGGGCGGCGACGCACCGGCCACGGCCAGTGGCGAGGCGCAGGACCAGGCCCTGGCCAGCGGCCTGCAACAGCGCGCGCTGGGCTGGAGCCTGCTGGTGTTCTTCGGCCTGGGGCTGCTGCTGGCGTTTACCCCGTGCTCGCTGCCGATGCTGCCGATCCTGGCGGGGCTGGTGGTGGGCAGCGGCGCCGGGCCCCGGCGCGGCCTGGCACTGGCCGGCAGTTATGTCATCAGCATGGCGCTGGTGTACGCCGCCATGGGCGTGCTTGCTGCGCTGTTGGGCGCCAATCTTCAGGCATTGCTCCAGCAACCCTGGCTGCTGGGCACTTTCGCCGCGGTATTCGTGGTGTTGGCGCTGCCGATGTTCGGTTTCTTCGAACTGCAACTGCCGGCCGCTCTGCGTGATCGATTGGAAAATGCCGGCCGCCAGCGCCGCGGCGGCAGCCTGGTGGGCGCGGGCGTTCTCGGGGCGTTGTCCGGCCTGCTGGTCGGCCCCTGCATGACCGCGCCCCTGGCCGGCGCGCTGCTGTACATCGCCCAGAGCGGCAACGCGCTGCATGGCGGGTTGATCCTGTTCACCATGGGTGTCGGCATGGGTCTGCCGCTGTTGCTGCTGGTGACGGTGGGCAATCGCTTCCTGCCCAAGCCCGGCGCCTGGATGAATCTGCTCAAGGGCGTGTTCGGTTTCCTGTTCCTGGGCACCGCGCTGCTGATGCTCCGCCCGGTCATCGATGGCTCATTGTGGATCGGACTGTGGGGCGCGTTACTGGTTGTCGCCGCCTATTGCGCCTGGCGCCAGACCCAGGGCTTCGGTCGCGCCGCCTATCTGTGGGGCAGCGTATCGCTGCTGTTCGGCCTGTGGGGTAGCGTGCTGGTGATTGGCGCGGCGGGCGGCAGCGACGATCTGTTCAGGCCGCTGCAGGTCTACAGCGGCGCCAGGGGCAGCGCCACCGTCAGCGCCCACGATGCCTTCGTCACGGTCAGCGAGCCCGCCGCCCTGCAGCGCGAACTGGACGCCGCCAAGGCGCAGGGCCAATGGGTGTTGCTCGATTACTACGCCGACTGGTGCGTGTCCTGCAAGATCATGGAAAAACAGGTGTTCGGCCGCGTCGAAGTGCTCGACGCCCTGAAAGGCGTGCGCCTGCTACGCCTGGACGTCACCGCTGACAACGCCGCCAGCCGTGAGCTGCTGGGTCGCTACAAAGTGCCGGGGCCGCCGAGCCTGTTGTGGATCGGTGCCGACGGTGAAGAGCGCCGCAGCCAGCGGATCACCGGAGAAGTGGACGCCGAGGCGTTCCTGGAACGTTGGAACATGACCCGGAACGCACGCTGA	MRRLFLLCLLLISGLAQAANPFETKPDFLPVEKAFVFTSERLDSGETQLFWQIADGYYLYQQRLKFDGLADAQKPRLPEGEAHSDEFFGDQQVYRQALELKIPAGATGKIKVGFQGCADAGLCYPPQTQVVDLGGDAPATASGEAQDQALASGLQQRALGWSLLVFFGLGLLLAFTPCSLPMLPILAGLVVGSGAGPRRGLALAGSYVISMALVYAAMGVLAALLGANLQALLQQPWLLGTFAAVFVVLALPMFGFFELQLPAALRDRLENAGRQRRGGSLVGAGVLGALSGLLVGPCMTAPLAGALLYIAQSGNALHGGLILFTMGVGMGLPLLLLVTVGNRFLPKPGAWMNLLKGVFGFLFLGTALLMLRPVIDGSLWIGLWGALLVVAAYCAWRQTQGFGRAAYLWGSVSLLFGLWGSVLVIGAAGGSDDLFRPLQVYSGARGSATVSAHDAFVTVSEPAALQRELDAAKAQGQWVLLDYYADWCVSCKIMEKQVFGRVEVLDALKGVRLLRLDVTADNAASRELLGRYKVPGPPSLLWIGADGEERRSQRITGEVDAEAFLERWNMTRNAR				NA	NA	NA	NA	NA
D1-35_00754	681	qseB_1		Transcriptional regulatory protein QseB	ATGCGCGTACTGGTCTGCGAAGACGACGAGTTGATCGCCAGCGGCATTGTCGCCGGGCTCACGGCTCAAGGCCTGACCGTCGAACATGTCGCCACCGCCTCGGCGGCGCGGGCGATGCTGGGTGTCGCCGAATTCGATGTCATGGTGCTGGATCTTGGCCTGCCCGATGAAGATGGTCTCAAGCTGCTCAAGCAATTGCGCCAGCAAGGCCTGGAGACGCCGGTGCTGATCCTCACCGCGCGGGATTCGGTGACCGATCGGGTCGACGGCCTGCAGGCCGGGGCCGATGATTATCTGCTCAAACCCTTCGATCTGCGGGAACTGGCGGCACGCCTGCACACCTTGCTGCGGCGCGTGGCGGGGCGCAGCGTCAACCTGATCGAGCACGGTCGCCTGACCTATGACCCCAGCAGCCGCGAAACCACCCTGGGCGGCCAGCCGGTGGACCTCTCGCGCCGCGAGCAGTCGCTGTTGCAGGCGCTGCTGCACAGTCGCGGTCGTGTGTTGTCCACCGAGCAACTCAAGGACAGTGTCTATGGATTCAGTGACGAGCTGGAAAGCAACGCCTTGAACGTGCATATCCACCATCTGCGCCGCAAGCTGGGCAACGGCATTGTCGAGACCGTGCGTGGCCTGGGGTATCGGCTGGGGCCGGCCGATGGCGGGGAATCCTCCAAGTGA	MRVLVCEDDELIASGIVAGLTAQGLTVEHVATASAARAMLGVAEFDVMVLDLGLPDEDGLKLLKQLRQQGLETPVLILTARDSVTDRVDGLQAGADDYLLKPFDLRELAARLHTLLRRVAGRSVNLIEHGRLTYDPSSRETTLGGQPVDLSRREQSLLQALLHSRGRVLSTEQLKDSVYGFSDELESNALNVHIHHLRRKLGNGIVETVRGLGYRLGPADGGESSK	PGPT0003915_314	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-POLYMYXIN_RESISTANCE,PGPT0003915-pmrA-K07666	NA	NA
D1-35_00755	1332	qseC_1		Sensor protein QseC	ATGAGCCTGCGGCTACGGCTGAGCCTGACGCTCGGCGCGGCCTTTACCTTGATCTGGGCCCTGGCCGCGGCCTGGATGCTCAGCGACCTGCGCAACCAGATGATGTTTTCCCTCGACCAGCGCCTGGTGGCTTCGGCGCGGATGGTCGCCGGGTTGCTGGAGCAGTTGCCACCGGTGCCCAGCAAAGGTGAAGGCACGCACTTGAGCTCGGAGCAGTTGAGCATCCCGGGCGGCATGGCCTGCCAGGTCAGTTCCTTGCGCGGCGAGATCCTGGCACGCAGCCACGGTAACCCGGAACAGGCCCTGGAAGCCGAGAAGACAGGCTTCCATGACCAGATGATCGACGGTGCGCCATGGCGCAGCTTTACCCTGGTTCGAGGCGATTTGCGCATTACCACGGCCGACCGCCAGATCGAACGCGAAGCGTTGAACCTGTCGGTGCTGCTGGCAGCGTCGGTGCCGGTCGGCGTGGCGTTGCTCGGTTGCCTGTGCTTGTTGTGGCTGGGCATCGGCCAGGGCCTGGCGCCGCTCAACCGCATGCGTGATGCGTTGATGCGCCGTAACGCGGACTCCCTCGAACCCCTGCAGATCCATCCGCTGCCCAGCGAGCTGCGGCCCTTGCTGGAAACCCAGAACCAGCTGTTCCAGCGTATCGGCAAGACCATCGAGCGCGAGCGCCGGTTGACCGGTGACGCTGCCCATGAATTGCGCAGCCCGCTGACGGCCATCAAGACGCATCTGCAAGTGGCGCGCATGACCGAGGGGGCTGCGCGCGATCAGTCCTTGGCCCGGGCAGAGGAGGGCGCCGACCGCTTGCACCGTACCCTTGAGCAACTGTTGCTGCTGGCGCGGGTCGAGGGCAGCCTTTCGTTTGATGATGGCGTGCAATGCAACGCCGAGCAGGTCGCGCGACTGGCGATCCAGGATGCGGCCGGCGGCGCGCCCCAGCGGATCAGGCTGCACCTATCGCCGCCGCTGTCCGATGCGCCGGTGCAAATGCCGGCGGTGCTGGCTATCGCCGCGTTGCGCAACCTGCTGGAGAACGCCCTGCGCCACACCCCGGCCGATACCGAGGTCGAACTGAGCCTGGAGATGATCGGCCAGCGCGTGCGTTTCCTGGTACGTGATCATGGCGACGGAATCGCCGCCGACGATATCCAGCACCTGACCCAGCGTTTCTGGCGCAACGGCCACAGCACCGGCTGCGGTCTGGGCCTGGCGATCGTCCAGGCGATCGTCCAGCGTTGCGGCTGCGGTCTGCATTTCGATAGCCGCCCGGATGGGCTGCGGGTCGAGCTGACCGTGCCAGTGCAAGTCTCTTCGGGCCAGTAG	MSLRLRLSLTLGAAFTLIWALAAAWMLSDLRNQMMFSLDQRLVASARMVAGLLEQLPPVPSKGEGTHLSSEQLSIPGGMACQVSSLRGEILARSHGNPEQALEAEKTGFHDQMIDGAPWRSFTLVRGDLRITTADRQIEREALNLSVLLAASVPVGVALLGCLCLLWLGIGQGLAPLNRMRDALMRRNADSLEPLQIHPLPSELRPLLETQNQLFQRIGKTIERERRLTGDAAHELRSPLTAIKTHLQVARMTEGAARDQSLARAEEGADRLHRTLEQLLLLARVEGSLSFDDGVQCNAEQVARLAIQDAAGGAPQRIRLHLSPPLSDAPVQMPAVLAIAALRNLLENALRHTPADTEVELSLEMIGQRVRFLVRDHGDGIAADDIQHLTQRFWRNGHSTGCGLGLAIVQAIVQRCGCGLHFDSRPDGLRVELTVPVQVSSGQ	PGPT0003920_1085	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-POLYMYXIN_RESISTANCE,PGPT0003920-pmrB-K07645	NA	NA
D1-35_00756	1476	dat_1	COG0160	Diaminobutyrate--2-oxoglutarate aminotransferase	ATGTGCGCCTTGAATGCGCACCTGTCCGGTGTGCCGTTTGGTCACTCATCGCGGGGTCGAGAAATGTCAGTCGCCAATCCTTCTGTCGAAGCAGCGCCAGCGCGGGTCAGTCCCGCGTCGGGCGAGACGCTCTATCAATTCAACGAATCACCGTTGCTGGCCCGCCAGAGCCGGCAGGAATCCAATGCTCGCAGCTATCCACGGCGGATTCCCCTGGCCCTCAAGCGCGCCAAGGGCCTTTACGTCGAGGATGTCGAAGGCCGCACCTTCATCGATTGCCTGGCCGGCGCCGGCACGCTGGCCCTCGGGCACAACCACCCGGTCGTGATCGAGGCGATCCGGCAGGTGCTCGCCGACGAGTTGCCCCTGCATACCCTGGACCTGACCACGCCGGTCAAGGACCGGTTTGTCCAGGACCTGTTCGGCCTGTTGCCGGCGAGCCTCGCCGCCGAGGCGAAGATCCAGTTCTGCGGCCCCACGGGGACCGACGCGGTGGAAGCGGCACTCAAATTGGTGCGCACCGCCACCGGGCGTAGCACCGTACTGTCGTTCCAGGGCGGATATCACGGCATGAGCCAGGGCGCGCTGAGCCTGATGGGCAGCCTGGGGCCGAAGAAGCCTTTGGGGGCATTGCTAAGCAACGGCGTGCAGTTCATGCCATACCCCTACGATTATCGCTGCCCGTTCGGGCTCGGTGGCGTCGAAGGGGTCAAGGCCAATCTGCATTACCTGGAAAATCTGCTGAACGATCCCGAGGCCGGGGTGCAGTTACCGGCGGCGGTGATCGTCGAGGTGGTGCAGGGCGAGGGCGGGGTCATACCGGCCGATCTTGATTGGCTGCGCGGCTTGCGGCGAATCACCGAGCAGGCCGGGGTGGCGTTGATCGTCGATGAAATCCAGAGTGGTTTCGGTCGCACCGGCAAGATGTTCGCGTTCGAGCACGCCGGCATCATTCCGGATGTGGTGGTGCTGTCCAAGGCCATCGGCGGCAGCCTGCCACTGGCCGTGGTGGTGTATCGCGATTGGCTCGACACCTGGTTGCCGGGCGCCCATGCCGGGACCTTCCGCGGTAACCAGATGGCGATGGCGGCGGGCAGCGCGGTGATGCGCTACCTGGTCGAACACAACCTGCCGGCCCACGCCGCCGCCATGGGCGCGCGCTTGAGCGAGCACCTGCATATCCTGCAGAGGGATTTTCCGCAATTGGGCGACATCCGCGGTCGCGGCCTGATGCTCGGCGTCGAGCTGGTGGACCCGACCGGCAAGCCGGACGCCTTGGGCCATCCTCCGGTGGACGCACGGCTGGCGCCGCGGTTGCAGCGTGAATGCCTCAAGCGCGGCCTGATCCTGGAACTGGGTGGACGGCAGGGTGGCGTGGTGCGTTTCCTGCCGCCACTGATCATTACCGCGGTGGAAATCGACCGTGTGGCCGAGCTGTTCCGGCGCGCCCTGGAGGCTGCCGTGGCCGACGCCTAA	MCALNAHLSGVPFGHSSRGREMSVANPSVEAAPARVSPASGETLYQFNESPLLARQSRQESNARSYPRRIPLALKRAKGLYVEDVEGRTFIDCLAGAGTLALGHNHPVVIEAIRQVLADELPLHTLDLTTPVKDRFVQDLFGLLPASLAAEAKIQFCGPTGTDAVEAALKLVRTATGRSTVLSFQGGYHGMSQGALSLMGSLGPKKPLGALLSNGVQFMPYPYDYRCPFGLGGVEGVKANLHYLENLLNDPEAGVQLPAAVIVEVVQGEGGVIPADLDWLRGLRRITEQAGVALIVDEIQSGFGRTGKMFAFEHAGIIPDVVVLSKAIGGSLPLAVVVYRDWLDTWLPGAHAGTFRGNQMAMAAGSAVMRYLVEHNLPAHAAAMGARLSEHLHILQRDFPQLGDIRGRGLMLGVELVDPTGKPDALGHPPVDARLAPRLQRECLKRGLILELGGRQGGVVRFLPPLIITAVEIDRVAELFRRALEAAVADA	PGPT0014050_202	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014050-ectB|dat-K00836	NA	NA
D1-35_00757	228	mbtH_1	COG3251	Protein MbtH	ATGACTTCAGTATTCGACCGCGAGGACATCCTCTTCCAGGTCGTGGTCAACCACGAAGAGCAGTATTCGATCTGGCCGGACTACAAGGCCGTTCCGGAAGGTTGGCGGACCGTGGGCAAGAGCGGCTTCAAGAAGGAGTGCCTGGCCTACATCGAAGAGGTCTGGACCGACATGCGCCCGTTGAGCTTGCGCAAGAAGATGGAAGAGCAGGCGACTGTGGCCCATTGA	MTSVFDREDILFQVVVNHEEQYSIWPDYKAVPEGWRTVGKSGFKKECLAYIEEVWTDMRPLSLRKKMEEQATVAH	PGPT0003370_333	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-NOCARDICIN_A-D_METABOLISM,PGPT0003370-mbtH|nocI-K05375	NA	NA
D1-35_00758	819	ppsR	COG1806	Phosphoenolpyruvate synthase regulatory protein	ATGAAACGATCCGCTTTCTTTATCTCCGACGGCACCGGCATCACGGCCGAAACGCTGGGCCAGAGCCTGTTGGCGCAGTTCGAAAACATAACCTTCACCAAGCTGACACGGCCGTATATAGACAGCGTCGACAAGGCGCGGGCCATGGTACAGCAAATCAATAAAGCCGCCGAAACCGACGGTTTTCGCCCGATCATCTTCGATACCATCGTCAATCAGGACATCCGTGAGATTCTCGCAACGTCCAATGGTTTCATGATCGACATTTTTTCCACGTTCCTGGCGCCCCTGGAGCAGGAACTGAGCGAACACTCCTCCTACTCGGTCGGCAAGTCCCATTCCATTGGCCACAACTCCAACTACATGGAGCGGATCGAGGCGGTCAACTTCGCCCTGGACAACGACGACGGCGCCCGCACGCATTATTACGACAAGGCCGATTTGATCCTAGTGGGTGTGTCGCGCTGTGGTAAGACGCCGACGTGTCTGTACATGGCGATGCAATTTGGGATCCGCGCGGCCAACTATCCGCTGACCGAAGACGACATGGAGCGGTTGCAACTGCCCAACGCCTTGCGCGCCCATCAGCACAAGCTGTTCGGCCTGACCATCGACCCGGACCGCCTCACCGCGATTCGCAACGAGCGCAAGCCCAACAGCCGCTATTCGAGCTATGCCCAGTGCGAATTCGAAGTGCGCGAAGTGGAAAACCTGTTCCGGCGGGAGAATATTCCCCACATCAACTCCACGCATTTTTCCGTGGAGGAGATTTCGGCGAAGATCCTGGTGGAGAAAGGGGTGGAGCGGCGGTTCAAGTAA	MKRSAFFISDGTGITAETLGQSLLAQFENITFTKLTRPYIDSVDKARAMVQQINKAAETDGFRPIIFDTIVNQDIREILATSNGFMIDIFSTFLAPLEQELSEHSSYSVGKSHSIGHNSNYMERIEAVNFALDNDDGARTHYYDKADLILVGVSRCGKTPTCLYMAMQFGIRAANYPLTEDDMERLQLPNALRAHQHKLFGLTIDPDRLTAIRNERKPNSRYSSYAQCEFEVREVENLFRRENIPHINSTHFSVEEISAKILVEKGVERRFK				NA	NA	NA	NA	NA
D1-35_00759	2412	ppsA		Phosphoenolpyruvate synthase	TTGAGCTTTTCCAACACAGTCAGTGGAGAGATCACCTTGGTAGAGTACGTAGTTTCCCTCGATAAGCTCGGCGTCCATGATGTAGAGCATGTGGGGGGCAAGAACGCATCCCTGGGCGAGATGATCAGTAACCTCGCCGGCGCCGGTGTCTCGGTGCCAGGTGGCTTCGCCACGACCGCCCAGGCATATCGTGATTTCCTGGAACTGAGCGGCCTGAACCAGCAGATCCACGATGCGCTCGACGCCCTCGACGTCGATGACGTCAATGCCCTGGCCAGGACCGGCGCCCAGATCCGCCAATGGATCATGGAAGCCGAGTTCCCCGAGAAACTCAACGCCGAGATCCGTACTGCTTTCGCCAAGCTGTCCGAAGGCAATCCCGACATCGCCGTCGCCGTCCGCTCCTCGGCCACCGCTGAAGACCTGCCGGACGCCTCGTTCGCCGGTCAGCAGGAGACCTTCCTGAACATCCGTGGCGTGGAAAACGTCATCCGGGCGGCCAAGGAAGTCTTCGCCTCCCTCTTCAACGACCGCGCCATTTCCTACCGCGTGCACCAGGGCTTCGACCACAAGCTGGTCGCCCTGTCCGCCGGCGTGCAGCGCATGGTCCGCTCCGAAACCGGCACCGCCGGTGTGATGTTCACCCTCGACACCGAGTCGGGCTTTCGTGACGTGGTGTTCATCACCGGCGCCTACGGCCTGGGCGAAACCGTCGTGCAGGGCGCGGTGAACCCGGACGAATTTTATGTCCACAAAGGCACCCTGGAAGCCGGCCGCCCCGCCATCCTGCGTCGCAACCTCGGCAGCAAGGCGATCAAGATGATCTACGGCGACGAGGCCAAGGCTGGTCGCTCGGTCAAGACCGTCGAGGTGGACAAGGCTGATCGCGCGCGCTTCTGCCTGACCGACGCCGAAGTCAGTGAACTGGCCAAGCAGGCGATGACCATCGAGAAACACTACAAGTGCCCGATGGACATCGAGTGGGCCAAGGACGGTGACGACGGCAAGCTGTACATCGTCCAGGCCCGCCCGGAAACCGTGAAGAGCCGCACCCAGGCCAACGTCATGGAGCGCTACCTGCTCAAGGAAACCGGCACCGTGCTGGTGGAAGGCCGGGCCATCGGCCAACGCATTGGCGCGGGCAAGGTGCGGATCATCAAGGACGTCTCGGAGATGGACAAGGTCCAGGCCGGCGACGTACTGGTTTCCGACATGACCGATCCGGACTGGGAACCGGTCATGAAGCGCGCCAGCGCCATCGTCACCAATCGCGGCGGGCGTACCTGCCACGCGGCAATCATTGCCCGTGAGCTGGGCATCCCGGCGGTTGTTGGTTGCGGCAACGCCACCCAATTGCTCAAGGACGGCCAGGGCGTCACCGTTTCCTGCGCCGAAGGCGATACCGGCTACATCTTCGAAGGCGAGCTGGGCTTCGACATCAAGAAGAACTCCGTGGACGCGATGCCGGAGCTGCCGTTCAAGATCATGATGAACGTCGGCAACCCGGACCGCGCCTTCGACTTCGCGCAGTTGCCGAATGCCGGCGTGGGCTTGGCCCGCCTGGAATTCATCATCAACCGCATGATCGGCGTGCACCCCAAGGCGCTGCTGAACTACGACGGCCTGCCGCAGGAAATCAAGGACAGCGTCGACAAGCGCATTGCCGGCTACGACGATCCGGTCGGTTTCTACGTCGAGAAGCTGGTGGAAGGCATCAGCACCCTGGCGGCGGCGTTCTCGCCGAAAAAAGTCATCGTGCGCCTGTCGGACTTCAAGTCCAACGAGTACGCCAACCTGATCGGCGGCAAGCTCTACGAGCCGGAAGAAGAGAACCCGATGCTGGGCTTCCGCGGAGCTTCGCGCTACATCAGCGAGTCGTTCCGTGACTGCTTCGAGCTCGAATGCCGGGCTCTGAAGCGCGTGCGTAACGAGATGGGCCTGACCAACGTCGAGATCATGGTGCCGTTCGTGCGCACCCTCGGCGAAGCGAGCCAGGTGGTCGACCTGCTGGCGGAAAACGGCCTGGCCCGTGGCGAAAACGGCTTGCGCGTGATCATGATGTGCGAGCTGCCATCCAACGCGATCCTGGCCGAAGAGTTCCTTGAGTTCTTCGACGGCTTCTCCATTGGTTCCAACGACCTGACCCAGTTGACCCTGGGCCTGGACCGCGACTCCGGGATCATCGCCCACCTGTTCGACGAGCGTAACCCGGCGGTCAAGAAGCTGCTGGCCAATGCGATTGCCGCCTGTAACAAGGCCGGTAAATACATCGGCATCTGCGGCCAGGGCCCTTCCGACCACCCGGATCTGGCCAAGTGGCTGATGGAGCAGGGCATCGAGAGCGTTTCGTTGAACCCGGACTCCGTGCTGGAAACCTGGTTCTTCCTGGCTGAGGGTCAGGCTGCGGTCTGA	MSFSNTVSGEITLVEYVVSLDKLGVHDVEHVGGKNASLGEMISNLAGAGVSVPGGFATTAQAYRDFLELSGLNQQIHDALDALDVDDVNALARTGAQIRQWIMEAEFPEKLNAEIRTAFAKLSEGNPDIAVAVRSSATAEDLPDASFAGQQETFLNIRGVENVIRAAKEVFASLFNDRAISYRVHQGFDHKLVALSAGVQRMVRSETGTAGVMFTLDTESGFRDVVFITGAYGLGETVVQGAVNPDEFYVHKGTLEAGRPAILRRNLGSKAIKMIYGDEAKAGRSVKTVEVDKADRARFCLTDAEVSELAKQAMTIEKHYKCPMDIEWAKDGDDGKLYIVQARPETVKSRTQANVMERYLLKETGTVLVEGRAIGQRIGAGKVRIIKDVSEMDKVQAGDVLVSDMTDPDWEPVMKRASAIVTNRGGRTCHAAIIARELGIPAVVGCGNATQLLKDGQGVTVSCAEGDTGYIFEGELGFDIKKNSVDAMPELPFKIMMNVGNPDRAFDFAQLPNAGVGLARLEFIINRMIGVHPKALLNYDGLPQEIKDSVDKRIAGYDDPVGFYVEKLVEGISTLAAAFSPKKVIVRLSDFKSNEYANLIGGKLYEPEEENPMLGFRGASRYISESFRDCFELECRALKRVRNEMGLTNVEIMVPFVRTLGEASQVVDLLAENGLARGENGLRVIMMCELPSNAILAEEFLEFFDGFSIGSNDLTQLTLGLDRDSGIIAHLFDERNPAVKKLLANAIAACNKAGKYIGICGQGPSDHPDLAKWLMEQGIESVSLNPDSVLETWFFLAEGQAAV	PGPT0002035_1755	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0002035-pps|ppsA-K01007	NA	NA
D1-35_00760	990			hypothetical protein	ATGCAAAGCAGCAGCAACCTATTTCCTGTCGCCCTGATCAGCGCCGAGCGGCGCGGTGATCTGAGCGAAGATGTGTATCGCCTGAAACCTGGCAACAGCCCGGACTACAGCGTCGAAGTGGCCGTTACCCGCCTGGGCATGGCCGATGCCGGCGAGGTCCGTGGTGTTCCGGTGATCCTGCTCCACGGCAGTTTTTCCAACCGGCGCTTCTGGTATTCGCCCAAGGGCCTGGGGCTGGGAGCGTACCTGGTGCGCCTGGGGTTCGATGTCTGGATTCCCGAGATGCGTGGCCATGGGTTATCCCAGCGCAACCAGGGCTACCGCAATAACCGGGTCGCGGACTATGCCCGTTACGACTTGCCAGCCATCGGCGCTTTTGTGCGCGAGCAAAGCGGGCAAGTGCCCCACTGGATTGGCCATTCGCTGGGTGGCATCACCCTGGCGGCAGCGTTGGGCGGCCATTACCTGGGCGAGCCCGCCGTGGCGTCGGCGGCGTTTTTCGGCACTCAGGTCAGCCGCACTTACTGGCCCTTGAAAATCCCCCCGGTGGAGTGGAGCGGGCGCTTCATTCTCAAGCGTTTTTCCCAATTGTCCGGCCCAAGGCTCAAGCGCGGCCCGGAAGACGAGCCTATCGGCCTGGCCCTGGAGAGCATGCGCTGGTATGGCCTGTTCGGGCGTTTCGGCGATGCCGAGAAGAACTGGTGGGCCGGCCTGGCGGACGTGCAAGTGCCGGTACTGGCGGTGAGTGCCGCCGGCGATCAGCAGGATCCGACCTGGGCGTGTCGAAAACTTTTCGAGCAGATCGGTTCCGAGCGCAAGCAGTTTGTCTGCCTGGGCCGGGCGCAGGGCTTCGGTGATGATTACGGCCATGTCGAAATGCTTGTCAGCAAAGCCGCGCAAGCCGAGGTCTGGCCGCTGGTGGCGCGCTGGCTGGAAGATCAGCGCGCGCCGCTGTCGGCAGACCAGCCTCGCCTGGCCGAAGCGGTTTGA	MQSSSNLFPVALISAERRGDLSEDVYRLKPGNSPDYSVEVAVTRLGMADAGEVRGVPVILLHGSFSNRRFWYSPKGLGLGAYLVRLGFDVWIPEMRGHGLSQRNQGYRNNRVADYARYDLPAIGAFVREQSGQVPHWIGHSLGGITLAAALGGHYLGEPAVASAAFFGTQVSRTYWPLKIPPVEWSGRFILKRFSQLSGPRLKRGPEDEPIGLALESMRWYGLFGRFGDAEKNWWAGLADVQVPVLAVSAAGDQQDPTWACRKLFEQIGSERKQFVCLGRAQGFGDDYGHVEMLVSKAAQAEVWPLVARWLEDQRAPLSADQPRLAEAV				NA	NA	NA	NA	NA
D1-35_00761	492		COG0684	Putative 4-hydroxy-4-methyl-2-oxoglutarate aldolase	ATGAACCATTACCTCACGCCCGACCTGTGCGATACCTACCCGGACCTGGTGCAGGTGTTGGAACCGATGTTCAGCAATTTCGGTGGCCGCGACTCCTTTGGTGGTGAAATCGTGACCATCAAGTGCTTCGAAGACAATTCGCTGGTCAAGGAGCAGGTTGAGCTCGAAGGCAAGGGCAAAGTGCTGGTCGTCGACGGTGGCGGGTCGCTGCGGCGGGCCCTGTTGGGTGACATGCTGGCCGAGAAAGCGGCGAAGAATGGCTGGGAAGGGCTGGTGATCTACGGCTGCATCCGCGATGTCGACGTCATTGCCCAGACCGACCTCGGGGTCCAGGCCCTGGCCAGCCACCCGATGAAAACCGACAAGCGCGGCATTGGTGATCTTAATGTACCGGTGACCTTCGCTGGCGTGACGTTTCGCCCGGGCGAGTATGTCTATGCGGACAACAACGGCGTGATTGTTTCGCCGAGCCCGCTGAAAATGCCTGAATGA	MNHYLTPDLCDTYPDLVQVLEPMFSNFGGRDSFGGEIVTIKCFEDNSLVKEQVELEGKGKVLVVDGGGSLRRALLGDMLAEKAAKNGWEGLVIYGCIRDVDVIAQTDLGVQALASHPMKTDKRGIGDLNVPVTFAGVTFRPGEYVYADNNGVIVSPSPLKMPE				NA	NA	NA	NA	NA
D1-35_00762	996	zntB_2	COG0598	Zinc transport protein ZntB	ATGTTCGAGGAAGAAAACGCGCAGTGGGGATTGGTGCATGCCCTGGTGCTGGATGGTAAAGGCGGCGCGCGTTCGATAGCCCGGACCGAACTGGACGACTTGCAGTTGCAGGCTCATGAAAGCCTGTGGCTGCATTGGGACCGCAGTCATCCGCAAACCCACACGTGGTTGCGCAAATCCAGCGGCCTGAGCGAATTCAATTGCGACCTGCTGCTGGAAGAGAACACCCGGCCGCGCCTGCTGCCGCTGCCCAATGCCGAGCTGCTGCTGTTTCTTCGCGGGATCAACCTCAACCCGGGCGCGGAACCGGAAGACATGGTCTCGGTGCGCATCTTCGCCTCGGCCCAGCGGGTGATTTCCCTGCGGTTGCGCCCGTTGCGCGCCACCGATGAGTTGCTGGCGGAACTGGCCGAGGGCAAGGGGCCCAAGACGGCTTCGGAACTCATCCTTTATATGGCGCAATACCTGACCAACAAAGTCCAGGACCTGGTCACCTGTCTCTCGGAAATCGTCGACGGCGAGGAAGAAAAACTCGATACCGACGAACGGTACACTCCCGAGCACGACGCCATTTTGCATATCCGTCGAAGGGCGGCCGGACTGAAGCGATTCCTGGCCCCGCAGCGGGATATCTTCGGCCAGATGTCACGGATCAAATTGCCCTGGTTCGTCGAGGACGACGGCGACTACTGGAATGAATTGAACAACAGCCTGACCCGTTACCTGGAAGAGCTGGAATTGACCCGGGAGCGCGTGGGGCTTGTGCTGGAGGCCGAGGACCGGCGTCTTTCGGTGCGCATGAACCGTACGATGTATCGCTTCGGCATCATCACCGGCATCTTCCTGCCGATGAGCTTTCTCACCGGGCTGCTGGGGATCAATGTCGGCGGCATTCCGTTTTCGGAAAGCCCCTATGGTTTCCTCGTTGCCTGCCTGTTGATGCTGTGCGTGGCCCTGGGGCAGTGGTGGCTGTTTCGCCGTTTGCGCTGGGTGTGA	MFEEENAQWGLVHALVLDGKGGARSIARTELDDLQLQAHESLWLHWDRSHPQTHTWLRKSSGLSEFNCDLLLEENTRPRLLPLPNAELLLFLRGINLNPGAEPEDMVSVRIFASAQRVISLRLRPLRATDELLAELAEGKGPKTASELILYMAQYLTNKVQDLVTCLSEIVDGEEEKLDTDERYTPEHDAILHIRRRAAGLKRFLAPQRDIFGQMSRIKLPWFVEDDGDYWNELNNSLTRYLEELELTRERVGLVLEAEDRRLSVRMNRTMYRFGIITGIFLPMSFLTGLLGINVGGIPFSESPYGFLVACLLMLCVALGQWWLFRRLRWV	PGPT0004205_449	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNT_TRANSPORT_SYSTEM,PGPT0004205-zntB-K16074	NA	NA
D1-35_00763	246			hypothetical protein	ATGCACGATCCGTTTGAACAGTCTCTGCGCGACATGCTCAAGGCTTCGCCGTCCAGCCGGGACGACGACGCATGCCTGGGACGCGTACTCAAAACCGCCAACCGTCAGGTTGGCGCCGGTGATCTTTTCAGCCTGCTGGGCCGCTGGCTGCCCGCGCTGATGATCGCCCTGAACAACGGGTCGGCCCATGTCTCGCCGGTCTCCCGTCGCAAACCCGTTACTCGCACCGCTGATAAGGCTGACTGA	MHDPFEQSLRDMLKASPSSRDDDACLGRVLKTANRQVGAGDLFSLLGRWLPALMIALNNGSAHVSPVSRRKPVTRTADKAD				NA	NA	NA	NA	NA
D1-35_00764	825			hypothetical protein	ATGGAACTTGATCTCTGGACCCAGAGCCTCGTCACGGCAATGACTGCGTTGTGGACCAAAGTGGCTAACTTCATCCCCAACCTCTTTGGCGCCCTGGTGGTGCTGTTGCTAGGTTTCGTGGTGGCCAAGCTCCTCGACACGCTGCTCTCCAAATTGCTCGCCAAACTTGGCCTCGACCGCCTGATGGGCGGTACCGGCCTGACCAAGTTGCTGTCGCGTGGCGGCATCCAGGTTCCGATCTCGACGCTGGTGGGCAAGATTGTCTACTGGTTCGTCCTGCTTATTTTCCTGGTTTCGGCGGCTGAGTCCCTGGGGCTGGAGCGGGTCTCGGCCACGCTCGACATGCTTGCGCTCTATCTGCCAAAGGTCTTCGGTGCCGCGTTGGTGCTGCTGGTGGGCGTACTGCTGGCGCAACTGGCCAACGGGCTGGTGCGTGGCGCGGCAGAGGGCGTCGGGCTGGATTATGCCTCGGGCGTTGGGCGTATCGCCCAGGGCCTGGTGATCATCATCAGTATTTCGGTTGCGATCAGCCAGTTGGAGGTCAAGACGGACCTGCTCAACCACGTGATCGTGATCGTCCTGATTACCGTTGGTCTGGCAGTCGCGCTGGCAATGGGGTTGGGGAGCCGGGAAATCGCCGGTCAGATTCTTGCGGGAATCTATGTGCGTGAATTGTATGAGGTTGGGCAACAAGTGCGTGTTGGCGAGGTCGAAGGCCAGATCGAAGAGATCGGCACGGTGAAAACCACATTGCTGACCGAGGAGGGCGAACTGGTATCGCTGTCTAATCGGATCCTGCTGGAGCAGCATGTGAGTAGCCGCTAA	MELDLWTQSLVTAMTALWTKVANFIPNLFGALVVLLLGFVVAKLLDTLLSKLLAKLGLDRLMGGTGLTKLLSRGGIQVPISTLVGKIVYWFVLLIFLVSAAESLGLERVSATLDMLALYLPKVFGAALVLLVGVLLAQLANGLVRGAAEGVGLDYASGVGRIAQGLVIIISISVAISQLEVKTDLLNHVIVIVLITVGLAVALAMGLGSREIAGQILAGIYVRELYEVGQQVRVGEVEGQIEEIGTVKTTLLTEEGELVSLSNRILLEQHVSSR				NA	NA	NA	NA	NA
D1-35_00765	387			hypothetical protein	ATGTTGAAGGTGCTTTACGGGTTGAAGAACTTCGAGGGGAAATCGAAGTTCAAGACCTGGCTGTACAGCATCACCTACAACGAATGCATCACGCAGTATCGAAAGGAACGGCGAAAGCGTCGCTTGATGGACGCTTTGAGCCTGGACCCCCTCGAGGAAGCGTCTGAAGAAAAGGCGCCCAAGCCCGAGGAAAAGGGTGGGCTCGACCGCTGGCTGGTTTATGTGAACCCGATCGATCGGGAGATTCTGGTGCTACGATTTGTCGCAGAACTGGAATTCCAGGAGATCGCAGACATAATGCATATGGGTTTGAGCGCGACAAAAATGCGTTACAAGCGCGCGCTCGATAAGCTGCGTGAGAAATTTGCAGGCATTGCCGAAACTTAG	MLKVLYGLKNFEGKSKFKTWLYSITYNECITQYRKERRKRRLMDALSLDPLEEASEEKAPKPEEKGGLDRWLVYVNPIDREILVLRFVAELEFQEIADIMHMGLSATKMRYKRALDKLREKFAGIAET	PGPT0014960_7826	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-35_00766	1035	oprF	COG2885	Outer membrane porin F	ATGAAACTGAAAAACACCTTGGGCTTTGCCATTGGTTCTTTGATTGCTGCCACTTCGTTCGGCGCTCTGGCACAAGGCCAAGGCGCAGTTGAAATCGAAGGCTTCGCCAAGAAAGAAATGTTCGACAGCGCTCGTGATTTCAAGAACAACGGCAACCTGTTTGGCGGTTCGGTTGGTTACTTCCTGACCGACGACGTTGAACTGCGTCTGGCCTACGACGAAGTGCACAACGCACGTACCGACGACGGCACTAACGTCAAGGGCGCCAACACCGCTCTGGACGCTCTGTACCATTTCAACAACCCAGGCGACATGCTGCGTCCTTACGTCTCTGCCGGTTTCTCGGACCAGAGCATCGACCAGAATGGCAGCAACGGTCGTAACCGTTCTACCTTCGCCAACGTTGGTGGCGGCGCCAAGCTGTATTTCACTGACAACTTCTACGCCCGTGCCGGCGTTGAAGCTCAGTACAACATCGACCAGGGCGACACCGAGTGGGCGCCTAGCGTTGGTATCGGTGTGAACTTCGGTGGCGGTTCCAAGCCAGCCGCTGCTCCAGTTCCAGCACCTGCTGAAGTCTGCTCCGACAGCGACAATGATGGCGTGTGCGACAACGTCGACAAGTGCCCTGACACCCCAGCCAACGTAACCGTTGACGCTGATGGCTGCCCAGCTGTTGCTGAAGTCGTACGTGTTGAGCTGGACGTCAAGTTCGACTTCGACAAGTCGGTCGTTAAAGAAAACAGCTACGGCGACATCAAGAACCTGGCTGATTTCATGAAGCAGTACCCATCCACCAGCACCACTGTTGAAGGTCACACTGACTCCGTCGGTCCTGACGCTTACAACCAGAAGCTGTCCGAGCGTCGTGCAAACGCCGTCAAGCAGGTTCTGACCAACCAGTACGGTGTTGAATCGTCCCGCGTTCAGTCTGTTGGCTACGGCGAATCCCGCCCAGTTGCTGACAACGCCACTGAAGCTGGTCGTGCAGTTAACCGTCGCGTAGAAGCGCAGGTTGAAGCCCAAGCTAAGTAA	MKLKNTLGFAIGSLIAATSFGALAQGQGAVEIEGFAKKEMFDSARDFKNNGNLFGGSVGYFLTDDVELRLAYDEVHNARTDDGTNVKGANTALDALYHFNNPGDMLRPYVSAGFSDQSIDQNGSNGRNRSTFANVGGGAKLYFTDNFYARAGVEAQYNIDQGDTEWAPSVGIGVNFGGGSKPAAAPVPAPAEVCSDSDNDGVCDNVDKCPDTPANVTVDADGCPAVAEVVRVELDVKFDFDKSVVKENSYGDIKNLADFMKQYPSTSTTVEGHTDSVGPDAYNQKLSERRANAVKQVLTNQYGVESSRVQSVGYGESRPVADNATEAGRAVNRRVEAQVEAQAK	PGPT0022215_2982	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022215-ompA_ompF_porin|oprF-K03286	NA	NA
D1-35_00768	756	sumT	COG0007	Uroporphyrinogen-III C-methyltransferase	ATGAACGCAAAAGTCTGGCTGGTAGGTGCGGGTCCTGGCGACCCTGAATTGCTGACCCTCAAAGCCGTGCGCGCCCTGGCCGAGGCCGACGTGGTGTTGATCGACGACCTGGTCAACGACGCGGTGCTGGAGCACTGCCCCAGTGCGCGCATCATCGCCGTCGGCAAGCGCGGCGGCTGCCGCTCCACTCCCCAGGCGTTCATCCACCGGCTGATGTTGCGTTATGCCCGCCAAGGCAAATGCGTGGTGCGCCTCAAAGGCGGCGACCCGTGCATCTTCGGCCGGGGCGGTGAAGAAGCACAGTGGCTGCGCGAGCACGGCGTCGAGGTGGAGCTGGTCAATGGCATCACCGCCGGTCTTGCCGGCGCGACCCAGTGCGACATCCCACTGACCCTGCGCGGGGTTGCCCGGGGCGTGACCTTGGTAACGGCTCACACCCAGGACGGCAGCAGCCTGAACTGGCAAGCCCTGGCGCAAAGCGGCACGACCTTGGTGGTGTACATGGGCGTGGCGAAACTGAGCGAGATCCGCGAGCAACTGCTGGCCGGCGGACTGGCAGCGGACACGCCGGTAGCGATGATCGAAAACGCCTCCCTGCCCCATCAACGTGACTGCCGCAGCGACCTGGCCTCGATGGAGACCGATGCCGTCGCGTTTCAACTCAAGAGCCCGGCGATCCTGGTGATTGGCGAGGTGGCCGGTGCAGCCGAACTGGCTGCCTCCCCGCCGGTCTTCGCCCAGGCATCAACCATCTGA	MNAKVWLVGAGPGDPELLTLKAVRALAEADVVLIDDLVNDAVLEHCPSARIIAVGKRGGCRSTPQAFIHRLMLRYARQGKCVVRLKGGDPCIFGRGGEEAQWLREHGVEVELVNGITAGLAGATQCDIPLTLRGVARGVTLVTAHTQDGSSLNWQALAQSGTTLVVYMGVAKLSEIREQLLAGGLAADTPVAMIENASLPHQRDCRSDLASMETDAVAFQLKSPAILVIGEVAGAAELAASPPVFAQASTI	PGPT0003685_2439	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
D1-35_00769	2718	nasA_1		Nitrate reductase	ATGAACCGCCAGACGACTGCCTCGACCTGCTGTTATTGCGGGGTCGGTTGCGGCGTGCTGATCGAACATGACGGCGAGCGCATTCTCGGCGTCAGTGGCGATCCCACCCATCCGGCCAACTTCGGCAAACTGTGCAGCAAGGGCTCGACCCTGCACTTGACCGGCGACCTCGCCGCGCGCGCCCTCTATCCCGAACTGCGGCTGGGCAAAGGCCTGGCCCGTGGCCGTACCGATTGGGACAGCGCCCTGGACCATGCCGCCAACGTCTTCGCCGACACGATTGTCGAGCACGGACCGGACAGCGTGGCCTTCTACATCTCCGGCCAACTGCTGACCGAGGATTACTACGCCTTCAACAAACTCGCCCGGGCACTGGTCGGTACCAACAACATCGACAGCAATTCCCGGCTGTGCATGTCTTCCGCCGTGGTGGGCTACAAGCGCAGCCTGGGTGCCGACGCGCCACCGTGCAGCTATGAGGATCTGGAGCTGAGCGACTGCGTGATGATCGTCGGCAGTAACATGGCCTACGCCCATCCCATCCTGTTTCGTCGGCTCGAAGAAGCCAAATCCCGCCGGCCGCAGATGAAAGTCATCGTCATCGACCCTCGGCGCACCGACACCTGCGACCTTGCAGACCTGCACCTGGCGATCCTGCCTGGCACCGATGTCGCCTTGTTCCACGGGATCTTGCATCTGCTGTTGTGGGAAGACTGGGTCGACCGCAGCTTCATCAAGGCCCACACCGAAGGCCTGGCGGACCTGAAGAACCTGGTGCGCGACTACACCCCCGCCATGGTTGCCCAGCTGTGCGGGATCAGCGTCGAGCAACTGCACCAATGCGCCGAGTGGGTCGGCACCTCGCCAAGTTTCCTCTCGTTGTGGTGCATGGGCTTGAACCAGTCGACTGCCGGCAGCGCAAAAAACAGCGCCCTGATCAATCTGCACCTGGCCACCGGCCAGATCGGCCGACCGGGCGCGGGACCGTTCTCGCTGACCGGCCAGCCCAACGCCATGGGCGGCCGCGAAACCGGCAGCCTGTCCAACCTGCTGCCGGGCCATCGCGAAGCCGGCAATCCGGAGCATCGCGCCGAGGTCGCCAGCTATTGGGGCGTTGAGCAATTGCCGAGCACCACAGGCTTGAGCGCCATCGAATTGTTCGAGCAGGTTCGCAGCGGCAAGATCAAGGCCTTGTGGATCGCCTGCACCAACCCGGCCCAGTCGATGCCGGACCAGGCCGCCGTGCGCGAAGCCCTGCAAGCTTGCCCGTTCGTGGTGTTGCAAGAGGCCTTCCGGACTACCGAAACCGCCGCCTTTGCCGACCTGCTGCTGCCGGCGACCAGTTGGGGCGAAAAAGAAGGCTCGGTCACCAACTCCGAACGACGCATTTCCCATGTTCGCCGGGCGATAAACGCACCGGGGGAAGCACGGCCGGACTGGGCGATCACGGTAGATTTCGCGCAACGACTGGAGAAACGCCTGCGCCCCGGCCAGCCCAGCCTGTTCGCCTTTGAAACCCCGGCCCACTTGTTCGATGAATACAAGCAACTGACCCGTGGCCGCGACCTGGACCTGTCCGGCATCAGTCATGCCGTGATCGACCGCCTCGGCCCTCAGCAATGGCCGTTCCCGGAGGGCGCCACGGTCGGAACGGCGCGCTTGTACGGGGACGGGATTTTCCCGACCGACAGCGGCCGCGCCCGATTCGTGGCCGACCCTTATCGCGCCGCCAAGGAATTGCGCGACGCACGCTACCCCCTGACGCTGAACACCGGTCGGCTGCGCGACCAGTGGCACGGGATGAGCCGTACCGGTACCGCCGCGCAGTTGTTCGGCCATGTGAACGAAGCGGTGCTCAGCCTGCATCCCGACGAACTACTGCGGCATCGCCTGCAGTCCGGCGACCTGGTCAGTCTGAAGAGCCGTCGCGGCAGCGTGATCGTGGCCGTGGACAGCGACGACAGCGTGCGCCCCGGCCAGGCCTTCCTGCCCATGCACTGGGGCGACAGGTTTCTCAAGGGCGGGGTCAACACCCTGACTCAACCGGCATTCGACCCGTTGTCGAAACAGCCGGAACTCAAGCACAGCGGCGTACGCCTGGAACCGGTGAACCTGCCCTGGCAGCTTTTCGCCCTGGTTGAAGGCAATGTTCAACAGCATCTGGAGGCGTTGCGTCCGCTGTGTGAGGCGTTTTCCTACGTCAGCCTGAGCCTGACCGGCCGCGACCGTCCCGCGTTGCTGATACGCGCTGCCAGCGCCGTGGCGCCCGAACCGCAGCTTTTGCAGGCGATCGACGAACAGCTGGGGCTGATCGAAGGCCCGGTCCTGGCCTATGACGACCCGCGCCGCGCCATTGGCAAGCGGGTACGGATCGAAAACAGCCGCATCACCGCCATTCGCCTAGCCGGCGAAACCCTGGCCCGGCATTGGTTGCAAAACCTCTGGTTGGAAGGGCGCGCCGACGACCAGTTGCGGCGCTGGCTGCTGGCCCCCTTGAGCGCACCGCCGGGTAACACCGGCGCCGCCACGGCTGGTGGGAAGACGCTGTGCAATTGCATGAATGTCAGCCAGCGTTCGGTTTGCGCGGGCATCGAGCGCGGCCTGGATTTGCAGGGCCTGAAAAAAGAACTGGGCTGCGGCACGCAGTGCGGTTCCTGCGTACCGGAAATCAAGCGCCTGCTGGTTGCCACCGCGCAACCGGTCGCCGCGATCTCGTGA	MNRQTTASTCCYCGVGCGVLIEHDGERILGVSGDPTHPANFGKLCSKGSTLHLTGDLAARALYPELRLGKGLARGRTDWDSALDHAANVFADTIVEHGPDSVAFYISGQLLTEDYYAFNKLARALVGTNNIDSNSRLCMSSAVVGYKRSLGADAPPCSYEDLELSDCVMIVGSNMAYAHPILFRRLEEAKSRRPQMKVIVIDPRRTDTCDLADLHLAILPGTDVALFHGILHLLLWEDWVDRSFIKAHTEGLADLKNLVRDYTPAMVAQLCGISVEQLHQCAEWVGTSPSFLSLWCMGLNQSTAGSAKNSALINLHLATGQIGRPGAGPFSLTGQPNAMGGRETGSLSNLLPGHREAGNPEHRAEVASYWGVEQLPSTTGLSAIELFEQVRSGKIKALWIACTNPAQSMPDQAAVREALQACPFVVLQEAFRTTETAAFADLLLPATSWGEKEGSVTNSERRISHVRRAINAPGEARPDWAITVDFAQRLEKRLRPGQPSLFAFETPAHLFDEYKQLTRGRDLDLSGISHAVIDRLGPQQWPFPEGATVGTARLYGDGIFPTDSGRARFVADPYRAAKELRDARYPLTLNTGRLRDQWHGMSRTGTAAQLFGHVNEAVLSLHPDELLRHRLQSGDLVSLKSRRGSVIVAVDSDDSVRPGQAFLPMHWGDRFLKGGVNTLTQPAFDPLSKQPELKHSGVRLEPVNLPWQLFALVEGNVQQHLEALRPLCEAFSYVSLSLTGRDRPALLIRAASAVAPEPQLLQAIDEQLGLIEGPVLAYDDPRRAIGKRVRIENSRITAIRLAGETLARHWLQNLWLEGRADDQLRRWLLAPLSAPPGNTGAATAGGKTLCNCMNVSQRSVCAGIERGLDLQGLKKELGCGTQCGSCVPEIKRLLVATAQPVAAIS	PGPT0000390_395	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000390-nasA|nasC|narB-K00372	NA	NA
D1-35_00770	318	hcaC		3-phenylpropionate/cinnamic acid dioxygenase ferredoxin subunit	ATGAACTGGCTGGATATCTGCGCGCTGGAAGACATCAACGCCTTGGGCTCACGCATCATCAACGGGCCGAAAGGCGATATCGCGATTTTTCGCACCAGCGACAATGAAGTATTCGCACTCGACGACCGTTGCCCGCACAAGGGCGGCCCGCTGTCCCAAGGCCTGATCTATGGCAAGCGCGTGGCCTGCCCGCTGCACAACTGGCAGATCGACCTGGAAACCGGCCAGGCCCAGGCCCCGGACGTGGGCTGCGCCCATCATCATTCGGCCCGCGTCGAGAACGGCCGGGTGATGCTGGCCCTGCGGGACGCAAGCTGA	MNWLDICALEDINALGSRIINGPKGDIAIFRTSDNEVFALDDRCPHKGGPLSQGLIYGKRVACPLHNWQIDLETGQAQAPDVGCAHHHSARVENGRVMLALRDAS	PGPT0000455_1976	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000455-nirD-K00363	NA	NA
D1-35_00771	2454	nasD_1	COG1251	Nitrite reductase [NAD(P)H]	ATGAAAAAACTCAAGCTGGTAATGATCGGCAACGGCATGGCCGGGGTTCGCACCCTCGAGGAACTGCTCAAACTGAGCAACGAGCTCTACGACATCACGGTCTTCGGCGCCGAGCCCCACACCAACTACAACCGCATCCTGCTCTCGCCCGTGCTGGCCGGGGAACAGACGTTCGAAGAAATCGTGCTCAATGACCTGAGCTGGTACCTGGACAACAACATCAAGCTGCTGCTCAACCGCAAGGTGGTGGAGATCGACCGGGTCAAGCGCCGGGTCATCGCCGAAGACGGCAGCGAAGCCGAATACGATCGCCTGCTCATCGCCACCGGCTCCACGCCGTTCATCCTGCCAATCCCTGGCAACACTCTGGATGGCGTGATCGGCTACCGCGACATCGCCGACACCCAGGCCATGATCAACACGGCCAAGACCCACAAGCACGCGGTGGTCATCGGTGGCGGCCTGCTCGGCCTGGAAGCCGCCAATGGCTTGAAACTGCGCGGCATGGACGTGACCGTGGTGCACATCGGCGAATGGCTGCTGGAACGCCAACTGGACAAGACCAGCGGCCAGCTGCTGCAAACCGCCCTGGAAAACCGTGGCCTGAAATTCCGCCTCAGCGAGCAGACCCAGGCCTTGCACGACGCCGGCAACGGCCGGGTCGGCTCGGTCCAGTTCAAGAACGGCGACATCATTCCCGCCGATCTGGTGGTGATGGCTGCCGGTATCCGGCCCAATACCGGACTGGCGGAAAAATCCGGCATTCCGTGCAACCGCGGAATCCTCGTCAACGACACGATGCAAACCTATGACCCGCGCATCTACGCCATCGGCGAGTGCGCCAACCATCGCGGCACAGCCTATGGCCTGGTGGCGCCGCTGTTCGAGCAAGCCAAGGTCTGCGCCAATCACCTCGCGCAACTGGGCTTCGCCACTTACAAGGGTTCGGTGACGTCGACCAAGTTGAAAGTCACCGGTATCGATCTGTTTTCCGCCGGCGACTTCATGGGCGGCGAAGGCACCGAGACCATCACCCTTTCCGACCCGATTGGCGGCGTCTACAAGAAACTGGTGATCAAGGATGACGTGTTGGTGGGTGCCTGCCTGTACGGTGATACCGCGGACGGCGGCTGGTATTTCCGGCAGATCCGTGAGAACCACGGCATCAGCGAGATCCGCGATCACTTGATGTTTGGCGAAAACGCTTTGGGCGACGTCGGCCATCAAGGCCAGGACAAAGCCATGAGCATGGCCGACACCGCTGAAGTCTGCGGCTGCAACGGCGTGTGCAAGGGCACCATCGTCAAGGCGATCCAGGAACACGGCCTGTTCAGCGTCGATGACGTGAAAAAGCACACCAAGGCCGCCAGCTCCTGCGGCTCCTGCGCCGGCCTGGTGGAACAGATCCTGATCAACACCGTCGGCGGCGCGGCGGACGTGAAGCCGAAAAGCGAAAAAGCCATCTGCGGTTGCAGCGACCTAAACCATGGGCAGATCCGCCAGGCGATCCGCGACCAGCATCTGCTGACCATCGCCGGGACCATGGGTTACTTGAACTGGCGCACCCCGAACGGCTGCGCCACCTGCCGTCCGGCCCTGAACTACTACCTGATTTCCACCTGGCCCGGCGAAGCCCAGGATGACCCGCAGTCGCGCCTGATCAACGAACGCGCTCACGCCAACATCCAGAAAGACGGCACCTACTCAGTGGTCCCACGGATGTGGGGTGGCGTGACCAACCCATCCGAGCTGCGCCGCATCGCCGACGTGGCCGACAAATACAACGTGCCCATGGTCAAGGTCACCGGCGGCCAGCGTATCGACCTGCTGGGCATCAGGAAGCAAGACCTGCCCGGTGTCTGGAAAGACCTCGACATGCCGTCCGGCCACGCCTATGGCAAATCCATTCGCACCGTGAAGACTTGCGTGGGCAGCGAGTTCTGCCGCTTCGGCACGCAGAACTCCACCCAATTGGGCATCGAGCTGGAACACGACCTGTTCAACATGTGGTCGCCGCACAAGGTGAAGCTGGCGGTCTCCGGTTGCCCACGCAACTGCTCGGAAGCGGGCATCAAGGACGTCGGCATCATCGGCGTAGATTCCGGCTGGGAGATGTACATCGGTGGCAACGGCGGGATCAAGACCGAAGTCGCCGAGTTTTTCGTCAAGCTCAAGACCGCCGAAGAAGTGCGCGAATACAACGGCGCCTTCCTGCAGCTGTACCGCGAAGAAGCCTTCTACCTCGAACGCACCGTGCACTACATGCAGCGTGTCGGCATGGAACACATCAAGAAAGCCGTGCTGGAAGACCCGGAGCGGCGCAAGGCCCTGCACGAGCGCTTGAAGTTTTCCCTGTCGCTGGAGCAGGACCCCTGGAAACAACGGCTGGAACAACCGCAGCTGAAAAAAGAGTTCGAGGTCATCCCCGTGAAGAACCTGGAGGTACTGGCATGA	MKKLKLVMIGNGMAGVRTLEELLKLSNELYDITVFGAEPHTNYNRILLSPVLAGEQTFEEIVLNDLSWYLDNNIKLLLNRKVVEIDRVKRRVIAEDGSEAEYDRLLIATGSTPFILPIPGNTLDGVIGYRDIADTQAMINTAKTHKHAVVIGGGLLGLEAANGLKLRGMDVTVVHIGEWLLERQLDKTSGQLLQTALENRGLKFRLSEQTQALHDAGNGRVGSVQFKNGDIIPADLVVMAAGIRPNTGLAEKSGIPCNRGILVNDTMQTYDPRIYAIGECANHRGTAYGLVAPLFEQAKVCANHLAQLGFATYKGSVTSTKLKVTGIDLFSAGDFMGGEGTETITLSDPIGGVYKKLVIKDDVLVGACLYGDTADGGWYFRQIRENHGISEIRDHLMFGENALGDVGHQGQDKAMSMADTAEVCGCNGVCKGTIVKAIQEHGLFSVDDVKKHTKAASSCGSCAGLVEQILINTVGGAADVKPKSEKAICGCSDLNHGQIRQAIRDQHLLTIAGTMGYLNWRTPNGCATCRPALNYYLISTWPGEAQDDPQSRLINERAHANIQKDGTYSVVPRMWGGVTNPSELRRIADVADKYNVPMVKVTGGQRIDLLGIRKQDLPGVWKDLDMPSGHAYGKSIRTVKTCVGSEFCRFGTQNSTQLGIELEHDLFNMWSPHKVKLAVSGCPRNCSEAGIKDVGIIGVDSGWEMYIGGNGGIKTEVAEFFVKLKTAEEVREYNGAFLQLYREEAFYLERTVHYMQRVGMEHIKKAVLEDPERRKALHERLKFSLSLEQDPWKQRLEQPQLKKEFEVIPVKNLEVLA	PGPT0000450_1849	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000450-nirB-K00362	NA	NA
D1-35_00773	1671	pknD_1		Serine/threonine-protein kinase PknD	ATGAGCCTGCAACTGAGTTTTGCCGAAGCCAGCGCCACGGGTCCCCGAGAGGAAAACCAGGACGCCCTGCGCCTGGTCACTCCCGCCCCGGCCCTGGCCGCCAGCAAGGGTTACCTGTTCGCCATCGCCGACGGCGTGAGCCAATGCGCCGATGGCGGATTGGCCGCGCGTTCGACCTTGCAGGCACTCGCCCTGGACTACTACTCCACGCCGCAGACCTGGGGCGTGGCCCAGGCGCTGGACCGGCTGCTGCTGGCGCAGAATCGCTGGCTGCAAGCCAACGGCGGCGGCCAACCGCTGCTGACCACGGTCAGCGCGCTGGTCCTGCGGGGGCGGCGCTTCACCCTGGCGCACGTCGGCGATTGCCGGGTCTACCGATGGCACGCCGACCATTTGCAACGAGTCAGCGAAGATCACGTCTGGGAACAACAGGGCATGCAACACGTGCTCAAGCGTGCCTTGGGGCTGGATCAGCATTTGATACTCGACTTCCTCGACGGTGAGCTGCGTGAAGATGAAACCTTCGTGCTGCTCAGCGACGGCGTCTGGGCGGTACTGGGAGACACGGCCATTGCCGGCATCCTGCGCGACCAGCCAGACCTGGATCGCGCGGCGCAGACGCTGGTCAACGCCGCGCACCTGGCCGGTAGCCAGGACAACGCCAGCGCGCTGTTGGTGCGCGTCGATGCGGTGGGCGAAGCGAGCATCGGCGACGCGCTGATCCAACTGCAACAGTGGCCGCTGCCCCCTTCACTGAAGGCGGGCCAGGCGTTCGAAGGCTGGCAGATCGAAAGCCTGCTCGGCCAGAGCCAGCAATCGTTGCTCTACCGGGTACACGATGGTCAGGGCCAACCCTGGCTGCTGAAAACCTTGCCCGTGCAGCTACGGGACGACACCCGCGCCGGCCAGGCGCTGTTGTCGGAGGAATGGTTTCTCAAGCGGGTCGCGGGTCGGCAATTTCCGGAAGTGCATGGCGTACCCCAGCGCCAACATCTGTACTACGTGATGCGTGAATATTCGGGCGCGACCCTGGCCGAGCTGTTCAACCAGGGTGGGCCGCTGCCCCTGGCCCAATGGCTGGACCTGGCGCAGCGGCTGGTGCGGGCAGTGGGCCTGTTGCATCGAAGGCAGATCTACCACCGCGACATCAAGCCGGAAAACCTGCATCTGGGCGACGATGGGGAATTGCGCTTGCTGGATTTTGGCCTGGCCTACTGTCCGGGCCTGTCCGAGGACCAGGCCAACGTGTTGCCCGGCACCCCCAGCTACATAGCGCCGGAAGCCTTCGGCGGCGCCGCGCCGACGGCGCAACAGGACTTATATGCGGTCGGCGTGACCTTGTATTTCCTGCTGACCGGGCATTACCCCTACGGCGAAATCGAAGCCTTCCAGCGACCACGCTTTGGTGTGCCCGTGAGCGCCAATCGTTATCGACCGGACCTGCCCGAATGGCTCGGGCAGAGCCTGGAACGCGCCGTGGCGGCAGACCCTGCGCAGCGCTTTGAAACGGCTGAAGAATGGCTGTTGCAGCTGGAACAGGGCGAGCGGCGAAGCTTGAGCGTAAGGCCCCGGCCATTGCTTGAGCGGGAGCCGCTGAAGGTCTGGCGGACGTTGGCGCTGGTGTCGTTGGTGGTGAATGTTGTGTTGTTGTTCCTGGTGTTTCACTCATAA	MSLQLSFAEASATGPREENQDALRLVTPAPALAASKGYLFAIADGVSQCADGGLAARSTLQALALDYYSTPQTWGVAQALDRLLLAQNRWLQANGGGQPLLTTVSALVLRGRRFTLAHVGDCRVYRWHADHLQRVSEDHVWEQQGMQHVLKRALGLDQHLILDFLDGELREDETFVLLSDGVWAVLGDTAIAGILRDQPDLDRAAQTLVNAAHLAGSQDNASALLVRVDAVGEASIGDALIQLQQWPLPPSLKAGQAFEGWQIESLLGQSQQSLLYRVHDGQGQPWLLKTLPVQLRDDTRAGQALLSEEWFLKRVAGRQFPEVHGVPQRQHLYYVMREYSGATLAELFNQGGPLPLAQWLDLAQRLVRAVGLLHRRQIYHRDIKPENLHLGDDGELRLLDFGLAYCPGLSEDQANVLPGTPSYIAPEAFGGAAPTAQQDLYAVGVTLYFLLTGHYPYGEIEAFQRPRFGVPVSANRYRPDLPEWLGQSLERAVAADPAQRFETAEEWLLQLEQGERRSLSVRPRPLLEREPLKVWRTLALVSLVVNVVLLFLVFHS	PGPT0030420_380	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_RELATED_PROTEINS,PGPT0030420-ppa|prpA-K01090	NA	NA
D1-35_00774	1212	nasA_2		Nitrate transporter	ATGAATTCAAGCTTCTGGAAATCCGGCCACACCCCGACATTGTTCGCGGCCTTCCTCTATTTCGACCTGAGCTTCATGGTCTGGTACCTGCTCGGCCCATTGGCGGTACAGATCTCCGCCGACCTGCACCTGACCACCCAGCAACGCGGCCTGATGGTCGCGACGCCAATCCTCGCCGGCGCCGTGCTGCGCCTGTTCATGGGCCTGCTGGCCGACCGCATTTCACCGAAGACCGCCGGCATGGTCGGCCAGGTGATCGTGATCGGCGCGCTGTTCTGCGCCTGGAAGCTGGGCATCCACAGCTACGAACAAGCCTTGCTGCTGGGCCTGTTTCTGGGCGTGGCCGGCGCTTCGTTCGCCGTGGCCCTGCCGCTGGCTTCCCAGTGGTATCCACCACAGCACCAGGGCAAGGCCATGGGCATCGCCGGTGCCGGTAACTCGGGCACCGTGCTTGCCGCGTTGATCGCTCCGGTGATGGCGGTGGCCTTCGGCTGGACCAACGTGTTCGGCTTCGCGGTGATCCCGCTGGTGATTACCCTGGTCCTGTTCGCCTGGCTGGCCAAGAACGCACCGGAGCGGCCCAAGGCCAAATCCATGGCTGACTACCTCAAGGCCCTCGGTGACCGCGACAGCTGGTGGTTCATGTTCTTCTACAGCGTGACCTTCGGCGGCTTCATCGGCCTGGCCAGCGCCCTGCCCGGCTACTTCAACGACCAGTATGGCCTGAGCCCGGTGACCGCCGGCTACTACACCGCGGCCTGCGTCTTCGGTGGCAGCCTGATGCGGCCCTTGGGTGGCGCGCTGGCGGACCGTTTCGGCGGCATCCGCACCTTGCTGGGCATGTACACCGTGGCGGCTATCTGCATCGCCGCGGTCGGCTTCAACCTGCCGAGTTCCTACGCGGCGCTGGCCCTGTTCGTCTGCACCATGCTCGGCCTGGGTGCGGGCAACGGCGCGGTGTTCCAACTGGTGCCACAACGTTTCCGTCGCGAGATCGGCGTGATGACCGGGCTGATCGGCATGGCCGGCGGCATCGGCGGCTTCGCCCTGGCGGCGGGCATGGGCGCGATCAAGCAGAGCACCGGCAGCTACCAGCTGGCGCTGTGGTTGTTCGCCAGCCTCGGTGTCCTGGCCTGGTTCGGCCTGCACGGGGTCAAGCGTCGCTGGAGGACCACCTGGGGTTCGGCAGCGGTCACCGCGGCTCGGGTATAA	MNSSFWKSGHTPTLFAAFLYFDLSFMVWYLLGPLAVQISADLHLTTQQRGLMVATPILAGAVLRLFMGLLADRISPKTAGMVGQVIVIGALFCAWKLGIHSYEQALLLGLFLGVAGASFAVALPLASQWYPPQHQGKAMGIAGAGNSGTVLAALIAPVMAVAFGWTNVFGFAVIPLVITLVLFAWLAKNAPERPKAKSMADYLKALGDRDSWWFMFFYSVTFGGFIGLASALPGYFNDQYGLSPVTAGYYTAACVFGGSLMRPLGGALADRFGGIRTLLGMYTVAAICIAAVGFNLPSSYAALALFVCTMLGLGAGNGAVFQLVPQRFRREIGVMTGLIGMAGGIGGFALAAGMGAIKQSTGSYQLALWLFASLGVLAWFGLHGVKRRWRTTWGSAAVTAARV	PGPT0000300_3751	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000300-narK|nrtP|nrt|narU-K02575	NA	NA
D1-35_00776	576	pdtaR	COG3707	putative transcriptional regulatory protein pdtaR	ATGCTGCGTATCCTGCTGATCAACGACACCGCGAAAAAAGTCGGGCGTCTCAAGGCGGCCCTGATTGAAGCCGGATTCGAGGTGATCGACGAATCCGGTTTGACCATCGACCTGCCGGCGCGCGTCGAAACGGTGCGTCCGGACGTGATCCTGATCGATACCGAGTCACCCGGGCGCGACGTCATGGAGCAAGTGGTGCTGGTCAGTCGTGACCAGCCACGACCGATCGTCATGTTTACCGACGAGCACGACCCGGATGTGATGCGCCAGGCGATCAAGTCAGGCGTCAGCGCCTACATCGTCGAAGGCATCCATGCCGCACGCCTGCAACCGATCCTCGACGTGGCCATGGCCCGCTTCGAAAGCGACCAGGCCCTGCGCGCGCAACTCCTGGCCCGGGACCAGCAACTGGCCGAACGCAAGCGCATCGAACTGGCCAAGGGCATGCTGATGAAGATGAAGGACTGCAACGAGGAACAGGCCTACACCCTGATGCGCCGCCAGGCCATGAGCCGCCAGCAGAAGCTGATCCAGGTGGCGGAGCAGATCATTGCCATGAACGAGTTGCTCGGCTGA	MLRILLINDTAKKVGRLKAALIEAGFEVIDESGLTIDLPARVETVRPDVILIDTESPGRDVMEQVVLVSRDQPRPIVMFTDEHDPDVMRQAIKSGVSAYIVEGIHAARLQPILDVAMARFESDQALRAQLLARDQQLAERKRIELAKGMLMKMKDCNEEQAYTLMRRQAMSRQQKLIQVAEQIIAMNELLG	PGPT0000400_722	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000400-nasR|nasT-K07183	NA	NA
D1-35_00777	1212	nrtA		Nitrate/nitrite binding protein NrtA	ATGAACGAAATTCCAGCCACCCCCCTGGCTTGGGTCAATGGCAGCGATGCCCCGGAAAAGAGCGCGGTCAACCTCGGCTTCATGGCCCTGAGCGACTGCGCCCCGGTGGTCGTGGCCGCCACCCAGGGCTTCGCCCAGCCCTACGGCTTGACGCTGAACCTCAAGCGCCAGGCCTCGTGGGCCAACCTGAGGGACAAACTGGTCAGCGGTGAAATCGACGCGGCCCACAGCCTGTACGGCCTGGTTTATGCCGTGCACCTGGGCATCGGTGGCGTCGCGCCGACCGATATGGCCGTGCTGATGGGGCTGAACCAGAACGGCCAGAGCATCAACCTGTCCCATGGTTTGCAGGCGCAAGGCGTGACCAGTCCTGAGGCACTGGAGCAGCATGTGCACCAAACTCGCCCGAAACTGACCTTCGCCCAGACCTTTCCCACCGGCACCCATGCCATGTGGCTCTATTACTGGCTCGCCGCCCAGGGCATCCATCCGTTGTCGGATGTCGACAGCGTAGTGGTGCCACCGCCGCAGATGATCGCGCACCTGCAAGCCGGGCGCATCGATGGTTTCTGCGTCGGCGAGCCCTGGTGCGCCAGTGCCGTGAAGCAGAACCTCGGCTTTACCCTGGCGACTACCCAGACCATCTGGCCCGACCACCCGGAGAAAGTCCTGGGTTGTACCCGCGCGTTTGTCGAGCAATACCCCAACACTGCCCGCGCGCTGGTGATGGCCATCCTCGAAGCCAGCCGCTTCATCGAACAAAGCACTGAAAACCGCCGCAGTACCGCGCAATTATTGAGCGCCCCGGAATATCTCGACGCTCCGCTCGATTGCATCGAGCCGCGCCTGCTCGGGATTTATGCCGACGGCCTGGGCAACAGCTGGCAGGATCCCCACGCCATGCGCTTTCATGGGGACGGCGCGGTGAACCTGCCGTACCTGTCCGACGGGATGTGGTTCATGACCCAGTTCCGGCGCTGGGGCCTGCTGCGCGAAGACCCGGACTACCTGGCCGTGGCCCGCCAGGTCCAACAGCTCAAGCTGTATCGTGAAGCCTGCGCGGCGCTGGGCGTGACGTCGCCTCGCCAGGACATGCGCAGCAGTCAACTGATCGACGGCACGACCTGGGACGGCTCGGACCCGGTCGGGTATGCCCGCAGCTTCAAACTGCACGCCTTGAGCGATGCGGCTCCCCTTCTCGCCAGCCGCTGA	MNEIPATPLAWVNGSDAPEKSAVNLGFMALSDCAPVVVAATQGFAQPYGLTLNLKRQASWANLRDKLVSGEIDAAHSLYGLVYAVHLGIGGVAPTDMAVLMGLNQNGQSINLSHGLQAQGVTSPEALEQHVHQTRPKLTFAQTFPTGTHAMWLYYWLAAQGIHPLSDVDSVVVPPPQMIAHLQAGRIDGFCVGEPWCASAVKQNLGFTLATTQTIWPDHPEKVLGCTRAFVEQYPNTARALVMAILEASRFIEQSTENRRSTAQLLSAPEYLDAPLDCIEPRLLGIYADGLGNSWQDPHAMRFHGDGAVNLPYLSDGMWFMTQFRRWGLLREDPDYLAVARQVQQLKLYREACAALGVTSPRQDMRSSQLIDGTTWDGSDPVGYARSFKLHALSDAAPLLASR	PGPT0000405_206	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000405-nasS-K22067	NA	NA
D1-35_00778	1020	pyrD	COG0167	Dihydroorotate dehydrogenase (quinone)	ATGTACACCCTGGCCCGTGAACTGCTGTTCAAACTTTCCCCGGAAACTTCCCATGATCTGTCCCTGGACCTGATCGGCGCGGGTGGACGTTTGGGGCTCAACGGGTTGCTGTGCAAGGCCCCGGCAAAATTGCCGGTGACAGTCATGGGCCTGGAATTTCCCAACCCGGTCGGCCTGGCCGCCGGCCTGGACAAGAATGGCGCGGCCATCGACGGGTTCGCCCAGCTGGGGTTCGGCTTCGTTGAAATCGGCACCGTGACGCCGCGTCCGCAGCCGGGCAATCCCAAGCCACGGCTGTTCCGTTTGCCGCAGGCCGAGGCAATCATCAACCGCATGGGCTTCAACAACCTGGGCGTCGATCATCTGCTGGCCCGTGTGGCTGCTGCCAGGTACAAGGGTGTGCTAGGGATCAACATCGGCAAGAACTTCGATACGCCGGTGGAGCGCGCCGTCGACGATTACCTGATCTGCCTGGACAAGGTCTACGCTCACGCCAGTTATGTGACCGTCAACGTCAGTTCGCCGAACACGCCAGGGCTGCGCAGCCTGCAGTTCGGCGATTCGCTCAAGCAATTGCTGGCCGATCTGGCGCGACGTCGCGCGGAACTGGCGGTGACGCACGGCAGGCATGTGCCGCTGGCCATCAAGATTGCCCCGGACATGAGCGACGAAGAAACCGTCCAAGTGGCCCAGGCCTTGATCGAGACCGGCATGGATGCGGTGATCGCCACCAACACCACGCTGGGCCGCGAAGGTGTAGAAGGCCTGGAGCATGGTGACGAGGCGGGCGGCCTGTCCGGCGCTCCGGTGCGCGACAAGAGCACCCACACGGTGAAAGTGCTGGCCGGCGAATTGGCGGGACGCTTGCCGATCATCGCGGCGGGCGGTATTACCGAAGGCCGGCATGCCGCCGAGAAAATCACGGCAGGGGCGAGCCTGGTGCAGGTTTATTCCGGGTTCATCTACAAGGGCCCGACGTTGATTCGCGAGTCGGTGGATGCGATTGCCGCGTTGGGTTGA	MYTLARELLFKLSPETSHDLSLDLIGAGGRLGLNGLLCKAPAKLPVTVMGLEFPNPVGLAAGLDKNGAAIDGFAQLGFGFVEIGTVTPRPQPGNPKPRLFRLPQAEAIINRMGFNNLGVDHLLARVAAARYKGVLGINIGKNFDTPVERAVDDYLICLDKVYAHASYVTVNVSSPNTPGLRSLQFGDSLKQLLADLARRRAELAVTHGRHVPLAIKIAPDMSDEETVQVAQALIETGMDAVIATNTTLGREGVEGLEHGDEAGGLSGAPVRDKSTHTVKVLAGELAGRLPIIAAGGITEGRHAAEKITAGASLVQVYSGFIYKGPTLIRESVDAIAALG	PGPT0021190_3248	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021190-pyrD-K00254	NA	NA
D1-35_00779	216	rmf		Ribosome modulation factor	ATGAGAAGACTTAAGCGTGATCCGTTGGAAAGAGCATTTTTACGCGGTTACCAATATGGCGTTGGTGGTAAATCCCGTGAGCTTTGCCCCTTTACTCTACCGTCGGTACGTCAAGCCTGGATCAACGGCTGGCGAGAAGGACGCGGCGACAACTGGGACGGTATGACCGGCACTGCGGGTATCCACAGACTCAACGAACTTCACGCCGTCGGCTGA	MRRLKRDPLERAFLRGYQYGVGGKSRELCPFTLPSVRQAWINGWREGRGDNWDGMTGTAGIHRLNELHAVG				NA	NA	NA	NA	NA
D1-35_00781	2271	rlmL_1	COG0116	Ribosomal RNA large subunit methyltransferase K/L	ATGTCCGATCGTTTCGAACTCTTCCTCACTTGCCCCAAGGGCCTCGAAGGCCTGCTTCTCGAGGAAGCCGTCGGGCTTGGCCTTGAAGAGGCGCGCGAGCACACCTCGGCCGTTCGCGGCATCGCCGACATGGAAACGGCCTATCGCCTGTGCCTGTGGTCGCGCCTGGCGAACCGCGTATTGCTGGTGCTCAAGCGCTTCGCGATGAAAGACGCTGAAGACCTGTACCACGGGGTGCTGGACGTCGACTGGCAAGACCACATGCTCGCCGATGGTACCTTGGCGGTCGAGTTCAGCGGTCACGGCTCGGGCATCGACAACACGCATTTCGGCGCCTTGAAGGTCAAGGATGCCATTGTCGACAAGCTGCGCACGCCGTCGGGTGAGCGGCCATCCATCGACAAGCTCAACCCGGACCTGCGCATCCACCTGCGCCTGGACCGTGGCGAAGCAATCCTGTCCCTCGACCTTTCGGGCCATAGCCTGCACCAACGTGGCTATCGCTTGCAGCAGGGCGCCGCCCCGCTGAAGGAAAACCTCGCCGCCGCCATCCTGATTCGCGCCGGTTGGCCACGCATTGCCGCCGAAGGCGGGGCACTGGCGGACCCGATGTGCGGCGTCGGCACGTTCCTGGTAGAGGCCGGAATGATCGCCGCCGACATGGCGCCGAACCTGCGTCGCCAGCAATGGGGCTTTACCGCCTGGCTCGGCCACGTGCCGGCGTTATGGAAAAAACTCCACGAAGAAGCCAGCGAGCGCGCCGCCGCCGGGCTGGCCAAGCCACCGTTGTGGATTCGCGGCTACGAAGCTGACCCACGGCTGATCCAGCCGGGCCGCAACAACGTCGAACGTGCGGGCCTGAGCGAGTGGATCAAGATCTATCAGGGCGAAGTCGCCACCTTCGAGCCGCGCCCGGACCAGAACCAGAAGGGCCTGGTGATCTGCAACCCGCCGTACGGCGAGCGTTTGGGCGACGAAGCCAGCTTGCTCTATCTGTACCAGAATCTTGGTGAACGCCTGCGCCAGGCCTGCCTCAACTGGGAGGCCGCGGTGTTCACTGGCGCGCCGGACCTGGGCAAGCGCATGGGCATTCGCAGCCACAAGCAGTATTCGTTCTGGAACGGCGCCTTGCCGTGCAAGTTGCTACTGATCAAGGTGCTCCCGGATCAGTTCGTCACTGGCGAGCGTCGCACCCCGGAACAACGCCAGGCCGAGCGTGAACAGGCTGTCTACGATCAAACCCCTGAAGTACCGCAAGAGCGCCAGTACAACAAGAATGGCAACCCGATCAAACCGGCCCCGGCGCCAGCCCCTGTGGTCGAGCAGGCGCGGTTGAGCGAAGGCGGGCAGATGTTCGCCAATCGCCTGCAGAAAAATCTCAAGCTGCTGAGCAAGTGGGCCAAGCGTGAAGGCGTCGACTGCTACCGGGTCTATGATGCCGACATGCCGGAATATTCCATGGCCATCGACCTGTATCACGACTGGGTGCACGTCCAGGAATACGTCGCGCCGAAGTCCATCGACCCGGAAAAGGCCTCGGCCCGGTTGTTCGATGCGCTGGCCGCCATTCCCCAGGCCTTGAATGTCGACAAGAGCCGCGTTGTCATCAAGCGCCGCGAGCGCCAGAGCGGCACCAAGCAGTACGAGCGCCAGAGCGCCCAGGGCAAGTTCACCGAGGTCAACGAGGGCGGCGTGAAGCTGCTGGTCAACCTCACCGACTACCTCGACACCGGGTTGTTCCTCGATCACCGGCCAATGCGCCTGCGGATCCAGAAAGAGGCCGCCGGCAAGCGCTTCCTGAACCTGTTCTGCTACACCGCGACCGCCAGCGTCCATGCCGCCAAGGGCGGGGCGCGCAGCACTACCAGCGTCGATTTGTCGAAAACCTATCTGGACTGGGCGCGGCGCAACCTGTCGCTCAATGGTTTTTCCGACAAGAACCGCTTGGAGCAGGGCGATGTCATGGCCTGGCTTGAAGCCAGTCGCGACGAGTACGACCTGATCTTCATCGATCCACCGACGTTCTCCAACTCCAAGCGCATGGAAGGCGTGTTCGACGTGCAGCGCGACCACGTCCAGCTGTTGGATCTGGCCATGGCGCGCCTGGCGCCGGGTGGCGTGCTGTATTTTTCCAACAACTTCCGCAAGTTCCAGCTCGAAGACAACTTGGGCGAGCGTTACGCCGTGGAGGAAATCACCGCCGGGACCATCGACCCGGATTTTGCCCGAAACAGCAAGATTCACCGCGCCTGGAAAATCATGGCGCGCTGA	MSDRFELFLTCPKGLEGLLLEEAVGLGLEEAREHTSAVRGIADMETAYRLCLWSRLANRVLLVLKRFAMKDAEDLYHGVLDVDWQDHMLADGTLAVEFSGHGSGIDNTHFGALKVKDAIVDKLRTPSGERPSIDKLNPDLRIHLRLDRGEAILSLDLSGHSLHQRGYRLQQGAAPLKENLAAAILIRAGWPRIAAEGGALADPMCGVGTFLVEAGMIAADMAPNLRRQQWGFTAWLGHVPALWKKLHEEASERAAAGLAKPPLWIRGYEADPRLIQPGRNNVERAGLSEWIKIYQGEVATFEPRPDQNQKGLVICNPPYGERLGDEASLLYLYQNLGERLRQACLNWEAAVFTGAPDLGKRMGIRSHKQYSFWNGALPCKLLLIKVLPDQFVTGERRTPEQRQAEREQAVYDQTPEVPQERQYNKNGNPIKPAPAPAPVVEQARLSEGGQMFANRLQKNLKLLSKWAKREGVDCYRVYDADMPEYSMAIDLYHDWVHVQEYVAPKSIDPEKASARLFDALAAIPQALNVDKSRVVIKRRERQSGTKQYERQSAQGKFTEVNEGGVKLLVNLTDYLDTGLFLDHRPMRLRIQKEAAGKRFLNLFCYTATASVHAAKGGARSTTSVDLSKTYLDWARRNLSLNGFSDKNRLEQGDVMAWLEASRDEYDLIFIDPPTFSNSKRMEGVFDVQRDHVQLLDLAMARLAPGGVLYFSNNFRKFQLEDNLGERYAVEEITAGTIDPDFARNSKIHRAWKIMAR				NA	NA	NA	NA	NA
D1-35_00782	2385			hypothetical protein	ATGGCATTACATCAGGTGCGTCCCAGGATCCTGGGCTTTATCAGCGAAGATGTTTCAGCATGGCTCGTGGCTTGCGTCGTCCTGATGGCAGGCCTGCTGCTGACCGGTTTGTTGGCCTGGGGCACGTTGAAGCAGTTCAACCAGCAATTGCGCCAGCGCTTCGAATTGCTCGCCGAAGAACGCTATAGCCGCCTCGACGAGCGTTTCCAGGACCAGGAGCAACGTCTCGACAGTCTGAGGCGGTTCTTTGCCAACTCCGCGGGAGTGTCTGGCGCCGAATTCCATGGCTATACCGAAGCGCTCTTGCGGCGTACCCGGGCCTTTGCCTGGGCGCCACGGGTGCTGCGGGAGGAGCGCCAGGCATTCGAGCAACAGGCACGAGCCGAAGTATCCACTACCTTTACCGTTCGTGAACGAGACGAGGCCGGAATCCTGCGCCAGGCCGCTGAGCGGAATGAATACGCGCCGCTGCTGTATATCCAGAGCCAGCCATCCTATGGCGCGCCGCTGGGCCTGGATCTGCTTTCGCATCCACTGCGCCGTGCCACGCTGGAACGGGCGCGCCAGCGTAACGCCCTGGTAGTTTCCGAGCCCATTGATCTGATCGGGAGCGATCCGGCCTTTGCCCGAGGTGTGATGCTGGCGGCGCCCGTTCTCAAGCCTCTGGCCCGCGAGCCGTTCGGCTACGTGGTGGCGGCCATCAGCATGCGCCAGTTGGTCGCCGATGGGCTGCCGGAGGCGGAGGATGACAGTCTGACGATGCGTGTGATTGATTCCGCCCACGATACCCCTTGGGAAGTCCTGTTCGAAACATCCAACCGACCGGGTAAAAGCGAGCTGTCGGCGGTCCGGATGTTGCGCCTGGCCGATCATGACTTCCGCGTGGAGTTGCGGCCCAGTCTCGCGTTCCTGTCGAACAATCATTCCAGCGTCGTGAGCGTCACGGTGTTGGGCGGGCTGCTCAGCCTGATGCTCAGCGTCTTGCTGTATACGTTGGTCAGCCAGCGACAGCGGGCCTTGGCGCTGGTGGAACAGCGCACCCGGGAACTGCATGCCCGGGAATCGGAACTGCGCGGCACCCACGGCCAATTGAAGGGCGTGCTCGACGCCGCGACGCAAGTCGCGATCATCGCGACCGACCTGCGCGGTGTCATCACCACGTTCAATGCCGGCGCCGAGCAGATGCTCGGCTATCGCAGTTGCGATGTCCTGCAGAGCATGACCCTGGAAAGTCTTCACGTTCCGCGTGAGCTGCAGCATCGGGCCGCACAGCTGGCCGTGCGTTTCGGCAAGCCAATCCCGACGTGCCATGCGATGCTGCTCGAAGGCGGTGAGCAGGGCGGCCAACAGGCTCGGGAGTGGACCCTGGTGCGCCGCGACGGCAGCCACCTGACGGTCAACATGCTGGCCACGCCCGTGCTCGACGACCAAGGGTTGTGGGTCGGGCACCTGGCAATCTGCATCGACGTCACCGAACGCAAGCGCGTCCACGAAGCCTTGGCCGCACGGGACCTGCTGTTGAAAAAACTCAGCGCCCATGTCCCCGGCGGCATCTATCAGTTCAAGATGGACTTTACCGGTGAGTTCAGCGTGATCTATGCCAGCGACGGCATCCGCGACATCTACGAACTGGAGCCTGACGTGCTGGTACGGCACGCCGAAGCGGTGTTTTCGCGCATCCATCCGCTGGACAGCGCCCGGGTGCGTGCTTCGATCCGCATCTCGGCGGAGACATTGAGCCCGTGGCGCGAAGAGTACCGGGTGCAACTGCCGCAGCGCGGTCTGCGCTGGGTACGCGGAGAGGCCACGCCCGAGCAATTGCCTGGCGGCGGTGTGTTGTGGCACGGCTATGTCTCGGACATCTCCGACCTCAAGCGCGTGGAAGAAGAACTGCGGGCACTGTCCATTACCGACGCGTTGACCGGCATTCGCAACCGGCGCTATTTCCAGGAGCGCCTGACTTCGGAGATGGCCCGGGTTGAACGGGGCTCCGGCGAGCTGGCGGTCATCATGCTCGACATCGATCACTTCAAGCGCATCAACGACCAGCATGGCCATGCGGTGGGTGATCGGGTGTTGCAGGCGGTCTGCCAGCGCATCACCCATCGGTTACGCCGCACCGACGTATTCTGCCGGTTGGGCGGCGAAGAGTTCGTGGTGCTCTGCCCGGATACGGACAATGAAAGTGCCTACACCCTGGCGTTGGGGTTATGGGACGGCCTGCGGGGTTCGCCGATCGACGACATCGGCACCATCACCGCCAGTTTTGGCATCGCCAGCTGGCGCGTTGGCGAAGGTGCCGACGCGCTGCTGTTGCGCGCCGACTCAGGTGTGTACGCGGCGAAGCAGGCCGGGCGGGATCGGGTCGAGGTGCAGTTGGGCTAG	MALHQVRPRILGFISEDVSAWLVACVVLMAGLLLTGLLAWGTLKQFNQQLRQRFELLAEERYSRLDERFQDQEQRLDSLRRFFANSAGVSGAEFHGYTEALLRRTRAFAWAPRVLREERQAFEQQARAEVSTTFTVRERDEAGILRQAAERNEYAPLLYIQSQPSYGAPLGLDLLSHPLRRATLERARQRNALVVSEPIDLIGSDPAFARGVMLAAPVLKPLAREPFGYVVAAISMRQLVADGLPEAEDDSLTMRVIDSAHDTPWEVLFETSNRPGKSELSAVRMLRLADHDFRVELRPSLAFLSNNHSSVVSVTVLGGLLSLMLSVLLYTLVSQRQRALALVEQRTRELHARESELRGTHGQLKGVLDAATQVAIIATDLRGVITTFNAGAEQMLGYRSCDVLQSMTLESLHVPRELQHRAAQLAVRFGKPIPTCHAMLLEGGEQGGQQAREWTLVRRDGSHLTVNMLATPVLDDQGLWVGHLAICIDVTERKRVHEALAARDLLLKKLSAHVPGGIYQFKMDFTGEFSVIYASDGIRDIYELEPDVLVRHAEAVFSRIHPLDSARVRASIRISAETLSPWREEYRVQLPQRGLRWVRGEATPEQLPGGGVLWHGYVSDISDLKRVEEELRALSITDALTGIRNRRYFQERLTSEMARVERGSGELAVIMLDIDHFKRINDQHGHAVGDRVLQAVCQRITHRLRRTDVFCRLGGEEFVVLCPDTDNESAYTLALGLWDGLRGSPIDDIGTITASFGIASWRVGEGADALLLRADSGVYAAKQAGRDRVEVQLG				NA	NA	NA	NA	NA
D1-35_00783	1467	dacC_1	COG2027	D-alanyl-D-alanine carboxypeptidase DacC	ATGATCAAATCTTTGCGCCCATTGCTTCTGGCCAGCCTTCTTCTTCCTTTGGCCCTGCCTGTCCCCACCCAAGCCGCCACCATCAACACCGCCCTGTCGCCGAATGTGCAAAAGGCCCTGAAGAACAGCAAACTGCAAGACCACGCCCTGTCCCTGGTGATGGTACCGCTCAACGGCCCCGGCACCCCGACGCTGTATAACGCCGATGTCTCGGTGAACCCGGCGTCCACCATGAAGCTGGTAACGACCTACGCAGCCCTGGAAATGCTCGGGCCGAACCATCAGTGGAAAACCGAGTTCTACACCGACGGCACCCTCAGCGGGGGCATTCTCAACGGCAACCTGTACCTCAAGGGCGGCGGCGATCCCAAGCTGAACATGGAAAAGCTCTGGCTGTTGATGCGTGACCTGCGAGCCAACGGCGTGCAGCAGATCACCGGCGACCTGGTGCTGGACCGCAGCTTCTTCATCCAGCCGCAATTGCCCGAGTTCAACGACGACGGCAATGACGAAAACAAACCCTTCCTGGTCAAGCCCGATTCGCTGCTGGTCAACCTCAAGGCGCTGCGCTTCGTGGCCCGCAATGACGCTGGCCGGGTACTGATATCGGTCGAACCGCCCATCGCCAGCATCCGCATCGAGAATGTGGTCAAGGCCGCCAACTCCAAGCAGTGCACTGGTGGCGTGCGCTACAACCCGGTGGCCCAGGCGGACGGCAGCATGACCGTGACCGTCAGCGGCCAACTCGGCGAGGGTTGCAGCTCCCAGACCTACCTGTCGCTGCTCGACCATGCCACCTACACCGCTGGCGCCGTGCGAGCGATCTGGAAGGAGCTGGGCGGCAGCATCCAGGGCAGCGACCGCCTGGCCGCGACGCCGAAGAACGCCAAGCTGCTGGCCCGGGCGTTCTCCCCGGACCTGGCGGAGATCATCCGCGACATTAACAAATACAGTAACAACACCATGGCCCAGCAACTGTTCCTGAGCCTGGGCGCGGAGTTTCGCAACGAGGCCGACGGCGACGATGCCAAGGCTGCGCAGCGAGTGGTGCGCCAGTGGCTGGCCAAGAAAGGCATCACCGCGCCGCACCTGGTGATGGAAAACGGCTCCGGCCTGTCCCGCGCCGAACGGGTCAGCGCCCGGGAAATGGCGGCGATGCTGCAGGCGGCATGGCGCAGCCCGTATGCGGCGGAGTTCATCAGCTCGATGCCCATCGCCGGCACGGACGGCACCATGCGCAAACGCCTCAAGACCACCGCCATGGCCGGCGAAGCGCACGTCAAGACCGGTACGTTGAACACAGTCCGCGCCATTGCCGGCTATAGCCGCGACATCAATGGCAATACCTGGGCGGTCGTGGCGATCCTCAACGATCCGAAGCCATGGGGCGCCTCCTCCGTGCTGGACCAGGTGCTGCTGGACTTGTATCGCCAGCCGAAACTGCCGCAGACGGCGTCGGTGCTCTGA	MIKSLRPLLLASLLLPLALPVPTQAATINTALSPNVQKALKNSKLQDHALSLVMVPLNGPGTPTLYNADVSVNPASTMKLVTTYAALEMLGPNHQWKTEFYTDGTLSGGILNGNLYLKGGGDPKLNMEKLWLLMRDLRANGVQQITGDLVLDRSFFIQPQLPEFNDDGNDENKPFLVKPDSLLVNLKALRFVARNDAGRVLISVEPPIASIRIENVVKAANSKQCTGGVRYNPVAQADGSMTVTVSGQLGEGCSSQTYLSLLDHATYTAGAVRAIWKELGGSIQGSDRLAATPKNAKLLARAFSPDLAEIIRDINKYSNNTMAQQLFLSLGAEFRNEADGDDAKAAQRVVRQWLAKKGITAPHLVMENGSGLSRAERVSAREMAAMLQAAWRSPYAAEFISSMPIAGTDGTMRKRLKTTAMAGEAHVKTGTLNTVRAIAGYSRDINGNTWAVVAILNDPKPWGASSVLDQVLLDLYRQPKLPQTASVL	PGPT0024035_1075	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024035-dacB-K07259	NA	NA
D1-35_00784	342		COG3171	putative protein	ATGGCGACTAACCGTTCCCAGCGTCTGCGCAAAAAGCTGTGCGTGGATGAATTTCAAGAGCTGGGTTTCGAACTGAACCTGGATTTCAAAGAAGATCTGGCCGATGAGGCTATTGACGCTTTCCTCGACGCTTTCCTGAAAGAAGCCATGGAAGCCAATGGCCTGGGCTATGTCGGCGGTGACGACTATGGTCTGGTCTGCCTGCAGAAGCGTGGCTCGGTGACCGAAGAGCAGCGCGCTGCCGTTGAAGCCTGGCTCAAGGCCCGTCCTGAGCTGACCAGTGTTGAAGTCAGCCCGCTGATGGATGTCTGGTATCCGGAAAAGCCGATCAACAAGGCTTGA	MATNRSQRLRKKLCVDEFQELGFELNLDFKEDLADEAIDAFLDAFLKEAMEANGLGYVGGDDYGLVCLQKRGSVTEEQRAAVEAWLKARPELTSVEVSPLMDVWYPEKPINKA				NA	NA	NA	NA	NA
D1-35_00785	1191	ydcO	COG3135	Inner membrane protein YdcO	ATGACCGAAATCAGCACCGCGCCACTTCGCCCCCTGGCCGATACCTCGCCATCGGCCATCGTCGCCGGTTTCATCGCCATGATGACCGGCTACACCAGCTCACTGGTACTGATGTTCCAGGCCGGGCAGGCGGCGGGGCTGACCAGCGGGCAGATTTCATCATGGATCTGGGCCATCTCCATCGGCATGGCGGTGTGCTCCATCGGCTTGTCGCTGCGCTACCGCACGCCAATCACCATCGCCTGGTCAACACCCGGCGCAGCCTTGCTGATCACCAGCCTGGGCGGCGTGAGTTATGGCGAAGCCATCGGCGCGTACATCACCTGTGCGGTGCTGGTGACGATCTGTGGCCTGACCGGCAGCTTCGAGCGCCTGGTCAAACGCATTCCGGCTTCGCTGGCGGCCGCGCTGCTGGCGGGGATTCTGTTCAAGATCGGCAGCGAAATATTTGTCGCCGCGCAACATCGCACCGGCCTGGTGCTGGGGATGTTCTTTACCTATCTGATCGTCAAGCGCCTGTCGCCCCGCTATGCGGTATTGGCCGCGCTGCTGGTCGGCACTGCCCTGTCGGGCTTGCTCGGACTTCTCGACTTCAGCGGTTTCGCCCTGGAAGTGGCGACACCGGTCTGGACCACGCCAGAATTTTCCCTGGGGGCCACCATCAGCATCGGTATCCCGCTGTTCGTGGTGGCGATGACCTCGCAGAACATGCCTGGCATCGCCGTGCTGCGCGCCGACGGCTACAACGTACCGGCCTCGCCATTGATCACCAGCACCGGCGTTGCGTCGCTGTTGCTGGCCCCATTCGGTTCCCATGGTATCAACCTCGCCGCCATCAGCGCGGCGATCTGCACCGGGCCACATGCCCATGAAGATCGCGACAAGCGCTACACGGCGGCCGTCTGGTGCGGGATTTTCTACGGCTTTGCCGGGGTTTTCGGCGCAACGCTGGCGGCGCTGTTCGCTGCGCTGCCCAAGGAGTTGGTGCTGTCCATCGCGGCATTGGCGCTGTTCGGCTCGATCATCAATGGCCTGAGCATCGCCATGAGCGAAGCGAAGGAACGGGAAGCGGCGTTGATCACCTTCATGGTCACGGCGTCGGGGTTGACGCTGTTTTCCATCGGCTCGGCGTTCTGGGGGATTGTCGCGGGGGTGGTGACCTTGCTCATCCTGAACTGGCGGAATGCCTGA	MTEISTAPLRPLADTSPSAIVAGFIAMMTGYTSSLVLMFQAGQAAGLTSGQISSWIWAISIGMAVCSIGLSLRYRTPITIAWSTPGAALLITSLGGVSYGEAIGAYITCAVLVTICGLTGSFERLVKRIPASLAAALLAGILFKIGSEIFVAAQHRTGLVLGMFFTYLIVKRLSPRYAVLAALLVGTALSGLLGLLDFSGFALEVATPVWTTPEFSLGATISIGIPLFVVAMTSQNMPGIAVLRADGYNVPASPLITSTGVASLLLAPFGSHGINLAAISAAICTGPHAHEDRDKRYTAAVWCGIFYGFAGVFGATLAALFAALPKELVLSIAALALFGSIINGLSIAMSEAKEREAALITFMVTASGLTLFSIGSAFWGIVAGVVTLLILNWRNA	PGPT0005385_867	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0005385-benE-K05782	NA	NA
D1-35_00786	765			hypothetical protein	ATGAACGAACAGTTGCAACCCCTCAAGAAACAACCGCGAGCAGGCAAAGCCGGCCGCAGCGGAACCCAGGACGATATTGTCTACGCGCACATTTTCGAGGCCATCCTCGAACAGCGTCTGGCGCCTGGTACGAAGTTGAGTGAAGAGGCGCTTGGGGAGATTTTCGGGGTGAGTCGCACCATCATTCGTCGCGCGCTGTCGCGCCTGGCTCATGAAGGCGTGGTGCTGCTGCGCCCGAATCGCGGTGCGGTGGTCGCCAGCCCGAGCGTCGAAGAGGCACGCCAGGTGTTCTTTGCCCGGCGCATGGTGGAGAAGGCGATCACTGAACTGGCGGTACAGCATGCCAGCGCCGAACAGCTTGCCGAGCTGCGGCAGATGGTCAGCGACGAGCGCGACAGTTTTTCCCGAGGGGACCGTGGCGCCGGCATCCGGTTGTCGGGCGAGTTTCACCTCAAGCTGGCCGAGGCGGCAAAAAACGCGCCGCTGATCAGCTTTCAGCGCAGCCTGGTATCACAGACTTCGTTGATCATCGCCCAGTACGAAAGCGGTAACCGTTCCCACTGTTCCTATGACGAACACACCCAGTTGATCGATGCCATCGAGGCCCGTGACGCAGCCCTGGCGGTGAACCTGATGATGCATCACATGGATCACATCGACAGCAAGCTCAACCTCGACGAAGAAAGCGCGTCGGACGATTTGCATGCAGTGTTCTCGCATCTGTTGCAGAGCAAGAAGCCGGGGCGGTCGACGGCCAAGCTCTGA	MNEQLQPLKKQPRAGKAGRSGTQDDIVYAHIFEAILEQRLAPGTKLSEEALGEIFGVSRTIIRRALSRLAHEGVVLLRPNRGAVVASPSVEEARQVFFARRMVEKAITELAVQHASAEQLAELRQMVSDERDSFSRGDRGAGIRLSGEFHLKLAEAAKNAPLISFQRSLVSQTSLIIAQYESGNRSHCSYDEHTQLIDAIEARDAALAVNLMMHHMDHIDSKLNLDEESASDDLHAVFSHLLQSKKPGRSTAKL				NA	NA	NA	NA	NA
D1-35_00787	1305	guaD	COG0402	Guanine deaminase	ATGCCCCTGACACGCAAAGCCTACCGCGCCGCCCTGCTCCACAGCCTCGCCGACCCGGCCGAAGTCGGTATCGAGGCGTCCTATGAGTATTTCGAGGATGGCCTGCTGGTAGTTGAAAATGGCCTGATCAGCACTATCGGCCACGCCAGCGATTTGTTGCCGACCCTTCCGGCGGATATCGAGATCACGCACTACCAGGACACCCTGATCACTCCCGGCTTCATCGACACCCATATCCACCTGCCGCAGACCGGCATGGTGGGCGCCTATGGCGAGCAGTTGCTGGATTGGCTCAACACCTACACGTTCCCCTGCGAAAGCCAGTTCGCCGACCCGGCCCACGCCGAGGCGGTGGCGGACATTTTCGTCAAGGAACTGCTGCGCAACGGCACCACCACAGCCCTGGTATTCGGCAGTGTGCACCCGCAATCGGTGAACGCTTTTTTTGAGGTTGCCGAGAAACTCGACCTGCGGATGATCGCCGGCAAGGTCATGATGGACCGCAACGCGCCGGACTACCTGGTCGACACCGCCGAATCCAGCTACACCGAGAGCAAGGCGCTGATCGAACGCTGGCATGGCAAGGGTCGCCTGCATTACGCCGTGACCCCGCGCTTCGCGCCGACCAGCACGCCGGAGCAGCTGACCCTGGCCGGCCAGTTACTCGGCGAATACCCGGACCTGTACATGCAGACGCACATCAGCGAGAACCTGCAGGAAGTGCAATGGGTCAAGGAGCTGTTCCCCGAGCGCAAAGGCTACCTGGACGTCTACGACCACTACCAATTGCTCGGCGAGCGCTCGGTGTTTGCCCATGGCGTGCATCTGTGCGACGAAGAATGCGCACGCCTGGCACAAACCGGTTCGGCCATCGCGTTCTGCCCGACCTCGAACCTGTTCCTGGGCAGCGGCCTGTTCAACCTGCCGATGGCCGAGAAGCACAAAGTCAATGTGGGCCTTGGCACCGACGTGGGCGGCGGAACCAGTTTTTCGCTGCTGCAAACCCTGAACGAAGCCTACAAGGTCATGCAGTTGCAAGGTGCGCGACTGAGCCCGTTCAAATCGCTGTACCTGGCCACCCTCGGCGGCGCCCGGGCCTTGCGCCTGGAAGACCGGATCGGCACGTTGCAGCCGGGCACGGACGCGGACTTCCTGGTGCTGGACTACAACACCACGCCGCTGTTGAGCTATCGCCTGAAGCAGGCCAAGGACATGGCCGAGCGGTTGTTCGTACTGATGACCCTGGGGGATGACCGGACGGTGGCGCAGACTTATGCGGCAGGCCGGTTGGTGCACCAGCGCTAA	MPLTRKAYRAALLHSLADPAEVGIEASYEYFEDGLLVVENGLISTIGHASDLLPTLPADIEITHYQDTLITPGFIDTHIHLPQTGMVGAYGEQLLDWLNTYTFPCESQFADPAHAEAVADIFVKELLRNGTTTALVFGSVHPQSVNAFFEVAEKLDLRMIAGKVMMDRNAPDYLVDTAESSYTESKALIERWHGKGRLHYAVTPRFAPTSTPEQLTLAGQLLGEYPDLYMQTHISENLQEVQWVKELFPERKGYLDVYDHYQLLGERSVFAHGVHLCDEECARLAQTGSAIAFCPTSNLFLGSGLFNLPMAEKHKVNVGLGTDVGGGTSFSLLQTLNEAYKVMQLQGARLSPFKSLYLATLGGARALRLEDRIGTLQPGTDADFLVLDYNTTPLLSYRLKQAKDMAERLFVLMTLGDDRTVAQTYAAGRLVHQR	PGPT0021515_1503	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021515-guaD-K01487	NA	NA
D1-35_00788	837			hypothetical protein	ATGTACAACTGGATCAGCGCCCTCGCCGACCTGCAAACCCGCGGCGAACCCTGCGTGCTGGTGACGATCATCGAGGAGCTCGGCTCCACCCCGCGCAACGCCGGCTCGAAGATGGTCATCAGCGCCCGCCAGACATTCGACACCATTGGCGGCGGTCATCTGGAATACAAGGCGATGGAGATTGCCCGGCAGATGCTTGCCAGCGGCCAGCAGAACACCCATCTCGAGCGCTTCAGCCTCGGCGCCAGCCTGGGCCAGTGCTGCGGTGGCGTTACCGTGTTGCTGTTCGAACCCATGGGCCAGGTCCAGGCGCAGATTGCCGTGTTCGGTGCCGGTCATGTCGGCCGCGCCCTGGTGCCGCTGCTGGCGAGCCTGCCTTGCCGGGTGCGCTGGATCGACTCGCGGGAATCGGAATTTCCTGAGCAGTTGCCCCACGGCGTACAGAAAATCGTGACTGAAGACCCGCTGGACGAAGTCGACGAACTGCCCGCCGGCAGCTACTGCATCGTCATGACCCACAACCACCAGCTCGACCTGGAACTGAGCGCCGCGATCCTCAAGCGCAACGACTTCGCCTACTTCGGCCTGATCGGCTCGAAGACCAAACGCGTCAAGTTCGAACATCGCCTGCGTGATCGCGGCTTCGACAGTGGCGCCCTGCAACGCATGCGCTGCCCGATGGGCATCGGCGAAGTCAAAGGCAAGCTGCCCGTTGAAATCGCCATCTCCATCGCCGGCGAAATCATCGCCACCTATAACGCGGATTTCGGCCAGCACACCTCCCGCGCCGAACCCATTGCCAGGTTGCTGCCGGTCTCGCGCCGCAACCAGCGTTAA	MYNWISALADLQTRGEPCVLVTIIEELGSTPRNAGSKMVISARQTFDTIGGGHLEYKAMEIARQMLASGQQNTHLERFSLGASLGQCCGGVTVLLFEPMGQVQAQIAVFGAGHVGRALVPLLASLPCRVRWIDSRESEFPEQLPHGVQKIVTEDPLDEVDELPAGSYCIVMTHNHQLDLELSAAILKRNDFAYFGLIGSKTKRVKFEHRLRDRGFDSGALQRMRCPMGIGEVKGKLPVEIAISIAGEIIATYNADFGQHTSRAEPIARLLPVSRRNQR	PGPT0007280_3243	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_BIOSYNTHESIS,PGPT0007280-xdhC|paod|ygeB|pucA-K07402	NA	NA
D1-35_00789	2400	pucD	COG1529	putative xanthine dehydrogenase subunit D	ATGTCTAACCATCACGCCGTAGAGAAGACCCAGGCCGAACTGGCCGAGCTGTTCGCCCGCGACCTCACCACGGGCGTGGGCCGCAGTGTCAAGCATGACAGCGCTGCCAAACACGTGTCCGGCGAAGCCCAGTACATCGATGACCGGCTTGAATTTCCCAATCAGTTACACGTCTATGCCCGGCTGTCGGACCGCGCCCATGCGCGAATCCTGCGTATCGACACCACGCCCTGCTACGCCTTCGAAGGGGTGCGCATCGCCATTACCCATCAGGACATACCAGGCCTGAAGGACATTGGCCCGTTGTTGCCCGGCGACCCGCTGCTGGCGATCGATGACGTGCAGTTCGTCGGCCAACCGGTACTCGCCGTGGCGGCCAGGGATCTGGAGACCGCACGCCAGGCAGCCATGGCCGCGATCATTGAATATGAAGACCTCGAACCGGTGCTGGATGTGGTCGAGGCGCTGCGCAAGCGGCACTTCGTGCTCGACAGTCACACCCACCAGCGCGGCGATTCGGCCACGGCGCTGGCTACCGCCGAACATCGCATCCAGGGCTCGCTGCACATCGGCGGCCAGGAACACTTTTACCTGGAAACCCAGATTTCCTCGGTGATGCCCACCGAAGACGGCGGCATGATCGTCTACTGCTCGACCCAGAACCCCACCGAAGTGCAGAAGCTGGTGGCCGAAGTGTTGGGCGTGTCGATGAACAAGGTCGTGGTGGACATGCGCCGCATGGGCGGCGGCTTTGGCGGCAAGGAAACCCAGGCCGCCAGCCCGGCCTGCCTGTGCGCCGTCATCGCGCATCTCACCGGCCAGCCGACCAAGATGCGCCTGCCCCGGGTGGAGGACATGCTGATGACCGGCAAGCGCCATCCTTTCTATATCGAATACGACGTTGGCTTCGACGACATCGGGCGCCTGCATGGCATCGCCCTGGAACTGGCCGGCAACTGCGGTTGCTCGCCGGACCTGTCGGCCTCGATTGTCGACCGGGCGATGTTCCATGCCGACAATGCCTACTACCTGGGCGATGCGACCATCAACGGCCATCGCTGCAAGACCAACACCGCGTCGAACACCGCTTACCGTGGTTTCGGCGGGCCCCAAGGCATGGTCGCCATCGAAGAGGTGATGGATGCCATCGCCCGGCACCTGGGGCTCGACCCGCTGGCGGTGCGCAAGGTCAACTACTACGGCAAGACCGAGCGCAACGTCACGCACTACTACCAGACCGTCGAGCACAACATGCTCGAGGAAATGACCGCTGAACTGGAGGAAAGCAGCCAGTACGCCGAGCGCCGCGAAGCGATCCGCCGCTACAACGCAGGCAGCCCGATCCTCAAGAAGGGCCTGGCGCTGACGCCGGTGAAGTTCGGCATTTCCTTCACCGCCAGTTTCCTCAACCAGGCCGGGGCGTTGATTCACGTCTACACCGACGGCAGCATCCACCTGAACCACGGCGGCACGGAAATGGGCCAAGGGCTCAATACCAAAGTCGCCCAAGTGGTTGCCGAGGTGTTCCAGGTGGAAATGGACCGCGTGCAGATCACCGCGACCAACACCGACAAGGTCCCGAACACCTCGCCCACCGCCGCGTCCAGCGGCGCCGACCTGAACGGCAAGGCCGCGCAGAATGCCGCCGAAACCATCAAGCAACGGCTGGTGGAATTCGCCGCGCGGCAATACAAGGTCAGCGAAGAAGACGTGGAATTCCACAACGGCCACGTGCGGGTGCGCGATCACATCCTGACCTTCGAAGCGCTGGTACAACAGGCTTACTTCGCCCAGGTCTCGCTGTCGAGCACCGGGTTCTACAAGACCCCGAAAATCTACTACGACCGCAGCCAGGCCCGTGGCCGGCCGTTCTATTACTATGCCTTCGGCGCCGCGTGTGCCGAGGTGATCGTCGACACCCTCACCGGCGAATACAAGATGCTGCGCACCGACATCCTCCACGACGTTGGCGCCTCGCTGAACCCGGCCATCGACATCGGCCAGGTCGAGGGCGGCTTCATCCAGGGCATGGGCTGGCTAACCATGGAAGAACTGGTGTGGAACGACAAGGGCAAGCTGATGACCAATGGCCCGGCCAGCTACAAGATCCCGGCCGTGGCCGACATGCCGTTGGACCTGCGGGTGCGACTGGTGGAAAACCGCAAGAACCCCGAAGACACGGTGTTCCATTCCAAGGCCGTGGGCGAGCCGCCGTTCATGCTCGGCATCGCCGCGTGGTGCGCCATCAAGGACGCCGTGGCGAGCCTGGGGGATTATCGGCAGCAACCGAAAATCGATGCGCCGGCGACGCCGGAGCGGGTGTTGTGGGGATGTGAGCAGATGCGCCAGCCAAAGGCTGTGAAGCCTGCGGCAGCCGAAGCCGAAGTGGCTTCGCTCTAG	MSNHHAVEKTQAELAELFARDLTTGVGRSVKHDSAAKHVSGEAQYIDDRLEFPNQLHVYARLSDRAHARILRIDTTPCYAFEGVRIAITHQDIPGLKDIGPLLPGDPLLAIDDVQFVGQPVLAVAARDLETARQAAMAAIIEYEDLEPVLDVVEALRKRHFVLDSHTHQRGDSATALATAEHRIQGSLHIGGQEHFYLETQISSVMPTEDGGMIVYCSTQNPTEVQKLVAEVLGVSMNKVVVDMRRMGGGFGGKETQAASPACLCAVIAHLTGQPTKMRLPRVEDMLMTGKRHPFYIEYDVGFDDIGRLHGIALELAGNCGCSPDLSASIVDRAMFHADNAYYLGDATINGHRCKTNTASNTAYRGFGGPQGMVAIEEVMDAIARHLGLDPLAVRKVNYYGKTERNVTHYYQTVEHNMLEEMTAELEESSQYAERREAIRRYNAGSPILKKGLALTPVKFGISFTASFLNQAGALIHVYTDGSIHLNHGGTEMGQGLNTKVAQVVAEVFQVEMDRVQITATNTDKVPNTSPTAASSGADLNGKAAQNAAETIKQRLVEFAARQYKVSEEDVEFHNGHVRVRDHILTFEALVQQAYFAQVSLSSTGFYKTPKIYYDRSQARGRPFYYYAFGAACAEVIVDTLTGEYKMLRTDILHDVGASLNPAIDIGQVEGGFIQGMGWLTMEELVWNDKGKLMTNGPASYKIPAVADMPLDLRVRLVENRKNPEDTVFHSKAVGEPPFMLGIAAWCAIKDAVASLGDYRQQPKIDAPATPERVLWGCEQMRQPKAVKPAAAEAEVASL	PGPT0007265_244	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0007265-xdhB|pucD-K13482	NA	NA
D1-35_00790	1455			hypothetical protein	GTGATCCAGTTTTTACTCAACCAGGAACTCCGTAGCGAGCACGCCCTGGACCCGAACCTGACCGTGCTCAACTATCTGCGCGAGCATGTTGGCAAACCCGGCACCAAGGAAGGCTGCGCCAGCGGCGACTGTGGTGCATGCACCGTGGTGGTGGGCGAACTGGAAACGGACGCGAACGGTAGCGAGCGCATCCGCTACCGCAGCCTCAATTCGTGCCTGACCTTCGTCTCGTCGCTGCACGGCAAGCAACTGATCAGCGTCGAAGACCTCAAGCACAATGGCCAGTTGCACAGCGTCCAGCAGGCGATGGTCGACTGCCACGGCTCGCAATGCGGTTTCTGCACCCCGGGCTTCGTCATGTCGCTGTTCGCCCTGCAAAAGAACAGCGAACAACCCGACGCCCACAAGGCCCACGAAGCCTTGGCCGGCAACCTGTGCCGCTGCACCGGCTACCGGCCGATCCTGGCGGCGGCCGACCAGGCCTGCTGCGGCAAACAACCGGACCAGTTCGACGCCCGCGAAGCCCAGACCATCGCCCGCCTGAAAGCCATTGCCCCGACCGAAACCGGAGAGCTCAACAGCGGTGACAAGCGTTGCCTGGTGCCGCTGACCGTGGCCGACCTGGCCGACCTCTACGACGCCTATCCGCAGGCGCGGCTACTGGCGGGCGGCACCGATCTGGCGCTGGAGGTCACGCAGTTCCACCGCACCCTGCCGGTGATGATCTACGTAGGTAGCGTCGCCGAACTCAAGCGCATCGAGCGTTTTGAAGACCGTTTGGAGATCGGCGCCGCCACCGCGCTTTCCGATTGCTACGAGGCATTAAAAGCCGAATACCCGGATTTCGGCGAACTGCTGCAGCGTTTCGCCTCGCTACAGATCCGCAACCAGGGCACGTTGGGCGGCAACATCGGCAACGCCTCGCCCATCGGCGACTCCCCGCCCCTGCTGATCGCCCTCGGCGCGCAGATCGTGCTGTGCAAGGGCCAGACCCGCCGCACCCTGGCCCTGGAAGACTATTTCATCGACTACCGGGTAACCGCCCGCCAGGAAAGCGAATTTATCGAAAAGATCATCGTGCCCCGAGCCAGCGCCGAACAGACGTTCCGCGCCTACAAGGTTTCCAAGCGCCTGGACGATGACATTTCCGCAGTGTGCGCGGCGTTCAACCTGCATATTGAAAACGGTCTGGTGGAGGACGCGCGTGTCGCCTTCGGCGGCATGGCCGCAACACCCAAGCGTGCCAGGCACTGTGAAGCCGCACTGATCGGCGCGCCGTGGAACGACAGCACCCTCGAACGCGCCTGCGCGGCCTTGGCCGAGGATTTCACGCCGCTGTCGGACTTCCGCGCCAGCAAGGAATACCGTCTGCTCAGCGCCCGCAACCTGCTGCGCAAATACTTCATCGAGCTGCAAACGCCGCACATCGAGACTCGGGTGACCGCTTATGTCTAA	MIQFLLNQELRSEHALDPNLTVLNYLREHVGKPGTKEGCASGDCGACTVVVGELETDANGSERIRYRSLNSCLTFVSSLHGKQLISVEDLKHNGQLHSVQQAMVDCHGSQCGFCTPGFVMSLFALQKNSEQPDAHKAHEALAGNLCRCTGYRPILAAADQACCGKQPDQFDAREAQTIARLKAIAPTETGELNSGDKRCLVPLTVADLADLYDAYPQARLLAGGTDLALEVTQFHRTLPVMIYVGSVAELKRIERFEDRLEIGAATALSDCYEALKAEYPDFGELLQRFASLQIRNQGTLGGNIGNASPIGDSPPLLIALGAQIVLCKGQTRRTLALEDYFIDYRVTARQESEFIEKIIVPRASAEQTFRAYKVSKRLDDDISAVCAAFNLHIENGLVEDARVAFGGMAATPKRARHCEAALIGAPWNDSTLERACAALAEDFTPLSDFRASKEYRLLSARNLLRKYFIELQTPHIETRVTAYV	PGPT0007250_729	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0007250-xdhA-K13481	NA	NA
D1-35_00791	660			hypothetical protein	ATGACGTTCAAGGCCCCGGACAGCCTCGCCGAGCAAATCGCCCATTACCTCGCCGAACGCATCATTCGCGGCGAAATGAAACCGGGAGAGCGCATCCAGGAGCAAAAGGTCACGCTGGCGCTCAATGTCAGTCGCGGCTCGGTCCGCGAGGCTTTGCTGATCCTCGAGCGGCGTCATCTGATCGCTATCCTGCCGCGCCGTGGCGCCCACGTCACCGAGCTTACCGAGCACAAGGTGCGCAGCCTGTGCGCGTTGATGAGCGAGCTCTACATCCTGCTGGGCAATGCGGTGGCTCATGGCTGGAAGGAACAGGCCGACATGGCCCCGTTCGTGGCGATCCAGCAACGCCTACAGCAAGCTTACGAGCGCCAGGACATCCGCACCTTCGTTGATGAAAGCTTCAGCGTGATGCGCGCGGCCTATCCGTTTGCCGACAATCCGTATCTGCAAGAGACCGTCGAGAACCTGCAACCGGCGATGAGTCGCGCCTACTTCCTGGCACTTGAGCAGCGCAAGGCTGAAATGAGCGAATTCCTCGACCTGTTCCAGCGTCTGCTTGTAGCGGTGCTGGCCCGCGATCTGCCGCAGATCCGCATCGTGCTGACGGCCTATGCCCAGCGCAGTTGCGATCTGGTGGTTTCGGCCCTGACGGCGGCCTGA	MTFKAPDSLAEQIAHYLAERIIRGEMKPGERIQEQKVTLALNVSRGSVREALLILERRHLIAILPRRGAHVTELTEHKVRSLCALMSELYILLGNAVAHGWKEQADMAPFVAIQQRLQQAYERQDIRTFVDESFSVMRAAYPFADNPYLQETVENLQPAMSRAYFLALEQRKAEMSEFLDLFQRLLVAVLARDLPQIRIVLTAYAQRSCDLVVSALTAA				NA	NA	NA	NA	NA
D1-35_00792	3489	smc_2	COG1196	Chromosome partition protein Smc	GTGCGGCTCAAGTGCATCAAGCTGGCGGGGTTCAAATCCTTCGTCGACCCGACCACGGTGAACTTCCCCAGTAACATGGCGGCGGTGGTCGGGCCCAATGGCTGCGGCAAGTCGAACATCATCGACGCCGTGCGCTGGGTGATGGGCGAAAGCTCGGCCAAGAACCTGCGCGGCGAATCGATGACCGACGTCATCTTCAACGGCTCCACCAGTCGCAAGCCGGTGAGCCAGGCCAGTATCGAGCTGGTGTTCGATAACTCCGACGGCACTTTGATCGGTGAATACGCGGCCTACGCGGAAATCTCCATTCGTCGCAAAGTGACCCGCGACAGCCAGAACAGCTATTTCCTCAACGGCACCAAATGCCGTCGCCGCGACATCACTGACATCTTCCTCGGCACCGGCCTGGGCCCGCGCAGCTACTCGATCATCGAGCAGGGCATGATCTCCAAGCTGATCGAGGCCAAGCCGGAAGACCTGCGTAATTTCATCGAGGAAGCCGCCGGCATCTCCAAGTACAAGGAGCGGCGCCGGGAAACCGAAAACCGCATCCGCCGTACCCACGAGAACCTTGCGCGCCTGACCGACTTGCGCGAGGAGCTCGAACGTCAGCTCGAACGACTGCATCGCCAGGCCGAGGCCGCCAAGAAGTATCAGGAATACAAGGGCGAGGAGCGCCAGCTCAAGGCCCAGCTTTCAGCGTTGCGCTGGCAGGCGTTGAACGAACAGGTCGGCCAGCGAGAGGCGATCATCGGCAACCAGGAAGTCAGTTTCGAAGCACTGGTGGCCGAGCAGCGCAATGCCGATGCCGCCATCGAGCGCCTGCGCGACGGGCACCACGAACTGTCCGAGCGCTTCAATCTGGTGCAGGGACGCTTCTATTCGGTGGGTGGCGACATTGCCCGGGTCGAACAGAGTATCCAGCACGGCCAACAGCGTTTGCGCCAGTTGCAGGACGATTTGAAGGAAGCCGAGCGCGCGCGCCTGGAAACCGAATCCCACCTGGGCCACGACCGCACCTTGTTGCTGACCCTTGGTGAAGAGCTGGACCGTCTTGTGCCGGAACAGGAAATCACCAGCGCCGCCGCCGAAGAGGCCGCGGCAGCCCTGGAAGAAGCCGAGCTGACCATGCACGGCTGGCAGGAGCAGTGGGACAGTTTCAACCTGACTTCCGCCGAACCGCGGCGCCAGGCCGAGGTGCAGCAGTCGCGCATCCAGCAGCTCGAAACCAGCATGGAACGTTTGGCTGAACGGCAACGGCGCCTGGCTGAAGAGCGGGCGTTGCTCGCTGCGGATCCGGAAGACGCGGCGATCCTCGACCTGAGCGAGCAGCTCGCCACCAGCGAAGCGACCCTGGAAGATTTGCAGGCCAGCGAAGACGCCCAGGTCGAGCGGCTGGAACAACTGCGCCAAGCCTTGCAACTGGCCTTGCAGAACCAGCAGCAGGCCCAGGGCGAACTGCAACGCCTCAACGGCCGCCTGGCCTCGCTGGAAGCGTTGCAACAGGCCGCGCTGGACCCAGGCACCGGCACGGCCGAGTGGTTGCGCGACCAGCATCTGGCCGAGCGCCCGCGTCTGGCCGAGGGGTTGAAAGTCGACGCGGGCTGGGAGCTGGCGGTGGAAACCGTGCTGGGCGCCGACCTGCAAGCGGTGCTGGTGGATGATTTCGCCGGCTTCGATCTCTCGGGGTTTGCCCAAGGCGATTTGCGCCTGCTCAGTCCGGCTGGCGATGGCGTGCGGATCCCTGGAAGTCTGCTGGACAAAGTCGAGGCCCAGGTTGACTTGTCGCCCTGGTTGGGTCAGGTCAAACCCGTGGATAGCCTGGAGCAGGCCCTGGCCTTGCGTGGTCAATTGGCCGCCGGCGAGAGCCTGATCAGTCGTGACGGGTACTGGGTCGGCCGGCATTTCCTGCGGGTGCGCCGGGCCGGCGAGGCCGAAAGCGGCATGCTCGCCCGTGGCCAGGAAATCCAGCGTCTGGTCGCCGAGCGCGAAGAGCGCGAGGCCAGCGTCGAAGCCCTGGAAACCGAATTGCAGAACCTGCGGGCGCAACAGCGCCAGCAGGAAAACGGTCGCGAACACCTGCGCCGCTTGTTGCAGGACGAGGCGCGCCAGCAGGGCGAACTCAAGGCGCAGCTGTCCGCTGGCAAGGCCAAGGTTGAACAACTGGCCCTGCGGCGCACCCGTCTCGATGAAGAAATCGCCGAGTTGGGCGAACAGCGGGCGCTGGAGCATGAACAGATCGGCGAGGCGCGCCTGCAATTGCAGGAAGCCCTCGACGCCATGGCGCTGGACACCGAACAACGCGAATTGCTCCTGGCCCAGCGTGACAGCCTGCGCGAACGCCTCGATCGGGTGCGCCAGGAAGCGCGCCAACACAAGGATCATGCCCATCAGCTGGCAGTGCGCCTGGGCTCGCTCCAGGCCCAATACGATTCCACGCGCCAGGCGCTGGAACGTTTGGAAATGCAATCCGAACGCCTCACCGAAAAGCGCGAACAGCTGAGCCTCAACCTGGAGGAGGGCGAGGCGCCGCTGGAGGAGCTGCGCCTGAAACTCGAGGAATTGCTCGACAAACGCATGAGCGTCGACGAAGAACTCAAGACCGCGCAGATCGCGCTGGAGGACGCCGACCGCGAACTGCGCGACGCGGAGAAGCGCCGCAGCCAGGCCGAGCAGCAATCCCAGCTGATTCGCGGCCAGATGGAGCAGCAGCGCATGGAATGGCAGGCCCTGACGGTCCGCCGCAAAGCCTTGCAGGACCAGTTGCTGGAGGACGGCTACGACCTCAACGGAGTGCTCGCCACCCTCGTGGCAGGTGCCAACGAGAAAGAGGCCGAGGAAGAACTCGAACGCATTGCCGCGCGCATCCAGCGCCTGGGCGCGATCAACCTGGCCGCCATCGACGAGTATCAGCAGCAGTCCGAGCGCAAGCGCTACCTCGACGCCCAGAACGATGACCTGGTGGAGGCGCTGGAGACCCTGGAAAACGTCATTCGCAAGATCGACAAGGAAACCCGCAATCGCTTCAAGGATACCTTTGATCAGATCAACGGCGGTTTGCAGGCACTTTTCCCGAAAGTTTTCGGCGGCGGCAGTGCCTATTTGGAACTGACGGGCGAAGATCTACTCGATACTGGGGTGACAATCATGGCGCGTCCTCCCGGCAAGAAGAACAGCACCATTCATTTACTTTCCGGCGGCGAAAAGGCCCTGACCGCATTGGCCCTGGTTTTTGCCATTTTCAAGTTGAATCCGGCGCCGTTCTGCATGCTCGACGAAGTCGATGCGCCACTGGACGACGCCAACGTGGGCCGTTACGCACGTCTGGTAAAGGAAATGTCTGAAACGGTGCAGTTCATCTACATCACCCATAACAAAATCGCCATGGAAATGGCCGATCAGTTGATGGGCGTCACCATGCATGAGCCGGGTTGCTCGCGACTGGTGGCGGTGGATGTGGAAGAGGCCATGGCCATGGTTGATGCGTAA	MRLKCIKLAGFKSFVDPTTVNFPSNMAAVVGPNGCGKSNIIDAVRWVMGESSAKNLRGESMTDVIFNGSTSRKPVSQASIELVFDNSDGTLIGEYAAYAEISIRRKVTRDSQNSYFLNGTKCRRRDITDIFLGTGLGPRSYSIIEQGMISKLIEAKPEDLRNFIEEAAGISKYKERRRETENRIRRTHENLARLTDLREELERQLERLHRQAEAAKKYQEYKGEERQLKAQLSALRWQALNEQVGQREAIIGNQEVSFEALVAEQRNADAAIERLRDGHHELSERFNLVQGRFYSVGGDIARVEQSIQHGQQRLRQLQDDLKEAERARLETESHLGHDRTLLLTLGEELDRLVPEQEITSAAAEEAAAALEEAELTMHGWQEQWDSFNLTSAEPRRQAEVQQSRIQQLETSMERLAERQRRLAEERALLAADPEDAAILDLSEQLATSEATLEDLQASEDAQVERLEQLRQALQLALQNQQQAQGELQRLNGRLASLEALQQAALDPGTGTAEWLRDQHLAERPRLAEGLKVDAGWELAVETVLGADLQAVLVDDFAGFDLSGFAQGDLRLLSPAGDGVRIPGSLLDKVEAQVDLSPWLGQVKPVDSLEQALALRGQLAAGESLISRDGYWVGRHFLRVRRAGEAESGMLARGQEIQRLVAEREEREASVEALETELQNLRAQQRQQENGREHLRRLLQDEARQQGELKAQLSAGKAKVEQLALRRTRLDEEIAELGEQRALEHEQIGEARLQLQEALDAMALDTEQRELLLAQRDSLRERLDRVRQEARQHKDHAHQLAVRLGSLQAQYDSTRQALERLEMQSERLTEKREQLSLNLEEGEAPLEELRLKLEELLDKRMSVDEELKTAQIALEDADRELRDAEKRRSQAEQQSQLIRGQMEQQRMEWQALTVRRKALQDQLLEDGYDLNGVLATLVAGANEKEAEEELERIAARIQRLGAINLAAIDEYQQQSERKRYLDAQNDDLVEALETLENVIRKIDKETRNRFKDTFDQINGGLQALFPKVFGGGSAYLELTGEDLLDTGVTIMARPPGKKNSTIHLLSGGEKALTALALVFAIFKLNPAPFCMLDEVDAPLDDANVGRYARLVKEMSETVQFIYITHNKIAMEMADQLMGVTMHEPGCSRLVAVDVEEAMAMVDA				NA	NA	NA	NA	NA
D1-35_00793	852	zipA		Cell division protein ZipA	ATGGAAATCGGTCTGCGCGAGTGGCTGATCGTCATCGGCATCATTGTCATTGCCGGTATTCTTTTCGACGGCTGGCGTCGCATGCGCGGCGGCAAGGGGAAACTCAAGTTTCGCCTGGATCGCAGCCTGTCGAACCTGCCGGATGAAGATGACAGTGCCGAACTGCTGGGCCCGCCCCGGGTGCTGGATACCCACAAGGAGCCGCAGCTGGACGAACACGACCTGCCGTCCATGAGCGCGCCGGCGCGCGAGCCACGTGAGTCGGGCTCCAAGCGCGGCAAGCGCAACAGTGAGCCGTCCCAGGGCGACCTGAACCTGAACCTCGACCTCGATGGCGGTCCAGGCTTCAGCAGCCGTGACGGTGATTTCCCGGACGAGAGCAAGGCCTCCGGTTCCAACGGTGACAAGGACCAGGCCCAGGCTGAAGAAGTGCTGGTGATCAGTGTGATCTGCCGCGATCCAGCCGGCTTCAAGGGCCCGGCGTTGCTGCAGAACATCCTCGAAAGTGGCCTGCGTTTCGGCGAAATGGATATTTTCCATCGCCACGAAAGCATGGCAGGCAATGGCGAGGTGCTGTTTTCCATGGCCAACGCCGTCAAGCCAGGCGTGTTCGATCTGGACGACATCGATCATTTCAGTACCCCGGCGGTGAGCTTCTTCCTTGGGCTGCCAGGCCCGCGCCATCCAAAACAGGCTTTCGATGTGATGGTGGCCGCGGCTCGCAAGCTGGCCCAGGAACTCAACGGTGAATTGAAGGATGACCAGCGCAGCGTGCTGACTGCCCAGACCATCGAGCATTACCGCCAGCGCATCGTCGAGTTCGAGCGCCGGGCATTGACCCAGAAACGCTGA	MEIGLREWLIVIGIIVIAGILFDGWRRMRGGKGKLKFRLDRSLSNLPDEDDSAELLGPPRVLDTHKEPQLDEHDLPSMSAPAREPRESGSKRGKRNSEPSQGDLNLNLDLDGGPGFSSRDGDFPDESKASGSNGDKDQAQAEEVLVISVICRDPAGFKGPALLQNILESGLRFGEMDIFHRHESMAGNGEVLFSMANAVKPGVFDLDDIDHFSTPAVSFFLGLPGPRHPKQAFDVMVAAARKLAQELNGELKDDQRSVLTAQTIEHYRQRIVEFERRALTQKR				NA	NA	NA	NA	NA
D1-35_00794	2358	ligA	COG0272	DNA ligase	ATGAACGCCGTCGAAACCCGCATCCTGGAGCTGCGCTCCGAGCTGGACCAGCATAACTATCGCTACCACGTCCTTGACGAACCGACCATCCCGGACGCCGAGTACGATCGCCTGTTCCACGAACTCAAGGCCCTGGAAGAGCAGCATCCGGAGCTGGTGACCAGCGATTCCCCGACCCAACGGGTCGGCAGCGTGGCGCTGTCGGCGTTCAGCCAGGTGCGTCATGAAATCCCGATGCTCAGCCTGGGCAACGCCTTCGATGAAAACACCATGCGTGAGTTCGACCGCCGGGTGACGGAAGGTCTGGACTTGCCCACGGGCGATTTGCTCGGCGCTGGCGCGGCGGTGGAGTACAGCTGCGAACCGAAACTCGATGGCCTGGCCGTCAGCCTGTTGTATCAGGACGGCATGCTGGTGCGCGGCGCGACGCGCGGTGACGGAACCACGGGCGAGGACATCAGTGTCAACGTGCGCACCGTGCGCAATATTCCTCTCAAGCTGCAGGGCAGCGGCTGGCCACCGGTGTTGGAAGTGCGTGGCGAGGTGTACATGTCCAAGGCCGGTTTCGAGCGTCTCAACGCTACGCAACTGGAGGTGGGCGGCAAGACCTTCGCCAACCCGCGCAACGCCGCGGCGGGCAGTTTGCGCCAGCTGGATTCGAGGATCACCGCCAACCGTCCCCTGGAGTTCTGCTGCTATGGTATCGGCCAGGTGACCTCGGACATCGCCGATACCCACATCGGCAACCTCAAGCAGCTCAAGGCCTGGGGCATGCCCGTCAGCCGCGAGCTGAAGCTGGCCCACGGTATCGACGAATGCCTGGACTACTACCGCGACATCGGCGAACGGCGCAATTCGCTGCCCTACGAAATCGACGGCGTGGTGTTCAAGGTCAACAGCATCGCCTCGCAGCGCGAGCTGGGTTTTCGGGCACGGGAGCCGCGCTGGGCCATCGCGCATAAATTCCCCGCCAGCGAAGAACTCACCGAGTTGCTGGACGTGGAGTTCCAGGTCGGCCGCACCGGCGCCGTCACCCCCGTGGCGCGGCTCAAGCCGGTCAAGGTGGCTGGCGTGACCGTGGCCAACGCCACGCTGCACAACATGGACGAAGTGGCGCGGCTGGGCTTGATGATCGGCGATACGGTGATCATTCGCCGCGCCGGCGACGTCATTCCGCAGGTGGTGCAGGTTGTCACCGAGCGTCGTCCGGACAACGCCCGGGCGGTGCAGGTGCCTGAGCAGTGTCCGGTCTGCGGTTCCCATGTCGAGCGCACGCAACTGATCAAACGCAGCAAGGGCCGCGAAACCGTCAGCGAAGGCGCGGTGTACCGCTGCGTCGGTCGGCTGGCCTGCGGCGCGCAGCTCAAGCAGGCGATCATCCACTTTGTCTCGCGCCGGGCGATGGACATCGAAGGCCTGGGTGAAAAAAGCGTCGAGCAGTTGGTGGATGAAGGTCTGGTGGGCTCGCCAGCCGATCTCTACGCGCTGACGTTCGAGCAAGTGGTCGATCTGGAAGGTTTCGCCGAGTTGTCGAGCAGGAACCTGCTGGCGGCTATCGTCGACAGCAAGAAGCCGAGCCTGGCGCGCTTCATCTATGCCCTCGGCATTCCAGACGTGGGCGAGGAAACCGCCAAGATCCTGGCCCGCTCCCTCGGTTCGCTGGAGCGCGTGCAGGCGGCCTTGCCCCAAGTGCTGACGTACTTGCCGGATGTCGGCCTGGAAGTCGCTCATGAGATCCACAGCTTTTTTGAGGATCCGCACAATCGCCAGGTCATCAAGGATTTGCTGCGTCATGGCCTGGAGATTCAGGACCAGGGCGAACTCGGCGCCGAGTTTTCCGCCAGCACCACCCTGGGCGGCTTCCTCGACAAGCTGCACATCCCTTCGGTCGGACCGGGCGGGGCGCAAAAACTGGCGGACAAATTCGGCTCCCTCGAAGCGGTCATGAATGCCGACTGGCTGGACATGCGCCAGGCATTGCCGGAAAAGCAGGCCAACGCCGTGCGGGAGTACTTCGCCAGCGCCGCCAGCCGCGAGCTGGCCGTGGCCGCAGAGCAGCAATTGCGCGATTTCGGCATGCACTGGCAGAGCGAGAAAAAAGTCGTCGAGGGTTTGCCTGAAGCGGGGCATACCTGGGTGCTGACCGGCTCGCTGGAATTGATGAGTCGCGACGTCGCCAAGGACAAGCTGGAAAGCCTCGGCGCCAAGGTGGCCGGTTCCGTGTCGGCAAAGACCCATTGCGTGGTGGCCGGGCCGGGCGCCGGTTCGAAGTTGGCCAAGGCCAATGAGCTGGGGCTCAAGGTGCTCGACGAACAAGCCTTCGTCGATTTCTTGAAGGGGCATGGCATCACAGTGTGA	MNAVETRILELRSELDQHNYRYHVLDEPTIPDAEYDRLFHELKALEEQHPELVTSDSPTQRVGSVALSAFSQVRHEIPMLSLGNAFDENTMREFDRRVTEGLDLPTGDLLGAGAAVEYSCEPKLDGLAVSLLYQDGMLVRGATRGDGTTGEDISVNVRTVRNIPLKLQGSGWPPVLEVRGEVYMSKAGFERLNATQLEVGGKTFANPRNAAAGSLRQLDSRITANRPLEFCCYGIGQVTSDIADTHIGNLKQLKAWGMPVSRELKLAHGIDECLDYYRDIGERRNSLPYEIDGVVFKVNSIASQRELGFRAREPRWAIAHKFPASEELTELLDVEFQVGRTGAVTPVARLKPVKVAGVTVANATLHNMDEVARLGLMIGDTVIIRRAGDVIPQVVQVVTERRPDNARAVQVPEQCPVCGSHVERTQLIKRSKGRETVSEGAVYRCVGRLACGAQLKQAIIHFVSRRAMDIEGLGEKSVEQLVDEGLVGSPADLYALTFEQVVDLEGFAELSSRNLLAAIVDSKKPSLARFIYALGIPDVGEETAKILARSLGSLERVQAALPQVLTYLPDVGLEVAHEIHSFFEDPHNRQVIKDLLRHGLEIQDQGELGAEFSASTTLGGFLDKLHIPSVGPGGAQKLADKFGSLEAVMNADWLDMRQALPEKQANAVREYFASAASRELAVAAEQQLRDFGMHWQSEKKVVEGLPEAGHTWVLTGSLELMSRDVAKDKLESLGAKVAGSVSAKTHCVVAGPGAGSKLAKANELGLKVLDEQAFVDFLKGHGITV				NA	NA	NA	NA	NA
D1-35_00795	1161		COG4307	putative protein	ATGTACCGCTTCTTCGAACAACTGAGCTCACGCATCGCTGCGCCGTTCCTGGGCGACCGATCACGCAACAGCAAGATCTGGCCGTGTCGCTGCGGCCAGTCATTGTTCTTTCGCAACAGCCAGTGCCTGGCCTGCCTGGCGGCGCTGGGCTATCAGCCGGAGCAGAGCCGCCTGTCGTCCCTGCAACCCGGCGCGCAACCGGATACCTGGACCCTGGATGTCGATCCGCAGGCGGGACTGTTTCGTCGCTGCGCCAATCTCGATACCCCGGCGTCGTGTAACTGGCTGCTGCCTGCCAACGGGCAAGACACGCTGTGCATCGCTTGTTGCCTGAATCGCACGATTCCCGACCTGTCGGTCCCCGAAAATCCCGAGCGCTGGCGCAAGGTCGAAACCGCCAAGCGTCGCCTGGTAGCGCAACTGATCACCCTCGGTTTGCCGGTCATTCCGAAGGCCGTCGACGAGAATATCGGCCTGGCCTTCGATTTCATCGGCGTCGACCTCGACGGCAAACCGCCGACGACCGGGCACGCCAGTGGACTCATCACCCTCGATATCAAAGAGGCCGACGATGCTCACCGCGAACACGTGCGTCAGCAGATGCGCGAGCCGTATCGCACCTTGCTCGGACACTTTCGCCATGAGGTGGGTCATTACTATTGGGATCGCCTGATTGCCGACAGCCATTGGCTGGAACCCTTCCGCGAGCTGTTCGGCGACGAGCGCGCCAGCTATTCCGAAGCCTTGGAGCGGCACTACCAGCAAGGCGCGCCGGTGGACTGGCAGTCCCGTTACGTCAGCGCCTACGCCACCATGCATCCGTGGGAGGACTGGGCCGAAACCTGGGCTCATTACCTGCACATGATGGACGCGGTGGATACGGCGCTGGGCTTTGGCATGAGCGCGCGGGAAATGGATTTCGACTACCAGCCATTTCCCCCCGAAACCCTGTTCGACCCCGAGCACACCGGCGGCGCGGCGTTCCTGTCATTCGTCAACGCCTGGATCGAACTGGCCGGCATGCTCAACGAACTCTCGCGCAGCATGGGCCAGCCGGATTTCTACCCGTTCGTCGTGCCGGCGGCGGTGATCACCAAGCTGCATTTCATCCATCTGGTGATTCAGGAGGAGGGTGGCCGGGCGGATGAGGTGCTGTTGTAG	MYRFFEQLSSRIAAPFLGDRSRNSKIWPCRCGQSLFFRNSQCLACLAALGYQPEQSRLSSLQPGAQPDTWTLDVDPQAGLFRRCANLDTPASCNWLLPANGQDTLCIACCLNRTIPDLSVPENPERWRKVETAKRRLVAQLITLGLPVIPKAVDENIGLAFDFIGVDLDGKPPTTGHASGLITLDIKEADDAHREHVRQQMREPYRTLLGHFRHEVGHYYWDRLIADSHWLEPFRELFGDERASYSEALERHYQQGAPVDWQSRYVSAYATMHPWEDWAETWAHYLHMMDAVDTALGFGMSAREMDFDYQPFPPETLFDPEHTGGAAFLSFVNAWIELAGMLNELSRSMGQPDFYPFVVPAAVITKLHFIHLVIQEEGGRADEVLL				NA	NA	NA	NA	NA
D1-35_00797	315			hypothetical protein	ATGCAAATTTCAAGTCTGGGCTCGGCCATCAGACGCTACCGCAAAGTAGCGGGGCTCACTCAGGCTGAACTTGGCGAAAAGACCGGTTTTGACCCCAAAACCATCAGCCGCTTCGAGACCGGCACCTACACTCCCAGCGTCGAAGCCTTGTTCCTGCTGGCCAACGCGCTGGACGTACAGCCCAAGGCTTTTTTCGCCGAAATGGGCGAGGAAGATGAACAGCGGGCATACCTGTTCAATGTCATTCACAAAGCCACTTCGAAGGATCTCGGGAAGCTGATTGCCGCGGTTGAGCAGGCGCTGGCCAAGTCTTGA	MQISSLGSAIRRYRKVAGLTQAELGEKTGFDPKTISRFETGTYTPSVEALFLLANALDVQPKAFFAEMGEEDEQRAYLFNVIHKATSKDLGKLIAAVEQALAKS				NA	NA	NA	NA	NA
D1-35_00798	1737			hypothetical protein	ATGGATAAGAAGTACCGCAGGGCTGTTGACGCCGCCGCGATCTTTTCCGAAACCGATTTGAGCGGGCGCATCACCTACGTCAACGATCAATTCTGCGCCCTGTTTGGCTACCGACGCGATGAGCTGCTGGGATCCAACCACCGGTTGCTCAACTCGGGGCAGCACCCCAGCGAATTTTTCAGTGCGATGTGGCGCACCATCGCCCTGGGTAATGTCTGGAAAGGTGAAATCTGCAATCGGGCCAAGGACGGCACGCTGCATTGGGTCGATACCACCCTGGTACCGGTAGCCGACGAAACGAGCGGGCATATCGAGCGCTACCTGGCGATTCGCTTCGATGTCAGCGAAAAGCGCCGGTTGTTGCACTCGTTGCAATGGCGTGTCGGGCATGACGTGCTGACCGGGCTGCCCAATCGCACCTACCTGTCCGAGCTGCTGGACCAGGCCCTGGACTTTTCGCGGGGGGAAAGTCTGCCCCTGGCGGTGTGCATGCTCGATCTGGATGGCTTCAAGGCCGTCAACGACGGTTATGGCCATGCCAGCGGTGACCGGCTGCTGGTGGAAGTCGCCCGGCGGCTGCGCAGCATTGTGCGCGGCGAGGATGTGGTGGCGCGCCTGGCGGGCGACGAGTTCGTACTGGTGCTGCGTCATGTGCTTGGAATGGACGAGCTGCATGCCGCATTGAACCGGGTCCTGATTGCGGTTTCCATGCCCTATGCGATCGACGGCAAGAGTATCAACGTCTTCGCCAGCATTGGTGTCACCTTGTCACCGTGGGATAACGAAGACGCCGATACGTTGCTGCGCCACGCCGATCAAGCGATGTATGTCGCCAAGCAGAGCGGCCGCAATCGTTTCCATCTGTTTGATGTATCCCGGGACAAGGAAGTGCGGGCCACTTACCAGATTGTCGATCGGGTGCGGCAGGCACTCGCCGGCGATGAGCTGCGGCTGCATTTCCAGCCCAAGGTCAATATGCGCAACGGCGCGGTAGTCGGTCTCGAAGCCTTGTTGCGCTGGAAGCATCCGCAACGAGGCCTGGTGCCGCCGCGCGAGTTCCTGCCACTGGTAGAAGAGACCGACCTGATTGTCGAGATCGGCGAATGGGTCATGGGCCAGGTCCTGACGCTGCTTCAGCAATGGCAGCAGGCGGGGCAGGGCTGGCCGGTGAGCATCAATATTTCGGCGCGGCATTTCCAGCGGGCGGATTTCGTCGAGCGGCTGCAACGCATGCTGGAACGGCATCCGACGGTCCCGCCGCGGATGCTCGATCTGCAGATCGTCGAGTCGGTCGCCGTGGAGAATCTCGCCCATGTCAGTGCCTGCCTCCAAGCGTGCCAGGCCTTGGGTGTAGGGTTTTCATTGGGCGGTTTCGGTACGGGTTATTGCTCGCTCAATGACCTCAAGCACTTGCGCACGCAAACCATCAAGATCGACAAGACGTTCGTGCGCGACATCCTCGACGACCGGGACGACCTGGCATTGACCGAGGCGGTAATCGGCCTGGCCCGGGCGTTCGGCCGGCAGGTGGTCGCGGAAGGCCTGGACAGTCTCGAACATGGGCAATTGTTGCTGCGCCTGGGCTGCGAAGTGGCCCAAGGTTACTTCATCGCCCGGCCCATGCCGGCCGACGAGGTCCCGGGCTGGGTAAGGGACTTCATCTCGCCGCCGCAGTGGCAGGCCCACCCGGGCAGTCAAGGGGAGGCGGCCTGCGACCCTTCGTTGCGGCCGGTATAA	MDKKYRRAVDAAAIFSETDLSGRITYVNDQFCALFGYRRDELLGSNHRLLNSGQHPSEFFSAMWRTIALGNVWKGEICNRAKDGTLHWVDTTLVPVADETSGHIERYLAIRFDVSEKRRLLHSLQWRVGHDVLTGLPNRTYLSELLDQALDFSRGESLPLAVCMLDLDGFKAVNDGYGHASGDRLLVEVARRLRSIVRGEDVVARLAGDEFVLVLRHVLGMDELHAALNRVLIAVSMPYAIDGKSINVFASIGVTLSPWDNEDADTLLRHADQAMYVAKQSGRNRFHLFDVSRDKEVRATYQIVDRVRQALAGDELRLHFQPKVNMRNGAVVGLEALLRWKHPQRGLVPPREFLPLVEETDLIVEIGEWVMGQVLTLLQQWQQAGQGWPVSINISARHFQRADFVERLQRMLERHPTVPPRMLDLQIVESVAVENLAHVSACLQACQALGVGFSLGGFGTGYCSLNDLKHLRTQTIKIDKTFVRDILDDRDDLALTEAVIGLARAFGRQVVAEGLDSLEHGQLLLRLGCEVAQGYFIARPMPADEVPGWVRDFISPPQWQAHPGSQGEAACDPSLRPV	PGPT0023624_234	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
D1-35_00799	762			hypothetical protein	ATGCGCTCAGCCATGGGGGCTTTGCTGTTGCTGGGTACAGGATGTTTCGCCGCCGAAGTGCCCCTGCGCTTCGCCATTACCGATGGCTGGGCCATGCCCATGGTACAGATCGAACGGGGCCGTCCGACCCAGGGCATTCTTCCGGACGTCATGACCAGCCTGGCAACTCAGGTCGGCATACCGGCACAGTTTCATGTCCTTGCCCGCGCGCGATTGGACAGCGCCATGGAACACGGCGAAATAGACATGCGATGTTACGTCTCGCCCGACTGGGTGAAGGATAAAGGGGGCGATTACCTTTGGAGCGTCCCGCTGTTCTTTCAGCGCGATGTGCTCGTTGGCTCGGCCAGCGCCCCCGCCCGAGTGACACCGGCAACACTCGCCCAGCAATCCATCGGTACCGTGCTCAGCTATCGCTACCCGACGCTGCAACCCTTGTTCGACAGCGGCCATCTGCGTCGTGACGACGCGCGCAGCCAGGACCAGGTGCTGGCGAAACTGCTGGCCGGCCGCTACCGCTATGCGGTCAGCAATCAATGGGCACTGGACTGGTTCAATCAACGGCATGGCGCCGACCGGCAACTGCATGAGGTTGCCGTCCTCCAGGAACAGCAACTGAGCTGTTATGTGCGCAATGACCCGGACATTCCGGCGCAACGCATTCTGCGCACCTTGTTAAAAATGAAAATGTCCGGGGAAATCGACGCGATCATCCAGCTTTATACCGGCCGCAACGAAGGGTCGCAGGCCGCCTCCCCTTGA	MRSAMGALLLLGTGCFAAEVPLRFAITDGWAMPMVQIERGRPTQGILPDVMTSLATQVGIPAQFHVLARARLDSAMEHGEIDMRCYVSPDWVKDKGGDYLWSVPLFFQRDVLVGSASAPARVTPATLAQQSIGTVLSYRYPTLQPLFDSGHLRRDDARSQDQVLAKLLAGRYRYAVSNQWALDWFNQRHGADRQLHEVAVLQEQQLSCYVRNDPDIPAQRILRTLLKMKMSGEIDAIIQLYTGRNEGSQAASP	PGPT0020800_13073	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
D1-35_00800	2082	ruvB_1		Holliday junction ATP-dependent DNA helicase RuvB	ATGAGTTATCAGGTTCTTGCACGTAAATGGCGTCCGCGCTCGTTCCGCGAAATGGTCGGCCAGACCCATGTGCTCAAGGCTCTGATCAATGCCTTGGACAGCCAGCGGCTGCACCATGCCTACCTGTTTACCGGCACCCGTGGCGTGGGCAAGACGACCATTGCGCGGATCATTGCCAAGTGCCTGAACTGTGAAACCGGTATCACCTCGACGCCCTGCGGCGAGTGTTCGGTCTGCCGGGAAATCGACGAAGGTCGTTTCGTCGACCTGATCGAGATCGACGCCGCCAGCCGCACCAAGGTCGAAGACACCCGCGAGCTGCTCGACAACGTGCAATACGCCCCGAGCCGTGGGCGCTTCAAGGTCTACCTGATCGACGAAGTGCACATGCTTTCCAGCCATTCCTTCAATGCGCTGCTCAAGACCCTCGAAGAGCCGCCGCCGTACGTCAAATTCATCCTGGCCACCACCGACCCGCAGAAACTTCCGGCAACGATTCTGTCGCGCTGCCTGCAGTTTTCTCTGAAGAACATGACGCCGGAACGGGTGGTCGAGCACCTGACGCACGTCCTGGGCGTCGAGAACGTACCCTTCGAGGACGACGCGCTCTGGCTGCTGGGCCGCGCTGCCGATGGTTCGATGCGCGACGCCATGAGCCTGACCGACCAGGCGATCGCCTTTGGTGAGGGCAAGGTCATGGCTGCCGATGTGCGCGCCATGCTCGGTACCCTCGATCACGGCCAGGTCTATGACGTGTTGCATGCGCTGATAGAAGGTGACGCAAAGGCGCTGCTTGAAGCGGTGCGTCACCTGGCCGAGCAGGGGCCGGACTGGAATGGCGTACTCTCGGAAATTCTCAACGTACTGCACCGTGTCGCCATCGCCCAGGCCTTGCCTGAGGGTGTCGATAACGGTCACGGGGACCGCGATCGCGTACTGGCATTGGCCCAGGCGCTGCCGGCCGAAGACGTGCAGTTCTATTACCAGATGGGCCTGATCGGTCGACGCGACTTGCCTTTGGCCCCGGATCCGCGTGGCGGCTTCGAAATGGTCCTGCTGCGCATGCTCGCGTTCCGGCCGGCCGATACGCCGGACGCGCCGAGACAAGCGCTAAAGCCAGTGGGGATCAGCCAGGCCACAGCTGATTCCGCCAAGCCAGTGGCTGCCACGCCCGTTGTTGCGTCGGCAGCGGCTTCTGCCCCGGCAACGGTGGTGCCCATAGCCGAGCCGACAGCTGTCGTCGCTACACCCGAGCCGGTCGTCGAGGCGCAGCCTGAGCCGGCTGTCGAGGCGCCATCCGAGCCGGTCGCCGAAGCCATTATCGACCTGCCCTGGAATGATCCGGTCGAGCCGGAGATCGTCCAGCAACCTGCCGTGGAACCGGTGCTGGAAACCGTCGCCGAGCAGCCTGACCTGCCGCCGATGCCTATGCCCACGCCTGACAGTGTGGTGCCCGATGCACCCGAGTGGGTGGCCGCGCCGATGCCTGAGCCGACGGTGGCTGACGTTGCTGTCGCCACGCCGGGCATCGACCTGGACGATGAGCCACCGTTGGATGAGGACTACATCGAGCCGGACATGGACTCGGCCTACAGCTATCTGGACGACCTGGCCAGCGAGCACGCCGCCGAGCCGGCGCCGGAGCCCGAACCCGAACCGGCGGCAATGCCGGCCACCGGGCTGGCGCTGCAATGGCTGGAGTTGTTCCCGAAACTGCAGATCAGTGGCATGACCGGCAGCATCGCCGCCAACTGCACTTTGATTTCGGTGGACGGCGACCATTGGCTGCTGCACCTGGATCCGGCCCACAGCGCGCTGTTCAACGCGACCCAGCAACGTCGCCTGAACGATGCGCTGAACCAATATCACCAGCGCACCCTGACGTTGACCATCGAGCTGATCAAGCCCGAGCAGGAAACCCCGGCCCAGGCTGCATCCCGCCGGCGTGCCGACCGCCAGCGCGAAGCCGAGGAGTCGATCCACAACGATCCGTTCATCCAGCAGATGATGCAACAGTTCGGCGCCGTGGTCCGTCACGATACTATCGAACCTGTCGAGGCCCCGGTTACCCAGGGCTCATAA	MSYQVLARKWRPRSFREMVGQTHVLKALINALDSQRLHHAYLFTGTRGVGKTTIARIIAKCLNCETGITSTPCGECSVCREIDEGRFVDLIEIDAASRTKVEDTRELLDNVQYAPSRGRFKVYLIDEVHMLSSHSFNALLKTLEEPPPYVKFILATTDPQKLPATILSRCLQFSLKNMTPERVVEHLTHVLGVENVPFEDDALWLLGRAADGSMRDAMSLTDQAIAFGEGKVMAADVRAMLGTLDHGQVYDVLHALIEGDAKALLEAVRHLAEQGPDWNGVLSEILNVLHRVAIAQALPEGVDNGHGDRDRVLALAQALPAEDVQFYYQMGLIGRRDLPLAPDPRGGFEMVLLRMLAFRPADTPDAPRQALKPVGISQATADSAKPVAATPVVASAAASAPATVVPIAEPTAVVATPEPVVEAQPEPAVEAPSEPVAEAIIDLPWNDPVEPEIVQQPAVEPVLETVAEQPDLPPMPMPTPDSVVPDAPEWVAAPMPEPTVADVAVATPGIDLDDEPPLDEDYIEPDMDSAYSYLDDLASEHAAEPAPEPEPEPAAMPATGLALQWLELFPKLQISGMTGSIAANCTLISVDGDHWLLHLDPAHSALFNATQQRRLNDALNQYHQRTLTLTIELIKPEQETPAQAASRRRADRQREAEESIHNDPFIQQMMQQFGAVVRHDTIEPVEAPVTQGS				NA	NA	NA	NA	NA
D1-35_00801	339	ybaB	COG0718	Nucleoid-associated protein YbaB	ATGATGAAAGGTGGCATGGCCGGCCTGATGAAGCAGGCGCAGCAGATGCAGGAAAAAATGGCCAAGATGCAGGAAGAGCTGGCCAACGCCGAAGTCACCGGCAAGTCCGGCGGCGACATGGTGACCGTGGTCATGACCGGTCGCCACGACATCAAGCGCGTCAGCATCGACCCGAGCGTGGTCGAGGGCTTGAGCGAAGACGACAAGGAAATGCTCGAGGCCCTGTTTGCCGCCGCCGTCAATGACGCGGTGCGCAAGATCGAAGCCAACAGCCAGGACAAAATGTCCGGCATGACCGCCGGCATGCAACTGCCGCCGGGCATGAAGCTGCCGTTCTGA	MMKGGMAGLMKQAQQMQEKMAKMQEELANAEVTGKSGGDMVTVVMTGRHDIKRVSIDPSVVEGLSEDDKEMLEALFAAAVNDAVRKIEANSQDKMSGMTAGMQLPPGMKLPF				NA	NA	NA	NA	NA
D1-35_00802	1029	curA	COG2130	NADPH-dependent curcumin reductase	ATGTCATCGATTTCCAATCAGCGCATCGTCCTGGCCTCGCGCCCCCAAGGTGCGCCAACCCCGGAAAACTTTCGTCTTGAAGACGTGACGCTGCCGGACCTGGCGGACGGGCAGATCCTGCTAAAGACGCTGTACCTTTCGCTCGATCCTTACATGCGTGGGCGTATGAGTGACGCGCCTTCCTACGCCGCGCCAGTGCAAATCGACGAAGTGATGACCGGTGGCGCCGTCAGTCGTGTGGAGCGCTCGATGCACCCGAAATTCCAGGAAGGTGATCTGGTGGTCGGCGCTACGGGCTGGCAGAGCCACTGCATCAGCGATGGCCGCAACGTCATCCCCATCCCGTCCGGACTCCCCAGCCCCTCGATGGCGCTCGGAGTACTGGGCATGCCGGGCATGACCGCCTACATGGGACTGATGGACATCGGCCAACCCAAGGCAGGCGAGACCCTGGTGGTCGCGGCGGCATCGGGCGCCGTGGGCTCGGTGGTCGGCCAGGTGGCGAAGATCAAGGGGCTGCGAGTGGTGGGCGTGGCCGGTGGCAGTGAAAAATGCAAATACGTGGTCGACGAGTTGGGATTTGACGCCTGCGTCGATCACAAGAGTGCGAATTTCGCCGACGAACTGGCCCGGGCCTGCGACCAGGGCATCGATATCTATTACGAAAACGTCGGTGGCAAAGTCTTCGACGCGGTGGTGCCGCTGCTCAACGCCAAGGCACGCATCCCTCTTTGCGGCTTGATCGCGGCCTACAACGATCATCAGCCGCCAAGCGGTCCGGATCGCTTGCCGCAGCTGCAACGCACGTTGCTGACCAAACGCGTGCGGATCCAGGGCTTCATCGTGTTCGACGACTACGGCGACCGCCAGCCGGAGTTCATCAGCGCGATGGCGCCGTGGGTGCGCGATGGCAAGGTCAAGTTCCGCGAAGATGTGGTGGATGGCCTGGAGAACGCGCCGCAGGCTTTCATCGGGCTGCTGGAAGGGCGCAACTTCGGCAAATTGGTGATACGCGTGTCGAAGGATTGA	MSSISNQRIVLASRPQGAPTPENFRLEDVTLPDLADGQILLKTLYLSLDPYMRGRMSDAPSYAAPVQIDEVMTGGAVSRVERSMHPKFQEGDLVVGATGWQSHCISDGRNVIPIPSGLPSPSMALGVLGMPGMTAYMGLMDIGQPKAGETLVVAAASGAVGSVVGQVAKIKGLRVVGVAGGSEKCKYVVDELGFDACVDHKSANFADELARACDQGIDIYYENVGGKVFDAVVPLLNAKARIPLCGLIAAYNDHQPPSGPDRLPQLQRTLLTKRVRIQGFIVFDDYGDRQPEFISAMAPWVRDGKVKFREDVVDGLENAPQAFIGLLEGRNFGKLVIRVSKD	PGPT0023605_384	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
D1-35_00803	603	recR	COG0353	Recombination protein RecR	ATGAGCTTCAGCCCTTTGATCCGCCAACTGATCGATGCCCTGCGAACCTTGCCGGGTGTGGGTCAGAAAACTGCCCAGCGCATGGCGTTGCAATTGCTTGAGCGTGATCGCAGCGGCGGGTCGCGCCTGGCCCAAGCCCTGAGCCAGGCCATGGAAGGGGTAGGGCATTGCCGCTTATGCCGCACCCTCACCGAAGACGACCTCTGCCCGCAATGTGCCGACCCGCGCCGGGACGACAGCCTGCTCTGCGTGGTGGAGGGGCCGATGGATGTCTACGCGGTGGAGCAGACCGGTTTCCGTGGCCGCTACTTTGTACTCAAGGGGCACTTGTCGCCGCTTGACGGCCTGGGGCCGGAGGCCATCGGCATTCCACAACTGATGGCGCGCATCGAAGAGGCGGGCACGTTCACCGAAGTCATCCTCGCGACGAACCCGACGGTGGAAGGCGAAGCTACCGCCCATTACATCGCTCAGTTGCTGGGCAACAAGGGCCTGGTTGCCTCCCGCATCGCCCATGGCGTGCCATTGGGTGGCGAGCTGGAGCTGGTGGATGGCGGGACGCTGGCGCATTCGTTTGCCGGGCGCAAGCCGATCGCCTTATAG	MSFSPLIRQLIDALRTLPGVGQKTAQRMALQLLERDRSGGSRLAQALSQAMEGVGHCRLCRTLTEDDLCPQCADPRRDDSLLCVVEGPMDVYAVEQTGFRGRYFVLKGHLSPLDGLGPEAIGIPQLMARIEEAGTFTEVILATNPTVEGEATAHYIAQLLGNKGLVASRIAHGVPLGGELELVDGGTLAHSFAGRKPIAL				NA	NA	NA	NA	NA
D1-35_00804	549	apt	COG0503	Adenine phosphoribosyltransferase	ATGGTCTTCGACTCCTTCGACATCAAATCCCTGATCCGCCCGGTAATCGACTTCCCCAAGCCAGGCGTGATCTTTCGCGACATCACCCCACTGTTCCAGTCCCCCACCGCGCTGCGGCTGGTCATGGACAGCTTCGCCCATCGCTACGTCGAGGCCAGCTTCACGCACATCGGCGCGATGGACGCGCGCGGCTTCCTGATCGGCTCGATCCTGGCCTATCAGTTGAACAAACCGCTGGTGCTGTTCCGCAAGCAAGGCAAATTGCCGGCCGACGTGTTGGCCGAGGGTTACCAGACCGAGTACGGCGAGGCTTTCCTGGAGGTCCACGCCGATAGCCTGTGCGAGGGCGATTCGGTGGTGATGTTCGATGACCTGATCGCCACCGGTGGCACGCTGATCGCCGCCGCCAACCTGATCCGCCGCATGCGCGCCACGGTCCATGAAGCCGCCGCGATCATCGACTTGCCGGAATTGCTCGGTTCCCGGCGCTTGGAAGACATGGGCATTCCCACGTTCTGCCTGACCCGGTTTTCGCTTAGCGAAAAATAA	MVFDSFDIKSLIRPVIDFPKPGVIFRDITPLFQSPTALRLVMDSFAHRYVEASFTHIGAMDARGFLIGSILAYQLNKPLVLFRKQGKLPADVLAEGYQTEYGEAFLEVHADSLCEGDSVVMFDDLIATGGTLIAAANLIRRMRATVHEAAAIIDLPELLGSRRLEDMGIPTFCLTRFSLSEK	PGPT0021455_2008	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021455-apt-K00759	NA	NA
D1-35_00805	735	anr		Transcriptional activator protein Anr	ATGTCCGAGCCAGTCAAATCGCGCGCTCATAACCAGGCCCATTGCAAGGACTGCAGCCTGGCCCCTCTGTGCCTGCCACTTTCGTTGAACCTGGAGGACATGGACGCGCTGGACGACATCGTCAAACGAGGCCGTCCGTTGAAAAAAGGCGAGTTCCTGTTCCGCCAGGGCGATGCCTTCGATTCGGTCTACGCCGTGCGCTCGGGCGCCTTGAAGACCTTCAACCTGAGCGACGGTGGCGAAGAACAACTCACCGGTTTCCACTTGCCCAGCGAGCTGGTCGGCCTGTCGGGCATGGACACCGAGACCCATCCGGTCTCGGCCCAGGCGCTTGAGACGACCTCGGTATGCGAGATTCCGTTTGATCACCTGGACGAACTGGCCTTGCAACTGCCGCAACTGCGTCGTCAACTGATGCGCGTGATGAGCCGGGAGATCCGCGACGACCAACAGATGATGCTGCTGCTCTCGAAGAAAACCGCCGACGAGCGCATCGCGACCTTCCTGGTCAACCTCTCGGCGCGTTTCCGCGCCCGTGGTTTTTCGGCCAATCAGTTTCGCCTGAGCATGTCGCGCAACGAGATCGGCAACTACCTGGGCCTGGCGGTGGAAACCGTGTCCCGGGTGTTTACCCGTTTCCAGCAGAGCAAACTGATCGCCGCCGAGGGCAAGGAAATCCATATCCTTGACCCGATCCAGCTCTGCGCGCTGGCCGGAGGCTCGGTCGAAGGCTGA	MSEPVKSRAHNQAHCKDCSLAPLCLPLSLNLEDMDALDDIVKRGRPLKKGEFLFRQGDAFDSVYAVRSGALKTFNLSDGGEEQLTGFHLPSELVGLSGMDTETHPVSAQALETTSVCEIPFDHLDELALQLPQLRRQLMRVMSREIRDDQQMMLLLSKKTADERIATFLVNLSARFRARGFSANQFRLSMSRNEIGNYLGLAVETVSRVFTRFQQSKLIAAEGKEIHILDPIQLCALAGGSVEG	PGPT0000515_1457	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000515-fnr-K01420	NA	NA
D1-35_00806	1383	hemN	COG0635	Oxygen-independent coproporphyrinogen III oxidase	ATGCTCGACGCCATTCGTTGGGACTCAGACCTGATCCGCCGCTACGACCTGGCGGGACCGCGCTATACCTCGTACCCGACCGCGGCCCAGTTCGCCGGCCAGGTGGGCACGTTCGACCTGCTCCATGCCCTGCGCGACAGCCGCAAGGCCCGCAGGCCTTTGTCGCTTTATGTGCACGTGCCGTTTTGCGCGAACATTTGCTACTACTGCGCCTGCAACAAGGTCATCACCAAGGACCGCGGCCGCGCCCATGCCTACCTGCAACGCCTGGAGCAGGAAATCCAGCTGATCGGCTGCCACCTGGACCCGGCCCAGCGCGTGGAACAGTTGCACCTGGGCGGTGGCACGCCAACCTTCCTCAGTCACGACGAGCTGCGCCAGTTGATGGCCAGGCTGCGCGAGAGTTTCAACCTGATGGACGATGACTGCGGTGACTACGGCATCGAGATCGACCCGCGAGAGGCGGATTGGTCGACCATGGGTCTGCTGCGGGAATTGGGTTTCAACCGGGTCAGCATCGGCCTGCAGGACCTTGACCCTACCGTGCAGCGTGCCGTCAACCGCCTGCAAAGCCTGGACGAAACCCGTGCGGTGATCGAAGCCGCCCGGACCCTGCAGTTTCGCTCGATCAACATCGACCTGATCTATGGCTTGCCCAAGCAGACCCCGGAAAACTTCGCCCGCACCGTCGAGGAAGTGATCAGCCTGCAACCGGACCGTCTCTCGGTGTTCAACTACGCCCACCTGCCGGAGCGCTTCATGCCGCAGCGGCGCATCAACAGCCAGGACCTGCCGAATCCTGTGCAGAAACTGGCCATGTTACAAGGCACTATTGAACAGCTGACCGCCGCCGGTTATCGCTACATCGGCATGGACCACTTCGCCCTGCCCGATGACGAACTGGCGATCGCCCAGGAGGAGGCGACCTTACAGCGCAATTTCCAGGGCTACACCACTCACGGCCATTGCGACCTGATCGGCCTCGGGGTCTCGGCCATCAGCCAGATCGGCGACTTGTACTGCCAGAACAGCAGTGACCTGAACCAGTACCAGAACGCCCTCGCCGACGGGCAATTGGCAACCAGCCGGGGCATTGTGTGCAATGCCGACGACAGGCTGCGACGCGCGGTGATCCAACAACTGATCTGCCATTTCAGCCTGGCATTCGCCGAGATCGAGCAAGTCTTCAATATCGATTTCCGGGGGTATTTCGGCTCTATATGGCCGCAACTACAGACGATGAACGACGACGGGCTGGTTGAACTGACGGCTACGCACATCAAGGTACTCCCTGCCGGACGTCTGTTGGTGCGTTCGGTTTGCATGGTATTCGACGCGTATCTGCAGCAGCAGAATCGGCAGCGTTTTTCCCGCGTCATCTGA	MLDAIRWDSDLIRRYDLAGPRYTSYPTAAQFAGQVGTFDLLHALRDSRKARRPLSLYVHVPFCANICYYCACNKVITKDRGRAHAYLQRLEQEIQLIGCHLDPAQRVEQLHLGGGTPTFLSHDELRQLMARLRESFNLMDDDCGDYGIEIDPREADWSTMGLLRELGFNRVSIGLQDLDPTVQRAVNRLQSLDETRAVIEAARTLQFRSINIDLIYGLPKQTPENFARTVEEVISLQPDRLSVFNYAHLPERFMPQRRINSQDLPNPVQKLAMLQGTIEQLTAAGYRYIGMDHFALPDDELAIAQEEATLQRNFQGYTTHGHCDLIGLGVSAISQIGDLYCQNSSDLNQYQNALADGQLATSRGIVCNADDRLRRAVIQQLICHFSLAFAEIEQVFNIDFRGYFGSIWPQLQTMNDDGLVELTATHIKVLPAGRLLVRSVCMVFDAYLQQQNRQRFSRVI	PGPT0003200_1002	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
D1-35_00807	684			hypothetical protein	ATGCTTGACCTGGCGCCAATGCTGGTTTCCGCCGTCATCCTCGGCCTGCTCGGCGGCGGCCATTGCCTGGGCATGTGCGGTGGCCTGATGGGCGCCCTGACCCTGGCGATTCCCAAGGAACAACGCAGCCGCCGCTTGCGACTATTGCTCGCGTACAACCTGGGACGCATCGTCAGCTACGCCGCGGCCGGCCTGCTGATCGGCCTGGCCGGCTGGGCCGTGGCGAACAGCCCGGCGGCGATGATCCTGCGCGTGCTGGCCGGTTTACTGATGATTGTCATGGGACTTTACCTGGCGGGCTGGTGGAGCGGCCTGACCCGTATCGAAAGCCTGGGCCGTGGTTTGTGGCGGCGTATCCAACCCATCGCCAACCGCCTGCTGCCGGTGTCGAGCCTGCCCCGGGCCCTGCTGCTCGGCGCGCTGTGGGGCTGGCTGCCCTGCGGACTGGTCTACAGCACCCTGCTGTGGTCCGCCAGCCAGGGTAACGCGGTGGACAGTGCACTGCTGATGCTCGCCTTCGGCCTGGGCACCTGGCCGGTCCTGCTCGCCACCGGCCTCGCGGCAGAGCGCGTCACGGCACTGCTGCGCAAACGCAGCGTGCGCATGGCTGGGGGGTTGCTGGTGATTGTCTTCGGCATCTGGACATTGCCGGGGCCGCATCAGCATTGGCTCATGGGGCATTGA	MLDLAPMLVSAVILGLLGGGHCLGMCGGLMGALTLAIPKEQRSRRLRLLLAYNLGRIVSYAAAGLLIGLAGWAVANSPAAMILRVLAGLLMIVMGLYLAGWWSGLTRIESLGRGLWRRIQPIANRLLPVSSLPRALLLGALWGWLPCGLVYSTLLWSASQGNAVDSALLMLAFGLGTWPVLLATGLAAERVTALLRKRSVRMAGGLLVIVFGIWTLPGPHQHWLMGH				NA	NA	NA	NA	NA
D1-35_00808	219			hypothetical protein	ATGCCAGCTCTCTACGTGATGATCCCGGCCGCACTGTTGATCGTGGCCGTCGCCGTCTACATTTTCTTCTGGGCCGTGGACAGCGGCCAATACGATGACCTCGACGGCCCGGCCCATAGCATCCTGTTCGACGACCAGGACCCGAACCACAAGGCGGCCGTCGAGGAAGCCAGCAGCGCGGACCACAAACCGGACGACAAGGCGCCGCCCCATGCTTGA	MPALYVMIPAALLIVAVAVYIFFWAVDSGQYDDLDGPAHSILFDDQDPNHKAAVEEASSADHKPDDKAPPHA				NA	NA	NA	NA	NA
D1-35_00809	2451	copA_1		putative copper-importing P-type ATPase A	ATGACCACTCCACAGCCCTGCTACCACTGCGCCCTGCCCGTCCCGCCCGGCAGTCGCTTCACCGCCGTTGTCCTCGGTGAGACCCGCGAGCTGTGTTGCCCCGGTTGCCAGGCGGTGGCCGAAGCGATCGTTGCCGGCGGCCTTGAGCATTATTACCAACACCGCAGCGAAGCGTCGGCCAACCCACAAACCCTGCCCGTTCAATTGACCGACGAGCTGGCGTTGTACGATCGCCCCGATGTGCAGCAATCGTTCGTCCGCCATGAAGGTGAGCTGGCCGAAACGACTCTGCTGATGGAAGGCATCAGTTGCGCCGCCTGCGGCTGGCTGATCGAAAAGCAATTGCGCAGCCTGCCGGCCGTGGCCGAGGCGCGGTTGAACCTGTCGAACCACCGCCTGCACGTACGCTGGGCCGACGCGCAACTGCCGCTGAGCACGCTGCTCGCCGAACTGCGCCAAATCGGCTATGCCGCGCACCCGTACCAGGCCGATCAGGCCAGCGAGCAGCTCGCCGCGCAAAACCGCCTGGCCCTGCGTCAATTGGGCGTGGCCGGGTTGCTGTGGTTCCAGGCAATGATGGCGACGATGGCGACCTGGCCCGAATTCAACATCGACCTGAGCCCGGAGATGCACACCATCCTGCGCTGGGTCGCACTGTTTCTCACCACGCCTATCGTGTTCTACAGTTGCGCGCCGTTTTTCAAAGGTGCGCTGCGAGATTTGCGCACCCGCCACCTGACCATGGACGTTTCGGTGTCCTTGGCCATCGGCGGCGCCTACGTCGCCGGGATCTGGACCTCCATCACCGGGGTGGGCGAGCTGTACTTCGATGCGGTCGGCATGTTCGCCCTGTTCCTGCTCGCCGGCCGCTACCTGGAACGCCGGGCCCGGGAGCGCACTGCTGCGGCCACCGCCCAACTGGTCAACCTGCTGCCAGCGTCGTGCCTGCGCCTGGACGAGCGCGGCCAGAGCGAACGCATCCTGCTCAGCGAACTGCGCACCGGTGACCGGGTGCTGGTCCAACCCGGAGCGATCCTGCCCGCCGATGGCACGATTCTCGACGGCCAGTCCAGCGTCGACGAATCGCTGCTGACCGGCGAATACCTGCCGCAACCGCGCCAGGCAGGCGACGCGGTAACGGCAGGCACGCTCAACGTCGAAGGCGCCCTGACGGTCGAGGTACGGGCGTTGGGACAGGACACGCGGTTATCGGCCATCGTGCGCCTGCTGGAACGGGCCCAGGCCGAAAAGCCACGACTGGCGGAAATCGCCGACCGCGCCGCCCAATGGTTCCTGCTGTTCTCCCTGGTCGCAGCGGCGGCCATCGGCCTGTTGTGGTGGCAGCTGGATGCTTCGCGTGCGTTCTGGATCGTCCTGGCGATGCTGGTCGCGACCTGTCCTTGTGCGCTGTCCCTGGCGACACCAACCGCTCTGACAGCTGCCACCGGAACCCTGCACAAACTCGGCCTGCTGCTGACGCGTGGTCATGTGCTGGAAGGCCTTAACCAGATCGACACGGTGATTTTCGACAAGACCGGCACCCTCACGGAAGGTCGCCTGGCGTTACGCGCCATCAGGCCATTGGCCGCCCTCGACGGTGATCAATGCCTGGGCTTGGCCGCGGCCTTGGAAAACCGTTCGGAACACCCCATCGCCCGAGCTTTTGGTCGCGCACCGTTGGCCGCCGAACAGGTACACAGCAGCCCAGGGCTGGGACTCGAAGGCCTGGTCGCCGAACAACGCCTGCGCATCGGCCAGCCCGGTTTTGTCTGCGGACTGAGCGGCTCGGCCGTACCGCCGATGCCGGACGAACCCGGACAATGGCTGTTGCTGGGCGACGACATCGGGCCACTGGCCTGGTTTGTCCTCGATGACCGCCTGCGCGCTGATGCGCCGGCGCTGCTCGCCGCCTGCAAGGCGCGGGGCTGGCGTACGCTATTGCTCTCCGGCGACAGCTCGCCGATGGTGGCCAGTGTCGCCGCCGAGCTGGGCATCGACGAGGCCCGCGGCGGCTTGCGTCCGGACGACAAGCTGGCCGTGCTCCAGCAGTTGCACCAGCAGGGTCGCAAGGTGCTGATGCTCGGTGATGGCGTGAATGACGTGCCGGTGCTGGCGGCGGCGGACATCAGTGTCGCCACGGGTTCGGCCACCGACCTTGCCAAGACCAGCGCCGACGCAGTGCTGCTGTCCAACCGCCTCGATGCCCTGATTCATGCATTCGGCCTGGCCCGGCGTACCCGCCGCGTGATCATTGAGAACCTGATCTGGGCAGGGCTGTACAATGGCCTCATGTTGCCGTTCGCCGCCCTCGGCTGGATCACGCCGGTGTGGGCCGCGGTCGGCATGTCCATCAGTTCGTTGACCGTGGTGCTGAATGCCTTGCGGCTGACCCGCCAACCGCGAGCGCAGGTTGGCGAAACCACGCCCGATACCCGTCCGCTGCCGGCCTGA	MTTPQPCYHCALPVPPGSRFTAVVLGETRELCCPGCQAVAEAIVAGGLEHYYQHRSEASANPQTLPVQLTDELALYDRPDVQQSFVRHEGELAETTLLMEGISCAACGWLIEKQLRSLPAVAEARLNLSNHRLHVRWADAQLPLSTLLAELRQIGYAAHPYQADQASEQLAAQNRLALRQLGVAGLLWFQAMMATMATWPEFNIDLSPEMHTILRWVALFLTTPIVFYSCAPFFKGALRDLRTRHLTMDVSVSLAIGGAYVAGIWTSITGVGELYFDAVGMFALFLLAGRYLERRARERTAAATAQLVNLLPASCLRLDERGQSERILLSELRTGDRVLVQPGAILPADGTILDGQSSVDESLLTGEYLPQPRQAGDAVTAGTLNVEGALTVEVRALGQDTRLSAIVRLLERAQAEKPRLAEIADRAAQWFLLFSLVAAAAIGLLWWQLDASRAFWIVLAMLVATCPCALSLATPTALTAATGTLHKLGLLLTRGHVLEGLNQIDTVIFDKTGTLTEGRLALRAIRPLAALDGDQCLGLAAALENRSEHPIARAFGRAPLAAEQVHSSPGLGLEGLVAEQRLRIGQPGFVCGLSGSAVPPMPDEPGQWLLLGDDIGPLAWFVLDDRLRADAPALLAACKARGWRTLLLSGDSSPMVASVAAELGIDEARGGLRPDDKLAVLQQLHQQGRKVLMLGDGVNDVPVLAAADISVATGSATDLAKTSADAVLLSNRLDALIHAFGLARRTRRVIIENLIWAGLYNGLMLPFAALGWITPVWAAVGMSISSLTVVLNALRLTRQPRAQVGETTPDTRPLPA				NA	NA	NA	NA	NA
D1-35_00810	540			hypothetical protein	ATGCCTGCAGCAACCGCCACCAGCCCTTGGTACAAGCACCTCTGGCCGTGGATCATCATCGGGATCCTCGCTTGCTCGGTGACGCTGAGCCTGACCATGGTGACCATCGCGGTGAAGAACCCGGACAACCTGGTCAATGACAACTATTACGAAGCCGGCAAGGGCATCAATCGCTCGCTGGAACGCGAACTGCTGGCCCAGACCCTGCAGTTGCATGCCAACGTGCAATTGGACGACCTCACCGGTGAAGTGAGCCTGCGCCTGAACGGCAACAGCCGGCCCCAGACCGTGGAGCTGAGCCTGATCTCCCCAACGCAGCCGGAGAAAGACCGCAAGATCCTGTTGACCCGCAACGACAGCGAACCAGGACGCTACGTCGGCCAACTGGCGGACAAGATCGAAGGTCGGCGTTTTGTCGAATTGCTGGGTGTGGAACACGATCGGACCTGGCGCTTGTTCGAAGAAGAACAGATCAGCCACGGCCAGGACATCCAGCTTGGCGACGAGCCGCTGCAAGGCGCTGAAGACCTGAAAAAGTAG	MPAATATSPWYKHLWPWIIIGILACSVTLSLTMVTIAVKNPDNLVNDNYYEAGKGINRSLERELLAQTLQLHANVQLDDLTGEVSLRLNGNSRPQTVELSLISPTQPEKDRKILLTRNDSEPGRYVGQLADKIEGRRFVELLGVEHDRTWRLFEEEQISHGQDIQLGDEPLQGAEDLKK				NA	NA	NA	NA	NA
D1-35_00811	1416			hypothetical protein	ATGAGCAACCAGATTCCGGTACATGACGTTACCCCGCCTGCCAAGGACGCCAACAAAAGCGTCGACCTCTATGCATCTCGGGAAAAAATCTACACCCGCGCCTTCACTGGCCTGTTTCGCAACCTGCGCATGGTCGGTGGGGCGGTTCTGTTCCTGCTGTATTTCGGTACCGTCTGGCTGAACTGGGGCGGTCATCAGGCTGTCTGGTGGAACCTGCCGGAACGCAAATTCTTTATTTTCGGCGCGACCTTCTGGCCCCAGGACTTCATCCTGCTCTCGGGGCTGCTGATCATCGCGGCCTTCGGCCTGTTTTTCATTACCGTCTATGCCGGTCGGGTCTGGTGTGGCTATACCTGCCCACAAAGCGTATGGACGTGGATTTTCATGTGGTGCGAAAAGGTCACCGAAGGCGACCGCAACCAACGCATCAAGCTCGACAAAACGCCCATGAGCGCCAACAAATTCCTGCGCAAGTTCGCCAAGCACAGCCTGTGGCTGCTGATCGGTTTTGTCACCGGCATGACCTTCGTTGGCTACTTCACCCCGATCCGTGAGCTGGTCTTCGAGTTCTTCACCGGCCAGGCCGATGGCTGGTCGTATTTCTGGGTCGGTTTCTTCACCCTCGCCACCTATGGCAACGCCGGCTGGCTGCGTGAGCAAGTGTGCATCTACATGTGCCCGTACGCCCGCTTCCAGAGCGTGATGTTCGACAAGGACACCCTGATCGTCTCCTACGACCCGCGTCGCGGCGAAGCCCGGGGCCCGCGCAAGAAAGGCATCGACTACAAGGCGCTGGGCCTGGGGGACTGCATCGATTGCACCATGTGCGTCCAGGTCTGCCCTACCGGCATCGACATCCGCGACGGCCTGCAGATCGAATGCATCGGCTGCGCAGCCTGCATTGATGCCTGCGACAACATCATGGACAAGATGGATTATCCCCGCGGCCTGATCAGCTACACCACGGAACACAACCTCTCGGGGCAGAAAACCCATAAACTGCGCCCGCGCCTGATCGGTTATGCCCTGGTGCTGCTGGCAATGATCAGCCTGTTGGTGACCGCGTTCTTCATGCGCTCGCTGGTGGGTTTCGACGTCAGCAAGGACCGCGTGCTGTACCGCGAGAACGCCGAAGGCCGGATCGAGAACGTCTACAGCCTGAAGATCATGAACAAGGACCAGCGTGACCATACCTACGTGCTGGAAGCCACCGGTTTGCCTGATCTGAAGCTGCAGGGTAAACGGGAGATCAAGGTCGCGGCCGGTGATATCTACAGCCAGCCGGTAGAGCTATCCAGCGCACCGGAACAATTGCCGTCCAGCACCAATGAGGTGACCTTCATCCTCAAGGATGCCGATGACGACAGCGTCCATGTTGAAGCCAAGAGCCGGTTCATCGGCCCACAGACTCGTTGA	MSNQIPVHDVTPPAKDANKSVDLYASREKIYTRAFTGLFRNLRMVGGAVLFLLYFGTVWLNWGGHQAVWWNLPERKFFIFGATFWPQDFILLSGLLIIAAFGLFFITVYAGRVWCGYTCPQSVWTWIFMWCEKVTEGDRNQRIKLDKTPMSANKFLRKFAKHSLWLLIGFVTGMTFVGYFTPIRELVFEFFTGQADGWSYFWVGFFTLATYGNAGWLREQVCIYMCPYARFQSVMFDKDTLIVSYDPRRGEARGPRKKGIDYKALGLGDCIDCTMCVQVCPTGIDIRDGLQIECIGCAACIDACDNIMDKMDYPRGLISYTTEHNLSGQKTHKLRPRLIGYALVLLAMISLLVTAFFMRSLVGFDVSKDRVLYRENAEGRIENVYSLKIMNKDQRDHTYVLEATGLPDLKLQGKREIKVAAGDIYSQPVELSSAPEQLPSSTNEVTFILKDADDDSVHVEAKSRFIGPQTR				NA	NA	NA	NA	NA
D1-35_00812	411	fitB		Toxin FitB	ATGTTCCTGCTCGATACCAACGTCATCTCGGAGCTGCGCAAGCCCCAGGCCGATAAAAACGTACAAGCCTGGGCGCGCAGTGTCCCCGCTCCCAGCCTGTATGTTTCGGCCATCACCGTGTTGGAACTGGAAACCGGAGTCTTGCGCTTTGAGCGCAAGGACCCGGCGCAAGGCAGCCGTTTGCGTGCATGGCTGAATAACCACGTCATGCCCGCGTTTGCCGGCAGGATCCTCGCGGTCGACCGCGCCGTGGCCCTGCGTTGCGCCCGCCTGCATGTCCCGGACCGCAGCAATGAGTGCGATGCGCTGATCGCCGCCACGGCGCTGGTCCATGGGCTGACCGTGGTAACCCGCAACGTGGCGGATTTCAGAAGCAGCGGCGTGGCGCTGATCAACCCATGGGTTAGCTAG	MFLLDTNVISELRKPQADKNVQAWARSVPAPSLYVSAITVLELETGVLRFERKDPAQGSRLRAWLNNHVMPAFAGRILAVDRAVALRCARLHVPDRSNECDALIAATALVHGLTVVTRNVADFRSSGVALINPWVS	PGPT0027670_646	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-FitB-FitA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027670-toxin_fitB|vapC-K07062	NA	NA
D1-35_00813	270			hypothetical protein	ATGGGGGACGCCGCCGTGTCCATCACCACCATTTCCAGCCGCGAGTTCAACCACGACACAAGCGGTGCCAAAAAAGCTACCCGAGAAGGCCCGGTCATTATCACCGACCGTGGCAAGCCGGCCCATGTGCTGCTAAGCATTGAGGAGTACCAGAAACTGACCGGCGCTGGCACCAGCATCGTCGAGTTGCTGGTCATGCCCGATGCGCCGGATATCGACTTCGATCCCGAGCGCGCCGTCATCACGCCCCGCTCGGTGGACCTGTCCTGA	MGDAAVSITTISSREFNHDTSGAKKATREGPVIITDRGKPAHVLLSIEEYQKLTGAGTSIVELLVMPDAPDIDFDPERAVITPRSVDLS				NA	NA	NA	NA	NA
D1-35_00814	984	ccoP2	COG2010	Cbb3-type cytochrome c oxidase subunit CcoP2	ATGACTACGTTCTGGAGTCTGTACGTCACAGTCCTCAGCCTGGGAACGATCTTCGCCCTGACCTGGCTGCTGCTGTCGACCCGCAAGGGCCAGCGCAGCGAAGCCACCGAGGAAACGGTTGGCCACTCCTTCGACGGGATCGAGGAGTACGACAACCCGCTGCCGAAATGGTGGTTCATGCTGTTCATCGGCACCATCGTGTTCGCCCTTGGTTACCTGGTGCTCTACCCTGGCCTGGGCAACTGGAAAGGCCTGCTGCCAGGCTATAACTACCTGGACACCGAAAAGCAGACCCCCTTCGCCAACGGCCAGACCGGCTGGACCGGCGTGCACGAGTGGGAAAAGGAAATGGCCCGCTCGGATGCCAGATTCGGTCCGATCTTCGCCAAGTTTGCCTCCATGCCGATTGAAGAAGTCGCCAAGGACCCGCAGGCCCTGAAGATGGGTGGCCGCCTGTTTGCCTCCAACTGCTCGGTCTGCCACGGCTCCGACGCCAAGGGCGCCTACGGCTTCCCTAACCTGACCGACGCCGACTGGCGCTGGGGTGGCGAGCCGGAGACCATCAAGACCACCATCATGGGCGGTCGTCATGCCGTCATGCCGGGCTGGGCTGCCGTGGTTGGCGAACAAGGCGTCGCCGACGTGGCTGCCTATCTGGTAACCGGCCTGCACAGCCGCAAACTGCCGGAAGGCGCCAAGGCCGATCCGGCCAACGGCCAGAAGCTGTTCGCCGCCAACTGCGTGGCCTGCCACGGCCCCGCCGGCAAAGGCACGCCCGCCATGGGCGCACCCGACCTGACGCACCCGGCCGGTTTCATCTACGGTTCGAGCTTCGCTCAGTTGCAGCAGACCATCCGCTACGGTCGCCAAGGCCAGATGCCGGCCCAGGCCGATCTGCAGGGCAACGACAAGGTCCACCTGCTGGCTGCCTATGTCTACAGCCTGTCCCACGGCGAAAAGGCTCCGGCTGCTGACGCTCAGTAA	MTTFWSLYVTVLSLGTIFALTWLLLSTRKGQRSEATEETVGHSFDGIEEYDNPLPKWWFMLFIGTIVFALGYLVLYPGLGNWKGLLPGYNYLDTEKQTPFANGQTGWTGVHEWEKEMARSDARFGPIFAKFASMPIEEVAKDPQALKMGGRLFASNCSVCHGSDAKGAYGFPNLTDADWRWGGEPETIKTTIMGGRHAVMPGWAAVVGEQGVADVAAYLVTGLHSRKLPEGAKADPANGQKLFAANCVACHGPAGKGTPAMGAPDLTHPAGFIYGSSFAQLQQTIRYGRQGQMPAQADLQGNDKVHLLAAYVYSLSHGEKAPAADAQ	PGPT0000153_166	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000153-fixP|ccoP-K00406	NA	NA
D1-35_00815	174			hypothetical protein	ATGATTCGTGGCCTGGGCACCGTCGTCGTGATGGTGGCCTTTATCGGCCTGGCCCTGTGGGTGTTCAGCCCCAAGCGCAAGTCGGAGTTCGAAGACGCGACCTTGCTGCCGTTCGCGGATGATCCCGAAGCCATCAAGCACGTCGAGCAAGCTTCTAGGAGTAACAAAGAATGA	MIRGLGTVVVMVAFIGLALWVFSPKRKSEFEDATLLPFADDPEAIKHVEQASRSNKE	PGPT0000154_514	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000154-fixQ|ccoQ-K00407	NA	NA
D1-35_00816	609			hypothetical protein	ATGAAGCACGAAGCAGTAGAGAAGAATATCGGCCTGCTGGCCTTCTTCATGGTCATCGCCGTCAGCATTGGCGGCCTGACCCAGATCGTTCCGCTGTTCTTCCAGGATGTCACCAACAAGCCGGTCGAAGGCATGAAGCCGCGCACCGCCCTTGAACTGGAAGGCCGCGACGTCTACATCGCCAACGGTTGTGTCGGCTGCCACTCGCAGATGATCCGTCCGTTCCGTGCTGAAACCGAACGCTACGGTCACTATTCCGTTGCTGGTGAAAGCGTCTGGGACCACCCGTTCCTGTGGGGCTCCAAGCGCACCGGTCCGGACCTGGCCCGCGTCGGTGGTCGCTACTCCGATGACTGGCAGCGTGCGCACTTGTACAACCCGCGCAACGTAGTGCCTGAATCGAAGATGCCGGCCTACCCGTTCCTCGTAGAAAACAAGCTCGACGGCAAAGACACCGCCAAGAAAATGGAAGTCCTGCGCGCCCTCGGCGTGCCCTACACCGACGAAGACATCGCCGGAGCCAGGGATGCCGTGAAAGGCAAGACTGAAATGGACGCGCTGGTGGCCTATCTGCAAGGCCTGGGCACCATCATCAAAAGCAAACGGTGA	MKHEAVEKNIGLLAFFMVIAVSIGGLTQIVPLFFQDVTNKPVEGMKPRTALELEGRDVYIANGCVGCHSQMIRPFRAETERYGHYSVAGESVWDHPFLWGSKRTGPDLARVGGRYSDDWQRAHLYNPRNVVPESKMPAYPFLVENKLDGKDTAKKMEVLRALGVPYTDEDIAGARDAVKGKTEMDALVAYLQGLGTIIKSKR	PGPT0000152_1314	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000152-fixO|ccoO-K00405	NA	NA
D1-35_00817	1443	ccoN1_1	COG3278	Cbb3-type cytochrome c oxidase subunit CcoN1	ATGAGCACAGCAATCAGTCCGACTGCTTATAACTATAAGGTAGTCCGCCAGTTCGCCATCATGACGGTGGTCTGGGGGATCCTTGGCATGGGGCTCGGTGTCTTCATCGCCTCGCAACTGGTCTGGCCGGAGTTGAACTTCGATCTGCCATGGACGACATTTGGACGCCTGCGCCCGCTGCACACCAACCTGGTGATCTTCGCCTTCGGTGGCTGTGCGTTGTTTGCCACCTCCTACTACGTCGTGCAGCGAACCTGCCAGACGCGACTGATTTCCGACAGCCTCGCCGCCTTCACCTTCTGGGGTTGGCAAGCGGTGATCGTCGGCGCGATCGTGACCTTGCCAATGGGTTTCACCACCACCAAGGAATACGCGGAACTGGAATGGCCCCTGGCTATTCTGCTCGCCATTGTCTGGGTGACCTACGGTCTGGTGTTCTTCGGCACCATCGTCAAGCGCAAGACCAAGCACATCTACGTCGGCAACTGGTTCTACGGTGCATTCATCGTCGTGACCGCCATGCTGCACATCGTCAACCACGCGTCGCTGCCGGTCAGCTTCTTCAAGTCCTACTCGGCCTACTCGGGCGCGACCGACGCGATGATCCAGTGGTGGTACGGCCACAACGCCGTGGGCTTCTTCCTGACCACCGGCTTCCTGGGGATGATGTACTACTTCGTGCCGAAACAGGCCGAGCGTCCGATCTATTCCTATCGCCTGTCCATCGTGCACTTCTGGGCGCTGATCACCCTGTACATCTGGGCCGGTCCGCACCACCTGCACTACACCGCGCTGCCGGACTGGGCGCAATCCCTGGGCATGGCAATGTCGATCATCCTGCTGGCGCCAAGCTGGGGCGGCATGATCAACGGCATGATGACCCTGTCGGGCGCCTGGCATAAGCTGCGCACCGACCCGATCCTGCGCTTTCTGGTGGTATCCCTTGCGTTCTACGGCATGTCGACCTTCGAAGGTCCGATGATGGCGATCAAGACCGTCAACTCCCTGAGCCACTACACCGACTGGACCATCGGCCACGTACACGCCGGTGCGCTCGGCTGGGTCGCGATGATCTCCATCGGCGCCATCTACCACATGATCCCGAAACTGTTCGGTCGTGCGCAGATGCACAGCACCGGCCTGATCAACGCGCACTTCTGGCTCGCCACCATCGGTACCGTGCTCTACATCGCCTCGATGTGGGTCAACGGCATCACCCAGGGCCTGATGTGGCGCGCGATCAACGACGACGGCACCCTGACCTATTCGTTCGTCGAAGCACTGCAAGCCAGCCACCCCGGTTTCATCGTCCGTGCCCTGGGCGGCGCGTTCTTCGCCAGCGGCATGCTGCTGATGGCCTACAACGTGTATCGCACCGTTCGTGCCTCTGACCCGGTTGAAGCAGAAGCCGCCGCCAAGATCGCCGTAGTTGGAGCTCACTGA	MSTAISPTAYNYKVVRQFAIMTVVWGILGMGLGVFIASQLVWPELNFDLPWTTFGRLRPLHTNLVIFAFGGCALFATSYYVVQRTCQTRLISDSLAAFTFWGWQAVIVGAIVTLPMGFTTTKEYAELEWPLAILLAIVWVTYGLVFFGTIVKRKTKHIYVGNWFYGAFIVVTAMLHIVNHASLPVSFFKSYSAYSGATDAMIQWWYGHNAVGFFLTTGFLGMMYYFVPKQAERPIYSYRLSIVHFWALITLYIWAGPHHLHYTALPDWAQSLGMAMSIILLAPSWGGMINGMMTLSGAWHKLRTDPILRFLVVSLAFYGMSTFEGPMMAIKTVNSLSHYTDWTIGHVHAGALGWVAMISIGAIYHMIPKLFGRAQMHSTGLINAHFWLATIGTVLYIASMWVNGITQGLMWRAINDDGTLTYSFVEALQASHPGFIVRALGGAFFASGMLLMAYNVYRTVRASDPVEAEAAAKIAVVGAH	PGPT0001055_1017	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0001055-fixN|ccoN-K00404	NA	NA
D1-35_00818	954	ccoP1		Cbb3-type cytochrome c oxidase subunit CcoP1	ATGAGCACTTTCTGGAGTACGTGGATCTGCGTGCTGACCCTCGGCAGCCTCATCGGCCTGACCTGGCTGCTGATCGGCACCCGCAAGGGCGAGACCAAGGGCAGCGTCGACCAGACCATGGGCCACAGCTTCGACGGCATCGAGGAGTACGACAACCCCTTGCCGCAATGGTGGTTCCTGCTGTTTGCCGGCACCCTGGTGTTCTCCGTCGGCTACCTGATCCTGTATCCCGGCCTGGGCAACTGGAAAGGTATCCTGCCCGGCTACGAAAATGGCTGGACCGGCGCCCACGAATGGGAAAGGGAAATGGCCAGGGCCGACGCCAGGTTCGGGCCGATCTTCGCCAAATTCGCCGCAATGCCGGTGGAAGAGGTTGCCAAGGACCCGCAAGCCTTGAAAATGGGGGGCCGCCTGTTCGCCTCCAACTGCTCGGTCTGCCATGGCTCGGACGCCAAGGGCGCCTTCGGCTTTCCGAACCTGGCCGACAGCAACTGGCGCTGGGGCGGCACTGCCGAGACCATCAAGGCAACCATCATGGGCGGTCGCATGGCGGCAATGCCGGCCTGGGGTGAAGTGCTGGGGGACGCCGGGGTCAGGAACGTCGCCGCCTATGTGCGCCACGACCTGGCTGGCCTGCCTCTACCGGCCGACAGCGGTGCCGACCTGCAAGCCGGCCAGCAAGCCTTCAACACCACTTGCGTGGCTTGCCACGGCGCCAACGGCCAGGGCACCGAAGCCATGGGCGCGCCGAACCTGACGCAACCGGCCGGTTTCATCTACGGCACCAGCCTGGCGCAGTTGCAGCAGACCATCCGCCATGGCCGTCAGGGCCATATGCCGGCGCAGAATGAACTGCTCGGCAACGACAAGGTGCAACTGCTCGCCGCCTACGTCTACAGCCTTTCCCACGGCGCCGGTACCGAGCGCCTGCAAGCTGAACGCGAAGGCGAATAA	MSTFWSTWICVLTLGSLIGLTWLLIGTRKGETKGSVDQTMGHSFDGIEEYDNPLPQWWFLLFAGTLVFSVGYLILYPGLGNWKGILPGYENGWTGAHEWEREMARADARFGPIFAKFAAMPVEEVAKDPQALKMGGRLFASNCSVCHGSDAKGAFGFPNLADSNWRWGGTAETIKATIMGGRMAAMPAWGEVLGDAGVRNVAAYVRHDLAGLPLPADSGADLQAGQQAFNTTCVACHGANGQGTEAMGAPNLTQPAGFIYGTSLAQLQQTIRHGRQGHMPAQNELLGNDKVQLLAAYVYSLSHGAGTERLQAEREGE	PGPT0000153_418	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000153-fixP|ccoP-K00406	NA	NA
D1-35_00819	201			hypothetical protein	ATGTTCCTTGAAATGAGCACTGGAATGATTCGCGGCCTGGGCACGGTCGTGGTGTTTGTGGCCTTCATCGGCCTGACCCTTTGGGTATTCAGCAGCAAGCGCGGCCCGGAATTCGCCCAGGCGCGCCTGCTGCCGTTCGCCGACGAGCCGCCCGCTGACGCTACCCCCCAAGACCCCGCACCAAGGAGTACCCGGTCATGA	MFLEMSTGMIRGLGTVVVFVAFIGLTLWVFSSKRGPEFAQARLLPFADEPPADATPQDPAPRSTRS	PGPT0000154_233	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000154-fixQ|ccoQ-K00407	NA	NA
D1-35_00820	609			hypothetical protein	ATGAAACACGAAACAATCGAAAAAAACGTCGGCCTGCTGATGCTGCTGATGGTCCTGGCCGTGAGTGTCGGCGGCCTGACCCAGATCGTGCCGCTGTTCTTCCAGGACGTGACCAACAAACCGGTGGACGGCATGAAGCCCTACACCGCTCTGCAGCTTGAAGGCCGCGATATCTATATCCGCGAAGGCTGCGTCGGCTGCCACTCGCAGATGATCCGTCCGTTCCGCGCCGAAACCGAACGTTACGGGCACTACTCCGTCGCTGGCGAAAGCGTCTGGGACCACCCCTTCCTGTGGGGTTCCAAGCGCACCGGCCCGGACCTGGCCCGGGTCGGCGCGCGCTACTCCGATGACTGGCATCGCGCCCACCTGTACAACCCGCGCAACGTCGTCCCCGAGTCGAAAATGCCGGCCTACCCATGGCTGGTGACCCAGGCGGTCGACAGCAGCCACACCGAAGGCAAGCTGCGCGCCATGCGCACCCTCGGTGTGCCGTACAGCGACGACGACATTGCAGGCGCGGCAGCCTCGCTCAAGGGCAAGACCGAGATGGACGCACTGGTGGCCTACCTGCAAGTGCTCGGCACTGCCATCAAGAGCAAGAGGTAA	MKHETIEKNVGLLMLLMVLAVSVGGLTQIVPLFFQDVTNKPVDGMKPYTALQLEGRDIYIREGCVGCHSQMIRPFRAETERYGHYSVAGESVWDHPFLWGSKRTGPDLARVGARYSDDWHRAHLYNPRNVVPESKMPAYPWLVTQAVDSSHTEGKLRAMRTLGVPYSDDDIAGAAASLKGKTEMDALVAYLQVLGTAIKSKR	PGPT0000152_1386	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000152-fixO|ccoO-K00405	NA	NA
D1-35_00821	1425	ccoN1_2	COG3278	Cbb3-type cytochrome c oxidase subunit CcoN1	ATGAACACTTCAATCAGTACCGCCTACAACTACAAGGTGGTCCGCCAATTCGCCATTATGACGGTGGTGTGGGGCATCGTCGGCATGGGCCTCGGGGTTTTTCTCGCGGCCCAATTGGTCTGGCCACAGCTCAATTTCGATTTGCCCTGGACCAGCTTCGGCCGCCTGCGCCCACTGCACACCAACGCGGTGATTTTCGCCTTCGGCGGCTGCGCCCTGTTCGCCAGTTCGTTCTACTCGGTGCAACGCACCTGCCAGACCCAGCTGTTTGCACCGAAACTCGCCGCGTTCTGCTTCTGGGGCTGGCAACTGGTGATCCTGCTGGCGGCCATCAGCCTGCCACTGGGCTACACCAGTTCCAAGGAGTATGCCGAGCTCGAGTGGCCAATCGACATTCTCATCACCATTGTCTGGGTCGCCTACGCCATCGTGTTCTTTGGCACCGTGGCCAAGCGAAACACCAAACACATCTACGTCGGCAACTGGTTTTTCGGCGGGTTCATCCTGACCGTGGCGCTCCTGCACATCGTCAACAACCTGGAACTGCCGGTGAGCCTCACCAAATCCTACTCGGTGTATGCCGGCGCCACGGACGCGATGGTGCAGTGGTGGTACGGGCACAACGCCGTGGGCTTTTTCCTCACCGCCGGTTTCCTCGGGATGATGTACTACTTCGTGCCGAAACAGGCCGAGCGCCCGGTGTATTCCTATCGCTTGTCCATCGTGCACTTCTGGGCGCTGATTACCCTGTACATCTGGGCCGGCCCGCACCATCTGCACTACACAGCGCTGCCGGACTGGGCACAGTCGCTGGGCATGGTGATGTCACTGATCCTGCTGGCGCCCAGTTGGGGCGGCATGATAAACGGCATGATGACCCTCTCGGGGGCCTGGCATAAATTGCGCAGCGACCCGATCCTGCGCTTTCTCGTGGTATCCCTCGCGTTCTACGGCATGTCGACCTTCGAAGGCCCGATGATGGCGATCAAAACCGTCAACGCCCTCTCCCACTACACCGACTGGACCATCGGCCACGTTCATGCCGGCGCGCTCGGCTGGGTGGCGATGATTTCCATCGGTGCGCTGTACCACATGATCCCGAAAGTCTTCGGCCGGGCGCAGATGCACAGTATCGGCCTGATCAACGCGCACTTCTGGCTCGCGACCATCGGTACCGTGCTGTACATCGCCTCGATGTGGGTCAACGGCATCGCCCAGGGGCTGATGTGGCGTGCGGTGAACGAGGACGGCACGCTCACCTACTCCTTCGTCGAAACCCTGGTGGCCAGCCACCCCGGCTTCATCGTGCGGTTGGCGGGTGGGGCGATCTTCCTCGCCGGCATGCTGCTGATGGCCTACAACACCTGGCGCACCGTGCGGGCCTACCAGCCTGCCGAAGCCGCCGCTGCCGCGCAGATGGCTTGA	MNTSISTAYNYKVVRQFAIMTVVWGIVGMGLGVFLAAQLVWPQLNFDLPWTSFGRLRPLHTNAVIFAFGGCALFASSFYSVQRTCQTQLFAPKLAAFCFWGWQLVILLAAISLPLGYTSSKEYAELEWPIDILITIVWVAYAIVFFGTVAKRNTKHIYVGNWFFGGFILTVALLHIVNNLELPVSLTKSYSVYAGATDAMVQWWYGHNAVGFFLTAGFLGMMYYFVPKQAERPVYSYRLSIVHFWALITLYIWAGPHHLHYTALPDWAQSLGMVMSLILLAPSWGGMINGMMTLSGAWHKLRSDPILRFLVVSLAFYGMSTFEGPMMAIKTVNALSHYTDWTIGHVHAGALGWVAMISIGALYHMIPKVFGRAQMHSIGLINAHFWLATIGTVLYIASMWVNGIAQGLMWRAVNEDGTLTYSFVETLVASHPGFIVRLAGGAIFLAGMLLMAYNTWRTVRAYQPAEAAAAAQMA	PGPT0001055_1486	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0001055-fixN|ccoN-K00404	NA	NA
D1-35_00822	693			hypothetical protein	ATGAACAAACAGCACAAGGCCAGTATTGACGGGGATCAATGGGCGCGATGCGTGACCGAGCGCGGCTGGTTGTGGACAGCCGCGAAACCCGGTGCTGGCGCCGAATCGCCGACGCTGATTTTGGCCCATGGTGCGGGTGCGCCGATGGACAGCGGCTTCATGAACGAAATGGCCGCGCGCCTTGCCGCGCAAGGCATCAATGTGTTGCGCTTCGAGTTTCCCTACATGGCCCAACGGCGCCTGGACGGCGGCAAGCGCCCACCCAACCCGGCGCCTAAGCTGCTGGAATGCTGGCGTGAGGTCTACGCCACGGTGCGACCCTATGTCGCTGGGCGGCTGGCGATTGGCGGAAAATCCATGGGCGGGCGCATGGCAAGCCTGGTGGCCGATGAGCTGGGTGCCGATGCGCTGGTGTGCCTCGGGTATCCCTTCTATGCCGTGGGCAAACCGGAAAAACCGCGGGTCGAGCATTTGGCGGCGTTGAACACCCGGGCGCTGATTGTCCAGGGCGAGCGGGATGCGCTGGGTAATCGTGAGGCGGTCGAAGGTTATGCCTTGTCACCTGGCATCGAAGTGCTGTGGTTGGCGGCCGGGGATCATGACTTGAAGCCGCTGAAGGCTTCGGGATTCAGTCACGAGCAGCATCTGGAGGCGGCGGCGCAGAGAGTGGCTGGGTTCTTGTCTCAAGATTGA	MNKQHKASIDGDQWARCVTERGWLWTAAKPGAGAESPTLILAHGAGAPMDSGFMNEMAARLAAQGINVLRFEFPYMAQRRLDGGKRPPNPAPKLLECWREVYATVRPYVAGRLAIGGKSMGGRMASLVADELGADALVCLGYPFYAVGKPEKPRVEHLAALNTRALIVQGERDALGNREAVEGYALSPGIEVLWLAAGDHDLKPLKASGFSHEQHLEAAAQRVAGFLSQD				NA	NA	NA	NA	NA
D1-35_00823	1566	aer_1	COG0840	Aerotaxis receptor	ATGCGTAACAACCAACCTATTACACAGCGCGAAAGGACCTTCCCGGCCCAGCAAAGATTGATTTCCACCACCAATACCAAGGGTGTGATCACCTACTGCAACGACGCGTTCGTTGAAATCAGCGGGTTCTCGAAGGAAGAGCTGATCCATGCACCGCACAACCTGGTACGCCATCCCGACGTTCCGTCGGCCGTGTTTGCCCACATGTGGGACACGCTGAAACAAGGCTTGCCATGGATGGGCATCGTCAAGAACCGCTGCCAGAACGGTGACCATTACTGGGTCAACGCCTACGTCACGCCTGTATTCGAAGGCAATCAGGTGGTCGGCTATGAATCGGTACGGGTCAAACCCAGCGCCGAGCAGATCTCCCGAGCCGAAGCGCTCTATCAACGCATCAACCAGGGCAAGGCCGCGGTACCCGGCAGCGACAAATGGCTGCCGATCCTGCAGGACTGGCTGCCATTCATCCTGGTCAGCCAGTTGAGCTTCGTCGTTGGCGCGTTCCTCAACTCTTCCTGGGGCTTCGCCCTGGCTGCGCTGCTGTCGGTGCCGTTGGGGTTGATGGGCCTGCAATGGCAGCAACGCGGGATCAAGCGCCTGCTGCGCCTGGCCGAACAGACCACTTCCGACCCGTTGATCGCGCGGATGTACACCGACAGCCGCGGTGTCCAGGCACGCCTGGAGATGTCGATTCTCAGCCAGGAAGCGCGCCTGAAGACCTGCCTGACCCGCCTGCAGGACACCGCCGAACATCTCAACGCGCAAGCGCGGCAATCCAATTCCCTGGCCCACGACAGTTCCACAGGCCTTGAGCGCCAGCGGGTGGAAACCGAACAGGTGGCCACCGCTGTCAACCAGATGGCCGCGACCACCCAGGAAGTCGCCAGCCACGTGCAGCGCACCGCCGATGCCACCCAGGAGGCCAATCGCCTGACCAGTCGCGGTCGTGACATTGCCGGAGAAACCCGTGAAGCCATCGAACGCCTGTCGGTGGTAGTGGGCGAGACCGGGCAGACCGTGACCCAGCTGGCCAAGGACAGCGACGAAATCGGTGGTGTGGTCGACGTGATCAAGGGCATTGCCGACCAGACCAACCTGCTGGCGCTCAACGCCGCCATTGAAGCGGCCCGCGCCGGTGAAATGGGTCGCGGCTTTGCCGTAGTGGCCGACGAAGTGCGGCAACTGGCCCAGCGTACCAGCGAATCCACCGGGCAGATCCATGCCCTGATCGCCAAGCTTCAACAGACCGCCAACAACGCCGTACAGACCATGGACGCTGGCCATCGCCAGGCCGAAGAAGGCGTGGCGCGGGTCATGGAAGCGGACCAGGCGCTCGTCGGGATCAGCGAAGCCGTGGCCCACATCACCGACATGACCACCCAGATCGCGGCTGCCACCGAGGAGCAGAGCTCGGTGGCTGAGGAGATCAGCCGCAACATCAGCAACATCTCGGAACTGGCCGACCAGACCTCGGGACAGGCCCACAGCTCGGCGCTGCTCAGCGAAGAACTGACTCGAACGGCCAATACCCAGTATTCGTTGGTGGAGCGGTTCAACCGCTGA	MRNNQPITQRERTFPAQQRLISTTNTKGVITYCNDAFVEISGFSKEELIHAPHNLVRHPDVPSAVFAHMWDTLKQGLPWMGIVKNRCQNGDHYWVNAYVTPVFEGNQVVGYESVRVKPSAEQISRAEALYQRINQGKAAVPGSDKWLPILQDWLPFILVSQLSFVVGAFLNSSWGFALAALLSVPLGLMGLQWQQRGIKRLLRLAEQTTSDPLIARMYTDSRGVQARLEMSILSQEARLKTCLTRLQDTAEHLNAQARQSNSLAHDSSTGLERQRVETEQVATAVNQMAATTQEVASHVQRTADATQEANRLTSRGRDIAGETREAIERLSVVVGETGQTVTQLAKDSDEIGGVVDVIKGIADQTNLLALNAAIEAARAGEMGRGFAVVADEVRQLAQRTSESTGQIHALIAKLQQTANNAVQTMDAGHRQAEEGVARVMEADQALVGISEAVAHITDMTTQIAAATEEQSSVAEEISRNISNISELADQTSGQAHSSALLSEELTRTANTQYSLVERFNR	PGPT0015700_781	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	METHYL-ACCEPTING_CHEMOTAXIS_PROTEINS,PGPT0015700-aer-K03776	NA	NA
D1-35_00824	789			hypothetical protein	ATGCTCTCCCTACCCTGGCCGTACCTGGCCCTTCTCTCGATCGGTTATGGCCTGGCCCTCGCGTACGGCCATCTGGCCTGGACTGCCATCATCTCGGTCGCGCTACTGCTGTTCGCCGGGTACGCGGTTCGCCAGCGGCAGACGCCGGTCGGGCAGTTTCTCGGGCATTGCCTGTTCATCGTCCTGGCGGTCGCGTTGGCATTGCATTGGATGCCGGGTTTCTTCAACAGCCGGGCGATCGCGGCGCAACGCTTCAGCGATGACGCCGTGCGGTTTGCGATGTATCTGAACCAGGACAAGCCCCTGATCGGTTTCTGGCTGTTGCTGGCATGCCCCTGGATCGTTGGCCGCCGCTCGTTTCGTGGCGCTGTCTACGGCACGGCCCTGGGGCTTGCGCTAAGCGCGATAATGGCCTTGGGCGGGGCGATGTTGCTGGGCATGATCCATTGGGCACCGAAATGGCCGGACCAGGCCTGGATCTGGGTGCTCAACAATCTTTTGTTGGTGACCTTGGTCGAGGAAGCACTGTTTCGTGGCTACATCCAGGGCGGCCTGAGCCGACGCTTCAAACATCTGCGCCATGGCGACAACCTCGCATTGCTGCTGGCCTCGCTGCTGTTCGGCCTGGTGCATGCCGGTGCCGGCTGGCAGTGGGTATTGCTGTCGGGGCTGGCCGGGATCGGTTATGGCCTCGCCTATCGGTTTGGCGGCCTGGGCGCGGCGATTGCCACACATTTCGGCCTCAATCTGCTGCATTTCGCCCTGTTTACTTACCCGATGCTGGCGTGA	MLSLPWPYLALLSIGYGLALAYGHLAWTAIISVALLLFAGYAVRQRQTPVGQFLGHCLFIVLAVALALHWMPGFFNSRAIAAQRFSDDAVRFAMYLNQDKPLIGFWLLLACPWIVGRRSFRGAVYGTALGLALSAIMALGGAMLLGMIHWAPKWPDQAWIWVLNNLLLVTLVEEALFRGYIQGGLSRRFKHLRHGDNLALLLASLLFGLVHAGAGWQWVLLSGLAGIGYGLAYRFGGLGAAIATHFGLNLLHFALFTYPMLA				NA	NA	NA	NA	NA
D1-35_00825	2742	acnA	COG1048	Aconitate hydratase A	ATGCCGTCCCTCGATAGCCTGAAAACCCTTAAAACATTGCAAGTCGACGCCAGGACTTATCACTATTTCAGCTTGCCGGACGCCGCGCGAAGCCTCGGTGATCTGGATAAACTGCCAATGTCCCTCAAGGTGCTGCTGGAAAACCTGCTGCGCTGGGAAGATGAAAAAACCGTCACCGGCGCCGACCTCAAGGCCCTGGCCGGTTGGCTCAAGGAGCGCCGCTCCGACCGCGAGATCCAGTATCGCCCGGCACGAGTGCTGATGCAGGACTTTACCGGCGTGCCCGCCGTGGTCGACCTGGCCGCCATGCGCGCCGCCGTGGAAAAGGCCGGAGGCGATCCCCAGCGAATCAACCCGTTGTCACCGGTCGACCTGGTGATCGACCACTCGGTGATGGTGGACAAGTTCGCCAGCCGCCAGGCCTTCGAGCAGAACGTCGACATCGAAATGCAGCGCAACGGCGAACGTTATGCCTTCCTGCGCTGGGGCCAGAGTGCCTTCGACAACTTCAGCGTGGTGCCACCGGGCACCGGCATCTGCCATCAGGTGAACCTGGAATACCTGGGTCGCACCGTCTGGACCAAAGAGGAAGACGGCCGCACCTACGCCTTCCCCGACACGCTAGTCGGCACCGACTCTCACACCACCATGATCAATGGCCTCGGCGTGCTCGGCTGGGGCGTCGGCGGGATCGAGGCGGAAGCGGCGATGCTCGGCCAACCGGTATCGATGCTGATCCCCGAGGTTGTCGGTTTCAAGCTCACCGGCAAGCTGCGCGAAGGTATCACCGCGACCGACCTGGTGCTGACCGTCACGCAGATGCTGCGCAAGAAGGGTGTGGTGGGCAAATTCGTCGAGTTTTATGGCGACGGTCTCGCCGACCTGCCCCTGGCCGACCGCGCCACCATCGCCAACATGGCCCCGGAATACGGCGCCACGTGCGGTTTCTTCCCGGTGGACGATGTAACGCTGGATTACTTGCGCCTGTCCGGGCGCCCCGCAGAAACCGTGAAACTGGTGGAAGCCTATTGCAAGGCTCAGGGCCTGTGGCGCCTGCCTGGCCAGGAACCGGTGTTCACCGACACGCTGGAACTGGACATGGGCAGCGTCGAGGCCAGCCTCGCCGGCCCCAAGCGTCCCCAGGATCGGGTCTCGCTGCCGAATGTCGGCCAAGCCTTCAGTGATTTCCTCGGCTTGCAGATCAAACCCACCAGCAAGGACGAGGGCCGCCTGGAAAGCGAAGGCGGCGGAGGCGTCGCGGTAGGCAATGCCGATCAGGTAGGGGAAGCCGAGTACGAATTCGAAGGCCAGACCCATCGCCTGAAAAACGGCGCGGTGGTGATTGCCGCCATCACCTCTTGCACCAACACCTCCAACCCCAGCGTGATGATGGCCGCCGGGCTGGTGGCAAAAAAAGCCGTGGAAAAAGGCCTGACGCGCAAGCCCTGGGTCAAGAGCTCCCTGGCGCCTGGCTCCAAGGTGGTGACCGACTACTACAACGCCGCGGGCCTGACCGAGTATCTCGACAAGCTCGGCTTCGACCTGGTGGGCTACGGCTGCACAACCTGTATCGGCAACTCCGGCCCTCTGCCCGACCCCATCGAAAAAGCCATCCAGAAAGCCGACCTGACCGTGGCTTCGGTGCTGTCGGGTAACCGCAACTTCGAGGGCCGGGTGCATCCACTGGTGAAAACCAACTGGCTGGCCTCGCCGCCATTGGTGGTCGCCTACGCCCTGGCCGGCACCGTGCGCATCGATATCAGCAGCGAACCGCTGGGCAACGACCGGGACGGCAATCCGGTCTACCTGCGCGACATCTGGCCGAGCAGCAAGGAAGTAGCCGACGCCGTGGCCCAGGTCGACACCAGCATGTTCCACAAGGAATACGCCGCCGTGTTCGCCGGTGACGAACAGTGGCAAGCCATCGAAGTGCCGCAGGCGGCTACTTATGTATGGCAAGACGACTCGACCTACATCCAGCATCCGCCATTCTTCGACGACATCGGCGGGCCGCCACCGGTGGTCAGGAATGTCGAGGGCGCGCGCGTCCTTGCGCTGCTCGGAGACTCGGTGACCACCGACCATATCTCGCCAGCCGGCAATATCAAGACAGACAGCCCTGCCGGCCGTTACTTGCGCGAACAAGGCGTGGAACCGCGGGACTTCAACTCCTACGGCTCGCGACGGGGCAATCATCAGGTGATGATGCGCGGCACCTTCGCCAATATCCGTATCCGCAACGAGATGCTCGGCGGCGAAGAAGGCGGCAATACGATCTATATCCCCAACGGCGAAAGAATGTCGATCTACGATGCGGCCATGTTGTACCAGGCCACCGGCACGCCTCTGGTGGTCATTGCCGGGCAGGAATATGGCACCGGTTCGAGCCGGGACTGGGCGGCCAAGGGTACCAACCTGCTGGGCGTGAAGGCCGTGATCGCCGAAAGCTTCGAACGCATTCACCGCTCCAACCTGGTGGGCATGGGCGTGCTGCCGCTGCAATTCAAGCTCGATCAGAATCGCAAGAGCCTGAACCTCACTGGCAGGGAGACCCTTGATATCCTCGGGCTGAGCGATGCCGAGCTGACGCCGCGCATGAATCTGCCGGTGGTCATCACCCGCGAGGATGGCAGCCAGGAGCGGATTGAAGTGTTGTGCCGGATCGACACCTTGAACGAAGTGGAATATTTCAAGGCTGGCGGGATCCTGCATTTTGTCCTGCGGCAATTGATTGCAGGATAA	MPSLDSLKTLKTLQVDARTYHYFSLPDAARSLGDLDKLPMSLKVLLENLLRWEDEKTVTGADLKALAGWLKERRSDREIQYRPARVLMQDFTGVPAVVDLAAMRAAVEKAGGDPQRINPLSPVDLVIDHSVMVDKFASRQAFEQNVDIEMQRNGERYAFLRWGQSAFDNFSVVPPGTGICHQVNLEYLGRTVWTKEEDGRTYAFPDTLVGTDSHTTMINGLGVLGWGVGGIEAEAAMLGQPVSMLIPEVVGFKLTGKLREGITATDLVLTVTQMLRKKGVVGKFVEFYGDGLADLPLADRATIANMAPEYGATCGFFPVDDVTLDYLRLSGRPAETVKLVEAYCKAQGLWRLPGQEPVFTDTLELDMGSVEASLAGPKRPQDRVSLPNVGQAFSDFLGLQIKPTSKDEGRLESEGGGGVAVGNADQVGEAEYEFEGQTHRLKNGAVVIAAITSCTNTSNPSVMMAAGLVAKKAVEKGLTRKPWVKSSLAPGSKVVTDYYNAAGLTEYLDKLGFDLVGYGCTTCIGNSGPLPDPIEKAIQKADLTVASVLSGNRNFEGRVHPLVKTNWLASPPLVVAYALAGTVRIDISSEPLGNDRDGNPVYLRDIWPSSKEVADAVAQVDTSMFHKEYAAVFAGDEQWQAIEVPQAATYVWQDDSTYIQHPPFFDDIGGPPPVVRNVEGARVLALLGDSVTTDHISPAGNIKTDSPAGRYLREQGVEPRDFNSYGSRRGNHQVMMRGTFANIRIRNEMLGGEEGGNTIYIPNGERMSIYDAAMLYQATGTPLVVIAGQEYGTGSSRDWAAKGTNLLGVKAVIAESFERIHRSNLVGMGVLPLQFKLDQNRKSLNLTGRETLDILGLSDAELTPRMNLPVVITREDGSQERIEVLCRIDTLNEVEYFKAGGILHFVLRQLIAG	PGPT0001465_1395	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
D1-35_00826	1074	rlmM	COG2933	Ribosomal RNA large subunit methyltransferase M	ATGAACACGCTTTTTATGCACTGCCGACCGGGCTTCGAAGGCGAGGTCTGTTCCGAGATCGCCGAACATGCCGCGCGGCTGAACGTGGCCGGCTACGCCAAGGCCAAGCCGGCCAGCGCCTGCGCCGAATTCGTCTGCACTGAAGAGGACGCCGCCGAGCGGCTGATGCGTGGGCAGCGCTTTGCCGAGCTGATTTTCCCGCGCCAATGGGCGCGTGGCTCGTTCATCGAGTTGCCGGAGACCGACCGCATCAGCGTCATCCTCGCCCATCTGGCGGCTTTCCCGACGTGCGGCAGCCTGTGGCTGGAAGTGGTCGATACCAACGACGGCAAAGAGCTTTCGAACTTCTGCAAGAAATTCGAAGGTCCGTTGCGCAAGGCCTTGAGTGGCGCCGGCAAGCTGGTGGACGACCCGCACAAGCCGCGCCTGCTGCTGACGTTCAAGAGTGGCCGCGAAGTGTTCCTTGGCCTGGCGGAAGCCGACAATTCGGCAATGTGGCCGATGGGTATTCCGCGGCTTAAATTCCCTCGGGAAGCGCCGAGCCGCTCGACCCTCAAACTCGAAGAGGCCTGGCACCATTTCATCCCCCGTGACCAATGGGACGAGCGGCTGCACAGCGACATGACCGGCGTGGACCTCGGCGCCGCGCCGGGTGGCTGGACCTGGCAATTGGTCAACCGGGGCATGCTGGTGACGGCCATCGACAACGGTCCGATGGCTGAAAGCCTGATGGACACCGGCCTGGTGCAGCACTTGATGGCGGACGGCTTCACGTTCAAGCCCAAGCAGCCGGTGGACTGGATGGTCTGTGACATCGTCGAAAAACCCGCGCGCAATGCGGCGATGCTGGAAGAGTGGATTGGCGAGGGGCATTGCCGTGAGGCGGTGGTCAACTTGAAACTACCGATGAAGCAGCGTTACGCCGAGGTGAAGCGTCTGCTCGAACGCATCGCCGAGGGTTTCAAGGCCCGGGGTATCAAGGTCGAGATTGGCTGCAAGCAGCTGTATCACGACCGTGAGGAAGTGACGTGCCATCTGCGGCGGCTGGATAGCAGGAAGCCGAAGTCTCGCTAA	MNTLFMHCRPGFEGEVCSEIAEHAARLNVAGYAKAKPASACAEFVCTEEDAAERLMRGQRFAELIFPRQWARGSFIELPETDRISVILAHLAAFPTCGSLWLEVVDTNDGKELSNFCKKFEGPLRKALSGAGKLVDDPHKPRLLLTFKSGREVFLGLAEADNSAMWPMGIPRLKFPREAPSRSTLKLEEAWHHFIPRDQWDERLHSDMTGVDLGAAPGGWTWQLVNRGMLVTAIDNGPMAESLMDTGLVQHLMADGFTFKPKQPVDWMVCDIVEKPARNAAMLEEWIGEGHCREAVVNLKLPMKQRYAEVKRLLERIAEGFKARGIKVEIGCKQLYHDREEVTCHLRRLDSRKPKSR				NA	NA	NA	NA	NA
D1-35_00827	252	tusA_1	COG0425	Sulfur carrier protein TusA	ATGAGTGAAATGAACGAAACGCCGGTCGACGGCACGCTGGACGCCACCGGTCTCAACTGTCCGGAGCCGGTGATGATGCTGCATCAGCATATCCGTGACCTGGCCCCCGGCGGACTGCTGAAAGTCATTGCCACCGACCCGTCGACGCGCCGTGATATCCCCAAGTTTTGCGTGTTTCTCGACCACGAACTGGTCAGCCAGGATGAAGTGGACGGCACCTACCGCTACTGGATCCGCAAGAAGCTCGCTTAA	MSEMNETPVDGTLDATGLNCPEPVMMLHQHIRDLAPGGLLKVIATDPSTRRDIPKFCVFLDHELVSQDEVDGTYRYWIRKKLA				NA	NA	NA	NA	NA
D1-35_00828	1404	norM	COG0534	Multidrug resistance protein NorM	GTGAATCCTGTGATCGACACCGCCACCACTCTCTCCCGCCCTGCCCGGGTGCGCCTGGAGCTCAAGACCCTGCTGGCCCTGGCCCTGCCGATCATGGTGGCGCAATTGGCGACCACCGCCATGGGCTTTGTCGACGCGGTGATGGCCGGCCGGGTCGGGCCGCGGGATCTCGCGGCGGTGGCGCTGGGCAACTCGATCTGGGTTCCGGTATTCCTGTTGATGACCGGCACGCTGTTGGCTACCACCCCGAAGGTGGCCCAGCGTTTCGGTGCCGGTACGTTTGAACAGATCGGTCCATTGGTGCGTCAGGCATTGTGGCTGGCACTCGCGGTGGGGCTGATCGCAACGTTGGCGCTGCTCAGCGCCGAACCGATCCTGCATGTCATGAAAGTCGATCCCGAACTGATCGGCCCTTGCATGGAATACCTGCGCGGCATCGGCAGCGGTCTTCCGGCGGTGGCGCTCTATTACGTGCTGCGCTGCTTCAGCGACGGCCTGGGGCGTACGCGACCGGCGATGGTGCTGGGGCTGTGCGGGCTGGCCCTGAACATTCCGCTCAACTACATCTTCATCTATGGACACCTGGGCGTCCCCGCCATGGGCGGTGTCGGCTGCGGCTGGGCCACGGCCATCGTGATGTGGTTCATGGCGGCGGGCATGGCCGCCTGGACACGCTGGGGCCCGATCTATCAATCGAGTCAGCTGTTCAGCCGTTTCGACTGGCCGCAATGGTCAGTCATCAAGCGCCTGCTCGGCATCGGCCTGCCGATCGGCATCGCGGTGTTTGCCGAATCTAGCATCTTCGCGGTCATCGCCCTGCTGATCGGCAGCCTCGGTGCCACGGTGGTGGCCGGACACCAGATCGCCCTGAATTTCAGCTCGCTGGTGTTCATGATCCCCTATTCCCTGGGCATGGCCGTGACCGTACGGGTCGGCCAGGCGCTGGGGCGTAGCCAGCCTCGGGAAGCGCGCTTTGCAGCGGGTGTCGGCATGGCCACGGCCCTGGCGTACGCCTGCCTGTCGGCGAGCCTGATGTTCGCGTTGCGCGGGCCTATCGCGGCGATCTATACCGCCGACCCCGTGGTGATCGAAGTGGCATCGATGCTGATCGTCTACGCGGCGCTGTTTCAGTTTTCCGATGCCATCCAGGTCACGGCGGCGGGCGCGCTGCGCGGTTACCAGGACACCCAGGTGACGATGATCCTGACGCTCTTCGCTTACTGGGGCATCGGCTTGCCGGTGGGTTATGCCCTGGGCCTGACCGACTGGCTCGGCACCGCCAGCGGCCCAAGCGGATTGTGGCAGGGTCTGATCGTGGGATTGAGCTGCGCGGCGTTGATGCTGTCGATCCGACTGACGCGCAGTGCCCGTGGGCAGATTCGCATCAGTCGCTCGACAGGTTAA	MNPVIDTATTLSRPARVRLELKTLLALALPIMVAQLATTAMGFVDAVMAGRVGPRDLAAVALGNSIWVPVFLLMTGTLLATTPKVAQRFGAGTFEQIGPLVRQALWLALAVGLIATLALLSAEPILHVMKVDPELIGPCMEYLRGIGSGLPAVALYYVLRCFSDGLGRTRPAMVLGLCGLALNIPLNYIFIYGHLGVPAMGGVGCGWATAIVMWFMAAGMAAWTRWGPIYQSSQLFSRFDWPQWSVIKRLLGIGLPIGIAVFAESSIFAVIALLIGSLGATVVAGHQIALNFSSLVFMIPYSLGMAVTVRVGQALGRSQPREARFAAGVGMATALAYACLSASLMFALRGPIAAIYTADPVVIEVASMLIVYAALFQFSDAIQVTAAGALRGYQDTQVTMILTLFAYWGIGLPVGYALGLTDWLGTASGPSGLWQGLIVGLSCAALMLSIRLTRSARGQIRISRSTG	PGPT0029115_5906	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
D1-35_00829	1143	pdxB	COG0111	Erythronate-4-phosphate dehydrogenase	ATGCTGATCGTTGCCGACGAAAACATTCCCTTGCTCGATGCGTTTTTTCAAGGTTTTGGTGAAATCCGCCGGGTGCCGGGGCGGGGCATCGACCGGGCGTTGGTCGAGCAGGCTGACGTGCTGCTGGTGCGTTCGGTCAGCCAGGTCAATCGGGCGCTGCTGGAAGGCAGCAAGGTGCGTTTTGTCGGGACCTGCACCATCGGCACCGATCACCTGGACCTGGAATATTTCGCCGAAGCCGGCATCCGCTGGGCCAGTGCCCCGGGCTGTAACGCCCGCGGTGTGGTGGACTATGTGCTGGGCAGTCTCATGACCCTGGCGGAAATCGAAGGCGCGGATCTTGCGCAGCGCACCTTTGGCGTCGTCGGCGCGGGGCAGGTGGGCGGGCGATTGATCAAGGTACTCAAAGACCTGGGCTGGGTCGTGAAAGTCTGTGATCCGCCGCGCCAGGCTGCCGAAGGCGGCGATTACCTGAGCCTGGAGCAGATTATCGAGCAGTGCGATGTGATCAGCCTGCACACACCCCTGACCCGCGATGGCGAGCAACCGACCTGGCACCTTTTCGACGAGCAACGATTGAACAACCTCAAGCCGGGGACCTGGTTGATCAACGCCGCTCGCGGCCCGGTCATCGACAACACGGCGCTGCGCGAGGTGCTGCTGGAGCGCGAAGATCTGCAAGCGGTGCTGGATGTCTGGGAGCGGGAGCCGACAGTCGACGTCGATCTGGCCGACCTCTGCGTGATCGCCACTCCGCACATCGCCGGCTATAGCCTTGACGGTCGCCAGCGTGGCACGGCGCAGATTTATGAAGCCTTGTGCGGATTCCTGCAGCGGCCGGTGGAAGTCAGCCTGGCCGAGCTGTTGCCACGGCCGTGGCTCGCCGGCCTCACGCTGGATGCCGCCACCGACCCGGCCTGGGCCCTGGCGGCGTTGTGCCGGAGCGTTTACGACCCGCGCCGTGACGATGCGGACTTTCGCCGCAGCCTTATCGGCACCGACAGCGAGCAACGTAGCGCCTTTGATGCCTTGCGCAAGCATTATCCGCCACGCCGGGAAATCGACAGCTTGAAGGTGCGGATCGAAGGGCAATCGCCGACGTTGGAAAATATCGTGGCAGCCCTGGGCGCCACCATTGCTTGA	MLIVADENIPLLDAFFQGFGEIRRVPGRGIDRALVEQADVLLVRSVSQVNRALLEGSKVRFVGTCTIGTDHLDLEYFAEAGIRWASAPGCNARGVVDYVLGSLMTLAEIEGADLAQRTFGVVGAGQVGGRLIKVLKDLGWVVKVCDPPRQAAEGGDYLSLEQIIEQCDVISLHTPLTRDGEQPTWHLFDEQRLNNLKPGTWLINAARGPVIDNTALREVLLEREDLQAVLDVWEREPTVDVDLADLCVIATPHIAGYSLDGRQRGTAQIYEALCGFLQRPVEVSLAELLPRPWLAGLTLDAATDPAWALAALCRSVYDPRRDDADFRRSLIGTDSEQRSAFDALRKHYPPRREIDSLKVRIEGQSPTLENIVAALGATIA	PGPT0009150_251	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0009150-pdxB-K03473	NA	NA
D1-35_00830	180			hypothetical protein	ATGTCCTTGCAACACAGCAGCGAAGACAAGATTCAAGTGATCCGCACGCAACCGGACCAGTCCCTGGGCTGCTCGTTCATCGATGCCCAAGGGCGCGAAGTACCGATCACCGAAGACATGATCCAGAAAGCCTGCAGCGAACTGGAAAAACGACTGGTCAAACCTGCCGAACAAAAGTGA	MSLQHSSEDKIQVIRTQPDQSLGCSFIDAQGREVPITEDMIQKACSELEKRLVKPAEQK				NA	NA	NA	NA	NA
D1-35_00831	1773		COG1132	Putative multidrug export ATP-binding/permease protein	ATGCTTTCTTCCCGACAACGCCGTGCCATACGCCTGGCCAGCGGCTTCATTGCTCCTTACCGCAAACAGGTCTTTGGCGCTTTGCTGGCCCTGATCGTCACCGCCGGCATTACCTTGTCCATGGGGCAGGGTATCCGGTTGCTGGTGGATCAGGGTTTCATGACGCGCTCGCCGCATCTGCTCAATCAATCGATCGGGTTGTTCATGGTCCTGGTGGCGGGGTTGGCGGTCGGTACGTTTGCCCGTTTCTACCTGGTGTCGTGGATTGGCGAGCGGGTGGTGGCCGATATCCGCCGACAGGTTTTCAACCACCTGGTGTATCTGCATCCCGGGTTCTACGAAAACAACCGCAGTTCGGAAATCCAGTCACGCCTGACCGCCGACACCACGCTGCTGCAATCGGTGATCGGTTCGTCGTTGTCACTGTTTCTGCGCAACGCGCTGATGGTGGTCGGAGGCATCGTGCTGCTGTTCGTCACCAATCCCAAGCTCACCAGCATCGTGGTGATTGCGCTGCCGCTGGTGCTGGCGCCGATCCTGGTCTTTGGCCGGCGAGTGCGCAGCCTGTCCCGCGAAAGCCAGGACCGCATCGCCGATGTCGGCAGTTACGTTTCCGAAACCCTCGGCCAGATCAAGACGGTGCAGGCCTATAACCACCAGGTCCAGGACGAGCACCGTTTCGCTGCTACCGTGGAGCAGGCCTTCGACACTGCCCGCAAGCGCATCGCCCAGCGCGCCTGGTTGATTACCCTGGTGATCGTTCTGGTACTGGGTGCGGTGGGCGTAATGCTCTGGGTCGGTGGCATGGACGTGATCGCCGGGCGCATTTCCGGCGGTGAGCTGGCGGCATTCGTGTTCTACAGCCTGATTGTCGGGAGCGCTTTCGGTACGCTCAGCGAAGTGATCGGCGAGCTGCAGCGGGCGGCCGGCGCCGCGGAGCGAATTGCCGAGTTGCTGCGTTCGCAGAACATCATCCAGCCGCCGGCGACGGGCCTTGTCACGTTGCCGCAGCGGGTCAGGGGCGACCTGCGCCTTGAAGGTGTACGGTTTTCCTACCCGTCGCGGCCGGAAAGCTACGCGGTCGATGGTCTGGACCTTAGCGTCAACGCTGGCGAAACCGTTGCGCTGGTCGGCCCGTCCGGGGCGGGCAAATCCACCGTGTACGATCTGCTGCTGCGATTCTACGATCCAGTGCAGGGGCAGATATACCTCGATGGTGTGCCGCTGACCTTGCTTGACCCGTTGGACCTGCGTCGTCACTTCGCCCTGGTCTCGCAGAGCCCGGCACTGTTCTTCGGTACGGTGGAAGAAAATATTCGCTACGGCAATCCGCAAGCCACCGACGAACAGGTGCGCGAAGCGGCGCGGATCGCTCACGCCCATGACTTCATCGAGAAAATGCCGGATGGCTACCAGACCCATCTGGGCGATGGCGGCCTGGGTTTGTCCGGTGGCCAGCGCCAACGCCTGGCCATCGCCCGGGCACTGCTGATCGACGCGCCGATCCTGCTGTTGGACGAAGCCACCAGCGCGCTCGATGCACAAAGCGAACACCTCATCCAGCAAGCCCTGCCCAGCCTGATGAAAAACCGCACCACCCTGGTCATCGCCCACCGCCTGGCCACGGTGAAAAATGCCGACCGGATCGCGGTAATGGACCAGGGCAGGGTAGTCGCCGTGGGCACTCATCAGGAGTTGGTGGCGAGTAATGCGCTGTATGCGCGGTTGGCGGCGTTGCAGTTCAACGTTAGCTTGGAGTCGGCAGCCGACTGA	MLSSRQRRAIRLASGFIAPYRKQVFGALLALIVTAGITLSMGQGIRLLVDQGFMTRSPHLLNQSIGLFMVLVAGLAVGTFARFYLVSWIGERVVADIRRQVFNHLVYLHPGFYENNRSSEIQSRLTADTTLLQSVIGSSLSLFLRNALMVVGGIVLLFVTNPKLTSIVVIALPLVLAPILVFGRRVRSLSRESQDRIADVGSYVSETLGQIKTVQAYNHQVQDEHRFAATVEQAFDTARKRIAQRAWLITLVIVLVLGAVGVMLWVGGMDVIAGRISGGELAAFVFYSLIVGSAFGTLSEVIGELQRAAGAAERIAELLRSQNIIQPPATGLVTLPQRVRGDLRLEGVRFSYPSRPESYAVDGLDLSVNAGETVALVGPSGAGKSTVYDLLLRFYDPVQGQIYLDGVPLTLLDPLDLRRHFALVSQSPALFFGTVEENIRYGNPQATDEQVREAARIAHAHDFIEKMPDGYQTHLGDGGLGLSGGQRQRLAIARALLIDAPILLLDEATSALDAQSEHLIQQALPSLMKNRTTLVIAHRLATVKNADRIAVMDQGRVVAVGTHQELVASNALYARLAALQFNVSLESAAD				NA	NA	NA	NA	NA
D1-35_00832	1929	slt	COG0741	Soluble lytic murein transglycosylase	ATGCGCAGTCGCCTTTTCAGTGTCTTATCTTGTTTGTTTGTGTGTGCCACTGCCGTTCAGACCGCCCAGGCGGTGGATATTTCCACCCAGCGCCAGTATTACGATGAGGCCAAGCGCGCCCTGGCCAAAGGTGATTCCGGCCCCTATTTGCGCTACAGCCAGGCCCTGCGCGATTATCCGCTGGAGCCCTACCTCGCCTACGATGAGTTGACCGCTCGCCTGAAAAGCGCGAGCAATGCCGAGATCGAGAAATTCCTCGCCGAACATGGCGACCTGCCCCAGGCCAACTGGATGAAGCTGCGCTGGTTGCGCTGGCTGGCGGAGCGTGGCGACTGGGCAACCTTCGTCAAGTATTACGACCCCAAGCTCAACTTCACCGAACTCGATTGCCTCAACGCTCAATATCAACTGAGCCATGGCCTCAAGGCCGAAGGCTACGCCAACGCTGAGAAACTCTGGCTTACCGGCAAATCCCAGCCGGCGGCCTGCGATGCGCTGTTCGGCATGTGGGCGGCCCAAGGCCAACTGACTGAGCAGAAACGCTGGGAGCGCGCCAAACTGGCCGCCCAGGCGCGTAACTATCCGCTGGCCAACAGCCTGGTGAGCGGCCTGACCACCCTGGCGCCTCGCGGCAGCCTGTTGATCGACGTGGCGCAGAGGCCCGAACTGCTCAACCAGCCTTCGCGCTTCGCGCCCGCCGATGAACCGATGTCCGATGTCGTGAGCCTCGGCTTGCGACGCCTGGCCCGCCAGGACCCGGAAAAAGCCATGGCGTTGCTGGACGGGTATGCCAGCACCATGCATTTCTCTCGAGACGAGAAAGTGGCAATCGCCCGGGAAATCGGTCTGACCCTGGCCAAACGCTTCGACAGCCGCGCCCTCGACGTGATGACCAAATACGACCCGGAGCTGCGCGATGACACTGTCTCGGAATGGCGTTTGCGCCTGCTGTTGCGCCTGGCCCGCTGGGAAGATGCCTATCAGTTGACCCGCCGCCTGCCCGAGTCGCTCGCCACCACCAACCGCTGGCGTTACTGGCAGGCCCGCAGCCTGGAGCTGGCGCAGCCGCAGAACCCGCAAGCGGTGACGCTCTACAAGCAACTGGCCCGGGAGCGTGACTTCTACGGCTTCCTGGCGGCCGACCGCTCCCAGTCACCCTATTCGCTCAACAACAAGCCGCTGGTGATGAGCCAGGCGCTGATCAACAAAGTGCGCAACACCCCGGGCGTGCGCCGCGCGCTGGAGTTTCATGCGCGCGGACAGATCGTCGATGGCCGCCGCGAGTGGTATCACGTCAGCCGTCATTTCAGCCGGGACGAAATGGTTGCCCAGGCGAAACTGGCCTATGACCTGAAATGGTACTTCCCGGCCATCCGCACCATCAGCCAGGCCAAATACTGGGACGACCTGGATATCCGCTTCCCGATGGCCCACCGCGACACGCTGGTGCGCGAAGCCAGGATCCGCGGCCTGCATCCAAGCTGGGCGTTCGCCATCACCCGCCAGGAAAGCGCATTCATGGACGATGCCCGCTCCAGCGTCGGTGCCAGCGGCCTGATGCAGTTGATGCCAGGCACCGCCAAGGAAACCGCCCGCAAGTTCAACATTCCCCTGGCATCGCCCCAGCAAGTGTTCAACCCGGACAAGAACATCCAGCTCGGCGCGGCTTACCTGAGCCAGGTGCACAGCCAGTTCAACGGCAACCGGGTCCTCGCCTCCGCCGCGTACAACGCCGGCCCTGGCCGCGTGCGTCAATGGCTGCGTGGCGCTGACCACCTGAGCTTCGACGTCTGGGTCGAAAGCATCCCTTTCGACGAAACCCGTCAATACGTACAGAACGTGCTGTCCTACTCGGTGATCTACGGCCAGAAACTCAACTCGCCACAACCGTTGGTGGACTGGCACGAGCGCTATTTCGATGATCAGTGA	MRSRLFSVLSCLFVCATAVQTAQAVDISTQRQYYDEAKRALAKGDSGPYLRYSQALRDYPLEPYLAYDELTARLKSASNAEIEKFLAEHGDLPQANWMKLRWLRWLAERGDWATFVKYYDPKLNFTELDCLNAQYQLSHGLKAEGYANAEKLWLTGKSQPAACDALFGMWAAQGQLTEQKRWERAKLAAQARNYPLANSLVSGLTTLAPRGSLLIDVAQRPELLNQPSRFAPADEPMSDVVSLGLRRLARQDPEKAMALLDGYASTMHFSRDEKVAIAREIGLTLAKRFDSRALDVMTKYDPELRDDTVSEWRLRLLLRLARWEDAYQLTRRLPESLATTNRWRYWQARSLELAQPQNPQAVTLYKQLARERDFYGFLAADRSQSPYSLNNKPLVMSQALINKVRNTPGVRRALEFHARGQIVDGRREWYHVSRHFSRDEMVAQAKLAYDLKWYFPAIRTISQAKYWDDLDIRFPMAHRDTLVREARIRGLHPSWAFAITRQESAFMDDARSSVGASGLMQLMPGTAKETARKFNIPLASPQQVFNPDKNIQLGAAYLSQVHSQFNGNRVLASAAYNAGPGRVRQWLRGADHLSFDVWVESIPFDETRQYVQNVLSYSVIYGQKLNSPQPLVDWHERYFDDQ	PGPT0024070_1959	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-SOLUBLE_LYTIC_MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0024070-slt-K08309	NA	NA
D1-35_00833	1920	uup	COG0488	ABC transporter ATP-binding protein uup	ATGACCCTGCTCAAATTCAGCGATGTGTCCCTTGCTTTCGGCGCGATGCCGTTGTTGGACAAGGTGTCCTGGCAGATCGCCCGTGGAGAGCGGGTGTGCATCATCGGCCGCAACGGCACTGGCAAGTCCAGCATGATGAAGCTGGTCAAGGGCGACCAGAAGCCCGACGACGGCTCGGTCTGGCGCGCGCCAGGCCTGAAGATCGGCGAATTGCCCCAGGAACTGCCGGTAGCCGACGAGCGGACGGTATTCGACGTGGTCGCCGAAGGCCTGGACGGTGTCGGCGCGCTGTTGGCCGAATATCATCACCTGAGCCAGAACATCGTCACCGATGCCGACCTGGACAAGCTGATGCATGTCCAGCACGACCTCGAAGCCCGTGACGGCTGGCGCCTGCAGCAGTTGGTCGACAGCACGCTGAGCCGCTTGCAACTGCCGGCCGACAAGACTCTGGCCGAGCTGTCCGGTGGCTGGCGTCGCCGCGTCCTGCTGGCCCAGGCCCTGGTGTCCGAACCCGATCTGCTGCTGCTCGACGAGCCGACCAACCACCTCGACATCGGCGCCATCGCCTGGCTTGAAGAAGCCCTCAAGGATTTCCAGGGCGCGGTGCTGTTCATCACTCACGACCGTTCCTTCCTGCAGAACCTGGCGACCCGCATCCTCGAACTGGATCGCGGCGGCTTGATCGACTGGAACGGCGACTACGCCAGTTTCTTGGTGCACAAGGAAGCAGTACTGGCGGCGGAAGAAACCGCCAATGCGCTGTTCGACAAGCGCCTGGCCCAGGAAGAGGTCTGGATCCGCCAGGGCATCAAGGCCCGGCGTACCCGTAACGAAGGTCGCGTACGCGCCCTCAAGGCCTTGCGCGTTGAGCGTAGCGAGCGACGCGAGCGCACCGGCAAGGCGAATATCCAGCTGGAAACCGCCGACAAGTCGGGCAAGCAGGTCATGGTGCTGGAGAACGTCAGCTTCGCCCACCCGGGTGGCCCGTTCCTGGTCAAGGACTTCTCCATGGTTCTGCAGCGCGGCGATCGGATCGGCCTGCTGGGCGCCAACGGTACCGGCAAGACGACCTTGCTCAAGCTGATGCTTGGCGGTCTGGTGCCGACCAGCGGCAAAGTGGAAGAGGGGACAAAAATCGATGTCGCCTATTTCGACCAGTTGCGCCACCAGCTGGATCTGGAAAAAACCGTGATCGACAACGTGGCCGAAGGTCGCGACTTCATCGATATCGACGGCCAGAGCCGCCACGTGTTGAGTTACCTCGGCGATTTCCTGTTCAGTCCGCAGCGCGCCCGTACCCCGGTGAAGGCGTTGTCGGGTGGCGAGCGAGCCCGTCTGTTGCTGGCCAAGCTGTTCAGCAAGCCGGCGAACCTGCTGGTGCTCGACGAACCGACCAACGACCTGGACGTGGAAACCCTCGAACTGCTGGAAGAGGTGTTGCTCACCTTCAACGGCACCGTGCTGATGGTCAGCCACGACCGGGCCTTCCTCGACAACGTGGTCACCAGCACCCTGGTTTTCGAAGGCGAAGGGCTGGTTCGCGAGTACGTTGGTGGTTACCAGGACTGGCTGCGCCAGGGGGGCTCGCCACGTCTCCTGGGCGTGACCGAGAGCAAATCCGGCAAGGCCGACCTGAATTCGGCGGTCGTCAAGGCCGAGCCGGCTCCGGTTGCCGCCACTGCCGCGCCTGCCCCTGCGAAAAAGAAGCTCAGCTACAAACTGCAGCGTGAGCTGGAAGCATTGCCTGGCGATATCGAGGCGAAGGAGCAGCAGATTGCAGCGGTGGAGGCCGAGATGGCTGATGCCGGTTTCTACCAGCGACCAGCGGCCGAAACCGCCAAGGTGATTGCCCACCTGGAGCAGTTGCAGGCCGAGCTGGATGTACTGGTCGAGCGCTGGGCTGAACTGGACGCCTGA	MTLLKFSDVSLAFGAMPLLDKVSWQIARGERVCIIGRNGTGKSSMMKLVKGDQKPDDGSVWRAPGLKIGELPQELPVADERTVFDVVAEGLDGVGALLAEYHHLSQNIVTDADLDKLMHVQHDLEARDGWRLQQLVDSTLSRLQLPADKTLAELSGGWRRRVLLAQALVSEPDLLLLDEPTNHLDIGAIAWLEEALKDFQGAVLFITHDRSFLQNLATRILELDRGGLIDWNGDYASFLVHKEAVLAAEETANALFDKRLAQEEVWIRQGIKARRTRNEGRVRALKALRVERSERRERTGKANIQLETADKSGKQVMVLENVSFAHPGGPFLVKDFSMVLQRGDRIGLLGANGTGKTTLLKLMLGGLVPTSGKVEEGTKIDVAYFDQLRHQLDLEKTVIDNVAEGRDFIDIDGQSRHVLSYLGDFLFSPQRARTPVKALSGGERARLLLAKLFSKPANLLVLDEPTNDLDVETLELLEEVLLTFNGTVLMVSHDRAFLDNVVTSTLVFEGEGLVREYVGGYQDWLRQGGSPRLLGVTESKSGKADLNSAVVKAEPAPVAATAAPAPAKKKLSYKLQRELEALPGDIEAKEQQIAAVEAEMADAGFYQRPAAETAKVIAHLEQLQAELDVLVERWAELDA				NA	NA	NA	NA	NA
D1-35_00834	441	uspA2	COG0589	Universal stress protein A	ATGTACTACGAACACGTCCTGGTCGCCGTCGACCTTACTGAAGAATGCGATCCTGTCGTCAAGCGAGCCCTCGCTCTCTGCGAAGGCCGGGACAACAAACTGTCGCTGGTGCATATCGTCGAGCCGATGGCCATGGCCTTCGGCGGCGACGTCCCAATGGACCTTTCCCAGTTGCAACAGCAACAATTTGACCAGGCCAAGGAACGCTTTGATCGACTGATCGTGAAATACCCGGCATTAAAAAAGGAAAACAGTCACCTGACCTACGGCCAGCCGCGCCAGGAGATTCATCACCTGGCCAAGGAGCAGGGCTGCGACCTGATCGTTGTCGGCAGCCATGGCCGCCACGGTCTCGCGCTGCTGCTGGGCTCCACTGCCAACGACGTATTGCATGGCGCTCCATGCGACGTGCTGGCGGTGCACCTGGTCAAGCGCTCGTAA	MYYEHVLVAVDLTEECDPVVKRALALCEGRDNKLSLVHIVEPMAMAFGGDVPMDLSQLQQQQFDQAKERFDRLIVKYPALKKENSHLTYGQPRQEIHHLAKEQGCDLIVVGSHGRHGLALLLGSTANDVLHGAPCDVLAVHLVKRS	PGPT0014970_241	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014970-uspA-K06149	NA	NA
D1-35_00835	438			hypothetical protein	ATGACGGTCTGGATAGTGGTGTCAATCCTGTTGGTGGTATTGAGCCCCTTGGCATGGTTGCGGCCATCGCGTGTCCAGAGCGGTCGCATGGCCCTGCGCATGGAGGCGCGACGCCTCGGCCTGGCCATGCAACTGGCTTCCCAGGAGTGGCCGCACTGGCTCAGTCAGCCGCCGCCCAACCCTTGCGCTCAGTACCATCAGCCCCGACGTGGCAAGCAGCCGGCCCTCTGGAGCTACTGGCAGAGCGCCCCTGGCGTGTGGGTCAATCAGTGGCGCGAGCCCTGTCTGGACGAGTCGCTGCTGGCGCATTTCCACAAGCTGCCCGCCAACGTTTACAAAATCGAAGCCGACAAGCAGATGATTACCTTGTACTGGGGCGAAAAGGGCGAGGCGAGTGTTTTGCAGGATATATCCGCGGTGCTCAACGCATTGGCTTGA	MTVWIVVSILLVVLSPLAWLRPSRVQSGRMALRMEARRLGLAMQLASQEWPHWLSQPPPNPCAQYHQPRRGKQPALWSYWQSAPGVWVNQWREPCLDESLLAHFHKLPANVYKIEADKQMITLYWGEKGEASVLQDISAVLNALA				NA	NA	NA	NA	NA
D1-35_00836	2148	fadB_1		Fatty acid oxidation complex subunit alpha	ATGATTTACGAAGGTAAAGCCATCACGGTTAAGGCTCTTGAAAGTGGCATTGTCGAACTGAAGTTCGATCTCAAGGGTGAGTCCGTCAACAAGTTCAACCGTCTAACCCTGAACGAATTGCGTCAGGCCGTGGACACTATCAAGGCAGATGCTTCGGTCAAGGGTGTGATCGTCAGCAGCGGCAAGGACGTGTTCATCGTCGGCGCCGACATCACCGAATTCGTCGACAACTTCAAGCTGCCCGATGCCGAACTGATCGCAGGCAACCTCGAAGCGAACCGTATCTTCAGCGATTTCGAAGACCTTGGCGTGCCAACGGTTGCGGCCATCAACGGCATCGCCCTGGGTGGCGGACTGGAAATGTGCCTGGCGGCCGATTACCGTGTCATGTCCACCTCCGCCAAGATCGGCCTGCCGGAAGTCAAGCTGGGCATCTACCCGGGCTTCGGCGGTACCGTGCGCCTGCCGCGCCTGATCGGTGCCGACAATGCCATCGAGTGGATTGCCGCTGGCAAGGAAAACCGTGCCGAAGACGCGCTGAGAGTCGGCGCCGTGGATGCCGTGGTCGAACCTGGCAAGCTCCAGGAAGCGGCCCTTGAGACGATCAAGCGCGCCATCAGCGGCGAGTTCGACTACAAGGCCAAGCGCCAGCCGAAGCTGGAAAAGCTCAAGCTCAACGCCATTGAACAAATGATGGCCTTCGAAACCGCCAAGGGCTTTGTCGCCGGCCAGGCTGGCCCGAACTACCCGGCCCCGGTCGAAGCCATCAAGACCATCCAGAAAGCCGCGAATTTCGGTCGCGACAAGGCCCTGGAAGTCGAGGCCGCCGGTTTCGTCAAGCTGGCCAAGACCTCGGCTGCGCAAAGCCTGATCGGCCTGTTCCTCAACGATCAGGAGCTGAAGAAAAAGGCCAAGGCCTACGACGAAATCGCTCGCGACGTGAAGCAGGCGGCTGTGTTGGGTGCTGGCATCATGGGCGGTGGTATCGCCTACCAGTCGGCGTCCAAGGGCACGCCGATCCTGATGAAAGACATCAACGAACATGGCATCGAACAAGGTCTGGCCGAAGCTGCCAAGCTGCTGGTCGGCCGTGTCGACAAAGGTCGCATGACTGCCGCGAAGATGGCCGAAGTGCTTAACGGCATTCGCCCGACGCTGTCCTATGGCGATTTCGGCCATGTCGACCTGGTGGTCGAAGCCGTTGTCGAGAACCCGAAGGTCAAGCAGGCGGTACTGGCTGAAGTCGAAGACAAGGTCAAGGAAGATACGATCCTTGCCTCCAACACCTCGACCATTTCCATCTCGCTGCTGGCCAAGGCCCTCAAGCGTCCGGAAAACTTCGTCGGCATGCACTTCTTCAACCCGGTGCACATGATGCCGCTGGTGGAAGTCATCCGTGGCGAGAAGTCCAGTGAGCAGGCGATCGCCACCACCGTGGCCTACGCGAAAAAAATGGGCAAGAACCCGATCGTGGTCAACGACTGCCCGGGCTTTCTGGTCAACCGCGTGCTGTTCCCGTATTTCGGCGGTTTCGCCAAGCTGGTCAGCGCTGGCGTGGACTTCGTGCGCATCGACAAGATCATGGAAAAATTCGGCTGGCCGATGGGCCCGGCGTACCTGATGGACGTGGTTGGCATCGACACCGGCCACCACGGTCGCGATGTCATGGCCGAAGGCTTCCCGGATCGTATGAAGGACGATCGCCGTTCGGCTGTCGACGTGCTCTATGAAGCCAAGCGCCTTGGCCAGAAGAACGGCAAGGGCTTCTACGCCTACGAGACCGACAAGCGCGGCAAGCAGAAGAAAGTCGCCGATTCGTCGGTGCTCGAAGTGCTCAAGCCGATCGTCTACGAGCAGCGCGAAGTCACCGACGAGGACATCATCAACTGGATGATGATCCCGCTGTGCCTGGAAACCGTGCGTTGCCTGGAAGACGGCATTGTCGAAACCGCCGCCGAAGCCGACATGGGTCTGGTCTACGGTATCGGTTTCCCTCCATTCCGTGGCGGTGCGCTGCGCTACATCGATTCGATCGGTGTCGCCGAGTTCGTTGCCCTGGCTGACCAGTACGCTGATCTGGGCGCGCTGTACCACCCGACCGCGAAGCTGCGTGAAATGGCCAAGAACGGCCAGCGTTTCTTCGGTTAA	MIYEGKAITVKALESGIVELKFDLKGESVNKFNRLTLNELRQAVDTIKADASVKGVIVSSGKDVFIVGADITEFVDNFKLPDAELIAGNLEANRIFSDFEDLGVPTVAAINGIALGGGLEMCLAADYRVMSTSAKIGLPEVKLGIYPGFGGTVRLPRLIGADNAIEWIAAGKENRAEDALRVGAVDAVVEPGKLQEAALETIKRAISGEFDYKAKRQPKLEKLKLNAIEQMMAFETAKGFVAGQAGPNYPAPVEAIKTIQKAANFGRDKALEVEAAGFVKLAKTSAAQSLIGLFLNDQELKKKAKAYDEIARDVKQAAVLGAGIMGGGIAYQSASKGTPILMKDINEHGIEQGLAEAAKLLVGRVDKGRMTAAKMAEVLNGIRPTLSYGDFGHVDLVVEAVVENPKVKQAVLAEVEDKVKEDTILASNTSTISISLLAKALKRPENFVGMHFFNPVHMMPLVEVIRGEKSSEQAIATTVAYAKKMGKNPIVVNDCPGFLVNRVLFPYFGGFAKLVSAGVDFVRIDKIMEKFGWPMGPAYLMDVVGIDTGHHGRDVMAEGFPDRMKDDRRSAVDVLYEAKRLGQKNGKGFYAYETDKRGKQKKVADSSVLEVLKPIVYEQREVTDEDIINWMMIPLCLETVRCLEDGIVETAAEADMGLVYGIGFPPFRGGALRYIDSIGVAEFVALADQYADLGALYHPTAKLREMAKNGQRFFG	PGPT0001865_612	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0001865-fadB-K01825	NA	NA
D1-35_00837	1176	fadA_2		3-ketoacyl-CoA thiolase	ATGAGCTTGAATCCTAGAGACGTCGTGATTGTCGACTTCGGTCGTACGCCGATGGGCCGCTCCAAGGGCGGCATGCACCGCAACACCCGTGCCGAGGACATGTCGGCGCATCTGATCAGCAAGCTGCTGGAACGCAACGTCAAGGTCGATCCCAATGAGGTCGAGGACGTGATCTGGGGCTGTGTGAACCAGACCCTGGAGCAGGGCTGGAACATCGCTCGCATGGCGTCGCTGATGACCCAGATCCCTCACACCGCGGCCGGCCAGACCGTCAGCCGCCTGTGCGGTTCGTCCATGAGCGCGCTGCACACCGCCGCCCAGGCGATCATGACCGGCAACGGTGATGTATTCGTCGTCGGCGGTGTCGAGCACATGGGCCACGTGAGCATGATGCACGGCGTCGATCCGAACCCGCACATGTCGCTGTACGCGGCAAAAGCCTCGGGCATGATGGGCCTGACCGCGGAAATGCTCGGCAAGATGCACGGCATCACCCGCGAACAGCAGGACGCCTTTGGCGTGCGCTCCCACCAGCTCGCCCACAAGGCGACGGTGGAAGGCAAGTTCAAGGATGAAATCATCCCGATGCAGGGTTACGACGAGAACGGCTTCCTGAAGCTGTTTGACTACGACGAGACCATTCGTCCGGAAACCACCCTGGAAAGCCTGGCGACGTTGAAGCCGGCCTTCAATCCAAAGGGCGGCACCGTGACAGCCGGTACCTCGTCGCAGATCACCGATGGTGCCTCGTGCATGATCGTGATGTCGGCCCAGCGTGCCCAGGACCTGGGCATCCAGCCGATGGCGGTGATTCGTTCGATGGCCGTCGCCGGTGTGGATCCCGCAATCATGGGCTATGGTCCAGTACCGGCCACGCAGAAAGCCTTGAAGCGCGCGGGCCTGAGTATCTCCGACATCGACTTCTTCGAGCTCAACGAAGCTTTCGCCGCACAGGCCCTGCCAGTGCTGAAAGATCTGAAAATACTCGACAAGATGAACGAGAAGGTTAACCTGCACGGCGGCGCCATCGCCCTGGGTCATCCGTTTGGCTGCTCCGGTGCGCGTATCTCCGGCACGCTGCTCAACGTCATGAAGCAGAACGGCGGCACTTTTGGGGTGTCCACCATGTGCATTGGCCTCGGCCAAGGCATCGCCACCGTCTTCGAGCGCATCTAA	MSLNPRDVVIVDFGRTPMGRSKGGMHRNTRAEDMSAHLISKLLERNVKVDPNEVEDVIWGCVNQTLEQGWNIARMASLMTQIPHTAAGQTVSRLCGSSMSALHTAAQAIMTGNGDVFVVGGVEHMGHVSMMHGVDPNPHMSLYAAKASGMMGLTAEMLGKMHGITREQQDAFGVRSHQLAHKATVEGKFKDEIIPMQGYDENGFLKLFDYDETIRPETTLESLATLKPAFNPKGGTVTAGTSSQITDGASCMIVMSAQRAQDLGIQPMAVIRSMAVAGVDPAIMGYGPVPATQKALKRAGLSISDIDFFELNEAFAAQALPVLKDLKILDKMNEKVNLHGGAIALGHPFGCSGARISGTLLNVMKQNGGTFGVSTMCIGLGQGIATVFERI	PGPT0001565_3612	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
D1-35_00838	237			hypothetical protein	ATGCCGATACAACCTGGGCTCTACCAACATTACAAAGGCCCGCAGTACCGCGTATTCAGTATTGCGCGGCATTCCGAGACCGAGGAAGAAGTGGTCTTCTATCAAGCCCTGTATGGCGATTACGGCTTCTGGGTGCGTCCGTTGAACATGTTCCAGGAGTCCGTCGAGGTTGACGGCGAACAGGTGCCACGCTTTGCTTTGGTGCAGGCCGAGGAGAGCATTTTTTCCAAGCCTTGA	MPIQPGLYQHYKGPQYRVFSIARHSETEEEVVFYQALYGDYGFWVRPLNMFQESVEVDGEQVPRFALVQAEESIFSKP	PGPT0012200_854	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0012200-cd|ma|nplT-K01208	NA	NA
D1-35_00839	2613	topA	COG0550	DNA topoisomerase 1	ATGGGCAAATCGCTGGTCATTGTGGAATCCCCGGCTAAGGCCAAGACCATCAACAAGTATCTGGGTAACCAATACGTGGTGAAGTCGAGTATCGGCCATATCCGAGACCTGCCCACCAGCGGTTCGGCTAGCGCCAGCAAAGAGCCTGCTGCCAAGCGCGGCAAGGCTGCCGCCGGCGAAGCGCCAGCGTTGTCGCCGAAGGAAAAGGCGCGCAAGCAGTTGGTCTCGCGCATGGGGGTTGATCCGGAACACGGCTGGAAAGCCAAGTACGAGATCCTCCCGGGCAAGGAAAAGGTCATCGAAGAGCTGCGCCGGCTCGCCAAGGATGCCGACACCATCTATCTCGCGACGGACTTGGACCGCGAAGGGGAAGCCATTGCCTGGCACCTGCGCGAAGCCATCGGTGGTGATGACAGCCGCTACAAGCGTGTGGTGTTCAACGAAATCACCAAGAAGGCCATCCAGGAAGCCTTCTCCCAGCCGGGCGAGCTGGATATCGATCGGGTCAACGCTCAACAGGCGCGACGTTTCCTTGACCGCGTGGTGGGCTACATGGTCTCGCCATTGCTGTGGGCCAAGATCGCTCGCGGCCTGTCCGCCGGACGTGTGCAATCGGTCGCGGTGAAACTGGTAGTGGAGCGCGAGCGGGAAATCCGCGCGTTCATCCCTGAAGAATATTGGGAAGTCCACGCTGATCTGGGTACCGCCAAGGGCGCCACCGTGCGCTTCGAAGTGGCCCGCGAGAAAGGCGAGGCCTTCAAGCCGCTCAATGAAGCGCAGGCCATGGCCGCGCTGGAAAAGCTCAAGGCTTCTAGCTACAGCATCGTCAAGCGTGAAGACAAGCCCACCAGCAGCAAGCCTTCGGCGCCGTTCATCACGTCCACGCTGCAGCAGGCCGCGAGTAACCGCCTGGGCTTCGGCGTGAAGAAAACCATGATGATGGCCCAGCGTCTGTACGAAGCGGGCTACATCACCTACATGCGTACCGACTCGACCAACCTCTCGGTCGATGCCGTGGCGATGGCGCGTACTTATATAGAAACCGAGTTCGGCAAGAAATACCTGCCGGAAACGCCAAACGTCTACAGCAGCAAGGAAGGCGCCCAGGAAGCTCACGAAGCGATTCGTCCATCCGACGCCAACACCACGCCAAGCAAGCTGTCTGGCATGGAGCGCGACGCCGAGCGTCTCTACGAGCTGATCTGGCGCCAGTTCCTGGCTTGCCAGATGCTGCCGGCCCAATACCTGTCGACCACCGTCAGCGTCGGTGCTGGCGACTTCGAGCTGCGTGCCAAGGGCCGTATCCTGAAGTTCGACGGCTACACCCGTGTCATGCCGCAGATCGCCAAGCCAGGGGATGACGACGTCCTGCCCGACATGGCCCAGGGCGACGTGATGAAGCTGCTCAAGCTGGATCCTACCCAGCACTTCACCAAGCCGCCGGCCCGGTATTCGGAAGCCAGCCTGGTCAAGGAAATGGAAAAGCGTGGCATCGGTCGCCCTTCGACTTATGCGGCTATCATTTCGACGATCCAGGATCGCGGCTACGTGGCGCTGCATAACCGACGTTTCTATTCGGAGAAGATGGGCGACATCGTGACCGAGCGCCTGTCCGAGAGCTTCTCGAACCTGATGGACTACGGCTTCACCGCCGGCATGGAAGAGAACCTCGATGACGTGGCCCAGGGTGAGCGGGACTGGAAAAACGTGCTCGACGAGTTCTACGGTGACTTCAAGAAAAAACTCGAAGTAGCCGAAAGCCCTGACAGCGGCATGCGCGCCAACCAGCCGGTGATGACGGATATTCCGTGCCTGACCTGCGGCCGACCAATGCAGATCCGCACGGCTTCGACCGGTGTTTTCCTCGGATGCTCGGGCTACAGCCTGCCGCCAAAGGAACGCTGCAAGGCAACGGTAAACCTGGTGCCCGGTGATGAAATCGCTGCGGACGACGAAGGTGAATCGGAATCCCTGGTGCTGCGCGGCAAGCATCGCTGCCCGATCTGCAGCACCGCAATGGACGCCTATTTGCTGGATGAAAAGCGCAAGCTGCACATCTGCGGTAACAATCCGGATTGCGCCGGTTACGAGATCGAAGAGGGCAGCTACCGCATCAAGGGCTATGAAGGTCCGAGCCTGGAATGCGACAAGTGCGGCAGCGAGATGCAGCTCAAGACCGGGCGTTTCGGCAAGTTTTTCGGCTGTACGAACCCAACCTGCAAGAATACCCGCAAGCTGCTCAAGAGCGGCGATGCGGCACCGCCAAAAATGGACCCGGTGAAGATGCCCGAGCTCAAGTGCGAGAAGGTCAATGACACCTACATCTTGCGCGACGGTGCTTCTGGCCTGTTCCTGGCGGCGAGCCAGTTCCCGAAAAATCGTGAAACCCGTGCGCCGTTGGTGATGGAGATTGTCCCGCACAAGGACGAAATCGATCCGAAGTATCACTTCCTTTGCGACGCACCGCAGAAAGACCCGGACGGCCGCCCGGCGGTGATTCGCTACAGCCGCAAGACCAAAGAGCAATACGTGCAGACCGAGGTTGACGGCAAGCCTACCGGCTGGAAGGCGTTTTACGACGGCGGCAAGTGGACCGTCGAAGACAAGCGCTGA	MGKSLVIVESPAKAKTINKYLGNQYVVKSSIGHIRDLPTSGSASASKEPAAKRGKAAAGEAPALSPKEKARKQLVSRMGVDPEHGWKAKYEILPGKEKVIEELRRLAKDADTIYLATDLDREGEAIAWHLREAIGGDDSRYKRVVFNEITKKAIQEAFSQPGELDIDRVNAQQARRFLDRVVGYMVSPLLWAKIARGLSAGRVQSVAVKLVVEREREIRAFIPEEYWEVHADLGTAKGATVRFEVAREKGEAFKPLNEAQAMAALEKLKASSYSIVKREDKPTSSKPSAPFITSTLQQAASNRLGFGVKKTMMMAQRLYEAGYITYMRTDSTNLSVDAVAMARTYIETEFGKKYLPETPNVYSSKEGAQEAHEAIRPSDANTTPSKLSGMERDAERLYELIWRQFLACQMLPAQYLSTTVSVGAGDFELRAKGRILKFDGYTRVMPQIAKPGDDDVLPDMAQGDVMKLLKLDPTQHFTKPPARYSEASLVKEMEKRGIGRPSTYAAIISTIQDRGYVALHNRRFYSEKMGDIVTERLSESFSNLMDYGFTAGMEENLDDVAQGERDWKNVLDEFYGDFKKKLEVAESPDSGMRANQPVMTDIPCLTCGRPMQIRTASTGVFLGCSGYSLPPKERCKATVNLVPGDEIAADDEGESESLVLRGKHRCPICSTAMDAYLLDEKRKLHICGNNPDCAGYEIEEGSYRIKGYEGPSLECDKCGSEMQLKTGRFGKFFGCTNPTCKNTRKLLKSGDAAPPKMDPVKMPELKCEKVNDTYILRDGASGLFLAASQFPKNRETRAPLVMEIVPHKDEIDPKYHFLCDAPQKDPDGRPAVIRYSRKTKEQYVQTEVDGKPTGWKAFYDGGKWTVEDKR				NA	NA	NA	NA	NA
D1-35_00840	525			hypothetical protein	ATGGCCCACGAACTCTATACCCGCACCAATCAGAAAATTTATTTCGCCGGCCTTTCGCTTGAGGCGCTTGCGCGGGCGGAGGATGGGCGTGCAATGAATTCCCCTGCGCTGGTCCAGGCGGGGCGCGAATCGGCGTTGTTTCATTTGTACGGTGCGTTGTTGGGCCTGTGCCACGAAATCGCCGGTTTTTATCGCTTGCCCCAGGCGAATGCGTCACGGGCCGAGCTGGTGTTGACTCGTGAGGTGCTGGAAACCATCGCAATTCCGGAGCTGGCCGAAATGGTCGAACTGGCGCAGAACCCGGAAACCTGGCTGGCCAGATTGCTGGCGGCCCACCAGGCGCTGTTCCAGCCACCTCGGGCTCCGCGCAAGCCCAAGGGCGACGTGACCCAGCCGCTGATCGTGGCGGTCAATCTTGACGAAGAAGAGCCAGAGCAAGAGCTTAATCGGGAAGAGTTGGAGAGCTGGCGGCAGAATCTCAAGAACCTGGCCATTCGCTTTCGCGAAGGGTTGAACGAGTGCTGA	MAHELYTRTNQKIYFAGLSLEALARAEDGRAMNSPALVQAGRESALFHLYGALLGLCHEIAGFYRLPQANASRAELVLTREVLETIAIPELAEMVELAQNPETWLARLLAAHQALFQPPRAPRKPKGDVTQPLIVAVNLDEEEPEQELNREELESWRQNLKNLAIRFREGLNEC				NA	NA	NA	NA	NA
D1-35_00841	234			hypothetical protein	ATGCCTACGTCCTTTCTAGAAATTGTCGAGCTTCCTGATGGCCGCATCGAGCTGCGCCGGGCCGAAGACGAGGGGTCTCTGGTTACCCTGAACTTCTCTGAGGACGCCAAGGTATTCCTGCAAGGTCAACACGTTGAGGTCGCCAAGGCGATGCTGAGCGTGGGTGTCCAGATGGCTGGCCGCCTGGTTGAAGGCGAATTCAACAAAGAAGAGGGGCCACGGGTTCTTCATTGA	MPTSFLEIVELPDGRIELRRAEDEGSLVTLNFSEDAKVFLQGQHVEVAKAMLSVGVQMAGRLVEGEFNKEEGPRVLH				NA	NA	NA	NA	NA
D1-35_00842	474	sulA	COG5404	Cell division inhibitor SulA	ATGCAATTCCCCCACACACCACAGCACACGCAACTTCCGCTGTTCGAGGCATTCATGGCCCAACCGCTGGTTCCAGTGCTTAAAGAGGTCATCGAATCGCCTTGGGGCGTCGAACCCGAGGCCTTCAGCGAATTGTCGTTGCGTGGTGCGGCCGGGAATTGCCTGAACCTGCTGGCACCTATTCTGCGGGAGTTGAGCCAGGACCAGGACGCTCGGTGGCTGACGCTGATCGCGCCACCCGCCAGCGTTACCCAGGCCTGGTTGCGGGATGCCGGTCTCAATCGCGAGCGGATCCTGTTATTGCAACCGCGCGGCACACAGAGCGCCCAGCAATTGACGTGCGAAGCGTTGCGCCTGGGTCGCAGCCATACGGTGGTCAGCTGGCTCAACCCCCTGACCGCGACAGCTCGCCAACAGTTGATCAGCGCCGCACGCACCGGGGACGCACAAAGCCTGAATATTCGATTGGGCTAA	MQFPHTPQHTQLPLFEAFMAQPLVPVLKEVIESPWGVEPEAFSELSLRGAAGNCLNLLAPILRELSQDQDARWLTLIAPPASVTQAWLRDAGLNRERILLLQPRGTQSAQQLTCEALRLGRSHTVVSWLNPLTATARQQLISAARTGDAQSLNIRLG				NA	NA	NA	NA	NA
D1-35_00843	609	lexA_1	COG1974	LexA repressor	ATGCTAAAGCTGACGCCACGCCAAGCAGAGATTCTGGCCTTCATCAAACGTTGCCTCGAAGACAATGGCTACCCGCCAACCCGCGCGGAAATCGCTCAGGAATTGGGCTTCAAGTCGCCCAACGCGGCTGAAGAACACCTCAAGGCGCTAGCCCGCAAGGGCGCGATCGAGATGACACCCGGTGCCTCGAGAGGCATTCGGATCCCCGGCTTCGAAGCCAAGGCTGACGAAACCACGCTGCCAATCATCGGCCGTGTCGCCGCTGGCGCTCCGATCCTAGCCCAGCAGCACGTTGAAGAATCCTGCAACATCAACCCCTCGTTCTTTCACCCGAGGGCTGATTACCTTCTTCGCGTGCACGGTATGAGCATGAAGGATATCGGCATTTTCGACGGCGATCTGCTGGCTGTCCACACCACCCGCGAGGCTCGCAACGGGCAGATCGTGGTGGCGCGCATCGGCGACGAAGTCACCGTCAAGCGGTTCAAGCGCGATGGCAGCAAGGTCTGGCTGATAGCCGAAAATCCCGAGTTCGCCCCCATCGAAGTAGACCTGAAAGATCAGGACCTGGTCATCGAAGGCTTGAGTGTCGGCGTCATTCGCCGCTAA	MLKLTPRQAEILAFIKRCLEDNGYPPTRAEIAQELGFKSPNAAEEHLKALARKGAIEMTPGASRGIRIPGFEAKADETTLPIIGRVAAGAPILAQQHVEESCNINPSFFHPRADYLLRVHGMSMKDIGIFDGDLLAVHTTREARNGQIVVARIGDEVTVKRFKRDGSKVWLIAENPEFAPIEVDLKDQDLVIEGLSVGVIRR	PGPT0014895_3620	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014895-lexA-K01356	NA	NA
D1-35_00844	708			hypothetical protein	ATGGCCCAGTCGGAAACCGTTGAACGCATTCTCGATGCTGCCGAGCAGTTGTTCGCGGAAAAAGGTTTTGCCGAAACCTCTTTGCGTCTGATCACCAGCAAGGCCGGGGTAAACCTGGCTGCGGTGAACTATCACTTCGGTTCCAAGAAGGCGCTGATCCAGGCGGTGTTCTCACGTTTCCTCGGGCCGTTCTGTATCAGCCTCGACCGTGAACTGGAACGTCGTCAGGCCAAGCCTGACGTCAAGCCCACCCTAGAAGAGCTGCTCGAGATCCTGGTCGAGCAGGCCCTTGTTGTCCAACCACGCAGCGGTAATGATCTTTCCATTTTCATGCGCCTTTTGGGCCTGGCATTCAGTCAAAGCCAGGGTCACCTGCGGCGTTATCTGGAAGACATGTACGGCAAGGTGTTCCGTCGCTACATGCTGCTGGTCAATGAAGCCGCGCCACGCATACCACCGATCGAATTGTTCTGGCGCGTGCACTTCATGCTTGGCGCCGCTGCGTTCAGCATGTCTGGTATCAAGGCGCTGCGGGCCATCGCCGAAACCGATTTCGGCGTGAATACATCCATCGAACAGGTCATGCGTCTGATGGTTCCATTTCTGGCTGCCGGCATGCGTGCCGAAAGCGGCGTCACCGATGAGGCAATGGCGACAGCGCAGTTGCGTCCTCGCAGCAAATCCGCCCCGGCGCTCGCCAAGGCGTAA	MAQSETVERILDAAEQLFAEKGFAETSLRLITSKAGVNLAAVNYHFGSKKALIQAVFSRFLGPFCISLDRELERRQAKPDVKPTLEELLEILVEQALVVQPRSGNDLSIFMRLLGLAFSQSQGHLRRYLEDMYGKVFRRYMLLVNEAAPRIPPIELFWRVHFMLGAAAFSMSGIKALRAIAETDFGVNTSIEQVMRLMVPFLAAGMRAESGVTDEAMATAQLRPRSKSAPALAKA				NA	NA	NA	NA	NA
D1-35_00845	1011	nagZ	COG1472	Beta-hexosaminidase	ATGACTGCTGGCCTGCAAGGCTCGTTGATGGTGGACGTCGCCGGTACCTGGCTGACGGCCGAGGATCGCCATCTGTTGCGTCAGCCCGAAGTGGGCGGCTTGATCATCTTCGCTCGCAACATCGAGCATCCGCGCCAGGTGCGCGAGCTGAGTGCGGCGATCCGCGCCATTCGTCCCGACCTGTTGCTGGCGGTCGATCAGGAAGGGGGGCGTGTCCAGCGCCTGCGCCAGGGGTTCGTGCGTCTGCCGGCGATGCGGGCCATTGCCGATAACCCGAATGCCGAATACCTGGCCGAACAATGCGGCTGGATCATGGCCACCGAGGTGCTGGCGGTCGGCCTTGATCTGAGTTTCGCCCCGGTGCTGGATCTCGATTATCAGCGCAGTGCCGTGGTTGGCAGTCGTTCATTCGAGGGCGATCCCGAACGCGCCGCATTGTTGGCCGGTGCTTTCATTCGGGGCATGAACGCCGCGGGCATGGCCGCCACGGGCAAGCATTTTCCTGGGCACGGCTGGGCCGAGGCGGATTCCCATGTGGCCATCCCCAATGATGAGCGCAGCCTGGAACAGATCCGCGCCAACGATCTGCTGCCGTTTGCCAGGCTGGGCAAGCAGCTTGGCGCCGTGATGCCGGCCCATGTGATCTATCCGCAGGTCGATGCCAGCCCGGCCGGGTTTTCCCGACGTTGGCTGCAGGACATCCTGCGAGGCGAGTTGCAGTTCGACGGGGTGATTTTCAGTGATGACCTGTCAATGGCCGGTGCCCATGTGGTGGGTGATGCCGCGAGTCGTATCGAGGCCGCATTGACTGCCGGTTGCGACATGGGGTTGGTGTGCAACGACCGCGCTGCCGCAGAGTTGGCATTGAGCGCCGCCCAACGCTTGAAGATCAAGCCGTCGGCGCGGATCGCCCGCATGCGTGGCCAAGCCTTCGCCAGTACCGAGTATCGCCAGGATCCACACTGGCTGACAGCGATTGGCGCACTGAAAGCCGCCCAACTGATCGATTAA	MTAGLQGSLMVDVAGTWLTAEDRHLLRQPEVGGLIIFARNIEHPRQVRELSAAIRAIRPDLLLAVDQEGGRVQRLRQGFVRLPAMRAIADNPNAEYLAEQCGWIMATEVLAVGLDLSFAPVLDLDYQRSAVVGSRSFEGDPERAALLAGAFIRGMNAAGMAATGKHFPGHGWAEADSHVAIPNDERSLEQIRANDLLPFARLGKQLGAVMPAHVIYPQVDASPAGFSRRWLQDILRGELQFDGVIFSDDLSMAGAHVVGDAASRIEAALTAGCDMGLVCNDRAAAELALSAAQRLKIKPSARIARMRGQAFASTEYRQDPHWLTAIGALKAAQLID	PGPT0012175_4383	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207	NA	NA
D1-35_00846	741		COG0005	S-methyl-5'-thioinosine phosphorylase	ATGACCGTTTACGCAATTATCGGCGGCACAGGCCTGACCCAGCTGGAAGGCCTGACCATTCGCCAGTCCCTGGCGGTGGAAACGCCCTATGGCGCGCCATCGGCTGACGTGCAGATTGGCGAATATGCCGGGCGTGAGGTGCTGTTCCTGGCCCGTCATGGCCATCCTCATCGTTTTCCGCCGCACCAGGTCAACTATCGCGCCAATCTCTGGGCACTGAAGCAGGCGGGTGCCGAGGCCATCCTGGCGGTCAACGCCGTGGGCGGGATCCACGCGGCGATGGGCACCGGGCATTTCTGCGTGCCCCATCAGTTGATCGATTACACCAGTGGCCGCCAGCACACGTATTTTGCCGATGACCTGGAAGCGGTTACCCATATCGATTTCAGCTATCCCTACACGGAGACGCTGCGCCAGAAGTTGATTGCCGCCCTGGCCGCCGAGCGCTGCGGCTACAGCAGCCATGGCGTCTATGCCTGCACGCAGGGGCCGCGCCTGGAAACGGTGGCTGAAATCGCCCGCCTGGAACGCGATGGCTGCGACATTGTCGGCATGACAGGTATGCCGGAAGCGGCATTGGCTCGCGAGCTGGATTTGGACTATGCGTGCCTGGCCCTGGTGGTTAATCCCGCGGCAGGCAAATCCACGGCGGTGATCACCATGGCCGAGATCGAGCAAGCGCTGCATGACGGGATGGGGAAGGTGAAGTCGACCCTGGCGCGAGTGTTGGCGACAGGCTGA	MTVYAIIGGTGLTQLEGLTIRQSLAVETPYGAPSADVQIGEYAGREVLFLARHGHPHRFPPHQVNYRANLWALKQAGAEAILAVNAVGGIHAAMGTGHFCVPHQLIDYTSGRQHTYFADDLEAVTHIDFSYPYTETLRQKLIAALAAERCGYSSHGVYACTQGPRLETVAEIARLERDGCDIVGMTGMPEAALARELDLDYACLALVVNPAAGKSTAVITMAEIEQALHDGMGKVKSTLARVLATG				NA	NA	NA	NA	NA
D1-35_00847	2694			hypothetical protein	ATGCCCTCGCCCCTGAGCAAACCCCTGGCACCCTCCTGGGTCAATCGATTCAAGGAACAAAGCCTGGAGCGCGGACGCCGATACGCGCTGGAAAATCGCGTCAGGATCGTCGAGACCGGAGACAGCAGCATCATCGCCAGCTGCGAAGGCTCTGGCGGCAGCGTCTATCGTCAGACCATTCGCCTCAAGGAGTCAGCCAAGGGCACGCTGATCCTGCTCGAAGCGGCCTGCTCCTGCCCGGTGCGCATCAACTGCAAACATTGCGCGGCGGTCTTGTTGCAGGTCCAGGAAACCCTGGCCTACCCAGCCGCCGAGAAAGACGCGCATCTGCTGGAAAAACTCCAGACCGTGCTCGACAACCGCAGTCCCAAAGCCCCGCCGCAGGTGCTCGTGGAAAACGTGCAACCGGTGCCGCGCCTGTGGCTGGCGAGTATCGAGTTCAGCGCCTTCGAGCCGCGCAACGGCAAGATGCAGCGCTACATCCAGCACCGCGCTGCCCTGTCCTTCAGCTATCTGGACGAATACGTCAGCGGCCAGCGCAACACTGACGTACTGATTCGCCAGGAAACCCAGACGCTGCGTATTAAACGCCAGACCGATGTGGAACAGTCCTACCGCGAACAACTGCGAATCCTCGGTTTCAAGGTCGCCACCCGGCAAAGCAAGGCGCTGCCGGAAAGCGCCGGCGAGCTTTACGAGATGGTCAACGACAGTGCCTGGTTGACCTTTACCCTCAATGACCTGCCAAAACTGCGCAACCAAGGCTGGGAGCTGCAGATCGACGAGGATTTCGGCTTCGACCTGACGGCCGTGGACGAGTGGTACGCCAGCGTCGAGGAAACTCCGGAGCGAGACTGGTTTGATCTGGAATTGGGGATCATCGTCAACGGCGAGCGCTTGAGCCTGCTGCCGATCCTGCTGAACCTGATGCGCTCGCACATCGAGCTGTTCAACCCGGAACGCCTGGCCCGGCGCCGCGACGACGAACTCATCCTGGTCAACCTGCCGCACCGTCCCAATTCGGAATTCGGCCCGCAGCAAGTCGCCCTGCCCTATGGACGCCTGAAGCCGGTGCTGGCGACCCTTGGCGAGTTTTACCTGCAAGAACCCGGCACCAGCAAACTGCGCCTGAACAGTGCGGACGCCCTGCGCCTGAACCCGCTGCAAGACATGCCGCTGCGCTGGGAAGGGGGCGAACATATCCGTGGCCTGGCCCAGCGGCTGCGCGACATCAAGGACTACACCGCGGCGGCACCGGAAGGCTTGAACGCAACGCTGCGGCCCTATCAGCTCGAAGGCCTGAGCTGGATGCAATCGCTACGACAACTGGAGGTTGGCGGCATTCTCGCGGATGACATGGGCCTGGGCAAAACCCTACAGACCCTGGCGCACATTCTCAGCGAAAAAAACGCCGGCCGCCTCGACAGGCCGTGCATGGTGGTGATGCCGACGAGCCTGATTCCCAACTGGCTCGATGAAGCCAGCCACTTCACCCCGCAGCTCAAGGTATTGGCCCTGTACGGTGCCGGACGCAAGAAACATTTCGAGCGGTTGGCCGACTACGACCTGATCCTGACCACCTATGCATTGCTGCCCAAGGATGTCGAGCGCCTTAAAGCGCAACCGCTGCACGTATTGATCCTGGATGAAGCCCAGTACATCAAGAACCCCACCAGCAAGGCCGCCCAGGCCGCCCGTGAGCTCGATGCCCGGCAGCGGTTGTGCCTGTCCGGGACACCGCTGGAAAACCACCTGGGTGAATTGTGGTCGCTGTTTCATTTCCTGTTGCCGGGCTGGCTCGGCGACATCAAGGATTTCAACCGCGACTACCGCGTGCCGATCGAAAAACGCGGGAGCGCCGTACGATTGCAGCACCTTAACGGTCGGATAAAACCGTTTTTGCTGCGCAGGACCAAGGAACAGGTCGCAACCGAATTGCCGCCCAAGACCGAGATCATCCATTGGGTCGAACTCAGCGACGCCCAACGGGATGTCTATGAAACCATGCGCCTGGCGATGGACAAGAAGGTGCGTGACGAAATCACCCGCAAAGGCGTGGCGCGCAGCCAGATCATCATCCTCGAGGCGCTGCTCAAGCTGCGCCAGGTGTGCTGCGACCTGCGCCTGATCAGCGACGCCGCCCTGCCAGCCCGAGGCAGTGCTTCGGGCAAGCTCGACAGCCTGATGGAGATGCTCGAGGAGTTGTTTGAAGAAGGTCGGCGGGTGCTGCTGTTTTCCCAGTTCACGTCCATGCTGGCGCTGATCGAAGACGAACTGAAAAAGCGCGGTGTGGAATACGCCATCCTGACCGGCCAGACCCGGGACCGACGCACTCCGGTGAAGGAATTCCAGAGCGGCAAGCGTCAGATCTTCCTGATCAGCCTGAAGGCCGGCGGCGTGGGTCTGAACCTGACGGAAGCGGACACGGTGATTCACTACGACCCGTGGTGGAACCCGGCCACCGAAAACCAGGCGACCGACCGCGCTTATCGCATCGGCCAGGAAAAGCCGGTGTTCGTCTACAAGCTGATAGCCCGGGGAACAGTGGAAGAAAAGATCCAACTGCTGCAGAAGGAAAAGTCCGATCTCGCGGCCGGCGTGCTGGATGGGCGCGTGGCCGGGGACTGGAAACTGCAGAACGAAGACATCGAGGCGTTGTTCGCACCGCTGCCGGATAAGCTGGAGAAGCGCTGA	MPSPLSKPLAPSWVNRFKEQSLERGRRYALENRVRIVETGDSSIIASCEGSGGSVYRQTIRLKESAKGTLILLEAACSCPVRINCKHCAAVLLQVQETLAYPAAEKDAHLLEKLQTVLDNRSPKAPPQVLVENVQPVPRLWLASIEFSAFEPRNGKMQRYIQHRAALSFSYLDEYVSGQRNTDVLIRQETQTLRIKRQTDVEQSYREQLRILGFKVATRQSKALPESAGELYEMVNDSAWLTFTLNDLPKLRNQGWELQIDEDFGFDLTAVDEWYASVEETPERDWFDLELGIIVNGERLSLLPILLNLMRSHIELFNPERLARRRDDELILVNLPHRPNSEFGPQQVALPYGRLKPVLATLGEFYLQEPGTSKLRLNSADALRLNPLQDMPLRWEGGEHIRGLAQRLRDIKDYTAAAPEGLNATLRPYQLEGLSWMQSLRQLEVGGILADDMGLGKTLQTLAHILSEKNAGRLDRPCMVVMPTSLIPNWLDEASHFTPQLKVLALYGAGRKKHFERLADYDLILTTYALLPKDVERLKAQPLHVLILDEAQYIKNPTSKAAQAARELDARQRLCLSGTPLENHLGELWSLFHFLLPGWLGDIKDFNRDYRVPIEKRGSAVRLQHLNGRIKPFLLRRTKEQVATELPPKTEIIHWVELSDAQRDVYETMRLAMDKKVRDEITRKGVARSQIIILEALLKLRQVCCDLRLISDAALPARGSASGKLDSLMEMLEELFEEGRRVLLFSQFTSMLALIEDELKKRGVEYAILTGQTRDRRTPVKEFQSGKRQIFLISLKAGGVGLNLTEADTVIHYDPWWNPATENQATDRAYRIGQEKPVFVYKLIARGTVEEKIQLLQKEKSDLAAGVLDGRVAGDWKLQNEDIEALFAPLPDKLEKR				NA	NA	NA	NA	NA
D1-35_00848	567			hypothetical protein	ATGCGCCTGTTTCGCTCCTTGACGTTGTTGATGACCCTGGTCGCCCCCCTGGCCTTCGCCGACGACCTGTATCAGGTGGAAATGATCCTGGTTCGCCAGAATGCCGAGCCGGCGATTCTCAGTCGCGCCGCGCCGGAAGACTGGGACGCCGGCGCACAACGCCTGCCCCCGGACAGCCAGCGCACGCCAGCATTGGGCAATATCGTCGAAAAACTCAACGCCAGCGGCCAATACAGCGTGCTGATGCACAAGGCCTGGCAACAGAACCTGGGCGAACAGGGCAGCAAGGTCGCTGTCAGCGACGGCACCGAACAGTTCGGCCAGTTTCCCATCGAGGGCACCCTGGAAATGAAACTGGGCCGCTTTACCGACGTCGACGCCGACTTCTGGGTCAACCAGATCGACGCCAATGGCCTGGTCACCGCCAGCGAACGCCTCAAGCAACAGAGCCACACCAAGAACGGCCAGCTGAATTTCCTCGATAACGGTCACCTCGGCCTGCTGATCAAGATCACCTCGCTGACCGCGCCCGCGCCACGGCAGGCGCCCGAAGCGATTCCGGACTGA	MRLFRSLTLLMTLVAPLAFADDLYQVEMILVRQNAEPAILSRAAPEDWDAGAQRLPPDSQRTPALGNIVEKLNASGQYSVLMHKAWQQNLGEQGSKVAVSDGTEQFGQFPIEGTLEMKLGRFTDVDADFWVNQIDANGLVTASERLKQQSHTKNGQLNFLDNGHLGLLIKITSLTAPAPRQAPEAIPD				NA	NA	NA	NA	NA
D1-35_00849	3450	mfd	COG1197	Transcription-repair-coupling factor	GTGCCCGTTCTGCGTCTTCCGCTTCTCCCTGCCGCGGCAGGTAAACAGCACTGGGGCAACCTGCCCGGTGCCGCCCTGAGCCTGGCCATCGCCGAGGCTGCCAGCGCTGCAAAGCGCTTTACCCTGCTGCTGACCGCCGACAGCCAAAGCGCCGAACGGCTGGAACAGGAGCTGGCTTTCTTCGCCCCGGATTTGCCAGTGCTGCATTTCCCGGACTGGGAAACCCTGCCCTACGACCTTTTTTCGCCGCACCAGGACATCATTTCCCAGCGCATCGCCAGCCTTTACCGGCTGCCGGAGCTCAGTCATGGCGTTTTGGTAGTGCCGATTACCACAGCCCTACATCGCCTGGCGCCGACCCAATTCCTGCTGGGCAGCAGCCTGGTGCTGGACATCGGCCAGAAGCTCGACGTCGAGCAAATGCGCACCCGGCTTGAGGCCAGCGGCTACCGCTACGTCGATACCGTGTACGAGCACGGCGAGTTCACGGTCCGCGGCGCGTTGATAGACCTGTTTCCGATGGGCAGCAAACTGCCCTATCGCATCGACCTGTTCGATGACGAGATCGAGACCTTGCGCACCTTTGATCCGGAAAACCAGCGTTCCATCGACAAAGTGCAGTCGATCCGCCTGTTGCCGGCCAAGGAATTCCCTCTGCAAAAAGACGCGGTGACGCGTTTCAAGGCGCGGTTTCGCGAACGCTTCGACGTGGACTTCCGGCGCTGCCCGATCTTCCAGGACCTCAGCAGCGGCATCACCCCGGCCGGTATCGAGTATTACCTGCCGCTGTTCTTCGAAGAAACCTCCACCCTGTTCGATTACCTGCCCCAGGATACCCAGGTATTTTCCCTGCCCGGCATCGAGCAAGCGGCGGAAAACTTCTGGAATGACGTGCGCAACCGCTACGAAGAGCGGCGTGTCGACCCATCCCGTCCTCTATTGCCGCCCGCCGAGTTGTTCCTGCCGGTTGAAGACTGCTTCGCCCGCCTCAAGAGCTGGCCGCGCGTGGTGGCGAGCCAACAGGATGTGGAAACCGGCGTCGGTCGCGAACGCTTCCCCGCCAGAGCGCTGCCGGACCTGGCGATCGAAGCCAAGGCCACGCAACCGTTGGCGGCCCTGGCCGGTTTCCTCGACCAATTCCCTGGCCGCGTGCTGTTCACCGCCGAGTCCGCCGGCCGTCGCGAAGTATTGCTGGAGCTGCTCGAACGCCTGAAGCTGCGACCGAAGACTGTCGACAGCTGGCCGGATTTCGTCGCCGGCAAGGAGCGCCTGGCAATCACCATCGCGCCGCTCAATGACGGGCTGGTCCTGGATGATCCCGCCCTGGCACTGGTCGCCGAGAGCCCGTTGTTCGGCCAGCGGGTGATGCAGCGTCGCCGTCGCGAGAAGCGCGCAGACGCTGCCAACGACGCGGTCATCAAGAACCTTACCGAGTTGCGCGAGGGCGCGCCGGTGGTGCACATCGACCATGGCGTGGGCCGCTACCTGGGCCTGGCGACCCTGGAGATCGAAAACCAGGTCGCCGAATTCCTCACTCTGCAATACGCCGAGGGCGCCAAACTTTATGTGCCGGTGGCGAACCTGCACCTGATCGCCCGCTACACCGGCAGCGACGATGCGCTGGCGCCGCTGCATCGCCTGGGCTCGGAAACCTGGCAGAAAGCCAAGCGCAAGGCCGCCGAACAGGTGCGCGACGTGGCCGCCGAACTGCTTGACATCTACGCCCGTCGCGCCGCGCGCGAAGGCTACGCGTTCGCCGACCCGAAAGCCGATTACGAAACCTTCAGCGCCGGCTTCCCGTTCGAGGAAACCGTCGACCAGCAGACCACCATCGAAGCCGTGCGCGCCGACATGCTCGCGCCCAAGCCGATGGACCGACTGGTCTGCGGCGACGTCGGCTTCGGCAAGACCGAAGTGGCGATGCGCGCCGCGTTCATCGCCGTGCATGGCGGCAAGCAGGTGGCGATCCTGGTGCCGACCACCCTGCTCGCCCAGCAGCACTACAACAGTTTCCGCGACCGCTTCGCCGACTGGCCGGTGACTGTGGAAGTGATGAGCCGATTCAAGTCGACCAAGGAAGTGAATGCCGCCGTGGCCGACCTGGCCGAGGGCAAGATCGACATCGTCATCGGCACGCACAAACTGCTCCAGGACGACGTGAAATTCAAAAGCCTCGGCCTGGTGATCATCGACGAAGAACACCGCTTCGGCGTGCGCCAGAAAGAACAGCTCAAGGCCCTGCGTAGCGAAGTCGACATCCTGACCCTGACGGCCACGCCGATCCCGCGCACGCTGAACATGGCGGTGTCGGGCATGCGTGACCTGTCGATCATCGCCACGCCGCCGGCCCGCCGCCTGTCGGTGCGTACGTTCGTGATGGAGCAGAACAAAAGCACGGTCAAGGAAGCGCTGCTGCGGGAGTTGCTGCGCGGCGGCCAGGTCTATTACTTGCACAACGACGTGAAGACCATCGAGAAATGTGCCGCCGACCTCGCCGAGCTGGTGCCGGAAGCCCGTATCGGCATCGGCCACGGACAGATGCGCGAGCGCGAACTCGAACAGGTGATGAGCGACTTCTATCACAAGCGTTTCAACGTGCTGATCGCCTCGACCATCATCGAGACCGGCATCGACGTGCCGAGCGCCAACACCATCATCATCGAGCGCGCCGACAAGTTCGGCCTGGCCCAGTTGCACCAGTTGCGCGGCCGGGTCGGCCGTAGCCACCACCAGGCCTATGCCTACCTGCTGACGCCGCCGCGCCAGCAGATCACCCCAGACGCGGAAAAGCGCCTGGAGGCCATCGCCAACACCCAGGACCTCGGCGCCGGCTTCGTGCTGGCCACCAATGACCTGGAAATCCGTGGTGCCGGCGAATTGCTCGGCGACGGCCAGAGCGGCCAGATCCAGGCCGTCGGCTTCACGCTGTACATGGAAATGCTCGAACGCGCGGTCAAGTCGATTCGCAAGGGCGAGCAACCGAACCTCGACCAGCCTCTGGGCGGTGGGCCGGAGATCAATCTGCGGGTGCCGGCACTGATCCCGGAAGATTACCTGCCAGACGTCCATGCGCGGCTGATCCTCTACAAACGCATCGCCTCGGCCACCGACGAGGAAGGCCTGAAAGACTTGCAGGTGGAGATGATCGACCGCTTCGGGCTGCTGCCGGAGCCGACCAAGAACCTGGTGCGCACCACGCTGCTCAAACTCAAGGCCGAGCAACTGGGCATCAAGAAAGTCGACGGTGGGCCCAACGGCGGCCGCATCGAATTCGAAGCCCAGACGCCGGTCGATCCGCTGGTACTGATCAAGCTGATCCAGGGCCAGCCCAAACGCTACAAGTTCGAAGGCGCCACGATGTTCAAGTTCATGGTGCCCATGGAACGCCCGGAAGAGCGTTTTAATACCGTGGAGGCGCTGTTCGAGCGCCTCACTCCGACCACTGCTTGA	MPVLRLPLLPAAAGKQHWGNLPGAALSLAIAEAASAAKRFTLLLTADSQSAERLEQELAFFAPDLPVLHFPDWETLPYDLFSPHQDIISQRIASLYRLPELSHGVLVVPITTALHRLAPTQFLLGSSLVLDIGQKLDVEQMRTRLEASGYRYVDTVYEHGEFTVRGALIDLFPMGSKLPYRIDLFDDEIETLRTFDPENQRSIDKVQSIRLLPAKEFPLQKDAVTRFKARFRERFDVDFRRCPIFQDLSSGITPAGIEYYLPLFFEETSTLFDYLPQDTQVFSLPGIEQAAENFWNDVRNRYEERRVDPSRPLLPPAELFLPVEDCFARLKSWPRVVASQQDVETGVGRERFPARALPDLAIEAKATQPLAALAGFLDQFPGRVLFTAESAGRREVLLELLERLKLRPKTVDSWPDFVAGKERLAITIAPLNDGLVLDDPALALVAESPLFGQRVMQRRRREKRADAANDAVIKNLTELREGAPVVHIDHGVGRYLGLATLEIENQVAEFLTLQYAEGAKLYVPVANLHLIARYTGSDDALAPLHRLGSETWQKAKRKAAEQVRDVAAELLDIYARRAAREGYAFADPKADYETFSAGFPFEETVDQQTTIEAVRADMLAPKPMDRLVCGDVGFGKTEVAMRAAFIAVHGGKQVAILVPTTLLAQQHYNSFRDRFADWPVTVEVMSRFKSTKEVNAAVADLAEGKIDIVIGTHKLLQDDVKFKSLGLVIIDEEHRFGVRQKEQLKALRSEVDILTLTATPIPRTLNMAVSGMRDLSIIATPPARRLSVRTFVMEQNKSTVKEALLRELLRGGQVYYLHNDVKTIEKCAADLAELVPEARIGIGHGQMRERELEQVMSDFYHKRFNVLIASTIIETGIDVPSANTIIIERADKFGLAQLHQLRGRVGRSHHQAYAYLLTPPRQQITPDAEKRLEAIANTQDLGAGFVLATNDLEIRGAGELLGDGQSGQIQAVGFTLYMEMLERAVKSIRKGEQPNLDQPLGGGPEINLRVPALIPEDYLPDVHARLILYKRIASATDEEGLKDLQVEMIDRFGLLPEPTKNLVRTTLLKLKAEQLGIKKVDGGPNGGRIEFEAQTPVDPLVLIKLIQGQPKRYKFEGATMFKFMVPMERPEERFNTVEALFERLTPTTA				NA	NA	NA	NA	NA
D1-35_00850	1464	gap2		Glyceraldehyde-3-phosphate dehydrogenase-like protein	ATGTGGAAGGTTACCGTGACTCAGAAGCCCGACCAGTGTCTTGGTGAATGGATTGATCGTGAAGCACTCGCAGAAGCGATGATCCCTCTCATCGGTCAGCTCTACCGCAATAACAACGTGGTGAGCTCGATCTATGGCCGCAGCCTGATCAACCAGTCTGTCATCGCGATCCTCAAGGCCCACCGCTTTGCTCGCCACCGTTCTTCCGACGACAGCGAACTCTCCGTCCACGAAACATTCCCCCTGCTCAAGGCGATGAGCGAGCTCAAGCTCGGCGCGGCCTCGGTGGACCTGGGCAAGCTGGCGTTCAAATTCCGTAACGAAGCCAATGGCCGTAGTGCCGAACAGTTCGTGCGCGAAGAAATGGCTGACGTGGTTGGTCAGCAGAACGCTTCGGCTCGTAAAGGTACCGACGTGGTCCTGTACGGCTTCGGTCGTATCGGCCGTCTGCTGGCGCGTATCCTGATCGAGAAAACCGGTGGTGGCGACGGCCTGCGCCTGCGCGCCATCGTCGTGCGCAAGGGCGCCGAGAACGACCTGACCAAGCGTGCCAGCCTGCTGCGCCGCGACTCGGTGCATGGCTCCTTCAACGGCACCATTACCATCGACGAAGAAAACAACACCATCACCGCCAACGGTAACCTGATCCAGGTGATCTACGCGAAGAACCCGACCGAGGTGGACTACACCCAGTACGGCATCAAGGACGCCCTGCTGGTGGATAACACCGGTGTATGGCGCGATGCCGATGGCCTTGGCCAGCACCTGGCCTGCCCGGGTATCGACCGCGTTGTCCTGACCGCACCTGGCAAGGGCAAGCTGAAGAACATCGTTCACGGTATCAACCACACCGAAATCACCGCTGACGACAAGATCATCTCTGCCGCTTCCTGCACCACCAACGCCATCGTGCCGGTGCTCAAAGCCGTGAATGACAAGTTCGGCATCATCAACGGTCACGTCGAAACCGTTCACTCGTACACCAACGACCAGAACCTGATCGACAACTTCCACAAGGGCGATCGCCGTGGCCGTAGCGCCGCGTTGAACATGGTCATCACCGAAACCGGTGCCGCCACTGCTGCCGCCAAGGCCTTGCCTGAGCTCGCTGGCAAGCTGACCGGCAACGCGATCCGTGTGCCGACGCCGAACGTGTCGATGGCCATTCTCAACCTGAACCTTGAGAAAGCCGCCACCCGTGAAGAGATGAACGAGTACCTGCGCTACATGGCGCTGCACTCCGACCTGCACAAGCAGATCGACTTCGTCAACTCGCAGGAAGTGGTGTCCACTGACTTCGTCGGTTCGCGCCACGCTGGCGTTGTCGACGCCGAAGCGACCATCGTCCAGGACAATCGTGTTGTCCTGTACGTCTGGTATGACAACGAGTTCGGCTACAGCTGCCAGGTAGTTCGCGTAATGGAAGACATGGCTGATGTGAATCCGCCTGCGTTTCCGCGCTAA	MWKVTVTQKPDQCLGEWIDREALAEAMIPLIGQLYRNNNVVSSIYGRSLINQSVIAILKAHRFARHRSSDDSELSVHETFPLLKAMSELKLGAASVDLGKLAFKFRNEANGRSAEQFVREEMADVVGQQNASARKGTDVVLYGFGRIGRLLARILIEKTGGGDGLRLRAIVVRKGAENDLTKRASLLRRDSVHGSFNGTITIDEENNTITANGNLIQVIYAKNPTEVDYTQYGIKDALLVDNTGVWRDADGLGQHLACPGIDRVVLTAPGKGKLKNIVHGINHTEITADDKIISAASCTTNAIVPVLKAVNDKFGIINGHVETVHSYTNDQNLIDNFHKGDRRGRSAALNMVITETGAATAAAKALPELAGKLTGNAIRVPTPNVSMAILNLNLEKAATREEMNEYLRYMALHSDLHKQIDFVNSQEVVSTDFVGSRHAGVVDAEATIVQDNRVVLYVWYDNEFGYSCQVVRVMEDMADVNPPAFPR	PGPT0018000_129	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
D1-35_00851	1299	proP_1		Proline/betaine transporter	ATGCCTTCCAACACGAGCAACGGCAAGGCGATTTTTCGCGTTGTCAGCGGCAACTTCCTGGAGATGTTCGACTTCATGGTCTATGGCTTCTACGCCACGGCCATTGCCAAGACGTTCTTCCCGACCGACAGTGCCTTCGCCTCGCTGATGCTGTCCCTGGCGACATTCGGCGCCGGGTTCCTGATGCGTCCGCTGGGCGCGATCTTCCTTGGCGCCTACATCGACCGTCACGGCCGGCGCAAAGGCCTGATCATCACCCTCGCGATGATGGCCGCCGGCACGGTGCTGATCGCCTGTGTACCGGGTTACGCCACGTTGGGCGTGGCGGCGCCGCTGCTGGTATTGCTGGGCCGATTGCTGCAGGGCTTTTCCGCAGGCGTGGAGCTCGGTGGGGTCTCGGTGTACCTGGCGGAAATCTCTACGCCGGGGCGCAAGGGCTTTTTTGTCAGTTGGCAGTCCGCGAGCCAACAGGCCGCCGTGGTCTTTGCCGGTCTGCTGGGGGTTGGCCTCAATCATTGGCTGAACCCGCAAGAAATGGGCGAATGGGGCTGGCGCGTGCCGTTCCTGATCGGTTGCCTGATCGTACCGGTCATTTTTGTAATTCGCCGCTCGCTGGAAGAAACGCCGGAATTCCAGGCGAGAAAACACCGCCCTACCCTGTCGGAAATCGTCCGCTCCATTGGCCAGAACTTCGGCATTGTCCTGGCCGGCATGGCACTGGTGGTGATGACTACGGTGTCGTTCTACCTGATCACGGCCTACACGCCGACATTTGGCAAGGCTGAGCTCAACCTGTCGGAGCTGGATGCGTTGCTGGTCACGGTGTGTATCGGCTTGTCGAATTTCTTCTGGCTGCCAGTCATGGGCGCGCTTTCCGACAAGATCGGGCGCAAACCCCTGCTGCTGGCTGCGACAATCCTGGCGATCCTGACCGCCTACCCGGCGCTGTCCTGGCTGGTGGCGAACCCCAGCTTCAGCCATTTACTGATCGTCGAGCTGTGGTTGTCGTTCCTGTATGGATCGTACAACGGCGCCATGGTGGTCGCCCTGACGGAAATCATGCCGGTTGAAGTGCGTACTACTGGCTTTTCCCTGGCCTATAGCCTCGCGACGGCAACGTTCGGCGGGTTCACGCCGGCGGCCTGTACCTATCTGATCCATGTGCTGGATAACAAAGCGGCGCCGGGGATCTGGCTCAGTGGTGCGGCGGTGTTGGGGTTGATTGCGACGTTGGTACTGTTCAAGGGTAATCGGCATGAACTGCGCACGGCGCAGGCCTCTGTAGTGGGCGGTGCCTGA	MPSNTSNGKAIFRVVSGNFLEMFDFMVYGFYATAIAKTFFPTDSAFASLMLSLATFGAGFLMRPLGAIFLGAYIDRHGRRKGLIITLAMMAAGTVLIACVPGYATLGVAAPLLVLLGRLLQGFSAGVELGGVSVYLAEISTPGRKGFFVSWQSASQQAAVVFAGLLGVGLNHWLNPQEMGEWGWRVPFLIGCLIVPVIFVIRRSLEETPEFQARKHRPTLSEIVRSIGQNFGIVLAGMALVVMTTVSFYLITAYTPTFGKAELNLSELDALLVTVCIGLSNFFWLPVMGALSDKIGRKPLLLAATILAILTAYPALSWLVANPSFSHLLIVELWLSFLYGSYNGAMVVALTEIMPVEVRTTGFSLAYSLATATFGGFTPAACTYLIHVLDNKAAPGIWLSGAAVLGLIATLVLFKGNRHELRTAQASVVGGA	PGPT0001505_212	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_CITRATE_TRANSPORT,PGPT0001505-citA|tcuC-K03288	NA	NA
D1-35_00852	987	apbE	COG1477	FAD:protein FMN transferase	ATGCTGGCCGGCGTTGTGTCCGGCTGCGGCCGGGGCGATACCCTGGAACGCTTCGATGGCCCGACCATGGGCAGCCGTTATTCCGTCCAGTACGTCAGGCATGCCGCCACGCCCGGTCCGAACGTGGTGCAGGCCGAGGTGGAAAAAATTCTCGCTGAAGTGGATCGGCTGTTTTCCACCTATCGCAGCGATTCGGAAATCGAGCGCTTCAATGCCCTGCCTGGCGGCAGTTGCCTGACCATGCCGGGACCTGTGTTTGAACTTGTCCGGGTGGGTGAGCAGCTATCTTCGCAAAGCCATGGCGCGTTCGATCTGACGGTGGAGCCTTTGCTGAACCTGTGGGGCTTCGGCCCGCAATCCCGGCGAGAGGCGGTGCCCAGCGCCGAGGCCCTGGCCCTGGCGCGACGACAGGTTGGCCATGGCTACTTGCGGATCGAAGGCGACCGGTTATGCAAGGACGCCGCGGTGGAAGTCGATTTCAACAGCATCGCGGCGGGTTATGCCGTCGACCGCATCGCCGCGAAGCTCCAGGCTTTGGGCATCGACAGCTACCTGGCCGAAGCCACCGGGGAGCTCAAGGCTGTCGGGCACAAGCCGGATGGGTCGGCCTGGCGCATCGCCCTGGAAGAGCCTCGGAACGATCGGCAAATGGCTGAGCGTGTCATCGAGGTCAACGGCTACGGGGTTTCAACGTCGGGCGACTATCGTAAATATTTCGAGCAGGGCGGCAAGCGTTACTCCCACACCTTTGATGCGCGCACCGGGGCGCCGGTCCTACACAACCTGGCGTCAGTCACGGTAATTCATCCTTCAGCGATGTTGGCCGATGGACTATCGACGCTGTTGCTGATTCTCGGTCCCGAAGAGGGTTGGGATTATGCCCAGGAGCACGGCATCGGAGTATTTTTTGTGCTGCGCGATGGAGAGCGTTTCGTCGTACGCACAAACGATGCGTTTGAACGGATGGCCGGCGAAAAAACCCAATGA	MLAGVVSGCGRGDTLERFDGPTMGSRYSVQYVRHAATPGPNVVQAEVEKILAEVDRLFSTYRSDSEIERFNALPGGSCLTMPGPVFELVRVGEQLSSQSHGAFDLTVEPLLNLWGFGPQSRREAVPSAEALALARRQVGHGYLRIEGDRLCKDAAVEVDFNSIAAGYAVDRIAAKLQALGIDSYLAEATGELKAVGHKPDGSAWRIALEEPRNDRQMAERVIEVNGYGVSTSGDYRKYFEQGGKRYSHTFDARTGAPVLHNLASVTVIHPSAMLADGLSTLLLILGPEEGWDYAQEHGIGVFFVLRDGERFVVRTNDAFERMAGEKTQ	PGPT0000430_2450	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-Fmn|Dmk|Ppl|Ndh|Eet_SYSTEM,PGPT0000430-nosX|apbE|yojL|fmnB-K03734	NA	NA
D1-35_00853	1395	sthA	COG1249	Soluble pyridine nucleotide transhydrogenase	ATGGCTGTCTATAACTACGACGTGGTGGTACTGGGTTCCGGCCCGGCGGGGGAAGGTGCGGCAATGAACGCCGCCAAGGCAGGGCGCAAGGTGGCGATGGTCGACAGCCGTCGGCAGGTTGGCGGCAACTGCACCCACTTGGGTACCATCCCGTCCAAGGCCTTGCGTCACTCGGTCCGGCAGATCATGCAGTTCAACACCAACCCGATGTTCCGGGCAATCGGCGAGCCGCGCTGGTTCTCCTTCCCGGACGTGCTCAAGAGCGCCGAGAAGGTGATTTCCAAGCAAGTAGCCTCGCGTACCGGCTACTACGCCCGCAACCGTGTGGACGTGTTTTTCGGCACCGGCAGCTTCGCCGACGAGCAAACGGTCGAAGTGGTCTGTGGCAATGGCGTCGTCGAGAAACTGGTGGCCAAGCACATCATCATCGCCACCGGCTCGCGTCCGTATCGCCCGGCGGACATCGATTTCAACCACGCACGTATCTACGATAGCGACACGATCCTGAGCCTGGGGCATACCCCGCGCAAACTTATCGTCTACGGTGCCGGCGTGATCGGTTGCGAATACGCCTCGATCTTCAGCGGCCTGGGCGTGCTGGTGGAACTGGTGGACAACCGTGGCCAATTGCTGAGCTTCCTGGACTCGGAAATTTCCCAGGCCCTGAGCTACCACTTCAGCAACAACAACATCACCGTGCGCCACAATGAAGATTACGAGCGCGTCGAAGGCGTGGACAACGGTGTGATCCTGCACCTCAAGTCCGGTAAGAAGATCAAGGCCGACGCCTTGCTCTGGTGCAACGGCCGCACCGGCAACACCGACACCCTGGGCCTGGAAAACATCGGCGTGAAGGTCAACAGCCGGGGCCAGATCGAAGTTGACGAGAACTACCGCACCTGCGTGCCGAACATCTACGGTGCCGGTGACGTGATCGGCTGGCCGAGCCTGGCCAGTGCCGCCCACGACCAGGGCCGTTCGGCCGCCGGCAGCATCGTCGACAACGGCAGCTGGCGTTTCGTCAATGACGTGCCGACCGGCATCTACACCATTCCGGAGATCAGCTCGATCGGCAAGAACGAGCAGGAGCTGACCCAGGCCAAGGTGCCTTACGAGGTCGGCAAGGCCTTCTTCAAGAGCATGGCGCGGGCGCAGATCGCCGGCGAGCCGCAAGGCATGCTGAAAATCCTGTTCCACCGCGAGACCCTGGAAGTGCTGGGCGTGCACTGCTTCGGCTACCAGGCCTCGGAAATCGTCCACATCGGCCAGGCGATCATGAACCAGCCGGGCGAACTGAACACGTTGAAGTACTTCGTCAACACCACGTTCAACTACCCGACCATGGCCGAAGCCTATCGGGTAGCGGCCTACGACGGGCTCAACCGGCTTTTTTGA	MAVYNYDVVVLGSGPAGEGAAMNAAKAGRKVAMVDSRRQVGGNCTHLGTIPSKALRHSVRQIMQFNTNPMFRAIGEPRWFSFPDVLKSAEKVISKQVASRTGYYARNRVDVFFGTGSFADEQTVEVVCGNGVVEKLVAKHIIIATGSRPYRPADIDFNHARIYDSDTILSLGHTPRKLIVYGAGVIGCEYASIFSGLGVLVELVDNRGQLLSFLDSEISQALSYHFSNNNITVRHNEDYERVEGVDNGVILHLKSGKKIKADALLWCNGRTGNTDTLGLENIGVKVNSRGQIEVDENYRTCVPNIYGAGDVIGWPSLASAAHDQGRSAAGSIVDNGSWRFVNDVPTGIYTIPEISSIGKNEQELTQAKVPYEVGKAFFKSMARAQIAGEPQGMLKILFHRETLEVLGVHCFGYQASEIVHIGQAIMNQPGELNTLKYFVNTTFNYPTMAEAYRVAAYDGLNRLF	PGPT0013495_807	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013495-sthA-K00322	NA	NA
D1-35_00854	723	ugpQ	COG0584	Glycerophosphodiester phosphodiesterase, cytoplasmic	GTGACCCTCATTTATGGCCACCGCGGCGCCAAGGGCGAAGCACCGGAAAACACCCTCACCGGCTTCCAGGAATGCCTCAAGCACGGCGTACGCCGTTGCGAGCTGGACCTGCACCTGTCCATGGACGGCGAGTTGATGGTGATCCATGACCCGACCCTCAAGCGCACCACCGATCGCCGGGGCAAGGTGGTCGAACACACCGCCGCTGAACTGGTGACTTATGACGCGCGCAAGGGTGGCCCGGGCTGGATCAAGCCGTGCCCGATTCCACGCCTGGAAGAGTTGTTCGAGAAGTGTGATTTCGAGCACTGGCAACTGGAGGTGAAAAGCGCCTCACGCACCCGCGCCGCCGCCACCGTGCTGGGCATCCGTGAAATGGCCCAGCGCTTCGGCCTGCTGGACAAAATCACCATCACTTCCAGTTCCCGGGAAGTGCTCAAGGCCGCGCTGGATCTGACGCCGGACATTTCCCGTGGACTGGTCGCCGAATACGCCTGGCTCGACCCGTTGAAGGTCGCCCAGAGCTATGGCTGTGAGATTCTGGCGCTGAACTGGACCCTGTGCACGCCGGAACGCCTGATCAAGGCGCAGCGCCAGGGGCTGCATGTGTCGGTGTGGACCGTCAACGAGCCCGCGCTCATGCGCAGGCTCGCCGACTTTGGCGCTGACAGCCTGATTACAGACTTTCCCGGTTTGGCCACCGCCACCCTCGAGAATTGCTGA	MTLIYGHRGAKGEAPENTLTGFQECLKHGVRRCELDLHLSMDGELMVIHDPTLKRTTDRRGKVVEHTAAELVTYDARKGGPGWIKPCPIPRLEELFEKCDFEHWQLEVKSASRTRAAATVLGIREMAQRFGLLDKITITSSSREVLKAALDLTPDISRGLVAEYAWLDPLKVAQSYGCEILALNWTLCTPERLIKAQRQGLHVSVWTVNEPALMRRLADFGADSLITDFPGLATATLENC	PGPT0018470_7944	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
D1-35_00855	591			hypothetical protein	ATGTCGACATTAGATGAAGAAGATCGCCGCGAATACTACCGTATCGAGGACACGATCGCACTGGAAATTCGGCCCCTGTCCATTCCTGAAGCTGCCAGCCAGGAAGTGTTGCAGGATGAGTCCCCACTGTTCAACCTGCTCAGCGAGCTGCACCTGAGCGAGTTCGAATCACAACACCTGTTGCGCCAGATCAGCGAGCGCGAGCGCAGCATCGCGGCCTACCTCAAGGCCATGAACAAACGCATCGACCTGCTCAGCCAGGTCATCGCCGTAACGGTGCTCGGCGAAATCGGCGATCCCCAGCCGGTAATCATTTCCGAAGGCGGCATCGATTTCCAATACCCAAGCGCCATTGCTGTCGGCGCGCACCTGTCGGTCAAGCTGGTGCTGATGCCCCAGGCCCTGGGGCTGTTGTTGCGCGCCCGCGTCACCCATTGCGACCCCAAGGGCAACGGTTATGACGTAGGCACCGAGTTTGAGCACCCGACCGACGCCCAGCGCCAATTGCTGGCCCGCTACATCCTGCAGAAGCAGGCGCAGGAACGGCGCCTGGCCCGGGAACTGAACGAATCTGGCATCGATAAGGAATAA	MSTLDEEDRREYYRIEDTIALEIRPLSIPEAASQEVLQDESPLFNLLSELHLSEFESQHLLRQISERERSIAAYLKAMNKRIDLLSQVIAVTVLGEIGDPQPVIISEGGIDFQYPSAIAVGAHLSVKLVLMPQALGLLLRARVTHCDPKGNGYDVGTEFEHPTDAQRQLLARYILQKQAQERRLARELNESGIDKE				NA	NA	NA	NA	NA
D1-35_00856	1251	lolE_1	COG4591	Lipoprotein-releasing system transmembrane protein LolE	ATGTTCAGACCTCTCTTCGTATTCATCGGCACGCGTTATACCCGTGCAAAGCGTCGCAATCATTTCGTATCGTTCATTTCCCTGACGTCCATCATCGGCCTTGCCCTTGGCGTGGTCGTGATGATCGTCGTGCTGTCGGTCATGAACGGCTTCGACCATGAAATGCGCACCCGCGTGCTCGGCATGGTGCCCCACGCGACCCTCGAAACCGGCGAAGCCATCAGCGACTGGCCAAGCCTGGCCGCCAAGGTCAAGCAGAACCCGCAGGTGCTGGCCGTTGCGCCCTTCACCCAGATGCAGGGGCTGCTGACCAACGACGGCAAGGTCTCCAAGGTCTTGCTCAATGGCATCGATCCCGGGCTGGAGCGGCAGGTGTCGATCATCGACAACTTCATGCGGCAGGGCAAACTCGACGACCTCGCGCCGGGCAGCTTCGGTATCGTGATCGGCGACAAGGCGGCGACCAAGCTCGGCGTGGCCATCGGCGACAAGCTGACGTTTGTCGCGCCGGAGGTCACTGTCACTCCAGGCGGCATGTTCCCGCGCATGAAGCGCTTCACCGTGGTCGGCATCTTCCATGTTGGCGCCGGCGAGCTGGACGGTTACCTGGGGGTGACCAACCTTCAGGACCTCGCGCGCCTGCATCGCTGGAAACCGGATCAGGTCCAGGGGCTGCGGTTGAAGTTCGACGACCTGTTCCAGGCGCCGCGCGTGGCGTGGAACATCGCCCAGCAGCTCGGCGAAGACCGTTATTACGCCCGCGACTGGACCCGCACCCATGGCAACCTGTATCAGGCGATCCGCATGGAAAAAGCCATGATCGGCCTGCTCCTGTTGCTGATCGTCGCCGTGGCGGCGTTCAACATCATTTCCACGCTGGTGATGGTGGTGAACGACAAGAAAGGCGACATCGCCATCCTGCGCACCCTCGGCGCCACGCCGGGGCAGATCATGCGGATCTTCATGGTCCAGGGCACCGTCATCGGCGTCATCGGCACGTTTGTAGGCGCCTTGGTCGGGATGTTCGCCGCACTGAATGTCAGCGCCGCGATTGCCGCCCTCGAAGGGCTGATCGGGCACAAGTTTCTCAACGCCGACGTGTACTTCATCGACTACCTGCCCTCGCAGTTGCAGGCCGATGACGTGTTGATGGTCTGCGGCGCCGCGTTGATCCTGAGTTTCCTCGCCACCCTGTATCCAGCCTGGCGTGCCGCGCGCACCCAGCCTGCGGAGGCGTTACGTTATGAGTGA	MFRPLFVFIGTRYTRAKRRNHFVSFISLTSIIGLALGVVVMIVVLSVMNGFDHEMRTRVLGMVPHATLETGEAISDWPSLAAKVKQNPQVLAVAPFTQMQGLLTNDGKVSKVLLNGIDPGLERQVSIIDNFMRQGKLDDLAPGSFGIVIGDKAATKLGVAIGDKLTFVAPEVTVTPGGMFPRMKRFTVVGIFHVGAGELDGYLGVTNLQDLARLHRWKPDQVQGLRLKFDDLFQAPRVAWNIAQQLGEDRYYARDWTRTHGNLYQAIRMEKAMIGLLLLLIVAVAAFNIISTLVMVVNDKKGDIAILRTLGATPGQIMRIFMVQGTVIGVIGTFVGALVGMFAALNVSAAIAALEGLIGHKFLNADVYFIDYLPSQLQADDVLMVCGAALILSFLATLYPAWRAARTQPAEALRYE	PGPT0024510_1556	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_TRANSPORT,PGPT0024510-lolC_E-K09808	NA	NA
D1-35_00857	699	lolD_2	COG1136	Lipoprotein-releasing system ATP-binding protein LolD	ATGAGTGAGTCGGGCATGAGTGAAAAAGCAATCTTGAGCTGCCGCAACCTGGGCAAGTCCTACGAGGAAGGCCCGGAATCGGTGGTGGTGTTGTCGGGCCTCCAATTGGAGCTGCATCCCGGTGAACGCGTGGCGATCGTCGGGACTTCCGGATCGGGCAAAAGTACCTTGTTGAACTTGCTCGGTGGCCTCGATACGCCGACCGCCGGCAGCGTCTGGCTGGCGGGCGAAGAGCTTTCGGCGCTGAACGAAAAGGCCCGCGGCCTGTTGCGTAACCGCTCCCTGGGCTTCGTCTACCAGTTCCACCATCTGCTGCCCGAGTTCACCGCGCTGGAAAACGTCTGCATGCCGCTGTTGATCGGCCGCACCGCTATTCCCGAAGCCCGCCAGCGAGCTACGGCGTTGCTGGAGCGCGTGGGACTGGGCCATCGCCTGGAGCACAAGCCGGCCGAGCTGTCCGGCGGCGAGCGCCAGCGCGTGGCGATTGCCCGGGCCCTGGTCAACAAGCCTGGGCTGGTGATGCTCGACGAGCCGACCGGCAACCTCGATTCCCACACCGCGCAAGGCATTCAGGACTTGATGCTGGAACTCAGCACCTCGATGCGCACGGCGTTCCTGGTGGTGACCCACGACATGAACCTGGCCCGGCAGATGGACCGCGTCCTGCATTTGCAGGAAGGTTGCCTGACGCCGATCTGA	MSESGMSEKAILSCRNLGKSYEEGPESVVVLSGLQLELHPGERVAIVGTSGSGKSTLLNLLGGLDTPTAGSVWLAGEELSALNEKARGLLRNRSLGFVYQFHHLLPEFTALENVCMPLLIGRTAIPEARQRATALLERVGLGHRLEHKPAELSGGERQRVAIARALVNKPGLVMLDEPTGNLDSHTAQGIQDLMLELSTSMRTAFLVVTHDMNLARQMDRVLHLQEGCLTPI	PGPT0024515_1171	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_TRANSPORT,PGPT0024515-lolD-K09810	NA	NA
D1-35_00858	1245	lolE_2	COG4591	Lipoprotein-releasing system transmembrane protein LolE	ATGTTCAGACCGTTATCGATTTTCATCGGCACGCGCTATACCCGCGCCAAGCGCCGCAATCGTTTTGTCTCGTTCATTTCCATGACCTCGATGATCGGCCTCGCCCTTGGCGTGTTGGCGATGATTGTCGTGCTGTCGGTGATGAACGGCTTCCAGCGCGAAATGAGCTCGCGCATCCTCGGCATGGTGCCTCACGCCACCATCGTCGGGGTCAACCCGATCGACGATTGGCAGCCGGTGGCCGCCGCGGCATTAAAAAATCCTGAAGTGACGGCTGCGGTGCCGTTCACCGAGATGGAAGGGATGTTGAGCCATAAAGGTTCGATGCAGCCGATCCAGATCAGCGGCGTCGATCCGGCCCATGAAGGCAAGGTCTCGATTGTCGCCCAGCACATCGTCCAGGGGCGTCTCGATGCCTTGAAGCCCGGCGAGTTCGGCGTGGTGATCGGTGAGATCACCGCGCGACGCTTTCGCTTGAATGTCGGCGACAAGGTCACCTTGATCGTGCCGGAAGTCAGCACCGCGCCGGGGGGCATCACCCCGCGGATGCAACGACTGAATGTGGTGGGGGTGTTCAAGGTCGGCGCCGAGCTGGACGGTTCCATGGCGCTGATTCACTTGGCCGACGCCGCGCAGATGCAGCATTGGCAACCGAACCAGGTACAGAGCGTGCGTCTGGCGGTGAAAGATTTGTACGCAGCGCCGAAAGTCTCCGGTGACATCGCCACCGGGCTTGGCGCGGCCTACAAGGCTGACGACTGGACCCACACTCAGGGCAGTCTGTTCAGTGCGATGAAAATGGAAAAAACCATGATCGGCCTGTTGCTGTTGATGATCGTCGCGGTGGCGGCGTTCAACATCATCGCCACGTTGATCATGGTGGTGAACGACAAGGGCGCGGACATCGCGATCCTTCGTACCATCGGCGCCACGCCGCGACAGATCATGGCAATCTTCATGGTCCAGGGCACGGTGATCGGCGTGGTGGGCACGTTGATCGGCGGGGTGCTGGGGGTGATTGCGGCGTTGAATGTCAGCGCGCTGGTGGGTTGGCTGGAAAGGGTCAGCGGCCAGCACATTTTCAGTTCCGATGTGTACTTCGTCAGCAACCTGCCGTCGGAACTGCAGCGTGGCGACGTGGTGCTGATCTGCTCCGCCGGGTTCATCCTCAGCTTCCTCGCCACCGTATACCCGGCCTGGCGCGCGGCGAAGATCGAACCTGCGCAGGCGTTGCGGTATTCCTGA	MFRPLSIFIGTRYTRAKRRNRFVSFISMTSMIGLALGVLAMIVVLSVMNGFQREMSSRILGMVPHATIVGVNPIDDWQPVAAAALKNPEVTAAVPFTEMEGMLSHKGSMQPIQISGVDPAHEGKVSIVAQHIVQGRLDALKPGEFGVVIGEITARRFRLNVGDKVTLIVPEVSTAPGGITPRMQRLNVVGVFKVGAELDGSMALIHLADAAQMQHWQPNQVQSVRLAVKDLYAAPKVSGDIATGLGAAYKADDWTHTQGSLFSAMKMEKTMIGLLLLMIVAVAAFNIIATLIMVVNDKGADIAILRTIGATPRQIMAIFMVQGTVIGVVGTLIGGVLGVIAALNVSALVGWLERVSGQHIFSSDVYFVSNLPSELQRGDVVLICSAGFILSFLATVYPAWRAAKIEPAQALRYS	PGPT0024510_2223	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_TRANSPORT,PGPT0024510-lolC_E-K09808	NA	NA
D1-35_00859	1347	cusS	COG0642	Sensor histidine kinase CusS	GTGAGTCGCCGATGGTCGCTGAGCAATCGGTTGGCGCTGCTTTTTGCCGCCTGCACTGCCATCGTGTCGTTGTTTGCCGGCGTGCTGTTCAGCCGCGGCAGCGAGGCACACTTCATCGAACTGGACCAGCAGTTGCTCGAAGCCAAATTGACTGGCGTGCGCCGCGCCCTGCAAGATGGCCCCAACCCCCAGGCGCGCCTGGCGGACGAGTTGAGCCGCCAGCCGGACCTTGCCTTGCGCATCAAGGACCGCGATGGCGTGCGCTGGCATGACAGCTCGATCCGCCTGCCGGCCCAGGTGCCTGAACGGCCGGGCCTGTCGACCCTCAACGACACCGACAATGACTACCGCGTATTAAACGCGCCGCTGGATCCCAATCGTGCGGATTCGCCCCAACTGACACTGTTGCTGGACATCACCCACCACCAGCATTTCCTGCAACGCATGCAGCGTCTGATCTGGCTGACCGTCGGCCTCTCGGCGCTGGCGACCGCCCTGCTTGGCGCCTGGGCCGCCCGGCGTGGCTTGCGCCCCCTGCGCCGTATGGGCGCCATTGCCAGCAGCGTCTCGGCACGTTCGCTCAATGCTCGACTGCCAGAAGAACACATGCCCGCCGAACTGGCGGAACTGGCCCACAGCATCAACGACATGCTTGGACGCCTCGACGATGCCTTCCAGCGCCTCTCCGCCTTCTCCGCCGATATCGCCCATGAGCTGCGTACGCCGTTGTCGAATCTGCTGACCCATACCCAGGTCACGCTCACCCGCGAACGCTCGCTGGACGACTATCGCGAAGCCCTGCACAGCAATCTCGAAGAGCTGCAATGGATGGCGCAACTGGTCAACGACATGCTTTACCTGGCCAAGGCCGACCATGGCTTGCTGGCCGTCCAGCGCGAGCCGCTGGAGCTGGCGCTGGAAACGGACCTGCTGCTGGAGTTTTTCGCGCCACTGGCCGAAGACGCCGAGGTAAAGCTGAGCCGCGAAGGGAACGGACGTATCGAGGGCGACCGCAGCATGCTGCGCCGCGCGCTGTCCAATCTGCTGGACAACGCCCTGCGCTTCAGCCGCGGTGGTGGCGAGGTGCGGATACGGATTGTCGACGGGCCGCAGACTGTGCGCATCGATGTGGAAAACAGTGGCGGGGAAATTCCGGCGGCGCTGCTGCCGCGCCTGTTCGACCGTTTTTACCGCGCCGACCCGGCTCGCCAGGAAGGCAGCAGTGAACACGCCGGGCTGGGGCTGGCCATTACCCGCTCGATTATCCGCGCCCATGGCGGGGATATCCGCTGTGAATCGGCCGATGGCTGGACGCGGTTCGTGGTGGAGTTGCCCAAGAGCAATTAA	MSRRWSLSNRLALLFAACTAIVSLFAGVLFSRGSEAHFIELDQQLLEAKLTGVRRALQDGPNPQARLADELSRQPDLALRIKDRDGVRWHDSSIRLPAQVPERPGLSTLNDTDNDYRVLNAPLDPNRADSPQLTLLLDITHHQHFLQRMQRLIWLTVGLSALATALLGAWAARRGLRPLRRMGAIASSVSARSLNARLPEEHMPAELAELAHSINDMLGRLDDAFQRLSAFSADIAHELRTPLSNLLTHTQVTLTRERSLDDYREALHSNLEELQWMAQLVNDMLYLAKADHGLLAVQREPLELALETDLLLEFFAPLAEDAEVKLSREGNGRIEGDRSMLRRALSNLLDNALRFSRGGGEVRIRIVDGPQTVRIDVENSGGEIPAALLPRLFDRFYRADPARQEGSSEHAGLGLAITRSIIRAHGGDIRCESADGWTRFVVELPKSN	PGPT0004980_1468	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0004980-cusS|copS|silS-K07644	NA	NA
D1-35_00860	681	copR_2		Transcriptional activator protein CopR	ATGAAACTGCTGATCGTCGAAGACCAACTGAAAACCGGCCAGTACTTGCGCCAAGGTTTGAGCGAAGCCGGGTTCAACGCCGATCTGGTGGCTGATGGCAGCACCGGCCAGCAACTGGCCGTGAGCGGTGAATACGCGCTGTTGATTCTTGACGTGATGCTACCCGGCCGCGATGGCTGGCAGATTCTGCAAGCGGTGCGCGGCGCCGGGCTGGACACGCCGGTGCTGTTTCTCACCGCGCGGGATGCGATAGAGGATCGTGTGCATGGCCTGGAACTGGGTGCCGATGATTACCTGATCAAGCCCTTCGCCTTTTCCGAACTGCTGGCCCGGGTGCGCAGCCTGCTGCGCCGAGGCAGTTCGGCGGCCCAGGAAACCAGCCTGCAACTGGCGGACCTGCGGCTGGACTTGATCCGGCGCCGGGTAGAACGCGGCGGCAAACGCATCGACCTGACCGCCAAGGAATTCGCCCTGCTGGAGATGCTGCTGCGGCGCCAAGGCGAGGTATTGCCAAAGTCGTTGATTGCCTCACAAGTCTGGGACATGAATTTCGACAGTGACACCAATGTCATCGAGGTGGCGATCCGGCGTCTGCGGATCAAGATCGACGACGAGTTTCCCGACAAGCTGATCCACACCGTGCGCGGCATGGGCTATGTCCTTGAAGAGCGCAACCTGTGA	MKLLIVEDQLKTGQYLRQGLSEAGFNADLVADGSTGQQLAVSGEYALLILDVMLPGRDGWQILQAVRGAGLDTPVLFLTARDAIEDRVHGLELGADDYLIKPFAFSELLARVRSLLRRGSSAAQETSLQLADLRLDLIRRRVERGGKRIDLTAKEFALLEMLLRRQGEVLPKSLIASQVWDMNFDSDTNVIEVAIRRLRIKIDDEFPDKLIHTVRGMGYVLEERNL	PGPT0004105_839	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
D1-35_00861	831	queF	COG0780	NADPH-dependent 7-cyano-7-deazaguanine reductase	ATGCATCCCGCAGCCGAACACTCGCCGCTGGGCAAATCCAGCGAATACATCGCCACGTACACGCCGTCACTGCTGTTTCCGATCCCGCGAACCGCGAAATGGGCGGAACTGGGCCTGACGGCCGAGACCCTGCCGTACAAGGGCGTGGATTTCTGGAACTGTTTCGAGCTGTCATGGCTGCTGCCGTCCGGCAAGCCGGTTGTCGCCATCGGTGAATTCGCGATCCCGGCGGATTCGCCGAATATCATCGAATCCAAATCCTTCAAGCTGTACCTGAACTCCTTGAACCAGACGGCGTTCAGCGACAGCGCGAGCCTGGAAGCCACGCTGCGCCAGGACCTTTCCGCCGCGGCGGGCAAGCCGGTAGGTGTGCGGATTCGCAGCCTCAAGGATGTCGAGAGCGAAGGCACCGTTGCATTACCCGGTGTCTGCGTTGACGACCTGGACATCACTGTCGACTCCTACGAGCACCCGCGTCCGGAGCTGCTGCGTTGCGATGCATCGCGTATCGTCGAGGAAAGCCTGCACAGCCATCTGCTCAAGTCCAACTGCCCGGTAACCAGCCAGCCGGACTGGGGCAGCGTGGCGGTGGAGTATCGCGGCGCGGCGCTGGACCACGCCAGCCTGCTGGCTTACATCGTCAGCTTCCGCCAGCATTCGGACTTCCATGAACAGTGCGTCGAGCGGATCTTCCTCGACCTGCAACGCTTGCTCAAGCCGGAGAAATTGACGGTGTATGCGCGGTATGTGCGCCGGGGTGGGTTGGATATCAATCCGTATCGCAGCACCGAGGATGTACAACTGCCGAACCAGCGTCTGGTTCGGCAATAA	MHPAAEHSPLGKSSEYIATYTPSLLFPIPRTAKWAELGLTAETLPYKGVDFWNCFELSWLLPSGKPVVAIGEFAIPADSPNIIESKSFKLYLNSLNQTAFSDSASLEATLRQDLSAAAGKPVGVRIRSLKDVESEGTVALPGVCVDDLDITVDSYEHPRPELLRCDASRIVEESLHSHLLKSNCPVTSQPDWGSVAVEYRGAALDHASLLAYIVSFRQHSDFHEQCVERIFLDLQRLLKPEKLTVYARYVRRGGLDINPYRSTEDVQLPNQRLVRQ				NA	NA	NA	NA	NA
D1-35_00862	267			hypothetical protein	ATGCCTGCCCGCCGCGAATTGCAAGAACAACTGAATGCCCTGCGCGAGCAATTGGAACAGAACCCGCCGCTGTCTGAGTCAGAGCGCGAAAACCTGCACCAGTTGATGGCGCAGATCGACTCTGAGATCCAATTGGAAAACCAACTTCAGGACAACAACCTGGTCGACGGCGTGAACTTGGCCGTGGAACGTTTTGAGGTGGACCATCCGACGATCGCCGGAACACTGCGCAATATCGTGAACACCTTGGGCAGCATGGGGATCTAA	MPARRELQEQLNALREQLEQNPPLSESERENLHQLMAQIDSEIQLENQLQDNNLVDGVNLAVERFEVDHPTIAGTLRNIVNTLGSMGI				NA	NA	NA	NA	NA
D1-35_00863	621	phnX_1		Phosphonoacetaldehyde hydrolase	ATGCCCCGCGCCGAAACCAAGCCGCTCCCCGCCCCCAGCCTGACGGCCGTCCTGTTTGGCCTCAGCGGATGCCTGGTTGATTTCGGCTCGCGTGCTCGCCAGCCAGGGATTGTGCCGGCCGAGCACACGCAACTTACACCCGGGGCGTTGGAAAGCCTGCAACGCCTGCGGCAGCTCGACATCCCCTGCGCCTGGCTTGACGAATTGCCGCCCGCCATCAGCCACGGGTTGGCGGCCTCACTGCCGGCATGGGTGAAATCTCCGCAACTTCCTGCAACAAATAATCCGTGGCCAGCGCCCCATGCCTGTTGGCAAGCCCTTATGGCGCTGGATGTCAGGCAACTGGATGGCTGCGTATTGGTCAGCGGCGAACCGAAGCTGTTGCAGTCGGGGCTAAACGCCGGTCTATGGACCATCGGGCTGGCATCCTGCGGGTCGCTGTGCGGCCTTACGCCCGCCGAATGGCAAGCCTTGAGCCAGCAGGAACGGGAAATCAAACGGGCCAAGGCCACCGTGCAATTGTTCGGCCTGGGCGTGCATTCGGTGATCGATCACCTGGGCGAACTCGATACCTGCCTGGCCGATATCAGCCTGCGTCGCCTCAAAGGCGAGAAGCCGTGA	MPRAETKPLPAPSLTAVLFGLSGCLVDFGSRARQPGIVPAEHTQLTPGALESLQRLRQLDIPCAWLDELPPAISHGLAASLPAWVKSPQLPATNNPWPAPHACWQALMALDVRQLDGCVLVSGEPKLLQSGLNAGLWTIGLASCGSLCGLTPAEWQALSQQEREIKRAKATVQLFGLGVHSVIDHLGELDTCLADISLRRLKGEKP				NA	NA	NA	NA	NA
D1-35_00864	690	mlaA_1	COG2853	Intermembrane phospholipid transport system lipoprotein MlaA	ATGCGCTGGAGCCATCGTCTAGCTCAGCTGTGTCTATCTGCCAGCGTTCTGCTGGTGCCGTTCGCCGCTCACGCCGCCACGGAAGAAGATCCTTGGGAAAGCGTCAACCGTCCGATATTCACCTTCAACGACACCATCGATACCTACGCGCTGAAGCCGCTGGCCCAGGGTTACCAGTACGTGACGCCGCAGTTCCTCGAGGACGGCATCCACAATATGTTTCGCAACATCGGTGACGTCGGCAACCTGGCCAACGATGTGCTGCAAGCCAAGCCGGCTGCCGCCGGAGTCGATACTGCCCGGTTGATCTTCAACACGACGTTCGGCCTGCTGGGCTTCTTCGATGTCGGGACCCAGATGGGGCTGCAGCGCAACGATGAAGATTTCGGCCAGACCCTGGGATATTGGGGGCTGGGCAGCGGCCCCTACCTGATGTTGCCACTGCTGGGGCCGAGCACTCTGCGTGATGCGCCGGCCAAACTGGTCGACAGCTACGCCACCCCATACCCCTACATCGACAACGTCTCGGTGCGTAATTCGATCTGGGGCCTGAACATCGTCGATACCCGCGCCAGCCTGTTATCGGCCGAGAAAATGGTCAGTGGCGACAAGTATGTGTTCCTGCGCAACGCCTTCCTGCAGAACCGTGAATTCAAGGTCAAGGATGGTCAGGTCGAAGACGATTTCTGA	MRWSHRLAQLCLSASVLLVPFAAHAATEEDPWESVNRPIFTFNDTIDTYALKPLAQGYQYVTPQFLEDGIHNMFRNIGDVGNLANDVLQAKPAAAGVDTARLIFNTTFGLLGFFDVGTQMGLQRNDEDFGQTLGYWGLGSGPYLMLPLLGPSTLRDAPAKLVDSYATPYPYIDNVSVRNSIWGLNIVDTRASLLSAEKMVSGDKYVFLRNAFLQNREFKVKDGQVEDDF	PGPT0024485_2077	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024485-mlaA|vacJ-K04754	NA	NA
D1-35_00865	1182	rssB_1		Regulator of RpoS	ATGCCAAAAACCAGTGCCACGCTGCTGATAATCGATGATGACGAAGTGGTGCGAGCCAGCCTCGCCGCCTACTTGGAAGACAGTGGTTTCAGCGTCCTGCAGGCCAGCAACGGCCAGCAGGGTCTTCAGGTATTCGAGCAGGACAAGCCCGACCTGGTCATCTGCGACCTGCGCATGCCGCAGATGGGCGGACTCGAACTCATTCGCCAGGTCACCGAGCTGTCGTCACAGACTCCGGTGATCGTGGTGTCGGGCGCGGGGGTGATGAACGACGCGGTCGAGGCATTGCGCCTGGGCGCGGCGGATTACCTGATCAAGCCCCTCGAAGACCTTGCCGTGCTCGAGCATTCGGTGCGTCGAGCCCTGGACCGCTCGCGGCTGTTGGTCGAGAACCAGCGCTATCGCGAGAAGCTGGAAACGGCCAACCGTGAGCTGGAAGCCAGCCTGAACCTGTTGCAGGAAGACCAGAACGCCGGGCGTCAGGTGCAGATGAACATGCTGCCGGTCAGCCCCTGGACCGTCGACGGTTTCCGTTTTGCCCACCAGATCATCCCGTCGTTGTACCTGTCGGGTGATTTTGTCGATTATTTCCGGGTCGACGAGCGCCGAGTGGCTTTCTACCTGGCGGATGTTTCCGGACACGGTGCTTCGTCGGCATTCGTGACCGTACTGCTGAAGTTCATGACCACGCGCCTGCTGTTCGAATCCAAGCGCAATGGTACGTTGCCCGAATTCAAGCCTTCGGAGGTCCTTGGGCATATCAACCGAGGCCTGATCAGTTGTAAGCTGGGCAAACACGTCACGATGGTCGGTGGAGTCATCGACGAGGAGACTGGTTTGTTGACGTATAGCATCGGCGGTCACCTGCCGTTGCCCGTGTTGTACACACCTGACAGTGTTCGTTACCTGGAAGGGCGTGGCTTGCCGGTGGGCCTGTTCAACGAGGCCACCTATGAAGATCACGTGCTGGAACTGCCCCCGGCTTTCAGTCTGACGCTGATGTCTGATGGCATTCTGGACCTTTTGTCGGAACCTACACTCAAAGAGAAAGAAGCGGCCTTGCCTGAACGGGTAAGTGCGGCGGGCGGCAGCCTGGAAGGCCTGCGGCAAGTGTTTGGATTAGCCACGCTAGGGGAGATGCCGGATGATATCGCCCTGTTAGTGTTGAGCAGGAATCTTTGA	MPKTSATLLIIDDDEVVRASLAAYLEDSGFSVLQASNGQQGLQVFEQDKPDLVICDLRMPQMGGLELIRQVTELSSQTPVIVVSGAGVMNDAVEALRLGAADYLIKPLEDLAVLEHSVRRALDRSRLLVENQRYREKLETANRELEASLNLLQEDQNAGRQVQMNMLPVSPWTVDGFRFAHQIIPSLYLSGDFVDYFRVDERRVAFYLADVSGHGASSAFVTVLLKFMTTRLLFESKRNGTLPEFKPSEVLGHINRGLISCKLGKHVTMVGGVIDEETGLLTYSIGGHLPLPVLYTPDSVRYLEGRGLPVGLFNEATYEDHVLELPPAFSLTLMSDGILDLLSEPTLKEKEAALPERVSAAGGSLEGLRQVFGLATLGEMPDDIALLVLSRNL				NA	NA	NA	NA	NA
D1-35_00866	483			hypothetical protein	ATGAGTACCGGTAGAATCCAGTTCGCCGAGCAGGACGGCACCTTCGTCCTGAAGTTTGTCGGTGAAGTGCGCCTGACCTTGTGTTCGGCGCTGGATGCGACAATCGAGAAGATCTTCACCGCGTTGAACTTCAACGCCATCGTGATCGACCTGACCGAAACCCGCAGCATCGACAGCACCACCCTGGGCCTGCTGGCCAAATTGTCGATCCTGTCGCGGCAAAAGGTCGGCCTGCTGCCGACCGTTGTCACCACCCACAACGACATTACCCGTTTGCTGCAGTCGATGGGCTTCGATCAGGTGTTCAACATCGTCGGCGATCCGGTGCCATGCCCGGAATGCCTGGATGATCTGCCTGATCAGGACCAGTCCGAAGAGGACGTGCGGATCAAGGTGCTTGAAGCGCACAAGATCCTCATGGGGCTGAACGACTCCAATCGTGAAGCGTTCCATGACTTGGTGAGTGCGTTGGAGCGGCCCTGA	MSTGRIQFAEQDGTFVLKFVGEVRLTLCSALDATIEKIFTALNFNAIVIDLTETRSIDSTTLGLLAKLSILSRQKVGLLPTVVTTHNDITRLLQSMGFDQVFNIVGDPVPCPECLDDLPDQDQSEEDVRIKVLEAHKILMGLNDSNREAFHDLVSALERP				NA	NA	NA	NA	NA
D1-35_00867	927	tal		Transaldolase	ATGACTTCCAAGCTGGAACAACTCAAGCAGTTCACTACCGTCGTGGCCGATACCGGCGACTTCGAAGCCATCGCCCGCATCAAACCGGTGGACGCAACCACCAACCCTTCCCTGCTGCTCAAGGCTTCGGCCATTCACGGTTATGCCGAGCTGCTGAACGCCTGCGTGGCGGATTGCAAGGGTGACGTGGGCCTGGCCAGCGACCGTTTTGGTGTAGCGGTCGGGCAAGAAATCCTCAAGGTGATTCCGGGGCGCATCTCCACCGAAGTGGATGCACGCCTGTCGTTCGATACCGAGGCCATGTTGAAGCGCGCCCATCGCCTGGTCGACCTGTACGAAAAGGCCGGTGTGGGCCGGGATCGCGTGCTGATCAAGATCGCCTCTACCTGGGAAGGCATCCGCGCCGCCGAGCAACTGGAGCGAGAAGGCATCCAGTGCAACCTGACGCTGCTGTTCTCCTTCGCCCAGGCCGCGGCCTGCGCCGACGCCGGTGTGTTCCTGATTTCGCCATTCGTGGGCCGTATCTATGACTGGTACAAAAAGGCCAATGGCAATGACTACACCGGGGCCGACGATCCCGGCGTGCAGTCGGTGACGCGCATCTACAACTACTACAAGGCCAATGACTACAAGACCGTGGTCATGGGCGCCAGCTTCCGTAATCTCAATCAGATCGAGCAACTGGCCGGCTGCGACCGCTTGACCGTCAGCCCCGAACTGCTGGAAAAACTGGCCGCCGACGAGGGCAAGCTGGAACGCAAGCTGGCGCCTGGCCAGGCCGGGGAAGCGCGTCTGAGCCTCAATGAGGCGCAGTTCCGCTGGTTGTCCAACGAGGATGCCATGGCAACCGAGAAACTGGCTGAAGGCATTCGTCAGTTCGCTCGGGACCAGGAGAAGCTGGAAGCGTTGCTGCAAGCCAAGCTTTGA	MTSKLEQLKQFTTVVADTGDFEAIARIKPVDATTNPSLLLKASAIHGYAELLNACVADCKGDVGLASDRFGVAVGQEILKVIPGRISTEVDARLSFDTEAMLKRAHRLVDLYEKAGVGRDRVLIKIASTWEGIRAAEQLEREGIQCNLTLLFSFAQAAACADAGVFLISPFVGRIYDWYKKANGNDYTGADDPGVQSVTRIYNYYKANDYKTVVMGASFRNLNQIEQLAGCDRLTVSPELLEKLAADEGKLERKLAPGQAGEARLSLNEAQFRWLSNEDAMATEKLAEGIRQFARDQEKLEALLQAKL	PGPT0017375_3685	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
D1-35_00868	939	dusA	COG0042	tRNA-dihydrouridine(20/20a) synthase	ATGATGGATTGGACTGACCCCCATTGCCGGTACTTCCTGCGCATCCTCTCCAAACATGCCCTGCTCTACACCGAGATGGTCACCACCGGCGCCCTGCTCAATGGTGATCACGAGCGTTTCCTGCGTCACCACGAAGCCGAGCACCCGCTGGCCCTGCAATTGGGCGGCAGCGTTCCCGCCGACTTGGCCGCCTGCGCGCGAATGGCCGAGGAACATGGCTACGATGAAGTCAACCTGAACGTCGGTTGCCCCAGCGACCGGGTGCAGAACAACATGATTGGCGCCTGCCTGATGGGCCATCCCGGGCTGGTGGCCGATTGTGTGAAGGCCATGCGTGATGCGGTGTCGATTCCAGTGACGGTGAAACATCGGATTGGAATAAATGGTCGAGACAGCTACGAACAATTGTGCGATTTCGTCGGGACAGTGCGTGAGGCCGGGTGCGGCAGTTTTACCGTGCATGCGCGAATCGCCATTCTGGAGGGGTTGTCGCCCAAGGAAAACCGCGACATTCCACCGCTACGTTATGACGTGGTGGCGCAGCTGAAAGCTGACTTCCCTGAGCTGGAAATCGTCCTCAACGGCGGCATCAAGACGCTGGAGGCGTGTCATGAACACCTGCGGACGTTCGACGGGGTGATGCTCGGACGCGAGGCATACCACAACCCTTATCTGCTGGCCGAAGTGGACCAGCAATTGTTCGGCAGCACTGCGCCCGTCATCAGCCGCGCCGAGGCCTTGGCGCAATTGCGGCCTTATATCGCCGCCCACTTGGCGGCTGGCGGCGCCATGCATCACATCACCCGGCATGTGCTGGGGCTGGGCACGGGGTTTCCGGGGGCGCGGCGGTTCCGGCAGTTGTTGTCGGTGGACATTCACAAGACCAAGGATCCGTTGGCGCTCCTGGATCAGGCCGGGCAGTTGCTTGAAGGGCGTTAA	MMDWTDPHCRYFLRILSKHALLYTEMVTTGALLNGDHERFLRHHEAEHPLALQLGGSVPADLAACARMAEEHGYDEVNLNVGCPSDRVQNNMIGACLMGHPGLVADCVKAMRDAVSIPVTVKHRIGINGRDSYEQLCDFVGTVREAGCGSFTVHARIAILEGLSPKENRDIPPLRYDVVAQLKADFPELEIVLNGGIKTLEACHEHLRTFDGVMLGREAYHNPYLLAEVDQQLFGSTAPVISRAEALAQLRPYIAAHLAAGGAMHHITRHVLGLGTGFPGARRFRQLLSVDIHKTKDPLALLDQAGQLLEGR				NA	NA	NA	NA	NA
D1-35_00869	276			hypothetical protein	ATGCTGATTTCTTATGACCCGGCCAAAGACGCTCGCAACGTGGAAGAACGTGGACTCCCGTTTGCTCTCGTGCGGGACTTTGAATGGTCTACCGCATTGATCCTGGAGGATGATCGATTCGACTACGGTGAGTGTCGTTATAGGGCGATGGGATACATAGGGGATCGGCTGCATGTCGTAGTGTTTACACCACGGGGTGACGCGGTCCACGTCATCAGCTTTCGTAAAGCCAACAAACGGGAGGTCAAAAATTATGACCAAGAAACCCAGTCTTGA	MLISYDPAKDARNVEERGLPFALVRDFEWSTALILEDDRFDYGECRYRAMGYIGDRLHVVVFTPRGDAVHVISFRKANKREVKNYDQETQS	PGPT0027803_6807	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-BrnA-BrnTTOXIN-ANTITOXIN_SYSTEM,PGPT0027803-BrnT_toxin-K09803	NA	NA
D1-35_00870	309			hypothetical protein	ATGACCAAGAAACCCAGTCTTGAGAAGGTCGATACGGCAAACCCCGAATGGTCGACCGAGGACTTTGCCAAGGCCAAACCCGCCAGCGAGGTGCTTGTGGGGTTGTTTGGTGGAGCTCAGGCAAAGGAAATGCTCAAGCCGAAGCGTGGCCGGCCAAAGTCGGCAGCCACTAAAGAGCACGTCAATGTTCGTTTCGATGCCGACGTGCTGGAGAGATTCAGAGCTTCAGGGCCGGGCTGGCAAACAAGGATGAACGCCGCCTTGGCCGATTGGCTTAAGACGCATAAGCCAGAAGAACTGAAGGCTTAG	MTKKPSLEKVDTANPEWSTEDFAKAKPASEVLVGLFGGAQAKEMLKPKRGRPKSAATKEHVNVRFDADVLERFRASGPGWQTRMNAALADWLKTHKPEELKA	PGPT0027802_2057	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-BrnA-BrnT_TOXIN-ANTITOXIN_SYSTEM,PGPT0027802-BrnA_antitoxin-na	NA	NA
D1-35_00871	675			hypothetical protein	ATGAGCAAATGTGCAGTCGCGTTAGGTGGTGGGAGCTTCGTATTGGTGAAGCTCAAAGCCTCGCCTGTGGAATTCTTGAGCTTAGCGGAAGACGATTTTGAACGAGGCGGCCTGTCGGCCCTTATCAATGCAACAACTAATGTGAAGCGCGCAATTGTCTGTCAGCTTGACCAACTGCTGATCTCGTTTGGGTATCAGTCACTCAGATTGGATGTACCGGAAAAGATAAGGCGATTGAGAGCGCTTGGCTTACTGGCGCCGAGCCTTTTGCGTAAAGTGGTCAAAATGCGGAATATTCTTGAGCATGAATATGGACTCCCAGAGCTTAAATCAGTTGAGGAAGCGCTAGACATCGCAAGTCTGTTTGTAATGTCCGCTTCAGCTATGTTCATTCCTTTTGATGATGTCTTAGAATTTACGCTTCCTGACGGCTCAAACGGAGAAAGCCATCTAACGCATCTCACTGCAGGTTTAAATCGAGACTCTCGTGGTGTTTTCTATACTGTCTACGCATATGAGCCCGGCGGATATGGTGGGCGATGCGTTGGTCAATGTGAGATTAAATCAGGGCACGTGCTTTTCGAAGCGATGGTTAAGCTTTCTGCATCGTTGATGCTTCGCTACAAAGTCGAACAGGCTTTCAGTGATTTTGACAAGGCGTACACGCTGATATGA	MSKCAVALGGGSFVLVKLKASPVEFLSLAEDDFERGGLSALINATTNVKRAIVCQLDQLLISFGYQSLRLDVPEKIRRLRALGLLAPSLLRKVVKMRNILEHEYGLPELKSVEEALDIASLFVMSASAMFIPFDDVLEFTLPDGSNGESHLTHLTAGLNRDSRGVFYTVYAYEPGGYGGRCVGQCEIKSGHVLFEAMVKLSASLMLRYKVEQAFSDFDKAYTLI				NA	NA	NA	NA	NA
D1-35_00872	600	fic	COG2184	putative protein adenylyltransferase Fic	ATGCCCGACAAATACGGCGTCGGCGAAGACGCCTATTGTTACCCGGGCTCCACGGTCCTGCGCAATAAACTCGATATCCGCGATGAACAGACCTTGAGCGAAGCCGAACAACAGCTCTCGGCCATCGCCGCGGGCAACGTCGAATTCAACCCTCCTCCCTACAACCTGGCTTATCTGCAGGATATTCATCGAGCGCTGTTCTCGGATTTGTTCGAATGGGCCGGAGCGCTGCGGACCGTTGGCATGGCCAAGCAAGCCACGCGTTTTTGCCAACCTGAATACATGGAAAAGGAAGCCAACAAGATATTCGCCAACCTGGCGGCGTCGAACTGGTTCGAGGGACTGAGCAGAACTGAACTGATCATCGCCGTGGCAGATGCCTATTCCGATATCAACATCATCCACCCATTCCGCGAAGGCAACGGCCGCGCCCAGCGCATCCTGTTCGAACACCTCATCATGAATGCCGGATTCGAGATCAGTTGGTGGGGGATCGATAAAGACGAATGGATCGACGCCAATATCGCGGCTTATAACTGTGTGCTGGGCCCCATGGAGGCGGTTTTTGAGAAGTGCATTGGGGAAATGATTCAGACCTGA	MPDKYGVGEDAYCYPGSTVLRNKLDIRDEQTLSEAEQQLSAIAAGNVEFNPPPYNLAYLQDIHRALFSDLFEWAGALRTVGMAKQATRFCQPEYMEKEANKIFANLAASNWFEGLSRTELIIAVADAYSDINIIHPFREGNGRAQRILFEHLIMNAGFEISWWGIDKDEWIDANIAAYNCVLGPMEAVFEKCIGEMIQT				NA	NA	NA	NA	NA
D1-35_00873	171			hypothetical protein	ATGGGCACTGTCAGCCTGGAAACAAAAAAGGCCTACGCGGCCAGGACTCGCCGGTCCAACTACGCGGCCAGCCTGCGCCTGGAAGGGTTCAAGGTGTCTGCGCAAGACAGCGAAGACAAGCTGCCTTCCCGTGAGGAAGTCTTGAAGACCTTCACCAAGACTCGAGCCTGA	MGTVSLETKKAYAARTRRSNYAASLRLEGFKVSAQDSEDKLPSREEVLKTFTKTRA				NA	NA	NA	NA	NA
D1-35_00874	1221			hypothetical protein	ATGCAGCTCATCGCCAAGCTCGGCATTCTTGCAGACGCCGCCAAATATGACGCGTCGTGTGCCAGCAGTGGGGCGCCCAAGCGCAGTTCGCGTGGTCGCGACGGGCTTGGGGCCACGGATGGCATGGGGATCTGCCATAGCTACACGCCGGATGGGCGCTGTGTCTCGCTGCTCAAGGTGCTGCTGACCAATTTCTGTCTGTACGACTGCCAGTATTGCGTCAACCGTCGTTCCAGCAACGTGCCGAGGGCGCGCTTTACGCCGGAGGAAGTGGTGCGGTTGACGTTGGATTTCTATCGTCGCAATTGTATCAGCGGGCTGTTCCTGAGTTCCGGCATCATTCGCTCGGCCGATTACACCATGGAGCAACTGGTTCGTGTGGCGCGCTTGCTGCGCGAGGAGCATCAATTCCGAGGCTACATTCACCTCAAGACCATTCCCGATGCCGATCCGCTATTGATCGAGGAGGCGGGTCGGCTAGCGGATCGCCTGAGTGTGAACATCGAACTGTCCTCCGAGGTGAGCCTCAAGCGCCTCGCGCCGGAAAAGCAATTGACCACGATTCGTCAGGCCATGGGCACCATCCATGACGGTCAGCAGGCGGTGGCTGGCGAGCCGCGGGCGCCGCGCTTTGCGCCGGCCGGGCAGAGCACCCAGGTGATCGTGGGAGCGGATGCCACCGACGACCATGCCATCCTGAGCAACGCCGAGTCGCTCTACCAGGGCTATGGTTTGCGGCGGGTCTACTATTCCGCCTTCAGTCCGATTCCCGACAGCCCAGCCAGTGTGCCGCTCGCCGCGCCGCCGTTACTGCGTGAGCATCGGCTGTATCAAGCCGACTTCCTGATGCGTGGCTACGGCTACAAGGCGGGCGAACTGTTGAACACGTCCAGCAACCTGGACCTGGACATCGACCCGAAACTGGCCTGGGCGCTGGCTAATCGCGATGTGTTTCCACTTGACCTCAACCGTGCCGAGCCGGCGCTGCTGGCGCGCATTCCCGGGATCGGCCTGCGTAGCGTGCAGCGCCTGGTGACGCTGCGCAGGGAGCGGCGGATTCGGTATGACGATCTGGTGCAGTTGCGCTGCGTGCTGGAAAAGGCCCGCCCGTTCATTGTGACCAGCGATTACCGGCCCGCTGACGCGCAAACGCGCAGCGGCTTGCTGCGGGCACGTTTGCGCGATCCGCAAAGGCCTGTGCAAATGGGGCTGTGGGGATGA	MQLIAKLGILADAAKYDASCASSGAPKRSSRGRDGLGATDGMGICHSYTPDGRCVSLLKVLLTNFCLYDCQYCVNRRSSNVPRARFTPEEVVRLTLDFYRRNCISGLFLSSGIIRSADYTMEQLVRVARLLREEHQFRGYIHLKTIPDADPLLIEEAGRLADRLSVNIELSSEVSLKRLAPEKQLTTIRQAMGTIHDGQQAVAGEPRAPRFAPAGQSTQVIVGADATDDHAILSNAESLYQGYGLRRVYYSAFSPIPDSPASVPLAAPPLLREHRLYQADFLMRGYGYKAGELLNTSSNLDLDIDPKLAWALANRDVFPLDLNRAEPALLARIPGIGLRSVQRLVTLRRERRIRYDDLVQLRCVLEKARPFIVTSDYRPADAQTRSGLLRARLRDPQRPVQMGLWG				NA	NA	NA	NA	NA
D1-35_00875	852			hypothetical protein	ATGATCGCGCTGGATTGCGATGACGATTTCGCCATCTGGCGCGACCAAGCCCGGACGTTGCTTGGTCACGGAATAGACCCCTGTGACGTGACTTGGGCTCAGGGCCCCATGGCCGATCTGTTGGCAATGCCGACGCTATTGCCGCAAGGCCCGGGTCCGTTCCGCACTCGCGTCCCGGCAGCGTTGTTGAGCCAGTTGCAACAGGCCAGTCGTTATCACGGCGAACAGCGCTGGAACCTGTTGTACGAAGTGCTCTGGCGCGTAGCGCATGGCGACCGCACCGCCATGCTCGCGGGCGATCGCCTGGGTAGCGAGTTGCAACGGCGCATCAAGCAGGTCAGTCGCGAGGCTCATCACTTGCACGCCTTCGTGCGCTTCATTCCCTTGCCGCCAGCCGTGGCAGAACAATTGCAGTTGGACCTGGTGGCGTTCCACCAGCCGGCGCACGACATCCTCGAAAGCGCGAGCGGTCATTTTGCCGAGCGGCTCGGTCGGCAACGCTGGCTGATTGCAACGCCTCGCGACGGTATTCGTTTTGACGGCCAATCGCTGGATTACCAGCGCCACTGCCCCGCGCAATGGCAACAATGGGCCCGCCACGCCGAAGACCCCGGCGCCGAGTTGTGGCGCACCTATTACAGGCACATCTTCAACCCGGCGAGGCTCAACCCGACCGCGTTGCGCCAGCACATGCCCGGGCGGTTCTGGAAGCATTTGCCTGAAGGGGAATTGATTCCTTTACTGGTGGGGCAGGCGCGGCAGGGGAAGCAGAAGGATGGGCAGGCGTTGGAGGTGGGGGAGAAGATGGGTAAGCGGATTGTCGTAGGCGCTGCGGTAGGGGCACAGGGATAA	MIALDCDDDFAIWRDQARTLLGHGIDPCDVTWAQGPMADLLAMPTLLPQGPGPFRTRVPAALLSQLQQASRYHGEQRWNLLYEVLWRVAHGDRTAMLAGDRLGSELQRRIKQVSREAHHLHAFVRFIPLPPAVAEQLQLDLVAFHQPAHDILESASGHFAERLGRQRWLIATPRDGIRFDGQSLDYQRHCPAQWQQWARHAEDPGAELWRTYYRHIFNPARLNPTALRQHMPGRFWKHLPEGELIPLLVGQARQGKQKDGQALEVGEKMGKRIVVGAAVGAQG				NA	NA	NA	NA	NA
D1-35_00876	918	rhaS_3		HTH-type transcriptional activator RhaS	ATGACCAGCCATGGCAAATCGCCGCAGAGGATGCTCGCGGACCTCATCGCTCCCCGGACCACAGAATCGGGAGACGTCGAAACGTCGATGCCTGGCCTCTGCCTTTTCCGGCGCGACGCCCCTGCCCCGCCCGCGACCTGCATGATCGAACCGAGCATCGTCCTCGTCGCCCAGGGGATGAAGCAGGTCTGGATTGGTGGCCAGGCGTATGGGTACGACACCGGGCGATTCCTGATGACTTCACTGGATATGCCGGCAAATTCCGAAGTGATGGTCGCAAGCCCGGAACAGCCATGCCTGGGCTTGGTGCTGCGGCTGGATTTGCGCATGGTTGCCGATCTGGTCGCCCAAGGCGGGCTGGCGCCGCGTCTTGAGCGCCCAGTCGGGATTGGTGCGGGAATCGGCACCAGCACAGCGGACTTCCTGGCGCCGTTCGTACGCCTGCTGGCATTGCTGGATGAACCCGAGGCGATCCCCATCCTGGCGCCGCTGATCCAGCGCGAGATCCATTACCGATTACTGATGAGCGACCAGGCGGCACGGCTGCGCCAGATCGCGTCCGTCGACAGCCAGGGCTACCGGATCGCCAAGGCCATCGACTGGCTGAAGTTGAACTACGCCGCGCCAATCCGCGTGGATGACCTGGCGGCGCGGGTGCAGATGAGCGCCCCGACCTTTCACCATCACTTCCGCCAACTCACGGCGATGAGCCCCCTGCAATACCAGAAGTGGCTGCGGCTGAACGAAGCAAAACGGCTGATGCTCAACGAACACCTGGACGTGGCCAACGCCGCCTACCGAGTGGGTTACGAAAGCCCCTCGCAATTCAGCCGCGAATACGCCCGCCTGTTCGGTGCGTCGCCCAAGCGGGACATTGCGGCGTTGCGCAGGCCGGCAAGTGCGAGCAAGGGTATCTGA	MTSHGKSPQRMLADLIAPRTTESGDVETSMPGLCLFRRDAPAPPATCMIEPSIVLVAQGMKQVWIGGQAYGYDTGRFLMTSLDMPANSEVMVASPEQPCLGLVLRLDLRMVADLVAQGGLAPRLERPVGIGAGIGTSTADFLAPFVRLLALLDEPEAIPILAPLIQREIHYRLLMSDQAARLRQIASVDSQGYRIAKAIDWLKLNYAAPIRVDDLAARVQMSAPTFHHHFRQLTAMSPLQYQKWLRLNEAKRLMLNEHLDVANAAYRVGYESPSQFSREYARLFGASPKRDIAALRRPASASKGI				NA	NA	NA	NA	NA
D1-35_00877	1050	yahK	COG1064	Aldehyde reductase YahK	ATGCGTGTACAAGCCTACGGCGCCCACGCGGGCGACAAACCCCTTGAACCAATGCAAATCAATCGCCGCGCACCCGGCGCGCATGACGTGCAAATCGACATCGCCTTTTGTGGGATCTGCCACTCGGACCTGCACCAGGTGCGCGCGGAGTGGGCAGGCACTCAGTTCCCTTGCGTCCCTGGCCACGAAATCGTCGGCCGCGTGTCGGCGGTGGGCGCCCATGTTTCCGCGTTCAAGACCGGTGATCTGGTCGGCGTCGGCTGCATTGTCGACAGCTGCAAACACTGCGAGGACTGCGAAAGCGGCCTGGAAAACTACTGCGATGGCATGATCGGTACCTACAACTTCCCGACGCCGGATGAACCGGGCTGGACCCTGGGTGGCTACTCGCAGAATATCGTGGTGCATGAGCGTTATGTGCTGCGCATCCGTCACCCCGAAGAACAGCTGGCCGCCGTCGCGCCACTGCTTTGTGCAGGCATCACCACCTATTCGCCATTGCGTCACTGGAACGCCGGGCCGGGCAAGAAAGTCGGCGTGGTCGGTATCGGTGGCCTGGGGCACATGGGCATCAAGCTCGCTCACGCGATGGGCGCACACGTCGTGGCGTTTACCACTTCGGAATCCAAGCGCGAGGCCGCCCGGCAGTTGGGCGCCGATGAAGTCATCGTGTCGCGCAATGCTGATGAAATGGCCGCCCACGCCAAGAGCTTCGACTTCATCCTCAACACCGTGGCGGCGCCCCACGACCTCGACGTTTTCCTGGTATTGCTCAAGCGCGACGGCGCGATGACCCTGGTGGGCGCTCCGGCGACGCCTCATTCGTCGCCCAATGTCTTCAACTTGATCCTGAAGCGTCGAACCATTGCCGGCTCGATGATCGGTGGGATTGCCGAAACCCAGGAAATGCTGGATTTCTGCGCTGAGCACGGCATCGTTGCCGACATCGAGCTGGTTCGTGCCGATCAGATCAACGCGTCCTACGAGCGGATGCTCAAGGGCGACGTCAAGTATCGCTTCGTGATCGACAACGCTACGTTGGCCGGTTGA	MRVQAYGAHAGDKPLEPMQINRRAPGAHDVQIDIAFCGICHSDLHQVRAEWAGTQFPCVPGHEIVGRVSAVGAHVSAFKTGDLVGVGCIVDSCKHCEDCESGLENYCDGMIGTYNFPTPDEPGWTLGGYSQNIVVHERYVLRIRHPEEQLAAVAPLLCAGITTYSPLRHWNAGPGKKVGVVGIGGLGHMGIKLAHAMGAHVVAFTTSESKREAARQLGADEVIVSRNADEMAAHAKSFDFILNTVAAPHDLDVFLVLLKRDGAMTLVGAPATPHSSPNVFNLILKRRTIAGSMIGGIAETQEMLDFCAEHGIVADIELVRADQINASYERMLKGDVKYRFVIDNATLAG	PGPT0024430_1220	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0024430-yahK-K13979	NA	NA
D1-35_00878	1233	nepI_1	COG2814	Purine ribonucleoside efflux pump NepI	ATGACCCATACTTTATCGCCCACCCCGCAGGGTAAGCCTGCGTGGGGCGCGGTGCTTGCCATGTCGTTGGCTGCCTTCGCGCTGGTCGCCTCGGAATTCATGCCGGTCAGCCTGCTGACACCGGTAGCGGCGGACCTTCATGTCAGCGAAGGGCAGGCCGGCCAAGGCATCGCCGTCTCCGGCGCCTTCGCCCTGGTCACCAGCCTGTCCGTCGCCTCGATTGCCGCCCGGGTCGACCGCAAATGGCTGCTCTCGGCATTGACACTGCTGATGATCGTTTCCGGCACAGTGGCTGCGCTGGCCCCCGACTACGTGACGTTCATGGTCGGCCGCGCCTTGATCGGCGTTGCGATTGGCGGCTTCTGGTCGCTGTCGGCGGCTACGGCCATGCGCCTGGTGCCGGAGGACAAGGTCCCCCGCGCATTGGCCATCGTCAACGGCGGCAATGCCTTGGCGACGGTAGTCGCTGCGCCATTGGGCAGCTTCCTGGGGGCAATCATCGGTTGGCGTGGGGCGTTCTTCTGCATCGTCCCCGTCGCCGCGCTCGCCCTGGCGTGGTTGCTGTTGAGCCTGCCCTCGCTGCCCTCGCGGGTGAAGCAGGACAGCGGCAATCCTTTCAGACTGATGACCCAGGCACCGGTTGCGTTGGGCATGCTGGCCGTCAGCACGTTCTTCATGGGCCAGTTCATGTTGTTCACCTATCTGCGTCCCTTCCTCGAAACGGTGACGCAGGTGAGCGTGTCGCTGTTGTCGTTCATGTTGTTGGTGATTGGCCTGGCCGGTTTGCTCGGAACCTTCCTGATCGGTTCGTTCTTGAGGAGCGGGCTGTATCGGACCCTCATCGTCATCCCGTTGTTGATGGCTGCAATCGCTCTTGCGCTGGTTGCGTTCGGCGGGTCAGCGGTCATGACCGCGGTGCTGCTGGGCGTCTGGGGGCTGGTGGCAACGGCGGCGCCGGTTGGCTGGTGGACCTGGCTGGCCAGGACGTTGCCGGAAAATGCCGAGGCCGGCGGCGGATTGATGGTGGCGATCGTCCAGCTCGCCATTGCGTCTGGTGCCACGGTGGGTGGCGTCCTGTTCGACCTGAGCGGTTATCGGGCGACGTTTGAAACCAGCGCGGCCGTGTTGGTCGTTGCGGCGGTGCTGACCATGCTGGCGGCCCGTGCCGCGGCTCGCAAGTCTTCGCAAGCGTCGAGCGACGCGACATATGGCGCGGTGCGGGAGTCAACCTGA	MTHTLSPTPQGKPAWGAVLAMSLAAFALVASEFMPVSLLTPVAADLHVSEGQAGQGIAVSGAFALVTSLSVASIAARVDRKWLLSALTLLMIVSGTVAALAPDYVTFMVGRALIGVAIGGFWSLSAATAMRLVPEDKVPRALAIVNGGNALATVVAAPLGSFLGAIIGWRGAFFCIVPVAALALAWLLLSLPSLPSRVKQDSGNPFRLMTQAPVALGMLAVSTFFMGQFMLFTYLRPFLETVTQVSVSLLSFMLLVIGLAGLLGTFLIGSFLRSGLYRTLIVIPLLMAAIALALVAFGGSAVMTAVLLGVWGLVATAAPVGWWTWLARTLPENAEAGGGLMVAIVQLAIASGATVGGVLFDLSGYRATFETSAAVLVVAAVLTMLAARAAARKSSQASSDATYGAVREST	PGPT0021090_142	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021090-nepI-K03445	NA	NA
D1-35_00879	276			hypothetical protein	GTGTCTACTGAAAGAATTTCCCAATTGGAGCAGGCGCTCCTGGCGGTCATTGCGGCCGCGGGCAAGATGGGCGTCAGTTGTGATGAACTTTGCGCGCAGGCTGTGGGCGGGCTGGTGTCCGAGCGCTACTGGAGCTGGGCGGATGCCCAGCACGCTCAAGGCGCGGCTGACGAGATCGATAACGCCTTGGCAGTCCTGGTCGGCCGGTATACGGCTACGCCTGGCAATCCCGTGCAAAGTGGGCCCGATGCTGCATTTGAATCGGCTGCCGGCTGA	MSTERISQLEQALLAVIAAAGKMGVSCDELCAQAVGGLVSERYWSWADAQHAQGAADEIDNALAVLVGRYTATPGNPVQSGPDAAFESAAG				NA	NA	NA	NA	NA
D1-35_00880	477			hypothetical protein	ATGAGCAAGGCAGACGAACTCGCGGCGAAGCTGAGGCAGGCCCAACGAACCCCAGCCGGCGTCGACAACTGCGCTGACCTGGCCATCGAACACTGGCCCGGCCAGGTCTACGATTTGTACCGTCAGATCGAAACGTGGCTCGCGCCGGTGTGCGAGGCGGGCCTGGTTATCCGGCGCAATCCGACCCACGTCTTCGAGCGCCACTCCAGCGGTTCGACGTACAACTACGCCATTGACCAATTGGTGATCGAGGGCAACCACCGGCGTATCTCGCTCGATCCGATCGCCCGCTTCTCCACCAGCGCAGAGGGATGCATCGAAATCCATATGCAAGGCGTGAAGCACTGCATCCTGCGCACCGTGGGCGAGCATGGCGAATCGCTTTGGCAGCTGCGGCCGGCCGGGCAACACACCGAACCCGTAGCGCTGGATGAAGATGCTCTTCTCTTGATCATCGAGGAAGGGTTGGGGCTTTAA	MSKADELAAKLRQAQRTPAGVDNCADLAIEHWPGQVYDLYRQIETWLAPVCEAGLVIRRNPTHVFERHSSGSTYNYAIDQLVIEGNHRRISLDPIARFSTSAEGCIEIHMQGVKHCILRTVGEHGESLWQLRPAGQHTEPVALDEDALLLIIEEGLGL				NA	NA	NA	NA	NA
D1-35_00881	288			hypothetical protein	ATGAGCAGATTTTTCGATGAGCTGATGGAAAGCGTGCAACAGATGGATGAGATTGTCCGAGGAGAGCGTCAGCCGTCCCGGGAATTCATCGTCGATGCGCTGCAGGTGAAGGAGATACGAAAAGCCACCGGCCTGACCCAAGCCAAGTTTGCAGCATTGATCGACGTTCAGTTGGGCACGCTACGCAATTGGGAGCAAGGGCGGCGCGAGCCAACCGGTCCCGCGAAAGCTCTGTTGCGCGCCATTCATAACGACCCTGAACACGTCATCAATGCCCTCGCCATATAG	MSRFFDELMESVQQMDEIVRGERQPSREFIVDALQVKEIRKATGLTQAKFAALIDVQLGTLRNWEQGRREPTGPAKALLRAIHNDPEHVINALAI				NA	NA	NA	NA	NA
D1-35_00882	1278			hypothetical protein	ATGCCCGGGGCCGCTGACGGCAAGAAAATTGAACGGGCCTCTGCCATCTGCGAACTAACCAAGTTCATGGCCCGGCCGGTGCGGCCAGGGCACAACCTGAACAGAAATGGCACAGGTGATCCATCCATGGACTCAAGCTCCCTCGATATTTTTACCGACACCCAGGTACTGGGCATTTCCATCGCCAATTGGCTGCTGGCACTGAGCGTGATGACGGTGAGCTTCATCATCGCCAGGGCTGGCGTCGGTTTTCTGTTGAAAAACGTGCGTGCCCGGGCACAAAAACCCGACGCTTATGTCAGCCACATCGCCGTCGAAGTACTGTCCAGTACCAGCAATACCTTGTTATTGCTGGCCTCGATCCTGATCGGCGTTGGCGTACTGGACTTGCCGGAACGCTGGCTGAGTCGAGTCAGCAGCCTCTGGTTCGTGGTGGCGGCCCTGCAAGTGGGATTATGGGCAAACCGAGCGATCGCCCTGGCGCTGATGCATTATTTCGCCCGCCACAGCCACTCCGACATCCATCAGAAAAGCGCCTTGGCCACCCTGAGCCTGTGGGGTGCGAAAGTATTTCTCTGGGCGGTGGTGCTCCTGGCGATGCTTTCCAACCTGGGCGTGAACATCACGGCGTTCGTTGCGAGCCTCGGCGTGGGCGGCATCGCCGTGGCGCTCGCGGTGCAGAATATCCTCGGGGACCTGTTCGCTTCGCTGTCGATTGCCGTGGACAAACCTTTCGAAGTCGGCGACTTCATCGTCGTCGGCTCCCTGGCCGGGACCGTGGAACATGTCGGCCTGAAGACCACGCGAATCCGCAGCCTGGGTGGCGAGCAAATCGTCATGGCGAACGCCGGCATGATCAGCACCACCATCCAGAACTACAAACGCCTCCAGGAGCGCCGGATCGTCTTCGAATTCGCCCTGCCCCAGGAATGCTCGACAGAACAACTGCGGCAAGTGCCGGTCATCGTCGAAAAGATCATCAAGGCCCAGGAAAAAACCCGCTTCGACCGCGCGCATTTTCGTGGTTTCGGCGAAAGCGCACTGGAGTTCGAAACGGTCTATATCGTGCTGGACCCCAGCTACAACGTCTACATGGACATCCAGCAGGCGATCAACCTGGGCATGATGGAAGAGTTCGCCACGATCGGCGTGCGCTTCGCCATGCCGTCGCGCGCGGTGCATGTGGCTTCGTTGCCGGATGCGGTGGAGCGGATGGCCAGCAGAGGCAACGAGAGGCCCCCCACGCAAAGCGCTCCCTCGTTTCGGGCGCAACACTGA	MPGAADGKKIERASAICELTKFMARPVRPGHNLNRNGTGDPSMDSSSLDIFTDTQVLGISIANWLLALSVMTVSFIIARAGVGFLLKNVRARAQKPDAYVSHIAVEVLSSTSNTLLLLASILIGVGVLDLPERWLSRVSSLWFVVAALQVGLWANRAIALALMHYFARHSHSDIHQKSALATLSLWGAKVFLWAVVLLAMLSNLGVNITAFVASLGVGGIAVALAVQNILGDLFASLSIAVDKPFEVGDFIVVGSLAGTVEHVGLKTTRIRSLGGEQIVMANAGMISTTIQNYKRLQERRIVFEFALPQECSTEQLRQVPVIVEKIIKAQEKTRFDRAHFRGFGESALEFETVYIVLDPSYNVYMDIQQAINLGMMEEFATIGVRFAMPSRAVHVASLPDAVERMASRGNERPPTQSAPSFRAQH				NA	NA	NA	NA	NA
D1-35_00883	1359	chrA1		Chromate transport protein	ATGAGCACTCCGAACCCGAGCACTGTAGAACAGGTACAGACCAGACCGTCGACCGTCAGCCTGCGAGAGGCCTTCTGGTTCTGGCTGAAACTGGGTTTCATCAGCTTCGGCGGACCGGCGGGCCAGATCTCGATCATGCACCAGGAATTGGTGGAGCGTCGGCGCTGGATCTCCGAGCGTCGCTTCCTCCACGCCTTGAACTACTGCATGCTGCTGCCCGGCCCCGAGGCCCAGCAACTGGCGACGTACCTGGGCTGGCTGATGCATCGAACCTGGGGCGGAGTAATCGCCGGGGCGTTGTTTGTCCTGCCCTCGCTGTTCATTCTCATCACATTATCCTGGCTATACGTCGCCTTTGGCGAAGTGCCGGTGGTGGCCGGCATTTTTTATGGCATCAAGCCCGCCGTGACGGCGATCGTCGTGCATGCCGCGCACCGGATAGGCTCGCGCGCGCTCAAGAACAACTGGCTGTGGGCAATCGCCGCCGCGTCGTTTACGGCGATCTTCGCCTTCAACGTACCGTTCCCGCTAATCGTACTGGGGGCGGCGGTCGTCGGTTACTTCGGCGGTCGCTGGGCACCGGCAAAGTTCAGCCTGGGCGGCCACGATGCCAGGCACAAGTCGTTCGGCCCGGCCCTGATCGATGACGATACACCGACCCCGGAACACGCTCGTTTCAGTGCCACCCGCCTGGCCCGACTGCTGATCGTCGGGGCGCTGCTGTGGATTCTGCCGATAGGCCTGTTGACCGCGATGTTTGGTTGGGAAGGAACCTTGACGCAGATGGCCTGGTTCTTTACCAAGGCGGCACTGCTGACTTTCGGCGGCGCCTATGCGGTTCTGCCCTACGTATATCAAGGCGCCGTCGGACATTTCGGCTGGCTGACACCGACCCAGATGATTGACGGCCTGGCCCTGGGCGAAACCACTCCGGGACCGCTGATCATGGTAGTCGCGTTCGTCGGTTTCGTCGGGGGTTACGTGACGCAGGTGTTCGGCCCCGAACAGGCGTTTCTGGCGGGCGCGGTTGCGGCCACGCTGGTGACCTGGTTCACCTTCCTGCCCTCGTTCCTGTTCATCCTGGCCGGCGGTCCGCTGGTGGAATCGACCCATGACGAGTTGAAATTCACCGCGCCGCTCACAGCGATCACCGCGGCGGTGGTGGGGGTGATTCTCAACCTCGCCTGCTTCTTTGGTTATCACGTGCTCTGGCCCAAGGGCTTACACGCAGCACTGGACTGGCCATCGGCAATTCTTGCAGTCGCGGCGTTCATTGCATTGTTCCGCTATAAACGCGGCGTCATCCAGGTGTTGCTGGCCTGCGGCCTGGCCGGGCTGGCGGTGCATCTGCTGCGCTAA	MSTPNPSTVEQVQTRPSTVSLREAFWFWLKLGFISFGGPAGQISIMHQELVERRRWISERRFLHALNYCMLLPGPEAQQLATYLGWLMHRTWGGVIAGALFVLPSLFILITLSWLYVAFGEVPVVAGIFYGIKPAVTAIVVHAAHRIGSRALKNNWLWAIAAASFTAIFAFNVPFPLIVLGAAVVGYFGGRWAPAKFSLGGHDARHKSFGPALIDDDTPTPEHARFSATRLARLLIVGALLWILPIGLLTAMFGWEGTLTQMAWFFTKAALLTFGGAYAVLPYVYQGAVGHFGWLTPTQMIDGLALGETTPGPLIMVVAFVGFVGGYVTQVFGPEQAFLAGAVAATLVTWFTFLPSFLFILAGGPLVESTHDELKFTAPLTAITAAVVGVILNLACFFGYHVLWPKGLHAALDWPSAILAVAAFIALFRYKRGVIQVLLACGLAGLAVHLLR				NA	NA	NA	NA	NA
D1-35_00884	1572			hypothetical protein	TTGCCTATCCCCATCAACGATCCGCTCCATGCGCCCGGCGGCACCCTCAAGCGCCTGCCATTGCTCAAGGCTGCGGTGGCGTTTATTGCGGCGGTTTGCCTGTGCCTCTGCGGTTTGCTCTATCTGCAACTGGAGCAATCTCGTCGTCACGACCTGGAGTCGGCGCGGATTGCTTCGGCCAACCTTACCCGTGCCATGGCCCAGCAGGCCCAGGATACTTTCCTGCAGGCCGATCTCGTGCTCGGCAGCCTGGCAGACGGGATCCAGATCGATGGCTACGGCCCGGCCGTGCGCGCGCGCCTGCAACAGACATTCGCCCGGCGCGTGCAGTCTCTGGAACAACTGCATGGCCTGTTTCTGTTCGACAAGAGCGGCCAGTGGATCATCACCTCGTTTGAAAAGCTGCACCGGGGATCCGGTATCGCGGATCGCGAGTATTTCCAGTTTCACCAGGAGAATGCCTCGCTCGTCGCCCATATCGGCCCGGCGATCCGCAGCCGGCAGAACGGCGAATGGATCATCCCCGTTTCCCGTCGGCTGAATGACCGCAAAGGCAATTTCCAGGGCGTGCTGATGGCCGGGATCAAGATGTCGTATTTCGACCAGTTCCTGAAGAGTTTCAATCTCGATGACCAAGGCGAGATGGCCCTGGCGTTGTCCGATGGGACTTTGCTGGCGCGCCGGCCCTTCGACGAGGCGCTGATTGGTGCGTCCATGGCGCGGCATCATATTTTCCAGCACGATCCGGTGGTGGGGGCTTCCGGCGATGAGATGATCCGCTCCGACACCGATAATATCGTCAGGCTCTATGGCCATCGGCATCTGCAAGCCTACCCACTGGTGGTCGTTGCCGCGATGTCCGAATCAGCGATCCTGGCGGGCTGGTATGACCGGGCGGTGCAATCGAGCCTGATCGTGGCCTTGGTGGTGCTGGGTATCTGTCTGTTTGGCTGGGTTTTCGTGCATCAGGTGCGTAACAGCGAGCGGATTGAAGCGGACCTGCGCAAGGCCCAGCAAGCGCTGGAGCTGATCGCCACTCATGACAGCCTGACCGGGCTGGCAAACCGCCGGCTGTTCGAGCGGGCCCTGGGCATCGAGTTCGGCCGAGGCGCCCGCCAGCGCAGCCCCCTGAGCCTGATCATGCTCGACATCGATTTTTTCAAGCGCTACAACGATACCTACGGGCATGTCGCGGGTGATCATTGCCTGGCGGAGGTCGCGAAGGTGCTCAAGGACTGCTGTCATCGCAAGGCCGACCTGGCGGTGCGTTTTGGTGGCGAAGAGTTTGCTGTCCTGCTGCCCGATACCAACCTGCACGGCGCCATGGCATTGGCCGAACAGATCCGCCGCCGCGTCATCGACAGGCAGATTACCCATTCGGCTGCCCCCTCCGGCTACCTGACGGTGAGCCTGGGTTGTCATGCCTTCGTGCCCAGCAGCCTGGACAGTACGGAAGTCTTCATCCAGCGAGCCGATGCGGCGCTGTATCAGGCCAAACACAGCGGTCGCAACTGTGTCGCGGCGTTGTCCAGGGAAGACGCGTTCGATGCGCTGGAGCGTTCCGATCGCTGA	MPIPINDPLHAPGGTLKRLPLLKAAVAFIAAVCLCLCGLLYLQLEQSRRHDLESARIASANLTRAMAQQAQDTFLQADLVLGSLADGIQIDGYGPAVRARLQQTFARRVQSLEQLHGLFLFDKSGQWIITSFEKLHRGSGIADREYFQFHQENASLVAHIGPAIRSRQNGEWIIPVSRRLNDRKGNFQGVLMAGIKMSYFDQFLKSFNLDDQGEMALALSDGTLLARRPFDEALIGASMARHHIFQHDPVVGASGDEMIRSDTDNIVRLYGHRHLQAYPLVVVAAMSESAILAGWYDRAVQSSLIVALVVLGICLFGWVFVHQVRNSERIEADLRKAQQALELIATHDSLTGLANRRLFERALGIEFGRGARQRSPLSLIMLDIDFFKRYNDTYGHVAGDHCLAEVAKVLKDCCHRKADLAVRFGGEEFAVLLPDTNLHGAMALAEQIRRRVIDRQITHSAAPSGYLTVSLGCHAFVPSSLDSTEVFIQRADAALYQAKHSGRNCVAALSREDAFDALERSDR				NA	NA	NA	NA	NA
D1-35_00885	2577			hypothetical protein	ATGGACACCGCTGCCGATATCCCCCCTGACGTCACGCGTCACACGCCGATTACCCGTCGCCTGGTGGTGGCGGTCGGCGTGCTGTTCGTAATGGGTGTCCTGATGGCTGTCGCCGCGCTGTTCAACATTGCGCAAAAGCTGGACGCGGACGACGTGGGCAAGACCCACTTCTACATCGAGCGCGCGCTCGAGAATCGCATCACCGCGTCGAAAAACTACATGGCCAGTTACGCCTACTGGACCACCGGCTATGAGCGTCTTAACGGCGAGGTCGATGTGCAATGGGCCTATGCCGAACAGAACATCGGCAAGACCCTGTTCACCAACGATGAATACGAAGGGGTGTTCGTCATCGACCGTGAACGCACCAAATATGCGGTGGTGCGGGGACAAAATGTCCAGGCAGAGGCGACAGCCTACATCGATACACCGCTGAGGGACCTTGTCGATCAGCTCCAGGCGCAACCGGACCTGACCAGGCCCATGATCCGCTACACCTTGTTCGACGGCTGGCCGGCCATCGTCACGGCTTCGGTGATCCTGCCCAACGACGAACGTCCTCAGGTCGAGGCCAAGGGGACGTCGGTGCTGCTTTTTGTCGACCAGCTGACGCCGGTCAAGCTTCGCAAGGTAGGCAAGAGCTACGGCCTGAACGAGTTGAACCTGGTGAAAGATACGGCGCTGGCGCCCGGTCAGCCAGCCGTACCGCTGGATAGCACCGGTTACAGCCTGGTATCCCGACTGGAGCGGCCAGGCCACCAATTGTTGTGGTCCCTGGTTCCGCCATTGGGCGGGGCGTTGCTGATCCTGGCGTTGCTCACCGCTTATTTTTTCCGCTATGCCATGCGTACCGCTCGACAGGTGGACGCCAGCTACGACAGCCTGGAAACCTCAAAGCAGGCGCTCCAGGCGAGCGAAGAGCGCTTCCGTGCCGTGGCGGAGGCGGCGTCGGACTGGATATGGGAAATCGACAGCCAGCAGCGCATCACCTATCTGTCGGGGCGCTTCAACACCGTTACCGGTTTTTCCGATCAGCAATGGCTGGGACAGGACATCGAACAGTTGCTGTATTGCGACACCACGCCGATTGCCTTGTGGCTGGGCAAACTGGTCGAAGAACAGAATGCCAGCAACCTGCGGTGTTCCTACCGCGACCATTCCGGACAGTTGCGATTTTGTCGGGTATCGGCGCGGCCGATCTATGACAAGGCCTTGGTAACGGGCTATCGCGGCACCGCCAGCGACATCACCGATGAAGTTGCCGCCCACGCCCAGGTCCAGCATCTGTCGATGCACGATGCGCTGACCGGCCTGCCGAATCGAAACAAGTTGGCCCGGCACCTGGACGATGCATTGCTTGCCAAGGAGCATTCCGTACCGCTGGCCTTGCTGATGGTGGATCTGGATAACTTCAAGCCGATCAACGATTCACTGGGCCACCCGGCTGGCGATGCGGTGCTGCTGGAAGTGGCCCAGCGCCTGCGCGACTGCACCCGAGAGCACGATCTGGTGGCGCGCCTGGGTGGGGATGAGTTCGTGGTGGTGCTCAGCGGAGTGGAGCACTCCACTGAAATCGACCGGTTTTGTGCACGGCTGATCGACAGCCTGCAGCAACCGATCCATTACGAGACCCATTCGTTGCACATTGGCGCCAGCATCGGCATTGCCGTAAGCCGGCGCCAAGGTTATGTGCCGGGCGAGTTGATCCGTTGTGCCGACATCGCCCTGTACCAGGCCAAATCCGAGGGCAAGAAGACCTGGTGCTACTTCGCCTCGCACATGAACGATCAGATCCAGCATCGTCGCCAGCTGGAAAGCGACCTTCGCCAGGCATTGAAGAAAAATGAGTTCGTCCTGCATTTTCAGCCTCGCTATACCGTGGATGGCAAGACCATCGTCGCTGTCGAGGCGCTGGTCCGTTGGCAACATCCGACCCAAGGCTTGCTGGGGCCCGACGCGTTTATCCCGCTGGCCGAGCAAACCGACCTGATTGTCCCGCTTGGGCGTTGGGTGTTACGCGAGGCCTGCGAAACCGCGTTGACCTGGCCGGGCGAGCTGATGGTCTCGGTCAACCTCTCGCCTGCGCAATTCGAACGCAGCGATGTGGTCGAGGACGTGCGCCAGGTATTGATCGAAACCCACTTCCCGGCGAGTCGCCTGGAGCTGGAAATCACCGAGAACGTCATGCTGAACGATGTGGACGGTGCGCTCCAGGTCATGAATGCGCTCAAGGAACTGGGGGTGCGCCTGAACATGGACGATTTTGGTACCGGCTATTCGTCGCTCGGTTATTTGCGCACCTATCCGTTTGATGGCATCAAGATCGACAAGCGCTTCATCGCCTCCATGAGCAACAGCAGCAACGACCGCGCCGTGGTCCAGGCGATCATCAACCTGGGCAAGGCCATGGGCCTGACGGTCACCGCCGAAGGTGTCGAAACCCTGGCCCAACTGGGCACGCTGGGTTCGGATGAATGCCACGAGGTGCAAGGCTATTTTCTCAGCCGCCCCATCGACAAGCAGGCGTTCGCGCATCTGCTGGAGAGCGCCCCGCCCCTGTCGAAAACCGGCTCCTGA	MDTAADIPPDVTRHTPITRRLVVAVGVLFVMGVLMAVAALFNIAQKLDADDVGKTHFYIERALENRITASKNYMASYAYWTTGYERLNGEVDVQWAYAEQNIGKTLFTNDEYEGVFVIDRERTKYAVVRGQNVQAEATAYIDTPLRDLVDQLQAQPDLTRPMIRYTLFDGWPAIVTASVILPNDERPQVEAKGTSVLLFVDQLTPVKLRKVGKSYGLNELNLVKDTALAPGQPAVPLDSTGYSLVSRLERPGHQLLWSLVPPLGGALLILALLTAYFFRYAMRTARQVDASYDSLETSKQALQASEERFRAVAEAASDWIWEIDSQQRITYLSGRFNTVTGFSDQQWLGQDIEQLLYCDTTPIALWLGKLVEEQNASNLRCSYRDHSGQLRFCRVSARPIYDKALVTGYRGTASDITDEVAAHAQVQHLSMHDALTGLPNRNKLARHLDDALLAKEHSVPLALLMVDLDNFKPINDSLGHPAGDAVLLEVAQRLRDCTREHDLVARLGGDEFVVVLSGVEHSTEIDRFCARLIDSLQQPIHYETHSLHIGASIGIAVSRRQGYVPGELIRCADIALYQAKSEGKKTWCYFASHMNDQIQHRRQLESDLRQALKKNEFVLHFQPRYTVDGKTIVAVEALVRWQHPTQGLLGPDAFIPLAEQTDLIVPLGRWVLREACETALTWPGELMVSVNLSPAQFERSDVVEDVRQVLIETHFPASRLELEITENVMLNDVDGALQVMNALKELGVRLNMDDFGTGYSSLGYLRTYPFDGIKIDKRFIASMSNSSNDRAVVQAIINLGKAMGLTVTAEGVETLAQLGTLGSDECHEVQGYFLSRPIDKQAFAHLLESAPPLSKTGS	PGPT0023624_1186	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
D1-35_00886	795	xthA_1	COG0708	Exodeoxyribonuclease III	ATGAAAAAGCTGCGAATCGCGACCTTCAATATCAACGGTATCCGGGCTCGGCTGCCCAACCTGCTGGAGTGGCTGGAGCGGGAGAAACCCGACATCGCCTGCTTGCAGGAGTTGAAGGCTGCCGATAAGGATTTCCCGGCGGCGGAGCTTGAGTCGGCCGGGTACGGGTCGATCTGGCACGGCCAGGCTTCCTGGAATGGCGTCGCGATCCTGGCCCGCGATGCGCAACCGCTGGAAAGTCGGCGCGGCCTGCCGGGCGGAGAGGAAGACAATCACAGTCGGTATATCGAGGCAGCCGTGCATGGCGTCCTGGTAGGTTGCCTTTATCTGCCCAACGGCAATCCGCAGCCGGGTCCGAAGTTCGACTACAAGCTGGCATGGTTCGAGCGGCTGATCGATTATGCCCAGGGACTACAAGCCAGCGATCACCCGGTGGTGCTGGCGGGCGACTACAATGTCGTGCCCACCGACTTCGACATCTACAACCCACGCTCCTGGCTCAAGGATGCCCTGTTGCAGCCGGAAAGCCGCGAGCGATACCAGCGCCTGCTGGACCAGGGCTGGACGGATGCGTTGCGTCATCTCTACCCGGAGGAACGGATCTATACGTTCTGGGACTATTTCCGCCAGCACTGGCAAAAAAACTCCGGGCTACGTATCGACCACCTGTTGCTCAACCCCGTCGCCAGTGCCTACCTGAGCGAGGCGGGGGTGGATGCCTGGGTCAGAAACCAGCCACACCCCAGCGACCATGCCCCGACCTGGATTCGTCTGTCTTCGCGCAAGCGCCGTTGA	MKKLRIATFNINGIRARLPNLLEWLEREKPDIACLQELKAADKDFPAAELESAGYGSIWHGQASWNGVAILARDAQPLESRRGLPGGEEDNHSRYIEAAVHGVLVGCLYLPNGNPQPGPKFDYKLAWFERLIDYAQGLQASDHPVVLAGDYNVVPTDFDIYNPRSWLKDALLQPESRERYQRLLDQGWTDALRHLYPEERIYTFWDYFRQHWQKNSGLRIDHLLLNPVASAYLSEAGVDAWVRNQPHPSDHAPTWIRLSSRKRR	PGPT0014910_15	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971	NA	NA
D1-35_00887	828	nat	COG2162	Arylamine N-acetyltransferase	ATGAACCCACCTCGACTGAGTGATTGCGCTCGTTATCTGCGGCGCCTGGGCTTCGACACGGCACCACCCCCGACGCTCGATTCGTTGCGCCAGTTGCAGTGGCGTCATACGGCCGAGTTCCCTTTCGAAACCCTTGCGACGCTGCTGGGGCAGCCGGTGCCGATCGACCTTGAGTCGGTGGAACGAAAAATCTTCGAGCAAGGGCGCGGCGGTTATTGCTACGAGCTCAATCAGCTATTCCTGGCCCTTTTGCAGGACCTGGGCTTCGAGGCCCGCGGCATTACCGGGCGAGTAGTGATGAACGCACCTGAAGGCGCCTGGACCGCACGCACCCATCGCTTGAGCCTGGTGACGCTTGACGGCGTGCGCTATGTAACCGACGTCGGCTTCGGTGGCATGGTGCCGACCGCGCCACTGTTGCTGGACAGTCGCGAGGTCCAGGCCACTCCTCACGAGCCATACCGCATCGAGACCACTGAAGACGGCTACATGCTGCGCGCCAACATAGGGGGCGAATGGCGGCCGATGTACCTGTTCGACCTGCAGCGCCAGGAAGAGATCGATTACATCGTCGGCAATTGGTACGTCTGCAGTCATCCGGATTCCCCGTTCAAGGACCGGTTGATGGTCGCCCGCACGGGTGACGGTTTGCGCAAGACCCTCAACGGCAACAGCTATGCCGTGCACCAGATCGGGCAGGAAAGTGAGCGACGCACAATCATGGACGTCGACGAGTTGATCGACCTGCTGGAGACGGAGTTCGGGCTGCGGGTGCCGCCACGGGAACTGCTGCGGCCGGCGCTGGAAGGGCTGATAGCGCGAAGTTGA	MNPPRLSDCARYLRRLGFDTAPPPTLDSLRQLQWRHTAEFPFETLATLLGQPVPIDLESVERKIFEQGRGGYCYELNQLFLALLQDLGFEARGITGRVVMNAPEGAWTARTHRLSLVTLDGVRYVTDVGFGGMVPTAPLLLDSREVQATPHEPYRIETTEDGYMLRANIGGEWRPMYLFDLQRQEEIDYIVGNWYVCSHPDSPFKDRLMVARTGDGLRKTLNGNSYAVHQIGQESERRTIMDVDELIDLLETEFGLRVPPRELLRPALEGLIARS	PGPT0019890_711	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_NITRO-|AMINOBENZOATE_DEGRADATION,PGPT0019890-nhoA|yddI-K00675	NA	NA
D1-35_00888	1521	uacT	COG2233	Uric acid transporter UacT	ATGAAAACGCCCCATGTTTCACTCCCACGGCCCGAGGACGAAAACCTTGGCGTCGGCGCGAATATGGCTTACGGCCTACAACATGTGTTGACCATGTACGGCGGCATCGTCGCGGTGCCCTTGATCATCGGCCAGGCGGCCGGCTTGTCGCCGGCGGACATCGGTCTGCTGATCGCCGCGTCATTGTTCGCGGGAGGGCTGGCGACGTTGCTGCAAACGCTTGGCTTGCCGTTCTTTGGCTGCCAGTTGCCGCTGGTGCAGGGCGTTTCGTTCTCCGGCGTCGCGACCATGGTGGCGATCGTTGGAACCGGCGGGGAAGGGGGCTTCCAGGCCATCCTTGGTGCGGTAATCGCGGCGTCCCTGATCGGCTTGTTGATCACTCCAGTATTCTCGCGCATTACCCGGTTCTTCCCGCCGCTGGTCACCGGCATCGTCATCACCACCATAGGCCTGACGCTGATGCCGGTGGCGGCGCGCTGGGCCATGGGCGGCAACAGCCACGCCGCGGATTTCGGCAGCATGGCGAACATCGGCCTGGCTGCGCTGACCCTGGTACTGGTGCTGGTACTGAGCAAAATGGGTAGTGCGACGATTTCACGCCTGTCGATCCTGCTGGCGATGGTCATCGGCACCGTCATCGCGGTATTCCTCGGCATGGCGGATTTTTCGTCCGTCAGTGAAGGCCCGATGTTCGGGTTTCCAACGCCGTTCCACTTCGGCATGCCGACTTTCCATATCGCGGCGATCCTGTCGATGTGCATCGTGATCATGGTGACGCTGGTGGAAACCTCCGCTGACATCCTGGCGGTGGGGGAAATCATCGACACCAAGGTCGATTCCCGCCGTCTGGGCAATGGTCTGCGAGCCGATATGCTGTCGAGCATGATCGCCCCGATCTTTGGCTCCTTCACCCAGAGTGCCTTTGCCCAGAACGTCGGGCTGGTGGCGGTGACCGGTATCAAGAGCCGTTTTGTCGTGGCAACTGGCGGGATATTCCTGGTGGTGCTCGGGCTGCTGCCGTTCATGGGGCGGGTGATCGCCGCCGTGCCGACCTCGGTGCTCGGTGGTGCTGGTATCGTGCTGTTCGGTACGGTTGCCGCCAGTGGTATCCGAACCCTGTCGAAGGTTGACTACCGCAACAATGTCAACCTGATCATCGTCGCCACTTCCATTGGCTTCGGCATGATCCCGATCGCCGCACCGAACTTCTACGACCATTTCCCCAGCTGGTTCGCGACGATCTTCCATTCGGGGATCAGTTCTTCGGCAATCATGGCAATTATCCTGAACCTGGCGTTCAACCATTTCACCACCGGCAACTCCGACCAGCAGTCAGTTTTTGCCGCCGGTACCGAGCGGGTGCTGCGCTACCAGGACCTGGCTGCATTGCGTGAAGGCGATTATTTCAGCGACGGAAAATTGCATGACTGCGACGGCAACGAGATTCCAGTGGTGGCGGAACCCGCCCACTCGCCGGGAGAGCACGGCCCGGTGCGGCTGAAGAGCAGCGAGCACGTCTGA	MKTPHVSLPRPEDENLGVGANMAYGLQHVLTMYGGIVAVPLIIGQAAGLSPADIGLLIAASLFAGGLATLLQTLGLPFFGCQLPLVQGVSFSGVATMVAIVGTGGEGGFQAILGAVIAASLIGLLITPVFSRITRFFPPLVTGIVITTIGLTLMPVAARWAMGGNSHAADFGSMANIGLAALTLVLVLVLSKMGSATISRLSILLAMVIGTVIAVFLGMADFSSVSEGPMFGFPTPFHFGMPTFHIAAILSMCIVIMVTLVETSADILAVGEIIDTKVDSRRLGNGLRADMLSSMIAPIFGSFTQSAFAQNVGLVAVTGIKSRFVVATGGIFLVVLGLLPFMGRVIAAVPTSVLGGAGIVLFGTVAASGIRTLSKVDYRNNVNLIIVATSIGFGMIPIAAPNFYDHFPSWFATIFHSGISSSAIMAIILNLAFNHFTTGNSDQQSVFAAGTERVLRYQDLAALREGDYFSDGKLHDCDGNEIPVVAEPAHSPGEHGPVRLKSSEHV	PGPT0007330_81	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_TRANSPORT,PGPT0007330-pubX-K16169	NA	NA
D1-35_00889	369			hypothetical protein	ATGAAACGCAAACTTCCCATTATCGCCCTGCTCGTGGGGGCACTCGCGGCCACCGGCCAGGCATCCGCCCATGGTCGCGGTGGTTGGGAGGGTCCCGCGGTGTTTGGTGCAATCGTCGGCTCGGCCATTGTCGGCTCCGCGCTCATCAGCCGCGACCGACCGGTTTATGTCCAGCAACCGGTGTATGTCCAGCCACAACCGGTCTACGTGCAACAACCTGTCTATGTGCAGCAACCGCCACCGGTCTATTACGCGCCGCAACCGGTATACATCGAGCGCCCTGTCTACTATCGCCCGGCGCCGGTGTATTACGGGCCACCACGGGGCTTTTACGATGGCCCGCCGCGCGGCCATTACGGTCGCTGGTAG	MKRKLPIIALLVGALAATGQASAHGRGGWEGPAVFGAIVGSAIVGSALISRDRPVYVQQPVYVQPQPVYVQQPVYVQQPPPVYYAPQPVYIERPVYYRPAPVYYGPPRGFYDGPPRGHYGRW				NA	NA	NA	NA	NA
D1-35_00890	819	sdhL	COG0169	Shikimate dehydrogenase-like protein	ATGCAGATGAACCCCAACAAAGATACCCAGCTGTGCATGTCACTATCGGGGCGCCCGGGCAACTTCGGCCTGCGCTTTCATAATCACCTCTATGAACAACTGGGCCTGAATTTCTACTACAAGGCGTTCAGCAGTCGCGACCTGCCGGGTGCGGTGCGCGGAATTCGCGCCCTGGGCATCCGTGGGTGTGGCGTGTCGATGCCGTTCAAGGAGGCCTGCATCGCCCTGGTCGATGAGTTGGACCCTTCCGCCGCCGCGATCCAGTCGATTAACACCATCGTCAACACTGACGGCCATTTGAAGGCCTACAACACCGACTATATTGCCGTCGCCCAATTGCTGCAGACCCACGCCGTACCCAAGGATTCGACTTTCGCCCTGCGTGGCAGCGGCGGCATGGCCAAGGCGGTCGCCAGTGCCTTGCGCAATGGCGGCTATAAAAATGGCCTGATCGTCGCCCGCAACGAAACCACCGGCCGAGCCCTGGCCGACTCCCTGGGATACGAATGGCAAGCCGAGCTGGGCGATCGCCGGCCACAAATGCTGATCAACGTGACGCCGATCGGCATGGCCGGCGGTCCTGAAGCGGGCCACCTGGCGTTCGAGCCCGATGCCCTCGTGGCAGCCGAGACGGTATTCGACGTGGTGGCGATTCCATCGGAAACGCCGTTGATCGTCCGGGCCCGGGCAGAAGGCAAGCGGGTCATCACCGGGCTGGAGGTGATCGCGATCCAGGCCTTGGAGCAGTTTGTGCTGTACACGGGCGTGCGGCCCAACCTGGAGCAATTCGACAAGGCCGTGGCTTTCGCCCGGTCCTGA	MQMNPNKDTQLCMSLSGRPGNFGLRFHNHLYEQLGLNFYYKAFSSRDLPGAVRGIRALGIRGCGVSMPFKEACIALVDELDPSAAAIQSINTIVNTDGHLKAYNTDYIAVAQLLQTHAVPKDSTFALRGSGGMAKAVASALRNGGYKNGLIVARNETTGRALADSLGYEWQAELGDRRPQMLINVTPIGMAGGPEAGHLAFEPDALVAAETVFDVVAIPSETPLIVRARAEGKRVITGLEVIAIQALEQFVLYTGVRPNLEQFDKAVAFARS	PGPT0012890_4170	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
D1-35_00891	651			hypothetical protein	ATGAGCATCGAAGAACAAAGCCAGGCCGAAGAACCACGGCTCAACAGCACGGAAATCCGCATCCTTGGCGCCCTGATCGAAAAACAGGCCACCAACCCCGAGACCTACCCTCTCACCCTCAACGCGCTAGTGCTGGCCTGCAACCAGAAGACCAGTCGCGAACCGGTGACCAATCTCAGTCCGGGCCAGGTCGGCCAGAGCTTGCGGGCCCTGGAAGGCCGCGGTTTTACCCGGCTGGTCATGGGCAGCCGCGCCGACCGCTGGGAGCACCGGGTCGACAAGGCGCTGGAGTTGGTGCCGGCCCAGGTGATCCTGATGGGATTGCTGTTCCTGCGCGGCCCACAGACCGTCAATGAACTGCTGACCCGCAGCGGCCGCATGCATGATTTCGAAGACACCGAGCAGGTCGTGCATCAGCTTGAGCGCCTGATCGCCCGAGGCCTGGCGCTGCTGGTGCCGCGCCAGGCTGGCCAGCGTGAAGACCGCTACGTGCACGCCATGGGCGACCCCGCGGACATCGAGGCCATCCTCGCCGCTCGCCAGCACCCGATAGAACGCAGTGGCGCCGGCAGCGGCGTGTCACTGGAACGCCTTGAAGAGCTCGAAGCGCGGATCGCCGCGCTGGAGGAGCGTCTGGCGCGCCTGGAGTAA	MSIEEQSQAEEPRLNSTEIRILGALIEKQATNPETYPLTLNALVLACNQKTSREPVTNLSPGQVGQSLRALEGRGFTRLVMGSRADRWEHRVDKALELVPAQVILMGLLFLRGPQTVNELLTRSGRMHDFEDTEQVVHQLERLIARGLALLVPRQAGQREDRYVHAMGDPADIEAILAARQHPIERSGAGSGVSLERLEELEARIAALEERLARLE				NA	NA	NA	NA	NA
D1-35_00892	510			hypothetical protein	ATGACCATTTCCCTGTACGCCGCCTCCGTCCCGGTTTTCAAACAGATGCTCAACGCCCTGAGTGATGTGCTGAACAAGGCCGAAGCCCACGCCACCGCGAAAAACATCGATCCGAACGCTTTCCTGCAAGCACGCCTGTTCCCGGACATGTTCCCGCTGGTGCGTCAGGTGCAGATCGCCGTCGACTTCGCCAAGGGCGTGTCCGCGCGCCTGGCCGAGATCGAAGTGCCGAAATACGACGACAGCGAGACCACCTTCGCTGAGCTGCAAGCGCTGATCGCCAAGGTGCTGGCCTTCATCGACGGCATCAGCCCCGAGCAGATCGATGGCAAGGAAGGCATTGAAATTGTCACCCGTCCGGGCACCCCGAAGGAAAAACGCTTCAGCGGTCAAACCTACCTGCTGACCTACGGCCTGCCGCAATTCTTCTTCCACGTCACCACCACTTATGCACTGCTGCGTCACAACGGCGTGGAAGTAGGCAAGCGCGATTACATGGGCGCGTTCTAA	MTISLYAASVPVFKQMLNALSDVLNKAEAHATAKNIDPNAFLQARLFPDMFPLVRQVQIAVDFAKGVSARLAEIEVPKYDDSETTFAELQALIAKVLAFIDGISPEQIDGKEGIEIVTRPGTPKEKRFSGQTYLLTYGLPQFFFHVTTTYALLRHNGVEVGKRDYMGAF				NA	NA	NA	NA	NA
D1-35_00893	1233	sstT	COG3633	Serine/threonine transporter SstT	ATGACTGCTGTGTCCTCTTCCCTTCTGCACCGCTTCAAACGCACCAGCCTGGTGACGCAAATTGTCATCGGCCTGATCGCCGGCATTGTCCTGGCGTGGCTGGCCCCTGACGTGGCGAAATCCACGGCGTTCATCGGCAAGGTCTTTGTGTCGGCGCTCAAGGCCGTGGCGCCGATCCTGGTGTTCGTGCTGGTCATGGCGTCGATCGCCAACCATAAGCACGGCCAGGAAACCCATATCCGCCCGATCCTCTTCCTTTATCTGCTGGGCACTTTCGCTGCGGCCGTGGTCGCGGTCATTGCCAGCACCCTCTTTCCCTCGAGCCTGGTGTTGAGCGCCCAGGACGTTGCCGTTACCGCGCCCGGCGGGATCAGTGAAGTGCTGCAGAGCCTGTTGCTCAGCGTGGTGGACAACCCCGTTCGAGCGCTGATGGACGGTAACTTCATTGGCATCCTGGCCTGGGCCATCGGCATGGGTATTGCCATTCGCCATGCCGGCGAAACCACGCGCACCGTACTCGAAGACTTGTCCAATGGCGTGACCGTGATTGTGCGGCTGGTCATCCGCTTCGCCCCGCTGGGTATTTTCGGCCTGGTAGCCTCGACCCTGGCCACCTCCGGCTTTGGTGCGCTGCTCGGTTACCTGCACCTGTTGACCGTGCTGATCGGCTGCATGCTGTTCGTGGCACTGGTGGTCAACCCGCTCATCGTGCTCTGGAAACTGCGTCGCAACCCCTTCCCGCTGGTGTTCACCTGCCTGCGTGAAAGCGGCATCACCGCGTTCTTCACGCGCAGCTCGGCGGCCAACATTCCCGTGAACCTGGAGCTGAGCAAGCGCCTCGGCCTGCACGAAGACACCTACTCGGTCTCGATCCCGCTGGGCGCCACCATCAACATGGCCGGGGCCGCCATTACGATCACCGTACTGACGCTGGCGGCCGTACATACCCTGGGCATCGTGGTGGATGTGCCCACGGCCGTGCTGCTCAGTGTCGTCGCCGCCATCTGCGCCTGCGGCGCGTCCGGGGTCGCCGGCGGTTCGCTGCTGTTGATTCCCCTGGCGTGCAGCCTGTTTGGCATCCCCAGCGAAATCGCCATGCAAGTGGTCGCGGTAGGGTTCATCATCGGCGTGCTGCAGGATTCAGCTGAAACCGCGCTCAACTCGTCCACGGATGTGCTGTTCACGGCGGCGGCTTGCCTGGGTGAAGAAGAGCGGGCGCGGCGTACTGCATAA	MTAVSSSLLHRFKRTSLVTQIVIGLIAGIVLAWLAPDVAKSTAFIGKVFVSALKAVAPILVFVLVMASIANHKHGQETHIRPILFLYLLGTFAAAVVAVIASTLFPSSLVLSAQDVAVTAPGGISEVLQSLLLSVVDNPVRALMDGNFIGILAWAIGMGIAIRHAGETTRTVLEDLSNGVTVIVRLVIRFAPLGIFGLVASTLATSGFGALLGYLHLLTVLIGCMLFVALVVNPLIVLWKLRRNPFPLVFTCLRESGITAFFTRSSAANIPVNLELSKRLGLHEDTYSVSIPLGATINMAGAAITITVLTLAAVHTLGIVVDVPTAVLLSVVAAICACGASGVAGGSLLLIPLACSLFGIPSEIAMQVVAVGFIIGVLQDSAETALNSSTDVLFTAAACLGEEERARRTA				NA	NA	NA	NA	NA
D1-35_00894	1161	pbuE	COG2814	Purine efflux pump PbuE	ATGCTGTTGCCCATCTTCCTGTTGTCCGCCGCCGGCTTCACGGTGCTGACCACGGAATTCATCATTGTCGGCCTGTTGCCAGCCATCGCCCGGGACCTGCAAGTCACCATCCCTCAGGCTGGACTGCTGGTGACTTTGTTCGCATTTACTGTCGCGGCGTTCGGGCCGTTCCTGACCGCGTGGTTTGCCCGTGTCGAGCGGCGTCGGCTGTTTATCAGCGTGCTGGTGATGTTCGGCCTGGCCAACACTTTGGCGGCGCTGGCGCCGAACATCTGGGTCATGGCCATTGCCCGGTTGGTCCCGGCTTTGGGTCTGCCGGTATTCTGGGCGTTGGCCAGTGAAACCGCAGTGGACATCGTCGGGCCGCAGTTTGCCGGGCGAGCCATCGCGCGGATCGGCTTCGGTATCGTCTGCGCCACGGTATTCGGCATTCCGGTCGGCACCCTGATCTCCGACGCATTCGGCTGGCGCAGCGCTTTTGCAATCCTGGCGGTCATCGCGTTTGCCAAGGCGCTGCTGCTGTTTATCTACCTGCCGAAAACCAATCTGCACCAGCATCAAGTGAGCTTTCGCTCGCAATTCAAGATCCTGCGCAGCCCCCTGATGCAGGGGCATGTGCTGCTGTCGATCCTGGTATTCAGCGGCATGTTTACCGCCTATACCTATCTGGCAGATATCCTCGAACGCCTGGCCGGGTTCGACGGTACGCTCGTGGGTTGGTGCCTGATGGGCTTCGGGGCCGTGGGCCTGCTCGGCAACTCCCTGGGTGGTCGCGCGGTAGACCGGCATCCGCTGATCGCCTCAATGGTGTTCTGCCTGTTCATGATCGGCGGCATGGTGGCGCTGGTGCCGAGCATTCATTCGACGCTGGGGTTGGCCGCCGCGATGGGTATCTGGGGCGTGACCCAGGCGGCGCTGTTCCTGGTCAGCCATGTGCGGCTGATGAAAGCGGCCCCTGAAGCGCCGGCGTTTGCTGCTTCGCTGAACATCGCCGGGGCCAACCTGGGCATTGGCCTGGGGGCGTTGGTGGGCGGTCGGGTCATCGATACGCTGGGCCTGGGCAGCGTCGGTTTCGCCGCGGCCGGATTCATCCTGGTATCGATCCTGCTGGCGCTGTTGCTGATGACGTTCAAGCCGCGCAATGCCTGCGCTGATTGCTAG	MLLPIFLLSAAGFTVLTTEFIIVGLLPAIARDLQVTIPQAGLLVTLFAFTVAAFGPFLTAWFARVERRRLFISVLVMFGLANTLAALAPNIWVMAIARLVPALGLPVFWALASETAVDIVGPQFAGRAIARIGFGIVCATVFGIPVGTLISDAFGWRSAFAILAVIAFAKALLLFIYLPKTNLHQHQVSFRSQFKILRSPLMQGHVLLSILVFSGMFTAYTYLADILERLAGFDGTLVGWCLMGFGAVGLLGNSLGGRAVDRHPLIASMVFCLFMIGGMVALVPSIHSTLGLAAAMGIWGVTQAALFLVSHVRLMKAAPEAPAFAASLNIAGANLGIGLGALVGGRVIDTLGLGSVGFAAAGFILVSILLALLLMTFKPRNACADC	PGPT0028991_4121	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
D1-35_00895	996	nhaR	COG0583	Transcriptional activator protein NhaR	ATGGCTCACCGATGGCCCGGCATTCTAGAGAGGCAGATACTTCAGGAAAATTCGTATTTTCAGCGGCTATACTTCGGTATTTACGAATCGGCGAAAACCATGCTCAATTATCGACAGCTGCATTATTTCTGGGTGGTGGCAAAAACCGGCAGCATCGTGCGCGCCTGTGAGCAATTGAACCTGACCCCGCAAACCATCAGCGGGCAGATCTCCCTGTTCGAACAGACCTACAACATCAAATTGTTCCAGCGCGTCGGGCGCCAGTTGGAGCTGACAGAAGCCGGTCGCCAGACGTTGCCTTACGCCGAACACATGTTCCAACTCGGCGGCGAACTGGAATTGATATTGCGCGCCCAACCCAACGAGCAGCAGACACTGTTTCGGGTCGGGGTGGCGGATGTCGTGCCCAAGTCCATCGTCTATCGGCTGCTGGCCCCGACCATGGAACTGAGCGAGCCACTGCGTATCACCTGTCGCGAGGACAAGCTCGAACGGCTGCTGGCGGACCTGGCAATCCAACGCCTGGACCTGGTGATTTCCGACAGCCCGATGCCGACTCACCTGGATATCAAGGGCTACAGCCAGAAGCTTGGAGAATGCGGGATCAGCTTTTTTGCCACCGCCGCGCTGGCCGATCGTCATGGGCAGAATTTTCCCCATGGCCTGCATGACGCCCCGCTGCTGATCCCGGGACCGGAAACCGTCGTACGCAGCCGCCTGCAACGCTGGTTCGCCGAACAGCAGATCCAGCCGCGGATTGTCGGCGAGTTCGACGACAGCGCGTTGATGCAGGCATTCGGCCAGTCAGGCAGCGGGATTTTTATCGGTCCCAGCGTGATTGCCGAAGAGGTTAAGCGGCAATATGGGGTGCAGGTCATCGGCCAGACCGAGGCAGTGAGCGAGTCGTTCTACGCCATTTCCGTGGAACGCAAGGTCAGCCACCCTGGCATCGTCGCAATTGCCGAAGGGGCACGCCGCGAGCTGTTCAGCGCCTAG	MAHRWPGILERQILQENSYFQRLYFGIYESAKTMLNYRQLHYFWVVAKTGSIVRACEQLNLTPQTISGQISLFEQTYNIKLFQRVGRQLELTEAGRQTLPYAEHMFQLGGELELILRAQPNEQQTLFRVGVADVVPKSIVYRLLAPTMELSEPLRITCREDKLERLLADLAIQRLDLVISDSPMPTHLDIKGYSQKLGECGISFFATAALADRHGQNFPHGLHDAPLLIPGPETVVRSRLQRWFAEQQIQPRIVGEFDDSALMQAFGQSGSGIFIGPSVIAEEVKRQYGVQVIGQTEAVSESFYAISVERKVSHPGIVAIAEGARRELFSA	PGPT0013946_626	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013946-nhaR-K03717	NA	NA
D1-35_00896	264			hypothetical protein	ATGACGTATAAATCCTTGGGTCTTGCAGCCTTCCTGTCGCTGTCATCGATAGCGCTCGTGGGTTGTGAACAAGCGGAAAAGAGCGCCCAGCAGTTGGCCCAGCAACTTAAGGAACAAGCAGTCGAAACGGCCAAGCAGGCAATCGACGATACTCACAAAGCTGCCGAGCAGGCCATCAGCGAGGCTACTGGTGGGCTGATAAGCCCCAAAAAAGAGCCGGAGAAAGACGCTGAAGAATCCGAATCCTCCACCAAGACCATCTAA	MTYKSLGLAAFLSLSSIALVGCEQAEKSAQQLAQQLKEQAVETAKQAIDDTHKAAEQAISEATGGLISPKKEPEKDAEESESSTKTI				NA	NA	NA	NA	NA
D1-35_00897	750			hypothetical protein	ATGGATTATCTGTTACAGCTTGCCGCCAGCCCCACCGCCTGGATTGCCTTGGCCACCCTGGTCGTCATGGAAATCGTGCTTGGCATCGACAACCTGATCTTCATTTCGATCTTGACCAACAAGCTGCCCGAACAGCATCGCGCCAAGGCGCGGCGGATCGGTATCGGCATGGCGCTGATCCTGCGCCTGGGCCTGCTGAGCACCATCGCGTTCATTGTGCAGTTGACGGAACCGGTCATCGAAATCCTTGGCCAGGCCTTTTCCTGGAAGGACATGATCCTCATCGCCGGTGGCCTGTTCCTGTTGTGGAAGGCGACCACCGAGATCCATCACAGCATGGACCCGGCGCCGAACGATCCCAAGTCGGCCACATCGGGCGTGACCCTCGGGTTCGCTGCTGCGATCGGTCAGATCCTGATGCTCGACCTGGTGTTTTCCATCGACAGCATCATTACCGCGGTGGGTATGACCGAACACTTGCCGATCATGATCATCGCCGTGGTGGTTTCGGTGCTGGTGATGCTGCTGGCCGCCGAGCCGTTGGCGAAGTTCATCAATGACAACCCCACCGTGGTCATGTTGGCCCTGGGCTTCCTGATCATGATTGGCATGACCCTGATCGCCGAAGGTTTCGGTGCCCATGTGCCCAAGGGCTATATCTACGCGGCCATGGCCTTCTCGGCGGCGATCGAGGTGTTGAACATGTTGTCCCGACGCGCCAGGGAGAAAGCGCTCGTCGACAAAGCCTGA	MDYLLQLAASPTAWIALATLVVMEIVLGIDNLIFISILTNKLPEQHRAKARRIGIGMALILRLGLLSTIAFIVQLTEPVIEILGQAFSWKDMILIAGGLFLLWKATTEIHHSMDPAPNDPKSATSGVTLGFAAAIGQILMLDLVFSIDSIITAVGMTEHLPIMIIAVVVSVLVMLLAAEPLAKFINDNPTVVMLALGFLIMIGMTLIAEGFGAHVPKGYIYAAMAFSAAIEVLNMLSRRAREKALVDKA				NA	NA	NA	NA	NA
D1-35_00898	678			hypothetical protein	ATGGTGCCGGTAATTTCATCTTTTCGATCACTGGTAGTGGCGCTGACCTGTGCCGCTGTCCTGGTTGGGTGCGCGGGGGGCGTGTCGCCGCAGATAAAGCGTCTGCCCGAGCGGGTCGAACTCAACAGCGTGCCGTTCTTTCGCGGCGAGATGTATCAGGGCGCTCCGCAATCGTTGGCGGCTCTGCTGACTCTGCAAGGGACGGTCATCACGCCCGGGTTGCTGGAAAAACCGTTACACCTGCCCGGTGGCGAGGCGCGTTTGCAGCAGAGTCTGCAAACCTTGGCGCGTGAATACGGACTGGTCGTCTATCCCCTCGACCATGAGCTCGCGGCGTTGCTCGAACAGGTGGCGGCGGGTTATCCCGTGCTGTTGCGCTACACCGAGGGTTCGGCGTTCTGGTCCGGGCCACGCTACGCGATCCTGGCTGGCTACAACCGACAAAAACGTACCGTGCTGCTGCGGTCGGGGATGAACCGGCGGTCGTTGATGAGTTTCGATGCATTCGAATCGGCGTTCAAAGGCGCGGGCGGTTGGGCGGTGTTGATACAGCAGCCCACGCAACTTCCGGCCAACGTTGACTCCCAGCGCTGGTTGAAGGCCGCCGACGAGTTAGCCGGGGCGGGGCAGGAGCAGGCCGCCGCGCGGGCCACCAAGGCGCTGGGCTCCGCACGCTGA	MVPVISSFRSLVVALTCAAVLVGCAGGVSPQIKRLPERVELNSVPFFRGEMYQGAPQSLAALLTLQGTVITPGLLEKPLHLPGGEARLQQSLQTLAREYGLVVYPLDHELAALLEQVAAGYPVLLRYTEGSAFWSGPRYAILAGYNRQKRTVLLRSGMNRRSLMSFDAFESAFKGAGGWAVLIQQPTQLPANVDSQRWLKAADELAGAGQEQAAARATKALGSAR				NA	NA	NA	NA	NA
D1-35_00899	204			hypothetical protein	ATGGCACAGTCGAAAACACCTTCAGGGCCGCATTCTTCCGAGCATTCATCCGGTGATGATGACTTGGGATTCGATCCGGACTCGCCGGATCTCGACGATCCGCAAGTGGACCCGGTAGGGCCGGCCAAGGCGCCCCGGGACGAGGAGGATGAGGAACCACCTTCCTCGAGAGCCTATGACCCACTGGGTAACCTTAAGCCCTGA	MAQSKTPSGPHSSEHSSGDDDLGFDPDSPDLDDPQVDPVGPAKAPRDEEDEEPPSSRAYDPLGNLKP				NA	NA	NA	NA	NA
D1-35_00900	1002	pbpG	COG1686	D-alanyl-D-alanine endopeptidase	ATGCGGCGCTTTTTCAACAAGCCGCTGCTCGACAGCACCTTCAACTCCATCGAGTCTACTCGCGTGAAAATCCGTCTTTCGATCCTCAGCCTGTTTTTCCTTTTCACGGGCACCTTCATCACGCAGAACATCAGCGCGCAGGAAACCATTGCCCCGCCACGAGACACTTCAAAACTGCAGGTCGCCTCCGGCAGTGCGATCCTGCTGGACCTGCAGACGGACAAGGTGGTCTATTCGAGCAATCCGGACGTCGTGGTGCCGATCGCATCGGTAACCAAGTTGATGACCGGCCTGATCGTGCTGGACGCCAGGCAGAACCTGGACGAATACATTTCCATGACCATCGCCAACACGCCGGAAATGAAAGGTGTGTTTTCCCGGGTCAAGCTCAACAGTGAACTGTCACGCCGGGACACGCTGCTGATCGCCCTGATGTCGTCGGAGAACCGCGCCGCCGCCAGCCTCGCCCATCATTATCCGGGCGGCTACGCGGCGTTCATTGCGGCGATGAACGCCAAGGCCAAGGCGCTGGGCATGTCCAGCACCCACTATGTCGAGCCCACCGGCCTGTCCATTCACAACGTCTCGACCGCCCGGGACCTGACCAAGCTGTTGATCGCCGCTCGCAAGTATCCATTGCTGAGCGAATTGAGTACCACCAAGGAAAAGACCGTGACGTTCCGCAAGCCGGTCTACAGCCTGGGCTTTCGCAACACCGATCATCTGGTCCACAAGGCCAACTGGGACATTCAGTTGACCAAGACCGGCTTCACCAACCAGGCCGGTCATTGCCTGGTGCTGGTGACAAAAATGGGTAATCGTCCGATGGCGCTGGTGATTCTCGACGCGTTCGGCAAATACACTCATTTTGCCGATGCCAGCCGTATTCGCAGCTGGGTCGAGACAGGCAAAAGCGCCAGTGTCCCTGCCGTGGCCTTGCAATACAAGGCCGCCAAGAACCTCAAGAGCCGCCAGAGTGGCGTGGTAGAAGCGTCAAAATAA	MRRFFNKPLLDSTFNSIESTRVKIRLSILSLFFLFTGTFITQNISAQETIAPPRDTSKLQVASGSAILLDLQTDKVVYSSNPDVVVPIASVTKLMTGLIVLDARQNLDEYISMTIANTPEMKGVFSRVKLNSELSRRDTLLIALMSSENRAAASLAHHYPGGYAAFIAAMNAKAKALGMSSTHYVEPTGLSIHNVSTARDLTKLLIAARKYPLLSELSTTKEKTVTFRKPVYSLGFRNTDHLVHKANWDIQLTKTGFTNQAGHCLVLVTKMGNRPMALVILDAFGKYTHFADASRIRSWVETGKSASVPAVALQYKAAKNLKSRQSGVVEASK	PGPT0024065_475	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024065-pbpG-K07262	NA	NA
D1-35_00901	855	folD	COG0190	Bifunctional protein FolD protein	ATGACTGCACAACTTATCGACGGCAAATCGATCGCCGCCAGCCTGCGCCAGCAGATCGCCCAACGAGTCACCGAGCGCCGCCAGCAAGGCCTGCGCACGCCCGGCCTTGCGGTGATCCTGGTCGGCAGCGATCCTGCCTCTCAGGTTTATGTCTCGCACAAGCGTAAAGACTGTGAAGAGGTCGGCTTCCTTTCCCAGGCCTACGACCTGCCTTCCGAAACCACTCAGCAAGCGCTGGCCGATCTGATCGACCGCCTCAATGACGATCCGAACATCGATGGCGTGCTGCTCCAGCTACCGCTGCCCGAACACCTTGACGCCTCTAAACTGCTGGAGCGTATCCGCCCGGACAAGGACGTCGACGGTTTCCATCCTTATAACGTCGGTCGCCTCGCCCAACGCATCCCATTGCTGCGCCCGTGCACGCCCAAGGGCATCATGACCTTGCTGGAAAGCACTGGCGTGGATCTTTACGGGCTCGACGCCGTGGTCGTGGGCGCCTCCAACATCGTTGGCCGGCCGATGGCCATGGAATTGCTGCTCGCTGGCTGTACCGTCACCGTGACCCATCGCTTCACCAAGGACCTGGCGGGCCACGTCGGTCGGGCTGACCTGGTGGTGGTGGCCGCCGGCAAGCCGGGCCTGGTCAAAGGCGAATGGATCAAGGAAGGCGCCATCGTCATCGACGTCGGCATCAACCGCCAGGACGACGGCAAGCTGGTGGGCGATGTGGTCTACGAGACCGCCCTGCCCCGCGCCGGCTGGATCACGCCGGTACCCGGCGGCGTAGGACCGATGACCCGGGCCTGCCTGCTGGAAAACACCCTTTATGCGGCCGAGACGCTGCATAGCTGA	MTAQLIDGKSIAASLRQQIAQRVTERRQQGLRTPGLAVILVGSDPASQVYVSHKRKDCEEVGFLSQAYDLPSETTQQALADLIDRLNDDPNIDGVLLQLPLPEHLDASKLLERIRPDKDVDGFHPYNVGRLAQRIPLLRPCTPKGIMTLLESTGVDLYGLDAVVVGASNIVGRPMAMELLLAGCTVTVTHRFTKDLAGHVGRADLVVVAAGKPGLVKGEWIKEGAIVIDVGINRQDDGKLVGDVVYETALPRAGWITPVPGGVGPMTRACLLENTLYAAETLHS	PGPT0008075_4205	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008075-folD-K01491	NA	NA
D1-35_00905	1269	tig	COG0544	Trigger factor	ATGAGCATCACCGTGCCAGCTGAGCGTATCGAGACTCAGGTCAACAAGCGTCTGCAGCAGACTGCCCAAAAGGCCAAAATCCCAGGTTTCCGCCCAGGCAAAGTGCCAATGAGCGTGATCCGTCAGCGTTACGAAGCTGATGCGCGCCAGGAAGCCGTGGGCGACGTGATCCAGTCTTCGTTCTACGAAGCGGTGGTCGAGCAGAAGCTGAACCCGGCTGGCGCTCCTTCCGTAGAGCCTAAAGTGCTGGAGAAAGGCAAGGATCTCGAGTTCGTTGCCACCTTTGAAGTGTTCCCCGAGTTCATCGTCGCCGGTTTCGAGTCCATTGCCGTCGAGCGCCTGAGCGCTGACGTTTCGGATGCCGACCTGGACAAGATGCTCGACATCCTGCGCAAGCAGAACACCCGTTTCGAAGCCACTGATCGTGCCGCCCAGAACGAAGACCAGCTGAACATCGATTTCGTCGGCAAGGTCGACGGTGAAGTGTTCGCTGGCGGTTCCGCCAAGGCTACCCAGCTGGTGCTGGGCTCCGGTCGCATGATCCCGGGCTTCGAAGACGGCCTGGTTGGCGCCAAGGCTGGCGAAGAGCGCGTTCTGAACGTGACCTTCCCAGAGGACTATCAGAACCTGGATCTGGCCGGCAAAGCCGCCGAATTCACCGTGACCGTCAACAGCATTTCCGAGCCTAAGCTGCCTGAGCTGAACGAAGAGTTCTTCGCCCAGTTCGGTATCAAGGAAACCGGTCTGGAAGGTTTCCGCGCCGAAGTTCGCAAGAACATGGAGCGCGAGCTGCGTCAGGCCATCAAGTCCAAGGTCAAGAACCAGGTCATGGACGGTCTGCTGGCCTCCAACCCGATCGAAGTGCCGAAGGCTCTGCTGGACAACGAAGTGAACCGTCTGCGCGTGCAGGCCGTTCAGCAGTTCGGTGGCAACATCAAGCCTGACCAACTGCCGGCCGAACTCTTCGAAGAGCAAGCCAAGCGCCGCGTCGTGCTGGGCCTGATCGTCGCTGAAGTGGTCAAGCAGTTCGAACTCAAGCCTGACGAAGCCCGCGTTCGCGAGCTGATCCAGGAAATGGCCTCGGCTTACCAAGAGCCTGAGCAGGTAGTGTCCTGGTACTACAAGAACGAGCAGCAGCTGAACGAAGTCCGTTCGGTTGTGCTGGAAGAGCAAGTTGTGGATACTGTTCTGCAGAAAGCTAGCGTGACCGACAAAGCGGTCTCTTACGAAGAAGCGGTCAAGCCGGTGGAAGCTCCACAAGCCGATTGA	MSITVPAERIETQVNKRLQQTAQKAKIPGFRPGKVPMSVIRQRYEADARQEAVGDVIQSSFYEAVVEQKLNPAGAPSVEPKVLEKGKDLEFVATFEVFPEFIVAGFESIAVERLSADVSDADLDKMLDILRKQNTRFEATDRAAQNEDQLNIDFVGKVDGEVFAGGSAKATQLVLGSGRMIPGFEDGLVGAKAGEERVLNVTFPEDYQNLDLAGKAAEFTVTVNSISEPKLPELNEEFFAQFGIKETGLEGFRAEVRKNMERELRQAIKSKVKNQVMDGLLASNPIEVPKALLDNEVNRLRVQAVQQFGGNIKPDQLPAELFEEQAKRRVVLGLIVAEVVKQFELKPDEARVRELIQEMASAYQEPEQVVSWYYKNEQQLNEVRSVVLEEQVVDTVLQKASVTDKAVSYEEAVKPVEAPQAD				NA	NA	NA	NA	NA
D1-35_00906	636	clpP_1	COG0740	ATP-dependent Clp protease proteolytic subunit	ATGTCCCGCAATTCTTTTTATCAGCAGAGCTCTGACATCCAGGCCGCAGGCGGCCTGGTCCCTATGGTTATCGAGCAGTCCGCCCGTGGCGAACGTGCCTATGACATCTATTCGCGTCTGCTCAAGGAGCGAGTGATCTTTTTGGTAGGTCCGGTAGAGGACTACATGGCCAACCTGATCTGTGCACAACTGCTGTTCCTTGAAGCCGAAAACCCGGACAAGGACATCCATCTCTATATCAACTCCCCGGGCGGTTCGGTGACGGCGGGAATGTCGATCTACGACACCATGCAGTTCATCAAGCCTAACGTTTCGACGACCTGCATCGGTCAGGCGTGCAGCATGGGTGCGTTTTTGCTGACGGCCGGTGCCCAAGGCAAGCGTTACTGCCTGCCGAATTCCCGCGTGATGATTCACCAGCCTTTGGGTGGTTTCCAGGGCCAGGCATCTGATATCGAAATCCATGCCAAGGAAATCCTCTTCATCCGCGAGCGCCTCAACACGTTGATGGCCAAGCACAGCGGGCGCACGCTTGAAGAAATCGAGCGCGATACCAATCGCGACAATTTCATGAGCGCTGAAGCCGCACGTGAATATGGTCTGATCGATGAAGTGATCAGCCAGCGCCCCGCTTAA	MSRNSFYQQSSDIQAAGGLVPMVIEQSARGERAYDIYSRLLKERVIFLVGPVEDYMANLICAQLLFLEAENPDKDIHLYINSPGGSVTAGMSIYDTMQFIKPNVSTTCIGQACSMGAFLLTAGAQGKRYCLPNSRVMIHQPLGGFQGQASDIEIHAKEILFIRERLNTLMAKHSGRTLEEIERDTNRDNFMSAEAAREYGLIDEVISQRPA	PGPT0014595_3994	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
D1-35_00907	1284	clpX	COG1219	ATP-dependent Clp protease ATP-binding subunit ClpX	ATGACTGACACCCGCAACGGCGAGGACAACGGCAAACTGCTCTATTGCTCCTTCTGTGGCAAAAGCCAGCATGAAGTACGCAAATTGATTGCCGGCCCCTCGGTCTTCATTTGCGACGAGTGCGTCGACCTGTGCAATGACATCATCCGCGAGGAGGTGCAGGAAGCCCAGGCCGAAAGCAGCGCGCATAAGTTGCCTTCGCCCAAAGAAATCAGCGGCATCCTTGACCAGTATGTAATCGGTCAGGAGCGCGCGAAAAAGGTACTGGCCGTAGCGGTGTACAACCACTACAAGCGCCTGAACCAGCGTGACAAGAAGAATGACGAAGTCGAACTCGGCAAGAGCAACATCCTGCTGATCGGCCCGACAGGCTCGGGTAAGACCCTGCTTGCCGAAACCCTGGCCCGTTTGCTGAACGTTCCGTTCACCATCGCCGACGCAACCACCCTCACCGAGGCGGGTTATGTGGGTGAGGACGTCGAGAACATCATTCAGAAACTGCTGCAGAAGTGCGACTACGACGTGGAAAAGGCCCAGATGGGCATTGTCTACATCGATGAAATCGACAAGATTTCCCGCAAGTCCGACAACCCGTCCATCACCCGGGACGTTTCCGGCGAGGGCGTGCAGCAGGCGTTGCTCAAGTTGATCGAAGGCACGGTCGCTTCCGTTCCGCCCCAAGGCGGTCGCAAGCACCCGCAGCAGGAATTCCTGCAGGTCGACACACGTAACATCCTGTTCATCTGCGGTGGTGCGTTCTCCGGCCTGGAAAAGGTCATCCAGAACCGTTCCACCCGCGGCGGCATCGGCTTCAACGCCGAGGTTCGCAGCAAGGAAGAGGGCAAGAAGGTCGGTGAATCCCTGCGTGAAGTCGAGCCTGACGATCTGGTCAAGTTCGGCTTGATTCCGGAATTCGTCGGTCGTCTGCCGGTCCTGGCGACACTGGACGAGCTGGATGAAGCTGCGTTGATGCAGATTCTGACCGAGCCGAAAAACGCCCTGACCAAGCAATATGCCAAGCTGTTCGAAATGGAAGGCGTAGACCTCGAATTCCGTTCCGACGCGCTGAAATCCGTCGCCAAGCGTGCCCTGGAGCGTAAAACCGGTGCCCGTGGGTTGCGTTCGATTCTCGAAGGCGTATTGCTCGATACGATGTACGAAATCCCCTCGCAGTCCGAGGTGAGTAAAGTCGTCATCGACGAAAGCGTCATAGAAGGCAAGTCCAAACCACTGTATATCTACGAAAACAGTGAGCCGGCTGCCAAGGCTGCGCCGGACGCATAA	MTDTRNGEDNGKLLYCSFCGKSQHEVRKLIAGPSVFICDECVDLCNDIIREEVQEAQAESSAHKLPSPKEISGILDQYVIGQERAKKVLAVAVYNHYKRLNQRDKKNDEVELGKSNILLIGPTGSGKTLLAETLARLLNVPFTIADATTLTEAGYVGEDVENIIQKLLQKCDYDVEKAQMGIVYIDEIDKISRKSDNPSITRDVSGEGVQQALLKLIEGTVASVPPQGGRKHPQQEFLQVDTRNILFICGGAFSGLEKVIQNRSTRGGIGFNAEVRSKEEGKKVGESLREVEPDDLVKFGLIPEFVGRLPVLATLDELDEAALMQILTEPKNALTKQYAKLFEMEGVDLEFRSDALKSVAKRALERKTGARGLRSILEGVLLDTMYEIPSQSEVSKVVIDESVIEGKSKPLYIYENSEPAAKAAPDA	PGPT0014600_1862	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014600-clpX-K03544	NA	NA
D1-35_00908	2397	lon_2	COG0466	Lon protease	ATGAAGACAACCATCGAATTGCCTCTCCTGCCATTGCGCGATGTCGTGGTATATCCGCACATGGTTATCCCGCTGTTCGTGGGGCGCGAGAAGTCCATCGAAGCCCTCGAGGCCGCGATGACGGGTGATAAGCAGATTCTTCTGATCGCTCAGAGAAACCCTGCCGACGATGATCCCGGTGAAGACGCACTTTATCGCGTAGGTACGATTGCAACGGTCCTGCAACTGCTCAAGCTTCCTGACGGCACCGTCAAGGTCCTGGTCGAGGGCGAACAGCGCGGGGCGGTCGAGCGTTTCAGCGAAGTGGACGGGCATTGCCGTGCCGAGGTGTCGCTGATCGACGAAGTCGAGGCGCCGGAGCGTGAGTCGGAGGTTTTTGTCCGCAGCCTGCTGTCGCAGTTCGAACAGTATGTGCAGTTGGGCAAGAAGGTGCCTGCCGAGGTCCTGTCGTCGCTCAACAGCATCGACGAGCCAGGACGCCTGGTCGATACGATGGCGGCCCACATGGCCCTCAAGATCGAGCAGAAGCAGGAAATCCTCGAGATTATCGAGTTGTCGGCGCGTGTCGAGCACGTACTGGCATTGCTCGACGGCGAAATCGACCTGCTGCAGGTTGAAAAACGCATTCGTGGTCGCGTCAAGAAACAGATGGAGCGCAGTCAGCGTGAGTACTATCTGAATGAGCAGATGAAGGCCATTCAGAAAGAGCTCGGCGATGGCGACGAAGGTCACAACGAAATCGAAGAGCTGAAGAAGCGCATCGATGCCGCTGGCCTGCCAAAGGATGCGCTCGCCAAGGCCCAGGCCGAGCTGAACAAGCTCAAGCAGATGTCGCCGATGTCTGCCGAAGCCACCGTGGTGCGTTCCTACATCGACTGGCTGGTCCAGGTGCCGTGGAAAGCCCAGAGCAAAGTCCGCCTGGACCTGGCGCGTGCCGAGGACATCCTCGATGCGGACCATTACGGCCTGGAAGAGGTCAAGGAACGCATCCTTGAATACCTCGCCGTGCAGAAACGCGTGAAGAAGATTCGTGGCCCGGTCCTGTGCCTGGTCGGTCCTCCGGGTGTCGGTAAGACTTCCCTGGCGGAATCGATCGCCCACGCCACCAACCGCAAATTTGTGCGAATGGCGCTTGGCGGGGTGCGTGACGAGGCGGAAATTCGTGGTCATCGCCGCACGTACATCGGTTCCATGCCAGGAAGATTGATTCAAAAGATGACGAAGGTGGGTGTACGCAATCCGCTGTTCCTTTTGGATGAAATCGACAAGATGGGCAGCGATATGCGCGGTGATCCTGCGTCTGCGTTGCTTGAGGTGCTCGATCCCGAGCAGAATCACAATTTCAACGATCACTATCTGGAAGTCGACTACGACCTCTCCGACGTGATGTTCCTGTGCACCTCCAACTCAATGAATATCCCGCCAGCGTTGCTGGACCGGATGGAGGTGATTCGTCTGCCGGGCTACACCGAAGACGAGAAAATCAACATCGCCGTCAAGTACCTTTCGCCCAAGCAGATCCAGGCCAACGGCTTGAAAAAGGGTGAGCTGGAATTTGACGAGGAGGCGATTCGCGACATCATTCGTTACTACACCCGTGAAGCCGGTGTGCGTGGTCTCGAGCGGCAGATTGCCAAGGTCTGCCGCAAGGCGGTCAAGGAGCACGCGCTGGAAAAACGCTTCGCGGTCAAGGTGACATCCGACCTGCTGGAGCACTTCCTCGGTGTGCGCAAGTTCCGCTACGGGCTCGCCGAGCAACAGGACCAGATCGGTCAGGTGACCGGCCTCGCGTGGACGCAGGTCGGCGGCGAGTTGCTGACTATTGAAGCCGCCGTGGTTCCGGGCAAGGGCCAATTGATCAAGACCGGTTCCCTCGGCGATGTCATGGTGGAGTCGATCACCGCGGCGCTGACAGTTGTGCGCAGCCGTGCGCGCAGCCTGGGCATTCCCCTGGATTTCCATGAGAAGCGGGACACGCATATCCACATGCCGGAGGGGGCTACACCCAAGGATGGACCGAGCGCCGGCGTGGGCATGTGCACCGCCCTGGTTTCTGCATTGACCGGCATTCCGGTGCGTGCGGATGTCGCCATGACCGGTGAAATCACCCTGCGTGGCCAGGTCCTGGCGATTGGCGGCCTGAAAGAAAAACTTCTGGCAGCTCACCGTGGCGGGATCAAGATCGTGATCATTCCGGAAGAGAATGTCCGTGATCTCAAGGAAATTCCCGACAACATCAAGCAGGATCTTCAGATCAAACCGGTTAAATGGATTGACGAAGTCCTGCAAATTGCGCTGCAATACGCGCCGGAGCCCTTGCCGGATGTGGCTCCGGAGATTGTCGCAAAGGAAGAAAAGCGAGAGTCTGACTCTAAGGAAAGAATTAGCACGCATTAA	MKTTIELPLLPLRDVVVYPHMVIPLFVGREKSIEALEAAMTGDKQILLIAQRNPADDDPGEDALYRVGTIATVLQLLKLPDGTVKVLVEGEQRGAVERFSEVDGHCRAEVSLIDEVEAPERESEVFVRSLLSQFEQYVQLGKKVPAEVLSSLNSIDEPGRLVDTMAAHMALKIEQKQEILEIIELSARVEHVLALLDGEIDLLQVEKRIRGRVKKQMERSQREYYLNEQMKAIQKELGDGDEGHNEIEELKKRIDAAGLPKDALAKAQAELNKLKQMSPMSAEATVVRSYIDWLVQVPWKAQSKVRLDLARAEDILDADHYGLEEVKERILEYLAVQKRVKKIRGPVLCLVGPPGVGKTSLAESIAHATNRKFVRMALGGVRDEAEIRGHRRTYIGSMPGRLIQKMTKVGVRNPLFLLDEIDKMGSDMRGDPASALLEVLDPEQNHNFNDHYLEVDYDLSDVMFLCTSNSMNIPPALLDRMEVIRLPGYTEDEKINIAVKYLSPKQIQANGLKKGELEFDEEAIRDIIRYYTREAGVRGLERQIAKVCRKAVKEHALEKRFAVKVTSDLLEHFLGVRKFRYGLAEQQDQIGQVTGLAWTQVGGELLTIEAAVVPGKGQLIKTGSLGDVMVESITAALTVVRSRARSLGIPLDFHEKRDTHIHMPEGATPKDGPSAGVGMCTALVSALTGIPVRADVAMTGEITLRGQVLAIGGLKEKLLAAHRGGIKIVIIPEENVRDLKEIPDNIKQDLQIKPVKWIDEVLQIALQYAPEPLPDVAPEIVAKEEKRESDSKERISTH	PGPT0014315_3338	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014315-lon-K01338	NA	NA
D1-35_00909	441			hypothetical protein	ATGCGCCTTCTCGTAACTGGCGGAGCGGACCGGGCTCGAACCCGCGAGCCCTGGCGTGACAGCCCGTTTGTGCCGGCTGCATTACCGCTCCGCTGCCAAGCCAGGCATGACCCCGACCCGGATAAACTCAATGAAACCTTAGTTGACGGCTTCTTTCAGCGCTTTACCAGCTTTGAAGCCTGGCTTTTTGGCAGCGGCGATTTGCAGCGTCTTGCCAGTCTGCGGGTTGCGACCAACACGAGCTGGACGATCGGTAACGGAGAAAGTACCGAAACCCACCAGAACAACAGAGTCGCCAGCCTTGAGAGCGCCAGTGACGGATTCGATTACAGCGTCCAGCGCACGGCCAGCAGCAGCTTTCGGGATATCAGCGGATGCAGCGATAGCATCAATCAGTTCCGACTTGTTCACTCTAAGTCCCCTTATATCTATTTGAGATGA	MRLLVTGGADRARTREPWRDSPFVPAALPLRCQARHDPDPDKLNETLVDGFFQRFTSFEAWLFGSGDLQRLASLRVATNTSWTIGNGESTETHQNNRVASLESASDGFDYSVQRTASSSFRDISGCSDSINQFRLVHSKSPYIYLR				NA	NA	NA	NA	NA
D1-35_00910	1872	ppiD	COG0760	Peptidyl-prolyl cis-trans isomerase D	ATGCTGCAGAATATCAGGGACAATTCACAAGGCTGGATTGCCAAGACCATCATCGGAATCATCGTCGCATTGATGGCGTTGACCGGTTTCGAAGCTATTTTTCAAGCCACCACCAACAGCAATGACGCGGCCAAGGTCAACGGCGAAAAAATCAGCCAGAACGAGCTGAGCCAGGCGGTCGATATGCAACGCCGTCAGCTCATGCAACAGCTGGGCAAGGATTTCGACGCCTCCCTGCTGGACGAGAAGATGCTGCGTGACTCGGCGCTCAAAGGGCTGATCGATCGCAAGCTGTTGCTGCAAGGCGCACACGATGCGAAATTCGCTTTCTCCGAAGCCGCGCTGGACCAGGTGATCCTGCAAACGCCGGAATTCCAGGTCGATGGTAAATTCAGTCCTGAGCGTTTCGACCAGGTGATTCGCCAGTTGGGTTATGGCCGACTGCAGTTCCGCGAGATGCTGGCGCAGGAAATGCTCATTGGCCAATTGCGTGCCGGTCTCGCTGGCAGCGGTTTTGTCACCGATGCCCAGGTGTTGGCATTCGCCCGCCTGGAAAAGCAGACCCGTGATTTCGCTACGCTCACCGTCAAGGCGGATCCGGCGGCCGTGAAGCTGACCGACGATGAGGTCAAGGCTTACTACGATCAGCACGCCAAGGAGTTCATGACGCCTGATCAGGTCGTCATCGACTATCTCGAGCTGAAGAAGGCTTCGTTCTTCGATCAGGTCAGCGTCAAGGATGAAGATCTGCAGGCGGCTTACCAGAAAGAGATCGCCAATCTTTCCGAACAGCGTCGTGCTGCGCACATCCTGATTGAAGTGAACGACAAGGTCACCGAAGCCCAGGCCAAGGCCAAGATCGAGGAAATCCAGGCTCGACTGGCCAAAGGCGAGTCGTTTGAGGCGCTGGCGAAGGAATTCTCCCAGGATCCGGGCTCAGCCAACAACGGCGGCGATCTCGGTTATGCCGGTCCAGGTGTCTATGATCCGGAGTTCGAAAAGGCGCTGTATGCGTTGAACAAGGATCAGGTCTCGGCACCGGTGCGAACCGATTTCGGCCTGCACCTGATCAAGCTGCTGGGTGTCGAAGCGCCTGAGGTTCCGAGTTTTGCGAGCCTGAAGGACAAGCTGACCCGCGACCTGAAGACCCAGCAAGTGGAGCAGCGGTTCGTCGAGGCGACCAAGCAACTGGAAGACGCTTCGTTCGAGGCTTCCGACCTGGCCCAGCCAGCCCAGGACCTTAAGCTGACCGTCCATACGTCGGCACCGTTCGGTCGTGAAGGCGGCGAAGGAATCGCGGCCAACCGTGCCGTGATCACCGCTGCGTTCAGCCCGGAAGTGCTGGAGGAGGGGGCCAACAGTACCGCCATCGAGCTGGATCCGGAAACCGTCGTGGTGCTGCGCGCCAAGGAGCATCGCAAGCCTCAGCAGCTTCCGCTGGAAAACGTGGCCGGGCCGATCCGCGCCCAATTGGCCAAGGAACACGCCAGCGCTGCCGCCAAGACCCAGGCCGATGAGTTGATTGCCAGCCTGCGTGATGGCAAGACGGCGCTGGACAAGCCTGTCAACGGTCAAGGCTGGAAAGTCGTCGAGGCGGCGACCCGCAGCCAGGAAGGTATCGACCCTGCGGTGCTGCAGGCGCTGTTCCGCATGTCCAAGCCTGAGTCGAAGGACAAGCCGACATTCGCCAGCGTGACCCTGCCTGACGGCGGCGTGACGGTCCTGCGCTTGAACGGCGTCAACGAAGGTGCTGCTCCGACCGAGGAAGAAAAGGCCGAATACCGTCGGTACCTGGCGTCCCGTGTCGGCCAGCAGGACTTCGCGGCTTATCGCAAGCAATTGGAAAGCGAGGCAGACATCAAGCGCTTCTGA	MLQNIRDNSQGWIAKTIIGIIVALMALTGFEAIFQATTNSNDAAKVNGEKISQNELSQAVDMQRRQLMQQLGKDFDASLLDEKMLRDSALKGLIDRKLLLQGAHDAKFAFSEAALDQVILQTPEFQVDGKFSPERFDQVIRQLGYGRLQFREMLAQEMLIGQLRAGLAGSGFVTDAQVLAFARLEKQTRDFATLTVKADPAAVKLTDDEVKAYYDQHAKEFMTPDQVVIDYLELKKASFFDQVSVKDEDLQAAYQKEIANLSEQRRAAHILIEVNDKVTEAQAKAKIEEIQARLAKGESFEALAKEFSQDPGSANNGGDLGYAGPGVYDPEFEKALYALNKDQVSAPVRTDFGLHLIKLLGVEAPEVPSFASLKDKLTRDLKTQQVEQRFVEATKQLEDASFEASDLAQPAQDLKLTVHTSAPFGREGGEGIAANRAVITAAFSPEVLEEGANSTAIELDPETVVVLRAKEHRKPQQLPLENVAGPIRAQLAKEHASAAAKTQADELIASLRDGKTALDKPVNGQGWKVVEAATRSQEGIDPAVLQALFRMSKPESKDKPTFASVTLPDGGVTVLRLNGVNEGAAPTEEEKAEYRRYLASRVGQQDFAAYRKQLESEADIKRF				NA	NA	NA	NA	NA
D1-35_00911	876			hypothetical protein	ATGTTCAGATCATTTCACATGCGCACCGTTGGGCTGGCATTGCTGCTAGTCGTCGCGACCGGTTGCTCTTCCAAGAAAGCGGCCATTTACGAGCACGAGAACTTCGATGATTCGGGCACGTTCTCGCGTACCTATCCGGTGACTGACGTGGCGACTTGTGAAGCAGGACGTCGTGCGCTGCTGAGCCAGGGGTACATCATCACCAGCAGCGATCCGAAGCTGGTCAGCGGCCACAAGAGTTTCCAGCAGACTGGCGACACGCACATGGAGATCAGTTTCAACCTGGTCTGTGCCGAAGATGGCGGTCCGGGCCACCGCGCCACGATCTTTGCCAACGCTCTACAGGACCGGTATGCCCTGAAGAAGACCAATAACTCCGCCAGCCTGGGCGTGGGTGTATTGGGGTCGGTGTCGATGCCGATTGGCTCGTCGGACGATTCGATGGTCAAGGTCGCCAGCGAAACGGTGTCCGCAGCCAAATTCTATGAGCGTTTCTTTGCGCTGGTGGAGGTGTTCCTGCCTCCCGAAGCGAAAAAAGCCGCTGGAAACGTCGACAAACCGAAAGCCGAACTGGGCATTCCAGAGCCGAAGGTGGAGCCGGCTGCCCTGGCTCCCGCCGCAACTCCAGCGCCCGCGACAGTCCCGGTACCCGAGCCGACTCCTGCTCCCGTTGCGCCGGTCGAAGAGGCTGCTCCAGCGCCTGTCGAAACCGCGCCGGCCGCTTCCGAGCCGGTCGCGCCGCCTGCCGAGCCTGCGCCAATCGCTCCCAGCGAGCCGGAGTCCTACGCACCCCCGTCGACAGAGAGCATTACTCCGCCACCGCCCAGTTCCTTGCCGGCGCCAACCGAGCCGATCCAGCCGCTTCCTGCATCCTGA	MFRSFHMRTVGLALLLVVATGCSSKKAAIYEHENFDDSGTFSRTYPVTDVATCEAGRRALLSQGYIITSSDPKLVSGHKSFQQTGDTHMEISFNLVCAEDGGPGHRATIFANALQDRYALKKTNNSASLGVGVLGSVSMPIGSSDDSMVKVASETVSAAKFYERFFALVEVFLPPEAKKAAGNVDKPKAELGIPEPKVEPAALAPAATPAPATVPVPEPTPAPVAPVEEAAPAPVETAPAASEPVAPPAEPAPIAPSEPESYAPPSTESITPPPPSSLPAPTEPIQPLPAS				NA	NA	NA	NA	NA
D1-35_00912	144			hypothetical protein	ATGCTGATTCCAAGGCCATCAGGCATCGGTTTCAACGATTATTGGGAAGGACAGGCAATGGACGATTATCAGGAAGAGCTGCTCGAATATCAGGCTTATGAACTGGACCCCCTGGAACCTGCCGAAGACGCCACGGAACTGTAG	MLIPRPSGIGFNDYWEGQAMDDYQEELLEYQAYELDPLEPAEDATEL				NA	NA	NA	NA	NA
D1-35_00913	1023			putative HTH-type transcriptional regulator	ATGCGCCTGGGTGACCTGTCCGTAGGTTTCGTCCATAGCCTGGCAGACGCGGTGACCAGCCACGGTCATGACCCACAGCCATTGCTCGAACAATACGGCCTCGATGCCGCGCGCCTGGCAGAGCCCGGGGCGCGCCTGTCGATCCCGCGCTACATGCGCCTGGGCCATGCCGCCATCCAACTGACACAGGATCCGGCCCTGGGCCTGCGCATGGGCCAGCTCAGTCGCCTGAGCCAGGCCGGGCTGGCCGGCGTCACCGCGGCCCAGGCGCCCACCGTACGCGAGGCCGCACGCTGCATGATCCGCTTCGAGCCGCTGTACGGTTCCAACTACCGTGGGCAATCGAGTCTTCACGAGGACGCCCGGGGCGCGTGGCTGCGGTTCTATTCCATCAGCCCGTATAACGCCTACAACCGCTTCGTCGTGGATTCGATCATTGCCGGCTGGCTCCAGCAACTGTCCAGCGTCTGCGACGTGGTGTTGCGGGCCGAACGTATCGAAATCGAATTCGAGGAGCCAACTTACCTCGAAGCCTACCGTAGCCTCGGCGAAGGCCCGATCCAGTTCGCAGCCGAGCAGAACCAATTGCGCCTGGGGCTGGACAGCCTCGCCCTGCGCAACCCACAGCATTGCCCCAGCACCTGGCGCCACCTGGTTCAGTTATGCGAACGGGAACTGGAACAGCTGACTCGCACTCGCACCCTGCGCGAGCGAATCATTCAATTGCTGGGGCCGCTGCTCAACGGCGGACGGGAGCCGGATCTGGAAGAAGTGGCGATGCGCCTGAAGCTGCCGACCTGGACGCTGCGCCGCAAGCTGGCGGAAGAAGGTACGCAGTTCCGGGCGATCCTCAACGACACTCGCCGAGACCTCGCCATGACGTACATCCGCGACACGGAGCTGGCCTTTGGCGAAATCGCTTACCTGCTGGGGTTCGCCTCGGCCGAGGCATTCCAACGGGCTTTCAAGCGCTGGAACAACCAGACGCCGGGAGAGTTCCGGCGTAGCCGTAGAGCGACTTGA	MRLGDLSVGFVHSLADAVTSHGHDPQPLLEQYGLDAARLAEPGARLSIPRYMRLGHAAIQLTQDPALGLRMGQLSRLSQAGLAGVTAAQAPTVREAARCMIRFEPLYGSNYRGQSSLHEDARGAWLRFYSISPYNAYNRFVVDSIIAGWLQQLSSVCDVVLRAERIEIEFEEPTYLEAYRSLGEGPIQFAAEQNQLRLGLDSLALRNPQHCPSTWRHLVQLCERELEQLTRTRTLRERIIQLLGPLLNGGREPDLEEVAMRLKLPTWTLRRKLAEEGTQFRAILNDTRRDLAMTYIRDTELAFGEIAYLLGFASAEAFQRAFKRWNNQTPGEFRRSRRAT				NA	NA	NA	NA	NA
D1-35_00914	1170			hypothetical protein	ATGAAAATCACGAACCTGTACGCGGCCATCGACTGTCCCATGCGCAAATTTCTGTACCTGCTGTTCTCACTGGCCCTGACGGCCGTCCTGATCACTTATGCACTGTGGACAGCAGACCGTCCGGCGGGCCATTACCTGTCAGACCTGCGGATCAACCTGGCGGTCGACCGGGGCACGCCGGCCGACCGAGGCAACCTGCTGGGCATCCAGCCGGAATTGTTCCCCACCGACTACCAGAGCCCCGAACGCCTGCATCGCAAGCTGGCAGCGTACCTGCAGACTGCCCGCGACCAAGGGTTCATCAACGAAAAAACCGTCGTGGTCCTGCCCGAGCATATCGGCACCTGGCTGATGGTCAGCGGCGAAAAGGACGAGGTGTACCAGGCCACTACCTTCAAACAGGCCATGAACTGGCTCGCCATCAGCAATCCGCTGGCCTTTATCCGCGCATTGGCGGACGCTCAGGGCGACAGCCGGCTGGACGATGCGTACCTGCGCATGAAGGCGGACAGCATGGCCCATGACTACCAGGCGCTGTTCGGTGGGCTGGCCAAGGAGTTCGGCGTAACGCTCGTGGCCGGCTCCATCGTACTGCCCGAGCCCAGCGTCAGCGAAGGCGAGCTGAAAATCGGTGGTGGCGCGTTGTACAACAGCAGCCTGGTGTTCGGTCGTGACGGCCGGCCGATCGGCCAACCACAACGCCAGCGACACCCGGTGTTTGACCAGCAGGACGTGCTTGGGGCCGAACGACCGGACGTCACCCATGTCATTGACACGCCGGCCGGGCGCCTGGGCGTGCTGATCGGCAGCGACAGTTGGTATCCGCTTCATTATCGACAACTTGACGAACAAGGGGCCCAACTGATCGCCGTGCCCGCCTTTGTCATCGGCCGCGACGCCTGGAACAAGCCTTGGGCCGGCTACAAAGGCTTGTCCACGCCAAGCGAAGTGAGCCTCAAGCCCGGTGAGGTGAGTGAAGGGCAGGCCTGGCGTCGGCTGACGTTGACCAGCCGGTTGCCGATCAGCCAGGCCCGCGGCGGCGTCAGCGTATTCTTGCGTGGGCAGTTCTGGGACAACGGCAGCGCTGGCCAGAGCTTCATCAGCCACAACGGCGAGCAATTCACCGATGGTGAAGCCCGTGGCGCACGCCTGCTGAACTTGTGGCTTTAG	MKITNLYAAIDCPMRKFLYLLFSLALTAVLITYALWTADRPAGHYLSDLRINLAVDRGTPADRGNLLGIQPELFPTDYQSPERLHRKLAAYLQTARDQGFINEKTVVVLPEHIGTWLMVSGEKDEVYQATTFKQAMNWLAISNPLAFIRALADAQGDSRLDDAYLRMKADSMAHDYQALFGGLAKEFGVTLVAGSIVLPEPSVSEGELKIGGGALYNSSLVFGRDGRPIGQPQRQRHPVFDQQDVLGAERPDVTHVIDTPAGRLGVLIGSDSWYPLHYRQLDEQGAQLIAVPAFVIGRDAWNKPWAGYKGLSTPSEVSLKPGEVSEGQAWRRLTLTSRLPISQARGGVSVFLRGQFWDNGSAGQSFISHNGEQFTDGEARGARLLNLWL				NA	NA	NA	NA	NA
D1-35_00915	2040	fadH	COG0446	2,4-dienoyl-CoA reductase	ATGACCGCCCCTCATTACCCGCATTTGCTGGCCCCGTTGGACCTGGGTTTCACCACGTTGCGCAACCGTACCCTGATGGGATCGATGCACACCGGCCTTGAAGAAAAGCCCGGCGGCTTCGAGCGCATGGCGGCGTACTTCGCCGAGCGGGCCCGGGGTGGGGTCGGCCTGATGGTCACCGGTGGAATCGGGCCGAACGATGAAGGTGGCGTGTACTCCGGCGCGGCCAAGCTGACCACCGAGGAAGAGGCCCTCAAGCATCAGGTCGTCACGCGGGCCGTGCACGAAGCGGGGGGCAAGATCTGCATGCAGATCCTCCACGCGGGACGTTATGCCTACAGCCCCAAGCAGGTGGCGCCAAGCGCGATCCAGGCTCCGATCAACCCGTTCAAGCCCAAGGAGCTGGACGAAGAGGGCATCGAGAAACAGATCCGCGATTTTGTCACCTGTTCGGTATTGGCTCAAAAGGCCGAGTACGACGGTGTCGAAATCATGGGCTCGGAAGGCTATTTCATCAACCAGTTCCTGGCTGCGCATACCAACCACCGTACCGACCGCTGGGGTGGGAGCTACGAAAACCGCATGCGCCTGCCGGTGGAAATCGTGCGCCGCGTACGCGAAGCGGTGGGGCCGAATTTCATCATTATCTTTCGCTTGTCCATGCTCGACCTGGTTGAGGGTGGCAGCACCTGGGATGAAATCGTCCAGTTGGCCAAGGCCATCGAACAGGCCGGCGCAACTATCATCAATACCGGTATCGGTTGGCATGAGGCGCGTATTCCCACTATCGCCACCAAGGTCCCGCGGGCGGCGTTCAGTAAAGTCACCGCCAAGCTGCGCGGCTCGGTGAGTATTCCGTTGATCACCACCAACCGCATCAACACCCCTGAGGTGGCCGAGCAGATCCTCGCCGAAGGCGACGCCGACATGGTGTCCATGGCGCGGCCGTTCCTTGCGGACCCGGAGTTCGTCAACAAGGCCGCCGCTGGCCGCGCAGACGAAATCAACACCTGCATCGGCTGCAACCAGGCCTGCCTCGACCATACGTTCGGGGGCAAGCTCACCAGTTGCCTGGTGAATCCGCGGGCCTGCCATGAAACCGAACTCAATTACCTGCCCGTAACCCAGGTGAAGAAAATCGCCGTGGTGGGCGCCGGTCCTGCCGGATTGTCCGCGGCCACCGTGGCGGCCGAACGCGGTCATCAAGTGACACTGTTCGATTCGGCCAGCGAAATTGGCGGCCAGTTCAACGTCGCCAAGCGCGTTCCGGGCAAGGAGGAGTTCTTCGAAACCCTGCGTTATTTCAAACGCAAGCTGCAGACTACCCACGTCGAGTTGTGCCTCGACACCCGGGTCGATGTGGCGCAACTGGTGGCCGGCGGTTTTGACGAGATCATCCTGGCCACCGGCATCGCCCCGCGCGTACCGGCGATCCCGGGTGTCGAACATCCCAAGGTGCTGAGCTACCTGGACGTGATCCTTGAACGCAAGCCGGTGGGCCGCAGTGTCGCGGTGATCGGGGCCGGCGGGATCGGTTTCGATGTGTCGGAGTTTCTCGTTCATCAGGGGGTTGCCACCAGCCAGGACCGTGAGGCGTTCTGGAAGGAGTGGGGCATCGACACCCAGCTGCAGGCTCGCGGCGGCGTGGCTGGAATCAAGCCCGAACCTCATGCACCGGCGCGGCAGGTGTTCCTGTTGCAGCGCAAGAAGTCCAAGGTCGGCGACGGGCTGGGCAAGACGACCGGCTGGATTCATCGCACCGGCCTGAAGAACAAACAGGTGCAGATGCTCAACAGCGTCGAATACCTGAAGATCGATGACCAAGGCCTGCACATTCGCATCGGCGAAGCGGGCGAGCCACAAGTGCTGGCCGTCGACAACGTGGTTATTTGCGCCGGCCAGGATCCGTTGCGCGAGTTGCAGGAAGGCCTGGAGGCGGCGGGGCAGACTGTCCACCTCATCGGCGGCGCGGATGTGGCGGCGGAGCTGGATGCCAAACGCGCGATCAACCAGGGCTCGCGGTTGGCGGCGCAGTTGTAG	MTAPHYPHLLAPLDLGFTTLRNRTLMGSMHTGLEEKPGGFERMAAYFAERARGGVGLMVTGGIGPNDEGGVYSGAAKLTTEEEALKHQVVTRAVHEAGGKICMQILHAGRYAYSPKQVAPSAIQAPINPFKPKELDEEGIEKQIRDFVTCSVLAQKAEYDGVEIMGSEGYFINQFLAAHTNHRTDRWGGSYENRMRLPVEIVRRVREAVGPNFIIIFRLSMLDLVEGGSTWDEIVQLAKAIEQAGATIINTGIGWHEARIPTIATKVPRAAFSKVTAKLRGSVSIPLITTNRINTPEVAEQILAEGDADMVSMARPFLADPEFVNKAAAGRADEINTCIGCNQACLDHTFGGKLTSCLVNPRACHETELNYLPVTQVKKIAVVGAGPAGLSAATVAAERGHQVTLFDSASEIGGQFNVAKRVPGKEEFFETLRYFKRKLQTTHVELCLDTRVDVAQLVAGGFDEIILATGIAPRVPAIPGVEHPKVLSYLDVILERKPVGRSVAVIGAGGIGFDVSEFLVHQGVATSQDREAFWKEWGIDTQLQARGGVAGIKPEPHAPARQVFLLQRKKSKVGDGLGKTTGWIHRTGLKNKQVQMLNSVEYLKIDDQGLHIRIGEAGEPQVLAVDNVVICAGQDPLRELQEGLEAAGQTVHLIGGADVAAELDAKRAINQGSRLAAQL				NA	NA	NA	NA	NA
D1-35_00916	909			hypothetical protein	ATGCTTTTGTCTGCCCTCGACTGGCATCCTCAACCGCGCCTCGAACCCCTTCACCTCGACTGGCTGGCGCGGGCCGGTATCGAGGTGGCGGTCTTGCGCCTGGACCGGATCGATCCGCTTATCAGCGGCAATAAATGGTTCAAGCTGCTTCATCATCTGCGTGCTGCCCATGCCAACGGCGCGGAGGGCGTGATGAGCCTCGGCGGCGCCTATTCCAATCATTTGCATGCGTTGGCGGCGGCGGGGCAGCGATTCGGTTTCCAGACGGTGGGGTTATTGCGCGGCCATCCCCGGGAGACGCCTACGACGCTTGATCTACAGACGTTCGGCATGACCTTGCACTGGTTGGGTTACGGCGGGTATCGAGAGCGGCATGAGCCGGGGTTCTGGGCTCCCTGGCAGGCAAAGTACCCGCATTTATGGCCGATAGCTGAAGGGGGCTCGGGGTTGCCCGGTGCGCAAGGCTGCATGTCCTGGGTAACGGCCGCCCGCAGCCAATTGGCCACGTTGGGTTGGGAGGATTATGACGGTTGGTGGCTGGCCTGCGGCACCGGGACGTCGCTGGCGGGGCTGGTTCTGGCTGAAGCGGGCGAGCATCCGGTTCATGGTGTCCTGGCGGTGCCTGAAGACCATGGGGTGCTGCAACATGTTGAAAGCATTCTGGTGGAGGCGGGGCTGGGCAATCCAGCTTATGAGTTGCTTGACGGCAGCCGTGGCGGTTTTGCCCGGGTGGATGCCGGGCTCAGCGAGTTCATCGAAACTACCAGCGCTATCGAACTGGAACCGCTGTACACGGGCAAGGCGCTGATGCTGCTCAGGGCCCGGATTGAAGCCGGGACATTTGTCGCCGGCACTCGCTTGATTTTCGTTCACACCGGCGGCTTGCAAGGTCGCCGCGGGTTCGATTAA	MLLSALDWHPQPRLEPLHLDWLARAGIEVAVLRLDRIDPLISGNKWFKLLHHLRAAHANGAEGVMSLGGAYSNHLHALAAAGQRFGFQTVGLLRGHPRETPTTLDLQTFGMTLHWLGYGGYRERHEPGFWAPWQAKYPHLWPIAEGGSGLPGAQGCMSWVTAARSQLATLGWEDYDGWWLACGTGTSLAGLVLAEAGEHPVHGVLAVPEDHGVLQHVESILVEAGLGNPAYELLDGSRGGFARVDAGLSEFIETTSAIELEPLYTGKALMLLRARIEAGTFVAGTRLIFVHTGGLQGRRGFD				NA	NA	NA	NA	NA
D1-35_00917	711			hypothetical protein	ATGAATAAGTTTTGTGGCAACAACGGTTATAAAGGCATCGCGAGCAAACTGATGGCAATAGGGCCGCCGAGGCCGAGGCCGGTCAAGCCAGCGGTCAAACCGCCGGTCAAGCCACCGGTCAAACCACCGGTCAAACCACCGGTCAAACCACCGGTCAAACCACCGGTCAAACCACCGGTCAAGCCACCGGTCAAGCCACCGGTCAAGCCACCGGTCAAACCGCCAATCAAGCCGCCGGCCACCCCCCCAAAGCCGGTCAAACCCCCGGTCGCACCGCCAAAGCCGGTCAAGCCACCGGTCACACTCCCAAATAAGCCGGGCAATCGACCAGTATCCAAGCCCAAACCAAACGACGCGCCGTCAACTCCTCCACAAAATAAGCCTAAGCCCGCGCTCCCGCCGTCGCCTCCGTTGAACCCCTGGCCTGTTTTGGATCTCCTTGACGCTTCTGTCGCTATTGTAAATTTAGTCGATGCGGTCGGAAGTATTAAGAACAATGATGGAACCACTTCTTTACCCGATGGCAGTGTGGTCGATGCTGAAAAAACTTCCGTGACGCGGCCGGATGGGATTATTCAGTATGATGACGGAACAGTGGAGCATCCTGATGGAACTATTGTTTTTGCCAGTGGCGAAATTCAATATCCGGATGGCAGCGTGTTGTATCCCGACGGGGATTTGCTGGATAAAGATCACCATAAAATTAATTGA	MNKFCGNNGYKGIASKLMAIGPPRPRPVKPAVKPPVKPPVKPPVKPPVKPPVKPPVKPPVKPPVKPPVKPPVKPPIKPPATPPKPVKPPVAPPKPVKPPVTLPNKPGNRPVSKPKPNDAPSTPPQNKPKPALPPSPPLNPWPVLDLLDASVAIVNLVDAVGSIKNNDGTTSLPDGSVVDAEKTSVTRPDGIIQYDDGTVEHPDGTIVFASGEIQYPDGSVLYPDGDLLDKDHHKIN				NA	NA	NA	NA	NA
D1-35_00918	1389	vgrG1_1	COG3501	Actin cross-linking toxin VgrG1	ATGCGCAACGACACGGATTATTCCTTCAGCCTCACACTCACCGAAAGCAACCTGCAGCTTCACGTCCAGAGATTTGGCGGCCGAGAAGCCCTCAACCAACCTTTTCGGTTCGACCTCGACTTGCTCGGCCTGACGCCGCCGATCGACCTCGATATCATTCTCGGCCAACAGGCGTTCCTGCACCTCAGTGCCGAGTCGGGCGTGCATGGGATCATCGCCAGCGTCAGCCTGACCTCCCATTCCCGGCAATGCGTAGGCTACCGCCTGACGCTGGTGCCTTACCTGCAGAGGCTGGAGCAGAGTCCGCGACGCCGGGTCTTTGGCCGACTCAGCGCAGTCCAGGTGCTGCAACACTTGCTGGAAGAACACCAACTGCCCACCCACAGTTACCGGTTTGAATTGCCACACGGGCACTACCCATGCCGGCCGTTCTGTGTCCAATACGACGAAAGCGACCTCGAACTGTTGCAACGGCTGTGTGAGGAAGAAGGCATCCACTATCACTTCGAGCACGCCCCTACCGGCCATGTGCTGGTATTTGCCGAAGAGGCGACAAGTTTCCCTGATCAGCCGGTCGGGTTGAACCTGCATCAGGAGGAAGGCCAACCGGCCGTTGAGCGCCTGTATCAGCGCCATCACCTGACGCCACCTCTGTTGCCGGCCAACGCCAGGGATCGGGCGTTGGCCGGGGTTTCTGAAACCTCGGCAGCCAACCACCCTTTCACCCCCACGCTGGAGGCGGCCTGGACCAACGTTGCGCAAGCCCAACAGGCAGGTCGCCGTACCCTCGAGCGGCTGCGCTGCACGCAAAGGGAAATCCACGGCCAGAGCAGCCAACCGACTTTGCGCAGTGCCTCCATCGTGCAGATCGGTGGCCATCCGATATCTACGTTCAACGATCAATGGTTAATTTCCGAGATCAAGCATCGCGGGCGACAGCCGTCGATCCTCGAAGCCCCATCTTCCTCTCCTGCGTCGCAACACTATCACAATCGGTTCCTGGCCATTCCCTGGTCCACTGTGTTCAGGCCAGCCCTCAAGCACCCAAAGCCGCGCATCGCCGGCAGTCATCTTGCCTATGTGCACGGTCAGCATGGGCATGACCAGGTAAACGTCAGCCTTTGGACCCCGGAGGGCGAAGTCATCACATTGCCTCTGTCGCGGTTGACCTTGCATGACTGCCAGGCGCCGCCGGCTGGCAGCCTGGTGCTGGTGACTTTTCTCGACGGCGATCCCGACAGGCCAGTGCTATGCCCAGGAATATTCAGCCTCCCGGGCTCCGGCGCCGGCGACCTCGGCGGGTCAATCGTTGGCCCCTCAACGCCGCCCTGTCGTGATGCGGGGTTATTGCTGGACTGGCTGCTGAACCGCCCTGACCCCATCGCTTGA	MRNDTDYSFSLTLTESNLQLHVQRFGGREALNQPFRFDLDLLGLTPPIDLDIILGQQAFLHLSAESGVHGIIASVSLTSHSRQCVGYRLTLVPYLQRLEQSPRRRVFGRLSAVQVLQHLLEEHQLPTHSYRFELPHGHYPCRPFCVQYDESDLELLQRLCEEEGIHYHFEHAPTGHVLVFAEEATSFPDQPVGLNLHQEEGQPAVERLYQRHHLTPPLLPANARDRALAGVSETSAANHPFTPTLEAAWTNVAQAQQAGRRTLERLRCTQREIHGQSSQPTLRSASIVQIGGHPISTFNDQWLISEIKHRGRQPSILEAPSSSPASQHYHNRFLAIPWSTVFRPALKHPKPRIAGSHLAYVHGQHGHDQVNVSLWTPEGEVITLPLSRLTLHDCQAPPAGSLVLVTFLDGDPDRPVLCPGIFSLPGSGAGDLGGSIVGPSTPPCRDAGLLLDWLLNRPDPIA	PGPT0030410_4421	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
D1-35_00919	705		COG0217	putative transcriptional regulatory protein	ATGGGCGCACAGTGGAAGGTTAAACACAAAGAAGCGGCTGCCAACGCCAAAGGCAAGATTTTCGGCAAGCTGGTGAAGGAGATCACCATCGCGGCGCGTAACGGCGCCGATGTCGCTACCAATGCGCACCTGCGCCTGGTGGTTGAACAGGCGAAAAAGGCCTCGATGCCCCGCGAGACCCTGGAGCGCGCGATCAAGAAAGGCTCCGGCCAGCTCGGTGAAACCGTTCAGTATCATCGCGTGACCTACGAAGGGTTCGCGCCCCATCAGGTGCCGCTGATCGTTGAGTGTGTGACCGACAACATCAACCGTACCGTCGCCGAAATCCGTGTCGCGTTCCGCAAGGGCCAGTTGGGTGCTTCCGGTTCGGTCGCCTGGGATTTCAACCATGTCGGCATGATCGAAGCTGCGCCGGACAGCCCTGACGCCGATCCGGAAATGGCCGCCATCGAGGCCGGTGCCCAGGATTTCGAGCCGGGCGAAGACGGGGCGACGCTTTTCATCACCGAACCTGCCGACCTTGACGCCGTTCAGAAAGCGTTGCCGGAGCAGGGTTTCACCGTGTTGTCGGCCAAATTGGGCTATCAGCCGAAAAACCCGGTCAGCGGCCTGAGCGACGAGCAGATGGCCGAAGTCGAGGCGTTCCTGGAAGGCCTCGACAACCATGACGATGTGCAGGACATGTTTGTCGGCCTGGCCGGTTAA	MGAQWKVKHKEAAANAKGKIFGKLVKEITIAARNGADVATNAHLRLVVEQAKKASMPRETLERAIKKGSGQLGETVQYHRVTYEGFAPHQVPLIVECVTDNINRTVAEIRVAFRKGQLGASGSVAWDFNHVGMIEAAPDSPDADPEMAAIEAGAQDFEPGEDGATLFITEPADLDAVQKALPEQGFTVLSAKLGYQPKNPVSGLSDEQMAEVEAFLEGLDNHDDVQDMFVGLAG				NA	NA	NA	NA	NA
D1-35_00920	1344			hypothetical protein	ATGCACACCCTCACCCAACTGCGTACCGGCCAGCTGTCAGGCATTACCCGACTGAAGCTTTCGTGCGGCCTGACGGAGTTTCCCCGGGAAATTTTCAACCTGGCGGACTCCCTCGAAATTCTCGACCTGAGCGGCAACCAGCTCGATACGCTGCCCGACGACCTGTATCGGCTGCCGCACCTGCGCGTGCTGTTCTGCTCCGACAACCACTTCACTGAATTGCCCGAATGCCTGGGACGCTGCAGCGCGTTGACCATGATCGGCTTCAAGGCCAACCGCATCGAACACGTGACCGCTCAGGCTTTGCCGCCACTGCTGCGCTGGCTGATCCTGACCGATAACCGCGTCAGCCAGTTGCCGGATGAACTGGGCCATCGCCCGCACCTGCAAAAGCTGATGCTGGCGGGCAATCGTCTTCAGCAACTGCCCGAGAGCCTCGCCCAGTGTCATCGCCTCGAATTGCTGCGCATCGCCGCCAATCAACTGACCGAATTGCCGTCCTGGTTGTTGGAGCTGCCTAGCCTCAGTTGGCTGGCCTACGCCGGGAATCCCTTGGAAGCCCAGGCCGAGGCCGCCGCGCTGCATGCCGCCACGCCTGTCGACTGGCTGCAACTGAGATTGCAACACACTCTCGGCGAAGGTGCTTCGGGGGTGATTCATCAAGCGCTGTGGCAAGCACCGGGCCGCCCCGCGCGAAACGTCGCGGTCAAGCTGTACAAAGGCCAGATGACCAGCGATGGCTCGCCACTGCATGAAATGCATGCCTGCATCACAGCCGGCAAGCATCCTAACCTGATCGAAGTATTGGGCCAGGTCAGCGGTCATCCCGAGCAGCAGATCGGGCTGGTGATGGCCCTGATCGGACCCGATTGCCGCAACCTGGCCGGGCTGCCGAGCCTGGCGTCCTGCACCCGCGACGTCTACGACGACGAGCTGCGGCTGAGCGCAGCGGCGGCCTTGCGCATCGCCCAAGGCGTTGCGTCGGTGGCGGCGCACCTGCATCGCCAGGGCATCACCCATGGGGATCTGTACGGCCACAATATCCTCTGCAACGACCAGGGCGATTGCCTGCTCGGTGACTTCGGCGCGGCGTCTTTCCATGCCACGGCTGACACGCCGCAAACGCGCGCCCTGCAACGCATCGAGGTGCGGGCGTTCGGGATTCTGCTGGGGGAGTTGCTGGCGCGGATCGAGCCGGCGCTCGCGGATGAGACGCTTGAGCGGTTGCGACAGCTGGAGACGCGCTGCTGTCAGCCGGACGTACTGGCGCGGCCGGGGTTTGACGAGATAGCTGGCTTGTTCGGCGACCGTGGCGAGGGAGCTGCCTCCCTCACCACAAGGTAA	MHTLTQLRTGQLSGITRLKLSCGLTEFPREIFNLADSLEILDLSGNQLDTLPDDLYRLPHLRVLFCSDNHFTELPECLGRCSALTMIGFKANRIEHVTAQALPPLLRWLILTDNRVSQLPDELGHRPHLQKLMLAGNRLQQLPESLAQCHRLELLRIAANQLTELPSWLLELPSLSWLAYAGNPLEAQAEAAALHAATPVDWLQLRLQHTLGEGASGVIHQALWQAPGRPARNVAVKLYKGQMTSDGSPLHEMHACITAGKHPNLIEVLGQVSGHPEQQIGLVMALIGPDCRNLAGLPSLASCTRDVYDDELRLSAAAALRIAQGVASVAAHLHRQGITHGDLYGHNILCNDQGDCLLGDFGAASFHATADTPQTRALQRIEVRAFGILLGELLARIEPALADETLERLRQLETRCCQPDVLARPGFDEIAGLFGDRGEGAASLTTR				NA	NA	NA	NA	NA
D1-35_00921	1062			hypothetical protein	ATGAATAACGTCAAACGCAGTGCACTGTTCGGTTTCTGCTCGCTGGGCTCCGCTTGCCTGGGCGCCCTGCTCCCGGTCACCCAGGCGTTGGCCGAACCGACGCTTTACCTGGGCATGAACGGCGGCACCATGGAGCGGCTGTATGCCGACAAGGTCCTGCCGGCCTTTGAGAAAGCCAACAACGTCAAGGTGGTGATCGTGCCAGGCACCTCGGCCGACATCCTCGCCAAGGTCCAGGCCAGCAAGGGCAACCCGCAGATGCACGTGATGTTCCTCGACGATGGCATCATGTACCGCGCCATCGCCATGGGGCTGTGCGACAAGCTTGAAGACAGCCCGCCCCTGGCGCAGATTCCGGCCAAGGGCCGGATCAAGGACCAGGCCGTAGCTGTCAGCCTCGGGGTCACCGGGCTTGCTTACAACACGCGGCTGTTCAAGGAAAAAGGCTGGAACACACCCACCTCGTGGATGGACCTGGCCGATCCGCGGTTCAAGGACAAGGTGGTGTTCCAGTCCATGGCGTCGTCAACCTTCGGCCTGCACGGTTTCCTGATGTTCAACCGGATCCAGGGCGGCAGCGAAACCGACGTCGAACCGGGTTTCAAGGCCTGGCCGAACACGATCGGGCGCAACGTGCTGGAGTACATTCCCAGCTCGGCGAAAATCTCCGAAATGCTGCAAACCGACGAAGCCGCGCTGTTCCCGCTGACGCCGACCCAGGTGACCGCCTTGAAACTCAAGGGCATGCCAGTCGAGTATGCACAACCGAAGGAAGGCGCAGTGGTGCTCAACGTCGCGGAATGCGCGGTGGCCCACAACAGCGAACCCGAACTCGCGCAGAAACTTGCCGCGTTCCTGCTGACGCCTGAAGCCCAGGCCATTGCCCTGGAGGAAGGCGACCAGATCCCGTCCAACCCCAACACCCCGACCACCGACAAGACTCGTGGCCAGGTGGAAGCGATGAAGCAATACCTGGAAACCGCGATCGCGGTGGATTGGGACCAGGTCAATGAGCAACGTCCGGCCTGGAACGCGCGGTGGAATCGCAGCATCGAGCGCTAG	MNNVKRSALFGFCSLGSACLGALLPVTQALAEPTLYLGMNGGTMERLYADKVLPAFEKANNVKVVIVPGTSADILAKVQASKGNPQMHVMFLDDGIMYRAIAMGLCDKLEDSPPLAQIPAKGRIKDQAVAVSLGVTGLAYNTRLFKEKGWNTPTSWMDLADPRFKDKVVFQSMASSTFGLHGFLMFNRIQGGSETDVEPGFKAWPNTIGRNVLEYIPSSAKISEMLQTDEAALFPLTPTQVTALKLKGMPVEYAQPKEGAVVLNVAECAVAHNSEPELAQKLAAFLLTPEAQAIALEEGDQIPSNPNTPTTDKTRGQVEAMKQYLETAIAVDWDQVNEQRPAWNARWNRSIER	PGPT0007855_3151	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
D1-35_00922	1116	abo_1		4-methylaminobutanoate oxidase (formaldehyde-forming)	ATGATCGAGGTGGATGCGCTGATCATCGGCGGCGGTATCGTCGGCGCCTCGGCGGCGTTGTTCCTGAGCCAGGCCGGGCGGAGCGTGGCGCTGCTGGAGCGGGACTTCTGCGGTTCGCATTCCAGTGGCGTGAATTACGGCGGCGTACGGCGCCAGGGGCGGCCATTGTCGCAACTGCCGTTGTCGCAACGCGCGCATGAGATCTGGGCGCGATTGCCGCAACTGATCGGCATCGACGGTGAGTATCAGCGTAGCGGTCATCTGAAGCTGGCCCGCAGCCTCGATGACCTGCGTGCGTTGCATGATTATGCCGCGAGCAGTCATGGCTTCGGCCTGGATCTGCAATTGCTGGATCGCGATCAACTGCGCAGGCGGTTTCCCTGGGTCGGCGACGTCGCGGTCGGCGCCTCGCTGTGCCCGGGCGACGGTCACGCCAATCCGCGCCTGGTCTCGCCGGCATTTGCCCAGGCGGCTCGCAGGCATGGCGCAAAGGTTTACGAACAATGCCAGGTCAGCCAGGTGACGCACGACGGCCAGCGCTTTGTCGTGCGCACCGAGACAGGCCTTGAGCTGCGCGCGCCGTGGCTGCTGAACTGCGCCGGGGCCTGGGCGAGTCGGTTCGCCGCGCAGTTTGGCGAGGCCGTACCGATGCACGCCGGGCACCCGGCCATGCTGGTCACCGAGCCGCTGCCGGTCGTGATGGACGCCAGCACTGGCGTAGAAGGCGGCGGCATTTATGCGCGCCAGGTCGCCCGGGGCAATTGCGTGTTGGGTGGCGGCCAGGGTTTCGCCCTCGATGACGCCCGCGCCCGCCCCGGCCAGAACGCCGTCATCGAGATCCTGCGCCAGGCCGTCGAACTCTACCCTTTCCTGGAGGGCGCCCAGGCGATTCGTACCTGGAGCGGCACCGAAGGTTACCTGCCCGATCGCCAACCGGTGATCGGCCCGAGCAGTACCCAGTCCGGCCTGTTGCATGCGTTCGGCTTTGCCGGCGCCGGTTTCCAGATCGGCCCGGCGGTGGGCCAGGCGCTCACTGAGATCATCTGCTGCGGCGCCTCAACCACGCCGCTGGATGCGTTTTCCATCACTCGGTTTCACTCCATCTCCGTTGCTTGA	MIEVDALIIGGGIVGASAALFLSQAGRSVALLERDFCGSHSSGVNYGGVRRQGRPLSQLPLSQRAHEIWARLPQLIGIDGEYQRSGHLKLARSLDDLRALHDYAASSHGFGLDLQLLDRDQLRRRFPWVGDVAVGASLCPGDGHANPRLVSPAFAQAARRHGAKVYEQCQVSQVTHDGQRFVVRTETGLELRAPWLLNCAGAWASRFAAQFGEAVPMHAGHPAMLVTEPLPVVMDASTGVEGGGIYARQVARGNCVLGGGQGFALDDARARPGQNAVIEILRQAVELYPFLEGAQAIRTWSGTEGYLPDRQPVIGPSSTQSGLLHAFGFAGAGFQIGPAVGQALTEIICCGASTTPLDAFSITRFHSISVA	PGPT0013510_1810	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013510-soxB_-K00303	NA	NA
D1-35_00923	1356	hcnB_1		Hydrogen cyanide synthase subunit HcnB	ATGAACCCCATAGCCATCATCGGCGCCGGCCCCGCCGGCATCCGCGCTGCGCAAACCCTGATTGCCCATGGCGTGTACCCGGTCCTGCTGGACGAGGCGGCACGCGGCGGCGGGCAGATCTACCGGCGCCAGCCGGCCAACTTCACGCGCACGCCGAACCAGCTCTATGGCTTCGAAGCGCACAAGGCCAGCGCCCTCCACCAGACCGTGGATGAATTGCGCGAGCAGATCGACTATCGCCCCGACACGCTGGTGTGGAACGCCGAGGGCGGGCTGCTGGATACCTTGCATGAAGGCCGCGCCGCGCGCCTGGCGTATGCCAGCGTGATCGTCGCGACGGGCGCCACCGACCGGATCCTGCCGGTCCCTGGCTGGACGCTGCCCGGGGTGTACAGCCTGGGCGCGGCGCAAATCGCCCTGAAGTTCCAGGGCTGCGCCATCGGCGAGCGAGTGGTGTTCGCCGGCAGCGGGCCGTTGTTGTATCTGGTGGCGTACCAATACGCCAAGGCCGGCGCCCATGTCGTCGCGGTGCTCGACAGCTCCCCCTTGAGCGCCCAGGCCCGCGCCCTGCCCGGCCTGCTCGCACAACCGGCCACCCTCGCCAAAGGCCTCTATTACCGCGCCTGGCTCACAGCCCACGGCATCGCCGTGCAGCAAGGCGCCAGCCTTTCGCGCATCGACGGCGAACGCCGGGTGCAGTCGTTGTCATGGCAAAACGGAAAAGGCCAGCACCGGCTCGATTGCGATGCGGTGGCCTTCGCCCACGGCTTGCGCAGCGAAACCCAACTGGCCGACCTGCTCGGTTGTGAGTTTGCCTGGAACCCGCTCAACCGAGCGTGGCTGCCGCAGCGCGACCGCGCCGGGCGCAGCAGCTCTCCAGGGGTCTACCTGGCCGGCGATGGCGCCGGGATCATGGGCGCCGATGCCGCCGAAATGGCCGGCGAACGGGCAGCCCTGGCATTGCTCGAAGATCTCGGTTACCAGATCGACCCGCAACGCTGCGCCCAGCTGGAACAATCCCTCGAACGCATCGGCCGTTTCCGGCAAGGCCTGGAGCGCGCCTTTGCGTTTCCCGAGGACTGGGCGGACCGCGCCGCTGATGGGCTGATGATTTGCCGCTGCGAAGAAGTCAGCGTCGGTGACATCCGGCAAATCGTCGATGAAGGCCACTGGGAGATCAACCGGGTCAAGGCCCATTGCCGGGTCGGCATGGGCCGCTGCCAGGGGCGGATGTGCGGTGCCGCGGCGGCGGAAATCATCGCTCGGGAAAGTGGACGCAACATTCAGGAAATCGGCCGTCTGCGGGCACAGGCGCCGATCAAGCCGGTCCCGTTTGGCCTGGAGGTCGAGTCATGA	MNPIAIIGAGPAGIRAAQTLIAHGVYPVLLDEAARGGGQIYRRQPANFTRTPNQLYGFEAHKASALHQTVDELREQIDYRPDTLVWNAEGGLLDTLHEGRAARLAYASVIVATGATDRILPVPGWTLPGVYSLGAAQIALKFQGCAIGERVVFAGSGPLLYLVAYQYAKAGAHVVAVLDSSPLSAQARALPGLLAQPATLAKGLYYRAWLTAHGIAVQQGASLSRIDGERRVQSLSWQNGKGQHRLDCDAVAFAHGLRSETQLADLLGCEFAWNPLNRAWLPQRDRAGRSSSPGVYLAGDGAGIMGADAAEMAGERAALALLEDLGYQIDPQRCAQLEQSLERIGRFRQGLERAFAFPEDWADRAADGLMICRCEEVSVGDIRQIVDEGHWEINRVKAHCRVGMGRCQGRMCGAAAAEIIARESGRNIQEIGRLRAQAPIKPVPFGLEVES				NA	NA	NA	NA	NA
D1-35_00924	291			hypothetical protein	ATGGCTCTGCTGAAACGACTGGCCGAGCGCGATCGCCCGGCCCTGGACTTCACGCTCGACGGCTTGCCTGCCAGCGGTCTGCTCGGCGATACCGTGCTGACCGCCGTGCTGACCTGCGCTGAGCACTTGCGCGGCAGCGACTTCAGTGCGGAGCCCCGGGCCGGTTTCTGCCTGATGGGCGCCTGCCAGGATTGCTGGGTCCGATTGGGCGACGGTCGCCGCGTGCGCGCCTGCTCGACGCTGCTCGAAGCCGGCCAGCAGATCAGCCGCGAACCGGGGCGCAAGGTATGA	MALLKRLAERDRPALDFTLDGLPASGLLGDTVLTAVLTCAEHLRGSDFSAEPRAGFCLMGACQDCWVRLGDGRRVRACSTLLEAGQQISREPGRKV	PGPT0020400_153	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020400-lhpD-K22550	NA	NA
D1-35_00925	795	ydcV_2		Inner membrane ABC transporter permease protein YdcV	ATGTCCAGGAACGGTCCTTTCGCCCTGTTGTTTCACGCCCTGGTCGTGGTGTTCATGCTGGCGCCACTGGTGGTGGTCTGCCTGGTGGCCTTCACCCCGGAAAACACCCTGAGCCTGCCCACCACGGAGTTTTCCCTGCGCTGGTTCCGTGCCGTGTTCGAGCGCGCGGATTTTGTCGATGCGTTCTACAACAGCCTGGTCCTGGCGTTCTGCGCGGCGTCGCTGGCGACATTGATTGCGGTGCCGGCGGCACTGGCAATCACCCGGCTGGAGTTTCCTGGCCGGGATTTTTTCAATGGTCTGTTCCTGTCGCCGATCATTATTCCGCACCTGGTGCTGGGCGTCGCGTTACTGCGCCTGTTTGCGTTGATGGGCGTGAACGGCAGTTTTACCTGGCTGATCTTCGCCCACGTGCTGGTGATCACGCCCTATGTGCTGCGCCTGGTGCTGGCGTCGGCCATCGGCCTGGACCGCAGCGCCGAACAGGCTGCGCAATCGCTGGGCGCGGGGCGCTTCACCCTGTTCCGGCAGATCACCTTGCCGATGATTCTGCCGGGCGTGGCCGGAGGCTGGTTGCTGGCGTTCATCAATAGCTTCGATGAAGTCACGCTGTCGATCTTCGTCACCTCGCCGGCCACGCAAACCCTGCCGGTGCGCATGTATGTGTACGCCACCGAATCCATCGACCCGATGATGGCGGCGGTGTCGGCGCTGGTTATCGGGCTGACTGCATTGACGATGATTTTGCTCGACCGGGTCTATGGCCTGGATCGGGTCCTGGTGGGCAAACAATGA	MSRNGPFALLFHALVVVFMLAPLVVVCLVAFTPENTLSLPTTEFSLRWFRAVFERADFVDAFYNSLVLAFCAASLATLIAVPAALAITRLEFPGRDFFNGLFLSPIIIPHLVLGVALLRLFALMGVNGSFTWLIFAHVLVITPYVLRLVLASAIGLDRSAEQAAQSLGAGRFTLFRQITLPMILPGVAGGWLLAFINSFDEVTLSIFVTSPATQTLPVRMYVYATESIDPMMAAVSALVIGLTALTMILLDRVYGLDRVLVGKQ	PGPT0007845_3512	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
D1-35_00926	870	potB	COG1176	Spermidine/putrescine transport system permease protein PotB	ATGAAGCTGATGGATGCCATCAAGCGCGGCCGCCAGGGTTACCTGATGTCGGCCCCGGCCCTGGCCTTGTACCTGAGCCTGCTGGTCATTCCCCTCGGGTTGACGCTGGTGTTGTCGTTCAACGTCTTCGACTACGGCTCGGGGATCAACAGCGAGGCCTACACGTTCGAGCATTACACCAGCCTGCTGGGCGATCCGTACTTTTATGAAATCTTCCTGCGCACGTTGTGGATCAGCGCCCTGACCACCGTGCTCTGCGTGCTGATCGGCGTGCCCGAGGCCTACATTCTCAGCCGCATGGGCGCGCCTTGGCGCTCGATTTTCCTGATTCTGATCCTCACGCCGCTGTTGATCTCGGTGGTGGTGCGGGCCTTCGGCTGGAGCCTGCTGCTCGGCGCCGACGGCCTGGTCAACCAGACCTTGCAGGCCCTTGGCGGCTCGCCGATGAAGCTGCTCTACACGCCGTTTGCCGTGGTCATCGCCCTGGTCCATGTGATGTTGCCGTTCATGATCATTCCGGTGTGGACTTCGTTGCAGAAACTTGACCCGGCCGCCGAACAGGCCGCGCTGTCCCTGGGCGCGAGCCAGTTCACGGTGATCCGCAAGGTCGTGTTGCCGCAGATCATGCCCGGCGTGCTGTCTGGCACCCTGATTGTGTTCGGCCTCGCCGCCAGTTCCTTCGCGATACCCGGCCTGCTCGGCGGGCGGCGCTTGAAGATGGTCGCCACGCTGATCTACGACCAGTACCTGTCGGAACTCAACTGGCCCATGGGCGCGGCCATTGCCGTCGCGCTGCTGCTGCTCAACCTGCTGATCATGCTCTCGTGGAACCGCATGATCGAAGGCCGCTACAAGAAATCATTGGGGTAA	MKLMDAIKRGRQGYLMSAPALALYLSLLVIPLGLTLVLSFNVFDYGSGINSEAYTFEHYTSLLGDPYFYEIFLRTLWISALTTVLCVLIGVPEAYILSRMGAPWRSIFLILILTPLLISVVVRAFGWSLLLGADGLVNQTLQALGGSPMKLLYTPFAVVIALVHVMLPFMIIPVWTSLQKLDPAAEQAALSLGASQFTVIRKVVLPQIMPGVLSGTLIVFGLAASSFAIPGLLGGRRLKMVATLIYDQYLSELNWPMGAAIAVALLLLNLLIMLSWNRMIEGRYKKSLG	PGPT0007850_2563	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
D1-35_00927	1026	btuD_3		Vitamin B12 import ATP-binding protein BtuD	ATGGCTTTCGTGCAACTTGAAAACTTGAGCAAACGTTATGGCGACCTCGACGCCGTGGTCGCCACCAACCTCTCGGTGGAAAAAGGCGAGTTCGTCTCCCTGCTGGGGCCATCAGGTTGCGGCAAGACCACGACCCTGCAAATGATCGCCGGCTTCGTCGAAGCCAGCAGCGGGCGCATCCTCCTCGACAGTCGCGACATCACTCACGCCAAGCCGGCCAGCCGGGGCCTGGGCGTGGTGTTCCAGAGCTACGCGCTGTTCCCCCACATGACCGTCAAGGACAACGTTGCCTTCGGCTTGCGTATGCGCAAAGTGCCGAGCACCGAATTGCAGACACGGGTCGATCGGGTACTCAAGCTGGTGCGCCTCGACCAGCACGCCGAGCGCTACCCGCGTGAACTCTCCGGCGGCCAGCGCCAGCGCGTGGCTTTGGCCCGGGCGCTGGTGATCGAACCGCCGGTGCTGCTACTCGACGAACCGTTGTCCAACCTCGACGCCAACCTGCGCGAGGAGATGCAGTTCGAGATCCGCCGCATCCAGCGCGAGGTCGGCATCACTACGTTGATGGTGACGCATGACCAGTCCGAGGCGCTGTCGATCAGCGACCGGGTGGTGGTGATGCAGGCCGGGCGCATCACCCAGATCGACGCGCCCTACACGCTTTATGAACACCCGCGCACCGAGTTCATTTCCGGTTTTGTCGGCAAAGCCAACCTGCTCCCGGGCCAGCGGGACAGCGCCGGCGTCGTGCAAGTCTTTGGCGCCGGTCAAGGCGAGCTGACCCTGAGCCTGCGCCCGGAGAAAATCGATCTGTGCGCCGCCGGCGCGGGGCGGCTGCAAGGCACTGTCACCAGCCGTTTTTTCCTCGGCAGCCAGTGGCTGTACGGCGTCGACACCAACCTGGGCGAGCTCAGCGTGGTGCGCCGCAACGACGGCTCGGCGCCCCTGACCGAAGGCACCGCCGTCGGCCTGGACTGGGATCCGGCGCTGCTGCGGGTGCTGAGCGTGGACGAGGTGTCGGCATGA	MAFVQLENLSKRYGDLDAVVATNLSVEKGEFVSLLGPSGCGKTTTLQMIAGFVEASSGRILLDSRDITHAKPASRGLGVVFQSYALFPHMTVKDNVAFGLRMRKVPSTELQTRVDRVLKLVRLDQHAERYPRELSGGQRQRVALARALVIEPPVLLLDEPLSNLDANLREEMQFEIRRIQREVGITTLMVTHDQSEALSISDRVVVMQAGRITQIDAPYTLYEHPRTEFISGFVGKANLLPGQRDSAGVVQVFGAGQGELTLSLRPEKIDLCAAGAGRLQGTVTSRFFLGSQWLYGVDTNLGELSVVRRNDGSAPLTEGTAVGLDWDPALLRVLSVDEVSA	PGPT0007860_3450	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
D1-35_00928	837	kdgR_1	COG1414	Transcriptional regulator KdgR	ATGCCTTATTCCACTGAGCGGAATTTAGAAAAAGGTGAAGTTGGGGTCGGCTCGGTCTCACGGCTGTTCGCGGTGCTGCGCAGCCTGGGCGAGACCGTTGAAGGCGGTGAGCGCGTGACGCAACTGGCCCAGCGCATCGGCCTGTCCCAGCCGACCACGCACCGCTTGCTGCGCAACCTGATGGACGAGGGCATGGTCGAGCAGGATGCGCGCAGCAAACGCTATCGGCTCAGCCTGGACTTCTTTGCCCTGGCTGCCCGCGCCGGCAATACCGGTAACCTGCGTGAACTGGCCAGGCCCGCCATGTTGCGGCTGTCGGCGTCGCTGGGGGATTCGCTGTTTCTGCTGGCGCGTTGCGGTTTCGATGCCATCTGCCTGGATCGCAGCGAGGGGCCGTTTCCGATTCGCACCTTCACCGGTGACATCGGCGGCCGCGTGGCACTGGGCGTGGGGCAGGGCAGCCTGGCGATCCTGGCATTCCTGCCAGAGGAGGAGCGCGACACGGTGATCCATTACAACCTGCCGCGGCTCAAGGATTTTCATTTGTACGATGAAGTCTTCCTGCGCACCGAGGTCGAGAACGTGCGGACACTGGGCTACGCCGGACGCAACACGGGTGTGTTGCAAGGCATGGCCGGGGTCGCGGTGCCCATTCTCGATCGTGAAGGCCGGGCCGTCGCAGCGCTGAGCGTGGCGACCATCAGCGACCGGCTCGGGCCGGATCGCCTGCCGACGGTGGTGGAGATGCTCAAGCGCGAAGCCGCGGCGATCGGCCCGCGCATCAACCCGTTCGACCCGCTGCTGCGCAGGCCTTCGCAGGTGTTCAGGCAGGGGTGA	MPYSTERNLEKGEVGVGSVSRLFAVLRSLGETVEGGERVTQLAQRIGLSQPTTHRLLRNLMDEGMVEQDARSKRYRLSLDFFALAARAGNTGNLRELARPAMLRLSASLGDSLFLLARCGFDAICLDRSEGPFPIRTFTGDIGGRVALGVGQGSLAILAFLPEEERDTVIHYNLPRLKDFHLYDEVFLRTEVENVRTLGYAGRNTGVLQGMAGVAVPILDREGRAVAALSVATISDRLGPDRLPTVVEMLKREAAAIGPRINPFDPLLRRPSQVFRQG				NA	NA	NA	NA	NA
D1-35_00929	753			hypothetical protein	ATGATCAGCATGCCCCCCAGCGACAGCGACCTGCACGCCTATGTCGATCGCCAGCTCAGCGAAGACGACCAACGCCAGGTGCAGATCTACCTCGACAGCCATCCCGATGTCGCCGCGCGGGTCCGCGGATGGCAGCAAGACACCCAGCAATTGCGCGCGGCCATGAGCGCGGCCCTGCAGCAATCACCCAACCCTGGCCTGGATCCGGCGATCATTCGGCAACGCCTCAGGCACCGGTCCCGACGCCAGCTGGCCAATGCGGCGGTGCTGGTGCTGGCGGTCGGGGTCGGCGGATTCGGCGGATGGCAGGCCCGGCAGATGACCCTGCTCAGCGCCGCAGCGCCCATGGCTGATGCGCTGCAGGCCTATCGCTTGATTGCCCAGCAGGGCGTCCTGCCCGCGGACTACCAGACGGGCGACGAGCAAAGCATGCAAGGCTGGCTCGACCGCTACTTCACCCAGGCCGACCGCTTGCCGGATCTCTCGGCGGCGGGCTTCAAGCCGGTCAGCGGACGATTGCTCAGTACTGACCAAGGCGCCGCTGCGATGGTGGTCTATCAGGACCCGAGCGGCCTGAAGATCAGTTTCTACGTGCGTCCACCTGGCCCGAAAAACTACCTGCTGCCCCGTGGCAGCCGGCGCGACGGTGAATTGCAGGCCGAATACTGGTCCGGGCCGGGATACAACTATGCGATGGTCATCCCGAGTGATATGCCGGCGGCGCAGAAGCTCAAGCAAACCCTGAACTTCTGA	MISMPPSDSDLHAYVDRQLSEDDQRQVQIYLDSHPDVAARVRGWQQDTQQLRAAMSAALQQSPNPGLDPAIIRQRLRHRSRRQLANAAVLVLAVGVGGFGGWQARQMTLLSAAAPMADALQAYRLIAQQGVLPADYQTGDEQSMQGWLDRYFTQADRLPDLSAAGFKPVSGRLLSTDQGAAAMVVYQDPSGLKISFYVRPPGPKNYLLPRGSRRDGELQAEYWSGPGYNYAMVIPSDMPAAQKLKQTLNF				NA	NA	NA	NA	NA
D1-35_00930	507	ecfG		ECF RNA polymerase sigma factor EcfG	ATGAACGAACTCGACGACCAGTTGCGCCTGCTCATCCCACGGCTACGACGTTTTGCCGTGTCGCTGACTCGCAACCCCAGCAATGCCGATGACCTGGTGCAGACATGCCTGGAACGGGCCTTGTCGAAATGGACCGACAAGCGCCCGGACGGCGACCTGCGGGCCTGGCTGTTTTCGATTCTCTACCGGCAGTTCCTCGATGCCCATCGCCGCTCCCGACGTTATGCGCGGATGCTCGAACTGTTCACCGGCCGCGACGATGCGCACCCTTCGGCCGAACGCAGTGTCATCGCCCAATCGTCACTCCAGGCCTTCGATCAACTGCCCACCGAGCAACGTGCGCTGCTGTTATGGGTCTCGGTGGAAGGCTTGAGCTACCAGCAAGTGGCCGACATCCTGGACGTGCCGACGGGCACCGTGATGTCGCGTCTGTCCCGTGCGCGCCAAGCGTTGCGTCAACTCAGCGAAGGCGAAATCGCCCGCCCTGCCCTGCGGATACTCAAATGA	MNELDDQLRLLIPRLRRFAVSLTRNPSNADDLVQTCLERALSKWTDKRPDGDLRAWLFSILYRQFLDAHRRSRRYARMLELFTGRDDAHPSAERSVIAQSSLQAFDQLPTEQRALLLWVSVEGLSYQQVADILDVPTGTVMSRLSRARQALRQLSEGEIARPALRILK	PGPT0014960_11085	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-35_00931	1083	srpA	COG0753	Catalase-related peroxidase	ATGGTTGACCCTTCTTCTGAATCGAGTCGGCCGCCGTTGAGCGCTGCCAGCCTGGCGTTGCGCCTGACCGGCATCGCCGCGGTCGTCGCCGCGCTGGCCGGGGCATTCGCTTACGTGAACGGTACCCTGGACCCGCAACGACTGACGCCCAAGGCCTTGGTCAACGTGCTGGAAACCAATAACGGGGTTCATCCGGGTTTTCGGCGCAATCACTCCAAAGGTGTCTGCGTTGCGGGCTATTTTGAGAACAGCGGCGAGGCGCGAGCCTACTCCAGCGCGCAGGTGTTCAATGATGCGCGGACGCCGGTGGTGGGTCGTTTTGCACTGCCCAGCGGCAACCCCTACGCACCCGATGGCAGCGTGCCGATCCGCAGCCTGGCGTTGCGTTTTACCCAGTCCGATGGCCAGCAATGGCGCACGGGCATGAACAGCATGCCGGTTTTCCCGGTGGGGACGCCCGAGGCGTTCTTCCAGCTTCAACAGGCCCAGTCGCCGGATCCGGCCACGGGTAAACCGAATCCGGCGGCGGTGCCGGCGTTTTTTGCCGCGCATCCCGAGGCGATGCCGTTCCTGCAATGGATCAAGACCGCAAAACCCTCGGCCAGCTATGCCACCGAAACTTATAACGGGATTAACGCGTTCTATCTGGTCAACCCCTCGGGGGAGCGCCAGGCGGTGCGCTGGGCGGTAGTACCAACGAGCCAGGACGCGGCTCAGACCACGCCGCCCCAAGGCGCTGATTTCCTTGAGCAGGACCTGACGAAACGCCTGGCTGCCGGGCCACTGCGCTGGCAGCTGAACATTACCCTGGCCAATCCGGGCGACCCGGTCAACGACGCCAGCAAGGCCTGGCCCGGCGACCGCAAGGCGCTCAACGCCGGTACCCTGGTACTGGAGCGCGCCCAGGCGCAGGACAACGGGGATTGCCGCGACATCAACTATGACCCGCTGATCCTGCCCAGTGGCATCGAAGGCTCGGATGATCCGCTGCTGGCCGCCCGCTCGGCAGCCTATGCCAGTTCCTATCTGCGGCGCACCAGCGAAGTCAGCCAATTGCCCGCTACCCAGGAGTCCCGTCAATGA	MVDPSSESSRPPLSAASLALRLTGIAAVVAALAGAFAYVNGTLDPQRLTPKALVNVLETNNGVHPGFRRNHSKGVCVAGYFENSGEARAYSSAQVFNDARTPVVGRFALPSGNPYAPDGSVPIRSLALRFTQSDGQQWRTGMNSMPVFPVGTPEAFFQLQQAQSPDPATGKPNPAAVPAFFAAHPEAMPFLQWIKTAKPSASYATETYNGINAFYLVNPSGERQAVRWAVVPTSQDAAQTTPPQGADFLEQDLTKRLAAGPLRWQLNITLANPGDPVNDASKAWPGDRKALNAGTLVLERAQAQDNGDCRDINYDPLILPSGIEGSDDPLLAARSAAYASSYLRRTSEVSQLPATQESRQ	PGPT0014380_5757	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
D1-35_00932	537	yceJ_1	COG3038	Cytochrome b561	ATGAACGCCCCTCGACACTTCGCACCGCTGGCTCGGCTGCTGCATTGGCTGATGGCCCTGATGATCATCGCCATGCTGTTTATCGGCGCAGGCATGGTCGCCTCGGTGTCCGAGCGCCACGAATGGTTGCTCCAACTGCACAAACCTCTGGGCATCGCGATTCTGTTGCTGGTGATCGTGCGCCTGGTGGTGCGCTTCACCCGCCGTACGCCGCCGCTGCCAGCCGATCTGCCGGGGTGGCAGGTATTGGCGGCCAAGGCCTCGCATGTCTTGCTGTACGCCTTGATGCTGATCCTGCCGCTGTTGGGCTGGAGCATGATTTCGGCAGCAGGCGACCCGGTGATGCTTAGCGAATCGCTGCGGTTGCCCTCCATCCTGCCAGCGGATGCCCAGACTTTTGCGTGGCTGCGCAAGGCCCATGGCTACCTGGCCTATCTGTTGTTCCTGACCGTGCTGGTGCATTTGGCGGCGGCGCTGTTCCATGGGTGGGTGCGCCGGGATGAGGTGTTGGGCAGCATGTTGCGCGGCAAGGACTGA	MNAPRHFAPLARLLHWLMALMIIAMLFIGAGMVASVSERHEWLLQLHKPLGIAILLLVIVRLVVRFTRRTPPLPADLPGWQVLAAKASHVLLYALMLILPLLGWSMISAAGDPVMLSESLRLPSILPADAQTFAWLRKAHGYLAYLLFLTVLVHLAAALFHGWVRRDEVLGSMLRGKD	PGPT0013195_333	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0013195-cybB-K12262	NA	NA
D1-35_00933	1146			hypothetical protein	GTGGCTAAATCTTCCTTTGATATCAGCGCCAACTTCGACAGTGGCAATATTGACGTCGTGGACATCAGCAACCCGTTGCAGTCGCTGCTGAAAATCAGGCCAGACACCCGTAGCGCGCATTTCCAATGGTTTCATTTCAAGGCCAGTGGCCTGCACGTCGGCCAGGAATATTCCTTCCGCCTGCTCAACGCCAGCCAATCGTCCTACAACAAGGCGTGGACAGGCTACCAAGCCGTAGCGTCCTACGATCATGTCAACTGGTTCCGTATTCCTACGCAATTCGAGGGCGACGCCCTGCGCTTTCATCTGGAAGCCGAACAGCCCCACGCCTGGTTTGCCTATTTCGAACCCTACAGCCGCGGCCGTCACGACTGGCTGATCGAACAGGCGCAGCACAAGGCCGGTACCGAACTGCTGGCGATCGGCAAAAGCGTCGAGGGCCGTGATATTCAATTGCTGCGCAAAGGCAGCGGTGCCGAGGGCCGACGCAAGATCTGGATCATTGCGCAGCAGCACCCCGGCGAGCACATGGCCGAGTGGTTCATGGAAGGAGTAATCGAACGTCTCCAGCATCAGGACGACGCCCAGCTGAACCGTTTGCTCGCCAAGGCCGATCTGTACGTGGTGCCGAACATGAATCCGGATGGCGCGTTCCACGGGCACCTGCGCACTAACGCGATGGGCCAGGACCTCAACCGGGCCTGGCAGAGCGCCAGTCCGCAAATCAGCCCCGAGGTCTATTTCGTACAGCAACAGATGGAAAAGTACGGCGTCGATCTGTTCCTTGATGTCCACGGTGACGAAGAGATACCCCACGTCTTCACTGCCGGTTGCGAAGGCAACCCGGGCTATACGCCGCGCATCGCCGGACTCGAAGAGCGCTTTCGCAGCCACCTCAAGCACCAGACCAAGGACTTCCAGACCGCCCATGGTTACATCCGCGACGAACCGGGTCAGGCTAACATGACCTTGGCCTGCAACGCGGTTGGCCAGAAATATGATTGCCTGTCCCTGACCTTGGAAATGCCGTTCAAGGACCACGACGATCACCCGAACCCACGCACGGGCTGGTCCGGCAGACGCTCAATGCAACTGGGCAAGGACGTGCTGAGCACGGTCGAGGACATCATCGACGAATTGCGCTGA	MAKSSFDISANFDSGNIDVVDISNPLQSLLKIRPDTRSAHFQWFHFKASGLHVGQEYSFRLLNASQSSYNKAWTGYQAVASYDHVNWFRIPTQFEGDALRFHLEAEQPHAWFAYFEPYSRGRHDWLIEQAQHKAGTELLAIGKSVEGRDIQLLRKGSGAEGRRKIWIIAQQHPGEHMAEWFMEGVIERLQHQDDAQLNRLLAKADLYVVPNMNPDGAFHGHLRTNAMGQDLNRAWQSASPQISPEVYFVQQQMEKYGVDLFLDVHGDEEIPHVFTAGCEGNPGYTPRIAGLEERFRSHLKHQTKDFQTAHGYIRDEPGQANMTLACNAVGQKYDCLSLTLEMPFKDHDDHPNPRTGWSGRRSMQLGKDVLSTVEDIIDELR				NA	NA	NA	NA	NA
D1-35_00935	342			hypothetical protein	ATGGACAAGCCCAACAACGATGAGCCCGCAGCCCCCTCGAACAACCCATTTTTGTCGCTTCAGGATTGTCCGGCGGCCAAACGCGCCCTGGACCATTACCTGAAACCGGATATTGCCGACAACCCGGCGGAACATCGCTTCTTCGACGTCAACCGAAACATCAGTGGGGAGGAAGCCCTGGTTCATGCTTGCGACCTGCTACGTTGTGCAGCCGCGACCGCCCACGAATCCGCCAGCCGATTGAACGGCCCGAGCCGTGACCTGGCATTTTCGGTGGTGCATATGATCGATCTGGTCAAGGTCATGCTCGACCGGACCCTGGACGGCTATCCGGCACGCTAG	MDKPNNDEPAAPSNNPFLSLQDCPAAKRALDHYLKPDIADNPAEHRFFDVNRNISGEEALVHACDLLRCAAATAHESASRLNGPSRDLAFSVVHMIDLVKVMLDRTLDGYPAR				NA	NA	NA	NA	NA
D1-35_00936	615		COG1974	putative HTH-type transcriptional regulator	ATGAAGGAGCAGCACATCACGCAAGTGGTGCTCGCAGAGCGTCTGGGGATGTCTCAGGGTGGGGTCGGCCATTGGCTGACCAAGCGCCGACAACCCAGTCTTGGAGACATGAACCGGGTGCTGCAGGAGCTGGGGCTGGAGTTCCTCGAGGTGGCAATGGTGATCCGCGAGCCGGACACTTCCACCGACGAGGGGATGGCCCTGGCGCAGAAGTACAACCCGTACTTTCGCTACCCGGTCAGTGACTGGCGCGACATCGGTCTCGTTCGCGAAGAGAATGTCGCGGACTACGGCCAGCCGCGCTATGAGCTGACGGATTACCATGCACGGGGCGACGCGTTCTGGCTGGTGGTGATGGGGGATGCGATGACGGCGCCAAGCGGCTTGAGCATTCCCGAGGGCATGTCGATCCTGGTGGATCCGGCGATCGAAGCGGTGCCCGGGAAACTGGTGATTGCCCGATTGCCAGGCAGCAGCGAAGCGACTTTCCGCAAGCTGATGGAAGAGAGCGGGCAGCGTTACCTGGTTCCGCTCAATCCGACTTATCCGAAAACCCTGTTTACCGACCAATGCCGCATCATCGGCGTGGTCGTACAGGCAACCATCAGGTTCTGA	MKEQHITQVVLAERLGMSQGGVGHWLTKRRQPSLGDMNRVLQELGLEFLEVAMVIREPDTSTDEGMALAQKYNPYFRYPVSDWRDIGLVREENVADYGQPRYELTDYHARGDAFWLVVMGDAMTAPSGLSIPEGMSILVDPAIEAVPGKLVIARLPGSSEATFRKLMEESGQRYLVPLNPTYPKTLFTDQCRIIGVVVQATIRF				NA	NA	NA	NA	NA
D1-35_00937	1950	accA1	COG4770	Acetyl-/propionyl-coenzyme A carboxylase alpha chain	ATGAGCGCCCCTGCCCTCACTACCCTGTTGGTCGCCAACCGCGGCGAAATCGCCTGCCGCGTCATGCGCACAGCCAAGGCCATGGGCCTGACCACCGTTGCGGTGCACAGCGCCACCGATCGTGACGCGCGTCATAGCCGGGAAGCCGACGTGCGTGTCGATCTGGGCGGCAGCAAGGCCGCCGACAGCTATTTGCAAATCGACAAACTGATCGCTGCGGCGCAAGCCAGTGGCGCCCAGGCTATCCACCCAGGCTACGGTTTTCTTTCCGAGAATGCCGGGTTCGCCAGGGCCATCGAAAATGCCGGGTTGATCTTTCTCGGCCCACCCGCCTCGGCCATCGAAGCCATGGGCAGCAAGTCCGCCGCCAAGGCCTTGATGGAAACCGCCGGCGTGCCGCTGGTACCCGGCTATCACGGTGAAGCCCAGGATCTGGAGACGTTCCGCGCCGCCGCCGAGCGCATCGGTTATCCGGTGCTGCTCAAGGCCACGGCAGGCGGCGGCGGCAAAGGCATGAAGGTCGTCGAGGAAGTCAGCCAACTGGCCGAGGCATTGGCCTCTGCGCAGCGCGAGGCGCAATCGTCGTTCGGCGATGCGCGAATGCTGGTGGAAAAATACTTGCTCAAGCCACGCCACGTGGAAATCCAGGTGTTCGCCGACCGGCACGGCAACTGCCTGTATCTCAACGAACGCGACTGCTCGATCCAGCGTCGCCATCAGAAGGTCGTGGAGGAGGCACCGGCGCCGGGCCTGGGCCAGGAATTGCGCCGGGCGATGGGCGAAGCCGCCGTACGGGCGGCCAAGGCGATCGGCTATGTCGGCGCGGGTACGGTGGAGTTTCTGCTGGATTCGCGAGGCGAATTCTTCTTCATGGAAATGAATACCCGGCTGCAGGTCGAGCATCCGGTGACCGAAGCGATCACCGGGCTCGACCTGGTGGCCTGGCAGATCCGCGTCGCCCAGGGCGAGCCATTGCCGATCACCCAGGAGCAGGTGCCGCTGCTGGGTCACGCCATCGAAGTACGTCTGTACGCCGAAGATCCGGCCAATGATTTTCTTCCCGCCACGGGGCGCTTGTCGCTGTATCGCGAGTCGGCCGAAGACGCGGGTCGCCGGGTAGACAGTGGTGTTGACGAAGGCGATGAGATCTCGCCCTTCTACGACCCGATGCTCGGCAAGTTGATTGCCTGGGGGGAAAACCGTGAACAGGCACGTTTGCGGTTGTTGGCCATGCTCGACGAGTTCGCCATTGGCGGGCTGAAAACCAACATCGGTTTTCTCCGCCGTATCATCGCTCACCCCGCCTTCGCGGCGGCGGAACTGGACACCGGTTTCATCCCGCGCTACCAGGCGCAATTGCTGCCGGAGCCCGGCGAACTGGATGACGATTTCTGGCGCGCTGCGGCCCAGGGTTTCGCCTTGAGCCTGACGCCACGTGTCCGCGCCGATGACAGCAACTCGCCATGGGCCGCTACCGCCGGGCTGCGCCTGGGGCTGCCAGCGGAAATCACCCTCCACCTGAGTTGCGATGGCCAGGACCGCGCCGTGACGCTGGATGTTGCTGGTCGCGGCGCCGAGCTCAGGGGCGAGCAGTTGATCATCGAGCACAACGGTGTGCGCCGCGAACATCGAGCCATTCGCCACGACGACAGCCTCTACCTGCAATGGAAGGGCGATCTGTATCGAGTCGACTCCTACGACCCGCTGGCGGCGGCCGAGGCCAGCCACAGCCAGCAGGGCGGCCTGGTCGCCCCCATGAATGGAAGCATCGTTCGGGTGCTGGTGAGCGCTGGCCAGGCGGTGGAAGCCGGCGCGCAACTGGTGGTGCTGGAGGCGATGAAAATGGAGCACAGCATCCGCGCGCCCAAGGCTGGCGTGATCAAGGCGGTGTATTGCCAGGAGGGAGAGATGGTCAGCGACGGCAGCGCGCTGGTGGAACTGGAAGAATAG	MSAPALTTLLVANRGEIACRVMRTAKAMGLTTVAVHSATDRDARHSREADVRVDLGGSKAADSYLQIDKLIAAAQASGAQAIHPGYGFLSENAGFARAIENAGLIFLGPPASAIEAMGSKSAAKALMETAGVPLVPGYHGEAQDLETFRAAAERIGYPVLLKATAGGGGKGMKVVEEVSQLAEALASAQREAQSSFGDARMLVEKYLLKPRHVEIQVFADRHGNCLYLNERDCSIQRRHQKVVEEAPAPGLGQELRRAMGEAAVRAAKAIGYVGAGTVEFLLDSRGEFFFMEMNTRLQVEHPVTEAITGLDLVAWQIRVAQGEPLPITQEQVPLLGHAIEVRLYAEDPANDFLPATGRLSLYRESAEDAGRRVDSGVDEGDEISPFYDPMLGKLIAWGENREQARLRLLAMLDEFAIGGLKTNIGFLRRIIAHPAFAAAELDTGFIPRYQAQLLPEPGELDDDFWRAAAQGFALSLTPRVRADDSNSPWAATAGLRLGLPAEITLHLSCDGQDRAVTLDVAGRGAELRGEQLIIEHNGVRREHRAIRHDDSLYLQWKGDLYRVDSYDPLAAAEASHSQQGGLVAPMNGSIVRVLVSAGQAVEAGAQLVVLEAMKMEHSIRAPKAGVIKAVYCQEGEMVSDGSALVELEE	PGPT0019850_181	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	vCITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019850-atuC|atuF-K13777	NA	NA
D1-35_00938	819	menB_1		1,4-dihydroxy-2-naphthoyl-CoA synthase	ATGAATCATTACAACACGCTCCAATTGCAGATGGACCCGCGCGGCTTCGCCACCTTGTGGCTCGACCGCGAGTCGAAAAACAACGCGTTCAACGCCGAGATGATCCGCGAGCTGATCCTCGCCCTGGACCAGGTCGGCAGCGATCCGACCCTGCGTTTCCTGCTGATCCGTGGTCGTGGCAAACACTTCAGCGCCGGCGCCGACCTGGCCTGGATGCAGCAATCGGCCGAACTCGATTACCACACCAACCTCGACGACGCTCGGGAACTGGCGGAGCTGATGTACAACCTGGCCAAGCTGAAGATCCCGACACTCGCCGTTGTCCAGGGCGCGGCATTCGGCGGCGCGCTGGGTTTGATCAGCGCCTGTGACATGGCCATCGGTGCCGATGATGCGCAGTTCTGCCTGTCCGAAGTACGCATCGGCCTGGCGCCGGCCGTGATCAGTCCATTCGTGGTGCAGGCCATCGGCGAACGGGCGGCACGGCGTTACGCCCTGACGGCTGAACGTTTCGGTGGGCAACGGGCGAAGGAAATCGGTTTGCTGGCGGACAGTTACCCGGCCGAGGCCCTGGATGATCAGCTCGGCAAGTGGATCGACAACCTGCTGCTCAACAGTCCGGCGGCCATGCGCGCCAGCAAGGAACTGCTGCGCGAAGTCGGCAACGGTGCGTTGACCCCGGCGTTGCGGCGCTACACCGAAAATGCCATCGCGCGGATACGGGTCAGCCCCGAGGGCCAGGAAGGCCTGCGGGCGTTCTTGCAAAAACGGCCGCCGAGCTGGCAAGCCGAGTCCAACAACAAGGAGCCGCGTCGATGA	MNHYNTLQLQMDPRGFATLWLDRESKNNAFNAEMIRELILALDQVGSDPTLRFLLIRGRGKHFSAGADLAWMQQSAELDYHTNLDDARELAELMYNLAKLKIPTLAVVQGAAFGGALGLISACDMAIGADDAQFCLSEVRIGLAPAVISPFVVQAIGERAARRYALTAERFGGQRAKEIGLLADSYPAEALDDQLGKWIDNLLLNSPAAMRASKELLREVGNGALTPALRRYTENAIARIRVSPEGQEGLRAFLQKRPPSWQAESNNKEPRR	PGPT0026240_49	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR_VIRULENCE_REGULATORY_SYSTEM,PGPT0026240-paaK-K01912	NA	NA
D1-35_00939	1608		COG4799	Methylmalonyl-CoA carboxyltransferase 12S subunit	ATGGCCACGCTGCACACTCAGCTCAACCCACGCTCACCGGAATTCAGCGCCAACCGCGACGCGATGCTCGGCCAGGTCGAGGCCCTGCGTACCTTGCTCGCCCACGTCCAGCAAGGCGGCGGAGCCAAGGCCCAGGAACGGCATACCTCACGGGGCAAATTGCTGCCCAGGGAACGCATCAATCGCTTGCTCGACCCGGGTTCGCCGTTCCTGGAGATCAGTCCGCTGGCGGCTTACGAAGTGTACGGCGAAGACGTTCCGGCCGCCGGCGTGATCGCCGGGATCGGTCGAGTGGAAGGCGTCGAATGCATGATTGTCGCCAACGACGCGACCGTCAAAGGTGGTTCGTATTACCCGCTGACGGTGAAAAAACACCTGCGCGCCCAGACCATCGCCCAACAGAACCGCCTGCCCTGCATCTACCTGGTGGATTCCGGCGGTGCCAACCTGCCGCGCCAGGACGAAGTCTTCCCCGATCGTGAGCACTTTGGCCGGATCTTCTTCAACCAGGCCAACATGAGTGCCCAGGGCATCCCGCAGATTGCCGTGGTCATGGGTTCCTGCACCGCTGGCGGCGCGTACGTGCCGGCGATGGCGGACGAGGCGATCATGGTCCGCCAGCAGGCAACGATTTTCCTCGCCGGCCCGCCGTTGGTAAAAGCGGCGACTGGAGAGGTGGTCAGTGCCGAGGACCTGGGCGGCGCCGACGTGCATTGCAAGGTTTCCGGTGTCGCCGACCATTACGCCGACAGCGATGAACACGCCCTGGCGCTGGCCCGCCGCAGCGTGGCCAATCTCAACTGGCGCAAGCTCGGTGATGTGCAGCGACGCGCGCCCACCGCCCCGCTGTATTCGAGTGAGGAGCTGTATGGCGTGGTTTCGGCCGACGCGAAGCAGCCATTCGACGTGCGAGAAGTGATCGCACGTCTGGTGGACGGCTCGGTGTTCGACGAGTTCAAAGCGCTGTTCGGAACGACCCTGGTCTGCGGTTTCGCCCACTTGCACGGTTACCCGGTCGCCATCCTGGCCAACAACGGCATCCTGTTCGCCGAGGCCGCACAAAAAGGCGCGCACTTCATCGAACTGGCCTGCCAGCGCGGCATACCGCTGCTCTTCCTGCAGAACATCACCGGGTTCATGGTCGGTCAGAAATACGAAGCCGGCGGCATCGCCAAGCATGGCGCAAAACTGGTAACCGCGGTGGCCTGCGCCCGAGTGCCGAAATTCACCGTGATCATCGGCGGCAGTTTCGGCGCCGGTAACTACGGCATGTGCGGCCGCGCCTATGACCCACGCTTTTTGTGGATGTGGCCGAATGCGCGGATCGGCGTGATGGGCGCCGAACAGGCGGCCGGCGTGCTGGTGCAGGTCAAGCGCGAACAGGCCGAACGCAGCGGCCAGCCGTTCAGCGCAGTTCAGGAGGCCGAGATCAAGCAACCGATCCTCGACCAGTACGAAGAACAGGGGCATCCCTACTATTCCAGCGCGCGGCTGTGGGATGACGGCGTCATTGACCCGGCGCAGACGCGCGATGTGCTGGGCCTGGCCTTGTCCGCGTCGCTGAACGCGCCCATCGAACCGAGCCGCTTCGGCGTGTTCAGGATGTAA	MATLHTQLNPRSPEFSANRDAMLGQVEALRTLLAHVQQGGGAKAQERHTSRGKLLPRERINRLLDPGSPFLEISPLAAYEVYGEDVPAAGVIAGIGRVEGVECMIVANDATVKGGSYYPLTVKKHLRAQTIAQQNRLPCIYLVDSGGANLPRQDEVFPDREHFGRIFFNQANMSAQGIPQIAVVMGSCTAGGAYVPAMADEAIMVRQQATIFLAGPPLVKAATGEVVSAEDLGGADVHCKVSGVADHYADSDEHALALARRSVANLNWRKLGDVQRRAPTAPLYSSEELYGVVSADAKQPFDVREVIARLVDGSVFDEFKALFGTTLVCGFAHLHGYPVAILANNGILFAEAAQKGAHFIELACQRGIPLLFLQNITGFMVGQKYEAGGIAKHGAKLVTAVACARVPKFTVIIGGSFGAGNYGMCGRAYDPRFLWMWPNARIGVMGAEQAAGVLVQVKREQAERSGQPFSAVQEAEIKQPILDQYEEQGHPYYSSARLWDDGVIDPAQTRDVLGLALSASLNAPIEPSRFGVFRM	PGPT0008345_76	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-VOLATILE_RELATED_FATTY_ACID_METABOLISM,PGPT0008345-accD-K01970	NA	NA
D1-35_00940	1164	mmgC_1	COG1960	Acyl-CoA dehydrogenase	ATGAGCTACCCATCCCTGAATTTTGCCCTTGGCGAAACTATCGATATGTTGCGCGACCAGGTGCAATCCTTCGTCAAGGCAGAGTTGGCGCCTCGGGCGGCGCAGATCGACATAGACAATCTGTTCCCCGCCGATATGTGGCGCAAGTTCGGCGACATGGGCCTGCTGGGCATCACCGTCCCGGAAGAATATGGCGGCGCTGGCCTGGGTTACCTGGCCCATGTGGTGGCGATGGAAGAAATCAGCCGCGGCTCGGCCTCGGTCGCCCTCTCCTACGGCGCCCACTCCAACCTGTGCGTCAACCAGATCAATCGCAACGGCAACCATGAGCAGAAAACCAGATACCTGCCCAAGCTGATCAGCGGCGAACACATCGGCGCCCTGGCCATGAGCGAACCGAACGCCGGCTCCGATGTGGTTTCGATGAAACTGCGCGCCGACAAACGCGGCGACCGCTACGTTCTCAACGGCAGCAAGACCTGGATCACCAACGGGCCTGACGCCAACACCTATGTGATCTACGCCAAGACCGACCTGGAAAAAGGCGCCCACGGCATTACTGCGTTCATCGTCGAACGCGACTGGAAAGGCTTCAGCCGCAGCAACAAGTTCGACAAGCTCGGCATGCGCGGCTCCAACACCTGTGAGCTGTTTTTCGACGACGTCGAGGTGCCGGAAGAAAACATCCTCGGCGTACTCAATGGTGGCGTGAAGGTCCTGATGAGTGGCCTCGATTATGAACGCGTGGTCTTGTCCGGCGGCCCGACCGGGATCATGCAGGCCTGCATGGACCTGATCGTGCCCTATATCCATGATCGCAAGCAGTTCGGCCAGAGCATCGGCGAATTCCAGCTGATCCAGGGCAAGGTTGCGGATATGTACACCCAGCTCAACGCCAGCCGCGCCTACCTGTATGCGGTGGCCCAGGCCTGCGAGCGCGGCGAAACCACGCGCAAGGACGCCGCCGGAGTGATCCTCTACAGCGCCGAACGCGCGACGCAAATGGCCCTTGATGCCATCCAGATCCTGGGCGGCAATGGCTATATCAATGAATTCCCGGCCGGGCGCCTGCTGCGTGACGCCAAGCTGTATGAAATCGGCGCCGGCACCAGTGAGATCCGACGGATGCTGATCGGCCGCGAACTGTTCAACGAAACCCGCTAA	MSYPSLNFALGETIDMLRDQVQSFVKAELAPRAAQIDIDNLFPADMWRKFGDMGLLGITVPEEYGGAGLGYLAHVVAMEEISRGSASVALSYGAHSNLCVNQINRNGNHEQKTRYLPKLISGEHIGALAMSEPNAGSDVVSMKLRADKRGDRYVLNGSKTWITNGPDANTYVIYAKTDLEKGAHGITAFIVERDWKGFSRSNKFDKLGMRGSNTCELFFDDVEVPEENILGVLNGGVKVLMSGLDYERVVLSGGPTGIMQACMDLIVPYIHDRKQFGQSIGEFQLIQGKVADMYTQLNASRAYLYAVAQACERGETTRKDAAGVILYSAERATQMALDAIQILGGNGYINEFPAGRLLRDAKLYEIGAGTSEIRRMLIGRELFNETR	PGPT0002285_734	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
D1-35_00941	1710	fadD3_1	COG0318	3-[(3aS,4S,7aS)-7a-methyl-1,5-dioxo-octahydro-1H-inden-4-yl]propanoyl:CoA ligase	ATGGATCAACCCGGTTCGCATACGCAACTCAGCTATACCCGCGGTTCCCAGGCCAAGGCCTTGCTGGCCCAAACCATCGGCGAGGCGTTTGACCAGACGGTGACCGACTGTCCTGACGGCGAAGCGCTGGTGGTTCGCCACCAATCATTGCGCTACAGCTGGCGCGAATTGGCCGCGGCGGTCGATCTGCACGCCCGGGCCATGCTCGCGCTGGGTTTGGAAACCGGCGATCGGCTGGGCATATGGGCACCCAATTGCGCGCAGTGGTGCATTACCCAATTTGCCAGCGCGAAGGTCGGCGTGATCCTCGTCAACATCAACCCGGCCTATCGGGCCTCGGAACTGGAGTACGTGCTCAAACAGTCCGGATGCCGCTGGCTGGTGTGTGCGGGGGCTTTCAAGACTTCGGATTACCACGCCATGTTGCAGGCATTGGCACCGGAACTGGCAGAGCAATCGATCGGCCAGCTGCGAAGCGAACGCTTGCCGGATCTGCGCGGCGTGATCAGCCTCGATTCCCAGCCGCCTTCAGGCTTCCTGCCCTGGTCGCAGCTGGCCGACCTCGGTGCAGCCATCTCGCCTGGGCAATTGGCCGAGCGCCAGGACAGCCTGCATTTCGAGCAGCCGGTGAATATCCAGTACACCTCCGGCACCACCGGATTTCCCAAGGGCGCGACCCTCAGTCACCAGAACATTCTCAACAACGGTTACATGGTCGGTGAAAGCCTCGGCCTGACCGCCGGCGATCGTCTGGTGATCCCGGTGCCGTTGTATCACTGCTTCGGCATGGTCATGGGTAACCTGGGATGCATGACCCACGGCAGTACCATGATCTACCCCAACGATGCCTTCGATCCGTTGCTGACGCTACGGACCGTGGCCGAAGAAAGAGCCACCGCGCTGTACGGGGTCCCCACCATGTTTATCGCCATGCTGGACCAGCCGCAGCGCGGGGATTTCGACCTGTCCAGCCTGCGCACCGGGATCATGGCCGGAGCCACCTGTCCGATCGAGGTGATGCGGCGGATCATCAGCGAGATGCACATGGCCCAAGTGCAGATTGCCTACGGCATGACGGAAACCAGCCCGGTGTCGTTGCAGACCGGTCCCACGGATGAACTGGAGTTGCGCGTCACGACCGTTGGGCGTACCCAGCCGCAGCTGGAGAGCAAGATCATCGACGGGAACGGCGAGGTTGTCCCTCGCGGCACCATCGGTGAATTGTGCACGCGCGGTTACAGCGTGATGCTCGGCTACTGGAACAACCCCAAGGGCACGGCCGAGGCGATCGATGCGCAGGGCTGGATGCACACCGGCGACCTGGCGAGCATGGATGAGCAGGGTTACGTCTGTATCGTCGGACGGAACAAGGACATGATCATCCGTGGCGGCGAGAATGTTTATCCCCGCGAACTGGAGGAGTTCTTTTTCACCCATCCCGCCGTGGCGGATGTGCAGGTGATCGGCATTCCATGCCCACGCTACGGTGAGGAGATCGTGGCCTGGATCAAACTCCATCCCGGCCACAGCGTCACCGAGGAGCAGTTGCAAGCGTGGTGCAAGGAACGCATCGCTCACTTCAAGACACCGCGTCATTTCAAATTTGTCGAGCAGTTCCCGATGACGGTTACCGGCAAGATCCAGAAATTTCGCATGCGCGAAATCAGTATCGAAGAGCTGCGCAATCACCAGGGCCAACCACAATCCTAG	MDQPGSHTQLSYTRGSQAKALLAQTIGEAFDQTVTDCPDGEALVVRHQSLRYSWRELAAAVDLHARAMLALGLETGDRLGIWAPNCAQWCITQFASAKVGVILVNINPAYRASELEYVLKQSGCRWLVCAGAFKTSDYHAMLQALAPELAEQSIGQLRSERLPDLRGVISLDSQPPSGFLPWSQLADLGAAISPGQLAERQDSLHFEQPVNIQYTSGTTGFPKGATLSHQNILNNGYMVGESLGLTAGDRLVIPVPLYHCFGMVMGNLGCMTHGSTMIYPNDAFDPLLTLRTVAEERATALYGVPTMFIAMLDQPQRGDFDLSSLRTGIMAGATCPIEVMRRIISEMHMAQVQIAYGMTETSPVSLQTGPTDELELRVTTVGRTQPQLESKIIDGNGEVVPRGTIGELCTRGYSVMLGYWNNPKGTAEAIDAQGWMHTGDLASMDEQGYVCIVGRNKDMIIRGGENVYPRELEEFFFTHPAVADVQVIGIPCPRYGEEIVAWIKLHPGHSVTEEQLQAWCKERIAHFKTPRHFKFVEQFPMTVTGKIQKFRMREISIEELRNHQGQPQS	PGPT0008380_8037	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
D1-35_00943	900	liuE	COG0119	3-hydroxy-3-isohexenylglutaryl-CoA/hydroxy-methylglutaryl-CoA lyase	ATGTCCCTCCCCTCCTTTGTACGTTTGATCGAAGTCGGCCCCCGCGACGGCCTGCAGAATGAATCCCAACCCATCAGCGTGGCGGACAAGGTGCGTCTGGTTGACGCCCTGAGCGATGCGGGCCTGGGTTACATCGAAGTCGGCAGTTTTGTCTCGCCCAAATGGGTGCCGCAGATGGCCGGTTCGGCCGAGGTATTTGCGCAGATCCAGCGCAAGCCTGGCGTGACCTATGGCGCCCTGGCACCGAACCTGCGGGGTTTCGAGGACGCACTGGCGGCGGGGGTCAGGGAGGTCGCTGTATTCGCCGCGGCGTCCGAAGCGTTTTCCCAGCGCAACATCAATTGCTCGATCCAGGAAAGCCTGGAACGCTTCGCACCGATCATGGAGGCGGCGAAGCACAGCGGCGTCAGCGTGCGCGGCTACGTGTCCTGCGTGCTGGGCTGCCCCTATGAGGGCGAGGTCAAGCCCGAGCAGGTCGCGTGGGTCGCCCGGGAGCTGTACGCCATGGGCTGTTACGAGGTGTCCCTCGGTGACACCATCGGCACCGGCACCGCCGGTGCAACGCGCAGGATGTTCGAGGTAGTCGGCGCGGACGTGCCCCGGGACAAACTGGCGGGACATTTCCATGACACCTATGGCCAGGCCATGGCCAACGTCTACGCCAGCTTGCTGGAGGGTATCGCCGTGTTCGACAGCTCAATCGCCGGCCTGGGCGGCTGCCCTTATGCCAAGGGCGCCAGCGGTAACGTCGCCACGGAAGACGTGCTGTACCTGCTCAACGGCCTCGGCATCGAGACCGGCATTAATCTGGATGCACTCATCGCCGCGGGCCGGCAGATCTGCGACGTGCTGGGTCGCTCGACCGGTTCGCGGGTGGCCAAGGCGCGCCTGGCGCGGTGA	MSLPSFVRLIEVGPRDGLQNESQPISVADKVRLVDALSDAGLGYIEVGSFVSPKWVPQMAGSAEVFAQIQRKPGVTYGALAPNLRGFEDALAAGVREVAVFAAASEAFSQRNINCSIQESLERFAPIMEAAKHSGVSVRGYVSCVLGCPYEGEVKPEQVAWVARELYAMGCYEVSLGDTIGTGTAGATRRMFEVVGADVPRDKLAGHFHDTYGQAMANVYASLLEGIAVFDSSIAGLGGCPYAKGASGNVATEDVLYLLNGLGIETGINLDALIAAGRQICDVLGRSTGSRVAKARLAR	PGPT0008315_2854	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
D1-35_00944	402	cueR	COG0789	HTH-type transcriptional regulator CueR	ATGAGCAGCCAGACCTACAGCATCTCCGACCTCGCCCGCGAACTGGATATCACCACCCGCGCCATCCGCTTCTATGAAGAACAGGGTCTGTTGCGCCCGGAGCGCCGTGGTCAGGAACGTATCTACTCGCCGCGGGACAAGGTCAGCCTGAAACTGATCCTGCGGGGCAAGCGCATCGGTTTCTCTCTCGCCGAGTGCCGTGAGTTGATCGAACTCTACGACCCCAGCAGCGGCAATCAGAAACAACTGCACAGCATGCTGGCGAAAATCGCCGAACGGCGCGAACAGCTCGAACAGCAGTTGCTGGATATCGAACAGATGAAGCTGGAGCTCGACACCGCCGAAGAACGTTGCATCCAGGCGCTGGAGCAGACGATCAAAGGCGAGGAAGTCGTCCAGTAA	MSSQTYSISDLARELDITTRAIRFYEEQGLLRPERRGQERIYSPRDKVSLKLILRGKRIGFSLAECRELIELYDPSSGNQKQLHSMLAKIAERREQLEQQLLDIEQMKLELDTAEERCIQALEQTIKGEEVVQ	PGPT0004135_1043	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexPQ-OpmE,PGPT0004135-cueR-K19591	NA	NA
D1-35_00945	930	pcpR_1		PCP degradation transcriptional activation protein	ATGAATCTGAGCAAGGTCGACCTCAACCTTTTCATTGTCTTTGATGCGATCTACACCGAAGCCAACCTGACCCGGGCCGGGCAGATCGTCGGCATCACTCAACCGGCGGTGTCCAATGCCCTGGCGCGTTTGCGCGAGACGTTCAACGACCCGCTGTTCGTGCGTACTGCCCAAGGCATGGTGCCCACGCCGATGGCCCAGAATATTATCGGGCCGGTGCGCAACGCCCTGTCGCTGCTCCGGGTGTCGGTGCAGGAAAGCCGGATCTTCAACCCGCTGCAAGCCGTGAAGACCTATCGCATCAGCATGACCGACCTCACCGAGGGCGTGATCCTGCCGCCGCTGTTCCAGCGCCTGCGCCGCCTGGCGCCGACCGTGGCCATCGAGAGTTTCCTGTCCAAGCGTCGGGAAACCACCAAGGAGCTGGCCGCCGGGCGCCTGGATTTCGCGGTTGATGCTCCACTCAATACCGATCCGCAGGTGCGCCACGTCAAGCTGATGGAAGATCGCTACGTGTGTGCCATGCGCAAGGGCCACCCGTTGGCGGGCAAGGAAAAACTCAGCCTGGATGATTACCTGGCCCAGACCCATGTACATATCTCCAGCCGCCGCAACGGCCTCGGTTATGTCGACCTGGCATTGGGCAAGATGGGCATCCAGCGCAAGATCGCCCTGCGCTCGCAGCATTATCTGATGGCTTCCCAGGTACTCCAGCAGACCGACATGGTCATGACCGTTCCCGAACGTTTCGCCCGTCGCCACGACCTGCATGCGTTCCTGTTGCCCGTCAACGATGTGCCGCCGGTGGAAACCCATCTCTACTGGCACGAAAGCACCGACCAGGACCCGGCCAACCGCTGGATGCGCGAGCAGATGATCGAGCTGTGCCAGCAGGTGACGGCGCATGAGAAGAAGCTTGATAAGGTTTAG	MNLSKVDLNLFIVFDAIYTEANLTRAGQIVGITQPAVSNALARLRETFNDPLFVRTAQGMVPTPMAQNIIGPVRNALSLLRVSVQESRIFNPLQAVKTYRISMTDLTEGVILPPLFQRLRRLAPTVAIESFLSKRRETTKELAAGRLDFAVDAPLNTDPQVRHVKLMEDRYVCAMRKGHPLAGKEKLSLDDYLAQTHVHISSRRNGLGYVDLALGKMGIQRKIALRSQHYLMASQVLQQTDMVMTVPERFARRHDLHAFLLPVNDVPPVETHLYWHESTDQDPANRWMREQMIELCQQVTAHEKKLDKV				NA	NA	NA	NA	NA
D1-35_00946	1230	bbsG		(R)-benzylsuccinyl-CoA dehydrogenase	ATGGATTTTGCCTACTCCCCCAAGGTTCAGGAACTGCGTGAGCGCGTCACGGCGTTCATGGATGCCTATGTCTACCCGGCCGAGGCCGTGTTCGAACGGCAAGTGGCTGAAGACGACCGTTGGCAGCCGACTGCAATCATGGAGGAGCTCAAGGCCAAGGCCAAAGCCGAAGGGTTGTGGAATCTGTTCCTGCCCGAGTCCGAGTTGGGGGCCGGCCTGACCAACCTGGAATATGCACCGCTGGCGGAGATCATGGGGCGTTCGCTGCTGGGCCCGGAGCCGTTCAACTGTTCGGCGCCGGACACCGGCAACATGGAAGTGCTGGTGCGTTACGCCAACGAGGAACAAAAGCAGCGCTGGCTCGAACCGCTGCTGCGGGGCGAGATTCGTTCGGCCTTTGCCATGACCGAACCGGACGTTGCTTCGTCGGACGCCACCAACATGGCTGCCCGTGCCGAGCGTGACGGCGATCAATGGGTCATCAACGGCAAGAAATGGTGGACCTCGGGCGCCTGCGACCCACGCTGCAAGATCCTGATCTTCATGGGCCTGAGCAATCCCGACGCACCTCGTCACGCCCAGCACTCGATGATCCTGGTGCCGGTGGACACCCCCGGAGTAAAGATCGTCCGGCCGCTACCGGTGTTCGGCTATGACGATGCACCTCACGGCCACGCCGAAGTGCTGTTCGATAACGTGCGGGTGCCGTACGAAAACGTCTTGCTGGGCGAAGGACGCGGCTTTGAAATTGCCCAGGGTCGCCTCGGGCCGGGCCGGATTCACCACTGCATGCGCTCCATCGGCATGGCCGAGCGTGCCTTGGAATTGATGTGCCAGCGCGCCATCAGTCGAACCGCTTTTGGCCAGCCGCTGGCGCGCCTGGGTGGCAACATCGACAAGATCGCCGACTCGCGAATGGAAATCGACATGGCGCGCCTGCTGACCTTGAAGGCGGCGTACATGATGGACACGGTCGGCAATAAAGTGGCCAAAAGCGAAATCGCCCAGATCAAGGTCGTCGCGCCGAACGTGGCCTTGAAAGTCATTGATCGGGCGATCCAGATCCACGGCGGGGCCGGGGTCTCCAACGATTTCCCGCTGGCCTACATGTATGCCATGCAGCGCACGCTGCGCCTGGCCGATGGTCCGGATGAGGTCCATCGGGCGGCTATCGGCAAGTTCGAGATCGGCAAGTATGTGCCCAAGGAGATGTTGCGTAGCGGGCGCTGA	MDFAYSPKVQELRERVTAFMDAYVYPAEAVFERQVAEDDRWQPTAIMEELKAKAKAEGLWNLFLPESELGAGLTNLEYAPLAEIMGRSLLGPEPFNCSAPDTGNMEVLVRYANEEQKQRWLEPLLRGEIRSAFAMTEPDVASSDATNMAARAERDGDQWVINGKKWWTSGACDPRCKILIFMGLSNPDAPRHAQHSMILVPVDTPGVKIVRPLPVFGYDDAPHGHAEVLFDNVRVPYENVLLGEGRGFEIAQGRLGPGRIHHCMRSIGMAERALELMCQRAISRTAFGQPLARLGGNIDKIADSRMEIDMARLLTLKAAYMMDTVGNKVAKSEIAQIKVVAPNVALKVIDRAIQIHGGAGVSNDFPLAYMYAMQRTLRLADGPDEVHRAAIGKFEIGKYVPKEMLRSGR	PGPT0008385_3077	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
D1-35_00947	870		COG2513	Oxaloacetate decarboxylase	ATGTCCAGGCTTTCCCATCAAGATTTGCGTCGAAATTTCCGCCAATTGCTGGCTTCCACAAATTGCTACCACACAGCTTCAGTGTTCGATCCGATGTCGGCGCGCATTGCCGCCGACCTGGGTTTCGAGGTAGGCATCCTTGGAGGCTCGGTGGCGTCACTGCAAGTATTGGGCGCGCCGGATTTTGCCCTGATCACCCTCAGCGAATTTGCCGAGCAGGCCACCCGCATCGGACGCGTCGCGCAACTACCGGTGATCGCCGACGCCGACCACGGCTACGGCAACGCACTGAACGTGATGCGTACCATCATCGAGCTCGAACGCGCCGGCGTGGCGGCGCTGACGATTGAAGACACCTTGCTGCCGGCACAATTTGGCCGCAAATCCACCGACCTGATCAGCGTGGCCGAAGGCGTCGGCAAGATTCGCGCGGCTCTGGAGGCGCGGGTCGACTCGGAAATGGCCATCGTCGCCCGCACGAACGCGGGGATTCTGCCGGTCCAGGAGATCATCAGTCGCACCCGGCAATACGAGCGCGCCGGCGCGGACGGCATTTGCATGGTAGGCGTGCAGGATTTCGAGCATCTGGAGCAGATCAGCGAGAACCTGAACGTACCGCTGATGCTCGTGACTTATGGCAACCCGCTGCTGCGCGACGATAAACGCCTGGCTGAACTGGGCGTGAGAATCACGATTGACGGCCACGGCGCGTATTTCGCCGCGATCAAGGCTACCTACGACAGCCTGCGGGAACAGCGTCAGATCTTCACCCAGGCATCAGACCTCAGCGCCACGGAACTGACCCACACCTACACCCAGCCCGAGGAATATATCCGCTGGGCCGAGGAGTATATGAGCGTCAAGGAGTGA	MSRLSHQDLRRNFRQLLASTNCYHTASVFDPMSARIAADLGFEVGILGGSVASLQVLGAPDFALITLSEFAEQATRIGRVAQLPVIADADHGYGNALNVMRTIIELERAGVAALTIEDTLLPAQFGRKSTDLISVAEGVGKIRAALEARVDSEMAIVARTNAGILPVQEIISRTRQYERAGADGICMVGVQDFEHLEQISENLNVPLMLVTYGNPLLRDDKRLAELGVRITIDGHGAYFAAIKATYDSLREQRQIFTQASDLSATELTHTYTQPEEYIRWAEEYMSVKE	PGPT0001930_62	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001930-bcpA-K01003	NA	NA
D1-35_00948	1035	aruG_2	COG3138	Arginine N-succinyltransferase subunit beta	GTGGTAGTCCGCCCGGTTGCCCTGACCGACTTACCCGCATTGATGGACCTCGCCCGTTGCGCCGGCCCTGGGTTCACCAGCCTGCCGGCCAACGAGGAGCGCCTGGCGCACCGGGTACGCTGGGCCCAGCGCACCTTCGCCGGACAGGTCGAACGGGCGGACGCCGACTATCTGTTCGTGCTTGAAGACGATGACCGTCAGGTAGTGGGTATCAGCGCTCTCACTGGCGCAATCGGACTGCGCGAGCCCTGGTACAACTATCGGCTCGGGGTCACGGTCAGCTCGGCGCCCGAGCTGGGCATCCAGCGGCATATTCCGACGCTGTTCCTCAGTAACGAGATGACCGGGCAGTCGGAAATCTGCTCGTTGTTTCTTCATCCCCAGCACCGTCGCGGCCATAACGGGCGCCTGCTGTCCCTGGCGCGCCTGCTGTTCGTGGCGGAGTTTTCCGGGCTGTTTGGCGATAAGCTGATCGCCGAATTACGCGGCCACGCCGATGAACAAGGTTGCTCGCCGTTCTGGGACAGCCTGGGACGACACTTTTTCCAGAAGGACTTCAGCCACGCCGACCAGTTGTCCAGCATGGGCAACAAATCCTTCATCGCCGAGCTGATGCCCCGCCAACCGCTGTACACCTGCCTGCTCACCGAGCAGGCCCAGGCCGTGATCGGCAAGGCTCACCCCAACACCGAACCGGCCTTGAAGATCCTTGGCGATGAGGGTTTTTCCCATAAAGGGTACGTGGATATCTTTGACGCCGGCCCGGTGATCGAAGCGCCGGTATCGAACATCCGCAGCGTCCGCGACAGCCAGTCGCTGACGCTGACCATAGGCACCCCGGACGAACGGGCGCCGGGCTGGCTGATTCATAACCGGCGCCTGGAGAACTGCCGCGTCACCAGCGCCCGGGGGCACCTGCACGGCCAGGGCCTGGTCGTCGATCGCCTGACCGCCAAACGCCTGCAAGTACAACCGGGTGACACGGTGCGCGCCGTGCTGCTGTTCAAACAGGATCGCCAGGCGGTGGCGGCATAG	MVVRPVALTDLPALMDLARCAGPGFTSLPANEERLAHRVRWAQRTFAGQVERADADYLFVLEDDDRQVVGISALTGAIGLREPWYNYRLGVTVSSAPELGIQRHIPTLFLSNEMTGQSEICSLFLHPQHRRGHNGRLLSLARLLFVAEFSGLFGDKLIAELRGHADEQGCSPFWDSLGRHFFQKDFSHADQLSSMGNKSFIAELMPRQPLYTCLLTEQAQAVIGKAHPNTEPALKILGDEGFSHKGYVDIFDAGPVIEAPVSNIRSVRDSQSLTLTIGTPDERAPGWLIHNRRLENCRVTSARGHLHGQGLVVDRLTAKRLQVQPGDTVRAVLLFKQDRQAVAA	PGPT0020090_427	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020090-astA-K00673	NA	NA
D1-35_00949	1017	astA_2	COG3138	Arginine N-succinyltransferase subunit alpha	ATGCTGGCTTTACGTCCAGTTCAGTTAACCGATTTGCCGCAGTTGCAGCAGCTGGCCCGCGACAGCCTGGTGGGCGTCACCTCGCTTCCCGACGACACGGATCGCCTGCGAGACAGAATCCTCAGCTCATGCGCCTCGTTCGAAACCGACGTGCAACGCCCCGGTGCGCAGAATTACTTTTTTGTCCTGCAGGACCTGGTGTCGAGCCGCCTGCTGGGCTGCTCGGAAATCGTTGCGGCCACCGGTTGCGACGAGCCGTTCTACAGCCTGCGCAACCGGCCGTTTTCCAGCGAGTCCCGGGAGTTGAACATCCAGCATGGCGTACCGGCACTGTCGCTGTGCCAGGACCTGAATGGCCAGACGCTGCTGCGCGGCTTTCATATCGACGCCGCACACGTGCACACGCCGCAATCGCAATTGTTGTCCCGCGCCCGGCTGATGTTTGTCGGCGCCCATCCCCAACGCTTTGCCGACTCGGTGATCACAGAGATCGTCGGGTACAGCAGCAAGGAAGGCCATTCGCCCTTCTGGGATGCCATCGGTCAGCACTTTTTCGACCTGTCCTACACCGAAGCCGAACGATTGTGCGGCCTGCAGAGTCGGACCTTTCTCGCCGACCTGATGCCGCAATACCCGATCTATGTCCCTATGTTGCCGCCCCAGGCCCAGGCTTGTATCGGCCGGATCCACCCCGACGGCCAGGAAGCCTTCGACATTCTCGAACGCGAGGGTTTCGAAACCAATAGCTACGTGGACATCTTTGACGGGGGGCCGACGATGCACGCCCGGGTCGCGAACATCCGCTCGATCATTCACAGTCGCTCGGCCGTCGTGCGTCCGAGCCAGCAGGTTGACGCCACGGGGCGCTACCTGGTGAGTAATGATGGCCTGGGTAGTTACCGGGCCATCATCGCCGACCTGGACCTTGACGCCGAAGGCTTCGTGCGCCTGTCCCCTGACATGCTGGCAGCGCTTGAAGTTGCCGACGGTGACCGGGTCCGGGTGGTCAGCCTATGA	MLALRPVQLTDLPQLQQLARDSLVGVTSLPDDTDRLRDRILSSCASFETDVQRPGAQNYFFVLQDLVSSRLLGCSEIVAATGCDEPFYSLRNRPFSSESRELNIQHGVPALSLCQDLNGQTLLRGFHIDAAHVHTPQSQLLSRARLMFVGAHPQRFADSVITEIVGYSSKEGHSPFWDAIGQHFFDLSYTEAERLCGLQSRTFLADLMPQYPIYVPMLPPQAQACIGRIHPDGQEAFDILEREGFETNSYVDIFDGGPTMHARVANIRSIIHSRSAVVRPSQQVDATGRYLVSNDGLGSYRAIIADLDLDAEGFVRLSPDMLAALEVADGDRVRVVSL	PGPT0020090_1075	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020090-astA-K00673	NA	NA
D1-35_00950	753			hypothetical protein	ATGCGTGAATCCATTGAATGTGCCGAATCGGGCCTCTATACCAAGCCTGCTTTCCGGTTGCTGCGTGAAGACTCCGAGCATCCATTGTTGCTGGTTTGCGAACATGCCAGCCGCTACATTCCTGATGCACTGAACGACCTGGGCCTGGATGAAACCGCCGCTCAGGAACATATTGCCTGGGACATCGGTGCGCTGGCCCTGGCCGAGCGGCTGTCCGAAACCCTCGGCGCCACCTTGCTGTCGGCCAACTATTCAAGGTTGTTGATCGACCTGAACCGTCCGCTTCACGTCGCCGACAGCATTCCGGCGCAAAGCGAGATCTACCAGATTCCTGGCAACCAGTCCTTGGATGACGCTACGCGCGCGTATCGCCAACGGTGCCTCTTCCATCCATTCCATGATCAATTGCGCGCCTTGATCGACCAACGCCTGGCCGACAAGCGGACCGTGCGAGTGGTCGGCATCCACAGTTTCACCCCGGTGTTCTACGGCCAGCCGCGGGCGCTTGAGGCCGGAGTATTGTTTGGCGAAGCCCGGGAATATGCCCAGCGCATCGTCGGCGCGTTGGCGCGCCATTCGCTGCGGGCCGCCGGCAATCAGCCCTATAAGGTCAGCCCGTTGAGTGACATGACGGTTCCAGTCCACGGCGACGGCCGCGGCCTGGATTCGGTGCTGATCGAAGTACGCAACGACCTGTTGCGCAGTTCCGAATCGGTGCGGACCTGGAGCGCCTATCTCGCGCCGCTGCTGTAA	MRESIECAESGLYTKPAFRLLREDSEHPLLLVCEHASRYIPDALNDLGLDETAAQEHIAWDIGALALAERLSETLGATLLSANYSRLLIDLNRPLHVADSIPAQSEIYQIPGNQSLDDATRAYRQRCLFHPFHDQLRALIDQRLADKRTVRVVGIHSFTPVFYGQPRALEAGVLFGEAREYAQRIVGALARHSLRAAGNQPYKVSPLSDMTVPVHGDGRGLDSVLIEVRNDLLRSSESVRTWSAYLAPLL				NA	NA	NA	NA	NA
D1-35_00951	150			hypothetical protein	ATGCCTCTCTTCAGAGACCCGATCACTGATCCGTGCCTGGCTATGATGCTTTCGGTACACAAGGTCATATGTGCCCTGTATGGCCGGGCGCCGCCCGACGCCTTGCCCCAGGCGCTGTCACCAGCCGAACTTTGTGAGCACTATGCGTGA	MPLFRDPITDPCLAMMLSVHKVICALYGRAPPDALPQALSPAELCEHYA				NA	NA	NA	NA	NA
D1-35_00952	579			hypothetical protein	GTGCAAGCCACTCGCCTTACCCTGATCTGCCATGCCCGCACCGCCGCCCAGAAAGATGCACGTTTCGGCTTGGACGAACCGCTGGACGCCGGCTGGCTGGCGACGCGTGCCGAGATCGGCCATGAATACCGGAACGTCCGCCGCCTGCTCTGCGGGCCAGAGCTGCGCACCCGCCAGACCGCGGCGCTGTTGGGCGACGATCCGCAGGTGGTCCAGGCGTTGGCCGATTGTGATTTCGGGCGTTGGCGCGGGATGTCTGTCGATGAATTGCTCAAGACGGAGCCGGAATGCCTTCAAGCCTGGCGTGACGACCCGGACGCCGCGCCCCACGGCGGCGAGTCCGTCAGCGGAATATGTCGCCGGGTCGGCGACTGGCTGACGACGCTGCAACACACTCCGGGCCACTGGCTGGCCGTTACCCATCCGTTCGTGATTCGCGCTGCCCTGCTGAACGTACTGGGTTGCCCGCTGGGCATGTTCCACCGGATCGACATCGAATCGCTTTCCGTCACTGAGTTGCGTTTCAACGGGGTATGGCGATTTCGCACCCAGGGGCCTGGCCGGGAGCCGCAAGCATGA	MQATRLTLICHARTAAQKDARFGLDEPLDAGWLATRAEIGHEYRNVRRLLCGPELRTRQTAALLGDDPQVVQALADCDFGRWRGMSVDELLKTEPECLQAWRDDPDAAPHGGESVSGICRRVGDWLTTLQHTPGHWLAVTHPFVIRAALLNVLGCPLGMFHRIDIESLSVTELRFNGVWRFRTQGPGREPQA				NA	NA	NA	NA	NA
D1-35_00953	756			hypothetical protein	ATGAAGAGATTGTCGGTGATAGGCATCGGTGCCGGTGATCCCGATCACCTGACGATGCAAGCGGTGAAGGCCCTGAATCAGGTCGATGTGTTTTTCCTGATGGACAAAGGGCCCGGCAAGGACGCGCTGTTGGACCTGCGTCGCGACATCTGTCGCCGCTACATCACTGATCGCACCTACCGTTTTGTCGAAGCCGGCAGTCCCGAGCGCCAGCGCGAGGATCTGGACTACACGGCCAGTGTCGAGGCACTTAACCGGGCGAAGCAGGCAACGTTCGAAAGATTGATCAATGAGCAATTGTCTGACGGGCAGCGTGGCGGTTTCCTGGTGTGGGGCGACCCATCGCTGTACGACAGCACCCTGCGCATCCTGCAGGCGATCCTTGATTCGGGGCGCTGCGTCTTCGAGTTCGATGTCGTTCCGGGGATTACCAGCGTCCAGGCCCTCGCGGCGCGACACAAGGTGCCGTTGAACAGTATCGGCGGCTCGCTGGAGATCACCACGGGCCGCAGGCTGGCGGCGGGGCGGGTTGGCGATGCCGCGAGCACGGTGGTGATGCTTGATGCCGAGGATGCGTATCGCCAGGTCAGCGATCCTGATACGCAGATCTATTGGGGCGCCTACGTGGGAATGGCGGATGAATTGCTCATTGCCGGACGGCTGGGGGACGTGGCCGACGACATTGAACGCACCCGCAAGGCGGCGCGACAGGCGAATGGGTGGATCATGGATACGTATTTGTTGCGCAAACCCTGA	MKRLSVIGIGAGDPDHLTMQAVKALNQVDVFFLMDKGPGKDALLDLRRDICRRYITDRTYRFVEAGSPERQREDLDYTASVEALNRAKQATFERLINEQLSDGQRGGFLVWGDPSLYDSTLRILQAILDSGRCVFEFDVVPGITSVQALAARHKVPLNSIGGSLEITTGRRLAAGRVGDAASTVVMLDAEDAYRQVSDPDTQIYWGAYVGMADELLIAGRLGDVADDIERTRKAARQANGWIMDTYLLRKP	PGPT0009265_420	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009265-cobF-K02228	NA	NA
D1-35_00954	960	cdhR_2	COG4977	HTH-type transcriptional regulator CdhR	ATGCAGCCTACCCCTGGCCTCGTCGCGATTCTCGCCTACGACGGACTGTGCACGTTCGAATTCGGCGTCGCCGTCGAGATATTCGGGCTGGCACGGCCCGAGTTTGATTTTCCCTGGTATGAACACCGCATCGTCGCTGTCGACGACGGCCCGATGCGCGCCATGGGCGGCTTCCAGGTATTGGCCGATGGCGGCATGGAACTGCTCGACAGCGCGCGAACCATTATCGTGCCGGGCTGGCGCAGTCGCAGCGAACCGCCCTCCGATGCCCTGCTCCAGGCCTTGCGACGAGCCCATGCCCGTGGCGCCCGCTTGTTGTCGATCTGCTCGGGGGCTTTTGTCCTGGCGGCCACCGGGCTGCTCGACGGCTTGGGCGCCACCACGCATTGGCGCTACACCGACGAACTCGCCGACAGCTACCCGACCATCGAAGTCGATCCCGATGTACTTTATGTCGACTCCGGCCAGATCATCACCTCGGCTGGCAGCGCGGCCGGCATCGATGCCTGCCTGCACTTGGTGGCGCGGGATTTCGGCGCCCAGGTCGCCAATGCCGTGGCGCGCCGGCTGGTCATGCCGACCCAACGCACCGGTGGCCAGGCGCAGTTCATTCCCTCGCCGGTCAGCCGCACGCCGCGCAGCGATTTGTCCGGCGTCATGCAATGGGCCCGGGAACGTCTCCACGAGCCGCTGGGAGTGCGCGACCTGGCCAGTCACGCCGCTATGAGCGAACGGACCTTCCTGCGTCGCTTCACCCAGGCTTGCGGCCTCTCGCCCAAGGCCTGGCTGCAACATGAGCGCCTGGCACGGGCGCGGGAATTGCTGGAAAGCACGCAAGACAACACCGATAACATTGCCCAACTGTGTGGCTATCGTTCGGTGGAAAGTTTCCGGGTAGCGTTTCGCAACGTGGTGGGGCTGGCGCCGTCGGTGTACCGGGAGCGGTTTGGGCGAGGGTGA	MQPTPGLVAILAYDGLCTFEFGVAVEIFGLARPEFDFPWYEHRIVAVDDGPMRAMGGFQVLADGGMELLDSARTIIVPGWRSRSEPPSDALLQALRRAHARGARLLSICSGAFVLAATGLLDGLGATTHWRYTDELADSYPTIEVDPDVLYVDSGQIITSAGSAAGIDACLHLVARDFGAQVANAVARRLVMPTQRTGGQAQFIPSPVSRTPRSDLSGVMQWARERLHEPLGVRDLASHAAMSERTFLRRFTQACGLSPKAWLQHERLARARELLESTQDNTDNIAQLCGYRSVESFRVAFRNVVGLAPSVYRERFGRG	PGPT0014658_5	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014658-ypdC-NA	NA	NA
D1-35_00955	435			hypothetical protein	ATGACCAGCCCTGTTCGCGAAGTGCCTGCCGCCCCGTCCGACATTGCCCTGCAGCATTTCAGCCGGCGTCTGATGTTCGAAACCGATTGTTCCGACGTACGTGCCAGCCAGGACGCCGCTGAGATCGATTTTGTCCTCGTCGATGTGCGCGGGCCGCAGGCCTACGCACGCGGGCACGTGCCCGGGGCGATCAACCTGCCGACCCGCACGCTGACCGCCGAGGCGCTTGCGGCCTATCCCCAGGCCACCCTGTTCGTGGTCTATTGTGCGGGGCCGCATTGCAACGGCGCCAACAAGGCTGCGGTGCGCCTGGCGACCCTGGGATACCCGGTCAAGGAAATGATCGGTGGCGTCATGGGTTGGCTCGACGAAGGTTTCCGCCTGACCGGTTCGGTGGAGCGCGTGGCGGAGCATGCGGTCAGCTGCGATTGTTGA	MTSPVREVPAAPSDIALQHFSRRLMFETDCSDVRASQDAAEIDFVLVDVRGPQAYARGHVPGAINLPTRTLTAEALAAYPQATLFVVYCAGPHCNGANKAAVRLATLGYPVKEMIGGVMGWLDEGFRLTGSVERVAEHAVSCDC				NA	NA	NA	NA	NA
D1-35_00956	780	argT_3	COG0834	Lysine/arginine/ornithine-binding periplasmic protein	ATGAAGAAGCTTGTCATGTTCGGTGCCCTGGCACTGTCCGTACTCTCCCTGTCGGCCGTGGCCGAAGACGCCAAGCCGATCCGCCTCGGGATCGAGGCCGGCTATCCGCCTTTTTCGATGAAGACGCCTGACGGCAAGCTGACCGGCTTCGATGTGGATATCGGCGACGCGCTGTGCGCGCAGATGAAGGTCAAGTGCACCTGGGTCGAGCAAGAGTTCGACGGGCTGATTCCAGCGCTGAAGGTGAGGAAGATCGACGCGGTCCTGTCGTCGATGACCATCACTGATGACCGCAAGAAAAACGTCGACTTCACCATCAAGTACTACCACACCCCGGCGCGTTTCGTGATGAAGGAAGGTACGGACGTCAAGGACCCGCTGACCGAACTCAAGGGTAAGAAAGTCGGCGTGTTGCGCGCCAGTACCCATGACCGCTTCGCGACCGAAGTGCTGGTCCCGGCGGGGATCAACCTGGTGCGCTACAGCTCCCAGCAGGAAGCCAACCTGGACATGGTCGCCGGTCGCCTCGACGCCATGCTGGCCGACTCGGTCAACCTCGACGAAGGTTTCCTGAAAACCGCCGCCGGCAAAGGCTTTGCCTTCGTCGGGCCGACCTATGAAGACGCCAGGTATTTTGGCGGCGGCGCCGGCATCGCGGTGCGCAAGGGTGACAAGGCCCTGGCGGACCAATTCAACGCCGCCATCAGCGAAATCCGCGCCAATGGCACCTACCAGAAAGTGCAGGACAAATATTTCGCTTTTGACGTCTATGGGCATTAA	MKKLVMFGALALSVLSLSAVAEDAKPIRLGIEAGYPPFSMKTPDGKLTGFDVDIGDALCAQMKVKCTWVEQEFDGLIPALKVRKIDAVLSSMTITDDRKKNVDFTIKYYHTPARFVMKEGTDVKDPLTELKGKKVGVLRASTHDRFATEVLVPAGINLVRYSSQQEANLDMVAGRLDAMLADSVNLDEGFLKTAAGKGFAFVGPTYEDARYFGGGAGIAVRKGDKALADQFNAAISEIRANGTYQKVQDKYFAFDVYGH	PGPT0020680_155	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020680-aotJ-K10022	NA	NA
D1-35_00957	1113			hypothetical protein	ATGCAACGCATCGACCATACCCTGCCGTGGAGCCACCTGGGCACGGAGCGCCGGCTCAGCGTGTTTCGTTTCGGCCATGGCCCGCGCAAGGCCTACATCCAGGCCAGCCTGCACGCCGATGAACTACCGGGCATGCGCACGGCATGGGAACTGAAACAGCGGCTCAGCGAACTTGAGTCCCGGGGCCTGCTCAAAGGCGTGATCGAACTGGTGCCGGTGGCCAATCCCATCGGCCTGGACCAGCATCTGCAGAGTGCGCACATGGGGCGTTTCGAGCTGGGCAGCGGGAAAAATTTCAACCGTTCCTTCGTCGAACTCAGCGCCCCGGTGGCGCAGCGCATCGGGGCTCGTCTGGGCGACGATCCGGCTGCCAACGTCACCTTGATCCGGCAAACCATGGCCGAGGTGCTCGACGAACTACCCGCGCCACCTTCGCAACTCGAAGCCATGCATCGGCTGTTGCTTCGCCATGCCTGCGACGCCGACATCACGCTCGACCTGCACTGCGATTTCGAGGCCACGATCCACTTGTACGCGTTGCCGCAACAATGGCCGCAGTGGCGCTCGCTGGCCGCGCGGCTGAGGGCCGGTGTGGCGTTGTTGTGCGAAGATTCCGGCGGCAGCTCGTTCGATGAGTCCTGTTCCACGCCCTGGTTGCGCCTGGCGAGGATCTTTCCGCAAGCGGCCATTCCGGCGGCCAACCTGGCGACGACGCTGGAATTGGGCAGCATGGGCGACACCCGGGTGGAGCAGGCCCGGGCGAATTGCGAGGCCATCCTCGGATTTCTCGCCGAACAGGGACTCATCGGCGGTGACTGGCCGGCCGCGCCGGCGCAATGCTGCGAGGGTTTTCCGTTCGAAGGCACCGAATACCTGTTTGCCCCGCACCATGGCGTGGTGAGCTTCCTGCGCGAAGCTGGCGAGTGGGTGGAGCGGGGCGATGCTTTGTTCGAGGTGGTCGATCCGTTGAACGACCGAGTGACCACGGTCCGCGCCGGCACCAGCGGCGTATTGTTCGCCCTGGATCGCGGGCGCTATACCCAGCCGGGCATCTGGCAGGCGAAAGTCGCCGGGCGTGAGCCGATTCGGGCGGGGAAATTGATCAACGACTGA	MQRIDHTLPWSHLGTERRLSVFRFGHGPRKAYIQASLHADELPGMRTAWELKQRLSELESRGLLKGVIELVPVANPIGLDQHLQSAHMGRFELGSGKNFNRSFVELSAPVAQRIGARLGDDPAANVTLIRQTMAEVLDELPAPPSQLEAMHRLLLRHACDADITLDLHCDFEATIHLYALPQQWPQWRSLAARLRAGVALLCEDSGGSSFDESCSTPWLRLARIFPQAAIPAANLATTLELGSMGDTRVEQARANCEAILGFLAEQGLIGGDWPAAPAQCCEGFPFEGTEYLFAPHHGVVSFLREAGEWVERGDALFEVVDPLNDRVTTVRAGTSGVLFALDRGRYTQPGIWQAKVAGREPIRAGKLIND				NA	NA	NA	NA	NA
D1-35_00958	717	estB_1	COG0400	Carboxylesterase 2	ATGTTCAAAGCGTTCGCCCTGTTTCTGCTGCTGGTGTCTGCCGGAGCGCAGGCCCAACCGTCGCTGCATACCGACTTGCCACTCAACTACCTGGCCCGCGCCGATGAACAGGCCAGGAACCGGCCGCTGGTGATTTTCCTGCACGGTTCGGGCAGCAACGAAGAAGACCTGCTGACGCTCGCCGACGAACTGCCCAAGCACTACAACTACCTTTCGGTGCGGGCACCCAAGTCGATGGAGCCGGGGCGCTACCAATGGTTTGCCAGGAAAGGCGAGGGCGCCTATGAAGGTGACACGTCAGACCTGAAGGCCAGCGGCCAGATGCTCCTGGAATTCATCGAGAAGGCTCGGGCCAAATACCCGACCGATGCGAGCAACGTCTATCTGGTGGGTTTCAGTCAAGGCGCGATGATGAGCTACGAGGTAGCCCTGAGACACCCCGAAGCCGTTGGCGGCATTGCCGCGATGGGCGGGCGAGTTCTTTCGGTGTTGCGCGCCGAACTGACGCCCGATGAATCGCGCCGGGCGCTGGCGGTGTTCATAGGCCACGGCACGGTGGACCCGATCATTCCCTACCACGACGGTACCGACGCTGACTCGTTCCTCAAGACCCTGGCCCTGGAACCGGAATTCCACGCGTATCCGGGGCTTGGTCACAATATCAGCGCGCAGGAAGTGAAGGACCTGCGGGCCTGGCTGGAGCGGCTCAACCCTTGA	MFKAFALFLLLVSAGAQAQPSLHTDLPLNYLARADEQARNRPLVIFLHGSGSNEEDLLTLADELPKHYNYLSVRAPKSMEPGRYQWFARKGEGAYEGDTSDLKASGQMLLEFIEKARAKYPTDASNVYLVGFSQGAMMSYEVALRHPEAVGGIAAMGGRVLSVLRAELTPDESRRALAVFIGHGTVDPIIPYHDGTDADSFLKTLALEPEFHAYPGLGHNISAQEVKDLRAWLERLNP	PGPT0028515_506	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
D1-35_00959	591			hypothetical protein	ATGTCATTGCTGAGTAAACCAGCCGCCGCCCTGCTACTGGCAGCGATCACCAGCCTGGTCGCATTCCCGGCCCTTGCCGCCCAGCCCAAGAAACCCATGGCGCAAGCACCGGCCCAGAAGGTTTCGCTGCTGGGCGGCAAGTTCAGCTTCACCCTCCCCCCGGGCTTCACGGCGACGCCCTTGTCCGCAGGGGACGTGGCGCAGGGAACCGCCGGGGCGAGCGGTACGATGTACAGCAATGCCTCCCGCAAAACGGTGGTGATCACGGCGGAGAACACCCTGGTTGACGGGGCGAATGTAAACGATAACGACGCAGCCTTCCTGGATACGGCCTTCGCCGATTTCGCCGTCCAGAAGACCAAGGCCCTGCCGGATGCCAAAATCCTCGGGGAAAAAAGCCTGACCCTGAAAACCACCGGCCTCGGCCTGCGCCAGCTCGACACCCGGGCCACCCAAGGTGGCGGGCCCACGCTGGACACTACCCTGATAGGGGCTTCCGGCACGCGCATGGCCGTGGTGCAGATCATCTCCAGGGCGAGCGACCAGGCCGGTCATGAGGCATTGGTCAAGCAGATCGCCAGCGGGAAGTGA	MSLLSKPAAALLLAAITSLVAFPALAAQPKKPMAQAPAQKVSLLGGKFSFTLPPGFTATPLSAGDVAQGTAGASGTMYSNASRKTVVITAENTLVDGANVNDNDAAFLDTAFADFAVQKTKALPDAKILGEKSLTLKTTGLGLRQLDTRATQGGGPTLDTTLIGASGTRMAVVQIISRASDQAGHEALVKQIASGK				NA	NA	NA	NA	NA
D1-35_00960	945	dmlR_3		HTH-type transcriptional regulator DmlR	ATGGAAACCCTCGCCAACCTCGAATGTTTCGTGCGCAGTGCCGAGACCGGCAGTTTTTCCGCTGCCGCCAGGCTGCTGGCGCTGACGCCCGCCGCCGTCAGCCGCAACGTGGCGATGCTGGAGCGAAACCTGGGTGTGCGCCTGTTCCAGCGTTCGACCCGCAAGCTTTCCCTGACCGAAACCGGCGAACATTTCCTCGCCAGCATCGGCGGCAACCTTCAAGCCCTGCAGGTTGCGATTGGCGCGGTGAGCGCCGAACGTGGCGAGCCGGCCGGCGTGTTGCGGGTCAGCCTCTCCCCCAGCTTCGGCATGGCTCACGTCTTGCCGTTAATGCCTGCTTTCCTCGGTCGATATCCCCTGATCCGGCCGGAATGGCATTTCGAAAATCGTCGGGTCGACTTGATTGCCGAGGGTTTCGACGCGGCGATTGGAGGCGGTTTCGAATTGACCCCCGGCGTGGTGTCCCGGACCTTGGCGCCAGCCCACCTGATTGCCGTCGCCAGCCCGCAGTACCTGGCCGTTCATGCCCAGCCCCAGCATCCGGAGCAATTCGCCAATCACGCTAACATCGTCCTGCGCTCCAGCCTGACCGGCCGTGTGCGCCAACCGATGATGCGCAACAGCGCCGGGCTCGAGTGCGCGGTGTCGTTGCCGGAGTCGATCACCTTCAACGATCCGGTCGCGATGCGTGAATCTGCCTTGCTCGGCCTGGGCGTTGCGCTGTTGACGGTGCCGGATGTCTTGCCCTGGCTGGAGCGCGGCGAGCTGGTGCGGCTGCTGCCGCAATGGTATGTCGACCTTGGCGCGATCTCGCTCTATTACCCGAGTCGTACGCTGATGCCCGCCAAGACCCGGGTCTTTGTCGACTTCATTACCGAGCACTTCGAACGTCAGGCGCTGGCGCGGCGCTTCAGTGCCGTCGGTGTTAACGTATCGAACCCATGA	METLANLECFVRSAETGSFSAAARLLALTPAAVSRNVAMLERNLGVRLFQRSTRKLSLTETGEHFLASIGGNLQALQVAIGAVSAERGEPAGVLRVSLSPSFGMAHVLPLMPAFLGRYPLIRPEWHFENRRVDLIAEGFDAAIGGGFELTPGVVSRTLAPAHLIAVASPQYLAVHAQPQHPEQFANHANIVLRSSLTGRVRQPMMRNSAGLECAVSLPESITFNDPVAMRESALLGLGVALLTVPDVLPWLERGELVRLLPQWYVDLGAISLYYPSRTLMPAKTRVFVDFITEHFERQALARRFSAVGVNVSNP				NA	NA	NA	NA	NA
D1-35_00961	603			hypothetical protein	ATGAACACCATCGGCATTATCGGCGCTGGCGCCATCGGCAGCGCATTCGCCCGGGCCCTGGCTCGCCAAGACATCAATGTGGTCATTTCCAACAGTCGCGGGCCGGAAAGCCTGACCGAGCTGGTCGCCGAACTGGGCCCGACCGTACGTGCCGGCACTGTGCAGGAAGCTGCCGCGCAACCCATGGTGCTGGTGGCCGTCAATTGGCAGAAGTTGCCGCAAGCCCTGGCAGGTTTGCCGGATTTCGCCGGGCGGATCGTGATCGACGCCAACAATGCCATCAAGGTGCCGGAATTCCAGGCGATCGATCTGCAAGGACGGGCCTCCACCGAGGTGTTCAGCGAGTGGGTGCCCGGCGCGCGGGTGGTCAAGGCATTCAACCATATGCTGGCGAAATTGCTCGAGGCTGATCCGGCGGCCGAGGGTGGCAAGCGTGTGCTGTTCCTGACCGGCGATGATCAACAGGCGCGTGTGGAAGTGGCCGGGTTGATCGAGCGGCTGGGATTCTTCGCCGTGGACCTCGGCCCGCTGAGCGCCGGAGCGCACCTGACGCAATTCCCCGGCGGCCCGTTGCCCGTGTTGAATCTGGTCAAGTTCGACTGA	MNTIGIIGAGAIGSAFARALARQDINVVISNSRGPESLTELVAELGPTVRAGTVQEAAAQPMVLVAVNWQKLPQALAGLPDFAGRIVIDANNAIKVPEFQAIDLQGRASTEVFSEWVPGARVVKAFNHMLAKLLEADPAAEGGKRVLFLTGDDQQARVEVAGLIERLGFFAVDLGPLSAGAHLTQFPGGPLPVLNLVKFD				NA	NA	NA	NA	NA
D1-35_00962	936	dmlR_4		HTH-type transcriptional regulator DmlR	ATGCACGGTCTTGATGAACTGGGTTTCAAGGCACTCCGATTGTTCGTCGCGGTGCTCGATCTCGGCAGCTTCTCGGAAGTCGCGCGGCGCGAGGGGCTGGCGCCTTCCTCGATTTCCCGGCAGATCCAACTGATGGAGCAGGCGCTGAACCAGCAGTTGCTGTATCGCCATACCCGCGCCGTTTCGCCCACCGAAGCCGGCCGCCTGCTCGGGCACCATGCACGCTTGCTGCTGGTGCAATTGGAGGAAGCCGAACAAGCCTTGCAGGAACAGCGCAGCGAACCGGCCGGACTCGTGCGGATCAACGCCCCGGTAGTCTTCGGACAGCGCCACCTGACGCCCTGGCTGGGACAACTGTGCGAGCGCTACCCGAAGCTGCAGCTGGATATCCAGCAGACCGACAGTTACGTCGACCCGCTGCAGGAAGGTGCCGATCTGCTCTTTCGCATCGGCTCGTTGCATGACTCCAGTATGCAAGCGCGGATCATCGCGCCGCACCGTTTCCAGATCGCGGCGAGCCCCGCCTACCTGGCCCGCCACGGCGTTCCACAAGAACCCGAAGACCTGGCGGCCCATCAGTGCCTGGCCTACAAAGGCGTAGCCGGGCAACAGCGCTGGTTTTTCCGCAAGCCGGGTCAAGCCTGGATACGCTACAGCGTGAGCGGGCCGATCACCGGCAACCACGCCGACACCCTGACCCAGGCCGCCGAACAAGGCCTGGGCCTGGTGATGTTTCCGTCATGGCTGATCGGCGAAGCCGTGCGCAACGGCACGCTGGTGCCGGTCCTGGGCGATTACGAAGCGTCCAACAGCCTAGAACCCCAGCAAATCGCCATCCTCTGGCCCGGCAGCCGACGCCTGTCAGTGAAAGTGCGCACGGTGATCGATTTTTTCCTCGAGTGTTTCGGCGAAGTGCCCTACTGGGATCGTCCTTGA	MHGLDELGFKALRLFVAVLDLGSFSEVARREGLAPSSISRQIQLMEQALNQQLLYRHTRAVSPTEAGRLLGHHARLLLVQLEEAEQALQEQRSEPAGLVRINAPVVFGQRHLTPWLGQLCERYPKLQLDIQQTDSYVDPLQEGADLLFRIGSLHDSSMQARIIAPHRFQIAASPAYLARHGVPQEPEDLAAHQCLAYKGVAGQQRWFFRKPGQAWIRYSVSGPITGNHADTLTQAAEQGLGLVMFPSWLIGEAVRNGTLVPVLGDYEASNSLEPQQIAILWPGSRRLSVKVRTVIDFFLECFGEVPYWDRP	PGPT0028940_383	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
D1-35_00963	498			hypothetical protein	ATGCAATCAACATCCACCCCCTCCGCCGCAGCGGTAGCGGATGCCGCGCCACCCCGGACTTTCCTGCGCTGGCTCCTGCTACCCCTGGTGATCCTGGCGGGCATGGGGCTATCGGTGGAGGCCGGCCTGCTCGGGCCGCTTGGTGTCCAGGTCGGTCATCTGTGGGCAACGTTGAGCATCTTTGGCGTTGGCGCGGCGCTGTTGTTCCTGCTGTTGTTGCTCAGCGGTCCGCAACGAGGCCCGGCCCTGAGCGAACTGCCGCGCTGGCAATTGATCGGTGGCTTCCTGGGGCCGGTCTACGTGGTGGTACTGACCCTCGCCACCCCGCACATCGGCATTGCCATGACCATGATCGCGATTCTCTCCGGCCAGGTTGGCAAAAGCGTGCTGATCGACCATTTCGGCTGGTTCGGCGCGAGCCGCAAGCGTGTCAACCGCGAGCGCTGGCTGGCGTTGGCGTTGATTGTCGTGGCCCTTGTCCTGATTGCCCGAGGTTGA	MQSTSTPSAAAVADAAPPRTFLRWLLLPLVILAGMGLSVEAGLLGPLGVQVGHLWATLSIFGVGAALLFLLLLLSGPQRGPALSELPRWQLIGGFLGPVYVVVLTLATPHIGIAMTMIAILSGQVGKSVLIDHFGWFGASRKRVNRERWLALALIVVALVLIARG	PGPT0009795_652	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936	NA	NA
D1-35_00964	453			hypothetical protein	ATGAGCGTGATCCTGTTATTGCTGGTGGTTGTCGCCGCCGGCGCGGTATTGAGCGTGCAGGCGGCCATCAACGGGCGTCTGGGCGAGACGGTGGGCGTACTGCGCAGCAGTCTGCTGACCTTCGCGGTCGGCACGGTGGTCACCGGGTTGTTGATCGTGTTTTTCGAGCCGGCCCATGCGGTAAGCCTGTTGGACGTGCCGAAATGGCAGCTCAGCGGCGCATTGTTTGGTGTGGTGTACATGATCGTGATGGTCGGCGCGGTGCCGAGAGTCGGCACAGCCGTGGCAACCGTCGCGGTCATCGTCGGGCAACTTGCCATGGGCATGCTGATCGACAACTTCGGCTGGCTGGGCAATCCACCTGTCGAACTGTCCGCCAGCCGCTTGTTGGCCATGGCCTGCCTGGCACTGGCGCTGGTGTTCATGTATCGCAGCAGTACGCGGCAGACCTGA	MSVILLLLVVVAAGAVLSVQAAINGRLGETVGVLRSSLLTFAVGTVVTGLLIVFFEPAHAVSLLDVPKWQLSGALFGVVYMIVMVGAVPRVGTAVATVAVIVGQLAMGMLIDNFGWLGNPPVELSASRLLAMACLALALVFMYRSSTRQT	PGPT0009795_1326	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936	NA	NA
D1-35_00965	279			hypothetical protein	ATGGATTTGAACCCACGCGTGGACACCCACCTCGATTACGGCCTCGACACGCTGTTCGGACGCGAAACCAAAAGCGTCGACTGCCAGTTCGATGTCAAGCGCCTCGACGACGGCGAGCCGCCATGGTTCGCTCTGCATGTACGCCCACCGCTGCCCGAAGACCTGGCAAAAGCCCAGATCGTGGTGTTCAGCGTCGAAGGCCGGCGCATCAGCGGCATTGTCCGACGTACCGAGCGCCTGGCCGATGACAGCCTGCAACTGGACGTCGAACCGGAGTGA	MDLNPRVDTHLDYGLDTLFGRETKSVDCQFDVKRLDDGEPPWFALHVRPPLPEDLAKAQIVVFSVEGRRISGIVRRTERLADDSLQLDVEPE				NA	NA	NA	NA	NA
D1-35_00966	1035	selD	COG0709	Selenide, water dikinase	ATGAGCGAGCCGATTCGCCTGACCCAGTACAGCCACGGTGCCGGTTGCGGCTGCAAGATTTCGCCCCAGGTGCTGGAAGTGATCCTGGCCGGCAGCGGTGCGCAAAACCTTGATCCCAAGCTGTGGGTCGGGAACGCTTCCCGGGACGATGCGGCGGTCTACGCCATCGACGAGGAGCGCGGCGTGGTCTCGACCACCGATTTCTTCATGCCGATCGTCGACGATCCGTTCGACTTCGGTCGCATCGCCGCGACCAATGCCATCAGTGATATCTATGCCATGGGCGGTGATCCGCTGATGGCGATTGCGATCCTCGGCTGGCCAGTCAACGTGCTCGCCCCGGAAATCGCGCGCGAGGTGATTCGCGGTGGCCGCTCGGTGTGCGACGAGGCAGGCATCCCCCTGGCGGGCGGGCACTCGATCGATGCGCCCGAGCCGATTTTCGGTCTGGCAGTGACGGGCCTTGTGCAAAAGCGCCACATGAAACGCAACGACACCGCCACCGCGGGCTGTCGGCTGTACCTGACCAAACCCCTGGGCATCGGCATCCTCACGACGGCGGAAAAGAAAGGCAAGCTGCGCGCCGCCGATGTGGGCCTGGCCCGAGACTGGATGTGCACGCTGAACAAGCCCGGCAGCCGTTTCGGCAAGCTCGATGGCGTGACGGCAATGACCGATGTCACCGGTTTCGGCTTGCTCGGGCATTTGGTGGAAATGGCCGATGGCAGCCAACTGACCGCGCGTATCCGCTACGACGCGGTGCCGCGCCTGCCAGGCGTCGAGTACTACCTCGATCAAGGCTGCGTACCGGGCGGCACATTGCGCAACTATGACAGCTACGCCAGCAAGGTCGGTCGCGTCCAGGAGCTGCACAAGCGAGTGCTGTGCGACCCGCAGACCAGTGGCGGCCTGCTGATTGCCGTCACACCCGAAGGAGAGAGCGAGTTCCTGCGGGTCGCCGTTGAACTGGGTCTGGCGCTGGAACCGATTGGTGAATTGGTCGAGCGACAGAGCCACGCGGTCGAGGTGTCTTGA	MSEPIRLTQYSHGAGCGCKISPQVLEVILAGSGAQNLDPKLWVGNASRDDAAVYAIDEERGVVSTTDFFMPIVDDPFDFGRIAATNAISDIYAMGGDPLMAIAILGWPVNVLAPEIAREVIRGGRSVCDEAGIPLAGGHSIDAPEPIFGLAVTGLVQKRHMKRNDTATAGCRLYLTKPLGIGILTTAEKKGKLRAADVGLARDWMCTLNKPGSRFGKLDGVTAMTDVTGFGLLGHLVEMADGSQLTARIRYDAVPRLPGVEYYLDQGCVPGGTLRNYDSYASKVGRVQELHKRVLCDPQTSGGLLIAVTPEGESEFLRVAVELGLALEPIGELVERQSHAVEVS	PGPT0004820_1644	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004820-selD-K01008	NA	NA
D1-35_00967	1104	selU	COG2603	tRNA 2-selenouridine synthase	ATGCCCAACGACATCACCGACTACCGCGATATTTTCCTCAATGATCGCCCGATGATGGACACTCGCGCGCCGGTGGAATTTCTTAAGGGCGCGTTTCCCGGCGTGGCCAACCTGCCGTTGATGACCGACATCGAGCGGCAACGCGTCGGGACCTGCTACAAGCAGCAGGGACAGCAGGCCGCCATTGTCCTGGGGCATCAACTGGTCAGCGGCGAGACTAAGGCCCAACGTATCCAGGCCTGGGCCGAATTTGCCCAGGCCCATCCTGATGGCCTGCTGTACTGCTTTCGCGGTGGCTTGCGCTCACAGATCGTCCAGCAATGGCTCAAGGACGAGGCGGGCATCGAATACCCCCGAGTCGGCGGGGGCTACAAGGCGATGCGTACGTTCCTGTTGGGCACTATCGACCAGGCGGTCGCTCAGTGCGACCTGGTCCTGCTGGGCGGCATGACCGGCACCGGCAAGACCGAGGTGTTGACGCAGCTCGATAACGGCCTGGACCTGGAAGGTTATGCCAATCATCGCGGTTCGAGCTTCGGCAAGCGTGCGACCGGGCAGCCTTCCAATATCGATTTCGAAAACCTGCTGGCGGTGGATGTGCTGAAAAAGCGTGCCGCCGGCATCAAGCAATTCGTGCTGGAGGATGAAAGCCGCATGGTCGGCAGTTGCGCCTTGCCGTTGCCGTTGTACCAGCGCATGCAGCAGGTGCCGATGGTCTGGCTGGAAGATCGCCTGGAGCGGCGGGTCGAGCGGATCCTGCGCGACTACGTGATCAATCTCTGCGCCGAGTTTGTCGAGGTCCATGGCGACGAAGGGTTTTCGCTGTTTGGCGAACGGTTGCTGGCGAGCCTGGACAACATCCACAAACGCCTGGGTGGCGATCGCCATCGGCGATTGCTGGGCATCATGGAAGCCGCCCTGGCCGAACAGGCCGCCAGCGGCGCCGTCGACCTGCATCGCGCTTGGATCGAAGGCTTGCTGCGCGAGTACTACGACCCGATGTATGTATTCCAGCGGGAAAAGAAGGGCGGGCGCATAGAGTTTGTCGGGGAGCAGGCGGCGGTATTGGAATATCTGCGTGAACGCGCCGCTCGGGAAGGATAA	MPNDITDYRDIFLNDRPMMDTRAPVEFLKGAFPGVANLPLMTDIERQRVGTCYKQQGQQAAIVLGHQLVSGETKAQRIQAWAEFAQAHPDGLLYCFRGGLRSQIVQQWLKDEAGIEYPRVGGGYKAMRTFLLGTIDQAVAQCDLVLLGGMTGTGKTEVLTQLDNGLDLEGYANHRGSSFGKRATGQPSNIDFENLLAVDVLKKRAAGIKQFVLEDESRMVGSCALPLPLYQRMQQVPMVWLEDRLERRVERILRDYVINLCAEFVEVHGDEGFSLFGERLLASLDNIHKRLGGDRHRRLLGIMEAALAEQAASGAVDLHRAWIEGLLREYYDPMYVFQREKKGGRIEFVGEQAAVLEYLRERAAREG	PGPT0004830_283	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004830-selU|mnmH-K06917	NA	NA
D1-35_00968	672			hypothetical protein	ATGATCAACCCACTGAAGTTCGCCCAGTTGAAACGCCGTCCGTGGCTACTGCTACCGACGCTGCTCGTGACCTGTGGGCTGGTGCTGTCGCTGGAATCCAGCGTCAGCAGTGCCCAGCCCGTCGACGGCGTGCAGACGCTGGTGTTCCTGCGCCACGCGGAAAAACCGGTCGGCGGCCTCGGCCAACTCAATTGCCAGGGGCTGAACCGCGCCATCGACCTGGCCACCCTGCTGCCAGAAAAATTCGGCGAAGCCGACTACGTATTCGCGGCCAATCCGACCCGTAACGTCGAAGAGGGTGAGCTGGATAATTCCTACAGCTACATTCGCCCCTTGATGACAATCAGCCCCAGCGCCATCAAGCTCGGCCTGCCGGTAAACATCGAGTATTCAGCCAACGACACCAGTGACCTGGCTGATGAATTGATGCAGGACAAATACCACAACTCCACGATCTACACGGCCTGGTCCCACGGCTACCTGCCTGAACTGATCAACAAGGTCGCGGGTGAAGCGGTGGGCAAGCGGCAGACCATCACCGACGACTGGGCATCGAGCGATTTCGACTCCCTGTATGTACTGACCCTGACCTGGCACAACGGCAAGGCCAGCCTCACCAGCCAAAGCTACAAGCAAGGCCTGGATAACGGGCAGAAGACCTGCCCGACGTAA	MINPLKFAQLKRRPWLLLPTLLVTCGLVLSLESSVSSAQPVDGVQTLVFLRHAEKPVGGLGQLNCQGLNRAIDLATLLPEKFGEADYVFAANPTRNVEEGELDNSYSYIRPLMTISPSAIKLGLPVNIEYSANDTSDLADELMQDKYHNSTIYTAWSHGYLPELINKVAGEAVGKRQTITDDWASSDFDSLYVLTLTWHNGKASLTSQSYKQGLDNGQKTCPT				NA	NA	NA	NA	NA
D1-35_00969	699	yfcG_1	COG0625	Disulfide-bond oxidoreductase YfcG	ATGCCCGACCTGACCCCTTTCCCCATCACCCAGAAATGGCCCGCCCAGTTCCCTGAATGGCTCCAGCTCTATTCCCTGCCGACCCCCAACGGCGTGAAGGTGTCGATCATGCTGGAGGAGATCGGTCTGCCCTACGAGCCGCACAAGGTGGACTTTGGCAACAATGACCAACTGTCCCCCGAGTTCCTCTCGCTCAATCCCAACAACAAGATCCCGGCGATTCTTGACCCCCATGGGCCGGGAGATCGGCCGTTGGCGTTGTTCGAATCGGGAGCGATCCTGATTTATCTGGCCGACAAGAGCGGCCAGCTGCTTGCCCAGGAGTCGGCGGCGCGCTACGAGACGATCCAGTGGCTGATGTTCCAGATGGGCGGCATCGGGCCGATGTTCGGTCAGCTGGGGTTCTTCAACAAGTTCGCCGGCAAGGATTACGAGGACAAACGGCCGCGCGACCGATACGTCGAGGAAAGCAAGCGCCTGCTCAAGGTGCTGGACGGGCGTCTGGAAGGACGCGACTGGATCATGGGCGAGCGCTACACCATCGCCGATATCGCCACGTTCCCATGGGTGCGCAACCTTCTCGGTTTTTATGAGGCCGGTGATCTGGTGGGTATCCAGAACTTCCCGAACGTGACGCGGGTGCTGGAACGTTTCCTGGCGCGGCCGGCGGTGGCGCGCGGCTTGAAGATTCCGGAATGA	MPDLTPFPITQKWPAQFPEWLQLYSLPTPNGVKVSIMLEEIGLPYEPHKVDFGNNDQLSPEFLSLNPNNKIPAILDPHGPGDRPLALFESGAILIYLADKSGQLLAQESAARYETIQWLMFQMGGIGPMFGQLGFFNKFAGKDYEDKRPRDRYVEESKRLLKVLDGRLEGRDWIMGERYTIADIATFPWVRNLLGFYEAGDLVGIQNFPNVTRVLERFLARPAVARGLKIPE	PGPT0013045_1955	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013045-yghU|yfcG-K11209	NA	NA
D1-35_00970	975	hemB_1	COG0113	Delta-aminolevulinic acid dehydratase	ATGTCCAGTCAGTTCCCCGCAGCCCGTCCACGCCGTCTGCGTCGCAATGCAAGCCTGCGCAACCTGTTCCAGGAAACCGAGTTGACCTTGAATGATCTGGTACTGCCGATTTTCGTCGAAGAGGAAATCGACGATTTCGTGCCGATCAAGAGCATGCCCGGCGTGGTGCGTATCCCGGAATCGAAGCTGGCCGGGGAAATCGAGCGGTATGCTCGTGCCGGTATCAAGGCGGTGATGACCTTTGGTGTGTCCCATCATCTGGACAGCGACGGCAGCGACACGTGGAGCGAGCGTGGCCTGGTTTCGCGCATGGCCGGAATCTGCAAGGACGCCGTGCCGGAAATGATCGTGATGTCCGATACCTGTTTTTGTGAGTACACCGATCATGGCCACTGCGGCGTGCTGCACGGTCACGAAGTCGATAACGACCGAACCCTGATCAACCTGGGCAAACAAGCGGTAGCGGCGGCACGCGCCGGTGCCGATGTCATCGCGCCGTCGGCGGCCATGGACGGGCAAGTCCAGGCCATTCGCAAGGCGCTCGATGACGCGGGCTTCAGCCAGACGGCGATCATGGCCTATTCCACCAAGTTCGCCTCCGCGCTCTACGGGCCGTTCCGCGAGGCCGGCGGCAGCGCCTTGAAAGGCGACCGCAAGAGCTACCAGATGAACCCGATGAATCGCCGCGAAGCCCTGCGCGAGTCGCTGCTCGACGAGCAGGAGGGCGCCGATGCACTGATGGTCAAGCCGGCCGGGGCCTATCTCGACATCATCCGCGACATCCGCGAGGCCTCGAACCTGCCATTGTCGGCCTACCAGGTCAGCGGCGAGTACGCGATGATCAAGTTCGCCGCACAGGCCGGCGCCATCGACGAAGCCCGAGTCGTGCGAGAAAGCCTCGGCGCGATCAAGCGGGCAGGGGCGGACCTGATCTTCACTTACTTCGCGATGGATCTGGCGCTGAGCGGGATCTGA	MSSQFPAARPRRLRRNASLRNLFQETELTLNDLVLPIFVEEEIDDFVPIKSMPGVVRIPESKLAGEIERYARAGIKAVMTFGVSHHLDSDGSDTWSERGLVSRMAGICKDAVPEMIVMSDTCFCEYTDHGHCGVLHGHEVDNDRTLINLGKQAVAAARAGADVIAPSAAMDGQVQAIRKALDDAGFSQTAIMAYSTKFASALYGPFREAGGSALKGDRKSYQMNPMNRREALRESLLDEQEGADALMVKPAGAYLDIIRDIREASNLPLSAYQVSGEYAMIKFAAQAGAIDEARVVRESLGAIKRAGADLIFTYFAMDLALSGI	PGPT0003655_4233	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003655-hemB-K01698	NA	NA
D1-35_00971	1095			hypothetical protein	ATGCATTTCACTCGACTGATGATCACTCTTGCCGCATTGCTGGCCCTGGCCGGCTGCGGCAGCCGTCAGGCCCAGGAGCCTGAGCGCCAGCCTGCCGAAGTCAAGGCGCAGATCGTGCGCTTATTGCCGGCCAAGACCGCCGATCGGGAGGGCTGGGCCACGGACATCTACGTGGCCTTTGCGGCGCAGCAGATCCCGCCAACGACCCAGAACATCTGTTCGGTGCTGGCGGTGACCGAGCAGGAGTCGACCTTCCAGGCCGATCCCGCGGTGCCGGGGCTGGGCAAGATCGCCCGGCAGGAAATCGATCGCCGGGCGGCGAAGCTACGCATCCCCGGGTTTCTGGTGAGCGGCGCCCTCCAGGTGCGCTCGTCCAATGGCAAAAGCTACAGCGACCGCCTCAACGCGGCGCGCAGCGAGAAGGAACTCAGCGCAATTTTTGATGATTTCATCGGCATGGTGCCGCTCGGCAAAACCCTGTTCGATGGCTTCAACCCGGTGCATACGGGCGGGCCGATGCAGGTCAGCATCGCCTTTGCCCAGGCCAATGCGCGCGATTATCCCTACACGGCGGATGGCTCGATTCGTCGGGAAGTGTTCAGTCGTCGCGGAGGGATGTATTTCGGCATCGCGCATTTGTTGGGGTATCCCGTCAGTTATACCGAGCCGCTGTACCGTTTCGCCGATTTTAATGCTGGCTGGTATGCCAGTCGCAACGCGGCCTTCCAGCATGCGGTGAGTCGCGCTTCGGGCATTACGCTGGCCTTGGACGGTGATTTGATCCTGCCTGATTCGATCATGCCCGGCAGCACGGAGCTGGCGGTGCGCACGTTGGGCAAGTCATTGGGCATGCGCAACCCGACCATCCGCGATCAGCTGGAACTGGGCGACAGCCTGGCGTTCGAGGACAGCAAGCTCTACAAGCGGGTGTTCGAATTGGCCGAGAAGGCCGAGGGCAAGCCGCTGCCTCGGGCGGTGTTGCCGGGCATCGTGCTCAAGAGTCCGAAAATCACTCGCAAGCTGACCACTGCATGGTTTGCCAAGCGCGTGGACGAGCGGTATCAGCGGTGCATGACGCGGGCTTCGGGGCGCTGA	MHFTRLMITLAALLALAGCGSRQAQEPERQPAEVKAQIVRLLPAKTADREGWATDIYVAFAAQQIPPTTQNICSVLAVTEQESTFQADPAVPGLGKIARQEIDRRAAKLRIPGFLVSGALQVRSSNGKSYSDRLNAARSEKELSAIFDDFIGMVPLGKTLFDGFNPVHTGGPMQVSIAFAQANARDYPYTADGSIRREVFSRRGGMYFGIAHLLGYPVSYTEPLYRFADFNAGWYASRNAAFQHAVSRASGITLALDGDLILPDSIMPGSTELAVRTLGKSLGMRNPTIRDQLELGDSLAFEDSKLYKRVFELAEKAEGKPLPRAVLPGIVLKSPKITRKLTTAWFAKRVDERYQRCMTRASGR				NA	NA	NA	NA	NA
D1-35_00972	435			hypothetical protein	ATGAAACGCCAAATCATCCTCAGCCTCGCTTTCTCCGTTCTGGCAGCCAACGTATTCGCCGCCACTTCCCAGCCCGTCGTTGCCGAAGGCGGCTCTGACCGACTGATCGAAAACCGTGTTGCCGAAGGCGGTGCCGACCGTCTGCTGGAACGCCGCGTCGCCGAAGGTGGCTCCGACAAGCTGATCGAAAACCGTGTTGCCGAAGGCGGAGCCGATCGTCTGCTGGAACGCCGCGTTGCCGAAGGTGGCTCCGACAAGCTGATCGAAAACCGTGTTGCCGAAGGCGGTGCCGACCGTCTGCTGGAACGCCGCGTCGCCGAAGGTGGCTCCGACAAGCTGATCGAAAACCGTGTTGCCGAAGGCGGTGCTGACCGTCTGCTGGAACGCCGCGTTGTCGAAGGTGGCTCCGATAATTTGGCCAAGAACCGCGCATGA	MKRQIILSLAFSVLAANVFAATSQPVVAEGGSDRLIENRVAEGGADRLLERRVAEGGSDKLIENRVAEGGADRLLERRVAEGGSDKLIENRVAEGGADRLLERRVAEGGSDKLIENRVAEGGADRLLERRVVEGGSDNLAKNRA				NA	NA	NA	NA	NA
D1-35_00973	630			hypothetical protein	ATGTATCAGTTATTCGGCCACAGCCAATCCGGTTCCTCTGCCGTGGAGGTCGCCTTGGATCTTTGCGGCGTGCCTTACCGCCGGGTAGATACCTATTCGACCGAGGACAACGATGCGGCGAAGGAACTCGAAGCCCTGAATCCACAGAAGCAGGTCCCGACCCTGCAATTGCCGGACGGCTCGGTGCTCACCGAGGCGGCGGCGATCCTGATTCACTTGGGGCTGTCTTTTCCGGAATCGAAACTGCTGCCGGATGATCCGGCCCAGCGTGCGCAGGTCATACGCGGCCTGGTGTATATCGCCGCCAATTGCTACACGCCGATCGGCATCATCGATTTTCCGCAGCGCTGGCTGCCCGACGCCGACGACGCTGCTCGGGAGCGATTGGTGGCGGGCACCAAGCAACGTCTGTATCGCAACTGGGCGTTGTTTGCCGACCAGTTTCCTGCGAGCCCTTTCCTCGGCGGTGCCGAGCCCGGTGCATTGGATATCCTGGCGGCGGTGATTACCAAGTGGGTCGAAACCCGGGAAGCGATGCTCAGTGCCCGTCCCGAGTTCTACGCCCTGCTGGAGCGCATCGACCGCCATCCGCGAATCGCGCCAGTGCTTTCATTGCACTGGCCCGAATGA	MYQLFGHSQSGSSAVEVALDLCGVPYRRVDTYSTEDNDAAKELEALNPQKQVPTLQLPDGSVLTEAAAILIHLGLSFPESKLLPDDPAQRAQVIRGLVYIAANCYTPIGIIDFPQRWLPDADDAARERLVAGTKQRLYRNWALFADQFPASPFLGGAEPGALDILAAVITKWVETREAMLSARPEFYALLERIDRHPRIAPVLSLHWPE				NA	NA	NA	NA	NA
D1-35_00974	537			hypothetical protein	ATGCCGCTGATGCTGAGATGTTCGTTGATCGCCCTGGCGCTGCTGCTCGGTGCCTGTCGCAGCGATCCCATCCACTACCACACCCTGAGCCCGGTCCAGCCGGCTGGTCAGGCGCGTGCAGGGGTGGATATCCAGATCGAACAACTCAGCGTCCCGCCGCAAGTGGATCGCACCCAGATGGTGATTCGTCAGGGCGACAGCGGTCTGGCGATCCTGGAAACCGAATGGTGGGGCTCAAGCCTGGCGGATGAACTACGCAGCAGCCTGGACGAGCAATTGAGCAACCCCGGGGCCCCCAGGCGGCTGTTGCGGGTGGAGGTGCAACGCTTCGACTCGATCCCCGGCCGCTATGCGCGCATGGACGTGCAATGGCGCTTGCGTAGCCATGGCAACGAAGCTCAGGCCGTTACCTGCCGCAGCAGCCTGCAGACACCGGCTGGCGGCAGTATCGACGACCTGGTGAAAGGCCATCAGCAGAACGTTCGACAGCTTGCAGAACTCGTCCGCCAGGCCGCCTCGCGCAATGCGTGTCCCTGA	MPLMLRCSLIALALLLGACRSDPIHYHTLSPVQPAGQARAGVDIQIEQLSVPPQVDRTQMVIRQGDSGLAILETEWWGSSLADELRSSLDEQLSNPGAPRRLLRVEVQRFDSIPGRYARMDVQWRLRSHGNEAQAVTCRSSLQTPAGGSIDDLVKGHQQNVRQLAELVRQAASRNACP				NA	NA	NA	NA	NA
D1-35_00975	1656	pqiB	COG3008	Intermembrane transport protein PqiB	ATGAAGTCACAAGCCACTGACGGACAACCCGCACCGGGCCGCGCCCATGTCTCCACCCGCCGCTGGACCGTGTCGCTGGTGTGGATCGTGCCGATCATCGCGGTGCTGGTGGGCGTGTCCCTGGTGGTCAACAACTGGCTGCAGGAAGGCCCGACCATCACCATCACCTTCAAGACAGGCGAAGGCCTGACCGCCAACAAGACCCCGGTCAAATACCGCAATGTGGTCATTGGCCAGGTCACCGACGTGCAACTGAGCGACGATCAGAAGAACGTGACCGCCACGGTCAAGCTCGCCAAGACCGCCGACACCTTCACTCATGAAGACTCGGTGTTCTGGGTGGTCCGGCCGCGGATTGGCGCGGGCGGGATCTCCGGGATCGACACCTTGCTGTCGGGGGACTTCATCGGCGCCGACGCCGGTCATTCGAAAGTGCGCGCCAAGTCGTTCACCGGCCTGGAGGCTCCGCCACCGATCACCTACGGCGAACCGGGCAAACGCTTTACCCTGCATTCCCAGGACCTCGGTTCGCTGGACATCGGCTCGCCGGTGTATTTGCGCAAGATTCCGGTGGGCCAGGTGGTGTCCTACGCATTGGACGCCGATGGCAAAGGCGTCAATATCGAGGTGTTCATCAACGCGCCAAATGACGCCTACGTCACCGAGAACACCCGGTTCTGGAACGTCAGTGGCGTCGACGTGAACGTCGGCGCCAACGGTTTTGCGGTCAAGACCGAGTCGCTGTCTGCCCTGCTCGTCGGCGGCATTGCATTCCGGGCCCCGGAATACAGCCCCAACGACACGCCCGCGGCCGAGGACAAGGATTTCGAACTGTTCGCCGACCAGCAAAGCGCCCTGGCCCCGCCCAGTGGCAAGGCGCAGTACCTGGCCTTGCGCTTCGACCAGGCCTTGCGCGGATTGCGCGTCGGCGCCCCGGTGGAATTCCTCGGGATCGAGATCGGCCGGGTGGTCTCCATGAACCTGGACTTCGACGAAAAGCAGCGCACGTTCCCGGTCAACGTAGGAATCGTGATCTACCCGCAACTGCTCGGCAAGGCCCACGAGAAACTGCTCAAGTCATTGAACTACGACCCGGAAGACGAAGCCGCCGCCGCGCGCCTGGTCGGCAGCTTCGTCGAACGCGGCCTGCGCGCCCAGGCCCGCAGCGGCAACCTGCTGACCGGGCAGTTGTACATTTCGCTGGATTTCTACCCCAAGGCCGAGAAAGTCGCGTTCGACCTCGCCGCGCGCCCCCTGCGGATCCCGACTATCCCGGGCAGCCTCCAGCAGTTGCAGGAACAATTGCAGACGGTGGTCGAGCGCATCAACAAGCTGCCGCTGGAAAGCATTGCCAGCAACCTGGACGGTAACCTCGTGGAGCTGCGCAAGGGCCTGTCGCAATTCAACAGCAAGACCCTCCCGGGCGTGCAAAGCACCTTGCAGGACGTGAGCAAAACCTTGCAGTCGGCGAACTCGACCCTGGCGGAAGATTCGCCGCAGCGCGAACAATTGACCCAGACCCTGGATGACCTGGGCCGAATGTCGCGCTCGCTGCGCGAGCTGTCCGATTACCTGAGCCGACACCCTGAGTCGCTGCTTCGTGGCCGTCCGAAAGATGCTCCGGCGCAGAACCTTACCTTTCCGGTGAAAGAATGA	MKSQATDGQPAPGRAHVSTRRWTVSLVWIVPIIAVLVGVSLVVNNWLQEGPTITITFKTGEGLTANKTPVKYRNVVIGQVTDVQLSDDQKNVTATVKLAKTADTFTHEDSVFWVVRPRIGAGGISGIDTLLSGDFIGADAGHSKVRAKSFTGLEAPPPITYGEPGKRFTLHSQDLGSLDIGSPVYLRKIPVGQVVSYALDADGKGVNIEVFINAPNDAYVTENTRFWNVSGVDVNVGANGFAVKTESLSALLVGGIAFRAPEYSPNDTPAAEDKDFELFADQQSALAPPSGKAQYLALRFDQALRGLRVGAPVEFLGIEIGRVVSMNLDFDEKQRTFPVNVGIVIYPQLLGKAHEKLLKSLNYDPEDEAAAARLVGSFVERGLRAQARSGNLLTGQLYISLDFYPKAEKVAFDLAARPLRIPTIPGSLQQLQEQLQTVVERINKLPLESIASNLDGNLVELRKGLSQFNSKTLPGVQSTLQDVSKTLQSANSTLAEDSPQREQLTQTLDDLGRMSRSLRELSDYLSRHPESLLRGRPKDAPAQNLTFPVKE	PGPT0014520_463	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014520-pqiB-K06192	NA	NA
D1-35_00976	660	pqiA_1	COG2995	Intermembrane transport protein PqiA	GTGAACGCCGCAACGCCGGGCAATCCGCCCCGCGCCAGCGATCTGAACCTGTGCCTGTGCCACAGCTGCGGCCTGGCTTGCGACATGACCGACGAACCTGACACCTGCCCACGCTGCGATGCCGCCCTGCACCGGCGCAAACCCGATACCCTGACTCGCACCTGGGCCTACATGCTGGCGGCACTGGTGTTCTACATCCCGGCCAACCTGCTCCCGGTCATGAACACCCAGATGCTCGGCGACGGTGCGGACAGCACCATTATCAGCGGCGTTCTCGAGTTCTGGCAGAGTGGTGCCTGGGACATCGCGCTGATCATCTTCATCGCCAGCATCGCGGTGCCGGGCATCAAGTTCGTCGTGCTGACGTTGCTGCTGGTGTCCGTGCAACGGCGCAGTACCTGGGCCCAGGTGCAGCGCGCCAAGCTGTATCGGCTGGTCGAAGTCATCGGCTACTGGTCGATGCTTGACGTGCTGGTCGTGGCCCTGGTGGCGGCACTGGTCAAGTTCCAGGCCCTGAGCGACATCGAACCGCGACCGGGGATCCTGTTCTTCGGCCTCGTGGTGCTCTTTACCATGCTGTCGGCCATGAGTTTCGACCCGCGGCTGATCTGGGACACCCAACCATCCGAGGAGGTCATGGATGAAGTCACAAGCCACTGA	MNAATPGNPPRASDLNLCLCHSCGLACDMTDEPDTCPRCDAALHRRKPDTLTRTWAYMLAALVFYIPANLLPVMNTQMLGDGADSTIISGVLEFWQSGAWDIALIIFIASIAVPGIKFVVLTLLLVSVQRRSTWAQVQRAKLYRLVEVIGYWSMLDVLVVALVAALVKFQALSDIEPRPGILFFGLVVLFTMLSAMSFDPRLIWDTQPSEEVMDEVTSH				NA	NA	NA	NA	NA
D1-35_00977	597	yebS	COG2995	Intermembrane transport protein YebS	ATGGCCGTTACCGACCGACTGATCATTTGTGAACATTGCGATGCAGTGTACGAGCCGGTTGCGCTCGCCCCGCATCAAAAAGCCTCGTGCGTGCAATGCCATGCAGTGATCCAGCGCTACAACGGCCTGACCATCGAACAGCGCCTGGCCCTGACCATCACGGCAGCGGTGCTGTGGGCCTTCGCCAATGTCTATCCGGTGATGAGCATCCGCCTCCAGGGCCTGAGCAACAGCGCGACCCTGTGGGATTCGGTCGTGGCCCTGAGCCAGGGACCCATCACCTTCATCGCCCTGGTGGCCGCGGTCGCGATCATCATCGCTCCGGCGTTCCAGTTGGCACTGCTGCTCTGGGTGCTGGGCTACGCCCATTCCAACCGGCGCGCCCCGGCGTTCAACCTGTGCATGCGCAGCCTGGAAACCCTGCGCCCGTGGAGCATGCTGGAGGTGTGCTTGCTGGGAGCCCTGGTGGCTGTCATCAAGCTTGCCGGGTTGCTGGATGTGCTTCCCGGTATCGGTCTGTTCGCCCTGGCGGCCTTGAGTCTGTTGATGATCCGCATTGCCGGTCGCGATGTGCGCGACCTGTGGAACACCCTGTGA	MAVTDRLIICEHCDAVYEPVALAPHQKASCVQCHAVIQRYNGLTIEQRLALTITAAVLWAFANVYPVMSIRLQGLSNSATLWDSVVALSQGPITFIALVAAVAIIIAPAFQLALLLWVLGYAHSNRRAPAFNLCMRSLETLRPWSMLEVCLLGALVAVIKLAGLLDVLPGIGLFALAALSLLMIRIAGRDVRDLWNTL				NA	NA	NA	NA	NA
D1-35_00978	441	IMPDH_1		Inosine-5'-monophosphate dehydrogenase	ATGAAAACCGTCGCGCAGTTGCTCCGGATAAAAGACGAGAAAAACCAGCAAGTGCACACCATTTCCCCGGATGACATGGTCTTGCAGGCCTTGATGCGCATGGCCGAGAAAAATGTCGGTGCCTTGCTGGTGGTCAAGAACGATGAAGTGCTGGGCATCATCAGCGAGCGTGACTATGCGCGCAAAATGGTCCTGCACGGACGCTCTTCGGTGGGCACGAAAGTCAGCGACATCATGGTTTCGCCCGTGATCACGATCGATCCACACCAGAACGTCGAGACCTGCCTGAGCATCATGACCGAGAAACACCTGCGGCATTTGCCCGTGGTGGAAAACGGCAAGCTGGTCGGCCTGTTGTCCATCGGTGACCTGGTCAAGGAAGCCATTGCCGAGCAGGCGGACCTGATCAGACAACTGGAGCAATACATTCGCGGCGAATGA	MKTVAQLLRIKDEKNQQVHTISPDDMVLQALMRMAEKNVGALLVVKNDEVLGIISERDYARKMVLHGRSSVGTKVSDIMVSPVITIDPHQNVETCLSIMTEKHLRHLPVVENGKLVGLLSIGDLVKEAIAEQADLIRQLEQYIRGE				NA	NA	NA	NA	NA
D1-35_00979	2364	polB	COG0417	DNA polymerase II	GTGGATCTACAGCAGGGCTTCGTCCTGACCCGGCATTGGCGCGATACCCCGGCGGGCACCGAAGTCGAGTTCTGGCTGGCGACGGATGCCGGTCCCCGGCGCGTGCGCCTGCCGGTGCAGACGTCGGTGGCGTTCGTGCCGCAGATCCAGCGTGGCCATGTCGAGGCGCTGTTGCAGGGCGAGAAGGATGTCGAGTTGCGGCCCCTGGACCTGCTGGATTTCGAGCACCGCCCGGTGCTCGGCCTGTATTGCCGGCAGCATGCGCAACTGATGCGGCTGGACACGACATTGCGGCGGGCTGGCGTGGATGTATTCGAGGCCGACGTCCGGCCGCCGGAACGCTACCTGATGGAGCGCTTCATCACCGCACCGGTCTGGTTCGGCGGCACGCCCTCAGCCGATGGCTTGCTCCTGGATGCCCAGATGAAACCCGCGCCCGACTACCGGCCACCGCTGCGGCTGGTGTCCCTGGACATCGAAACCACCGCCCAGGGCGATTTGTATTCGATTGCCCTGGAGGGCTGCGGCGAGCGCCAGGTCTATATGCTCGGGCCGCCCAATGGCGATGATCGTGAAGTGGATTTCCAGCTGGAATACTGCGAGTCCCGCGCGGCGCTGTTGAAGAAACTCAACGAGTGGTTCGCCCGCTTCGATCCCGACGCGATCATCGGCTGGAACCTGGTGCAGTTCGATCTGCGCGTGTTGCATGAACACGCCCGCCGCCTGGCCGTGCCGCTGCGTCTTGGCCGTGGCGGGGAAGAAATGCAATGGCGCGAGCACGGCGCGCGCAACAACCATTTTTTTGCCTCGGCGGCTGGCCGGTTGATCATCGATGGGATCGAGTCCTTGCGCTCGGCGACCTGGAGTTTTCCTTCGTTCAGCCTGGAAAACGTCGCCCAGACCCTGTTGGGCGAGGGCAAGTCCATCGACAACCCGTACCAGCGCATGGACGAAATCAACCGCATGTTCGCCGAGGATAAACCGGCCCTGGCTCGCTACAACCTCAAGGATTGCGAGTTGGTCACGCGCATCTTCGCCAAGACCGAGCTGCTCAAGTTCCTGCTGGAACGGGCCAGCGTCACCGGCCTGCCGGCGGATCGCAGCGGCGGCTCGGTGGCGGCGTTCACGCATCTGTACATGCCGCTGATGCATCGCCAGGGTTTCGTCGCGCCGAACCTCGGCCAGCGTCCGCCGGAGGCCAGCCCTGGCGGGTTTGTGATGGATTCCCAGCCGGGGCTCTACGAATCGGTGTTGGTGCTGGACTACAAGAGTCTGTATCCGTCGATCATCCGCACCTTTCTCATCGACCCGGTGGGCTTGATCGAAGGCCTGCGCCACCCGGACCACACCGAATCGGTGCCAGGTTTCCGCGGGGCGCGGTTCTCGCGCACCCGGCACTGCCTGCCGGCCATCGTGGCGCGGGTTGCCGACGGCCGGGAAACCGCCAAGCGCGAACACAACGCGCCGCTGTCCCAGGCACTGAAAATCATCATGAACGCGTTCTACGGCGTGCTTGGCTCCAGTGGCTGTCGTTTCTTCGATTCGCGCCTGGCGTCGTCCATCACCTTGCGCGGCCACCAGATCATGCAGCGTACCCGGCAACTGATCGAAGCGCGGGGCCATGTGGTGATCTATGGCGATACCGATTCGACCTTCGTCTGGTTACGCCGCCCCCACGGCCAGGAAGAAGCCGCGACGATCGGCCGGGAGCTGGTCGCTCACGTCAACCAATGGTGGCGTGATCACGTACGAGAAGAGTTCGAACTGGAAAGCGCGCTGGAGCTGCAATTCGAAACCCACTTCAAGCGTTTCCTGATGCCGACCATCCGCGGCGCGGAGGAGGGCAGCAAGAAGCGCTACGCCGGTTTGGTGACCCGTGCCGACGGCAGCGACGAGATCATCTACAAGGGCCTGGAGACCGTGCGCACCGACTGGTCGCCCCTGGCCCGGCAGTTCCAGCAGGAACTGTATGGACGGATCTTCCATCGCCAGCCCTATCAGGATTACGTTCGCGATTATGTCCAGCAGACCCAGGCCGGCGCGTTCGACGAACGCCTGGTCTACCGCAAGCGCTTGCGTCGTCCGCTGGACGACTACGAGCGCAACGTGCCGCCACATGTGCGGGCCGCGCGGCTGGCCGACGAGTTCAACGAGCGCCAGGGCCGGCCACGGCAATACCAGAATGGCGGCTGGATCAGCTACGTCATCACCGTCGCCGGCCCCGAGCCGCTGGAAATCCGTAGCGCGCCGATTGACTATGACCACTACGTGACGAAGCAGCTGCAGCCGGTGGCGGATGCGATCCTGCCGTTTGTGGATGATGATTTTTCAACGTTGATCGGTGGACAGATGGGGTTGTTCTGA	MDLQQGFVLTRHWRDTPAGTEVEFWLATDAGPRRVRLPVQTSVAFVPQIQRGHVEALLQGEKDVELRPLDLLDFEHRPVLGLYCRQHAQLMRLDTTLRRAGVDVFEADVRPPERYLMERFITAPVWFGGTPSADGLLLDAQMKPAPDYRPPLRLVSLDIETTAQGDLYSIALEGCGERQVYMLGPPNGDDREVDFQLEYCESRAALLKKLNEWFARFDPDAIIGWNLVQFDLRVLHEHARRLAVPLRLGRGGEEMQWREHGARNNHFFASAAGRLIIDGIESLRSATWSFPSFSLENVAQTLLGEGKSIDNPYQRMDEINRMFAEDKPALARYNLKDCELVTRIFAKTELLKFLLERASVTGLPADRSGGSVAAFTHLYMPLMHRQGFVAPNLGQRPPEASPGGFVMDSQPGLYESVLVLDYKSLYPSIIRTFLIDPVGLIEGLRHPDHTESVPGFRGARFSRTRHCLPAIVARVADGRETAKREHNAPLSQALKIIMNAFYGVLGSSGCRFFDSRLASSITLRGHQIMQRTRQLIEARGHVVIYGDTDSTFVWLRRPHGQEEAATIGRELVAHVNQWWRDHVREEFELESALELQFETHFKRFLMPTIRGAEEGSKKRYAGLVTRADGSDEIIYKGLETVRTDWSPLARQFQQELYGRIFHRQPYQDYVRDYVQQTQAGAFDERLVYRKRLRRPLDDYERNVPPHVRAARLADEFNERQGRPRQYQNGGWISYVITVAGPEPLEIRSAPIDYDHYVTKQLQPVADAILPFVDDDFSTLIGGQMGLF				NA	NA	NA	NA	NA
D1-35_00980	822	dkgB	COG0656	2,5-diketo-D-gluconic acid reductase B	ATGAGAACTGTGGAATTGGCCGGCGTATCCGTACCGGTAATCGGCCAGGGCACCTGGCGGATGGGTGAGGAACCGTCCCATCACAAGAAAGAAGTAGCTGCCCTGCGCCTGGGCATCGAACTGGGCATGAGCCTGATCGACACGGCCGAAATGTATGCCGAGGGCGGCGCCGAGCAGGTCGTTGGCGAAGCGATCACCGGGCTACGCGACCAGGTGTTCCTGGTGAGCAAGGTCTACCCGCACAATGCCAGCCGCAAAGGCATTCCGTTGGCCTGCGAGCGCAGCTTGCGGCGCCTCGACACCGATTATATCGACCTCTATTTGCTGCATTGGCGCGGCCAGTACCCACTGGAGGAAACCGTCGAAGCGTTTGAGCGCCTGCGCGAAGAAGGCAAGATCGGCCGCTGGGGCGTGTCGAACTTTGACGTCGACGATCTGGAGGAGCTGGCCTCGCCGGTCTGCGCTACCAATCAAGTGTTGTACAACCTGCAAGAACGCGGCATCGAATTCGACCTGCTGCCCTGGAGCCAGCAACAGCGCATGCCGGTCATGGCCTATTGTCCGGTCGGCCAGGGCGGGCATTTGCTCAAGGACCACACCCTGCAACAGATCGCCGAACGCCACCGCGCGACGCCGGCACAGATCGCCCTCGCCTGGCTGCTGCGCCAGGACAATGTCATTGCAATCCCCAAGGCGGTGCAAGCTGAACACGTGCGCCTGAACGCCGAAGCGGCGAATCTGCAGCTTGAGCCTCAGGATCTGGCGGCATTGGACCTGGTGTTCCCGCAGCCACAGGGCAAGCAGCGGTTGGCGATGGTTTAG	MRTVELAGVSVPVIGQGTWRMGEEPSHHKKEVAALRLGIELGMSLIDTAEMYAEGGAEQVVGEAITGLRDQVFLVSKVYPHNASRKGIPLACERSLRRLDTDYIDLYLLHWRGQYPLEETVEAFERLREEGKIGRWGVSNFDVDDLEELASPVCATNQVLYNLQERGIEFDLLPWSQQQRMPVMAYCPVGQGGHLLKDHTLQQIAERHRATPAQIALAWLLRQDNVIAIPKAVQAEHVRLNAEAANLQLEPQDLAALDLVFPQPQGKQRLAMV				NA	NA	NA	NA	NA
D1-35_00981	1149	mro	COG2017	Aldose 1-epimerase	ATGCTTGAATCCAGACATCTGCTCACGGCCCTCGGAGTCTCTCTGATGATTGCCACCTCTGCCCAGGCCGCCGGCCTGACCAATGAACGCGTTGCCTTCGGCAAGACCAACGACGGCACACCGGTTGAAAAATACGTACTGCGCAACAGCCACGGCGTCGAGGCGACCGTCATCACTTACGGCGGGATCCTCCAGTCACTGATCGTGCCGGACAAAAACGGCATGACTGCCGACATCGTGCTCGGCTTCGACGACGTGCAGGGCTACCAGAAGAACGGCAACGTGTATTTCGGCGCGACCATCGGTCGCTTCGGCAACCGTCTGGCCGGCGGTGCGTTCGAGCTGGATGGCAAACGCTACCAGGTGCCGCAGAACGACAAGGACAATTCCCTGCACGGCGGGCCGCAAGGCTTCGACAAGCGTGTCTGGAAGGCCGAGCCGAGCAATGGCAAAGACTCGGTAGGCGTGACCCTGACGTATGTGTCGGCGGACGATGAAATGGGCTTTCCCGGCAACCTGAAGACCGACGTCACCTACAGCCTCAACGACCAGAACGAATTGCGCATCGACTACAAGGCCACCACCGACAAACCGACCGTGCTGAACCTGACCAACCACAGCTATTTCAACCTGGCCGGCGCCGGTAATGGCGACATCCTCAAGCAAGTCGCGACGCTGCACGCGTCCCGCTACACACCAGTAACCGCCAAGCTGATTCCCACCGGCGAGCTGGCACCAGTAGCCGGCACCCCGATGGATTTCACCAAGCCCACGCCCATTGGCACGCATATCAAGGCTGATCATCCGCAGCTGAAATTTGCCGAACCGAAACAAGGCGGCTTCGATTTCAACTGGGTACTCGACGCCAAGGGCGACGTGAATAAACTCGCCGCCGAGGTCCAGGATCCGCAGTCCGGACGGCGCTTGCAGCTCTATACCAGCGAGCCGGGCGTGCAGTTCTACACCAGCAACTTCCTCGACGGCACGATCAAGGGCAAGCAAGGCAAGGTCTACCCGCACTGGAGCGCGTTTACCCTGGAAACCCAGCATTATCCCGATTCGCCGAACCAGCCGTCCTTCCCTACCACGCGACTTGATCCGGGCCAGACCTACACCCAGACCATGGTGCTGAAGTTCTCGGCCGAGTAA	MLESRHLLTALGVSLMIATSAQAAGLTNERVAFGKTNDGTPVEKYVLRNSHGVEATVITYGGILQSLIVPDKNGMTADIVLGFDDVQGYQKNGNVYFGATIGRFGNRLAGGAFELDGKRYQVPQNDKDNSLHGGPQGFDKRVWKAEPSNGKDSVGVTLTYVSADDEMGFPGNLKTDVTYSLNDQNELRIDYKATTDKPTVLNLTNHSYFNLAGAGNGDILKQVATLHASRYTPVTAKLIPTGELAPVAGTPMDFTKPTPIGTHIKADHPQLKFAEPKQGGFDFNWVLDAKGDVNKLAAEVQDPQSGRRLQLYTSEPGVQFYTSNFLDGTIKGKQGKVYPHWSAFTLETQHYPDSPNQPSFPTTRLDPGQTYTQTMVLKFSAE	PGPT0017825_664	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
D1-35_00982	750			hypothetical protein	ATGGCCGCTGTCTTACATTCCGTGAGGGTCTTGCCACGTCGCTGCGGCTTGCTGCTGGCGAGCCTGTTGCTGATGCTCAGCGGCGGATGCAGCCATCAGCAAGGCCAGGACATGGTTACGCAGTTCAGCAATGCCAGGCCCCAGGAGTTTTTGCAGACCAGCGTTGACCGCATGGCCACGCTGTCGATGCATGACAACCTGCAGAGCCTTTACCTGCTGATGCACAAGCTCTACCTGCGCAACCCGGAAGAACTGCGCAAATCCGGCTTTCTCGATGCCCGTATCGCCGTGAAACAAGTGCGCGAGGCGATTGAACAGCAGCAACCCTTGCCGGCCCTGGGCAACAGGAAGGACCTGGCAGCGCTGAGCTACGCGATGAGTCCCGAGTTTCTCGGTGACCGGGTCGGAGCGTTCATCTATGCCATTGGCAGCATGCTGGTGACGGCTCACGGCAACCGTCTCGAGTTCTACATGACCGACACCATCGATCCGCGCTTCGTCAGCAACGCGGCGCGCAACATTGAGAAAGCCACGTGGCTGTTGGGCCAGCGGCAGAACAAGGACGGCACGCCGATGCTGTTCTCCAATGAAATCTCGGAGGAGGGCAGCAATCTGAGCTTTGCCGTGGAGTTCGGTAAGATCGTCGCGCGCCTCGACCTGCTGACCCAGATGCTGGACGAGCGCTATCGGCGAATCGGCTTGAATTATGCGCAGAGTCTGCTGTTTCTCAATTTCCTGCCTGTTCAGTAG	MAAVLHSVRVLPRRCGLLLASLLLMLSGGCSHQQGQDMVTQFSNARPQEFLQTSVDRMATLSMHDNLQSLYLLMHKLYLRNPEELRKSGFLDARIAVKQVREAIEQQQPLPALGNRKDLAALSYAMSPEFLGDRVGAFIYAIGSMLVTAHGNRLEFYMTDTIDPRFVSNAARNIEKATWLLGQRQNKDGTPMLFSNEISEEGSNLSFAVEFGKIVARLDLLTQMLDERYRRIGLNYAQSLLFLNFLPVQ				NA	NA	NA	NA	NA
D1-35_00983	786			hypothetical protein	ATGGATTTCGGTAATGTCGGTTTAGTCGTAGCGGGACTGGTGGTCGGTTTCATCGTCGGGATGACCGGCGTCGGCGGCGGATCGCTGATGACGCCCATCTTATTGTGGTTCGGCATCAACCCTGCGACGGCGGTGGGGACCGATCTGCTGTACGCGGCCATTACCAAATCCGGCGGCGTTCTGGTCCATGCGAAAAACCGCAATATCGACTGGGCCATCACCGGTTGGCTGACTTTGGGCAGTGTGCCGGCGGTTGGGCTGACCCTGTGGTTTCTCAGCAGCCTGAACAGTTCTCCCGACGCGATGAACGCGGTCATCAAGCAAGCCCTGGGCTTTGTGTTGTTCGCCACCGCCCTGGCAATCCTGTTCAAGAAGCGCCTGCTGCAGTTTGCCCATGACCGCGCCGGCGGTCATTACAACCCCAGTGGCTCGCGGCTCAACCTGCTGACTGTCATCACCGGCCTGGTGCTGGGCACGATGGTCGCATTGACTTCCATCGGCGCCGGCGCCCTGGGCACCGTCGCGCTGTTCATCCTTTATCCGTTCCTGGTCACCAAGCGCCTGGTCGGCACCGAAATCGCCCATGCCGTGCCGTTGACCCTGGTCGCGGGCCTTGGCCATGCAAGCATGGGCAACATGGACTGGCACATCCTCGGCTTTCTGCTGATTGGTTCGTTGCCGGGCATCTATCTGGGCAGCCACTTGTCGGGACGCATTTCCGACGAGCTCCTGCGCCCTTGCCTGGCGGTGATGTTGGCCATGATCGGTTTCAAGCTCGCGTTCTGA	MDFGNVGLVVAGLVVGFIVGMTGVGGGSLMTPILLWFGINPATAVGTDLLYAAITKSGGVLVHAKNRNIDWAITGWLTLGSVPAVGLTLWFLSSLNSSPDAMNAVIKQALGFVLFATALAILFKKRLLQFAHDRAGGHYNPSGSRLNLLTVITGLVLGTMVALTSIGAGALGTVALFILYPFLVTKRLVGTEIAHAVPLTLVAGLGHASMGNMDWHILGFLLIGSLPGIYLGSHLSGRISDELLRPCLAVMLAMIGFKLAF				NA	NA	NA	NA	NA
D1-35_00984	1359		COG1926	putative protein	ATGAACAGCCCAGCCAGAGATCTGCTGCAACGCCTGCGCCGTCGTCGCGCCGAACCGCGCACCGATATCGCCGACATTCTGCGCCGTCACGCCGAACCGCTGCCTGCCGAGGACAGCCCGAGCTTTGGTGAAATGTTTGATCGCTTCGCCGACGCCAAGGTCGTGCTGATCGGCGAAGCCAGCCACGGCACCCATGATTTCTACCGCACCCGCGCTGCTATTACCCGGCACCTGATCGAGCGTCACGGCTTCGGCATTGTCGCGGTCGAAGCCGACTGGCCCGATGCCGGACAGATCGACCGCTGCGTGCGCGACCTGGGGCCTTCGGCCTGGAAACAGCAGGCGTTCGCCCGGTTTCCCAGCTGGATGTGGCGCAACACCGATGTCCAGGACTTTGTACGTTGGTTGCGCCGCTACAACCTCGGCCAGCCTGACGCTCGCCGCGTGGAGTTTCGCGGCTTGGACGTCTATAGTCTGCGCCACTCCATTGACGAGGTGCTCGATTACCTCGACAAGAGCCATCCCCACCTGGCCCGTGACGCCCGCCATCGTTATGGCTGTCTGACGCCCTGGCACGACGACCCGGCGCTGTATGGCCATTTCACCGAGCGCGGCAACCTGGCGACATGCGAAGACGCCGTGGTCGAACAGCTCAACACGCTGCTCGCCGAGCGCCTTGATCCGTTGATCGAGGATGACGAGGGCTTCTTCAGCGCGGTGCAGAACGCCCGGGTCGTACGCGCCGCCGAACAGTACTACCGCGCCATGTATCGCGGCGGCAAGTCATCCTGGAACCTGCGCGACCGGCACATGTTCGACACCTTGCAAAGCCTGCTGGAGCATCGCGGGCCCGATGCGAAAGCGATCGTCTGGGCGCATAACTCTCACATCGGAAACGCCGCCGCGACACGAATGGGCTGGGAGGGTGAGTTCAACATCGGCCAGTTGTGCCGCATGGCTTATGGCCGCGACGCGGTATTGCTGGGCATGGGCACCGACCGTGGCAGCGTGGCGGCAGCCGATGACTGGGACGCGCCGATGAAAATCAAGCAGGTGGTGCCGGCGCTGGCCGGCAGTTGGGAGCGGGAGTTTTCGCTGGCGGGTGTGCGCGCATCGCTTACGGACTGGCGGACCGACCCGGACGAAGCGCTGTTGGACGTGCTGTCCGAGCCGTTGCTCGAACGCGCCATCGGGGTGATCTACCGCCCTGAAACCGAACGCCAGAGTCATTATTTCGAAGCGGTACTGGCCGAGCAGTTCGACGCCTGGCTCTGGTTCGAGCAGACCGAAGCCGTCACGCCGTTGCCCACGCCGCACACGCTGGAACGCGAGGAAGACACCTTCCCGTTTGGCCTCTGA	MNSPARDLLQRLRRRRAEPRTDIADILRRHAEPLPAEDSPSFGEMFDRFADAKVVLIGEASHGTHDFYRTRAAITRHLIERHGFGIVAVEADWPDAGQIDRCVRDLGPSAWKQQAFARFPSWMWRNTDVQDFVRWLRRYNLGQPDARRVEFRGLDVYSLRHSIDEVLDYLDKSHPHLARDARHRYGCLTPWHDDPALYGHFTERGNLATCEDAVVEQLNTLLAERLDPLIEDDEGFFSAVQNARVVRAAEQYYRAMYRGGKSSWNLRDRHMFDTLQSLLEHRGPDAKAIVWAHNSHIGNAAATRMGWEGEFNIGQLCRMAYGRDAVLLGMGTDRGSVAAADDWDAPMKIKQVVPALAGSWEREFSLAGVRASLTDWRTDPDEALLDVLSEPLLERAIGVIYRPETERQSHYFEAVLAEQFDAWLWFEQTEAVTPLPTPHTLEREEDTFPFGL	PGPT0027980_349	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027980-ereA_B-K06880	NA	NA
D1-35_00985	549			hypothetical protein	ATGCTTATTCGGTCGTTGACCTTCGCTACCTTGCTGGCCATCGCCGGCCCGTTGTTCGCCGCCGATGGCGACTCACCCCTGGTAGCGGAGGTGGGCAAGTCCCGGCCTGTGATTGTCATTGCGCCCAGCTCTGTCGATCCTGCGTGGGTCAGCCTGAAGAAAGCCTTGGACGAGCCGGCGGGCAAGCAGGGTTTTTCGGAGCGCAACATGGTGCTCTATACCGTGCTCAATACCATCGGCCAGCGTGATGGCAAGGACCTCGACCCGCAAAGCACCATGGCGTTGATCCGTTCTCTCAAGCTGGGAGCGGGAGCGCAGACCAAGATCATCCTGGTAGGCAAGGACGGGGAAAAGAAGCTTGAGCATTCCGGCGCGATCGAACTGAAGCAACTGTTCGATACCGTCGACAAGCTGCCCGAGACGGAAAAACAAGCCACGGCGCCCACCCCACCGCCAGCGCCGGAACCCGAGCCGGCCAAGGACGCCAAAGGCACCAAGCCGGGCAAGGCAACCAAGCCTGCGGCTGCGCCGAAACCGTTGGATGACTGA	MLIRSLTFATLLAIAGPLFAADGDSPLVAEVGKSRPVIVIAPSSVDPAWVSLKKALDEPAGKQGFSERNMVLYTVLNTIGQRDGKDLDPQSTMALIRSLKLGAGAQTKIILVGKDGEKKLEHSGAIELKQLFDTVDKLPETEKQATAPTPPPAPEPEPAKDAKGTKPGKATKPAAAPKPLDD				NA	NA	NA	NA	NA
D1-35_00986	1149	ampC		Beta-lactamase	ATGCACATTGCCAAATCGATACTCGCCGGGACTTTTGCCCTGGCCTGCGGGACGACCCCGGGCTTCGCCCAGGAGCGCATTGAAGACACGGTCAATGCCGTTATCCAACCCTTGATGAAAGAACAGGATATCGCGGGCATGGCCGTGGCGATCACGCACAACGGCCAGCGCCGGTTCTTCAATTATGGCGTTGCCTCCAAAGACACCAGAAAATCCGTCACCGAGCAGACCCTGTTCGAAGTCGGCTCGATCAGCAAGACCTTTACCGCGACACTCGGCGCCTACGCCCAGGCCCAGGGCAAACTGCAGCTGTCAGACCTCGCCGGGCGCTATGCCCCCGAATTGCGTGGCAGTGCCCTTGAAAACGCCCGCCTGCTCGATCTCGCCACCTATAGCGCGGGCGGCCTGCCGTTGCAGTTTCCCGACGATGCCGACCATCCCGACCGGATGTTCGGCTACTACAAATCCTGGAAACCGCTCTACCCGGCCGGCACCCAGCGGCTCTATTCAAACCCGAGCATCGGCTTGTTCGGCTTCCTGGCGGCCCGCAGCCTGGGTCGACCGTTTGATGAGGTGATGGAACAGACCCTGATGCCCGGGCTGGGCCTCAAGCACAGCTACGTACAAGTGCCACACAATCAACTGGCAACCTACGCCCAAGGCTACGCCAAGGATGGCAAGCCTGTGCGGGTCGGGCCTGGCGCGCTGGCCTCCGAAGCCTACGGGGTGAAGATCAGCTCAGCGGACCTGATCCGCTTTGTCGAGGTCAATCTGCAACCCGGGAAACTGGACGCGGACCTGCAGCGAGCCATTGCTACGACACAAACAGGTTTCTACAAGATTGGAGGGATGCACCAGGGGCTGGGCTGGGAGTTCTACCTACCTCCGCTCACCCTCGATGGGTTGCTCGCCGGCAACAGTCCACAGATGGCTTTGACGCCGCAAAAGGCCGAGCTGCTCACCCCACCGCGCCCCGCGCCCGACGGCGCCTGGATCAACAAGACAGGGTCGACTAACGGTTTCGGCGCATACGCAGCGTTCGTCGCTGGAGAGGACTTGGGGATCGTGATGTTGGCGAACAAGAACTACCCGATTGAAGAACGGGTGAGAGCCGCGCACCAGATCCTGATGACTCTGGAACAGCAATGA	MHIAKSILAGTFALACGTTPGFAQERIEDTVNAVIQPLMKEQDIAGMAVAITHNGQRRFFNYGVASKDTRKSVTEQTLFEVGSISKTFTATLGAYAQAQGKLQLSDLAGRYAPELRGSALENARLLDLATYSAGGLPLQFPDDADHPDRMFGYYKSWKPLYPAGTQRLYSNPSIGLFGFLAARSLGRPFDEVMEQTLMPGLGLKHSYVQVPHNQLATYAQGYAKDGKPVRVGPGALASEAYGVKISSADLIRFVEVNLQPGKLDADLQRAIATTQTGFYKIGGMHQGLGWEFYLPPLTLDGLLAGNSPQMALTPQKAELLTPPRPAPDGAWINKTGSTNGFGAYAAFVAGEDLGIVMLANKNYPIEERVRAAHQILMTLEQQ	PGPT0028115_670	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028115-ampC-K01467	NA	NA
D1-35_00987	879	yfeX	COG2837	Dye-decolorizing peroxidase YfeX	ATGAGTTACTACCAGCCCGGCATTCTCGCCACCCCTGTTCCGCCTCAGGCCCGTCATCTGTTTTTTGCCCTGGAATCGGTCGAGGCACTGCCGGCTGCGATCGACAAGCTGTTGCTGCAACTGGATGGCCGCGTGGTAGTCGGCTTTGGCGAGTCGCTGGTTCAGGCGCTGGGCGCCAAGGTCGAGGGCTTGCGCGCGTTCCCGGCGCTGGCGGGCGTCGGCGTGGACAACCCTTCGACCCAGCACGCGCTCTGGTGCTGGCTGCACGGCGAGGACCGGGGCGAGCTGATGCACCGCAGTCGCGCCATCGAAGCGGCATTGGCGCCGGCACTGCGTCTGGTGCAGATGAACGAAACCTTTCGACACATGACCGGCCACGACCTGACCGGCTACGAAGATGGCACCGAAAACCCTCACGACGAAGCGGCCGTGGCCGCCGCCCTGGCCCAGGGCAACGACGGGCTGCGCGGTGGCAGTTTTGCTGCGATCCAGCAATGGCAGCATGACCTGGACGGTTTCGCCGCGATGCAGCCCCATGAGCGAGACAACATCATGGGCCGGCGCCTGAGCGATAACGAAGAGCTCGAAGATGCGCCTGAGTCTGCCCACGTCAAGCGCACGGCCCAGGAAAGCTTTGCTCCGGAGGCTTTTGTCGTACGCCGTTCCATGCCCTGGATCGAAGGTGACCGCGCTGGCCTGATGTTCCTGGCGTTCGGTTTTTCCCTGGACGCCTTCGAGGCGCAATTGCGGCGCATGAGCGGTCTGGAGGACGGTATTACCGATGGCCTGTATCGCATGAGCCGGCCGATTACCGGTGGTTACTACTGGTGCCCGCCGCAGTTGGACGGGCGCCTGGACCTGCGGGCTCTCGCCCGCTAA	MSYYQPGILATPVPPQARHLFFALESVEALPAAIDKLLLQLDGRVVVGFGESLVQALGAKVEGLRAFPALAGVGVDNPSTQHALWCWLHGEDRGELMHRSRAIEAALAPALRLVQMNETFRHMTGHDLTGYEDGTENPHDEAAVAAALAQGNDGLRGGSFAAIQQWQHDLDGFAAMQPHERDNIMGRRLSDNEELEDAPESAHVKRTAQESFAPEAFVVRRSMPWIEGDRAGLMFLAFGFSLDAFEAQLRRMSGLEDGITDGLYRMSRPITGGYYWCPPQLDGRLDLRALAR	PGPT0013090_1363	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013090-yfeX-K07223	NA	NA
D1-35_00988	747	ygfF_1		putative oxidoreductase YgfF	GTGGATAAAGTCATCGTCATCACCGGTGGCGGGCGTGGGATCGGGGCGGCCACGGCGTTGTTGGCGGCCGACCTGGGCTATCGGATCTGCATCAACTACCAGTCGGATGAAAACGCCGCCCAGGATGTGCTCGCCCAGATCCGTGCCAAGGGCGCGCAGGCCATTGCGGTGCGGGCCGACGTGAGCATCGAGGACGAAGTGGTCGGCCTGTTCAACCGCGTGGACACCGAGCTGGGCCGCGTCACCGCCCTGGTGAACAACGCCGGTACGGTTGCCCACAAGTCCCGACTCGATGAAATGTCCGAGTTCCGCATGCTCAAGATCCTGAAGACCAACGTGCTCGGGCCGATGTTGTGCGCCAAGCAGGCGGTGCTGCGCATGTCGCCCCGGCATGGCGGGCAGGGCGGCAGCATCGTCAACGTTTCCTCGGTTGCCGCCCGCTTGGGCGCACCGGGTGAATATGTCGACTACGCGGCTTCCAAGGGCGCATTGGACACCTTCACCGTCGGCCTTTCCAAGGAGGTCGCTGGCGAAGGTATTCGCGTCAATGCGGTCCGCCCGGGCTACATCTACACCGATTTCCATGCCCTCAGCGGCGATCCGGAGCGGGTCAGCAAGCTGGAATCGGCGATCCCCATGGCCCGGGGCGGACGTCCGGACGAAGTGGCCGAGGCGATTATCTGGCTGCTGTCCGACAAGGCTTCGTATGCGACCGGGACGTTTGTGGAGCTGGGGGGCGGGCGCTGA	MDKVIVITGGGRGIGAATALLAADLGYRICINYQSDENAAQDVLAQIRAKGAQAIAVRADVSIEDEVVGLFNRVDTELGRVTALVNNAGTVAHKSRLDEMSEFRMLKILKTNVLGPMLCAKQAVLRMSPRHGGQGGSIVNVSSVAARLGAPGEYVDYAASKGALDTFTVGLSKEVAGEGIRVNAVRPGYIYTDFHALSGDPERVSKLESAIPMARGGRPDEVAEAIIWLLSDKASYATGTFVELGGGR				NA	NA	NA	NA	NA
D1-35_00989	1410	norG_1	COG1167	HTH-type transcriptional regulator NorG	ATGAAACGCTACGAAAAATTTGCCGACGATATCGCCGAACTGATCCGCTCCGGCATGCTCGGGCCGGGCCAACGGGTGCCGTCGGTGCGCTACGCCAGCCAGACCTACGGCGTCAGTCCGTCCACCGTGTTCCAGGCTTATTACCTGCTGGAGCGACGTGGTCTGATCCGTGCCCGGCCGCGCTCCGGCTACTTCGTCAATCATCACGCGCCGAGCCCGTTCTGCGAGCCGGTCGCCAGCAGCCAGGTCCACGAGTCCACCGAGGTCGACGTCAGCGAACTGGTATTTTCGGTGCTCGACTCGATCAAGGATCCGACGACCGTACCGTTCGGCTCGGCATTCCCCAGCCCGACGCTGTTTCCCCTGCAACGCCTGTCCCGCTCGTTGTCCAGCGCCACGCGGGACATGGATCCGCGCGTAGTGGTCACCGACATGTCGCCGGGCAACCCTCAACTGCGCCGCCAGATCGCCCTGCGCTATATGGTCGGCGGGCTGATGCTCCCCATGGAGGAACTGCTCGTCACCAACGGCGCCCTGGAAGCATTGAACCTGTGCCTGCAAGCCGTGACCGAGCCGGGCGACCTGGTGGCAATCGAGGCGCCCGCGTTCTATGCCAGCCTGCAAGTGCTCGAACGGCTGAAACTCAAGGCGGTGGAAATCCCCGTCCACCCGCGCGACGGCATTGATCTCGATGTGCTGGAACAGACGCTGGCGCGCCATCCGGTCAAGGCCTGCTGGTGCATGACCAGCTTCCAGAACCCGATTGGCGCGACCATGCCCGAAGCGCGCAAACAGGCCCTGGTCGAATTGTTGCGTCGCTACCAGGTGCCGTTGATCGAGGATGATGTCTATGCCGAACTCTACTACGGCCAGCAGGCTCCCAAGCCGGCGAAAGCGTTCGACACCGAAGGCCTGGTGATGCACTGCGGCTCATTCGCCAAGAGTCTGGCCCCGGGCTACCGCATCGGCTGGGTCGCCGCCGGGCGCTACGCCCGGAAGATCGAGCGGCTCAAGCTGATGACTTCACTGTGCGCCTCGATGCCGGCCCAGGCCGCCATCGCCGATTACCTGCAACATGGAGGCTACGACCGTCACCTGCGCAAGTTGCGCTACGCCCTGGAAGAACAGCAAAGCGCCATGCTCGCCGCCATAGCCCGGTATTTTCCGGCGCAGACTCGGGTGAGCCAGCCGGCGGGTGGGTACTTCTTGTGGCTGGAGCTGCCGGAGCAGATTGATTCGCTGAAACTGTTCCAGATGGCTCTGGCGCAAGGCATCAGTATCGCACCGGGGCCGATCTTTTCAGCGACCCGGCGCTTCAGGAACTGTATTCGCCTGAACTATGGCGGGCCCTGGACCGATGTGTCGGAAAAGGCCATGGAGACGTTGGGGCGGATTATCCGGTCGTTCTGA	MKRYEKFADDIAELIRSGMLGPGQRVPSVRYASQTYGVSPSTVFQAYYLLERRGLIRARPRSGYFVNHHAPSPFCEPVASSQVHESTEVDVSELVFSVLDSIKDPTTVPFGSAFPSPTLFPLQRLSRSLSSATRDMDPRVVVTDMSPGNPQLRRQIALRYMVGGLMLPMEELLVTNGALEALNLCLQAVTEPGDLVAIEAPAFYASLQVLERLKLKAVEIPVHPRDGIDLDVLEQTLARHPVKACWCMTSFQNPIGATMPEARKQALVELLRRYQVPLIEDDVYAELYYGQQAPKPAKAFDTEGLVMHCGSFAKSLAPGYRIGWVAAGRYARKIERLKLMTSLCASMPAQAAIADYLQHGGYDRHLRKLRYALEEQQSAMLAAIARYFPAQTRVSQPAGGYFLWLELPEQIDSLKLFQMALAQGISIAPGPIFSATRRFRNCIRLNYGGPWTDVSEKAMETLGRIIRSF	PGPT0026010_15	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
D1-35_00990	1413			hypothetical protein	ATGAGCGAAAGAATCCCCGCCCAGTTGATACAGACTTTCGACCCCGCCCCCACGAGAATCAGGGCCAGGACTACCGACAACCTGATCCACACCCGTAGCTTCAGCGGTTTGTTTCGTACCCTGCGCATCAGCGGTGCCGGCGTCCTGTTCCTGCTGTTCTTCGGCACGGTTTGGCTGGACTGGAACGGTCGCCAGGCAGTGCTCTGGGATCTTTCCGAGAGCAAATTCCATATTTTCGGCGCGACCTTCTGGCCCCAGGACTTCATCCTGCTCTCGGCGTTGTTGATCATTGCCGCGTTCGGCCTGTTTGCGATTACCGTGTTCGCCGGGCGCGTGTGGTGCGGCTACACCTGTCCTCAGAGCTCATGGACCTGGATCTTCATGTGGGTCGAGAAGATCACCGAAGGTGAGCGCAATCAGCGGATCAAGCTGCAAGCCGCGCCGTGGGGCGTGAACAAACTGCTGCGACGCTCGGCCAAACATACGTTGTGGCTGGCCATCAGCCTGCTCACCGGCCTGACGTTCGTAGGCTACTTCACCCCGATCCGGCCGCTGGCGGAAGAGCTGCTGACCCTGCAAATGGCTGGCGTCAGCCTGTTCTGGGTGGTTTTTTTCACCGGGGCCACTTACGTCAACGCCGGCTGGCTGCGCGAAGCCGTGTGCATGCACATGTGCCCTTATGCGCGATTTCAGAGCGTGATGTTCGACAAGGACACGCTGACCGTTTCCTACGACGTGGCCCGTGGCGAAATTCGCGGCCCGCGCAAACGCGATGCGGTCCCGGCCAACATCGGGCTGGGCGACTGCATTGACTGCCAGATGTGCGTACAGGTCTGCCCGACCGGCATCGATATTCGCGACGGTCTGCAAATGGAGTGCATCGGCTGCGCGGCCTGCATCGACGCCTGCGATTCGATCATGGACAAGATGGGCTACGCCCGTGGCCTGATCAAATACACCTCCGAACGTCAGCTGCAAGGCGGCAAGACTCACCTGCTGCGACCACGGCTGGTCGGCTACACGGCGGTATTGATGGTCATGATCGCTGCGCTGGCCCTGGCACTGGTGGAGCGGCCAATGGTGTCGCTGGATGTGAGCAAGGACCGTGGCCTGTTCCGTGAGAACAGCCAGGGCCAGATCGAAAACATCTACAGCCTGAAGATCATCAACAAGACCCAGCAACGCCAGGCGTATCAATTATCGCTGGCGGACGGCGCTGGTTTCGTCCTGCAAGGCAAGACCCAGTTGAGCCTGGCGCCCGGAGAAATCGTCGACGTGCCGGTGTCGGTGGCGATGCTCAACGAACGGCCGGACAAAGGCTCGCAGGAACTGACGTTCAAAGTTGCCGACAGTGATAAGCCCGATGTTTACAGCGAAGCAAAAAGCCGTTTTGTAGCACCGATGAATCGGTGA	MSERIPAQLIQTFDPAPTRIRARTTDNLIHTRSFSGLFRTLRISGAGVLFLLFFGTVWLDWNGRQAVLWDLSESKFHIFGATFWPQDFILLSALLIIAAFGLFAITVFAGRVWCGYTCPQSSWTWIFMWVEKITEGERNQRIKLQAAPWGVNKLLRRSAKHTLWLAISLLTGLTFVGYFTPIRPLAEELLTLQMAGVSLFWVVFFTGATYVNAGWLREAVCMHMCPYARFQSVMFDKDTLTVSYDVARGEIRGPRKRDAVPANIGLGDCIDCQMCVQVCPTGIDIRDGLQMECIGCAACIDACDSIMDKMGYARGLIKYTSERQLQGGKTHLLRPRLVGYTAVLMVMIAALALALVERPMVSLDVSKDRGLFRENSQGQIENIYSLKIINKTQQRQAYQLSLADGAGFVLQGKTQLSLAPGEIVDVPVSVAMLNERPDKGSQELTFKVADSDKPDVYSEAKSRFVAPMNR				NA	NA	NA	NA	NA
D1-35_00991	237			hypothetical protein	ATGACTGTACGAATCGATGACAACCAGACCTGCCACTTCGACACCCCCAACGTCCAGGAACAGCGACCGGCGTGCGAGTTGACGATCATTACCGACCCGGACAAGGCCATGTCAGCCGTGGAGCTCAATGGCGGGCGGGTCTACCTGACCGAGGCGGAAGTGGATGCCCTGACCGTGGCCGGAGCGGCTGACGGACGGCAGAACCTGAAGGCGACTGACAGCGACTCAGTGATCTGA	MTVRIDDNQTCHFDTPNVQEQRPACELTIITDPDKAMSAVELNGGRVYLTEAEVDALTVAGAADGRQNLKATDSDSVI				NA	NA	NA	NA	NA
D1-35_00992	501			hypothetical protein	ATGGAATCGTGGTGGGATGAAGTATGGATAACCCTGCAAGCTGAATTCGCCGACATCACCGATACCGAGCAGATGACACGGGTGACGGTGCGCCTGGTAATGGCTGCACTGCTGGGGGGCATCCTGGGGTTCGAGCGTGAGCACAAGGGCAAGGCCGCCGGCGTGCGCACCCATATGCTGGTGGCGCTGGGCGCCGCGCTGTTCGTGTTGGTGCCGCAGATGTCCGGCTCCCAGGCCGACGCGATGAGCCGGGTGATTCAGGGCGTCGTCGCTGGCATCGGCTTCCTCGGCGCCGGCACCATCCTGAAAAACGACAATGGCGACGAAAGCCACGTAAAAGGCCTGACCACCGCCGCCGGCCTGTGGATGACCGCCGCCATCGGCGTTGCCGCCGGATTGGGCCGGGAAGCGACAGCGTTGCTCAGTACGGTGCTGGCGCTGGCGATTTTCAGTGTGATGCCGATGATTGTTCGGGCGCTGGAAAAAGATGAAAAGTTGTAA	MESWWDEVWITLQAEFADITDTEQMTRVTVRLVMAALLGGILGFEREHKGKAAGVRTHMLVALGAALFVLVPQMSGSQADAMSRVIQGVVAGIGFLGAGTILKNDNGDESHVKGLTTAAGLWMTAAIGVAAGLGREATALLSTVLALAIFSVMPMIVRALEKDEKL	PGPT0014005_2650	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014005-mgtC-K07507	NA	NA
D1-35_00993	165			hypothetical protein	ATGACCATTCCCATCCCGGCCGAAACACCCGATCCGAACATCGACGACCCAATCCTGCCGCCACCCGGTCCGGATCCCGAGCCGATTCCAGAGAAGGACCCACCGCTGGACCCGCAACCGCCTTTGGGAGATCCGCCGAGCGAGGCGCCGCCGGAGCGGGTTTGA	MTIPIPAETPDPNIDDPILPPPGPDPEPIPEKDPPLDPQPPLGDPPSEAPPERV				NA	NA	NA	NA	NA
D1-35_00994	1998	glgE2	COG0366	Alpha-1,4-glucan:maltose-1-phosphate maltosyltransferase 2	ATGACTGCCGAACAGCCAAATGACCTGGCGTACAACCCGCATCTGCCGTTGTCCCAGGCGTTGTTATTGCCACGTATTGCGATTGAAAACACCATGCCGGTGATCGATGGCGGGCAGTTTGCCGCCAAGGCCCTGGCGGGACAGGACGTGACGGTGACCAGCAAGGTGTTTGCCGATGGCCACGATAAGTTGGCTGTGCGGATCCGCTGGCGTGCGCTGGAAGACGATATCTGGAACAGCGAAGTGATGACCGAGCTGGGCAACAACAGCTGGCGCGGTCAATTTAACCTACCGGCCGTCGGCCGCTACGTGTTTTGCATCGAGGCCTGGTTTGATCAGTTCGCCAGCTTCCGCTATGAGCTGGAAAAAAAATTCGCCGCCGGGGTCCCCATCAGCCTGGAGCTGCAGGAGGGTCGCAATCACGTGCAACAGGCTGCCGAGCGCAGCGATGGGGAATTGAGCGAACAGCTGGCCGAGTTGCACCAGCAGCTTTCGAGTCTGTTGCCAGAAGAACAGGTCGCCCTGTTCCTTGAACCACGCAGCGCGGACCTGATGTCGCTGGCTGACCATCGGCCTTACCTGAGCATCAGTCCCGAATATCCGCTGGACGTGGAGCGTGAGCGGGCCGAGTTCGCCAGCTGGTATGAGTTGTTCCCTCGCTCGATCACCGATGATCCCAGCCGCCACGGCACGTTCAACGACGTGCATTCGCGCTTGGCGGTGATCCAGGACATGGGCTTCGACGTGCTGTACTTCCCGCCGATCCACCCGATCGGGCGCAGTTTCCGCAAAGGTCCGAACAACTCCCTGACCGCCGGCCCCGACGATCCGGGCAGCCCTTACGCCATTGGCAGCGAGGAGGGCGGGCACGAGGCGATTCACCCGCAGTTGGGCACTCGCGAGGATTTCCGCCGTCTGGTGGCCGCCGCAGCCGATCACGGCCTGGAAATCGCCCTCGACTTCGCCATCCAGTGTTCCCAGGACCACCCCTGGCTCAAGCAGCATCCGGGCTGGTTCAGCTGGCGGCCTGACGGCACGATCAAATACGCGGAGAACCCGCCGAAAAAATACCAGGACATCGTCAACGTCGATTTCTACGCCGCCGATGCGATACCGAGCCTGTGGACCGAACTGCGCGACATCGTGGTGGGCTGGGTCAACGAGGGTGTGAAGATATTCCGCGTCGACAATCCCCACACCAAGCCGTTGCCGTTCTGGCAGTGGCTGATCGCCGACGTGCGCGCGCAGTACCCAGAGGTGATGTTCCTGGCGGAAGCCTTCACCACACCGGCGATGATGGCGCGGCTGGGCAAGGTCGGTTATTCCCAGAGCTACACCTATTTTACCTGGCGCAACACCAAGGCCGAACTGGCGACCTATTTCACTGAGCTCAATGAGTCGCCTTTGCGCGAATGCTACCGGCCGAATTTCTTCGTCAATACGCCGGATATCAACCCGGCGTTCCTCCACGAGTCGGGGCGCGCCGGTTTTCTGATTCGCGCCGCGCTGGCGACCATGGGGTCGGGCCTGTGGGGCATGTATTCGGGCTTCGAGCTTTGCGAATCAGCAGCGGTGCCAGGCAAGGAGGAATACCTCGATTCGGAGAAGTATGAGATTCGGCCACGGGATTTCACCGCGCCGGGCAACATCATCGCCGAGATCGCTCAGCTCAACCGTATCCGCCGCCAGAACCCGGCGCTGCACACGCACCTGGGGCTGAAGATCTACAACGCCTGGAACGACAACATCCTGTACTTCGGCAAGCGCACGCCGGATGGCAGCAACTTCATCCTGGTGGCGGTGAGCCTCGATCCGCGCAATGTCCAGGAAGCCAATTTCGAATTGCCGTTGTGGGAGATGGGCCTGCCGGACGATGCCCAGACCCAGGGCGAGGATTTGATGAACGGCCACCGCTGGACCTGGTATGGCAAGTACCAGTTCATGCGGATCGACCCGGCATACCAGCCGTTCGGGATCTGGCGGATCAGCGTGGCGTGA	MTAEQPNDLAYNPHLPLSQALLLPRIAIENTMPVIDGGQFAAKALAGQDVTVTSKVFADGHDKLAVRIRWRALEDDIWNSEVMTELGNNSWRGQFNLPAVGRYVFCIEAWFDQFASFRYELEKKFAAGVPISLELQEGRNHVQQAAERSDGELSEQLAELHQQLSSLLPEEQVALFLEPRSADLMSLADHRPYLSISPEYPLDVERERAEFASWYELFPRSITDDPSRHGTFNDVHSRLAVIQDMGFDVLYFPPIHPIGRSFRKGPNNSLTAGPDDPGSPYAIGSEEGGHEAIHPQLGTREDFRRLVAAAADHGLEIALDFAIQCSQDHPWLKQHPGWFSWRPDGTIKYAENPPKKYQDIVNVDFYAADAIPSLWTELRDIVVGWVNEGVKIFRVDNPHTKPLPFWQWLIADVRAQYPEVMFLAEAFTTPAMMARLGKVGYSQSYTYFTWRNTKAELATYFTELNESPLRECYRPNFFVNTPDINPAFLHESGRAGFLIRAALATMGSGLWGMYSGFELCESAAVPGKEEYLDSEKYEIRPRDFTAPGNIIAEIAQLNRIRRQNPALHTHLGLKIYNAWNDNILYFGKRTPDGSNFILVAVSLDPRNVQEANFELPLWEMGLPDDAQTQGEDLMNGHRWTWYGKYQFMRIDPAYQPFGIWRISVA	PGPT0018610_961	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018610-glgE-K16147	NA	NA
D1-35_00995	3345			Glucosamine kinase	ATGGCCAAGAAACCCCGGTCTGCCACCTTTATCAATGACCCGCTCTGGTACAAGGACGCGGTCATCTATCAAGTCCACGTCAAATCCTATTTCGACTCCAACAACGACGGGATCGGCGACTTTCCCGGGCTGATCGAGAAGCTCGACTACATTGCCGACCTGGGCGTCAACACCATCTGGCTGCTGCCGTTCTATCCTTCGCCCCGGCGCGATGACGGTTATGACATTGCCGAGTACCGTGGCGTCAGCCCCGACTACGGCACCATGGCCGATGCGCGGCGCTTCATTGCCGAGGCCCACAAGCGCAACCTGCGGGTCATCACCGAGCTGGTCATCAACCACACCTCGGACCAGCATCCCTGGTTCCAGCGCGCGCGCAAGGCCAAGAAGGGCTCGAAGGCGCGTGATTTCTACGTCTGGTCGGATGACGATCACAAGTACGACGGCACGCGGATCATTTTCCTCGATACCGAGAAGTCCAACTGGACCTGGGATCCGGTGGCCGGCCAGTACTTCTGGCACCGCTTCTATTCCCACCAGCCGGACCTCAACTTCGACAACCCGCAGGTCATCAAGGCCGTGCTGTCGGTGATGCGCTACTGGCTCGACATGGGCATCGATGGCCTGCGCCTGGACGCGATTCCGTACCTGATCGAGCGCGACGGCACCAACAACGAAAATTTGCCCGAGACTCATGACGTCCTCAAGTTGATCCGCGCCGAGATCGACGCCAATTACCCCGACCGCATGCTGCTGGCCGAGGCCAATCAGTGGCCGGAAGACACCCAGCTGTATTTTGGCGATGTCGACGCTCAAGGCCTCAATGGCGACGAATGCCACATGGCGTTCCACTTCCCGTTGATGCCGCGCATGTACATGGCGCTGGCCCAGGAGGATCGTTTCCCGATCACCGACATCCTGCGCCAGACTCCGGAGATTCCAGCCAATTGCCAATGGGCGATTTTCTTGCGCAACCACGATGAGCTGACCCTGGAAATGGTCACCGACAAGGAGCGCGATTACCTATGGAATTACTACGCGGCCGATCGCCGGGCGCGGATCAACCTGGGCATTCGCCGTCGCCTGGCGCCGCTGATGGAGCGCGACCGTCGCCGCGTGGAATTGCTCAACAGTTTGCTGCTGTCGATGCCCGGTACGCCGACTTTGTACTACGGCGATGAAATCGGCATGGGCGACAACATCTACCTCGGTGACCGCGACGGCGTGCGCACGCCGATGCAGTGGTCCATCGACCGCAACGGCGGTTTCTCCCGCGCCGACCCGGCGAGTCTGGTGCTGCCGCCGATCATGGATCCACAGTACGGCTACCTCTCGGTGAACGTCGAGACCCAGGCCGGCGACCCGCACTCGCTGCTCAACTGGACCCGTCGGATGCTCGCGGTGCGCAAGCAGTCCAAGGCCTTCGGCCGGGGCACGCTGAAAATGCTGTCGCCGAGTAACCGCCGGATCCTTGCCTACACCCGTGAATACACCGGCCCGGATGGCAAGCATGAAATCATTCTCTGCGTCGCCAACGTTTCACGTAGCGCCCAGGCGGCGGAGCTGGACCTCTCGGCCTATGCCGGCATGGTCCCGGTGGAAATGCTCGGGGGTAATGCCTTCCCGCCCATCGGTCAGTTGAATTTCCTCCTGACCCTGGCGCCGTACGGCTTCTACTGGTTCGCCCTGGCGGCGGAAAACCAGATGCCGAGCTGGCATGTGGAACCTGCGCAGAGCCTGCCGGACTTCACCACGCTGGTACTGAAAAAGCGCTTGGAAGAATTGCTCGAGGCGCCGTCACGCACCACGTTGGAGCAGAGCATTCTGCCAAGCTGGCTGCAGAACCGTCGCTGGTTCGCCGGCAAGGACAGCGCTATCGAGAAAGTCGACATCGTCTATGGCGTGCGCTTCGGTGATCCGCAACGGCCTGTGCTGTTGAGCGAAATCGACGTGACCAGTGCCGGTCAGACGCTGCGCTATCAACTGCCATTCGGTCTGTTGGCCGAGGACCAGGTGGGCCCGGCGCTGCCCCAGCAACTGGCCTTGTCGCGGGTCCGCCGGGGGCGTCAGGTCGGGCTGATTACCGATGCGTTCACCCTGGAGAGCTTCGTGCGAGCCGTGATGCAAGGCATCCAGGCCAACACGGTATTGCCGTGCGCCGATGGCGAGTTGCGTTTTGAACCCACCGCAGGCCTGGCGGCGCTGAACCTTGGCGCCGAGCCGGAGGTGCGCTACCTGTCCGCCGAGCAGTCCAACAGTTCGGTGGTGGTTGGCGGCAGCCTAGTGCTCAAGCTCATCCGCAAGGTCGCGTCGGGCGTGCATCCGGAACTGGAGATGAGCGCTTACCTGACCGCTGCCGGCTTCAGCAATATTTCGCCGCTGCTGGGTTCGGTGATTCGCCGCGACGCGAGGGGCGAGGATGCGCTGCTGATGATCGCCCAGGGTTACCTGAGCAATCAGGGTGATGCGTGGGAATGGACACAGAACAACCTCGAGCGCGCCTTGCGCGACGAACTGGCGGACGCGGTGTCCGAACAGGAACAGCACTACAACGCCCTGGGCGAGCTGAAGGACTTCGCCGGCATGCTCGGCCAGCGTCTGGGGGAAATGCACAAGGTGCTTGCCCAGCCCACCGACAACCCGGACTTCGCGCCGCAGGCCACCAGCACCAAAGAGGCCCAGGCGATCGGCAAGGACGTTGTCGCCCAGGTGGAAAACGCCTTGCGTCTGCTCAAGCAGAACCAGGGGCAATTGAACCCGGCGGACCAAGCCATGGTCGCACGCTTGCTGGAACACAGGAAAACCGTGCTGGCCCATGTCCAGGAACTGGCCGGCAAGGCGGCCGGTGGCTTGCGTATCCGGGTGCATGGCGACCTTCACCTGGGGCAGGTGCTGGTGATCAAGGGCGACGCCTACCTGATCGACTTCGAGGGTGAGCCGGCGCGGCCGTTGCATGAGCGGCGTGGCAAGCACAGCCCGTACAAAGACGTCAGCGGCGTGCTGCGTTCCTTCGATTACGCGGCAGCGATGGCGGTCCAACTGCACACCGTGGACACGACGGCCGACGCCGATGCGGCGCGCAAACGGGTCGCCGACCGCTATTTGATTGAGGCCCGCCAGGCATTTGTCGAGGCGTATCGGCTGGCGGCAGCTAGTCTTGCCCATGAATGGAAGGATGCTGAAGGCGAGGACGCCGCGCTGGCGTTGTTCGGCCTGGAGAAGGCGGCCTATGAAGTGGCTTATGAAGCCGAGAATCGCCCCGCCTGGCTGCCCGTGCCGTTGCACGGTCTGTACGGGCTGTTGAGTGGGCTGCAACCCTTTTCCGATTTAGCCGGACCGATTTAG	MAKKPRSATFINDPLWYKDAVIYQVHVKSYFDSNNDGIGDFPGLIEKLDYIADLGVNTIWLLPFYPSPRRDDGYDIAEYRGVSPDYGTMADARRFIAEAHKRNLRVITELVINHTSDQHPWFQRARKAKKGSKARDFYVWSDDDHKYDGTRIIFLDTEKSNWTWDPVAGQYFWHRFYSHQPDLNFDNPQVIKAVLSVMRYWLDMGIDGLRLDAIPYLIERDGTNNENLPETHDVLKLIRAEIDANYPDRMLLAEANQWPEDTQLYFGDVDAQGLNGDECHMAFHFPLMPRMYMALAQEDRFPITDILRQTPEIPANCQWAIFLRNHDELTLEMVTDKERDYLWNYYAADRRARINLGIRRRLAPLMERDRRRVELLNSLLLSMPGTPTLYYGDEIGMGDNIYLGDRDGVRTPMQWSIDRNGGFSRADPASLVLPPIMDPQYGYLSVNVETQAGDPHSLLNWTRRMLAVRKQSKAFGRGTLKMLSPSNRRILAYTREYTGPDGKHEIILCVANVSRSAQAAELDLSAYAGMVPVEMLGGNAFPPIGQLNFLLTLAPYGFYWFALAAENQMPSWHVEPAQSLPDFTTLVLKKRLEELLEAPSRTTLEQSILPSWLQNRRWFAGKDSAIEKVDIVYGVRFGDPQRPVLLSEIDVTSAGQTLRYQLPFGLLAEDQVGPALPQQLALSRVRRGRQVGLITDAFTLESFVRAVMQGIQANTVLPCADGELRFEPTAGLAALNLGAEPEVRYLSAEQSNSSVVVGGSLVLKLIRKVASGVHPELEMSAYLTAAGFSNISPLLGSVIRRDARGEDALLMIAQGYLSNQGDAWEWTQNNLERALRDELADAVSEQEQHYNALGELKDFAGMLGQRLGEMHKVLAQPTDNPDFAPQATSTKEAQAIGKDVVAQVENALRLLKQNQGQLNPADQAMVARLLEHRKTVLAHVQELAGKAAGGLRIRVHGDLHLGQVLVIKGDAYLIDFEGEPARPLHERRGKHSPYKDVSGVLRSFDYAAAMAVQLHTVDTTADADAARKRVADRYLIEARQAFVEAYRLAAASLAHEWKDAEGEDAALALFGLEKAAYEVAYEAENRPAWLPVPLHGLYGLLSGLQPFSDLAGPI	PGPT0014120_253	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0014120-treS-K05343	NA	NA
D1-35_00996	2235	glgB_1	COG0296	1,4-alpha-glucan branching enzyme GlgB	ATGAGCGTCTCGAACAAGGAAACCCAGGGGCAGGCCAAAGAGGCATTGTTGCCGGCCCCCCGCGACATCGACGCGCTGGTGCGCGCCGAACACCAAGATCCGTTCTCGATCCTGGGCCCGCATGGCGACGGGGCGGGCGGACAATTTATCCGCGCGTACCTGCCCGGTGCGTTGAGCGTGCATGTGCTCGCCCGTGACGGCGGCGAGGAGCTGGGCGAATTGCAGGCCACCGAAACGCCGGGCCTGTTCGTCGGCCATTTCGACCGCGCACAGCCGTACCTGCTGCGCACCCGTTGGGCGGGCGGCGAGCAGGTTGCCGAAGACCCCTACAGCTTCGGCCCGCTGCTGGGGGAGATGGATCTTTACCTGTTCGCCGAAGGCAATCACCGCGACCTCAGCGCGTGCCTCGGTGCGCAACTGAAGACGGTTGATGGCGTCGACGGTGTGCGCTTCGCGGTCTGGGCGCCGAACGCGCGCCGGGTGTCGGTGGTGGGGGACTTCAACGTCTGGGACGGGCGCCGGCATCCAATGCGCATCCGTTATCCGTCCGGCGTGTGGGAGATATTCATCCCGCGGCTCGGTCCGGGTGAAGGCTACAAATACGAAATCCTTGGCGCCCACGGCATCCTGCCGCTCAAGGCCGACCCGGTGGCCCTGGCCACCCAGATGCCACCGGACACGGCATCCAAGGTCGCCGCGCCGTTGAAAATCGAATGGCAAGACGACGAGTGGATGCAAAGCCGCCGCGAGCGCCAGCTACCCGGCGCGCCGCTGTCGATCTACGAGTTGCATGCCGGTTCCTGGCAGTGCGAGATCGACGAGGCGGGGGAGGTTTCCCGGCAGTACAACTGGCATGAAATGGCCGAGCGGTTGATTCCCTACGTCAAGGACCTGGGCTTCACCCACATCGAACTGATGCCGATCATGGAACACCCGTTTGGCGGCTCGTGGGGCTATCAACCGCTGTCGCAATTTGCCCCAACCGCGCGTTTCGGTTCGCCCGATGATTTCGCCGCGTTCGTCAACGCCTGCCACCAGGCCAATATCGGCGTGATCCTCGATTGGGTGCCGGCGCATTTCCCGACCGATACCCACGGCCTGGCCCAGTTCGACGGGACCGCGCTGTATGAATACGGCAACCCGCTGGAAGGCTTCCACCAGGATTGGGACACGCTGATCTACAACCTCGGGCGCACCGAAGTCCATGGGTTCATGCTGGCCTCGGCCTTGCATTGGCTCAAGCATTTCCATGTCGACGGCCTGCGGGTGGATGCGGTGGCCTCGATGCTGTATCGCGACTATTCGCGCAAGGCCGGCGAGTGGGTACCCAACCGCCACGGCGGACGGGAGAACCTGGAAGCCATCGACTTCCTGCGCCACCTCAACGACGTGGTTGCACTGGAGACGCCCGGCGCGCTGGTGATTGCCGAGGAGTCCACGGCGTGGCCGGGTGTCAGCCAGAGCACGCAGCAGGGCGGCCTGGGTTTCGCCTACAAATGGAACATGGGCTGGATGCACGATTCGCTGCATTACATCCAGCAGGACCCGGTGTACCGCGCTCATCACCACAACGAACTGAGCTTCGGCCTGGTTTACGCCTGGTCCGAGCGTTTTGTCTTGCCGATTTCCCATGACGAAGTGGTCCACGGCAAACGCTCGCTGATCGACAAGATGCCCGGTGACCGCTGGCAGAAATTCGCCAACCTGCGCGCCTACCTGAGCTTCATGTGGGGCCATCCCGGCAAGAAACTGTTGTTCATGGGCTGCGAGTTTGGCCAATGGCGCGAGTGGAACCATGACCAGCAATTGGACTGGTACCTGCTGCAATACCCCGAGCACCGGGGCGTGCAGAAGCTGGTGAGCGACCTGAACCGGCTCTATCGCGAAGAACCGGCGCTGCATGACCAGGACGATGCGCCGCAAGGCTTCCAATGGCTGATTGGTGACGATGCGGTCAACAGTGTCTATGCATGGCTGCGCTGGAGCAAGGATGGCCGGCCGGTACTGGTGGTCGCCAACTTCACGCCGGTGCCGCGCGAGGCGTATCGGGTCGGCGTGCCGTTTGGCGGACGCTGGGTGGAATTGCTCAACAGCGACGCCGACACCTATGCCGGTTCCAACTATGGCAACGGCGGCGGTGCATCCACCGAGGCGATCCCCAGCCATGGCCAGGCGCTGTCGCTGGAACTGAACCTGCCGCCGCTGGCGGTGCTGATCCTGCGACCGGAGGGATAG	MSVSNKETQGQAKEALLPAPRDIDALVRAEHQDPFSILGPHGDGAGGQFIRAYLPGALSVHVLARDGGEELGELQATETPGLFVGHFDRAQPYLLRTRWAGGEQVAEDPYSFGPLLGEMDLYLFAEGNHRDLSACLGAQLKTVDGVDGVRFAVWAPNARRVSVVGDFNVWDGRRHPMRIRYPSGVWEIFIPRLGPGEGYKYEILGAHGILPLKADPVALATQMPPDTASKVAAPLKIEWQDDEWMQSRRERQLPGAPLSIYELHAGSWQCEIDEAGEVSRQYNWHEMAERLIPYVKDLGFTHIELMPIMEHPFGGSWGYQPLSQFAPTARFGSPDDFAAFVNACHQANIGVILDWVPAHFPTDTHGLAQFDGTALYEYGNPLEGFHQDWDTLIYNLGRTEVHGFMLASALHWLKHFHVDGLRVDAVASMLYRDYSRKAGEWVPNRHGGRENLEAIDFLRHLNDVVALETPGALVIAEESTAWPGVSQSTQQGGLGFAYKWNMGWMHDSLHYIQQDPVYRAHHHNELSFGLVYAWSERFVLPISHDEVVHGKRSLIDKMPGDRWQKFANLRAYLSFMWGHPGKKLLFMGCEFGQWREWNHDQQLDWYLLQYPEHRGVQKLVSDLNRLYREEPALHDQDDAPQGFQWLIGDDAVNSVYAWLRWSKDGRPVLVVANFTPVPREAYRVGVPFGGRWVELLNSDADTYAGSNYGNGGGASTEAIPSHGQALSLELNLPPLAVLILRPEG				NA	NA	NA	NA	NA
D1-35_00997	1344	gudD_1		Glucarate dehydratase	ATGACTACCCAAGAAACCAGCAAAGCCCCGATCATCACCAGCATGCAAGTTGTGCCCGTGGCTGGCCACGACGGCATGTTGCTCAACCTCAGCGGTGCCCATGGCCCGTTTTTCACCCGCAACATCGTGATTCTCAAGGACAACGCAGGGCATACTGGCGTGGGCGAAGTGCCCGGCGGTGAGCGCATTCGCCAGACCCTTGAAGATGCTCGCTCACTGGTGGTTGGCAGCCCGATCGGCACCTACCAGAAAATCCTCAACAGCGTACGCCAGGCCTTTGCCGATCGTGACGCCGGCGGTCGCGGCCTGCAGACCTTCGACCTGCGTATCACCATCCACGCCGTCACCGGCCTGGAAGCTGCGTTGCTCGACCTGCTCGGCCAGCACCTGGATGTACCGGTCGCCGCCCTGCTCGGCGAAGGCCAGCAGCGCGATGAAGTGAAGATGCTCGGCTACCTGTTCTACGTCGGTGATCGCCAGCAGACCGACCTGCCCTACCGCAGCGAACCGCAGGCTGAAAACGACTGGTTCCGCGTACGCCACGAAAAAGCCCTGGACGCTGACGCGGTGGTACGTCTGGCCGAGGCGGCCCACGCGCACTATGGCTTCGAGGATTTCAAGCTCAAGGGCGGCGTGCTCAGGGGCGATGAAGAGATCGAAGCGGTGACGGCGTTGGCCGAGCGTTTCCCCCAGGCGCGCATCACCTTGGACCCGAACGGCGCCTGGTCACTCAAGGAGGCCATCCGCCTGTGCCGTGACCAGCACAAGGTGCTGGCCTATGCCGAAGACCCTTGCGGTGCCGAGAATGGTTATTCGGGTCGTGAAGTCATGGCCGAATTCCGTCGCGCCACAGGCCTCAAGACCGCCACCAACATGATTGCCACCGACTGGCGCGAAATGGGTCACGCGATTACGTTGCAGTCGGTCGACATTCCCTTGGCGGACCCGCATTTCTGGACGATGCAGGGTTCGGTGCGGGTGGCGCAAATGTGCAATGAATGGGGCCTGACCTGGGGCTCTCACTCCAACAATCACTTCGATATTTCCCTGGCGATGTTTACCCACGTCGCGGCCGCCGCACCGGGCGACATCACCGCCATCGACACTCACTGGATCTGGCAGGACGGCCAACGGCTGACCAAGGCGCCCTTGCAGATCCGCGGTGGCTGCGTGCAGGTGCCGAAGAAACCGGGGCTGGGGATCGAACTGGACATGGACCAGTTGGCCAAGGCTCATGAGTTGTACAAAGGCATGGGACTTGGGGCGCGGGATGATTCGGTGGCGATGCAGTATCTGATCCCGGGCTGGACATTCAACAACAAGCAGCCGTGCCTGGTGCGCTGA	MTTQETSKAPIITSMQVVPVAGHDGMLLNLSGAHGPFFTRNIVILKDNAGHTGVGEVPGGERIRQTLEDARSLVVGSPIGTYQKILNSVRQAFADRDAGGRGLQTFDLRITIHAVTGLEAALLDLLGQHLDVPVAALLGEGQQRDEVKMLGYLFYVGDRQQTDLPYRSEPQAENDWFRVRHEKALDADAVVRLAEAAHAHYGFEDFKLKGGVLRGDEEIEAVTALAERFPQARITLDPNGAWSLKEAIRLCRDQHKVLAYAEDPCGAENGYSGREVMAEFRRATGLKTATNMIATDWREMGHAITLQSVDIPLADPHFWTMQGSVRVAQMCNEWGLTWGSHSNNHFDISLAMFTHVAAAAPGDITAIDTHWIWQDGQRLTKAPLQIRGGCVQVPKKPGLGIELDMDQLAKAHELYKGMGLGARDDSVAMQYLIPGWTFNNKQPCLVR	PGPT0018180_332	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018180-gudD-K01706	NA	NA
D1-35_00998	1347	ttuB_1		Putative tartrate transporter	GTGAACTCATCCAGCCTCAAGGCAGATGCCGGCGCGGATCCGGTGCTGTCCTCGGCCATATCCAAGGTCAAGCGCCACATCCTGCCGCTGTTCGTCATCATGTTCATCGTCAACTACATCGACCGTGTGAACATCGGCTTCGTCCGTTCCCATATGGAGCACGACCTGGGCATCGGCGCAGCCGCCTATGGTTTTGGCGCCGGCCTGTTCTTCATCGGCTACGCGCTGTTCGAAGTCCCGTCCAACATCCTCCTGCAACGCATCGGCGCCCGTATCTGGCTGACCCGCATCATGCTCACCTGGGGCCTGGTGGCGGCAGGCATGGCCTTCATCCAGAACGAAACCCACTTCTACATCCTGCGTTTCCTGCTGGGTGTGGCCGAAGCCGGTTTCTTTCCCGGCGTGATCTACTACTTCACGCGGTGGCTGCCCGGCGTCGAGCGCGGCAAGGCCATCGCGATTTTCCTCAGCGGCTCGGCGATCGCTTCGCTGATCTCCGGCCCGCTGTCGGGGCTGCTTTTGCAGATCAACGGCCTGGGCATGCACGGCTGGCAGTGGATGTACTTCATCGAGGGGATGTTTTCGGTCTGCCTCTGTGTGTTCGTCTGGTTCTGGCTGGACTCCAAGCCTCACGACGCCAAGTGGCTCAGTCGCGACGAGCAGGATGCGCTGGTCAAGGCCATCGACGATGAACAGGCGGCCCGTGAAGCGGCGACGCCGATCAAACTGTCGATCGGCCAATTGCTCAAGGACCGCCAGATCATCCTGTTCTGCCTGATCTATTTCTTTATCCAACTGACCATCTACGCGGCGACCTTCTGGCTGCCGAGCATTATCAAAAAGATGGGCGAGCTCAGCGACCTTCAGGTCGGCCTGTTCAATTCGATTCCCTGGCTGCTGTCGATCGTCGGCATGTACGCCTTCGCCTCGCTGTCGGCCAAATGGAAGTTCCAGCAGGCCTGGGTTGCCGCTGCCCTGTTGATCGCTGCGGCAGGCATGTTCATGTCCACCACCGGCGGGCCGATCTTCGCTTTCGTTGCGATCTGCTTTGCGGCCCTGGGTTTCAAGTCCGCCTCTTCGCTGTTCTGGCCGATCCCCCAGGCCTACCTGGACGCACGGATCGCCGCCGGTGTCATCGCGCTGATCAATTCGGTGGGCAACCTCGGCGGATTCGTCGCCCCGACTACTTTCGGCCTGCTTGAGCAGCACACCGGCTCGATCCAGGGCGGGCTCTATGGCCTGGCGGCCACGTCGATCATTGCCGCGATCATCGTGTTTGCCGCGCGCAATACGCCCAAGCCGAAAACCCTAAAGCCTTCCACCGACCCGGCTACCAGTCACGCCTGA	MNSSSLKADAGADPVLSSAISKVKRHILPLFVIMFIVNYIDRVNIGFVRSHMEHDLGIGAAAYGFGAGLFFIGYALFEVPSNILLQRIGARIWLTRIMLTWGLVAAGMAFIQNETHFYILRFLLGVAEAGFFPGVIYYFTRWLPGVERGKAIAIFLSGSAIASLISGPLSGLLLQINGLGMHGWQWMYFIEGMFSVCLCVFVWFWLDSKPHDAKWLSRDEQDALVKAIDDEQAAREAATPIKLSIGQLLKDRQIILFCLIYFFIQLTIYAATFWLPSIIKKMGELSDLQVGLFNSIPWLLSIVGMYAFASLSAKWKFQQAWVAAALLIAAAGMFMSTTGGPIFAFVAICFAALGFKSASSLFWPIPQAYLDARIAAGVIALINSVGNLGGFVAPTTFGLLEQHTGSIQGGLYGLAATSIIAAIIVFAARNTPKPKTLKPSTDPATSHA	PGPT0002325_530	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-ORGANIC_ACID_METABOLISM	P-SOLUBILISATION-TARTARIC_ACID_TRANSPORT,PGPT0002325-ttuB-K13021	NA	NA
D1-35_00999	714	lutR_1	COG2186	HTH-type transcriptional regulator LutR	ATGCAGCAAGACACTCAAACGCCTCTGCGCAAGCGCACCCACAACCTGGCCCATGACCTGGTGGCGAAGTTGAGCCAGAGCATCCTGCTGGGGCAGTTGAAGCCTGGAGAGAAACTGCCGTCGGAGGGTGCTTTCGTGCGCGAGCATGGGGTCAGCCGCACGGTGGTGCGCGAGGCGATCTCCAAATTGCAGGCCTCGGGGTTGGTGGAGACTCGCCATGGCATCGGTACTTTTGTGCTGGAGCAGACGGGAGAGCAGGGGCTGAGGCTCAACGTCGATACTGCAGCGGGCGTGCGCGGGATTCTCGAATTGCGCCTGGGCCTGGAAACCCAGGCCGCGGCGCTGGCGGCCCAGCGCCGCAGTGAGGAGCAATTGCAGCAGATGCGCCAGGCGCTGGACGACTACCAGCGCTTGCTCAACAACAACGACAGCTGCGTCGAGGCTGACCGGCGTTTTCATTTGCTGATTGCTGAGGCCACGGATAACAGCTGTTTTGTCGAAATCATGCAGCACCTGGGCAGTGCGATGATCCCCCGCACCCGGGTGAACATGGCCGAACGCGGCCAGGCGGACCTGGGCAAGCTGGCGCAGTTTGCGAACCTGGAGCACGAGGCGATTTTCAACGCCATCCAGCGCCAGGACCCCGATGCCGCCCGCGCCGCCATGTGGCTGCACCTGACCAACAGCCGCGACCGGTTTGGCGCAGGGGCCTGA	MQQDTQTPLRKRTHNLAHDLVAKLSQSILLGQLKPGEKLPSEGAFVREHGVSRTVVREAISKLQASGLVETRHGIGTFVLEQTGEQGLRLNVDTAAGVRGILELRLGLETQAAALAAQRRSEEQLQQMRQALDDYQRLLNNNDSCVEADRRFHLLIAEATDNSCFVEIMQHLGSAMIPRTRVNMAERGQADLGKLAQFANLEHEAIFNAIQRQDPDAARAAMWLHLTNSRDRFGAGA				NA	NA	NA	NA	NA
D1-35_01000	1182	thlA_1	COG0183	Acetyl-CoA acetyltransferase	ATGCAAGAAGTCGTGATTGTCGCCGCTACCCGTACCGCCATCGGCAGCTTCCAGGGCTCGCTGGCGGCCATTCCCGCGCCGGAACTTGGCGCCGCGGTGATCCGTCGCTTGCTGGAACAGACCGGTCTTTCCGGCGAGCAGGTCGATGAAGTGATCCTCGGCCAGGTATTGACTGCAGGTTCCGGACAGAACCCGGCGCGCCAGGCGTCGATCCTCGCCGGCCTGCCCCATGCCGTGCCAGCACTGACTCTGAACAAGGTCTGCGGCTCGGGTCTCAAGGCGCTGCACCTGGGCGCCCAGGCGATTCGCTGCGGCGATGCCGAAGTCATCATCGCCGGCGGCATGGAGAACATGAGCCTGGCCCCGTACGTGTTGCCAGCGGCCCGCACCGGTTTGCGCATGGGCCACGCGAAGATGATCGACAGCATGATCACCGATGGCCTGTGGGACGCGTTCAACGATTACCACATGGGCATCACCGCCGAGAACCTGGTGGACAAATACGGCATCAGCCGCGAGGCGCAGGATGCTTTCGCCGCGGCGTCCCATCAGAAAGCCGTCGCCGCCATCGAAGGCGGGCGTTTCGCCGATGAGATCACGCCGATCCTGATTCCCCAGCGCAAGGGCGATCCGGTGGCCTTTGCTACTGACGAGCAGCCCCGCGCCGGTACTACCGCTGAATCCTTGGCCAAGCTCAAGCCGGCCTTCAAGAAAGACGGCAGCGTCACTGCGGGCAATGCGTCCTCGCTCAACGATGGCGCCGCCGCCGTGATCCTGATGAGCGCGGAAAAAGCCAAGGCGCTGGGCTTGCCGGTATTGGCGAAAATCAGTGCCTACGCCAACGCCGGTGTCGACCCGGCCATCATGGGCATCGGCCCGGTCTCGGCCACCCGTCGCTGCCTGGACAAGGCCGGCTGGTCGCTGGATCAACTTGACCTGATCGAAGCCAACGAAGCCTTCGCCGCCCAATCCCTGGCTGTCGCCAAGGAACTGCAATGGGACATGGACAAGGTCAACGTCAACGGCGGCGCCATTGCCCTGGGCCATCCGATCGGGGCATCGGGTTGCCGGGTGCTGGTGACGCTGTTGCATGAAATGATCAAGCGCGACGCCAGGAAAGGCCTCGCGACACTGTGCATCGGCGGCGGTCAGGGCGTGGCTCTCGCACTGGAGCGGGCGTAA	MQEVVIVAATRTAIGSFQGSLAAIPAPELGAAVIRRLLEQTGLSGEQVDEVILGQVLTAGSGQNPARQASILAGLPHAVPALTLNKVCGSGLKALHLGAQAIRCGDAEVIIAGGMENMSLAPYVLPAARTGLRMGHAKMIDSMITDGLWDAFNDYHMGITAENLVDKYGISREAQDAFAAASHQKAVAAIEGGRFADEITPILIPQRKGDPVAFATDEQPRAGTTAESLAKLKPAFKKDGSVTAGNASSLNDGAAAVILMSAEKAKALGLPVLAKISAYANAGVDPAIMGIGPVSATRRCLDKAGWSLDQLDLIEANEAFAAQSLAVAKELQWDMDKVNVNGGAIALGHPIGASGCRVLVTLLHEMIKRDARKGLATLCIGGGQGVALALERA	PGPT0008320_8814	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
D1-35_01001	666	scoB	COG2057	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit B	ATGGCACTTTCCCGCGAACAAATGGCTCAGCGCGTCGCCCGCGAAATGCAGGACGGCTACTACGTGAACCTCGGTATCGGCATCCCGACCCTGGTAGCCAACTACATTCCCGAAGGCATGGAAGTCATGCTGCAATCGGAAAACGGCTTGCTCGGCATGGGCGCGTTCCCCACCGAAGCCGAAGTCGATGCGGACATGATCAACGCCGGCAAACAGACGGTTACCGCGCGCATCGGTGCTTCGATCTTTTCTTCGGCCGAATCCTTCGCCATGATCCGTGGCGGCCACATCGACCTGACCGTACTCGGCGCGTTCGAAGTCGACGTCGAGGGCAACATCGCGTCGTGGATGATTCCCGGCAAGCTGGTCAAGGGCATGGGCGGCGCGATGGACCTGGTGGCCGGTGCCGAGAACATCATCGTCACCATGACCCATGCGTCCAAGGACGGTGAGTCGAAACTGCTGCCGCGCTGCAGCCTGCCGCTGACCGGCGCCGGTTGCATCAAGCGCGTACTGACTGACCTCGCCTACCTGGAAATCCAGGACGGCGCCTTTATTCTCAAGGAACGTGCCCCAGGCGTCAGCGTCGAGGAAATCGTCGCCAAGACCGCCGGCAAGCTGATCGTGCCGGACCACGTACCTGAAATGCAGTTCGCTGCCCAGTGA	MALSREQMAQRVAREMQDGYYVNLGIGIPTLVANYIPEGMEVMLQSENGLLGMGAFPTEAEVDADMINAGKQTVTARIGASIFSSAESFAMIRGGHIDLTVLGAFEVDVEGNIASWMIPGKLVKGMGGAMDLVAGAENIIVTMTHASKDGESKLLPRCSLPLTGAGCIKRVLTDLAYLEIQDGAFILKERAPGVSVEEIVAKTAGKLIVPDHVPEMQFAAQ	PGPT0008330_217	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008330-scoB-K01029	NA	NA
D1-35_01002	699	scoA	COG1788	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit A	ATGGCAGGTTTCGACAAACGCGTGAGCTCCTATGAGGAAGCGCTTGAGGGCTTGAAGGACGGCATGACTGTCATTGCCGGCGGCTTCGGCCTGTGCGGTATCCCGGAAAACCTGATCGCCGAGATCAAGCGCAAGGGCACCCGCGATCTCACCGTGGTTTCCAACAACTGCGGCGTCGACGGTTTCGGCCTCGGCGTGCTGCTGGAGGACCGGCAGATCCGCAAGGTAGTCGCCTCCTACGTGGGGGAAAACGCCCTGTTCGAGCAGCAACTTTTGAGTGGCGAAATCGAAGTCGTGCTCACCCCTCAAGGCACCCTTGCGGAAAAAATGCGTGCGGGTGGCGCTGGCATCCCGGCCTTCTTCACCGCCACCGGCGTCGGCACGCCAGTGGCCGAAGGCAAGGAAGTGCGTGAGTTCCATGGCCGCCAGTACCTGATGGAAGAGTCCATCACCGGTGACTTTGCCATCGTCAAAGGCTGGAAGGCAGACCATTTCGGTAATGTGGTCTATCGCCATACCGCGCAGAACTTCAATCCGCTGGCCGCCACGGCGGGCAAGATCACCGTGGTCGAAGTCGAGGAAATCGTCGAGCCCGGCGAGTTGGACCCGGCGCACATCCATACGCCCGGCATCTACGTCGACCGGGTCATTTGCGGCACGTTCGAAAAGCGCATCGAACAGCGCACCGTGCGTAAGTGA	MAGFDKRVSSYEEALEGLKDGMTVIAGGFGLCGIPENLIAEIKRKGTRDLTVVSNNCGVDGFGLGVLLEDRQIRKVVASYVGENALFEQQLLSGEIEVVLTPQGTLAEKMRAGGAGIPAFFTATGVGTPVAEGKEVREFHGRQYLMEESITGDFAIVKGWKADHFGNVVYRHTAQNFNPLAATAGKITVVEVEEIVEPGELDPAHIHTPGIYVDRVICGTFEKRIEQRTVRK	PGPT0008325_1483	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008325-scoA-K01028	NA	NA
D1-35_01003	903	cynR_1		HTH-type transcriptional regulator CynR	ATGACCCTCAAGCAAATCCGCGCCTTCCTCGCCGTGGCCCAGAGCCTGAGCTTCGCCGTCGCCGGCGAGCGGCTGCATCTGTCCCAATCGGCCCTGAGCCTGACGATCAAGGCCCTGGAAGAAGGACTCGGCGGTCGCCTGTTCAGTCGTAACACCCGTAACGTGGCGTTGACGCCCGAAGGTGAATCGCTGCTGCCATTGGCACGCCGCCTGGTGGCCGACTGGGAAAACGCCGAGGATGAAATGCGCCAGCGCTTCACCTTGCAGCGCGGCCGCGTGACGCTGGCGGCGATGCCCTCGTTTGCCGGCAACCTGCTGCCGCCGATCCTCAAGACCTTCCGCGCCCGGTTCCCGAATGTCAACGTCACGGTCAACGACGTGATCAACGAGCAGGTGCTGGAAATGGTCCGCGATCGTCACGTGGAACTGGGCGTTGCGTTCGAGCCGATGCAAAGTTCATCGCTGGCGTTCACGCCGTTGTACCTGGATCGCTTCGTCGCGGTGGTGCCGCTGGATTCGCCGCTGGCCAAGCTCGGCGAGATCCGTTGGCAAATGCTGCTGGAGCAGCCGTTCATCACCTTGCAACGACCCTCGACGGTACGGGTGATGCTCGAAGAGCATCTGCAGGCTCGCGGTATGAAATTGCCGGTCGAGTTTGAAAGTCATCAGTTGGCGACAGTCGGACGGATGGTTGCCAGCGGCCTGGGCGTGAGCGCCGTACCGGCCCTGTGTGTCGGCCAGATGCACGAGCTGGGCGCCCGCTGCATCATCCTCAGCGATCCGGTAATAGAGCGGGCCATCGGCGTGCTGACCAAGCCGGGTCATGAATTGTCGGCGGCGGCCCAGGCGATGTTCGATACGCTCAGGGATCAGGATATGGGCGCGCAGTTACCTTCGGCATAA	MTLKQIRAFLAVAQSLSFAVAGERLHLSQSALSLTIKALEEGLGGRLFSRNTRNVALTPEGESLLPLARRLVADWENAEDEMRQRFTLQRGRVTLAAMPSFAGNLLPPILKTFRARFPNVNVTVNDVINEQVLEMVRDRHVELGVAFEPMQSSSLAFTPLYLDRFVAVVPLDSPLAKLGEIRWQMLLEQPFITLQRPSTVRVMLEEHLQARGMKLPVEFESHQLATVGRMVASGLGVSAVPALCVGQMHELGARCIILSDPVIERAIGVLTKPGHELSAAAQAMFDTLRDQDMGAQLPSA	PGPT0021950_358	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021950-dhcR-K17737	NA	NA
D1-35_01004	828	cobB	COG0846	NAD-dependent protein deacetylase	ATGCCCGACGATCTTCACCGTGACCCCGTCGAACAATTGCACGAATACCTGACCGGACGGCGCTACCTGGTGCTGACCGGAGCGGGCATCAGCACGCCGTCCGGCATACCCGATTACCGGGACAGCGACGGCGTGCGACGGGGCAGGCAACCGATGATGTACCAGGAGTTCCTCGCCAGGCCCGAAGCGCGGCGGCGCTACTGGGCGCGAGCGATGCTGGGCTGGCCACGCTTGCGCCAGGCACGGCCGAACCAGGCCCATGAGGCCTTGGCGGCGTTGCAGGGCCAGGCGCGCATCAGCGGCTTGATCACCCAGAATGTCGACGCCTTGCATGACCGGGCCGGGAGCCGCGATGTCATCGAGTTGCACGGCAGCCTGCATCGGGTGCTATGCCTGGACTGCGGCCAGCCGAGCGAGCGGCAGCAGATCCAGTTGTTGATGGAGGACCAGAACCCGTACCTGGCCGGTGTCGATGCGGTGCAAGCGCCCGACGGCGATACCTTGCTGGACCCGGCCTTCGAGGCCCGCTTTCAAATCCCCCGTTGCCCGCATTGCGATGGCGAACGCTTGAAACCCGACGTGGTGTTCTTTGGTGAAAACGTCGCCGCCGCTACCGCGACTCGCGCCACCGAGGCAGTCGGGCAAGCGGATGGATTGCTGGTGGTGGGTTCATCGCTGATGGCGTATTCGGCCTTTCGCCTGTGCCGGGCGATCAAGGATCAGGGCAAGCCGCTGCTGGCGATCAACCGAGGCAAGACCCGCGCCGATGAGCTGTTGGATCTGAAGGTTGAAGTGGCTTGCGAAGCCTTGTTGCCATTGCTGATCTAA	MPDDLHRDPVEQLHEYLTGRRYLVLTGAGISTPSGIPDYRDSDGVRRGRQPMMYQEFLARPEARRRYWARAMLGWPRLRQARPNQAHEALAALQGQARISGLITQNVDALHDRAGSRDVIELHGSLHRVLCLDCGQPSERQQIQLLMEDQNPYLAGVDAVQAPDGDTLLDPAFEARFQIPRCPHCDGERLKPDVVFFGENVAAATATRATEAVGQADGLLVVGSSLMAYSAFRLCRAIKDQGKPLLAINRGKTRADELLDLKVEVACEALLPLLI				NA	NA	NA	NA	NA
D1-35_01005	510	yciE	COG3685	Protein YciE	ATGGCAACCCCTAAAGAGAACCTGCTGGATTGGCTCAACGACGCTCATGCCATGGAACAGCAAGCGGAGAAAATGCTCAAGGCCCAGGCCGAGCGGCTGGAGCACTACCCCGTGCTCAAGGCGCGGATCGAACAGCACATCGAAGAGACGCTCGGCCAGCAGAAGCTGGTGGAACAATGCATCCAGCGCCTGGGCGGTAGCCCGTCGATGCTCAAGGACATGGCCGGCAAGCTGATGGCGTTCGGTCAAGCCATGGGTGGCATGGCGATGAGCGACGAAGTGGTCAAGGGCGCCATGAGTGGCTACGTCTTCGAGAACCTGGAAATTGCTTCGTACACGGTGCTGATCGAAGCGGCGAAAGTGGCCGGCGATGTGGAAACGCAAAAGGCCTGCGAGCAGATTCTGCCGCAGGAAATCGCCATGGCTGAATGGCTGCGCGATCATCTGCCGGAAATCACCCAGGCGTTCCTTGAGCGTTCGGCCAATCCGCATACCGAAGCCAAGCGCTGA	MATPKENLLDWLNDAHAMEQQAEKMLKAQAERLEHYPVLKARIEQHIEETLGQQKLVEQCIQRLGGSPSMLKDMAGKLMAFGQAMGGMAMSDEVVKGAMSGYVFENLEIASYTVLIEAAKVAGDVETQKACEQILPQEIAMAEWLRDHLPEITQAFLERSANPHTEAKR				NA	NA	NA	NA	NA
D1-35_01006	270			hypothetical protein	ATGAAGCAGACCACCGGTGAGGTTAGAGCCATCAATCGACAGAGTGCCAGGGTGGGCGTCTATGTGGCGGAAGAAGACGGCCATACGGTGCTTGAGCTAGGGCCCGCCAATGATGTCGACATTGGCGATGTCATTGAATGGAACAGCGGAGCGGCCCTTGGCACGCAGACTTATCGCAACCTGACCAAAGGCTGGACCGACGAAGTGTATGTAGCGAAGCACGGCGTCGCGGCGGCCAACCTTGAAGTTCAATTACTGGTGGGATCCTGA	MKQTTGEVRAINRQSARVGVYVAEEDGHTVLELGPANDVDIGDVIEWNSGAALGTQTYRNLTKGWTDEVYVAKHGVAAANLEVQLLVGS				NA	NA	NA	NA	NA
D1-35_01007	249			hypothetical protein	ATGAGCGAACTGCAGTGTGGCTGCCCCGGCTGCCATTGCGAGGTAGATCCCGAGCGGGTGTTCAATCATGACGGCGAGGCCTATTGCAGCCAGGCCTGCGCGGAACAACACCCGAATGGCGAGCCATGTCCGGCGGCGGATTGTCATTGTGAACAAAGTGGCAAGGTCGGCGAGCGGGACATTACCAATAACCAACTGGATGAAGCGCTGGAGGAAACGTTCCCGGCCAGCGATCCGATTTCACCCTGA	MSELQCGCPGCHCEVDPERVFNHDGEAYCSQACAEQHPNGEPCPAADCHCEQSGKVGERDITNNQLDEALEETFPASDPISP	PGPT0004285_4	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_BISMUTH_RESISTANCE	BISMUTH_RESISTANCE-BISMUTH_HOMEOSTASIS,PGPT0004285-smtA-K21904	NA	NA
D1-35_01009	378	gsiB	COG3729	Glucose starvation-inducible protein B	ATGGCAAATACAGGCAATAACAACCCTGGCAATTTCGCTAACGATCGTGAGAAAGCATCGGAAGCCGGCAAGAAAGGCGGCCAGGCATCGGGTGGCAACTTCGCCAACGATCCGGAACGCGCAGCCGAGGCCGGCCGTAAGGGTGGCCATATGTCGGGTGGCAATTTTGCCAACGATCCGGAACGTGCCGCAGAGGCCGGCCGCAAAGGTGGTCAAGCCTCGGGTGGCAACTTTGCCAATGACCCTGAACGGGCTTCTGAAGCGGGCCGCAAAGGTGGCCAGGCGTCGGGTGGCAACTTTGCCAACGACCGGGAAAAAGCTTCCGAAGCCGGTAAGAAAGGCGGTGAAAACAGCCACGGTGGCGGTCGCAAATCGTAA	MANTGNNNPGNFANDREKASEAGKKGGQASGGNFANDPERAAEAGRKGGHMSGGNFANDPERAAEAGRKGGQASGGNFANDPERASEAGRKGGQASGGNFANDREKASEAGKKGGENSHGGGRKS				NA	NA	NA	NA	NA
D1-35_01010	882	ydbD	COG3546	putative manganese catalase	ATGTTCGTACATAACAAACGACTGCAATATACCGTGCGTGTCGCTGAGCCCAATCCAGGACTGGCCAATCTGTTGCTTGAACAGTTTGGCGGCGCCCAGGGCGAGTTGGCGGCGGCGTCGCGCTATTTCACCCAGGCCTTGTCCGAAGATGATCCGGGCCGCAAGGACCTGCTGATGGACATTGCCACCGAAGAGCTCAGCCATCTGGAGGTGATCGGTTCGATCATCGTCATGCTTAACAAGGGGGCAAAGGGCAAGATGGCTGAAGGCGTCGAGCAGGAGGGCCAGCTGTACCGGGAAATCAACGGGGCCGGCAATGACTCGCACATCACCAGCGTGCTGTATGGCGCCGGCTCGCCGTTGACCAACTCGGCCGGTGTGCCATGGACCGCCGCCTACATCGATACGATCGGCGAACCGACGGCGGACATGCGTTCGAATATCGCCGCCGAGGCCCGGGCGAAAATTGTTTACGAGCGGCTGATGAACGTCACTGACGATCCTGGTGTAAAAGAAGCCCTGGGCTTCCTGATGACCCGTGAAATCGCCCACCAGCTGTCGTTCGAAAAAGCCCTGCATTCCATCCAGCCCAACTTCCCGCAAGGCAAACTGCCAGGCATGCCGGAGTTCACCAACGTGTACTTCAACATGTCCCAGGGTGAACCTACCGTACGCGGTCCATGGAACCAGGGCGACGATTGGGAGTACGTCGAGAACCCGACGCCAGCGGTCGACGGCGGCGATGGCCTGGCCAGCGTGCAGTTGAGTGAAAAGGACGAGGCACTGTTGATGGACATGAAGGCGCGGACGATGTCCAATCCTGAAAGCAATCCCACCACGGGCGCCGACTTGGGTTCGGGGATGCAAGGTGACAAACTGTAA	MFVHNKRLQYTVRVAEPNPGLANLLLEQFGGAQGELAAASRYFTQALSEDDPGRKDLLMDIATEELSHLEVIGSIIVMLNKGAKGKMAEGVEQEGQLYREINGAGNDSHITSVLYGAGSPLTNSAGVPWTAAYIDTIGEPTADMRSNIAAEARAKIVYERLMNVTDDPGVKEALGFLMTREIAHQLSFEKALHSIQPNFPQGKLPGMPEFTNVYFNMSQGEPTVRGPWNQGDDWEYVENPTPAVDGGDGLASVQLSEKDEALLMDMKARTMSNPESNPTTGADLGSGMQGDKL	PGPT0013240_506	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013240-katN|ctjC|ydbD|yjqC-K07217	NA	NA
D1-35_01011	930	zupT_1		Zinc transporter ZupT	ATGGACCAGCCCACCTCCCGGATCCGATCGCCCTGGCGTACCTGGCTTGATCCTGTGCAAAACAACCTGCTGCTGGGCGTAAGCTTCTGGCTGGGATTGGCACTGGTCGCGGTGCTGCTGCTGTATAGCGGCTACAACGCCCTGGTGGGGGCCGATCGCCAACACCTCGGCTATGCGGCATTGGGTGGGATATCCGGTTTTGCCGCTACCGCGCTGGGGGCGATGATGGCGGTGGTGCTACGCGATATCTCATCGCGGACCCAGGACATCATGCTCGGTTTCGCTGCCGGGATGATGCTCGCGGCCAGCTCGTTTTCGCTGATATTGCCGGGGATCGAGGCTGCGCAGATCATTTGCGGCAATCAGTTGCTTGCTGCCTTGGTGGTCGTTATCGGCCTGGCGCTGGGCGTCGCGCTGATGGTCGGGCTCGACCGCTTCGTGCCCCACGAACATGAGCTGAGTGGGCGCCGCGGTCCCGAGGCCAAGCGCATCAACCGGGTGTGGTTGTTCGTCCTCGCGATCACCCTGCACAACCTGCCGGAGGGCATGGCCATCGGCGTCAGCTTTGCCAATGGCGATCTCAAGGTCGGTCTGCCCCTGACCACCGCCATCGCGATCCAGGACATCCCCGAAGGCCTGGCCATTGCCATGGCGCTGCGTGTGACCGGGATCAGCACCCTGCGGGCCGCACTTATCGCGGTCGGTTCGGGATTGATGGAACCGCTGGGCGCGGTGATCGGCCTGGGCATGTCCTCGGGCGTGGCCGTGGCTTACCCCATCAGCCTCGGGCTGGCGGCGGGGGCGATGATCTTCGTGGTGTCCCATGAAGTCATTCCGGAAACCCATCGCAACGGCCACGAGACACCCGCGACCCTGGGCCTGATGATGGGCTTTGCGGTGATGATGTTCCTCGATACCGCGCTGGGTTAA	MDQPTSRIRSPWRTWLDPVQNNLLLGVSFWLGLALVAVLLLYSGYNALVGADRQHLGYAALGGISGFAATALGAMMAVVLRDISSRTQDIMLGFAAGMMLAASSFSLILPGIEAAQIICGNQLLAALVVVIGLALGVALMVGLDRFVPHEHELSGRRGPEAKRINRVWLFVLAITLHNLPEGMAIGVSFANGDLKVGLPLTTAIAIQDIPEGLAIAMALRVTGISTLRAALIAVGSGLMEPLGAVIGLGMSSGVAVAYPISLGLAAGAMIFVVSHEVIPETHRNGHETPATLGLMMGFAVMMFLDTALG	PGPT0004250_354	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
D1-35_01012	501	yciF	COG3685	Protein YciF	ATGGCCAGAAAAACCGTGACGGACCTGTTCATTCACGAACTGTCCGATGTCTACAGCGCCGAAAAACAGATCACTCGTGCCTTGCCACGCATGGCCCGAGCCACCACCAACCCCTTGCTGGCGCAAGCCTTCAACGATCACCTTGAAGAAACTCAAGGCCAGATCGAACGCATCGACACCCTTGTCGAAGTGGCGGGTATCAAGCTCAAGCGCATGAAATGCATTGCCATGGAAGGGCTGGTGGAAGAGTCCAAGGAGCTGATCGAAGAAATCGAAAAAGGCGCAGTGCTCGATGCAGGGCTGATCGGTGCCCAGCAGAAGATCGAGCACTACGAAATCGCCAGCTACGGCACGCTGATCGCCATGGCCAAGCACTTGAACCTGGGCGACGAAGTGGTCGGTTTGTTGCTGGCGACGCTCAAGGAAGAAAAAGCCACCGACGAGAAACTTTCGAAAATCGCCGAGCAGGGCGGGAACCAGGCGGCGACGATGGAAACCTGA	MARKTVTDLFIHELSDVYSAEKQITRALPRMARATTNPLLAQAFNDHLEETQGQIERIDTLVEVAGIKLKRMKCIAMEGLVEESKELIEEIEKGAVLDAGLIGAQQKIEHYEIASYGTLIAMAKHLNLGDEVVGLLLATLKEEKATDEKLSKIAEQGGNQAATMET	PGPT0013240_16	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013240-katN|ctjC|ydbD|yjqC-K07217	NA	NA
D1-35_01013	666			hypothetical protein	ATGACTATCCCGGACAACAACACCGAGCGACAAAGCGGTAACGCAAACCAGGGACGACCTGAAGAATCCCTGAACCACATCAAGGAGGACGTTAACGAAGCCATCGGCAGCGCCCGCGAAAAGGCCGATGCGCATTTCGGCCAGTACCGCGATACCGCGGCGGACCAGATCGATGCACTGGCGCGTGGCGCGAAGTCCGCGATGTCCGAGCTTGAAGCCAACGACACCCTTGGGTTGTCGCATTATCTGGCGGACATGGCCGACAGCATGAGTGGCCTGGCCAGCAAACTGCGCAACAAGAGCGCTGAAGAGCTGCTGCACGATGGCTCTCGCCTGGCGCGGGATAACCCCGGCCTGTTCCTCGCCGGCAGTATTGCGGTGGGGTTTGGGCTGTCGCGTTTCCTCAAGGCTGGCACCTCGCCGATCACCACCGAAGTGCAAAGCCCTGCCTCCACGGAGTCGGATCCAGCCGCCGAAGGTTTCGGCGCCCAGCCCTTCGACGCGCAGCCCTTTGACCCTGTGCCTGATCCTATCGGTCCGGGGGCGGGGACCAGCAGCGGCCTCGCCACCGGCGTAACCCCGACTTCACCCAGCGTTCAGGACCATCCCAGTGATTCCGCCACCGGCTCGCTGCCGGGTTCGGCCAATACCAGAGGAGAATTGTGA	MTIPDNNTERQSGNANQGRPEESLNHIKEDVNEAIGSAREKADAHFGQYRDTAADQIDALARGAKSAMSELEANDTLGLSHYLADMADSMSGLASKLRNKSAEELLHDGSRLARDNPGLFLAGSIAVGFGLSRFLKAGTSPITTEVQSPASTESDPAAEGFGAQPFDAQPFDPVPDPIGPGAGTSSGLATGVTPTSPSVQDHPSDSATGSLPGSANTRGEL				NA	NA	NA	NA	NA
D1-35_01014	432			hypothetical protein	ATGAATCGACCAGACCCGGATATCCAGCGTTCCGCCGGCGCCTCGACGCCCGAAAACGATGCCTCGGTCATGGGCTTGCTGCGGCAACTGACCCACGAAGTCCCCTCGCTCTTTACCAAGGAGCTGGCGCTGGCCAAGGCTGAATTCCAGGCGAGCCTCAACACCCTGAAGGCAGGTATCGCCGCAGTGGCCGGGGGCGCCATGGTGCTGATGGCCGGCTTCATCATCCTCCTGATGGCAGTGGTGTATGGCCTGAGCACGATGATGGCGCCGTGGCTGGCCGCGCTGATTGTCGGCGTGGTGGTGATGATCATCGGTTTTGTCATGGTCCAGTCCGGCAAGAAGCAATTCGAGCCTTCCCATTTCAAGCCTGACCGAACGCTCGATGCCATGCACAAAGACCAGGAAGCCCTGCGGAGGAAAGCCTCATGA	MNRPDPDIQRSAGASTPENDASVMGLLRQLTHEVPSLFTKELALAKAEFQASLNTLKAGIAAVAGGAMVLMAGFIILLMAVVYGLSTMMAPWLAALIVGVVVMIIGFVMVQSGKKQFEPSHFKPDRTLDAMHKDQEALRRKAS				NA	NA	NA	NA	NA
D1-35_01015	810			hypothetical protein	ATGAAGGATGAATTGAAGACTGAAGCGGAGAAGAGCCCGGAGACCATCGAGCGCGAGATCGACGAACAGCGCGCCCATATCAGCCACATCGTCGATGCCTTGGGCAGCAAGTTCACGCCGGGGCAGATGCTTGATCAGGCCTTAGGCATGGTGAAAGGCAATGGCGCCGAATTTTTCGGCAACCTGGGCACGACGGTGCGCAACAATCCGGTGCCAACCGTGCTGACCACGGTCGGCTTGTGCTGGCTGATGCTCGGCCAGAACCACCCGCCCCGGGTCGGTTATCGCGTTGGCCCCGACCAGGACACCAATGGCTGGAGCGAGGGGCTGTCCGGTGGCCTGGACAGCGCCCGCGGTCATCTGCATGACACCACCAACTCCTTGCGCGAAGGGTTTCATCAGCTCAAGGACAAGGCGTCGCATCTGGCTGATGGCCTGGGGGCGAGCGCCCGTAATGCACGGCATAGCGCCACGCAGACAGGCGACCGTCTGGCCCACGGTTCCCAGGATCTGGGCGATCAGTTCAGCCGCCTGCTCAAGGAGCAACCGCTGATGATGGCGGCAGCGGGTATCGCCTTGGGCGCCATGCTCGGAGCAGCCCTACCCAGCACGTCGACCGAACAGCGGGTAATGGGCAAAACCAGCGCCGGCTTGGCCGACAAGGCCAAGCAAAAGGCCCGCGACGGCTACGAAACGGTCCGCGATACGGTGAGCAAGACCACCGAGCACCGTGACGAGCCAAGCGCTGCGCCGGCCACCGGGCATGCGCATTCCGGCGCGGATCTGTCTGGCGGCCTGGGTACCTCGTAA	MKDELKTEAEKSPETIEREIDEQRAHISHIVDALGSKFTPGQMLDQALGMVKGNGAEFFGNLGTTVRNNPVPTVLTTVGLCWLMLGQNHPPRVGYRVGPDQDTNGWSEGLSGGLDSARGHLHDTTNSLREGFHQLKDKASHLADGLGASARNARHSATQTGDRLAHGSQDLGDQFSRLLKEQPLMMAAAGIALGAMLGAALPSTSTEQRVMGKTSAGLADKAKQKARDGYETVRDTVSKTTEHRDEPSAAPATGHAHSGADLSGGLGTS				NA	NA	NA	NA	NA
D1-35_01016	1407	hss		Homospermidine synthase	ATGAACCATCAGGTTCCGTTCAGCGGCCACCTGGTCTTCATCGGCTTCGGCTCCATCGCCCGGGCCACGTTGCCATTGGTACTGGGGCAGGACCATATCGAGGTCAGGCAAATCACCGTGATCGCGCCGGTGATCGACCAGAACCTCTGGTTCAAGGATCGGGGGATCCGTTTTGTCCGCAAGGCATTGACCGAGCAAACCTTCGCGCAGACGCTGGATCGCTGGGTCAAACCCGGTGACTTCATCGTCAACCTTTCGGTGGAAGTCAGCTCTCTGGCCATTATCGAATATGCCTGCGCCAAGGGCGCCCTGTACCTGGATACCTGTGTCGAACCGTGGGCCGGCGGATATGACGATCCGCACCTGGATTTTTCCCATCGCACCAATTACGCGCTGCGTTATCAGGTCCTGAGCCTGCGCAAGAAATTGGCCGGAGGGCCGACGGCGGTGGTCGCTCACGGGGCCAATCCGGGCTTGATCACTCACTTGCTGAAGGCCGGCCTGGTGGAGCTGGCGGTGCAGTTGGAGCATCCGATACCTCAGCGCCGCGCCGGTGTCGATTGGGCCAGGTTATGCATGGAATTGGGGATCAAGGTGATTCATTTTGCCGAGCGTGATACCCAGCGTTCCCGGCAACCCAAGGAGGACGACGAGTTCGTCAACACCTGGTCAGTGGAGGGCTTCATCAGTGAAGGCAGCCAACCGGCGGAGCTGGCATGGGGCAGCCATGAGCGAACCTGGCCAGCGTCTGCCCGGCGCCATCGCTTCGGCAGTCGCAATGCGATCTACCTGGCACGCCAGAGCGCCAGCGTGCTGGTCAAGACCTGGACGCCGTTGGGCGGGCCATGCCTGGGGCTGATGATCACCCATCATGAAACCGCTTCCACAGCCGACCTGCTTACCGTGAAGGACCAGCGTCGACTGATCTATCGACCGACCCTGCATTACGCCTACCACCCCTGCAACGACGCCTTGCTCTCGGTCCACGAGCTGATCGGTCGCGGCTGGCAAACCCAAGCCCGGCAGCGCATCCTCAACGGCGAAATCGACAGCGGCGGTGCGGATGCGCTGGGGGTGTTGTTCATGGGGCATGAGCTGAATGCCTACTGGTTTGGCTCGGTGCTGAGCATTGACGAAGCTCGCGCGCTGGTGCCTTTCAACAGTGCCACCACCTTGCAGGTGGCGGCAGGCGTGCTGTCTGGCATCGTCTGGGCGGTTGAGCATCCGGATCGCGGCATCGTCGAGCCGGAACAGCTGGACCATGAGCGGGTGCTGGAAATCGCCAGGCCCTACCTCGGCACTCTGGTGGGGCAGCGCACCGACTGGACGCCGAGTGGCACTTCGCATAAACAGTCCGAGGAGGGCGCTGCGGATAGCTGGCAATTCGAACATTTCACCCGGTTTTAA	MNHQVPFSGHLVFIGFGSIARATLPLVLGQDHIEVRQITVIAPVIDQNLWFKDRGIRFVRKALTEQTFAQTLDRWVKPGDFIVNLSVEVSSLAIIEYACAKGALYLDTCVEPWAGGYDDPHLDFSHRTNYALRYQVLSLRKKLAGGPTAVVAHGANPGLITHLLKAGLVELAVQLEHPIPQRRAGVDWARLCMELGIKVIHFAERDTQRSRQPKEDDEFVNTWSVEGFISEGSQPAELAWGSHERTWPASARRHRFGSRNAIYLARQSASVLVKTWTPLGGPCLGLMITHHETASTADLLTVKDQRRLIYRPTLHYAYHPCNDALLSVHELIGRGWQTQARQRILNGEIDSGGADALGVLFMGHELNAYWFGSVLSIDEARALVPFNSATTLQVAAGVLSGIVWAVEHPDRGIVEPEQLDHERVLEIARPYLGTLVGQRTDWTPSGTSHKQSEEGAADSWQFEHFTRF				NA	NA	NA	NA	NA
D1-35_01017	1005			hypothetical protein	ATGCTGGCCGTGATGCTCGTTCTGGCGGGGTGCGCCACGTCGCAGCGCGGCCAACAGGTCGCCCCGGTGGTGATTGCGCCGGACACCTGGCGGCAGGCGGACCGGCAGATCATCGCCGCGTCGAAAAGCGCCACCGAGCAAGCCGAACTCTATGCGCGCGGATCGATGGAACATTGGCGAGTGCTGGTCTACGAGCGCACCGAGGCTGCATTCATCCCCTGGTTCAGTAGCTACTGGACCCAGGAGTGGCTGGCAGTGAAGGTCAGTTGGTATTCGGCAAGCGCCAAGGGCGATGCGGACTCGTCGTCCAGGCGCCTGGCGGGTTACCTGCAGGAGCAATATCGCGAGCAAGTGCTGGAGCCGGTGGCGGTGGAAATCGATCCCGAGGCGATCCGGGCCAACGCGACGGGGTATTACCTGCGCCTGCTCAACCAACAGGTCCAGGTCATTGCGCAACGGCACCGAATCCCGACCGAACTGATGAATCGACGTCTGCACGCGATTACGGCCGTCAACCTGGGACCGCCAGCGACGCGCAACGCAACGTTGTACGAAATGGTCCACACCGAACCGCTCAATACACTGCCGGCCTATGCGGCGCTGATCGATCATGTCGACAAAGCCGCCGACACCGGTTCCGGTCCGTCGGACGCCGTGATTGCCACGGTGGCGCAACGTACCAGTGAAAAAATCGAGGCGCAGTTCGCCACGCGAGGAGCGACCGGTGCGGCGGCGGCCGTCGCCGGGAAGGCGGCAGGGGCGCTGATTTCGGTAGGCGTGGCGGGCATCCGGGCGATCATCCATGAGGGCGAACGGCCGGAAATGGAAGCGCAGATCCGTAAAAGCCTGAGTGCGGCGTTCGACGAAGCGTGGTTCAAGTCGCTCAGGCATCCCCTCAGCGGCGTCATGGCGGCGGTCTACTACCTGGCCGGGCAAATCGACGATAGCCTGGTGGCGGCAGACCTGAGCAACCGACCGGTGTTCCTGCCTGTCATCGAACCATGA	MLAVMLVLAGCATSQRGQQVAPVVIAPDTWRQADRQIIAASKSATEQAELYARGSMEHWRVLVYERTEAAFIPWFSSYWTQEWLAVKVSWYSASAKGDADSSSRRLAGYLQEQYREQVLEPVAVEIDPEAIRANATGYYLRLLNQQVQVIAQRHRIPTELMNRRLHAITAVNLGPPATRNATLYEMVHTEPLNTLPAYAALIDHVDKAADTGSGPSDAVIATVAQRTSEKIEAQFATRGATGAAAAVAGKAAGALISVGVAGIRAIIHEGERPEMEAQIRKSLSAAFDEAWFKSLRHPLSGVMAAVYYLAGQIDDSLVAADLSNRPVFLPVIEP				NA	NA	NA	NA	NA
D1-35_01018	195			hypothetical protein	ATGCGCCAGATCATGCAAAAGGAACCCTGGTGGGCCGCGCCGCCCCGGCCTGGGCAGGATGAAAGTGAATTGGAATGGGGCTGGCTGGTGGTCTACAGCGAAGGCGAGCCGCGTTTCGAGTTCATCAAGGAGCGCCCCACGGACGAACAGATCCGTCAGCGCAAAGGCTGCCGGGTCACGCTCGGGTCCGAGTGA	MRQIMQKEPWWAAPPRPGQDESELEWGWLVVYSEGEPRFEFIKERPTDEQIRQRKGCRVTLGSE				NA	NA	NA	NA	NA
D1-35_01019	909	glsA2	COG2066	Glutaminase 2	ATGCAAGCACTGTTGAACGAGATCCTCGATGCGGTTCGCCCCCTGATTGGTCAGGGCAAGGTGGCCGACTATATTCCTGCCCTCGGCACCGTGGCGGCCAATCAACTCGGCATTGCCGTGTACAGCAACGATGGCGAGATCTATTGCGCGGGCGATGCCGAGACGCCGTTCTCGGTGCAGAGTATTTCCAAGGTTTTCAGCCTGGTGCAGGCCATCGAGCATTCCGGCGAAGCCATCTGGGAGCGCTTGGGCCATGAGCCCTCTGGCCAGCCCTTCAATTCCCTGGTGCAACTGGAATTCGAGCGCGGCCGGCCGCGTAATCCGTTCATCAACGCCGGTGCCTTGGTGATTTGCGATATCAACCAGTCACGCTTCGCCGCTCCGGCGTTGTCGATGCGCGATTTCGTCCGACGGTTGTCGGGCAATCCCCAGGTGATGGTAGACGGCAAGGTTGCCGAGTCGGAATACCAGCACCGCGCGCGCAACGCGGCGATGGCTTATCTGATGCAGTCCTTCGGCAATTTCCATAACGACGTGGAAGCGGTATTGCGCAGCTATTTTAGCCATTGCGCGCTGCGAATGAACTGCATCGACCTGGCCCGCGCGTTCTGCTTCCTGGCCAACGATGGTTTTTGCAAGCACAGCGGTGAGCAGATCCTTAGCGCTCGCCAGACCCAGCAAGTCAACTCCATCATGGCCACCAGCGGCTTGTACGATGAGGCCGGCAACTTCGCCTATCGCGTTGGCCTGCCTGGCAAGAGCGGCGTGGGCGGCGGGATTGTGGCGGTGGTGCCCGGGCAGTTCAGCGTCTGCGTCTGGTCGCCGGAACTCAATACCGCCGGCAACTCCCTGGCTGGCATGGCCGCGCTGGAACTGCTCAGCCAACGGATCGGCTGGTCGGTTTTCTAG	MQALLNEILDAVRPLIGQGKVADYIPALGTVAANQLGIAVYSNDGEIYCAGDAETPFSVQSISKVFSLVQAIEHSGEAIWERLGHEPSGQPFNSLVQLEFERGRPRNPFINAGALVICDINQSRFAAPALSMRDFVRRLSGNPQVMVDGKVAESEYQHRARNAAMAYLMQSFGNFHNDVEAVLRSYFSHCALRMNCIDLARAFCFLANDGFCKHSGEQILSARQTQQVNSIMATSGLYDEAGNFAYRVGLPGKSGVGGGIVAVVPGQFSVCVWSPELNTAGNSLAGMAALELLSQRIGWSVF	PGPT0020215_2666	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0020215-glsA-K01425	NA	NA
D1-35_01020	330			hypothetical protein	ATGAATCTGAATAATCAACCATCTATTGATGAACTGGCTCGCATGTTCGCAGCACACAAGGACACCCTGGATAGCCATATCCTGTGGATCAGCAAGACTGGCCAGGTCCATATGGACTGCCTCTCGCCTTTCACCCAGGAAGAAGAATTCGAGAAAAGCCAGGAAGACCTGTGTGCCCGGCTGAAGATGTACCGTCGCGGCCAGGGCTACGTCGGCAAGAAAGCCGCCGCTGACAAGGATTTCATGGGCCGCGTGCTGCAAACGCTGACCCAGGCCTGGCAGTCGGTGCAGAACTCTGCCGAGGTCCGGGTCATCGACCGCCTCTGCTGA	MNLNNQPSIDELARMFAAHKDTLDSHILWISKTGQVHMDCLSPFTQEEEFEKSQEDLCARLKMYRRGQGYVGKKAAADKDFMGRVLQTLTQAWQSVQNSAEVRVIDRLC				NA	NA	NA	NA	NA
D1-35_01021	1953	topB	COG0550	DNA topoisomerase 3	ATGCGGCTGTACCTGTGTGAAAAACCGTCCCAGGCCAAGGATATCGCCGCGGTGCTGGGCGCCACGCGACGCGGCGACGGCTGCTGGCTGGGCGCAAACGTCACGGTCACCTGGTGCATCGGTCACCTCCTGGAGACGGCCCCGCCCGACGCCTACGATGCCCGCTACAAGCGCTGGGTGCTGGCCGACCTGCCCATCGTGCCGGCGCAATGGAAGATGACCGTCAAACCGAAAACCGCCGGCCAGTACAAAGCGGTCAAGCGCTTGCTGGGCGAGGCAACGGAACTGATCATCGCCACCGACGCCGACCGCGAGGGCGAAATGATCGCCCGCGAACTGGTCGAGCATTGCCGCTATCGCGGGCCCATCCAGCGCCTATGGCTGTCGGCGCTGGACGAAGCATCGATCCGCAAGGCCCTGGCCGCCCTCAAGCCCGGAGCGGAAACCTTCAACCTCTACCACTCGGCCCTGGGCCGCTCTCGGGCCGACTGGCTGATCGGCATGAACATGAGTCGCCTGTTCACGCTCCTTGGGCGTCAGTCCGGCTATCAGGGCGTGCTGCCGGTAGGCCGCGTGCAGACACCGACTTTGCGGCTGGTGGTAGACCGCGACCGTAGCATTGCCGATTTCGTCCCGGTCGCCTACTGGGCCATCGACGTGCGACTGAGCCACGCCGGCACGGCCTTCACCGCCCAGTGGCGCGCCGATCCGGATGCCTGCGACGACCAGGAGCGCTGCCTGAACCAGGCCCTCGCCCGCGATGCGGCAAAAGCCATGGGCAGTGCCGCTACCGCCAGGGTGATCAAGGTCCGCACCGAACGGCTGCGTGAGGCCGCGCCGCTGCCGTTCGACCTGGGCACGCTGCAGGAGGTCTGCTCGAAGAAGCTCGGCCTTGGCGCCCAGGAAACCCTGGACATTGCCCAGTCGCTCTACGAAACCTACAAGCTCATCACCTATCCGCGCAGCGATTGCGGTTTCCTGCCCTTGAGCCAGCACGGCGAAGCACCCGCCATTCTCGCCGCCCTCGCCCAGGCCGACCCGGGCCTTGCGCCGCTGCGCGAGCACCTGCAACCGCAACGCAAATCCCGCGCCTGGAACGACGCCAAGGTCAGCGCGCACCACGGCATCATTCCCACGGCCGCGGCGAAGAACCTCGACAAGCTCGCCGGCAAGCAACGGGCCGTCTATACGCTGATTCGCGCGCGCTACCTGGCGCAATTCCTGCCCAACCATGAATACGACCGGACCCAGGCCGACTTCGATTGTGCCGGCCAGGCCCTGCGGGCCGTCGGCAAGCAGATCATCGAACCCGGCTGGAAACGCGCCCTGCCCGAAGCACTGGCACCCACACGCGGCCGCGAAGCCCCCGCGCCACAAACCCTGCCGCCGCTCGCCGAAGGCCGCGATTGCAATGTGGACGAGGTGATCCCCAAGGACCTGTGGACCCAGCCGCCCAAGCCGTTTACCGAGGGCGACCTGATCAAGGCGATGAAAAATGTCGCCAAGCTGGTGGAGGACCCGCTGCTCAAGCAGAAGCTCAAGGACACCACCGGCATCGGCACCGAAGCAACCCGAGCCTCGATCATCCAGGGTCTGCTCGATCGTGGTTACCTGGTGAAAAACGGCAAGGCCCTGTCCGCCACTCCAGCGGCGTTCAGCCTGATCGACGCGGTGCCTCGGGCGATCGCCGACCCCGGCACCACCGCCATCTGGGAACAGGCCCTGGACATGGTGCAGAGCGGTGAGATGAGCCTGGAAGAATTCGTCACGCGACAAGCCGCCTGGATGAGCAAGCACGTCGCCCGCTGCCAAGGCATGAGCCTGACCATCAACGGCACGGCCAGCCCCGCCGGACGTGGCGCGGCGCCGTGGAAGAAAAAACGCAAGCCGGCCAAGCGCAAGGCCGACGGCGCACCGCGCAAAGCGGGCAAGGCCAAGGCCAAGGCCACCTGA	MRLYLCEKPSQAKDIAAVLGATRRGDGCWLGANVTVTWCIGHLLETAPPDAYDARYKRWVLADLPIVPAQWKMTVKPKTAGQYKAVKRLLGEATELIIATDADREGEMIARELVEHCRYRGPIQRLWLSALDEASIRKALAALKPGAETFNLYHSALGRSRADWLIGMNMSRLFTLLGRQSGYQGVLPVGRVQTPTLRLVVDRDRSIADFVPVAYWAIDVRLSHAGTAFTAQWRADPDACDDQERCLNQALARDAAKAMGSAATARVIKVRTERLREAAPLPFDLGTLQEVCSKKLGLGAQETLDIAQSLYETYKLITYPRSDCGFLPLSQHGEAPAILAALAQADPGLAPLREHLQPQRKSRAWNDAKVSAHHGIIPTAAAKNLDKLAGKQRAVYTLIRARYLAQFLPNHEYDRTQADFDCAGQALRAVGKQIIEPGWKRALPEALAPTRGREAPAPQTLPPLAEGRDCNVDEVIPKDLWTQPPKPFTEGDLIKAMKNVAKLVEDPLLKQKLKDTTGIGTEATRASIIQGLLDRGYLVKNGKALSATPAAFSLIDAVPRAIADPGTTAIWEQALDMVQSGEMSLEEFVTRQAAWMSKHVARCQGMSLTINGTASPAGRGAAPWKKKRKPAKRKADGAPRKAGKAKAKAT				NA	NA	NA	NA	NA
D1-35_01022	408			hypothetical protein	ATGAATTCGATGCCGAAGGGCAACGGACAGGCGACCACACGTTTGATTCTCGTCGTTGAGGATGATCCGACCATCCTGGAGTTTCTGTGCGAAATCCTGGAAGAGGAAGGGTTTGTCGTCGAGCCTCGGGAAAGCGCAGATTCGGCGCTGACATTCTTGGAGGAGAGCGCCGACTATGTGGACCTGCTGCTGACCGATATCACCATGCCCGGGGCGATGGACGGAGCGGACCTGGCCAACCTGACCGGGGACCGCTGGCCGCAGATACCGCTGCTGATCATGTCGGGCTTCGAGACGCCGGAAAGCGCGGGGATCAAGCACCAGGCCTCGTTCATCGCCAAGCCATGGGCGCTGGGACAGATGCTCGATCTGGTGGAGAGCACGGTGAAAAGCCATTCGGTTCACTGA	MNSMPKGNGQATTRLILVVEDDPTILEFLCEILEEEGFVVEPRESADSALTFLEESADYVDLLLTDITMPGAMDGADLANLTGDRWPQIPLLIMSGFETPESAGIKHQASFIAKPWALGQMLDLVESTVKSHSVH				NA	NA	NA	NA	NA
D1-35_01023	522	fecI_1	COG1595	putative RNA polymerase sigma factor FecI	ATGTCCGCCCACGATCTGTCCCTACGCAGCGCCGTCAACGATCTGTATTGCGACCATCATGGTTGGCTTCAGGGGTGGCTGCGCAAGCGCCTCGGCAATACCTTCGATGCGGCGGACCTGGCCCAGGATACCTTCGTTCGGGTGATCAAGGCGCGCTCGGCACTGGATATCCGCGAGCCGCGGCCCTATCTGTCGATGATCGCCAAAGGGCTGCTGGTCGATCTCTTTCGCCGCCGTTCCCTTGAGCAGTCGTACCTCGAAGCGCTGGCCGCGATGCCTGAAGCGCAGCAGCCATCGCTGGAAGAGCAGGCGATCCTGTTCCAGGCCCTGATGGAAATCGATCGGCTGCTGCAAGGCCTGGGCCCCAAGGTCAAGCAAGCATTCATCCTCTCGCAGTTCAACGGCTTGACCTACCCGCAGATCGCCGAGCGCCTCGGCATTAGCGTACGTACGGTCAACAACCACATGGCCAAGGCCATGGAACACTGCTGTCTGATGCAAATCCAGTTGCAGCTCGAATGA	MSAHDLSLRSAVNDLYCDHHGWLQGWLRKRLGNTFDAADLAQDTFVRVIKARSALDIREPRPYLSMIAKGLLVDLFRRRSLEQSYLEALAAMPEAQQPSLEEQAILFQALMEIDRLLQGLGPKVKQAFILSQFNGLTYPQIAERLGISVRTVNNHMAKAMEHCCLMQIQLQLE	PGPT0003900_50	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003900-prhI|fecI-K23514	NA	NA
D1-35_01024	951	fecR_1	COG3712	Protein FecR	ATGAACGTGTCGCCCGAGCAATTGCAGGCCATCCGTGTCGCGGCGCAATGGTATGCCCGGCTTCACTCCGGCACCACAACTGACGCGGAGCGCGAAGGGTGGTGGGCCTGGCTGGCCGCGGATCCGCTGAACGAGCAGGCCTGGCAACGCATGGCGGCGGTGTCGGAACAGATGGCCAGCGTGCCGGGCGCATTGGCTGCGCCAACCTTGAGTGCCCACCCTGGCCGACCTCGTCGAGAGGTGCTGCGCAGCGCCTTGCTGCTGACCTCCGCCGGCTGCCTGGGATGGCTGGGCTGGCGCAGCGAGACCGCGCAGAACCTACTTTGCGATTACCGGACCGGCGTGGGCGAGCGGCGTGAGTTCCAGTTGGTGGACGGCAGCACGCTGCTGCTCAACACCGACACCTCGGTAAACGTCCGTTTCGATGGCCGCCAGCGGACATTGACGCTGTTGTGGGGCGAAATTCTCGTAACGACCGGGGTCGATCCCTTGCAGCGGCCATTCAAGGTCGTCACTGGCCAAGTCGAAGTGCTGGCCCTGGGGACGCGATTCATCGTCCGCGCTCAGGACGACGGCGGTGAGGTGGCGGTGCTGGAGAAGGCCGTGCAAGTCAGTTTGCGCAGCGGCGGGCCAGCCCAGCGGGTCGACGCGGGTGATCGCCTGGGCTTCACCGGTCGGTCGCTGGGTGCGTTGCGCGCCAATGATGTATCGGTGGGTGCCTGGCAACAGGGCAGCATCATCGCCATCGACCGCCCGCTGTCGGCCTTGCTGGTGGAGCTTTCCCGCTATCGCACGGGAATATTGCGCTGCGACCCGGCCATCGGCGACTTGAAAGTCTCCGGCGTTTTTCCCATCGACAATACCGATCTTGCCCTGGCGGCACTCGAAACCGGTTTCTCGTTGCGCGTGACTCGCTACAGCCGGTTCTGGGTCCAGGTGTCGCGTGCCTGA	MNVSPEQLQAIRVAAQWYARLHSGTTTDAEREGWWAWLAADPLNEQAWQRMAAVSEQMASVPGALAAPTLSAHPGRPRREVLRSALLLTSAGCLGWLGWRSETAQNLLCDYRTGVGERREFQLVDGSTLLLNTDTSVNVRFDGRQRTLTLLWGEILVTTGVDPLQRPFKVVTGQVEVLALGTRFIVRAQDDGGEVAVLEKAVQVSLRSGGPAQRVDAGDRLGFTGRSLGALRANDVSVGAWQQGSIIAIDRPLSALLVELSRYRTGILRCDPAIGDLKVSGVFPIDNTDLALAALETGFSLRVTRYSRFWVQVSRA	PGPT0003910_5158	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003910-prhR|fecR-K07165	NA	NA
D1-35_01025	2478	fptA	COG4773	Fe(3+)-pyochelin receptor	ATGTCTCGCGTGAACACGCCAGGTCGTCTGGCAATCGCAATGAAAATCGGTTTTCTGGCCGCCACGTCTTTCGGCGCCTGGGCGGCGTACGCCAGTCCGGTTGCGCAGGCTTCGGTGCCACAACACTCGGCGCAGGCCTACGATATCGGCGCTGGCACCCTGGTGGATGTGCTGACGCGTTTCTCCAGCCTCGCCGGCGTCGCGATTTCGTTCGATGCCGCACAAATGCAGGGGATGCGGTCGCCAGGCTTGAAAGGCTCCTTTGGCGTGGCCGAAGGTTTCGCGCGCATCCTCGGCAGTAACGGCCTGCAAGCCGAACCCCAGGCCAACGGGACCTACCGGCTGCGTACCGCACCTGCGCCCGGCTCGGCGCTGGAGCTCGGCACCACGACCATCGACGGCCAACTGCTCACGGCAACCACCGAAAACAGCGGGTCCTATACCACTGGGGCGGTGACCATCGGCAAAGGCGAGCATTCGCTGCGCGAAACGCCGCAATCGGTCACCGTGATCACCCGCAAGATGCTCGACGATCAGAACCTGAACACCATCGAGCAGGTGATGGAAAAGACCCCGGGTATCACCGTCTACGACTCGACCATGGGCGGCAAGTATTTCTATTCCCGCGGGTTCCGGATGTCCGGCCAATACCAGTACGACGGCGTGCCGCTGGACATGGGCAACAGCTATGTCCAGGCCGACAGCTTCAGCAGTGACATGGCCTATTACGACCGGGTCGAAGTCCTGCGCGGCGCTGCCGGCATGATGAAGGGATCCGGCGGTACGTCCGGTGGCGTCAATTTCGTCCGCAAGCGCGGCCAGGCTACGGCGCAGACTGAACTCAGCCTCTCGGGCGGCACCTGGAACAACTATCGCGGGCAGGTCGATACCGGTGGCCCGTTGAACGACGCCGGCACCGTGCGGGGCAGGGCGGTGATCGCCGAGCAGAGCCGGCGCTATTTCTACGACGATGCCCGGCGTACGGATCAGGTCTATTACGGCGCCCTGGATATGGACCTTGCACCCGACACCACGCTCGGCCTGGGCGTGGCGTACGAGGATGTCGACGCGAGCCCTTGCTGGGGCGGGCTGCCACGCTACCGCAATGGCAGCGACCTGAAACTCGGCCGTTCCACTTGCCTGGACCCGTCGTGGAACACCTGGCGCAGCCAACGGACCACGGTCTTCGGCGACCTTCGACATCAGCTCAACGATGACTGGGCCGTGAAAGTCGCAGGCGTCTATACAAAAAACACCCAGGACACCAAATACGCGTTTGCATCGGGTGCGGTGACGCCGGGGGGCTCTACCACCAACCTGTTGGGCAGCCTGTATGACTACGATCAGGTCGACTACGGCCTCGACGCCTACCTGGACGGCAAGTTCGAAGCCTTCGGCCAGCAACATGAAATGATCTTCGGGGCCAACGCCAGTCGTTCGGACAAGGATGATTTCTATTCGGTCGCTTTGTTGCCGCAGAAGCAGAACGTCTTCGACCCGGATCGGCACATCCCGGAGCCGGACGACAGCTACTTCATTGATAACTCGACCCGCGGCGGGCCGGTCAAGACCCTCACCGAACAGCAGGGCGTGTATTCCACGTTGCGCCTGAAACTGGCGGATCCGTTGACCTTCGTTGTCGGCAGCCGGGTGAGCTGGTACAGCTCCAAGAGCGACTCGGTATTTCTCACCGGCGGTACGGAACACGCCAGGAGCACCGAGACCGGCCAGGTCACGCCATTTGCCGGCGTGTTGCTCGACCTCAACGAACACCTGACCGCCTACGCCAGTTACTCGGACATCTTCACGCCCCAAGGCAACTACCGCTCGCAAAGCGGCTCGGCGCTCAAGCCGCTGGTGGGCGAAAGTTATGAACTGGGGATCAAGGGCGAGTGGTTCGAAGGGCGCCTGAACACGGCATTCAACCTGTTTCGCACCGTGCAGAAGGATCAGGCTCAGACGGATTACAACTCCACCTGCGCCTCATCGGACGGCTACTGCTACGAGAACGCTGGCAAGGTCCGCGCCCAGGGCTTCGAGGCCGAGATCAGCGGCGAAGTCATCGAGCGCCTGCAACTGCTCGCCGGATATACCTACACCCAGACCAAGACCCTGGACGACATTGACAGCAGCCTCAATGGCGGTTCGTTCAACAGCTATGTGCCGCGCCACGTGCTGCGCCTTTGGGGCGATTACGCCCTCGGTGGCGCCTTCGAGCGGTTCAGCGTCGGCGCCGGGGTCAATGCGCAGAGCGATAATTTCCGCGTATCGCCGCTTAGCGGTGAAAAGATCACCCAGGCCGGTTATGCGGTGTGGAACGGTCGGATCGGCTACCGCATAGATGACACCTGGTCGGTGGCGCTCAACGGCAACAACCTGTTCGACAAGCGCTACTACACCACCATCGGCACCGAAAGCTTCGGTAACTATTACGGTGAGCCGCGCAATTTCACCGCGACGGTGAAGGCGCGCTTCTGA	MSRVNTPGRLAIAMKIGFLAATSFGAWAAYASPVAQASVPQHSAQAYDIGAGTLVDVLTRFSSLAGVAISFDAAQMQGMRSPGLKGSFGVAEGFARILGSNGLQAEPQANGTYRLRTAPAPGSALELGTTTIDGQLLTATTENSGSYTTGAVTIGKGEHSLRETPQSVTVITRKMLDDQNLNTIEQVMEKTPGITVYDSTMGGKYFYSRGFRMSGQYQYDGVPLDMGNSYVQADSFSSDMAYYDRVEVLRGAAGMMKGSGGTSGGVNFVRKRGQATAQTELSLSGGTWNNYRGQVDTGGPLNDAGTVRGRAVIAEQSRRYFYDDARRTDQVYYGALDMDLAPDTTLGLGVAYEDVDASPCWGGLPRYRNGSDLKLGRSTCLDPSWNTWRSQRTTVFGDLRHQLNDDWAVKVAGVYTKNTQDTKYAFASGAVTPGGSTTNLLGSLYDYDQVDYGLDAYLDGKFEAFGQQHEMIFGANASRSDKDDFYSVALLPQKQNVFDPDRHIPEPDDSYFIDNSTRGGPVKTLTEQQGVYSTLRLKLADPLTFVVGSRVSWYSSKSDSVFLTGGTEHARSTETGQVTPFAGVLLDLNEHLTAYASYSDIFTPQGNYRSQSGSALKPLVGESYELGIKGEWFEGRLNTAFNLFRTVQKDQAQTDYNSTCASSDGYCYENAGKVRAQGFEAEISGEVIERLQLLAGYTYTQTKTLDDIDSSLNGGSFNSYVPRHVLRLWGDYALGGAFERFSVGAGVNAQSDNFRVSPLSGEKITQAGYAVWNGRIGYRIDDTWSVALNGNNLFDKRYYTTIGTESFGNYYGEPRNFTATVKARF	PGPT0003775_226	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_COMPLEX_RECEPTOR,PGPT0003775-fptA|fhuE|fpvA|C_FEV_OM1|fauA-K16088	NA	NA
D1-35_01026	1623	nanT		Sialic acid transporter NanT	ATGTCTGAACATGTTCAGCCCCTGGAAGCCACGCGCAGCGCAGGCACCAGCCAGGAAACCCAGAAAGTCATCTTCGCCTCGTCCTTGGGGACGGTGTTCGAGTGGTACGACTTTTTCCTCTACGGCGCCCTCGCGGCGGTGATCAGCAAGCAATTCTTCGCCGGGGTGAACGACACCACGGCGTTCATTTTCGCCCTGATGGCTTTCGCCGCCGGTTTCATCGTGCGGCCCTTCGGGGCGCTGGTGTTTGGGCGGCTGGGGGACATGATCGGGCGCAAGTACACGTTCCTGGCAACCATCGTGCTCATGGGCCTGGCGACCTTCTGCGTCGGCCTGCTGCCCAACTACGCGAGCATCGGCATCGCCGCGCCCATCATCCTGGTGGTATTGCGCATGCTCCAGGGCTTGGCCCTGGGCGGTGAATACGGTGGCGCGGCGACCTATGTGGCCGAGCATGCACCGATGGGCAAGCGCGGCTTTCATACCAGCTGGATTCAGTCCACCGCGACACTGGGCCTGTTGCTCTCGCTACTGGTGGTGCTCGGTTGCCGTTACTTCACCGGTGACCAGTTCGAAGTCTGGGGCTGGCGCATTCCGTTCCTGCTGTCGATCCTGCTGCTGGGCATCTCCACCTGGATCCGCCTGAGCCTGCACGAGTCGCCGGCCTTCCTGAAAATGAAAGAAGAAGGCAAGTGCTGCAAGGCGCCGATCCGCGAGTCCTTCGGCAAGTGGGAAAACCTGAAGGTGGTGCTGATCGCCCTGTTCAGCATCAATGCCGGGCAAGCGGTGACCTTCTATGCCGCGCAATTCTACGTGCTGTTCTTCCTCACCCAGTTCCTCAAGATGGACCCGGCCCTTGCCAATAGCCTGTTGATTGTCAGCGTGGTGATCGGCGCGCCGTTCTTCATCTTCTTTGGCTGGCTGTCGGACAAGGTCGGGCGCAAACCGGTGCTGATGATCGGCCTGCTGCTGGCGACGGCGTTGTACTTTCCGATCTTCAAGACGCTCGCTCATTACGCCAACCCGGCCATCGACCTGGCGAGCCGCCAGGCGCCGATCACTGTCGTCGCCGACCCGGCCACCTGCACCTTCCAGTTCGACCCGGTGGGCAAGGCGCGTTTCGACAGCCCTTGCGACAAGGTCAAGACCTTCCTGGTCAAGCAAGGCCTGCCCTACACCAGCGTCGCGGCACCGGCCGGCAGCACCGTGCAGGTCAGCGTCGGCGACGTGAAACTTGAAGGCTACGACGAAGCCGCCCTGCGCGGCGCGGTGACCCTGGCGGGCTACCCGCAACAAGCCGATGCCCAGCAGATCAACCGGCCGATGATCGTCGCCCTGATCGTGGCGCTGATCATCATTTCGGCGATGTGCTACGGCCCGCTGGCGGCGCTGATGGTCGAACTGTTTCCGACCCGCATTCGCTACACCTCCATGTCCCTTCCGTACCACATCGGCAACGGCTGGTTCGGCGGTTTCCTGCCAACCGTGTCGTTCGCCCTGGTGGTCTACACCGGGGATATTTTCTACGGCTTGTGGTACCCGGTGGTGATCACGGGCGTGAGCCTGGTGGTGGGGATGATCTGCCTGCGGGAAACCCGCAACGTCGATCTGGATACCAACTGA	MSEHVQPLEATRSAGTSQETQKVIFASSLGTVFEWYDFFLYGALAAVISKQFFAGVNDTTAFIFALMAFAAGFIVRPFGALVFGRLGDMIGRKYTFLATIVLMGLATFCVGLLPNYASIGIAAPIILVVLRMLQGLALGGEYGGAATYVAEHAPMGKRGFHTSWIQSTATLGLLLSLLVVLGCRYFTGDQFEVWGWRIPFLLSILLLGISTWIRLSLHESPAFLKMKEEGKCCKAPIRESFGKWENLKVVLIALFSINAGQAVTFYAAQFYVLFFLTQFLKMDPALANSLLIVSVVIGAPFFIFFGWLSDKVGRKPVLMIGLLLATALYFPIFKTLAHYANPAIDLASRQAPITVVADPATCTFQFDPVGKARFDSPCDKVKTFLVKQGLPYTSVAAPAGSTVQVSVGDVKLEGYDEAALRGAVTLAGYPQQADAQQINRPMIVALIVALIIISAMCYGPLAALMVELFPTRIRYTSMSLPYHIGNGWFGGFLPTVSFALVVYTGDIFYGLWYPVVITGVSLVVGMICLRETRNVDLDTN				NA	NA	NA	NA	NA
D1-35_01027	1644	alkJ		Alcohol dehydrogenase [acceptor]	ATGCAACCTGTCGTCGATGAATACGATTACGTGATCGTGGGCGCCGGCCCTGCCGGCTGCCTGCTGGCGAACCGGCTTTCGGCCAATCCGCAACACCGCGTGCTGCTGCTCGAAGCCGGCGGGCGGGACAATTATCCGTGGATCCACATCCCGGTCGGCTACCTGTTCTGCATCGGTAACCCACGCACCGACTGGTGCTTCAAGACCGAAGCGCAACCCGGCCTGCAAGGGCGCGCCTTGAGTTATCCGCGCGGCAAGGTGTTGGGCGGCTGTTCGTCCATCAACGGCATGATCTACATGCGTGGCCAGGCGGCGGACTACGACGGCTGGGCCGCCGAAGGCAATGTCGGCTGGGGCTGGAAGGATGTGTTGCCGCTGTTCCGGCAGAGCGAAAATCACTTCGCGGGGGATTCCGAGCTTCACGGCGCAGCCGGGGAATGGCGAGTCGAACGCCAGCGCCTGTCATGGCCGATTCTCGATGCCTTCCGCACCGCCGCCGAACAGAGCGGCATCCCCAGCGTCGAGGATTTCAACGGTGGCGACAATGAAGGTTGCGGCTACTTCCAGGTCAACCAGAAAGCCGGGGTGCGCTGGAACGCGGCCAAGGCCTTCCTCAAACCGATTGGCAATCGCCCCAACCTGACGGTGCTGACCGACGTCGAGGTTGATCGGGTGTTGCTGCGTGACAACCGCGCCGACGCCGTCAGCGCCCGCTGGCAGGGCAAGAACATGAGCTTCAGGGCGCGCAAGGAAATCGTCCTGTGCGCCGGCGCCGTCGGCTCGCCGGGCATCTTGCAGCGCTCCGGGATCGGCCCGCGCAACCTGTTGCAGCGTCTGGGCATCGGCGTGCTGCATGAACTGCCCGGCGTCGGTGGCAACTTGCAGGACCACTTGCAACTGCGGCTGATCTATCAGCTGGAAAACGCCCGCACCCTGAACCAGATCGCCGGCACCCTGTGGGGCAAGATGGGCATGGGCCTGCGTTACCTGTACGACCGCAGTGGCCCGCTGTCCATGGCCCCCAGCCAACTCGGCGCGTTCGCCCGCTCGGGGCCGGAACAGGCCTCCGCCAACCTCGAATACCACGTACAACCGTTGTCCCTGGAACGTTTCGGCGAACCGCTGCACAGCTTCTCGGCGTTCACCGCGTCGGTGTGTGACCTGCGCCCGATGAGCCGTGGTCGCGTGGACATCCGCTCGGCCGATCCTCATGAGGCGCCGTCGATCCAACCCAATTACCTGAGCCATCCCGAGGACCTGCGGGTCGCCGCCGACGCCATCCGCCTGACTCGACGGATCGTCGCCGCGCCAGCCCTGAGTGCTTTCAAACCGGTGGAATACCTGCCAGGCCCAAGCCTGCAGACCGAGGAAGAACTGCACCAGGCCGCCGCCCGCATCGGCACGACAATTTTTCATCCGGTGGGCACCTGTCGCATGGGCCAGGACGGCGATGCGGTGGTCGATGCGCAACTGCGCGTCCACGGCATCAAGGGCCTGCGCATCGCCGACGCCTCGATCATGCCGCGCATCACCTCCGGCAACACCTGCTCGCCGACACTGATGATCGCCGAGAAGGCCGCGCGGATGATGCTTGAGCCGGCCACCGTGGGCGCTACGCTGCAGAAGGAGCCTGCCACGGTCTGA	MQPVVDEYDYVIVGAGPAGCLLANRLSANPQHRVLLLEAGGRDNYPWIHIPVGYLFCIGNPRTDWCFKTEAQPGLQGRALSYPRGKVLGGCSSINGMIYMRGQAADYDGWAAEGNVGWGWKDVLPLFRQSENHFAGDSELHGAAGEWRVERQRLSWPILDAFRTAAEQSGIPSVEDFNGGDNEGCGYFQVNQKAGVRWNAAKAFLKPIGNRPNLTVLTDVEVDRVLLRDNRADAVSARWQGKNMSFRARKEIVLCAGAVGSPGILQRSGIGPRNLLQRLGIGVLHELPGVGGNLQDHLQLRLIYQLENARTLNQIAGTLWGKMGMGLRYLYDRSGPLSMAPSQLGAFARSGPEQASANLEYHVQPLSLERFGEPLHSFSAFTASVCDLRPMSRGRVDIRSADPHEAPSIQPNYLSHPEDLRVAADAIRLTRRIVAAPALSAFKPVEYLPGPSLQTEEELHQAAARIGTTIFHPVGTCRMGQDGDAVVDAQLRVHGIKGLRIADASIMPRITSGNTCSPTLMIAEKAARMMLEPATVGATLQKEPATV	PGPT0013615_2901	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013615-betA|CHDH-K00108	NA	NA
D1-35_01028	885	hdfR_2		HTH-type transcriptional regulator HdfR	ATGTTCGACTGGAATGACCTGCGCTATTTCCTCGAACTGCAACGCAGCGGCCGCCTGCTGACGGCCGCGCGACGGCTCAACACCACCCATGCCACGGTGGCGCGGCACATCGAGGCGATCGAGAAAAGCCTCGGCACTGCGTTGTTCGTCCAGCACGCCCAAGGGTATGAATTGACCCCGGCAGGCGAAGCGCTGCTCAAGCATGCCGAGGCCATGGAGAATGTCGCGTTGCTGGCCCAGGAAGACATCACCCAATCCAGCGCGCCGCTGGGCAAGATCCGCCTCGGCGTGACGGAAGGGCTGGGCATCATGTTCCTCGCCAGTCGCATGGACGGCTTGTTCCAGCGCTATCCGGGGCTTGAAGTGGAACTGGTGGCCGTGCCGCGATTTGTCAGCATCCTCAACCGCGAGGCGGAAATCAGCATTCACCTCGAACGCCCGGCGGCCGACCTGCTGGTGACGCGCAAGCTCACCGACTACAGCCTGGCGCTCTACGCCAGCCAGGCTTACCTGGACCGTTCGCCATCGTTACGCAGTCGCGAGGATCTGGCCCGCCATGCCTGGATCGGCTACGTCGATGACCTGCTGTTCAGCCAGGAGCTGATGTTCCTCAACAGCTTTTGCCGAAACCCTCGCGTGGTGTTCCACAGCACCAGCGTCATTGCCCAGCAACAGGCCGCGCGCTCGGGCCTGGGGATCGCCGTGCTCCCGTGCTACATGGCCAGCAGCGACCCGACCCTGGTGCCGCTGCTGCCGGACGAAACCATCCGCCGCAGTTATTGGATCAGCACCCGCCGGGAGCTGCACAAGTCCGTCCGGTTGCGGGTGTTGTGGGATTACGTGGTGCAGTTGTGCGAGCGCGAGCAAGGGCTGCTGTTGCCCTGA	MFDWNDLRYFLELQRSGRLLTAARRLNTTHATVARHIEAIEKSLGTALFVQHAQGYELTPAGEALLKHAEAMENVALLAQEDITQSSAPLGKIRLGVTEGLGIMFLASRMDGLFQRYPGLEVELVAVPRFVSILNREAEISIHLERPAADLLVTRKLTDYSLALYASQAYLDRSPSLRSREDLARHAWIGYVDDLLFSQELMFLNSFCRNPRVVFHSTSVIAQQQAARSGLGIAVLPCYMASSDPTLVPLLPDETIRRSYWISTRRELHKSVRLRVLWDYVVQLCEREQGLLLP				NA	NA	NA	NA	NA
D1-35_01029	753	nagR_1	COG2188	HTH-type transcriptional repressor NagR	ATGCCCGACAACCTTCTTTCCCTCAGCAGCGTGCCGCTGCACACCCAACTGCGCGACGTGCTGCGCGCGCGCATTCTTGACGGTGAATACCCGCAAGGCAGCCAGATGCCTTCGGAAAGCGAGCTGGGCGCGCTGTTTCGCGTCAGCCGCATCACCGTGCGCCAGGCCTTGGGCGATCTGCAAAAGGAAGGGCTGATTTTCAAGATCCACGGCAAAGGCACGTTCGTCGCCAAACCCAAGACCTTCCAGAACGTCAGCACGCTGCAGGGCCTGGCCGAGTCCATGACCGGTCGTGGCTACGAGGTGATCAACCGCCTGCGCAGTTTCAAGTTCATCCCGGCGGACAAGTCGGTGGCCGAGCGCCTGAAACTGGCGGAAGGCGACGTGGTTACGCAGATCAAGCGGGTGCGGCTGATCAACCGCGAGCCGGTTTCCCTGGAAATCACCTACCTGCCCAAGGCCCTCGGCGAGCGCCTGGAAAAAGCCGACCTGGTGACCCGCGACATCTTCCTGATCCTCGAAAACGATTGTGGCCTGGCCCTCGGTCACGCCGACCTTGCCATCGATGCGGTGCTGGCCGACAGCGACTTGTGCCAGGCACTCGACGTCGAGCCCGGCTCGCCGGTCATGCGCATCGAACGGCTGACCCATGACGCCGGCGGCGAGCCGCTGGACTTCGAATACCTCTACTACCGTGGCGATGCCTTCCAGTATCGCTTGCGGATCGACCGGCAAAAAGGGACGCAGGCATGA	MPDNLLSLSSVPLHTQLRDVLRARILDGEYPQGSQMPSESELGALFRVSRITVRQALGDLQKEGLIFKIHGKGTFVAKPKTFQNVSTLQGLAESMTGRGYEVINRLRSFKFIPADKSVAERLKLAEGDVVTQIKRVRLINREPVSLEITYLPKALGERLEKADLVTRDIFLILENDCGLALGHADLAIDAVLADSDLCQALDVEPGSPVMRIERLTHDAGGEPLDFEYLYYRGDAFQYRLRIDRQKGTQA				NA	NA	NA	NA	NA
D1-35_01030	1740	aprA		Adenylylsulfate reductase subunit alpha	ATGACCCAGAGCTCCAGGAATATCCTCGAACAGGAATATGACATCGTCGTCATCGGCGGCGGCACCGCCGGCCCCATGGCGGCGATCAAGGCCAAGGAGCGCAACCGCGACCTGCGCGTGTTGCTGGTCGACAAGGCCAATGTCAAGCGCAGCGGCGCCATCAGCATGGGCATGGACGGGCTCAACAACGCGATTATCCCGGGCCATTCGACGCCCGAGCAGTACACCAAGGAAATCACCATCGCCAACGACGGCATCGTCAACCAGGCGGCGGTGTACGCCTACGCCACCCACAGCTTCGAAACGATCGAGCAACTGGACCGCTGGGGCGTGAAGTTCGAGAAGGACGAAACAGGCGATTACGCGGTGAAAAAGGTTCACCACATGGGCGCTTATGTGCTGCCGATGCCGGAAGGTCACGACATCAAGAAAGTCCTCTATCGCCAGTTGAAACGGGCGCGAGTCAGCATCACCAACCGGCTGGTCTGCACCCGGTTGCTGACCGACGGGGAGGGCGCGGTGAACGGTGTGATGGGTTTTGACTGCCGCACCGCCGACTTCCATGTGATCAAGGCCAAGGCCGTCATCCTCTGCTGCGGCGCGGCGGGGCGCCTGGGGTTGCCGGCCTCCGGCTACCTGATGGGCACCTATGAGAACCCGACCAATGCCGGCGACGGTTATGCGATGGCCTATCACGCCGGGGCCGAGCTGGCGAACCTGGAGTGCTTCCAGATCAACCCGTTGATCAAGGATTACAACGGCCCGGCGTGCGCCTACGTCACCGGCCCGCTGGGCGGCTACACCGCCAACAACAAGGGCGAGCGCTTTATCGAATGCGACTACTGGAGCGGGCAGATGATGTGGGAGTTCCACCAGGAGCTCGAAGGCGGCAACGGTCCGGTGTTCCTCAAGCTCGATCACCTGGCCGAGGAAACCATCCAGAACATCGAGGAAATCCTGCACAGCAACGAGCGCCCCAGTCGCGGGCAGTTCCACGCCAACCGGGGCACCGATTACCGCACGCAGATGGTGGAGATGCACATTTCCGAGATCGGCTTCTGCAGCGGTCATTCGGCTTCTGGAGTGTGGGTCAACGAGCGGGCCGAGACCTCGGTCAAGGGTTTGTACTCGGCGGGCGACATGGCGGCAGTGCCGCACAACTACATGCTCGGCGCGTTCACCTACGGCTGGTTTGCCGGCCAGAACGCGGCGGACTTTGTCGCTGGCAAGGACTTTTCGGCACTGGATGCTCAGCAGATCGAGCAGGAGCAAAACCGCGTCTACGCGCCGCTCGACCGTGCGCATGGCCTGCCGCCGGCCCAGGTGGAATACAAGCTGCGCCGCTTCGTCAACGATTACCTGCAACCGCCGAAGGTCAGCAAAAAAATGCAGATCGGCCTGCAACGCTTCAGCGATATCCAGCGCGACCTTGATCAGCTCAAGGCCCACAACGCCCACGAATTGATGCGCGCCATGGAAGTCAGCGTGATCCGCGATTGCGCCGAGATGGCCGCTCGCGCCTCGCTGTTTCGCGCCGAAAGCCGTTGGGGGTTGTACCACTACCGGGTCGATCATCCGCAACGCAACGACAGCGACTGGTTCTGCCATTGCCATTTGAAGAAAGGCGAGGACGGCGCGATGACCTCGTTCAAGAAAGCCGTCGAGCCCTACATCATCGCCCTCGATGCCGACGAACTGCAGGCCTACGACCGGCTTCGGCTCGGTGCCGACGCGGCGTGA	MTQSSRNILEQEYDIVVIGGGTAGPMAAIKAKERNRDLRVLLVDKANVKRSGAISMGMDGLNNAIIPGHSTPEQYTKEITIANDGIVNQAAVYAYATHSFETIEQLDRWGVKFEKDETGDYAVKKVHHMGAYVLPMPEGHDIKKVLYRQLKRARVSITNRLVCTRLLTDGEGAVNGVMGFDCRTADFHVIKAKAVILCCGAAGRLGLPASGYLMGTYENPTNAGDGYAMAYHAGAELANLECFQINPLIKDYNGPACAYVTGPLGGYTANNKGERFIECDYWSGQMMWEFHQELEGGNGPVFLKLDHLAEETIQNIEEILHSNERPSRGQFHANRGTDYRTQMVEMHISEIGFCSGHSASGVWVNERAETSVKGLYSAGDMAAVPHNYMLGAFTYGWFAGQNAADFVAGKDFSALDAQQIEQEQNRVYAPLDRAHGLPPAQVEYKLRRFVNDYLQPPKVSKKMQIGLQRFSDIQRDLDQLKAHNAHELMRAMEVSVIRDCAEMAARASLFRAESRWGLYHYRVDHPQRNDSDWFCHCHLKKGEDGAMTSFKKAVEPYIIALDADELQAYDRLRLGADAA				NA	NA	NA	NA	NA
D1-35_01031	246			hypothetical protein	ATGGCCTATCAACCCCAGGAAATCTTCTTCCGCTCCAATGCCCCTGTCACCGTGGACGAGGACAAATGCATCGCCCACAAGGGCTGCACGGTCTGCGTCGATGTCTGCCCGATGGACCTGTTGGCGATCAACCCGGCCACCCAGAAGGCCTACATGGCGTTCGATGAATGCTGGTATTGCATGCCCTGTGAAAAGGACTGCCCGACGGGGGCGGTGAAAGTGGAGATTCCGTATCTGTTGCGGTGA	MAYQPQEIFFRSNAPVTVDEDKCIAHKGCTVCVDVCPMDLLAINPATQKAYMAFDECWYCMPCEKDCPTGAVKVEIPYLLR	PGPT0002775_151	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002775-aprB-K00395	NA	NA
D1-35_01032	1407			hypothetical protein	ATGTTATTGCGTGCAGCGCTGGCCGGTCTGGTACTGGCTTCATTGACCTTGCCTGCCCAGGCAGAAACCATCCGCATTGCCATCGGCACCCAGGACACCACCATCAACTGCGCCGCTGGCGGGTTGCTGATCCGCGAGCTCGGCCTGCTGGACAAATACCTGCCCCACGACGGCGCGTACAAGGACGCCGAGTACGACATCCAGTGGAAAAACTTCACCAGCGGCGCGCCGCTGACCAACGAGATGGTTGCTGGCAAACTCGACTTCGGCGCCATGGCCGACTTCCCCGGGGCTTTCAACGGCGTGGCGTTCGAGACCGCCGGCAAGCACAGCCTGTTCATCAGCGTGTTGTCGGGCAGCACCCAGGGCAGCGGCAACGGCATTGTCGTGCCCAGCGCCTCGGGCGTGCAGTCCCTCGCCGAGCTCAAGGGCAAGACGATTTCCGTGCCGTTTGCTTCCACCGCCCATGGCATGTTGCTGCGAGCCGTCGCGGCCCAGGGCTGGGATCCGCTCAAGGACGTGAACATCATCGCCCAGCCGCCGGAGGTCGCCGGCTCGGCGCTGCAAGCTGGCAAGATCGACGCCCATGCCGATTTCGTACCGTTCGCCGAACTGTTCCCCAGCCGCGGTTTCGCCCGCAAGATCTACGACGGTGCCCAGGCCAGGACGCCGACTTTCCACGGCGCGCTGGTGGACCAGGCCTATGCCAGAAAGTACCCGGAAATCGTCGTCGCTTATTTGCGCGCGACCATCGAGGCCAATCAATTGCTGGCCGCCGAGCCTGAGAAATACAGCGAGCTGATCGCCAAGGTCACCGGGGTGGATGCCGAGGTCAATTACCTGTTCCACGGGCCGCTGGGCGTACAGACTCGCGACCTGACCTGGAAACCCGAATACCGGCAAGCCGTCGGCACCGCGATCGACACCCTCAAATTGCTGAAGAAGGCTGATCGCGGCCTGGACCTCAACACCTTCATCGACGATCAGTACATCCGCGCCGCGTTCAAGGCGTCGAACCTCGATTACGCCGCGCAACTGGGCAACTACGCCCAGACGCCCCTTGGCAACCCCGATGCCTTGACCGGCCAGCCCATCACCGATCCCCGCCATGTGGCGCAGATCTGGGTACGCGGCGAGCCGACAGTGCGCCATTACGCCTCGGCGCAATCGGCCTTCACCGCGCTGGCGAATCTCAAACAGGAAGGCAAGGGCATCCGCGCCGTCTACGCCCAGGCCAGCGACAGCGGAATCAAGCTGCTGGCCGAGCAGGCGTGGTTCGCCAGCGATGCCAAGGGCCAACTCAGCGCGTTCCTGTTGAAAGGGCAGGCTGAGCAATTTGCCACGGCCGAGGGCGGCAAGGTCCTGGATTTTACCGAAGCCACCACCCAGGCAGTCGCCGCCCGCTGA	MLLRAALAGLVLASLTLPAQAETIRIAIGTQDTTINCAAGGLLIRELGLLDKYLPHDGAYKDAEYDIQWKNFTSGAPLTNEMVAGKLDFGAMADFPGAFNGVAFETAGKHSLFISVLSGSTQGSGNGIVVPSASGVQSLAELKGKTISVPFASTAHGMLLRAVAAQGWDPLKDVNIIAQPPEVAGSALQAGKIDAHADFVPFAELFPSRGFARKIYDGAQARTPTFHGALVDQAYARKYPEIVVAYLRATIEANQLLAAEPEKYSELIAKVTGVDAEVNYLFHGPLGVQTRDLTWKPEYRQAVGTAIDTLKLLKKADRGLDLNTFIDDQYIRAAFKASNLDYAAQLGNYAQTPLGNPDALTGQPITDPRHVAQIWVRGEPTVRHYASAQSAFTALANLKQEGKGIRAVYAQASDSGIKLLAEQAWFASDAKGQLSAFLLKGQAEQFATAEGGKVLDFTEATTQAVAAR	PGPT0001135_230	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
D1-35_01033	783	ssuC_1	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	GTGTACCCATCACCCAAACGCTGGCTCCTGCGAGCCGCTTCCTTGTGGCTCTGCCTGCTGTTCTGGCAGCTCGCCGCCAACGGCCACTGGGACCTCGGCCTGGTGACCTTCGCCAACGTCCCGGCCCCGCTGGCAGTGATCGAGGCCGCGCTCGGCCTGGGCGAGTCGGGCAATCTCGTTCGGCACTTGGGCAGCAGCCTGGGCCGGGTCTTCGCCGGGTATGGCGCGGCGTTGCTGGTGGGCGTGGCGCTGGGCCTGGCCATCGGCCGTTCCCGGTGGGCCGAGGACCTGTTGCTGCCACCGCTGGAAGTGCTGCGGCCGATTCCGGCGGTGGCCTGGATTCCGCTGGCGATCCTGATGTTTCCCTCGTCGGAACTGTCGATGGTGTTCATCACCTTCACCGGTGCGCTGTTCCCGATCCTGCTCAACACCGTGCACGGCGTCGAAGGGGTGGACCGGCGCCTGGTCGCATCTGCGAAAAGCCTGGGGGCAGGGCGCCGGGCGATCCTGCTGGAGGTGATCCTGCCGGGCGCGGCGCCGAGCATCATCACCGGCCTCGCCATCGGCATGGGCACGTCCTGGTTCTGCCTGGTGACGGCGGAAATGATCGCCGGCCAGTACGGCATCGGCTACTACACCTGGGCGTCCTACACCGTGCAGAACTACCCCGACATTGTCGTCGGCATGTTGCTGATCGGCGTGCTGGGCATGGGCAGCAGTTTGTTGATCAAGCGCCTGGGCGGGCTGTTCACGCCTTGGCACCGACCCCGAGGAAAAGCCTGA	MYPSPKRWLLRAASLWLCLLFWQLAANGHWDLGLVTFANVPAPLAVIEAALGLGESGNLVRHLGSSLGRVFAGYGAALLVGVALGLAIGRSRWAEDLLLPPLEVLRPIPAVAWIPLAILMFPSSELSMVFITFTGALFPILLNTVHGVEGVDRRLVASAKSLGAGRRAILLEVILPGAAPSIITGLAIGMGTSWFCLVTAEMIAGQYGIGYYTWASYTVQNYPDIVVGMLLIGVLGMGSSLLIKRLGGLFTPWHRPRGKA	PGPT0001145_6448	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
D1-35_01034	849	nrtD	COG1116	Nitrate import ATP-binding protein NrtD	ATGAGCGCAATACAAACCCCTGAAGGGCGGATCGATATCCGCCAGTTATCCATTGTCCTGGGCCAGGGTGCCCAGGCCTTCGAAGCAGTGCAGGGGCTGGATTGCCAGATCGAGGCCGGCCAGTTCGTCTGCATCCTCGGGCCGTCCGGCTGCGGCAAATCGACGTTGCTCGGCGCGCTTGCCGGGCACCTGCAACCCAGTGCCGGCACGCTGAATGTCGATGCGCTGCCGGTGGCCGGCCCGTCGCCCCAGCGCGGCATGGTGTTCCAGCAGCACACCCTGTTTCCGTGGCGCAGTGTGCGCGACAACGTCGCTTTCGGCTTGAAGATGCGCGGCCAGGGCAAGCTTGAACGATACCGGGCTGCCGATGAAATCCTTGCCCTGGTGGGCCTGGAAGGTTTCGCCGGGCACTGGCCGGACCAACTGTCCGGCGGCATGCAGCAACGGGTGGAGATCGCCCGGGTGCTGGTCAACCGCCCGCGTTTGTTGCTGATGGACGAACCCTTCGGCGCGCTGGATGCATTGACCCGGTTGAACATGCAGGAGCTGCTGCTGGGCATCTGGACGCGCATCCGCACCACCGTTGTCTTCGTCACTCACGACATCGACGAGGCGTTATTCCTCGCTGATCGCTTGCTGGTGATGAGCCCGCGCCCGGGCCGGATCATCGAGGACCTGCGCCTGGATTTCCCGCGGCCACGAACCACCGACCTGGTCACCCGCCCTGAATTTTCCCGATTGAAACGCTATTGCCTCGAGCTGCTGCGCCATGAAGATGGCCGGCAATTGCCGCGCCTCAATCCCCTCGGGCTTCCTCCTGAAACCTCCTTGCCGCGATTTGCCCTATGA	MSAIQTPEGRIDIRQLSIVLGQGAQAFEAVQGLDCQIEAGQFVCILGPSGCGKSTLLGALAGHLQPSAGTLNVDALPVAGPSPQRGMVFQQHTLFPWRSVRDNVAFGLKMRGQGKLERYRAADEILALVGLEGFAGHWPDQLSGGMQQRVEIARVLVNRPRLLLMDEPFGALDALTRLNMQELLLGIWTRIRTTVVFVTHDIDEALFLADRLLVMSPRPGRIIEDLRLDFPRPRTTDLVTRPEFSRLKRYCLELLRHEDGRQLPRLNPLGLPPETSLPRFAL	PGPT0001140_1506	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
D1-35_01035	963			hypothetical protein	ATGACTTCTCTATTCGAAAACACCGATAACGATGACATTCTTGCCCTGCAACCACGCCTGACGGACGACGACGCCGGGGTGCGCCGCATCGCCCTGATCGAACTGGCTGACCTGGAAGAACCCGAAGGCCTGCTGTGGCTTGTCGACCGTCTGGCCCGGGATCCCAGCGCCGAGGTGCGGGCCGAAGCCGCGCGCTTGCTCGAAGCCTGGGAGGACGCGCCGGTGGTCGCGGCCCTGTGCCAGGCCCTGACCGATACCGCCCCGACCGTGCAGGCCGCGGCTGCCCAGAGCCTGAGCCTGCTCAAGAGCGAGGCGGCGGGGGAGGTGATATTGCCTTGGACCACCCACGCGGATGCCAGCGTGCGCATCGCTGCGTTCCGGGCCTTGCGCGAGTTGCGCCTGGGCGCTGCCGCACCGGCTGCGATCGCGGCCCTGGTCGACGCCGATGCCGGCGTGCGTCGCGAGGCGGTTGGCGTGCTGGGCTGGCTCAAGCAGCTTGAGGCTCTGCCGGCCCTGGCCCGGCTCGCCAGCGCCGACCCGGACAGCGAAGTGCGCCGCGCGGCCACCGGCGCCCTGGGCCTGGCTGCGGATGCGCAAGTCTTGCCGGCGCTGCGCCAGGCCCTGCGCGACCCGGCCTGGACGGTGCGTGAAGAGGCCGCCACCACGCTGGGCAAAGTGGGTCACGCCGACGCCGGCCCGGCCCTGATCGATGCCCTGGATGATGATTACTGGCAAGTGCGCCTGCGCGCCACCCGCAGTCTTGGCCGCTTGCGTTATGTCCAGGCATTGCCGGCACTGATCGAAACCCTGGGCCATCGAATCAGCAATCTGCGCAAGGAAGCGGCGTTGGCGTTGGGCGAGTTGGACGATCCGGGAGCGATCCCCGCCTTGCAGGCAGCCCGGGACGATGGCGACCCTGAAGTGCGCAAGGCCGTGCGCATCGCCTTGGGCCAGTTGCAATGA	MTSLFENTDNDDILALQPRLTDDDAGVRRIALIELADLEEPEGLLWLVDRLARDPSAEVRAEAARLLEAWEDAPVVAALCQALTDTAPTVQAAAAQSLSLLKSEAAGEVILPWTTHADASVRIAAFRALRELRLGAAAPAAIAALVDADAGVRREAVGVLGWLKQLEALPALARLASADPDSEVRRAATGALGLAADAQVLPALRQALRDPAWTVREEAATTLGKVGHADAGPALIDALDDDYWQVRLRATRSLGRLRYVQALPALIETLGHRISNLRKEAALALGELDDPGAIPALQAARDDGDPEVRKAVRIALGQLQ				NA	NA	NA	NA	NA
D1-35_01036	273			hypothetical protein	ATGAGTCCGTTGACGATCGGCAATTCCCGGGACAAGGGCCAATTGCGGCTGAGTTGGCCCGATGGTCGCGAGCAACGGCTGGACCATGTCGAGCTACGCAGGCAATGTCCATGTTCCCAATGCCGGGCGTTTCGCCTGCAAGGGTTGACGGTTCAGGTCGATGCCCGGGTGCGTGTGGTTGAGGTCAATGCCCAGGGGTATGGGGTTCAGCTGGTGTTCAGTGATGGGCATCAGCGGGGGATTTTTCCCTGGGCTTATCTGGCGGGTTTTTAG	MSPLTIGNSRDKGQLRLSWPDGREQRLDHVELRRQCPCSQCRAFRLQGLTVQVDARVRVVEVNAQGYGVQLVFSDGHQRGIFPWAYLAGF				NA	NA	NA	NA	NA
D1-35_01037	618	lexA_2		LexA repressor	ATGTACTCCATGACGACTCTCACTCCCCGCCGTACCGCCATCCTGACCTTCATCCGCGAACGCATCGCCGAGCAGGGCCAGCCTCCCAGCCTCGCTGAAATCAGCGAGGCGTTCGGTTTTGCCTCCCGCAGCGTGGCGCGCAAGCATGTGCTGGCGCTGACCGAAGCCGGTTTCATCGAAGTCAATCCGCACCAGGCCCGAGGCATCCGGCTGTTGAACCAGCCGCCGCGCCCCGAGCTGCTGGACGTGCCGGTGTTGGGTCGGGTGGCCGCCGGCCTGCCGATTGGCGCCGATGCCGAGGTCCACAGCCGCTTGTTGCTGGACCCGGCGATTTTCACCAAGGCGCCGGATTACCTGTTGCGGGTCCAGGGCGATTCGATGATCGAGGACGGTATCCTCGATGGCGATCTGGTCGGTGTACAACGTACGCCCCAGGCCGCCAACGGGCAGATCGTCGTGGCACGCCTGGACGGTGAAGTGACCATCAAGCGCTTCGAGCGAGTCGGCGAGCGCGTGCGCCTGTTGCCACGCAACCCGGCCTACCAGCCGATCATCGTCGAAGCCGACCAGGACCTGGCGATCGAAGGCGTGTTCTGTGGCCTGGTGAGACAAGGCTGA	MYSMTTLTPRRTAILTFIRERIAEQGQPPSLAEISEAFGFASRSVARKHVLALTEAGFIEVNPHQARGIRLLNQPPRPELLDVPVLGRVAAGLPIGADAEVHSRLLLDPAIFTKAPDYLLRVQGDSMIEDGILDGDLVGVQRTPQAANGQIVVARLDGEVTIKRFERVGERVRLLPRNPAYQPIIVEADQDLAIEGVFCGLVRQG	PGPT0014895_3090	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014895-lexA-K01356	NA	NA
D1-35_01038	624			hypothetical protein	ATGGGCGCCGTCGTTGCGCTGGACACGCTGTTCAATGGCGGCCAGGTCTGGAGGGGCCGGCCTGCGCCGCCGGCCGCCAGCCCGCAGCCCACCGGTCATGCTGCATTGGACGCGGCATTGCCCAGTGGTGGCTGGCCGGACGCGGCGTTGACGGAAATCCTCATCGGCGCGCCGGGCGTGGGCGAGTTGCAACTGGTGTGGCCGACCCTGGCGCGGCTGTCGGCGGCGGGGGAGCGCATCGTGCTGGTGGCGCCGCCGTTCGTGCCCTATCCCCAGGCCTGGCGAAATGCCGGGGTGGACCTGCGCCAGTTGTCGATCATCCAGGCCGACCCACGAGATGCCTTGTGGGCCACTGAGCAATGCCTGCGTTCGGGCAGTTGCGGCGCGGTGCTGTGCTGGCCCCGCCAAGCGGATGATCGGGCCTTGCGCCGCCTGCAGGTCGCGGCGGAAACCGGCCAGACCCTGGCGTTCGCCTGGCGCTCGATCCAGGAAGCGATCAACCCATCCCCGGCGGCCTTGCGCATCGCCATCGATGCTCGCCCCGCACAATTGCGGGTGCTCAAGTCCCGGGGTGGCCTGGCCCGTTCGGCGCCGATTGCGTTCACCACGCACACGGGGCATTGA	MGAVVALDTLFNGGQVWRGRPAPPAASPQPTGHAALDAALPSGGWPDAALTEILIGAPGVGELQLVWPTLARLSAAGERIVLVAPPFVPYPQAWRNAGVDLRQLSIIQADPRDALWATEQCLRSGSCGAVLCWPRQADDRALRRLQVAAETGQTLAFAWRSIQEAINPSPAALRIAIDARPAQLRVLKSRGGLARSAPIAFTTHTGH				NA	NA	NA	NA	NA
D1-35_01039	1422	imuB		Protein ImuB	ATGCGCTGGGTCTGTATCCTCTTCCCGCAATTGGCGCTGGACGCCGCGCTGCGCCAGCGCCCCGATCCCGACGAGCCCCTGGCGCTGTTGACCGGTCCGGCCCAGCGCCGGGTGTTGCAAGCGGTCAATGAGCCGGCGCGCGCCCTGGGCTTGCGGCCCGGCCAGACCATGACCGCCGCCCAGGCCCTGAACAAAGGGTTCGCCACGGCCGAATACGACGCGGCGCAGATCGAGCACTGGCAACAATTCCTGGCGGCCTGGGCCTACCGCTTCAGTTCCCAGGTCAGCGTGCATTACCCGCGCACTGTGCTGTTCGAGATCGAATCGAGCCTGGGGCTGTTCGGGCCCTGGCCGGTGTTCGAGGCTCGGTTGCGGGCCGAGCTGACTGAACTGGGTTTCCGTCATCGCATCGTCGCCGCCCCCAACCCAGTGGCGGCGCGGATGTTGGCCAATGCCCATGACGCCCTGGTCGTGCCCGATGGCGAAACCTTGCAAGCGTACCTGGCGCAAATGCCGGTGGACCGCATCGGCCTGGCCGCCGACGTCGCCACGGCACTGTCGCGCATGGGCCTGCGCCGCCTGGATCAGATCCGGGCCTTGCCTCGGCACACCCTGGCGCGGCGCTTCGAGGCCGATGTGCTCAAGCACCTCGACGCGCTGACGGGCAGTCGTACCCTGGCGCTGTCGTTCTACCTGCCTCCGGACCGTTTTGATGTGCGCATCGAACTCAATTACGACGTGCAGTCCCATCAGGCACTGCTGTTTCCGCTGCGCCGGTTGACCGGTGACCTGTCGGCTTTCCTGTGTGGGCGCGACAGCGGTGTGCAGCGTTTCGACTTGCATCTGGAACACGCCGGTCTGCCGGACACGGTGATCAAGGTCGGCCTGCTCAGCGCCGAGCGAGAGCCTTCGATGCTGTTCGAACTGGCCCGTGGTCGTCTTGAACAGGTACAGGTCGAGGCGCCAGTGCGCGGATTTCGCTTGTGTGCCGACAACCTGCCGAGCTTCGTGCCCCAGCGCCTGGAGTTGTTCGACGAGCGTCCTCAACAGTCCTTGCCCTGGGAACAACTGCGCGAACGGCTGCGGGCGCGCCTGGGGGATGACGCCGTGCTGGGGCTGGGATTCGGTGACGATCATCGACCCGAGTGCGCCTGGCAGATGACTCCCCAGCCGCGACAACAGGCATGCCCGCTGCGCGAGGAAGTCCAGCGTCCCGGCTGGCTGCTCGGCGAGCCCCAGGCGTTACCCGATGGCCAGGCGCGCATCCTCATGGGGCCGGAGCGCATCGAGTCCGGCTGGTGGGACGGAGCCGACGTGCGTCGCGATTATTACCTGATCGAAACCCGCGCCGGGCAACGCGGCTGGGCCTACCGACCGGTGGGCGAGGGCGGGCCGTTGTGGCTGCAGGGTTGGTTCGCATGA	MRWVCILFPQLALDAALRQRPDPDEPLALLTGPAQRRVLQAVNEPARALGLRPGQTMTAAQALNKGFATAEYDAAQIEHWQQFLAAWAYRFSSQVSVHYPRTVLFEIESSLGLFGPWPVFEARLRAELTELGFRHRIVAAPNPVAARMLANAHDALVVPDGETLQAYLAQMPVDRIGLAADVATALSRMGLRRLDQIRALPRHTLARRFEADVLKHLDALTGSRTLALSFYLPPDRFDVRIELNYDVQSHQALLFPLRRLTGDLSAFLCGRDSGVQRFDLHLEHAGLPDTVIKVGLLSAEREPSMLFELARGRLEQVQVEAPVRGFRLCADNLPSFVPQRLELFDERPQQSLPWEQLRERLRARLGDDAVLGLGFGDDHRPECAWQMTPQPRQQACPLREEVQRPGWLLGEPQALPDGQARILMGPERIESGWWDGADVRRDYYLIETRAGQRGWAYRPVGEGGPLWLQGWFA				NA	NA	NA	NA	NA
D1-35_01040	3078	dnaE2		Error-prone DNA polymerase	ATGAGCATCGAATACGCCGAGCTGCATTGCCTGTCGAACTTCAGTTTCCAGCGCGGCGCCTCCAGCGCCCTGGAATTGTGTCGCCGCGCCAAGGAGCAGGGTTATGCGGCCCTGGCGATTACCGATGAATGCACCCTGGCCGGGATCGTCCGGGCCTGGCAGGCGGCCAGGGAGCTTGGACTGCAACTGATTGTCGGCAGCGAAATCCAGGTCGAGGACGGCCCGAAACTGGTGCTGCTGGTGGAGAACCTCGAGGGCTACCAGACCTTGTGCCGGCTGATCACCCGCGCCCGGCGGCGTAGCGAGAAAGGCTATTATCGCATCGTTCGGGAAGACTTCGACGAACCTCTGCCGGGTTTGCTGGCGCTGTGGATCCCCGAAGGCAAGGCGCCCGAGGAGCAGGGGCGCTGGCTCCAACAGGTTTTCAACAGGCGATTATGGCTGGCCGTGCAGTTGCATTGCGGCCAGGACGATCGCCAGCGGCTGGCGGACTTGCTCGCGTTGGCCGGACACCTGGGCCTTCCCGCTATCGCCACGGGGGATGTGCACATGCATGTGCGTGGTCGGCGTGCCTTGCAAGACACCATGACCGCCATCCGTCACCACGTCAGCGTGGCCGAGGCCGGCCAGCGCCTGCACCCCAACGGCGAACGCCATCTGCGCAGCTTGCAGGCCCTGGCCGATCTCTACCCGCGGGCCTTGCTCGATGAAACCCTGAAGATCGCCCGGCGTTGTACGTTCGACCTCGGCCAGTTGCGCTACGAATACCCCCGCGAGCTGGTGCCTGATGGCCACGATCCGGCGTCCTGGCTGCGGGAATTGACCGAGCGCGGCCTGCGCGAGCGCTGGGTGAACGGCGTGACAGACAAGGTGCGCCTGCAGATCGACAAGGAATTGAAGCTGATCGCCGAACTGGGCTACGACAGCTACTTCCTCACCGTGCAGGACATCGTCAGTTTCGCCCGCAGCCGCCACATTCTCTGCCAGGGTCGAGGCTCGGCGGCCAACTCGGCGGTGTGCTACGCCCTGGGCATCACCGAAATCGATCCGAGCCGGACGGACATGTTGTTCGAACGCTTCCTGTCCCGCGAGCGCAATGAGCCGCCGGACATCGATGTCGATTTCGAACACGAGCGCCGCGAAGAAGTCTTGCAGTATGTGTTCCAGCGTTACGGCCGGCATCGCGCGGCGTTGACGGCGGTGGTCAGCAGTTACCACGGCGCCGGGGCGGTGCGCGATGTGGCCAAGGCCTTGGGCCTGCCGCCGGATCAGGTCAATGCGCTGGCCGATTGCTGCGGGCGCTGGAGCGATGAAGCGCCGCCCCTGGACCGCTTGCGCGAAGGTGGTTTCGACCCGGACAGCCCGGTGTTGCGCCGGGTGCTGGGCCTGACCCGGCAACTGATCGGCTTCCCCCGGCACCTGTCCCAACACCCAGGCGGTTTCGTGATTTCCCAGCAACCGCTGGACACTCTGGTGCCGGTGGAAAACGCCGCGATGGCTGAGCGCACCATTATCCAGTGGGACAAGGACGACCTCGATGCGGTCGGTTTGCTCAAGGTGGACATCCTCGCCCTGGGCATGCTCAGCGCGATCCGCCGCTGTTTCGACCTGATCGCGCATTACCGGGGTGTGCGGCATACATTGGCGTCGTTGCCCAAGGACGATCGAGCGACGTTCGAGATGATCAGCCGCGCCGACACCATCGGCGTGTTCCAGATCGAATCCCGGGCGCAGATGGCGATGTTGCCCCGGCTCAAGCCCAAGGAGTATTACGACCTGGTGATCGAGGTGGCGATCGTACGGCCGGGACCGATCCAGGGCGGCATGGTGCATCCGTATCTACGGCGACGAAATGGCGAAGAGCCCGTCACTTATCCTTCGGAAAAACTGAAAAAAGTACTGGGTCGCACCTTGGGCATTCCGTTGTTCCAGGAACAGGTAATGCAGATCGCCATTGTCGCGGCGGACTACACGCCCGGCGAGGCGGACCAGTTGCGTCGCTCGATGGCCGCGTGGAAACGCCACGGCGGCCTTGAGCCGCATCGCGAGCGCCTGGCGGAAGGTATGAAGAACAACGGCTACACGCCCGAGTTCGCCGCGCAGATCTTCGAGCAGATCAAGGGCTTCGGCAACTATGGCTTTCCGGAATCCCATGCCGCCAGTTTCGCCTTGCTGACCTACGCCAGCAGTTGGCTCAAATGTCACGAACCGGCGGCGTTCGCCTGCGCCCTGATCAACAGTTGGCCCATGGGTTTCTATAGCCCGGACCAGATCCTCCAGGATGCACGTCGGCATCACTTGCAGATCCGTGCGACGGACGTGCGCGCCAGCGACTGGGAATCCAGCCTCGAACCCCTGGAGGGTCGGCAGCCGGCGATCCGCATGGGCTTGCGCCTGATCAAGGGCTTTCGTGAAGACGATGCCCGCCGTATCGAGACGGCTCGCAGGCAGCGGCCTTTCAGCGATGTGGCGGACCTTGCCGAACGGGCTCGACTCGATGCCCGGGCCATGGAGCAACTGGCCGACGCCGGCGCGTTACGCGGTATGGCCGGCGATCGTCACCGTGCCCGCTGGGAAATTGCCGGGGTGCAAAAACAACTGGGCCTGTTCGCAGGTTTGCCCAGCGAGGAGGAACCGCCCGTGGTCTTGCCGACGCCCACGGTGGGGGAGAACCTGTTCGCCGACTACGCCACGTTGGGCACCACGCTGGGGCCGCATCCGCTGGCCTTGTTGCGTCCCGAATTGCGCGCCCGGCGCTGCCGCAGTTCGCGGGAATTGCAAGCGGTGGAACACGGTCGCAACGTCAGCGTCGCCGGGCTGGTCACCGGCCGCCAGCGCCCGGGCACGGCCAGCGGCGTGACCTTCGTCACTCTGGAAGATGAATTCGGCAACCTCAACGTGGTGGTCTGGCGCGACCTGGCCGAGCGTCAACGCAAGGTTCTGGTGGGTTCGCAATTGCTTCGGGTGGACGGGCGCTGGGAGAGTGTCGGCGAGGTCCGGCACCTGATCGCCGGGCGCCTGAGCGACCTGACTGGATTGCTGGCGGGCATCAATGTGCGCAGCCGCGATTTCCGCTGA	MSIEYAELHCLSNFSFQRGASSALELCRRAKEQGYAALAITDECTLAGIVRAWQAARELGLQLIVGSEIQVEDGPKLVLLVENLEGYQTLCRLITRARRRSEKGYYRIVREDFDEPLPGLLALWIPEGKAPEEQGRWLQQVFNRRLWLAVQLHCGQDDRQRLADLLALAGHLGLPAIATGDVHMHVRGRRALQDTMTAIRHHVSVAEAGQRLHPNGERHLRSLQALADLYPRALLDETLKIARRCTFDLGQLRYEYPRELVPDGHDPASWLRELTERGLRERWVNGVTDKVRLQIDKELKLIAELGYDSYFLTVQDIVSFARSRHILCQGRGSAANSAVCYALGITEIDPSRTDMLFERFLSRERNEPPDIDVDFEHERREEVLQYVFQRYGRHRAALTAVVSSYHGAGAVRDVAKALGLPPDQVNALADCCGRWSDEAPPLDRLREGGFDPDSPVLRRVLGLTRQLIGFPRHLSQHPGGFVISQQPLDTLVPVENAAMAERTIIQWDKDDLDAVGLLKVDILALGMLSAIRRCFDLIAHYRGVRHTLASLPKDDRATFEMISRADTIGVFQIESRAQMAMLPRLKPKEYYDLVIEVAIVRPGPIQGGMVHPYLRRRNGEEPVTYPSEKLKKVLGRTLGIPLFQEQVMQIAIVAADYTPGEADQLRRSMAAWKRHGGLEPHRERLAEGMKNNGYTPEFAAQIFEQIKGFGNYGFPESHAASFALLTYASSWLKCHEPAAFACALINSWPMGFYSPDQILQDARRHHLQIRATDVRASDWESSLEPLEGRQPAIRMGLRLIKGFREDDARRIETARRQRPFSDVADLAERARLDARAMEQLADAGALRGMAGDRHRARWEIAGVQKQLGLFAGLPSEEEPPVVLPTPTVGENLFADYATLGTTLGPHPLALLRPELRARRCRSSRELQAVEHGRNVSVAGLVTGRQRPGTASGVTFVTLEDEFGNLNVVVWRDLAERQRKVLVGSQLLRVDGRWESVGEVRHLIAGRLSDLTGLLAGINVRSRDFR				NA	NA	NA	NA	NA
D1-35_01041	2112	rcsC_5		Sensor histidine kinase RcsC	ATGAAGTTCTTATCCCAGAGTAACGGGTGTCCCGGTTGGGACGGTGAGATGGCCCGACGTATCCGGGCCTACGATTGGAGTCGCACCGATCTGGGCGCAATCGAGCACTGGTCCGCCAGCCTGCGCAGCGCTGTCCAGTTGATGCTGGCTTCGCCCTTGCCGATGGTCATGTTGTGGGGTCGCCAGGGCTTCATGATTTATAACGATGCCTATGCCGAGTTTGCCGGCGGCCGTCACCCGTACCTGTTGGGGCGCGCGGTGGAGCTGGGTTGGCCGGAAGTCGCTGAATTCAATCGCCATGTACTCGACGTGTGCCTGGCTGGCGGCACCTTGTCCTACCGCAGCAAGGAACTGGTATTGCTGCGCGACGGCAAGCCCGAAGACGTCTGGATGGACCTCTATTACAGCCCGGTGCCCGACGATGATCATTCGCCGGCTGGCGTCCTGGCGATCGTCGTGGAAACCACCGAACTGGTGCTCAGCGAGCGGGCCCGACAAGAGGCGGAACGCAGCTACCGTGCGGTCAACGAGCGTATTCAGTTGGCGCTTTCGGCCGGGCCGTTGCTGGGCTCGTTTGTCTGGGATATCCCGGCCGACACCCTGTCCGGCGACGAGCGTTTCGCCCGTACGTTCGGCTATCCGCCCGAATGTTCGTTGGATGCACTGCCCATCGAGATCGCTCGCCAGCGCATCCATCCGGATGATCTTGCCGACGTGGAGCAACGTGTCGACCTGACGGTGCGCACGGGCGCGCCCTACAGCGCTGAATACCGTGTGCGCCGTGGCGAGGACGAATACCTCTGGGTGCTGGCCAGCGGCCGCTGCGAGTTCGATGCGTTGGGCAAGCCCCTGCGTTTTCCCGGTGTGCTGATCGACATCAATGAGCGCAAGACTGCCGAAGCGTCGTTGCTCAAGTTCACCCGCGATCTGGAACAACGGGTCGCCGATGAAGTACAGGCGCGGCTGGCGGCTGAAGAACAGTTGCGCCAATCGCAGAAGCTCGAGGCCATCGGCGGGCTTACGGGGGGCGTGGCCCACGACTTCAACAATCTGCTCCAGGTGATCGGTGGAAACCTGCATTTGCTGGCTCGCCACGAACCCGACAATCCCAACGTGCAACGGCGGGTCGGGGCGTCCATCGAAGCCGTGGAGCGAGGCGCCAAGCTGTCATCGCAACTATTGGCTTTTGCCCGGCGCCAGCCCTTGTCCCCGGCCGTCTACAACCCCCGGCGCATCTACGATGGCCTGGGCGAGTTGTTGCAACGGGCACTGGGGGAAACCATCCGGATCGACGTGGCGTTGCCGGATGAGCCTTGGTGCATCCATGTCGACCGCAACCAATTGGAAAACGCCCTGTTGAACCTGGCGATCAACGCCCGCGATGCCATGGGCGGCGAAGGGACCATCTGCCTGATCGGCGAGAACATCGCACTGGATGAGTCATCATGCGCCGGTAAAGGTGTTGCGGCTGGCGATTACGTACGGCTGTCGGTGACCGATTGTGGCGCGGGCATGGCGCCTGAAGTCCTCAAACAGGTTTTCGAGCCGTTCTTTACCACCAAGACCGACGGCCACGGTACCGGACTCGGCTTGAGCATGGTGTTCGGGTTCGTCAAGCAGAGCGGCGGCCATATCGAGATTTCCAGTCATCCGGGAGAAGGCACCCAGGTGCACATGTACTTCCCGCGCAGCCATAGGCCCGAGTCGGAGGAGCAGACGCACCACCGCACGAATCAGCCGGGCTTGCAGGAAACTGTCCTGGTGGTCGAGGACAACGATGACGTGCGCGGAGCCTCGGTGGAATTGCTCGAGCTGTCGGGTTATCGGACCCTGACCGCGGCGAATGGCGACGAAGCCATGAAGCTGTTGCTGGAGGGCACCTCGGTCGACCTGATCTTCACCGACGTGGTCATGCCCGGGCTGATCAAGAGTTCCGACCTGGCCGCCTGGGCCAAGGTCCAGTCCCCGCCGGTGCCAGTGTTGTTCACGTCGGGGCACACCCGCGACATCATCTCGCGCAATCATCAGTTGAGCCCGGACACCCATCTGCTGAGCAAACCCTATAGCCCGGATGCGCTGACCCGGATGGTCAGGTCGGTACTGGGCGGCTGA	MKFLSQSNGCPGWDGEMARRIRAYDWSRTDLGAIEHWSASLRSAVQLMLASPLPMVMLWGRQGFMIYNDAYAEFAGGRHPYLLGRAVELGWPEVAEFNRHVLDVCLAGGTLSYRSKELVLLRDGKPEDVWMDLYYSPVPDDDHSPAGVLAIVVETTELVLSERARQEAERSYRAVNERIQLALSAGPLLGSFVWDIPADTLSGDERFARTFGYPPECSLDALPIEIARQRIHPDDLADVEQRVDLTVRTGAPYSAEYRVRRGEDEYLWVLASGRCEFDALGKPLRFPGVLIDINERKTAEASLLKFTRDLEQRVADEVQARLAAEEQLRQSQKLEAIGGLTGGVAHDFNNLLQVIGGNLHLLARHEPDNPNVQRRVGASIEAVERGAKLSSQLLAFARRQPLSPAVYNPRRIYDGLGELLQRALGETIRIDVALPDEPWCIHVDRNQLENALLNLAINARDAMGGEGTICLIGENIALDESSCAGKGVAAGDYVRLSVTDCGAGMAPEVLKQVFEPFFTTKTDGHGTGLGLSMVFGFVKQSGGHIEISSHPGEGTQVHMYFPRSHRPESEEQTHHRTNQPGLQETVLVVEDNDDVRGASVELLELSGYRTLTAANGDEAMKLLLEGTSVDLIFTDVVMPGLIKSSDLAAWAKVQSPPVPVLFTSGHTRDIISRNHQLSPDTHLLSKPYSPDALTRMVRSVLGG				NA	NA	NA	NA	NA
D1-35_01042	267			hypothetical protein	ATGAGCGATCCTGCAAATACCCAGCAACAAGGCCAGACGCAGACCCAGTCTTCGCGTAACGATCCGGCCGTCGATCCCCAAGCGCCGGGCAACCCGCCCGCCGGTCCGGCTGGAACGCACCAGGCTCACAGCGCTGCCAGCGAGGTCGATCAGAAACAACATCACCAGGACAACGACAACACCTACAGCCCTGGCTTCAAGCCAGAGCCGGATCGACCTGGCCCCGGCGACAAGACCGACGCCGACATCGATACCGCCGACAGCTAG	MSDPANTQQQGQTQTQSSRNDPAVDPQAPGNPPAGPAGTHQAHSAASEVDQKQHHQDNDNTYSPGFKPEPDRPGPGDKTDADIDTADS				NA	NA	NA	NA	NA
D1-35_01043	522			hypothetical protein	ATGGACAGATTTACCCTGCGTCAACTCGGCCTGGCAGTTGCCTTGAGTACCAGCATGGGCATGGCATGGGCCGCGACGTCCAACGACTTTGTCGATAACGCGGCGGCCAATGGCATAGCGGAAATCGAAACCAGCAAGCTGGCGCTGCAAAAAAGCCAATCGGCGGACATCAAGGAGTTCGCCAACAAGATGATCACCGACCACACCAAAGCCAACGAAGAGCTGAAGGCGCTGGCGCAAAAACACGACATCGAAGTACCGGATGACACCACGCTGATGAAAAAGGCCAAGGCCAAGATTCTCGATGTGCGTGACGAGTCCTTCGATCCAGCCTTCGCCAACAACCAGGTGATGGCCCATGAAGAAACCATCGCTCTGTTCAAGAAGGAAGCCGAGACCGTCACCGACGACAAGAAGCCCGGCAATACCGAACTCAAGGCGTTTGCCCAGAAAATGCTGCCCGACCTGCAGCACCACTTGGAAATGGCCAAGAAGCTCCAGGCCGCGCATCCTAGTAAATAA	MDRFTLRQLGLAVALSTSMGMAWAATSNDFVDNAAANGIAEIETSKLALQKSQSADIKEFANKMITDHTKANEELKALAQKHDIEVPDDTTLMKKAKAKILDVRDESFDPAFANNQVMAHEETIALFKKEAETVTDDKKPGNTELKAFAQKMLPDLQHHLEMAKKLQAAHPSK				NA	NA	NA	NA	NA
D1-35_01044	228			hypothetical protein	ATGCCGGTGTCCCATGATCTTTGCCAGGATCTTGATTGCACAAAAGACCACATCCAGCAGAAGCGTAGCGAGGATCCGACGCTCGACGAATTGCTCAAGAAATATGCGCGAATCGACGCCGAGGTCGTGAATGCCGAGAAGCCGCCCGTCACGCTGTCCGATCCTGCTTTGGAGACACTCAAGAAAGAACGCTTGCAGACCAAGGACAAGATCGCCGCGCGGATATAG	MPVSHDLCQDLDCTKDHIQQKRSEDPTLDELLKKYARIDAEVVNAEKPPVTLSDPALETLKKERLQTKDKIAARI				NA	NA	NA	NA	NA
D1-35_01045	924	hdfR_3		HTH-type transcriptional regulator HdfR	ATGGTATCGGATAGCTGGGCCAGCTCTTACAATGCCCGCTCCACCCGCTTCGGCCCGACCATGGACATCGACCTCGCCCGTACCTTCCTGGAAATCGTCCGCCACGGCAGCCTCGCCGCTGCGGCGCAAAAACTGCACGTCACCCAGACGGCAATAACCGCCCGGGTCCAAAAGCTCGAAAGCCAGCTCGGCTGCGCGCTGTTCGTGCGTAACCGTGCCGGCGCGCGACTGACCGCCGATGGCGAAGCCTTCGTGGTCTACGCCAACCAGCTCGTACAGACGTGGGAGGCCGCCCGCCGGGACCTGCCGCTGCCCGAGGGTTATCGCAATGTCTTGCATCTCGGTGGCGAGGTCAGTTTGTGCAATCCCCTTATGCTTGCCTGGGCGGGGGAGCTGCGCCAGAAAATCCCCGGCCATGCCCTGCGCATGGACATCCGCGACGGTGAAAAACTCTTGCAGCAACTGGAGCTGGGTCTGCTGGATGCGGCGGTGGTCTATCAGCCTGAGTACTGGCCGCGATTGCAGGTGGAGCAGTTGCTGGAGGAAAAACTCATCCTGGTGCGCCTGGTCGCTCGCCCCGAGCCCTACGTGTACATCGACTGGAGCGCGGACTTCCGACGCCAGCACGACACGGCGCTTCCGGACAAGGCCAAGGCCGCCGCGACCTTCAATCTCGGTCCACTGGCGTTGCAATATATTCTGGAAAACGGCGGTAGCGGCTACTTCCGCACCCGGGTCGTGCAGAGCTACCTGGACAGCGGCATTCTGGAGCGGGTGCCCAAGGCGCCGGAGTTCAACTACCCGACCTACCTGGTGTATTCCAGGGACCGCGATTCGGCGGCATTGCAGCAGGCGTTCGAGGTGCTGCGGGGGATCGTCAAGGCTGGCAGCGACTGGTCCCAGCGTTGGGATCCGCTGGGCTGA	MVSDSWASSYNARSTRFGPTMDIDLARTFLEIVRHGSLAAAAQKLHVTQTAITARVQKLESQLGCALFVRNRAGARLTADGEAFVVYANQLVQTWEAARRDLPLPEGYRNVLHLGGEVSLCNPLMLAWAGELRQKIPGHALRMDIRDGEKLLQQLELGLLDAAVVYQPEYWPRLQVEQLLEEKLILVRLVARPEPYVYIDWSADFRRQHDTALPDKAKAAATFNLGPLALQYILENGGSGYFRTRVVQSYLDSGILERVPKAPEFNYPTYLVYSRDRDSAALQQAFEVLRGIVKAGSDWSQRWDPLG	PGPT0015580_246	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015580-hdfR-K23773	NA	NA
D1-35_01046	318			hypothetical protein	ATGACCTCCGTAGCCGACGCAGTAAAAGCCATGCAAGCCAAGTTCAACCCAGCCGCCGCTGCCGGCCTGGACCTGGTATTTGGTTTCAATATCACTGACGAAGACAAGCAGTACGCCCTGATCGTCAAGGATGGCACCTGCGATATCCAGGAAGGCGCGAACCCCGACGCCAACTGCACGCTGGTCCTGGATAGCCAAACCCTCAAGGACATCGTCAGCGGCGAAACCGACGGCATGCAAGCCTTCATGGGCGGCAAGCTGCGCGTTGAAGGCGACATGATGCTGTCGATGAAACTGTCCGAGCTGTTCCCGTCCTGA	MTSVADAVKAMQAKFNPAAAAGLDLVFGFNITDEDKQYALIVKDGTCDIQEGANPDANCTLVLDSQTLKDIVSGETDGMQAFMGGKLRVEGDMMLSMKLSELFPS				NA	NA	NA	NA	NA
D1-35_01047	711			hypothetical protein	GTGGGCAGCATTTATCTGATACGACATGGCCAGGCCTCCTTTGGTGCGGATGACTACGATGTCCTTTCGCCCAATGGCATACGTCAGGCCCAAGTGCTCGGCGGCCACCTGGCGGAGCTCGGCGTCGTGTTCGATCGCTGCCTCTCGGGCGACCTGCGTCGCCAGCAGGACACCGCTATCGGCACGCTGGGCGCGATGTCCGCTGTCGGGCTGCCGGTTCCCGAGGTGGAAATCGACGCGGCGTTCAACGAATTCGATGCCGACGCGGTGATCCGCGCGCTGCTCCCGGACATGCTGCCCCAGGAGCCCGAAGCGCTGCATATCTTGCGCAACGCGGCGCAGAACCGCGGAGAGTTCCAGCGCATTTTTGCCTTGATCGTCGAACGCTGGCTCAGCGGCCAGTATGACCCGCCCGGGCTGGAGAGCTGGCTGGGTTTTGTCGAGCGGGTCCAGGCCGGCCTGCACCGCATCCTCGAAAAGGCCGACAAGACCCACAAGATCGCCGTGTTCACCTCCGGCGGGACCATCACCGCCCTGCTTCACCTGATCACCCAGATGCCTGCCCGGCAAGCTTTCGAGCTGAACTGGCAGATCGTCAACACCTCGCTCAACCAACTGAAATTCAGAGGCCGCGAGGTGGCCCTGGCTTCCTTCAACAGTCATGCGCATCTGCAACTGCTGAAGACCCCGGACCTCATCACCTTCCGCTGA	MGSIYLIRHGQASFGADDYDVLSPNGIRQAQVLGGHLAELGVVFDRCLSGDLRRQQDTAIGTLGAMSAVGLPVPEVEIDAAFNEFDADAVIRALLPDMLPQEPEALHILRNAAQNRGEFQRIFALIVERWLSGQYDPPGLESWLGFVERVQAGLHRILEKADKTHKIAVFTSGGTITALLHLITQMPARQAFELNWQIVNTSLNQLKFRGREVALASFNSHAHLQLLKTPDLITFR				NA	NA	NA	NA	NA
D1-35_01048	1032	sohB	COG0616	putative protease SohB	GTGGAGTTTTTTGTCGAATACGCCGGTTTTCTGGCCAAGACGGTGACGCTGGTGATCGCCATTCTGGTGGTCATGGCCAGTTTTGCTGCGTTGCGCAGCAAGGGACGGCGCAAGTCGGCCGGGCAGTTGCAAGTCAGCAAGCTCAACGATTTCTACAAGGGCTTGCGTGAGCGTCTGGAGCAGACGCTGCTGGACAAGGACCAGCTCAAGGCACTGCGCAAGAGCGAAGGCAAGGCTGAAAAAGCCGGGAAGAAACAGAAAGACAAACCGGCGGCCAAGCCCCGGGTATTCGTGCTGGACTTCGATGGCGATATCAAGGCTTCCGCCACCGAGAGCCTGCGTCACGAAATTACCGCGCTGCTGACCCTGGCGACCCCGAAGGACGAAGTGGTCCTGCGCCTGGAAAGCGGTGGCGGCATGGTCCACAGCTACGGCCTGGCCTCGTCGCAACTGGCGCGGATCCGTCAGGCCGGCGTGCCGCTGACGGTGTGCATCGACAAGGTTGCAGCCAGCGGCGGCTACATGATGGCGTGCATCGGCGAGAAGATCATCAGCGCCCCGTTCGCGATCCTCGGCTCCATCGGCGTCGTGGCCCAATTGCCCAACGTCAATCGCCTGCTGAAGAAGCACGACATCGATTTCGAAGTGCTGACCGCCGGCGAGTACAAACGCACATTGACGGTGTTTGGTGAGAATACCGAGAAGGGCCGGGAAAAATTCCAGGAAGACCTGGACATCACCCATGAGTTGTTCAAGAACTTCGTGTCCAACTACCGCCCGCAGCTGGCTATCGATGAAGTGGCAACCGGCGAGGTCTGGCTCGGTGTCGCCGCGCTGGAGAAACGCCTGGTGGACGAGCTCAAGACCAGCGATGAATACCTGGCCGAACGGGCCAAGGGTGCCGAGCTCTATCACCTGCACTATGCCGAACGCAAAAGCCTGCAGGAGCGCATCGGCATGGCGGCCAGCGGTTCGGTGGACCGGGTGCTGCTGAACTGGTGGAGCCGCCTGACGCAGCAGCGGTTCTGGTAG	MEFFVEYAGFLAKTVTLVIAILVVMASFAALRSKGRRKSAGQLQVSKLNDFYKGLRERLEQTLLDKDQLKALRKSEGKAEKAGKKQKDKPAAKPRVFVLDFDGDIKASATESLRHEITALLTLATPKDEVVLRLESGGGMVHSYGLASSQLARIRQAGVPLTVCIDKVAASGGYMMACIGEKIISAPFAILGSIGVVAQLPNVNRLLKKHDIDFEVLTAGEYKRTLTVFGENTEKGREKFQEDLDITHELFKNFVSNYRPQLAIDEVATGEVWLGVAALEKRLVDELKTSDEYLAERAKGAELYHLHYAERKSLQERIGMAASGSVDRVLLNWWSRLTQQRFW				NA	NA	NA	NA	NA
D1-35_01049	495			hypothetical protein	ATGCAGCGAATCATTAAGAACAACGAGGTCATCGACGAAACCTGGCACTTGCTGCCCAAGGACGCGACCTTCGATGGCATTTCCAACTGCGACGACCTGATCGTGCCCCTCGCCCTTTGGCGCGACCATGCCCATGCGCTCAAAGCCCGTGATGGCGGCCTGGGCGTGTGGCTGGATGCCGACGAAGAAGCGGAAGAAATCGGCGATGACGCCAATCAGCTCCAGGTCATCGCACTGAACTTCCCGGCCTTCACCGACGGGCGCAGCTACTCCAACGCGCGCCTGTTGCGCGAACGGTATGGCTTCAAGGGCGAATTGCGCGCCATTGGCGATGTGCTGCGCGACCAGTTGTTCTACATGCGCCGCTGCGGTTTTGACGCCTTTGCCCTGCGTGCCGACAAAGACCCCTATGAAGCCCTCGAAAGCCTCAAGGACTTTTCGGTGACCTACCAGGCGGCCACTGACGAACCGTTGCCACTGTTTCGCCGCCGCTGA	MQRIIKNNEVIDETWHLLPKDATFDGISNCDDLIVPLALWRDHAHALKARDGGLGVWLDADEEAEEIGDDANQLQVIALNFPAFTDGRSYSNARLLRERYGFKGELRAIGDVLRDQLFYMRRCGFDAFALRADKDPYEALESLKDFSVTYQAATDEPLPLFRRR	PGPT0002785_230	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002785-cysH-K00390	NA	NA
D1-35_01050	1659	sir_1	COG0155	Sulfite reductase [ferredoxin]	ATGTACGTATATGACGAGTACGATCAGCGGATCATCGAGGACCGCGTCAAGCAGTTCCGTGATCAGACCCGACGCTATCTGGCAGGCGAGCTGAGCGAAGAAGAATTCCGCCCTCTGCGCTTGCAGAATGGCCTGTATATCCAGCGCTTCGCCCCGATGCTGCGCGTGGCGGTGCCTTATGGCCAACTGACCGCGCGCCAGGCTCGCAAGCTGGCCCAGATTGCCCGCGACTATGACAAGGGCTACGCCCACATCAGTACCCGGCAGAACGTCCAGTACAACTGGCCTGCCCTGGAAGACGTGCCCGAGATCCTGGCGGAACTGGCCACCGTGCAGATGCACGCGATCCAGACCAGCGGCAACTGCCTGCGCAACGTGACCACCGACCAGTTTGCCGGCGTCGCGGCCGACGAACTGATCGACCCGCGCCCATGGTGCGAGATCGTTCGCCAATGGACCACGTTCCACCCGGAATTCGCCTACCTGCCGCGCAAGTTCAAGATCGCCATCAATGGCTCGACCTCGGACCGCGCGGCCATCGAAGTCCATGACATCGGCCTCGAAGCGGTCTACAACGCCGCCGGCGAGCTGGGCTTCCGCGTGCTGGTGGGCGGCGGCCTGGGCCGTACGCCGGTGGTCGGCGCGTTCATCAACGAGTTCCTGCCATGGCAGGACCTGCTGAGCTACCTCGACGCCATCCTGCGGGTGTACAACCGCTACGGGCGTCGCGACAACAAATACAAGGCGCGGATCAAGATCCTGGTCAAGGCCCTGACGCCTGAAGTGTTCGCCGAAAAGGTCGAGGCCGAAATGGTCCACCTGCGTGGCGGCCAGACCACCCTGACCGAAGCCGAAGTCCATCGCGTGGCCAAGCATTTCGTCGACCCGGCCTACAAGGCCCTGGACAACCAGGACGCCGAACTGGCCGCCCTCGACAAGGAACACCCGGGCTTCGCGCGCTGGCGGACACGCAACACCCTCAAGCACAAGAAACCGGGCTACGTCGCAGTGACCCTGTCGCTGAAGCCGACCGGTGTCGCACCGGGCGATATCACCGACAAGCAGATGGACGCCGTGGCCGACCTGGCCGACCGCTACAGCTTTGGCCAGCTGCGCACGTCCCACGAGCAGAACATCATCCTGGCGGACGTTGAACAGAGCCAGTTGTTCACCCTGTGGGGCGAGCTGCGCGAGCAAGGCTTCGCCACGCCGAACATCGGCCTGCTGACCGACATGATCTGCTGCCCGGGCGGGGATTTCTGCTCGCTGGCGAACGCCAAGTCGATTCCGATCGCCGAGTCGATCCAGCGCCGCTTCGACGACCTCGACTACCTGTTCGACATCGGCGAGCTGGACCTGAACATTTCCGGCTGCATGAATGCCTGCGGTCACCACCACGTCGGTCACATCGGCATCCTCGGCGTGGACAAGAAAGGCGAGGAGTTTTACCAAGTCTCCCTCGGTGGCAGCGGCAGCCGTGACGCCAGCCTGGGCAAGATCCTCGGCCCGTCGTTTGCCCAGGATGACATGCCGGATGTGATCGAGAAGCTGATCGACGTGTACATCGAACAACGTACCGAAGACGAGCGTTTCATCGACACTTATCAACGTATCGGCATCGACCTCTTCAAGGAACGCGTCTATGCAGCGAATCATTAA	MYVYDEYDQRIIEDRVKQFRDQTRRYLAGELSEEEFRPLRLQNGLYIQRFAPMLRVAVPYGQLTARQARKLAQIARDYDKGYAHISTRQNVQYNWPALEDVPEILAELATVQMHAIQTSGNCLRNVTTDQFAGVAADELIDPRPWCEIVRQWTTFHPEFAYLPRKFKIAINGSTSDRAAIEVHDIGLEAVYNAAGELGFRVLVGGGLGRTPVVGAFINEFLPWQDLLSYLDAILRVYNRYGRRDNKYKARIKILVKALTPEVFAEKVEAEMVHLRGGQTTLTEAEVHRVAKHFVDPAYKALDNQDAELAALDKEHPGFARWRTRNTLKHKKPGYVAVTLSLKPTGVAPGDITDKQMDAVADLADRYSFGQLRTSHEQNIILADVEQSQLFTLWGELREQGFATPNIGLLTDMICCPGGDFCSLANAKSIPIAESIQRRFDDLDYLFDIGELDLNISGCMNACGHHHVGHIGILGVDKKGEEFYQVSLGGSGSRDASLGKILGPSFAQDDMPDVIEKLIDVYIEQRTEDERFIDTYQRIGIDLFKERVYAANH	PGPT0002790_2020	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002790-cysI-K00381	NA	NA
D1-35_01051	114			hypothetical protein	ATGAGTAATCCGACCAAAGCAAGGAAAAGCGACAGTACCGTTGATGCCTGGGCCATCCTGTTCCTGATTATCCTGGTGGTGGGCACGGCGGTGTTCTGGGTCAGTCATCAATAA	MSNPTKARKSDSTVDAWAILFLIILVVGTAVFWVSHQ				NA	NA	NA	NA	NA
D1-35_01052	219			hypothetical protein	ATGGACGATCCAGTCGACAACAAGCCGCCGACCCTGTTGCAGATGATGCACAGCGTGCTGGCCGCCGCTTTCGGCGTGCAGAGCGGCAAGAACCGCGCCCGGGATTTCACCCACGGCAAGCCGAGTCACTTCGTGATACTGGGAATCGCGTTCACGGTGATCTTCGCCTTGACCCTGTTTGGCATCGTCAAGCTGGTGGTGCACCTGGCGGGGTTGTGA	MDDPVDNKPPTLLQMMHSVLAAAFGVQSGKNRARDFTHGKPSHFVILGIAFTVIFALTLFGIVKLVVHLAGL				NA	NA	NA	NA	NA
D1-35_01053	3711	metH	COG0646	Methionine synthase	ATGTCTGATCGCAGCGCTCGCCTTTATCTTCTCCAGCAGGCCCTCAAGGAACGCATCCTGATCCTCGACGGCGGCATGGGCACGATGATCCAGAGCTACAAGCTGGAAGAGCAGGACTACCGTGGCAAACGCTTCGCCGACTGGCCGAGCGACGTCAAGGGCAACAACGACTTGCTCGTGCTGACCCGCCCCGACGTGATTGGCGCTATCGAAAAGGCCTACCTGGATGCCGGCGCCGACATCCTCGAAACCAACACCTTCAACGCCACCCAGGTGTCCCAGGCCGACTACGGCATGCAGGGCCTGGCCTACGAGCTGAACCTGGAAGGCGCGCGCCTGGCCCGCAAGGTGGCCGACGCCAAGACCCTCGAAACCCCGGACAAGCCGCGCTTCGTCGCCGGCGTGCTCGGCCCGACCAGCCGCACCTGCTCGCTGTCGCCGGACGTGAACAACCCCGGCTACCGCAACGTGACCTTCGACGAGCTGGTGGAGAACTACACCGAAGCCACCAAGGGCCTGATCGAAGGCGGCGCCGACCTGATCCTGATCGAGACCATTTTCGACACGCTCAATGCCAAGGCCGCGATCTTCGCCGTGCAAGGCGTCTATGAAGAGCTGGGCATCGAGTTGCCGATCATGATTTCCGGCACCATCACCGACGCCTCCGGCCGCACCCTCTCCGGCCAGACCACCGAAGCCTTCTGGAACTCGGTGGCCCACGCCAAGCCGATCTCCGTCGGCCTGAACTGCGCCCTCGGCGCCAGCGAACTGCGCCCGTACCTGGAAGAACTGTCGAACAAGGCCAGCACCCATGTGTCGGCGCACCCCAACGCCGGCCTGCCCAACGAATTCGGCGAATACGACGAGCTGCCGGTGGACACCGCCAAGGTCATTGAAGAATTTGCCCAGAGCGGCTTCCTCAATATCGTCGGCGGTTGCTGCGGCACCACCCCGGCACACATCGAAGCTATCGCCAAGGCCGTCGCTGGCTATGCTCCGCGGCAGATTCCCGAGATTCCCCGGGCGTGCCGCCTGTCGGGCCTGGAACCGTTCACCATCGATCGCAGCTCGTTGTTCGTCAACGTCGGCGAGCGGACCAACATCACCGGCTCCGCCAAATTCGCCCGGCTGATCCGCGAAGACAACTACACCGAAGCCCTGGAAGTGGCGCTGCAACAGGTCGAGGCCGGCGCCCAGGTGATCGACATCAACATGGACGAGGGCATGCTCGATTCGAAGAAGGCCATGGTGACCTTCCTCAATCTGATCGCCGGCGAACCGGATATTTCCCGCGTGCCGATCATGATCGACTCCTCCAAGTGGGAAGTCATCGAAGCTGGCCTCAAGTGCATCCAGGGCAAGGGCATCGTCAACTCCATCAGCATGAAGGAAGGCGTCGAGCAGTTCATCCATCACGCCAAGCTGTGCAAGCGCTACGGCGCGGCCGTGGTGGTGATGGCCTTCGACGAAGCCGGCCAGGCCGACACCGAGGCGCGCAAGAAGGAAATCTGCAAGCGCTCCTACGATATCCTGGTCAACGAGGTTGGCTTCCCGCCGGAAGACATCATCTTCGACCCGAACATCTTCGCCGTCGCCACCGGTATCGAAGAGCACAACAACTATGCCGTGGACTTCATCAACGCCTGCGCCTACATCCGCGACGAACTGCCCTACGCGCTGACCTCCGGTGGCGTGTCCAACGTGTCGTTCTCGTTCCGTGGCAACAACCCGGTGCGCGAGGCGATCCACTCGGTGTTCCTGCTGCACGCGATCCGCGCGGGCCTGACCATGGGCATCGTCAACGCCGGCCAACTGGAGATCTACGACCAGATCCCGGTGGAACTGCGCGACGCGGTGGAAGACGTGATCCTCAACCGTACACCCGAAGGCACCGACGCCCTCCTCGCGATCGCCGACAAGTACAAGGGCGACGGCAGCGTCAAGGAAGCGGAAACCGAAGAATGGCGCGGCTGGGAAGTGAACAAGCGCCTGGAGCACGCGCTGGTCAAGGGCATCACCACCCACATCGTCGAGGACACCGAGGAATCGCGCCTGTCTTTCGCCCGCCCGATCGAAGTGATCGAAGGCCCGCTGATGGCCGGCATGAACATCGTCGGCGACCTGTTTGGCGCCGGCAAGATGTTCCTGCCCCAGGTGGTCAAGTCCGCCCGCGTGATGAAGCAGGCCGTGGCGCACCTGATTCCGTTCATCGAAGCGGAAAAAGGCGACAAGCCAGAGGCCAAGGGCAAGATCCTGATGGCGACGGTCAAGGGCGACGTCCACGACATCGGCAAGAACATCGTCGGCGTGGTGCTGGGGTGCAACGGCTACGACGTGGTCGACCTCGGCGTGATGGTGCCGGCGGAGAAAATCCTTCAGGTGGCCAAAGATGAGAAGTGCGACATCATCGGCCTGTCCGGCCTGATCACACCGTCCCTGGACGAAATGGTGCATGTGGCGCGGGAGATGCAGCGCCAGGACTTCCACCTGCCGCTGATGATCGGTGGCGCCACGACCTCCAAGGCCCACACCGCCGTGAAGATCGAACCCAAGTACAGCAATGATGCAGTGATTTACGTCACCGACGCCTCCCGCGCCGTGGGCGTGGCGACGCAGTTGCTGTCCAAGGAGCTCAAGCCGGCGTTCGTCGAGAAGACCCGCCTGGACTACATAGACGTGCGCGAGCGCACCTCCAACCGCAGCGCCCGCACCGAGCGCCTGAGCTACCCGGCGGCCGTGGCGAAGAAGCCGCAGTTCGACTGGAGCAGCTACCAGCCGGTCAAGCCGACTTTCACCGGCGCACGGGTGCTGGACGATATCGACCTGAACGTCCTGGCCGAGTACATCGACTGGACGCCGTTTTTCATTTCCTGGGACCTGGCCGGCAAATACCCGCGCATCCTCACCGACGAAGTGGTCGGCGAAGCGGCCACCGCGCTGTACGCCGATGCCCGGGCGATGCTGCGCAAGCTGATCGACGAGAAACTTATCAGCGCTCGCGCGGTGTTTGGCTTCTGGCCGGCCAACCAGGTGCATGACGACGACCTGGAAGTCTACGATGATCAAGGCAAGCCACTGGCGCGCCTGCATCACCTGCGCCAGCAGATCATCAAGACCGACGGCAAGCCGAACTTCTCCCTGGCCGACTTCGTCGCACCCAAGGACAGCGGCGTGACCGACTACGTCGGTGGCTTCATCACCACCGCCGGCATCGGTGCCGAAGAAGTCGCCAAGGCCTACCAGAACGCCGGCGACGACTACAACTCGATCATGGTCAAGGCCCTGGCCGACCGCCTGGCCGAAGCTTGCGCCGAATGGCTGCACCAGCAGGTGCGCAAGGAGTATTGGGGCTATGCCAAGGATGAGCGCCTGGACAACGAGGCGCTGATCAAGGAGCAATACACCGGCATCCGCCCTGCCCCCGGTTACCCGGCCTGCCCGGATCACACCGAGAAAGCCACCCTGTTCCGCCTGCTCGACCCCGAGGCCAGCGAACTGAAAGCCGGACGCAGCGGCGTGTTCCTCACCGAACACTACGCGATGTTCCCGGCGGCGGCGGTCAGCGGCTGGTACTTCGCCCATCCCCAGGCGCAGTATTTCGCCGTGGGCAAGATCGACAAGGACCAGGTCCAGAGCTACACCGCGCGCAAGGGCCAGGACCTGAGCGTGACCGAGCGCTGGCTGGCGCCGAACCTGGGCTACGACAACTGA	MSDRSARLYLLQQALKERILILDGGMGTMIQSYKLEEQDYRGKRFADWPSDVKGNNDLLVLTRPDVIGAIEKAYLDAGADILETNTFNATQVSQADYGMQGLAYELNLEGARLARKVADAKTLETPDKPRFVAGVLGPTSRTCSLSPDVNNPGYRNVTFDELVENYTEATKGLIEGGADLILIETIFDTLNAKAAIFAVQGVYEELGIELPIMISGTITDASGRTLSGQTTEAFWNSVAHAKPISVGLNCALGASELRPYLEELSNKASTHVSAHPNAGLPNEFGEYDELPVDTAKVIEEFAQSGFLNIVGGCCGTTPAHIEAIAKAVAGYAPRQIPEIPRACRLSGLEPFTIDRSSLFVNVGERTNITGSAKFARLIREDNYTEALEVALQQVEAGAQVIDINMDEGMLDSKKAMVTFLNLIAGEPDISRVPIMIDSSKWEVIEAGLKCIQGKGIVNSISMKEGVEQFIHHAKLCKRYGAAVVVMAFDEAGQADTEARKKEICKRSYDILVNEVGFPPEDIIFDPNIFAVATGIEEHNNYAVDFINACAYIRDELPYALTSGGVSNVSFSFRGNNPVREAIHSVFLLHAIRAGLTMGIVNAGQLEIYDQIPVELRDAVEDVILNRTPEGTDALLAIADKYKGDGSVKEAETEEWRGWEVNKRLEHALVKGITTHIVEDTEESRLSFARPIEVIEGPLMAGMNIVGDLFGAGKMFLPQVVKSARVMKQAVAHLIPFIEAEKGDKPEAKGKILMATVKGDVHDIGKNIVGVVLGCNGYDVVDLGVMVPAEKILQVAKDEKCDIIGLSGLITPSLDEMVHVAREMQRQDFHLPLMIGGATTSKAHTAVKIEPKYSNDAVIYVTDASRAVGVATQLLSKELKPAFVEKTRLDYIDVRERTSNRSARTERLSYPAAVAKKPQFDWSSYQPVKPTFTGARVLDDIDLNVLAEYIDWTPFFISWDLAGKYPRILTDEVVGEAATALYADARAMLRKLIDEKLISARAVFGFWPANQVHDDDLEVYDDQGKPLARLHHLRQQIIKTDGKPNFSLADFVAPKDSGVTDYVGGFITTAGIGAEEVAKAYQNAGDDYNSIMVKALADRLAEACAEWLHQQVRKEYWGYAKDERLDNEALIKEQYTGIRPAPGYPACPDHTEKATLFRLLDPEASELKAGRSGVFLTEHYAMFPAAAVSGWYFAHPQAQYFAVGKIDKDQVQSYTARKGQDLSVTERWLAPNLGYDN	PGPT0008135_933	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008135-metH-K00548	NA	NA
D1-35_01054	219			hypothetical protein	ATGAATCTAGCTCATGTTTGCAAGCGGTACCGGCCCGATCTATTACCGGCTCTGGCCGGTGCAGGGGGGATCGTGCACAAGACCCACATCACCTATGGCTTGAGCGCAGCGAAGATGGCGCGGATCAAGCGCGACCTCGCCCGGCAGTTGCTGCTTCGCGCCCTTGCGCGGTCGGCTGCTTTCCTGACAAAAATACTGGGACTTTGTCCGGCGCGATGA	MNLAHVCKRYRPDLLPALAGAGGIVHKTHITYGLSAAKMARIKRDLARQLLLRALARSAAFLTKILGLCPAR				NA	NA	NA	NA	NA
D1-35_01055	585	nfuA	COG0316	Fe/S biogenesis protein NfuA	ATGACCGCCATTACCATTACCGATGCCGCCCACGATTACCTGGCCGACCTGCTGTCCAAGCAGAACACCCCGGGTATCGGGATCCGCATCTTCATCACCCAGCCCGGCACCCAGTACGCAGAGACGTGCATTGCCTACTGCAAGCCGGGAGAAGAAAAACCCGAAGACACCGCGCTGGGGCTCAAGAGCTTCACCGCGTACATCGACTCGTTCAGCGAAGCTTTCCTGGACGATGCGGTGGTCGACTACGCCACCGACCGCATGGGCGGCCAGCTGACCATCAAGGCGCCGAACGCCAAGGTACCGATGGTCAACGCCGACAGCCCGGTCAACGAGCGCATCAACTATTACCTGCAAACCGAGATCAACCCGGGGCTGGCCAGCCACGGCGGCCAGGTGTCGCTGATCGACGTGGTGGAAGACGGCATCGCCGTGCTCCAGTTCGGCGGCGGTTGCCAGGGCTGCGGCCAGGCTGACGTGACCTTGAAGGAAGGCATCGAGCGCACCTTGCTCGAGCGCATCCCGGAACTCAAGGGCGTGCGCGACGTGACCGACCACACGCAGAAAGAAAACGCCTACTACTGA	MTAITITDAAHDYLADLLSKQNTPGIGIRIFITQPGTQYAETCIAYCKPGEEKPEDTALGLKSFTAYIDSFSEAFLDDAVVDYATDRMGGQLTIKAPNAKVPMVNADSPVNERINYYLQTEINPGLASHGGQVSLIDVVEDGIAVLQFGGGCQGCGQADVTLKEGIERTLLERIPELKGVRDVTDHTQKENAYY				NA	NA	NA	NA	NA
D1-35_01056	747	cobM	COG2875	Precorrin-4 C(11)-methyltransferase	ATGACCGTTTACTTCATCGGTGCCGGCCCCGGCGACCCGGAACTGATCACCGTGAAAGGCCAGCGCCTGATCCGCCGTTGCCCGGTGATCATCTACGCCGGCTCCCTGGTGCCGGCGGCCGTGCTCGAAGGCCACAGCGCCGAACAGGTGGTCAACAGCGCAGAGCTGCACCTGGAACAGATCGTCGAATTGATCAGGATCGCGCATTTGAACGGCCAGGACGTGGCCCGGGTGCACTCCGGCGATCCAAGTCTGTATGGCGCCATCGGCGAGCAGATCCGCTGCCTCCGGGAGCTGGACATCCCTTTCGAAATCGTTCCGGGCGTCACCGCCACCTCAGCCTGCGCGGCCCTGCTCGGCGCCGAGCTGACGCTACCGGACGTGTCCCAGAGTGTGATCCTGACCCGTTACGCGGACAAGACCGCGATGCCCGCCGGGGAAGAACTTGCCAGCCTGGCGCGGCATGGCGCAACCATGGCAATTCACCTGGGCGTCAATCACCTGGAAAAAATAGTCGCTGAACTGCTGCCCCACTACGGCGCGGATTGTCCGATCGCGGTGATTCACCGGGCCACGTGGCCGGATCAGGATTGGGTGGTGGGTACGCTGGAGGATATCGCCGGGAAGGTCCAAGCCAAGGGCTTTCGACGTACGGCGCTGATACTGGTGGGGCGCGTGTTGGGCAATGATGTGTTCAGCGAATCATCGCTGTATCGCGCCGGCCATGTGCATCTGTACAGGCCCTGA	MTVYFIGAGPGDPELITVKGQRLIRRCPVIIYAGSLVPAAVLEGHSAEQVVNSAELHLEQIVELIRIAHLNGQDVARVHSGDPSLYGAIGEQIRCLRELDIPFEIVPGVTATSACAALLGAELTLPDVSQSVILTRYADKTAMPAGEELASLARHGATMAIHLGVNHLEKIVAELLPHYGADCPIAVIHRATWPDQDWVVGTLEDIAGKVQAKGFRRTALILVGRVLGNDVFSESSLYRAGHVHLYRP	PGPT0004625_1794	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004625-cbiF-K05936	NA	NA
D1-35_01057	405	cbiG	COG2073	Cobalt-precorrin-5A hydrolase	ATGAGTAGCGGGCCGCTCCTGGTGGTCGGCCTGGGCTGCCAACGCGGTTGCCCGGCCAGTGCGTTGCGGGCATTGCTTGAGCAGACGCTATTGGCCCACGGCATTGCGCTTGGTGACGTACAGGCCTTGGCCAGTATCGATCTCAAGCACGACGAACCGGGCCTGCTGGAGCTGGCCGAGCAATTGGCGCTGCCACTGACCTGCTTCACTGCCGAGCAGTTGGCGGGTTATCAAACGCAGCTCAGCCAGCGTTCCCGGATCGCCTTCGAGCGTACGGGCTGCCACGGCGTCGCCGAAAGCGCCGCCCTTGCCCTGGCCGATCAACTGGGCGATTCGCCCGCGAGACTGCTGATTACCCGCCAGAAAAGTGCGCAAGCCACCCTGGCATTGGCGGCAGCTTCGTAA	MSSGPLLVVGLGCQRGCPASALRALLEQTLLAHGIALGDVQALASIDLKHDEPGLLELAEQLALPLTCFTAEQLAGYQTQLSQRSRIAFERTGCHGVAESAALALADQLGDSPARLLITRQKSAQATLALAAAS	PGPT0004630_1169	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004630-cbiG-K02189	NA	NA
D1-35_01058	696			hypothetical protein	ATGATCAAGCGTATCGCTCGGACTGCCGGTTTCAGTGGGCTGCTGGCCGCCCTGCTGTTGACTCTTCTACAAAGCCTGTGGGTCTCGCCGTTGATTCAGCAAGCCGAAACCTACGAAAAGGCCCCGGCCAGCGAAGTCCATGAGCATGTTTCGGGCGCTGCCCACAGCCATGACGACGAAGCCTGGGAGCCGCAAGACGGCTGGCAACGCCTGCTCGCCACCACGGGCGGCAACCTGGTGGTCGCGGTGGGTTTCGCCCTGATGCTGGCGGGCCTGTACACCTTGCGCGAGCCGACGCGTACGTCCCAGGGCTTGCTTTGGGGACTGGCCGGTTACGCCACCTTCGTCCTCGCGCCAACGCTTGGCCTGCCACCGGAACTGCCTGGCACGGCGGCGGCTGAGCTGGCCCAGCGGCAGATGTGGTGGATTGGCACGGCGGCGTCCACGGCGGTAGGCATAGCCCTGATTGCCTTCGGCCGGCAGTGGCTGCTGAAGCTGCTGGGTGTCGCGACCTTGGTCGTTCCTCATGTCATCGGCGCGCCGCAGCCTGAAGTCCATTCGATGCTGGCTCCCGAGGCGCTGGAAAGCCAGTTCAAGATCGCCGCGCAACTGACCAATGTCGCGTTCTGGCTCTCCCTGGGCCTGATCAGCGCCTGGCTGTTTCGCCGTGGCGCCCAGGCTCGCCACGACGCATGA	MIKRIARTAGFSGLLAALLLTLLQSLWVSPLIQQAETYEKAPASEVHEHVSGAAHSHDDEAWEPQDGWQRLLATTGGNLVVAVGFALMLAGLYTLREPTRTSQGLLWGLAGYATFVLAPTLGLPPELPGTAAAELAQRQMWWIGTAASTAVGIALIAFGRQWLLKLLGVATLVVPHVIGAPQPEVHSMLAPEALESQFKIAAQLTNVAFWLSLGLISAWLFRRGAQARHDA				NA	NA	NA	NA	NA
D1-35_01059	189			hypothetical protein	ATGTCGACCATCAGCAGCACCGCCCGTACCACCAGCAGCACTGTCACCCTGAGCCAGCGCCTGAGCGCGGCGGTCCTCGCCTCGATCCTCGGTGCGGGCCTGGTCTACTTCGCCGGTTTCTCCCACATCGAAGCGGTGCACAACGCGGCCCACGACACCCGGCATAGCGCCGCGTTCCCGTGCCACTGA	MSTISSTARTTSSTVTLSQRLSAAVLASILGAGLVYFAGFSHIEAVHNAAHDTRHSAAFPCH				NA	NA	NA	NA	NA
D1-35_01061	1626			hypothetical protein	ATGTCCCTACGCAGCTTGAATATCGCCCCCAGAGCCTTTCTCGGCTTCACTGTCATCGCACTGCTTGTCGTCGTCCTCGGCGTGTTCGCCGCCAATCGCATGTCGGTCATCCGCCAGGCTTCGGTGGACATGGAGCAGACCCAGGTGCCCAGCGTCAGCCATCTGGCCAGTGTGATGGAAAGCGTCTTGCGCATGCGCATCCTCTCGTTTCGCATACTGGTGAACCGTGACCCGGCCAGCCTGAACGAGGCCGACGGGCGCATCGGTGTGCTGGTGGAAAAACTGCACAAGGCCAATAACAGCTATGCGGCGCTGCCGGCCACCCCGCAAGAGGCCGAGCTGTACAAGACTTTTTCCGCGACGCTTGCAAAGTATCTCGAGGCCCAGCAGGAAATGCTCCAGCTGTCGCGTCAGGACAAGCTTGATCAACTGCGCGCCCATATCAATACGCGGATCAAGGAAGGCACCGACCTGATGGGCGAACAGCTCAACAAACTCATCGAGTTCAACGTGACCAGCGCCGGCGAAGCATCGGCCAAGGCTGACGGCTACTACAGCAGCGCCATCACCGGCATCATCGTCGTCTCGGTCATCGCCGCGCTGGCGACCGTGTTGCTGGCCTTGCTCCTGACCCGCAGCATTGTGACGCCGCTGAATCGAGCGCTCGAAGCAGCCCGGACCATTGCCAGCGGCAATCTGGTCACCGTCATCGTCGACGACGGCAAGGACGAACCTGCGCGATTGCTCCAGGCCTTGGGCGCCATGCAGGGCAGCCTGCGCCAGACCATCGAGCAGATTGCCGGTTCCGCCACCCAGCTGGGCGCCGCCGCTGAAGAGTTGAGTGCCGTCACCCAGGAGTCTTCCCGTGGCTTGCAACGGCAGCACAGCGAAATCGAGCAGGCGGCCACCGCCGTCAATGAGATGACCGCCGCGGTCGAGGAGGTTGCCCGCAACGCGGTGTCCACTTCCGAAGCCTCGAACCAGTCCACCCAGGCGGCCCGGGAAGGGCGCACGCGAGTGGTGGAGACCGTCGATGCGATCCAGACCATGACCCACGACGTGCAAGCCACCGCCGCGATGATCGAGGGCCTGGCAGTCCAGGGCCGCGACATCGGCAAGGTGCTGGACGTGATCCGCGCCATCGCCGAACAGACCAACCTGCTGGCCCTCAACGCGGCCATCGAAGCCGCCAGGGCCGGGGAGGCCGGACGTGGTTTCGCGGTGGTGGCCGATGAAGTCCGCGCCTTGGCTCATCGCACCGCGCAATCGACCCAGGAAATCGAAAAAATGGTCGCCGGCATCCAGAACGGCACCGGCCAGGCCGTGCAGTCGATGCAGCAAAGCAACCAGCGCACCCAAAGCACCCTGGAACTGGCCCGTGGCGCCGGCGTGGCGCTGGAACAGATCACCCAGTCGATCCACCAGATCAACGAGCGCAACCTGGTCATTGCCAGCGCGTCCGAAGAACAGGCCCAGGTCTCCCGCGAAGTGGACCGCAACCTGATGAACATCCGTGATCTGGCGACCCAATCGGCCAGCGGCGCGCAACAGACCAGCGACGCCACTCACGAACTGTCGCGGCTGGCGGTGGGTTTGAATGCGACGGTGGCGCGCTTCGTTATTTGA	MSLRSLNIAPRAFLGFTVIALLVVVLGVFAANRMSVIRQASVDMEQTQVPSVSHLASVMESVLRMRILSFRILVNRDPASLNEADGRIGVLVEKLHKANNSYAALPATPQEAELYKTFSATLAKYLEAQQEMLQLSRQDKLDQLRAHINTRIKEGTDLMGEQLNKLIEFNVTSAGEASAKADGYYSSAITGIIVVSVIAALATVLLALLLTRSIVTPLNRALEAARTIASGNLVTVIVDDGKDEPARLLQALGAMQGSLRQTIEQIAGSATQLGAAAEELSAVTQESSRGLQRQHSEIEQAATAVNEMTAAVEEVARNAVSTSEASNQSTQAAREGRTRVVETVDAIQTMTHDVQATAAMIEGLAVQGRDIGKVLDVIRAIAEQTNLLALNAAIEAARAGEAGRGFAVVADEVRALAHRTAQSTQEIEKMVAGIQNGTGQAVQSMQQSNQRTQSTLELARGAGVALEQITQSIHQINERNLVIASASEEQAQVSREVDRNLMNIRDLATQSASGAQQTSDATHELSRLAVGLNATVARFVI	PGPT0015710_21063	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
D1-35_01062	1185	aruH	COG0436	Arginine--pyruvate transaminase AruH	ATGCGCTTTTCAGCCTTGACCCAACGCATCACCGGCGACGGCGCCGCCGCCTGGCAGATCCATGACCGGGCGCTGGCCATGCGCGAACAGGGCAGGGAGGTGCTGTTGCTGTCAGTGGGCGATCCGGATTTCGACACGCCACCGGCCATTGTCGAGGCCGCCGTCGCCAGCCTGCGGGCGGGGGACACGCATTATTCGGATACCCGTGGCCTGCATGCGTTGCGCGCCAGCATCGCCCGGCGCCACCAGCAACGTTGCGGCCAACCGGTGGGCGCCGGGCACGTTACGGTGCTGCCCGGCGCCCAGTGTGCGGTCTTCGCGGTCGCGCAGTGCCTGCTCGACCCCGGCGACGAGGTGATTGTCGCCGAACCGATGTACGTCACCTACGAAGCGGTCTTTGGCGCCTGCGGGGCGAAAGTGGTCCCGGTGGCGGTACGTCCGGAAAACGCTTTTCGGGTAGAGCCTGCCGACGTGGCCCGGCTGATCACGCCGCGTACCCGCGCGATGCTGCTCAACAGCCCCAACAATCCCTCCGGCGCCAGCCTGCCGCTGGCCACCTGGCAAGCGTTGGCGCAACTGTGCATCGAGCATGACCTGTGGCTGATCAGCGATGAGGTCTACAGCGACTTGCTCTACGACGGCGAACATATCAGCCCGGCCAGCCTGCCGGGCATGGCCGAGCGCACCGCCACCCTCAACAGCCTGTCCAAATCCCACGCCATGACGGGCTGGCGCATCGGCTGGGCCATCGGCCCCGAGTCCCTTGCCGGGCATCTGGCCAACCTGTCGCTGTGCATGCTGTTCGGCCTGCCGGACTTCGTCCAGCGCGCCGCCCAGGTTGCCCTTGAGCGGGATCTGCCTGAAGTGGCGCGGATGCGCGAGGAATATCGCCAGCGCCGTGACCTGGTGTGCGCGGCGCTGGAGGGGCGTGCGGGCCTCAGGCCGGTACGGCCTGATGGCGGGATGTTCGTGATGGTCGACGTGCGCCAGACGGGTCTCGCCGCCCAGGCATTTGCCGAGCGCCTGCTGGACGGCTATGGCGTGTCGGTGCTGGCGGGCGAGGCGTTCGGGCCGAGCGCGGCAGGGCATATCCGGATCGGCCTGGTGGTCGACCAAGTGCAATTGGCGGATGCGTGTCGGCGGATCGTCGAGTGTGCGGCGGCCTTGCTGCAGGTCGATTGGTGA	MRFSALTQRITGDGAAAWQIHDRALAMREQGREVLLLSVGDPDFDTPPAIVEAAVASLRAGDTHYSDTRGLHALRASIARRHQQRCGQPVGAGHVTVLPGAQCAVFAVAQCLLDPGDEVIVAEPMYVTYEAVFGACGAKVVPVAVRPENAFRVEPADVARLITPRTRAMLLNSPNNPSGASLPLATWQALAQLCIEHDLWLISDEVYSDLLYDGEHISPASLPGMAERTATLNSLSKSHAMTGWRIGWAIGPESLAGHLANLSLCMLFGLPDFVQRAAQVALERDLPEVARMREEYRQRRDLVCAALEGRAGLRPVRPDGGMFVMVDVRQTGLAAQAFAERLLDGYGVSVLAGEAFGPSAAGHIRIGLVVDQVQLADACRRIVECAAALLQVDW	PGPT0020890_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020890-occP|nocP-K10021	NA	NA
D1-35_01063	744	phoP_2	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein PhoP	ATGAGTCCCGCCCAGGCGCCACCGTATTTTCTGGACCACCCCATGCCCAACATCCTCCTCGTCGAAGACGACGCCGCCCTTTGCGAACTGATCTCCAGCTACCTGGAGCGCAACGGCTATCAGGTCAGCGTCCTCAACCGTGGCGATCACGTCCGTGAGCGGGCACGGGCCAACCCGCCGGACCTGGTGATCCTCGACCTGATGCTGCCGGGCCTGGATGGCTTGCAGGTCTGCCGTCTGCTGCGCGCCGATTCGGCGACCCTGCCGATCCTGATGCTCACCGCTCGGGATGACAGCCACGACCAGGTGCTGGGCCTGGAAATGGGCGCCGATGACTACGTCACCAAGCCCTGCGAGCCGCGGGTATTGCTGGCGCGGGTACGCACGCTGCTGCGGCGCAGCAGCCTCACTGAACCGCAAACGGTCAACGACCGTATTGTCATGGGCAACCTGTGCATCGATCTGTCCGAGCGCACCGTCACCTGGCGCGGGCAGCCGGTGGAGCTGTCCAGCGGCGAGTACAACCTGCTGGTGGTGCTGGCCCGGCATTCCGGCGAGGTGCTCAGCCGCGACCAGATCTTGCAGCGCTTGCGCGGCATCGAATTCAACGGCACCGATCGTTCGGTGGACGTGGCCATTTCCAAATTGCGGCGCAAATTCGACGACAACGCCGGCGAGGCGCGCAAGATCAAGACCGTGTGGGGCAAGGGTTACCTGTTCAGCCGTTCCGAGTGGGAATGCTGA	MSPAQAPPYFLDHPMPNILLVEDDAALCELISSYLERNGYQVSVLNRGDHVRERARANPPDLVILDLMLPGLDGLQVCRLLRADSATLPILMLTARDDSHDQVLGLEMGADDYVTKPCEPRVLLARVRTLLRRSSLTEPQTVNDRIVMGNLCIDLSERTVTWRGQPVELSSGEYNLLVVLARHSGEVLSRDQILQRLRGIEFNGTDRSVDVAISKLRRKFDDNAGEARKIKTVWGKGYLFSRSEWEC	PGPT0022435_52	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0022435-parR-K18073	NA	NA
D1-35_01064	1302	rstB		Sensor protein RstB	ATGTGGAAACTGCTGATTCGTCTGTATCTGGTGACCATCGTCTCCTACAGCGCGGCGATCTACCTGATGCCGGAACTGGTGATCCGCCTGTTCCATGAGCGCTTCCAGACTTACAACCTCGACTATTCCCGTGGCCTGCAAACCTTGATGGCCAAGCAGTTTCGCGCCGTACCCAGCGCGCAATGGCCGGCGCTGGCAGCGCAGATGGACAAGGAGTTCGAGCCGCTGCGCATCGAGCTCGCCGCCACCGATGATGCGGATTTCACCACCGCCGAGCAGGCGCGTCTGCAACGCGGTGAGAATGTGGTGCGCATCGGCGACTGGGGTTGGCGAACCCTGGCGGCCGCGCCGCTGGATGGGCGCACCGCGGTGAAGATGATCGTTCCCCCGGATCCGGCGGATGTCAGCTGGCTGTACTGGAGCATCAACGTGCTGATCGGCGCGACGATGCTCGGCTGTCTGCTGCTCTGGCTGCGGCCGCACTGGCGCGACCTGGAGCGGCTCAAACGCACCGCCGAGCGTTTCGGCAAGGGCCACCTGGGTGAGCGCACGCACATCGCGCCGCGCTCCAACATCGGCAGCCTGGCCCATGTTTTCGACACCATGGCGGGCGATATCGAGAACCTGCTCAATCAGCAGCGCGACCTGCTCAATGCCGTCTCCCATGAACTGCGCACGCCTTTGACCCGGCTTGACTTCGGCTTGGCACTGGCCTTGTCCGAGGATCTGCCGGCGCCCAGCCGCGAGCGTCTGCAAGGGTTGGTGGCGCACATTCGCGAGTTGGATGAGTTGGTGCTGGAGCTGTTGTCCTATAGCCGTCTGCAGAACCCCGAGCGCCTGCCGGAGCGGGTCGAAGTGCCGCTGGACGAGTTCATCGACAGCATCCTCGGCAGCCTCGATGAAGACCTGGCGGCGCCGGAGGTGGTGATCGACGTTTTGCTGCACGGGGCGCTGGAGCGTTTCGAGCTCGACCCGCGCCTCACCGCCCGGGCCTTGCAGAACCTGCTGCGCAATGCGATGCGCTATTGCGAAAAACGCATCCAGGTGGGGGTGCTGGTCAGCGAGCAAGGCTGCGAAATCTGGGTCGACGATGACGGCATCGGCATTCCTGACAGCGAGCGTGAGCGGGTATTCGAGCCGTTCTACCGGCTGGACCGCAGCCGTGATCGCGCCACGGGCGGCTTCGGCCTCGGCCTGGCGATCAGCCGCCGCGCCCTGCAAGCCCAGGGCGGCACCCTGACGGTCGAAGCCTCGCCGCTGGGCGGGGCACGCTTCCGGCTCTGGCTACCCCCAACCTGCTGA	MWKLLIRLYLVTIVSYSAAIYLMPELVIRLFHERFQTYNLDYSRGLQTLMAKQFRAVPSAQWPALAAQMDKEFEPLRIELAATDDADFTTAEQARLQRGENVVRIGDWGWRTLAAAPLDGRTAVKMIVPPDPADVSWLYWSINVLIGATMLGCLLLWLRPHWRDLERLKRTAERFGKGHLGERTHIAPRSNIGSLAHVFDTMAGDIENLLNQQRDLLNAVSHELRTPLTRLDFGLALALSEDLPAPSRERLQGLVAHIRELDELVLELLSYSRLQNPERLPERVEVPLDEFIDSILGSLDEDLAAPEVVIDVLLHGALERFELDPRLTARALQNLLRNAMRYCEKRIQVGVLVSEQGCEIWVDDDGIGIPDSERERVFEPFYRLDRSRDRATGGFGLGLAISRRALQAQGGTLTVEASPLGGARFRLWLPPTC	PGPT0004100_3878	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
D1-35_01065	642			hypothetical protein	ATGCCCCGCCTCACCCGCACTCACCCGCGTCTTTCCTGCGCCACGGTCATCGGCCTGGCGGCGGGCCTGCTGATCCCCGCAGATTCGATCATCGGCAAGGTCCTGATCGGCTGGAACGTCGGGGTCTGGACCTACCTGGCGCTGATGTTCTGGCTGACGGTGCGAGCCAAGGCACCTGACGTCAAGCGCATCGCCGAAATCGAAGACGAGAACGCCGGGCTGGTCCTGCTGATGGTCTGCATCGCGGCCTTGGCGAGCCTGGCGACCATCACCTTCGAACTGGCCGGCAGCCGCGACCTGCAAACCGCAGGCAAGCTGCTGCATTACGGTTTCACGGCATTGACCGTGATCGGTTCATGGCTACTGATCGGGGTGATTTTCAGCGTGCACTACGCGCGCCTTTATTACACCTGGTCCGGCAAGGAGCCCGCCCTGCGTTTTGCCGAGGGCCTGACCACGCCGAACTACTGGGATTTTTTGTACTTCTCTTTCACCATCGGCGTGGCGGTGCAGACTTCGGACGTGGGTGTTGCGACGCGGCAGCTGCGCAAGATCGTGTTGGCGCAGTCGTTGATCGGGTTTGTATTCAACACCGCGATCCTGGGGTTTTCGATCAATATTGCGGCGGGGTTGTTTGGCTGA	MPRLTRTHPRLSCATVIGLAAGLLIPADSIIGKVLIGWNVGVWTYLALMFWLTVRAKAPDVKRIAEIEDENAGLVLLMVCIAALASLATITFELAGSRDLQTAGKLLHYGFTALTVIGSWLLIGVIFSVHYARLYYTWSGKEPALRFAEGLTTPNYWDFLYFSFTIGVAVQTSDVGVATRQLRKIVLAQSLIGFVFNTAILGFSINIAAGLFG				NA	NA	NA	NA	NA
D1-35_01066	2079		COG2200	putative signaling protein	ATGCTCATCGGCAGCTATTCCCCCGCCCTTGTTTCGATTTCCCTGTTTGTCGCGATCCTGGCGTCCTATACCGCGCTGGACCTGACCGGACGCATAACCACTGCCCAGGGTCGGGCCGTGCATTTCTGGATGGCGGGTGGTGCCTTGGCGATGGGGGTGGGCATCTGGTCCATGCATTTCATCGGCATGCTCGCGTTCAGCTTGCCGGTGGAGCTTGGCTACGATGTGGCAATTACTGCGTTGTCGCTGCTGATCGCCATCCTTTCCAGCGGCTTTGCCCTCTGGCTGGTCAGCCAGCCACAACTGCGGACCTGGCAGCTGGTGTTCGGCGCGCTGGTGATGGGCACTGGCATCAGCGCCATGCATTACACCGGTATGGCGGCCCTGCGGATGCAGCCGGGCATCGATTATGACCCGACGCTGTTCGGCGCCTCGTTGGTAATAGCCGTGGTGGCGTGCGCGGCGGCGTTATGGATCGCCTTTCACCTGCGCCAGAACACCCCTCATGTACGTCTCGCTCGCGCCGGTGCCGCCGTGGTGATGGGCGCTGCCATCGTCGGCATGCATTACACCGGCATGGCCGCGGCGCAGTTCAGCGAAGGCAGTTTCTGCGGTTCCCTGGACGGTTTGAGCGGTAAGGGCCTGGATAACCTGGTGCTGATCACCACCTTGGCGGTGCTGGCGATTGCCTTGCTGACTTCGATCCTCGATGCGCGCCTGGAAGCCCGTACCGCGGAACTGGCCAGGTCCTTGACCCAGGCCAATCGCGAACTGACCCAACTGGCCCTGCACGACCCCCTGACCGGCCTGCCCAACCGGGTCTTGCTGGCGGATCGCATCGGCCAGGCGATGCACCGGGTGCAAGAGCAGGGCGGTTGTTTCGCCCTGATGTTCATCGATCTGGACGGCTTCAAACCGGTCAACGATGCCTTTGGCCACCACATGGGTGACTTGTTGCTGCGGGACGTCGCGCTGCGTCTGCGTGAAGACCTGCGCAGCCAGGACACCCTGGCGCGGATCGGTGGTGACGAGTTTGTCCTGCTGGTGCAACTGGCCGAGCCGGACGACGCCTTGCGCCTGGCCGCGCGTCAGGTCGGGCTGATCGGTCGCACGTTCCGGGTCGCCGACCATGACCTGCAGATTTCCGCCAGCGTCGGCATCGCGCTGTACCCTGGCAATGGCCAGAGCGCCGATGAATTGCTGATGAATGCCGACGCGGCGATGTACCACGCCAAGGGTGCCGGCAAGAATGGCTACAGCTTTTTCGACGCCTCGATGAACAGCAACGCCCGCCGGCAACTGCAACTGCTGCAGGATTTGCGCATCGCGGTCGAACAGCGCCAGTTCAGCCTTTATTACCAGCCCAAGTTCGACGCAGCGAAAGGCCGCCCGGTGGGCGCCGAAGCACTGCTGCGCTGGAACCATCCGACCCAGGGCCTGCTGATGCCCGACACTTTCATCGACCTGGCGGAAAAGACCGGGTTGATCATCCCGATCGGCGAATGGGTGCTGAACGAAGCCTGCCGGCAGATGCGCGAATGGTACGTGTTGGGCTACACCGATTGGCGTATCGCGGTGAACCTGTCAGCGTTGCAGTTCTGCCATACGGGCCTGGTGCAGAGCGTGGCCAAGGCATTGGAGACGCACCACCTGCCGGCCAACAGCCTGACCCTGGAAATCACCGAGACCACTGCCATGAGCGACGCGGACGCGAGCATGACGGTACTGCAACAGCTCTCGGACATGGGCGTGGACCTGTCCATCGACGACTTCGGCACCGGTTATTCGAGCCTGATGTACCTCAAGCGCCTGCCGGCCAACGAGCTGAAGATCGACCGTGGTTTCGTGCGAGACCTTGAGCACGACAGTGACGACGCGGCCATCGTCTCGGCCATCGTCGCCCTCGGCCAGGCCTTGGGCCTGCGGATCGTTGCCGAAGGCGTGGAGACCGATGTGCAACAGGACTTCCTCACCCAGTTGGGCTGCGATTCGCTGCAGGGGTATCTGCTCGGGCACCCGCAGCCGGCCGAACACTTCCTGAAGAACATCCGCCAGGCGCGACGCGTCGAAATGGCCTGA	MLIGSYSPALVSISLFVAILASYTALDLTGRITTAQGRAVHFWMAGGALAMGVGIWSMHFIGMLAFSLPVELGYDVAITALSLLIAILSSGFALWLVSQPQLRTWQLVFGALVMGTGISAMHYTGMAALRMQPGIDYDPTLFGASLVIAVVACAAALWIAFHLRQNTPHVRLARAGAAVVMGAAIVGMHYTGMAAAQFSEGSFCGSLDGLSGKGLDNLVLITTLAVLAIALLTSILDARLEARTAELARSLTQANRELTQLALHDPLTGLPNRVLLADRIGQAMHRVQEQGGCFALMFIDLDGFKPVNDAFGHHMGDLLLRDVALRLREDLRSQDTLARIGGDEFVLLVQLAEPDDALRLAARQVGLIGRTFRVADHDLQISASVGIALYPGNGQSADELLMNADAAMYHAKGAGKNGYSFFDASMNSNARRQLQLLQDLRIAVEQRQFSLYYQPKFDAAKGRPVGAEALLRWNHPTQGLLMPDTFIDLAEKTGLIIPIGEWVLNEACRQMREWYVLGYTDWRIAVNLSALQFCHTGLVQSVAKALETHHLPANSLTLEITETTAMSDADASMTVLQQLSDMGVDLSIDDFGTGYSSLMYLKRLPANELKIDRGFVRDLEHDSDDAAIVSAIVALGQALGLRIVAEGVETDVQQDFLTQLGCDSLQGYLLGHPQPAEHFLKNIRQARRVEMA	PGPT0026010_1492	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
D1-35_01067	1095	yhaZ	COG4335	putative protein YhaZ	ATGACCTCTTCTTCCCCCGCCCTCAAGGAAATCTTCAACGCCGCGCGCCTTGAACACATCGCCAGCGAAATGCGCGCGGTGTACCCGGCCTTCGATGCCAAGGCGTTCTTGAACCTGGCCAACGACGGATTGGCCGAATTGTCGGTCATGCAGCGCATGGCTCGGGTCAGCGAGTGCCTGCATGAGGTCCTGCCGCTGAGTTACGAAGCCTCGCTGGAGGTGCTGCGGGCCGTGGCCCCGCGTGTGAACAGCATGTTCGTCAGCCTGTTCCTGCCGCACTATGTCGCCTCCTACGGTCGGCACACCTTCGAGCTGTCGATGGACGCGCTCAAGTATTTCACCCGGTTTGGCTCCGCTGAGTTTGCCGTGCGGCATTTTTTGCGTGACGACCTGACGCGCACCCTCGGGGTCATGCATGACTGGGCGCTGGACGCCAACGAGCACGTCCGCCGCCTGGCCAGCGAAGGCAGCCGGCCGCGCTTGCCTTGGTCGTTTCACCTGGAGCCGATCCAGGCCAACCCGGAACTCGCCGCCGGAATCCTTGATGCGCTCAAGGCCGACGACAGCCTGTACGTGCGCAAATCCGTCGCCAATCACCTGAACGACGTGACCAAGCAGCATCCCGATTGGGTCCTGGAGCGGATCGAAGGCTGGCCATTGCACGATCGCCATAGCGCATGGATTGCCCGACACGCGCTGCGTAGCCTGATCAAGCAAGGCAATCTGCGGGCGCTGGCGGTTATCGGCGCGGGCGCCAGGGCGCAGGTGGAAGTTTCCGAGCTGCAAGTGACGCCAGCGGTGATTCGCCTGGGCGAGCCCATCACCTTGTCGTTCAAGGTGCGGTCCACGTCCGGACAAGGCCAGCGCCTGGTGATCGATTACGCGATCGACTACGTGAAAGCGTCCGGCGGCACGTCAGCCAAAGTGTTCAAGCTGAAGACCTTCGACCTGCCCGCCCTGGCTTCTGCCAGCCTCAGCCGTTCCCAGCAGATTCGCGAGCTGACCACCCGCCGGCACTACGCGGGCCGGCATGCGGTCCATCTGCTGATCAATGGCGAACGGCTGGGCAGTACCGCGTTCGAGATCGTTCCCTGA	MTSSSPALKEIFNAARLEHIASEMRAVYPAFDAKAFLNLANDGLAELSVMQRMARVSECLHEVLPLSYEASLEVLRAVAPRVNSMFVSLFLPHYVASYGRHTFELSMDALKYFTRFGSAEFAVRHFLRDDLTRTLGVMHDWALDANEHVRRLASEGSRPRLPWSFHLEPIQANPELAAGILDALKADDSLYVRKSVANHLNDVTKQHPDWVLERIEGWPLHDRHSAWIARHALRSLIKQGNLRALAVIGAGARAQVEVSELQVTPAVIRLGEPITLSFKVRSTSGQGQRLVIDYAIDYVKASGGTSAKVFKLKTFDLPALASASLSRSQQIRELTTRRHYAGRHAVHLLINGERLGSTAFEIVP				NA	NA	NA	NA	NA
D1-35_01068	309			hypothetical protein	ATGCGTAAACCAACCTTGATCGCCAGTCTGGTCCTGATCGCCGGCCTCGGAGCCTTTGGGCCCGTTGCGCAAGCGGTCGAGAAAACCGGAGACGCCCTTGAGCATTCGCCGAGCAATGGCCGCCGGCTGGTGGAAAATGACCGGGTACCGGCAGACTATCAGCGCGCGGACAGGGCCATGAAGGACTGGAAGCAGAAGAAACTCGAGCAGCCGACCGACGAGCAGCAATGGGTGCAGATCGACGACAAGTACCTGCTGATCGAAACCGTGTCCGGCGCCATCGTCAAGATCGTTCCCGCCACACGCTAG	MRKPTLIASLVLIAGLGAFGPVAQAVEKTGDALEHSPSNGRRLVENDRVPADYQRADRAMKDWKQKKLEQPTDEQQWVQIDDKYLLIETVSGAIVKIVPATR	PGPT0004560_184	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_HOMEOSTASIS,PGPT0004560-rcnB-K23243	NA	NA
D1-35_01069	324			hypothetical protein	ATGAAAACCCTTCCAGACCTTGACGATAAAGCCGTGGTCAAGCTGTCACGCCAAGGTGGCGTGGCGGCCATCCATGCCCTGACCCGCCCCCGGGAAATAGAATTCGCCCAGTGCGATATCAACCAGCGCTCACGTATCTGCTCGGTGCTGGAGGGCTGCCTGCCGCTCACGTCCTCCACGCCGGGTCGGGGCGACCAAAGGTATTTCCAGATCGAGGTGCGTTATCGGGCGAACGATCAGGATGACGAGATGGTGCTGCAGGTGCCCGAGGACCGGGCACCTGGCGAGCTGGTCCACTTGTGGGACAAGGGCGAAGTGCTTTGA	MKTLPDLDDKAVVKLSRQGGVAAIHALTRPREIEFAQCDINQRSRICSVLEGCLPLTSSTPGRGDQRYFQIEVRYRANDQDDEMVLQVPEDRAPGELVHLWDKGEVL				NA	NA	NA	NA	NA
D1-35_01070	1065	prtS		Protease PrtS	ATGATCGACTCTCGTCCGCTCCACGGTTTCATTCCGCCTTATATCCTCAATCGCATCATTGCCCATGGCTCCGAACAGCAACGCTCCAGCGCCCTCGGCACCCTGACCCACGTCAAGAATCTGCGCCACAACCCTGGCCCGCCGAGCAACCCACCCGCCACGGCGAAACTGCCCAGACCCGGCAAGGCCGGTCATCCACAGCGCAGCGTGCACGACGCGCAGAACACCATGGAGTTGCCCGGCCAGCCGGTACGCCTGGAAGGCCAGGCGGCCAGCGGCGACCCGGCGGTGGACGAAGCGTATGACGCCCTCGGCGCCACTTATGAGTTTTTCTGGAAAGTGCTCGGGCGCGATTCCATCGATAACAAGGGTTTTGCATTGGTCGGCAGCGTGCATTACGGCCAAGGTTATGAGAATGCCTTCTGGAACGGCGCGCAGATGGTGTTCGGTGACGGTGATGGCGAGATCTTCCAGCGTTTCACCCGCTCCCTGGACGTGGTGGCCCATGAACTGGCCCATGGCGTCACCGAAAGCGAAGCCGGCCTGATCTATGCCAACCAGTCCGGGGCGTTGAACGAGTCGATCTCCGACGTGTTCGGCGTGTTGGTCAAGCAATTCGTATTGGGCCAGACCGCCGACCAGGCCGACTGGCTGATCGGCGCCGACCTGCTCACCGACAGGATCAACGGTGACGGCCTGCGCAGCATGTCCAACCCTGGCACCGCCTACGATGACCCGCTGCTGGGCAAGGACCCGCAACCCGGGCATATGCGCGAATTCGTCATCACCCGTGAAGACAACGGCGGCGTGCACATCAATTCCGGCATTCCCAACCGGGCCTTTTATCTGGTGGCAACAACCCTGGGCGGATTTGCCTGGGAAAAGGCCGGGCGAATCTGGTATGACACCTTGTGCGACAGACAACTGGCCAACGACGCCTCCTTCAGTGCGTTCGCCCGCCTGACCGTCGAGCATGCCCGCCAGCGTTTCGGTGAGCAGGAAGTGCAAGCGGTGCAGGATGGCTGGGCGCAGGTGGGCGTCGACCTGAACGAGGAGAACGGATGA	MIDSRPLHGFIPPYILNRIIAHGSEQQRSSALGTLTHVKNLRHNPGPPSNPPATAKLPRPGKAGHPQRSVHDAQNTMELPGQPVRLEGQAASGDPAVDEAYDALGATYEFFWKVLGRDSIDNKGFALVGSVHYGQGYENAFWNGAQMVFGDGDGEIFQRFTRSLDVVAHELAHGVTESEAGLIYANQSGALNESISDVFGVLVKQFVLGQTADQADWLIGADLLTDRINGDGLRSMSNPGTAYDDPLLGKDPQPGHMREFVITREDNGGVHINSGIPNRAFYLVATTLGGFAWEKAGRIWYDTLCDRQLANDASFSAFARLTVEHARQRFGEQEVQAVQDGWAQVGVDLNEENG	PGPT0020995_117	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
D1-35_01071	342	fbp_1	COG0545	FK506-binding protein	ATGAATGAAGAGCTGCAAATCATCGACCTGGAACCGGGCGACGGCAAAAGCGTAGTCAAAGGAGCGCTGATTACCACTCAATATCGCGGCACCCTCGAGGACGGCACCGAGTTCGATTCGTCCTACAGTCGTGGCAAGCCCTTTCAATGCGTGATCGGCACCGGTCGCGTGATCAAGGGCTGGGATATCGGCCTGACGGGGATGAAAGTCGGCGGCAAGCGCAAGCTGCTGGTGCCGGCCCATCTGGCCTATGGTGAGCGCTCCATGGGCGCTCACATCAAGCCCAACAGCAACCTGGTTTTTGAAATCGAGCTGCTGGAAGTGCTGACCCGCGATGATTGA	MNEELQIIDLEPGDGKSVVKGALITTQYRGTLEDGTEFDSSYSRGKPFQCVIGTGRVIKGWDIGLTGMKVGGKRKLLVPAHLAYGERSMGAHIKPNSNLVFEIELLEVLTRDD	PGPT0015110_171	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015110-ppiA-K03767	NA	NA
D1-35_01072	1119	bioI	COG2124	Biotin biosynthesis cytochrome P450	ATGGACCCGATCACTGCCGCGACTCACGCTGATCCCTACCCTTACTACGCCAGCCTGCGAGCCAACGGAGGATTCGGTTTCGACGCGCATCTGAAACTCTGGGTCGCCAGCAGCGCCGAGGCGGTGTGCGCGGTACTGCATCATCCCGATTGCCATGTGCGCCCTGCTGACGAGCCGGTGCCCAAGGCAATTGCCGATGGCCCCGCCGGCCAAGTGTTCGCACACCTGATGCGCATGAACGAAGGCGAACGGCAGCGCTGTCCGAGGGCGGCGATTGCCCCGCGGTTGCAGGACATCGATCCGCGCCAGGTCGAGGCATTGGTCAGGGCACGCTTGCTCAGGGAGGGCGCCGCAGGTCTGCACCAGGCGCAGTTCGTCGGGCCGGCCAGCGTGGTGGCGGCATTGCTGGGTTTCAACCCGGCGGAGAGCCGCCTGATCAGCGAATTGACCGCAGACTTCGTCGCCTGCCTGTCCCCCCTGAGCCAGGTGAAGCAGCTTGAAGCCGCGCACCGGGCCAGCGAGCAACTGATGAGCCTTTTCCAGGAGCGGATCGAGGCACAGGACGCTCCGTTGCTGAGCCTCATGTGCCAGGGTTTTGAAGGCGCCGACCCGAACAGCCGGATCGCCAACCTGATCGGCCTGCTCTCGCAAACCTACGAAGCCACGGCGGGCTTGATCGGCAATGGACTATTGGCGTTAGCTCGCGACCCCGCTTTACATCAGCAAGTTCGGGACGATCCCAAACAGATCGGCGCGTTGCTGGCTGAAGTGCAGCGCTTCGACCCGGCGGTGCAGAACACTCGACGCTTCATCGCCATGCCCTGCGAAATCCTTGGCACTGCGCTAGAACCGGGAGATGTGGTACTGGTCCTGCTGGCTTCAGCCAACCGCGACCCGCAGCTCAACCCGCAACCGGACGCCTTGCTGCTGGCTCGCGCCAACCGCCGCAGTTTCAGCTTTGGCAGCGCCCGCCATGAATGCCCTGGCCAAGATTTGGCCATGAATATCGCTCGGGCCACCGTGGAAACAATCCTTGAGCGCAATCCACGCCTGGACCGGTTGGCCTGGAGCTATCGCCCCTCGATCAACGGACGCACCCCGCTGTTCAGCGACCGCTAA	MDPITAATHADPYPYYASLRANGGFGFDAHLKLWVASSAEAVCAVLHHPDCHVRPADEPVPKAIADGPAGQVFAHLMRMNEGERQRCPRAAIAPRLQDIDPRQVEALVRARLLREGAAGLHQAQFVGPASVVAALLGFNPAESRLISELTADFVACLSPLSQVKQLEAAHRASEQLMSLFQERIEAQDAPLLSLMCQGFEGADPNSRIANLIGLLSQTYEATAGLIGNGLLALARDPALHQQVRDDPKQIGALLAEVQRFDPAVQNTRRFIAMPCEILGTALEPGDVVLVLLASANRDPQLNPQPDALLLARANRRSFSFGSARHECPGQDLAMNIARATVETILERNPRLDRLAWSYRPSINGRTPLFSDR				NA	NA	NA	NA	NA
D1-35_01073	756			hypothetical protein	ATGAACGCAGAACACCATGACATGGGCGTGTCCCAGGTGGCCGCAGCGATTGCCGAACCGGCCCGTACCCGAATGCTCTGCGCGCTGATGGACGGCCACGCTCGCACCAGCACGGAGTTGGCGGCGATTGCCGAGGTCAGCGCTTCCACCGCGAGTGCGCACTTGGCGAAGCTCAAGGACCTCGCCTTGGTGCGTTTGCACGTCCAGGGGCGCCATCGTTACTACAGCCTCGCCGACCAGCGCGTAGCCGAGGCTCTGGAGGCGTTGATGATGATTGGCCAGGGCGCCAGGCCGACCTTCACGCCGCGCACGCCGGATCGCCTGCAGTTCGCCCGCACTTGCTACGACCATATGGCCGGTACGCTGGCGGTGCGGCTGCATGATCGCTTGCTGGAGGCCGGGTGGCTGGTGGAAGTGGAGGGGTGGGGCTATCGGCTCAGTGAATCCGGCGAAGCGCTGTTTGAAGGGCTAGGCATGGACGTTTCTACGCTGATGATTCAACGACGCCGGTTCGCCTGCCCGTGCCTGGACTGGAGCATGCGCCGACCGCATCTGGGCGGTGCCTTGGGCGCGGCGTTGCTGCAACTGGCGATCAAGCGCAAATGGGTACGGCAGGACCTGGACAGCCGGGCCCTGACATTGACGGTCTGCGGACGCAGGGAAATGGCGGGGCGGTTCGGGGTCAATGCAGAAGTCGATGTCGTACCCACAGGCGCCATCGCGAGCAAGCTCGCTCCCACAGTGGATTTGAGGTGA	MNAEHHDMGVSQVAAAIAEPARTRMLCALMDGHARTSTELAAIAEVSASTASAHLAKLKDLALVRLHVQGRHRYYSLADQRVAEALEALMMIGQGARPTFTPRTPDRLQFARTCYDHMAGTLAVRLHDRLLEAGWLVEVEGWGYRLSESGEALFEGLGMDVSTLMIQRRRFACPCLDWSMRRPHLGGALGAALLQLAIKRKWVRQDLDSRALTLTVCGRREMAGRFGVNAEVDVVPTGAIASKLAPTVDLR				NA	NA	NA	NA	NA
D1-35_01074	1020	ilvE		putative branched-chain-amino-acid aminotransferase	ATGGGTAACGAGAGCATCAATTGGGACAAACTGGGCTTTGACTACATCAAGACCGACAAGCGCTATCTGTCGCACTGGCGCGACGGCGCCTGGGACGCGGGCACCCTGACCGACGACAATGTGCTGCACATCAGCGAGGGCTCCACTGCCCTGCACTACGGCCAGCAATGCTTCGAAGGCCTGAAGGCCTATCGTTGCAAGGACGGTTCGATCAACCTGTTCCGCCCGGACCAGAACGCCGCCCGCATGCAACGCAGCTGCGCCCGCCTGCTGATGCCACATGTCGACACCGAGCAGTTCGTCGAAGCCTGCAAGCAAGTGGTCCGCGCCAACGAGCGCTTCATCCCGCCGTATGGCACCGGCGGTGCGCTGTACCTGCGCCCGTTCGTGATCGGCGTGGGTGACAACATCGGCGTGCGCACCGCGCCCGAGTTTATCTTCTCGATCTTCTGCATCCCGGTCGGCGCTTATTTCAAGGGCGGCCTGACCCCGCACAACTTCCTGATCTCCAGCTTCGACCGCGCGGCCCCGCAAGGCACCGGCGCGGCCAAGGTCGGTGGCAACTACGCCGCCAGCCTGATGCCCGGCTCGCAGGCCAAGAAGGCCAGTTTCGCCGACTGCATCTACCTGGACCCGCTGACCCATTCGAAAATCGAGGAAGTCGGCTCGGCCAACTTCTTCGGCATCACCCACGACAACAAATTCATCACCCCCAACTCCCCTTCGGTATTGCCGGGCATCACCCGCCTGTCGCTGATCGAACTGGCCAAATCGCGCCTGGGCCTGGAAGTGATCGAAGGCGACGTGTTCATCGACAAGCTGTCGGAGTTCAAGGAAGCCGGCGCCTGCGGTACCGCAGCCGTGATCACGCCGATCGGTGGTATCAGCTACAAGGACAAGCTGCATGTGTTCCACAGCGAAACCGAAGTCGGCCCGATCACCCAGAAGCTCTACAAAGAGCTGACCGGCGTACAGACCGGCGACGTGGAAGCACCCGCGGGCTGGATCGTCAAAGTCTGA	MGNESINWDKLGFDYIKTDKRYLSHWRDGAWDAGTLTDDNVLHISEGSTALHYGQQCFEGLKAYRCKDGSINLFRPDQNAARMQRSCARLLMPHVDTEQFVEACKQVVRANERFIPPYGTGGALYLRPFVIGVGDNIGVRTAPEFIFSIFCIPVGAYFKGGLTPHNFLISSFDRAAPQGTGAAKVGGNYAASLMPGSQAKKASFADCIYLDPLTHSKIEEVGSANFFGITHDNKFITPNSPSVLPGITRLSLIELAKSRLGLEVIEGDVFIDKLSEFKEAGACGTAAVITPIGGISYKDKLHVFHSETEVGPITQKLYKELTGVQTGDVEAPAGWIVKV	PGPT0008860_3724	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826	NA	NA
D1-35_01075	1383	lpdV	COG1249	Dihydrolipoyl dehydrogenase	ATGCAGACTCTGAACACCAAGCTGCTGATCATCGGCGGCGGTCCTGGCGGTTACGTGGCGGCGATCCGCGCCGGCCAACTGGGCATTGAAACGATCCTGGTGGAAGGCCAGGCGTTGGGCGGGACTTGCCTGAACATCGGCTGCATTCCGTCCAAAGCGTTGATCCATGTCGCCGAGCAGTTCCACCAGACCCGCCATCACAGCCAGGGCTCGGCCTTGGGCATCACCGTGGCGGCGCCGAGCCTGGACATCGGCAAGAGTGTGGAATGGAAGGATGGCATCGTCGATCGCCTGACCACCGGCGTCGCTGCGTTGCTGAAAAAGCACAAGGTCCAGGTCGTTCACGGCTGGGCCAAGGTGATCGATGGCAAGACCGTTGAAGTTGGTGACACCCGCATCCAGTGCGAACACCTGCTGCTGGCCACCGGTTCGAAAAGTGTCGAGCTGCCGATGCTGCCGATTGGCGGGCCGGTCATCTCGTCCACCGAAGCCCTCGCCCCCACCTCGGTGCCCAAGCATCTGGTGGTGGTCGGCGGCGGCTACATCGGGCTGGAACTGGGCACCGCCTATCGCAAGCTCGGCGCCGAAGTGAGCGTGGTCGAGGCCCAGGAGCGGATCCTGCCGGCCTACGACGGCGAGCTGACGCAACCGGTGCACGAGGCGCTCAAGCAACTGGGCGTGAAGCTGTACCTCAAGCACAGCGTCGAAGGCTTCGATGCCCAGGCCAGCACCTTGCAAGTGCGCGATCCCAACGGCGACACGCTGAACCTGGAGACCGACCGCGTGCTGGTGGCGGTCGGACGCAAGCCCAACACCCAGGGCTGGAACCTCGAAGCGCTGGACCTGGCGATGAATGGCTCGGCGCTGAAAATCGATAACCGGTGCCAGACCAGCATGCGCAATGTCTGGGCCATCGGTGACCTGAGCGGCGAACCGATGCTCGCTCACCGGGCCATGGCCCAGGGCGAAATGGTCGCCGAGCTGATTGCTGGCGAGCATCGGGAATTCAACCCGATGGCCATCGCGGCAGTGTGCTTCACCGATCCGGAGGTGGTCGTGGTCGGCAAGACGCCGGACGAGGCCAAGGCCGCCGAAGTCGATTGCATCGTGTCGAGCTTCCCGTTCGCCGCCAATGGCCGGGCCATGACCCTGGAATCGAAAAGCGGCTTTGTCCGGGTCGTGGCGCGCCGGGACAATCATCTGATTATCGGTTGGCAAGCGGTCGGTGTCGGCGTGTCGGAGCTGTCCACCGCGTTTGGCCAATCCCTGGAGATGGGCGCACGGCTGGAAGACATCGCCGGCACCATCCACGCCCATCCGACGCTGGGCGAAGCGGTGCAGGAAGCGGCGCTGCGGGCATTGGGGCATGCGTTGCATCTGTAA	MQTLNTKLLIIGGGPGGYVAAIRAGQLGIETILVEGQALGGTCLNIGCIPSKALIHVAEQFHQTRHHSQGSALGITVAAPSLDIGKSVEWKDGIVDRLTTGVAALLKKHKVQVVHGWAKVIDGKTVEVGDTRIQCEHLLLATGSKSVELPMLPIGGPVISSTEALAPTSVPKHLVVVGGGYIGLELGTAYRKLGAEVSVVEAQERILPAYDGELTQPVHEALKQLGVKLYLKHSVEGFDAQASTLQVRDPNGDTLNLETDRVLVAVGRKPNTQGWNLEALDLAMNGSALKIDNRCQTSMRNVWAIGDLSGEPMLAHRAMAQGEMVAELIAGEHREFNPMAIAAVCFTDPEVVVVGKTPDEAKAAEVDCIVSSFPFAANGRAMTLESKSGFVRVVARRDNHLIIGWQAVGVGVSELSTAFGQSLEMGARLEDIAGTIHAHPTLGEAVQEAALRALGHALHL	PGPT0001380_7027	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
D1-35_01076	1281	bkdB	COG0508	Lipoamide acyltransferase component of branched-chain alpha-keto acid dehydrogenase complex	ATGGGCACGCACGTTATCAAGATGCCGGACATCGGCGAAGGCATCGCGGAAGTTGAATTGTCGGTGTGGCACGTCAAGGTTGGCGACATGGTGGTCGAGGACCAGGTGTTGGCCGATGTCATGACTGACAAGGCGATGGTGGATATCCCTTCGCCGGTGCATGGCCGGGTCATTGCCCTCGGTGGTGAGCCGGGTGAGGTCATGGCAGTGGGCAGCGAGCTGATCCGCATTGAAGTGGAAGGCGCCGGCAACCTGAAGGAATCGGCGCAATCGGCGGCACCGGTGGCCAAGCCTGAGCCCGTCGCGAAGCCTGAACAGGCTTCCAGACCCGAGCCTGTGACGGAAAAACCCGTCGCCGCGCCTCGCCCGGCCCAAGCGGAACAGGCGCCGGTGGCCCGCGATCCCGACGAGCGCCCGCTAGCCTCGCCGGCCGTGCGCAAACACGCGCTAGACCTGGGTATCCAGCTGCGTCTGGTCCAGGGCAGCGGCCCCGCCGGGCGGATTCTGCACGAAGACCTGGAGGCTTATCTGGCCCAGGGCCCATCGTCCCAGGCCAAGAGCGGTTCGGGTTATGCCGAACGTCACGACGAGCAGCAGATCCCGGTGATCGGCATGCGCCGCAAGATCGCCCAGCGCATGCAGGAAGCCACCCAGCGCGCCGCCCATTTCAGCTACGTCGAGGAAATCGACGTCACCGCCCTGGAAGAACTGCGTGTTCATCTGAATGAGAAACACGGTGCCAGTCGCGGCAAGTTGACGTTGCTGCCGTTCCTCGTGCGCGCCCTGGTCGTGGCGCTGCGGGATTTCCCGCAAATGAACGCCCGTTACGATGATGAAGCCCAGGTCATTCACCGCTCCGGCGCCGTGCATGTCGGCGTCGCCACTCAGAGCGACGTCGGCCTGATGGTGCCGGTGGTGCGCCACGCCGAGGCCCGCAGCCTGTGGGACAGCGCGGCGGAAATCTCGCGCCTGGCGACAGCGGCCCGCAACGGCAAGGCCAGTCGCGACGAACTGTCCGGTTCGACCATAACCCTGACCAGCCTCGGCGCGTTGGGCGGCATCGTCAGCACGCCGGTGCTGAACCTGCCTGAAGTAGCGATCGTCGGCGTCAACAAAATCGTCGAGCGGCCCGTGGTGATCAAGGGCCAGATCGTGATCCGCAAGATGATGAACCTTTCCAGCTCCTTCGATCACCGAGTGGTCGACGGCATGGATGCGGCGCAATTCATCCAGGCCCTGCGTGGCCTGCTCGAACAACCCGCCACTTTGTTTGTGGACTAA	MGTHVIKMPDIGEGIAEVELSVWHVKVGDMVVEDQVLADVMTDKAMVDIPSPVHGRVIALGGEPGEVMAVGSELIRIEVEGAGNLKESAQSAAPVAKPEPVAKPEQASRPEPVTEKPVAAPRPAQAEQAPVARDPDERPLASPAVRKHALDLGIQLRLVQGSGPAGRILHEDLEAYLAQGPSSQAKSGSGYAERHDEQQIPVIGMRRKIAQRMQEATQRAAHFSYVEEIDVTALEELRVHLNEKHGASRGKLTLLPFLVRALVVALRDFPQMNARYDDEAQVIHRSGAVHVGVATQSDVGLMVPVVRHAEARSLWDSAAEISRLATAARNGKASRDELSGSTITLTSLGALGGIVSTPVLNLPEVAIVGVNKIVERPVVIKGQIVIRKMMNLSSSFDHRVVDGMDAAQFIQALRGLLEQPATLFVD				NA	NA	NA	NA	NA
D1-35_01077	1059	bkdA2	COG0022	2-oxoisovalerate dehydrogenase subunit beta	ATGAACGATCACAACAACAATATTGCGTTGGACACCGCCATGACCACTACCACCATGACCATGATCCAGGCGCTGCGCTCGGCCATGGACGTGATGCTCGAGCGCGACGACAACGTCGTGGTGTTCGGCCAGGACGTCGGTTATTTCGGCGGCGTGTTCCGCTGCACCGAAGGCCTGCAGAACAAGTACGGCACCTCGCGGGTATTCGACGCGCCGATTTCCGAAAGCGGCATCGTCGGCGTGGCCGTGGGCATGGGCGCCTATGGGCTGCGGCCGGTGGCCGAGATCCAGTTCGCCGACTACGTCTACCCGGCGTCGGACCAGATCATTTCCGAAGCCGCGCGCCTGCGCTATCGCTCGGCCGGCGAGTTCACCGCGCCGATGACCCTGCGCATGCCCTGCGGCGGCGGCATCTATGGCGGCCAGACCCACAGCCAGAGCATCGAGGCGATGTTTACCCAGGTCTGCGGGCTGCGCACCGTCATGCCGTCCAACCCCTACGACGCCAAGGGCCTGCTGATCGCCTCCATCGAAAACGATGACCCGGTGATCTTCCTTGAACCCAAGCGCCTGTATAACGGCCCGTTCGACGGTCACCATGACCGCCCGGTAACGCCGTGGTCCAAACACCCGCAGGCGCAAGTACCCGACGGCTACTACACCGTGCCGCTGGACGTCGCCGCCATCACCCGTCCGGGCAAGGACGTGACGGTGCTCACCTACGGCACCACGGTCTACGTCTCCCAGGTAGCAGCCGAAGAAACCGGGATCGACGCCGAAGTCATCGACCTGCGCAGCCTGTGGCCGCTGGACCTGGACACCATCGTCAAATCCGTGAAGAAGACCGGCCGTTGCGTGGTGGTCCACGAAGCCACCCGCACCTGCGGTTTCGGCGCCGAGCTGGTGTCGCTGGTGCAAGAACATTGCTTCCACCATCTGGAAGCGCCCATCGAGCGTGTCACCGGTTGGGACACCCCCTACCCGCACGCGCAGGAGTGGGCGTATTTCCCTGGGCCGTCCCGTGTGGGCGCGGCGTTGAAACGGGTCATGGAGGTCTGA	MNDHNNNIALDTAMTTTTMTMIQALRSAMDVMLERDDNVVVFGQDVGYFGGVFRCTEGLQNKYGTSRVFDAPISESGIVGVAVGMGAYGLRPVAEIQFADYVYPASDQIISEAARLRYRSAGEFTAPMTLRMPCGGGIYGGQTHSQSIEAMFTQVCGLRTVMPSNPYDAKGLLIASIENDDPVIFLEPKRLYNGPFDGHHDRPVTPWSKHPQAQVPDGYYTVPLDVAAITRPGKDVTVLTYGTTVYVSQVAAEETGIDAEVIDLRSLWPLDLDTIVKSVKKTGRCVVVHEATRTCGFGAELVSLVQEHCFHHLEAPIERVTGWDTPYPHAQEWAYFPGPSRVGAALKRVMEV	PGPT0008862_587	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
D1-35_01078	1236	bkdA1	COG1071	2-oxoisovalerate dehydrogenase subunit alpha	ATGAACCCAGCGTACGAACCGCTACGCCTGCACGTCCCCGAACCTTCGGGCCGTCCCGGCTGCAAGACCGACTTCTCCTACCTGCATCTGACCGATGCCGGCACGGTGCGCAAACCTCCCATCGACGTCGAACCCGCCGACACCGCCGACCTGGCGCGCAGCCTGATCCGCGTGCTCGACGACCAAGGCAACGCCTTGGGCGAGTGGGCCGAGAATGTCCCTGTCGAGATTCTGCGCAAGGGCATGCGCGCCATGCTCAAGACACGCATCTACGACAACCGCATGGTCGTCGCCCAGCGCCAGAAAAAAATGTCGTTCTACATGCAGAGCCTTGGCGAGGAAGCCATCGGCAGCGCCCAGGCCCTGGCCCTGAACATCGACGACATGTGCTTCCCGACCTACCGCCAGCAAAGCATCCTCATGGCCCGCGACGTGCCGCTGGTGGACCTGATCTGCCAACTGTTGTCCAACGAGCGCGATCCGCTCAAGGGCCGGCAGTTGCCGATCATGTATTCGGTCAAGGACGCCGGTTTCTTCACCATTTCCGGCAACCTCGCCACCCAGTTCATCCAGGGCGTGGGCTGGGGCATGGCCTCGGCGATCAAGGGCGACACCAAGATCGCCTCGGCCTGGATCGGCGACGGCGCCACCGCCGAATCGGACTTCCACACCGCCCTTACCTTCGCCCACGTCTACCGCGCCCCGGTGATCCTCAACGTGGTCAACAACCAGTGGGCGATTTCCACTTTCCAGGCGATTGCCGGCGGTGAAGCGACTACTTTCGCCGGACGCGGCGTCGGCTGCGGCATCGCCTCGCTGCGGGTCGATGGCAACGATTTCATCGCCGTCTACGCCGCGTCGCGCTGGGCCGCCGAACGGGCTCGCCGCAACCTCGGTCCGGCCCTGATCGAATGGGTCACCTACCGCGCCGGCCCGCACTCCACATCTGACGATCCTTCGAAATACCGCCCCGCCGATGACTGGAGCCACTTCCCGTTGGGCGACCCGATTGCGCGCCTCAAGCAGCACCTGGTGAAGATCGGCCAGTGGTCCGAAGAGGAACACGCCGCCGTCACCGCCGAACTCGAAGCCGAGGTGATCGCCGCGCAGAAAGAAGCCGAGCAGTACGGCACCCTCGCCGGCGGGCAGATTCCGAGCGCCGCGACCATGTTCGAGGACGTCTACAAAGAGATGCCGGAGCACTTGAAGCGCCAGCGTCAGCAGTTGGGGATCTGA	MNPAYEPLRLHVPEPSGRPGCKTDFSYLHLTDAGTVRKPPIDVEPADTADLARSLIRVLDDQGNALGEWAENVPVEILRKGMRAMLKTRIYDNRMVVAQRQKKMSFYMQSLGEEAIGSAQALALNIDDMCFPTYRQQSILMARDVPLVDLICQLLSNERDPLKGRQLPIMYSVKDAGFFTISGNLATQFIQGVGWGMASAIKGDTKIASAWIGDGATAESDFHTALTFAHVYRAPVILNVVNNQWAISTFQAIAGGEATTFAGRGVGCGIASLRVDGNDFIAVYAASRWAAERARRNLGPALIEWVTYRAGPHSTSDDPSKYRPADDWSHFPLGDPIARLKQHLVKIGQWSEEEHAAVTAELEAEVIAAQKEAEQYGTLAGGQIPSAATMFEDVYKEMPEHLKRQRQQLGI	PGPT0008861_810	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008861-bkdA1-K00166	NA	NA
D1-35_01079	489	lrp_1	COG1522	Leucine-responsive regulatory protein	ATGCGCAAATTGGATCGCACCGACATCGGCATTCTCAACAGCCTTCAGGAAAACGCCCGCATCACCAATGCCGACCTTGCCCGTTCGGTCAACCTGTCGCCGACGCCGTGCTTCAATCGGGTCCGGGCGATGGAGGAGCTGGGAGTGATTCGCGAGCAGGTCACCCTGCTGGATGCCGACCTGCTGGGCCTGCACGTCAACGTGTTTATCCATGTCAGCCTGGAGAAACAGGTGGAAGAGGCGCTGCAGCATTTCGAAGAGGCGATCTCCGACCGGCCGGAAGTGATGGAGTGCTACCTGATGGCGGGCGACCCGGATTACCTGATCCGTGTGCTGGTGCCGACCATCCAGTCGCTGGAGCGGTTCATGATGGATTTCCTGACCAAAGTCCCCGGGGTGGCAAACATCCGCTCAAGCTTCGCCCTCAAGCAGGTGCGCTACAAGACCGCGTTGCCGCTGCCAGCCAATGGCTTGACCTTGGGCACCTGA	MRKLDRTDIGILNSLQENARITNADLARSVNLSPTPCFNRVRAMEELGVIREQVTLLDADLLGLHVNVFIHVSLEKQVEEALQHFEEAISDRPEVMECYLMAGDPDYLIRVLVPTIQSLERFMMDFLTKVPGVANIRSSFALKQVRYKTALPLPANGLTLGT				NA	NA	NA	NA	NA
D1-35_01080	864			putative metallo-hydrolase	ATGCCCGCGCAGATCCAAAGCTTCCTCGACCCCGCTTCAAAGACCTATACCTACGTCGTGTATGAACACGCTGGCGGGTCCTGTGCGGTGGTCGACCCGGTGCTCGACTACGACCCGGCGTCAGGCCGCAGCGGCACGGAGCAGGCCGATCGGGTGATCGCTTTCGTGGCTGAACACCAGTTGACGGTGCAATGGCTGCTGGAAACCCACGCCCATGCCGATCACTTGTCCGCCGCTCCTTACCTGAGGGGAAAACTGGGCGGCAAGATCGCTATCGGCGAATCCATCCATCAGGTACAGAGTGTCTTCAAGACGCTGTTCAATCTCGAAGCGCAATTTGCCGTGGATGGTTCACAGTTCGATCACCTGTTCGCGGCCGACGAATCTTTTTTTATCGGCAACCTCAAGGCCACCGCGCTGCACGTTCCCGGCCACACCCCGGCGGACATGGCCTACCTGATCGATGGCGATGTGATCCTGGTGGGTGACACGCTGTTCATGCCTGATGTGGGCACTGCCCGCTGCGACTTCCCTGGCGGCAATGCCTGTCAACTCTACGCTTCGATCCGCAAGCTGCTGGCCTTTCCTGCCGGCGTTCGACTCTACGTTTGCCACGATTACCCGCCGGAGGGCCGCGAGCCCCAGTGCATGAGCACCGTGGGCGAGCAGCGCCAGCACAACATCCATGTTCGCGACGGCATCGACGAGACCGCATTCGTGGCCATGCGCACCCAGCGCGACAAGACCCTGGGCATGCCGACGCTGCTGTTGCCGGCGATCCAGGTGAATGTGCGGGCGGGCCACCTGCCGCCGGCGGAGGGGAATGGCGTGACCTATCTGAAGATTCCGATCAATCAGCTCTAA	MPAQIQSFLDPASKTYTYVVYEHAGGSCAVVDPVLDYDPASGRSGTEQADRVIAFVAEHQLTVQWLLETHAHADHLSAAPYLRGKLGGKIAIGESIHQVQSVFKTLFNLEAQFAVDGSQFDHLFAADESFFIGNLKATALHVPGHTPADMAYLIDGDVILVGDTLFMPDVGTARCDFPGGNACQLYASIRKLLAFPAGVRLYVCHDYPPEGREPQCMSTVGEQRQHNIHVRDGIDETAFVAMRTQRDKTLGMPTLLLPAIQVNVRAGHLPPAEGNGVTYLKIPINQL				NA	NA	NA	NA	NA
D1-35_01081	801			hypothetical protein	ATGTTACTGGCAAGTTTTTTTGGTGTGATCATGGGCCTGATCCTTGGCCTGACAGGGGCGGGCGGCGGAATTCTGGCCGTGCCGGCGTTGGTGTTGGGCCTGGGTTGGAGCATGACCCAGGCCGCGCCGGTGGCGTTGTTTGCGGTGGGCAGCGCCGCAGCTGTCGGCGCCATCGATGGGTTGCGCCATGGGCTGGTGCGTTACCGCGCGGCCTTGCTCATCGCGCTGCTGGGCGCGGTGTTCTCGCCGGTGGGTGTCTATTTCGCCCACCAGCTTTCAGAAAAAATCCTGATGATTCTGTTCAGCCTGCTGATGGTGCTGGTGGCGGCGCGCATGCTGCGCCGAGAAACCCCGCAGCCGGGACCCAGCGACCACGGCGCGGCCAGTTGGGGCCAGAAGAACTGCATGCTGGATCAGCAGACCGGGCGCCTGGCCTGGACCGCCCGCTGCACCGCCACGCTGTCGGCGTTGGGCGCGGTCACGGGCATGGTTTCGGGCCTGCTGGGGGTGGGTGGCGGTTTCCTGATCGTCCCGGCGTTCAAGCAACTGACCGACGTGCAGATGCGCGGCATTGTCGCCACCTCCTTGATGGTCATCAGCCTGATTTCGTTGATCGGCGTGGTGGGCGCGTTTCATGCCGGGGTCAGCATCGACCGGGTAGGGGCGGCGTTCATTGCGGCGAGCATCGTCGGGATGATTTTGGGGCGACGCTTCTCGGCGAAGGTTCCAGCGCGGGCGTTGCAGGTGGGGTTTGCCGGGGTGTGTCTGGCGGTGGCGGGGTTCATGTTGTTGCGGGCTTAG	MLLASFFGVIMGLILGLTGAGGGILAVPALVLGLGWSMTQAAPVALFAVGSAAAVGAIDGLRHGLVRYRAALLIALLGAVFSPVGVYFAHQLSEKILMILFSLLMVLVAARMLRRETPQPGPSDHGAASWGQKNCMLDQQTGRLAWTARCTATLSALGAVTGMVSGLLGVGGGFLIVPAFKQLTDVQMRGIVATSLMVISLISLIGVVGAFHAGVSIDRVGAAFIAASIVGMILGRRFSAKVPARALQVGFAGVCLAVAGFMLLRA				NA	NA	NA	NA	NA
D1-35_01082	870	yphB	COG2017	putative protein YphB	ATGACACCGCCCCTTCTCCACCTCGAAGACGAACTCACCCGCCTCACCCTGGCTCCGCACCTGGGCGCCAGCCTCGTTGAATGGACATTGCGCAGCAGCGGAGCTCCGCTGCTGCGCCCGCCCGCACCGCAAGCACTGGAAAACCGCCTGCCGGGAAAGCTCGGCTGCTTTCCGTTGATCCCCTGGTCGAACAGGATCGCCCAAGGCGGTTTCGATTGCCCGGGCGGCTGGCTCGCCCTGGAAGCCAACAGCCCCAACGATCCCTTTCCGATCCATGGCAGTGCCTGGCAGCAGCCCTGGCAGATTACCGAACGAACTGATCAGGAAGTCTTGCTGCAGCTGGACAGCCAAACCCCGTTCGCCTATTGCGCCAGCCTGCGGATCCGCTTGAGCGGCGGCCAACTGCAAATCGCCCTGCACGTCACCCACATGGCCGAACAGGCCGCCTGGCACGGGTTGGGCTTGCATCCATATTTGCCACGCACCCCCGGCACTCGCCTGCAAACCCGCGCCAGCGAAGTCTGGATGTGCGACGCCTCGAAACTGCCAACGGAACTGACGGGCGTACCCCCAGCGTGGGATTTCCAGCAACCTCGACTACTGCCCGACACTCTCGTCGATAACGGTTTCGGCGGTTGGGATGGGCAGTGCCTGATCCAGCAACCTGACTTGGGCTACGAACTGGAATGTCGCGCCAGCGGCAGCGAATATTTCCTGTTGTACTGCCCCGTCGGTCTGGATTTCTTCTGCATCGAACCGGTCAGCCATCCGGTCAACGCGCATCACCTGCCAGGACGGCCGGGGTTGCGCTTGCTGGAGCAAGGGCAGTCGGTGGCGTTGGGGTTTTCGATGCAGTGCCGGGAGTCGTAG	MTPPLLHLEDELTRLTLAPHLGASLVEWTLRSSGAPLLRPPAPQALENRLPGKLGCFPLIPWSNRIAQGGFDCPGGWLALEANSPNDPFPIHGSAWQQPWQITERTDQEVLLQLDSQTPFAYCASLRIRLSGGQLQIALHVTHMAEQAAWHGLGLHPYLPRTPGTRLQTRASEVWMCDASKLPTELTGVPPAWDFQQPRLLPDTLVDNGFGGWDGQCLIQQPDLGYELECRASGSEYFLLYCPVGLDFFCIEPVSHPVNAHHLPGRPGLRLLEQGQSVALGFSMQCRES	PGPT0017825_5366	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
D1-35_01083	1281	dctM_1	COG1593	C4-dicarboxylate TRAP transporter large permease protein DctM	ATGGACGCTCTGATTCTGCTGGGCAGTTTTTTGTTGTTGATCCTGATCGGCATGCCGGTCGCCTACGCGCTGGGCGCTGCCGCCCTGATCGGGGCATGGTGGATCGATATTCCGTTCCAGGCCATGATGATTCAGGTGACGGGCGGGGTGAATAAATTCTCGTTGCTGGCCATTCCGTTCTTCGTCCTGGCCGGCGCGATCATGGCCGAGGGCGGCATGTCCCGCCGCTTGGTGGCATTCGCCAGTGTGTTGGTAGGCTTCGTGCGCGGTGGCCTGTCTTTGGTCAACCTCGTGGCCTCGAGTTTTTTTGGCGCGATCTCCGGCTCCTCGGTGGCCGATACCGCCTCGGTCGGCTCGGTGCTGATCCCGGAAATGACACGCCGGGGCTATCCGCGTGAATACGCCACCGCCGTCACTGTCAGTGGTTCGGTACAAGCGCTGCTGACACCGCCCAGCCACAACGCGGTGCTGTACTCCCTCGCCGCTGGCGGCACCGTCTCCATTGGTTCGCTGTTCATGGCCGGCATCGTCCCCGGCATCATGATGAACCTGTGCCTGATGGCGCTGTGCCTGGTTTTTGCGAAAAAGCGCAATTACCCCAAGGGCGAAGTGATTCCGCTCAAGCAAGCGTTAAAGATCTGCAAGGAAGCCATGTGGGGCATGATGACCCTGTTCATCATCCTTGGCGGCATTCTCTCGGGTGTGTTCACCGCCACCGAATCGGCCGCCATTGCCGTGGTGTGGGCATTCTTCGTGACCATGTGCATCTATCGCGACTACAAGTGGAGCGAGTTGCCGAAACTGATGCACCGTACGGTACGCACCATCTCCATCGTGATGATCCTGATCGGCTTCGCCGCCAGCTTCGGCTACATCATGACGCTGATGGAAATCCCGGCGAAGATCACCACCGCGTTCCTGACCCTTTCGGACAACCGCTACGTGATCCTGATGTGCATCAACGTGATGTTGCTGCTGCTGGGCACCGTGATGGACATGGCGCCGCTGATCCTGATCCTGACGCCGATCCTGATGCCAGTGATCGTGGGCATCGGTGTGGACCCGGTGCAGTTCGGCATGATCATGCTGGTGAACCTGGGTATCGGCCTGATCACACCTCCGGTGGGCGCGGTACTGTTCGTCGGTTCCGCCATCGGCAAGGTGAGCATCGAAAGCACCGTCAAGGCCCTGCTGCCGTTCTACGCCATGCTGTTCCTGGTCCTGCTGTTGGTGACCTACGTTCCTGCCATTTCGCTGTGGCTGCCGAATCTGGTGTTGTAA	MDALILLGSFLLLILIGMPVAYALGAAALIGAWWIDIPFQAMMIQVTGGVNKFSLLAIPFFVLAGAIMAEGGMSRRLVAFASVLVGFVRGGLSLVNLVASSFFGAISGSSVADTASVGSVLIPEMTRRGYPREYATAVTVSGSVQALLTPPSHNAVLYSLAAGGTVSIGSLFMAGIVPGIMMNLCLMALCLVFAKKRNYPKGEVIPLKQALKICKEAMWGMMTLFIILGGILSGVFTATESAAIAVVWAFFVTMCIYRDYKWSELPKLMHRTVRTISIVMILIGFAASFGYIMTLMEIPAKITTAFLTLSDNRYVILMCINVMLLLLGTVMDMAPLILILTPILMPVIVGIGVDPVQFGMIMLVNLGIGLITPPVGAVLFVGSAIGKVSIESTVKALLPFYAMLFLVLLLVTYVPAISLWLPNLVL	PGPT0017335_1576	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
D1-35_01084	528			hypothetical protein	ATGAAGAATTTGCTGCTGCGTATCAACGACACGATTTACATGACTTGCATCTGGGTCGCCGGCCTGTCTGTCCTCGCCGTTGCGCTGATGATCCCTTGGGGCGTGTTCGCCCGCTACGTCCTCGGCACCGGCTCAAGCTGGCCGGAGCCCACCGCCATCTTGCTGATGATCGTGTTCACTTTCATCGGTGCAGCTGCCAGCTACCGCTCCGGCTCGCACATGGCCGTGGATATGGTCACAAGCCGCCTGCCCCCGCACTTGCAAACCTTGGCTTCGGTTTTCACGCAACTGTTGATGGCGGCGGTGTGCATTTTCATGACTGTCTGGGGCGCCAAGCTGTGCATGACCACCTGGAACCAGTTCATGAGCGCCATCCCTACCCTGCGCGTTGGCATCACTTACATGCCGATCCCGATCGGTGGGTTCCTGACCCTTATTTTTGTCCTGGAAAAACTCTTGCTGGGTGATCAAAGCAAGCGTCGGGTCGTGCAGTTCGACCTGGTTGAAGAAAACGAAGGTGCCGTTTAA	MKNLLLRINDTIYMTCIWVAGLSVLAVALMIPWGVFARYVLGTGSSWPEPTAILLMIVFTFIGAAASYRSGSHMAVDMVTSRLPPHLQTLASVFTQLLMAAVCIFMTVWGAKLCMTTWNQFMSAIPTLRVGITYMPIPIGGFLTLIFVLEKLLLGDQSKRRVVQFDLVEENEGAV				NA	NA	NA	NA	NA
D1-35_01085	972		COG1638	Solute-binding protein	ATGAATTTCAAACGCACGCTTCTGATCGCGGCCCTGCCCCTGGCCTTCCTGGCCCAGGCGGCACACGCTGAACTCACCCTGAAAATCGCCGACATCCACCCCAAGGGCTACCCGACCGTAGTCGCCGAGGAGTCCATGGGTAAAGCCCTGGAAGCGCAGAGCAAGGGCGAACTGAAGTTCAAGTACTTCCCGGGTGGCGTACTGGGTTCTGAAAAGGAAGTCATCGAGCAGATGCAAGCCGGCGCGATCCAGATGTCTCGCGTCAGCCTGGGCATTGTCGGCCCTGTGGTGCCGGACGTGAACGTCTTCAACATGCCGTTCATCTTCCGCGACCAGGCCCACATGCGCGCCGTCATCGACGGCGACGTGGGCGACGCGATCCTCGACCGGATCACCAAATCCGAATTCGGCCTGGTGGCCCTGGCCTGGATGGACGGCGGCACCCGCAACCTCTACACCAAGAAACCGGTGCGCAAGCTCGAAGATCTGAAGGGCATGAAGATTCGCGTCCAAGGCAACCCGATGTTCATCGAGACCTTCAACGCCATGGGCGCCAACGGTATCGCCATGGACACCGGCGAGATCTTCAGCGCCCTGCAGACCGGCGTGATCGACGGCGCGGAAAACAACCCGCCGACCATGCTTGAGCACAACCACTACCAGAACGCCAAGTTCTACAGCCTGACCGGCCACCTGATCCTGCCTGAGCCGATCGTGATGTCGAAAATCACCTGGAACAAGCTCACGCCGGAGCAACAGGACATGGTGAAGAAAGCCGCCAAGGCAGCCCAGGCTGAAGAGCGCGTGCTGTGGGACAAGAAGTCCGCCGCCAGTGAAGAAAAACTCAAGGCCGCCGGCGTCGAGTTCATCACCGTCGATAAAAAACCCTTCTATGACGCCACCGCGCCGATCCGGGCCAAATACGGTGCTCCGTACGCCGACCTGATCAAGCGCATCGAGGCTGTCCAGTAA	MNFKRTLLIAALPLAFLAQAAHAELTLKIADIHPKGYPTVVAEESMGKALEAQSKGELKFKYFPGGVLGSEKEVIEQMQAGAIQMSRVSLGIVGPVVPDVNVFNMPFIFRDQAHMRAVIDGDVGDAILDRITKSEFGLVALAWMDGGTRNLYTKKPVRKLEDLKGMKIRVQGNPMFIETFNAMGANGIAMDTGEIFSALQTGVIDGAENNPPTMLEHNHYQNAKFYSLTGHLILPEPIVMSKITWNKLTPEQQDMVKKAAKAAQAEERVLWDKKSAASEEKLKAAGVEFITVDKKPFYDATAPIRAKYGAPYADLIKRIEAVQ				NA	NA	NA	NA	NA
D1-35_01086	906			6-deoxy-6-sulfogluconolactonase	ATGCAAGCCGAATTGATTGTCGATGCACGCAACGCCGTCGGGGAAAGCCCGGTGTGGGTCCCCGAGGAGAACGCCTTGTACTGGGTGAACATCCCCAGCGGCGGCCTGCAACGCTGGAACGCCAGCACTGGAAAAATCCAGGGCTGGGAAGCACCGGAAATGCTCGCCTGCATTGCCCGTCACCAGGACGGCGGCTGGGTCGCGGGCATGGAAAGCGGTTTCTTCCGTCTGCAGCCCAATGACGATGGCAGCCTGGACAGCGAGCTGTGCGCCAGCGTGGAGCACAGCCGTACCGACATGCGCCTCAACGATGGCCGCTGCGATCGCCAGGGCCGTTTCTGGGCCGGCAGCATGGTGCTGAACATGGGCGCCAACGCCGACGAAGGCCGGATGTACCGATATGACGCCGGGCAACGCAGCCCGGTCGAGGCACAGCTCAGCGGTTTCATCGTACCCAACGGCCTGGGCTTCAGCCCCGACGGAAGGACGATGTATCTCTCCGATTCGCACCCGTTGAGCCAGCAGATCTGGGCCTTCGACTACGACATCGACAGTGGCACCCCGTCCAACCGGCGCCTGTTCGTCGACATGATGCCCCTGGCCGGTCGCCCGGACGGCGCAGCGGTGGACGCCGACGGTTGCTACTGGATCTGCGCCAACGACGCCGGGCTGATTCACCGCTTCACCCCGGACGGACGCCTCGACCGTTCGCTTGAAGTGCCGGTGAAAAAACCGACCATGTGCGCCTTCGGCGGAAGCCAGCTCGATACCCTCTTCGTCACCTCGATCCGTCCGGGTGACGACAATGATCCGCAATCCCTGGCCGGTGGCGTGTTCGCTCTCAAACCCGGCGTCAAGGGTCTGGCTGAACCTGCTTTCGGAGGACGGAAACACTCCGCGAACTGA	MQAELIVDARNAVGESPVWVPEENALYWVNIPSGGLQRWNASTGKIQGWEAPEMLACIARHQDGGWVAGMESGFFRLQPNDDGSLDSELCASVEHSRTDMRLNDGRCDRQGRFWAGSMVLNMGANADEGRMYRYDAGQRSPVEAQLSGFIVPNGLGFSPDGRTMYLSDSHPLSQQIWAFDYDIDSGTPSNRRLFVDMMPLAGRPDGAAVDADGCYWICANDAGLIHRFTPDGRLDRSLEVPVKKPTMCAFGGSQLDTLFVTSIRPGDDNDPQSLAGGVFALKPGVKGLAEPAFGGRKHSAN	PGPT0017460_198	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017460-araB|L_arabinonolactonase-K13874	NA	NA
D1-35_01087	822	udh	COG0451	Uronate dehydrogenase	ATGACCACGACACAGATTCGCCACCCTTTCAATCGCTTGCTGTTGACCGGCGCCGCCGGCGGCCTTGGCAAAGTCTTGCGCGAACGCCTCAAGCCTTACGCCCGCCATATTCGCCTGTCGGACATCGCCAACATGGCACCGGCCATCGACGAAAGCGAAGAAGTGGTGCCCTGCGACCTGTCGGATAAACAGGCCGTGCACCAATTGGTGGAAGGCGTCGACGCCATCCTGCATTTTGGCGGTGTGTCGGTCGAGCGTCCGTTCGAAGAGATCCTCGGCGCCAACATCAGCGGCGTGTTCCATATTTATGAAGCCGCGCGCAAGCACGGCGTCAAGCGCGTGATCTTCGCCAGTTCCAACCACGTCATCGGCTTCTACAAGCAGGACCAGGCCCTCGACGCCCTCTCCCCTCGCCGTCCGGATGGCTACTACGGCCTGTCCAAGTCCTACGGCGAAGACATGGCCAGTTTCTACTTCGATCGCTACGGCATCGAGACCGTTAGCATCCGCATCGGCTCGTCATTCCCGGAACCACAGAACCGCCGGATGATGAGCACCTGGCTGAGCTTCGACGACCTCACCCAACTGATCGAATGCTCGCTCTACACCCCGAAGGTCGGCCACACCGTGGTCTACGGCATGTCCGCCAACCGCGACGTCTGGTGGGACAACAGCCACGCCGCGCACCTGGGCTACCAGCCCAAGGACACGTCGGAAATCTTCCGCGCCAAAGTCGAAGCCCAGCCGATGCCGGCCGAGGATGACCCGGCCAGGATCTACCAGGGCGGCGCCTTTGTTGCTGCCGGCCCGTTCGACAACTGA	MTTTQIRHPFNRLLLTGAAGGLGKVLRERLKPYARHIRLSDIANMAPAIDESEEVVPCDLSDKQAVHQLVEGVDAILHFGGVSVERPFEEILGANISGVFHIYEAARKHGVKRVIFASSNHVIGFYKQDQALDALSPRRPDGYYGLSKSYGEDMASFYFDRYGIETVSIRIGSSFPEPQNRRMMSTWLSFDDLTQLIECSLYTPKVGHTVVYGMSANRDVWWDNSHAAHLGYQPKDTSEIFRAKVEAQPMPAEDDPARIYQGGAFVAAGPFDN	PGPT0018290_356	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018290-udh-K18981	NA	NA
D1-35_01088	525	nicP_1		Porin-like protein NicP	ATGGGCGACTGGACCCTGGGCGCCAACCTGGGCTACTTCACCGGCAAGGAAGACGGCAGCGCCCTGGCCGGCGATCTCGACAACAAGACCGCGTTCGCCATGCTCTCCGCCAAGTACGGCGGCAACACCTTCTATGTCGGCCTGCAGAAAGTCGGCGGCGATGACGCCTGGATGCGCGTCAACGGCACCAGCGGCGGGACCCTGGCGAACGACAGCTACAACTCCAGCTACGACAACGCCAAGGAAAAATCCTGGCAACTGCGCCATGACTTCAACTTCGCCGCCGTCGGCGTGCCGGGCCTGACCCTGATGAACCGCTATATCAGCGGTGACAACGTGCACACCGCCACCGTCGATGACGGCAAGGAATGGGGCCGCGAGACCGAGCTGGCTTATACCGTGCAGAGCGGTGCGCTGAAGAGCCTTAACGTAAAATGGCGTAACGCATCGATTCGTCGCGACTTCAGCACCAACGAATTCGACGAGAACCGGATCTTCATCAGCTACCCGATTTCGCTGCTGTAA	MGDWTLGANLGYFTGKEDGSALAGDLDNKTAFAMLSAKYGGNTFYVGLQKVGGDDAWMRVNGTSGGTLANDSYNSSYDNAKEKSWQLRHDFNFAAVGVPGLTLMNRYISGDNVHTATVDDGKEWGRETELAYTVQSGALKSLNVKWRNASIRRDFSTNEFDENRIFISYPISLL	PGPT0023610_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0023610-galP-K16517	NA	NA
D1-35_01089	3453	recC	COG1330	RecBCD enzyme subunit RecC	ATGCCGGACGCTAAGTCCCTCAGCCCTGCTTTCATGGTGGTCCACGGGAACCGCCTTGATGAGCTGCGCAGCCTGGTGATAAGCCTCATGCGGCGCTATCCGCTGGCCCCTCTTGAAAATGAAATCGCGCTCGTACAAAGCAACGGCATTGCCCAATGGCTGAAGCTGGCACTGGCTGAGGATCCCCTTGACGACGACATGGGCGGCTGCGGCATCGCGGCTGCGATTGATGTGCAGTTGCCCGGCAGTTTCATGTGGCAGCTCTATCGAACGGTGCTCGGGCGTGACGAGATTCCAGCCAAGTCCTTGCTGGACAAGGCCCCGCTTACGTGGCGCCTGATGCGCCTCCTGCCGCAATTGATTGAACAGCCCCATTTCGAGCCCCTGCGGCGTTTTTTGACCCATGACACGGACTTGCGCAAGCGGTACCAGTTGTCCGAGCGCCTTGCAGATTTGTTCGACCAATATCAGGTGTACCGAGCCGACTGGCTCGAAGACTGGGCCCAAGGGCGCCATCAGACCCGCAACGTCCGGGGTGAAATCAAGCCGCTCGCGCCGGCGAATTGCTGGCAAGCGGAATTGTGGCGGGCGTTATTGCTGGATGTGGGAGAGCAAGGCATGGCTCAAAGCCGTGCGGGTGTTCATCAGCGCTACATCGAGCGCATCAATAGTCTGGAAGCCGCTCCAAAAGGTCTGCCTGCACGGGTAATAGTCTTCGGTATTTCCTCACTGCCCGCCCAAGCGCTCGAAGCCCTGGCCGGTCTGTCACGGTTCAGTCAGGTTCTGCTGTGCGTCCATAACCCATGCCGTCACCATTGGGCAGATATCGTGGCCGACAAGGATCTGCTTCGCCACCAATACAAGCGGCAGGCACGCAAGAGCGGCATGCCGGACGTCCTGGACCCGCAAACCTTGCATCAGCATGCTCATCCATTGCTGGCTGCCTGGGGGAAGCAGGGGCGCGACTATATCAACTTGCTCGACAGCTATGACGAGCCAAACACCTATCGCTCGGTATTTCGCGAAGGGCGGATCGACCTGTTCAGCGAAGGCAATCCCACTACGCTCCTCAGCCAGTTGCAGGATGACATTCTTGAGCTGCGGCCACTGAGCGAAACCCGGGAAAAGTGGCCCGCGGTCGATACCTCGCGAGACGGATCGATCCGTTTTCATATCGCCCACAGCGCCCAGCGTGAAGTCGAGATTCTTCACGATCAGTTGCTTGCCCATTTCAGCAATGACCCGGCTTTACGCCCTCGGGATATCATCGTCATGGTCCCGGACATCGACAGTTATGCGCCGCATATTCGCGCGGTGTTCGGCCAACTCGACCGGGTCGATCCGCGTTTCATCCCATTCACACTGACGGACCAAGGTCAGCGTGGACGCGATCCGCTGCTGATTGCCGTCGAGCATTTGCTGAAACTTCCCGATAGCCGTTTCCCCGTCAGCGAAATCCTTGATTTGCTGGACGTCCCGGCATTGCGTGAGCGATTTGGCATTGATGAGGCCGATTTACCGACACTGCACCGTTGGATCGAGGGCGCAGGCATCCGTTGGGGGATAAGCGCCGAGCACCGAGCCGGGTTGGGCTTGCCCGCGGAGTTGGAGCAGAACAGTTGGCGTTTCGGCCTGCGTCGCATGTTGTTGGGGTATGCCGTTGGTGATTCGCAAGCCTATGAAGGCATAGAACCCTATGACGAAATCGGCGGTCTGGATGCCGCATTGATCGGTCCGTTGGTTGCATTGCTCGATGCCCTGGAGGTTGCTTACCAGGCGCTCAGTCAACCCGCCTCACCTCAGGACTGGGGGACACGCCTGCATGATCTGATGCAGTTGTTCTTTCTGGCGAGCAACGAGCATGACGATTATTTGCTGGCCCAGCTCGAGGACTTGCGTGAAAACTGGTTGGAAACCTGCGAGTCGGTCGGCCTGCACGACGAGCTGCCGTTGACGGTTGTCAGAGAGGCCTGGCTGGCGGGGCTGGATCAAGGGCGACTGTCCCAGCGCTTCCTCGCCGGAGCGGTCAATTTTTGTACCTTGATGCCGATGCGGGCGATCCCCTTCAAGCTGGTCTGCCTGTTGGGCATGAACGATGGTGATTACCCGCGGGCCCAACCGCCATTGGATTTCGATCTCATGGGCAGTGATTATCGGCCGGGAGATCGCTCTCGACGAGAGGACGATCGCTACCTGCTGTTGGAGGCGCTGCTTTCTGCGCGGGAAAAACTCTACATCAGTTGGGTCGGGCGCAGCATACGCGACAACAGCGAGCGGCCTGCCTCAGTCCTGGTCGGACAGTTGCGCGATCATCTCGCAAGTGGCTGGCAGTCGGCGGATGTCCATGGCGACCTTCTTGAAGCGCTGACCCAGGAGCACCCCCTGCAACCGTTCAGCGCTCGTTATTTCTACCAGGGCGATGAGCTGTTCAGCTATGCCAGCGAATGGCGAGGACTTCATGAGGATCATGAGCACGCTGGCAAGCCTGGGGCCCTGGAGCCCTACGTTCAGGAGGAACCCCTGGGGCTTGGTCAGTTGCAGGACTTCCTGCGTAATCCTGTCCGGCACTTTTTCAGCCAGCGACTCAAGGTGTTCTTCGAGCCTCTCGAAGCCCCATTGGCGGACGACGAACCTTTCATCCTGGATGCCCTGCAGCGCTATAGCCTGAGCGACAGCCTGCTCGAGGCTGCCCTTGTTCGCCTTGACCAAGCGGACCTTGCATTGGAGGCTCACGCCAAGAGGCTTCAGAACAGCGGCCTGTTACCCATGGCTGGCTTTGGCCAATGTATGCAGCGTGAATTGATCGAGCCGCTGCCTGATCTACTGCAACGCTACCAGCAACTTCTGGCGCTATGGCCGACTCCGCTGACCAGTGCCGTGCCCGTCAGCCTGCAATTACACGGTGTGAACATTGAAGGTTGGCTCAGCGGCCTGCACCAGCGCTCCGATGGTGCGGTCCTCGCCATCACTGCCATTCCCAACAGTATCGGTTCTACCAGGACCCGGAAATGGCACCGCTTGATACGACCCTGGGTGAACCATCTCGTGGCTTGCGCCAACGGTCTGTCGATGACGACGGCATTGGTCGCCAGCGATGACAGCTTGCTGCTGAATCCTTTTGACGAGTCGGTAGCCCGCAAGCTGCTCGGCGACTTGTTGCAAGCCTGGCAGGCTGGCATGCGCCAACCGCTGCCAATCGCAGTGAAGACCGCCTTCGCCTGGCTCGGCCAGAGTGATCCGGACAAAGCCGAAGCGGCCGCTCGAAAAGCCTACGAAGGCGATGGGCTGACGTCTGAAGGCGAGCGGCGCGAAAGCCCCGCTCTGGCTCGGCAATATGCCGACTTCGATGCGCTTATCGCTGACGAAACATTCCCCGACTGGTGTGACGCGCTCTATCGACCGCTTCTGGAAGCACCGTGGCGTTCGTTGGCGGGTGAGGAAGCGCATTCATGA	MPDAKSLSPAFMVVHGNRLDELRSLVISLMRRYPLAPLENEIALVQSNGIAQWLKLALAEDPLDDDMGGCGIAAAIDVQLPGSFMWQLYRTVLGRDEIPAKSLLDKAPLTWRLMRLLPQLIEQPHFEPLRRFLTHDTDLRKRYQLSERLADLFDQYQVYRADWLEDWAQGRHQTRNVRGEIKPLAPANCWQAELWRALLLDVGEQGMAQSRAGVHQRYIERINSLEAAPKGLPARVIVFGISSLPAQALEALAGLSRFSQVLLCVHNPCRHHWADIVADKDLLRHQYKRQARKSGMPDVLDPQTLHQHAHPLLAAWGKQGRDYINLLDSYDEPNTYRSVFREGRIDLFSEGNPTTLLSQLQDDILELRPLSETREKWPAVDTSRDGSIRFHIAHSAQREVEILHDQLLAHFSNDPALRPRDIIVMVPDIDSYAPHIRAVFGQLDRVDPRFIPFTLTDQGQRGRDPLLIAVEHLLKLPDSRFPVSEILDLLDVPALRERFGIDEADLPTLHRWIEGAGIRWGISAEHRAGLGLPAELEQNSWRFGLRRMLLGYAVGDSQAYEGIEPYDEIGGLDAALIGPLVALLDALEVAYQALSQPASPQDWGTRLHDLMQLFFLASNEHDDYLLAQLEDLRENWLETCESVGLHDELPLTVVREAWLAGLDQGRLSQRFLAGAVNFCTLMPMRAIPFKLVCLLGMNDGDYPRAQPPLDFDLMGSDYRPGDRSRREDDRYLLLEALLSAREKLYISWVGRSIRDNSERPASVLVGQLRDHLASGWQSADVHGDLLEALTQEHPLQPFSARYFYQGDELFSYASEWRGLHEDHEHAGKPGALEPYVQEEPLGLGQLQDFLRNPVRHFFSQRLKVFFEPLEAPLADDEPFILDALQRYSLSDSLLEAALVRLDQADLALEAHAKRLQNSGLLPMAGFGQCMQRELIEPLPDLLQRYQQLLALWPTPLTSAVPVSLQLHGVNIEGWLSGLHQRSDGAVLAITAIPNSIGSTRTRKWHRLIRPWVNHLVACANGLSMTTALVASDDSLLLNPFDESVARKLLGDLLQAWQAGMRQPLPIAVKTAFAWLGQSDPDKAEAAARKAYEGDGLTSEGERRESPALARQYADFDALIADETFPDWCDALYRPLLEAPWRSLAGEEAHS				NA	NA	NA	NA	NA
D1-35_01090	3690	recB	COG1074	RecBCD enzyme subunit RecB	ATGAGTCGACAAACACCCTTGGCGCTGGCTTTCCCACTACGCGGCAGTCAATTGATCGAAGCCAGCGCAGGAACTGGCAAGACCTTTACCATCTCGGCGTTGTACTTGCGCCTGGTGCTGGGCCATGGCGGCTCGACGGCCGGCTTTGGCCGTGAGCTGCTTCCTCCGCAGATACTGGTGGTGACTTTCACCGACGCTGCCACGAAGGAATTGCGCGAACGCATCCGCACCCGCCTCGCGGAAGCGGCGCGTTTTTTTCGTGACGAGATTCCCGCTCCCGACGCGTTGATAAACGCACTGCGTGATGAGTTTGATAAAGGGCAATGGCCTGGCTGTGCGAATCGGCTGGATATCGCCGCGCAATGGATGGATGAAGCCGCCGTTTCGACGATCCACAGCTGGTGCCAGCGGATGCTTCGTGAGCATGCCTTTGACAGTGGCAGCCTGTTCACCCAGACCCTGGAAACCGACCACAGCGAATTGCTCGGCGAGGTGCTGCGCGATTATTGGCGATTGTTCTGCTACTCGATGGAGGGTGAGGCACTGGATTGGGTGCGAGCGCACTGGGGCGGTCCTGCTGCGTTGTTGCCACGGGTGAGGGGGTTGTTTGCCAACTCGCGAGGTGGTGACGATGGGCTTGAACCGACGGAACTCATCACCGCGTCCCTGCGCGAGCGCAGCGCAGCCTTGCTCGATCTCAAGGCTCCCTGGCGGCAGTGGGCGGTGGAGTTGCTGGAGATCTGCCAGCAAGGCGTAGCCAATAAAACCGTCGACGGGCGCAAGATGCAGGCTCGTTACTTCGAGCCATGGTTTCAGAAGCTATCTGCATGGGTTGAAGACGAGAGCCTGGAGTTGCTCGACATCGGCACCGGCTTCACGCGCTTGACGCCCGAAGGCATGGCCGAGGCCTGGAAGGGCGACGTGCCCAGCCACCCAGGGCTGGACGCCATGGCGGGCCTGAAGGCCGGCCTGGATGCCTTGCCCACGCCCGACGCTGCGGTGCTGCAGCATGCTGCGCAGTGGGTCGGGGCGCGCTTCGAGGCGGAGAAGCGGCGCCGGGCGGAAATGGGATTCGACGACATGCTGCTGCGCCTGGACGCAGCTTTGCAGGCTGAAGGTGGGGAGCGCCTGGCGAGCCTGATTCGCGAGCAGTTTCCGGTTGCGCTGATTGACGAGTTCCAGGACACCGACCCGGTCCAGTACCGCATCTTCGAGAGCATCTATCGCATTGGCGACAACGATCCTGAAACGGGGCTGTTCCTGATCGGGGATCCGAAACAGGCCATTTATGCGTTTCGCGGCGCCGACATCTACACCTATCTGCGCGCCCGCGAAGCCACTGCCGGCAGGTTGCATACGCTGGGGACCAATTTCCGTTCCAGCCATGCCATGGTCGGCGCTGTGAACCATATTTTTCAATACGCCGAATCGCGGCTGAATGGGCGCGGGGCTTTTCTGTTCCGCGAGCCATCGGGTGAGAATCCGGTGCCATTCCTGCCGGTCGACTCCCAGGGCCGCAAGGAGTCCTTGCAGCTTGCGGGGCGGACGGTCGCGGCCTTGAATATCTGGCATCTGGCCTCGGACCAGCCGCTCTCCGGAGCGGTGTACCGACAGCAAATGGCCGTGGCCTGCGCCAGTGAAATCACGGCGCTGCTCAATGGCGGCCAGTCAGGGCACGATGGCTTCGTTGGTGATGGGGAAATGTTACGGGGGCTTCGACCGGCGGATATCGCCATCCTGGTGCGTGATGGCAAGGAAGCGCAGGCCGTGCGAAACGAGTTGTCGGCACGGGGTGTGCGCAGCGTTTATCTATCCGATAAGGACTCGGTCTTCGCCTCGCAGGAGGCAAGGGATTTGCTGGCCTGGCTCAAGGCTTGCGCCGAGCCGGACGTCGAGCGGCCGCTGCGAGCTGCGCTGGCCAGCGTCACCCTGAATCTGCCGCTTGCAGAACTGGAGCGCCTCAACCAGGACGAGTTGGCCTGGGAACGTCGAGTCATGCAGTTCCGTAGCTATCGGGTGGTCTGGCGCACCCAGGGCGTGCTGCCCATGCTGAGGCGCCTGCTGCATGACTTCAAGCTGCCCCAGGCCTTGATGATGCGTGGCGATGGCGAGCGGGTGCTGACCAACCTGTTGCATCTATGCGAGCTGTTACAGCAGGCCGCCGTCGAGCTGGATGGCGAGCAGGCCTTGATTCGCTATCTGTCCGAACACCTTGCATTGACCGGGCAGGCGGGAGAGGAACAGATCCTGCGCCTGGAAAGCGACGAGCAACTGGTCAAGGTGGTCACGATCCATAAATCCAAGGGGCTTGAGTATCCGTTGGTTTTCCTGCCGTTCATATGCTCGACGAAACCGGTGGACGGCACCCGATTGCCGTTGCATTACCACGATGAAGCCGGTCATGCGCAGATCAGTCTTACGCCCAGCCCCGAGTTGATCGCCAAGGCCGACGACGAGCGCCTGGCCGAGGATCTTCGGCTTCTATACGTGGCGCTTACCCGTGCGCAGCATGCCTGCTGGTTAGGTGTGGCCGATCTCAAGCGAGGCAGTAACAGCCGCTCGATCCTGCATCTGTCTGCGCTGGGGTATCTGTTGGGCGGTGGTGCGCCGTTGACCGAGTCGGTGGCGTTGAGACGTTGGCTGGAAGATCTGCAGCAGGGGAGCGACGCGGTGAGCTGCCAGGATATGCCGGAGGCCAACGATCAGCACTATCGACCCCCACGTAATGATGCGGTGTTGCTTGAACCCTTGCTTCCGGTACGTAAAGCCAGCGAGAACTGGTGGATCGCTTCGTACAGCGCGCTGCGCTTTGGAGAAAGTCTCAGCGCCGGCACCGATTCCGCGCCGGAAAACCCACAGGCGCAGAAAATGTTCGACGACGAACGGCTTGATCCTGACGCTCCCAGGGAAGTCATCGCCGTCGGCGGTGATATCCATCGTTTCCCCCGCGGTCCCAACCCCGGTACGTTTCTCCATGGTCTCTTGGAATGGGCTGCCGGAGAGGGATTTACCGCCTCGCCAATGGCCCTCGAAGATGCCATCGCGCGACGTTGCAACCGCCGCGGCTGGAAAGGCTGGATCAGCACCCTTGGAGACTGGTTGCAGCACCTGGTCACGACGCCCTTGCAGATCGGTGGCGGACAGTCTCCGGTGGTACTGGCTCAGTTGAGCCAATTTCAGGTCGAGATGGAGTTCTGGTTCTCCAGTCACAAGGTTGATGTGCTCAAGCTTGATGAGCTGGTTTGCCAGTCAACCCACGGTGGCGTGGCTCGTGTCGCCGCAGAACCGGCACTGCTCAACGGAATGTTCAAGGGCTTCATCGACCTGACCTTCGAGCATGACGGCCGGTATTACGTGGCTGACTACAAATCCAACTGGCTGGGCGCCGATGACATGGCCTACACCGCTCAAGCCATGGAGCAATCGATTCTGGATAATCGTTACGACCTGCAATACACGCTGTACCTGTTGGCCCTGCATCGCCAGCTCAAGGCGCGCCTGCCAGACTATGACTACGACCGGCATGTCGGTGGCGCGTTGTATCTTTTCCTGCGCGGCACACGTGCAGCCAGCCAGGGCGTGTTTTTCACCAAGCCCCCTCGGGCACTGATCGAACAGCTTGACCGCCTGTTCCAGGGAGCACCCGCGCCCAAGGCCGAGCCGGCATGGGTACAAGGAGAATTGTTATGA	MSRQTPLALAFPLRGSQLIEASAGTGKTFTISALYLRLVLGHGGSTAGFGRELLPPQILVVTFTDAATKELRERIRTRLAEAARFFRDEIPAPDALINALRDEFDKGQWPGCANRLDIAAQWMDEAAVSTIHSWCQRMLREHAFDSGSLFTQTLETDHSELLGEVLRDYWRLFCYSMEGEALDWVRAHWGGPAALLPRVRGLFANSRGGDDGLEPTELITASLRERSAALLDLKAPWRQWAVELLEICQQGVANKTVDGRKMQARYFEPWFQKLSAWVEDESLELLDIGTGFTRLTPEGMAEAWKGDVPSHPGLDAMAGLKAGLDALPTPDAAVLQHAAQWVGARFEAEKRRRAEMGFDDMLLRLDAALQAEGGERLASLIREQFPVALIDEFQDTDPVQYRIFESIYRIGDNDPETGLFLIGDPKQAIYAFRGADIYTYLRAREATAGRLHTLGTNFRSSHAMVGAVNHIFQYAESRLNGRGAFLFREPSGENPVPFLPVDSQGRKESLQLAGRTVAALNIWHLASDQPLSGAVYRQQMAVACASEITALLNGGQSGHDGFVGDGEMLRGLRPADIAILVRDGKEAQAVRNELSARGVRSVYLSDKDSVFASQEARDLLAWLKACAEPDVERPLRAALASVTLNLPLAELERLNQDELAWERRVMQFRSYRVVWRTQGVLPMLRRLLHDFKLPQALMMRGDGERVLTNLLHLCELLQQAAVELDGEQALIRYLSEHLALTGQAGEEQILRLESDEQLVKVVTIHKSKGLEYPLVFLPFICSTKPVDGTRLPLHYHDEAGHAQISLTPSPELIAKADDERLAEDLRLLYVALTRAQHACWLGVADLKRGSNSRSILHLSALGYLLGGGAPLTESVALRRWLEDLQQGSDAVSCQDMPEANDQHYRPPRNDAVLLEPLLPVRKASENWWIASYSALRFGESLSAGTDSAPENPQAQKMFDDERLDPDAPREVIAVGGDIHRFPRGPNPGTFLHGLLEWAAGEGFTASPMALEDAIARRCNRRGWKGWISTLGDWLQHLVTTPLQIGGGQSPVVLAQLSQFQVEMEFWFSSHKVDVLKLDELVCQSTHGGVARVAAEPALLNGMFKGFIDLTFEHDGRYYVADYKSNWLGADDMAYTAQAMEQSILDNRYDLQYTLYLLALHRQLKARLPDYDYDRHVGGALYLFLRGTRAASQGVFFTKPPRALIEQLDRLFQGAPAPKAEPAWVQGELL				NA	NA	NA	NA	NA
D1-35_01091	2097	recD	COG0507	RecBCD enzyme subunit RecD	ATGAGTCGCTCCTTTGCCGACCTGCTGCCTAAATCGCTCGACGACGAAGGGCTGGTCGACCTGGCGCCCCTGAGTCGTGCAGAGGACCTGCTGCTGTTGCTCACGCGCTGGGTTGAACGTGGCTGGTTGCGGGCCTTGGACAAGGCATTCGTGGTGTTCCTCCATGAATTGTCGCCTGGCGATGATCCGCTGGTATTGCTGGCGGCTGCGCTGACCAGCCACCAACTGGGCCATGGGCATGTTTGCCTGGACCTGTTCGAGACACTCAAGGAACCTGATTTCGCCCTGTCACTGCCCCCCGAGGGCGACCTGCAGACGGGCGTGATGCTGTTGCCTTCGCAGATCCTGAGAACGCTGGACGGTGCCCATTGGTGCAAGGTCCTGGCGTCCAGCCGCCTCGTGGCCCTGGCGGTCGATGACAGCGAAGAGGCGCAGCAGCGGCCACTGGTATTGTCCGGCAAACGGCTTTACCTGCGTCGTTACTGGGGCTATGAACGACGGATCGACGCGGCGTTGCGTCAACGCCTGGCCGAACAGGAAAGCGCCCCTGATGACCTGCGCGAGCGGCTGGACGGACTGTTCGGGCCGGCCAGCACTACCGGCCCGATCGACTGGCAGAAGCTGGCTTGCGCGCTGGCGACGCGGAGCGCGTTCAGCATCGTTACCGGCGGCCCGGGCACGGGTAAGACCACCACGGTCGTGCGCTTGCTTGCCTTGTTGCAGGCACCTGCCGTCGAGGCGGGGAAACCGCTGCGGATTCGCCTGGCCGCACCCACCGGCAAAGCCGCTGCGCGGCTGACCGAGTCGATCAGCCAGCAAGTTCGGACGCTGGATGTGATCGACTCCGTACGCGAGCGAATTCCCTGCGACGTCACCACGGTGCATCGCCTGCTCGGCAGTCGTCCCAGCACCCGACATTTTCGCCACCATCGTGGCAATCGATTGCCGTTGGATGTGCTAGTGGTCGATGAGGCGTCCATGATCGATCTGGAAATGATGGCCAATCTGCTGGACGCGCTGCCGTCCCATGCGCGGTTGATTTTGTTGGGCGACAAGGACCAGCTGGCTTCCGTGGAGGCCGGCGCGGTATTGGGGGATCTGTGTCGGGACGCCGAGGACGGCTGGTATAGCCCACAGACGCGCGCCTGGCTCGAGTCCGTCAGTGGCGAGAGCCTGGCGGCGAGCGATCTGAAACAGGACCTCGACGACACTCATCCCCTCGCGCAGCAAGTGGTGATGCTCAGGCATTCCCGACGCTTTGGCGAAGGCAGCGGTATCGGCCAACTGGCCCGACGGGTCAATCGCCAGCAGCCTGAAGAAGCTCGTCAGTTGCTAGAGGAGGGCCAATATGCCGACCTGTTCTCCCTGGCGCTGAAGAGCCAGCACGACGGGACGCTCGAGCGCTGGTTGCTCGATGGTCGACCCGGTGGTCCGCAGGGCTATCGGCATTATCTGAGCCTGCTGCGACAGCGACGTCCGGACATTTCTCGCCCGCTGGAGGACAGTTGCTGGACTGATTGGGCGCGTGAGGTCTTGTCGGCCTTTGACGAGTTCCAATTGCTCTGTGCCGTACGCAAGGGGCCGTGGGGCGTCGAGGGCCTGAACCCGAGAATCACCGCCGCGCTGCTCAAGGCTCGCCTGATCGATAGCGATCACCAGTGGTACGAGGGGCGTCCGGTACTGATGACTCGCAACGACTACGGGCTGGGATTGATGAACGGCGATATCGGGATCGCTCTCAAGTTGCCCGAGCGTGACGGTCCTGACGCTGGCAAGCAGGTCCTGCGGGTCGCCTTTCCTCGTAACGATGGCCGGGGTGGTGTGCGTTTCGTCCTGCCCAGCCGCCTGAATGACGTGGAAACCGTTTACGCCATGACGGTGCACAAGTCCCAGGGGTCGGAATTCACCCACACGGCCCTGATTCTTCCGGATGCCTTGAACCCCGTTTTGACCAAGGAACTGGTGTATACCGCCATTACCCGAGGCAAGCAGTGGTTCAGCCTGATAGAGCCGCGCACGGGAATATTCGAAGAAGCGGTTCGGCGCAAGGTCAGGCGTTTGAGCGGGTTGATGCTCGAATTGGATGGAAACGACTGA	MSRSFADLLPKSLDDEGLVDLAPLSRAEDLLLLLTRWVERGWLRALDKAFVVFLHELSPGDDPLVLLAAALTSHQLGHGHVCLDLFETLKEPDFALSLPPEGDLQTGVMLLPSQILRTLDGAHWCKVLASSRLVALAVDDSEEAQQRPLVLSGKRLYLRRYWGYERRIDAALRQRLAEQESAPDDLRERLDGLFGPASTTGPIDWQKLACALATRSAFSIVTGGPGTGKTTTVVRLLALLQAPAVEAGKPLRIRLAAPTGKAAARLTESISQQVRTLDVIDSVRERIPCDVTTVHRLLGSRPSTRHFRHHRGNRLPLDVLVVDEASMIDLEMMANLLDALPSHARLILLGDKDQLASVEAGAVLGDLCRDAEDGWYSPQTRAWLESVSGESLAASDLKQDLDDTHPLAQQVVMLRHSRRFGEGSGIGQLARRVNRQQPEEARQLLEEGQYADLFSLALKSQHDGTLERWLLDGRPGGPQGYRHYLSLLRQRRPDISRPLEDSCWTDWAREVLSAFDEFQLLCAVRKGPWGVEGLNPRITAALLKARLIDSDHQWYEGRPVLMTRNDYGLGLMNGDIGIALKLPERDGPDAGKQVLRVAFPRNDGRGGVRFVLPSRLNDVETVYAMTVHKSQGSEFTHTALILPDALNPVLTKELVYTAITRGKQWFSLIEPRTGIFEEAVRRKVRRLSGLMLELDGND				NA	NA	NA	NA	NA
D1-35_01092	576			hypothetical protein	ATGGAAGCGGCGGTTCGGGGGGCGGCGCGCGGAAACGGCCGGAGGCATTATGCGCTCGCCGGTCTGCTGTGCTTGCTGTCGCCTGCAATTGCCGCCCAGGAGCCGACCTCTACCACTCGGGCCGAACAGCGGGCCGAAGCGGTCACCCAGGTCGTGTTGGGGATCCTCAGCTACGCTCGCTGGCCTGTTGAACCGACGCAATTGCAGCTGTGCATCGTCGGTCCGACGCAATACACGGACGACCTGGTCAAAGGCACCGCCCAGGCCACCGGCAGGCCTGTGACGGTACAGCGCTTGCTGGCCGATCATCCCGGCATTGCGAACGATTGCAATGCCGTCTACATCGGCCGGCTGACCAACGACGAACGTTCCCGATTGTTTGCGTCCCTGATCGGCAAACCGGTGTTGAGCATCAGCGAAGGCGGCGACCAATGCACCGTGGGCAGCCTGTTCTGCCTGCGGGTCGGAGATGAACAGGTGTCGTTCGAGGTCAACCTCGACTCGGTGGCACGCAGCGGTGTACGCATCCATCCGAGCGTCCTCCAGCTGTCACGCCGTAGGCCCGCCGCGCCATGA	MEAAVRGAARGNGRRHYALAGLLCLLSPAIAAQEPTSTTRAEQRAEAVTQVVLGILSYARWPVEPTQLQLCIVGPTQYTDDLVKGTAQATGRPVTVQRLLADHPGIANDCNAVYIGRLTNDERSRLFASLIGKPVLSISEGGDQCTVGSLFCLRVGDEQVSFEVNLDSVARSGVRIHPSVLQLSRRRPAAP				NA	NA	NA	NA	NA
D1-35_01093	1269	dgcN	COG2199	Diguanylate cyclase DgcN	ATGAATTCGTCCAGATCACGAATTCGTCCCACGTTGGGCTCGGTCATCGGTCGCGGTCACCTGATCGTTGCGCTGGTGGCGATCACCATGGCCAGCGTCTCCCTGACCTTGTTGGGCGTGCTTGCCTTACGGGTCTATGCCGATCACAACTTGCATCTGATTGCCCGTTCGATCAGCTACACCGTGGAGGCGGCCGTGGTCTTCGATGACGCTGCGGCGGCCACCGAAGCGCTGGCCCTTATTGCTTCCACTGAAGAAGTCGCCGATGCCCAGGTCTTCAATGAAAGTGGCCGCCTGTTGGCGCATTGGCGGCGACCGGAAACCGGTCTTCTGTCGGAGCTGGAAATGCACATCGCCAAGGCATTCCTGGAAAAGCCCATCAGCCTGCCAATCATCCACCAGGAACAGAACATCGGCAGGATCCTGCTGGCAGGACACGGCGGTAGCCTGTTGCGTTTTCTGCTCAGCGGCCTGGCCGGGATCATCCTGTGCACGGCGGTCAGTGCCTGGGTCGCCCTGTATCTGGCGCGCCGTCAGCTGCGGGCGATTACCGGACCTTTGCGTAGCCTGGCTGAAGTAGCCCACGCCGCCCGTTGCGAGCGCGCCCTGGACCGCCGAGTGCCACCGGCCGATATCGCCGAACTGGATAATCTGGGCAACGACTTCAACGCACTGCTTGCCGAGCTGGAATCCTGGCAGACCCATCTGCAAAGTGAAAACGAGACCCTGGCTCACCAGGCCAGCCACGACAGCCTGACCGGGCTGCCGAACCGGGCCTTTTTCGAAGGTCGGCTGATCCGTGCCTTGCGCAATGCCAACAAGCTCGACGAGCAAGTGGCCGTCCTCTACCTGGACAGCGATCGCTTCAAGGGCATCAACGACAACTTTGGTCATGCCGCCGGTGACGCGGTGTTGACCGCCGTGGCGACCCGGGTCCGGGCGCAGTTGCGTGAGGATGACTTGGTCGCGCGTCTGGGCGGTGACGAGTTTGCCGTGCTGCTGGCGCCGTTGCACAAGACCGAGGATGCCGAACGGATCGCTGAAAAAATCATCGCCAGCATGGAGATGCCGATTCAATTGCCCGGCAATGCCTCGGTCCTGACGTCCCTCAGCATCGGCATCGCCGTTTACCCCGATCATGGCGCCACGCCCGGCGCCTTGCTCAGCGCCGCTGATGCGGCGATGTACCAGGCCAAACGCCTCGCCCGAGGCGGCCAACACACGGCGGGGTCGGAGCACCCGGTCGCGGATCTTCAAACCAGGAGCTGA	MNSSRSRIRPTLGSVIGRGHLIVALVAITMASVSLTLLGVLALRVYADHNLHLIARSISYTVEAAVVFDDAAAATEALALIASTEEVADAQVFNESGRLLAHWRRPETGLLSELEMHIAKAFLEKPISLPIIHQEQNIGRILLAGHGGSLLRFLLSGLAGIILCTAVSAWVALYLARRQLRAITGPLRSLAEVAHAARCERALDRRVPPADIAELDNLGNDFNALLAELESWQTHLQSENETLAHQASHDSLTGLPNRAFFEGRLIRALRNANKLDEQVAVLYLDSDRFKGINDNFGHAAGDAVLTAVATRVRAQLREDDLVARLGGDEFAVLLAPLHKTEDAERIAEKIIASMEMPIQLPGNASVLTSLSIGIAVYPDHGATPGALLSAADAAMYQAKRLARGGQHTAGSEHPVADLQTRS	PGPT0026000_234	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0026000-tpbB-K21021	NA	NA
D1-35_01094	504	pal_4		Peptidoglycan-associated lipoprotein	ATGTTTTCCAATTCGCGTTTTTCTCTGCTGCGTTATGCAGCATTTTTGTTCATCGCCATTTTTGCCCTCAGCGGATGCCAGACGACGCCGCAAAAAGGACTGAGCCCAGCGCAGATCGCTGTTCTCAAGGAGCAGGGGTTCAAACTGACAGACGACGGCTGGGCCTTCGGACTTTCGGGCAAAGTGCTGTTTGGCAGTGACGTGGAAAGCCTCAACCCGGCCAGTACCGAGATCGTCGAGCGGATCGGCAAGGCACTGCTGGGTGCGGGAATCGAGCGGGTACGTATCGACGGTCACACCGATGCATCGGGCTCCCAGGCCTATAACGAACAACTGTCGATACGTCGGGCCGAAAGCGTTGGCAAAGTCTTGAGAGGCGTGGGCATGCGCGAAGAGAACGTCCAGTTGCGCGGCCTTGGCAGCAGCCAACCCGTCGCCCCCAACGACACCGCCAGCGGGCGCACCGAAAATCGTCGCGTGGCCATCGTGGTCATCGCCGACTAA	MFSNSRFSLLRYAAFLFIAIFALSGCQTTPQKGLSPAQIAVLKEQGFKLTDDGWAFGLSGKVLFGSDVESLNPASTEIVERIGKALLGAGIERVRIDGHTDASGSQAYNEQLSIRRAESVGKVLRGVGMREENVQLRGLGSSQPVAPNDTASGRTENRRVAIVVIAD				NA	NA	NA	NA	NA
D1-35_01095	948	hdfR_4		HTH-type transcriptional regulator HdfR	ATGCAAAAAAACATCACCTCCTTAGGGTCGCTGAATTGGGACGACCTCAAGTTTTTCCTCGAAGTGGCCCGCACCCGCAAGGCCAGCACGGCCGCCAAGCGTCTGGCCGTCGACTACACCACGGTGTCGCGACGCATCAGCTCGCTGGAAGCTTCCTTGGGTACGCTGCTGTTCGAAAAATCCCGGACCAACGGTTTTGTCCTGACGGCTGAAGGCCAACGTTTACTGGGCTATGCCGAGTCGATCGAAAGCACGCTGCACATGGCTTGCGAACAAGTTTCAGGCTCAGGCGTCGCGCTGTCCGGTCATGTACGCATGGGCTGTACGGAAGGCTTCGGCAGCTTTTTCATCACCCCGCAGTTGAGCCATTTCGTCGACGCCTACCCGGCGATCTCGGTGGACATCCTGCCGCTGCCGCACTTCATCAGCCTCTCCAAGCGCGAAGCCGATATCGTCATCGCCCTCGAGCGCCCCGAACATGGGCCGTATGTGTGCTGCAAACTCTGCGACTACCGATTGCAGCTTTATGCAACCCGGCAATACCTGGACAACCACCCACCCATCCACCGCCCGGCAGACCTGAACAAGCATTCGTTCATCAGCTATGTGGATGACCTGGCGTTCAGTTCCGAGCTGCTCTACCTGGCCAACGTATTGCCCGGCGCCCACGCTCATCTGCGCAGCACCAGCGTGATCGCCCAATTCGTGGCGGCGCAACAAGGCCGGTCACTGGCGATCCTGCCGTGCTTTTTGGCCGCCCAAGACCCACGCCTGCTGCCGGTGCTGCCGGAGGAAATCACGGTCACCCGGCAATTCTGGATGTACTGCCGGGAGGATCTGCGCAAGCTCAAGCGGATTACGTTGTTGTGGGATTACATCCGCGAAGTCACCGAACAGAACCAGCCACTACTCATGGGCGACAGCCGGGAGATGGTGTTTGCCGATTAG	MQKNITSLGSLNWDDLKFFLEVARTRKASTAAKRLAVDYTTVSRRISSLEASLGTLLFEKSRTNGFVLTAEGQRLLGYAESIESTLHMACEQVSGSGVALSGHVRMGCTEGFGSFFITPQLSHFVDAYPAISVDILPLPHFISLSKREADIVIALERPEHGPYVCCKLCDYRLQLYATRQYLDNHPPIHRPADLNKHSFISYVDDLAFSSELLYLANVLPGAHAHLRSTSVIAQFVAAQQGRSLAILPCFLAAQDPRLLPVLPEEITVTRQFWMYCREDLRKLKRITLLWDYIREVTEQNQPLLMGDSREMVFAD				NA	NA	NA	NA	NA
D1-35_01096	1527	mmsA	COG1012	Methylmalonate-semialdehyde dehydrogenase [acylating]	ATGAACGTTTCCCTTACGCCCAGCGACACAGCCCTGCAAACCGTCAGATTGCTGATCGATGGCGAGTGGGTCGAGTCCCAATCCAGCGAATGGCACGACATCGTCAACCCGGCCACCCAACAAGTGCTGGCGAAGGTACCGTTTGCCACCGCGTCGGAAGTCGATGCCGCCATCGCTGCTGCCCAGCGTGCTTTCCAGACCTGGAAGCTGACACCGATTGGTGCGCGGATGCGCATCATGCTCAAGCTCCAGGCGCTGATCCGCGAGCATTCCAAGCGCATCGCCGCGGTGCTCAGTGCCGAACAGGGCAAGACCATCGCCGACGCCGAAGGCGATATTTTCCGCGGCCTGGAAGTGGTCGAGCACGCCTGTTCCATCGGCACCCTGCAAATGGGCGAGTTTGCCGAGAATGTCGCCGGTGGGGTGGATACCTATACCTTGCGCCAGCCGATTGGTGTGTGCGCGGGTATTACCCCGTTCAATTTTCCGGCGATGATCCCGCTGTGGATGTTCCCGATGGCCATCGCCTGCGGCAATACGTTCGTCCTCAAGCCGTCGGAGCAGGATCCGCTGTCGACCATGCTGCTGGTGGAGCTGGCCATCGAGGCCGGTGTGCCGCCGGGCGTGTTGAACGTGGTGCACGGCGGCAAGGATGTGGTGGATGCGCTTTGCACTCACAAGGACATCAAGGCCGTTTCCTTCGTCGGCTCAACGGCGGTCGGCACCCATGTGTATGACCTGGCGGGTCGCCATGGCAAACGCGTGCAATCGATGATGGGCGCCAAGAACCACGCCGTGGTGCTGCCCGACGCCAATCGCGAGCAAACCCTGAACGCCCTGGTCGGTGCCGGTTTCGGCGCGGCGGGCCAGCGTTGCATGGCGACTTCGGTGGTGGTGATGGTGGGCGCGGCCAGGCAATGGTTGCCGGAGCTGAAGGCGCTGGCGCAGAAACTCAAGGTCAATGCCGGCAGCGAGCCGGGCACGGATGTCGGCCCGGTGATTTCCAAGCGAGCCAAGGCGCGCATCCTTGAACTGATCGAGAGCGGCGTGCAGCAAGGCGCAAAACTTGAACTGGATGGCCGCGACATCAGCGTGCCGGGCTTCGAGCAGGGCAACTTCGTCGGTCCGACCCTGTTTTCCGGCGTAACCACCGACATGCGCATCTACACCGAGGAAATTTTCGGCCCGGTGCTGGTGGTGCTGGAGGTCGATACCCTCGATCAAGCGATCGCCCTGGTCAACGCCAATCCGTTTGGCAACGGCACTGGCCTGTTCACCCAGAGCGGTGCGGCGGCGCGCAAATTCCAGAGCGAAATCGACGTCGGCCAGGTCGGTATCAACATCCCGATCCCGGTGCCGGTGCCGTTTTTCAGCTTCACTGGCTCCCGCGGCTCGAAACTCGGCGACCTCGGCCCTTACGGCAAACAAGTGGTGCAGTTCTACACTCAGACCAAGACCGTCACCGCGCGCTGGTTCGACGATGACAGCGTCAACGACGGTGTGAACACCACCATCAACTTGCGTTAA	MNVSLTPSDTALQTVRLLIDGEWVESQSSEWHDIVNPATQQVLAKVPFATASEVDAAIAAAQRAFQTWKLTPIGARMRIMLKLQALIREHSKRIAAVLSAEQGKTIADAEGDIFRGLEVVEHACSIGTLQMGEFAENVAGGVDTYTLRQPIGVCAGITPFNFPAMIPLWMFPMAIACGNTFVLKPSEQDPLSTMLLVELAIEAGVPPGVLNVVHGGKDVVDALCTHKDIKAVSFVGSTAVGTHVYDLAGRHGKRVQSMMGAKNHAVVLPDANREQTLNALVGAGFGAAGQRCMATSVVVMVGAARQWLPELKALAQKLKVNAGSEPGTDVGPVISKRAKARILELIESGVQQGAKLELDGRDISVPGFEQGNFVGPTLFSGVTTDMRIYTEEIFGPVLVVLEVDTLDQAIALVNANPFGNGTGLFTQSGAAARKFQSEIDVGQVGINIPIPVPVPFFSFTGSRGSKLGDLGPYGKQVVQFYTQTKTVTARWFDDDSVNDGVNTTINLR	PGPT0002295_909	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
D1-35_01097	888	mmsB	COG2084	3-hydroxyisobutyrate dehydrogenase	ATGAACATCGCATTTATCGGCCTCGGCAACATGGGCGCCCCGATGGCGCGCAATCTGCTCAAAGCCGGCCATTCGCTGAACCTGTTCGACCTGAACCAGACGGTGCTGGCCGAACTGGCGGCGCTCGGCGGCACCATCAGCGCCTCGCCTCGCGATGCGGCCCAGGGCGCGGCGCTGGTGATCACCATGCTGCCGGCCGCTGCCCATGTGCGCAGTGTCTGGCTGGGCGAAGACGGCGTGCTGGCAGGTATCGCCGCCGGCACGCCGGCGGTGGATTGCAGCACCATCGATCCACAAACCGCCCGTGACGTGGCGGCTGCCGCTGCCAGGCAGGGAGTGGCAATGGCCGATGCGCCTGTCTCGGGCGGCACCGGCGGCGCGGCGGCGGGCACCCTGACCTTCATGGTCGGCGCCACGCCTGAGCTGTTCGCCACCCTGCAACTGGTACTAGCGCAAATGGGCCGCAACATCGTGCATTGCGGCGAAGTCGGCACCGGGCAGATCGCCAAGATCTGCAACAACCTGCTCTTGGGGATTTCCATGGTCGGCGTCAGCGAGGCCATGGCTTTGGGCGATGCCCTGGGAATCGACACTCAGGTGCTGGCCGGCATCATCAACAGTTCGACCGGCCGATGCTGGAGTTCCGATACCTACAACCCATGGCCCGGCGTGATCGAAACGGCCCCGGCGGCGCGTGGATATACCGGCGGGTTTGGCGCGGACCTGATGCTCAAGGATTTGGGCCTGGCCACCGAAGCCGCGCGGCAGGCCCGCCAGCCGGTGATACTGGGGGCAGTGGCGCAGCAGTTGTACCAGGCGATGAGCCAGCGGGGCGAGGGCGGCAAGGATTTCTCGGCGATTGTGAACAGCTATCGCAAGCCGCAGTGA	MNIAFIGLGNMGAPMARNLLKAGHSLNLFDLNQTVLAELAALGGTISASPRDAAQGAALVITMLPAAAHVRSVWLGEDGVLAGIAAGTPAVDCSTIDPQTARDVAAAAARQGVAMADAPVSGGTGGAAAGTLTFMVGATPELFATLQLVLAQMGRNIVHCGEVGTGQIAKICNNLLLGISMVGVSEAMALGDALGIDTQVLAGIINSSTGRCWSSDTYNPWPGVIETAPAARGYTGGFGADLMLKDLGLATEAARQARQPVILGAVAQQLYQAMSQRGEGGKDFSAIVNSYRKPQ	PGPT0018170_529	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
D1-35_01098	345			hypothetical protein	ATGACCGCCCCCATCACCGTCCTGCGCGATACCCATCCGCTGCCCGTACTCGATGCCTGCAAATGGGAAAAACTCGAAGGCGACCCGCACACCGTCAACCTCAACGCTTATACCAGCGAGGACGGCAGCAAGATCATGGGGACCTGGATCTGCACGCCCGGCAAGTGGCGGGTGGACTACGTGAAGTGGGAATACTGCCATTTCCAGGAAGGCTACTGCGTGATCACCCCGGACGGCATGGCACCGATTCATCTGCGCGCCGGTGATATTTTTGTCGTCGAACCAGGCATGAAAGGCACTTGGGAAGTGGTCGAGACCGTGCGTAAATATTTCGTGTTTGCCTGA	MTAPITVLRDTHPLPVLDACKWEKLEGDPHTVNLNAYTSEDGSKIMGTWICTPGKWRVDYVKWEYCHFQEGYCVITPDGMAPIHLRAGDIFVVEPGMKGTWEVVETVRKYFVFA				NA	NA	NA	NA	NA
D1-35_01099	882	cysL	COG0583	HTH-type transcriptional regulator CysL	ATGCACTTCGATCTCACCGACCTGCGCCTCTACCTGAACATCCTCGACACCGGCAACATCACCGCCGGCGCCGCTCGCAGCCATCTTTCCCTGGCAGCGGCAAGCGCCCGGGTGCGTGCCATGGAGGCGTCCCTGGGCATCGACCTGCTCGAACGCGGGCGGCGCGGCGTCACTCCGACGCCGGCCGGCAAAGCCTTGGCCCAGCACGCCCGGGTCTTGCTGCAGCACGCCGAACATCTGCAACAGGACCTGGCCGAATACGCCAAAGGCGTCAAAGGCCAGGTGCGGCTGCTGTGCAACACCAGCGCGATGACCGAATACCTGCCCGAATTACTCGCCAGTTTCCTCAATAGCCACCCCAACCTGGACATCGACCAGCAGGAATTGCCCAGCTCACGGATCACCCATGCGTTGCGCCAAGGCGCCGCAGACCTGGGTATCGTTTCCGACGCGGTGGACACCGCTGGCCTTCAGACCTGGCCTTTTCGTGACGATCCGCTGGTCCTGATCCTACCTTCGGGACATCCCTTGGCTGACGGCCGCACGCCGAGTTTCAGCGAGACCCTCAACCACGACTATGTCGGCCTGAACGCCACCAGCGCGCTGGCGATTTACCTGGAGGAACAGGCGCTGCACACCGGAATGCGCATGCAGATCCGCATTCGCGCCGAGGGCTTTGACGGGGTGATCCGCATGGTGGCCCATGGCGCGGGTATTGCCGTCGTGCCGAAAGCCGCTATCGAACGCCGTCCATCCCAATCCTCATATCACTACGTGCCGCTGCAGGAGGCCTGGGCACACCGGGCCCTGTTGCTTTGCGCACGGAATTTCGAACGGCTTCCGGCCTACGCCAAGGCCCTGGCCCGGCATCTGGCCGAATGA	MHFDLTDLRLYLNILDTGNITAGAARSHLSLAAASARVRAMEASLGIDLLERGRRGVTPTPAGKALAQHARVLLQHAEHLQQDLAEYAKGVKGQVRLLCNTSAMTEYLPELLASFLNSHPNLDIDQQELPSSRITHALRQGAADLGIVSDAVDTAGLQTWPFRDDPLVLILPSGHPLADGRTPSFSETLNHDYVGLNATSALAIYLEEQALHTGMRMQIRIRAEGFDGVIRMVAHGAGIAVVPKAAIERRPSQSSYHYVPLQEAWAHRALLLCARNFERLPAYAKALARHLAE				NA	NA	NA	NA	NA
D1-35_01100	765			hypothetical protein	ATGAACACACTCCTCGACTTCTATCAAAACCTCGGCCTGGCCCTTTCCTTGCTGGTCATCGGCACCTTTCTGCTGGCCGGTACCATAAAGGGCGTGATTGGCGTAGGCCTGCCGACCATCTCGATGGGGCTGCTCGGCCTGGCTATGGCACCGACGCAGGCTGCTGCGTTGTTGCTGATTCCAGCCACGCTGACCAACGTCTGGCAACTGGCATCTGGCGGGCATCTGCAAGCATTGATCCGGCGCTTGTGGCCGCTGCTGCTGGCGATTTTCATCGGCACCGGCCTTGGCACGTTGTGGATCGGCATGGTGGGTGGCGCCTGGGCAGTACGGGCGCTCGGCGCGGCGCTGGTGTTGTATGCGCTGAGCGGGTTGTTGATGCCGACGTTGCGAGTGAGCGCCCGGAACGAATACTGGCTTGCGCCACTCTGTGGCGTGCTGACCGGTGTGATCACCTCGGCCACTGGCGTGTTTGTCATCCCGGCGGTGCCTTATCTGCAAGCGCTGGGCTTGAGCAAGGATGAGTTGGTGCAGGCCCTCGGCCTGTCATTCACCGTCTCGACACTGGCCTTGGCGGCCGGCCTGCTGTGGCACGGTGCGCTGGGGGGCGGTGAACTGAGCGCTTCGCTGCTGGCGCTGGTGCCGGCGCTGCTGGGGATGTGGCTGGGGCAATGGCTGCGCCAGCGGATCAGCGCCGTGTTGTTCAAGCGGGTGTTTTTTATTGGCCTTGGTGTGCTCGGCGGCCATCTGTTGATCAGCGGCTAG	MNTLLDFYQNLGLALSLLVIGTFLLAGTIKGVIGVGLPTISMGLLGLAMAPTQAAALLLIPATLTNVWQLASGGHLQALIRRLWPLLLAIFIGTGLGTLWIGMVGGAWAVRALGAALVLYALSGLLMPTLRVSARNEYWLAPLCGVLTGVITSATGVFVIPAVPYLQALGLSKDELVQALGLSFTVSTLALAAGLLWHGALGGGELSASLLALVPALLGMWLGQWLRQRISAVLFKRVFFIGLGVLGGHLLISG				NA	NA	NA	NA	NA
D1-35_01101	315			hypothetical protein	ATGAGTGAATTGCACGGTTTCATCCTGCACGCCAAGACCCGCCCGGAAAAAGCCGAAGCCTTCGAAACGCTGTTTCGCGCCTACGTCGAACCGAGTCGTGCCGAGCCTGGCTGCATCGAATATCACATGCTGCGCGACCAGCAGGACCCGACGTTGTTCATCTTCTATGAGATCTGGGCATCCCAGGCTGACCTGGAAGTGCATTCGAGCCTGCCGCACATGAAGCAGTTCTTCGAGCAGCGCATGGACTATCTGGAACGCGACTTCGAGATTCGCCGCGTCGACATGCTCAGTCGATCCTCGGCTAGCCGCTGA	MSELHGFILHAKTRPEKAEAFETLFRAYVEPSRAEPGCIEYHMLRDQQDPTLFIFYEIWASQADLEVHSSLPHMKQFFEQRMDYLERDFEIRRVDMLSRSSASR				NA	NA	NA	NA	NA
D1-35_01102	591	mdaB	COG2249	NADPH:quinone oxidoreductase MdaB	ATGAAAAAAATCCTGTTGCTCAATGGCGGTAAACAATTCGCTCACTCCGACGGTCGCTATAACGCAACCCTGCACGACACTGCGCTCAGCGTGCTCGACCGTGGCGGCCTGGATGTAAAAACCACGTTCATCGACGGCGGCTACGACATCAAGGAAGAAGTCGCGAAATTCCTTTGGGCCGACGTGATCATTTACCAGATGCCCGGCTGGTGGATGGGTGCTCCCTGGACGGTAAAAAAATACATCGACGAGGTCTTCACCGAAGGCCACGGCAGCCTCTATGCCAGCGACGGCCGTACCCGTTCCGATGCTTCGCAGAAATATGGCAGCGGTGGCCTGGTGCAGGGCAAGCAGTACATGCTGTCGCTGACCTGGAACGCCCCGCAGCAAGCCTTCGACGACCCGACTGATTTCTTCGAAGCCAAGGGCGTGGACGCGGTGTATTTCCCGTTCCACAAGGCCAACCAGTTCCTGGGCATGACCGGTCTGCCAACGTTTCTCTGCGTGGACGTGATGAAGCGTCCGAACATCGAAGAAGATGTGGCGCGGTATGAGCGGCATTTGATTGAGGTGTTCGGTCTAAACGCATAG	MKKILLLNGGKQFAHSDGRYNATLHDTALSVLDRGGLDVKTTFIDGGYDIKEEVAKFLWADVIIYQMPGWWMGAPWTVKKYIDEVFTEGHGSLYASDGRTRSDASQKYGSGGLVQGKQYMLSLTWNAPQQAFDDPTDFFEAKGVDAVYFPFHKANQFLGMTGLPTFLCVDVMKRPNIEEDVARYERHLIEVFGLNA	PGPT0023600_231	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
D1-35_01103	912	dmlR_5		HTH-type transcriptional regulator DmlR	GTGAAAGCCAGATCCGACGAGTTGCAGATTTTTGTCTGCGTGATCGAATGCGGATCGATTTCCGCCGCCGCCGAGCAGGTCGGGCAGACGCCGTCGGCGGTCAGCCGTACGTTGTCGCGCCTGGAGGCCAAGCTCGACACCACGCTGATCAACCGCACCACGCGGCGCATGGACCTGACTGAAGAGGGCAAGTATTTCTTCGAGCAGGCCAAGGGCATTCTCGACCAGATGGACGAGCTGGAAGAGCGCTTGTCTTCCCGCCAGAAGAACCCCGCCGGGCGCTTGCGGATCAATGCCGCATCGCCGTTCATGCTGCACGCGATCGTTCCTCATATCGAAGAATTCCGCACGCTCTACCCCGACATTCAGCTCGAACTCAACAGCAACGACTTGATCATCGATCTGCTCGAGCAAAGCACAGACGTCGCCATCCGCATCGGCACCCTGACCGACTCGACGCTTCACGCACGGTCGCTGGGATGCAGTCCGTTGCACATCCTCGCCAGCCCGGCCTATCTCAAGCGGCATGGCACACCTTCCAGCGTTGCCGAGCTGGCGGAGCATTCGCTGCTGGGTTTTGCCCAGAACGACGGGCTCAACCAATGGCCGCTGCGCCACATCCACGGTGATCGCTGGCCGATCCAGCCGGCCATCAGCGCGTCCAGCGGCGAAACGGTGCGTCACCTGGCGCTGCAAGGGCAGGGCATCGCTTGCCTGTCGGATTTCATGACGCGCGACGATATCAGCGCCGGCCGCCTCAAGGTGCTGCTGGCCGATGCCAACAGCGGCTACCGCCAGCCGATCAACGCGGTGTACTACCGCAACTCTCAACTGGCGCTGAGGATCCAGTGCTTCCTGGACTTCATCCAAGGCAAGCTCGCCGGGTACGCATCGCGGGAATTCAACGGCTGA	MKARSDELQIFVCVIECGSISAAAEQVGQTPSAVSRTLSRLEAKLDTTLINRTTRRMDLTEEGKYFFEQAKGILDQMDELEERLSSRQKNPAGRLRINAASPFMLHAIVPHIEEFRTLYPDIQLELNSNDLIIDLLEQSTDVAIRIGTLTDSTLHARSLGCSPLHILASPAYLKRHGTPSSVAELAEHSLLGFAQNDGLNQWPLRHIHGDRWPIQPAISASSGETVRHLALQGQGIACLSDFMTRDDISAGRLKVLLADANSGYRQPINAVYYRNSQLALRIQCFLDFIQGKLAGYASREFNG				NA	NA	NA	NA	NA
D1-35_01104	894			hypothetical protein	ATGAAAGTATTTGTTACCGGCGCTGCCGGCTTCATCGGCGGTTCCATTGCTACCGGTCTCGTGCGGGCCGGCCATCAGGTCACTGGCCTGGTGCGCAACGCCGAACAAGCCGACGAGTTGAGCGCGCTGAGCATCACGCCGGTTATCGGCACCCTTGAAGACAGCGCGCTGCTGATCAAACAGGCACGAGCTGCTGATGCGGTGATCAACGCCGCCAGCAGCGATCATCGTGGCGCGGCCGAAGCGTTGGTCGAGGCGCTCAAGGGCTCGAACAAGGTGTTGCTGCATACCAGCGGTTCGAGCATCGTCGGCGACGCATCGGGCGGTCGTGCCAGCGATGACATCTACTACGAAGACTCCCTGCCGCAACCTACCGCCGACAAGGCGCCCCGTGTCGCGATCGACAACCTGATTCTCGGCTCGGCAAAGCATGGCGTGAACTCGGCGGTGATCTGCAACACGCTGATCTACGGTCACAGCCTGGGCGTCAAGCGTGACAGCGTGCAACTGCCGCGCCTCCTCAAGCAGGCACGCAAAAGCGGCGTGGTGCGGCATGTCGGACCGGGGCAGAACATCTGGTCCAATGTGCACATCGAGGACGTGGTCGAGTTGTACACGCTGGCCCTGACCCGCAACCAGCCTGGCACGTTCTACTTCGTCGAAAGCGGTGAAGCTTCGTTCATTGAAATGACCACCGCGATGGCTCAGGCGCTGAACCTGGGCGAACCGCAGGATTGGCCGCTGGCGGATGCCGAAGCCGAGTGGGGTTATGAAATGGCCAATTACGGCCTGGGCTCCAACAGCCGCGTGCGCGGCAAGAATGCCCGCGAGCTGTTGGGGTGGACGCCGAAGCGCACGTCGGTGGTGGCTTGGACTCTTGATGAGATGGTGTGA	MKVFVTGAAGFIGGSIATGLVRAGHQVTGLVRNAEQADELSALSITPVIGTLEDSALLIKQARAADAVINAASSDHRGAAEALVEALKGSNKVLLHTSGSSIVGDASGGRASDDIYYEDSLPQPTADKAPRVAIDNLILGSAKHGVNSAVICNTLIYGHSLGVKRDSVQLPRLLKQARKSGVVRHVGPGQNIWSNVHIEDVVELYTLALTRNQPGTFYFVESGEASFIEMTTAMAQALNLGEPQDWPLADAEAEWGYEMANYGLGSNSRVRGKNARELLGWTPKRTSVVAWTLDEMV				NA	NA	NA	NA	NA
D1-35_01105	1446	bicA	COG0659	Bicarbonate transporter BicA	ATGAAACCAGCTCGTCTTCGCGCCGACGCCCTCGCCGGCCTCACCACCTCTTTCGCCTTGCTCCCGGAATGCATTGCCTTCGCCCTGGTTGCGCATCTGAATCCGCTGATGGGTCTGTATGGCGCCTTCATCATCTGCACGTTGACAGCCCTGTTCGGCGGGCGGCCGGGCATGGTGTCGGGGGCGGCGGGATCGATGGCGGTGGTGATCGTCGCGCTGGTGGTGCAACACGGCGTGCAGTACCTGCTGGCCACGGTGCTGCTGGGCGGATTGATCATGATGGCGTTCGGGCTGCTGCGGCTGGGCAAGCTGGTGCGGATGGTGCCGCACCCGGTGATGCTCGGTTTCGTCAACGGCCTGGCGATCGTCATCGCGTTGGCGCAACTGGAGCACTTCAAGAGCGACGGAACCTGGCTGAGCGGCGCCCCGCTGTACCTGATGGCCGCCCTCGTGGCGTTGACCATGGCCATCGTCTATCTGCTGCCGCGCCTGACCCGTAGCGTACCGCCGGCCTTGGTGGCAATCCTCGGGATTGGCCTGGCGGTCTATTTGCTTGGCCTGCCGACCCGGACGCTGGGCGACATGGCGCACATCGCCGGTGGCTTGCCGGTCCTTACCCTGCCAGATATCCCCTGGAACCTGGAAACCCTGCTGATAATCGCGCCCTATGCGGTGGTCATGGCGATGGTCGGCCTGCTGGAAACGCTGCTGACCCTTAACCTCACCGACGAAATCACTGAGAGTCGTGGTTATCCGGACCGTGAGTGCGTGGCATTGGGCGCGGCAAACATGGCGTCCGGCCTGTTAGGCGGCATGGGCGGTTGCGCCATGATCGGCCAGACGGTGATCAACCTAAGCTCTGGCGGGCGCGGCCGGTTGTCCGGGGTGGTGGCTGGGGTGATGGTGTTGCTGTTCGTGCTGTTCCTTTCGCCCCTGATCGAGCGCATTCCGCTGGCCGCGCTGGTGGGCGTGATGTTCGTGGTCGCTCAGCAGACCTTTGCCTGGGCCTCGTTGCGGGTCATCAACAAGGTGCCGACCAATGATGTACTGGTGATCATCGCGGTCACCGTCATCACCGTGTTTACCGACCTGGCCGTCGCGGTCCTTTGCGGGATTATCATCGCGGCGCTCAACTTCGCCTGGCAACAGGCCCGGGAATTGTACGCCGACACGCACCTGGAAGCCGATGGCAGCAAGCTTTATCGGCTGCACGGCACGTTGTTCTTCGCCTCGACTACGCCGTTCCTCAACCAGTTCGACACGGCCAACGACCCCGACCTGGTGACCCTGGACTGCCGCCACTTGAGCTTCGTCGACTACTCGGCCATCGCCGCGCTGATGACCCTGCGCGAGCGCTACAGCAAGGCGGGCAAGCATCTGCGGGTGTTTCATCTGTCCGAGCGTTGCAAACAGATGCTCAAGCGCGCGGGCGTGCATCACGACTAA	MKPARLRADALAGLTTSFALLPECIAFALVAHLNPLMGLYGAFIICTLTALFGGRPGMVSGAAGSMAVVIVALVVQHGVQYLLATVLLGGLIMMAFGLLRLGKLVRMVPHPVMLGFVNGLAIVIALAQLEHFKSDGTWLSGAPLYLMAALVALTMAIVYLLPRLTRSVPPALVAILGIGLAVYLLGLPTRTLGDMAHIAGGLPVLTLPDIPWNLETLLIIAPYAVVMAMVGLLETLLTLNLTDEITESRGYPDRECVALGAANMASGLLGGMGGCAMIGQTVINLSSGGRGRLSGVVAGVMVLLFVLFLSPLIERIPLAALVGVMFVVAQQTFAWASLRVINKVPTNDVLVIIAVTVITVFTDLAVAVLCGIIIAALNFAWQQARELYADTHLEADGSKLYRLHGTLFFASTTPFLNQFDTANDPDLVTLDCRHLSFVDYSAIAALMTLRERYSKAGKHLRVFHLSERCKQMLKRAGVHHD	PGPT0003020_5800	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
D1-35_01106	1350	gntT_1	COG2610	High-affinity gluconate transporter	ATGGCCCCTGATTTCGGTTATTGGCTGTTGGTCTACGCGGCGATCGCGATCATTGCGCTGATTGTCCTGATCGCGCGCTACCGTCTCAACCCGTTCATCGTGATTACCCTGGTTTCCATCGGCCTGGCGCTGCTGGCCGGGATGCCACCCTCCAGCGTCGTCGGCGCCTACGAGGCGGGCGTGGGAAAAACCCTGGGGCACATTGCGCTGGTGGTGGCCTTGGGCACGATGCTCGGCAAGATGATGGCCGAGTCCGGTGGCGCGGAGCGGATGGCGCAGACGCTGATCGAGCGCTTCGGCGAGCGCAACGCTCACTGGGCGATGGTGTGCATTGCGTTCCTGGTGGGGTTGCCGTTGTTTTTCGAGGTCGGCTTTGTGCTGCTGGTGCCTATCGCATTCACGATTGCCCGGCGTGTCGGCGTGTCGATCCTGATGGTCGGCCTGCCAATGGTGGCCGGGCTGTCGGTGGTCCACGCCCTGGTGCCACCGCATCCGGCGGCGATGCTGGCGGTGCAGGCATTCCAGGCTTCGGTGGGGCAGACCCTGCTGTATGCCATCCTGATCGGCATTCCCACCGCAATCATCGCCGGTCCCCTGTACGCCAGATTCATCGTGCCCCGCATTCAGCTGCCGGCCGAGAACCCATTGGAGCGGCAATTTCTCGACCGCGAGCCACGTGCAAATCTGCCGGGCTTCGGTATCACCTTGGGGACGATCCTGTTGCCGGTGGTCCTGATGTTGATCGGTGGCTGGGCCAACCTGATTTCCACACCGGGAAGCGGTTTCAACCAGTTTCTGTTGTTTATCGGCAACTCGGTGATCGCCTTGCTCCTGGCGACCATTCTCAGCTTCTGGACCCTCGGCCTGGCCCAAGGCTTCAACCGCGAATCGATCCTCAAATTCACCAACGAGTGCCTGGCGCCTACGGCCAGCATTACCCTGTTGGTGGGCGCCGGCGGTGGTTTGAACCGGATTCTGGTGGACGCGGGCGTGACCCAGCAAATCGTCGGGCTGGCCCAGGAGTTCCAGTTGTCGCCGTTGGTCATGGGCTGGCTGTTCGCCGCGTTGATGCGCGTCGCCACCGGTTCGGCGACGGTGGCGATGACTACGGCCTCGGGCATTGTCGCGCCCGTGGCGATCGGCCTCGGTTATCCCCATCCTGAACTGTTGGTGCTGGCGACTGGCGCCGGGTCGGTGATCTTTTCCCACGTCAACGACGGCGGCTTCTGGTTGATCAAGGAATACTTCAATATGACTGTCACCCAAACCTTCAAGACCTGGACCGTGCTCGAAACGTTGATCTCCCTGGTCGCGTTCGGCCTGACCCTCGGGCTTGCGCGCGTGCTCTGA	MAPDFGYWLLVYAAIAIIALIVLIARYRLNPFIVITLVSIGLALLAGMPPSSVVGAYEAGVGKTLGHIALVVALGTMLGKMMAESGGAERMAQTLIERFGERNAHWAMVCIAFLVGLPLFFEVGFVLLVPIAFTIARRVGVSILMVGLPMVAGLSVVHALVPPHPAAMLAVQAFQASVGQTLLYAILIGIPTAIIAGPLYARFIVPRIQLPAENPLERQFLDREPRANLPGFGITLGTILLPVVLMLIGGWANLISTPGSGFNQFLLFIGNSVIALLLATILSFWTLGLAQGFNRESILKFTNECLAPTASITLLVGAGGGLNRILVDAGVTQQIVGLAQEFQLSPLVMGWLFAALMRVATGSATVAMTTASGIVAPVAIGLGYPHPELLVLATGAGSVIFSHVNDGGFWLIKEYFNMTVTQTFKTWTVLETLISLVAFGLTLGLARVL	PGPT0001340_2059	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
D1-35_01107	861	hexR_1	COG1737	HTH-type transcriptional regulator HexR	ATGGACATCCTTTACCAGATCCGCTCCCGTCAGGATTTCTTCAGTGCAGGCGAAGGAAGAATCGCCCGACTGATGCTCGACGACGTAGGATTTGCCGCTTCCGCCAGCCTGGATGAACTGGCCCAACGCGCCGAAGTCAGCAGTGCCACGCTGTCGCGGTTTGCCCGGACTGTCGGCTGTCGCGATTTGCGCGATCTGCGCCTGCAACTGGCCCAGGCCAGTGGCGTTGGCAGCCGTTTCCTCGACCCCACGGGCGCGCCCGAGCAGTCGGCGTTTTATGGGCAGATCGTCGGCGATATCGAGTCGACGCTGCGCCAGCACTTGTCGGCATTTGACGAGTCACGCTTCGCCGACGCGGTACGGATGATCGGCAAGGCGCGGATGATCCATGCGTTCGGGCTCGGCGGGTGGTCGGCGCTGTGCGGCGAAGAGTTGCAGGTGCGGCTGGTGCGTTTCGGCTACCCGATCGCCGCCTGCCGCGACCCGCTGATGATGCGTATCACGGCCACTTCGCTGAGCGATCAGCATCTGGTGATTGCCTGTTCGTTGACTGGTATCACCCCGGAGCTGCTCGGCGCGGTCGAACTGGCGCGCAGCTACGGTGCAGCGATCCTGGCGATTACCCGCACCGACTCGCCGCTGGCCCACCTGGCGGATGTGGTACTGCCCCTGCAAGGTGCCGAAACCTCGTTCATCTTCAAACCCACGGCGGCGCGCTACGGCATGCTGTTGGCGATCGATGTGCTCGCCACCGAGTTGGCGCTGGCCCATCCGCAAGACAATCAAGAGCGCCTGCGGCGGGTCAAGCTCGCCCTGGACGATTACCGAGGCGGCGAGGACGACCTGCCGCTGGGAGACTGA	MDILYQIRSRQDFFSAGEGRIARLMLDDVGFAASASLDELAQRAEVSSATLSRFARTVGCRDLRDLRLQLAQASGVGSRFLDPTGAPEQSAFYGQIVGDIESTLRQHLSAFDESRFADAVRMIGKARMIHAFGLGGWSALCGEELQVRLVRFGYPIAACRDPLMMRITATSLSDQHLVIACSLTGITPELLGAVELARSYGAAILAITRTDSPLAHLADVVLPLQGAETSFIFKPTAARYGMLLAIDVLATELALAHPQDNQERLRRVKLALDDYRGGEDDLPLGD	PGPT0017985_760	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
D1-35_01108	1473	dan		D-aminoacylase	ATGCACTACGACACGCTTATTCGCAACGCGCTGATCATCGACGGCAGCGACAAGCCTGGCTACAGCGCCGACGTGGCGATACGCGCCGGTCGTATCGAGCACATCGGCGACCTCGGCGCCGCCCGGGCGACTGAAGAAGTCGACGCCGCCGGCCGGGTGCTGGCGCCGGGATTCATCGACGTGCATACCCACGACGACACGGTAGTCATACGCCAACCGCAGATGCTGCCCAAACTCAGTCAGGGCGTCACCACGGTCATCGTCGGCAATTGCGGCATCAGCGCTGCGCCCGTCAGCCTGCGGGGCGATCCACCGGACCCGATGAACCTGCTCGGTGCTGCCCAGGCGTTCGCCTACCCACGCTTCGCTGATTATCGTGCGGCGGTGGAAGCCGCCACGCCGGCGGTCAATGTCGCGGCACTGGTCGGGCACACGGCGCTGCGCAGCAACCACCTGGACGATCTGCTGCGCACCGCCAGCGCCGGAGAAATCGCCGCCATGCGTCAGCAACTGCGCGAAAGCCTGGAGGACGGTGCGCTGGGTTTATCCACCGGCCTGGCCTACGCCAACGCGTTCTGTGCGTCGACCGATGAAGTCATGCAACTGAGCGAAGAGTTGGCAGCGTTCGGCGCGGTCTACACCACCCACTTGCGCAGCGAATTCGAACCGGTGCTGGAAGCGATGGACGAGGCCTTCCAGATCGGCCGTCATGCCCGGAGCCCGGTAATCATTTCCCACCTCAAATGTGCGGGGGCCGGTAATTGGGGGCGTAGTCCACAGGTGCTCGCGGCGTTGGAAACTGCCGCCAGAAGCCATCCCGTCGGTTGCGACTGTTATCCCTACGCGGCGAGCTCTTCGACGCTGGACCTCAAGCAAGTGACCGATGCCCATCGCATCACCATCACCTGGTCGACGCCGCACCCGCACATGAGCGGACGGGACTTGATCGACATCGCCGCCGAATGGGGCATGCCACTGCTGGAAGCCGCGCGCTGCTTGCAGCCGGCCGGCGCGGTGTACTACGGCATGGACGAAAGCGACGTAAGACGCATCCTCGCACACCCATTGTCGATGGTCGGCTCCGACGGCTTGCCCGAGGACCCTTTTCCCCATCCTCGGTTGTGGGGCGCTTTCCCACGGGTGCTGGGACATTTCAGTCGAGACATCGGGCTGTTTCCGTTACACACCGCCGTGCACAAGATGACCGGCCTTTCGGCTGCACGCTTTGGCCTGAAGGAGCGGGGTGAAATCCATGAAGGATATTGGGCCGACCTGGTGTTGTTCAATCCGCAAACCGTCCGCGACGTCGCCGATTTCAACCAGCCGCAACGGGCTGCCGAGGGCATCGATGGCGTATGGATCAACGGCGTCCTGAGTTATCGCGATGGCCAGGCGAACGGCCGCCGGGAAGGCCGATTCCTGGCGCGGGAAGGCAATCTTCGCCAGGGATTTCGGACTTTTAAAGGTGTGTAA	MHYDTLIRNALIIDGSDKPGYSADVAIRAGRIEHIGDLGAARATEEVDAAGRVLAPGFIDVHTHDDTVVIRQPQMLPKLSQGVTTVIVGNCGISAAPVSLRGDPPDPMNLLGAAQAFAYPRFADYRAAVEAATPAVNVAALVGHTALRSNHLDDLLRTASAGEIAAMRQQLRESLEDGALGLSTGLAYANAFCASTDEVMQLSEELAAFGAVYTTHLRSEFEPVLEAMDEAFQIGRHARSPVIISHLKCAGAGNWGRSPQVLAALETAARSHPVGCDCYPYAASSSTLDLKQVTDAHRITITWSTPHPHMSGRDLIDIAAEWGMPLLEAARCLQPAGAVYYGMDESDVRRILAHPLSMVGSDGLPEDPFPHPRLWGAFPRVLGHFSRDIGLFPLHTAVHKMTGLSAARFGLKERGEIHEGYWADLVLFNPQTVRDVADFNQPQRAAEGIDGVWINGVLSYRDGQANGRREGRFLAREGNLRQGFRTFKGV				NA	NA	NA	NA	NA
D1-35_01109	369			hypothetical protein	ATGAGCTTCGGTAAGACCACCCCGATCCTGCGGATTTTCGATGAAACCAAGGCCTTGGCGTTCTATGTCGATTTCCTGGGCTTTACCGTCGACTGGCAACATCGCTTTGGTGACGACTATCCGCTGTACCTGCAAGTATCGCGCGGTGATTGCGTGCTGCACCTGTCCGAACACCACGGCGATTGCACACCGGGCTCGGCGCTGCGGATCGAGACCGATGAGCTGGAAGCATTCCAGCAACAGTTGATGGCCAAGCAATACCGCTACGCCCACCCGCAAATCCAGGCCATGCCATGGGGTAGCCAGGACATGACCATCAGTGATCCGTTCGGGAATCGGTTGGTGTTTACCAATGCGATCAGTGTGTAA	MSFGKTTPILRIFDETKALAFYVDFLGFTVDWQHRFGDDYPLYLQVSRGDCVLHLSEHHGDCTPGSALRIETDELEAFQQQLMAKQYRYAHPQIQAMPWGSQDMTISDPFGNRLVFTNAISV				NA	NA	NA	NA	NA
D1-35_01110	1920	mcpS	COG0840	Methyl-accepting chemotaxis protein McpS	ATGAATAGCTGGTTTGGCAACATTAGCGTCAACATGAAATTGGGCCTGGGCTTCGGCCTGGTGCTGGTCCTGACCTGCCTGCTGGCCCTGACCAGCTGGACCAGCCTTGGCGGCCTGATCGACCGCAGCAACTGGATGAGCGACATCACCCAGCTCAACGCCGGCCTGACCAAACTGCGCGTGACTCGCCTGCAATACATGCTGGCCAACGGTGACGAAACCGCTGCACAGAATGTGCAAACCACCCTCGACGGTTTCGTCGCGCAACAGAACGCGCTGCTCAACAGCTTCAAGAGCCCGGAAAACGTCAAGCTGCTCAGAGAGCAGAGCGCGACCATCAGCGCCTATCAGGTATCACTGAACAAAATGCGCAGCGCCTACCGCACCGGTAACAGCGCTCGTGATGTCATGGGGGCGAACGCCGAAACGGCCTACAAGCTGATCGAGGCCATCGACGCCGACGTGAAGCAAATGGCCCTCAACGATGAACGCTTCGCCCAGTTCCAGGCCATCACTGAAGCCAAGCAGGCGTTCATGCTCGCTCGTTATGAAGTGCGCGGCTACACCGCCAACCCCAACGCCGATACCGAACGCAAGGCCTTCGCCCAACTGGACGCGGCGATTGCTTCGCTCAAGCCGCTGAACGAATATTTTGCCAGCGTCCATCAGGACGAACTGCGTCAGCTGGAAACCACCCTGGTGCAATACCGCAGCGCCGTGCAGGCCTTCAAATCGGCCACGGCCGACGTGGTGCAGGCGCGCAAGGAAATGACCGACCAGGGCGCGACCATCGTTTCCCTGAGCGAACAGCTGTACCAGATCCAACTCGACCGTCGCGACGCCGAAAGCGCCCAGGCGCGTACGTTGCAACTGGTCAGTACATTGCTGGCGTTGTTGGTCGGCATCATTGCTGCCGTCATCATCACCCGCCAGATCACCCGTCCGCTGCGCGAAACCCTGACCGTGGTCGAACGCATCGCCAGTGGCGACCTGTCGCAGGATGTGATCGTCACCCGTCGCGATGAGCTGGGCGTACTGCAACAGGGCATCGCGCGCATGGGCGTGACCCTGCGCGACCTCATCAGCGGCATCCGTGATGGCGTGACTCAGATCGCCAGCGCCGCCGAAGAATTGTCGGCGGTCACCGAACAGACCAGTGCCGGGGTCAACAGCCAGAAAGTCGAGACCGACCAGGTCGCAACCGCCATGCACGAAATGACCGCCACGGTGCAGGAAGTTGCCCGCAACGCCGAAGAAGCCTCCCAGGCAGCGGCCGCCGCCGACGGCGAAGCCCGTGCCGGCGACCAGGTGGTCAGCGAAGCCATTGCCCAGATCGAACGCCTGGCCAGTGAAGTGGTGCGCTCCACCGACGCCATGAGCGTGCTGCAACAGGAGAGCGACAAGATTGGCGCAGTGATGGATGTGATCAAGGCCGTGGCCGAACAGACCAACCTGCTGGCACTCAACGCCGCCATCGAAGCCGCCCGCGCCGGTGAAGCCGGTCGTGGCTTTGCGGTCGTCGCCGACGAAGTCCGTGGCCTGGCCCAACGCACCCAGAAATCCACCGAGGAAATCGAAGGCCTGGTGGCCGGCCTGCAGAACGGCACCCAGCAAGTGGCCGCCGTGATGAACAACAGCCGCAACCTCACCGACAGCAGCGTGGCCCTCACCCGCAAGGCCGGCGTATCACTGGAGAACATCACCCGTACGGTGTCGAACATCCAGTCGATGAACCAGCAGATCGCCGCCGCCGCCGAGCAGCAAAGCGCCGTGGCCGAAGAGATCAGCCGCAGCATCATCAACGTGCGCGACGTGTCCGAACAGACCGCCGCCGCCAGCGAAGAAACCGCAGCGTCCAGCGTTGAACTGGCGCGGCTTGGCAGTCAATTGCAGCAGATGGTCAGTCATTTCAGGGTTTGA	MNSWFGNISVNMKLGLGFGLVLVLTCLLALTSWTSLGGLIDRSNWMSDITQLNAGLTKLRVTRLQYMLANGDETAAQNVQTTLDGFVAQQNALLNSFKSPENVKLLREQSATISAYQVSLNKMRSAYRTGNSARDVMGANAETAYKLIEAIDADVKQMALNDERFAQFQAITEAKQAFMLARYEVRGYTANPNADTERKAFAQLDAAIASLKPLNEYFASVHQDELRQLETTLVQYRSAVQAFKSATADVVQARKEMTDQGATIVSLSEQLYQIQLDRRDAESAQARTLQLVSTLLALLVGIIAAVIITRQITRPLRETLTVVERIASGDLSQDVIVTRRDELGVLQQGIARMGVTLRDLISGIRDGVTQIASAAEELSAVTEQTSAGVNSQKVETDQVATAMHEMTATVQEVARNAEEASQAAAAADGEARAGDQVVSEAIAQIERLASEVVRSTDAMSVLQQESDKIGAVMDVIKAVAEQTNLLALNAAIEAARAGEAGRGFAVVADEVRGLAQRTQKSTEEIEGLVAGLQNGTQQVAAVMNNSRNLTDSSVALTRKAGVSLENITRTVSNIQSMNQQIAAAAEQQSAVAEEISRSIINVRDVSEQTAAASEETAASSVELARLGSQLQQMVSHFRV	PGPT0015710_10228	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
D1-35_01111	942	gbpR_1		HTH-type transcriptional regulator GbpR	ATGACCCGAATTCCTGTTGCCAATGTCATCCATAGTCGACTGCGTCTGCGCCAACTGCGGCTGATGCTGGCATTGCAGGAATTAGGTTCTCTGCGCCGCGCAGCCGACCACATCGGCATGACCCAACCGGCTGCCACCAAAATGCTGCACGAAGCCGAGGACTTGCTCGGCGTCGAGCTGTTCGAACGCCTGCCCCGTGGCATGCGCTCCACCCCATTCGGGGAAACCGTCATTTACTACGCGCGTATGGTCTTCGCCGAGCTCAGCGGCATGCGCGAAGAACTGGTGGCACTCGAATCCGGCAACCTCGGCCGGGTGGCAGTCGGCGCCATTCCGGCACTGGCTTCGGGACTGCTGACGCGCACCATCGCGACCTTGAAACAAAGCCATCCCCGCTTGTCCATGAGCATCCAGGTCGACACCAGCGACGTGCTGGTACAAGCGCTGTTGCAGGATCAACTGGACATTGTCCTCGGCCGTATTCCCGCCGGTGCCCGCGCCGAAGAGTTGCTCTTCGACAGCCTCGGGGAAGAGGCGCTGTGTGTCATTTGTGGCGCGCAGAATCCGTTGGCGCAGGCGAGCCGACTGGGCTGGGCCGAGCTACAGAGCATGACCTGGGTGTTGCAACAACACCCAAGCCCGATGCGCGCAATCATCAACCAGGTGTTTCACAACGCCCGGGTCGATATCCCCAGCAGCATCGTCGAAACCACCTCGATCATGACCTTGCTCTCATTGGTCCAGCAGACCGACATGCTCGGCGTCACCCCGATATCGGTCGTCGAGGATTATCCAGGTCGTGACTTGCTCGCCGTGTTGCCGATCAAGTTCGAAGCCCGGTTGCCACCGTACGGATTGATCACCCGCCGCCATCGCATTCAGTCATCGGCGATGCAGGCGTTCATGAATTCGGTACGTGCCGAGCATGCGTTATTGAACTGA	MTRIPVANVIHSRLRLRQLRLMLALQELGSLRRAADHIGMTQPAATKMLHEAEDLLGVELFERLPRGMRSTPFGETVIYYARMVFAELSGMREELVALESGNLGRVAVGAIPALASGLLTRTIATLKQSHPRLSMSIQVDTSDVLVQALLQDQLDIVLGRIPAGARAEELLFDSLGEEALCVICGAQNPLAQASRLGWAELQSMTWVLQQHPSPMRAIINQVFHNARVDIPSSIVETTSIMTLLSLVQQTDMLGVTPISVVEDYPGRDLLAVLPIKFEARLPPYGLITRRHRIQSSAMQAFMNSVRAEHALLN				NA	NA	NA	NA	NA
D1-35_01112	1530			hypothetical protein	ATGAGCGAGTTCGATTCCCTGTTGCAGGGCATGAACCTGATCCTGACCCCGGGCCACATCGGTCTGATGGTGATCGGCGTTCTGCTGGGCATCCTGGTCGGTGTGCTGCCCGGTCTCGGCGCGCCCAATGGCGTGGCGCTGTTGCTGCCCTTGACCTTCACCATGTCGCCGGTGTCGGCGATCATCCTGCTGTCGTGCATGTACTGGGGCGCGCTGTTTGGCGGCTCGATCACCTCGATCCTGTTCAACATTCCTGGCGAGCCTTCATCGGTGGCGACCACCTTCGACGGTTATCCGATGGCCCGCGAAGGCCGGGCTGCCGAGGCGTTGACCGCCGCGTTCAGCTCGGCGCTGATCGGTGCGTTGTGCGGGGTGTTGTTGCTGACGTTCCTGTCGACAAAAATCGCAGCGTTCGCCATGTCCTTCAGCTCGCCGGAGTTCTTCGCGGTGTACCTGTTGGCGTTCTGCACCTTCATCGGCATGAGCAAGAACCCGCCATTAAAAACCGTGGTCGCGATGATGATCGGCTTCGCCATGGCGGCAGTCGGCATGGACACGGTTTCCGGCAACCTGCGCCTGACGTTCGACCAGCCGATCCTGATGACCGGGATCAGTTTTGAAGTGGCGGTGATCGGCCTGTTCGGCATCGGAGAAATTCTCTGCACAGTCGAGGAAGGCCTGGTGTTTCGTGGCGAACATGCGCGCATCACACCGATGGTGATTTTGCGCACCTGGGCCAGGTTGCCGCGTTATTGGTGGACGATTGTGCGCAGCACACTGGTCGGTTGCTGGATGGGCATCACCCCCGGCGGCCCGACGGCGGCATCGTTCATGAGCTACAGCCTGGCGCGACGTTTCTCGAAAAACCGCGACAACTTCGGCAAAGGCGAGATCGAAGGGGTGATCGCCCCGGAAACCGCCGACCACGCTGCCGGCACCAGCGCGCTGCTGCCGATGCTGACGCTGGGCATTCCGGGTTCCGCCACGGCAGCGGTGATGCTCGGTGGCTTGATGATCTGGGGCCTGCACCCTGGGCCGACGCTGTTCGTCGAGCAACACGACTTTGTCTGGGGCCTGATCGCCAGCATGTACCTGGGCAACGTGGTCAGCCTGATCGTGGTGTTGGCCACCGTGCCGTTGTTTGCTTCGATCCTGCGCATTCCGTTCTCGATCATCGCGCCGATCATCATCATGGTCTGCGCCATCGGTGCGTACTCGGTGCACAACTCGTTCTTCGACGTGGTACTGATGCTGGGCTTCGGTGCGCTGGGTTACCTGTTCAAGAAACTCGGCTATCCGATTGCGCCGCTGGTGCTGGCAGCCGTCCTGGGGGACAAGGCCGAAGACGCATTCCGTCAGTCGATGCTGTTTTCTGACGGACAGCTGGGAATTTTCTGGTCCAACCCATTGGTGGGCAGCCTGACCACCGCCGCGCTGCTGATGCTGTTCTGGCCGCTGATCTCCAAGGCACTGGGCCTGCTGGTGGGCTTGCGCAAACCCCACGTCGCCGAGGCGAAATCATTGCTGTGA	MSEFDSLLQGMNLILTPGHIGLMVIGVLLGILVGVLPGLGAPNGVALLLPLTFTMSPVSAIILLSCMYWGALFGGSITSILFNIPGEPSSVATTFDGYPMAREGRAAEALTAAFSSALIGALCGVLLLTFLSTKIAAFAMSFSSPEFFAVYLLAFCTFIGMSKNPPLKTVVAMMIGFAMAAVGMDTVSGNLRLTFDQPILMTGISFEVAVIGLFGIGEILCTVEEGLVFRGEHARITPMVILRTWARLPRYWWTIVRSTLVGCWMGITPGGPTAASFMSYSLARRFSKNRDNFGKGEIEGVIAPETADHAAGTSALLPMLTLGIPGSATAAVMLGGLMIWGLHPGPTLFVEQHDFVWGLIASMYLGNVVSLIVVLATVPLFASILRIPFSIIAPIIIMVCAIGAYSVHNSFFDVVLMLGFGALGYLFKKLGYPIAPLVLAAVLGDKAEDAFRQSMLFSDGQLGIFWSNPLVGSLTTAALLMLFWPLISKALGLLVGLRKPHVAEAKSLL	PGPT0017350_686	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017350-tctA-K07793	NA	NA
D1-35_01113	534			hypothetical protein	ATGTCCCATTCTTCGGATTCACCGGCGCTGGTCGGTACCCGTTGGGTCGAGCTCGGCCTGACGCTGTTTACTACCCTGCTCGGTGCCGTGGTGATGTTCGGCAGTGTCGAACAAGGCATCGGCTGGGGCGATGCCGGCCCTGAACCGGGTTACTTCCCGTTCTATATCGGCCTGATACTGAGTGCGGCGAGCGTCGCCAACGGCGTGCTGACGGTGGTGCGCTGGCAGGCCCTGAGCGTTGCATTCCTCACCCGTAGTGCGTTCAAGCAAGTGCTATCGGTTTTCCTGCCCATTGCCCTGTTCGTCGGTGCGATGCCCTTCACCGGCATCTACCTCGCGTCGGCCTGCTTCATTGCCTGGTTCATGTGGCGCGACAAGGTCCGCGCCAAGCCTTACGGCAAGTGGATGATCGGTGCGGTTGCCCTCGGTGCGGCGCTCGCCAGCTACCTGATTTTCGCGCTGTGGTTCAAGGTCCCGCTGGATGCCGGCCCAATAGGCGACTGGATTGCCCTGGCCGGGAGAACCTTCAAATGA	MSHSSDSPALVGTRWVELGLTLFTTLLGAVVMFGSVEQGIGWGDAGPEPGYFPFYIGLILSAASVANGVLTVVRWQALSVAFLTRSAFKQVLSVFLPIALFVGAMPFTGIYLASACFIAWFMWRDKVRAKPYGKWMIGAVALGAALASYLIFALWFKVPLDAGPIGDWIALAGRTFK	PGPT0017355_411	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017355-tctB-K07794	NA	NA
D1-35_01114	1017			hypothetical protein	ATGCGAAATGCATTCGTCCGTCGCACATCGCGTCTTCTTCTAGGCGGCGCCCTGATTGCCGTCGGCGTCCTTCCCGCCCTTGCCCACGCCGCCTGGCAACCGGACAAGAATGTCGAAATCGTCGTCGCCGGCGGCCCGGGTGGCGGAACCGACCAGCTCGGTCGCCTGATCCAGTCGATCATCACCACCCATAAGCTGCTCGACGTCAACACCATTGTCCTCAACAAGGGTGGCGGCAACGGTGCCGAGGCCTTCCTCGACATGAAGATGAACAAGGGCGATGCAGAGAAACTGGTGATTGCCACCAATAACGTTTACCTGTTGCCGCTGGTTTCCAAGCTCGGCTACCAATGGCAGGAACTGACCCCGATTGCCGCCGTGGCCGAAGATGACTTTATCCTCTGGAGCTACAAGGGCGCGCCGTGGAAAGACGCGAAAGGTTTCTACGAAGCGGCCAAGACCGACCCGGCGAAGCTGCGCATGGGGGGCAGCCAGTCCAAGGACGTCGACCAGACCCTCACCCTGCTGCTCAACCAGACCAACAACAGCAAACTGGTGTACATCCCGTTCAAGAGCGGCAGTGAAGCCGCGACCCAACTGGCCGGCAAACACATCGCGGCCAACGTCAACAACCCCAGTGAAAGCATCAGCCAATGGCGCGGTGATCAAGTCGAACCGCTCTGCGTATTCAGCAAGGAGCGCATGAGCTACACCGAGAAAGTCGCCGGAAACAAAGCCTGGGCCGATGTTCCAACCTGCCACGAACAGGGCCTGGGCATCGATCAGTACCGCTTCCCGCGTACGGTGTTCATGCCCGGCGATGTCAGTGCCGAACAACGGGCCTTTTATGTCGAACTGATGCGCAAAGTCACGCAGACCGATGAGTTCAAGGCCTACGTCAAACAGAACGCGCTGGTGCCGACGTTCCTTGAAGGCGAGCCCCTGACCGCCTACATCGAAAAGGACGTCGCCCGCGTCACCCCGGTGTTCAAGGAAGCCGGCTGGCTGAAAAACTGA	MRNAFVRRTSRLLLGGALIAVGVLPALAHAAWQPDKNVEIVVAGGPGGGTDQLGRLIQSIITTHKLLDVNTIVLNKGGGNGAEAFLDMKMNKGDAEKLVIATNNVYLLPLVSKLGYQWQELTPIAAVAEDDFILWSYKGAPWKDAKGFYEAAKTDPAKLRMGGSQSKDVDQTLTLLLNQTNNSKLVYIPFKSGSEAATQLAGKHIAANVNNPSESISQWRGDQVEPLCVFSKERMSYTEKVAGNKAWADVPTCHEQGLGIDQYRFPRTVFMPGDVSAEQRAFYVELMRKVTQTDEFKAYVKQNALVPTFLEGEPLTAYIEKDVARVTPVFKEAGWLKN	PGPT0017360_392	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017360-tctC-K07795	NA	NA
D1-35_01115	1005	pdxA2	COG1995	D-erythronate 4-phosphate dehydrogenase	ATGAAAAAAACCGCTATCGCCATGGTCCTGGGTGACCCGGCTGGCATTGGCCCGGAATTGATTGCACGCTTGCTCGCCGAGCCCGAGATACGCAGCAAGGCCAACATCATTCTGATTGCCGACGAAGCGGAAATGCGTCGCGGCATGCGCATCGCCGGCAGCGAGTTTCCTTATCGCCGGGTGGAGACACTGGACGTGTTGGAGTTCGTCGATGACACGCCGCTGTTCCATGACTTTCGCGGCGACACGGTCGGCGAGTTCCCCCGTAGCGAGGCCAGCGTGATTGGCGGTCGCTACAGCCTCGACACCCTGGAAAAGGCCCTGCGCCTGACCGAAGCCGGGACCACCGACGCGGTCCTGTTCGGGCCGCTGAACAAGACCTCGCTGCACATGGCGGGCATGGCCCACAGCGATGAATTGCACTGGTTTGCCGAGCTGCTGGATTTCCACGGACCGTTCTGCGAATTCAACGTGCTCGACAACCTTTGGACTTCACGCGTGACCTCCCATGTGGCCCTGTCCGCAGTGCCGGGCCTGCTCAGTGAGCAGCGGGTGGTGGAAGCGATTCAACTGATCGACACCGCCCTCAAGCGCAATGGCCTGGAGCAACCGCGAATCGGTGTTTGCGGCTTGAACCCGCACAACGGCGACAACGGTTCGTTCGGTCGCGAGGAGCTGGACATCATCGGTCCGGCCGTACGCTCGGCGCAGGCGCTGGGCATCGCGGCACAAGGGCCGTATCCGGCAGACACGATCTTTCTCAAGGTCCAGGGCGATGCCAATGCCTTCGATGCTGTCGTGACCATGTATCACGACCAAGGCCAGATCGCGATCAAGTTGATGGGTTTCTCCCGTGGCGTGACGGTGCAGGGCGGCTTGCCGATTCCGATCACCACCCCGGCCCACGGCACCGCTTTTGATATCGCGGGGCAGGGCAAGGCCAACGTCGGTGCTACGCGCCAGGCCTTCGAAATCGCATGCCGGATGGGACGCAACCGGCACTGA	MKKTAIAMVLGDPAGIGPELIARLLAEPEIRSKANIILIADEAEMRRGMRIAGSEFPYRRVETLDVLEFVDDTPLFHDFRGDTVGEFPRSEASVIGGRYSLDTLEKALRLTEAGTTDAVLFGPLNKTSLHMAGMAHSDELHWFAELLDFHGPFCEFNVLDNLWTSRVTSHVALSAVPGLLSEQRVVEAIQLIDTALKRNGLEQPRIGVCGLNPHNGDNGSFGREELDIIGPAVRSAQALGIAAQGPYPADTIFLKVQGDANAFDAVVTMYHDQGQIAIKLMGFSRGVTVQGGLPIPITTPAHGTAFDIAGQGKANVGATRQAFEIACRMGRNRH	PGPT0009165_1082	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009165-pdxA-K00097	NA	NA
D1-35_01116	1176	rhmD	COG4948	L-rhamnonate dehydratase	ATGAAAATCAAAGCGATCCGTACCCGCGTTTTCGAGTGGAAGGGCAAAGTCGTCCCGCCCCAGGCGCACTTCTGCACCAACGCCAGCGACATCCTGTTCGAGCGCGGCGACGCGATGGGCTCCTTCCGTTTCCACGGCTGGCTGGTGGTGGAAGTCGAGACCGACAACGGCCTCGTCGGTATCGGTAACTGCGCCCTGGCACCGCGTGTGGCCAAGGAAATCATCGACACCTACCTGGCACCGATCGCCATTGGCGAAGACCCTTTCGACAACGAATACATCTGGCAGAAAATGTACCGTCAGAGTCACGCCTGGGGCCGAAAAGGCATCGGCATGGCGGCGATCTCGGCGATCGACATCGCGATCTGGGACATCATGGGCAAGGCCGTCAACAAGCCGGTGTTCAAGTTGCTCGGCGGTCGCACCAAGGAAAAGATCTGGACCTACGCTTCCAAGCTCTACGCCAACGACAACCTCGATCTGTTTCTCGAAGAGGCCCAGGGCTATCTCAACCAGGGTTTCACCGCGCTGAAGATGCGCTTTGGCTACGGTCCGAAAGACGGTCCGGCGGGGATGCGCCGCAACATCGAACAAGTGCGCGCCCTGCGGGAATTGGCCGGCCCTGACGTCGATATCATGCTCGAATGCTACATGGGCTGGACCCTGGAATACGCGAGGCGCATGTTGCCGAAACTGGCCGAGTTCGAACCGCGCTGGCTGGAAGAACCGGTGATCGCCGACGACATCGAAGGCTACATCGAACTGAAGAAGATGGGGATCATGCCGATCTCAGGAGGCGAGCACGAGTTCACCTCCTACGGCTTCAAAGACCTGTTGGAACGCCGCGCCGTCGACGTCATCCAGTACGACACCAACCGCGTCGGCGGCATCACTGCCGCGCGCAAGATCAACGCCATGGCCGAAGCCTGGTCGGTGCCGGTCATTCCCCACGCCGGGCAGATGCACAACTACCACTTGACGATGTCCACCACCGCCTCGCCGATGGCCGAGTTTTTCCCGGTGTTCGACGTCGAGGTTGGCAACGAACTCTTCTACTACGTGTTCAAGGGCGAGCCGCAACCGGTCAACGGGTACATCCAGCTCGACGACAACACTCCGGGCCTGGGCCTGGAAATCTCCGACGAATACCTGAGCGACTTCAACATCATCGAGTGA	MKIKAIRTRVFEWKGKVVPPQAHFCTNASDILFERGDAMGSFRFHGWLVVEVETDNGLVGIGNCALAPRVAKEIIDTYLAPIAIGEDPFDNEYIWQKMYRQSHAWGRKGIGMAAISAIDIAIWDIMGKAVNKPVFKLLGGRTKEKIWTYASKLYANDNLDLFLEEAQGYLNQGFTALKMRFGYGPKDGPAGMRRNIEQVRALRELAGPDVDIMLECYMGWTLEYARRMLPKLAEFEPRWLEEPVIADDIEGYIELKKMGIMPISGGEHEFTSYGFKDLLERRAVDVIQYDTNRVGGITAARKINAMAEAWSVPVIPHAGQMHNYHLTMSTTASPMAEFFPVFDVEVGNELFYYVFKGEPQPVNGYIQLDDNTPGLGLEISDEYLSDFNIIE	PGPT0017805_323	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LYXONATE_DEGRADATION,PGPT0017805-LRA3_like-K12661	NA	NA
D1-35_01117	1032			hypothetical protein	ATGAGCGGCGCCTACCCTGACTATCTGGAGGCCACCATGCGCCTGATTCAATTTGAAAACTCCGCCGGAGAGCGCCAGGTCGGCGTCGTCGATGGGGCACTTGTTCAAGTGCTCAAAGGAACCCGCAATACCCGGGAACTGGCGCTTGCAGCGATCCGTGGCAATCGCAGCCTGCATGAAGAAGTCGCTTCGCGCGGCACCGAGCCGGGCCCGGATTACGCAGCGCTGTTGCACCAAGGCAAAGTCCTGCCGCCGCTGGATCACGAAGATCCGGCCCACTGCCTGATCAGCGGCACCGGCCTGACACATCTGGGCAGCGCCTCGGCGCGGGACAAGATGCACCAGCATGACGGTGAGGTCGAGGCCGGCATGACCGACACCATGCGCATTTTCAAATGGGGGATCGAGGGCGGAAAGCCGGCGCCGGGGCAGGTCGGTGCGCAACCGGAATGGTTCTACAAGGGTGACGGCAGCATCGTCGTGCACCCCGGCGCGGACTTCCCGGTGCCTCCGTTTGCCGAAGATGCCGGTGAAGAGCCGGAGCTGACCGGTCTCTATGTGATTGGCGACGATGGCCTGCCGTATCGCATCGGTTATGCCTTGGGCAATGAGTTCTCCGACCACGTCATGGAGCGGCGCAATTACCTGTACCTCGCCCACTCGAAACTGCGCAGTTGCTCCTACGGCCCGGAGCTGCGCGTCGGTGAGTTGCCCAGGCATCTGGTCGGCACCAGTCGCATCGAGCGCAATGGCGAAACCCTCTGGGAGAAGGCTTTTCTCAGCGGCGAGGACAACATGTGCCACAGCCTGGCCAACCTGGAATTTCACCATTTCAAGTACGCGCAGTTCTTGCGGCCGGGTGATGTCCATGTGCATTACTTCGGCACCGCTACCCTGTCGTTCGCCGACGGTGTGAAGACACAGCCGGGGGATCGCTTTCGGATCAGCCTCGATGAGTTCGGTGCGCCGCTGGTGAACGGTATCGGCGAGAGTGCCCAGCCGCTGCCCATCGGCCAGGTGCGTGCGCTCTAA	MSGAYPDYLEATMRLIQFENSAGERQVGVVDGALVQVLKGTRNTRELALAAIRGNRSLHEEVASRGTEPGPDYAALLHQGKVLPPLDHEDPAHCLISGTGLTHLGSASARDKMHQHDGEVEAGMTDTMRIFKWGIEGGKPAPGQVGAQPEWFYKGDGSIVVHPGADFPVPPFAEDAGEEPELTGLYVIGDDGLPYRIGYALGNEFSDHVMERRNYLYLAHSKLRSCSYGPELRVGELPRHLVGTSRIERNGETLWEKAFLSGEDNMCHSLANLEFHHFKYAQFLRPGDVHVHYFGTATLSFADGVKTQPGDRFRISLDEFGAPLVNGIGESAQPLPIGQVRAL	PGPT0017806_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LYXONATE_DEGRADATION,PGPT0017806-2_keto3_deoxy_L_lyxonate_dehydratase-NA	NA	NA
D1-35_01118	1581			Alpha-ketoglutaric semialdehyde dehydrogenase	ATGACATTGCCACAGGGATACAACTACATCGGCGGCCGTCGCAGCGCCAACGGCACCCTGCAACTGCAAAGCTTCGATGCGAGCACCGGCGAGCCCTTGCCCGGCACCTTCTTCCAGGCATCCGAAGCCGAAGTGGATGCCGCCGCCAAGGCCGCTGCTGCGGTTTACCCGGTTTACCGCAACCTGAGCGCGGAAAAACGCGCTTCGTTTCTCGATGCAATCGCCGAGGAAATCGACGCGCTGGGCGATGACTTCATCGCTACCGTGTGCCGCGAAACCGCATTGCCTGCCGGGCGCATTCAAGGGGAGCGCGGTCGCACCAGCAGCCAGTTGCGTCTGTTTGCAAGCGTGCTGCGTCGTGGCGACTTCTACGGTGCGCGGATTGACCGCGCATTGCCCGATCGCCAGCCACTGCCACGTCCGGATCTGCGTCAATACCGCATCGCCCTGGGGCCGGTGGCGGTGTTTGGCGCCAGCAACTTTCCGCTGGCCTTTTCCACGGCCGGCGGTGACACCGCTTCGGCGCTGGCAGCGGGGTGCCCGGTGGTGTTCAAGGCCCACAGTGGCCACATGGCGACTGCCGAGTGGGTGGCGGACGCGGTCATCCGTGCCGCTGAACGGACTGAAATGCCGGCCGGCGTGTTCAACATGATTTATGGCGGGGGTGTCGGTGAATGGCTGGTCAAGCATCCGGCCATTCAGGCGGTGGGCTTCACCGGTTCGCTTAAGGGTGGCAACGCCTTGAGCCACATGGCCGCCACCCGGCCACAGCCGATTCCGGTGTTCGCCGAAATGTCGAGCATCAATCCGGTGTTCCTGCTGCCCGAAGCGTTGGCGGTACGCGGCGAGCAGATCGCGGCGCAGTTGGCCGGTTCGGTGACGTTGGGGTGCGGTCAGTTCTGTACGAATCCGGGTTTGGTCATTGGCCTGCGCTCGCCGCAGTTCAGCCTGTTCCTGGAAAGCTTCTGCGCGAGCATGAACCAGCAACCGCCACAAACCATGCTCAACCCGGGCACCTTGGCCAGTTACAGCCGCAGCCTCGGTGAGCTGTACGAGCATCCGGGCCTGACGCACCTGGCGGGCAAAACGCAACAGGGCAACCAGGCGCAGCCGCAGGTGTTCAAGGCCGATGTCAGCCTGTTGCTCAAGGGCGATGCGTTGCTTCAGGAAGAAGTGTTCGGGCCGACCACCATCGTCATCGAAGTGGAGAATCGGACACAGTTGGCGGCGGCGCTGCACGGCCTGCGCGGACAGTTGACGGCGACGTTGATCGGTGAGGCTGATGAATTACTGGAGTACCGTTGGCTGACAGAAGTACTGCAGGAAAAAGTCGGGCGGATCCTGCTCAACGGTTATCCGACCGGGGTGGAGGTGTGCGAGGCGATGGTGCACGGCGGACCGTATCCGGCAACATCCGATTCACGGGGAACGTCGGTGGGCACGTTGGCCATCGATCGTTTCCTGCGGCCGGTGTGTTTCCAGAATTACCCGGATGCGTTGTTGCCCCAGGCATTGCAGAACGGCAATCCGCTAGGGATTCGGCGGCTGGTGGATGGGGAGGTAACTGATCGAGCGCTGTGA	MTLPQGYNYIGGRRSANGTLQLQSFDASTGEPLPGTFFQASEAEVDAAAKAAAAVYPVYRNLSAEKRASFLDAIAEEIDALGDDFIATVCRETALPAGRIQGERGRTSSQLRLFASVLRRGDFYGARIDRALPDRQPLPRPDLRQYRIALGPVAVFGASNFPLAFSTAGGDTASALAAGCPVVFKAHSGHMATAEWVADAVIRAAERTEMPAGVFNMIYGGGVGEWLVKHPAIQAVGFTGSLKGGNALSHMAATRPQPIPVFAEMSSINPVFLLPEALAVRGEQIAAQLAGSVTLGCGQFCTNPGLVIGLRSPQFSLFLESFCASMNQQPPQTMLNPGTLASYSRSLGELYEHPGLTHLAGKTQQGNQAQPQVFKADVSLLLKGDALLQEEVFGPTTIVIEVENRTQLAAALHGLRGQLTATLIGEADELLEYRWLTEVLQEKVGRILLNGYPTGVEVCEAMVHGGPYPATSDSRGTSVGTLAIDRFLRPVCFQNYPDALLPQALQNGNPLGIRRLVDGEVTDRAL	PGPT0018165_515	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018165-aldH-K13877	NA	NA
D1-35_01119	693	ais		Lipopolysaccharide core heptose(II)-phosphate phosphatase	ATGCCGTCGGGGCGGCTTGATGTGGAACTGAGACTGAGTCTTTTCGGCCTGACGCGCTCGATCGATAGGCGCCGTTTTGCCCGTTACCAAAACACCGTGGTCGTGCTCGCCTCGGCGCTGCTGGCTGTCCCGTTGGTCCTGTGGCTACTCGGCCCGGCAGCGGTGCCGGACCTGGCCCATGGCAACGTCGCCGGCGCCCGGGCCCTGGCCGATGGCTGGGCCAAGGGCGAAATGATCGTGCTGGTGCGCCATGTCGAGCGCTGCGACCACTCCAAGGCTGCTTGCCTGGGTGACCGCGAAGGCATCACCGACCGCGCCCGTGCCGTTGCGGTGGGGCTCGGGGCTCGGTTCGAACAACTGGGCCTGGACCACGTCGACCTTTACAACAGCCCACGGGTGCGCACCGCGCAGACGGCGGGCTACATGTTCAACAAGGTGAGCGCCGGTGACGATTGGCTGTTCGACTGCCGACATGACCTGCTGCGCAATGCCCTGGCCCACAAAGTGGCCGGTCGCAACCTGATCCTGGTTACCCACAGCGAATGCATGCAGGCGATGGAAACCGCGCTTCTGCGCCCGACTTCCTCGTTCGGCTATGGGGCTTCGTTGTTCGTTTCCAGCGCTCAGCCACAAGCGCCACGAGTGCTCGGTTTTATCGAAGCCCCTGACTGGCGCTCGGTGACATTCCAGTAA	MPSGRLDVELRLSLFGLTRSIDRRRFARYQNTVVVLASALLAVPLVLWLLGPAAVPDLAHGNVAGARALADGWAKGEMIVLVRHVERCDHSKAACLGDREGITDRARAVAVGLGARFEQLGLDHVDLYNSPRVRTAQTAGYMFNKVSAGDDWLFDCRHDLLRNALAHKVAGRNLILVTHSECMQAMETALLRPTSSFGYGASLFVSSAQPQAPRVLGFIEAPDWRSVTFQ				NA	NA	NA	NA	NA
D1-35_01120	846			hypothetical protein	ATGCTGACGTCTGCCCGCGCCCGTTTCTACGGGCTCAACCTCGGAATTCCCTTGGCCGTTGCCGCCATGGTGTTCCTGCTTTTCGATCTGACCCGTATCGACATCGCCATCAGCAATCTTTTCTATGACCCGTTGCACCAGGTCTTTCCGTTGGGGCATGTGCGGCTGTTCGAGCAAATCACGCACAAATGGGCCAGGGCCATTCCGAACTGGACGGGGGAGGCGGCCATAATCGGCGCCGTGCTGTCGTTTTTCTGGCCGCTGTTGAAACCGGAAAAGCGCCCTGGGCTACTTCGCGTACTGGACAGAACCCGGCTGGCGAAACCGCTACGTTTTGCCTACAAACACCGGCGCGATTTCCTCTACGTTGTCTTCGCCTTTTCGCTCAGTACCGGGGTTATCCATTACCTCAAGGGCCATACCAGCGTGTACTGCCCGGTGGAAACCAGCCAATACGCCGGCAAGATCGAGCACAAGGAATGGTTCCGGAATTTCGACCTGCTGAAAGTGGCCGGTGAGGGGCGCTGCTGGCCGGGTGGCCATGCGTCCGGCGGCTTCACCCTGCTGGCGCTGTACTTCGTCGCCCGTCGTTATCGCTGGCGTCATTCCAAAGCGGTGATGTATGGGGCGTTGGCCTTGGGGTTCGTCTATGGCACGACGCGGGTCCTGCAGGGTTGGCACTACATGTCCCATACCTTCTGGGCGGGAATCTTTGTCTGGTTGAGCTGCTGGTTGATGGCGCTGGTGTTTTATGGGCGAGGCGCCTTGGAGCAGCCGCTGTCGAATCGACAGCGCACGGTGCCGCCCGTCGTGCAGGCGTTGGGCAACGCGCCTTCCTCCGTCTGA	MLTSARARFYGLNLGIPLAVAAMVFLLFDLTRIDIAISNLFYDPLHQVFPLGHVRLFEQITHKWARAIPNWTGEAAIIGAVLSFFWPLLKPEKRPGLLRVLDRTRLAKPLRFAYKHRRDFLYVVFAFSLSTGVIHYLKGHTSVYCPVETSQYAGKIEHKEWFRNFDLLKVAGEGRCWPGGHASGGFTLLALYFVARRYRWRHSKAVMYGALALGFVYGTTRVLQGWHYMSHTFWAGIFVWLSCWLMALVFYGRGALEQPLSNRQRTVPPVVQALGNAPSSV				NA	NA	NA	NA	NA
D1-35_01121	354			hypothetical protein	ATGTCTTCCGCTGGCGAGCCCGTCTACGATGCAGGCTACTTCAAGCGCATACCGGGTTACCTGAAGAAAATGGCAGGTGGCACGGACAGCATCGATACGCTGGTAGAGGCCGAAAAGCCCCTGAAAGTGAGTGCGTCGGTGAAAAGGCAGATCGCTACCCTCAATGGCATACCCATGCATACGTTGTTCGGCTACGGCATAACACCACAGCCTGCTCCGCTGGTATTCACACCACGACCGCAAAAGAACTATCTCATTGAAACGGTGATCGCGGATTACTACATCATGAAGGTGTATGAAATTTCCGCGACGGGTGAGCGCAGAGAGGTCAGCGTGCCTGTGGGTACGAATTGA	MSSAGEPVYDAGYFKRIPGYLKKMAGGTDSIDTLVEAEKPLKVSASVKRQIATLNGIPMHTLFGYGITPQPAPLVFTPRPQKNYLIETVIADYYIMKVYEISATGERREVSVPVGTN				NA	NA	NA	NA	NA
D1-35_01122	102			hypothetical protein	ATGGTAGCGAGCGAAAAATGCCCCTCCTATGCCGGTTTGCCTTGGGGCATTGCCTATTCCTATCAGCGCGTCAGAGGCATCGCCGCCAGCGCCCTACCCTAG	MVASEKCPSYAGLPWGIAYSYQRVRGIAASALP				NA	NA	NA	NA	NA
D1-35_01123	834	fabG_1		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGCCCAGTCGCAAAACCCTATTCATCACCGGCGTGAGCAGCGGCTTGGGTAGCGCACTCGCGCAAGAGGCAATTGCAGCAGGCCACCGTGTCATCGGCACCGTGCGCAATGAGGCGGCCTTGCAGGCCTTCGAGTCGCTGTCGACGGAGCGTGCCCATGGCGTCATCCTGGACGTCACCGAGTTCGACCGGATCGACAGCGTTGTGGCGGCGACGGAGGCCGCCCACGGCCCGGTCGATGTGCTGGTCAATAATGCCGGTTATGGCCACGAAGGCGTCTTCGAAGAGTCGCCACTGGAGGAAATGCGTCGTCAATTCGACGTCAACGTGTTTGGCGCGGTGGCGGTGACCAAGGCCTTCGTGCCGTATTTTCGCCAGCGCCGTGCCGGTCATATCCTCAATATCACTTCCATGGGCGGCACGATTACCATGCCGGGCATCTCCTATTACTGCGCGAGCAAGTTTGCCCTCGAAGGTCTCTCCGATACGCTGAGCAAGGAGCTGCTACCGTTCAACATCTTCGTGACGGCCGTCGCGCCCGGCTCGTTTCGCACCGACTGGGCCGGCCGTTCGATGCAGCGCACGGCGCGGAGCATTGCCGACTACGACGCCAGTTTCGATCCGATACGTAAAGCGCGCGTGGAGAAAAGCGGCAAACAACTGGGCGACCCGCGGAAAGCGGCGCAGGCCATGCTGCAGATCATTGCCAGCCCGACGCCACCCGCGCATTTGCTGTTGGGCAGTGATGCGCTGAAGCTGGTGCGGGAGAAGCTGAGTCGTGCCGCCAGTGAGATTGATCAATGGGAAGCGCTGACCCGTTCGACTGACAGTTGA	MPSRKTLFITGVSSGLGSALAQEAIAAGHRVIGTVRNEAALQAFESLSTERAHGVILDVTEFDRIDSVVAATEAAHGPVDVLVNNAGYGHEGVFEESPLEEMRRQFDVNVFGAVAVTKAFVPYFRQRRAGHILNITSMGGTITMPGISYYCASKFALEGLSDTLSKELLPFNIFVTAVAPGSFRTDWAGRSMQRTARSIADYDASFDPIRKARVEKSGKQLGDPRKAAQAMLQIIASPTPPAHLLLGSDALKLVREKLSRAASEIDQWEALTRSTDS				NA	NA	NA	NA	NA
D1-35_01124	480			hypothetical protein	ATGACTCAGGCCGCTGCGCGCATGGTGCAGTTGATGGAACAGCTCGCACCGGTGGAAGGCTACAACCTCAGCGCGCTGGACGACGTCCGCTTCCTGCGTTCGAACCGCCCCCTGACGCGCACGCCGGTGCTGTATGAACCCGGCATCGTGATCCTCTGCCAGGGGCGCAAGCGCGGTTATCTGGGCGATGACGTCTATGTCTATGACGCCCAGCATTACCTGATGGTCTCTGTCCCCGTTCCATTCACCATGGAGACCGCCGCCAGCGCCTCGGAACCCATGCTGGCGGTCTACATGCGCCTCGACTTGCAACTGGCCAGCGAACTCATGTTGCAAGTGGACGAAACCCACGGCCCCAGCGACGCCCAGCCCAAAGGCATGTACGCCTCGCCCATGGATGAGCCGCTGCGCGCCTCGACGCTGCGCTTCCTGGAGGCGATGGGCGTCCGGGCGAGGCGCAAATATTGGGCCCTTCTCTGA	MTQAAARMVQLMEQLAPVEGYNLSALDDVRFLRSNRPLTRTPVLYEPGIVILCQGRKRGYLGDDVYVYDAQHYLMVSVPVPFTMETAASASEPMLAVYMRLDLQLASELMLQVDETHGPSDAQPKGMYASPMDEPLRASTLRFLEAMGVRARRKYWALL	PGPT0014658_11	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014658-ypdC-NA	NA	NA
D1-35_01125	450	rhaS_4		HTH-type transcriptional activator RhaS	ATGAGGGAAATCTACTATCGAATCCTGACCGGCGAACAGGGCGGCTCGATGCGCGCCGCCCTCAGTCGGCGGGGACATTTCGGCAAGATCACCCGGGCGATACGCAAGATCCACAGTTGCTATCACGAGCATCTGTACGTCGAAACCCTGGCCCAGGAAGCCGGCATGAGCGTCCCCAACTTTCACCTGCATTTTCGCAACGTGACGGGCGCATCACCCATGCAGTACCTGAAATCGACCCGCCTGCACCAGGCGCGATTATTGATGCTGCGCAACACCATGAACGCCTCGACGGCGGCGTTCAGTGTCGGCTATGAAAGCGCCTCGCAATTCAGCCGCGAGTTCAAGCGGATGTTTGGCCGGACGCCACAGGCCGAGGTGGAATGGATGAGGGCGATTTATGCGTTGCCGGAGGGGGTGGCGGCGTCGGGGTATGTTTCTTCGCATTAG	MREIYYRILTGEQGGSMRAALSRRGHFGKITRAIRKIHSCYHEHLYVETLAQEAGMSVPNFHLHFRNVTGASPMQYLKSTRLHQARLLMLRNTMNASTAAFSVGYESASQFSREFKRMFGRTPQAEVEWMRAIYALPEGVAASGYVSSH	PGPT0014658_11	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014658-ypdC-NA	NA	NA
D1-35_01126	486			hypothetical protein	ATGACCGTCGAAAATAAAGTGCAAGATACACATATATCGGCGCAGATGAAGGATCTGCATCGGTCCTTGATCTCGATCGTGAGCGTGATGAACCGGCCTAGGAACGACGAGCGACTCATCGCGGAAGCTGGTGTACACCTGGACCAGGCGCTCTTTCGCCTGCTGGTGGTAATCGAGCGGGTGGGGCCGATTGGTGTCGTGGATCTGGCAGGTCGCCTAGGCAGGGACTATACGACCATCAGCCGTCAGGTCTCCAAGCTTGAACACATGGAGTTAGTGATCCGGCATGAGAACTCGGAAGATCGACGGATGCGCGAGGCGGTGGTGTCCGCGAAGGGCAAGGCGATCACCGACCAGATAGACCAAGCGCGCGAGCGCCTGGCACGAGGAATCTTTCAGGACTGGGCTGCCGAGGACATCACCGACCTGGTGCGTCTGATGCGTAAATTTGCCAAGGCCCTGGAACAGGGCACAGGGGCTGGTTAG	MTVENKVQDTHISAQMKDLHRSLISIVSVMNRPRNDERLIAEAGVHLDQALFRLLVVIERVGPIGVVDLAGRLGRDYTTISRQVSKLEHMELVIRHENSEDRRMREAVVSAKGKAITDQIDQARERLARGIFQDWAAEDITDLVRLMRKFAKALEQGTGAG				NA	NA	NA	NA	NA
D1-35_01127	1473	tetX	COG0654	Flavin-dependent monooxygenase	ATGCGTAAGCCCGTTGACGTCCTGATTTGTGGTGCCGGTGCCGCGGGCCTTACCTTAGCGATTGACCTGGCGCGGCGAGGGGTGCGCTTTGCCCTCATCGAAAAGCTTTCCTCGCCCTTCTTGGGCTCGCGCGGCAAAGGCATTCAGCCCCGCACCCAGGAGGTCTTCGAAGATCTCGGGATCCTGGACCGGATCATGGCCGCAGGCGGTATCTACCCGACTATTCGCAAATACGCGCCCGATGGTAGTCACGTGGACCAAGACGTGACGAACGTTGCCGAGCCCACACCTGCCGAGCCCTATTGCCTGCCTTTGATGATTCCTCAATTCAAGACCGAAGCAGTCTTGCGCGAGCGCTTGATCGAACTGGGGCATGCGCCAGAGTTTGGTGTCGAGCTAACCGGGACGCTGGTCAGCGCCGACGGAGTCAAAGCCGTACTCGCAACCCCGGATGGAGAACAGACCCTCCATACCCGATACCTGGTGGGTGCCGATGGCGGGCGCAGCTTCGTGCGCAACACCTTGGGGATTGGCTTTCCGGGCAAGACCCTGGGCGTACGGGCAATCGTGGCCGATGTCATATTGGATGGACTGCCGCGCGACGTGTGGCACCAGTTTGATGGTGGGGGCTCAGGCCCATTGGCTATCTGCCCGTTGGCGGGCACAGACCTGTTCCAGATCCAGGCCCCTGTTCCCTTGGAGGGCGATATAGATCTCTGCGCGGCTGCGCTGACCGAACGCGTTGCCCTGCACACGGGGCGCACGGACATCATGGTCCATTCGGTCGCCTGGTCATCCATCTACAGCATGAATGCCAGGCTTGCCGATCGTTACCGGGATGGCCCGGTGTTCCTGGTCGGCGATGCGGCGCATGTCCATCCGCCTACCGGTGGACAAGGCCTCAACACCAGCGTCCAGGACGCTTACAACCTGGGCTGGAAGCTGGCGGCCGTATTGGCCGGCGCACCAGAGGCTCTACTGGACACCTACGAAGCTGAGCGCCGCCCGGTGGCCGCAGACGTGCTCGGGCTGTCCACGCGCCTGCTTGCAAGCTTCAAGACCGGGGACAACAGGCGGACCCGTGAGGTCCAGCAGCTGGATATCGGTTATCCCCACTCGCCGCTATCGCTCCCGTCGCAGGCCACTGACAGCGGGCTCGCGCCAGGCGATCGTGCACCTGATGCCGTCGTGCGAGGCGCAGGCGGCAGCCCAACGCGCTTGTTCAACCTGTTCAAGGGCACACATTGGACCTTGTTAGCCAATGGTCCCTCGAACTTCGCGCCAAGCGCGGGCTTGCATATCCACGGCATCGGGCCCGGCTCGGAAATCGAAGATTACCTGGGTCAATTCGCCCAGTTTTACGGCCTCGCTGAAGGCTCCGCCGTGTTGGTCAGGCCGGATGGCTATCTGGCAGGGGTCTTCACGAAAGATCAGGTGGTTGCATTGGACGGCTATCTGGCTCGCTACAACTAA	MRKPVDVLICGAGAAGLTLAIDLARRGVRFALIEKLSSPFLGSRGKGIQPRTQEVFEDLGILDRIMAAGGIYPTIRKYAPDGSHVDQDVTNVAEPTPAEPYCLPLMIPQFKTEAVLRERLIELGHAPEFGVELTGTLVSADGVKAVLATPDGEQTLHTRYLVGADGGRSFVRNTLGIGFPGKTLGVRAIVADVILDGLPRDVWHQFDGGGSGPLAICPLAGTDLFQIQAPVPLEGDIDLCAAALTERVALHTGRTDIMVHSVAWSSIYSMNARLADRYRDGPVFLVGDAAHVHPPTGGQGLNTSVQDAYNLGWKLAAVLAGAPEALLDTYEAERRPVAADVLGLSTRLLASFKTGDNRRTREVQQLDIGYPHSPLSLPSQATDSGLAPGDRAPDAVVRGAGGSPTRLFNLFKGTHWTLLANGPSNFAPSAGLHIHGIGPGSEIEDYLGQFAQFYGLAEGSAVLVRPDGYLAGVFTKDQVVALDGYLARYN				NA	NA	NA	NA	NA
D1-35_01128	1686			hypothetical protein	ATGATCAATACACATAAAGACAAATCTGAATCCATTGGCAGTGAACCAATTACCTACCAGAACGGCTGGCCCTGTTTCCGCGAGCACAGCTTGGTAGAGGCCGCTGTAACTGAGGCAGCCCGAGAGCTGCAGATTTCCCGTGAAATGGCAATGATGTGCGCCTTCGGGGCCATGGCCACCGCTTGCCAGAAACTTATTGATATACGAATGCCAACCGGACACCAAGTGCCAACCTCACTGATGCTGCTGACCATCGCGGACTCCGGTGAACGCAAGACCACTACACAGAACAATTTTTTCGAGGCGATCAACGACCTGAATGATGCAGCGCATCGCGCCAACGAGGTCGCCTTAGTGGAGCATCGGGTCGAACAGCAACTATGGAGCACGCGCAAGAGACACCTGGAGCGTATGTACAGCAAATACGCAGCCCAAGACGACGCCGCCGCCACGCACGCAGCCCTGAAGACTGTCGCTGAGCATGTCAGAGCTGAACCGCAACCCGCCCGCTCGGGCAAGTTCCTCTATGAAGACACCACCCCGCAGGCCCTAGTGCAGATGCTTTACGAACACACGCCCAGCGGCTGTCTGCTGACTAGCGAAGCCAACAGTATTTTCAGCGGCAAGGCCTTGGGTGAGCTCGACAAACTCAATACTCTCTGGGATGGCAGCAGCGTTATCGTCGATCGCATTTCCAGAGAAGGCTTCATTCTCCAAAATGCCCGTCTCACCTTGTCACTAATGGCACAACCGAGCGTGATCGCCCGCTTCATGGGCAGGCGCGGCGAGGAGGCTCGCGGCACGGGCTTTCTCGCCCGCTTCCTAGTCGCCAAGCCCCGCTCAATGGCTGGCCAGCGTACCGATCAAAAGCTATCTGAACTGCCTCGCCTACAGGCCTTCAATGCCCGCATCCGCGAGTGCTTGGCCCCCTCCGTTTCGCCTGATCGCCAAGTACTACGTTTCTCGGAGCCGGCCGCAAATCTCTGGTACCAGTACAGTCGGCATCTCGAACAACAAATGCAGGAAAACGGCCTATACCACTACGCTAAGGATCACGCTTCCAAGCTGCTGGAAAACGCGAGTCGTCTGGCGGCCATCCTGCATACGTTCGAGCGCACCTCAGACAGCAATACCGAGATCGACTACCTCACGCTGGAGTTCTGCTGGAAGTTCGCTCAGAACTGCTCAAAGCACTTCATCGAGCACTTGGCCAACGAGCCGCAGCTCGTGACGGATGCGAACCAACTGGCACACTACCTACTGAAAACCGCCCACAAAGAAAACCCTCTCACAGACAGACCTACAAACAGGAACAGAAACGACTCCTCACCCAACACGCGCCTCTCATCGACGCCACCTGACGATTTGATGACCGGGCAACGAACCACTTTCACACTAACCCAGGTGAAACAGTACGGCCCCAGCAGTCTCAGGGGACGGGCCAATACCGAGCGTTTGGAGGCAGCCATCGAGCTGCTGACCAAGCTGGGGCATATCGCCAAGGAAGGAGGCCGCTACCGGTTCCAAGAATCGATCCTCCTCAAAAGAGGAGAGCCCGAACTGAAGAACGGCGAAACGCTCACGATCAAAGAGCTTCCTCTGTTCAGCGAACATGAGTATTGGAAGCCTGAGGTAAGGAATGGGTTTGGGCCTCAGCCGAGCTACCTCATCAAAGTCCGCGATTAA	MINTHKDKSESIGSEPITYQNGWPCFREHSLVEAAVTEAARELQISREMAMMCAFGAMATACQKLIDIRMPTGHQVPTSLMLLTIADSGERKTTTQNNFFEAINDLNDAAHRANEVALVEHRVEQQLWSTRKRHLERMYSKYAAQDDAAATHAALKTVAEHVRAEPQPARSGKFLYEDTTPQALVQMLYEHTPSGCLLTSEANSIFSGKALGELDKLNTLWDGSSVIVDRISREGFILQNARLTLSLMAQPSVIARFMGRRGEEARGTGFLARFLVAKPRSMAGQRTDQKLSELPRLQAFNARIRECLAPSVSPDRQVLRFSEPAANLWYQYSRHLEQQMQENGLYHYAKDHASKLLENASRLAAILHTFERTSDSNTEIDYLTLEFCWKFAQNCSKHFIEHLANEPQLVTDANQLAHYLLKTAHKENPLTDRPTNRNRNDSSPNTRLSSTPPDDLMTGQRTTFTLTQVKQYGPSSLRGRANTERLEAAIELLTKLGHIAKEGGRYRFQESILLKRGEPELKNGETLTIKELPLFSEHEYWKPEVRNGFGPQPSYLIKVRD				NA	NA	NA	NA	NA
D1-35_01129	231			hypothetical protein	ATGCGAATCATCCGTCTGAAAGAAGTCATCGACTCGACAGGACTTGCCCGGTCGACCATCTACAAATACATCGCGGAGGGCACCTTCCCGAAACCGGTATCTCTGGGCGACCGCTGCGTTGGCTGGGTCGAGAGCGAGGTGCACGATTGGATCTTGGCAAGGATTGAAGAGCGTGATCTGACCGAGAGCTCTGCAGTGCGGTCCACCGGTCACCTAAGCATGGCCAGTTAG	MRIIRLKEVIDSTGLARSTIYKYIAEGTFPKPVSLGDRCVGWVESEVHDWILARIEERDLTESSAVRSTGHLSMAS				NA	NA	NA	NA	NA
D1-35_01130	696			hypothetical protein	ATGCTTCGTCATTCCGATAACACGAGCCACCGTCCGCGTCGTCATCCAGGCAACACCAACCTCCATCTGCAGTACGGGCCTACCTACGGCGGCCTGCCCTTGATGGTCGACAAGGGGCCGTATGTAGAGGAGTACCTATTCAGTCTCCTGAGCGTTATCCAGCGGGCTCTGACTCAATATCCTAGGGTCATGGCATTCCGGGTGGACCTTCATCTGCCGAGGGAGATAGATCTGTCCGCTAACACCAACAAGAACATCAGCAGGTTTATCGAGTCCTTCTGCGCCAAGATTGACTACCACCGCAGCCAGCTGCGTGAGCAAAAGCAGGATGCTCGTGGTTGCAAGGTTCGCTATGCCTGGGCGAGGGAGGTCGGACAGAGAGGACAGCCGCACTACCACTTGGTGTTTCTGCTCAATCATGATGCCTATCACAGGCCAGGCCGGTTGCAATCTACGAATCGAAATCTCGTGACGCGCCTGCAGGAAGCTTGGGCTAGTGCTTTGCAGCTATCAGTCGATCAGGTACGTGGGCTGGTGCATATCACTGACAATGCCACATATCGAATCTACCGGGACGTCCCCGACGGCAAGATTGATGAGCTGCCAGAGTTGTTCCGGAGAGCCAGCTACCTATGCAAGGAGGCTACGAAGTCCTACGGGGATCGTCAGCGTGGATTCGGCACCAGCAGGGGATAA	MLRHSDNTSHRPRRHPGNTNLHLQYGPTYGGLPLMVDKGPYVEEYLFSLLSVIQRALTQYPRVMAFRVDLHLPREIDLSANTNKNISRFIESFCAKIDYHRSQLREQKQDARGCKVRYAWAREVGQRGQPHYHLVFLLNHDAYHRPGRLQSTNRNLVTRLQEAWASALQLSVDQVRGLVHITDNATYRIYRDVPDGKIDELPELFRRASYLCKEATKSYGDRQRGFGTSRG				NA	NA	NA	NA	NA
D1-35_01131	807			hypothetical protein	GTGGATCGCTTTGCCATCCAGTCCGCTGCGGCGACCCGGGATCTTGCGCTGTATAGGGAGCTAGCCTCCGGCAATATCGACTATGACTCCAAAGCCAAGACCTATGTCCTTGGAGCTGACTTCCGTTCGCTGTTCGATTACCCAGCAGAAAGAGTTATGTCGTGGCTGACACAGGCCTTCGGTGATGGCGAGCCGCTTAAGTTCAAAACTTGGGTGCCTAGTGAAATTCCTTCTAGGCTGACGAACCCTGATTTGGATGTGCTGGCGAGTGTGACGCGCGCCATCCATCACTGCTGTCCCTTGGTCGTTGAATACCACTCGATTTCCAGTGGCAAGTCGAAACGCGAGATCGTGCCTTTTGCTTTGATCGATACAGGTTTTCGCTGGCACGTTCGCGCGTTCGATCGAAAGTCAAAAGAATTCCGTGACTTCGTCATTACTCGGATAAGGCGCCCAGTGGTGCTTAATGGTCAGCCCGTGGCTCCTCAGGAGATGAGCGATCAAGACATTCAGTGGACCCGAATCGTCGAGTTAGAGCTGGTGCCGCATCCGAGCCAGCCGCGTCCAGAAATAACCGAAATGGACTACGGGATGGATGGAGGGGCACTACGCATGAAGCTGCGTGCCGCCACTGCCGGATACATCCTAAGGCAATGGAGCGTGGACTGCTCGCCAGACCATAGTCTGCGTGGGCATGAGTACCGGCTTTGGCTGAAGGACCAGTTGGCGCTATACGGTGTCAAGAATGCTGTTTTGGCTCCAGGCTACAAAGAACCCCGTCTGGACGAGGCGAAGCCAAATTACTAA	MDRFAIQSAAATRDLALYRELASGNIDYDSKAKTYVLGADFRSLFDYPAERVMSWLTQAFGDGEPLKFKTWVPSEIPSRLTNPDLDVLASVTRAIHHCCPLVVEYHSISSGKSKREIVPFALIDTGFRWHVRAFDRKSKEFRDFVITRIRRPVVLNGQPVAPQEMSDQDIQWTRIVELELVPHPSQPRPEITEMDYGMDGGALRMKLRAATAGYILRQWSVDCSPDHSLRGHEYRLWLKDQLALYGVKNAVLAPGYKEPRLDEAKPNY				NA	NA	NA	NA	NA
D1-35_01132	504			hypothetical protein	ATGAATACCATCGCAAAAACAATCGCAGAGCTCCGGATACTGATTGGTTACCTGGGGGAAAAGGGCCAGGCTAATTGGTGGGGCAGCGAGTTCTTTGGCGCTACAGCGTCTGCTTTTTTGGCTCCAATATTCAACCGATCTCTATTTCTTGCCCAATACCAGGGGGCAACTGCGGCGGCAGCTAAGGTTCACGACGAGGTCATTGGTGTTGGCCGTATCTATCACCTATTTCGTTTGCCGATCGGGCTCGAGCAAGCATCTGCTGATGCGCTCAACGACACCGCTTTCGTGCAAATCTTGCAAGGCAGATTGGCAAGTCGTGAGCTGGCGATGGTGCGCCTGGCTGAATTGGCGGAAAAACCAGAGTCCGCATCGCCAGGCCCCATTTCGCTGGGCCAGATGAGTCAAGATCTACAAACCGAGCTAGAACGTGCTGCGGGCTTTTATTGTGCAGCCCTAACCTCTGGAATTCAGACGTTCCCCTACGTTCGGGAGGTTGAGTGA	MNTIAKTIAELRILIGYLGEKGQANWWGSEFFGATASAFLAPIFNRSLFLAQYQGATAAAAKVHDEVIGVGRIYHLFRLPIGLEQASADALNDTAFVQILQGRLASRELAMVRLAELAEKPESASPGPISLGQMSQDLQTELERAAGFYCAALTSGIQTFPYVREVE				NA	NA	NA	NA	NA
D1-35_01133	786			hypothetical protein	GTGAGTCAGCAGCGCTACTACACCACTCAGCTACAAGCCGGGCTTGGGCTCTTAGAAGAAACAAGGCAACTGCTCCAGGTTTATCAATCTAGCATGAGTGCGTCCCAGCTTTATGAGGCCGCGCTGGCATCGGGTCGTTTCCCTTTGGTAACGGCAAGGCGCCTACGCAATATTGTTGCCGAGTGCTTTGCCCCACGCTACATGCGCGACCCCTGCGTTGCCGCGCGCCTCAAGTCCCTGGTTGATCGTTTTACGACCGCCGAGCTCAATCAACTGCTCTTTATCTATACCGCGCGAGCCAATCTTGTATTGGCAGACTTCGTTCGAGAAGTTTACTGGGCGCGCTATTCAGCAGGGCGAAATGACCTCCAGCTGGAGGACGCACGCACCTTTGTTGCTAACAGCGTGCGCGAAGGAAAAACGCAAAAGCCATGGTCTGAGACCACGATCAAGCGCATCTCATCGTATTTGATGGGCTGCTGCGCCGACTATGGACTGCTGACAACCACAGGCCGTAACCAGCGCTCGATTGCTGCTTATCGCATCTTGCCAAAGGTCGCCGCCTACTTGGCCTACGACTTGAAGTTCAGTGGTCTTGGTGACAACCAAATTGTTTCAAGCTCCGACTGGGATCTCTTTGGACTGGAACGTACCGACGTCCGAGACCAATTGAAACGTTTGTCATTACAAGGCCTGCTCATATTTCAGGCCGCTTCCGATGTCGTGCATATCGGTTGGACCTATAAAAACATGGAGGAACTGATCGATGTCATCGCTCAAAGCTGA	MSQQRYYTTQLQAGLGLLEETRQLLQVYQSSMSASQLYEAALASGRFPLVTARRLRNIVAECFAPRYMRDPCVAARLKSLVDRFTTAELNQLLFIYTARANLVLADFVREVYWARYSAGRNDLQLEDARTFVANSVREGKTQKPWSETTIKRISSYLMGCCADYGLLTTTGRNQRSIAAYRILPKVAAYLAYDLKFSGLGDNQIVSSSDWDLFGLERTDVRDQLKRLSLQGLLIFQAASDVVHIGWTYKNMEELIDVIAQS				NA	NA	NA	NA	NA
D1-35_01134	573			hypothetical protein	ATGTCATCGCTCAAAGCTGATTTCAATGAGTTGATGGAGCGAATTAAGCAGGGGCGCGAGTTTGGCCATGCCAGCTTCGAGCCCATTTTCTATTTGGTTTTTCCGCCAAATCAGATCCTCAATGTGAAGCGCGAAACACCTGCGTGGGTGCACCGACTGCGTAACGAAGGCTGGGAAGTCGAAACCTTTTCGATCGCCGAGCATGTTGCAGACATTATCGAGAAGGCACCGCTTCGCAAGATCTGGCTCGCGGCCGATCAGAAAGCCCCCCTGGCATGGGGCAAGACCAATGCGTCGCTCGCTAATGCCATCAGTAATGGCGCGTTGCAGGCACGCATTGAAGCCAAGCTGGCCGAACTTGAAGGCAAGCCTAAGGCCATTTTGCTGGTCACCGATCTTGAGGCGTTGCATCCCTACACACGCATCGGTGTCATCGAAGGCAAGTTGCAAGGCAAATTCCATGTACCCACGGTGTTCTTTTACCCTGGTGTGCGCACCGGCAAGACACGACTCAAATTCCTGGGGTTCTACCCCGACGATGGCAACTACCGCTCTGTCCACGTCGGCGGCTAA	MSSLKADFNELMERIKQGREFGHASFEPIFYLVFPPNQILNVKRETPAWVHRLRNEGWEVETFSIAEHVADIIEKAPLRKIWLAADQKAPLAWGKTNASLANAISNGALQARIEAKLAELEGKPKAILLVTDLEALHPYTRIGVIEGKLQGKFHVPTVFFYPGVRTGKTRLKFLGFYPDDGNYRSVHVGG				NA	NA	NA	NA	NA
D1-35_01135	3642			hypothetical protein	ATGACGATCAAAAAACTCTTCGACCCCAGCAAGAGCATCAATCGCAGCATTGAAAAGGTCATCACTTATGGCGTGTCACAAGAGGCGCGCCTGAAATCGGAAATCTCGGAATACGTAGTTACCGACAGCATCGACCAGCAGTTTGAGAATCTCCTGCTCAAGATGGAAGCCGCCATGGACATTGGTGGCGAAAACGAAGTCGGCGTCTGGGTGTCGGGCTTCTATGGCTCGGGTAAGAGCTCGTTCACCAAATATTTGGGCTTGGCATTTGACGATCGCATCACCATTGATGGCGTTCCATTCATCCAGCACCTCCAAGATCGCCTCAAGCGTCAGCAAACCAAGTCCTTGCTTTCGAACGTAGCCAAGCGCTTTCCTGCCGCAGTGCTGATGTTGGACTTAGCCAGCGAACAGGTCGCAGGTGCAACCATGGAAGAGGTGTCGACGGTCCTGTTCTACAAGGTTCTGCAGTGGGCAGGTTATTCGCGCAATCTCAAGGTTGCTGCGCTGGAACGCAGGCTTAAGAAGGAAGGTCGTTACAACGAATTCCTGGATGCATTCAAAGAGGCGGCGGGCGGTGAAGACTGGAGCAACTACCGTAACGACGAGTTGGTGGTCGACAGCCTCATTCCTGAGATTGCGCACAAGCTTTACCCGACCCTTTTCAAGACATCCAGTTCGTTCACGACCGAATCAAGTGAAATCGTCGTTTTCGAAAACGACCGCGTGCGTGAAATGCTGGAGATTGCCCGCGAGGCATCGGGCAAGGAATACATCATCTTCATCATCGATGAAGTCGGTCAGTACGTTGGCCCACGGCCCAATCTGATCCTGAACCTCGATGGATTGGCGAAGAACCTGAAAAACATCGGCGACGGCAAGGTTTGGATCGTCGGAACGGCGCAACAAACGCTCACGGCGGACGACGCGAAGGCCGCCCTCAACTCGCCAGAACTGTTCAAGCTTAATGACCGCTTCCCGATTCAGATCGCCCTTGAATCCAACGATATCAAGGAAATTTGCTACACACGTCTGCTGGGCAAGTCGTCACCAGCGGAAGCCGAATTGGGCGGATTGTTTGATCAATATGGCCAGCAGCTGCGCCAGAACACCAAGCTTGTTGATGCGCGCGTCTATGGTGTCGATTTTGACCGCAAGACCTTTGTCGATCTCTACCCGTTCCTTCCCGCGCATTTCGACATCCTGCTGCACTTGCTAGGCGCACTGGCCAAGTCCACGGGTGGCATCGGCCTGCGCTCGGCGATCAAGGTGGTGCAAGATATTCTGATTGACGGCTCTGAAGGCAAACCTGCCGTTGCAGAGCAAGCCGTTGGCTGGCTCGCCACCACCGTCACGCTGTTTGATGCTCTGGATAAAGACATCAAGCGCGCCTTCGCCTCTTTGCACGCATCGGTCGAGAAAGTCACAAAGATCCGCTTCTCGCATTCCGAGTTGCATCAAAACATCGCCAAAACGGTCGCCGTTCTGCAAATCCTTGGCAACCTGCCGATCACTCGTCAAAACGTCACCAGCCTGATGCACGCCAGCATCGCCGGGGCGTCTCAAGGAGAGGCTGTGGCGAAGGCGGTCGAAGACCTGATCAACGACCCCATCGTTCCATTTGGCGAGCAAGACGGCAACCTTTGCTTCTTCAGTGAAAAGCTGAACGACATTGAACAGGAACGCAGCCAAGTTGCACTGCGCGGCGTTGAGCTGCGTCGCATCGTTAACGAAGCGTTGACCAGTGTCTATGCGCCGTTGCCCTCCACCCAATTGCACGGCTCCTATGCCGTATCCACCGGACTTAAGGCGCAATCGGCAGGCAATGTGCCCGCATCGTTGGCGGGTGAGCGTAACCAGATCCAAACCATTGTTGAATTGGTCGACCCCAAAGAAATCGACAGCACACGCACTCGAGTCACTGACGAGTCGCGTCACAACTCATCCAAGTTCAACATCTACCTAGTGGGCCGCACGACGCCGGAAATGGACGAACTGACGGCTGACATCCACCGCTGCCGTGAGATCGCCAACCGCTACCGCAGCGATCCAGATCAGGAAATTCGCGAATATTGCAACGGCCAGGCCGACCGGGCTGAACACCTTAGCATCAAACTGCGGGCACAGATCCAGCGCAGCCTGTTGCAAGGTTCGTTCATCTTCCGTGGCCAGGTTGTCGCAGTAGATACGCTGGCGGCGGAGCTGCTGGATGCCGCTCGCAAACACTTGAGCGAAGTGGCCGAGCAAGTGTTCGATCGCTATGTTGAGGCCCCGGTGCGCGCCGGAACCGAACTCGCTGAAAAATTCCTCCGGGTCGGCAATTTGTCGGGCATCACCAGCGCTCTCGATCCTCTGAACCTTGTGCAAACCCAAGGCGGGCGGCACAGCATTCGCACTGACCACTTGGCGATGGTGAGCATCCGTGACTACATCGATCGCAACGGCACAGTCGACGGCAAACGCCTGACTGATGCCTTTGCTGATGCGCCCTTCGGTTGGTCCGCTGACACCCTGCGCTATCTGGTGGCGGCCATGCTGCTGGCAGGTGAGATCAAGCTCAAGGTGGCTGGACGTGAGGTTACCGTCAATGGCCAACAAGCTATCGACGCCATCAAAACCAACAATACGTTCAAGATCATTGGCATTTCGCTTCGCGGCGGCGACCGTCCGACCAACGACGTACTGGCACGCGCTGCAACCCGGTTAACTGAATTGACTGGCGATACCGTCGTGCCGCTGGAAGACGACATCAGCAAAGTCACCACCAAGCTCTTTCCGCAACTGCAGCACCAATACGGCCCTCTCACTGAAAAACTGCGCAGCCTGAACTTGCCAGGTGTAGACCGCCTGCAAAACCTCACTCACGAGATTAACGATGTGCTGCTCACCGACGCTTCGGATGCGCCGCGACGCTTGGGCAACGAGCAATCAGAGCTGTTTGAAAATCTCAAATGGGCTGCCGAAGTCAAACTCAAGTTGGAGCAAGGCCTGGAGCAAACGCTACGCGATCTTCGCCAGCACTGCTCGGCCATTGCCAATCTGCCGAATGTGGCTTTGCTGGCCACACTAAAAGAAGAGTTGGCTGAGGCTCTCAGCCTTATCGACGAGCGCCTGCAGCAGGCCGACTTCTATCGTTTTGCGGCTGATTTCAGCACCAGCCTCACCACCATTCGCGCTCGCATTCGCGATACGGTGATTGCGATGCAAGATCTGCTCAAAACACGCATCAAAGAGGCCGAGGTTGACCTCAAACGGGTGCCGGAGTGGATCAAGCTCACCCAGCAAGAGCAGACTGAACTGTTGGGTAGCCTAGAGCGTTTGATTGTGGAAGTGACGCCTGATTTGTTGGGACTCAATTCCATTACAAACAAGCTCTCTGAACTGCAGGATGAAGTGCAAGGTTTGAAACACAGCATTGAGCGCCTTGGCACGAAGCGGATTAAGGAGGAGCTTGAAGCTGAGATTCCTGTACCAAGTGCTGTAAATGAACCGAAACCAGCCATCGCGCGCAGTATCAAAGCGCGCACCAAGATCACCACCATGGATGATCTGGATGCGCTGATCACGCAGCTGCAACAACTGCGTGGCGAGCTGAAGTATGCACATGCCTTCGCCGTCAACCTCGAACTGCAGGACGAATAA	MTIKKLFDPSKSINRSIEKVITYGVSQEARLKSEISEYVVTDSIDQQFENLLLKMEAAMDIGGENEVGVWVSGFYGSGKSSFTKYLGLAFDDRITIDGVPFIQHLQDRLKRQQTKSLLSNVAKRFPAAVLMLDLASEQVAGATMEEVSTVLFYKVLQWAGYSRNLKVAALERRLKKEGRYNEFLDAFKEAAGGEDWSNYRNDELVVDSLIPEIAHKLYPTLFKTSSSFTTESSEIVVFENDRVREMLEIAREASGKEYIIFIIDEVGQYVGPRPNLILNLDGLAKNLKNIGDGKVWIVGTAQQTLTADDAKAALNSPELFKLNDRFPIQIALESNDIKEICYTRLLGKSSPAEAELGGLFDQYGQQLRQNTKLVDARVYGVDFDRKTFVDLYPFLPAHFDILLHLLGALAKSTGGIGLRSAIKVVQDILIDGSEGKPAVAEQAVGWLATTVTLFDALDKDIKRAFASLHASVEKVTKIRFSHSELHQNIAKTVAVLQILGNLPITRQNVTSLMHASIAGASQGEAVAKAVEDLINDPIVPFGEQDGNLCFFSEKLNDIEQERSQVALRGVELRRIVNEALTSVYAPLPSTQLHGSYAVSTGLKAQSAGNVPASLAGERNQIQTIVELVDPKEIDSTRTRVTDESRHNSSKFNIYLVGRTTPEMDELTADIHRCREIANRYRSDPDQEIREYCNGQADRAEHLSIKLRAQIQRSLLQGSFIFRGQVVAVDTLAAELLDAARKHLSEVAEQVFDRYVEAPVRAGTELAEKFLRVGNLSGITSALDPLNLVQTQGGRHSIRTDHLAMVSIRDYIDRNGTVDGKRLTDAFADAPFGWSADTLRYLVAAMLLAGEIKLKVAGREVTVNGQQAIDAIKTNNTFKIIGISLRGGDRPTNDVLARAATRLTELTGDTVVPLEDDISKVTTKLFPQLQHQYGPLTEKLRSLNLPGVDRLQNLTHEINDVLLTDASDAPRRLGNEQSELFENLKWAAEVKLKLEQGLEQTLRDLRQHCSAIANLPNVALLATLKEELAEALSLIDERLQQADFYRFAADFSTSLTTIRARIRDTVIAMQDLLKTRIKEAEVDLKRVPEWIKLTQQEQTELLGSLERLIVEVTPDLLGLNSITNKLSELQDEVQGLKHSIERLGTKRIKEELEAEIPVPSAVNEPKPAIARSIKARTKITTMDDLDALITQLQQLRGELKYAHAFAVNLELQDE				NA	NA	NA	NA	NA
D1-35_01136	3807			hypothetical protein	ATGGCTTTCGATCAATCCACACGAGGCCGCCTGCAAAAGCTGGTTAACACTTGTCGTAGTCTGTTGTCCGAGGAGTTTAGCATCCAGCTTCAGCAGGCCTATGGCCTAGACCCCAAGACCGGTGATGTCACGCCCATGGCGCGGCTTATCCATCTGGACGATCGCCAGCGCCACACGGCTCAAGTGCTGCGCCAAACTCTGGCGCACTACCTGGGCGCGGATGCCGACGACACCGATCACCGCATCGCAGTGCTCGACCGTGTGGTGCGCGAGCAGGCTTTTACCGTGCTCAACCGTTTGGCAGCACTGCTAATGATGGAAGCGCGTGGACAACTAATTGAATCGGTCAGCAAAGGCTACCAATCGCGTGGCTACCAGCTCTACAGTAAGATCGCCGGTAACGCCCTGGGTGAAACCGGCCAGGCGTACCAGGTTTATCTGTTCAGCGTGTTTGATGAGCTGACACAAGAGCTGCCCGCCCTATTTGATCGCTATGCCGCCAATGGTTTGCTATTCCCGCGCGAGACCGCCCTACGGGCGGTGCTGGGCGAGCTCAACCACTTTGAAGTTGAGCCACTTTGGGCCGAAGACGAAACCATTGGTTGGATCTACCAATACTTCAATTCCAAAGAAGAGCGCAAGGCCATGCGCGATGCCAGTCAAGCACCACGCAATAGCCGCGAGCTGGCCGTTCGCAACCAGTTCTTCACGCCGCGCTATGTGGTGGAGTTTTTGGTGGACAACACCCTGGGCCGCCTATGGTTCAACGACACAGGTGGGCAAACCGAACTGCGCGACCGTTGCCAATACTTGCTGGTAAAACCTGATGAGCAACCGCAGGCTTCAAGTAAAGTGCGCGACCCGCGCACACTTAAGCTGCTGGATCCGGCTTGCGGCTCTATGCACTTTGGCCTGTATGCCTTCGATCTCTTTCTGGAGATTTACCGAGAAACCTGGGCTTGGGAGCAGCAAAACGGCCCGGGCTCGTTGGATGTTTCCACGCAACCCCAAGCCGCGCTCAAGCCACTCTGCCGTACCTACGAAGACGAAGCTGCTTTTACGCGCGATTTACCTCGTTTGATCATCGAGCACAACATCTACGGTGTGGACATTGATCCGCGTGCCGCCCAGATCGCTTCCTTGGCGCTATGGTTGAGGGCGCAGCGTGCCTGGCATGAAGCAGGTGTCAAAGCCAAAGACCGTCCACGTATAGGGCAGGGCCACGTAGTGGCGGCCGTTGCGCCGCCAGCAGAACGTGAATTGCGCCATCAGTTTGCAGCTAATCTGGATCAGCGTGACGCCGAACTGTTCGAGAAGACCCTGCAATTGCTCAAGGGCCTGCCAGAGCTGGGAGTGCTGCTCCAAGTTGAACACGAGTTGCCGAGCCTGATCCGTCAGGTTTATGTGGGCAAGGGCACTGGCCTGTTTGCCGAGCAGGAACAGGAGAGCTGGCTGAATGCCGAGGCTCGCTTGCGTGCGGCGCTGACCGAGTTTACCCAGGCTTCCCATTCAACTTATCAAGGGCGTCTATTTGCGCAGGATGCCCTTCAGGGATTACGGCTGATAGATCTATGTAGTGAGGTGTTCGATGTAGTGGTTATGAATCCCCCTTTTGGTGATGGTTCCACTGAATGGTCTGGCTACTTAAGCAACCGATATGGAAAACATGCAAATAATCTTTTTTGTACTTTCATTGCACGAGCGATTTCGCTGTCTAAACTAGGCTTTGTCGGCGCTATAACTGACAATACATGGCTGAAGAAGACTGATTACGAAGACCTTCGGGAGTTGGTACTGGATGGCGATCTGCAATTGGCTAATTTAGTTGATCTAGGTTGGGGAGTGCTTGATGATGCGAATGTTGCTGCTTGCGCATTCACATTAAGTGCGTTGAGCACCGACATCGTGAATACGCTCGACTTGCAAGAATCGCCATTAGATGAGAAAGGAGACTTGCTACGCACTGTAGTTAGTCAGTTCTCCAATCCTTTTTCTTTGAAAGAACATCCCTCTGCCCCGCAGATCAATTCAGTAGATAGAAGGTTTTTCGACAATTTCCCAGGAAAGGCTATCGCCCATGAAGCTCCGCCCGCATTTGTTTCGTTGTTCACTTTGTGGCCTGGTATAGATCCATCGTTCTGTAAGACCCGTCGTGGGTACACTCCAGGCGACACATTTAGGTTTTTTAGATTGTGGTGGGAGGTGAGCTCGGACTTGGGGGCACAAAAGTGGTGGACCTTGAACAACGGGGGGGCATATTCACCAATAATTACTGATGGGCTTTTGGTTGGTTATCGTGATGACGGCTGGTCTCAATACCGCCCGCTTTCTGGGTTCAGACTTGAATCTGAGCAATGGTTCGGAAAGCCGGGAATTGGTTGGGGCAAAAGAACCGACTATATGTATGCTTACCCTTTGCCGGCCGGAAGTATATTTTCCCATGAAGGACATTGCGCATTTCCTACTGATGATGTGTATCTTTGGCCTTTATTGGCTTATTTAAACTCATCACTAGGTCAGCAGCTGCTCAATCTATTTTGTGGGCAGCACAAATTGGCAGGCTACGTCTCCAACCTGCCTTGCCCGCCGCTTAATTCTGAAGAGTTGCGACTGGCTGGAGATGCGGCTAAAGAATGTTGGGAAGCAGCGTCGAAAATTTCTCGCACTTCTGAACAGTCAGAAATATATAATTCGCCATTTAGCAAAATAGCGAAGCCGTGGGAAGTAAATAAACTACTAAGCGGTTGGGTTGACATATATTTTAAAAAGATTGCTGAGATAGACCGGTTGGTTGATAAGTGTGCGGCGAAGGCTACGAATATTTCAAGTTTTTCCTCATCTGGAGATGACCGGCCAAGAGCGTTTGTTGAGAAATTTTGTACGTCATATGACTGGGCGCGAGAACTTGTTTCGTACCTTTTTGGCTGCGCTGTAGGACGTTGGTCAGTTGGCGAGTTTGATTCTGATCTTGAAAATTTATGCGCTGGAAATCCTTTCGAGAAGATTAACTACCATTTTTTAGATGTTGATGCTCGCAATGTGGTTCTTGTTGATGACCCGGGTGCGCCGCTTGATGCATCTGGGTTGATACGATCATATTTGAGAAAGATATGGAATGAAGATGCTGATGTCATCGAGTCCGCTATATTGGAGCATATTGGTGAGGAGAGTCTTCGTTCGTATTTGGTAAGACCAAATGGGTTCTTCGCGGATCATCGGGATAGGTATTCAAAAGGAAGGCGATCAGCCCCAGTCTATTGGCCGCTTTCTACTGCATCGGGTAGTTACACGTTGTGGGTCTATTATCCATCCTTGAGTAATCAAACGCTGTTCTCAGCGGTGAATGATTTCCTCGACGGCCCCAACGGGAAGCTGACGCAAGTCAGCCGTGAGTGCGCAGAGTTGCGCATTACGGGCAGCGGCCGTTCTCGTGATGAGGAAAAGCAGTACGAAACGTTGCAAACCTTCGAGCAAGAGTTGACCGATCTGCGCGACAACTTGCTCAAGATCGCGCCGACCTTCCAGCCCAACCACGACGACGGTGTGCAAATCACCGCCGCGCCGCTTTGGCCGCTGTTCCGCCACAAGCCCTGGCAAAAGGTGTTGAAAGACACCTGGGGCAAGCTGGAAAAAGGTGATTACGACTGGGCGCGCCTGGCCACGGCCTACTGGCCCGAACGAGTGCGCGAGAAGTGCAAGAACGACAAATCCCTCGCCATCGCGCATGGGCTTGAAGAGCTGTACGTGGAGCCAGAGGCCGCTCCCAAGAAAACGCGCGGAAAAAAGAAGGCTGGGGGTGAGGAATGA	MAFDQSTRGRLQKLVNTCRSLLSEEFSIQLQQAYGLDPKTGDVTPMARLIHLDDRQRHTAQVLRQTLAHYLGADADDTDHRIAVLDRVVREQAFTVLNRLAALLMMEARGQLIESVSKGYQSRGYQLYSKIAGNALGETGQAYQVYLFSVFDELTQELPALFDRYAANGLLFPRETALRAVLGELNHFEVEPLWAEDETIGWIYQYFNSKEERKAMRDASQAPRNSRELAVRNQFFTPRYVVEFLVDNTLGRLWFNDTGGQTELRDRCQYLLVKPDEQPQASSKVRDPRTLKLLDPACGSMHFGLYAFDLFLEIYRETWAWEQQNGPGSLDVSTQPQAALKPLCRTYEDEAAFTRDLPRLIIEHNIYGVDIDPRAAQIASLALWLRAQRAWHEAGVKAKDRPRIGQGHVVAAVAPPAERELRHQFAANLDQRDAELFEKTLQLLKGLPELGVLLQVEHELPSLIRQVYVGKGTGLFAEQEQESWLNAEARLRAALTEFTQASHSTYQGRLFAQDALQGLRLIDLCSEVFDVVVMNPPFGDGSTEWSGYLSNRYGKHANNLFCTFIARAISLSKLGFVGAITDNTWLKKTDYEDLRELVLDGDLQLANLVDLGWGVLDDANVAACAFTLSALSTDIVNTLDLQESPLDEKGDLLRTVVSQFSNPFSLKEHPSAPQINSVDRRFFDNFPGKAIAHEAPPAFVSLFTLWPGIDPSFCKTRRGYTPGDTFRFFRLWWEVSSDLGAQKWWTLNNGGAYSPIITDGLLVGYRDDGWSQYRPLSGFRLESEQWFGKPGIGWGKRTDYMYAYPLPAGSIFSHEGHCAFPTDDVYLWPLLAYLNSSLGQQLLNLFCGQHKLAGYVSNLPCPPLNSEELRLAGDAAKECWEAASKISRTSEQSEIYNSPFSKIAKPWEVNKLLSGWVDIYFKKIAEIDRLVDKCAAKATNISSFSSSGDDRPRAFVEKFCTSYDWARELVSYLFGCAVGRWSVGEFDSDLENLCAGNPFEKINYHFLDVDARNVVLVDDPGAPLDASGLIRSYLRKIWNEDADVIESAILEHIGEESLRSYLVRPNGFFADHRDRYSKGRRSAPVYWPLSTASGSYTLWVYYPSLSNQTLFSAVNDFLDGPNGKLTQVSRECAELRITGSGRSRDEEKQYETLQTFEQELTDLRDNLLKIAPTFQPNHDDGVQITAAPLWPLFRHKPWQKVLKDTWGKLEKGDYDWARLATAYWPERVREKCKNDKSLAIAHGLEELYVEPEAAPKKTRGKKKAGGEE				NA	NA	NA	NA	NA
D1-35_01137	1809			hypothetical protein	ATGATCCAGGACGTCAAAGCATTCCCCGTCAGTTTTTACTTCAACCCGGATGGGGCGACCTCGTTCTTCATCCCAAAATACCAACGTGAGTACGTTTGGGGGTGGTCGAACTGGGATGCGCTGTTCAACGATTTGAATGAGTCACCTTCTGGCCACTTCTTGGGGTCGATCATTTGTGTCAACGGGCAGACGGACTCTATGGCAGGAAGCAGGCTGGAGTTGATCGATGGCCAGCAGCGCTTTACTACCATTAGCCTGCTGTTCTGTGCGCTGTACGAGAAGCTGAAGACGAACCCTGAGCCGGATGACGACTTCAACGTCGAGATCGTGAACCTGAAGAACCGCATCTTCATCAAGGCAAACAGCCAGTGGCGGTTTGAGCCCAGCGAGCAGATGCAGAACAAAACAGACTTTCAGCGGATTCTGAGTGAGCTTTTTCCAAAACTTGTCACTGCACCGAAAGGGCTGGCCAACTTTGGGAATCGCCGTATCGCGAAGGCCTACAAGTATTTCCGCGAACGCCTTATGCCATTGACCATTGCTCAGGCCATGGAACTGTTGGAAAAACTCAAGTCGGCGATCCTGGTCAAGATTGAGGTTCAAAGCCACTCAGACGCGTTTATGTTGTTCGAGTCGATCAACAACCGGGGCATTCCGCTATCGGCCATCGACATCATCAAGAACAATTTGCTGGCAGAACTCGACAAACGTCCTGACTACGGCATTGACCGAGCGTTTGATAAGTGGAAAGAGCTGATTTACTGGCTCGATGAGCCAGCGCTACAGGAGCGGTTCCTGCGGCATTTATACAATATATTCAAGTATTTGAGGCGCGTAGAAGTTAAAGGATGTCCAAGGGCGACGAGATCAAATCTGATCACCATTTATGACGCTATTTTGCGGCGTCATCCGGTGTGGTTTATCGGGCAGCTATTAGAAAAAGGAAAGACCTATTCCTTACTTCATTATCCGGATAGTGATGATTGTGTTTGGTCTGAAGATACAAAAAATCGACTGTTGGATTTACAGCACCTCGGTACAGCACCTGCCTATGCATTTTTACTGTGGGTGAGTCAGGTCGCTAGAAGTCGGAGTTGGGATGAAGGCCTGGCACTAGGCCAAATAGCCTCTTTGCTCACTAAATGGTTTTTTTGGCGGAATCTTACCGACACGCCGCCAACCCGTGAGCTAGACCCGATGTTTGTGCAATTGATAGGCGAGCTGCTGAAGCAGATTCGCAATGGCTCGATTAGCAAGCTCGAAGAGTTTGTGGCGCAGGCCAGTGATTGGTTGGTGGCTCGTGCGGCACCAGAGGATGTGTGTGATGCGCGCCTGAAGGGCGATGTTTACCTCGATAACTACGAGGCCACACGTTTCATGTTGTGCAAGCTGGAAGAAGTACACCAGACTCGCGAGAACACGCGCGATTTGTGGGCACACGACGCAAACGATCGCCCCGTTTTCACGGTTGAGCACATCTTGCCCAAGACAGAAAACCTTGGTCCAGGCTGGGTGGCCATGCTGGAGCTCAACAGCAAGGACACTGCTGATGCCATACGCCAGCGCTGCGCCCACCAACTCGGCAACTTAACCCTGAGTGGGTACAACTCCAAACTCGGCACGATGGAATTCATCAAGAAGCGAGATCGCCAGAACGACAAGGACGATTTCATCGGGTATCGCAATGGGCTTTATCTGAACGCTGATTTGGCCACTCGCACCGAATGGAATGAGGCCGCGATGACGGCACGAACAGACAAGATGCTCAAGGAGGTGAAGTCCATCCTGAGCCTAAGGAGCAGCTCATGA	MIQDVKAFPVSFYFNPDGATSFFIPKYQREYVWGWSNWDALFNDLNESPSGHFLGSIICVNGQTDSMAGSRLELIDGQQRFTTISLLFCALYEKLKTNPEPDDDFNVEIVNLKNRIFIKANSQWRFEPSEQMQNKTDFQRILSELFPKLVTAPKGLANFGNRRIAKAYKYFRERLMPLTIAQAMELLEKLKSAILVKIEVQSHSDAFMLFESINNRGIPLSAIDIIKNNLLAELDKRPDYGIDRAFDKWKELIYWLDEPALQERFLRHLYNIFKYLRRVEVKGCPRATRSNLITIYDAILRRHPVWFIGQLLEKGKTYSLLHYPDSDDCVWSEDTKNRLLDLQHLGTAPAYAFLLWVSQVARSRSWDEGLALGQIASLLTKWFFWRNLTDTPPTRELDPMFVQLIGELLKQIRNGSISKLEEFVAQASDWLVARAAPEDVCDARLKGDVYLDNYEATRFMLCKLEEVHQTRENTRDLWAHDANDRPVFTVEHILPKTENLGPGWVAMLELNSKDTADAIRQRCAHQLGNLTLSGYNSKLGTMEFIKKRDRQNDKDDFIGYRNGLYLNADLATRTEWNEAAMTARTDKMLKEVKSILSLRSSS				NA	NA	NA	NA	NA
D1-35_01138	2523			hypothetical protein	ATGAGCATTGCCGAATTCATTCAGAACAAAATTCTTCGTCCTCGATTGCAGAAGACAGGCAGTCTCGTGGTGTATGACCCTGCCGGGCATTACCAAGATGTTTGCAAAGGGTTGGCCGACGAAAAACTGCTGGTTGTGGATGCTTCAAAGAGCAGCATTGAGAGTCGGATAGCTGCGATGCAGGGCTTGCGTGATGTGATTGATCGGCAGCTCGCTGGAATACTGGTCTATGTGCCTGCAAAAGCGCCCGAGAGCGATGAAGAAAGGCAGGCTGATCCCTTCGCGCCCATTGCCGCAGCAGGGTCGATTTTTCCCGAAGGGGATGGTGATAGCTTTGAGAGCCTATGCCTGAAGGCGAAACCAGATCAGACCATGGCCATTCGGGCCATCTTTGAGCAGGATGCTTCGCCTAGTTTTGCGGTGGTGGATGCTATTGGCGGCGGCTTGGGCTGGCCCAACTTGCGTGCGCTACTGGCAGTCGAGTCCGCCCGAGACATTCTGTTCTCGCTGCTTGTGCCAAACGATGCGCAGCAAGTGGCATTGAAAGGCAGCGATAGCTGGGTGACAGAGGCGCGTGATTTGCTCCGCAACAGCATGGGCCTGTCATTGAAGACTAGGGGAAAGACATGGGACTCGGTTGCCAACGAACTTTGGCGTTTTGTTTTGTTCAGCGAGTTTGTTTTTGATCTGCCTGGTGCATTGCCTGCCAGTTTGAACGATGTACCGCGAGCCGAAACGCAGGCGAAGCCGTTGATTGAATACCTGTGCGATTTGCTGCGCAATGATCGCCGCACGCAGAGTGTCTATATCGACCGCGCAGAAGAAATTGAGAGGGATCTCAACCTGGTCAGCCAATTTGGTAGCTGGTCTGATTTGGGCGACCGGGACACCTTCCCGTTTGAGGAACGTACGTTTTTGAGTCGGGCGATCGAAGGCATCCTACGTGATGACATCGACCGGGTGAGGAGCATCTCGGAGCGCCATCAGCAATCGGTGTGGACGGGCAAAGGCGAGAGCCGTGCCCAGTGGGATTTGATTCGATCGGCTACTGAGTTGCTTCAAACCTGCGACGACATGGAGCGGCAGCTTTCGGACAACGCACGCAATCTTGATGTGCTGTTGACCTTTTATGTGAGCAGTCTGCGTGAAGCTGATCGCTTGCATCGCGAGTTCGAACAGGCAGTTAGCGATTACGACTGGCAAGACGCGCAAGGTGTAATGACGCCAGTCAAGCAGCAGGTTCGTAAGCAGTACGGCAAACTGGTCGAGAAGGTGCAGTTGATCTTCACTCGTCACGTGCAGCAAAGTGGCTGGCCGTTGGCTGGGCAGCTATCGAATACCGATGTGTTTGACCGCATTGTTGCGCCCAAGCTGCAAAAGAACGGCCACAAGGTGGCGTACTTCATGATTGATGCGCTTCGCTACGAATTGGGCGTGGCGCTGGAACGACAGTTGACGGAAGACGGACAAGTTGAGGTGCAGGCTGCCATGGCGCAGCTACCAAGCATCACGCCAGTAGGTATGGCCAGCTTGTTGCCCGGGGCTGGCCAGCAGCTTCGTATCAAGAATGACGAACAGAGTCTGGTGCCAATGCTGGGTGACCAGGTGGTGGAAACTGTTGCGCAGCGCATGGATGTGTTTCGGAGGAAATACGGCCAGCGCTTTGAAGAGGGGCGTCTGGAAGACTTTGTTCGCGGGCGTTTCGATTTCTCGCCTGAAACCGATTTGTTGGTGTTGCGCGCTGTAGAGATAGATAGCCACTTTGAGAACCATCCTGACACCGCCCCTGCAGAGATTACCAATGCACTCAAACGCATTCGAGTCGCAATTCATAAGCTGAAAGAGCGTGGCTTTCATGAGGTGGTGATCGCGACCGATCACGGCTTTTTCATGAACACCCACGCTGGTGCGGGCGATGTCTGCAGCAAGCCCGCTGGCAACTGGATTGGCATTCATGACCGGTGCGCGCTGGGTGATGGTGCTGGCGACAGCAATCACCTAGTGGTCTCAGCCGAGAAAATGGGCATTCGCGGTGACTTTGCCAAGTTCACTGCGCCACATTCGTTGGCGGCCTATCGCAGTGGTTTGCTCTATTATCACGGTGGCATTTCTTTGCAGGAATGCGTGGTGCCGGTGATAACGATGCAGTTGAAAACCTCCAATCAACCGACACTGCATAAAGCATCTGTGGCGATGAGCTACAAGAACGGCGCCAAGGCGATCACTACACGTATGCCCGTGATTGACCTTGCAGTTGAAACGGCAGACATATTCTCGACTGAAAACGAGTTCGAGATTTTGCTGGAGGCACACGACAGCAAGGGCGAAGTGGTGGGTGAAGCGAAGGCCGGAGGTGCAGTGAATCCTGCAACAGGAACATTGTCGTTGAAGCCAGGTGATAAGGTTCAAGTCACGATCAAGATGCAAATGGATTTCGAGGGGAAATTCAAGATCAAGGCTTTGCATCCAACGACTTATACGGTGTACTGCCAACTTGACCTGGCAACCGACTATGCGGTGTAA	MSIAEFIQNKILRPRLQKTGSLVVYDPAGHYQDVCKGLADEKLLVVDASKSSIESRIAAMQGLRDVIDRQLAGILVYVPAKAPESDEERQADPFAPIAAAGSIFPEGDGDSFESLCLKAKPDQTMAIRAIFEQDASPSFAVVDAIGGGLGWPNLRALLAVESARDILFSLLVPNDAQQVALKGSDSWVTEARDLLRNSMGLSLKTRGKTWDSVANELWRFVLFSEFVFDLPGALPASLNDVPRAETQAKPLIEYLCDLLRNDRRTQSVYIDRAEEIERDLNLVSQFGSWSDLGDRDTFPFEERTFLSRAIEGILRDDIDRVRSISERHQQSVWTGKGESRAQWDLIRSATELLQTCDDMERQLSDNARNLDVLLTFYVSSLREADRLHREFEQAVSDYDWQDAQGVMTPVKQQVRKQYGKLVEKVQLIFTRHVQQSGWPLAGQLSNTDVFDRIVAPKLQKNGHKVAYFMIDALRYELGVALERQLTEDGQVEVQAAMAQLPSITPVGMASLLPGAGQQLRIKNDEQSLVPMLGDQVVETVAQRMDVFRRKYGQRFEEGRLEDFVRGRFDFSPETDLLVLRAVEIDSHFENHPDTAPAEITNALKRIRVAIHKLKERGFHEVVIATDHGFFMNTHAGAGDVCSKPAGNWIGIHDRCALGDGAGDSNHLVVSAEKMGIRGDFAKFTAPHSLAAYRSGLLYYHGGISLQECVVPVITMQLKTSNQPTLHKASVAMSYKNGAKAITTRMPVIDLAVETADIFSTENEFEILLEAHDSKGEVVGEAKAGGAVNPATGTLSLKPGDKVQVTIKMQMDFEGKFKIKALHPTTYTVYCQLDLATDYAV				NA	NA	NA	NA	NA
D1-35_01139	2076			hypothetical protein	ATGAATGAGCTCGATCAAAAGCTTACCGCCACCTTTGATGGCAAGGTACTGCGCAAAGATTTACTCCATCGGATTAAGAAGGGAACCAACGTCCCTACCTTCGTGCTGGAGTTTTTGCTTGCGCGCTTTTGTGCGAGTGATGATCAGGCTGAAATGGATGCGGGCATGGAGGCGGTGCTCGCCAGCCTACAAGACAACTATGTAAAGCCTGACGAGGCCAATGCCGCGCAGTCAAAGGTGGCAACCAAAGGCAAGCATCGCTTTATCGACAAGGTCCATGTTCGGTATGTCGAGAAGGAAAAGCGCCACTGGGCCTCATTGGAGAACTTCAATTCACAGCGTATCGCTATTGGCGAGAAGTTCTATCGAGACAATGACCGCCTACTGGAGGGCGGAATTTGGGCTGAGGTGACGTTGGCACATAACGCGATCGAAGAAGACGACTACGCGTTTTATATTGAAGACCTGCGCCCCATCCAGATCAGCCGCTTTGATTTTGACCGCTACTGTGATGGTCGTACTCAGTTCACCCGTGACGAGTGGATTGCGGCGATTTTGCGCACCGTTGGCTTGGAGCCAACAAAGCTATCAAAGCGCGTGTGCATGCACTTTATTGCGCGCTTGGCTGCTCTCGTCGAACCCAATTACAACTACATTGAGCTTGGGCCACGCGGCACGGGGAAGTCGTATTTCTTCAGTGAATTTTCGCCCTACGCCACATTGATTTCAGGCGGACAGGCGACCAAATCGGCGCTGTTCTACAACAACGCACGCCGTAAGGTTGGTCTGGTTGGGTTTTGGGATACCGTGGCTTTCGACGAAGTAGGCGGCATCAAAGTCAAAGATCCGGACACCATTCAAATCATGAAGGATTTCATGGCGAATGGTCGCTTTTCGCGTGGCGCTGAAGTGATCGCTGATGCCAGCCTTAGCTTTGTTGGCAATTTCGATCTCTCCATCAGCCAAGTAGTTAACTCGGTTGAGCATGATCTTTTCCAACCATTGCCCGCTGAGTTTGACTTGGCGATCATGGATCGATTCGCAGCCTACATACCTGGCTGGGAAATGCCCAAGAACAGCAGTGAATTTCTAACCAGTAGCTACGGGTTCATTACTGACTACCTGGCGGAAGCATTCCACTACCAGTTCAAGCACACCAATCGGTACGAAGAAGTCAGCAAACGCATCCGACTTGGCAAGAGTGTTGAGGGCCGTGATGAAAAAGGCATCAAGAAGACCGTCTGTGCCTTCCTGAAGATTCTTCACCCTACCGGTTCTCCGACCGATGAGGAGTTCGAAGAATATGTAGCCTACGCAGTTGAGTGCCGTCGACGTGTGAAGGAACAGATGAATAAACGCAAACCCGATGATGAGTTTGCGCGCATCGATCTCTCATTCCTTAATGCGCTGGGGCAAGAAGTTGTTGTCTATTGTCCCGAATCGAAGGATGCTGCAGCTACGCAGCAACCGTTTAGACGGCAGCTCAACGACAAACTTTCACCTGAGCGTGACGTTGCAACAGAGGCTACGCAAGAGCCGCGGGTGCCCGAGCCTGCTATCAAAGTCGAAGCAACTCCCCCTGTCGTCACCCCTGTTGTTCCAGAAGAGTTGGTGGAGAAGCACTTCACGATTATGTACGGTGACGTCGGCCACAGCTACGAATCGATCATTGGCCCCTACCTGCGAGGAGCAAAGACGGTAGTCATTGAAGACCCTTACATTCGCCTTCAGCATCAGATCCAGAATTTCGTTCGCTTTTGTGAGTGCGTCTTAAAGGCCGGAACGGTGAAAAAGATCAACCTCATTACCGGTTACGACGACAACACGCAGCTGGCCGATATTGCAGAGAAGCTGGAAGAGTTGAAGCAGAGCTTGCTCGAGATGGATGTGGAGCTAGAGGTCAAACTCAACCCGAACTTGCACGATCGGGAAATCCGCTTGGACAACGGCTGGGTCATCAAAGTCGGGCGAGGCTTGGATTTTTACCAAAAGCCGGGTGGCTGGTTTGAGGTGGGTGCGAATGACTTGAGCTTGCGAAAATGCCTTGAAACCAAGGTGGATGTTTTTCGTGAGTAA	MNELDQKLTATFDGKVLRKDLLHRIKKGTNVPTFVLEFLLARFCASDDQAEMDAGMEAVLASLQDNYVKPDEANAAQSKVATKGKHRFIDKVHVRYVEKEKRHWASLENFNSQRIAIGEKFYRDNDRLLEGGIWAEVTLAHNAIEEDDYAFYIEDLRPIQISRFDFDRYCDGRTQFTRDEWIAAILRTVGLEPTKLSKRVCMHFIARLAALVEPNYNYIELGPRGTGKSYFFSEFSPYATLISGGQATKSALFYNNARRKVGLVGFWDTVAFDEVGGIKVKDPDTIQIMKDFMANGRFSRGAEVIADASLSFVGNFDLSISQVVNSVEHDLFQPLPAEFDLAIMDRFAAYIPGWEMPKNSSEFLTSSYGFITDYLAEAFHYQFKHTNRYEEVSKRIRLGKSVEGRDEKGIKKTVCAFLKILHPTGSPTDEEFEEYVAYAVECRRRVKEQMNKRKPDDEFARIDLSFLNALGQEVVVYCPESKDAAATQQPFRRQLNDKLSPERDVATEATQEPRVPEPAIKVEATPPVVTPVVPEELVEKHFTIMYGDVGHSYESIIGPYLRGAKTVVIEDPYIRLQHQIQNFVRFCECVLKAGTVKKINLITGYDDNTQLADIAEKLEELKQSLLEMDVELEVKLNPNLHDREIRLDNGWVIKVGRGLDFYQKPGGWFEVGANDLSLRKCLETKVDVFRE	PGPT0014315_5155	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014315-lon-K01338	NA	NA
D1-35_01140	372			hypothetical protein	ATGATGGGGATGCTCTTTTTTCGTCAGTCGGGCAAAATCTACGCCTCATTGAGCTTGCATCCGAAACCTATGAAACTGCTTAACACCTACGACGACCGCGACGAAGCTGAAGAGGCTGCGGAAAGGCTAACAGGCCAGAAGCGTCTGGCCAGCGAACGCGACGCCAGCGTGGTCATCTACAACCTGTTCGGTATTCCCAACTGGGGAAATTTCCATCGGCTAGGAATGTACAATCTGAGCGTACTGAAAAACCTACTTGACTGCCGTGCTACATGGAATGAAACCAACAGAACCCAACATGGCGAGATCATCACGACGTTAAAAACAGTGTCTAAAAACTACGGAATAGAAGTACCTGAACATTGGCTATGA	MMGMLFFRQSGKIYASLSLHPKPMKLLNTYDDRDEAEEAAERLTGQKRLASERDASVVIYNLFGIPNWGNFHRLGMYNLSVLKNLLDCRATWNETNRTQHGEIITTLKTVSKNYGIEVPEHWL				NA	NA	NA	NA	NA
D1-35_01141	504			hypothetical protein	ATGCAAGGTGCGGAGGTAGGTCACTGGAAGGAGAACACTCCGTTCCAACTCTCTATTTGGTATCGCATAGGCAGTAGCACCGATGGCAAGCCAGTTGCCTACCGCACCGACACGACTCGGCAAGTATCGTACGTTGAAGCTGGCAGTCTCTTGATGAAGTTCTATCTGGATTCAGGCGTCCCCGACAATGAACTCGTTTCGACCTTCGATAAGCGCTACATCGGTGGCTGGGTCGCGTGGAATCAGGAGAAAAACGGAACTGCATCAACAACGACGAAGACCCCAGCCGCTCCTCAGTCCGAATGGCCAGAAGTCAAAACCGCCTGGTGCAACCCGCGAGCTGATGACGACTGCTATATCAACAACAAGAAGGTACCAGTCGCTGAGCTAGGTAAATGGTTACCCGATATCAGCGAATCAAATGCCGATCAGCTAGGCGGTCACTGTGAAACCATCCTCTGCTTCGACAAAGATGACCAGCCGATGGGTTATCTGCTGCAATAA	MQGAEVGHWKENTPFQLSIWYRIGSSTDGKPVAYRTDTTRQVSYVEAGSLLMKFYLDSGVPDNELVSTFDKRYIGGWVAWNQEKNGTASTTTKTPAAPQSEWPEVKTAWCNPRADDDCYINNKKVPVAELGKWLPDISESNADQLGGHCETILCFDKDDQPMGYLLQ				NA	NA	NA	NA	NA
D1-35_01142	354			hypothetical protein	ATGATCGTTGTAACCGGCCTAAACGAAGCACAGATTGAAGGTCTCGTGAAAAGCAAAGCGACCTTCGAGATCCATGGTCTCAGGGGAAATTTCATGGCAGGCATCAAACTGGTCGAAACCAAGATTGAAAGCCAGGGGCTGAAGTGTCGAGTCAAAAGCGATGTGAAAAGTGCAGTGGTACAAGGCGGCGCGCTGGGTGCCGTATTCAGCGTCCTGACAACACCCGCCACATTGACCATCGCGACATTAACGGCCGCAGCAGGAGTAGGTCATACGCTCGTTACCTACAACCCCGATTACGAAATCATCAAGGACTACGTCAACAAGCAGCTCAAGGTTGTTTACAAGCAATAG	MIVVTGLNEAQIEGLVKSKATFEIHGLRGNFMAGIKLVETKIESQGLKCRVKSDVKSAVVQGGALGAVFSVLTTPATLTIATLTAAAGVGHTLVTYNPDYEIIKDYVNKQLKVVYKQ				NA	NA	NA	NA	NA
D1-35_01143	348			hypothetical protein	ATGTCAAAAACCAAATCGAAGCAGCTAGCGGAGTTTGTTGGGCAAGCCATTGCGCGCCAGCGCATTCGCAGCAAGTTGAGTCAGGAGCAGGTTGCGGAAAAGCTCGGGATTGGAAGCGAGGCCGTATCCCGTATTGAGCGTGGCGTTGTGATGCCTAACATCGAACGCTTAATTGAGCTGGCGACGGTCTTCGGCTGCGAGACTGCTGACCTGCTAACTGAGGGCAGCACGCGTCAGGAGGATCAGGCACGTCGACTGCAGGGGCTGTTATCCGTGCTGGACTCAGGTGACCGTACGCTGGTGTTGGAGTTTGTGGAGAGTTTGGTGGCGCGCCTCAGCCGGGGTTAA	MSKTKSKQLAEFVGQAIARQRIRSKLSQEQVAEKLGIGSEAVSRIERGVVMPNIERLIELATVFGCETADLLTEGSTRQEDQARRLQGLLSVLDSGDRTLVLEFVESLVARLSRG				NA	NA	NA	NA	NA
D1-35_01144	306			hypothetical protein	ATGAACAGACAGTGTTTGATCTGCGACTCCAGCGCCGTGCTGACACGTGACGCCGCCAAAGGGCTGACCTTGCTGATCGGGTTGTTTAATGGCGCAATCGAGGGTGCTCAACGTCCGCATGAAAGGAGCGGCCAGTTCGCTCTTCTCAGCGGGCTGGCCGCAGTTGTGTCTGCTTATCCAGCGGCCAGAAAAGAGGCAGATGAGGTTGTGCGGTTCCACTTCGCCGGCTTTGACTCTCTCTGCCTACGCTGTGGTGCTTTGTTCAACGAGGCAGCCGAAATCAAGGAGCGGCTTAACCCCGGCTGA	MNRQCLICDSSAVLTRDAAKGLTLLIGLFNGAIEGAQRPHERSGQFALLSGLAAVVSAYPAARKEADEVVRFHFAGFDSLCLRCGALFNEAAEIKERLNPG				NA	NA	NA	NA	NA
D1-35_01145	210			hypothetical protein	ATGAAGCTACTACGCATGTTTGCGGCTGTACTCATGCTCACCGGCATTCTTGCGGGCTGCTTGGCCACTCTATTGTTGGTGCTTTTGATGGTGCGGTTCCCACCACTGCTGATCGCCGTACTGCTGGCGTGTTGGATGTTCTGCCGTCTCTTAAAGGCATTGGCACCCAAGCCAGCAGCGGCAGATGCCACCACGGCAGCACCGAAATAA	MKLLRMFAAVLMLTGILAGCLATLLLVLLMVRFPPLLIAVLLACWMFCRLLKALAPKPAAADATTAAPK				NA	NA	NA	NA	NA
D1-35_01146	498			hypothetical protein	ATGCGTCTACACAAGCTGAAGGCCAGTGAATCTACTGGTACCTACCAAATCGAGTCACCGATCAGTGAAGCCGACATTCTGCTAATGGCCCGGCAATTGGCAAATCTACGCCTGCGCCGAGGACGGGCATTAACTTCGCCGAAGGACGTGTTCAGCCACCTGCAAGCATTGTTGGGCGATTACGAACATGAGGTATTCGCCTTGCTTCTACTCGATAACCGGCACCGAGTAATCGTCTTTCACGAACTGTTCCGGGGCACCCTGGACAGTGCAAACGTCTATCCCCGCGAAGTCGTCAAGACCGCCCTAGAGCACAACGCTGCAGCGACTGTATTAGTACACAACCACCCTTCCGGTGATCCAGAACCTAGCCAAGCAGACCTCACCCTGACCCACAAACTACAGGAGGCCTTGAACCTGGTTGGGGTGCGAACACTGGACCATATCGTGGTAGGTCACGAGGGCTGCGTATCGCTGGCGGAGCAGGGCTATCTATAA	MRLHKLKASESTGTYQIESPISEADILLMARQLANLRLRRGRALTSPKDVFSHLQALLGDYEHEVFALLLLDNRHRVIVFHELFRGTLDSANVYPREVVKTALEHNAAATVLVHNHPSGDPEPSQADLTLTHKLQEALNLVGVRTLDHIVVGHEGCVSLAEQGYL				NA	NA	NA	NA	NA
D1-35_01147	345			hypothetical protein	GTGCGAGTGGTGTGCAACAACACCCTGACCATCGCCCTGGACGGCACCAGCCGCGCGATCAAGGTGCCGCACAACACCCGCTTCGACCCGAAAGCAGTGAAGAAGCAGCTCGGCATCGCCGTCTCGCAGTGGGATGAGTTTATGTACCGCATGCGGGACTTGTCTGAGCGCAAGGTGCAGTGGCATGAGGCGCTGGGGTTCTTCATGACCGTGTTGTGTGAGACGAGTCCAACCGGCGCACTGCCGGAGGTACTGCCAAACGAACGCGCTCTGCGCAAGGTTCAGGAGCTGTACGAAGGTCGTGGTCGGGGCAGTCAGCTCGACTCGGCACGCGGCACCGCCTGA	MRVVCNNTLTIALDGTSRAIKVPHNTRFDPKAVKKQLGIAVSQWDEFMYRMRDLSERKVQWHEALGFFMTVLCETSPTGALPEVLPNERALRKVQELYEGRGRGSQLDSARGTA				NA	NA	NA	NA	NA
D1-35_01148	243			hypothetical protein	ATGGGCCAGGACGTGGCGATCGAGCGACTCACCCAACTGGGCGCCGAGGGCACAGCCACCGACACCGCCGGCCAGCCCACCGAGGATGGCACCCGATACCGAACCGAGTGTGATACCGACAGGGCCGGCGATAGCGCCAATAAGCGCGCCCGCTTGGCCTCCAGCCAAAGCAGTACTGACGCCGCGCGCGGCACCACCCAAGGTGCCGATGGCCGCGCCGACTTTCATGGCGTGATGGAATGA	MGQDVAIERLTQLGAEGTATDTAGQPTEDGTRYRTECDTDRAGDSANKRARLASSQSSTDAARGTTQGADGRADFHGVME				NA	NA	NA	NA	NA
D1-35_01149	120			hypothetical protein	ATGAAAAATCTGTTTGCCGTCATCGGTTTTTGTGTGGTGCTGAAGAAAAGCTATGAACTGTATTGCGAGTACAGCGAACTGAAGCGTGACAAGGCAGGGCGCCAGTCTTCTCCCGGCTGA	MKNLFAVIGFCVVLKKSYELYCEYSELKRDKAGRQSSPG				NA	NA	NA	NA	NA
D1-35_01150	1023			hypothetical protein	ATGTCTCAAGCGAAGGATACGCTGCTCAGGCTATTCGCATTACTGCGCCTGATTCCCACCGAGCCGCAGCGTATTGCAACCCCGACCCTGCTCGAAAAGCTTCGCGATAGAGGTTTTTCCGTGACACTTCGCTCGGTTCAGCGTGATTTGAATCGGTTATCGATACCTTTTTCGTTGCAATGCGATGATAGCGAGACCCCTTTCCGCTGGAGTTTCACTCGGGATGCTCCATTGAAGCTGGAAGATATGGATGCTTCCACAGCACTGGCTTTGTATCTGTCGGAAAGCCATCTGGTTACCTTGCTGCCGCAGACGGTTCTGGATCAGCTTGGTCCGCAATTTCGACGTGCACGTAACTTCCTGGGCGATCTCGGTCATAACGGATTGGCCGATTGGGCGCGACGAGTGCGTGCGATTCCTAATGGGAAAACCTTGCTGCCAGCTGCGATCAACCCTGAAGTCTGGGGGCAAGTGTCTGCCGTTTTGCTGGAGCGCAGGCAATTGCAAGTGACCTATCGGAGTCGGAGCAAGGGCGAACTCAAACAGTTTCGCCTGCATCCTGCGGGCCTGGTATCGCGGCATGCCATCAGCTACTTGCTGGCCTCCGTGGATGGCTATGGTGATTTGCGCCAGTTTGCTCTGCATCGCATTCAGCACGTTCGCGTACTTGATGAGCCGTCCGTGCTGCACGCCAACTTTGATGTGAACGATTACATTGCGAGCGGCATATTCAGTCAACGCCAAACCAACACTCACGTGGAACTGATCGCAGATGTTCATCCGCAGATTGCCGTCCTGCTCGGCGAAACCCCGCTGAGTCATGAGCAGACCTTGAGCGATATTCCCTCGAATACCTGGAAGCGTCTGCACGCCCAAGTTCCGCTGGATCGTGAAACGCTGTGGTGGATCTTTGGCCTGAACGACAACATCCGCGTGCATGGGCCGCAGGTTTGGGTCGATGAGATCAGCGCCAGATTGAACAGTATGCAAAACCTCTACGCGTCGACTGATTGCGCGACATGA	MSQAKDTLLRLFALLRLIPTEPQRIATPTLLEKLRDRGFSVTLRSVQRDLNRLSIPFSLQCDDSETPFRWSFTRDAPLKLEDMDASTALALYLSESHLVTLLPQTVLDQLGPQFRRARNFLGDLGHNGLADWARRVRAIPNGKTLLPAAINPEVWGQVSAVLLERRQLQVTYRSRSKGELKQFRLHPAGLVSRHAISYLLASVDGYGDLRQFALHRIQHVRVLDEPSVLHANFDVNDYIASGIFSQRQTNTHVELIADVHPQIAVLLGETPLSHEQTLSDIPSNTWKRLHAQVPLDRETLWWIFGLNDNIRVHGPQVWVDEISARLNSMQNLYASTDCAT				NA	NA	NA	NA	NA
D1-35_01151	1011			hypothetical protein	ATGACGGGCTCCACCGCTACGCCTGCAAAACCTAGAAAGGCCAGGAGGGCGGAGCCTTTTGTTACCACCACGTTCGATGTGTTGGTGTTGGCCACAATGAGCGCAGGCAAAACGTCGTTCATCAACGCGCTGATTGGCCAGGAACTGCTGTATACCGCCAATGAAGCCACCACTGCCTGCGTGACCCGTGTCGAGCATCGCCAGGGCGCCCGTCGATTCAGTGGCGCCTGTTATTGCTACAACGACACCGAGTTGGCCTCCCTGCATTCCCCGTCGGTAGCCTTGCTAAAGGACTGGAACGCCAATGCCGAGGTCAAGCGCATCAGCTTGGCTGGAACCTTCAAAGTGCAGCCGCGCCCAGCGCCCGGGCTGGTATTTCACGACACGCCAGGGCCTAACAACAGCCAGGATGAAAACCACGCCAGACTGATGCTGGAGGCTATCCGCACGGTGTCGTTCAATGCGCTTTGCTATGTGCTCAACGCCAGCCAACTGGGGACTTGTGACGACCGGTTGCTGCTCGAACAGCTGCGCGAAGAACTCGCCGCCAAGCCTGCCCAGCCGATTTATTTCATCCTCAACAAAGTGGATTTGCTCGATCCCGAGAAGGGCGAAAGCATTCAAGGCTATGTGCACAACGCCCAGCGCTATTTGCGCGATATCGGTTTTGAGCAGCCGATCATCATTCCGACAATGGCCAGTGCAGCGCTGTACGCGCGCAAGGCCCTGAGTGCCGAAACACTGACGCGCGCGCAACGCTCCAAATTGCGTCAGGTACTCGATGATCTGGAAGTGAACAAGCGCGATTTGCTCAATGCCACCGTCGTGCCAGAAGTGGTCAAGCGCCGAGTCTTCACATCACTCAACAACCTGGAACGCAGACAGCGAACCAAGGCACTCGATACCCGTGCCTACGATAAAAACCAATTGCAACAGTTGGTCACAATCAGTGGGCTCAAAACCGTTGAAGCCCTTATCCATCATCAACGCCGATTAGATGAGCAACCATGA	MTGSTATPAKPRKARRAEPFVTTTFDVLVLATMSAGKTSFINALIGQELLYTANEATTACVTRVEHRQGARRFSGACYCYNDTELASLHSPSVALLKDWNANAEVKRISLAGTFKVQPRPAPGLVFHDTPGPNNSQDENHARLMLEAIRTVSFNALCYVLNASQLGTCDDRLLLEQLREELAAKPAQPIYFILNKVDLLDPEKGESIQGYVHNAQRYLRDIGFEQPIIIPTMASAALYARKALSAETLTRAQRSKLRQVLDDLEVNKRDLLNATVVPEVVKRRVFTSLNNLERRQRTKALDTRAYDKNQLQQLVTISGLKTVEALIHHQRRLDEQP				NA	NA	NA	NA	NA
D1-35_01152	2256	era_1		GTPase Era	ATGAATACTATTGAAATCATCCATAACCCATTCATCGTCGAGACTCAGTTCCTGATCAGTGGCCAACCGCCGGCCGAAGGCTGCAAGCTGTCGAGCTATAAAGAATCGCGGCTGCAAGTGTGGATCGAGAAGCTGTTTGATGAGTTGAGTCAGTTGTTCAATGGTGACAATAACTTTGATGTCACTTTCAGAGGGGTCGAGTCGGACTACCTTGACGTGGTTGAGGCGGCAAAAGTCGCGACGGGCAAGGGCATGCAGGTCACTCTGCAGTTTATCGAGGCCGACCCAGCGGAGGAGCGGCTGACCCGCATTCGTGAGTTGATGGAAGAGGCCAAGCTTCATCCTGAATTTGAGCATTTCATTCGTGACAATGCCGATGTCAGCCAGTCCTTTGAAGAAGCGTTCAATAAGGATTTCGACGTGTATGTGGTGGCGACCATGTCCTCGGGCAAGTCGACACTGATTAACGCCATGCTTGGCCAGGACCTGCTGCCCGCGGCCAACGAAGCCACGACCGCGACCATTGCCCGCATCACCGACAACGCATCGATGGGCCAGCGCTTCGCCGCCCAACGCGTAACCAATGATCACCGTGTTGCGGAAAACAGCGATGACGTGAACCTGGAAGTGCTGCAGGCATGGAACAGCCTGCCGGACACGATGCGCATCGATATCGAGGGCAAAATTCACGCAATCCAAGATCGTGACAGCGTACGCCTGGTATTGACCGACACACCAGGGCCGAACAACAGCCAGGATGAAAAACACCAGCTCAAAACCATGAGTTTCATTCAGGACTCGCAGCGCAACCCGCTGATTCTGTATGTGCTTAATGCCAGCCAGTTGGGTACCAACGACGACAAAAACCTGTTGGGACTGGTCGCCGAAACCATGCGCAAGGGCGGCAAGCAGAGCAAGGATCGGTTCATTTTTGTCATCAACAAGATGGATGTATTCGACCCTGAGAAAGGCGAGGACCTGCCATCCGTGCTGGCCCGCGTCAAAAACTACCTGGTTGAAAACGGTATTTTCAATCCGCTGATCTACCCGGTGTCGGCCAACCTGACGCGGCTGCTGCGCAAGCCCCAGCACTTGCATTCACGCAAGGAACGCGGTGAGTTGAACTCCATGATGGACATGTTCGGTGAAGAGCCGAGCATGAATTTGCTGCAATACATGCCGATTACCGAGCGGGTCAAACGTAGTTTGCAAGAGAAGAAACTCCCCGAGATCGTGCTGAGCAGTGGCTTGCCGGCGGTAGAAGCGATGATTGACGAGTACATCGACAAGTACAACTTCCCGCATCGGGTCAAGCGTGCCTATGACGCGATGACCAAAGCCATTGCTGTTGGTCTCAACGAAACGCAACTGATCGAGCAATTGGATCAGGACGAGAAGATGCTGGCGCATATAAATGAAGAGATCCAGGCACTGGAGTGTCGGCAGGAGAAAGGGTTCGATACGCAGGCTTACAAGGACAAGATAAAGCGTGAAGGTAAGGTGTTGCCGCGGGTTACTGAGGATGCTCTCGCGGAGCTGGAGACTTCTGCTGGCAAGTATCTGAGGTCGGTCAGTGAGCGTTTCACCGAAACGGTCGAACCACACATCGCCGAAATGCGAGTCAAGGAAGTTGAAGAGGAACTCCAGTTCCAGTACCGCAAACTCATCAATGCATATGAAGCGGTGTTCATCACAAGTCAGCGAGTTATTAGTGAAGACCTTCAGGCTGAATATCAGCGCTACATCGTGGCTCTTTTCAACGACTGCCAACATTTGAAGTTGCCTATTCTGGAAAGCCTCCAAAAAGCTACGGCTGATATTTCCTTCAATCTTACTATCAAGAGTGATGAGGTGCAGACCAAGCGAGTGGTGATTGACCGTTACGAAGTCAGTGACAGCACTTGGTACAACCCCTTCTCGTGGGGGTCCACTCGCACGGTTTACAAATATGGCGAAGAGAAAACCGTCGATCTTAGAGCACTCTGGAAGGAGCGTAGCACGCGTGTTGACACCGAGTTTGCTCGCTTGGTAGTGGCCGCGCGTAGCGAAATCGACAATGGCAAGACCGTCCTGATTGATCAGTTCGTGGCGTTTATGGGGCGCGAATTCGACACCAAGTTCAATGAGTTGATCGACTCGCTCAAAGAAAAAATGACGGACCGCGACCTGCGTGAGCGAGCCCTTGAAGAGGCTCGTGAGTTGCAAGCGTGGATCAATCAATTCAAAGAAAAACTCGACGAAACCCTCGCCGTTTGA	MNTIEIIHNPFIVETQFLISGQPPAEGCKLSSYKESRLQVWIEKLFDELSQLFNGDNNFDVTFRGVESDYLDVVEAAKVATGKGMQVTLQFIEADPAEERLTRIRELMEEAKLHPEFEHFIRDNADVSQSFEEAFNKDFDVYVVATMSSGKSTLINAMLGQDLLPAANEATTATIARITDNASMGQRFAAQRVTNDHRVAENSDDVNLEVLQAWNSLPDTMRIDIEGKIHAIQDRDSVRLVLTDTPGPNNSQDEKHQLKTMSFIQDSQRNPLILYVLNASQLGTNDDKNLLGLVAETMRKGGKQSKDRFIFVINKMDVFDPEKGEDLPSVLARVKNYLVENGIFNPLIYPVSANLTRLLRKPQHLHSRKERGELNSMMDMFGEEPSMNLLQYMPITERVKRSLQEKKLPEIVLSSGLPAVEAMIDEYIDKYNFPHRVKRAYDAMTKAIAVGLNETQLIEQLDQDEKMLAHINEEIQALECRQEKGFDTQAYKDKIKREGKVLPRVTEDALAELETSAGKYLRSVSERFTETVEPHIAEMRVKEVEEELQFQYRKLINAYEAVFITSQRVISEDLQAEYQRYIVALFNDCQHLKLPILESLQKATADISFNLTIKSDEVQTKRVVIDRYEVSDSTWYNPFSWGSTRTVYKYGEEKTVDLRALWKERSTRVDTEFARLVVAARSEIDNGKTVLIDQFVAFMGREFDTKFNELIDSLKEKMTDRDLRERALEEARELQAWINQFKEKLDETLAV				NA	NA	NA	NA	NA
D1-35_01153	879			hypothetical protein	ATGACGACTGACGCCATAATGATTGAAAAAGCTCGTAAGCAGTTTCTGACGGCGCTCGATGACACACAGTGCGACACCGATGTGTTGCAGAAGATAATGGACGCCGTGCAACAGACCCCAGGGGTGATGGAGGCTCATAAGGTCGATGCTGTCACTCGCGCCATTGATGTGGACCCTGTGAGTTGGAATCCGGACTATTTCAGTCGGCAAAAGGTTTTCGCTGCCCGCAACTTTTCCAAGGAGCGGCTGGAGCATTTGATCCAGGTCCGCGACGTGTTTCGTCAACGAAACGAAAAGGGATTCACACCAACTGTTGCCGCTTCACATGTGAGAAAAGATCCGATGAGCAGTGCGTCCTCCGATTACCAACCTTCCAGCAACCTCAAGAAGTTTGTCGAAGAAGGTGACTTGTTGACGACCCGCACCGCACTGCGCCTGGAGCTCAACGACCGTCGTCTGGATGGCGCCGAATTGCGCGCTGCGCTGGGGTGGATCAAAGATAGTGTTTCCGGGATATTCGAGGTTTTTTCAGAAGGCGCATTTGCGCGTGAGCTTGTGGCAGATCAGAACAAATGGACCGAAGATTATTACGATCTACAGGTCACTTACCTGAAAACCAACTTCTCGGAAAAGCGCTTTTTGCACCTGATCGACGTTCGCGAGCATTTGCGCAACAGCGCTGTTGAGGGCTTTGCTTCGACCAAGACAAAAGCCTCCACCGCACATTCAGCCTCCCCTGTAGCTCAAGCATCACGCCCCCACTCCCGCCAGCCCATTTACGATGGTGCATCAGAGCGTAATCCAGCCTTCAAGGCCGCACTGCTGATCGGCGGCGCCATTGCGGCCGTGGTGGTGTTCCTCATTGCACTGGTACGGTGA	MTTDAIMIEKARKQFLTALDDTQCDTDVLQKIMDAVQQTPGVMEAHKVDAVTRAIDVDPVSWNPDYFSRQKVFAARNFSKERLEHLIQVRDVFRQRNEKGFTPTVAASHVRKDPMSSASSDYQPSSNLKKFVEEGDLLTTRTALRLELNDRRLDGAELRAALGWIKDSVSGIFEVFSEGAFARELVADQNKWTEDYYDLQVTYLKTNFSEKRFLHLIDVREHLRNSAVEGFASTKTKASTAHSASPVAQASRPHSRQPIYDGASERNPAFKAALLIGGAIAAVVVFLIALVR				NA	NA	NA	NA	NA
D1-35_01154	3270			hypothetical protein	ATGACCTCTCCAATACTGACCCGCACTGCCGTGCAGGATATCCGTGAAAACGCCGGCCTGACCCTTGAAGCTGGGCGTGCGCTGATCAATCGCAGCTACCTGTCGGAGCTGGAGCGGTATCCGGTCCATGCCTTTGCCGAGAAGGGGCTGCGGTTCAATGCTGCCAGTGACGTGCGGATTTTTCGCATTGAGCGCATCGTCCAGGACAACAAACAATCTGTACTCGAGAGCACCACGGCCGCTTACACCGCACTGGGTGCTGCGGGTTACTCGGTTTTTCTGATATTGCGCTCCAACGGTATCGAAACCGACCTCTATATCGGTACCCGGGGTGAGCCCGGTAAAACCCTCGGGCACAGTTCTGGCGAGCTGCTGCGGGAGACCTTCAAGGGGCACTTCTCGGGCAGTTCGTTAGTGCCGCTGCCGCAACAGCATGCAGATGCCTTGCTGGGCGCTTTGCAGGCCGAGAAGGCCAACCCTTCGGCAAGCATCACGGCGGTCACGGGTGTGCCTGCGTTGTCGACAGAGAACCGCGAGCACTTCATGCAAGGGCTCGAGCGTTTTATCGATGCGGCTGAGCGCCGGGTGTACCACGCGATCATTCTTGCCGAGCCGGTTTCGTCGCAGAACCTTGACTTGATCCGCGCCGGATACGAGCAGGTCGCCACGCAACTTTCGCCATTGCTCAAACAGCAATTGTCGTTCGGCGAACAAGACAGTGATTCCGTTGGGCTCAGCATCAGCCAGGGCTTGAGTGACTCCCTTGGACACAGCCTTGGGCTGACCGAAACCAAGGGCACGTCGACGACGCTCGGCACATCAATCACCGACACAACCGGTACCAGCGAGTCGTTCAGTGCACAGACCCTGACATCCAAAACGGTCGCTATCGGTGCCAATGTGCTGGGTATGGTAGGTGGCGCGACATTGGGGCCATTCGGCGCGATGCTCGGTAGCCAGATCGGTTCGGCCGCTGCTGCGCTGCTCAACGAACAACGCACCACCGGCACCAGCCAGTCGACGTCCACCGGTCGCAATGAAAGCCACGGCACCTCCTTCAGTGAGGCCGCGTCGAAGACTACGTCGACCACACATACCACCAGCACCACCGATACTCATTCGTTGAACAAAACCCTGGGCTCTAATCGGCAGATTTCGATTGAGACCGTGGATAAGACCATCGAGCAGTTGCTCAGCAAAATCGATCACCACCTCGAACGTATCGACGAAGCCAAGACATACGGCGGCTGGAACTCGGCGGCGTATTTCATCGGTGACAGCACTGCGTCGTCCGAATCGTTGGCGAGTATCTTTCTTGGGCTGGTACGCGGCAGCAAGTCCAGTCATGAAGACTTCGCCCTGACCACCTGGAAATCCGCCAACAAGTCAGCCGTGCTGGACTGGCTCAGCGCGTTCAGCCATCCACAATTGAAACCGGCATTTTCCAAAAAGATCCCGATCAGTTACCTCACTCCGGCCACGCTGGTGTCGGGTAAGGAGATGGCGATCCAGTTGAGCCTGCCCCGACGCTCCACTTCCACGGTGGCCGTGCTGGAAACCCAGGCGTTCGGTCGTAAGGTGCAACGCCTGGATGGTCACAGCAGTGAGCCAGGCAAGGGCAAGACACTGACCTTGGGCAACATCCGCCACTTGTGGGAAAACCTGCCGCAAAAGATCGAGTTGAGTCTCGATCAGTTGGCCAGCCATGTGTTTGTCAGTGGTTCGACCGGTGCCGGTAAAAGCAACACGCTGTATGAAATGCTCAGCCAAATCAGCGCCGTCGGCGTGCCATTCCTGGTGATTGAACCGGCCAAGGGCGAGTACAAACACGTCTTCGGTCATCGCGATGACGTCAATGTATTTGGTACGCATCCGGCCCACAGTGAATTGTTGCGCATCAACCCGTTCCGCTTCCCGTTGGCCATTCATGTGCTGGAGCACGTTGATCGGCTCGTGGAAATCTTCAACGTCTGCTGGCCGATGTATGCCGCAATGCCTGCCGTACTCAAAGAGGCGATCCTGCAGGCGTATCAGCAATGTGGTTGGGACTTGGACGCGTCGACCAACCGTTACAGCGATGAATTATTTCCGACGTTCAGTGATCTGCTCAGTACCCTGCAAAGCGTGATCGAGGCGTCCGCGTACTCCCAGGAGCTCAAAGGTAACTACATCGGTTCGCTGTCCACGCGGATCAAATCCCTGACCAATGGTTTGAATGGGCAGATTTTTACCGCTAACGAAATCGACAGCGCCGTACTGTTTGATCAGAGCGCAATCGTTGACCTGAGCCGCATCGGCTCGTCCGAGACCAAAGCCCTGATCATGGGGATCCTGGTGATGCGCCTGAGTGAGCACCGAATGGCCGGTGGTGGCATGAACCAGCCGCTGCGCCACGTCACGGTCCTTGAAGAAGCGCATAACATCCTCAAGCGCAGCCCGTCCGAAGGCGGTGCTGAAGGGGCAAATGTGGTCGGCAAGTCAGTGGAGATGCTAACCAACGCTATCGCCGAAATGCGCACCTACGGTGAAGGTTTCATCATTGCCGACCAGTCGCCCCATGCGGTTGATATCGCCGCGATTCGCAACACCAACACCAAAATCATCATGCGTCTGCCGGATGAAATGGACCGTCGTTTAATCGGTAAGTCGGTTGCGTTGCGTGATGATCAGCTTGAAGAGATCGCCAAGTTACCCAAAGGCGTCGCCATCGTTTATCAAAATGACTGGCTGGAGCCGGTGCTGTGTCAGGTGAAGAAATTCGCCGGGCACGAAACCCCTTATGTGTATACCGCCAATGACAATCGCGCCGTGCGTAGCCAGGATTTCAACCTGCAGGTACTCAACCTGCTGCTGAGCAACCGTATCCGCACGCCAGTCGCCTTGGATTTAGCGTTGCTGGAAAACGGCTTGTGTGAATTGCCGTTGCTGGCTCGCAGCAAAATCGCGCTGTTCGAGGCGCTCAATGCTCACAAAGAAGAGAAACCGTCGGCGCTGTGCAAGCCCGAGGCATTTGCCTACGTCGCACAATTGGTGGTCGATGTGCTCGGTTGCCGGCAGCAGGTCCAGCAGATCATTCAAATGGCGACCGACTACGGGCATCTAAGCAATCAACTTGACCTGTTACTCCACGAGAGAGCCACTGGCTTGAGCGCTGAGCTGACCCTGGCTACTCAGCAGTGCCTGATGAAGGACTACAGCCTGCAGCACGAGAGCCATCTCGATATCTATTCCGCATGGCGTGCGCGCCTCGAAACAGGGAGTGTTCTGTGA	MTSPILTRTAVQDIRENAGLTLEAGRALINRSYLSELERYPVHAFAEKGLRFNAASDVRIFRIERIVQDNKQSVLESTTAAYTALGAAGYSVFLILRSNGIETDLYIGTRGEPGKTLGHSSGELLRETFKGHFSGSSLVPLPQQHADALLGALQAEKANPSASITAVTGVPALSTENREHFMQGLERFIDAAERRVYHAIILAEPVSSQNLDLIRAGYEQVATQLSPLLKQQLSFGEQDSDSVGLSISQGLSDSLGHSLGLTETKGTSTTLGTSITDTTGTSESFSAQTLTSKTVAIGANVLGMVGGATLGPFGAMLGSQIGSAAAALLNEQRTTGTSQSTSTGRNESHGTSFSEAASKTTSTTHTTSTTDTHSLNKTLGSNRQISIETVDKTIEQLLSKIDHHLERIDEAKTYGGWNSAAYFIGDSTASSESLASIFLGLVRGSKSSHEDFALTTWKSANKSAVLDWLSAFSHPQLKPAFSKKIPISYLTPATLVSGKEMAIQLSLPRRSTSTVAVLETQAFGRKVQRLDGHSSEPGKGKTLTLGNIRHLWENLPQKIELSLDQLASHVFVSGSTGAGKSNTLYEMLSQISAVGVPFLVIEPAKGEYKHVFGHRDDVNVFGTHPAHSELLRINPFRFPLAIHVLEHVDRLVEIFNVCWPMYAAMPAVLKEAILQAYQQCGWDLDASTNRYSDELFPTFSDLLSTLQSVIEASAYSQELKGNYIGSLSTRIKSLTNGLNGQIFTANEIDSAVLFDQSAIVDLSRIGSSETKALIMGILVMRLSEHRMAGGGMNQPLRHVTVLEEAHNILKRSPSEGGAEGANVVGKSVEMLTNAIAEMRTYGEGFIIADQSPHAVDIAAIRNTNTKIIMRLPDEMDRRLIGKSVALRDDQLEEIAKLPKGVAIVYQNDWLEPVLCQVKKFAGHETPYVYTANDNRAVRSQDFNLQVLNLLLSNRIRTPVALDLALLENGLCELPLLARSKIALFEALNAHKEEKPSALCKPEAFAYVAQLVVDVLGCRQQVQQIIQMATDYGHLSNQLDLLLHERATGLSAELTLATQQCLMKDYSLQHESHLDIYSAWRARLETGSVL				NA	NA	NA	NA	NA
D1-35_01155	588			hypothetical protein	GTGAACTTTGAAAATTTCTTTGCTGAAAAATCCGAGGTTCCGACCAGCCTGGCGTTATTGGCCCGTGAAATGCCAGACCGCTGCCTTATCGTTGTCGAGCTCGATCGTCCTATCGTGCTCACCCAGGAAACCCGCCTGGAGCTACCGCAAATGTCGCCGGAAACCCGTGAGCGGCTTGAGCTGCTGGGCGTTCCTAAAGAGGTTCTGGATGCAATAGGTAGTGAGGCCGAAGCGAAGATCTATGAAAATGCCAATCTTGAACCATCCGAGGTCAACGGCAAGGATGCACTGATTCGTACCGACATCGATTACGATCAAAAAGATGCCATGGGCACCACTAACCTGGATCGGATGAAGTCGGGAAGGGCCCCGCTCGATGCCAATGGAAAGCCGATCGAGTTACATCACATCGGCCAGAAACAGGACTCACCATTGGCAGAATTGACCAGCGCTGAGCACCGTGGCAACGGAAACGATAACGTGTTGCACAACAAGCAGAAGGAGTCCGAGATCAATCGCGAGGACTTCGATAAAGAGCGAAAAGACTACTGGAAGGCGCGAGCCGAACAGATTGAGAATCAGCGCTGA	MNFENFFAEKSEVPTSLALLAREMPDRCLIVVELDRPIVLTQETRLELPQMSPETRERLELLGVPKEVLDAIGSEAEAKIYENANLEPSEVNGKDALIRTDIDYDQKDAMGTTNLDRMKSGRAPLDANGKPIELHHIGQKQDSPLAELTSAEHRGNGNDNVLHNKQKESEINREDFDKERKDYWKARAEQIENQR				NA	NA	NA	NA	NA
D1-35_01156	408			hypothetical protein	ATGAAAAAACTTGAACAACTCGTTGATCTCCATCAGGCCAACACCCGGCCAGTAGATACCGCCAGCATCCAGAATCTTGAGCAGAAACTGGGATTCGCACTGTCTGACGAATACAAGCGCTACCTGTCGGCTTTTGGAGTCATTGTCTTTGACGCCTACGAAACGTATGGCCTAGGCGTGCCTGACGACTATTACCTGAATGTGTTTGCCGCATTCTCGGACCTTGGCCGTGACCCGACCTACCCGAAAAATACTGTGCCACTGCTGGAGATTGGTGATGGTCAGTACTACCTGTACGACAACCAGGCACGGAAAATTCTGGTTTGGGCTACACCGAATGGCGGCATTGTGCGTGTCTTGGACGACGGGCTGGAAGCCTTTTTGATCAAGCATGTCTTCGCAGGCTAG	MKKLEQLVDLHQANTRPVDTASIQNLEQKLGFALSDEYKRYLSAFGVIVFDAYETYGLGVPDDYYLNVFAAFSDLGRDPTYPKNTVPLLEIGDGQYYLYDNQARKILVWATPNGGIVRVLDDGLEAFLIKHVFAG				NA	NA	NA	NA	NA
D1-35_01157	978			hypothetical protein	ATGGCCGAGACGATAAACATCGCAAAGATGGCAGAGAAGCTGTCGAAAGGCATTTTCAACGAGTTTCTCTGGGGGCGTATGGAGCACACCAATATCAATTGGCCGTGCGAGAACCAGGACTTACATGAGGTCAAGACCCATCCCTCAGATGTCGTTTTTTGGTACAATGAGCCCTATTCTCAGTCCCGCACATATGTGAACTGCGATCTCAAGAGCTACGCGAAGGGCACCATTAAAACGAAGGCTATCCGGGAGGCAATCGAGAGTCTTGCCAAGAGTCTGCGATGCGCCGAGATCAGCCGAGAGTTTAGCGAAACTTACATCCATCCGGATGTATCGGCAAATATCCAGGGACTGCTTTTCGTCTACAACCACGATAGTGAGTATGACAAGGACTTCGCCAAAATCCTAGAAAAGGTAAAGTGCGATGAATTGGACATACCCAAAGGTTCTAAAATCGTTGTGATGGGGCCTGACGATATCTACTGGCTGAACAACGTTCACCACGAAATTATCCACCTTCGCGGAGGTGCAGGTCTCCTACCGGAACGGGATTACTGCAAGTTTTACTACCCCCATCTGGTTCGCAGAAAGAATGTCCAATTGGAGCACGCTAAGGCAGCCACGCTGGACATGCTGACCGCACCTTGGATCATCCTGTCCCATGTAAACCCCAAGAATGGAAGTAAGCAGGGTTTCGTGATCTTCATGCGTAAGCGGGGATTCACAACAGATGAGTTTCTGTATCTCATCGAGTATCTGATGCACTACCAGGTAATTAAGGCCGAAACGGAGGTCACTATCCGCATGGTCGACCCGCATCAGAATGCTTCAGCCAATTTTGCCAAAGCAAAAGACCAGTACGTCGCTGACTATCAAGGCGGTGGAGACCTTAGGCAGATCCTAGACTCCATTGACTTCGGCAAACTTGAGCACGTCCGTACCACTTTCTGTGACCTGGAGTTGTCTCGGCAATGA	MAETINIAKMAEKLSKGIFNEFLWGRMEHTNINWPCENQDLHEVKTHPSDVVFWYNEPYSQSRTYVNCDLKSYAKGTIKTKAIREAIESLAKSLRCAEISREFSETYIHPDVSANIQGLLFVYNHDSEYDKDFAKILEKVKCDELDIPKGSKIVVMGPDDIYWLNNVHHEIIHLRGGAGLLPERDYCKFYYPHLVRRKNVQLEHAKAATLDMLTAPWIILSHVNPKNGSKQGFVIFMRKRGFTTDEFLYLIEYLMHYQVIKAETEVTIRMVDPHQNASANFAKAKDQYVADYQGGGDLRQILDSIDFGKLEHVRTTFCDLELSRQ				NA	NA	NA	NA	NA
D1-35_01158	1128			hypothetical protein	ATGAGCAAAAACGCGCTTCAGTATTGTGCTACGGATAAGGAAATTTACGACGCCTTGATGTCTGCTAAGCAGAAAATCAACGAAAAAATTCTGCTAGAGCTTGCGAAGGACAGGGGGATTTTCTTTTCTGCCAAGGACAGCCGGGATGATTTGGTCAGCGCCATTTCGCTCCTTCCACATGACTATCACGATCTTAATACCCTGCTGGAACAGCGTGAGCATTCTGGCCGGCAGGAAAAGCTCACGTCGGTAACGCTACCAACCGCGCTGACCGTGGAAGGAATCCGGGAGATTATTAGAGAGTACATTGAGGAGTCCCCGGAGGACGAGAAGGTCACTCAGCAGATTAAGGACGGCAACCAAGTGGTCGCCAACATTAAGTACTCCGACGTTGACTATGGCAAAACGCGGCTCGTTCAGCGCACACCCAAAGAAGCCTTGATCGAGTTCCACGTATCGGCGGACAAGACGGTCATTCGGATGCCTGCCAATGATCGTGTCAAGGCTATCTACTCGAAGCTCAAGGGCAAGCTGGATACCAGGGCCAAGGCTGAAATCCCCGCTATCCGCATCGAACTCGGCGAGTTTCAATCATCAGCATTGCGCACAGAGTTCTTTACTTCTCTCATCAGAGATCTAACGGGGTTCTCGCTGAAGAACGTCACTAGTGTGAAAGTTGAGCGCTTGCCCCAGGAACCTGAGGAAGACGAGCTTGATCTGGACGATGACCAGGAAGCTGAGGTGGCCAAAGAGGAGGCCTTGGCTCTGGTCAAGAATGTCGCACTGAAAGGTGAGACACTTCTGGCGTCTGAGGAGTACCAGAGTTTGACCCGGAAAGGCTTTTTCATCACGTCGATCATATGGCGCTCGGTGCTGAATAAAGCACCACAACCCATGGTGGAGTTTGAGGCTGCTTTTGAGGATCCGATGCAAGGAAAGGGGTTCAAGTACTTTGTCCGAGGCGCCTATCGTATCGTTGAGCTTGAGTACACCAAGACGATTCGACCGGTCAGTGCCGAAGACAAAGAAATCTATCTGGGTGTTATTGAAGAAACCGCGGCGAAAGTTATCAGGGAACTGAGAGCAAAAGCTCAAGCGAGCGCTGAGCCGCAAGGAGAACCAACATGA	MSKNALQYCATDKEIYDALMSAKQKINEKILLELAKDRGIFFSAKDSRDDLVSAISLLPHDYHDLNTLLEQREHSGRQEKLTSVTLPTALTVEGIREIIREYIEESPEDEKVTQQIKDGNQVVANIKYSDVDYGKTRLVQRTPKEALIEFHVSADKTVIRMPANDRVKAIYSKLKGKLDTRAKAEIPAIRIELGEFQSSALRTEFFTSLIRDLTGFSLKNVTSVKVERLPQEPEEDELDLDDDQEAEVAKEEALALVKNVALKGETLLASEEYQSLTRKGFFITSIIWRSVLNKAPQPMVEFEAAFEDPMQGKGFKYFVRGAYRIVELEYTKTIRPVSAEDKEIYLGVIEETAAKVIRELRAKAQASAEPQGEPT				NA	NA	NA	NA	NA
D1-35_01159	681			hypothetical protein	ATGAACAGGGTTAGATGGCTTTATGCCCAATGGCCCTTACCAATTCGAGCAGTTGGGAAGAAGCTCGTTGAGACGCCATTTACGGATGAGAGAATGGATGGCTTCGCTATAGAACGAATTCGAGACGACTTCGTCGAGGGGCGTTACATCGAAAAGTACAATTACCAAGAAGTGATCTCGACTCCTTTTGGTACTGAAGAGGTGTTTGATCGGGTTGGGTACCGGACAACAGAGTTCACTCTCTTTGATTCGTCGCCCCACATTGAGCTAAGAAATTATCAGCGCAGTATCAAAGGATTTATCAGTCGGCTGCTCGAAGCTTGCAGTTTCAACCTAGTAGTTACGCCTATTACGGTTAACCTGATTGAGTGGGTATCGGCGCTGCAGCTTGCCGTGGATCAGGAAATCACTGTCGATTCGCTTCAGGTCTCGGGCGTCGAAATAGACCAAGGTGTGACGGGGAAAATATTGCTCAAAGGGCTAAGAGATGTGCGTGAAGCCACTGATGTTCTACTAGCCGGGCGTAAACATGTGCTGGAAAAAGTCCAAGTGAAATTCGCTGGCCTTCACAAGACAGTGGTCATCCAATTGTCCAATAACGGCACTGCGAAGCTCCCCGCAATGCTACCGAAAGACCTCCTTCATCATTTACGTGTGTCCTTTCCTACCAGCGTCAGATGA	MNRVRWLYAQWPLPIRAVGKKLVETPFTDERMDGFAIERIRDDFVEGRYIEKYNYQEVISTPFGTEEVFDRVGYRTTEFTLFDSSPHIELRNYQRSIKGFISRLLEACSFNLVVTPITVNLIEWVSALQLAVDQEITVDSLQVSGVEIDQGVTGKILLKGLRDVREATDVLLAGRKHVLEKVQVKFAGLHKTVVIQLSNNGTAKLPAMLPKDLLHHLRVSFPTSVR				NA	NA	NA	NA	NA
D1-35_01160	1257	intA_1	COG0582	Prophage integrase IntA	ATGTGCGCACAAGCGGTTCGCCTCTCTGAACTCAAAATCAAATCTGCCAAGCCTGCTGAAAAGGACTACGTACTGTTCGATGGCGGCGGACTTCAAATGCGAGTGAGAAGTAATGGCTCAAAGCTATGGAACTTCAACTATCGACACCCCGTGACGAAGAAGCGGATCAACATGGGCCTCGGTACCTTCCCTGAAGTCTCACTAGCGCTAGCACGAAAAGGCTCCATTGCAGCCCGGGAAATACTTGCCAAAGGCCTCGATCCCAAAGAACAACGGGATGCAGTGCTGCAAGCAAAGCAAGCTGAAACCGAGCACACATTCCAGAATGTCGCGACGTCCTGGTATGAACTGAAGAAGGATGCGGTGACACCTGCTTATGCCGAGGACATCTGGCGTTCGTTGACGCTGCACGTTTTTCCAGACTTGGCCTCCACACAGATTTCAGCAATCAGTGCACCACAAGTCATCAACCTTCTTCGACCACTCGAAACCAAAGGTAGCCTTGAAACCGTTAAACGGCTGTCACAGCGACTCAACGAGATCATGACTTACGGGGTCAACTCAGGACTGATACACGCAAACCCACTCAGCGGGATTCGCTCCGTCTTCAAGAAGCCGAAAAAGAAAAACATGGCGGCACTTGCTCCAGATGAGCTGAAAGAGCTCATGGTGGCAATTGCCAATGCCAGCATAAAAAGAACTACGCGCTGTCTGATTGAATGGCAGCTCAATACCATGACTCGCCCAGCGGAGGCTGCAACCACGCGCTGGGTCGACATCGACTTCGAGAAGAAGATCTGGACGATTCCTGCTGAGCGCATGAAGAAACGCCGAGTACATATCGTGCCGCTCACAGATCAAGCATTGGCACTGCTGGAGGCAATCAAACCCTACAGCGGACACCGAGAGTATGTATTTCCTGCAGACCGGGACCCTCGGACCCATTGCAACAGCCAGACCGCCAACATGGCACTAAAGCGCATGGGCTTCGAAGGTCGGTTGGTGAGCCATGGCATGCGATCAATGGCCAGCACTACTCTCAACGAACACGGCTGGGATCCTGAGTTGATTGAGGTAGCGCTTGCACACGTCGATAAAGACGAGGTCCGCAGCGCCTATAACCGAGCGGACTACATCGAGCGCAGGCGTCCAATGATGAAGTGGTGGAGCGAGCACATCCAAAAAGCAGCTACCGGCAATCTTTCGATCTCGGCAATCCAGAACACCCGAGACACGAAGGTCGTCTCAATACGCTAA	MCAQAVRLSELKIKSAKPAEKDYVLFDGGGLQMRVRSNGSKLWNFNYRHPVTKKRINMGLGTFPEVSLALARKGSIAAREILAKGLDPKEQRDAVLQAKQAETEHTFQNVATSWYELKKDAVTPAYAEDIWRSLTLHVFPDLASTQISAISAPQVINLLRPLETKGSLETVKRLSQRLNEIMTYGVNSGLIHANPLSGIRSVFKKPKKKNMAALAPDELKELMVAIANASIKRTTRCLIEWQLNTMTRPAEAATTRWVDIDFEKKIWTIPAERMKKRRVHIVPLTDQALALLEAIKPYSGHREYVFPADRDPRTHCNSQTANMALKRMGFEGRLVSHGMRSMASTTLNEHGWDPELIEVALAHVDKDEVRSAYNRADYIERRRPMMKWWSEHIQKAATGNLSISAIQNTRDTKVVSIR				NA	NA	NA	NA	NA
D1-35_01162	291			hypothetical protein	ATGAAACGCTCTGTGCTGTTAGGTCTGTTTGTCACTGCTTCGATGCTGGCATCACCCTCGTTTGCTGCCGGCGATTCGGACAGTCTCTGCGCCACCAACATCAAAACCATTGAGAATGCCAAGACCCAGTACCAAGGCTCGGATTCGCAAAGCCAGATCGAGGCGAGCCTTCAGCAAGCGAAGGCCCATCAAGCCTTGAAAACCAAGGAAGGCACCGAGAAATGCATCTCTGAAACCACCCAGACCATCCAAGAGATGCAGAAGACCAACAAAGACGGTAAAAACTCCTGA	MKRSVLLGLFVTASMLASPSFAAGDSDSLCATNIKTIENAKTQYQGSDSQSQIEASLQQAKAHQALKTKEGTEKCISETTQTIQEMQKTNKDGKNS				NA	NA	NA	NA	NA
D1-35_01163	2811			hypothetical protein	ATGACGCTTCCGGCCCCTTTCCTGCGCGACGTATACCAACTGATCCCGGAGAAACGACGCTTCGACGACCCGTTGTCGACCCTGGCCTTCGGCACCGATGCGAGCTTTTATCGGCTGATTCCGAAACTGGTGGTACGCGTCGAAAGCGAAGACGAAGTCATCGCCCTGCTGCAACTGGCCCAGCGCGACCGGGTTCCGGTGACCTTCCGTGCGGCGGGCACCAGCCTGTCCGGCCAGGCCATCAGCGACTCAGTGCTGATTGTGCTCGGGGACAACTGGAACGGCCGGGAAATTCGCGAGCAAGGCACACAGATCCGTTTGCAACCCGGCGTGATCGGCGCCCAGGCCAACGCCTGGCTGGCCCCGTTCGGGCGCAAGATCGGCCCGGATCCGGCGTCGATCAACGCCTGCAAGATTGGCGGCATCGTCGCCAACAACGCCAGCGGCATGTGCTGCGGCACGGCGCAGAATACCTATCACACCCTGGCCGGCATTCGCCTGGTACTCGCCGATGGCACGCGCCTGGACACCGAAGACGCCGCCAGCGTGGCGGCATTCAGGGCGAGCCACGGCGAACTGCTGGAGCGGCTGGCAACCCTTGGCCGTGAGACACGCGCCAACACGGAGCTCGCCGCCCGAATTCGCCACAAATACCGTCTGAAAAATACCACCGGCCTGTCGCTCAATGCCCTGGTGGATTTCGACGAGCCGGTGGATATCCTCAGCCACCTGCTGGTGGGCTCTGAAGGCACGCTGGGATTCATCAGCGCGGTGACCTACAACACCGTTATCGACCACCCGAACAAAGCCTCGGCACTGATCGTGTTTCCGGATGTGGAGACCTGCTGCAACGCCGTGACCGTACTGAAAAGCCAGCCGGTCTCCGCCGTTGAGCTGCTGGACCGCCGCAGCCTGCGCTCAGTGCAGGACAAGCCGGGCATGCCGGATTTCGTACAGCACCTGTCGAACAATGCCTGCGCGCTGCTGATCGAATCCCGCGCCGCTTCGTCATCGTTACTACAGGAACAACTGACCCGGATCATGGCTTCTCTGGCGGCTTTCCCGGTGGAAAGGCAAGTCGACTTCACCGAGGACCCGCGAGAAAACGCCCGCCTGTGGGCCATCCGCAAAGACACCTTCCCCGCCGTAGGCGCGGTGCGCAAGACCGGAACCACGGTCATCATCGAAGACGTGACCTTCCCGGTCGAGCAACTGGCCGCTGGCGTGAATCGCCTGATCGCCCTGTTCGACAAACATCACTACGACGAAGCGATCCTTTTCGGACACGCACTGGAAGGCAATCTGCACTTTGTCTTCACCCAAGGCTTCAACAGCACTGAAGAAGTCGCACGCTACCAGGCGTTCATGGATGACGTAGCGCAACTGGTGGCGGTGGAATTCGGCGGCTCGCTGAAAGCCGAACACGGCACCGGCCGCAACATGGCACCGTTCGTTGAGTTGGAATGGGGCACTGATGCCTATCAATTGATGTGGCAGCTCAAGCGCTTGCTCGACCCCAACGGCATCCTCAACCCGGACGTCGTGCTCAGCGAGGACCCGCAGATCCACCTCAAGCACCTCAAGCCATTGCCGGCAGCTGATGAGATTGTCGACAAGTGCATCGAGTGCGGCTTCTGCGAGCCGGTGTGTCCCTCCAAGGACCTGACCTTGAGCCCGCGCCAGCGCATCGTGATCTGGCGCGACATTCAAGCGAAAAAGCGCGCCGGTATCGATACCTCCGAGCTGGAAACGGCCTATCAATACCAGGGCATCGATACCTGTGCCGCCACGGGCCTTTGCGCCCAACGCTGTCCTGTAGGCATCAACACCGGCGAACTGGTGAAAAAACTCCGCAGCCGCACTGCGACGCGTACGAAAACCGCCGATTGGCTTGCGGGTAATTTCGCCACTGCGCTGCAAGGGGCGCGCTTTACCCTGCACGTCGCCAACGGTGCGCGAATGATGTTGGGAGCGCCGCGCCTGGCACGGTTGTCCGCCGGGCTGACGCGGCTGTCCAAAGGACAGGTTCCGCAGTGGACCAACGCCATGCCGCAACCGGAAAGGGCGATTCGGTTCAGCCCCAGCGTGGCGGACGAACGCCCGAGGGTGGTTTATCTGGCGGCCTGCGTGTCGCGGGTCATGGGCCCGGCGGCGGAGGACAAAGAACAGATGTCGTTGCACGACAAGACCCGCGGGCTGCTGGAAAAAGCCGGTTACCAAGTCGTTTTCCCGGACAACGTAGACAGCCTCTGCTGCGGCCAACCCTTTGCATCCAAAGGCTACGCCGAACAGGCCGAGCACAAGCGCCAGGAACTGATCGGCGCGCTGCTGCACGCCAGCCGCGGCGGGCTCGACCCGATCTATTGCGACACCAGCCCATGCACCCTGCGCCTGGTTCAAGACTTGGGTGAAGTACGTCTGGACCTGTACGACCCGGTGCGTTTCATTCGCACGCACCTGATGGATCGCCTCGACTTCACGCCTCAAGAGGCCCCCATTGCGGTGCACGTCACCTGCAGCACGCAGCACCTTGGCGAGAGCCAGGCGTTGATCGATCTGGCGCGCAGGTGCAGCAAAAACGTGGTCATTCCGGAAGGCATCCATTGCTGCGGATTTGCCGGGGACAAAGGCTTCACCACGCCCGAACTGAACGCCCACTCGTTGCGCACGCTGAAGGGCGCGGTAGAGCACTGCAGCGAAGGAATCTCCACCAGCCGGACCTGTGAGATCGGTCTTACGCAACACGGTGCGATTGATTACCACGGGCTGGTTTATCTGGTTGACCGAGTGACACGGGCCAGGGCGATGTGA	MTLPAPFLRDVYQLIPEKRRFDDPLSTLAFGTDASFYRLIPKLVVRVESEDEVIALLQLAQRDRVPVTFRAAGTSLSGQAISDSVLIVLGDNWNGREIREQGTQIRLQPGVIGAQANAWLAPFGRKIGPDPASINACKIGGIVANNASGMCCGTAQNTYHTLAGIRLVLADGTRLDTEDAASVAAFRASHGELLERLATLGRETRANTELAARIRHKYRLKNTTGLSLNALVDFDEPVDILSHLLVGSEGTLGFISAVTYNTVIDHPNKASALIVFPDVETCCNAVTVLKSQPVSAVELLDRRSLRSVQDKPGMPDFVQHLSNNACALLIESRAASSSLLQEQLTRIMASLAAFPVERQVDFTEDPRENARLWAIRKDTFPAVGAVRKTGTTVIIEDVTFPVEQLAAGVNRLIALFDKHHYDEAILFGHALEGNLHFVFTQGFNSTEEVARYQAFMDDVAQLVAVEFGGSLKAEHGTGRNMAPFVELEWGTDAYQLMWQLKRLLDPNGILNPDVVLSEDPQIHLKHLKPLPAADEIVDKCIECGFCEPVCPSKDLTLSPRQRIVIWRDIQAKKRAGIDTSELETAYQYQGIDTCAATGLCAQRCPVGINTGELVKKLRSRTATRTKTADWLAGNFATALQGARFTLHVANGARMMLGAPRLARLSAGLTRLSKGQVPQWTNAMPQPERAIRFSPSVADERPRVVYLAACVSRVMGPAAEDKEQMSLHDKTRGLLEKAGYQVVFPDNVDSLCCGQPFASKGYAEQAEHKRQELIGALLHASRGGLDPIYCDTSPCTLRLVQDLGEVRLDLYDPVRFIRTHLMDRLDFTPQEAPIAVHVTCSTQHLGESQALIDLARRCSKNVVIPEGIHCCGFAGDKGFTTPELNAHSLRTLKGAVEHCSEGISTSRTCEIGLTQHGAIDYHGLVYLVDRVTRARAM	PGPT0018110_189	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018110-dld2-K18930	NA	NA
D1-35_01164	672		COG1556	putative protein	ATGAGCGCCAAGGAAAATATCCTCGCCAAGCTGCGTAAAAGCCTGACCGGCACCACGCCCGTTGCCGACAACTACGACGTCGAACTGGTGACACAGACCTACCGCTACGCGCCCGAGGAACGCATTCCACAACTGCGCAAGCTGATGGAAGCGGTACACACCGAAATTCACCTGACGTCCGGCGAAGCCTGGCCGACGCTGCTGGCGCAATTGCTGCGCGACCGGCAACTGCCGAGCCTGCTGATCGCACCGACAACGCCCCATGGGCAAAAAATCGTACAGTTCTGGGCGAACAATCCGGGCCTTCCTGCGCTCAAGGCCTACGATCGGCCGGTGGAGGAATGGAAAGCCGAACTGTTCAACGATACGCCTGCCAGCCTGACCGGCACCCTCGGAGCCATCGCCGCAACCGGTAGCCTGATTCTCTGGCCGACGCGGGAAGAACCGCGCCTGATGAGCCTCGTCCCGCCGGTGCACTTCGCCTTGCTCAAGGCCAGCGAAATCCGTGACAACTTCTATGAAGTGCAGCAGGAATTCGAATGGGCCCAAGGCATGCCGACCAACGCCCTGTTGGTGTCGGGCCCGTCAAAGACCGCCGACATCGAGCAGGTCCTGGCCTACGGCGCCCATGGACCAAAGGATCTGGTGGTGCTGATTCTGGAGGACCAATGA	MSAKENILAKLRKSLTGTTPVADNYDVELVTQTYRYAPEERIPQLRKLMEAVHTEIHLTSGEAWPTLLAQLLRDRQLPSLLIAPTTPHGQKIVQFWANNPGLPALKAYDRPVEEWKAELFNDTPASLTGTLGAIAATGSLILWPTREEPRLMSLVPPVHFALLKASEIRDNFYEVQQEFEWAQGMPTNALLVSGPSKTADIEQVLAYGAHGPKDLVVLILEDQ	PGPT0018100_881	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
D1-35_01165	1458	lutB	COG1139	Lactate utilization protein B	ATGAGTACGCCGACGCTGATTCCGACCGTTGCAGTGCAGGAAGATTTTCGCGCCCGCGCCCACAAGGCGTTGGACGACACGCAACTGCGAAACAACTTTCGCACTGCGATGGATTCACTGATGACAAAACGGGCAGCGTCCTTCAGCGATGCCCACGAAAGAGAACACCTGCGGGTGCTGGGCAATGCTGTCCGCGCCCGCGCGTTATCCAGGCTGCCCGACCTGCTCGAGCAACTTGAAGCCAACCTGACCCGCAACGGTGTGAACGTGCACTGGGCGGAAACGGTGGACGAGGCCAATGGCATCGTCCTGTCGATCATCCGCGCTCACGAGGCGCGGCAAGTGATCAAGGGCAAATCGATGGTCAGCGAAGAGATGGAGATGAACCATTTCCTCGAGGCTCGGGACATTGAATGTCTCGAATCCGATATGGGGGAATACATCGTCCAGCTCGACCACGAGAAGCCTTCACACATAATCATGCCGGCAATCCACAAGAATGCCGGTCAGGTCGCGTCCTTGTTCCACGACAAACTTGGCGTGGAGTACACCAAGGACGTCGACCAACTCATTCAGATCGGTCGCAAGGTCTTGCGGCAGAAATTCTTCGAAGCCGACGTCGGCGTTTCCGGTGTCAACTTCGCCGTCGCCGAAACCGGCACGCTGCTGCTGGTGGAAAACGAAGGCAACGGGCGGATGTCGACCACGGTGCCGCCGGTGCACATTGCCGTGACCGGCATTGAAAAAGTCGTGGAGAACCTGCGGGACGTCGTGCCGCTGCTCTCGCTGCTGACCCGCTCGGCGCTGGGCCAGCCGATCACCACCTACGTCAACATGATCTCCGGCCCGCGCAAGGCAAACGAACTGGACGGGCCGCAGGAAGTTCACCTGGTCCTGCTCGACAACGGTCGCAGCCAGGCATTTGCCGACAGTGAGCTGCGCCAGACCCTGAACTGCATTCGCTGCGGCGCCTGTATGAATCATTGCCCGGTCTACACGCGAATTGGTGGTCATGCCTACGGCGAGGTTTACCCGGGACCTATCGGAAAAATCATCACGCCGCACATGGTCGGCCTGGCCAAGGTGCCGGATCACCCGAGCGCGTCTTCGCTGTGCGGTGCCTGCGGCGAAGTGTGCCCGGTGAAGATTCCGATCCCGGCACTGCTACGACGGCTGCGAGAAGAAAACGTCAAGGCGCCGGACAGCCCCAACCCGGTCATGCGCGGCCAGGGCAGCAAGTATTCGGCCAAGGAGCGCTTCATCTGGAATGCCTGGGCCCGGCTCAACAGCTCGCCACCGCTGTACCGGCTGTTCGCTTTCCTCGCCACGCGCCTGCGCGGCCTGACACCGCAGAACGTCGGCCCCTGGACCCAGAACCACAGCGCCCCGAAACCCGCCGCCCGCTCGTTGCATGACCTGGCCCGCGACCACCTGACCCCGCAGGGAGACCGCCGATGA	MSTPTLIPTVAVQEDFRARAHKALDDTQLRNNFRTAMDSLMTKRAASFSDAHEREHLRVLGNAVRARALSRLPDLLEQLEANLTRNGVNVHWAETVDEANGIVLSIIRAHEARQVIKGKSMVSEEMEMNHFLEARDIECLESDMGEYIVQLDHEKPSHIIMPAIHKNAGQVASLFHDKLGVEYTKDVDQLIQIGRKVLRQKFFEADVGVSGVNFAVAETGTLLLVENEGNGRMSTTVPPVHIAVTGIEKVVENLRDVVPLLSLLTRSALGQPITTYVNMISGPRKANELDGPQEVHLVLLDNGRSQAFADSELRQTLNCIRCGACMNHCPVYTRIGGHAYGEVYPGPIGKIITPHMVGLAKVPDHPSASSLCGACGEVCPVKIPIPALLRRLREENVKAPDSPNPVMRGQGSKYSAKERFIWNAWARLNSSPPLYRLFAFLATRLRGLTPQNVGPWTQNHSAPKPAARSLHDLARDHLTPQGDRR	PGPT0018095_564	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
D1-35_01166	825	lutA_1	COG0247	Lactate utilization protein A	ATGAGCGAGCTTTTTTACAACGCCGTGCCGAACGCGACCCGAGTCGCCCCGCCATTGCCTGAGCCGCGCCAGTATCCCAGCGAGAAACCCCGACGGGTCTATCTGTTCGGAACCTGCGTGGTGGATCTGTTCTACCCCGAAGCCGGGATGGACGCGATTCATCTGCTTGAGCGCGAAGGCATCCAAGTCGACTACCCGCAAGGCCAGACATGCTGCGGGCAACCGGCCTACACCTCGGGATATACCGAGCAGGCGCGGACGGTGGCGCGGGCGCAACTGGCCCTGTTTGCCGGGGATTATCCGGTGGTCGTGCCGTCGGGCTCGTGTGCCGGCATGCTGCGTGAACATTACGCCGACCTGTTCAAGGACGAACCGCAAATGCTCAAACAGGTCCAGGCCCTGGCGGCCAGGACCTATGAGCTGGCCGAGTTCCTGCTGTTCGTGTGCAAGGTGCAATTGAACGACGATGGCGCGCCGGTAAAGGTCGCGCTGCATACGTCCTGCTCGGCACGACGGGAAATGAATACGCACCTACATGGCCGTGAGTTGTTGGCACAGCTGCGCAACGTGGAACGGGTCGACCACAGTCACGAAAGTGAATGCTGCGGTTTTGGTGGGACGTTCAGCGTTCGCATGCCGGATATTTCCGGCGCGATGGTGGCCGACAAGACCCGCGCGCTGAAGGAATCCGGCGCGCATCAGGTGGTCAGCGCCGACTGCGGTTGCCTGATGAACATCAACGGCGCGCTGGAAAAACAGCGCGAAGCGCTACGCGGCCAGCATCTGGCGAGCTTCCTCTGGAAGCGTACCGGAGGTGTCGCATGA	MSELFYNAVPNATRVAPPLPEPRQYPSEKPRRVYLFGTCVVDLFYPEAGMDAIHLLEREGIQVDYPQGQTCCGQPAYTSGYTEQARTVARAQLALFAGDYPVVVPSGSCAGMLREHYADLFKDEPQMLKQVQALAARTYELAEFLLFVCKVQLNDDGAPVKVALHTSCSARREMNTHLHGRELLAQLRNVERVDHSHESECCGFGGTFSVRMPDISGAMVADKTRALKESGAHQVVSADCGCLMNINGALEKQREALRGQHLASFLWKRTGGVA	PGPT0018090_78	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
D1-35_01167	1695	glcA_1	COG1620	Glycolate permease GlcA	ATGCAAACCTGGCAACAGCTTTACAGCCCGCTCGGCAGCCTAGGCTTGTCCGCACTCGCGGCCGTCATTCCCATCGTGTTTTTCTTCCTCGCCCTGGCGGTGTTTCGCCTCAAGGGGCACGTGGCGGGCAGCATCACCCTGGCCTTGGCGATTGCCGTCGCGATCTTCGCTTTCCAGATGCCGGCCGACATGGCGTTTGCCGCCGCCGGCTATGGCTTTGCCTATGGTCTTTGGCCGATTGCCTGGATCATCGTCGCCGCCGTGTTTCTCTACAAACTGACCGTCAAGAGCGGCCAGTTCGAAATCATCCGCAGCTCGGTGCTGTCGATTACCGATGACCAACGCCTGCAAGTGTTGCTGATCGGCTTCTGCTTCGGCGCATTCCTGGAAGGTGCCGCCGGTTTCGGCGCTCCCGTCGCGATTACCGCCGCGCTGCTGGTCGGCCTGGGTTTCAACCCGCTCTACGCCGCCGGCCTGTGCCTGATCGCCAACACCGCTCCGGTAGCCTTCGGCGCACTGGGTATTCCGATTATCGTTGCGGGCCAGGTCACCGGGATCGACGCTTTCAAGATCGGCGCCATGACCGGTCGCCAGCTGCCGTTGCTGTCGCTGTTCGTGCCGTTCTGGCTGGTGTTCATGATGGATGGGCTGCGCGGTGTGCGGGAAACCTGGCCGGCCGCCCTGGTAGCGGGCTTGAGTTTCGCCATCACCCAGTACTTCACTTCGAACTTCATCGGCCCGGAACTGCCGGACATCACGTCGGCCCTGGCCAGCCTGGTATCCCTGACGCTGTTCCTGAAAATCTGGCAGCCCAAGCGTACCGCCGGCGCCCAGATTGCCGGTGCAACCTCCAGCGCAGCGATCACCGCCAGCGTCGGCGGTTTCGGCCAGCCGCGCAGCACCGTGGCTTCGCCCTACAGCCTGGGGGAAATCATCAAGGCCTGGTCACCGTTCCTGATCCTGACCGTGCTGGTGACCCTCTGGACCCTGAAGCCCTTCAAGGCGATGTTCGCCGCCGGTGGCTCGATGTATGGCTGGGTGTTCAACTTCGCGATCCCGCACCTGGATCAACTGGTCATCAAGGTCGCCCCTATCGTGATCAACCCCACGGCGATTCCGGCGGTGTTCAAGCTCGATCCGATTTCGGCCACCGGCACGGCGATTTTCTTCTCGGCACTCATCTCGATGATCGTCTTGAAGATCAACTTCAGAACTGGTCTTACCACTTTGAAGGAGACCTTCTACGAACTGCGCTGGCCTATTCTGTCCATCGGCATGGTGCTGGCATTCGCCTTCGTCACCAACTTCTCGGGCATGTCATCAACCATGGCCCTGGTATTGGCCGGAACTGGCGCAGCGTTCCCGTTCTTCTCGCCATTCCTCGGCTGGCTGGGCGTATTCCTGACCGGCTCCGATACTTCCTCCAATGCGCTGTTCGGCTCGCTGCAAGCGACGACCGCGCACCAGATCGGTGTCAACGACACATTGCTCGTGGCAGCCAATACCAGTGGCGGCGTCACCGGCAAAATGATTTCGCCGCAATCGATCGCCGTAGCCTGCGCGGCAACCGGCTTGGTGGGCAAGGAATCGGATCTGTTCCGTTTCACCCTGAAACACAGCCTATTCTTTGCAACGATCGTCGGCTTGATCACGTTGGCCCAGGCCTACTGGTTCACCGGCATGCTGGTTCACTGA	MQTWQQLYSPLGSLGLSALAAVIPIVFFFLALAVFRLKGHVAGSITLALAIAVAIFAFQMPADMAFAAAGYGFAYGLWPIAWIIVAAVFLYKLTVKSGQFEIIRSSVLSITDDQRLQVLLIGFCFGAFLEGAAGFGAPVAITAALLVGLGFNPLYAAGLCLIANTAPVAFGALGIPIIVAGQVTGIDAFKIGAMTGRQLPLLSLFVPFWLVFMMDGLRGVRETWPAALVAGLSFAITQYFTSNFIGPELPDITSALASLVSLTLFLKIWQPKRTAGAQIAGATSSAAITASVGGFGQPRSTVASPYSLGEIIKAWSPFLILTVLVTLWTLKPFKAMFAAGGSMYGWVFNFAIPHLDQLVIKVAPIVINPTAIPAVFKLDPISATGTAIFFSALISMIVLKINFRTGLTTLKETFYELRWPILSIGMVLAFAFVTNFSGMSSTMALVLAGTGAAFPFFSPFLGWLGVFLTGSDTSSNALFGSLQATTAHQIGVNDTLLVAANTSGGVTGKMISPQSIAVACAATGLVGKESDLFRFTLKHSLFFATIVGLITLAQAYWFTGMLVH	PGPT0001740_28	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLYCOLIC_ACID_TRANSPORT,PGPT0001740-glcA-K02550	NA	NA
D1-35_01168	768	pdhR	COG2186	Pyruvate dehydrogenase complex repressor	ATGGGGTTTGATCAGATTCGTCAGCGCCGTTTGTCTGACGATATTGTCGAGCGGCTGGAAGGCATGATCCTCGAGGGCACGTTGAAGTCCGGCGAGCGATTGCCGGCCGAACGGACCCTGGCCGAGCAGTTCGGTGTGTCACGCCCTTCGTTGCGTGAGGCGATCCAGAAGCTGACGGCCAAGGGTTTGCTGATCAGTCGTCAGGGCGGCGGCAACTATGTGGTGGAGTCGCTGGGCTCGACGTTCAGTGATCCGCTGCTTCAGCTCCTGGAAAGCAATCCCGAAGCACAGCGTGATCTATTGGAGTTCCGGCATACCTTGGAGGCGTCCTGCGCTTATTACGCAGCATTGCGGGCTACCGAGGTCGATCGCGAGCGGCTGACAGCGGCGTTCGATGAGTTGCAGGATTGTTACTCGCGTCACGAACAGGTGAGTCGGGCGGAGGAGGGCGCGGCGGATGCGCGCTTTCACCTGGCGATCGCCGAGGCCAGTCATAACGCGGTTTTGCTGCACACCATTCGCGGCTTGTTCGACCTGCTCAAGCGCAACGTGGTGACCAATATCGGCGGCATGTACAAACAGCGCAGCGAGACCCGCGACATGCTGATCAGTCAGCATCGGGAGTTGTATCAAGCCATCATGGATGGTCACGCCGAGTTGGCGCGGGAGGTTTCCAGCCGACATATCCTGTATGTGCAGGAGGTGCTGGAAGAGGTGCGTCAGGAAGTGCAGCGGGTTGCCCGGGCGGAGCGGCGCAAGGGGATGTAG	MGFDQIRQRRLSDDIVERLEGMILEGTLKSGERLPAERTLAEQFGVSRPSLREAIQKLTAKGLLISRQGGGNYVVESLGSTFSDPLLQLLESNPEAQRDLLEFRHTLEASCAYYAALRATEVDRERLTAAFDELQDCYSRHEQVSRAEEGAADARFHLAIAEASHNAVLLHTIRGLFDLLKRNVVTNIGGMYKQRSETRDMLISQHRELYQAIMDGHAELAREVSSRHILYVQEVLEEVRQEVQRVARAERRKGM	PGPT0018120_202	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018120-lldR-K14348	NA	NA
D1-35_01169	390	smpB	COG0691	SsrA-binding protein	ATGGTCCTGGCCGGCTGGGAAGTAAAAAGCTTGCGTGCCGGCAAGGCGCAACTGGTCGACAGTTACGTCCTGCTCAAGGACGGCGAAGCCTGGCTGCTGGGCAGCCACATCACGCCGCTGACCACCGCCAGCACCCACGTCATTGCCGATCCTGTGCGCTCGCGCAAACTGCTGCTCAACAAGCGGGAGCTGGAGAAGCTCTTCGCCTCCGTGCAGCAGAAGGGTTATGCCTGCGTCTGTACCTCGCTGTACTGGAGCAAGCATTTGATCAAGTGCGAAATTGCACTGGGCAAGGGCAAGAAGGAATATGACAAGCGCGACACCGAGCGCGAACGCGATGCCGGGCGCGAGTTGCAGCGCGCGGTGCGTAACAAGGGCAAGGAAGACTAG	MVLAGWEVKSLRAGKAQLVDSYVLLKDGEAWLLGSHITPLTTASTHVIADPVRSRKLLLNKRELEKLFASVQQKGYACVCTSLYWSKHLIKCEIALGKGKKEYDKRDTERERDAGRELQRAVRNKGKED	PGPT0014355_1055	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
D1-35_01170	1455			hypothetical protein	ATGAATCCCGGACAATGCGGCCTCTTTTTTGAACGCTTGGGCGTGATCACGATGTCGACAGACAAGGTTTCTGTCCACGGCAGTTGGGCTAGCCGCTGGGTCTTCATATTCGCTGCGACCGGTTCGGCCGTGGGGCTGGGTAGTATCTGGAAGTTTCCGTACATGGTCGGCGTCTACGGCGGCGGTGCCTTCGTATTGATGTTCCTGGCATGCATCGCCCTGATCGGTGCGCCGGTCATGTTGGCCGAAACACTGATCGGTCGTCGTGCCCGGCAAAGCCCGGCCAATGCCTTGAAGGTGCTGGCGACGGAGGCGGGCCATTCGGCCAGGTGGTCGTGGGGGGCGTTCGCCGGAATGGTCACGGCACTGTTGATTCTTTCTTTCTACAGTGTGGTTGGCGGCTGGTCCCTGGATTACATCATCGATATGGGCCGGGGAGATTTCCAGGGGGCGACGCCCGATCAGGTCGGCGCCTACTTCGGCAACGTGATCGCCGACCCTTGGAGGCTGACACTTTGGCACACGCTTTTCATGGTGCTCTCTGCCGTAGTGATCGCCCGAGGCGTGGTCGCCGGGCTTGAGCGCAGCTTGCGGATCATGATGCCGCTGCTGTTCGTGATGATCCTGGTGCTGCTGGGCTACAGCATGACCACCGGACATTTCATGGAGGGCGTGCATTTCATGTTCGACTTCCAGCCGGAGAAAGTCATGGAAGGGCTGCTGCCGGCCATGGGGCATGCGTTTTTCTCCCTCAGCGTTGGGGTCGGCTCGATCATGATCTACGGCGCCTACATGCCCAAGAACGCCTCGCTGACCAGGACTGTCTTCGGCGTTGCGTTGCTGGATACCTTCGTGTCGCTGCTGGCGGGGGTGGCATTGTTCCCGATTGTATTCGCTGCTGGCCTGAATCCCAGTGAAGGGCCGGGGCTGATGTTCGTCAGCCTGCCTTTCGCCTTCGGCAGCATGCCGTTCGGCCAGGTAATGGGCGTGGTGTTTTTTGTCCTGGTGGCAGTCGCTGCCTGGAGCTCGGCCATTTCCTTGCTCGAGCCGATGGTCGCTTACCTGGTTGAACGAACCCGCCTGAGCCGCGCCTGGGTCACTTTCTGGCTGGCCTTCACCTGCTGGTTCGTAGGATTGGGCACGGTGTTTTCCTTCAATATATGGAAGCAGGCAAAGTTTTTCGTGAACGAAGGCGGTCTGTTCCACCTCTATCAGTGGGGAGCGACCGGAGGGCTGGATTTCTTCGGAGTGATTGATTTCTTCACGTCGCGGATCATGCTGCCTTTGGGCGGATTGTGTTTCGTGGTGTTTGCAGGGTGGATCATGGGGCGTGACGCGGTGCGTGATGAACTGTCGCTGCGCAGCCCGGTGGTGTTCGCCTTGAGTCTGTTCTTGATGCGCTATGTGGCGCCCATCGGCATCCTGGTAGTGTTTGCCGCCCAGCTGTGGAAGTGA	MNPGQCGLFFERLGVITMSTDKVSVHGSWASRWVFIFAATGSAVGLGSIWKFPYMVGVYGGGAFVLMFLACIALIGAPVMLAETLIGRRARQSPANALKVLATEAGHSARWSWGAFAGMVTALLILSFYSVVGGWSLDYIIDMGRGDFQGATPDQVGAYFGNVIADPWRLTLWHTLFMVLSAVVIARGVVAGLERSLRIMMPLLFVMILVLLGYSMTTGHFMEGVHFMFDFQPEKVMEGLLPAMGHAFFSLSVGVGSIMIYGAYMPKNASLTRTVFGVALLDTFVSLLAGVALFPIVFAAGLNPSEGPGLMFVSLPFAFGSMPFGQVMGVVFFVLVAVAAWSSAISLLEPMVAYLVERTRLSRAWVTFWLAFTCWFVGLGTVFSFNIWKQAKFFVNEGGLFHLYQWGATGGLDFFGVIDFFTSRIMLPLGGLCFVVFAGWIMGRDAVRDELSLRSPVVFALSLFLMRYVAPIGILVVFAAQLWK	PGPT0013950_1196	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013950-TC_NSS-K03308	NA	NA
D1-35_01171	444	ratA	COG2867	Ribosome association toxin RatA	ATGACGACACATATTCAACGCTCGGCCTTGTTGCCCTACCCGGCGCAGGCGCTGTACGACCTGGTCAACGATGTGGCGAGTTATCCGGAGTTCTTGCCGTGGTGCTCGTCCGCCGAGGTACTTGAAAGCTCCGAAACCCACATGCGCGCCAGTCTCAATGTGGCCAAAGGCGGATTGAGCCAGCACTTTGTCACGCGTAACACCTTGGTGCCGGGGCAGTCGATCGAAATGAACCTCGAAGAGGGACCGTTCAATCAGCTCCATGGTGTCTGGGTGTTCAAGCCGCTCGGGGAAAAGGCCTGCAAGATCAGCCTGGATCTGTCGTTCGACTACGCGGGGCCAATCGTGCGGGCGACCTTGGGGCCGCTGTTCAACCAGGCGGCCAATACGCTGGTCGATGCGTTCTGCCAACGCGCGAAACAGAACGCCGAGCTCAAGCGTTGA	MTTHIQRSALLPYPAQALYDLVNDVASYPEFLPWCSSAEVLESSETHMRASLNVAKGGLSQHFVTRNTLVPGQSIEMNLEEGPFNQLHGVWVFKPLGEKACKISLDLSFDYAGPIVRATLGPLFNQAANTLVDAFCQRAKQNAELKR	PGPT0027444_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-RatA-RatB|YfjG-YfjF|RatAB-SsrAS_SYSTEM,PGPT0027444-toxin_ratA|yfjG-na	NA	NA
D1-35_01172	303			hypothetical protein	TTGATCGAAATTGAAGTGGTGCATGCCAGCATCGACCGCCAGGTCTTGCGCACATGTTCAGTGCCCGAAGGTACCAGCGTTCGCGCTGCGCTGTTGGCGTCGGGTATTGCCGAGGATTTTCCGGAGCTGGACTTGAGCGCGTGTCCGATCGGTATTTTTGGCAAGGTCGTCGCCGATCCGGATCAGCAAGCGGTGCAAGCTTGTGATCGGCTCGAAATTTATCGACCGCTGCTGGCTGATCCGAAAGAAATTCGTCGTCTGCGAGCGGCCAAGGCTGCCCAGGCGCGTCAGGCGGATCAGTAA	MIEIEVVHASIDRQVLRTCSVPEGTSVRAALLASGIAEDFPELDLSACPIGIFGKVVADPDQQAVQACDRLEIYRPLLADPKEIRRLRAAKAAQARQADQ	PGPT0027445_768	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-RatA-RatB|YfjG-YfjF|RatAB-SsrAS_SYSTEM,PGPT0027445-antitoxin_ratB|yfjF|pasI-K09801	NA	NA
D1-35_01173	528	bamE		Outer membrane protein assembly factor BamE	ATGCAAAACACCAAGCTCTTGCTAACCAGTTTCACCTTCGTGGGACTGCTCGCACTCGCCGGTTGTTCATTCCCCGGGGTTTACAAAATCGACATCCAGCAGGGCAATGTCGTCACGCAGGACATGATAGACCAGTTACGCCCGGGAATGACCCGTCGGCAAGTACGGTTTATCATGGGCAACCCCCTGCTGACCGACACGTTCCATGCCGATCGCTGGGATTACCTGTACAGCCTGCAGCCAGGCGGTGGTGAACGGCAACAGGAACGCATCAGCGTTATCTTCAATGCCAATGACCAACTTGTCAGCCTGTCGGGTGATTTCATGCCTGGTGTGAGCCGCGATGAGGCCATCATGGGCAAGGACAGCGGTACGACTGTCACCGACCCGACCCAGAATGCCGAACAGCCGAAACCGGAAAAACCGGCCAAGCCAGGTTCGTTGCTGGATCAGATCCAGAAGGATGTGGACAACGTCGAGACCGTACCTGTCCCGACGCCCGAGCCTCTGGACACCTCGCCGCAATAA	MQNTKLLLTSFTFVGLLALAGCSFPGVYKIDIQQGNVVTQDMIDQLRPGMTRRQVRFIMGNPLLTDTFHADRWDYLYSLQPGGGERQQERISVIFNANDQLVSLSGDFMPGVSRDEAIMGKDSGTTVTDPTQNAEQPKPEKPAKPGSLLDQIQKDVDNVETVPVPTPEPLDTSPQ				NA	NA	NA	NA	NA
D1-35_01174	405	fur	COG0735	Ferric uptake regulation protein	ATGGTTGAAAATAGCGAACTACGCAAAGCCGGCCTCAAAGTGACCCTGCCAAGGGTCAAGATTCTGCAAATGCTCGATTCCGCCGAGCAACGCCACATGAGTGCCGAAGACGTCTACAAGGCGCTCATGGAAGCTGGCGAGGACGTCGGTCTGGCCACGGTTTACCGTGTATTGACCCAATTCGAGGCGGCGGGACTGGTGGCTCGTCATAATTTTGATGGCGGTCATGCTGTCTTCGAATTGGCGGACGGGGAGCACCATGACCACATGGTGGATGTAGAGACTCGCGAGGTAATCGAGTTCGTCAGTCCTGAAATCGAGAAGCTGCAAAAGGCGATTGCTGACGAGTATGGCTTCGATTTGATCGATCACCATCTCGTCTTGCATGTCCGCAAGCGCAAGTAA	MVENSELRKAGLKVTLPRVKILQMLDSAEQRHMSAEDVYKALMEAGEDVGLATVYRVLTQFEAAGLVARHNFDGGHAVFELADGEHHDHMVDVETREVIEFVSPEIEKLQKAIADEYGFDLIDHHLVLHVRKRK	PGPT0003880_4952	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003880-fur|furB|zur-K03711	NA	NA
D1-35_01175	1674	recN	COG0497	DNA repair protein RecN	ATGCTGGTGCACCTGTCCGTACACAACTACGCCATCGTCGAACATCTCGACCTCGAACTCGACCGGGGCATGAGCGTGATTACCGGTGAAACCGGCGCTGGCAAATCGATCATGCTCGATGCCCTCGGGCTGACCCTGGGTGATCGTGCCGACAGCGGCGTGGTGCGCCCCGGCGCAGACAAGGCCGACATCCTGGCAACTTTCGACCTGGTCGACATTCCTGAAGCCAGTGCGTGGCTGGCCGAACGGGACCTGGACACCGACGGCCTATGCATCCTGCGCAGGGTCATCACCGCCGAAGGCCGCTCCCGCGGCTATATCAATGGCGCCCCGTGCCCGCTGGGTGATCTGAAAGCACTCGGCGAACTGCTGATCGATATTCACAGCCAGCATGAACACCAGTCCCTGCTCAAGACCGATACCCATCGCCGCCTGCTCGACGAATACGCCGGAGCCACCGACCTGGCCCGTCAGGTTCACCTGGCAGCCCAACGCTGGCGCCAGACCCGGCAGGAGCTGGACCGACTCGCCAATTCCGGCGACGAGCAACGCGCCCGCCACCAACTCTTGAGCTACCAGCTCGAAGAGCTGGAGAACCTGGCCCTGGGTGAAAACGAACTGGAGGAGCTGGAACAGGAACACAAGAACCTGACCAACGCCGAAGCACTGCTGGGCGTCTGCCGCCAGGTAGTCGAACAATGCAGCGAAAGCGACTCGGGCAATGTGCTCAGCGCATTGACGGCGAGCCTGAACCGGCTCTCCAGCGTCAGCAATTCGGTAGGCGCCCTGAGCGAGGCCAGCAACCTGCTGACCAGCGCACAGATCCAGGTCGAGGAAGCCGTCGGGGAACTGAACCGGTTCCTGGATCATTTCGATGCCGACCCCGCGCGCCTGCAATACCTGGAAGAACGCCTGGACACTATCTATACGCTTGCACGCAAGCACCGCGTCCAGCCAACCGAAGTCGTCGAACTGCAGCAACGCCTGCTGGAAGAACTGGAAACCCTGAACGCCAACGACGAATCCATCGAGCGACTCGCAGATGAGCTGGCTTCCTACGCGCGGCATTACCAGGAAAAGGCCAGGGAACTCAGCGAGCTGCGCCGCAAGGCCGCCACCGGCCTGGCCGGTGCCGTGGAGCAGGAAATCCAGCGCCTTGGCATGCCAGGCGGCCGATTTACCATCGAACTGCGCCCCAACGCCGGCGACGAGCTTCAGCCCAATGGCTTGGAACAAGTGGAGCTACTGGTCAGTGCCAACCCCGGGCAACCGCTCAAGGCCCTGGCAAAAGTGGCGTCCGGCGGTGAGTTGTCGCGCATCAGCCTGGCCATCCAGGTCATCACGGCGCAGACATCCCGTGTACCGACATTGGTCTTCGACGAAGTCGACGTGGGCATTGGCGGCCCGACAGCGGAGATCGTCGGTCAATTGCTGCGCAGGCTGGGTGAGCGCGGGCAGGTATTGACGGTGACTCACCTGCCTCAGGTCGCAGCCCAAGGCCATCAGCATTTGTTCGTGCACAAGGTGCGTGGCGAAGACGCGACTCGCACCGCCGTCTCCAAGCTCGACAAGAACGAGCGCGTGGAAGAAGTGGCACGGATGCTGGGAGGCATCGACCTGACCAAGGAATCCCTGGCTCATGCCAAAAAAATGGTGGTTGCGGCAAAAAGCTGA	MLVHLSVHNYAIVEHLDLELDRGMSVITGETGAGKSIMLDALGLTLGDRADSGVVRPGADKADILATFDLVDIPEASAWLAERDLDTDGLCILRRVITAEGRSRGYINGAPCPLGDLKALGELLIDIHSQHEHQSLLKTDTHRRLLDEYAGATDLARQVHLAAQRWRQTRQELDRLANSGDEQRARHQLLSYQLEELENLALGENELEELEQEHKNLTNAEALLGVCRQVVEQCSESDSGNVLSALTASLNRLSSVSNSVGALSEASNLLTSAQIQVEEAVGELNRFLDHFDADPARLQYLEERLDTIYTLARKHRVQPTEVVELQQRLLEELETLNANDESIERLADELASYARHYQEKARELSELRRKAATGLAGAVEQEIQRLGMPGGRFTIELRPNAGDELQPNGLEQVELLVSANPGQPLKALAKVASGGELSRISLAIQVITAQTSRVPTLVFDEVDVGIGGPTAEIVGQLLRRLGERGQVLTVTHLPQVAAQGHQHLFVHKVRGEDATRTAVSKLDKNERVEEVARMLGGIDLTKESLAHAKKMVVAAKS				NA	NA	NA	NA	NA
D1-35_01176	567	grpE	COG0576	Protein GrpE	ATGGCTGACGAACAGACGCAGGATACGCAAAATCTAGACGCCCATCAGGCTCCCCAGGATTCGGGCGAAGACCTGTCGGCTCGTGTACAAGTGCTCGAAGAGCAACTGGCCGGTGCTCAGGATCAGGCGTTGCGCGTAGCAGCCGACCTGCAGAATGTCCGCCGCCGCGCCGAGCAAGACGTGGAAAAGGCCCACAAATTCGCCCTGGAGCGTTTCGCCGGCGACCTGCTGCCGATCATCGACAGCCTGGAGCGCGGCCTGGAGCTGTCCAACCCGGACGACGAGAACATCCGTCCGATGCGTGAAGGCATCGAGCTGACGCTGAAAATGTTCCAGGACACCCTCAAGCGTTATCAGCTCGAAGCGATCGATCCCCACGGTGAACCCTTCAACGCCGAGCACCACCAGGCCATGGCGATGCAGGAAAGTGCCGACGTCGAGCCGAACAGCGTGCTGAAAGTATTCCAGAAGGGCTACCTGCTCAACGGCCGCTTGCTGCGCCCGGCCATGGTTGTGGTCAGCAAGGCGCCAGCGCCGGTTTCGCCTTCTATCGATGAGCAGGCTTGA	MADEQTQDTQNLDAHQAPQDSGEDLSARVQVLEEQLAGAQDQALRVAADLQNVRRRAEQDVEKAHKFALERFAGDLLPIIDSLERGLELSNPDDENIRPMREGIELTLKMFQDTLKRYQLEAIDPHGEPFNAEHHQAMAMQESADVEPNSVLKVFQKGYLLNGRLLRPAMVVVSKAPAPVSPSIDEQA	PGPT0014650_4753	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0014650-grpE-K03687	NA	NA
D1-35_01177	1917	dnaK_1	COG0443	Chaperone protein DnaK	ATGGGCAAGATTATCGGTATCGACCTGGGGACCACCAACTCGTGCGTCTCCGTGCTGGAAAACGGCAAGGCCAAAGTCATCGAGAATGCTGAAGGCGCGCGTACCACGCCGTCGATCATCGCTTACGCCAACGATGGCGAGATCCTGGTGGGCCAGTCCGCCAAGCGTCAGGCTGTGACCAATCCGCATAACACCCTGTACGCGGTGAAGCGTCTGATCGGCCGCAAGTTCGACGAAGAAGTCGTGCAGAAAGACATCAAGATGGTGCCGTACAAAATCGCCAAGGCTGACAACGGCGACGCATGGGTTGAAGTGAACGGCCAGAAAATGGCGCCGCCACAGATCTCGGCTGAAATCCTGAAGAAAATGAAGAAAACCGCCGAAGACTACCTCGGCGAGCCAGTGACTGAAGCGGTCATTACCGTTCCTGCGTACTTCAACGACAGCCAGCGCCAGGCGACCAAAGACGCCGGCCGCATCGCTGGCCTGGACGTGAAACGTATCATCAACGAACCAACCGCAGCCGCTCTGGCCTACGGTATGGACAAGGCCAAGGGCGATCACACCGTGATCGTTTATGACCTGGGTGGCGGTACTTTCGACGTTTCCGTGATCGAAATCGCCGAAGTCGATGGCGAGCACCAGTTCGAAGTATTGGCAACCAACGGCGATACATTCCTGGGTGGTGAAGACTTCGACATCCGCCTGATCGACTACCTCGTCGATGAGTTCAAGAAAGAAAGCGGCATGAACCTCAAGGGTGACCCGCTGGCCATGCAGCGTCTGAAGGAGGCCGCTGAGAAAGCCAAGATCGAACTGTCCTCGAGCCAGTCGACCGACGTGAACCTGCCGTACATCACCGCAGACGCTACCGGTCCGAAGCACCTGAACGTGAAAATCTCCCGCGCCAAGCTCGAAGCGCTGGTGGAAGACCTGGTTCAGCGCACCATCGAACCTTGCCGCATTGCGATGAAGGATGCCGGTATCGACGTTGGCTCGATCAACGACGTGATCCTGGTCGGCGGCCAGACCCGTATGCCGCTGGTCCAGAAGCTGGTAACCGATTTCTTCGGTAAAGAAGCACGCAAGGACGTGAACCCGGACGAAGCCGTTGCCATGGGTGCTGCCATCCAGGGTGCCGTTCTGGCCGGCGACGTGAAAGACGTTCTGCTGCTCGACGTCAGCCCGCTGACCCTGGGTATCGAAACCATGGGTGGCGTGATGACCGCGCTGATCGAGAAAAACACCACGATTCCTACCAAGAAATCCCAGGTGTTCTCGACGGCCGACGACAACCAGAGCGCCGTGACCATCCACGTGCTGCAAGGTGAGCGTAAGCAAGCGGCCCAGAACAAGTCCCTGGGCAAGTTCGACCTGGCCGAGATTCCACCGGCGCCACGCGGTGTGCCACAAATCGAAGTGACCTTCGACATCGACGCCAACGGCATCCTGCACGTCGGCGCGAAAGACAAGGCCACCGGCAAGACCCAGTCAATCGTGATCAAGGCCAACTCCGGTCTGTCCGAGGAAGAAATTCAGCAGATGGTTCGCGACGCTGAAGTCAACGCCGAGGAAGACCGCAAGTTCGAAGAGCTGGCCAGCGCTCGTAACCAGGGCGACGCCTTGGTTCACTCGACCCGCAAGATGGTTGCCGATGCCGGTGACAAAGTGACCGCTGAAGAGAAGACCGCGATCGAAGCCGCCGTGGTTGCCCTTGAAGCTGCCGTCAAAGGCGACGACAAGGCTGCCATCGAAGCGAAGATCGAAGAGCTGTCGAAAGTCTCCGCGCCAGTGGCCCAGAAGATGTATGCCGAGCAGGCCCAGCCAGCTGAAGGTGCTGCGCAGCAAGGCGAATCGGCCGAGAAAGCCGATGACGTGGTCGACGCTGAGTTCGAAGAAGTGAAAGACAACAAGTAA	MGKIIGIDLGTTNSCVSVLENGKAKVIENAEGARTTPSIIAYANDGEILVGQSAKRQAVTNPHNTLYAVKRLIGRKFDEEVVQKDIKMVPYKIAKADNGDAWVEVNGQKMAPPQISAEILKKMKKTAEDYLGEPVTEAVITVPAYFNDSQRQATKDAGRIAGLDVKRIINEPTAAALAYGMDKAKGDHTVIVYDLGGGTFDVSVIEIAEVDGEHQFEVLATNGDTFLGGEDFDIRLIDYLVDEFKKESGMNLKGDPLAMQRLKEAAEKAKIELSSSQSTDVNLPYITADATGPKHLNVKISRAKLEALVEDLVQRTIEPCRIAMKDAGIDVGSINDVILVGGQTRMPLVQKLVTDFFGKEARKDVNPDEAVAMGAAIQGAVLAGDVKDVLLLDVSPLTLGIETMGGVMTALIEKNTTIPTKKSQVFSTADDNQSAVTIHVLQGERKQAAQNKSLGKFDLAEIPPAPRGVPQIEVTFDIDANGILHVGAKDKATGKTQSIVIKANSGLSEEEIQQMVRDAEVNAEEDRKFEELASARNQGDALVHSTRKMVADAGDKVTAEEKTAIEAAVVALEAAVKGDDKAAIEAKIEELSKVSAPVAQKMYAEQAQPAEGAAQQGESAEKADDVVDAEFEEVKDNK	PGPT0014555_2896	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014555-dnaK-K04043	NA	NA
D1-35_01179	1125	dnaJ	COG0484	Chaperone protein DnaJ	ATGGCGAAGCGTGATTTTTACGAAGTATTGGGTGTCGAGCGGGGAGCCAGCGAGGCAGAGCTGAAAAAGGCTTACCGTCGCCTGGCGATGAAGCACCACCCAGACCGTAATCCCGGCGATAAAGCGTCGGAAGAGATGTTCAAGGAAGCCAACGAGGCTTACGAAGTTCTGTCCGATTCCAGCAAGCGCGCGGCCTACGACCAATACGGGCATGCCGGTGTCGACCCGAGCATGGGTGGTGGCGGTGCCGGTTTCGGCGGCCAGAACTTCTCCGATATCTTCGGTGATGTGTTCAGTGATTTTTTTGGCGGCGGTCGCGGCGGCGCCCGTGGTGGTGCCCAGCGTGGCAGCGATTTGCGCTACACGCTGGAGCTGAACCTGGAAGAAGCGGTGCGTGGTACTACCGTGAATATCCGGGTGCCGACGCTGGTCAATTGCAAGCCGTGCGACGGTTCGGGCGCCAAGAAGGGCTCCTCGCCGGTCACCTGCCCGACTTGCGGCGGCATCGGCCAGGTTCGCATGCAGCAGGGCTTCTTCTCGGTCCAGCAGACCTGCCCGCGTTGCCATGGCCAGGGCAAGATCATTTCCGATCCGTGCGACTCCTGCCACGGCGAAGGGCGTGTCGAAGAGTACAAGACGCTGTCGGTCAAAGTGCCGGCCGGTGTCGATACCGGCGACCGCATTCGTCTGTCCGGCGAAGGCGAGGCGGGTGCCCAGGGCGGCCCGACCGGCGATCTGTATGTAGTAATCAACGTGCGCGAGCACGCGATCTTCCAGCGTGATGGCAAGCATCTGTTCTGCGAAGTGCCGATCAGTTTTGTTGATGCGGCCTTGGGCGGTGAGCTTGAAATCCCGACCCTTGATGGTCGCGTCAAGCTGAAGATTCCCGAGGGAACTCAAACCGGCAAGCAGTTCCGCATTCGCGGCAAGGGCGTGGCTCCAGTGCGTGGCGGCGGTGCGGGCGACCTGATGTGCCGCGTCGCGGTAGAGACACCGGTCAACCTGAGCCGGCGCCAGCGGGAGCTGTTGGAAGAGTTCCGCAGTTCCCTGGCGGATGACAACAGCCACTCGCCGAAAACCACCGGTTGGTTCGAAGGTGTGAAGCGCTTCTTCGGCGATCTGTAA	MAKRDFYEVLGVERGASEAELKKAYRRLAMKHHPDRNPGDKASEEMFKEANEAYEVLSDSSKRAAYDQYGHAGVDPSMGGGGAGFGGQNFSDIFGDVFSDFFGGGRGGARGGAQRGSDLRYTLELNLEEAVRGTTVNIRVPTLVNCKPCDGSGAKKGSSPVTCPTCGGIGQVRMQQGFFSVQQTCPRCHGQGKIISDPCDSCHGEGRVEEYKTLSVKVPAGVDTGDRIRLSGEGEAGAQGGPTGDLYVVINVREHAIFQRDGKHLFCEVPISFVDAALGGELEIPTLDGRVKLKIPEGTQTGKQFRIRGKGVAPVRGGGAGDLMCRVAVETPVNLSRRQRELLEEFRSSLADDNSHSPKTTGWFEGVKRFFGDL	PGPT0014545_4854	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686	NA	NA
D1-35_01180	807	dapB	COG0289	4-hydroxy-tetrahydrodipicolinate reductase	ATGCGACGTATAGCTGTGATGGGCGCCGCGGGGCGTATGGGCAAGGCGCTGGTCGAGGCGGTGCAGCACCGCTCGCCGCTCTCTGGCCTGACGGCCGCCATCGTCCGGCCCGACAGTACGCTGGTGGGCGCCGATGCTGGCGAGCTGGCCTCGATCGGACGTATCGGCGTGCCAATGTCCGGTGGGCTGGAAAAGGTACTCGATGAATTTGACGTCCTGATCGACTTCACCCTGCCGGAAGTCATGCTGAAAAACCTCGCCACCTGCCGCAAGGCCGGCAAGGCCATGGTCATCGGCACGACCGGCCTGGACGCCGCGCAGAAGCAATTGTTGGCCGATGCCGGCAAGGACATACCGATCGTGTTCGCGGCGAACTTCAGCGTGGGCGTGAATCTCTCGCTCAAGCTGCTGGACCTGACGGCGCGGGTGTTGGGTGATGATGCGGATATCGAAATCATCGAGGCGCATCACCGTCACAAGATCGATGCGCCTTCGGGAACAGCCTTGCGCATGGGGGAAGTGATTGCCGATGCGCTGGGTCGTGACCTGCAGGAAGTGGCCGTGTATGGGCGCCAGGGGCACACCGGTGCGCGTGAGCGAGACACCATCGGTTTCGCGACCGTGCGTGGTGGCGACGTGGTAGGTGATCACACGGTGCTGTTCGCCACCGAGGGTGAGCGCCTGGAGATTACGCACAAGGCATCGAGTCGGATGACTTTCGCCAAGGGCGCCGTGCGTGCCGCGCTGTGGCTGGATGGTCGCGAGCCCGGCTTGTACGACATGCAGGACGTTCTCGACCTGCGTTGA	MRRIAVMGAAGRMGKALVEAVQHRSPLSGLTAAIVRPDSTLVGADAGELASIGRIGVPMSGGLEKVLDEFDVLIDFTLPEVMLKNLATCRKAGKAMVIGTTGLDAAQKQLLADAGKDIPIVFAANFSVGVNLSLKLLDLTARVLGDDADIEIIEAHHRHKIDAPSGTALRMGEVIADALGRDLQEVAVYGRQGHTGARERDTIGFATVRGGDVVGDHTVLFATEGERLEITHKASSRMTFAKGAVRAALWLDGREPGLYDMQDVLDLR				NA	NA	NA	NA	NA
D1-35_01182	1137	carA	COG0505	Carbamoyl-phosphate synthase small chain	TTGACTAAGCCAGCCATACTCGCCCTTGCTGATGGCAGCATTTTTCGCGGCGAAGCCATTGGAGCCGACGGTCAGACCGTTGGTGAGGTGGTGTTTAACACCGCAATGACCGGCTATCAGGAAATTCTTACCGATCCTTCCTACGCCCAGCAAATCGTTACCCTGACTTACCCGCACATTGGCAATACCGGCACCACGCCGGAAGATGCCGAGTCCGATCGTGTCTGGTCCGCTGGCCTGGTCATCCGCGACCTGCCGCTGGTAGCGAGCAACTGGCGTAACAAGATGTCCCTGTCCGACTACCTGAAAGCCAACAACGTCGTGGCGATCGCCGGTATCGACACCCGCCGCCTGACCCGCATCCTGCGGGAAAAAGGCGCGCAGAACGGCTGCATCATGGCCGGTGACAATATTTCCGACGAGGCCGCCATTGCCGCTGCCCAGGGTTTCCCAGGCCTCAAGGGCATGGACCTGGCGAAAGTCGTCAGCACCAAGAAACAGTACGAGTGGCGCTCCTCGGTCTGGGACTTGAAAACCGATAGCCACGCGACGATCGAGGCTTCCGAACTGCCGTATCACGTGGTCGCCTACGATTACGGCGTCAAGCTGAACATCTTGCGCATGCTGGTCGCGCGCGGTTGCCGCGTCACCGTAGTGCCGGCCCAGACCCCGGCGGCTGACGTCCTGGCCCTCAAGCCCGACGGCGTGTTCCTGTCCAACGGTCCGGGTGACCCGGAGCCATGCGACTACGCGATCCAGGCGATCAAGGACGTGCTGGAAACCGAGATCCCGGTATTCGGTATCTGCCTGGGGCACCAGTTGCTGGCCCTGGCTTCGGGCGCCAAGACCCTGAAAATGGGCCACGGCCACCACGGTGCCAACCACCCGGTCCAGGACCTGGATACCGGTGTCGTCATGATCACCAGCCAGAACCACGGTTTTGCGGTTGACGAGGCGACCCTGCCGGCCAACGTACGGGCCATCCACAAGTCGCTGTTCGACGGCACGCTGCAAGGCATCGAGCGTACCGACAAGAGCGCGTTCAGCTTCCAGGGCCACCCTGAGGCGAGCCCGGGCCCGAACGATGTGGCGCCGCTGTTCGATCGCTTCATCAATGAGATGGCCAAGCGACGCTGA	MTKPAILALADGSIFRGEAIGADGQTVGEVVFNTAMTGYQEILTDPSYAQQIVTLTYPHIGNTGTTPEDAESDRVWSAGLVIRDLPLVASNWRNKMSLSDYLKANNVVAIAGIDTRRLTRILREKGAQNGCIMAGDNISDEAAIAAAQGFPGLKGMDLAKVVSTKKQYEWRSSVWDLKTDSHATIEASELPYHVVAYDYGVKLNILRMLVARGCRVTVVPAQTPAADVLALKPDGVFLSNGPGDPEPCDYAIQAIKDVLETEIPVFGICLGHQLLALASGAKTLKMGHGHHGANHPVQDLDTGVVMITSQNHGFAVDEATLPANVRAIHKSLFDGTLQGIERTDKSAFSFQGHPEASPGPNDVAPLFDRFINEMAKRR	PGPT0021155_2770	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021155-carA-K01956	NA	NA
D1-35_01183	3222	carB_1	COG0458	Carbamoyl-phosphate synthase large chain	ATGCCAAAACGTACAGACATAAAAAGCATCCTGATTCTCGGCGCTGGCCCGATCGTGATCGGCCAGGCCTGCGAATTCGACTACTCCGGCGCCCAGGCTTGCAAGGCCCTGCGCGAGGAGGGTTATCGCGTCATCCTGGTGAACTCCAACCCGGCCACCATCATGACCGACCCGTCGATGGCCGACGCCACCTACATCGAACCGATCAAATGGCAGACCGTTGCCAAGATCATCGAGAAGGAGCGCCCGGACGCATTGCTGCCGACCATGGGTGGCCAGACCGCACTGAACTGCGCTCTGGACCTGGAGCGCGAAGGCGTCCTGGAGAAGTTCGGTGTGGAAATGATCGGCGCCAATGCCGACACCATCGACAAGGCCGAAGATCGTTCGCGCTTCGACAAGGCGATGAAATCCATCGGCCTGGACTGCCCACGTTCGGGCATCGCCCACAGCATGGAAGAAGCCAACGCCGTGCTGGAACGCCTCGGCTTCCCTTGCATCATCCGTCCTTCCTTCACCATGGGCGGCACGGGTGGTGGCATCGCCTACAACCGTGAAGAATTTGAAGAAATCTGCGCCCGTGGCCTGGACCTGTCGCCAACCAAGGAACTGCTGATCGACGAGTCCCTGATCGGTTGGAAAGAATACGAAATGGAAGTTGTCCGGGACAAAAAGGACAACTGCATCATCGTTTGCTCCATCGAAAACTTCGACCCGATGGGCGTGCACACCGGCGACTCGATCACCGTTGCGCCGGCCCAGACCCTGACCGACAAGGAATATCAGATCCTGCGTAACGCCTCCCTGGCGGTACTGCGCGAGATCGGCGTGGAAACCGGTGGCTCCAACGTCCAGTTCGGCATCTGCCCGAACACTGGCCGCATGGTGGTCATCGAGATGAACCCGCGCGTATCCCGTTCGTCGGCCCTGGCCTCGAAGGCCACCGGTTTCCCGATCGCCAAGGTCGCCGCCAAGCTGGCCGTCGGCTACACCCTGGACGAACTGTCGAACGACATCACCGGCGGCAAGACTCCGGCGTCCTTCGAGCCGTCCATCGACTACGTGGTGACCAAGCTGCCGCGTTTCGCCTTCGAAAAATTCGCCAAGGCTGACGCGCGCCTGACCACCCAGATGAAATCGGTGGGTGAAGTCATGGCCATCGGCCGGACTTTCCAGGAATCCCTGCAAAAAGCCCTTCGTGGCCTGGAAGTGGGTGTCTGCGGCCTCGATCCGAAGCTGGACCTGAGCAAGCCGGAAAGCATGAGCGAGCTCAAGCGCGAGCTGACCGTGCCGGGCGCCGAGCGTATCTGGTACGTGGCGGATGCCTTCCGCGCCGGCATGACTGTCGAGCAGATTTTCGACATGAACATGATCGACCCTTGGTTCCTGGTGCAGATCGAAGATCTGATCAAGGAAGAAGAGAAGGTCAAGACCATGGGCATGTCCAGCATCGATCGCAACACGATGCTGGGTCTCAAGCGCAAGGGCTTCTCCGACATGCGCCTGGCCAAGCTGCTGGGTGTCACCGAAAAGAGCCTGCGCACTCACCGCCACAAGCTGGAAGTCTTCCCGGTCTACAAGCGTGTCGACACCTGCGCGGCCGAGTTCGCCACCGACACTGCCTACCTGTACTCCACGTACGAAGAAGAGTGCGAAGCCGCGCCTTCGACCCGGGACAAGATCATGATCCTGGGCGGCGGTCCGAACCGGATCGGCCAGGGCATCGAGTTCGACTACTGCTGCGTCCACGCGGCACTGGCGCTGCGCGACGATGGTTACGAAACCATCATGGTCAACTGCAACCCAGAGACCGTTTCCACCGACTACGACACCTCTGATCGCCTGTACTTCGAGCCAGTGACCCTGGAGGACGTGCTGGAAATCGTCCGTGTCGAGAAGCCAAAAGGCGTGATCGTCCAGTACGGCGGGCAGACCCCTCTGAAACTGGCCCGCGCCCTCGAAGCCGCCGGCGTGCCGATCATCGGCACCAGCCCGGATGCCATCGACCGCGCCGAAGACCGCGAGCGCTTCCAGCAGATGGTCGAGCGCCTGAACCTGCGCCAGCCACCAAACGCCACCGTGCGCAGCGAAGACGAAGCGATTCGTGCAGCGGCGAAGATCGGTTATCCACTGGTGGTGCGCCCGTCCTACGTACTGGGCGGTCGTGCGATGGAAATCGTTTACCAGGAAGACGAACTCAAGCGCTACCTGCGCGAAGCGGTCCAGGTGTCCAATGACAGCCCGGTTCTGCTCGACCACTTCCTCAACTGCGCCATCGAAATGGACGTGGACGCGGTCTGCGACGGCAAGGATGTCGTGATCGGCGCAATCATGCAGCACATCGAGCAGGCAGGCGTTCACTCCGGTGACTCCGCCTGTTCGCTGCCGCCGTATTCGTTGCCGGCTCACATCCAGGACGAGATGCGTGAACAGGTCAAGAAAATGGCCCTGGAGCTCGGGGTTGTCGGCCTGATGAACGTGCAGCTGGCGCTTCAGGGCGAAGACATCTATGTCATCGAAGTCAACCCGCGCGCCTCCCGGACCGTACCGTTCGTGTCCAAGTGCATCGGTGTTTCCCTTGCGATGATCGCTGCTCGCGTGATGGCCGGTAAAACCTTGGCGGAGCTGAACTTTACCAAGGAAATCATCCCGAACTTCTACAGTGTGAAAGAGGCGGTGTTCCCATTCGCCAAATTCCCTGGCGTTGACCCGATCCTCGGCCCGGAAATGAAATCCACCGGTGAAGTGATGGGCGTTGGCGACACCTTCGGCGAGGCCTTTGCCAAGGCCCAGATGGGCGCCAGCGAAGTCCTGCCAACGGGCGGCACGGCGTTCATCAGCGTGCGTGATGACGACAAGCCACTGGTTGCGGGCGTGGCCCGTGATCTGATCAACTTGGGTTTCGAAGTGGTCGCCACTGCCGGTACCGCCAAGCTGATCGAGGCGGCGGGCCTGAAAGTGCGCCGCGTGAACAAGGTGACCGAGGGTCGTCCGCACGTGGTCGACATGATCAAGAATGACGAAGTCACGCTGATCATCAACACCACCGAAGGCCGTCAATCGATCGCCGATTCCTATTCCATTCGTCGCAATGCGCTGCAGCATAAGATCTACTGCACCACGACTATTGCTGCCGGCGAAGCGATCTGCGAAGCGCTCAAGTTCGGACCCGAGAAGACCGTACGTCGCTTGCAGGATCTACATGCAGGATTGAAGGCATGA	MPKRTDIKSILILGAGPIVIGQACEFDYSGAQACKALREEGYRVILVNSNPATIMTDPSMADATYIEPIKWQTVAKIIEKERPDALLPTMGGQTALNCALDLEREGVLEKFGVEMIGANADTIDKAEDRSRFDKAMKSIGLDCPRSGIAHSMEEANAVLERLGFPCIIRPSFTMGGTGGGIAYNREEFEEICARGLDLSPTKELLIDESLIGWKEYEMEVVRDKKDNCIIVCSIENFDPMGVHTGDSITVAPAQTLTDKEYQILRNASLAVLREIGVETGGSNVQFGICPNTGRMVVIEMNPRVSRSSALASKATGFPIAKVAAKLAVGYTLDELSNDITGGKTPASFEPSIDYVVTKLPRFAFEKFAKADARLTTQMKSVGEVMAIGRTFQESLQKALRGLEVGVCGLDPKLDLSKPESMSELKRELTVPGAERIWYVADAFRAGMTVEQIFDMNMIDPWFLVQIEDLIKEEEKVKTMGMSSIDRNTMLGLKRKGFSDMRLAKLLGVTEKSLRTHRHKLEVFPVYKRVDTCAAEFATDTAYLYSTYEEECEAAPSTRDKIMILGGGPNRIGQGIEFDYCCVHAALALRDDGYETIMVNCNPETVSTDYDTSDRLYFEPVTLEDVLEIVRVEKPKGVIVQYGGQTPLKLARALEAAGVPIIGTSPDAIDRAEDRERFQQMVERLNLRQPPNATVRSEDEAIRAAAKIGYPLVVRPSYVLGGRAMEIVYQEDELKRYLREAVQVSNDSPVLLDHFLNCAIEMDVDAVCDGKDVVIGAIMQHIEQAGVHSGDSACSLPPYSLPAHIQDEMREQVKKMALELGVVGLMNVQLALQGEDIYVIEVNPRASRTVPFVSKCIGVSLAMIAARVMAGKTLAELNFTKEIIPNFYSVKEAVFPFAKFPGVDPILGPEMKSTGEVMGVGDTFGEAFAKAQMGASEVLPTGGTAFISVRDDDKPLVAGVARDLINLGFEVVATAGTAKLIEAAGLKVRRVNKVTEGRPHVVDMIKNDEVTLIINTTEGRQSIADSYSIRRNALQHKIYCTTTIAAGEAICEALKFGPEKTVRRLQDLHAGLKA	PGPT0021150_3562	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021150-carB-K01955	NA	NA
D1-35_01184	483	greA	COG0782	Transcription elongation factor GreA	ATGAGCATAACCAAGTACCCGATGACTGTTCAGGGCGCGAAGGCCCTGGAGGAAGAGCACGCTTTCCTGACCAAGGTCGAGCGCCCGCGCTTGAGCCAGGCGATCGGTGAAGCCCGTGAACTGGGCGACCTGAAGGAAAACGCCGAATACCACGCTGCCCGAGAGGAGCAGGGCATGGTCGAGGCGCGTGTCCGTGACATCGAAGGCCGCATGCAGAATGCGGTGATCATCGACGTCACGACGATTCCGCACACTGGCAAAGTGATTTTCGGCACTACCGTGGAAATCGCCAACGTCGAGACTGATGAAAGCGTCACTTACCAGATCGTTGGCGAGGACGAGGCGGACATCAAGCTCGGCAAGATTTCAGTCGGCTCGCCTATCGCCCGCGCCTTGATTGCCAAGGAAGAGGGTGATGTGGTTGCCGTGAAGACACCTGGCGGTGTCATTGAGTACGAGATTGTCGAAGTCCGTCATATCTGA	MSITKYPMTVQGAKALEEEHAFLTKVERPRLSQAIGEARELGDLKENAEYHAAREEQGMVEARVRDIEGRMQNAVIIDVTTIPHTGKVIFGTTVEIANVETDESVTYQIVGEDEADIKLGKISVGSPIARALIAKEEGDVVAVKTPGGVIEYEIVEVRHI	PGPT0030495_1175	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSCRIPTIONAL_CONTROL	PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624
D1-35_01185	405			hypothetical protein	ATGATCTGGCAGCTCACCCAGATGTTATGGGTGGGCGGCGTCTGGTTGTTGCATATCGGTCTGCTGCCGGTGCTGGGTCGGATTGGCCTGGCACCGCTGCTCATCAATGAAATCGCGGGTATGCTGACGGCGCTGCTGGTGGGCTTTTCAGCAGTGTGCGTGATATTCCAGGCTTTGGTGCTGGTTCAGGCCGAGGGTCTTGGCAGTCTATGGCGCGACATTCGTGGGCAATTGCTGCTCATGGCCTTGTACGCTTGCGGGATGTTCCTGGCGGTGCGTCTCGGCTGGCCGGAGGCGAGCCAATGGCAGGTATTCAGCTATCTGGTGCTGGGTTTTTCCGGCCTGGTGCTGGTGTTGCAGCCGGTTCCCGGATGGAGCGGCAGGGTGCGCGAAGCACACCCTTGA	MIWQLTQMLWVGGVWLLHIGLLPVLGRIGLAPLLINEIAGMLTALLVGFSAVCVIFQALVLVQAEGLGSLWRDIRGQLLLMALYACGMFLAVRLGWPEASQWQVFSYLVLGFSGLVLVLQPVPGWSGRVREAHP				NA	NA	NA	NA	NA
D1-35_01186	309	yhbY	COG1534	RNA-binding protein YhbY	ATGCCGCTCACTCAAGAGCAGAAGAAACAATACAAATCCATCGGCCACCATCTGAAACCGGTTTTGACTGTGGCTGACAACGGTTTGACTGAAGGTGTCCTCGCTGAACTGGAACGCGCCCTCGGCGATCACGAGCTGATCAAGATCAAGCTCAACATCCTCGACCGCGAAGCCCGCCTGGCTGCCGTTGCCGAGCTGTGCAAGGTCGGCAAGGCTGACCTGGTCCAGGTCATCGGCAAGATGGCGCTGATTTATCGCAAGAATTTCAGCGTCAACAAGCAACTGTCGAACGTTCACCGCTTCAAATGA	MPLTQEQKKQYKSIGHHLKPVLTVADNGLTEGVLAELERALGDHELIKIKLNILDREARLAAVAELCKVGKADLVQVIGKMALIYRKNFSVNKQLSNVHRFK				NA	NA	NA	NA	NA
D1-35_01187	651	rlmE	COG0293	Ribosomal RNA large subunit methyltransferase E	GTGGCCCGTTCCAAGACTAGCCAGAACTGGCTCAGAGAGCATTTCAACGATCCGTACGTCAAAATGGCGCAAAAAGACGGTTATCGCTCGCGCGCCAGCTATAAATTGCTGGAGATCCAGGAGAAGGATCGCCTGATTCGTCCTGGCATGACCGTGATCGACCTCGGTGCGGCGCCGGGTGGCTGGTCGCAGGTGACCAGTCGTCTGATTGGCGGCCAGGGGCGATTGATCGCTTCAGACATCCTGGAAATGGACAGCATCCCTGACGTGACCTTTATTCAGGGTGATTTCACCGAGGACGCCGTATTGGCGCAAATCCTCGAGGCCGTCGGAAATACGCAAGTCGACCTTGTGATTTCCGATATGGCCCCCAATATGAGTGGATTGGCGGCTGTCGACATGCCTCGTGCAATGTTCCTCAGCGAGCTGGCCCTTGATCTGGCGGGGCGGGTTCTGCGTCCGGGTGGTGATTTCCTGATCAAAGTCTTCCAGGGTGAAGGCTTCGATGAATACCACAAGGGCATGCGCAAATTGTTCGACAAGGTGCAGATGCGCAAGCCTTTGTCGTCCCGCGACCGCTCTCGCGAGCAGTATCTGCTGGCGCGAGGGTTTCGCGGAATCGAAGGCGCTTCCAGTGATGAGCGGCTTTGA	MARSKTSQNWLREHFNDPYVKMAQKDGYRSRASYKLLEIQEKDRLIRPGMTVIDLGAAPGGWSQVTSRLIGGQGRLIASDILEMDSIPDVTFIQGDFTEDAVLAQILEAVGNTQVDLVISDMAPNMSGLAAVDMPRAMFLSELALDLAGRVLRPGGDFLIKVFQGEGFDEYHKGMRKLFDKVQMRKPLSSRDRSREQYLLARGFRGIEGASSDERL				NA	NA	NA	NA	NA
D1-35_01188	1923	ftsH	COG0465	ATP-dependent zinc metalloprotease FtsH	TTGAACGATATGGCAAAGAATCTGATCCTGTGGTTGATCATCGCCGCTGTCCTTGTGACCGTGATGAACAACTTCTCCAGCCCTAACGAGCCGCAGACCCTCAACTATTCCGATTTCCTCCAGCAGGTCAAGGAAGGCAAGGTCGAGCGCGTAGCCGTTGATGGTTATGTGATTACCGGCAAGCGCAGCGATGGCGACAGCTTCAAGACCATTCGTCCGGCGATCCAGGACAATGGTCTGATCGGCGACCTGGTGGACAATCACGTCGTGATCGAAGGCAAGCAGCCTGAGCAGCAAAGTATCTGGACCCAGCTCCTGGTCGCGAGCTTCCCGATCCTGGTGATCATCGCGGTGTTCATGTTCTTCATGCGCCAGATGCAGGGCGGGGCTGGAGGGAAGGGCGGGCCGATGAGTTTCGGCAAGAGCAAGGCCCGACTATTGTCCGAAGATCAGGTCAAGACCACCCTGGCTGACGTCGCCGGTTGCGATGAAGCCAAGGAAGAGGTCGGCGAGCTGGTTGAATTCCTGCGTGATCCGGGCAAGTTCCAGCGCCTGGGCGGACGCATTCCCCGCGGCGTACTGATGGTGGGGCCACCTGGTACCGGTAAAACCTTGCTCGCCAAGGCAATCGCCGGCGAAGCCAAGGTTCCGTTCTTCACCATTTCCGGTTCCGATTTCGTCGAGATGTTTGTCGGCGTCGGTGCCAGCCGTGTTCGCGACATGTTCGAACAGGCGAAAAAGCACGCGCCATGCATCATCTTCATCGACGAGATCGACGCCGTTGGTCGCCACCGTGGTGCCGGCATGGGCGGCGGTCACGATGAGCGCGAGCAGACCCTCAACCAATTGCTGGTCGAGATGGACGGTTTCGAGATGAATGACGGCATCATCGTGATCGCCGCCACCAACCGTCCTGACGTGCTCGACCCTGCGCTGCTGCGTCCAGGTCGTTTTGACCGTCAGGTCGTGGTGGGGCTGCCGGACATTCGTGGTCGCGAGCAGATCCTGAAGGTTCACATGCGCAAGGTGCCAATGGGGGATGACGTTGCTCCGGCCGTCATCGCTCGCGGCACACCGGGTTTCTCCGGTGCTGACCTGGCGAACCTGGTAAACGAAGCGTCGCTGTTTGCTGCTCGTTCCGGCAAGCGTGTCGTGGAAATGAAGGAGTTCGAACTCGCCAAGGACAAGATCATGATGGGCGCCGAGCGCAAATCCATGGTCATGTCGGAAAAGGAAAAGCAGAACACCGCTTACCACGAGGCAGGACATGCCATCGTCGGTCGTGTCGTGCCTGAGCATGATCCGGTGTACAAGGTTTCGATCATTCCGCGCGGTCGTGCGCTGGGTGTGACGATGTTCCTGCCGGAAGAGGACCGTTACAGCCTGTCCAAGCGCGCGCTGATCAGCCAGATCTGTTCGCTGTACGGTGGCCGTATCGCCGAGGAAATGACGTTGGGCTTTGACGGCGTGACGACAGGTGCCTCCAACGACATCATGCGCGCAAGCCAGATTGCCCGGAACATGGTTACCAAGTGGGGCTTGTCCGAAAAGCTTGGTCCGTTGATGTATGCCGAGGAAGAGGGCGAAGTGTTCCTGGGTCGCGGCGGCGGTGGCCAGCATGCAAGCTTCTCTGGTGAGACGGCCAAGCTGATCGACTCGGAAGTTCGCAGCATCATTGACCAGTGCTACGGCACGGCCAAGCAGATCCTTACGGACAACCGCGACAAACTGGACGCGATGGCTGACGCACTGATGAAATATGAAACCATCGATGCTGAGCAGATCGACGACATCATGGCCGGCCGCACACCTCGTGAGCCTCGTGACTGGTCCGGTGGTGGCACGGGTACCTCCGGTACGCCGCCAGCGGTACAGGGTGAGCGTCCCGAGACGCCCATCGGTGGTCCGGCCGCCGACGTCTAA	MNDMAKNLILWLIIAAVLVTVMNNFSSPNEPQTLNYSDFLQQVKEGKVERVAVDGYVITGKRSDGDSFKTIRPAIQDNGLIGDLVDNHVVIEGKQPEQQSIWTQLLVASFPILVIIAVFMFFMRQMQGGAGGKGGPMSFGKSKARLLSEDQVKTTLADVAGCDEAKEEVGELVEFLRDPGKFQRLGGRIPRGVLMVGPPGTGKTLLAKAIAGEAKVPFFTISGSDFVEMFVGVGASRVRDMFEQAKKHAPCIIFIDEIDAVGRHRGAGMGGGHDEREQTLNQLLVEMDGFEMNDGIIVIAATNRPDVLDPALLRPGRFDRQVVVGLPDIRGREQILKVHMRKVPMGDDVAPAVIARGTPGFSGADLANLVNEASLFAARSGKRVVEMKEFELAKDKIMMGAERKSMVMSEKEKQNTAYHEAGHAIVGRVVPEHDPVYKVSIIPRGRALGVTMFLPEEDRYSLSKRALISQICSLYGGRIAEEMTLGFDGVTTGASNDIMRASQIARNMVTKWGLSEKLGPLMYAEEEGEVFLGRGGGGQHASFSGETAKLIDSEVRSIIDQCYGTAKQILTDNRDKLDAMADALMKYETIDAEQIDDIMAGRTPREPRDWSGGGTGTSGTPPAVQGERPETPIGGPAADV				NA	NA	NA	NA	NA
D1-35_01189	852	folP	COG0294	Dihydropteroate synthase	ATGACTTCTGTTCAGTCCTCTAACCGGTTGCCTTGCGGCAACCGGTTTCTTGATTTGGCCCGTGCGCACGTCATGGGCATTCTTAATGTCACTCCCGATTCCTTTTCCGATGGTGGAAGATTCTGCCAGCTCGACGCTGCATTGCGGCATGCCGAGGCCATGGTGGCAGCGGGCGCAACGCTGATCGATGTCGGCGGTGAATCGACCCGTCCCGGTGCGCGGGCAGTATCACCTACCGAGGAGCTGGAGCGAGTGGCGCCGATTGTCGAGCGTATACACCGCGAGCTTGATGTCATCATTTCGGTTGATACCTCTACGCCAGCGGTCATGCGCGAGGCAGCGCGGCTGGGGGCGGGGCTGATCAATGATGTCCGGTCCTTGCGGCGCGACGGCGCGCTGGACGCCGCGGCGGCAACCGGCTTGCCGGTGTGTCTGATGCATATGCTCGGCGAGCCGGGGACCATGCAGGACGATCCGCACTATGATGATGTGACCAGGGAAGTGGCCGGGTTCCTCGCGGAGCGCCTGGACCAGTGTGCTGCCGTGGGCATCCCTGCCGAGCGGGTCATCCTTGATCCCGGGTTCGGCTTTGCCAAGACCCTGGCTCACAACCTGAGCCTGTTCAAGCATATGGAAGCCTTGCATGCGCTGGGGCGGCCCCTGTTGGTTGGCGTCTCGCGAAAGAGCATGATAGGCAATGCCTTGGGCCGACCGGTGGGTGAGCGCTTGTATGGTGGTCTCGCCCTGGCTGCCTTGGCCCTTACCAAAGGTGCGCGCATTTTGCGCGTGCATGATGTAGCCGAAACGATGGATGTCGTGCGGATGATCGACGCAGTGGATTCAGCCGAATAA	MTSVQSSNRLPCGNRFLDLARAHVMGILNVTPDSFSDGGRFCQLDAALRHAEAMVAAGATLIDVGGESTRPGARAVSPTEELERVAPIVERIHRELDVIISVDTSTPAVMREAARLGAGLINDVRSLRRDGALDAAAATGLPVCLMHMLGEPGTMQDDPHYDDVTREVAGFLAERLDQCAAVGIPAERVILDPGFGFAKTLAHNLSLFKHMEALHALGRPLLVGVSRKSMIGNALGRPVGERLYGGLALAALALTKGARILRVHDVAETMDVVRMIDAVDSAE	PGPT0007915_2716	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007915-folP-K00796	NA	NA
D1-35_01190	1338	glmM	COG1109	Phosphoglucosamine mutase	ATGAGCAAGAAATATTTTGGCACCGACGGTATTCGTGGTCGGGTCGGCGAATACCCTATTACCCCCGATTTCATGCTCAAGCTCGGCTGGGCCGCCGGCATGGCGTTCCGCAAGATGGGCGCATGCAAGGTGCTGGTCGGCAAGGACACGCGGATTTCCGGCTACATGTTCGAATCGGCTCTCGAGGCCGGCCTTACGTCGGCGGGTGCCGATGTGATGTTGCTGGGCCCGATGCCGACGCCGGCCATTGCCTACCTGACCCGTACATTCCAGGCCCAGGCGGGTATTGTGATCAGTGCTTCGCACAATCCTCATGACGACAACGGCATCAAGTTTTTCTCTGGCAAGGGCACCAAGCTGCCGGATGAAATCGAGCTGATGATCGAAGAGCTGCTGGATGCGCCGATGACGGTGGTCGAGTCGAGCAAGATCGGCAAGGTGTCGCGGATCAACGATGCATCGGGCCGTTATATCGAGTTCTGCAAAGGCAGTGTTCCAACCGGTACGAGCTTTTCCGGTCTGAAAATCGTTGTCGATTGCGCGCATGGCGCAACCTATAAGGTCGCGCCCAGCGTTTTTCGCGAATTGGGCGCCGAGGTGGTGGTGCTCTCTGCCCAGCCCAACGGGCTGAACATCAACCACAATTGCGGCTCGACCCATACCGAGGCATTGCAGGCTGCGGTCCTGGCCGAACATGCCGATCTCGGGATCGCTTTCGACGGTGACGGTGACCGGGTGTTGATGGTCGACCATACCGGTACGGTCGTTGATGGTGATGAGTTGCTGTTCATCATCGCGCGCGATCTGCATGGTCGCGGCAAGCTGCAGGGCGGCGTGGTTGGTACGTTGATGAGCAACCTCGGGCTTGAATTGGCCTTGGCGGATCTAGATATCCCATTCGTCCGGGCTAATGTCGGCGACCGCTACGTGATCTCGGAATTGCTGGAGCGCAACTGGGTGATCGGAGGCGAGAATTCCGGCCACATCGTCTGCTTCGACCATACCACCACCGGTGATGCGATCATCGCTGCGCTGCAAGTGCTGATGGCGCTCAAGGCCCGTAACGAAGGGCTGGCGCAGTCGCGCCAGGCGCTGCGCAAATGTCCGCAAGTATTGATCAATGTGCGTTTTGGTGGAGGTGTCAGTCCTCTTGAACATGCGACGGTCAAGCAGGCCAGCGAGCGCATAACACAGGCAATGGCCGGGCGTGGACGGGTGTTGTTGCGCAAGTCTGGCACGGAGCCTTTGGTGCGCGTCATGGTCGAAGGCGAGGATGAAGTACAGGTCCGCGGTTATGCCGAAGAGCTGGCGAAGCTGGTTACTGAAGTTTCTGCCTGA	MSKKYFGTDGIRGRVGEYPITPDFMLKLGWAAGMAFRKMGACKVLVGKDTRISGYMFESALEAGLTSAGADVMLLGPMPTPAIAYLTRTFQAQAGIVISASHNPHDDNGIKFFSGKGTKLPDEIELMIEELLDAPMTVVESSKIGKVSRINDASGRYIEFCKGSVPTGTSFSGLKIVVDCAHGATYKVAPSVFRELGAEVVVLSAQPNGLNINHNCGSTHTEALQAAVLAEHADLGIAFDGDGDRVLMVDHTGTVVDGDELLFIIARDLHGRGKLQGGVVGTLMSNLGLELALADLDIPFVRANVGDRYVISELLERNWVIGGENSGHIVCFDHTTTGDAIIAALQVLMALKARNEGLAQSRQALRKCPQVLINVRFGGGVSPLEHATVKQASERITQAMAGRGRVLLRKSGTEPLVRVMVEGEDEVQVRGYAEELAKLVTEVSA	PGPT0018950_3563	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
D1-35_01191	756	tpiA	COG0149	Triosephosphate isomerase	ATGCGTCGCCCTATGGTAGCTGGTAACTGGAAGATGCACGGTACCCGCGCCAGCGTCGCTGAGCTGATCAAGGGCCTTCGTAACCTGGCCTTGCCAAGCGGTGTTGATGTGGCGGTGTTCCCGCCTTGCCTGTATATCAACCAAGTGGTTGATGGCTTGAAAGGCAAGTCGATTTCGGTCGGTGCACAAAACTCTGCAGTGGAATCCATGCAGGGTGCGTTGACCGGTGAAATCGCGCCGAGTCAGCTGGTGGACGCAGGGTGTTCACTGGTCCTGGTCGGTCATTCCGAGCGTCGCCTGATCATGGGCGAGCAGGACAAGACCCTGATTCGCAAATTTGCCGCGGCACAGGCTTGTGGTCTGATTCCGGTGTTGTGCGTAGGGGAGACCCTCGAACAGCGTGAGGCAGGCAAGACTCTCGAAGTTGTCGCTCGCCAGTTGGGCAGCATCATCGAGGACCTGGGTGTCGGTGCGTTTGCAAAGGCAGTCATCGCTTACGAGCCGGTCTGGGCCATTGGCACCGGGCTGACTGCTTCGCCTCAACAAGCGCAGGATGTGCACGCCGCCATCCGCGCGCAGTTGGCGCAAGAAAATTCTGAAGTGGCACGAGGTGTGCGGCTTCTATACGGCGGCAGCGTGAAGGCGGCCAATGCGGTCGAACTGTTCGGCATGCCGGATATCGATGGGGGGCTCATTGGTGGAGCGTCCCTGAATGCAGATGAGTTCGGTGCGATCTGTCGCGCCGCGGGAAACTGA	MRRPMVAGNWKMHGTRASVAELIKGLRNLALPSGVDVAVFPPCLYINQVVDGLKGKSISVGAQNSAVESMQGALTGEIAPSQLVDAGCSLVLVGHSERRLIMGEQDKTLIRKFAAAQACGLIPVLCVGETLEQREAGKTLEVVARQLGSIIEDLGVGAFAKAVIAYEPVWAIGTGLTASPQQAQDVHAAIRAQLAQENSEVARGVRLLYGGSVKAANAVELFGMPDIDGGLIGGASLNADEFGAICRAAGN	PGPT0017995_3593	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
D1-35_01194	477	rimP	COG0779	Ribosome maturation factor RimP	ATGCACGAGGGGGTTCAGGTGTCGAGCAAGCTAGAACAGTTGCAGGCCTTGTTGGCCCCGGTGGTCGTGGCCCTTGGCTATGAATGCTGGGGTATTGAGTTTTCGGCTCAAGGTCGCCACTCACTGTTGCGCGTTTATATCGATAAGGAAGGCGGCGTGTTGGTGGATGATTGCGCCATCGTCAGCCGTCAGATCAGTGGTGTGCTGGATGTTGAAGATCCCATCACCTCCGAATACACCCTTGAAGTTTCCTCGCCTGGCATGGAACGCCCTCTGTTCACTCTTGAACAGTTCGCTTTGTTTGCCGGTGAACAAGTGAAGATCAAGCTGCGCTCGCCCTTTGAAGGCCGACGCAACTTCCAAGGCCTTCTGCGCGGTGTGGAAGAACAGGATGTCGTGGTGCAGGTAGATGACCATGAGTTTCTGTTGCCGATCGATATGATCGACAAGGCCAACATTATTCCCAGTTTTGACTGA	MHEGVQVSSKLEQLQALLAPVVVALGYECWGIEFSAQGRHSLLRVYIDKEGGVLVDDCAIVSRQISGVLDVEDPITSEYTLEVSSPGMERPLFTLEQFALFAGEQVKIKLRSPFEGRRNFQGLLRGVEEQDVVVQVDDHEFLLPIDMIDKANIIPSFD				NA	NA	NA	NA	NA
D1-35_01195	1482	nusA	COG0195	Transcription termination/antitermination protein NusA	ATGAGCAAAGAAGTACTGCTGGTTGTTGAGTCGGTATCCAATGAAAAGGGCGTACCGGCTAACGTTATTTTTGAAGCACTGGAGCTGGCCCTGGCCACTGCTACCAAGAAGCGCTTCGAAGACGAAGTTGATTTGCGTGTGGAGATCAATCGCCACACCGGTGCCTACGAGACTTTCCGTCGCTGGACGGTAGTCGAGGAGGCCGACCTGGATGATCCGGCTATCGAAACCTGGCCGAGCAAGGTTGCAGAAACGCATCCTGCCGCCAAGGTGGGTGATGTCGTCGAAGAAAAAATCGAGTCCATCGAGTTTGGCCGCATTGCTGCACAGACTGCCAAGCAGGTCATTGTGCAGAAAGTTCGCGAAGCCGAGCGCGCGCAAGTCGTCGATGCCTATCGCGAGCGCCTGGGAGAGATCATCTCCGGCACCGTTAAAAAAGTCACCCGCGACAACGTGATCGTTGATCTGGGCAACAATGCCGAAGCATTGCTGGCCCGTGAAGACATCATTTCTCGCGAAACTTTCCGTGTTGGCGTGCGGTTGCGTGCGCTGCTCAAGGAAATCCGCACCGAGAACCGCGGCCCGCAGCTGATCCTGTCGCGTACCGCGCCGGAAATGCTGATCGAGTTGTTCCGCATCGAAGTGCCGGAAATTGCTGAAGGCCTGATCGAAGTAATGGCCGCCTCCCGTGATCCGGGTTCGCGGGCCAAGATCGCGGTCCGCTCCAAGGACAAGCGCATCGACCCGCAAGGTGCCTGCATCGGCATGCGTGGTTCGCGCGTCCAGGCCGTATCCGGCGAGTTGGGCGGCGAGCGTGTGGATATCGTCCTGTGGGACGACAACCCGGCTCAGTTCGTGATCAATGCCATGTCGCCCGCTGAAGTGGCGGCAATTATCGTCGACGAGGATGCCCATGCCATGGACATCGCCGTTGGCGCAGACAATCTCGCTCAGGCCATCGGTCGCGGTGGTCAGAACGTGCGTCTGGCTAGCCAATTGACTGGCTGGACCCTGAACGTGATGACCGAATCGGACATCCAGGCCAAGCAGCAAGCTGAAACCGGCGACATCCTGCGCAACTTCATCGAAGAGCTTGAAGTCGATGAAGAGCTGGCGCAGGTGCTGGTGGATGAAGGCTTTACCAGCCTGGAAGAGATTGCCTACGTACCGGTGGAGGAAATGCTCAACATCGACGGCTTTGACGAGGACATCGTCAACGAGCTTCGCGCTCGTGCCAAGGATCGCTTGTTGACCAAAGCCATCGCTACTGAGGAAAAGCTGGCAGACGCCCATCCGGCCGAAGACCTGCTCTCGCTTGAGGGCATGGACAAGGATTTGGCGATGGAACTGGCGGTGCGCGGCGTAATTACCCGCGAAGACCTGGCCGAGCAGTCTATTGACGATCTGCTCGACATCGACGGCATTGACGATGATCGTGCCGGCAAGTTGATCATGGCCGCCCGAGCCCACTGGTTCGAGTAA	MSKEVLLVVESVSNEKGVPANVIFEALELALATATKKRFEDEVDLRVEINRHTGAYETFRRWTVVEEADLDDPAIETWPSKVAETHPAAKVGDVVEEKIESIEFGRIAAQTAKQVIVQKVREAERAQVVDAYRERLGEIISGTVKKVTRDNVIVDLGNNAEALLAREDIISRETFRVGVRLRALLKEIRTENRGPQLILSRTAPEMLIELFRIEVPEIAEGLIEVMAASRDPGSRAKIAVRSKDKRIDPQGACIGMRGSRVQAVSGELGGERVDIVLWDDNPAQFVINAMSPAEVAAIIVDEDAHAMDIAVGADNLAQAIGRGGQNVRLASQLTGWTLNVMTESDIQAKQQAETGDILRNFIEELEVDEELAQVLVDEGFTSLEEIAYVPVEEMLNIDGFDEDIVNELRARAKDRLLTKAIATEEKLADAHPAEDLLSLEGMDKDLAMELAVRGVITREDLAEQSIDDLLDIDGIDDDRAGKLIMAARAHWFE				NA	NA	NA	NA	NA
D1-35_01196	2520	infB	COG0532	Translation initiation factor IF-2	ATGACGCAAGTCACGGTGAAACAACTGGCCGATGAGGTCAAAACACCGGTAGAGCGCCTGTTGCAGCAGATGCGTGAGGCAGGTCTGCCGCACACCGCCGCCGAGGAACATGTGACCGACAGTGAGAAGCAGTCCCTGCTCACTCACTTGAAGAGCAGTCACAAGGCGAAAGTGGAAGAACCGCGCAAGATCACTCTGCAGCGTAAAACCACCAGCACCCTGCGTGTTGCCGGTAGCAAAAGCATCAGCGTTGAAGTACGCAAGAAGAAAGTCTTCGTACAGCGCAGCCCGGAAGAAATCGAAGCCGAGCGCAAACGCGAACTGGAAGAACGTCGCGCGGCAGAAAATGCTGCACGTCAGAAGGCTGAAGAAGAAGCCAAGCGTCGCGCCGAAGAAGAAGCGCGTCGCCAGCCTGCTGCTGCGCAATCTGCTCCAGCCGAAGTGGTCGAGACACCTGCGGCGGCAGCTGAGCCAGTGCGTGAAAGCGCACCTGTCCTGGCAGCTGCTCCGGCGCCGGCGGACACCCGCAAGCGCGACGAACAGCGTCGTCCGGACAAACCACGTGCCGACGATAACCGTCGTGGCAGTGGCGATGGCGAGCGCAAAAACGCTCCTCATCGTGCTTCGGTCAAGGAGAAGGCGCCTGCGCCGCGTGTTGCGCCACGTACCACCGACGAAGAAAGCGATGGCTTCCGTCGCGGCGGTCGCGGCAAGGCCAAGCTGAAGAAACGCAACGCCCACGGTTTCCAGAGCCCTACCGGCCCTGTCGTGCGTGAAGTGAAGATCGGCGAGACCATCACTGTGGGCGATCTGGCCCAGCAGATGTCGGTCAAGGCTGCTGAAATCATCAAGTTCATGTTCAAGCTGGGCACGCCAGCCACCATCAACCAGGTACTGGACCAGGAAACTGCCCAACTGGTCGCCGAAGAGCTGGGCCACAAAGTGACCCTGGTCAGCGACACCGCCCTGGAAGATTCCCTGGCCGAGTCCCTGAAGTTTGAAGGTGAAGCTGTTTCCCGTGCGCCGGTCGTGACCGTCATGGGTCACGTTGACCACGGTAAAACCTCGCTGCTCGACTACATCCGTCGTGCCAAGGTAGCCGCTGGCGAAGCCGGTGGTATCACCCAGCACATCGGCGCGTACCACGTTGAAACCGACCGCGGCATGGTGACGTTCCTCGATACCCCGGGCCACGCCGCGTTTACCGCGATGCGTGCCCGTGGTGCCAAGGCAACCGACATCGTGATCCTGGTGGTTGCAGCGGACGACGGCGTGATGCCGCAAACCATCGAAGCCGTTCAGCATGCCAAGGCTGCTGGCGTGCCGCTGGTGGTTGCGGTGAACAAGATCGACAAGCCGGGCGCCGATCTCGATCGCATCCGCAGCGAACTGTCGGTCCACGGCGTGACCTCCGAAGAGTGGGGTGGCGACACTCCTTTCGTTCCGGTCTCGGCGAAGATGGGTACCGGCGTTGACGAACTGCTCGAAGCCGTTCTGTTGCAAGCCGAAGTTCTGGAGTTGACCGCTACACCTTCGGCTCCTGGCCGTGGCGTGGTCGTTGAATCGCGTCTCGACAAGGGCCGTGGTCCGGTCGCGACCGTCCTGGTTCAAGACGGTACCCTGCGTCAGGGCGACATGGTGCTGGTCGGTTCGAACTATGGCCGCGTGCGCGCCATGCTCGACGAGAACGGCAAGCCAATCAAGGAAGCCGGTCCGGCTATCCCGGTCGAGATCCTCGGTCTGGACGGTACCCCGGATGCTGGCGACGAGATGAGCGTTGTGGCTGACGAGAAGAAGGCCCGTGAAGTGGCTCTGTTCCGTCAAGGCAAGTTCCGCGAAGTCAAACTGGCTCGCGCTCACGCCGGCAAGCTGGAAAACATCTTCGAGAACATGGGCCAGGAAGAGAAGAAGACGCTCAACATCGTCCTCAAATCCGACGTCCGTGGTTCGCTCGAAGCGTTGAACGGCGCCTTGAATGGCCTGGGTAACGACGAAGTGCAAGTGCGCGTTGTCGGTGGTGGTGTCGGTGGTATCACCGAATCCGACGCCAACCTGGCACTCGCTTCCAACGCTGTACTGTTCGGCTTCAACGTGCGTGCCGATGCCGGCGCGCGCAAGATCGTCGAGCAGGAAGGCCTGGATATGCGTTACTACAACGTGATCTACGACATCATCGAAGACGTCAAGAAAGCCTTGACCGGTATGCTCGGCAGCGACGTTCGCGAGAACATCCTGGGCGTGGCCGAAGTGCGCGATGTGTTCCGTTCGCCGAAGTTCGGCGCGATCGCCGGTTGCATGGTGATCGAAGGTGTCGTTCACCGTAACCGTCCGATCCGCGTATTGCGTGAAGACATCGTGATCTTCGAAGGCGAGCTGGAATCCCTGCGCCGCTTCAAGGATGACGCTTCCGAAGTACGTGCCGGCATGGAATGCGGTATCGGCGTCAAGAGCTATAACGACGTCAAGGTCGGCGACAAGATCGAAGTCTTCGAGAAGGTCCAGGTTGCTCGCAGCCTCTGA	MTQVTVKQLADEVKTPVERLLQQMREAGLPHTAAEEHVTDSEKQSLLTHLKSSHKAKVEEPRKITLQRKTTSTLRVAGSKSISVEVRKKKVFVQRSPEEIEAERKRELEERRAAENAARQKAEEEAKRRAEEEARRQPAAAQSAPAEVVETPAAAAEPVRESAPVLAAAPAPADTRKRDEQRRPDKPRADDNRRGSGDGERKNAPHRASVKEKAPAPRVAPRTTDEESDGFRRGGRGKAKLKKRNAHGFQSPTGPVVREVKIGETITVGDLAQQMSVKAAEIIKFMFKLGTPATINQVLDQETAQLVAEELGHKVTLVSDTALEDSLAESLKFEGEAVSRAPVVTVMGHVDHGKTSLLDYIRRAKVAAGEAGGITQHIGAYHVETDRGMVTFLDTPGHAAFTAMRARGAKATDIVILVVAADDGVMPQTIEAVQHAKAAGVPLVVAVNKIDKPGADLDRIRSELSVHGVTSEEWGGDTPFVPVSAKMGTGVDELLEAVLLQAEVLELTATPSAPGRGVVVESRLDKGRGPVATVLVQDGTLRQGDMVLVGSNYGRVRAMLDENGKPIKEAGPAIPVEILGLDGTPDAGDEMSVVADEKKAREVALFRQGKFREVKLARAHAGKLENIFENMGQEEKKTLNIVLKSDVRGSLEALNGALNGLGNDEVQVRVVGGGVGGITESDANLALASNAVLFGFNVRADAGARKIVEQEGLDMRYYNVIYDIIEDVKKALTGMLGSDVRENILGVAEVRDVFRSPKFGAIAGCMVIEGVVHRNRPIRVLREDIVIFEGELESLRRFKDDASEVRAGMECGIGVKSYNDVKVGDKIEVFEKVQVARSL				NA	NA	NA	NA	NA
D1-35_01197	402	rbfA	COG0858	30S ribosome-binding factor	ATGGCAAAAGAATATAGCCGTACCCAACGAATCGGCGATCAGATGCAGCGCGAGCTGGCCCAACTGATCCGTCGCGAAGTCAAAGACCCGCGCGTCGGCCTGGTGACCATCACCGCTGTTGAAGTCAGCCGTGACGTCGGTCACGCCAAGATCTTCATCACGGTGATGGGGCAGGACAGCGCCGAAGAAATTGCCCAGAGCATCAAGGTGCTCAACTCGGCAGCCGGTTTCCTGCGCATGCAACTGGCGCGGGAAATGAAGCTGCGCAGCGTTCCACAGCTGCACTTCCACTACGACGAAAGCGTCGTGCGGGGCGCGCATCTGTCGGCGCTGATCGAGCGTGCCGTGGCTGAAGACAGTCAGCATCCGGCTGCCGCTGAACCCGAAGACACCAAGGAGTAA	MAKEYSRTQRIGDQMQRELAQLIRREVKDPRVGLVTITAVEVSRDVGHAKIFITVMGQDSAEEIAQSIKVLNSAAGFLRMQLAREMKLRSVPQLHFHYDESVVRGAHLSALIERAVAEDSQHPAAAEPEDTKE				NA	NA	NA	NA	NA
D1-35_01198	918	truB	COG0130	tRNA pseudouridine synthase B	GTGGCTCAGGTCAAACGTATCCGTCGTAACGTCAGCGGCATCATCCTGCTCGACAAGCCGTTGGGATTTACCTCCAACGCGGCGTTGCAGAAGGTTCGCTGGCTGCTCAATGCTGAAAAGGCCGGGCACACCGGCAGCCTCGATCCACTGGCTACCGGCGTGCTGCCGCTGTGCTTCGGCGAGGCGACCAAGTTTTCCCAATACCTGCTCGATTCCGACAAGGGTTATGAAACCCTGGCGCAACTGGGCAAGACCACCACCACGGCGGATGCCGAAGGTGAGGTTTTGCTGGAGCGTCCGGTGACCGTTGGTCAGGCGGATATCGAGGCGGTGTTGCCGAAATTTCGTGGGCAAATCAGTCAGATACCGCCGATGTACTCCGCGCTCAAGCGTGATGGACAGCCGTTGTACAAACTGGCCCGTGCAGGCGAAGTAGTGGAGCGCGAACCGCGTTCTGTTACTATTGCGCGCTTGGAATTGCTGGCCTTTGGCGGTAATACTGCACGGCTCGCCGTGGATTGCAGCAAAGGCACCTATATCCGTACCCTGGTGGAGGATATCGGCGAGCAGCTCGGCTGTGGCGCGTACGTGGCGGAATTGCGACGGACCCAGGCCGGGCCTTTCACCCTGGCCCAGACGGTCACGCTGGAAGAGCTCGAAGCGGTACACGCCGAAGGCGGCAACGAAGCGGTCGACCGTTTCCTCATGCCTTCGGACAGCGGTTTGCTCGATTGGCCGCTGCTGCAGTTCTCCGAACACAGTGCGTTCTACTGGCTCAACGGCCAGCCGGTGCGCGCTCCGGATGCGCCGAAGTTCGGCATGGTCCGGGTGCAGGATCACAATGGTCGCTTCATCGGTATCGGTGAAGTGAGCGAAGACGGGCGTATCGCGCCGCGTCGATTAATTCGGTCGGAATGA	MAQVKRIRRNVSGIILLDKPLGFTSNAALQKVRWLLNAEKAGHTGSLDPLATGVLPLCFGEATKFSQYLLDSDKGYETLAQLGKTTTTADAEGEVLLERPVTVGQADIEAVLPKFRGQISQIPPMYSALKRDGQPLYKLARAGEVVEREPRSVTIARLELLAFGGNTARLAVDCSKGTYIRTLVEDIGEQLGCGAYVAELRRTQAGPFTLAQTVTLEELEAVHAEGGNEAVDRFLMPSDSGLLDWPLLQFSEHSAFYWLNGQPVRAPDAPKFGMVRVQDHNGRFIGIGEVSEDGRIAPRRLIRSE				NA	NA	NA	NA	NA
D1-35_01200	270	rpsO	COG0184	30S ribosomal protein S15	ATGGCTCTCGACGTTCAAGAAAAAGCTCAAATCGTAGCTGACTACCAGCAAGCTGTTGGTGACACTGGTTCGCCAGAAGTGCAAGTTGCACTGCTGACCGCCAACATCAACAAACTGCAAGGTCACTTCAAGGCCAACGGTAAGGATCACCACTCCCGTCGTGGTCTGATCCGCATGGTAAACCAGCGTCGCAAGCTGCTGGACTACCTGAAAGGCAAGGACGTGAGCCGTTACAGCGCTCTGATCGCTCGCCTGGGTCTGCGTCGCTAA	MALDVQEKAQIVADYQQAVGDTGSPEVQVALLTANINKLQGHFKANGKDHHSRRGLIRMVNQRRKLLDYLKGKDVSRYSALIARLGLRR				NA	NA	NA	NA	NA
D1-35_01201	2106	pnp		Polyribonucleotide nucleotidyltransferase	GTGAACCCGGTAATCAAAAAATTCCAGTTCGGTCAGTCGACCGTTACCCTCGAGACTGGCCGTATCGCCCGTCAGGCCTCCGGCGCAGTGCTGGTCACCGTTGACGACGACGTCAGCGTATTGGTGACCGTCGTCGGTGCCAAGCAGGCCGATCCAGGCAAGGGTTTCTTCCCTCTGTCTGTGCACTACCAGGAAAAGACCTACGCCGCGGGCAAGATCCCTGGCGGTTTCTTCAAGCGTGAAGGCCGTCCTTCCGAGAAAGAAACCCTGACTTCCCGACTGATCGACCGTCCGATCCGTCCGCTTTTCCCTGAAGGTTTCATGAACGAAGTGCAGGTTGTCTGCACCGTCGTTTCCACCAGCAAGAAGACCGATCCGGACATCGCTGCGATGATCGGTACCTCGGCTGCGCTGGCGATCTCCGGCATTCCTTTCGATGGCCCGATCGGCGCTGCCCGCGTTGCGTTCCACGAAAGCACCGGCTACCTGCTGAACCCGACCTACGAGCAACAGAAGGCATCGAGCCTGGACATGGTCGTGGCCGGTACTTCCGAAGCCGTGCTGATGGTTGAATCCGAAGCCAAGGAACTGACCGAAGACCAGATGCTGGGCGCCGTGCTGTTCGCCCACGACGAGTTCCAGGTGGTCATCAACGCCGTCAAGGAACTGGCTGCCGAAGCCGCCAAGCCAACCTGGACCTGGGCTCCTCAGCCAGAAGCCACCGAGCTGCTTGGCGCGATCCGTGCCGAGTTCGGCGAAGCGATCTCCCAGGCCTACACCATCACCATCAAGGCCGACCGCTATGCGCGTCTGGGCGAGCTGCGTGACCAGGTCGTTGCCAAGTTCTCCGGCGAAGAAGGCCAGCCATCGGCCAGCGACGTCAAGGCGGCTTTCGGTGAAATCGAATACCGCACCGTTCGCGAAAACATCGTCAACGGCAAGCCGCGTATCGACGGTCGCGACACTCGCACCGTGCGTCCGCTGAACATCGAAGTCGGCGTTCTGCCAAAGACCCACGGTTCGGCGCTGTTCACCCGTGGTGAAACCCAGGCGCTGGTCGTTGCGACACTGGGCACCGCCCGTGACGCGCAACTGCTCGACACCCTGGAAGGCGAAAAGAAAGACCCGTTCATGCTGCACTACAACTTCCCTCCGTTCTCGGTGGGCGAGTGTGGTCGCATGGGTGGCGCCGGTCGTCGCGAAATCGGTCACGGCCGTCTGGCCCGTCGTTCGGTCCAGGCCATGCTGCCGGCCGCTGACGTGTTCCCGTACACCATTCGCGTGGTATCGGAAATCACCGAGTCCAACGGTTCGAGCTCGATGGCTTCGGTCTGCGGCGCTTCCCTGGCCCTGATGGACGCTGGTGTGCCGATGAAGGCGCCGGTGGCCGGTATCGCCATGGGTCTGGTCAAGGAAGGCGAGAAATTCGCCGTCCTGACCGACATCCTGGGTGACGAAGACCACCTGGGCGACATGGACTTCAAAGTGGCCGGTACCGCCAAGGGCGTCACCGCACTGCAGATGGACATCAAGATCAAGGGCATCACCGAAGAGATCATGGAAATCGCCCTGGGCCAAGCCCTGGAAGCGCGCCTGAACATCCTCGGTCAGATGAACCAGATCATCGGTCAGTCCCGTACCGAACTGTCGGAAAATGCTCCGACCATGATCGCGATGAAAATCGACACCGACAAAATCCGTGATGTCATCGGTAAAGGCGGCGCGACTATCCGTGCGATCTGTGAAGAAACCAAGGCTTCGATCGACATCGAAGACGACGGTTCGATCAAGATCTTCGGCGAAACCAAGGAAGCGGCAGAAGCAGCACGCCAGCGCGTCCTGGGCATCACCGCAGAGGCCGAGATCGGCAAGATCTACGTCGGCAAGGTTGAACGCATCGTCGACTTCGGTGCGTTCGTCAACATCCTGCCTGGCAAGGACGGTCTGGTTCACATCTCCATGCTGAGCGATGCTCGCGTCGAGAAAGTGACCGACATCCTGAAAGAAGGCCAGGAAGTGGAAGTGCTGGTACTGGACGTGGACAACCGCGGCCGTATCAAGCTGTCCATCAAGGACGTTGCAGCAGCCAAGGCGTCGGGCGTTTAA	MNPVIKKFQFGQSTVTLETGRIARQASGAVLVTVDDDVSVLVTVVGAKQADPGKGFFPLSVHYQEKTYAAGKIPGGFFKREGRPSEKETLTSRLIDRPIRPLFPEGFMNEVQVVCTVVSTSKKTDPDIAAMIGTSAALAISGIPFDGPIGAARVAFHESTGYLLNPTYEQQKASSLDMVVAGTSEAVLMVESEAKELTEDQMLGAVLFAHDEFQVVINAVKELAAEAAKPTWTWAPQPEATELLGAIRAEFGEAISQAYTITIKADRYARLGELRDQVVAKFSGEEGQPSASDVKAAFGEIEYRTVRENIVNGKPRIDGRDTRTVRPLNIEVGVLPKTHGSALFTRGETQALVVATLGTARDAQLLDTLEGEKKDPFMLHYNFPPFSVGECGRMGGAGRREIGHGRLARRSVQAMLPAADVFPYTIRVVSEITESNGSSSMASVCGASLALMDAGVPMKAPVAGIAMGLVKEGEKFAVLTDILGDEDHLGDMDFKVAGTAKGVTALQMDIKIKGITEEIMEIALGQALEARLNILGQMNQIIGQSRTELSENAPTMIAMKIDTDKIRDVIGKGGATIRAICEETKASIDIEDDGSIKIFGETKEAAEAARQRVLGITAEAEIGKIYVGKVERIVDFGAFVNILPGKDGLVHISMLSDARVEKVTDILKEGQEVEVLVLDVDNRGRIKLSIKDVAAAKASGV				NA	NA	NA	NA	NA
D1-35_01203	549			hypothetical protein	ATGATGCGCAGTCTTGCGAAACGCTCGTCGACCCGGTTTGCTACCACGTCCCTCCTGCTCGGCAGCCTGAGCTTGATCGGTGCCGTTCAAGCGGCTGTCGAAGTTTCCTCCGGCCCCCCTCTGCCGTCTGACACGATCCCGCTGCTTCGCAACTCATTCGACAAGGATGTTCTGATCAAGACCAATATCAACGTGGGTGACCTGGAAAAATTACCAGAAGCAGTCAAGGACAACACCGCCGAGCTGGACAGTCAGAAGCGCACCCTTGGCGAGCAGGCCCGACAAATCGAAGAACTCAAACGCAACAGTGGCTCCAGCTCCACCTCCAGCAGCAAGGAGATAGACGATCTCAAGCGCATCATCAAGGAACAGGAACGCGATCTGAACGACCTTGGCAAGCAAGTGGAAGAACTCAAGCGCAACAGCGGTTCCAGCTCAAGTTCGAGCAGCAGCGAAATTTCGTCCCTGAAACGGGAGCTCAGCGATCAGGACAACGAGCTGACACAGCTCAAACGCACGGTCGAGGAACTGAGCAGGAAGGTGAAATAA	MMRSLAKRSSTRFATTSLLLGSLSLIGAVQAAVEVSSGPPLPSDTIPLLRNSFDKDVLIKTNINVGDLEKLPEAVKDNTAELDSQKRTLGEQARQIEELKRNSGSSSTSSSKEIDDLKRIIKEQERDLNDLGKQVEELKRNSGSSSSSSSSEISSLKRELSDQDNELTQLKRTVEELSRKVK				NA	NA	NA	NA	NA
D1-35_01204	306			hypothetical protein	ATGACCGCTAAAGAATTGTCCCAAGAAGCCAGGCACGAAGAAGCCCTGGAAAAGTACCTCGAAGAAACGCCGCAGTTGCGCGATGAGATCAAGGACTTGTCCGCCGATGACCAGAAAGACCAGGTCCAGTGGGCGTTCGAGGATGAGGCCGAAGCCCAGGGCCTGCAGCCTTGGGAGCTGACGCTCAAGTACACCAGTACGCCGGAAGAGTTCGAGGCGCAGCGCCTTGTCTTGCACAAGGAGGCGGCCGAGGTGTTGGGTGTGGATTGGGATGAGTACTGCGAGATGAATAATCTGGTGGTCTGA	MTAKELSQEARHEEALEKYLEETPQLRDEIKDLSADDQKDQVQWAFEDEAEAQGLQPWELTLKYTSTPEEFEAQRLVLHKEAAEVLGVDWDEYCEMNNLVV				NA	NA	NA	NA	NA
D1-35_01205	849	nadC	COG0157	Nicotinate-nucleotide pyrophosphorylase [carboxylating]	ATGCCGAATCTACGCCTCGCCGATCTGACCGCCGAAATCGAAGCCAACGTGCGCCGTGCGTTGCTCGAAGACATCGGCAGCGGCGACATCACCGCACAACTGATCCCCGCCGAACGCCTGGCCAAGGCCACCATCATCACCCGGGAAGCCGCGACCATCAGCGGCACGGCCTGGGTCGATGCGGTGTTCAGACAACTGGATCCCCGCGTCGCGGTGCATTGGCAAGTGCGCGACGGCGACCGGGCAAGCCCCGACCAGGCCCTGTTCCACCTCGAAGGCCCGGCCCGCTCACTGCTGACGGGCGAACGCAGCGCGCTGAACTTCCTGCAGATGCTCTCGGGCGTTGCCACCCGGGCCCGCTATTTGGCGGACTTTGTTGCCGACACCCAGGTCAAGCTGCTGGATACCCGCAAGACCCTGCCCGGGCTGCGCCTGGCCCAGAAGTACGCGGTCACCTGCGGCGGCTGCCATAACCATCGCATCGGCCTTTACGATGCCTTTCTGATCAAGGAAAACCATATCGCCGCCTGCGGTGGCATTGCCCAGGCCATCAGCGCCGCCCACAAGATCGCACCGGGCAAGCTGGTGGAGATCGAAGTGGAAAGCCTGGCGGAATTGAAAGAAGCGCTGGCGGCCGATGCCGACATCATCATGCTCGACGAGCTGAGCCTGGACGACATGCGCGAAGCCGTGCGCCTGAACGGCGGCAAGGCGAAACTGGAAGCCAGCGGCGGCATCAACGAAAGCACGTTGCGCCCGATTGCCGAGACCGGCGTGGACTATATCTCCATCGGTGCGATGACCAAGGACGTCAAAGCCGTGGACCTGTCGATGCGCTTGAGCCTCTGA	MPNLRLADLTAEIEANVRRALLEDIGSGDITAQLIPAERLAKATIITREAATISGTAWVDAVFRQLDPRVAVHWQVRDGDRASPDQALFHLEGPARSLLTGERSALNFLQMLSGVATRARYLADFVADTQVKLLDTRKTLPGLRLAQKYAVTCGGCHNHRIGLYDAFLIKENHIAACGGIAQAISAAHKIAPGKLVEIEVESLAELKEALAADADIIMLDELSLDDMREAVRLNGGKAKLEASGGINESTLRPIAETGVDYISIGAMTKDVKAVDLSMRLSL	PGPT0013370_3255	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013370-nadC-K00767	NA	NA
D1-35_01206	2211			hypothetical protein	ATGCACAACGACGGGAATGTAGTGCCTTTGCACAAGGCGTCTACCGATCAGGCGAGTCGCTCGCCGCTCGCCCGCCTGCCTGTGATTCTGCTTCAGGTTCGCGACAAGGCTGCGCAGCAGTTGCGCCTTGGCTTGCAGGAATTGTTCGATAATGCTGACGATACCTTGTTCGAAATGGCCGATCGGGCGCGGAACGATGTGGAGCAGAACCTCTACTTCGAAGCCATGCGAGACCTGCGGCTGAAACGCAAGAGCATCGAACGTGAATTCCTCGAGCAGTTTTTCGAGGCGTTCGTCAATCTTGCCCAGTACGATCTGACCCAGGCCACCCTCGCGCCCGTATTGGGCGCCATACCGGCCCAGCGAAACCATGATGACCTCGAACGCCGGCTGGCGGTGGAAACCATGGTCACCCGGGTGCTCAGTCGCGATGGCCTGTCTCTCGATCAACTCACGGCGCGCCTCGGCGCGTTACTGTCGCGGCCCCTGGCGAACCAGCACAACCCCTTGAGCCCGGCCCTGCTGTGTGAGAATTTTCTCCAGGCCGGGCGTAACCTGGGCGTAGGCATCAAGGTCAAACTGATCCTGCTCAAGCTCTTCGAGCGGTATGTGCTCAGCGAATGCGACAACCTTTATTCCGAGGCCAATCAGCTATTGGCGGCAACCGGGATCTTGCCGGATCTGAAGGTTTCTCCGTCGCGGCGGGCCTCGGACCGTGTCGAAGAGCCTGTTCGGCCCAGCACTGCCGGGCCTGCCAGGCCAAGGGTCGACGATGTCGATGACAGCGTGCACGAAGTCTTCGCCGCTTTGCAGAAGTTGTTGGTCCAGGTGCGCGGCAGTGTCGCGCCTACCCTTGAGCCCAGTGCACCGGCCCAGCCAATCACGACCCGTGACCTTTTGCGCTTGTTGTCTCATTTGCAGCAATACGTGCCGGCCCCCTCGGTTCAGGATGACTTCGACCTGCGCAGCCAGCTTGAACAGCTGTTGACCCGGGTCAGCGTCAAGAGCGGCAAATCCCGCGTGGTCGAAGGCGCCGACGAAGATGTGATCAACCTGATCGCGATGATGTTCGAATTCATCCTTGATGACCGTAACCTGCCGGACTCCCTCAAGGCCTTGATCGGCCGGCTGCAGATCCCGATGCTCAAGGTCGCGGTGCAGGACAAGAGTTTTTTCAGTCGCAATAATCATCCGGCGCGCCGGTTGCTCAATGAAATCGCAGCGGCGGCGATGGGTTGGGGTGATTGCGATGATCATCAGCGCGACAGCCTCTACCTGCGCATCGAGCAGGTGGTGCAGCGTCTGTTGAACGACTTCGTCGACGATCCGGCGATATTTTCCGAAGTGCTGGCCGATTTCCTGGCGTTCACCAGCGACGAGCGCCGCCGCTGTGAATTGCTTGAGCAGCGCATCCGTGACGCCGAAGAGGGAAGGGCAAAGGCCGACCTGGCTCGACAGCGGGTCGAAGGGGCACTGAACCAGGTCATGCTGGGCAAAGTCCTGCCCCAGGCCGTAGTAGATTTTGTACAGCAGGCCTGGAGCCAGGTGCTGCTGCTGACCGGCTTCAAGCATGGCGAGCATTCAGCCGAATGGCGGGCCGACGTGCTGACCCTGGAACAATTGGTCTGGAGTGTCCAGCATCACGAAGAGTCCGATGCGGGCCTGCGTTTGCTGGCGATGGTGCCGGAGCTGCTCAAGGCCCTGCGCGAGGGGCTGAGTCGCTCGGCGTTCGATCCGTTCGCCACCAGCGAATTCTTCAGCGAGCTGGAACTGCTTCATGTCCAGGCCCTGCAGCGGCTGGGCCAGGCAACGGAGGCTGGCGAGCCGGTGGATCTGCCGGTCATGGTCGAAGTGGCGGAACCCATCGTCCTTCGCACTGCGCCACAGACGCCCGCGCAGGAGCCGACCGTGCGTTTGCCGGCTGATGATGCAGGCCTGCTTCAGGTCGATCAATTGCGCCTGGGATGCTGGGTAGAGTTCCAGGAAGACGAAGACAACAGCCTGCGTTGCAAGCTGGCGGCAATCATCCAGGCCACCGGCAAGTTCGTTTTCGTCAACCGCACCGGCCTCAAGGTCCTGGAGCACAGCCGCACCAGCCTCGCCCTGGAGTTCCGCCGGGGAGCGGCACGTCTGCTGGACGACACCCTGCTGTTCGACCGGGCATTGGAGTCTGTTCTCGGCAACCTGCGCCAGCTCAATCGCGGCAAGTGA	MHNDGNVVPLHKASTDQASRSPLARLPVILLQVRDKAAQQLRLGLQELFDNADDTLFEMADRARNDVEQNLYFEAMRDLRLKRKSIEREFLEQFFEAFVNLAQYDLTQATLAPVLGAIPAQRNHDDLERRLAVETMVTRVLSRDGLSLDQLTARLGALLSRPLANQHNPLSPALLCENFLQAGRNLGVGIKVKLILLKLFERYVLSECDNLYSEANQLLAATGILPDLKVSPSRRASDRVEEPVRPSTAGPARPRVDDVDDSVHEVFAALQKLLVQVRGSVAPTLEPSAPAQPITTRDLLRLLSHLQQYVPAPSVQDDFDLRSQLEQLLTRVSVKSGKSRVVEGADEDVINLIAMMFEFILDDRNLPDSLKALIGRLQIPMLKVAVQDKSFFSRNNHPARRLLNEIAAAAMGWGDCDDHQRDSLYLRIEQVVQRLLNDFVDDPAIFSEVLADFLAFTSDERRRCELLEQRIRDAEEGRAKADLARQRVEGALNQVMLGKVLPQAVVDFVQQAWSQVLLLTGFKHGEHSAEWRADVLTLEQLVWSVQHHEESDAGLRLLAMVPELLKALREGLSRSAFDPFATSEFFSELELLHVQALQRLGQATEAGEPVDLPVMVEVAEPIVLRTAPQTPAQEPTVRLPADDAGLLQVDQLRLGCWVEFQEDEDNSLRCKLAAIIQATGKFVFVNRTGLKVLEHSRTSLALEFRRGAARLLDDTLLFDRALESVLGNLRQLNRGK				NA	NA	NA	NA	NA
D1-35_01207	561	ampD		1,6-anhydro-N-acetylmuramyl-L-alanine amidase AmpD	ATGCAGCTGGACCCCGTGAGCGGTTGGTGCGATGGCGTGCGTCATTGCCCTTCGCCCAATTTCAATGCGCGCCCCGAAGGCGAGATCTCCCTGCTGGTGATCCACAACATCAGCCTGCCGCCGGCACAGTTCGCGACTGGCAAGGTGCAGGAATTTTTCCAGAATCGTCTGGATGTCACGGAACATCCCTACTTTGCCGGTATTGCCGACCTGCGTGTCTCTGCGCATTTTCTGATCGAACGTGACGGCGCCGTGACGCAGTTTGTCTCTTGTCTGGAGCGTGCGTGGCATGCGGGGGTTTCGTGCTTCGAAGGGCGGGAGACGTGTAACGATTTTTCCATAGGCATCGAGCTTGAAGGCACCGATGATCTGCCGTTCACCGACGCGCAATATGTCGCGTTGGTGGACCTGACCCGGCAGCTTCGCGCGGCGTTTACGGCGATCACGGTGCAGCGCATCTGTGGGCACAGCGACATTGCTCCGGGGCGCAAGACCGATCCGGGACCGGCATTCGACTGGGCGCGCTATCGCGCGGCCCTGACAGAAGGGGAAGGACAATGA	MQLDPVSGWCDGVRHCPSPNFNARPEGEISLLVIHNISLPPAQFATGKVQEFFQNRLDVTEHPYFAGIADLRVSAHFLIERDGAVTQFVSCLERAWHAGVSCFEGRETCNDFSIGIELEGTDDLPFTDAQYVALVDLTRQLRAAFTAITVQRICGHSDIAPGRKTDPGPAFDWARYRAALTEGEGQ	PGPT0024100_860	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0024100-ampD-K03806	NA	NA
D1-35_01208	837			hypothetical protein	ATGAGTTTTCTGGTGTTGCTGCTGGCAGTCTGGATCGAGAAATTCTCGGCCCTGCGCCAGCGGGTCCAGCGTGACGGCGGTTGGCTGGGCGAGCTGAACAAGCTCGAAGCGAGCCCACGCTGGGTCAATCGGCCCTGGCTGGTGCTGATGGTGATGGTGCTGTTGCCGGTGGCGCTGTTGGCGTTGCTGCTGTGGGTGCTGGAGCCGGTGGCCTATGGTCTGCTGGCACTGCCGGTGCACCTGTTGGTGGTGATCTACAGCCTGGGGCGCGGCGATCTGTTGGCTGAACTCGGCCCGTTTCGCGACGCTTGGCGCCGTGAAGATCTGCAGGCAGCGAATCATGTGGCCAAGCGCGACCTGAACATCGATGCCGATGGCGGCGAGCAGTTGCTGGAGCGGGTCCAGGGGCACTTGCTGTGGCAGGCGTACCAGAGTTTTTTTGCGGTCATCTTTTGGTATTTCCTGCTGGGCCCGGTGGCTGCCCTGAGCTATCGATTGCTCGCCCTTGCCGCCGAACACAGCCACAACCCCGGCGTGGCCGAGCGTGCGGCGCAGCTGCGCCACGCGTTTGATTGGGTACCGGTGCGGTTGTTGGCGGCGAGCTTCGCCCTGGTGGGCAACTTCGTGGCGGTCAGCCGGGTGATGCTGCACGAACTGCTGAACTGGAACATCAGCGCGGCCGACCTGATCAACAAGGTCGGCCTGGTGGCCGGCGAGATCCCGACTCCCGTCGCCGGGCCGGACGGCATCAACAGCCTGGATCGGCTGTGGGAACTGCTGTTGCGCGCGGCAGTACTCTGGTATGCCGGGTTTGCGTTGTGGACGGTGTTGGCCTAG	MSFLVLLLAVWIEKFSALRQRVQRDGGWLGELNKLEASPRWVNRPWLVLMVMVLLPVALLALLLWVLEPVAYGLLALPVHLLVVIYSLGRGDLLAELGPFRDAWRREDLQAANHVAKRDLNIDADGGEQLLERVQGHLLWQAYQSFFAVIFWYFLLGPVAALSYRLLALAAEHSHNPGVAERAAQLRHAFDWVPVRLLAASFALVGNFVAVSRVMLHELLNWNISAADLINKVGLVAGEIPTPVAGPDGINSLDRLWELLLRAAVLWYAGFALWTVLA	PGPT0028120_528	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028120-ampE-K03807	NA	NA
D1-35_01209	2031			hypothetical protein	GTGAAGAGTTTGCTCTGGCCCGCCGTCGCCCTGATGAACCGCCTGAGCTTCGGCATGAAGTTCAGCCTGATCAGCGTGTTGTTCCTGCTGCCGATGCTGGTGACCAACTTCTTTCTGGTACGTGACTCCTACCGGGAGTTTCAGGGCACCCAAGTCGAGTTGCAAAGCCTCGACTTGCTGGGCAGCAGCCTGACTCTGCGCCGCGACCTGGAGACCTTGAACAACCTGGTGCAGATCAATGCCAGCCTGGGCCAGTCCGGCAAGGCGGGCGACGTGGAAAGCCGGATCAGCACCCTGGAGCAACAGATTCTCGCGCGCCTCCAGGGCATGCAGGCGATGGCCGCAGAGCCCGAGCACGTCAGCGCCTTCGATGCCAAGCGCGACGAAATGATTGCCGCCTTCAAGGCCCAGCAGGCCGAAAGCTCACTGCAAAGCAAAAGCGCGTTGATCGGCAGGTTGCTCAACAATGCGCAAATATTTGGCCAGGTCATCGCCAGCCAGGCGGGCCTGAGCCGCGACAACCAGGGCGACATCCGCCAACTCAGCGACCTGATGGTCGGCGTGACTCCCAAGGTCACCCAGATCCTGGGCGAAGGGCGTGCGCTGGGGGCTTCGTCGTTGGGCTTGGGGTTCCTCAATTCTGCTTCGAGCACCCGGTTTGACGAGTTGCTGGTACAGGTCGAAAAACTCCAGGGCGAATATGATCTTAAATTGCAGGACGCCCTTGGCTCCAGCAAGGCGGCCGGACAAGCGCTTGCCGAGCAGGCTGGCGCCAGCAGGAGTTCTCTCAAGCAGGCCGCCGAACTGATCGAGGAACAGGTGGTGATGGCTGATACGCTCGACGCCCCCTGGTCGGCGTTTTACCAGCAGGTCAGCGGCCTGATGGAACAGACCTATCGGCTGAACGAAGTGACACTGGGCTTTCTCGGTGTCCAGTTGCAGCACCGCCTGGAGCAGAACCGCAGCCACATGGTGCTGCAAGCGGTGGCACTGGCGGTGGTGTTCCTGTTGATTTTTTACCTGTACGCCGGTTTTTATGCCTCGACTCGCACCACGCTCAAGCATTTGGGCGCAATGATGGACAAGGTTGCGGCCGGCGACATGACGGTCAATTTCGTGGCGCGCAGCAAGGATGAGTTGGGGGAGCTGGGTGAAGTGTTCAACGGCACCGTGGCGAAAATCCATGACCTGATCGAGCAGGTCGGTCGCACGGTTGCCGAGGTCGAGCGCCAGGCCGGTCAGGTGCAAGCCGTGTCTGCCCAGAGCAACCAGGCCGTGGCCGGGCAGCGCAGCCAGATCGAGCTGGTCGCCACGGCGATGAACCAGATGTCGGCCACCGCCCAGGAAGTCGCCAGCAGTGCCGCCGCGGCGGTCAGCAGCGCCCATAGCGTGAACGATGAAACCCTCAGCGGGCGCGGCCTGGTTGAGTCACAGCAAAGCAGCATCGCCCGGCTGGCCAGTGAAATCGATCAGTCGGTGCAAGTGATCAATCAACTGGCCACCGACAGCCAGGCCATCAGCCGTGTACTGGACGTGATCAAGAGCATCGCCGAGCAGACCAACCTGCTGGCGCTCAATGCCGCGATCGAAGCGGCCCGGGCCGGCGAGCAGGGGCGTGGGTTCGCGGTGGTGGCCGATGAGGTCCGTACCCTCGCCAAGCGAACCCAGCAATCGACCGAGGAAATCGAAGCGATGATCAGCCGGCTGCACAGCGGCGTGGGCGCCGCCGTCAAGGCCATGGGCAGCAGTCATGAGATGGCCAGCGGCACCGTCGGCCAATCGGAAAGGGTTCAGCAGGCCCTGGAAAATATCCTCGGCGCCGTTGGCATGATCGTCGACCAGAACCAGCAGATCGCCGCTGCCGCAGAGCAACAGACGGCGGTAGCCCATGACATCGACCAGAACATCGTCGAGATCAACCGCGCCGGCGAGCGCACCGCCGAGGGCGCGCACCAGACCGAAGACGCCAGCCGCGAGCTGTCCGCGCAGGTGGTGCAGCTCAAGCAATTAATCAATGCGTTTCGGGTTTGA	MKSLLWPAVALMNRLSFGMKFSLISVLFLLPMLVTNFFLVRDSYREFQGTQVELQSLDLLGSSLTLRRDLETLNNLVQINASLGQSGKAGDVESRISTLEQQILARLQGMQAMAAEPEHVSAFDAKRDEMIAAFKAQQAESSLQSKSALIGRLLNNAQIFGQVIASQAGLSRDNQGDIRQLSDLMVGVTPKVTQILGEGRALGASSLGLGFLNSASSTRFDELLVQVEKLQGEYDLKLQDALGSSKAAGQALAEQAGASRSSLKQAAELIEEQVVMADTLDAPWSAFYQQVSGLMEQTYRLNEVTLGFLGVQLQHRLEQNRSHMVLQAVALAVVFLLIFYLYAGFYASTRTTLKHLGAMMDKVAAGDMTVNFVARSKDELGELGEVFNGTVAKIHDLIEQVGRTVAEVERQAGQVQAVSAQSNQAVAGQRSQIELVATAMNQMSATAQEVASSAAAAVSSAHSVNDETLSGRGLVESQQSSIARLASEIDQSVQVINQLATDSQAISRVLDVIKSIAEQTNLLALNAAIEAARAGEQGRGFAVVADEVRTLAKRTQQSTEEIEAMISRLHSGVGAAVKAMGSSHEMASGTVGQSERVQQALENILGAVGMIVDQNQQIAAAAEQQTAVAHDIDQNIVEINRAGERTAEGAHQTEDASRELSAQVVQLKQLINAFRV	PGPT0015710_5488	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
D1-35_01210	777	yjjV	COG0084	putative metal-dependent hydrolase YjjV	ATGGAGCTGATCGACACCCACACCCACCTGGACTTCCCGGATTTCGACGCGGATCGCTCGGCGCTGCTTGCCGAAAGCCGCGCCCTGGGCGTTCGGCAAATGGTCTTGCTGGGGGTATCTCGGGACAACTGGCAACGGGTCTGGGACCTCGTGCAAAGCGACCCCGACCTGCATGCCGCGCTGGGCCTGCACCCGGTGTACCTCGATCAGCATCGTGGCGAAGATCTTGAGCATTTACGTGACTGGCTGGCCCGCCTGGCCGGGCATCGGCAGTTGTGTGCGGTGGGGGAAATCGGCCTGGACTATTACATCGAGACCCTGGACCGTGATCGCCAGCAGGCATTGTTCGAGGCACAACTGGGCCTGGCCGTGGAGTTCGAACTGCCGGCACTGATCCATGTGCGCCGCAGCCACGCCGCGGTGATCGCGACCCTGAAGCGTATCCGCCCCACCCGCACCGGCATCATCCACGCCTTCGCCGGCAGCTTCGAAGAGGCCCGCGAATACATCAGGCTCGGTTACAAGCTCGGCCTCGGCGGCGCTGCGACATGGCCGCAGGCTTTGCGCATGCACCGGGTGCTGCCAAAACTGCCGCTGGACGCGGTGGTGCTGGAGACCGATTCACCGGACATGGCCCCGGCGATGTTCCCCGGCCAGCGCAACAGCCCGGCGCATTTGCCGGCGATTTGCGCGGCGTTAGCGCAGATCATCGGGATCAGCCCGGAGCGACTGGCCGAGGCCAGCACGGCCAACGCCCGCCAACTGTTCAATTGGTGA	MELIDTHTHLDFPDFDADRSALLAESRALGVRQMVLLGVSRDNWQRVWDLVQSDPDLHAALGLHPVYLDQHRGEDLEHLRDWLARLAGHRQLCAVGEIGLDYYIETLDRDRQQALFEAQLGLAVEFELPALIHVRRSHAAVIATLKRIRPTRTGIIHAFAGSFEEAREYIRLGYKLGLGGAATWPQALRMHRVLPKLPLDAVVLETDSPDMAPAMFPGQRNSPAHLPAICAALAQIIGISPERLAEASTANARQLFNW				NA	NA	NA	NA	NA
D1-35_01211	1032	cra	COG1609	Catabolite repressor/activator	ATGTCGCGGCACACTCGAAAAACAAGGAAAACCGGGTTGAAACTCAGTGATATCGCCCAGCTTGCCGGTGTGTCCGTCACCACCGCCAGCTACGTCATCAACGGCAAGGCCGAACAGCAACGCATCAGCAACGCGACCGTCGAACGGGTGCGGGCGGTGGTCGAAGAACATGGCTTCACGCCTAACCCCCAGGCCGCCGGGCTGCGCAGCCGGCACACGCGGACGTTGGGTTTCATCCTGCCGGACCTGGAAAACCCCAGCTATGCCCGTATTGCCAAACTCCTGGAACAAGGCGCCCGCGCCCGGGGCTATCAACTGTTGATAGCCAGTTCCGACGACGCGCCTGACAGCGAGCGGCAATTGCTGCAACTGTTCCGCGCCCGGCGCTGCGATGCGCTGATCGTCGCCAGTTGCCTGCCGGCCGAGGATGACAGTTACCGTCAGCTCCAGGCCAAGGGTATTCCGATCATCGCCATCGACCGGGTGATGGAACCGGCGCACTTCTGCTCGGTGATCAGCGATGACCGCCAGGCCAGCCTGCAACTGACCCGTAGCCTGCTGGGCACCCACCCGCGGCAGATCGCGCTGATCAGTGCCCGTCCCGAACTGAGCATCAGCCAGGAGCGGGCGGCGGGGTTTCGCGAGGCGCTGGCCGGGTTCGACGGCCAGGTGTTGATCGAACACGGCGAGTCGTTCAGCCGTGAATGCGGTCGCCAACTGATGGACGAGATGCTCGCGCGCCTGGGGCATTTGCCCGATGCGCTGATCACCACGTCCTATGTACTGCTGCAAGGTGTGTTCGACGCCCTGCATGATTTTCCGCTCAAGTCGCGGCCGCTGCGCCTGGGCACGTTTGGTGACACGCAACTGCTGGATTTCCTGCCGCTGCCGGTCAATGCCATGTCCCAACAGCATCAACTGATCGCCGCCAAGGCGCTGGAACTGGCGCTGGCAGCCATCGAGAACGATGACTACCAGCCTGGTGTCCAGGCGATTGCCCGCACGTTCAAACAGCGTATCCACCAAGGCTGA	MSRHTRKTRKTGLKLSDIAQLAGVSVTTASYVINGKAEQQRISNATVERVRAVVEEHGFTPNPQAAGLRSRHTRTLGFILPDLENPSYARIAKLLEQGARARGYQLLIASSDDAPDSERQLLQLFRARRCDALIVASCLPAEDDSYRQLQAKGIPIIAIDRVMEPAHFCSVISDDRQASLQLTRSLLGTHPRQIALISARPELSISQERAAGFREALAGFDGQVLIEHGESFSRECGRQLMDEMLARLGHLPDALITTSYVLLQGVFDALHDFPLKSRPLRLGTFGDTQLLDFLPLPVNAMSQQHQLIAAKALELALAAIENDDYQPGVQAIARTFKQRIHQG	PGPT0017585_564	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017585-fruR1-K03435	NA	NA
D1-35_01212	2865			hypothetical protein	ATGCTCGAGCTCACTCTAGAGCAGATATCCATGGCCCAGGTGGCTGTGGATAAAGACGCCGCGCTGCAATTGCTCGCCGACAAACTGGTGGCCGATGGCCTGGTCGCCGAAGGTTACCTCGCCGGTTTACAGGCCCGCGAGGCCCAGGGCTCGACATTTCTTGGCCAAGGTATTGCCATTCCCCACGGTACCCCGCAGACCCGCGACCTGGTGTATGCCACCGGCGTGCGCCTGCTGCAATTCCCGGACGGCGTGGATTGGGGCGATGGCCAGATCGTCTACCTGGCGATTGGCATCGCGGCCAAATCCGACGAGCACCTGCGCCTGTTGCAACTGCTGACCCGCGCCCTCGGCGAGACGGACCTGGGTCAGGCCCTGCGCCGCGCCGGGTCTGCCGAGGCGCTGTTGAAACTGCTGCAAGGCGCGCCGCAGGAACTGGCGCTGGATGCGCAGATGATCGGCCTCGGCGTGTCGGCCGACGATTTCGAAGAACTGGTGTGGCGCGGCGCTCGTCTGTTGCGCCAGGCCGACTGCGTGAGCAACGGCTTCGCCGGTGTGTTGCAGCAGGTCGAGGCGCTGCCGTTGGGCGACGGCCTGTGGTGGCTGCACAGTGAACAGACTGTCAAGCGCCCTGGCCTGGCTTTCGTCACGCCGGACAAGCCCATCCGTTACCTCGGCCAGCCCCTGAGCGGACTGTTCTGCCTGGCCAGCCTCGGCGAGGCCCATCAGGCCTTGCTGGAAAGACTCTGCGCGCTGCTGATCGAAGGTCGCGGCCACGAACTGGGCCGCGCCACCAGCAGTCGCAAGGTCCTCGAAGTGCTGGGCGGCGAGCTGCCCGCCGACTGGCCCAGCGCCCGTATCGGCCTGGCCAATGCCCACGGCCTGCATGCACGTCCGGCGAAAATCCTCGCGCAATTGGCGAAAAACTTCGAAGGCGAGATCCGCGTGCGCATCGTCGACGGCCAGGACAGCGCCGTGTCGGCCAAGAGCCTGAGCAAACTGTTGAGCCTGGGCGCCCGTCGCGGCCAGGTCCTGGAGTTCATCGCCGAGCCGAGCATTGCCGCCGATGCGCTGCCGGCCTTGCTGGCCGCCGTCGAAGAGGGGCTCGGCGAAGAGGTCGAACCGCTGCCGCCACCGAGCGCGCCACGGGAAACCACCATCGCCGAAGTCGCCAGCGTGATGCTGGCGCCCGAATCCGGCAGCCTGCTCCAGGCGGTCGCCGCCGCACCGGGCATCGCCATCGGCCCGGCGCATATTCAAGTGCTGCAAGACATCGACTATCCGTTGCGCGGCGAGTCACCGGCCATCGAGCGCGAGCGCCTGCAAAAAGCCCTGAGCCAGGTGCGCCGCGACATCGAAGGCTTGATCGAGCGCGCGAAGGCCAAGGCCATCCGCGAGATTTTCATCACTCACCAGGAAATGCTCGACGATCCGGAGCTGACCGACGAGGTCGACACCCGCTTGAAGCTGGGCGAGAGCGCGCAAGCGGCGTGGATGGGCGTGATCGAAGCCGCCGCGAAAGAACAGGAAGCCCTGCAGGATGCCTTGCTTGCCGAACGTGCCGCCGACTTGCGGGACGTCGGCCGGCGGGTGCTGGCGCAGCTGTGTGGCGTGGAAACGCCGGCAGAGCCGGATCAACCGTACATTCTGGTGATGGACGAAGTCGGCCCCTCCGACGTCGCCCGCCTGGATCCGGCTCGGGTGGCGGGGATCCTGACCGCCCGGGGCGGCGCCACCGCCCACAGCGCGATTGTTGCCCGTGCCCTGGGCATTCCCGCCCTGGTCGGTGCGGGGGCAGCGGTATTGCTGCTGGCGCCGGGCACCTCCTTGCTGCTGGACGGCCAGCGCGGTCGGCTGCATGTCGACCCGGACGCCGCCACGCTGCAACGCGCCGCCGAAGAACGCGACACCCGCGAGCAGCGCCTCAAGGCCGCCGCCGAGCAGCGTCACCAACCGGCGCAGACCCGCGACGGTCACGCCGTGGAAGTGTTCGCCAACATCGGCGAAAGCGCCGGCGTCACCAGCGCGGTGGAGCAGGGCGCGGAAGGCATCGGCCTGCTGCGCACCGAATTGATTTTCATGGCTCACAACGAGGCCCCGGACGAAGCGACCCAGGAAGCCGAATACCGCAAGGTGCTCGATGGCCTGGCCGGTCGGCCGCTGGTGGTGCGCACCCTTGATGTGGGCGGCGACAAACCGCTGCCGTACTGGCCGATCGCGAAGGAAGAAAACCCCTTCCTCGGGGTGCGCGGCATCCGCCTGACCTTGCAGCGTCCGCAGGTGATGGAAGCGCAGTTGCGCGCCTTGTTGCGCTCGGCGGACAACCGTCCGCTGCGGATCATGTTCCCCATGGTTGGCAGCGTCGACGAGTGGCGCCAGGCCCGCGACATGACCGAGCGCCTGCGCCGGGAAATCCCGGTGGCGGACCTGCAACTGGGGATCATGATCGAAGTGCCGTCCGCCGCGCTGCTGGCGCCGGTGCTCGCCAAGGAGGTCGACTTCTTCAGCGTCGGCACCAATGACCTGACCCAATACACCCTGGCGATCGACCGGGGCCACCCGACTCTGTCGGCCCAGGCCGACGGCCTGCATCCAGCGGTATTGCAGCTGATCGACATCACCGTGCGCGCGGCCCATGCCCATGGCAAATGGGTCGGCGTGTGCGGCGAGCTGGCGGCTGATCCGCTGGCGGTGCCGGTGCTGGTGGGCCTGGGTGTCGACGAATTGAGCGTTTCGGCCCGCAGCATTGCCGAGGTCAAGGCGCGGGTTCGCGAATTGAGCCTGGCGCAAGTACAAACCCTGGCCCAAGAGGCCTTGGCCGTGGGCAGCGCCGACGACGTGCGCGCATTAGTGGAGGCGCTGTAA	MLELTLEQISMAQVAVDKDAALQLLADKLVADGLVAEGYLAGLQAREAQGSTFLGQGIAIPHGTPQTRDLVYATGVRLLQFPDGVDWGDGQIVYLAIGIAAKSDEHLRLLQLLTRALGETDLGQALRRAGSAEALLKLLQGAPQELALDAQMIGLGVSADDFEELVWRGARLLRQADCVSNGFAGVLQQVEALPLGDGLWWLHSEQTVKRPGLAFVTPDKPIRYLGQPLSGLFCLASLGEAHQALLERLCALLIEGRGHELGRATSSRKVLEVLGGELPADWPSARIGLANAHGLHARPAKILAQLAKNFEGEIRVRIVDGQDSAVSAKSLSKLLSLGARRGQVLEFIAEPSIAADALPALLAAVEEGLGEEVEPLPPPSAPRETTIAEVASVMLAPESGSLLQAVAAAPGIAIGPAHIQVLQDIDYPLRGESPAIERERLQKALSQVRRDIEGLIERAKAKAIREIFITHQEMLDDPELTDEVDTRLKLGESAQAAWMGVIEAAAKEQEALQDALLAERAADLRDVGRRVLAQLCGVETPAEPDQPYILVMDEVGPSDVARLDPARVAGILTARGGATAHSAIVARALGIPALVGAGAAVLLLAPGTSLLLDGQRGRLHVDPDAATLQRAAEERDTREQRLKAAAEQRHQPAQTRDGHAVEVFANIGESAGVTSAVEQGAEGIGLLRTELIFMAHNEAPDEATQEAEYRKVLDGLAGRPLVVRTLDVGGDKPLPYWPIAKEENPFLGVRGIRLTLQRPQVMEAQLRALLRSADNRPLRIMFPMVGSVDEWRQARDMTERLRREIPVADLQLGIMIEVPSAALLAPVLAKEVDFFSVGTNDLTQYTLAIDRGHPTLSAQADGLHPAVLQLIDITVRAAHAHGKWVGVCGELAADPLAVPVLVGLGVDELSVSARSIAEVKARVRELSLAQVQTLAQEALAVGSADDVRALVEAL				NA	NA	NA	NA	NA
D1-35_01213	942	lacC	COG1105	Tagatose-6-phosphate kinase	ATGGCGAAGATTCTTACCCTGACCCTCAACCCGGCGCTCGACCTCACGGTGGAGTTGGCGCGCCTGGAACCGGGCCAGGTCAACCGCAGCGATGCCATGCACGCCCACGCCGCCGGTAAAGGCGTGAACGTCGCCCAGGTGTTGGCCGATCTCGGCCATACGCTGACGGTCAGTGGATTTCTCGGCGAGGACAACGCCCAGGTGTTCGAGACGTTGTTCGCCCAGCGTGGCTTCGTCGACGCATTCATCCGCGTTCCGGGCGAAACCCGCAGCAACATCAAGCTGGCCGAGCAGGACGGCCGCATCACCGATCTCAACGGCCCGGGCCCAATGGTCGACGAAGCCGCTCAGCAGGCGTTGCTGGCGCGCCTTGAGCAAATCGCCCCAGGCCATGATGTGGTGGTCGTGGCGGGCAGCTTGCCCCGTGGCGTCAGTGCGCAATGGCTGCAGGCGCTGATCACGCGCCTGAAACAACTTGGCCTGAACGTGGCCCTCGACACCAGCGGCGAAGCCTTGCGCGTCGCCCTGGCGGCGGGGCCGTGGCTGATCAAGCCGAACACCGAGGAGCTGGCCGATGCGCTGGGCTGCGCCGTGGTCAGCGAATTGGCCCAGGCGCAAGCGGCGCAGCGCCTGCATGCCGAGGGTATCGAGCACGTGGTGATTTCCCATGGCGCCGACGGCGTGAACTGGTTCAGCGTCGGTTCGGCGCTGCATGCTTCGCCGCCCAAGGTGACGGTTGCGAGTACCGTGGGTGCCGGTGATTCGCTGCTGGCCGGCATGCTGCACGGCTTGCTCGGTGGGCACACGCCGGAGCAGACCCTGCGCAGCGCCACGGCCATCGCCGCCATGGCGGTCACGCAGATCGGTTTTGGCATCCACGACACCGCGTTGCTGGCGTCGCTTGAACAGGGCGTGCGCGTGCGCCCCCTGACAGAACAATAA	MAKILTLTLNPALDLTVELARLEPGQVNRSDAMHAHAAGKGVNVAQVLADLGHTLTVSGFLGEDNAQVFETLFAQRGFVDAFIRVPGETRSNIKLAEQDGRITDLNGPGPMVDEAAQQALLARLEQIAPGHDVVVVAGSLPRGVSAQWLQALITRLKQLGLNVALDTSGEALRVALAAGPWLIKPNTEELADALGCAVVSELAQAQAAQRLHAEGIEHVVISHGADGVNWFSVGSALHASPPKVTVASTVGAGDSLLAGMLHGLLGGHTPEQTLRSATAIAAMAVTQIGFGIHDTALLASLEQGVRVRPLTEQ	PGPT0017580_938	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
D1-35_01214	1746	fruA	COG1299	PTS system fructose-specific EIIB'BC component	ATGAAATTAGCCATTGTGACGGCCTGCCCGAACGGCATGGTCACCAGTGTGTTGTGCGCCCGTCTGCTGGACGCGGCGGCCCAGCGCCAGGGCTGGAGCACCAGCGTCGAAGTGCATGACCCGGCGCACCCCGAGCGCCAGTTGTCGGCCGCCACGCTTGAGGCGGCCGAGTGGGTGCTACTGGTTGCCAGCGGCCCGGTGGACCTGTCGCGATTTGTCGGCAAGCGGGTATTTCGCAGCACCCCGGCCCAGGCCCTGCAAGACGTTGATACGGTGCTGCGGCGTGGCGCCGAAGAAGCCGAGGTAATGGCCGAGGCCGACGTGCTCGCCGAAGCACCACAGGCCTCCACCGAGCGCGCCCCGCGCCTGGTGGCCATCACCGCGTGCCCGACCGGCGTTGCCCACACCTTCATGGCCGCCGAAGCCTTGCAGCAGGCAGCGGCGCGCTTGGGCTACGACTTGCAGATCGAAACCCAGGGCTCGGTGGGCGCGCGTAATCCGCTGAGTCCCGAAGCGATTGCCGAGGCCGACGTGGTGCTGCTGGCGACGGACATTGAAGTCGCCACCGAGCGTTTCGCCGGCAAGAAAATCTACCGCTGCGGCACCGGCATCGCGTTGAAGCAGGCCGAAGCCACGCTGAACAAGGCTTTGGCCGAAGGTCGGCAGGAAAGCGCTGCCAGCGACACTTCCGGCGGTCCGGCGAAAGCGGAAAAAAGCGGCGTCTACAAACACTTGCTGACCGGTGTTTCGTTCATGCTGCCGATGGTGGTGGCGGGTGGCTTGATGATTGCCTTGTCGTTCGTGTTCGGCATCGAGGCCTTCAAGGAGCCTGGCACCCTGGCGGCGGCACTGATGCAGATCGGCGGCGATACCGCATTCAAATTGATGGTGCCGCTGCTGGCGGGCTACATCGCCTATTCCATCGCCGACCGGCCGGGCCTGGCGCCAGGCATGATCGGCGGGATGCTGGCGAGCACCTTGGGCGCCGGGTTCATCGGCGGGATCATTGCCGGCTTCCTGGCCGGCTATGCCGCCAAGGCGATCAACCGCTACGCGCGGCTGCCCCAGAGCCTGGAAGCGCTCAAGCCGATCCTGATCATTCCGCTGTTGGCGAGCCTGTTCACCGGCCTGGTGATGATCTACATCGTCGGCAAACCAGTGGCGGGCATGCTCGAAGGCCTGACGCATTTCCTCGACAGCATGGGCACCACCAATGCGCTGCTGCTGGGCGTGCTGCTGGGGGCGATGATGTGCGTCGACCTCGGTGGGCCGATCAACAAGGCCGCCTATGCGTTTTCGGTGGGGCTGCTGGCTTCGCAGAGTTATGCACCCATGGCCGCGACCATGGCCGCCGGCATGGTCCCGCCGATTGGCCTGGGCATCGCTACGTTCATCGCCCGGCGCAAATTCGCCAAGACCGAGCGCGAGGCCGGTAAAGCGGCATTGGTGCTGGGGCTGTGCTTCATTTCCGAAGGCGCGATTCCGTTCGCGGCCAAGGATCCGCTGCGGGTGATCCCGTCAAGTGTTGCCGGTGGTGCGCTGACCGGTGCGCTGTCGATGTATTTCGGCTGCAAACTCATGGCGCCTCACGGCGGCCTGTTCGTGATGCTGATCCCCAACGCCATCAATCATGCGTTGCTGTACCTGCTGGCAATCGTCGCGGGCAGCCTGCTGACGGCGGTGACCTATGCGCTGCTCAAGCGGCCGGAGGCGGTAGAGATGGCGCTGGAGCCGGCTAAGGCCTGA	MKLAIVTACPNGMVTSVLCARLLDAAAQRQGWSTSVEVHDPAHPERQLSAATLEAAEWVLLVASGPVDLSRFVGKRVFRSTPAQALQDVDTVLRRGAEEAEVMAEADVLAEAPQASTERAPRLVAITACPTGVAHTFMAAEALQQAAARLGYDLQIETQGSVGARNPLSPEAIAEADVVLLATDIEVATERFAGKKIYRCGTGIALKQAEATLNKALAEGRQESAASDTSGGPAKAEKSGVYKHLLTGVSFMLPMVVAGGLMIALSFVFGIEAFKEPGTLAAALMQIGGDTAFKLMVPLLAGYIAYSIADRPGLAPGMIGGMLASTLGAGFIGGIIAGFLAGYAAKAINRYARLPQSLEALKPILIIPLLASLFTGLVMIYIVGKPVAGMLEGLTHFLDSMGTTNALLLGVLLGAMMCVDLGGPINKAAYAFSVGLLASQSYAPMAATMAAGMVPPIGLGIATFIARRKFAKTEREAGKAALVLGLCFISEGAIPFAAKDPLRVIPSSVAGGALTGALSMYFGCKLMAPHGGLFVMLIPNAINHALLYLLAIVAGSLLTAVTYALLKRPEAVEMALEPAKA	PGPT0017120_1653	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
D1-35_01215	1542	phoD	COG3540	Alkaline phosphatase D	ATGAGCGAATTCGACCTGGGCCGTCGCCGTGTAATGCAAGCCGTTGGTGCCGGTTTGTTACTGCCGGGGCTGGCGCCGGCGGTGATTGCTTCGGTCAAGGATCGGCCGGTGCTGACCGAAGGCGTGCAATCGGGCGACTTGCAGGGCGACCGGGCGATGATCTGGAGTCGCAGCGACCGCCCGGCGCGAATGGTGGTGGAGTGGGACACCCGCAGTCAGTTCTCCAACCCTCGGCGCTTTGTCTCGGCGCTGGCCGACAGCCGCAGCGATTTCACCGCCCGGGTCGAACTCACCGGCCTGCCGCCCGACCAGGCGATTTTCTACCGCGTGCATTTCGAAGACGCCCGCAGCGGTGTCGCCAGCGAGCCCTGGCTCGGCCATTTGCGCAGCGTGCCGCAGTTCAAGCGCAACATCCGGTTTGTCTGGAGCGGCGACACCGTAGGCCAGGGCTTCGGCATCAACCCGGACATTGGTGGCATGCGCATCTACGAAGCCATGCGCCTGCGCCTGCCGGACTTTTTTATCCACAGCGGCGACACCATCTACGCCGACGGCCCGGTGCCGGCGCAGGTCACCACCGAGGGCGGCCGCATCTGGCGCAACCTGACCACCGAAGCCAAGAGCAAGGTTGCCGAGACCATGGACGAATATCGCGGCAACTACCGCTACAACCTGATGGATGAAAATGTCCGTCGTTTCAACGCCGAGGTGCCGCAGATCTGGCAATGGGACGACCACGAGGTGGTCAACAACTGGTCGCCGGGCAAGCAACTGGACGAGCGCTACCAGACCAAGGATATCCACAGCCTGGTAGGCCGTGCGCGACAGGCCTGGCTGGAATATGCGCCGATGCGCCTGCAGAAGGCCGACCATGGTGGACGGATCTATCGCAAGCTCGGCTACGGGCCGATGCTCGATGTGTTCGTGCTGGACATGCGCAGCTACCGCGAAGCCAATGACGCCAACCTCGGCGCGGCGAAACCGTTCCTGGGGCGTGAGCAACTGAACTGGCTCAAGCGCGAGCTGAAGCAATCCCGGGCGCAGTGGAAAGTCATTGCCGCCGACATGCCCATTGGCCTCGGCGTACCCGACGGCGAAGTCAGTCCCGGTGTGCCGCGCTGGGAAGCGGTCGCCAACGGTGACCCGGGCGAGGCTCAGGGGCGTGAAGTGGAAATTGCCGAACTGCTCGGTTATCTGCGCAAGCATCAGGTGCGCAACTACGTCTGGCTGACTGCCGATGTGCACTATTGCGCCGCCCACCATTACCATCCTGAACAGGCCGCGTTCCAGGATTTCGAACCGTTCTGGGAGTTTGTCGCCGGGCCGCTGAACGCCGGCAGCTTCGGGCCCAATACCCTGGACAAGACCTTCGGTCCGGAAGTGGTATTCCAGAAAGCGCCCCCCGTGCAGAACACTTCGCCGTTTGCCGGGTATCAATTCTTTGGCGAGGTGAACATCGACGGACAGAGCGGCGAGATGAGCGTGGTGTTGCGCGATCTTGAAGGGGTGGCGGTGTTCGAGAAGAAGTTGCAGCCGGTTTGA	MSEFDLGRRRVMQAVGAGLLLPGLAPAVIASVKDRPVLTEGVQSGDLQGDRAMIWSRSDRPARMVVEWDTRSQFSNPRRFVSALADSRSDFTARVELTGLPPDQAIFYRVHFEDARSGVASEPWLGHLRSVPQFKRNIRFVWSGDTVGQGFGINPDIGGMRIYEAMRLRLPDFFIHSGDTIYADGPVPAQVTTEGGRIWRNLTTEAKSKVAETMDEYRGNYRYNLMDENVRRFNAEVPQIWQWDDHEVVNNWSPGKQLDERYQTKDIHSLVGRARQAWLEYAPMRLQKADHGGRIYRKLGYGPMLDVFVLDMRSYREANDANLGAAKPFLGREQLNWLKRELKQSRAQWKVIAADMPIGLGVPDGEVSPGVPRWEAVANGDPGEAQGREVEIAELLGYLRKHQVRNYVWLTADVHYCAAHHYHPEQAAFQDFEPFWEFVAGPLNAGSFGPNTLDKTFGPEVVFQKAPPVQNTSPFAGYQFFGEVNIDGQSGEMSVVLRDLEGVAVFEKKLQPV	PGPT0002575_2101	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0002575-phoD-K01113	NA	NA
D1-35_01216	2544			hypothetical protein	ATGAACAAGGCGGGCGACGTGTTGAAGAAAACCCTGTTCCAGTTGCACTGGTTTTTCGGCATCAGTGCCGGGCTGGTCCTGGCATTGATGGGCGTTACCGGTGCGGTGGTGTCTTTCCAGGACGAGATCCTGCGGGCATTGAACCCCGAGGTGCTGACGGTTGAAAAACAACCGGCCGGCGTCCTGCCTCCCGCCGAACTGGTGGAACAGATCGAAGCCGCCTCCGGCAAGACCGTCGCCATGCTCTGGGTCGAGACCGACAGTGGCAACGCCGCGCGGGCGATCTTCACCGCCCCGCCGGGAGAGAAACGCGGGCCGATGCGTTACTTCAATCCTTACAACGCGCAGTTTCTCGGCGATGTGGTGGGCCAGGATTTCTTCGGCCTGATGCTCAGGCTGCACCGCGTCCTGACCCTGGACGACGTGGGCCGGCAGATTACCGGCGCCTGCACGCTGATCCTGGTGTTCTTCTGCTTGTCCGGCCTCTACCTGCGCTGGCCACGCCAGTGGAAAAACTGGCGCGCCTGGCTGACCCTCGACTGGGCGAAAAAGGGCCGCAGCTTCAATTGGGACCTGCACTCCGTCGCGGGCACCTGGTGCCTGCTGTTCTATCTGTTGGCCGCCCTGACCGGGTTGACCTGGTCCTATGAGTGGTACAACAAAGGCCTGACCCGCCTGCTTTCCGATTCGCCCAAGGATGAGCGCGTGCGCACCCGTGGCCCGGCACCGAGCGGCCCGGCGCCGATCGCCGATTACCGGGCCATGTGGAGCAGCATCTACAGCGCCGCCGGCCCCGGCCTGTCCGCCTACAACGTGCGCATGCCACCGGTGGCCGGGCAACCGGCGACGGTGTTCTACCTACTCAAGGACGCCCCCCATGACCGCGCCCTGAACCAACTCATGCTCGACCCGAGCACCGGCGTCATCAGCCGTCACAGCCGCTACACCGACAAGAGCCTCAAGGCGCAATTGCTCACCAGCATCTATGCCCTGCATGTCGGCAGTTACTTCGGCCTGGTCGGGCGGATCCTGGTGACCGCCGCCGCATTGGCGATGCCGCTGTTTTTCATCACCGGCTGGCTGCTCTACCTGGACCGCCGACGCAAAAAACGTCAGGTCCGCCAGGCTCGCCAGGCGCTTGCCGGCAACCCTGGCGATGCCCCGGCGTGGCTGATCGGCTTTGCCAGCCAGAGCGGTTTTGCCGAGCAACTGGCCTGGCAGACCGCCGGCCAGCTCCAGGCCGCCGGGCTACCGGTGAAGGTCCAGCCGTTGGCCGGCGTCAGCGAAAAGGATTTGAACAGCGCCACCCGCGCCTTGTTTGTCGTCAGCACCTTTGGCGACGGTGAAGGACCGGACAGCGCTCGCGGTTTCGAGCGCAAGGTGCTCGGCCGGGCGATGAGCCTGGAAAGCCTGCAATACTCGGTCCTCGGCCTCGGTGACCGGCAATATGACAATTTCTGCGGTTTCGCCCGCCGTCTGCACGCCTGGCTCGCGGAGCACGGCGGCAAGACGCTGTTCGCACCGGTGGAAGTGGATAGCGGCGACCCGTACGCCTTGCGGCACTGGCAACAGCAATTGGCCGAGCTGACCGGCCAGCCTCCGGCGGATGCGTGGCAAGCGCCGAGTTTTGAACACTGGACCTTGAGCCAACGCACCCTGCTCAACCCCGACAGCAGCGGTTCGGGCGTGTACCTGCTCGGCCTCGGCGCCCCCGGCCCGAGCAGCTGGCTGGCCGGTGACCTGGTGGAAATCCTGCCGCGCAATGACCCGTGGGCTATCGAACACTTCCTCGATGGCCTGGGTATCGCCGGTATCGCTCGGGTGCAGGTCGATGGCTTGCAGCAGACGCTCGAACAAGCCCTCGCCACGCGTCAACTGCCGGAAAACCGCGCACACCTGGTGGGTCTGCACGCCCAGGCGCTGGTGGAGGCGTTGGCACCGCTGGGAATACGTGAATATTCCATCGCCTCGATCCCCGCCGACGGTGTACTGGAACTGATCGTACGCCAGGAACGTCACGCCGATGGCAGCCTGGGCATCGGTTCCGGCTGGCTGACCGAGCATGCGCCGCTGGGCAGCCCCATCAGCCTGCGCGTCCGTCGCAACAGCAGTTTCCATCTGCCGCCCCAGGGCGTGCCGATGATTCTGCTGGGCAACGGCACCGGCCTGGCCGGCTTGCGCAGTTTGCTCAAGGCCCGTGTTGCCCAGGGCATGCAGCGCAACTGGCTGCTGTTTGGCGAGCGCAACCGCGAGCATGATTTCCATTGCCGCGACGAACTGCAGGAATGGGTGACCTCCGGCGACCTGGAACGCCTGGACCTGGCGTTCTCCCGGGATCAGGAAAAGAAAATCTACGTCCAGGACCGCCTGCTGGAATCGGCCGCGTTGCTCAAGCAATGGCTGGCCGACGGCGCGGTGATCTATGTCTGCGGCAGCTTGCAGGGGATGGCGTCAGGCGTGGACCACGTGCTCAATCTGGTGCTGGGCCGCGAGGAAGTGGAAAAGCTGATCGAGCAGGGCCGGTATCGGCGGGATGTTTACTGA	MNKAGDVLKKTLFQLHWFFGISAGLVLALMGVTGAVVSFQDEILRALNPEVLTVEKQPAGVLPPAELVEQIEAASGKTVAMLWVETDSGNAARAIFTAPPGEKRGPMRYFNPYNAQFLGDVVGQDFFGLMLRLHRVLTLDDVGRQITGACTLILVFFCLSGLYLRWPRQWKNWRAWLTLDWAKKGRSFNWDLHSVAGTWCLLFYLLAALTGLTWSYEWYNKGLTRLLSDSPKDERVRTRGPAPSGPAPIADYRAMWSSIYSAAGPGLSAYNVRMPPVAGQPATVFYLLKDAPHDRALNQLMLDPSTGVISRHSRYTDKSLKAQLLTSIYALHVGSYFGLVGRILVTAAALAMPLFFITGWLLYLDRRRKKRQVRQARQALAGNPGDAPAWLIGFASQSGFAEQLAWQTAGQLQAAGLPVKVQPLAGVSEKDLNSATRALFVVSTFGDGEGPDSARGFERKVLGRAMSLESLQYSVLGLGDRQYDNFCGFARRLHAWLAEHGGKTLFAPVEVDSGDPYALRHWQQQLAELTGQPPADAWQAPSFEHWTLSQRTLLNPDSSGSGVYLLGLGAPGPSSWLAGDLVEILPRNDPWAIEHFLDGLGIAGIARVQVDGLQQTLEQALATRQLPENRAHLVGLHAQALVEALAPLGIREYSIASIPADGVLELIVRQERHADGSLGIGSGWLTEHAPLGSPISLRVRRNSSFHLPPQGVPMILLGNGTGLAGLRSLLKARVAQGMQRNWLLFGERNREHDFHCRDELQEWVTSGDLERLDLAFSRDQEKKIYVQDRLLESAALLKQWLADGAVIYVCGSLQGMASGVDHVLNLVLGREEVEKLIEQGRYRRDVY	PGPT0002795_551	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002795-cysJ-K00380	NA	NA
D1-35_01217	2319	bfrD	COG4774	putative TonB-dependent receptor BfrD	ATGTCGCGTCAACAATCACAATTACCGGTTAATTCACCTCGTCTGCTGGCCTCCGCCATCGGCGTCGCCCTCGGTGCGACGTCAATCGCACAGATGGCCCAAGCGGCGGAAAAGATCGACGAAAAAGCCCCGCGCAACGCCATCTCCCTGGACGCTACCAGCATTACGGGCGAGGCCCAGGACACGACGTCCTACCAGGTCGAAAAAGCCTCGTCCTCGAAATACACCGCGCCGCTGGTCGACACGCCGCGCTCGGTGACGGTCATCCCCCAGCAGGTGCTCAAGGACACCGGCGCCCTCAACATGCAGGATGCCCTGCGTACCGTGCCGGGCATCACTTTTGGCGCCGGCGAAGGCGGCAACCCCCAGGGCGACCGTCCATTCATCCGTGGCTTCGATGCCCAGGGCGACACCTACCTGGATAACGTGCGTGATACCGGTTCGCAAAGCCGGGAGATCTTTGCGGTGGAGTCCATCGAGGTCAGCAAGGGCCCGAACTCGGCCATCGGCGGCCGCGGCGCCGCCGGCGGCACCATCAACCTGGTGAGCAAGAAAGCCCACTTGGGCGACTCGTTCGACGGCGGCTTCACCTGGGGTTCGGACCAGACCCAGCGCTACACCCTCGACGGCAATTACCAGTTCAGCGACAGCGCCGCCGGCCGGCTCAACCTGATGAGCCACGAAAGCAATGTCGCCGGTCGTGACCAGGTCAACTACGATCGCTGGGGCGTCGCGCCGTCGCTGGCGTTCGGCCTGGGCACCGACACCCGGATCAACCTCGACTACTACCACCTGGAAAGCAACGATCTGCCGGATTCGGGCATTCCCTACAGCGTTCCCGCCTCGGGCCGCACCGCCGATCGCACCAAAGCCAACCCGGACAAGCCCGATGCCGGCGGCGACAGCAGCAACTTCTATGGCCTCACCGACCGCGACTTCCGCAAGACCCGCGTCGACACCGCGACCATCGCCATCGAGCATGACCTGAGCGATGCACTGACCGTCAAGAACACCCTGCGCCACGGCTCCAGCATGCAGGACTACATTCTCACCCAACCCGACGACAGCAAGGGCAACGTCAACAACGGTACGGTCTGGCGGCGCGTCAACAGCCGCGTCAGCAACGTCGACACCACCACCAACCAGACTGATCTGTTCGGTGATTTTTATGTGGCCGGCTTCAAGAACAGTTTCTCCACCGGCATCGAGCTGAGCCGCGAGACCGGCGAGAAAACTTCGTACAACGTCAACACCGACACCGTACCGGGCACCACCGCCGCGAACACCAACTGCACGCCGGCCCTGGTGGGCGCGCCGAGCGGCTACAACTGCACGTCGCTGTCCAATCCGAACCCGAACGATCCCTGGAACGGCGCGATTTCCCGCAACTATGCCGGCACCGACACCACCAGCGTCACCCGCGCGCTCTACGTGTTCGACACGCTGGAACTGTCACCGCAGTGGCTGGTGAACATGGGCTTGCGCTACGACCACTTCGACACGAAATACAAGACTTACGACGCCGCCGGTACCACCACGTCCAAGGGTGACGACACCAGCGAGTTCGTCACCGGCCAGTTCGGCCTGGTCTGGAAACCAGCCGACAACGGCAGCATCTATGCGTCCTACGCGACCTCGGCCACGCCGCCCGGCAGCATGGTTGGCGAAGGCATCGAGGGCAATCCGCTCGGTGGGACGCCAGACCGCAGTGGCAACCTGCTCGCCAGTGACATGGAGCCGGAAACCACCAAGAACTACGAGATCGGCACCAAGTGGGACTTGCTCGACAGCCGGCTTTCGCTGACCGCGGCGATTTTCCGCACCGAGAAGGAAAACGCCCGGGTGCAGGTCGACACCACGACCTATGAAAACGCCGGCAAGACTCGCGTCGACGGCCTGGAGCTGTCGGCCAGCGGCAAGCTCACCGAGAAATGGCAGGTGTTCGCCGGCTACAGCTATCTGGACAGTGAGCAGGTCGATGGCGGGCCAATGAGCACCAGCGATGGCAACGAGTTGCCGAACACGCCGAAAAACAGCGCCAGCGTCTGGACCACCTACGCACTCACGCCAAAGCTGACCATCGGTGGCGGGGCCTTCTATGTGGATGATGTGTTCGGCAGCGTGGCGAACACCACCATGGTCGACTCTTATGTGCGTTATGACGCCATGGCCAGCTACAAGGTCAGCAAGCACCTGGACCTGCAACTCAACGTGCAGAACCTGACCGACGAGACTTACTACGACAAGGCATTCTCGACCCACTTCGCCAACCAGGCGGCCGGGCGCACGGCGTTGTTGAGTACCAATTTCCACTTCTGA	MSRQQSQLPVNSPRLLASAIGVALGATSIAQMAQAAEKIDEKAPRNAISLDATSITGEAQDTTSYQVEKASSSKYTAPLVDTPRSVTVIPQQVLKDTGALNMQDALRTVPGITFGAGEGGNPQGDRPFIRGFDAQGDTYLDNVRDTGSQSREIFAVESIEVSKGPNSAIGGRGAAGGTINLVSKKAHLGDSFDGGFTWGSDQTQRYTLDGNYQFSDSAAGRLNLMSHESNVAGRDQVNYDRWGVAPSLAFGLGTDTRINLDYYHLESNDLPDSGIPYSVPASGRTADRTKANPDKPDAGGDSSNFYGLTDRDFRKTRVDTATIAIEHDLSDALTVKNTLRHGSSMQDYILTQPDDSKGNVNNGTVWRRVNSRVSNVDTTTNQTDLFGDFYVAGFKNSFSTGIELSRETGEKTSYNVNTDTVPGTTAANTNCTPALVGAPSGYNCTSLSNPNPNDPWNGAISRNYAGTDTTSVTRALYVFDTLELSPQWLVNMGLRYDHFDTKYKTYDAAGTTTSKGDDTSEFVTGQFGLVWKPADNGSIYASYATSATPPGSMVGEGIEGNPLGGTPDRSGNLLASDMEPETTKNYEIGTKWDLLDSRLSLTAAIFRTEKENARVQVDTTTYENAGKTRVDGLELSASGKLTEKWQVFAGYSYLDSEQVDGGPMSTSDGNELPNTPKNSASVWTTYALTPKLTIGGGAFYVDDVFGSVANTTMVDSYVRYDAMASYKVSKHLDLQLNVQNLTDETYYDKAFSTHFANQAAGRTALLSTNFHF	PGPT0003875_389	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-OTHER_IRON_BINDING_PROTEINS,PGPT0003875-fiu|bfrD-K16090	NA	NA
D1-35_01218	681		COG3128	PKHD-type hydroxylase	ATGTTGCTGCACGTTCCCGGTGTATTTTCTCCTGAAGAAGTGCAGCGTATCCGCGAGGCGCTGGAGCAGGCCGAATGGGCAGATGGCAAGGTCACGGCCGGTTATCAATCGGCCAAGGCCAAGCACAACCTGCAACTGCCCGAGGGGCATCCCCTGGCCAAGGAAATCGGCGCGGCTATGCTGGATCGGTTGTGGAAAAACCCCTTGTTCATGTCGGCGGCGCTTCCACACAAAGTCTTCCCGCCGCTGGTGAACTGCTACACCGCCGGCGGCAGTTTCGATTTCCATATCGACAATGCCGTACGCCAGCCCAAGGGCAGTGCCGAGCGGGTGCGCACCGACCTGTCGGCCACGCTGTTCTTCAGCGACCCGGAGGACTACGACGGCGGCGAGCTGGAAATCCAGGACACCTACGGCACCCAACGGGTCAAATTGCCGGCCGGGGACATGGTGTTGTATCCGGGCACCAGCCTGCACAAGGTCAACGCGGTTACCCGTGGTACACGCTATGCCTCGTTCTTCTGGACCCAGAGCCTGGTGCGCGAAGACAGCCAGCGTGCGCTGCTGTTCGAGATGGACGGTGCGATCCGGGAACTGACCCGGGACGTGCCCGAGCATCCGTCGTTGATTCGCCTGACCGGCACCTACCACAACCTGTTGCGTCGCTGGGTCGAGGTGTAG	MLLHVPGVFSPEEVQRIREALEQAEWADGKVTAGYQSAKAKHNLQLPEGHPLAKEIGAAMLDRLWKNPLFMSAALPHKVFPPLVNCYTAGGSFDFHIDNAVRQPKGSAERVRTDLSATLFFSDPEDYDGGELEIQDTYGTQRVKLPAGDMVLYPGTSLHKVNAVTRGTRYASFFWTQSLVREDSQRALLFEMDGAIRELTRDVPEHPSLIRLTGTYHNLLRRWVEV				NA	NA	NA	NA	NA
D1-35_01219	762			hypothetical protein	GTGGCGGATTTTCGTCTGCGCCGCGAGGAAGTGCTCGACGGCGAGGCCCTCAAGGCCATGCTCGAGGACAGCCCGGCGCGGGCGGCCCAGGCGATTCTGATCGCAGCGGGCGAAGGGCTGCTGGAGGCCCAGGCGCTGCTCGGGCAGATCCTGCTCGACGGGCGCGGTATCGAACAGGACAAAACCCTGGCCCGGCGCTGGTTCGAGATCGCCGCCCAACGTGGGCACCTGATGGCGCGCAACATGTTGGGGCGTTGCCATGAGCATGGCTGGGGCTGTGTCGCCGATCCTTCGGTCGCGGCCGGACATTATCGTCAGGCAGCCGAGGCAGGACTGGATTGGGCGATGTACAACCTGGCCAACCTGCTGGCGACTGGGCGCGGCGTTGCTGAGAATCAGCCGCAGGCATTGGTCCTTTATTGGCGCGCGGCCGAGCTGGGGCACGCCAAATCAATGAATCTGTTGGGGCGTTATCTGGAAGAGGGGCGTTTCTGCCCGGCGGACCCGGTGGCGGCGGCCCGGTGGTATCGACGTTCGGCCGAAGGCGGGGATTTTCGGGGGCAGTTCAGCCATGGCTGCGTATTGATTGCCGATGCCCGTATCGAAGAGGGCTTGGTGTGGTTGCGCCGGGCGTTGGCCGGAGGGAATCTGAATTTTCTTCGTGTCGCCGTGCAAACCTTGCAGACGGCGCGGCTGACTGCGTTGTCTCCACTGATCGAGGCCTATCAGGCGCGAATCCAGCAGATGCAAAAAAGCCCGTGA	MADFRLRREEVLDGEALKAMLEDSPARAAQAILIAAGEGLLEAQALLGQILLDGRGIEQDKTLARRWFEIAAQRGHLMARNMLGRCHEHGWGCVADPSVAAGHYRQAAEAGLDWAMYNLANLLATGRGVAENQPQALVLYWRAAELGHAKSMNLLGRYLEEGRFCPADPVAAARWYRRSAEGGDFRGQFSHGCVLIADARIEEGLVWLRRALAGGNLNFLRVAVQTLQTARLTALSPLIEAYQARIQQMQKSP	PGPT0000855_4596	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-ACIDITY|NITROGEN_RELATED_REGULATION,PGPT0000855-exoR-K07126	NA	NA
D1-35_01220	1164	ldc		Lysine/ornithine decarboxylase	ATGTCGATCCAGGTCGAAGATTATTTCGCGCGCGAAACCTTTCAGAAAATGAAGGCGTTCGCCGACAAGCAGGAAACCCCGTTCGTGGTGATCGACACCGCGATGATCGCCAAGGCCTATGACGACCTGCGCGCCGGTTTCGAATTCGCCAAGGTCTACTACGCCGTCAAGGCCAACCCGGCGGTGGAAATCATCGACCTGCTCAAGGATAAAGGCTCGAACTTCGACATCGCCTCGATCTATGAACTGGACAAGGTGATGAGCCGCGGCGTCGGCCCGGACCAGATCAGCTACGGCAACACCATCAAGAAATCCAAGGACATCCGCTACTTCTACGAGAAGGGCGTGCGCCTCTACGCCACTGACTCCGAAGCCGACCTGCGCAACATCGCCAAGGCCGCGCCGGGTTCGAAAGTCTATGTGCGCATCCTCACCGAAGGTTCGACCACGGCTGACTGGCCCCTGTCGCGCAAGTTCGGCTGCCAGACCGACATGGCCATGGACCTGCTGATCCTCGCCCGCGACCTGGGCCTGGTGCCGTACGGCATCTCGTTCCACGTCGGCTCGCAACAGCGCGACATCAGCGTCTGGGACGCGGCCATCGCCAAGGTCAAGGTGATTTTCGAGCGTCTGAAAGAAGAAGACGGCATCGTCTTGAAGCTGATCAACATGGGCGGTGGCTTCCCGGCCAACTACATCACCCGCACCAACAGCCTGGAAACCTACGCCGAGGAAATCATCCGCTTCCTCAAGGAAGACTTCGGCGACGAACTGCCGGAAATCATCCTGGAGCCGGGCCGTTCGTTGATCGCAAACGCCGGCATCCTGGTCAGCGAAGTGGTACTGGTGGCGCGCAAGTCGCGTACCGCCGTCGAGCGTTGGGTGTACACCGACGTGGGCAAATTCTCCGGCCTGATCGAAACCATGGACGAAGCCATCAAGTTCCCGATCTGGACCGAGAAGAAAGGCGAGATGGAAGAAGTGGTCATCGCCGGCCCGACCTGCGACAGCGCTGACATCATGTACGAGAACTACAAATACGGTTTGCCGCTGAACCTGGCGATTGGCGATCGTTTGTACTGGCTGTCGACGGGTGCCTACACCACCAGCTACAGCGCTGTGGAGTTCAATGGCTTTCCGCCGCTGAAGTCGTTCTACGTGTAA	MSIQVEDYFARETFQKMKAFADKQETPFVVIDTAMIAKAYDDLRAGFEFAKVYYAVKANPAVEIIDLLKDKGSNFDIASIYELDKVMSRGVGPDQISYGNTIKKSKDIRYFYEKGVRLYATDSEADLRNIAKAAPGSKVYVRILTEGSTTADWPLSRKFGCQTDMAMDLLILARDLGLVPYGISFHVGSQQRDISVWDAAIAKVKVIFERLKEEDGIVLKLINMGGGFPANYITRTNSLETYAEEIIRFLKEDFGDELPEIILEPGRSLIANAGILVSEVVLVARKSRTAVERWVYTDVGKFSGLIETMDEAIKFPIWTEKKGEMEEVVIAGPTCDSADIMYENYKYGLPLNLAIGDRLYWLSTGAYTTSYSAVEFNGFPPLKSFYV	PGPT0007765_2059	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007765-speC|speF|ODC1-K01581	NA	NA
D1-35_01221	1158	osmV	COG1125	Osmoprotectant import ATP-binding protein OsmV	ATGATCGAACTTCAAAACCTCAGCAAAACCTTCAAGAGCAACGGCAAGGATGTAAAAGCCGTGGACTCGGTGAACCTGACCGTCAACGAAGGCGAGATCTGCGTGTTCCTCGGGCCGTCGGGCTGTGGCAAAAGCACCACGCTGAAGATGATCAACCGCTTGATCCCGCCGACCTCGGGCAAGGTCTTGATCAACGGCGAAGACACCACCGGCCTCGACGAGGTGACCCTGCGCCGCAACATCGGCTACGTGATCCAGCAGATCGGCCTGTTCCCGAACATGACCATCGAGGAGAACATCACCGTGGTGCCGCGCCTGCTCGGCTGGGACAAGCAGAAATGCCACGACCGCGCCCGCGAGTTGATGAGCATGATCAAGCTCGAACCCAAGCAGTACCTGCATCGCTACCCCCGTGAACTGTCGGGCGGCCAGCAGCAGCGGATCGGCGTGATCCGCGCCCTGGCCGCCGATGCGCCGTTGCTGCTGATGGACGAACCTTTCGGCGCGGTCGATCCGATCAACCGCGAGATGATCCAGAACGAGTTCTTCGAGATGCAACGGGCGCTGAACAAAACCGTGATCATGGTCAGCCACGACATCGACGAAGCCATCAAGCTGGGCGACAAGATCGCGATCTTCCGCGCCGGCAAGCTGGTCCAGTGCGATCACCCGGACACGCTCCTCGCCCATCCGGCCGATGAATTCGTCAGCAACTTTGTCGGCCAGGACAGCACCCTCAAGCGCCTGTTGCTGGTCAAGGCCGAAGACGCGGCGGACAACGCCCCGTCGGTCAGCCCCGAAACACCGGTGGCCGAGGCGCTGGAGTTGATGGACGAACACGACCGTCGCTACGTGGTGGTCACCTGCGCCGAGAACAAGGCGCTGGGGTATGTGCGCCGGCGCGACCTGTACCGCCAGACCGGCACCTGCGGGCAGTTCCTGCGGGAATTCAACGCCACCGCGGCCTACGACGAACATCTGCGGATTCTGTTGTCGCGTATGTATGAGTTCAACCGTTCGTGGCTGCCGGTGATGGATGCCGAGCGGGTCTTTCTTGGGGAAGTGACCCAGGAATCGATTGCCGAATACCTGAGCTCCGGCAAGTCCCGTGGCGGCAAGACCAGTATCGTCTCGCCGGCCGAGACCGCGTCTACCTGA	MIELQNLSKTFKSNGKDVKAVDSVNLTVNEGEICVFLGPSGCGKSTTLKMINRLIPPTSGKVLINGEDTTGLDEVTLRRNIGYVIQQIGLFPNMTIEENITVVPRLLGWDKQKCHDRARELMSMIKLEPKQYLHRYPRELSGGQQQRIGVIRALAADAPLLLMDEPFGAVDPINREMIQNEFFEMQRALNKTVIMVSHDIDEAIKLGDKIAIFRAGKLVQCDHPDTLLAHPADEFVSNFVGQDSTLKRLLLVKAEDAADNAPSVSPETPVAEALELMDEHDRRYVVVTCAENKALGYVRRRDLYRQTGTCGQFLREFNATAAYDEHLRILLSRMYEFNRSWLPVMDAERVFLGEVTQESIAEYLSSGKSRGGKTSIVSPAETAST	PGPT0013585_614	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013585-opuA|osmV|yehX-K05847	NA	NA
D1-35_01222	654	osmW	COG1174	Osmoprotectant import permease protein OsmW	ATGGATTTTCTTGACGCCTTTTCCCATCTGGACTGGCCGCTGGTGCTGCACCTGACCTGGCAGCACATCACCCTGGTGGGCATCGCCGTGACCCTGGCGATAATCGTCGGTGTGCCGCTGGGCATTTTCATGACCCGCTTCCCGGCGCTCGCCGGCCCGTTGCAAGCCAGCGCCACGGTACTGTTGACCATTCCGTCGATTGCCCTGTTCGGCCTGCTGCTGCCGTTCTATTCCAAGTTCGGCCAGGGCCTCGGTCCGATGCCAGCGATCACCGCGGTGTTCCTTTATTCGCTGCTGCCGATCATGCGCAACACGTACCTGGCCTTGACCGGCGTCGAACCGGGCATTCGTGAAGCCGCCCGCGGCATCGGCATGACCTTCGGCCAGCGCCTGCGCATGGTCGAACTGCCGATTGCCGTGCCGGTGATCCTCGCCGGCGTACGCACCGCCGTGGTCATGAACATCGGCGTCATGACCATCGCCGCCACCATCGGCGCCGGTGGCCTGGGCGTGCTCATCCTCGCTTCCATCAGCCGCAGCGACATGTCGATGCTGATCGTCGGCGCCGTGCTGGTCAGCCTCCTGGCCCTCTTCGCCGACCTGCTTCTGCAATGGCTGCAACGCTCGCTGACCCCGAAAGGACTATTAAAATGA	MDFLDAFSHLDWPLVLHLTWQHITLVGIAVTLAIIVGVPLGIFMTRFPALAGPLQASATVLLTIPSIALFGLLLPFYSKFGQGLGPMPAITAVFLYSLLPIMRNTYLALTGVEPGIREAARGIGMTFGQRLRMVELPIAVPVILAGVRTAVVMNIGVMTIAATIGAGGLGVLILASISRSDMSMLIVGAVLVSLLALFADLLLQWLQRSLTPKGLLK	PGPT0013590_4228	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013590-opuBD|yehW-K05846	NA	NA
D1-35_01223	903	osmX	COG1732	Osmoprotectant-binding protein OsmX	ATGAAGAAGTTGAGCTTGATCCTGGGCTGCCTGCTGTTGTTCGCGGGGTTCGCCCAAGCCGCTGAAAAACCGCTGATCCGCCTCGGTGCCCGGGTGTTCACCGAGCAGACCCTGCTGGCCGAGATCACCGCGCAATACCTGCGCGACAAGGGCTACGACGCACAGATCACTGGCGGGCTGGGCAGCAACCTGGCCCGCAGCGCCCATGAAACCGGGCAGCTGGATTTACTCTGGGAATACACCGGCGTGTCGCTGGTTTCCTACAACCATGTCACGGAAAAACTCGACAGCGCCCAGTCCTACGCCCGGGTGAAAGAACTCGACGCGAAAAAAGGCCTGGTCTGGCTCGCGCCGTCGAAATTCAGCAACACCTACGCCTTGGCCCTGCCGGAGAAAGTCGCGAAGAAGTACCCGCAGATCAATTCCATCAGCCAATTGAATACGGTGCTGCAGACCGAGGCCGAGGAAAATCACCTGGTCGCGCTTGACACCGAGTTCGCCAACCGTTCCGACGGCCTGGCCGGCATGGTCGAGCGCTACGGCATGAACCTGACCCGCAAGAATATCCGGCAGATGGACGCCGGCCTGGTCTACACCGCCCTGCGCAACAGCCAGGTGTTCGCCGGACTGGTGTACACCACCGACGGCCGACTGAACGCGTTCAAGCTGAAGCTGCTGGAAGACGACAAGCACTATTTCCCCGACTACACCGCCGCGCCGGTGGTGCGCCAGGCCTTCCTTGACGCCCATCCGCAACTGGCCGCGCAGCTCAAGCCACTGGCCGAACTGTTCGACGACGAAACCATGCGCCAGCTCAACGCCCGTGTGGATGTCGATCATGAAAGCCCTTCCGCCGTTGCCGCCGATTTCCTGCGCCAGCATTCCCTGCTCTCAACCCAATGA	MKKLSLILGCLLLFAGFAQAAEKPLIRLGARVFTEQTLLAEITAQYLRDKGYDAQITGGLGSNLARSAHETGQLDLLWEYTGVSLVSYNHVTEKLDSAQSYARVKELDAKKGLVWLAPSKFSNTYALALPEKVAKKYPQINSISQLNTVLQTEAEENHLVALDTEFANRSDGLAGMVERYGMNLTRKNIRQMDAGLVYTALRNSQVFAGLVYTTDGRLNAFKLKLLEDDKHYFPDYTAAPVVRQAFLDAHPQLAAQLKPLAELFDDETMRQLNARVDVDHESPSAVAADFLRQHSLLSTQ	PGPT0013595_3083	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013595-opuC|yehZ-K05845	NA	NA
D1-35_01224	717	osmY	COG1174	Osmoprotectant import permease protein OsmY	GTGGCTATCCGCTATGGCAAAGGGCTTATCGGGGGGGCGGTCGTCGTCGCCCTCCTGGCCCTGTTGGTCCACTGGATCGGCATCGATACGATCCACCGTTACCGCGACGACCTGCTGTTCTACCTGCAAGCGCACCTGATGCTTGTACTGGCTTCCATGTTGGCGGCCCTGATCGTCGGCATTCCCGCCGGCATCGCCCTCAGCCGCCCCGGCATGGTCGGGCGCGCCGAACGCTTCATGCAAGTGTTCAACATCGGCAATACCGTGCCGCCCCTGGCCGTGCTGGCCATTGCCCTGGGTATCCTGGGCATCGGCAGCGGGCCGGCGATCTTCGCCCTGTTCCTCGCCTCGCTGTTGCCCATCGTGCGCAACACCTATGAAGGCTTGAAAAATGTCCAGGGCTCGCTCAAGGAAGCTGCCGTCGGCATCGGCATGACCCCGCGCCAGGTGTTGTGGAAAGTCGAACTGCCCAACGCCGTGCCGATCATCGTCGGTGGCGTGCGCGTAGCCCTGGCGATCAACGTCGGCACCGCACCGCTGGCGTTCCTGATCGGCGCCAACAGCCTTGGCAGCCTGATCTTCCCCGGCATCGCCTTGAACAATCAGCCGCAATTGCTGCTCGGCGCGGCCTGCACCGCCTTGCTGGCGCTGCTGCTCGACGGCCTGGTAACCCTGGCCAGCCGCCTCTGGCTGGAACGCGGTCTGCGACCGTCCTGA	MAIRYGKGLIGGAVVVALLALLVHWIGIDTIHRYRDDLLFYLQAHLMLVLASMLAALIVGIPAGIALSRPGMVGRAERFMQVFNIGNTVPPLAVLAIALGILGIGSGPAIFALFLASLLPIVRNTYEGLKNVQGSLKEAAVGIGMTPRQVLWKVELPNAVPIIVGGVRVALAINVGTAPLAFLIGANSLGSLIFPGIALNNQPQLLLGAACTALLALLLDGLVTLASRLWLERGLRPS	PGPT0013590_2772	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013590-opuBD|yehW-K05846	NA	NA
D1-35_01225	1584	prfC	COG4108	Peptide chain release factor RF3	ATGACCAAACAGGCCGCCGAAGTCGCGAAACGCCGCACTTTCGCCATCATTTCCCACCCCGATGCCGGTAAGACCACCATCACCGAAAAGCTCTTGCTGATGGGCAAGGCGATTGCGGTGGCCGGCACGGTGAAATCCCGCAAGTCCGACCGCCATGCCACCTCCGACTGGATGGAGATGGAAAAGCAGCGGGGTATTTCCATTACCACGTCGGTCATGCAGTTCCCGTATCGCGAGCACATGATCAACCTGCTCGACACCCCGGGCCACGAAGACTTCTCCGAAGACACCTACCGCACGCTGACCGCGGTGGACTCGGCCTTGATGGTCCTCGACGGCGGCAAGGGCGTCGAGCCACGGACTATCGCGCTGATGGACGTCTGCCGTCTGCGGGACACGCCGATCGTCAGCTTCATCAACAAGCTCGACCGCGACATTCGCGACCCGATCGAACTGCTCGACGAAATCGAAGCGGTCCTGAAGATCAAGGCAGCGCCGATCACCTGGCCGATCGGTTGCTACCGCGACTTCAAGGGCGTTTACCACCTGGCCGACGACTACATCATCGTCTACACCGCCGGCCACGGTCATGAGCGCACCGAAACCAAGATCATCGAGAAGCTCGACTCCGACGAGGCCCGCGCGCACCTGGGCGACGAATACGACCGTTTTGTCGAGCAGCTGGAGCTGGTGCAGGGCGCCTGCCATGAATTCAACCAGCAGGAATTCCTCGATGGCCAACTGACCCCGGTGTTCTTCGGGACCGCCCTGGGCAACTTCGGCGTCGACCATGTGCTCGACGCCGTTGTCGACTGGGCTCCGCGCCCGCTGCCACGCGTTGCCAACGAGCGCACCGTGGAACCGGTGGAAGAGAAGTTCGCAGGCTTCGTGTTCAAGATCCAGGCGAACATGGACCCCAAGCACCGCGACCGTATCGCCTTCATGCGCATCTGCTCCGGCAAATACGAAAAAGGCATGAAGATGCGCCACGTGCGCACCGGCAAGGACGTGCGCATCGGCGACGCCTTGACCTTCTTCTCCTCGGAACGCGAGCAACTGGAAGAGGCCTTCGCCGGTGACATCATCGGGTTGCACAACCACGGCACCATCCAGATCGGCGACACCTTCACCGAAGGCGAAGCCCTGGGTTTTACCGGCATCCCGCATTTCGCCCCGGAACTGTTCCGCCGGGTACGGCTGAAGGATCCGCTCAAGTCCAAGCAACTGCGCCAGGGCCTCCAGCAGTTGGCCGAAGAGGGCGCCACCCAGGTGTTCTTCCCGGAGCGCAGCAACGACATCATCCTCGGCGCCGTCGGTGTGCTGCAGTTCGACGTCGTCGCCAGTCGCCTGAAAGAGGAATACAAAGTCGAGTGCTCCTACGAGCCGATCACCGTGTATTCCGCCCGCTGGATTGAATGCGCCGACAAGAAAAAACTTGAGGAATTTTCCAACAAGGCCGTGGAAAACCTCGCGCTGGACGGCGGCGGCCACCTGACCTACCTGGCGCCAACACGGGTCAATCTCGCGCTGATGGAAGAGCGCTGGCCAGATGTGAAATTCCGCGCGACGCGCGAGCATCACTAA	MTKQAAEVAKRRTFAIISHPDAGKTTITEKLLLMGKAIAVAGTVKSRKSDRHATSDWMEMEKQRGISITTSVMQFPYREHMINLLDTPGHEDFSEDTYRTLTAVDSALMVLDGGKGVEPRTIALMDVCRLRDTPIVSFINKLDRDIRDPIELLDEIEAVLKIKAAPITWPIGCYRDFKGVYHLADDYIIVYTAGHGHERTETKIIEKLDSDEARAHLGDEYDRFVEQLELVQGACHEFNQQEFLDGQLTPVFFGTALGNFGVDHVLDAVVDWAPRPLPRVANERTVEPVEEKFAGFVFKIQANMDPKHRDRIAFMRICSGKYEKGMKMRHVRTGKDVRIGDALTFFSSEREQLEEAFAGDIIGLHNHGTIQIGDTFTEGEALGFTGIPHFAPELFRRVRLKDPLKSKQLRQGLQQLAEEGATQVFFPERSNDIILGAVGVLQFDVVASRLKEEYKVECSYEPITVYSARWIECADKKKLEEFSNKAVENLALDGGGHLTYLAPTRVNLALMEERWPDVKFRATREHH				NA	NA	NA	NA	NA
D1-35_01226	252			hypothetical protein	ATGAATAAGCTGCTGCGCATGATGTTTTTTCTAAAGGTGTTGGTGATGCTGTCCCTCGGTTCCACCGCTGCGTGGGCCGAATGCGATGAGCACGAGAAGCACGCGTCGAATGGCTCGGTGGTTCAAGGCGAGTTGATGCTTGCCGCGACCGATGCGGACGCAGGCGATCCGGACGATGGCGAGGATGACGATGGTTCGCCAATCGACACACCGGATGGCGATGAGGATGAAGAGGGCGATAGCCAGACGTAG	MNKLLRMMFFLKVLVMLSLGSTAAWAECDEHEKHASNGSVVQGELMLAATDADAGDPDDGEDDDGSPIDTPDGDEDEEGDSQT				NA	NA	NA	NA	NA
D1-35_01227	981	ddpF_1	COG1124	putative D,D-dipeptide transport ATP-binding protein DdpF	ATGGCCGTCGTACTTACCGCCCGTGACCTGACCCGTCATTACGAAGTGTCCCGTGGCATGTTCAAGGGCCATGCGACCGTACGCGCCCTCAACGGTGTGTCGTTCGAACTGGAAGCCGGCAAGACCCTGGCCGTGGTGGGTGAATCCGGTTGCGGCAAATCCACCCTCGCCCGGGCCCTGACGCTGATCGAAGAGCCGTCCGCCGGTTCCTTGAAAATCGCCGGCCAGGAAGTGGCCGGCGCCAACAAGGCCGAGCGCAAGCAACTGCGCAAAGACGTGCAGATGGTCTTCCAGAGTCCTTATGCGTCCCTCAACCCGCGGCAGAAAATCGGTGATCAACTGGCCGAGCCGTTGCTCATCAACACCAACCTCTCGGCCACCGAGCGTCGCGACAAAGTCCAGGCGATGATGAAGCAGGTGGGCCTGCGCCCCGAGCACTACCAGCGCTATCCGCATATGTTCTCCGGCGGCCAGCGCCAGCGCATCGCCCTGGCCCGCGCGATGATGCTGCAACCCAAGGTGCTGGTGGCGGACGAACCGACCTCGGCGCTGGACGTGTCGATCCAGGCCCAGGTGCTGAACCTGTTCATGGACCTGCAACAGGAGTTCAACACCGCCTACGTGTTCATCTCCCATAACCTGGCGGTGGTGCAGCATGTCGCCGACGACGTGATGGTGATGTACCTCGGCCGCCCGGTAGAAATGGGCCCCAACGAGTCCATCTACAGCCGCCCGCTACACCCCTACACCCAGGCGCTGCTGTCGGCCACCCCGACCATCCATCCGGACCCGAACAAGCCGAAGATCAAAATCGTCGGCGAACTGCCCAACCCGCTCAACCCACCGTCCGGCTGCGCCTTCCACAAGCGCTGCCCGTACGCGACCGAGCGTTGCAAGACTGAAGAACCGGCGTTGCGGCCACTCGATAACCGGTTGGTGGCGTGTCACTACGCGGAGCGGTTCCTTGACGGCGCGGCGTAA	MAVVLTARDLTRHYEVSRGMFKGHATVRALNGVSFELEAGKTLAVVGESGCGKSTLARALTLIEEPSAGSLKIAGQEVAGANKAERKQLRKDVQMVFQSPYASLNPRQKIGDQLAEPLLINTNLSATERRDKVQAMMKQVGLRPEHYQRYPHMFSGGQRQRIALARAMMLQPKVLVADEPTSALDVSIQAQVLNLFMDLQQEFNTAYVFISHNLAVVQHVADDVMVMYLGRPVEMGPNESIYSRPLHPYTQALLSATPTIHPDPNKPKIKIVGELPNPLNPPSGCAFHKRCPYATERCKTEEPALRPLDNRLVACHYAERFLDGAA	PGPT0004520_455	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004520-dppF-K12372	NA	NA
D1-35_01228	969	dppD	COG0444	Dipeptide transport ATP-binding protein DppD	ATGTCACTGCTAGAAATCAAGAATCTCAACGTCCGCTTCGGCGACGCCACCGCCGTGCCGGTGGTCGACGGCCTGGACCTGAGCGTGGATAAAGGCGAGGTGCTGGCGATCGTCGGCGAATCGGGCTCGGGTAAATCCGTGACCATGATGGCGCTGATGGGCCTGATCGAGCACCCCGGCATCGTCACCGCCGATGCGCTGAACTTCGACGGCAAGAACATGCTCAAGCTGAGCAACCGCCAGCGCCGGCAGATCGTCGGCAAGGACCTGGCGATGGTTTTCCAGGACCCGATGACCGCGCTCAACCCCAGCTACACCGTGGGTTTCCAGATCGAAGAAGTACTGCGCCTGCATCTGAAGCTGTCCGGCAAGGCCGCCCGCAAGCGCGCCATCGAACTGCTGGAAAAAGTCGAGATCCCGGGCGCCGCCAGTCGCATGGATGCCTACCCGCATCAACTGTCCGGCGGCATGAGCCAGCGTGTGGCGATTGCCATGGCGATTGCCGGCGAGCCGAAACTGCTGATCGCCGACGAACCGACCACCGCTCTGGACGTGACCATCCAGGCGCAGATCATGGACCTGCTGCTGGCCCTGCAGAAAGAGCAGGACATGGGCCTGGTGCTGATCACCCATGACCTCGCCGTCGTGGCTGAAACCGCGCAGCGCGTGTGCGTGATGTACGCCGGCCAGGCCGTGGAAGTGGGCAAGGTGCCGCAGCTGTTCGACATCCCGGCCCACCCGTATAGCGAAGCACTGCTGGCGGCGATTCCGGAGCACAGCATGGGCGCCGAGCGCCTGGCGACGTTGCCGGGCATCGTGCCCGGTCGCTACGACCGCCCGCAAGGCTGCCTGCTGTCGCCGCGCTGCCCGTACGTGCGTGACAACTGCCGCCAGGAGCGCCCTGCGCTCGATCCGAAATCCAACAGCCTCGCCCGCTGCTTCTACCCGTTGAACCAGGAGGTGGCGTGA	MSLLEIKNLNVRFGDATAVPVVDGLDLSVDKGEVLAIVGESGSGKSVTMMALMGLIEHPGIVTADALNFDGKNMLKLSNRQRRQIVGKDLAMVFQDPMTALNPSYTVGFQIEEVLRLHLKLSGKAARKRAIELLEKVEIPGAASRMDAYPHQLSGGMSQRVAIAMAIAGEPKLLIADEPTTALDVTIQAQIMDLLLALQKEQDMGLVLITHDLAVVAETAQRVCVMYAGQAVEVGKVPQLFDIPAHPYSEALLAAIPEHSMGAERLATLPGIVPGRYDRPQGCLLSPRCPYVRDNCRQERPALDPKSNSLARCFYPLNQEVA	PGPT0004515_546	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004515-dppD-K12371	NA	NA
D1-35_01229	912	dppC	COG1173	Dipeptide transport system permease protein DppC	ATGAGTACTCCAACTACCGCGGTAGCAGTCGATCAAAGCCTGCTGTACCCGTCCCCGTACAAAGAATTCTGGCAAGCGTTTTCCCGCAACAAGGGCGCCGTCGCCGGGCTGCTGTTCATGATCCTGATCGTGTTCTGCGCACTCTTCGCCCCGTGGGTCGCGCCGCACGACCCGAGCGAGCAATACCGCGACTTCCTGCTGACGCCGCCGGCGTGGCTCGAAGGTGGGCAGATGCAGTTCCTGCTGGGCACCGACGAACTGGGCCGTGATTTGCTCTCGCGCCTGATCCAGGGTTCGCGGCTGTCGCTGCTGATCGGCTTGTCGTCGGTGGTGATGTCGCTGATCCCGGGCATCCTGCTGGGGCTGTTCGCCGGGTTCTTCCCGCGCATCCTCGGCCCGACCATCATGCGCCTGATGGACATCATGCTCGCCCTGCCCTCGCTGCTGCTGGCCGTGGCGATCGTCGCCATCCTCGGCCCAGGCCTGATCAACACTGTGATCGCCATCGCCATCGTCTCGCTGCCGTCCTACGTGCGCCTGACCCGCGCCGCCGTGATGGGCGAGCTGAACCGCGACTACGTGACCGCCGCCCGCCTGGCCGGTGCCGGCCTGCCGCGCCTGATGTTCATCACCGTGCTGCCCAACTGCATGGCACCGCTGATCGTCCAGGCGACCCTGAGCTTCTCCTCGGCGATCCTCGACGCCGCCGCCCTGGGCTTCCTCGGCCTCGGCGTGCAACCGCCGACCCCTGAGTGGGGCACCATGCTGGCCTCGGCCCGCGACTACATCGAACGCGCCTGGTGGGTCGTGAGCCTGCCTGGCCTGACCATTTTGCTCAGCGTGCTGGCAATCAACCTGATGGGCGACGGTCTGCGCGATGCGCTGGACCCGAAACTCAAGAATGCCGCCTGA	MSTPTTAVAVDQSLLYPSPYKEFWQAFSRNKGAVAGLLFMILIVFCALFAPWVAPHDPSEQYRDFLLTPPAWLEGGQMQFLLGTDELGRDLLSRLIQGSRLSLLIGLSSVVMSLIPGILLGLFAGFFPRILGPTIMRLMDIMLALPSLLLAVAIVAILGPGLINTVIAIAIVSLPSYVRLTRAAVMGELNRDYVTAARLAGAGLPRLMFITVLPNCMAPLIVQATLSFSSAILDAAALGFLGLGVQPPTPEWGTMLASARDYIERAWWVVSLPGLTILLSVLAINLMGDGLRDALDPKLKNAA	PGPT0004510_236	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004510-dppC-K12370	NA	NA
D1-35_01230	1011	dppB_1	COG0601	Dipeptide transport system permease protein DppB	ATGTTTAGTTTTATTGCCCGCCGACTGGGATTACTGATTCCCACGTTCTTCGGCATCACCTTGCTGACCTTCGCGTTGATTCGCATGATTCCCGGCGACCCCGTGGAAGTGATGATGGGCGAACGTCGGGTCGATCCCGAAATGCATGCTCAGGCAATGGAACGCCTTGGCCTGAACAAACCGCTGTATGCCCAGTACCTGGACTACATCGGCAAACTGGCCCAGGGCGATCTTGGCGAATCGCTGCGCACCCGTGAAAGCGTATGGAGCGAGTTCAGCTCGCTGTTTCCCGCGACCCTGGAACTGTCCCTGGCCGCGCTGCTGTTCGCCGGTATCCTCGGCCTGCTGGCCGGGGTGATCGCGGCGCTCAAGCGAGGATCCCTGTTCGACCATGGGGTGATGGGCATCTCCCTGGCGGGATATTCGATGCCGATCTTCTGGTGGGGCCTGATCCTGATCATGTTCTTCTCGGTGTCCCTGGGCTGGACACCGGTGTCGGGACGGATCGACCTGCTCTACGACATCGAGCCGAAAACCGGCTTCATGCTGATCGATACGCTGCTGGCCGATGAGCCGGGCGCGTTCCTCGACGCACTGCATCACCTGATCCTGCCGGCTATCGTGCTGGGCACCATTCCGCTGGCGGTGATCGCCCGCATGACCCGCTCCTCGATGCTCGAAGTGCTGCGCGAGGACTACATCCGCACCGCCAAGGCCAAGGGCCTGTCGCCGTCGCGCGTGGTGTTCGTGCACGGCCTGCGCAACGCGCTGATCCCGGTGTTGACCGTGGTCGGCCTGCAAGTCGGCACGCTGCTGGCCGGCGCGGTCCTGACCGAAACGATCTTCTCCTGGCCGGGCATCGGCAAGTGGCTGATCGAAGCCATCGGCGCCCGGGACTATCCCGTGGTGCAGAACGGCATCCTGTTAATCGCCTGCCTGGTGATTCTGGTCAACTTCGTCGTGGACATTCTCTACGGCTTTGCCAACCCACGTATCCGTCACCAGCGCTGA	MFSFIARRLGLLIPTFFGITLLTFALIRMIPGDPVEVMMGERRVDPEMHAQAMERLGLNKPLYAQYLDYIGKLAQGDLGESLRTRESVWSEFSSLFPATLELSLAALLFAGILGLLAGVIAALKRGSLFDHGVMGISLAGYSMPIFWWGLILIMFFSVSLGWTPVSGRIDLLYDIEPKTGFMLIDTLLADEPGAFLDALHHLILPAIVLGTIPLAVIARMTRSSMLEVLREDYIRTAKAKGLSPSRVVFVHGLRNALIPVLTVVGLQVGTLLAGAVLTETIFSWPGIGKWLIEAIGARDYPVVQNGILLIACLVILVNFVVDILYGFANPRIRHQR	PGPT0004505_417	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004505-dppB-K12369	NA	NA
D1-35_01231	1596	dppA_1	COG0747	Periplasmic dipeptide transport protein	ATGAACATGAACCCCCTACGCGCCGCCATTGCCGCCGCACTGCTGAGTGTTGCCGTTGGCGCCACGGCCAAACCCCTGGTGGTTTGCACAGAAGCCAGCCCGGAAGGCTTCGACATGGTCCAGTACACGACTGCAGTCACCGCCGACGCCGTGGCCGAAACGATCTTCAACCGCCTGGCCGACTTCAAGCCCGGCACCACCGAAGTGATTCCTGCCCTGGCCGAGTCCTGGGACATCAGCGACGACGGCTTGACGTATACCTTCCACCTGCGCAAAGGCGTCAAGTTCCACACCACCGATTACTTCAAGCCGACCCGCGACATGAACGCCGACGACGTGGTCTGGAGCTTCCAGCGCCAGCTGGACCCGAATCATCCGTGGCACAAACTGTCGAGCGTGGGTTTCCCGTACTTTGAAAGCATGGGCTTCAAGGAACTGCTCAAGAACGTCGAAAAAGTCGACGAGCACACGGTCAAGTTCACCCTGACCCGCCGCGAAGCACCGTTCCTGGCCGACATCGCCATGGCGTTCTCCTCGATCTACCCGGCCGAATACGCCGACCAGTTGCTCAAGGCAGGCAAGGCCGCCGAGCTGAACAACAAGCCGATCGGCACCGGGCCGTTCATCTTCCAGCGCTACAACAAAGACGCCCAGGTTCGCTTCAAGGCCAACCCGGACTACTTCCGGGGCAAGCCGCCGGCCGATGCGCTGGTGCTGGCGATCGCCACCGATAACAATGTGCGCATGCAGAAACTCAAGACCAATGAGTGCCAGATTGCGCTGTACCCGAAACCGGACGATATCCCCAGCATCAAGAAAGACCCGAACCTGAAGGTCACCGAGCTGGATGCGATGACCGTTTCCTACACCGCCCTGAACACCAGCCACAAATACATGAGCGATGTGCGGGTGCGCAAAGCCATCGACCTGGCCTTCGACAAGGAAGCCTACGTCAACGCGCTGTTTGGCAAAGGTAACGCCACCGCCGCGGTCAATCCGTACCCGCCGACGCTGCTGGGTTACAACCACGACCTGAAGAACCCGACCCGCGACCTCGACAAGGCGCGCCAGTTGCTCAAGGAAGCCGGCGTGCCGGAAGGCACCGTGTTTACCCTGTTCACCCGCAACGGCGGCGGTCCGACCAACCCCAACCCGATGCTCGGCGCGCAAATGATGCAGGCCGACCTGACGAAAGTCGGGATCAAGGTCGATATCCGCGTCATGGAATGGGGCGAAATGCTCAAACGCGCGAAAAACGGCGAGCACGACATGGTTTCCGCCGGATGGGCGGGCGATAACGGCGACCCGGATAATTTCCTGACGCCTATGCTCAGTTGCGAAGCCGCCAAGAACGGCGAAAACTACGCGCGCTGGTGCAACGAAAAATTCCAGGCGCTGCTCGACCAGGCACGCGCCACAGTGAACCCCGAGGAGCGCGCCAGGCTCTATGAGCAGGCCCAGGTGATTTTCAACCAGGACCAGCCATGGATCAGCATGGCCCACACCCGCATGTTCACGGCAATGCGCAAGAACGTAGAGGGCTATGTGATTAGCCCGCTCACCACCAACAACTTCGCCACCACCCAGGTGAAGTAG	MNMNPLRAAIAAALLSVAVGATAKPLVVCTEASPEGFDMVQYTTAVTADAVAETIFNRLADFKPGTTEVIPALAESWDISDDGLTYTFHLRKGVKFHTTDYFKPTRDMNADDVVWSFQRQLDPNHPWHKLSSVGFPYFESMGFKELLKNVEKVDEHTVKFTLTRREAPFLADIAMAFSSIYPAEYADQLLKAGKAAELNNKPIGTGPFIFQRYNKDAQVRFKANPDYFRGKPPADALVLAIATDNNVRMQKLKTNECQIALYPKPDDIPSIKKDPNLKVTELDAMTVSYTALNTSHKYMSDVRVRKAIDLAFDKEAYVNALFGKGNATAAVNPYPPTLLGYNHDLKNPTRDLDKARQLLKEAGVPEGTVFTLFTRNGGGPTNPNPMLGAQMMQADLTKVGIKVDIRVMEWGEMLKRAKNGEHDMVSAGWAGDNGDPDNFLTPMLSCEAAKNGENYARWCNEKFQALLDQARATVNPEERARLYEQAQVIFNQDQPWISMAHTRMFTAMRKNVEGYVISPLTTNNFATTQVK	PGPT0004500_1300	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004500-dppA-K12368	NA	NA
D1-35_01232	1413	oprD_1		Porin D	ATGAAACTGAGCAGCACCGCGATACTGGCCCTGGCCATCAGCAGCATCACCGCGACGGCCTATGCCGAGTCTCAAAGTCAGGCGGTCACGCCCGTGGCTCTCAAGACCACCAGCGAGCAAAGCGAAGCCAAGGGTTTCATCGAAGGCCAGTCCATCAGTGGCACCACGCGCAACTGGTACGCCAACGAGCAATTCAAGCGGGGCACAAAGCTCACCTATCGCAAGAACGGCGAAGCGCGCGAGACCGACCGCCGTATCAACTGGGTTCAGGGCACCATCGTCAAATACAACTCGGGGTTCACCGAAGGCACCGTGGGTTTCAGCACCGAACTGGCCGCCTATAACGCTATCGCCCTTGACCAGGATCGCAAGGATCTGGCGTCCAACAATGGCGGAGCGCCGACCACCCGTCCGGGCGCCGGCAACAACCGTACCCTGACGCGCGAAGGCGGCGACGCCGTGGGCCAGTGGAGCAAACTGGGTCTGGCCAACCTCAAGGCCCGTGTTTCCAACACCACTCTGACCGCCGGCCGCCAGAACTTCAGCAGCCCGATGGTCGATGTCATCGGCAACCGTGCGCTGCCTTCCAGCTTCCAGGGTGTGAGCCTGCACAGTGAAGAATTCGAAAACCTGGCGTTCGATATAGCCACCTTCGACCGTAACTCTCCTCGCATGGAACAAAGCCAGCGCAAGTTTCGCTCCGAGTATGGCGACAGCAGCGTCGAGACCGATCACGTCAACACCGCCGGTATCAGTTACCAGCCACTGGCCAGCCTGAAGACCAGCCTCTGGGCGACCGAGGCCGAGGACATGTGGAACCAGTACTATTTCGGTGCCACCCATGAACTGGGCGACAGCTCGGTGCTGAGCCTGACTACCGGCCTGAACTACTACAAGACCGTGGACTCGGGTAAAAGCAAGCTGGGCGAAATCGACAACGACACCTATTCCCTGTCGTTCGGCTTGACGCACCAGGCCCACAGCCTGACGTTCTCTTACCAGCAAGTGAACGGCAACGAATACTTCGACTACCTGCACGAAACCAACGGCATCTACCTGGCCAACTCCCTGTTGTCGGACTTCAACGGCCCGAACGAGAAATCCTTCCAGGTCGCCTATGGCCTGAACATGGCCGAATACGGCGTTCCGGGCCTGAAATTCAACATTTATCAGGCTCGCGGCTGGGGCATCGACGGTACGCATTACAACAGCACCGGTTATGACGTCGCCGCGATGGACGGCGAGCATCACTACGAATACGGTATCGGTGCCTCCTATGCCGTCCAGAGCGGCCCGCTGAAAGCCACCGCGGTCCGTGCGACCTACACCGCACACCGAGCCAGCGAAAACCAGGCCGACGGCAGTCTCAACGAATTCCGCCTGGTTACCACCATCCCGTTCAACATTCTCTAA	MKLSSTAILALAISSITATAYAESQSQAVTPVALKTTSEQSEAKGFIEGQSISGTTRNWYANEQFKRGTKLTYRKNGEARETDRRINWVQGTIVKYNSGFTEGTVGFSTELAAYNAIALDQDRKDLASNNGGAPTTRPGAGNNRTLTREGGDAVGQWSKLGLANLKARVSNTTLTAGRQNFSSPMVDVIGNRALPSSFQGVSLHSEEFENLAFDIATFDRNSPRMEQSQRKFRSEYGDSSVETDHVNTAGISYQPLASLKTSLWATEAEDMWNQYYFGATHELGDSSVLSLTTGLNYYKTVDSGKSKLGEIDNDTYSLSFGLTHQAHSLTFSYQQVNGNEYFDYLHETNGIYLANSLLSDFNGPNEKSFQVAYGLNMAEYGVPGLKFNIYQARGWGIDGTHYNSTGYDVAAMDGEHHYEYGIGASYAVQSGPLKATAVRATYTAHRASENQADGSLNEFRLVTTIPFNIL				NA	NA	NA	NA	NA
D1-35_01233	1602	dppA_2	COG0747	Periplasmic dipeptide transport protein	ATGCGCCATACCTTGGTTTTATCCGCATTGCTGGGCACCGGCCTGCTGGCCGCTACATCCGCGGCCCAGGCCGCCGGCGGCAGCCTGGTGTTCTGTTCCGAAGGCAGCCCCGCCGGTTTCGACACTGCGCAATACACCACCGCGACCGACAACGATGCCGCCGAACCGCTGTACAACCGCCTGGCCGAATTTGAAAAAGGCGCGACCAATGTCGTGCCGGGCCTGGCGACGAGCTGGGACATTTCCGAAGACGGCCTGAAATACACCTTCCATCTGCGCGCAGGGGTGAAGTTCCACACCACCGACTACTTCACGCCGACCCGGGATTTCAACGCCGACGATGTACTGTTCACCTTCAACCGCATGCTCGATCCGCAGCATCCGTTCCGCAAGGCCTACCCCACCGAGTTCCCGTACTTCAACGGCATGAGCCTGAACAAGAACATCGCCAAGGTCGAAGCGACAGGACCGTTGACGGTGGTCATGACGCTCAACAGCGTGGACGCCGCGTTCATCCAGAACATCGCCATGAGCTTCGCCTCGATCCTTTCGGCCGAGTACGCTGACAAGCTGCTCACTAGCGGCAAGCCGAGCGACATCAACCAGAAGCCGATCGGCACCGGGGCTTTCGAGTTCAAGAGCTACCAGAAAGACTCCAACATCCGCTACGTCGCCAACAAGCAGTACTGGGCGCCTGAGCGGGTCAAGCTGGACAACCTGATCTTCTCGATCAACACCGATGCGTCGGTGCGGGTGCAGAAGCTCAAGGCCAACGAATGCCAGATCACCCTGCATCCACGCCCGGCCGATGTGCCGGCGCTGAAGAACGATCCCAAGCTGCAACTGATCGAGAAACCCGGCTTCAACCTCGGCTACATCGCCTATAACACCCGCCACAAACCCTTCGACCAGGTCGAAGTGCGCCGGGCGCTGGACATGGCGGTGAACAAGCAGGGCATTCTCAACGCCGTTTACCAGGGCGCGGGGCAGTTGGCGCAAAACTCCATGCCGCCAACTCAATGGTCCTACGACGACACGATCAAGGACGCTCCCTACGACCCGGAAAAAGCCAAGGAGCTGCTCAAGGCCGCCGGGGTCAAGGAAGGCACCGAAATCACCCTCTGGGCCATGCCCGTGCAACGCCCGTACAACCCCAACGCCAAGCTGATGGCCGAAATGCTCCAGTCCGACTGGGCGAAAATCGGCTTGAAGGTGAAGATCGTCACCTACGAATGGGGCGAATACATCAAGCGCACCAAGAACGGCGAGCACGACATCAACCTGATCGGCTGGACCGGCGACAACGGGGACCCGGACAATTGGATGGGCACGCTGTACAGCTGCGACGCCATTGGCGGCAACAACTACTCCCAATGGTGTGACCAGGACTACGACAAGCTGATCAAGCAGGCCAAGATCGTCACCGACCGCGAGCAGCGCACCGTGCTCTATAAACAGGCCCAGCAGTTGCTCAAGCAGCAAGTGCCGATCACGCCTATCGCCCACTCGACGGTCAACCAGCCGCTGAGTGCCAAAGTCGAAGGGTTCAAGGTCAGCCCCTTCGGTCGCAACGTCTTCTCGGGCGTCAGCCTGAACCCATAA	MRHTLVLSALLGTGLLAATSAAQAAGGSLVFCSEGSPAGFDTAQYTTATDNDAAEPLYNRLAEFEKGATNVVPGLATSWDISEDGLKYTFHLRAGVKFHTTDYFTPTRDFNADDVLFTFNRMLDPQHPFRKAYPTEFPYFNGMSLNKNIAKVEATGPLTVVMTLNSVDAAFIQNIAMSFASILSAEYADKLLTSGKPSDINQKPIGTGAFEFKSYQKDSNIRYVANKQYWAPERVKLDNLIFSINTDASVRVQKLKANECQITLHPRPADVPALKNDPKLQLIEKPGFNLGYIAYNTRHKPFDQVEVRRALDMAVNKQGILNAVYQGAGQLAQNSMPPTQWSYDDTIKDAPYDPEKAKELLKAAGVKEGTEITLWAMPVQRPYNPNAKLMAEMLQSDWAKIGLKVKIVTYEWGEYIKRTKNGEHDINLIGWTGDNGDPDNWMGTLYSCDAIGGNNYSQWCDQDYDKLIKQAKIVTDREQRTVLYKQAQQLLKQQVPITPIAHSTVNQPLSAKVEGFKVSPFGRNVFSGVSLNP	PGPT0004500_819	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004500-dppA-K12368	NA	NA
D1-35_01234	1626	dppA_3	COG0747	Periplasmic dipeptide transport protein	ATGCTTAAACACGCGGTCATTCCGTTTTTAGTCGGCGCAGGCTTGTTAGCCAGCGCTCCTTTCGCTTCCGCCGCGACTAACCTGGTGTTCTGCTCCGAAGGCAGCCCGGCCGGTTTTGACCCTGGTCAGTACACCACCGGAACCGACTTCGATGCCTCTGCAGAAACCATGTTCAACCGCCTGACCCAGTTTGAGCGCGGCGGTACCGCCGTGATTCCTGGCCTGGCCACCAAGTGGGACATTTCCGAAGACGGCCTGACCTACACGTTCCATCTGCGTGAAGGCGTCAAGTTCCACACCACCCCGTATTTCAAGCCGACCCGTGAATTTAATGCCGATGACGTGCTCTTCACGTTCAACCGCATGATCAACAAGGACGATCCCTTCCGTAAGGCGTACCCAACCGAATTCCCGTACTTCACCGACATGGGGATGGACACCAACATCACCAAGGTCGATAAAGTCGACGACCACACCGTCAAGTTCACTCTCAAGGATGTCGACGCCGCGTTCATCCAGAACCTGGCCATGAGCTTCGCCTCGATCCAGTCCGCCGAGTACGCCGCCCAGCTGCTCAAGGACGGCAAGCCTGCCGACATCAACCAGAAGCCGATCGGCACCGGCCCGTTCGTGTTCAAGAGCTACCAGAAAGACTCCAACATCCGTTACACCGGCAACAAGGACTACTGGAAGCCTGAAGACGTGAAGATCGACAACCTGATCTTCGCCATCACCACCGACCCGTCGGTGCGTATCCAGAAGCTGAAGAAGAACGAGTGCCAGATCACCCTCTTCCCACGCCCGGCCGACCTCAAGGCCCTCAAGGACGACAAAGCGCTGAAGATGCCTGACCAGGCGGGTTTCAACCTGGGCTATGTAGCTTACAACGTGATGGAAAAAGTCAAAGGCGACGACAAGCCCAACCCGTTGGCTGACCTGCGCGTTCGTCAAGCCCTGGACATGGCTGTAAACAAGCAACAGATCATCGACTCGGTGTACCAAGGTGCGGGACAACTGGCGGTCAACGCCATGCCTCCGACCCAATGGTCCTACGACACCACCATCAAAGATGCCAAATACGACCCTGAAAAAGCCAAGGCTCTGCTCAAGGAAGCCGGCGTCAAGGAAGGCACGGAGATCGTTCTGTGGGCCATGCCGGTTCAGCGTCCGTACAACCCGAACGCCAAACTGATGGCGGAAATGCTGCAGAATGACTGGTCCAAGATCGGCCTGAAGGTCAAGATCACCAGCTATGAGTGGGGCGAGTACATCAAGCGCTCCAAGGGCGGCGAGAACCAGGCCATGATCATCGGCTGGAGCGGTGATAACGGTGACCCGGACAACTGGCTCAACGTGTTGTTTGGCTGCGACTCGCTGCAAGGCAACAACTTCTCCAAATGGTGTGACAAGAAGTTCGACGGCCTCGTCAAGGAAGCCAAGCGCACCACCGACCAGGCCAAGCGCACCGACCTCTACAAACAGGCGCAACACGTCCTCAAGGACGCCGTGCCGATGACACCTATCGCTCACTCGACGGTGTATCAACCCATGCGCGCCAACGTGCAGGACTTCAAGATCAGCCCCTTTGGCTTGAACTCCTTCTACGGCGTCAGCGTCAGCAAATAA	MLKHAVIPFLVGAGLLASAPFASAATNLVFCSEGSPAGFDPGQYTTGTDFDASAETMFNRLTQFERGGTAVIPGLATKWDISEDGLTYTFHLREGVKFHTTPYFKPTREFNADDVLFTFNRMINKDDPFRKAYPTEFPYFTDMGMDTNITKVDKVDDHTVKFTLKDVDAAFIQNLAMSFASIQSAEYAAQLLKDGKPADINQKPIGTGPFVFKSYQKDSNIRYTGNKDYWKPEDVKIDNLIFAITTDPSVRIQKLKKNECQITLFPRPADLKALKDDKALKMPDQAGFNLGYVAYNVMEKVKGDDKPNPLADLRVRQALDMAVNKQQIIDSVYQGAGQLAVNAMPPTQWSYDTTIKDAKYDPEKAKALLKEAGVKEGTEIVLWAMPVQRPYNPNAKLMAEMLQNDWSKIGLKVKITSYEWGEYIKRSKGGENQAMIIGWSGDNGDPDNWLNVLFGCDSLQGNNFSKWCDKKFDGLVKEAKRTTDQAKRTDLYKQAQHVLKDAVPMTPIAHSTVYQPMRANVQDFKISPFGLNSFYGVSVSK	PGPT0004500_291	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004500-dppA-K12368	NA	NA
D1-35_01235	1602	dppA_4	COG0747	Periplasmic dipeptide transport protein	ATGGACAGAACCACCTTCAAACCCCTCTTGCTTACGCTTGCCCTGCTGAGCGGCGCCCCACTGGCCCAGGCCGCGACCACCCTGGTCTATTGCTCCGAAGCCAGCCCCGCCGGCTTCGATCCCAGCCAATACACCAGCGGCACCGACTTCGATGCCTCGGCCGAAACCGTCTTCAACCGCCTCACCCAGTTCAAGCGCGGCGGCACCGAAGTCGAGCCCGGGTTGGCGTCAAGCTGGGACGTATCCGCCGATGGCCTGGCCTACACCTTCCACCTGCGCGAGGGTGTGAAGTTTCATACCACCGACTATTTCACCCCGAGCCGCGACTTCAACGCCGACGACGTGCTGTTCACGTTCCAGCGCCTGCTCGATCCGCAACATCCGTTCCGTCAGGCCTACCCCACCGAGTCGCCGTACTTCACCGACATGGGCCTGAACACCACGATCAAAAGCGTCGAAAAAATCGACGAGCACACCGTGCGCTTCAGCCTGAACAACGTCGACGCCGCATTCGTGCAGAACCTGGCGATGAGTTTTGCCTCGGTGCAGTCCGCCGAGTACGCAGCGCAGCTATTGAAGGAAGGCAAGGCCGGCGACCTCAACCAGAAGCCCATCGGCACCGGGCCGTTTGTGTTCAAGCGCTATCAGAAGGATTCGCAGATCCGCTACGCCGCCAACACGGCGTACTGGAAACCCGAGGACGTGAAGCTCGACAACCTGATTTTTTCCATTACCCCGGACGCTGCCGTGCGCCTGCAAAAGCTCAAGCGCGGCGAATGCCAGGTCAGCGGTTATCCGCGTCCGGCCGACATCGAAGTGATGGAGCAGGACCCGAACCTGCGCGTGCTCAGGCAGCCCGGTTTCAACCTGGGTTTCCTCGCCTATAACGTGACGCATCCGCCGCTGGACCAGCTCAAGGTCCGTCAGGCGCTGGACATGGCCATCGACAAGCCGGCGATCATCAAGGCCGTGTATCAGGGCGCCGGGCAGTTGGCGCAGAACGCCTTGCCCCCGGCTCAATGGTCGTTCGACCCGGCGATCCAGGACGCGCCCCATGACGTGACCAAGGCCAAGGCGCTCCTCAAGGAAGCCGGGGTTGCGCCCGGTACAACCATTGATTTATGGGCAATGACGGTGCAGCGCGCCTCCAACCCCAATGCGCGAATGTCTGCGCAAATGATCCAGCAGGACTGGGCCAAAGTTGGCATCAAGGCCAACATCGTCAGCTACGAATGGGGGGAGTACATCAAGCGCGCCAAGAATGGCGACCACGACGCGATGATCTACGGCTGGACCGGCGACAACGGCGATCCAGACAACTGGCTCGGCGTGCTGTACAGCTGCGCGGCGGTCAAGGGCAGCAACTACGCCAAGTGGTGCGACCCAGCCTACGACCGGCTGGTCCAGCAGGCCAAGGTCTCGACCGACCGCCAGCAACGCATCGACCTGTACCGCCAGGCGCAGAAAATCCTCAAGCAGCAGGTGCCCATCACGCCCATCGCCAACTCGACGGTGTTCCAGCCGATACGCAAGGAAGTGGTCGATTTCAAGCTCAGCCCGTTCGGGCTTACACCCTTCTACGGCGTGGGTTTGAACAAGTAA	MDRTTFKPLLLTLALLSGAPLAQAATTLVYCSEASPAGFDPSQYTSGTDFDASAETVFNRLTQFKRGGTEVEPGLASSWDVSADGLAYTFHLREGVKFHTTDYFTPSRDFNADDVLFTFQRLLDPQHPFRQAYPTESPYFTDMGLNTTIKSVEKIDEHTVRFSLNNVDAAFVQNLAMSFASVQSAEYAAQLLKEGKAGDLNQKPIGTGPFVFKRYQKDSQIRYAANTAYWKPEDVKLDNLIFSITPDAAVRLQKLKRGECQVSGYPRPADIEVMEQDPNLRVLRQPGFNLGFLAYNVTHPPLDQLKVRQALDMAIDKPAIIKAVYQGAGQLAQNALPPAQWSFDPAIQDAPHDVTKAKALLKEAGVAPGTTIDLWAMTVQRASNPNARMSAQMIQQDWAKVGIKANIVSYEWGEYIKRAKNGDHDAMIYGWTGDNGDPDNWLGVLYSCAAVKGSNYAKWCDPAYDRLVQQAKVSTDRQQRIDLYRQAQKILKQQVPITPIANSTVFQPIRKEVVDFKLSPFGLTPFYGVGLNK	PGPT0004500_749	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004500-dppA-K12368	NA	NA
D1-35_01236	717			hypothetical protein	ATGCACACGTTCAGTCGCCCCGCCGCCCTGCTCGCCCTCAGCCTCGGCGCCGTCGCCAGCCTGCCGGCCCTGGCCGCCGATGAGCTGCACTACAACCAGATTTCCCTGCACGCCGAAGCCAGCCAGGAAGTGGCCCGCGACCTGATGATCGTCACCCTCTACACCGAGGAACAGAACACCGACCCGGCCAAACTCGCCGCCGCCGTCAGCACCACGCTGAACAAAGCCATCGGCCAGGCCAAGCAAGTCAAGGACATCAACCTGCGCCAGGGCAGCCGCAACAGCTACCCGGTCTATGACAACAAAGGCGGGAAAATCACCGGCTGGCGCGAACGCGCCGAGCTGCGCCTGGAAAGCGCCGACTTCGCCGCCCTGTCCAAACTCACCGGCGAACTGCTGGGCGACATGAAAATGGCCGGCATGGACTTCGCCATCGCCACCGCCACCCGCCAGACCAGCGAAGACGCCTTGCTCAAGGACGCCGTCAACGCCTTCAAGGCCCGCGCCCAACTCGCCACCGAAGCCTTGGGCGGCAAGGGCTACAAGATCGTCAACCTGAACTTCAACACCAACGGTTACCCACAACCGTACATGCGCCCGCAAATGATGATGAAAGCGGCATCCATGGACGCTGAGTCGGTCACGCCTGAGGTTGAAGCCGGCACCAGCAAAGTGACCATGACCGCGGATGGGGTGGTTGAGGTGTTGATGCAGTAA	MHTFSRPAALLALSLGAVASLPALAADELHYNQISLHAEASQEVARDLMIVTLYTEEQNTDPAKLAAAVSTTLNKAIGQAKQVKDINLRQGSRNSYPVYDNKGGKITGWRERAELRLESADFAALSKLTGELLGDMKMAGMDFAIATATRQTSEDALLKDAVNAFKARAQLATEALGGKGYKIVNLNFNTNGYPQPYMRPQMMMKAASMDAESVTPEVEAGTSKVTMTADGVVEVLMQ				NA	NA	NA	NA	NA
D1-35_01237	1263	regB		Sensor histidine kinase RegB	ATGCTCGCCCCTTTGCAAATGACTTCCGCTTCGCGCCAGAACCTCTGGCGTCTGACGTTCATCCGCATTCTGGTCCTCGCGGCCCAGGCCGGCTCCGTGGGGCTTGCCTATTGGTTCGACCTGCTGCCGCTGCCCTGGCTGCAACTGGCGATTACCCTGGCGTGCTCCAGCGTACTCTGCGCATTGACGGCGATTCGCCTGCGCACTTCCTGGCCAGTGACCGAGCTCGAATACGCCGTGCAACTGGCCTGCGACCTGTTTATCCACAGTGCGCTGCTGTATTTCTCCGGCGGGTCGACCAATCCCTTCGTGTCGTATTACCTGGTGCCGCTGACGATTGCTGCGGTCACGCTGCCGTGGCGTTTTTCGCTGATCCTGTCCGGCATCGCCCTGGCGCTGTACACCTTGTTGCTGGCGCGGTTCTATCCGCTTGAAACCTTTCCCATTGCCCGGGAAAACCTGCAGATCTACGGCATGTGGCTGAGTTTTGCCTTGGCCGCCGCGGTCATCACGTTTTTTGCCGCGCGCATGGCCGAAGAGCTGCGTCGCCAGGAAGAGCTGAGGGCGATTCGCCGCGAAGAGGGCCTGCGCGACGAGCAACTGCTGGCCGTGGCGACCCAGGCCGCCGGCGCCGCCCATGAATTGGGCACGCCGCTGGCGACCATGAGCGTGCTGCTCAAGGAAATGCGCCAGGATCATCACGACCCGGCGTTGCAGGAAGACCTCAGCGTGCTGCAGGACCAGGTCCAGCTGTGCAAGGAAACCCTGCAATACCTGGTGCGTGCCGCCGAGGCGAACCGCCGGCTGGCCATCGAAATGCAGGACGTCACCGACTGGCTCGACGAGGCCCTGAATCGCTGGCACCTGATGCGCCCCGAAGCCAGTTATCGCTTCCAGTGCCTGGGCCAGGGCACGGTGCCGCGCATGGCGCCGCCGCCGGACCTGACCCAGGCCTTGCTGAACCTGCTGAACAATGCCGCCGATGCCTGTCCCGAAGGCCTGGAAGTGGTGCTGGACTGGAACGCCCATGAACTGACGATCTGCATTCGCGACCACGGCGCCGGTGTGCCGCTGGCGATTGCCGAGCAGATCGGCAAACCGTTTTACACCACCAAGGGCAAGGGTTTCGGCCTCGGCCTGTTTTTGAGCAAGGCCAGCGTGACACGCGCCGGCGGCTCGGTGAAACTCTACCCCCATGAGGAGGGCGGCACGCTCACCGAGCTGCGCCTGCCCCATGCCGACCGAGGAGACGAATATGAGTGA	MLAPLQMTSASRQNLWRLTFIRILVLAAQAGSVGLAYWFDLLPLPWLQLAITLACSSVLCALTAIRLRTSWPVTELEYAVQLACDLFIHSALLYFSGGSTNPFVSYYLVPLTIAAVTLPWRFSLILSGIALALYTLLLARFYPLETFPIARENLQIYGMWLSFALAAAVITFFAARMAEELRRQEELRAIRREEGLRDEQLLAVATQAAGAAHELGTPLATMSVLLKEMRQDHHDPALQEDLSVLQDQVQLCKETLQYLVRAAEANRRLAIEMQDVTDWLDEALNRWHLMRPEASYRFQCLGQGTVPRMAPPPDLTQALLNLLNNAADACPEGLEVVLDWNAHELTICIRDHGAGVPLAIAEQIGKPFYTTKGKGFGLGLFLSKASVTRAGGSVKLYPHEEGGTLTELRLPHADRGDEYE	PGPT0000545_943	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000545-regB|regS|actS-K15011	NA	NA
D1-35_01238	561	regA	COG4567	Photosynthetic apparatus regulatory protein RegA	ATGAGTGACGAGATCCAAGTCGACGGCGAAGAACTGCCGCACCTTTTGCTGGTGGACGACGATGCCACCTTCACCCGCGTCATGGCCCGGGCCATGTCCCGACGCGGTTTTCGCGTCAGCACCGCCGGCTCCGCCGAAGAGGGCCTGACCATCGCCCAGGCCGACCTGCCGGACTACGCCGCCCTCGACCTGAAGATGGATGGCGACTCTGGGCTGGTGCTGCTGCCCAAGCTGCTGGAACTCGACCCGGAAATGCGCGTGGTGATTCTCACCGGTTATTCGAGCATCGCCACGGCGGTCGAGGCGATCAAGCGCGGCGCCTGCAATTACCTGTGCAAACCGGCCGACGCCGACGATGTGCTGGCCGCGTTGTTGTCCGAACATGCCGACCTGGACACGCTGGTGCCGGAAAACCCGATGTCGGTGGACCGGTTGCAGTGGGAACACATCCAGCGGGTGCTGACCGAGCACGAAGGCAACATCTCCGCCACCGCCCGCGCCCTGGGCATGCACCGGCGGACCTTGCAGCGCAAATTGCAGAAGCGTCCGGTACGTCGCTGA	MSDEIQVDGEELPHLLLVDDDATFTRVMARAMSRRGFRVSTAGSAEEGLTIAQADLPDYAALDLKMDGDSGLVLLPKLLELDPEMRVVILTGYSSIATAVEAIKRGACNYLCKPADADDVLAALLSEHADLDTLVPENPMSVDRLQWEHIQRVLTEHEGNISATARALGMHRRTLQRKLQKRPVRR	PGPT0000540_342	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000540-regA|regR|actR-K15012	NA	NA
D1-35_01239	1728	bacA	COG4178	Vitamin B12 transport ATP-binding protein BacA	ATGAATCAGAACGCTGAATATTCCGCGGTCAATGACGCGGTGCGCGGCCAGTTTTTCCGCCGTGTCTGGCAAATGACCACGCCATACTGGCGCAGTGAGGAGAAGGGCAAGGCCTGGACGCTGTTGATCGCCGTGATTGCGCTGTCGCTGTTCAGCGTGGCGATTTCGGTGTGGCTGAACAATTGGTACAAGGATTTTTATAACGCCCTGCAGGAAAAGAACAGCGAGGCGTTCTGGAAGTTGATCCTGTATTTCGGCGGCATCGCCACGGTGGCGATCCTCGGCGCCGTGTATCGTCTGTACCTCACCCAGATGCTCACGATTCGCTGGCGGGCCTGGCTCACCGAGCAGCATTTTGCCCGTTGGCTGAACGACAAGAATTATTACCGGCTGGAGCAGGGCGGCTACACCGACAACCCTGACCAGCGGATTTCCGAAGACCTCAACAGCTTCACTTCCACGACGTTGAGCCTGGGCTTGGGGCTGCTGCGTACCGTGGTCAGCCTGGTGTCGTTCTCGATCATTCTGTGGGGCGTGTCGGGCAGCATCGAAGTGTTCGGCTACTCGATCCCTGGCTATATGTTCTGGTGTGCGCTGCTGTATGCGGCGGTGGGCAGTTGGCTGACGCATTTGATCGGTCGTCGCCTGATCGGCCTCAACAACAACCAGCAGCGCTTCGAAGCCGACCTGCGTTTTTCCATGGTGCGGGTGCGGGAAAACGCCGAGAGCATTGCGCTGTACAACGGCGAACCCAACGAGAACCGCCGCCTGAGCGAGCGTTTCGGCCTGGTGTGGCACAACTTCTGGGACATCATGCGCGTGTCCAAGCGCCTGACGTTCTTTACCTCTGGGTATGGGCAGATCGCGATCATCTTCCCGTTTATCGTCGCTGCGCCGCGTTATTTTTCCGGGAAGATCCAGCTGGGCGAGCTGATGCAGATCAACTCGGCGTTCGGCAATGTGCAGGAGAATTTCAGCTGGTTCATCGATGCTTACGCCTCGCTCGCCGCCTGGCGCGCCACTTGTGACCGTCTGCTGAGTTTCCGCCAGGCCATGAGCGACAACGAAGACCGGGTGCCGGCCATCGATGTGCAGAACCAGGGCAACGAACTGAAAGTCCGCAACCTCGGGCTGGACCTGAGCGACGGTCGTCATTTGCTGACCCGCGCTGAACTGAGTGTCGAACCGGGTGAGCGGGTGATGCTCAGCGGGCGTTCCGGCAGCGGCAAGTCCACCTTGCTGCGGGCGATGGGGCATTTGTGGCCCGCCGGGCACGGCAGCATCCTGTTGCCTTCGGCGCGTTATCTGTTCCTGCCGCAAAAGCCTTACCTGCCGATTGGCAGCCTGCGCGAGGTGTTGAGTTATCCACAAGCGGGCGATATCTACCCCAACGAACGTTATGCACAGGTGCTGGAAACCTGTCGCCTGCCGCACCTGATTTCGCGGCTGGACGAAAGCAACCATTGGCAACGCATGCTCTCGCCGGGCGAACAGCAGCGCCTGGCCTTCGCCCGTGCGTTGCTGTATGCGCCGCTATGGCTGTATATGGATGAAGCAACGTCGGCGATGGATGAAGAAGACGAGGCAACGCTGTACCAGGCGTTGCTCGACCAGCTGCCAGGCCTGAGCATCATCAGCGTCGGCCATCGAAGCAGTTTGAAACGTTTCCATGGGCGACATGTGCGCATCGAGAATGGCCAACTGGTGGAGCAGGCCGTAACCGCCTGA	MNQNAEYSAVNDAVRGQFFRRVWQMTTPYWRSEEKGKAWTLLIAVIALSLFSVAISVWLNNWYKDFYNALQEKNSEAFWKLILYFGGIATVAILGAVYRLYLTQMLTIRWRAWLTEQHFARWLNDKNYYRLEQGGYTDNPDQRISEDLNSFTSTTLSLGLGLLRTVVSLVSFSIILWGVSGSIEVFGYSIPGYMFWCALLYAAVGSWLTHLIGRRLIGLNNNQQRFEADLRFSMVRVRENAESIALYNGEPNENRRLSERFGLVWHNFWDIMRVSKRLTFFTSGYGQIAIIFPFIVAAPRYFSGKIQLGELMQINSAFGNVQENFSWFIDAYASLAAWRATCDRLLSFRQAMSDNEDRVPAIDVQNQGNELKVRNLGLDLSDGRHLLTRAELSVEPGERVMLSGRSGSGKSTLLRAMGHLWPAGHGSILLPSARYLFLPQKPYLPIGSLREVLSYPQAGDIYPNERYAQVLETCRLPHLISRLDESNHWQRMLSPGEQQRLAFARALLYAPLWLYMDEATSAMDEEDEATLYQALLDQLPGLSIISVGHRSSLKRFHGRHVRIENGQLVEQAVTA	PGPT0009345_1129	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES|BLEOMYCIN,PGPT0009345-bacA|yddA-K02471	NA	NA
D1-35_01240	747	lutR_2	COG2186	HTH-type transcriptional regulator LutR	ATGGAAAACCCGCTCAACGTCCCACGTCTTCCCCGCAAGCGCCGCAGCCTGGCGCAGGAGCTGGTGACGGTGCTGTCCGAGCAGATTCGCGACGGTCTGCTCAAGCGTGGCGATAAATTGCCCACCGAGTCGGCGATCATGGAGGCCCATGGCGTCAGCCGTACCGTGGTGCGCGAGGCGATTTCCCGTTTGCAGGCGGCAGGGCAAGTGGAAACCCGCCACGGCATCGGTACATTCGTGCTCGACACGCCGAGCCCGAGCGGCTTTCGCATCGACCCGGCGACGGTGGTCACCTTGCGTGACGTGCTGGCGATCCTGGAATTGCGCATCAGCCTGGAGGTGGAATCGGCCGGGCTGGCGGCGCAGCGGCGTAGCGACGAACAATTGGCAGCGATGCGCGCGGCGCTCGACGCCCTGAATGAAAGCGCGGCCCACGCCAGCGACGCGGTGGCCTCGGACTTCGCTTTCCATCTGGAAATCGCCTTGTCCACCGGCAACCGCTATTTCACCGACATCATGACCCACCTGGGCACCAGCATCATCCCGCGCACCCGGCTGAACTCGGCGCGCCTGGCCCATGATGACCAGCAGCACTACATGGATCGCCTGAGCCGCGAGCACGAAGAAATCTACGAAGCCATCGCCCGCAGGGACTCCGATGCGGCCCGCGCGGCCATGCGCCTGCACCTGACCAACAGCCGCGAGCGGCTGCGCCAGGCCCATGAAGAGGCGCAAGCACAAGGCTGA	MENPLNVPRLPRKRRSLAQELVTVLSEQIRDGLLKRGDKLPTESAIMEAHGVSRTVVREAISRLQAAGQVETRHGIGTFVLDTPSPSGFRIDPATVVTLRDVLAILELRISLEVESAGLAAQRRSDEQLAAMRAALDALNESAAHASDAVASDFAFHLEIALSTGNRYFTDIMTHLGTSIIPRTRLNSARLAHDDQQHYMDRLSREHEEIYEAIARRDSDAARAAMRLHLTNSRERLRQAHEEAQAQG				NA	NA	NA	NA	NA
D1-35_01241	342			hypothetical protein	ATGGCTATGTTCGACCCACCCATCCTGTCGATCAGTTTGTCGGCTTTGGGAAATACCCTGAATGTCTTGATCCCTGATGCCGACGGGATTTCCGCCGACTGGTGGGTTTTTCCGACGCTTCGCGCCGATAACATTCCCGATTGGGAAGGAGAACAAGTGCCCGCGGGCCGATGGGACGACCCCGACCAAGGGCCGATTAAATTGACGGGATTACGGGTGATCGTGCCCGAGAAAGAGCTGAGAAGGTATATCGGAAAGGAAGTTGAATTGCAGTACCGGTTTTCCAACGAGTCCAGCCAGGACATCCATTCAGCCCCGGTGAAGTTGAAGATCGAGAAGTAA	MAMFDPPILSISLSALGNTLNVLIPDADGISADWWVFPTLRADNIPDWEGEQVPAGRWDDPDQGPIKLTGLRVIVPEKELRRYIGKEVELQYRFSNESSQDIHSAPVKLKIEK				NA	NA	NA	NA	NA
D1-35_01242	912		COG0329	putative 5-dehydro-4-deoxyglucarate dehydratase	ATGAATCCACAAGAACTGAAGTCCATCCTCTCGTCTGGCCTGCTGTCGTTCCCGGTCACCGATTTCACTGCCAATGGCGATTTCAATCGCGACAGCTACATCAAGCGCCTCGAGTGGCTGGCCCCGTATGGCGCCTCTGCGTTGTTCGCAGCGGGCGGCACCGGTGAATTCTTCTCCCTGGCCGCCAGTGAGTATTCGCAAGTCATCAAGACTGCCGTCGATACCTGCGCCACCAGCGTGCCAATCCTCGCCGGTGTTGGCGGTGCGACCCGCCAGGCCATCGAATACGCTCAGGAAGCCGAGCGTTTGGGTGCCAAGGGCTTGCTGCTGCTGCCACACTACCTGACTGAAGCCAGCCAGGACGGCGTTGCCGCCCACGTTGAAGCCGTGTGCAAATCGGTGAAGATCGGCGTGGTGGTCTACAACCGTAACGTCTGCCGCCTGAACGCCACCCAGCTGGAGCAGTTGGCTGAGCGTTGCCCGAACCTGATCGGCTACAAGGACGGGCTGGGCGATATCGAATTGATGGTGTCGATCCGTCGTCGCCTCGGCGATCGTTTCAGCTACCTGGGCGGCCTGCCGACCGCCGAAGTCTACGCCGCTGCCTACAAGGCGCTGGGCGTACCGGTCTACTCCTCGGCGGTGTTCAACTTCATCCCGAAAACCGCGATGGACTTCTACCACGCCATTGCCCGCGAAGATCACGAAACCGTTGGCAAGATCATCGACGATTTCTTCCTGCCGTACCTGGACATCCGCAACCGCAAGGCCGGTTACGCGGTGAGCATCGTCAAGGCCGGTGCGAAAATCGTCGGCTACGACGCGGGCCCTGTGCGCACGCCGCTGACCGACCTGCTGCCAGAAGAATACGAAGCCCTGGCCGCGCTGATCGACAAGCAAGGCAAGCAGTAA	MNPQELKSILSSGLLSFPVTDFTANGDFNRDSYIKRLEWLAPYGASALFAAGGTGEFFSLAASEYSQVIKTAVDTCATSVPILAGVGGATRQAIEYAQEAERLGAKGLLLLPHYLTEASQDGVAAHVEAVCKSVKIGVVVYNRNVCRLNATQLEQLAERCPNLIGYKDGLGDIELMVSIRRRLGDRFSYLGGLPTAEVYAAAYKALGVPVYSSAVFNFIPKTAMDFYHAIAREDHETVGKIIDDFFLPYLDIRNRKAGYAVSIVKAGAKIVGYDAGPVRTPLTDLLPEEYEALAALIDKQGKQ	PGPT0018160_516	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018160-kdgD|ycbC-K01707	NA	NA
D1-35_01243	1446	aldHT		Aldehyde dehydrogenase, thermostable	GTGGCAGATTCAAAGCGTTTCGATAACTACATCAACGGTCAGTGGGTAGCCGGTGCCGACTATTGCACCAACATCAACCCGTCTGACTTGTCCGATGTCATCGGTGAATACGCCAAGGCTGACGCCGCTCAAGTCAATGCCGCCATCGACGCTGCTCGTGCTGCGTTCCCGGCCTGGTCGACCTCGGGTATCCAGGCCCGCCACGACGCGTTGGATAAAGTTGGCAGCGAAATTCTCGCCCGCCGCGAAGAACTCGGCCAGTTGCTGGCCCGGGAAGAGGGCAAGACCCTGCCCGAAGCCATCGGCGAAGTGACTCGCGCCGGCAATATTTTCAAATTCTTCGCCGGCGAGTGCCTGCGCCTGTCGGGCGATTACGTGCCGTCGGTGCGTCCGGGCGTCAACGTTGAAGTCACTCGTGAAGCCCTTGGTGTGGTCGGTCTGATCACCCCGTGGAACTTCCCGATCGCTATTCCCGCGTGGAAAATCGCCCCGGCCCTGGCCTACGGCAACTGCGTGGTGATCAAGCCCGCCGAGCTGGTGCCGGGCTGTGCCTGGGCCTTGGCCGAAATCATTTCCCGCGCCGGTTTCCCGGCCGGTGCGTTCAACCTGGTCATGGGCAGCGGCCGCGTGGTCGGTGAAGTCCTGGTCAACAGCCCCAAAGTCGACGGCATCAGCTTCACCGGTTCCGTGGGCGTGGGCCGGCAGATCGCGGTCAACTGCGTGTCGCGCCAGGCCAAGGTGCAGTTGGAAATGGGCGGCAAGAACCCGCAGATCATCCTCGACGACGCCGATCTCAAGCAGGCCGTCGAGCTGGCGGTGCAGAGCGCGTTCTACTCCACCGGCCAGCGTTGCACCGCGTCGAGCCGCCTGATCGTCACCGCCGGTATCCACGACCAGTTCGTCGCGGCGATGGCCGAGCGCATGCAGTCGATCAAGGTCGGTCATGCCTTGAAAGCCGGCACCGATATCGGCCCTGTGGTCTCCGAGGCCCAGCTCAACCAGGACTTGAAGTACATCGACATCGGCCAGAGCGAAGGTGCGCGGTTGGTCAGCGGTGGTGGTGTGGTGACCTGCGACACCGAAGGTTATTTCCTGGCGCCGACGCTGTTCGCCGACAGTGAAGCCTCGATGCGCATCAGCCGTGAAGAAATCTTCGGCCCGGTCGCCAACGTCGTGCGCGTGGCTGACTACGAGGCGGCGCTGGCGATGGCCAACGACACCGAGTTCGGCCTGTCGGCCGGTATCGCTACCACCTCGTTGAAGTACGCCAACCACTTCAAGCGCCATTCCCAGGCGGGCATGGTGATGGTCAACCTGCCAACCGCCGGCGTGGATTATCACGTGCCGTTCGGCGGGCGCAAAGGTTCGTCCTATGGTTCGCGCGAGCAAGGCCGCTACGCACAAGAATTCTACACCGTGGTGAAGACCTCCTACATCGGCTCGTAA	MADSKRFDNYINGQWVAGADYCTNINPSDLSDVIGEYAKADAAQVNAAIDAARAAFPAWSTSGIQARHDALDKVGSEILARREELGQLLAREEGKTLPEAIGEVTRAGNIFKFFAGECLRLSGDYVPSVRPGVNVEVTREALGVVGLITPWNFPIAIPAWKIAPALAYGNCVVIKPAELVPGCAWALAEIISRAGFPAGAFNLVMGSGRVVGEVLVNSPKVDGISFTGSVGVGRQIAVNCVSRQAKVQLEMGGKNPQIILDDADLKQAVELAVQSAFYSTGQRCTASSRLIVTAGIHDQFVAAMAERMQSIKVGHALKAGTDIGPVVSEAQLNQDLKYIDIGQSEGARLVSGGGVVTCDTEGYFLAPTLFADSEASMRISREEIFGPVANVVRVADYEAALAMANDTEFGLSAGIATTSLKYANHFKRHSQAGMVMVNLPTAGVDYHVPFGGRKGSSYGSREQGRYAQEFYTVVKTSYIGS	PGPT0006875_6807	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
D1-35_01244	1365	gudP		putative glucarate transporter	ATGCAAGAGACCAAGCCGACGCACGTCCGCTATTTGATCCTGCTCATGCTGTTTTTGGTGACGACGATCAACTATGCCGACCGTGCCACCATCGCCATCGCTGGTTCCAGCCTGCAAAAAGACCTCGGCATCGATGCCGTCACCCTCGGTTATATCTTCTCCGCCTTCGGCTGGGCCTACGTAGCCGGGCAGATTCCTGGCGGGTGGCTGCTCGACCGTTTCGGTTCGAAAAAAATCTATGCCCTGAGCATTTTCACCTGGTCGTTGTTCACCGTGCTGCAAGGCTATGTCGGTGAATTCGGCATGTCCACGGCCGTGGTTGCGCTGTTCATGCTGCGCTTTCTGGTCGGGCTGGCCGAAGCGCCTTCCTTCCCGGGCAACGCCCGTATCGTCGCGGCCTGGTTCCCCACCGCGGAACGCGGCACCGCCTCGGCGATCTTCAACTCGGCGCAGTATTTCGCCACCGTACTGTTCGCACCGCTGATGGGCTGGATCGTCTACCGCTTCGGCTGGCAGCACGTGTTCATCGTGATGGGCGTGATCGGTATCGTGTTCTCGCTGGTCTGGCTGAAAGTGATCTACAGCCCGCGCCAGCACCCGATGATCAACGAGGCCGAGTTCAATCACATCGCGTCCAACGGCGCGATGGTCGACATGGACCAAGACAAGGGCAAGGAAAAGAAAGCCGATGGTCCGAAGTGGGATTACATCCGCCAGTTGCTGACCAACCGCATGATGCTCGGCGTGTACCTGGGCCAATACTGCATCAACGGCATCACCTACTTCTTCCTCACCTGGTTCCCGGTGTACCTGGTGCAGGAACGCGGCATGACCATCCTCAAGGCCGGTTTCATCGCGTCCTTGCCAGCCATCTGCGGCTTTATCGGCGGCGTGCTTGGCGGGGTGATTTCCGACTACCTGCTGCGCAAGGGCCACTCGCTGACCTTCGCCCGCAAGGCGCCGATCATTGCCGGCCTGCTGGTGTCCAGCAGCATCGTGGCGTGCAACTACGTGGACATCGAATGGATGGTGGTGGGCTTCATGGCCCTGGCCTTCTTCGGTAAAGGCGTCGGTGCATTGGGCTGGGCCGTGGTCTCCGACACTTCGCCAAAACAGATCGCCGGCTTGAGCGGTGGCCTGTTCAACACCTTCGGCAACCTGGCGTCGATTACCACGCCAATCGTCATCGGCTACATCATCAGCTCCACCGGTTCGTTCAAGTGGGCGCTGGTGTTTGTCGGTTGCAACGCGCTGATGGCGGTGTTCAGCTACCTGGTCATCGTGGGCCCGATCAAGCGTGTCGTGCTCAAGGAACCAGCGGCCAAAGAAGCCGATCTTTCCAGCCTGTCTGAAGCCAAATCCTGA	MQETKPTHVRYLILLMLFLVTTINYADRATIAIAGSSLQKDLGIDAVTLGYIFSAFGWAYVAGQIPGGWLLDRFGSKKIYALSIFTWSLFTVLQGYVGEFGMSTAVVALFMLRFLVGLAEAPSFPGNARIVAAWFPTAERGTASAIFNSAQYFATVLFAPLMGWIVYRFGWQHVFIVMGVIGIVFSLVWLKVIYSPRQHPMINEAEFNHIASNGAMVDMDQDKGKEKKADGPKWDYIRQLLTNRMMLGVYLGQYCINGITYFFLTWFPVYLVQERGMTILKAGFIASLPAICGFIGGVLGGVISDYLLRKGHSLTFARKAPIIAGLLVSSSIVACNYVDIEWMVVGFMALAFFGKGVGALGWAVVSDTSPKQIAGLSGGLFNTFGNLASITTPIVIGYIISSTGSFKWALVFVGCNALMAVFSYLVIVGPIKRVVLKEPAAKEADLSSLSEAKS	PGPT0016475_211	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCARATE_TRANSPORT,PGPT0016475-gudP-K03535	NA	NA
D1-35_01245	1554	garD_1	COG2721	Galactarate dehydratase (L-threo-forming)	ATGAATCTGATTGAACATGCCGATTCGCCCCGTTACATCCGCCTGCATGAGCGGGACAACGTAGTGATCGTCGTCAACGACCAAGGCGTACCGGCCGGGACTGAATTCCCGGACGGCCTGGTTACCGTCGACTTCGTGCCGCAAAGCCACAAAGTCACCCTGGAGGATATTCCCGAGGGCGGCGAGGTGATTCGCTACGGCCAGGTCATTGGCTACGCGCTGCAGCCGATCCCGCGTGGCAGCTGGGTCAAGGAAGACCAGTTGCGCATGCCTACCGCGCCACCGCTGGACAGCCTGCCGCTGTCCACCGATGTGCCGGCCGCCGATGCGCCGCTTGAGGGCTACACCTTCGAAGGTTATCGCAATGCCGACGGTACCGTCGGCACGCGCAACATCCTGGGTATCACCACCACGGTGCAGTGTGTGACCGGCGTGCTGGACCATGCGGTCAAGCGCATCAAGGATGAGCTGCTGCCCAAGTACCCGAACGTCGATGACGTGGTGGCGCTGACCCACAGCTACGGCTGTGGCGTGGCGATCACCGCCACCGATGCCTATATCCCGATTCGCACCGTGCGCAACCTGGCGCGCAACCCGAACCTGGGCGGCGAGGCGCTGGTGATCAGCCTGGGCTGCGAGAAATTGCAGGCCGGGCAGGTCATGCACGAGGGCGACAGTTCGGTGGATCTCAGCGAGCCATGGTTGTATCGCTTGCAGGACTCCAGCCACGGTTTCACCGAAATGATCGAGCAGATCATGGAACTGGCCGAGACCCGTCTGAAGAAACTCGACCAGCGCCGTCGCGAAACCGTGCCGGCCTCGGAGCTGATCCTGGGCATGCAATGCGGCGGCAGCGATGCGTTTTCCGGCATCACCGCGAACCCGGCCCTGGGCTACGCCTCGGATTTGCTGCTGCGGGCCGGTGCGACGGTGATGTTCTCCGAAGTCACCGAAGTGCGCGATGCGATCTACCTGCTGACGTCCCGGGCGCAAACCCGTGAAGTCGCCGAGGAGCTGGTGCGCGAGATGGACTGGTACGACCGCTATCTGGCCAAGGGCGAAGCCGATCGCAGCGCCAACACCACGCCGGGCAACAAGAAGGGCGGGCTGTCGAACATCGTCGAGAAATCCCTGGGCTCGATCGTCAAGTCCGGCAGCAGCGCGATCAACGGCGTGCTCGGCCCGGGCGAGCGCTTCAAGCAGAAGGGCTTGATCTTCTGCGCCACGCCGGCCAGCGATTTTGTCTGCGGTACGCTGCAACTGGCAGCGGGGATGAACCTGCATGTGTTCACCACCGGACGCGGTACGCCGTACGGTTTAGCGATGGCGCCGGTGGTGAAGGTCTCGACCCGCACCGAACTGGCCCAACGCTGGCCGGACCTGATCGACATCGACGCCGGCCGGATCGCCACCGGGCGTGCAAGCATCGAAGAGCTGGGCTGGGAGCTGTTCCACTACTACCTGGATGTGGCCAGCGGCAAGAAACAGACCTGGGCCGAGCGGCACAAGCTGTACAACGACATCACGCTGTTCAACCCCGCGCCGATTACCTGA	MNLIEHADSPRYIRLHERDNVVIVVNDQGVPAGTEFPDGLVTVDFVPQSHKVTLEDIPEGGEVIRYGQVIGYALQPIPRGSWVKEDQLRMPTAPPLDSLPLSTDVPAADAPLEGYTFEGYRNADGTVGTRNILGITTTVQCVTGVLDHAVKRIKDELLPKYPNVDDVVALTHSYGCGVAITATDAYIPIRTVRNLARNPNLGGEALVISLGCEKLQAGQVMHEGDSSVDLSEPWLYRLQDSSHGFTEMIEQIMELAETRLKKLDQRRRETVPASELILGMQCGGSDAFSGITANPALGYASDLLLRAGATVMFSEVTEVRDAIYLLTSRAQTREVAEELVREMDWYDRYLAKGEADRSANTTPGNKKGGLSNIVEKSLGSIVKSGSSAINGVLGPGERFKQKGLIFCATPASDFVCGTLQLAAGMNLHVFTTGRGTPYGLAMAPVVKVSTRTELAQRWPDLIDIDAGRIATGRASIEELGWELFHYYLDVASGKKQTWAERHKLYNDITLFNPAPIT	PGPT0018155_395	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018155-garD-K01708	NA	NA
D1-35_01246	942			hypothetical protein	ATGCTGGCAATTTTCCTCGAAACCCTGAACATCACCGCGCCGGTGTTTGCCATGCTGTTTCTGGGGACGCTGCTCAAGCGTATCAATTGGATCAACGACAACTTCATCTACATCGCCTCGTCGCTGGTGTTCAACGTCACCATGCCGGCGCTGTTGTTCCTCGGCATTCTGCATGCCGATCTGCATGCGGCGTTGCAGCCGGACCTGCTGATCTATTTCTCGATCGCCACCCTGGCGAGTTTTGCCATGGCCTGGGGCTGGGCGATCTGGCGTTGCCCGCGTGAAGATCGCGGTATCTACACTCAGGGCGCGTTTCGTGGCAACAACGGGGTAATCGGCCTGGCGCTGGCGGCAAGCATGTACGGTGACTACGGGATTTCCCTGGGCGCGATTCTCGCGGCGCTGGTGATCCTGTTCTACAACACCTTGTCGACCATCGTGTTGGCGGTCTACAGCCCGGTGATCAAGTCCGACCCATGGAGCATCTGCAAAAGCGTGATCAGCAACCCGCTGATCATCAGCGTGCTCGCCGCCGCGCCGTTCGCCTATTGGCAAATCGGCCTGCCGAACTGGTTCGAGACCTCGGCCAGGTACTTGTCGCAAATGACCTTGCCCCTGGCGTTGATCTGCATCGGCGGCACACTGTCGCTGGCGGCCTTGCGCAAGAGCGGCAAGATGGCCCTGAGTTCGAGCCTGGTGAAAATGGTCGGCCTGCCCCTGGTGACTACGTTGGGCGCCTGGCTGTGGGGCTTTCGCGGCGCCGAGTTGGGGATCCTGTTCCTGTACTTCGGCAGCCCCACCGCCGCCGCCAGCTTCGTCATGGCCCGCGCCGCAAATGGCAACCATGAGTTGGCGGCGGCAATCATCGTCATCACTACGCTGATGGCGGCGATTACCACCAACGTGGGGATTTTTGTGCTGCAGTGGGGTGGGTGGATCTAA	MLAIFLETLNITAPVFAMLFLGTLLKRINWINDNFIYIASSLVFNVTMPALLFLGILHADLHAALQPDLLIYFSIATLASFAMAWGWAIWRCPREDRGIYTQGAFRGNNGVIGLALAASMYGDYGISLGAILAALVILFYNTLSTIVLAVYSPVIKSDPWSICKSVISNPLIISVLAAAPFAYWQIGLPNWFETSARYLSQMTLPLALICIGGTLSLAALRKSGKMALSSSLVKMVGLPLVTTLGAWLWGFRGAELGILFLYFGSPTAAASFVMARAANGNHELAAAIIVITTLMAAITTNVGIFVLQWGGWI	PGPT0007208_1484	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
D1-35_01247	381			hypothetical protein	ATGACCAACACCCCGAAGACCGGCCTCGACATGCGTCGCCAGGTGATGGGCGACGCCTTCGTCGATCGCGCCCTGGGCAACGCCACCGAATTTACCCAGCCACTGCAGGATTTCGTCAACGAGCACGCCTGGGGCAGCGTCTGGAGCCGCGAAGGCCTGCCGCTGAAAACCCGCAGCCTGATCACCCTCGCCGCCCTCACCGCCCTCAAATGCCCGCAGGAACTCAAAGGCCACGTGCGCGGCGCCTTGAACAACGGCTGCACGGTAGAGGAGATTCGTGAGGCACTCCTGCATTGCGCGGTGTACGCGGGCGTGCCGGCGGCGATCGATGCGTTTCGGGCGGCGCAGGAAGTGATTGATAGTTACCAGAAGCCTGAGTGA	MTNTPKTGLDMRRQVMGDAFVDRALGNATEFTQPLQDFVNEHAWGSVWSREGLPLKTRSLITLAALTALKCPQELKGHVRGALNNGCTVEEIREALLHCAVYAGVPAAIDAFRAAQEVIDSYQKPE	PGPT0005005_3536	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
D1-35_01248	1050	yrbG	COG0530	Inner membrane protein YrbG	TTGCTCGGCGCCTTGCTGTTGCTGATCGCCGGCGCCGAGCTGCTGGTGCGTGCCGCTGTCGGCCTGGCGGCGCGCTTGCAGGTGCGTCCGCTGATCATCGGCCTGACCGTCGTCGCCTTCGGCAGCAGCGCGCCACAGATGGCCGTCAGCCTGCAGGCGACCCTGGCGCAAAACGCCGACATCGCCGTGGGCAGCGTCATCGGCAGCACGATTTTCAACCTCCTCGTGACTCTGGGCCTGTCGGCGCTGATCATTCCGTTGCGCGTCTCGCGACAACTGGTGCGCCTGGACATCCCGCTGATGATCGGCGCGTGCCTGCTGGTTTTCGTACTGGCCTGGAACGAAGAGCTGAGCCGACTGGACGGAGCGCTGCTGCTGATAGCCCTGGCGGTGTACCTGGCGCTGCTGCTGCGCCAGTCCCGGCATTCGGGACGACCGCATCCGCTGGGCGAAGTGGTCGACATGGCCTGGCCCAAAAGCCTGGTGATGATCGCGTCGGGCCTGGCCATGCTGGTTTTCGCCGGGCACCTGTTACTGGGCGCCGCAGTGGAAGTGGCGACGGACCTGGGACTGTCGGAGCGCATCATCGGCCTGACCATCGTCGCCGTCAGCACCTCGCTGCCGGAACTCGCCACCTCACTGATCGCCGCACTGCGCGGCCAGCGGGACATTGCGGTAGGCAACGTGATCGGCAGCAACCTGTTCAACCTGCTGGGCGTACTCGGCGTGACCGCCCTCGCCGCCCCTTCGCCGCTCTCGGTCTCGCCCAATGCCCTGGACTTCGACCTGCCGGTAATGCTCGGCGTGGCGGTGCTGTGCCTGCCGGTATTCTATTCCGGCTACCGCGTCACCCGCGCCGAAGGGCTGCTGTTGCTGGGCTTGTACCTGGCCTACGGGCTGCACGTGGTGTCGTTCACCACCGGCATGCCCCTGGCCGGCCAACTGGAACGGCTGATGCTGTTCTACGTGCTGCCGGCGCTGCTGGCGTTCTTGCTGTTCACTTCCGTGCGCGCCTGGCGCCGCCAACACCACAAGAGGGATTTGCCATGA	MLGALLLLIAGAELLVRAAVGLAARLQVRPLIIGLTVVAFGSSAPQMAVSLQATLAQNADIAVGSVIGSTIFNLLVTLGLSALIIPLRVSRQLVRLDIPLMIGACLLVFVLAWNEELSRLDGALLLIALAVYLALLLRQSRHSGRPHPLGEVVDMAWPKSLVMIASGLAMLVFAGHLLLGAAVEVATDLGLSERIIGLTIVAVSTSLPELATSLIAALRGQRDIAVGNVIGSNLFNLLGVLGVTALAAPSPLSVSPNALDFDLPVMLGVAVLCLPVFYSGYRVTRAEGLLLLGLYLAYGLHVVSFTTGMPLAGQLERLMLFYVLPALLAFLLFTSVRAWRRQHHKRDLP	PGPT0014400_565	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014400-yrbG-K07301	NA	NA
D1-35_01249	558	rlpA_1		Endolytic peptidoglycan transglycosylase RlpA	ATGGAGCCAGTCTTCCAATCTGGCTCACCCCCCTGTGGCGAGGGAGCTTGCTCCCGCTGGGTCGCGAAGCGGCCCCCAACAATCTGCTGCCAGATTCAGGGGGCTGCTGCGCAGCCCAGCGGGAGCAAGCTCCCTCGCCACAACAACTTTCACAACCACACTGATGTGGAACCCCCCTACATGAAGCGTCTCCTCGGCGCCTGCGCGCTGCTGTCCCTGCTGGCCGGCTGTGCCAGCCAGAGCGGGACGGTCGATCCAAACGGCTACGACCAGACCGGCGTCGCCTCCTATTACGGTTCCCGGCACCACGGCAAACGCACCGCCAGCGGCGAACGTTTTGACCAGCACGGCCTGACCGCCGCTCATCGCCAGTTGCCGTTCGGCACCCGGGTGAAAATCACCAACCTGAAAAACAACGACAGCGTCGTGGTCCGCATCAACGACCGTGGTCCGTATTCACGCGGCCGACTGATCGATGTATCGCGCGCCGCTGCCGAACAGTTGGGCATGCTGCGTAGCGGTACCGCGCGGGTGCGCGTACAAGCCCTCGACGACTGA	MEPVFQSGSPPCGEGACSRWVAKRPPTICCQIQGAAAQPSGSKLPRHNNFHNHTDVEPPYMKRLLGACALLSLLAGCASQSGTVDPNGYDQTGVASYYGSRHHGKRTASGERFDQHGLTAAHRQLPFGTRVKITNLKNNDSVVVRINDRGPYSRGRLIDVSRAAAEQLGMLRSGTARVRVQALDD				NA	NA	NA	NA	NA
D1-35_01250	1446	gatB	COG0064	Aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B	ATGCAATGGGAAGTCGTGATCGGGCTGGAGATTCATACCCAGCTCACCACCCGATCGAAAATCTTTTCCGGTAGCTCGACCACGTTCGGTTCCGAGCCCAACACCCAGGCCAGCCTGGTAGACCTGGGCATGCCCGGCGTATTGCCGGTGCTCAACGCCGAAGCGGTGCGCATGGCGGTGATGTTCGGCCTGGCGATCGACGCCGAGATCGGCCAGCACAACGTGTTCGCCCGCAAGAACTACTTCTACCCGGACCTGCCCAAGGGCTACCAGATCAGCCAGATGGAACTGCCGATCGTCGGCAAGGGCCACCTGGACATCGCCCTGGAAGACGGCACGGTCAAGCGCGTCGGCATCACCCGTGCGCACCTGGAAGAAGACGCCGGCAAGAGCCTGCACGAAGAATTCAACGGCGCCACCGGCATCGACCTGAACCGTGCCGGCACGCCGCTGCTGGAAATCGTCTCCGAGCCGGACATGCGCAGCGCCAAGGAAGCCGTGGCCTACGTCAAGGCGATCCACGCATTGGTGCGCTACCTGGGCATCTGCGACGGCAACATGGCCGAAGGCTCGCTGCGCTGCGACTGCAACGTGTCGATCCGGCCCAAGGGCCAGACCGAGTTCGGCACCCGCTGCGAGATCAAGAACGTCAACTCGTTCCGCTTCATCGAGAAGGCGATCAACAGCGAGATCCAGCGCCAGATCGAACTGATCGAGGACGGCGGCAAGGTCATCCAGCAGACGCGCCTGTACGATCCGAACAAGGACGAGACCCGTCCGATGCGCAGCAAGGAGGAAGCCAACGACTACCGTTACTTCCCCGATCCGGACCTGCTGCCGGTGGTCATCGAGAACTCCTTCCTCGACGAAGTGCGCGCCACCCTGCCGGAACTGCCGCCGCAAAAGCGCGAGCGCTTCCAGGCGCAGTTCGGGCTGTCGAGCTATGACGCGAACGTCCTGGCCACCAGCCGCGAACAGGCCGATTACTTCGAGAAAGTCGTGAGCATCGGCGGCGACGCCAAGCTGGCGGCCAACTGGGTGATGGTCGAACTGGGCAGCCTGTTGAACAAGCAGGGCCTGGAAATCGACGAGTCGCCGGTCTCGGCCGAGCAACTGGGCAGCATGCTGTTGCGGATCAAGGACAACACCATTTCCGGCAAGATCGCCAAGATGGTCTTCGAAGCCATGGCCAATGGCGAAGGCAGCGCCGACGAGATCATCGAGAAGCGCGGCTTGAAACAGGTCACCGACACCGGTGCGATCAGCGCCGTGCTTGATGAAATGCTCGCGGCCAATGCCGAGCAGGTCGAACAGTACCGCGCGGCGGACGAAGCCAAGCGCGGCAAGATGTTCGGCTTCTTCGTCGGCCAGGCCATGAAAGCCTCCAAGGGCAAGGCCAACCCGCAACAGGTCAACGAACTGCTAAAAAGCAAGCTCGAGGGCTGA	MQWEVVIGLEIHTQLTTRSKIFSGSSTTFGSEPNTQASLVDLGMPGVLPVLNAEAVRMAVMFGLAIDAEIGQHNVFARKNYFYPDLPKGYQISQMELPIVGKGHLDIALEDGTVKRVGITRAHLEEDAGKSLHEEFNGATGIDLNRAGTPLLEIVSEPDMRSAKEAVAYVKAIHALVRYLGICDGNMAEGSLRCDCNVSIRPKGQTEFGTRCEIKNVNSFRFIEKAINSEIQRQIELIEDGGKVIQQTRLYDPNKDETRPMRSKEEANDYRYFPDPDLLPVVIENSFLDEVRATLPELPPQKRERFQAQFGLSSYDANVLATSREQADYFEKVVSIGGDAKLAANWVMVELGSLLNKQGLEIDESPVSAEQLGSMLLRIKDNTISGKIAKMVFEAMANGEGSADEIIEKRGLKQVTDTGAISAVLDEMLAANAEQVEQYRAADEAKRGKMFGFFVGQAMKASKGKANPQQVNELLKSKLEG				NA	NA	NA	NA	NA
D1-35_01251	1452	gatA	COG0154	Glutamyl-tRNA(Gln) amidotransferase subunit A	ATGCATCACATGACCCTGGCCGAGATCGCCCGCGGACTCGCCGACAAGAAATTTTCCTCCGAAGAGCTGACCAAGGCCCTGCTGGCGCGCATTGCCCAGCTCGACCCGCAGCTCAACAGCTTCATCAGCCTCACCGAAGAACTGGCCCTGAGCCAGGCCAAGGCCGCCGACGCCCGTCGCGCCAACGGTGAGAGCGGCGCCCTGCTCGGCGCGCCGATCGCCCACAAGGACCTGTTCTGCACCAAGGGCATCCGCACCAGTTGCGGCTCGAAGATGCTCGACAACTTCAAGGCCCCGTACGACGCCACCGTGGTCGCCAAGCTGGCCGCCGCTGGCGCCGTGACGCTGGGCAAGACCAACATGGACGAATTCGCCATGGGTTCGGCCAACGAATCCAGCTACTACGGCGCGGTGAAAAACCCCTGGAACCTGGAACACGTACCGGGCGGTTCGTCCGGTGGTTCCGCTGCCGCCGTGGCTGCGCGCCTGTTGCCGGCGGCCACCGCCACCGACACCGGCGGCTCGATTCGCCAGCCGGCGGCGTTCACCAACCTCACCGGCCTCAAGCCGACCTACGGCCGCGTCTCGCGCTGGGGCATGATCGCCTACGCCTCCAGCCTCGACCAGGGTGGCCCGCTGGCACGCACCGCCGAAGACTGCGCAATCCTGCTGCAAGGCATGGCCGGGTTCGACCCGAACGATTCCACCAGCATCGATGAACCGGTGCCGGACTACAGCGCCAGCCTCAACGGCTCGCTGCAAGGCCTGCGGATCGGCGTGCCGAAGGAATACTTCGGTGCCGGCCTCGATCCGCGCATCGCCGAACTGGTTCACAACAGCGTCAAGGCGCTGGAAAAGCTCGGCGCGGTGATCAAGGAAATCAGCCTGCCGAACATGCAGCACGCGATTCCGGCGTATTACGTGATCGCCCCGGCGGAAGCCTCCTCGAACCTGTCGCGCTTCGACGGCGTGCGCTTCGGCTATCGCTGCGAAAACCCGCAGAACCTGGTCGACCTGTACAAGCGTTCCCGTGGCGAAGGCTTCGGCGCCGAAGTGCAGCGCCGGATCATGGTCGGCGCCTACGCGTTGTCCGCCGGCTACTACGACGCCTACTACCTCAAGGCGCAGAAAATCCGCCGCCTGGTGAAAAACGACTTCATGGCCGCCTTCAACGAGGTCGACATCATCCTCGGCCCGACCACGCCGAACCCGGCCTGGAAGCTCGGCGCCAAGAACAGCGACCCGGTCGCCGAGTACCTGGAAGACGTCTACACCATCACCGCCAACCTCGCCGGCTTGCCGGGCCTGTCCATGCCGGCCGGCTTCGTCGATGGCCTGCCGGTGGGCGTGCAGCTGCTCGCGCCGTATTTCCAGGAAGGCCGCCTGCTCAACGTGGCGCACCAGTATCAGTTGAACAGCGACTGGCACACCCGCACCCCAACCGGCTTCTGA	MHHMTLAEIARGLADKKFSSEELTKALLARIAQLDPQLNSFISLTEELALSQAKAADARRANGESGALLGAPIAHKDLFCTKGIRTSCGSKMLDNFKAPYDATVVAKLAAAGAVTLGKTNMDEFAMGSANESSYYGAVKNPWNLEHVPGGSSGGSAAAVAARLLPAATATDTGGSIRQPAAFTNLTGLKPTYGRVSRWGMIAYASSLDQGGPLARTAEDCAILLQGMAGFDPNDSTSIDEPVPDYSASLNGSLQGLRIGVPKEYFGAGLDPRIAELVHNSVKALEKLGAVIKEISLPNMQHAIPAYYVIAPAEASSNLSRFDGVRFGYRCENPQNLVDLYKRSRGEGFGAEVQRRIMVGAYALSAGYYDAYYLKAQKIRRLVKNDFMAAFNEVDIILGPTTPNPAWKLGAKNSDPVAEYLEDVYTITANLAGLPGLSMPAGFVDGLPVGVQLLAPYFQEGRLLNVAHQYQLNSDWHTRTPTGF				NA	NA	NA	NA	NA
D1-35_01252	288	gatC	COG0721	Glutamyl-tRNA(Gln) amidotransferase subunit C	ATGGCGCTTGAACGCTCCGACGTGGAAAAAATCGCTCATCTGGCCTGTCTGGGCCTCAATGAAGCCGATCTTCCACACATTACTTCTGCCCTGAACAGCATTCTAGGGCTGGTCGACGAGATGCAGGCGGTCGACACCGACGGTATCGAGCCGCTGGCCCACCCACTGGAAGCCAGCCAGCGCCTGCGCGCCGACGTCGTCACCGAGTCCGATAACCGCGAGGCCTACCAGGCCATCGCACCGGCGGTCGAAAACGGCCTGTACCTGGTTCCGAAAGTCATCGACTAA	MALERSDVEKIAHLACLGLNEADLPHITSALNSILGLVDEMQAVDTDGIEPLAHPLEASQRLRADVVTESDNREAYQAIAPAVENGLYLVPKVID	PGPT0023460_3581	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
D1-35_01253	1038	mreB	COG1077	Cell shape-determining protein MreB	ATGTTCAAGAAACTGCGTGGCATGTTTTCCAGCGATCTTTCCATCGACCTGGGCACTGCCAACACCCTTATTTACGTGCGCGAGCGCGGTATCGTCCTGAATGAACCCTCGGTCGTGGCCATCCGCACCCACGGTAACCAGAAAAGTGTCGTGGCTGTCGGTACTGAAGCCAAGCGCATGCTGGGCCGCACACCGGGCAACATTGCAGCCATTCGCCCGATGAAGGATGGCGTGATCGCCGACTTCAGCGTCTGCGAAAAGATGCTGCAGTATTTCATCAACAAGGTTCACGAAAACAGTTTCCTGCAGCCCAGCCCTCGCGTGCTGATCTGCGTGCCCTGCAAATCCACCCAGGTGGAGCGTCGCGCCATCCGCGAATCGGCCCTCGGTGCCGGTGCCCGTGAAGTATTCCTGATCGAAGAGCCGATGGCCGCTGCCATCGGTGCCGGCCTGCCGGTGGAAGAAGCCCGCGGTTCGATGGTCGTCGATATCGGTGGCGGTACCACTGAAATCGCCTTGATCTCCCTGAATGGCGTGGTCTATGCCGAGTCCGTGCGTGTCGGCGGCGACCGTTTCGACGAAGCGATCATCACCTACGTGCGCCGCAACTACGGCAGCCTGATCGGCGAATCCACCGCCGAGCGCATCAAGCAGGAAATCGGCACCGCCTACCCGGGCGGCGAAGTGCGTGAAGTCGACGTGCGCGGCCGTAACCTGGCCGAAGGCGTTCCTCGCGCCTTCACCCTCAACTCCAACGAAGTGCTCGAGGCGCTGCAAGAGTCGCTGGCGACTATCGTGCAGGCGGTCAAGAGCGCCCTGGAGCAGTCGCCGCCGGAGCTGGCGTCGGACATCGCCGAGCGCGGCCTGGTGCTGACCGGTGGTGGTGCGCTGCTGCGTGACCTCGACAAGCTGCTGGCCCAGGAAACCGGCCTGCCGGTGATCGTCGCCGAAGACCCGCTGACGTGCGTTGCCCGCGGCGGTGGCCGTGCGCTGGAAATGATGGACAAGCACACCATGGACCTGCTTTCCAGCGAATAA	MFKKLRGMFSSDLSIDLGTANTLIYVRERGIVLNEPSVVAIRTHGNQKSVVAVGTEAKRMLGRTPGNIAAIRPMKDGVIADFSVCEKMLQYFINKVHENSFLQPSPRVLICVPCKSTQVERRAIRESALGAGAREVFLIEEPMAAAIGAGLPVEEARGSMVVDIGGGTTEIALISLNGVVYAESVRVGGDRFDEAIITYVRRNYGSLIGESTAERIKQEIGTAYPGGEVREVDVRGRNLAEGVPRAFTLNSNEVLEALQESLATIVQAVKSALEQSPPELASDIAERGLVLTGGGALLRDLDKLLAQETGLPVIVAEDPLTCVARGGGRALEMMDKHTMDLLSSE	PGPT0027700_1715	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
D1-35_01254	1095			hypothetical protein	TTGGGCGTACGCCTGCTGGTGTTGGCCGTGCTATCGGTCGCGCTGATGGTGGTCGATGCCCGCTTCACGCTGCTCAAGCCGGTGCGCAGCCAGATGTCGCTGGTGTTGATGGAGTCCTACTGGATCACCGACCTGCCGCAGCGGCTGTGGCAGGGTGTGGCCAGCCAGTTCGGCAGCCGCACCGAACTGGTCGCCGAAAACGAAAAACTCAAGACCGAAAACCTGCTGTTGCAGGGGCGCATGCAGAAGCTCGCGGCCCTCACCGAGCAGAACGTGCGGCTGCGCGAGTTGCTCAACTCCTCGGCGCTGGTCAATGAGAAGGTCGAGGTCGCCGAGTTGATCGGCATGGACCCCAATCCCTTCACGCACCGGATCATCATCAACAAGGGTGAGCGCGACGGCGTGGTCCTCGGCCAGCCGGTGCTCGATGCCCGTGGCCTGATGGGGCAGGTGGTCGAGCTGATGCCCTATACCTCCCGCGTGCTGCTGTTGACCGATACCACCCACAGCATTCCGGTGCAGGTCAATCGCAACGGCTTGCGGGCGATTGCCAGCGGCGCCGGTAATCCTGAGCGCCTGGAGCTGCGGCATGTGGCCGACACCGCCGACATCAAGGAAGGCGACCTGCTGGTCAGCTCGGGTCTTGGCCAGCGATTCCCGGCGGGGTATCCGGTGGCGACGGTCAAGGAAGTCATCCACGATTCCGGTCAGCCATTCGCCATTGTCCGGGCGGTGCCCACGGCCGCGCTGAACCGTAGCCGTTACCTGCTGCTGGTGTTCAGCGACAACCGCACGCCTGAAGAGCGCGCCAATGACGCCGCCGTGGCCCAGGAAGTCCAGGATCGGCAGGGTGGCGAGTCGACGGCGCCTGCTGCGCCTGCGCCCGCACCTGCACCCGCGTCGGTCCCGGCCACGGTGCCAAAACCCCAAGTGGCGGCGCCCGTCACGGCAACCACCCCGCCGGCCGCACCCGCTGCGACGCCCGCCCGGCCGGCCGCCCATGCGACGACATCCCAACCTGCACGGCCCGCGGCCAAGCCACCGGCCTCGACACCCGCCGCTACACCGGCGACCAGGGGAGCACGAGAAGAATGA	MGVRLLVLAVLSVALMVVDARFTLLKPVRSQMSLVLMESYWITDLPQRLWQGVASQFGSRTELVAENEKLKTENLLLQGRMQKLAALTEQNVRLRELLNSSALVNEKVEVAELIGMDPNPFTHRIIINKGERDGVVLGQPVLDARGLMGQVVELMPYTSRVLLLTDTTHSIPVQVNRNGLRAIASGAGNPERLELRHVADTADIKEGDLLVSSGLGQRFPAGYPVATVKEVIHDSGQPFAIVRAVPTAALNRSRYLLLVFSDNRTPEERANDAAVAQEVQDRQGGESTAPAAPAPAPAPASVPATVPKPQVAAPVTATTPPAAPAATPARPAAHATTSQPARPAAKPPASTPAATPATRGAREE	PGPT0025445_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-TRB_SECRETION_SYSTEM,PGPT0025445-trbJ-K20266	NA	NA
D1-35_01255	489	mreD	COG2891	Rod shape-determining protein MreD	ATGAGCAGTACTCGATCCGGTAACGGCTGGATGGTCTGGCTGACCTTCGCCATCGGCCTGTTGCTCAGTGTGTCGCCGCTGCCGCAGTTCATGGAGATCCTGCGTCCGTTGTGGCTGGCCTTGCTGCTGGCCTTCTGGGCGCTGGCCTTGCCGCACAAGGTCGGCATGGTCACCGCCTGGTGCCTGGGCCTGACCGAAGATGTGCTTTATGGCACGTTGCTGGGGCAGAACGCGCTTATCCTGACCTTGATCACTTTCCTGGTGCTCTCGCTGCAACAGCGCCTGCGGATGTTTCCCATGTGGCAGCAGAGCCTGGTGATCCTAGTGATCTTTGGCCTGGCGCAACTGGTGCAATTGTGGCTCAGCGCACTGACCGGCAATCGTCAGCCGACGCTGGCGCTGGTGTTGCCGGCCCTGGTCAGTGCGTTGCTCTGGCCTTGGGTCAGCTTCGGTTTGCGTGGCTTGCGCCTGCGTTTCAAGATCAACTGA	MSSTRSGNGWMVWLTFAIGLLLSVSPLPQFMEILRPLWLALLLAFWALALPHKVGMVTAWCLGLTEDVLYGTLLGQNALILTLITFLVLSLQQRLRMFPMWQQSLVILVIFGLAQLVQLWLSALTGNRQPTLALVLPALVSALLWPWVSFGLRGLRLRFKIN				NA	NA	NA	NA	NA
D1-35_01256	597	yhdE	COG0424	dTTP/UTP pyrophosphatase	ATGAAACCGCTTTACCTTGCCTCGGGCTCGCCGCGTCGGCGTGAATTGCTCACGCAGATCGGCGTTCCCTTTACCGCGATCGGCGCGGACATCGACGAAACTCCCCTCGACCACGAAACCCCATCGGCCTATGTCGAGCGCCTGGCGCGGGGCAAGGCCGAGGCCGGGCTGCACTCGTTGCAGAACGGCACCGATTGCTGTGTGCTGGGTGCCGATACCGCGGTGGTACTGGATGGCCGGATTCTCGGCAAGCCTCAGGACGAGGCCGATGCCAAGTCGATGCTGCTGAGCCTGTCCGGTCGCGACCATGAGGTATTGACCGCGATTGCCGTGCTCGATGGCCAGCGTTGCGAATCCCGGGTGGTTCGCAGTCGGGTGCGCTTTCGCCCGGTCACGGAGCAGGAAGCGATTGCCTATTGGGCCAGCGGCGAACCCCGGGACAAGGCGGGCGGCTATGGTATCCAAGGGCTGGGCGCGGTGTTCATCGCCGACCTCGAAGGCAGTTATTCGGCCGTGGTCGGCCTGCCACTATGCGAAACCGCAGAACTGCTCGGCCATTTCGGCATACCCTGTTGGCAAACCTTGAGCGCGCGCTGA	MKPLYLASGSPRRRELLTQIGVPFTAIGADIDETPLDHETPSAYVERLARGKAEAGLHSLQNGTDCCVLGADTAVVLDGRILGKPQDEADAKSMLLSLSGRDHEVLTAIAVLDGQRCESRVVRSRVRFRPVTEQEAIAYWASGEPRDKAGGYGIQGLGAVFIADLEGSYSAVVGLPLCETAELLGHFGIPCWQTLSAR				NA	NA	NA	NA	NA
D1-35_01257	1458	rng	COG1530	Ribonuclease G	ATGAGTGAAGAGATCCTGATCAACATCACGCCGATGGAATCGCGCGTGGCGGTGGTTGAAAACGGCGTCCTGCAAGAGGTCCATGTCGAGCGTACGCAAAAACGCGGCATCGTCGGCAATATCTACAAGGGCAAGGTGGTACGGGTGCTGCCGGGCATGCAGGCGGCCTTCGTCGATATCGGCCTGGACCGCGCGGCGTTCATCCACGCCTCGGAAATTTCGATGCGCGAAGGGCCGGCGGTAGAGAGCATCAGCGCCTTGGTCCATGAAGGCCAGAGCCTGGTGGTGCAGGTCACCAAGGACCCCATCGGTTCGAAGGGCGCGCGCCTGACCACCCAGTTGTCGATTCCGTCGCGCTATCTTGTGTACATGCCGCGCACCGCCCACGTTGGCATCTCCCTGAAGATCGAGGACGAAGCCGAACGCGAGCGTCTGAAGAAGGTTGTCAGCGACTGCGTTGAGAAAGAAGGCATCAAGGAGGCCGGCGGTTTCATCCTGCGCACGGCCGCCGAGGGCGCCGGGGCCGATGAAATCCTCATGGATATCCGCTACCTGCGCAGGCTCTGGGACCAGATCGCCGAGCAGATCAAGACCATCGCCACGCCGAGTGTGATCTACGAGGACCTGGGCCTGGCGCTGCGGACCCTGCGGGACCTGGTCAGCCCGAAGATCGAGAAAATCCGTATCGATTCCCGGGAAACCTTCCAGAAAACCACGCAATTCGTCGCCGAGCTGATGCCGGAAATCGCCGACCGCCTGGAGCACTACCCTGGCGAGCGGCCGATTTTCGATCTGTACGGCGTCGAAGATGAAATCCAGCGAGCCCTTGAACGCAAGGTGCCGCTCAAATCCGGCGGTTACCTGGTGGTCGATCCGGCCGAGGCGATGAGCACCATCGACGTCAATACCGGTGCATTCGTCGGCCATCGCAACCTTGAGGAAACCATCTTCAAGACCAATCTTGAAGCGGCCACGGCCATCGCCCGGCAACTGCGCCTGCGTAACCTGGGCGGGATCATCATCATCGACTTCATCGACATGGAAGACGAAGAGCACCAGCGCCAGGTGCTGCGGACCCTGGAAAAACAGCTCGAACGCGACCACGCCAAGACCAACATCATCGGCATTACCGAACTGGGCCTGGTGCAGATGACCCGCAAGCGCACCCGCGAGAGCCTTGAGCAGGTGCTGTGCGAGCCGTGCAGCAGTTGCCAGGGCCGGGGCAAGCTGAAGACTCCGGAAACCGTGTGTTACGAAATCTTCCGGGAAATCCTCCGGGAGGCGCGCGCCTACCAGGCCACCGGCTATAGAGTGTTGGCGAACCAGAAGGTGGTGGATCGCCTGCTGGATGAGGAGTCCGGCAACGTCGCGGAACTGGAGGCCTTTATCGGGCGCACGATTCGCTTCCAGGTGGAAACCATGTATTCCCAGGAACAGTACGACGTGGTGTTGCTCTGA	MSEEILINITPMESRVAVVENGVLQEVHVERTQKRGIVGNIYKGKVVRVLPGMQAAFVDIGLDRAAFIHASEISMREGPAVESISALVHEGQSLVVQVTKDPIGSKGARLTTQLSIPSRYLVYMPRTAHVGISLKIEDEAERERLKKVVSDCVEKEGIKEAGGFILRTAAEGAGADEILMDIRYLRRLWDQIAEQIKTIATPSVIYEDLGLALRTLRDLVSPKIEKIRIDSRETFQKTTQFVAELMPEIADRLEHYPGERPIFDLYGVEDEIQRALERKVPLKSGGYLVVDPAEAMSTIDVNTGAFVGHRNLEETIFKTNLEAATAIARQLRLRNLGGIIIIDFIDMEDEEHQRQVLRTLEKQLERDHAKTNIIGITELGLVQMTRKRTRESLEQVLCEPCSSCQGRGKLKTPETVCYEIFREILREARAYQATGYRVLANQKVVDRLLDEESGNVAELEAFIGRTIRFQVETMYSQEQYDVVLL				NA	NA	NA	NA	NA
D1-35_01258	3804			hypothetical protein	ATGGAGCGTCTGACACGCCTTATGGGGACGCTGACTCGCTGGGGGCTGGGCCTGTGTGCGCTGCTGCTGATACTGCTGGCCCTGTATGTCAGCCTCGGCCGGGAGTTGATCCCGCTGGTGGCCGAGTATCGCGGTGAAGCCGAGAGCCGGGCCGGCGAAGCGTTGGGCATTCCCGTGCACGTTGGTAGCCTCGAAGGCAGTTGGAGCGCCCTGGCGCCCGTCCTGGCGGCGCGCGACGTGGTAGTCGGCGAGGGGCCCAACGCCTTGCACCTGGATCAGGTACGTGCCGTGCCTGCGGTGTGGGACAGCCTGCTGGCTCGCCAGGTGCGCATCGCTCATCTGGAAGTCAGCGGCCTGAAGGTCAGCCTGAAAGAGGGCGCTGACGGCAAATGGTCCCTTGAAGGCCTGCCGGTGAAGGACGATCAGCCGCTCGATCCGCAGCAATTGCTTGAACGCATGCAGATGATTTCAAAACTGTCGGTGCTCGACAGTCAGGTCACCTTGCAACCGCTGGACCATCCGCCGCTGAGCCTGACCTATGTTGGTCTGAGCTTGCGCACCGGTCCGGCTCGCCAGCGCCTGGACGCACGTATTACCCTGCCTGACGGCCAGCCCGTGGCGCTCAACCTGCGCACCCGTATCCGCGCCAGCGATTGGCGAAATGGCGAGGCCGACGCCTACCTGAGCCTGCCGCAAAGCGACTGGTCGAAATGGCTGCCGAAACGCCTGACCCGGCAGTGGAATTTTGCCGAGATCAAGGCCGGTGGGGAATTCTGGCTCAGTTGGGGAGAGGGCACGGTGCAAAGTGCCGCCGTGCGGTTGAACGCGCCACAGATCCAGGGCGCCTATGCCGATCGCAGGCCCGTGCAAATCCACAACCTGGCCCTCAACGGATATTTCCAGCGCAGCAGCCAGGGGTTCACCGCGACCTTCGACTCGCTGGCGATGAACCTGGGTGAGACGCGCTGGGAAACACGCCTGCAGTTGCAACAGAACAGCGCCACCGAGAAGGTCGAGGAGCGTTGGCACGTGCAGGCCGATCGCCTTGACCTGACGCCGCTCACGCCGTTGCTCAATGCCCTGGCGCCATTGCCCGAAGGTGTCGCCACGGCGATCGACCGGCTCAAGGTGACCGGTGGCCTGCGCAACGTGTTGCTGGATTACCGGCCACAGAACACCGGTGATCAGAAAATCAGCTTCGCCACCAATCTGGACACGGTCGGGTTTGACGCCTATCGCGGCGCCCCGGCGGCGCGCAACGTCTCAGGCAGCCTCAGCGGTGACCTCGGCGGCGGTGAGCTGCGCATGGACAGCAAGGATTTTTCCCTGCACCTGGACCCGATTTTCGCCAAGCCCTGGCAATACTTGCAGGCCAATGCCCGGCTGACTTGGAAGCTCGACAAGCAGGGGTTCACCCTGATCGCACCGTACTTGAAGGTGCTGGGAGAGGAAGGGCGGATTGCCGGCGACTTCCTGATCCGCCTGCATTTCGACCACAGCCAGGAAGACTACATGGACCTGCGGGTCGGCCTGGTGGACGGTGACGGGCGCTACACCGCCAAGTACCTGCCGGCCGTCCTCAGTCCGGCGCTGGATGAATGGTTGCGCACCGCCATCGTCAAGGGCGCGGTGGACGAGGGTTTTTTCCAGTACCAGGGCTCGCTGAACAAAGGTGCCGAGGACGCGTCTCGCAGCATCAGCCTGTTTTTCAAGGTGCATGACGCCGAGCTGGCGTTCCAGCCGGGCTGGCCTTCGGTCAGCAAGGTCAGCGGCGACGTCTTTGTCGAGGACAGCGGCGTACGTATCTATGCCAGCCAGGGGCAACTGCTGGACACCCAGGTCAAGGATGTTGCGGTAACCATTCCCCATGCGCCGGCCGGGCAGAATGTCCATCTGTTGTTGGACGGCGGCTTTGCCGGGGTATTGGGCGACGGGCTGAAAATCCTCCAGACCGCACCCATCGGCACGGCCGAGACCTTCGCCGGTTGGGAAGGCGAGGGCGACCTGCAAGGTAAGGTGAACCTGGATATCCCGCTGGCCAAAGGTGAACAGCCGAAGATCCTGGTGGATTTCAGTACCGACAAGGCCCGGCTCAAGCTCAGTGAGCCGGCGCTGGAGCTGACCCAGCTCAAGGGCGACTTCCGTTTCGACAGCAACAAGGGGCTCAGTGGCAAGAACATCGCGGCCCGGGCATTCGACCGGCCGGTAAGCGCGCAGATTTTTGCCGAGGGCCGTGCCGGTGCGCTCGACACACGGGTGGTGGCGTCCGGGCGGGTCGAGGTCAAGAAGCTTACGGACTGGTTGAGCGTGACCCAGCCGTTGCCCATCTCCGGCGTGGTTCCCTATCAGTTGCAAGTGACGCTCAACGGTGCCGACAGCCAATTGTCGGTCAGCTCCGATCTCAAGGGCGTGGCGGTGGATCTGCCGGCGCCCTTCGGCATGGCTGCGGATGTCGGGCGCGACACGGTGTTCCGTATGACGTTGCAAGGGGCGGAGCGTCGCTACTGGGTCGATTATGGCGACCTGGCCAGCTTCACTTACGCCGCGCCGAGCGGAAAAGTCGCTGACGGGCGTGGCGAATTGCTGCTGGGCGCCGGCGAGGCGGTTCTGCCTGGCGCCAAGGGGCTGCGGCTGCGCGGCACATTGTCGGAGCTGGACGTGAGCCCCTGGCAGGATCTGTTGGGCAAATATGCCGGCAAGGACCCGGGCGGCAGTGCCCGGCAGGTGCTCAGCAGTGCCGATCTCAAGGTTGGCAAGCTCACCGCGATGGGCACGACGCTTGACCAGGCCTCGGTACAGTTGGACCGTAAGGCTGATGCCTGGGCCCTGCGGCTCGATAGCCAGCAGGCCAAGGGCAGCGTCAACCTGCCGGATGCGAAGGCCGCGCCGATCGGGATCCGGCTCGACTATGTGCGCCTGCCGGCCGCGGACCCGACGGTCCAGGCCGACGAAAACGCCCCGGACCCGCTGGCCTCGGTCGATCCGAGCCAAATCCCGGCGATGGATATCGCCATCGACCAGTTGTTCCAGGGGCCGGATCTCATTGGTGCCTGGTCGCTGAAAGTCCGGCCGACGGGCAAGGGCATCGCGCTGAATGATCTGGACATGGGGCTCAAGGGCATGGTCCTGCATGGCAATGGCGCCTGGGAGGGCCTGCCCGGTTCCACCAGCAGTTGGTACAAGGGCCGGATCAAGGGCAAGAACCTCGCCGATGTGCTCAAGGGCTGGGGGTTTGCGCCTAGCGTGACAAGCCAGGAATTCCATCTGGACGTCGACGGACGCTGGCCCGGTTCGCCTGCATGGGTCGCCACCAAGCGTTTCTCCGGCAGCCTCGATGCGTCACTCAACAAGGGTCAGTTCGTCGAAGTCGAAGGCAGCGCGCAGGCCTTGCGGGTTTTCGGCCTGTTGAACTTCAACTCCATCGGCCGGCGCTTGCGCCTGGATTTCTCCGATCTGTTCGGCAAGGGGCTGAGCTACGATCGGGTCAAGGGCCTGCTGGTGGCGAGCAGTGGTGTATACGTGACTCGTGAGCCGATTACCCTGACCGGACCTTCGAGCAACCTGGAACTCAACGGAACGCTGGACATGGTGGCTGACCGGGTCGATGCCAAGCTGCTGGTAACCCTGCCCGTCACCAATAACCTGCCGATCGCCGCGTTGATCGTCGGCGCACCGGCGGTGGGTGGGGCGCTGTTTCTGATCGACAAGCTGATCGGCGACCGCGTCGCGCGTTTTGCCAGCGTAAGATACGACGTCAAGGGGCCGTGGAAAGAGCCGAAGATCACTTTCGACAAGCCGTTTTGA	MERLTRLMGTLTRWGLGLCALLLILLALYVSLGRELIPLVAEYRGEAESRAGEALGIPVHVGSLEGSWSALAPVLAARDVVVGEGPNALHLDQVRAVPAVWDSLLARQVRIAHLEVSGLKVSLKEGADGKWSLEGLPVKDDQPLDPQQLLERMQMISKLSVLDSQVTLQPLDHPPLSLTYVGLSLRTGPARQRLDARITLPDGQPVALNLRTRIRASDWRNGEADAYLSLPQSDWSKWLPKRLTRQWNFAEIKAGGEFWLSWGEGTVQSAAVRLNAPQIQGAYADRRPVQIHNLALNGYFQRSSQGFTATFDSLAMNLGETRWETRLQLQQNSATEKVEERWHVQADRLDLTPLTPLLNALAPLPEGVATAIDRLKVTGGLRNVLLDYRPQNTGDQKISFATNLDTVGFDAYRGAPAARNVSGSLSGDLGGGELRMDSKDFSLHLDPIFAKPWQYLQANARLTWKLDKQGFTLIAPYLKVLGEEGRIAGDFLIRLHFDHSQEDYMDLRVGLVDGDGRYTAKYLPAVLSPALDEWLRTAIVKGAVDEGFFQYQGSLNKGAEDASRSISLFFKVHDAELAFQPGWPSVSKVSGDVFVEDSGVRIYASQGQLLDTQVKDVAVTIPHAPAGQNVHLLLDGGFAGVLGDGLKILQTAPIGTAETFAGWEGEGDLQGKVNLDIPLAKGEQPKILVDFSTDKARLKLSEPALELTQLKGDFRFDSNKGLSGKNIAARAFDRPVSAQIFAEGRAGALDTRVVASGRVEVKKLTDWLSVTQPLPISGVVPYQLQVTLNGADSQLSVSSDLKGVAVDLPAPFGMAADVGRDTVFRMTLQGAERRYWVDYGDLASFTYAAPSGKVADGRGELLLGAGEAVLPGAKGLRLRGTLSELDVSPWQDLLGKYAGKDPGGSARQVLSSADLKVGKLTAMGTTLDQASVQLDRKADAWALRLDSQQAKGSVNLPDAKAAPIGIRLDYVRLPAADPTVQADENAPDPLASVDPSQIPAMDIAIDQLFQGPDLIGAWSLKVRPTGKGIALNDLDMGLKGMVLHGNGAWEGLPGSTSSWYKGRIKGKNLADVLKGWGFAPSVTSQEFHLDVDGRWPGSPAWVATKRFSGSLDASLNKGQFVEVEGSAQALRVFGLLNFNSIGRRLRLDFSDLFGKGLSYDRVKGLLVASSGVYVTREPITLTGPSSNLELNGTLDMVADRVDAKLLVTLPVTNNLPIAALIVGAPAVGGALFLIDKLIGDRVARFASVRYDVKGPWKEPKITFDKPF				NA	NA	NA	NA	NA
D1-35_01259	864	nit1		Deaminated glutathione amidase	ATGCCAGTCGCCGTGATTCAAATGGTCAGCCAGAGCGATGTGCTTGCCAACCTGGCCCGTGCCCGGGTGTTGCTGGAGCAGGCCGCGGCGGGTGGCGCACGGCTCGCGGTGCTGCCGGAAAACTTCGCGGCCATGGGCCGGCGGGACGTTGCCGATATCGCGCGGGCCGAAGCCTTTGGTCAGGGTCCGATCCTGCCGTGGTTGAAACAGGTCGCGCGCGACCTCAGGTTATGGATTGTGGCCGGCACGTTGCCGTTGCCCCCGGTGGGCCAGCCCGAGGCCAAGGCCCATGCATGTTCGTTGCTGGTGGACGACCAGGGCGAGATCGTCGCGCGTTATGACAAGCTGCACCTGTTCGACGTGGACGTGGCGGACAATCGCGGTCGTTACCGCGAATCCGATGACTATGCTTATGGCGGCAACGTGGTGGTTGCCGACACACCGGTGGGCCGGGTTGGCCTGACGGTCTGCTACGACTTGCGCTTCCCCGAGCTCTACAGCGAGTTGCGGGCGGCCGGGGCCGAGCTGATTACCGCGCCTTCGGCGTTTACCGCGGTGACCGGCGCTGCGCATTGGGACGTACTGATTCGCGCCCGGGCCATCGAAACCCAGTGCTACGTGCTGGCGGCCGCCCAGGGTGGGTTGCATCCGGGGCCCCGGGAAACCTTTGGCCATGCCGCGATAGTCGACCCGTGGGGGCGTGTGCTGGCGCAACAGGATCAAGGCGAGGCCGTGCTGCTGGCCGAGCGCGACGACAGTGAACAGGCGTCCATCCGGGCGCGCATGCCGGTGGCGAGCCACCGGCGCTTTTTCTCGCAGGGCGCTCGACAGCGACCTGTCCAAGACGACGAATTCAAGGCGTAA	MPVAVIQMVSQSDVLANLARARVLLEQAAAGGARLAVLPENFAAMGRRDVADIARAEAFGQGPILPWLKQVARDLRLWIVAGTLPLPPVGQPEAKAHACSLLVDDQGEIVARYDKLHLFDVDVADNRGRYRESDDYAYGGNVVVADTPVGRVGLTVCYDLRFPELYSELRAAGAELITAPSAFTAVTGAAHWDVLIRARAIETQCYVLAAAQGGLHPGPRETFGHAAIVDPWGRVLAQQDQGEAVLLAERDDSEQASIRARMPVASHRRFFSQGARQRPVQDDEFKA	PGPT0000835_1178	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRP-DEPENDENT_PATHWAY_3,PGPT0000835-nitA|nitB|nitR|nit1-K01501	NA	NA
D1-35_01260	1443	tldD	COG0312	Metalloprotease TldD	ATGAGCGGGTTGTTGTCCTCAGTCAGTGAACACCTTTTAGCCCCCGGCGGCGTGACCCTCGAAAGCCTGCAAGGCGTGCTGGGCGACCTGGCCGGTCCGGGCATCGATGCGGCCGACCTGTATTTCCAGGGACAGATTTCCGAGTCCTGGTCGCTGGAAGACGGCATCGTCAAGGAAGGCAGTTTCAACCTCGACCAGGGTGTGGGCGTGCGTGCCCAATCCGGCGAAAAGACCGGGTTTGCCTACAGCAACGCCATCACCCTTGAGGCCCTCGGCGCCGCGGCTCGTGCGGCTCGCTCGATTTCCCGGGCCGGGCAGAATGGCACGGTCCAGGCGTTCAGCAGCCAGGACGTGGCCCAGCTGTATGCGCCGGACAACCCACTGGAAGTCATGAGTCGCGCCGAAAAGGTCGAGCTGCTCAAGCGCATTGACGTCGCCACACGTGCCCTCGACCCGCGTATCCAGCAGGTATCGGTGAGCATGGCCGGGGTCTGGGAGCGGATTCTGGTGGCCTCCACCGACGGTGGCCTGGCGGCGGATGTGCGGCCGCTGGTGCGTTTCAACGTCAGCGTGATCGTCGAGCAGAACGGTCGCCGTGAGCGCGGTGGCCACGGTGGGGGTGGTCGTACCGACTATCGTTATTTCCTCAGCGAAGACCGCGCCATGGGTTACGCCCGCGAAGCGCTGCGCCAGGCGCTGGTGAACCTTGAGGCCATCCCGGCCCCGGCCGGCACGTTGCCAGTGGTGCTCGGCTCCGGCTGGTCCGGCGTGCTGCTGCACGAAGCCGTGGGCCACGGCCTGGAAGGCGATTTCAACCGCAAGGGCAGTTCGGCCTACAGCGGTCGCATGGGCGAGATGGTCGCCTCGAAACTCTGCACCATCGTCGATGACGGCACGCTCGCCGGGCGTCGTGGTTCGCTGAGCGTCGACGACGAAGGCACCCCGACCGAATGCACCACGCTGATCGAGAACGGCGTGCTCAAGGGTTACATGCAGGACAAGCTCAATGCCCGCCTCATGGGCGTGGCCCGCACCGGCAACGGTCGCCGCGAGTCTTACGCGCACCTGCCCATGCCGCGCATGACCAACACCTACATGCTCGGCGGCCAGAGTGATCCGGCGGAAATCATCGCGTCGGTGAAGAAGGGCATCTACTGCGCCAATCTCGGCGGCGGCCAGGTGGACATCACCAGCGGCAAGTTCGTGTTTTCCACCAGCGAGGCCTACCTGATCGAAGACGGCAAGATCACCGCACCGGTCAAGGGCGCGACGTTGATCGGCAACGGGCCGGAGGCGATGAGCAAGGTGTCGATGGTCGGTAACGACCTGGCGCTGGACAGCGGCGTGGGCACGTGTGGCAAGGACGGTCAGTCGGTGCCGGTAGGCGTCGGTCAGCCGACACTGAAGATCGATGCGATTACCGTGGGTGGCACGGGCGCATAA	MSGLLSSVSEHLLAPGGVTLESLQGVLGDLAGPGIDAADLYFQGQISESWSLEDGIVKEGSFNLDQGVGVRAQSGEKTGFAYSNAITLEALGAAARAARSISRAGQNGTVQAFSSQDVAQLYAPDNPLEVMSRAEKVELLKRIDVATRALDPRIQQVSVSMAGVWERILVASTDGGLAADVRPLVRFNVSVIVEQNGRRERGGHGGGGRTDYRYFLSEDRAMGYAREALRQALVNLEAIPAPAGTLPVVLGSGWSGVLLHEAVGHGLEGDFNRKGSSAYSGRMGEMVASKLCTIVDDGTLAGRRGSLSVDDEGTPTECTTLIENGVLKGYMQDKLNARLMGVARTGNGRRESYAHLPMPRMTNTYMLGGQSDPAEIIASVKKGIYCANLGGGQVDITSGKFVFSTSEAYLIEDGKITAPVKGATLIGNGPEAMSKVSMVGNDLALDSGVGTCGKDGQSVPVGVGQPTLKIDAITVGGTGA				NA	NA	NA	NA	NA
D1-35_01261	531			hypothetical protein	ATGGTTGATTCTTACGACGACTCCCTCTACGAGGGTGAAAAAAGCAAATCCCAGGTCAAACGCGAGCTGCATGCTCTGGTTGACCTCGGCGAGCGCCTGACAACACTCAAGCCTGACTTGCTGGCCAAACTGCCCTTGACCGACGCCTTGCGCCGAGCCCTGGCCGATGCGCCCAAGCACACCGCGAATATCGCGCGTAAACGGCACCTGCAATTCATCGGCAAGCTGATGCGCGACCAGGACACTGACGCCATCCTGGTTCTGCTCGACCAGCTCGATGCCTCCACCCGGCAGTACAACGAGCGTTTCCACAACCTGGAACGCTGGCGTGATCGCCTGATCGCAGGCGATGACGGCACTCTGGAAAAATTCGTCATCGACTACCCGGACGCCGATCGCCAGCAACTGCGCTCGCTGATCCGTCAGGCCCAGCACGAACTGGCGCAAAACAAGCCGCCGGCGTCGAGCCGTAAAATCTTCAAGTACATCCGTGAGCTGGACGAGACTCAACGCGGCCTGCGCTTTGCGTAA	MVDSYDDSLYEGEKSKSQVKRELHALVDLGERLTTLKPDLLAKLPLTDALRRALADAPKHTANIARKRHLQFIGKLMRDQDTDAILVLLDQLDASTRQYNERFHNLERWRDRLIAGDDGTLEKFVIDYPDADRQQLRSLIRQAQHELAQNKPPASSRKIFKYIRELDETQRGLRFA				NA	NA	NA	NA	NA
D1-35_01262	1347	pmbA	COG0312	Metalloprotease PmbA	ATGAGTGCAGTTCAAAGCGTCGGCCCGCAAGCATTGCCGGCACTGCAGGAACAGGTCGAGCAGATCCTCGCCGAAGCCAGGCGACAGGGCGCCAGCGCGTGCGAAGTGGCGGTGTCGCTGGAGCAGGGGCTGTCGACGTCGGTGCGCCAACGCGAAGTGGAAACCGTCGAATTCAATCGCGACCAGGGCTTTGGCATCACCCTCTACGTGGGGCAGCGCAAGGGCTCGGCCAGCACCTCGGCCAGCGGCCCTGACGCCATTCGCGAAACAGTCGCCGCTGCATTGGCGATTGCCCAGCATACGTCCGAAGACGAAGCCTCCGGCCTGGCCGATGCCGCGCTGATGTGCAAGGAGCTCAAGGACTTCGATCTGTTCCACGCCTGGGACATCACGCCCGAGCAGGCCATCGAGCAGGCACTGCGCTGCGAAGCGGCGGCATTCGACGCCGACAGCCGGATCAAGAATGCCGACGGCACTACGCTCAACACCCACCAGGGTTGCCGCGTCTATGGCAACAGTCATGGGTTCATCGGCGGTTACGCATCGACCCGCCACAGCCTCAGCTGCGTGATGATCGCCGAGGCCGACGGGCAGATGCAGCGCGACTACTGGTACGACGTGAGTCGCCAGGGCACATTGCTGGCGGACCCGGTGAGCATCGGCCAGAAGGCCGCGCAACGGGCCGCCAGTCGCCTGGGCGCGCGGCCTGTGCCAACCTGTGAGGTGCCGGTGCTGTTCTCCGCCGAGTTGGCCGGTGGCTTGTTCGGCAGCTTCCTGTCGGCGGTGTCCGGCGGCAACCTGTACCGCAAATCCTCGTTCCTCGAAGGCGCGCTGGGCCAGAAACTGTTTCCGGAATGGATGACCATCGACGAGCGTCCGCACCTGATGCAGGCCATGGGCAGTTCGGCTTTCGACGGGGATGGCCTGGCCACCTATGCCAAGCCGTTCGTGGAAAACGGCGAGCTGGTTTCGTACATCCTCGGCACCTATTCGGGTCGCAAATTGGGCATGCCGAGCACCGCTAACGCCGGTGGCGTGCACAACCTGTTCGTCACTCATGGCGAGGAAGACCAGGCAGCGCTGCTGCGGCGCATGGGGCGTGGGTTGTTGGTCACCGAGCTGATGGGGCATGGCTTGAACATGGTGACCGGCGATTATTCCCGTGGCGCGGCGGGGTTCTGGGTCGAAAATGGCGAGATCCAGTTCCCGGTCCAGGAAGTCACCATTGCTGGCAACATGCGCGATATGTTCAAGCAGATCGTGGCGGTGGGCAGCGACTTGGAGCTGCGCAGCAACATCCGCACCGGCTCGGTGCTGATCGAGCGAATGATGGTGGCGGGTAGCTGA	MSAVQSVGPQALPALQEQVEQILAEARRQGASACEVAVSLEQGLSTSVRQREVETVEFNRDQGFGITLYVGQRKGSASTSASGPDAIRETVAAALAIAQHTSEDEASGLADAALMCKELKDFDLFHAWDITPEQAIEQALRCEAAAFDADSRIKNADGTTLNTHQGCRVYGNSHGFIGGYASTRHSLSCVMIAEADGQMQRDYWYDVSRQGTLLADPVSIGQKAAQRAASRLGARPVPTCEVPVLFSAELAGGLFGSFLSAVSGGNLYRKSSFLEGALGQKLFPEWMTIDERPHLMQAMGSSAFDGDGLATYAKPFVENGELVSYILGTYSGRKLGMPSTANAGGVHNLFVTHGEEDQAALLRRMGRGLLVTELMGHGLNMVTGDYSRGAAGFWVENGEIQFPVQEVTIAGNMRDMFKQIVAVGSDLELRSNIRTGSVLIERMMVAGS				NA	NA	NA	NA	NA
D1-35_01263	396			hypothetical protein	ATGAGTCTTGCCCTGCACGAACAACCCTACCTTGAAAACTGGCGCTGGATGAGTCGCCAGATCCGCTGCGCGATGAGCCCGGACGAGCCGCGGCTGATCGAACACTACCTGGCCGAGGGGCGCTACCTGGCCTGCTGCACCGCCACGTCGCCGTGGATGATTGGCGAAACTGCCTTCCGGCTGTTGCTCGACACCGCTTCGGATGTCGCGCTGCCCTGGCACTGGCGCAACCTCTGCCTGGATCAAGCCTGGCGCCCGTTGCGTGAACTTGAGCGGCAGGCGCTTTGCCGCTGCCGCCTCAAGCGCTGGCAAAGCCATGCCTGGGCGCTGGCTACCTGCGCGCTGGAGCCGTCGATTTCTCTTATTGAACTGGAGCAAGGATTTCCCGATGAGTAA	MSLALHEQPYLENWRWMSRQIRCAMSPDEPRLIEHYLAEGRYLACCTATSPWMIGETAFRLLLDTASDVALPWHWRNLCLDQAWRPLRELERQALCRCRLKRWQSHAWALATCALEPSISLIELEQGFPDE				NA	NA	NA	NA	NA
D1-35_01264	1377	fumC_2	COG0114	Fumarate hydratase class II	ATGAGTAATACCCGTATCGAACGCGACAGCATGGGTGAACTTCAGGTCCCCGTGGACGCACTCTATGGCGCGCAGACCCAGCGCGCGGTGGATAATTTTCCGGTCAGCGGCCAGCGCATGCCGGCGCAGTTCATTCGTGCCCTGATCCTGGCCAAGGCCGCCGCCGCACGAGCCAATGTCGAGTTGGAGCAAATCAGCGTCGCCCAGGGCAAAGCCATCGTCGATGCGGCCCAGGGCCTGCTCGAAGGCGACTTCATGGCGCATTTCCCGGTGGATATCTTCCAGACCGGCTCCGGCACCAGTTCCAACATGAACGCCAACGAAGTGATTGCCACGCTTGCCAGCCGCTTGCTGGGAGAGGTGGTCAACCCGAATGACCACGTCAATTGTGGCCAGAGCAGCAACGACATCATCCCCACCAGTATTCATGTCAGCGCCGCGCTGGCCCTGCACGAGCAATTGCTGCCGGCGCTGTTGCACCTGGTCCAGGTGATCGAACGCAAGGCCGAAGAAGTCCACCCCTTCATAAAGACTGGCCGCACCCACCTGATGGATGCCATGCCGGTGCGCTTGAGCCAGGTGCTCGACGGTTGGGCGCAACAGCTCAAGGCTAACATCGGCCACTTGCAGGATCTGTTGCCGAGCCTGCAGTCCCTGGCCCAGGGCGGTACGGCGGTTGGCACCGGCGTTAATGCCCATCCACGCTTCGCCGAATTGTTCAGCCAGCAGCTGACGCAACTGACCCAGGTGCAATTCACCCCGGGCAAGAACCTGTTCGCGCTGATCGGCTCCCAAGACACTGCCGTGGCGGTTTCCGGGCAGCTCAAGACTACTGCCGTGTCGCTGATGAAAATCGCCAACGACCTGCGCTGGATGAACTCAGGGCCGCTGGCCGGCCTGGGCGAAATCGAGCTGGAAGGCCTGCAGCCGGGCTCTTCGATCATGCCCGGCAAGGTCAACCCGGTCATTCCCGAAGCCACCGCCATGGTCGCAGCCCAGGTCATCGGCAACGACACGGTGATTACCATCGCCGGCCAGTCGGGCAATTTCGAACTCAACGTGATGCTGCCGATCATCGCCCAGAACCTGCTGAGCAGCATCGCCCTGATGTCCACCGCCAGCCAATTGCTGGCGGACAAGGCCATCGCCACGTTCAAGGTCAACGAAGCCAGGCTCAAGGAAGCGCTGTCGCGCAATCCTATCCTGGTCACGGCACTGAATCCGATCATTGGTTACCAGAAGGCCGCTGAAATAGCCAAGAAGGCTTATCAGCAAGGTCGCCCGGTGATCGATGTCGCCTTGGAACACACCGACCTGTCGCGCGCCGAACTGGAGATCCTGCTGGACCCGGAAAAGCTCACCGCCGGTGGTGTGTAA	MSNTRIERDSMGELQVPVDALYGAQTQRAVDNFPVSGQRMPAQFIRALILAKAAAARANVELEQISVAQGKAIVDAAQGLLEGDFMAHFPVDIFQTGSGTSSNMNANEVIATLASRLLGEVVNPNDHVNCGQSSNDIIPTSIHVSAALALHEQLLPALLHLVQVIERKAEEVHPFIKTGRTHLMDAMPVRLSQVLDGWAQQLKANIGHLQDLLPSLQSLAQGGTAVGTGVNAHPRFAELFSQQLTQLTQVQFTPGKNLFALIGSQDTAVAVSGQLKTTAVSLMKIANDLRWMNSGPLAGLGEIELEGLQPGSSIMPGKVNPVIPEATAMVAAQVIGNDTVITIAGQSGNFELNVMLPIIAQNLLSSIALMSTASQLLADKAIATFKVNEARLKEALSRNPILVTALNPIIGYQKAAEIAKKAYQQGRPVIDVALEHTDLSRAELEILLDPEKLTAGGV	PGPT0001650_4382	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
D1-35_01265	441			hypothetical protein	ATGGAGCATTGGAAACGTACGATCGAACGGGCCAATCACCATTTCCTGCAGGGCGAGTGGGTGGATGCCCGCGAAGCCTACCTGCAGGCCCTGGCCCTGGCGCAGGTGTTGTTCGAGCGTTGGGCGGATGCCGACGAAGCCGTGGCCGCCTGTGTCGTGTCGCATCACAACCTGGCGGACCTGCACTTGCGCCTGAACCAGCCGGAGGAGAGCGCCGAGTACCTCTGCGCGATTCACCAACGGTTATTGCAGACCATGCAGGACGAACGCCTGGCGCCGGCCCTGCGTGCCGCCGCGATGCGCCAAAGCCACAGGACCTACGTCGAACTGCTGAATTTCATCAGCGAGCATGGCGAGTACCCACGCACTCAGCGCCTGCTGCACAACGCTGCCGTTTCGTCCCGGCACAGCCACGTCCCTCATCATTACGGAGTCCACTGA	MEHWKRTIERANHHFLQGEWVDAREAYLQALALAQVLFERWADADEAVAACVVSHHNLADLHLRLNQPEESAEYLCAIHQRLLQTMQDERLAPALRAAAMRQSHRTYVELLNFISEHGEYPRTQRLLHNAAVSSRHSHVPHHYGVH				NA	NA	NA	NA	NA
D1-35_01266	612	sodB_1		Superoxide dismutase [Mn/Fe]	ATGGCTTTCACCTTGCCTGCATTGCCTTACGCCTACGACGCCTTGGAACCGCACATCGATGCGCAGACCATGGAGATCCACTACACCAAGCATCACCAGACTTACATCAACAACCTCAACGCGGCGGTGGATGGCACTGAATATGCCGATTGGCCCATCGAAAAACTGGTGGCCAGCGTGGAGCAATTACCGCAGGCGCTACGAGCCGCGGTGATCAACCAGGGCGGTGGTCATGCGAACCACTCGCTGTTCTGGGAAGTGATGACGCCCCACGGTGGCGGCCAGCCGGACGGTGCGCTGGCAGCGGCGATAGACGCGCAGTTGGGCGGTCTCGATCAGTTCAAGGAAGCCTTCACGAAAGCGGCACTGACCCGCTTCGGCAGCGGCTGGGCCTGGTTGAGTGTGACCCCGCAAAAGACTCTGGTGGTGGAAAGCAGCGGCAACCAGGACAGCCCGCTGATGGGCGGCAACACGCCGATCCTGGGCCTGGACGTCTGGGAGCATGCCTATTACCTGCTGTATCAAAACCGCCGTCCGGAATACATCAACGCGTTCTACAACGTGATCAATTGGCCAGAAGTCGCCCGGCGCTACCAGGCTGCGCTTGCTTGA	MAFTLPALPYAYDALEPHIDAQTMEIHYTKHHQTYINNLNAAVDGTEYADWPIEKLVASVEQLPQALRAAVINQGGGHANHSLFWEVMTPHGGGQPDGALAAAIDAQLGGLDQFKEAFTKAALTRFGSGWAWLSVTPQKTLVVESSGNQDSPLMGGNTPILGLDVWEHAYYLLYQNRRPEYINAFYNVINWPEVARRYQAALA	PGPT0004190_2928	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
D1-35_01267	891	zupT_2		Zinc transporter ZupT	ATGGACACTGAAACTCTGGCGATAGGCGGCGGGCGAATGTTCCGCTATGCCTTGGGCTCGCTGTTGCTGTTGGCTGGCATGACATTATTGGTGGCCCAAGGGCTGGCGTGGCTGGAGCTTGAGCCAAAAATGTTGCGTGCGCTCCAGGGCGGTGGGCTTTGCGCCTTGGGTACGGCGTTGGGCGCGGTGCCGGTGCTGGTGATACGGCGCATGCCTCAGGCCATGAGCGACTCGCTGCTGGGCTTCGGGGCCGGGGTGATGCTCGCCGCCACCGCGTTTTCGCTCATCGTGCCGGGCATTGCCGCAGCCGAGCAGTTGGGCTTCACGCCTTGGGCGGCCAGCGGGCTCATCTGTTTCGGCATCCTGTCGGGGGCGTTCGGACTGTACCTGGTGGACCGCAAGGTCTCTGCCAGCCCTGAACGACTGGTTGCGACCCCAGGACGACCGGTTATTGCGCCGCGGATCTGGTTGTTCGTGTTCGCCATCATCGCCCACAACATCCCGGAAGGCATGGCGGTGGGCGTTTCGGCGGGCGGCGGCATGGCGGATGCCGATAGCCTGGCGATGGGCATCGCTTTGCAGGATGTGCCGGAAGGGCTGGTGATTGCGCTGGTGCTGGCCGCGGCGGGGATGTCGCGGGTCAAGGCGTTCCTGATTGGCGCAGCGTCAGGGCTGGTCGAGCCGGTGTTCGCATTGCTCTGTGCCTGGCTGGTGACGTTGGCCGAGGTGCTGTTGCCGTTGGGGCTGGCGCTGGCCGCTGGAGCGATGCTGTTGGTGGTGACCCATGAGGTCATCCCCGAGTCGCGTCGCAATGGGCATGAAAAACTGGCGAGCCTGGGGCTCTTGCTTGGGTTCTGCTTGATGATGGTGATGGATACGGCGTTGGGGTGA	MDTETLAIGGGRMFRYALGSLLLLAGMTLLVAQGLAWLELEPKMLRALQGGGLCALGTALGAVPVLVIRRMPQAMSDSLLGFGAGVMLAATAFSLIVPGIAAAEQLGFTPWAASGLICFGILSGAFGLYLVDRKVSASPERLVATPGRPVIAPRIWLFVFAIIAHNIPEGMAVGVSAGGGMADADSLAMGIALQDVPEGLVIALVLAAAGMSRVKAFLIGAASGLVEPVFALLCAWLVTLAEVLLPLGLALAAGAMLLVVTHEVIPESRRNGHEKLASLGLLLGFCLMMVMDTALG	PGPT0004250_518	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
D1-35_01268	276	ptsO	COG1925	Phosphocarrier protein NPr	ATGCCTGCTCGGGAAATTGAAATCATCAACAAGCTGGGTTTGCATGCCCGTGCATCGGCGAAATTCGTAGGTGTCGCCGGCAAGTTTCCAGAAACCACGATCAGGGTCGGGCGCACGCCGGAGGCAACAGTCGACGGTAAGAGCATCATGGCGATGATGATGCTGGCTGCGGGTAAAGGCACCAAGATCCACCTGAGTACCGAAGGTGAACAGGCGCAGGAAGCCATGGATGCGCTGGTGGCACTGATCAACAACTATTTCGACGAAGGCGAGTAA	MPAREIEIINKLGLHARASAKFVGVAGKFPETTIRVGRTPEATVDGKSIMAMMMLAAGKGTKIHLSTEGEQAQEAMDALVALINNYFDEGE	PGPT0016875_959	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
D1-35_01269	858	rapZ	COG1660	RNase adapter protein RapZ	ATGCGTATGATCATCGTCAGTGGCCGCTCCGGCTCCGGCAAAAGCACGGCCCTCAACGTTCTTGAGGACAGTGGCTACTATTGCATCGACAATTTGCCGGCCGGCCTGCTCCCACAACTGGCCGAGCGCGCCTTGATCCACACCGAGCTGGCGCAACCGCTGGTCGCCGTCTCGATCGACGCGCGTAACCTGCCGAGCCATTTGTCGCGGTTTCCGGCATTGCTTGAAGAAGTGCGCAGCCGGCACATCCAATGCGACGTGTTGTACCTCGACGCTGACGAAGAAACCCTGCTCAAGCGCTTCTCGGAAACCCGTCGACGCCACCCGTTGAGCAACGCCAGCCGCTCCCTGGCTGAAGCGATCCATGACGAGAGCCAACTGCTGGGGCCGATTGCCGACCTGGCGGACCTGAAGGTCAACACCACCAACCTGAACCTGTACCAGTTGCGCGACACCATCAAGTTGCGCCTGCTGAACCAGCCGGAACCGGGTACGGCGTTCCTGGTGGAGTCGTTCGGCTTCAAGCGTGGCATGCCGGTGGATGCCGACCTGGTGTTTGATGTCCGCTGCCTGCCCAACCCTTACTGGAAACCCGAACTGCGCGAGCAGTCCGGGCTTGACCAGTCGGTGATCGACTACCTGGCTGCCCAGCCGGATGTCGAGGAAATGTACCAGGATATCTCCAGCTACCTGCTCAAGTGGCTACCGCGTTTTGCCGCCAGCAATCGTGCCTATGTCACGATTGCCATCGGCTGCACCGGCGGTCATCACCGCTCCGTGTACCTGACCGAACGCCTGGGTCAGCTCCTGCAAAAATCCCTGAAGAATGTCCAGGTTCGCCACCGCGACCTCAGCTAA	MRMIIVSGRSGSGKSTALNVLEDSGYYCIDNLPAGLLPQLAERALIHTELAQPLVAVSIDARNLPSHLSRFPALLEEVRSRHIQCDVLYLDADEETLLKRFSETRRRHPLSNASRSLAEAIHDESQLLGPIADLADLKVNTTNLNLYQLRDTIKLRLLNQPEPGTAFLVESFGFKRGMPVDADLVFDVRCLPNPYWKPELREQSGLDQSVIDYLAAQPDVEEMYQDISSYLLKWLPRFAASNRAYVTIAIGCTGGHHRSVYLTERLGQLLQKSLKNVQVRHRDLS				NA	NA	NA	NA	NA
D1-35_01270	465	ptsN	COG1762	Nitrogen regulatory protein	ATGATCCGACTAGAATCCATCCTGACCCCCGGCCGTTCACAGGTGAACGCGCCGGGTGGCAGTAAAAAGAAAGCCCTCGAACAAATCGCCAACCTGATCCACCGCGAAGTACCGGATCTGGAAATGCAGGACGTTTTCGAGGCGCTGGTTGCCCGTGAGAAACTCGGCTCCACCGGTTTTGGCAACGGCATCGCCATTCCCCATTGCCGCCTCAAGGGTTGTTCCGCGCCGATCAGTGCGCTGCTACACCTTGAAGCCCCCATCGATTTCGACGCCATCGACGGCGCCCCGGTCGACCTGCTGTTCGTATTGCTGGTCCCGGAAGCGGCGACCGATGCGCACCTCGAGCTGCTGCGCCAGATCGCCAGCATGCTCGACCGCAAGGAAGTACGCGAAAAACTGCGCAGCGCCCCGAGCAACGAAGCCTTGTATCAGGTAGTCCTGGACGAGCAGAACGGTCATTAA	MIRLESILTPGRSQVNAPGGSKKKALEQIANLIHREVPDLEMQDVFEALVAREKLGSTGFGNGIAIPHCRLKGCSAPISALLHLEAPIDFDAIDGAPVDLLFVLLVPEAATDAHLELLRQIASMLDRKEVREKLRSAPSNEALYQVVLDEQNGH	PGPT0000135_1093	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-OTHER_NITROGEN_FIXATION_REGULATORS,PGPT0000135-ptsN-K02806	NA	NA
D1-35_01271	309	hpf	COG1544	Ribosome hibernation promoting factor	ATGCAAGTCAACATCAGTGGACACCAACTGGAAGTGACCGAACCCCTGCGCACCTACATCGGCGAAAAGCTCGACCGATTGGAAAGGCATTTCGACAAGATCACCAACGTGCAAGTCACGATGAACGTCGAGAAGCTGCTGCAGAAAATCGAAGCCACGCTGCATATCCCCGGCGGAGAAGTGGTTGCCAACGCAGAGCATTCAGACATGTATGCCGCGATTGACCTGCTGACCGACAAGCTGGATCGCCAACTCAAAAAGCATAAGGAAAAGACCCAGAGCCTCCTCCAGGGCGCAACCGGTCGTTAA	MQVNISGHQLEVTEPLRTYIGEKLDRLERHFDKITNVQVTMNVEKLLQKIEATLHIPGGEVVANAEHSDMYAAIDLLTDKLDRQLKKHKEKTQSLLQGATGR				NA	NA	NA	NA	NA
D1-35_01272	1470	rpoN	COG1508	RNA polymerase sigma-54 factor	ATGGGCCAGCAGCTGACGATGACACCGCAGCTGCAACAGGCTATCCGCCTACTCCAATTGTCGACCCTGGACCTGCAACAGGAAATCCAGGAGGCCCTGGAGTCCAATCCGATGCTCGAACGCCAGGAAGAAGGCGACGACTTCGACAATACCGACCCACTGGCCGACAACGTCGAGCAGAAAACCACCCCGGAGGTCCCGGAACCGTCCTATCAGGAAGCCGCCCCGACGGTGGATAACCTCGACGATGGCGAATGGAGCGAACGCATTCCCAATGACCTGCCCGTGGACACGGCATGGGAAGACGTCTACCAGACCAGCGCCAGCAGCCTGCCAGGCGGTGACGACGACGAGTGGGACTTCACCACTCGCACCTCTGCTGGCGAAAGCCTGCAAAGCCATCTGCTGTGGCAACTGAACCTGGCGCCGATGTCGGACACCGATCGCCTGATCGCGGTGACGTTGATCGATTGCATCAACAACCAGGGCTACCTGGACGAGACCCTCGAAGAAATCCTCGAAGCCTTTGACCCGGAGCTCGATATCGAGCTGGACGAGATCGAAGCCGTCCTGCATCGCATCCAGCAATTCGAACCCGCCGGCATTGGCGCTCGCAACCTAGGCGAATGCCTGCTGCTGCAATTGCGCCAGCTGCCCGCCAAGACGCCATGGCTGGCCGAAGCCAAGCGCCTGGTAACCGATTACATCGACCTGTTGGGCGGCCGCGACTACAGCCAGTTGATGCGCCGGATGAAGCTCAAGGAAGATGAGTTGCGCCAGGTCATCGAACTGGTGCAAAGCCTGAATCCGCGCCCCGGCTCGCAAATCGAATCCACCGAGCCCGAGTATGTCGTCCCCGATGTGATCGTGCGCAAACACAACGATCGCTGGCTGGTGGAGCTGAACCAGGAATCGGTACCCAAGCTGCGGGTCAATGCCCAATACGCCGGTTTCGTGAAGCGTGCCGACACCAGCGCCGACAATACCTTCATGCGCAATCAGTTGCAGGAGGCGCGCTGGTTCATCAAGAGCCTGCAAAGCCGCAACGAAACCCTGATGAAAGTCGCCACCCAGATCGTCGAGCATCAGCGCGGCTTCCTGGAGTACGGTGACGAAGCGATGAAACCGTTGGTCTTGCATGACATCGCCGAGGCGGTAGGCATGCACGAGTCGACGATTTCGAGGGTGACAACCCAGAAATTCATGCATACCCCAAGGGGCATCTATGAATTGAAATACTTTTTCTCCAGCCACGTCAGTACCTCCGAAGGCGGTGAATGCTCGTCCACGGCCATCCGCGCGATCATTAAAAAACTGGTCGCTGCGGAAAATCAGAAAAAGCCGTTGAGTGACAGCAAGATCGCTGGTTTACTGGAGGCACAAGGCATTCAGGTGGCCCGCCGTACCGTCGCCAAATACCGCGAATCCCTGGGAATCGCGCCTTCGAGCGAACGCAAGCGGTTGATGTAA	MGQQLTMTPQLQQAIRLLQLSTLDLQQEIQEALESNPMLERQEEGDDFDNTDPLADNVEQKTTPEVPEPSYQEAAPTVDNLDDGEWSERIPNDLPVDTAWEDVYQTSASSLPGGDDDEWDFTTRTSAGESLQSHLLWQLNLAPMSDTDRLIAVTLIDCINNQGYLDETLEEILEAFDPELDIELDEIEAVLHRIQQFEPAGIGARNLGECLLLQLRQLPAKTPWLAEAKRLVTDYIDLLGGRDYSQLMRRMKLKEDELRQVIELVQSLNPRPGSQIESTEPEYVVPDVIVRKHNDRWLVELNQESVPKLRVNAQYAGFVKRADTSADNTFMRNQLQEARWFIKSLQSRNETLMKVATQIVEHQRGFLEYGDEAMKPLVLHDIAEAVGMHESTISRVTTQKFMHTPRGIYELKYFFSSHVSTSEGGECSSTAIRAIIKKLVAAENQKKPLSDSKIAGLLEAQGIQVARRTVAKYRESLGIAPSSERKRLM	PGPT0000795_861	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
D1-35_01273	726	lptB_2	COG1137	Lipopolysaccharide export system ATP-binding protein LptB	ATGGCAACTCTGAAAGCTCAGCATCTGGCCAAGAGCTACAAGAACCGCCAAGTCGTGCGTGATGTCAGCCTGTCCATCGAAAGCGGCCAGATCGTAGGCTTGCTCGGCCCCAATGGCGCGGGCAAGACCACCTGTTTCTACATGATTGTCGGCCTGGTGCAGGCCGACCAGGGTCGCGTACTGATCGATGACCTGGACGTCAGCCACCGGCCGATGCATGGCCGGGCAAAGGCTGGCATTGGCTACCTACCACAAGAGGCGTCGATCTTTCGCAAGTTGTCGGTAGCCGACAACATCATGGCGATCCTGGAAACCCGCCAGGAGCTCGACAAGGCCGGCCGTCGCCAGGAGCTGGAAAGCCTGCTGCAGGAGTTCCATATCAGCCACATTCGCGACAATCTGGGCATGAGCCTTTCCGGTGGCGAACGTCGCCGCGTGGAGATCGCCCGTGCCCTGGCCACCGCGCCGAAATTCATTCTGCTGGATGAGCCGTTTGCCGGCGTGGACCCGATTTCGGTGGGCGACATCAAGCAGATCATCCATCACCTCAAGGCCAAGGGAATCGGCGTGCTGATCACCGACCACAACGTACGCGAGACGCTGGATATCTGTGAAACCGCCTACATCGTCAACGATGGCCAGCTGATCGCCGAGGGCGACTCCGCCACCATCCTGGCCAACGAACTGGTCAAGGAAGTATACCTGGGCCATGAGTTCCGCCTTTAA	MATLKAQHLAKSYKNRQVVRDVSLSIESGQIVGLLGPNGAGKTTCFYMIVGLVQADQGRVLIDDLDVSHRPMHGRAKAGIGYLPQEASIFRKLSVADNIMAILETRQELDKAGRRQELESLLQEFHISHIRDNLGMSLSGGERRRVEIARALATAPKFILLDEPFAGVDPISVGDIKQIIHHLKAKGIGVLITDHNVRETLDICETAYIVNDGQLIAEGDSATILANELVKEVYLGHEFRL	PGPT0023300_2396	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023300-lptB-K06861	NA	NA
D1-35_01274	549	lptA	COG1934	Lipopolysaccharide export system protein LptA	ATGAAGCTCGCTAAAACCCTCCCTATTTTGCTCAGTCTGGGCGCAGCACTGGGAAGCGCGAGCGCCTGGGCCCTCCCCACCGACCGCGACCAGCCTATCCGCATCCAGGCCGACGACGCGCAACTGGACGACAAGAACGGCGTCGCCACTTATAAAGGCGACGTGATCATCACCCAGGGTTCGATGAAGGTCACCGGCAATACCGTGACCATCACCCGCACCCAGTCCGGCGACATCGACGTGGTGACCTCGGTGGGCAACCTGGCCTACTTCGAGCAGATGCAGACCGCGGGCGACACCAAGCCGGTCCAGGGCTATGGCGTCACCATCCAGTATCACGCGTCCCAGGACCGCGTCGTGCTGATCGACCGCGCCAAGGTTGTCGACAAGGACAATAACGTGACCCAGGGCGAGAAAATCGTCTATGACACCAACAAGAAACTGGCCAGCGCCGGTCGCGCCACTGGCAGCAAGGTCACCGAATCGCGCCCACGCATCGACATGGTGATCCAGCCGAAAAAGAAAACCGACGAGCAGAAGGCCCAGTAA	MKLAKTLPILLSLGAALGSASAWALPTDRDQPIRIQADDAQLDDKNGVATYKGDVIITQGSMKVTGNTVTITRTQSGDIDVVTSVGNLAYFEQMQTAGDTKPVQGYGVTIQYHASQDRVVLIDRAKVVDKDNNVTQGEKIVYDTNKKLASAGRATGSKVTESRPRIDMVIQPKKKTDEQKAQ	PGPT0023301_1210	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023301-lptA|yhbN-K09774	NA	NA
D1-35_01275	573	lptC		Lipopolysaccharide export system protein LptC	ATGCTAAGCAAGAAAATTCGCACCATCCTGGTGTTCGGCTGTATCGCCGCGATCTTCGCGGCGGTGGGCTACTGGAACATCAGCCCGGAACGCTTCCTCGACCAGCCTGCGGTCCAGGCGCCGGAAAACGATATCGACTGGTACGCGACCAACACGCACACCTTGCAGTACCTGCCTGACGGCAAGCTGCAGTATGAGATGACGTCGGACAAGGTCGATCACGTGAAGGCCAGCGACATGACGCTGGTCACCAAGCCGGACCTGAACATGTTCCGCGGCACGGAGTTCCCGTGGCACGTACAAAGCGAGCGCGCCGAGGTCAATCCCGGCGGCACCGAGGTGGAACTGATCGACTCGGTACGCGTGGCCCGGACCGATGAGAAGAACCGTACGACCATCATTACCAGTACCCGTATGACAGTCTTCCCGCAGCGCCAATATGCGCAGACCGAGCAACCCGTTAGAATCGACGGCGCCGGCGGCGTGTCGACCGGCACGGGAATGAAGGCCTATTTGAAGGAAAGCAGGATACACCTGCTATCGAACGTAAGAGGACAGTATGAAGCTCGCTAA	MLSKKIRTILVFGCIAAIFAAVGYWNISPERFLDQPAVQAPENDIDWYATNTHTLQYLPDGKLQYEMTSDKVDHVKASDMTLVTKPDLNMFRGTEFPWHVQSERAEVNPGGTEVELIDSVRVARTDEKNRTTIITSTRMTVFPQRQYAQTEQPVRIDGAGGVSTGTGMKAYLKESRIHLLSNVRGQYEAR	PGPT0023299_1364	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023299-lptC|yrbK-K11719	NA	NA
D1-35_01276	525	kdsC	COG1778	3-deoxy-D-manno-octulosonate 8-phosphate phosphatase KdsC	ATGAGCACAGACCTGTTGCAACGCGGCAAAGCAATCAAACTGGCAGTGTTCGACGTGGATGGTGTGCTGACCGATGGCCGCCTGTACTTCCTCGAAGACGGCAGCGAATTCAAGACGTTCAACACCCTTGATGGCCAGGGCATCAAGATGCTGATGGCCACCGGCGTGCAGACCGCCATCATCAGTGGCCGCAAGACCCCAGTGGTCGAACGGCGCGCGAAGAACCTCGGCATCCCGCACCTTTATCAGGGCCGCGAAGACAAATTGGTGGTGCTGGACGAACTCCTCGGCCAACTCAATCTAAGCTATGAGCAGGTCGCCTACCTCGGTGACGATCTGCCAGACCTTCCGGTGATCCGCCGTGTCGGCCTGGGCATGGCAGTGGCCAACGCGGCTGCCTTCGTACGCGAGCACGCCCATGGCGTCACCACGGCGAGGGGCGGCGAAGGCGCGGCCCGCGAATTCTGTGAACTGATCCTGCGTGCCCAGGGCCACCTCGAAGCGGCCAACGCCGCGTACCTGTGA	MSTDLLQRGKAIKLAVFDVDGVLTDGRLYFLEDGSEFKTFNTLDGQGIKMLMATGVQTAIISGRKTPVVERRAKNLGIPHLYQGREDKLVVLDELLGQLNLSYEQVAYLGDDLPDLPVIRRVGLGMAVANAAAFVREHAHGVTTARGGEGAAREFCELILRAQGHLEAANAAYL	PGPT0023070_1605	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
D1-35_01277	975	kdsD	COG0517	Arabinose 5-phosphate isomerase KdsD	ATGAGCCAATCCAGCGAACTGATTCAATCGGCACAACGTACCCTCCGCCTCGAACTCGAAGCCGTGCAAGGTTTGCTGGCCCATATCGATGCTGATTTCGTACGCGCGTGCGAGATGATTCTGTCCAGCAAGGGCCGCGTGGTCGTGGTGGGCATGGGCAAATCCGGGCACATCGGCAACAAGATTGCCGCGACCCTGGCCAGCACCGGCACCCCGGCGTTTTTTGTCCACCCCGCCGAAGCCAGCCATGGCGACATGGGCATGATCACTCGGGATGACATCATCCTGGCGCTGTCGAACTCCGGCTCCACCAATGAAATCGTCACCCTGCTGCCGCTGATCAAGCGCCTGGGCATCCAGTTGATCAGCCTCACCGGCAATCCTGACTCGCCGCTGGCCAAGGCCGCCGAGGTGAACCTCAACGTGCATGTCGAACACGAAGCCTGCCCGCTGAATCTGGCACCCACCTCTTCCACCACGGCGGCGCTGGTCATGGGCGACGCCCTGGCCGTGGCCTTGCTGGAAGCCAGGGGCTTCACCGCCGAAGATTTCGCTTTCTCCCACCCCGGTGGCGCCCTGGGCCGCCGGCTGCTGCTCAAGGTCGAAAACGTGATGCACGCGGGAGACGCATTGCCGCAGATACAGCGTGGCACGCTGCTCAAGGACGCCCTCATGGAGATGACCCGCAAGGGCCTGGGCATGACCGTTATTCTAGAAACGGACGGCAAGCTCGCCGGGATCTTCACCGACGGCGACCTGCGTCGTACCCTGGATCGCACCATCGATATCCACAGCACGACCATCGATGAGGTCATGACCCCCCACGGCAAGACAGCCCGGGCCGAAATGCTTGCCGCCGAAGCCTTGAAGATCATGGAAGACCACAAGATCAGCGCCCTGGTGGTGGTCGACGACGAAGACCGCCCGGTGGGCGCCCTGAATATGCACGACTTGCTGCGTGCGGGAGTCATGTAA	MSQSSELIQSAQRTLRLELEAVQGLLAHIDADFVRACEMILSSKGRVVVVGMGKSGHIGNKIAATLASTGTPAFFVHPAEASHGDMGMITRDDIILALSNSGSTNEIVTLLPLIKRLGIQLISLTGNPDSPLAKAAEVNLNVHVEHEACPLNLAPTSSTTAALVMGDALAVALLEARGFTAEDFAFSHPGGALGRRLLLKVENVMHAGDALPQIQRGTLLKDALMEMTRKGLGMTVILETDGKLAGIFTDGDLRRTLDRTIDIHSTTIDEVMTPHGKTARAEMLAAEALKIMEDHKISALVVVDDEDRPVGALNMHDLLRAGVM	PGPT0023075_1822	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
D1-35_01278	810	mlaF	COG1127	Intermembrane phospholipid transport system ATP-binding protein MlaF	ATGAGTGCCGACAACGCCTACGCGGTCGAGCTGAAGGGGCTGTCCTTCAAGCGAGGGACGCGCAGCATTTTTAATGACATCGATATTCGTATCCCGCGCGGCAAGGTGACCGGCATCATGGGGCCTTCCGGCTGCGGCAAGACCACGCTGCTGCGCCTGATGGGAGCACAATTGCGCCCCAGTGCCGGCGAAGTCTGGGTCAATGGCCAGAATCTTCCAGAACTGTCGCGCAGCGATCTGTTCGATGCGCGCAAGCATATGGGCGTGCTGTTCCAGAGCGGTGCGCTGTTTACCGATCTCGACGTATTCGAAAACGTGGCGTTTCCCCTGCGGGTCCATACGGAGCTGCCGGAAGAGATGATCCGCGATATTGTCCTGCTCAAATTGCAGGCCGTCGGGCTGCGCGGCGCCCTGGAGCTGATGCCGGACGAACTGTCCGGTGGCATGAAGCGTCGGGTCGCGTTGGCTCGGGCGATTGCCCTCGATCCGCAGATCCTCATGTACGACGAGCCCTTTGTCGGGCAGGACCCTATCGCCATGGGCGTGCTGGTGCGCCTGATCCGCTTGCTCAACGATGCGTTGGGCATCACCAGTATCGTGGTGTCCCACGACCTGGCCGAAACCGCGAGCATTGCCGACTACATCTATGTGGTCGGCGATGGCCAGGTGTTGGGGCAGGGCACGCCCGAGGAGCTGAAGGATTCGGAAAACCCGCGTATTCGCCAATTCATGAAAGGTGATCCGGACGGCCCGGTGGCGTTCCATTTTCCGGCCACGGATTACCGTACCGATCTGCTGGGGAAGCGCTGA	MSADNAYAVELKGLSFKRGTRSIFNDIDIRIPRGKVTGIMGPSGCGKTTLLRLMGAQLRPSAGEVWVNGQNLPELSRSDLFDARKHMGVLFQSGALFTDLDVFENVAFPLRVHTELPEEMIRDIVLLKLQAVGLRGALELMPDELSGGMKRRVALARAIALDPQILMYDEPFVGQDPIAMGVLVRLIRLLNDALGITSIVVSHDLAETASIADYIYVVGDGQVLGQGTPEELKDSENPRIRQFMKGDPDGPVAFHFPATDYRTDLLGKR	PGPT0007015_1866	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007015-mlaF|linL|mkl-K02065	NA	NA
D1-35_01279	798	mlaE	COG0767	Intermembrane phospholipid transport system permease protein MlaE	ATGCGCAAGAAGTCATTGATAGAAAGAGTCCGCCTGTTCGGTCGCTCGGGCATCGACGTGGTGGCAGTGCTGGGGCGTTCCTCGCTGTTCCTGATGCATGCCTTGCTCGGTCGCAGTTCGACCGGCGGCGGTTTTGGCCTGCTGGTCAAGCAGCTGCATTCGGTGGGAGTGATGTCCCTGGTGATCATCGTCGTCTCGGGGATTTTCATCGGCATGGTCCTGGCGCTCCAGGGCTTCAGCATATTGTCCAGCTACGGTTCCGAGCAGGCGGTCGGGCAGATGGTTGCGCTGACCTTGCTGCGTGAGCTCGGCCCGGTGGTCACTGCGCTGCTTTTTGCCGGGCGCGCCGGTTCGGCGTTGACGGCCGAGATCGGTAACATGAAGTCCACCGAACAGCTGTCCAGCCTGGAAATGATCGGGGTCGACCCGCTCAAGTACATCATTGCCCCGCGCTTGTGGGCCGGGTTCATTTCCCTGCCGGTGCTGGCAATGATCTTCAGTGTCGTAGGGATCTGGGGCGGCTCATGGGTTGCCGTCGATTGGCTGGGGGTCTATGAAGGCTCCTACTGGGCCAATATGCAGAACAGCGTCGATTTTCTCGACGATGTGCTCAACGGTGTGATCAAGAGTGCCGTATTCGCTTTCGTGGTGACCTGGATCGCCGTGTTTCAAGGTTATGACTGTGAGCCCACGTCAGAGGGGATCAGCCGTGCCACAACCAAGACCGTGGTATACGCCTCGTTGGCCGTCCTGGGCCTTGACTTTATTCTGACCGCCTTGATGTTTGGAGATTTCTGA	MRKKSLIERVRLFGRSGIDVVAVLGRSSLFLMHALLGRSSTGGGFGLLVKQLHSVGVMSLVIIVVSGIFIGMVLALQGFSILSSYGSEQAVGQMVALTLLRELGPVVTALLFAGRAGSALTAEIGNMKSTEQLSSLEMIGVDPLKYIIAPRLWAGFISLPVLAMIFSVVGIWGGSWVAVDWLGVYEGSYWANMQNSVDFLDDVLNGVIKSAVFAFVVTWIAVFQGYDCEPTSEGISRATTKTVVYASLAVLGLDFILTALMFGDF	PGPT0007010_3340	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007010-mlaE|linK-K02066	NA	NA
D1-35_01280	468	mlaD	COG1463	Intermembrane phospholipid transport system binding protein MlaD	ATGCAAAACCGCACCCTGGAAATCGGTGTCGGCCTTTTCCTGCTGGCTGGCATCCTGGCTTTGCTGTTGCTGGCCCTGCGGGTCAGTGGACTGGCGCCGACCGCAAGCACCGATACTTATAAACTTTATGCTTATTTTGACAATATCGCCGGTTTGACTGTCAGAGCCAAGGTGACCATGGCCGGTGTGACCATCGGCAAGGTCACGGCAATCGATCTGGATCGCGACAGTTTCACCGGTCGGGTGACGCTGCAGCTGGAAAAGCGCGTGGACAACCTGCCGACTGACTCCACTGCATCTATCCTCACGGCTGGGCTGTTGGGTGAGAAATACATCGGTATCAGCGTGGGCGGGGAAGACTCCCTGCTCAAGGATGGCGGGACCATTCACGACACGCAGTCGTCGCTGGTGCTTGAGGACCTGATCGGTAAATTCCTGCTCAATACCGTTAGCAAAGACGCCAAATGA	MQNRTLEIGVGLFLLAGILALLLLALRVSGLAPTASTDTYKLYAYFDNIAGLTVRAKVTMAGVTIGKVTAIDLDRDSFTGRVTLQLEKRVDNLPTDSTASILTAGLLGEKYIGISVGGEDSLLKDGGTIHDTQSSLVLEDLIGKFLLNTVSKDAK	PGPT0007005_9558	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007005-mlaD|linM-K02067	NA	NA
D1-35_01281	654	mlaC	COG2854	Intermembrane phospholipid transport system binding protein MlaC	ATGATCTCTATCCTGCGACGCAGCCTGCTGGTCCTGCTGGCGGCGCTGCCGCTGATGGGCAACGCCGTGGCGGCCCCTTCGGCGCACGACATCATCAAGACGACCACCGACCAACTGTTGGCCGATCTGTCGGCGAACAAGGAAAAGTACAAGCAGGACCCGGGCGCATTCTACGAGTCCTTGAATCGTATCGTCGGGCCGGTGGTGGATGCCGACGGTATTTCCAAGAGCATCATGACCGTCAAGTATTCGCGCAAGGCTACGCCCGCGCAGATGACCCGCTTCCAGGAAAACTTCAAGCGCAGCCTGTTCCAGTTCTATGGCAACGCCTTGCTCGAGTACAACAATCAGGGGATAACGGTCGACCCGGCCAAGGATGAGTCAGGCGAGCGCACCAGCGTCGGCATGACGGTCAAGGGCAACAATGGCGCCGTGTACCCGGTGTCCTACACACTCGAGAAAATCAACGGCGAGTGGAAAGTCCGCAACGTGATCATCAACGGCATCAACATCGGCAAGTTGTTCCGTGATCAGTTCGCCGATGCGATGCAGCGCAATGGCAATGACCTGGACAAGACCATCAACGGTTGGGCCGGTGAAGTCGCCAAGGCCAAGGAAGTTGCCGAAGACGCCCAAGAGAAGCAGCAACAATGA	MISILRRSLLVLLAALPLMGNAVAAPSAHDIIKTTTDQLLADLSANKEKYKQDPGAFYESLNRIVGPVVDADGISKSIMTVKYSRKATPAQMTRFQENFKRSLFQFYGNALLEYNNQGITVDPAKDESGERTSVGMTVKGNNGAVYPVSYTLEKINGEWKVRNVIINGINIGKLFRDQFADAMQRNGNDLDKTINGWAGEVAKAKEVAEDAQEKQQQ	PGPT0007670_447	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007670-mlaC-K07323	NA	NA
D1-35_01282	318			hypothetical protein	ATGAATGAGCCGGTGAGTGAATCGGCCGTTCGCCTGGGCGAGGCCGGCGAGCTGCTGCTCAGCGGCGTGCTGGATTACCGTACCGGCCCTGGATTGCGCAAGCAGGGCCAGGCGCTGATCGAGTCCGCGAAGGCTGCGGAGCTGGTTATCGACTGTTCGGGCGTGCAGAAGTCCAGCAGCGTCGGCCTGTCGCTGCTGCTGTGCTTCATGCGCGACGCCAGGGCCGCCGGCAAGACGTGGAGCATCCGCGGGATGCCCGAAGACATGCGCGAAATAGCCCAGGTCAGCGAATTGACCGAGCTGTTGGCGCATCCCTGA	MNEPVSESAVRLGEAGELLLSGVLDYRTGPGLRKQGQALIESAKAAELVIDCSGVQKSSSVGLSLLLCFMRDARAAGKTWSIRGMPEDMREIAQVSELTELLAHP	PGPT0007675_463	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007675-mlaB-K07122	NA	NA
D1-35_01283	240		COG5007	putative protein	ATGCAGGCTGTAGAAGTGAAGAGCTTCCTTGAAGGAAAGCTGCCTGGTACGCAGGTGGAAGTTGAAGGCGAAGGCTGCAACTTTCAGTTGAACGTGATCAGCGATGAACTGGCGGCGTTGAGCCCAGTGAAGCGTCAGCAGAGCATCTATGCCCATTTGAACCCATGGATCGCCGACGGCAGCATCCACGCGGTCACGATGAAATTTTTCAGCAGCGCGGCCTGGGCCGAGCGCACCTGA	MQAVEVKSFLEGKLPGTQVEVEGEGCNFQLNVISDELAALSPVKRQQSIYAHLNPWIADGSIHAVTMKFFSSAAWAERT	PGPT0013203_97	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CHAPERONES,PGPT0013203-grxD-K07390	NA	NA
D1-35_01284	1266	murA	COG0766	UDP-N-acetylglucosamine 1-carboxyvinyltransferase	ATGGATAAACTGATTATTACCGGCGGCGTTCGTCTTGATGGCGAAATCCGTATTTCCGGGGCAAAGAACTCCGCCCTGCCGATCCTGGCCGCGACGCTGCTGTGCGATGGCCCGGTGACCGTGGCCAACCTGCCGCACCTGCACGACATCACCACGATGATCGAGCTGTTCGGTCGCATGGGCATCGAGCCTGTGATCGACGAGAAGCTCAGCGTCGAAATCGACCCGCGCACCATCAAGACCCTGATCGCGCCGTACGAACTGGTGAAGACCATGCGTGCGTCGATCCTGGTACTCGGCCCGATGGTCGCTCGTTTCGGTGAAGCCGAAGTCGCCTTGCCTGGCGGTTGCGCCATCGGTTCGCGTCCGGTGGACCTGCACATCCGTGGCCTCGAAGCCATGGGCGCGGTGATCGACGTCGAAGGCGGCTACATCAAGGCCAAGGCGCCTGAAGGCGGCCTGCGTGGCGCGCATTTCTTCTTCGACACCGTCAGCGTGACCGGTACCGAAAACATCATGATGGCCGCCGCCCTTGCCAAGGGCCGCAGCGTGCTGCAAAACGCTGCCCGCGAGCCTGAAGTCGTCGACCTGGCGAACTTCCTGATCGCCATGGGCGCCAAGATCAGCGGCGCCGGCACCGACACCATCACCATCGATGGCGTCGAGCGCCTGCACTCGGCCACCTATAAAGTGATGCCGGACCGTATCGAAACCGGCACCTACCTGGTAGCCGCCGCCGTCACCGGTGGTCGCGTCAAGGTCAAGGACACCGATCCGACCATCCTCGAAGCCGTCCTGGAGAAACTCAAGGAAGCCGGTGCCGAAGTCACCTGCGGTGCAGACTGGATCGAAGTGAACATGCACGGCAAGCGGCCGAAAGCCGTCAACGTGCGGACCGCTCCATACCCGGCGTTCCCGACTGACATGCAGGCGCAGTTCATCTCCCTCAACGCCATTGCCGAAGGCACGGGCGCGGTGATCGAGACGATCTTCGAAAACCGTTTCATGCACGTCTACGAGCTGCACCGCATGGGCGCCAGGATCCAGGTCGAAGGCAACACGGCCATCGTCACCGGGACCGAAAAACTGAAAGGCGCGCCTGTCATGGCGACCGACCTGAGGGCTTCGGCCAGCCTGGTCATCTCTGCACTGGTTGCCGAAGGCGACACGCTGATCGACCGCATCTACCACATCGACCGTGGCTACGAGTGCATCGAAGAGAAGCTGCAGATGCTCGGCGCCAAGATCCGTCGCGTACCGGGCTAG	MDKLIITGGVRLDGEIRISGAKNSALPILAATLLCDGPVTVANLPHLHDITTMIELFGRMGIEPVIDEKLSVEIDPRTIKTLIAPYELVKTMRASILVLGPMVARFGEAEVALPGGCAIGSRPVDLHIRGLEAMGAVIDVEGGYIKAKAPEGGLRGAHFFFDTVSVTGTENIMMAAALAKGRSVLQNAAREPEVVDLANFLIAMGAKISGAGTDTITIDGVERLHSATYKVMPDRIETGTYLVAAAVTGGRVKVKDTDPTILEAVLEKLKEAGAEVTCGADWIEVNMHGKRPKAVNVRTAPYPAFPTDMQAQFISLNAIAEGTGAVIETIFENRFMHVYELHRMGARIQVEGNTAIVTGTEKLKGAPVMATDLRASASLVISALVAEGDTLIDRIYHIDRGYECIEEKLQMLGAKIRRVPG	PGPT0024090_3748	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790	NA	NA
D1-35_01285	636	hisG	COG0040	ATP phosphoribosyltransferase	ATGTTGACCATCGCACTGTCCAAGGGCCGCATCCTTGACGACACCCTGCCGCTTCTGGCCGAAGCGGGCATCGTGCCGACCGAGAATCCGGACAAGAGCCGCAAGCTGATCATTCCCACGACCCAGGCCGACGTGCGCTTGTTGATCGTGCGCGCCACCGATGTGCCGACCTATGTGGAACATGGCGCCGCCGATCTGGGCGTAGCCGGCAAGGACGTGCTGATGGAGTATGGCGGCCAGGGCCTTTACGAGCCGCTGGACCTGCGGATCGCCCGCTGCAAGCTGATGACCGCCGGCAAGGTCGGCGCCCCCGAGCCCAAGGGCCGCCTGCGGGTGGCGACCAAGTTCGTCAACGTTGCCAAGCGTTACTACGCCGAACAAGGCCGTCAGGTCGACATCATCAAGCTCTACGGCTCGATGGAGCTGGCGCCGCTGATCGGCCTGGCGGACAAGATCATTGACGTCGTCGACACCGGCAATACGTTGCGGGCCAATGGTCTTGAGCCGCAGGATTTCATCGCCGACGTCACCTCCCGGCTGGTCGTCAACAAGGCTTCGATGAAAATGCAGCACGCCCGCATCCAGGCCTTGATCGATACCCTGCGCAAGGCAGTGGAATCGCGACACCGCGGCTGA	MLTIALSKGRILDDTLPLLAEAGIVPTENPDKSRKLIIPTTQADVRLLIVRATDVPTYVEHGAADLGVAGKDVLMEYGGQGLYEPLDLRIARCKLMTAGKVGAPEPKGRLRVATKFVNVAKRYYAEQGRQVDIIKLYGSMELAPLIGLADKIIDVVDTGNTLRANGLEPQDFIADVTSRLVVNKASMKMQHARIQALIDTLRKAVESRHRG	PGPT0017400_3992	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
D1-35_01286	1338	hisD	COG0141	Histidinol dehydrogenase	ATGACCGCTCCCACCTCGATTCGCCGACTCAACGCTGCCGACCCGGATTTCGCACATCATCTGGATCATCTGCTGAGCTGGGAGAGTGTGTCCGACGACTCGGTCAATCAGCGTGTGCTCGACATTATCAAAGCCGTGCGCGAGCGTGGTGATGCCGCACTGGTGGAGTTCACCCAGAAGTTCGACGGCCTCCAAGTCGCCTCGATGGCCGACCTGATCCTGCCGCGCGAGCGCCTGGAGCTGGCCCTGACCCGAATCACCGTGCCCCAGCGCGAAGCCTTGGAAAAAGCTGCGTCCCGCGTGCGCAGCTATCACGAAAGACAGAAGCAGGATTCCTGGAGCTACACCGAAGCCGATGGCACGGTGCTTGGCCAGAAGGTCACGCCGCTGGACCGCGCCGGCCTGTATGTGCCGGGTGGCAAGGCCTCCTATCCGTCTTCGGTGTTGATGAATGCGATTCCGGCCAAGGTGGCTGGCGTGACCGAAGTGGTCATGGTCGTCCCGACTCCGCGCGGGGACATCAACGAACTGGTGTTGGCGGCCGCCTGCATCGCCGGCGTCGACCGAGTGTTCACCATCGGCGGTGCGCAGGCCGTGGCTGCGTTGGCCTATGGCACCGAAAGCGTGCCGCGGGTCGACAAGGTGGTCGGGCCGGGCAATATCTATGTTGCCACCGCCAAGCGCCACGTATTTGGCCAGGTCGGCATCGACATGATCGCCGGCCCTTCGGAGATCCTCGTGGTCTGCGACGGCCAGACCGACCCGGACTGGATCGCCATGGACCTGTTTTCCCAGGCCGAGCACGACGAAGATGCCCAGGCCATCCTGGTCAGTCCGGATGCAGGGTTCCTCGACAAGGTCGCTGCCAGTATCGCCAAGCTGCTGCCGACCATGGACCGCGCCGAGATCATCAACACCTCGATCAATGGCCGTGGAGCGCTGATCAAGGTCGAAGACATGGAGCAGGCCATCGAGGTCGCCAACCGCATCGCGCCGGAACACCTGGAGTTGTCGGTGGCCGACCCGCAAGCCTGGCTGCCGAAGATTCGCCATGCCGGTGCGATCTTCATGGGCCGTCACACGTCCGAGGCATTGGGTGATTATTGCGCGGGCCCCAACCACGTGCTGCCGACTTCCGGCACCGCGCGTTTCTCGTCGCCGCTGGGCGTTTACGATTTCCAGAAACGTTCGTCGATCATTTTCTGCTCCGAGCAGGGCGCGTCCGAACTGGGCAAGACCGCTTCGGTGCTGGCCCGCGGCGAATCGCTGAGCGCCCACGCTCGTAGCGCCGAGTACCGCATTCTTGACGAGCCATCCATTGAAGGGCAGGGGAACTGA	MTAPTSIRRLNAADPDFAHHLDHLLSWESVSDDSVNQRVLDIIKAVRERGDAALVEFTQKFDGLQVASMADLILPRERLELALTRITVPQREALEKAASRVRSYHERQKQDSWSYTEADGTVLGQKVTPLDRAGLYVPGGKASYPSSVLMNAIPAKVAGVTEVVMVVPTPRGDINELVLAAACIAGVDRVFTIGGAQAVAALAYGTESVPRVDKVVGPGNIYVATAKRHVFGQVGIDMIAGPSEILVVCDGQTDPDWIAMDLFSQAEHDEDAQAILVSPDAGFLDKVAASIAKLLPTMDRAEIINTSINGRGALIKVEDMEQAIEVANRIAPEHLELSVADPQAWLPKIRHAGAIFMGRHTSEALGDYCAGPNHVLPTSGTARFSSPLGVYDFQKRSSIIFCSEQGASELGKTASVLARGESLSAHARSAEYRILDEPSIEGQGN				NA	NA	NA	NA	NA
D1-35_01287	1053	hisC_3	COG0079	Histidinol-phosphate aminotransferase	ATGAGTAAATTCTGGAGCCCGTTCGTCAAGAACCTGGTGCCCTACGTGCCGGGCGAACAGCCGAAGCTGACCCGGCTGGTCAAGCTCAACACCAACGAAAATCCCTACGGCCCATCGCCCAAGGCCCTGGCCGCGATGCAGACCGAGCTGAACGACAACCTGCGCCTGTATCCGGACCCCAACAGTGATTTGCTGAAAAGCGCCGTGGCCCGATATTACGCAGTGCAGACCAACCAGGTGTTCCTGGGCAACGGTTCGGATGAAGTGCTGGCGCACATTTTCCACGGCTTGTTGCAGCACGATCAGCCGTTGTTGTTCCCGGACATCAGCTACAGTTTCTATCCGGTTTATTGCGGGCTGTACGGTATCCAGTTCGATGCGGTGCCGCTGGATGAACAATTCCGGATCGACCCGGCAGACTACGCCAAGCCCAATGGCGGGATCATTTTCCCCAACCCGAATGCGCCGACCGGTTGCCTGCTGGCGCTGGACGCGGTGGAACAGATCCTCAGGGCCAGCCCGGATTCAGTGGTAGTGGTCGATGAGGCCTATATCGATTTCGGCGGCGAAACGGCCATCAGCCTGGTGGATCGTTATCCGAACCTGCTGGTGACACAAACCCTGTCCAAGTCACGCTCGCTGGCGGGGCTGCGCGTGGGCCTGGCGGTGGGCCATCCGGACTTGATCGAAGCGTTGGAGCGGATCAAGAACAGCTTCAACTCCTACCCGCTGGATCGCCTGGCGAATGTCGGCGGCGCGGCAGCGTTCGATGATCGCGAGTATTTTGACCAGACCTGCCGGTCGGTCATCGAGCACCGCGAATGGGTAGTTGGGCAGCTTGAAGCCAAGGGTTTTGAAGTACTGCCGTCGGCGGCCAACTTCATCTTCGCCCGTCACCCCCGACATGACGCGGCGGGGCTGGCGGCGAAACTGCGCGAGCAGGGCGTGATCGTGCGGCACTTCAAGCAGGCGCGCATCGCCCAGTTCCTGAGGATCAGCATCGGCACGCCGGAGCAGAACCAGGCACTGATCGAGGCTATGGGCGAGCTCTAA	MSKFWSPFVKNLVPYVPGEQPKLTRLVKLNTNENPYGPSPKALAAMQTELNDNLRLYPDPNSDLLKSAVARYYAVQTNQVFLGNGSDEVLAHIFHGLLQHDQPLLFPDISYSFYPVYCGLYGIQFDAVPLDEQFRIDPADYAKPNGGIIFPNPNAPTGCLLALDAVEQILRASPDSVVVVDEAYIDFGGETAISLVDRYPNLLVTQTLSKSRSLAGLRVGLAVGHPDLIEALERIKNSFNSYPLDRLANVGGAAAFDDREYFDQTCRSVIEHREWVVGQLEAKGFEVLPSAANFIFARHPRHDAAGLAAKLREQGVIVRHFKQARIAQFLRISIGTPEQNQALIEAMGEL	PGPT0020305_7133	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
D1-35_01288	720		COG5266	putative protein	ATGAAATACCCCAAGACCTTTGCCCTGCTCGGCATGCTCCTGGCTATCGACGCCTCGGCCCATGGCCTGTGGACCGAACAACGCCGCGGCAATATCGAGGTGATCTACGGCCACGGCGCCGAAGACAACGCCTTCAAGGCGCAGAAAATCAGTGGCGCCTGGGCCTACGACCTCGGCGGCAAGATGATCCCGGTCACGGTGGAGCGTTTGTCGGACCACGCGCGCCTGCAGCCGCTCAAGCCGCCGGCCGTGCTGGCGGTCGCCCTGGACAACGGCATGTGGTCGCAGACCGCCGACAAGAAATGGATCAACGAAGGCCGCAGCAAAGTGCCTGGGGCGATTGAATCAACCCAGACCTTCAAGTACAGCCTGGCGATCTACGAGCCGGGCGCCAAGCTGCCGAAGCTCGAACCGATCAAGTTCGTGATCCTGCCGGAAGTCGACCCGCTGACCGTCGGCCCCGGCCAATCGCTGCCGGTGCGGGTGCTGCTCGATGGCAAACCGGCCGCCGGTGTGAAGCTGGTGGGCGACTACCGCAGCGCACCGAACACCGTGAGCACTGAAACCGACGCCGAAGGCCGGGCCAAGGTGCTGGTGCGCAATGAAGGTTTGAACGTGATCGCCGCAAGCATGGAAATCCCGCTCAAGGACAACAAGGACGTGGCGACGCGCGGGGTGTTTACTTCGCTGACATTCCTCGGTGAGCCGCATCACGAGTGA	MKYPKTFALLGMLLAIDASAHGLWTEQRRGNIEVIYGHGAEDNAFKAQKISGAWAYDLGGKMIPVTVERLSDHARLQPLKPPAVLAVALDNGMWSQTADKKWINEGRSKVPGAIESTQTFKYSLAIYEPGAKLPKLEPIKFVILPEVDPLTVGPGQSLPVRVLLDGKPAAGVKLVGDYRSAPNTVSTETDAEGRAKVLVRNEGLNVIAASMEIPLKDNKDVATRGVFTSLTFLGEPHHE	PGPT0004475_45	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-CBI_TRANSPORT_SYSTEM,PGPT0004475-cbiK-K10094	NA	NA
D1-35_01289	2106	cntO_1		Metal-pseudopaline receptor CntO	ATGTCATCCTTCAAACGGATTTCCGCTGCCAGTCTCGCCCTGGGCCTGCTCGGTGATCCCGCCTTCGCCGAAGAAATCCAGCCCCTGGAACTGGACGCCATCAACGTCACGTCCGAGTACGAATCCCCCACCGGCCCCGTTTCAGGTTATCGCGCCACCCGCTCCGCCAGCGCGACCAAAACCGACACCGCCCTGCGCGACGTCCCGCAATCCATCAGCGTGATTACCGCCAGCGTGCTCAAGGACCTGGGCAGTACCAGCGTCGAACGGGCGCTGGAATATGCCGGTGGCGTATCGAAGCAGAACAATTTCGGCGGCCTGACGCTTTATGAATACAGCGTGCGCGGCTTTACCACGTCGGAGTTCTACAAGGACGGCTTCAGCGCCAACCGCGGTTACCCAAGCACCCCGGACGCCGCCAATATCGAACGCATCGAAGTTTTGAAGGGCCCGGCGGCCAGCCTTTATGGTCGGGGAGACCCTGGCGGGACGGTGAACATTGTCACCAAGAAACCCCAACCCGAAGCCTTCACCACACTGCAGACCAGCGCCGGCAGTTGGGACCGATATCGCACAGCGCTGGACGTCAATACGCCACTGGACGCCGAAGGCAACCTGCTGTCGCGAGTAAACCTGGCGGTGGAGGACAACCACAGTTTCCGTGATCACGTCGACAGCAAGCGCGTCTTCGTGGCCCCGTCCATCAGTTGGCAACTGAGCCCGGACACTCGACTGCTGGTGGAAAGCGAAATCGTGCGCCACAGCTCGACGTTCGATCGCGGCATCGTCGCTCCGAATAATCGCTGGGGTGGCGTCTCCCGCTCGACTTTCCTCGGCGAACCCAACGACGGCGACATCGACAATCACAACAATATGCTCCAGGCCGCCCTTGAGCATCAGCTCAACGATACCTGGCAACTGCGTCTGGCCAGCCATTACAAGCAGGGTGAACTCTGGGGCTTCGCCTCAGAGGCGCGCGCCCTGAACGCCGACGGCCACACCGTGAACCGCCGCTACCGCGAGCGCGACAATGATTGGCACGACAGCATCACCCAGTTGGAACTGCGCGGCCAGTTCGACCTCGGCCCCTGGCGGCATGAACTGCTGATCGGCACGGAATACGAGGACTATCGCAAGAACGAACGCGTGACGACCATCGCCGGCAGCGCTTATCCCATCGACATTTACAACCCGATCTACGGCCAGCCGAAACCCAACGGTACGCGCTCCGGCACGGACTTCTTCGAGCATGTCGAAAGCAGGGCCCTGAACCTGCAGGACCAGATCGTCTTCACCGACAAACTACGCGGCCTGCTTGGCGTGCGCTATGAGCACTTCGAGCAAAGCATCGACAATCATGTCAACGACGTCACCAGCCGTCAGCGCCATGACGCCCTGACGCAACGCGCGGGGCTGCTGTATCAACTGACGCCTGAAGTCGGGCTGTTCGCCAACGCCTCCACTTCGTTCAAGCCCAATAACGGCCTGGATGCCGGCGGCAAGACCTTCGACCCGGAGGAAGGTGTCGGTTATGAACTCGGAATCAAGAGCGAGCTGTTCGACGATCGCCTGAGCACCACCCTGGCGGCTTTTCATATAGAGAAGGAAAACGTCCTGACCCAAGTCGCCGGAACCGACTTCAGCCGCGCCGTGGGCAAGGCCCGCAGCCAGGGCATCGACCTCCAGGTCACCGGCCAGGTGACCGACGCCGTGCGGGTAATTGGCGCCTTCGCCTACATCGATGCCGAAGTGACCAAGGGCGACGAGCAGATTCCCGACGGCAGCCGGATCCTCGGCGTTGCCAAGCGCAGCGGCAGCCTGCTTGGGGTCTACGAATTCCAGGACGGCCACCTGCGCGGCTCGGACGTTGGCGCGGCATTCACTTATGTCGGCGATCGCTCGGGCGAGGCCGGCAAGGACTTCGAACTGCCGGCCTACCACACCGTGGATCTGCTGGCCCATTACAAGGCCAGTGACAACGTCACCGTCGGCCTGAACCTGAACAACGTCCTCGACGAAAAATACTACGAACGCTCCTACAGCAATTACTGGGTCACCCCCGGCGATCCGCGCAACTTCACTGTCAGCCTCACCCTCGATCTATAA	MSSFKRISAASLALGLLGDPAFAEEIQPLELDAINVTSEYESPTGPVSGYRATRSASATKTDTALRDVPQSISVITASVLKDLGSTSVERALEYAGGVSKQNNFGGLTLYEYSVRGFTTSEFYKDGFSANRGYPSTPDAANIERIEVLKGPAASLYGRGDPGGTVNIVTKKPQPEAFTTLQTSAGSWDRYRTALDVNTPLDAEGNLLSRVNLAVEDNHSFRDHVDSKRVFVAPSISWQLSPDTRLLVESEIVRHSSTFDRGIVAPNNRWGGVSRSTFLGEPNDGDIDNHNNMLQAALEHQLNDTWQLRLASHYKQGELWGFASEARALNADGHTVNRRYRERDNDWHDSITQLELRGQFDLGPWRHELLIGTEYEDYRKNERVTTIAGSAYPIDIYNPIYGQPKPNGTRSGTDFFEHVESRALNLQDQIVFTDKLRGLLGVRYEHFEQSIDNHVNDVTSRQRHDALTQRAGLLYQLTPEVGLFANASTSFKPNNGLDAGGKTFDPEEGVGYELGIKSELFDDRLSTTLAAFHIEKENVLTQVAGTDFSRAVGKARSQGIDLQVTGQVTDAVRVIGAFAYIDAEVTKGDEQIPDGSRILGVAKRSGSLLGVYEFQDGHLRGSDVGAAFTYVGDRSGEAGKDFELPAYHTVDLLAHYKASDNVTVGLNLNNVLDEKYYERSYSNYWVTPGDPRNFTVSLTLDL	PGPT0003790_23684	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
D1-35_01290	1161	degS_2	COG0265	Serine endoprotease DegS	ATGCTCAAGGCGCTGCGTTTTTCCGGCTGGCCGCTGTTGGCCGGCGTACTTGTCGCACTACTGATTATCCAGCGCTACCCGGAATGGGTCGGCTTGCCAAGCCTCGACGTCAACCTGCAACAGGCACCGCAGGCCAAGGCTCCGCAGCAGGGCCCCGTGTCCTATGCGGATGCGGTGACCCTCGCCGCGCCGGCGGTGGTCAACCTGTACACCACCAAGGTCGTCAACAAGTCCGGTCACCCACTGTTCGAGGACCCGCAATTCCGACGCTTCTTTGGTGACAATTCCCCCAAGCAGAAGCGCATGGAATCAAGCCTGGGCTCGGGCGTCATCATGAGCCCGGAAGGCTACATCCTGACCAACAACCACGTCACCAGTGGTGCCGACCAGATCGTGGTGGCACTCAAGGACGGTCGTGAAACCCTGGCGCGGGTGATCGGCAGCGACCCGGAAACCGATCTGGCCGTGCTGAAGATCGATTTGAAGAACCTGCCGGCGATCACCATCGGCCGCTCCGACAGCATCCGTATCGGCGACGTGGCCCTGGCGATCGGCAACCCGTTCGGCGTCGGCCAGACCGTGACCATGGGCATCATCAGCGCCACCGGTCGCAACCAGTTGGGCCTGAACAACTACGAGGATTTCATCCAGACCGACGCCGCGATCAACCCCGGCAACTCCGGCGGTGCGCTGGTGGATGCCAATGGCAATCTCACCGGGATCAATACGGCGATCTTCTCCAAGTCCGGCGGCAGCCAGGGCATTGGCTTCGCCATTCCGGTGAAGCTGGCCATGGAGGTGATGAAGTCGATCATCGAGCACGGCCAGGTGATTCGCGGCTGGCTGGGCATTGAAGTCCAGCCGCTGACCCAGGAGCTGGCGGAATCCTTTGGCTTGTCCGGGCGCCCCGGCATCGTCGTGGCGGGGATTTTCCGCGACGGTCCGGCCCAGAAAGCCGGCCTGCAATTGGGTGACGTGATCCTCAGCATCGACGGCGAACCGGCCGGCGACGGCCGCCGCTCGATGAACCAGGTGGCGCGGATCAAGCCCACCGACAAGGTCACCATCCAGGTGATGCGCAACGGCAAGGAGCTCAAGCTCACCGCCGAGATCGGCCTGCGTCCACCGCCGGCACCGGTGGTGCTCAAGGAAGAAGAGTAA	MLKALRFSGWPLLAGVLVALLIIQRYPEWVGLPSLDVNLQQAPQAKAPQQGPVSYADAVTLAAPAVVNLYTTKVVNKSGHPLFEDPQFRRFFGDNSPKQKRMESSLGSGVIMSPEGYILTNNHVTSGADQIVVALKDGRETLARVIGSDPETDLAVLKIDLKNLPAITIGRSDSIRIGDVALAIGNPFGVGQTVTMGIISATGRNQLGLNNYEDFIQTDAAINPGNSGGALVDANGNLTGINTAIFSKSGGSQGIGFAIPVKLAMEVMKSIIEHGQVIRGWLGIEVQPLTQELAESFGLSGRPGIVVAGIFRDGPAQKAGLQLGDVILSIDGEPAGDGRRSMNQVARIKPTDKVTIQVMRNGKELKLTAEIGLRPPPAPVVLKEEE	PGPT0014286_734	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS_SIGNALLING,PGPT0014286-degQ|hhoA-K04772	NA	NA
D1-35_01291	759		COG0327	GTP cyclohydrolase 1 type 2	ATGGCCGTAGCCCTGAGCACCCTGGTTGAAGAAGCGGACCGATACCTGGCAAGCAGCCGGGTCGCCGATTACTGCCCCAATGGCTTGCAGGTCGAGGGCGCGCCGCAGGTGATGCGCATCGTCAGCGGCGTGACCGCCAGCCAGGCGCTGCTCGACGCCGCCGTGGAGGCCAGCGCCGACCTGGTGCTGGTGCATCATGGTTATTTCTGGAAGGGTGAGAACCCGTGCATCACCGGCATGAAGCAGCGGCGCCTGAAAACGCTGCTCAAGCACGACATCAGTCTCTTGGCTTACCACTTGCCGCTGGATCTGCACCCCGAGGTGGGCAATAACGTGCAACTCGCCCGGCAGTTGGACATCACCGTGGAGGGGCCGCTGGACCCGGACAATCCGAAAATCGTCGGCCTGGTCGGCTCCTTGTCCGAGCCGATGACGCCCCGGGATTTCGCTCGCAAGGTCCAGGAAGTGATGGGGCGCGAGCCGTTGTTGATCGAAGGCGAGCAGATGATCCGCCGGGTGGGCTGGTGCACCGGCGGTGGCCAGGGCTACATCGATCAGGCGGTACTCGCCGGGGTTGACCTGTATCTCAGCGGCGAAGCGTCGGAGCAGACCTTCCACAGCGCCCGGGAGAACGGCATCAGCTTCATTGCTGCCGGGCATCATGCGACCGAGCGCTACGGCGTCCAGGCGCTGGGTGACTATCTGGCGCGACGCTTCGCGCTGGAGCATATCTTCATCGATTGCCCGAATCCTATCTGA	MAVALSTLVEEADRYLASSRVADYCPNGLQVEGAPQVMRIVSGVTASQALLDAAVEASADLVLVHHGYFWKGENPCITGMKQRRLKTLLKHDISLLAYHLPLDLHPEVGNNVQLARQLDITVEGPLDPDNPKIVGLVGSLSEPMTPRDFARKVQEVMGREPLLIEGEQMIRRVGWCTGGGQGYIDQAVLAGVDLYLSGEASEQTFHSARENGISFIAAGHHATERYGVQALGDYLARRFALEHIFIDCPNPI				NA	NA	NA	NA	NA
D1-35_01292	918	cysD	COG0175	Sulfate adenylyltransferase subunit 2	ATGGTCGACAAACTGACGCATCTGAAACAGCTGGAGGCGGAAAGCATCCACATCATCCGCGAGGTGGCCGCCGAGTTCGATAACCCGGTGATGCTGTACTCCATCGGTAAAGACTCCGCCGTGATGCTGCACCTGGCACGCAAGGCGTTTTTCCCCGGCAAGCTGCCGTTTCCGGTGATGCACGTCGACACCCGCTGGAAATTCCAGGAGATGTACAAGTTCCGCGACAAGATGGTCGAAGAACTGGGCCTGGACCTGATCACCCACATCAACCCGGACGGCGTCGCGCAGAACATCAACCCGTTCACCCACGGTAGCGCCAAGCACACCGACATCATGAAGACCGAGGGCCTGAAGCAGGCGCTCGACAAGCATGGTTTCGACGCTGCATTCGGCGGCGCCCGTCGCGATGAAGAGAAGTCCCGCGCCAAGGAGCGCGTCTACTCGTTCCGCGACAGCAAGCACCGCTGGGACCCGAAGAACCAGCGCCCCGAACTGTGGAACGTCTATAACGGCAAGGTCAACAAGGGCGAGTCGATCCGCGTCTTCCCGCTGTCGAACTGGACCGAGCTGGACATCTGGCAGTACATCTACCTCGAAGGCATCCCGATCGTGCCGTTGTACTTCGCCGCCGAGCGTGAAGTGATCGAGAAGAACGGCACGCTGATCATGATCGACGACGAGCGCATCCTCGAGCACCTGTCCGACGAAGACAAGGCGCGCATCGTCAAGAAGAAAGTGCGTTTCCGTACCCTTGGCTGCTACCCGTTGACGGGCGCGGTGGAGTCCGAGGCCGAAAGCCTGACGGACATCATTCAGGAAATGCTCCTGACGCGAACTTCCGAGCGCCAGGGCCGGGTCATCGACCACGATGGCGCAGGCTCGATGGAAGACAAGAAACGTCAGGGTTATTTCTAA	MVDKLTHLKQLEAESIHIIREVAAEFDNPVMLYSIGKDSAVMLHLARKAFFPGKLPFPVMHVDTRWKFQEMYKFRDKMVEELGLDLITHINPDGVAQNINPFTHGSAKHTDIMKTEGLKQALDKHGFDAAFGGARRDEEKSRAKERVYSFRDSKHRWDPKNQRPELWNVYNGKVNKGESIRVFPLSNWTELDIWQYIYLEGIPIVPLYFAAEREVIEKNGTLIMIDDERILEHLSDEDKARIVKKKVRFRTLGCYPLTGAVESEAESLTDIIQEMLLTRTSERQGRVIDHDGAGSMEDKKRQGYF	PGPT0002405_1198	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002405-cysD-K00957	NA	NA
D1-35_01293	1899	cysNC	COG0529	Bifunctional enzyme CysN/CysC	ATGTCGCACGTATCTGATTTGATCAGCGAGGACATCCTCGCCTACCTGGGCCAGCACGAACGTAAAGAGCTGCTGCGCTTTTTGACCTGCGGTAACGTCGACGACGGCAAGAGCACCCTGATCGGGCGCCTGCTGCACGACTCGAAGATGATCTACGAAGATCATCTGGAAGCGATCACTCGCGATTCGAAGAAAGTCGGCACCACCGGTGACGACATCGACCTGGCGCTGCTGGTCGACGGCCTGCAGGCCGAGCGCGAGCAAGGCATCACCATCGATGTCGCCTACCGCTATTTCTCCACCGCCAAGCGTAAATTCATCATCGCCGACACGCCCGGCCATGAGCAGTACACCCGCAACATGGCCACCGGTGCCTCCACCTGTGACCTGGCGATCATCCTCGTGGATGCCCGCTACGGCGTGCAGACCCAGACCCGTCGCCACAGCTTCATCGCCTCGTTGCTGGGCATCAAGCACATCGTCGTGGCCATCAACAAGATGGACCTCAAGGACTTCGACCAGGGCGTATTCGAGTCGATCAAGGCCGACTACCTGAAGTTCGCCGAAGGCTTGAAGATGAAGCCCACCAGCATGCACTTCGTGCCGATGTCGGCGCTCAAGGGCGACAACGTGGTGAACAGGTCCGAGCGTTCGCCGTGGTACACCGGCCAGTCGCTGATGGAAATTCTCGAGACCGTGGAAGTGGCGGGCGACCGCAACTTCACCGACCTGCGTTTCCCGGTGCAGTACGTCAACCGTCCGAACCTGAACTTTCGCGGTTTCGCCGGCACCCTTGCCAGCGGCATCGTGCACAAGGGCGACGAAGTCGTGGTGCTGCCGTCGGGCAAGAGCAGCCGCGTGAAATCCATCGTCACCTTCGAGGGCGAGCTGGAACACGCCGGCCCAGGCCAGGCTGTGACGTTGACCATGGAAGACGAGATCGATATCTCCCGTGGCGACCTGCTGGTACACGCCGACAACGTTCCGCCGGTGACCGACAGCTTCGAAGCGATGCTGGTGTGGATGGCCGAAGAGCCGATGCTGCCGGGCAAGAAGTACGACATCAAGCGCGCCACCAGTTACGTGCCCGGCTCGATTGCCAGCATCGTCAACAAGGTCGATGTGAACACCCTTCAAGAAGGTCCGGCCAGCGCGTTGCAGCTCAACGAAATCGGCAAGGTGAAGATTGCTCTGGACGCGCCGATCGCCCTGGACGGCTACGAGAGCAACCGCACCACCGGCGCCTTCATTATCATCGACCGCCTGACCAACGGCACCGTCGGTGCCGGCATGATCGTCGCCCAGCCGCTGGCCCACGGCAGCAGCACGCACCACGGCAAACTGGCCCACGTGTCGGTGGAAGAACGCACCCAGCGTTTCGGCCAGCAGCCGGCCACCGTGCTGTTCAGCGGCCTGTCGGGCGCGGGCAAGAGCACGCTGGCCTATGCTGTAGAGCGCAAGCTGTTCGACATGGGCCGCGCGGTGTTCGTGCTCGATGGTCAAAACCTGCGCCACGACTTGAACAAAGGCTTGCCGCAGGACCGTGCCGGACGCACCGAGAACTGGCGTCGTGCGGCTCACGTCGCCCGTCAGTTCAACGAAGCGGGCCTGTTGACCCTGGCCGCCTTCGTTGCACCGAGTGCCGAAGGGCGTGAGCAGGCCAAGGACCTGATCGGCCGCGAGCGCCTGCTGACGGTCTATGTCCAGGCCTCGCCAACGGTGTGCGCCCAGCGTGATCCGCAAGGGCTGTATGCCGCCGCCGGCGACAACATCCCGGGCGAGTCCTTCCCGTACGACGTGCCGCTGGATGCCGACCTGGTGATCGACACCCAGTCGCTGACCCTGGAAGAGAGCGTCAAGCAGGTGCTGGATCTGCTGCGCAAGCGTGGGGCGATCTAA	MSHVSDLISEDILAYLGQHERKELLRFLTCGNVDDGKSTLIGRLLHDSKMIYEDHLEAITRDSKKVGTTGDDIDLALLVDGLQAEREQGITIDVAYRYFSTAKRKFIIADTPGHEQYTRNMATGASTCDLAIILVDARYGVQTQTRRHSFIASLLGIKHIVVAINKMDLKDFDQGVFESIKADYLKFAEGLKMKPTSMHFVPMSALKGDNVVNRSERSPWYTGQSLMEILETVEVAGDRNFTDLRFPVQYVNRPNLNFRGFAGTLASGIVHKGDEVVVLPSGKSSRVKSIVTFEGELEHAGPGQAVTLTMEDEIDISRGDLLVHADNVPPVTDSFEAMLVWMAEEPMLPGKKYDIKRATSYVPGSIASIVNKVDVNTLQEGPASALQLNEIGKVKIALDAPIALDGYESNRTTGAFIIIDRLTNGTVGAGMIVAQPLAHGSSTHHGKLAHVSVEERTQRFGQQPATVLFSGLSGAGKSTLAYAVERKLFDMGRAVFVLDGQNLRHDLNKGLPQDRAGRTENWRRAAHVARQFNEAGLLTLAAFVAPSAEGREQAKDLIGRERLLTVYVQASPTVCAQRDPQGLYAAAGDNIPGESFPYDVPLDADLVIDTQSLTLEESVKQVLDLLRKRGAI	PGPT0002395_608	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-INHIBITION_OF_SALICYLIC_ACID|JASMONIC_ACID	ADAPTION_TO_PIS_REGULATION_BY_Nod_FACTORS,PGPT0002395-cysNC-K00955	NA	NA
D1-35_01294	909	yihG_1	COG0204	putative acyltransferase YihG	ATGCTGGATTTCCTGCCTGCCCCCGTGCGCGGCGTCATTGCCTCGCTGCTGTTGGCGCTGAACACCATCGCCTGCTGTACGCCGCTGTTCGTCGTGGCGATCTTCAAGCTGTTGCTGCCCTTCCCCGCCGCCCAGCGTTTCACCGACTGGCTGATGAGCCACATCCACGAAGCCTGGATCAGTAACAACAAGGCCTGGATGAACCTGGTGCGCCCTACCCGCTGGCGCCTCAGCGGCCTGGAAGGCCTGGACTACCAGCACTCGTACCTGATCACCAGCAACCACCAGAGCTGGGTCGACATCATGGTGCTGCAATACGTGCTGAACCGACGCATCCGTCCATTGAAGTTCTTTCTCAAGCAGGAGCTGATCTGGGTGCCGGTGATCGGCCTGGCCTGGTGGGCGCTGGGGTTTCCGTTCATGAAGCGTTACTCCAAGACGTACCTGGAAAAGCATCCGGAGAAGAAAGGCAAGGACCTGGAAACCACCCGCAAGACCTGCGCGAAGTTTCGCAACAACCCCGTGGGCATCTTCAATTTCGTCGAAGGCACGCGCTTCACCGAGGGTAAGCATGCCCAGCAACAATCACCGTTTCGCTACCTGCTCAAGCCCAAGGCCGGCGGCATCGCGTTTGTGCTTGATGCGATGGGCGAGCAACTGGAGTCGATCATCAACGTGACGATCCATTATCCGGGCGGCCGTCCGGGCTATTGGGATTTGCTCTGCGGCAACGTTGGCGAGGTGGTGGTGCATTTCCAGGAGTTGAAGATCCCGCCGCAGTTCATCGGCAAAAGCTACGACCAGGATGGGGAGTATCGCCTGGAATTCCAGGGTTGGATCAATCAGTTGTGGCAAGACAAGGATGCGCTGCTTGAGCAGATGCATCGCGAGTATCCCGCCAAGTCTTGA	MLDFLPAPVRGVIASLLLALNTIACCTPLFVVAIFKLLLPFPAAQRFTDWLMSHIHEAWISNNKAWMNLVRPTRWRLSGLEGLDYQHSYLITSNHQSWVDIMVLQYVLNRRIRPLKFFLKQELIWVPVIGLAWWALGFPFMKRYSKTYLEKHPEKKGKDLETTRKTCAKFRNNPVGIFNFVEGTRFTEGKHAQQQSPFRYLLKPKAGGIAFVLDAMGEQLESIINVTIHYPGGRPGYWDLLCGNVGEVVVHFQELKIPPQFIGKSYDQDGEYRLEFQGWINQLWQDKDALLEQMHREYPAKS				NA	NA	NA	NA	NA
D1-35_01295	2100	pta	COG0280	Phosphate acetyltransferase	ATGCAGACTTTTTTTATCGCGCCCACCGACTTTGGTGTGGGTCTGACCTCCATCAGCCTCGGGCTGGTGCGTACCCTCGAACGGGCCGGGCTGAAAGTCGGCTTTTTCAAACCCATCGCCCAGCCCCACCCTGGCGATACCGGCCCGGAACGCTCCACCGAACTGGTGGCCCGTACCCACGGCCTCAAGCCACCGCAACCACTGGGCCTGGCCCATGTGGAGCGCATGCTCGGCGATGGCCAGCTCGATGAATTGCTGGAAGAAATCATCACCCTCTATCAACAGGCCGCGATCGGCAAGGACGTGCTGGTCGTCGAGGGCATGGTCCCGACCCGCAGCGCCAGCTACGCCGCCCGGGTCAACCTGCACCTGGCCAAGAGCCTGGACGCCGAGGTGATCCTGGTGTCGGCGCCGGAAAACGAAGTGCTGACCGAACTGTCCGGTCGTGTCGAGTTGCAGGCGCAACTGTTCGGCGGGCCGAAAGATCCGAAGGTCCTCGGCGTGATCCTCAACAAGGTGCGCACCGACGAAAGCATGGAAGCGTTTTCAGCACGGCTCAAGGAGCACTCGCCCCTGCTGCGCAGCGGCGACTTCCGCCTGCTCGGCTGCATCCCTTTTCGCCCCGAACTCAACGCCCCGCGCACCCGCGACGTGGCCGACCTGATGGGCGCGCAGGTACTCAACGCCGGCGACTACGAAACCCGGCGCATGAGCAACATCATCATCTGCGCCCGCACCATGCGCAACACGGTGGAGCTGCTCAAGCCCGGCGTATTGGTGGTCACCCCGGGCGATCGCGATGACATCATCCTGGCCGTGAGCCTGGCGGCGATCAACGGCGTGCCGCTGGCCGGCCTGCTGCTGACCAGCGACACCCTGCCCGACCCGCGCATCATGGACTTGTGCCGAGGCGCCTTGCAGGCGGGGTTGCCGGTGCTGTCGGTGAGCACCGGTTCCTACGACACCGCCAACCTGCTCAACAGCCTGAACAAGGAAATCCCCATCGATGACCGCGAACGCGCGGAGATCATCACCGATTTTGTTGCCAGTCACCTCGACGCCAACTGGCTGCACCAACGCTGCGGCACGCCCCGGGAAATGCGCCTGTCGCCGGCGGTGTTCCGCTACCAACTGATCCAGCGCGCCCAAGCGGCCAACAAGCGTATCGTCTTGCCCGAAGGCAGCGAACCGCTGACCGTACAGGCGGCGGCGATTTGCCAGGCCCGAGGCATCGCCCGTTGCGTGCTGCTGGCCAAGCCGGCCGACGTCGAAGCGGTGGCCCGCGCCCAAGGCATCGAACTGCCGCCTGGGTTGGAGATTCTCGACCCGGATACGATCCGCGAGCGCTACGTGGAACCCATGGTGCGGCTGCGCAAAAGCAAGAGCCTGAACGCACCGATGGCCGAGCAGCAACTGGAAGACACCGTGGTGATCGGCACCATGATGCTGGCGCTGGATGAAGTCGACGGGCTTGTCTCGGGGGTCATCCACTCCACCGCCAATACCATTCGCCCGGCGTTGCAACTGATCAAGACCGCACCCGGCTGTTCGCTGGTGTCCTCGGTATTTTTCATGCTGTTTCCCGAGGAAGTGCTGGTCTACGGCGACTGCGTGATGAACCCGCACCCCAGTGCAGCGGAGCTGGCCGAAATCGCCCTGCAAAGCGCCGATTCAGCCGCAGCGTTCGGCATCACGCCACGGGTGGCGATGCTCAGCTATTCCAGCGGCGAATCGGCCAGCGGTGAAGAAGTGGAGAAGGTCCGCGAAGCCACCCTGCTGGCCCACGAGGCACAACATGGCTTGCTGATCGACGGGCCGTTGCAATACGACGCCGCCGCCAACGAGGCCGTGGCCCGGCAATTGGCGCCCAACAGCCAGGTAGCCGGCCGCGCCACGGTGTTCATTTTCCCGGACCTGAACACCGGCAACACCACCCACAAGGCCGTGCAGCGCAGCGCCGACTGCGTCAGCCTCGGGCCGATGCTGCAAGGCCTGCGCAAACCGGTGAACGACCTGCCGCGCGGCGCCCAGGTCGATGACATCGTGTACACCATCGCCCTGACAGCGATCCAAGCCGCCAACCGACCTCTGGACATTTAA	MQTFFIAPTDFGVGLTSISLGLVRTLERAGLKVGFFKPIAQPHPGDTGPERSTELVARTHGLKPPQPLGLAHVERMLGDGQLDELLEEIITLYQQAAIGKDVLVVEGMVPTRSASYAARVNLHLAKSLDAEVILVSAPENEVLTELSGRVELQAQLFGGPKDPKVLGVILNKVRTDESMEAFSARLKEHSPLLRSGDFRLLGCIPFRPELNAPRTRDVADLMGAQVLNAGDYETRRMSNIIICARTMRNTVELLKPGVLVVTPGDRDDIILAVSLAAINGVPLAGLLLTSDTLPDPRIMDLCRGALQAGLPVLSVSTGSYDTANLLNSLNKEIPIDDRERAEIITDFVASHLDANWLHQRCGTPREMRLSPAVFRYQLIQRAQAANKRIVLPEGSEPLTVQAAAICQARGIARCVLLAKPADVEAVARAQGIELPPGLEILDPDTIRERYVEPMVRLRKSKSLNAPMAEQQLEDTVVIGTMMLALDEVDGLVSGVIHSTANTIRPALQLIKTAPGCSLVSSVFFMLFPEEVLVYGDCVMNPHPSAAELAEIALQSADSAAAFGITPRVAMLSYSSGESASGEEVEKVREATLLAHEAQHGLLIDGPLQYDAAANEAVARQLAPNSQVAGRATVFIFPDLNTGNTTHKAVQRSADCVSLGPMLQGLRKPVNDLPRGAQVDDIVYTIALTAIQAANRPLDI	PGPT0001370_894	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0001370-pta-K13788	NA	NA
D1-35_01296	486	slyD	COG1047	FKBP-type peptidyl-prolyl cis-trans isomerase SlyD	ATGCTGATCGCCGCCAATAAGGCTGTCTCCATCGACTATACCCTGACCAACGACGCTGGTGAGGTCATCGACAGCTCCGCCGGCGGCGCTCCGCTGGTCTACCTGCATGGCGCAGGCAACATCATCCCGGGCCTGGAAAAAGCCCTGGAAGGCAAAACCACCGGTGACGAGCTGAAAGTGGCCGTTGAGCCGGAAGACGCTTATGGCGAATATTCCGCCGAGCTGGTCAGCACCCTGAGCCGCAGCATGTTCGAAGGCGTGGATGAGCTGGAAGTGGGCATGCAGTTCCACGCTTCGGCGCCTGATGGCCAGATGCAAATCGTCACTATCCGTGACCTCGACGGCGACGACGTGACTGTCGACGGCAACCACCCGTTGGCCGGTCAGCGCTTGAACTTCCAGGTCAAGATCGTCGACATCCGTGATGCCAGCCAGGAAGAAATCGCCCATGGCCACGTCCATGGTGAAGGCGGCCATCAGCACTGA	MLIAANKAVSIDYTLTNDAGEVIDSSAGGAPLVYLHGAGNIIPGLEKALEGKTTGDELKVAVEPEDAYGEYSAELVSTLSRSMFEGVDELEVGMQFHASAPDGQMQIVTIRDLDGDDVTVDGNHPLAGQRLNFQVKIVDIRDASQEEIAHGHVHGEGGHQH				NA	NA	NA	NA	NA
D1-35_01297	483	btuE_2	COG0386	Thioredoxin/glutathione peroxidase BtuE	ATGAGTGCTTTCCACGACCTTAAACTGCAAGCCCTGGATGGTCAGGAGCTTCCCCTCGCGCCATTCAAGGGCCAAGTCGTGCTGGTGGTCAACGTCGCCTCCAAATGTGGCCTGACGCCTCAGTACGCGGCGCTGGAAAATCTTTATCAGCAATACAAGGACCAGGGGTTCAGCGTGCTGGGCCTGCCCTGTAATCAGTTCGCCGGCCAGGAGCCTGGGACCGAGCAGGAGATCCAGGAATTCTGCAGCCTCAATTACGGCGTGACGTTTCCGCTGTCGAGCAAGCTGGAAGTGAACGGCCACGACCGTCACCAGCTGTACCGTCTGTTGGCGGGTGAAGGTGCCGAGTTTCCCGGGGACATCACCTGGAACTTCGAAAAATTCCTGCTCGGCAAGGACGGCCGGGTGCTGGCGCGTTTCTCGCCGCGCACGTCGCCGGATGATCCTTCGGTGATCCAGGCGATTGAAAAAGCGCTGAGCTAA	MSAFHDLKLQALDGQELPLAPFKGQVVLVVNVASKCGLTPQYAALENLYQQYKDQGFSVLGLPCNQFAGQEPGTEQEIQEFCSLNYGVTFPLSSKLEVNGHDRHQLYRLLAGEGAEFPGDITWNFEKFLLGKDGRVLARFSPRTSPDDPSVIQAIEKALS	PGPT0013115_4796	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013115-bsaA|gpx|btuE-K00432	NA	NA
D1-35_01298	1104			NADH oxidase	ATGCCTGTAAGAGCCCTGTTCAAACCCTTTCATCTCGGCGCGCTGGAACTGCCGACCCGGGTCGTGATGGCGCCGATGACGCGCTCCTTTTCGCCTGGCGGCGTGCCGAACTCCAAGGTGATCGAGTATTACCGTCGTCGCGCGGCGGCCGGGGTCGGCCTGATCATCACCGAGGGCACCACGGTCGGCCACCGGGCGTCCAATGGCTATCCGAACGTACCGCACTTCTACGGCGACGCCGCGCTGGCCGGCTGGAAAAAAGTGGTCGATGCCGTGCACGCCGAAGGCGGCAAGATTGTTCCGCAACTGTGGCATGTGGGCAACGTGCGGCGCCTCGGCACCGAGCCGGATGGCGCCGTGCCGGGCTACGGCCCGACTGAAAAGCTCAAGGATGGCCAAGTCGTGGTCCATGGCATGAGCCAGACGGACATCGACGAGGTCATTGCGGCATTCGCCCAAGCGGCAAAAGATGCCCAGAGCATCGGCATGGACGGGGTGGAAATCCACGGTGCCCACGGCTACCTGGTGGACCAGTTTTTCTGGGAAGGCAGTAATCAGCGCACCGATGGTTATGGTGGCAGCCTGGCCAACCGTTCGCGCTTTGCGATCGAGCTGATTCGCGCGGTGCGGGCTGCGGTAGGTGAGGGCTTCCCGATCATTTTCCGTTTCTCCCAATGGAAACAGCAGGACTACACCGCGCGCCTGGTGCAGACGCCCGAAGCGCTGGGAGAATTTCTCAAGCCCCTGGCGGATGCCGGCGTGGATATCTTCCACTGTTCTACGCGTCGCTTCTGGGAGCCGGAATTCGAAGGCTCGGACCTGAACCTGGCCGGCTGGACCCGCAAGCTCACGGGCAAGCCCACCATTACCGTCGGCAGCGTCGGCCTTGATGGTGAGTTCCTGCAATTTATGGTGAACACCGACAAGGTTGCGCAACCGGCCAGCCTGGAGAATCTGCTCGAGCGCCTGAACAAGGAGGAATTCGATCTGGTGGCGGTGGGGCGCGCGCTGCTGGTGGATCCGGACTGGGCGCAGAAAGTGCGGGAAGGGCGCGAACAGGAGATCCTGCCGTTCAGCCGCGAGGCGTTGATGACCTTGGTTTAA	MPVRALFKPFHLGALELPTRVVMAPMTRSFSPGGVPNSKVIEYYRRRAAAGVGLIITEGTTVGHRASNGYPNVPHFYGDAALAGWKKVVDAVHAEGGKIVPQLWHVGNVRRLGTEPDGAVPGYGPTEKLKDGQVVVHGMSQTDIDEVIAAFAQAAKDAQSIGMDGVEIHGAHGYLVDQFFWEGSNQRTDGYGGSLANRSRFAIELIRAVRAAVGEGFPIIFRFSQWKQQDYTARLVQTPEALGEFLKPLADAGVDIFHCSTRRFWEPEFEGSDLNLAGWTRKLTGKPTITVGSVGLDGEFLQFMVNTDKVAQPASLENLLERLNKEEFDLVAVGRALLVDPDWAQKVREGREQEILPFSREALMTLV	PGPT0005930_2950	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_TOLULENE|DERIVATE_DEGRADATION	XENOBIOTIC_NITROTOLULENE_DEGRADATION,PGPT0005930-nemA-K10680	NA	NA
D1-35_01299	1047			IS110 family transposase ISPpu10	ATGACAATCCTTACCTCCCCAGCGGTTATCGGTATTGATGTCGCCAAGGCTGAAATCGTGGCTTATCGCGAAGATCTAAAAAGCATTCAGATTGTTGATAACGACCGTAAGGCCCTTGTTCGTTGGCTCGAAACGTTGCCAGCGCAAAGTTTGATTGCACTGGAAGCCACCAGCTTTTATCACCTGGACACGGCTGAACTGGCTCATGGGATGGGGCACAGGGTTTACGTTGTGGATGCCTATCGGGTGGCCCACTACCGCGAAAGCATTGGACAGCGGGCCAAAACCGATCCTTGCGATGCACGTTTGCTGGCGCGCTATCTGACAAACGAACAGCAACGGCTACGCGTCTGGACCCCACCTCCGCAGGCCTACAAAGTATTAAAGAGCCTGCTACGCAAGCGCGCAGAACTCATCAAAGCGCGCGTCAGCCTCATGCTGAGTTGGTCGGGCGAACCGCTTCTGAAGGATATCCTGACCGAGCAACTGGAGGCCTTCAAGCAAAGCGATCGGGCCATCCAGAAGCTATTGCGCGAGGCCAGCCAAGAGGCGGGAATTACTGAAAACATCAACCGCTGCAAAGCCATTGAGGGCGTGGGTGAACTGACGGCAACAGGTCTGGCGACAGCCTTCATGCGAGGTGACTTCGCCAGCGGCGATGCGTTTATTGCCTTTTTAGGGATGGACCTGAGGCCAAAGGATTCCGGAAAAAAACACAGCCCCAGGCACCTAAGCAAAAAAGGAGATGGCGAACTGCGACGCTTGGCGCACACCGCGGCGATGGCGGCTAGCCGGTCTCCTGTCTGGAAACCTTACTACGAATCCTGCTTGGCAAGAGGTTTCGCCAGAACCCAAGCCTTGGTGATCCTCGCCCGGAAATTGTGCCGGGTGGCATTCGCCCTGATGAAAAACCAGAGCGAATATCGCCCTAAATTCTATGCTGCAGGGTTCCCCTGCAACATAGAATCTCCCACATTGAATCTTCGGCGGAATATATATCTGCTGTTCTACCGAAATCCCCTGTGGGAGCGAGCTTGCTCGCGATAG	MTILTSPAVIGIDVAKAEIVAYREDLKSIQIVDNDRKALVRWLETLPAQSLIALEATSFYHLDTAELAHGMGHRVYVVDAYRVAHYRESIGQRAKTDPCDARLLARYLTNEQQRLRVWTPPPQAYKVLKSLLRKRAELIKARVSLMLSWSGEPLLKDILTEQLEAFKQSDRAIQKLLREASQEAGITENINRCKAIEGVGELTATGLATAFMRGDFASGDAFIAFLGMDLRPKDSGKKHSPRHLSKKGDGELRRLAHTAAMAASRSPVWKPYYESCLARGFARTQALVILARKLCRVAFALMKNQSEYRPKFYAAGFPCNIESPTLNLRRNIYLLFYRNPLWERACSR	PGPT0030635_4607	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
D1-35_01300	1200	mgtA_1	COG0438	GDP-mannose-dependent alpha-mannosyltransferase	ATGGCCCCGGTCGACACTGGGGTCATGACCACACTCCTGCACGTTACCCTCGTCACCGAAACCTTTGCGCCGGAAATCAATGGCGTAGCCAACACCCTGGGTCGTCTCTACGACGGCTTGCGTGCCCGCGGGCACCGGGTGGAACTGATCCGCCCACGCCAGGCCGGGGACCACGGCCTGGCCAGTGACGAGCAGTTGCTGCTATGCCGGGGCTGGCCTTTGCCCGGGTATCCGGGGCTGCAATGGGGGCAGGCGTCGATGCACAAGTTGCTCAGGCGCTGGAAACGTCATCGCCCGGACGTGCTGTATATCGCCACGGAAGGCCCGCTGGGCTTGTCCGCGCTACGAGCAGCGCGGCGCCTGGGGATTTCGGTGGTCAGCGGCTTCCATACCAATTTCCAGCAATACACCCAGCAATATGGCCTCGGCTTGCTAAGTCGCGGGCTGACCCATTACCTGCGCTGGTTCCACAACCGCTCCAGCCTGACACTGGTGCCCAGCCTCAGCCAGCGTCTGGAACTGGAACGCCGGCATTTCGAACGCGTGGCGTTGCTGTCCCGCGGCGTGGACAGCCAACTGTTCCATCCAGCCAAACGCTCCACAGACCTTCGTGAAACGTGGGGCCTGGGCGAGGACGACATTGCCGTCATCCATGTCGGACGCCTGGCGCCGGAGAAAAACCTCGGGCTGCTCAAGCGCAGTTTCGACACGCTGAGCAGCGCCTTCCCGGCACGGCGAATCAGACTGGTGATAGTCGGTGACGGCCCGCAGCGGCCCGCCCTCGAACAGCAATTGCCCGAGGCGATCTTTTGCGGCGCACAGCGTGGCGAAGCGCTGGCTGCGCATTATGCGTCCGGGGACGTGTTTGTCTTTCCGAGCCTGACCGAAACCTTTGGCAACGTCGTGCTCGAAGCACTTGCCTCGGGGCTGGGCGTGGTGGCCTACGATCAGGCTGCGGCGGCGCAGCACATCCGTCACGGCTATAACGGCGTGCTGGCGATGCCAGGGGATGAAGAGGCTTTTTGCGACGCGGCCCGCTGGCTGCTGGAAGAGCGCGAGGCCTTGCGTTGTGTGCGGCTCAATGCGCGCCAGCATGCCAGTCGCCAGGGCTGGGCATCGGTGATCGAGCAGTTCGAGGCGCAGTTACGCGGGGTTTGTGTGGGTGAGCAGGTGCTGCCTGCGGCGCCGACGGTGCGTTGA	MAPVDTGVMTTLLHVTLVTETFAPEINGVANTLGRLYDGLRARGHRVELIRPRQAGDHGLASDEQLLLCRGWPLPGYPGLQWGQASMHKLLRRWKRHRPDVLYIATEGPLGLSALRAARRLGISVVSGFHTNFQQYTQQYGLGLLSRGLTHYLRWFHNRSSLTLVPSLSQRLELERRHFERVALLSRGVDSQLFHPAKRSTDLRETWGLGEDDIAVIHVGRLAPEKNLGLLKRSFDTLSSAFPARRIRLVIVGDGPQRPALEQQLPEAIFCGAQRGEALAAHYASGDVFVFPSLTETFGNVVLEALASGLGVVAYDQAAAAQHIRHGYNGVLAMPGDEEAFCDAARWLLEEREALRCVRLNARQHASRQGWASVIEQFEAQLRGVCVGEQVLPAAPTVR				NA	NA	NA	NA	NA
D1-35_01301	759	cysZ	COG2981	Sulfate transporter CysZ	ATGCCCGCCGCCCCTGTCCTGTCCGGCCCGCAATATTTGCGAGAAGGACTCAAACTGGTCCTGAGCCCCAGCCTGCGCCTGTTTGTCTTGTTGCCGCTGGCGATCAATCTGGTGTTGTTCGTCGGGCTGATCTACCTCGCCGGTCACCAGTTCAGCCTGTGGGTCGACACGCTGATGCCGTCGTTGCCGGATTGGCTGAGCTTTCTCAGTTACGTGCTCTGGCCATTGTTCGTCGTCCTTGTCGTACTGATGGTGTTTTTCAGCTTCACCATGCTCGCCAATATCATTGCGGCGCCCTTCAATGGCTTTCTCGCCGAGAAAGTCGAGGTAGTGGTTCGCGGCACCGATGATTTCCCCGCGTTCAGTTGGGGCGAGCTGGTTGCGATGATCCCGCGTACCTTGGCCCGGGAGGCGCGCAAGCTCGGCTATTTTCTGCCCCGGGCCCTGGGGCTGTTCGTGCTGTCATTCATCCCGGTGATCAATATCGTCGCCGCACCGCTGTGGCTGCTGTTCGGCATCTGGATGATGGCGATCCAGTACATCGACTACCCGGCGGACAACCACAAACTGGGCTGGAAAGAGATGCTCGCCTGGCTGCGGGAAAAACGCTGGCAGAGCCTGGGCTTCGGCGGCAGCGTTTACCTGGTGTTGCTGATCCCCTTCGTGAACATTTTGATGATGCCGGCGGCGGTGGCCGGGGCGACGCTGTTCTGGGTGCGCGAACAAGGTGCCGAGACCGCTTTGGCCCGTCAGGGCTGA	MPAAPVLSGPQYLREGLKLVLSPSLRLFVLLPLAINLVLFVGLIYLAGHQFSLWVDTLMPSLPDWLSFLSYVLWPLFVVLVVLMVFFSFTMLANIIAAPFNGFLAEKVEVVVRGTDDFPAFSWGELVAMIPRTLAREARKLGYFLPRALGLFVLSFIPVINIVAAPLWLLFGIWMMAIQYIDYPADNHKLGWKEMLAWLREKRWQSLGFGGSVYLVLLIPFVNILMMPAAVAGATLFWVREQGAETALARQG	PGPT0003010_874	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003010-cysZ-K06203	NA	NA
D1-35_01302	963		COG0492	Glucosaminate ammonia-lyase	ATGTCTGAAGTCCGTCATTCGCGAGTGATTATCCTCGGTTCCGGCCCTGCCGGTTACAGCGCCGCGGTCTATGCGGCACGTGCCAACCTCAAGCCGTTGCTGATCACCGGCATGCAGGCCGGCGGTCAGTTGACCACCACCACTGAAGTCGACAACTGGCCGGGTGATGTCCATGGCCTGACCGGTCCGGCCTTGATGGAACGCATGAAGGAACACGCCGAGCGCTTCGAGACCGAGATCGTTTTCGACCACATCAACGCCGTGGATTTCGCCGCCAAGCCCTACACCCTGACCGGCGACAGCGCGACCTACACCTGTGATGCCCTGATCATCGCCACCGGCGCCAGCGCCCGCTACCTGGGCCTGCCATCGGAGGAAGCTTTCATGGGCAAAGGCGTGTCCGCCTGCGCCACCTGCGATGGTTTCTTCTACCGCAACAAGCCGGTCGCCGTGGTCGGTGGCGGCAACACCGCAGTCGAGGAAGCGCTGTACCTGGCCAACATCGCCAGCACGGTCACGCTGATCCACCGTCGCGAAACCTTCCGCGCCGAGAAAATCCTGATCGACAAGCTCAACGCCCGCGTCGCCGAAGGCAAGATCATCCTCAAGCTCAACGCGACCCTGGACGAAGTGCTGGGCGACAACATGGGCGTGACCGGTGCCCGCCTGAAGAACAACGACGGCAGCTTTGACGAGATCAAGGTCGACGGCGTCTTCATCGCCATCGGCCACACGCCGAACACCTCGTTGTTCGAAGGCCAGCTGGAGCTCAAGGACGGCTACCTGGTGGTCAAGGGCGGTCGCGACGGCAACGCCACGGCCACCAGCGTCGAAGGTATCTTCGCGGCCGGCGACGTGGCCGACCACGTCTACCGCCAGGCGATCACCTCGGCCGGCGCCGGTTGCATGGCGGCCCTGGACACCGAGCGTTACCTGGATGGCTTGCAGAACGTTTCGTTCTGA	MSEVRHSRVIILGSGPAGYSAAVYAARANLKPLLITGMQAGGQLTTTTEVDNWPGDVHGLTGPALMERMKEHAERFETEIVFDHINAVDFAAKPYTLTGDSATYTCDALIIATGASARYLGLPSEEAFMGKGVSACATCDGFFYRNKPVAVVGGGNTAVEEALYLANIASTVTLIHRRETFRAEKILIDKLNARVAEGKIILKLNATLDEVLGDNMGVTGARLKNNDGSFDEIKVDGVFIAIGHTPNTSLFEGQLELKDGYLVVKGGRDGNATATSVEGIFAAGDVADHVYRQAITSAGAGCMAALDTERYLDGLQNVSF	PGPT0018945_25	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018945-trxB-K22345	NA	NA
D1-35_01303	1251	davT_1	COG0160	5-aminovalerate aminotransferase DavT	ATGAGCCGCGAAAGCATCAGCCAATCGATTTCCTTCGTTCACCCCGTCAGCCTCGACCATGGAAGAAACGCCGAAGTCTGGGACACGGATGGCAAGCGCTACATTGATTTTGTCGGCGGCATCGGCGTGCTGAATCTCGGCCACTGTCATCCGCGTGTCGTCGAGGCGATTCGCGAGCAAGCCACCCGGTTGACCCACTATGCGTTCAACGCCGCGCCGCACCGGCCTTATCTCGAATTGATGGAGCGCCTGGCAAGATTCATCCCGGTGGACTATCCGGTTAGCGGCATGCTTACCAACAGCGGCGCCGAGGCAGCGGAGAACGCCTTGAAAATCGTCCGCGGCGCCACGGGGCGCACCGCCGTGATCGCGTTTGATGGCGGCTTCCACGGCCGGACCCTGGCCACCCTCAACCTCAACGGCAAGGTTGCGCCCTACAAACAGAAAGTAGGTGTCCTGCCCGGACCGGTCTATCACCTGCCCTATCCCAGCCAGGACAACGGCGTGACCTGTGCCGAAGCCTTGAAAGCCATGGACCGGTTGTTCAGCGTCGAGATCGATGTAAACGACGTAGCCTGTTTCATCGTCGAGCCGGTGCAGGGCGAAGCCGGTTTCCTGGCGATGGACATAGCCTTCGCCCAGGCGCTGCGCCAGTTCTGTGACGACAAGGGCATCGTGTTGGTCATCGATGAGATCCAGTCCGGTTTCGGCCGTACCGGCCAACGTTTTGCGTTTTCGCGGCTGGGCATCGAACCGGACCTGATCCTGCTGGGCAAGAGCATCGCCGGCGGTGTCCCGCTGGGGGCGGTGATGGGACGCAAAGCCCTGATGGACAACCTGCCCAAGGGCGGCCTCGGCGGCACCTACTCGGGCAACCCTATCGCCTGCGCCGCCGCGCTGGCGACCCTGGACGAGATGACCGACACGAACCTGCGGGCCTGGGGCGCACGCCAGGAGGAGGCCATAGTTAGCCGCTACGAATCCTGGCGCCGTCGCGGGTTGTCCCCCTATCTGGGGCGGTTGACCGGAGTCGGCGTCATGCGCGGCATCGAACTGGCCCACGCCGATGGCACCCCGGCGTCGGCTCAATTGACGCAATTGTTGGCGGCGGCACGGGACTCGGGCTTGCTGCTGATGCCCAGCGGCAAATCCCGGCACATCATTCGGCTACTGGCGCCGTTGACGACCGAGCCGGCGGTGCTGGAAGAGGGATTGGACATCTTGGAAGCGTGCCTGGCGGAACTGGCCTGA	MSRESISQSISFVHPVSLDHGRNAEVWDTDGKRYIDFVGGIGVLNLGHCHPRVVEAIREQATRLTHYAFNAAPHRPYLELMERLARFIPVDYPVSGMLTNSGAEAAENALKIVRGATGRTAVIAFDGGFHGRTLATLNLNGKVAPYKQKVGVLPGPVYHLPYPSQDNGVTCAEALKAMDRLFSVEIDVNDVACFIVEPVQGEAGFLAMDIAFAQALRQFCDDKGIVLVIDEIQSGFGRTGQRFAFSRLGIEPDLILLGKSIAGGVPLGAVMGRKALMDNLPKGGLGGTYSGNPIACAAALATLDEMTDTNLRAWGARQEEAIVSRYESWRRRGLSPYLGRLTGVGVMRGIELAHADGTPASAQLTQLLAAARDSGLLLMPSGKSRHIIRLLAPLTTEPAVLEEGLDILEACLAELA	PGPT0007660_1542	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007660-gabT-K07250	NA	NA
D1-35_01304	339			hypothetical protein	ATGCCTGACCTGAACACCTTCCGCGCCAGCCTCAAGAGTGGCGAACATGTTTTCGCCGATACCCTGGCCTTTGTCGCCGATGGCTACGATTACCAGCCCCAGGCTTTCAACAACGGTGGCGTCGAGAACGCCGCCGGGCAGAACGAAGGTTCGTGCAAGACCCTGGGCCTGGCGTTGCTTGAAGGCTTGAGCGATGAAGAAGCACTCCTGGCGTTTGGCGAGCATTACCGTTCGGTGCTGGCCACGCCCGAGGGCAGCGATCACGGCAATATCCGCGCGTTGATGGTCCATGGTCTCGCCGGCGTGAAGTTCGAGGCGCAGCCGCTGCAACGGCGCTGA	MPDLNTFRASLKSGEHVFADTLAFVADGYDYQPQAFNNGGVENAAGQNEGSCKTLGLALLEGLSDEEALLAFGEHYRSVLATPEGSDHGNIRALMVHGLAGVKFEAQPLQRR				NA	NA	NA	NA	NA
D1-35_01305	297			hypothetical protein	ATGAACGATCAACAACGCCTCGAACTCGAAGCCGCCGCTTTCCGCCAGCTGGTTGCCCATCTGGACAGCCGCAAGGATGTGCAAAACATCGACCTGATGAACCTCGCCGGTTTCTGCCGCAACTGCCTGTCGAAGTGGTACAAGGCTGCCGCCGACGAGCGTCAGGTCGAGGTCAGCCTCGACGATGCCCGCGAAGTCGTCTACGGCATGCCCTATGCCGAGTGGAAAGCTCAATACCAGAAAGAAGCCAGCGCCGAACAGCAAGCGGCGTTCGCCAAAGGAACTCCCGATGCCTGA	MNDQQRLELEAAAFRQLVAHLDSRKDVQNIDLMNLAGFCRNCLSKWYKAAADERQVEVSLDDAREVVYGMPYAEWKAQYQKEASAEQQAAFAKGTPDA	PGPT0008420_5	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008420-moaB-K03638	NA	NA
D1-35_01306	381	folX	COG1539	Dihydroneopterin triphosphate 2'-epimerase	ATGCCACAACTTCAGCCCGCCATGGCGCGCATCAAGGTCAAGGACCTGCGCCTGCGTACGTTCATTGGCATCAACGAGGACGAGATCCTCAACAAGCAGGATGTGTTGATCAACCTGACCATCCTCTACGCGGCCCAAGAGGCAGTGCGCGATAACGACATCGACCACGCCCTGAACTACCGCACCATCACCAAGACAATCATCGCCCATGTGGAGGGCAACCGATTCGCCTTGCTCGAACGCCTGACCCAGGAGTTGCTGGACCTGGTCATGGCCAACGAGTCGGTGCTGTACGCCGAGGTCGAAGTCGACAAGCCGCACGCCTTGCGCTTCGCCGAGTCAGTGTCGATTACCCTCGCGGCAAGCCGTGCTGCTTCGTAG	MPQLQPAMARIKVKDLRLRTFIGINEDEILNKQDVLINLTILYAAQEAVRDNDIDHALNYRTITKTIIAHVEGNRFALLERLTQELLDLVMANESVLYAEVEVDKPHALRFAESVSITLAASRAAS	PGPT0008030_31	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008030-folX-K07589	NA	NA
D1-35_01307	558	folE_1	COG0302	GTP cyclohydrolase 1	ATGGCCCTGTCGCCCGAGCATTACCGCGAGATCCTGATCGGCCTGGGCGAAGACCCGGAACGCGAAGGCCTGCTTGATACACCGGTGCGGGCCGCGAAGGCCATGCAGTACCTTTGCCATGGCTATGAACAGAGCATCGAACAGATCGTCAACGGCGCCCTGTTCGCCTCCGACAGCGATGAAATGGTGATCGTTGCCGACATCGAACTCTATTCATTGTGCGAACATCACCTGCTGCCCTTCATCGGCAAGGCCCATGTGGCTTATATTCCTACGGGCAAGGTCCTGGGGCTGTCGAAGATCGCCCGGCTGGTGGATATGTTCGCCCGTCGCCTGCAGATCCAGGAAAACCTCACCCGGCAAATCGCTGACGCGGTGCAGCAGGTCACCCAGGCCGCCGGCGTTGCGGTGGTGATAGAAGCCCAGCACATGTGCATGATGATGCGCGGTGTCGAAAAACAGAACTCGACGATGAACACCTCGGTGATGCTCGGCGCCTTTCGCGAGTCCAGCACCACGCGCCAGGAGTTCCTGCAATTGATTCGACGGAGCCAATAA	MALSPEHYREILIGLGEDPEREGLLDTPVRAAKAMQYLCHGYEQSIEQIVNGALFASDSDEMVIVADIELYSLCEHHLLPFIGKAHVAYIPTGKVLGLSKIARLVDMFARRLQIQENLTRQIADAVQQVTQAAGVAVVIEAQHMCMMMRGVEKQNSTMNTSVMLGAFRESSTTRQEFLQLIRRSQ	PGPT0007875_4334	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007875-folE-K01495	NA	NA
D1-35_01308	705	folM	COG1028	Dihydromonapterin reductase	ATGCCTACCGCTCCGATCCTCATCACCGGCGCAGCCCAGCGTGTCGGCCTGCACTGCGCCCGTCGGTTGCTGGAAGACGGGCAACCGGTCATCGCCACCTATCGCACCGAACGCCCGGGCGTGCAGACGCTACGGGACTCAGGGGCCACGATGCTGTTTGCCGACTTTTCCAGTGAAGCGGGAATCCTCGCCTTCATCGAACAACTCAAGCAGCACACCGACCAGCTACGCGCCATTGTGCATAACGCCTCGGCCTGGCTGGCCGAAACCCCAGGCGATGAGGCGGCCGCCTTCGGCGCGATGTTTGGCGTGCACATGCTCGCGCCTTACCTGATCAACCTGCAGTGCGCCGAGCTGCTGCAACGCTCGGTGCCGGCCGATATCGTGCACATCAGTGATGACGTGACCCGCAAGGGCAGCAGCCGGCACATCGCCTATTGCGCCACCAAGGCCGGGCTCGAGAGCCTGACCTTGTCGTTTGCGGCAAAGTACGCACCCGCCATCAAGGTCAACGGTATCGCCCCGGCCCTGCTACTGTTCAATCCCGACGACGATGCGGCCTATCGGGCCAAGGCCCTGGCCAAATCCGCGCTGGGTTTCGAGCCGGGCAGTGAAGTGATCTACCAGAGCCTGCGTTATCTGCTGGACAACCCCTACGTCACCGGCACGACCCTGACCGTCAACGGTGGGCGGCACATTAAATAA	MPTAPILITGAAQRVGLHCARRLLEDGQPVIATYRTERPGVQTLRDSGATMLFADFSSEAGILAFIEQLKQHTDQLRAIVHNASAWLAETPGDEAAAFGAMFGVHMLAPYLINLQCAELLQRSVPADIVHISDDVTRKGSSRHIAYCATKAGLESLTLSFAAKYAPAIKVNGIAPALLLFNPDDDAAYRAKALAKSALGFEPGSEVIYQSLRYLLDNPYVTGTTLTVNGGRHIK	PGPT0008035_313	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008035-folM-K13938	NA	NA
D1-35_01309	561			hypothetical protein	ATGTCTGCCTCACCCGTCACGTTGATGGTTGCCCGCCGCGTCGCCAATGGCCGCTATCAGGACTTGATCGCCTGGTTGCGCGAAGGCGAGCAACTGGCGACCGACTTCCCCGGCTACCTGGGCTCAGGCGTACTTGCGCCGCCGCCCGAAGACGACGAATTCCAGATCATCTTCCGTTTCGCCGATGAGCAGACCCTGCATGCGTGGGAACATTCGGCCTCGCGCACGGCTTGGCTGGGACGCGGCAGCGAGCTGTTTGCCCATCCCTCCGAACACCGAGTGCGCGGCATCGACGGCTGGTTCGGCGCCGTCAACCAGCGCCCGCCGCGCTGGAAACAGGCGGTGGCTATCTGGCTGGCGTTTTTTCCGGTTTCGTTGTTGTTCAATTTCCTGCTGGGGCCATTACTGGTTGAACTGGGCATGTTGAGCCGGGTGCTGATCAGCACGCTCATCCTGACGCCGCTGATGGTTTATCTGTTTATCCCGTTATCGACCCACTTGCTGGCGAACTGGCTCGCCGGCGCACCGCAACGACCAGTGCCGGCGACGCAGAACCATTAA	MSASPVTLMVARRVANGRYQDLIAWLREGEQLATDFPGYLGSGVLAPPPEDDEFQIIFRFADEQTLHAWEHSASRTAWLGRGSELFAHPSEHRVRGIDGWFGAVNQRPPRWKQAVAIWLAFFPVSLLFNFLLGPLLVELGMLSRVLISTLILTPLMVYLFIPLSTHLLANWLAGAPQRPVPATQNH				NA	NA	NA	NA	NA
D1-35_01310	960			hypothetical protein	ATGAGCGTGATCATCGAAGAGAACCTTGCGTTTCAGGCCTCCGTGGCTTTGAAAGGCGAGGATTTGTTTCCCATCCGCGAAGTGGCGCGGGTGACTGGCGTGAATCCGGTGACCTTGCGCGCGTGGGAGCGGCGCTACGGCCTCATCCAGCCCACACGCACCGAAAGCGGGCACCGCCTGTATTCATTGGGCGACATCGAGAAGGTTCGCAGCATTCTCGCCTGGATCGAACGCGGGGTAGCGGTGAGCAAGGTGGGGAAAATTCTCGCCAGGACCGAGTCGGTTCAGCCAGCCTCCAGGTTCATTTCGCCCGATCTGGTGCGCGCTGATTACGCCCAGTGGCAACAGCTCGTGGCTGAAGCAGTCGGCAACTTTGACGATGTGGAGCTGGATCGGGTCTATGGACAGATTTTTTCCAGCTATACGGCACCGGTCGTCTTCCAGGACATCCTGATGCCGCTCTGGCGAGCATTGCTCCAACGCCAGCATGAGTTCGGGCAGACCAGTGAGTGGCTGTTTTTCGACGGTTTCTTGCGCTCGCGTGTCATGCAACGACTCTTGCTGAAGCGCGAAACTTCGTCGCGCCGGGTCCTGGTCAGCGCCATAGCTGGCCAATGCCGGGAATTGGAGTTGCTGGTCACGACGCTATTCATCTCCAGGGCGGAGGTGGATGTCAGGGTCATGGCTGTCGGCCAACCCTTTGACGAATTGACCCTGATTTGCCAGAAGATCAAGCCATTGGCGCTCGTGCTGGTTTCCAATCATGCGCCGGCCGCGGAGCTGCCCAAGCGGCTGAACAGGCTGGCGATGAGCCTCGATTGCCCGGTCATGCTCGCCGGCGATGCGTCCGACCTGGCGCAGGAAAGCCTGGCGGGCTCTTCCATCGCTTGCCTGGGAAATGAAGGCATGCTGATGCGCCAACGCTTGCGTCAATTTCTGGCGGGTAACCTGGACACTTGA	MSVIIEENLAFQASVALKGEDLFPIREVARVTGVNPVTLRAWERRYGLIQPTRTESGHRLYSLGDIEKVRSILAWIERGVAVSKVGKILARTESVQPASRFISPDLVRADYAQWQQLVAEAVGNFDDVELDRVYGQIFSSYTAPVVFQDILMPLWRALLQRQHEFGQTSEWLFFDGFLRSRVMQRLLLKRETSSRRVLVSAIAGQCRELELLVTTLFISRAEVDVRVMAVGQPFDELTLICQKIKPLALVLVSNHAPAAELPKRLNRLAMSLDCPVMLAGDASDLAQESLAGSSIACLGNEGMLMRQRLRQFLAGNLDT				NA	NA	NA	NA	NA
D1-35_01311	606			hypothetical protein	ATGCAGCGCGACGCCCTTCTTACCCAAGATGAGCTGGATTTCATCCGGACCATGCAGCACAGCCCGCAGTTGAACGAGCGGGATGTCACGTCGAGCTTGCTGGTAAACGGTGGGTCGCAGATCCGTGACCTTTTGACGCGCCTGGCAGCAAACGAGCAGGTCACGTTACAAGCCAATTTCGAAAACCAACAGATGACCTTTCCGTTGCATCTGGTGGAAGACGAATTCCATGCCATGCACCTGCGCCTGGGTGTGCCGAGCATCTATGAGGATGGACCAAAGGTGCGCCCATGGCGCCTGACGCTCGAGGCACCGGTTGCGCTGGAAAATGCCAAGGGTCAGCCAGGTCCTTTATGGGTGCACGAGGTATCTTGCAAGGGCGTTCTGCTGGAAATTCGCAACCGCACCAAACCGCCAAAACAGTTCGCGTTGTGGTTCAGCCCTTCAGGCTACGAGAGAATTTCGCTTCGCGGTACGTTCGAACGGGAAACCGATCAGGGCCTGTACGCCTACCATCTGAATCAGCATGACCAGGACGAAACCGAGCGCCTGCGTCAATACATCCTCCAGCAACATCGTCTGACCCATCCGGCGATGCACCTCTAG	MQRDALLTQDELDFIRTMQHSPQLNERDVTSSLLVNGGSQIRDLLTRLAANEQVTLQANFENQQMTFPLHLVEDEFHAMHLRLGVPSIYEDGPKVRPWRLTLEAPVALENAKGQPGPLWVHEVSCKGVLLEIRNRTKPPKQFALWFSPSGYERISLRGTFERETDQGLYAYHLNQHDQDETERLRQYILQQHRLTHPAMHL				NA	NA	NA	NA	NA
D1-35_01312	477			hypothetical protein	ATGATTAATGCTCACTTGATGCAGTTGGTGATCAGCGCTTCGAACGACGGGATCGTCATCGCCGAAAAGGAAGGCGACGAAGACAATATCCTGATTTATGTAAACCCGGCGTTTGAACGGCTGACCGGCTACAGCCGCGACGAGATCCTCTACCAGGACTGCCGTTTCCTGCAGTCCGGCGATCGCGATCAACCGGCCCTGGAGCATATCCGCATGGCCTTGAAGCAAGGCGGATCATGCCGACAGGTCCTTCGCAACTATCGCAAGGACGGCACGCCGTTCTGGAATGAGCTGTCGTTGTCGACCGTGAAAAACCAGGCTGACGGGCACACTTATTTCGTCGGTGTGCAGAAGGACGTGACAATCCAGGTGAAAGCTCAACAGCGAATCGCCCAGCTTGAAAAGGAGTTGGCTGAAGCACGGGAGACCATTGCGCGCCTGGATGCGACGAACGGCGCAAACAAAACGGCGAATTAA	MINAHLMQLVISASNDGIVIAEKEGDEDNILIYVNPAFERLTGYSRDEILYQDCRFLQSGDRDQPALEHIRMALKQGGSCRQVLRNYRKDGTPFWNELSLSTVKNQADGHTYFVGVQKDVTIQVKAQQRIAQLEKELAEARETIARLDATNGANKTAN	PGPT0014656_25	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014656-ytvA|pfyP-NA	NA	NA
D1-35_01313	456		COG0716	putative protein	ATGAAAGTCGCCATCCTTTCCGGCTCCGTATACGGCACCGCCGAAGAAGTCGCCCGGCATGCCGCCAAATTGCTTGATGACGCCGGTTTCCAGACATTCCACAATCCGCGGGCAACCCTGGCGGATATCCAGGCGTTTGGCCCGCAGGCGTTGCTGGCCATAACGTCCACTACCGGCATGGGCGAGCTGCCGGACAACCTGATGCCATTGTATTCGACGATTCGCGACCAATTGCCCGCGTCGTTTCGCGGCCTGCCCGGTGCGGTGATCGGCCTCGGGGATGCCAGCTATGGCGATACGTTCTGCGGTGGTGGCGAGCAGATGCGCGAATTGTTCGCCGAGCTGGGCGTGCACGAGGTGCTGGCCATGTTACGCCTGGATGCCAGCGAGAGTGTGACGCCGGAAAGCGATGCCGAGCCCTGGCTGGGCGAATTGATCGCTGCATTGCGCCATTGA	MKVAILSGSVYGTAEEVARHAAKLLDDAGFQTFHNPRATLADIQAFGPQALLAITSTTGMGELPDNLMPLYSTIRDQLPASFRGLPGAVIGLGDASYGDTFCGGGEQMRELFAELGVHEVLAMLRLDASESVTPESDAEPWLGELIAALRH				NA	NA	NA	NA	NA
D1-35_01314	783	fucA		L-fuculose phosphate aldolase	GTGAGCGTGACGCCCATTCAATCGACACCCGGCATCAAGGACCAGGTCAGCGCCGCGGAATGGCAGACCCGCGTCGATCTTGCCGCCTGTTACAGACTGGTCGCGCTGCACGGCTGGGACGATCTGATCTTTACCCATATCTCCGCCAAGGTCCCCGGCACCGAAGATTTCCTGATCAACCCGTTCGGTTTGATGTTCCATGAAATCACCGCGTCGAGCCTGGTCAAGGTCGACCAGGCCGGCAACAAGCTGATGCCCAGCCCCTATGAGATAAACCCGGCGGGTTACACCATTCACAGTGCGGTGCACGAGGTGCGGCACGATGTGATGTGTGTGTTGCACACCCACACGGCCGCCGGTGTCGCGGTATCGGCGCAAAAACAGGGCGTCCTGCCGATCAGCCAGCAATCGCTGTTCGTGCTGTCGAGCCTGGCGTATCACCCTTACGAAGGGGTCGCCCTCAATCCTGAAGAGAAGGCCCGCCTGCAAGCGGACCTGGGCGACAGTAATTTCCTGATGCTTCACAACCACGGTCTGCTGACTTGTGGCGGCACCATCGCCGATACCTTCCTGATGATGTTCATTTTCCAGCGAGCCTGTGACATCCAGGTTCTGGCGCAGACCGGCGGCGCCGAGTTGATCGCCATCGAGCCCCAGGTGCTGGCCGGTGCCCGGGCGATGGTTGCCGGGGTGACCCGAAGCGCCCAAGGCATGGGGGGCGCGCTGGCCTGGCCGGCCTTGCTGCGCAAACTCGACCAGCAAGATCCGGGTTATAAAAGCTGA	MSVTPIQSTPGIKDQVSAAEWQTRVDLAACYRLVALHGWDDLIFTHISAKVPGTEDFLINPFGLMFHEITASSLVKVDQAGNKLMPSPYEINPAGYTIHSAVHEVRHDVMCVLHTHTAAGVAVSAQKQGVLPISQQSLFVLSSLAYHPYEGVALNPEEKARLQADLGDSNFLMLHNHGLLTCGGTIADTFLMMFIFQRACDIQVLAQTGGAELIAIEPQVLAGARAMVAGVTRSAQGMGGALAWPALLRKLDQQDPGYKS				NA	NA	NA	NA	NA
D1-35_01315	903	oleB_1	COG0596	Cis-3-alkyl-4-alkyloxetan-2-one decarboxylase	ATGCCCATGGTCCAGATTCCGCTGCGTATCTGGCGCCAGCGCGGACAGACCTTCATGTTTCGGGGTCACGCTATCCGCTATTGGGTGGCGGGCCACGGCGAGCCTCTGCTGTTGATCCACGGGTTCCCTACCGCCAGTTGGGACTGGCATTACCTGTGGCAGCCGCTGGCACAGCGTTACCGGGTGATCGCCTGCGACATGCTCGGTTTCGGTGACTCCGATAAACCTGTGGATCACACCTATAGCCTGTTGGAGCAGGCCGATCTGCAGCAAGCGTTGCTGACGCATTTGAATGTGACACAGGGAGTTCATGTGCTGGCCCACGATTATGGCGACAGCGTGGCCCAAGAGTTGATTGCCCGGCACAGCGAGGCGCGCGCCGACGTCGCCAGTTGTGTCTTTCTCAATGGTGGACTGTTTCCCGAGACCCATCGTCCGGTGCTGATGCAGAAGTTGCTGCTCAGCCCCTTGGGGTGGCTGATAGGCCGGGCCTTCTCCAGGGACGGGCTGGTGAAGAGTTTCCAACGGATTTTCGGCCCCAGGACCTGCCCGACCGAAAGCGAGATGGATGATTACTGGAGCCTCGTCGAAACCCATCACGGGCCGCGGATCATGCACAAACTCATCGCCTATATTCCCGAACGACGGGTGCAACGCGACCGTTGGGTGCAGGCGATGCAGCGCGGCGAAGTGCCGTTGCGGGTCATCGACGGGGCAATCGATCCGATTTCCGGTGCGCATATGGTGGCGCGTTACCGCGCCTTGATTCCGAACGCCGACACGGTGCTGTTGCCTGACATTGGCCACTATCCACACACCGAGGCACCTGTTCAGGTACTCAAGCATTACCTGGCATTTCGCGAAATCATCGCGGCGCCGATCAGGCAAATGGCCTGTTCATGA	MPMVQIPLRIWRQRGQTFMFRGHAIRYWVAGHGEPLLLIHGFPTASWDWHYLWQPLAQRYRVIACDMLGFGDSDKPVDHTYSLLEQADLQQALLTHLNVTQGVHVLAHDYGDSVAQELIARHSEARADVASCVFLNGGLFPETHRPVLMQKLLLSPLGWLIGRAFSRDGLVKSFQRIFGPRTCPTESEMDDYWSLVETHHGPRIMHKLIAYIPERRVQRDRWVQAMQRGEVPLRVIDGAIDPISGAHMVARYRALIPNADTVLLPDIGHYPHTEAPVQVLKHYLAFREIIAAPIRQMACS				NA	NA	NA	NA	NA
D1-35_01316	912		COG1028	Putative short-chain type dehydrogenase/reductase	ATGAGTGAATCTGTGCGCTTCGAAGATAAAGTCGTGATCGTCACGGGAGCCGGCGGCGGCCTTGGCCGCGCTCATGCGTTGCTGTTTGCCCGGCAGGGCGCACGCGTGCTGGTGAACGATCTCGGCGGGTCGGCGCAGGGGGAGGGCGCCAACGCCTCGGCAGCGGATCGGGTGGTGGCTGAAATCCGTGCCGCCGGTGGTATTGCCGAGGCCAATCATGACTCGGTCACCGATGGCGACAAGCTTGTGCAAAACGCCCTCGACGCCTTCGGCAGGGTGGACGTGGTCGTCAATAATGCCGGTATCCTGCGCGACAAGACCTTCCATAAGATGGACGATGCCGACTGGGACCTGGTTTACCGTGTCCATGTCGAAGGTGCCTATAAAGTCACCCGCGCCGCCTGGCCGCACCTGCGCGAGCAGAACTACGGACGAGTGATCTTCACCGCCTCCACGTCCGGCATCTATGGCAACTTCGGCCAGTCCAACTACGGCATGGCCAAGCTTGGCCTGTACGGCCTCACTCGCACCCTGGCTATCGAAGGTCGCAAGAACAACATCCTCGTCAACGCCATCGCCCCCACCGGCGGCACGCGGATGACCGAAGGCCTGATCCCGCCGCAGGTATTCGAGCAGCTCAAGCCCGAGCTGGTCAGCCCGCTGGTCGTGTACCTGGCCAGCGAAGCCTGTCAGGAAACTTCCGGATTGTTCGAAGTAGGCGGCGGCTGGATGGGCAAGGTGCGCTGGGAGCGCAGCCTCGGTGCCGGCTTCGATCCGCGCGAGGGGTTCTCACCCGAGGACGTCGCCGCTCACTGGCAGCAGATTTGCGACTTCGAAAACGCAGTCCACCCGAACGACAACCTGGAAGCTTTGAAAGAGATGATGGCGAACCTGCAGCGTCACGCCATTTGA	MSESVRFEDKVVIVTGAGGGLGRAHALLFARQGARVLVNDLGGSAQGEGANASAADRVVAEIRAAGGIAEANHDSVTDGDKLVQNALDAFGRVDVVVNNAGILRDKTFHKMDDADWDLVYRVHVEGAYKVTRAAWPHLREQNYGRVIFTASTSGIYGNFGQSNYGMAKLGLYGLTRTLAIEGRKNNILVNAIAPTGGTRMTEGLIPPQVFEQLKPELVSPLVVYLASEACQETSGLFEVGGGWMGKVRWERSLGAGFDPREGFSPEDVAAHWQQICDFENAVHPNDNLEALKEMMANLQRHAI	PGPT0003180_18069	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
D1-35_01317	600			hypothetical protein	ATGTACCTCCAAAGGATGACAGCCCATGCGGGCCGGGCCTTTGCGTGGTGCATGAACGGACTGGATGAGAGGTTATCAACGGCGTGCATTTTCATCGCTGCGCCTGCACTGTTACATGCACTGCAACAGTGCATGTCCGGATCCGGGCTGTTTCCGAAAACGTCCCATCCCTATGCTGGCCGGGCTTGCGGGACAACGGGCCTGCAAGCGCAAGCCGCCAGGCGTCCCTCGCGCCTGGCGCACCGTCATTCGGATGGATTGCGCATCAATCCATCGTCCCCGTGTCCACTGACGTTGATTTGTAGCTCCTTTACAACGTCACGTTTAGGCCGCTGCGTTTTGCAGCGGCCTTTTTTATTTCCGGGTTATTTCCGCGAGGGAACTTCTTGTTTCCTGGATAACTCGAGCACTATTCAGAATATTCTCAAACGCTACCCGGAAATCGGTCCGGTAAACGTGCTCGGGCATTCGGACATCGCCGCGGGCGCAAGAGGTTATCCAGGCCCGATGTTTGCGAGGCATGCGTTGTATCTCAAGGGTATCGGCGCCTGGTTCGAGCCTTCCAGCTGCATTTTCGCCCGGCGAAACATGACGGTGTGA	MYLQRMTAHAGRAFAWCMNGLDERLSTACIFIAAPALLHALQQCMSGSGLFPKTSHPYAGRACGTTGLQAQAARRPSRLAHRHSDGLRINPSSPCPLTLICSSFTTSRLGRCVLQRPFLFPGYFREGTSCFLDNSSTIQNILKRYPEIGPVNVLGHSDIAAGARGYPGPMFARHALYLKGIGAWFEPSSCIFARRNMTV				NA	NA	NA	NA	NA
D1-35_01318	1794			hypothetical protein	ATGACAACAATAACAATGCGCGCCATCTTCAAGCCGCAGGCGCTGGCCGTCGCGGTGGCCTTGGGTTGCTGTGCCCAGGCGCAGGCCGTTTCATTCAACATTGGCGAAATCGAGGGGCAGTTCGATTCCTCGCTGTCGGTTGGCGCGAGCTGGGGCATGCGCGATGCCGACAGGGATCTGGTCGGCACCGTCAATGGCGGTACGGGCCAGTCTTCCACCGGTGACGACGGCCGATTGAATTTCAGGAAAGGCGAGACCTTCTCGAAAATCTTCAAGGGCCTCCACGACCTCGAACTCAAGTACGGCGACACCGGCGTGTTTGTCCGTGGCAAGTATTGGTACGACTTCGAGCTCAAGGACGAAAACCGCGAGTTCAAGGACATCAGCGACAGTAACCGCAAGGAGGGCGCCAAGTCGTCGGGGGCGCAGATCCTCGATGCCTTCGTCTATCACAATTATTCCATCGCCGATCTGCCGGGCACGGTGCGCGCCGGCAAGCAGGTGGTCAGTTGGGGCGAAAGTACCTTCATCGGCAACTCCATCAACAGCATCAACCCGGTGGATGTGTCCGCGTTCCGTCGCCCGGGTGCGGAGATCAAGGAAGGCCTGATCCCGGTCAACATGCTGTTCGCCTCCCAGGGCTTGACCGACAAGCTTACCGTCGAAGGTTTCTACCAACTGGAGTGGGACCAGACGGTTGTGGACAACTGCGGCACCTTCTTCGGTAACGATGTGGTCGCCGATGGTTGCACCGATGGCTATACCGTAGGCAGCCCGGCGATTGCGCCGTTCGTGCCGTTGACCACCGCGTTCGGCCAGGGCATCCAGGTGACCAGCGAAGGCGTGGTCATTCCCCGTGGCGGTGACCGCGATGCGCGGGACTCCGGCCAGTGGGGCACGGCGTTGCGCTGGCTCGGCGATGACACCGAGTACGGCCTGTACTTCATGAATTACCACAGCCGCACGCCGACTGTGGGCACCACTACGGCGGGGCTCTCTACGCTGGCTGCGCTGCCGGGGATGGTCGCGACTGCAAACGCCATCGCCCCTGGCAGCGGCGCGGGCCTGGCGCAAAGCGTGATGTTGGGGCGCGGTGGGTATTACCTCGAATACCCTGAAGACATCCGCCTGTACGGCGCCAGTTTCTCCACCACGTTGCCGACTGGCACGGCGTGGACCGGCGAAATCAGTTACCGCCCCAATGCACCGGTACAGGTCAACACCAACGACCTGACCCTGGCCTTGGTGAACCCGATCGCCGGAGGCGCCGCGTCACCGATCGCCACTTCGCCGGGCGCGGACAACACCGGTTACCGCCGCAAGGAAGTGACCCAGGTGCAGAGCACCCTGACGCACTTCTTCGACCAGGTGCTGGGCGCCGATCGCCTGACCGTGGTCGGTGAGGCCGCGGTCGTGCATGTCGGCGGTCTCGAATCGAAGGACGAGCTGCGTTATGGACGCGATTCGGTCTACGGCCAGTACGGCTTCAACGGCGACACCGACGGTTTTGTCACCTCGACCTCCTGGGGTTATCGCGCCCGGGCGATTCTTGACTATTCCAACGTTATCGGCGGGGTGAACTTCAAGCCCAACCTGTCCTGGTCCCATGACGTGGCCGGCTATGGGCCCAACGGTCTGTTCAACGAAGGCGCCAAGGCGGTCAGCGTGGGTGTCGATGCCGATTACCGCAACACTTACACCGCCAGCCTGAGCTACACCGATTTCTTCGGCGGCGATTACAACGTTCTCGAAGACCGCGACTTCCTCGCGCTGAGCTTCGGCGTGAACTTCTGA	MTTITMRAIFKPQALAVAVALGCCAQAQAVSFNIGEIEGQFDSSLSVGASWGMRDADRDLVGTVNGGTGQSSTGDDGRLNFRKGETFSKIFKGLHDLELKYGDTGVFVRGKYWYDFELKDENREFKDISDSNRKEGAKSSGAQILDAFVYHNYSIADLPGTVRAGKQVVSWGESTFIGNSINSINPVDVSAFRRPGAEIKEGLIPVNMLFASQGLTDKLTVEGFYQLEWDQTVVDNCGTFFGNDVVADGCTDGYTVGSPAIAPFVPLTTAFGQGIQVTSEGVVIPRGGDRDARDSGQWGTALRWLGDDTEYGLYFMNYHSRTPTVGTTTAGLSTLAALPGMVATANAIAPGSGAGLAQSVMLGRGGYYLEYPEDIRLYGASFSTTLPTGTAWTGEISYRPNAPVQVNTNDLTLALVNPIAGGAASPIATSPGADNTGYRRKEVTQVQSTLTHFFDQVLGADRLTVVGEAAVVHVGGLESKDELRYGRDSVYGQYGFNGDTDGFVTSTSWGYRARAILDYSNVIGGVNFKPNLSWSHDVAGYGPNGLFNEGAKAVSVGVDADYRNTYTASLSYTDFFGGDYNVLEDRDFLALSFGVNF				NA	NA	NA	NA	NA
D1-35_01319	1368			putative protein	ATGCGCAAGATGATCCTGCAATGCGGTGCCCTGGCCCTGAGCCTGCTGGCCGCGAACGTGATGGCGGCAGTCTCGCCGGAGGAAGCCAACAAACTGGGCACCAGCCTCACCCCGCTGGGCGCGGAAAAGGCCGGCAACGCTGATGGCTCGATCCCGGCCTGGACCGGCGGTATTCCGAAGAATGCCGGTGCCGTGGACAGCAAAGGCTTCCTCGCCGACCCGTTCGCCAGTGAAAAACCGCTGTTCACCATCACCGCCGCGACCGTGGACAAGTACAAGGACAAACTCTCCGAAGGCCAGGTCGCGATGTTCAAGCGCTACCCGGAAACCTACCGGATTCCGGTCTACCCGACCCACCGCAGCGTTGGCCTGCCGCCGGAGATCTATGAGGCGGCCAAACGTAGCGCACTGAACGTGAACGCCATCAACGACGGTAACGGCCTGGCCAACTTCACTGGCAACCGCTACTACGCGTTCCCGATTCCCAAGACCGGCGTGGAGGTGCTGTGGAACCACGTCACCCGCTACCACGGCGGCAACCTGCGGCGCGTCATCATCCAGGCCACACCGCAGACCAACGGCAGCTTCACGCCGATCCGCTTCGAAGAAGAGATCGCCGTGCCGTTTCTGATCAAGGACGCCGACCCGGAAAAAGCCAGCAACGTACTCACTTATTTCAAGCAAGAGGTGACGGCCCCGGCGCGCCTGGCCGGTAACGTGTTGCTGGTGCATGAAACGCTCGACCAGGTGACGGAGCCGCGTCTGGCATGGATCTACAACGCCGGCCAGCGTCGTGTGCGTCGTGCCCCACAAGTTGCCTATGACGGCCCGGGCACCGCTGCCGACGGCTTGCGTACTTCCGACAACTTCGACCTGTTTTCCGGCGCCCCGGATCGCTACGACTGGAAGCTGGTGGGCAAGAAGGAAATGTACATCCCGTACAACAGCTACAAACTTGATTCACCGAGTCTCAAATACGATGACGTGATCAAGGCCGGGCACATCAACCAGGACCTGACGCGCTACGAGCTGCACCGGGTCTGGGAAGTAGTGGGTACGGTCAAGCCCAGCGAGCGGCATATCTACGCCAAGCGTCACATGTACATCGATGAGGACAGCTGGCAAGCGGCACTGGTGGACCACTATGACGGGCGCGGCCAGTTGTGGCGCGTGGCCGAAGGGCATGCCCAGTTCTATTACGACCATCAGAACCCGGGCTACACACTCGAAGCGCTCTACGACATCATCGCTGGCCGCTATATTGCCCTGGGGATGAAAAACGAAGAGAAGCACGCCTACGTCTATGGGTTCGAGGCTCGGGCAGCCGACTACACGCCGGCAGCGTTGCGGTCGAGCGGGGTTCGCTAG	MRKMILQCGALALSLLAANVMAAVSPEEANKLGTSLTPLGAEKAGNADGSIPAWTGGIPKNAGAVDSKGFLADPFASEKPLFTITAATVDKYKDKLSEGQVAMFKRYPETYRIPVYPTHRSVGLPPEIYEAAKRSALNVNAINDGNGLANFTGNRYYAFPIPKTGVEVLWNHVTRYHGGNLRRVIIQATPQTNGSFTPIRFEEEIAVPFLIKDADPEKASNVLTYFKQEVTAPARLAGNVLLVHETLDQVTEPRLAWIYNAGQRRVRRAPQVAYDGPGTAADGLRTSDNFDLFSGAPDRYDWKLVGKKEMYIPYNSYKLDSPSLKYDDVIKAGHINQDLTRYELHRVWEVVGTVKPSERHIYAKRHMYIDEDSWQAALVDHYDGRGQLWRVAEGHAQFYYDHQNPGYTLEALYDIIAGRYIALGMKNEEKHAYVYGFEARAADYTPAALRSSGVR				NA	NA	NA	NA	NA
D1-35_01320	2553	malT_1		HTH-type transcriptional regulator MalT	ATGACCGCCATGACCCCGTGTCCGGACCGTCCCGGGCTGCTGCCGCGCCTGTCTTCGACGCATGTGCCACGCCGGTCCTTGAGCGAGTCGTTGCTGGCTTCCGAGGCGCGGGTAAAGCTGCTTTACGCACCGGCGGGCAGTGGCAAGAGCGCGTTGTTCGCTGAGTGCTTCCTGCAAGCGCCCCCGGGCTGCCGGCTGCATTGGCTGCCGCTGGGGGGCGCGGCGATGGATGTCGCGCAATTCTGTGAGTGCCTGGCCCAGGCCCTCGGATTGCCGGTGGTCGATGAGGCGAGCCTGCTGGCTCACCTGGCACGGTTGCAAACCCCGACATGGTTGTTCCTGGATGATTATTGCCGGGTGCCCAATCCGGCACTCGACCAATTGCTCGACCGCTTGCTCAACACCAGCAGTCCGGCGCTGCATCTGTGGCTCAATGGCCGTCGCCGCCCGCACTGCAATTGGCCGCGCCTGTTGCTGGACGACGAGCTGCACGAGTTCGACGCGCAAGCCCTGGTTTTTACCGCCGAGGACGTTCAGCAATTGCTCGGGCATTTGCCCGGCCCACTGGCAGCACGCACCGCCCGCGAGGTGGTTCAGCGCAGTGGTGGCTGGTGTGCCGGGGTGCGCTTCGCCTTGCTCGAACGTTGCGAGTGGGCGCGGAGCAACGCTTCGTCGGGGCGTGCCGGGACTTTGCCCGACTACCTCGAATATGAATTGTTTGGCGCCCTGTCCCCGGAACTGGCGCAGGCCTGGCGCGTGCTGGCGCATTTGCCGCGCTTCAATGCCCGGCTTTGCGAGCATCTGTTCGGCGATACGGTGGGGGCCGAATGCCTTCCCTTGCTGCTGGACCTGGGATGCTTCATCGAACCGTGGGCGCAGTCTTCGGAATGGATGCAGATTTTCCCTCCGCTGGCCCGCCTGGTGCGTGACGAGCCCTGGCCCCAGGCGCGCTCCTGGCACCGGCGGGCCTGCCAATGGTTCGCCGCCGAGCAGGATTGGCCGATGGCATTCGAACAGGCCATGCAAGCGGGGGAGTTCGAGACCGCCGTGAGTGTCCTCCAGCATCTGAATTTCGAGCATGTCTTGCAGGGCAACAACGTCCAGCTGTTATTGAGCCTGCATGACCAGCAGGACGAGGCGTTGTCCCTCGGTACGCCGCAATCGGTGGGGCTGGTTACCGCAGCCTTGCTGTGCGCCGGACGTTTCGCCGAGGCCGAGCGGTGCATCGAGCAATTGGGCCGGTTCGCGCCACAACCGCTGGCCTGCCGGCAGCGAGAACTGATTGCCCGCTGGCAGGTCTTGCGTGGTTGGCTGCTGCATCTGGACGGTGAGGGCGAACCGGCGCTTGAGCATTTCCTCCAGGCCGAAGCCGGCCTCGAACCGCACGCCTGGGCTCTCAAGGTGCTGTGCCTGATCGGCCAGACGCAGCAGGCACTGCTCAAAGGTGAGCTGGCGTCCGCGCAATGGATCAACCGTCAGGCGCTGTGCCTGGCCCGGGCTCATGGCTCGCTGGTGTTCGAAGGATTGCTGGAACTGGATCACGCCCAGGTACTTGAGCAACGCGGCGCGCCCCATCGGGCGGATCATTTGTTGAGCGCCGTCCAGGTGCTGCTCGACAAGCCCGGCCAGGATTTTTCCGCGCTGCTGGGACGTATCGCCCTGCGACGTGGGCGCCTGGCGTTACGCATGGGATCTGACGAGCAGGCCGCCGAACACTTTCAAGCCGGCCTGGAGGCGGGCCTGCGCAGCCAGGACAAACAAGTGCTCTACGGCTTTCTCGGCAAGGCTTGCCTGGCGGCCAACCGGGGTGACTATGGCGAAGCCTTCATGCAACTGCGCGACGCCGAGCGGATCATGCAGCAGCGACACATCCCCGACACGGTCTATCGCGGCGTGCTGCTGCAAACCAGCTGTCAATTCTGGTTGCAGCAGGGGCGCCCGGAGCTTGCTCATGAAGTCTTGACCCGGGTCTTGCGGCATTTCCACGGGCCGCAGGCCAAGCAGGCGCCGCCAGCGACCCTGGAGCTGATTCCGCGTCTTGAGTATCTGCTGGTGCTGGCCGAGGTCTACCTGCATCGGGCGCATGAGCCGCAGGCTCGCCTGCAGGCGATGATCGCCCAGGCACGGCAGCGCGAAATGCACGCATTGGAAACGGAGTTGCAGTTGGCGCTGGCCGAGGTCGTCTGGTTGTCCGTCGATCGCACTTCTCTTGGATTGATCGCGCCGGAGGCGCTCAAGCAAGTGGCCTGTTGGCGGGCGCAGCAAGCCTTGGGTGAGCTGCGTATGCGCCAGCCTGAACTGGTGCACTGGATGCAATCTCAGGAGCGGATCGAGCTGCCGGGACGCGCGGCGGAAGAAACGCTGCTCAGCCAGCGCGAACTGGAAGTACTGGAACTCATTGCCCAGGGCCATTCAAACCAGCAGATCGCCGAGCGCCTGTTCATCTCGCTGCATACGGTGAAAACCCATGCGCGGCGGATCCATAGCAAGCTGGGCGTACAGCGGCGGACACAAGCGGTCGCAAAAGCGAAAAACATGGGCGTGATGAGTTAG	MTAMTPCPDRPGLLPRLSSTHVPRRSLSESLLASEARVKLLYAPAGSGKSALFAECFLQAPPGCRLHWLPLGGAAMDVAQFCECLAQALGLPVVDEASLLAHLARLQTPTWLFLDDYCRVPNPALDQLLDRLLNTSSPALHLWLNGRRRPHCNWPRLLLDDELHEFDAQALVFTAEDVQQLLGHLPGPLAARTAREVVQRSGGWCAGVRFALLERCEWARSNASSGRAGTLPDYLEYELFGALSPELAQAWRVLAHLPRFNARLCEHLFGDTVGAECLPLLLDLGCFIEPWAQSSEWMQIFPPLARLVRDEPWPQARSWHRRACQWFAAEQDWPMAFEQAMQAGEFETAVSVLQHLNFEHVLQGNNVQLLLSLHDQQDEALSLGTPQSVGLVTAALLCAGRFAEAERCIEQLGRFAPQPLACRQRELIARWQVLRGWLLHLDGEGEPALEHFLQAEAGLEPHAWALKVLCLIGQTQQALLKGELASAQWINRQALCLARAHGSLVFEGLLELDHAQVLEQRGAPHRADHLLSAVQVLLDKPGQDFSALLGRIALRRGRLALRMGSDEQAAEHFQAGLEAGLRSQDKQVLYGFLGKACLAANRGDYGEAFMQLRDAERIMQQRHIPDTVYRGVLLQTSCQFWLQQGRPELAHEVLTRVLRHFHGPQAKQAPPATLELIPRLEYLLVLAEVYLHRAHEPQARLQAMIAQARQREMHALETELQLALAEVVWLSVDRTSLGLIAPEALKQVACWRAQQALGELRMRQPELVHWMQSQERIELPGRAAEETLLSQRELEVLELIAQGHSNQQIAERLFISLHTVKTHARRIHSKLGVQRRTQAVAKAKNMGVMS	PGPT0018616_1588	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018616-malT-K03556	NA	NA
D1-35_01321	807	kdgR_2	COG1414	Transcriptional regulator KdgR	ATGGAAAACCCGCCTAGCAACGGTAAACAGAAAGTCCGCTCCGCTGAGGTCGGCACCGACATCCTCAAGGCCTTGGCCGAGTTGTCCCCTTCCACCTCGCTGTCACGCCTGGCCGAACATGTGCAGATGCCGGCCAGCAAGGTTCATCGTTACCTGCAAGCCCTGATCGCGAGTGGCTTCGCCGAACAGAACAGCGCAACCAACCACTACGGTTTGGGCCGCGAAGCCTTGCGCGTAGGGCTGGCGGCGCTCAACGGCATGGATGTGCTGCAAGTGGCCGCCCTGCCCTTGGCCGAACTGCGCGACGACTTGAACGAAACCTGTTTTCTCGCGGTGTGGGGCAATCACGGCGCGACCGTGGTGCGGATCGAACCCGCCGTGCGGGCCGTGACCGTGGTGACGCAATTGGGCTCGGTCCTGCCGTTGCTCAGCTCATCCACGGGATTGGTTTTCAGTGCCTACCTGCCGGAGCGCGAGACCATCGAGCTGCGCGAACAGGAGGTGCGCGACGCCACCGACCACGCCTTGGCCGATGACAATGTCTATGCCGCCTTGCAGGGGCAGATCCGCAGTCGCGGCCTGCACCATGTGCATGGCTTGTTGATGCCCGGCATTGATGCCTTGTCCGCGCCGGTTTTCAACGCCATGGGCCAGGTGGCGGCAGTCATGACCATTGTGGGTCCGACATCGCTGTTCCACGCCGACGAAAACGGCCCGGCGGCGCAGCGCCTGTTGACCGCGACCCGGGCCGTGAGCCGGCGAATGGGGTATGACTCAGGGTCATCAGCCCAGCAGGATATTGGCTAA	MENPPSNGKQKVRSAEVGTDILKALAELSPSTSLSRLAEHVQMPASKVHRYLQALIASGFAEQNSATNHYGLGREALRVGLAALNGMDVLQVAALPLAELRDDLNETCFLAVWGNHGATVVRIEPAVRAVTVVTQLGSVLPLLSSSTGLVFSAYLPERETIELREQEVRDATDHALADDNVYAALQGQIRSRGLHHVHGLLMPGIDALSAPVFNAMGQVAAVMTIVGPTSLFHADENGPAAQRLLTATRAVSRRMGYDSGSSAQQDIG				NA	NA	NA	NA	NA
D1-35_01322	1305	hmgA	COG3508	Homogentisate 1,2-dioxygenase	ATGAACCTCGATTCCACGGCGTCGGACCTGGCTTACCAGTCTGGCTTCGGTAACGAATTCGCCAGCGAGGCGCTGCCCGGCGCACTGCCCGTTGGCCAGAACTCTCCGCAGAAAGCCCCGTACGGCCTGTACGCCGAACTGTTTTCCGGCACCGCCTTCACCATGGCCCGCAGCGAAGCGCGGCGAACCTGGATGTACCGCATCCGTCCTTCGGCCAACCATCCGGCCTTCGCCAGGTTGGAACGGCAATTGGCCGCAGGCCCGCTGGGCGAGGTGACACCCAATCGCCTGCGCTGGAGCCCGTTGCAGATCCCTGCGGAGCCCACCGATCTGATCGACGGCCTGGTGCGCATGGCGGCCAATGCCGGTGCGGACAAACCCGCCGGTATCAGCATCTATCACTACTGCGCCACCCGCTCCATGGAGCGGGTGTTCTTCAACGCCGATGGTGAGTGGCTGATCGTGCCGCAACTGGGGCGGCTGCGCATCGCCACCGAGCTGGGTGTGCTGGAAGTGGCTCCGCTGGAAATCGCCGTGCTGCCTCGAGGGCTGAAATTTCGCGTCGAACTGCTCGACGCGCAAGCTCGCGGCTACATCGCCGAGAACCACGGGGCGCCGTTGCGCCTGCCAGACCTCGGGCCGATCGGCAGCAATGGCCTGGCCAATCCAAGGGATTTCCTGGCCCCCGTCGCCCATTACGAAAACCTCGTGCAACCGACCACGCTGGTACAGAAGTTCCTCGGTGAACTGTGGGCCTGCGAGCTGGACCATTCGCCGTTCGACGTGGTGGCCTGGCACGGCAACAACGTGCCGTACAAATACGATCTGCGACGATTCAACACGATCGGCACGGTCAGCTTCGACCACCCCGATCCGTCGATTTTCACCGTGTTGACGTCGCCGACCAGTGTCCATGGCCTGGCGAATCTCGATTTCGTAATTTTCCCGCCGCGCTGGATGGTGGCGGAAAACACCTTCCGTCCGCCGTGGTTCCATCGCAACCTGATGAATGAATTCATGGGCCTGATCCAGGGCGCCTACGATGCCAAGGCCGAGGGCTTCCTGCCGGGCGGCGCGTCGCTGCACAGCTGCATGAGCGCCCACGGCCCGGATGGCGAGACCTGCACCAAGGCGATCAATGCCGAGCTCAAGCCAACAAAAATCGATAACACCATGGCCTTCATGTTCGAGACCAGCCAAGTGCTGCGTCCCAGCCGTTTCGCCCTGGACTGCGCACAATTGCAAACTGACTACGACGCCTGCTGGGCCTCGCTGCCGGTCACTTTCGACCCGACCCGGAGATAA	MNLDSTASDLAYQSGFGNEFASEALPGALPVGQNSPQKAPYGLYAELFSGTAFTMARSEARRTWMYRIRPSANHPAFARLERQLAAGPLGEVTPNRLRWSPLQIPAEPTDLIDGLVRMAANAGADKPAGISIYHYCATRSMERVFFNADGEWLIVPQLGRLRIATELGVLEVAPLEIAVLPRGLKFRVELLDAQARGYIAENHGAPLRLPDLGPIGSNGLANPRDFLAPVAHYENLVQPTTLVQKFLGELWACELDHSPFDVVAWHGNNVPYKYDLRRFNTIGTVSFDHPDPSIFTVLTSPTSVHGLANLDFVIFPPRWMVAENTFRPPWFHRNLMNEFMGLIQGAYDAKAEGFLPGGASLHSCMSAHGPDGETCTKAINAELKPTKIDNTMAFMFETSQVLRPSRFALDCAQLQTDYDACWASLPVTFDPTRR	PGPT0006025_1115	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_STYRENE_OXIDE_DEGRADATION,PGPT0006025-HGD|hmgA-K00451	NA	NA
D1-35_01323	1305			hypothetical protein	ATGACCCAAGTTTCCCCTACCCTCAGCTGGGTTGTTTGCGCTAATAGTCATCCCGACTTCCCGCTGCAGAACCTGCCGCTGGGCATCTTCAGTGTCGCTGGCGAAGCTCCCCGTAGCGGCGTGGCGATTGGTGAGCGGATCTTCGATCTGCAGGCCGCGTTGCAGGCGGGCCTGTTTGACGGCAAGGCGGCTGAAGCCGTCGAGGCCATGCAGGGCGGCCAGTTGAACGCCTTCTTCGACCTGGGGCGCGAGGCCCGGGTTGCCCTGCGCGAAAGATTGCTCGAACTGTTGCGCGAGGACAGCCCCCAGCGGGACGCGATCCAGGCCCAGGGCGCGCGGTTGCTGCCACTGGCGGCGGACTGCCAGATGCACTTGCCAGCGAAAATCAATGACTACACCGATTTCTACGTAGGCATCGAGCACGCGCAGAATGTCGGCAAGCTGTTTCGGCCGGACAATCCGCTGCTCCCCAACTACAAGTACGTTCCCATCGGTTATCACGGTCGCGCTTCGACGGTTCGCCCCTCCGGTACCGATGTGCGCCGTCCGCAAGGCCAGACGCTGCCGCCCGGCCAGGCCGAGCCGATCTTCGGCCCGTGCGCGCGGCTGGATTATGAACTGGAGCTGGGTATCTGGATCGGCAAGGGCAACGCCCTGGGCGAGCCCATTGCCATCGGCGATGCGGCCGAGCACATCGGCGGTTTCTGCTTGCTCAACGATTGGTCGGCCCGGGATATCCAGGCTTGGGAGTACCAGCCGCTGGGGCCTTTCCTGTCGAAAAGTTTCCTCACCAGCGTATCGCCGTGGGTGGTGACGGCCGAGGCTCTTGAGCCGTTCCGTCGCCCGCAGCCGGCGCGCCCGGAAGGCGACCCCCAGCCACTGCCGTATCTGCTGGACAAGCGTGACCAGGCTGGCGGAGCCTTTGATATCGAACTGGAAGTCCTGCTGCTGACCGAATCCATGCGCGAGCAGGGCCTGGCGCCTCATCGCCTGACCTTGAGCAATACCCGGTACATGTATTGGACCGTGGCGCAGATGGTCGCGCACCACAGCGTCAACGGTTGCCAATTACAGGCCGGCGATCTGTTTGGCTCGGGCACATTGTCAGGACCTGAAAATGGTCAGTTCGGCAGCCTGCTGGAAATCACCGAGGGCGGTAAAAAGCCGATCGAACTGGCGTCCGGCGAAATCCGCAAATTTCTCGAAGACGGTGACGAAATCATCCTGCGCGCCCGTTGCGGCCGCGAAGGTGCCGCCTCCATCGGTTTCGGCGAATGCCGCGGCAAAGTCTTGCCGGCGCATTGA	MTQVSPTLSWVVCANSHPDFPLQNLPLGIFSVAGEAPRSGVAIGERIFDLQAALQAGLFDGKAAEAVEAMQGGQLNAFFDLGREARVALRERLLELLREDSPQRDAIQAQGARLLPLAADCQMHLPAKINDYTDFYVGIEHAQNVGKLFRPDNPLLPNYKYVPIGYHGRASTVRPSGTDVRRPQGQTLPPGQAEPIFGPCARLDYELELGIWIGKGNALGEPIAIGDAAEHIGGFCLLNDWSARDIQAWEYQPLGPFLSKSFLTSVSPWVVTAEALEPFRRPQPARPEGDPQPLPYLLDKRDQAGGAFDIELEVLLLTESMREQGLAPHRLTLSNTRYMYWTVAQMVAHHSVNGCQLQAGDLFGSGTLSGPENGQFGSLLEITEGGKKPIELASGEIRKFLEDGDEIILRARCGREGAASIGFGECRGKVLPAH	PGPT0001610_410	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_STYRENE_OXIDE_DEGRADATION,PGPT0001610-fahA-K01555	NA	NA
D1-35_01324	636	nagL		Maleylpyruvate isomerase	ATGGAGCTTTACACCTATTACCGTTCCACGTCGTCTTACCGGGTGCGCATCGCGCTGGCGCTCAAGGGCCTGGATTACCGGGCCCTGCCGGTCAACCTGATCGCGCCGCCCGGGGGCGAACATCGCCAGCCGGCCTACCTGGGGATCAATCCCCAGGGGCGGGTACCCGCGCTGCGTACCGATGAGGGCGCTTTGCTGGTCCAGTCTCCGGCGATCATCGAATACCTGGAGGAACGTTATCCACAGGTGCCGTTGCTCAGCCGTGACCCCGTGCTTCGCGCACATGAGCGTGGCGTGGCCGCACTGATCGGCTGCGACATCCATCCACTGCACAATGTCAGCGTGCTCAACAAGCTCAGGCAGTGGGGCCACGACGAAGCACAGGTGACGGAGTGGATCGGGCACTGGATCAGCCAAGGGCTGGCAGCGGTGGAGCAGCTGATTGGCGAAGACGGCTATTGTTTCGGCGCGGCGCCAGGCCTGGCGGACGTTTACCTGATCCCGCAGCTGTATGCGGCCGAGCGCTTCAATGTGTCGTTGCAGGGGTATCCACGAATCCGCCGGGTGGCAGCGTTGGCGGCAGCCCATGCGGCGTTCCAGCAAGCGCATCCGGCGAGTCAGCCTGATACTCCCTGA	MELYTYYRSTSSYRVRIALALKGLDYRALPVNLIAPPGGEHRQPAYLGINPQGRVPALRTDEGALLVQSPAIIEYLEERYPQVPLLSRDPVLRAHERGVAALIGCDIHPLHNVSVLNKLRQWGHDEAQVTEWIGHWISQGLAAVEQLIGEDGYCFGAAPGLADVYLIPQLYAAERFNVSLQGYPRIRRVAALAAAHAAFQQAHPASQPDTP	PGPT0006040_900	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_STYRENE_OXIDE_DEGRADATION,PGPT0006040-maiA|GSTZ1-K01800	NA	NA
D1-35_01325	804			hypothetical protein	ATGAAACCGCGCCAAGCCTTTTTTGACTGTCTGCACCGCTCGCCACCCGCACTGCTCGAAGCAGCCCTGTGGATCGCAGCCGAGCATGATCGTGAAGTGGACGTGCCAGCGTTATTGAAGGATTTCAGGGAGCTGCAGCAGAAAGTCAGCCACGGCCTGCCGATGCTGCCTGTCAGCGAATTGGGCCAGCCCCTGCTTCGGCGCCTGAATGATCTGGGTTTCGCCCAGGACGACGCTACGCCGCTACGGCCTGGCGCGGCGCTGCTGGACAAGGTCCTGGTCCGCAAGCGAGGGCAACCGCTGGCCTTGGGCCTGATAGCCCTGGAACTGGCCAAGGGCCTGGAAATCCCGATGACCGGCGTCAATTTCCCCGGCCATTTCCTGCTGCGCGTACCTGGCGCGGACCACCTGCTCGACCCCTGCGGCGGTCGCCGCTTGTACCCCAATGACTGCCGGGACTTGCTGCATCGCCAATACGGCGCCAACCTGCCGCTCAAGGCCGAGCACATGGTCTGCGCCGAGCCGATGCAGATGCTCCAGCGGCTGTCGCGTAATCTCAGGCAATTACATCTGGCCAACGACGACTACATCGCCGCGCTGGTCGATGCCGAACGGGTGCTGGAACTGGGTAACGCCAGCGCCGCCGACTACCTGGCCCGCGCCAGCCTCTACCAGCGACTCGATTGCCCCAACGCCGAACGTTTCGATCTCGAACATGCATTGATGCTCAGTGATGACCCGATCCAGCGGATCCGGCTGACCGAGCGGCTGGGGCATCTGCCGCCAAATACGATTGTGCATTGA	MKPRQAFFDCLHRSPPALLEAALWIAAEHDREVDVPALLKDFRELQQKVSHGLPMLPVSELGQPLLRRLNDLGFAQDDATPLRPGAALLDKVLVRKRGQPLALGLIALELAKGLEIPMTGVNFPGHFLLRVPGADHLLDPCGGRRLYPNDCRDLLHRQYGANLPLKAEHMVCAEPMQMLQRLSRNLRQLHLANDDYIAALVDAERVLELGNASAADYLARASLYQRLDCPNAERFDLEHALMLSDDPIQRIRLTERLGHLPPNTIVH				NA	NA	NA	NA	NA
D1-35_01326	1020	ldh		Leucine dehydrogenase	ATGTTTGCTCTCATGCAAAGCTCCCGCCTTGAATCGCTGCACTTGAGCGTAGACCCGGCAACCGGGTTGAAGGCGGTGATTGCCATTCATTGCAGCCGTCCTGGGCCTGCACTGGGTGGCTGTCGTTATCTTTCCTACCCCGACGACGAAAGTGCCGTGGCCGACGCCGTGCGCCTGGCCCAGGGCATGAGCTACAAGGCTGCGCTGGCCGGCCTGCCCGTGGGCGGGGGCGTGGCGGTCATCATGCGTCCGGCACACGTCGAGAGCCGTGCGGCATTGTTCGAAGCCTTCGGCCGCTGCATCGAGCAGCTGGACGGTCGCTACATTACCGCCATCGACAGCGGCACATCGGTGGCGGACATGGACTGTATCGCCCAGCAGACTCGTCATGTCACCAGCACCACTGCCGCGGGAGACCCGGCGCCCCATGCGGCAATGGGGGTGTTCGCCGGGATCCGCGCCACGGCCATGGCTCGCCTGGGTAGCGACAACCTGGAAAGCCTGCGGGTGGCCATCCAAGGCTTGGGCAATGTCGGTTATGCGCTGGCCGAGCAACTGCATGCGGCGGGCGCCGAACTGCTGGTCAGCGATATCGACCCCGGTAAAGTGCAGCTGGCGATGGAGCAACTGGGCGCCCATCCCATCGCCAACGACGCACTGCTCAGTACCCCCTGCGACATCCTGGCTCCCTGCGGCCTCGGCGGGGTACTCAACAGCCAGAGCGTGGCGCAACTGCGCTGCTCGGCCGTTGCCGGCTCGGCGCATAATCAGTTGAGCAACCTGCAAGTCGCCGACCAGTTGGAAAGACGTGGGATCCTCTATGCACCGGACTACGTGATCAATTCCGGCGGCCTGATCTATGTTGCCTTGAAACACCGCGGCGAAGAGCTGCCGACCATCACGGCGCATCTCGCCAAGATCGGTGCCCGGCTCACGGAAGTCTTCGCCCACGCCCAGGCCGAAAAACGCTCACCGGCCAGGGTGGCTGACGAGCTCGCGGAGCGTTTGTTGTACCGATAA	MFALMQSSRLESLHLSVDPATGLKAVIAIHCSRPGPALGGCRYLSYPDDESAVADAVRLAQGMSYKAALAGLPVGGGVAVIMRPAHVESRAALFEAFGRCIEQLDGRYITAIDSGTSVADMDCIAQQTRHVTSTTAAGDPAPHAAMGVFAGIRATAMARLGSDNLESLRVAIQGLGNVGYALAEQLHAAGAELLVSDIDPGKVQLAMEQLGAHPIANDALLSTPCDILAPCGLGGVLNSQSVAQLRCSAVAGSAHNQLSNLQVADQLERRGILYAPDYVINSGGLIYVALKHRGEELPTITAHLAKIGARLTEVFAHAQAEKRSPARVADELAERLLYR	PGPT0020320_1153	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
D1-35_01327	261			hypothetical protein	ATGGCCGTCGAAGTGGTATACCGCAGCAGCCGAGATCTGGAGCGATTGTTCATGGATAAAGCCGAAGCTGACCGTCATGACAAAATGCTGGAACTCGCTGAATTGCTCGCCGAAGTGTTGCAAAAAGCCGTTCCATCGCTGAGCGAACAACAGGTGGAGGAAGCCGGCATCTACATGGCGAAGAATCGCGATGTGTTCGCCAAGGCATTCAAGAGCCAGCCAGACGCGTTGTCCGAACTGCTCAATCCGTCAGACGAATGA	MAVEVVYRSSRDLERLFMDKAEADRHDKMLELAELLAEVLQKAVPSLSEQQVEEAGIYMAKNRDVFAKAFKSQPDALSELLNPSDE				NA	NA	NA	NA	NA
D1-35_01328	501	psiE		Protein PsiE	GTGAAAATCAACTGGGCCGAGAACCTGCGCCAGAATGTCCACCAGCTGGCCGAATCCCTGGGCAACCTGTTCGTCGAGACCTTCCACTACCTGGCGCTGTTCGCCATCGGGGCGGTGACGGCATGGGCTGCCGTGATGGAGTTCCTGCAGATGATCGAGGAGGGTCATATCAAGATCGACGACATCCTCCTGCTGTTCATCTACCTGGAGTTGGGGGCGATGGTCGGGATTTACTTCAAGACCAATCACATGCCGGTGCGATTTCTCATCTACGTGGCGATCACCGCGTTGACGCGCCTGCTGATTTCCAACGTCTCGCATCACAGCCCGCCGGACCTGGGCATCATCTACTTGTGCGGCGGCATCCTGCTGCTGGCGTTCGCGATCCTGGTGGTGCGCTACGCCTCGTCGCAGTTTCCCTCGGTGAAGATCGAACACCCGCACCGTAAGGTCGGCGCGGGTTCGAGCGAGCATGCCGAAGTGGAGAAGGGCGAAATCTAG	MKINWAENLRQNVHQLAESLGNLFVETFHYLALFAIGAVTAWAAVMEFLQMIEEGHIKIDDILLLFIYLELGAMVGIYFKTNHMPVRFLIYVAITALTRLLISNVSHHSPPDLGIIYLCGGILLLAFAILVVRYASSQFPSVKIEHPHRKVGAGSSEHAEVEKGEI	PGPT0015090_21	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0015090-psiE|yjbA-K13256	NA	NA
D1-35_01329	318			hypothetical protein	ATGGACAACCCTTTTCAGATCATTACGGACGCCTTCGCGCCGCAATACCAGATCAACCTGAGCATCCAAGGCCTGGACGGCAGCATCATGCTGACCCTGTCCAAGGCCGGGCGCGTCGTTGCCAAGCGCATGATCAGCGCGCAGCAACGCAACGACCCGGAACGGCTCAAGCGCCTGGTGCAGAGTATTCAATTCGGCATTGCCATCGAGCAGGGCCACAGCGCCGTGGCCATCCTCGAAGCCATGACCGGCGGCGACAACATCAAGGTGCCGCCACCGCAGGTACAGGGCCAGGCGTCCAGCGCCGCCGGTCTCTAG	MDNPFQIITDAFAPQYQINLSIQGLDGSIMLTLSKAGRVVAKRMISAQQRNDPERLKRLVQSIQFGIAIEQGHSAVAILEAMTGGDNIKVPPPQVQGQASSAAGL				NA	NA	NA	NA	NA
D1-35_01330	411			hypothetical protein	ATGCAAATCCAAGTCAACAGCGATAACCATATTCAAAGCAGCATCCGACTGGAGGAGTGGGTACGTACTACCATTGAAAGCACGCTCGAACGTTACGAAGAAGACCTGACACGGATCGAGGTTCATTTGGGGGATGAGAACGGCGACAAGCCCGGTCCCCACGATTTGCGTTGCCAACTTGAGGCTCGGCCAAAAGGCCACCAGCCAATTTCCGTAACGCACAAGGCCGAGTCGCTGGAACTTGCGATCGAAGGCGCAGCCACCAAGCTGGAACATAAACTGGAGCATCTGTTCGGCAAACTGCGCGGCAAGCGCGCCGCCACCAACGGCCAGACCGAGTCGATTGCACTGGCTGATGCCATGCTGGAAGAAGAATTCCTCGAGAACGAACGGGCTGCGCTTAACGGCTGA	MQIQVNSDNHIQSSIRLEEWVRTTIESTLERYEEDLTRIEVHLGDENGDKPGPHDLRCQLEARPKGHQPISVTHKAESLELAIEGAATKLEHKLEHLFGKLRGKRAATNGQTESIALADAMLEEEFLENERAALNG				NA	NA	NA	NA	NA
D1-35_01331	2340	fecA_1	COG4772	Fe(3+) dicitrate transport protein FecA	ATGCCGCAGCAACCCACCCGTCTCACCCCGCTCGCTCGCGCCGCGCGTCAACTGTTGCTGGGGGCCAGCTTGAGTTTCGTTGCACTGCCCGCCGTGCTGGCTGCAGAGGCCAAGGCCTATCACATTGCGCCGTCATCGCTGGAAAACGCCCTTAATCAATTCGGCCGCGAAGCCGGCGTGTTGATTTCCTTCGGCTCGCAACTGACCGGCGGCCTGCAGAGTCGCGGCCTGGAAGGCAGCTACAGCCCCGAGCAAGGCTTGAACGCGCTGCTTGAAGGCACAGGCCTGCAAGCTCGGCCCGAGGGGGACAATGCTTTCAGCCTGCAACCGGTCAGCAGCACTGCACTGGACATCGGCACCACGACCGTGGTCGGTGACTGGCTCGGCGACGCAGCGCCGACCAACGTCTTCGAACACCCGGGCGCTCGGGACGTTATCCGCCGCGATGAGTTCGAACGCCAGGGCGCGACGCAGGCCCGGGACGTGCTCAATCGCATTCCCGGCGTCAACGCACCGGAAAACAACGGCACCGGCAGTCATGACATGGCGCTGAATTTCGGTATACGTGGCCTCAATCCGCGCCTGGCTTCCCGCTCGACGGTACTGATGGATGGCATTCCAGTGCCTTTCGCGCCGTATGGCCAACCGCAGCTGTCCTTTGCTCCCGTGAGCATGGGCAACATGGACGCGGTGGATGTCGTGCGCGGGGGCGGCGCGGTGCGCTACGGCCCGCAAAACGTCGGCGGCGTGGTCAACTTCGTGACCCGGGCAATACCCGATGCACCGACCGTCAAAGGCGGTTTCCAGACCGAGGCGAGCCCGTCCTCCAGCCACGATGGCTTCAAGACGTCCGCCAATCTGCTGGCCGGCGGCACCGCCGATAACGGCCTGGGCGGCGCCCTGTTATATTCCGGCACCCGCGGCGGCGACTGGCGTGAGCACAGCGACACGCAGATCGACGACCTGATCCTCAAGGGCAACTATCAACTGGACGAGGCCAACAGCTTCAACGCCATGGCCCAGTACTACGAAGGCGAGGCCGACATGCCCGGCGGCCTGAACGTGGCCGACTACAACGCCGACCCGTACCAGTCCACTCGTCAGAAGGACCGATTCTGGGGCCGTCGTACCCTGGTCAATTTCGGCTATCGCTACCAGCAGGACCGGCGAGAATTCACCGCCAACACGTTTTTCACCAAGACCTTGCGCAGCGGCTATCTGGACCAGGGCTCCTTCCTGTCCCTGTCGCCTCGTGAATATTGGGTACGCGGCCTGGAAACCCGTTTTGCCCAAGGCTTCGACCTCGGCCCGACCAGCCACGAGGTCGGCGTCGGCTATCGCTATATCAACGAAGCCGGTCATGAACTGCGTTATCGCACACCGATCGCCAGCAACGAGCTGCCGACCACCTCCAGCCGCAACGACCGCGATACCCGCGGCGGAACCGAAGCCAATGCATTTTTCATCGATGACCGGATCGATATCGGCAAATGGACGATCACGCCCGGCATTCGCTACGAAATGATCGAGTCGCAGCAAACCAACAACCTGACCAATGTGAAGTACAAGGGCGACTACAACACCGCCCTGCCAGCGCTGAATGTGCTGTACCACCTGACCGACGAATGGAATCTGTATGCCAACACCGAAGGCTCGTTCGGCAGCGTGCAGTACAGCCAGATGCCCAACCGCGTCAGCAGCGGTGAAGTGAAACCGGAGAAGGCTCGCACCTGGGAGCTTGGCACCCGCTATGACAATGGCAACCTGCGGGCAGAGATCGGCGCCTTCCTGATCAACTTCGACAACCAGTACGAAAGCAACCAGACCAACGATTCGGTGATCGCCCGGGGCGAGACCCGCCACCAGGGCATCGAAACCAGCGTCAACTATGCCCTCGAAGGCCTGAGCCCGGCGCTGGCCGGTTTTGACGTGTACGCCACTTACGCCTACGTCGACGCCACCATCCGCGAAGACGGGCCGAACAAGGGCAACCGCGTGCCCTTCTCCTCCAGGCACAAAGGTACGCTGGGCGTAGGTTACACGGATGGGCCGTGGAAGCTGAACCTGGACAGCACCTACCAGAGCGCGCAGTTTGCCGACAACGCCAATACCCGCGCGGAAAGCGCCGATGGCAGCACCGGCAATATCCCTGGCTACATGCTGTTCAGCAGCCGCGCCGCTTATGATTTCGGCCCGCAACTGTCGGACCTGAACGTCGCGGTGGGCGTGAAGAACATCTTCAATACCCAATACTTCACCCGCTCGTTTGATGACAACAATCGGGGCAAATACGTAGGGGAACCGCGCACGTTGTATGTGCAGACGTCCGTGGCGTTCTGA	MPQQPTRLTPLARAARQLLLGASLSFVALPAVLAAEAKAYHIAPSSLENALNQFGREAGVLISFGSQLTGGLQSRGLEGSYSPEQGLNALLEGTGLQARPEGDNAFSLQPVSSTALDIGTTTVVGDWLGDAAPTNVFEHPGARDVIRRDEFERQGATQARDVLNRIPGVNAPENNGTGSHDMALNFGIRGLNPRLASRSTVLMDGIPVPFAPYGQPQLSFAPVSMGNMDAVDVVRGGGAVRYGPQNVGGVVNFVTRAIPDAPTVKGGFQTEASPSSSHDGFKTSANLLAGGTADNGLGGALLYSGTRGGDWREHSDTQIDDLILKGNYQLDEANSFNAMAQYYEGEADMPGGLNVADYNADPYQSTRQKDRFWGRRTLVNFGYRYQQDRREFTANTFFTKTLRSGYLDQGSFLSLSPREYWVRGLETRFAQGFDLGPTSHEVGVGYRYINEAGHELRYRTPIASNELPTTSSRNDRDTRGGTEANAFFIDDRIDIGKWTITPGIRYEMIESQQTNNLTNVKYKGDYNTALPALNVLYHLTDEWNLYANTEGSFGSVQYSQMPNRVSSGEVKPEKARTWELGTRYDNGNLRAEIGAFLINFDNQYESNQTNDSVIARGETRHQGIETSVNYALEGLSPALAGFDVYATYAYVDATIREDGPNKGNRVPFSSRHKGTLGVGYTDGPWKLNLDSTYQSAQFADNANTRAESADGSTGNIPGYMLFSSRAAYDFGPQLSDLNVAVGVKNIFNTQYFTRSFDDNNRGKYVGEPRTLYVQTSVAF	PGPT0003795_374	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_CITRATE_TRANSPORT,PGPT0003795-fecA-K16091	NA	NA
D1-35_01332	948	fecR_2	COG3712	Protein FecR	ATGCCCAGCGCGCCGAACGTCAGCGCGCAAGTCGCCGAGCAGGCGGTGCATTGGCTGCTGGAAATGCAGCAAGGGCCACTCGATGCGCGCCAGCAGCAAGCCTGGGAACAGTGGCTCAATGCACACAGCGAACATCGCCGCGCCTGGGAGCATATCCAGCGGGTCAACCAGCGGCTGCGCAATGTGTCTTCTCCGTTGGCCCATGCGACGCTCAACACACCGAAGTCGGCAACGCGGCGCCGGACCCTCAAGATGTTGCTGCTGCTGGGTGCCGGCTCGGCCGCGACCTGGGGCCTGCGTGAACGCCAGTTGTTGCCGCCATTGCTCGCCGATTACCGCAGCCCGGTGGGCGAGCGGCGTCGCCTGGCGCTGGATGACGGCAGCCAGCTGCAGCTCAACAGCGGCAGCGCGGTCGATATTCGCTTCGACGCTCAGCGCCGCCTGATCCGCCTGCTGGAAGGCGAACTGCTATTGACCGCAGCCCAGGACCCACGCCCCCTGCAGGTGCTGACCGCCCATGGCCTGCTGGAAAGCCACGACGCCCGTTTCAACGTGCGTGAGTATGCAGACCACACCCAAGTCGCAGTGTTTGCCGGCCAGGTGGACATTCGCGGCAGGCACGGCACGGCTTTTCTGCTGGGGGCTTCCCGACAAGCGTCCCTTGGCATCAACGGCACCGGTCCCGCCACGGCGCTTGACGCCAACAGCGGTGCCTGGACGGAGGGCATGCTGGTCGCCGCGCACATGCGCCTGGCGGATTTCCTTGAGGAACTGGGCCGCTACCGACGCGGCCAGCTGCACTGCGACGAGGCGGTCGCCAACCTTCTGGTCTCCGGAACTTATCCGCTGGACAACGGCGAGCGAATCCTTGATCTGCTGGAAATCAGCCTGCCGGTAAAAGTGCGGCGTTTCACCCGCTATTGGGTCACGGTCGAAGCTCGCGCTTGA	MPSAPNVSAQVAEQAVHWLLEMQQGPLDARQQQAWEQWLNAHSEHRRAWEHIQRVNQRLRNVSSPLAHATLNTPKSATRRRTLKMLLLLGAGSAATWGLRERQLLPPLLADYRSPVGERRRLALDDGSQLQLNSGSAVDIRFDAQRRLIRLLEGELLLTAAQDPRPLQVLTAHGLLESHDARFNVREYADHTQVAVFAGQVDIRGRHGTAFLLGASRQASLGINGTGPATALDANSGAWTEGMLVAAHMRLADFLEELGRYRRGQLHCDEAVANLLVSGTYPLDNGERILDLLEISLPVKVRRFTRYWVTVEARA	PGPT0003910_5771	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003910-prhR|fecR-K07165	NA	NA
D1-35_01333	369	fecI_2	COG1595	putative RNA polymerase sigma factor FecI	ATGCGCGTGCTGACCGCGCGCGATCCGCAGCCGGTCCTGGAGCCCCGTGCATTTCTCACCACCATCGCCAAGCGCGTATTGTTCAACCATTACCGACGCCAGGATCTCGAACGCGCCTACCTCGACACCCTCGCCCAGATGCCGGAGCAAGTGGCGCCGTCGGAAGAGGAGCGAGCGATCATCCTGCAGACCCTGCTGGAACTGGACCAACTGCTCGATGGACTGCCACGTGCGGTCAAAAAGGCGTTCCTGCTGGCGCAGATCGATGGCCTGACCTACAACGAAATCGCCCATGAACTGGGTATTTCCCTGCCGACGGTCAAGCGCCACCTGAACAGGGCAGCGATGCGCTGCTACTTCGCCCTGTGA	MRVLTARDPQPVLEPRAFLTTIAKRVLFNHYRRQDLERAYLDTLAQMPEQVAPSEEERAIILQTLLELDQLLDGLPRAVKKAFLLAQIDGLTYNEIAHELGISLPTVKRHLNRAAMRCYFAL	PGPT0003900_392	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003900-prhI|fecI-K23514	NA	NA
D1-35_01334	894	rhaS_5		HTH-type transcriptional activator RhaS	ATGCTGGAGAAACCGATCATGACCAGTCTGCAAACCCTGCAAGTCTTCCAAGCCCTCAACAGCTCGCCCAATGCTCGCCTGGAGCACAGCGCCGAGCTCGGTGACGGCATGGCGGCGGCTTTGTGGAGCAACCATCACGACGCCCGTGACTACGAGGCGCCAACCCACCATACGCTGTCGTGCTACATCGCCGGCGGCACCGGCACTTTTCGCCGCGAGCGTCCCGACACCACGGGGGCGCCCGGCAAACTCTGCGTGTTGCCGGCCGGACATGAATCGGCCTGGGTCATCAACGGCGACATTCGCCTCGCCCACCTGTATTTCAGCCCCGAGCAATTCGCCCTGGGTTGCGTCACGCTGCTGGATCGCGAACCGCGGCAAGTGCAATTGCACGAGGCAACCTTTCTCGATGACCCGCGGCAGGCACAGCGCTTTCGACAGTTGATCGAGCTGGACTGGGCCGAGCCGGCTGAACGCCTGCTCGGCACCAGCCTCGCCCATGAACTGCTCAGCCACCTTCTGCTCAACCAGGTTGGCCAACGCCAGGGCCTGCGCCTGAAGGGTGGGCTGGCCGCGCACCAGCGACGCTTGCTGGTGGATTACATCGACGCTCAATTGGCCGAAGCCATCAGCCTTGGTCAACTCGCTGCGCTGTGTGCCCTGTCCGAATACCATTTCGCCCGGATGTTCCGCGAAACCTTCGGCCTGCCACCGCACCAGTACGTCCTGGCGCGGCGTCTCACCCGGGCGCGGCACTTACTGCGCCATACCCTACAACCGTTGGGCGAGGTAGCTCTGGCCTGCGGATTTGCCAGCGCCAGCCATTTCACCAACCGTTTTCGCCAGGCCCTGGGGGCAGCTCCCGGGGAGTATCGGCAGGCATTTTTGCGCTAG	MLEKPIMTSLQTLQVFQALNSSPNARLEHSAELGDGMAAALWSNHHDARDYEAPTHHTLSCYIAGGTGTFRRERPDTTGAPGKLCVLPAGHESAWVINGDIRLAHLYFSPEQFALGCVTLLDREPRQVQLHEATFLDDPRQAQRFRQLIELDWAEPAERLLGTSLAHELLSHLLLNQVGQRQGLRLKGGLAAHQRRLLVDYIDAQLAEAISLGQLAALCALSEYHFARMFRETFGLPPHQYVLARRLTRARHLLRHTLQPLGEVALACGFASASHFTNRFRQALGAAPGEYRQAFLR				NA	NA	NA	NA	NA
D1-35_01335	900			hypothetical protein	ATGAACCTTTCGTTGTACCTGCTCACCGTGCTCATCTGGGGGACCACCTGGATCGCCCTGAAACTGCAGTTGGGCGTCGTCGCCATTCCGGTGTCGATTGTCTATCGCTTCGGCCTCGCCGCGCTGATCCTGTTCGTGATGCTCCTGCTCAGCCGCCGCCTTCAGGTCATGAACCGGCGCGGTCATTTGATCTGCGTCGCCCAGGGCCTGTGCCTGTTCTGCATCAACTTCATGTGTTTCCTGACCGCCAGCCAATGGATTCCCAGCGGCCTGATCGCCGTGGTGTTTTCCACCGCTACGCTCTGGAACGCCTTGAATGCGCGGGTGTTCTTCGGTCAGCGGATCGCCCGAAACGTCTTGCTCGGCGGTGCCCTTGGGCTGCTCGGGCTGGCGTTGTTGTTCTGGCCGGAGCTGGCCGGGCACCGCGCAAGTCCGCAAACGCTGCTCGGGTTGGCGCTGGCGCTGTTGGGCACCTTGTGTTTCTCGGCGGGCAACATGCTGTCGAGCCTGCAACAGAAGGCCGGCCTCAAGCCGTTGACCACCAACGCCTGGGGCATGGCCTACGGGGCCGCGATGCTGTCGGTGTGGTGCTTGTTCCAGGGCATTCCGTTCGAGATGGAATGGAATACGCGCTACGTCGGCTCGCTGTTGTACCTGGTGGTCCCGGGTTCGGTCATCGGCTTTACCGCGTACCTGACGCTGGTAGGACGCATGGGGCCGGAGCGGGCGGCGTATTGCACCGTGCTGTTCCCGGTAGTGGCCTTGAATGTCTCGGCTGTTGTCGAGGGTTATCAGTGGACGGCACCGGCGCTGGTCGGACTGGTGCTGGTGATGCTGGGCAACGTGTTGGTGTTTCGCAAGCCGCGACCCGTGACCGCGAAAGTCGTGCTGGCTCGTTAA	MNLSLYLLTVLIWGTTWIALKLQLGVVAIPVSIVYRFGLAALILFVMLLLSRRLQVMNRRGHLICVAQGLCLFCINFMCFLTASQWIPSGLIAVVFSTATLWNALNARVFFGQRIARNVLLGGALGLLGLALLFWPELAGHRASPQTLLGLALALLGTLCFSAGNMLSSLQQKAGLKPLTTNAWGMAYGAAMLSVWCLFQGIPFEMEWNTRYVGSLLYLVVPGSVIGFTAYLTLVGRMGPERAAYCTVLFPVVALNVSAVVEGYQWTAPALVGLVLVMLGNVLVFRKPRPVTAKVVLAR				NA	NA	NA	NA	NA
D1-35_01336	972	ghrB_1	COG1052	Glyoxylate/hydroxypyruvate reductase B	ATGAAAAAAACCGTACTCGCCTTCAGCCGTATCACGCCCCCCATGATCGAGCGCCTGCGCCAGGACTTCGACGTGATCGTGCCCAACCCGTCGAACGGCGACATCAATGCGCAGTTCAACGAAGCCTTGCCCCATGTCCATGGGCTGATTGGCGTTGGCCGCAAGCTCGGCCGCGAGCAACTGCAGCACGCCACGAAGCTGCAAGTAGTCTCCAGCGTGTCGGTGGGCTATGACAATTACGACCTGGCGTACTTCAATGAACGCGGGATCATGCTCACCAACACTCCCGACGTGCTCACCGAAAGCACCGCCGACCTGGCGTTCGCCCTGGTGATGAGCAGTGCCCGGCGCGTCGCCGAACTGGACGCCTGGACCAAGGCCGGACAGTGGCAGGCATCTGTCGGGCCACAGCTGTTCGGCAGCGATGTACATGGCAAGACCCTGGGCATCGTCGGCATGGGCAATATCGGCGCGGCTGTTGCCCGACGTGGTCGGCTGGGGTTCAACATGCCGATCCTCTACAGCGGCAACAGTCGCAAGCCCGAACTGGAGAACCAGTTGGGCGCACAGTTCCGCGAACTGGACCAGTTGCTGGCCGAAGCGGACTTCGTCTGCCTGGTGGTGCCGTTGAGCGAGAAAACCCGCCACCTGATCGGCCAGCGCGAGCTGTCCCTGATGAAACCGAGCGCCATCCTGGTGAACATTTCCCGCGGTCCGGTGGTGGATGAGCCGGCGTTGATCGAAGCCTTGCAGAACAACCGCATCCGCGGCGCCGGGCTGGATGTCTACGAAAAGGAACCGCTGGCCGAGTCGCCGCTGTTCCAGTTGAAAAACGCCGTCACCTTGCCGCATATCGGTTCGGCTACCCATGAAACCCGTGAGGCCATGGCCAATCTGGCCGTGGAAAACCTGCGCAGCGCCTTGCTGGGCGAACGACCGAAGAACCTGGTCAACCCGCAAGTCTGGAAATAA	MKKTVLAFSRITPPMIERLRQDFDVIVPNPSNGDINAQFNEALPHVHGLIGVGRKLGREQLQHATKLQVVSSVSVGYDNYDLAYFNERGIMLTNTPDVLTESTADLAFALVMSSARRVAELDAWTKAGQWQASVGPQLFGSDVHGKTLGIVGMGNIGAAVARRGRLGFNMPILYSGNSRKPELENQLGAQFRELDQLLAEADFVCLVVPLSEKTRHLIGQRELSLMKPSAILVNISRGPVVDEPALIEALQNNRIRGAGLDVYEKEPLAESPLFQLKNAVTLPHIGSATHETREAMANLAVENLRSALLGERPKNLVNPQVWK	PGPT0001310_732	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0001310-ghrB-K00090	NA	NA
D1-35_01337	669			hypothetical protein	ATGTGGGCGAATGATGGCGGCCAGGTGATTGTCCTGGTCGAGGCCTTCCTGCCCAATGGCCTCGGCCTGCCGGTGGCGCAACGCGAGCACGCCGAACGGCGCTCGGCAGTAGTGCGCAGCGGCGTCAGCGAGGCCCGCGTGGCGATCACCTTCGCCGCCTATAATCCCGGTCCTTGCCATAATCTGGACGCCGATAACCTGTGCCGCATCTATGAGCGTCGCCCCCTGGTGTGCCGCATCTATCCCATGGAAATCAACCCGCATATTCCTCTCGATACCGCCGCCAAGGATTGCCCGCCGGAGTCGTGGGAAACGGGGCCGCAGCTGATCGTCGGCGGTCAGTTGGTAGACCAGGAACTGGCCCGGTTGATCGAGCGCTCCCGCCAGGCCGACCGTGAAGAGATCGCCATCAAGGAACGCATCTGCGTGTCCCTGGGCATCCACACCACCGCACTGAAGGGCGACGGATTTACCGCGTACCTGCCGAACATGGCGGCGTTTGCCGCCGCCATCGATCAGGCTCGCGCGCAGCCGATGGGCCAAGAGGCAGGTGAATGGCAGTTCCACTTGTCCGGTGATGACATTGCTCGCCAGGTCACCGACAGCGGCGCAAGTGTTGTCACCGAGGAGCCGGTCAACTACGCGTTTATTTCGCTGCGGGCCGCCTGA	MWANDGGQVIVLVEAFLPNGLGLPVAQREHAERRSAVVRSGVSEARVAITFAAYNPGPCHNLDADNLCRIYERRPLVCRIYPMEINPHIPLDTAAKDCPPESWETGPQLIVGGQLVDQELARLIERSRQADREEIAIKERICVSLGIHTTALKGDGFTAYLPNMAAFAAAIDQARAQPMGQEAGEWQFHLSGDDIARQVTDSGASVVTEEPVNYAFISLRAA				NA	NA	NA	NA	NA
D1-35_01338	327			hypothetical protein	ATGAAAGTACCCTGCCTGATTTTCTTCGCCCTCAGCGCCCTGGCTGCACAGGCCCATGCCTCCAGCTCCGATGCCTGGGCTGCCTATGACAAGAAAGTCCTCGCCAGTTGCATCAAGGCCAGCGGTTTGAAAAATGCCGAACCGGTCGGCAGCCCCGCGCAATTCGACGACCGGGTGGGCTACACCGCGCTGTTGCTGCAAGGCCAATATCCGCAAAAGCACATGAAAGGCGCGACCGGCACCGAGCTGTGCCTCTACCGCAAGAAAACCAAGAGCGCGTTCGTGACCGAATGGGACTCGATCCGCCCGACCGAAACCTCCCGATGA	MKVPCLIFFALSALAAQAHASSSDAWAAYDKKVLASCIKASGLKNAEPVGSPAQFDDRVGYTALLLQGQYPQKHMKGATGTELCLYRKKTKSAFVTEWDSIRPTETSR				NA	NA	NA	NA	NA
D1-35_01339	903	cheV_3	COG0784	Chemotaxis protein CheV	ATGTCTTCCAACAAAGCCCGCGCAGATTCCCTTTCGCTTCTGCTGTTTACCTTGCGCAGCGGCAAGCTGATGGCAATCAACCTGCTCAAGGTCAGCGAAATCATTCCCTGCCCGCCGCTGACCAAACTGCCGGAGTCGCACCCACACGTAAAAGGCATCGCCACGTTGCGCGGAACGTCGTTGTCGGTGATCGACCTCAGCCGCGCCATTGGCGAGCGGCCGCTGGAAGACCCGGACGGCGGGTGCCTGATCGTCACCGACGTCAGTCGCTCCAAGCAGGGCCTGCACGTGCAGGCGGTGAGCAAGATCGTGCATTGCCTGACTACCGACATCAAGCCGCCGCCCTACGGCTCCGGCGGCGTGCGTGCGTTCATCACTGGCGTGACCTCGGTGGACGGCACGCTGGTGCAGGTGCTGGACATCGAAAAAGTCATCCACGGCATCGCCCCGGCGCAGATCGAGACGGCGCCCACCGAACTGAGCATGGAAGACGCCGAAGTCCTCGGCAACGCCCGGATCCTGGTGGTCGATGACAGCCAGGTGGCGCTCCAGCAATCGGTGCATACCCTGCGCAACCTGGGCCTGCAATGCCACACCGCCCGCAGCGCCAAGGAAGCCATTGACTGCCTGCTTGAGCTGCAAGGCACGGCGCAGGAAATAAACCTGATCGTTTCCGACATCGAAATGTCCGAGATGGACGGTTACGCCCTCACCCGGACCCTGCGCGAAACACCCGACTTCGCTCACCTCTACGTGTTGTTGCACACCTCGCTCGACAGCGCGATGAACAGTGAGAAAGCGCGGCTGGCGGGCGCCAACGGGGTGCTGACCAAGTTCTCCTCGCCGGAACTGACCAAATGCCTGATCACGGCGGCCAAGGCCGTCGCCGAACAAGGTCGCTGA	MSSNKARADSLSLLLFTLRSGKLMAINLLKVSEIIPCPPLTKLPESHPHVKGIATLRGTSLSVIDLSRAIGERPLEDPDGGCLIVTDVSRSKQGLHVQAVSKIVHCLTTDIKPPPYGSGGVRAFITGVTSVDGTLVQVLDIEKVIHGIAPAQIETAPTELSMEDAEVLGNARILVVDDSQVALQQSVHTLRNLGLQCHTARSAKEAIDCLLELQGTAQEINLIVSDIEMSEMDGYALTRTLRETPDFAHLYVLLHTSLDSAMNSEKARLAGANGVLTKFSSPELTKCLITAAKAVAEQGR	PGPT0015675_1723	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015675-cheV-K03415	NA	NA
D1-35_01340	1554	norR2	COG3604	Nitric oxide reductase transcription regulator NorR2	ATGACCGCAACTTCCTTGCTGACCTCGCTATTGCCGCTGGTGGCCGACCTGTCCCGCGAACTGCCTGAAGGCGAGCGCTATCGGCGCCTGCTCGGAGCCCTGCGCAGCCTGTTGCCTTGCGACGCCGCTGCACTGTTGCGCCTGGACGGCGACTGCCTCGTCCCGCTGGCCGTGGATGGCTTGAGCACCGACACCCTGGGCCGGCGATTCCGGGTCAGTGAGCATCCGCGTTTCGAAGCTTTGCTGGCCAATCCGCAGCCCACTCGCTTCGCCACCGACAGTGACCTGCCCGATCCGTACGATGGATTGGTGGAAGGGCTGGATGAACATCTGGAGGTTCACGATTGCATGGGTTGCCCGCTGTTTGTCGATGAGCAGCCCTGGGGCTTGCTGACCCTGGACTCGCTGGACCCGGAACGCTTCGAACCTATTGACCTGAGCGCCCTGCAAGCCTTCGCCAGCCTCGCCGCCGCCACCGTCAGCGCCGCCGAACGCATCGAGCGCCTGGCGTTGAGGGCCGAGGACGAGCATCGCCGCGCCGAAGTCTACCGTCAGGCCAGCGGCCAGCAGCAGCGCGACATGGTCGGCCAGAGCAAGCCCCATAAACGCCTGGTGGAAGAGATCAAGCTGGTCGGGGGCAGTGACCTGACGGTACTGATCACTGGCGAAACCGGCGTCGGCAAGGAATTGGTCGCCCAGGCCATTCATGCCGCCTCCCACCGTGCCGACCAGCCGCTGATCAGCCTCAATTGCGCGGCGCTGCCTGACACTCTGGTGGAAAGTGAACTCTTCGGCCATGTTCGAGGCGCATTCACCGGTGCCACCCAGGACCGGCGCGGCAAATTCGAGCTGGCGGATGGCGGCACGCTGTTCCTCGACGAGGTGGGCGAACTGTCCCTGACCGTCCAGGCCAAATTGCTTCGCGTGTTGCAAAGCGGCCAGCTGCAACGCCTGGGCTCGGACAAGGAGCACCGCGTCGATGTACGCCTGATTGCGGCGACCAACCGCGACCTCGCCGAGGAAGTGCGCAATGGCCGTTATCGGGCCGACTTCTACCACCGGTTGAGTGTCTACCCGCTGCAAGTGCCCGCGCTGCGTGATCGCGGGCGCGATGTACTGCTGCTCGCCGGCTTTTTCCTGGAACAGAACCGCTCGCGCATGGGCCTTGGCAGCCTGCGCCTGACCAGCGACGCCCAGGCTGCGTTGCTGGCCTACGATTGGCCGGGCAACGTGCGCGAACTGGAACACCTGATCGGTCGCAGCGCGTTGAAGGCATTGGGCAAGCATCCGGTTCGGCCGAAGATTCTAAGCTTGAGCGCCGATGATCTGGATCTGCATCACGTAGTCCCGGAAAATGCTCCGACCAACAGCCTCGCGCCAGCCTCCACGGTGAAGGTTTCCGGTGACTTGCGCCAGGCCACGGAAAATTATCAACGGCAAATGATCAGCGCCTGCCTGGAACGCCATCAACACAACTGGGCCAGCGCTGCCCGGGAACTGGGCCTGGATCGGGCCAACCTGGGGCGGATGGCCAGGCGGCTGGGCCTCAAATAG	MTATSLLTSLLPLVADLSRELPEGERYRRLLGALRSLLPCDAAALLRLDGDCLVPLAVDGLSTDTLGRRFRVSEHPRFEALLANPQPTRFATDSDLPDPYDGLVEGLDEHLEVHDCMGCPLFVDEQPWGLLTLDSLDPERFEPIDLSALQAFASLAAATVSAAERIERLALRAEDEHRRAEVYRQASGQQQRDMVGQSKPHKRLVEEIKLVGGSDLTVLITGETGVGKELVAQAIHAASHRADQPLISLNCAALPDTLVESELFGHVRGAFTGATQDRRGKFELADGGTLFLDEVGELSLTVQAKLLRVLQSGQLQRLGSDKEHRVDVRLIAATNRDLAEEVRNGRYRADFYHRLSVYPLQVPALRDRGRDVLLLAGFFLEQNRSRMGLGSLRLTSDAQAALLAYDWPGNVRELEHLIGRSALKALGKHPVRPKILSLSADDLDLHHVVPENAPTNSLAPASTVKVSGDLRQATENYQRQMISACLERHQHNWASAARELGLDRANLGRMARRLGLK	PGPT0000375_234	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000375-norR-K12266	NA	NA
D1-35_01341	1182	hmp_1		Flavohemoprotein	ATGCTGAGTCGAGAACAACGCGCCATCATCCGTTCCACTGTCCCCTTGCTTGAAAGCGGTGGGGAAGCGCTGATCACTCACTTCTACCGCATGATGCTGTCGGAATACCCGCAAGTGCGCCCGCTGTTCAACCAGGCTCACCAGGCCAGCGGCGATCAGCCGCGTGCGCTGGCCAACGGTGTACTGATGTATGCGCGGCACATCGATCAGCTCGACCAGTTGGGCGACCTGGTGGCGAAGATCGTCAACAAGCACGTGGCCTTGCAGATCCAGCCACAGCATTACCCGATCGTCGGCTCCTGCTTGCTGCGGGCAATCGCCGAGGTACTGGGCGAAGAGATCGCTACACCTGAAGTGATTTCGGCGTGGGGCGCTGCCTATAACCAGTTGGCCGATATCCTGATCGGCGCCGAAACCAGCTTGTATGACCGCAAAGCCGCGGCACCCGGCGGCTGGCGCGGTGAACGTGAGTTCATCCTGACGGCCAAAGTGCAGGAAAGCGCGGAAATCACTTCGTTCTACTTCGAACCGGCGGACAAGGGGCCGATCCTGCAGGCCGAGCCCGGCCAGTACATCGGTATGAAGCTGGTGCTGGACGGTGAAGAAGTGCGCCGCAACTATTCGTTGTCGGCCTTGGCGAACAATGGCCAGTACCGCATCAGCGTCAAGCGCGAGGCGGGCGGACGGGTGTCCAATTACCTGCACGACCATTTCCAGGTCGGCAATAGCATCCAGCTGTTTCCGCCGTCGGGAGATTTTTACCTCACCGCCAGCGACAAGCCGCTGGTGCTGATCAGTGGCGGCGTCGGCATCACTCCGACCCTGGCGATGTTGCAAGCGGCGCTGCAAACCGAGCGCCCGGTGCATTTCATTCACTGCGCACGCAATGGCCAGGTCCATGCCTTTCGCGAGTGGATCGACGACCTGGCCAAGCGGCACCCGCAACTCAAGCGTTTCTACTGTTATGACGAGCACGACGGCGCTGGGCCGGCGGCTGACAAGGTAGGGCTGTTGAGTGAGGAGCAACTGGCGCAGTGGTTGCCGGAGCAGCGAGACCTGGACGCGTACTTCCTTGGGCCGAAGGGCTTCATGGCGGCCATCAAGCGTCATCTCAAGGCCTTAGGCGTACCGCCGGGACAAAGCCGTTATGAATTCTTCGGGCCGGCGGCTGCTTTGGAATAA	MLSREQRAIIRSTVPLLESGGEALITHFYRMMLSEYPQVRPLFNQAHQASGDQPRALANGVLMYARHIDQLDQLGDLVAKIVNKHVALQIQPQHYPIVGSCLLRAIAEVLGEEIATPEVISAWGAAYNQLADILIGAETSLYDRKAAAPGGWRGEREFILTAKVQESAEITSFYFEPADKGPILQAEPGQYIGMKLVLDGEEVRRNYSLSALANNGQYRISVKREAGGRVSNYLHDHFQVGNSIQLFPPSGDFYLTASDKPLVLISGGVGITPTLAMLQAALQTERPVHFIHCARNGQVHAFREWIDDLAKRHPQLKRFYCYDEHDGAGPAADKVGLLSEEQLAQWLPEQRDLDAYFLGPKGFMAAIKRHLKALGVPPGQSRYEFFGPAAALE	PGPT0013000_1498			NA	NA	NA	NA	NA
D1-35_01342	510	dsbB_1	COG1495	Disulfide bond formation protein B	ATGAGTGAGGAAATGCTGCGGCTGGGCCGTGAGCGGCGCTATCTGGTGCTGCTGGGGTTGATCTGCCTGGGACTGATCGGCGGTGCTTTATATATGCAGGTAGTGCTTGGTGAAGCGCCATGCCCGCTGTGCATCCTGCAGCGCTATGCGTTGTTGCTGATCGCCATCTTCGCCTTCATCGGCGCGGCCATGCGCACGCGCCGCAGCCTGACGGTCTTCGAAGGCCTTGTCGTGCTTTGCGCGCTGGCGGGGGCGGGGGTGGCCGGGCACCATGTGTACACCCAGTTTTTCCCCGCGGTCAGTTGCGGTGTGGATGTGTTGCAGCCGATTGTCGATAGCCTGCCGCTGGCGAAGATCTTCCCGCTGGGCTTCCAGGTCGATGGTTTCTGTTCCACCCCGTACCCGCCGATCCTCGGCCTGTCGCTGGCGCAATGGGCACTGGTGGCGTTCGTCCTCACCGTCGTGCTGGTGCCATTGCTGGTGTCGCGCAATCGCAAGACGCTGCGCTGA	MSEEMLRLGRERRYLVLLGLICLGLIGGALYMQVVLGEAPCPLCILQRYALLLIAIFAFIGAAMRTRRSLTVFEGLVVLCALAGAGVAGHHVYTQFFPAVSCGVDVLQPIVDSLPLAKIFPLGFQVDGFCSTPYPPILGLSLAQWALVAFVLTVVLVPLLVSRNRKTLR				NA	NA	NA	NA	NA
D1-35_01343	948	cyoA_2	COG1622	Cytochrome bo(3) ubiquinol oxidase subunit 2	ATGAGTAAAAACAGGTACCCCCGATTACTAGGCTTGTTGCCGCTGCTCGGCACGTTGCTGCTGGGAGGCTGCAACATGACCCTGCTCGATCCCAAGGGCCAGGTCGGCCTGGATGAGCGAAACCTGATCATCACCGCCACGCTGCTGATGTTGCTGGTCGTCGTGCCGGTTATCGTCATGACGTTCCTGTTCGCCTGGAAATATCGCGCGTCCAACACCAGTGCCACCTACACGCCGAAATGGTCCCACTCGACCAAGATCGAAATCGCGGTGTGGACCATTCCGGTACTGATCATCATTGCCCTGGGTTACATCACCTACAAGTCGACCCACGCCCTGGACCCGTACCGTCCGCTGGATTCCGACGTCAAGCCGATCACCATCGAAGTGGTCTCGATGGACTGGAAGTGGCTGTTCATCTATCCGGAACAAGGCATTGCCACGGTCAACAAGATCGTGTTCCCGGCCCACACGCCGATCAACTTCAAGGTCACCTCCGACACCGTGATGAACTCGTTCTTCATCCCGGGCCTGGGCGGCCAGATCTACGCGATGGCCGGCATGCAGACCAAGCTGCACCTGATCGCCAACCAGAACACCGAACTTGAAGGTATCTCCGCCAACTACAGCGGCGCGGGTTTCACCGGCATGAAGTTCAAAGCGACCGCCACCACCCAGGAAGAGTTCGACGCCTGGGTAAACGAAGTGAAGAAGGCACCTAAACAGCTTGAAAAAGCTGAATACGAAGCCCTTTCCAAGCCGAGCCAGAACAACCCTGTCGAACTCTACTCGTCGGTCACGCCGAACCTGTTCCAGACCATCATCGATAAGTATGAAGGGATGAATCCGGGCAAGCCGATGCATCACGAGAAGAAAGACAAGGAAGTGGCCCACAACATGGAAGGGATGGACATGAGCTCGCATTCAGCTGCCGGGGCAGAGGAGTAA	MSKNRYPRLLGLLPLLGTLLLGGCNMTLLDPKGQVGLDERNLIITATLLMLLVVVPVIVMTFLFAWKYRASNTSATYTPKWSHSTKIEIAVWTIPVLIIIALGYITYKSTHALDPYRPLDSDVKPITIEVVSMDWKWLFIYPEQGIATVNKIVFPAHTPINFKVTSDTVMNSFFIPGLGGQIYAMAGMQTKLHLIANQNTELEGISANYSGAGFTGMKFKATATTQEEFDAWVNEVKKAPKQLEKAEYEALSKPSQNNPVELYSSVTPNLFQTIIDKYEGMNPGKPMHHEKKDKEVAHNMEGMDMSSHSAAGAEE				NA	NA	NA	NA	NA
D1-35_01344	2031	cyoB_2	COG0843	Cytochrome bo(3) ubiquinol oxidase subunit 1	ATGTTTGGTAAATTAAGTTGGGAAGCGATCCCGTTCCACGAGCCGATTGTCATGGTGACCCTCGCCATCATCGCGCTCGGTGGTCTGGCGTTGTTCGCGGGTATCACTTATTTCAAGAAGTGGACTTATCTGTGGACTGAATGGTTGACCTCGGTCGACCACAAGAAGATCGGCGTGATGTACATCATCGTCGCCATGGTCATGCTGCTGCGCGGTTTTGCCGACGCGATCATGATGCGTACCCAGTTGGCCATGGCCACCGAGGGCTCGCCCGGCTACCTGCCGCCTGAACACTATGACCAGATCTTCACCGCCCACGGTGTGATCATGATCATCTTCATGGCGATGCCATTCTTCACCGGCCTGATGAACCTTGCAGTGCCGCTGCAGATCGGCGCGCGTGACGTTGCCTATCCATTCCTGAACTCCCTGAGCTTCTGGCTGCTGGTGTCCGGCGTGGTGCTGATCAACCTTTCCCTGGGTGTCGGCGAATTCGCCAAGACCGGTTGGGTTGCCTATCCGCCGCTGTCGGGGCTGCAATACAGTCCGGGCGTCGGGGTGGATTACTACATCTGGGCGCTACAGCTATCCGGGCTCGGGACAACGCTGACGGGGGTCAACTTCCTGGCCACCGTGCTGAAAATGCGTACCCCTGGCATGAAGCTGATGGACATGCCGATCTTCACCTGGACCTGCACCTGGGCCAACGTGCTGATCGTCGCTTCGTTCCCGATCCTGACCGCTACACTCGCTCTGCTGACGCTTGACCGCTACATGGATTTCCACATTTTCACCAATGAACTGGGTGGAAATCCGATGATGTACGTCAACCTGTTCTGGGCCTGGGGTCACCCTGAGGTGTACATCCTTATCCTGCCGGCGTTCGGTATTTTCTCCGAAGTCATCTCGACCTTCTCCGGCAAGAAACTGTTTGGCCACCACTCGATGATCTACGCTTCCGGCGCGATCTCGGTACTGGGCTTCATGGTCTGGCTGCACCACTTCTTCACCATGGGTTCGGGTGCCAGCGTCAACGCCTTCTTCGGCCTGGCGACGATGCTGATCTCGATTCCGACGGGTGTGAAGCTGTTCAACTGGCTGTTCACCATCTACCAGGGCCGCCTGCGTTTCACCAGCCATGTGCTGTGGACCCTGGGCTTCATGGTGACCTTCGCCATCGGCGGCATGACCGGCGTACTGCTGGCCATCCCGGGTGCGGACTTCGTGCTGCACAACAGCCTGTTCGTGATCGCGCACTTCCATAACGTGATCATCGGCGGCGCCGTGTTCGGCTACATCGCGGGCTTTGCGTTCTACTTCCCGAAAGCGTTCGGCTTCAAGCTGCACGAAGGTTGGGGCAAGGCAGCGTTCTGGTTCTGGATCTCGGGCTTCTTCGTCGCGTTCATGCCGCTCTATGCACTGGGCTTCATGGGCATGACCCGTCGCCTGAACGCCACCACCAACCCTGAGTGGGTGCCGTACCTGTACGTCGCCATGTTCGGTGCGGTGATGATCGCTGTCGGTATCGCCTGCCAGCTGATCCAGCTGTACGTCAGTGTGCGTGACCGCAAGAAGCCGGAAAACATGTGCGAACACGGTGACCCGTGGAATGCCCATACCCTGGAATGGTCGACTTCTTCGCCACCACCGTTCTACAACTTTGCCGTGCTGCCGAAAGCGGAAACCATCGACCCGTTCACCGAAGCCAAGGAAAACGGTACCGCGTACCAGACTCCGGCCAGGTACGCGCCGATCCACATGCCCAACAACACCGCTACCGGTGTGGTCATGGGGGCTCTGTTGACCGTGTTCGGTTTCGCGATGATCTGGCACATCTGGTGGCTGGCCATCGCCAGCCTGGTCGGCACCGTGGTGTATTTCGCCATCCATGCCGCCCGTGATGATCAGGGCTACATGGTGCCGGTGGATGTCATCGAGCGCATCGAAGCCGAGCAGCACAAGCGTCTGGTCGCGGCCGGGAAAGTCCCAGCCTCCGCCACCCGTGTTGAAACCTCGTTGGAACAGGCTTAA	MFGKLSWEAIPFHEPIVMVTLAIIALGGLALFAGITYFKKWTYLWTEWLTSVDHKKIGVMYIIVAMVMLLRGFADAIMMRTQLAMATEGSPGYLPPEHYDQIFTAHGVIMIIFMAMPFFTGLMNLAVPLQIGARDVAYPFLNSLSFWLLVSGVVLINLSLGVGEFAKTGWVAYPPLSGLQYSPGVGVDYYIWALQLSGLGTTLTGVNFLATVLKMRTPGMKLMDMPIFTWTCTWANVLIVASFPILTATLALLTLDRYMDFHIFTNELGGNPMMYVNLFWAWGHPEVYILILPAFGIFSEVISTFSGKKLFGHHSMIYASGAISVLGFMVWLHHFFTMGSGASVNAFFGLATMLISIPTGVKLFNWLFTIYQGRLRFTSHVLWTLGFMVTFAIGGMTGVLLAIPGADFVLHNSLFVIAHFHNVIIGGAVFGYIAGFAFYFPKAFGFKLHEGWGKAAFWFWISGFFVAFMPLYALGFMGMTRRLNATTNPEWVPYLYVAMFGAVMIAVGIACQLIQLYVSVRDRKKPENMCEHGDPWNAHTLEWSTSSPPPFYNFAVLPKAETIDPFTEAKENGTAYQTPARYAPIHMPNNTATGVVMGALLTVFGFAMIWHIWWLAIASLVGTVVYFAIHAARDDQGYMVPVDVIERIEAEQHKRLVAAGKVPASATRVETSLEQA	PGPT0004025_442	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
D1-35_01345	627	cyoC_2	COG1845	Cytochrome bo(3) ubiquinol oxidase subunit 3	ATGTCGAACTTAGTGACCAATGTTGGACACGCCCATGGTCATGACCATGGGCACGATGACCATCACCACGACTCGGGCGAGATGACCGTATTCGGTTTCTGGCTCTACCTGATGACCGACTGCATTCTGTTTGCGTCGATCTTCGCGGTATACGCGGTGCTGGTTAACAACGTCGCCGGTGGCCCGTCGGGCCACGACATCTTCGAACTGCCTTATGTACTGGGCGAAACCGCGCTGCTGCTGTTCAGTTCGATCACCTACGGCTTCGCCATGCTGGCGTTGTTCAAGGGCAAGAAAACCCAGGTACTGGGCTGGTTGGCAATGACCTTCCTGCTGGGCGCCGGCTTTATCGCCATGGAGATCAACGAGTTCCACATCCTGATCGCCGAAGGCTACGGCCCTAGCCGCAGCGGCTTCCTGTCCGGGTTCTTCACCCTGGTCGGCACCCACGGTCTGCACGTGACCAGCGGTCTGATCTGGATGGCGATCATGATGTACCAGGTCCAGAAAAATGGCCTGACCGCCACCAACAAGACGCGCCTGAGCTGCCTGAGCCTGTTCTGGCACTTCCTGGACGTGGTGTGGATCTGCGTATTCACCGTTGTTTATCTGATGGGGACCCTGTAA	MSNLVTNVGHAHGHDHGHDDHHHDSGEMTVFGFWLYLMTDCILFASIFAVYAVLVNNVAGGPSGHDIFELPYVLGETALLLFSSITYGFAMLALFKGKKTQVLGWLAMTFLLGAGFIAMEINEFHILIAEGYGPSRSGFLSGFFTLVGTHGLHVTSGLIWMAIMMYQVQKNGLTATNKTRLSCLSLFWHFLDVVWICVFTVVYLMGTL	PGPT0004035_2642	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
D1-35_01346	336	cyoD_2	COG3125	Cytochrome bo(3) ubiquinol oxidase subunit 4	ATGGCTAACGCTCATTCCCATGATGGCCACGACGCCGGCCACGGCAGCGTCAAGTCCTACGCGATCGGTTTCATCCTGTCGGTGATCCTGACCGTCATTCCGTTCGGCCTGGTGATGTATCCAACGCTGCCGAAGAGCCTGACGCTCTGGATCATTCTGATCTTCGCCGTGGTCCAAGTATTGGTCCACCTGGTGTACTTCCTGCACCTGGACCGCTCGGCCGCCCAGCGTAACAACGTCATTGCGTTTGTCTTCGCTGCGCTGGTGATCGTACTGCTGGTCGGCTTGTCGTTGTGGATCATGTTCAGCATCCACTCCAACATGATGGCGCACTGA	MANAHSHDGHDAGHGSVKSYAIGFILSVILTVIPFGLVMYPTLPKSLTLWIILIFAVVQVLVHLVYFLHLDRSAAQRNNVIAFVFAALVIVLLVGLSLWIMFSIHSNMMAH				NA	NA	NA	NA	NA
D1-35_01347	888	cyoE	COG0109	Protoheme IX farnesyltransferase	ATGTCACTGAAGCACTTTATCCAAATCACCAAGCCGGGGATCATTTTCGGTAACGTGCTTTCTGTGGCGGGCGGGTTTTTCCTGGCCTCGAAAGGGCATGTCGATCTGGCCATCTTCCTGGCGGCGATGATCGGCACTTCCCTGGTGGTGGCGTCCGGTTGCGTGTTCAACAACTGCATCGACCGCGACATCGACATCAAGATGGAACGCACCAAGAACCGGGCGCTGGTCCAAGGCCTGATTCCAGTGCAACTGGCCCTGGCATTCGCCACGGTGCTGGGCGTGGCCGGCGTGGCGCTGCTGTATTGGGTGGCCAATCCGTTGGCGGCGTTGTTCGCGGTGATCGGTTTTGTCATCTACGTCGGTCTCTACAGCCTGTACCTCAAGCGCAAGTCGGTCCACGGCACGCTGGTGGGCAGCCTGTCGGGGGCGATGCCGCCGGTGATCGGTTATGTCGCGGTCAGCAACAGCTTCGACATGGCTGCGCTGACGCTGCTGGTGATGTTCAGCCTGTGGCAGATGCCGCATTCCTATGCCATCGCGATCTTCCGCTTCAACGACTACCTGGCGGCTTCGATTCCGGTGCTGCCGGTCAAGCGGGGCATCCAGGTGGCCAAGAAGCACATCCTGCTCTACATCCTGGCCTTCCTCGTGGCGACCTTGATGCTGACGTTCAGCGGTTACGCCGGTATGAGCTACCTCGCCGTCGCCGCCGCCATGGGCATGTACTGGCTGTACATGGCCTGGACCGGTTACAAGGCGGTGGATGACACGGTCTGGGCACGCAAGCTGTTCGTGTTCTCGATCTTCACCATCACCGCCCTGAGCGTCATGATGTCCCTGGACTTCAAAGTGCCGAGTGAGCTGCTGCTGACGTACGCGCCTTAA	MSLKHFIQITKPGIIFGNVLSVAGGFFLASKGHVDLAIFLAAMIGTSLVVASGCVFNNCIDRDIDIKMERTKNRALVQGLIPVQLALAFATVLGVAGVALLYWVANPLAALFAVIGFVIYVGLYSLYLKRKSVHGTLVGSLSGAMPPVIGYVAVSNSFDMAALTLLVMFSLWQMPHSYAIAIFRFNDYLAASIPVLPVKRGIQVAKKHILLYILAFLVATLMLTFSGYAGMSYLAVAAAMGMYWLYMAWTGYKAVDDTVWARKLFVFSIFTITALSVMMSLDFKVPSELLLTYAP	PGPT0008520_3704	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
D1-35_01348	270			hypothetical protein	ATGTCCGGAAACTTCTCGACCAGCTTGATCAACAAAGCCGCCTGGGCGTTTTATCTGGCGAAGGGTAATCTTGCCCTCGCGGTGAGCGGCCATCTCTTCGACGCCTTGCATCATCTCGGCAAACAGATCGCGTTTTTTCATAAGGTACCTCGTACTTTCAACTCTGCTTCCATGGCTCGCTTGAGCGTCTTCTATTGCTCGGAGGTCAGGTTTTCCAAGTCGTCCTTGCTCGTCATAAATCGCTATTATCAAATTGACCAGCATTCATAG	MSGNFSTSLINKAAWAFYLAKGNLALAVSGHLFDALHHLGKQIAFFHKVPRTFNSASMARLSVFYCSEVRFSKSSLLVINRYYQIDQHS				NA	NA	NA	NA	NA
D1-35_01349	705			hypothetical protein	ATGTCCGATTCCAATACCGCTGAATCTGTAGTCTCCCTGTCGTCCAAAGCGGAATACGAAAACTCCATCAATCTTTCACAGCATCTGCCCCAGGCCAAAAGCATCAGCGAAATGGTCCTCGATGCCTTCCAGTCGAACCGCGAAAGCGACCAGATCCGCGAACTGCGCACCGCCATTCGCCAGGCTCACGATGCGTTCGACGATGACAAGGCCTACGCACTGATGGGCCAGCTCAAGCAACTCAAGGACGCCGAAGCCGCCGACTTCGCTGCGCTGGAAGACCTCAGCAGCCGCTTCCCGATCAGCCGTATCCTTTCCAGCTACAAGGATGACCCGGCCTTCCAGGAACTGGTCTACGGCCTGGCCCTGAAGGTGCTGAACCAGACCCATCAGGCCATCAGCAACCCGAGCGGCGGCAAGGGCAAGGCCGCGCGCGCCAAGAAGGAAGCCGAGGTGTTTGTCATCAGCAAGGACGGCATCAGCGTCACCCTGCCCTTGCGCACACCACGCTCCAAGCCGAACGTCGACCGCGAGGCCTTCGAATTCCTCGGCTTCAACTTCATCGGCGAAGGCGACGAAGCCGAGCTGGAAAGCGAAACCTTCCTGGACAACGACGGCACCGAACAGCCGGTCACCCGCAAAAGCATCGTCACCGCCTTGCAGCAGCAAAAAGCCTTCGACGGCTACAGCATCGCCCAGCAATAA	MSDSNTAESVVSLSSKAEYENSINLSQHLPQAKSISEMVLDAFQSNRESDQIRELRTAIRQAHDAFDDDKAYALMGQLKQLKDAEAADFAALEDLSSRFPISRILSSYKDDPAFQELVYGLALKVLNQTHQAISNPSGGKGKAARAKKEAEVFVISKDGISVTLPLRTPRSKPNVDREAFEFLGFNFIGEGDEAELESETFLDNDGTEQPVTRKSIVTALQQQKAFDGYSIAQQ				NA	NA	NA	NA	NA
D1-35_01350	642			hypothetical protein	TTGCAGCGCTACAGTGCCCGCTTCCCGGCGGTGGAAATCAACAGTTCGTTCTACCGCCCGCACCGTCCCGCCACCTATGCAAAATGGGCCGACAGTGTGCCGGCGGGTTTTCGCTTCTCAGTCAAGATGCCCAAGCAGATCACCCATGAGCGGCGCTTGCATGATTGCGAGGGGCTGGTGGATGAGTTCCTCGGGCAATGCTCGCAACTGAGGGAGAAACTTGGTTGCCTGTTGATCCAGTTGCCGCCGTCGCTGGCCTTCGATAACACCCAGGCCGAGGACTTTTTCAAAGCCTTGCGTGACCGTTACCAGCGCCACGCGGTACTCGAACCCCGGCACCCGAGCTGGCTCGCGCCACAGGCCATGGCATTGCTTGAGAAAGAGCGCATCGCCCGCGTCGCCGCCGACCCGTCGCCTGTGCCGGGCGGCGATCAACCGGCGGGCTGGGCGGGCGTGCGTTATTACCGGCTGCATGGCTCGCCGCGCATTTATTACTCCGCCTACGAAGACGCCTGGCTGCAGCGACTGGCAGACCTACTGAAGGCTGCCCCGGACACGCCGACCTGGTGCATCTTCGACAACACCGCCAGCGGCGCCGCGACGCCCGATGCGTTGCGATTGCTGCAGCTGCTGGGCGATTGA	MQRYSARFPAVEINSSFYRPHRPATYAKWADSVPAGFRFSVKMPKQITHERRLHDCEGLVDEFLGQCSQLREKLGCLLIQLPPSLAFDNTQAEDFFKALRDRYQRHAVLEPRHPSWLAPQAMALLEKERIARVAADPSPVPGGDQPAGWAGVRYYRLHGSPRIYYSAYEDAWLQRLADLLKAAPDTPTWCIFDNTASGAATPDALRLLQLLGD				NA	NA	NA	NA	NA
D1-35_01351	1014			hypothetical protein	ATGGACGACGCCTCGAAGATCGATTTGCTGCGGTTCGATTTGTCCGATCTGGACGAAAACGTGCTGCACACCATCATGGAACTGGTCAGCGATGGCATCTGGGACTGGAACGCCAACACCGGCTTCGTCTATCGAAATCCCGGCTGGTACACGATGCTCGGCTACACGCCTCACTCCCTGAGCAATACCGTGCTGACCTGGGAGAGTGTGATCCACCCGGAAGATTATCCCTACGTAATGGCGTTATTCGACGATTACCTCGAACAACGCGCCCCTAAGTACCAGGCCGAATACCGCTGCCGCGCCTATGACGGCTCCTATATCTGGATCGAAGACCGCGGCTACGTGATCGCCCGCAATCCCGATGGCAGCGTCGCCCGCATGATCGGTGCCCATCGCAGCATCGATGACAAGAAGCGTCTGTTCGAACAACTTGAACGGCGTAACAAGTCCCTCGAAGCCATCATCGAAGAACGCACCCGCGAACTGTCCCGGGTCAACGAGCAGTTGCAAATCCAGCTCGAGGAAAACCGCAGGCTCGCCGAAACCGACGCCCTCACGCTGGTCGCCAACCGCTATCGCCTGGAACAGGCGCTACCATTGGCCTGTGAACGCGCGCAGCGCTTTCGCGAGCCGTTGTCGCTGATTGCCATGGATGTCGACGATTTCAAGGACATCAACGATCGCTACGGCCATGCTTTCGGCGACGCGGCGCTGGTGCAAGTGGTACAGGCGGTCAAGCGCTGCGAGCGCGACGGCGACCTGCTGGTACGCTGGGGCGGCGATGAATTCATCATGATCTTGCCCAACACGTCCAAGGCCGATGCAGTCCTGTTGGCCGAAACCATTCGCCGAGGCTTGTCCGACCTGCTGCCGGTGGGCGATTTCCAGATCACCATGAGTTTTGGCGTGGTGCAACGCCACGAAGACGAACCGCAAGCAGCGCTACTGGATCGGGCTGACCAGGCACTGTATCGCTCCAAGATGGCCGGCAAGAATGTGATTTGTGATTGA	MDDASKIDLLRFDLSDLDENVLHTIMELVSDGIWDWNANTGFVYRNPGWYTMLGYTPHSLSNTVLTWESVIHPEDYPYVMALFDDYLEQRAPKYQAEYRCRAYDGSYIWIEDRGYVIARNPDGSVARMIGAHRSIDDKKRLFEQLERRNKSLEAIIEERTRELSRVNEQLQIQLEENRRLAETDALTLVANRYRLEQALPLACERAQRFREPLSLIAMDVDDFKDINDRYGHAFGDAALVQVVQAVKRCERDGDLLVRWGGDEFIMILPNTSKADAVLLAETIRRGLSDLLPVGDFQITMSFGVVQRHEDEPQAALLDRADQALYRSKMAGKNVICD				NA	NA	NA	NA	NA
D1-35_01352	903	dmlR_6		HTH-type transcriptional regulator DmlR	ATGGACCTGTTCCAGGCAATGACCGTTTACGTGAAAGTGGTGGAAACCGGCAGCCTGACCGCAGCGGCCCAGGCGTGCGAAATGTCCACGACCATGGTCGGCAATCACCTTCGGGCGCTGGAGCAACGCCTGGGTGTGCGCCTGATCAACCGTACGACGCGTCGTCAGCGCTTGACCGAATTCGGCTCGGCCTACTATCAACGCTGCCTGGAAGTGATCGGGCTGGTTGACGATTCCGAACGCCTGGCCGAGCAGACCCAAGGCGACCCCAGCGGCACCTTGCGCATCACCGCGCCGCTGACCTTCGGCACGGAGCGCCTCGCCCCGGCGCTGGCCGAATACAGCCAGCGTTATCCCCAGGTCAAGCTCGACGTTGTCTTGACCAACCAGCGTCTGGACCTGCTCGACCACGGCTTCGACGTCGCCATTCGCCTGGGCAGTCCCGACCCGAAGCTGATCGTTCGTCCCCTGATGGACTACACACTGACCGTCTGCGCCTCCAAGGCCTACCTGGCACGGCGCGGCACGCCGCAGAAACCTGAAGACCTGCAACAGCATGACTGCCTGTCGTTTGCCTATTCCGCCGGAGACGAATGGCGTTTCGCCCAGGAGCACTGGCCCATCAACGGGCCGGACGGGGAGATCAAAGTGCCGGTGCGCGGGCCGATGCTGATCAACAGCTCGTCGGGTCTGCACCGCGCCGCCCTGGCCGGCATGGGCGTGGTGATGCTGCCGGACGCGCTGGTGGCGCAGGATCTGGAGGATGGACACTTGGTGGCGCTGTTGCAGGACTATCAACTGCCCCACCGGCCAATGAGCCTGATGTACGCCCAGGATCGCTATCGTTTGCCGAAGCTGCGCAGTTTCGTCGAGTTTGCGCTGCAAAAGTGGAGCAAACCCTGA	MDLFQAMTVYVKVVETGSLTAAAQACEMSTTMVGNHLRALEQRLGVRLINRTTRRQRLTEFGSAYYQRCLEVIGLVDDSERLAEQTQGDPSGTLRITAPLTFGTERLAPALAEYSQRYPQVKLDVVLTNQRLDLLDHGFDVAIRLGSPDPKLIVRPLMDYTLTVCASKAYLARRGTPQKPEDLQQHDCLSFAYSAGDEWRFAQEHWPINGPDGEIKVPVRGPMLINSSSGLHRAALAGMGVVMLPDALVAQDLEDGHLVALLQDYQLPHRPMSLMYAQDRYRLPKLRSFVEFALQKWSKP				NA	NA	NA	NA	NA
D1-35_01353	1176	argD_1	COG4992	Acetylornithine aminotransferase	ATGACTGCCGCCTGCCTGATGAGCACTTACCAACCCTTGGCGCTGAACTTCACCCATGGCTTGGGTACGCGCCTGTGGGATCAGGATGGTCGCGAATACCTTGATGCGGTGGCGGGCGTGGCAGTGACCAACGTGGGCCATTCCCATCCGCGGTTGGTGGCAGCCATCAGTGAACAGGCCGGCCTGCTGCTGCACACGTCCAACCTGTACAGCATTGACTGGCAGCAGCGGTTGGCCCACAGACTCACCCAGCTCTCGGGGATGGAACGGGCGTTTTTCAACAACTCCGGCGCCGAGGCGAATGAAACCGCATTGAAGCTGGCCCGCCTGTATGGCTGGCACAAAGGCGTCGAACAGCCGTTGGTCGTGGTGATGGACAATGCTTTCCACGGGCGCACCCTGGGCACGCTGTCCGCCAGCGACGGGCCCTCGGTGCGGCTGGGTTTCAATCGGTTGCCGGGGGACTTCATCAAGGTGCCGTTCGGCGATCTCGGCGCATTGGAAAAAGTCCAGCAAGCCCACGGCGAGCGCATCGTTGCGATCCTGGTAGAGCCGATCCAGGGCGAAAGTGGCGTACAACTCGCGCCACCGGGTTACCTGAACGCTCTGCGGGATTTGTGCAGCCGGCGCGCCTGGTTGTTGATGCTCGACGAGATCCAGACCGGCATCGGCCGCACCGGGCAGTGGTTCGCGTTCCAGCACGAGGGCATCGTCCCGGACGTGATGACCCTCGCCAAAGGCCTCGGCAACGGCGTGCCCATCGGTGCCTGCCTGGCGCGCGGCAAGGCCGCCGGACTGTTCACCCCCGGCAGCCACGGCAGCACGTTCGGCGGAAATCCTCTGGCTTGTCGGGTCGGCTGCACCGTGCTGGACATCATCGAGGAGCAAGGCCTGCTGGAGAACGCCAGACGTCAGGGCGAGCAATTGCTAAGCCGGTTGCGGGCTGAGTTGGCGGACAACCCGAATGTCCTGGAGATTCGGGGCCAAGGCTTGATGATCGGCATCGAGCTAAAGCAACCGGTGCGCGACCTGACCCTCTGTGCCGCCCGGGATCATGGTTTGCTGATCAACGTCACCCGGGGCAAGACCATTCGCCTGTTGCCGCCGTTGACGATCGACGGGCGGGAAGTCGAGATGATCGTCAGAGGGGTGAGCCGCTGCCTGGGGCAGGCGTGA	MTAACLMSTYQPLALNFTHGLGTRLWDQDGREYLDAVAGVAVTNVGHSHPRLVAAISEQAGLLLHTSNLYSIDWQQRLAHRLTQLSGMERAFFNNSGAEANETALKLARLYGWHKGVEQPLVVVMDNAFHGRTLGTLSASDGPSVRLGFNRLPGDFIKVPFGDLGALEKVQQAHGERIVAILVEPIQGESGVQLAPPGYLNALRDLCSRRAWLLMLDEIQTGIGRTGQWFAFQHEGIVPDVMTLAKGLGNGVPIGACLARGKAAGLFTPGSHGSTFGGNPLACRVGCTVLDIIEEQGLLENARRQGEQLLSRLRAELADNPNVLEIRGQGLMIGIELKQPVRDLTLCAARDHGLLINVTRGKTIRLLPPLTIDGREVEMIVRGVSRCLGQA	PGPT0014253_3540	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
D1-35_01354	735	yiaD	COG2885	putative lipoprotein YiaD	ATGTTCACCTCGCGTCGCTTGATCGTTGTCGCTACTGCCGTGGCCCTGTTGTCCGGCTGTGCGTCGCCCAACCCCTATGACAACCAGGGCCAGGCCTCTACCGAATCTTCGGGCATGAGCAAAACCGCCAAGTATGGCGGCCTCGGCGCCCTGGCCGGGGCATTGGCCGGTGCGGCCATCGGCCACGATAATCGGGGCAAGGGTGCGTTGATCGGCGCGGCGGTGGTGGGGGCCTCCGCGGCCGGCTACGGTTACTACGCCGACCAGCAGGAAAAGAAATTGCGCGCCAGCATGGCCAATACCGGCGTTGAGGTGCAGCGCCAGGGCGACCAGATCAAGCTGATCATGCCAGGCAACATCACCTTCGCCACCGACTCGGCGAACATCGCATCGAGCTTCTACCAGCCGCTGAACAACCTGGCCAACTCCCTCAAGGAATTCAACCAGAACCAGATCGAGATTGTCGGCTATACCGACAGCACCGGCAGCCGCCAGCACAACATGGACCTGTCCCAGCGTCGCGCGCAGAGCGTGGCGACCTACCTGACGTCCCAAGGTGTCAGCGGCGCCAACCTCTCGGCCCGTGGCGCCGGCCCGGACAACCCGGTGGCAAGCAACGCCGACGTCAACGGCCGTGCGCAAAACCGTCGCGTCGAGGTCAACCTCAAGGCCATTCCTGGCCAGCAGTACCAGGCGCCGCAGCAGCAGGGGCAGACTTACCAGCAATATCCATAA	MFTSRRLIVVATAVALLSGCASPNPYDNQGQASTESSGMSKTAKYGGLGALAGALAGAAIGHDNRGKGALIGAAVVGASAAGYGYYADQQEKKLRASMANTGVEVQRQGDQIKLIMPGNITFATDSANIASSFYQPLNNLANSLKEFNQNQIEIVGYTDSTGSRQHNMDLSQRRAQSVATYLTSQGVSGANLSARGAGPDNPVASNADVNGRAQNRRVEVNLKAIPGQQYQAPQQQGQTYQQYP				NA	NA	NA	NA	NA
D1-35_01355	870	glnQ_1	COG1126	Glutamine transport ATP-binding protein GlnQ	ATGACTTTACCCCTGTCCACGTCCACCGATTTGTCCCGGCGCAGCACGCTGGCATCGCAGCAGGAGGCCCCGGCCATGCAGATTCCGACACCGTCCCGGCCGATTGTGAGTTTCCAGGACGTGACCAAAAGCTATGGCAGTTTCACCGTGCTCGATCATTTGAACCTGGATGTCGCGCCCGGTGAAAAGGTCGCGATCATCGGCCCCAGCGGCTCGGGCAAGTCGACGCTGCTGCGGGTGCTGATGACGCTCGAAGGCATCGATCAGGGCCAGATCCGCATCGAGGACGATTCCCTGACCCACATGCCCAACCGCAACGGCGTGCTGGTTCCGGCCAATGACCGGCACATCCGCCGGGTGCGTGGCAAGATCGGCATGGTGTTCCAGAGCTTCAACCTGTTTCCCCACATGACCGCGCTGCAAAATGTGATCGAAGCGCCAGTGCAGGTGCTGGGCATGAACCCCAAGGAAGCCCGCGAGCGCGCCGCCGACCTGCTGGAGCTGGTGGGCCTGGGCAACAAGCTCGACCATTACCCGTCGCAGTTGTCCGGCGGCCAGCAGCAGCGGGTGGCAATTGCCCGGGCGCTGGCGATGCGCCCCAAGGTGATGCTGTTCGATGAAGTGACCTCGGCGCTTGATCCGGAATTGTGCGGCGAGGTGCTGAGCGTGATCCGCAAGCTGGGCGCCGAGCACAACCTGACGATGTTGATGGTGACTCACCAGATGGGCTTTGCCCGGGAATTCGCCGACCGGGTGTGCTTTTTCTACAAGGGGCAGATTCACGAACAAGGCACCCCGGCGCAGATTTTCGAGCACCCGCAGCAGGAGCGGACGTGCGCATTCTTGAGTGCGGTGAAAGAAGCTAACTAA	MTLPLSTSTDLSRRSTLASQQEAPAMQIPTPSRPIVSFQDVTKSYGSFTVLDHLNLDVAPGEKVAIIGPSGSGKSTLLRVLMTLEGIDQGQIRIEDDSLTHMPNRNGVLVPANDRHIRRVRGKIGMVFQSFNLFPHMTALQNVIEAPVQVLGMNPKEARERAADLLELVGLGNKLDHYPSQLSGGQQQRVAIARALAMRPKVMLFDEVTSALDPELCGEVLSVIRKLGAEHNLTMLMVTHQMGFAREFADRVCFFYKGQIHEQGTPAQIFEHPQQERTCAFLSAVKEAN	PGPT0020790_450	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
D1-35_01356	657	glnP_1	COG0765	Glutamine transport system permease protein GlnP	ATGACGCTGTTCGATTGGTCCTACGCCGCACAAATCCTCCCGGACCTGCTGCGCGCGTCGCTCAACACCGTGGGCATTACCCTGATCGGTTTCCTGATCGCGATCGTGCTGGGGCTGTTCCTGGCGATTGGCCGGCGCAGCCGCAAGTTCTGGCTGTCGTGGCCGGCCACGGCGGTGATCGAGTTCATCCGCAGCACACCGTTGCTGATCCAGGTGTACTTCCTTTACTACGTGCTGCCCAACTACGGCCTGAGCCTGACGGCCATGCAAGTCGGCGTCCTCGGCATCGGCCTGCATTACGCCTGCTACATCGCCGAGGTCTACCGCAGTGGCCTCGACGCCGTGCCACGGGCGCAGTGGGAGGCGGTGACCGCGCTGAACATCGCGCCGTACGACGCCTACCGCAACATCATCCTGCCCCAGGCGCTGCGGCCGATCGTGCCGCCGCTGGGCAACTACCTGGTGGCGATGCTCAAGGACACGCCAGTGCTGTCGGCGATCACCGTGGTGGAAATCATGCAACAGGCCAAGAACATCGGCTCCGAGCATTTCCGCTACCTGGAACCGATCACCCTGGTCGGCCTGTTCTTCCTTGCCCTGAGCCTTGTCCTGGCTTGGCTGGTACGGCGCCTTGAAACGCGCATGGAGCTACGCTAA	MTLFDWSYAAQILPDLLRASLNTVGITLIGFLIAIVLGLFLAIGRRSRKFWLSWPATAVIEFIRSTPLLIQVYFLYYVLPNYGLSLTAMQVGVLGIGLHYACYIAEVYRSGLDAVPRAQWEAVTALNIAPYDAYRNIILPQALRPIVPPLGNYLVAMLKDTPVLSAITVVEIMQQAKNIGSEHFRYLEPITLVGLFFLALSLVLAWLVRRLETRMELR	PGPT0020795_9830	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
D1-35_01357	660	yecS_1	COG0765	L-cystine transport system permease protein YecS	ATGGGCGAATTACTTCCGTTATTGATTCAAGGGGCCTGGGTCACGCTCCAGGTGACATTCTTTGGCTCGTTGCTGGCGATTGTCGCCGCGGTGCTGGCGGCACTCGGACGGCTCTCGCCGTGGCGCGCGTTGCGCTGGTTTTCCATCACCTACATCGAGGTGTTTCGCGGCACCTCGCTGCTGGTGCAGCTGTTCTGGCTATTCTTCGTGCTGCCACTTCCTCCGTTCAACATCGAGCTGAGTCCCTACGCCGTGGCGATTGTCGGCCTGGGGCTGCACATCGGCGCCTACGGGGCCGAGGTGATGCGTGGCGCGATCAGCTCGGTCGCCAAGGGGCAATACGAAGCCTGCACGGCGCTGAACTTCAGCAGCTATACGCGCTTCAAGCGAATCATCCTGCCCCAGGCCTTGCTGGCGGCCATTCCACCGGGCACAAACCTGCTGATCGAGTTGTTGAAGAATACCTCGCTGGTGTCGTTGATCACTTTGTCCGACCTGAGTTTCCGGGCACGCCAACTGGACCAGGCGACGTTCCAGACCCTGGAAATCTTCAGCCTGGCGCTGGTGATGTATTTCATCCTCGCCCAGGCCATCAACCTGGGCATGCGCCACGTCGAGCGGCGGCTGAGCCGGGGCCGGATGCGCGGAGGTCTGTCATGA	MGELLPLLIQGAWVTLQVTFFGSLLAIVAAVLAALGRLSPWRALRWFSITYIEVFRGTSLLVQLFWLFFVLPLPPFNIELSPYAVAIVGLGLHIGAYGAEVMRGAISSVAKGQYEACTALNFSSYTRFKRIILPQALLAAIPPGTNLLIELLKNTSLVSLITLSDLSFRARQLDQATFQTLEIFSLALVMYFILAQAINLGMRHVERRLSRGRMRGGLS	PGPT0020795_9491	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
D1-35_01358	858			hypothetical protein	ATGAGCAATTTTCCAACCAGCAGCTGCACGCCCCTGCGCCGCCTCTTGTTGACGTGTGCCGCGCTTGGCCTGGCCGGCAGCGTTCAAGCGGCCACCCTGGACACCGTCAAAAGCAACAGCAGTATCCGCATCGGCTACGCCAACGAAACGCCGTTTGCGTTCACCGAAACCGACGGCAGCGTGACCGGCGAATCGCCGGAGATCGCCAAGATCATCTTCGCCAGGATGGGCATCAAGCAGGTCAATGGGGTGCTCACCGAATGGGGCTCGCTGATTCCGGGCCTGCGCGCCGGGCGTTTCGACGTGATTGCCGCCGGCATGTACATCACCCCGGCGCGGTGCAAGCAAGTGTTGTTCACCGACCCACAGTACCAGTTGCCCGACGCGCTGCTCGTGGCCAAGGGCAACCCGAAAAAGCTCCACAGCTACGAAGACATCGCCAAGCAACCGGACGTGAAGCTGGCGATCATGGCCGGTACGGTCAACCTCGCTTACGCCCGCGACTCGGGGGTCAAGGACGAACAGATCCTCCAGGTTCCCGACACCACGGCGCAACTGCAAGCGGTGCGCGCCGGTCGCGCCGATGCCGCCGTCGGCACACAACTGACCATGAAAGGCCTGGCCAGCAAGGGCGGCGACAAAGTCGAGGCGATGACCGAGTTCAAGGACGACCCGTCCCACATTGGCTACGGCGCCCTGGCCTTCCGGCCCGAGGACAAGGACCTGCGCGACGCGGTCAACGCCGAGTTGAAAAAGTGGCTGGGCTCGGAGGAACATCTCAAGGCCGTCGCGCCATTCGGTTTCGACAAGTCCAACGTCACCAGCAAGACCGCGGCCGAGCTCTGCGCTCAGCCGTAA	MSNFPTSSCTPLRRLLLTCAALGLAGSVQAATLDTVKSNSSIRIGYANETPFAFTETDGSVTGESPEIAKIIFARMGIKQVNGVLTEWGSLIPGLRAGRFDVIAAGMYITPARCKQVLFTDPQYQLPDALLVAKGNPKKLHSYEDIAKQPDVKLAIMAGTVNLAYARDSGVKDEQILQVPDTTAQLQAVRAGRADAAVGTQLTMKGLASKGGDKVEAMTEFKDDPSHIGYGALAFRPEDKDLRDAVNAELKKWLGSEEHLKAVAPFGFDKSNVTSKTAAELCAQP	PGPT0020800_4947	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
D1-35_01359	1374	norG_2	COG1167	HTH-type transcriptional regulator NorG	TTGGACGTCGCCCGCAGCGGTGAATCCAAATACAAGATTCTGGTCCAGGCGATCGCCGACGACATCGAACAGGGCATCCTCGCCAACGACCAGCGCCTGCCGCCGCAACGACAAGTGGCCGACGCCATGGGCATCAGCGTGCAGACCGTCACCAACGCCTACAAGGAACTGGAGCGCCAGGGGCTGGTGCGTTGCGAAGTAGGGCGCGGCAGTTTCGTTTCGCGGCGCATGAGCGACCGGGTCGCCACTTACATACTCGACAGCCCCGAGCGGGCGCTGGTGGATTTTTCCATCACGCGGATCCTGCACACTCGCGAGCATGATCAGTTCTGGCGCGACACCTGCGCCGAGCTGAGCACCGAAGAAGACCAGCCATGGATTCATGCGTTTCGTCCGATTGCGGGGTTTGAATCCCATCGCGAAGCGGCGGCGCAATGGATCGGCCGGCAGGGGCTGAAGGTCGATCGCAACGACGTCTTGATCACCAACGGCGCGGCTCATGGCATCTTCCTCGCCCTGGCTTCCCTGGCCGGTCCCGACGATGTAGTGCTCTGCGAAGGGCTGACCGACCACGGTGTGATCGGCAATTCCCAGGTGCTGGGTTTCACCCTCAAGGGCCTGGACACCGACCGCCACGGCATTGATCCCGAGCATTTCGAGGACATGTGCAGCAACGAGCGCATCACCGCGCTGGTGTGTACACCCAACCTCAATAACCCCACCACCAGCCTGATGCCCGACACCCGCCGCCGGGAAATCGCCGAGATTGCCCGGCGCTTCGGCGTGCACATCATCGAAGACGATGTCTACGGTCCGTTGCTGGACGAGCGCCGGGCGCCGCCCATCAGCCATTACCTGCCGGAGCTGTCGTTCTACTGCACGAGCATGACCAAGTCAGTGCTCACGGGCTTGCGCATCGGTTATCTGGTGGTGCCCAAGCGCCTGGCGCTGCGCACCGAGAGCATCCTGCGGGTGAACAGTTGGATGGCCACCCCGATGGTCTCGGAGATCGCCGCTCGCTGGATCCGCGACGGGCGCGCCGACTCGTTGTTGCATTTACAACGGCGCCTGTTGGCCGGGCGCCAGGCGATGGTCACCGAGTACATGGGCGAGCACGTCTTGGCCCAGCATCCCCATGCCTTGAATGCCTGGATCGGCATCCCGCCCCACTGGGAAGTCGACAGCCTGGTGCGGGCGCTGCGCCACAAGCACATCGCCGTCACGTCCCCCGACCCGTTCACCGTGCGCGGCACACCGCGGCCACGGGCGGTGCGGGTCTGCGTTGGCGCCGAATGCAGCGATGAAGAAATGCGCCATGCATTGATCGGCATGCGGCAGATCTTCAACCAGTATCCGCAGATTCATGATTTTTGA	MDVARSGESKYKILVQAIADDIEQGILANDQRLPPQRQVADAMGISVQTVTNAYKELERQGLVRCEVGRGSFVSRRMSDRVATYILDSPERALVDFSITRILHTREHDQFWRDTCAELSTEEDQPWIHAFRPIAGFESHREAAAQWIGRQGLKVDRNDVLITNGAAHGIFLALASLAGPDDVVLCEGLTDHGVIGNSQVLGFTLKGLDTDRHGIDPEHFEDMCSNERITALVCTPNLNNPTTSLMPDTRRREIAEIARRFGVHIIEDDVYGPLLDERRAPPISHYLPELSFYCTSMTKSVLTGLRIGYLVVPKRLALRTESILRVNSWMATPMVSEIAARWIRDGRADSLLHLQRRLLAGRQAMVTEYMGEHVLAQHPHALNAWIGIPPHWEVDSLVRALRHKHIAVTSPDPFTVRGTPRPRAVRVCVGAECSDEEMRHALIGMRQIFNQYPQIHDF				NA	NA	NA	NA	NA
D1-35_01360	972	tdcB		L-threonine dehydratase catabolic TdcB	ATGACAGGGTTGCAGCTTCAGGACATCTACCTCGCTCGCCAGCGCATCGAGTCGCTGGTGCGGCGCACGCCCATGGAGTACTCCGCCAGCCTGTCGCGATTGATCGGCGTGCCCGTATACCTCAAGTTGGAATCCCTGCAAATCACCGGCAGCTTCAAGCTGCGTGGCGCCAGCAATGCCGTGGCGCAACTCAGCCCGGAGCAGAAGGTGTCAGGCGTGGTGACGGCCTCGACCGGTAACCATGGTCGGGCACTGGCCCATGCCGCATCGCAACAAGGGGTCAAGGCGATTGTCTGCCTGTCGAACCTCGTGCCGGCCAACAAAGTGCAGGCGATCCGCGATCTGGGCGCCGAGGTGTGCATTGTCGGCCAGTCCCAGGACGACGCCCAGCGCGAGGCCGAGCGCATCGCCCGCGAGCAGGGCGCGACCTTCCTGCCGCCGTTCGATCATCCCGCAATCATCGCCGGCCAGGGCACCCTTGGCCTGGAGATCCTCGAACAGCAAGCGGATGTGGCCCAGGTGCTGGTGCCATTGTCCGGCGGCGGCCTGTTCGCCGGTGTGGGCCTGGCCCTGAAAAGCGCCAATCCAGCCATTCAAGTCCACTGCATCAGCATGGCGCGAGGCGCCGCGATGCACACCAGCCTCGCCGCCGGCCAGCCGCTGGAAGTCGAAGAGCTGCCGACCCTGGCGGACTCTCTTGGCGGCGGCATCGGCCTGGACAACCGCTACACCTTCGCCATGACCCGGCAGTTGGCCGATGACGTGCACCTGCTCTCGGAAGCTTCGATCGCCAATGCCCTGCGCCACGCCTATCACCACGAACGCCTGGTGCTCGAAGGTGCCGCCGTGGTGGGCATCGCGGCGTTGCTCGACGGCCTGGTCGAACCGCGCGGACCGATCGTGGTGGTGGTCAGCGGGCGCAACGTCGACACCGAACAACATGCCCGCGTGATCGCCGGCGCCAACGCCTGA	MTGLQLQDIYLARQRIESLVRRTPMEYSASLSRLIGVPVYLKLESLQITGSFKLRGASNAVAQLSPEQKVSGVVTASTGNHGRALAHAASQQGVKAIVCLSNLVPANKVQAIRDLGAEVCIVGQSQDDAQREAERIAREQGATFLPPFDHPAIIAGQGTLGLEILEQQADVAQVLVPLSGGGLFAGVGLALKSANPAIQVHCISMARGAAMHTSLAAGQPLEVEELPTLADSLGGGIGLDNRYTFAMTRQLADDVHLLSEASIANALRHAYHHERLVLEGAAVVGIAALLDGLVEPRGPIVVVVSGRNVDTEQHARVIAGANA	PGPT0001960_6172	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
D1-35_01361	987	ala		Alanine dehydrogenase	ATGAGTGAAGTCACCCTATTGAGCGAGGCCGACCTGCGCAGTTGCGTGGCCCTCGACCTGGCCAGCATCGACGCCATCGAGCAGGCCTTCGTGATGCTGGCCACCGCGGCCGTGGCGATGCCGCCGATCCTGCGGCTGGACATTCCCGAGCACAACGGCGAAGTGGATGTGAAGACCGCTTACCTGCCGGGCCTGGAGCGCTTCGCCATCAAGGTCAGTCCGGGTTTCTTCGACAACCCCAAGCTCGGCCTGCCCAGCCTCAACGGCATGATGATGCTGCTCTCGGCGCGTACCGGTCTGTTGGAGGCGCTGCTGCTCGACAATGGCTACCTCACCGCCGTGCGCACCGCCGCGGCCGGGGCGGTGGCGGCGCGTTGCCTGTCTCGCGAGCAAAGCCGCAGCGTGGCGTTGATCGGGGCCGGCGAGCAGGCGGCGTTGCAGCTTCAGGCGCTGCGCCTGGTGCGGCCGATCGACGAGGTGCGGGTCTGGGCGCGGGATGCGCAAAAGGCCAAGGCGTTCAGTGATGGACTGGCCCGTGACAGCGGACTTGCCGTCACGCCCTGCAGCTCCATTGACGCTGCCCTGGAGGGCGTGGATATCGCGATCACCTGCACGCCCAGCCGCGAGCCGCTGATCGAGCCCCGCCACTTGCACCCTGGCCTGCACATCACCGCGATGGGCTCGGACGCGGAGCACAAGAACGAAATTTCCCCACAGGCCCTGGCAGCCGTCGACTGCTATGTCGCCGATCGCCTCAGCCAGACCCGCGTGCTCGGCGAACTGCACCATGCCTTGGCGGCCGGCTTTGTCCGTGACGATTTGATGGAACTCGGGCAAGTGCTGGCGGGCCAGCAGCCCGGGCGCTCCGATGCAACGCAGGTAACGCTTTGCGACCTGACCGGCACCGGCGCCCAGGACACCGCCATCGCCAATCTGGCGTTCGAGCGGGCGAGGGCGGCAGGCAAGGGTTTCGCGTTCGGTCGTTGA	MSEVTLLSEADLRSCVALDLASIDAIEQAFVMLATAAVAMPPILRLDIPEHNGEVDVKTAYLPGLERFAIKVSPGFFDNPKLGLPSLNGMMMLLSARTGLLEALLLDNGYLTAVRTAAAGAVAARCLSREQSRSVALIGAGEQAALQLQALRLVRPIDEVRVWARDAQKAKAFSDGLARDSGLAVTPCSSIDAALEGVDIAITCTPSREPLIEPRHLHPGLHITAMGSDAEHKNEISPQALAAVDCYVADRLSQTRVLGELHHALAAGFVRDDLMELGQVLAGQQPGRSDATQVTLCDLTGTGAQDTAIANLAFERARAAGKGFAFGR				NA	NA	NA	NA	NA
D1-35_01362	1191	doeA	COG0006	Ectoine hydrolase	ATGTCAGAGATAGTCGTCAATCTTCCGTTCCAGCGGGAGGAATACGCCCAGCGCCTGGCAAAGGTTCGCGCGGCGATGCAGGTCCAGGGCCTGGAGCTGTTGCTGGTCACCGATCCGTCGAACATGGCCTGGCTCACCGGCTATGACGGTTGGTCGTTCTATGTGCACCAGTGCGTGCTGCTGGCGCTGGACGGCGAGCCGGTGTGGTTCGGGCGTGGCCAGGATGCCAACGGGGCGAAGCGCACGGTGTTCATGCAGGCCGATAACATCGTCGGCTACCCGGACATTTACGTGCAGTCCCGCGAGCGTCATCCCATGGACTACCTGTCCCGCGAGGTGATCATTGCCCGTGGTTGGGGCGCGCTGAGCATCGGCGTGGAAATGGACAACTACTACTTCAGCGCCGCCGCGTACCTGTCGCTGCAAAAGCACCTGCCCGAGGCGAAGCTGGTGGACGCGGTGGGCCTGGTGAACTGGCAGCGTGCGGTCAAGTCGCCGCAGGAAATCGCCTACATGCGCATCGCCGCACGCATCGTCGAGAACATGCACAGCCGGATCCTCGAACGCATCGAGCCGGGCATGCGCAAGAACGAACTGGTGGCTGAGATCTACAGCAGCGGCATCCTCGGTGCCGACGGCCATGGCGGCGATTACCCGGCCATCGTGCCGCTGCTGCCCACCGGTGCCGACGCCAGCGCACCGCACCTGACCTGGGATGATTCGCCGTTCGAAAAAGGCGCTGGCACCTTCTTTGAAATCGCCGGCTGCTACAAGCGTTACCACTGCCCGCTGTCGCGCACCATTTACCTGGGCAAGCCGCCGCAGCATTTCCTCGACGGCGAAAAAGCCGTGGTCGAGGGCATCGCCGCTGGCCTGGACGCGGCCAAGCCGGGCAACACCACCGGCGACATTGCCGTGGCGTTTTTCAAGGTGCTGGAAAAGTTCGGCATCCACAAGGACAGCCGTTGCGGCTACCCCATCGGCATCAGTTATCCGCCGGATTGGGGCGAGCGCACCATGAGCCTGCGCCCCGGCGACAACAGCGTGTTGCAGCCGGGCATGACCTTCCACTTCATGCCGGGGCTGTGGATGGACGATTGGGGCCTGGAAATCACCGAGAGCATCCTGATCACCGAGACCGGCGTCGAGACGCTGTGCAACGTGCCCCGTCAACTGTTCGTGAAGGATTGA	MSEIVVNLPFQREEYAQRLAKVRAAMQVQGLELLLVTDPSNMAWLTGYDGWSFYVHQCVLLALDGEPVWFGRGQDANGAKRTVFMQADNIVGYPDIYVQSRERHPMDYLSREVIIARGWGALSIGVEMDNYYFSAAAYLSLQKHLPEAKLVDAVGLVNWQRAVKSPQEIAYMRIAARIVENMHSRILERIEPGMRKNELVAEIYSSGILGADGHGGDYPAIVPLLPTGADASAPHLTWDDSPFEKGAGTFFEIAGCYKRYHCPLSRTIYLGKPPQHFLDGEKAVVEGIAAGLDAAKPGNTTGDIAVAFFKVLEKFGIHKDSRCGYPIGISYPPDWGERTMSLRPGDNSVLQPGMTFHFMPGLWMDDWGLEITESILITETGVETLCNVPRQLFVKD	PGPT0014046_142	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014046-doeA-K15783	NA	NA
D1-35_01363	1002	doeB	COG3608	N-alpha-acetyl-L-2,4-diaminobutyric acid deacetylase	ATGCGCGAATTGCCCAGCAATCCCATCAGCGCCACGGTCGACTTCAGCCGCGAGGGTGTGCAGCACGGTTTTCTCAAGTTGCCGTATTCGCGGGACGATTCGGCATGGGGCGCGGTAATGATCCCCATCACCGTGATCCAGCGCGGCAGCGGTCCGACCGCGCTGCTCAGCGGTGGCAACCACGGCGACGAATACGAAGGCCCGGTGGCCCTGAGCAAACTGGCCCAGCAGTTGAGCGCCGAAGACGTCAGCGGGCGGATCATCATCGTGCCGTTCATGAACACCCCGGCGTTCCGTGCCGGACGCCGGACTTCGCCCATCGACAAAGGCAACCTGAACCGCAGTTTTCCCGGCAAGCCGGACGGCACCGTCACCGAGAAAATCGCCGACTATTTCAACCGCACCCTGCTGCCGTTGGCTGACCTTGTGCTGGACATTCATTCCGGGGGGCGAACCCTGGATTTCCTGCCATTCGCCGCCTGCCACGTATTGCCGGACAAACAGCAACAGGCGCGTTGCGAGGCCGCGATGCTGGCGTTCAACGCGCCGTATTGCATGCGCATGCTGGAGCTGGATGCCGGGTCGATGTACGACACGGCGGCGGAGTCCCAGGGCAAGGTGTTTGTTACTACCGAGCTGGGCGGCGGCGGTTCGTCCACCGCCCGCAGCGTGGCGATTGCCGAGCGCGGGGTGCGCAACCTGTTGATCCACGCCGGCATCCTGCGGGGTGCGATCGAGTTGCAGCCGTCGGTGATGCTCGACATGCCGGACGCCAGTTGCTTCGTTGCCAGCGAGCATGACGGCTTGTTGGAAATGTGTCGCGACCTCGGCGAAAGCGTGAACCAGGGAGAAGTGGTGGCGCGCATCCACGACGCAACCCGCAGCGGCGTCGCCCCGGTTGAATACCGCGCCGCCCGCAGCGGCCTGCTGGCGGCGCGGCACTTTCCCGGGCTGGTGCAGTGTGGCGATACGCTGGTGGTGATTGCGGATGTGTTGGCTTGA	MRELPSNPISATVDFSREGVQHGFLKLPYSRDDSAWGAVMIPITVIQRGSGPTALLSGGNHGDEYEGPVALSKLAQQLSAEDVSGRIIIVPFMNTPAFRAGRRTSPIDKGNLNRSFPGKPDGTVTEKIADYFNRTLLPLADLVLDIHSGGRTLDFLPFAACHVLPDKQQQARCEAAMLAFNAPYCMRMLELDAGSMYDTAAESQGKVFVTTELGGGGSSTARSVAIAERGVRNLLIHAGILRGAIELQPSVMLDMPDASCFVASEHDGLLEMCRDLGESVNQGEVVARIHDATRSGVAPVEYRAARSGLLAARHFPGLVQCGDTLVVIADVLA	PGPT0014047_225	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014047-doeB-K15784	NA	NA
D1-35_01364	480	lrp_2	COG1522	Leucine-responsive regulatory protein	ATGCACAAGCTCGATCGCTACGACCTGAAAATCCTGCAGATCCTCGCCGAGGACGGGCGGATCACCAAGTCGAGCCTCGCCGAGGCGATCAACCTTTCAGTGACCCCGGCCTGGGAGCGGGTGCGCAAACTCGAGGCGGCGGGGCTGATCATCGGCTACCGGGCGCAGATCGACTGGGGCGCGGTGTTCAAGCGCCAGCAGGTACTGGTGGAAATCACCCTGGCCCGGCACACCGCCCAGGACATGCGCCGTTTCGAGCAACGCCTGCTCGCCGCGCCCGAAGTGGTGTTCTGCTACGCCACCGGCGGCGGTGTGGATTACCTGGCGATGATCCAGGCGCCGGACGTCGATTCGTATCAGCGTTTCGTCGATCAACTGTTGCTTGAAGACCTCGGCATCGAACGCTACTTCACCTACATCGTCACCAAGACCATCAAGACCGTCGGCGCCTTGCCGGCGGAGCTCACACCGTCATCCTGA	MHKLDRYDLKILQILAEDGRITKSSLAEAINLSVTPAWERVRKLEAAGLIIGYRAQIDWGAVFKRQQVLVEITLARHTAQDMRRFEQRLLAAPEVVFCYATGGGVDYLAMIQAPDVDSYQRFVDQLLLEDLGIERYFTYIVTKTIKTVGALPAELTPSS	PGPT0014049_205	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014049-doeX-K15782	NA	NA
D1-35_01365	1488	davD_1	COG1012	Glutarate-semialdehyde dehydrogenase	ATGCCTTATCAACACCCGCTGCTGTTCAAAGCGCTTTGCTACATCGATGGCCATTGGGTCCACAGCGACAGCGGCCAGAGCATCGCGGTGCAGAACCCAGCAACCCGCACGGTTATCGGCCATGTGCCGATGCTCGATCAACCTCAGATCGTCGCGGCGGTGGACGCGGCGCATCGCGCGTTCCCCGCATGGCGCGAGCAGAGCCTGGAGATTCGCGGCGCGATGCTGCGGCGCTGGGCGGCGTTGATCAGCGAGCACAGCGAAGACCTCGCGCGAATTCTCAGCCTGGAGCAGGGCAAGCCGCTGGCCGAGTCCCGTGGCGAAATCGCCTATGCCGCAAGTTTCATCCCGTGGTTCGCCGAGGAGGCCCGGCGCCTCTACGGCCAGAACATTCCCAGTCATATCCCGAACGCTCATTTGGGCACGGTCAAGGAACCAGTGGGCGTCTGCGCGCTGCTCACACCCTGGAACTTCCCCTCGGCGATGATCACCCGCAAGGCCGCTGCCGCGCTGGCGGCCGGATGCACCGTGGTGGTCAAGCCGGCCCATGAAACGCCTTACTCGGCGTTGGCCCTGGCGCAACTGGCCGAGGAAGCGGGCTTTCCTGCCGGCGTCTTCAACGTGGTATTGGGCGAGCCGCAGATGACCATGGAGACCCTGGTCAAGGACCGCCGCGTGCGTTCGGTGAGTTTCACCGGCTCGACCCGGGTCGGCAAACTGGTGCTGCAAGCAGCGGCCCATGACGTGAAAAAGGTCGCGCTGGAGCTGGGCGGCAATGCGCCGTTCATTGTCTGCGCCGATGCCGATCTGGCCTTGGCAGTCAAAGTCGCTGTCGAGGCGAAATTCCAGACCTCGGGTCAGGATTGCTGCGCGGCCAACCGGATCCTGGTGCAGCGCCCGGCGTATCAGGCGTTTCTCAGTCGTTTCGCCGCCGCGGTGCGCGCCTTGCGGGTCGGGCCGGCGATGGTTGATCAACAGGAGCAGGCGGTGGATGTCGGGCCGTTGATGCATCAGGCGGCGCTCGATGCGACCGCCGACCGCGTCGCCGATGCGCTGGCCCTTGGCGCCCAACGCCTGGCCGGTGGCGAGGCCCATGCTCTGGGCGGGTTGTTCTACCAACCGACCGTGCTGGCCGACGTCACGCCAAAAATGCGCATCTACCGTGAAGAGAACTTCGCGCCCATCGCCGGGGTGATGCCGTTCGACACCCTGGACGAAGCCATCGAACTGGCCAACGACACCGAATACGGACTGGCCGCGTATATTTGCTCCAATCGCCTGGATGTCATTTATCCACTGATCCGTCGTCTCGACCACGCCATGGTCGCCGTCAACGGCGTCAAGTTCACCGGTCATCCGATTCCCTTCGGCGGCATGAAAGCCTCGGGCCTCGGCCGCGAGGGCGGCACCGAGGGCTTCGAGCCCTTCGTCGAAACCAAATACTTTTGCCTGCACCATCAAGGCCAATTCCCAGGAGAGCCCGCATGA	MPYQHPLLFKALCYIDGHWVHSDSGQSIAVQNPATRTVIGHVPMLDQPQIVAAVDAAHRAFPAWREQSLEIRGAMLRRWAALISEHSEDLARILSLEQGKPLAESRGEIAYAASFIPWFAEEARRLYGQNIPSHIPNAHLGTVKEPVGVCALLTPWNFPSAMITRKAAAALAAGCTVVVKPAHETPYSALALAQLAEEAGFPAGVFNVVLGEPQMTMETLVKDRRVRSVSFTGSTRVGKLVLQAAAHDVKKVALELGGNAPFIVCADADLALAVKVAVEAKFQTSGQDCCAANRILVQRPAYQAFLSRFAAAVRALRVGPAMVDQQEQAVDVGPLMHQAALDATADRVADALALGAQRLAGGEAHALGGLFYQPTVLADVTPKMRIYREENFAPIAGVMPFDTLDEAIELANDTEYGLAAYICSNRLDVIYPLIRRLDHAMVAVNGVKFTGHPIPFGGMKASGLGREGGTEGFEPFVETKYFCLHHQGQFPGEPA	PGPT0014048_150	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014048-doeC-K15786	NA	NA
D1-35_01366	1386	spuC_1	COG0161	Putrescine--pyruvate aminotransferase	ATGAGCCAAGAACTCAACACGTTGTTCGAACAAGACCGTGCGCATTTCATGCACCCCTCGACCCACGCCCACGACCACGCCAGCGGGGCGCTCAAGGGGCGCATCATCAAGAGCGCGTCGGGCATTCGCATACGCGATCACGAGGGGCGTGACTTCATCGACGCTTTCGCCGGGCTCTATTGCGTGAACATTGGTTATGGCCGTACCGAAGTGGCCGATGCCATCTACAAACAGGCCAAGGAACTGGCCTACTACCACACCTATGTCGGTCATTCGAGCGAGGCGATCATCGAACTGTCCAGCCGCATCATGGACTGGGCGCCGACGGGGATGAAGAAGGTCTATTACGGGCTGTCCGGCTCCGATGCCAACGAAACCCAGATCAAACTGGTGCGTTACTACAACAACGTACTCGGCCGGCCGCAGAAGAAAAAAATCATCTCCCGTGATCGTGGCTACCATGGCTCGGGCATCATGACCGGCAGCCTGACCGGGCTGCCGGCGTTCCATCAGCATTTCGACCTGCCGGCCGAAGGGGTCAAGCACACCGTGTGTCCGCACTGGTATCGCAAGGCCCGGGCGGGCATGGACGAAGCAACGTTCGTGCGTTATTGCGCCGATGAACTGGAAAAAATGATCCTCGCCGAGGGCCCGGACACGGTGGCGGCGTTCATCGGCGAACCGGTGATGGGCACTGGTGGCATCATCGTTCCGCCCGCCGGTTATTGGGCTGCGATCCAGGCCGTGCTGAACAGATACGACGTGCTGTTGATCGCCGATGAGGTGGTCTGCGCGTTTGGTCGCCTGGGTTCGAAGATGGGCAGCCAGCGCTATGGCATGCAGCCGGACCTGATCACCACGGCCAAGGGACTGACCAGCGCCTACGCGCCGTTGTCGGCGGTGATCATCGGTGAAAAGGTCTGGAGCGTGATCGAAAAAGCCTCCCAGGCCGAAGGTGCGATGGGCCATGGCTGGACTTACTCCGGACACCCGATCTGCGCGGCGGCGGCCCTGGCCAACCTGGATATCCTCGAAAGGGAAAACCTCATGGCCAACGCCGAAGACGTCGGTGGTTACCTCAACCGGCGTTTACGCGAAACCCTCGAAGGCCATCCGCTGGTGGGCGAAGTGCGCGGTGACGGCATGCTGGCGGCGGTGGAGTTCATGGCCGATCGTGAACAGCGTACGGCGTTCGACCCGGCACTCAAGGTCGGACCCAAGGTCTCGGCCGCCTGCCTGGAACGCGGAATGATCGCCCGCGCCATGCCCCACGGCGACATCCTGGGCTTCGCTCCGCCGCTGATCCTGACCCGCGAAGACGCCGACCTGATCGTCGACATCACCAAAGGGGCCATCGACCAGGTGGCGGAGGAAGTGTTGGCTTGA	MSQELNTLFEQDRAHFMHPSTHAHDHASGALKGRIIKSASGIRIRDHEGRDFIDAFAGLYCVNIGYGRTEVADAIYKQAKELAYYHTYVGHSSEAIIELSSRIMDWAPTGMKKVYYGLSGSDANETQIKLVRYYNNVLGRPQKKKIISRDRGYHGSGIMTGSLTGLPAFHQHFDLPAEGVKHTVCPHWYRKARAGMDEATFVRYCADELEKMILAEGPDTVAAFIGEPVMGTGGIIVPPAGYWAAIQAVLNRYDVLLIADEVVCAFGRLGSKMGSQRYGMQPDLITTAKGLTSAYAPLSAVIIGEKVWSVIEKASQAEGAMGHGWTYSGHPICAAAALANLDILERENLMANAEDVGGYLNRRLRETLEGHPLVGEVRGDGMLAAVEFMADREQRTAFDPALKVGPKVSAACLERGMIARAMPHGDILGFAPPLILTREDADLIVDITKGAIDQVAEEVLA	PGPT0007865_412	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007865-spuC-K12256	NA	NA
D1-35_01367	438			hypothetical protein	GTGGAACACTCGCTCTTAGTTTGGCTGTTGCCGACTCTTGCCCTGGTTGCCGGTGTCGCCATTGGTTTCCTGATTGCCCGACTGCTGCCTAACGCGGTGCCCAACAGCACCCAACGTCAGCTCGACGACATCCAGGAACGTTTCGACAGTTACCAGAATGAAGTGGTAACCCACTTCAACAGCACCGCTTCCCTGGTGAAAAAGCTCACCCAGAGCTACCAGGAAGTCCAGGATCATCTGTCCGAGGGCGCCAACCGCCTGGCCCTGGACGAGCAGACGCGCCAGCGCCTGCTGGCCGCCCTGCAAGCCGACACGGCGCAGACGCCACGGGAGCGCCTGACCCCGCCCAAAGGGATCCAGGAACCGCCACGGGACTACGCCCCCAAGGCCCCGAACTCCCCAGGGATGCTGGATGAGCATTACGGTTTGAAGAAGTAA	MEHSLLVWLLPTLALVAGVAIGFLIARLLPNAVPNSTQRQLDDIQERFDSYQNEVVTHFNSTASLVKKLTQSYQEVQDHLSEGANRLALDEQTRQRLLAALQADTAQTPRERLTPPKGIQEPPRDYAPKAPNSPGMLDEHYGLKK				NA	NA	NA	NA	NA
D1-35_01368	630			hypothetical protein	ATGCGCGAAACCCCTGTAGTCATCGATGGCCCGGTCGGCCAACTGGAAGCCTTGTACCTGGACAGCGAAGCGCCCCGTGGCCTGGCGCTGATCTGCCACCCCAACCCGGTACAGGGCGGGACCATGCTCAACAAAGTGGTCTCGACCCTGCAGCGCACCGCCCGCGACGCTGGCCTGGTTACGTTGCGTTTCAATTATCGCGGCGTCGGCGCCAGTGCCGGCAGCCATGACATGGGCACCGGCGAAGTGGACGATGCCCAGGCCGCGGCCGCCTGGTTGCTGGAAAAATACCCGCAGCTGCCCCTGACCCTGTTTGGTTTTTCCTTCGGCGGCTTCGTCGCCGCCACCCTTGGCGGACGCCTGGAAGCCCAAGGCCAGGCGCTCAAGCACCTGTTCATGGTTGCTCCGGCGGTAATGCGCCTGGATGCACAAGCGCCCCTGCCGACCAGTGGCGAATTGACCGTGATCCAGCCGGAAACCGACGAAGTGGTCGATCCCCAACTTGTCTACACATGGTCCGACGCGCTCCAGCGCCCCCATGAGCTGCTGAAAGTGGCAGAATGCGGACACTTTTTTCATGGCAAGCTGACTGATCTCAAGGATCTGCTCCTGCCGCGCCTCTCGAATTGA	MRETPVVIDGPVGQLEALYLDSEAPRGLALICHPNPVQGGTMLNKVVSTLQRTARDAGLVTLRFNYRGVGASAGSHDMGTGEVDDAQAAAAWLLEKYPQLPLTLFGFSFGGFVAATLGGRLEAQGQALKHLFMVAPAVMRLDAQAPLPTSGELTVIQPETDEVVDPQLVYTWSDALQRPHELLKVAECGHFFHGKLTDLKDLLLPRLSN				NA	NA	NA	NA	NA
D1-35_01369	1356			hypothetical protein	ATGACGACTCGTACCCGTATCCTGACCGGCATCACCACCACCGGCACCCCGCACCTGGGCAACTACGCCGGCGCCATCCGTCCGGCGATCCTCGCCAGCCGCGAAAGCAATGCCGATTCGTTCTATTTCCTGGCCGATTACCACGCCCTGATCAAATGTGATGACCCGCTGCGCATCCAGCGCTCGCGCCTGGAAATCGCCGCGACCTGGCTGGCCGGTGGCCTGGATGTGGACCGCGTGACGTTCTATCGCCAGTCCGATATCCCTGAAATCCCGGAACTGACCTGGCTGCTGACGTGCGTCGCCGCCAAGGGCCTGCTCAACCGTGCCCACGCCTACAAGGCGTCGGTGGACAAGAACGTCGAGACCGGCGAAGACCCTGACGCCGGCGTCACCATGGGCCTCTACAGTTACCCGATCCTCATGGCGGCCGACATCCTGATGTTCAACGCCCACAAGGTGCCGGTCGGTCGTGACCAGATCCAGCACGTGGAAATGGCGCGGGACATCGGTCAGCGCTTCAACCACCTGTTCGGCAAGGGCAAGGAGTTCTTCACCATGCCCGAGGCGCTGATCGAGGAAAGCGTCGCCACGCTGCCGGGCCTCGATGGCCGCAAGATGTCCAAGAGCTACGACAACACCATTCCGTTGTTCAGCAGCGCCAAGGACATGAAGGACGCGATCTCGCGGATCGTCACCGACTCGCGCGCGCCGGGCGAAGCCAAGGACCCGGACAACTCGCACCTGTTCACGCTGTTCCAGGCCTTCGCCACTGCCGAGCAGTCCGCCGCGTTCCGTAGCGAACTGCTGCAAGGCCTGGGTTGGGGCGAGGCGAAGAGTCGTCTGTTCCAACTGCTCGACGACCAGTTGGGTGAAGCGCGCGAGCGGTACCACCAGTTGATCGAACGCCCGGCGGACCTTGAAGACATCCTGCAACTGGGCGCGAAAAAAGCCCGGGCCGTAGCAACGCCGTTTCTCAATGAACTGCGCGAGGCAGTTGGCCTGCGGTCCTTCGTCAGCCAGGTGCAAGTGGCAACGCAGACCAAAAAGAAAGCGGCCAAGGCTGCGCGCTTCGTCAGCTTCCGCGACGATGACGGCAGTTTCCGCTTCCGCCTGCTTTCTGCCGATGGCGAGCAGTTGTTGCTTTCGAACAACTTCGCCGACGGCAAGACCGCTGGCCAGGTGACCAAGCAGTTGCAATCCGGCCAGCCCTTGGACGTGCGCAGCGATGAACTGAGTTTCAGCGTCTGGCTCGACGGCGAATGCGTGGCCCACAGCCCGGCCTTTGCCGACCGTAGCGCCCGAGACGCGGCCATCGATGCGTTGCGCGTGGCACTGACGCCTGCCCAGGATTGA	MTTRTRILTGITTTGTPHLGNYAGAIRPAILASRESNADSFYFLADYHALIKCDDPLRIQRSRLEIAATWLAGGLDVDRVTFYRQSDIPEIPELTWLLTCVAAKGLLNRAHAYKASVDKNVETGEDPDAGVTMGLYSYPILMAADILMFNAHKVPVGRDQIQHVEMARDIGQRFNHLFGKGKEFFTMPEALIEESVATLPGLDGRKMSKSYDNTIPLFSSAKDMKDAISRIVTDSRAPGEAKDPDNSHLFTLFQAFATAEQSAAFRSELLQGLGWGEAKSRLFQLLDDQLGEARERYHQLIERPADLEDILQLGAKKARAVATPFLNELREAVGLRSFVSQVQVATQTKKKAAKAARFVSFRDDDGSFRFRLLSADGEQLLLSNNFADGKTAGQVTKQLQSGQPLDVRSDELSFSVWLDGECVAHSPAFADRSARDAAIDALRVALTPAQD	PGPT0007120_452	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
D1-35_01370	1095	zapE_1	COG1485	Cell division protein ZapE	ATGACGCCCCTAGAACGATATCAAGCTGATCTGAAACGCCCGGAATTCTTCCACGACGCAGCCCAGGAAACGGCCGTGCGGCATTTGCAGCGCCTGTACGACGACCTGGTTGCCGCGTCGAACAACAAGCCGGGCTTGTTGGGCAAACTGTTCGGCAAAAAGGACCAGACACCGGTCAAGGGCCTGTACTTCTGGGGTGGCGTCGGCCGTGGCAAGACTTACCTGGTGGACACCTTCTTCGAAGCGTTGCCCTTCAAGGAAAAGACCCGGACGCACTTTCACCGCTTCATGAAGCGCGTGCACGAGGAAATGAAGACCCTGGGTGGCGAAAAGAACCCGCTGACCCTCATCGCCAAGCGCTTCGCCGCCGAGACGCGGGTGATCTGCTTCGATGAGTTTTTCGTTTCCGACATCACCGACGCCATGATCCTTGGCACGCTGATGGAAGAACTGTTCAAGAACGGCGTGACCCTGGTCGCCACCTCGAACATCGTCCCCGACGGCCTTTACAAGGACGGTCTGCAACGGGCGCGCTTCCTGCCGGCGATCAAGCTGATCAAGGAGCACACCGAAATCGTCAATGTCGACAGCGGCGTGGACTATCGCCTGCGTCACCTCGAACAAGCGGAGTTGTTCCATTTCCCGCTGGATGCCGCCGCTGAAGAAAGCCTGCGCAAGAGCTTCCGCGCCCTGACGCCGGAATGCACCCAGGCGGTTGAAAACGATGTATTGATCATCGAGAACCGCGAAATCCGTGCGATCCGCACCTGCGACGACGTGGCCTGGTTCGACTTCCGTGAACTGTGCGACGGCCCCCGCAGCCAGAACGACTACATCGAGCTGGGCAAGATCTTCCATGCCGTGCTGCTCAGCGGCGTCGAGCAGATGAGCGTCACCACCGATGACATCGCCCGCCGTTTCATCAACATGGTCGACGAATTCTACGACCGCAACGTGAAGCTGATCATCTCGGCTGAAGTCGAGCTCAAGGACCTCTATACCGGCGGTCGCCTGAACTTCGAATTCCAGCGGACCCTCAGTCGCCTGTTGGAGATGCAATCCCACGAATTCCTGTCGCGGGCGCATAAACCGTAA	MTPLERYQADLKRPEFFHDAAQETAVRHLQRLYDDLVAASNNKPGLLGKLFGKKDQTPVKGLYFWGGVGRGKTYLVDTFFEALPFKEKTRTHFHRFMKRVHEEMKTLGGEKNPLTLIAKRFAAETRVICFDEFFVSDITDAMILGTLMEELFKNGVTLVATSNIVPDGLYKDGLQRARFLPAIKLIKEHTEIVNVDSGVDYRLRHLEQAELFHFPLDAAAEESLRKSFRALTPECTQAVENDVLIIENREIRAIRTCDDVAWFDFRELCDGPRSQNDYIELGKIFHAVLLSGVEQMSVTTDDIARRFINMVDEFYDRNVKLIISAEVELKDLYTGGRLNFEFQRTLSRLLEMQSHEFLSRAHKP				NA	NA	NA	NA	NA
D1-35_01371	987	ansB_1	COG0252	putative L-asparaginase periplasmic	ATGGACTTGCCCAACCTGAGCATCGCTTCACTCGGCGGCACCGTGAGCATGCAGGCCCGGGTCTTCGGAGAAGGAGTGGTCCCGACCGTCAGCGGCGCAACCCTGCTGGCTTCGGTACCCGAATTGAGAGCCCTGGCCCGCGTCACCGTCGAAACGCTCCAACTGTTGCCCAGCGCCTCATTGAGTTTCGAGCATTTATTGAGTGTCCTGCGCTGGGCGAACACTCAGATCGAGCTAGGTGCGGTGGCGGTTGTCCTCACTCAGGGCACCGACACGCTGGAGGAATCCGCCGCATTTTTCGATCTCCTGTGGGACCACGACGAACCTCTGGTGCTTACTGGAGCGATGCGTTCCGCAGCCCAGACAGGCGCCGACGGACCGGGCAATCTGCTGGATGCCTGCCAGGTGGGCCTGGCCGAGAGCAGTTGGCGACGAGGTGTTCAGGTGGTCATGAACGGGCAGATTCATTCGGCGCAGGCGGTTCGCAAAACCGATTCGATGGCACTGCAGGCTTTTTCTTCGCCCGTCGTAGGCCCGGCAGGCCTGTTACTGGAGGGTGACGTTCACTATTTCCATCCACCACGCCAACGTCACACCTTGCCGTTGCCACAGCGCTCGACGCACAAGGTTGCGTTATTACAAGCGTCGCTGTCTGCCGACAGCCTGTTGCTGGAGAACGTTCTCGCGCTGGGTTACGACGGGCTGGTGATCGCCGGTTTCGGCGCAGGGCACGTTTCTGAAACCTGGGCTGGAAAAATTGACGCCATTGCCAGAAAAATCCCGGTCATTGTTGCGACTCGCTGCGATTGCGGCTCAACGGCTCGCTCGACTTACGGCTTCAAGGGCGGCGAGATGGATCTGGTTAAAAGAGGTGCTTCGATGGCTGGTTTTGTCTGCCCACGAAAATCGAGGATTCTCTTGTGGCTGCTGCTCGGTTGCCAGCGACAAGATGACCTGGCTCGCTATCTGAGGCTTTTGCAGTATTGA	MDLPNLSIASLGGTVSMQARVFGEGVVPTVSGATLLASVPELRALARVTVETLQLLPSASLSFEHLLSVLRWANTQIELGAVAVVLTQGTDTLEESAAFFDLLWDHDEPLVLTGAMRSAAQTGADGPGNLLDACQVGLAESSWRRGVQVVMNGQIHSAQAVRKTDSMALQAFSSPVVGPAGLLLEGDVHYFHPPRQRHTLPLPQRSTHKVALLQASLSADSLLLENVLALGYDGLVIAGFGAGHVSETWAGKIDAIARKIPVIVATRCDCGSTARSTYGFKGGEMDLVKRGASMAGFVCPRKSRILLWLLLGCQRQDDLARYLRLLQY	PGPT0020180_3032	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
D1-35_01372	1134			hypothetical protein	GTGATCCTGTTGGTGCTCGGCGCGCTGTCGCTGGTCTTCTGGCTTTCTTTCATGAGCCTCGCCTCCTGGCCCGACTACGGCCACATGGTGTCGAATTTGCCACAGCCAACCTCATGGCTACGCTGGGTGGTGGGAGACATCAGCGAAGTCGCCTTTTATAAGCATGAATTTGCTTCCATCGGACTGCTGGCGGGGGCATACCTGGCATACCGGGCCAATGAAACGGGAAAGGCCTGGCAAGGCTTTCCCATCTGCTACGGCAGCGGCCTGTGGCCGTGGGTCGTCGCCAGCTCACTGCTTGGGCTCCTGCTCAGCAACCTGTTATGGGGCTGGACCGTTACGGCCACCGCCTGGCAACCGACCTTTGCCGCATTCGTTTCATTGCCGGCGGCGATGGTGCTGATGTTTGGCGGTGGCTGGAAAGTGGCGATCAATGGCGCAGTCATGGGTGCATTGCTGGTCACCCCGGCGTGCTTGTTGCTGGTCAATTACGTCTGCAATCCACTGGGTTTGCCGGCAGTGATCGGCAACGTCTCGGGGATGGCTGTCGCCAGCGTCATGGCATTCCTGCTCTGTCGTTATGTGCCAAGCCTGGTGAGCTCGCAGGCCTCAATGAAACCATCCGAAACGCCATCAAGGCCCACGCCCAGCCGTGCACCCGACTACGGTGTCGTCTGGAGCCTGCGCCGAGTCTTGGCGGATTTCTCCGAAGCGCCGTTCTTCGGCAATGAGTGGGCCAGCCTTGGGCTCATATCGGGCGCCTTGCTGGCCTATGCCTTGAACCCGATGAGCCCGGTCTACGGCTCGGGCTTGCTGCCGCAACTGATCGGTGCGCAAGCGCTGACCTCGGCCTTGGGCGTGATGATCTGGCGTCGACAGTGGAGGTTGCGAGGCTGGTATCCCACCTATATCCCGCTGGTATCGGTCGTGCCTGCCGCGGTTCTGACCTACGGCGGCAGTTGGCCGGTGATTGTCTCCAGCGCCTTGCTAGGTGCACTTGTGGCGCCGCCACTGGCGTGTGCGATTGCCAAAAGGCTACCCACCGACATGCACGGATTTATTGCGAATGTCCTGTCCATGGCCATCAGTACCTTGCTCATCATTCCGCTTATCGGACGCCTGATAACCAACTGA	MILLVLGALSLVFWLSFMSLASWPDYGHMVSNLPQPTSWLRWVVGDISEVAFYKHEFASIGLLAGAYLAYRANETGKAWQGFPICYGSGLWPWVVASSLLGLLLSNLLWGWTVTATAWQPTFAAFVSLPAAMVLMFGGGWKVAINGAVMGALLVTPACLLLVNYVCNPLGLPAVIGNVSGMAVASVMAFLLCRYVPSLVSSQASMKPSETPSRPTPSRAPDYGVVWSLRRVLADFSEAPFFGNEWASLGLISGALLAYALNPMSPVYGSGLLPQLIGAQALTSALGVMIWRRQWRLRGWYPTYIPLVSVVPAAVLTYGGSWPVIVSSALLGALVAPPLACAIAKRLPTDMHGFIANVLSMAISTLLIIPLIGRLITN	PGPT0003290_336	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN_TRANSPORT,PGPT0003290-entS|ybdA|cbsS-K08225	NA	NA
D1-35_01373	888			N-carbamoyl-D-amino acid hydrolase	ATGAGCGAGCCAACCAGTCCTGTCCGCGTAGCGGTTGTGCAATTCGACCCTCAGGTCGGCGTAAGGAATCATGAGCAGAACCTGCATCACAGCCTTGCGCTGGCGTTGGAGGCGGTAAACGGCGGAGCGAATCTCATCGTTCTGCCCGAGCTGTCAAATACCGGTTATTTTTTCAGCAACCGACAGGATGCGTTCGAACACTCCGAATTGGTCCCTAACGGGCCGAGCGTGCAGGCCTGGAAGGACTTCGCCCGCCAGCACAAGATTTACCTGGTGGCCGGCTTGACAGAGCGCGAGGGCATGCGGCTTTTCAACACCGGTGTTCTGTTGGGGCCAGACGGTTTTATTGGCAAGTACCGAAAAGCCCATTTGTGGAACCTGGAGAAACTCTGGTTCACACCAGGGGACCTGGGTTTTCCAGTGTTCGAAACCCCGATAGGCCGCATCGGAATGCTGATCTGCTGGGACATCTGGTTTCCGGAAGTGCCGCGAATCCTGACCCAGCAAGGCGCGGACATCATCTGCAGCCTGAATAACTGGGTCTGGACGCCCCCACCGCTGTTTGATGACGCAGGCAAGTGCATGGCGTCATATCTGACCATGACGGCGGCACACGTCAATAACGTGTTCATTGCAGCGGCAAGCCGCATCGGCGAAGAACGCGGTGCCCGCTATCTTGGCTGCTCGCTGATCGCGGGTACTAACGGTTGGCCGATTGGCGCGGTGGCCTCCGCCGACCAGCAGGAAGTGCTGTTCGCCGACATCGACCTGACCAGTTCCCGTAGCGCCGCCATCTGGAACAACCTGAACGACCTGCACCGTGATCGGCGTTCGGATCTCTACGATCCGATGCTTGGTTATACCCAGCACCCTCTCCTGCCGCGCTGA	MSEPTSPVRVAVVQFDPQVGVRNHEQNLHHSLALALEAVNGGANLIVLPELSNTGYFFSNRQDAFEHSELVPNGPSVQAWKDFARQHKIYLVAGLTEREGMRLFNTGVLLGPDGFIGKYRKAHLWNLEKLWFTPGDLGFPVFETPIGRIGMLICWDIWFPEVPRILTQQGADIICSLNNWVWTPPPLFDDAGKCMASYLTMTAAHVNNVFIAAASRIGEERGARYLGCSLIAGTNGWPIGAVASADQQEVLFADIDLTSSRSAAIWNNLNDLHRDRRSDLYDPMLGYTQHPLLPR	PGPT0008885_656	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
D1-35_01374	990	cdhR_3	COG4977	HTH-type transcriptional regulator CdhR	ATGCACGCCTCCACGCCCTTGCGGCGCGTCAGCATCCTGGCAGTCGACCGGGTTTTCGCTTCCACCCTCATGCAGGCCAAGGATTTTTTCCACCTGGCCAGCCTGCGCTACGGCAAACAGCTTGGCCACGGCCTGACCCCAGCGTTCGAAACCCGGCTGGTCAGCCCTGACGGCAAGCCAGTCAACAGCTTCAGCGATGTGCTCATGCCGGTGGACGGTGGCCTCGAAAATACCGATGTGATCATCCTGCCGGCGTTCTGGGATGACTTTGCCACGCTCTGCCAACATTATCCCCAGGTCCTGCCCTGGCTGCGCGAACAACACGCTCGCGGTGCGGTGCTCTGCGGCGAAGCCACCGGAGTATTCTGGCTGGCCGAGGCCGGGCTGCTCGACGGCAAGGAAGCCACCACCTACTGGCGCTTCTTCAATGCCTTCAAGGAGCGTTTCCCTCAGGTGCACCTGAACCAGGACAAGCACCTGACCGACGCCGACAATCTGTTCTGCGCCGGCGGCACCACGTCGGCCTGCGACCTTTACATCTACTTGATCGAACGCTTCTGCGGCGCCAACGTCGCCCAGGCCGTGGCGCGGGACATCCTGTATGAAGTGCAACGCAACTATTCGCCGGGACGCATCGGCTTTGGCGGGCAGAAACTGCATCAGGACGTGATCATCCTGCAGATCCAGCAATGGCTGGAGGAGCATTTCGCCGACAAGTTCCGCTTCGAGGACGTCGCCCGGGAGCACGGCATGAGCATCCGCAATTTCATGCGCCGCTTCCAGACCGCCACCGGCGACAAGCCCTTGCACTACCTGCAACGCCTGCGGATAGAAACCGCCAAGGGCCTGCTGTCCGGGAGCCGCAAGAGCATCAAGACGATCAGCTATGAAGTCGGCTACGACGACGCGAGCTTTTTCGCACGACTGTTCCGGCAGCACACCGACCTGTCACCGAACCAGTACCGGCAGCAATTCCAGCAGGCGGCGTGA	MHASTPLRRVSILAVDRVFASTLMQAKDFFHLASLRYGKQLGHGLTPAFETRLVSPDGKPVNSFSDVLMPVDGGLENTDVIILPAFWDDFATLCQHYPQVLPWLREQHARGAVLCGEATGVFWLAEAGLLDGKEATTYWRFFNAFKERFPQVHLNQDKHLTDADNLFCAGGTTSACDLYIYLIERFCGANVAQAVARDILYEVQRNYSPGRIGFGGQKLHQDVIILQIQQWLEEHFADKFRFEDVAREHGMSIRNFMRRFQTATGDKPLHYLQRLRIETAKGLLSGSRKSIKTISYEVGYDDASFFARLFRQHTDLSPNQYRQQFQQAA				NA	NA	NA	NA	NA
D1-35_01375	1137	mmgC_2	COG1960	Acyl-CoA dehydrogenase	ATGATCCCCAGAACCCTGTTCAGTCCCGAGCACGAGTTGTTTCGCGACACCGTACGAACCTTCCTTGAAAAAGAAGCCGTGCCGTACCACAGCCAGTGGGAAAAACAGGGGCACATCGATCGCCAACTCTGGAACAAGGCTGGGGAGGCGGGGATGTTGTGCTCGCATCTGCCGGAGGCCTACGGCGGGCTGGAAGCGGATTTTCTCTACAGCACGGTGGTGATCGAGGAAATCGGCCGCCTGGGGCTGACCGGGATCGGTTTCTCGTTGCATTCCGATATCGTTGCGCCTTACATCCTGCATTACGGCAGCGAAGCGTTGAAGCATAAATACCTGCCGAAACTGGTGTCCGGCGAAATGGTCACGGCCATCGCCATGACCGAGCCGGGCGCCGGTTCCGACCTGCAAGGCGTGAAGACCACAGCAGTGCTCGACGGCGATGAATACGTGATCAACGGCTCCAAGACGTTCATTACCAATGGCTTCCTGGCCGACCTGGTTATTGTCGTCGCCAAGACCGACCCGAAGGCGGGGGCCAAAGGTACCAGCCTGTTCCTGGTGGAGGCGGGCACGCCGGGCTTTGAAAAAGGCAAGCGCCTGGAGAAAGTCGGAATGAAGGCCCAGGACACGTCGGAGCTGTTCTTCCAGGATGTCCGCGTGCCGAAGGAAAATCTGCTGGGCCAGGCCGGAATGGGCTTCGCCTACCTGATGCAGGAACTGCCTCAGGAGCGCCTGACCGTCGCCATCGGTGGCCTGGCCTCGGCCGAAGCGGCGCTGCAATGGACGCTGGATTACACCCGTGACCGCAAGGCGTTCGGCAAATCCATCGCGGATTTCCAGAACACCCGCTTCAAACTGGCTGAAATGGCCACCGAGATCCAGATCGGCCGGGTCTTTGTCGACCGCTGCCTGGAGCTTCATCTGCAGGGCAAGCTCGATGTACCGACGGCGGCGATGGCCAAGTACTGGGGCACCGACCTGCAATGCAAGGTGCTCGACGAATGCGTGCAGCTGCATGGCGGCTACGGTTTCATGTGGGAATATCCGGTCGCCCGGGCGTGGGCTGATGCGCGGGTGCAGCGGATCTATGCGGGGACCAACGAAATCATGAAGGAGATTATTGCGCGGTCGCTTTGA	MIPRTLFSPEHELFRDTVRTFLEKEAVPYHSQWEKQGHIDRQLWNKAGEAGMLCSHLPEAYGGLEADFLYSTVVIEEIGRLGLTGIGFSLHSDIVAPYILHYGSEALKHKYLPKLVSGEMVTAIAMTEPGAGSDLQGVKTTAVLDGDEYVINGSKTFITNGFLADLVIVVAKTDPKAGAKGTSLFLVEAGTPGFEKGKRLEKVGMKAQDTSELFFQDVRVPKENLLGQAGMGFAYLMQELPQERLTVAIGGLASAEAALQWTLDYTRDRKAFGKSIADFQNTRFKLAEMATEIQIGRVFVDRCLELHLQGKLDVPTAAMAKYWGTDLQCKVLDECVQLHGGYGFMWEYPVARAWADARVQRIYAGTNEIMKEIIARSL	PGPT0008385_7562	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
D1-35_01376	1041	tas	COG0667	Protein tas	ATGGACTATCGCAAGCTAGGCCGTACCGATCTGAATGTCAGCGCCTTGTGTCTCGGAACCATGACCTGGGGCGAGCAGAACAGCGAGGCAGAGGCGTTCGCCCAGATTGAACGCGCCAAGGGTGCCGGGATCAATTTCCTCGACACCGCCGAGATGTACCCCGTGCCGCCGAAGGCCGAGACCTACGCCACCACCGAGCGTTATATCGGCAACTATTTCAAGAGCCGTGGCGACCGCGCCGACTGGATCCTGGCCAGCAAGATCGCCGGCCCGGGCAATACCATCGACTATATCCGCGACAAGAATCTCAAGCACAACCGCCGCCACATCGTCGAAGCGCTGGACGCCAGCCTCAAGCGCCTGCAGACCGACTGGATCGACCTGTACCAACTGCACTGGCCGGAGCGCAGCACCAATTTCTTTGGCCAATTGGGCTACACGCACAAGGCCGACGAGGATTTCACTCCTCTGGAGGAAACCCTCGAAGCTCTGGACGAACAGGTCCGCGCCGGCAAGATCCGCCATATAGGCCTGTCCAACGAGACGCCGTGGGGCACCATGAAATTCCTCGCCCTGGCCGAAGCCCGCGGTTGGCCTCGCGCGGTGTCGATTCAAAACCCGTACAACCTGCTCAATCGCAGCTTCGAAATCGGCTTGGCGGAAATCGCCATTCGCGAGCAATGCGGCCTGCTGGCCTATTCGCCCCTGGCGTTCGGTTTCCTGTCGGGCAAATACGAAAACGGCGCACGGCCCGCCAAGGGCCGCCTGACGCTGTACAGCCGCTTCATGCGTTACTTCAACCCGCAATCGGAAGCCGCCTGCAGCCGCTATGTGGCACTGGCCCGCGAACACGGCCTGGACCCGGCGCAGATGGCCCTGGCATTTGTTACCCAGCAGCCGTTCGTGACCAGCAACATCATCGGCGCCACCACGCTGGAGCAACTGGACAGCAACATCGCCAGCTTCGACCTCAAGCTGTCGGATGAAGTGCTGGCGGGAATCGAGGCGATTCACAAGGACCAGCCGAATCCGGCGCCTTGA	MDYRKLGRTDLNVSALCLGTMTWGEQNSEAEAFAQIERAKGAGINFLDTAEMYPVPPKAETYATTERYIGNYFKSRGDRADWILASKIAGPGNTIDYIRDKNLKHNRRHIVEALDASLKRLQTDWIDLYQLHWPERSTNFFGQLGYTHKADEDFTPLEETLEALDEQVRAGKIRHIGLSNETPWGTMKFLALAEARGWPRAVSIQNPYNLLNRSFEIGLAEIAIREQCGLLAYSPLAFGFLSGKYENGARPAKGRLTLYSRFMRYFNPQSEAACSRYVALAREHGLDPAQMALAFVTQQPFVTSNIIGATTLEQLDSNIASFDLKLSDEVLAGIEAIHKDQPNPAP				NA	NA	NA	NA	NA
D1-35_01377	429	rplM	COG0102	50S ribosomal protein L13	ATGAAAACTTTTACTGCTAAACCGGAAACAGTAAAGCGCGACTGGTTTGTCGTCGACGCTGCTGGTCAGACCCTGGGTCGTCTGGCCACCGAAATCGCGAGCCGTCTGCGTGGCAAGCACAAGCCTGAGTACACCCCTCACGTTGACACCGGTGACTACATCGTCGTGATCAATGCCGAGCAAGTACGTGTTACTGGCGCTAAAACCACTGACAAAATGTACTACTCCCACTCCGGTTTTCCTGGCGGCATCAAGTCGATCAACTTCGAAAAGCTGATCGCCAAAGCCCCTGAGCGCGTGATCGAGACCGCGGTTAAAGGCATGCTGCCTAAAAACCCACTGGGTCGCGACATGTATCGTAAGCTGAAGGTTTATGCGGGCGCTGCTCACCCTCATACTGCTCAGCAGCCCCAAGAACTGAAGTTTTAA	MKTFTAKPETVKRDWFVVDAAGQTLGRLATEIASRLRGKHKPEYTPHVDTGDYIVVINAEQVRVTGAKTTDKMYYSHSGFPGGIKSINFEKLIAKAPERVIETAVKGMLPKNPLGRDMYRKLKVYAGAAHPHTAQQPQELKF				NA	NA	NA	NA	NA
D1-35_01378	393	rpsI	COG0103	30S ribosomal protein S9	ATGTCGGCGACTCAAAATTACGGCACTGGCCGTCGCAAGACTGCAACCGCACGCGTTTTCCTGCGTCCGGGTACTGGCAACATCTCCATCAACAACCGCTCCCTGGATAACTTCTTCGGCCGCGAAACTGCCCGCATGGTAGTTCGTCAGCCGCTGGAACTGACCGAGACCGTCGAGAAGTTCGACATCTACGTCACCGTTATCGGTGGTGGTGTAAGTGGCCAGGCTGGCGCAATCCGCCACGGCATCACTCGCGCCCTGATGGATTACGACGAAACTCTGCGCAGCGCCCTGCGTAAAGCTGGCTTCGTAACTCGCGATGCTCGCGAAGTAGAACGTAAGAAAGTCGGTCTGCGTAAAGCGCGTAAGCGTCCGCAGTACTCGAAGCGTTAA	MSATQNYGTGRRKTATARVFLRPGTGNISINNRSLDNFFGRETARMVVRQPLELTETVEKFDIYVTVIGGGVSGQAGAIRHGITRALMDYDETLRSALRKAGFVTRDAREVERKKVGLRKARKRPQYSKR				NA	NA	NA	NA	NA
D1-35_01379	594	petA	COG0723	Ubiquinol-cytochrome c reductase iron-sulfur subunit	ATGAGCAATGACGGCGTGAATGCAGGCCGGCGTCGCTTCCTGGTAGCAGCCACATCCGTGGTGGGTGCTGCAGGAGCGGTGGGGGCTGCGGTCCCGTTCGTGGGGTCATGGTTTCCCAGTGCCAAGGCGAAAGCCGCAGGCGCACCGGTGAAAGTGAATGTCAGCAAGATCGAGCCAGGCCAGCAGATGATTGCTGAGTGGCGCGGCCAGCCGGTATTCATCGTCCGCCGTACAGAGGAGATCCTGGGGAATCTGAAAAAGATCGAGGGCCAGCTGTCCGATCCCTCTTCCAAGAACTCGGTCCAACCGGAGTACGTCAACCCTGAAACCCGTTCGATCAAGCCGGAAGTGCTGCTGCTGATCGGGATCTGCACTCACCTGGGTTGCTCGCCAACGTTCCGTCCCGAAGTGGCGCCTGCCGACCTGGGCAAAGACTGGGTCGGTGGTTATTTCTGCCCATGCCACGGCTCCCACTATGACCTGGCCGGTCGCGTCTACAAATCGCAGCCTGCACCTCTGAACCTGCCAGTTCCCCCGCATTCCTATGAGTCGGACGACATCATTGTCGTTGGCGTCGATACGGAGAAAGCGTGA	MSNDGVNAGRRRFLVAATSVVGAAGAVGAAVPFVGSWFPSAKAKAAGAPVKVNVSKIEPGQQMIAEWRGQPVFIVRRTEEILGNLKKIEGQLSDPSSKNSVQPEYVNPETRSIKPEVLLLIGICTHLGCSPTFRPEVAPADLGKDWVGGYFCPCHGSHYDLAGRVYKSQPAPLNLPVPPHSYESDDIIVVGVDTEKA	PGPT0030835_1324	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-PHOTOSYNTHESIS_ELECTRON_TRANSFER,PGPT0030835-petA-K00411
D1-35_01380	1212	petB	COG1290	Cytochrome b	ATGAGCAAATTAATGGACTGGTTTGATGCGCGCTTTCCCGCGACCAAAATGTGGGAAGACCATCTCAGCAAGTATTACGCGCCGAAGAATTTCAACTTCTTCTACTTTTTTGGCTCCCTGGCCTTGCTCGTCCTGGTCAACCAGATCGTTACCGGTGTCTGGCTGACCATGAGCTACACCCCGTCGGCGGAGGAAGCGTTTGCCTCCGTCGAGTACATCATGCGTGATGTCGAGTACGGCTCGATTCTGCGTCTGCTGCACTCCACCGGCGCCTCGGCGTTTTTCATCGTGGTCTATCTGCACATGTTCCGTGGCCTGCTCTACGGTTCGTACCAGAAGCCGCGTGAGCTGGTGTGGGTGTTCGGCATGCTGATCTACCTGGCGCTGATGGCCGAAGCCTTCATGGGTTATCTGCTGCCGTGGGGCCAGATGTCCTACTGGGGCGCCCAGGTGATCATCTCGCTGTTCGGTGCTATCCCGGTCATCGGCGATGACCTGACCCAGTGGATCCGCGGTGACTACCTGATCTCGGGCATTACCCTGAACCGCTTCTTCGCCTTGCACGTCGTGGCCTTGCCGATCGTGATCCTCGGCCTGGTGGTGCTGCACATCCTGGCGTTGCACGAAGTCGGTTCGAACAACCCCGATGGCGTGGACATCAAGAAACACAAGGACGAGAACGGCGTGCCGCTGGATGGCATCGCCTTCCACCCGTACTACACCGTGAAAGACATCGTCGGCGTGGTGGTCTTCCTGTTCATCTTCTGTTCGATCGTGTTCTTCTTCCCGGAAATGGGCGGCTACTTCCTCGAGAAGCCGAACTTCGAACAGGCCAACGCCTTCAAGACCCCTGAGCATATTGCCCCTGTCTGGTACTTCACCCCGTTCTACGCGATCCTGCGGGCGGTTCCCGACAAGCTGCTGGGCGTAATTGCCATGGGCGCCGCGATTGCCGTGCTGTTCGTCCTGCCCTGGCTGGACCGCAGCCCCGTCAAGTCGATGCGCTACAAGGGCTGGCTGAGCAAGATCTGGCTCTGGGTGTTCTGCATCTCGTTCGTGATCCTCGGCGTGCTGGGTGTGCTGGCACCGACACCGGGCCGGACGCTGCTGTCGCAGGTCTGCACCTTCCTGTACTTCGCCTACTTCATTCTGATGCCGTTCTACACCAGGCTCGAGAAGACCAAACCGGTTCCGGAAAGGGTGGCTGGCTGA	MSKLMDWFDARFPATKMWEDHLSKYYAPKNFNFFYFFGSLALLVLVNQIVTGVWLTMSYTPSAEEAFASVEYIMRDVEYGSILRLLHSTGASAFFIVVYLHMFRGLLYGSYQKPRELVWVFGMLIYLALMAEAFMGYLLPWGQMSYWGAQVIISLFGAIPVIGDDLTQWIRGDYLISGITLNRFFALHVVALPIVILGLVVLHILALHEVGSNNPDGVDIKKHKDENGVPLDGIAFHPYYTVKDIVGVVVFLFIFCSIVFFFPEMGGYFLEKPNFEQANAFKTPEHIAPVWYFTPFYAILRAVPDKLLGVIAMGAAIAVLFVLPWLDRSPVKSMRYKGWLSKIWLWVFCISFVILGVLGVLAPTPGRTLLSQVCTFLYFAYFILMPFYTRLEKTKPVPERVAG	PGPT0030840_1398	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-PHOTOSYNTHESIS_ELECTRON_TRANSFER,PGPT0030840-petB-K00412
D1-35_01381	783	petC	COG2857	Ammonia monooxygenase gamma subunit	ATGAAAAAGCTATTTTCTGTACTGATTCTTGCTGCTTTGCCTGTTCTGTCCTTTGCGTCCACATCGAGTGGTCCGGAGCTGGAAAAAGTCGACATCGACGTTTCCGACAAAGCGGCCATGCAGGACGGCGCCCGTACTTTCGCCAACTATTGCATGGGCTGCCACAGCGCCAAGTTCCAGCGCTACGAGCGCGTGGCCGATGACCTGGGTATTCCCCATGAGTTGATGCTTGAAAAGCTGGTGTTCACCGGCGCCAAGCTGGGCGACCACATGAACATCGGCATGCAGCCGGCGGATGCCAAGACCTGGTTCGGCGCGGCGCCGCCCGACCTGACCCTGGTGGCGCGCGTGCGTGGTACCGACTGGCTCTATGGCTATCTGCGTTCGTTCTATGAAGACCCGGCGCGCCCTTGGGGCGTGAACAACAAGGTCTTCCCGAACGTCGGCATGCCGAACGTTCTGGTCGGCCTGCAGGGTCGTCAGGTGATAGGCTGCAAGCAGGTTCAGATCGTCGAGGACGGCAAGAAGCAATATGATCCGCTGACCGGCACCGCTTTGACCCATGAAGCCTGCGACCAGCTGACCATCGTGCCGAACTCCGGCAGCCTGACCCCGGAGCAGTTCGACGAGAAGGTCAAGAACCTGGTGACCTTCCTGGCCTACTCGGCCAACCCGGTGAAGCTGGAACATCAGCGCATCGGTACGTATGTATTGCTGTACCTGGCGTTCTTCTTCGTATTCGCTTATCTGCTCAAGCGTGAATACTGGAAAGACGTGCATTGA	MKKLFSVLILAALPVLSFASTSSGPELEKVDIDVSDKAAMQDGARTFANYCMGCHSAKFQRYERVADDLGIPHELMLEKLVFTGAKLGDHMNIGMQPADAKTWFGAAPPDLTLVARVRGTDWLYGYLRSFYEDPARPWGVNNKVFPNVGMPNVLVGLQGRQVIGCKQVQIVEDGKKQYDPLTGTALTHEACDQLTIVPNSGSLTPEQFDEKVKNLVTFLAYSANPVKLEHQRIGTYVLLYLAFFFVFAYLLKREYWKDVH	PGPT0030845_1401	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-PHOTOSYNTHESIS_ELECTRON_TRANSFER,PGPT0030845-petC-K00413
D1-35_01382	618	sspA	COG0625	Stringent starvation protein A	ATGGGCGTGACCAATCGGTTGGCCTGTTACTCCGACCCCGCCGACCACTATTCCCACCGGGTACGTATCGTACTGGCCGAGAAGGGTGTCAGCGCCGAGATCATTTACGTCGAAGCGGGCCGTCAGCCGCCGAAGCTGATCGAGGTGAACCCTTACGGCAGCCTGCCCACGCTGGTCGATCGTGACCTGGCACTGTGGGAGTCGACCGTGGTGATGGAGTACCTGGATGAGCGTTATCCGCATCCGCCGTTGCTGCCGGTGTACCCGGTCGCGCGTGCCAACAGTCGTTTGCTGATCCATCGCATCCAGCGTGACTGGTGCGGGTTGGTGGACCTGATCCTGGATTCCAGGACCAAGGAGCCGGCGCGTGTCGTGGCGCGCAAGGAATTGCGCGAAAGCCTGACAGGCGTGTCGCCGCTGTTTGTCGACAAGCCGTTTTTCCTCAGTGAGGAACAAAGTCTGGTGGATTGCTGCCTATTGCCCATACTCTGGCGTTTGCCGATCCTGGGTATCGAACTGCCACGGCCCGCCAAGCCGTTGCTTGATTATATGGAGCGCCAATTTGCGCGTGAGGCTTTCCAGGCGAGTCTGTCTGGTGTCGAACGTGACATGCGCTAA	MGVTNRLACYSDPADHYSHRVRIVLAEKGVSAEIIYVEAGRQPPKLIEVNPYGSLPTLVDRDLALWESTVVMEYLDERYPHPPLLPVYPVARANSRLLIHRIQRDWCGLVDLILDSRTKEPARVVARKELRESLTGVSPLFVDKPFFLSEEQSLVDCCLLPILWRLPILGIELPRPAKPLLDYMERQFAREAFQASLSGVERDMR				NA	NA	NA	NA	NA
D1-35_01383	411	sspB	COG2969	Stringent starvation protein B	ATGAACTCCAGTCGACCTTATCTGGTCCGCGCGCTCTACGAGTGGATTGTGGACAACGATTGCACCCCGCACATGCTGGTCAATGCCGAGTATCCGTCGGTACAGGTGCCGCAGGGTTTTGCCAATGACGGGCAAATTGTCTTGAACGTATCGCCGGCCGCTGTGCGTCATTTGCACATGGACAACGATGCGGTCAGTTTCGAGGGGCGCTTCGGTGGGGTGCCGCATACGCTGTACGTGCCGATTGCCTCCATCCTGGGGATCTATGCCCGGGAGAATGGCCAGGGAATGGTATTCGAGCTGGAAGTGCCGTTGGACGGTGAGGAAGAGTTCGAGGCGGATGAGGATCTGCCGCCCGACGATGAGCCGCCGCGTCCTAGCGGGCGGCCTAGTTTGAAAGTGGTGAAGTGA	MNSSRPYLVRALYEWIVDNDCTPHMLVNAEYPSVQVPQGFANDGQIVLNVSPAAVRHLHMDNDAVSFEGRFGGVPHTLYVPIASILGIYARENGQGMVFELEVPLDGEEEFEADEDLPPDDEPPRPSGRPSLKVVK	PGPT0007945_6	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007945-folA-K00287	NA	NA
D1-35_01384	579			hypothetical protein	ATGACCCCTAATCGCCTAGGCCTTTTGGCCCTGACCCTGTGCCTCGGCATCAGCGGCTGCACATCGGTGGTTAACGCCAGCCGGGAAAAGCCGATTGAAGACGACCGCGGCACCCGCACCTTCGGCAGCAAGATCGACGACTCGTTGATCGAAACCAAAGTGGGCGTGAACATTGCCAAGGCCGACCCGGACCTGGACAACAATTCGCACATCGTCGTCACCAGCTTCAACGGCGTTGTGCTGCTGGCCGGCCAGACGCCCCGCGCCGACCTCAAGGCCAAGGCCGAACAGGAAGCCAGCGCCGTGCAGAGGGTCAAGACCGTGCACAACGAACTGCAGGTCCTCCAGCCCTCTTCGCTGCTGGCTCGCCAGAACGACGCCTGGCTGACCACCAAGATCAAGACCCAGATGCTCACCGACGCCAGCATTCCTGGTTCGCGCATCAAGGTTGTGACAGAGAACGGGATTGTCTATCTGCTGGGGTTGCTGACCAAGCAGGAGGCCGCGCAGGCGACCAATCTTGTTCAGGGTGTGTCTGGGGTGCAGAAGATTGTGAAGTTGTTTGAGTACATCGACTGA	MTPNRLGLLALTLCLGISGCTSVVNASREKPIEDDRGTRTFGSKIDDSLIETKVGVNIAKADPDLDNNSHIVVTSFNGVVLLAGQTPRADLKAKAEQEASAVQRVKTVHNELQVLQPSSLLARQNDAWLTTKIKTQMLTDASIPGSRIKVVTENGIVYLLGLLTKQEAAQATNLVQGVSGVQKIVKLFEYID				NA	NA	NA	NA	NA
D1-35_01385	594	gmhA	COG0279	Phosphoheptose isomerase	ATGGACATGCAATCGCGAATCCGCCAGCTTTTTCAGGCCAGCATCGACACCAAGCAACAGGCGATGGACGTACTTGCACCGCACATCGAGCAAGCCAGCCAAGTGATGGTCAATGCCTTGCTCAACGAGGGCAAGATGCTTTCGTGCGGCAATGGCGGTTCGGCCGGCGACGCCCAGCACTTCTCTTCGGAACTGCTCAACCGCTTCGAGCGCGAACGTCCGAGCCTGCCGGCCATCGCACTGACGACCGATAGCTCGACGATTACCTCGATCGCCAACGACTACAGCTACAACGAAGTGTTCTCCAAACAGATCCGCGCCCTCGGCCAGCCTGGCGATGTGCTCCTGGCGATCTCCACCAGTGGCAATTCGGCGAATATTATTCAAGCGATCCAGGCCGCACATGATCGCGAAATGATTGTCGTAGCATTGACCGGTCGCGACGGCGGCGGCATGGCTTCACTGCTGTTGCCTGAAGACGTCGAGATCCGCGTACCGGCCAATGTCACCGCACGTATTCAGGAAGTCCACCTGCTGGCGATCCACTGCCTTTGCGACTTGATCGACAGCCAACTGTTCGGGAGTGAAGAATGA	MDMQSRIRQLFQASIDTKQQAMDVLAPHIEQASQVMVNALLNEGKMLSCGNGGSAGDAQHFSSELLNRFERERPSLPAIALTTDSSTITSIANDYSYNEVFSKQIRALGQPGDVLLAISTSGNSANIIQAIQAAHDREMIVVALTGRDGGGMASLLLPEDVEIRVPANVTARIQEVHLLAIHCLCDLIDSQLFGSEE	PGPT0023030_955	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-MANNO-HEPTOSE|-PHOSPHATE_MODIFICATION,PGPT0023030-gmhA|lpcA-K03271	NA	NA
D1-35_01386	363			hypothetical protein	ATGCCCGACCGATCGCGCCAGCAAAGCGGCAGGGATGCCGAGGGCCTCGCCCTCGCGCATCTTGAGCAACACGGCCTGCGACTGCTGGCGCAAAACTGGCTGTGCAAACGCGGCGAGCTGGATCTGGTCATGCTTGACGGCGATACAGTAGTATTCGTCGAAGTCCGCTACAGAAAAAATACCCAATGGGGTGGCGCGCTCGACAGCATTGACCAGCGCAAGCGCCAGAAGCTGGTTTTCGCCGCGCAGTATTTCCTGCAACGCGAGTCTCGCTGGGCCGATCATCCTTGTCGCTTCGACGTGGTTGCCATCGATAGCAACGTCGACCAACTGAATTGGCTGCAAAACGCCTTCGACAGTTGA	MPDRSRQQSGRDAEGLALAHLEQHGLRLLAQNWLCKRGELDLVMLDGDTVVFVEVRYRKNTQWGGALDSIDQRKRQKLVFAAQYFLQRESRWADHPCRFDVVAIDSNVDQLNWLQNAFDS				NA	NA	NA	NA	NA
D1-35_01387	1812	lpoA	COG3107	Penicillin-binding protein activator LpoA	ATGATCGCTTGCCTGCGGCTGCTCTCCGCCCTCTGCCTCGCTGCCCTCCTGGCGGCTTGCGTCAGCTCGCCCTCGTCCAGCCTTGGCGAACTTCCACGGACCCCGGACGCCAGTATCGAGCAATTGCTCGAACAGGCCGCCCAGAGTAAAAACCCGGAACAAGCCGCCCTGCTGCGCTTGAGCGCCGCCGACCTGGCCTACCGCCAGGGCAATGCTGGCCAGTCCGCACAGATCCTGCAACAAGTGCCGATGGAGCAGCTCAAGCCCGGCCAGCAGATTTTCGCCAACACGTTGTCAGCCGAACTGGCGATGACGCGCAACCAGCCCAAGGCCGCGCTGACTTCGCTGAGCCATCCGAGCCTGCAGCACCTGAGCGAAATGCCCGTGGAGCAGCAAGTCCGCACCGGTACCGTCCGCGCTCGCGCCCTGGAGGCCGATGGCCAGACCCTGGCCGCCGCCCGCGAGCGGATCTTCATTGCTCCGCTGTTGGAAAACGAAGCGCAGGCAAAAAATCACGAAGCCATCTGGACACTGATCGCCTCGCTGCCCACCGATCAACTGCAACCGACCACTACCGACGATCTCGGTGGCTGGCTGAGCCTGGCCAAAGCCGTGAAAACCGCCGGCACCCTGGAGCAGCAGCAAGCCGCCATCGACAGCTGGCGCGAACAGAACCCGAAACACCCTGCCGCACTCCAGTTGCCGACGCCGCTGGTCAAGCTCAAGGAGCTGGCAAGCCAGCCACTGGGCAAGATCGCCGTGTTGCTACCGCAGAATGGCCCGCTGGCCGCGGTCGCAAAAGCACTGCGCGAGGGCTTCATGGCCGCGCATTACCAGGCCCAACAGGCCGGGCAGAAGCCGCCGAGCATCCAGTTCTATGACAGCGCCAGCCTGACCTCGATGGACGAGTTCTATCGCAAGGCCCAGGCCGACGGCGTACAGCTGGTGGTCGGCCCGTTGGAAAAACCATTGGTCAAGCAGATCAGCACCCGCCCGCAATTGCCGATCACCACCCTGGCGCTGAACTACAGCGAAGGCGAACAAGGCCCGCCGCAACTGTTCCAGTTCGGCCTGGCGCCTGAAGACGAAGCCCGCGAAGTCTCCCGGCGCGCCCGCGCCGACGGCCTGCATCGTGCAGCCGTGATGGTGCCGAAAGGCGAATGGGGCGATCGCGTCTTGAAAGCCTTCAGCCAGGATTGGCAGGCCAATGGCGGGACCATCATGGCAATCGAGCGTGTCGACCAGCCGGTGCAACTGGCCCAGCAGATCGCCGACATGTTCCAGCTGCGCCAGAGCGAAGGTCGCGCCAAGAGCCTGCAAAGTACGGTAGGCACCGCGGTCGCGGCGCAGCCATCGCGTCGCCAGGACATCGAGTTCATTTTCCTCGCGTCGACCCCGCAGCAGGCCCAGCAGATCAAGCCGACCCTGAACTTCCAGTACGCCGGCGACGTGCCGGTCTACGCGACCTCCTCGGTGTTCAGCGTCAGCGGCGACCAGAACCAGTACAACGACATGAACGGCGTTCGCTTCTGCGAAACCCCATGGCTGCTCGACGCGAACGATCCGCTGCGCCAGCAGGTCACCGCGCAGTGGCCCCAGGCGGCCGGCAGCCTGGGCCGGCTGTACGCGATGGGCGCTGACGCCTATCGCCTGGCTCCACGCCTCGGCCAGCTCAAGGCCCTGCCGGACAGCCGCATCGAAGGCCTGTCGGGTAGCCTGGCTGTCTCCCCGACCCAGCGCGTGCAACGTCAACTCCCTTGGGCGCAGTTCGTCAACGGCCAGGTCCAGCGCCTGCCGGACACTCCGCGCTGA	MIACLRLLSALCLAALLAACVSSPSSSLGELPRTPDASIEQLLEQAAQSKNPEQAALLRLSAADLAYRQGNAGQSAQILQQVPMEQLKPGQQIFANTLSAELAMTRNQPKAALTSLSHPSLQHLSEMPVEQQVRTGTVRARALEADGQTLAAARERIFIAPLLENEAQAKNHEAIWTLIASLPTDQLQPTTTDDLGGWLSLAKAVKTAGTLEQQQAAIDSWREQNPKHPAALQLPTPLVKLKELASQPLGKIAVLLPQNGPLAAVAKALREGFMAAHYQAQQAGQKPPSIQFYDSASLTSMDEFYRKAQADGVQLVVGPLEKPLVKQISTRPQLPITTLALNYSEGEQGPPQLFQFGLAPEDEAREVSRRARADGLHRAAVMVPKGEWGDRVLKAFSQDWQANGGTIMAIERVDQPVQLAQQIADMFQLRQSEGRAKSLQSTVGTAVAAQPSRRQDIEFIFLASTPQQAQQIKPTLNFQYAGDVPVYATSSVFSVSGDQNQYNDMNGVRFCETPWLLDANDPLRQQVTAQWPQAAGSLGRLYAMGADAYRLAPRLGQLKALPDSRIEGLSGSLAVSPTQRVQRQLPWAQFVNGQVQRLPDTPR				NA	NA	NA	NA	NA
D1-35_01388	873	rsmI	COG0313	Ribosomal RNA small subunit methyltransferase I	TTGACTGCTCCAGGTGCTTTGAATTCCGCTGCCGGCTCGCTTTACGTGGTGGCGACGCCCATCGGCAACCTGGACGATATCAGCGCCCGCGCGCTGAAGATCCTTGGCGAGGTCGCCCTTATCGCCGCCGAAGACACGCGTCACTCCCAGCGTCTGCTGCAGCACTTCGGTATTTCCACGCCATTGGCAGCTTGCCATGAACATAACGAACGGGACGAAGGCAGTCGTTTCATTACCCGTCTGCTGGCCGGCGACAATGTGGCGCTGATTTCCGATGCCGGCACGCCGCTGATTTCCGATCCGGGTTACCACCTGGTGCGCCAGGCCCGCGCTGCCGGTATCAATGTAGTGCCGGTGCCAGGTGCCTGCGCATTGATCGCGGCGTTGTCGGCGGCCGGCTTGCCATCGGACCGGTTTATCTTCGAAGGTTTCCTGCCGGCCAAGGCGGTGGGGCGGCGAGGGCGCCTGGAAGCTATAAAGGAGGAACCTCGAACGCTGATCTTTTATGAGGCGCCGCACCGTATCCTCGAATGTCTCCAGGACATGGAGCTGGTGTTCGGTCCCGAGCGCCAGGCATTGCTGGCTCGGGAACTGACGAAAACCTTCGAGACCTTGAAGGGGCTGCCTCTGGCGCAGTTGCGTGCGTTTGTTGAAAGCGACAGCAATCAGCAGCGTGGCGAGTGTGTGGTGCTGGTCGCGGGCTGGACACCGCCCCAGGACGAAGACGCCGTCAGTAGCGAAGCGATGCGCATCCTTGATCTGTTGCTGGAGGAAATGCCCCTCAAGCGAGCGGCGGCCCTCGCCGCGCAGATCACCGGCGAGCGCAAGAATGTGCTGTATCAGGCTGCGCTGGATAAACAGAAGGCCCAATGA	MTAPGALNSAAGSLYVVATPIGNLDDISARALKILGEVALIAAEDTRHSQRLLQHFGISTPLAACHEHNERDEGSRFITRLLAGDNVALISDAGTPLISDPGYHLVRQARAAGINVVPVPGACALIAALSAAGLPSDRFIFEGFLPAKAVGRRGRLEAIKEEPRTLIFYEAPHRILECLQDMELVFGPERQALLARELTKTFETLKGLPLAQLRAFVESDSNQQRGECVVLVAGWTPPQDEDAVSSEAMRILDLLLEEMPLKRAAALAAQITGERKNVLYQAALDKQKAQ				NA	NA	NA	NA	NA
D1-35_01390	456	mraZ	COG2001	Transcriptional regulator MraZ	GTGTTTCGCGGAGCTAACGCTATCAGTCTCGATGCAAAAGGCCGTCTCGCCATGCCGAGCCGGTATCGTGACGAGCTCGTTTCGCGAAGTTCAGGACAGTTAATCGTCACGATCGACGCCGTTGATCCATGTTTATGCGTTTACCCTCTCGATGAGTGGGAAATCATCGAAACCAAACTGCGCGCACTGCCTTCGCTGCGGGAAGAGAACCGTCGCCTGCAACGCCTGCTGATCGGTAATGCCGTCGACCTCGAACTCGACGGCAGCGGTCGTTTCCTGGTGCCGCCGCGTCTGCGCGAGTACGCCAAGCTGGACAAGCGCGCGATGCTGGTGGGCCAACTGAACAAGTTCCAGCTGTGGGACGAAGATGCCTGGAATGCGGTTTCTGCCGCCGACCTTGCTGCTATTCAACAACCGGGCGCCATGCCTGATGAACTGCGTGATTTGATCCTGTGA	MFRGANAISLDAKGRLAMPSRYRDELVSRSSGQLIVTIDAVDPCLCVYPLDEWEIIETKLRALPSLREENRRLQRLLIGNAVDLELDGSGRFLVPPRLREYAKLDKRAMLVGQLNKFQLWDEDAWNAVSAADLAAIQQPGAMPDELRDLIL				NA	NA	NA	NA	NA
D1-35_01391	948	rsmH	COG0275	Ribosomal RNA small subunit methyltransferase H	GTGACTACTGATAGCGGCTTTAACCACATCACCGTACTGCTTGACGAAGCCGTCGAGGCTCTCGCCGTACGTCCTGATGGCTGCTATCTGGACGGCACGTTCGGGCGTGGCGGGCATAGCCGGCTGATTCTCAGCCAGCTCGGTCCGGACGGTCGGCTGCTGGGGTTCGACAAGGATCCTCAAGCGATTGCCACCGGGCAAGCGCTAGCGGCCGAAGACGGCCGCTTTGTCGTTGTGCAGCGCAGCTTTGCGGAGCTCGGTTCGGAAGTCGCCCAACGCGGCCTGGCAGGCAAGGTCAGCGGCGTGTTGCTTGACCTGGGCGTGTCTTCGCCGCAGCTGGACGACCCGGAACGCGGCTTCAGTTTTCTCAACGACGGTCCGCTGGACATGCGCATGGATCCGTCCCGTGGCATCAGCGCGGCTGAATTCGTCAATACCGCGTCCGTAGAAGAAATCGCCCGCGTGTTCAAGGAGTACGGCGAGGAACGTTTTTCCGGGCGCATGGCGCGCGCGGTGGTCGAGCGTCGCGACATCAAGCCGTTCGAGCGTACCGGTGATCTGGCCGAAGTGCTGAAGGTTGCCAACCCTGCCTGGGAAAAAGGCAAGAACCCGGCGACCCGGGCTTTCCAAGGGCTGCGTATCCACGTCAACAACGAATTGGGCGATCTTGAGGCCGGTCTCGAAGCCGCTCTCGAGGCACTGGAAATCGGTGGGCGCCTGGTGGTGATCAGCTTCCATTCCCTGGAAGACCGTATCGTCAAGTTGTTCATGCGCAAGCTCACCAAAGGCGAAGCCGATAACCTGCCGCGCAATCTGCCGGTGCGTTTCGAGGCGTTCGTACCGAAAATCAAGATTCATGGCAAAGCGCAGTTCGCCTCCGAGGCCGAGCTCAAGGCCAACCCTCGCGCCCGTAGCGCCGTCATGCGTGTCGCGGAGAAGTTGCGGTGA	MTTDSGFNHITVLLDEAVEALAVRPDGCYLDGTFGRGGHSRLILSQLGPDGRLLGFDKDPQAIATGQALAAEDGRFVVVQRSFAELGSEVAQRGLAGKVSGVLLDLGVSSPQLDDPERGFSFLNDGPLDMRMDPSRGISAAEFVNTASVEEIARVFKEYGEERFSGRMARAVVERRDIKPFERTGDLAEVLKVANPAWEKGKNPATRAFQGLRIHVNNELGDLEAGLEAALEALEIGGRLVVISFHSLEDRIVKLFMRKLTKGEADNLPRNLPVRFEAFVPKIKIHGKAQFASEAELKANPRARSAVMRVAEKLR				NA	NA	NA	NA	NA
D1-35_01392	294	ftsL		Cell division protein FtsL	GTGAGCAAGCTCTTCGCCAAGCCCCTGCCAGGCGGCAGCTTTTTCATGCTGCTGCTGTTTATTGGCGTGCTCGTTTCGGCCATTGCCGTGTCCTACAGCGCGCATTGGAACCGGCAGTTGCTCAACACCCTTTACAACGAGCTCAGCGTGCGCGACAAGGCGCAGGCCGAGTGGGGTCGGTTGATCCTGGAGCAAAGTACCTGGACCGCCCACAGCCGTATCGAAGTCCTGGCGACCGAACAGCTGAAGATGCGCATCCCCGGTGCGGCTGAAGTGCAGATGGTGGCGCCATGA	MSKLFAKPLPGGSFFMLLLFIGVLVSAIAVSYSAHWNRQLLNTLYNELSVRDKAQAEWGRLILEQSTWTAHSRIEVLATEQLKMRIPGAAEVQMVAP				NA	NA	NA	NA	NA
D1-35_01393	1743	ftsI	COG0768	Peptidoglycan D,D-transpeptidase FtsI	ATGATGAAGCTCGAAGGGGCGCTGTTCCCGTGGCGGTTCCGCCTGGTCCTGGGTTTGCTCGGGATCATGGTCGCGGCCATCTCGTGGCGCATCATCGACTTGCAGGTGGTCGACCGTGACTTCCTCAAGGAGCAGGGCGACGCCCGTAGCGTGCGTCATATCCCGATCCCGGCTCACCGTGGCCTGATCACCGACCGCAATGGCGAGCCGCTGGCTGTCAGCACACCAGTGACCACCTTGTGGGCGAACGCCAAGGAAATGCAGCAGGCCAAGGAGAAGTGGCCGGCGCTGGCTGCCGCCCTCGGCCAGGACCCCAAGGCTCTGACCGAACGCCTCGAAGCCCAGGCCAACAAGGAATTCATCTATCTGGTGCGCGGGCTGACGCCCGAGCAAGGCCAGAGCGTGCTCGACCTGAAAGTGCCGGGGGTCTACGGCATCGAAGAGTTTCGGCGTTTTTATCCGGCCGGTGAGGTCACCGCCCATATGGTCGGGTTTACCGACATCGATGACCGGGGACGGGAAGGGGTCGAGCTGGCCTACGACGAATGGCTCGCCGGTGTCGCCGGCAAGCGCCAGGTCATCAAGGATCGGCGCGGCAGGCTGATCAAGGATGTCCAGGTCACCAAAAACGCCAAGGCCGGCAAGCCCTTGGCGTTGTCCATTGACCTGCGCCTGCAATATCTGGCCAACCGCGAGCTGCGCAACGCCATCGTCGAGAACGGTGCCAAGGCCGGCAGCCTGGTGATCATGGACGTGAAGACCGGCGAGATCCTCGCCATGGTCAACCAGCCGACCTACAACCCGAACAACCGTCGCAACCTGCAGCCGGCGATGATGCGCAACCGCGCGATGATCGACGTGTTCGAACCCGGTTCGACGATGAAGGCCGTGTCCATGGCCGCCGCCCTGGAAACCGGGCGCTGGAAGCCGAGCGACACCGTCGAGGTCTATCCGGGAACGTTGCAGATCGGCAAGTACACCATTCGTGACGTATCCAAGACCGAAGGACCGGTGCTCGACCTGACCGGCATCCTGATCAATTCCAGTAACGTCGGCATGAGCAAGATCGCCTTCGATATCGGTGGCGAGGCGATTTATCGCCTGGCCCAGAAGATCGGCCTCGGCCAGGACACGGGCCTGGGCTTCCCAGGCGAGCGCGTCGGCAACCTGCCCAACTATCGTGAATGGCGCAAGGCGGAAACAGCCACTTTGTCCTACGGCTACGGTGTTTCCGTGACGGCGATCCAGCTCGTCCACGCGTTTTCCGCGCTGGCTAACAATGGCCGTATTGCCCCGCTGACGCTGATCAAGACCGACAAGGCGCCGCAAACCACCCAGGTAATCCCTGAGGACGTCGCCAAGACCATGCAGGGCATGCTGCAACAGGTGATCGAGGCGCCGCGCGGTGTCTATCGCGCTCAGGTTCCGGCCTATCACGTTGCCGGCAAGTCCGGTACGGCGCGCAAGACTTCCGTGGGCACCAAGGGTTATGCCGAGAATTCCTATCGTTCGCTGTTCGCCGGCTTCGGGCCGATGAGCGATCCGCGCTATGCCATCGTGGTGGTCATCGACGAACCGAGCAAGGCCGGTTATTTCGGCGGCCTGGTATCGGCGCCGGTGTTCAGCAAAGTGATGTCCGGCACCCTGCGCCTGATGAACATCACCCCGGATAACCTGCCGCCGACCCAGCAGGCGAGTACCGCCCCGGTCGTCCCCCTGAAAGCCGACGGAGGGCGTGGCTGA	MMKLEGALFPWRFRLVLGLLGIMVAAISWRIIDLQVVDRDFLKEQGDARSVRHIPIPAHRGLITDRNGEPLAVSTPVTTLWANAKEMQQAKEKWPALAAALGQDPKALTERLEAQANKEFIYLVRGLTPEQGQSVLDLKVPGVYGIEEFRRFYPAGEVTAHMVGFTDIDDRGREGVELAYDEWLAGVAGKRQVIKDRRGRLIKDVQVTKNAKAGKPLALSIDLRLQYLANRELRNAIVENGAKAGSLVIMDVKTGEILAMVNQPTYNPNNRRNLQPAMMRNRAMIDVFEPGSTMKAVSMAAALETGRWKPSDTVEVYPGTLQIGKYTIRDVSKTEGPVLDLTGILINSSNVGMSKIAFDIGGEAIYRLAQKIGLGQDTGLGFPGERVGNLPNYREWRKAETATLSYGYGVSVTAIQLVHAFSALANNGRIAPLTLIKTDKAPQTTQVIPEDVAKTMQGMLQQVIEAPRGVYRAQVPAYHVAGKSGTARKTSVGTKGYAENSYRSLFAGFGPMSDPRYAIVVVIDEPSKAGYFGGLVSAPVFSKVMSGTLRLMNITPDNLPPTQQASTAPVVPLKADGGRG	PGPT0023865_3140	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023865-ftsI-K03587	NA	NA
D1-35_01394	1464	murE	COG0769	UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase	ATGTCCCTGAGCCTGAACAAGATTTTTGCCCACGCCGGGCATGACCTGCTGATTCGCGAGCTGGCCCTCGACAGCCGCGACGTGCGCGCCGGAGACCTGTTCCTGGCGGTGCCGGGTGCCCGTTTCGATGGTCGGGACCACATTGCCGACGCCTTGAAGCGCGGCGCGGCGGCGGTGGCTTATGAAGTGAACGGCGCAACCGTGCTGCCGATCACTGATGTTCCGCTGATCCCGGTCAAGGGACTGGCGGCGCAGTTGTCGGACATCGCCGGGCGTTTTTATGGCGAACCGAGCCGTCACCTGAACCTGATCGGCGTGACCGGCACGAACGGCAAGACCAGCGTTACCCAGTTGGTGGCGCAGGCGCTGGATCTGCTCGGCCAGCATTGCGGCATCGTCGGAACGCTGGGCAACGGTTTCCATGGCGCGCTGCAAAGCGGCCTGCACACCACGCCGAACCCGATTGCCGTGCAGGCGACCCTGGCCGACCTGAAGAAGGCCGGCGCCAAGGCCGTGGCGATGGAAGTCTCTTCCCATGGCCTCGATCAGGGTCGCGTCACTGCACTGGCGTTCGACGTCGCGGTGCTGACCAACCTGTCCCGGGATCACCTGGACTACCACGGCTCCATGCAAGCCTACGGCGAAGCCAAGGCCAGGCTGTTCGCCTGGAACGATCTGAAGTGCCGGGTCATCAACATTGATGACGAGTTCGGCCGCCAACTGGCCGCCGAGCAGCGCGAGTCCCGGTTGATCACCTACAGCCAGGAAGACCCCAGCGCCTACCTTTATATCCGTCAGGCGCAGTTCGATGACGAAGGCGTGCGCGCCACGCTGGTCACACCCCAGGGCGAGCACCACTTGCGCAGCACCTTGCTGGGGCGTTTCAACCTGAGCAACGTGTTGGCCGCCATTGGCGCCTTGCTCGGGCTGGACTATGCCCTGGACGAAATTCTCAAGGTGCTGCCGAAACTCGAAGGTCCGGCCGGTCGCATGCAGCGCCTGGGCGGCGGAACCCAGCCGCTGGTGGTGGTCGACTATGCCCACACCCCCGATGCACTGGAAAAAGTCCTCACGGCCCTGCGCCCGCACGCGAAGGGCAAGTTGCTTTGTCTGTTCGGCTGCGGCGGCGATCGTGATCGCGGCAAGCGCCCATTGATGGCCGAGGTCGTGGAACGACTGGCCGATGGCGTGCTGGTCACCGATGACAATCCGCGCAGTGAAGATCCAGCGCGCATTTTCGACGACATCCGCGCCGGTTTCTCGGAGGTCGATAACGTCACCTTCGTGGCCGGGCGTGGCCAGGCCATTGCCCAATTGATCGCCAGCGCTTCGGCGGACGACGTCATCGTCCTGGCCGGCAAGGGGCACGAGGACTACCAGGAAATAAACGGCGTGCGCCAGGCCTTTTCCGATCTGGTGGAAGCCGATCACGCCCTGACCGCGTGGGAGGTGGCCCATGCTTAA	MSLSLNKIFAHAGHDLLIRELALDSRDVRAGDLFLAVPGARFDGRDHIADALKRGAAAVAYEVNGATVLPITDVPLIPVKGLAAQLSDIAGRFYGEPSRHLNLIGVTGTNGKTSVTQLVAQALDLLGQHCGIVGTLGNGFHGALQSGLHTTPNPIAVQATLADLKKAGAKAVAMEVSSHGLDQGRVTALAFDVAVLTNLSRDHLDYHGSMQAYGEAKARLFAWNDLKCRVINIDDEFGRQLAAEQRESRLITYSQEDPSAYLYIRQAQFDDEGVRATLVTPQGEHHLRSTLLGRFNLSNVLAAIGALLGLDYALDEILKVLPKLEGPAGRMQRLGGGTQPLVVVDYAHTPDALEKVLTALRPHAKGKLLCLFGCGGDRDRGKRPLMAEVVERLADGVLVTDDNPRSEDPARIFDDIRAGFSEVDNVTFVAGRGQAIAQLIASASADDVIVLAGKGHEDYQEINGVRQAFSDLVEADHALTAWEVAHA	PGPT0024130_3529	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024130-murE-K01928	NA	NA
D1-35_01395	1368	murF	COG0770	UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase	ATGCTTAAGGCCTTGAAGCTCAGCGAGCTGAGCAACGCTTTGAATGCGCGCCTGATCGCCGCGGACGCCTCGTTCGACGGCGTCAGCATCGACAGCCGTGCGATCGCGCCGGGGCAGTTGTTCGTCGCTCTGGCCGGACCACGTTTCGACGGTCACGATTACCTCAACGAGGTGGCAGCCAAAGGCGCGGTCGCGGCACTGGTCGAGCGGGAAGTAAGCAACAGCACGCTGCCGCAGTTGCTGGTCAGCGACACTCGCCAGGCCCTGGGCCAGCTCGGTGCGCTGAATCGCGCGGCGTTTGCCAATCCGGTCGCGGCCATCACCGGTTCCAGCGGCAAGACCACGGTCAAGGAAATGCTCGCGAGCATCCTGCGCACACGCGGTCCGGTCCTGGCGACCCGTGGCAACCTGAACAATGACCTCGGCGTGCCTTTGACCCTGCTCGAACTGGCGCCGGAGCACAGCGCCGCGGTCATCGAACTCGGCGCTTCACGGCTCGGCGAGATTGCCTACACGGTCGGCATGACCAAGCCTCACGTGGCGGTGCTCAACAACGCCGGGACCGCCCATGTCGGCGAGTTCGGCGGCCCCGAGAAAATTGTCGAGGCCAAGGGCGAGATCATCGAAGGGCTGGCTAACGATGGCATCGCCGTGCTCAATCTCGACGATAAAGCCTTCGAAATCTGGAAGACCCGGGCCGGGGAGCGCAAGGTGCTGAGCTTCGCCCTGAGCAACCTGGCGGCGAATTTCTACGCCAGCGACCTGGATCGCGACGCCCGTGGTTGCCCGGCTTTCAACCTGCACAGCCCTGATGGCGCGGAGCGCGTGCAGTTGAACCTGCTTGGCACGCATAACGTTGCCAATGCCCTGGCCGCCGCGGCCGCCGCCCATGCGCTGGGTGTGTCGTTGCCGGGCATCGTTGCCGGGCTTACCGCCGTACAACCGGTCAGGGGACGCAGCGTCGCGCAGTTGGCGAGCAACGGCATGCGCGTTATCGACGACACCTACAACGCCAACCCGACGTCCATGTGCGCCGCTGTGGATATCCTTGCCGGTTTCTCCGGTCGCACCGTGCTGGTGCTGGGGGATATCGGTGAACTGGGCGAGTGGGCGCAGCAAGGCCATCACGATGTCGGTGCCTACGCGCGCGGCAAGGTCGATGCGCTGTATGCCGTCGGCCCGATGATGGCCCACGCCGTGGCGGCGTTTGGCGAGCACGCACAGCATTTCACCACGCAGGCCGAGCTGATACAGGCCCTGGGCGCCGAGCAAGACCCGAACACCACCCTATTGATCAAGGGCTCACGCAGTGCGGCGATGGAAAACATCGTTGCGGCTTTGTGCGGCACCCGTATGGAGAAACATTAA	MLKALKLSELSNALNARLIAADASFDGVSIDSRAIAPGQLFVALAGPRFDGHDYLNEVAAKGAVAALVEREVSNSTLPQLLVSDTRQALGQLGALNRAAFANPVAAITGSSGKTTVKEMLASILRTRGPVLATRGNLNNDLGVPLTLLELAPEHSAAVIELGASRLGEIAYTVGMTKPHVAVLNNAGTAHVGEFGGPEKIVEAKGEIIEGLANDGIAVLNLDDKAFEIWKTRAGERKVLSFALSNLAANFYASDLDRDARGCPAFNLHSPDGAERVQLNLLGTHNVANALAAAAAAHALGVSLPGIVAGLTAVQPVRGRSVAQLASNGMRVIDDTYNANPTSMCAAVDILAGFSGRTVLVLGDIGELGEWAQQGHHDVGAYARGKVDALYAVGPMMAHAVAAFGEHAQHFTTQAELIQALGAEQDPNTTLLIKGSRSAAMENIVAALCGTRMEKH	PGPT0024145_3450	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024145-murF-K01929	NA	NA
D1-35_01396	1083	mraY	COG0472	Phospho-N-acetylmuramoyl-pentapeptide-transferase	ATGCTGCTGCTGCTAGCGGAGTACCTGCAACAGTTCCACAAAGGCTTCGCGGTCTTCCAGTACCTGACCCTGCGCGGGATCCTGGGTGTGCTGACCGCGTTGTCGTTGTCGCTGTTCCTGGGCCCGTGGATGATCCGCACCCTGCAGAGCCTGCAGATCGGTCAGTCGGTTCGTAACGACGGCCCGCAGTCGCATCTGTCCAAATCCGGCACCCCGACCATGGGCGGCGCGCTGATCCTGTCGTCCATCGGTATCAGCACCTTGCTCTGGGCCGACCTGGCGAACCGTTACGTCTGGGTCGTGCTGCTGGTGACGCTGTTTTTCGGCGCCATTGGCTGGGTCGACGACTACCGCAAGGTCATCGAGAAGAACTCCCGTGGGCTGCCAAGCCGCTGGAAATATTTCTGGCAGTCGGTGTTCGGCCTCGGCGCGGCGATCTTCCTTTATATGACCGCCGCCTCGCCGGTGGAAACCACCCTGATCCTGCCGATGCTCAAGGACTACAGCATCCCGCTGGGCGCAGGTTTCATCGTGCTGACCTACCTGGTGATCGTCGGTTCGAGCAATGCGGTCAACCTCACCGACGGCCTCGACGGCCTGGCGATCATGCCGACGGTGATGGTCGGTGGTGCGCTGGGGATCTTCTGCTACCTGTCGGGTAACGTGAAATTCGCTGAATACCTGCTGATTCCTTATGTACCGGGGGCGGGCGAGCTGATCGTATTCTGCGGCGCGCTGATCGGTGCCGGCTTGGGCTTTCTTTGGTTCAACACCTACCCGGCGCAAGTCTTCATGGGCGACGTCGGCGCGCTGGCGCTGGGCGCGGCCCTGGGCACCATCGCCGTCATCGTTCGCCAGGAAATCGTCCTGTTCATCATGGGCGGCGTGTTTGTGATGGAGACCCTGTCAGTCGTCATTCAGGTTGCTTCCTTTAAATTGACCGGCCGCCGGGTATTTCGCATGGCGCCGATACACCACCATTTTGAACTCAAGGGCTGGCCCGAGCCGCGTGTGATCGTCCGTTTCTGGATTATCACCGTGATTCTCGTGTTGGTCGGCCTTGCCACCCTGAAGCTGAGGTAG	MLLLLAEYLQQFHKGFAVFQYLTLRGILGVLTALSLSLFLGPWMIRTLQSLQIGQSVRNDGPQSHLSKSGTPTMGGALILSSIGISTLLWADLANRYVWVVLLVTLFFGAIGWVDDYRKVIEKNSRGLPSRWKYFWQSVFGLGAAIFLYMTAASPVETTLILPMLKDYSIPLGAGFIVLTYLVIVGSSNAVNLTDGLDGLAIMPTVMVGGALGIFCYLSGNVKFAEYLLIPYVPGAGELIVFCGALIGAGLGFLWFNTYPAQVFMGDVGALALGAALGTIAVIVRQEIVLFIMGGVFVMETLSVVIQVASFKLTGRRVFRMAPIHHHFELKGWPEPRVIVRFWIITVILVLVGLATLKLR	PGPT0024105_2016	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024105-mraY-K01000	NA	NA
D1-35_01397	1347	murD	COG0771	UDP-N-acetylmuramoylalanine--D-glutamate ligase	GTGTCCCTGATCGCTTCTGACCACTTCCGCATCGTTGTCGGCCTCGGCAAGAGCGGCATGTCCCTGGTTCGCTTCCTGGCGAACCGGGGTGTGTCGTTTGCCGTCGCCGATACGCGGGAAAATCCGCCTGAGCTGGCCACGCTGCGTCGTGACTATCCCCAGGTGGATGTGCGTTGTGGCGAGCTGGACGTCGAGTTCCTGTGCCGCGCCGACGAGCTCTACGTGAGCCCTGGCCTGGCCCTGGCGACCCCGGCCCTGCAGGCTGCCGCCGCCCGTGGCGTGAAATTGTCCGGCGATATCGAGCTGTTCGCGCGCAACGCCAAGGCGCCGATTATCGCCATCAGCGGTTCCAATGCGAAAAGCACCGTCACCACGCTGGTCGGTGAAATGGCCGCGGCCGCCGGCAAGCGTGTCGCCGTGGGCGGCAACCTCGGCACCCCGGCGCTGGATCTGCTCAGCGACGAGGTCGAGCTGTACGTCATGGAGTTGTCGAGCTTCCAGCTCGAGACCACCGATCACCTTGGCGCTGAAGTGGCCACTGTGCTGAACATCAGCGAAGACCACATGGACCGCTACAGCGGCCTGCCGGCCTATCACCTGGCCAAGCACCGGATTTTCCGTGGTGCCCGGCAAGTGGTGTTCAACCGCCAGGATGCCTTGACGCGTCCGCTGATGAGCGAAGGGCTGCCGTGCTGGACTTTCGGCCTCGGCGCTCCAGATTTCAAAGGCTTCGGTTTGCGCGAAGAGAACGGCGAGAAATATCTGGCCTTCGAGTTCCAGAACCTGATGCCGGTGCGCGAACTGAAGATTCGCGGCGCCCATAACCAGGCCAATGCCTTGGCCGCGCTCGCCCTCGGGCATGCCGTCGGGCTGCCGTTCGACGCCATGCTTTCGGCGCTGCGCAGCTTTGCCGGGCTCGAGCACCGCTGCCAGTGGGTGCGCGACCTGGATGGCGTGGCCTGGTACAACGATTCCAAGGCCACCAATGTTGGCGCCGCCCTGGCTGCCATCGAAGGCCTCGGCGCGGACATCCAGGGCAAGCTCGTGCTGATTGCCGGTGGCGACGGCAAGGGTGCCGATTTTAAAGACCTGCGCGATCCGGTGGCGGCCAACTGTCGTGCCGTGGTGCTGATGGGCCGCGATCGTGAACTGATCGCCCAGGCCCTCGGCGATGCCGTGCCGCAGGTTCGCGTCGCTTCGCTGGACGAAGCCGTGCAGCAATGCCGTGCCCTCGCGCAACCGGGCGATGCCGTGCTGTTGTCGCCGGCCTGCGCCAGTTTCGACATGTTCAAGAATTACGAAGAGCGCGGGCAACTGTTCGCCCGGGCTGCGGAGGACTTGGCATGA	MSLIASDHFRIVVGLGKSGMSLVRFLANRGVSFAVADTRENPPELATLRRDYPQVDVRCGELDVEFLCRADELYVSPGLALATPALQAAAARGVKLSGDIELFARNAKAPIIAISGSNAKSTVTTLVGEMAAAAGKRVAVGGNLGTPALDLLSDEVELYVMELSSFQLETTDHLGAEVATVLNISEDHMDRYSGLPAYHLAKHRIFRGARQVVFNRQDALTRPLMSEGLPCWTFGLGAPDFKGFGLREENGEKYLAFEFQNLMPVRELKIRGAHNQANALAALALGHAVGLPFDAMLSALRSFAGLEHRCQWVRDLDGVAWYNDSKATNVGAALAAIEGLGADIQGKLVLIAGGDGKGADFKDLRDPVAANCRAVVLMGRDRELIAQALGDAVPQVRVASLDEAVQQCRALAQPGDAVLLSPACASFDMFKNYEERGQLFARAAEDLA	PGPT0024125_3234	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024125-murD-K01925	NA	NA
D1-35_01398	1218	ftsW	COG0772	putative peptidoglycan glycosyltransferase FtsW	ATGAGCCTGATGAACATCATCAAGCCGTACCCGTCGCCGCTGATTACCGGTCGCGGTATCGACCTGGATTTCCCGATGCTCGCCGGCTGCCTGGCGCTGCTCGGCCTGGGCCTGGTGATGATCACCTCCGCCTCGTCGGAAGTGGCCGCCGTGCAATCGGGCAACACCCTCTACCACATGATCCGCCACCTGATTTACCTGGTGATCGGCCTGGGCGCGTGCATTGTCACCATGATGGTGCCGATCGCCACCTGGCAACGCCTGGGCTGGCTGATGTTGCTGGGTGCCTTCGGCCTGCTGGTGATGGTGCTGGTGCCGGGTATCGGCCGCGAGGTCAACGGCTCCATGCGCTGGATCGGCTTCAGCTTCTTCAACGTGCAGCCCTCGGAAATCGCCAAGGTCTTTGTGGTGATCTACCTCGCCGGGTACCTGGTGCGTCGTCAGAAAGAAGTGCGCGAGAGCTGGATGGGCTTCTTCAAGCCGTTCATCGTGCTGCTGCCGATGGCCGGCCTGCTGCTGATGGAGCCGGACTTCGGCGCAACGGTGGTGATGATGGGCGCGGCGGCGGCAATGCTGTTCCTCGGCGGTGTCGGGCTGTTCCGCTTCACCCTGATGGTAGCGCTGGCGTTCGCGGCAGTGACCGTCCTGGTGCAGGCCCAGCCGTACCGGATGGCGCGCCTGATCACCTTTACCGATCCGTGGGCCGACCAGTTCGGTTCCGGCTACCAGTTGACCCAGGCGTTGATCGCCTTCGGTCGCGGCGAGTGGCTGGGCGTGGGCCTGGGCAACAGTGTGCAAAAGCAGTTCTACCTGCCGGAAGCTCACACCGACTTCGTGTTCTCGGTTCTCGCCGAGGAGCTGGGGGTAGTGGGTTCCCTGTGCACCGTCGCGCTGTTCGTCTTCGTTTGTGTGCGCGGCATGTACATCGGCTTGTGGGCCGAGAAGGCCAAGCAGTTCTTTGCCGCGTACGTGGCGTACGGCCTGTCGTTCCTGTGGATCGGCCAGTTCCTGATCAACATCGGGGTGAACGTCGGCCTGCTGCCGACCAAGGGCCTGACGCTGCCGTTCCTCAGTTATGGCGGCAGCTCCCTGGTGATCTGCTGTGCCTGCCTCGGCTTGTTGCTGCGCATCGAGTGGGAAAGTCGAACCCACCTGGGCAGCGAAGAAATGGAATTCCATGAAAGCGACTTCGCCGAGGAGCCGACTCATGGGCGCTAA	MSLMNIIKPYPSPLITGRGIDLDFPMLAGCLALLGLGLVMITSASSEVAAVQSGNTLYHMIRHLIYLVIGLGACIVTMMVPIATWQRLGWLMLLGAFGLLVMVLVPGIGREVNGSMRWIGFSFFNVQPSEIAKVFVVIYLAGYLVRRQKEVRESWMGFFKPFIVLLPMAGLLLMEPDFGATVVMMGAAAAMLFLGGVGLFRFTLMVALAFAAVTVLVQAQPYRMARLITFTDPWADQFGSGYQLTQALIAFGRGEWLGVGLGNSVQKQFYLPEAHTDFVFSVLAEELGVVGSLCTVALFVFVCVRGMYIGLWAEKAKQFFAAYVAYGLSFLWIGQFLINIGVNVGLLPTKGLTLPFLSYGGSSLVICCACLGLLLRIEWESRTHLGSEEMEFHESDFAEEPTHGR	PGPT0014810_1812	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588	NA	NA
D1-35_01399	1071	murG	COG0707	UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase	ATGGGCGCTAACGTGCTGATCATGGCGGGCGGAACCGGCGGGCATGTATTCCCGGCGCTGGCCTGCGCCCGGGAGTTCCAGGCGCGCGGCTACACCGTGCACTGGCTCGGCACGCCGCGTGGCATCGAGAATGAACTGGTACCCGCCGCCGGCCTCGAGCTGCATCGGATCAACGCCAGTGGCCTGCGGGGCAAAGGCAAGCTGTCGCTGCTCAAGGCACCGCTGATGCTGCTCAAGTCGATCTGGCAGGCGCGGGCGGTCATCCGTCGGCTGCGGCCGGTGTGTGTCGTCGGCTTCGGCGGTTATGTGACCGGTCCTGGCGGCGTCGCGGCAAAACTGGCCGGTGTGCCGGTGATCGTTCATGAGCAGAACGCGGTCGCTGGTACCGCCAATCGGTTACTGGTGCCGTTGGCCGCTCGAGTGTGTGAAGCCTTCCCCGACACCTTTACCCTGTCGGGCAGCCGTCGCACCACCGGTAACCCGGTGCGCACGGAGCTGTTCCTCGATACACCGCGCCCGGCCCTGGCCGGACGCAAGGCGCGTTTGCTGATCCTGGGCGGAAGCCTGGGAGCGGAACCGTTGAACAAACTGCTGCCCGAAGCCTTGTCCCAGGTCGCCCCCGAACTGCGCCCTGAAGTGTTTCACCAGGCTGGCAAAAACCACGATGAAGTGACCGCCGAGCGCTATCGCGCCGTTGGCGTCGAGGCGCAAGTGCAGCCTTTCATCAAAGACATGGCCCAAGCCTATGGCTGGGCCGACCTGGTGGTCTGCCGCGCAGGCGCGCTGACCGTCAGTGAACTGGCTGCCGCCGGTCTGCCCTCGATGCTGGTGCCTTTGCCCCACGCCATCGACGATCACCAGACCCGCAACGCCGATTATTTGGCCCGCGAAGGCGCTGCCTTCCTGATGCCACAAAGAACGACTGGCGCCGCGGATCTCGCTGCGCGCCTGACAGAGGTCTTGATGCAGCCGCAAACACTCGAAGACATGGCCCGCGCCGCACGCCGCCTGGCCAAACCCGATGCCACCGCCCAAGTGGTCGATACCTGCCTGGAGGTGGCCCATGGTTGA	MGANVLIMAGGTGGHVFPALACAREFQARGYTVHWLGTPRGIENELVPAAGLELHRINASGLRGKGKLSLLKAPLMLLKSIWQARAVIRRLRPVCVVGFGGYVTGPGGVAAKLAGVPVIVHEQNAVAGTANRLLVPLAARVCEAFPDTFTLSGSRRTTGNPVRTELFLDTPRPALAGRKARLLILGGSLGAEPLNKLLPEALSQVAPELRPEVFHQAGKNHDEVTAERYRAVGVEAQVQPFIKDMAQAYGWADLVVCRAGALTVSELAAAGLPSMLVPLPHAIDDHQTRNADYLAREGAAFLMPQRTTGAADLAARLTEVLMQPQTLEDMARAARRLAKPDATAQVVDTCLEVAHG	PGPT0024150_4049	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024150-murG-K02563	NA	NA
D1-35_01400	1461	murC	COG0773	UDP-N-acetylmuramate--L-alanine ligase	ATGGTTGAGAATCGCAAAGCCATGCCGCAGCCGGAAATGCGCCGCATCCGCCGCATCCACTTCGTCGGGATCGGCGGCGTGGGCATGTGCGGGATCGCCGAGGTGTTGCTGAACCTGGGTTACCAGGTCTCGGGTTCCGACCTGAAGGCTTCGCCGGTCACTGAGCGCCTGGAATCCTTCGGTGCACAGATTTTCATCGGCCATCGTGCCGAGAACGCCGCCAACGCCGATGTGCTGGTGGTCTCCAGCGCCGTGAACACTTCCAACCCGGAAGTCGCCACCGCCCTGGAACGTCGCATTCCCGTGGTGCCGCGCGCCGAGATGCTCGCCGAGCTGATGCGCTATCGCCACGGCATCGCCGTCGCCGGTACTCACGGCAAGACCACCACCACCAGCCTGATCGCCTCGGTGTTCGCTGCCGGTGGCCTGGACCCGACGTTCGTGATCGGTGGGCGCCTGAACGCCGCGGGCACCAACGCCCAACTGGGCACCAGCCGCTACCTGATCGCCGAAGCCGACGAGAGCGATGCAAGTTTCCTGCACCTGCAACCGCTGGTGGCCGTGGTGACCAACATCGACGCCGACCACATGGCGACCTACGACGGTGACTTCAACAAACTGAAGAAAACCTTCGTCGAGTTCCTCCACAACCTGCCGTTCTACGGTCTGGCGGTGGTGTGCCTGGACGATCCGGTGGTGCGCGAAATCCTCCCGCTGATCAAGCGTCCGACCGTGACCTACGGCTTTGGCGAAGACGCCGACGTGCGCGCGATCAACGTGCGCCAGCAGGGCATGCAGACGTTCTTCACCGTGCTGCGTCCTGATCGCGAGCCGTTGGACGTGTCGGTGAACATGCCCGGCAACCACAACGTGCTCAACTCGCTGGCGACAATTTGCATCGCCACCGACGAAGGCGTCAGCGATGAAGCCATCGTCCAGGGCCTGTCCGGGTTCCAGGGCGTAGGTCGACGCTTCCAGGTCTATGGCGAGCTGCCGGTGGACGGCGGCAACGTGATGCTGGTGGATGACTACGGCCATCACCCGACCGAAGTCGCGGCGGTGATCAAGGCCGTGCGCGGTGGCTGGCCGGAGCGCCGGCTGGTGATGGTCTACCAGCCGCACCGCTACAGCCGCACCCGCGACCTGTACGACGATTTCGTCCAGGTGCTGGCCGACGCCAACGTGCTGCTGTTGATGGAAGTCTACCCGGCCGGCGAAGAGCCGATCCCGGGCGCCGACAGCCGCCAGCTGTGCCACAGCATCCGCCAGCGCGGCCAGTTGGACCCGATCTACATCGACCGCGGCGTGGACCTCGCGCCGCTGGTCAAGCCGCTGCTGCGCGCCGGCGACATCCTGCTCTGCCAGGGCGCCGGTGATATCGGTGGCCTGGCCCCGAAACTGTTGAAAAGTCCGTTATTCGCCGGAGCCACCGTGGCCTCCAGCGAGGGGAAACTGAAATGA	MVENRKAMPQPEMRRIRRIHFVGIGGVGMCGIAEVLLNLGYQVSGSDLKASPVTERLESFGAQIFIGHRAENAANADVLVVSSAVNTSNPEVATALERRIPVVPRAEMLAELMRYRHGIAVAGTHGKTTTTSLIASVFAAGGLDPTFVIGGRLNAAGTNAQLGTSRYLIAEADESDASFLHLQPLVAVVTNIDADHMATYDGDFNKLKKTFVEFLHNLPFYGLAVVCLDDPVVREILPLIKRPTVTYGFGEDADVRAINVRQQGMQTFFTVLRPDREPLDVSVNMPGNHNVLNSLATICIATDEGVSDEAIVQGLSGFQGVGRRFQVYGELPVDGGNVMLVDDYGHHPTEVAAVIKAVRGGWPERRLVMVYQPHRYSRTRDLYDDFVQVLADANVLLLMEVYPAGEEPIPGADSRQLCHSIRQRGQLDPIYIDRGVDLAPLVKPLLRAGDILLCQGAGDIGGLAPKLLKSPLFAGATVASSEGKLK	PGPT0024120_848	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024120-murC-K01924	NA	NA
D1-35_01401	966	ddl	COG1181	D-alanine--D-alanine ligase	ATGACTGCTGCCTACGCCAACCTGGTCTCGACCCTTGATCCGAAAGCCTTCGGCCGCGTGGCCGTGCTGTTCGGTGGCAAGAGCGCCGAGCGCGAGGTCTCTCTCAAGTCCGGCAACGCCGTGCTGCAAGCCCTGCAAAGCGCCGGCGTCGACGCATTCGGCATCGACGTGGGCGACGACTTCCTGCAGCGCCTGCTGAGCGAAAAGATCGATCGCGCCTTCATCATTCTTCATGGCCGTGGCGGCGAAGACGGCAGCATGCAGGGCTTGCTCGAATGCCTGGGCATTCCCTACACCGGCAGTGGCATCCTGGCTTCCGCCCTGGCGATGGACAAGTTGCGCACCAAACAGGTCTGGCACAGCCTCGGCATCCCGACGCCGCGTCACGCCGTGCTGGCGTCCGAGGCCGATTGTATTTCGGCGGCGACGGAACTGGGCTTCCCTTTGATCGTCAAACCGGCCCATGAAGGTTCAAGTATCGGCATGGCGAAAGTGAATTCGCTGCCTGAGTTGACCGCAGCCTGGAAGGACGCCAGTTCCTACGATTCGCAAGTGTTGGTCGAGCAATGGATCACCGGTCCCGAGTTCACCATCGCCACCCTGCGTGACCAGGTGTTGCCCCCGATTGCGCTGGGCACGCCCCACACGTTCTACGACTACGACGCCAAGTACATCGCTAATGACACCCAGTACCGCATTCCCTGCGGGCTGGACGCTGCCAAGGAAAAACAATTGATGGACCTCACGGCCAAGGCCTGTGAGGCGCTGGGTATCGCCGGTTGGGCGCGGGCGGACGTGATGCAGGACGCCGATGGGCAGTTCTGGTTCCTGGAAGTCAACACCGCGCCCGGCATGACCGACCACAGCCTGGTTCCGATGGCGGCTCGTGCTGCCGGCCTGGATTTCCAGCAACTGGTGCTGTCGATCCTGGCCGCCAGTGTCGGCAACCAAGAGTCCAGGGGTTAA	MTAAYANLVSTLDPKAFGRVAVLFGGKSAEREVSLKSGNAVLQALQSAGVDAFGIDVGDDFLQRLLSEKIDRAFIILHGRGGEDGSMQGLLECLGIPYTGSGILASALAMDKLRTKQVWHSLGIPTPRHAVLASEADCISAATELGFPLIVKPAHEGSSIGMAKVNSLPELTAAWKDASSYDSQVLVEQWITGPEFTIATLRDQVLPPIALGTPHTFYDYDAKYIANDTQYRIPCGLDAAKEKQLMDLTAKACEALGIAGWARADVMQDADGQFWFLEVNTAPGMTDHSLVPMAARAAGLDFQQLVLSILAASVGNQESRG	PGPT0020050_4011	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921	NA	NA
D1-35_01402	867	ftsQ		Cell division protein FtsQ	ATGCAAGGCGCATCGCTTCGTCATCAGCCATCCGCACCCGGTCGCAAGCCGGTGCCGCGGGGTGCCAGCCGAATGGTGGCCAAAGAGCCGATGTCGGCGCGCTTGCCGAAAGCCAATTTCGGCTTTCTCAAGAGCTTGTTCTGGCCGGTGATGCTGGTGGTATTGGGGTTCGGCACGTATGAAGGCGCGCAGCGGCTGCTGCCTTATGCCGATCGGCCAATCGCCCGGATCAACGTCCAGGGTGACCTGAGCTACATCAGCCAGCAGGCGGTGCAGCAGCGGATCGCTCCGTTCGTCGCGTCGAGCTTCTTCACCATCGACCTGGCGGGCATGCGCACCGAGCTGGAGCAGATGCCCTGGATCGCCCACGCCGAAGTGCGGCGGGTATGGCCGGACCAGGTGTCGATTCGTCTGGAAGAGCAGTTGCCGGTGGCCCGTTGGGGCGACGAGTCGCTGTTGAACAACCAGGGCCAGGCGTTTACGCCACGGGAACTGGCCAATTATGAACATTTGCCACAACTGTTCGGTCCACAGCGGGCCCAGCAGCAAGTGATGCAGCAATACCAGGTGTTGAGTCAGATGTTGCGGCCACTGGGCTTCTCCATCGCGCGCCTGGAATTGCGTGAGCGCGGCAGCTGGTTCCTGACCACTGGCGCGGGCAGCTCGGGGCCGGGCATCGAGCTGTTGCTCGGGCGCGGCAACCTGGTGGAAAAGATGCGCCGCTTCATTGCCATCTATGACAAGACGCTCAAAGAACAGATTACGAACATTGCGCGCATCGATCTGCGCTACGCCAACGGCCTCGCTGTTGGCTGGCGGGAACCTGTAGCGCCGACGACGGCCGAACCCGCCGTCGCGAAGAATTAA	MQGASLRHQPSAPGRKPVPRGASRMVAKEPMSARLPKANFGFLKSLFWPVMLVVLGFGTYEGAQRLLPYADRPIARINVQGDLSYISQQAVQQRIAPFVASSFFTIDLAGMRTELEQMPWIAHAEVRRVWPDQVSIRLEEQLPVARWGDESLLNNQGQAFTPRELANYEHLPQLFGPQRAQQQVMQQYQVLSQMLRPLGFSIARLELRERGSWFLTTGAGSSGPGIELLLGRGNLVEKMRRFIAIYDKTLKEQITNIARIDLRYANGLAVGWREPVAPTTAEPAVAKN				NA	NA	NA	NA	NA
D1-35_01403	1260	ftsA_1	COG0849	Cell division protein FtsA	ATGGCAAACGTGCAAAGCGGAAAAATGATCGTCGGTCTGGATATCGGCACTTCCAAGGTGGTAGCGCTGGTAGGCGAGGTCGCGGACGACGGCACGCTGGTCATCGTCGGGATCGGTACACACCCGTCCCGTGGCTTGAAGAAAGGCGTGGTGGTGAACATCGAGTCCACCGTCCAATCGATCCAGCGCGCCATCGAAGAAGCGCAGCTGATGGCCGGTTGCCGGATCCACTCGGCGTTCGTCGGTGTCGCGGGCAATCACATCCGCAGCCTGAACTCCCACGGCATCGTGGCGATTCGGGACCGTGAAGTCAGCTCCGCCGACCTTGAGCGCGTACTCGACGCGGCCCAGGCCGTGGCGATTCCGGCCGACCAGCGGGTGCTGCACACCCTGCCGCAGGATTACGTGATCGATAACCAGGAAGGCGTACGCGAGCCCCTGGGTATGTCCGGGGTACGCCTGGAAGCCAAGGTCCACGTGGTCACCTGCGCCGTGAACGCCGCGCAGAACATCGAGAAGTGCGTGCGTCGCTGCGGCCTGGAAATCGACGACATCATCCTCGAGCAACTGGCTTCGGCCTACTCGGTGCTGACCGACGACGAGAAAGAACTCGGCGTGTGCCTGGTCGATATCGGCGGCGGCACCACCGACATCGCGATCTTCACCGAAGGCGCCATCCGCCACACGGCAGTGATCCCGATTGCCGGCGACCAGGTGACCAACGACATCGCCATGGCGCTGCGCACCCCGACCCAGTACGCCGAGGAAATCAAGATCCGTTACGCCTGCGCCCTGGCCAAGCTGGCCGGTGCCGGTGAAACCATCAAGGTGCCGAGCGTCGGCGACCGTCCGCCGCGCGAATTGTCGCGCCAGGCCCTGGCCGAAGTGGTCGAGCCGCGCTACGACGAACTGTTCACGCTGATCCAGGCCGAACTGCGCCGCAGCGGCTACGAAGACCTGATCCCGGCCGGCATCGTGCTGACCGGCGGTACGTCGAAGATGGAGGGCGCGGTCGAGCTGGCCGAAGAGATTTTCCACATGCCGGTGCGCCTGGGCGTGCCCCATGGCGTCAAGGGCCTGGATGACGTGGTGCGCAACCCGATCTATTCGACTGGCGTGGGCCTGTTGATGTACGGCCTGCAAAAGCAATCCGACGGGATCTCGTTCTCGGGCATCGGCAGCCGTGACAGCTACAGCAGCGAAGAGCCCAAGGCACCGCTGTTCGAGCGGCTCCAGGCTTGGGTGAAGGGCAATTTCTAA	MANVQSGKMIVGLDIGTSKVVALVGEVADDGTLVIVGIGTHPSRGLKKGVVVNIESTVQSIQRAIEEAQLMAGCRIHSAFVGVAGNHIRSLNSHGIVAIRDREVSSADLERVLDAAQAVAIPADQRVLHTLPQDYVIDNQEGVREPLGMSGVRLEAKVHVVTCAVNAAQNIEKCVRRCGLEIDDIILEQLASAYSVLTDDEKELGVCLVDIGGGTTDIAIFTEGAIRHTAVIPIAGDQVTNDIAMALRTPTQYAEEIKIRYACALAKLAGAGETIKVPSVGDRPPRELSRQALAEVVEPRYDELFTLIQAELRRSGYEDLIPAGIVLTGGTSKMEGAVELAEEIFHMPVRLGVPHGVKGLDDVVRNPIYSTGVGLLMYGLQKQSDGISFSGIGSRDSYSSEEPKAPLFERLQAWVKGNF				NA	NA	NA	NA	NA
D1-35_01404	1194	ftsZ	COG0206	Cell division protein FtsZ	ATGTTCGAACTCGTAGACAACATCCCCGCCAGCCCGGTTATCAAGGTAATCGGTGTCGGCGGTGGCGGCGGCAACGCTGTCAACCACATGGTCAAGAGCAACATCGAAGGCGTTGAGTTCATCTGCGCCAACACCGATGCTCAGGCGCTGAAAAACATCGGCGCGCGGACCATCCTCCAACTCGGTACCGGCGTGACCAAGGGCCTGGGTGCCGGCGCGAATCCCGAGGTTGGCCGTCAGGCTGCCCTGGAAGATCGCGAGCGCATCGCTGAAGTCCTGGCTGGCACCAACATGGTGTTCATCACCACTGGCATGGGCGGCGGTACCGGTACCGGTGCAGCGCCGATCATTGCCGAAGTGGCCAAGGAAATGGGCATCCTCACCGTTGCGGTGGTGACCCGTCCGTTCCCGTTCGAAGGCCGCAAGCGCATGCAGATCGCCGATGAAGGCATCCGCGCGCTGAGCGAAAGCGTCGACTCGTTGATCACCATCCCCAACGAGAAGCTGCTGACCATCCTCGGTAAGGACGCCAGCCTGCTGTCGGCTTTCGCCAAGGCCGATGACGTACTGGCCGGTGCCGTTCGCGGTATCTCCGACATCATCAAGCGTCCGGGCATGATCAACGTCGACTTTGCCGACGTACGCACCGTGATGTCCGAAATGGGCATGGCGATGATGGGCACCGGCTGCGCCAGCGGTCCGAACCGTGCACGCGAAGCCACCGAAGCGGCCATCCGCAACCCGCTGCTCGAAGATGTGAACCTGCAGGGCGCCCGCGGCATCCTGGTGAACATCACCGCCGGTCCGGACTTGTCCCTGGGCGAGTACTCCGACGTGGGTAGCATCATCGAGGCGTTCGCTTCCGACCACGCAATGGTCAAGGTCGGCACCGTGATCGATCCGGACATGCGTGACGAACTGCACGTGACCGTGGTTGCCACTGGCCTGGGCGCGAAAATCGAGAAGCCGATGAAGGTGATCGACAACACCGTGCAGACCGCCATGGCTTCGCAGCCCCAGCAGCAAGCTGCCGCTCGTCAGGAAGCTCCCGCGGTGAACTACCGTGACCTGGACCGTCCGACCGTCATGCGCAACCAGGCCCAGGCCGGTGCTGCGACTGCCGCGAAGATGAATCCGCAAGACGATCTGGATTACCTGGACATCCCGGCATTCCTGCGTCGTCAGGCCGATTGA	MFELVDNIPASPVIKVIGVGGGGGNAVNHMVKSNIEGVEFICANTDAQALKNIGARTILQLGTGVTKGLGAGANPEVGRQAALEDRERIAEVLAGTNMVFITTGMGGGTGTGAAPIIAEVAKEMGILTVAVVTRPFPFEGRKRMQIADEGIRALSESVDSLITIPNEKLLTILGKDASLLSAFAKADDVLAGAVRGISDIIKRPGMINVDFADVRTVMSEMGMAMMGTGCASGPNRAREATEAAIRNPLLEDVNLQGARGILVNITAGPDLSLGEYSDVGSIIEAFASDHAMVKVGTVIDPDMRDELHVTVVATGLGAKIEKPMKVIDNTVQTAMASQPQQQAAARQEAPAVNYRDLDRPTVMRNQAQAGAATAAKMNPQDDLDYLDIPAFLRRQAD	PGPT0027695_2944	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
D1-35_01405	912	lpxC	COG0774	UDP-3-O-acyl-N-acetylglucosamine deacetylase	ATGATTAAACAACGCACCCTGAAGAATATTATCCGTGCCACAGGTGTCGGCCTGCACTCCGGCGAGAAGGTCTATCTGACCCTCAAGCCCGCGCCTGTCGACACCGGCATTGTGTTTTGTCGTGCCGACCTCGACCCTGTGGTGCAGATTCCTGCTCGCGCGGAAAACGTTGGTGAAACCACTATGTCGACCACGCTGGTCAACGGTGACACCAAAGTGGACACGGTGGAGCATTTGCTCTCGGCCATGGCTGGCCTGGGCATCGATAACGCCTACGTCGAGCTCTCCGCGTCCGAAGTCCCGATCATGGATGGCAGCGCCGGACCTTTCGTATTCCTGATTCAATCGGCTGGCCTGGAAGAGCAGGACGCGGCCAAGAAGTTCATCCGCATCCTGCGGGAAGTGACAGTGGAAGACGGCGACAAGCGCGCCACTTTCGTCCCTTTCGAAGGTTTCAAGGTGAGCTTCGAGATCGATTTCGATCACCCGGTTTTCCGTGACCGCACCCAGAGTGCAAGCGTGGATTTTTCCAGCACTTCGTTCGTCAAAGAAGTCAGCCGCGCGCGTACCTTTGGTTTCATGAGTGATATCGAGTACCTGCGCAAGCACAACCTCGCACTCGGTGGCAGTGTGGAAAACGCGATCGTGGTCGATTCCGATGGCGTGTTGAACGAAGACGGCCTTCGTTATGAAGACGAATTCGTCAAACACAAGATCCTCGATGCAATCGGCGACCTCTACCTGCTGGGCAACAGCCTGATTGGTGAGTTCAAGGGCTTCAAGTCCGGCCACGCACTGAACAACCAGCTGCTGCGCAAGTTGATTGAGCAGAAAGACGCTTGGGAAGTCGTGACGTTCGAAGACGCCAGCACCGCACCAATCTCTTACATGCGCCCTGTAGCGGCCGTGTAA	MIKQRTLKNIIRATGVGLHSGEKVYLTLKPAPVDTGIVFCRADLDPVVQIPARAENVGETTMSTTLVNGDTKVDTVEHLLSAMAGLGIDNAYVELSASEVPIMDGSAGPFVFLIQSAGLEEQDAAKKFIRILREVTVEDGDKRATFVPFEGFKVSFEIDFDHPVFRDRTQSASVDFSSTSFVKEVSRARTFGFMSDIEYLRKHNLALGGSVENAIVVDSDGVLNEDGLRYEDEFVKHKILDAIGDLYLLGNSLIGEFKGFKSGHALNNQLLRKLIEQKDAWEVVTFEDASTAPISYMRPVAAV	PGPT0022330_1518	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022330-lpxC-K02535	NA	NA
D1-35_01406	1506			hypothetical protein	ATGACAATGCAGATCGGAATCATGAGCGCGAGCAGTGCAACACCCGGCAACATCCCGCTTTCGATACGTTCGGAACGGGTACTCGTTTTGGCCAGCTCGCTGGTTGTCATCGCCATCGTAGCTATCGTGACGTTCCTGCTGATCCGTGAACACGCCAGCGCGCAGCAGGCAGCGACACGCGCGGCGAGCAACATTGTGCAGTTGATCGACGCCGACGTACTGCGCAATGTCGAACTCTACGATCTTTCGCTGCAAGGCCTGATTGCCGCAGCGAAACGCCAGGACCTCCAGGACGTTTCGCCAACGATCCGCCACCTCGCCCTGTTCGATCGCGCCACCGCAGCCCCTTATAAAGGCGACATATTGCTGCTCGACAAGCGCGGCGACGTGGTCGCCGATTCCGCTTCGATCGAACCGCGCAAGGGCAATTACGCCGATGGGGAATATTTCCAGTCCCATCTGCAGGAACCGGGCCCGGGCATGAAGATCAGCCGTCCGTTCCGGGCCCGGAGCAGTCCGCATGACTGGCGCATCAGCTTCAGCTACCGCTTGAACGACGACCGGGGCGGGTTCATGGGCGTGGCCGAGGCTGCAATGCGCCTGGGCTACTTCAGCCAGCTCTTCAAGAGCTTGAACATCGGCCATGGCGGCACGGTCAACCTGGTCAGCCGCGACGGGATCCTGTTGGCTCAGGAGCCGCCTCTGGCCGAAGACATGATCGGCAAGGATTTCAGCAGCCGACCGAACTTCGTGCGGATCCTGCGCGAAGGCGATGGCAGTTTTACCAGCGTGTCCAGCGTGGATCAGAAGCAGCGGCTGTACACCTTTTCCCAGGTAGGTAATCTGCCGCTGATCGTCGTGGTCGCGCTCTCTTCCCAAGAAGTTTTCGCGTCATGGCAACGCACGGCGCTGCTGGTCAGTGGCGCCACGGGCGCGCTGTGCTTCAGCTTGCTCTGGCTCACCTGGCTGCTGCGTCGGGAATTGAGACGCCGGCACACCGCTGAACGGGAACTGGCCCTGCTGGCATCCGTCGACCCCCTGACAGGCCTGGCCAACCGCCGGACGCTGGACCAGACGCTGCAACTGGAGTGGCTGCGCGCCCAGCGCTCCGGTCAATCGTTGTCGATCCTGATGATCGATGCCGACCACTTCAAGGCGCTCAATGATCGCCTGGGCCACCAACGCGGTGACGAGGCGTTACGAACCCTGGCGCAACTGATCGGCGGGTACGTGCGCCGACCGGCCGACCTGGCGGCGCGTTATGGCGGTGAAGAGTTCTCGGTGGTGCTGCCGGAGACGACGACCGCAGGAGCGTTCACCATGGCGCAAAACATTCGCGAAGCCGTTGAGCAACTGCCCGGTGAATTGACCATGACCGTCAGTATCGGCATCGCAACCTGGGCCCAAGGGCCTTATGACGAACTCGATCAATTGTTGCTCGCCGCTGACAAGGCGCTTTACCAGGCCAAGGCCAGTGGGCGTAATCGGGTGGTTTGCGCGATGTAA	MTMQIGIMSASSATPGNIPLSIRSERVLVLASSLVVIAIVAIVTFLLIREHASAQQAATRAASNIVQLIDADVLRNVELYDLSLQGLIAAAKRQDLQDVSPTIRHLALFDRATAAPYKGDILLLDKRGDVVADSASIEPRKGNYADGEYFQSHLQEPGPGMKISRPFRARSSPHDWRISFSYRLNDDRGGFMGVAEAAMRLGYFSQLFKSLNIGHGGTVNLVSRDGILLAQEPPLAEDMIGKDFSSRPNFVRILREGDGSFTSVSSVDQKQRLYTFSQVGNLPLIVVVALSSQEVFASWQRTALLVSGATGALCFSLLWLTWLLRRELRRRHTAERELALLASVDPLTGLANRRTLDQTLQLEWLRAQRSGQSLSILMIDADHFKALNDRLGHQRGDEALRTLAQLIGGYVRRPADLAARYGGEEFSVVLPETTTAGAFTMAQNIREAVEQLPGELTMTVSIGIATWAQGPYDELDQLLLAADKALYQAKASGRNRVVCAM				NA	NA	NA	NA	NA
D1-35_01407	1380	sasA_3		Adaptive-response sensory-kinase SasA	ATGTGTTGGAGAACCGCGGTGAGTAACAGCATCGCCCTGCGCCTGAGCGGCATGTTCACGCTGGTGGCGGCGCTGGTGTTCCTGCTGATTGGCGGCGGCTTGTACCAGCAGGTCGAAAAAGGTCTCGGCCTGTTACCAGAGGCGGAGCTCGATGCCCGCTACAGCGTGCTGGAGTCCACCGTCGGCCGCTATGGCACGCCGGAGCACTGGGTCAAGATCAACAACAAATTGCGCTTGCTCGGCGAGGAGGATAAACGCATCCACTTCTGGATCGTCAGCGATGACCCGCGCTTTGAATACGGTAACCCCGATGCACAGATCCGTGCCTTCGCCGCAGGTCCATTGGGCAAACGTGACCTGAAGCTGGCGACGCAGCATTACCCGATGAAAGTGCTGGTGAGCCAGTTCCCGGCCAAGGACCAGCGACCGCCGCTACGGTTCATGATCGGTATCGACACCGAGACCTTCTACCAGACTCAGCATCGTTTGCTGGTCGCGCTGGTGAGCCTGGCGATCGTCGGCGTGCTGCTGGCCTCGTTGCTGGGCTACTGGGTGGCGCGCATCGGTCTCAAGCCACTCATCAAGTTGTCGGACGAAGCCCGGCGCCTGGCCCCGCCCCGGCTCACCGGGCGCTTGCAATTGTCACCGCTGCCACCGGAACTCAACCAGTTCGTCAGTTCCTTCAACGCAACCCTGGACCGGGTCGAGCAGGCGTATTCAAGGCTGGAGTCATTCAATGCCGACGTTGCCCATGAACTGCGCTCGCCGCTGACCAACCTGATCGGCCAGACGCAGGTGGCGCTGACCCGCGGGCGCTCGGCAGAGCATTACTTCGAAGTGCTGCAATCGAACCTCGAAGAGCTGGAGCGACTGCGCTCGATCATCAACGACATGTTGTTCCTGGCCAGCGCCGACCAGGGTAGCAAGGCCACCAAGCTGACCACGACGTCCCTGGCCGATGAGGTGGCAACCACCCTCGATTATCTGGACTTCATCCTGGAAGACGCCCAGGTCCAGGTTCGCGTCAGCGGCGATGCCCAGGCCAGTATCGAGATCGCCCACCTGCGCCGGGCCTTGATCAATCTGCTCAGCAACGCCGTCCAGCACACCGCGCCCGGCCAGGTGATCGACGTGGACATCGAAGCCACCGGCGACCAGGTCATCCTGGGCGTCACCAATCCCGGCGAGCCTATCGCCGGCGAACACCTGCCGCGCCTGTTCGAGCGCTTCTACCGGGTCGACGTCTCCCGCAGCAACAGCGGCGCCAACCACGGCTTGGGCCTGGCCATCGTCAAGGCGATTGCGCTCATGCACGGCGGCGATGTATTCGTGCGCAGCGACCGTGGTGCCAACACCTTCGGGATCCGCTTGCCGGCCTGA	MCWRTAVSNSIALRLSGMFTLVAALVFLLIGGGLYQQVEKGLGLLPEAELDARYSVLESTVGRYGTPEHWVKINNKLRLLGEEDKRIHFWIVSDDPRFEYGNPDAQIRAFAAGPLGKRDLKLATQHYPMKVLVSQFPAKDQRPPLRFMIGIDTETFYQTQHRLLVALVSLAIVGVLLASLLGYWVARIGLKPLIKLSDEARRLAPPRLTGRLQLSPLPPELNQFVSSFNATLDRVEQAYSRLESFNADVAHELRSPLTNLIGQTQVALTRGRSAEHYFEVLQSNLEELERLRSIINDMLFLASADQGSKATKLTTTSLADEVATTLDYLDFILEDAQVQVRVSGDAQASIEIAHLRRALINLLSNAVQHTAPGQVIDVDIEATGDQVILGVTNPGEPIAGEHLPRLFERFYRVDVSRSNSGANHGLGLAIVKAIALMHGGDVFVRSDRGANTFGIRLPA	PGPT0004980_1308	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0004980-cusS|copS|silS-K07644	NA	NA
D1-35_01408	675	czcR_1		Transcriptional activator protein CzcR	ATGCGCGTTCTGATCATCGAAGACGAAGAAAAAACCGCCGACTACCTGCACCGCGGCCTGACCGAACAGGGTTACATCGTGGATGTGGCAGGGGATGGCGTCGAAGGGCTGCACCTGGCCCTGGAAAGCGATTATGCGGTGATCGTGCTCGACGTCATGCTGCCGGGCCTCGACGGCTTTGGCGTGCTGCGGGCCCTGCGCGCCCGCAAGCAGACGCCGGTCATCATGCTCACCGCCCGCGAACGGGTCGAAGATCGCATCAAGGGCCTGCGCGATGGCGCCGATGATTATCTGGGCAAGCCGTTTTCGTTCCTGGAGCTGGTGGCCCGCCTGCAAGCCCTGACCCGCCGCAGCAGCGGCCATGAACCGGTGCAGGTGAGCATCGCCGACCTGTGGATCGACCTGATCAGCCGCAAGGCCAGCCGCGCCGGGCAGCGTCTGGACCTGACCGCCAAGGAGTTTTCGCTGCTCAGCGTGCTGGCTCGCCGCCAAGGCGAGATCCTTTCGAAAACCGCGATTGCCGAAATGGTCTGGGACATCAATTTCGACAGCGACGCCAACGTCGTCGAAGTGGCGATCAAACGCCTGCGGGCCAAGCTCGACGGGCCTTTCGAGCACAAGCTTCTGCATACCATCCGAGGGATGGGTTATGTGTTGGAGAACCGCGGTGAGTAA	MRVLIIEDEEKTADYLHRGLTEQGYIVDVAGDGVEGLHLALESDYAVIVLDVMLPGLDGFGVLRALRARKQTPVIMLTARERVEDRIKGLRDGADDYLGKPFSFLELVARLQALTRRSSGHEPVQVSIADLWIDLISRKASRAGQRLDLTAKEFSLLSVLARRQGEILSKTAIAEMVWDINFDSDANVVEVAIKRLRAKLDGPFEHKLLHTIRGMGYVLENRGE	PGPT0004105_587	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
D1-35_01409	3114	mdtB_1		Multidrug resistance protein MdtB	ATGAAGGGCCGCGGCTCGATATCGGCGTGGTGCATCGACCACCCCATCGCCACGGTGCTACTGACGTTCGCCCTGGTATTGCTGGGGTTGATCGCCTTTCCCCGCCTGCCCGTCGCGCCTTTGCCCGAGGCGGAATTCCCGACCATCCAGGTCAACGCCCAACTGCCCGGCGCCAGTCCCGAAACCATGGCATCGTCCGTGGCGACCCCACTGGAGGTGCAATTCAGCGCCATTCCCGGCATTACCCAGATGACCTCAAGCAGTGCGTTGGGCTCGACCAACCTGACCCTGCAATTCAGTCTCGACAAGAGCATCGACACCGCCGCCCAGGAAGTGCAGGCGGCGATCAACACCGCCGCCGGCAAGCTGCCCAATGACATGCCGAACCTGCCGACCTGGCGCAAGGTCAACCCGGCCGACAGCCCGGTGCTGATTCTCAGCATCAGCTCCGACCTGATGCCAGGCACCGAACTGAGTGATTACGTCGAGACGCTGCTCGCCCGGCAGATCAGCCAGATCGACGGTGTTGGACAGATCTATATCACCGGCCAGCAGCGGCCGGCGATCCGGGTCCAGGCCTCGGCCGACCGGCTTGCCGCCATCGGCCTGACCCTCGCCGATATTCGCCAGTCCTTGCAGCAGGCCAGCCTCAACCTGGCCAAGGGCGCGCTGTATGGCGAGTCGAGTATTTCCACCTTGTCCACCAACGACCAGCTGTTCAAGCCGGAGGAATACGGCGAGCTGATCGTTTCCTACCGGGACGGCGCACCGGTCCATCTCAAGGACATCGCCAAAGTCGTCAACGGTTCGGAAAACGCCTACGTGCAGGCCTGGTCCGACGATCAGCCCGGCGTCAACCTGGTGATCTTCCGCCAGCCGGGGGCGAACATCGTCGAGACGGTCGACCGCATCCAGGCGGCGCTGCCGACCCTGGAAGCCATGCTGCCGGCCGCCATACAGGTCAAGGTGATGATCGATCGCACCCAGACCATTCGCGCTTCGCTGCATGAAGTGGAAATCACCCTGCTGATCGCGGTGCTGCTGGTGGTGGCGGTGATGGCGCTGTTCCTGCGCCAGCTCTCGGCGACGCTGATTGTCTCGGCCGTGCTCGGGGTGTCGCTGACCGCCAGTTTCGCGCTGATGTATGTGATGGGTTTCAGCCTCAACAATCTGACCCTGGTGGCGATCGTCATCTCGGTGGGATTCGTGGTGGACGACGCGATCGTGGTGGTGGAGAACATCCACCGGCACCTGGAAGCCGGCGATGGCATGCGCGAGGCGGCGATCAAGGGCGCCGGGGAAATCGGCTTCACGGTGGTGTCCATCAGCTTCTCGCTGGTGGCGGCGTTCATTCCGCTGCTGTTCATGGGCGGCGTGGTCGGGCGGCTGTTCAAGGAGTTTGCCCTGACCGCCACTTCGACCATCCTGATTTCCGTCGTGGTGTCCCTGACCCTGGCGCCGACCCTGGCTGCCTTGTTCATGCGCGCCCCGAAACATCACGCCCATGCCAGGCCGGGTTTCGGCGAGCGCCTGCTCGGCTGGTACGAACGCGGCCTGCGCCGGGCCCTGGCCCACCAGAAACTGATGATCGGCATGTTCGGCCTGACCCTCGCCCTCGCGGTCGTGGGCTACGTGTTCATCCCCAAGGGCTTCTTCCCGGTCCAGGACACCGGCCTGGTGCTGGGCACCAGCGAAGCGGCGGCCGATATCTCGTTCCCGGACATGGTGGCCAAGCACAAGGCCCTGGCCGAGATCGTCGCCGCCGACCCGGCAGTGCAGACCTTCTCGCACTCCGTCGGCGTCTCGGGCAACAACCAGACCATCGCCAACGGCCGCTTCTGGATCGCCCTCAAGCCTCGGGGCGAGCGCGATGTATCGGCCAGTGGCTTCATCGACCGGATCCGCCCCAAGTTGCTGAAGATTCCCGGCGTTGTGCTGTACCTGCGGGCCGGACAGGACATCAACCTCAGCTCCGGCCCGAGCCGCGCCCAGTATCAATACGTGCTCAAGAGCAACGACGGGCCGACCCTCAACGCCTGGACGCAGAAACTCACCGACAAGCTGCGCAGCATTCCGGCATTCCGCGACATTTCCAACGACTTGCAACTGGGCGGCAGCATCACCCACATCAACATCGACCGCAGCGCGGCGGCACGTTTCGGCCTCACCGCCAGCGATGTCGACCAGGCGCTCTACGACGCTTTCGGCCAGCGGCAGATCAATGAATTCCAGACCGAGACCAACCAGTACAACGTCATCCTGGAACTCGACACCCAGCAACGCGGCAAGGCCGAAAGCCTGGCGTATTTCTATCTGCGCTCGCCGCTGAGCGGGGAAATGGTCCCGCTCTCGGCCCTCGCCCGCTTCGACGCACCGACCAACGGCCCGCTGTCGATTGCCCACGACGGCATGTTCCCGGCCGCCAACCTGTCGTTCAACCTCGCGCCGGGCGTGGCGCTGGGGGATGCCGTGCGCCTGCTCGACCAGGCCAAGAACGAGATCGGCATGCCCGCCGCCATCACCGGCAGCTTCCAGGGCGCGGCCCAGGCGTTCCAGAGCTCGCTGAAAAGCCAGCCGTGGCTGATCCTCGCCGCGTTGGTGGCGGTGTACATCATCCTCGGCGTGCTCTACGAGAGTTTCGTCCATCCGTTGACGATTATTTCCACGTTGCCCTCGGCCGGCCTCGGCGCGTTGATCATGCTCTGGCTGTTGGGCCAGGACTTCTCGATCATGGCGCTGATCGGCCTGGTGCTGCTGATCGGCATCGTCAAGAAGAACGGCATCCTGATGATCGACTTCGCCCTCGATGCCCAGCGCAACGGCGGGATGGCGGCGCAGGAAGCGATTTTCCAGGCCTGCCTGACGAGGTTCCGTCCGATCATGATGACGACCCTGGCCGCCCTGCTCGGCGCCCTGCCACTGATGCTCGGCTACGGCCCCGGCGCGGAGTTGCGCCAACCCTTGGGCATCGCGGTGGTCGGTGGCCTGCTGGTGAGCCAGGCACTGACGCTGTTCACCACGCCAGTCATATACTTGTGGCTGGAGCGATTGTTCCATCGGCCCGCGCCTCGACCCGGTTCTGCGCCGACGGCGGCGCTGGCAAATGCAGACTGA	MKGRGSISAWCIDHPIATVLLTFALVLLGLIAFPRLPVAPLPEAEFPTIQVNAQLPGASPETMASSVATPLEVQFSAIPGITQMTSSSALGSTNLTLQFSLDKSIDTAAQEVQAAINTAAGKLPNDMPNLPTWRKVNPADSPVLILSISSDLMPGTELSDYVETLLARQISQIDGVGQIYITGQQRPAIRVQASADRLAAIGLTLADIRQSLQQASLNLAKGALYGESSISTLSTNDQLFKPEEYGELIVSYRDGAPVHLKDIAKVVNGSENAYVQAWSDDQPGVNLVIFRQPGANIVETVDRIQAALPTLEAMLPAAIQVKVMIDRTQTIRASLHEVEITLLIAVLLVVAVMALFLRQLSATLIVSAVLGVSLTASFALMYVMGFSLNNLTLVAIVISVGFVVDDAIVVVENIHRHLEAGDGMREAAIKGAGEIGFTVVSISFSLVAAFIPLLFMGGVVGRLFKEFALTATSTILISVVVSLTLAPTLAALFMRAPKHHAHARPGFGERLLGWYERGLRRALAHQKLMIGMFGLTLALAVVGYVFIPKGFFPVQDTGLVLGTSEAAADISFPDMVAKHKALAEIVAADPAVQTFSHSVGVSGNNQTIANGRFWIALKPRGERDVSASGFIDRIRPKLLKIPGVVLYLRAGQDINLSSGPSRAQYQYVLKSNDGPTLNAWTQKLTDKLRSIPAFRDISNDLQLGGSITHINIDRSAAARFGLTASDVDQALYDAFGQRQINEFQTETNQYNVILELDTQQRGKAESLAYFYLRSPLSGEMVPLSALARFDAPTNGPLSIAHDGMFPAANLSFNLAPGVALGDAVRLLDQAKNEIGMPAAITGSFQGAAQAFQSSLKSQPWLILAALVAVYIILGVLYESFVHPLTIISTLPSAGLGALIMLWLLGQDFSIMALIGLVLLIGIVKKNGILMIDFALDAQRNGGMAAQEAIFQACLTRFRPIMMTTLAALLGALPLMLGYGPGAELRQPLGIAVVGGLLVSQALTLFTTPVIYLWLERLFHRPAPRPGSAPTAALANAD	PGPT0029055_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029055-mexN-K21133	NA	NA
D1-35_01410	1158	mdtA_2		Multidrug resistance protein MdtA	ATGCCTATCCAGAAAAAAACCGTCCTGCTCGTCGCGTTACTGATCGCCCTGGCCGCCCTCGCCCTCTGGTTCATCATGAAGCCCGTCGCCAGCAAACCCAGTGCTTCCACCGCCGTGCCAGTGAAGGTGATAAGCGTTGTCGAGCAGGATGTGCCGCGCTTTGCCAGTGGCATCGGCACGGTACTGTCGCTGCACAGCGTGGTGATCCGTCCGCAGATCGACGGCATCCTCACCAGGCTGCTGGTCAAGGAAGGGCAACTGGTCAAGAAGGGGGACCTGCTGGCGACCATCGATGATCGTTCGATCCGCGCCAGCCTCGACCAGGCCCGCGCCCAGCTCAGCGAGAGCCAGGCGCAACTGGCCGTGGCCCAGGTCAACCTCAAGCGCTACAAGCTGCTGAGCGTCGATGACGGCGTATCGAAGCAGACCTACGACCAGCAACAGGCGCTGGTCAACCAGCTCAAGGCCACTGCCCAGGGCAACCAGGCGGCCATCGATTCGGCGCAGGTGCAGCTGTCCTACACGCAGATCCGCTCGCCGGTGAGCGGTCGCGTCGGCATTCGCAATGTGGATGAAGGCAATTTCCTGCGCACCAGCGACACCGAAGGCCTGTTCACGGTGACCCAGATCGACCCGATCGCCGTGGAGTTCTCCTTGCCCCAGCAAATGCTGCCGACCCTGCAGCGATTGATCGCCGCCCCGGACCAGGCCCTGGTCAAGGCCTACATCGGGGCCGACGGCGTGACCGGGGAATTGCTCGGCGAGGGGCGGCTCAGCCTCATCGACAACCAGATCAACACCAATACCGGAACCCTGCGGGCAAAGGCCGAATTCAATAACGCCGCGCAACGGCTGTGGCCGGGGCAACTGGTGACGCTGAAAATCCAGACCGCTATCGACAAGGGTGCCCTGGTAGTGCCGCCCACCGTGGTCCAACGCGGGCTGGAGCAACACTTCGTCTATCGGGTCAAAGGTGACAAGGTCGAAAGCGTGCCGGTGCAAATGGTTTATCAGGACAGCGACAGGCACATCATCAAAGGCGTGAACGCCGGCGACCAACTGGTGAGCGACGGCCAGTCACGCCTCAAGCCCGGCGCCAGTGTCCAGGTGCTCAGCGATCCGCCTGCCCTCGCCAAGACCGGGCAGGCGCAGCCATGA	MPIQKKTVLLVALLIALAALALWFIMKPVASKPSASTAVPVKVISVVEQDVPRFASGIGTVLSLHSVVIRPQIDGILTRLLVKEGQLVKKGDLLATIDDRSIRASLDQARAQLSESQAQLAVAQVNLKRYKLLSVDDGVSKQTYDQQQALVNQLKATAQGNQAAIDSAQVQLSYTQIRSPVSGRVGIRNVDEGNFLRTSDTEGLFTVTQIDPIAVEFSLPQQMLPTLQRLIAAPDQALVKAYIGADGVTGELLGEGRLSLIDNQINTNTGTLRAKAEFNNAAQRLWPGQLVTLKIQTAIDKGALVVPPTVVQRGLEQHFVYRVKGDKVESVPVQMVYQDSDRHIIKGVNAGDQLVSDGQSRLKPGASVQVLSDPPALAKTGQAQP	PGPT0029050_95	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029050-mexM-K21135	NA	NA
D1-35_01411	258			hypothetical protein	ATGACTTCCCCAACACCATCGCCTGTGGACGAGCACCCGAACGGTGAACCGTCCGGCCAGACCGACAGCGATGTTTCCAGCGCCGCCGACGACAAGGCGCCGATCCCGGCCTTCAAGTTTCCATTCAAACCAGGCGACCTGGCGGCGGCCAAAGGTGCCGGCCAACAACCGTGGTACAAGAACGGCGCGAAGAATGGCCATACCAAGACCCCCGGCGCCGCGCCTCCCGGCACGCGCCGTTCGATGGGCAAACGCTGA	MTSPTPSPVDEHPNGEPSGQTDSDVSSAADDKAPIPAFKFPFKPGDLAAAKGAGQQPWYKNGAKNGHTKTPGAAPPGTRRSMGKR				NA	NA	NA	NA	NA
D1-35_01412	969	dmlR_7		HTH-type transcriptional regulator DmlR	ATGGACACTTTGCAAAACATGCGTGCGTTCAGCTGTGTTGCCGAAGCCGGCAGCTTCACCGCCGCCGCCGCGCAACTCGACACCACCACGGCCAACGTCTCGCGTGCGGTTTCCAACCTGGAAGCGCATCTGCAAACCCGTCTGCTCAACCGCACCACTCGCCGCATCGCCCTGACCGAAGCCGGCAAACGCTACCTGCTGCGGTGCGAGCAGATCCTGGCGTATGTCGAAGAGGCGGAAGCCGAGGCCAGCGATGCCCATGCGCGCCCGGCCGGACAATTGAAAGTCCACACCATGACCGGCATCGGCCAGCACTTCGTCATCGATGCCATCGCCCGTTATCGCAAGACGCACCCGGACGTGACCTTCGACCTGACCCTGGCCAACCGGGTGCCGGACATCCTCGACGAGGGCTACGACGTCTCGATCGTACTCGCCAGCGAGTTGCCGGACTCCGGCTTCGTGTCCCAGCGCCTGGGAATCACCTACAGCATCGTCTGCGCGTCGCCCGCCTACGTGAAGGCCAGCGGCTGCCCGCAGAAACCCAGCGACTTGCTGAACCACGCCTGCCTGCGCCTGGTCAGCCCGGTCATTCCGCTGGAGAAATGGGTGTTCGACGGCCCGGAGGGCCAGGAGATGGTCACCATCAACAGCTCACCGTTCCTGGTGAATTCCGCCGATGCGATGAAGACCGCGATCACCAGCGGCATGGGCGTGGGCGTGCTGCCGGTGTACGCCGCCATCGAAGGCTTGCGCAACGGCACGCTGGTGCGGGTCATGCCCAACTACCGCTCGCAGGAACTGAACCTTTACGCCATCTACCCTTCGCGCCAGTACCTGGATGCGAAGATCAAGACGTGGGTCGAATACCTGCGAGGCTCGTTGCCGGAAATCCTCGCGGCGCACCAGGCCGAACTGACGGCCTATGAATTGAGTGGAAGCCTGACGGGAGCACGGGTCGCGAACTGA	MDTLQNMRAFSCVAEAGSFTAAAAQLDTTTANVSRAVSNLEAHLQTRLLNRTTRRIALTEAGKRYLLRCEQILAYVEEAEAEASDAHARPAGQLKVHTMTGIGQHFVIDAIARYRKTHPDVTFDLTLANRVPDILDEGYDVSIVLASELPDSGFVSQRLGITYSIVCASPAYVKASGCPQKPSDLLNHACLRLVSPVIPLEKWVFDGPEGQEMVTINSSPFLVNSADAMKTAITSGMGVGVLPVYAAIEGLRNGTLVRVMPNYRSQELNLYAIYPSRQYLDAKIKTWVEYLRGSLPEILAAHQAELTAYELSGSLTGARVAN				NA	NA	NA	NA	NA
D1-35_01413	1572	ttgI_1		Toluene efflux pump outer membrane protein TtgI	GTGCCGCGTTGCATCAGCAGAGAGCTGAAGACTCTCAGTGTTTGGGTTTTGACGCTGACCCTCAGCGGTTGTATCGGGACGGGAGGGATCGCGCCGCAAGGCGAGCTCTTGTTGGCCAACCAGTTGGCGACCGATGCGGCGATACGCGAGGCCGCCCGCGATGCTCACTGGCCGACCCGCCAGTGGTGGAAAGCCTATGGTGACCCGCAACTGGACGGCTGGATTGACCTGGCCGTGCGAGACAGCCCGAGCCTGGCCATGGCCGTCGCCCGGGTGCGCCAGGCCAAGGCCATGGCGGGTGTCGCCGAGGCCGCCGAGTCGCTGCAGATCAATGGCGAGTCGGCCCTCAAGCGCCACAACTGGCCCACCGATCAGTTTTATGGCCCCGGCGAACTGGCCAACACCACCACTTGGGACAACAACGCCGCCCTGGGCCTGAGCTATGCGTTGGACCTGTGGGGCCGCGAGCGCAGCGCCAGCGAGCGGGCCGTCGACCTGGCCCATGTCAGCGTCGCCGAGGCGCGGCAGGCGCAGCTGGAATTGCAGGACAATATCGTGCGCGCCTACATCCAGTTTTCGCTGCATTACGCCCAGCACGACATCATCGCCGCGACCCTCCATCAGCAAGAGCAGATCCTCGAACTGGCGCAAAAGCGTCTGGACGGTGGCATCGGCACCCATTTCGAAGTCAGCCAGGCCCAGGCGCCATTGCCGGAAACCCATCGTCAGCTCGATGCCCTCGACGAAGCCATTGCCCTGAGCCGCAATCAATTGGCGGCGCTGGCCGGCAAGGGCCCGGGCGACGGCGCGCGCCTGCAACGGCCGAGCCTGGCGCTGGGGGCTCCGTTGAAACTGCCATCGGCGTTGCCCGCCGAACTGCTCGGCCAGCGCCCGGATGTGGTTGCCGCGCGCTGGCAGGTGGCGGCCCAGGCCCGTGGAGTCGAGGTGGCGCGCGCGGGTTTTTACCCCAACGTCGACTTGGTCGGTAGCCTGGGTTACATGGCTACTGGCGGTGGGGCGCTGGAGTTCCTGACAGGCAAGAAGCTCACCTACAACGTCGGCCCGGCGATTTCGCTGCCGATTTTCGATGGCGGACGCCTGCGTGGCGAGTTGGGCGAGGCTGCGGCGGGTTATGACATCGCCGTGGCGCGCTACAACCAGACGCTGGTGAATGCCCTCAAGAGCATTTCCGACCGGTTGATTCGCCGTGAGTCGATGGACAAGCAACAGGCCTTCGCCGCCGGATCGGTGGCCGCCGCCCAGCGCACCTACGACATCGCGCTGGTTGCGTTCCAGCGTGGGCTCACCGACTACCTCAACGTGCTCAACGCCCAGAGCCTGCTGTTCAAGCAACAACAGGTGCAACAGCAGGTAGAGGCAGCGCGGCTGAGCGCCCATGCCGATTTGGTCACCGCATTGGGCGGCGGGCTGGAGGCCGGCAGCGACATGCCTGTGGCAGGCGCTCCCCTGTGGCGAGGGAGCTTGCTCCCGCTGGGCTGCGAAGCAGCCCCAGGTTCTTCAGATGGGTGCTGCGCACCCGAGCGGGAGCAAGCTCCCTCGCCACGATGCTGA	MPRCISRELKTLSVWVLTLTLSGCIGTGGIAPQGELLLANQLATDAAIREAARDAHWPTRQWWKAYGDPQLDGWIDLAVRDSPSLAMAVARVRQAKAMAGVAEAAESLQINGESALKRHNWPTDQFYGPGELANTTTWDNNAALGLSYALDLWGRERSASERAVDLAHVSVAEARQAQLELQDNIVRAYIQFSLHYAQHDIIAATLHQQEQILELAQKRLDGGIGTHFEVSQAQAPLPETHRQLDALDEAIALSRNQLAALAGKGPGDGARLQRPSLALGAPLKLPSALPAELLGQRPDVVAARWQVAAQARGVEVARAGFYPNVDLVGSLGYMATGGGALEFLTGKKLTYNVGPAISLPIFDGGRLRGELGEAAAGYDIAVARYNQTLVNALKSISDRLIRRESMDKQQAFAAGSVAAAQRTYDIALVAFQRGLTDYLNVLNAQSLLFKQQQVQQQVEAARLSAHADLVTALGGGLEAGSDMPVAGAPLWRGSLLPLGCEAAPGSSDGCCAPEREQAPSPRC				NA	NA	NA	NA	NA
D1-35_01414	2181	aaeB_1		p-hydroxybenzoic acid efflux pump subunit AaeB	GTGACGTATTTACTTCGGCTTCATCGCCTCGAATGGCGCCGTGGCTTTTTCGACTGGGCCCGCAGCGATGGGGTGACCTGGGTCTACATCTTCAAGGTATTGCTCGCCGTGTTCCTGACCCTGTGGCTGGCGATGCGCCTGGAGTTGCCGCAACCGCGTACGGCGATGATCACCGTGTTCATCGTCATGCAGCCGCAGAGTGGCCAGGTCTTCGCCAAGAGTTTTTATCGCCTGCTCGGTACCTTGGCCGGCTCGACGGTGATGGTGGCGCTGATCGCCCTGTTCGCCCAGAACACCGAGTTGTTTCTCGGCTGCCTGGCGATATGGGTCGGCATCTGTTCGGCCGGAGCAGCGCGTTATCGCAACTTTCGCGCCTACGGTTTTGTGTTGGCCGGGTACACCGCGGCGATGATCGGCCTGCCGGCCCTGGCTCATCCGGAAGGGGCTTTCATGGCGGCGGTATGGCGGGTGCTGGAGATTGCCCTGGGGATTCTCTGCGCCACCGCGGTGAGCGCTGCAATCCTGCCGCAAACCGCGAGCGCGGCCATGCGCAACGCGCTCTACCAGCGCTTCGGCGTGTTCGCCCTGTTCGTCACCGATGGCTTGCGCGGACGCAGCCAGCCCGAGGCATTCGAGGCACGCAACGTCGCTTTCATCGCCGAGGCGGTGGGCCTGGAAAGCCTGCGCAGCGTGACCGTGTTCGAAGACCCGCACATGCGCCGGCGCAACGGCCGACTGAGTCGCCTGAACAGCGAATTCATGGGCGTTACCACGCGCTTCAACGCCTTGCATCAGTTGCTTGAACGCTTGCGCAATGGCGCGGCCGATGCGGTGGTGGACGCGATCAAACCCGGCTTGCAAACCCTCGCCGAATTGCTCGACGGCTTCAGCGCGCGGGCCTTGACCGACGCCGATGCGACGCGTCTGGCGGCGGCGCTGGCGGCCTACAAGGCCGACTTGCCAGCCCGGGTGCGCCAACTGCGGGGACAATTTGAAGAGACGGATCCCAGTGAGGCGCAGCAGCTGGATTTCCATACTGCATACGAATTGCTCTATCGCTTCGTCGAAGACCTGCATGGCTACGCCCAGACCCACGCGTCACTGGCCGATCACCGCCACGAACGTGAGCGCTGGGACGAACCCTTCGTGTCGCAGACCAATGGCCTGGCCGCCGCGGCTGCCGGTTTTCGTGCCGCCTTCATCCTGGTGGTGCTGGGCAGCTATTGGGTCGCCACGGCCTGGCCGAGCGGTGCGACCATGACGATGATCGCCGCCGCCACCGTGGGCTTGTCGGCCGCCACGCCGAACCCCAAGCGCATGGCGTTCCAGATGGCCTGCGGCACGTTGTTCGGGGCGTTGATCGGGTTTGTCGAGATGTTCTTCATCTTCCCGTTGATCGACGGCTTCCCCTTGCTCTGCGTGATGTTGGCGCCCGTGATCATGCTGGGCGCGTTTCTCAGCTCACGTGCGCAATACGCCGGGGTCGGGCTGGGCCTGCTGATTTTTTTCAGCACCGGCTCGGTGCCGGACAACCTGACGGTCTACAACCCCTACGCCTTCATCAACGACTACCTCGCGATGATCCTCGGCATGCTGGTGTGTGCGGCTGCCGGGGCGATCATCCTGCCGCCCAACAGCCGCTGGATGTGGCGCCGGCTGGAACAGGACTTGCGCGAACAAGTGGTGTTCGCCATCAGTGGCAAGCTCAAGGGCCTCGCGTCGGGATTCGAGAGCCGTACCCGCGATCTGCTGCACCAGGCCTACGGGCTGGCGGCGGGACAGCCCCGGGTGCAACGGGACTTGCTGCGCTGGATGTTCGTGGTGCTGGAAGTCGGCCACGCGATCATCCAGTTGCGCAAGGAACAGGCGACGCTGCCGGTGCATCCGGCCTATGCCGAAAGCCAGCCATGGCGCCAGGCGATCCGGGTGATGGGGCGGGCGCTGGTGCGGCTGTTCCGCCAGCCTGGCCAGAAAAATCTGGAGCGCGCCCTGGTCGCGGTGGACCAGGCCATCAGCCGGGTCCAGTCCACCGACGAACCTTTCGCCCCGCATTTCGACACCTCCGCCCTGCGCCGGGTAAAGAGCTACCTGCACTTCATCCGCACCTCTCTGCTGGACCCGCAATCACCCTTGGCGGCTTATGCCGCGTCGCTGCCCCAGGAACCTGAACATGCTCCGTGA	MTYLLRLHRLEWRRGFFDWARSDGVTWVYIFKVLLAVFLTLWLAMRLELPQPRTAMITVFIVMQPQSGQVFAKSFYRLLGTLAGSTVMVALIALFAQNTELFLGCLAIWVGICSAGAARYRNFRAYGFVLAGYTAAMIGLPALAHPEGAFMAAVWRVLEIALGILCATAVSAAILPQTASAAMRNALYQRFGVFALFVTDGLRGRSQPEAFEARNVAFIAEAVGLESLRSVTVFEDPHMRRRNGRLSRLNSEFMGVTTRFNALHQLLERLRNGAADAVVDAIKPGLQTLAELLDGFSARALTDADATRLAAALAAYKADLPARVRQLRGQFEETDPSEAQQLDFHTAYELLYRFVEDLHGYAQTHASLADHRHERERWDEPFVSQTNGLAAAAAGFRAAFILVVLGSYWVATAWPSGATMTMIAAATVGLSAATPNPKRMAFQMACGTLFGALIGFVEMFFIFPLIDGFPLLCVMLAPVIMLGAFLSSRAQYAGVGLGLLIFFSTGSVPDNLTVYNPYAFINDYLAMILGMLVCAAAGAIILPPNSRWMWRRLEQDLREQVVFAISGKLKGLASGFESRTRDLLHQAYGLAAGQPRVQRDLLRWMFVVLEVGHAIIQLRKEQATLPVHPAYAESQPWRQAIRVMGRALVRLFRQPGQKNLERALVAVDQAISRVQSTDEPFAPHFDTSALRRVKSYLHFIRTSLLDPQSPLAAYAASLPQEPEHAP				NA	NA	NA	NA	NA
D1-35_01415	201			hypothetical protein	ATGCTCCGTGAGATCGCCTTCCACGGCGTATACATGCCGACCATGACCCTGATGTTTTTCATCGCCGCCGGCCTCGCCTGGGCGTTGGATCGTTTCCTCTCGGGGCTGGATCTGTACCGTTTTTTCTGGCATCCGGCGCTGCTGCGCCTGAGCCTGTTCACTTGCCTGTTCGGCGCGCTGGCGCTGACGGTCTACCGTTGA	MLREIAFHGVYMPTMTLMFFIAAGLAWALDRFLSGLDLYRFFWHPALLRLSLFTCLFGALALTVYR				NA	NA	NA	NA	NA
D1-35_01416	864	aaeA_1	COG1566	p-hydroxybenzoic acid efflux pump subunit AaeA	ATGAAGAAATTTTTCAGCCTGCTGGCGACGCTGTTGGTGCTGGCGCTTGCGCTGTGGATCGGCCGGACGTTGTGGGTGCATTACATGAACACCCCATGGACCCGCGATGGCCGGGTCCGGGCCGACATCATCAACGTCGCCGCCGACGTCAGCGGCGAAGTGATCGAGGTGCCGGTGCGTGATAACCAGTTGGTCAAGAAGGGCGACTTGCTGATGCGCATCGACCCCGAGCATTACCGCATTGCGCTCAAGCAGGCGCGTTCCCTGGTGGCGTCCCGCAAGGCCACTTGGGAGATGCGCAAGGTCAACGCTCATCGGCGCGCCGACCTGGACAGCCTGGTGATTTCCCGGGAAAACCGTGACGACGCCAGCAATATCGCCGACTCGGCCCTGGCTGATTACCAGCACGCCCAGGCGCAGCTGGAGGCGGCCGAGCTGAACCTGGCTCGCACCGAGGTCCGTGCGGCGGTGGACGGCTACGTCACCAACCTCAATGTGCACCGTGGTGACTATGCACGCATCGGCGAGGCGAAGATGGCCGTGGTGGACATGAATTCGTTCTGGGTCTATGGCTTCTTCGAGGAAACCAAGTTGCCCAAGGTGCGGGTCGGCGATGCCGCGCAGTTGCAGTTGATGAGTGGCGAACTGCTCAAGGGGCACGTGGAAAGTATCTCCCGGGGCATCTACGACCGCGACAACCCCGAGAGCCGGGAACTGATTGCCGACGTGAACCCGACCTTCAACTGGGTGCGCCTGGCCCAGCGGGTGCCGGTGCGTATACATCTGGATGAAGTACCGGATGGCGTGCTGCTGGCGGCGGGGATGACGTGCACGGTGGTGGTAGAACCCCACGACAAGCGCTGA	MKKFFSLLATLLVLALALWIGRTLWVHYMNTPWTRDGRVRADIINVAADVSGEVIEVPVRDNQLVKKGDLLMRIDPEHYRIALKQARSLVASRKATWEMRKVNAHRRADLDSLVISRENRDDASNIADSALADYQHAQAQLEAAELNLARTEVRAAVDGYVTNLNVHRGDYARIGEAKMAVVDMNSFWVYGFFEETKLPKVRVGDAAQLQLMSGELLKGHVESISRGIYDRDNPESRELIADVNPTFNWVRLAQRVPVRIHLDEVPDGVLLAAGMTCTVVVEPHDKR	PGPT0023615_86	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYBENZOIC_ACID_GALLATE_RESISTANCE,PGPT0023615-aaeA-K15548	NA	NA
D1-35_01417	825	ephD	COG1028	putative oxidoreductase EphD	ATGCCCGTCGCGCTGATCACCGGATGTTCCAGCGGCATCGGCCGCGCCCTCGCCGATGCCTTCAAGACCGCCGGTTACCAGGTCTGGGCCAGCGCGCGCAAGGATGACGACGTGGCGCAGTTGCGCGCCGCCGGGTTCACCGCCGTGCAGCTGGATGTCAATGACGCTCAGGCGCTGGAACAGCTCGGCGAGCGAATCAACCAGGAACATGGCGGCCTCGATGTGCTGGTCAACAACGCCGGTTATGGCGCCATGGGCCCGTTGCTGGATGGCGGCGTGCCGGCCATGCAGCGTCAGTTCGAAACCAACGTGTTCGCCATCGTCGGCGTGACCCGCGCGCTCTTTCCGGTGCTGCGCCGGGCGAAGGGGCTGGTGGTGAACATCGGCAGTGTTTCCGGTGTGCTGGTCACGCCATTTGCCGGGGCGTACTGCGCCTCCAAGGCTGCCGTGCATGCCTTGAGTGATGCGCTGCGCATGGAACTGGCGCCGTTCGGGATCCGCGTGATGGAGGTCCAGCCCGGTGCCATTGCCTCCAGCTTCGCGAAAAATGCCGGGCATGAAGCCGAGCAGTTGATCAGCGAACAATCGCCCTGGTGGCCCCTGCGTGACGGTATCCGCGCCCGCGCCAAGGCCTCCCAGGACAACCCCACCCCCACCAGCGAATTCGCCGCCGCGCTGCTCAAAGCCGTGCAACAACCCAAACCACCGCGCTTGTTGCGTCTGGGCAATGGCAGCCGGGCGTTGCCGTTGATGGCCGGTCTGTTGCCCAAGGGGTTGCTGGAGAAAGGCTTGATGAAGCGGTTCGGGTTGGGTCGGTCGCTTTAA	MPVALITGCSSGIGRALADAFKTAGYQVWASARKDDDVAQLRAAGFTAVQLDVNDAQALEQLGERINQEHGGLDVLVNNAGYGAMGPLLDGGVPAMQRQFETNVFAIVGVTRALFPVLRRAKGLVVNIGSVSGVLVTPFAGAYCASKAAVHALSDALRMELAPFGIRVMEVQPGAIASSFAKNAGHEAEQLISEQSPWWPLRDGIRARAKASQDNPTPTSEFAAALLKAVQQPKPPRLLRLGNGSRALPLMAGLLPKGLLEKGLMKRFGLGRSL				NA	NA	NA	NA	NA
D1-35_01418	465			hypothetical protein	ATGTTTATCGGCGTCTTGCTGGTCATCACCTGGCTCATCCTGCTGTTGCGCTACCCGGCCAAGGCATTGCCGGTGTCCCTGGCGGCGTTTGTCGGGTTGGGGCTGGTGGCGGCATGGGTACTCTGGGAAGAGAACCGGGAAACCCGGCAACTGGCACGTCTGGACCTGCGCGTCACGTTCGCTCCTGACCAGTGCCCCGCCGATCGCCCACTGCTGCTGAAAATGCGCAATGGCAACGACGTGCCTCTGACCGAACTGCGCTGGCGAATCGCAGCCTATGCCCCCGGCGATACCATCAACCTGGCGGACAACCAGTACAGCTCACCGCGCTACAGCGGCCCCGGCGAATTGCAACCCGGCGCCAACTGGCAGGACTGCCTGCCGATACCGCCACTGCGCCCCGGCTACCGCCCGCAAACCCTGGAGTTTCGTGCCGAGCGACTGCAAGGTAGTTTCTCCAACTGA	MFIGVLLVITWLILLLRYPAKALPVSLAAFVGLGLVAAWVLWEENRETRQLARLDLRVTFAPDQCPADRPLLLKMRNGNDVPLTELRWRIAAYAPGDTINLADNQYSSPRYSGPGELQPGANWQDCLPIPPLRPGYRPQTLEFRAERLQGSFSN				NA	NA	NA	NA	NA
D1-35_01419	1452	algA	COG0662	Alginate biosynthesis protein AlgA	ATGATTCCGGTGATCTTGTCAGGTGGTAGCGGCTCACGTCTTTGGCCGCTTTCGCGCAAGCAATTCCCTAAACAGTTCCTGGCCTTGACCGGCGAACATACCCTGTTCCAGCAGACCCTCGAGCGCCTGGTGTTCGAAGGCATGGACACGCCGATCGTGGTCTGCAACAAGGACCACCGCTTCATCGTCAACGAGCAGCTGTCGGCCCGCAACCTGGAAGCCCAGCGCATCCTGATGGAACCGTTCGGTCGCAACACGGCACCTGCCGTGGCCCTGACTGCGATGATGCTGGTCAATGAAGGCCGCGACGAACTGATGCTGGTGCTGCCGGCCGACCACGTCGTCGAGGACCAGAAGGCCCTGCAACGCGCCCTGGCGCTGGCCACCGTGGCCGCCGAGCGTGGCGAAATGGTGCTGTTCGGCGTACCGGCGACCAAGCCGGAAACCGGTTATGGCTACATCAAGTCGACCAACGATGCCCTGCTGCCTGAAGGCGTCAGCCGCGTTTCGCACTTCGTCGAAAAACCCGACGTCAAGCGCGCCACTGAGTTCGTCGATGCCGGCGGTTACTTCTGGAACAGCGGCATGTTCCTCTTCCGCGCCAGCCGCTTCCTCGAAGAGCTGAAAAAGCACGATCCGGACATCTACGACACCTGCCTGCTGACTCTGGAGCGCAGCGAGCAGACCGCCGACACCATCACTTTTGACGAAGCCACTTTCGCCTGCTGCCCGGACAACTCCATCGACTACGCCGTGATGGAAAAAACCCAACGCGCCTGCGTAGTGCCGCTGTCGGCCGGCTGGAGCGATGTCGGCTGCTGGTCGTCGCTGTGGGAAGTCAATCCGAAGGACGCCAACGGCAACGTCACCAAGGGCGACGTCGTGGTCCAGGACAGCCGCAACTGCATGATCCACGGCAACGGCAAGCTGGTATCGGTGATCGGCCTGGACAACATCGTCGTGGTCGAAACCAAGGACGCCATGATGATCGCCCACAAGGACAAGGTCCAAGGCGTGAAGCAGATGGTCAACACCCTCAATGCCCAGGGCCGCACCGAAACCCAGAACCACTGCGAAGTCTATCGTCCATGGGGTTCCTACGACTCGGTGGACATGGGCGGTCGTTTCCAGGTCAAGCACATCTCGGTCAAGCCGGGCGCGTGCCTGTCGCTGCAGATGCACCACCACCGCGCCGAACACTGGATCGTGGTCAGCGGCACCGCCGAAGTGACCTGCGACGAGAATGTGTTCCTGCTCTGCGAAAACCAGTCGACCTACATCCCGATCGCGTCGGTCCACCGCCTGCGCAACCCGGGCAAGATCCCGCTGGAAATCATCGAAGTGCAGTCCGGTAGCTACCTGGGCGAAGACGACATCGAGCGCTTCGAAGACATCTACGGTCGCTCCACCCCGATCGAACGCGGCGTGTCGGTGAAGACCATCGCGCAGTAA	MIPVILSGGSGSRLWPLSRKQFPKQFLALTGEHTLFQQTLERLVFEGMDTPIVVCNKDHRFIVNEQLSARNLEAQRILMEPFGRNTAPAVALTAMMLVNEGRDELMLVLPADHVVEDQKALQRALALATVAAERGEMVLFGVPATKPETGYGYIKSTNDALLPEGVSRVSHFVEKPDVKRATEFVDAGGYFWNSGMFLFRASRFLEELKKHDPDIYDTCLLTLERSEQTADTITFDEATFACCPDNSIDYAVMEKTQRACVVPLSAGWSDVGCWSSLWEVNPKDANGNVTKGDVVVQDSRNCMIHGNGKLVSVIGLDNIVVVETKDAMMIAHKDKVQGVKQMVNTLNAQGRTETQNHCEVYRPWGSYDSVDMGGRFQVKHISVKPGACLSLQMHHHRAEHWIVVSGTAEVTCDENVFLLCENQSTYIPIASVHRLRNPGKIPLEIIEVQSGSYLGEDDIERFEDIYGRSTPIERGVSVKTIAQ	PGPT0017875_559	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0017875-algA|xanB|rfbA|wbpW|pslB-K16011	NA	NA
D1-35_01420	666	algF		Alginate biosynthesis protein AlgF	ATGACTTTCAACACTACTCCTCGCCGTCTCGCTGCTCGCTCCTTCAAGGCCGTTGCCCTGGTCGCCAGCATGAGTGCCCTGTCCTTCTCAGCGTTTGCCGGTGACTCGGCCCTGTACGGCCCGGTCGCGCCAAAAGGTTCGAGCTTCGTGCGGATCTACAACGCCAGCAACGCCGAAGTCAGCGCCACCGTCGGCAGCACCAATATCAGCGACGTGGCCCCACTGGCCAGCAGCGACTTCAGCTTCATGCCTGGCGGCGACTACAGCGCGAAGGTGGGCAGCCAGACCGTACCGGTTAAACTGGCCTCCGATCACTATTACACCCTGGTCAATAACGCCAGCGGCCAGCCACAACTGATCGAAGAGCCACCGTTCAAGAACAAGCAGAAATCCCTGGTCCGCATGCAGAACCTCAGCGACAAGCCGCTGACCCTCAAGACCGCTGATGGCAAGACCGAAGTGGTTCCGAACGTAGCGGCCAAGGGCCGTGGCGAACGTGAAATCAACCCGGTGAAAGTGAGCCTGGCACTGTACGAAGGCGACAAGAAAGTCGGCGACGTCAAGCCTGTTGCCCTGGAGCGTGGCGAAGCGGCCGTGCTGTACGTAACCGGCTCCGGCAGCAGCCTGTCGCCAGTCTGGGTGAAACGCCCGGTGTCGACCCGCTGA	MTFNTTPRRLAARSFKAVALVASMSALSFSAFAGDSALYGPVAPKGSSFVRIYNASNAEVSATVGSTNISDVAPLASSDFSFMPGGDYSAKVGSQTVPVKLASDHYYTLVNNASGQPQLIEEPPFKNKQKSLVRMQNLSDKPLTLKTADGKTEVVPNVAAKGRGEREINPVKVSLALYEGDKKVGDVKPVALERGEAAVLYVTGSGSSLSPVWVKRPVSTR	PGPT0026110_54	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026110-algF-K19296	NA	NA
D1-35_01421	1176	algJ		putative alginate O-acetylase AlgJ	ATGACCCGCTCATTACGCATCTTCTACGTCGCACTGTTCATGCTGATACTGACAGCGCTGGGTATCTGGTCGATGCGCAGCTTCCTCGGCTTCAGCACCAACCCCGATGCGACCGTGCTCAACGGTCGCTGGGCCAAGGCCGTGGAAACGCATTACGACGAAGAATTCCCGATCAAACGCCTGGGCACCAACATCTGGGCGGCGCTGGACTACAAGCTGTTCAACGAGGGCCGCAAAGGCGTGGTCCTGGGCCGCGATCAGTGGCTGTTCAGCGATGAGGAATTCAACCCGATCGTCAACGAAGACCAGAACCTGCAAGGCAACTACGCGCTGATCGAAGGCGTGCGCCAGAAGCTCAAGGAGCAAGGCATTACCCTGGTCATGGCCATCGTGCCGGCCAAGGCGCGGCTGTATCCGGAGCACCTGGGTGAAGTGAAGCCTTCGAGCATTCACGCCAACCTGTACCAGGATTTCCACGCCCGTGTCGCGGCGGACAAGATCCTTGCCCCTGACTTGCTCGCCCCGCTGCAACAGGCCAAGCAAAGCGGTCAGCAAGTGTTCCTGCGCACCGACACCCACTGGACTCCGGAAGGCGCGCAAATCGCTGCGGAACATCTGGCCAAAGCGATTGCCGAACGCACACCACTGAACGGTGAGCCACAGCGTTTCGTCACAGAGCCTGCGGAAAAAATCATCCACAAGGGCGACCTGCGTCAGTTCCTGCCGCTGGACCCGCTGTTCGAAAACCTGATGCCAGCCCAGGAACCGCTGGTCAAGCGCAACACCCGCGAAGCCGACGACCAGCCGGCCAGCGAAGACGCACTGTTCGCCGATGCCCAGGTGCCCGTGGCTCTGATCGGTACCAGCTACAGCGCCAACCCGAACTGGAACTTCGTCGGTGCACTCAAGCAAGCCCTGCACAGCGACGTCGTCAACTACGCCGAAGACGGCCATGGCCCGATTCTGCCGATGCTCAGCTACCTCAAGAGCGACGCCTTCAAGAACAGCCCGCCACAAGTGCTGATCTGGGAGTTTCCTGAACGTTATCTGCCCGTGAACAACGAGATCGGCGACGCCGATCCGCAATGGGTCGCCGAGCTCAAACAAGCCGGCGCCCGCCAACAGAACGTAGCTGCAAACACACAATCCGAGACGCCCGACCGGGCGCAAAACTGA	MTRSLRIFYVALFMLILTALGIWSMRSFLGFSTNPDATVLNGRWAKAVETHYDEEFPIKRLGTNIWAALDYKLFNEGRKGVVLGRDQWLFSDEEFNPIVNEDQNLQGNYALIEGVRQKLKEQGITLVMAIVPAKARLYPEHLGEVKPSSIHANLYQDFHARVAADKILAPDLLAPLQQAKQSGQQVFLRTDTHWTPEGAQIAAEHLAKAIAERTPLNGEPQRFVTEPAEKIIHKGDLRQFLPLDPLFENLMPAQEPLVKRNTREADDQPASEDALFADAQVPVALIGTSYSANPNWNFVGALKQALHSDVVNYAEDGHGPILPMLSYLKSDAFKNSPPQVLIWEFPERYLPVNNEIGDADPQWVAELKQAGARQQNVAANTQSETPDRAQN	PGPT0026130_106	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026130-algJ-K19295	NA	NA
D1-35_01422	1566			hypothetical protein	ATGGTATTTTCATCCAATGTGTTCCTGTTCCTGTTCCTGCCGATCTTTCTCGGCTTGTACTACCTGAGCGGGCAACGCTATCGCAACCTGCTGCTGCTGATCGCCAGCTACGTGTTCTATGCCTGGTGGCGGGTGGACTTCCTCGCCCTGTTCGCCGGCGTCACCCTGTGGAACTACTGGATCGGCCTGAAAGTCGGTGCCGCCGGCGTGCGCACCAAGCCGGCCCAGCGTTGGCTGCTGCTCGGCGTGGGCGTGGACCTGGCCATCCTGGGCTATTTCAAGTACGCCAATTTCGGTGTCGACAGCCTCAACGCGATCATCACCGGCTTCGGGCTGAACCCGTTCATCCTGACCCACGTACTGTTGCCGATCGGTATCTCGTTCTACATCTTCGAGTCCATCAGCTACATCATCGACGTGTATCGCGGTGACACACCGGCCACTCGCAACCTGATCGACTTCGCGGCATTCGTGGCGATCTTCCCGCACCTGATCGCCGGCCCCGTGCTGCGTTTCCGTGACCTGGCCGACCAGTTCAACAACCGCACCCACACGCTGGACAAGTTCTCCGAAGGCTGCACGCGCTTCATGCAGGGCTTCATCAAGAAAGTGTTCATCGCCGATACCCTGGCGGTGGTGGCCGACCATTGCTTCGCCTTGGAGAACCCGACCACGGGCGATGCCTGGCTCGGCGCCCTGGCGTACACCGCGCAGCTGTACTTCGACTTCTCCGGCTACAGCGACATGGCCATCGGCCTGGGCCTGATGATGGGTTTCCGTTTCATGGAAAACTTCAAGCAGCCCTACATCAGCCAGTCGATCACCGAGTTCTGGCGGCGCTGGCACATCAGCCTGTCGACCTGGCTGCGCGACTACCTCTACATCACCCTGGGCGGTAACCGCAAAGGCACGCTGATGACCTATCGCAACCTGTTCCTGACCATGCTGCTCGGTGGTCTGTGGCACGGTGCGAACATCACCTACGTGATCTGGGGTGCCTGGCACGGCATGTGGCTGGCCATCGAAAAAGCGGTGGGCATCGACACCAACCCACGCAGCATCAACCCGATCCGCTGGGCATTGACCTTCCTGCTGGTGGTGATGGGCTGGGTGATCTTCCGTGCCGAAAACCTGCACGTCGCCGGTCGCATGTACAGCGCGATGTTCAGCTTTGGTGACTGGTCGCTGTCGGAACTGACCCGCGCCAACCTCACCGGCCTGCAGATCGCTACGTTGGCGGTGGCCTACATCACCCTCGCCTTCTTCGGCCTGCGCGACTTCTACACCAATCGTCCGCCGGTCAAGGCCAAGCCTGAAGAGAGCACCGAAGCCAATGGGCCTGCCACTGCGCAACCGGGACTGATCAAAGCCGTACCGGGTGACAACCCGTCGACCATCCATGAACCAGGCTACACCGTCGGCGTCGAAGCCCAGGTGCAACCGGCCTACTGGACCGTGGACTGGTCGCGCTACGTGATGCGCACCCTGGTATTGGTGTTGTTCATCGCCTCGATTCTCAAACTGTCGGCGCAAAGCTTCTCGCCGTTCCTTTACTTCCAGTTCTGA	MVFSSNVFLFLFLPIFLGLYYLSGQRYRNLLLLIASYVFYAWWRVDFLALFAGVTLWNYWIGLKVGAAGVRTKPAQRWLLLGVGVDLAILGYFKYANFGVDSLNAIITGFGLNPFILTHVLLPIGISFYIFESISYIIDVYRGDTPATRNLIDFAAFVAIFPHLIAGPVLRFRDLADQFNNRTHTLDKFSEGCTRFMQGFIKKVFIADTLAVVADHCFALENPTTGDAWLGALAYTAQLYFDFSGYSDMAIGLGLMMGFRFMENFKQPYISQSITEFWRRWHISLSTWLRDYLYITLGGNRKGTLMTYRNLFLTMLLGGLWHGANITYVIWGAWHGMWLAIEKAVGIDTNPRSINPIRWALTFLLVVMGWVIFRAENLHVAGRMYSAMFSFGDWSLSELTRANLTGLQIATLAVAYITLAFFGLRDFYTNRPPVKAKPEESTEANGPATAQPGLIKAVPGDNPSTIHEPGYTVGVEAQVQPAYWTVDWSRYVMRTLVLVLFIASILKLSAQSFSPFLYFQF	PGPT0026125_214	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026125-algI-K19294	NA	NA
D1-35_01423	1137	algL		Alginate lyase	ATGACCAGAACCATGCGCACCCGAACGTTGAAAACGCTGTTGGCGCCATCGCTGCTGACCCTGGCGATATTCGCCGGGGCCACGCAGGCCGCGGCGCCACTGCGCCCGCCGCAGGGCTACTTCGCACCGATTGAAAAGGTCAAGGAAGGCTCCGGCGGCCAGGGCTGCGAAGCCGTGCCGACGCCTTACACCGGCTCGCTGCAGTTTCGCAGCAAGTACGAGGGCTCCGACAAGGCTCGCGCAACGCTGAACGTGCAGTCGGAAAAAGCCTTCCGCGACAGCACTGCCGACATCACCAAGATCGAGCGCGGCATCAGCAAGCAGGTCATGCAGTTCATGCGCGACGGTCGCCCCGAGCAACTGGAATGCACCCTGAACTGGCTGACCGCCTGGGCCAAGGCCGATGCGTTGATGTCCAAGGATTTCAACCACACCGGCAAGTCCATGCGCAAATGGGCGCTGGGCAGCATGGCTTCGGCCTATGTGCGCCTGAAGTTCTCCGAGTCGCGCCCGCTGGCGAATCACCAGGAACAGGCGCAACTGATCGAGAGCTGGTTCAGCAAGATGGCCGACCAGGTCGTCAGCGACTGGGACAACCTGCCGCTGGACAAGACCAACAACCACTCGTACTGGGCCGCCTGGTCAGTGATGGCGACCGCCGTGGCGACCAACCGTCGTGACCTGTTCGACTGGGCCGTCAAGGAATACAAGGTCGGCGTCAACCAGGTAGACGCCGAAGGCTTCTTGCCCAACGAGCTCAAGCGCAAGCAACGCGCCCTGTCCTACCACAACTATGCCCTGCCGCCGCTGGCGATGATCGCCAGTTTCGCCCAGGTCAACGGCGTGGACCTGCGCCAGGAAAACAATGGCGCCCTCAAGCGACTGGGCGACCGGGTGCTGGCCGGGGTGGAAGACCCGGACATCTTCGAAGAGAAGAACGGCGACGAGCAGGACATGAAGGATCTGAAGATCGATTCGAAATTCGCCTGGCTCGAACCGTTCTGCAGCCTCTACACCTGCTCCGAGGACGTGCTGGAACGCAAGCATGAAATGCAACCGTTCAAGACCTTCCGCCTCGGCGGCGACCTGACCCGCGTGTATGACCCTTCGCGGGAGAAAGGCGAGAAAGGTAGTTAA	MTRTMRTRTLKTLLAPSLLTLAIFAGATQAAAPLRPPQGYFAPIEKVKEGSGGQGCEAVPTPYTGSLQFRSKYEGSDKARATLNVQSEKAFRDSTADITKIERGISKQVMQFMRDGRPEQLECTLNWLTAWAKADALMSKDFNHTGKSMRKWALGSMASAYVRLKFSESRPLANHQEQAQLIESWFSKMADQVVSDWDNLPLDKTNNHSYWAAWSVMATAVATNRRDLFDWAVKEYKVGVNQVDAEGFLPNELKRKQRALSYHNYALPPLAMIASFAQVNGVDLRQENNGALKRLGDRVLAGVEDPDIFEEKNGDEQDMKDLKIDSKFAWLEPFCSLYTCSEDVLERKHEMQPFKTFRLGGDLTRVYDPSREKGEKGS	PGPT0019415_305	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0019415-algL-K01729	NA	NA
D1-35_01424	1452	algX		Alginate biosynthesis protein AlgX	ATGAACCCACAGATGATCAAACTTCTGGGCCTGTCCGCCCTGACTGCCGGCATTCTCGCCGCCGCAAGCGGCGCGCGCGCCGATGAAGTCAAAGCACCGACCTTTACCGCCGAACCCTGCTGCAACCTGTGCCCGGCTGCCCATGACGCGAAGAACTACACCACGCGCTACCAGCAGAACTTCACCACGCTGGTGCAGGCCCAGGGCGACTGGCTGTTCCGTACCCAGGAAGACCTGCGTACCGAGTTCAATACCACACCGGCCGGTTACAAGCGCATGCAGCAACTGCACGATGCGTTCAAGAAAAAAGGCGTCGAGCTGGTAATCGTCTACCAGCCGACCCGTGGCTTGGTGAACCGCAACAAGCTCAACCCGCAGGAGAAGGCTTCCTTCGACTACGAAAAGGCCCTGGCCAATTACAAAACCATGCTCGGCCGTTTCGCGCAGATGGGTTACGTGGTGCCGGACCTGTCGCCACTGACCAACGAAAACCTGCCCGAAACCCTGCCGGCCCACGACTTCTACTTCCGTGGCGACCAGCACTGGACCCCGTACGGCGCCCAGCGCACGGCGAAGATCGTGGCCGAGAAGGTCAAGCAGATCCCGGCCTTCGCTGACATTCCCAAGCAGGAATTCGAGACCAAGAAGTCTGGCCGCATGGGCAAGACCGGCACCCTGCACAACATGGCCGGGCAACTCTGCGGCACCAGCTACGCGATTCAGTACATGGACCAGTTCACCACCGAGCCCAAGGGCGAGGCTGGCGACGGCGACCTGTTCGGTGATTCCGGCAATCCGCAGATCACCCTCGTGGGCACCAGCCACAGCGGCAAGAACTACAACTTCGCCGGTTTCCTGCAAGAAGCCATCGGCGCCGACATCCTCAACGTGGCCTTCCCGGGCGGCGGTTTCGAGGGCGCGATGATCCAGTACCTGGGCAGCGAAGAGTTCCAGAAGAATCCGCCGAAGATTCTCATCTGGGAATTCTCGCCGCTGTATCGCCTGGACCAGGAAACCATCTATCGCCAGATGATGGCGCTGCTCGACAACAACGGTTGCGAAGGCAAGCCGGCGCTGATGAGCAGCAAGGCCAAGCTAAAGCCGGGCAAGAACGAATTGATGGTCAACAGCAAGAATATGGACCTGCGTAACGGCAGTCACCAGATCGACATCCGCTTCACCGACACCTCGGTGAAAACCTTGCAAGCCACCCTCTGGTACATGAATGGGCGCCACGAGGACATCAAGATCGAAAAACCGAACACCTCCGAAACCGACGGGCGTTTCGCCTTCCAATTGCGCACCGACGAAGACTGGGCCTCGCAGAACCTCCTGGCTCTAGAAGTCCAGGGTCCTGAAGCCGGTAAAGAGCCACTGCAAGTGGAAGCGAAAGTCTGCAAACGCAATGCATCTCCGCAAGCCGAGCAACAAACGGCTCAAATCGGACAATGA	MNPQMIKLLGLSALTAGILAAASGARADEVKAPTFTAEPCCNLCPAAHDAKNYTTRYQQNFTTLVQAQGDWLFRTQEDLRTEFNTTPAGYKRMQQLHDAFKKKGVELVIVYQPTRGLVNRNKLNPQEKASFDYEKALANYKTMLGRFAQMGYVVPDLSPLTNENLPETLPAHDFYFRGDQHWTPYGAQRTAKIVAEKVKQIPAFADIPKQEFETKKSGRMGKTGTLHNMAGQLCGTSYAIQYMDQFTTEPKGEAGDGDLFGDSGNPQITLVGTSHSGKNYNFAGFLQEAIGADILNVAFPGGGFEGAMIQYLGSEEFQKNPPKILIWEFSPLYRLDQETIYRQMMALLDNNGCEGKPALMSSKAKLKPGKNELMVNSKNMDLRNGSHQIDIRFTDTSVKTLQATLWYMNGRHEDIKIEKPNTSETDGRFAFQLRTDEDWASQNLLALEVQGPEAGKEPLQVEAKVCKRNASPQAEQQTAQIGQ	PGPT0026140_26	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026140-algX-K19293	NA	NA
D1-35_01425	1593	algG		Mannuronan C5-epimerase	ATGAACCACTACCTCAGGAACAGCCAGGCGATGAAAGGTTCGATCAGCCTGTTGGCCGCAGCCATGCTGCTGGCCGGCTCGTCGGCGTTCGCCAACGTTGAACCGGTGGTCAAGCCGGGCAACGTGGTCAAGGAACTGCAGCAAGCCAAGACCTACACCGTCAGCAGCGCGCCAACCGCACCGCTGGAACTGGCCGCACCGACCCTGCCCGACCTCTCCGGCTACACCGCCGAAGCGGTCGCGGCGAAGATCGTGCGCAGCAAGCCCGGCAAGGTCAGCGTGCGGCGGATGATGCAGGAAAACGCCTTGAAGGACTTCATCGGCGGCGACAACAAGATGGCCGAGTGGGTGGTGCGCCAGCACGGCATCCCGCAGGCCATCTTCATCGACGACGGCTACATGAACCTCAAGGATCTGGTCAAGAAGGTGCCCAAGCAGTACCTCAAGGAAACTTCGCCAGGCGTCTTCCTGGCGCGGATTCCGATTGTCGTGGGCGAAAAAGGCATCCTGGAGATCGACAAGCAGACCCAGGAACTGCGCCTGTCCCAAGAGGGAGGCTCGTTCCTGGTCAACGATGGCCGGATGTTCATCCGCGACACCAAGGTCACCGGCTGGCGTGAAAAGGACAACGGCCCCGCGACGTTTCGTTCGGCCAACGAGTTCCGGCCGTTCCTGCTGTCCTGGGGCGGCACCGAGACCTACATCGTCAACACCAAGATGGCCAGCTTCGGCTACGCCAACAGTAAGTCGTACGGCGTCAGTATTTCCCAGTACACGCCGAACATGGCCAAGGTCCTCAAGCGTCCGGAACCGACCGGCTGGATCATCGGTTCCGAGTTCTCGGACATGTGGTACGGCTTCTACTGCTACGAAACCAACGATTTCGTGGTCAAGAGCAACACCTACAAAGACAACATCGTCTACGGCATCGACCCCCACGACCGTTCCCATCGGCTGATCATTGCCGACAACACCGTCTACGGGACCAAGAAAAAGCACGGAATCATTATTTCCCGTGAGGTCAACGACAGCTTCATTTTCAACAACCGCAGCTACGACAACAAACTCTCGGGCCTGGTGATCGACCGTAACAGCGTGAACAACGTGATCGCCTACAACGAGATCTACAAGAACCACACCGACGGCATCACGCTTTATGAGAGTGGTGACAACCTGTTGTGGGGCAACAAGGTGATCAGCAACCAGCGCCACGGCATTCGGATTCGTAACAGCGTGAACATCCGCTTGTACGAAAACCTGTCCATGGCCAACGGCCTGACCGGTCTTTATGGCCACATCAAGGACCTTTCCGACACTGACCGGGACATCAAGCTCGACCCGTTCGACGCCCAAGTCTCCTTGATCGTGGTCGGCGGCGAACTGGCCGGCAATGGCAGCGGCCCGTTGTCCATCGACTCGCCATTGAGTGTCGAGCTGTACCGCGTGTCCATGCTCGCGCCGACCAAATCCAGCGGCATCAGCTTCACGGGGATCCTTGGCGAACGCCAGGACGAAATCCTCGACCTGCTGGTGCGCCAGCAAAAAGCCGTGCTGATCGACCCTGTCGAACGCCAGACCGAAATGCGGGACTGA	MNHYLRNSQAMKGSISLLAAAMLLAGSSAFANVEPVVKPGNVVKELQQAKTYTVSSAPTAPLELAAPTLPDLSGYTAEAVAAKIVRSKPGKVSVRRMMQENALKDFIGGDNKMAEWVVRQHGIPQAIFIDDGYMNLKDLVKKVPKQYLKETSPGVFLARIPIVVGEKGILEIDKQTQELRLSQEGGSFLVNDGRMFIRDTKVTGWREKDNGPATFRSANEFRPFLLSWGGTETYIVNTKMASFGYANSKSYGVSISQYTPNMAKVLKRPEPTGWIIGSEFSDMWYGFYCYETNDFVVKSNTYKDNIVYGIDPHDRSHRLIIADNTVYGTKKKHGIIISREVNDSFIFNNRSYDNKLSGLVIDRNSVNNVIAYNEIYKNHTDGITLYESGDNLLWGNKVISNQRHGIRIRNSVNIRLYENLSMANGLTGLYGHIKDLSDTDRDIKLDPFDAQVSLIVVGGELAGNGSGPLSIDSPLSVELYRVSMLAPTKSSGISFTGILGERQDEILDLLVRQQKAVLIDPVERQTEMRD	PGPT0026115_47	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026115-algG-K01795	NA	NA
D1-35_01426	1494	algE		Alginate production protein AlgE	ATGAAGCTTTTGAAGCTCAATCCTTTTGTACAGGCTGGTATTGGCCTGTCGTTTGCCCTGCTGTGGTCCTGCCCGACCCTGGCGGCCCTGACCGATAGCAAGAATTTCGGCCTGGAAGTGAAGATCACCGGCCAGTCCGAAGATGACCGCGACCTCGGCACCCAGCGTGGTGGCGACGTCAACGGCATCGGCCTCGACCTGCGCCCTTGGGTCTACGGCGAAAGCGGTGCGTGGAGTGCCTATGCCATGGCCCAGGCCGTGACGTCCACCGACATCATCGAGACCGACACCCTGCAACAGTCGGACGACGCGACCCAGCAAACCGACAGCGGCGACCGCGAGGCCAAGAAAAGCTACCTGGCCATGCGCGAATTCTGGATTGGCTACCGGGGCCTGACCCCTTATCCGGGCGAGCAGTTGAAGTTCGGCCGCCAACGCCTGCGCAATGACGACGGGCAATGGCGCGACACCAACATCGAAGCCCTGAACTGGACCTTCGACACCACGCTGCTGCGCGCCAACCTGGGCGTCGCCGAGCGGTTCAGCGAATACCGCACCGACCTCAAGGAGCTGTCGCCCCAGGACAAGGACCGTATGCATGTCTACGGTGATGTCGGCTATCAGTGGATGCCAGGCCAATGGGCCGGGATCCGTGCCCACCACAGCCATGACAGCGGCAGCCTCGACTATCCGGTCCCGGGCCAGGCCACCGACACCCTGGACAAGACCCAGAACGGTGATCTGACCTGGCTCGGCCTGGAAGCCAACAGCGACGCCTACAACTGGCGCAACACCAATACCGTCAACTATTGGGCAAGCGTCACCGGCATGACCGGCGACCGCGACACCGTCAACCCGCTGAACGCCGACGGCACCCGCCCCGCGCAGCTCAAGCGCAGCGACGACGTCGACGGCTGGGCCACCGACCTGGGTATCCGCCTGCGCCTCGACCCGCAATGGCAAGTCGGTGCGGCCTATGCCCGCGCCAGCGAGGACTACGAACAGAACGGCCTGCAAAGCAACCGCTCGAACTTCACCGGCACCCGCTCGCGCGTGCATCGTTTCGGCGAAGCGTTCCGTGGCGAGATGGCCAACACCCAGAGCGCCAGCCTGTTCGGTTCCTGGCAGTTGCGTGACGAATACGACGCCAGCCTGGTGTACCACAAGTTCTGGCGCGTGGACGGCAACAAGGCAGTGGGCAGCAACGGCATCAACGCCGTGGAAAACAACACCGATGACGTGACCGGCGCGATCCTGTCCACCTCGTCCCTGCCGCTGCGCGACGGCGACAAGGACCTGGGCCAGGAAGTCGACCTGGTCGTCACCAAGTACTTCAAGCAAGGCCTGCTGCCGGCTGCGCTGAGTCAATCGATTGATGAGCCGTCGGCGCTGGTGCGCTTTCGTGGCGGCGTGTTCAAGCCAGGCGACGCCTACGGCAAAGAGGTCGATTCGTACATGCATCGCGCCTTTGTCGACGTGATCTGGCGCTTCTGA	MKLLKLNPFVQAGIGLSFALLWSCPTLAALTDSKNFGLEVKITGQSEDDRDLGTQRGGDVNGIGLDLRPWVYGESGAWSAYAMAQAVTSTDIIETDTLQQSDDATQQTDSGDREAKKSYLAMREFWIGYRGLTPYPGEQLKFGRQRLRNDDGQWRDTNIEALNWTFDTTLLRANLGVAERFSEYRTDLKELSPQDKDRMHVYGDVGYQWMPGQWAGIRAHHSHDSGSLDYPVPGQATDTLDKTQNGDLTWLGLEANSDAYNWRNTNTVNYWASVTGMTGDRDTVNPLNADGTRPAQLKRSDDVDGWATDLGIRLRLDPQWQVGAAYARASEDYEQNGLQSNRSNFTGTRSRVHRFGEAFRGEMANTQSASLFGSWQLRDEYDASLVYHKFWRVDGNKAVGSNGINAVENNTDDVTGAILSTSSLPLRDGDKDLGQEVDLVVTKYFKQGLLPAALSQSIDEPSALVRFRGGVFKPGDAYGKEVDSYMHRAFVDVIWRF	PGPT0026105_46	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026105-algE-K16081	NA	NA
D1-35_01427	1506	algK	COG0790	Alginate biosynthesis protein AlgK	GTGATCACTCCACAAAACAACAATGCACCGCATTCCCTGTGGGAGCGAGCTTGCTCGCGATGGGATCGACGCGGTCTGTCTGGTACACCGAGCGGCCTGCATCGCGAGCAAGCTCGCTCCCACACAGGATATGCGTTGTGTGCTCTGGCGCTGGCAGTCAGTCTTAGCGGTTGCGCCGGCCTGCCCGACCAGCGCCTGGCCAACGAAGCCCTCAAGCGCGGCGACACGGCGTTGGCGCAGCAGAACTATCAGCAACTGGCAGACCTGGGCTACAGCGAGGCCCAGGTGGGCCTGGCCGATATCCAGGTAGACAGCCGCGACCCCGAGCAGATGAGAAAGGCCGAGGCGACCTACCGCGCCGCCGCCGACATCTCGCCGCGCGCCCAGGCTCGCCTGGGTCGCCTGCTGGTGGCCAAGCCCGGCTCCACCGAAGCTGAAAAGCACGAAGCCGAAGGCCTGTTGAAAAAAGCCTTTGCCAACGGTGAGGGCAACACGCTGATCCCGCTGGCGATGCTGTACCTGCAATATCCCCACAGCTTCCCGAACGTCAACGCGCAGCAACAGATCAGCCAATGGCGCAGCGCCGGTTATCCGGAAACGGGCCTGGCGCAGATCCTGCTCTATCGCACCCAGGGTACGTACGACCAGCATCTGGACGAAGTGGAAAGAGTCTGCAAGGCCGCCTTGGCGACCACCGACATCTGCTACGTCGAACTGGCCACGGTCTATCAGAAACGCGGCCAGCCGGAACAGCAGGCCGAGCTGATCAAGCAGATGCAGGCCGGTCACGCTCGTGGTGTGGTCTCGGCCCAGCGCGTGGACAGTGTCGCGCGTGTCCTGGCCGATTCCAGCCTGGGCAAGACCGACGAGAAAACCGCTCAGTCGCTGCTCGAAGGCATCGCGCCCGGCAACCCTGCTTCCTGGGTCAGCCTGGCGCAGCTGCTCTACGATTTCCCTGAGTTGGGCGACGTCGACAAGATGATGCAGTACCTGGAAAACGGCCGCGCCGCCGACCAGCCGCGCGCCGAGCTGTTGCTGGGCAAGCTGTACTACGAAGGCAAGTGGGTACCCGCCGACGCCAAGGTCGCCGAGGCGCATTTCCAGAAAGCCGTGGGCCGTGAAGTGGCCGCCGATTACTACCTCGGCCAGATCTATCGTCGCGGCTACCTGGGCCAGGTGTACTCGCAAAAGGCCCTGGATCACCTGCTCAAGGCCGCCCGCAACGGCCAGAACAGCGCCGACTACGCCATTGCCCAGCTGTTTTCCCAAGGCAAGGGCACCAAGCCCAACCCGGTCAACGCTTATGTGTTCAGCCAGTTGGCCAAGGCGCAAAACACCCCGCAAGCCATCGAGCTTGCCCAGACCCTCGAAGAACAATTACCGCCGGAACAACTTGCACAAGCGCAACGCCTGCTACAACAAGAGCAGGCCATTCGCGGCGCCATGAGCCCCGATACGCTGGAACTGCAAGCCCTAAAAGAAGATGACGGCGAGGAACCTCTATGA	MITPQNNNAPHSLWERACSRWDRRGLSGTPSGLHREQARSHTGYALCALALAVSLSGCAGLPDQRLANEALKRGDTALAQQNYQQLADLGYSEAQVGLADIQVDSRDPEQMRKAEATYRAAADISPRAQARLGRLLVAKPGSTEAEKHEAEGLLKKAFANGEGNTLIPLAMLYLQYPHSFPNVNAQQQISQWRSAGYPETGLAQILLYRTQGTYDQHLDEVERVCKAALATTDICYVELATVYQKRGQPEQQAELIKQMQAGHARGVVSAQRVDSVARVLADSSLGKTDEKTAQSLLEGIAPGNPASWVSLAQLLYDFPELGDVDKMMQYLENGRAADQPRAELLLGKLYYEGKWVPADAKVAEAHFQKAVGREVAADYYLGQIYRRGYLGQVYSQKALDHLLKAARNGQNSADYAIAQLFSQGKGTKPNPVNAYVFSQLAKAQNTPQAIELAQTLEEQLPPEQLAQAQRLLQQEQAIRGAMSPDTLELQALKEDDGEEPL	PGPT0026135_14	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026135-algK-K19292	NA	NA
D1-35_01428	1170			Mannuronan synthase	ATGAACACCGCCGTGAATGTCAACGTAGTGCATGAATCCGAAGCCCAACGCCAACACGCCCGGGTCAAAATCCCGGCCAAGTTGCGCTTCTTCGGCCCCGACCGTACGCCGATGGAAGTCAAGGTCCTCGACCTGTCCGCCGGTGGGTTGTGCTTCAACGCCGGCCAACTGCCGCTCAAGGTTGGCGAGACCTACAAGGCGCGCCTGCAGTTCGTGATCGACAACCTCGGCCTGGCCATGGACGTCGAATTGCAGATCCGTTCCTACGACCGCCAGACCGGCCGCGCCGGTTGCCAGTTCCAGAACCTGGAGCCGCGGGACATCTCGACACTGCGCCACATCATCACCTCGCACCTGGCCGGCGACATCGTCGGCGTCGGTGATGTGCTGGCGACCCTGCAACGCGACAACTTCACCAAGGCTCGCAAGCAGAAAGATGAAAACGGTGGCATGAGCGCCTTCGGTCGCCTGCGCGCCGTGACCTTCAGCCTGGGCATCTTCATTGTCGGCCTGGCGGCATTCGGCTTCATCTTCAAGTCGGTGTACGGCATGTACTTCGTCAGCCACGCCCAGGCCGGCATCGTCAACGTACCGGGCATGGCCATCACCATGCCGCGCGACGGCACCGTGCAAAGCCTGGTCAAGGCCGACGGCCTGGCCGCCAAAGGCGCTCCGCTGGCGACCTTCAGCACCAGCATGCTCGACGTGCTCAAGGGTCACCTGGACGACAACCAGCTGCAGCCAGCCAAGGTCGAGGAACTGTTCGGCAAGCAAATGACCGGCACCCTGACCTCGCCATGCGATTGCATCGTGGCCCAGCAACTGGTTTCCAACGGCCAGTACGCCAGCAAGGGTGACGTGATCTTCCAACTGGTTCCTCGCGGCGCCGAAGCCAACGTCGAGGCACGTTTCTCCTATCGCCAGTTCGGCGACGTGCGTCCAGGCACCCCGGTCAGCTTCCAGGTAGCCGGCGAAGACGCCACCCGCACCGGCAAGATCGTCAGCAGCACCAGCCTGAAAAGCGCCGACCTGTCTTCCGATATCCGTGTGCTGATCCAGCCTGACGAAGCCCTGGACAGCGCGCTGGCCGGCCGTCCGGTGGAAGTCGTCAGCGACCGTGGCCCGAACTTGAACTGGCTGATCGACAAAGCCATGGCCGTCGGTCTTTAA	MNTAVNVNVVHESEAQRQHARVKIPAKLRFFGPDRTPMEVKVLDLSAGGLCFNAGQLPLKVGETYKARLQFVIDNLGLAMDVELQIRSYDRQTGRAGCQFQNLEPRDISTLRHIITSHLAGDIVGVGDVLATLQRDNFTKARKQKDENGGMSAFGRLRAVTFSLGIFIVGLAAFGFIFKSVYGMYFVSHAQAGIVNVPGMAITMPRDGTVQSLVKADGLAAKGAPLATFSTSMLDVLKGHLDDNQLQPAKVEELFGKQMTGTLTSPCDCIVAQQLVSNGQYASKGDVIFQLVPRGAEANVEARFSYRQFGDVRPGTPVSFQVAGEDATRTGKIVSSTSLKSADLSSDIRVLIQPDEALDSALAGRPVEVVSDRGPNLNWLIDKAMAVGL	PGPT0026095_55	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026095-alg44-K19291	NA	NA
D1-35_01429	1482	alg8	COG1215	Mannuronan synthase	ATGCACAGGCTAAAGCACGGCCTGCTTCAGGCCGCCGGTTGGCTGTTTTACTTGAGTTTATTGATGGGCATCGCCACGGCGCTGCCCACGTCCACGTTCGACTCCGAATCGAAGGATTTCATCTTTCTGATCGGCGCCGTGGGCATCTGGCGTTATTCCATGGGCGCGACGCATTTCGTGCGCGGCATGATTTTCCTGTACATCGTCTACCCACACCTGCGCCGCAAAGTGCGCAAGCTGGGCAAGGCGGCGGATCCGTCCCACGTTTACCTGATGGTCACCAGCTTCCGCATCGATGCGCTGACCACCGCCCAGGTCTACAGCTCGGTCATCCGCGAAGCCATCGACTGCGGGCTGCCGACCACCGTGGTCTGCTCCATCGTGGAAATGTCCGACGAACTACTGGTCAAGAGCCTCTGGGCCCGCATGAACCCGCCAGAGCACGTCAAGCTGGACTTCGTGCGCATTCCCGGTACCGGCAAGCGTGACGGCCTGGCCTTCGGTTTCCGTGCCATCTCCCGTCACCTGCCGGACGACCGCGCCGTCGTGGCCGTGATCGACGGCGATACCGTCCTGGCCGAAGGCGTCGTGCGCAAGACCGTGCCGTGGTTCCAGCTGTTCGGCAACGTCGGCGGCCTGACCACCAACGAGTTCTGCGAAGTGCGCGGCGGCTACATCATGAGCGAGTGGCACAAGCTGCGTTTCGCCCAGCGTCACATCAACATGTGCTCCATGGCCCTGTCCAAGCGCGTATTGACCATGACCGGGCGCATGTCGGTGTTCCGCGCCACCGTCGTGACCAACCCGGACTTCATCGCCGACGTCGAAAGCGACTCGCTGCAACACTGGCGCCTGGGCCGCTTCAAGTTCCTCACCGGCGATGACAAGTCGAGCTGGTTCAGCCTGATGCGCCTGGGCTACGACACGTTCTACGTGCCGGACGCCGCCATCAACACGGTTGAGCACCCGCCGGAAAAAAGCTTCATCAAGGCGAGCCGCAAACTGATGTTCCGCTGGTACGGGAACAACCTGCGGCAGAACTCCCGGGCATTGGGCCTGGGCATGAAACGTCTGGGCCTGTTCACCTCGGTCGTGCTGTTCGATCAGCGCGTGTCGATGTGGACCTCGCTGCTGGGCCTGACCGTAGCGATCATCGCCAGTGTCAAGTACGGCACCGCGTTCATCCTGGTGTACCTGCTGTGGATCGGTATCACGCGGTTGCTCCTGACGCTGCTGCTGTCGTGCTCCGGACACCGGATCGGTCCGGCCTACCCGGCGATTCTCTATTACAACCAGATCGTCGGCGCGCTGGTGAAGATCTACGTGTTCTTCCGCCTCGATCAACAATCCTGGACTCGCCAGCCCACCCACCTGACCCGTGATCTCGCCAGCTTTCAACGTTGGTTCAACACTTGGTCGTCTCGGACCATGACCTTCTCCGCCGGCAGCATCTTTGTCGCCGTGCTGCTGACGATGGTCTGA	MHRLKHGLLQAAGWLFYLSLLMGIATALPTSTFDSESKDFIFLIGAVGIWRYSMGATHFVRGMIFLYIVYPHLRRKVRKLGKAADPSHVYLMVTSFRIDALTTAQVYSSVIREAIDCGLPTTVVCSIVEMSDELLVKSLWARMNPPEHVKLDFVRIPGTGKRDGLAFGFRAISRHLPDDRAVVAVIDGDTVLAEGVVRKTVPWFQLFGNVGGLTTNEFCEVRGGYIMSEWHKLRFAQRHINMCSMALSKRVLTMTGRMSVFRATVVTNPDFIADVESDSLQHWRLGRFKFLTGDDKSSWFSLMRLGYDTFYVPDAAINTVEHPPEKSFIKASRKLMFRWYGNNLRQNSRALGLGMKRLGLFTSVVLFDQRVSMWTSLLGLTVAIIASVKYGTAFILVYLLWIGITRLLLTLLLSCSGHRIGPAYPAILYYNQIVGALVKIYVFFRLDQQSWTRQPTHLTRDLASFQRWFNTWSSRTMTFSAGSIFVAVLLTMV	PGPT0026100_118	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026100-alg8-K19290	NA	NA
D1-35_01430	1317	algD	COG1004	GDP-mannose 6-dehydrogenase	ATGCGCATTAGCATATTTGGTTTGGGTTACGTCGGTGCAGTATGTGCCGGTTGCCTGTCTGCACGGGGCCATGATGTAGTTGGCGTAGATGTCGCCAAAGACAAGATCGACATGATCAACGCCGGTAAATCACCGATCGTTGAACCGGGCCTGGGCGAGCTATTGGCGCAAGGCATTCAAACAGGTCGCCTGCGCGGTACTACCAACTTCGCCGAAGCTATTCGTGATACTGACCTGTCGATGATTTGCGTCGGTACACCGAGCAAAAAGAACGGCGACCTGGAACTGAACTACATCGAAGCCGTGTGCCGCGAGATCGGTTTTGTCCTGCGTGACAAGACCACCCGTCACACCATCGTGGTTCGCAGTACCGTACTGCCGGGCACCGTGGCCAATGTGGTCATCCCGATCCTCGAAGACTGCTCCGGCAAGAAAGCCGGCGTCGATTTCGGCGTCGCGGTCAACCCTGAGTTCCTGCGTGAAAGCACCGCGATCAAGGACTACGACCAGCCGCCAATGACCGTCATCGGCGAGTTCGACAAAGCGTCGGGCGACGTCCTGCAATCGCTGTACGAAGAACTCGACGCACCGGTCATCCGCAAGGACATCGCTGTCGCCGAGATGATCAAGTACACCTGCAACGTCTGGCACGCCACCAAGGTGACCTTCGCCAACGAGATCGGCAACATCGCCAAGGCCGTCGGCGTCGATGGTCGTGAAGTGATGGACGTAGTCTGCCAGGACAAGGTCCTGAACCTGTCCCAGTACTACATGCGTCCAGGCTTCGCTTTCGGCGGCTCGTGCCTGCCAAAAGACGTGCGCGCCCTGACCTACCGTGCAGGCTCGCTGGACGTGGAAGCGCCGCTGCTCAACTCGCTGATGCGCAGCAACGAATCCCAGGTGCAGAACGCCTTCGACATCGTCTCCAGCCACGACAAGCGCAAAGTCGCCCTGCTGGGCCTGAGCTTCAAGGCCGGCACCGACGACCTGCGTGAAAGCCCACTGGTGGAACTGGCGGAAATGCTGATCGGCAAGGGTTTCGACCTGAAGATCTACGACAGCAACGTCGAATACGCACGCGTCCACGGTGCGAACAAGGATTACATCGAGTCGAAGATTCCTCACGTCTCGTCCTTGCTCAATTCCGACTTCGACGCGGTGATCGACAACTCCGACATCATCATCCTCGGTAACCGCGACGAGAAGTTCCGCGCGCTGACCGAGAACGTACCGGAAGGCAAGCAGGTCATCGACCTGGTTGGCTTCATGTCCAAGGCCACCTCCCCGAGTGGCCGGACCGAAGGCATCTGCTGGTAA	MRISIFGLGYVGAVCAGCLSARGHDVVGVDVAKDKIDMINAGKSPIVEPGLGELLAQGIQTGRLRGTTNFAEAIRDTDLSMICVGTPSKKNGDLELNYIEAVCREIGFVLRDKTTRHTIVVRSTVLPGTVANVVIPILEDCSGKKAGVDFGVAVNPEFLRESTAIKDYDQPPMTVIGEFDKASGDVLQSLYEELDAPVIRKDIAVAEMIKYTCNVWHATKVTFANEIGNIAKAVGVDGREVMDVVCQDKVLNLSQYYMRPGFAFGGSCLPKDVRALTYRAGSLDVEAPLLNSLMRSNESQVQNAFDIVSSHDKRKVALLGLSFKAGTDDLRESPLVELAEMLIGKGFDLKIYDSNVEYARVHGANKDYIESKIPHVSSLLNSDFDAVIDNSDIIILGNRDEKFRALTENVPEGKQVIDLVGFMSKATSPSGRTEGICW	PGPT0022720_160	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0022720-algD-K00066	NA	NA
D1-35_01431	780	yaaA	COG3022	Peroxide stress resistance protein YaaA	ATGCTGATGGTGATTTCCCCCGCCAAGACCCTCGATTACGAAACACCGCCGGCCACCGAGCGTTTTACCCAGCCGCAGTACCTGGATCACTCCCAAGAGCTGATTGAACAATTGCGCGAATTCTCGCCAGCGCAGATCAGCGAGTTGATGCACGTCTCCGACAAGATCGGCGGCCTCAATGCCGCGCGATTCGGCAGCTGGAACCCGGCGTTTACCCCGGCCAATGCCAAACAGGCGTTGCTGGCGTTCAAGGGCGATGTGTACACCGGCCTCGACGCGCAAAGCCTCGGTGAAGCCGATTTCGACTACGCCCAACAGCACCTGCGCATGCTCTCCGGTCTCTACGGTCTGCTGCGTCCGCTGGACTTGATGCAGCCTTATCGCCTGGAGATGGGCACGAAGCTGGCCAATGCCCGGGGCAAGGACCTTTATGCATTCTGGGGCACCCGCATCAGCGAATGGCTGAACGAAGCCTTGGCCGATCAGGGCGACGACGTACTGTTGAACCTGGCTTCCAATGAATATTTCTCGGCGGTCAAGCGCAGTGCACTGAAAGCCCGCGTCATCGATGCCGAGTTCAAGGATCTGAAGAACGGCCAATACAAGATCATCAGTTTCTACGCCAAGAAAGCCCGGGGCTTGATGAGCCGGTTTGTCATCGAGCAGCGCATCAACGATCCCGTGCAACTCAGACACTTCGATGTACAGGGCTATCGTTACAACGCCGAACAATCCTCCCCGAACAAGTTGGTCTTTTTGCGCGACCACGCCCCGCAATAA	MLMVISPAKTLDYETPPATERFTQPQYLDHSQELIEQLREFSPAQISELMHVSDKIGGLNAARFGSWNPAFTPANAKQALLAFKGDVYTGLDAQSLGEADFDYAQQHLRMLSGLYGLLRPLDLMQPYRLEMGTKLANARGKDLYAFWGTRISEWLNEALADQGDDVLLNLASNEYFSAVKRSALKARVIDAEFKDLKNGQYKIISFYAKKARGLMSRFVIEQRINDPVQLRHFDVQGYRYNAEQSSPNKLVFLRDHAPQ				NA	NA	NA	NA	NA
D1-35_01432	1125			hypothetical protein	TTGCGTATCGTCCTTTTACTGTCGGCCTGGTTGTTGAGCCTCGGCGCTTTCGCTGCGCCCAACGACGTCGCTACCCTGGACCGCAGCACCTGGCCTGAACAGCTCACCAGCCCGACGCTGTTCGATGTGGCTTCGCGGGCCGAGGTCCTGATGTTCGCCCGGGTATTGCTGGATGCCGATGCCATGGACGAAATAGCCCTCAAGCAATACCTGGGGCTGCGCTCGGTCAATATGGTCGCGGTGAACGCCTTGCGCGCGCGGCTGTGGCAGCGCCTGCTTTCGAGCTACAACTTCGCCCAGCGCAGTTGCACGCTGGATGCCTCCTTCTGCTACCTGGTCGAGGACATGGCGACCCTGCGCGAGGAGGCGGGCCGGTTCAAGCTCGATGACAATTCCTATTACATCAAGTGGGCCGAGCCGAGCCGGATCTTTCATACGCAATACCGCGACGAGCTGCTGCGCAAGGCTGCGCTGTTTCCCCAGGTCAGCAGCGAAGTCGAGCGTTTCGGCGATTATGAGCGCAACGGTGAGCAGATGAATGACCGACTGTTCTTGCTGACCTTCGACAGCGCTGCCAACGTCGCACCGGACCACACGCCCTGGCTGACCGAGTACCTGCGCAAGTCGAACATGAACGGCACTTTTTTTGTGTTGGGCAAGGACATCCAGGCGCGCCTGACAGACGGCTCGGCAAATGATCTCCAGACTCTGTTTGCTGGGCAATGCGTCGGGGTGCAGGGCTGGGAGTTCCGCTCCCACAGCCATTGGCAGGATTGGCAGGACTCGGTACGGCGCAGCGTTGACCTGGTCAAGGGCCGGCTGCCGGAGAATTACGTGCCCTTGTTCCGTCCGCCACAGGGCCAGCGTCGAGGCGATGCCCAGGCATTCTTCAGGAACCAGGGACTGCAAGTGGCGCTATGGGATATCGATCCCCAGGACAGCACCAACCGCCTCAAGCCCGAGCAGAGTGCCCAGCGCGCGCTGACGCTGATGCTGTTGTGGCGCCACGGGGTCATCAACTTCAACGCCAAGCAGGACGCGGTGAAAACGGCGCTGCCCTGGCTCGTTACGCAAACGGCGCAAAGCGGGATCGGCTGGGAAGAGTGTCAGGACGCGTTTCGCTGA	MRIVLLLSAWLLSLGAFAAPNDVATLDRSTWPEQLTSPTLFDVASRAEVLMFARVLLDADAMDEIALKQYLGLRSVNMVAVNALRARLWQRLLSSYNFAQRSCTLDASFCYLVEDMATLREEAGRFKLDDNSYYIKWAEPSRIFHTQYRDELLRKAALFPQVSSEVERFGDYERNGEQMNDRLFLLTFDSAANVAPDHTPWLTEYLRKSNMNGTFFVLGKDIQARLTDGSANDLQTLFAGQCVGVQGWEFRSHSHWQDWQDSVRRSVDLVKGRLPENYVPLFRPPQGQRRGDAQAFFRNQGLQVALWDIDPQDSTNRLKPEQSAQRALTLMLLWRHGVINFNAKQDAVKTALPWLVTQTAQSGIGWEECQDAFR	PGPT0018645_963	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
D1-35_01433	1395			hypothetical protein	ATGGATGACCACGGACGTAGCCCTTCCTCCAACCAGCCAATCCTGTATGTACTCGATACCAACGTATTGATCCACGATCCAAACGCGCTGCTGAATTTCGAAGAACACCACGTCGCCATCCCGATGACCGTGCTCGAGGAGCTGGATAAGCTCAAGAGCGGCCATCATAGCGTGGCGGCTGAATGCCGGCAGGCGATCCGCCTGATCGACAAGACCCTGGGCGATGCCTCTCCAGAAGACGTTGAACTGGGGGTGCCAATCCAGCGCGGCAAGAGCGGCCCCAAGGGCCTGCTCTCGATCCTGATGAGCAAGCGCACCGAACCCAACCTGGTGCTGCCTGAACACCTGAACGACAACATCATCATCAACCAGCTGATCGACCTGCACGCGCGCAACAAGGAACAAGCCGTGGTGCTGGTGACCAAAGACATCAACATGCGCCTCAAGGCCCGCGCCTGCGGGATCGCGGCGGAAGACTACAGCACTGACCAACTGGTCGACGACGTATCGCTGTTGCCTAACGGCTACCACACCATGACCGGCTCCTTCTGGGACCGCGTGAGCAAGGTCGAGACCCGCCAGGACCATGGGCGCACCTGGCACCAGGTGCAACTGATCGACAACCTGCCGGCGGTGCACATCAACGAATTCATTATCGATGAACAAGGATTCGTCGGCTGGATCAAGGAAATCCAGGTCGACAAGCTGCTGATCCTCGACCTGCACCAGGAACCCCTGCTGCATCAGGAGGCGTGGGGCCTCAAGCCTCGCGACATCTACCAGAGCCTGGCGCTGTTCGCCTTGCTCGACCCGGACATCCACCTGGTCAACCTGTCCGGCGCCGCCGGTTCCGGCAAGACCATCCTGGCCCTCGCCGCCGCCATCGAACAGACCATGGTCAGCAAGCGCTACCGGCGCATCATCGCCACTCGCAGCGTGCAGGGCCTGGACCAGGAAATCGGCTTCCTGCCCGGTACCGAAGCGGAAAAAATGGAGCCGTGGCTGGGTGCAATTACCGACAACCTCGAAGCCTTGCACATGGATGACGAGAGCACCCATGGCAGCGTCGACTACATCCTCAGCAAAGTGCCGTTGCAGTTCAAATCCCTCAACTACATCCGAGGCCGCAGCTTCCAGCAGAGCCTGATCCTGATCGACGAATGCCAGAACCTGACCCCGCACCAGATGAAAACCATCATTACCCGTGCCGGCGCCGGTTCCAAAGTGGTGTGCCTGGGTAACCTGGCGCAGATCGACACCCCTTACCTGTCCGCGACCAGCTCCGGGCTGACCTACCTGACCGAACGCTTCAAGGACTTCCCCAACGGCGTCCACATCACCCTGCAGGGCGTACCACGCTCGATCCTGGCCGAATACGCCGAATCTCATCTGTAA	MDDHGRSPSSNQPILYVLDTNVLIHDPNALLNFEEHHVAIPMTVLEELDKLKSGHHSVAAECRQAIRLIDKTLGDASPEDVELGVPIQRGKSGPKGLLSILMSKRTEPNLVLPEHLNDNIIINQLIDLHARNKEQAVVLVTKDINMRLKARACGIAAEDYSTDQLVDDVSLLPNGYHTMTGSFWDRVSKVETRQDHGRTWHQVQLIDNLPAVHINEFIIDEQGFVGWIKEIQVDKLLILDLHQEPLLHQEAWGLKPRDIYQSLALFALLDPDIHLVNLSGAAGSGKTILALAAAIEQTMVSKRYRRIIATRSVQGLDQEIGFLPGTEAEKMEPWLGAITDNLEALHMDDESTHGSVDYILSKVPLQFKSLNYIRGRSFQQSLILIDECQNLTPHQMKTIITRAGAGSKVVCLGNLAQIDTPYLSATSSGLTYLTERFKDFPNGVHITLQGVPRSILAEYAESHL				NA	NA	NA	NA	NA
D1-35_01434	474	moaC	COG0315	Cyclic pyranopterin monophosphate synthase	GTGCTGACCCATCTCGATTCCCAAGGTCGCGCCAACATGGTCGACGTGACCGACAAGGCCGTGACGTTCCGCGAAGCCACCGCCGAAGCCTTTGTGCGCATGCTGCCCGATACTCTGCAAATGATCGTCAGCGGCGGCCATCCCAAGGGCGATGTGTTCGCCGTCGCGCGCATTGCCGGTATCCAGGCGGCAAAAAAAACCAGTGACCTGATCCCGCTCTGCCATCCGCTCATGCTCACCAGCGTCAAGGTCGAACTGACCGCCGAAGGCGAGGATCGCGTGCGCATCGTGGCCCGCTGCAAGCTCTCGGGACAGACCGGTGTCGAAATGGAGGCGCTCACCGCCGCCAGCGTCGCCGCGCTCACCATCTACGACATGTGCAAGGCCGTGGACCGGGGCATGACCATCGAGGGCGTGCGTGTGCTGGAAAAACTCGGCGGCAAGAGCGGCCACTTCCAGGCGGATGCGTCATGA	MLTHLDSQGRANMVDVTDKAVTFREATAEAFVRMLPDTLQMIVSGGHPKGDVFAVARIAGIQAAKKTSDLIPLCHPLMLTSVKVELTAEGEDRVRIVARCKLSGQTGVEMEALTAASVAALTIYDMCKAVDRGMTIEGVRVLEKLGGKSGHFQADAS	PGPT0008405_3266	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008405-moaC_-K03637	NA	NA
D1-35_01435	243	moaD	COG1977	Molybdopterin synthase sulfur carrier subunit	ATGAACATCACCGTGAAGTTCTTTGCCCGTTATCGCGAAGCGCTCGGCGTGGATTCGCTGAAAGTGGAGGGCGTTTTCGCCACGGTTGACGATGTGCGCGCATTGCTCGCTCAGCGTGACGGAGCCGAAGTGCTGCGAGAGCAGAACCTGATGTGCGCCCGCAACGAAGACCTGTGCCAGCTCGATGAACCGCTGGCGGACGGCGACGAAGTGGCCTTCTTCCCCACCGTGACCGGAGGCTGA	MNITVKFFARYREALGVDSLKVEGVFATVDDVRALLAQRDGAEVLREQNLMCARNEDLCQLDEPLADGDEVAFFPTVTGG	PGPT0008405_240	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008405-moaC_-K03637	NA	NA
D1-35_01436	453	moaE	COG0314	Molybdopterin synthase catalytic subunit	ATGGCGATTCGGGTGCAGGCCGAGCCGTTCGACCCGGGGGCCGAGGTCAATGCGATGCAGGCAGCAAATGTCGGCGTCGGCGCCGTGGTGAGTTTTGTCGGCTACGTGCGCGACTTCAATGACGGCCTCGATGTGTCCGGGATGTTCCTCGAGCATTATCCGGGCATGACCGAAAAAGCCCTGGGCAAGATCGCCACCGAGGCCGAGCAGCGCTGGCCGCTGCTCAAGCTTGAGGTATTGCACCGCATCGGCGCCCTGGAACCGGGTGAGCCGATCGTTTTTGTCGGCGCCGCCAGCGCCCATCGCCAGGCGGCCTTTGAGGCCTGCGCCTTTGTCATGGACTACCTGAAGACCCGCGCACCGTTCTGGAAAAAGGAAAATACCGCCGACGGCCCGCGTTGGGTCGAGGGGCGGGACAGTGATCATGCGGCGGCGGATCGCTGGAAGCGGTAG	MAIRVQAEPFDPGAEVNAMQAANVGVGAVVSFVGYVRDFNDGLDVSGMFLEHYPGMTEKALGKIATEAEQRWPLLKLEVLHRIGALEPGEPIVFVGAASAHRQAAFEACAFVMDYLKTRAPFWKKENTADGPRWVEGRDSDHAAADRWKR	PGPT0008415_12	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008415-moaX-K21142	NA	NA
D1-35_01437	1476	rhlB		ATP-dependent RNA helicase RhlB	ATGACCGTGCTCAAAGCACTCAAGAAGATGTTCGGTAAAAGCGAGGCCGAGCAACTCGCGCCTGAAGCCAGCGCCCCCGTCCACGGCGCGAGCCGCACCGATGCGCACCAACCACGTCGGACCGCCCCCGTTGCGGACGCAAAACTATCGCCGTCGACCGCATCCGTTGCGCAACCTGTGGCGGCATCCGAGCCGGAAAAACCACGCAGCGAAGCCCCCAAGCCACGTCGCGAGCGCGCACCCAAACCGCCGGTCGTTGCCTGGAAGCTCGAAGACTTCGTCGTAGAACCTCAGGAAGGCAAGACCCGCTTCCACGATTTCAAGCTCGCCCCCGAGCTGATGCATGCCATCCAGGACCTGGGCTTCCCGTACTGCACGCCGATCCAGGCGCAAGTGCTGGGCTATACCCTCGCCGGCAAGGACGCTATCGGTCGTGCCCAGACCGGCACCGGCAAGACCGCCGCGTTCCTGATTTCGATCATCACCCAGTTGCTCCAGACCCCGCCCCCCAAGGAACGCTACATGGGCGAGCCGCGGGCGCTGATCATCGCGCCAACCCGTGAGCTGGTGGTGCAGATCGCCAAGGATGCCGCCGACCTGACCAAGTACACCGGCCTGAACGTGATGACGTTCGTCGGCGGCATGGATTTCGACAAGCAGCTCAAGCACCTCGAGGCCCGCCACTGCGACATCCTCGTGGCGACGCCGGGCCGCCTGCTGGACTTCAACCAGCGCGGCGACGTGCACCTGGACATGGTCGAAGTGATGGTGCTCGACGAGGCCGACCGAATGCTCGACATGGGCTTCATCCCCCAGGTACGCCAGATCATTCGCCAGACCCCGCCGAAAAACGAACGCCAGACATTGCTGTTTTCCGCCACCTTCACCGAAGACGTGATGAACCTGGCCAAGCAATGGACCACCGATCCTGCAATCGTCGAGATCGAAGCCGAAAACGTCGCCAGTGAAAATGTCGAACAGCACATCTATGCGGTCGCCGGTGCCGACAAGTACAAACTGCTCTACAACCTGGTCAACGACAACGGTTGGGAGCGGGTGATGGTCTTCGCCAACCGCAAGGACGAAGTGCGCCGCATCGAAGAACGCCTGGTGCGCGATGGCGTCAACGCCGCGCAACTGTCGGGCGACGTGCCGCAGCACAAGCGCATCAAGACACTCGAAGGTTTCCGCGAAGGCAAGATCCGCGTGCTGGTCGCCACCGACGTGGCCGGTCGCGGCATTCACATCGACGGCATCAGCCACGTGATCAACTTCACCCTGCCGGAAGTGCCGGACGACTACGTGCACCGTATCGGCCGCACCGGTCGTGCCGGGGCCGCCGGGGTTTCGATCAGCTTCGCCGGCGAGGATGATTCCTACCAGTTACCCTCGATCGAGGCACTGCTGGGCCGCAAGATCAGTTGCGAGATGCCGCCGACTCATCTGTTGCGGCCGGTCGAGCGCAAGCGACCTTAA	MTVLKALKKMFGKSEAEQLAPEASAPVHGASRTDAHQPRRTAPVADAKLSPSTASVAQPVAASEPEKPRSEAPKPRRERAPKPPVVAWKLEDFVVEPQEGKTRFHDFKLAPELMHAIQDLGFPYCTPIQAQVLGYTLAGKDAIGRAQTGTGKTAAFLISIITQLLQTPPPKERYMGEPRALIIAPTRELVVQIAKDAADLTKYTGLNVMTFVGGMDFDKQLKHLEARHCDILVATPGRLLDFNQRGDVHLDMVEVMVLDEADRMLDMGFIPQVRQIIRQTPPKNERQTLLFSATFTEDVMNLAKQWTTDPAIVEIEAENVASENVEQHIYAVAGADKYKLLYNLVNDNGWERVMVFANRKDEVRRIEERLVRDGVNAAQLSGDVPQHKRIKTLEGFREGKIRVLVATDVAGRGIHIDGISHVINFTLPEVPDDYVHRIGRTGRAGAAGVSISFAGEDDSYQLPSIEALLGRKISCEMPPTHLLRPVERKRP	PGPT0013740_606	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
D1-35_01438	657	estB_2	COG0400	Carboxylesterase 2	ATGACCGACCCCTTGATTCTCGAGCCCTCCAGCACCGCCGATGCGTGCGTTATCTGGCTCCACGGCCTGGGCGCCGATCGCTACGACTTCATGCCGGTCGCCGAAATGCTGCAGCAAAGCCTGCTGACTACGCGCTTCGTATTGCCCCAGGCGCCGACGCAACCGGTGACCATCAATGGTGGCTACGCCATGCCCAGCTGGTATGACATTCGGGCCTTGAGCCCGGCGCGGGCGATCGACGAGCAACAACTGGACGCCTCGGCGCAACGGGTCATCGACCTGATGGAAACCCAGCGAGCCAGCGGAATAGACGCCTCGCGGATTTTCCTGGCAGGTTTTTCCCAAGGCGGAGCAGTGGTTTATCACACGGCATTCGTCAAGTGGCAGGGGCCGCTGGGTGGCGTGATTGCGCTGTCCACTTATGCGCCAACTTTCGGCGAAGAACTGCAGTTGTCAGCCAGCCAGCAACGCGTTCCGGTACTGGCGCTGCACGGACAGTACGACGAAGTGGTACTCAACCCGATGGGCCGGACCGCCAAAGAGTATCTGAAGCAGCATGGTGTCACCGTGACATGGCAAGAATACCCAATGGGCCACGAAGTGTTACCCGAGGAGATTCGCGACATCGGTACCTGGCTGGCGGAACGCTTGCGCTAA	MTDPLILEPSSTADACVIWLHGLGADRYDFMPVAEMLQQSLLTTRFVLPQAPTQPVTINGGYAMPSWYDIRALSPARAIDEQQLDASAQRVIDLMETQRASGIDASRIFLAGFSQGGAVVYHTAFVKWQGPLGGVIALSTYAPTFGEELQLSASQQRVPVLALHGQYDEVVLNPMGRTAKEYLKQHGVTVTWQEYPMGHEVLPEEIRDIGTWLAERLR	PGPT0028515_2152	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
D1-35_01439	1032	yhdW		Putative amino-acid ABC transporter-binding protein YhdW	ATGAAGTTACTGAAATCCACCCTGGCAGTCGTGACTGCAGCAGCAGTCCTCGGTGTCAGCGGGTTCGCTCAGGCGGGTGCAACCCTGGATGCCGTGCAGAAGAAAGGTTTTGTGCAATGTGGTGTAAGTGATGGCCTGCCGGGTTTCTCGGTGCCTGATTCCACCGGCAAGATCGTGGGTATCGACGCTGACTTCTGCCGTGCCGTGGCCGCTGCGGTGTTTGGCGATGCGACCAAGGTCAAGTTCAGCCAGTTGAACGCCAAGGAGCGCTTCACCGCGCTGCAATCCGGCGAAATCGACGTGCTGTCGCGCAACTCCACCATGACCAGCTCCCGTGATGCGGGCATGGGCTTGAAATTCCCGGGCTTCATTACCTACTACGACGGCATCGGCTTCCTGGCCAACAGCAAATTGGGCGTCAAGAGCGCCAAGGAACTGGACGGTGCAACCATCTGCATCCAGGCCGGTACCACCACCGAGCTGAACGTGTCCGACTACTTCCGCGCCAACGGCCTGAAGTACACCCCGATCACTTTCGACACCTCCGATGAAAGCGCCAAGTCGCTGGAATCCGGTCGTTGCGACGTGCTGACCTCCGACAAGTCCCAACTGTTCGCCCAGCGCAGCAAGCTGGCTTCGCCGAAGGACTACGTGGTCCTGCCGGAAACCATCTCCAAGGAGCCACTGGGCCCGGTCGTGCGTAACGGCGACGACGAGTGGCTGGCCATCGTGCGTTGGACTGGCTTCGCCATGCTCAATGCCGAAGAAGCAGGCGTGACCTCGAAGAACGTCGAAGCTGAAGCCAAGTCCACCAAGAACCCGGACGTCGCTCGTATGCTGGGCGCTGACGGTGAATACGGTAAAGACCTGAAGCTGCCGAAAGACTGGGTCGTGCAGATCGTCAAGCAAGTCGGCAACTACGGTGAAATGTTCGAGCGCAACCTCGGCAAGGACACCCCGCTGCAGATCGATCGCGGTCTGAACGCTCTGTGGAACGCAGGCGGCATCCAATACGCACCACCAGTGCGCTGA	MKLLKSTLAVVTAAAVLGVSGFAQAGATLDAVQKKGFVQCGVSDGLPGFSVPDSTGKIVGIDADFCRAVAAAVFGDATKVKFSQLNAKERFTALQSGEIDVLSRNSTMTSSRDAGMGLKFPGFITYYDGIGFLANSKLGVKSAKELDGATICIQAGTTTELNVSDYFRANGLKYTPITFDTSDESAKSLESGRCDVLTSDKSQLFAQRSKLASPKDYVVLPETISKEPLGPVVRNGDDEWLAIVRWTGFAMLNAEEAGVTSKNVEAEAKSTKNPDVARMLGADGEYGKDLKLPKDWVVQIVKQVGNYGEMFERNLGKDTPLQIDRGLNALWNAGGIQYAPPVR	PGPT0020815_384	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_L-AMINO_ACID_TRANSPORT,PGPT0020815-aapJ|bztA-K09969	NA	NA
D1-35_01440	1182			hypothetical protein	ATGCAAAATTCAATCGGCGCACCTAAGCAGAGGCTCAGCCTCAGCGATCCACGAGTGCGTGCGTGGGTATTTCAGATCGTCACCATCGTGGCGGTTATTTCGCTGGGCTGGTTTCTGTTCGATAACACACAGACCAACCTGGAACACCGGGGCATCACGTCCGGTTTCGGCTTTCTGGAGCGCAGTGCCGGTTTCGGCATCGCCCAACACCTGATCGACTACACCGAAGCGGACAGTTATGCCCGCGTCTTTGTCATCGGTTTGCTCAACACCCTCCTGGTGACCTTCATTGGCGTGATTCTGGCGACCATCCTGGGGTTCATCATCGGCGTCGCACGCTTGTCGAAGAACTGGATAATCTCCAAGCTGGCGACCGTCTACGTGGAGGTCTTTCGTAACATCCCACCGCTGTTGCAGATCCTGTTCTGGTACTTCGCGGTATTCCTGACGATGCCGGGACCACGGGCTGCCCACAACTTCGGCGACACCTTCTTCGTCAGCAGCCGTGGCCTGAACATGCCGGCGGCGCTGGTGGCGGAAGGGTTCTGGCCGTTCGTGGCCAGTGTCGTGCTGGCGATCGTCGCCATCGTGCTGATGACCCGCTGGGCCAACAAGCGTTTCGAAGCAACGGGCGAGCCGTTCCATAAATTCTGGGTCGGCCTGGCGCTGTTCCTGGTGATCCCGGCGTTGTGCGCACTGATCTTCGGCGCGCCCGTGCATTGGGAAATGCCGCAGCTCAAGGGTTTCAACTTCGTTGGTGGCTGGGTTCTCATCCCGGAACTGCTGGCCTTGACCCTGGCGCTGACGGTGTACACCGCGGCGTTCATCGCCGAGATCGTGCGTTCTGGCATCAAGTCGGTCAGCCATGGCCAGACCGAGGCGGCTCACTCGCTGGGCCTGCGCAACGGTCCGACCCTGCGCAAGGTGATCATCCCGCAAGCCCTGCGCGTGATCATCCCGCCGCTGACCAGCCAATACTTGAACCTGGCGAAGAACTCTTCGCTGGCGGCCGGTATCGGTTATCCGGAAATGGTTTCGCTGTTTGCCGGCACGGTGTTGAACCAGACCGGTCAGGCCATCGAGGTGATCGCGATCACCATGAGCGTGTACCTGGCGATCAGTATCAGCATTTCCTTGCTGATGAACTGGTACAACAAGCGCATTGCGCTGATCGAGCGGTGA	MQNSIGAPKQRLSLSDPRVRAWVFQIVTIVAVISLGWFLFDNTQTNLEHRGITSGFGFLERSAGFGIAQHLIDYTEADSYARVFVIGLLNTLLVTFIGVILATILGFIIGVARLSKNWIISKLATVYVEVFRNIPPLLQILFWYFAVFLTMPGPRAAHNFGDTFFVSSRGLNMPAALVAEGFWPFVASVVLAIVAIVLMTRWANKRFEATGEPFHKFWVGLALFLVIPALCALIFGAPVHWEMPQLKGFNFVGGWVLIPELLALTLALTVYTAAFIAEIVRSGIKSVSHGQTEAAHSLGLRNGPTLRKVIIPQALRVIIPPLTSQYLNLAKNSSLAAGIGYPEMVSLFAGTVLNQTGQAIEVIAITMSVYLAISISISLLMNWYNKRIALIER	PGPT0020820_661	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_L-AMINO_ACID_TRANSPORT,PGPT0020820-aapQ|bztB-K09970	NA	NA
D1-35_01441	1098	yhdY	COG0765	Inner membrane amino-acid ABC transporter permease protein YhdY	ATGACATCCCATACTTTCAAACCTGATATGCCGCCACCGAGCAAAGTGTTCGGGCCGGTGGCATGGATGCGCGCGAACATGTTCTCCAGCTGGCTCAACACGCTGCTGACGTTGTTCGCGTTCTACCTGATCTACCTGATAGTTCCACCGATCCTCGGTTGGGCTATCCTCGATGCCAACTGGGTCGGCACCACCCAGGCCGACTGCACCAAGGAAGGCGCCTGCTGGGTGTTCATCCAACAGCGTTTCGGCCAGTTCATGTACGGCTATTACCCGACAGGCCTGCGCTGGCGCGTAGACCTGACGGTGTGGGCGGCAGTGCTTGGCGTGGCGCCGCTGTTCATCTCGCGCTTCCCGCGCAAGGCGATCTACGGCCTCAGCTTCCTGGTGCTGTACCCGATCATTGCCTGGTGCCTGCTGCACGGTGGCGTTTTCGGTCTGGATACCGTGGCGACCAGCCAGTGGGGCGGCCTGATGCTGACGTTGGTGATCGCCACCGTCGGTATCGTCGGTGCTCTGCCGCTGGGCATCGTCCTGGCCCTGGGCCGGCGCTCGAACATGCCGGCGATTCGCGTGGTCTGCGTGACCTTCATCGAGTTCTGGCGCGGCGTGCCGTTGATCACGGTGCTGTTCATGTCCTCGGTGATGCTGCCGTTGTTTCTGCCTGAGGGCATGAACTTCGACAAGCTGCTGCGGGCATTGATCGGCGTGATCCTGTTCCAGTCGGCCTACGTGGCCGAAGTGGTGCGTGGCGGTCTGCAAGCGATTCCCAAGGGGCAATACGAAGCGGCCGCGGCGATGGGCCTGGGCTACTGGCGCAGCATGGGCCTGGTTATCCTTCCGCAGGCGCTGAAGATGGTGATCCCGGGGATCGTCAACACCTTCATTGCGCTGTTCAAGGACACCAGCCTGGTGATCATCATCGGCCTGTTCGACCTGCTCAACAGCGTGAAACAAGCTGCCGCCGACCCGAAATGGCTGGGCATGGCCACTGAAGGCTATGTGTTTGCCGCCCTGGTGTTCTGGATTTTCTGTTTTGGTATGTCCCGCTATTCCATGCATTTGGAACGCAAGCTGGACACTGGCCACAAGCGTTAG	MTSHTFKPDMPPPSKVFGPVAWMRANMFSSWLNTLLTLFAFYLIYLIVPPILGWAILDANWVGTTQADCTKEGACWVFIQQRFGQFMYGYYPTGLRWRVDLTVWAAVLGVAPLFISRFPRKAIYGLSFLVLYPIIAWCLLHGGVFGLDTVATSQWGGLMLTLVIATVGIVGALPLGIVLALGRRSNMPAIRVVCVTFIEFWRGVPLITVLFMSSVMLPLFLPEGMNFDKLLRALIGVILFQSAYVAEVVRGGLQAIPKGQYEAAAAMGLGYWRSMGLVILPQALKMVIPGIVNTFIALFKDTSLVIIIGLFDLLNSVKQAAADPKWLGMATEGYVFAALVFWIFCFGMSRYSMHLERKLDTGHKR	PGPT0020825_841	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_L-AMINO_ACID_TRANSPORT,PGPT0020825-aapM|bztC-K09971	NA	NA
D1-35_01442	765	glnQ_2		Glutamine transport ATP-binding protein GlnQ	ATGAGTGAAGCGATCAAACAGCCTGTGAGCCCTGAAGGCATTATTCAGATGCAGGGCGTGAACAAGTGGTACGGCCAGTTCCACGTGTTGAAAGACATCAACCTGAACGTCAAGCAGGGCGAGCGTATCGTGCTGTGCGGCCCGTCGGGTTCCGGCAAATCCACCACCATCCGCTGCCTCAATCGCCTGGAAGAGCACCAGCAGGGTCGCATCGTGGTCGATGGCGTGGAACTGACCAACGACCTCAAGCAGATCGAAGCGATCCGTCGCGAAGTCGGCATGGTGTTCCAGCACTTCAACCTGTTCCCGCACCTGACCATCCTGCAGAACTGCACCCTGGCGCCGATGTGGGTGCGCAAGATGCCCAAGCGCAAGGCCGAGGAAATCGCCATGCATTACCTGGAACGCGTACGCATTCCAGAGCAGGCGCACAAGTACCCGGGCCAGCTCTCCGGCGGTCAGCAACAGCGCGTGGCGATCGCCCGTGCCCTGTGCATGAAACCGAAAATCATGCTCTTCGACGAACCGACCTCGGCCCTCGACCCGGAAATGGTGAAAGAGGTTCTGGACACCATGATCGGCCTGGCCGAAGACGGCATGACCATGCTGTGCGTGACCCACGAGATGGGCTTCGCCCGCACCGTGGCCAACCGCGTGATCTTCATGGACAAAGGCGAAATCGTTGAACAGGCTGCGCCGAATGACTTCTTCGACAACCCGCAGAATGACCGTACGAAGTTGTTCCTGAGCCAGATCCTGCACTGA	MSEAIKQPVSPEGIIQMQGVNKWYGQFHVLKDINLNVKQGERIVLCGPSGSGKSTTIRCLNRLEEHQQGRIVVDGVELTNDLKQIEAIRREVGMVFQHFNLFPHLTILQNCTLAPMWVRKMPKRKAEEIAMHYLERVRIPEQAHKYPGQLSGGQQQRVAIARALCMKPKIMLFDEPTSALDPEMVKEVLDTMIGLAEDGMTMLCVTHEMGFARTVANRVIFMDKGEIVEQAAPNDFFDNPQNDRTKLFLSQILH	PGPT0020830_476	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_L-AMINO_ACID_TRANSPORT,PGPT0020830-aapP|bztD-K09972	NA	NA
D1-35_01443	486			hypothetical protein	ATGAAACCCCAGCAATGTGTCAGCTGCGGCAGCATCGACGCGATGCATCATTTCAAAGGCCGTAGCTTTACGGTCGACTACAGGCAGGTGACTCGGCAAGTACACGATATTGCCGGATGGGAATGCCGGATCTGCGGTGAAATCGAATTCGATCACGACACTGACAGCGCCGAACGTTACTCCAGGGCCAGCGACCAATTGCTGGAAGATTACGCGCTGGCGACAGGTGCGGAAATCAAACGCATCCGCCGCAAACTGCACCTCACGCAAAAAGACGCGGTGAAGCTGCTATCCGGAGGCGGGCATAACGCGTTTTCCCGTTATGAACGCGGCGAAGTTACCCCGGCCCAGTCGTTATTCGTGCTGATGCGCCTGCTTGATCGGCATCCGCACCTGATGGCTGAAGTCCACTCGCTGAACGACGAAGCCCATTTGCAGCAACTGTTGTCGGGTCGCCATCCGGAACATGACACGGCGGATCTCTGA	MKPQQCVSCGSIDAMHHFKGRSFTVDYRQVTRQVHDIAGWECRICGEIEFDHDTDSAERYSRASDQLLEDYALATGAEIKRIRRKLHLTQKDAVKLLSGGGHNAFSRYERGEVTPAQSLFVLMRLLDRHPHLMAEVHSLNDEAHLQQLLSGRHPEHDTADL	PGPT0027590_40	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-MqsR-MqsA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027590-antitoxin_mqsA-K13655	NA	NA
D1-35_01444	312	mqsR		mRNA interferase toxin MqsR	ATGGAAAAGAGCACACCCCATTACGACCTGACAGTGGTCAAGGCCGAGGTTCACAGGTTGCGAAGCAAGGCGTTCACATTGAACGCCCGCGAAGGCGGACGAAGGATGATGTTGAGTCTCGCCCGGATGCTGCGGATCGTTCACCTGTTGGAATACAGGATGCTGCATAAATCGATGACCACGTATGCCGATCACCGAATCTGGCAAGACGTCTATCACACAACATTTCAGGATCGGGAGATTTACATCAAGGTGACTTACCGCCCCGGCGGTGGGCATCCGGTGGTCTCCTTCAAGGAGAAAAACCAATGA	MEKSTPHYDLTVVKAEVHRLRSKAFTLNAREGGRRMMLSLARMLRIVHLLEYRMLHKSMTTYADHRIWQDVYHTTFQDREIYIKVTYRPGGGHPVVSFKEKNQ	PGPT0025835_26	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-MqsR-MqsA_TOXIN-ANTITOXIN_SYSTEM,PGPT0025835-toxin_mqsR-K13651	NA	NA
D1-35_01445	660	lutR_3	COG2186	HTH-type transcriptional regulator LutR	ATGTCAGAAATGTCCCCGCTAATAAAGCGCTCCCTGGTCGATCAAGCCTTGGAGCAACTGCGCCAACGCATCAGCGACGGCGTGTGGGCTGTCGGCCAGCGCCTGCCTACCGAGCCGGAATTGGTCGCCGAGCTAGGCATCAGCCGCAACACGGTGCGCGAAGCCATGCGCGTACTGGCGTTTTCCGGATTGATCGAGATTCGTCAGGGCGACGGCAGCTACGTGCGTGCGGTCGTCGACCCGCTGGACACGCTCAAGGCGCTATCCCGTTGTTCGTTGGAGCAGGCCCGGGAAACCCGGCACATCCTTGAAGTCGAGGCCATCGGCCTGGCGGCGCTACGGCGCACCGAGGATGATTTAGTTGCCTTGCGCCAGGCGCTGAAAACCAGCGGCGAGCATTATCACGGCGACCTGGAGCACTACATCGCCTGCGACCTGGTGTTCCATCGCCTGCTCGTGGACGCCGCGCACAACCCGGCCCTGAGCGAGCTGTATCGCTATTTCTCCAGCGTGATCGGCGCTCAGTTGCGTCAGAGCCTCAGTATTATTCCGCGCCATCAACACGTGTTCGACCTGCACATCGAAATCCTCGAAGCCGTTGAACGCCAGGATCCGGAGCGGGCCAAGGCCCTCTGCCGGCAGTTGATCAATGAACCCTGA	MSEMSPLIKRSLVDQALEQLRQRISDGVWAVGQRLPTEPELVAELGISRNTVREAMRVLAFSGLIEIRQGDGSYVRAVVDPLDTLKALSRCSLEQARETRHILEVEAIGLAALRRTEDDLVALRQALKTSGEHYHGDLEHYIACDLVFHRLLVDAAHNPALSELYRYFSSVIGAQLRQSLSIIPRHQHVFDLHIEILEAVERQDPERAKALCRQLINEP				NA	NA	NA	NA	NA
D1-35_01446	1305	yycB_1	COG2807	putative transporter YycB	ATGTCCCGCGATCCGCTTGACCGCACTACCGCAACGCCGAACAAACGCGGCGCCGAACTCGAAGAATTGCTGATCGACGCCGAGGCGGACGACGAGCAGGCCCAGCAGAGCCACCCGCTGGTGCGCCGGCCCTGGTTGCTGCTGCTAGGCCTGATCCTGGTCGCGTTGAACCTGCGCCCGGCCTTGTCGAGCATGGCACCGCTGCTCAGCGACGTGTCGAAAAGCCTTGGCCTGTCGGCTGCCCAGGCCGGTCTGCTGACAACCTTGCCAGTGCTCTGCCTGGGCCTGTTCGCGCCATTGGCGCCAGTGCTGGCACGCCGCTTCGGCGCTGAACGAGTGGTGCTCGGGATCCTGCTCACGCTGGCTGGCGGCATCATCCTGCGCAGCTCGTTCGGCCAGTTCGGCCTGTTCGCGGGCAGCATCCTCGCTGGCGCCAGCATCGGTGTGATCGGCGTGTTGCTGCCGGGCATCGTCAAGCGCGACTTCGCCAAGCAGGCCGGCACCATGACCGGTGTCTACACCATGGCGCTGTGCCTGGGTGCGGCGATGGCGGCCGGCGCGACGGTGCCATTGAGCGAACATCTGGGCCATGACTGGGCCCTCGGCCTGGGCTTCTGGATGCTGCCGGCCCTGCTGGCCGCCGTGTTCTGGCTGCCGCAAGTGGGCCAGAAACACGGGGCGCATCAAGCGGCGTATCGTGTCCGCGGGTTGCTGCGTGATCCCCTGGCCTGGCAGGTGACCTTGTACATGGGGCTGCAATCGTCCCTGGCCTACATCGTGTTCGGCTGGCTGCCGTCGATCCTCATCGGTCGCGGGCTGACCCCGACCCAGGCGGGGCTGGTGCTGTCCGGCTCGGTAATCGTGCAACTGGTCAGCTCCCTCGCGGCGCCCTGGCTGGCAACGCGCGGCAAAGACCAGCGCCTGGCCATCGTGATCGTCATGCTGATGGTGCTCGGCGGGTTGTTCGGCTGCCTCTACGCGCCCATCGAAGGGCTGTGGGGCTGGGCGGTCCTGTTGGGCCTGGGGCAGGGCGCGACGTTCGCCCTGGCTCTGACGCTGATCGTGCTGCGCTCGCGCGACGCCCATGTGGCCGCCAACCTCTCCGGCATGGCCCAGGGTTTTGGTTATACGCTGGCGTCACTGGGGCCGTTCGCGGTCGGCGTGGTACATGACTTGACCGGCGGCTGGAATGCCCTGGGCTGGATCTTTGGCCTGGTTGGCCTGGGCGCGATCATCGCCGGCCTCGGCGCCGGCCGGGCGTTGTATGTCGGTGTCGTCAGCGAAAGAGTCGGCGAGCTTCGCTAA	MSRDPLDRTTATPNKRGAELEELLIDAEADDEQAQQSHPLVRRPWLLLLGLILVALNLRPALSSMAPLLSDVSKSLGLSAAQAGLLTTLPVLCLGLFAPLAPVLARRFGAERVVLGILLTLAGGIILRSSFGQFGLFAGSILAGASIGVIGVLLPGIVKRDFAKQAGTMTGVYTMALCLGAAMAAGATVPLSEHLGHDWALGLGFWMLPALLAAVFWLPQVGQKHGAHQAAYRVRGLLRDPLAWQVTLYMGLQSSLAYIVFGWLPSILIGRGLTPTQAGLVLSGSVIVQLVSSLAAPWLATRGKDQRLAIVIVMLMVLGGLFGCLYAPIEGLWGWAVLLGLGQGATFALALTLIVLRSRDAHVAANLSGMAQGFGYTLASLGPFAVGVVHDLTGGWNALGWIFGLVGLGAIIAGLGAGRALYVGVVSERVGELR	PGPT0005211_249	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_CYANATE_DETOXIFICATION	XENOBIOTIC_CYANATE_UPTAKE,PGPT0005211-cynX|yeaN-K03449	NA	NA
D1-35_01447	471			hypothetical protein	ATGAGCGATGCCCACACAGCCCTGATCACCCGGTTTTACCAGGCATTCCAGCGCCTCGATGCCGAGGCCATGAGTGCCTGCTACACCGATGACGTGGTGTTCAGTGATCCGGCCTTCGGCGAACTGCGTGGGCGCGATGCCGGCGACATGTGGCGCATGCTCACCACGCGGGCCAAGGATTTTTCCCTGACGTTCGATAACGTGCGCAGCGACGAACGTTCCGGCGGCGCCCATTGGGTGGCGACTTATCTGTTCAGCCAGACCGGCAATACAGTGGTAAACGACATCCAGGCGCGCTTCGTTTTTCGTGACGGCAAGATCTGCGAGCACCACGATCATTTCGACCTGTGGCGCTGGTCGCGCCAGGCCTTGGGCACCAAAGGCCTGCTGTTGGGCTGGACACCGCTGGTGCGCAACGCCGTCCGCGCCCAGGCGCTCAAGGGGCTGCGGGCGTTCCAGGCCAGTCGCTGA	MSDAHTALITRFYQAFQRLDAEAMSACYTDDVVFSDPAFGELRGRDAGDMWRMLTTRAKDFSLTFDNVRSDERSGGAHWVATYLFSQTGNTVVNDIQARFVFRDGKICEHHDHFDLWRWSRQALGTKGLLLGWTPLVRNAVRAQALKGLRAFQASR				NA	NA	NA	NA	NA
D1-35_01448	324			hypothetical protein	GTGACCACCGTTGAATCACCCCCCGACCTCGCTGCCCCCGCCACACCCGAACCGGCCAAGCCCTGGTTCGTCTACCTGGTGCGCGCCGCCAACGGCTCGCTGTACTGCGGCATCAGCGATGACCCGGTGCGGCGTTTCGCCAAGCATCAGAGCGGCAAGGGCGCGCGTTTCTTTCTCTCCAGCCCGGCGGTCGCGCTGGTCTATACCGAGGCCTGCCGTGACAAGGGCGAGGCGTTGCGGCAGGAGCGGTTGATCAAGAAGCTCAAGAAAAGCGCCAAGGAATGCTTGGTGGCCAGTGCGCTGTCGCTTCATCAGCCAGGCTGA	MTTVESPPDLAAPATPEPAKPWFVYLVRAANGSLYCGISDDPVRRFAKHQSGKGARFFLSSPAVALVYTEACRDKGEALRQERLIKKLKKSAKECLVASALSLHQPG				NA	NA	NA	NA	NA
D1-35_01449	936			hypothetical protein	ATGTCTGAACTGATCCTCCATCATTACCCAACCTCCCCATTCGCAGAGAAAGCCCGCCTGCTGCTGGGTTTCAAGGGCTTGTCCTGGCGTTCGGTAGGTATACCGCCGATGATGCCCAAGCCGGACCTGACGGCCTTGACCGGTGGTTACCGCAAGACGCCGGTGTTGCAGATCGGCGCTGACATCTACTGCGACACGGCGTTGATAGCCCGGCGACTGGAGCAACAGAAAGCCTCCCCGGCGCTGTTTCCCGAGGGCCGGGAAATGATCGCTGCGTCCTTTGCGGCATGGGCGGATTCGGTGGTGTTTCAGCATGCGGTAAGCCTGGTGTTCCAGCCGGAATCGGTGGCGGTGCGTTTTGCCAAGTTGCCGCCCGAGGCGATCAAGGCGTTCATCAGCGACCGTGCCGGGCTGTTCAGTGGCGGCACGGCCACGCGTCTGTCCGCCGAGCAGGCCAAGCATCAATGGCCTGTGATCATGGCGCGCCTGGAGCAGCAGTTGCAGCGTGAAGACGGCGACTTCCTGCTAGGTGATCCGTCGATTGCCGACTTTGCCATGGCGCATCCGCTGTGGTTCCTCAAGGGCACGCCTGTCACTTCACCTTTGGTGGATGCTCACCCTGCGGTATCGGCGTGGCTGGCGCGGGTGTTGGGTTTCGGCCACGGTGCGTCGAGCCAGATGAGTTCCGAAGAGGCCCTGGAGGTGTCTCGCGATGCGACGCCGGCAGCGCTGCCGGATGAGTCATTCAAGGAGCCGAACGGATTTGTGGCGGGGCAGCGGGTGAGCATCGCGGCGACTGATTACGGTGTCGATCCGGTGGTTGGGGAGTTGTTGTTTGCCGGTAGCGAAGAATTGATTCTGCGTCGTCAGGACGAGCGTGGCGGGGTGGTGCATGTGCACTTTCCGCGGTTCGGGTTTCGCCTCGAGGCGGTCTGA	MSELILHHYPTSPFAEKARLLLGFKGLSWRSVGIPPMMPKPDLTALTGGYRKTPVLQIGADIYCDTALIARRLEQQKASPALFPEGREMIAASFAAWADSVVFQHAVSLVFQPESVAVRFAKLPPEAIKAFISDRAGLFSGGTATRLSAEQAKHQWPVIMARLEQQLQREDGDFLLGDPSIADFAMAHPLWFLKGTPVTSPLVDAHPAVSAWLARVLGFGHGASSQMSSEEALEVSRDATPAALPDESFKEPNGFVAGQRVSIAATDYGVDPVVGELLFAGSEELILRRQDERGGVVHVHFPRFGFRLEAV	PGPT0013170_472	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
D1-35_01450	357			hypothetical protein	ATGCTCACCGGGGTACTGAAGAAGTGCCTGCTGGTTCTGCTGGTGGTGGTCGCGTACCAGAACTGGGGCAAAATCGAGCGGGTGCTCAATCCGTCGCAAATGGTTTCGAAACAGGTTCGCAGCAACGCCCGCGTCGTGCTGTACGCCACCGACTGGTGCGGATACTGCAAGGCAACCCGACGATTCCTGGACGAGAAAGGCGTGCCGTTTCGCGAGTTCGATATTGAAAAGGACGCCGAAGCGCGCAAGACCTACGAGGCGCTGGGCGGCCGGGGGATTCCGATCCTGGATGTGAACGGCACGTTGATTCGTGGGTATGAGCCGGAGAATATTCTCAAGGCATTAGCCGCGATATAA	MLTGVLKKCLLVLLVVVAYQNWGKIERVLNPSQMVSKQVRSNARVVLYATDWCGYCKATRRFLDEKGVPFREFDIEKDAEARKTYEALGGRGIPILDVNGTLIRGYEPENILKALAAI				NA	NA	NA	NA	NA
D1-35_01451	1005	yejK	COG3081	Nucleoid-associated protein YejK	ATGCCGATCCGTCATTGCATCGTCCACCTGATCGACAAAAAACCCGACGGCACGCCCGCTGTGCTCCATGCCCGCGACTCCGAACTGGCGGAGTCCACGGCCATCGAGAACATGCTCGCCGACCTCAACGAGAGCTACAACGCCAAGCAAGGCAAGGCCTGGGGCTTCTTCCATGCCGAATCCGGGGCGCATCCGTTCAGTGGCTGGTTGAAGGAATACCTCGACGGCGGCAAGGACTTCACTGCGTTCAGTCGCGTGGCGGTGGAACACCTGCAAAAGCTGATGGAAGAATCCAACCTGTCGGTTGGCGGCCACGTGCTGTTCGCTCATTACCAGCAAGGCATGACCGACTACCTGGCGATCGCCCTGCTGCACCACAGCGAAGGCGTGGCCGTGACTGACGAGCTGGACGTGACCCCGTCGCGCCACCTGGACCTGGGCCAGTTGCACCTGGCGGCGCGGATCAACGTGTCGGAATGGCAGAACAACAAACAGTCCAGACAGTACATCTCGTTCATCAAGGGCAAGAACGGCAAGAAGGTTTCGGAGTACTTTCGCGACTTCATCGGTTGCCAGGAAGGCGTCGACGGCCCCGGCGAAACCCGCACCCTGCTCAAGGCTTTCAGCGACTTCGTCGAAAGCGAAGACCTGCCCGAAGACGACGCCCGGGAGAAAACCAAGACCCTGGTGGACTACGCCAGCAGCCAGGCCAAGCTCGGCGAGCCGATGGGCCTGGAAGAGCTCTCGGAGCTGATCGACGAAGAGCGCCCGAAAGCGTTCTACGACCACATCCGCAACAAGGACTACGGCCTGTCGCCGGAAATTCCGGCGGATAAACGCACCCTCAATCAGTTCCGCCGCTTCACCGGCCGCGCCGAAGGCTTGTCCATCAGCTTCGAAGCGCATCTGCTGGGCTCGAAGATCGAATACGACGAAGAGGCCGGCACGCTGATCATCAAGGGTTTACCGACCTCGCTGACCGATCAGCTCAAGCGGCGTAACTGA	MPIRHCIVHLIDKKPDGTPAVLHARDSELAESTAIENMLADLNESYNAKQGKAWGFFHAESGAHPFSGWLKEYLDGGKDFTAFSRVAVEHLQKLMEESNLSVGGHVLFAHYQQGMTDYLAIALLHHSEGVAVTDELDVTPSRHLDLGQLHLAARINVSEWQNNKQSRQYISFIKGKNGKKVSEYFRDFIGCQEGVDGPGETRTLLKAFSDFVESEDLPEDDAREKTKTLVDYASSQAKLGEPMGLEELSELIDEERPKAFYDHIRNKDYGLSPEIPADKRTLNQFRRFTGRAEGLSISFEAHLLGSKIEYDEEAGTLIIKGLPTSLTDQLKRRN				NA	NA	NA	NA	NA
D1-35_01452	282	hupB_1	COG0776	DNA-binding protein HRm	ATGGCTCTTACTAAAGACCAACTGATCGCTGATTTGGCTGAATCTGTAGACGCACCAAAAGCTACCGTGCGTGCGCTGCTGGACCAACTGGGCCAAGTGGTTGCCGATCAGCTGGAAAACGGCGGCGAACTGACCTTGCCAGGTGTTGGCAAGCTGAAAGTCACCGAGCGTCCTGCCCGTACCGGTCGCAACCCTTCGACTGGCGCAGCCATCGAAATCCCGGCCAAGAAAGTGATCAAGCTGGTTGTGGCCAAAGGCCTGACCGACGCGGTCAACAAGTAA	MALTKDQLIADLAESVDAPKATVRALLDQLGQVVADQLENGGELTLPGVGKLKVTERPARTGRNPSTGAAIEIPAKKVIKLVVAKGLTDAVNK				NA	NA	NA	NA	NA
D1-35_01453	1020	rlmF	COG3129	Ribosomal RNA large subunit methyltransferase F	ATGACCGCTCCTCGCCCTCCCCGCCCTCCCCGCCAGAAGCCCAAGCCCGTCGCCGAGACCAAAGCGCCGCGGGAGAAGGCCAGCCTGCATCCGCGCAATCGCCATCAGGGCCACTATGACTTCCCGGCGCTGATCAAGAGCACACCGGAACTGGCGAAGTTCGTGATCATCAATCCCTACGGCAAGGAAAGCATCGACTTTGCCAGCCCCGAGGCGGTGCGAGTGTTCAACCGGGCGCTGCTCAAGTCCTTTTATGGCATCGCCTATTGGGACATTCCGGCTGACTACCTGTGCCCTCCCGTGCCGGGGCGCGCCGACTACGTGCATTTTCTCGCCGACCTGCTCGCCAGCCACAATGAAGGCGAAATTCCTCGCGGCGCGGCGGTCAAGGTGCTGGACGTTGGCACCGGCGCCAACTGCGTTTATCCGCTGATCGGCTACAGCGATTACCGCTGGCACTTCCTGGGCTCGGAAATCGACCCGACGGCAATCGCGTCGGCCAAGGCCATCGTCCAGTCCAACGGCCTGAACAAAGCCATCCAGCTGCGCCAGCAACCCAACCGCAAGCACATCCTGTCAGGGCTTCTGGAAAGTACCGAACGGTTCGACCTGACGATGTGCAACCCGCCGTTCCACGCCTCCCTGGAGGAAGCCACCAAGGGCAGCCAGCGAAAATGGCGGGCACTGGGCAAGGCGGATCCGAAGCGCAAGTTGCCGGTCTTGAATTTCGGCGGCCAGGCGGCGGAGCTGTGGTGCGAGGGTGGCGAGGCGCGCTTCGTCACGCAGTTGATCAGTGAGAGCGCCCAGATCGCCGGGCAAGTGCTGTGGTTCAGCACGCTGGTATCGAAGGCCTCGAACCTGCCGGCGATTCAAGCCGCGCTGAAAAAGGCCGGAACGCTGCACAGCCAGGTGGTGGAAATGTCCCAGGGGCAGAAGCAGAGTCGGTTCGTGGCTTGGACCTTCCAGGACCAGGCGCAGCAACAAGCCTGGCGCCAGGCGCGCTGGGCTCGCAAGGACTGA	MTAPRPPRPPRQKPKPVAETKAPREKASLHPRNRHQGHYDFPALIKSTPELAKFVIINPYGKESIDFASPEAVRVFNRALLKSFYGIAYWDIPADYLCPPVPGRADYVHFLADLLASHNEGEIPRGAAVKVLDVGTGANCVYPLIGYSDYRWHFLGSEIDPTAIASAKAIVQSNGLNKAIQLRQQPNRKHILSGLLESTERFDLTMCNPPFHASLEEATKGSQRKWRALGKADPKRKLPVLNFGGQAAELWCEGGEARFVTQLISESAQIAGQVLWFSTLVSKASNLPAIQAALKKAGTLHSQVVEMSQGQKQSRFVAWTFQDQAQQQAWRQARWARKD				NA	NA	NA	NA	NA
D1-35_01454	2847	valS	COG0525	Valine--tRNA ligase	ATGGATAAGACCTACCAGCCGCACGCCATTGAAACTTCCTGGTACAACACCTGGGAGTCCGAGAATTATTTCGCTCCGCAAGGCGCGGGCGATTCCTACACCATCATGATCCCGCCGCCGAACGTCACCGGCAGCCTGCACATGGGCCACGGTTTCAACAACGCGATCATGGACGCCCTGATCCGTTTCCGTCGCATGCAAGGCCGCAACACCTTGTGGCAGCCGGGCACCGACCACGCCGGTATCGCCACGCAAATGCTGGTGGAACGTCGCCTCGAAGCCCAGGGCCAGAATCGCCATGACCTGGGTCGCGAGAAATTCCTCGAGAAAGTCTGGGAATGGAAAGACGAATCCGGCGGCAACATCAGCCGTCAGATCCGTCGCCTCGGCTCGTCCGTGGACTGGAGCCGCGAGCGCTTCACCATGGACGACGGCCTGTCCGAAGCGGTCAAGGAAGCCTTCGTGCGCCTGCATGAAGACGGGCTGATCTATCGCGGCAAGCGCCTGGTCAACTGGGACACCAAGTTGCACACGGCGATTTCCGACCTCGAAGTGGAGAACCACGACGAGAAAGGTTTCCTGTGGAACCTGAAGTACCCGCTGGCCGACGGCGCCAAGACCGCCGAAGGCAAGGATTACCTGATTGTCGCCACCACGCGTCCGGAAACCATGCTGGGCGACTCAGCCGTAGCGGTGAACCCGAACGACGAGCGCTACCAGGCGCTGATCGGCCAGTTCGTCGAGCTGCCGCTGGTTGGCCGTCGTATCCCGATCATCGGCGACGACTACTGCGACCCCGAATTCGGCACCGGCTGCGTGAAAATCACCCCGGCTCACGATTTCAACGACTATGAAGTCGGCAAGCGCCACAACCTGCCGCTGCTGAACATCTTCGACAAGAACGCCAATGTCTTGCCGGCCGCCCAGGCATTCAACCTCGACGGCACCCTGAACGAAAGCGTCGACGGCCAGATCCCGGCCGAATACGCCGGCCTGGATCGCTTCGAAGCGCGCAAGCAGATCGTTGCTGCGTTCGAGGCCGCCGGCCTGCTGGTCAGCGTCGACGACCATGCCCTGAAAGTCCCGAAAGGCGATCGCTCTGGCACCATCATCGAGCCGTGGCTGACCGACCAGTGGTACGTGTCGACCAAGCCGCTGGCCGAGCCGGCGATTGCCGCCGTGGAAGACGGCCGCATCCAGTTCGTGCCCAAGCAATACGAAAACATGTACTTCTCGTGGATGCGCGACATCCAGGATTGGTGCATCAGCCGCCAGCTGTGGTGGGGCCACCGCATCCCGGCCTGGTACGACGAGTCGGGCAAGGTCTACGTCGGTCGCGATGAAGCCGAAGTCCGCGCCAAGCACAACCTTGGCCCGGACGTAGCGCTGGCGCAGGACAACGACGTTCTCGACACCTGGTTCAGTTCGGGCCTGTGGACGTTCTCGACCCTGGGCTGGCCGCAACAGACCGAGTTCCTGAAGAAATTCCACTCCACCGACGTGCTCGTCACCGGCTTCGACATCATTTTCTTCTGGGTCGCCCGGATGATCATGCTGACCATGCACTTGGTGAAGAACGAGGACGGCACGCCGCAAGTGCCGTTCAAGACTGTCTACGTCCATGGCCTGGTGCGCGACGGCCAGGGCCAGAAGATGTCCAAGTCCAAGGGCAACGTCCTCGACCCGCTGGACATCATCGACGGCATTGACCTGGAAACCCTGGTGCAGAAACGCACCTCGGGCCTGATGCAGCCGAAACTGGCGAAGAAGATCGAGAAGGCCACCCGCGAAGAATTTGCCGAGGGCATCGCCAGCTACGGCACCGACGCTCTGCGGTTTACCTTCTGCTCGCTGGCATCCACCGGTCGCGACATCAAGTTCGACATGGGCCGCGTCGAAGGCTATCGCAACTTCTGCAACAAGATCTGGAACGCCGCGCGCTACGTGCTGGACAAGGGCGAAGACTGCGGCCAGAACGGCGAAACCTACGAGCTGAGCCTGGCTGACCGCTGGATCATTTCGCAACTGCAACGCACCGAAGCCGAAGTGACCCGCCAGCTCGACCAGTTTCGTTTCGACCTGGCCGCACAAGCGCTGTATGAGTTCATCTGGAACCAGTATTGCGACTGGTACCTGGAACTGTCCAAGCCGGTACTGTGGGACGAAAACGCACCGGTCGAGCGCCAGCGCGGCACCCGTCGCACCCTGGTTCGCGTATTGGAAGTGGCCCTGCGCCTGGCGCATCCGTTCATGCCGTTCATCACCGAGGAAATCTGGCAGCGCGTCGCACCGCTGGCCGGTGCCCAGGGCAAGACGATCATGCTGCAACCGTGGCCGGTGGCCAACGAAAGCCGCATCGATCCGGCAGCCGAAGACGACATCGAGTGGCTGAAGACCTTCATGCTCGGCCTGCGCAACATCCGCGCCGAAATGAACATCGGCCCAGGCAAACCGCTGACCCTGTTCCTGAAAAACGCCAACGCCGAAGACCTGCGCCGTCTCAACGAGAACGAAGCGCTGCTCAAGAAGCTGGCGAAACTGGAATCGGTGACGGTACTGGCTGTGGGCGAAGAAGCACCGCTGTCGGCCACCGCCCTGGTTGGCGAGATGGAAGTGCTGGTGCCAATGGCCGGCCTGATCGACAAGGCCGCCGAACTGGCGCGCCTGGACAAGGAGATCCTGCGTCTGAAGGGCGAAGTCCAGCGCGTCGGCGGCAAGCTGTCGAACGCCGGCTTCGTCGACAAGGCACCGGCCGAAGTCATCGAGAAGGAGCGGGCCAAACTGGCCGAGGCCGAACAGGCCCTGGGCAAGCTGGCCGAGCAGCACGCGCGGATTGCCAGCCTGTAA	MDKTYQPHAIETSWYNTWESENYFAPQGAGDSYTIMIPPPNVTGSLHMGHGFNNAIMDALIRFRRMQGRNTLWQPGTDHAGIATQMLVERRLEAQGQNRHDLGREKFLEKVWEWKDESGGNISRQIRRLGSSVDWSRERFTMDDGLSEAVKEAFVRLHEDGLIYRGKRLVNWDTKLHTAISDLEVENHDEKGFLWNLKYPLADGAKTAEGKDYLIVATTRPETMLGDSAVAVNPNDERYQALIGQFVELPLVGRRIPIIGDDYCDPEFGTGCVKITPAHDFNDYEVGKRHNLPLLNIFDKNANVLPAAQAFNLDGTLNESVDGQIPAEYAGLDRFEARKQIVAAFEAAGLLVSVDDHALKVPKGDRSGTIIEPWLTDQWYVSTKPLAEPAIAAVEDGRIQFVPKQYENMYFSWMRDIQDWCISRQLWWGHRIPAWYDESGKVYVGRDEAEVRAKHNLGPDVALAQDNDVLDTWFSSGLWTFSTLGWPQQTEFLKKFHSTDVLVTGFDIIFFWVARMIMLTMHLVKNEDGTPQVPFKTVYVHGLVRDGQGQKMSKSKGNVLDPLDIIDGIDLETLVQKRTSGLMQPKLAKKIEKATREEFAEGIASYGTDALRFTFCSLASTGRDIKFDMGRVEGYRNFCNKIWNAARYVLDKGEDCGQNGETYELSLADRWIISQLQRTEAEVTRQLDQFRFDLAAQALYEFIWNQYCDWYLELSKPVLWDENAPVERQRGTRRTLVRVLEVALRLAHPFMPFITEEIWQRVAPLAGAQGKTIMLQPWPVANESRIDPAAEDDIEWLKTFMLGLRNIRAEMNIGPGKPLTLFLKNANAEDLRRLNENEALLKKLAKLESVTVLAVGEEAPLSATALVGEMEVLVPMAGLIDKAAELARLDKEILRLKGEVQRVGGKLSNAGFVDKAPAEVIEKERAKLAEAEQALGKLAEQHARIASL				NA	NA	NA	NA	NA
D1-35_01455	366			hypothetical protein	ATGGACACTCCAAAACCGCCGCAAAAACCTGCTCACCTGCTGGATGACCTCGAGTCGATCCGCCAACTGCTCGGTGACGATACCTTGCAGCCACCGCTGTTGACCGACACGGTGGAACACGAAGCCGTGCATGACGAGCAGATTCCGCTGCTGTTCGAACCGATCAACGGCCAGCCCGAACCCAAGCCAGCCCCCAATGCCGAACCAAAAGGCCCCGACGCCCTGTTGCATCTGGACCAGGAATTGCGCGCCGCCGCCCAACTGATCCTGCAAGACGTGATCGACGATTTCGCCCCGCACATCGAAACCGAGATCAAGCGCCGGTTGGATGCGCGTATGGAGCGGTTGTTGAGCCAGTACGAATAG	MDTPKPPQKPAHLLDDLESIRQLLGDDTLQPPLLTDTVEHEAVHDEQIPLLFEPINGQPEPKPAPNAEPKGPDALLHLDQELRAAAQLILQDVIDDFAPHIETEIKRRLDARMERLLSQYE				NA	NA	NA	NA	NA
D1-35_01456	429	holC	COG2927	DNA polymerase III subunit chi	ATGACCAAAGTCGACTTCTACATCCTGCCCAGCGCCGATCCCTCGGCGCGACTGGATTTCGCCTGCAAGCTCACCGAGAAAGCCTGGCGCATGGGCCATCGCATCTATCTGCATTGCAGCGATGCCGCTCAGCGCGAAGACCTGGACGCGCGCCTGTGGGCGTTCAAGGGCGAGAGTTTCGTGCCCCACGGTCCGGCCGAAAGCGAACCCGAAGGGCTGATCGTGCTGGGGCTGGGGGAAGACTGCGGTCAGCATCAGGACCTGCTGGTCAATCTCGACCTGAAAGTGCCGGCGTTTGCCCAGCGTTTCGCCCGCGTGGCGGAAGTCGTGGTCGAAGACCCGGCCATCCGCCAAGCCGCGCGGGAGAGTTTCCGTTTCTACCGCGAACAGGGCTATGCTCTGCAAGACCACCGTTTACAGCGACTCTGA	MTKVDFYILPSADPSARLDFACKLTEKAWRMGHRIYLHCSDAAQREDLDARLWAFKGESFVPHGPAESEPEGLIVLGLGEDCGQHQDLLVNLDLKVPAFAQRFARVAEVVVEDPAIRQAARESFRFYREQGYALQDHRLQRL				NA	NA	NA	NA	NA
D1-35_01457	1491	pepA	COG0260	Cytosol aminopeptidase	ATGGAACTGGTTGTAAAAAGCGTCAGCCCAGAAACGTTGAAGACCGCCACGCTGGTGGTTGCCGTTGGTGAGAACCGCCAGCTCGGCGTCGTCGCCACCCAGCTCGACGCCTTGAGCGGCGGCGCCATCAGCGCTGTACTCAAGCGCGGCGACCTGGCCGGCAAGGTCGGCCAGAGCCTGCTGCTGCACAGCCTCCCCAACCTCAAGGCCGAGCGTGTGTTGCTGGTGGGCGTTGGCAAGGACGCTGAACTGGGCGACCGTCCGTTCCGCAAGATCATTGCCGGCGTCTTGGGCACCCTGAAAAACCTGGGCGGTGGCGACGCCGTGCTGGCCTTGGACGAACTGGTTGTAAAAGGCCGCGACAGCTACGGCAAGAATCGCCTGCTGGCCGAGACCCTGGTGGATGGCGAATACCAGTTCGACCAGTTCAAGAGCCAGAAAGCCGAACCCCGTGCGCTGAAAAAAATCACCCTGCTGACCATCAAGGCCGCCCAGGCCGAAGTCCAGCGCGCCGTGACCCACGCCACCGCGATCGCCAACGGCATGGCCTTCACCCGCGACCTGGGCAACCTGCCGCCGAACATCTGCCACCCGACCTTCATGGGTGAACAGGCCAAGGCACTGGGCAAGGAATTCAAGGGTCTGAAGGTCGAGGTCTTCGACGAGAAGAAAATCAAGGACCTGGGCATGGGTTCGTTCTATGCCGTCGGCCAGGGCAGCGCCCAGCCGCCACGCCTGATCGTGATGCAATACAACGGCGGCAAGAAATCCGAGAAGCCGTACGCCCTGGTGGGCAAGGGCATCACTTTCGACACCGGCGGCATCAGCCTCAAGCCCGGCGCCGGCATGGATGAAATGAAATACGACATGGGCGGCGCCGCCAGCGTGTTCGGCACCCTGCGCGCCGTGCTCGAGCTGCAATTGCCGATCAACCTGGTCTGCATCCTCGCCTGCGCCGAGAACATGCCCAGCGGCACGGCTTCGCGCCCGGGCGACATCGTCACCACCATGAGCGGCCAGACCGTGGAAATCCTCAACACCGATGCCGAAGGCCGTCTGGTGCTGTGCGACGCCCTCACCTATTCCGAACGCTTCAAGCCGCAAGCGGTGATCGACATCGCCACGCTGACTGGCGCCTGCGTCGTCGCCCTGGGCGCCCATACCTCGGGCCTGCTGGGCAACAATGACGAGCTGATCGGCCAACTGCTCAGCGCCGGCCAGCAGGCCGACGATCGCGCTTGGCAATTGCCGCTGTTCGATGAGTACCAGGAACAGCTGGACAGCCCGTTCGCCGACATCGCCAACATCGGTGGCCCGAAAGCCGGGACCATCACCGCAGCGTGCTTCCTGTCGCGCTTCACCAAGAACCTGAACTGGGCCCACCTGGACATCGCCGGCACGGCCTGGACCAGCGGCGGCAAGGACAAGGGCGCCACCGGCCGTCCGGTACCCCTGCTGACCCAGTACCTGCTGGACCGCGCCAAGGCCTGA	MELVVKSVSPETLKTATLVVAVGENRQLGVVATQLDALSGGAISAVLKRGDLAGKVGQSLLLHSLPNLKAERVLLVGVGKDAELGDRPFRKIIAGVLGTLKNLGGGDAVLALDELVVKGRDSYGKNRLLAETLVDGEYQFDQFKSQKAEPRALKKITLLTIKAAQAEVQRAVTHATAIANGMAFTRDLGNLPPNICHPTFMGEQAKALGKEFKGLKVEVFDEKKIKDLGMGSFYAVGQGSAQPPRLIVMQYNGGKKSEKPYALVGKGITFDTGGISLKPGAGMDEMKYDMGGAASVFGTLRAVLELQLPINLVCILACAENMPSGTASRPGDIVTTMSGQTVEILNTDAEGRLVLCDALTYSERFKPQAVIDIATLTGACVVALGAHTSGLLGNNDELIGQLLSAGQQADDRAWQLPLFDEYQEQLDSPFADIANIGGPKAGTITAACFLSRFTKNLNWAHLDIAGTAWTSGGKDKGATGRPVPLLTQYLLDRAKA				NA	NA	NA	NA	NA
D1-35_01458	1122	lptF	COG0795	Lipopolysaccharide export system permease protein LptF	TTGATCGTCTTCCGTTATCTATCCCGCGAAGTCCTGCTGACCCTGAGCGCGGTCAGTGCCGTGCTGCTGGTCATCATCATGAGCGGGCGCTTCATCAAGTACCTTGCCCAGGCGGCTTCGGGCGCCCTCGATCCGGGCTCGCTGTTCCTGATCATGGGGTTCCGCCTGCCGGGCTTCCTGCAACTGATCCTGCCGCTGGGATTGTTCCTCGGGATCCTGCTGGCCTACGGTCGCCTCTACCTGGACAGTGAAATGACCGTGCTGTCGGCCACCGGCATGAGTCAGCAGCGTCTGTTTCGCATCACTCTGTTCCCGGCCACATTGGTGGCGCTGGTGGTGGCCTGGCTGAGCCTGAGCCTGTCGCCCCAGGGCGCCAACCAGTTCCAGCTGTTGATCAACCAGCAGGACGCCATGACCGAATTCGACACCCTGGTACCGGGGCGCTTCCAGGCCCTGCGCGACGGGACGCGTGTCACCTACACCGAACAACTGTCGGACGACCGGGTCAACCTCGGCGGCGTCTTTATCACCCAGAAAAACGTCTCTTCGGACACCAAGAAGGACCGCGGCATTTCCGTGCTGGTGGCTGAGAAAGGCCGCCAGGAAATCAACCCCGACGGCAACCGCTACCTGATCCTGGAGAACGGCTATCGCTACGATGGCACCCCGGGACAGGCCGATTACCGGGCGATCAAGTACGACACCTACGGTGTGCTGCTGCCCAAGCCCGATGTCAGCGATGAAGTCACCGACCGCGATGCGATGCCTACCGCCAGCCTGCTGGGCAGTGATGACATCCGCGCCCGCACCGAACTGCAATGGCGCCTGTCGCTGCCGTTGCTGGTGTTCATTGTGACCCTCATGGCGGTCCCGCTGTCGCGGGTCAATCCGCGCCAGGGTCGTTTCCTCAAGCTGCTGCCGGCGATTCTTTTGTATATGGCCTACCTGACCATCCTGATTTCCGCCCGCAGTGCCCTGGAGAAAGGCAAGATCCCGCCGGCCCTGGGCCTGTGGTGGGTGCATTCGATCTTCCTGGTCATTGGCCTGGGCTTGCTCTATTGGGAGCCGTTGCGCTTGAAGCTGGCCAGTCGTCGCAGCGCGCTGGAGGTGGCCCGTGGTTAA	MIVFRYLSREVLLTLSAVSAVLLVIIMSGRFIKYLAQAASGALDPGSLFLIMGFRLPGFLQLILPLGLFLGILLAYGRLYLDSEMTVLSATGMSQQRLFRITLFPATLVALVVAWLSLSLSPQGANQFQLLINQQDAMTEFDTLVPGRFQALRDGTRVTYTEQLSDDRVNLGGVFITQKNVSSDTKKDRGISVLVAEKGRQEINPDGNRYLILENGYRYDGTPGQADYRAIKYDTYGVLLPKPDVSDEVTDRDAMPTASLLGSDDIRARTELQWRLSLPLLVFIVTLMAVPLSRVNPRQGRFLKLLPAILLYMAYLTILISARSALEKGKIPPALGLWWVHSIFLVIGLGLLYWEPLRLKLASRRSALEVARG	PGPT0023290_1383	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023290-lptF-K07091	NA	NA
D1-35_01459	1062	lptG	COG0795	Lipopolysaccharide export system permease protein LptG	GTGGTTAAACTCGACCGCTATATCGGCAGCAGCGTGTTCATGGCGATCCTCGCGGTGCTGGGAATCATTCTTGGCCTGGCGACCCTGTTCGCGTTCATCGACGAGATGGGCGATGTCAGCGATACCTATACATTGCTGGACGTGGCGAGCTACGTGTTGCTGACGGCGCCAAGGCGCCTGTACGACATGTTGCCGATGGCTGCGCTGATCGGTTGCCTGATCGGCCTGGGGAGCCTGGCGAGCAACAGCGAACTGACCATCATGCGCGCCGCCGGCGTGTCCATCGGCCGCATCGTGTGGGCGGTGATGAAACCGATGCTGGTGCTGATGCTGGTCGGGCTGCTGGTCGGCGAGTACGTCGCGCCGGCCACCGAGAACACCGCCCAGGCCAATCGCTCCCTGGCCCAGGGCGGCGGTGATGCCCAAAGCGCCAAGCATGGCTTGTGGCACCGCCAGGGTGACGAGTTCATCCACATCAACTCGGTCCAGCCTAACGGCACGCTGTACGGCGTGACCCGGTATCGCTTCGACGACGAGCGGCACCTGTTGTCGTCGAGCTTCGCCAAACGCGCCAATTTCGCCGAGGATCACTGGCAACTGACCGACGTCACCACCACCTTGTTCCATGACAAGCGCACCGAGGTGGTCGCCGCTCCACAGGAACGTTGGGACGTGCAGATCAGCCCGCAGTTGCTCAGCACCGTCGTGATGGCGCCGGAGTCGCTTTCGATCACCGGTTTGTGGGGTTACATCCACTATCTGGCGGACCAGGGCCTGAACAATGGCCGCTACTGGCTGGCATTTTGGGTCAAGGTATTGCAGCCGCTGGTTACTGCCGCCCTGGTGTTGATGGCGATTTCCTTCATCTTTGGTCCGCTGCGCTCGGTGACCCTCGGCCAGCGCGTCTTCACCGGCGTACTGGTCGGCTTCACCTTCCGCATCGCCCAGGACTTGCTGGGGCCATCGAGCCTGGTGTTCGGTTTCTCGCCGCTGTTCGCCGTGCTGGTGCCGGCCACGATCTGCGCGCTGGCCGGGCTCTGGCTGCTGCGCCGGGCGGGTTGA	MVKLDRYIGSSVFMAILAVLGIILGLATLFAFIDEMGDVSDTYTLLDVASYVLLTAPRRLYDMLPMAALIGCLIGLGSLASNSELTIMRAAGVSIGRIVWAVMKPMLVLMLVGLLVGEYVAPATENTAQANRSLAQGGGDAQSAKHGLWHRQGDEFIHINSVQPNGTLYGVTRYRFDDERHLLSSSFAKRANFAEDHWQLTDVTTTLFHDKRTEVVAAPQERWDVQISPQLLSTVVMAPESLSITGLWGYIHYLADQGLNNGRYWLAFWVKVLQPLVTAALVLMAISFIFGPLRSVTLGQRVFTGVLVGFTFRIAQDLLGPSSLVFGFSPLFAVLVPATICALAGLWLLRRAG	PGPT0023295_3036	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023295-lptG-K11720	NA	NA
D1-35_01460	1800	lepA	COG0481	Elongation factor 4	GTGAGTGATTTGAGTCATATCCGCAATTTCTCCATCATCGCCCACATTGACCATGGCAAGTCGACGCTGGCTGATCGCTTCATCCAGATGTGCGGCGGTCTGGCCGAGCGTGAAATGGAAGCCCAGGTCCTGGACTCCATGGACCTCGAGCGTGAGCGCGGGATCACCATCAAGGCCCACAGCGTTACCCTCTATTACAAGGCTCGCGACGGCGTCACCTACCAGCTCAACTTCATCGACACCCCCGGCCACGTCGACTTCACCTATGAAGTCAGCCGGTCGCTGGCGGCCTGTGAAGGCGCGCTGCTGGTTGTCGATGCCGGCCAGGGCGTCGAGGCCCAGTCGGTCGCCAACTGCTACACGGCCATCGAGCAAGGCCTGGAAGTCATGCCGGTATTGAACAAGATCGACCTGCCCCAGGCCGATCCGGACCGCGTGAAAGAAGAAATCGAGAAAATCATCGGCATCGACGCCACCGACGCGGTCACTTGCAGCGCCAAGACCGGCCTGGGCGTGGATGAAGTGCTCGAGCGCCTGGTCACTACCATTCCGGCGCCGACCGGCAATATCGAAGATCCGCTGCAGGCGTTGATCATCGACTCGTGGTTCGACAACTACCTGGGCGTGGTCTCCCTGGTTCGCGTGCGCCATGGCCGCGTGAAGAAGGGCGACAAGATCCTGGTCAAGTCCACTGGCAAGATCCACCTGGTGGACAGTGTTGGTGTGTTCAATCCGAAACACACCGCCACCGTCGACCTGAAGGCTGGCGAAGTCGGCTTCATCATTGCCGGTATCAAGGACATCCACGGTGCGCCGGTCGGCGACACCCTGACCTTGAGCTCGACCCCCGACGTCGACGTGCTGCCGGGCTTCAAACGCATTCAGCCGCAGGTCTATGCCGGCCTGTTTCCGGTCAGCTCCGACGACTTCGAGGATTTCCGCGAAGCACTGCAGAAGCTGACCCTGAACGACTCGTCCCTGCAGTACACCCCGGAAAGCTCCGACGCCCTGGGCTTCGGTTTCCGCTGCGGGTTCCTCGGCATGCTGCACATGGAAATCATCCAGGAGCGCCTGGAGCGCGAATACGACCTGGACCTGATCACCACGGCGCCGACGGTAATCTTCGAGCTGCTGCTCAAGAACGGCGAGACCATCTACGTCGACAACCCGTCCAAGCTGCCGGACCTGTCGGCCATCGAGGACATGCGCGAGCCAATCGTGCGGGCGAATATCCTTGTGCCTCAGGAACACCTGGGCAACGTCATTACCCTGTGCATCGAGAAGCGCGGCGTGCAACACGACATGCTGTTCCTCGGCACGCAGGTCCAGGTGACCTACGACTTGCCGATGAACGAAGTGGTGCTGGACTTCTTCGACCGCCTGAAATCCACCAGCCGCGGCTATGCTTCGCTGGACTATCATTTCGATCGTTACCAATCGGCTAATCTGGTGAAGCTGGATGTGCTGATCAACGGCGAAAAAGTCGATGCCCTGGCATTGATCGTGCACCGTGACAACGCGCACTACAAAGGTCGTGCGTTGACCGAGAAGATGAAGGAGCTGATTCCGCGGCAGATGTTCGACGTGGCAATCCAGGCCGCCATTGGCGGGCAGATTGTGGCGCGCACAACCGTCAAGGCACTCAGAAAGAACGTATTGGCCAAATGCTACGGCGGCGACGTCAGCCGTAAGCGCAAGCTGTTGGAAAAGCAGAAGGCCGGTAAAAAACGCATGAAGCAGGTCGGTAACGTGGAAATTCCACAGGAAGCCTTCCTTGCGGTGCTCAGGTTGGATAGTTAG	MSDLSHIRNFSIIAHIDHGKSTLADRFIQMCGGLAEREMEAQVLDSMDLERERGITIKAHSVTLYYKARDGVTYQLNFIDTPGHVDFTYEVSRSLAACEGALLVVDAGQGVEAQSVANCYTAIEQGLEVMPVLNKIDLPQADPDRVKEEIEKIIGIDATDAVTCSAKTGLGVDEVLERLVTTIPAPTGNIEDPLQALIIDSWFDNYLGVVSLVRVRHGRVKKGDKILVKSTGKIHLVDSVGVFNPKHTATVDLKAGEVGFIIAGIKDIHGAPVGDTLTLSSTPDVDVLPGFKRIQPQVYAGLFPVSSDDFEDFREALQKLTLNDSSLQYTPESSDALGFGFRCGFLGMLHMEIIQERLEREYDLDLITTAPTVIFELLLKNGETIYVDNPSKLPDLSAIEDMREPIVRANILVPQEHLGNVITLCIEKRGVQHDMLFLGTQVQVTYDLPMNEVVLDFFDRLKSTSRGYASLDYHFDRYQSANLVKLDVLINGEKVDALALIVHRDNAHYKGRALTEKMKELIPRQMFDVAIQAAIGGQIVARTTVKALRKNVLAKCYGGDVSRKRKLLEKQKAGKKRMKQVGNVEIPQEAFLAVLRLDS	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
D1-35_01461	855	lepB	COG0681	Signal peptidase I	ATGTCGCTAAATTTCCCGCTGTTGCTGGTGATCGCCGTGTTCGTCTGCGGCCTGTTGGCGTTGCTTGATCTGTTGTTCCTGGCGCCTCGGCGTCGGGCCGCCATTGCCTCATATCAGGGCAGCGTCAGCCAGCCTGATGGCGTGGTCATCGAAAAGCTCAACAAGGAACCGCTGCTGGTCGAATACGGCAAGTCGTTCTTCCCGGTGCTGTTCATCGTCCTGGTGCTGCGCTCGTTCCTGGTGGAGCCGTTCCAGATCCCGTCCGGCTCGATGAAGCCGACCCTGGACGTGGGCGACTTCATCCTGGTGAACAAGTTTTCCTACGGGATCCGGCTGCCGGTGATCGACAGGAAAGTCATCGAGATCGGCGACCCGCAACGGGGTGATGTGATGGTGTTCCGCTTCCCGAGCGACCCGAACGTCAACTACATCAAGCGTGTGGTCGGCCTGCCGGGCGACAGGATTCGCTACACCGCCGACAAGCGTCTGTTCGTCAACGGCGAACTGGTGGCCGAGCAGTTGATCGGCTCCGAGCCGGGCACGCTGGGCAGTGCCGAGCTCTACAAGGAAAAACTCGGCGAGGCGGAACACCTGATCCGCAAGGAAATGAGCCGCTACCGCGCCACGCCGGACCATTCATGGACCGTGCCGGCCGGGCACTATTTCATGATGGGCGACAACCGCGACAACTCCAACGACAGCCGCTACTGGGATGATCCGAACATTCCCAGGGACATGCTGGGCATGGTCCCCGACCGCAACATCGTCGGCAAGGCCTTTGCGGTCTGGATGAGCTGGCCGGAACCCAAACTCAGTCACCTGCCGAATTTCTCGCGGGTTGGCCTGATCAAGTAA	MSLNFPLLLVIAVFVCGLLALLDLLFLAPRRRAAIASYQGSVSQPDGVVIEKLNKEPLLVEYGKSFFPVLFIVLVLRSFLVEPFQIPSGSMKPTLDVGDFILVNKFSYGIRLPVIDRKVIEIGDPQRGDVMVFRFPSDPNVNYIKRVVGLPGDRIRYTADKRLFVNGELVAEQLIGSEPGTLGSAELYKEKLGEAEHLIRKEMSRYRATPDHSWTVPAGHYFMMGDNRDNSNDSRYWDDPNIPRDMLGMVPDRNIVGKAFAVWMSWPEPKLSHLPNFSRVGLIK				NA	NA	NA	NA	NA
D1-35_01462	627	rnc	COG0571	Ribonuclease 3	ATGCTCCTGGCCCTGACTCACCGCAGTTTTGCCGGGCGCAACAACGAACGCCTGGAATTCCTCGGCGATGCCATCCTCAACTTCGTGGCCGGCGAGGCGTTGTTCGAACGCTTCCCCCTGGCGCGGGAAGGCCAGTTGTCGCGTTTGCGTGCACGGTTGGTAAAAGGTGAGACCCTGGCGGTACTGGCCCGTGGTTTTGACCTGGGCGATTACCTGCGCCTGGGCTCCGGCGAGTTGAAAAGTGGCGGTTTTCGTCGCGAATCGATCCTGGCCGATGCCCTGGAAGCGCTGATTGGCGCGATCTATCTGGATTCCGGCATGGAAATGGCCCGCGAGCGGGTGCTGGCCTGGCTGACTTCCGAGATCGACAGCCTGACGCTGGTGGACACCAACAAGGATCCCAAGACGCGCTTGCAGGAATTCCTGCAGTCGCGCAGCTGCGAACTGCCGCGCTACGAAGTGGTGGATATCCAGGGTGAGCCGCATTGCCGAACCTTCTTCGTCGAATGCGAAGTGGTCCTATTGAATGAAAAAAGCCGAGGCCAGGGCGTCAGCCGTCGTATTGCCGAACAGGTAGCGGCCGCTGCAGCACTGATCGCCCTGGGCGTGGAGAATGGCAATGACTGA	MLLALTHRSFAGRNNERLEFLGDAILNFVAGEALFERFPLAREGQLSRLRARLVKGETLAVLARGFDLGDYLRLGSGELKSGGFRRESILADALEALIGAIYLDSGMEMARERVLAWLTSEIDSLTLVDTNKDPKTRLQEFLQSRSCELPRYEVVDIQGEPHCRTFFVECEVVLLNEKSRGQGVSRRIAEQVAAAAALIALGVENGND				NA	NA	NA	NA	NA
D1-35_01463	903	era_2	COG1159	GTPase Era	ATGACTGATACAACCGTCACCCGCTGCGGCTATGTCGCCATCGTTGGCCGGCCGAACGTGGGCAAGTCGACATTGCTCAACCACATTCTCGGCCAGAAGCTGGCGATCACGTCGCGCAAGCCGCAAACCACTCGCCACAACATGCTCGGCATCAAGACCGAAGGCGCCGTACAGGCGATCTACGTCGACACGCCCGGCATGCACAAGGGCGGCGAGAAGGCCCTGAACCGCTACATGAACAAGACGGCCTCGGCGGCGTTGAAGGACGTTGACGTGGTCATCTTCGTGGTCGACCGCACCAAGTGGACCGAAGAAGACCAGATGGTCCTCGAGCGTGTCCAGTACGTGACCGGTCCCTTGATCGTTGCGCTGAACAAGACCGACCGCATCGAAGACAAGGCCGAGCTGATGCCGCACCTGAGCTGGTTGCAAGAGCAGTTGCCGAATGCCCAGATCATCCCGATCTCTGCCCAGCACGGTCACAACCTCGACGCGCTGGAGCGGGTAATCGCCGAGCACCTGCCGGAAAACGATCACTTCTTCCCCGAAGACCAGATCACCGACCGCAGCAGCCGTTTTCTCGCCGCCGAACTGGTCCGCGAGAAAATCATGCGCCAGATGGGTGCCGAGCTGCCGTACCAGATCACGGTGGAAATCGAAGAGTTCAAGCAGCAGGGCAAGACCCTGCACATCCATGCCTTGATCCTCGTCGAGCGTGACGGCCAGAAAAAAATCATCATTGGCGACAAGGGCGAGCGCATCAAGCGCATCGGCACCGAGGCGCGCAAGGACATGGAGCTGCTGTTCGACTCCAAGATCATGCTCAACCTGTGGGTCAAGGTGAAGGGTGGCTGGTCCGATGACGAGCGGGCGTTGCGCTCGCTGGGTTACGGCGACCTCTGA	MTDTTVTRCGYVAIVGRPNVGKSTLLNHILGQKLAITSRKPQTTRHNMLGIKTEGAVQAIYVDTPGMHKGGEKALNRYMNKTASAALKDVDVVIFVVDRTKWTEEDQMVLERVQYVTGPLIVALNKTDRIEDKAELMPHLSWLQEQLPNAQIIPISAQHGHNLDALERVIAEHLPENDHFFPEDQITDRSSRFLAAELVREKIMRQMGAELPYQITVEIEEFKQQGKTLHIHALILVERDGQKKIIIGDKGERIKRIGTEARKDMELLFDSKIMLNLWVKVKGGWSDDERALRSLGYGDL				NA	NA	NA	NA	NA
D1-35_01464	684	recO	COG1381	DNA repair protein RecO	ATGTCTCAACCCACCGCTCAATCCGCCTACGTCCTCCACAGCCGCGCCTACCGCGAAAGCAGCGCCCTGGTGGACTTCCTCACGCCTCAAGGGCGGCTGCGGGCGGTGTTGCGGGGGGCTCGGGGCAAGGCCGGGACCCTGGCGCGGCCGTTCGTGCCGCTGGAAGTCGAGTTTCGCGGCCGGGGTGAGTTGAAGAATGTCGGGCGCATGGAAAGCAATGGCGTCGCCTCCTGGCTCAATGGCGAAGCGCTGTTCAGTGGCCTGTACCTCAACGAATTGCTGATCCGCCTGCTGCCCGCCGAAGATCCCCATCCCGCCGTGTTCGACCATTACACCGCCACGTTGCTGGCCCTGGCCGAGGGTCGACCCTTGGAGCCATTGCTGCGCTCTTTCGAATGGCGCCTGCTGGATGACCTGGGCTACGGTTTTGCCCTGGACGCCGACCTGCACGGCGATCCTATTGCGGCCGACGGTCTGTATCGCCTGCAAGTGGATGCAGGCCTGGAGCGGGTCTACCTGCTGCAACCGGGACTGTTCAACGGCGTCGAGTTGCTGGCCATGGCGCAAGCCGACTGGACAGCGCCTGGCGCGCTGGCGGCGGCCAAGCGGCTGATGCGCCAGGCCCTGGCGGTTCATCTGGGCGGCCGGCCGCTGGTCAGTCGCGAGTTGTTTCGCAAGCCCTGA	MSQPTAQSAYVLHSRAYRESSALVDFLTPQGRLRAVLRGARGKAGTLARPFVPLEVEFRGRGELKNVGRMESNGVASWLNGEALFSGLYLNELLIRLLPAEDPHPAVFDHYTATLLALAEGRPLEPLLRSFEWRLLDDLGYGFALDADLHGDPIAADGLYRLQVDAGLERVYLLQPGLFNGVELLAMAQADWTAPGALAAAKRLMRQALAVHLGGRPLVSRELFRKP				NA	NA	NA	NA	NA
D1-35_01465	744	pdxJ		Pyridoxine 5'-phosphate synthase	GTGAGTACCAGCAATCGCATTCTTCTCGGCGTCAACATCGACCATGTCGCCACTCTGCGCCAGGCCCGTGGTACGCGTTACCCGGACCCGGTCAAGGCCGCGCTGGACGCCGAAGAGGCGGGCGCCGATGGCATCACCGTGCACTTGCGCGAAGACCGTCGACACATCCAGGAACGCGACGTGCTGCTGCTCAAGGATGTGCTGCAGACTCGCATGAATTTTGAAATGGGCGTGACCGAGGAAATGATGGCGTTCGCCGAACGCATCCGTCCGGCGCACATCTGCCTGGTTCCGGAGACGCGCCAGGAACTGACCACCGAAGGCGGCCTGGATGTAGCGGGGCAGGAGTCGCGGATCAGCCTGGCGGTGGAGCGCCTGTCGAAGATCGGTGCCGAGGTCTCGCTGTTCATCGATGCCGATGAACGGCAGATCGAAGCCTCCAAGCGTGTCGGTGCGCCGGCCATCGAGCTGCACACCGGCCGTTACGCCGACGCCGAGACACCTAAGGACGTGGCCGATGAGCTGCAGCGGGTCGCCGACGGCGTCAGCTTCGGCCTGGCCCAGGGGCTGATCGTCAATGCCGGCCATGGTCTGCATTACCACAACGTTGAAGCCGTCGCGGCCATCAAGGGCATCAACGAGCTGAACATCGGCCACGCGCTGGTGGCCCATGCGTTGTTTGTCGGGTTCAAGTCGGCTGTGGCGGAGATGAAAGCGTTGATCCTGGCGGCTGCCCGACCCTGA	MSTSNRILLGVNIDHVATLRQARGTRYPDPVKAALDAEEAGADGITVHLREDRRHIQERDVLLLKDVLQTRMNFEMGVTEEMMAFAERIRPAHICLVPETRQELTTEGGLDVAGQESRISLAVERLSKIGAEVSLFIDADERQIEASKRVGAPAIELHTGRYADAETPKDVADELQRVADGVSFGLAQGLIVNAGHGLHYHNVEAVAAIKGINELNIGHALVAHALFVGFKSAVAEMKALILAAARP	PGPT0009170_1169	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009170-pdxJ-K03474	NA	NA
D1-35_01466	1338	mltF_2	COG4623	Membrane-bound lytic murein transglycosylase F	GTGCTGCGGGTGGTTACCCGGAACAGCCCCGCCACCTACTTCCAGGATCGCAATGGTGAGACCGGCTTCGAATACGAGCTGGTGAAGCGCTTCGCCGAGGATTTGGGGGTCGAGCTGAAGATCGAGACCGCTGACAACCTTGACGACCTGTTCAGCCAGGTCGGCAAGCCCAATGGCCCGGTGCTGGCCGCGGCGGGCCTGGTCAGCAGCGAACAGCGCAAGAAACAGGTACGGTTCTCCCACGCCTACCTGGAGGTTACCCCGCAGGTCATCTACCGCAACGGCCAGTCCCGCCCCACCGATGCGGCCGCCCTGGCGGGCAAGAAGATCATGGTGCTCAAGGGCAGCTCCCACGCGGAGCAGCTCGCGCAGTTGAAACAGCAGTATCCGGGAATCGAATACGAGGAATCCGACGCGGTTGAAGTCGTCGACCTGCTGCGCATGGTCGATGAAGGCCAGATCGACCTGACGCTGGTGGATTCCAACGAAGTGGCGATGAACCAGGTGTACTTCCCTAACGTGCGCGTGGCGTTCGACCTCGGCGATGCCCGCAGCCAGAGCTGGGCGGTGGGCCCCGGCGAAGACAACAGCCTGCTCAACGAAATCAACGCCTACCTCGACAAGGTGCAGAAGAACGGCACGCTGCAACGCCTCAAGGACCGCTATTACGGGCACGTCGACGTCCTCGGCTACATGGGCGCGACCACCTTCGCCCAGCATCTGCAGCAACGCCTGCCCAAATACGAGCAACACTTCAAGACCTACGCCAAGAAGGAAAAGGTCGACTGGCGCCTGCTGGCTGCCATCGGCTACCAGGAATCGCTTTGGCAACCGACGGTCACCTCCAAGACCGGCGTGCGCGGCCTGATGATGCTGACCCAGAACACCGCCCAGGCCATGGGTGTGTCCAACCGCCTCGATCCGAAGCAGAGCATCATGGGCGGCGCCAAGTACCTGGCCTATATGAAGGAGCAACTGGACGAGAGCATCGAGGAGCCGGACCGCACCTGGTTCGCCCTCGCCGCCTACAACGTGGGCAGTGGTCACCTGGACGACGCGCGCAAGCTCGCCGCCAAGGAAGGGCTGAACCCGAACAAGTGGCTCGACGTGAAGAAGATCCTGCCGCGCCTGTCCCAGAAACAGTGGTACAGCAAGACCCGCTACGGCTACGCCCGGGGCGGCGAACCGGTGCATTTCGTGGCGAACATCCGTCGCTACTACGACATCCTCACCTGGGTGACGCAGCCACAGCTCGAAGGCGACCAGGTAGCCGAGGGCAACCTGCATGTACCGGGCGTGGACAAGAGCAAGCCTAACCAGGAATCTCCACAGCTCTAA	MLRVVTRNSPATYFQDRNGETGFEYELVKRFAEDLGVELKIETADNLDDLFSQVGKPNGPVLAAAGLVSSEQRKKQVRFSHAYLEVTPQVIYRNGQSRPTDAAALAGKKIMVLKGSSHAEQLAQLKQQYPGIEYEESDAVEVVDLLRMVDEGQIDLTLVDSNEVAMNQVYFPNVRVAFDLGDARSQSWAVGPGEDNSLLNEINAYLDKVQKNGTLQRLKDRYYGHVDVLGYMGATTFAQHLQQRLPKYEQHFKTYAKKEKVDWRLLAAIGYQESLWQPTVTSKTGVRGLMMLTQNTAQAMGVSNRLDPKQSIMGGAKYLAYMKEQLDESIEEPDRTWFALAAYNVGSGHLDDARKLAAKEGLNPNKWLDVKKILPRLSQKQWYSKTRYGYARGGEPVHFVANIRRYYDILTWVTQPQLEGDQVAEGNLHVPGVDKSKPNQESPQL	PGPT0014715_511	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0014715-yfhD-K18691	NA	NA
D1-35_01467	3897	purL	COG0046	Phosphoribosylformylglycinamidine synthase	ATGTTGATCCTGCGCGGCGCTCCTGCCCTTTCTGCCTTTCGCCACAGCAAACTCCTTGAGCAACTGAGCCGATGCGTTCCGGCTGTCAGTGGCTTGTATGCTGAATTCGCTCACTTCGCCGAAGTCACCGGCGGTTTGACCGGCGACGAACAGCAGGTGCTCGCGCGCCTTCTGAAGTACGGCCCCAGCGTTCCCGTCCAGGAACCGACCGGTCGTCTGTTCCTGGTATTGCCGCGTTTCGGCACCATTTCGCCGTGGTCGAGCAAGGCCAGTGATATTGCGCGCAATTGCGGCCTGGCGAAAATCCAGCGTCTGGAGCGCGGCATTGCCTTTTATGTCGCCGGTGAGTTCAGCGAGGCCGAGGCCCAACTGATTGCCGATGGCCTGCATGACCGCATGACCCAGGTCGTTCTGGGCAACCTGGAGCAGGCCGCCGGCCTGTTCAGCCATGCCGAACCCAAGCCGCTGACCGCTATCGACGTGCTGGGCGGTGGCCGCGCCGCGCTGGAAAAAGCCAACGCCGAGCTGGGCCTGGCCCTGGCCGAAGACGAGATCGATTACCTGGTCGACGCCTTCCAGGGCTTGCAGCGCAACCCGCACGACATCGAACTGATGATGTTCGCCCAGGCCAACTCCGAGCACTGCCGCCACAAGATCTTCAACGCCAGTTGGGACATTGACGGTCAGAGCCAGGAAAAAAGCCTGTTCGGCATGATCAAGAACACCTACCAGATGCACAACGAAGGTGTGCTGTCGGCCTACAAGGACAACGCGGCGGTGATCGTCGGCAACGTTGCCGGTCGCTTCTACCCGAACCCTGAGACCCGCCAGTACGGTGCGGTCCAGGAGCCGGTGCACATCCTGATGAAGGTCGAAACCCACAACCACCCAACCGCCATCGCCCCGTTCCCGGGCGCGTCCACCGGTTCCGGTGGCGAGATCCGCGACGAAGGCGCTACCGGCCGTGGCGCCAAGCCCAAGGCCGGCCTGACCGGCTTCACCGTGTCGAACCTGCAGATCCCGGGCTTTGAACAGCCGTGGGAAAAGCCTTACGGCAAGCCTGAGCGCATCGTCAACGCCCTCGACATCATGATCGAAGGCCCGCTCGGCGGCGCGGCATTCAACAACGAATTCGGCCGTCCGGCCCTGACCGGTTACTTCCGTACTTTCGAGCAGTCCATCAACACCCCGCGCGGTGAAGAGGTTCGTGGCTATCACAAGCCGATCATGCTCGCCGGCGGCATGGGCAACATCCGCGCCGAACACGTACAGAAGGGCGAGATCCTGGTCGGCTCCAAGCTGATCGTCCTCGGCGGCCCGGCCATGCTGATCGGCTTGGGTGGCGGCGCCGCTTCCTCCATGGCCACCGGCACCAGCTCGGCGGACCTGGACTTCGCCTCGGTCCAGCGCGAAAACCCGGAAATGGAACGCCGCTGCCAGGAAGTCATCGACCGTTGCTGGCAGCTGGGCGAGCAGAACCCCATCAGCTTCATCCATGACGTCGGCGCGGGCGGCCTGTCCAATGCCTTCCCGGAGCTGGTCAACGACGGCGGTCGTGGTGGTCGCTTCGAATTGCGCAACATTCCGAACGACGAGCCGGGCATGGCCCCGCACGAAATCTGGAGCAACGAATCCCAGGAACGTTACGTCCTGGCGGTCGGCCCGGCCGACTTCGAGCGCTTCAAGGCGATCTGCGAGCGTGAGCGCTGCCCGTTCGCGGTCGTCGGCGAAGCCACCGCCGAGCCGCAACTGACCGTCACCGACAGTCATTTCGGCAACAGCCCGGTGGACATGCCGCTGGAAGTGCTGCTGGGCAAAGCCCCGCGCATGCACCGTTCGGCCGTCCGCGAAGCCGAGCTGGGGGATGATTTCGATCCGTCCACCCTCGACATCGCCGACTCCATCGAGCGCGTCCTGCATCACCCGGCCGTGGCGAGCAAGAGCTTCCTGATCACCATTGGCGACCGCAGCATCACCGGCCTCGTGGCGCGCGACCAGATGGTCGGCCCATGGCAGGTGCCGGTGGCCGACGTGGCCGTGACCGCCACCAGCTTCGACGTTTACACTGGCGAAGCCATGGCCATGGGCGAACGTACCCCGCTGGCGCTGCTGGACGCCCCGGCGTCGGGCCGCATGGCGATCGGCGAGACCCTGACCAACATCGCGGCCTCGCGCATCGGCAGGATCTCCGACATCAAGCTGTCGGCCAACTGGATGTCCGCCGCCGGCCATCCTGGTGAAGACGCCCGCCTGTACGACACCGTCAAGGCTGTCGGCATGGAGCTGTGCCCTGAGTTGGGCATCACCATTCCGGTGGGCAAGGACTCCATGTCCATGGCCACCCGTTGGAACGATGAAGGCGTGGACAAGAGCGTGACCTCGCCGCTGTCGCTGATCGTGACCGGTTTTGCCCCGGTCACCGACATCCGCCAGACCCTGACCCCGCAACTGCGCATGGACAAGGGCACCACCGATCTGATCCTGATCGACCTGGGCCGTGGCCAGAACCGCATGGGCGCCTCGATCCTGGCCCAGGTGCATGGCAAGCTCGGCTCGCAAGCGCCGGACGTCGACGATGCCGAAGACCTGAAGGCGTTCTTCGCCGTGATCCAGGGCCTCAACGCCGACGGTCATCTGCTGGCCTACCATGACCGTTCCGATGGCGGCTTGCTGACCACCGTGATGGAAATGGCCTTCGCCGGCCACTGCGGCCTGAACCTGACCCTGGACAGCGTGGCCGAATCGGCCAGCGAAATCCCGGCCATCCTGTTCAACGAAGAACTCGGTGCGGTGATCCAGGTTCGCCAGGACGCCACCCCGGATATCCTCGCCCAATTCAGCGCCGCCGGCCTGGCCGAGTGCGTCTCGGTGATCGGCCAGCCGATCAACAACGCCCACATCAACATCACCTTCAACGGCGACACCGTCTTCGAAGGCCAGCGCCGCCTGTTGCAGCGCCAGTGGGCCGAGACCAGCTACCAGATCCAGCGCCTGCGCGACAACGCCGACTGCGCCGAGCAGGAATTCGACGCAATCCTGGAAGAAGACAACCCGGGCCTGAGCGCCAAGCTCAGCTACGACGTCAACGACAACGTGGCCGCGCCTTACATCAAGAAAGGCATTCGTCCGCAAGTGGCGGTCCTGCGCGAGCAGGGCGTCAACGGCCAGGTGGAAATGGCTGCGGCGTTCGACCGCGCCGGCTTCAACGCGATCGACGTGCACATGAGCGACATCCTCGCCGGCCGTGTCGACCTGAACGACTTCAAGGGCATGGTCGCTTGCGGCGGCTTCTCCTACGGCGACGTGCTGGGTGCCGGTGAAGGCTGGGCCAAGTCGGCGCTGTTCAACAGCCGCGCCCGCGACGCGTTCCAGGGCTTCTTCGAGCGCACCGACAGCTTCACCCTCGGCGTGTGCAACGGTTGCCAGATGATGTCCAACCTGCACGAGCTGATCCCGGGCAGCGAGTTCTGGCCGCACTTCGTGCGCAACCGCTCCGAGCAGTTCGAAGCGCGCGTGGCGATGGTCCAGGTGCAGGAGTCGAACTCGATCTTCCTGCAGGGCATGGCCGGTTCGCGCATGCCGATCGCCATTGCCCACGGCGAAGGTCATGCGGAATTCGAAAGCGAAGAAGCATTGCTTGAAGCCGATCTGTCCGGTTGTGTGTCGCTGCGTTTTGTCGACAACCATGGCAAGGTCACCGAGACCTACCCGGCCAACCCGAACGGCTCGCCACGCGGGATCACCGGCCTGACCAGCCGCGACGGCCGCGTCACGATCATGATGCCGCACCCGGAGCGGGTATTCCGCGCGGTGCAGAACTCGTGGCGTTCGGACGACTGGAACGAAGACGCGCCATGGATGCGCATGTTCCGCAACGCGCGCGTCTGGGTGAACTGA	MLILRGAPALSAFRHSKLLEQLSRCVPAVSGLYAEFAHFAEVTGGLTGDEQQVLARLLKYGPSVPVQEPTGRLFLVLPRFGTISPWSSKASDIARNCGLAKIQRLERGIAFYVAGEFSEAEAQLIADGLHDRMTQVVLGNLEQAAGLFSHAEPKPLTAIDVLGGGRAALEKANAELGLALAEDEIDYLVDAFQGLQRNPHDIELMMFAQANSEHCRHKIFNASWDIDGQSQEKSLFGMIKNTYQMHNEGVLSAYKDNAAVIVGNVAGRFYPNPETRQYGAVQEPVHILMKVETHNHPTAIAPFPGASTGSGGEIRDEGATGRGAKPKAGLTGFTVSNLQIPGFEQPWEKPYGKPERIVNALDIMIEGPLGGAAFNNEFGRPALTGYFRTFEQSINTPRGEEVRGYHKPIMLAGGMGNIRAEHVQKGEILVGSKLIVLGGPAMLIGLGGGAASSMATGTSSADLDFASVQRENPEMERRCQEVIDRCWQLGEQNPISFIHDVGAGGLSNAFPELVNDGGRGGRFELRNIPNDEPGMAPHEIWSNESQERYVLAVGPADFERFKAICERERCPFAVVGEATAEPQLTVTDSHFGNSPVDMPLEVLLGKAPRMHRSAVREAELGDDFDPSTLDIADSIERVLHHPAVASKSFLITIGDRSITGLVARDQMVGPWQVPVADVAVTATSFDVYTGEAMAMGERTPLALLDAPASGRMAIGETLTNIAASRIGRISDIKLSANWMSAAGHPGEDARLYDTVKAVGMELCPELGITIPVGKDSMSMATRWNDEGVDKSVTSPLSLIVTGFAPVTDIRQTLTPQLRMDKGTTDLILIDLGRGQNRMGASILAQVHGKLGSQAPDVDDAEDLKAFFAVIQGLNADGHLLAYHDRSDGGLLTTVMEMAFAGHCGLNLTLDSVAESASEIPAILFNEELGAVIQVRQDATPDILAQFSAAGLAECVSVIGQPINNAHINITFNGDTVFEGQRRLLQRQWAETSYQIQRLRDNADCAEQEFDAILEEDNPGLSAKLSYDVNDNVAAPYIKKGIRPQVAVLREQGVNGQVEMAAAFDRAGFNAIDVHMSDILAGRVDLNDFKGMVACGGFSYGDVLGAGEGWAKSALFNSRARDAFQGFFERTDSFTLGVCNGCQMMSNLHELIPGSEFWPHFVRNRSEQFEARVAMVQVQESNSIFLQGMAGSRMPIAIAHGEGHAEFESEEALLEADLSGCVSLRFVDNHGKVTETYPANPNGSPRGITGLTSRDGRVTIMMPHPERVFRAVQNSWRSDDWNEDAPWMRMFRNARVWVN	PGPT0021585_1293	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021585-purL-K01952	NA	NA
D1-35_01468	312		COG0327	GTP cyclohydrolase 1 type 2	GTGTACAAACTCTGCTTTTTCGTCCCGGCCAGCCATGTGGAGGTGGTCAAAAGCGCTGTATTCGCCGCCGGTGGCGGACGGATCGGCGCGTATGACCACTGCGCCTGGCAAGTGCTGGGCCTGGGCCAGTTTCGCCCCTTGGACGGCAGCCAGCCGTTCATTGGCGAGGCGGGGCACGTCGAGCAGGTCGAGGAATGGAAGGTGGAGCTGGTAGTGGCCGACGGGTTGATCCGGCCTGTGGTGGAGGCGCTGAAGCAGAGCCACCCCTACGAGACACCGGCGTATGAAGTGTGGCGCTTGGAGGATTTCTGA	MYKLCFFVPASHVEVVKSAVFAAGGGRIGAYDHCAWQVLGLGQFRPLDGSQPFIGEAGHVEQVEEWKVELVVADGLIRPVVEALKQSHPYETPAYEVWRLEDF				NA	NA	NA	NA	NA
D1-35_01469	1710	gamP	COG2190	Putative PTS system glucosamine-specific EIICBA component	ATGTACCAGCATTTCATCGAAGGGCTGCAACGCCTCGGCCGGGCGCTGATGCTGCCCATCGCGATCCTGCCGATTGCCGGCCTGCTGTTGCGCCTGGGTGACACGGACCTGTTGAATATCGCCATCATTCACGACGCCGGCCAGGCGATCTTCGCCAACCTGGCACTGATTTTCGCCATCGGCATTGCCGTGGGCTTCGCCCGGGACAACAACGGCACCGCCGGGCTGGCCGGGGCGATCGGCTACCTGGTCATGATCGCGACGCTGAAGGTACTCGACGCGACCATCAACATGGGCATGCTCGCCGGGATCATCAGTGGCCTGCTGGCCGGCGCGCTGTACAACCGTTTCAAGGACATCCGGTTGCCGGAGTACCTGGCGTTTTTTGGCGGCCGGCGTTTCGTGCCGATTGTCACCGGTTTCAGTGCCGTGGGCCTGGGCGTCGTGTTCGGTCTGATCTGGCCGCCGATCCAGCATGGCATCAACGGCTTCGGCGAACTGCTGATGGCCAGCGGCAGCTTCGGCGCGTTCGTGTTCGGCGTGTTCAATCGGCTGCTGATCGTCACCGGCCTGCACCACATCCTCAACAACATGGCCTGGTTCATCTTCGGCAGCTTCACCGACCCGGCGACCGGCGCGGTGGTCACCGGTGACCTGACCCGCTATTTCGCCGGCGACCCCAAAGGCGGCCAGTTCATGACCGGCATGTTCCCGGTGATGCTCTTCGGCCTGCCCGCCGCGTGCCTGGCGATGTATCGCAACGCCCTGCCCCAGCGGCGCAAAGTGATGGGCGGGATCCTGCTGTCGATGGCGCTGACCTCGTTCCTGACCGGCGTCACCGAGCCGATCGAATTCGCCTTCATGTTCCTTGCGCCGCTGTTGTACCTGGTCCACGCGCTGCTCACCGGTCTGTCGATGGCGGTGACCAACCTGTTGGACATTCACCTGGGCTTCACCTTTTCGGGTGGTTTCATCGACATGGTGCTGGGCTGGGGCAAATCCACCAACGGCTGGCTGGTCGTCCCGGTGGGCCTGGCGTACGCGCTGATCTATTACCTGGTGTTCGACTTCTGCATCCGCCGCTTCGATCTCAAGACCCCGGGGCGTGAAGAGATGCCGGCGGGCGACAAACCGGTCATCACCGAAAACCAGCGAGCCGCAGCCTACATCCAGGCGCTGGGCGGCGCCGACAACCTGATCACTGTCGGCGCCTGCACCACTCGCCTGCGCCTGGACATGGTGGACCGCAACAAGGCGTCCGACGCCCAGCTCAAGGCCCTCGGCGCCATGGCCGTGGTTCGCCCGGGCTATGGCGGTAGCTTGCAGGTGGTGGTCGGGCCGATGGCGGACAGCATCGCCGATGAAATCCGCCTGGCATTGCCCTCCTCCGAACAGACGGCCCCTGTCGCTGTACTGGATAGCGTTGAACCGTCACCACAGGTCGGCGCTGTCGAAGCACAGAAATGGCTGGATGCCTTGGGCGGCAATCACAACGTGGTGCAACTGGATTGCGTGGCGATGAGCCGGTTGCGGGTGCAATTGGCCGATGGCAAGGGATTGTCGGAAAGCCAGCTAAAGGCGCTTGGCTGCCAGGGGGTCAGCGCGCTGGAGGATGGCGTGTGGCATTTGTTGCTGGGGGAAAAAGCGCCCGGGGTGTGGCGGGCGTTGGAGGCGGTGGTGGTGAGTCGTAAGGCGGATGTCAAAGCCTGA	MYQHFIEGLQRLGRALMLPIAILPIAGLLLRLGDTDLLNIAIIHDAGQAIFANLALIFAIGIAVGFARDNNGTAGLAGAIGYLVMIATLKVLDATINMGMLAGIISGLLAGALYNRFKDIRLPEYLAFFGGRRFVPIVTGFSAVGLGVVFGLIWPPIQHGINGFGELLMASGSFGAFVFGVFNRLLIVTGLHHILNNMAWFIFGSFTDPATGAVVTGDLTRYFAGDPKGGQFMTGMFPVMLFGLPAACLAMYRNALPQRRKVMGGILLSMALTSFLTGVTEPIEFAFMFLAPLLYLVHALLTGLSMAVTNLLDIHLGFTFSGGFIDMVLGWGKSTNGWLVVPVGLAYALIYYLVFDFCIRRFDLKTPGREEMPAGDKPVITENQRAAAYIQALGGADNLITVGACTTRLRLDMVDRNKASDAQLKALGAMAVVRPGYGGSLQVVVGPMADSIADEIRLALPSSEQTAPVAVLDSVEPSPQVGAVEAQKWLDALGGNHNVVQLDCVAMSRLRVQLADGKGLSESQLKALGCQGVSALEDGVWHLLLGEKAPGVWRALEAVVVSRKADVKA	PGPT0016860_581	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
D1-35_01470	2514			hypothetical protein	ATGCCCAATAACAATAAAGAGCTGACCCTCAGCGCCCCGCTCAGCGGTCCGCTGCTCACCCTCGCCAACGTCCCGGACGCGGTGTTCGCCAGCGGCGCGATGGGCGACGGGATTGCCATCGACCCGCTGAACGACACGCTCTACGCACCCTGTGACGGTGAGGTGATCCACGTCGCTCGGACCGGCCACGCCGTGACACTGCGGGCCGACAACGGCGCCGAACTGCTGCTGCACCTGGGGCTGGACACCGTCGAGTTGCAGGGCGACGGGTTCTCGATGCTGGTCAAGCAAGGCGCCCGGGTCAGCAACGGGCAGGCGTTGCTGCGCTATGACCTGGACCGCGTGGCACTGCGCTGCAAAAGCCTGGTGAGCCTGCTGGTCATCACCAATGGCGAGCGCTTCCAGGCACGGCCCATCACCCTCAAAGCGGTCAAGGTCGGCGAGCCGTTGCTGCATATCGTCGCCCGGGCGGCGGGCGAAACCCGCAGCGATGAACCGCAGGTCGGCATCGAAGTGTCCGGCCAGATCCGCATCGTCCATCGAGGTGGCCTGCACGCCCGCCCCGCCGCCCTGGTTCGTCAGACGGCGCAACGCTTCAAGAGCCGCTCGCACCTGCATTTCGGCGACCGCTCGGCGCCGTGTGACAGCGTGATGGGCATGATGGGCCTGGCAATCACCGAGCAGGCCGAAGTCCATGTCAGTTGCCGCGGCAGCGATGCCGAAGCGGCGTTGCAAGCGTTGTTGAAGACATTATCCACAGCCTTGGCCGAAGAGGTTCACGCCGACACGCCACGGGTCCAGGCGCCGAACCATGCCGCCGAGGATGGCGTGCTGCAGGGTGTCTGCGCCGCACCCGGCCTGGTCACCGGCCCGCTGGTTCGATTGGAGGGCATTCAATTGCCCGAGGACCCCGGTGGTCACGACGTTGAAGAACAACGACAACGGCTGCGCCAAGCCCTGGAGCAGGTCAGCCGCGACATCGGTGTTACGTTGGAAAACGCCAAGGCCCGGCACCACGCGGATGAGCAGGCGATTTTCAGCGCTCATCTGGCGCTGCTGGAAGACCCGGTCCTGCTGGACGCCGCTTACCTTTCCATTGATCAGGGTTGCGCGGCGGCCCACGCCTGGAGCCGCTCCATCGACGTGCAGTGCCAGGTGCTGCGGCAATTGGGCAGCACGTTGTTGGCCGAGCGCGCCAATGATCTGCGCGACTTGCGTCAGCGGGTCTTGCGGGTGTTGCTTGGTGAAGCGTGGCAATTCGACGTGCCGGTGGGCGCGATTGTCGCCGCGCAGGAGCTGACCCCCTCGGACCTGCTGCAACTCGGCGCCCAGGGCGTGGCCGGCGTATGCATGGCCGAAGGCGGCGCGACGTCCCACGTAGCGATCCTGGCCCGGGGCAAAGGCCTGCCCTGCCTGGTGGCGTTGGGCGAGGCGCTGCTCGAACAGGCGCCGGGGCGAACGGTGGTGCTGGACGCTGACAATGACCGCCTCGAACTCACGCCCAGCGCCGAGCGCCTGACGCAGGTCCGCCAAGCCCAAGCCCAACGCGCCGCCCTGCGCACCTGGCATCAGTCCCTGGCCCACACGCCGGCGCGAACCGTTGATGGGGTCGATGTCGAAATCGCCGCCAACGTCGCTTCCAGCGCCGAAGCGGGCGAGGCCTTCGCCAACGGTGCCGATGGCGTCGGTTTGTTGCGCACCGAATTTCTTTTTGTCGACCGTCACACGGCCCCCGACGAAAGCGAGCAACGCCAGGCCTATCAAGCCGTGCTCGATGCCATGGGCGACAGGCCGGTGATCATCCGCACCATTGATGTCGGCGGCGACAAGCAGCTGGATTACCTGCCGCTGCCGGCCGAAGCCAACCCGGTGCTCGGCCTGCGCGGCATACGCCTGGCCCAGGTACGCCCGGAATTGCTCGATCAACAGTTGCGCGCCCTGCTGCAGACCCGTCCGTTGAATCGCTGCCGAATCCTGTTGCCAATGGTCACCGAAGTCGACGAACTGCTGCACGTCCGCCAGCGCCTTGATGCCTTGGGCACCGAGCTGGGCCTGGGCGAGCGTCCGCATCTGGGGGTGATGATCGAAGTGCCGGCCGCCGCCCTGCTCGCCGAGCAACTGGCCGAGCACGCGGACTTCCTGTCCATCGGCACAAACGACCTGTCCCAGTACACCCTCGCCATGGATCGCGACCACGCCGGCCTCGCCGCCCGGGTCGATGCCCTGCACCCGTCGCTGTTGCGGCTGATCGCCCAGACCTGCGCCGGCGCGGCCAGGCATGGACGCTGGGTCGGCGTGTGTGGCGCCCTGGCTTCCGATCCCCTGGCGACACCGGTGTTGATCGGGCTGGGTGTACGGGAGCTATCGGTCAGCCCGCCACAGATTGGTGAAATCAAGGACCGCGTGCGCCACCTCGACGCTGCCCAATGCCGCCGCATCAGTACCGATTTGCTGAATCTGCCGAGCGCCGCCGCTGTGCGCCAGGCCTGTCACCAACACTGGCCTCTGGGCTGA	MPNNNKELTLSAPLSGPLLTLANVPDAVFASGAMGDGIAIDPLNDTLYAPCDGEVIHVARTGHAVTLRADNGAELLLHLGLDTVELQGDGFSMLVKQGARVSNGQALLRYDLDRVALRCKSLVSLLVITNGERFQARPITLKAVKVGEPLLHIVARAAGETRSDEPQVGIEVSGQIRIVHRGGLHARPAALVRQTAQRFKSRSHLHFGDRSAPCDSVMGMMGLAITEQAEVHVSCRGSDAEAALQALLKTLSTALAEEVHADTPRVQAPNHAAEDGVLQGVCAAPGLVTGPLVRLEGIQLPEDPGGHDVEEQRQRLRQALEQVSRDIGVTLENAKARHHADEQAIFSAHLALLEDPVLLDAAYLSIDQGCAAAHAWSRSIDVQCQVLRQLGSTLLAERANDLRDLRQRVLRVLLGEAWQFDVPVGAIVAAQELTPSDLLQLGAQGVAGVCMAEGGATSHVAILARGKGLPCLVALGEALLEQAPGRTVVLDADNDRLELTPSAERLTQVRQAQAQRAALRTWHQSLAHTPARTVDGVDVEIAANVASSAEAGEAFANGADGVGLLRTEFLFVDRHTAPDESEQRQAYQAVLDAMGDRPVIIRTIDVGGDKQLDYLPLPAEANPVLGLRGIRLAQVRPELLDQQLRALLQTRPLNRCRILLPMVTEVDELLHVRQRLDALGTELGLGERPHLGVMIEVPAAALLAEQLAEHADFLSIGTNDLSQYTLAMDRDHAGLAARVDALHPSLLRLIAQTCAGAARHGRWVGVCGALASDPLATPVLIGLGVRELSVSPPQIGEIKDRVRHLDAAQCRRISTDLLNLPSAAAVRQACHQHWPLG				NA	NA	NA	NA	NA
D1-35_01471	1023			hypothetical protein	TTGTCTTCCAGAATGCTTGAAGAGGCCCTCGCCTCGTCCGATGCCGTCGAGCGCCAGTTGCAGCGACTGGATCCGGCCCTGCAGGAAATCGCCGGACGCCTGCGCCGCCAGCCGCCGCAAGTGGCGATGACCGTCGCCCGGGGCAGCTCCGATCATGCCGCCAGTTACTTCGCCTACCTGACCATGCAGCACCTGGGCTTGCCGGTGGCGTCGTTGCCCATGTCGGTGGTAACCCTGCAACAGGCGCCGCTCAAGGTCAGCGGCCAGGTGGCCTTTGCCTTTTCCCAATCCGGGCAGAGCCCCGACCTGGTGAACAGCCTGCGTCTGTTGCGCAAGCGTGGCGCGCTGAGCGTGGCGATGGTCAACGCCGAGGATTCGCCGCTGGAGGCTGCCTGTGAATTCAGCGTGCCGCTGTGCGCCGGCGTCGAAAACAGCGTCGCCGCGACCAAGAGTTTCATCGCCACCCTCAGCGCCAGCACGCGGCTGGTGGCGCACTGGAAGGACGATTCCGAGTTACTGGAGGCTGGCCGCGCGTTGCCCGAAGGCTTGCGCGACGCCGCGCGCCAGGATTGGAGCCCGGCCGTCGAGGCCCTGCGCGACTGTACCCGGTTGATGGTGATCGGCCGTGGCGCCGGGTTCGCCATCGCCCAGGAAGCGGCGCTCAAATTCAAGGAAACCTCGGCGATTCAAGCCGAGGCCTTCAGCAGCGCCGAAGTCCGTCACGGGCCGATGGCGCTGATCGACGAACACTATCCGCTGCTGGTCTTCGCTCCGCGGGGAGCCGAGCAGGCCGGCGTGTTGAGCCTGGCCGCCGACATGCGCCAACGCGGCGCGCGGGTATTGCTGGCGGCCCCCGATGACATTGCCGAACGCGACCTGACGCTGTCCCGCGCCGAACACCCGGCCCTGGACCCGATCCTGGCGATCCAGAGCTTTTATGGCATGGCCGCCCGGCTGGCCGTGGCCCGAGGCCTGGATCCGGACCAGCCACGGCACTTGAGCAAGGTCACCCGAACCCACTGA	MSSRMLEEALASSDAVERQLQRLDPALQEIAGRLRRQPPQVAMTVARGSSDHAASYFAYLTMQHLGLPVASLPMSVVTLQQAPLKVSGQVAFAFSQSGQSPDLVNSLRLLRKRGALSVAMVNAEDSPLEAACEFSVPLCAGVENSVAATKSFIATLSASTRLVAHWKDDSELLEAGRALPEGLRDAARQDWSPAVEALRDCTRLMVIGRGAGFAIAQEAALKFKETSAIQAEAFSSAEVRHGPMALIDEHYPLLVFAPRGAEQAGVLSLAADMRQRGARVLLAAPDDIAERDLTLSRAEHPALDPILAIQSFYGMAARLAVARGLDPDQPRHLSKVTRTH	PGPT0017630_7038	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
D1-35_01472	1107	agaA	COG1820	N-acetylgalactosamine-6-phosphate deacetylase	ATGTCCGAAGACAACATCCTCACCGCCAACGGCTGGATACGCGGCCGCCTGGTCCACGAACACGGCAAGGTCGCGGCCATCGAAGGCCAGCCCTGCGACCCGGCGAGCAACGACCTGCCCTATCTGCTGCCCGGCTTCATCGACCTGCATGTGCACGGCGGTGGCGGCAAGGACATCATGGAGGGCGCGACGGCGTTCGAGACGATCGCCCGAACCCACGTGCGCTTCGGCACCACGTCGCTGCTCGCCACCACCATGACGGCACCGAGCGAAGAAATCGCCGGGGTGCTCAAGGCCCTCGGCGAATACTGCGAACAGCGGCCCGGCGGCAGCGCGCGGGTGCTCGGCGTGCATCTGGAAGGGCCTTATATCAACCCCGGAAAACTCGGCGCCCAACCGAATTTCGCCCACACCGCGTTGATGGCGGAAGTGGAGGCTTATCTCGCCCTGGCGCCGATCCGGGTGATCACCATTGCGCCGGAAATCGCCGGGCACGATGCCTTGATCCGCGCCCTCAGCGCCCGCGGCGTGCGCATGCAGATCGGCCATACCCTCGGCAGCTACGAAGAAGGCGTCGCGGCGCTGGCCGCCGGGGCCAGCAGTTTTACCCATTTGTATAACGCCATGAGCCCGCTGCATCACCGCGAACCGGGCATCGTCGGCGCGGCGCTGGCCCATGCGCAATATGCCGAATTGATCCCGGATCTGCTGCACGTTCACCCCGGGGCCATGCGCGTGGCCTTGCGTTCGATCCCGTGCCTGTATTGCGTCACCGACTCGACGGCCGCCGCCGGGATGCCCGACGGCGAATACAAGCTGGGCAGCCACACCGTGACCAAATGCCTGGGCGGCGTGCGGCTGGCCGACGGCACGCTGGCCGGCAGCACCCTGACCATGGACCAGGCCCTGCGCAACCTGGTGAAGATCGGCCTGCCCATCGCCGAAGCCTCGCAACGCCTGTCGCAATTTCCCGCCGATTATCTCGGCCTGCCCGAACGCGGACGCCTGCGCCCCGGCGCCTGGGCCGACTGTGTGCGCCTTGACCGTTCCCTGAACCTGACCGACGTGATGGTCGAAGGAGAAGCCATTGTCTTCCAGAATGCTTGA	MSEDNILTANGWIRGRLVHEHGKVAAIEGQPCDPASNDLPYLLPGFIDLHVHGGGGKDIMEGATAFETIARTHVRFGTTSLLATTMTAPSEEIAGVLKALGEYCEQRPGGSARVLGVHLEGPYINPGKLGAQPNFAHTALMAEVEAYLALAPIRVITIAPEIAGHDALIRALSARGVRMQIGHTLGSYEEGVAALAAGASSFTHLYNAMSPLHHREPGIVGAALAHAQYAELIPDLLHVHPGAMRVALRSIPCLYCVTDSTAAAGMPDGEYKLGSHTVTKCLGGVRLADGTLAGSTLTMDQALRNLVKIGLPIAEASQRLSQFPADYLGLPERGRLRPGAWADCVRLDRSLNLTDVMVEGEAIVFQNA	PGPT0018860_3627	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
D1-35_01473	732	nagR_2	COG2188	HTH-type transcriptional repressor NagR	ATGAACGACATCCAGACCCTGCGCCCTGACGATACCCAACCCACCCCGCTCTACCTGCAACTGGCCCGCAACCTGGAAGCCGCCATCCACGCCGGCCAATGGAAAGCCGAGCAGGCAATGCCGTCCGAGCGCAGCTTGAGCGAACAACTCGGCATCTCCCGGGTCACCGCCCGCAAAGCGCTGGAAGTGCTGTTCGAACAAGGCCTGATCCGCCGTAACCAGGGTTCGGGCACGTTCATCACCCCGCGCCTGGAACAACCGCTGTCACGCCTCAGCGGCTTCAGCGAAATGCTCCGGCTCAAGGGCTTCGTGCCCGGTTCGCAATGGCTGGAGCGCGAGATCACCCCGCCGACCCACGAAGAACTGATCCGCCTGGGCCTGTCGCCCACCGACAAAGTCGCGCGGCTCAAGCGCCTGCGCAAGGCCGATGACACGGTCATGGCGATTGAAATGAGCACGCTGCCGGCATCGATCATTCCCAAGCCACAGGCGGTGGGCGATTCGCTGTACGAGTTCCTCGATGGCATTGGCAAACCGGTCGTTCGCGCGCTGCAGCACATCCAGGCGATCAACGCTTCCGATGAATTCGCCGCCCTGGTGGGCATCGCCCCCGGCACCGCGATGTTGCTGATGACGCGGGTCGGCTACCTGGAAGACAACACGCCCATCGAAGTCACCGACACCTATTGTCGCAACGACTACTACGACTTTGTCGCCGAGCTGCGGCGCTAG	MNDIQTLRPDDTQPTPLYLQLARNLEAAIHAGQWKAEQAMPSERSLSEQLGISRVTARKALEVLFEQGLIRRNQGSGTFITPRLEQPLSRLSGFSEMLRLKGFVPGSQWLEREITPPTHEELIRLGLSPTDKVARLKRLRKADDTVMAIEMSTLPASIIPKPQAVGDSLYEFLDGIGKPVVRALQHIQAINASDEFAALVGIAPGTAMLLMTRVGYLEDNTPIEVTDTYCRNDYYDFVAELRR				NA	NA	NA	NA	NA
D1-35_01477	309			hypothetical protein	ATGATCAAAGAAACCCCAAACCCGCCAAACCCCGCCGACCGCGCTATGGACCAGAATCCCAAGCCGGACGACAGCGACTCAGAACCCCAACCCTCGACCCAACTGTTCAACGTGACGGACTGCATCGACACCGAAACCCTGCTAGCCAACCTCAGCGAAACCCTGGCCTCGGCCAATGCAATGCTCAGCGACCTGGCATTCAGTCTCGAAGGCTCACGACGGCACGTAGCATTGGGAGTGGTGCAGATGATTGAGCTCGGGGAATTGCTGACAAACAAGGCCTTGGATCGGGTCGAGCTTCGGATTTGA	MIKETPNPPNPADRAMDQNPKPDDSDSEPQPSTQLFNVTDCIDTETLLANLSETLASANAMLSDLAFSLEGSRRHVALGVVQMIELGELLTNKALDRVELRI				NA	NA	NA	NA	NA
D1-35_01478	507			hypothetical protein	ATGCGCTGGTTGCTTGTCCTGTTTTGCCTGTCGTTCACCGCTGTGTCCCAAGCCGCCGCCGTGGGAACCTATAACGGCAAGGTCATTGAAAAAGTCCTGGTGCTGAAGTCCGCCCATCAATTGCAATTGATCAACGACGGCAAGCCGCTGAAGACCTATCGCATCTCCCTGGGCAAGGGCGCCAAGAAAGGCCCCAAGCTGATCGAAGGCGACAAGCGCACCCCCGAGGGTTTCTACTGGCTGGACTGGCGCAAGACCAGCGAGCGCTTCTATCTGTCGATGCACATTTCCTACCCCAACATCAGCGACGCCGCCCGCGCCCGCCGCGAAGGCGTGGAGCCGGGGGGAATGATCATGATCCATGGCACGCCGGATTCGGAGGAGAACCCGGAGCAGTTGTTCCATACGCTGGACTGGACCGATGGCTGTATCGCCATGCGCAATGTGGACATGCGTGAGGTGTGGAACCTGGTGCCGGATGGGACGATGATCGAGATTCGCCCGTAA	MRWLLVLFCLSFTAVSQAAAVGTYNGKVIEKVLVLKSAHQLQLINDGKPLKTYRISLGKGAKKGPKLIEGDKRTPEGFYWLDWRKTSERFYLSMHISYPNISDAARARREGVEPGGMIMIHGTPDSEENPEQLFHTLDWTDGCIAMRNVDMREVWNLVPDGTMIEIRP				NA	NA	NA	NA	NA
D1-35_01479	552	nudC_1		NADH pyrophosphatase	ATGAAATTCTGCAGCCAGTGCGGTAACCCGGTGACCCAGCGCATACCCGAGGGCGACTCGCGCCTGCGCTTCGTCTGCGACACCTGCCACACCATCCATTACCAGAACCCCAATATCGTTGCCGGATGTGTACCGACCTGGGGTAGCAAAGTCCTTTTATGCCGCCGCGCCATCGAACCGCGCCGCGGTTATTGGACGTTGCCGGCGGGCTTCATGGAAAACGGCGAGACCGTCGAGCAGGCCGCCGTCCGTGAAACCGCCGAGGAAGCCTGCGCCCGGGTGCGAAACCTGAGCATCTATACGCTGATCGACGTACCGCACATCAGCCAGGTGCATGTATTCTTCCGCGCAGAGCTGGTCGACATTGATTTTGCCGCCGGGCCCGAGAGCCTGGAAGTGCAGCTGTTCGAAGAAACCGAGATTCCGTGGGACGAGCTGGCTTTCCGCACGGTGGGCCGTACCCTGGAATACTTTTACGCGGACCGACGGGCCGAGGATTTCCCGGTGCGATCCGAGTCGATACCGCCGCTGGCCCAGCCTGCCAATACCTGA	MKFCSQCGNPVTQRIPEGDSRLRFVCDTCHTIHYQNPNIVAGCVPTWGSKVLLCRRAIEPRRGYWTLPAGFMENGETVEQAAVRETAEEACARVRNLSIYTLIDVPHISQVHVFFRAELVDIDFAAGPESLEVQLFEETEIPWDELAFRTVGRTLEYFYADRRAEDFPVRSESIPPLAQPANT	PGPT0008680_25	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008680-NUDT23-K18453	NA	NA
D1-35_01480	600	nudL		putative Nudix hydrolase NudL	ATGCTGGACGAGCTACTGCATCGAGTAAGCAACCATACGCCGCGTGATCTGGAGACCGATCGGCGTTTCCCTGAAGCGGCGGTGCTGGTGCCGATCACCCGCAGCGACGAGCCGGAACTGGTCCTGACTTTGCGCGCCAGTGGGCTCTCGACCCACGGCGGCGAAGTGGCTTTCCCCGGCGGGCGCCGCGACCCGGAAGACCCGGACCTGATCTTCACTGCCCTGCGCGAAGCCGAAGAGGAAATCGGCCTGCCGCCTGGCCTGGTGGAAGTGATCGGCCCTCTCAGCCCGCTGATTTCCCTACACGGCATCAAGGTCACCCCCTATGTCGGGGTGATTCCCGATTACGTCGAGTACCAGGCCAACGATGCCGAGATCGCCGCGGTCTTCAGCGTGCCGCTGGAGTTTTTCCGCAAGGACCCGCGCGAACACACCCACCGCATCGATTACCAGGGGCGCAGCTGGTACGTGCCCAGTTATCGCTTCGGCGAATACAAGATCTGGGGCCTGACGGCGATCATGATCGTCGAGCTGGTCAACCTGCTGTACGACGCCGGTATCGACCTGCACACACCGCCCAACAGTTTCATCAATACCTGA	MLDELLHRVSNHTPRDLETDRRFPEAAVLVPITRSDEPELVLTLRASGLSTHGGEVAFPGGRRDPEDPDLIFTALREAEEEIGLPPGLVEVIGPLSPLISLHGIKVTPYVGVIPDYVEYQANDAEIAAVFSVPLEFFRKDPREHTHRIDYQGRSWYVPSYRFGEYKIWGLTAIMIVELVNLLYDAGIDLHTPPNSFINT				NA	NA	NA	NA	NA
D1-35_01481	525	yrdA_1	COG0663	Protein YrdA	ATGAAATACCGCCTGGGCGATGCCCGTGTCGAAACCCACCCACAGAGCTGGGTTGCGCCCAACGCCACGCTGGTGGGCAAGGTCCGCCTCGAAGAAGGCGCCAACGTCTGGTTCAACGCCGTGCTGCGCGGCGACAACGAACTGATCCTGATCGGCAGGAACAGCAACGTGCAGGACGGCACGGTGATGCACACCGACATGGGCTTTCCGCTGACCATCGGCACCGGCGTGACCATCGGCCACAACGCGATGCTCCACGGCTGCACGGTGGGGGACTACAGCCTGATCGGCATCAACGCGGTGATCCTCAACGGCGCGAAGATCGGCAGGAATTGCATCATCGGCGCCAACTCGCTGATCGGCGAAGGCAAGGAGATTCCCGATGGTTCGCTGGTGATGGGCTCGCCGGGCAAGGTCGTGCGCGAGCTGACCGAGGCCCAGAAGAAGATGCTCGAAGCCAGCGCGGCGCACTATGTGCACAACTCGCAGCGTTATGCCCGCGACTTGGTCGAGCAAGAACAATGA	MKYRLGDARVETHPQSWVAPNATLVGKVRLEEGANVWFNAVLRGDNELILIGRNSNVQDGTVMHTDMGFPLTIGTGVTIGHNAMLHGCTVGDYSLIGINAVILNGAKIGRNCIIGANSLIGEGKEIPDGSLVMGSPGKVVRELTEAQKKMLEASAAHYVHNSQRYARDLVEQEQ				NA	NA	NA	NA	NA
D1-35_01482	210			hypothetical protein	ATGAACCCGGCTGAACGTCCGGTTCCCTCGCCCTGCGTGAACATCTGCGCGCTGGATGATGACGACATCTGCACCGGCTGCCAGCGCACGGTGGCGGAAATCACCCGCTGGAGCCGGATGGACAATGAAGAGCGGCGCGGCGTTCTGGCGTTGTGTCACGAACGGGCCAAGGCCAGTGGGTTGGTGTGGATGTTGCCGGCAAAACCTTGA	MNPAERPVPSPCVNICALDDDDICTGCQRTVAEITRWSRMDNEERRGVLALCHERAKASGLVWMLPAKP	PGPT0013210_1424	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013210-ydhL-K06938	NA	NA
D1-35_01483	609			hypothetical protein	ATGGCGGCACTGCTTGGCTGGGCGGGACTGAGCATCCAGTTGTATCTGATCTTGCTCGGGCGTTGGGAGCTGGGCGCGAGCCTGCTGGGCGGGCTGGTGAATTGCTTCAGTTTTTTCACGGTGCTGACCAACACGCTGGTGGCCGTGGTGCTGAGCTTCGAACTGACCCACCGCGATTCAGCGGCGCGGCGCTGGTTCCTCGGGCCAGCGGTATGCAGCGGCATCGCCGTGAGCATTGCCCTGGTCGGCCTGGCCTACAGCCTGCTGCTGCGCCATCTCTGGCAACCCGAAGGCTGGCAGTTTATCGCCGACGAACTGCTGCACGACGTGATGCCCGTGCTGTTCATCGGCTACTGGTGGTTCTGCGTGCCCAAGGGCAGCTTGCGCCTGCGCCACATCGGGCTGTGGATGCTTTATCCCTTGGTGTACTTCGGTTATATCCTGCTGCGTGGCAATCTGCTGGCGGCTTACCCCTACCCTTTCATCGATGTTGCGACTCTGGGTTATCCACAGGTACTGATCAATGCCGGGGGGATATTGGCGGGGTTTGTCGGGATCGCGCTGGGGGTGGTGGGATTGGATTGGTGGCTGGGGCGGCGGCCCCACTAA	MAALLGWAGLSIQLYLILLGRWELGASLLGGLVNCFSFFTVLTNTLVAVVLSFELTHRDSAARRWFLGPAVCSGIAVSIALVGLAYSLLLRHLWQPEGWQFIADELLHDVMPVLFIGYWWFCVPKGSLRLRHIGLWMLYPLVYFGYILLRGNLLAAYPYPFIDVATLGYPQVLINAGGILAGFVGIALGVVGLDWWLGRRPH				NA	NA	NA	NA	NA
D1-35_01484	366			hypothetical protein	ATGGATCCTTTCGGATTCGGTAACAGTCAAACGGGCTTCAACGACGCGGCCACTGCTTTCAAAGCGCGGCGCTTCCACCCGAACGGCACCTCGGCTAAGGTGCGCGGCATATCACTTACCTGGCGTACAGGCTTCATGACCGAACACAACGACAACCCACTGCACGGCGTGACGCTGGAGCAGATCCTCAATGCCCTGGTGCAGCACTACGAGTGGTCGGGCCTGGCCGAACGCATCGATATCCGCTGTTTCAAGAGCGACCCCAGCATCAAGTCGAGCCTGACCTTCCTGCGCAAGACGCCGTGGGCGCGGGAAAAAGTCGAGCGCCTGTACATCAAGCTGATGCGCACGAAACGGCCGGTCTGA	MDPFGFGNSQTGFNDAATAFKARRFHPNGTSAKVRGISLTWRTGFMTEHNDNPLHGVTLEQILNALVQHYEWSGLAERIDIRCFKSDPSIKSSLTFLRKTPWAREKVERLYIKLMRTKRPV				NA	NA	NA	NA	NA
D1-35_01485	2415	gcd	COG4993	Quinoprotein glucose dehydrogenase	ATGAGCACTGAGGGTGCTTTGAGTCGAAGCCGTCTGCTACCGAGCCTGCTCGGCATTCTGCTTCTGTTGATGGGCCTGGCCCTGTTGGCCGGGGGAATCAAGCTGAGCACGCTCGGCGGCTCGCTGTATTACCTGCTTGCCGGTATCGGCCTGGCGCTCACCGGCGTCCTGCTGATCCTGGCCCGCCGTGCGGCGTTGGGGCTGTACGCGCTGGTGCTGTTCGCCAGTACCGTTTGGGCCCTGTGGGAAGTGGGCCTGGACTGGTGGCAACTGGTGCCGCGCCTGGCGATGCTGTTTGCCCTGGGCATCGTCTTGCTGCTGCCATGGTTCCGCCGCCCGTTGCTGACTGCCGATGCGTCGCCGATGGGCACCCGCGCATTGGGCGCTGCGGTGATCATCGCGGGTATCGCCGCGCTCGCCAGCCAGTTCACCAACCCGGGTGAAATCAAGGGCCAACTGGACCGCGACAGCGTGCCCGGCATGGCCAACACCGCACCGGCGATGCCGGACGGGGACTGGAACTCCTACGGCCGCAGCGCCCACGGCGACCGTTATTCGCCGCTGGCGCAGATCACCCCGCAGAACGTCGGCCAGTTGAAGGAAGCCTGGACGTTCCGCACCGGTGACCTGCCAGGGCCGAACGACCCGGGCGAGACTACCGCTGAAAACACCCCGCTCAAGGCCAACGGCATGCTCTACGTGTGCACGCCGCACAGCCAGGTGATTGCGCTGGAGCCTGAAACCGGCAAGGAAATCTGGCGTTTCGATCCGAAGCTTTCCACGCAGAATGCGGAAAACTTCAAGGGTTGGGCCCACATGACCTGCCGCGGTGTGAGCTATCACGATGACGCCGTGTACGCCTCGGCCGAGCAGAGCCCGACCGGCGCCGCCAGCACCACGCCCGCCAGCACCGTGTGCCCACGACGGATCTTCCTGCCAACCGCCGACACCCGCCTGATCGCCCTCAACGCCGACACCGGCAAGATGTGCGAAGACTTCGGCGACAAGGGCCAGGTCGACCTGACCGCCAACATCGGTGGTTTCACCGCCGGCGGTTACTACTCCACCTCGCCGCCGGCGGTCACCCAGAACCTGGTCGTGATCGGCGGCCACGTCACCGATAACGTTTCCACTGACGAGCCAAGCGGTGTAATCCGTGCCTACGACGTGCACACCGGCAAACTGGTGTGGAACTGGGACAGCGGCAACCCGGACGACACCACGCCGATTGCCGAAGGCCAGACTTACACCCGCAACTCGCCAAACATGTGGTCGATGTTCAGCGTCGACGAAAAACTCGGCATGCTCTACCTGCCGATGGGCAACCAGACGCCCGACCAGTTCGGTGGTTTCCGCACGCCCGAGTCGGAAAAATACGCTGCCGGCCTGACCGCGCTGGACATCGCCACCGGCAAGGTGCGCTGGTACTTCCAGTTCACCCACCACGACCTGTGGGACATGGACGTCGGCGGCCAGCCGACCCTGATGGACCTCAAGACTGCTGATGGCGTGAAACCGGCCGTGCTGGCTTCGACCAAGCAGGGCAGCATCTATGTGCTGGACCGCAGCAACGGCCAGCCGATCGTGCCGATCAAGGAGATCCCGGTGCCGCAAGGCGCGGTGGAAGGCGACTTCACTTCACCGACCCAACCTATGTCCGACCTGAACTTCGTGCCGCCGGTCCTTAAGGAACGCGACATGTGGGGCGTGACCCCGTTCGACCAGATGCTGTGCCGGATCGACTTCAAGTCGCTGCGCTATGAGGGCATGTTCACACCGCCGTCGTTGCAGGGCTCGATCGTCTATCCAGGCAACTTCGGTGTGTTCGACTGGGGCGGTATCTCGGTGGATCCGGTGCGCCAGATCGCTTTCGTCAACCCGAGCTACATGGCGTTCAAGTCGAAACTGGTGCCGGCGGCGGAAGTCGCGGGTGGTCCGGGTCGCAAGAGCGAAACCGAAGGCGTGCAGCCGAACAAGGGCGCGCCGTACGGCGTAATCCTCGAGGCGCTGCTTTCGCCAATGGGCCTGCCTTGCCAGGCGCCGGCCTGGGGTTATGTGGCGGCCGTCGACCTGACCAACAACAAGACCCTGTGGAAGCACAAGAACGGCACCGTGCGCGACAGCTCGCCGGTTCCGATCCCGCTGAGCATGGGCGTTCCGAGCCTGGGCGGCACGTTCACCACCGCCAGTGGCCTGGCGTTCCTGAGCGGCACGCTTGACCAGTACCTGCGCGCCTATGACGTGAAGAACGGCAAACAGCTGTGGGAAGGCCGCCTGCCCGCCGGCGCCCAGACCACGCCGATGACCTATACCGGCAAGGACGGCAAGCAATACGTGCTGGTCGTAGCCGGCGGCCATGGCTCGCTGGGGACCAAGCAGGGTGATTATGTGATCGCCTACAAGCTGCCGGATTAA	MSTEGALSRSRLLPSLLGILLLLMGLALLAGGIKLSTLGGSLYYLLAGIGLALTGVLLILARRAALGLYALVLFASTVWALWEVGLDWWQLVPRLAMLFALGIVLLLPWFRRPLLTADASPMGTRALGAAVIIAGIAALASQFTNPGEIKGQLDRDSVPGMANTAPAMPDGDWNSYGRSAHGDRYSPLAQITPQNVGQLKEAWTFRTGDLPGPNDPGETTAENTPLKANGMLYVCTPHSQVIALEPETGKEIWRFDPKLSTQNAENFKGWAHMTCRGVSYHDDAVYASAEQSPTGAASTTPASTVCPRRIFLPTADTRLIALNADTGKMCEDFGDKGQVDLTANIGGFTAGGYYSTSPPAVTQNLVVIGGHVTDNVSTDEPSGVIRAYDVHTGKLVWNWDSGNPDDTTPIAEGQTYTRNSPNMWSMFSVDEKLGMLYLPMGNQTPDQFGGFRTPESEKYAAGLTALDIATGKVRWYFQFTHHDLWDMDVGGQPTLMDLKTADGVKPAVLASTKQGSIYVLDRSNGQPIVPIKEIPVPQGAVEGDFTSPTQPMSDLNFVPPVLKERDMWGVTPFDQMLCRIDFKSLRYEGMFTPPSLQGSIVYPGNFGVFDWGGISVDPVRQIAFVNPSYMAFKSKLVPAAEVAGGPGRKSETEGVQPNKGAPYGVILEALLSPMGLPCQAPAWGYVAAVDLTNNKTLWKHKNGTVRDSSPVPIPLSMGVPSLGGTFTTASGLAFLSGTLDQYLRAYDVKNGKQLWEGRLPAGAQTTPMTYTGKDGKQYVLVVAGGHGSLGTKQGDYVIAYKLPD	PGPT0001290_395	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION_D_GLUCONATE_BIOSYNTHESIS,PGPT0001290-gcd|gdhAB-K00117	NA	NA
D1-35_01486	1182	purT	COG0027	Formate-dependent phosphoribosylglycinamide formyltransferase	ATGACCCGTATCGGAACCCCATTGTCGCCCACCGCGACCCGCGTTTTGTTGTGTGGCAGCGGTGAGCTGGGCAAGGAAGTGGTAATCGAACTGCAGCGCCTGGGCGTTGAAGTGATTGCCGTGGATCGCTACGCCAACGCGCCGGCCATGCAAGTGGCCCACCGCAGCCACGTGATCAACATGCTCGACGGCGCGGCCCTGCGCGCAGTGATCGAGGCCGAGAAGCCGCACTACATCGTGCCGGAAATCGAAGCCATCGCCACCGCGACCCTGGTGGAACTGGAAGCCGAAGGCTTCACCGTGATCCCTACCGCCCGCGCCGCGCAACTGACCATGAACCGCGAAGGCATCCGCCGCCTGGCCGCCGAAGAACTCGGCCTGCCGACCTCGCCGTACTTCTTCGCCGACACCGTGGAAGACTACCGCAAGGCCGTCGAGACCCTGGGTTTCCCATGCGTGGTCAAGCCGGTGATGAGTTCCTCGGGCAAGGGCCAGAGCCTGCTGCGCAGTGCCGATGACGTGCAGAAAGCCTGGGACTACGCACAGGAAGGCGGCCGCGCCGGCAAGGGCCGGGTGATCATCGAAGGCTTCATCGACTTCGACTACGAAATCACCCTGCTTACCGTGCGCCACGTCGGCGGCACCACGTTCTGCGCACCGGTCGGTCACCGTCAGGAAAAGGGCGACTATCAGGAATCCTGGCAGCCACAGGCCATGAGCCCGGTGGCCCTGGCCGAATCCGAGCGCGTCGCCAAGGCAGTGACCGAGGCCTTGGGTGGTCGTGGACTGTTTGGCGTCGAACTGTTCATCAAGGGTGACCAGGTGTGGTTCAGCGAAGTCTCGCCGCGCCCGCACGACACCGGCCTGGTGACGCTGATCTCCCAGGACCTGTCGCAATTCGCCCTGCACGCCCGCGCCATTCTGGGTCTGCCAATTCCGCTGATCCGCCAGTTCGGCCCATCGGCTTCGGCGGTGATTCTGGTGGAAGGCCAGTCGACGCAGACCGCCTTCGCCAACCTCGGCGCCGCCCTGAGCGAACCGGACACCGCCCTGCGCCTGTTCGGCAAGCCGGAAGTCAACGGCCAACGCCGCCTGGGCGTGGCCCTGGCCCGCGACGAATCCATCGAAGCCGCCCGCGCCAAGGCAACCCGGGCTTCGCAGGCGGTCAAGATCGAACTCTAA	MTRIGTPLSPTATRVLLCGSGELGKEVVIELQRLGVEVIAVDRYANAPAMQVAHRSHVINMLDGAALRAVIEAEKPHYIVPEIEAIATATLVELEAEGFTVIPTARAAQLTMNREGIRRLAAEELGLPTSPYFFADTVEDYRKAVETLGFPCVVKPVMSSSGKGQSLLRSADDVQKAWDYAQEGGRAGKGRVIIEGFIDFDYEITLLTVRHVGGTTFCAPVGHRQEKGDYQESWQPQAMSPVALAESERVAKAVTEALGGRGLFGVELFIKGDQVWFSEVSPRPHDTGLVTLISQDLSQFALHARAILGLPIPLIRQFGPSASAVILVEGQSTQTAFANLGAALSEPDTALRLFGKPEVNGQRRLGVALARDESIEAARAKATRASQAVKIEL	PGPT0008100_849	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008100-purT-K08289	NA	NA
D1-35_01487	468			hypothetical protein	ATGCTTTTCCTGATCGCCTACATCGGCAGCGTCGTGCTGATCAACTTCGCGTTCTCCGCCGCGCCGCACCTGGACATCATCTGGTCGGCCTGGGGTGGCCTGGTGTTCGTCCTGCGCGACATGGTGCAGACCCGCTTCGGCCATGGTGCCATTGCGGCGATGCTGGTGGCGCTGGTGCTGTCCTACGTCACCTCCGATCCGACCATTGCCCTGGCCAGCGCCACGGCATTCGCAGTGTCCGAATGCATCGACTGGCTGGTGTTCACCATCACCCGGCGCCCATTGCACGACCGATTGTGGATCAGCTCGGCCCTGAGTATTCCGCTGGATACCTTCATCTTTTTCGGCCTGATCGACGCCCTCACGCCAGGCGTGGTCGTCACCGCCCTGCTGTCGAAATTCGCCGGGGTCACGGCCGTCTGGCTGATCATGGCCTGGCGTCTGCGCAAACAGGCCGTCGCCGGCTGA	MLFLIAYIGSVVLINFAFSAAPHLDIIWSAWGGLVFVLRDMVQTRFGHGAIAAMLVALVLSYVTSDPTIALASATAFAVSECIDWLVFTITRRPLHDRLWISSALSIPLDTFIFFGLIDALTPGVVVTALLSKFAGVTAVWLIMAWRLRKQAVAG				NA	NA	NA	NA	NA
D1-35_01488	786	yqjH	COG2375	NADPH-dependent ferric-chelate reductase	ATGACTGAAGTCGATCCAGACACCATCCACCGCGTCAGCCACGAAATCAAACGCCGTCGCCTGCAAGTGCTGCGGGTGCAAGACCTGACACCACGCATGCGCCGCATCACCGTCGGCGGACCGGAACTGGCCGGGTTCGTCAGCCTCGGCACGGACGATCACGTGAAGTTGCTGTTCCCGCAGAACGCCGAAGAACACGCCGCCCTGGAAAACTTCAACCCCGGCGCCGGCAAGGCCCAGGGCCCGATGCCCGAGATGCGCGACTACACCCCGCGCCGCTACGACCTGGATGCCCTGGAGCTGGAGATCGATTTCGTCCTCCACGGCGACGGCCCTGCTTCAACCTGGGCGGCCCAGGCGGCGCCCGGGCAGTACCTGAACATCGCCGGGCCACGGGGCTCGATGATCGTGCCGGATATTTTCGACAGCTACTTGCTGATCGGCGACGAAACCGCCCTGCCCGCCATCGCCCGACGCCTCGAAGGCCTGGCACCCAACCGGCGGGCACTGGTGGTGGTGGAAGTGGAAAACGGCGCCGAACAGCAGATCCTTCACAGCCCGGCCCAGGTGCAAGTGATCTGGGTACTGCGCGAAGGCCACCGCGACAGCCTGCTTCGCACCGTCCAGCAGTTGGAAATGCCCGGTGGCAAGCTGTACGCCTGGGTCGCGACCGAGAGCAAAGTGTCGCGGCAGATTCGCAAAGTGTTGCTGGAGGAGAAAGGGCTGGACCAGGATTTCATCAAGGCGGCGGGGTATTGGAAGCTTGATGACAATGAGGAAGATTGA	MTEVDPDTIHRVSHEIKRRRLQVLRVQDLTPRMRRITVGGPELAGFVSLGTDDHVKLLFPQNAEEHAALENFNPGAGKAQGPMPEMRDYTPRRYDLDALELEIDFVLHGDGPASTWAAQAAPGQYLNIAGPRGSMIVPDIFDSYLLIGDETALPAIARRLEGLAPNRRALVVVEVENGAEQQILHSPAQVQVIWVLREGHRDSLLRTVQQLEMPGGKLYAWVATESKVSRQIRKVLLEEKGLDQDFIKAAGYWKLDDNEED	PGPT0004045_30	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS,PGPT0004045-ygjH-K07229	NA	NA
D1-35_01489	570			hypothetical protein	ATGAGAGACCCGCATTCCCACCCTCACCGCGAACATGTCGCTCACGACGGCTTCGACAAACGTGCGGCAAGCCGTGAGCGCGGCGGTCGCGGGCCGCGTGTTTTCGCCGCGGGCGACCTGAAACTGCTGTTGTTGGCACTGATTGCAGAACAACCCTGCCACGGCTATGACCTGATCCGCCGGATCGAAAGCATGTTCGATGGCGCCTACAGCCCCAGTCCCGGCGTGATCTATCCGACCCTGACCTTCCTCGAAGAAAGCGAAATGATCAGCGGCGATGCCGATGGCGGAAAAAAACGCTACAGCGTGACCGATGCCGGACGTCTATCCCTTGAAGACCAGGCCGTGGCGCTGGACGGCGTACGGATGCGCATCGAAGTCAGCAAGCGTTCGCTGCGCGGCCAGGATCGGCCGCCGGAAATCCACGAGGCGGTCCACAACCTGCGCCATGCCTTGCAGATGCACCATGGTCGCTGGAGCCCGGAAGAGATCCTGCGGGTACGCGACCTGCTCAACGACACCGCCAAAGCCATTGTCGACGGCCCTCGCCGTCCAACCGTTTCGGAGTAA	MRDPHSHPHREHVAHDGFDKRAASRERGGRGPRVFAAGDLKLLLLALIAEQPCHGYDLIRRIESMFDGAYSPSPGVIYPTLTFLEESEMISGDADGGKKRYSVTDAGRLSLEDQAVALDGVRMRIEVSKRSLRGQDRPPEIHEAVHNLRHALQMHHGRWSPEEILRVRDLLNDTAKAIVDGPRRPTVSE				NA	NA	NA	NA	NA
D1-35_01490	3108			hypothetical protein	ATGGGCGCTTTGTGGCAAACCGATTCGAATAAACCTGTGGTCCCGACTGAACGTATGGAAGAAGCGCCTTTACCCCCGAAAAAACGCCGCGCACGGCATGGCTGGCGGGCGTTCTGGTTGTTGTTGCTGATTATCGTCGTGGTGGTCGGCTTTGCCGTGGCCAAGGAGATGCGCACGTCCCGGTTCCAGGCCCGGGAGATCAGCAAGTACGCCGCGTCCTTGACCTATTCGGTGCAACCGGGGCCCAGCGACGCCATCGTCTACCCTGGCGCGGGTCCGTTCGACCGGCGATTGGGCTACAGCTCGCTGGGGGAGTTCCTGCCACGACTGATCAAGCGCGACTATGTGATCCAGGCCCAGGCCCGTTTCTCCCCAGAGCTGACGGACTATGTCGATAAAGGCCTGTTCGTGCCCTACGCGGAAAAGATCCAGGCCGGACTGACCATCACCGATTGCCGCGCCGCGCCGGTGTATCAGTTCAAATACCCGCAACAGCTGTACGCCAGTTTCGACGCCATCCCGCCGCTCGTGGTGCAGAGCCTGCTGTTCATCGAGAACCGCTTCCTGCTCGATCCCAAGCAGCCGCTGGCTAACCCGGCGGTGGACTGGCCGCGTTTCGGCATGGCGGCCTGGTCGCAAGTGGCCAAGTTGCTGAGCTTGCCCGGCCAGTCGGCGGGCGGCAGCACATTGGCGACGCAGTTGGAGAAATACCGGCACTCCCCCGAGGGCCTGACCGTGTCGGGGGCGGAGAAGATCCGCCAGATGATTTCCGCCAGCGTGCGCGCCTACCAGGCCGGCCCGCAAACCCTCGAGGCCCGCCAGCGGGTCATCCGCGACTACCTCAACAGCGTGCCGCTTTCCGCGGTTCCAGGTCATGGCGAAGTCCATGGCATGGCGGAAGGACTGAGGGTCTGGTACGGCGCCGATTTCAACAAGGCCAACGAGCGCCTGTTCAGCACCGCCACCGACCCCGAGAGCCTGGCGCAAAAAGGCCTGGCCCTGCGGGAAATGCTCTCGCTGATGATCGCCCAGCGGCGGCCTTCCCATTACCTATCGAAGGGTCACGATGAACTCGCTCGCCTGACTGACAGCCACATCCGGCTGCTGGCGCAGAACGGCGTGATCGATGCGGCCCTGGCCGAGGCCGCCCTGGCGAGCAAAGTCAGTTATCGCGACTGGGTGCAGCAGCCGACGATCCAGCCCAACGAAACCAACAAGGGCATCAGCGCCGCCCGCAGTCGTCTCGCCACGCTGCTCAATCGTCCGCTGTACGACCTTGATCGCCTCGACCTGTCGGCCACCAGCACCTTGCAAAGCGAATTGCAGGCCCAGGCCACCGAGTACCTCAAGCGATTGGCCGACCCGGCGTTCGCCGCCGAGATCGGCCTGATGGGAGAGCGCCTGCTGACCCCCACCAGCACCACGCAGGTGCGCTACAGCTTTACCCTGCTGGAACTGACGCCGGACGGTTCGCGTGTGCGGGTACAGACCGACAGCACCGACCAGCCCTTCGACATCAACGAGGGCAGCAAGCTGGAACTGGGCTCCACCGCCAAATTGCGGGTGCTGACCACCTACCTGCAGATCATCGCCGAATTGCACGAGCGCTACGCCCAACAGACCCCGGCACAACTGAAGAAAACCGAGATCGCCGACCAGGACCGCCTCTCGCGCTGGGCGGTGGACTACCTGATTGAAAACACCGACCGCAGCCTGCCGAAAATGCTCGAAGCGGCACTCGACCGCACCTACTCCGCCAGCCCGGGCGAGGCATTTTTCACCGGTGGCGGACTGCACACCTTTCACAACTTTCGCAGGGAAGACGACGGTCGCCTGCCGACCCTGCGCGACGCCCTGCGCGAATCGATCAACTTGCCGTTCATTCGCCTGATGCGCGACCTGGTGCGCTACGCCACCTATGCCGGTCCCAACAACAGCTCCGAACTGCTCAAGGATGACAAGGACCCGCGCCGCCAGGAATACCTGGCCCAGTTCGCCGATCGCGAAGGCACCTCGTTCCTGCTCAGGTTCTGGAAGAAATACCAGAAAAAGGACACCGCCCAGCGCCTCGAAACCTTCCTCGACGGCATGCGTCCCACCGCGATCCGCCTCGCCGCCGTGCACCGCTATTTCTTTCCCAACGACAGCCAGGAGAGTTTCAACCGCTTCGTACGCGCCCATCTGAAAAACGCCAAGAGCGCCGAAAAGCTCACCGACGAGCGTCTGCAGCGGCTCTACCAAAGCTACGGCCCCGGCGCCTATGACCTGCCGGACCAAGGCTTCATCGCCAAGGTCCATCCACTGGACCTGTGGTTGGTGGGCTACCTGCTCAACAACCCCGACGCCAAGTTCAGCCAGATCGTCAAGGCCAGCCAGTTCGAGCGCCAGGAGGTCTACAGCTGGCTGTTCAAGAGCCGGCACAAGAGCGCCCGCGACAGCCGCATCCGCACCATGCTGGAGGTCGAAGCCTTCCTGGATATCCATCAGCGCTGGCAGCAAGTCGGCTATCCGTTCGACCACCTGGTGCCGTCGCTCGCCACTGCGATCGGCAGCTCCGGCGACCGCCCCGCCGCCCTCGCGGAACTGGTAGGGACCATTCTCAACGACGGCATCCGCCAACCGGCGCTGCGTGTCGACAGCCTGCAGTTTGCCGTCGACACGCCCTACGAAACGCGGCTGGTCAGCGATCCGGACAACGGCAAGCGGGTGATGCCGGTGGAAGTGGCCCGGGCCTTGCGCGGCGCCCTGTCGCAAGTGGTGGACGCCGGCACCGCGAAACGTGTCGCGGGCAGTTTCAAACTGGCCGACGGCACGCCGCTGGCCATGGGCGGCAAGACCGGCACTGGCGACAACCGCATCGAAGCCGTCGGCTCAGGCGGACGGGTGATCAGTTCCAAATCGATAAACCGCACCGCCACGTTCGTGTTCTACATCGGCGACAGCCATTTCGGCACCCTGACCGCCTTCGTCCCGGGCGCCTCGGCACAGAACTTCAAGTTCACCTCGGCCTTGCCGGTACAGGTGCTCAAGGGCATGGCGCCGTTTCTCTCGGCCTATTTGCAACCGGGCAGCCACACCCAATGTCAGCCATTGGTGACGAGCCGCTGA	MGALWQTDSNKPVVPTERMEEAPLPPKKRRARHGWRAFWLLLLIIVVVVGFAVAKEMRTSRFQAREISKYAASLTYSVQPGPSDAIVYPGAGPFDRRLGYSSLGEFLPRLIKRDYVIQAQARFSPELTDYVDKGLFVPYAEKIQAGLTITDCRAAPVYQFKYPQQLYASFDAIPPLVVQSLLFIENRFLLDPKQPLANPAVDWPRFGMAAWSQVAKLLSLPGQSAGGSTLATQLEKYRHSPEGLTVSGAEKIRQMISASVRAYQAGPQTLEARQRVIRDYLNSVPLSAVPGHGEVHGMAEGLRVWYGADFNKANERLFSTATDPESLAQKGLALREMLSLMIAQRRPSHYLSKGHDELARLTDSHIRLLAQNGVIDAALAEAALASKVSYRDWVQQPTIQPNETNKGISAARSRLATLLNRPLYDLDRLDLSATSTLQSELQAQATEYLKRLADPAFAAEIGLMGERLLTPTSTTQVRYSFTLLELTPDGSRVRVQTDSTDQPFDINEGSKLELGSTAKLRVLTTYLQIIAELHERYAQQTPAQLKKTEIADQDRLSRWAVDYLIENTDRSLPKMLEAALDRTYSASPGEAFFTGGGLHTFHNFRREDDGRLPTLRDALRESINLPFIRLMRDLVRYATYAGPNNSSELLKDDKDPRRQEYLAQFADREGTSFLLRFWKKYQKKDTAQRLETFLDGMRPTAIRLAAVHRYFFPNDSQESFNRFVRAHLKNAKSAEKLTDERLQRLYQSYGPGAYDLPDQGFIAKVHPLDLWLVGYLLNNPDAKFSQIVKASQFERQEVYSWLFKSRHKSARDSRIRTMLEVEAFLDIHQRWQQVGYPFDHLVPSLATAIGSSGDRPAALAELVGTILNDGIRQPALRVDSLQFAVDTPYETRLVSDPDNGKRVMPVEVARALRGALSQVVDAGTAKRVAGSFKLADGTPLAMGGKTGTGDNRIEAVGSGGRVISSKSINRTATFVFYIGDSHFGTLTAFVPGASAQNFKFTSALPVQVLKGMAPFLSAYLQPGSHTQCQPLVTSR				NA	NA	NA	NA	NA
D1-35_01491	459			hypothetical protein	ATGCATCCGCACCCCAACTCACATCGCTTGCGCAGAGGTCGTTATTCAGAGCTTGGGCGTGCTTATCTGGTGACTGCTGTGGTTCACAAACGCCAGCCGGTTTTTTCCGATTGGAGGCTTGGACGCCTGTTGGTTGCCGAATTCAAGCATGCTCATGATTCCGGCCAGGTGAACTCTTTGGCCTGGGTGGTGATGCCGGACCATTTCCATTGGCTGCTGCAAGTCATGGATAGTCAGCTAAGTCGTATCATCGGCGCTACCAAGGCTCGATGCACCCACAGTGTCAATAACACGATCGGAGCCACTGGACCGCTGTGGCAAAGCGGCTTTCATGATCGTGCGATTCGAGATGACGTGGAGTTGTTGCCGTTAGCTCGCTACATCATTGCGAATCCGCTTCGTGCTGGGCTGGTGAGTCGAATTGGCGATCACCCGCTGTGGGACGCTGCATGGCTTTGA	MHPHPNSHRLRRGRYSELGRAYLVTAVVHKRQPVFSDWRLGRLLVAEFKHAHDSGQVNSLAWVVMPDHFHWLLQVMDSQLSRIIGATKARCTHSVNNTIGATGPLWQSGFHDRAIRDDVELLPLARYIIANPLRAGLVSRIGDHPLWDAAWL	PGPT0030655_3080	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030655-yafM|rayT|tnpA-K07491	NA	NA
D1-35_01492	1422	proY	COG1113	Proline-specific permease ProY	ATGCCAGTCGGCAATCCTCTGCCCCATGGCGAGACCGCTCAGGGTGGTCCGCTCAAACGTGAGCTCGGCGAGCGGCATATCCGCTTGATGGCGCTCGGCGCCTGCATCGGTGTCGGGCTGTTCCTCGGTTCGGCCAAGGCCATCGAAATGGCCGGCCCGGCGATCATGCTGTCCTACATCATTGGTGGCCTGGCGATCCTGGTGATCATGCGCGCCCTCGGCGAGATGGCCGTGCATAACCCGGTGGCCGGTTCGTTCAGCCGTTATGCCCAGGATTACCTCGGCCCGCTGGCAGGCTTCCTGACCGGTTGGAACTACTGGTTCCTCTGGCTGGTGACCTGTGTGGCGGAGATCACCGCGGTGGCGGTGTACATGGGCATCTGGTTCCCCGATGTGCCCCGCTGGATCTGGGCGTTGGCCGCACTGGTCAGCATGGGCTCGATCAACCTGATCGCGGTCAAGGCCTTCGGTGAGTTCGAGTTCTGGTTCGCCCTGATCAAGATCGTGACGATCATCGCCATGGTCATCGGCGGCGTCGGCATCATCGCCTTCGGGTTCGGCAACGATGGCGTGGCCCTGGGCATTTCCAACCTGTGGACCCACGGCGGCTTCATGCCCAACGGCGTGTCCGGCGTGTTGATGTCTCTGCAAATGGTGATGTTCGCCTACCTGGGCGTCGAGATGATCGGCCTGACCGCCGGTGAAGCGCGCAACCCGCAGAAAACCATCCCCAACGCCATCGGTTCGGTGTTCTGGCGGATCCTGCTGTTCTACGTTGGTGCGTTGTTCGTGATCCTGTCGATCTACCCGTGGAACGAAATCGGCACTCAGGGCAGCCCGTTCGTGATGACCTTCGAGCGCCTGGGCATCAAGACCGCCGCTGGCATCATCAACTTCGTGGTCATCACCGCCGCCTTGTCGTCCTGCAACGGCGGGATCTTCAGCACCGGTCGCATGCTCTACAGCCTGGCGCAGAACGGCCAGGCCCCGGCCGGTTTCGCCAAGACCTCGAGCAACGGCGTGCCGCGCCGGGCGTTGCTGTTATCGATCGCCGCGCTGCTGCTGGGCGTGCTGCTCAATTACCTGGTACCGGAGAAAGTCTTCGTCTGGGTCACTTCCATCGCCACCTTCGGCGCGATCTGGACCTGGGTGATGATCCTGCTGGCCCAGCTGAAATTCCGCAGAGGCCTGAGCGCGTCCGAGCGTGCGGCGTTGAAGTACCGCATGTGGTTGTACCCGGTCAGCTCGTACCTGGCGCTGGCATTCCTGGTGCTGGTGGTGGGCCTGATGGCGTACTTCCCCGACACGCGTGTGGCGCTGTATATCGGCCCGGCGTTCCTGGTGCTGCTGACAGTGTTGTTCTACACGTTCAAGTTGCAGCCGAAGGAACAGGTGCAGGGTTCGATGCGTTCCGCATCGTAA	MPVGNPLPHGETAQGGPLKRELGERHIRLMALGACIGVGLFLGSAKAIEMAGPAIMLSYIIGGLAILVIMRALGEMAVHNPVAGSFSRYAQDYLGPLAGFLTGWNYWFLWLVTCVAEITAVAVYMGIWFPDVPRWIWALAALVSMGSINLIAVKAFGEFEFWFALIKIVTIIAMVIGGVGIIAFGFGNDGVALGISNLWTHGGFMPNGVSGVLMSLQMVMFAYLGVEMIGLTAGEARNPQKTIPNAIGSVFWRILLFYVGALFVILSIYPWNEIGTQGSPFVMTFERLGIKTAAGIINFVVITAALSSCNGGIFSTGRMLYSLAQNGQAPAGFAKTSSNGVPRRALLLSIAALLLGVLLNYLVPEKVFVWVTSIATFGAIWTWVMILLAQLKFRRGLSASERAALKYRMWLYPVSSYLALAFLVLVVGLMAYFPDTRVALYIGPAFLVLLTVLFYTFKLQPKEQVQGSMRSAS	PGPT0000815_584	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0000815-TC_AAT|yifK-K03293	NA	NA
D1-35_01493	375	yfdG	COG2246	Prophage bactoprenol-linked glucose translocase	ATGAAAGCGATATGGAATGGTTTTTTCAGCTATTCGCTCGTCGGATTGGCCAACACGCTGATCCACTGGCAGGTGTTCTTTGTGCTGCGCGTGGCGTTCGACTTCGATCAGTCGACGAGTAACTTCATCGCTTTTTGCCTCGCCGCGACATTTTCCTTTTATGCCAATGCGCTTTATACCTTCGAGGCCAAGCTCTCGGTGCCGGGTTATATGCTGTTCCTGTGTGTCATGGGCGCCCTTAGTTTCATCGTCGGGCATCTCGGGGATCGCTGGCAGTTGCATGGCCTGCTGACCGTCGCGGCGTTCTCGCTGTTAAGCCTGGTTCTCGGTTTTCTGTTTTCCCGGTTTGTCGTGTTTCGCGGACCTTGTCCATGA	MKAIWNGFFSYSLVGLANTLIHWQVFFVLRVAFDFDQSTSNFIAFCLAATFSFYANALYTFEAKLSVPGYMLFLCVMGALSFIVGHLGDRWQLHGLLTVAAFSLLSLVLGFLFSRFVVFRGPCP				NA	NA	NA	NA	NA
D1-35_01494	951	yfdH	COG0463	Prophage bactoprenol glucosyl transferase	ATGAAAATTTCGCTGATCGTTCCGGTGTACAACGAAGAGCAGGCGATCGGCCTGTTCTACCAAAGTGTCCGCGAGCATCCGCAGCTCCAGGAACATAGCGTCGAGATTGTTTTCATCAACGATGGCAGCAGCGACCAGACTGCCGCACTGGCGCGTGAGATAGCGTTGGCGGACAGCCAGGTTGTGTTGATCGACTTCTCGCGTAATTTTGGCAAGGAGCCGGCCTTGTTTGCCGGGATCGAACATGCCAGCGGTGATGTGGTGATCCCGATGGACGTGGACCTGCAAGATCCCATCGACGTCATCCCCCGGATGATCGAGCAATGGCACAAAGGCGCCGAAGTGGTGCTGGCCAAGCGTCGCAATCGTTCATCCGACAGTTACCTGAAGCGGCGCGGGGCGGCGTTGTTCTACCGCCTGCTCAATCGGATTGCCTACCCGCACATTGAACAGAACGTGGGCGACTTTCGCCTGATGGACCGCAAGGTCGTGGAGGTCATCAAGACCCTTCCCGAATATCAGTTGTTCATGAAAGGCGTTCTGTCGTGGGCCGGTTTCAACACCGTCATCATCGAATACGACCGCGCCGGCCGCGCCGCTGGCAACAGCAAGTTCAACGGCTGGAAGTTGTGGAACCTGGCACTCGAAGGCATCACTTCGTTCAGCACCGTGCCTTTACGGTTGTGGACTTACGTCGGCAGTTGCATTTCGTTGGTTTCGTTGCTGTATGCCGCCTACCTGATTCTGGACAAGTGGATCTTCGGGAACGATCTGCCCGGTTATCCATCGCTGATGACCGCGATCCTGTTCCTGGGCGGCGTGCAACTGATCGGGATTGGCGTGTTGGGTGAATACATCGGGCGCATTTACCTGGAGACGAAACATCGGCCTCGGTATGTCATCAAGGAAATGATCCAGGGCGGACGACCCAAAATGCGAGATGAACCGTGA	MKISLIVPVYNEEQAIGLFYQSVREHPQLQEHSVEIVFINDGSSDQTAALAREIALADSQVVLIDFSRNFGKEPALFAGIEHASGDVVIPMDVDLQDPIDVIPRMIEQWHKGAEVVLAKRRNRSSDSYLKRRGAALFYRLLNRIAYPHIEQNVGDFRLMDRKVVEVIKTLPEYQLFMKGVLSWAGFNTVIIEYDRAGRAAGNSKFNGWKLWNLALEGITSFSTVPLRLWTYVGSCISLVSLLYAAYLILDKWIFGNDLPGYPSLMTAILFLGGVQLIGIGVLGEYIGRIYLETKHRPRYVIKEMIQGGRPKMRDEP	PGPT0014540_2204	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
D1-35_01495	1524			hypothetical protein	GTGAGCCAGTCCCTGTGGGCCAGGGTAATGACGCCACGGGAAGTGCTGCTGTTTTTCCTGGCGGCCAGTTTTCTTCATATCTTTCCCCTGGTTCAGGCTGATTATTTCTATAACGACGATAACTGGCGGGCGCTGGTGGCGGGCGAGGGCTGGCGCGAGGAAGGGCGGGTTGTCATCGAGCTGTTCTACAACGCCCTTTCGTTTGGTTCGAAAGCGCCAGATCTGTTTCCTTTGCCATTGTTCGTCGCCACCGCGGGCATCTCGTTTGCGCTGAGGTCGCTGACGTTTTTTTATTTCAAACGGCCGACGTTTGTTCATTGCCTGGTCGTCCTGCCGATCTGGTACAACCCGTTCTTCTTGCAGAACCTGTCCTACCACTACGACGGGCCGGCGATGGCATTGGGACTGGTGGCGCTTGTTTACGCCGCAATCTGGTCCAACGGCAGGGCCTGGCGAGACGTATGGATACCGGCATTGTTACTGGCCGTGGCCCTCGCGATCTATCAAGTGCTCATCGGTTTTTTTATCGCCATGTGTTGTGTCGATGTGATCAGACGGGTGTGGGAGGGCGAGCCGTCGGAGCAACTACTGCGGTTCATTACGCGCAAGCTTCTGGTCATTGTCGGCGGCGTATTGGTCTATTACGTCACGGCTTATCAACTGATGACCGGAGCGCGTCAGGCGTTGTTGCCGCTGCAAGCCAGCAGTCTGATGGAAATGGGCGACCGGCTTTTTTTTCTTGCGCATCTGCTGGTTGAAGGGGCCCGACCTTGGATCTGGAGCGGCGCGTTGCTCATGCTGGTCGGGTTCGCATGGGCAGGCATCGGGTTGTTCCGTCGTCCAGACCTGCTTTGGCGAAAAGCACTGCTGTTGCTCGTTTATCTACTGGCCCTTCCAGTGCTCCTGTTCTGCATCCCTGGCATCACGCTGTTATTTGCCGAGTTCAACTACGGTGCCAGGACGCTGGTGGCTTTTTCGGCGTTGTTATTGCTGACGTTCTTTCTGAGCCTGCAAATACTCACCCGTGTCCATGCAGGACTGGGACTGGTCTTGTTGATTCCGTTGTTGGCGATGTTGTCATTCTCCTTCGGACACGGCCGTGCCCTGTCGCTGCAAAAGGAACAGGAAGCCGTGGTGCTGGCTTCGCTGGCTTATGACATCAACCATTCGCCGCTGCGCGATAAAAGCCGTCTCTACATGGTCCCCGAACTGAAAGCCAACTGGCTCCCGGCGGCCAGTGGATTGTTCGCGGCGATGCCGGCTCAACGGTATGTGCTGGGCGTGGGTTACGTATTACTGCCGGAAAGCTTGCCGCGAGCGGGCATCACCAACGTGTATCTCGCCAAGGATGCAGAAGTGGTTGAATCGATCCGGCGCGGGGATTTCCTGCCGGTGGTGTCTACAGGGTTTTATGACCTGTTTGTCATCAATGACAGCGGCTATATCTTCATGAAAAAACCGCAGGGTGATCCTGATATGGCGCCCAAGTTGTGTTTGATGGTTGATATCGAGCGGTGTCGCTGA	MSQSLWARVMTPREVLLFFLAASFLHIFPLVQADYFYNDDNWRALVAGEGWREEGRVVIELFYNALSFGSKAPDLFPLPLFVATAGISFALRSLTFFYFKRPTFVHCLVVLPIWYNPFFLQNLSYHYDGPAMALGLVALVYAAIWSNGRAWRDVWIPALLLAVALAIYQVLIGFFIAMCCVDVIRRVWEGEPSEQLLRFITRKLLVIVGGVLVYYVTAYQLMTGARQALLPLQASSLMEMGDRLFFLAHLLVEGARPWIWSGALLMLVGFAWAGIGLFRRPDLLWRKALLLLVYLLALPVLLFCIPGITLLFAEFNYGARTLVAFSALLLLTFFLSLQILTRVHAGLGLVLLIPLLAMLSFSFGHGRALSLQKEQEAVVLASLAYDINHSPLRDKSRLYMVPELKANWLPAASGLFAAMPAQRYVLGVGYVLLPESLPRAGITNVYLAKDAEVVESIRRGDFLPVVSTGFYDLFVINDSGYIFMKKPQGDPDMAPKLCLMVDIERCR				NA	NA	NA	NA	NA
D1-35_01496	1620			hypothetical protein	ATGAGCCTATCGTTGCTGAGCCGCTACGCCTTCTTCGCCGGCTGTGTGATCTTTACCCTCGCCAGCCTGCCGTTCCTGCGACACGACTGGCTCTGGCCGATCGTGCTGTTGACCGGGCTGCTGAGCCTGCTGGGGGTGTTCGACCTGCTGCAAAGCCGTCACGCGGTACGCCGTAACTATCCGATCCTGGGCAACATCCGCTACCTGGTCGAAGGCATCCGCCCGGAGATCCGCCAGTACCTGCTCGAATCCGACAGCGATGCCCTGCCCTTTTCCCGCGCCCAGCGCTCGCTGGTGTACTCGCGGGCCAAGAACGAAAGCGCCGACAAACCGTTCGGCACCTTGATCGACGTCTACCAGACCGGCTTCGAATTCATCGGCCACTCCATGCGCCCGGCCCCGTTGAGCGACCCCAGCGGCTTTCGCGTCACGGTCGGCGGCCCGCAATGCACCCAGCCGTACTCGGCGTCGGTGTTCAACATCTCGGCGATGAGCTTCGGCTCCCTGAGTGCCAACGCCATCCGGGCGTTGAACCAGGGCGCGAAGCTCGGCAATTTCGCCCATGACACCGGCGAAGGCAGCATCAGCCCTTACCACCGCGAACACGGCGGCGACCTGACCTGGGAATTGGGCAGCGGTTACTTCGGTTGCCGCACCTCCGACGGGCGCTTCGACCCGGAGCGCTTCGCAATCCAGGCGCAGAACCCACAGGTGCGGATGATCGAAATCAAGATGAGTCAAGGCGCCAAGCCGGGTCACGGCGGGATCCTGCCCAAGCACAAGGTCACTCGGGAAATTGCCGAGACCCGGGGCATACTCATGGGCGAGGATTGTATTTCGCCGTCTTGCCACAGCGCGTTTTCCACGCCTATCGAACTGATGCAGTTCGTCCAGCAACTGCGCGAACTGTCCGGCGGCAAACCGGTGGGCTTCAAGTTCTGCCTGGGGCATCCGTGGGAATTCATGGGCATCGCCAAGGCCATGCTGGAAACCGGAATCCTGCCCGACTTCATCGTGGTCGACGGCAAGGAAGGCGGCACCGGCGCCGCGCCGGTGGAGTTCACCGACCACATCGGCGTGCCGCTTCGCGAAGGCCTGCTGTTTGTGCACAACACCTTGGTGGGCCTGAACCTGCGGGACAAGATCAAGCTCGGCGCCAGCGGCAAGATTGTCAGCGCCTTCGACATCGCCAGTGTCCTGGCCATCGGCGCCGACTGGGCCAACGCCGCACGCGGCTTCATGTTCGCCATCGGCTGCATCCAGTCACAAAGCTGCCACACCAACAAGTGCCCCACCGGCGTCGCCACCCAGGACACCCTGCGCCAGCGCGCCCTGGTCGTCCCGGACAAAGCCCAGCGGGTCTACAACTTCCACCGCAACACCCTCAAGGCCCTGGCCGAAATGCTCGCCGCCGCCGGCCTCGACCATCCTTCGCAACTGCAACCCAAGCATCTGGTGCGGCGCATGTCGGCTACGGAGATCAAGCTGTTCTCCCAACTGCATGTTTTCCTCAAACCAGGGGAGCTGCTGACTGGTGAGGTCAATGGCGAGTTCTATTCGCGGATGTGGCAGTTGGCACGGGCGGACAGTTTTGAGCCTCAGGAAATAGCGGCTGCTTAG	MSLSLLSRYAFFAGCVIFTLASLPFLRHDWLWPIVLLTGLLSLLGVFDLLQSRHAVRRNYPILGNIRYLVEGIRPEIRQYLLESDSDALPFSRAQRSLVYSRAKNESADKPFGTLIDVYQTGFEFIGHSMRPAPLSDPSGFRVTVGGPQCTQPYSASVFNISAMSFGSLSANAIRALNQGAKLGNFAHDTGEGSISPYHREHGGDLTWELGSGYFGCRTSDGRFDPERFAIQAQNPQVRMIEIKMSQGAKPGHGGILPKHKVTREIAETRGILMGEDCISPSCHSAFSTPIELMQFVQQLRELSGGKPVGFKFCLGHPWEFMGIAKAMLETGILPDFIVVDGKEGGTGAAPVEFTDHIGVPLREGLLFVHNTLVGLNLRDKIKLGASGKIVSAFDIASVLAIGADWANAARGFMFAIGCIQSQSCHTNKCPTGVATQDTLRQRALVVPDKAQRVYNFHRNTLKALAEMLAAAGLDHPSQLQPKHLVRRMSATEIKLFSQLHVFLKPGELLTGEVNGEFYSRMWQLARADSFEPQEIAAA	PGPT0014521_6	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014521-yerD-NA	NA	NA
D1-35_01497	1407	sasA_4		Adaptive-response sensory-kinase SasA	ATGAACAGCCTGAGCAACCGGCGCATCCTCTTGATTGATGACACGCCCGCCATCCACGAAGATTTCCGCAAGATCCTGACCCCGGAGGACGAAAGCGACAGCGACTTGCAGGACATGGAAAGCGCGCTGTTCGGCGAGGCCCCGAAACCCGCCGCCACCGTGTTCGAACTCGACTCGGCCTACGGTGGCCAGGAAGGCTTGGCCAAATTGCAAGGGGCATTGGCCAAGGAGCTTCCCTATGCCCTGGCCTTCGTCGACATGCGCATGCCCGAAGGCTGGGACGGCGCCAAGACCATCGAAGAGCTGTGGAAAGTCGACCCGCAATTGCAGGTGGTGGTCTGCACCGCGTATTCGGATTATTCCTGGGACGAATTGCTCGACCGCCTGAACGGCCACGACCGTCTGCTCATATTGAAAAAGCCCTTCGACAACATCGAAGTCCAGCAGATGGCCAATACCCTGACCACCAAATGGGAAATGACTTCCCGTGCCCGTTTGAAAATGAACAAGCTCGAAGACCTGGTGGAGCAACGCACCCTGGCGTTCAAGCAGGCCAGCGAATTGCTGCAGATGGAAATCGACGAACGCAAGATGCTTGAAAGCCAGCTCGTGCAGTCGGAAAAGCTCGCTTCGCTCGGTCAGCTGGCGGCTGGTGTGGCCCACGAAATCAACAACCCGATCGGCTTCATTTCTTCCAACCTCGGCGCCTTGGGCGGTTACTTCAGCAAACTCGAGGAAATGCTCCAGGCCTACGGCAGCGCCGAACAGGCCATCGCCTCGCCAGAGCTGGCGATGAATTTGAAAAGCCTGCGCGAACAGGTGGAACTGGATTTCCTGGTGGAGGACATTCCAATACTGATCAAGGAATCCAAGGACGGCATCGCTCGCGTCGGGCAGATCGTCAAGGACCTCAAGGACTTCTCCCGCGTCGACTCCAGCCAGGAATGGCAGATGGCAAATCTGCAGCAGGGCATGGATTCGACATTGAACATCGTCGCCAACGAAATCAAATACAAGGCCGACGTGGTCAAGCAATACAGCCCTCTGCCGGAAGTCGAATGCCTGCCGTCGCAGATCAACCAGGTGATCATGAACCTGATCGTCAACGCCGCCCAGGCCATCGGCCCCGAGCGCGGCACCATCACCCTGCGCAACGGGGTCGAGGGCGACAACGTCTGGATCGAAGTCGCCGACAACGGCTCGGGCATCCCACCGGAAACCCTGCAGAAAATCTTCGACCCGTTCTTCACCACCAAACCCATCGGCCAGGGCACGGGGCTCGGGCTGTCGCTGTCCTACGGCATCGTGAAGAAACACCACGGCGAGATTACCGTGCGCAGCGAAGTCGGCGTCGGGACCACCTTTCGCGTGGAGCTGCCGGTACGGCAGATGAAGTTGGCGGGGTGA	MNSLSNRRILLIDDTPAIHEDFRKILTPEDESDSDLQDMESALFGEAPKPAATVFELDSAYGGQEGLAKLQGALAKELPYALAFVDMRMPEGWDGAKTIEELWKVDPQLQVVVCTAYSDYSWDELLDRLNGHDRLLILKKPFDNIEVQQMANTLTTKWEMTSRARLKMNKLEDLVEQRTLAFKQASELLQMEIDERKMLESQLVQSEKLASLGQLAAGVAHEINNPIGFISSNLGALGGYFSKLEEMLQAYGSAEQAIASPELAMNLKSLREQVELDFLVEDIPILIKESKDGIARVGQIVKDLKDFSRVDSSQEWQMANLQQGMDSTLNIVANEIKYKADVVKQYSPLPEVECLPSQINQVIMNLIVNAAQAIGPERGTITLRNGVEGDNVWIEVADNGSGIPPETLQKIFDPFFTTKPIGQGTGLGLSLSYGIVKKHHGEITVRSEVGVGTTFRVELPVRQMKLAG				NA	NA	NA	NA	NA
D1-35_01498	1806	sasA_5		Adaptive-response sensory-kinase SasA	ATGAACAGTCTCTCCCGCCGCCTCGGCCTGGCTTTCATCGGCGTCTTGCTGGCCTCAGTCCTGTTGTTCATGTATATCGAATCAGGCGCCCAGCAAGCCGCCTCGCACATCGAATCGCGCGACTTGATCCGCCTGCTCAAGCAGCAGGACGGGATCTGGGACAACGAAGTGCTCAAGTCGCGAATCGCCCTGAGCCACAACTACGACCCGCTGGTATCGCCGCTCAATGAAATGACGCGCCTGTGGCAGCGCCTCGATGCCATCGAGGCGGAGCCGGGCCGCCATGCGCCCGAGCTCTGGTCGACCCAGCGCGACGAGTACCTCAAGGCACTCAAGGAAAAAACCCGCCTGGTGGAACAGTTCAAGTCCCATAACGCGGTGCTGCGCAACTCCCTGGCTTTCCTGCCCACCGCCGAAGACGATATCCAGCGCCAGTTCTCCCTGCTGTCCGATAACGACAAGCTTCGGCTGCAGAGCGCCACCATCGACACCTACGACCTGCTGCTCGCCACGCTGGAGTTCGCGCAGATCACCACCCAGGACCAGGCTGCCGAAATCCTGATGGGCCTCAACCAGCTGGATATCAACAAGGAGCGCTTGCCGGACGGGCTCGTCAGCTCCGTGGAAATCCTGCGCAGGCACATTGCGCTGATCCTGCGTGAGCAACCCTTGGTCAACCAGCTACTGCGCGATTTCGAGGCCGTCCCCCTGGCCGCCCGCCTGGACACCATCACCAGTCTGCTGGAAAAGGATCAGGAAAAAGCCGCCGCCAAGCATCAGCGCAACCACATTATGTTGCTGGTGTTCGCTACCCTCCTGGTGCTGATCCTGATCTGGCTGGCGGTTCGGCTGGTACGCAGTTTCGGCGAGATCAAGCGGGTCAACAGTGCGCTGCAAACCGCCAACGACGAACTCGAACAACGGGTCGAAGAGCGCACCCGCCAGCTCAAGGACACCCAGAGCGAACTGATGGACACCGCCCGCCAGGCCGGCATGGCGGAGATCGCCACCAACGTATTGCACAACGTCGGCAACGTGCTCAACAGCGTGAACATCTCCGCCGACCTGGTCAGCCGCAAGCTGCGCAGCAGCAAGGCCCTGGGGCTGGGCAAGGCGATGAACCTGATCAACGAACACAACCACGACCTGGGGCATTTCCTCACCGAGGACGAAAAAGGCAAGCTGCTGCCCGGCTACCTCAACCAGTTGGTGGAAGCCATCGCGGTGGAACAACAAGGCCTGACCGATGAACTGGCGCAACTGAGCAAGAGCGTGGACCACATCAAGGACATCGTTTCCACGCAGCAGTCCTACGCCGGCGCCAACAGCCTGATGGAACCCCTGGTGGTCAGCGAACTGCTCGAAGACGCCCTGCGCATGAACTCCGGAGCCCTGACCCGCCACCATGTAACGGTCATCAAGGACTACGGCGAAGTGCCGCGGATCATGGGCGACAAACACCGCTTGTTGCTGATCCTGATCAACCTGATCAGCAATGCCAAATACGCCATGGCCGGGGTTTCCAACCATGCGCGAAACATGACGCTCAAGGCCACCGTCGTAGATGATGAGACCCTGCAGATCAGCGTGAAGGACGAAGGCGAAGGCATCCCGGAGGAGAACATGACACGCATCTTCGCCCATGGTTTTACCACCCGTAAGGACGGCCACGGGTTCGGCCTGCACAGTTGCGCACTGGCAGCGATTGAAATGAACGGCCACCTCACCGCACACAGCGAGGGGCCTGGTACCGGGGCGACGTTTGTATTGCAGCTGCCCCTGAAACTCGCAGAAGGTGAGCCATGA	MNSLSRRLGLAFIGVLLASVLLFMYIESGAQQAASHIESRDLIRLLKQQDGIWDNEVLKSRIALSHNYDPLVSPLNEMTRLWQRLDAIEAEPGRHAPELWSTQRDEYLKALKEKTRLVEQFKSHNAVLRNSLAFLPTAEDDIQRQFSLLSDNDKLRLQSATIDTYDLLLATLEFAQITTQDQAAEILMGLNQLDINKERLPDGLVSSVEILRRHIALILREQPLVNQLLRDFEAVPLAARLDTITSLLEKDQEKAAAKHQRNHIMLLVFATLLVLILIWLAVRLVRSFGEIKRVNSALQTANDELEQRVEERTRQLKDTQSELMDTARQAGMAEIATNVLHNVGNVLNSVNISADLVSRKLRSSKALGLGKAMNLINEHNHDLGHFLTEDEKGKLLPGYLNQLVEAIAVEQQGLTDELAQLSKSVDHIKDIVSTQQSYAGANSLMEPLVVSELLEDALRMNSGALTRHHVTVIKDYGEVPRIMGDKHRLLLILINLISNAKYAMAGVSNHARNMTLKATVVDDETLQISVKDEGEGIPEENMTRIFAHGFTTRKDGHGFGLHSCALAAIEMNGHLTAHSEGPGTGATFVLQLPLKLAEGEP				NA	NA	NA	NA	NA
D1-35_01499	960	ccp	COG1858	Cytochrome c551 peroxidase	ATGGCGTCACACGGACTGATTCTGGCTCTCTGCCTGCTTCTGGGATACAGCGTGACCACTCACGCAGAACCATTGGACGAACCGCTCAAACCCCTGCCCGCCGCGCCGGCCCTGGACCCCAAGCGGGTCCAGTTGGGCCAGCGGCTGTTCAACGACCCACGGCTGTCGGTCAACAACACGCTGTCCTGCGCCAGCTGCCATCGCCTGGACAAGGGCGGCGCCGATGACAAGCAGTTTTCCCTGGGCTTCGACGGCAAGCCGGTGGAGGTCAATACCCCTACCGTGTTCAACGCCAGCCTGAACTTCCATCAGTTCTGGGACGGTCGCGTCGATACCCTGGAAGAACAGGTGCACATCGTCGTGACCAGCCCCGGGGAAATGGGCAGCGACTGGAAAACGGTGGTCAAGCGCATCGCCGACGATCCGGGCTACGCCAGGGATTTTTCCGACGCCTACCCCGGCGGCGTGACCCAGCCCAACATCCAGGGCGCTCTCGCCGATTACGAGCGCACCCTGCTGACGCCGAATTCGCGCTTTGACCAATACCTGCTGGGCAACACTGACATTCTCACCCCCCGGGAAAAATTCGGTTACCAGCGCTTCAAGGAATACGGCTGCATCGCCTGCCATCAGGGCGTGAACATCGGCGGCAACATGTTTCAGAAGTTCGGCGTGATGGGCGACTACATCCAGGACCGGGGCAACCCCACCCGGGCCGACAACGGCCGCTTCAACATCACCGGCGACGAAGCCGACCGCCAGGTGTTCAAGGTGCCGAGCCTGCGCAACGTGGCCGTCACCGCGCCGTATTTCCATGGCGGCTCCGCGCCGACCCTGGAGCGCGCGGTGGAAGTCATGTTCAAGTACCAGCTGGGCCGTGAGCCGCTGAAAAACGATACCGAACTGATCGTCGAGTTCCTCAAGACCCTCACTGGCGAATGGGAGGGCAAGCCGCTATGA	MASHGLILALCLLLGYSVTTHAEPLDEPLKPLPAAPALDPKRVQLGQRLFNDPRLSVNNTLSCASCHRLDKGGADDKQFSLGFDGKPVEVNTPTVFNASLNFHQFWDGRVDTLEEQVHIVVTSPGEMGSDWKTVVKRIADDPGYARDFSDAYPGGVTQPNIQGALADYERTLLTPNSRFDQYLLGNTDILTPREKFGYQRFKEYGCIACHQGVNIGGNMFQKFGVMGDYIQDRGNPTRADNGRFNITGDEADRQVFKVPSLRNVAVTAPYFHGGSAPTLERAVEVMFKYQLGREPLKNDTELIVEFLKTLTGEWEGKPL				NA	NA	NA	NA	NA
D1-35_01500	1875			hypothetical protein	ATGAACCCCATGTCGGTACCTGCCAACCGGCGAATCCTGGTGGTGGACGACACGCCCGCCATCCACCAGGATTTTCGCAAGATCCTCAGCCCCAGCGCCGGCAATGACGATTCGCTGGACGACACCGAGAGCCTGCTGTTCGGAACACCGCAGGTCAATCGATTGCAATTCCAGATCGACTCGGCCTATCAGGGCGAGGAAGCGCTGGAGCTGGTCAAGCGCGCCCAGGCCGAGGGCCAGCCGTATGCGCTGGTATTCGCCGACATGCGCATGCCGCCGGGCTGGGACGGCCTGCAAACCATCGAACAGCTGTGGAAAGCCGACCCGCGACTGCAAATTGCCCTGTGCACGGCGTATTCGGACTATTCCTGGGAAACCATGTCCGAGCGCATCGAATTCGACGACCAGTTGCTGATTCTCAAGAAACCGTTCGACACCCTGGAAATCCGCCAGATGGCCAGCGCCATGACCTGGAAATGGCAACTGGCGCAAGACGCAGCGCGGAAGATGCGCAGCCTGGAGCGCACGATCGAAGAGCGGGTCCAGGAACTGCTCAAGGTCTCTCACCTGCTGCAATACGACGTCCTCACCGAACTGCCCAACAGCATGCTGCTAGGCGACCGCCTGACCCAGGCCCTGGCCCAGTGCCGTCGGCATGACCGGCAGCTGGCGGTGATGTTCATCGGCCTGGACCGTTTCAAGCGCATCAACAATGCGCTGGGCCATCCGGTGGGCGATGAGATGCTCAAGCGGGTGGCACGCACCCTGGCCACCGTGGTGCGTGAATCCGACTCGGTGTTTCGCTACGGCTCCGATGAGTTCGTGGTGATCCTCGGCGACGTCGCCGATCCGCAATTGATCAAGGGCGTGGCGGAAAAACTGCTCGCGGCGATCAACTCTCCACACCCCATCGACGGCCATGACCTGACGGTGACGGCAAGCCTGGGCATCAGCGTGTACCCGACTGACGGTTTCGACGCCGTGGCGCTGATCAAGAAAGCCGAGACGGCAATGCGCAACGTCAAGGAAACCGGCCCCAACGACTACCGTTTTTTCACCGAGGACATGAACCGCCGGGCACGGCAGCAGCAGACCATCGAATCAGGTTTGCGCCTGGCGCTGCAACGCAAGGAATTCGTGCTGCATTACCAACCCAAGCTCGATCTGACGAGCGGCGCGGTGGTCGGTGTCGAGGCGCTGGTGCGCTGGAACCGGCCCGACCAGGGGCTCGTCTTTCCGTCGGATTTCATTCCGGTGGCCGAAGACAGCGGGCTGATCGTACCGCTGAGCCAGTGGGTGCTCCAGGAAGCCTGCCAACAGGCCTGTCGCTGGCAAGCCGAGGGCATGCGACCGCTATACCTGTCGGTGAATGTCTCGGCGATCGATTTTCGCCAGCGCGGTTTCGTCGAAGGCATTGCGCGCACCCTCAAGGAAACCGGCCTGGACCCGACACAGTTGGAACTGGAGATTACCGAAAGCGTGCTCATGCAGAACATCGATACCACCGTCGCCACCCTCAAGGCCATCAAGCAGTTGGGGGTACGACTGGCCATCGATGACTTCGGCACCGGCTATTCGAGCCTGAGTTACCTGCAGAAATTTCCGGTGGACGTGTTGAAGATCGACCAGTCGTTCGTCGGCGACCTGAGCATCGACAGCAACGACGCGAAACTGGTGAGCACCATCATCAGCCTGGGCAAGAGCTTGAACCTGCACATCATTGCCGAGGGTGTGGAAACCCGCGAGCAACTGGCGTTCCTCAAGGCGCACCAGTGCGAGGAAGCCCAGGGCTATTACTTCAGCAAGGCCGTGGAGCCGCAGGCCTTTGCCCAGTGGATGGCGGCATGGGAAAAAAAACCGAATCCGTTTTCATGA	MNPMSVPANRRILVVDDTPAIHQDFRKILSPSAGNDDSLDDTESLLFGTPQVNRLQFQIDSAYQGEEALELVKRAQAEGQPYALVFADMRMPPGWDGLQTIEQLWKADPRLQIALCTAYSDYSWETMSERIEFDDQLLILKKPFDTLEIRQMASAMTWKWQLAQDAARKMRSLERTIEERVQELLKVSHLLQYDVLTELPNSMLLGDRLTQALAQCRRHDRQLAVMFIGLDRFKRINNALGHPVGDEMLKRVARTLATVVRESDSVFRYGSDEFVVILGDVADPQLIKGVAEKLLAAINSPHPIDGHDLTVTASLGISVYPTDGFDAVALIKKAETAMRNVKETGPNDYRFFTEDMNRRARQQQTIESGLRLALQRKEFVLHYQPKLDLTSGAVVGVEALVRWNRPDQGLVFPSDFIPVAEDSGLIVPLSQWVLQEACQQACRWQAEGMRPLYLSVNVSAIDFRQRGFVEGIARTLKETGLDPTQLELEITESVLMQNIDTTVATLKAIKQLGVRLAIDDFGTGYSSLSYLQKFPVDVLKIDQSFVGDLSIDSNDAKLVSTIISLGKSLNLHIIAEGVETREQLAFLKAHQCEEAQGYYFSKAVEPQAFAQWMAAWEKKPNPFS	PGPT0026010_2155	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
D1-35_01501	2280			hypothetical protein	ATGGATAGATCCAACCGGCGGATCCTGATCGTCGACGACACGCCAACGATTCATGAGGATTTTCGAAAGATCCTCGCCCCCCACGTGATCCCCGAAGACAGCCTGAGCAGCGCCGAAGAAGCCTTGTTCGGCGCACCGGTGGTGATCGCCGCCCAGAGTTTCGAGCTGGAGTCGGCATTCCAGGGCATGGAGGCCTTGAGCAAGGTAGAAACGGCCCTGGCCCGGGGTAAACCCTTCGCCATGGCGTTTATCGACATGCGCATGCCGCCAGGCTGGGACGGTCTTGAAACCATCGAGCGGCTGTGGCGCGTCGATCCCAAGCTGCAAGTGGCGCTGTGCACCGCTTATTCGGATTACTCCTGGGAGGACATCGCCGATCGCCTGGAATTGGGTGATCGCCTGCTGATCCTGAAGAAACCCTTCGACGCCATCGAGATCCGCCAGATGGCAAGCACCCTCACCGTCAAATGGCAGATGACCGAAGACGCGGCGCTGAAAATGGACATGCTCGAACGGGCGGTGGAGGAACGCACCCGGGAACTGGCCGACGCCAACATCATCGTGCAGAACAGCCCGACCATCCTTTACCGCCTGCGTGGCGAGCCGCCGTTCCCGTTGATGTACATCTCGCACAACATCACCAAGTTCGGCCATGTCGCGGCGCAACTGATCAGTTCGCCGGACTGGGCGCAAACCCTTATCCACCCCGATGATCAGGGCAAGGTCCAGGAGGCCATGGTCCGCGTCCTGGACCGCGACACGGTCGGGGCGTCCATCGAGTTTCGCATGCGCACCGGAGACGACACCTTTCGCTGGGTGGAGAACCGCTACATTCCTGTGCGCAACGAGCAAGGCCTGTTGCTGGAAGTCGAGGGCATCATCCTCGACATCACCGAGCGCAAAGTGGCCGAGGAAAAGATCGCCCTGCTCGCCCGCACCGATGGCCTGACCGGGCTCGCCAACCGCGCCACCATGATCGAACGCCTGCACCAGGCCTTCGCCGCCGCGCGCCGGGGAGCTGCGCCGTTTGCGATGTTCTACCTGGACCTGGACCACTTCAAGCGCATCAACGACACCCTCGGGCACCCCATCGGCGACCTGCTGTTGCAGGAAGTTGCGGCGCGCCTCAAGGGCTGTACCCGGGAAAACGACGTGGTGGCGCGCCTGGGCGGCGATGAATTCGCCATCCTGCAACTAGATGTCCACGAAGCGACGCACTGCGCCGCGCTGGCCGGCAAAATCCGTGACGCGCTGGTGGCGCCCTATTTCCTGGACGGCAACGATGTGCGCATCTCGGTGAGCATCGGCATCAGCCTGTACACGCCACAAAGCCTGAGCGCCGACAGCCTGATGGCGCAGTCCGACATGGCCCTGTACCGCTCGAAAGAGAAGGGCCGCAACCAATATCACTTCCACAACGAAGAGATCAATCAGGAAGTCACCGACCGGGTCGCCCTGGCCAATGACCTGCGCCAGGCCATCGAGAACAACGAACTGCATTTGCACTACCTGCCGGAAGTCGACCTCGGCACCGGCAAGATCCTCGGCATGGGCGTGCAGGTGCGCTGGAACCACCCCGAACGCGGCTGGCTGGAGCCGGCGGCGTTCATGCCTGCCGCCGAGAAAACCGGGATCATCATCGGCCTCGGTCACTGGGTCCTGGACCAGGCCTGCCAGCAGATGCGCCAATGGCGCGACCAGGGCATGGCGCCGCCGGTGATCGCCATCGACTTGTCCCTGACCCAGCTCAAGACCGGCCCGGAACTGATCTACGACGTGCTGCGCACCACCGCGCGCTGGGAGCTGGCGCCCTGGGACCTGCGCTTCGATGTCACCGAAGCGACCCTGGCCCAGACCAAATGGACCCACAACGACGTGCTGCCCCGCCTGTGCGAACTCGGCGTGCAGGTGGCCATCGATGATTTCGGCACCGAGTATTCCTCGTTCGATTATCTGAAGACCTACCGCGTCAACCATCTCAAGCTCGCCCAGCGATTCCTCGACAGCGCCAACGCCGATCCAGAAAACGCCACGACCCTGCGGGCGATCATCAACTTTGCCCGGGACGTCGGCATCGGCATCATTGCCGAAGGCGTCGAGACCCAGGAACAACGCACCACCCTGATGTCCAGCGGCGGCTCGATGCAGGCCCAGGGGCATTACTTCAGTACCGTGGTCGACAGCGACCAGGCGGCCGCACTGCTCAAGGCCGGTACCATCGTGCCGGTGGCGGACCACTGGACCCGGCCGGCCAGCCAGCTATCGGAGAGCAACCCATGA	MDRSNRRILIVDDTPTIHEDFRKILAPHVIPEDSLSSAEEALFGAPVVIAAQSFELESAFQGMEALSKVETALARGKPFAMAFIDMRMPPGWDGLETIERLWRVDPKLQVALCTAYSDYSWEDIADRLELGDRLLILKKPFDAIEIRQMASTLTVKWQMTEDAALKMDMLERAVEERTRELADANIIVQNSPTILYRLRGEPPFPLMYISHNITKFGHVAAQLISSPDWAQTLIHPDDQGKVQEAMVRVLDRDTVGASIEFRMRTGDDTFRWVENRYIPVRNEQGLLLEVEGIILDITERKVAEEKIALLARTDGLTGLANRATMIERLHQAFAAARRGAAPFAMFYLDLDHFKRINDTLGHPIGDLLLQEVAARLKGCTRENDVVARLGGDEFAILQLDVHEATHCAALAGKIRDALVAPYFLDGNDVRISVSIGISLYTPQSLSADSLMAQSDMALYRSKEKGRNQYHFHNEEINQEVTDRVALANDLRQAIENNELHLHYLPEVDLGTGKILGMGVQVRWNHPERGWLEPAAFMPAAEKTGIIIGLGHWVLDQACQQMRQWRDQGMAPPVIAIDLSLTQLKTGPELIYDVLRTTARWELAPWDLRFDVTEATLAQTKWTHNDVLPRLCELGVQVAIDDFGTEYSSFDYLKTYRVNHLKLAQRFLDSANADPENATTLRAIINFARDVGIGIIAEGVETQEQRTTLMSSGGSMQAQGHYFSTVVDSDQAAALLKAGTIVPVADHWTRPASQLSESNP				NA	NA	NA	NA	NA
D1-35_01502	1368	rcsC_6		Sensor histidine kinase RcsC	ATGGAAGATCAGTCGTCGAACGTTCCTGCTGCGAAGCCGACGGTGTTGCTGGTGGATGACGAAGAGTCGATTCTCAACAGCCTGCGTCGGCTGTTGCGCAGCCAGCCGTATGAAATCCTGCTGGCCGACAGCGGTGCGAAGGCCTTGGAAATCCTCAAGGAGCGGCCGGTCGACCTGGTGATGACCGACGCCCGGATGCCGAACATGGACGGCGCCACGCTGCTGGCGGAAATCCGCAAGCTGTATCCATCGACCTTGCGCATCCTGCTCACCGGCTACGCCGACGTGGACATGATGACCAAGGCCATCAACGAGGGGCAGCTCTATCGCTACCTCAGCAAACCCTGGAATGACGAGGAACTGGTGCAGGCCCTGCGCCAGGCCTTGGCCCACCAGCATTCGGAAAGCGAGCGTCAGCGCCTCGAAGCGTTGAACCGCGAGCAGAACCAGCAACTCAAGACCCTCAACGCCACGCTGGAAAAACGCGTGGCGTCGCGCACCGCCGAGCTGCAGCAGACCGCCGATATGCTCGACCTGGCCTACGAAGAGCTCAAGCGCAGCTACGTGACTGGCACCGAAGTGTTCTCGCTGATCGCCAACCTGCGCCTGCCCAAGGCCAAGCAGACCAACCGGCAGATCATCGAGTTGATCCGGGTCTACAGCCGGCTCAACTTTCTCGACGAGTCCACCGACCGCGACCTGACCATGGCCGCCGCCCTCTACAACATCGGCAAGCTGAGCTGGACCGATAACATGATGGTCACGCCCGCCGACATGCTGCACCACAGCGAACTGGAACTGTACCGGGCCTATCCGAAGCAGAGTGAATCGCTGCTGATGACCCTCGACCCGATGAAGGACGCGGCGCGCATCATCCTCCATCACCAGGAGCGCTGGGACGGCAGCGGTTTCCCCGATCACCTCAAGGGCGAGGCGATTCCGTTCGGTTCGCGGCTGTTGAAACTGGCGGTGGATTTCATCGAATTGCAGCGTGGGTTGATCCTGGAGCGGCAGATGAACAGCGATGAAGCGCTGGTCTACATCCGCAAATACGCCGGCAAGCTGTACGACCCGAACATGGTCGAGGACTTCATCAAGGCCTGCGGCGAATACCTGGAAGACGTGACCCTGTCCGACCCGACGGTGAAGGTCGTGACTACCCGCGAGCTGGCGGCCGGCATGGTCCTGGCGCGCAATCTCAATGCCGACAACGGCATGCTGTTGCTCAATGCCGGCAAGGTCATGAGTGCTCCGCTGATTGAAAAACTCATCGCCTTCGAGGCGATGGAAGGGGCGCGGTACAGCGTGTTCGTCAAGATCCCCGAGGAGGAAGCGGATCCTTCGGTGCCGAAGCCGATTTTGGGGTGA	MEDQSSNVPAAKPTVLLVDDEESILNSLRRLLRSQPYEILLADSGAKALEILKERPVDLVMTDARMPNMDGATLLAEIRKLYPSTLRILLTGYADVDMMTKAINEGQLYRYLSKPWNDEELVQALRQALAHQHSESERQRLEALNREQNQQLKTLNATLEKRVASRTAELQQTADMLDLAYEELKRSYVTGTEVFSLIANLRLPKAKQTNRQIIELIRVYSRLNFLDESTDRDLTMAAALYNIGKLSWTDNMMVTPADMLHHSELELYRAYPKQSESLLMTLDPMKDAARIILHHQERWDGSGFPDHLKGEAIPFGSRLLKLAVDFIELQRGLILERQMNSDEALVYIRKYAGKLYDPNMVEDFIKACGEYLEDVTLSDPTVKVVTTRELAAGMVLARNLNADNGMLLLNAGKVMSAPLIEKLIAFEAMEGARYSVFVKIPEEEADPSVPKPILG				NA	NA	NA	NA	NA
D1-35_01503	417			hypothetical protein	ATGACCATTGCTCTTATCCGTATCGCCGCCGCCCTGCTCATCGGCCCTGACGGCCGGACCCTGCTGGTACGCAAGCGCGGCACCCAGGCCTTCATGCAACCGGGTGGCAAGATCGAAGCCGATGAACAACCGGTCCAGGCCCTGGCTCGGGAGCTGGAGGAGGAACTCGGCCTGAGGATCGACCCGGCGCATGCTCGTCACCTTGGACAGTTCAGCGCGCCGGCCGCCAACGAGCCGGGTTTTACCGTGCAGGCCGAAGTGTTTTTGCTGGACATCGATGCTCGGGTTTCTCCCGCCGCCGAGATCGAGGAAGTGTGTTGGATCGATCCGGCCGGTACCGGCGATTTGTTGCTGGCGCCGTTGACAGGCGAGGTGATCCTGCCGTTTTATCGAGCCACTTGTCTCGCGACTTGCTGA	MTIALIRIAAALLIGPDGRTLLVRKRGTQAFMQPGGKIEADEQPVQALARELEEELGLRIDPAHARHLGQFSAPAANEPGFTVQAEVFLLDIDARVSPAAEIEEVCWIDPAGTGDLLLAPLTGEVILPFYRATCLATC	PGPT0021230_1511	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021230-udk-K00876	NA	NA
D1-35_01504	639	rhtB_1	COG1280	Homoserine/homoserine lactone efflux protein	ATGATTCCATTGCCGGACCTGCTGATTTTCGCCGCCGCCGCGTTGTTGATGGTGCTCACGCCCGGCCCGAACATGATCTACCTGATTTCCCGTTCGATCTGCCAGGGCCGCAAGGCCGGCGTCACCTCCTTGCTTGGCGTGGTGGCGGGCTTCTTCGTGCACATGTTCGCCGCGGCGGCGGGGCTGACGGCGGTGTTCCTGGCAGTGCCGATGGCTTATGAAATCCTCAAGTGGGCCGGCGCGCTGTATCTGCTCTGGCTGGCCTGGCAAGCGGTGAAACCGGGGGCTCGCTCGCCTTTTCAGGCCCAGCAGTTGCCGGCGGACTCGACCCGCAAGCTGATCACCATGGGTTTTCTCACCAGCGCCCTGAACCCGAAGATCGCGGTGTTCTACCTCTCGGTGTTTCCGCAGTTCATCAGCCCGGAGCACGGCTCGCTGTTCACCCAGAGCATCATCCTCGGGCTGACTCAGATCAGCGTGAGCTTCAGCGTCAACCTGCTGATCGCGCTGTTCGCCGCCGGCATCGCCTCGTGGTTTGTCCACAACCCGACCTGGCTGGCGGCGCAGCGCTATTTCATGGGGTTTGTACTCGGCGCACTGGCGCTGCGACTGATGCTTGAGCAACGGCGTTCGGCATGA	MIPLPDLLIFAAAALLMVLTPGPNMIYLISRSICQGRKAGVTSLLGVVAGFFVHMFAAAAGLTAVFLAVPMAYEILKWAGALYLLWLAWQAVKPGARSPFQAQQLPADSTRKLITMGFLTSALNPKIAVFYLSVFPQFISPEHGSLFTQSIILGLTQISVSFSVNLLIALFAAGIASWFVHNPTWLAAQRYFMGFVLGALALRLMLEQRRSA				NA	NA	NA	NA	NA
D1-35_01505	498			hypothetical protein	ATGAACATCCGACGGCTGAAGGTGGCTGATGCCCAGGGCTATCGGGAGTTGATGCTCCAGGCCTATGAGTTGCATCCAGAGGCTTTCACCTCCAGTGCCAGTGAACGGGCGACGCTGCCCATCAACTGGTGGGAGTCACGCCTGACCAGCCGGCTCGATGTGATCCTCGGGGCGTTCGTGGTGGACGAACCGGTTGGTATCGTCGGCCTGTCCCTGGAGCATCGGTTGAAGGCCAGGCACAAGGCGACCCTGTTCGGCATGTACGTCGCCGCCGCCCATCGCCAAGGGGGGCTTGGCCAGCAACTGGTCCAGGCGGCCCTCGACGAAGCCCGTCGTCACGCCTTTCTGCGGCTGGTGCAACTGACCGTCACCGCCGGCAACGACCCGGCCGTCAAACTCTACCAGCGCAGCGGCTTCGTTTTGTACGGGCTCGAACCGATGGCGATTCGCGTGGGCGATGAGTATTTCGACAAGATCCACATGTGGCTTGAACTCTGA	MNIRRLKVADAQGYRELMLQAYELHPEAFTSSASERATLPINWWESRLTSRLDVILGAFVVDEPVGIVGLSLEHRLKARHKATLFGMYVAAAHRQGGLGQQLVQAALDEARRHAFLRLVQLTVTAGNDPAVKLYQRSGFVLYGLEPMAIRVGDEYFDKIHMWLEL				NA	NA	NA	NA	NA
D1-35_01506	918	metR		HTH-type transcriptional regulator MetR	GTGCTTGAACTCCGTCACCTGAAGACCCTGCACGCCCTGCGCGAAGCCGACAGCCTGGTGGAGGCCGCCGAACGCCTGCATCTGACCCAGTCCGCGCTGTCCCACCAGTTCAAGGAACTGGAGGAGCGCCTGGGCATGCAGCTGTTCGTGCGCAAGACCAAACCGGTCCGGTTCACCAGCGCCGGCTTACGCCTGTTGCAACTGGCGGATGCCGCCCTGCCATTGCTGCGCAGCGCCGAGCGGGACATCGCGCGGCTGGCCGGCGGCACCGCCGGGCGTCTGCACATGGCCATCGAGTGCCACAGCTGCTTCCAATGGCTGATGCCGACCATCGACCAGTTCCGCGATGCCTGGCCGGAAGTCGAGCTGGACCTGGCCTCGGGCTTCGCCTTCGCCCCGCTGCCGGCCCTGGCCCGGGGCGACCTCGACCTGGTGGTCACTTCCGATCCGCTGGAGCTGGCGGGCATCACCTATGTGCCGCTGTTCACCTACGAGGCGATGCTCGCGGTGGCGAACCAGCATCGACTGGCGGGCAAACCGTACATCGTGCCCGAAGACCTGGTCAGCGAAACCCTGATCACCTACCCGGTGGAGCGTGATCGGCTGGACATCTTCACCCGTTTCCTGGAGCCGGCCGACATCGAACCGGCCCAGGTTCGCACCTCCGAGCTGACGGTAATGATGATGCAACTGGTTGCCAGCGGCCGGGGCGTCTGCGGCATGCCTCACTGGGCACTGCATGAATACAGCTCACGGGGCTACGTGAAGGCCAAGCGGCTGGGGGAGAAGGGTCTGTTCGCCACGCTCTACGCGGCGGTGCGCACCGACATGCTCGACGCGCCGTACATGCGCGATTTTTTGCTGACGGCCAAGGACACATCATTCTCGACACTCGACGGCGTCAGTGCCGTGCGCTGA	MLELRHLKTLHALREADSLVEAAERLHLTQSALSHQFKELEERLGMQLFVRKTKPVRFTSAGLRLLQLADAALPLLRSAERDIARLAGGTAGRLHMAIECHSCFQWLMPTIDQFRDAWPEVELDLASGFAFAPLPALARGDLDLVVTSDPLELAGITYVPLFTYEAMLAVANQHRLAGKPYIVPEDLVSETLITYPVERDRLDIFTRFLEPADIEPAQVRTSELTVMMMQLVASGRGVCGMPHWALHEYSSRGYVKAKRLGEKGLFATLYAAVRTDMLDAPYMRDFLLTAKDTSFSTLDGVSAVR				NA	NA	NA	NA	NA
D1-35_01507	699	metE	COG0620	5-methyltetrahydropteroyltriglutamate--homocysteine methyltransferase	ATGGCCCTGGCCCATACCCTCGGTTTTCTTCGCATCGGCGCCGATCGCCGCCCCGTGCGGCAAGCCCACAACCGGGTTCCGGAGTTTACCGCCGGGCAGACCTTCGCGCTGAGCTGGGAGCACCTGTTCGACGAGGTCGACGAAGCCCATGCGCTGGGGCATCGAGTCAAGCCGGCGATCATCGGCCCGCTGACGTACTTGTGGCTGGGCAAGGCCAAGGGCGGTGACTTCGACAAACTCGACCTGCTGGAAAGCCTGTTGCCGGTTTACGGCGAAATCTTCAATCGCCTCAAGGCCCAGGGCGTGGAGTGGGTGCAGATCGATGAACCGATCCTCACCCTCGACCTGCCGCTGGCCTGGCGAAGCGCCTTCGAGCGGGCCTACCACATCCTCCAGTATTCACCGCTGAAAAAATTGCTGGCGACCTGTTTCAGTGGCCTGCAAGACAACCTCGGCCTGGCGGCGGGCCTCCCGGTGGATGGGCTGCACGTCGACGCCGTGCGTGCGCCGGAACAACTCGGCCAGGTGCTCGATCGCCTGCCGACCTACAAGATCCTGTCGGTGGGCCTGGTCAATGGCCGCAACGCCTGGCGCTGTGAACTGGAACAGGCGCTGGCACAATTGCGACCGGCCCGGGAACGCTTCGGCGAGAACCTTTGGGTCAGTACCCTCGCCACGTGTGCTCAGGGCTTCAGATAA	MALAHTLGFLRIGADRRPVRQAHNRVPEFTAGQTFALSWEHLFDEVDEAHALGHRVKPAIIGPLTYLWLGKAKGGDFDKLDLLESLLPVYGEIFNRLKAQGVEWVQIDEPILTLDLPLAWRSAFERAYHILQYSPLKKLLATCFSGLQDNLGLAAGLPVDGLHVDAVRAPEQLGQVLDRLPTYKILSVGLVNGRNAWRCELEQALAQLRPARERFGENLWVSTLATCAQGFR				NA	NA	NA	NA	NA
D1-35_01508	1020	rdmC		Aclacinomycin methylesterase RdmC	ATGCGTGTATTCATTTTTCTGGCCGCATTGTTGTGCGGCCTGCCGTCGTTGGCGGCTTCTCGTTGTGATGTCAATGTCGCGACCCAACGGGTCGACCTGGACCAGGTAAGCCTGGCGTACCAGAGCATCGGCCGTGCTTCGGATCCCGCGCTGCTGCTGGTGATGGGGCTGGGCGGTCAGTTGATCCATTGGCCGGACGAAGTGGTGGTGGCGCTGTGCGAACAGGGTTTCCGGGTGATTCGCTACGACAACCGGGATGTGGGCCTGTCCGCCTGGCGCCAGGCCCCAGGCACTGCCAACCTGACCTTCGAAGCCTTGCGCTACAAGCTTGGCTTGCCGGTGGCCGCGCCTTATACCTTGACCGACATGGCCGCCGATGGCCTGGGCTTGATGGATGCCTTGCAGGTGCAAAGCTTCCATGTACTGGGCGTAAGCATGGGCGGGATGATCGCCCAGCACATGGCGGCGATGGCGCCGCAACGGGTCGAGAGCCTGACCCTGATCATGACCAGTTCCGGCGCCGCAGGCTTGCCGGCGCCCAGTGAAACGCTGGTGCAGTTGCTGTCACGACGCAGCGCGCCGAATCGTGAAGTGGCGCTTGAGCAACAGGCCGACCTGCTCGCCGCGCTGGGCAGCCCGATGGTGGTCGATGACCGGCAGGCCTTGCTGCATCAAGCCGCCGTGGCTTACGACCGGGCCTTCAACCCCGAAGGTGTGAAGCGTCAGATCATGGCAATCCTGGCCGAGCCGAGTCGGGTGGCGCTGCTCAATCAATTGCAGGTGCCGACCCTGGTGGTCCATGGCACCGCCGATCCGTTGCTGCCGGTGATGCATGGTGTGCATCTGGCGGCGCATATTCGCGGCAGCCAGTTGAAACTGATCCCAGGCCTGGCCCATCGCTTTCAAGAGGCCTTCAAGGAACCCTTGCTGGGCGCGGTGTTGCCCTACTTGCAGCAGCACCGCGAAGACACCTCGCACTGGGCGCAGATCGAGCCGGCGCAGGCACCTAATCTGCTTTAA	MRVFIFLAALLCGLPSLAASRCDVNVATQRVDLDQVSLAYQSIGRASDPALLLVMGLGGQLIHWPDEVVVALCEQGFRVIRYDNRDVGLSAWRQAPGTANLTFEALRYKLGLPVAAPYTLTDMAADGLGLMDALQVQSFHVLGVSMGGMIAQHMAAMAPQRVESLTLIMTSSGAAGLPAPSETLVQLLSRRSAPNREVALEQQADLLAALGSPMVVDDRQALLHQAAVAYDRAFNPEGVKRQIMAILAEPSRVALLNQLQVPTLVVHGTADPLLPVMHGVHLAAHIRGSQLKLIPGLAHRFQEAFKEPLLGAVLPYLQQHREDTSHWAQIEPAQAPNLL				NA	NA	NA	NA	NA
D1-35_01509	882	gcvA_1		Glycine cleavage system transcriptional activator	ATGAAACGACTTCCTCCGCTGCCGGCGCTGCACACCTTCCTGATCACCGCCCAATGTTGCAATTTCACCCGCGCGGCGGAACTGCTGCATATCACTCAAGGTGCGGTGAGCCGACAAATTGCCGGACTGGAAGCGCACCTGGGTTACGCGCTGTTTCACCGCCAGGCGCGTGGCCTGAGCCTGACCGCCGAAGGCCAGGCGTGGCTGCCGCGGGTGCAGCAGGTGTTCGGCCTGATCGGCGAGGCGCTGGAGCAGATCGGCGAGAAACGCCAGGCCCTGCAACTCAAGGCGCCGACCTGCGTGATGCGCTGGTTGCTGCCGCGCCTGTTGCAATGGCAAAAGGAGCGGCCAGACGTGCCGGTGGAGCTGACCACCACGGTCCGGCACGGCGTGAATTTCCAACAGGAAACCTTCGACGCGGCGGTCGTCTACGGCCCGCCGCCCGATGCCTCGTTGGCCCGCCTGCACCTGTTCGATGAACAACTGACGCCGGTCTGCTCCCCGCCGCTGGTGGAAGGCCCCGCACCGTTGCGCTCGCCCGCCGACCTGCAACAGCACTTGCTGCTGCACCCCACCACCGACGAGCGCGACTGGAACGCCTGGCTCGCCGAGGCCGGCGTCCACCTGAACAACGTCAGCAAGGGCCAGCATTTCGAAACCCTGGACCTGGCGATGTCCATGGCGTCTCAAGGCACAGGCGTGGCAATTGGCGACTGGTCGCTGATCGGCGACGACCTCAGCGCCGGCAGGCTGGTGGCGCCGTTCGAATTGAAGGTCAGGACCGGGCTGGGTTATCACCTGGTTCATCCGCGCAAAGCCCAGGTGTCTGGCCAGTTGCAGGAACTGATGGAATGGCTGGTGGAGGAAGCTCACCGACGCTAG	MKRLPPLPALHTFLITAQCCNFTRAAELLHITQGAVSRQIAGLEAHLGYALFHRQARGLSLTAEGQAWLPRVQQVFGLIGEALEQIGEKRQALQLKAPTCVMRWLLPRLLQWQKERPDVPVELTTTVRHGVNFQQETFDAAVVYGPPPDASLARLHLFDEQLTPVCSPPLVEGPAPLRSPADLQQHLLLHPTTDERDWNAWLAEAGVHLNNVSKGQHFETLDLAMSMASQGTGVAIGDWSLIGDDLSAGRLVAPFELKVRTGLGYHLVHPRKAQVSGQLQELMEWLVEEAHRR	PGPT0026360_3731	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
D1-35_01510	1632	aruI	COG0028	putative 2-ketoarginine decarboxylase AruI	ATGGCGACGTGCGGCGAAGTATTGGTCAAGTTACTCGAAGCTTATGGTGTGGAGCAGGTGTTTGGCATTCCTGGCGTGCACACCGTCGAGTTGTATCGCGGGCTGGCCAGTTCGAGCATCCGTCATGTGACGCCGCGTCACGAGCAAGGCGCCGGGTTCATGGCCGACGGTTATGCGCGGGTCAGCGGTAAGCCGGGGGTGTGTTTCATCATCACCGGGCCGGGCATGACCAACATCGCCACCGCCATGGGCCAGGCTTATGCCGACTCGATCCCGATGCTGGTGATCTCCAGCGTGCAGTCGCGCAGCCAGTTGGGCGGCGGGCGCGGCAAGCTGCATGAGCTGCCGAACCAGAGTGCGCTGGTGGGCGGCGTGGCGGCGTTTTCCCATACGTTGATGTCGGCTGCCGAGTTGCCCGGCGTGTTGGCCCGCGCCTTTGCCGTGTTCCAGGCCGGGCGCCCACGGCCGGTGCACATCGAAATCCCGCTGGACGTGCTGGTCGAGGACGCCGATGCGCTGTTGTGCAGCGCACCGGTGCACGTCAGCCGCGCCGGGGCTGCGCCAGACGCCGTGGAGCAGATGGCGGCATTGCTGGCGACGGCCAGACGGCCACTGATTCTTGCCGGCGGGGGCGCCATCGATGCAGCAGCCGAATTGACCGAACTGGCCGAACGCCTCGGTGCACCGGTGGCGTTGACCATCAATGCCAAGGGCTTGCTGGCGTCCTGGCACCCGTTGCTGATCGGCTCTACCCAGAGCCTGGTCGCGACCCGTGCGTTGGTGGCCGAGGCCGATGTGGTGCTGGCCATCGGCACCGAACTGGCCGAGACCGACTATGACGTGACCTTCGCCGGCGGCTTCGAGATTCCCGGTGCGCTGCTGCGCGTCGACATCGACCCCGACCAGACCGTGCGCAATTACCCACCGAAACTGGCGCTGGTGGCCGATGCGCGAAGTGCTGCTCGCGCCTTGCTCGACGCGCCGAGCCTGCAAGCGCCCGCCGCACGCCAGGACGACTGGGGAGTGGCGCGTGTGGCGCGGCTGTGGGCTGAACTCGACCGGCAATGGGACGCACCGACTCGCGCCCAGACCGTGTTTCTCGACAGCGTTTTACAGACGCTGCCCGAGGCGGTCTTTGTCGGCGACTCCACCCAGCCGGTGTACACCGGCAACCTCACTTTCAATCTCGAACAGCCGCGCCGCTGGTTCAACTCCTCGACCGGCTACGGCACCCTCGGCTACGCATTGCCGGCGGCGATCGGCGCCTGGCTTGGCGGTGTCGATAACGCCCATGGACGCCCGCCGGTGGTGTGCCTGATCGGCGATGGCGGCCTGCAATTCAGCCTGCCGGAACTGGCCAGCGCCGTGGAAGCGCGGGTACCGGTGATCGTATTGCTGTGGAATAACCAAGGCTACGAAGAGATCAGGAAGTACATGGTCAACCGTGCCATCGAACCGGTGGGCGTGGACATCTACACGCCGGATTTCATCGGCGTCGCCAAGGCGTTGGGCTGTGATGCCGAGGCGGTTGAGGATGTGCCGTCATTGCGGGTGGCGTTGCTTGCTGCACGTGAGCGGCGGGGGCCGACGTTGATCGAGATTGATCAGGACCTTTGGGCGGCGAAGTATTGA	MATCGEVLVKLLEAYGVEQVFGIPGVHTVELYRGLASSSIRHVTPRHEQGAGFMADGYARVSGKPGVCFIITGPGMTNIATAMGQAYADSIPMLVISSVQSRSQLGGGRGKLHELPNQSALVGGVAAFSHTLMSAAELPGVLARAFAVFQAGRPRPVHIEIPLDVLVEDADALLCSAPVHVSRAGAAPDAVEQMAALLATARRPLILAGGGAIDAAAELTELAERLGAPVALTINAKGLLASWHPLLIGSTQSLVATRALVAEADVVLAIGTELAETDYDVTFAGGFEIPGALLRVDIDPDQTVRNYPPKLALVADARSAARALLDAPSLQAPAARQDDWGVARVARLWAELDRQWDAPTRAQTVFLDSVLQTLPEAVFVGDSTQPVYTGNLTFNLEQPRRWFNSSTGYGTLGYALPAAIGAWLGGVDNAHGRPPVVCLIGDGGLQFSLPELASAVEARVPVIVLLWNNQGYEEIRKYMVNRAIEPVGVDIYTPDFIGVAKALGCDAEAVEDVPSLRVALLAARERRGPTLIEIDQDLWAAKY	PGPT0008185_9957	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
D1-35_01511	930	rhaS_6		HTH-type transcriptional activator RhaS	ATGTCGCCACTCGATCACGCCCACGTCCCGCTGGACACTTACCTGGAACAACAGCGCGCCGAGCTGGCATCGATCATCGAACGCAATACCAGCGAGGACGGCAGCTACGCCACCGCCATCGGCTCGCTGCACCTGTCGCGCCACAGCCAGCCGCATAAATTTGCCCCGGTGCTGGCCCAACCGGCGCTGTGCATCATGGCCCAGGGCAGCAAGCAGGTGCGCCTGGCAGACGAACTGTTCAACTACGACCCGTTGCACTACCTGGTGGTCTCGGTCTCGATGCCATTGAGCGGGTGCATCGCCGACGTCTCGCCCGAACAGCCGATCCTGGCGCTGCGCCTGGACATCGACCCGGCGGAAATCACCGCGCTGATCGCCGACGCCGGTCCCTTGGGCGTACCGACCCGCCCCGCTGGCCGCGGCCTGTATGTCGAACGCCTGGACACGCCGATGCTCGATGCCGTGCTGCGCCTGGCACGGTTGCTGGACAGCCCGAAAGACATCGCCATGCTCGCGCCACTGGTGCGCCGGGAAATCCTCTATCGCCTGCTGCGCAGCCCGCAAGGCTACCGGCTGTATGAAATCGCCATTGCCAACAGCCAGAGCCATCGCATCAGCCAGGCGATCAAATGGCTCAACGGCCATTTCGAACAGCCGCTGCGCATCGACGACCTGGCCCGGGAAGTCAACCTCAGCGTCTCGACTCTGCACCATCGTTTCAAGGCAATGACCGCCATGAGCCCGTTGCAGTACCAGAAGCAATTGCGCCTGCAGGAAGCCCGTCGCCTGATGCTGGCCGAAGGGCTGGAAGCCTCGGCGGCAGGGTATCGCGTGGGTTATGAAAGCCCGTCGCAGTTCAGCCGCGAATACAGCCGGCTGTTCGGCGCGCCGCCGCTGAGGGATCTGGCGCGGTTGCGGATGACCGTTTGA	MSPLDHAHVPLDTYLEQQRAELASIIERNTSEDGSYATAIGSLHLSRHSQPHKFAPVLAQPALCIMAQGSKQVRLADELFNYDPLHYLVVSVSMPLSGCIADVSPEQPILALRLDIDPAEITALIADAGPLGVPTRPAGRGLYVERLDTPMLDAVLRLARLLDSPKDIAMLAPLVRREILYRLLRSPQGYRLYEIAIANSQSHRISQAIKWLNGHFEQPLRIDDLAREVNLSVSTLHHRFKAMTAMSPLQYQKQLRLQEARRLMLAEGLEASAAGYRVGYESPSQFSREYSRLFGAPPLRDLARLRMTV				NA	NA	NA	NA	NA
D1-35_01512	354			hypothetical protein	ATGACTACACAGATCCCCGTCAGTCACATGGCTTTCGTGCGGGCACGAGCCGGCCGCAGCCAGCAATTGGGTGCGCGCCTGAGTACCTTGATCACCCCGTCGCGGCAAGCTCCCGGTTGCCTGCACTTCGCCTTGCAGCAATCGCAATGCGACGCCGACTTGTGGCTGGTGTCCGGGCTGTGGACCCACCAGCAGGCGATGGAGGCCTACTTCAATTCCCCGGCGATGGCGATCTTCGCCGAGCTGGTGCAGGACCTGGTGGTGAGCAGCCTGGATTTCCATACCTTTCGCGAAGTGTCTGCCGCCAAGGCGACCGAAGGGTGCATGGCGAAGGTACACAAACTGGCCGGTTGA	MTTQIPVSHMAFVRARAGRSQQLGARLSTLITPSRQAPGCLHFALQQSQCDADLWLVSGLWTHQQAMEAYFNSPAMAIFAELVQDLVVSSLDFHTFREVSAAKATEGCMAKVHKLAG				NA	NA	NA	NA	NA
D1-35_01513	234			hypothetical protein	ATGGCACGCAAAGCCTTTGAAACTTTTGAAGCTGTTTCCGCTGTTGTTCCCAAGGAGGGTGGCGGCTATTACGCAGCCATCGCCACCAAGGCCATCGGCAGTCCCGACAAGCCTCGCTTCAACAAAGTGCTCGAAGAGCAGACGTTCGAGACTGCTTTCAAAGCCGATGAAGCGGCTGCCCAGCAGTTGACTCACCTGCAGGGTGTCGATGGCGAAGGCGGCCTGATCTGGTAA	MARKAFETFEAVSAVVPKEGGGYYAAIATKAIGSPDKPRFNKVLEEQTFETAFKADEAAAQQLTHLQGVDGEGGLIW				NA	NA	NA	NA	NA
D1-35_01514	621			hypothetical protein	ATGCCCGATGACATCCATTACTACGAACCCGCCAACGGTCACGGCCTGCCACACGATCCGTTCAACGCGATCATCGGTCCACGGCCCATTGGCTGGATTTCTTCCCAGGACGGCGAAGGACGCCTGAACCTGGCGCCTTACAGTTTCTTCAACGCCTTTAACTACGTTCCGCCGATCATCGGTTTCTCAAGTGTCGGGCGCAAAGACAGCCTGAACAATATCGAGCAGACCGGGGAGTTCGCCTGGAACCTCGCCACCCGCCCGCTGGCCGAGCAGATGAACCAGAGCTGCGCAATGGTCGCGCCAGAGGTCGATGAGTTCGAACTGGCAGGTTTGACAACCGCCCCGTCGCGGGTGATCCAGGTGCCGCGCGTGGCAGAGAGCCCGGTATCCTTCGAATGCAAAGTCACGCAGATCATCCAACTGCAACGTGCCGACAAGGCACTTGTACCGAGCTGGCTGATCCTCGGCGAAGTCGTCGCCGTGCACATCGCCAAGTGGCTGTTGAAGGATGGGGTATACGACACCGCCGCCGCCGAGCCGATTTTGCGTGGTGGCGGGCCGGCGGATTATTTCCAGCTGGGGCCGGAGGCGTTGTTCAGGATGCATCGCCCGAAGTAA	MPDDIHYYEPANGHGLPHDPFNAIIGPRPIGWISSQDGEGRLNLAPYSFFNAFNYVPPIIGFSSVGRKDSLNNIEQTGEFAWNLATRPLAEQMNQSCAMVAPEVDEFELAGLTTAPSRVIQVPRVAESPVSFECKVTQIIQLQRADKALVPSWLILGEVVAVHIAKWLLKDGVYDTAAAEPILRGGGPADYFQLGPEALFRMHRPK				NA	NA	NA	NA	NA
D1-35_01515	219			hypothetical protein	ATGAAAACCCAACTCATTTTCGCCCTGACCCTCTCCGTATTGGCCACCAGCGCTTTTGCCGACGACGGCTTCGACCGCACCGGCACCGCCGCTTTTATCGCCGGCACCCATGACCGTAGCGGCTCGGCCGCTGTTGCCAGACAAGATGAAAATCACGCCACCGAGCCGACCGTCGCAACACAGGGCGCCGACCGCGCCGATGCGGCGTCCACCAACTGA	MKTQLIFALTLSVLATSAFADDGFDRTGTAAFIAGTHDRSGSAAVARQDENHATEPTVATQGADRADAASTN				NA	NA	NA	NA	NA
D1-35_01516	1320	kgtP_1		Alpha-ketoglutarate permease	ATGGATAACTCCAACGCCCTGCCCATTGGGTCGGCTGCCGTGCCCGCCCGTGAAAGAACCACCGCCAGCCGGATCAAATCGATCTTCAGCGGCTCGGTCGGCAACATGGTCGAGTGGTACGACTGGTACGTCTACGCTGCTTTCTCGTTGTACTTCGCCAAAGCCTTCTTCCCCAAGGGTGACACCACCGCCCAACTGCTCAACACCGCCGCGATCTTCGCCGTCGGCTTCCTGATGCGCCCGATCGGCGGCTGGCTGATGGGCCTGTACGCCGACCGCGCCGGCCGTAAACGCGCGTTGATGGCCTCGGTGTACCTGATGTGCTTCGGCTCGCTGATCATCGCCCTGAGCCCGAGCTACGAAACCATCGGCGTCGGCGCGCCGATCCTGCTGGTCTTCGCCCGCTTGCTCCAAGGCTTGTCGGTGGGTGGCGAATACGGCACGTCGGCCACCTACCTGAGCGAGATGGCGACCAAGGAACGACGTGGTTTCTTCTCCAGCTTCCAGTACGTGACCCTGATCTCCGGCCAGCTCATCGCCCTCGGCGTGCTGATCGTGCTGCAGCAGGTCCTCACCACCGAGCAACTCTACGCCTGGGGCTGGCGCATCCCGTTCGCCATCGGCGCGCTGTGCGCAGTCGTGGCGCTGTACCTGCGTCGCGGCATGGAAGAAACCGAGTCGTTCACCAAGAAGGAAAAAGCCAAGGAAAGCGCGATGCGCACCTTGATGCGTCATCCCAAGGAACTGCTGACCGTGGTCGGCCTGACCATGGGCGGTACGCTGGCGTTCTACACCTACACCACCTACATGCAGAAGTACCTGGTTAATACCGTCGGCATGAGCATCTCCGACTCCACCACCATTTCCGCCGCCACGCTGTTCCTGTTCATGTGCCTGCAACCGATCATCGGTGGGCTGTCGGACAAGATCGGTCGCCGGCCGATCCTGATTGCCTTCGGCATCCTGGGGACGTTGTTCACGGTGCCGATCCTCACCACCCTGCACACCATCCAGACCTGGTGGGGCGCGTTCTTCCTGATCATGGCCGCGCTGATCATCGTCAGCGGCTACACCTCGATCAACGCGGTGGTGAAAGCCGAGCTGTTCCCTACCGAGATCCGCGCCCTCGGCGTCGGCCTGCCGTATGCCCTGACCGTATCGATCTTCGGCGGCACCGCCGAATACATCGCGCTGTGGTTCAAGAGCATCGGCATGGAAACTGGCTACTACTGGTACGTGACAGGCTGCATCGCGGTATCGCTGCTGGTCTACATCACCATGAAAGACACCCGCAAGCACTCGCGGATCGTGACGGACTGA	MDNSNALPIGSAAVPARERTTASRIKSIFSGSVGNMVEWYDWYVYAAFSLYFAKAFFPKGDTTAQLLNTAAIFAVGFLMRPIGGWLMGLYADRAGRKRALMASVYLMCFGSLIIALSPSYETIGVGAPILLVFARLLQGLSVGGEYGTSATYLSEMATKERRGFFSSFQYVTLISGQLIALGVLIVLQQVLTTEQLYAWGWRIPFAIGALCAVVALYLRRGMEETESFTKKEKAKESAMRTLMRHPKELLTVVGLTMGGTLAFYTYTTYMQKYLVNTVGMSISDSTTISAATLFLFMCLQPIIGGLSDKIGRRPILIAFGILGTLFTVPILTTLHTIQTWWGAFFLIMAALIIVSGYTSINAVVKAELFPTEIRALGVGLPYALTVSIFGGTAEYIALWFKSIGMETGYYWYVTGCIAVSLLVYITMKDTRKHSRIVTD	PGPT0001525_592	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_KETO-|OXOGLUTARATE_TRANSPORT,PGPT0001525-kgtP-K03761	NA	NA
D1-35_01517	1335	dctD_1		C4-dicarboxylate transport transcriptional regulatory protein DctD	ATGCTTGATTCGGTCATAGTCGTCGATGACGAGAGCAGTATCCGCAGTGCCGTGGAGCAGTGGCTGAGCCTGTCCGGATTCCGCGTGCAATTGTTCAGCCGCGCCGAAGACTGCCTGGTGCAGTTGCCGGAGAATTTTGCCGGGGTGATCCTGAGTGACGTGCGCATGCCTGGGCTCAGCGGCCTGGAACTGTTGGCCGAAGTACGCAAGCGCGACCCCGACCTGCCGGTGATCCTGTTGACCGGTCACGGCGATGTACCGATGGCGGTGGAAGCCATGCGCGACGGGGCCTACGACTTCCTGGAAAAACCCTTCAGCCCTGAAGCCCTGCTGGGCAGCCTGCATCGCGCCCTCGATAAACGTTTCCTGGTGCTGGAGAACCGCCGGCTGCACGAGCAGGCCGACGCCAGGGCCCGGCTGGACACCACGCTGCTGGGCGTCTCCCGGCCTTTGCAGAACCTGCGCCGCCAGGTGCTGGACCTGGCGACCCTGCCGGTCAACGTGTTGATTCGCGGCGAAACCGGCAGTGGCAAGGAACTGGTCGCCCGCTGCCTGCATGATTTCGGCCCAAGGGCGAGCAAGCCTTTCGTGGCGCTGAACTGCGCGGCCATTCCCGAGCCGCTGTTCGAGGCCGAACTGTTCGGCCATGAAAGCGGCGCGTTCACCGGCGCCCAGGGCAAGCGCATCGGCAAGCTCGAATATGCCGATGGCGGCACACTGTTTCTTGATGAAATCGAAAGCATGCCCCTGGCGCAACAGGCCAAGTTGCTGCGGGTTCTGCAGGAAAAGAAACTCGAGCGCCTGGGCTCCAACCAGAGCATCCCGGTGGACCTGCGCATCATTGCCGCGACCAAACCGGACCTGTTGGACGAAGCCCGTGCCGGGCGCTTTCGCGAAGACCTGGCCTATCGCTTGAACATTGCCGAACTGCGCCTGCCGCCGCTGCGTGAACGGCGCGAGGACATTCCGCTGCTGTTCGAACATTTCGCCCACAGCGCCGCCGAACGCCTGGGCCGCCCGGCAACGCCGCTGAGCGGCCCGCAACTGAGCCATTTGCTCAGCCATGACTGGCCAGGCAATGTCCGCGAACTGGCCAACGTCGCCGAACGCCAGGTGCTGGGCCTGGATCAACTGCCCGTCGAGGACGCGGCGCCCGGCCAATCCCTGGCGGCCCGGCAGGAAGCCTTCGAAGCGCAATGCCTGCGCGCCGCCCTCACGCGGCACAAGGGCGACGTGAAAGCCGTGCTCGAAGAACTGCAACTGCCGCGCCGTACCTTCAATGAAAAGATGCAGCGGCATGGGTTGAATCGGGAGATGTTTTTGCAGGAGCGCTGA	MLDSVIVVDDESSIRSAVEQWLSLSGFRVQLFSRAEDCLVQLPENFAGVILSDVRMPGLSGLELLAEVRKRDPDLPVILLTGHGDVPMAVEAMRDGAYDFLEKPFSPEALLGSLHRALDKRFLVLENRRLHEQADARARLDTTLLGVSRPLQNLRRQVLDLATLPVNVLIRGETGSGKELVARCLHDFGPRASKPFVALNCAAIPEPLFEAELFGHESGAFTGAQGKRIGKLEYADGGTLFLDEIESMPLAQQAKLLRVLQEKKLERLGSNQSIPVDLRIIAATKPDLLDEARAGRFREDLAYRLNIAELRLPPLRERREDIPLLFEHFAHSAAERLGRPATPLSGPQLSHLLSHDWPGNVRELANVAERQVLGLDQLPVEDAAPGQSLAARQEAFEAQCLRAALTRHKGDVKAVLEELQLPRRTFNEKMQRHGLNREMFLQER	PGPT0017310_981	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017310-dctD-K10126	NA	NA
D1-35_01518	1767	dctB_1		C4-dicarboxylate transport sensor protein DctB	ATGCTGCCGACTCCTCGTACCTTGCGCCTGCTCCTGTCCATCGCTTTGATTCTAATCGGCGCAGCGTTGGCCGCCACCCTGGCCGTACGCCACGCCGAACGCGAGGCTCTGAAGGAAGACGCCAGCCGTGCCAGCCAACAATTGGCGTTGTACGCCAATTCCTTGCACACCCTGATCGAACGCTACCGCGCCCTGCCCTCCGTGCTGGCGCTGGACCCACAACTGCGCGATGCCCTGAAGGGCCCGGTCAGTGCGGCGCAACAGGATGAACTGAATCGCAAGCTGGAAAAGATCAACGGCGCCGCGCAGTCCTCCACCCTGGAATTGCTGGACCATACCGGCCTGGCCGTAGCGGCCAGCAACTGGCGGCTGCCGAGCAGCTATGTCGGCCACAACTATGGTTTTCGTCCCTACTTCCTCCAGACCCGCACCCAAGGCACCGGGCGGTTTTATGCCGTGGGCGTGACCAGTGGTATCCCTGGCTATTTCCTGTCCAGCGCGGTGACCGGCGACAACGGCGAGTTCCTCGGCGCCATGGTGGTGAAGCTGGAGTTTCCGGAGCTCGAACGCGAGTGGCGCCAGGGCAGCGACACGCTGTTGGTCAGCGATGCGCGCGGCATCATTTTCATCGCCAACCGGCCGGGCTGGCGTTATCGCCACCTGCGCCCACTGGCCGACAGCGACCGCGCCGAACTCAAGGCTACCCGTCAATACGACAAGCAACCGTTGCAGCCCCTGGCCTTCGATCCGCTGCGACGCTTCGACGACAACAGCCATCTGGCCCGGGTCGAAGCGCCCGATGGCACGGCGGACTATCTCTGGGAATCCCTGCCGTTGACCGGCGAAGGCTGGACCTTGCATTTGTTGCGCAGGCCGCAGATCGCCTTTGAAGACCTGCGCAACGCCGGGCTCGCCGCCGCCGGGTTGTGGCTGGCGCTGGTGTTCCTGTTGCTGTTTCTCAACCAGCGCTGGCGCCTGGCAAGACTGCGTCAACGCAGCCGCGAGGAACTCGAACGGCTGGTGGAGGAACGCACGCGTGAACTGCGCACTGCCCAGGACGGCCTGGTGCAATCGGCCAAGCTCGCGGCCCTGGGGCAGATGTCGGCGGCACTGGCCCACGAGATCAACCAGCCGCTGACCGCCCAGCGCATGCAGCTGGCGACCCTGCGCCTGTTGCTTGACCATGGCCGGATCGATGACGCCTACAAGGCGCTCAAACCGGTGGATGACATGCTCACACGCATGGCCGCCCTCACCGGCCACCTCAAAACCTTTGCCCGCAAAAGCCCGAGCGGCCTGCGAGAGCGCCTGGACCTGGCAGCGGTGGTCGACCAGGCCCTGCAATTGCTGGAGACACGCCTGCGCGATGAACACGTCAGCACGGTGTTGCACCTGGCCCGCCCGGCCTGGGTTCGCGGCGACGCGATCCGCCTCGAACAGGTGCTGATCAACCTGCTGCGCAACGCTCTCGACGCGATGGTCGACCAACCGATCAAGCGCCTGGAAGTGCGCCTGCAGGCCGATGAGCAGTTGTGGTGCCTGACGGTGAAAGACAGCGGCGGCGGAATTGCCGAAGAGCACCTGGCCCAGGTGTTCGACCCCTTTTTCACCACCAAGGCCGTCGGCGATGGCCTGGGCCTGGGCCTGGCGGTGTCGTTTGCGATCATTCATGAATCCGGCGGGCGGCTGACAGCGGGCAATCACGAAAACGGCGCGGTATTCTGCGTCACCTTGCCCATCGATCCGGAGGCGCCGCTGCATGCTTGA	MLPTPRTLRLLLSIALILIGAALAATLAVRHAEREALKEDASRASQQLALYANSLHTLIERYRALPSVLALDPQLRDALKGPVSAAQQDELNRKLEKINGAAQSSTLELLDHTGLAVAASNWRLPSSYVGHNYGFRPYFLQTRTQGTGRFYAVGVTSGIPGYFLSSAVTGDNGEFLGAMVVKLEFPELEREWRQGSDTLLVSDARGIIFIANRPGWRYRHLRPLADSDRAELKATRQYDKQPLQPLAFDPLRRFDDNSHLARVEAPDGTADYLWESLPLTGEGWTLHLLRRPQIAFEDLRNAGLAAAGLWLALVFLLLFLNQRWRLARLRQRSREELERLVEERTRELRTAQDGLVQSAKLAALGQMSAALAHEINQPLTAQRMQLATLRLLLDHGRIDDAYKALKPVDDMLTRMAALTGHLKTFARKSPSGLRERLDLAAVVDQALQLLETRLRDEHVSTVLHLARPAWVRGDAIRLEQVLINLLRNALDAMVDQPIKRLEVRLQADEQLWCLTVKDSGGGIAEEHLAQVFDPFFTTKAVGDGLGLGLAVSFAIIHESGGRLTAGNHENGAVFCVTLPIDPEAPLHA	PGPT0017305_1035	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017305-dctB-K10125	NA	NA
D1-35_01519	2847	yenC2		Toxin subunit YenC2	GTGAACACGGAAGCTCATCGCAAGACTCCGGCCGTGGCGGTGTTCGACGGGCGGGCAGGACCGGTTCGGCGGGTGGATTACCTGCGCGGTACGGCCCGCGACGAAACCCAAACGTTAGTCACCGCCCAGGCGTATGACGTCGCCGGGCGCATCGTCGACCAATGGGACCCTCGCTTTCACGGCACGGAAACCGTCAGCCTGCACAGCATTTACAGCCTGTCGGGCACACCGCTGCGCACTGAAAACATCGATGCGGGACTTCGTTGCGAGTTGCCTGGCCTGGCCGGCCAGCGCCTGCACAGCTGGGATCCCCGTGGCAGTGAGCAACAGACCGAATACGACTCGCAGTTACGGCCCACGCGGATCCGCGAACGCGACCACGACGAGGCCTGGGCCACGGTTGGCCTCCTGCGCTACGCCAGTCGTTCGACCGAAGACGCCCTGCACAATCGATGCGGCCAACTGGTGGAGCACTACGACACGGCCGGGCTTGTCACCGTTGACGACTTTTCGCTGGCAGGCTTGCCGCTGGATCAAGGACAACGCTTCCTGGACACGCTGATGCTACCCGACTGGGCGGACGATGAAGCTGGACGCGAGGATTTGCTGGAGCCTGCCCGCTACGACACACGCTGGCGCTACGACGCCGTGGGGGATGCCTTGGGCCAGACGGATGCCAAGGGGCACAACCAACACATCGAACTCGATGTGGCAGGACAACCCAAGAGCGTACATTTGCAATGGAGCGACAGCCCGACGGCCGAGCTGATCGCCCATGAGTTCCAATACTCCGCCGCAGGCCAGCGCCAGGCATACACCGCCGGTAACGGCATCATTACGACCTTTTTCTATGACCCGGCCGACGGACGCCTGACTGAGCTCAAGGCCACGAAAGGCAGCGATATCCACCAACACTTGAGTTACCTCTACGACCTCGTCGGCAATGTCACGTCCATTACCGACCACACCCATGTCGTGCGGTACCACGCCAACCAGCGCAGCGAAGGCGCTCGGACCTTTTTGTATGACACCCTCTATCGCCTGGAAAGCGCCACGGGACTGGAAATGTCCGGGGCAGGCACGCATCCGGGATTGCCGGGGCTCGTCCCGCCCTCCGATCTGACCCTGAGAACCCCGTACACCCAACGCTACGAGTATGACCACGGTGGCAATCTGCAGAAATTGATCCACAGCAGCGCGGCCCCTGGCCAGGCGCACACACTGCGCCTGACCATGGACCCGTCAAGCAACCGCTGCCGACAATGGCAAAAGGGCGAAGCCTCTCACGGCGACAATCTGGACTTCGATGCCGGCGGCAATCAACTGAGTCTGCCCTTCTCCGGGCATCACTTGACTTGGAACCGGCGCAGTCAATTGCAGAAAGTGACCCAGGTTCAACGCGAAAATGCCGAAGACGACGCCGAGCACTACACCTACGACGCCCAGGGCAGTCGCATGCGCAAACGGCAAAACACTCAGGCCGCATCCGTCGTCCATGTGCGAGACGTGCGTTATTTGCCGGGTTTGCAAATCCGTACCCTGGACGACAGTGAAGAACTGCACGTCTGCACGATGCAAGGCCCGGCGTCCAACGTACGCGGATTGTATTGGGTCAAACGCCGCCCGGCTGAAATCGATCAAGGCCAGCTGCGCTACAGCCTTGAAGATCATCTGGGTTCGTTGGTCAAGGAACTGGACCAGAACGCCCTGCTCATCAGTCACGAAGGTTATTACCCCTTTGGCGGCACAGCGTGGTGGGCGGCAGATTTACAAGTGCAGGCCAGTTACAAGACGGTTCGTTACTCCGGCAAGGAGCGTGATGCCAGTGGGCTTTATTACTACGGGTTTCGTTATTACGCACCCTGGATGATGCGCTGGATCAACCCGGACCCGGCGGGGCCGGTGGATGGGTTGAATTTGTATGCGATGGTGGGGAATAACCCCATTCGCTATAGCGACAACCTGGGGCTGATTAAAATAAAAGGAGAGCAGCTCATGAACAAGATGAGCCCCCGCACTCAGCACATAATAGGAGGAGGAGATGCCCCGTTTAATGAGAGCCAGATCAAGGGTTCAAACGCCAAAAAACTCAAGGCACGGGAGGAGCATTACGAAAAACATCCAGAGGCGCAGTTATTCAGTAAATCCGGTAGAGACGTACTGAGTGCGCATGCAGGTTTTGAGATCCCTAGTAGCGACCCTGAGGAGCCCCATTATTTGACGGACCTCTACAACATTCCGCTACCCGGCTCACTGGAACTTATGTCCGAGGGCGTTCAGGTGTCCCGTGGTCCAGTTCAGAATTCCCAGGAAGATTTCCTGACTTCGGGGGGCATATTCCAGTTTGGAGATGTCACCCGTTATGAAGCTTTTGTGGAGAACAAGCTCATTGAGACGTTCAATGACGCTAAACGCCCTATGAAACTCTACAAGGGATCAAACTCAGCGCCGACAAACTTGACGGGGATTGAACACGAGGCGCCGGTGTTGCATCCCCTGGTCAAACAGCGGCTCGAAAATCACATCAGTGCGGGCAACAACTACCTTCCCAAGGCTGCGGGACTTCCCGGACTGCATGCTGAAAGCATCGGCGCGAACGTCGCGCTGAATATCCAGCAGAGCATGACCGGGGTGGCGGACCCGTCGCAAATACTTGTCATCACTCAAAAGATTGCCGGCAGCAAGAACGGACTGGGTCGAGGCTTTCCCGCCTGCTTCAACTGCACCAATATCCTTAGAGGACCCTCGGACGCTGCAGACGATCTACCGAAATTTGACATCGTGACCGAATGGGTGCCGACAACTCATTCACAGTGGAATGACCTGGCCAGACCGTACATCAACTAG	MNTEAHRKTPAVAVFDGRAGPVRRVDYLRGTARDETQTLVTAQAYDVAGRIVDQWDPRFHGTETVSLHSIYSLSGTPLRTENIDAGLRCELPGLAGQRLHSWDPRGSEQQTEYDSQLRPTRIRERDHDEAWATVGLLRYASRSTEDALHNRCGQLVEHYDTAGLVTVDDFSLAGLPLDQGQRFLDTLMLPDWADDEAGREDLLEPARYDTRWRYDAVGDALGQTDAKGHNQHIELDVAGQPKSVHLQWSDSPTAELIAHEFQYSAAGQRQAYTAGNGIITTFFYDPADGRLTELKATKGSDIHQHLSYLYDLVGNVTSITDHTHVVRYHANQRSEGARTFLYDTLYRLESATGLEMSGAGTHPGLPGLVPPSDLTLRTPYTQRYEYDHGGNLQKLIHSSAAPGQAHTLRLTMDPSSNRCRQWQKGEASHGDNLDFDAGGNQLSLPFSGHHLTWNRRSQLQKVTQVQRENAEDDAEHYTYDAQGSRMRKRQNTQAASVVHVRDVRYLPGLQIRTLDDSEELHVCTMQGPASNVRGLYWVKRRPAEIDQGQLRYSLEDHLGSLVKELDQNALLISHEGYYPFGGTAWWAADLQVQASYKTVRYSGKERDASGLYYYGFRYYAPWMMRWINPDPAGPVDGLNLYAMVGNNPIRYSDNLGLIKIKGEQLMNKMSPRTQHIIGGGDAPFNESQIKGSNAKKLKAREEHYEKHPEAQLFSKSGRDVLSAHAGFEIPSSDPEEPHYLTDLYNIPLPGSLELMSEGVQVSRGPVQNSQEDFLTSGGIFQFGDVTRYEAFVENKLIETFNDAKRPMKLYKGSNSAPTNLTGIEHEAPVLHPLVKQRLENHISAGNNYLPKAAGLPGLHAESIGANVALNIQQSMTGVADPSQILVITQKIAGSKNGLGRGFPACFNCTNILRGPSDAADDLPKFDIVTEWVPTTHSQWNDLARPYIN	PGPT0012380_147	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-OTHER_INSECTICIDIAL_TOXINS,PGPT0012380-tccC-K11021	NA	NA
D1-35_01520	4407	yenB		Toxin subunit YenB	ATGGCAGAGCAAGCGCCCCTCCAAATCATCACACCCACCATCGCCGGTAGCGCGTCAATCGCCGCCATTGGCAACGGCCTCGGCCCCGTTGGCACACGAGGGGCCGCATCCATTGAGTTGCCGCTGCCCGTGTCCAGCGCCCGGCACCTGACGCCCACCATGGCGCTGCACTACAACAGCCAGAGCGGCAACGGCACGTTCGGCATCGGCATGCAGTTGTCTATCCCCAGCATTACGCGCAAAACTCTCAAGGGCGTACCGCATTACAAGGATGACGATGTCATGGTCGGCCCCGACGGGGTAGATCGTTGGCCTGACCTTGAGGGGCGGACCAGCCGCAGGGTGGGCGACCGTACGTTCGAGGTGGTGCGCTATTACCCCAGGATCGAGAGCACCTTCGACATTTATGAACTCTGGACCTCCGATAGCCTACCGTTCTGGCGCGTACAGGGCAGCAACGGCAAGTTGTATTGCTACGGTAAAAGACCAGAGTCGCGCATTGCCGACCCGCAAGCCCCTTTGCGCATCGCCGAGTGGCTATTGCTGGAGGAAGTCAGCCCGTTGGGCGAGCACATCTACTATGAGTATGCGAGCGATCCCGCTGAGTCCGATGACCCGCATGACTACGGCGCCCAACGCTACCTGGTCCGGGTCTGCTACGGCAACGCGACGGCCAGCGACACCTTCTACTGCTTCGAAGAAGCAGACCCGGCAACGCTGGACTGGCACTTTCATTTGGTACTGGACTACGGACAACGCTCCCTCGATCTTGAGGAAAAGCCTGCCTGGGCGCCTCCTCCCGAGGATGACTGGCTACTGCGCAGCGATCCGGTCCATGCCTACCGGTACGGTTTCGAAGTCGGCACTCGGCGCCTTTGCCACCAGGCGTTGATGTTCCACCGTTTCCCCGCCGACGCCGAACCTGCACTGGTGCGGCGACTGTTGCTGGAATATACCTCCACCGACCTGGACTACAGCCTGCTGACTGCCGCCCATTATCAAGCATGGGACGCAGAAAGCAGGGTGCAGAACGCTCCGCCCGTTGAATTGGACTACAGCGTTTTCGACCTGAACCACGACCCCAAACCGTTCTTCGCTCTCCAGACCATGCCCGCCCTGGAAGACGGCTTGCACTACCAATGTGTCGACCTGTACGGCGAAGGCATTCCTGGCTTCTTGTGCCGCTACAGCAACGGTTGGTATTACCGCGAACCTGAGCGCCCAACTGGCGATAGAAGCGATGAGATCGGCTATGGCCCATGGTCGCTCTTGCCCAGCATCCCGGTCGCCGCCGACAACTCGGCGGTAATGCAAGTGCTCACCGACCTGACCGGTAGCGGTCGCCTCAATTGGGTCATCGCCCGGCCGGGCATGAGCGGCTTTTATACCCTCAACCCGGACCGCAGTTGGTCAGCCTTCACGAACTTCAAGCGTTTCCCCACGGAGTTCTTGCACCCCGCCGCGCAGTTGGGCGACCTGGTCGGCGACGGACTGCGTTCGCTGGCCATGATCGGCCCCAAAAGCGTGCGGCTGTACGCCAATCTTCGTGAACAGGGGTTCGCCCCGGGTGTGGACATTGCACATGAGCCGGACAGCGTCCTACCCTTGTTCAGCAATGCGCGCAGCGAGCTGGTGCTGTTCGGCAATATGCTGGGCAGCGACAGCTCCGACCTGTGCCGTATTCGCTGCGATGAAATCAAGTGTTGGCCGAACCTGGGCCATGGGCGTTTCGGCAAGGGCTTTGTGATGAGTGCCCTGCCTTTTACCTACCTCGAGTTCGATGCCGAGCGGGTTCGGATCGCCGATCTGGATGGCTCCGGGGCGCCGGCACTGATCTACCTGCGCAGCGATTGTTTTGAGATCTACTTCAACCACGGCGGCAATGGCCTGGAGCAAATACCGACGCAGGTAGCCTGGCCCGACGGTGTGCGCTATGACAACCTCTGCCAGGTTACCTTGGCCGATCTGCAAGGCTTGGGCTGCGCCAGCCTGGTCCTGAGCGTGCCCCATCACACCCCGGGCTTGAAACCCCGGCATTGGCGCTATGACTTTGTTGCGACGCGGCCCTATCTGCTCAGCCTCACCAATAACAACATGGGCTGCAAAAGCACCTTGGCCTATCGCAGCAGTGCGCAGTTCTGGCTGGACGAAAAAGCCCAAAGGGTGGCTTCGAACGAACCACTGGATTGCTACCTTCCCATGGCCCTGCCGCTGGTGGCGCGCCAACAACAGCTGGACGAAATCACCGGAAATTGCCTGACTCAGCGCTTCACCTATCTCGAGGGCGATTACGACAGCTATCACCGTGAGTTCCGAGGTTTTGGCCGGTTGTATCAGTTCGACAGCGAGCAACCCGAGGGCCCCGCGACGGCCGACTTCACCGCGCCGGTGCTGGCCAAGACGTGGTTCCACACCGGTCGCACCGTCGACCAGCCCCTCAAGGATTGTTTCAAAGCTGACCTCGACGCACCGCCTCTTGGCCTGACGTTGCTGACTCGGCTTCATGAGTCGGACGGAGCCGACGAGATCATCGCTGCCGACCCGGACACCGCAAGGGAAATGGCCTACGCCCTGGGCGGCCAAGTACTGCGTACCGAGACCCATCATGCCGAATCAATCGACATGCTCGAACCCTACACCGTGACGCAACAACGTTACCTGTTGCGCCAACCCCACAGCGGGCACAAGAGCCTGCTGGTGCTGGCGGTGGAATCGGTCAGCCATCAATACGACGGGTTTATCAACGACCCGCAAGCCCGGCACAGCATCAATCTGGCCTGGGACATCTACGGCCATACGACCCATGGTTTCACCGTTCATTACGCCCGCCGCCTGGGGCCGGAGAACGAACCCCCCTTCGCGGATGAATACGAAAAGACCTGGTGGCGCGATGCCCATGATGAGCAACAGCAGGTATTCCACATCGTCGAGAGTCGGGCTGAATATCATCACCTCACCGCTGACCAGGCTCGTCAGCGTCTAGGCCTGCCGTGGCGCGCCCGAACCAACGGGCTGCAACTTCCTAAAGGTGAGCTGCCCACAGGGTTGGCCCCGCGTCAGGTCAGCTACGAACAGTTCCTGGAGCACCAGGATTCAGAGCAATGGAACACTGCCAGAGTGCTGATGGCCCTTGAGAAGCAAACCTACGAGCAGGATGAATCGGGCGCTTCCCTGTTCCAGGCCTTGCGCGGCCCGCTGGAAGTCGCCGAGTTCGACGAGCAGGCGCTGGAAGCCTACGTTGCCGTGCCCCCACCCTTCGACATTCGCACAGAGCTGCGCACGATTGGTTTCGAGCCCATGGCGCTGTTCATGCCGGAATATCCCGACGAAGACGCGAACGAGAACCTCTGGTCGAAGAAGGTCGGCTTCGCCACCTACAGCGACCTCGCCGGTTTTTTCCAGGTCACCGCCCTGCAAGAGACGCAAAGCCATGGCCTCACGACCGTCACCTACGATGCCTATCATTTGCTGACAACGAGCGTCACCCTGCCGGACGGCTGCACGACCCTCGTCAACTACGACTACCACTCGCTGTTGCCGCGGAAAATCACCGATGCCAACGGCAATATTCAGCAAGCGCTCTACGGCCCGGACGGGGTTCCTCTGGGCGTCACCTTCCATGGCACCGAAGGTGGTGTCGCAGCGGGCTTCGACGCCATTGAAAATTATCAGCCGCCCGAAGACCTCACGCTGGGTCACGCCGTAGAAGACCCGGCGGGCACCTTGGGAAGAATCGCCAGCGCCGTGCGTATCGAGGATAGGAGCTGGATGGGTGCGCTGGAGCTGTCGGAGATACGCGACGAGTGGATCAGCGCCTGCTACCTGCTGCCCAGTGGTCACATCCGCGCCTCGGCACGCGCTCGCCTGGCCCAACTCGAAACGCGTACCCCTGACGAAGAATCGCTCTGGGCACTGATCCAGGCAGCGGCCCGAGAACCGGCCCACAGCGTCGTGCTGAGCGCCGACCGCTATCCGGATGATCCATTGCGACAGATCCGCATCGCCCTCAGCGCAGTCGACGGTTTCGGCCGCCCCTTGCAAAGCAAGCAATTGGTCGAGCCTGGACAAGCCTATGCCGTGGCCAAGGACGGCTTGCTGCGTTTGGACGACGAAGAGCGACCGATCCAGCATGAGGCCAACCCTCGGTGGCGTGTCAGCGAACGGGTCGAGTACAACAACAAAGGTTTGGTAACGCGGGTCTACCGACCTTATTTTGCCGATGCCTGGCGCTACATCAATGGTGCCTCTTTGCGCGAACACGGCCATCACGACCAGCAGTTCTATGACCCGCCGGGGCGGTTGGTCAAGATCGTCAATGCCAAGGGGCATGAAGCCTGGCATGTCTACCATCCGTGGTACCAGTGCGATCACGATTACAACGATACAGAGCCGACGGCTGCCAAGTGA	MAEQAPLQIITPTIAGSASIAAIGNGLGPVGTRGAASIELPLPVSSARHLTPTMALHYNSQSGNGTFGIGMQLSIPSITRKTLKGVPHYKDDDVMVGPDGVDRWPDLEGRTSRRVGDRTFEVVRYYPRIESTFDIYELWTSDSLPFWRVQGSNGKLYCYGKRPESRIADPQAPLRIAEWLLLEEVSPLGEHIYYEYASDPAESDDPHDYGAQRYLVRVCYGNATASDTFYCFEEADPATLDWHFHLVLDYGQRSLDLEEKPAWAPPPEDDWLLRSDPVHAYRYGFEVGTRRLCHQALMFHRFPADAEPALVRRLLLEYTSTDLDYSLLTAAHYQAWDAESRVQNAPPVELDYSVFDLNHDPKPFFALQTMPALEDGLHYQCVDLYGEGIPGFLCRYSNGWYYREPERPTGDRSDEIGYGPWSLLPSIPVAADNSAVMQVLTDLTGSGRLNWVIARPGMSGFYTLNPDRSWSAFTNFKRFPTEFLHPAAQLGDLVGDGLRSLAMIGPKSVRLYANLREQGFAPGVDIAHEPDSVLPLFSNARSELVLFGNMLGSDSSDLCRIRCDEIKCWPNLGHGRFGKGFVMSALPFTYLEFDAERVRIADLDGSGAPALIYLRSDCFEIYFNHGGNGLEQIPTQVAWPDGVRYDNLCQVTLADLQGLGCASLVLSVPHHTPGLKPRHWRYDFVATRPYLLSLTNNNMGCKSTLAYRSSAQFWLDEKAQRVASNEPLDCYLPMALPLVARQQQLDEITGNCLTQRFTYLEGDYDSYHREFRGFGRLYQFDSEQPEGPATADFTAPVLAKTWFHTGRTVDQPLKDCFKADLDAPPLGLTLLTRLHESDGADEIIAADPDTAREMAYALGGQVLRTETHHAESIDMLEPYTVTQQRYLLRQPHSGHKSLLVLAVESVSHQYDGFINDPQARHSINLAWDIYGHTTHGFTVHYARRLGPENEPPFADEYEKTWWRDAHDEQQQVFHIVESRAEYHHLTADQARQRLGLPWRARTNGLQLPKGELPTGLAPRQVSYEQFLEHQDSEQWNTARVLMALEKQTYEQDESGASLFQALRGPLEVAEFDEQALEAYVAVPPPFDIRTELRTIGFEPMALFMPEYPDEDANENLWSKKVGFATYSDLAGFFQVTALQETQSHGLTTVTYDAYHLLTTSVTLPDGCTTLVNYDYHSLLPRKITDANGNIQQALYGPDGVPLGVTFHGTEGGVAAGFDAIENYQPPEDLTLGHAVEDPAGTLGRIASAVRIEDRSWMGALELSEIRDEWISACYLLPSGHIRASARARLAQLETRTPDEESLWALIQAAAREPAHSVVLSADRYPDDPLRQIRIALSAVDGFGRPLQSKQLVEPGQAYAVAKDGLLRLDDEERPIQHEANPRWRVSERVEYNNKGLVTRVYRPYFADAWRYINGASLREHGHHDQQFYDPPGRLVKIVNAKGHEAWHVYHPWYQCDHDYNDTEPTAAK	PGPT0027804_70	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-OTHER_BACTERIAL_DEFENSE_SYSTEMS	CE-BACTERIAL_FITNESS-BACTERIAL_TOXINS,PGPT0027804-spvB|eat1-K15366	NA	NA
D1-35_01521	1524	fumA	COG1838	Fumarate hydratase class I, aerobic	ATGACCGTGATCAAGCAAGATGACCTGATACAGAGCGTCGCCGACGCCTTGCAGTTCATTTCCTATTACCACCCCGTGGATTTCATCCAGGCGATGCACGAGGCCTACCTGCGCGAAGAATCGCCGGCGGCCCGTGATTCCATGGCGCAGATCCTGATCAACTCGCGCATGTGCGCCACCGGCCATCGGCCGATCTGCCAGGACACCGGTATCGTGACCGTGTTCGTGCGCGTGGGCATGGACGTGCGTTGGGATGGCGCGACCATGGGCCTGGACGACATGATCAACGAGGGCGTGCGTCGCGCCTACAACCTGCCGGAAAACGTCCTGCGCGCATCGATCCTCGCCGACCCGGCAGGCGCGCGCAAGAACACCAAGGACAACACGCCGGCGGTCATCCACTACTCCATCGTCCCGGGCAACACCGTGGAAGTGGACGTGGCGGCCAAAGGCGGCGGCTCCGAGAACAAGTCGAAGATGGCCATGCTCAACCCGTCCGACTCCATCGTCGACTGGGTACTCAAGACCGTTCCGACCATGGGCGCCGGCTGGTGCCCACCGGGCATGCTCGGTATCGGCATCGGCGGCACCGCCGAGAAAGCCGCGGTGATGGCCAAGGAAGTGTTGATGGAATCCATCGACATCCACGAGCTCAAGGCCCGCGGCCCGCAGAACCGTATCGAAGAGATGCGCCTGGAGCTGTTCGAGAAGGTCAACCAACTGGGCATCGGCGCCCAGGGCCTGGGCGGCCTGACCACCGTGCTCGACGTGAAGATCATGGACTACCCGACCCACGCCGCCTCCCTGCCGGTGTGCATGATCCCCAACTGTGCCGCCACCCGTCATGCCCACTTCGTGCTCGACGGCAGCGGCCCGGCCTCGCTGGAAGCGCCACCGCTGGACGCCTACCCGGAAATCGTCTGGGAAGCCGGTCCGTCGGCGCGTCGCGTGAACCTCGACACCCTGACCCCGGAAGAAGTGCAGAGCTGGAAGCCGGGCGAAACGGTATTGCTCAACGGCAAGATGCTCACCGGTCGCGACGCGGCGCACAAGCGCATGGTCGAGATGCTGAACAAAGGTGAAACCCTGCCGGTGGACCTCAAGGGCCGCTTCATCTACTACGTTGGCCCGGTCGACCCGGTCGGCGACGAAGTGGTTGGCCCGGCCGGCCCGACCACCGCCACGCGGATGGACAAGTTCACCCGCCAGATCCTCGAGCAGACCGGCCTGTTGGGCATGATCGGCAAATCCGAGCGCGGCCCGACCGCCATCGAAGCGATCAAGGACAACAAGGCGGTCTACCTGATGGCCGTCGGCGGTGCCGCTTACCTGGTGGCCCAGGCGATCAAGAAATCCAAGGTCCTGGCGTTCGCCGAACTGGGGATGGAAGCGATCTACGAGTTCGAGGTCAAGGACATGCCGGTGACCGTTGCGGTCGACAGCAAGGGCGAGTCGGTGCACATCACCGGTCCGGCGATCTGGCAGCAGAAGATCAGCGAAAGCCTGGCGGTAGAGGTGCAGTAA	MTVIKQDDLIQSVADALQFISYYHPVDFIQAMHEAYLREESPAARDSMAQILINSRMCATGHRPICQDTGIVTVFVRVGMDVRWDGATMGLDDMINEGVRRAYNLPENVLRASILADPAGARKNTKDNTPAVIHYSIVPGNTVEVDVAAKGGGSENKSKMAMLNPSDSIVDWVLKTVPTMGAGWCPPGMLGIGIGGTAEKAAVMAKEVLMESIDIHELKARGPQNRIEEMRLELFEKVNQLGIGAQGLGGLTTVLDVKIMDYPTHAASLPVCMIPNCAATRHAHFVLDGSGPASLEAPPLDAYPEIVWEAGPSARRVNLDTLTPEEVQSWKPGETVLLNGKMLTGRDAAHKRMVEMLNKGETLPVDLKGRFIYYVGPVDPVGDEVVGPAGPTTATRMDKFTRQILEQTGLLGMIGKSERGPTAIEAIKDNKAVYLMAVGGAAYLVAQAIKKSKVLAFAELGMEAIYEFEVKDMPVTVAVDSKGESVHITGPAIWQQKISESLAVEVQ	PGPT0001635_1896	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001635-fumA|fumB-K01676	NA	NA
D1-35_01522	1122			hypothetical protein	ATGGTGAGTCACCGATTGACCCATAACGCCATCCAACGTCTTTTGCTTAAACGCTTTGCCCTCGCAGCCACGACTTATGCGCTGGCACTGGTATTGTTGTGGCTGGCGTTTTTCAGTGGTCATTACCTCGACACATTGCGTGGCGTCATTGTTGGCAGCCTGTTGGTCGTGCTGTGCCAGGCTGGTCTGTTCACGCTGTTCATCACCGACCGCAACCTGCGATTCGCCGACCCCAGCCTCACGGAAATACAGGTCTGGATCGGCCTGGGCTGGCAGACCTGGATGATGGCGCACCTGGACCAGGCCCGGGGCGTGTTCCTGGTGTTCTATGTGCTGATCCTGCTGTTCGGGCTGTTTCACCTGTCCCGCCGGGCCTTCGTGCGTTGCGCGACGCTGGTGTTCATCAGCTTCACCGGGATCACGCTCTGGGACGGTTATTTCTTTCGCCTGCCCGATCCGACGCTGGCCGGTCTGCAGGTCTGCGTACTGTTCATCGTGTTGGTGTGGCTGGTGTTGTACGCCCGCTACGTCCAGACCTCGCGTCAACGCATGCGCCAGCGTCGATTTGCCTTGCAGGCGCACCAGGACACATTGCGCGGCATGATGCGCCAGCTCGAAGACCTGGTGGCCACCGATGAACTGACCGGCCTGTTCAACCGCCGGCACTTCCTGCGCCTGGCCGGCCGCGAGCTCAATACCCTCAGGCCCGGCGTCGCCCATGGCCTGGCCTTGATCGACCTCGACCATTTCAAACGCATCAACGACCTGCATGGCCATGCCGCGGGCGACCAGGTATTGCAGGCATTCGCCGCTGTCGCCACGGCGTGCCTGCGCGAGGGCGATGTGCTGGCCCGTTACGGTGGCGAGGAGTTTGTCATGCTGCTCCCCGCTTGCGATCCCGCGCGCCTGACGGCCTGTTGCGAGCGATTGCGGCTGGCGTTCACCGAGGTTCGATTGGTCGATCTGCCGGTGGGCAACCTCAGTTTGTCGGTGGGGATGACGATGCTGGAAATCGGCGATGACCTGGACAGCGCCTTGCAGCGCGCCGACCAGGCCTTGTACCGTGCCAAGCGGGACGGTCGCAACCGTTGCGCCGCCGCCTGGGAGAACGTCGATGCCTGA	MVSHRLTHNAIQRLLLKRFALAATTYALALVLLWLAFFSGHYLDTLRGVIVGSLLVVLCQAGLFTLFITDRNLRFADPSLTEIQVWIGLGWQTWMMAHLDQARGVFLVFYVLILLFGLFHLSRRAFVRCATLVFISFTGITLWDGYFFRLPDPTLAGLQVCVLFIVLVWLVLYARYVQTSRQRMRQRRFALQAHQDTLRGMMRQLEDLVATDELTGLFNRRHFLRLAGRELNTLRPGVAHGLALIDLDHFKRINDLHGHAAGDQVLQAFAAVATACLREGDVLARYGGEEFVMLLPACDPARLTACCERLRLAFTEVRLVDLPVGNLSLSVGMTMLEIGDDLDSALQRADQALYRAKRDGRNRCAAAWENVDA	PGPT0025990_359	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0025990-sadC-K21019	NA	NA
D1-35_01523	948	nagAa		Naphthalene 1,2-dioxygenase/salicylate 5-hydroxylase systems, ferredoxin--NAD(P)(+), reductase component	ATGCCTGAACTGAAAGTCGCCGACCGGCAATGGACGGTGGCGGCTGGCGGCAATCTGCTGGACGCGCTTAACCACGGCGGCGTGCCGGTGCCCTATAGCTGCCGTGCCGGCAGTTGCCATGCCTGCCTGGTGCAATGTGTGAAGGGGGATGTGCGTGACAGCCGTCCCGACGCCCTGAGCCCGGCGCAGCGAGATAACGGTTGGCGCCTGGCATGCCAGTGCCAGGTGGTCGAAGACGTGCAGATCCACACCTTTGATCCGCAGCGCGACGGCCAGGCCGCCGCTGTGGACGCGGTGGATTGGCTGGGGGCTGACGTGCTACGCCTGCGCATCAGCCCGCAGCGACCACTGCGTTATCGAGCCGGGCAACATCTGGTGTTATGGGCCGGTGACGTGGCCCGGCCGTACTCCCTGGCGAGCCTGCCCGAAGAAGACCGATTCCTGGAGTTTCACCTCGATTGTCGCGAGCCCGGTCAATTCGTCGATGCGGCGCGACAACTGAGCACCGGAGACCCGATCCGCCTCGGCGAACTGCGCGGCGGCGCGCTGCATTACGACGCCGACTGGCACGATCGGCCGCTCTGGCTGCTGGCCGCTGGCACCGGCCTGGCACCGCTGTTCGGCATCCTCCGTGAAGCGCTGCGCCAGCAGCACCAAGGCACGATTCGGCTGATTCACCTGGCCCATGATGAGGCCGGGCATTACCTGGATAAACCTCTGAAGGCACTGGCGGCCAAACACCCCAACCTGAACGTCGAGCTACTGACCGCAGCCGAGGCGCCAGCGGCGCTCGCGCAACTGCGCCTGGCTTCGCGCCAGACCCAGGCCCTGGTGTGCGGTCATCCGGACCGGGTCGAGGCGTTTGCCAAGCGTTTGTACCTGGCGGGGCTGCCGCGTAATCAGTTGCTGGCGGATGTGTTTCTGACCCGCGAGGACAGTGACGGCTGA	MPELKVADRQWTVAAGGNLLDALNHGGVPVPYSCRAGSCHACLVQCVKGDVRDSRPDALSPAQRDNGWRLACQCQVVEDVQIHTFDPQRDGQAAAVDAVDWLGADVLRLRISPQRPLRYRAGQHLVLWAGDVARPYSLASLPEEDRFLEFHLDCREPGQFVDAARQLSTGDPIRLGELRGGALHYDADWHDRPLWLLAAGTGLAPLFGILREALRQQHQGTIRLIHLAHDEAGHYLDKPLKALAAKHPNLNVELLTAAEAPAALAQLRLASRQTQALVCGHPDRVEAFAKRLYLAGLPRNQLLADVFLTREDSDG	PGPT0022595_853	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PARATOSE|TRYLOSE|ABEQUOSE|ASCARYLOSE_MODIFICATION,PGPT0022595-ascD|ddhD|rfbI-K00523	NA	NA
D1-35_01524	1452	pykA	COG0469	Pyruvate kinase II	ATGTCCGTCCGTCGCACCAAAATCGTCGCTACCCTTGGCCCGGCCAGTAACTCGCCGGAAGTTCTCGAACAGCTGATTCTGGCTGGCCTGGACGTTGCCCGCCTGAACTTCTCCCACGGCACCCCCGACGAGCACAAGGCTCGTGCCAAGCTGGTGCGCGACCTGGCCGCCAAGCATGGCCGCTTCGTCGCCCTGCTGGGTGACCTGCAAGGCCCGAAGATCCGCATTGCCAAATTCGCCAACAAGCGCATCGAGCTGAAGATCGGTGACAAGTTCACCTTTTCCACCAGCCATCCATTGACCGAGGGTAACCAGCAAGTCGTCGGTATCGACTACCCGGATCTGGTCAAGGATTGCGGCGTGGGCGACGAGCTGCTGCTCGACGACGGCCGCGTGGTGATGCGCGTCGAGACCGCCACCGCCACCGAACTGAACTGCGTCGTGACCATTGGCGGCCCGCTGTCGGACCACAAGGGTATCAACCGTCGCGGCGGCGGCCTGACTGCTCCGGCCCTGACCGACAAAGACAAAGCCGATATCAAGCTGGCCGCGGAAATGGAAGTCGACTACCTGGCGGTGTCCTTCCCGCGCGACGCGGCGGACATGGAATATGCCCGTCAATTGCGCGACGAGGCCGGCGGTACCGCCTGGCTGGTGGCCAAGATCGAACGCGCCGAAGCCGTGGCCGACGATGAAACCCTCGATGGCCTGATCAAGGCGTCCGACGCCGTGATGGTGGCCCGTGGCGACCTCGGCGTGGAAATCGGCGACGCCGAGCTGGTGGGCATCCAGAAGAAGATCATCCTGCACGCACGCCGCCACAACAAAGCGGTGATCGTTGCGACCCAGATGATGGAGTCGATGATCCAGAACCCGATGCCGACCCGCGCCGAAGTGTCCGACGTAGCCAACGCCGTGCTCGACTACACCGACGCCGTGATGCTCTCGGCCGAAAGCGCCGCCGGCCTCTACCCGCTCGAAGCGGTGCAGGCCATGGCACGTATCTGCATCGGCGCTGAAAAGCACCCGACCGGCAAGACGTCCAGCCACCGCATCGGCAAGACCTTCGAGCGCTGCGACGAGAGCATTGCCTTGGCGAGCATGTATACCGCTAACCACTTCCCGGGCGTAAAGGCGATCATCGCCCTGACCGAAAGTGGCTACACGCCGTTGATCATGTCGCGCATCCGCTCCTCCGTGCCGATCTATGCGTTCTCCCCGCACCGCGAAACCCAGGCCCGTGCCGCCATGTTCCGTGGCGTCTACACCGTGCCGTTCGACCCGGCCGCCCTGCAACCGGGCGAAGTCAGCCAGGCGGCGGTGGATGAACTGGTCAAGCGTGGCGTGGTGCAGACCGGCGACTGGGTCATCCTGACCAAGGGCGACAGCTACCACACCATCGGCGGCACCAACGGGATGAAGATCCTGCACGTCGGCGACCCGATGGTTTGA	MSVRRTKIVATLGPASNSPEVLEQLILAGLDVARLNFSHGTPDEHKARAKLVRDLAAKHGRFVALLGDLQGPKIRIAKFANKRIELKIGDKFTFSTSHPLTEGNQQVVGIDYPDLVKDCGVGDELLLDDGRVVMRVETATATELNCVVTIGGPLSDHKGINRRGGGLTAPALTDKDKADIKLAAEMEVDYLAVSFPRDAADMEYARQLRDEAGGTAWLVAKIERAEAVADDETLDGLIKASDAVMVARGDLGVEIGDAELVGIQKKIILHARRHNKAVIVATQMMESMIQNPMPTRAEVSDVANAVLDYTDAVMLSAESAAGLYPLEAVQAMARICIGAEKHPTGKTSSHRIGKTFERCDESIALASMYTANHFPGVKAIIALTESGYTPLIMSRIRSSVPIYAFSPHRETQARAAMFRGVYTVPFDPAALQPGEVSQAAVDELVKRGVVQTGDWVILTKGDSYHTIGGTNGMKILHVGDPMV	PGPT0002020_4006	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002020-pyk-K00873	NA	NA
D1-35_01525	375			hypothetical protein	ATGCGATTCGTGCTTTTTATTGCCTTGGCCCTGAGCATCACGGGCTGCACCCGTTGGTCGATGAACCACCACATGAACCTGGCCTACAAGGCCTACGAGCGCGGCAATTGCGAGCAAGTAATGCTTGAACTGTCCAAGGTCGACCGCGCCAGCCGTGCCCGTCGTTATATGCAGCCGGAAGTCTCGATGATGCGTGGTCAATGCCTGGAGCGGCAAAAGCTGTTCGTCGATGCGGCGCAGACGTACCAGTTCATTCTTACGCAATACCCCAACAGCGAGTACGCCTATCGTGCCCGCGCCCGGCTCGAAACCTTGCAGAGCCTTGGGCATTACCCGACCCGTAGCACCTCGGCCATCCGCCCGACGGCGTTCTGA	MRFVLFIALALSITGCTRWSMNHHMNLAYKAYERGNCEQVMLELSKVDRASRARRYMQPEVSMMRGQCLERQKLFVDAAQTYQFILTQYPNSEYAYRARARLETLQSLGHYPTRSTSAIRPTAF				NA	NA	NA	NA	NA
D1-35_01526	360			hypothetical protein	ATGTACAAAGAGCGCCGCATTGAACGACATCAGTTGGCTTGTTTTCTTGAGGTGTTCAACGGCCTCAACGAGAAACCGATCGGTTTTCTGGGCAACGTCTCTGAAAGTGGCCTGATGTTGATCAGTCAGTTGCCGTTGATGATTGGCGCAAGCTTTGATCTTTATCTGAAAATCCCCACCGACGACGGATCACAGCAAGAGATCCGGTTGAAGGCCAAGTGCCTGTGGTGTCATGAAGACGTGACGCCGCAGCATTTCGATGCCGGTTTCAGCCTGCAATGGGCGCCGCCGGAGTACGGGGCGCTGGTCAGCGCGTTGCAGCAGTATTTCTGTTTTTATCCGTTGCCCGCCTCGGCTTGA	MYKERRIERHQLACFLEVFNGLNEKPIGFLGNVSESGLMLISQLPLMIGASFDLYLKIPTDDGSQQEIRLKAKCLWCHEDVTPQHFDAGFSLQWAPPEYGALVSALQQYFCFYPLPASA				NA	NA	NA	NA	NA
D1-35_01527	1332			hypothetical protein	ATGAAACCCTCGCGTCTGTTGCTCATCTGGCTCGCGATCCTGCTGGCCGTCGGCATCGTGCTGGGCACGTTGCGAGCGCTGGGCATCGCGGTGCCGTCGACACTCCTGTCGATCAACTGGGGGATGCTGCTGGCCTTGCTGGCCTTGGCGCTGCTCGATGCCGTGCGGCTGCGGCGCCTGCCCTCGCCCCGCGTACAACGACACATGCCGGGCAGCCTGGCACTGGGCCGATGGGGCGAAGTGCGCCTGCAGATCAGCCATGATTTTGCCCAGCCAATGCCGATCCAGGTGTTCGATCACGTACCCGATGGCCTCGACTTCGACGACCTGCCCTTGTCGGTCGAACTTCAACCCGGCCAACGCAGCCAGCTCGGCTACCGCTTGCGCCCGCTCAAGCGCGGTCATTTCATTTTCAGCTACTGCGAGATCAGCCTGCCCAGCCCGCTGGGATTGTGGTCCGGCAAACGCCTGCTGGAGGCGCTCGACAACACTCGCGTCTACCCGGATTTCGCCAGGCTCTATGACGGCCAGCTATTGGCCGTCGACAACTGGCTGAGCCAGCTCGGCATACGCCAGCGGCAGCGCCGTGGCCAGGGCCAGGAATTCCATCAGTTGCGCGAGTTTCGCGAGGGCGACAGCCTGCGCCAGATCGACTGGAAGGCCACCGCCCGCCACCGTACGCCGATCGCCCGTGAGTACGAAGACGAACGCGACCAACAGATTATCTTCATGCTCGACTGCGGCCGGCGCATGCGCAGCCAGGACGACGAGCTGGCGCACTTCGATCACGCTCTCAATGCCTGCCTGTTGCTCAGCTATACCGCGTTGCGCCAGGGCGACGCCGTCGGCCTGTACACCTTCGCCAGTGAGCGACCGCGCTACCTCGCGCCAGTCAAAGGCAGCGGCCAGCTCAACGTCTTGCTCAACGCCGTCTATGACCTGGACAGCAGCCAGCATCCCGCCGATTACCAGGTCGCGGTCAATCAACTGCTGGCCCGGCAAAAACGCCGGGCCCTGGTGGTGTTGGTGACCAACCTGCGGGATGAGGACGACGAGGAACTGCTGGCTGCCGTCAAGCGCCTGGGGCAGCAGCATCGGGTGCTGGTGGCCAGCCTGCGCGAAGAGGCACTCGACCGGTTGCGCCAGGCGCCGGTACAAACCCAGCCCGAAGCCTTGGCCTATTGCGGGACGGTGGACTACATGAACACCCGCGCCGGACTCCATCTGCAGTTGGCGGCCCATGGCATCCCGACCCTGGATTCGCGCCCCGGCGAGCTAGGGGCGGATCTGGTGAGCCAATACCTGGCATGGAAAAAGGCCGGAACCGCTTAG	MKPSRLLLIWLAILLAVGIVLGTLRALGIAVPSTLLSINWGMLLALLALALLDAVRLRRLPSPRVQRHMPGSLALGRWGEVRLQISHDFAQPMPIQVFDHVPDGLDFDDLPLSVELQPGQRSQLGYRLRPLKRGHFIFSYCEISLPSPLGLWSGKRLLEALDNTRVYPDFARLYDGQLLAVDNWLSQLGIRQRQRRGQGQEFHQLREFREGDSLRQIDWKATARHRTPIAREYEDERDQQIIFMLDCGRRMRSQDDELAHFDHALNACLLLSYTALRQGDAVGLYTFASERPRYLAPVKGSGQLNVLLNAVYDLDSSQHPADYQVAVNQLLARQKRRALVVLVTNLRDEDDEELLAAVKRLGQQHRVLVASLREEALDRLRQAPVQTQPEALAYCGTVDYMNTRAGLHLQLAAHGIPTLDSRPGELGADLVSQYLAWKKAGTA				NA	NA	NA	NA	NA
D1-35_01528	1008			hypothetical protein	TTGACGACTGAACAGAACGAACCTGTCGACGGCCAGGCCCATGCCGCCCAACAGCGCCAGCGCGCCAGCCAGTTGGCCCAGGCGATCCGTACCGAACTGCACAAGGCGGTGGTCGGCCAGGCTGCGGTGGTCGACGATGTGCTCACGGCGTTGATCGCTGGCGGGCATGTGCTGCTCGAAGGCGTTCCAGGGTTGGGCAAGACGCTGCTGGTGCGCGCGCTCGCGCGCTGTTTCAGTGGCGAGTTCGCGCGCATCCAGTTCACGCCCGACCTGATGCCCAGTGACGTCACCGGCCATGCGGTGTACGACTTGCAGACCGAGCAGTTCAAGTTGCGCAAGGGTCCGGTTTTCACCAACCTTCTGCTGGCCGACGAGATCAACCGCGCGCCGGCAAAAACCCAGGCGGCGCTGCTCGAGGCCATGCAGGAACGCCAGGTCACCCTGGAAGGCCGCGCCCTGCCGATCGCCCAACCATTCATGGTGCTGGCGACCCAGAACCCCATCGAACAGGAAGGCACTTACCCGCTGCCGGAAGCCGAGCTCGACCGCTTCATGCTCAAGGTCCGCATGGACTATCCCGATGCCGACCAGGAACTGGACATGGTCCGCCAGGTCAGCCGCTCGACCCGGGGCGACATGCTTGACGTGCAACCGTTGCGCACGGTGCTGCAAGCCAAGGATGTGCAGGCCTTGCAGCGCATCGCCAGTGACCTGCCGATGGACGATCAGGTCCTCGACTACGCCGTCCGCCTGGCCCGCGCCACTCGCAGCTGGCCGGGGCTGACGCTGGGCGCCGGGCCGCGCGCCTCGATCGCGTTGGTACGCTGCGCAAGGGCCCGGGCGCTGCTGCGCGGTGGCGAATTCGTGGTCCCGGACGACATCAAGGGCTGCGCCCTGGCCGTGCTGCGCCATCGCGTAAGGCTGGCGCCGGAGCTGGACATCGAGGGGCTCTCGGTGGATCAGGTGCTGGGGCAGTTGCTCGATCAAGTCTCGGCGCCGCGGCTGTGA	MTTEQNEPVDGQAHAAQQRQRASQLAQAIRTELHKAVVGQAAVVDDVLTALIAGGHVLLEGVPGLGKTLLVRALARCFSGEFARIQFTPDLMPSDVTGHAVYDLQTEQFKLRKGPVFTNLLLADEINRAPAKTQAALLEAMQERQVTLEGRALPIAQPFMVLATQNPIEQEGTYPLPEAELDRFMLKVRMDYPDADQELDMVRQVSRSTRGDMLDVQPLRTVLQAKDVQALQRIASDLPMDDQVLDYAVRLARATRSWPGLTLGAGPRASIALVRCARARALLRGGEFVVPDDIKGCALAVLRHRVRLAPELDIEGLSVDQVLGQLLDQVSAPRL				NA	NA	NA	NA	NA
D1-35_01529	1188			hypothetical protein	ATGATTACCTCGAAAACGTACCTGGATCCAGTACTGCCGGAAAATCTTCCCGCCTCGATCATTCAGGCCGCGGATCAGTTGCCGCGCAAAGCAGAGTTTCTTGCCGGGCGGCTCGCCGATGAGACATCGAAGCAACTGGCGAGCCTGTTGCGCATCACCAATACCTACTATTCGAATCTGATCGAGGGGCATCGAACCGAGATCGCTGATCTCCAGGTCGCTCGCACCACGCCGAAACGCCAGCGAAAGGAGCTCAAAGAGCTTGCCGTGCAACACATGACACAGCAGGAGGTGATGGAGCGACTGCTTCGCATGCGCTCGACGGACAGTTTCTCTGCCTTGTTCGACCCCCAGTTGATCGCGACCATTCACCGTCGACTGTTCAAAGACGCTTCAACGCAGGAGCTGATCCTGAGCGACGGTCGGATGATGGAACCAGGAAAGCTGCGGGCCGAAGCGAATGAACAGGTCCAGGTCGGCGCACATGTCGCCCCAGCTGCTACTGCGGTATTGCCCATGCTTGAGCATCTGCAACTGCACTACGGACGTATAAACGACCCCCGACGCCAATTGATCGCCGCCCTGGCGAGTCATCACCGTGTGGCGCTTGTCCACCCCTTCCTTGATGGCAACGGTCGAGTGATCCGGATGCTCACCCACCTGCAGCTTGTCCACCTCGGGCTAAAACCGTTTCTCTGGTCACTGTCGCGTGGCTTGGCCCGAAGGCAGGATGAATACTATCGTTTCCTGGCTTTGGCTGATCGAACTCGAGAAGGCGACTGTGACGGACGAGGTCAACTCTCACAGCGCCATTACTTCAACTTCATCGAGTTCATGCTCGATGTCTGTCGCGACCAGATTGAATACATGACAACCTCACTCAACCCAGCCAGGCTACGCGAGCAGATCTTTCATGTGTTTTCGACGGATGCTGGCCTTCGCCGTGCGGGGATCAGACCCGCCAGTGCCGGTGCTGTGTTGGCGCTTCTCACCCAAGGCGCGATGCCGCGTGCGGAATTCAAGGTATTTACAGGATTGAAGGATCGACTCGCAACGGAAGAACTGAGCCACTTGATCGAAGCGGGAATAGTGGTCAGTAGTACGCCCAGGTCTCGAACGGTGGCAGCGGGCTTGCCCGCACGCTTCGCCGGACTGATCTTTCCGAACCTGCATATCCAGATGGGCTGA	MITSKTYLDPVLPENLPASIIQAADQLPRKAEFLAGRLADETSKQLASLLRITNTYYSNLIEGHRTEIADLQVARTTPKRQRKELKELAVQHMTQQEVMERLLRMRSTDSFSALFDPQLIATIHRRLFKDASTQELILSDGRMMEPGKLRAEANEQVQVGAHVAPAATAVLPMLEHLQLHYGRINDPRRQLIAALASHHRVALVHPFLDGNGRVIRMLTHLQLVHLGLKPFLWSLSRGLARRQDEYYRFLALADRTREGDCDGRGQLSQRHYFNFIEFMLDVCRDQIEYMTTSLNPARLREQIFHVFSTDAGLRRAGIRPASAGAVLALLTQGAMPRAEFKVFTGLKDRLATEELSHLIEAGIVVSSTPRSRTVAAGLPARFAGLIFPNLHIQMG				NA	NA	NA	NA	NA
D1-35_01530	1164			hypothetical protein	ATGAGCCGCCGCGCCGGATGGCTGGTCGCGGCGCTGGTTGCGGCGTTGGTCTGTGCAGTAGGCGTCTACTTGTCCACGAAAGCCGTGCCCTACCAGGAAACCATTGATCACGGCCCATCCCCCGAAGCCCAGGCCAATCCCTACCTGGCGGCGGAACATTTCCTGCGTCGGCATGGGGTAGAAGTCGATCACGCCAACAGCCTGGACGTCCTGCCCGGCCTCGAACCCCACCAGCGTAGCCTGCTGTTGCTGGGCGAGCGGAGCGACATGACGCCACGAGAGGCCGACCAGTTGATGAACTGGACCCGGGCCGGCGGACGGCTGCTGTTCGTCGCCGAGGCCTTGTGGGATGACAGCACCAGCAGCAGCGGCGACTTGTTGCTGGACCGCGTGGGTCTGCGCCAACTCCTCAGCAAGGACCTCGAGGAATCCGACGCCGAACTCATCAAGGATCGCTACCCGGAACTGACCAAGCTTTATCTGGAAGATGAAGAAGCGCCGGCCTATGTCGGCTTCGACACCGACTTCCATCTCGAAGACCCGCAGAACCTCGCCCAGGCCTGGGCCAACAGCGCACAGGCAACTCACATGATGCAACTGAACCACGGCCTGGGCACCATCACTGTGCTCACTGACGCCGAGCTTTGGAAGAACGACCAGATCGACCAATACGACAACGCCTGGCTGCTCTGGTACCTGAGTGCCGACACGAATGTGACGCTGCTGTTCGACATCGAGCACGACAACCTGCTGACCCTGCTACTGCGCTATTTCCCCCAGGCCCTGGTGGCGCTGCTGGTCCTGATCGGGCTGTGGTTCTGGCGCTCGGCGGTGCGGCATGGCCCGTTGCAACAACCCGCCCCCAAGGCGCGACGGCAGTTACTGGAACACCTGCAGGCCAGCGCCGCGTTCCAGCTGCGCCACCACGGCCGGCAACACCTGTTGCAAGGTTTGCAGCATGACGTGTTGCGCCGGGCGCGCCAGCTTCATCCAGGTTACGAACGGCTGGTCGTCGCCGAACAATGGCAAGTGCTTGCACGCCTGACCCGCCAACCCACGCGAACCATCAGCCAGGCCCTCAGCCCCCGGCCGGCGCAGCGCATGTCCAGCACTGAGTTCTGCCGCCAGGTTGCCCTTTTGCAAACTCTCAGGAATGCCTTATAG	MSRRAGWLVAALVAALVCAVGVYLSTKAVPYQETIDHGPSPEAQANPYLAAEHFLRRHGVEVDHANSLDVLPGLEPHQRSLLLLGERSDMTPREADQLMNWTRAGGRLLFVAEALWDDSTSSSGDLLLDRVGLRQLLSKDLEESDAELIKDRYPELTKLYLEDEEAPAYVGFDTDFHLEDPQNLAQAWANSAQATHMMQLNHGLGTITVLTDAELWKNDQIDQYDNAWLLWYLSADTNVTLLFDIEHDNLLTLLLRYFPQALVALLVLIGLWFWRSAVRHGPLQQPAPKARRQLLEHLQASAAFQLRHHGRQHLLQGLQHDVLRRARQLHPGYERLVVAEQWQVLARLTRQPTRTISQALSPRPAQRMSSTEFCRQVALLQTLRNAL				NA	NA	NA	NA	NA
D1-35_01531	1557			hypothetical protein	ATGCGCCTGAGTGACGCCAGCGTTGTCATCCGCCCCCGCACCACCTGGGAAGCCATGGACCTCGGCGTGCTGATGAGCCAGCAGCACCGACGGCTGCTGATGACCAGTTGGGCCATCGTCACGCTACCGGTGTATGCGCTGCTGACCCTGTTGCTGTGGGACTCGCCGTCGCTGGTAGTCATTGTGTTCTGGTGGCTGAAACCGGCCTTCGACCGCCTGCCCCTGTTCATTTTGTCCAAGGCCCTGTTTGGCGAGCCGCCTACGCTGAAGCAGGCGTTGCGCCAATGGCTCGCGCTGCTCAAGCCGCAATTGCTGGCCAGCCTGACCTGGCGACGGCTGAGCCTGAACCGCAGCTTCCTGATGCCGGTGGTGCAACTCGAAGGCCTGACCGGCGAGGCGCGCGAGCAACGTTTGCGCGTCCTGCTGCAGCGCAACGGCGGCGCGGCGCAGTGGCTGACCATCATCGGCGTGCACCTGGAAACCGCGCTGTGGTTCGGCCTGATGGCGCTGTTCTATCTGTTCATACCGCAACAGGTCGAGCTGGAATGGGACTGGCAGACCCTGATCGCCGTGGCTGAGCACGACTGGCTGTGGCTCGAACACCTGGTCAACTTCCTGTATCCACTGTTGCTGATCTTCTGGGAACCGGTTTACGTCGCCTGTGGCTTCAGCCTCTACCTGAACCGCCGCACGATTCTCGAGGCCTGGGACATCGAACTGGTATTCCGGCGCCTGCGCCAGCGCCTGGCCGGCACGGCCCCGGCGCTGTTGCTGCTGGCAATGACGCTGCTGCCGTTGGCGCCACCTGCCTGGGCCGCGCAGGACGACAACGGTCCCGACAGCCCGCGCTTGCTCCACCAGCCGCTGACCAGCGAGGCCTCTCGGGAAAGCATTGAAGCGATTCTCGAAGCGCCGCCATTCAAGAATCCGGAAACGATCACCCGCTATCGTTTCGGCGAAGAAGCCGAAAAACCAGCCGAATCAGCCGAACCAGCTGAAACCGATGGAGCGCCGGGCTGGCTCAAATCGCTGTTCGAATGGCTGTCGAAAAAACGCTTCGAGGGTATTGCCGCGCTGATCCAGGTGCTGCTCTGGGCGGCCCTGTTGACGGCCATCGCCTGGCTGGCCTGGCATTACCGCCATAGTCTCAAGACCCTGGCGAACCGTAGGCCAGCACAGCGCATGCATTCGAAACCCGCTGCGCCGGTGCAGATGTTCGGCCTGGATATTCGCGAAGAGAGCCTGCCGGAAGATGTGGCGAGCCGCGCCGAGCAGTTATGGTCCACCGCGCCTCGCGAGGCGTTGGGTTTGCTCTATCGAGCCTTGCTCAGCCGATTGCACCATGAATTCGCCATCCCCCTGAAACCCGCGGACACGGAAGGCCAGGTGTTGCAGCGCGTCGAACGACTCCAGCAGCCGGACCTGCTGGTCTTCAGCAAAAACCTGACCCAGCACTGGCAAAACATCGCCTACGGGCACCGTCCACCAGCGCCGCATCTGCAACGAGAGCTGTGCGATGGCTGGCGCGGCCTGTTCGGTCCGGGAGTTTCCCGATGA	MRLSDASVVIRPRTTWEAMDLGVLMSQQHRRLLMTSWAIVTLPVYALLTLLLWDSPSLVVIVFWWLKPAFDRLPLFILSKALFGEPPTLKQALRQWLALLKPQLLASLTWRRLSLNRSFLMPVVQLEGLTGEAREQRLRVLLQRNGGAAQWLTIIGVHLETALWFGLMALFYLFIPQQVELEWDWQTLIAVAEHDWLWLEHLVNFLYPLLLIFWEPVYVACGFSLYLNRRTILEAWDIELVFRRLRQRLAGTAPALLLLAMTLLPLAPPAWAAQDDNGPDSPRLLHQPLTSEASRESIEAILEAPPFKNPETITRYRFGEEAEKPAESAEPAETDGAPGWLKSLFEWLSKKRFEGIAALIQVLLWAALLTAIAWLAWHYRHSLKTLANRRPAQRMHSKPAAPVQMFGLDIREESLPEDVASRAEQLWSTAPREALGLLYRALLSRLHHEFAIPLKPADTEGQVLQRVERLQQPDLLVFSKNLTQHWQNIAYGHRPPAPHLQRELCDGWRGLFGPGVSR				NA	NA	NA	NA	NA
D1-35_01532	975			hypothetical protein	ATGAAACAAAGCCTTTTCGAAAAACGTCATCAAGAGGAATGGGACCGTCTGTCCCAACAGCTCGACCAATTGGAGCGCAGCCGCAACGTCGCGCAGAGCAGCGATTTCCCCAATGCCTATCGACGCCTCTGCCACCACCTGACGCTGGCCCAGGCCAGGGGCTACAGCAGCCTCTTAATAGACGCGTTGCAGCAATTGGCCCTGCGTGGTCACCAGCAACTCTACCGGGACCGCGGCCGGTTCTCGGCCAGCCTGTCAACCTTCATTCTGGCCGGTTTCCCCCGACTGGTTCGTGAGCAATGGCGTTTCGTGCTGGCGGCGGCCTTGATGTTCCTTGGTAGCCTGGTCGGCATCGGGCTGCTGGTCTACCTGTTCCCCGAACTGGTCTACAGCGTGTTGAGCGTCGAAGAAGCCAGCCAGATACGCGGCATGTACGACCCTGCCGCCGGCCACCTGGGGCGCTCGATCGAGCGGGCCGCCAGCGAAGACTGGGTCATGTTCGGCTATTACATCATGCACAACATCGGTATTGCCTTTCAGACGTTCGCCAGCGGCTTGCTGTTTGGCCTGGGCAGCGCATTCTTCCTGTTCTTCAACGGCCTGACCATTGGCGCGGTGGCCGGGCACCTGACCCAGATCGGTTCGGGATCGACGTTCTGGTCATTCGTGATCGGTCACGGCGCCTTCGAACTCACTGCCATCGTCCTGGCCGGCGCGGCGGGCCTGTTGCTCGGTTGGGCACTGATCGCGCCGGGGCGTCTCACCCGAGGCGAAGCGTTACGGCTCGCCGCCGGCAAAAGCGTGCTGATCATCGGCGGCGTGGTGCTGTTGCTGCTCATCGCCGCGTTCGTCGAGGCCTACTGGTCCTCCAGCGCGGTGACACCCACCACCAAATACATCGTCGGCGCCTTGTTGTGGCTGCTGGTGCTCGGGTATCTGCTGTTTGCCGGACGAGGCCACCATGCGCCTGAGTGA	MKQSLFEKRHQEEWDRLSQQLDQLERSRNVAQSSDFPNAYRRLCHHLTLAQARGYSSLLIDALQQLALRGHQQLYRDRGRFSASLSTFILAGFPRLVREQWRFVLAAALMFLGSLVGIGLLVYLFPELVYSVLSVEEASQIRGMYDPAAGHLGRSIERAASEDWVMFGYYIMHNIGIAFQTFASGLLFGLGSAFFLFFNGLTIGAVAGHLTQIGSGSTFWSFVIGHGAFELTAIVLAGAAGLLLGWALIAPGRLTRGEALRLAAGKSVLIIGGVVLLLLIAAFVEAYWSSSAVTPTTKYIVGALLWLLVLGYLLFAGRGHHAPE				NA	NA	NA	NA	NA
D1-35_01533	726			hypothetical protein	ATGCTCGAGACACCAGCATTGCAAAGGAACGCGCCGCTGCCCGCGCCACTGGACACGCGTTACCAGGTCGAGACGCCCGAGGGCATCGACCTGCCGCTGCGCCCGGCGGGGTTGATGCCTCGCGCCCTGGCCTTTGCCATCGACCTCGGCATACGGGGGCTGGCCTTGGGCCTGCTGTTCCTGATCCTGGCGTTTTTTGGCGAACTGGGCGTCGGCCTGGGCTCGATCCTGCTGTTTGTCATCAGCTGGTGGTACATGGTGCTGTTCGAGGTGCTGAACCAAGGGCGTTCCCCCGGCAAGCAGATCATGGGTTTACGCGTCGTGCAGGATGACGGCCGGCCTGTCGACTGGTCGGCCTCGCTGATCCGCAACCTGCTGCGCTTCGTCGACATGCTGCCCTTCGGCTATGCGTTCGGGGCGATTACCTGCCTGCAGCATCCAGCGTTCAAGCGCCTGGGCGACCTGGCGGCCGGGACCCTGGTGGTTTATCGCGAACAAGCGATCAAACGCCCCATCCTGCCATCGGCCCGACCGATACGGCCACCTTTTGTCCTCGACCTCAACGAGCAGCGTGCCGTGCTGGGCTTCGCCGAGCGCCAGGCAGAACTGTCCGGTGCCAGGGTCACCGAACTGGCGACGATCCTCGCCGCGCCGCTGAAGGTTCACCCTTCCGGCGCCGTGGCCGAACTCAATGGCATCGCCCGCGGCCTGCTGGGGCCGACATGA	MLETPALQRNAPLPAPLDTRYQVETPEGIDLPLRPAGLMPRALAFAIDLGIRGLALGLLFLILAFFGELGVGLGSILLFVISWWYMVLFEVLNQGRSPGKQIMGLRVVQDDGRPVDWSASLIRNLLRFVDMLPFGYAFGAITCLQHPAFKRLGDLAAGTLVVYREQAIKRPILPSARPIRPPFVLDLNEQRAVLGFAERQAELSGARVTELATILAAPLKVHPSGAVAELNGIARGLLGPT				NA	NA	NA	NA	NA
D1-35_01534	1428	sbcB	COG2925	Exodeoxyribonuclease I	GTGACCTCCATTTTCTGGTACGACTACGAAACCACCGGCATCAATCCGCGTTGCGACCGCCCCTTGCAGGTGGCCGGGATACGTACCGATTTCGAACTCAATGAAATCGATGAACCGGTGAACCTGTACTGCCGGCCCAGCGATGACATCCTGCCCCATCCGGCCGCATGCGCGATCACCGGGATCACACCGGCCTGCCTGGCGGAAAAAGGCTTGAGCGAGGCCGATTTCATGACCCGCGTCCATGCGCAACTGGCCGCGCCCGGGACCTGTGGCGCCGGCTACAACACGCTGCGCTTCGATGACGAGATGACCCGCTACAGCCTTTATCGGAATTTCTTCGACCCGTACGCTCGGGAATGGCAGGGGGGCAACAGTCGCTGGGACCTGATTGACCTGGTGCGGGCCGCCTATGCGTTGCGCCCCGATGGGATTGTCTGGCCGCAGGAGGAGGGGCGCGTCACCCTCAAGCTCGAACGCCTGACCGCCGCCAACGGCATCGACCATGGCCAGGCCCATGATGCGCTGTCGGATGTACGTGCAACGATTGCCCTGGCCCGGTTGATCCGTCAGAAACAACCCCGGCTTTACGACTGGCTGTTCCAGTTGCGCACTAAACAGAAAGTGATGGACCAGGTCCGCCTGCTACAGCCCATGGTGCACATCTCCGGGCGCTTCTCGGCGGCGCGAAACTACATCGGCGTGGTCCTGCCGCTGGCCTGGCATCCGAAGAACCGCAACGCCCTGATCGTCTGCGATCTGCATCTGGATCCTCAAGGGCTGCTGGACCATGACGCCGAAATCCTGCGCCAACGCTTGTATACCCGCCGTGAAGAGTTGTTGGAAGGAGAATTGCCCGTACCCCTCAAGCTTATTCATATCAACAAGTGCCCGGTGGTCGCGCCGCTGTCAGTCCTGCGCGACGAGGACCAGCAACGCCTGCAACTGGACATGGAGGGTTATCGCCAGCGGGCGCTGCGGCTAAGTGACGCACAGCAAGTCTGGCACGATAAACTCCAAGCGATTTATGGTCGCGAGGATTTCACTGCGAGCGAGGACCCCGAACAACAGTTGTACGCTGGATTCATGGGTGATCGTGATCGGCGTTTGTGCGAACAAGTGCGCCAGGCAGATCCCGACCAGTTGGCGGGGGAACGTTGGCATTTCGATGATGAGCGCCTGCCGGAATTATTATTCCGATACCGGGCCCGTAACTTCCCCGACACCTTGAGCAGCGAAGAGCAGGCACGCTGGAAACTATTTTGCCAGCAGCGACTGAAATCACCGGAGTGGGGGGCGCCTAATACCCTGGCAAGTTTTGATGAGGCGATGACGCAGTGGCTGGCGCTTTCCAGCCCAATGCAGCAAGAGGTGCTGACTCAATGGCAGGGCTATAGCCAGCAATTGCGCAAACGTTTAAGCCTTTGA	MTSIFWYDYETTGINPRCDRPLQVAGIRTDFELNEIDEPVNLYCRPSDDILPHPAACAITGITPACLAEKGLSEADFMTRVHAQLAAPGTCGAGYNTLRFDDEMTRYSLYRNFFDPYAREWQGGNSRWDLIDLVRAAYALRPDGIVWPQEEGRVTLKLERLTAANGIDHGQAHDALSDVRATIALARLIRQKQPRLYDWLFQLRTKQKVMDQVRLLQPMVHISGRFSAARNYIGVVLPLAWHPKNRNALIVCDLHLDPQGLLDHDAEILRQRLYTRREELLEGELPVPLKLIHINKCPVVAPLSVLRDEDQQRLQLDMEGYRQRALRLSDAQQVWHDKLQAIYGREDFTASEDPEQQLYAGFMGDRDRRLCEQVRQADPDQLAGERWHFDDERLPELLFRYRARNFPDTLSSEEQARWKLFCQQRLKSPEWGAPNTLASFDEAMTQWLALSSPMQQEVLTQWQGYSQQLRKRLSL				NA	NA	NA	NA	NA
D1-35_01535	378			hypothetical protein	ATGTCCCTGATCACCGAATACAACGCTACAAAACAAGCCATTGAAGAACTGCAACAACGTCTGGCCGACCTGTCCAAAGACGACAAACTGCAAAAAGAACTGGAATTCGAAGGCAAACTGCGCACGCTGATGGGTGAATACTCCAAGTCCCTGCGCGATATCATTGCCCTGTTGGATCCAGAGTCCAAGTCGAGCAAAGCCCCGCGTGGCGCTGTGAAAACTACCGGCACCAAGCGCGCTCGCAAAGTTAAGCAATACAAGAACCCGCACAACGGTGAAGTCATCGAAACCAAAGGTGGCAACCACAAGACTCTGAAAGAGTGGAAAGCCAAGTGGGGCGGCGACGTGGTTGAAGGCTGGGCGACCCTGCTGGGCTAA	MSLITEYNATKQAIEELQQRLADLSKDDKLQKELEFEGKLRTLMGEYSKSLRDIIALLDPESKSSKAPRGAVKTTGTKRARKVKQYKNPHNGEVIETKGGNHKTLKEWKAKWGGDVVEGWATLLG				NA	NA	NA	NA	NA
D1-35_01536	849	purU_1	COG0788	Formyltetrahydrofolate deformylase	ATGCGCACTTTTCGGCTGGTGATCGCTTGCCCGGACCGCGTCGGTATCGTTGCTAAAGTCAGTAACTTTCTGGCGTCCCATAACGGCTGGATCACTGAAGCAAGCCACCATTCGGACAATCAGAGTGGTTGGTTTTTCATGCGTCACGAGATACGCGCCGACTCGCTGCCCTTCGGCATCGAAGCCTTCCGCGCGGCATTCGCCCCGATTGCCGAAGAGTTTTCGATGGACTGGCGTATCACCGATACCGCGCAGAAAAAGCGCGTAGTGCTGATGGCCAGTCGTGAGTCCCACTGCCTGGCTGATCTGTTGCACCGCTGGCACAGCGATGAGCTCGATTGCGACATCGCCTGTGTCATTTCCAACCATGACGACTTACGCAGCATGGTGGAATGGCACGGCATCCCGTACTACCACGTACCGGTCAACCCGCAGGACAAGCACCCGGCGTTCGCCGAGGTCTCGCGGCTGGTCAAGCAGCACGACGCCGAGGTGGTGGTACTGGCCCGCTACATGCAGATCCTGCCGCCGTCGCTGTGCAGCGAATACGCGCATAAAGTCATCAACATCCATCACAGTTTCCTGCCGTCGTTCGTCGGTGCCAAGCCTTACCACCAGGCCTCGATGCGCGGTGTGAAGCTGATCGGCGCCACGTGCCACTACGTGACCGAAGAGCTGGACGCCGGCCCGATCATCGAGCAGGACGTCGTCCGTGTCAGCCACAGCGACAGCATTGAAGACATGGTGCGCTTCGGCCGCGACGTGGAAAAAATGGTCCTGGCGCGCGGCTTGCGCTATCACTTGGAAGACCGCGTACTGGTGCACGGGAACAAGACCGTGGTCTTCTGA	MRTFRLVIACPDRVGIVAKVSNFLASHNGWITEASHHSDNQSGWFFMRHEIRADSLPFGIEAFRAAFAPIAEEFSMDWRITDTAQKKRVVLMASRESHCLADLLHRWHSDELDCDIACVISNHDDLRSMVEWHGIPYYHVPVNPQDKHPAFAEVSRLVKQHDAEVVVLARYMQILPPSLCSEYAHKVINIHHSFLPSFVGAKPYHQASMRGVKLIGATCHYVTEELDAGPIIEQDVVRVSHSDSIEDMVRFGRDVEKMVLARGLRYHLEDRVLVHGNKTVVF	PGPT0008155_2982	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433	NA	NA
D1-35_01537	180			hypothetical protein	ATGACCGATCCCTTGGACAAAGCCACCGCCAGAGCGCCGGCAACCGTGGGCGAGGGTTGCCTGAGTCGCTACGATCCCGAAGCGCTGGGCCCGGAAGACGGCACCGAATTTCCCGACGCCGCCCAGCTGTGGGAAGAGCTGCACGAGCAGCCCCAGGACGATCCCGAGTCCAAGGACTGA	MTDPLDKATARAPATVGEGCLSRYDPEALGPEDGTEFPDAAQLWEELHEQPQDDPESKD				NA	NA	NA	NA	NA
D1-35_01538	996			hypothetical protein	ATGAAACGGCTGGTCTGGTTAGGCGCCGCCCTGTTGATTGCGGTATTGGTCCCGATGCTCGTGGGCGGCGGGGAAATGTGGTCGCGGCTGCAGCGCTTTCCGCTGTCCTTGCTGCTGGTCATGCTTGGCATGATCGTACTCTGCTGGGGCCTCAACTCGGTGCGCCTGCGCTTGCTGCTGGGTGAACACCGTGGGCGCATAGGCGGGTTGAAAAGCATTGGCGTGGTGATGTCCACCGAGTTCGCGATGTGCGCGACACCCGGCGGCAGTGGCGGGCCGCTGACGCTGATGGCGCTGCTCGCGCGCAACGGCGTGCGCCCCGCCCATGGCAGCGCGGTGTTCGCCATGGATCAGTTGAGCGACCTGCTGTTTTTTCTCTGCGCCTTGTTGGGCATCCTGTTTTATGCACTTTTCCAGAATCTCAGCCAGCGCATGGAATGGATGCTGGGGCTGAGCGCGGTTTCATTGTTCGGCGGGCTCTTTTGCTGCGCGCTGGTGGCCCGCTACCATCGCAGGCTGATTCTCCTGGGTGCACGGCTGTTGCGGCATTTGCGAGTGAAGCCGGTGACCCGTCGACGCTGGGGACGCAAGATCCTGAATTTCCTCGCGGCATTTACCGACACTCTGAAATTGCCACGCCAGACGCTGTTCCAGGTGTTCGTCTTGACCTGCCTGCACTGGGTCCTGCGCTACAGCGTGCTGTACCTGGCATTAAAAGGACTCGGGGCGGATCTGCAATGGGCCTGGAGTTTCCTGATCCAGATGCTATCCCTCAGCGCTGGGCAGTTCAGCCTGTTGCCGGGCGGCGCCGGAGCGGCGGAGTTGACCTCGGCGGCGTTGCTGGCACCGATGGTGGGCAAATCCACCGCGGCGGCAGCGATCCTGATCTGGCGGGCGGTGACGTATTACTTCTATCTGCTGGCAGGAGGACCGGTGTTCTTCATGATGGTCGGGCGACCTTTGATCAAGAAGCTGATGAAGCTGCGGCAAGCCTGA	MKRLVWLGAALLIAVLVPMLVGGGEMWSRLQRFPLSLLLVMLGMIVLCWGLNSVRLRLLLGEHRGRIGGLKSIGVVMSTEFAMCATPGGSGGPLTLMALLARNGVRPAHGSAVFAMDQLSDLLFFLCALLGILFYALFQNLSQRMEWMLGLSAVSLFGGLFCCALVARYHRRLILLGARLLRHLRVKPVTRRRWGRKILNFLAAFTDTLKLPRQTLFQVFVLTCLHWVLRYSVLYLALKGLGADLQWAWSFLIQMLSLSAGQFSLLPGGAGAAELTSAALLAPMVGKSTAAAAILIWRAVTYYFYLLAGGPVFFMMVGRPLIKKLMKLRQA				NA	NA	NA	NA	NA
D1-35_01539	768			hypothetical protein	ATGACCGCTCAATCCAGCCTGCTGCTGGTGCTGCACGATGTCGCACCGCAAACCTGGCCCGACTACCAGCCCTTCGTCGAAGCCGTCGACGCCCTCGGCCAGGTGCCGATGACCTGGCTGGTGGTGCCGGACTTCCACCACGCCAACGCGCTCGACGGACATCCCGGCTTCCGGCGCATGCTCGACAGCCGGGTCGAACGCGGCGATGAACTGGTGCTGCACGGTTATTACCACTGTGATGACGGTCCGCCGGCGCTTCATCCCAAGGACTGGTTCATGCGCCGGGTCTATACCCATGAAGGGGAGTTCTACGGTCTGTCCGAGGAAGCGGCCCTCGCCCGCCTTCGCGCCGGCATCGAAATCTTTCAGCGCTACCAGTGGCCGCTGGAAGGCTTCGTCGCGCCGGCCTGGCTGATGAGCGAGGGCACGCGCCAGGCCTTGCGCCAGTTGCCGTTGAGTTATACCAGCGACACCCAGCACCTCTACCGCTTGCCGGAGTTCACCCCGATCGATGCCCCGGGGCTGGTTTGGAGCGCCCGCAGCGCCTGGCGTCGAGGCCTGTCAAAAGTCATCAGCGACCGGCGTGAACAGCGCTGGCGCCAGGCACCGGTCATTCGCCTGGGCCTGCACCCGGTAGACATGCGCCACGGATTTTCCCGCAACTACTGGCTGCGAACCCTGGAGCGCCTGCTTGAGGACGGGCGCGTGCCGATGACCAAGATCGACTGGCTGGCGTCACTGCGCCAGCCAGTCAGCAGTGCCGCATGA	MTAQSSLLLVLHDVAPQTWPDYQPFVEAVDALGQVPMTWLVVPDFHHANALDGHPGFRRMLDSRVERGDELVLHGYYHCDDGPPALHPKDWFMRRVYTHEGEFYGLSEEAALARLRAGIEIFQRYQWPLEGFVAPAWLMSEGTRQALRQLPLSYTSDTQHLYRLPEFTPIDAPGLVWSARSAWRRGLSKVISDRREQRWRQAPVIRLGLHPVDMRHGFSRNYWLRTLERLLEDGRVPMTKIDWLASLRQPVSSAA				NA	NA	NA	NA	NA
D1-35_01540	1092	mgtA_2	COG0438	GDP-mannose-dependent alpha-mannosyltransferase	ATGTTCTACGCCCCCGCCAGCGGAGGTGTACGCACTTATCTGGATGCCAAGCACCGGCGCCTGGGCAATCGGCCGGGTATTCGCCACAGCCTTCTGATCCCCGGCGCGCATTTGAGCGAGCAGGATGGGATCTACAAGGTCCCGGCCCCTCCGCTGCCCTTTGGCAAGGGCTACCGCTTCCCGCTGCGCCTGGCCCCTTGGCGTAACGTCCTGCGCGACTTGCAGCCCGACCTGATCGAGGTCGGCGACCCTTACCTGACCGCCTGGGCGGCACTGGATGCCCGGCGACAGCTGGACGTGCCCGTGATCGGCTTTTATCACTCCGACCTGCCGTTGTTGGTAAGCAACCGCATGGGCAACTGGTTCACGCCCAATATCGAAGCCTATGTCAGCAAACTGTACGGCAACTTCGACCGGGTGCTCGCGCCGAGCCAGGTCATGGCCGACAAACTCACCGGGCTTGGGGTCAAAAATGTTTACGTGCAGCCGTTGGGGGTAGACCTGCAGACCTTCAATCCCGCCGCTCGCGACCCGGAACTGCGGGCCGAACTCGGCATCGCCGAAGACGCGCGCCTGCTGATTTTCGCCGGTCGCGGCTCCAAGGAAAAAAACCTGCCGGTGCTGCTCAAATGCATGCAACGCCTGGGCGAACGCTATCACCTGCTGCTGGTGGGCTCTTCGATGCCAGCCGTGGTGCCGGACAACGTCACGGTGATCGACGAATTCTGCCCGGCTGCGCAAGTCGCCCGGCTGATGGCCAGCGCCGACGCCCTGCTGCACGCAGGCGACCAGGAAACCTTCGGCCTGGTAATCCTCGAAGCGATGGCCAGCGGCATCCCGGTGGTAGCGGTCGCGGCAGGCGCCTTCAATGAAATCGTCCACGAGGACTGTGGCCTGCTGTGCGCGCCCGACAATCCACAGGCGATGGCCAATGCCGTTCGGCAACTGTTCGCCGAAGGCTGCCAGCAGCGCGGCGCAAAAGCACGCCGACATGTAGAACGGCATTACGCCTGGGATTCGGTGGTCAATAGTCTGTTGGGCCACTATTACAGCGTGCTCGGCGCAGAAATGCCCCTGCTGGCCAATGGTTGA	MFYAPASGGVRTYLDAKHRRLGNRPGIRHSLLIPGAHLSEQDGIYKVPAPPLPFGKGYRFPLRLAPWRNVLRDLQPDLIEVGDPYLTAWAALDARRQLDVPVIGFYHSDLPLLVSNRMGNWFTPNIEAYVSKLYGNFDRVLAPSQVMADKLTGLGVKNVYVQPLGVDLQTFNPAARDPELRAELGIAEDARLLIFAGRGSKEKNLPVLLKCMQRLGERYHLLLVGSSMPAVVPDNVTVIDEFCPAAQVARLMASADALLHAGDQETFGLVILEAMASGIPVVAVAAGAFNEIVHEDCGLLCAPDNPQAMANAVRQLFAEGCQQRGAKARRHVERHYAWDSVVNSLLGHYYSVLGAEMPLLANG	PGPT0024305_363	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PHOSPHATIDYLINOSITOL_MANNOSIDE_REMODELLING	CE-REMODELLINGPHOSPHATIDYLINOSITOL_MANNOSIDE_BIOSYNTHESIS,PGPT0024305-pimC-K14335	NA	NA
D1-35_01541	1488			hypothetical protein	ATGCCTGATTCATCGCAACTCGTTATCGGGGCCGACCTGGCCGGCCAACCTGTCGCCCAGGCCATGCGCCTGGCCAATCGTCATGGGCTGGTGGCGGGCGCCACCGGCACCGGCAAGACCGTCACCTTGCAGCGCCTGGCCGAGATGTTCAGCGATGCCGGCGTGGCGGTGTTCGCGGCGGACATCAAGGGTGACCTGTGCGGCCTCGGCGCCGCCGGCAATCCCCAAGGCAAGATCGCCGAGCGCATCGCCGGCATGCCCTGGCTCGGCCATGAGCCCCAGGCCTATCCGGTGACCTTGTGGGATATCCACGGCCAGTCCGGTCATCCGCTGCGCACGACGTTGAGTGAAATGGGCCCGTTGTTGCTCGGCAGCCTGCTGGAACTGACGGACAGCCAGCAAGCGGCGTTGTATGCGGCGTTCAAGGTCGCCGACCGCGAGGGCCTGTTGCTGCTCGACCTCAAGGACCTGAAGGCGCTGCTCAATCACCTCAAGGACAACCCTGAATTGCTCGGGGACGACGCGGCCCTGATGACCACCGGTTCCAGCCAGGCCTTGATGCGCCGACTGTCCACCCTGGAACAGCAGGGCGCGGACGCCTTGTTCGGCGAACCGGCGTTGCAGCTTGAAGACATCCTGCAACCGGCCAGTGACGGCCGTGGCCGCATTCATCTGCTGGACGCCAGTCGCCTGGTCCATGAAGCGCCGAAAGTCTACGCGACATTCCTGCTGTGGCTGCTGGCCGAGCTGTTCGAGCAACTGCCCGAGCGCGGCGATGCGGACAAACCCTTGCTGGCGTTGTTTTTCGATGAGGCACATTTGTTGTTCGCCGGCACGCCCAAGGCATTGCAAGAGCGCCTGGAACAAGTGGTGCGGCTGATCCGCTCCAAGGGCGTCGGGGTGTATTTTGTCACCCAGTCGCCGGGCGATCTGCCGGACGACGTGCTCGCGCAGCTGGGGTTGCGCATCCAGCATGGTCTGCGGGCGTTCACCGCCAAGGAACAGAAATCCCTGCGGGCGGTGGCTGACGGTTTTCGACCAAATCCGCAATTCGATGCCCTGGCGGTGCTGACCGAGCTGGGCATCGGTGAAGCGTTGGTCGGCACCTTGCAGGAAAAAGGCACGCCGGAAATGGTCCAGCGTGTGCTGGTGGCGCCGCCGCAGTCGCGCATCGGGCCGTTGACCGCGGCCGAGCGTGCCGGGCTGATCGCCAGCTCACCGTTGCAGGGCCGTTATGACAAACCCATCGACCGCGAGTCGGCCTATGAAGTGCTGATGGGGCGCAAGGGGCTGGAGCCGCAGGCCGAAGCCGCGCCAGGCAAACCGGCGACCGAGGAACCGAGCTTCACCGAAAAGGCCGGGGAATTCCTCGGCACCGCGGCCGGCCAGGCGCTGAAATCGGCGATGCGCCAGGCGGCCAATCAGTTGGGCCGGCAGTTGGTGCGTGGGTTGATGGGGTCGTTGCTGGGGGGCAGCAAGCGGCGGTAG	MPDSSQLVIGADLAGQPVAQAMRLANRHGLVAGATGTGKTVTLQRLAEMFSDAGVAVFAADIKGDLCGLGAAGNPQGKIAERIAGMPWLGHEPQAYPVTLWDIHGQSGHPLRTTLSEMGPLLLGSLLELTDSQQAALYAAFKVADREGLLLLDLKDLKALLNHLKDNPELLGDDAALMTTGSSQALMRRLSTLEQQGADALFGEPALQLEDILQPASDGRGRIHLLDASRLVHEAPKVYATFLLWLLAELFEQLPERGDADKPLLALFFDEAHLLFAGTPKALQERLEQVVRLIRSKGVGVYFVTQSPGDLPDDVLAQLGLRIQHGLRAFTAKEQKSLRAVADGFRPNPQFDALAVLTELGIGEALVGTLQEKGTPEMVQRVLVAPPQSRIGPLTAAERAGLIASSPLQGRYDKPIDRESAYEVLMGRKGLEPQAEAAPGKPATEEPSFTEKAGEFLGTAAGQALKSAMRQAANQLGRQLVRGLMGSLLGGSKRR				NA	NA	NA	NA	NA
D1-35_01542	456			hypothetical protein	ATGGCCTTTCGCCCTCTTCCAGCCAAGGCGCCCGCCGTTCTGCTGCGCGAAGCCAAGCCGCTGAAAGCCATCTTCGGCCACGCCAGACGCCTGGGGCACCTGCAGCGCCTGCTCGACAGCCAGCTACAGCCCGCTGCGCGCGAGCATTGTCACGTAGCGTCCTGGCGGGAAGGCAGTTTGTTGCTGATCGTCACCGACGGTCACTGGGCCACGCGCCTGCGCTACCAGCAAAAGCGCCTGCTGCGCCAATTGCAGGCATTCGAGGAGTTCGCCAACCTGACGCGAATCCTGTTCAAGGTCCAGCCGCCCACGGTGCAAGTCGGCGCCAAGGGTCATACGCTGGATCTGTCCACCGACGCTGCTGCCACCATCCAGGCCACGGCCGATGGCATCAGCGACCCCAACCTGCGGGCAGCCCTGGAGCGATTGGCGGCCCATGCGCGGCCCAAGGATTGA	MAFRPLPAKAPAVLLREAKPLKAIFGHARRLGHLQRLLDSQLQPAAREHCHVASWREGSLLLIVTDGHWATRLRYQQKRLLRQLQAFEEFANLTRILFKVQPPTVQVGAKGHTLDLSTDAAATIQATADGISDPNLRAALERLAAHARPKD				NA	NA	NA	NA	NA
D1-35_01543	2742	secA	COG0653	Protein translocase subunit SecA	ATGTTTGCGCCTTTGTTAAAGAAACTTTTTGGAAGCAAGAACGAGCGTGAAGTCAAACGCATGCTCAAGACGGTACAGATCGTCAATGCCTTCGAAGAGCAAATGGTGGCCCTTTCGGACGATCAGTTACGCGCCAAGACCGCCGAATTCAAGGACCGCATCGCCAAGGGCGAGACCCTTGACCAGATCCTGCCCGAAGCTTTCGCGGTCTGCCGTGAAGCCGGCAAGCGGGTCATGGGCATGCGCCACTTCGACGTCCAGTTGATCGGCGGCATGACCTTGCACGAAGGCAAGATCGCCGAAATGCGCACCGGTGAGGGCAAGACCCTGGTGGCGACCCTGGCGGTATATCTCAACGCACTGTCCGGCAACGGCGTGCACGTGGTGACGGTCAACGACTACCTGGCCCGCCGCGACGCCAACTGGATGCGCCCGCTCTATGAATTCCTCGGCCTGACGGTCGGCGTGGTCACGCCGTTCCAGCCGCCGGAAGAGAAGCGCGCGGCCTACGCCTCGGACATCACCTACGGCACCAACAACGAATTCGGTTTCGACTACCTGCGCGACAACATGGCGTTCAGCATGGAAGAAAAATTCCAGCGCGAACTCAACTTTGCCGTGATCGACGAAGTCGACTCCATCCTCATCGACGAAGCCCGTACGCCGCTGATCATTTCCGGCCAGGCCGAAGACAGCTCCAAGCTGTACATCGAGATCAACAAGCTGATCCCGCAGCTCCAGCTGCACGTCGAAGAAGTCGAAGGCGAAGTGACCCAGCCCGGCCACTACACCGTCGACGAGAAGACCCGCCAGGTCGAGCTCAACGAATCCGGCCACCAGTTCATCGAAGAGATGCTGACCCGCGTCGGCCTGCTGGCTGAAGGCGAAAGCCTCTACTCGGCCCATAACCTGGGCCTGCTGACCCACGTCTACGCCGGCCTGCGTGCCCACAAGCTGTTCCATCGCAACGTCGAATACATCGTCCAGGACGGCCAGGTCGTACTGGTTGACGAACACACCGGCCGCACCATGCCGGGCCGTCGCCTGTCCGAAGGCCTGCACCAGGCCATCGAAGCGAAGGAAGGCCTGAACATCCAGGCCGAGAGCCAGACCCTGGCCTCGACCACGTTCCAGAACTACTTCCGCCTGTACAACAAACTGTCCGGCATGACCGGTACCGCCGACACCGAAGCGTTCGAATTCCACCAGATCTACGGCCTGCAAGTGGTGGTGATTCCGCCGAACAAGCCGCTGGCGCGCAAGGACTACAACGATCTGGTGTTCCTGACCGCCGAAGAGAAATACGCGGCGATCATCAACGACATCAAGGAAGGCATGGCCCAGGGCCGTCCGATCCTGGTGGGTACCGCGACCATCGAGACCTCCGAGCACATGTCCGCCTTGCTCGCCAAGGAAGGTATCGAGCACAAGGTCCTCAACGCCAAGTTCCACGAGAAGGAAGCCGAGATCATCGCCCAGGCCGGTCGCCCGGGTGCGTTGACCATCGCCACCAACATGGCCGGCCGTGGTACCGACATCCTGCTGGGCGGCAACTGGGAAGTCGAAGTGGCTTCGCTGGAAAACCCGACCCCCGAGCAGATCGCGCAGATCAAGGCCGACTGGCAGAAGCGTCACCAGCAGGTGCTCGAATCCGGTGGCTTGCAGGTGATCGCGTCCGAGCGTCACGAATCGCGCCGTATCGACAACCAGCTGCGTGGCCGTGCCGGTCGCCAGGGCGACGCCGGCTCCAGCCGCTTCTACCTGTCCCTGGAAGACAGCCTGATGCGCATCTTCGCCTCTGATCGGGTGAAGAATTTCATGAAGGCCCTGGGCATGCAGCCGGGCGAGGCGATCGAGCACCGCATGGTGACCAACGCCATCGAGAAGGCGCAGCGCAAGGTCGAGGGCCGCAACTTCGACATCCGCAAGCAGTTGCTTGAATTCGACGACGTCAACAACGAGCAGCGCAAAGTGATCTATCACATGCGCAACAGCCTGTTGGCCGCAGACGACATTGGCGAAACCATCGCCGATTTCCGCCGCGAAGTGCTCGACGCCACTGTCAGCGCACACATTCCGCCGCAGTCGCTTCCGGAGCAGTGGGACGTTGCTGGTCTGGAAGCCTCCCTGCGCAGTGATTTCGGCGTGTCGTTGCCGATCCAGCAGTGGCTCGACGAGGACGATCACCTCTACGAAGAAACGCTGCGCGAGAAACTTCTGACCGAACTGATCGCCGCGTACAACGAGAAAGAAGACCAGGCCGGCGCCGAAGCGCTGCGCTCGTTCGAGAAGCAAATCGTGCTGCGGGTGCTGGACGACCTGTGGAAAGACCATCTGTCGACCATGGATCACCTGCGCCACGGTATCCACTTGCGTGGCTACGCGCAGAAGAATCCGAAGCAGGAATACAAGCGCGAGTCCTACACGCTGTTCTCCGAGCTGCTGGATTCGATCAAGCGCGACTCGATCCGGGTCCTGTCCCACGTTCAGGTTCGCCGCGAAGATCCGGTCGAAGAAGAAGCCCGCCTGCGCCAGGAGGCCGAAGCCCTGGCCGCGCGCATGCAGTTCGAGCACGCCGAAGCTCCGGGCCTGGAAGTGGTCCAGGCGATGGAAGAGGGCGTCGATGTGGACGTGGCACTGGCCACCGCACCGGTACGCAACGAGCAGAAACTGGGCCGAAACGAGCTGTGCTATTGCGGCTCGGGCAAGAAATACAAGCATTGCCACGGGCAGATCCAATAA	MFAPLLKKLFGSKNEREVKRMLKTVQIVNAFEEQMVALSDDQLRAKTAEFKDRIAKGETLDQILPEAFAVCREAGKRVMGMRHFDVQLIGGMTLHEGKIAEMRTGEGKTLVATLAVYLNALSGNGVHVVTVNDYLARRDANWMRPLYEFLGLTVGVVTPFQPPEEKRAAYASDITYGTNNEFGFDYLRDNMAFSMEEKFQRELNFAVIDEVDSILIDEARTPLIISGQAEDSSKLYIEINKLIPQLQLHVEEVEGEVTQPGHYTVDEKTRQVELNESGHQFIEEMLTRVGLLAEGESLYSAHNLGLLTHVYAGLRAHKLFHRNVEYIVQDGQVVLVDEHTGRTMPGRRLSEGLHQAIEAKEGLNIQAESQTLASTTFQNYFRLYNKLSGMTGTADTEAFEFHQIYGLQVVVIPPNKPLARKDYNDLVFLTAEEKYAAIINDIKEGMAQGRPILVGTATIETSEHMSALLAKEGIEHKVLNAKFHEKEAEIIAQAGRPGALTIATNMAGRGTDILLGGNWEVEVASLENPTPEQIAQIKADWQKRHQQVLESGGLQVIASERHESRRIDNQLRGRAGRQGDAGSSRFYLSLEDSLMRIFASDRVKNFMKALGMQPGEAIEHRMVTNAIEKAQRKVEGRNFDIRKQLLEFDDVNNEQRKVIYHMRNSLLAADDIGETIADFRREVLDATVSAHIPPQSLPEQWDVAGLEASLRSDFGVSLPIQQWLDEDDHLYEETLREKLLTELIAAYNEKEDQAGAEALRSFEKQIVLRVLDDLWKDHLSTMDHLRHGIHLRGYAQKNPKQEYKRESYTLFSELLDSIKRDSIRVLSHVQVRREDPVEEEARLRQEAEALAARMQFEHAEAPGLEVVQAMEEGVDVDVALATAPVRNEQKLGRNELCYCGSGKKYKHCHGQIQ	PGPT0025735_2518	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025735-secA-K03070	NA	NA
D1-35_01544	1218	argJ		Arginine biosynthesis bifunctional protein ArgJ	ATGGCTGTTGGTCTTGGTCCGTTGCCAACGTTGCACCCGGTTGCCGGTTTTGAACTTGGTATCGCCTCGGCGGGCATCAAGCGTCCCGGGCGCAAGGATGTGGTGGTCATGCGTTGCGCCGAGGGCTCGACGGTCGCCGGCGTGTTCACGCTCAATGCGTTTTGTGCCGCGCCGGTGATCCTGGCCAAGCAACGCGTGCAAGGGCCGGTGCGTTACCTGCTGACCAACACCGGTAACGCCAACGCCGGCACCGGCGCGCCAGGCCTGGCCGCCGCCGAGCGCACCTGCGCCAGGCTGGCTGAACTGACCGGTGTCGACGCCAGCCAGGTGCTGCCGTACTCCACGGGTGTGATCGGCGAACCGCTGCCGGTCGAAAAAATCGAAGGCGCGCTGCAAGCCGCCCTTGATGGCCTCTCGGAAAACAACTGGGCCGCGGCCGCCACCGGCATCATGACCACCGACACCCTGCCCAAGGGCGCGAGCCGCCAGTTCCAGCACGACGGTGTAACCGTGACCGTGACCGGCATCAGCAAAGGCGCCGGCATGATCCGCCCGAACATGGCGACCATGCTCGGTTACATCGCCACCGACGCCAAGGTCTCCCGCCAGGTGTTGCAGGACCTGATGCTCGACGGCGCCAACAAGTCCTTCAACCGCATCACCATCGACGGCGACACTTCGACCAACGACTGCTGCATGCTGATCGCCACCGGCAAGGCCAACCTGCCGGAGATCACCGAAGCCAGCGGTCCGCTGTTCGCGGCGCTGAAACAGGCGGTGTTCGAGGTGTGCATGGAAGTGGCCCAGGCCATCGTCCGTGACGGCGAAGGCGCGACCAAGTTCGTCACCGTACAGGTCAACGGTGGTGGTAATCACCAGGAATGCCTGGACGTCGGTTATACCGTGGCGCATTCGCCGCTGATCAAGACCGCACTGTTTGCTTCCGACCCGAATTGGGGTCGTATTCTCGCCGCTGTCGGCCGCGCCGGGGTGCCTGAGCTGGACGTGAGCAAGATCGACGTCTTCCTCGGTGATGTCTGCATCGCCAGCCAGGGCGCCCGGGCGACGACCTACACCGAGGCGCAGGGCGCGGCGGTGATGCAGCAGGAGGAAATCACCATCCGCATCGAGCTGGGGCGTGGCGATTGCAGCGAAACGATCTGGACCACCGATCTGTCCCACGAGTACGTCAAGATCAACGCTGAGTATCGGACTTAA	MAVGLGPLPTLHPVAGFELGIASAGIKRPGRKDVVVMRCAEGSTVAGVFTLNAFCAAPVILAKQRVQGPVRYLLTNTGNANAGTGAPGLAAAERTCARLAELTGVDASQVLPYSTGVIGEPLPVEKIEGALQAALDGLSENNWAAAATGIMTTDTLPKGASRQFQHDGVTVTVTGISKGAGMIRPNMATMLGYIATDAKVSRQVLQDLMLDGANKSFNRITIDGDTSTNDCCMLIATGKANLPEITEASGPLFAALKQAVFEVCMEVAQAIVRDGEGATKFVTVQVNGGGNHQECLDVGYTVAHSPLIKTALFASDPNWGRILAAVGRAGVPELDVSKIDVFLGDVCIASQGARATTYTEAQGAAVMQQEEITIRIELGRGDCSETIWTTDLSHEYVKINAEYRT	PGPT0014244_2047	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014244-argJ-K00620	NA	NA
D1-35_01545	633			hypothetical protein	ATGAGCCTGCACCTGATCATCGGCGATAAACGAGCTTCATCCTGGTCCCTGCGGGGCGCGCTGGCCCTGTCGTTGACCGGCGCGAAGTACACCGAAGAACTGGTCAGGCTCGGCCAGCCCGACACCCGCGAAAAACTGCTGAAGTATTCGGCCACGGCCAAGGTCCCGCTGCTCAAGACCGAGTTCGGCGTGATCGCCGACTCCCTGGCCATTGCCGAGTACTTGGCCGAGCAGTTTCCCGAGGCCGGTCTCTGGCCCAAGGATGTAGCGGCACGGGCCCAGGCTCGTTCGGCCTGTGCACAGATGCACAGTGGTTTTTTTGCCATCCGCACCCACATGCCGTTCGACCTGGGCCGCGATGCGCCGTTGTCACCGATTCCGGCGGATGTGCAGGCGGAAATCCAGCGGATGCTGGCGTTGTGGGCAGAGTGCCGCGCGGCGGCTACCGAAGCCGGTCCCTACCTGTTTGGTACCCTGAGCCTGGCTGACGTATTTTTTGCGCCGATTGCCGTGCGCTTGCGCACCTACCAGGTGAAACTGCCGGAAGTCGACGCGGCCTACGTTGAAACCCTTTATCAATGGCCGGCCTTCAAAGCATGGCAGCAAGCTGGCCTGGAGGAAATCGCCCGGTGA	MSLHLIIGDKRASSWSLRGALALSLTGAKYTEELVRLGQPDTREKLLKYSATAKVPLLKTEFGVIADSLAIAEYLAEQFPEAGLWPKDVAARAQARSACAQMHSGFFAIRTHMPFDLGRDAPLSPIPADVQAEIQRMLALWAECRAAATEAGPYLFGTLSLADVFFAPIAVRLRTYQVKLPEVDAAYVETLYQWPAFKAWQQAGLEEIAR	PGPT0013170_16203	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
D1-35_01546	945	thiE_1		Thiamine-phosphate synthase	GTGAAACGCGTACATGTAGCGGCGGCAGTCATTCGCGACGCCGCCGGCAGAATCCTGATTGCCCGCCGGGCCGATTCCCAGCACCAGGGCGGCCTGTGGGAGTTTCCGGGGGGCAAGGTCGAGGCTGATGAGTCGGTCGAAACGGCCCTGGCCCGGGAGCTTCTCGAAGAGTTGGGCATTGTCGTCAGCGCTGCCCGGCCACTGATCAAGGTGCGCCACGATTATCCGGACAAGCAGGTGTTGCTGGATGTCTGGGAAGTCTCGGCGTTCAGCGGCGAGCCCCATGGCGCCGAAGGCCAGCCGCTTGCCTGGGTGACGGCCCGTGAATTGACCAACTACGAGTTTCCAGCGGCCAATCAGCCGATCGTCGCGGCGGCCCGTTTGCCGGGCGAGTACCTGATCACCCCTGAAGGCCTTGAAACGCCCGCCTTGCTGCGTGGCATTCAAAAGGCTGTTGCTGGCGGGATCAAGCTGCTGCAACTGCGCGCGCCCAACGGTTACGACCCGCAATACCGTGACCTGGCGGTGGACGCGGTGGGGCTGTGTGCCGGCAAGGCGCAATTGATGCTCAAGGGCCCGTTCGAATGGCTGGGTGACTTTCCGTCTGCCGGCTGGCATATCACCGCCGCGCAACTGCGCAAGCATGCGGCGGCGGGGCGACCGTTCGGCACCGACCGCTGGCTGGCGGCCTCGTGCCACAACGCCGAGGAACTCTCCCTGGCTCAGCAGATGGGCGTGGATTTCGTGACGTTGTCCCCCGTGCAACCGACCCAGACCCATCCCGATGCGCAGCCATTGGGGTGGGAAGAGGCTGCGCGACTGATCGAGGGGTTCGACAGGCCGGTGTATCTGTTGGGCGGGGTAGGCCCCGATCAGCGGCAGAAAGCCTGGGAAGCCGGGGCGCAAGGGGTGGCAGGGATTCGGGCGTTCTGGCCTGACGCTTGA	MKRVHVAAAVIRDAAGRILIARRADSQHQGGLWEFPGGKVEADESVETALARELLEELGIVVSAARPLIKVRHDYPDKQVLLDVWEVSAFSGEPHGAEGQPLAWVTARELTNYEFPAANQPIVAAARLPGEYLITPEGLETPALLRGIQKAVAGGIKLLQLRAPNGYDPQYRDLAVDAVGLCAGKAQLMLKGPFEWLGDFPSAGWHITAAQLRKHAAAGRPFGTDRWLAASCHNAEELSLAQQMGVDFVTLSPVQPTQTHPDAQPLGWEEAARLIEGFDRPVYLLGGVGPDQRQKAWEAGAQGVAGIRAFWPDA				NA	NA	NA	NA	NA
D1-35_01547	582	cobO_2	COG2096	Cobalamin adenosyltransferase	ATGGGTTTTCGTCTGTCGAAGATTTACACCCGTACCGGGGACAAAGGTGAAACCGGACTGGGGGATGGTCGCCGGGTGGCGAAGGATCATCCGCGGATCGAGGCCATCGGCGAAGTGGATACGCTGAACAGCCAACTGGGCTTGTTGCTGGCCGGGCTTGCCGCCGAAACGGAACGGTGCCCGGCGTTAAAGGAAGTAACCGAGATACTGACGCCTTGTCAGCATCGGCTGTTCGACCTGGGCGGCGAGCTGGCGATGCCGGCCTATCAGGCCCTGAACGATGCAGAAGTGGCGCGCCTGGAAGCGGCCATCGATGTATGGAATGAAGAGTTGGGGCCGCTGGAGAATTTCATCCTGCCCGGCGGCTCGACCCTGATCGCCCAGGCCCATGTGTGCCGCAGTCTGGCCCGTAGCGCCGAGCGCCGTTGCCAACAGTTGAACGCAGTGGAACCACTGGCCGGGCCGGGGCTGGCGTATATCAATCGGTTGTCGGACCTGCTGTTCGTGGCGGCGCGGGTCATCGCCCGGCGCCAGGGTGTGGCGGAAGTGCTTTGGGAGGCGGCGGCAAAGCCTGGGAGTTGA	MGFRLSKIYTRTGDKGETGLGDGRRVAKDHPRIEAIGEVDTLNSQLGLLLAGLAAETERCPALKEVTEILTPCQHRLFDLGGELAMPAYQALNDAEVARLEAAIDVWNEELGPLENFILPGGSTLIAQAHVCRSLARSAERRCQQLNAVEPLAGPGLAYINRLSDLLFVAARVIARRQGVAEVLWEAAAKPGS				NA	NA	NA	NA	NA
D1-35_01548	2037	rcsC_7		Sensor histidine kinase RcsC	ATGCCATTGCGCCAGCGCCTTGAAAATCTCCCGGTCGGCCAGAAACTGCTGGCGGCCCTGTTGGTATTGTTGACCACGGTTCTGCTGGTGGCCAACCTGACCTTCATCAGCGCGGCCTATTACATTTCCCAGGAAAGCATGGCGCCTCAGGCCTTGCAGACCATCGGCCGACTGGTAGCCAACCCGAGCCTGATCTCCGACGCGTTGCAATCGCCGCAAAGCGCCAAGCGTCTGCTCGATGAACTCAACAGCTATGCGCCGCTGCGGGCAGCGGCACTGTATGACGGTGACGGCGTACGCCTGGCCCAGTTGCAACAGGGCGAGAAACTCAAGTTGCCGGACCATTTCCGTCATGTGCAGGCGTGGCAGGCCGGGGAGTTTCGCAGCAACCAGGTCATTACCCTGCCCCGCCCCGGCACGGCGCCCGGCCATCTCCTGCTGGTGGCTAGCAGCGAACTGCCCACCGCGTTCTACACCGGCACCCTGACGGCCAGCCTGGGCATCCTGATTTTCAGCGTGCTGTTGTGGCTGGTCATTGCCCAGCAGATCAAGCGGCTGATCACCCAGCCGATCCATCAGCTCGAAGAGTTGTCGCGCCAGGTCACCCGCGAAGAAAACTATTCCCTGCGCGCCGCCCGGGGCAACCACGACGAAATCGGCAGCCTGGCCGAGGCGTTCAACACCATGCTCTCGCGGATCGAAGCCCGGGAACAGCAGCTCAAGCGCGCGCGGGACGATTCCCAGGCCGCCTACGACCAGGCCCAGGGCCTGGCGGAAGAAACCCGTCACACCAACCGCAAGCTGGAGCTGGAAGTCCAGGTCCGCAGCAAGATCGAGAAAAAACTCACCGGCTTCCAGAACTACCTCAACAGCATCATCGACTCCATGCCGTCGGCGCTGATTGCCCTCGACGAACAGCTCTATGTCACGCAATGGAACCAGGAGGCCAGCGCCCTTTCCGGCACCCGGCTGGATGAGGCGCTGAACCAGCCGATTTTCCTCGCCTTCGAGCCGCTCAAGCCGTACCTGCCGCAGCTCAAGCAGACGGTGGAACAGCACACAGTGGCCAAGATCGAGCGCGTCACCTGGACCAAGGACGATGAAGCCCGGCATTACGCCCTGACTTTCTATCCTTTGATGGGCGGTGCCGGGCGCGGCGTGGTGATCCGCATCGATGACATCACCCAGCGCCTGTCGCTGGAGGAAATGATGGTGCAATCGGAAAAAATGCTCTCGGTAGGCGGCCTCGCGGCGGGCATGGCCCATGAGATCAATAATCCGCTGGGGGCGATCCTGCACAACGTGCAGAATATTCGCCGACGCCTGTCTGCGGAATTGCCGAAGAACCTTGAGCAGGCCGAGCAGTTGGGGATCGATTTACCGGTGGTCAACCGCTACCTGGAAAGCCGGGAGATCCCGCAATTGCTCGATGGCATCCAGCAGGCCGGCGCCCGGGCAGCGAAAATCGTCACCCACATGCTCAGCTTCAGCCGCCGCAGCACAAGGCAGATGGCGCCTTGCGACCTGCCGGCACTCATCGACCAGGCCGTGGAAATTGCCGGTAACGACTTCGACCTGGCGATCGGTTTCGACTTCAAGGGCCAGGCGATCATCCGCCAGTTTGACCCGAACCTCGGCCCGGTGCCCGGCACCGCCAACGAACTGGAGCAGGTATTGCTCAACCTGCTGAAAAACGCCGCCCAGGCCATCCATCAACGCCAGGACGACAGCGAGCCCGGCCGTATCATCCTGCGTACACGGCTGAATCCGCCGTGGGCGGAAATCCAGGTCGAGGACAACGGCATCGGCATGAGCGAGAACGTGCGCAAGCGTACCTTCGAGCCGTTCTTCACCACCAAGGAGATCGGCCAGGGCACCGGGCTCGGATTGTCGGTGTCGTATTTCATCATCACCAACAACCACAAGGGCCAGATGGAAGTGCAATCAGCGCCGGGCCAAGGCACTTGCTTCACCCTGCGCCTGCCACTGGCGGGCACTTCGATGGTGGCGCAAGAACACAAGCAAGTGGAGCGCTGA	MPLRQRLENLPVGQKLLAALLVLLTTVLLVANLTFISAAYYISQESMAPQALQTIGRLVANPSLISDALQSPQSAKRLLDELNSYAPLRAAALYDGDGVRLAQLQQGEKLKLPDHFRHVQAWQAGEFRSNQVITLPRPGTAPGHLLLVASSELPTAFYTGTLTASLGILIFSVLLWLVIAQQIKRLITQPIHQLEELSRQVTREENYSLRAARGNHDEIGSLAEAFNTMLSRIEAREQQLKRARDDSQAAYDQAQGLAEETRHTNRKLELEVQVRSKIEKKLTGFQNYLNSIIDSMPSALIALDEQLYVTQWNQEASALSGTRLDEALNQPIFLAFEPLKPYLPQLKQTVEQHTVAKIERVTWTKDDEARHYALTFYPLMGGAGRGVVIRIDDITQRLSLEEMMVQSEKMLSVGGLAAGMAHEINNPLGAILHNVQNIRRRLSAELPKNLEQAEQLGIDLPVVNRYLESREIPQLLDGIQQAGARAAKIVTHMLSFSRRSTRQMAPCDLPALIDQAVEIAGNDFDLAIGFDFKGQAIIRQFDPNLGPVPGTANELEQVLLNLLKNAAQAIHQRQDDSEPGRIILRTRLNPPWAEIQVEDNGIGMSENVRKRTFEPFFTTKEIGQGTGLGLSVSYFIITNNHKGQMEVQSAPGQGTCFTLRLPLAGTSMVAQEHKQVER				NA	NA	NA	NA	NA
D1-35_01549	918	panE	COG1893	2-dehydropantoate 2-reductase	ATGTCCACCACCTGGCACGTCCTGGGCGCCGGCAGCCTCGGCACCTTGTGGGCGACGCGCCTGGCCCGGGCCGGCCTGCCGGTGCGGCTGGTGTTGCGCAATGAACAGCGGCTGCAGGCTTACCGGGAGGCCGGAGGGTTGACGCTGGTGGAACAAGGCCAGGCGCAGTGTTACCCGGTGCCAGGCGAAACCGCGCAGGGCCTCGAACCGATAAAACGCTTGCTGCTGGCCTGCAAGGCTTATGACGCGGAGGCGGCTGTGGCTTCGGTCGCCCATCGCCTGGATGGCGAGAGCGAACTGATCCTGCTGCAGAACGGCCTCGGCAGCCAGGACGCCGTGGCGAACCGCGTCCCCCAGGCCCGCTGTATCAGCGCCTCCAGCACCGAAGGCGCGTTTCGCGACGGTGACTGGCGCGTGGTGTTCGCCGGCCACGGCTACACCTGGCTGGGCGACCCCGCCCAGCCGGTGGCGCCGGTCTGGCTGGATGACCTGGGCATGGCCGGCATTCCCCACCAGTGGAGCGCCGACATCCTCACCCGCCTGTGGCGCAAACTGGCGCTCAACTGCGCAATCAACCCACTGACGGTACTGCATCAATGCAAGAACGGTGGCTTGCAGGAACACCGCTGCGAAGTGGCAACCCTTTGTGCGGAGCTCGCCGATCTGCTCGAACGCTGCGGCCAGCCGGCGGCGGCCGAGGATTTACAGTCGGAGGTGGAACGGGTGATCCAGGCCACAGCCGCCAACTATTCCTCCATGTACCAGGACGTTGCCAACCGGCGACGTACCGAAATCGGCTATCTGCTCGGCCATGCCTGCGCCGTCGCGCGGCGCCATGACGTGGCGGTGCCGCATCTTGAACAGATGCGCCAGCGCCTGATTGCCCACTTGGACAACCTCGGATTGCCCAGCGACTGA	MSTTWHVLGAGSLGTLWATRLARAGLPVRLVLRNEQRLQAYREAGGLTLVEQGQAQCYPVPGETAQGLEPIKRLLLACKAYDAEAAVASVAHRLDGESELILLQNGLGSQDAVANRVPQARCISASSTEGAFRDGDWRVVFAGHGYTWLGDPAQPVAPVWLDDLGMAGIPHQWSADILTRLWRKLALNCAINPLTVLHQCKNGGLQEHRCEVATLCAELADLLERCGQPAAAEDLQSEVERVIQATAANYSSMYQDVANRRRTEIGYLLGHACAVARRHDVAVPHLEQMRQRLIAHLDNLGLPSD	PGPT0008745_3845	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
D1-35_01550	486			hypothetical protein	ATGCCGTCATTCGACGTGGTATCCGAACTGGACAAGCACGAAGTCACCAACGCCGTTGAAAACGCCGTCAAGGAACTCGACCGTCGGTATGACCTCAAGGGCAAGGGCAGTTTCGAGTTCAAGGAAAAGGACCTGACCGTCAACCTGACCGCCGAGGCCGATTTCCAGCTCGAGGCGATGATCGAGATCCTCAAGCTGGCGCTGGTCAAGCGCAAGATCGACGTGCAATGCCTTGAGGTCAAGGATGCCTACGCCTCCGGCAAGCTGATGAAGCAGGAAGCCGTGCTCAAGGAAGGCATCGACAAGGAACTGGCCAAGAAAATCGTCGCTCATATCAAGGACGCCAAGCTCAAGGTCCAGGCCGCCATCCAGGGCGAGCAGGTGCGTGTCACTGGCAAGAAACGTGACGACCTGCAAGAAGCCATCGCCGCGCTGCGGGGCAAGGAATTCGGCATGCCGCTGCAGTTCAACAACTTCCGCGATTGA	MPSFDVVSELDKHEVTNAVENAVKELDRRYDLKGKGSFEFKEKDLTVNLTAEADFQLEAMIEILKLALVKRKIDVQCLEVKDAYASGKLMKQEAVLKEGIDKELAKKIVAHIKDAKLKVQAAIQGEQVRVTGKKRDDLQEAIAALRGKEFGMPLQFNNFRD	PGPT0012210_1833	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0012210-yajQ-K09767	NA	NA
D1-35_01551	843	mscS	COG0668	Small-conductance mechanosensitive channel	ATGGACTTGAACGCTGAAGTAGACCACCTGGTCAAGGCCTCCCAGGCCTGGATACCGATGATCATGGAGTACGGCAGCCGCGTGTTGCTGGCAATTGTCACCCTGGCCATCGGCTGGTGGCTGATCAACAAGGTCACCCAGAAGCTCGGGGCGCTGCTGGCCCTGCGTAACGCCGACCTCGCGCTGCAAGGCTTTATCAGTACCCTGGCAAACATCATTCTGAAGATCCTGCTGATCGTCAGCGTCGCCTCGATGATTGGTGTGGAAACCACGTCCTTCGTCGCGGCCATCGGTGCGGCAGGCCTGGCGATTGGCCTGGCCTTGCAAGGCAGCCTGGCGAACTTCGCCGGCGGCGTGCTGATCCTGCTCTTTCGTCCGTTTCGCATCGGTGACTGGATCGAGGCCCAAGGCGTAGCCGGAACGGTCGACAGCATCCAGATCTTCCACACGGTCCTGCGTACCGGTGACAACAAGACGGTCATCGTGCCCAACGGCAATCTGTCGAACGGCATCATTACCAACACCAATCGCCAGCCGACCCGCAAAGTGGTGTTCGACGTGGGCGTGGATTACCAGGCTGACCTGCAAAAGGCCCGGGAAGTGTTACTGGAGTTGGCCAAGGATGAACGGGTGTTGACCGATCCTGCACCTGAGGCGGTGATCTCCACCTTGGGCGACAGCTCGATCACTGTTTCGCTGCGCATCTGGGTGAAGACGGCGGACTACTGGAACGTGATGTTCATGCTCAATGAACAGGCGCGTGACCGCTTGAAAGATGCCGGTATCGATATTCCGTTTCCACAGCGTGTGATCCGAGTGGTTCAGGAATCTGCATCGGTCTGA	MDLNAEVDHLVKASQAWIPMIMEYGSRVLLAIVTLAIGWWLINKVTQKLGALLALRNADLALQGFISTLANIILKILLIVSVASMIGVETTSFVAAIGAAGLAIGLALQGSLANFAGGVLILLFRPFRIGDWIEAQGVAGTVDSIQIFHTVLRTGDNKTVIVPNGNLSNGIITNTNRQPTRKVVFDVGVDYQADLQKAREVLLELAKDERVLTDPAPEAVISTLGDSSITVSLRIWVKTADYWNVMFMLNEQARDRLKDAGIDIPFPQRVIRVVQESASV	PGPT0013773_2231	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013773-mscS|yggB-K03442	NA	NA
D1-35_01552	1329	oprD_2		Porin D	ATGCGCGTGATGAAGTGGAGCATGATCGCACTGGCCGTTGCTGCAGCAGCCAGTACTCAAATGGCTACGGCCGCACCTTTCGTAAGTGACCAGTCTGAAGCCAAAGGCTTTGTTGAAGACGCCAAGTTCGATTTGCTGCTGCGCAACTATTACTTCAACCGTGATAGGAAAGATGGCGCTACCGATCAGAAAGACTGGACCCAAGGCATCTGGGGCAACCTCAGCTCCGGCTACACCCAAGGCACAGTAGGCGTCGGCGTAGATGCATTCGGCTACCTGGCTTTGAAACTGGACGGCGGTGACGGCACTGGCGGCACCGGCAACATGAGCCGCGACGCCGATGGCGAAGTCAACGACAGCCAGGGCAAAGCCGGCGCAGCCATCAAGTTCCGCGTCTCCAAGACCGAGCTGAAAATCGGCGACATGCAGCCAAGCACCGCTCCAGTGTTTGCGGTTGGCGGCTCCCGTGTCCTGCCTCAGACTGCCAGCGGTTTCCAACTGCAGAGCAGCGAAGTCAAAGACCTTGACCTCGAAGCCGGTCACTTCTACTCGGGTACCAGCCAGGACCGTAACGCACGTGATGGCGGCCTGTGGGCTACCTACGCTGGCGTGGAAGCCAGCTCGATCGACTACGCAGGCGGCAAATATGCCATCAGCGAAAACCTGAGCGCATCGGTCTACGGCGCCCAGCTGGAAGATATCTGGAACCAGTACTACGGCAACCTGAACTACACCATCCCAATGGGTGGCGATCAGTCGCTGAATCTGGACGGTAACATCTACCGTACCTCCGACACTGGCAGCGCCAAGGCCGGTGACATCAGCAACACCACCTTCTCCCTGGCTGCGGCGTTCTCGTTCCTGAAAGCGCACACCGTTACTGTTGCCTTCCAGAAGGTCAACGGCGACACCCCGTTCGACTACATCGGTGTAGGTACCAACAACCGTGGTGGCGACTCGATCTTCCTCGCCAACTCCATCCAATACTCCGACTTCAACGCGCCTAACGAGAAATCTGCCCAGATCCGTTACGACATCAAGATGGCTGAGTACGGTGTTCCTGGTCTGAGCTTCATGACCCGTTACGTCAAAGGTTGGGACATCGACGGTACCAACACTCCTGCAGGCAGCCCTTACGCTGGTCTGTACGGTGAAGACGGCAAGCACAACGAAACCAACTTCGAAGCCAAGTACGTTGTTCAGTCTGGCCCGGCAAAAGATCTTTCCTTCCGTGTTCGTCAAGCCTGGCACTACGCTAACGCTGACGAAGGTGAAGGCGACATCAAAGAGTTCCGCCTGATCGTCGACTACCCGATTTCGGTTCTGTAA	MRVMKWSMIALAVAAAASTQMATAAPFVSDQSEAKGFVEDAKFDLLLRNYYFNRDRKDGATDQKDWTQGIWGNLSSGYTQGTVGVGVDAFGYLALKLDGGDGTGGTGNMSRDADGEVNDSQGKAGAAIKFRVSKTELKIGDMQPSTAPVFAVGGSRVLPQTASGFQLQSSEVKDLDLEAGHFYSGTSQDRNARDGGLWATYAGVEASSIDYAGGKYAISENLSASVYGAQLEDIWNQYYGNLNYTIPMGGDQSLNLDGNIYRTSDTGSAKAGDISNTTFSLAAAFSFLKAHTVTVAFQKVNGDTPFDYIGVGTNNRGGDSIFLANSIQYSDFNAPNEKSAQIRYDIKMAEYGVPGLSFMTRYVKGWDIDGTNTPAGSPYAGLYGEDGKHNETNFEAKYVVQSGPAKDLSFRVRQAWHYANADEGEGDIKEFRLIVDYPISVL	PGPT0028135_66	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028135-oprD-K18093	NA	NA
D1-35_01553	426			hypothetical protein	GTGTTTGCCCTAGATCCACGACTGCAACAAGACACATTGCCTATCGGCGATTTCCCGCTGTGCCGTTTGCTGTTGTCCAATGATTCCAATTACCCGTGGTTCATTCTCGTGCCGCGCCGGGAAAATATCAGTGAATTGTTTCAATTGGATGACGCCGATCAACAACAGTTGTGGAAAGAAACCACGGCACTGGCTGAAACCCTCAAGGACTCGTTCGATGCCGACAAATTGAATGTTGCAACCTTGGGTAACGTTGTCAGTCAATTGCACATGCATGTGATCGTGCGCAAGCGAGAGGATGCCGCATGGCCTGCGCCGGTGTGGGGCAAGCATCCGGCACAGCCTTATGATGCCGAGCAGGTCAGCGTCATTCGTGAACGCTTGCGAGCGGTCCTGACCGATGATTTCAAGTTCCTGGAGGGCTGA	MFALDPRLQQDTLPIGDFPLCRLLLSNDSNYPWFILVPRRENISELFQLDDADQQQLWKETTALAETLKDSFDADKLNVATLGNVVSQLHMHVIVRKREDAAWPAPVWGKHPAQPYDAEQVSVIRERLRAVLTDDFKFLEG	PGPT0005685_256	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_CHLOROBENZENE_DEGRADATION,PGPT0005685-catA-K01061	NA	NA
D1-35_01554	207	slyX		Protein SlyX	ATGAACCTTGAAGAGCGTGTAACCGACCTTGAAAGCCGCCTGGCGTTTCAGGACGATACCATCCAGGCATTAAACGACGTGCTGGTGGAGCAGCAGCGAGTTGTCGAACGTCTGCAGCTGCAGATGGCGGCGTTGCTCAAGCGTCAGGAGGAAATGGCCGGCCAGTTCGAATCCTTTGAAGAAGAAGCGCCGCCACCGCATTACTGA	MNLEERVTDLESRLAFQDDTIQALNDVLVEQQRVVERLQLQMAALLKRQEEMAGQFESFEEEAPPPHY				NA	NA	NA	NA	NA
D1-35_01555	606			hypothetical protein	ATGTTGAAAATCGTCCACTTGCTAATGGGCGCAGCTGCTCTGCTGCTGTCCTTCATCCCTAGCCTGGGTTCCGAAGCCACACCTTACCTGCAACATCCCGACGCGCTGTACCTGGCCTTTTTCGGCCTGCTCAACCTGACCCTGGCACCCGTCATCCCTTACTGGAACAAAGGTCCACGTCATCAACTGCAAAACCTTGTCAGCGCCCTGCTGGTGCTGGCCGTCGCCCTGCAAACACTGACCCTGCTGGCGCCCATGCCGGAAATCGGCGGCCAACCCGCCATTCTTTCCAGCCTGGCCGCCGCGTTGCTCGCTGTGTTGCTGCACCTGGCCGTCAGCTTCTACAAGAAGTCGTCGCCGGCCGCCGCGCCGCAGAACTACGACATGTCCAACCGTGATACCGGTACCGTGAAGTGGTTCAACACCTCCAAGGGGTTCGGCTTCATCTCCCGCGACTCCGGCGATGACATTTTTGTGCATTTCCGGGCCATTCGTGGCGAAGGCCATCGCGTCCTGGTCGAAGGCCAGCGCGTGGAGTTTTCCGTCATGCACCGTGACAAAGGCTTGCAGGCCGAAGATGTGATCGCCGCGCTGCCGCGCCGCTGA	MLKIVHLLMGAAALLLSFIPSLGSEATPYLQHPDALYLAFFGLLNLTLAPVIPYWNKGPRHQLQNLVSALLVLAVALQTLTLLAPMPEIGGQPAILSSLAAALLAVLLHLAVSFYKKSSPAAAPQNYDMSNRDTGTVKWFNTSKGFGFISRDSGDDIFVHFRAIRGEGHRVLVEGQRVEFSVMHRDKGLQAEDVIAALPRR	PGPT0014675_337	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
D1-35_01556	474	dps2	COG0783	DNA protection during starvation protein 2	ATGGCAATTGATATCGGTATCAGCGAAGAAGATCGCAAGTCCATCGTCGACGGGCTTTCGCGCCTGTTGTCGGACACCTACGTGCTTTACCTCAAGACCCATAATTTCCATTGGAACGTCACCGGGCCGATGTTCCGGACCCTGCACTTGATGTTCGAGGAGCAGTACAACGAGCTGGCGCTGGCGGTGGACCTGATCGCCGAGCGGATCCGTGCCCTGGGCTTTCCGGCGCCGGGTGCCTACTCGGTGTATGCGCGCCTGTCTTCCATCAAGGAGGAGGAAGGCGTGCCTGGCGCCGAGGACATGATCCGGCAACTGGTCGAAGGCCAGGAGGCGGTGACACGTACGGCCCGAGGCATCTTTCCTTTATTGGACAAGGTCAGCGACGAGCCGACCGCCGACCTGCTGACCCAGCGCATGCAGGTTCATGAAAAAACCGCCTGGATGCTGCGTTCGCTGCTGGACGAGCGGTAA	MAIDIGISEEDRKSIVDGLSRLLSDTYVLYLKTHNFHWNVTGPMFRTLHLMFEEQYNELALAVDLIAERIRALGFPAPGAYSVYARLSSIKEEEGVPGAEDMIRQLVEGQEAVTRTARGIFPLLDKVSDEPTADLLTQRMQVHEKTAWMLRSLLDER	PGPT0004055_2971	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0004055-dps|dpsA-K04047	NA	NA
D1-35_01557	342			hypothetical protein	ATGATTCAAGGAAAAGCACCCAGGGGCGGTGCAGGCGGGCGCCTCAAGTCCGTCAGCATCGACCCGTTCGTCAGTGGGTTCGATATGCAACTGGCCCGGCCCCTGGCCCGCTCCATCCGGCTTAACGGGTTCGCCACCTGTTTACGCCTTGAGCAAGTCTATTGGGATATTCTCGGCGATATGGCCCAGCTCAACAGTTGCTCCGTCAGTACCTTGCTCTCCCATGTGGATCGGGAGGTGCAGTTGCGTCACGGCGGCGTGCGCAATTTCAGCGGGCTGGTGCGTGTTGTCTGCGTGGTGCACAGCCTGAAGGATATGGGCACCGATCATCGCGAGGCCTAG	MIQGKAPRGGAGGRLKSVSIDPFVSGFDMQLARPLARSIRLNGFATCLRLEQVYWDILGDMAQLNSCSVSTLLSHVDREVQLRHGGVRNFSGLVRVVCVVHSLKDMGTDHREA				NA	NA	NA	NA	NA
D1-35_01558	294			hypothetical protein	ATGGATATAATCCCGCTCTTTGCCGCAAAGCCCGGGTTTTGCGTGAATAACCTGATTGCCGAGACAACCCCCATGCCGATGTACGACTATCAATGTGCTTCCTGTGGTCATCAGATGGAAGCCATTCAAAAAATCAGCGCGGCACCGCTGGTCGATTGCCCTGCCTGCCAGGCGCCGGAGCTGAAAAAGATGCTGTCCATGCCAGGTTTCCGCCTCGGCGGCACCGGCTGGTATGAAACCGACTTCAAGACCGGTGCCAAGAAGAACCTGGCCGGTGGCGACAAGGCTGACTGA	MDIIPLFAAKPGFCVNNLIAETTPMPMYDYQCASCGHQMEAIQKISAAPLVDCPACQAPELKKMLSMPGFRLGGTGWYETDFKTGAKKNLAGGDKAD				NA	NA	NA	NA	NA
D1-35_01559	1776	aspS	COG0173	Aspartate--tRNA(Asp/Asn) ligase	ATGATGCGCAGCCATTATTGCGGCCAACTGAACGAAAGCCTGGAAGGTCAGGAAGTTACTCTTTGCGGATGGGTTCATCGTCGCCGTGACCATGGCGGGGTGATTTTCCTCGATATCCGTGATCGTGAAGGCCTGGCCCAGGTAGTGTTCGACCCCGACCGCGCGGAAACCTTCGCCACCGCCGACCGCGTACGCAGCGAATACGTGGTCAAGATCACCGGCAAGGTGCGCCTGCGTCCGGCCGGCGCCGGCAACGCCAACATGGCGTCCGGCATGATCGAAGTGCTGGGCTACGAGCTGGAAGTGCTGAACGAAGCGGAAACCCCGCCGTTCCCACTCAACGAATATTCCGACGTAGGCGAGGAAACCCGCCTGCGCTATCGTTTCATCGACCTGCGTCGCCCGGAAATGGCCGAGAAGCTGCGCCTGCGTTCGCGCATGACCACCAGCATCCGTCACTACCTGGACGAGAACGGCTTCCTCGACGTCGAGACGCCGATCCTGACCCGTGCCACGCCGGAAGGCGCCCGCGACTACCTGGTGCCGAGCCGTACCCACCCCGGCAGTTTCTTCGCCTTGCCGCAATCGCCACAATTGTTCAAGCAGTTGCTGATGGTGGCCGGGTTCGACCGCTACTACCAGATTGCCAAGTGCTTCCGCGATGAAGACCTGCGTGCCGACCGGCAGCCTGAATTCACCCAGATCGACATCGAGACCAGCTTCCTCGACGAAAAAGACATCATGGGCCTGACCGAGGGCATGATCCGCAACCTGTTCCGGGAAGTGCTGGGTCTTGAGTTCGGCGAATTCCCGCACATGACCTTCGAAGAGGCCATGCGTCGCTACGGTTCCGACAAGCCTGACCTGCGCAACCCGCTGGAATTGGTGGACGTCGCGGACCAGCTCAAGGAAGTCGAATTCAAGGTCTTCAGTGGTCCGGCCAACGATCCGAAATGCCGTATCGCCGCCCTGCGTGTTCCAGGCGGCGCCAGCATGCCGCGCAAGCAGATCGACGATTACACCAAGTTCGTCGGCATCTACGGTGCCAAGGGCCTGGCGTACATCAAGGTCAACGAGCGCGCCGCCGGTATCGACGGCCTGCAGTCGCCGATCGTCAAGAACATCCCGGAAGCCAACCTCAACGTGATCCTCGATCGCGTGGGCGCGGTCGATGGCGACATCGTGTTCTTTGGCGCCGACAAAGCCAAGATCGTCAGCGAAGCCCTGGGCGCGCTGCGCATCAAGCTGGGTCACGACCTGAAACTGCTGAGTTGCGAGTGGGCGCCGATGTGGGTCGTCGACTTCCCGATGTTCGAGGAAAACGACGACGGCAGCTTCTCTGCCTTGCACCACCCGTTCACCGCGCCGAAGTGCTCGCCTGAAGAGTTGGAGGCCAACCCGGCCGGCGCATTGTCCCGTGCCTACGACATGGTCCTCAACGGCACCGAGCTGGGCGGCGGTTCGATCCGTATCCATCGCAAGGAAATGCAACAGGCAGTGTTCCGTCTGCTGGGTATCAGCGAAGCCGAGCAGGAAGAGAAGTTCGGCTTCCTGCTGGACGCTTTGAAGTACGGTGCGCCGCCCCACGGTGGCCTGGCCTTCGGCCTGGATCGCCTGGTGATGCTGATGACCGGCGCCCAGTCGATCCGCGAAGTGATCGCATTCCCGAAAACCCAGAGCGCGGCCGATGTCATGACCCAGGCTCCGGGCGTGGTGGATGCCAAGGCGCTGCGCGAGTTGCATATCCGTTTGCGCGAACAGCCAAAGGCTGAGTAA	MMRSHYCGQLNESLEGQEVTLCGWVHRRRDHGGVIFLDIRDREGLAQVVFDPDRAETFATADRVRSEYVVKITGKVRLRPAGAGNANMASGMIEVLGYELEVLNEAETPPFPLNEYSDVGEETRLRYRFIDLRRPEMAEKLRLRSRMTTSIRHYLDENGFLDVETPILTRATPEGARDYLVPSRTHPGSFFALPQSPQLFKQLLMVAGFDRYYQIAKCFRDEDLRADRQPEFTQIDIETSFLDEKDIMGLTEGMIRNLFREVLGLEFGEFPHMTFEEAMRRYGSDKPDLRNPLELVDVADQLKEVEFKVFSGPANDPKCRIAALRVPGGASMPRKQIDDYTKFVGIYGAKGLAYIKVNERAAGIDGLQSPIVKNIPEANLNVILDRVGAVDGDIVFFGADKAKIVSEALGALRIKLGHDLKLLSCEWAPMWVVDFPMFEENDDGSFSALHHPFTAPKCSPEELEANPAGALSRAYDMVLNGTELGGGSIRIHRKEMQQAVFRLLGISEAEQEEKFGFLLDALKYGAPPHGGLAFGLDRLVMLMTGAQSIREVIAFPKTQSAADVMTQAPGVVDAKALRELHIRLREQPKAE				NA	NA	NA	NA	NA
D1-35_01560	747	pmpR	COG0217	Transcriptional regulatory protein PmpR	ATGGCAGGTCATTCCAAGTGGGCGAACATCAAGCACCGCAAAGAACGTCAGGATGCCAAGAGGGGCAAGATCTTTACCAAGTGGATCCGTGAGCTGACGGTCGCGGCCCGCCAGGGTGGCGGCGATCCGGGTTCCAATCCGCGCTTGCGCCTCGCGCTGGACAAGGCGCTGGGCGCAAACATGAGCCGCGACATCATCGACCGGGCCATTGCCCGTGGCGCGGGCGCCACCGAGGCCGACAACGTCGAGGAGCTGACCTATGAAGGCTACGGCCCGGGCGGCGTGGCGGTCATGGTCGAGTGCATGACCGACAACCGCAACCGCACCGCTGCGGCCGTGCGCCATGCGTTCAGCAAATGCGGTGGCAACCTGGGGACCGACGGTTCGGTGGCTTATCTGTTCGAGCGCAAGGGGCAGATCAGCTTCGCGCCAGGCATCGATGAAGATGCGCTGACCGAAGCGGCGCTGGAAGCCGATGCCGATGACGTGGTCAGCCACGAAGACGGTTCGTTCGACGTGTTCACCTCGTTCGCCAGCTTCTATGCCGTGCGTAATGCCCTTGAAGCTGCCGGTTTCAAACCGGTCGACGCGGAAATCGTCATGCAGCCGACCACCAGTGCCGAACTCGACCTGGAAGGCGCCGAGAAGGTGCTCAAGCTGATCGACATGCTTGAAGACCTGGACGATGTGCAGAACGTTTATTCCAACGCCGATATTCCGGAGTCGGTGGCTGAGCAACTGGGCTGA	MAGHSKWANIKHRKERQDAKRGKIFTKWIRELTVAARQGGGDPGSNPRLRLALDKALGANMSRDIIDRAIARGAGATEADNVEELTYEGYGPGGVAVMVECMTDNRNRTAAAVRHAFSKCGGNLGTDGSVAYLFERKGQISFAPGIDEDALTEAALEADADDVVSHEDGSFDVFTSFASFYAVRNALEAAGFKPVDAEIVMQPTTSAELDLEGAEKVLKLIDMLEDLDDVQNVYSNADIPESVAEQLG				NA	NA	NA	NA	NA
D1-35_01561	525	ruvC	COG0817	Crossover junction endodeoxyribonuclease RuvC	ATGACTTTAATCCTTGGTATCGACCCCGGTTCGCGCATCACCGGCTACGGCGTGGTTCGCGATACCGGGCGTGGCTGCGTGTACGTTGCTTCCGGCTGTATCCGCACCGGTGCGGGCGAGTTGCACGAGCGCTTGCAGATCGTTTATCGCGGCGTGCGCGAAGTCATCCAGACCTACGGCCCGGTGACCATGGGCATCGAAAAGGTCTTCATGGCCCGCAACGCCGATTCCGCCCTGAAGCTGGGGCAGGCCCGCGGCGCGGCCATTGTGGCCGGCGCCGAGGAAAACCTGGAGATCGCCGAATACACCGCGACCCAGGTCAAGCAGGCCGTGGTAGGCACCGGCGCGGCAAACAAGGAACAGGTGCAGATGATGGTGATGCACCTGTTGAAACTGGTCAGCAAGCCGCAGATCGACGCCTCCGACGCCCTGGCCATCGCCATTTGCCATGCGCATACCCGTTCCAGCCTGCTGCCTCATGGTCTGGGAAGCGCACGCAGTCGTGGCGGGCGCCTGCGTCTCTGA	MTLILGIDPGSRITGYGVVRDTGRGCVYVASGCIRTGAGELHERLQIVYRGVREVIQTYGPVTMGIEKVFMARNADSALKLGQARGAAIVAGAEENLEIAEYTATQVKQAVVGTGAANKEQVQMMVMHLLKLVSKPQIDASDALAIAICHAHTRSSLLPHGLGSARSRGGRLRL				NA	NA	NA	NA	NA
D1-35_01562	609	ruvA	COG0632	Holliday junction ATP-dependent DNA helicase RuvA	GTGATTGGACGCTTGCGCGGCACCCTGGCTGAAAAACAGCCGCCGCACCTGATTCTGGATGTAAACGGCCTCGGTTATGAGCTGGAAGTGCCCATGACCACCCTGTATCGCTTGCCGTCGGTCGGTGAGCCGCTGACGCTGCACACTCATCTGGTCGTGCGTGAAGATGCCCAGTTACTCTATGGTTTCTTCACCAAGCGCGAGCGGGATTTCTTTCGCGAGCTGATCCGGCTCAATGGCGTCGGCCCGAAGCTGGCGCTGGCCTTGATGTCCAGCCTGGAAGTCGATGAACTGATTCGTTGCGTGCAGTCCCAGGACACCTCGGCGCTGACCAAGGTGCCGGGAGTCGGCAAGAAAACCGCCGAGCGCCTGTTGGTCGAGCTCAAGGATCGCTTCAAGGCCTGGGAAACGGTGCCGGCAATGTTCGCCCTGGTGCCGAACCAGCCGGATGCGCCGATGCCGGCGGTCAGCGCTGAAAACGATGCGGTCACCGCGCTGATTTCCCTGGGCTACAAGCCGCAGGAAGCCAGCAAGGCGATCTCCGCGATCAAGGAAAAAGGCTTGAGTACCGAAGACATGATTCGCCGCGCCCTGAAGGGAATGATTTAA	MIGRLRGTLAEKQPPHLILDVNGLGYELEVPMTTLYRLPSVGEPLTLHTHLVVREDAQLLYGFFTKRERDFFRELIRLNGVGPKLALALMSSLEVDELIRCVQSQDTSALTKVPGVGKKTAERLLVELKDRFKAWETVPAMFALVPNQPDAPMPAVSAENDAVTALISLGYKPQEASKAISAIKEKGLSTEDMIRRALKGMI				NA	NA	NA	NA	NA
D1-35_01563	1062	ruvB_2	COG2255	Holliday junction ATP-dependent DNA helicase RuvB	GTGATTGAAGCCGATCGTCTGATCGCCGCCACGGGCGCGCCCCGTGACCGCGAGGAAATCCAGGACCGTGCGATTCGTCCCGTCAGCCTCGCCGATTACATTGGCCAGCCGACCGTGCGCGAGCAGATGGAGCTGTTCATCCAGGCGGCCCGCGGGCGCAGCGAGTCGCTGGACCATACACTTATCTTCGGGCCGCCGGGCCTGGGCAAGACCACCCTGGCCAACATCATTGCCCAGGAAATGGGCGTGTCGATCAAGAGCACGTCCGGCCCGGTTCTCGAACGGCCGGGCGACCTGGCGGCGCTGCTGACCAATCTTGAGCCGCATGATGTGCTGTTCATCGACGAAATCCATCGGCTGTCGCCGATCGTCGAGGAAGTGTTGTACCCGGCCATGGAGGATTTCCAGCTCGACATCATGATCGGCGAAGGGCCGGCGGCGCGCTCCATCAAGCTGGACCTGCCACCCTTTACCCTGGTGGGCGCCACCACCCGCGCCGGGATGTTGACCAACCCGCTGCGCGACCGGTTCGGTATCGTCCAGCGCCTGGAGTTCTACAACAACGCCGACCTGGCGACGATTGTCAGCCGCTCGGCGGGCATCCTCGGGCTGCCCCTGGACCCTGACGGCGCCTATGAGATCGCTCGTCGGGCGCGGGGGACGCCGCGGATCGCCAACCGCCTCCTGCGTCGGGTCCGCGACTTTGCCGAAGTGCGGGCCAAGGGGCACATTACCAAGCCGATCGCCGACCTGGCCTTGAACCTGCTGGACATCGACGAGCGCGGCTTCGACCACCAGGACCGGCGCCTGCTGCTGACCATGATCGAGAAATTCGACGGTGGCCCGGTGGGCGTGGACAGCCTGGCGGCCGCCATCAGCGAAGAGCGCCACACCATCGAGGACGTGCTGGAACCGTACCTGATCCAGCAGGGCTATATCATGCGCACGCCCCGCGGACGCGTGGTGACCCGTCATGCTTATCTGCACTTCGGCTTAAACATCCCGACACGAATGGGTGAGATGCCGGTGGTAGACGAATTTCTCGATGCGGTGGACGATTGA	MIEADRLIAATGAPRDREEIQDRAIRPVSLADYIGQPTVREQMELFIQAARGRSESLDHTLIFGPPGLGKTTLANIIAQEMGVSIKSTSGPVLERPGDLAALLTNLEPHDVLFIDEIHRLSPIVEEVLYPAMEDFQLDIMIGEGPAARSIKLDLPPFTLVGATTRAGMLTNPLRDRFGIVQRLEFYNNADLATIVSRSAGILGLPLDPDGAYEIARRARGTPRIANRLLRRVRDFAEVRAKGHITKPIADLALNLLDIDERGFDHQDRRLLLTMIEKFDGGPVGVDSLAAAISEERHTIEDVLEPYLIQQGYIMRTPRGRVVTRHAYLHFGLNIPTRMGEMPVVDEFLDAVDD				NA	NA	NA	NA	NA
D1-35_01564	468	ybgC	COG0824	Acyl-CoA thioester hydrolase YbgC	ATGCGCGCGCAAAACGGGCTTGAGTCGTTCGCACATCGCTGTCGCGTTTATTACGAGGACACCGATGCCGGCGGCATCGTTTACTACGTCAATTACCTCAAGTTTATGGAACGGGCTCGAACCGAACGGCTGCGGGAACTGGGTTTTGCCCAATCCGCGCTGGCAGGGGAGGACCTGTTATTCGTCGTGCATTCCAGCGAAGCGCGCTACCACGCGCCGGCGCGACTGGACGACGAGCTGGTGGTGACTGCCGATGTCATCGAATTGAACCGCGTCAGCCTGCGCTTCAAACAGCAGGTCAGGCGGGCTGCGGATAATGTGCTGCTCTGCGAAGGGCAGTTTTTGGTGGCCTGTGTGCGCACCCATAGTTTGAAACCCCGGGCCATTCCCGAAGCTTTACGCGCGGCCTTTGCCGGCGTGAGCGGCGCGGGTACACACTCAGAGCAGGAGATAAAGCGTGGAAGCTAA	MRAQNGLESFAHRCRVYYEDTDAGGIVYYVNYLKFMERARTERLRELGFAQSALAGEDLLFVVHSSEARYHAPARLDDELVVTADVIELNRVSLRFKQQVRRAADNVLLCEGQFLVACVRTHSLKPRAIPEALRAAFAGVSGAGTHSEQEIKRGS	PGPT0009505_71	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009505-ybgC|fcbC1-K01075	NA	NA
D1-35_01565	696	tolQ_1	COG0811	Tol-Pal system protein TolQ	GTGGAAGCTAACGTCGTCGACCATTCCTCCATGTGGAGCCTGGTCAGCAATGCCAGCGTCGTGGTGCAACTGGTAATGCTGATCCTGGTAGCCGCATCGGTGACCTCATGGATCATGATTTTTCAGCGCAGCAACATGCTGCGTGCCGGTCGCCGTGCCCTGGAGAGCTTCGAAGAGCGCTTCTGGTCCGGCATCGACCTGTCCAAACTCTATCGCCAGGCCGGCAGCAATCCGGACCCGGATTCCGGCGTCGAGCAGATCTTCCGTGCCGGCTTCAAGGAATTCTCCCGTCTGCGCCAGCAGCCGGGCGTAGACCCTGAAGCGGTGATGGAAGGTGTGGCCCGCGCCATGCGCGTCGCCATATCCCGCGAGGAAGAAAAACTCGAACAGGGCCTGCCGTACCTGGCTACCGTCGGTTCGGTCAGCCCGTACATCGGCCTGTTCGGTACCGTGTGGGGGATCATGAACTCGTTCCGTGGCTTGGCTTCCGCCCAGCAGGCGACGCTGGCCACCGTAGCCCCGGGTATCGCCGAGGCGCTGATCGCCACCGCCATCGGCCTGTTCGCGGCGATTCCGGCCGTGATCGCCTACAACCGCTTCGCGGCTCGCAGCGAAACGCTGACCAGCCGTTACTACACCTTCGCCGATGAATTCCAGGCGATCCTGCACCGCAAAGTGCACACCAGCGAAGAATAA	MEANVVDHSSMWSLVSNASVVVQLVMLILVAASVTSWIMIFQRSNMLRAGRRALESFEERFWSGIDLSKLYRQAGSNPDPDSGVEQIFRAGFKEFSRLRQQPGVDPEAVMEGVARAMRVAISREEEKLEQGLPYLATVGSVSPYIGLFGTVWGIMNSFRGLASAQQATLATVAPGIAEALIATAIGLFAAIPAVIAYNRFAARSETLTSRYYTFADEFQAILHRKVHTSEE	PGPT0003750_3682	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003750-exbB-K03561	NA	NA
D1-35_01566	462	exbD_1	COG0848	Biopolymer transport protein ExbD	ATGGCTTTAATCGCTCGAGCCCGAAACAAGCGCAAGCCGGTTGCCGAGATGAACGTGGTGCCCTACATCGACGTGATGTTGGTGCTGCTGGTCATCTTCATGGTGACCGCGCCGATGCTCAATCAGGGCGTGAAGGTCGATCTGCCCAAGGTTTCCAGCGAAGCCTTGCCGCAGGACAACAACACCCAGGTCCTGACCATTTCGATCAAGGCCGACAAGACCTATTACTGGAACCTTGGCAGCGAAGTCGACACCGAGAAGCAGCAGGACCGGGCCATGACCCTGCCGCAGATGACCGATGCGGTGACCAAGATCATCAATGCCGGCAACAGCAACGGCAAGCGCACCCAGGTCTTCATTCGCGGCGACAAGACCGTCGACTACGGTGCCGTGATGGGCGCCATGGGCGGCCTGCAGAAAGCCGGGGTCGGTAATGTTGGCTTGATCACCGAGGCGCCCTGA	MALIARARNKRKPVAEMNVVPYIDVMLVLLVIFMVTAPMLNQGVKVDLPKVSSEALPQDNNTQVLTISIKADKTYYWNLGSEVDTEKQQDRAMTLPQMTDAVTKIINAGNSNGKRTQVFIRGDKTVDYGAVMGAMGGLQKAGVGNVGLITEAP				NA	NA	NA	NA	NA
D1-35_01567	1080			hypothetical protein	ATGCAGCAACAGCGAGAGCCGTCCGCCTCGGAAAGCTACTTCTGGCCTAGTGTCCTGGCAATCGGCCTGCATGTGCTGGTATTCGGCATGCTGTTCGTCAGTTTTGCCATGACACCGGAGCTGCCGCCGGCCAAGCCGATCGTGCAGGCGACCCTGTACCAGCTCAAATCGAAAAGCCAGGCCACCACGCAGACCAACCAGAAGCTTGCCGGCGAGGCGAAGAAGTCCGCCGCGCGCCAGACCGAAGTCGAGCAGATGGAGCAGAAGAAGGTCGAGCAGGAAGCGGTGAGAGCAGCGGAACAAAAGAAAGAGGAAGCTGCTCAAAAGGCCGAAGAAGCCAAGAAGGCCGATGAGGCGAAAAAAGCGGACGAGGCCAAAAAGGCCGACGAAGCCAAGAAAGCCGACGAGGCGAAGAAAACCGCCGAAGCGAAAAAGGCAGAAGAGAAACAATTGGCTGATATAGCCAAGAAGAAAGCCGAAGAAGAAGCCAAGAAAGCCGCTGAAGAAGAGGCCAAGAAAGCGGCCGCTGAAGAAGCGAAGAAAAAGATTGTCGAGGACGCGAAGAAAAAAGCGGCCGAAGACGCCAAGAAGAAAGCTGAAGCTGAAGAGGCGAAAAAGAAAGTCGCCGAAGACGCGAAGAAGAAAGCCGCCGCCGACGCCGCCAAGAAGAAGGCCCAGGACGCAGCGCGTAAATCCGCCGAAGAGAAAAAGGCCCAGGCCCTGGCAGATTTGCTTTCCGACACGCCGGAGCGTCAGCAGGCCTTGGCCGACGAGCAGGGCGATGAAGTCGCCGGCAGCTTCGACGATCTGATTCGCGCCCGAGCGGCGGAAGGCTGGGCTCGTCCTCCTTCGGCGCGCAAAGGCATGACGGTAGTATTACAAATCGGCATGTTGCCCGACGGTACGGTTACCTCGGTCAGCGTGGCCAAGTCCAGTGGCGATGGTCCGTTCGACGCTTCGGCGGTCGCGGCGGTCAAGAACATTGGGCGATTGACGGAAATGCAAGGAATGAAGCCGAGCGATTTTGCTCCCTATCGTTCGTTCAAGATGACATTCACACCTGAGGATCTAGCCTTGTGA	MQQQREPSASESYFWPSVLAIGLHVLVFGMLFVSFAMTPELPPAKPIVQATLYQLKSKSQATTQTNQKLAGEAKKSAARQTEVEQMEQKKVEQEAVRAAEQKKEEAAQKAEEAKKADEAKKADEAKKADEAKKADEAKKTAEAKKAEEKQLADIAKKKAEEEAKKAAEEEAKKAAAEEAKKKIVEDAKKKAAEDAKKKAEAEEAKKKVAEDAKKKAAADAAKKKAQDAARKSAEEKKAQALADLLSDTPERQQALADEQGDEVAGSFDDLIRARAAEGWARPPSARKGMTVVLQIGMLPDGTVTSVSVAKSSGDGPFDASAVAAVKNIGRLTEMQGMKPSDFAPYRSFKMTFTPEDLAL				NA	NA	NA	NA	NA
D1-35_01568	1281	tolB	COG0823	Tol-Pal system protein TolB	ATGCTTGTCGTTATCTGCTGCCTGGCAGGGATAGCGGTAGCAGAGGAAAAGAACATCCTGGTCACCAGCGGCAGCGACCGTGCGACCCCGATCGCCGTCGTTCCGTTCGGTTGGCAGGGCGGCAGCGTCCTGCCGGACGACATGGCGGAAATCATCGGCAACGACCTGCGCAACTCTGGCTACTACGCGCCGATTCCCAAGCAGAACATGATCAGCCTGCCGACCCAGGCCAGCGAAGTCATCTACCGCGACTGGAAGGCTCTTGGCGCCCAGTACATCATGGTCGGCAGCATCGTTCCGGCCGGTGGCCGCCTGCAGGTGCAGTACGCCCTGTTCAACGTCGCCACCGAGCAGCAAGTGCTGACCGGCAGCGTGTCGGGCAGCGTTGACCAGTTGCGTGACATGTCCCACTACATCGCCGATCAGTCGTTCGAGAAACTTACCGGCATCAAGGGCGCGTTCTCGACCCGCATGCTCTACGTGACCGCCGAACGCTTCTCCGAGAAAAATACCCGCTACACCCTGCAGCGCTCCGACTATGACGGCGCCCGCGCGGTGACCCTGCTGCAATCGCGCGAGCCGATCCTGTCGCCGCGTTTCGCCCCAGATGGCAAGCGCATCGCCTATGTGTCGTTCGAACAGAAGCGCCCGCGCATTTTCGTCCAACACATCGACACCGGTCGCCGCGAGCAGATCACCAACTTCGAAGGCCTGAACGGCGCGCCTGCCTGGTCGCCCGACGGTACGCGGCTGGCGTTCGTGCTGTCCAAGGATGGCAATCCGGACATCTACGTGATGAACCTGGCTTCACGCTCGATCTCCCGCGTGACCAACGGCCCGGGCATCAACACCGAACCGTTCTGGGGCAAGGATGGCTCGACTATCTACTTCACCTCGGACCGTGGCGGCAAGCCGCAGATCTACAAGACCAGCGCCGGTGGCGGTGGTGCCGAGCGCGTGACGTTCGTCGGTAACTACAACGCCAACCCTAAACTTTCGGCGGACGAAAAGACTCTGGTGATGATTCATCGCCAGGACGGTTTCACCAATTTCAAGGTGGCGGCCCAGGATTTGCAGCGCGGTAGCGTAAAAATCCTCACTGATAGCACTCTGGACGAGTCACCTACTGTTGCGCCCAACGGCACCATGGTAATCTACGCCACCCGCCAGCAGGGCCGGGGAGTCTTGATGCTCGTGTCCATTAATGGACGCGTGAGGCTCCCGCTTCCTACCGCTCAAGGCGAAGTCAGAGAACCGTCCTGGTCCCCTTACCTGAACTGA	MLVVICCLAGIAVAEEKNILVTSGSDRATPIAVVPFGWQGGSVLPDDMAEIIGNDLRNSGYYAPIPKQNMISLPTQASEVIYRDWKALGAQYIMVGSIVPAGGRLQVQYALFNVATEQQVLTGSVSGSVDQLRDMSHYIADQSFEKLTGIKGAFSTRMLYVTAERFSEKNTRYTLQRSDYDGARAVTLLQSREPILSPRFAPDGKRIAYVSFEQKRPRIFVQHIDTGRREQITNFEGLNGAPAWSPDGTRLAFVLSKDGNPDIYVMNLASRSISRVTNGPGINTEPFWGKDGSTIYFTSDRGGKPQIYKTSAGGGGAERVTFVGNYNANPKLSADEKTLVMIHRQDGFTNFKVAAQDLQRGSVKILTDSTLDESPTVAPNGTMVIYATRQQGRGVLMLVSINGRVRLPLPTAQGEVREPSWSPYLN				NA	NA	NA	NA	NA
D1-35_01569	498	pal_5	COG2885	Peptidoglycan-associated lipoprotein	ATGGAAATGCTGAAGTTTGGTAAATTTGCTGCGCTGGCTCTGGCCATGGCTGTAGCTGTAGGTTGCTCGTCCAAAGGCGGCGACAACGCCGGTGAAGGCGCTGTTGATCCAAACGCTGGTTACGGCGCTAACACTGGTGCAGTTGATGGCTCCCTGAGCGAAGAAGCTGCTCTGCGCGCAATCACCACCTTCTACTTCGAATACGACAGCTCGGACCTGAAGCCAGAAGCCATGCGCGCTCTGGACGTTCACGCCAAAGACCTGAAAGCAAACGGCGCTCGCGTTGTTCTGGAAGGCAACACCGACGAACGTGGTACTCGTGAGTACAACATGGCACTGGGCGAGCGTCGTGCGAAAGCCGTTCAGCGCTACCTGGTACTGCAAGGTGTTTCCCCAGCTCAGCTGGAACTGGTTTCCTACGGCGAAGAGCGTCCAGTTGCTACCGGCAACGACGAGCAGTCCTGGGCTCAAAACCGTCGCGTCGAACTGCGTAAGTAA	MEMLKFGKFAALALAMAVAVGCSSKGGDNAGEGAVDPNAGYGANTGAVDGSLSEEAALRAITTFYFEYDSSDLKPEAMRALDVHAKDLKANGARVVLEGNTDERGTREYNMALGERRAKAVQRYLVLQGVSPAQLELVSYGEERPVATGNDEQSWAQNRRVELRK				NA	NA	NA	NA	NA
D1-35_01570	834	cpoB		Cell division coordinator CpoB	ATGCGAACGTGCCGTCGTGCTGTAACTGTTCTGGCTCTCAGCCTCGCGCCGCTTGCGGCGTGGGCTGCGGTTCCTGTGGTCGATAACGATGCCGGCTATAACAATAGCGGGAGCAGTTATCCGCCTGCAGGTTACGGTACGAACGGCGCCTATGCCGGGGGAGGGGTTTCGGCCCCTGTCTCGGCACAGGGCGAGCTGTTCAACCAACTGCAGCAAATGCAGGATCAACTGTCACGCCAGCAAGGCGCGATTGAAGTTCTGCAAAACGAAGTATCGCGCATGAAGCAGGAAAACCTGGAGCGATACCAGGATCTTGATCGGCGCATAGGAACCGGCGTTGCACCTGCCGCGACTCCTGAGAATTCTCCAGCCGGTGGCGACTTGAACGCCCCCGGTGCAGCCGCAGGCGCCGGGGCGAGTGCTCCGGCAGCACCTGCCGCCGGTGGCGAGCCGGCTGACCCGGCGAAGGAAAAGCTCTATTACGATGCGGCCTTCGACCTGATCAAAGCCAAGGATTTCGACAAGGCCAGCCAGGCCTTCGGCGCTTTTCTGCGTAAATACCCCAACAGTCAGTATTCGGGTAATGCCCAATACTGGCTGGGCGAAGTGAACCTGGCCAAGGGCGACCTGCAAGGCGCCGGCCAGGCGTTCGCCAAGGTCTCGCAGCTGTATCCCAAGCATGCCAAGGTGCCGGATTCGCTGTACAAGCTCGCCGATGTCGAGCGCCGCCTCGGTCATACCGACAAGGTAAAAGGCATTCTGCAGCAGGTGGTGGCCCAATATCCGGGTACCTCCGCCGCTCAGTTGGCCCAGCGCGATCTGCAACGCATGTAA	MRTCRRAVTVLALSLAPLAAWAAVPVVDNDAGYNNSGSSYPPAGYGTNGAYAGGGVSAPVSAQGELFNQLQQMQDQLSRQQGAIEVLQNEVSRMKQENLERYQDLDRRIGTGVAPAATPENSPAGGDLNAPGAAAGAGASAPAAPAAGGEPADPAKEKLYYDAAFDLIKAKDFDKASQAFGAFLRKYPNSQYSGNAQYWLGEVNLAKGDLQGAGQAFAKVSQLYPKHAKVPDSLYKLADVERRLGHTDKVKGILQQVVAQYPGTSAAQLAQRDLQRM				NA	NA	NA	NA	NA
D1-35_01571	648	queE		7-carboxy-7-deazaguanine synthase	ATGCAAGACACATTGAGAATTACCGAAGTTTTTTACTCGTTGCAGGGTGAAACGCGGACGGCCGGGTTGCCCACTGTTTTTGTGCGCCTCACCGGTTGCCCGCTGCGTTGCCAATACTGTGACAGCGCCTACGCCTTCAGCGGCGGTACCTTGCGCACCCTCGATGACCTCGTTGAACAAGTCGCAGGTTTTCGTCCGCGCTATGTTTGCGTCACTGGCGGTGAGCCATTGGCACAACCCAATGCCATCCCTTTACTCAAGCGACTGTGCGATGCCGGCTATGAGGTCTCGCTGGAGACCAGCGGCGCCTTGGATATCTCGGCTGTCGATCCGCGCGTCAGTCGTGTCGTGGACCTGAAGACCCCGGGTTCGAAGGAGGCGCATCGTAACCGCTACGAGAACATGGAGCTGTTGACGTCCAACGACCAGGTCAAATTTGTTATCTGTTCGCGGGAAGATTACGACTGGGCGGTATCCAAGCTGATCCAGTACGGACTCGATCAGCGCGCCGGCGAGGTATTGTTCTCGCCGAGTCACCACGACCTGAACGCCCGGGATCTGGCCGACTGGGTGGTAGCGGACAACTTGCCGGTGCGCCTGCAATTGCAGCTGCATAAATATCTTTGGAACGACGAGCCGGGGCGCTGA	MQDTLRITEVFYSLQGETRTAGLPTVFVRLTGCPLRCQYCDSAYAFSGGTLRTLDDLVEQVAGFRPRYVCVTGGEPLAQPNAIPLLKRLCDAGYEVSLETSGALDISAVDPRVSRVVDLKTPGSKEAHRNRYENMELLTSNDQVKFVICSREDYDWAVSKLIQYGLDQRAGEVLFSPSHHDLNARDLADWVVADNLPVRLQLQLHKYLWNDEPGR				NA	NA	NA	NA	NA
D1-35_01572	693	queC	COG0603	7-cyano-7-deazaguanine synthase	ATGACTGAACAATCAACCACTTCTGAAAAGCGTGCCGTCATCCTGCTGTCCGGTGGCCTGGACTCGGCGACTGTCGTGGCGATGGCCCGTGCCGAAGGTTATCGCTGCTACACCATGAGCTTCGATTATGGCCAGCGCCACCGTGCCGAACTGCATGCTGCCGAGCGAGTGGCACGAGACCTGGGTGTGATCGAACACAAGGTGATCGGCCTGAACCTCAACGGCATCGGCGGTTCGGCGTTGACCGACAGTTCCATCGACGTGCCCGAAGCACCGAGCGAGGGGATTCCGGTGACCTACGTGCCGGCGCGCAATACCGTGTTCCTGTCCCTGGCGTTGGGCTGGGCCGAAGTACTGGGGGCGCGTGAGATTTTCATTGGTGTCAATGCCGTGGATTATTCCGGTTATCCGGATTGCCGCCCGGAGTTCGTCGAAGCCTTCGAGCGTATGGCCAACCTGGCGACCAAGGCTGGTGTAGAAGGGCAAGGCTTTCGTATCCAGGCGCCGCTGCAAAATCTCAGCAAGGCTGACATCGTCAAGGCGGGGGTGAAGCTGGGCGTGGACTACGGCCTTACCGTCTCGTGCTATCAGGCCGATGATCAAGGGCGTGCTTGTGGCAAGTGCGACAGCTGCCGTCTGCGTGCTGAAGGCTTCGCGGCAGCCGGCGTGAGCGATCCAACCCCCTATTTTTGA	MTEQSTTSEKRAVILLSGGLDSATVVAMARAEGYRCYTMSFDYGQRHRAELHAAERVARDLGVIEHKVIGLNLNGIGGSALTDSSIDVPEAPSEGIPVTYVPARNTVFLSLALGWAEVLGAREIFIGVNAVDYSGYPDCRPEFVEAFERMANLATKAGVEGQGFRIQAPLQNLSKADIVKAGVKLGVDYGLTVSCYQADDQGRACGKCDSCRLRAEGFAAAGVSDPTPYF				NA	NA	NA	NA	NA
D1-35_01574	1452			hypothetical protein	TTGTCCGTCAGACCTGACAGAACCTTCGCAGAAGTACTCAAGCACACCGTCAGACGCATTCTTTCCTATTGGACCCAGATCACAGTCACCTTGGGCCTGCTCGCAACAGGGCTAGGGTTCATCACACTGTATCTCTATACCCGCACGATTGGACGAATCGATCTGTTCATGCCGTCCATCGATGTGAAGTCCGCACTGTTGGTCTGGGTCGTACTGGTTTTACTGCTGATGCTTTCGTACCTGTTCATCCTCGGAGCAACAACCTGGATGTTCGGCTGCTCGGTTTCGCTGTTTTCAAACCTGAAGGATAACCAGCCGAAGATCGTTTTTTATCTGGCGTTCCCCACTGTCGTTGGATTTAGCGCATTCATCCTGACCACTTTCTTCCTGCCCGCATTAAACGCATGGGCGACATTCGCGGCGTTACTGGTGGTCGTCTTCGTTGCGTGCTTTCTCATGTACGCCTTCACGCCGTTCAAAAAAGTCATCAGGAAAAGCATCCTTGTCCAAGCCAGGCTGGATCGAGCCCGCCTGAAACGCCTGGCGCAGTATCAGCAGATAAAGCAAAAAAAACAAAAGCCGCAGAAGGCAGCCCGCGCCCCGAAGGTCCGGCTGCCAAAACGGCTTACTGATTCGTGGCAGGCACTCAAAAACAGGACGACGCCAACGTGGCTACGGATGACAGGAGAATGCCAGCGGCTATGGTCATGGGTATGGGCTCGCAAAGGATTCTGGCTCGTCTCCCTGCTCTCGCTCTCCATATTTGTCACTGTGATCTTCGCCGCTTTTCCAATCCTGTTGACGATACGTTCGTATATGGAGAGGGAAACGCCGGACACCGTCCCCTACGTGGCGGGTCTGTCTTGGTTGACACTCATCTTCACCCTGCTGCCAGTCATCATCTTTTATTGTTTCAAGGGGGACATCTACAGGCGTACCTTCAGTGGCCTGATGGCAATGATCCTCGCCTTCTGCGCCTTCACAATGCTTTCACCAGGCAGTTTGAGCCACATTACCTATATCGCGGCAGAAGGCTTGTCAGTCCGGCAAAAAACGGCAGAACGATATGCGTTGCCAGAAGACATGGAGCTGCAGGACCTGAGCGCCACCCTGTGGAAAACACGTCAGGTGGCCGCGAAAAAAATAGAAGTCGAGGCGTTCCAGTTGTATTCCTTTGGGGACGTACTGCTGCTGTGCCCAAAAGACATGCTGTCGCTTGAACTCAAGGAGCTGAAAAACTACTCGAAGTTCTGTGTCAGCACGCTCAATAGCAAAGTCGTACGAAAACCTCTGTTGCCGGCATTCGCCAGGAAGGCGCCAAATGAATGGTCCTGCCGGGTACCATCATGGCAAATCCACGCAGGACGTTGGCTAGGTTGGGAAGTGCTGGTTCCAGGTATCCATCGCTCCGCTTGGGGCGAGAAGAAAGCGCCAGACCAGGTCAGGTCATAG	MSVRPDRTFAEVLKHTVRRILSYWTQITVTLGLLATGLGFITLYLYTRTIGRIDLFMPSIDVKSALLVWVVLVLLLMLSYLFILGATTWMFGCSVSLFSNLKDNQPKIVFYLAFPTVVGFSAFILTTFFLPALNAWATFAALLVVVFVACFLMYAFTPFKKVIRKSILVQARLDRARLKRLAQYQQIKQKKQKPQKAARAPKVRLPKRLTDSWQALKNRTTPTWLRMTGECQRLWSWVWARKGFWLVSLLSLSIFVTVIFAAFPILLTIRSYMERETPDTVPYVAGLSWLTLIFTLLPVIIFYCFKGDIYRRTFSGLMAMILAFCAFTMLSPGSLSHITYIAAEGLSVRQKTAERYALPEDMELQDLSATLWKTRQVAAKKIEVEAFQLYSFGDVLLLCPKDMLSLELKELKNYSKFCVSTLNSKVVRKPLLPAFARKAPNEWSCRVPSWQIHAGRWLGWEVLVPGIHRSAWGEKKAPDQVRS				NA	NA	NA	NA	NA
D1-35_01575	1188	yycB_2	COG2807	putative transporter YycB	ATGGAAAACATCCAAACCTCTGGCACCCGCGCCGTCTGGCTGATGGTCAGTATCGTGCTGGTAGCGCTGAACCTGCGGCCCTCGATGGCCGCGGTCGGGCCGCTGCTGTCAGCCATTCGCGACGAGGTGCCCCTGAGGTTCAGCAGCGCTTCACTGCTGACCATGCTGCCAGTCATGGCGATGGGCGTGGCCATGTTCCTGGGCATGCGCATCGCCCTGCGCATCGGTGAACACCGTACCGTCGTCCTGTCGCTGCTGATCATTGGTATCGCCACGGCATCGCGCTTGTATCTGGACAGCGCCGCCGGGTTGGTCACCAGCGCGGTGGTGGCCGGGCTCGGAATCGCCTTGATCCAGGCCGTGATGCCAGCACTGATCAAGGCGCGCTTCGCCGACAGCGTCTCGCTGCTGATGGGCTTGTATGTCACCTCAATCATGGGCGGCGCGGCGCTTGCCGCCTCGTTTTCACCCTTTGTCCTGGCGCAGACCGGCAGTTGGCGCATCGGCCTGGCGATCTGGGCCTTGCTGGCGCTGGTCGCCTTGGGCTGCTGGTGGGTCCAACGCTGGAGCGTCACGCCCCTGCCCCAAGCCGCATCCCAGCGCCACCAAGCGTTTTTCGGCAACGCCCGGGCCTGGCTGCTGGCGATTTTTTTTGGCTTGGGCACCGCCTCCTATACCTGCGTACTGGCCTGGCTGGCACCGTATTACGTGGAAAAAGGCTGGAGCGAACAGCACGCCGGCCTGCTGCTGGGATTTCTCACGACGATGGAGGTGTTGTCCGGCCTCATCACTCCGGCGATCGCCAACCGCAGGCAGGACAAACGTAAAATCCTGGTCGTTCTACTGGTCATGATCATGGCCGGCTTCTGCGGCCTGATTCTCAATCCGGAGCGCCTCAGCCTGTTATGGCCGAGCCTGTTGGGGCTGGGTATCGGCGGGCTGTTCCCCATGAGCCTGATCGTGTCCCTCGATCACCTGGACAACCCACGCCGCGCCGGGGGGCTCACTGCATTCGTGCAGGGCATCGGCTACCTCATCGCCGGGCTGTCGCCGCTGATTGCCGGGATGATCCGCGACCGGCTGGGGAGTTTCGAATGGGCTTGGTGGTCGCTCGTGGCGGTCATCGCGCTGATGATGGTTATGGTATTGCGCCTGGACCCGAAACATTACGCAAAGCACATCCGCTAA	MENIQTSGTRAVWLMVSIVLVALNLRPSMAAVGPLLSAIRDEVPLRFSSASLLTMLPVMAMGVAMFLGMRIALRIGEHRTVVLSLLIIGIATASRLYLDSAAGLVTSAVVAGLGIALIQAVMPALIKARFADSVSLLMGLYVTSIMGGAALAASFSPFVLAQTGSWRIGLAIWALLALVALGCWWVQRWSVTPLPQAASQRHQAFFGNARAWLLAIFFGLGTASYTCVLAWLAPYYVEKGWSEQHAGLLLGFLTTMEVLSGLITPAIANRRQDKRKILVVLLVMIMAGFCGLILNPERLSLLWPSLLGLGIGGLFPMSLIVSLDHLDNPRRAGGLTAFVQGIGYLIAGLSPLIAGMIRDRLGSFEWAWWSLVAVIALMMVMVLRLDPKHYAKHIR	PGPT0005211_2049	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_CYANATE_DETOXIFICATION	XENOBIOTIC_CYANATE_UPTAKE,PGPT0005211-cynX|yeaN-K03449	NA	NA
D1-35_01576	915	copD		Copper resistance protein D	TTGACGAGCGACTCGATCAACATCGCGCTGCGCTTTGCCCTCTACCTGGATCTGATGTTGCTGTTCGGCCTGGCTGCGTTTGGCCTTTACAGCCTGCGAGGTCGGGAGCGGGCGTCAGGCGCGGTGTTGCCTTTCGCGTCGTTGCTGGCGACCACGGCCGTGCTTGGGATGTTGCTCTCCCTGGGCGCCATGGCGTGCATGACCTGGGCCATGAGCGGAGCTTCGGAGTGGGCGGAGCTGTGGCCGCACTTCGAAATGATGGTGCTGGAAACCGATGTCGGTCTGAGCTGGACGCTGCGCATGGCGGCGTTGTTGCTGGCCGGTTTCGCCGTGACGCTTGATAGCCGCTCGCCAACCGTCAGCCTGGTCCTGGCCATGCTGGGCGGAGCCGTGGCTCTGGCGACGCTGGCCTGGGCAGGGCACGGCGCCATGGACGAAGGCGCACGCCGGAGTTGGCATTTCATCAGCGACTTCCTGCATCTGTGGGCAGCGGGTGGCTGGGTCGGAGCCTTGGCCGCGTTTGCCCTGCTGCTTCGGCAGGCCGAACCTCAGATGGCGGTACTGGCCCGGACCTTGAGCGGATTTGCCACGGCCGGTGCGGTAATTGTGGCAGTCATCGCTGTGACAGGAGTCGCCAATTATCTGTTCATCGTCGGCACGAACTTCGCGGGGTTACTCGACAGCACCTATGGTCAGCTGCTGATGCTGAAACTCGGCCTGTTCCTGGCCATGCTGGGGTTCGCCGCGCTGAACCGTTTTCACCTGGGCCCGCTGCTGGAACAGGCCCGACAGACCGGCGAGCACCGAGCCGCGGTGAGGGCCCTGCGGCGCAGCATGCTGCTGGAGCTTGGTGTGGCGGTGATCATCCTGGGACTGGTGGCCTGGTTGGGGACGTTAAGCCCGGGGATGGAATAA	MTSDSINIALRFALYLDLMLLFGLAAFGLYSLRGRERASGAVLPFASLLATTAVLGMLLSLGAMACMTWAMSGASEWAELWPHFEMMVLETDVGLSWTLRMAALLLAGFAVTLDSRSPTVSLVLAMLGGAVALATLAWAGHGAMDEGARRSWHFISDFLHLWAAGGWVGALAAFALLLRQAEPQMAVLARTLSGFATAGAVIVAVIAVTGVANYLFIVGTNFAGLLDSTYGQLLMLKLGLFLAMLGFAALNRFHLGPLLEQARQTGEHRAAVRALRRSMLLELGVAVIILGLVAWLGTLSPGME	PGPT0004120_545	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004120-pcoD|copD-K07245	NA	NA
D1-35_01577	387	copC		Copper resistance protein C	ATGTCATTCATCAAAACCGCTGTCATGGCCGCCGCGCTGTCCACCGGCCTGTTGGCCAGTGGCCTGGCCCAGGCCCATCCGAAACTGCTGTCCTCCAGCCCCGCCGAAGGCGCTGACGGGGCATCGCCAGCGAAGATCGAGCTGCACTTTTCCGAAAATCTCGTGACCCAATTTTCCGGCGCCAAGCTGATGATGACCGGGATGCCCGGCATGTCGGCGCACGCACCAATGCCCGTGCCAGCCAAGGTTTCCGGCAGCGATGATCCGAAAACCATGGTCATTACTCCCCATGCGCCTCTCACCGCCGGCACCTACCAGGTGCAGTGGCGCGCGGTATCGTCAGACACGCACCCGATCACCGGCAATATCACGTTCAAGGTGAAGTGA	MSFIKTAVMAAALSTGLLASGLAQAHPKLLSSSPAEGADGASPAKIELHFSENLVTQFSGAKLMMTGMPGMSAHAPMPVPAKVSGSDDPKTMVITPHAPLTAGTYQVQWRAVSSDTHPITGNITFKVK	PGPT0004115_969	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004115-pcoC|copC-K07156	NA	NA
D1-35_01578	903	copB		Copper resistance protein B	ATGATCAGCCTGTTTAAATCCCCCACCCTGCCCGTGGCTGTGCTTGCCCTCGGCACCAGCCTGTCAGCCTGGGCAGCAAGCGACACGATGCACGGCATGGATCACAGCCAGATGCCGGCAATGGACCACAGCCAGATGCAAGGCATGGACTCGATGCAGGGCATGGATTCCATGCAAGCCGCGCCCACCAGCAGCCGCACACCGATCCCCGAACTGACCGCCGCTGACCGCGCCGCCGTCTATGAAGACCATGGTGGCCACGCGGTGCATGACAGCGCCATCAACTCATTCTTCCTGATCGACCAGCTGGAGTGGCAAGACGCCGATGACGGCAGCGCCCTTAGCTGGGATGCCTCCGGCTGGATCGGCGGCGACATCGACCGTTTGTGGCTGCGCTCCGAAGGCGAGCGCACCCATGGCAAGACCGAAAAAGCCGAACTCCAGGCCCTCTGGGGCCATGCCATCAGCCCTTGGTGGGATGTGGTGGCCGGCGTGCGCCAGGACTTCAAACCAGGCGACTCACAGACCTGGGCAGCATTCGGCGTACAAGGCATGGCGCTGTACAACTTCGAAGCCGAGGCCACCGCCTTCATCGGTGAAGATGGCCAGAGCGCGGCGCGCCTGGAGGGCGACTACGACATTCTGCTGACCAATCGGCTGTTTCTGCAGCCCACCGCCGAAGCCAACTTCTACGGCAAGAATGACCCTGATCGGGGCGTCGGCTCGGGGTTGTCCGACACCGAAGTGGGGCTGCGGCTGCGCTACGAAATCCGCCGTGAGTTCGCCCCGTACGTTGGCGTGACCTGGAACCGCGTCTACGGCAACACCGCCGACTACGCCCGGGACGAAGGTGAAGACCGCAGCGAGGCACGCCTGGTAGTGGGTGTGCGCCTGTGGTTCTGA	MISLFKSPTLPVAVLALGTSLSAWAASDTMHGMDHSQMPAMDHSQMQGMDSMQGMDSMQAAPTSSRTPIPELTAADRAAVYEDHGGHAVHDSAINSFFLIDQLEWQDADDGSALSWDASGWIGGDIDRLWLRSEGERTHGKTEKAELQALWGHAISPWWDVVAGVRQDFKPGDSQTWAAFGVQGMALYNFEAEATAFIGEDGQSAARLEGDYDILLTNRLFLQPTAEANFYGKNDPDRGVGSGLSDTEVGLRLRYEIRREFAPYVGVTWNRVYGNTADYARDEGEDRSEARLVVGVRLWF	PGPT0004110_471	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004110-pcoB|copB-K07233	NA	NA
D1-35_01579	1743	copA_2		Copper resistance protein A	ATGCAATCGAAAACTTCCCGGCGAACCTTCGTCAAGGGCCTGACTGCCGGCGGCATCCTTGGTGGCCTGGGCTTGTGGCGCTCGCCCGTCTGGGCGATTGCCAGCCCGGGCCAGCCCAACGTATTGAGCGGCACCGAGTTCGACCTGTCCATCGGCGAAAGCCCGGTCAATTTCACCGGCAACCCGCGCACCGCCCAGACCATCAACGGCGGCATTCCCGGGCCGTTGCTGCGCTGGCGTGAGGGCGACACCGTGACCTTGCGCGTACGCAATCGCCTGCAAGACAGCACTTCGATCCATTGGCACGGCATCCTCCTGCCGGCCAACATGGACGGCGTCCCCGGGCTGAGCTTCAAAGGCATCGAGCCCGGCGGCCTGTATGTCTACCAGTTCAAGGTCCGGCAGAACGGCACCTACTGGTACCACAGCCATTCCGGCTTCCAGGAGCAATCCGGGGTCTATGGCCCGCTGGTCATAGACGCCAGGGAACCCGAGCCTTTCCAGTATGAGCGGGACTACGTGGTCATGCTCACCGACTGGAGCGATGAGGACCCCACCCAAATCATTCGCAAGCTGAAGAAACAATCGGACTACTACAACTACAACAAACGCACGGTCGGCGACTTCATCGACGATGTCGGCAAGAACGGCTGGGCCGCCACCGTGGCCGATCGCAAGATGTGGGCCGAGATGAAGATGAATCCCACCGACCTTGCCGACGTCAGTGGCGCCACCTATACCTATCTCATGAACGGCCAGGCACCGGACACGAACTGGACCGGCCTGTTCAAGCCGGGTGAACGCATCCGCTTGCGTTTCATCAATGGCTCGTCGATGACCTATTTCGATGTGCGTATCCCCGGCCTGAAAATGACCGTCGTGGCCTCTGATGGCCAGTACGTCAAACCGGTGAGTGTCGATGAGTTCCGAATCGCCGTGGCGGAAACCTACGACGTCATCATCGAGCCGACGCAGCAAGCCTACACCCTGTTCGCCCAGGCCATGGACCGCACCGGCTACGCCCGCGGCACCCTCGCGACCCGGGCCGGATTGGCGGCGCCGGTACCGCCCCTGGACCCACGGCCGCTGGTGACCATGGACGACATGGGCATGGCCGGCATGGATCACGGATCAATGCGGGACATGGACCATAGCCAGATGCAGGGCATGGATGACATGACCGGCATGGACCACGGCACCATGCCAGGTATGGGCGGGATGCAAACCCATCCCGAAACGGAGAACGACAATCCGTTGGTGGACATGCAGGCCATGAGCGTCAAACCCAAGCTCGACGACCCAGGCATGGGCCTGCGCAACAATGGCCGCAAAGTGCTGACCTACGCGGACCTGCGCAGCACCTTTGCCGACCCCGACGGCCGCGAGCCGGGCCGCACGATCGAGCTGCACCTGACCGGGCACATGGAAAAATTCGTCTGGTCGTTCAACGGCGTGAAGTTCAGCGACGCCGCGCCGCTGCTGCTCAAGTACGGCGAGCGCCTGCGCATCGTGTTGATCAACGACACCATGATGACCCACCCCATCCACCTGCACGGCATGTGGAGCGACCTGGAAGACGAAAACGGCCAGTTCATGGTGCGCAAGCACACCATCGACGTACCGCCCGGTTCCAGGCGCAGCTATCGAGTGACCGCCGACGCGCTTGGCCGCTGGGCCTATCACTGCCACCTGCTGTTTCATATGGAAATGGGCATGTTCCGCGAAGTCCGGGTGCAGGAATGA	MQSKTSRRTFVKGLTAGGILGGLGLWRSPVWAIASPGQPNVLSGTEFDLSIGESPVNFTGNPRTAQTINGGIPGPLLRWREGDTVTLRVRNRLQDSTSIHWHGILLPANMDGVPGLSFKGIEPGGLYVYQFKVRQNGTYWYHSHSGFQEQSGVYGPLVIDAREPEPFQYERDYVVMLTDWSDEDPTQIIRKLKKQSDYYNYNKRTVGDFIDDVGKNGWAATVADRKMWAEMKMNPTDLADVSGATYTYLMNGQAPDTNWTGLFKPGERIRLRFINGSSMTYFDVRIPGLKMTVVASDGQYVKPVSVDEFRIAVAETYDVIIEPTQQAYTLFAQAMDRTGYARGTLATRAGLAAPVPPLDPRPLVTMDDMGMAGMDHGSMRDMDHSQMQGMDDMTGMDHGTMPGMGGMQTHPETENDNPLVDMQAMSVKPKLDDPGMGLRNNGRKVLTYADLRSTFADPDGREPGRTIELHLTGHMEKFVWSFNGVKFSDAAPLLLKYGERLRIVLINDTMMTHPIHLHGMWSDLEDENGQFMVRKHTIDVPPGSRRSYRVTADALGRWAYHCHLLFHMEMGMFREVRVQE	PGPT0004106_146	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004106-pcoA-NA	NA	NA
D1-35_01580	1059	nadA	COG0379	Quinolinate synthase A	ATGACGCAGATTTCCGAACGCCTTCTGGTCCAGGCCCACCTCGATGCCAAGCAGCCCAAGCCGCTGACGGCCGAGCAAGAAGCCTGGTACCGCGCCGCCATCGCCGCCGAGCTCAAGGCTCAGGACGCGGTGCTGGTTGCGCATTTCTACTGTGACCCGATCATCCAGGCCCTGGCCGAGGAGACCGGGGGCTGTGTTTCCGACTCCCTGGAAATGGCCCGCTTCGGCAACGCCCATCCGGCCAAGACCGTGGTGGTGGCCGGGGTCAAGTTCATGGGCGAGACCGCGAAGATCCTCAACCCTGAAAAACGCGTGCTGATGCCGACCCTGGAAGCCACCTGCTCCCTGGACCTGGGCTGCCCGGTGGATGAGTTCTCGGCGTTCTGCGACCAGCATCCGGAGCGCACCGTGGTGGTCTACGCCAACACTTCGGCGGCGGTAAAGGCCCGGGCCGACTGGGTCGTGACGTCCAGCTGCGCACTGGAGATCGTCGAGAGCCTGATGGACAACGGCGAGACGATCATCTGGGGCCCGGACAAGCACCTGGGGACCTACATCCAGCGCAAGACCGGCGCCGACATGCTGCTCTGGGACGGTGCCTGCATCGTCCACGAGGAGTTCAAGTCCAAGCAATTGGAAGACATGAAGGCGCTGTACCCGGACGCCGCGATCCTGGTGCACCCGGAGTCGCCGACCTCGGTGATCGAGCTGGCGGATGCCGTGGGCTCCACCAGTCAGTTGATCGCTGCGGCGCAAAGCTTGCCGAACAAGACGCTGATCGTCGCCACCGACCGCGGCATCTTCTACAAGATGCAGCAGCTGTGCCCCGACAAAGTTTTCATCGAAGCTCCCACGGCCGGCAACGGCGCGGCGTGCCGCAGTTGCGCGCATTGCCCGTGGATGGCGATGAACACCCTGGAGCGCACACTCCAGGCGCTGAAGGACGGCAGCAACGAGATCTTCGTCGACCCGGCCTTGATCCCCCAGGCGATCCGCCCGCTCAAGCGCATGCTGGACTTCACCCAGGCAGCGCGGATGAAGTTGGCGGGGAATGCTTGA	MTQISERLLVQAHLDAKQPKPLTAEQEAWYRAAIAAELKAQDAVLVAHFYCDPIIQALAEETGGCVSDSLEMARFGNAHPAKTVVVAGVKFMGETAKILNPEKRVLMPTLEATCSLDLGCPVDEFSAFCDQHPERTVVVYANTSAAVKARADWVVTSSCALEIVESLMDNGETIIWGPDKHLGTYIQRKTGADMLLWDGACIVHEEFKSKQLEDMKALYPDAAILVHPESPTSVIELADAVGSTSQLIAAAQSLPNKTLIVATDRGIFYKMQQLCPDKVFIEAPTAGNGAACRSCAHCPWMAMNTLERTLQALKDGSNEIFVDPALIPQAIRPLKRMLDFTQAARMKLAGNA	PGPT0013365_1724	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013365-nadA-K03517	NA	NA
D1-35_01581	489			hypothetical protein	ATGCCGAAACACCTGCTCACTCCCCAGGGCGATTTCCCCCCCGTCGGCCTGGGCCGTCGCCTGGCAGCGATGTTTTATGACTTCCTGCTGTGCACGGCACTGCTGATCGTGACCGGCGGCGTCTACAAGATGATCCAGATGGCGATCATCGGCGAAGAAAAGATGCGCGCCCTCACTGACGCCGGAGCATTGGACGGTGACCCGCTGCTGTCCACCGTATTGCTCTTCGTGCTGTTCGGTTTCTTCGCCAAGTTCTGGTCCCACAACGGCCAGACCCTGGGCATGCAAGTCTGGTGTATTCGCGTGCAGAACGCCGATGGCACGGCCATCAGCCTGTGGCAGGCGCTGTTGCGGTTCGTGGTGTCGATTGCGTCGTTGCTGCTGCTGGGGCTGGGTTTCATCTGGGCGCTGTTCGACAAGCGCAAGCGCGGCTGGCATGACATCTACTCGGATACGCAACTGGTGCGGATTCCCAAGAAAACCAAATAG	MPKHLLTPQGDFPPVGLGRRLAAMFYDFLLCTALLIVTGGVYKMIQMAIIGEEKMRALTDAGALDGDPLLSTVLLFVLFGFFAKFWSHNGQTLGMQVWCIRVQNADGTAISLWQALLRFVVSIASLLLLGLGFIWALFDKRKRGWHDIYSDTQLVRIPKKTK				NA	NA	NA	NA	NA
D1-35_01583	213	cspA_2	COG1278	Major cold shock protein CspA	ATGTCTACTCGTCAGAGCGGTACCGTCAAGTGGTTCAACGACGAAAAAGGTTTTGGTTTCATCACCCCTGAAAGCGGTCCGGACCTGTTCGTGCACTTCCGCGCCATCCAGGGCAACGGCTTCAAGAGCCTGAAAGAAGGCCAGAAAGTCACTTTCGTCGCTGTGCAGGGCCAGAAAGGCATGCAGGCTGACGAGGTTCAAGCCGAGGCCTGA	MSTRQSGTVKWFNDEKGFGFITPESGPDLFVHFRAIQGNGFKSLKEGQKVTFVAVQGQKGMQADEVQAEA	PGPT0014675_3216	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
D1-35_01584	1125	gcvT_1	COG0404	Aminomethyltransferase	ATGTCCACCGAACAATTGATGAAAACCCCGCTGCACGCGCTGCACCTTGAGCTGGGCGCGCGCATGGTGCCATTTGCCGGCTACGACATGCCCGTGCAATACCCGCTGGGCGTCATGAAAGAACACCAGCACACCCGTGATCAGGCCGGGCTGTTCGATGTGTCCCACATGGGCCAGATCCGCCTGACCGGCGCCGATGCCGCCAAAGCCCTGGAGACACTGGTGCCGGTGGACATCATCGACCTGCCGGTGGGCATGCAGCGCTACGCCATGTTCACCAACGATAACGGCGGCATCCTTGACGACCTGATGGTCGCCAACCTGGGCAATGACGAACTGATCCTGGTGGTCAACGCCGCCTGCAAGCATCAGGACCTGGCCCACCTGCAAGCGAAAATCGGCGACCGGTGCAGCATCGAACCGCTGTTCGAAGCCCGCGCCCTGCTCGCCCTGCAAGGCCCGGCCGCCGTCAGCGTACTCTCGCGCCTGGCGCCGGACGTGGCGAAAATGACCTTCATGCAGTTCCAGCGCGTCACGCTGCTGGGCGTGGATTGTTTTGTCAGCCGTTCGGGCTACACCGGCGAAGACGGTTTCGAGATTTCCGTGCCAGCCGCCGACGCGGAAAAACTCGCCCGCGCCCTGCTGGCCGAACCGGAAGTCGCGGCCATTGGCCTCGGTGCCCGCGACTCCCTGCGCCTGGAAGCCGGCCTGTGCCTTTATGGCCACGACATGAACACCGAAACCACGCCGATCGAAGCCAGCCTGCTCTGGGCCATTTCCAAAGTGCGCCGTGCCGACGGTGCCCGCGCCGGTGGGTTCCCCGGGGCTGAGACCATCTTCGCCCAACAACAGAGCGGCGTCAGCCGCAAACGCGTCGGCCTGCTGCCCCAGGAACGCACACCGGTGCGCGAGGGCGCGGAGATCGTCAACGAAGCTGGCGAGAACATCGGCACCGTATGCAGCGGCGGTTTTGGCCCGACGCTGGGCGGTCCGTTGGCCATGGGCTATCTGGACAGCGCCTACGTGGCAATGGATACACCGGTCTGGGCCATTGTGCGTGGGAAAAAGGTGCCCATGCTTGTAAGCAAAATGCCATTTGTCGCACAGCGCTACTACCGTGGTTGA	MSTEQLMKTPLHALHLELGARMVPFAGYDMPVQYPLGVMKEHQHTRDQAGLFDVSHMGQIRLTGADAAKALETLVPVDIIDLPVGMQRYAMFTNDNGGILDDLMVANLGNDELILVVNAACKHQDLAHLQAKIGDRCSIEPLFEARALLALQGPAAVSVLSRLAPDVAKMTFMQFQRVTLLGVDCFVSRSGYTGEDGFEISVPAADAEKLARALLAEPEVAAIGLGARDSLRLEAGLCLYGHDMNTETTPIEASLLWAISKVRRADGARAGGFPGAETIFAQQQSGVSRKRVGLLPQERTPVREGAEIVNEAGENIGTVCSGGFGPTLGGPLAMGYLDSAYVAMDTPVWAIVRGKKVPMLVSKMPFVAQRYYRG	PGPT0008130_1831	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008130-gcvT-K00605	NA	NA
D1-35_01585	1377	sdaB_1	COG1760	L-serine dehydratase 2	ATGTCGTTAAGCGTGTTCGACCTGTTCAAGATCGGCATCGGCCCTTCCAGCTCCCACACGGTTGGCCCGATGCGTGCCGCGGCCCGGTTCGTCGAAGGGCTGCGCCGTGATGACCTGCTCAAGACCACTGCCAGCGTCAAAGTCGAGCTGTATGGCTCCCTCGGTGCCACCGGCAAGGGCCATGGCAGTGACAAGGCCGTGCTGCTGGGCCTGGAAGGCGAGCACCCGGACACCGTGGACACCGAAACGGTATCCGCCCGGCTCCAGGAGATTCGCAGCAGCGGTCGCCTGAACCTGCTCGGCGAACACCCCATCGAATTCAACGAAAAACTGCACCTGGCGATGATCCGCAAACCGTTGGCCTTCCACCCCAACGGCATGATCTTCCGCGCCTTCGACGCCGCCGGGCTGCAAGTGCGCAGCCGCGAGTACTACTCGGTGGGTGGCGGTTTTGTGGTCGACGAAGGCGCCGCCGGTGCCGACCGTATCGTCGAGGATGCAACGCCCCTGACCTTCCCGTTCAAAAGCGCCAAGGACCTGCTCGCCCATTGCACCACTTACGGCCTGTCCATCAGCCAGGTGATGCTGACCAACGAAAGTGCCTGGCGCCCCGAAGCCGAAACCCGCGCCGGCCTGCTGAAGATCTGGCAGGTCATGCAGGATTGCGTGGCGGCCGGCTGTCGCAATGAAGGGATCCTGCCGGGCGGGCTGAAGGTCAAGCGACGGGCCGCCGCGCTGCATCGCCAGCTGTGCAAGAACCCCGAAGCGGCATTGCGTGATCCGTTGTCCGTGCTCGACTGGGTCAACCTGTATGCCTTGGCCGTCAACGAAGAAAACGCCTACGGCGGACGCGTTGTCACCGCGCCGACCAATGGCGCGGCAGGCATCGTTCCGGCCGTGCTGCATTACTACATGCGCTTCATTCCCGGGGCCAACGAGGATGGCGTGGTGCGGTTCCTGCTGACGGCCGCCGCCATTGGCATCCTCTACAAGGAAAACGCTTCCATTTCCGGCGCCGAGGTCGGCTGCCAGGGCGAAGTCGGCGTGGCCTGTTCCATGGCGGCCGGCGCTCTGTGCGAAGTCTTGGGCGGCACCGTGCAACAAGTGGAAAACGCCGCCGAAATCGGCATGGAACACAACCTCGGCCTGACCTGCGACCCCATTGGCGGCCTCGTCCAGGTGCCCTGCATCGAGCGCAACGCCATGGGCTCGGTGAAAGCCATCAACGCGGTGCGCATGGCCATGCGCGGCGACGGGCATCACTTCGTCTCCCTCGACAAAGTCATCCGCACCATGCGCCAGACCGGCGCCGACATGAAAAGCAAATACAAGGAGACCGCCCGCGGCGGTCTGGCGGTCAACATCATCGAATGCTGA	MSLSVFDLFKIGIGPSSSHTVGPMRAAARFVEGLRRDDLLKTTASVKVELYGSLGATGKGHGSDKAVLLGLEGEHPDTVDTETVSARLQEIRSSGRLNLLGEHPIEFNEKLHLAMIRKPLAFHPNGMIFRAFDAAGLQVRSREYYSVGGGFVVDEGAAGADRIVEDATPLTFPFKSAKDLLAHCTTYGLSISQVMLTNESAWRPEAETRAGLLKIWQVMQDCVAAGCRNEGILPGGLKVKRRAAALHRQLCKNPEAALRDPLSVLDWVNLYALAVNEENAYGGRVVTAPTNGAAGIVPAVLHYYMRFIPGANEDGVVRFLLTAAAIGILYKENASISGAEVGCQGEVGVACSMAAGALCEVLGGTVQQVENAAEIGMEHNLGLTCDPIGGLVQVPCIERNAMGSVKAINAVRMAMRGDGHHFVSLDKVIRTMRQTGADMKSKYKETARGGLAVNIIEC	PGPT0001975_1919	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
D1-35_01586	2850	gcvP		Glycine dehydrogenase (decarboxylating)	ATGACCGTAAATCTCGGCACCGCCAACGAATTCATCGCCCGTCATATCGGCCCTCGGGCCAGCGACGAGCAAGCCATGCTCGAGCGCCTGGGTTTCGACTCCCTGGAAGCCCTGAGCGCCAGCGTCATCCCGGAAAGCATCAAGGGCACCAGCGTGCTGGACATGGGCGACGGCCAGAGCGAAGCCGATGCACTGGCCTCGATCAAGGCCATCGCCGGCAAGAACCAACTGTTCAAGACCTACATCGGCCAGGGTTACTACAACTGCCACACCCCAGCGCCGATCCTGCGCAACCTCCTGGAAAACCCGGCCTGGTACACCGCCTACACGCCGTACCAGCCGGAAATTTCCCAGGGCCGTCTTGAAGCGCTGCTGAATTTCCAGACCTTGATCAGCGACCTCACCGGCCTGCCGATCGCCAACGCCTCGCTGCTCGACGAAGCCACCGCCGCTGCCGAAGCCATGACCTTCTGCAAACGCCTGAGCAAGAACAAGGGCAGCAATGCTTTCTTCGCCTCCCGCCATTGCCACCCGCAGACCCTCGACGTGCTGCGCACCCGTGCCGAGCCCCTGGGTATCGACGTGGTGGTCGGTGATGAACGCGAACTGAGCGACGTCAGCGGCTTTTTTGGCGCACTGTTGCAATACCCGGCCAGCAACGGTGACCTGTTCGACTACAGCGAGCTGACCGAACGCTTCCACGCCGCCAATGCCCTGGTGGCCGTCGCGGCTGACCTGCTGGCCCTGACACTGCTGACCGCCCCCGGCGAATTCGGTGCAGACGTGGCCATCGGCAGCGCCCAGCGCTTCGGCGTGCCACTGGGTTTCGGCGGCCCGCACGCGGCGTATTTCTCCACCAAGGATGCGTTCAAGCGCGACATGCCGGGCCGTCTGGTCGGCGTGTCCGTAGACCGTTTCGGGAAGCCGGCCCTGCGCCTGGCGATGCAGACCCGCGAGCAACACATCCGCCGCGAGAAAGCCACCAGCAACATCTGCACCGCCCAGGTGCTGCTTGCCAACATCGCCAGCATGTACGCGGTGTATCACGGCCCCAAAGGCCTGGTGCAGATTGCCAACCGCATCCACCACCTGACCGCGATCCTCGCCAAGGGCCTGGGCGCGCTGGGCCTGAGCGTCGAGCAAGAGAGCTTCTTCGACACCCTGACCCTGCACACCGGCGCACAGACTGCCGCCCTGCACGACAAGGCCCACGCTCAACGCATCAACCTGCGCGTGGTGGATGCAGAACGCCTGGGCCTGTCCCTGGACGAGACCACCAGCCAGGCTGATATCGAGGCATTGTGGAGCCTGTTGGCCGACGGCAAGGCCCTGCCGGACTTCGCCTCCCTCGCCGCCAGCGTGCAAAGCCGCATCCCGGCCGAACTGGTGCGCCAATCGGCGATCCTCAGCCACCCGGTGTTCAACCGCTACCATTCCGAAACCGAGCTGATGCGTTATCTGCGCAAGCTCGCCGACAAGGACCTGGCCCTGGATCGCACCATGATCCCGCTGGGTTCCTGCACCATGAAACTCAACGCCGCCAGCGAAATGATCCCGGTGACCTGGGCCGAATTCGGCGCCCTGCACCCGTTCGCCCCGGCCGAGCAGAGCGCCGGCTACCAGCAATTGACCGACGAGCTGGAAGCGATGCTCTGCGCCGCCACCGGCTATGACGCGGTGTCGCTGCAACCCAACGCCGGTTCCCAAGGTGAGTACGCTGGCCTGCTGGCAATCCGCGCCTACCACCAGAGCCGTGGCGAAGACCGTCGCGACATCTGCCTGATCCCGTCCTCCGCCCACGGCACCAACCCGGCCACCGCCAACATGGCCGGCATGCGCGTGGTCGTGACCGCGTGCGATGCCCGTGGCAACGTCGACATCGAAGACCTGCGCGCCAAGGCCATCGAACACCGCGAACACCTCGCCGCGCTGATGATCACCTACCCGTCCACCCACGGCGTGTTCGAAGAAGGCATCCGCGAAATCTGCGGCATCATTCATGACAACGGCGGCCAGGTGTACATCGACGGCGCCAACATGAACGCCATGGTCGGCCTTTGCGCCCCAGGCAAGTTCGGCGGCGACGTGTCGCACCTGAACCTGCACAAGACCTTCTGCATCCCTCACGGCGGTGGCGGCCCGGGCGTCGGCCCGATCGGCGTCAAGTCGCACCTGGCACCGTTCCTGCCCGGCCATGCGAACATGGAGCGCAAGGAAGGCGCGGTGTGCGCGGCGCCGTTCGGCAGTGCGAGCATTTTGCCGATCACCTGGATGTACATCCGCATGATGGGCGGCGCCGGCCTCAAGCGCGCCTCGCAACTGGCGATCCTCAACGCCAACTACATCGCCCGTCGCCTGGAAGAGCACTACCCGGTGCTCTACTCCGGCAGCAACGGCCTGGTGGCCCACGAATGCATCCTCGATTTGCGTCCGCTCAAGGACAGCAGCGGCATCAGCGTCGATGACGTCGCCAAGCGCCTGATCGACTTCGGCTTCCACGCGCCGACCATGTCGTTCCCGGTGGCCGGCACATTGATGATCGAGCCGACCGAAAGCGAATCCAAGGAAGAACTGGACCGCTTCTGCGACGCCATGATCTGCATCCGTGAAGAAATCCGCGCGGTGGAGAACGGCAGCCTCGACAAAGACGACAACCCACTGAAAAACGCCCCGCACACCGCGGCGGAACTCGTCGGCGAGTGGACTCACCCCTACAGCCGCGAACAGGCCGTGTACCCGGTGGCGTCGTTGATCGAAGGCAAGTACTGGCCGCCCGTGGGCCGGGTCGACAACGTGTTCGGCGACCGCAACCTGGTCTGCGCCTGCCCGTCGATCGAAAGCTACGCTTGA	MTVNLGTANEFIARHIGPRASDEQAMLERLGFDSLEALSASVIPESIKGTSVLDMGDGQSEADALASIKAIAGKNQLFKTYIGQGYYNCHTPAPILRNLLENPAWYTAYTPYQPEISQGRLEALLNFQTLISDLTGLPIANASLLDEATAAAEAMTFCKRLSKNKGSNAFFASRHCHPQTLDVLRTRAEPLGIDVVVGDERELSDVSGFFGALLQYPASNGDLFDYSELTERFHAANALVAVAADLLALTLLTAPGEFGADVAIGSAQRFGVPLGFGGPHAAYFSTKDAFKRDMPGRLVGVSVDRFGKPALRLAMQTREQHIRREKATSNICTAQVLLANIASMYAVYHGPKGLVQIANRIHHLTAILAKGLGALGLSVEQESFFDTLTLHTGAQTAALHDKAHAQRINLRVVDAERLGLSLDETTSQADIEALWSLLADGKALPDFASLAASVQSRIPAELVRQSAILSHPVFNRYHSETELMRYLRKLADKDLALDRTMIPLGSCTMKLNAASEMIPVTWAEFGALHPFAPAEQSAGYQQLTDELEAMLCAATGYDAVSLQPNAGSQGEYAGLLAIRAYHQSRGEDRRDICLIPSSAHGTNPATANMAGMRVVVTACDARGNVDIEDLRAKAIEHREHLAALMITYPSTHGVFEEGIREICGIIHDNGGQVYIDGANMNAMVGLCAPGKFGGDVSHLNLHKTFCIPHGGGGPGVGPIGVKSHLAPFLPGHANMERKEGAVCAAPFGSASILPITWMYIRMMGGAGLKRASQLAILNANYIARRLEEHYPVLYSGSNGLVAHECILDLRPLKDSSGISVDDVAKRLIDFGFHAPTMSFPVAGTLMIEPTESESKEELDRFCDAMICIREEIRAVENGSLDKDDNPLKNAPHTAAELVGEWTHPYSREQAVYPVASLIEGKYWPPVGRVDNVFGDRNLVCACPSIESYA	PGPT0020480_2847	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020480-gcvP-K00281	NA	NA
D1-35_01587	384	gcvH_1	COG0509	Glycine cleavage system H protein	ATGAGCGAGTTGCGTTTTACTGAAGATCACGAATGGCTGCGCACCGAAGCAGACGGCAGCGTCACCGTAGGCATTACCGCCTTCGCGCAGAACGCATTGGGCGACGTGGTTTTTGTGCAACTGCCTGAATTGCACTCCTACGCCAAGGGCGACGAAGCCTCCACGGTTGAATCGGTAAAAGCCGCCAGCGGTGTGTACATGCCGCTGGACGGTGAAGTGCTTGAAGTGAACGACAAGCTCGACGGCAGCCCGGAACTGGTCAATGAAGATCCGCTGGGCGAAGGCTGGTTCTTCCGCTTTAAACCGACCGACGCCGACGCAGTGGCTAAGCTGTTGGATCAAGACGCCTACGATCGCCTGATCAAAGCCAACGCCGAAGCCTGA	MSELRFTEDHEWLRTEADGSVTVGITAFAQNALGDVVFVQLPELHSYAKGDEASTVESVKAASGVYMPLDGEVLEVNDKLDGSPELVNEDPLGEGWFFRFKPTDADAVAKLLDQDAYDRLIKANAEA				NA	NA	NA	NA	NA
D1-35_01588	1509	tyrR_2		Transcriptional regulatory protein TyrR	ATGCGCATCCACGTCAGTTTCATCGACCGCGTCGGCATCACCCAGGAAGTCCTGGCCTTGCTCGGTGGGCGCAATTTGAACCTGGATGCGGTGGAGATGGTGCCGCCCAACGTCTACATCGATGCCCCGACCCTCAGCCCGCAGGTGCTCGACGAACTGCGCGAGGCACTGTTCAGCGTGCGCGGCGTGCAGGCGGTCACCGTGGTGGACATTCTGCCGGGGCAACGCCGACACTTGCAGCTCGATGCCTTGCTCGCCGCCATGACCGACCCGGTGCTGGCCCTCGACAGCGCCGGCAAGGTGCTGCTCGCCAACCCCGCGCTGATCGCCTTGTACGGTCGGGAACCGGCCGGGGAAAGCGTGGCCGAGCTGTTCGGCGACACGGCGCTGCTGGACGCGCTGCTGGAAAACGGCTTTCGCCTGCCGCTGCGGGAAATCACCCTCAACGGCCAGACCTTGTTGCTGGACGCCACGCCCATCACCGATGCCGGGGCGCTGCTGACGCTTTATCAGCCAAACCGCATCGGCGAACGCCTGTCGGCGCTGCATCACGACCACGCCGAGGGTTTCGATGCGCTGCTGGGCGAATCCCCGGCGATCCGCACGCTCAAGGCCCGGGCCCAGCGCGTCGCGGCCCTGGATGCGCCGCTGCTGATCCAGGGTGAGACCGGTACCGGCAAGGAACTGGTGGCCCGCGCTTGCCACGCCATCAGCGCCCGCCACGGCGCGCCATTCCTGGCCCTGAACTGCGCCGCGTTGCCGGAGAACCTCGCCGAAAGCGAACTGTTCGGCTATGCCCCCGGCGCCTTCACCGGCGCCCAGCGCGGCGGCAAGCCGGGGCTGATGGAACTGGCGAACCAGGGCACGGTGTTTCTCGATGAAATCGGCGAGATGTCGCCGTACCTGCAAGCCAAGCTGCTGCGTTTCCTCAATGACGGCAGCTTTCGCCGTGTGGGTGGCGATCGGGAGATCAAGGTCAATGTGCGGATCCTCAGCGCCACCCACCGCAACCTGGAGAAAATGGTCAGCGAAGGCTCGTTTCGCGAAGACTTGTTCTACCGCCTGAACGTGCTCAACGTCGAAGTCCCGCCGCTGCGTGAGCGCGGCCAGGACATCCTGCTGCTGGCGCGTTATTTCATGCAGCAGGCCTGCGCGCAGATCCAGCGCCCGGTCTGTCGGTTGGCCCCCGGCACCTATCCGGCATTGCTGGGCAATCGCTGGCCGGGCAATGTGCGGCAACTGCAGAACGTGATCTTCCGCGCCGCCGCCATCTGCGAAAGCAGCCTGGTGGACATCGGCGACCTCGACATCGCCGGCACCTCCGTGGCGCGCCAGGGCGATGTGGAAGTCGAAAGCCTGGAGCAAGCCGTCGAAGCGTTCGAGAAGCAATTGCTCGAATCGCTGTATGCCAACTACCCCTCTACTCGCCAACTGGCCAGTCGCTTGCAGACCTCCCATACCGCGATTGCCCATCGGTTGCGCAAGTACGGTATTTCCAACAAACCATAA	MRIHVSFIDRVGITQEVLALLGGRNLNLDAVEMVPPNVYIDAPTLSPQVLDELREALFSVRGVQAVTVVDILPGQRRHLQLDALLAAMTDPVLALDSAGKVLLANPALIALYGREPAGESVAELFGDTALLDALLENGFRLPLREITLNGQTLLLDATPITDAGALLTLYQPNRIGERLSALHHDHAEGFDALLGESPAIRTLKARAQRVAALDAPLLIQGETGTGKELVARACHAISARHGAPFLALNCAALPENLAESELFGYAPGAFTGAQRGGKPGLMELANQGTVFLDEIGEMSPYLQAKLLRFLNDGSFRRVGGDREIKVNVRILSATHRNLEKMVSEGSFREDLFYRLNVLNVEVPPLRERGQDILLLARYFMQQACAQIQRPVCRLAPGTYPALLGNRWPGNVRQLQNVIFRAAAICESSLVDIGDLDIAGTSVARQGDVEVESLEQAVEAFEKQLLESLYANYPSTRQLASRLQTSHTAIAHRLRKYGISNKP				NA	NA	NA	NA	NA
D1-35_01589	906	dmlR_8		HTH-type transcriptional regulator DmlR	ATGGATCGTCTACAAGCAATGCGGGTGTTCGTAACCGTGGTGGACCTGGGCAGCCAATCGGCGGCGGCCGAACATCTTGACCTGTCGCGACCGGTGGTGTCGCGGTACCTGGCGGAGCTGGAAGACTGGGTCGGTGCTCGGCTCATGCACCGCACCACGCGCAAACTGAGCCTGACGGCCGCCGGCTCGGAGATCCTACCGCGCTGCCGACAGATGCTCGAACTGTCCGGCGACATCCAAGCCGCCGTCAGCACGCCGGAAGACGCGCCCCGGGGCATGCTGCGCATCACCGCCAGCCCGTCGTTCGGCCAGTCCCAGCTGGCGTCAGCCATGGCCGAGTTCGTCAAGCGCTACCCGGGGGTAAGCGTCGACCTGCAGATGCTCGATCGCACGGTGAACCTGGTGGATGAGCGCATAGACCTGGCGATCCGCATGAGCAACGATCTCGATCCCAACCTGATCGCCCGGCGCCTCACGGTGTGCCGCTCGGTGATCTGCGCCTCGCCCCGTTACCTGCGCGAGCAGCCGACACCGCAACGGGTGGAGGATTTGAGCCGGCACAACTGCCTGACCCATTCCTACGTCGGCAAGAGCTTGTGGCATTTCGAGCAGGACGGCGAACAGATCGCGGTGCCGGTGCAGGGCAACATCAGCGCCAACGAAGCCAGCACGCTGCTCCAGGCAACGATCGCCGGGGCTGGCGTGGCGATGCTGCCCAGCTACCAGGCCGGCCCTTATCTGCGCAGTGGTGAACTGGTGCGCCTGCTGGCCCACGCCGAACCGCGGCTGATGAACATGTATGCGGTGTATGCATCGCGCAAGCACATGCCCTCGGCGCTGCGTTGCCTGGTGGATTTTCTGGTGCTGAAGTTTCCCGAGACGCCTGAGTGGGATGACGGGCTATAA	MDRLQAMRVFVTVVDLGSQSAAAEHLDLSRPVVSRYLAELEDWVGARLMHRTTRKLSLTAAGSEILPRCRQMLELSGDIQAAVSTPEDAPRGMLRITASPSFGQSQLASAMAEFVKRYPGVSVDLQMLDRTVNLVDERIDLAIRMSNDLDPNLIARRLTVCRSVICASPRYLREQPTPQRVEDLSRHNCLTHSYVGKSLWHFEQDGEQIAVPVQGNISANEASTLLQATIAGAGVAMLPSYQAGPYLRSGELVRLLAHAEPRLMNMYAVYASRKHMPSALRCLVDFLVLKFPETPEWDDGL				NA	NA	NA	NA	NA
D1-35_01590	879			hypothetical protein	ATGACCGGATTCACCCCAATCAAACGCCTGCTGCTGGCGACCGCCGCCTTGGCCTTCACCGCCCAGGCCTGGGCGGCCGACTTGACGCTCGATGTCTATAACCCCGGCGCCGCGGCGATTTTTCCGGTGACTTCGGTTCTGGTCAGCGGCGACAAGGAGGCAATCCTGGTGGACGCCCAGTTCGGCAAGGCCCAGGCCGAGCAGGTCGTGGAGAAAATCCGCGCCAGCGGCAAACGGCTGACCACGATTTACATCAGCCACGGCGATCCGGACTACTATTTCGGCCTCGAGACCCTGACCTCAGCGTTCCCTGAAGCCAAGGTGCTCGCGTCGGCAGCGACCGTCGAGCACATCCAGCACACCGCCGACGGCAAGTTGAAATACTGGGGGCCGATCCTGAAGGCCGATGCACCGGCCAAGACGCTCGTGCCCCAGGTACTCAAGGGCGACAGCCTGACGCTGGAGGGCAAGCGCTTGCAGATCATCGGCCTCGACGGCCCGCAACCGGACCGCAGCTTTGTCTGGATTCCATCGATCAAGGCAGTGGTTGGCGGCGTGGTGGTGGCGGAAAACATTCACGTCTGGATGGCTGATACCCAGACGCCGCAATCCCACAAGGACTGGCTGGCGACGCTGGCGGGCATTGAAAAACTGCAACCGGCCACGGTGATCCCCGGCCATTACCTGGGTGAAAGTGCCCGCTCCCTGAAGCCGGTGCGCTTCACCGCCGACTACATCAAGGCCTTCGACGAGGAGACCGCCAAGGCCAAGGATTCCGCTGCGCTGATCGCCGCGATGAAACTACGCTATCCCAACCTGGGGGAGGACAGCTCCCTGGAGCTCAGCGCCAAGGTCGCGAAGGGCGAGATGAAGTGGTGA	MTGFTPIKRLLLATAALAFTAQAWAADLTLDVYNPGAAAIFPVTSVLVSGDKEAILVDAQFGKAQAEQVVEKIRASGKRLTTIYISHGDPDYYFGLETLTSAFPEAKVLASAATVEHIQHTADGKLKYWGPILKADAPAKTLVPQVLKGDSLTLEGKRLQIIGLDGPQPDRSFVWIPSIKAVVGGVVVAENIHVWMADTQTPQSHKDWLATLAGIEKLQPATVIPGHYLGESARSLKPVRFTADYIKAFDEETAKAKDSAALIAAMKLRYPNLGEDSSLELSAKVAKGEMKW				NA	NA	NA	NA	NA
D1-35_01591	615			hypothetical protein	ATGAGCAAAATCGCAATCATCGGCGCCACCGGCCGGGCCGGCAGCCAGCTGTTGGAAGAGGCCCTGCGACGCGGCCACAGCGTGACGGCCATTGCCCGCAATACGACCAAGATCGGCGAGCGGGTCGGCGTGGTCAGCAAGCAACTGGACGTACTGGACAGCGAGGCGTTGGCCGCAGCAGTCGCCGGCCATGACGTGGTAATCAGCGCCGCGCACTTTGCCACTGTGCCGGCCGATAAGGTCATCGCACCGGTGAAAGCCGCCGGGGTCAAGCGCCTGCTGGTGGTGGGCGGTGCCGGTTCGTTGTTGCTGCCGGATGACAGCCGTGTGATCGACAGCGAGGGCTTCCCGGAGGAATACCTGGCCGAAGCCAGCGCCGGTGCAATGTTCCTCGACGTGTTGCGCAAGGAACAGGACCTGGATTGGACCTTCCTCTCGCCCTCGGCGGAGTTCGTCGAAACCGAGCGCACCGGGCAGTTCCGTGTCGGCAAGGATCACTTGTTGTTCGACCAGGCCGGACGCAGTTGGATCAGCTTTGCCGACTACGCCATTGCGATGATCGATGAAATCGAAACGCCGCAGTTTTCACGGACGCGGTTTACCGTCGGCTATTGA	MSKIAIIGATGRAGSQLLEEALRRGHSVTAIARNTTKIGERVGVVSKQLDVLDSEALAAAVAGHDVVISAAHFATVPADKVIAPVKAAGVKRLLVVGGAGSLLLPDDSRVIDSEGFPEEYLAEASAGAMFLDVLRKEQDLDWTFLSPSAEFVETERTGQFRVGKDHLLFDQAGRSWISFADYAIAMIDEIETPQFSRTRFTVGY	PGPT0020900_1562	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
D1-35_01592	339	ydgC	COG3136	Inner membrane protein YdgC	GTGGATCTGATTTTCAAGGCGGCGCTCGGCGCGGCCGTAGTGGTCATCCTGGCGATGCTCGCCAAGACCAGGAATTATTACATCGCCGGGCTGGTGCCGCTGTTTCCGACGTTCGCCCTGATCGCCCACTACATCGTCGGCAAGGGCCGCTCGGTGGACGACCTGAAGACCACCATCGTGTTCGGCATGTGGTCGATCATTCCGTACTTCGTCTATCTTGCGACGCTGTACTTGATGGTCGACCGCATGCGCCTCGAAGCTTCATTGGCCGTAGCAGCCGTCGCCTGGCTGATGGCGGCGACGGTGCTGGTCAGCGTCTGGGTGCGGCTTCACGGCTGA	MDLIFKAALGAAVVVILAMLAKTRNYYIAGLVPLFPTFALIAHYIVGKGRSVDDLKTTIVFGMWSIIPYFVYLATLYLMVDRMRLEASLAVAAVAWLMAATVLVSVWVRLHG				NA	NA	NA	NA	NA
D1-35_01593	1329	dctD_2		C4-dicarboxylate transport transcriptional regulatory protein DctD	ATGAACAACGACCTGAGCGTTCTGATCGTCGAAGACGACCCCCATGTCCTGTTGGGCTGCCAACAGGCCCTGACCCTGGAAGACATTCCCTGCGTGGGCGTGGGCAGCGCCGAAGAGGCCCTGGAACGGGTTGGCGATGATTTTGCAGGTATCGTCATCAGTGACATCCGGCTGCCGGGCATCGATGGGCTGGAACTGCTGACCCGGCTCAAGGCCCGCGACCGCAGCCTGCCAGTGGTGTTGATCACCGGCCACGGCGACATCTCCATGGCCGTCGGCGCCATGCAGAAAGGCGCCTACGATTTCATGGAAAAACCCTTCTCTCCCGAACGCCTGGTGGACGTCGCCCGCCGCGCCCTGGAGCAACGCAGCCTGGCCCGGGAAGTTTCAACGCTGCGCAGGAAACTGGCCGAACGCGATTCGCTGGAAGGCCGGATCATTGGCCGTTCGCCGGCCATGCAGCATTTGCGAGCACTGATCGCCAATGTCGCCGATACCTCGGCCAACGTACTGATCGAGGGCGAAACCGGCACCGGCAAGGAGCTGGTCGCCCGCTGCCTGCATGATTTCAGCCGACGCCACGACAAACAGTTCGTCGCGCTGAACTGCGGGGGGCTGCCGGAAAACCTGTTCGAAAGCGAGATTTTCGGTCACGAGGCCAACGCCTTCACCGGTGCGGGCAAACGTCGGATCGGCAAGATCGAGCACGCCGATGGCGGCACGCTGTTTCTCGATGAAGTGGAAAGCATGCCCCTGCCCTTGCAGATCAAGCTGCTGCGGGTATTGCAGGAACGCACCCTGGAGCGCCTGGGTTCGAACCAGAGCGTGGCCGTGGATTGTCGCGTGATCGCCGCCACCAAGTCCGACCTCGACGAAATGGGCCGGGCCGGGCAGTTCCGCAGCGACCTGTATTACCGCCTCAACGTGGTCACCCTGGAACTGCCGCCCCTGCGCGAACGGCGCGAGGACATCCTGCAACTGTTCGAGCATTTCCTCCAGCAATCGTCCCTGCGCTTCGACCGCACGGTGCCGGAGCTGGACAACCAGACCCTGTCGAACCTGATGAGCCATGACTGGCCGGGCAACGTACGTGAACTGCGCAACGTCGCCGAGCGTTATGCCCTTGGCCTGCCCGCTTTCAAGAAGTCCGGCGCCAGCGCGGGCAGCCAGGGCCTGGCTTTCGCCGAAGCGGTGGAAGCCTTCGAGCGCAACCTGTTGGTGGACGCATTGCAACGCAGCGGCGGCAACCTGACCCAGGCCAGCCAGGAACTGGGCATGGCCAAGACCACGCTGTTCGACAAAGTCAAAAAATATGGCTTGAGCCACTGA	MNNDLSVLIVEDDPHVLLGCQQALTLEDIPCVGVGSAEEALERVGDDFAGIVISDIRLPGIDGLELLTRLKARDRSLPVVLITGHGDISMAVGAMQKGAYDFMEKPFSPERLVDVARRALEQRSLAREVSTLRRKLAERDSLEGRIIGRSPAMQHLRALIANVADTSANVLIEGETGTGKELVARCLHDFSRRHDKQFVALNCGGLPENLFESEIFGHEANAFTGAGKRRIGKIEHADGGTLFLDEVESMPLPLQIKLLRVLQERTLERLGSNQSVAVDCRVIAATKSDLDEMGRAGQFRSDLYYRLNVVTLELPPLRERREDILQLFEHFLQQSSLRFDRTVPELDNQTLSNLMSHDWPGNVRELRNVAERYALGLPAFKKSGASAGSQGLAFAEAVEAFERNLLVDALQRSGGNLTQASQELGMAKTTLFDKVKKYGLSH	PGPT0000800_77	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000800-aauR-K17061	NA	NA
D1-35_01594	1902	dctB_2		C4-dicarboxylate transport sensor protein DctB	ATGAAATGCGACCCCACCCTCTATCGCGCCGCGCCGCCATCACTTGCCGTGAAACCCCGCCTGATCCGCCACCTGTTCCTGCCGCCGCTGGTCATTGCGCTGATGATCGGCCTGGGTTACCTCGGCTTCTGGATCAGCGAGCACTACGGCATTCGCGGCCTGGCCGAGAATGGCGAACGCCAGCTGGAACTGCATGCCCGTGCGGTGGAAAGCGAGATCAGCAAATACACCTATCTGCCCAGCCTGCTGGAACTTGAATCCAGCGTCTCGAAACTGCTCGACGACCCGACACCCGAGCACCGCAAGACCGTCAATGAATACCTCGAAGGCCTGAATCGGCGCAGCCGTAGCCGGGCCATCTATGTCATGGACACCACCGGCCGGGTGATGGCCACCAGCAACTGGCGCGACGTCGACAGTTACCTGGGCGAAGACCTGTCATTTCGCGCCTACTTCCAGAACGCCGTTCGCGGCCAGCCGGGACGCTTCTACGGCATCGGCAGCACCAACGGCGAGCCGGGCTACTACCTGGCCCATGGGCTGGAAGAAAGGGGCAAGATCATCGGCGTGGCCGTGGTCAAGGTGCGTCTCGAAGCCATGGAGGAACGCTGGCAGCGAGCACGCCTGGAAGCCTTCGTCAGCGACGAGAACGGCATCATCATCCTCTCCAGCGATCCGGCGCGACGGCTCAAGTCCGTACGGCCGCTGAGCGACGAAACCAAGGAACGCCTGGCCCGCAGCCTGCAATATTACTGGTTCCCGCTGAACGAACTGATCCCCTTGGCCCGCGAGCAACTGGCCGAAGGCATGGAGAAGCTGACCTTCCCCGCCAATACCGAAATCGCCGCCGACCAGCAGGCCACCAGCTACCTCTCGCAAACCCGGCCGTTGAGCGACACGCCGTGGAATTTCACCTTGCTCACCCCGCTTGAAGACCTGCGCCGCCAAGCGATCAACCAGGGCATCCTGGTGGCCGTGGCGTTTGCCCTGGTGGCCTTCCTGCTGATCGCCTGGAACGAGCGGCGCAAGGTGATTGCCACCCGCCTCGCCGCCCGCGAAGCGTTGCAGGAAGCCAACAACCAGCTCGAACGTCGGATTACCGAACGCACCACCGACCTGCGGGCCAGCAACGAGCGGCTCAAAGGCCAGATCCGCGAACGCCGGCAAGCGGAAGAGACCCTGCGCCGCGCCCAGGACGAACTGGTACAGGCCGGCAAGTTGGCGGCCATCGGCCAGATGTCCACCAGCATCGCTCATGAACTCAACCAGCCGCTGGCTGCGTTGCGCACGTTGTCCGGCAACACGGTGCGCTTCCTGGAGCGCGGCCAACTGGACATTGCCAGCGCCAACCTCAGGACCATCAACGACCTGATCGATCGCATGGGCCGGATCACCGCCAGCCTGCGTGCCTTTGCCCGGCGCGGTGACGACAAAGGCCGGGCCAGCCTGGGCAAGGCCGTCGAGGCCGCGCTGCAATTGCTCGGGGCGCGTCTGGAAAAACTTGGCGTCCAGACACAGACAGCTTTCGAAGACGTCCAGCTGCAAATCGACCAGACACGCTTGGAGCAGATTCTGGTGAATCTGATTGGCAACGCCCTGGACGCGATGCAAGTCCAACCCGAGCCAAGACTGTGGCTCGCCGGTGAGATGAGCGATGGCAAATACCGCCTGCGGGTGCGCGATAACGGCCACGGCATCGATCCGCAGGCACGCAAGCATCTGTTCGAACCTTTCTTCACCACCAAGCCCGGCGAACAAGGCCTGGGCCTCGGCCTGACGCTTTCGGCGAGCCTGTGCGCCGCCGCGGGCGGGCACCTGGGCGTCGAGCACCCGGACGATGGTGGCACCACGTTTGTCCTCAGTTTACCGTTGGTAAGCCTTCCACCTGCCGAGCCGCTATGA	MKCDPTLYRAAPPSLAVKPRLIRHLFLPPLVIALMIGLGYLGFWISEHYGIRGLAENGERQLELHARAVESEISKYTYLPSLLELESSVSKLLDDPTPEHRKTVNEYLEGLNRRSRSRAIYVMDTTGRVMATSNWRDVDSYLGEDLSFRAYFQNAVRGQPGRFYGIGSTNGEPGYYLAHGLEERGKIIGVAVVKVRLEAMEERWQRARLEAFVSDENGIIILSSDPARRLKSVRPLSDETKERLARSLQYYWFPLNELIPLAREQLAEGMEKLTFPANTEIAADQQATSYLSQTRPLSDTPWNFTLLTPLEDLRRQAINQGILVAVAFALVAFLLIAWNERRKVIATRLAAREALQEANNQLERRITERTTDLRASNERLKGQIRERRQAEETLRRAQDELVQAGKLAAIGQMSTSIAHELNQPLAALRTLSGNTVRFLERGQLDIASANLRTINDLIDRMGRITASLRAFARRGDDKGRASLGKAVEAALQLLGARLEKLGVQTQTAFEDVQLQIDQTRLEQILVNLIGNALDAMQVQPEPRLWLAGEMSDGKYRLRVRDNGHGIDPQARKHLFEPFFTTKPGEQGLGLGLTLSASLCAAAGGHLGVEHPDDGGTTFVLSLPLVSLPPAEPL	PGPT0000790_44	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000790-aauS-K17060	NA	NA
D1-35_01595	735	glnQ_3		Glutamine transport ATP-binding protein GlnQ	ATGATCTCTATCAAGAACATCAACAAGTGGTATGGGGACTTCCAGGTACTGACCAATTGCAGCACCGAGGTCAGCAAGGGTGAGGTTGTGGTGGTGTGCGGGCCGTCGGGTTCGGGCAAGTCCACGCTGATCAAGTGCGTCAACGCGCTGGAGCCGTTCCAGAAAGGCGACATCGTGGTCGATGGCACCTCCATCGCCGACCCGAAGACCAACCTGCCGAAACTGCGTTCGCGGGTGGGCATGGTGTTCCAGCACTTCGAATTGTTCCCGCACCTGACCATCACCGAAAACCTGACCATCGCGCAGATCAAGGTGCTGGGCCGCAGCAAGGAAGAAGCCACCAAAAAAGGCCTGCAACTGCTTGAGCGCGTCGGCCTGTCCGCCCACGCCCACAAGCACCCGGGCCAGCTTTCCGGCGGCCAGCAACAGCGCGTGGCGATTGCCCGTGCGCTGGCGATGGACCCGGTGGTGATGCTGTTCGACGAACCGACCTCGGCCCTCGACCCGGAAATGGTCAACGAAGTGCTGGACGTGATGGTGCAACTGGCCCACGAAGGCATGACCATGATGTGCGTGACCCACGAAATGGGCTTCGCCCGCAAAGTGGCGAACCGGGTGATCTTCATGGACCAGGGCCAGATCATCGAGGATTGCGAGAAGGAAGAGTTCTTCGGCGACATCAGCGCCCGCTCCGAACGCGCGCAGCATTTCCTTGAGAAAATCCTGCAGCATTAA	MISIKNINKWYGDFQVLTNCSTEVSKGEVVVVCGPSGSGKSTLIKCVNALEPFQKGDIVVDGTSIADPKTNLPKLRSRVGMVFQHFELFPHLTITENLTIAQIKVLGRSKEEATKKGLQLLERVGLSAHAHKHPGQLSGGQQQRVAIARALAMDPVVMLFDEPTSALDPEMVNEVLDVMVQLAHEGMTMMCVTHEMGFARKVANRVIFMDQGQIIEDCEKEEFFGDISARSERAQHFLEKILQH	PGPT0000765_270	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000765-gltL|aatP-K10004	NA	NA
D1-35_01596	672	gltK	COG0765	Glutamate/aspartate import permease protein GltK	ATGGAATTCGACTTCACAGGCATCATCCCGGCCATTCCCGGTTTGTGGAACGGCATGGTGATGACCCTCAAGCTGATGGCCCTGGGTGTCGTTGGCGGGATCATCCTGGGGACGATCCTGGCGCTGATGCGCCTGTCCCACAACAAGCTGGTCTCCAACATCGCTGGCGCCTACGTCAACTATTTCCGCTCGATCCCGTTGCTGCTGGTCATCACCTGGTTCTACCTGGCGGTGCCGTTCGTGCTGCGCTGGATCACCGGTGAAGACACGCCGATCGGCGCGTTCGGCTCTTGCGTCGTGGCGTTCATGATGTTCGAGGCGGCTTACTTCTGCGAAATCGTCCGGGCCGGCGTGCAGTCGATCCCCAAGGGCCAGATGGGCGCGGCACAGGCACTGGGCATGAACTATGGCCAGGTCATGCGCCTGATCATCCTGCCCCAGGCGTTTCGCAAGATGACCCCGCTGTTGCTGCAACAGAGCATCATCCTGTTTCAGGACACCTCGCTGGTCTACACCGTCGGCCTGGTGGACTTCCTCAATGCTTCGCGGGCCAATGGCGACATCATCGGCCGCTCCAATGAGTTCCTGATCATCGCAGGTCTCGTGTACTTCACAATCAGCTTTGCCGCCTCGCTGCTGGTCAAGCGTCTGCAAAAAAGGTTCGCCGTATGA	MEFDFTGIIPAIPGLWNGMVMTLKLMALGVVGGIILGTILALMRLSHNKLVSNIAGAYVNYFRSIPLLLVITWFYLAVPFVLRWITGEDTPIGAFGSCVVAFMMFEAAYFCEIVRAGVQSIPKGQMGAAQALGMNYGQVMRLIILPQAFRKMTPLLLQQSIILFQDTSLVYTVGLVDFLNASRANGDIIGRSNEFLIIAGLVYFTISFAASLLVKRLQKRFAV	PGPT0000755_553	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000755-gltK|aatM-K10002	NA	NA
D1-35_01597	747	gltJ	COG0765	Glutamate/aspartate import permease protein GltJ	ATGAATTACAACTGGGACTGGGGCGTGTTCTTCAAGTCCACCGGCGTGGGCAGCGAGATCTATCTCGACTGGTACGTGGCCGGCCTGGGCTGGACCATAGCCATCGCCGTCGTCGCCTGGATCATCGCCCTGCTGCTGGGCTCGATCCTGGGTGTGATGCGCACCGTGCCGAACCGGCTGGTGTCGGGCATCGCGACTTGCTACGTGGAACTCTTTCGTAATGTGCCGCTGCTGGTGCAGCTGTTCATCTGGTACTTCCTGGTGCCGGACCTGCTGCCCGCCGACATGCAGGAATGGTACAAGCAGGACCTCAACCCGACCACCTCGGCCTACCTGAGCGTCGTCGTCTGCCTGGGCCTGTTCACTGCCGCACGGGTTTGCGAGCAGGTGCGCACCGGCATCCAGGCGCTGCCACGCGGCCAGGAAGCCGCCGCCCGCGCCATGGGCTTCAAGCTGCCGCAGATCTACTGGAACGTGCTGTTGCCCCAGGCCTACCGGATCATCATTCCGCCGCTTACCTCGGAATTTCTCAACGTCTTCAAGAACTCCTCCGTGGCCTCGCTGATCGGCCTGATGGAGCTGCTCGCGCAGACCAAGCAGACCGCCGAATTCTCGGCCAACCTGTTCGAAGCCTTTACCCTGGCGACGCTGATCTACTTTACCCTGAACATGAGCCTGATGCTGCTCATGCGCATGGTCGAGAAGAAAGTCGCGGTGCCCGGCCTGATCTCCGTGGGGGGTAAATAA	MNYNWDWGVFFKSTGVGSEIYLDWYVAGLGWTIAIAVVAWIIALLLGSILGVMRTVPNRLVSGIATCYVELFRNVPLLVQLFIWYFLVPDLLPADMQEWYKQDLNPTTSAYLSVVVCLGLFTAARVCEQVRTGIQALPRGQEAAARAMGFKLPQIYWNVLLPQAYRIIIPPLTSEFLNVFKNSSVASLIGLMELLAQTKQTAEFSANLFEAFTLATLIYFTLNMSLMLLMRMVEKKVAVPGLISVGGK	PGPT0000760_146	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000760-gltJ|aatQ-K10003	NA	NA
D1-35_01598	915	gltI_1	COG0834	Glutamate/aspartate import solute-binding protein	ATGCGCATCGTTCCCCATCTCCTGGGCGCAGCCGTTGCTGCCGCTCTCATCAGCACTCCGGTCTTCGCCGCCGAACTGACCGGCACACTGAAAAAGATCAAAGAGTCCGGCGTCGTTACGCTCGGCCACCGCGACGCCTCCATTCCGTTTTCCTACATCGCGGACGCTTCCGGCAAACCGGTCGGCTACTCCCACGACATCCAGCTGAAAGTCGTCGAAGCTCTGAAAAAAGAGCTGGATGTGCCGAACCTGCAGGTCAAGTACAACCTGGTCACCTCGCAAACCCGTATCCCGCTGGTACAGAACGGCACTGTGGACCTGGAGTGCGGCTCCACCACCAACAACGTCGAGCGCCAGCAACAAGTCGCCTTCTCCGTTGGCATCTTCGAGATCGGCACCAAGCTGCTGTCCAAGAAAGACTCCAAGTACAAGGATTTCGACGACCTCAAGGGCAAGAACGTCGTGACCACAGCCGGCACCACGTCCGAGCGCCTGCTCAAGGCCATGAACGCCGACAAGCAGATGGGCATGAACGTCATCTCCGCCAAGGACCACGGCGAATCCTTCCAGATGCTGGAATCGGGTCGTGCCGTCGCGTTCATGATGGACGACGCGCTGCTGGCCGGCGAAGCCGCCAAGGCCAAGAAGGCCGATGACTGGGCCGTCACCGGTACTCCGCAATCCTACGAAATCTACGGCTGCATGGTGCGCAAGGGCGACGAGCCGTTCAAAAAGGTTGTCGATGACGCCATCAAGGCCACCTACGCGTCGGGCGAGATCAACAAGATCTACGAAAAATGGTTCATGCAACCGATCCCGCCAAAAGGCCTGAACCTCAATTTCCCGATGAGCGACGAACTCAAGGCACTGATCGCCACGCCGACCGATAAAGCGGCTGACGACAAGAAATCCTGA	MRIVPHLLGAAVAAALISTPVFAAELTGTLKKIKESGVVTLGHRDASIPFSYIADASGKPVGYSHDIQLKVVEALKKELDVPNLQVKYNLVTSQTRIPLVQNGTVDLECGSTTNNVERQQQVAFSVGIFEIGTKLLSKKDSKYKDFDDLKGKNVVTTAGTTSERLLKAMNADKQMGMNVISAKDHGESFQMLESGRAVAFMMDDALLAGEAAKAKKADDWAVTGTPQSYEIYGCMVRKGDEPFKKVVDDAIKATYASGEINKIYEKWFMQPIPPKGLNLNFPMSDELKALIATPTDKAADDKKS	PGPT0000750_245	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000750-gltI|aatJ-K10001	NA	NA
D1-35_01599	1539	glpD	COG0578	Aerobic glycerol-3-phosphate dehydrogenase	ATGCCCAATTCCACCTTGCCTATGCCCCCTCTCGCTGAAATCTATGACGTCGCCGTCATCGGTGGCGGTATCAATGGTGTAGGGATCGCCGCGGATGCTGCTGGTCGCGGTCTTTCGGTGTTCCTTTGCGAAAAGGACGATTTGGCCAGCCACACCTCTTCGGCCAGCAGCAAGCTGATCCATGGCGGCCTGCGTTATCTCGAACATTACGAATTTCGCCTGGTGCGTGAAGCACTCGCCGAACGCGAAGTGCTGCTGACCAAGGCTCCGCATATCGTCAAGCAGATGCGCTTCGTGTTGCCCCATCGCCCGCACCTGCGTCCGGCCTGGATGATCCGCGCCGGCCTGTTCCTTTATGATCACCTGGGCAAGCGCGAGCAACTCGCCGGCTCCCGGAGCCTGAAATTCGGCGCCGACAGCGCATTAAAAAGCGAGATCACCAAAGGCTTCGAATACTCGGATTGCTGGGTCGATGACGCCCGGCTGGTGGTGCTCAATGCCATGGCGGCGCGAGAAAAAGGCGCGCATATCCACACCCGCACCCGTTGCGTCAGCGCTCGGCGCAGTAAAGGCCTGTGGCAATTGAACCTGGAACGTTCCGACGGCAGCCTGTTTTCAATCCTGGCCAAATCGCTGGTAAACGCCGCCGGCCCATGGGTCGCCAAGTTCATTCGTGATGACCTGAAAATGGAATCGCCCTACGGCATCCGTCTGATCCAGGGCAGCCATCTGATCGTGCCAAAACTCTACGAAGGCGAGCATGCGCACATTCTTCAAAACGAAGACCAGCGCATCGTCTTCACCATCCCGTATCTGAATCAATTCACCCTGATAGGCACGACCGACCGCGAATACACCGGTGATCCGGCCAAAGTGGCAATTACCGAGGGTGAAACGGACTACCTGCTGAAGGTCGTCAATGCGCACTTCAAGAAGCAGATCAGCCGCGAAGACATCCTGCACAGCTACTCCGGGGTTCGGCCTTTGTGCAACGACGAATCCGACAACCCTTCCGCCGTGACCCGGGACTACACCCTGGCGCTGTCGGGCGGTGGCCAGGAGGCTCCGTTGTTGTCGGTGTTCGGCGGCAAACTGACCACGTACCGCAAGCTTGCCGAGTCGGCGATGGCCCAGCTGGCTCCGTATTTCACCCAGATGCGCCCGAGCTGGACGGCCCTGGAGACCTTGCCCGGCGGCGAGAACATGACCACGCCACAGGCTTTGTGCTCGGCAATCCGCGACAAGTTCGACTGGCTGCCCACCGATATCGCCCGCCGCTGGGCCACTACCTATGGCAGCCGCACCTGGCGCATGCTCGAAGGCGTGCACAGCCTTGCCGACCTGGGCGAGCACATCGGCGCGGGCCTTTATACCCGGGAGGTCGACTATCTGTGCAGCGACGAGTGGGCCATCGACGCCGAGGATATTCTCTGGCGTCGCAGCAAGCTGGGCTTGTTCACAACCGCCGCTGAACAGGAGAAGCTTCGCACGTACCTGGACAAGGTCGAGCACAACCGGCGCAAGATCGAAGCGGCCTGA	MPNSTLPMPPLAEIYDVAVIGGGINGVGIAADAAGRGLSVFLCEKDDLASHTSSASSKLIHGGLRYLEHYEFRLVREALAEREVLLTKAPHIVKQMRFVLPHRPHLRPAWMIRAGLFLYDHLGKREQLAGSRSLKFGADSALKSEITKGFEYSDCWVDDARLVVLNAMAAREKGAHIHTRTRCVSARRSKGLWQLNLERSDGSLFSILAKSLVNAAGPWVAKFIRDDLKMESPYGIRLIQGSHLIVPKLYEGEHAHILQNEDQRIVFTIPYLNQFTLIGTTDREYTGDPAKVAITEGETDYLLKVVNAHFKKQISREDILHSYSGVRPLCNDESDNPSAVTRDYTLALSGGGQEAPLLSVFGGKLTTYRKLAESAMAQLAPYFTQMRPSWTALETLPGGENMTTPQALCSAIRDKFDWLPTDIARRWATTYGSRTWRMLEGVHSLADLGEHIGAGLYTREVDYLCSDEWAIDAEDILWRRSKLGLFTTAAEQEKLRTYLDKVEHNRRKIEAA	PGPT0006775_3994	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111	NA	NA
D1-35_01600	756	glpR_1	COG1349	Glycerol-3-phosphate regulon repressor	ATGAATCTGCCTCCCCGCCAGCAGCAAATCCTTGAACTGGTCCGCGAACGCGGCTATGTCAGCATCGAGGAAATGGCGCAGCTATTTGTCGTCACCCCGCAGACCATCCGCCGCGACATCAATCAACTGGCGGAAGTGAACCTGCTGCGCCGCTACCATGGCGGCGCCGCTTACGATTCCAGCGTGGAAAACACCGCCTACGCCATGCGCGCCGATCAGATGCGCGATGAGAAGCAACGCATCGCCGAAGCGATCGCTGCGCAGATTCCCGACCACGCCTCGCTGTTCATCAATATCGGTACCACCACCGAATCCATCGCCCGGGCGCTGCTCAATCACAACCATTTGAAAGTCATCACCAACAACCTGCACGTGGCATCGATCCTCAGTGCCAAGGATGATTTCGAAGTCCTGATCGCCGGCGGCAACGTGCGCCGTGACGGCGGCGTGGTCGGTCAGGCCAGCGTCGATTTCATCAGTCAGTTCAAAGTCGACTTCGCCCTGGTGGGCATCAGCGGGATCGACGAGGACGGCAGCCTGCTGGATTTTGACTACCAGGAGGTCCGGGTCTCCCAAGCCATCATCGCCAACGCCCGGCAGGTATTGCTGGCGGCGGATTCCAGCAAGTTCGGCCGCAACGCCATGGTCCGCCTGGGCCCGATCAGCCTGATCGATTGCCTGGTGACCGACCAACAACCGGTGCCGGCCCTGGCGCAGTTGTTGAGCCAGCACAAGATTCGCCTGGAAGTGGTCTGA	MNLPPRQQQILELVRERGYVSIEEMAQLFVVTPQTIRRDINQLAEVNLLRRYHGGAAYDSSVENTAYAMRADQMRDEKQRIAEAIAAQIPDHASLFINIGTTTESIARALLNHNHLKVITNNLHVASILSAKDDFEVLIAGGNVRRDGGVVGQASVDFISQFKVDFALVGISGIDEDGSLLDFDYQEVRVSQAIIANARQVLLAADSSKFGRNAMVRLGPISLIDCLVTDQQPVPALAQLLSQHKIRLEVV	PGPT0018445_1388	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULE_REGULATION,PGPT0018445-glpR-K02444	NA	NA
D1-35_01601	1506	glpK	COG0554	Glycerol kinase	ATGACTGACTCAGAGAACAAAAACTACATCATTGCCCTCGACCAGGGTACGACCAGCTCACGCGCCATTATTTTCGACCGTGACGCCAACGTGGTCTGCACCGCCCAACGGGAATTCGTCCAGCACTATCCGCAACCGGGCTGGGTCGAGCATGACCCCATGGAAATCTTTGCCACGCAAAGCGCGGTGATGGTGGAAGCCTTGGCTCAAGCGGGTTTGCATCACGACCAGGTCGCCGCAATCGGCATCACCAACCAGCGCGAAACCACCGTGGTCTGGGACAAGTCCACCGGCCGCCCCATTTACAACGCGGTAGTCTGGCAATGTCGACGCAGCACCGAAATCTGCCAGCAACTCAAGCGCGATGGCCACGAGCAGTACATCAGTGAAGCCACTGGCCTGGTGACCGACCCCTACTTTTCCGGTACCAAGCTCAAGTGGATCCTCGACAACGTCGAAGGCAGCCGCGAGCGCGCGCGCAACGGTGAATTGCTGTTCGGCACCGTGGACAGCTGGTTGATCTGGAAATTTACCGGCGGCAAGGTCCACGTCACCGACTACACCAACGCCTCTCGCACCATGCTCTTCAACATCCACACGCTGGAGTGGGACGCGAAGATGCTCGACATCCTCAACATCCCTCGCGAGATGCTGCCGGAAGTCAAATCATCCTCGGAAATCTACGGCCGGACCAAAAGCGGCATCGCTATTGGCGGCATCGCCGGCGACCAGCAGGCCGCCCTCTTCGGCCAGATGTGCGTGGAACCGGGCCAGGCGAAAAATACCTATGGCACCGGCTGCTTCCTGCTGATGAACACCGGTAACAAAGCCGTCAAATCCAACCACGGCATGCTGACCACCATCGCCTGCGGTCCTCGCGGCGAAGTGGCCTACGCCCTGGAAGGCGCCGTGTTCAACGGTGGCTCTACCGTCCAGTGGCTGCGCGATGAACTGAAAATCATCAACGACGCCCTCGACACCGAATACTTCGCCAACAAGGTCAAGGACAGCAACGGCGTTTACCTGGTGCCAGCCTTCACCGGCCTCGGCGCACCGTACTGGGACCCCTACGCCCGTGGCGCGCTGTTCGGCCTGACCCGTGGCGTGCGGGTCGATCACATCATCCGGGCCGCGCTGGAATCCATCGCCTACCAGACCCGCGACGTACTCGACGCCATGCAACAGGATGCCGGCGAACGCCTCAAGTCCTTGCGCGTGGACGGTGGCGCCGTGGCCAACAATTTCCTCATGCAATTTCAGGCCGACATTCTTGGCACGCAGGTCGAACGCCCGAAAATGCGCGAAACCACCGCCCTCGGCGCGGCATACCTGGCTGGCCTGGCATGCGGCTTCTGGGGCAGCCTGGAAGAGTTGCGTGGCAAAGCGGTCATCGAGCGCGAGTTCGAACCGCAGCTGGATGAGCAAGCCAAGGAAAAACTCTACGCAGGATGGAAAAAAGCCGTCAGCCGCACGCGCGATTGGGAACCCCACGAAGACGCTGAATGA	MTDSENKNYIIALDQGTTSSRAIIFDRDANVVCTAQREFVQHYPQPGWVEHDPMEIFATQSAVMVEALAQAGLHHDQVAAIGITNQRETTVVWDKSTGRPIYNAVVWQCRRSTEICQQLKRDGHEQYISEATGLVTDPYFSGTKLKWILDNVEGSRERARNGELLFGTVDSWLIWKFTGGKVHVTDYTNASRTMLFNIHTLEWDAKMLDILNIPREMLPEVKSSSEIYGRTKSGIAIGGIAGDQQAALFGQMCVEPGQAKNTYGTGCFLLMNTGNKAVKSNHGMLTTIACGPRGEVAYALEGAVFNGGSTVQWLRDELKIINDALDTEYFANKVKDSNGVYLVPAFTGLGAPYWDPYARGALFGLTRGVRVDHIIRAALESIAYQTRDVLDAMQQDAGERLKSLRVDGGAVANNFLMQFQADILGTQVERPKMRETTALGAAYLAGLACGFWGSLEELRGKAVIEREFEPQLDEQAKEKLYAGWKKAVSRTRDWEPHEDAE	PGPT0018435_3038	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018435-glpK-K00864	NA	NA
D1-35_01602	852	glpF	COG0580	Glycerol uptake facilitator protein	ATGACTACCGCTTTACAACAGCCCACCCTTTCCAGCCAATGCCTGGCCGAATTCCTCGGTACCGCCCTGCTGATTTTTTTCGGTACCGGTTGCGTCGCGGCGCTCAAGGTCGCGGGCGCGAGTTTCGGGTTGTGGGAAATCAGCATCATCTGGGGTGTCGGCGTCAGCATGGCCATCTACCTCAGCGCGGGTATTTCCGGCGCCCACCTCAACCCCGCCGTCAGCATCGCCCTGTGTATTTTTACCGATTTCGAAAAACGCAAACTGCCGTTCTATATTGTCTGCCAGGTGGCGGGGGCATTCTGTGGCGCGCTCTTGGTCTACACGCTGTACAGCAATCTTTTCTTCGATTTCGAACAGTCCCGACAGATGATTCGTGGCACCCAAGCCAGCCTCGAACTGGCTTCGGTATTCTCCACCTACCCGCACCCGGCGCTCTCCACCGGCCAAGCCTTTCTGGTGGAGGTGATCATCACTGCAATCCTGATGGGCGTGATCATGTCCCTGACCGACGACAACAATGGCCTGCCTCGTGGTGCGCTCGCGCCGCTGCTGATCGGTCTTCTGATCGCCGTGATCGGCAGCTCGATGGGACCGCTGACAGGCTTCGCGATGAACCCGGCGCGGGACTTCGGTCCAAAATTGATGACTTTCTTCGCTGGCTGGGGTGAAATTTCCCTCACGGGCGGGCGTGACATCCCTTACTTCCTGGTTCCGATTTTCGCGCCGATAGTGGGTGCGTGCCTGGGCGCTGCCGCGTATCGCGGATTGATTGCCCGACACCTGCCGGGTGCCAAGGCTGCTACAAAGGATGCAGAACCGGCCATTGACGGCAAGCCAAGAACTTCCTGA	MTTALQQPTLSSQCLAEFLGTALLIFFGTGCVAALKVAGASFGLWEISIIWGVGVSMAIYLSAGISGAHLNPAVSIALCIFTDFEKRKLPFYIVCQVAGAFCGALLVYTLYSNLFFDFEQSRQMIRGTQASLELASVFSTYPHPALSTGQAFLVEVIITAILMGVIMSLTDDNNGLPRGALAPLLIGLLIAVIGSSMGPLTGFAMNPARDFGPKLMTFFAGWGEISLTGGRDIPYFLVPIFAPIVGACLGAAAYRGLIARHLPGAKAATKDAEPAIDGKPRTS	PGPT0004760_295	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLYCEROL_UPTAKE,PGPT0004760-glpF|pduF-K02440	NA	NA
D1-35_01603	471	ybaK	COG2606	Cys-tRNA(Pro)/Cys-tRNA(Cys) deacylase YbaK	ATGACCCCCGCATTGGACCTGCTTAAAAAAGTGCGCGCCGAACATCGCATCCACAGTTACGAACATGACCCGAAGGCTGCCTCCTATGGGCTGGAGGCGGCTGAGAAGCTCGGTCTGGATCCGGCGCAGGTGTTCAAGACCCTGTTGGCGGCCAGCGAAAAAGGCGAATTGCTGGTGGCCGTGGTGCCGGTGGCCGGGAGCCTGGATCTGAAAGGCCTGGCTCATGCGGCCGGAGTGAAAAAAGTCGAGATGGCCGATCCGGCCGCCGCGCAGCGTTCGACCGGCTATTTGCTCGGCGGGATCAGCCCGCTGGGTCAGAAAAAGCGTCTTCGCACGTTTATCGACAACTCTGCGCAGCCGTTGGCCAGCATGTTCGTCAGCGCGGGGAGGCGCGGGCTGGAAGTGGAACTGGCGCCTGCGGTACTGGCGGAGCATACCGGAGCGATCTTTGCTGATATCGGGCGTGCCTGA	MTPALDLLKKVRAEHRIHSYEHDPKAASYGLEAAEKLGLDPAQVFKTLLAASEKGELLVAVVPVAGSLDLKGLAHAAGVKKVEMADPAAAQRSTGYLLGGISPLGQKKRLRTFIDNSAQPLASMFVSAGRRGLEVELAPAVLAEHTGAIFADIGRA				NA	NA	NA	NA	NA
D1-35_01604	783	yddE	COG0384	putative isomerase YddE	ATGCAGCTCGCGTTTCATCAAGTCGATGCGTTCAGTGACCGGCCGTTTGGCGGTAACCCGGCGATGGTCTATCGGCTCGATGCCTGGCTTGCCGATGAACTGATGCAGAAAATTGCCGCCGAACACAACCTGGCCGAGACCGCTTTTCTGGTACGTGAGAACCAGCGTTGGCACATTCGCTGGTTCACGCCCACCACCGAAGTGCCGCTGTGTGGGCACGCGACGTTAGCCAGCGCTCATGTGCTGTTCGAGGTTTACCGCGAACCGGCCGAGCGACTCGACTTCATCTGCAGGTCCGGAGCGTTGAGTGTCTCTCGTGAAGGCGATCGGTTGTGGTTGGATTTCCCGGCCATCGTGCCGACTGAGTTGGGCGCCTCCCTGGCGGTCCAGAGCGCCTTGGGTGTCGAGGCGGTGGATGTGCTCAGTTGCAACGAATTGTTCGTGGTGCTGGAGTCGGAGCAGGCAGTGCTCGATTGCAAGCCGGACATGGCGGCCCTGGCGAAGCTGCCGTGGCCGGGCGCGATCGTTACCGCACCGGGAAGCAAGCACGATTTTGTCTCGCGCTATTTTGCCCCGGCGATCGGCATCAACGAGGATCCGGTAACCGGATCGACTCATTGCAGCTTGATTCCATATTGGTCCAAACGCCTGAACAAACATGGCCTGACGGCCTATCAATGCTCGGCGAGGGGCGGGGCATTGTTTTGCCGATTGGAAGGTGAGCGGGTGAAGATTGGCGGGGATGCGACGTTGGTGGCTAGCGGTACGCTAGTGCTCGGCTAA	MQLAFHQVDAFSDRPFGGNPAMVYRLDAWLADELMQKIAAEHNLAETAFLVRENQRWHIRWFTPTTEVPLCGHATLASAHVLFEVYREPAERLDFICRSGALSVSREGDRLWLDFPAIVPTELGASLAVQSALGVEAVDVLSCNELFVVLESEQAVLDCKPDMAALAKLPWPGAIVTAPGSKHDFVSRYFAPAIGINEDPVTGSTHCSLIPYWSKRLNKHGLTAYQCSARGGALFCRLEGERVKIGGDATLVASGTLVLG				NA	NA	NA	NA	NA
D1-35_01605	1110	btuD_4		Vitamin B12 import ATP-binding protein BtuD	ATGAGTGCTCCATTGTTATTGAATCTGCACAATCTGGCCTGCGGTTATCAGGACCAGCGGGTCGTCCAGAACCTCAACCTGCACCTCAATGCTGGTGACATCGGTTGCCTGCTCGGCTCGTCCGGGTGTGGCAAGACCACCACCCTACGGGCCATCGCCGGTTTCGAACCGGTGCATGAAGGCGAGATCCAGTTGGCTGGGGAAACCATTTCCCGCGCGGGGTTTACCCTCGCCCCGGAAAAACGCCGCATCGGCATGGTGTTCCAGGACTACGCGCTGTTCCCGCATTTGAGCGTCGCCGAAAATATCGCGTTCGGCATCCGCAAACATCCGGACAAGGATCGCGTGGTCGAAGAACTGTTGGAGCTGGTCAACCTGAAAAGCCTGGGCAAGCGTTTTCCCCACGAGCTGTCGGGAGGCCAGCAACAGCGCGTGGCGCTGGCCCGCGCACTGGCACCGGAACCCCAACTGCTGTTACTCGACGAGCCGTTCTCCAACCTCGACGGCGAGCTGCGACGCAAGCTCAGCCATGAGGTGCGGGACATTCTCAAGGCCCGCGGCACCAGCGCAATCCTGGTCACCCATGACCAGGAAGAAGCCTTTGCGGTGAGTGACCATGTTGGCGTGTTCAGAGAGGGTCGCCTGGAACAGTGGGATACGCCCTACAACCTGTATCACGAACCTCTGACGCCCTATGTCGCCAGTTTCATCGGCCAGGGTTACTTCATCCGCGGTCAGCTCGACAGCCCGGAATCGGTGCAGACCGAACTGGGCATGCTACGCGGCAACCGGGCGTACACCTGGCCCATCGGCAGTGCCGTAGACGTCCTGCTGCGCCCGGACGACATCGTCCACGCGCCGGACAGTCCGCTCACGGCGACTATCGTTGGCAAGACGTTCCTCGGTGCTTCAACCTTGTATCGCCTGCAACTGCCGACCGGCGCACAACTGGAGTCGATTTTTCCAAGCCATGCCGACCATCAGGTCGGGGCTACGGTCGGTATCCGCGTGGCGGCTGAACACCTGGTGCTGTTCCAGGCGTCGGGAAGCACGGCGGCGCATCTGCCGATCGGGGAAAGTGGTGTGCGGCGGTATGGCACGTCTGATTGA	MSAPLLLNLHNLACGYQDQRVVQNLNLHLNAGDIGCLLGSSGCGKTTTLRAIAGFEPVHEGEIQLAGETISRAGFTLAPEKRRIGMVFQDYALFPHLSVAENIAFGIRKHPDKDRVVEELLELVNLKSLGKRFPHELSGGQQQRVALARALAPEPQLLLLDEPFSNLDGELRRKLSHEVRDILKARGTSAILVTHDQEEAFAVSDHVGVFREGRLEQWDTPYNLYHEPLTPYVASFIGQGYFIRGQLDSPESVQTELGMLRGNRAYTWPIGSAVDVLLRPDDIVHAPDSPLTATIVGKTFLGASTLYRLQLPTGAQLESIFPSHADHQVGATVGIRVAAEHLVLFQASGSTAAHLPIGESGVRRYGTSD	PGPT0003735_768	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010	NA	NA
D1-35_01606	921	argF	COG0078	Ornithine carbamoyltransferase 1, anabolic	ATGAGCGCAAGGCACTTTCTCTCCCTGATGGATTTCACGCCCGAAGAGTTGCTCGGCGTGATCCGTCGAGGCGTGGAGCTCAAGGACCTGCGTAAGCGCGGCGTACTGTTCGAGCCCTTGAAAAACCGTGTGCTGGGGATGATCTTCGAGAAATCTTCCACGCGCACGCGCATTTCTTTCGAAGCCGGCATGATCCAGCTCGGCGGCCAGGCGATTTTCCTGTCGCCCCGTGACACCCAGCTGGGCCGTGGCGAACCCATTGGCGATTGCGCCATCGTCATGTCGAGCATGCTCGATGCGGTGATGATCCGGACCTTTGCCCATAGCACGCTGACCCAGTTCGCGGCGCATTCGCGCGTGCCGGTGATCAATGGCCTGTCCGACGATCTGCACCCGTGCCAGTTGCTCGCCGACATGCAGACCTTCCTCGAACATCGCGGCCCGATCCAGGGCAAGACCGTGGCCTGGATCGGCGATGGCAACAACATGTGCAACAGCTATATAGAAGCGGCGATCCAGTTCGACTTCCAGTTGCGCATCGCCTGCCCTGAAGGCTACGAACCCAACCCGCAATTCGTCGCCAGGGCCGGCGACCGGGTGACAATCCTGCGCGATCCGAAACAGGCCGTCGCCGGCGCGCACCTGGTGAGCACCGACGTCTGGACGTCCATGGGCCAGGAAGAAGAAACCGCCAAGCGCCTGGAGTTGTTTGCGCCCTTCCAGGTCAATCGGGCACTGCTCGACCTGGCGGATGCCGAGGTGCTGTTCATGCATTGCCTGCCAGCCCACCGTGGCGAAGAAATCAGCCTCGACCTGCTCGACGATCCCCGCTCGGTGGCGTGGGACCAGGCAGAAAACCGTCTCCATGCACAGAAGGCCCTGCTTGAATTCCTCGTCGAGCCGGCGTACCACCACGCATGA	MSARHFLSLMDFTPEELLGVIRRGVELKDLRKRGVLFEPLKNRVLGMIFEKSSTRTRISFEAGMIQLGGQAIFLSPRDTQLGRGEPIGDCAIVMSSMLDAVMIRTFAHSTLTQFAAHSRVPVINGLSDDLHPCQLLADMQTFLEHRGPIQGKTVAWIGDGNNMCNSYIEAAIQFDFQLRIACPEGYEPNPQFVARAGDRVTILRDPKQAVAGAHLVSTDVWTSMGQEEETAKRLELFAPFQVNRALLDLADAEVLFMHCLPAHRGEEISLDLLDDPRSVAWDQAENRLHAQKALLEFLVEPAYHHA	PGPT0020080_4471	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
D1-35_01607	288			hypothetical protein	ATGGATTCGAAAGAGCAACAACTGATGGAACTGCTGGGGCTGACGGCACGCTCCCTGACGCACCTGACCGCTTCGGTGACCTCCATGTCATTCGAATTGTTGCGCAGCGAAGACGAAGTGACCAAGGCTGCCGGCCGCCGTATGATCGACCGCATGGCTACCATCAGCAGCGGCCTCGACGAACATTGGCGATTGATCGGCGAGTTGACCGGAGTGCCCATCGCTCAGGAACAAGTGGAAACCGTCGAGGAAATCCAGCTGCTGGCGCCGCCTCCCGAGCACCCCTGA	MDSKEQQLMELLGLTARSLTHLTASVTSMSFELLRSEDEVTKAAGRRMIDRMATISSGLDEHWRLIGELTGVPIAQEQVETVEEIQLLAPPPEHP				NA	NA	NA	NA	NA
D1-35_01608	2109	napA		Periplasmic nitrate reductase	ATGACCAAGACTCTTCATCACCGTGCGTGCCATCTATGTGAGGCCATCTGTGGCCTGACGCTCGAAACCACCGAAACTGAAGGCCAAGGCCTGGCGATCACCTCGATCAAGGGCGATCCGCTGGACAGTTTCAGCCGTGGGCACATCTGTCCCAAGGCCGTCGCCCTGCAAGATATCCAGAATGACCCGGACCGGCTGCGCCAACCCATGCAGCGAGTCGGCGGCGAGTGGCAGCCGATTGCCTGGGATGACGCTTTCGCCCTGGTCGCCGAACGCCTGGCGGCAATCCAGGAGCGCCACGGCCAGAACGCGGTGGGTGTCTACCAGGGCAACCCCAGCGTGCATAACTATGGGTTGATGACCCACAGCAACTATTTCCTCGGCCTGCTGAAGACACGCAGTCGCTTCTCGGCGACGTCGGTGGACCAACTGCCCCATCACCTGACCAGTCACCTGATGTACGGTCACGGCCTGCTGCTGCCGATACCGGACATCGACCATACCGATTTCATGCTGATCCTGGGCGGTAATCCCCTGGCTTCCAACGGCAGCATCATGACCGTGCCGGACGTCGAGAAGCGCCTCAAGGCGATCCAGGCCCGTGGCGGCAAAGTCGTGGTCGTCGATCCACGGCGCAGCGAAACGGCGGCGATTGCCGACCAGCATGTTTTCGTGCGTCCCGGTGGCGATGCCGCGCTGCTGTTTGGCCTGCTCAATACGCTGTTCAGCGAAGGCCTGAGCCGCGACAGCCATTTGCCCGTGGACGGCCTCGAAGAGGTGCGCCAGGCCGTGGCAGGGTTTACCGCCGAGGTGATGAGCCCCCTCTGTGCGGTGCCAGCGCCGCAGATCCGGCAGTTGGCCCGCGACTTTGCCGCTGCGCCCTCAGCGGTCTGCTACGGCAGAATGGGCGTGTCCACCCAGGCGTTCGGCACGTTATGCCACTGGCTGATCCAAGTGATCAATCTGGTCACCGGCAACCTCGATCGGGTGGGCGGTGCATTGTGCACCGAGCCGGCGGTGGACCTGGTGGCGACCACTTCGGGTGGCCATTTCAACCGTTGGCAGAGCCGGGTGTCCGGGCGTCCCGAATACGCCGGCGAGCTGCCCGTGTCGACCTTGGCCGAAGAAATGCTGACCGAGGGCGACGGGCAGATTCGTGCGCTGGTCACCGTGGCCGGCAACCCGGTGCTGTCCACGCCCAACGGGCGGCAGCTCGAACAGGCGCTGGATGGGCTGGAGTTCATGGTCAGCATCGATTTGTACATCAACGAGACCACTCGTTATGCCGATCTGATCCTGCCATCGACCTCGGCTTTGGAAAACGATCACTACGACACCACGTTCAACCTGTTCGCGGTGCGTAACGTCAGCCGTTTCAATCGGGCGATCCTGCCCAAGCTCGAAGGGGCGCTGCACGATTGGGAGATTTTTGTCGGCCTGGCCAAGGCCTTCGCCGCGCGGACTGGCAAGGAACTCAAGCCGACCATGCCGCCCGCGCAAATGATTGATTTTGGCCTGCGCGCGGGAAGGTATGGGGATGCCTCGCCACACAAATTGTCGCTGGCGACGCTGTTCGATCATCCCCACGGCATCGACCTCGGTGCGCTCAAGCCCAATCTGACGACGCGCTTGAAAACCGAAAATGGCCGCGTGCAGGCCGCGCCGGCGGTGATCCTCGCGGATCTGGCGCGCTTTGCCGCGCTGCGAGCGCCGGCATCGGACGAGCTGCTGATGATTGGCCGTCGGCATGTGCGCAGCAACAATTCCTGGATGCATAACTTTCATCGGCTGGTGAAGGGCAAGCCGCGCCACCAGTTGCTGATGCATCCTGAAGACCTCGCCAGTCGCGGTTTAGTCGATGGCCAGCGCGTGCAGGTCAGTTCACGGGTAGGCGTGATCGAAGTGGAGGTGCAAGGCAGCCTGGACATGATGAAAGGCGTGGTCAGCCTTCCCCATGGCTGGGGCCACGCCCGACCAGGCGTGCAGATGACCATCGCCAGCAGCCAGCCTGGTTCCAGCGCCAACGACCTGACCGATGAATGTCAGCTCGATGAGTTGTCCGGCAATGCGGCGCTTAATGGGGTTCCGGTGAAAGTGGCGGCTGCGTAG	MTKTLHHRACHLCEAICGLTLETTETEGQGLAITSIKGDPLDSFSRGHICPKAVALQDIQNDPDRLRQPMQRVGGEWQPIAWDDAFALVAERLAAIQERHGQNAVGVYQGNPSVHNYGLMTHSNYFLGLLKTRSRFSATSVDQLPHHLTSHLMYGHGLLLPIPDIDHTDFMLILGGNPLASNGSIMTVPDVEKRLKAIQARGGKVVVVDPRRSETAAIADQHVFVRPGGDAALLFGLLNTLFSEGLSRDSHLPVDGLEEVRQAVAGFTAEVMSPLCAVPAPQIRQLARDFAAAPSAVCYGRMGVSTQAFGTLCHWLIQVINLVTGNLDRVGGALCTEPAVDLVATTSGGHFNRWQSRVSGRPEYAGELPVSTLAEEMLTEGDGQIRALVTVAGNPVLSTPNGRQLEQALDGLEFMVSIDLYINETTRYADLILPSTSALENDHYDTTFNLFAVRNVSRFNRAILPKLEGALHDWEIFVGLAKAFAARTGKELKPTMPPAQMIDFGLRAGRYGDASPHKLSLATLFDHPHGIDLGALKPNLTTRLKTENGRVQAAPAVILADLARFAALRAPASDELLMIGRRHVRSNNSWMHNFHRLVKGKPRHQLLMHPEDLASRGLVDGQRVQVSSRVGVIEVEVQGSLDMMKGVVSLPHGWGHARPGVQMTIASSQPGSSANDLTDECQLDELSGNAALNGVPVKVAAA				NA	NA	NA	NA	NA
D1-35_01609	342	grxD	COG0278	Glutaredoxin 4	GTGGATATCATCGAAACGATCAAAGACCAGATTGCCAACAACACTATCCTGCTTTACATGAAAGGCTCGCCGAATGCCCCTCAGTGCGGCTTCTCGGCCAAGGCTGCTCAGGCGGTAATGGCGTGTGGCGAGAAGTTCGCTTACGTGGACATCCTGCAGAACCCGGAAATCCGCGCCAATCTTCCCAAGTACGCCAACTGGCCAACCTTTCCACAGTTGTGGGTTGGCGGTGAACTGATCGGCGGCAGCGACATCATGACCGAGATGGCCGCTGATGGCTCTCTGCAGGCCACCATCAAGGCAGCTGTGGAAGCAGCGGCGGCGAACAAGACCGAAGCCTGA	MDIIETIKDQIANNTILLYMKGSPNAPQCGFSAKAAQAVMACGEKFAYVDILQNPEIRANLPKYANWPTFPQLWVGGELIGGSDIMTEMAADGSLQATIKAAVEAAAANKTEA	PGPT0013203_1221	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CHAPERONES,PGPT0013203-grxD-K07390	NA	NA
D1-35_01610	474	bfr_1	COG2193	Bacterioferritin	ATGAAAGGCGACATTACAGTCATCCAGCATCTCAACAAGATCCTCGCCAATGAGCTGGTCGCGATCAATCAATACTTCCTGCATGCGCGCATGTATGAGGATTGGGGCCTGAACAAGCTGGGCAAGCACGAGTACCACGAATCCATCGACGAGATGAAACACGCGGACAAGCTGATCAAGCGCATCCTGTTCCTCGAAGGCCTGCCGAACGTCCAGGACCTGGGCAAGCTGCACATTGGCGAACACACCCGGGAAATGCTCGAATGCGATCTGCGCATCGAACGCACCGGCCACGCCGACCTGAAAGCCGCCATCGCCCATTGCGAAACCGTCGGTGACTTCGGCAGTCGCGAGTTGCTCAAGGATATCCTCGAGTCCGAAGAAGAGCACATCGACTGGCTGGAAACCCAGTTGGGCCTGATCGACAAGATCGGTCTGGAGAACTACCTGCAGTCGCAGATGGGCGAAGAATAA	MKGDITVIQHLNKILANELVAINQYFLHARMYEDWGLNKLGKHEYHESIDEMKHADKLIKRILFLEGLPNVQDLGKLHIGEHTREMLECDLRIERTGHADLKAAIAHCETVGDFGSRELLKDILESEEEHIDWLETQLGLIDKIGLENYLQSQMGEE	PGPT0003965_2191	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003965-bfr-K03594	NA	NA
D1-35_01611	219	bfd	COG2906	Bacterioferritin-associated ferredoxin	ATGTATGTATGCCTCTGCACTGGCGTCACCGACGGACAGATCCGCGAAGCGATCTATGAAGGTTGCTGCAGTTATCGGGAAGTCCGCCAGGCCACCGGCGTAGCCAGCCAATGCGGTAAATGTGCCTGCCTTGCCAAGGAAGTGGTGCGTGAAACCCTCGCCAAAGTGCAGACTGCCCAGGCCTCGATCCCTTATCCGGTAGAATTTACTGCCGCATAA	MYVCLCTGVTDGQIREAIYEGCCSYREVRQATGVASQCGKCACLAKEVVRETLAKVQTAQASIPYPVEFTAA	PGPT0003975_583	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACTERIOFERRITIN-ASSOCIATED_FERREDOXIN,PGPT0003975-bfd|yheA-K02192	NA	NA
D1-35_01612	603	ahpC_1	COG0450	Alkyl hydroperoxide reductase C	ATGAGCGTACTCGTAGGCAAACAAGCCCCTGACTTCACCGTTCCAGCCGTACTCGGCAACGGTGAAATCGTCGACAGCTTCACCCTGTCCTCGGCCATCAAAGGCAAATACGGCCTGGTGTTCTTCTACCCGCTGGACTTCACTTTCGTCTGCCCGTCCGAGCTGATCGCACTGGATCACCGCATGGACGACTTCAAGGCGCGCAACGTTGAAGTGGTCGCGGTTTCGATCGACTCGCACTTCACCCACAACGCCTGGCGCAACACCCCGATCAACAACGGCGGGATCGGCCCGGTGAAGTACACCATGGCCGCTGACATGAAGCACGAAATCGCCAAGGCCTACGACGTTGAGTCCGAAGGCGGCGTGGCCTTCCGTGGCGCGTTCCTGATCGACGACAAAGGCGTGGTCCGTTCGCAGATCATCAACGACCTGCCGCTGGGCCGTAACATGGAAGAGCTGATCCGTCTGGTCGACGCTCTGCAATTCCACGAAGAGCACGGCGAAGTCTGCCCGGCCAACTGGAAAAAAGGCGACAAGGGCATGACCGCATCGCCTGAAGGTGTAGCGGCTTACCTGGGCGAACACAGCGACAAGCTGTAA	MSVLVGKQAPDFTVPAVLGNGEIVDSFTLSSAIKGKYGLVFFYPLDFTFVCPSELIALDHRMDDFKARNVEVVAVSIDSHFTHNAWRNTPINNGGIGPVKYTMAADMKHEIAKAYDVESEGGVAFRGAFLIDDKGVVRSQIINDLPLGRNMEELIRLVDALQFHEEHGEVCPANWKKGDKGMTASPEGVAAYLGEHSDKL	PGPT0013130_1601	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
D1-35_01613	678	rnt	COG0847	Ribonuclease T	GTGAGTGAAGATCATTTCGACGACGAACTGGACGGCAACGGTGGTTCCGGCGGCGCTCGCCACCCCATGGCAGCCCGTTTCCGGGGTTACCTGCCGGTCGTGGTCGACGTAGAAACCGGCGGTTTCAACTCGGCCACCGATGCGTTGCTGGAAATCGCCGCGACGACCATCGGCATGGACGAAAAAGGCTTTGTGTTCCCGGACCACACTTATTTCTTCCGCGTTGAACCGTTCGAAGGCGCCAACATCGAAGCAGCCGCGCTGGAATTCACCGGGATCAAGCTCGACCACCCGCTGCGCATGGCGGTCAGCGAGGAAACGGCACTGACCGACATCTTCCGTGGCGTGCGCAAGGCCCTGAAGGCCAACGGTTGCAAGCGCGCGATCCTGGTCGGTCACAACAGCAGCTTCGACCTGGGCTTCCTTAACGCCGCCGTTGCGCGACTGGACATGAAGCGCAACCCATTCCACCCGTTTTCCAGCTTCGATACGGCGACCCTGGCCGGCCTGGCGTACGGCCAGACCGTATTGGCCAAGGCCTGCCAGGCCGCCGACATCGATTTCGACGGCCGCGAAGCCCACTCGGCCCGCTATGACACCGAGAAGACTGCCGAGCTGTTCTGCGGCATCGTCAATCGCTGGAAGGAAATGGGCGGCTGGCAGGATTTCGACGACTGA	MSEDHFDDELDGNGGSGGARHPMAARFRGYLPVVVDVETGGFNSATDALLEIAATTIGMDEKGFVFPDHTYFFRVEPFEGANIEAAALEFTGIKLDHPLRMAVSEETALTDIFRGVRKALKANGCKRAILVGHNSSFDLGFLNAAVARLDMKRNPFHPFSSFDTATLAGLAYGQTVLAKACQAADIDFDGREAHSARYDTEKTAELFCGIVNRWKEMGGWQDFDD				NA	NA	NA	NA	NA
D1-35_01614	1047	pyrC	COG0418	Dihydroorotase	ATGTCCGACCGCCTGACCCTGCTGCGTCCCGACGACTGGCATATTCATCTTCGCGATGGTGCTGTGTTGACCCATACCGTCGCCGATGTCGCGCGCACCTTCGGGCGCGCAATCATCATGCCTAACCTGGTTCCGCCTGTCCGCAACGCCGTCGAGGCCGATGGCTATCGCCAGCGCATCCTGGCCGCACGCCCGGCCGGCAGCCGCTTCGAACCGCTGATGGTGCTTTACCTCACCGACCGCACCCAGCCCGAGGAAATTCGCGAGGCCAAGGCCAGTGGCTTCGTCCACGCGGCCAAGTTGTACCCGGCCGGCGCCACCACCAATTCGGACTCCGGCGTCACCAGCATCGACAAGATCTTCCCGGCGCTTGAAGCGATGGCCGAAGTCGGGATGCCGTTGCTGATCCATGGCGAAGTCACCCGGGGCGATGTCGACGTGTTCGACCGCGAGAAAATCTTCATCGACGAGCACATGCGCCGCGTCGTGGAGCGTTTCCCGACGCTCAAGGTGGTGTTCGAACACATCACCACCGGCGATGCCGTGCAGTTCGTCAACGAGGCCTCGGCCAACGTCGGCGCGACCATTACCGCGCATCACCTGCTTTACAACCGCAACCACATGCTGGTGGGCGGGATCCGGCCGCACTTCTATTGCCTGCCGATCCTCAAGCGCAACACCCACCAGGAAGCCTTGCTCGACGCCGCGACCAGCGGCAGCGCGAAGTTTTTCCTCGGCACGGACTCGGCGCCCCATGCCCGCCATGCCAAGGAAGCCGCCTGCGGTTGCGCCGGTTGCTACACCGCCTATGCCGCCATCGAGATGTACGCCGAAGCGTTCGAGCAGCGCAACGCGCTGGACAAGCTCGAAGGTTTTGCCAGCCTGCACGGTCCGCGTTTCTATGGCCTGCCGGTGAACACCGATAGCATTACCCTGGTCCGCGACGAGTGGACTGCCCCCGCCAGCCTGCCGTTTGGCGAACAGACTGTCATCCCGCTGCGCGCCGGTGAAAAACTGCGCTGGCGCCTGCTGGAGGAAAACGCGTGA	MSDRLTLLRPDDWHIHLRDGAVLTHTVADVARTFGRAIIMPNLVPPVRNAVEADGYRQRILAARPAGSRFEPLMVLYLTDRTQPEEIREAKASGFVHAAKLYPAGATTNSDSGVTSIDKIFPALEAMAEVGMPLLIHGEVTRGDVDVFDREKIFIDEHMRRVVERFPTLKVVFEHITTGDAVQFVNEASANVGATITAHHLLYNRNHMLVGGIRPHFYCLPILKRNTHQEALLDAATSGSAKFFLGTDSAPHARHAKEAACGCAGCYTAYAAIEMYAEAFEQRNALDKLEGFASLHGPRFYGLPVNTDSITLVRDEWTAPASLPFGEQTVIPLRAGEKLRWRLLEENA	PGPT0021145_6728	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465	NA	NA
D1-35_01615	1017	pal_6		Peptidoglycan-associated lipoprotein	GTGCGCCAGCGTTATCTAGCCTTGCTCAGTGTGTTTGCCAGCCTTCCTGCGATGGCGCTCACTTTCCAGACTCGTCTGGAGAGCATCGAGTGGACGGTCGAAGGCGACAAGTTCGAGTGCCGGCTGAGCCAGCCGATCGCCGATTTTGGTAGCGGCGAGTTCGTCCGCCGGGCGGGCGAGCAGGCCACGTTCCGACTCAAGGCCTACAACCCGGTGCTGGGTGGCGGTTCCGCGACGCTGCTGGCGGCCGCTGCGCCGTGGCAACCGGGGCGGGGCGACATCAACCTGGGGTCGGTCAGGATCGGCAGCGGCGACGTGTTGTTCAACAGCTCCCAAGTCCAGGCGGGACGCCTGATCAGTGGGTTGATGGAAGGGCGCAGCCCCGTGGTCCGGCGTAATGCCGAGGATGGCCGGGTGTCGGAAGTTCGCCTGTTGCCTGTGCGCTTCAACAAGGCCTTCAGCGACTACCAGGGCTGTGTGGCGAAACTGTTGCCGAAGAATTTCGAGCAGATCAAGCAGACCCAGATCGGCTTTCCCGGCGAGGGGGTTGAGCTCGACGCCCAGGCCAAGGCTCAATTGCAGGTCATGCTCGACTTCATCAAGGCTGACCCGAGCGTCAACCATGTCGAACTCGATGGGCATTCCGACAACAGCGGCAACCGCTTGACCAATCGTGAGCTGTCGCGCCGCCGTGCGCTGGCGGTCATGGATTTCTTCAAGGCCAATGGCTTCCAGGAGTCGCAGTTCACTGTGCGTTTCCACGGTGAGCGTTATCCGCTCGTGCCTAATAACAACGCCGCCCATCGCGCCAAGAACCGGCGTGTGGTGGTGCAACTGGATCGAGTGGCGGCCACTCAGGCGCCAGCGGCCCAGCCCACCACGCCAACCCCGCCAGCAACGCCAGCAACGCCAGCTGTACCTGCGGCGACGCCCGCTGCAGCACCCGGCAAGGCTCCGGCGCCGGTCGCCCCCACCAAGGTCGTGGCCCCCGCAGCGGCAACTGCTCGAACTTCCTGA	MRQRYLALLSVFASLPAMALTFQTRLESIEWTVEGDKFECRLSQPIADFGSGEFVRRAGEQATFRLKAYNPVLGGGSATLLAAAAPWQPGRGDINLGSVRIGSGDVLFNSSQVQAGRLISGLMEGRSPVVRRNAEDGRVSEVRLLPVRFNKAFSDYQGCVAKLLPKNFEQIKQTQIGFPGEGVELDAQAKAQLQVMLDFIKADPSVNHVELDGHSDNSGNRLTNRELSRRRALAVMDFFKANGFQESQFTVRFHGERYPLVPNNNAAHRAKNRRVVVQLDRVAATQAPAAQPTTPTPPATPATPAVPAATPAAAPGKAPAPVAPTKVVAPAAATARTS	PGPT0015395_33	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015395-motY-K21218	NA	NA
D1-35_01616	1218	argG	COG0137	Argininosuccinate synthase	ATGGCGGACGTAAACAAGGTCGTTCTGGCGTATTCCGGCGGCCTGGACACTTCGGTGATCCTCAAGTGGCTGCAGGACACTTATAACTGTGAAGTGGTGACGTTCACCGCTGACCTGGGGCAGGGCGAAGAAGTTGAGCCTGCCCGCGCCAAGGCTCAGGCCATGGGCGTCAAGGAGATCTACATCGATGACCTGCGCGAAGAATTCGTCCGCGACTTCGTGTTTCCGATGTTCCGCGCCAACACTGTTTACGAAGGCGAATACCTGCTGGGTACCTCAATCGCCCGTCCGCTGATCGCCAAGCGCCTGATCGAAATCGCCAACGAAACCGGCGCCGACGCCATTTCCCACGGTGCTACCGGCAAGGGCAACGACCAGGTACGTTTCGAGCTGGGCGCCTATGCCCTCAAGCCGGGCGTCAAAGTCATCGCCCCGTGGCGCGAGTGGGACCTGCTGTCCCGTGAAAAACTGATGGACTACGCCGAGAAGCATGCGATCCCGATCGAGCGTCACGGCAAGAAAAAATCCCCGTATTCGATGGATGCCAACCTGCTGCACATCTCCTACGAAGGCGGCGTGCTGGAAGACACCTGGACCGAGCACGAAGAAGACATGTGGCGTTGGACCGTCTCCCCGGAGAAGGCTCCCGATACCCCGCAATACCTTGAGCTGACCTATCGCAACGGCGATATCGTTGCCCTCGACGGCGTGGAAATGAGCCCGGCCACCGTCCTCGCGACGCTGAACCGTATCGGCGGCGAACACGGCATCGGTCGCCTGGACATCGTTGAAAACCGCTATGTCGGCATGAAATCCCGTGGCTGCTACGAAACCCCCGGCGGCACCATCATGCTGCGTGCTCACCGGGCGATCGAGTCGATCACCCTGGACCGCGAAGTGGCTCACCTGAAAGACGAGTTGATGCCCAAGTACGCCAGCCTGATCTACACCGGCTACTGGTGGAGCCCGGAGCGTCTGATGCTGCAACAGATGATCGATGCTTCCCAGGCCCACGTGAACGGCGTCGTGCGCCTGAAGCTGTACAAGGGCAACGTGATCGTGACCGGGCGCAAGTCCGACGAGTCGCTATTCGATGCAAACATCGCGACCTTCGAAGAAGACGGTGGCGCCTACAACCAGGCCGACGCGGCCGGCTTCATCAAGCTCAACGCCCTGCGCATGCGCATCGCGGCGAACAAGGGTCGCAAGCTGTTCTGA	MADVNKVVLAYSGGLDTSVILKWLQDTYNCEVVTFTADLGQGEEVEPARAKAQAMGVKEIYIDDLREEFVRDFVFPMFRANTVYEGEYLLGTSIARPLIAKRLIEIANETGADAISHGATGKGNDQVRFELGAYALKPGVKVIAPWREWDLLSREKLMDYAEKHAIPIERHGKKKSPYSMDANLLHISYEGGVLEDTWTEHEEDMWRWTVSPEKAPDTPQYLELTYRNGDIVALDGVEMSPATVLATLNRIGGEHGIGRLDIVENRYVGMKSRGCYETPGGTIMLRAHRAIESITLDREVAHLKDELMPKYASLIYTGYWWSPERLMLQQMIDASQAHVNGVVRLKLYKGNVIVTGRKSDESLFDANIATFEEDGGAYNQADAAGFIKLNALRMRIAANKGRKLF	PGPT0020130_2972	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020130-argG-K01940	NA	NA
D1-35_01617	627	bvgA_2		Virulence factors putative positive transcription regulator BvgA	ATGAATAAAGTGCTGATCGTGGATGATCACCCCGTCATTCGTCTTGCTGTACGTTTGTTAATGGAGCGCCATGGATATGAAGTCATCGCGGAAACAGACAATGGCGTCGATGCGTTACAGCTGGCGCGCGATAAAATGCCCGACATCGTTGTTCTCGATATCGGGATCCCGAAGTTGGACGGACTGGAGGTTATCGCGCGCCTGACCACCAATCCTTCGCCGCTCAAAGTGCTGGTGCTCACCTCTCAGTCGCCAGGGCATTTCTCGATGCGATGCATGCAGATGGGAGCGGCCGGTTATGTGTGCAAGCAACAGGACCTGACCGAGTTGTTGAGTGCAATAAAAGCGGTGCTCTCGGGCTACAGTTATTTTCCCAACCAGGCGTTGCATACCGTGCGTTCGAGCCTGGGCAACGCCAGCGAGTCGGATATGGTCGATCGTTTGTCCGGACGAGAGATGATGGTCCTGCAGCAGCTGGCCCGTGGGAGGACCAACAAGGAGATTGCCGACGGGATGTTCCTGAGCAACAAGACAGTGAGTACCTACAAGACCCGACTGTTGTTGAAGCTCAATGCCCGCTCACTGGTCGACCTGATCGAGCTGGCACAGCGTAACGGATTGGTGTGA	MNKVLIVDDHPVIRLAVRLLMERHGYEVIAETDNGVDALQLARDKMPDIVVLDIGIPKLDGLEVIARLTTNPSPLKVLVLTSQSPGHFSMRCMQMGAAGYVCKQQDLTELLSAIKAVLSGYSYFPNQALHTVRSSLGNASESDMVDRLSGREMMVLQQLARGRTNKEIADGMFLSNKTVSTYKTRLLLKLNARSLVDLIELAQRNGLV	PGPT0014490_145	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MdtEF-TolC,PGPT0014490-evgA|bvgA-K07690	NA	NA
D1-35_01618	183			hypothetical protein	ATGAGCGCTGGCAAAGAACAACTGGATGTAGAAGACGATTTCATCGCCGTCGAGGCTGACGATGCGGAACCTGTGGTCGTGGAAGTGGCGAAAACCAACCTGAGCAAACGTCGCACCATCGATAACCTGCTGGAAGAGCGTCGCTTGCAGAAACAATTGGCCGACTATGATTTTGACCTCTGA	MSAGKEQLDVEDDFIAVEADDAEPVVVEVAKTNLSKRRTIDNLLEERRLQKQLADYDFDL				NA	NA	NA	NA	NA
D1-35_01619	639	nth	COG0177	Endonuclease III	ATGAACGCCGCAAAACGCCTGGAAATATTCCGTCGCTTTCATGAAGACAACCCGGAGCCAAAAACCGAACTGGCCTATTCCTCACCCTTCGAGCTGCTGATCGCGGTAATTCTGTCGGCCCAATCCACCGACGTCGGCGTCAACAAGGCCACCGCCAAGCTGTTTCCCGTGGCCAATACGCCGCAAGCGATCCACGCCTTGGGGGTCGAAGGGCTGTCGGAATACATCAAGACCATCGGGCTGTTCAACAGCAAGGCCAAGAACGTCATCGAGACCTGCCGCCTGCTGATGGAGCGTCATGGCGGCGAGATCCCGCAGACCCGCGAAGAGCTGGAAGCCCTTCCAGGCGTCGGCCGCAAGACCGCCAACGTGGTGCTCAACACCGCGTTTCGTCAGCTGACGATGGCAGTCGACACGCACATTTTCCGCGTCAGCAACCGTACCGGCATTGCTCCGGGCAAAAATGTCGTGGAAGTGGAAAAGAAACTGATGAAATTTGTCCCCAAGGAATACCTCCTGGATTCCCACCACTGGCTCATCCTCCATGGGCGTTACGTCTGCCTGGCGAGAAAGCCCCGTTGCGGCAGTTGCCGAATCGAAGACCTGTGCGAATACAAGCACAAGACATCTGACGATTGA	MNAAKRLEIFRRFHEDNPEPKTELAYSSPFELLIAVILSAQSTDVGVNKATAKLFPVANTPQAIHALGVEGLSEYIKTIGLFNSKAKNVIETCRLLMERHGGEIPQTREELEALPGVGRKTANVVLNTAFRQLTMAVDTHIFRVSNRTGIAPGKNVVEVEKKLMKFVPKEYLLDSHHWLILHGRYVCLARKPRCGSCRIEDLCEYKHKTSDD	PGPT0013735_4683	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013735-nth-K10773	NA	NA
D1-35_01620	528	rnfE	COG4660	Ion-translocating oxidoreductase complex subunit E	ATGAATAAGCCGGTATTGAGCCGTGGCCTGCTGCTCGTGCCCTTGGTGGGTGCAAGCAGCTCGCTGACGAATGCACTGGGGGTGTGGCTGGCCTGGGTTTTGATCAGCTTCGGCCATGGCTGGGCCATGACGCTGGCCGGGCCACGCTGCACGACTTATCAGCGGCTGGTTGCAGGTATCCTGCTGGCCGCAGCCTTGAGTGCTTGCGCAAGCCTGGTCGCGCAGGCCTGGCTGCCCGAGTGGTATGCATCGTCAGGCCTTTACCTCGGCTGGATCGCCTTGAGCTGCGTAGCGCTGGATCAAGCGCCAGTGGACGAATCCCGGGTAGCTGACCGCCTCAGGCTGGCGGGCCAGTCTGGCCTCCTGATGGCCATTCTGAGCGCCCTGCGCGAATTGGTCGGCAATGGCGTCCCACTGGCCCTGCTCGCTCCCGGCGGGTTCATCCTGCTCGGCCTGCTGCTGGCGGCCCACCAGGCCTGGACGGCCAGCAAACCCCATCCACCCCTAGAGGAAACGCCGCGCCCATGA	MNKPVLSRGLLLVPLVGASSSLTNALGVWLAWVLISFGHGWAMTLAGPRCTTYQRLVAGILLAAALSACASLVAQAWLPEWYASSGLYLGWIALSCVALDQAPVDESRVADRLRLAGQSGLLMAILSALRELVGNGVPLALLAPGGFILLGLLLAAHQAWTASKPHPPLEETPRP	PGPT0013280_1293	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013280-rnfE|rsxE-K03613	NA	NA
D1-35_01621	612	rnfG	COG4659	Ion-translocating oxidoreductase complex subunit G	ATGAAAAGACCCGGCGGCGTGCTGATCCTGATCGTCCTGGCCGGCCTCGGCATCGGCGCCACGTACCTCATGCAGATCAATCTGGCCGGACGCATCGAAGCCCAACGGCAAGCCTTGACCGGCAGGACCTTGCTCGAGGTATTGCCCTCCGAGCGTTATGACAACCAGCCGCTGGCGCAACCGGTCATGACGAACCCGGTTGAGTTGAGCCACAGCCGGTTGCTGGGCGGTTACCTGGCGACCCGCAACGGCCAGCCCAGCGCGGTGCTGTTGCGCAGCCAGGCGTTGGGCTATGAGGGCAGCATCGAATTGATGATCGCCATTGATCCCAGCGGCCGCCTGCTTGGCGTTAAAACCCTGCGCCAGTCGGAAACACCCGGCCTGGGCGCGGTAATCGCCGACTGGCCGAATACCTGGCTGCAGACATTCACCGGAAAGTCGCGCCAGGCGCCGACCGATGACGGCTGGGCCTTGAAAAAGGACCAGGGCCAGTTCGATCAATTGGCCGGCGCGACGGTGACCTCGCGCGCGGTGCTCCAGGCGATCCACGATGCGCTGCGTTATTTCGATGAGCACCAGGCCCACCTGACCGGAGCGAGTGTCAATGAATAA	MKRPGGVLILIVLAGLGIGATYLMQINLAGRIEAQRQALTGRTLLEVLPSERYDNQPLAQPVMTNPVELSHSRLLGGYLATRNGQPSAVLLRSQALGYEGSIELMIAIDPSGRLLGVKTLRQSETPGLGAVIADWPNTWLQTFTGKSRQAPTDDGWALKKDQGQFDQLAGATVTSRAVLQAIHDALRYFDEHQAHLTGASVNE	PGPT0013285_1006	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013285-rnfG|rsxE-K03612	NA	NA
D1-35_01622	987	rsxD	COG4658	Ion-translocating oxidoreductase complex subunit D	ATGCTACGCCCTGATCCGGTGGACGAGCGGCTGCGGCAAGCGATGCGACGGGTGTTGCTGGCGATGCTGCCCGGCGTGCTGGCGATGGTCTGGTTTTATGGCTGGGGCGTGGCGCTGAACCTGCTGCTGTCGGCCCTCGCCGCTCTGGCTGTCGAGGCGCTGGCGTTGCGTCTGCGACGACGCCCTCTCAAGCCCGGCCTGAGCGACGGCAGCGCACTGGTCAGCGCCGCGCTGCTGGCCATGGCCTTGCCGGCGTATTGCCCATGGTGGCTGACCGTCACGGCCGCTGCCTGCGCCTTGCTGTTCGGCAAGCACTTATGGGGCGGGCTCGGCAGCAATCCCTTCAATCCGGCGATGCTCGGGTATGCCCTGGTGCTGGTGGCGTTTCCCCAGCACCTGAGCCAATGGCCCGTGCCCCATGACATGGACTTTCTCGAAGGTCTGCGACAAGTCGCCGGCATTGCCCAGGCGCCCGACGGCTGGGCCGGCGCCACGGCCCTGGACAGTCTGCGAATCAATACAAGCCTGACCGTCGACGAACTGTTCGCCAGCAATCCTGCGTTCGGTCGTTGGGGTGGGCGCGGTGTCGAGTGGGTCAACCTGGCCTTCCTCGCCGGCGGCCTGTTCCTGCTGCAACAGCGCGTGTTCAGTTGGCACGCGCCGGTGGGCATGCTTGCCAGCCTGTTCACCTTGAGCCTGCTGTGCTGGAACGGCTCGGGCTCGGACTCCCATGGCTCGCCGCTGTTTCATCTGTTGACCGGGGCAACCATGCTGGGCGCATTTTTCATCGTCACCGAACCGGTGTCAGGCGCCAAGGCCCCGCTCGCCCGACTGTTGTTCGGGGCCGGCGTGGGCGCGCTGGTCTACCTGATTCGTACCTGGGGCGGCTACCCGGACGGCGTGGCGTTTGCCGTGTTGCTGATGAACCTCGGTGTGCCTGCGCTGGATCGTCTCGCCGAGGCACGACAAAGGCGAGCGCTGACATGA	MLRPDPVDERLRQAMRRVLLAMLPGVLAMVWFYGWGVALNLLLSALAALAVEALALRLRRRPLKPGLSDGSALVSAALLAMALPAYCPWWLTVTAAACALLFGKHLWGGLGSNPFNPAMLGYALVLVAFPQHLSQWPVPHDMDFLEGLRQVAGIAQAPDGWAGATALDSLRINTSLTVDELFASNPAFGRWGGRGVEWVNLAFLAGGLFLLQQRVFSWHAPVGMLASLFTLSLLCWNGSGSDSHGSPLFHLLTGATMLGAFFIVTEPVSGAKAPLARLLFGAGVGALVYLIRTWGGYPDGVAFAVLLMNLGVPALDRLAEARQRRALT	PGPT0013275_1149	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013275-rnfD|rsxD-K03614	NA	NA
D1-35_01623	1005	rsxB		Ion-translocating oxidoreductase complex subunit B	ATGAACCTGATTCAACGTATCGATGCCCTGCTGCCGCAAACCCAATGCGGCAAGTGCGGCCATCCCGGCTGCAAGCCTTACGCCGAAGGCATCGCCCAGGGTGAACCGATCAACAAATGCCCACCCGGCGGACGCGAAACCATCGCGGCCCTGGCCGAGCTGATGACCGTGCCGGTACTCGAACTGGACGCCAGCCGTGGCTCGGCCCCGGCGCAGATCGCATACATTCGCGAAGCCGAATGCATCGGTTGCACCAAGTGCATCCAGGCGTGCCCGGTGGACGCGATTGTTGGCGCGGCCAAGCTGATGCACACCGTCCTCATCGATGAGTGCACCGGCTGCGACCTCTGCGTGGCGCCTTGTCCGGTGGATTGCATCGAGATGCGCCCACTGCCGATGGCAACCGTAACGCCGGTTGTCGGTGGCCTGGCCTCCAGCATCGAAGAACAGCAGGCGCGGACCGCCAAGCGCAATCACGCCCGCCGCCGCTTCGAGCTGCGCAATGCGCGCCTGCGCCGCGAAGAAGAGCAGCGCCTGGCCGAGCGCCTGGCCCGAACCCAGCGCAACGCTCAACCAGCCCAGGCCCAGCCACTTGATCCGGTGCAGGCTGCGCTGGAACGAGTGCGCGCGCAAAAAGCCGCCAGCGCCGACGCCGCCCTGAAAAAAGCCAAGGTCGACCTGGCCATGAGCCGGGCACAGCTGAATAAATCCTTGAAAGCGTTTGGCCATCCACCGACCTTCGAACAACAATCACAATTGATCGTGCTGCAACGCCAATTCGAAGCGGCAGAGCGGGCCCTGGCCAGACTGGAAGGCAGCGCGGCGCTCGCCGCCCCGGCACCGTCGCAAAGTGCTGAATTGAAGCGGGCCAAGATCCAGCTGGCGATGCGTCGCGCCGACCTCGGCAAGGCCCGTGCTGCCGCGGCTTCCGCAGAACAGCTACAAGCACTGGAACAAGCGGTGGAAGACGCCCAACGGCAGGTGGACGCCCATGCTACGCCCTGA	MNLIQRIDALLPQTQCGKCGHPGCKPYAEGIAQGEPINKCPPGGRETIAALAELMTVPVLELDASRGSAPAQIAYIREAECIGCTKCIQACPVDAIVGAAKLMHTVLIDECTGCDLCVAPCPVDCIEMRPLPMATVTPVVGGLASSIEEQQARTAKRNHARRRFELRNARLRREEEQRLAERLARTQRNAQPAQAQPLDPVQAALERVRAQKAASADAALKKAKVDLAMSRAQLNKSLKAFGHPPTFEQQSQLIVLQRQFEAAERALARLEGSAALAAPAPSQSAELKRAKIQLAMRRADLGKARAAAASAEQLQALEQAVEDAQRQVDAHATP	PGPT0013265_52	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013265-rnfB|rsxB-K03616	NA	NA
D1-35_01624	573	rnfA		Ion-translocating oxidoreductase complex subunit A	ATGACTGACATTCTTCTCTCGCTGTTCAGCGCTGCCCTGATCAACAACCTCGTGTTGCATTGGCCGCTGGGCGTCGATCCGCTGCTGGCAGTCAGGGAGCGGAGCCGGGTACATGCACTGGGCCTGGCGACAGCCTGCCTGATGCTGGTTGTCGGGACCCTCGGTTATCTGGCCGACCGCTGGCTGCTGGTTCCGGCGCAGCTGACATCGCTACGGTTGTTCGTATGGCTGCCCCTGAGCGTGCTGCTGATCAGCCCGTTGCTGCGCCTGCTGACGCATTGGCTGCCGTCGCAGCCGTTCGATGGCTTGTGGCCGCTGCTGCTCGGCAATGCCGGCGTACTGGGCGTCACGCTGCTCAACAGCCGGAACGACCAGGGCCTGGGCCAGGCCATGGCCTTCAGCCTGGGCGCCGGGCTGGGTTTCTGGCTGGTCTTAAGCCTGTTCGAGGACTTGCGCCAGCGAGTCCAGGATAACGATATTCCCTTGCCTTTTCGGGGCCTGCCAATCCAGTTGATCAGCGTCGGATTGATGGCGGTGGCATTTCTCGGATTGCGCGGGTTGGTCAAGACATGA	MTDILLSLFSAALINNLVLHWPLGVDPLLAVRERSRVHALGLATACLMLVVGTLGYLADRWLLVPAQLTSLRLFVWLPLSVLLISPLLRLLTHWLPSQPFDGLWPLLLGNAGVLGVTLLNSRNDQGLGQAMAFSLGAGLGFWLVLSLFEDLRQRVQDNDIPLPFRGLPIQLISVGLMAVAFLGLRGLVKT	PGPT0013260_1021	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013260-rnfA|rsxA-K03617	NA	NA
D1-35_01625	2046	metG	COG0073	Methionine--tRNA ligase	ATGTCCGAGCCACGCAAGATTCTCGTCACCAGCGCCCTGCCCTATGCCAATGGTTCGATTCACCTTGGCCATATGCTGGAATACATCCAGACCGATATGTGGACGCGCTTTCAGAAACATCGCGGCAACCAGTGCATCTACGTCTGCGCCGACGACGCCCACGGTTCGGCCATCATGTTGCGCGCGGAAAAGGAAGGTATCACCCCGGAACAACTGATCGCCAATGTCCAGGCTGAACACAGCGCCGACTTTGCCGAGTTCCTGGTGGACTTCGACAACTTCCACTCCACTCACGCCGAAGAAAACCGTGAGCTGTCGAGCCAGATCTACCTGAAGCTGCGTGACGCCGGGCATATCGCCACCCGTTCGGTCACCCAATATTTCGACCCGGAAAAGAAAATGTTCCTGGCCGACCGCTTCATCAAGGGCACCTGCCCGAAATGCGGCACCGAAGACCAATACGGCGACAACTGCGAAAAATGCGGCGCCACCTACGCACCGACCGACCTGAAAGACCCGAAATCGGCGATTTCCGGCGCGACGCCGGTACTCAGGGATTCCCAGCACTTCTTCTTCAAGCTGCCGGACTTCCAGGAAATGCTGCAGACCTGGACCCGCAGCGGCACGCTGCACGACGCGGTGGCCAACAAGCTCGCCGAATGGCTCGACTCCGGTTTGCAGGAATGGGACATCTCCCGCGATGCGCCGTATTTCGGCTTCGAAATTCCTGGCGAGCCCGGCAAATACTTCTATGTATGGCTGGACGCGCCCATCGGCTACATGGCGAGCTTCAAGAACCTTTGCGATCGTACCCCGGAGCTGGATTTCGACGCGTTCTGGGCCAAGGATTCTACGGCCGAGGTGTATCACTTCATCGGCAAGGACATCGTCAACTTCCACGCGCTGTTCTGGCCCGCCATGCTCGAAGGCGCCGGTTTCCGCAAGCCGACCGGCATCAACGTCCACGGCTACCTGACCGTCAACGGCCAGAAGATGTCCAAGTCCCGCGGCACCTTCATCAAGGCGCGGACGTACCTGGATCACCTGTCGCCTGAATACCTGCGCTACTACTACGCGGCCAAGCTCGGCCGTGGCGTCGACGACCTCGACCTGAACCTCGAGGACTTCGTGCAGAAGGTCAACTCCGACCTGGTGGGCAAGGTCGTCAACATCGCCAGTCGTTGCGCCGGGTTCATCCACAAGGGCAACGCCGGCGTGCTGGTGGCGGGTAACGCCGCGCCGGAACTCACCGACGCGTTCCTGGCTGCCGCACCAAGCATCGCCGAGGCCTACGAGAGCCGCGACTTTGCCCGCGCCATGCGTGAGATCATGGCCCTGGCCGACCGCGCCAACGCCTGGATCGCCGACAAGGCCCCATGGTCGCTGGCCAAGCAGGACGGCAAGCAGGACGAAGTCCAGGCCATCTGCGCCCTAGGCATCAACCTGTTCCGCCAACTGGTGATTTTCCTCAAGCCGGTGCTGCCGTTGCTGGCCGCCGATGCCGAGGCGTTCCTGAACGTTGCGCCGCTGACCTGGAACGACCACCAGACCCTGCTGAGCAACCATCAACTGAACGCGTTCAAACCGTTGATGACCCGCATCGACCCGGCCAAGGTCCAGGCCATGATCGACGCGTCCAAGGAAGACCTCGCCGCCAGCCAGACCGACACCGGTGCCCCTGCTGGCAACGGCGAGCTGACCAAGGACCCGCTGTCGCCGGAAATCGATTTCGATGCCTTCGCCGCCATCGACCTGCGCGTGGCGCTGATCGTCAAGGCTGAAGCCGTGGAAGGCGCCGACAAACTGTTGCGCCTGACCCTGGACATCGGCGATGAACAGCGCAACGTGTTCTCCGGGATCAAGAGCGCCTACCCGGATCCGGCCAAGCTCGAGGGCCGGCTGACGATGATGATCGCCAACCTCAAGCCACGCAAAATGCGCTTCGGCATATCCGAAGGCATGGTCATGGCGGCCGGTCCTGGCGGCGAGGAAATCTACCTGCTGAGCCCCGACAGCGGCGCCAAGCCGGGTCAGCGGATCAAATAA	MSEPRKILVTSALPYANGSIHLGHMLEYIQTDMWTRFQKHRGNQCIYVCADDAHGSAIMLRAEKEGITPEQLIANVQAEHSADFAEFLVDFDNFHSTHAEENRELSSQIYLKLRDAGHIATRSVTQYFDPEKKMFLADRFIKGTCPKCGTEDQYGDNCEKCGATYAPTDLKDPKSAISGATPVLRDSQHFFFKLPDFQEMLQTWTRSGTLHDAVANKLAEWLDSGLQEWDISRDAPYFGFEIPGEPGKYFYVWLDAPIGYMASFKNLCDRTPELDFDAFWAKDSTAEVYHFIGKDIVNFHALFWPAMLEGAGFRKPTGINVHGYLTVNGQKMSKSRGTFIKARTYLDHLSPEYLRYYYAAKLGRGVDDLDLNLEDFVQKVNSDLVGKVVNIASRCAGFIHKGNAGVLVAGNAAPELTDAFLAAAPSIAEAYESRDFARAMREIMALADRANAWIADKAPWSLAKQDGKQDEVQAICALGINLFRQLVIFLKPVLPLLAADAEAFLNVAPLTWNDHQTLLSNHQLNAFKPLMTRIDPAKVQAMIDASKEDLAASQTDTGAPAGNGELTKDPLSPEIDFDAFAAIDLRVALIVKAEAVEGADKLLRLTLDIGDEQRNVFSGIKSAYPDPAKLEGRLTMMIANLKPRKMRFGISEGMVMAAGPGGEEIYLLSPDSGAKPGQRIK				NA	NA	NA	NA	NA
D1-35_01626	1095	apbC	COG0489	Iron-sulfur cluster carrier protein	ATGAGCGCCGTCAATCGCGCAGCGGTGGAAGCCGTCCTTCGCCAGTACACCGACCCCTACCTGAGCCAGGATCCGGTCAGCGCCGGATGCGTGCGAGCCATCGATATCCAGGGCGATCGCGTCAGCGTCGAACTGGAGATCGGTTATGCCGCCGATCTGTTCAAGAACGGTTGGGCGCAGATGCTGCAGATGGCGATCGAAGGCCTGGACGGCGTGGCGAGCGCCAAAGTCCAGGTTACCAGCGTGATTTCCGCCCACAAGGCCCAAGCCCAGGTGCCGGGGTTGGCGAACGTCAAGAACGTCATCGCCGTGGCCTCGGGCAAGGGCGGCGTAGGCAAGTCCACCACCGCCGCCAACCTGGCGCTGGCCCTGGCTCGCGAAGGGGCGAAGGTCGGCATCCTCGACGCGGATATCTACGGTCCGAGCCAAGGCATCATGTTCGGCATCGCCGAAGGCACCCGGCCGCAGGTCAAGGACCAGAAGTGGTTCGTACCGCTGCAATCCCATGGCGTGGAGGTCATGTCCATGGCCTTCCTCACCGATGACAACACACCGATGGTCTGGCGCGGGCCGATGGTCTCCGGTGCCTTGCTGCAACTGGTCACGCAAACCGCGTGGGGCGACCTGGATTATCTGGTGATCGACATGCCGCCGGGAACTGGCGACATCCAGCTGACCCTCGCGCAGAAAGTCCCGGTGGCCGGCGCGGTGATCGTTACCACGCCCCAGGACTTGGCCCTGCTGGATGCGCGCAAGGGTGTGGAGATGTTCCGCAAGGTGAACATCCCGGTACTGGGCGTGGTGGAAAACATGGCCGTGCACATCTGCTCGAACTGTGGGCATGCCGAGCATCTGTTCGGTGAAGGCGGCGGTGAAAAACTGGCGACCCAGTACGGTGTCGAGCTGCTGGCTTCGTTGCCGCTGTCGATGGTGATCCGCGAGCAGGCCGACGGCGGCAAGCCGACCGTCATCGCCGAGCCGGACAGCCAGATCGCCATGGTCTACCAGGAGTTGGCCCGCCACGTGGGCGCGCGGATCGTGTTGCAGGAGGCTGCGTCGCCGGCGATGCCGAACATTACTATCAGCGATGATTGA	MSAVNRAAVEAVLRQYTDPYLSQDPVSAGCVRAIDIQGDRVSVELEIGYAADLFKNGWAQMLQMAIEGLDGVASAKVQVTSVISAHKAQAQVPGLANVKNVIAVASGKGGVGKSTTAANLALALAREGAKVGILDADIYGPSQGIMFGIAEGTRPQVKDQKWFVPLQSHGVEVMSMAFLTDDNTPMVWRGPMVSGALLQLVTQTAWGDLDYLVIDMPPGTGDIQLTLAQKVPVAGAVIVTTPQDLALLDARKGVEMFRKVNIPVLGVVENMAVHICSNCGHAEHLFGEGGGEKLATQYGVELLASLPLSMVIREQADGGKPTVIAEPDSQIAMVYQELARHVGARIVLQEAASPAMPNITISDD				NA	NA	NA	NA	NA
D1-35_01627	759	fabG_2		3-oxoacyl-[acyl-carrier-protein] reductase	ATGCAACTCACTGACAAAGTAATCATTATCACCGGCGGTTGCCAGGGCCTGGGTCGCTCCATGGCCGAGTATTTCGCCGGCAAGGGTGCAAAGCTCGCGCTGGTGGACCTCAATCAGGAAAAGCTCGACCAGGCGGTCGCCGCCTGCGCCGCCAAGGGCGTCGAGGCGCGTGCGTACCTGTGCAACGTGGCCAACGAAGATCAGGTGATCGACATGGTTGCCCGGGTGGCCGCTGACTTCGGCGCGATCCACGGGTTGATCAACAACGCCGGGATCCTGCGCGACGGCCTGCTGCTCAAGGTCAAGGACGGTGAAATGACCAGGATGAGCCTGGCCCAGTGGCAGGCGGTGATCGACGTCAACCTCACCGGCGTATTCCTCTGCACCCGCGAAGTGGCGGCGAAAATGGTCGAGCTGAAGAACAACGGCGCGATCATCAATATTTCCTCGATCTCCCGGGCCGGCAACGTCGGCCAGACCAACTATTCGGCGGCCAAGGCCGGCGTCGCGGCCGCTACCGTGACCTGGGCCAAGGAACTGGCGCGCTACGGCATCCGCGTGGCGGGGATTGCTCCGGGTTTCATCGAAACCGAAATGACCCTCGGCATGAAACCCGAAGCCCTTGAGAAAATGACCTCCGGGATTCCGCTCAAGCGCATGGGCAAGCCCGAGGAGATTGCGCACTCGGCGGCGTATATCTTCGAGAACGATTACTACACCGGGCGGATCCTGGAAATGGATGGCGGGCTGCGGATCTAA	MQLTDKVIIITGGCQGLGRSMAEYFAGKGAKLALVDLNQEKLDQAVAACAAKGVEARAYLCNVANEDQVIDMVARVAADFGAIHGLINNAGILRDGLLLKVKDGEMTRMSLAQWQAVIDVNLTGVFLCTREVAAKMVELKNNGAIINISSISRAGNVGQTNYSAAKAGVAAATVTWAKELARYGIRVAGIAPGFIETEMTLGMKPEALEKMTSGIPLKRMGKPEEIAHSAAYIFENDYYTGRILEMDGGLRI	PGPT0003180_9828	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
D1-35_01628	732			hypothetical protein	TTGAGCGTTGAAGCTGCCAAGCATGCCCGCGAATTGCTGCTCAAGGAATATCGGGGCATGCTCTCCACCCATTCCAAATCGATGCCCGGTTTTCCGTTCGGCTCCGTTGTGCCGTATTGCCTGGACGCGCAAGGCCTGCCGCTGATACTCATCAGCCGCATCGCCCAGCACACCCACAATCTGCAAAAAGACCCTAAATGCTCAATGCTGGTGGGAGAGCGGGGCGCCGAGGATGTTCAGGCCGTCGGGCGCCTGACCTATCTGGCCGAGGCGCAGAAGCTGGAGGACAGCGCCGCCATCGAGGCCGCCGCCGAGCGTTACTACCGCTATTTCCCCGAGTCGCAGAACTACCATAAGGCCCACGACTTCGATTTCTGGGTTCTCCACCCGGTGCGCCATCGTTATATCGGCGGCTTCGGCGCGATTCACTGGATCGACCAGATCACCCTGGCCAATCCCTTTGCCGGCAAAGCCGAGGCGGGCATGATCGAACACATGAATGCCGATCATGCCAAAGCCATCGCCCACTACGTCGAATTGAGTGGCCTGCCAAAAAACCAACCCGCGCAATTGGTCGGTATCGACAGCGAAGGCATGCACTTGCGCATTGGGCAAGGCCTGCACTGGTTGCCGTTTGCGGCGCCTTGCAACACGCCGACACAAGTGCGCGAAGCCTTGGTTTACCTGGCTCACGCCGAGCAATGGCCAAAAAATGCCGAGGTTGATGCTTGA	MSVEAAKHARELLLKEYRGMLSTHSKSMPGFPFGSVVPYCLDAQGLPLILISRIAQHTHNLQKDPKCSMLVGERGAEDVQAVGRLTYLAEAQKLEDSAAIEAAAERYYRYFPESQNYHKAHDFDFWVLHPVRHRYIGGFGAIHWIDQITLANPFAGKAEAGMIEHMNADHAKAIAHYVELSGLPKNQPAQLVGIDSEGMHLRIGQGLHWLPFAAPCNTPTQVREALVYLAHAEQWPKNAEVDA	PGPT0003615_497	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_UTILISATION,PGPT0003615-hugZ|hutZ|chuZ-K07226	NA	NA
D1-35_01629	477			hypothetical protein	ATGCGCCCTTTTTTATTGCTCTTTCTGCTGTTCCCGGTGTTGGAGCTGTTCGTATTCGTCAAGGTCAGCGGTGCGATCGGGTTCTTCCCGGCGTTGCTGCTGGTCATTCTCGGCTCGATGCTCGGCGTGTTCGTGCTGCGCATCGCCGGCCTGGCCACGGCACTGCGTGCCCGTGAAAGCCTGACCCGTGGCGAACTGCCCGCCCAGACCATGCTCGAAGGCCTGATGCTCGCGCTGGGTGGTGGTCTGTTGATCCTGCCTGGCTTCATCAGCGACGTGCTGGGCCTGGTCTTGCTGCTGCCCTTCACGCGCCGGTTGCTGGCCAACAAGATGCGCCAGCGCGCCGAAGAACAGGCGATGCGCCAGCGGGCTTTCGCCGATGACCTCCAGCCCCGTGGCGGTCCGACGCCGCGCGAACCGGTAGGCCGCGAGCCCAACGTGATCGAAGGCGAATTCGAACACCGCGATCCCAAGTAG	MRPFLLLFLLFPVLELFVFVKVSGAIGFFPALLLVILGSMLGVFVLRIAGLATALRARESLTRGELPAQTMLEGLMLALGGGLLILPGFISDVLGLVLLLPFTRRLLANKMRQRAEEQAMRQRAFADDLQPRGGPTPREPVGREPNVIEGEFEHRDPK				NA	NA	NA	NA	NA
D1-35_01631	294	groS	COG0234	10 kDa chaperonin	ATGAAGCTTCGTCCTCTGCATGACCGCGTCGTCATCCGTCGCAGCGAAGAAGAGAAGAAAACCGCTGGCGGTATCGTCCTGCCAGGTTCGGCTGCTGAAAAAGCCAACCACGGTGAAGTTCTCGCTGTAGGTCCGGGCAAGGCTCTGGAAAACGGTGAAGTACGTGCGCTGGCCGTGAAAGTGGGTGACAAGGTTGTGTTCGGCCCTTACTCCGGCAGCAACACTGTGAAAGTCGACGGCGAAGACCTGTTGGTAATGAGCGAGAACGAAATCCTCGCCGTTCTCGAAGGCTGA	MKLRPLHDRVVIRRSEEEKKTAGGIVLPGSAAEKANHGEVLAVGPGKALENGEVRALAVKVGDKVVFGPYSGSNTVKVDGEDLLVMSENEILAVLEG	PGPT0014565_2598	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014565-groES|mopB-K04078	NA	NA
D1-35_01632	1644	groL	COG0459	60 kDa chaperonin	ATGGCTGCTAAAGAAGTTAAATTCGGCGATTCCGCCCGCAAGAAAATGCTCGCCGGTGTCAACGTCCTGGCTGACGCAGTAAAAGCGACCCTCGGCCCGAAAGGCCGTAACGTGATCATCGAGAAGAGCTTCGGCGCTCCGACCATCACCAAGGACGGCGTTTCCGTAGCCAAGGAAATCGAGCTGAAAGATCGCTTCGAAAACATGGGTGCGCAGCTGGTCAAGGACGTTGCGTCCCGTGCCAACGATGACGCCGGCGACGGTACCACCACCGCGACCGTATTGGCTCAGTCGATCGTCAACGAAGGCCTGAAAGCCGTCGCTGCCGGCATGAACCCGATGGACCTCAAGCGCGGCATCGACAAGGCGACCATCGCCATCGTCAAGGAACTGAAAGGTCTGGCCAAGCCTTGCGCTGACTCCAAGGCAATCGCCCAGGTAGGTACCATCTCCGCCAACTCCGACAACTCCATCGGCGACATCATTGCCGAAGCCATGGAAAAAGTCGGCAAAGAAGGCGTGATCACCGTTGAAGAAGGCTCGGGCCTGGAAAACGAACTGTCGGTTGTAGAAGGCATGCAGTTCGACCGTGGCTACCTGTCGCCATACTTCGTCAACAAGCCGGACACCATGGTTGCCGAGCTGGACAGCCCGCTGATCCTGCTGGTCGACAAGAAGATCTCCAACATCCGCGAAATGTTGCCAGTGCTGGAAGCCGTTGCCAAAGCCGGCCGCCCTCTGCTGATCGTGGCTGAAGATGTCGAAGGCGAAGCCCTGGCGACCCTGGTCGTGAACAACATGCGTGGCATCGTCAAGGTTGCAGCCGTCAAGGCTCCAGGCTTCGGCGACCGTCGCAAGGCCATGCTGCAGGACATCGCCGTACTGACCGGCGGTACCGTTATCTCCGAAGAGATCGGCCTGAGCCTGGAAAGCACCACCCTGGAGCACCTGGGTAACGCCAAGCGCGTGATCCTGTCCAAGGAAAACACCACCGTGATCGACGGTGCTGGCAACGATGCCGATATCCAGGCTCGTGTCACCCAGATCCGCGCACAAGTGGCCGAGACTTCGTCCGACTACGACCGCGAAAAACTGCAAGAGCGCCTGGCCAAGCTGTCCGGCGGTGTTGCGGTGATCAAGGTTGGCGCCGGTTCCGAAGTTGAAATGAAAGAGAAGAAAGCCCGCGTTGAAGACGCCCTGCACGCAACCCGCGCAGCCGTCGAAGAAGGCGTGGTACCTGGCGGCGGCGTGGCACTGGTTCGTGCCCTGCAAGCCATCAGCGAGCTGAAAGGCGACAACGATGACCAGAACGTTGGCATCCAGTTGCTGCGTCGCGCTGTTGAAGCACCTCTGCGCCAGATCGTTGCCAACTCCGGCGACGAGCCAAGCGTAGTGGTCGACAAGGTCAAGCAGGGTTCGGGTAACTACGGTTACAACGCTGCCACCGGCGAATACGGCGACATGATCGAAATGGGTATCCTGGACCCGGCCAAAGTGACTCGTTCGGCTCTGCAAGCGGCTTCGTCGATTGCCAGCCTGATGATCACCACCGAGGCGATGATCGCTGAAATCAAGGACGACGCTCCAGCTGGCGGCGGCATGCCAGACATGGGCGGCATGGGTGGCATGGGCGGCATGATGTAA	MAAKEVKFGDSARKKMLAGVNVLADAVKATLGPKGRNVIIEKSFGAPTITKDGVSVAKEIELKDRFENMGAQLVKDVASRANDDAGDGTTTATVLAQSIVNEGLKAVAAGMNPMDLKRGIDKATIAIVKELKGLAKPCADSKAIAQVGTISANSDNSIGDIIAEAMEKVGKEGVITVEEGSGLENELSVVEGMQFDRGYLSPYFVNKPDTMVAELDSPLILLVDKKISNIREMLPVLEAVAKAGRPLLIVAEDVEGEALATLVVNNMRGIVKVAAVKAPGFGDRRKAMLQDIAVLTGGTVISEEIGLSLESTTLEHLGNAKRVILSKENTTVIDGAGNDADIQARVTQIRAQVAETSSDYDREKLQERLAKLSGGVAVIKVGAGSEVEMKEKKARVEDALHATRAAVEEGVVPGGGVALVRALQAISELKGDNDDQNVGIQLLRRAVEAPLRQIVANSGDEPSVVVDKVKQGSGNYGYNAATGEYGDMIEMGILDPAKVTRSALQAASSIASLMITTEAMIAEIKDDAPAGGGMPDMGGMGGMGGMM	PGPT0014570_2457	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014570-groEL|mopA-K04077	NA	NA
D1-35_01633	744			hypothetical protein	ATGGTTTCCACTGCCATCCGCCCCGCTTCCAGGCCCCTGAATCTATGGGTCGCCCTGGGCCTGCCCGCCGTGGTCGCAGCCATTCTGGTGTTGCTGGAACTGACCAGCCTGGACATGAACGTGGCCAAGCTGTTTTACGATCCGACGGCGGGTGGGTTTATCGGTCGACACAGTTTTTTCCTGGAAGACATCCTGCATGACCGGGCCAAACAGCTGGTCATCGGGTTTTCCGTGCTGGCGGTCGTGGGGTTTGTCGCCTCGTTTTTTATCGCTCGGCTCAAGCCGTACAAACGTGAGCTGGGTTGCCTGGTCCTGTCGCTGGCATTGGCGACTGCGTTTGTCACGCCTTTGAAGGCAGTGACGGCAGTGCAATGCCCATGGAGTCTCAAGGAGTTCGGTGGCAAGGAAACCTACAGTGAGCTACTGAGCCCACGCCCGGCTACCGACAAGCCCGGCCGATGCTGGCCCGGCGGGCATGCCGCCACCGGCTTCACGCTGTTCGCGTTGTTTTTCGTACTGCGTGACCGTCGCCCACGCCTCGCACGCCAGGCGCTGGTGTTCGCCTTTGCCCTGGGCACGGTGTTTTCCGTGGGACGCATGATGCAAGGGGCGCACTTTTTCTCCCACAACGTCTGGACGGCGGTGTTCTGCTGGCTGATTTGCCTCGGGTGTTATTACTGCGTTCTGTACCGACCAGTTTCCACACCTGAACGTATGATCGTCACCCGCTCCGTCAATGCCTGA	MVSTAIRPASRPLNLWVALGLPAVVAAILVLLELTSLDMNVAKLFYDPTAGGFIGRHSFFLEDILHDRAKQLVIGFSVLAVVGFVASFFIARLKPYKRELGCLVLSLALATAFVTPLKAVTAVQCPWSLKEFGGKETYSELLSPRPATDKPGRCWPGGHAATGFTLFALFFVLRDRRPRLARQALVFAFALGTVFSVGRMMQGAHFFSHNVWTAVFCWLICLGCYYCVLYRPVSTPERMIVTRSVNA				NA	NA	NA	NA	NA
D1-35_01634	684	czcR_2		Transcriptional activator protein CzcR	ATGCGAATTCTGTTGGTTGAAGACAACCGTGACATCCTGGCCAACCTGGCCGACTACCTGGGCCTCAAGGGCTACACGGTCGATTGCGCACAGGACGGTTTGTCAGGGCTGCACCTGGCCGCGACCGAACACTACGACTTGATTGTGCTGGATATCATGCTGCCGGGCATCGACGGCTATACGCTGTGCAAGCGCCTGCGCGAAGACGCCCGGCGCGATACACCGGTGATCATGCTCACCGCGCGGGACCAGTTGGATGATCGTTTGCAGGGTTTCAAATCCGGGGCGGATGATTACCTGGTCAAGCCTTTTGCCTTGTCGGAGCTGGCGGCGCGGATCGAAGCGGTCATGCGGCGTGCCCAGGGCGGTGGCCGACGCGCGTTGCAAGTTGGCGACCTGAGCTACGACCTCGATACGTTGGAAGTGACCCGGGAAGGCAAACTGCTCAAGCTCAACCCCGTGGGCCTCAAGTTGCTGGCGGTACTGATGCAGAAAAGCCCCCACGTGCTGCGGCGCGAGATCCTTGAGGAAGCCCTGTGGGGCGATGATTGCCCGGATAGCGACAGCCTGCGCAGCCATGTCCACCAATTGCGCCAGGTGATCGACAAACCGTTTGAAAAACCGTTGCTGCACACTGTGCACGGCGTCGGCTATCGGTTGGCCGAGGGCCGAGATGGAGTTTAA	MRILLVEDNRDILANLADYLGLKGYTVDCAQDGLSGLHLAATEHYDLIVLDIMLPGIDGYTLCKRLREDARRDTPVIMLTARDQLDDRLQGFKSGADDYLVKPFALSELAARIEAVMRRAQGGGRRALQVGDLSYDLDTLEVTREGKLLKLNPVGLKLLAVLMQKSPHVLRREILEEALWGDDCPDSDSLRSHVHQLRQVIDKPFEKPLLHTVHGVGYRLAEGRDGV	PGPT0004105_837	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0004105-cusR|copR|silR-K07665	NA	NA
D1-35_01635	1278	sasA_6		Adaptive-response sensory-kinase SasA	ATGGAGTTTAAGCAAAGCCTTGCGCAACGGATCATCATCGCTTTTGCGCTGATGAGCGCATTGGTGGCGGGAGCGTTTGCACTGGGCATCGTGGCAACGGTCCATCTGGTGGAGGAAAAGCTGATTTCCGCCGGGCTCGGAGGCGACCTGCAACGCCTGCTGTTGATGGACAGCGTTTCCGACTGGAGTCATCGCCCGGAACCCGACCAGCTGTTCTATTTCAGCGGCGGCCCGGGAGACTTCGAGTTGCCCAGGGACCTGCGTCACCTGCAACGTGGCTTTCACGAAGTCTTTCGCGAACAGCTGTCCTATCACGCGATGGTAGAGATCGTTGACGGTCGGCATTACGTGCTGTTGCAGGACCAGAGCGATTTCGAGGAGCGCGAGCGGGTGCTGTTTGCCGTGGTGCTGGTGGGCTTCGTGCTCAGTCTGGCGCTCGCGGTGTTCCTGGGCTGGGTCCTGGCACGCCGGGTGATGGCGCCGGTGGTACGTCTGGCCCGGCAGGTACGGCATCGCGACCAGTTGCTCGGGCTCGCTCCGCCATTGGCGCCGGATTATGCCGCTGATGAGGTGGGCGAGCTGGCCGTGGCGTTCGATGCCACGCTGGGCCGGTTGCGCCAGGCCCTGACCCGGGAACGGTTGTTCACCAGCGACGTGAGTCACGAACTGCGCACGCCGTTGATGATCCTCGCCACCTCCTGCGAATTGCTGCTGGAGAATCCGGCGCTGGACCAGCGTGGTCGCACCCAGGTCGAGCGCATCAACCGCGCCAGCGAAGAAATGCGCGAACTGGTGCAGACCTTCCTGATGCTTGCCCGGGCCCAACGCGAGGATAACGGCATGTCGCCTCGCTCGACGCTGGGGCAGGTCGCGGAAAACCTCCTTGGGGTCTGGCGTGCGCCGATCGAATCCAAGGGCCTGACCTTGATCTTCGAACCAGGGCAAACCACCGATACGCAGTACAACGCCACGTTCCTGACTGCCGTCATGGGAAATCTGCTGCGTAACGCCTTGCATTACACCGACCAGGGTTTTATCCGCGTCTCGCTGACCGCCACGGGATTTGTCGTCGAGGACAGCGGCGTAGGCATTCCCGAGGAGAAGCGCGAGGCGATGTTCGAGCCCTTCGTGCGCGGTAACGAAAAGCGTGGCGAGGGACTGGGGCTGGGGCTGTCACTGGTGCAGCGGATCTGCGAGGACCAGGGCTGGACCGTGAGCCTCAGCACGATGGAACCCAACGGATGCCGTTTCGAGGTGGAGTTGAACCCGAAGTCCTGA	MEFKQSLAQRIIIAFALMSALVAGAFALGIVATVHLVEEKLISAGLGGDLQRLLLMDSVSDWSHRPEPDQLFYFSGGPGDFELPRDLRHLQRGFHEVFREQLSYHAMVEIVDGRHYVLLQDQSDFEERERVLFAVVLVGFVLSLALAVFLGWVLARRVMAPVVRLARQVRHRDQLLGLAPPLAPDYAADEVGELAVAFDATLGRLRQALTRERLFTSDVSHELRTPLMILATSCELLLENPALDQRGRTQVERINRASEEMRELVQTFLMLARAQREDNGMSPRSTLGQVAENLLGVWRAPIESKGLTLIFEPGQTTDTQYNATFLTAVMGNLLRNALHYTDQGFIRVSLTATGFVVEDSGVGIPEEKREAMFEPFVRGNEKRGEGLGLGLSLVQRICEDQGWTVSLSTMEPNGCRFEVELNPKS				NA	NA	NA	NA	NA
D1-35_01636	669			hypothetical protein	ATGTCCAATCCCATCAAGCTAGCTTTTTCCGCCAAGTACGACGAGCGACATGCCCAGCAGTACCTGCGCAAACACAAGACGGGGCTGAGCCGCCGTCTTTCCCACCGTCGGGACGAACAACTGGCCCGGCGCGCCTTGATGCTCGCGGGCGACCCGGGCCTGGTCCTGGACCTGCCGTGCGGAGCCGGGCGTTTCTGGCCGCTGCTGGCGGAGAAACCCGGCCGGGTGATCGTCGGCGCGGACAATTCCACCGCCATGCTCCAGACGGCATTGAAGGCACAACCGGCCGATGTCGTAAAACGGGTACAACCTTTGCACACATCTGCGTTCGACATCGCCTTGCCTGATAACGCCGTCGACAGCATTTTTTGCATGCGCCTCTTGCACCACATCGGCGAACCCGCGCACCGACTGGCGATATTGCGGGAATTCGAGCGTGTCACCCGTGACAGCGTGATCGTTTCATTGTGGGTCGACGGCAATTTCAAGGCCTGGAAACGCAAGCGCCTGGAGCGCACCCGTGGGCAGAAAGACTACCAGAACCGATTTGTGTTACCGGTCGCTACAGTTGAAGAAGAGTTTCGGCAGGCCGGGTTTCGCATTGAGGAACAGTTGGATTTCCTGCCGCTCTATGCCATGTGGCGAGTTTATGTATTACGCAAGGGGTAG	MSNPIKLAFSAKYDERHAQQYLRKHKTGLSRRLSHRRDEQLARRALMLAGDPGLVLDLPCGAGRFWPLLAEKPGRVIVGADNSTAMLQTALKAQPADVVKRVQPLHTSAFDIALPDNAVDSIFCMRLLHHIGEPAHRLAILREFERVTRDSVIVSLWVDGNFKAWKRKRLERTRGQKDYQNRFVLPVATVEEEFRQAGFRIEEQLDFLPLYAMWRVYVLRKG				NA	NA	NA	NA	NA
D1-35_01637	714	inaA		Protein InaA	ATGGTTGTACAGGTAGCAGGAGCCCAGGCGGCTTCTCGTAGTTGCTTTGACCAGATCTGGAATCAGCGTGGCGAGTGGGTGGAAGCCCCCAATACCCGGCGTGGCGGCGAAAGCGGTGTGCAGCGGATCAGCCATGATGGCGAGCTGTTTTATTCCAAGCGCCAGACCGGACACATTTACCGTAGCCTACTGCACCCGTTCGGCCGTCCGACCGTGTTGCGTGAAGAGCGAGCGCTGCTGGCCCTGGCGGAACTCGGCGTCACGGTACCCCAAGTGGTCTTTTGCGGCGCGCAGAGAGACCCGGTGCACAAGTGGCGGGCGCTGCTGGTCACCCGCGCTCTGGACGGCTTCGAGGAAATCGGGCGTTGGTATGCCGCAGGCGGCCGCGAGCGTCATGGCGAGGCGGTCCATGATCGTCTCCTTCAGGCCCTGGCCGAGAATCTCGCCCGCATGCACAAGGGGCGCTGGCAGCACAGTTGCCTCTACATCAAGCATGTATTCGTGCGAGTAACCGGAGAGGGCGAGTCGACCAAGGCCGAAGTGGCGTTGCTCGATCTTGAGAAATGTCGCCAACGGCTGACCGCACGCGGCGCGGCGTTCCATGACATGAGCCAGCTGCGGCGCCACTCGTCGTTCCAGGATTGCGACTGGGGAAAACTCGTCTATTTTTACGAGGCGGCGTTTGGCAGCGCTATCAAAGGTTTATCCCGATGA	MVVQVAGAQAASRSCFDQIWNQRGEWVEAPNTRRGGESGVQRISHDGELFYSKRQTGHIYRSLLHPFGRPTVLREERALLALAELGVTVPQVVFCGAQRDPVHKWRALLVTRALDGFEEIGRWYAAGGRERHGEAVHDRLLQALAENLARMHKGRWQHSCLYIKHVFVRVTGEGESTKAEVALLDLEKCRQRLTARGAAFHDMSQLRRHSSFQDCDWGKLVYFYEAAFGSAIKGLSR				NA	NA	NA	NA	NA
D1-35_01638	228			hypothetical protein	ATGAAACTAGAAATTGCTAGAGGTTTGTTTTTAGTCGGAGCCCTGGCAGTTGCATCCCTGGCGCTGGTGGTGTGGGAGCAGCCGCGCTCGCAGATCCTCAGTGCCTCCACTGTCGGCGCACATTGCCCGGTGCCTCGGGTGGCCAAGGCCAGCGAGGCGATCCAGCCGGACGACGACCTGTTGCTGTTCATGTTCAGTCTGTCCCAGGGCATGCGACCGCAGAGTTGA	MKLEIARGLFLVGALAVASLALVVWEQPRSQILSASTVGAHCPVPRVAKASEAIQPDDDLLLFMFSLSQGMRPQS				NA	NA	NA	NA	NA
D1-35_01639	3027	acrB	COG0841	Multidrug efflux pump subunit AcrB	ATGGCCTTTACCGATCCGTTCATCCGCCGCCCGGTGCTCGCCACCGTGGTCAGCCTGTTGATCGTGCTACTGGGCTTCCAGGCCTGGAGCAAGCTGCCCCTGCGCCAGTATCCACAGATGGAAAATGCCCTGATCACGGTGACCACCGCCTACCCCGGGGCCAACGCCGAGACCATCCAGGGTTACATCACCCAGCCGATGCAGCAGAGCCTGGCCAGTGCCGAGGGCATCGACTACATGACTTCGGTCAGCCGCCAGAATTTCTCGGTCATATCGGTCTACGCGCGCATCGGTTCCAACAGCGACCGGCTCTTTACCGAACTGCTGGCCAAGGCCAACGAGGTGAAGAACCAACTGCCCCAGGACGCCGAGGACCCGGTCCTCAGCCGCGAGGCAGCCGATGCCTCGGCGCTGATGTACATCAGTTTCTTCAGCAAGGAGCTGAACAACCCACAGATCACCGATTATCTGTCGCGCGTCATCCAGCCAAAACTGGCGACGCTGCCGGGCATGGCTGAAGCGGAGATCCTCGGTAACCAGGTATTCGCCATGCGCCTGTGGCTGGACCCGGTCAAGCTCGCAGGCTTCGGCCTGACCGCCGCCGACGTGACCAACGCCGTGCGCCAGCACAACTTTCTCTCCGCTGCTGGTGAAGTGAAAGGCGAGTACGTGGTCACCAGCATCAACGCCAACACCGAACTCAAATCCGCCGAGGCATTCGCCGGTATCCCGCTCAAGACTGACGGTGACAGCCGCGTGTTGCTGCGGGACGTTGCGCGGGTGGAGATGGGCGCCGAAAACTACGACACCATCAGCTCTTTCGGTGGCACCCCTTCGGTGTACATCGGGATCAAGGCAACCCCTGGCGCCAACCCCCTCGATGTCATCAAGGAAGTGCGCAAGATCATGCCGGAGATGGAGGCCCAGCTGCCGTCCAACCTCAAGGCCGAGATCGCCTACGATGCCACGCTGTTCATCCAGGCCTCCATCGACGAAGTGGTGAAGACCCTGTTCGAGGCGGTGCTGATCGTCATCGTCGTGGTGTTCCTGTTCCTCGGCGCCCTGCGCTCGGTGCTCATTCCGGTAGTGACCATTCCGCTGTCGATGATCGGCGTGATGTTCTTCATGCAGTTGATGGGCTACTCCATGAACCTGCTGACACTGCTGGCCATGGTGTTAGCCATCGGCCTGGTGGTGGACGACGCCATCGTGGTGGTGGAAAACATCCACCGGCACATCGAGGAGGGCAAGACACCGTTCGACGCCGCGATTGAAGGCGCGCGGGAAATCGCCATGCCGGTGGTCTCGATGACCATCACGCTGGCGGCGGTCTATGCACCGATCGGCCTGCTCGAAGGCCTGACGGGGGCGCTGTTCAAGGAGTTCGCCCTGACCCTCGCCGGCGCGGTGGTGATCTCTGGAGTCGTCGCCCTGACCCTCTCGCCAATGATGTGCGCGATGCTGCTGCGTCATGACCAGAACCCCTCGGGGCTGGCCCATCGGCTGGACGTGATCTTCGAGCGCCTGAAGGCCCGTTACCAGCGCATGCTTCACGGCACGCTCAATACCCGGCCGGTGGTGCTGGTGTTTGCCCTGCTCGTGCTGTTGCTGATCCCGGTGCTGATCATGTTCACCAAGTCCGAACTGGCGCCTGACGAGGACCAGGGCATCATCTTCATGATGGCCAACGCCCCGAAGACCACCAACCTGGACTACCTGAACGCCTATACCGATCACTTCATCACGATCTTCAAGGAATTCCCCGAGTACTATTCTTCGTTCCAGATCAACGGCTACAACGGCGTACAGTCGGGCATCGGCGGCTTCCTGCTCAAGCCCTGGAACGAACGCAGCCGCACCCAGATGGAAATCCTCCCGGAAGTCCAGGCCAGGCTCGAAAGCGTGCCCGGCCTGCAGATCTTCGGCTTCAACCTGCCCTCGCTGCCCGGCACGGGCGAAGGCTTGCCCTTCGAATTCGTCATCAACTCGCCGAAGGACTACACGACGCTCCTGCAGATTGCCGAACGGGTCAAGAAGCGTGCGCTGGAGTCCGGCAAGTTCGCCTTCATGGACATCGACCTTGCGTTCGACAAGCCTGAAGTCGTGGTGGACATCGATCGCGCCAAAGCCGCCCAGATGGGCGTCTCGATGCAAGACCTCGGCGGCACGCTGGCGACCCTGCTGGGCGAGGCGGAGATCAACCGCTTCACGCTGGAGGGGCGTAGCTACAAGGTCATCGCCCAGGTCGAGCGGCCATTCCGGGACAATCCGGACTGGCTGAACAACTATTACGTAAAGAACGCCCAGGGCGAGTCGCTTCCGTTGTCGACGCTGATCAAGGTCAGCGACCAGGCACGACCGCGGCAACTGAACCAGTTCCAGCAGCTCAATGCCGTCACGATCTCGGGCTTTCCCACGGTAAGCATGGGCGAGGCCATCGAGACGGTTCGCCAGATAGCCCTTGAGGAAGCGCCGACAGGATTCGCCTTCGATTACGCCGGAGCTTCGCGTCAGTTCGTCCAGGAAGGCAGCGCGTTATGGGTCACCTTTGGCCTGGCCCTGGCAATCATTTTCCTGGTGCTGGCGGCGCAGTTCGAGAGCTTCCGCGACCCGCTGGTGATCCTGGTGACGGTGCCGTTGTCCATTTGCGGCGCACTGATTCCGCTGTTCCTCGGCTGGTCGAGCATGAACATCTATACCCAGGTGGGGCTGGTGACCCTGATCGGCCTGATCAGCAAGCACGGCATCCTGATCGTCGAATTCGCCAACCAGCTGCGCAAGGAGCAAGGCTTGAGTCCGCGTGACGCAGTGGAACAGGCCGCATCGATTCGCCTGCGTCCGGTGCTGATGACCACTGCCGCCATGGTGTTTGGCATGGTGCCGTTGATCCTGGCCACCGGTGCCGGCGCAGTGAGCCGCTTCGACATCGGCACGGTCATCGCCACGGGCATGTCGATCGGCACCTTGTTCACGTTGTTCGTGCTGCCGTGTGTCTACACCTTGCTGGCCAAGCCGGACAAAGCCTGA	MAFTDPFIRRPVLATVVSLLIVLLGFQAWSKLPLRQYPQMENALITVTTAYPGANAETIQGYITQPMQQSLASAEGIDYMTSVSRQNFSVISVYARIGSNSDRLFTELLAKANEVKNQLPQDAEDPVLSREAADASALMYISFFSKELNNPQITDYLSRVIQPKLATLPGMAEAEILGNQVFAMRLWLDPVKLAGFGLTAADVTNAVRQHNFLSAAGEVKGEYVVTSINANTELKSAEAFAGIPLKTDGDSRVLLRDVARVEMGAENYDTISSFGGTPSVYIGIKATPGANPLDVIKEVRKIMPEMEAQLPSNLKAEIAYDATLFIQASIDEVVKTLFEAVLIVIVVVFLFLGALRSVLIPVVTIPLSMIGVMFFMQLMGYSMNLLTLLAMVLAIGLVVDDAIVVVENIHRHIEEGKTPFDAAIEGAREIAMPVVSMTITLAAVYAPIGLLEGLTGALFKEFALTLAGAVVISGVVALTLSPMMCAMLLRHDQNPSGLAHRLDVIFERLKARYQRMLHGTLNTRPVVLVFALLVLLLIPVLIMFTKSELAPDEDQGIIFMMANAPKTTNLDYLNAYTDHFITIFKEFPEYYSSFQINGYNGVQSGIGGFLLKPWNERSRTQMEILPEVQARLESVPGLQIFGFNLPSLPGTGEGLPFEFVINSPKDYTTLLQIAERVKKRALESGKFAFMDIDLAFDKPEVVVDIDRAKAAQMGVSMQDLGGTLATLLGEAEINRFTLEGRSYKVIAQVERPFRDNPDWLNNYYVKNAQGESLPLSTLIKVSDQARPRQLNQFQQLNAVTISGFPTVSMGEAIETVRQIALEEAPTGFAFDYAGASRQFVQEGSALWVTFGLALAIIFLVLAAQFESFRDPLVILVTVPLSICGALIPLFLGWSSMNIYTQVGLVTLIGLISKHGILIVEFANQLRKEQGLSPRDAVEQAASIRLRPVLMTTAAMVFGMVPLILATGAGAVSRFDIGTVIATGMSIGTLFTLFVLPCVYTLLAKPDKA	PGPT0003280_3930	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003280-acrB|acrE|mexB|adeJ|smeE|mtrD|cmeB-K18138	NA	NA
D1-35_01640	1149	acrA_1		Multidrug efflux pump subunit AcrA	ATGCTGCGACGCCGCATGCTGATCATGTTGGGTGTTGTCCTGCTGGTGGTACTGGCGCTGGCGGGCTACAAGGCCTATTCCATCTATCAGCAGATCCAGATGTTCTCTGCGCCCAAACCTGCGGTCAGCGTCGCCGTGGCCAAGGCCGTCGAACAGCCGTGGCAAGCCCGCCTGCCCACTGTTGGCAGCCTCAAGGCGTTGCAAGGCGTCGACCTGAGCCTGGAAATCGCCGGCACCGTGCAAAAGGTCCAGTTCGAATCCGGCCAGAAGGTCAAGGCCGGGCAACCGATCCTGCAACTGGACAGCGAAGTCGAAAGCGCCCTGCTGGAAACTGCGCAGGCCGACCTTGGCCTGTCGCAACTGGATTTCGGCCGTGGCCGACAACTGGTGGGCAGCCAGGCGATTTCCAAGGGCGAGTTCGACCGGCTTTCGGCCCAGTTGAAGAAGAACCAGGCCACGGTCAACCAGCTCAAGGCTTCGCTGGCGAAAAAACACATCGTCGCGCCGTTCAGCGGCACCATCGGCATCCGCCAGGTGGATGTCGGCGACTACCTTGCCAGCGGCACGGTGATCGCGACACTGCAGGACCTCAGCAGCCTGTACGTCGACTTCTACGTTCCTGAACAGACGGTGCCTCGGCTGGCGGTTGCCCAGCCAGTCAACGTCAGCGTCTCGGCCTATCCCGGCCAGACCTTCGTTGGCACCATCAGCGCAATCAACCCCAAGGTCGAGGACAGCACCCGTAACGTGCTCGTGCGCGCCACGCTCGCCAACCCCGACGGCAAGCTGTTGCCCGGCATGTTCGCCAACCTGAACGTCATCCTGCCGGACCTCGCCGTCGGGATCGTCGTGCCGGAGAGCGCCGTGACCTACACCCTCTATGGCAACTCCATGTACGTGGTCACTCCGAAGAAAACCGCCGATGGCAGTGTCGAGAAGGATGACAAGGGCCAGCCGATCCTGATTGCCGAACGGCGCTTTGTCGAAACCGGTGAGCGCCGTGACGGGCAGGTCCTGGTGACCAAGGGCGTGCAGCGCGGCGAAGAAGTAGTGATTGCCGGCCAGATCAAGCTCGACAACGGTACGCCCATCGCCATCAGCGACGACAAGACCCTGACCGAACAGAACAGCCCACCGCGCGCGGACTGA	MLRRRMLIMLGVVLLVVLALAGYKAYSIYQQIQMFSAPKPAVSVAVAKAVEQPWQARLPTVGSLKALQGVDLSLEIAGTVQKVQFESGQKVKAGQPILQLDSEVESALLETAQADLGLSQLDFGRGRQLVGSQAISKGEFDRLSAQLKKNQATVNQLKASLAKKHIVAPFSGTIGIRQVDVGDYLASGTVIATLQDLSSLYVDFYVPEQTVPRLAVAQPVNVSVSAYPGQTFVGTISAINPKVEDSTRNVLVRATLANPDGKLLPGMFANLNVILPDLAVGIVVPESAVTYTLYGNSMYVVTPKKTADGSVEKDDKGQPILIAERRFVETGERRDGQVLVTKGVQRGEEVVIAGQIKLDNGTPIAISDDKTLTEQNSPPRAD	PGPT0003275_3243	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003275-acrA|lir|mtcA|mexA|adeI|smeD|mtrC|cmeA-K03585	NA	NA
D1-35_01641	1098			hypothetical protein	ATGTTTCGACGTCAGGCTCTGACGCTGGGCAGCTTGCTGCTCGGCGCCATCACCCTGGGCGGCTGGACGCTGTTCAAGCAAAAGGACAAGAGTCCATTACTGCTGTCGGCACGGGACGATGCCGACGGCAAGCACTACGCGGTCGGCTATCGACTGGACGGCACACGGGTGTTCGCCACCCAGGTTGGCCAGCGCTGCCATGACATCATCAATCACCCTGCGCTGCCGATCGCCCTGTTCGTCGCCCGCCGCCCGGGCACCGAAAGCTATCTGGTCGACCTGCGCGACGGCACGCTGCTGCAGACCATCACCTCGCTGCCGAACCGGCATTTCTACGGTCATGCGGTGATCCACAAGAGCGGCGAATGGCTGTACGCCACAGAAAACGATACCAGCGATCCGGGACGCGGCCTGCTCGGCGTGTACCGTTTCGAAGGCGAACGGCTGGTGCACAGTGGCGAACTGTCTACCCACGGCATCGGCCCTCACCAGGTGTCGTGGCTGCCCGACGGTGAGACGCTGGTGGTGGCCAACGGCGGCATCCGCACCGAGGCCGAGAGCCGGGTCGAAATGAACCTCGACGCCATGGAGCCGAGCCTGGTGCTGATGCACCGCGATGGCACGCTGTTGAGCAAGGAAACCCTCGCCCAGCAGATGAACAGCGTGCGCCATATGGGCATCGCCAGCGATGGCACCATCGTCACCGGCCAGCAGTTCATGGGAGCGGCCCACGAATCGTCCGAATTGCTCGCGATCAAGCGTCCGGGCCAACCGTTCAAGGCGTTCCCGGTACCTGAATACCAGCTGCAAGCCATGGGGCATTACACCGCCAGCGTCGCCGTGCACAGCGACCTGCGCCTGGTAGCCCTGACGGCGCCACGGGGCAACCGTTTTTTCATCTGGGACCTGGACAGCGGCGAGGTTCGCCTCGACGCGCCCCTGCCGGACTGCGCCGGGGTCGGCGCGGTAGCCGACGGGTTTGTCGTGACGTCGGGCCAGGGACGATGCCGCTACTACGATTGTCGGCAGCCACAATTGGTTGCAAAGCCGCTGGATCTGCCGGCGGGGCTCTGGGACAACCATCTGCATCTGGTCTGA	MFRRQALTLGSLLLGAITLGGWTLFKQKDKSPLLLSARDDADGKHYAVGYRLDGTRVFATQVGQRCHDIINHPALPIALFVARRPGTESYLVDLRDGTLLQTITSLPNRHFYGHAVIHKSGEWLYATENDTSDPGRGLLGVYRFEGERLVHSGELSTHGIGPHQVSWLPDGETLVVANGGIRTEAESRVEMNLDAMEPSLVLMHRDGTLLSKETLAQQMNSVRHMGIASDGTIVTGQQFMGAAHESSELLAIKRPGQPFKAFPVPEYQLQAMGHYTASVAVHSDLRLVALTAPRGNRFFIWDLDSGEVRLDAPLPDCAGVGAVADGFVVTSGQGRCRYYDCRQPQLVAKPLDLPAGLWDNHLHLV				NA	NA	NA	NA	NA
D1-35_01642	1065			hypothetical protein	ATGTTCCGTCCCAAGCTGTTGTTCACCAGCCTCGCCGCCATCGCCCTGGGTGCCTGCTCGCCCCAGGACCCGCAAGCGGTCACCTCGGCCGCCATCGCCAAGCAGGTGATCCTGCCGACCTACAGTCGCTGGGTCGAGGCCGACCGCCAACTGGCGACCAGCGCCCTGGCGTTCTGCCAGGGCAAGGAAAACCTGGAAACCGCCCGCGCCGATTTCCTCAAGGCACAAAAAGCCTGGGCTGAACTCCAGCCGCTGCTGATCGGGCCGCTGGCGGAGGGCAACCGCGCCTGGCAGGTACAGTTCTGGCCGGACAAGAAAAACCTTGTGGGCCGCCAGGTCGAGCAACTGGTCAACAGCCAGCCGCAGATCGACGCCGCCGGCCTGGCCAAGTCCAGCGTCGTCGTGCAGGGGCTCTCGGCCTACGAATACCTGCTGTTCGACGCAAAGATCGACATGGCCGACAGCGCCCAGAAAGCCAAGTACTGCCCGCTGCTGATCGCCATCGGCGAACGCCAGAAGCAACTGGCCGAAGAGATCCTGTCGCGGTGGAACACCAACGACGGCATGCTCGCCCAGATGAGCAAGTTCCCGAACCAGCGCTATGCCGATTCCCATGAAGCGATCGCCGACCTGCTGCGGGTCCAGGTGACCGCCCTGGACACCTTGAAGAAAAAACTCGGCACGCCGATGGGCCGCCAGAGCAAGGGCGTGCCGCAACCGTTCCAGGCCGATGCGTGGCGCAGCCAGTCGTCGCTGCAAGGGCTTGAGGCCAGCCTGAGCGCCGCCCGGACCGTGTGGGTTGGCGTCGACAACAAAGGCTTGCGAGGTTTGTTGCCAAGCGAGCAGAAGCCGCTGGCCGACAAGATCGACGCTGCCTACGACGCCTCGTTGAAACTGTTCGCCAGCAGCCAGCGCTCACTGACCGAAATGCTCGGTGACGACGCCGGGCGCCAGCAACTCAACGATTTGTACGACAGCCTCAACGTCGTCCATCGCCTGCATGAAGGCGAACTGGCCAAGGCGCTGGGCATTCAACTGGGCTTCAACGCCAACGACGGTGACTGA	MFRPKLLFTSLAAIALGACSPQDPQAVTSAAIAKQVILPTYSRWVEADRQLATSALAFCQGKENLETARADFLKAQKAWAELQPLLIGPLAEGNRAWQVQFWPDKKNLVGRQVEQLVNSQPQIDAAGLAKSSVVVQGLSAYEYLLFDAKIDMADSAQKAKYCPLLIAIGERQKQLAEEILSRWNTNDGMLAQMSKFPNQRYADSHEAIADLLRVQVTALDTLKKKLGTPMGRQSKGVPQPFQADAWRSQSSLQGLEASLSAARTVWVGVDNKGLRGLLPSEQKPLADKIDAAYDASLKLFASSQRSLTEMLGDDAGRQQLNDLYDSLNVVHRLHEGELAKALGIQLGFNANDGD				NA	NA	NA	NA	NA
D1-35_01643	1428			hypothetical protein	ATGCTGTCGTTGCCTCTTCGCTTGTGCGCTCTGTTCATGGCCCTGGGCCTGACGGCCTGCGATGACGCCCCGCGTTTTACCCAGGCCGAGCCCGGCGAAGCCAGATCCGGCGGCAGCGCGACAGTACGCAAGGCCGACCAGAACGCCTTCTCGCTGCCCTCGGCCAATCTGCCGCCGTCGCGGCGCGTGGACTTCAGCGTCGGCAACAGTTTTTTCCGCAGTCCCTGGGTAATCGCGCCCTCGACTACCACCGCCCGGGACGGCCTCGGCCCCCTGTTCAACACCAACGCCTGCCAGAACTGCCACATCAAGGACGGTCGCGGCCATCCGCCGGCGCCGGATGCCAGCAGCGCGGTGTCGATGCTGGTACGCCTGTCGATCCCCGATGCGCCGCCCTACGCCAAGCTCATCGAACAACTCGGCGTCGTACCGGAGCCGGTCTATGGCGGGCAATTGCAGGACATGTCGGTGCCGGGCGTCGCGCCGGAAGGCAAGGTCAGGGTCGATTACTCTCCCGTCCCGGTGCGCTTCAAGGACGGCACCGTCGTCGAACTGCGCAAGCCGAGCCTGCAGATCACCCAGCTGGGCTATGGCCCGATGCACCCCGACACACGATTTTCGGCCCGTGTCGCACCGCCGATGATCGGCCTGGGTCTGCTCGAGGCCATCCCCGATGCAGCCATCCTGGCCAATGCCGAGTCACAGGCGCGGGAAAACAACGGCATCGCCGGTCGCCCGAACATGGTCTGGGACGACGTCCAGCAAAAAACCGTGCCGGGGCGCTTCGGCTGGAAGGCCGGACAACCGAACCTCAATCAACAGAACGTCCATGCGTTCTCCGGCGACATGGGCCTGACGACCAGCCTGCGGCCCTTCGACGACTGCACCCAGGCCCAGCTCGATTGCCAGCGCGCGCCCAACGGCAACGGCCCTGAGGGCGAACCGGAAGTCAGCGACAATATTCTGCGGCTGGTGCTGTTCTACAGCCGCAACCTTGCCGTGCCGGCCCGCCGCGACGTGGATTCGCCCCAGGTACTGGCGGGCAAGAACCTGTTTTTCCAGGCCGGTTGCCAGTCCTGCCACACTCCCAAGTACACGACGTCTGCCAACGCCGCCGAACCCGAGCTGGCGAACCAGGTCATCCGTCCCTATACCGACCTGCTGTTGCACGACATGGGCGAAGGCCTGGCGGACAACCGCAGCGAATTCAAGGCCAGCGGCCGCGACTGGCGGACCCCGCCGCTGTGGGGCATCGGCCTGACCGAAACCGTCAACGGCCACACCCAGTTTCTCCACGACGGTCGCGCCCGCAACCTGCTCGAAGCCGTGCTCTGGCATGGCGGCGAAGCCCAGGCGGCGCAGCGACAGGTTCTAGCATTCAACGCCGAGCAGCGCGCTGCGCTGTTGGCTTTCCTGAACTCTCTTTAA	MLSLPLRLCALFMALGLTACDDAPRFTQAEPGEARSGGSATVRKADQNAFSLPSANLPPSRRVDFSVGNSFFRSPWVIAPSTTTARDGLGPLFNTNACQNCHIKDGRGHPPAPDASSAVSMLVRLSIPDAPPYAKLIEQLGVVPEPVYGGQLQDMSVPGVAPEGKVRVDYSPVPVRFKDGTVVELRKPSLQITQLGYGPMHPDTRFSARVAPPMIGLGLLEAIPDAAILANAESQARENNGIAGRPNMVWDDVQQKTVPGRFGWKAGQPNLNQQNVHAFSGDMGLTTSLRPFDDCTQAQLDCQRAPNGNGPEGEPEVSDNILRLVLFYSRNLAVPARRDVDSPQVLAGKNLFFQAGCQSCHTPKYTTSANAAEPELANQVIRPYTDLLLHDMGEGLADNRSEFKASGRDWRTPPLWGIGLTETVNGHTQFLHDGRARNLLEAVLWHGGEAQAAQRQVLAFNAEQRAALLAFLNSL				NA	NA	NA	NA	NA
D1-35_01644	1002	gapA	COG0057	Glyceraldehyde-3-phosphate dehydrogenase 1	ATGACTCTTCGAATCGCAATCAATGGTTTTGGCCGCATCGGCCGCAACGTCCTCCGTGCACTGTATACCCAAGGCTATCGTCGCGACTTGCAGATCGTCGCTATCAACGACCTGGGTGACAGCGCGATCAATGCTCACCTGCTCAAGTTCGACACCGTCCACGGCACCTTTGATGCCGACGTGCAGCACGATCACGAGAGCCTGACGGTCAATGGCGACCGCATCGCGGTCAGTGCCATCCGCAACCCGGCCGAACTGCCCTGGGCCGCCGAAAAGATCGACGTCGTGTTCGAATGCACCGGCCTGTTCACCGACCGTGCCAAGGCCGCCGCGCACATCAGCGCCGGCGCCCGCAAGGTGATCATCTCGGCCCCGGCCAAGGGCGCCGACGCGACCGTGGTGTATGGCGTGAACCATGACATCCTGCGCCAGTCCCACCAGATCATTTCCAACGCTTCGTGCACCACCAACTGCCTGGCCCCGGTGGCCCAGGTGCTGCACCGCGAGCTGGGTATCGAAAGCGGCCTGATGACCACCATCCATGCCTACACCAACGACCAGAACCTGACCGACGTCTATCACAGCGACCCGTACCGCGCCCGTTCGGCCACCCAGAACATGATCCCGAGCAAGACCGGCGCCGCCGAAGCGGTAGGCCTGGTGCTGCCGGAGCTGGCGGGCAAGCTGACCGGCATGGCCGTGCGCGTGCCGGTGATCAACGTGTCGCTGGTGGACCTGACCGTGCAGCTCAAGCGCGAAGCTTCGGCCGATGAGGTCAACGCGCTGCTCAAGCAGGCCAGCCAGCATTCGAAGATCCTTGGCTACAACACCCTGCCGCTGGTCTCCAGCGACTTCAACCACAACCCGCTGTCGTCGATCTTCGATGCCAACCACACCAAGGCCAGCGGCAAGCTGCTCAAGGTACTGGCCTGGTATGACAACGAATGGGGTTTCTCCAACCGCATGCTGGATAACTGCCTGGCGCTGTGCAACGCCGAATAA	MTLRIAINGFGRIGRNVLRALYTQGYRRDLQIVAINDLGDSAINAHLLKFDTVHGTFDADVQHDHESLTVNGDRIAVSAIRNPAELPWAAEKIDVVFECTGLFTDRAKAAAHISAGARKVIISAPAKGADATVVYGVNHDILRQSHQIISNASCTTNCLAPVAQVLHRELGIESGLMTTIHAYTNDQNLTDVYHSDPYRARSATQNMIPSKTGAAEAVGLVLPELAGKLTGMAVRVPVINVSLVDLTVQLKREASADEVNALLKQASQHSKILGYNTLPLVSSDFNHNPLSSIFDANHTKASGKLLKVLAWYDNEWGFSNRMLDNCLALCNAE	PGPT0018000_6928	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
D1-35_01645	1827	edd	COG0129	Phosphogluconate dehydratase	ATGCATCCCCGCGTACTTGAGGTCACCGAACGGCTTATCGCCCGCAGTCGCGCTACACGCGAGGCTTACCTTGCATTGATCCGCGGTGCAGCCAGCGACGGTCCGATGCGCGGCAAGCTGCAATGCGCCAACTTCGCCCATGGCGTCGCCGGTTGCGGCACTGAAGACAAGCATCACCTGCGGATGATGAACGCCGCCAACATCGCCATCGTGTCGTCCTATAACGACATGCTCTCGGCCCACCAGCCGTACGAAACCTTCCCGGAACAAATCAAGAAAGCCCTGCGCGAGATCGGCTCGGTCGGCCAGTTCGCCGGCGGTACGCCAGCCATGTGCGATGGTGTGACCCAGGGCGAGGCGGGGATGGAGCTGAGCCTGCCGAGCCGCGAAGTGATCGCGTTGTCCACGGCGGTGGCGTTGTCCCACAACATGTTCGACGGTGCCTTGATGCTGGGCATCTGCGACAAGATCGTCCCGGGCCTGATGATGGGCGCGCTGCGCTTCGGTCATCTGCCGACGATCTTCGTGCCTGGCGGGCCGATGGTCTCGGGCATTTCCAACAAGGAAAAGGCCGATGTGCGTCAGCGCTATGCCGAAGGCAAGGCGACCCGCGAAGAGCTGCTGGAATCGGAGATGAAGTCCTACCACAGCCCAGGTACCTGCACGTTCTACGGTACCGCCAACACCAACCAGTTGCTGATGGAAGTGATGGGCCTGCACTTGCCGGGCGCCTCGTTCGTCAACCCGAACACGCCGCTGCGCGATGCCCTGACCCGCGAAGCGGCGTTCCAGGTGACGCGCCTGACCATGCAGAGCGGCAACTTCATGCCCATCGGCGAAATCGTCGACGAGCGTTCGCTGGTCAACTCCATCGTTGCGCTGCACGCCACCGGTGGCTCCACCAACCACACCCTGCACATGCCGGCCATCGCCATGGCGGCGGGCATCCAGCTGACCTGGCAGGACATGGCCGACCTCTCCGAAGTGGTGCCGACCCTGAGCCACGTCTACCCGAACGGCAAGGCCGATATCAACCACTTCCAGGCGGCGGGCGGCATGTCGTTCCTGATTCGCGAACTGCTGGAAGCCGGCCTGCTCCACGAAAACGTCAACACCGTGATGGGCCACGGCCTGAGCCGTTACACCCAGGAACCGTTCCTGGAGGACGGCGAACTGGTCTGGCGCGATGGCCCGACCGAAAGTCTCGACGAAAGCATCCTGCGTCCGGTAGCCCGGGCTTTCTCGCCGGAAGGCGGGTTGCGGGTGATGGAAGGCAACCTGGGCCGGGGCGTGATGAAGGTCTCGGCCGTGGCCCTGGAAAACCAGTTCGTCGAAGCCCCGGCCATGGTGTTCCAGGACCAGCAGGACCTGGCCGATGCGTTCAAGGCTGGTCTGCTGGAGAAGGATTTTGTCGCGGTGATGCGCTTCCAGGGCCCGCGCTCCAACGGCATGCCGGAGCTGCACAAGATGACGCCCTTTCTCGGCGTGCTGCAGGATCGCGGGTTCAAGGTAGCGCTGGTCACCGACGGGCGCATGTCCGGCGCATCGGGGAAAATCCCGGCGGCCATCCATGTCAGTCCCGAAGCCTATGTCGGCGGCGCGTTGGCTCGGGTGCGCGAGGGCGATATCATCCGTGTCGATGGCGTCAAAGGCACCTTGGAATTGAAGGTGGACGCCGAGGAATTCGCCGCGCGTGAACCGGCCAAGGGCCTGTTGGGCAACAACATCGGCACCGGTCGCGAGCTGTTCGGTTTCATGCGCATGGCCTTCAGCTCGGCAGAGCAGGGCGCCAGCGCCTTCACTTCTGCCCTGGAGACGCTTAATTGA	MHPRVLEVTERLIARSRATREAYLALIRGAASDGPMRGKLQCANFAHGVAGCGTEDKHHLRMMNAANIAIVSSYNDMLSAHQPYETFPEQIKKALREIGSVGQFAGGTPAMCDGVTQGEAGMELSLPSREVIALSTAVALSHNMFDGALMLGICDKIVPGLMMGALRFGHLPTIFVPGGPMVSGISNKEKADVRQRYAEGKATREELLESEMKSYHSPGTCTFYGTANTNQLLMEVMGLHLPGASFVNPNTPLRDALTREAAFQVTRLTMQSGNFMPIGEIVDERSLVNSIVALHATGGSTNHTLHMPAIAMAAGIQLTWQDMADLSEVVPTLSHVYPNGKADINHFQAAGGMSFLIRELLEAGLLHENVNTVMGHGLSRYTQEPFLEDGELVWRDGPTESLDESILRPVARAFSPEGGLRVMEGNLGRGVMKVSAVALENQFVEAPAMVFQDQQDLADAFKAGLLEKDFVAVMRFQGPRSNGMPELHKMTPFLGVLQDRGFKVALVTDGRMSGASGKIPAAIHVSPEAYVGGALARVREGDIIRVDGVKGTLELKVDAEEFAAREPAKGLLGNNIGTGRELFGFMRMAFSSAEQGASAFTSALETLN				NA	NA	NA	NA	NA
D1-35_01646	960	glk	COG0837	Glucokinase	TTGAAACTGGCTTTGGTCGGTGATATCGGTGGGACCAACGCACGTTTCGCGTTGTGGAAGAACCACAACCTGGAAAACATCCAGGTGCTGGCGACGGCGGATTACGCCTGCCCGGAAGATGCCATCAAGGTTTACCTGAGCGGCATGGGCATGACGCCGGGTTCCATCGGCTCGGTGTGCCTGTCGGTGGCCGGTCCGGTGAGTGGCGATGAGTTTCGCTTCACCAACAATCACTGGCGCTTGAGCAACCTGGCGTTCTGCAAGACTTTGCAGGTGGAGAAGCTGCTGCTGGTCAACGATTTCTCCGCCATGGCGCTGGGCATGACCTGCTTGCGTCCCGATGAATACCGGGTCGTCTGCGCGGGCACGCCGGAGCCGATGCGCCCGGCGGTGGTGATCGGCCCGGGCACGGGGCTGGGCGTCGGTACGCTGCTGGACCTGGGCGAGGGCCGTTTCGCGGCGTTGCCGGGGGAGGGCGGGCATGTCGACCTGCCGATGAGCAGTCCGCGCGAGACCCAGCTCTGGCAGCACATCTACAACGAGATCGGCCACGTCAGCGCCGAAACGGCGCTGAGCGGCAGCGGTCTGCCTCGTGTGTACCGGGCGATCTGCGCGGTGGACGGCCATGAGCCGGTGCTTGATACCCCCGAGTCGATCACCGCCGCCGGCCTGGCCGGCGACCCGGTCGCCCTGGAGGTACTCGAACAATTCTGCCGTTGGCTGGGGCGCGTGGCGGGCAACAATGTGCTCACCGTGGGCGGGCGTGGCGGCGTGTACATCGTCGGTGGCGTGGTCCCGCGCTTTGCCGATTTTTTTGTCGAGAGCGGCTTCGCCAGATGCTTCGCCGACAAGGGCTGCATGAGCGATTATTTCAAAGGCATTCCGGTCTGGCTGGTGACGGCGCCGTATTCCGGCCTGATGGGTGCGGGCGTGGCGTTAGAGCAGTCCTCCGCAATTTGA	MKLALVGDIGGTNARFALWKNHNLENIQVLATADYACPEDAIKVYLSGMGMTPGSIGSVCLSVAGPVSGDEFRFTNNHWRLSNLAFCKTLQVEKLLLVNDFSAMALGMTCLRPDEYRVVCAGTPEPMRPAVVIGPGTGLGVGTLLDLGEGRFAALPGEGGHVDLPMSSPRETQLWQHIYNEIGHVSAETALSGSGLPRVYRAICAVDGHEPVLDTPESITAAGLAGDPVALEVLEQFCRWLGRVAGNNVLTVGGRGGVYIVGGVVPRFADFFVESGFARCFADKGCMSDYFKGIPVWLVTAPYSGLMGAGVALEQSSAI	PGPT0017730_1995	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017730-glk-K00845	NA	NA
D1-35_01647	732	ompR_2		Transcriptional regulatory protein OmpR	GTGAGTTCAGTGAACAAATCGATTTTGCTGGTCGACGACGACCAGGAGATTCGCGAACTGCTGGACACTTACCTCAGTCGCGCGGGTTTCCAGGTGCGTACCACCCCCGATGGCGCCGGGTTTCGCCAGGCCCTCAACGAGGCGCCGAGCGACCTGGTGATCCTCGACGTGATGTTGCCCGACGAGGACGGCTTCAGCCTTTGCCGCTGGGTTCGCCAGCATCCGCGCCAGGCCCATGTGCCGATCATCATGCTCACCGCCAGTTCCGACGAGGCCGATCGGGTCATCGGCCTGGAGCTGGGGGCGGATGATTACCTGGGCAAGCCGTTCAGTCCTCGCGAATTGCAGGCGCGCATCAAGGCCTTGCTGCGACGGGCGCAGTTCGGCCAGGAGCGATCCGGCGGCGAAGTGCTGGCCTTCGATGAGTGGCGGCTGGACATGGTCAGCCACCGCCTGTTCCATGCCGATGGCGAAGAGGTGATCCTGTCGGGTGCCGATTTTGCCTTGCTCAAGCTGTTCCTCGATCATCCACAGGAAATCCTCGACCGCGACACCATCGGCAACGCCACCCGGGGGCGTGAATTGATGCCGCTGGACCGGATCGTCGACATGGCGGTGAGTCGCTTGCGCCAGCGCCTGCGCGATACCGACAAGCCGCCGCGATTGATCCGCACGGTGCGCGGCAGCGGTTATCAACTGGCGGCCAGTGTGGTTGCCAGCAATGGTCATTGA	MSSVNKSILLVDDDQEIRELLDTYLSRAGFQVRTTPDGAGFRQALNEAPSDLVILDVMLPDEDGFSLCRWVRQHPRQAHVPIIMLTASSDEADRVIGLELGADDYLGKPFSPRELQARIKALLRRAQFGQERSGGEVLAFDEWRLDMVSHRLFHADGEEVILSGADFALLKLFLDHPQEILDRDTIGNATRGRELMPLDRIVDMAVSRLRQRLRDTDKPPRLIRTVRGSGYQLAASVVASNGH	PGPT0012985_740	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OSMOLARITY_SIGNALLING,PGPT0012985-ompR-K07659	NA	NA
D1-35_01648	1470	sasA_7		Adaptive-response sensory-kinase SasA	ATGGTCATTGAGGGAATCCGCAAGATTGCCCGACGGGTGCCCGTGCCGCGCTCGTTGCTCGGACGGATGCTGCTGCTGACGCTGCTGGTGGTGCTGTTCGCCCAGACGCTGTCCAGCCTGATCTGGGTTTCGCAACTGCGCGCCACGCAGCTCGAAGGCCTGGTCACCAGCGCCCGCAGTTTGGCTCACTCGATGACCGCCACCGTGACCTACCTGCGTTCGCTGCCGGTGGCCTACCGGCCGTTGGTGCTGGACCAGTTGCGCAGCATGGGCGGCACGCGGTTTGTCGTTACGCTCAATGACAAGCCGCTGGGCATGGATGTGCTGCCGGTCACGCCGCGCAAACTGGCGGTGCTCAAGGCCGTGGACGATGTGCTGCGCCGCTCCCTGGGCAATAACGCCGACATCTCCGTCAAGTTTGTCAGCCCGGAGGATCTGCGGATCTTCAACGGCGGGCTCAAGCTTGATGAGCTGCCCCGTTCGTGGGCCCACTACGCCCTGACGCTCGAGCCAGTGAACCCGCCGGTACTGGTCACGCAGATCCAGATGGCGCCGGGCGAATGGCTGTACATCGCCTCGCTGCTGCCCGAACCCTATACCAGTCTTGAAGAGCAGGACCTGCCCAAGCAGCAGGTGGGCTTCATCGTGCTCACCAGTAGCCTGTTGCTGTTGTTCATCGGCTTGCTGGTGCATTGGCAGAGTCGTCCGCTCAAGCGTTTGGCCCGCGCGGCGCGGGACATGTCCCTGGGCGCAGAAGTGCAGCCCGTGGCCGAGGGCGGCGGCAGCGAAGTGGTGGAGGTGGGGCGTGCGTTCAATGCCATGCGTGAGCGTATCAGCCGCTACCTGACCGAGCGCAGCCAGTTGTTCAGCGCGATTTCCCACGACCTGCGCACGCCGATCACCCGCCTGCGGCTGCGGGTCGAGTTGCTGGAGGATGAAAATCTGCAGGCCAAGTTCGGCCGCGACCTCGACGAGCTGGAGCTGCTGGTCAAAGGCGCGCTGCAATGCGTCAAGGACACCGATATCCACGAGAACATCGAGCCGGTGGACCTCAATCATGTGCTCGATTGCCTGGTGGAGCCTTACCTGGCGCCCCACGGCAACGGCCGGGTGACCCAGGATGGCCGGGCGTTGGCACCGTACCCGGGCAAACCGCTGGCCCTCAAGCGCTGCATCGGCAACCTGATCGACAACGCCTTGAAATACGGGCAGAGGGCCCACTTGCACATCGACGATGATGAAAACGCTTTCATCCTGCACGTTGACGATGAAGGCCCGGGCGTACCGGAACAACGCCTCGAACAGGTCTTCGAACCGCACTTTCGCCTGGCCGGGCAGCAGCAGGGATATGGCCTGGGGCTGGGCATCGCGCGCAACATTGCCCACAGCCATGGCGGCGAGGTGAGCCTGCAGAACCTGCGCGAGGGCGGGTTGCGGGTGACGCTGCAGTTGCCTCGCAGTGTGGATTGA	MVIEGIRKIARRVPVPRSLLGRMLLLTLLVVLFAQTLSSLIWVSQLRATQLEGLVTSARSLAHSMTATVTYLRSLPVAYRPLVLDQLRSMGGTRFVVTLNDKPLGMDVLPVTPRKLAVLKAVDDVLRRSLGNNADISVKFVSPEDLRIFNGGLKLDELPRSWAHYALTLEPVNPPVLVTQIQMAPGEWLYIASLLPEPYTSLEEQDLPKQQVGFIVLTSSLLLLFIGLLVHWQSRPLKRLARAARDMSLGAEVQPVAEGGGSEVVEVGRAFNAMRERISRYLTERSQLFSAISHDLRTPITRLRLRVELLEDENLQAKFGRDLDELELLVKGALQCVKDTDIHENIEPVDLNHVLDCLVEPYLAPHGNGRVTQDGRALAPYPGKPLALKRCIGNLIDNALKYGQRAHLHIDDDENAFILHVDDEGPGVPEQRLEQVFEPHFRLAGQQQGYGLGLGIARNIAHSHGGEVSLQNLREGGLRVTLQLPRSVD				NA	NA	NA	NA	NA
D1-35_01649	1260	yihS	COG2942	Sulfoquinovose isomerase	ATGGACACCTTCCAACCGGCGTTCAGCAGTTGGCTGAATGCGCCTGCCCATCGGCAATGGCTCGCTGCCGAAGGTTTGCGGCTGCTGGCGTTCGCCAAGGCTTCGAAGCTGCCGGACGGTTTCGGCAACCTGGACGAGCTGGGTCGCCTGCCGGCCGGTGCGCGGGCCGAGACCATGAACACCGCACGCATGACCCACAGCTTCGCCATGGCCCACATCCAGGGCCTGCCGGGGTTCGCCGAGCTGGTGGATCATGGCGTCCAGGCCCTCGGCGGCCCGCTGCGCGATGCCGAACATGGCGGCTGGTTCGCCATGGCCGATCCCGATGCCAGCGACACCGGCAAGGCCGCTTACCTGCATGCTTTCGTGGCCTTGGCCGCCAGCTCCGCGGTAGTTGCCCAACGCCCCGGCGCCGAGGCATTGCTCAAGGAAGCGGTGCGGGTTATCGACGAGCATTTCTGGTGTGAAGAAGAGGGCGCCCTGCGCGAGTCCTTCAACCGCGACTGGAGCGAGGAGGAAGCCTATCGCGGCGCCAACAGCAACATGCACGCCACCGAAGCCTTCCTGGCCCTGGCCGACGCCACGGACGACCCGCGCTGGTTGGCCCGCGCGCTGCGTATCGTCGAGCGGGTCATCCATGGTCATGCGGCCGCCAACGACTACATGGTGGTGGAGCATTTCGACCGCGACTGGCAACCGCTGCGCGAGTACAACCAGGACAATCCCGCCGATGGCTTCCGTCCCTACGGCACCACGCCCGGTCATGGTTTCGAATGGGCGCGGCTGCTGCTGCATCTGGAAGCCGCGCGCGTGCAGATCGGCATGCTGACACCGGGCTGGCTGGCCCAGGATGCGCAGAAACTTTTCGATCAGAATTGCCGCCATGGCTGGGACATCGATGGCGCGCCGGGAATCGTCTACACGCTGGACTGGGGTAATCGCGCCGTGGTTCGCCATCGCCTGCACTGGGTGCACGCCGAAGCGGCAGCGGCGGCCAGTGCCTTGCTCAAACGTACCGACGAGGCCCAATACGAAGTCTGGTACCGGCGTTTCTGGGAATTTTGTGACAAACATTTCATCGACCGCTGCAACGGCAGCTGGCATCACGAGCTGGATCCGCAGAACCGCCCCAGCGCCGACATCTGGCCGGGCAAACCGGATCTTTATCACGCCTGGCAAGCGGTGCTGATACCACGCTTGCCATTGGCGCCGAGCATGGCGTCGGCCTTGGCGCGATTATCCGATCCTGCACCTGTGTAA	MDTFQPAFSSWLNAPAHRQWLAAEGLRLLAFAKASKLPDGFGNLDELGRLPAGARAETMNTARMTHSFAMAHIQGLPGFAELVDHGVQALGGPLRDAEHGGWFAMADPDASDTGKAAYLHAFVALAASSAVVAQRPGAEALLKEAVRVIDEHFWCEEEGALRESFNRDWSEEEAYRGANSNMHATEAFLALADATDDPRWLARALRIVERVIHGHAAANDYMVVEHFDRDWQPLREYNQDNPADGFRPYGTTPGHGFEWARLLLHLEAARVQIGMLTPGWLAQDAQKLFDQNCRHGWDIDGAPGIVYTLDWGNRAVVRHRLHWVHAEAAAAASALLKRTDEAQYEVWYRRFWEFCDKHFIDRCNGSWHHELDPQNRPSADIWPGKPDLYHAWQAVLIPRLPLAPSMASALARLSDPAPV				NA	NA	NA	NA	NA
D1-35_01650	1302			putative sugar-binding periplasmic protein	ATGAATGCGATTTCTCGCCTCGCTACTGTCATTTCTCTTGCTTCCTTGCTTCCCGTCGCAGCATTCCCCGTCAGCGCCCTGGCCGCCGAATCGAAAGGTTCCGTGGAAGTCGTCCACTGGTGGACGTCGGGTGGTGAAAAAGCCGCGGTCGATGTGCTCAAGGCCCAGGTAGAAAAAGACGGCTTTACCTGGAAGGACGGCGCTGTCGCCGGCGGCGGCGGTTCCACCGCCATGACCGTGCTCAAGAGCCGCGCCGTGGCCGGTAACCCACCGGGCGTAGCCCAGATCAAAGGTCCGGACATCCAGGAATGGGCGTCCACCGGCCTGCTCGATACCGACATCCTGGAAGACGTTGCCAAAGCGGAGAAATGGGACAGCCTGCTCGACAAGAAAGTCTCCGACACCGTGAAGTACGAAGGTGACTACGTCGCCGTGCCGGTGAACATTCACCGCGTCAACTGGCTGTGGATCAACCCGGAAGTCTTCAAGAAAGCCGGCATCACCAAGAACCCGACCACCCTCGAAGAATTCTACGCCGCCGGTGACAAGCTCAAGGCCGCGGGCTTCATTCCCCTGGCCCACGGCGGCCAGCCATGGCAGGACAGCACCGTGTTCGAAGCGGTGGTGCTCTCGGTCATGGGCGCTGATGGCTACAAGAAAGCCCTGGTCGACCTGGATAACAAGGCGCTAACCGGTCCGGAAATGGTCAAGGCATTGACCGAGCTGAAGAAAGTCGCGACCTACATGGACGCCGACGGCAAGGGCCAGGACTGGAACCTGGAAGCGGCCAAGGTCATCAACGGCAAGGCCGGCATGCAGATCATGGGTGACTGGGCCAAGAGCGAGTGGACCGCGGCCAAGAAGGTCGCCGGCAAGGACTACGAGTGCGTAGCCTTCCCAGGCACCGACAAGGCCTTCACCTACAACATCGATTCTTTGGCGGTGTTCAAGCAGAAAGACAAGGGCACGGCGGCGGGTCAGCAGGATATCGCCAAGGTCGTGCTGGGCGAGAACTTCCAGAAAGTCTTCAGCATCAACAAAGGCTCGATCCCGGTGCGTAACGACATGCTGGGCGACATGGCCAAGTACGGTTTCGACTCGTGCGCCCAGACCGCCGCCAAGGACTTCCTGGCAGACGCCAAGAGCGGCGGCCTGCAACCAAGCATGGCGCACAACATGGCGACCACGCTGGCGGTACAGGGCGCGTTCTTCGATGTCGTGACCAACTACATCAACGACCCGAAAGCCGACCCGGCCGATGCTGCCAAGAAGCTTGGCGCAGCGGTTCAGTCTGCGAAGTAA	MNAISRLATVISLASLLPVAAFPVSALAAESKGSVEVVHWWTSGGEKAAVDVLKAQVEKDGFTWKDGAVAGGGGSTAMTVLKSRAVAGNPPGVAQIKGPDIQEWASTGLLDTDILEDVAKAEKWDSLLDKKVSDTVKYEGDYVAVPVNIHRVNWLWINPEVFKKAGITKNPTTLEEFYAAGDKLKAAGFIPLAHGGQPWQDSTVFEAVVLSVMGADGYKKALVDLDNKALTGPEMVKALTELKKVATYMDADGKGQDWNLEAAKVINGKAGMQIMGDWAKSEWTAAKKVAGKDYECVAFPGTDKAFTYNIDSLAVFKQKDKGTAAGQQDIAKVVLGENFQKVFSINKGSIPVRNDMLGDMAKYGFDSCAQTAAKDFLADAKSGGLQPSMAHNMATTLAVQGAFFDVVTNYINDPKADPADAAKKLGAAVQSAK	PGPT0016570_115	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016570-gtsA|glcE-K17315	NA	NA
D1-35_01651	909	melD_1	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGAGTTCTGTTGCTGTGTTCAGCAAGGCCTCGCCGTTCGATGCATTGCAGCGCTGGCTACCAAAACTGGTGCTGGCGCCGAGCATGTTCATCGTCCTGGTGGGCTTCTATGGCTATATCTTGTGGACGTTCGTCCTGTCGTTCACCACATCGACCTTCCTGCCTACCTATAAGTGGGCCGGCCTGGCGCAATACGCACGGCTTTGGGACAACGACCGCTGGTGGGTGGCGAGCAAGAACCTGGCAGTCTTTGGTGGCATGTTCATTGGTATCACCCTGGTGATCGGCGTGCTGCTGGCGGTGTTCCTCGACCAGCGTATTCGCCGCGAAGGTTTCATCCGCACCATTTACCTGTACCCGATGGCGCTCTCGATGATCGTCACCGGTACCGCCTGGAAATGGCTGCTCAACCCGGGCATGGGCCTGGATAAATTGTTGCGTGACTGGGGCTGGGAAGGCTTCCGCCTGGACTGGCTGATCGACCCCGATCGCGTAGTGTACTGCCTGGTGATCGCTGCGGTCTGGCAGGCCTCGGGTTTCATCATGGCGATGTTCCTGGCCGGCCTGCGGGGCGTTGATCAATCGATCATCCGTGCCGCGCAGATCGATGGCGCGAGCATGCCGCGCATCTACTGGAAAGTGGTGCTGCCAAGCCTGCGTCCAGTGTTCTTCAGTGCCGTGATGATCCTGGCGCATATCGCGATCAAGAGTTTCGACCTGGTGGCGGCGATGACAGCTGGTGGTCCGGGGTATTCCTCCGACCTGCCTGCCATGTTCATGTACTCCTTTACGTTCAGTCGCGGCCAGATGGGCATGGGCTCGGCCAGTGCAATCCTGATGCTCGGTGCGATCCTCGCGATCATCGTGCCTTACCTGTATTCCGAGCTGAGGGCCAAGCGTCATGACTAG	MSSVAVFSKASPFDALQRWLPKLVLAPSMFIVLVGFYGYILWTFVLSFTTSTFLPTYKWAGLAQYARLWDNDRWWVASKNLAVFGGMFIGITLVIGVLLAVFLDQRIRREGFIRTIYLYPMALSMIVTGTAWKWLLNPGMGLDKLLRDWGWEGFRLDWLIDPDRVVYCLVIAAVWQASGFIMAMFLAGLRGVDQSIIRAAQIDGASMPRIYWKVVLPSLRPVFFSAVMILAHIAIKSFDLVAAMTAGGPGYSSDLPAMFMYSFTFSRGQMGMGSASAILMLGAILAIIVPYLYSELRAKRHD	PGPT0016575_421	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016575-gtsB|glcF-K17316	NA	NA
D1-35_01652	846	ngcG	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGACTAGTCTCGCTGCGAAACCTGCCATCAGCCTGAGCCGTATCGCGATCTATGCGGTGCTGATCCTTGCCGTGTTGCTTTACCTGGTGCCGTTGGTGGTCATGCTGTTGACCAGCTTCAAGACGCCGGAAGACATCAGTACCGGTAACCTGTTGAGCTGGCCGACCGTGGTCAGCGGCATCGGCTGGGTCAAGGCCTGGGCCACGGTCAACGGGTACTTCTGGAACTCGATCAAGATCACCGTGCCGGCCGTGCTGATCTCCACCGCCATCGGCGCGTTGAACGGCTATGTGCTGTCGATGTGGCGCTTCCGTGGCTCGCAGTTGTTCTTCGGCCTGTTGCTGTTCGGCTGCTTCCTGCCGTTCCAGACCGTGCTGCTGCCGGCCTCGTTCACCCTCGGCAAGATGGGCCTGGCCAGCACCACCACCGGCCTGGTGTTTGTCCATGTCGTCTACGGCCTGGCGTTCACCACGCTGTTCTTCCGCAATTACTACGTGAGCATCCCCGACGCGCTGGTGAAGGCCGCGCGCCTCGACGGTGCCGGGTTCTTCACGATCTTCCGGCGGATCATCCTGCCGATGTCGACGCCGATCATCATGGTCTGCCTGATCTGGCAGTTCACCCAGATCTGGAACGACTTCCTCTTTGGCGTGGTGTTCTCCAGCGGCGACTCCCAGCCCATCACGGTGGCGCTGAACAACCTGGTCAACACCAGCACCGGGGCCAAGGAATATAACGTGGACATGGCGGCGGCGATGATCGCCGGGCTGCCGACCCTGCTGGTCTATGTGATCGCAGGCAAGTATTTCGTGCGCGGCCTCACGGCTGGCGCGGTCAAGGGGTAA	MTSLAAKPAISLSRIAIYAVLILAVLLYLVPLVVMLLTSFKTPEDISTGNLLSWPTVVSGIGWVKAWATVNGYFWNSIKITVPAVLISTAIGALNGYVLSMWRFRGSQLFFGLLLFGCFLPFQTVLLPASFTLGKMGLASTTTGLVFVHVVYGLAFTTLFFRNYYVSIPDALVKAARLDGAGFFTIFRRIILPMSTPIIMVCLIWQFTQIWNDFLFGVVFSSGDSQPITVALNNLVNTSTGAKEYNVDMAAAMIAGLPTLLVYVIAGKYFVRGLTAGAVKG	PGPT0016580_646	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016580-gtsC|glcG-K17317	NA	NA
D1-35_01653	1161	ugpC_1	COG3839	sn-glycerol-3-phosphate import ATP-binding protein UgpC	ATGGCTACGCTTGAACTTCGCAATGTAAACAAGACCTACGGCGCGGGCCTGCCCGACACCTTGAAGGACATCCAGCTGTCGATCAAGGAAGGTGAATTCCTGATCCTGGTCGGTCCTTCGGGCTGCGGCAAATCGACCCTGATGAACTGCATCGCCGGCCTCGAGACCATCACCGGTGGCGCGATCATGATCGGCGACCAGGACGTCAGCGGCATGAGTCCCAAGGATCGCGACATCGCCATGGTGTTCCAGTCCTATGCGCTGTACCCGACCATGAGCGTGCGCGAGAACATCGAGTTCGGCCTGAAGATCCGCAAAATGAAACAGGCGGACATCAACGAAGAAGTGGCGCGGGTGGCCAAGCTATTGCAGATCGAGCACTTGCTCAACCGCAAGCCCGGCCAGCTCTCCGGCGGGCAGCAACAGCGCGTCGCGATGGGCCGGGCCCTGGCGCGGCGGCCGAAGATCTACCTGTTCGACGAGCCGCTGTCCAACCTCGACGCCAAGCTGCGCGTCGAGATGCGCACCGAAATGAAACTGATGCACCAGCGCCTGAAGACCACCACGGTCTACGTGACCCACGACCAGATCGAGGCCATGACCCTGGGCGATAAAGTCGCCGTGATGAAGGATGGGATCATCCAGCAGTTCGGTACGCCGAAGGACATCTACAACAACCCGGCCAACCTGTTCGTGGCGAGCTTCATCGGTTCGCCGCCGATGAACTTCATCCCGCTGCGCCTGCAACGCAAGGACGGTCGCCTGTTGGCCCTGCTCGACAGCGGCCAGGCCCGTTGCGAGTTGCCGCTGGGCATGCAGGACGCCGGCCTGGAGGATCGCGAAGTGATCCTTGGTCTGCGTCCGGAACAGATCGTGCTGGCGGGCAACGAGCCGAACGGCCTGCCGACCATCCGCGCCGAAGTCCAGGTCACCGAGCCTACCGGTCCGGACACCCTGGTGTTCGTCAATCTCAACGACACCAAGGTCTGCTGCCGACTGGCACCGGACGTGGCGCCGTCGCCGGGAGAGACCCTGACGCTGCAATTCGATCCATCGAAAGTGCTGCTGTTCGATGCCAAGTCCGGCGAGCGCCTGGGCGTGGCCGCGCAACCCTCGATGGAAGCCCGAGCCGACAACGTGGCGCAGTTCAAAGGCCGCTGA	MATLELRNVNKTYGAGLPDTLKDIQLSIKEGEFLILVGPSGCGKSTLMNCIAGLETITGGAIMIGDQDVSGMSPKDRDIAMVFQSYALYPTMSVRENIEFGLKIRKMKQADINEEVARVAKLLQIEHLLNRKPGQLSGGQQQRVAMGRALARRPKIYLFDEPLSNLDAKLRVEMRTEMKLMHQRLKTTTVYVTHDQIEAMTLGDKVAVMKDGIIQQFGTPKDIYNNPANLFVASFIGSPPMNFIPLRLQRKDGRLLALLDSGQARCELPLGMQDAGLEDREVILGLRPEQIVLAGNEPNGLPTIRAEVQVTEPTGPDTLVFVNLNDTKVCCRLAPDVAPSPGETLTLQFDPSKVLLFDAKSGERLGVAAQPSMEARADNVAQFKGR	PGPT0016310_982	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
D1-35_01654	1347	oprB	COG3659	Porin B	ATGAAGAAGAAGAACAATGCCCAGCTTATCTGCCAGTTGTCAGCCGTTGCGGCGATGATGCTGGCCGGTAGCGCACACGCAGCCGACGCGTTCAGCGCCGACTCGAAGTGGATGACGGGCGACTGGGGCGGTGAACGGACCAAGCTGATCGAGCAAGGTATCGATATCAAGGCGGATTTCGTCGGTGAGATGGGTGCCAACCTCGACGGCGGCTACAACGATGACAAGACCGCGCGCTGGTCCCAGCAGTTTGGCCTTGGCGTAGCTCTTGACCTGGAGAAACTGGCAGGCTGGAACGATACCGAAGCCAAGATTCAATTCACTCGCCGGGACGGTCGCAACATCTCCAACGACCGTATCGGTGATCCACGTGCCGGCACCCTCAGTTCCTCCCAGGAAGTCTGGGGCCGTGGCCAGACTACCCGTCTGACCCAGTTGTGGATCAAGCAGAAGTACTTCGACAGCAAGCTGGATGTCAAAGCCGGTTACTTCGGTGAAGGCGAAGACTTCAACACCTTCCCGTGCGAGTTCCAGAACCTGGCGTTCTGCGGTTCGCAAGCGGGTAACTGGGCGACCGGCATCTGGTACAACTGGCCGATCATGCAGGCGGCGATCCGGGTTAAATACAACCTCACGCCTGAGCTCTATGCGCAAATCGGTGCCTACAACCAGAACCCTTCGCAACTGGAAAACAACAACCGCTACAAGCTCAGCGGCAGTGGCACCAAGGGCACTCTGATTCCGATCGAGTTGGTCTGGTCGCCGAAGCTCAACAACCTGCCGGGCGAATACCGCGTCGGTTACTACAAGAGCACGGCCAAGGCTGACGATGTTCGTGAAGACATCAACGGCGATGACGCCGCGACTACTGGCAACGCCTATCGTAGCCACAGCAGCAAACATGGCTACTGGCTCGTCGTGCAGCAGCAGCTCACCACTCACAATGGCGATGCTACCCGCGGCCTGAACATCGCGGCCAACGCTACCGTCCACGACAAGGACACCAACGTCGTCGACAACTACCAGTCGCTGATGTTCGTGTACAAGGGGCCGTTCGATGCGCGTCCGAAGGACGACGTTGGTATCGGTTTCGCCCGTATCCATGTCAACGAGGACGTCAAGAAAAACGCCGAGTTGACCAACGCCGCCAATGGCGTCAGCGACTACGACGATCCACTGTTCGCGCCTTTGCGTAGCACCGAGTACAACTACGAAATCAACTACGGCTTCCATGTCACCAACTGGCTGACCGTGCGTCCAAACCTGCAATACGTCACTCACCCGGGTGGTGTCGATGAAGTCGACAACGCGCTGGTGGCCGGCCTGAAAATTCAGTCGGTGTTCTAA	MKKKNNAQLICQLSAVAAMMLAGSAHAADAFSADSKWMTGDWGGERTKLIEQGIDIKADFVGEMGANLDGGYNDDKTARWSQQFGLGVALDLEKLAGWNDTEAKIQFTRRDGRNISNDRIGDPRAGTLSSSQEVWGRGQTTRLTQLWIKQKYFDSKLDVKAGYFGEGEDFNTFPCEFQNLAFCGSQAGNWATGIWYNWPIMQAAIRVKYNLTPELYAQIGAYNQNPSQLENNNRYKLSGSGTKGTLIPIELVWSPKLNNLPGEYRVGYYKSTAKADDVREDINGDDAATTGNAYRSHSSKHGYWLVVQQQLTTHNGDATRGLNIAANATVHDKDTNVVDNYQSLMFVYKGPFDARPKDDVGIGFARIHVNEDVKKNAELTNAANGVSDYDDPLFAPLRSTEYNYEINYGFHVTNWLTVRPNLQYVTHPGGVDEVDNALVAGLKIQSVF				NA	NA	NA	NA	NA
D1-35_01655	855	yeaD_1	COG0676	Putative glucose-6-phosphate 1-epimerase	ATGCATGAGCATCCACTACAACGCTTTTTCAGATCCTTGCGCGAGCGTCCGGTGTTTGCGTGGGAGCGCTATCAGCAGCGCGATGTGTTGGTGATCGACCACCCGTTGTGCCAGGCGGTGTTCAGTCGCCAGGGCGCGCAGTTGCTGCACTTCCAGCCGCGCGGGCAGAAGCCGTGGTTGTGGTGCGCAGCCAGGTGGCCGCAAGTCGGGGCGATTCGCGGCGGGGTGCCGGTGTGTTGGCCATGGTATGGCCGTCATCCAAGTGAAAACGCCTGGCCCTCCCATGGTTGGGCGCGATTGATCGACTGGAAATTGCTCGAGAGCAGCAGCGACGAAGAGGGCGTCCACCTGCATTGGCAGTTGCAATTGTGTGACTGGCAGGTGGACCTGCATGCCGACCTGGGTGAGCGCATGGAACTGCGCTTGAGCACCGAACATCAGGACAGCCTGCCCTGCCAGTTGAGCCAGGCCTTGCACGCCTATTGGCGTATTGGTGACGTTGGCGAGGTAGCGCTGTCTGGCCTCGACGGCGCCCAGGGTTACGACCAGTTGAACCGGGCGGTTTGCCAGCAGGAGGGCGAGTTGCGAGTGGAGGGTGGCTGCCAGCGAGTGTTCCAGCATGAGGGCGAATTGCAGCTCAAGGATCACGCCTGGCAACGCGAGCTGCGCATCGACACCGGCGACAGCGCCGATACGGTGGTGTGGCATCCCGGCGCACGGCCACTGTTGGGTGTGAGCTGGGATGAAGTGAATGAATTCGTCTGCGTCGAAGCGGCCAGCGGCGGTACCGGGAGCCTGTGCCTGGCGCCGGGTGAGCGGGCGCATTTGAGTTTGCAGGCGCGGGTGGGGGTTTAG	MHEHPLQRFFRSLRERPVFAWERYQQRDVLVIDHPLCQAVFSRQGAQLLHFQPRGQKPWLWCAARWPQVGAIRGGVPVCWPWYGRHPSENAWPSHGWARLIDWKLLESSSDEEGVHLHWQLQLCDWQVDLHADLGERMELRLSTEHQDSLPCQLSQALHAYWRIGDVGEVALSGLDGAQGYDQLNRAVCQQEGELRVEGGCQRVFQHEGELQLKDHAWQRELRIDTGDSADTVVWHPGARPLLGVSWDEVNEFVCVEAASGGTGSLCLAPGERAHLSLQARVGV				NA	NA	NA	NA	NA
D1-35_01656	870	hexR_2	COG1737	HTH-type transcriptional regulator HexR	ATGGACCGCGTGCGAAATCTACTGGAGCAGATCCAGAGTCGCCTGGAAGACCTGAACAAGGCCGAGCGCAAGGTGGCCGAGGTGATCCTGCTCAACCCGCAGCAGGCGACCCGCTTCAGCATCGCCGCCCTCGCCCAGGCCGCTTCGGTCAGCGAACCGACCGTCAACCGCTTCTGCCGCTCGTTCGGCGTCAGCGGCTATCCGGAACTCAAGCTGCAACTGGCCCAAAGCCTGGCCAGCGGCGCGGCCTATGTCAGCCGTGCGGTCGAGGCCGATGACAATCCGGAAGCCTATACCCGCAAAATCTTTGGCAGTGCCATCGCTTCATTGGACAGCGCCTGCCAGGCCCTTGATCCAAATTTGATCAGTCGCGCCGTGGATCTGCTGATCCAGGCCCGCCAGATCCACTTCTTCGGCCTAGGCGCCTCGGCCCCCGTGGCGCTGGATGCCCAGCACAAGTTTTTCCGCTTCAATCTGGCGGTGACCGCCCATGCCGATGTGCTGATGCAGCGCATGATCGCGTCGGTGGCCCATACCGGCGAGCTGTTCGTGATCATCTCCTACACCGGGCGTACCCGCGAACTGGTGGAAGTGGCGCGCATCGCCCGGGAAAACGGCGCATCGGTGCTCGGCCTGACCACCGAAGGCTCGCCGCTGGCCAAGGCGAGCACCTTGAGCCTGAACATCCCTTTGCCGGAAGACACCGACATCTACATGCCGATGACATCGCGGATCATCCAGCTCACCGTGCTCGATGTGCTCGCCACCGGCATGACCCTGCGCCGGGGCGTGGATTTCCAACCGCATTTGCGCAAGATCAAGGAAAGCCTGAATGCCAGCCGGTATCCGGTTGGGGATGAGTTCAACTGA	MDRVRNLLEQIQSRLEDLNKAERKVAEVILLNPQQATRFSIAALAQAASVSEPTVNRFCRSFGVSGYPELKLQLAQSLASGAAYVSRAVEADDNPEAYTRKIFGSAIASLDSACQALDPNLISRAVDLLIQARQIHFFGLGASAPVALDAQHKFFRFNLAVTAHADVLMQRMIASVAHTGELFVIISYTGRTRELVEVARIARENGASVLGLTTEGSPLAKASTLSLNIPLPEDTDIYMPMTSRIIQLTVLDVLATGMTLRRGVDFQPHLRKIKESLNASRYPVGDEFN	PGPT0017985_428	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
D1-35_01657	1473	zwf_1	COG0364	Glucose-6-phosphate 1-dehydrogenase	ATGCATTCGATTACGGTTGAACCGTGCACCTTTGCCTTGTTCGGCGCGTTGGGCGACCTGGCGTTGCGCAAGCTGTTTCCTGCCCTTTATCAGCTCGATGGTGCCGGCCTGTTGCATGAGGACACGCGAATTTTCGCGCTGGCCCGCGAACCTGGTAGCGAACAGCAGCACCTGACGTTCATCGCGACCGAGCTGCGTCGCTATGTGGGCGAAAAAGACCTCGACGAAACCGTGATCGAGCGCTTCCTGGCGCGGCTGACGTATCTGCATGTGGATTTTCTCAAGGCTGACGATTACGTCGCGCTTGCCGAGCAGGTCGGCCAGGCCCAGCAGCAAGTCATCGCCTATTTCGCCACGCCGGCGGCGGTCTACGGCGCGATCTGCGAGAACCTGGCGAAAGTCGGCTTGAGCGAGAACACCCGCGTCGTATTGGAAAAACCCATCGGCTCGGACCTGGAATCGTCGCGCAAGGTCAATGACGCCGTGGCGCAGTTCTTCCCGGAGAACCGCACCTACCGCATCGACCATTACCTGGGCAAGGAAACAGTCCAGAACCTGATCGCGTTGCGTTTCGCCAACAGCCTGTTCGAAACCCAGTGGAACCAGAATTACATCTCCCACGTGGAAATCACCGTGGCCGAGAAGGTCGGCATCGAAGGCCGCTGGGGCTATTTCGACAAGGCCGGCCAACTGCGCGACATGATCCAGAACCACTTGCTCCAGTTGCTGTGCCTGATCGCCATGGACCCGCCGGCCGACCTGTCGGCCGACAGCATCCGTGACGAGAAGGTCAAGGTGCTCAAGGCCCTCGCACCGATCAGCCCGGAAGGCTTGACCACACAAGTGGTGCGCGGCCAGTACATCGCCGGCCACAGTGAAGGCAAGGCCGTTCCCGGCTACCTGGAAGAACCCAATTCCAATACCCAGAGCGACACCGAGACGTTCGTCGCCCTGCGTGCCGACATTCGCAACTGGCGCTGGGCCGGTGTTCCGTTCTACCTGCGTACCGGCAAGCGCATGCCGCAGAAGCTGTCGCAGATCGTGATTCACTTCAAGGAACCGTCCCACTACATCTTCGCCCCCGAGCAGCGTTTGCAGATCAGCAACAAACTGATCATCCGGCTGCAACCGGACGAAGGCATTTCCTTGCGGGTGATGACCAAGGAGCAAGGCCTGGACAAGGGCATGCAATTGCGCAGCGGTCCGCTGCAACTGAACTTCTCCGACACCTATCGCAGCGCGCGGATTCCCGATGCCTACGAGCGGTTGTTGCTGGAAGTCATGAATGGCAATCAGAACCTGTTTGTCCGTAAAGATGAAATCGAAGCCGCGTGGACGTGGTGCGACCAGCTGATTGCCGGCTGGAAGAAGTCCGGCGATGCGCCCAAGCCGTATGCCGCCGGGTCATGGGGGCCGATGAGCTCCATCGCACTGATCACGCGGGACGGGAGGTCATGGTATGGCGATATCTGA	MHSITVEPCTFALFGALGDLALRKLFPALYQLDGAGLLHEDTRIFALAREPGSEQQHLTFIATELRRYVGEKDLDETVIERFLARLTYLHVDFLKADDYVALAEQVGQAQQQVIAYFATPAAVYGAICENLAKVGLSENTRVVLEKPIGSDLESSRKVNDAVAQFFPENRTYRIDHYLGKETVQNLIALRFANSLFETQWNQNYISHVEITVAEKVGIEGRWGYFDKAGQLRDMIQNHLLQLLCLIAMDPPADLSADSIRDEKVKVLKALAPISPEGLTTQVVRGQYIAGHSEGKAVPGYLEEPNSNTQSDTETFVALRADIRNWRWAGVPFYLRTGKRMPQKLSQIVIHFKEPSHYIFAPEQRLQISNKLIIRLQPDEGISLRVMTKEQGLDKGMQLRSGPLQLNFSDTYRSARIPDAYERLLLEVMNGNQNLFVRKDEIEAAWTWCDQLIAGWKKSGDAPKPYAAGSWGPMSSIALITRDGRSWYGDI	PGPT0017380_4042	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036	NA	NA
D1-35_01658	714	pgl_1		6-phosphogluconolactonase	ATGGCGATATCTGAATTGAAACTGCCCGAGGGCGTCACGGCCCTTGAGTTCAAGAGCCCGGTGCTGCTGGCGGAAAACCTCGCGCTGAACGTGGCGCAGCAGTTGCGCGCGGCGATCGATGCTCGCGGTGCGGCGACTCTGGTGGTGTCTGGCGGTCGCAGCCCGGTGGCATTTTTCCAGAACCTGTCCAAGCAGACGCTGGACTGGTCGAAGGTGGTGGTGAGCCTGGCCGATGAGCGCTGGGTGCCGGTTGAACATGCCGACAGCAATGCCGGTCTGCTCAAGCGTTACCTGCTTCAGGGCGCGGCGGCCAAGGCGCAGTTCCTGAGCCTGTACAGCGCCAGCGCCAACCTGGAGGCCGCGGCTGAACAGGCGGATCGTCTGTTGGCCGAGCTGCCGCCGATTGATGTGCTGGTACTGGGCATGGGGGACGATGGGCATACCGCCTCGCTGTTTCCCGACAGCCCGAACCTGGCCGAGGCCCTGGATGAAAAGGGCGCTCGCCGTTGCTGGCCGATGCTCGCGCCAACCGTCCCGCACCAGCGCCTGACCATGAGCCGCGCATTGCTGGCCTCGGCGAGGCACAAGGTGCTGTCGATTTCCGGTCAATCGAAGTTGACCACCCTGAACGCCGCGGCGGCCGATGACAACGTCGCCGAAATGCCGATCCGCGCGTTTTTGCAACCTACGTTAGAGATTTACTGGTGCCCATGA	MAISELKLPEGVTALEFKSPVLLAENLALNVAQQLRAAIDARGAATLVVSGGRSPVAFFQNLSKQTLDWSKVVVSLADERWVPVEHADSNAGLLKRYLLQGAAAKAQFLSLYSASANLEAAAEQADRLLAELPPIDVLVLGMGDDGHTASLFPDSPNLAEALDEKGARRCWPMLAPTVPHQRLTMSRALLASARHKVLSISGQSKLTTLNAAAADDNVAEMPIRAFLQPTLEIYWCP				NA	NA	NA	NA	NA
D1-35_01659	666	eda	COG0800	2-dehydro-3-deoxy-phosphogluconate aldolase	ATGACAAACCCATCCCCGACCGTTTCCATGGCGGATAAAGTAACGCTGATCGACAGCCTCTGCGCCAAGGCGCGGATCTTGCCGGTGATCACTATTGCCCGTGAGCAGGACATCCTGCCGCTGGCCGATGCCCTGGCCGCCGGTGGCCTGACGGCGCTGGAAGTGACCTTGCGCTCGCAGTACGGCCTCAAGGCCATCCAGGTGCTGCGCGAGCAGCGTCCGGAACTGGTGACCGGCGCCGGCACGGTGCTCGATCGCCATATGCTGGCCGCCGCCGAGGCCGCCGGTTCGCAATTCATCGTGACCCCGGGTATTACCCGCGACTTGCTGGAGGCTAGCGTCCAGAGCCCGATTCCGTTGTTGCCGGGAATCAGCAATGCCTCGGGCATCATGGAAGGCTACGGGCTGGGTTATCGCCGCTTCAAGTTGTTCCCGGCGGAAGTCAGCGGTGGCGTGGCTGCCATCAAGGCCCTGGGCGGTCCCTTCGGCGAAGTGAAATTCTGCCCGACTGGCGGCGTCAGTCCGGCCAATATCAAGAGCTACATGGCGTTGAAGAACGTGATGTGCGTGGGCGGCAGCTGGATGCTGGATCCGGAGTGGATCAAGAACGGCGACTGGGCCCGCATCCAGGAATGCACCGCCGAGGCCCTGGCGCTGCTGGACTGA	MTNPSPTVSMADKVTLIDSLCAKARILPVITIAREQDILPLADALAAGGLTALEVTLRSQYGLKAIQVLREQRPELVTGAGTVLDRHMLAAAEAAGSQFIVTPGITRDLLEASVQSPIPLLPGISNASGIMEGYGLGYRRFKLFPAEVSGGVAAIKALGGPFGEVKFCPTGGVSPANIKSYMALKNVMCVGGSWMLDPEWIKNGDWARIQECTAEALALLD	PGPT0002060_530	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0002060-eda-K01625	NA	NA
D1-35_01660	1188	cefD_1	COG0520	Isopenicillin N epimerase	ATGCCCGAAAACACCCTGCGCGCCCATGATGAAGCTTTCTGGCAGACCTTCGGCGACCGCTACGACGTCGAGCCCGAGGGCCCGCTCAACCTGGAAAACGGCTACTTCGGGCGGATGTCGCGTACCGTGGTCGAGGAGTACCAGCGCAACATCGAATTCGTCAATCGCGGCAACTCGGTGTACGTACGTCAGCATTTCGACCGGGAACATGGCGAAGCGATTCGCCGCCAAGTGGCGCAACTGATTCACGTCCCCTCCTCTGCCGTGGCGCTGGCCACCAGCGCGGTGGACGCCCTGCAGACGCTGATTCGCAATTACAACGGCCTCAAGCCTGGCGATCAGGTGCTGATAAGCGACGTCGAGTACGAGTCAGTCAAAAGCGCGATGCGCTGGCTGGCTCGCCAGCGAGGGGCGAAGATCATCGAACTGGTCCACCCGCATCCCGCCAGTTTCGAAAGCCTAGTGGGCACCTATCGGGAAACCTTCATTCGTTACCCGCGCCTGAAGCTGATGGCGCTGACTTACGTCAACCACCTGACCGGCCTCGTCATGCCGGTGAAGGCGATTGCCGAGGCGGCGCGGGAGTTCGATGTCGACATCATTCTCGACGGCGCGCACGCCCTGGGTCAGATCGAGTTCAACCTGAAGAAGCTGGGTATCCAGTTCGCCGGTTTCAACTTGCAGAAGTGGATTGGCGGCCCGCTGGCCCTGGGCTTTCTCTATATCGCTCCAGAGCGGCTGGTCGACATCGATCCGGACATGGACGAAGCCAATTACCCCGCCACCGATGTGCGCTCACGCACACCCCACAGCACGCCCAACATCCCTGCCCTGCTGACGCTGCCATTGGTCTTTGAAGAACACCGCACCCTGGGCGGCGCGTCGGCCAAAGGTGCCCGACTCTGCTACTTGCGGGACCTTTGGGTGAACGCGGTACGTGATGTGCCCGGCATTGAAGTCATGACTCCGGACGATCGGCGGCTCTATTGCGGCATCACCTCGATGCGCTTCACCGCCCAGCCCGATCAGCAAGTCATGGCCGATCGGCTGCTCAAGGAATATGAAATCTTTACCGTGGTGCGCAAGACCAGCGTCGGCCCGTGCATCCGCATCACGCCTGGGTTGATTACCTTGGCGCGGGATATCGAGCGGTTGACCCAGGCGCTTATCCACCTGAGCAACACATAA	MPENTLRAHDEAFWQTFGDRYDVEPEGPLNLENGYFGRMSRTVVEEYQRNIEFVNRGNSVYVRQHFDREHGEAIRRQVAQLIHVPSSAVALATSAVDALQTLIRNYNGLKPGDQVLISDVEYESVKSAMRWLARQRGAKIIELVHPHPASFESLVGTYRETFIRYPRLKLMALTYVNHLTGLVMPVKAIAEAAREFDVDIILDGAHALGQIEFNLKKLGIQFAGFNLQKWIGGPLALGFLYIAPERLVDIDPDMDEANYPATDVRSRTPHSTPNIPALLTLPLVFEEHRTLGGASAKGARLCYLRDLWVNAVRDVPGIEVMTPDDRRLYCGITSMRFTAQPDQQVMADRLLKEYEIFTVVRKTSVGPCIRITPGLITLARDIERLTQALIHLSNT	PGPT0010995_239	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-PENICILLIN_METABOLISM,PGPT0010995-cefD-K04127	NA	NA
D1-35_01661	237			hypothetical protein	ATGAATCCGCAAAAGCTTGAACTGCTGGTGACGCGCCAGATGCCCTTCGGCAAATACAAGGGCCGAATCCTTGCCGACCTGCCGGGCCAGTACCTGAACTGGTTTGCCCGGGAGGGTTTTCCCCACGGAGAACTGGGCGCTTTGCTGGCGCTGATGCAGGAGATCGACCACAACGGTCTGTCGGACCTGCTGGATCCGCTGCGCGCCAAACACGGCCTGCCCAAACCACGCCATTGA	MNPQKLELLVTRQMPFGKYKGRILADLPGQYLNWFAREGFPHGELGALLALMQEIDHNGLSDLLDPLRAKHGLPKPRH				NA	NA	NA	NA	NA
D1-35_01662	465			hypothetical protein	ATGACTGACATCAATAAAGAATCCATCTCTGTCTTGAACGACCTGATCGAGACCAGCAAGGATGGCCAGGAAGGATTCAAGACCTGCGCTGAAGACATCAAGCATCCAGAACTCAAGGCCCTGTTCGTTAAACGCGCGGCCGATTGCGCAACTGCCGCGGCCGAGCTGCAAGCCGCTGTGCGTTCGTTGGGCGGCGATCCGGAAACCTCCACCAGCGTCGCTGGCGACCTGCACCGTCGTTGGGTAGACGTAAAATCGATGTTTACCGGCAAGGATGAAGAAGCGGTCCTCAACGAAGCCGAACGCGGCGAAGACCATGCACTCAAGGCGTACAAGGAAGCCATCGAGAAGATCAACAAGCACAACCTGGTAGGTATTCGTGACCTGGTTGAGCGTCAGTACCACGGCGTGCAACGCAACCACGACCAGGTCAAGGCGCTGCGTAACCAGGCGCGTGCCAGCTGA	MTDINKESISVLNDLIETSKDGQEGFKTCAEDIKHPELKALFVKRAADCATAAAELQAAVRSLGGDPETSTSVAGDLHRRWVDVKSMFTGKDEEAVLNEAERGEDHALKAYKEAIEKINKHNLVGIRDLVERQYHGVQRNHDQVKALRNQARAS				NA	NA	NA	NA	NA
D1-35_01663	2001	aaeB_2		p-hydroxybenzoic acid efflux pump subunit AaeB	GTGCCCATTACCTTCCAGGCCTTGTTCGCCCCTGACCGCCTCGCCGTGCAGTTCGCCATCAAAACCGTGCTCGGCGGCGGCCTGGCGTTGTGGCTGGCGTTGCGCTGGGGCCTGGAGCAGCCGTCGTGGGCATTGATGACGGCGTTCATCGTCGCCCAGCCGCTGTCCGGCATGGTGGTACAGAAGGGCCTGGCGCGTTTGGTCGGTACTTTGGTGGGGACGATCATGTCGGTGGTGTTCATGGGATTGTTCGCCCAGGCACCGTGGTTGTTCTTGCTGGCGCTGGCGCTGTGGCTGGGTGTGTGCACGGGCTGTTCGACGCTGTTGCGCAGCGCCTGGTCGTATTCTTTCGTGCTGGCTGGCTACACGGTGGCGATCATTGCCTTGCCGGCCCTTTCCCATCCACTTGGGGTCTTCGATCAGGCCGTGGCGCGGTGCACCGAGATCAGCCTGGGCATTACCTGCGCCACGGCGGCCAGTGCCTTGCTCTGGCCGTTGCGGGTCGAACGACAACTGGCGGATCAGGCCCGTGCCGCCTGGCAGAGCGGCATGCAGGCGGCGCGTGCAACGTTGGCCGGCGATGCCCAGGCGCGCAAAGGCTTGCTCGAAATCCTCGGCAAGATCGTTGCGGTGGATGCCCAGCGCGAACACGCCTGGTTCGAAGGCAGCCTGGGCCGCCAGCGCGCCCGGGCCATCAGCGGCTTGAGCCAGAAACTGCTGATGTTGTTGCGTATTTCCCGTTCGGTGCGTCGGCAGTGGAAACAACTCGAACCTCAGGAAGCCGAAGCGCTCCAGCCGTGGATGGACGAGGTGCAGCAGGCGCTCGCTGCAGACAGCGCGACGCTGCAGGCCCTGCGGCCTCGGGTTCTGGATGCTTCTCATGACCTGCGGATCAGCTCGGCGCAAAGTTACTGCCTGGCTCGTTTCGCCTTGTTGCTCGATACCGCCCTGGCTGCCTGTGCCGCGCTCGCGGCCGTGCAGGAGGGCAGGGCCGCCGCCGATCCGCCGCGCACGCTGGCGCCGCATCGTGATCTGTCCCTGGCCATGGTATTCGGCGCCCGCAGCGCCCTGGCATTCCTGGCGGTAGCCTGTTTCTGGCTGGCGACCGCCTGGCCCGCCGCATCCGGTGCGCTGTTGCTCACCTGCGTGGTGTGCAGCCTGTTTGCCAGCCGCGAAAACGGTGCGCAGATCGGCATGAGTTTCCTGCGGGGTATTTTCCTCGCAGTGCCGACGGCGTTTGTCATTGGCGAGATTTTCCTGCCGCAATGGAGCAGTTTCGCCATGCTGTGCATGGCCATGGGCGTGCCGTTGTTCCTGGGGGCGCTGTGCATGGCCAAGCCGCCGCTCTACGCCACGGCCACCTCGTTCTGCCTGCACTTTGTGGTGCTGGTCTCGCCGCTCAATGCGATGAAGTACGACGTTTCGGCATTCTTCAACAACGCCCAGGCAATGATGATCGGCGTCGGCGCGGCGGTGCTGGCGTTCAAGCTGCTGATCCTGCGCAACCCGGCCTGGCATAGCCGTCGGCTGCTGGCCGCGACGCTGGACGATCTGGTCAGGCTGACCCATCGCAATCTGCGTGGTGCTGAAAGCTGGTTCGGTGGCCGCATGGCTGACCGGCTGCTGCAACTGGCGCGGCATTATCCCGAGCTGCCGGTGCCGGCGCGCAGCCGTTGGGACGACGGCTTGCTGGGCCTGGACGTCGGTGACGAGTTGCTGCATCTGCGCCTGAGTCTGGCCGTTGCCCAGATACCCGACAGCCCGGCCCAGCGCGAATATTTCGAAACCCTGGAGCAGGCGCTGGAACACGGCCCCGGCGGCGATCAGGCCGAGGCTTTGGCCCAGGCAAGCGACGAATATCTGCGGGTGCTGTCGCAGCAACCGTCCAGCGATGCGCTGAAGCTCGCCCAAGGCGCGGTGGTGCAATTGCAGAACAGCTGGCGCGCCTGGTGCCGCCAGCACGAATTTGAAGAAGGGAAACATAGCCATGGGCTTGCGTGA	MPITFQALFAPDRLAVQFAIKTVLGGGLALWLALRWGLEQPSWALMTAFIVAQPLSGMVVQKGLARLVGTLVGTIMSVVFMGLFAQAPWLFLLALALWLGVCTGCSTLLRSAWSYSFVLAGYTVAIIALPALSHPLGVFDQAVARCTEISLGITCATAASALLWPLRVERQLADQARAAWQSGMQAARATLAGDAQARKGLLEILGKIVAVDAQREHAWFEGSLGRQRARAISGLSQKLLMLLRISRSVRRQWKQLEPQEAEALQPWMDEVQQALAADSATLQALRPRVLDASHDLRISSAQSYCLARFALLLDTALAACAALAAVQEGRAAADPPRTLAPHRDLSLAMVFGARSALAFLAVACFWLATAWPAASGALLLTCVVCSLFASRENGAQIGMSFLRGIFLAVPTAFVIGEIFLPQWSSFAMLCMAMGVPLFLGALCMAKPPLYATATSFCLHFVVLVSPLNAMKYDVSAFFNNAQAMMIGVGAAVLAFKLLILRNPAWHSRRLLAATLDDLVRLTHRNLRGAESWFGGRMADRLLQLARHYPELPVPARSRWDDGLLGLDVGDELLHLRLSLAVAQIPDSPAQREYFETLEQALEHGPGGDQAEALAQASDEYLRVLSQQPSSDALKLAQGAVVQLQNSWRAWCRQHEFEEGKHSHGLA				NA	NA	NA	NA	NA
D1-35_01664	207			hypothetical protein	ATGGGCTTGCGTGAATGGTCGATTGGCGGCGTGCTGCTCAGCCCGTTCCTGATTTATGTGGTCCTGGCCTTGCTGGCAACCGGGGCGCTGCGCCTGTTGCTCGGCCTGTTGCCGGTCGGGCGCTGGATCTGGCATGAAGCCTTGTTCGACTGCGCCCTGTACGTCTGTGTCCTGACTGTCATTACCCTGGTCCTCGGACCGTTATAA	MGLREWSIGGVLLSPFLIYVVLALLATGALRLLLGLLPVGRWIWHEALFDCALYVCVLTVITLVLGPL				NA	NA	NA	NA	NA
D1-35_01666	864	aaeA_2	COG1566	p-hydroxybenzoic acid efflux pump subunit AaeA	ATGCGTACACCCGTACGTGTCGCCGTCACGCTGGGCGTGGTGGCCGTGGCGATCTTCGCCGGGTTTCATCTGTGGCAGTACTACATGCTCACGCCCTGGACCCGGGATGCGCGAATCCGTGCCGACGTGGTGGTGGTCGCCCCTGACGTATCCGGTTGGGTGCGCGAACTCAAGGCCGTGGACAACCAGCAGGTCAAGGCTGGCGACCTGTTGTTGAGCATCGACCGCGAACGCTTCGAGGCCGCGCTGGAAAAGGCTCGCGCGGTGGTCCAGACCCGTCAGCAGCAGCTGAGCCTGCGTGAACACGAAGCCAGCCGCCGCGCCGCCCTGGGGCCTCAGGCGATCAGCGCCGAGCTGCGGGAAAATGCCCAGATCAACGCCGGCATTGCCCGTGGCGAACTGCGCGAGGCCCAGGCGCAGGCCAAGGTCGCCGAGCTGAACCTGGCCCGCAGCCAGGTCCTGGCCCCACGCAGTGGTCATATCACCAATCTGCGCCTGGCCGAAGGCAACTACGTCAACGCCGGGCAACCGGTGATGGCGCTGATCGATGATTCGACTTTCTACGTGCAGGCCTATTTCGAGGAAACCAAACTGCCGAGGATCCGCGTGGGCGATCCGGTCAAGGTCTGGTTGATGAGCGCCGACCATGCGCTGGACGGCCATGTGGAAAGCATCAGCCGCGGTATCACCGACCGCAACACCAACCCCGATGCGCAATTGCTGGCAGAGGTCGAACCGACCTTCAACTGGGTGCGCCTGGCCCAGCGGATCCCGGTGCGGATCAAGCTCGACAAGGTGCCGGAAGGGGTGAGCCTGAGCGCGGGGATGACGGCGAGTGTGCAGGTGCAAGAGCGGCTGCAATAA	MRTPVRVAVTLGVVAVAIFAGFHLWQYYMLTPWTRDARIRADVVVVAPDVSGWVRELKAVDNQQVKAGDLLLSIDRERFEAALEKARAVVQTRQQQLSLREHEASRRAALGPQAISAELRENAQINAGIARGELREAQAQAKVAELNLARSQVLAPRSGHITNLRLAEGNYVNAGQPVMALIDDSTFYVQAYFEETKLPRIRVGDPVKVWLMSADHALDGHVESISRGITDRNTNPDAQLLAEVEPTFNWVRLAQRIPVRIKLDKVPEGVSLSAGMTASVQVQERLQ	PGPT0023615_41	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYBENZOIC_ACID_GALLATE_RESISTANCE,PGPT0023615-aaeA-K15548	NA	NA
D1-35_01667	471	phaJ	COG2030	(R)-specific enoyl-CoA hydratase	ATGACCCAGGTTACCAACATCCCTTACGAAGCCCTCGAAGTCGGCCAGACCGCCAGCTACAGCAAGACCGTCGAAGAGCGCGATATCCAGCTGTTCGCCGCCATGTCCGGCGACCACAACCCGGTGCACCTGGACGCCGAATTCGCCGCCGCCAGCATGTTCAAGGAACGCATCGCCCATGGCATGTTCAGCGGTGCGCTGATCAGCGCGGCGGTGGCGTGCGAGCTGCCTGGGCCGGGCACCATCTATATCGGCCAGCAGATGAGCTTTCAGAAACCGGTGAAGATTGGCGACACCCTGACCGTGCGCCTGGAAATCCTCGAGAAACTGCCGAAGTTCCGCGTGCGCATCGCCACGCGCGTGTTCAATCAGCGCGATGAACTGGTGGTGGACGGCGAGGCCGAGATCCTGGCTCCGCGCAAGCAGCAGACTGTTACGTTGCCGACGTTGCCGGCGATCAGCATCGGCTGA	MTQVTNIPYEALEVGQTASYSKTVEERDIQLFAAMSGDHNPVHLDAEFAAASMFKERIAHGMFSGALISAAVACELPGPGTIYIGQQMSFQKPVKIGDTLTVRLEILEKLPKFRVRIATRVFNQRDELVVDGEAEILAPRKQQTVTLPTLPAISIG	PGPT0014741_364	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
D1-35_01668	945		COG2267	Monoacylglycerol lipase	ATGATCCACCAAACGTTCTGGCTGACCGCGACCGATCACAGGCGCATCCTCGTCAACCAATGGTTGCCCGAAACCGCCCCGCAGGCCGTGCTCATGCTGGCCCACGGCATGGCCGAACACAGCGCTCGTTATGGGCGCCTGGCCCAGGCCTTGTGCGATGAAGGTTATGGCGTCTACGCACCGGACCTGCGCGGCCATGGCAAGACCGGCGAGGAAACAGTCCTGGGGCATTTTGCCGACGAGGACGGCTGGGCCAAGGTGGTCGGCGATCTCGCGAGCCTCAATCAGCACATCGGCCAGCAACATCCAGAAATACCAATTCTCCTGCTGGGCCATAGCATGGGCAGCTATATCGCCCAGGGTTACCTGCTGCACCACAGCGCCAGCCTGCACGGGGCGATTCTCAGCGGCTCGAATTTCCAGCCCGTGGCGCTGTACCGCGCGGCACGCCTGATCGCCCGCCTCGAACGTCGACGCCAGGGAGCCACGGGGCGTAGCGCGCTCATCGAGTGGCTGTCATTCGGCAGTTTCAACAAAAAATTCAAACCGGTGCGCACGCCCTTCGACTGGCTCAGTCGCGACCCGACCGAAGTGGACAAATACGTCCAGGACCCGCTGTGCGGCTTTCGTTGTACCAATCAGCTGTGGATCGACCTCCTCGGCGGCTTGCAGCAGATCAGCAAAGCGTCCAATCTCGCGCAGATCGATCCGGGCCTGCCGTTGCTGGTGATTGGCGGCGAATGTGATCCGGTGAGCGAAGGCAAGCGTCTGAAAGATCTGGCCGATGCCCTGCGCGACGCCGGCAATCAACATCTGCAATTGACGATCTACCCGCAGGCCCGGCACGAACTGTTCAATGAAATCAACCGCGATGAAGTGACGGCCGACGTGCTGGCCTGGATTGCCCAGGCGCTGAGCCACCAGCGGCCGCCACGTAGCGAGTAG	MIHQTFWLTATDHRRILVNQWLPETAPQAVLMLAHGMAEHSARYGRLAQALCDEGYGVYAPDLRGHGKTGEETVLGHFADEDGWAKVVGDLASLNQHIGQQHPEIPILLLGHSMGSYIAQGYLLHHSASLHGAILSGSNFQPVALYRAARLIARLERRRQGATGRSALIEWLSFGSFNKKFKPVRTPFDWLSRDPTEVDKYVQDPLCGFRCTNQLWIDLLGGLQQISKASNLAQIDPGLPLLVIGGECDPVSEGKRLKDLADALRDAGNQHLQLTIYPQARHELFNEINRDEVTADVLAWIAQALSHQRPPRSE				NA	NA	NA	NA	NA
D1-35_01669	1689	fadD_1	COG0318	Long-chain-fatty-acid--CoA ligase	ATGCAGCCTGATTTCTGGAATGACAAACGCCCGACCGGCGTGCCCTCGGACATCGACCTGGGTGCCTACAAGTCGGTTGTCGAGGTGTTCGAGCGTTCCTGCAAGAAATTTGCCGACCGTCCGGCCTACAGCAACATGGGGGTGACCCTCACCTACGCCGAGCTGGAGCGCTACAGCGCGGCCTTTGCCGGTTACCTGCAAGCCAATACCGACCTGGCGCCGGGCGATCGCATCGCCGTGCAGATGCCCAACGTCCTGCAATACCCGATCGCCGTCTTCGGTGCCCTGCGCGCCGGCCTGGTCGTGGTCAATACCAACCCGCTGTACACCCCGCGGGAAATGCGTCATCAGTTCAAGGACTCCGGTGCCCGGGCGCTGGTGTACATGAACCTGTTCGGGCTGAAGGTCCAGGAAGTGCTGCCCGACACCGACCTGCAATACCTGATCGAAGCGAAGATGGGCGACTTGATGCCTACCGCCAAAGGCTGGCTGGTGAATACGCTGGTCAGCAAGGTCAAGAAAATGGTGCCGGCCTATTCGCTGCCCCAGGCCATTTCCTTCAAGAGCGCCTTGCGCCTTGGGCGCGGCCAGGGCATCAAGCCCCTCAACGTCAGCCTCGATGACATCGCCGTGCTGCAATACACCGGCGGCACCACGGGGCTGGCAAAAGGCGCGATGCTGACCCACGGCAACCTGGTCGCCAACATGCAGCAGGCCCGGGCGTGCCTGGGGCAGATCGGCGATGACGGCCAGCCGCTGTTGCGCGAGGGCCAGGAAGTCATGATCGCGCCGTTGCCGCTGTACCATATCTACGCGTTCACGGCGAACTGCATGTGCATGATGGTCACGGGCAACCACAACGTGTTGATCACCAATCCCCGGGACATCGGTGGCTTCATCAAGGAACTGAAGAACTGGCGGTTCTCGCTGTTGCTGGGGCTCAACACGCTGTTCGTGGCGCTGATGGACCATCCTGATTTCAAGACGCTGGATTTTTCCAACCTCAAGGTCACCAACTCAGGCGGCACCGCGCTGGTCAAGGCCACGGCCGAACGCTGGAAGCAGCTCACCGGCTGTGGCATCACCGAGGGCTACGGCCTGACGGAAACCTCGCCGGTGGCCAGTGCCAACCCTTACGGCGGCAAGTCGCGCCTGGGTACGGTGGGGCTGCCAGTGCCGGGTACGCTGATGAAGGTCATCAACGACGACGGCGTCGAGCTGCCCCTGGGCGAGCGCGGCGAGCTGTGCATCAAGGGCCCGCAGATCATGAAGGGCTACTGGAACAAGCCCGAGGCGACCGCCGAAGTGCTGGACAGCGAAGGCTGGTTCAAGTCCGGCGATATCGCGGTGATCGATCCCGACGGGTTTGTGCGCATCGTCGACCGCAAGAAAGACATGATCATTGTCTCGGGTTTCAATGTGTATCCCAACGAGATCGAGGACGTGGTCATGGCTCACCCGAAAGTCGCCAGTTGCGCGGTCATCGGCGTGCCGGACGAGCGTTCGGGGGAGGCGGTGAAACTGTTCGTGGTGGCCCGTGAGGCGGGCGTCAGCCTTGAAGAACTCAAGGCCTACTGCAAGGAGAACTTCACCGGCTACAAGATCCCCAAGCACATCGTATTGCGTGACTCGCTGCCGATGACGCCGGTGGGCAAGATCCTGCGGCGGGAGCTGCGCGATATCGCCTGA	MQPDFWNDKRPTGVPSDIDLGAYKSVVEVFERSCKKFADRPAYSNMGVTLTYAELERYSAAFAGYLQANTDLAPGDRIAVQMPNVLQYPIAVFGALRAGLVVVNTNPLYTPREMRHQFKDSGARALVYMNLFGLKVQEVLPDTDLQYLIEAKMGDLMPTAKGWLVNTLVSKVKKMVPAYSLPQAISFKSALRLGRGQGIKPLNVSLDDIAVLQYTGGTTGLAKGAMLTHGNLVANMQQARACLGQIGDDGQPLLREGQEVMIAPLPLYHIYAFTANCMCMMVTGNHNVLITNPRDIGGFIKELKNWRFSLLLGLNTLFVALMDHPDFKTLDFSNLKVTNSGGTALVKATAERWKQLTGCGITEGYGLTETSPVASANPYGGKSRLGTVGLPVPGTLMKVINDDGVELPLGERGELCIKGPQIMKGYWNKPEATAEVLDSEGWFKSGDIAVIDPDGFVRIVDRKKDMIIVSGFNVYPNEIEDVVMAHPKVASCAVIGVPDERSGEAVKLFVVAREAGVSLEELKAYCKENFTGYKIPKHIVLRDSLPMTPVGKILRRELRDIA	PGPT0008380_9627	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
D1-35_01670	1692	fadD_2	COG0318	Long-chain-fatty-acid--CoA ligase	ATGATTGAAGACTTTTGGAAGGATAAGTACCCAGCTGGGATTGCTGCCGACATCAATCCAGACGAGTATCCGAATATTCAGGCGGTGTTGAAGCAGTCCTGCCAACGCTTCGCCGACAAGCCGGCATTCAGCAACCTCGGCAAGACGATCACCTACGGTGAACTCTACGAATTGTCCGGTGCCTTTGCCGCGTACCTGCAACAGCATACCGATTTGCAGCCGGGCGATCGAATCGCCGTGCAGCTGCCCAACGTTCTCCAGTATCCGGTGGCCGTTTTCGGCGCGATCCGCGCCGGGCTCATCGTGGTCAACACCAACCCGCTGTACACCGCGCGGGAGATGGAACACCAGTTCAACGACTCCGGCGCCAAGGCGCTGGTGTGCCTGGCCAACATGGCGCACCTGGCCGAGAACGTGGTGCCCAGGACCAGCGTCAAGCACGTCATTGTCACCGAAGTGGCCGACCTGCTGCCGCCGCTCAAGCGCCTGCTGATCAACAGTGTGATCAAGTACGTCAAGAAGATGGTCCCGGCTTACCATTTGCCCAAGGCCATCAAGTTCAACGACGTGTTGAGCAAGGGCCACGGCCAGCCGGTGAACGAAGCCAACCCCACCAGCGATGATGTGGCCGTTCTGCAATACACCGGTGGCACCACCGGCGTGGCCAAGGGCGCGATGCTGACCCACCGCAACCTGGTGGCGAACATGTTGCAGTGCAAGGCATTGATGGGCTCCAACCTCAATGAAGGCTGCGAAGTGTTGATCACGCCGCTGCCGCTGTACCACATCTATGCGTTCACCTTTCATTGCATGGCGATGATGCTGATCGGCAACCACAACATCCTGATCAGCAACCCGCGCGACTTGTCGGCGATGGTCAAGGAACTGTCGAAGTGGAAGTTCAGCGGTTTTGTCGGCCTCAACACGTTATTCGTGGCCCTGTGCAATAACGAAGCCTTCCGCAAGCTGGACTTCTCCGCACTGAAGGTGACCTTGTCCGGTGGCATGGCGCTGCAACTGGCAGCGGCCGAGCGCTGGAAGGCGGTCACCGGCTGCCCGATCTGCGAAGGCTACGGCATGACCGAGACCAGCCCGGTGGCTACCGTCAACCCGATCCAGCACATCCAGGTCGGCACCATCGGCATTCCGGTGCCATCGACGCTGTGCAAGGTCATCAATGACGCGGGCGTCGAATTGCCACTCGGTGAAATCGGTGAATTATGTGTGAAAGGTCCGCAAGTGATGAAGGGCTACTGGCAGCGCCAGGAGGCCACCGACGAGATCCTCGACGGTGAAGGCTGGCTCAAGACCGGTGATATCGCGCTGATCCAGCCGGACGGCTACATGCGCATCGTCGATCGCAAGAAGGACATGATCCTGATCTCCGGCTTCAACGTTTACCCCAACGAACTGGAAGACGTACTGGCCACCCTGCCGGGTGTGCTGCAGTGCGCGGCGATTGGCGTACCGGATGAAAAGTCCGGCGAGGCGATCAAGATTTTCATCGTCGTACGTCCAGGGGCCACGCTCACCAAGGAACAGGTGATGGAGCACATGCGCGCCAACGTCACTGGCTACAAAGTGCCCAAGGCCGTGGAGTTCCGCGATGCATTGCCGACCACCAACGTGGGCAAGATCCTGCGGCGCGAGTTGCGCGATGAAGAACTGAAGAAGCTGGGGCTGAAGAAGTAA	MIEDFWKDKYPAGIAADINPDEYPNIQAVLKQSCQRFADKPAFSNLGKTITYGELYELSGAFAAYLQQHTDLQPGDRIAVQLPNVLQYPVAVFGAIRAGLIVVNTNPLYTAREMEHQFNDSGAKALVCLANMAHLAENVVPRTSVKHVIVTEVADLLPPLKRLLINSVIKYVKKMVPAYHLPKAIKFNDVLSKGHGQPVNEANPTSDDVAVLQYTGGTTGVAKGAMLTHRNLVANMLQCKALMGSNLNEGCEVLITPLPLYHIYAFTFHCMAMMLIGNHNILISNPRDLSAMVKELSKWKFSGFVGLNTLFVALCNNEAFRKLDFSALKVTLSGGMALQLAAAERWKAVTGCPICEGYGMTETSPVATVNPIQHIQVGTIGIPVPSTLCKVINDAGVELPLGEIGELCVKGPQVMKGYWQRQEATDEILDGEGWLKTGDIALIQPDGYMRIVDRKKDMILISGFNVYPNELEDVLATLPGVLQCAAIGVPDEKSGEAIKIFIVVRPGATLTKEQVMEHMRANVTGYKVPKAVEFRDALPTTNVGKILRRELRDEELKKLGLKK	PGPT0008380_9353	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
D1-35_01671	378			hypothetical protein	ATGAAACTCGATAAAAAGCAGGCCATCGCCCGCAGGAACCAGCAACTGGGCGGCGCCGTCCTGGGCGTTAACAATTGCCATTTCAGCGAACTGAACCGCAATCGCAACATCTTCTGGTTCGACATTCCGGTGGCCCGGCTGGCCATTGGTCAATACGAATGGATTCACCTGCTGCTGCACACCCCCGCCACCGATGAACTGCTGCACCTGAAAGTACCGACGGTGTTCCTGCGGGAAAAACTGGAAGGCCTGGAAGTACGCAACCAGGGCAAACGCAAGGCGGCCCTGAGCCTGGAACTGAGTGCCGACAAGGATTCCTACCTGCAAGACATGCGGCCGGGTGGCACCAACCTGGATTTTGCGCAGTTTCGGTTGTAG	MKLDKKQAIARRNQQLGGAVLGVNNCHFSELNRNRNIFWFDIPVARLAIGQYEWIHLLLHTPATDELLHLKVPTVFLREKLEGLEVRNQGKRKAALSLELSADKDSYLQDMRPGGTNLDFAQFRL				NA	NA	NA	NA	NA
D1-35_01672	192			hypothetical protein	ATGAGTAGCACGAGCGATAAAGTGAAGGGCGTTGCCAACGAAGCCGTCGGCAACATCAAGCAAGGCGTCGGCAAGGCCACCGATAACGACCGCATGCGCGCCGAGGGCGTGGTCCAGGAGAAAAAGGGTGAAGCCCAGCAAAACGTGGGCAAGGCCAAGGATGCCGTCAAGAAAGGCGTCGACCAGGCGTAA	MSSTSDKVKGVANEAVGNIKQGVGKATDNDRMRAEGVVQEKKGEAQQNVGKAKDAVKKGVDQA				NA	NA	NA	NA	NA
D1-35_01673	951			hypothetical protein	ATGATGTTCCCGGCCTTGAAAGGCTTGCCCCTGCACCGCGTGATGATGCGCACGGTGACCGAATTTCTCGACGACGAGATGTCGACGTACGCCTCCGCACTGGCTTACCAGATGTTGTTTTCGCTGTTCCCCTTCATTCTTTTCCTGATAGCCCTGATCGGTTTTCTGCACCTGCCGGATTTTTTCTCCTGGCTGCGCCTGCAATCGGAACTGGTGCTGCCGCCACAGGCGCTGGAGCAGGTCAACCCGGTGATCGACCAGCTCCAGCAGTCCAAAGGGGGGCTGCTGTCGGTCGGTATCGTGATTGCGTTGTGGACCGCGTCGGCCGGCGTTCGGCTGATGATGAGCGCCATGAATGCCGCTTATGACGTGGTCGAAGGGCGTCCGGCCTGGAAGCGTTTTCCGCTGTCGATCCTGTACACCGTCGGCATTGCCGGCATGCTCCTGGCGGCCGCGGCGCTGATGGTGCTGGGGCCGCAGGTGATGGGCTGGATTGCCGCCCAGATCGGGCTGGAGGAATTCATTGTCACCGTCTGGACGCTCGCGCGCTGGCCGGTCATCGTGTTTTTGCTGATGGTCGCGGTGGCGCTGATCTATTACGTGATGCCCGACGTCAAACAGGAGTTTCGCTTCATCACGCCGGGCTCGGTATTGGCGGTGGTGGTCTGGATCATCGCGTCCCTGGGCTTCGCGTTCTACGTCAAGACCTTCGCCGACTACAACGCCATGTATGGCAGTATCGGCGCGATCATCGTGCTGTTGCTGTACTTCTATATCTCGGCGGCGGTACTGTTGCTCGGCGCTGAGATGAACGCGGTGATCGAGCACATGTCCGCCGAAGGCAAGGACCATGGCGAAAAGAGCCCCGGCGAGCATGAAAAACAGCATGTGTCGGGCCTTGGGCGCGACCATTCCATTCCTCACGATCACACTGACGAAGCCCGACCATGA	MMFPALKGLPLHRVMMRTVTEFLDDEMSTYASALAYQMLFSLFPFILFLIALIGFLHLPDFFSWLRLQSELVLPPQALEQVNPVIDQLQQSKGGLLSVGIVIALWTASAGVRLMMSAMNAAYDVVEGRPAWKRFPLSILYTVGIAGMLLAAAALMVLGPQVMGWIAAQIGLEEFIVTVWTLARWPVIVFLLMVAVALIYYVMPDVKQEFRFITPGSVLAVVVWIIASLGFAFYVKTFADYNAMYGSIGAIIVLLLYFYISAAVLLLGAEMNAVIEHMSAEGKDHGEKSPGEHEKQHVSGLGRDHSIPHDHTDEARP	PGPT0014525_4081	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
D1-35_01674	540	def_1	COG0242	Peptide deformylase	ATGATCCGCGAAATCCTGAAGATGGGCGACGAACGCCTGCTGCGCATCGCACCGCCGGTGCCGCCAGAAATGTTCGACAGTCCCGAGTTGTGGCAACTGATCGATGACATGTTCCAGACCATGGAAAGTGTCGGCGGTGTCGGCCTGGCGGCGCCGCAGATCGGCGTCGACCTGCAACTGGTGATCTTCGGCTTCGAGCACAGCGAGCGTTACCCGGATGCCGAGGCGGTGCCGCAGACCATCCTGATCAACCCGTTGATCACGCCGCTGAGCCCGCTGATGGAAGAGGGCTTCGAGGGCTGCCTGTCGGTGCCGGGCCTGCGCGGTGCGGTGGATCGCTACCAGCACGTCCGCTATGAAGGTTTCGACCCGAAGGGCGAGCCGATCGTGCGCACCGCCTCAGGCTTCCACGCGCGGGTAGTCCAGCATGAATGTGATCACCTGATCGGCCGCTTGTACCCATCGCGCATCACCGACTTCAGCAAGTTCGGGTTCACCGAGGTGATGTTTCCGGAGCTGGATCCCACCGCCGACGATTAG	MIREILKMGDERLLRIAPPVPPEMFDSPELWQLIDDMFQTMESVGGVGLAAPQIGVDLQLVIFGFEHSERYPDAEAVPQTILINPLITPLSPLMEEGFEGCLSVPGLRGAVDRYQHVRYEGFDPKGEPIVRTASGFHARVVQHECDHLIGRLYPSRITDFSKFGFTEVMFPELDPTADD	PGPT0008125_40	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
D1-35_01675	420			hypothetical protein	ATGTCCGAAATCCGTTATGCAGCGCTCGAAGAATCGTTCTGGCCGTTGATGAACAAATTTTATCGTGCCCACCAATCCTCGATGAAAGCCGTGCGCGACGCGCAACTCTGGGTGGCGCGGCGCGATGGAATCGTCGCGGCCCTGTGCCTGCGACCGGTGTCCGGTGGGCATTGGTTGACGGGGTTGTTCGTCGACCCGGCGTTCCGCGCGCAAGGCATCGCGGCGCGGTTGATAGAAGAGGCAGTGAAAGGCGTGGAGGCGCCGGTGTGGCTGTTCTGCCACCCTGACCTGCGCAGCTTCTATGAGCGACGCGGGTTCGCCTTCGATCCGGAACTGCCTTATGCAATGGCTGAACGGCTGAGCCGGTACGCACGGAGCAAGCCGATGATTGCGATGGGGTTGGTGCCTGCAAGACCCTGA	MSEIRYAALEESFWPLMNKFYRAHQSSMKAVRDAQLWVARRDGIVAALCLRPVSGGHWLTGLFVDPAFRAQGIAARLIEEAVKGVEAPVWLFCHPDLRSFYERRGFAFDPELPYAMAERLSRYARSKPMIAMGLVPARP				NA	NA	NA	NA	NA
D1-35_01676	111			hypothetical protein	ATGGCCAAAGGCATGGATTCAAAAAAAGCGGCAAAGAAAAAACCAGCGAAGAGCGCCGATGAAAAACGCGCTGACAAAAAAGCCAAGAAGGTCAATCTGTTCGGTCATTGA	MAKGMDSKKAAKKKPAKSADEKRADKKAKKVNLFGH				NA	NA	NA	NA	NA
D1-35_01677	534			hypothetical protein	ATGTTGGTCAGTGCAAATCAGCAAGCAATGATCCTGCCGCTCAAGCGCCCCGGCGAAGACCCGACAGCCGAAGCCGCCAGCGGCCTGCAAAGCGCCGCGCTGCAGGCGTTGCGAGATAACGTCCAGACCCAGGCCGGCCAGGCCAGCGCCCAAGTCCAGGACTCCGCCACTCGACACGCCACGCAACAGGTGAGCGCCGCCACCGCCGTCAGCGACAAGGTCGACGAAGCCTTCGCCAAGACCCGTGTGCAATTGCAGACGGTTGGCTCGCCAGCCTTCGCAGAGACCAGCTCTGCCATGGCGCAGTTCAAGGACTACATGAGCAAGACGCCTGAACAACGCTTGCGGGACAGCATCCTCAAGGAAATGGGCATCACCGAAGAAGAGTACGCCGCAATGCCGCCGGAGAAACAATTGGCGGTCGGCGAGGAAATTGCCCAGCGCATGCAGGACAAGTCGGCCATGGCGCAAATGGAAAAAGATCAGCAGAGCGAGAAAAACCCTGCCAAGAGCACTGTCATCGCCACCCTCTGA	MLVSANQQAMILPLKRPGEDPTAEAASGLQSAALQALRDNVQTQAGQASAQVQDSATRHATQQVSAATAVSDKVDEAFAKTRVQLQTVGSPAFAETSSAMAQFKDYMSKTPEQRLRDSILKEMGITEEEYAAMPPEKQLAVGEEIAQRMQDKSAMAQMEKDQQSEKNPAKSTVIATL				NA	NA	NA	NA	NA
D1-35_01678	1032	gntR		HTH-type transcriptional regulator GntR	ATGACCGCCCCTAAAAACGATAAGAATACTCGCACCACCGGTCGCCCCACGCTCAACGAAGTCGCACGCCTGGCCGGGGTCAGCCCGATCACCGCCTCCCGTGCGCTACGCGGCGTCAGCACCGTGGCCGTCGAACTGGTGGACAAGGTCCGCCAGGCCGCCCTGGAACTCAACTACGTCGTCAACCCCGCCGCCCGCGCCCTGGCTTCGGCCCAGAGCCATTCGGTGGTGGTGCTGGTGCCATCGTTGTCGAACCTGTTGTTCATCGACACTCTCGAAGCCATTCATCGCGTGCTGCGGCCCAAGGGCTTCGAAGTGGTGATCGGCAATTACCATTATTCCCGGGATGAAGAAGAGGACCTGCTGCGCAACTACATGGCCTATCAGCCGCGAGGACTGTTGCTCACCGGGTTCGACCGCACCGAAAGCGCTCGACGGATGATCGAGGCCAGCAACATTCCCTGCGTGTACATGATGGAACTGGACCCGGGCGCCGGCCTCAACTGTGTGGGCTTCTCCCAGCTCAAGGCCGGCGAAACCGCTGCCGAACACCTGGTTTCCCGAGGCCGCAAGCGCCTGGCCTACATCGGCGCGCAACTGGACCAGCGCACGCTGTTGCGCGGCGAAGGTTTCCGGCGCGCATTGCAGGAGGCCGGGCTCTACGACCCGGACCTGGAAATACTCACGCCGCGTCCGTCATCGGTGGGCCTGGGCGGCGAGTTGTTCCTGCAGTTGCTCGCCAGCCATCCGGACGTCGATGCGATCTTCTTCGGTAACGACGACCTGGCCCACGGCGCCCTGCTCGAAGCGTTGCGCAGCGGTATCAGGATCCCCGAGCAGGTTTCGATCCTCGGTTTCAACGACCTGCCCGCCTCGGCCCACATGGTGCCGCGCTTGAGCAGCATCAGCACCCCACGGGAAGCCATCGGCCGCCGTGCCGCTGAACAGATGCTCACCTTGATGGCTGGCAACCGCATCGCCCAGCCGGCGGTGGACCTGGGGTTCGAACTCAAGGTCCGCGAAAGCACCTGA	MTAPKNDKNTRTTGRPTLNEVARLAGVSPITASRALRGVSTVAVELVDKVRQAALELNYVVNPAARALASAQSHSVVVLVPSLSNLLFIDTLEAIHRVLRPKGFEVVIGNYHYSRDEEEDLLRNYMAYQPRGLLLTGFDRTESARRMIEASNIPCVYMMELDPGAGLNCVGFSQLKAGETAAEHLVSRGRKRLAYIGAQLDQRTLLRGEGFRRALQEAGLYDPDLEILTPRPSSVGLGGELFLQLLASHPDVDAIFFGNDDLAHGALLEALRSGIRIPEQVSILGFNDLPASAHMVPRLSSISTPREAIGRRAAEQMLTLMAGNRIAQPAVDLGFELKVREST				NA	NA	NA	NA	NA
D1-35_01679	534		COG3265	Gluconokinase	ATGAATAATCCAATCACCGCCCTGGTCATCATGGGCGTTGCCGGTTGCGGCAAAACCTGCGTCAGCCAGGCCCTGTGCCAACTGAGCGGCGCCACCGCCATTGAAGGCGACACTTTCCACCCCGCGGCCAACATCCAGAAGATGAGCGCCGGTATCCCCCTGAACGACGACGACCGTGCCGGCTGGCTCGACAGCCTGTGCGACGAGTTGCGCCGTGTCGACGCCGTGGGTGCGCGCCCGGTGCTGACCTGCTCGGCCCTCAAGCACAGTTATCGCGAGCGCCTGCGCAGCGCCTTGCCGGGCCTGGGCTTCGTATTTCTTGAACTGACCCCGGAAGTGGCCGCTGATCGCGTGTCCCATCGCCCGGGCCATTTCATGCCGTCGACCCTGATCGACAGCCAGTTTGCCACCCTTGAATCTCCTGTCGGCGAGCCCCTGACCCTGGCTCTGGATGCGTCCAGCCACAGCGTTGATGAACTGGCCCGCCAGGCTTACGTCTGGTGGCTGGCCCACGGCCTGAAGCTCGCGAGCTGA	MNNPITALVIMGVAGCGKTCVSQALCQLSGATAIEGDTFHPAANIQKMSAGIPLNDDDRAGWLDSLCDELRRVDAVGARPVLTCSALKHSYRERLRSALPGLGFVFLELTPEVAADRVSHRPGHFMPSTLIDSQFATLESPVGEPLTLALDASSHSVDELARQAYVWWLAHGLKLAS	PGPT0018055_972	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_GLUCONIC_ACID_UTILIZATION,PGPT0018055-gntK|idnK-K00851	NA	NA
D1-35_01680	1353	gntT_2	COG2610	High-affinity gluconate transporter	ATGTTCGGCATGTCCCACGAGACGTTCCTGCTGCTAGATGCAGTGGTTACGGTGATCGGACTCATCGTCCTCATCACCAAGTTCAAATTCCACCCGTTCATTGCACTGACCATCGCCGCCGCGTTTCTCGGCCTGACGTCGGGCATGCCGACCGGCACCATCATCAAGGCGTTCCAGGACGGCTTTGGTGGCGTGCTCGGTTTTGTCGGCATCATCCTGGCGCTGGGCACGATGCTCGGCAAAATGATGGCCGAGTCGGGCGGTGCCGATCAGATCGCCCAGACCCTGATCCGTGCCTTCGGCAAGGAGAAGGTGCAGTGGGCCATGATGTTCGCCGCGTTCCTGGTGGGCATCCCGCTGTTCTTCGAAATCGGCTTCGTGCTGCTGATCCCGCTGGTGTTCATCGTCGCGCGCCGCACCGGCGTGTCGATCATCAAGATCGGTATCCCGCTGCTCGCCGGTCTTTCCGCCGTCCACGGCCTGGTGCCACCGCACCCGGGTCCGCTGCTGGCGATCGGCATCTTTGGCGCTGACATCGGCAAGACCATTCTCTACGGCCTGATCGTAGCGCTGCCGACCGCCATCATTGCCGGACCGATCTTCGGTACGTTCATCGCCAAGCACATTCCCGGTCATCCGAATCAGGAGCTGGTGGACCAACTGGCCCGCGAGACGAACGCCGCCGAACTGCCAAGCTTCAGCATCACCCTGATCACCGTGCTGTCGCCGGTATTCCTGATGCTGCTCAAGACCTTCGCGGATGTGGCGCTGCCGGACGGCAACCTGTTCCGTGTCTGGATGGACATGATCGGCCACCCGATCTCGGCCTTGCTGCTGGCGTTGCTGCTCTCGCTGTACACCTTCGGCTACAAGCAGGGCATCGGTTCCAGCCAGATGCTGAAGTGGCTGGACGCGAGCCTGGCGCCGACGGCGGCGATCATCCTGATCATCGGTGCCGGCGGTGGCTTCAAGCAGATGCTGGTGACCAGCGGCGTGGGTGACGTGATTGGCCACATGGCCGTGAGCGCACAGATTTCGCCGATCCTGCTGGCCTGGCTGGTGGCGGCGGTGATCCGGATTGCGACCGGTTCGGCGACCGTGGCGACCATTACCGGTGCCGGGATCGTGGTGCCGGTGGTGGGGATGATGCCAGGGGTGAACCGTGAGCTGCTGGTACTGGCGACTGGCGCCGGCTCGCTGATCCTGTCTCACGTCAACGATGCGGGCTTCTGGCTGGTCAAGCAGTACTTCAACATGACCGTGGCGGAAACCTTCAAGACCTGGACCGCGATGGAAACCATCCTGTCGGTGGTGGGACTGATCTTTATCCTGCTGTTGTCGCTGGTGATCTGA	MFGMSHETFLLLDAVVTVIGLIVLITKFKFHPFIALTIAAAFLGLTSGMPTGTIIKAFQDGFGGVLGFVGIILALGTMLGKMMAESGGADQIAQTLIRAFGKEKVQWAMMFAAFLVGIPLFFEIGFVLLIPLVFIVARRTGVSIIKIGIPLLAGLSAVHGLVPPHPGPLLAIGIFGADIGKTILYGLIVALPTAIIAGPIFGTFIAKHIPGHPNQELVDQLARETNAAELPSFSITLITVLSPVFLMLLKTFADVALPDGNLFRVWMDMIGHPISALLLALLLSLYTFGYKQGIGSSQMLKWLDASLAPTAAIILIIGAGGGFKQMLVTSGVGDVIGHMAVSAQISPILLAWLVAAVIRIATGSATVATITGAGIVVPVVGMMPGVNRELLVLATGAGSLILSHVNDAGFWLVKQYFNMTVAETFKTWTAMETILSVVGLIFILLLSLVI	PGPT0001340_1837	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
D1-35_01681	1218	alaC	COG0436	Glutamate-pyruvate aminotransferase AlaC	ATGGCCGAACAAGGTTCGCCGCGCCGCTTTGCGCGCATCGATCGACTCCCCCCGTACGTATTTAATATCACTGCCGAGCTGAAGATGGCTGCGCGTCGGCGCGGCGAAGACATCATCGACTTGAGCATGGGTAACCCCGACGGCGCCACGCCCCCGCATATTGTCGAGAAGCTGGTCACCGTCGCCCAGCGCGAAGATACCCACGGCTACTCCACTTCCAAAGGCATCCCACGCCTGCGCCGAGCCATTTCGCGCTGGTACAAGGACCGCTACGAAGTGGACATCGACCCGGAAAGCGAAGCCATCGTCACCATCGGCTCCAAGGAAGGCCTCGCACACCTGATGCTGGCCACCCTGGACCAGGGCGACACGGTGCTGGTGCCCAACCCCAGCTATCCGATCCACATCTACGGCGCGGTGATCGCCGGCGCCCAGGTGCGTTCGGTGCCGCTGGTGCCCGGCGTGGATTTCTTCGATGAACTGGAGCGGGCCATTCGCGGTTCGATCCCCAAGCCGAAGATGATGATCCTCGGTTTCCCGTCCAACCCGACCGCGCAATGCGTGGAGCTCGACTTCTTCGAGCGGGTCATCGCCCTCGCCAAGCAATACGACGTACTGGTCATCCACGACCTGGCCTACGCCGACATCGTCTATGACGGCTGGAAAGCCCCGTCGATCATGCAGGTGCCAGGCGCGAAAGACATCGCGGTGGAGTTCTTCACCCTGTCCAAGAGCTACAACATGGCCGGCTGGCGCATCGGTTTCATGGTGGGTAACCCGGAACTGGTCAGCGCCCTGGCGCGGATCAAGAGTTACCACGACTACGGCACCTTCACCCCGCTGCAAGTGGCCGCCATCGCCGCCCTCGAAGGCGATCAGCAATGCGTGCGCGACATCGCCGAGCAGTACCGCCAGCGCCGCAACGTACTGGTCAAGGGCCTGCATGAACTGGGCTGGATGGTGGAGAATCCCAAGGCATCGATGTATGTCTGGGCGAAGATACCCGAGGCCTATGCGCACCTGGGCTCACTGGAGTTTGCCAAGAAGCTCCTGGCCGAAGCCAAGGTCTGCGTCTCGCCGGGGGTGGGGTTCGGGGAATACGGGGACGATCATGTGCGCTTTGCGCTGATCGAGAACCAGGACCGGATTCGCCAGGCGGTACGCGGGATCCGCGGGATGTTCCGGGCGGATGGGTTGATCAAAAAACCTGAGGCCTGA	MAEQGSPRRFARIDRLPPYVFNITAELKMAARRRGEDIIDLSMGNPDGATPPHIVEKLVTVAQREDTHGYSTSKGIPRLRRAISRWYKDRYEVDIDPESEAIVTIGSKEGLAHLMLATLDQGDTVLVPNPSYPIHIYGAVIAGAQVRSVPLVPGVDFFDELERAIRGSIPKPKMMILGFPSNPTAQCVELDFFERVIALAKQYDVLVIHDLAYADIVYDGWKAPSIMQVPGAKDIAVEFFTLSKSYNMAGWRIGFMVGNPELVSALARIKSYHDYGTFTPLQVAAIAALEGDQQCVRDIAEQYRQRRNVLVKGLHELGWMVENPKASMYVWAKIPEAYAHLGSLEFAKKLLAEAKVCVSPGVGFGEYGDDHVRFALIENQDRIRQAVRGIRGMFRADGLIKKPEA				NA	NA	NA	NA	NA
D1-35_01682	663			hypothetical protein	ATGGAATTTTCCAGCGGCTTCCTGCTGAGCCTTTCCTTGTGCCTGGACATCGGCGTGGCCAATATCGCGATGATCACCCTGGCGATGCAGCGCGGCTATTTCCAGGGCTTTGCCCTGGGCCTGGGCACCTGCGTAGGCGACCTGGTCTATGCGGTCCTGGCGCTGGCCGGAATGACTGTCCTGCTGCAATACGAAACGGTGCGGTGGGTGCTGTGGATCGGCGGTTCGGTGCTGTTGCTGTATTTCGCCGCGAAGATGGTTCATTCGGCGATCTTTCACAGTGCGGTGCTGGCCGAGGCCGGCGAGGTCCGGGGCAACTCGTCTCGGCAGGAGTTTTTTCGCGGGATTTTCCTGGCGATGTCATCCCCCAGCGCCATCCTCTGGTTCGCGGCGGTGGGGGGTACGCTCATTGCCCGCTCAGGGGGTGGCACGGTAGTCAGTTCGGCGCTGTTTCTGAGCGGATTCCTCTGCGCCGGGCTGCTCTGGAGCGCCGGCCTGTGCCTGGCGGCAACCCAGGGCGGAAAATTGTTGGGGGATAAGTTGCTGCGTTATTCCTATTGGGCATCGGCGGCGATTTTCTGCTATTTCGCCGTCTACGTGATCGTTTCTGGCTACAACGAGTTTGTCGGAACAACCGCCTCGGCTGTCCCGCCTGGACTCTGA	MEFSSGFLLSLSLCLDIGVANIAMITLAMQRGYFQGFALGLGTCVGDLVYAVLALAGMTVLLQYETVRWVLWIGGSVLLLYFAAKMVHSAIFHSAVLAEAGEVRGNSSRQEFFRGIFLAMSSPSAILWFAAVGGTLIARSGGGTVVSSALFLSGFLCAGLLWSAGLCLAATQGGKLLGDKLLRYSYWASAAIFCYFAVYVIVSGYNEFVGTTASAVPPGL	PGPT0020651_239	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
D1-35_01683	489			hypothetical protein	ATGGAATCGCAAAAACGCGTTAATGCATCCGAGCCGCGCTTCGAGCAAGGACGCTTTCAGCTCATCGCCGGTTTCGGCGCGCGTTTTACCCAGGACACCGCCCAGGACATCCCGCTGCTCTGGGAAAAGTTTCTGCCCTGGCTTGGCAAAGTGCCGGGGCAGAAAGACGAAGTGACTTACGGCGTGTGTTGCAACCCGGACGGCACAGGCGGCTTTGAATACATTGCCGGCGTGGAAATCAGCCGGCTTGACGACCTTCCGGAACAATACCGCTGGATCGAAATCCAGCCCGGGCCCTACGCCGTATTCGAGCACAAAGGGCCATTGAAGAACCTGCCGGACACCTTCCACTACATCTGGAAGGAATGGTTGCCGCAGTCCGGCCACCAGGCAGCTGATGAGCCTGAGTTCGAGCGCTACAGCGAAGACTTCAACCCGCGGACGGGGGAAGGCAGCCTGGAGATCTGGATACCCCTCAAGCCGAGTTGA	MESQKRVNASEPRFEQGRFQLIAGFGARFTQDTAQDIPLLWEKFLPWLGKVPGQKDEVTYGVCCNPDGTGGFEYIAGVEISRLDDLPEQYRWIEIQPGPYAVFEHKGPLKNLPDTFHYIWKEWLPQSGHQAADEPEFERYSEDFNPRTGEGSLEIWIPLKPS				NA	NA	NA	NA	NA
D1-35_01684	501			hypothetical protein	ATGGACGTTTTCGTGACTGCTCAGCTCGTATCCTATGAAGACCTGACCGCGCTGCAACGGCAACAGGTCGAAGCCATCGAAATCCACCCCGAACAGATCAGGTTTTCCGGCGATATCCATGGTGCGCTGCATACGCTGCTGTCCAGGCCCGCCCCTGGGGTAAAGGGTTTTGCGCTGCTGGCCGACGAAGTGCCCGTCGCGTTCCTGCTGCTCAAGCGGCCACCCGTACTGCCCGCCTGGGCCAACGAACACAGCGCCACCCTGCACGCCTTGCAGGTAGACCGCCGGGCTCAAGGCAAAGGCTACGGCAAGGCCTGCCTGCAAGCGCTACCCACCGTCGCCCGAGCGGCATGGCCAGAGATAAAGGGGCTTGAGCTTTCGGTGGATGCAGACAACGACGCGGCCATCAGCCTGTACACCCGCCTGGGCTGGGTCGACAGCGGCGAGGCCTACAAGGGCCGTATCGGTTATGAGCGGCGGATGGGGTTGGTCTTTGAATAA	MDVFVTAQLVSYEDLTALQRQQVEAIEIHPEQIRFSGDIHGALHTLLSRPAPGVKGFALLADEVPVAFLLLKRPPVLPAWANEHSATLHALQVDRRAQGKGYGKACLQALPTVARAAWPEIKGLELSVDADNDAAISLYTRLGWVDSGEAYKGRIGYERRMGLVFE				NA	NA	NA	NA	NA
D1-35_01685	426			hypothetical protein	ATGAATACCGAAACCGAAATCCAAGCGTTGATCGACACCTATCGCCAGGCCGTCATGGCCAAGGATGTGGAAAAAGTCATGGCGCTCTATGACGACGATATCGTCTCGTTCGATGCCATCCAGGCCCTGCAATTCAAGGGCAAGACCGCCTACCGCGCGCACTGGGAAGCCTGCATGGAAATGTGCCCTGGCCCGCACAAGTTCGATTTCCATCAGGTCCAGATCACGCCGGCCGAGAACATCGCCTTCGCCCATTGGCTGGCCTATTGCGGCGGCACCAACGACAAAGGCGAGGAACAGGCATGCTGGATGCGTGTGACAGCTTGCTACAAGCGTACGGCCGGCGCGTGGAAGATCGTCCATGAACATTGGTCGGCGCCATTCGACCCGATGGCGGGTACGGCGATATTCGACTTGCAGCCCTGA	MNTETEIQALIDTYRQAVMAKDVEKVMALYDDDIVSFDAIQALQFKGKTAYRAHWEACMEMCPGPHKFDFHQVQITPAENIAFAHWLAYCGGTNDKGEEQACWMRVTACYKRTAGAWKIVHEHWSAPFDPMAGTAIFDLQP	PGPT0030505_2	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
D1-35_01686	345			hypothetical protein	ATGAAGTATCTATGCCTGGTGTACAGCAATGAACAGGTCCTGCACGACTCGCCCGAGAGCCCGCAGGACGCCGAATGCATGGCTTACGCCGAATCGGTCCAGGGCAGCGGCCGCATGCTCGCCGCTGAAGCCCTGGAGTCGGTGCAGACCGCCACCACGGTGCGTATGCGCGGCGGCAAACTGTCGATTACCGACGGCCCGTTCGCCGAAACCAAGGAGCAACTGGCGGGCTTCTACCTGATCGACGCCAAGGACTTGAACGAAGCCATCCAGGTCGCCGGGCACATCCCGGCGGCCCGGGTCGGCTGCGTCGAAGTCCGGCCGGTACGCCAGCTGAATCCCTGA	MKYLCLVYSNEQVLHDSPESPQDAECMAYAESVQGSGRMLAAEALESVQTATTVRMRGGKLSITDGPFAETKEQLAGFYLIDAKDLNEAIQVAGHIPAARVGCVEVRPVRQLNP				NA	NA	NA	NA	NA
D1-35_01687	1236			hypothetical protein	ATGTCGGCCGAAGCGGTCAAGGCGCGGGTCGAGCAGGTTTATCGCCAGGATTCGCGGCGAATCCTGGCGACGCTGATTCGCCTGCTGGGTGATTTCGATCTCGCCGAGGAAGCCTTGCACGAGGCGTTCTTCGTCGCGGTCGAGCGCTGGCAGCGCGACGGCGTGCCGGACAATCCCCGGGCCTGGCTGGTGTCGGCCGGGCGTTTCAAGGCGATTGACAGCCTGCGTCGGCGGGCGCGCTTCGCGGCGTCCCAGCCGATGCTGATCGCGCAACTCGAAGCGCTTGAACAGGCCGAGTGGAGTGATGAGGACGTGGAAGATGACCGCCTGCGGCTGATTTTCACCTGTTGCCACCCGGCTCTGGCCGCTGATGCCCAGGTACCGTTGACGCTGCGGGAAGTCTGCGACCTGACCACCGAGGAAATTGCTCGTGCGTTTCTTGCCGCGCCGGCAGCCATCGCCCAGCGCATCGTGCGGGCCAAGGCGAAGATTCGCGATGCGAAGATTCCCTATCAGGTGCCGTCCCGCACGGAGCTGCCTGAACGACTCGACAGCGTGCTGCGGGTGATCTACCTGGTGTTCAACGAGGGCTATTCAGCCTCGATGGGGGCCGAGTTGACCCGCGATGACCTGACCCGTGAAGCCATACGCCTCGCACGCCTGCTGCTGGAGTTGCTGCCCGAAGCTGAAGTGATGGGCTTGCTGGCGCTGATGCTGCTGCACGAGTCGCGGCGGCCTGCGCGAATGTCGATGGCCGGCGATCTGGTCTTGCTCGATGAGCAGGACCGGTCGCTATGGGACCCGGCAATGATTGCCGAAGGTTGCGCGATGGTCGAGGCCGCGCTCAACACCCGGCGGTTCGGACCGTATTGCCTGCAAGCCGCGATTGCTGCGGTGCACGCCGAAGCGCCGACCGCCCGGGAGACCGATTGGCCGCAGATCGTCGGCCTCTACGATGTGCTGTTGCGGGCCGTGCCGTCGCCAGTGATCGAACTCAACCGCGCGGCCGCCCTGGCCAAGCGCGATGGGCCGCAGGAGGGGCTACGCCTGGTTGACGGGATACTCGGCAGGGGCGAGCTGCTTGACTATCACCTGGCCCATTCGGCGCGGGCTGAGTTCTGCCGGCAGTTGGGGCGAGTGGAGGAGGCGAGGGCCGCCTATCGACGGGCGCTTGAATTGACGCAGCAACTGCCGGAGCGGCGGTTCATTGAAGCCAGGCTTGCGGGATTGGACTGA	MSAEAVKARVEQVYRQDSRRILATLIRLLGDFDLAEEALHEAFFVAVERWQRDGVPDNPRAWLVSAGRFKAIDSLRRRARFAASQPMLIAQLEALEQAEWSDEDVEDDRLRLIFTCCHPALAADAQVPLTLREVCDLTTEEIARAFLAAPAAIAQRIVRAKAKIRDAKIPYQVPSRTELPERLDSVLRVIYLVFNEGYSASMGAELTRDDLTREAIRLARLLLELLPEAEVMGLLALMLLHESRRPARMSMAGDLVLLDEQDRSLWDPAMIAEGCAMVEAALNTRRFGPYCLQAAIAAVHAEAPTARETDWPQIVGLYDVLLRAVPSPVIELNRAAALAKRDGPQEGLRLVDGILGRGELLDYHLAHSARAEFCRQLGRVEEARAAYRRALELTQQLPERRFIEARLAGLD	PGPT0014960_512	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-35_01688	1344			hypothetical protein	ATGATTCGTATGCCTCTGGCTACCGCCAGTCTGTTGGCCATCGCTATTTCCCTCGCCGGTTGCGGCGAAGGCAAAGACAAGGCGGCCGCGCCGCAAGCGCCAACGCCGGCCGCCAGCACTGCGGCTCCGGCTGCCCCCGCTGCCGCTGGCAAGATCGACGAAGCCGCTGGCAAGGCCGTTGTCGCGCACTACGCCGACATCGTCTACGCCGTCTACAGCGATGCCGAATCCACCGCGAAAACCCTGCAGACCGCCGTCGACGCCTTCCTCGCCAAGCCGAACGCAGATACCCTGAAAGCCGCCAAGGCTGCCTGGGTTGCCGCGCGCGTGCCTTACCTGCAGAGCGAAGTGTTCCGCTTCGGCAACACCATCATCGACGACTGGGAAGGCCAAGTGAACGCATGGCCCCTGGACGAAGGCCTGATCGACTACGTCGACAAATCCTACGAGCACGCCCTGGGTAACCCGGGCGCTACCGCCAACATCATCGCCAACACCGAAGTGCAGGTCGGCGAAGACAAGGTCGACGTCAAAGACATCACCCCGGAAAAACTCGCCAGCCTGAACGAGCTGGGTGGTTCCGAGGCCAACGTTGCCACCGGCTACCACGCCATCGAATTCCTGCTGTGGGGCCAGGACCTCAACGGCACCGGCCCGGGTGCCGGCAATCGTCCGGCTTCGGACTACCTGGAAGGCGCCGGCGCCACTGGCGGCCACAACGACCGTCGGCGTGCCTACCTCAAGTCCGTGACCCAGCTGCTGGTGAACGACTTGCAGGAAATGGTCGGCAACTGGAAACCGAACGTCGCCGACAACTACCGCGCCACGCTGGAAGCCGAACCGGCTGAAACCGGTCTGCGCAAGATGCTGTTCGGCATGGGCAGCCTGTCCCTGGGTGAACTGGCGGGCGAGCGCATGAAGGTCTCCCTGGAAGCCAACTCGCCAGAAGACGAACAGGATTGCTTCAGCGACAACACCCACTACTCGCATTTCTACGATGCCAAGGGTGTGCGTAACGTCTACCTCGGCGAATACACCCGCGTCGACGGCACCAAGATGACCGGCGCGAGCCTGTCCTCCCTGGTGGCCAAGGCCGACCCGGCCGCCGACACCACGCTCAAGGCCGAGCTGGCCGACACCGAAGCCAAGATCCAGGTCATGGTCGATCACGCCAACAAGGGTGAGCACTATGACCAGCTGATCGCCGCCGGTAACACCGCGGGCAACCAGATCGTGCGTGACGCCATCGCCGCCCTGGTCAAGCAGACCGGCTCGATCGAACAGGCTGCGGGCAAGCTGGGTATCAGCGACCTGAACCCGGACAACGCTGATCACGAGTTCTGA	MIRMPLATASLLAIAISLAGCGEGKDKAAAPQAPTPAASTAAPAAPAAAGKIDEAAGKAVVAHYADIVYAVYSDAESTAKTLQTAVDAFLAKPNADTLKAAKAAWVAARVPYLQSEVFRFGNTIIDDWEGQVNAWPLDEGLIDYVDKSYEHALGNPGATANIIANTEVQVGEDKVDVKDITPEKLASLNELGGSEANVATGYHAIEFLLWGQDLNGTGPGAGNRPASDYLEGAGATGGHNDRRRAYLKSVTQLLVNDLQEMVGNWKPNVADNYRATLEAEPAETGLRKMLFGMGSLSLGELAGERMKVSLEANSPEDEQDCFSDNTHYSHFYDAKGVRNVYLGEYTRVDGTKMTGASLSSLVAKADPAADTTLKAELADTEAKIQVMVDHANKGEHYDQLIAAGNTAGNQIVRDAIAALVKQTGSIEQAAGKLGISDLNPDNADHEF				NA	NA	NA	NA	NA
D1-35_01689	2052			hypothetical protein	TTGAAGCTGGAACTCAAGAACAGCTTGTCTGTGAAGTTGCTCCGGGTCGTGCTCCTTTCGGCATTGATCGTTGGCGTGGTCTTGAGCTGCGCCCAGATCGTTTTCGATGCCTACAAAACCAATCGGGCCGTCGCCGACGACGCCCAGCGCATCCTCGATATGTTCCGCGACCCTTCCACCCAGGCGGTCTACAGCCTCGACCGGGAAATGGGCATGCAGGTCATCGAAGGCCTGTTCCAGGATGAGGCCGTGCGCATGGCCTCCATCGGCCACCCCCACGAAACGATGCTCGCCGAGAAGACCCGGCCCCTCCAGCATTCCGAAAGCCGCTGGCTGACCGACCTGATCCTGGGCCAGGAGCGCACCTTCACCACGCAACTGGTGGGACGCGGGCCCTACAGTGAATACTACGGCGACCTGAGCATCACCCTCGACACCGCCACCTATGGCCAGGGCTTCATTGTCAGCTCGGTGATCATTTTCATTTCCGGAATGCTCCGGGCCCTGGCCATGGGCCTGGTGCTGTACCTGGTCTATCACTGGCTGCTGACCAAACCGTTGTCGCGGATCATCCAGCACCTGACCGAAATCAACCCCGATCGCCCCAGCGCGCACAAGATTCCGCAGCTACGGGGCCACGAGCAAAACGAACTCGGCCTGTGGATCAACACCGCGAACCAGTTGCTCGAATCCATCGAGCGCAACACGCACTTGCGCCACGAAGCGGAAAACAGCCTGCTGCGCATGGCCCAGTACGACTTCCTCACCGGCCTGCCCAATCGCCAGCAGCTGCAACAACAACTGGACAAGATCCTGGTGGACGCCGGGCGCCTGCAACGTCGCGTGGCCGTGTTGTGTGTGGGACTGGACGACTTCAAGGGCATCAACGAGCAGTTCAGCTATCAGACTGGCGACCAGTTGCTGCTGGCCTTGGCCGATCGGCTGCGCGCCCACAGTGGGCGCCTCGGCGCCCTGGCGCGGCTGGGCGGCGACCAGTTCGCCCTGGTGCAAGCCGATATCGAGCAGCCTTACGAGGCCGCCGAACTGGCCCAGAGCATCCTCGACGATCTGGAAGCGCCATTCATCCTCGACGACCAGGGGATCCGCCTGCGAGCCACCATCGGTATCACGCTGTTCCCCGAAGACGGCGACAGCACCGAGAAGCTCCTGCAAAAAGCCGAGCAGACCATGACCCTGGCCAAGACGCGCTCGCGCAATCGTTACCAGTTCTATATCGCCAGCGTCGACAGTGAAATGCGCCGTCGGCGTGAACTGGAAAAAGACCTGCGCGAGGCGTTGGCTCGCGACCAGTTCACCCTGGTCTACCAGCCGCAGGTCAGCTACCGCGACCTTCGGGTGGTCGGCACCGAAGCGCTGATCCGCTGGCATCACCCCGAGCACGGCCTCGTGCCGCCTGACCTGTTCATTCCCTTGGCGGAACAGAACGGCACCATTATCGCCATCGGCGAATGGGTGCTGGACCAGGCCTGCAAACAGTTGCGCGAATGGCACGATCAGGGTTTTGTCGACCTGCGCATGGCCGTCAACCTGTCGACGGTGCAACTGCACCACGCCGAACTGCCCCGGGTGGTGAGCAATTTCCTGCAGATGTACCGCTTGCCCCCGCGCAGCCTGGAGCTGGAGGTCACTGAAACCGGCCTGATGGAAGACATCACCACGGCCGCCCAGCATCTGTTGAGCCTGCGCCGTTCCGGCGCGCTGATTGCCATCGACGACTTCGGCACCGGCTATTCGTCCTTGAGTTATCTCAAGAGCCTGCCGCTGGACAAGATCAAGATCGACAAGAGTTTCGTCCAGGACCTGCTCGATGACGAAGACGATGCGACCATCGTTCGCGCCATCATCCAGCTCGGCAAGAGCCTGGGCATGCAGGTGATCGCCGAAGGCGTCGAAACGATCGAGCAGGAAGCCTACATCATTGCCGAGGGCTGCCATGAAGGTCAGGGCTACTACTACAGCAAACCGTTGCCGGCACGGGAGCTGGGTAACTATCTGAAGCAAGCCGAGCGCATCAACGCCTCGATCATCTGA	MKLELKNSLSVKLLRVVLLSALIVGVVLSCAQIVFDAYKTNRAVADDAQRILDMFRDPSTQAVYSLDREMGMQVIEGLFQDEAVRMASIGHPHETMLAEKTRPLQHSESRWLTDLILGQERTFTTQLVGRGPYSEYYGDLSITLDTATYGQGFIVSSVIIFISGMLRALAMGLVLYLVYHWLLTKPLSRIIQHLTEINPDRPSAHKIPQLRGHEQNELGLWINTANQLLESIERNTHLRHEAENSLLRMAQYDFLTGLPNRQQLQQQLDKILVDAGRLQRRVAVLCVGLDDFKGINEQFSYQTGDQLLLALADRLRAHSGRLGALARLGGDQFALVQADIEQPYEAAELAQSILDDLEAPFILDDQGIRLRATIGITLFPEDGDSTEKLLQKAEQTMTLAKTRSRNRYQFYIASVDSEMRRRRELEKDLREALARDQFTLVYQPQVSYRDLRVVGTEALIRWHHPEHGLVPPDLFIPLAEQNGTIIAIGEWVLDQACKQLREWHDQGFVDLRMAVNLSTVQLHHAELPRVVSNFLQMYRLPPRSLELEVTETGLMEDITTAAQHLLSLRRSGALIAIDDFGTGYSSLSYLKSLPLDKIKIDKSFVQDLLDDEDDATIVRAIIQLGKSLGMQVIAEGVETIEQEAYIIAEGCHEGQGYYYSKPLPARELGNYLKQAERINASII	PGPT0026015_214	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0026015-bifA-K21024	NA	NA
D1-35_01690	597	sodB_2	COG0605	Superoxide dismutase [Fe]	ATGGCTTTCGAATTGCCGCCGCTGCCCTATCCTCACGATGCACTGCAGCCGCACATCTCCAAAGAAACTCTGGAGTACCACCACGACAAGCACCACAACACCTATGTCGTGAACCTGAACAACCTGGTGCCTGGCACCGAGTTCGAAGGCAAGACCCTGGAAGAAATCGTCAAGACTTCCTCGGGCGGTATCTTCAACAACGCCGCTCAGGTCTGGAACCACACTTTCTACTGGAACTGCCTGGCGCCAAATGCTGGCGGTCAACCAACCGGCGCCCTGGCTGAAGCCATCAATGCAGCCTTCGGTTCGTTCGACAAGTTCAAGGAAGAATTCAGCAAGACTTCCATCGGCACCTTCGGTTCCGGCTGGGGCTGGCTGGTTAAAAAGGCCGACGGCTCCCTGGCCCTGGCCAGCACCATCGGCGCCGGCAACCCGCTGACCAGCGGCGACACTCCGCTGTTGACCTGCGACGTTTGGGAACACGCCTACTACATCGACTACCGCAACGTTCGTCCGAAGTACGTCGAAGCGTTCTGGAACCTGGTCAACTGGAAGTTCGTGGCTGAGCAGTTCGAAGGCAAGACCTTTACTGCGTAA	MAFELPPLPYPHDALQPHISKETLEYHHDKHHNTYVVNLNNLVPGTEFEGKTLEEIVKTSSGGIFNNAAQVWNHTFYWNCLAPNAGGQPTGALAEAINAAFGSFDKFKEEFSKTSIGTFGSGWGWLVKKADGSLALASTIGAGNPLTSGDTPLLTCDVWEHAYYIDYRNVRPKYVEAFWNLVNWKFVAEQFEGKTFTA	PGPT0004190_5325	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
D1-35_01691	603	argO	COG1279	Arginine exporter protein ArgO	ATGTGGCAAAGTTATGTGAACGGGCTGCTGGTCGCCCTCGGATTGATCATGGCCATTGGCACGCAGAACGCCTTCGTGCTCGCCCAGAGCTTGCGCCGCGAGCACCATTTGCCGGTGGCTGCCCTGTGCATCATCTGCGATGCGTTGCTGGTCGCCGCCGGCGTGTTCGGCCTGGCGACGCTATTGGCGCAAAGCCCGTTGCTGCTTTCAATCGCACGCTGGGGCGGCGCCGCGTTTCTGCTCTGGTACGGTACCCAGGCGCTGCGCCGCGCCTGCTCGAAACAGAGCCTGCAGCGCGATGAAAAACAGGCCGCGCGCTCACTGGGAACAGTCCTGCTGAGCGCACTCGCGGTCACGCTGCTCAACCCCCACGTCTATCTCGACACCGTGTTGCTGATCGGCTCCCTCGGCGCCCAGCAGAGCATGCCCGGCGCCTACGTCATGGGGGCGGCCAGTGCCTCGCTGCTGTGGTTTTCGACCCTGGCCATCGGCGCCGCATGGCTGGCTCCCTGGCTGGCCCGACCCAGTACCTGGCGGATCCTGGACCTGCTGGTGGCGCTGATGATGTTCACCGTGGCGCTGCAACTGATCGTCTCGGGCTGA	MWQSYVNGLLVALGLIMAIGTQNAFVLAQSLRREHHLPVAALCIICDALLVAAGVFGLATLLAQSPLLLSIARWGGAAFLLWYGTQALRRACSKQSLQRDEKQAARSLGTVLLSALAVTLLNPHVYLDTVLLIGSLGAQQSMPGAYVMGAASASLLWFSTLAIGAAWLAPWLARPSTWRILDLLVALMMFTVALQLIVSG	PGPT0020651_2201	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
D1-35_01692	894	argP	COG0583	HTH-type transcriptional regulator ArgP	ATGTTCGATTACAAACTGCTGTCTGCCCTGGCGGCCATTGTCGAGCAGGCCGGATTCGAGCGTGCCGCCCAGGTGTTGGGACTGTCGCAGTCGGCCATCTCCCAGCGGATCAAGCTTCTGGAAGCGCGTGTCGGCCAGCCCGTGCTGGTGCGTGTCACACCGCCGGTGCCCACTGAAATCGGCCGACGCCTGCTCAACCATGTGCAACAGGTTCGTTTGCTTGAACGCGACCTGCAAAGCCTGGTGCCGGCGCTGGATGAGGCCGGGTTACCGGAGCGCCTGCGAATTGCCCTGAACGCCGACAGCCTGGCTACCTGGTGGGCCGGTGCGGTGGGGGCGTTCTGTGCCGAGCGGCAGCTCTTGTTGGACCTGGTGGTGGAAGACCAGAACGTCGGCCTCAAGCGCATGCGCGCCGGGGAAGTGGCGGCCTGCGTCTGCGCCAGCGAACGGCCGGTGGCCGGTGCCCGCAGCGTATTGCTGGGGGCGATGCGCTACCGGGCGCTTGCCAGCCCTGCGTTCATCGCCCGGCACTTCCCCGGCGGGGTGCGCGCCGATCAGTTGGCTCGCACGCCGGCCCTGGTATTCGGCCCGGATGATTTCCTGCAACACCGTTACCTGGCTTCCCTCGGTATCGAGGGCGGTTTCGAGCACCATTTGTGCCCGTCGTCCGAAGGTTTCATCCGTCTCGCTGAAGCGGGGCTTGGCTGGGGACTGGTGCCGGAACTGCAAGTGCGCGAGCAACTGGCGCGGGGCGTGCTGGTGGAGTTGTTGCCTGACAAGCCGATTGATGTGCCGCTGTACTGGCATCATTGGCGCAATGGCGGACACTTGCTCGGTCTGTTGACCGAGCAACTGATTCAGGCGTCCCGGCAGTGGCTGGTGCCGTTGGCCTGA	MFDYKLLSALAAIVEQAGFERAAQVLGLSQSAISQRIKLLEARVGQPVLVRVTPPVPTEIGRRLLNHVQQVRLLERDLQSLVPALDEAGLPERLRIALNADSLATWWAGAVGAFCAERQLLLDLVVEDQNVGLKRMRAGEVAACVCASERPVAGARSVLLGAMRYRALASPAFIARHFPGGVRADQLARTPALVFGPDDFLQHRYLASLGIEGGFEHHLCPSSEGFIRLAEAGLGWGLVPELQVREQLARGVLVELLPDKPIDVPLYWHHWRNGGHLLGLLTEQLIQASRQWLVPLA				NA	NA	NA	NA	NA
D1-35_01693	993	oleD	COG0451	2-alkyl-3-oxoalkanoate reductase	ATGAAGATTCTGGTCACCGGCGCAAGCGGCTTCATCGGCGGACGCTTCGCGCGTTTCGCCCTTGAGCAGGGCCTGGATGTACGGGTCAATGGCCGCCGGGCCGAAAGCGTCGAGCATCTGGTGCGGCGTGGCGCCGAGTTCATCCAGGGCGACCTCAGCGAGCCGATGCTGGCCCTCGACCTGTGTCGCGATATCGATGCCGTGGTGCATTGTGCCGGCTCGGTGGGGCTGTGGGGGCGCTATCAGGACTTTCACCAGGGCAACGTCCAGCTCACCGAAAACATCGTCGAGGCGTGCCTCAAGCAAAAGGTCCGGCGATTGGTGCACCTCTCCTCACCGTCGATCTATTTTGATGGCCGTGACCACTTGGGACTGACCGAAGAGCAGGTGCCCAAACGTTTCAAGCATCCCTACGCCGCCACCAAGTACCTGGCCGAACAGAAGGTCTTCGGCGCCCAGGAGTTCGGCCTGGAGGTGTTGGCGCTGCGGCCGCGCTTCGTCACTGGTGCCGGTGACATGAGCATTTTTCCGCGCTTGCTCAAGATGCAGCGCAAGGGACGACTGGCGATTATCGGCAACGGCTTGAACAAGGTCGATTTCACCAGCATGCAGAACCTCAACGAAGCACTGCTCAGCAGCCTGCTGGCCACCGGTTCGGCCCTGGGCAAGGCTTACAACATCAGTAACGGGGCGCCCGTTCCGTTGTGGGACGTAGTCAATTATGTGATGCGGCAGATGGAAGTCCCACAGGTCAGGCGTTACCGCTCCTACGGGCTGGCTTACAGCGTTGCGGCCATGAACGAAGGGTTCTGCGCATTATGGCCGGGTCGCCCGGAGCCGACGTTGTCGCGCCTTGGCATGCAGGTGATGAACAGGAATTTCACCCTGGACATCGGTCGGGCCCGGCATTATCTCGATTACGATCCGCAAGTCAGCCTGTGGGCCGCGCTCGATGAATTTTGCGCCTGGTGGCGCGTCCAATATGCCCGCTGA	MKILVTGASGFIGGRFARFALEQGLDVRVNGRRAESVEHLVRRGAEFIQGDLSEPMLALDLCRDIDAVVHCAGSVGLWGRYQDFHQGNVQLTENIVEACLKQKVRRLVHLSSPSIYFDGRDHLGLTEEQVPKRFKHPYAATKYLAEQKVFGAQEFGLEVLALRPRFVTGAGDMSIFPRLLKMQRKGRLAIIGNGLNKVDFTSMQNLNEALLSSLLATGSALGKAYNISNGAPVPLWDVVNYVMRQMEVPQVRRYRSYGLAYSVAAMNEGFCALWPGRPEPTLSRLGMQVMNRNFTLDIGRARHYLDYDPQVSLWAALDEFCAWWRVQYAR				NA	NA	NA	NA	NA
D1-35_01694	882			hypothetical protein	ATGCCCACGCGTAACGATGCCAACGACGACTTCGACGATGTACCGAGCCTGCGGATGCGGGCGGACATTCCCGATGACGATGACTTCCTGACCAACCGCCAGCCCCACGTGCAAGCGCGTCCGGCACCTGTTGCGGCGGCCAGGGTCAAGGCACCAAGCACCGGGCCGTTGTGGGCATTGGTCGGTGCCTTGCTGTGCGCCTTGGCGTTTCTCGCGTGGTGGAGTTTCCAGCAGATTTCCCTGATGGAGCAGCAGCTGGTGGCCACCCAGGAGAGCTTCGCACGGATCAGTGAGGATGCCGCGGGCCGCCTGCAGGACATCTCCGGCAAAGTGGTTGCCGGGCAGTCCAACGTGATGAGCGACAGTGAAGCCTTGAAATTGCAGATCAAGCAGTTGGACAGCAAGCTGCAGGAGCAGGGCCGGCAATTCGACGGCAAGTTGATGGAGCAGTACAAGCAGCTGCAAGGCGCGTTCGGACCGTCCGCCGACCTGGACAAGCAATTGGCCCAGATGATCGCCCAGGATTCCGAACAGCAGAACGCCTACACCCAGTTGCAAGCGGCCAATACCCAGCTCCAGGCCCAGGTCAAGGCGTTGGCGGCCGAGGTTGCAACCTTGAAGAACCAAGGCGAGGGCGGCGCGCTGGATGCCCAGCTCAAGAGCATCGGTGCCGACATCACGGCCTTGAAAAGAGCCAACTCGAACTCGGCCATCGAGCGCCTGGAGCAGGACATGATTGTGCTCAAGAGTCAGCAGGAGAACCGCTCGGGCGGCAATAACGCCGAGTTCGATGCCTTCCGCGGCCAGGTCACGCGCAACATCAATACCCTGCAATCGCAGATCCAGTACCTGCAACAGCAACTGAGCAATCGGGCCCAGTAA	MPTRNDANDDFDDVPSLRMRADIPDDDDFLTNRQPHVQARPAPVAAARVKAPSTGPLWALVGALLCALAFLAWWSFQQISLMEQQLVATQESFARISEDAAGRLQDISGKVVAGQSNVMSDSEALKLQIKQLDSKLQEQGRQFDGKLMEQYKQLQGAFGPSADLDKQLAQMIAQDSEQQNAYTQLQAANTQLQAQVKALAAEVATLKNQGEGGALDAQLKSIGADITALKRANSNSAIERLEQDMIVLKSQQENRSGGNNAEFDAFRGQVTRNINTLQSQIQYLQQQLSNRAQ				NA	NA	NA	NA	NA
D1-35_01695	843			hypothetical protein	ATGGGGTTTATTCGAAGGCTGGCCTGGCTGGCCGCAATGCTGGCGCTGGGGCTGAACCACGCACAGGCCGCTACGCCGGATGAAGGCCAGGCGGCTCGGGCGCTGTTGGAAAGGGCGTTGGCCTACTATCACGATTACGGCGACTATGCGTTCGCCGCCTTCAGCCGCCAAGGCGAATTCGTCGACAAGGACCGCTACGTGTTCGTGGTCGACACCCAGGGAGTAATGCTTGCCAGCGGCGGCCCATCGTCAGCGCTGATCGGGCGAGACGTGTCCGAGGTATTGGGGCCGGATCTGCGCAAGGCGTTCAAGGATGCGTTGAAGACCCCGGAAGCCAGCGGCATCCAGCAGGCCGAGTATCGCTGGCAGAACTGGGCGGACGGCAAGGTCGAGCGCAAGCGTGTGTATTTCCAGCGGGTCGGCGAGCATATCCTCGCGGTTGGCTATTACTTGCCAAGGGCTTCTGCCGAACAGGCCAGGGCGCTACTGGACAAGGCTTCGGCGGACCTGCTGAAGAGTGAGAAAGCCACGCTGACGGCGATCAATTCCCTCAAGGGCGGTTACCTTCAGGATGACCTGTACGTCTTTGTCGTTGATCTCGATACCCGCCGTTATGTCGGTCATGGCACCAATCTGCGTTTGATCAATACCGATTTTGCGAAGGTCAAGGATCCGGCTGGCAAACCGGTGGGTGAGCCGATCCTGGCAATGATGGGCAAGCAGGATGCGGGGGAATATGAGTATCGCTGGAAGAATCCGGTCACGGGGAAGGTCGAGAACAAGCATGCCTATTTGAAGAAGGCTGGGCATTTGTTGGTGGCTGTGGGGTATTACAGTCCTTGA	MGFIRRLAWLAAMLALGLNHAQAATPDEGQAARALLERALAYYHDYGDYAFAAFSRQGEFVDKDRYVFVVDTQGVMLASGGPSSALIGRDVSEVLGPDLRKAFKDALKTPEASGIQQAEYRWQNWADGKVERKRVYFQRVGEHILAVGYYLPRASAEQARALLDKASADLLKSEKATLTAINSLKGGYLQDDLYVFVVDLDTRRYVGHGTNLRLINTDFAKVKDPAGKPVGEPILAMMGKQDAGEYEYRWKNPVTGKVENKHAYLKKAGHLLVAVGYYSP	PGPT0004005_520	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-OTHER_CYTOCHROME-RELATED_PROTEINS,PGPT0004005-cycA|cycM-K08738	NA	NA
D1-35_01696	2847	rapA	COG0553	RNA polymerase-associated protein RapA	ATGGCGCAGCAGTATCAACCGGGGCAACGCTGGATCAGTGACAGCGAAGCCGAGCTGGGTTTGGGCACCGTTCTGGCACAGGACGGCCGCTTGTTGACCGTGCTCTACCCGGCCACTGGCGACACTCGCCAGTACGCGCTACGGAATGCGCCCCTCACCCGCGTGCGGTTTTCGCCGGGCGACGTGATCACTCACTTCGAAGGCTGGAAAATGACCGTGCGCGAAGTCGATGACGTCGACGGGCTGTTGGTCTACCACGGCCTCAACGGGCAGAACGAAGTCGTCACGCTGCCGGAAACCCAACTGTCGAACTTCATCCAGTTCCGCCTGGCCAGCGATCGCCTGTTCGCCGGGCAGATCGATCCGCTGGCCTGGTTCTCCCTGCGCTACCACACGCTGGAACACACCAGCCGCCAACTGCAGTCACCGCTCTGGGGCCTGGGTGGCGTGCGTGCCCAACCGATCGCTCACCAGTTGCATATTGCCCGTGAAGTCGCCGACCGCATTGCGCCACGGGTATTGCTGGCGGACGAAGTGGGCCTGGGCAAGACCATCGAAGCCGGCTTGATCATCCATCGGCAACTGCTTTCCGGCCGCGCCAGTCGCATCCTGATCCTGGTCCCGGAAAACCTGCAGCACCAGTGGCTGGTGGAGATGCGTCGGCGCTTCAACCTGCAGGTCGCGCTGTTCGACGAAGAACGCTTTATCGAAAGTGATGCCAGCAACCCGTTCGAGGACACCCAACTGGCGCTGGTCGCGCTGGAATGGCTGGTAGAGGACGAAAAGGCCCAGGACGCGCTGTTCGCCGCCGGCTGGGACCTGATGGTGGTCGACGAAGCGCACCACCTGGTGTGGCACGAAGACCAGGTCAGCCCGCAATACGCGCTCGTCGAACAATTGGCCGAGACCATCCCTGGCGTGCTGCTGCTGACCGCCACCCCGGAACAACTGGGCCAGGACAGCCACTTCGCTCGCCTGCGCCTGCTGGACCCGAACCGCTTCCACGATCTGCAAGCCTTCCGTGCCGAAAGCGAGAACTATCGCCCGGTGGCCGAAGCCGTCCAGGAGCTGCTGGACAAGGGACGCTTGTCGCCCGAGGCCCACCAGACCATCCATGGTTTCCTGGGCAATGAAGGCGAAGCGCTGCTGACCGCCGTCAACGATGGCGATATCGAAGCCAGCGCCCGCCTGGTTCGCGAACTGCTGGACCGCCACGGCACCGGCCGCGTGCTGTTCCGTAACACCCGCGCTGCCGTCCAGGGTTTCCCCGAGCGCAAGCTGCACGCCTATCCGCTGCCGTGCCCTGACGAATACCTGGAACTGCCGCTGGGCGAACACGCCGAGCTGTATCCGGAAGTCAGCTTCCAGGCTCAGCCTGAAGCCGGCGAAGAAGAACGCTGGTGGAAATTCGACCCGCGCGTCGAATGGCTGATCGATCAGTTGAAGATGCTCAAGCGCACCAAGGTCCTGGTGATCTGCGCCCACGCCGAAACCGCGATGGACCTGGAAGACGCCCTGCGCGTGCGTTCCGGCATTCCGGCCACGGTGTTCCATGAAGGCATGAACATCCTTGAGCGCGACCGCGCGGCGGCCTACTTTGCCGACGAAGAGTTCGGTGCCCAGGTGCTGATCTGCTCGGAAATCGGCAGTGAGGGTCGCAACTTCCAATTCGCCCATCACCTGGTGCTGTTCGACCTGCCGGCGCACCCGGACCTGCTGGAACAGCGGATCGGCCGTCTGGACCGGATCGGCCAGAAACACACTATCGAGTTGCATGTGCCGTACCTGGAAACCAGCCCGCAGGCGCGGCTGTTCCAGTGGTATCACGAGGCGCTGAATGCTTTCCTCAACACCTGCCCGACCGGCAACGCCTTGCAACATCAGTTCGGCCCGCGCCTGCTGCCGTTGCTGGAAGAAGCCGACGACGGCGAGTGGCAAGCATTGATCGACGAGGCGCGCGCCGAACGCGAACGCCTGGAGGCCGAGCTGCACACCGGTCGCGACCGTCTGCTGGAGCTCAATTCCGGCGGTGCGGGCGAAGGCGACGCTTTGGTGGAGGCCATCCTTGAACAGGATGACCAGTTCGCCCTGCCGATCTACATGGAAACCCTGTTCGACGCCTTCGGTATCGACAGCGAGGACCACTCCGATAACGCACTGATCCTCAAGCCGAGCGAAAAAATGCTCGACGCCAGTTTCCCCCTGGGCGACGACGAAGGCGTGACCATCACCTATGACCGCAACCAGGCGCTGTCTCGTGAAGACATGCAATTCATCACCTGGGAGCACCCGATGGTGCAAGGCGGCATGGACCTGGTGCTGTCTGGCTCCATGGGCAACACCGCCGTGGCGCTGATCAAGAACAAGGCGCTCAAGCCTGGCACCGTGTTGCTGGAACTGCTCTATGTCAGCGAAGTGGTCGCCCCGCGCTCGCTGCAATTGGGCCGTTACCTGCCACCGGCCGCCCTGCGCTGCCTGCTGGATGCCAACGGCAACGACCTGGCGGGCCGGGTGTCGTTCGAAACCCTTAACGACCAGCTCGAAAGCGTTCCCCGCGCCAGCGCCAACAAGTTCATCCAGGCCCAGCGCGACCAGCTCTCGCCACGGATCAACGCCGGCGAAGAGAAGATCGCCCCGCGTCACGCCGAACGCGTGGCCGAGGCGCAACGCCGTCTGGCGGCCGACACCGAAGAGGAACTGGCCCGTTTGACCGCTTTGCAAGCGGTGAACCCTACCGTGCGCGACAGCGAACTGGAGGCTCTGCGCCAGCAGCGTGAGCAAGGGTTGGCGATGCTGGAGAAGGCTGCGTTGCGGCTGGAGGCGATTCGGGTGTTGGTGGCGGGGTGA	MAQQYQPGQRWISDSEAELGLGTVLAQDGRLLTVLYPATGDTRQYALRNAPLTRVRFSPGDVITHFEGWKMTVREVDDVDGLLVYHGLNGQNEVVTLPETQLSNFIQFRLASDRLFAGQIDPLAWFSLRYHTLEHTSRQLQSPLWGLGGVRAQPIAHQLHIAREVADRIAPRVLLADEVGLGKTIEAGLIIHRQLLSGRASRILILVPENLQHQWLVEMRRRFNLQVALFDEERFIESDASNPFEDTQLALVALEWLVEDEKAQDALFAAGWDLMVVDEAHHLVWHEDQVSPQYALVEQLAETIPGVLLLTATPEQLGQDSHFARLRLLDPNRFHDLQAFRAESENYRPVAEAVQELLDKGRLSPEAHQTIHGFLGNEGEALLTAVNDGDIEASARLVRELLDRHGTGRVLFRNTRAAVQGFPERKLHAYPLPCPDEYLELPLGEHAELYPEVSFQAQPEAGEEERWWKFDPRVEWLIDQLKMLKRTKVLVICAHAETAMDLEDALRVRSGIPATVFHEGMNILERDRAAAYFADEEFGAQVLICSEIGSEGRNFQFAHHLVLFDLPAHPDLLEQRIGRLDRIGQKHTIELHVPYLETSPQARLFQWYHEALNAFLNTCPTGNALQHQFGPRLLPLLEEADDGEWQALIDEARAERERLEAELHTGRDRLLELNSGGAGEGDALVEAILEQDDQFALPIYMETLFDAFGIDSEDHSDNALILKPSEKMLDASFPLGDDEGVTITYDRNQALSREDMQFITWEHPMVQGGMDLVLSGSMGNTAVALIKNKALKPGTVLLELLYVSEVVAPRSLQLGRYLPPAALRCLLDANGNDLAGRVSFETLNDQLESVPRASANKFIQAQRDQLSPRINAGEEKIAPRHAERVAEAQRRLAADTEEELARLTALQAVNPTVRDSELEALRQQREQGLAMLEKAALRLEAIRVLVAG				NA	NA	NA	NA	NA
D1-35_01697	342			hypothetical protein	ATGTTGCCACCCATGCTCCCCTTGAGCGCCGTACCCATCACCGCTCAGCAGGATCCGATCCGCCCGCGACCGGATATTCCTCCCGTGGTCCCGGTACAACAAAGCTCCAACGAAAGCACCATCGACCTGCAAAAGGGTGACCCGGAGGAGGCCGCTCTGTTGCTGCGCGAAGAGCAGCGTCGCCAGCAGGAGCGCAACCGGCGCCGCCGCGAAGCCGACGAGGATCCCGAGGAGCATCTGGCTGTTCCGGGCACGGAACTGAACGCCGACAACACCGTGCCGGTCGTTCCGCTCGTCGAGGGCGAAGAGCGCCAGGGCCTATGGGTGGATATCCAGATCTGA	MLPPMLPLSAVPITAQQDPIRPRPDIPPVVPVQQSSNESTIDLQKGDPEEAALLLREEQRRQQERNRRRREADEDPEEHLAVPGTELNADNTVPVVPLVEGEERQGLWVDIQI				NA	NA	NA	NA	NA
D1-35_01698	162			hypothetical protein	ATGAGCCAAGAAGACAAACTGATTGATCTCGGTGCAGAGCGCGCAAAGCGCGTTCACGACCTCAACGAAAAACGTCTCAATGAAGTCCGCCAGGCCTTCGAGCAGGCCATGCCCTTGGGCAAGCCGAAGAAAAAATCGAAAAACAAACCGAAAAAGCGCTGA	MSQEDKLIDLGAERAKRVHDLNEKRLNEVRQAFEQAMPLGKPKKKSKNKPKKR				NA	NA	NA	NA	NA
D1-35_01700	117			hypothetical protein	ATGTTTATCGATAATGTGGTGTTTGCCGGTGTGTTGACGGTCGGCCTCATGTTCGTGTTTTTCGCAGGGTTTGGATTATTCATCTGGAAAGACGCACACAAGCGCAAAAAGCCGTAG	MFIDNVVFAGVLTVGLMFVFFAGFGLFIWKDAHKRKKP				NA	NA	NA	NA	NA
D1-35_01701	1476	pitA	COG0306	Low-affinity inorganic phosphate transporter 1	ATGATCGATTTATTCAGCGGACTGGATGCTTGGGTGCTCGTGAGCCTCTTGCTCGCCCTGGCTTTTGTCCTCGCCTTCGAGTTCATCAACGGCTTTCATGACACCGCTAACGCGGTTGCCACTGTTATCTACACCAAAGCCATGCCGCCTCACCTGGCGGTGTTCTTTTCCGGTGTGTTCAATTTCCTCGGCGTACTGCTGGGTGGCGTGGGGGTGGCGTACGCCATCGTTCACCTGTTGCCCGTGGAGCTGCTGATCAATGTGAACACCGGACACGGCTTGGCCATGGTGTTCTCGCTGCTCGCGGCGGCCATCACCTGGAACCTCGGCACGTGGTACTTCGGTATCCCGGCGTCCAGCTCCCATACGCTGATCGGCTCGATCCTCGGCGTGGGCCTGGCCAATGCGCTGATCAACGATATCCCGTTGGCCGACGGGGTGAACTGGCAGAAAGCGATCGATATCGGCGCCTCCCTGGTGTTCTCGCCGATGGCCGGCTTCCTGATCGCGGCCCTGGTGTTGCTCAGCCTGAAATGGTGGCGCCCGCTGTCGAAGATGCACAAGACGCCGGAACAGCGCCGCAAGATCGACGACAAGAAACATCCGCCGTTCTGGAATCGCCTGGTACTGGTGATTTCCGCCATGGCCGTCAGCTTCGTCCACGGCTCAAACGATGGCCAGAAAGGCATCGGCCTGATCATGCTGGTGTTGATCGGTATCGTACCCGCACAGTTCGTACTCGACCTGAACAGCACTACCTACCAGATCGAGCGCACCCGCGACGCGACGTTGCACCTTAGCCAGTTCTACAAGCGCAACAACGAGTCGCTGGGTGAGTTCCTGGCCTTGGGCAAGAGCGTCGAAGGCGACCTGCCGGAGAAATTCCGCTGCAACCCGCAGCAGACCGAACCGACCATCAATGCGCTGCTCGACACCCTCAAAGGCGTGGCGGATTACCACTCGCTGCCGTCGGAAAGCCGCATCGAAGTGCGCCGCTACCTGCTTTGCCTGGACGACACGGCGAAAAAGGTCGGCAAGTTGCCTGGCTTGGCAGCCCGTGAAAAAGACGACCTGAACAAGCTGCGCAAGGACCTGACCGCGACCACCGAATACGCCCCGTTCTGGGTAATCCTGGCGGTTGCCCTGGCCCTCGGCCTGGGCACCATGGTCGGCTGGAAGCGCGTGGTACTGACCATTGGCGAGAAGATCGGCAAGCAAGGCATGACCTACGCCCAAGGCATGTCGGCGCAGATCACCACGGCCTGCATGATCGGTGCAGCGAATATCTTCAGCCTGCCGGTTTCCACCACCCACGTGCTGTCTTCCGGCGTGGCGGGCACGATGGTGGCCAACAAGAGCGGCCTGCAGGGCGGCACGGTCCAGACCATCCTGCTGGCCTGGGTGCTGACCCTGCCAGCGACGGTGGGCCTGTCGGCGGCACTGTTCTGGCTGGCGTCGAAGGCCATCGGCAGCTGA	MIDLFSGLDAWVLVSLLLALAFVLAFEFINGFHDTANAVATVIYTKAMPPHLAVFFSGVFNFLGVLLGGVGVAYAIVHLLPVELLINVNTGHGLAMVFSLLAAAITWNLGTWYFGIPASSSHTLIGSILGVGLANALINDIPLADGVNWQKAIDIGASLVFSPMAGFLIAALVLLSLKWWRPLSKMHKTPEQRRKIDDKKHPPFWNRLVLVISAMAVSFVHGSNDGQKGIGLIMLVLIGIVPAQFVLDLNSTTYQIERTRDATLHLSQFYKRNNESLGEFLALGKSVEGDLPEKFRCNPQQTEPTINALLDTLKGVADYHSLPSESRIEVRRYLLCLDDTAKKVGKLPGLAAREKDDLNKLRKDLTATTEYAPFWVILAVALALGLGTMVGWKRVVLTIGEKIGKQGMTYAQGMSAQITTACMIGAANIFSLPVSTTHVLSSGVAGTMVANKSGLQGGTVQTILLAWVLTLPATVGLSAALFWLASKAIGS	PGPT0002645_329	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002645-pitA|pit-K16322	NA	NA
D1-35_01702	201			hypothetical protein	GTGACGAAAGACGAACTGCGCGCGGAACTTGAGCGCCAGGAACAACGTTACAAGGAAGTTTACGGCGGAGAAATCACCACCTACGCCGCGCAACCTGAACCGGAACGCAAACCCTGGCGCAAACGCGCCACTGTTCAGGACCAGGCGTTCAGCCAGGAACTGCAAAAGATGGAAAAAGAACTCAAGGCCGAGGAAGAATGA	MTKDELRAELERQEQRYKEVYGGEITTYAAQPEPERKPWRKRATVQDQAFSQELQKMEKELKAEEE				NA	NA	NA	NA	NA
D1-35_01703	843	pcaR	COG1414	Pca regulon regulatory protein	ATGAACGACCAATTGCGCAACGCCTTCACTTCAGTAGCGCCGCCGATCGTCGCTTCGCCGGCCAAGCGGATCCAGGCCCTGACCGGTGACCCGGACTTCATGACCTCGCTGGCCCGTGGACTGGCGGTGGTCCAGGCATTCCAGGAGCGCAAGCGGCACCTGACCATCGCCCAGATCAGCCACCGCACCGAAATTCCCCGCGCGGCGGTGAGGCGCTGCCTGCACACGTTGATCAAGCTCGGCTACGCCACCACGGACGGACGGACTTATTCGCTGTTGCCCAAAGTGCTGACCCTGGGCCATGCCTATCTGTCATCGACACCGCTGGCGGTTTCTGCCCAACCCTACCTGGACCGCATGAGCGAACAGCTGCACGAGGCCTGCAACATGGCGACGCTGGAAGGCGATGACATCCTTTACATCGCCCGGTCGGCCACGACTCAAAGGCTGATTTCGGTGGACCTGTCCGTCGGTGGCCGCCTGCCAGCCTATTGCACGTCAATGGGCCGGATTTTGCTGGCGGCACTGGATGACGCGTCGCTGCGTGATTATCTCGAGCATGCCGACCTGCAGGCCAAGACCAGCCGCACCCTGCACACGCCCGAGGCGCTGCTCGAATGCCTGCAACAGGTCCGGCAGCAGGGTTGGTGCATTGTCGATCAGGAACTGGAACAGGGCCTGCGCTCGATTGCCGTGCCGGTATACGATGCTTCGGGCCAGGTGGTGGCGGCCCTGAACGTCAGCACCCATGCCGGACGGGTCAGCCGCAACGAGCTGGAGCAGCGCTTTTTGCCTGGCCTGCTCGGGGCCAGCCGGGACCTGAGCGCGCAACTGTTCACTTAA	MNDQLRNAFTSVAPPIVASPAKRIQALTGDPDFMTSLARGLAVVQAFQERKRHLTIAQISHRTEIPRAAVRRCLHTLIKLGYATTDGRTYSLLPKVLTLGHAYLSSTPLAVSAQPYLDRMSEQLHEACNMATLEGDDILYIARSATTQRLISVDLSVGGRLPAYCTSMGRILLAALDDASLRDYLEHADLQAKTSRTLHTPEALLECLQQVRQQGWCIVDQELEQGLRSIAVPVYDASGQVVAALNVSTHAGRVSRNELEQRFLPGLLGASRDLSAQLFT				NA	NA	NA	NA	NA
D1-35_01704	1347	pcaK	COG0477	4-hydroxybenzoate transporter PcaK	ATGAACCAGCCCCAGACCTCCGTAGGCACCTGCCTCGATGTGCAGTCCTTCATCAATGCCCAGCCCATTTCTCGTTACCAATGGCGAGTGGTCATTCTCTGTTTCCTGATCGTTTTCCTCGATGGCCTCGACACCGCGGCCATGGGATTCATCGCCCCGGCGCTTTCCCAGGATTGGGGCATCAACCGGGCCAGCCTTGGCCCGGTGATGAGCGCAGCGCTGATCGGCATGGTATTCGGCGCACTGGGTTCCGGCCCATTGGCTGACCGTTTCGGACGAAAAATCGTATTGGTGGGGGCGGTCGTGTTGTTCGGTGCTTTCAGCCTGGCCTCGGCCTTCTGTACCAACGTCGACCAACTGCTGGTGCTGCGTTTCCTGACCGGCCTGGGATTGGGGGCCGGGATGCCGAATGCCACGACCCTGCTCTCGGAATACACGCCGGAACGCAAGAAGTCCCTGCTGGTCACCAGCATGTTCTGCGGCTTCAACCTGGGTATGGCCGGTGGCGGTTTCATCTCTGCCAAGCTGATACCGGCGTTCGGCTGGCACAGCTTGCTGCTGATCGGCGGCGTGCTGCCGTTGATCCTGGCGGTGGTGCTGGTGTTCTGGCTGCCGGAGTCGGCGCGTTACCTGGTGGTGCGTAACCGTGGCACCGACAAGGTGCGCAAGACCCTGGCGCCGATCGACCCGCCGACCATCGCCCAGGCGGCCAGCTTCAGCGTGCCCGAACAAAAGACCGTAAAAGCGCGCAACGTGCTGGCGGTGATCTTTTCCGGTACCTACAGCGCCGGCACCTTGTTGTTGTGGCTGACGTATTTCATGGGGCTGGTGATCGTCTATCTGCTGACCAGTTGGCTGCCGACGCTGATGCGCGACAGCGGCGCGAGCATGGAGCAGGCGGCGTTCATCGGCGCGCTGTTTCAGTTTGGCGGCGTATTGAGTGCCGTCGGGGTGGGTTGGGCGATGGACCGCTTCAATCCGCACAAGGTCATCGGCATTTTCTACCTGATGGCCGGGATATTTGCCTACGCAGTGGGGCAGAGTCTGGGCAACATTACCTTGCTCGCTACCCTGGTGCTGGTGGCCGGCATGTGCGTCAACGGCGCGCAATCGGCGATGCCGTCCCTGGCGGCGCGCTTCTACCCAACCCAGGGCCGGGCCACCGGGGTGTCGTGGATGCTGGGCATCGGCCGGTTCGGCGCAATTCTTGGCGCGTGGATGGGCGCGACGTTGTTGGGGTTGGGCTGGAACTTCGAACAGGTCCTGACCGCGCTGGTGATTCCAGCGGCATTGGCGACCGCGGCGGTCGTTATCAAAGGCATGGTCAGCCATGCGGATGCGACCTGA	MNQPQTSVGTCLDVQSFINAQPISRYQWRVVILCFLIVFLDGLDTAAMGFIAPALSQDWGINRASLGPVMSAALIGMVFGALGSGPLADRFGRKIVLVGAVVLFGAFSLASAFCTNVDQLLVLRFLTGLGLGAGMPNATTLLSEYTPERKKSLLVTSMFCGFNLGMAGGGFISAKLIPAFGWHSLLLIGGVLPLILAVVLVFWLPESARYLVVRNRGTDKVRKTLAPIDPPTIAQAASFSVPEQKTVKARNVLAVIFSGTYSAGTLLLWLTYFMGLVIVYLLTSWLPTLMRDSGASMEQAAFIGALFQFGGVLSAVGVGWAMDRFNPHKVIGIFYLMAGIFAYAVGQSLGNITLLATLVLVAGMCVNGAQSAMPSLAARFYPTQGRATGVSWMLGIGRFGAILGAWMGATLLGLGWNFEQVLTALVIPAALATAAVVIKGMVSHADAT	PGPT0005400_984	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-HYDROXYBENZOATE_METABOLISM,PGPT0005400-pcaK-K08195	NA	NA
D1-35_01705	861	catI		3-oxoadipate CoA-transferase subunit A	ATGGCTGAAATCCTTTCGCTGCACGACGCGGTGAAGCAGTTCGTCAACGACGGCGATACCGTCGCGCTCGAAGGCTTCACGCACCTGATCCCGACGGCGGCGGGTCATGAAATCATTCGTCAGGGCAAGAAGAACCTGGCCCTGGTGCGCATGACGCCTGACCTGATCTACGACCAGTTGATCGGCGCCGGCTGTGCTCGCAAGCTGATTTTTTCCTGGGGCGGCAATCCTGGAGTGGGTTCCTTGCACCGGCTGCGCGATGCGGTCGAAAAGCAATGGCCGCATCCGCTGGAGATCGAGGAGCACAGCCACGCCGACCTGGCAAATGCCTACGTTGCCGGCGCCTCCGGCCTGCCGTTTGCGGTGCTTCGGGCCTACGCCGGCTCCGACCTGCCGAAGGTCAATCCGCTGATCAAGAGCGTCACCTGCCCCTTCACCGGGGAGGTACTGGCCGCCGTCCCTTCGGTGCGGCCGGACATTACCGTGATCCACGCACAGAAGGCCGACCGCAAGGGCAACGTGTTGCTGTGGGGCATCCTCGGTGTGCAGAAAGAAGCGGCCCTGGCGGCCAAGCGTTGCATCGTCACCGTGGAAGAAGTCGTTGACGACCTGAACGCGCCGATGAATGCCTGCGTGCTGCCAACCTGGGCCTTGAGCGCGGTATGTCATGTACCGGGTGGCGCGCATCCGTCCTACGCCCACGGCTACACCGAGCGTGACAATCGTTTCTACCAGGCGTGGGATCCTATCGCCCGGGACCGTGAGACATTTACCGCATGGATTGACGAGTACATCCATGGCACCAGGGACTTCAGTGAATTCCAGGCCCGGCTGGCGGCCGCTTCGCAGGTGAAACCATGA	MAEILSLHDAVKQFVNDGDTVALEGFTHLIPTAAGHEIIRQGKKNLALVRMTPDLIYDQLIGAGCARKLIFSWGGNPGVGSLHRLRDAVEKQWPHPLEIEEHSHADLANAYVAGASGLPFAVLRAYAGSDLPKVNPLIKSVTCPFTGEVLAAVPSVRPDITVIHAQKADRKGNVLLWGILGVQKEAALAAKRCIVTVEEVVDDLNAPMNACVLPTWALSAVCHVPGGAHPSYAHGYTERDNRFYQAWDPIARDRETFTAWIDEYIHGTRDFSEFQARLAAASQVKP	PGPT0006105_569	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_ACRYLONITRITE|ACRYLAMIDE_DEGRADATION,PGPT0006105-gctA-K01039	NA	NA
D1-35_01706	780	catJ		3-oxoadipate CoA-transferase subunit B	ATGACCTATTCCACCAATGAGATGATGACCGTCGCCGCGGCCCGTCGGCTGAAGAACAACGCCGTGTGTTTCGTTGGCATCGGCCTGCCGTCGAAAGCGGCCAACCTGGCGCGGCTGACTTCGTCGCCTGATGTTGTCCTGATCTACGAATCCGGTCCGATCGGCGCCAAGCCCAGCGTATTGCCGCTGTCCATCGGCGACGGTGAACTGGCGGAAACCGCGGACACCGTCGTACCCACCGGTGAGATTTTTCGCTATTGGCTGCAGGGCGGGCGCATCGACGTCGGCTTCCTCGGCGCGGCCCAGGTGGACCGTTTCGGCAACATCAACACCACCGTGGTCGGCGATTATCATCAGCCGAAAGTCCGTTTGCCGGGGGCCGGTGGCGCGCCGGAAATCGCCGGCTCGGCGAAAAGTGTGTTGATCATCCTCAAGCAATCGGCGCGTTCGTTTGTCGACAAGCTGGACTTCATCACCTCGGTCGGTCACGGCGAAGGCGGTGATTCGCGCAAGCGCCTCGGCCTGCCGGGCGCTGGCCCCGTAGGGATCATCACTGACCTGTGCATCATGGAACCGGAAGCCGGCAGCCATGAGTTCGTGGTCACTTCGCTGCACCCCGGGGTGACCCGTGAGCAAGTGATTGCCGCCACCGGCTGGGCGATCCGTTTCGCCGACCAGGTGCAGACCACCGCCGAACCGACCGAGGTCGAGTTGCGCGCATTGCGCGACCTTGAGGCCCGTACCGCTGCGGCCCACGGCCAGACTCCAGGAGAAGCCTGA	MTYSTNEMMTVAAARRLKNNAVCFVGIGLPSKAANLARLTSSPDVVLIYESGPIGAKPSVLPLSIGDGELAETADTVVPTGEIFRYWLQGGRIDVGFLGAAQVDRFGNINTTVVGDYHQPKVRLPGAGGAPEIAGSAKSVLIILKQSARSFVDKLDFITSVGHGEGGDSRKRLGLPGAGPVGIITDLCIMEPEAGSHEFVVTSLHPGVTREQVIAATGWAIRFADQVQTTAEPTEVELRALRDLEARTAAAHGQTPGEA	PGPT0006110_342	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_ACRYLONITRITE|ACRYLAMIDE_DEGRADATION,PGPT0006110-gctB-K01040	NA	NA
D1-35_01707	1203	pcaF		Beta-ketoadipyl-CoA thiolase	ATGCGCGACGTTTTTATCTGTGATGCGATTCGAACCCCCATCGGCCGGTTCGGCGGCAGCCTGTCCGCGGTGCGTGCCGATGACCTGGCGGCCGTGCCGATCAAGGCGCTGATGGAACGCAACCCATCGGTGGACTGGCGCGCGGTGGACGAAGTGTTCCTCGGCTGCGCCAACCAGGCCGGTGAAGACAACCGCAACGTAGCGCGCATGGCCTTGTTGCTGGCCGGTCTGCCGGAGAGCATCCCCGGCGTGACGGTCAACCGCCTCTGCGCCTCGGGCATGGACGCTATCGGCACGGCGTTTCGTGCCATTGCCAGCGGCGAAATGGAGCTGGCCATCGCCGGCGGCGTCGAATCGATGTCCCGCGCGCCGTTCGTGATGGGCAAGGCCGATGCGGCGTTCTCACGCAACATGAAGCTGGAGGACACGACCATTGGTTGGCGCTTCATCAACCCGCTGATGAAAGCCCAGTACGGCGTTGATGCAATGCCGCAGACCGCTGATAACGTGGCGGATGACTACGCGGTGTCCCGCGCAGATCAAGACGCCTTTGCCGTGCGCAGCCAGCAGCGTGCGGCGGCGGCCCAGGCGGCGGGATTTTTTGCCGAAGAAATCGTGCCGGTTCGCATCGCCCACAAAAAGGGCGAAACGGTGGTCGAGCAGGACGAGCATCCACGCGCCGACACCACGTTGGAAACCTTGGGCCGACTCAAACCGGTCAACGGCCCGGACAAGACCGTGACCGCCGGCAACGCCTCGGGCGTGAATGACGGGGCGGCGGCGCTGATCCTCGCGTCCGCCGAAGCGGTGAAGAAACACGGCCTGACCCCCAGAGCCAGAGTGCTGGGCATGGCCAGCGCCGGCGTCGCGCCACGGGTGATGGGCATCGGCCCGGTGCCAGCGGTGCGCAAACTGACTGAGCGCCTGGGCCTGGCGGCCGCCGATTTTGACGTGATCGAGCTCAACGAAGCCTTTGCCAGCCAGGGCCTGGCGGTGTTGCGCGATCTTGGGCTGGCGGACGATGCTCCGCACGTCAATCCGAACGGTGGCGCCATTGCCTTGGGCCATCCACTGGGCATGAGCGGGGCGCGGCTGGTGATGACAGCGCTGCATCATCTGGAAAAGACCGGCGGCAAGAAAGGCCTGGCGACCATGTGCGTTGGCGTCGGCCAAGGTCTGGCACTGGCTATCGAACGCGTCTGA	MRDVFICDAIRTPIGRFGGSLSAVRADDLAAVPIKALMERNPSVDWRAVDEVFLGCANQAGEDNRNVARMALLLAGLPESIPGVTVNRLCASGMDAIGTAFRAIASGEMELAIAGGVESMSRAPFVMGKADAAFSRNMKLEDTTIGWRFINPLMKAQYGVDAMPQTADNVADDYAVSRADQDAFAVRSQQRAAAAQAAGFFAEEIVPVRIAHKKGETVVEQDEHPRADTTLETLGRLKPVNGPDKTVTAGNASGVNDGAAALILASAEAVKKHGLTPRARVLGMASAGVAPRVMGIGPVPAVRKLTERLGLAAADFDVIELNEAFASQGLAVLRDLGLADDAPHVNPNGGAIALGHPLGMSGARLVMTALHHLEKTGGKKGLATMCVGVGQGLALAIERV	PGPT0001570_149	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0001570-pcaF-K07823	NA	NA
D1-35_01708	705	pcaH	COG3485	Protocatechuate 3,4-dioxygenase beta chain	ATGACTGACAAGCCTGGTTACCGTCGCCCTCAAGTGGGCACTCAGCCGGAGTATCTGCACCCGCCGTACCAGTCCACCAACCTGCGCTCGCCGTCCAAGCCGTTGGTGTACCTGCCCCATTCATTGTCGGAAATCACCGGGCCGACCGTAGGTGCTGATCGTCTTCAGGAGAAGGACCATGACCTGACCGCCCAGCATGCCGGTGAGCCGCTCGGTGAACGGATCATCATTCACGGGCGCGTGCTCGATGAGCACGGCGAGCCGGTACCGGGCATCCTGATCGAGATCTGGCAGGCCAACGCCGCCGGTCGCTACAACCACGACCGTGACAACCACGATGCGCCGCTGGACCCGAACTTCACCGGCACCGGTCGCACCGTGACCGATGCCGATGGCGGGTATCAGTTCCAGACCATCAAGCCCGGCGCCTATCCGTGGGGCAACCACCACAACGCCTGGCGCCCGGCGCATATCCATTTTTCATTGTTCGGGCCGAGCATCCTGACGCGCCTGGTCACGCAGATGTATTTCCCCGGTGATCCGTTGCTGGAATACGATCCGATCTACAACTGCGTGCCGGACAGCCGTGCCAAGGAACGCTTGATCGCCAGTTTCGACCTGGAAAAAACCATTCCTCACTACGCCCTCGGTTATCGCTGGGACATCGTCTTGCGCGGCCGCGAAGCCACGCCGATGGAGAAATAA	MTDKPGYRRPQVGTQPEYLHPPYQSTNLRSPSKPLVYLPHSLSEITGPTVGADRLQEKDHDLTAQHAGEPLGERIIIHGRVLDEHGEPVPGILIEIWQANAAGRYNHDRDNHDAPLDPNFTGTGRTVTDADGGYQFQTIKPGAYPWGNHHNAWRPAHIHFSLFGPSILTRLVTQMYFPGDPLLEYDPIYNCVPDSRAKERLIASFDLEKTIPHYALGYRWDIVLRGREATPMEK	PGPT0005015_811	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005015-pcaH-K00449	NA	NA
D1-35_01709	567	pcaG	COG3485	Protocatechuate 3,4-dioxygenase alpha chain	ATGACGCTCAACGCCACTACGTCCCACACCGTCGGCCCTTACTACCACATCGGCCTGACGTGGCTGAACCGCGAAGACCTGACCGACGCCCAGACGCTCGGCCAGCGCGTGGCGATCACCGGGCAAGTGATCGACGGCAACGGCCAGTTCGTCAACGACGCCATGCTGGAAGTCTGGCAGGCCAACGCCGCCGGTAAATACGCTCACCCGGAAGACGATCAGGACAAACCGCTGGACCCGCATTTCGACGGTTTCGGCCGGGTGCCGGTGGATGCCGAAGGGCGGTTCCGCTTTACCACCATCAAGCCGGGCACCGTGCCGGGGTTGGGCGGTACGACCCAGGCGCCGCATCTCGTTGTACTGGTGTTCGCCCGCGGGTTGGTCAAGCATCTGTTGACGCGCATCTATTTCGCCGACGAACCCGCCAACGAAGCTGATCAACTGCTGGCCTGCGTACCCGAGGAGCGTCGCGACACCATCGTGGCCAGGCCCGATGCGTCGGGTGTTTACCAGTGGAACGTGATTCTCCAGGGCACGGATGCCGAGACAGTGTTCTTCGATTACTGA	MTLNATTSHTVGPYYHIGLTWLNREDLTDAQTLGQRVAITGQVIDGNGQFVNDAMLEVWQANAAGKYAHPEDDQDKPLDPHFDGFGRVPVDAEGRFRFTTIKPGTVPGLGGTTQAPHLVVLVFARGLVKHLLTRIYFADEPANEADQLLACVPEERRDTIVARPDASGVYQWNVILQGTDAETVFFDY	PGPT0005010_750	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005010-pcaG-K00448	NA	NA
D1-35_01710	1296	kgtP_2		Alpha-ketoglutarate permease	ATGACCACCCCAATCAGCCATTACACCGGCGAAGAACGCAGCAAGCGCATCTTCGCCATCGTCGGTGCCTCTTCCGGCAACCTGGTCGAATGGTTCGACTTCTACGTCTATGCGTTCTGCGCGATTTATTTCGCCCCGGCGTTTTTCCCATCGGACAATCCGACGGTGCAACTGGTTAACACGGCGGGGGTATTCGCCGCCGGGTTCCTGATGCGGCCCATTGGCGGCTGGATTTTCGGCCGGGTAGCGGACCGTCACGGGCGCAAGAATTCGATGATGATCTCGGTGATGATGATGTGCTTCGGCTCGTTGCTCATCGCCTGCCTGCCCACCTACAAGGACATCGGCGTCTGGGCGCCGGTGCTGCTGCTGTTCGCTCGCCTGCTGCAAGGCCTGTCGGTGGGTGGCGAGTACGGCACGACCGCGACCTACATGAGCGAAGTCGCCCTCAAGGGGCATCGCGGCTTTTTTGCCTCGTTCCAGTACGTGACGCTGATCGGCGGGCAACTTTTGGCGGTGTCGCTGGTGGTGATCCTGCAGCAGTTTCTCAGCGAAGACGAACTGCGCGCTTACGGTTGGCGAATCCCGTTCGTGGTGGGCGCCGCCGCGGCGTTGATTTCCCTGTTCCTGCGCCGGTCCTTGAAGGAAACCACCAGCAAGGAAATGCGCGAAAACAAAGACGCTGGCAGCATCGCCGCGTTGTTTCGCGACCACAAGGCTGCGTTCATCACCGTGCTGGGCTACACCGCCGGCGGTTCGCTGATTTTCTACACCTTCACCACTTACATGCAGAAGTACCTGGTGAACACCGCCGGCCTGCATGCCAAGACCGCCAGTTACATCATGACCGGCGCGCTGTTTCTCTACATGTGCATGCAACCGCTGTTCGGCATGCTCGCAGACAAGATCGGCCGGCGTAACTCCATGCTCTGGTTCGGCGGCCTGGGGGCGTTGTGCACCGTGCCGATCCTGCTGACGCTCAAGGGCACCAGCAACCCGTTCCTGGCGTTTGTCCTGATCACTTTTGCCTTGGCGATCGTCAGCTTCTACACCTCCATCAGCGGTCTGGTGAAAGCCGAAATGTTTCCACCAGAAGTGCGGGCGCTGGGAGTAGGGTTGGCCTATGCGGTGGCAAACGCGATTTTTGGCGGTTCGGCCGAGTACGTTGCCTTGAGCCTGAAAGCCCAGGGCATGGAAAACGCTTTTTATTGGTATGTCACGGTGATGATGGTCGTTGCGTTCCTGTTCAGCTTGCGCCTGCCAAAACAGCCAGCGTATTTGCACCACGATCTTTAA	MTTPISHYTGEERSKRIFAIVGASSGNLVEWFDFYVYAFCAIYFAPAFFPSDNPTVQLVNTAGVFAAGFLMRPIGGWIFGRVADRHGRKNSMMISVMMMCFGSLLIACLPTYKDIGVWAPVLLLFARLLQGLSVGGEYGTTATYMSEVALKGHRGFFASFQYVTLIGGQLLAVSLVVILQQFLSEDELRAYGWRIPFVVGAAAALISLFLRRSLKETTSKEMRENKDAGSIAALFRDHKAAFITVLGYTAGGSLIFYTFTTYMQKYLVNTAGLHAKTASYIMTGALFLYMCMQPLFGMLADKIGRRNSMLWFGGLGALCTVPILLTLKGTSNPFLAFVLITFALAIVSFYTSISGLVKAEMFPPEVRALGVGLAYAVANAIFGGSAEYVALSLKAQGMENAFYWYVTVMMVVAFLFSLRLPKQPAYLHHDL	PGPT0001525_96	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_KETO-|OXOGLUTARATE_TRANSPORT,PGPT0001525-kgtP-K03761	NA	NA
D1-35_01711	1365	pcaB	COG0015	3-carboxy-cis,cis-muconate cycloisomerase	ATGAGCGAACGACCGGGCAATCAGCTGTTCGATGCCTACTTCACCGCCCGCGACATGCGCGAAGTGTTCTGTGATGCGGGGCGTGTGCAGGCGATGCTCGACTTTGAGGCGGCGCTGGCCCGGGCCGAGGCGCGGGTTGGGCTGATTCCCCAGGAGGCGGTGGCGCCGATCGGGAATGCCTGTCGCGCCCAGCTGTACGACTTTTCAGCGTTGAGCGAAGCGATTGCCAGTGCCGGCAATTCTGCGATCCCTCTGGTCAAGGCGTTGGGCAAGCGCATCGCTGCCGAGAGCGCCGAGGCCGAACGCTACGTGCACTTGGGCGCAACCAGCCAGGACGTGATGGACAGTGGCTTGGTGCTGCAACTGCGCCAGGCGCTCGGACTGATCGAAGGTGAGCTGGCGCAACTGGCTGTCACCCTGGCTCGACAAGCCGAACGTTACGCCGCCGCGCCGCTGGCCGGGCGCACCTGGCTGCAACATGCCACGCCGGTCACCCTGGGGATGAAAATCGCCGGCTGGCTGGGGGCCGTCACGCGCAGTCGCCAGCGCTTGCGGGAACTCAAGCCGCGCCTGTTGGTACTGCAATTTGGAGGCGCCTCCGGGACCCTCGCCGCTTTGGGTGAGCAGGCGCTGCCGGTGGCCGAAGCCTTGGCCGCCGAGCTGCAACTGAACCTGCCGGAGCAGCCTTGGCACACCCAGCGCGATCGTTTGGTGGAGTTCGGCGCGGTGCTGGGCTTGATCGCCGGCAGCCTGGGCAAACTGGGGCGCGACGTCAGCCTGTTGATGCAGACCGAGGCAGGCGAGGCGTTCGAACCTTCGGCACCGGGCAAGGGCGGTTCGTCGACCATGCCCCACAAGCGCAACCCGGTGGGCGCGGCGGTGCTGATCGGCGCTGCGACGCGGGTGCCCGGTTTGTTGTCGACGCTGTTCAGCGCCATGCCTCAGGAACATGAGCGCAGCCTCGGCCTGTGGCACGCCGAATGGGAAACCCTGCCGGACATCTGCTGCCTGGTGTCCGGCGCGCTGCAACAGGCGCGACTGCTGGCCGAAGGGTTGGAAGTGGATACGGCGCGCATGGCCCGTAACCTGGAACTGACCCAAGGGTTGGTGCTGGCCGAAGCCGTCAGCATCGTCCTGGCCCAGCGGGTTGGTCGCGACACCGCGCATCATCTGCTGGAGCAATGCTGCAAGCGCGCGGTGGCCGAACAACGGCATTTGCGCGAGGTGCTGGGGGAAGAACCCCAGGTCACCGCGCAGTTATCCGCGACCGAGCTTGATCATCTGCTCGACCCGGCCCACTACCTCGGACAAGCCCAGGCCTGGGTTGCCCGAGCGGTGGCCGAACACCTTGCCTTGAATGCCTGA	MSERPGNQLFDAYFTARDMREVFCDAGRVQAMLDFEAALARAEARVGLIPQEAVAPIGNACRAQLYDFSALSEAIASAGNSAIPLVKALGKRIAAESAEAERYVHLGATSQDVMDSGLVLQLRQALGLIEGELAQLAVTLARQAERYAAAPLAGRTWLQHATPVTLGMKIAGWLGAVTRSRQRLRELKPRLLVLQFGGASGTLAALGEQALPVAEALAAELQLNLPEQPWHTQRDRLVEFGAVLGLIAGSLGKLGRDVSLLMQTEAGEAFEPSAPGKGGSSTMPHKRNPVGAAVLIGAATRVPGLLSTLFSAMPQEHERSLGLWHAEWETLPDICCLVSGALQQARLLAEGLEVDTARMARNLELTQGLVLAEAVSIVLAQRVGRDTAHHLLEQCCKRAVAEQRHLREVLGEEPQVTAQLSATELDHLLDPAHYLGQAQAWVARAVAEHLALNA	PGPT0005000_370	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005000-pcaB-K01857	NA	NA
D1-35_01712	816	catD_1	COG0596	3-oxoadipate enol-lactonase 2	GTGGGATTGGTCAAACTCGCCGAGGGCGATCTGAGCTATTGTTTTGATGAGCGGCGATTGGACGGGCCGCAGGCCGCCCCGGTGCTGGTGCTCTCCAACTCTTTGGGTACCGATTTGCATATGTGGGACGAGCAGGTCGCGGCGTTCAGTGAACACTTTCGGGTCTTGCGTTTCGACACCCGTGGTCACGGCCGGTCGCTGGTCACCGAGGGCCCCTACAGCATCGAACAGCTGGGCCGCGACGTGCTGGCGATGCTTGATGCGCTGGATATCGACAAGGTGCATTTCTGCGGCCTTTCAATGGGTGGCCTGATCGGCCAGTGGCTGGGAATCAACGCCGGCGAGCGCCTGCACAAACTGGTGGTGTGCAATACCGCCGCGAAGATTGGCGACCCTTCGATGTGGAACCCGCGCATCGAAACCGTGCTGCGTGATGGCAAGGCGGCGATGGTGGCGTTGCGTGATGCGTCGATTGCCCGCTGGTTCACGCCGGATTTCGCCAAGGCCCATCCGGCGACGGCGGAAAAAATTACCGACATGCTGGCGGCGACCTCGCCCCAAGGCTATGCGGCCAACTGCGCCGCAGTACGCGACGCCGATTTTCGTGAGCAGCTATCGCTGATCCGTGTGCCACTGCTGGTGATCGCTGGCACCGAAGATGCCGTGACGCCGCCAGCGGGCGGACGTTTTATCCAAGAGCGGGTCGAGGGTGCCGAATACGCCGAGTTTCATGCCGCGCACTTGTCCAACGTCCAGGCCGGCGCCGCGTTCAGCGCGCGGGTACTGGATTTCCTGCTTGATACTGGCCGCGCCTGA	MGLVKLAEGDLSYCFDERRLDGPQAAPVLVLSNSLGTDLHMWDEQVAAFSEHFRVLRFDTRGHGRSLVTEGPYSIEQLGRDVLAMLDALDIDKVHFCGLSMGGLIGQWLGINAGERLHKLVVCNTAAKIGDPSMWNPRIETVLRDGKAAMVALRDASIARWFTPDFAKAHPATAEKITDMLAATSPQGYAANCAAVRDADFREQLSLIRVPLLVIAGTEDAVTPPAGGRFIQERVEGAEYAEFHAAHLSNVQAGAAFSARVLDFLLDTGRA	PGPT0004995_1014	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0004995-pcaD|catD-K01055	NA	NA
D1-35_01713	393			hypothetical protein	GTGGACGAGAAACAACGTTACGACGAAGGCATGCAAGTACGCCGCGCAGTGCTGGGCGATGCCCACGTCGACCGCAGCCTCAATGCATTGACCGAATTCAACAGCGAATTCCAGGAGATGATCACCCGCCACGCCTGGGGCGACATCTGGACCCGCCCGGGCCTGCCGCGCCATACCCGCAGCCTGATCACCATCGCCATGCTGATCGGCATGAACCGCAACGAAGAACTCAAGCTGCACCTGCGCGCCGCCGCCAACAACGGCGTGAGCCGCAGCGAGATCAAGGAAGTAATCATGCAGAGCGCCATCTACTGCGGCATCCCGGCGGCCAACGCCACCTTCCACCTGGCCGAATCCGTCTGGGATGAACTGGGCATCGAATCACGAACTTGA	MDEKQRYDEGMQVRRAVLGDAHVDRSLNALTEFNSEFQEMITRHAWGDIWTRPGLPRHTRSLITIAMLIGMNRNEELKLHLRAAANNGVSRSEIKEVIMQSAIYCGIPAANATFHLAESVWDELGIESRT	PGPT0005005_2856	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
D1-35_01714	525	nicP_2		Porin-like protein NicP	ATGGGCGACTGGACCCTGGGCGCCAACCTGGGCTACTTCACCGGCAAGGAAGACGGCAGCGCCCTGGCCGGCGATCTCGACAACAAGACCGCGTTCGCCATGCTCTCGGCCAAGTACGGTGGCAACACCTTCTACGTCGGCCTGCAGAAAGTCGGCGGCGATGATGCCTGGATGCGCGTCAACGGCACCAGCGGCGGGACCCTGGCGAACGACAGCTACAACTCCAGCTACGACAACGCCAAGGAAAAATCCTGGCAACTGCGTCATGACTTCAACTTCGCCGCTGTTGGCGTGCCGGGCCTGACCCTGATGAACCGCTACATCAGCGGTGACAACGTGCACACCGCCACCGTCGATGACGGCAAGGAGTGGGGCCGCGAGACTGAGCTGGCTTATACCGTGCAGAGCGGTGCGCTGAAGAGTCTCAACGTGAAGTGGCGCAACTCGACGATGCGCCGGGACTTCAATACCAATGAGTTCGATGAGAACCGGTTGATTGTCAGCTATCCGATCAGCTTGTTGTAA	MGDWTLGANLGYFTGKEDGSALAGDLDNKTAFAMLSAKYGGNTFYVGLQKVGGDDAWMRVNGTSGGTLANDSYNSSYDNAKEKSWQLRHDFNFAAVGVPGLTLMNRYISGDNVHTATVDDGKEWGRETELAYTVQSGALKSLNVKWRNSTMRRDFNTNEFDENRLIVSYPISLL	PGPT0023610_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0023610-galP-K16517	NA	NA
D1-35_01715	1458	ttgC	COG1538	putative efflux pump outer membrane protein TtgC	ATGAGCAAGTCGCTACTCTCCCTGACCATCGCCGCCGTCGTGCTCAGCGGATGCTCGCTGATTCCCGACTATCAGCGGCCCGAAGCACCGGTCGCGGCGCAGTACCCGCAAGGGCCGGCCTACGAGCCGGCCAAAGCACCCGGCCAGGCCGCCGCCGAGCAGGGCTGGAAACAGTTCTTCCACGATCCGGCACTGCAACAGCTGATCCAGGTCGCCCTGGAAAACAACCGCGACCTGCGCGTCGCGGCGCTGAACATCGACGCCTACGCCGCGCAGTACCGCATCCAGCGCGCCGACCTGTTCCCGGCGGTCTCGGCCACCGGCTCCGGCAACCGCCAGCGGGTGCCGGCACGCGCCTCGCAAACCGGTGAAGCGGCAATCAGCAGCTCCTACTCGGCGACGCTGGGGATCAGCGCCTACGAACTGGACCTGTTCGGTCGTGTCCGCAGCCTGAGCGAGCAAGCGTTGCAAAGCTACTTCGCCACCGAAGAAGCCCGCCGCAGCACCCAGATCAGCCTGGTGGCCAACGTCGCCAACGCTTACCTGACCTGGCAGGCCGACAAGGAACTGCTCAAATTGACCCAGGATACCCTCGGCACCTATGAGCAAAGCCTGAAGCTGACCTCGCGCAGCGCCGAAGTCGGCGTGGCCTCGGCCCTGGACTTGAGCCAAGCCCGTACGGCGGTGGAAAACGCCCGCGTGCAACTGGCCCGCTACACCCGCCAGGTGGCCCAGGACGAAAACAGCCTGACCCTGCTGCTGGGCACCGGCCTGCCGGCCAACCTGCAGACACAACCGCTGAGCGCCGACCTGCTCAGCGAAGTGCCACCCGGCTTGCCCTCGGACCTGCTGCAACGGCGCCCGGACATCCTCCAGGCCGAACGCAACCTGCTCGCCGCCAACGCCAATATCGGCGCCGCGCGGGCCGCGTTCTTCCCAAGCATCAGCCTGACGGCCAATGCCGGCACCCTCAGCCCGGACCTGTCCGGCCTGTTCAAGGGCGGCTCGGGCACCTGGACCTTCGCTCCGCAGATCAACCTGCCGATCTTCAACGCCGGCAGCCTGCGGGCAAGCCTGGATTACGCGAAGATCCAGAAAGACATCAACGTCGCGCAGTATGAGCAGTCGATCCAGACCGCGTTCCAGGAAGTCTCCGACGGCCTGGCCGCGCGTCAGACCTACAACGAACAGTTGCAGGCACAGACCGACTTCGTCGCCGCCAACCAGGACTACTACCGCCTGGCCGAGCGTCGCTACCGTATCGGCGTCGACAGCAACCTGACTTTCCTCGACGCCCAGCGCCAGTTGTTCAGCGCGCAGCAATCGCTGATCACCGATCGCCTTGCGCAACTGACCAGCGAGGTCAATTTGTACAAGGCCCTGGGCGGCGGCTGGAATGCCGAGACGGGCAAGCGCGAACCGATCGCGGAGAAAGCGCCGGAGACGAAGTTGTTTTGA	MSKSLLSLTIAAVVLSGCSLIPDYQRPEAPVAAQYPQGPAYEPAKAPGQAAAEQGWKQFFHDPALQQLIQVALENNRDLRVAALNIDAYAAQYRIQRADLFPAVSATGSGNRQRVPARASQTGEAAISSSYSATLGISAYELDLFGRVRSLSEQALQSYFATEEARRSTQISLVANVANAYLTWQADKELLKLTQDTLGTYEQSLKLTSRSAEVGVASALDLSQARTAVENARVQLARYTRQVAQDENSLTLLLGTGLPANLQTQPLSADLLSEVPPGLPSDLLQRRPDILQAERNLLAANANIGAARAAFFPSISLTANAGTLSPDLSGLFKGGSGTWTFAPQINLPIFNAGSLRASLDYAKIQKDINVAQYEQSIQTAFQEVSDGLAARQTYNEQLQAQTDFVAANQDYYRLAERRYRIGVDSNLTFLDAQRQLFSAQQSLITDRLAQLTSEVNLYKALGGGWNAETGKREPIAEKAPETKLF	PGPT0009810_1023	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexXY-OprM,PGPT0009810-toxI|oprM|oprM|emhC|ttgC|cusC|adeK|smeF|mtrE|cmeC|gesC-K18139	NA	NA
D1-35_01716	3165	ttgB	COG0841	putative efflux pump membrane transporter TtgB	ATGTCGAAATTCTTTATCGACCGTCCAATCTTCGCCTGGGTGATTGCCCTGGTGATCATGCTGGTCGGGGCCCTATCGATCCTCAAGTTGCCGATCAACCAGTACCCGAGCATCGCGCCGCCGGCCATTGCGATCCAGGTGACCTACCCGGGTGCATCCGCACAAACCGTGCAGGACACCGTGGTGCAGGTCATCGAGCAACAGCTCAACGGTATCGACAACCTGCGTTATGTGTCGTCGGAAAGTAACTCCGACGGCAGCATGACCATCACCGCAACCTTCGAGCAAGGCACCAACTCCGATACCGCGCAGGTCCAGGTGCAGAACAAGCTGAACCTGGCCACTCCGCTGTTGCCGCAGGAAGTGCAGCAACAAGGCATCCGCGTGACCAAGTCGGTGAGAAACTTCCTGATGGTGATCGGCGTGGTCTCGCGCGATGGCAGCATGACTCGTGAGGACCTGTCCAACTACATCGTGTCGAACATGCAGGACCCGATCTCGCGCACCAAGGGCGTCGGCGACTTCCAGGTCTTCGGTGCCCAGTACGCCATGCGGATCTGGCTCGACCCGGCCAAGTTGAACAAATTCAACCTGACCCCGGTGGATGTGAGCAACGCGGTTTCCGCGCAGAACGTCCAGGTCGCGTCCGGCCAGCTCGGCGGCCTGCCTGCCCTGCCCGGCCAGCAATTGAACGCCACCATCATCGGCAAGACCCGCCTGCAGACCGCCGAGCAGTTCAAGGCGATCCTGCTCAAGGTCAACCCGGACGGCTCGCAAGTGCGCGTCGGCGATGTCGCCGATGTGGCCCTGGGCGGCGAAAACTACAGTATCAACGCTCAGTTCAACGGCTTGCCGGCCTCCGGCCTGGCGGTGCGACTGGCGACCGGTGCCAACGCCCTTGACACGGCCAAGGCCCTGCGCCAGACCGTCGATGATCTCAAACCATTCTTCCCGCAAGGCCTGGAAGTGGTATTCCCGTACGACACCACGCCAGTGGTGAGCGAATCGATCAAGGGCGTGATTGAAACCCTGATCGAAGCGGTCGCGCTGGTGTTCCTGGTAATGTTCCTGTTCCTGCAGAACTTCCGCGCCACCATCATCACCACGATGACGGTGCCGGTGGTACTGCTGGGTACTTTCGGGATCCTCGCCGCGTTCGGTTTCAGCATCAACACCCTGACCATGTTCGGCATGGTGTTGGCCATCGGCTTGCTGGTGGACGATGCCATCGTGGTGGTGGAAAACGTCGAACGGGTGATGAGCGAAGAAGGCCTGTCGCCCAAGGAAGCGACCAAGAAATCCATGGGCCAGATCCAGGGCGCCCTGGTGGGCATCGCCCTGGTGCTGTCGGCGGTACTCCTGCCGATGGCGTTCTTCGGCGGCTCCACCGGCGTGATCTACAAGCAGTTCTCCATCACCATCGTCTCGGCCATGGCCCTGTCGGTGCTGGTGGCCCTGATCTTCACCCCGGCCCTGTGCGCCACCATGCTCAAGCCAATCCCCAAGGGCGAGCACGGCACGCCGAAACGCGGTTTCTTCGGCTGGTTCAACCGCAACTTCGACCGTGGCGTCCGCAGCTACGAGCGTGGCGTGGGCAACATGCTCAAGCACAAGGCTCCGTACCTGTTGGCCTACGTGATCATCTTGGTCGGCATGGTCTGGCTGTTCACCCGCATCCCCACCGCGTTCCTGCCGGAAGAAGACCAGGGCGTGTTGTTCGCCCAGGTGCAGACACCGGCCGGCTCCAGTGCCGAGCGCACCCAGGTGGTCGTGGACAAGATGCGTGAGTTCCTGCTGCGTCCGAGCAAGGACGGCGGTGAAGGGGATGGCGTGGCCTCGGTGTTTACCGTGACCGGCTTCAACTTCGCCGGTCGTGGCCAGAGCTCCGGCATGGCATTCATCATGCTCAAGCCGTGGGAAGAGCGAAACGCCGACAACACCGTATTCAAGATCGCCGGCCGCGCCCAGCAGCACTTCTTCACGTTCCGCGACGCGATGGTGTTTGCCTTTGCTCCGCCCGCGGTGATGGAACTGGGTAACGCCACCGGTTTCGACGTGTTCCTGCAGGACCGCGCCGGCATCGGTCACGAAAAACTGATGGAGGCTCGCAACCAGTTCCTGGGAATGGCTTCGCAGAGCAAGGTCCTGACCCAGGTGCGTCCGAACGGTCTCAACGACGAGCCCCAGTACCAGTTGGACATCGATGACGAGAAGGCCAGTGCCCTGGGCATCACCCTTTCGGACATCAACAATACGCTGTCGATTGCCCTCGGCAGTAACTATGTCAATGACTTCATCGACCGTGGTCGGGTGAAGCGCGTCTACGTTCAAGGCCGACCGGACGCGCGCATGAGCCCGGAGGACCTGAACAAATGGTACGTGCGCAACAGCGCCGGGACCATGGTGCCGTTCAGCGCCTTCGCCAAGGGCGAGTGGACCTACGGATCGCCGAAACTGGCCCGTTACAACGGCGTGGAAGCGATGGAAGTCCTCGGTGCTCCGGCGCCAGGTTACTCCACGGGTGAAGCGATGGCCGAAGTCGAGGCCATTGCGCAGAAGCTGCCGGCGGGTGTCGGCATCTCCTGGACAGGCCTGTCGTACGAGGAACGCCTGTCGGGTTCCCAGGCGCCGGCTCTGTACGCGCTCTCGCTGCTGATGGTATTCCTCTGCCTGGCGGCGCTGTATGAAAGCTGGTCGATTCCGATCGCGGTCATGCTCGTGGTGCCGCTGGGGATCATCGGTGCCCTGCTGGCCACCAGCCTGCGCGGCCTGTCCAACGACGTGTACTTCCAGGTGGGTCTGTTGACGACCATCGGCCTGGCGGCGAAAAACGCCATCCTGATCGTCGAGTTCGCCAAGGAGCTCCATGAACAGGGCCGGACTCTGGTGGAGGCCGCGATCGAAGCCTGCAGGATGCGTCTGCGGCCGATCATCATGACGTCCTTGGCATTCGTCCTCGGCGTGGTCCCGCTGGCCATTTCCACCGGCGCCGGCTCGGGCAGCCAGCACGCCATCGGTACCGGCGTGATTGGCGGTATGCTCACCGCGACCATCCTGGCAATCTTCTGGGTGCCATTGTTCTTCGTGACGGTGTCGTCAATCGGTCGACGTAAAAATATCGACCAGGACCACACTCCTGAAACTTCTAAAGAGGCTGGCCAATGA	MSKFFIDRPIFAWVIALVIMLVGALSILKLPINQYPSIAPPAIAIQVTYPGASAQTVQDTVVQVIEQQLNGIDNLRYVSSESNSDGSMTITATFEQGTNSDTAQVQVQNKLNLATPLLPQEVQQQGIRVTKSVRNFLMVIGVVSRDGSMTREDLSNYIVSNMQDPISRTKGVGDFQVFGAQYAMRIWLDPAKLNKFNLTPVDVSNAVSAQNVQVASGQLGGLPALPGQQLNATIIGKTRLQTAEQFKAILLKVNPDGSQVRVGDVADVALGGENYSINAQFNGLPASGLAVRLATGANALDTAKALRQTVDDLKPFFPQGLEVVFPYDTTPVVSESIKGVIETLIEAVALVFLVMFLFLQNFRATIITTMTVPVVLLGTFGILAAFGFSINTLTMFGMVLAIGLLVDDAIVVVENVERVMSEEGLSPKEATKKSMGQIQGALVGIALVLSAVLLPMAFFGGSTGVIYKQFSITIVSAMALSVLVALIFTPALCATMLKPIPKGEHGTPKRGFFGWFNRNFDRGVRSYERGVGNMLKHKAPYLLAYVIILVGMVWLFTRIPTAFLPEEDQGVLFAQVQTPAGSSAERTQVVVDKMREFLLRPSKDGGEGDGVASVFTVTGFNFAGRGQSSGMAFIMLKPWEERNADNTVFKIAGRAQQHFFTFRDAMVFAFAPPAVMELGNATGFDVFLQDRAGIGHEKLMEARNQFLGMASQSKVLTQVRPNGLNDEPQYQLDIDDEKASALGITLSDINNTLSIALGSNYVNDFIDRGRVKRVYVQGRPDARMSPEDLNKWYVRNSAGTMVPFSAFAKGEWTYGSPKLARYNGVEAMEVLGAPAPGYSTGEAMAEVEAIAQKLPAGVGISWTGLSYEERLSGSQAPALYALSLLMVFLCLAALYESWSIPIAVMLVVPLGIIGALLATSLRGLSNDVYFQVGLLTTIGLAAKNAILIVEFAKELHEQGRTLVEAAIEACRMRLRPIIMTSLAFVLGVVPLAISTGAGSGSQHAIGTGVIGGMLTATILAIFWVPLFFVTVSSIGRRKNIDQDHTPETSKEAGQ	PGPT0003280_802	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003280-acrB|acrE|mexB|adeJ|smeE|mtrD|cmeB-K18138	NA	NA
D1-35_01717	1158	ttgA		putative efflux pump periplasmic linker TtgA	ATGCAATTCAAGCCAGCTGTTACCGCTCTGGTCACTGCCATCGCCCTGGCATCGCTGCTCAGCGGATGCAACAAGGAAGAGGCTGCCCCTGCCCCTCCCCCTCCTCAGGTCGGCGTCGTAACCCTCAAGACTCAGCCTTTTACCCTGACCTCCGAATTGCCGGGCCGCACCAGTGCGTTCCGCGTCGCCGAAGTGCGTCCGCAGGTCAACGGCATCATCCTCAAGCGCCTGTTCAAGGAAGGCGCCGACGTCAAGGCCGGCCAGCAGCTGTACCAGATCGACCCGGCCGTCTATGAAGCGAACCTCAAGAGCGCCGAGGCCAACCTGCGATCCACCAAGTCGATCGCCGATCGCTACAAGCAATTGGTCGACGAGCAGGCCGTCAGCCGCCAGGAGTACGACACCGCCGTGGCCAACCGCCTGGAGTCGGAAGCGAACCTGCAGACGGCCCAGATCAACGTGCGCTACACCAAAGTCTACGCGCCGATTTCCGGTCGCATCGGGCGCTCCTCGGTCACCGAGGGTGCGCTGGTGAGCAATGGCCAGACCGACGCCCTGGCGACCATCCAGCAACTCGATCCGATCTACGTCGACGTGACGCAGAGTTCCGTCGAGCTGCTGAACCTGCGCCGTGAGCTGGAAAGCGGTCGCTTGCAGAAGGCTGGCGATAATGCCGCCATGGTCAAGCTGACGCTGGAAGACGGCAGCCAGTATCCCCATGAAGGCAAGCTGGAGTTCTCTGAAGTCTCGGTCGACCCGACCACTGGTTCCGTGACCTTGCGCGCCGTGTTCCCCAACCCTGAGCACACGCTGCTGCCGGGCATGTTTGTCCACGCGCAGCTGCAGGCCGGCGTGAACAGCGCCGCAATCCTGGCGCCGCAGCAAGGCGTGACCCGCGACCTCAAGGGTACGCCGACTGCGCTGGTCGTGGGCGCGGACAACAAGGTCGAGCTGCGTCAGCTCAAGGCCAGCCGTACCGTCGGCAGCCAGTGGCTGATCGAAGACGGCCTCAAGGCCGGTGATCGCCTGATCACCGAAGGGTTGCAGTACGTACGGCCAGGGGTGGAAGTCAAAGCCACCGAAGCCACCAACGTCGACGCAAAGAACCCGGCCCCCGCTCAGGCAGCTGACAAAGCCGCCGGCGGCAAAGGGGAGTAA	MQFKPAVTALVTAIALASLLSGCNKEEAAPAPPPPQVGVVTLKTQPFTLTSELPGRTSAFRVAEVRPQVNGIILKRLFKEGADVKAGQQLYQIDPAVYEANLKSAEANLRSTKSIADRYKQLVDEQAVSRQEYDTAVANRLESEANLQTAQINVRYTKVYAPISGRIGRSSVTEGALVSNGQTDALATIQQLDPIYVDVTQSSVELLNLRRELESGRLQKAGDNAAMVKLTLEDGSQYPHEGKLEFSEVSVDPTTGSVTLRAVFPNPEHTLLPGMFVHAQLQAGVNSAAILAPQQGVTRDLKGTPTALVVGADNKVELRQLKASRTVGSQWLIEDGLKAGDRLITEGLQYVRPGVEVKATEATNVDAKNPAPAQAADKAAGGKGE	PGPT0003275_2969	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003275-acrA|lir|mtcA|mexA|adeI|smeD|mtrC|cmeA-K03585	NA	NA
D1-35_01719	633	ttgR		HTH-type transcriptional regulator TtgR	ATGGTACGTCGTACCAAAGAAGAAGCCCTGGAGACTCGCAGCCAGATCCTTGAAGCGGCCGAAAAGGCCTTCTTCGAGCGCGGCGTGGCGCGAACGACGCTGGCCGACATCGCGACGCTGGCCGGTGTGACGCGTGGTGCGATCTACTGGCATTTCAGCAACAAGGCGGATTTGCTCCAGGCCATGCTCGATACCTTGCATGAGCCGCTCGATGAGTTGGCCCGCGCCAGCGAAAGCGAGGAGGAACTCGACCCGCTGGGGTGCGTGCGCAAGCTGCTGGTGAGGTTGTTCCAGCAGGTGGCCCTGGACCCGAAAACCCGCCGCATTAATGAGATTCTGTTCCATAAGTGCGAATTCACCGATGAAATGTGCGACTTGCGCCAGCAGCGGCGCGAGGTCAGCCTCGACTGTAACGTGCGAATCGCGCTGTCCCTGCGCAATGCAATGAAACGCGGTCAGATGCCGGATGACCTGGATCCCGAGAGAGCTGCGGTGGCTATCCATGCCTATATCGACGGGATCCTGTATCAGTGGCTGCTGGCGCCGGACAGCTTCGCCCTGGCCGGTGAGGCCGAGCGCTGGGTGGATATCGGGTTGGACATGCTGCGCCTGAGCCCTAACCTGCGCAAATGA	MVRRTKEEALETRSQILEAAEKAFFERGVARTTLADIATLAGVTRGAIYWHFSNKADLLQAMLDTLHEPLDELARASESEEELDPLGCVRKLLVRLFQQVALDPKTRRINEILFHKCEFTDEMCDLRQQRREVSLDCNVRIALSLRNAMKRGQMPDDLDPERAAVAIHAYIDGILYQWLLAPDSFALAGEAERWVDIGLDMLRLSPNLRK	PGPT0003255_578	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003255-acrR|smeT-K03577	NA	NA
D1-35_01720	525			hypothetical protein	ATGAATAACTTTCCAGAAAACCCAGCAGATACAAAACCAAACGATTCCGCTGAAGAAAAAGCGTACCACGAACACTACGACAGGCAGATCCAGGCGTTGGAATCTGCCAAGGCGCCCGCCCACTCAACACGATTCATCATGAAAGTCGTCAACAATACCGAGCACGACCTTGATGCCAATAAAAACACGCTTGGCCTGAGCGCCGACAACCTCGCCACCTTGCAACTTCCCTCGGGAGGTATCAGCGTCTATGGTCAAGACTTCCGCTACGTTCGAAACCCAGGCTCTCGCAGCAAGGACATATACCACCACTGTATTCAATTCGGCGGAATGACGGTGGGAGCTTTCGTTGAGTTTGGTTTGCGCGTTGACACTTCGTTCGGGCTTTTCGCGCCGACAGTGACGCCAGTTCGGATATGTAAAATCATGTCTATCGGCACCACCCCAATCAACTGTACTGCCCGTATTACTCGTGCATTAAGCACAGACCCTTATAGCTTTACCATGGAGGTGACGCTGGGCTGA	MNNFPENPADTKPNDSAEEKAYHEHYDRQIQALESAKAPAHSTRFIMKVVNNTEHDLDANKNTLGLSADNLATLQLPSGGISVYGQDFRYVRNPGSRSKDIYHHCIQFGGMTVGAFVEFGLRVDTSFGLFAPTVTPVRICKIMSIGTTPINCTARITRALSTDPYSFTMEVTLG				NA	NA	NA	NA	NA
D1-35_01721	1050	nemA_1	COG1902	N-ethylmaleimide reductase	ATGGCGACAATTTTCGACCCCATCAAACTCGGTGACATCGAGCTGAAAAACCGCATCATCATGGCCCCGCTCACCCGCTGCCGCGCTGACGCAGGCCGAGTCCCCAACGCGCTGATGGCCGAGTATTACGTGCAACGCGCCTCCGCCGGGCTGATCCTCAGCGAAGCCACTTCGGTGACGCCGATGGGCGTGGGCTACCCCGATACCCCAGGCATCTGGTCCAACGACCAGGTACGCGGCTGGGCCAACGTGACCAAAGCCATCCACGGCGCCGGCGGCAAGATTTTCCTGCAGCTCTGGCACGTCGGCCGGATTTCCCACCCGTCCTACCTGGACGGTGAGCTTCCGGTGGCTCCGAGCGCCATCCAGCCCAAGGGGCATGTGAGCCTGGTACGTCCGCTGGCCGACTACCCGACGCCGCGCGCATTGGAAACCGCGGAAATCGCCGACATCGTCGATGCCTACCGCGTGGGTGCCGAAAACGCCAAGGCCGCCGGGTTTGATGGCGTGGAAATTCATGGCGCCAACGGCTACCTGCTCGACCAGTTCCTGCAAAGCAGCACCAACCAGCGCACCGACAACTACGGCGGCTCCCTGGAAAACCGTGCTCGCCTGCTGCTGGAAGTGACTGATGCGGCGATCGAAGTCTGGGGCCCCGGCCGCGTGGGCGTCCACCTGGCGCCGCGCGCCGACTCCCATGACATGGGCGACGAAAACCGCCTGGAAACCTTCAGCTATGTGGCCCGCGAACTGGGCAAGCGTGGCATCGCCTTCATCTGCTCGCGCGAGAAAGAAGGCGCGGACAGCATCGGCCCGCAACTGAAGCAAGCGTTCGGCGGCCCGTACATTGCCAATGAGCGCTTCACCAAAGAGAGTGCCAATGCCTGGCTGGCGGAAGGCAAGGCTGACGCCGTGGCGTTCGGCGTGCCGTTCATTGCCAACCCGGACCTGCCGGCACGCTTGAAAGCCGATGCACCGCTGAACGAACCTCACCCGGAAACCTTCTATGGCAAAGGACCGGTGGGGTATATCGACTATCCAGTCATGTAA	MATIFDPIKLGDIELKNRIIMAPLTRCRADAGRVPNALMAEYYVQRASAGLILSEATSVTPMGVGYPDTPGIWSNDQVRGWANVTKAIHGAGGKIFLQLWHVGRISHPSYLDGELPVAPSAIQPKGHVSLVRPLADYPTPRALETAEIADIVDAYRVGAENAKAAGFDGVEIHGANGYLLDQFLQSSTNQRTDNYGGSLENRARLLLEVTDAAIEVWGPGRVGVHLAPRADSHDMGDENRLETFSYVARELGKRGIAFICSREKEGADSIGPQLKQAFGGPYIANERFTKESANAWLAEGKADAVAFGVPFIANPDLPARLKADAPLNEPHPETFYGKGPVGYIDYPVM	PGPT0005930_2955	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_TOLULENE|DERIVATE_DEGRADATION	XENOBIOTIC_NITROTOLULENE_DEGRADATION,PGPT0005930-nemA-K10680	NA	NA
D1-35_01722	1167	ydhP_1	COG2814	Inner membrane transport protein YdhP	ATGCCCCTTTCACTCTTGATTCTGGCGCTCAGCGCCTTCGCCATCGGCACGACGGAATTCGTCATCATGGGCCTGTTGCCCGATGTGGCGGCGGACCTCGGCGTATCGATTCCCGGCGCCGGCTGGCTGGTGACCGGCTATGCGCTGGGCGTGGCCATCGGTGCGCCGTTCATGGCAATGGCCACCGCGCGGCTGCCGCGCAAGGCTGCGCTGGTGGCGCTGATGGGGATTTTCATAGTCGGCAACCTGCTCTGCGCCGTCGCCAGCGACTACAACGTACTGATGTTCGCCCGGGTCGTTACTGCCCTGTGTCACGGTGCGTTCTTCGGCATCGGCTCGGTGGTGGCGGCCGGCCTGGTGGCGCCGAACAAGCGCGCTTCGGCCGTGGCCCTGATGTTCACTGGCCTGACCCTGGCCAACGTGCTCGGCGTACCGCTGGGCACCGCACTGGGCCAGCAGGCCGGCTGGCGCTCGACTTTCTGGGCCGTGACGGTCATCGGTGTGATCGCGCTGATCGGCCTGATCCGCTTCCTGCCGGCCAAGCGCGACGAGGAAAAACTCGACATGCGTGCCGAGCTGGTGGCGCTCAAGGGCGCAGGCCTGTGGCTGTCGCTGAGCATGACTGCGTTGTTCTCCGCCTCGGTGTTCACGCTGTTTACCTACGTCGCCCCCCTGCTCGGCGAAGTCACCGGCGTTTCGCCCCGTGGCGTGACCTGGACCCTGGTCCTGATCGGCCTCGGCCTGACGCTTGGCAACATCATCGGCGGCAAGCTGGCGGACAAGAGCCTGGCGAACACGCTGATGGGCGTCTTTTTGACCATGGCGCTGGTATCCACCGTACTGAGCTGGACCAGCGTGGCGCTGATCCCGACTGAAATCACCCTGTTCCTCTGGGCCACCGCCTGCTTTGCCGCCGTGCCGGCCTTGCAAGTCAACGTGGTGACCTTCGGCAAAGCCGCGCCAAACCTGGTGTCCACCCTGAACATCGGTGCCTTCAACATCGGCAATGCCTTGGGTGCCTGGGTCGGCGGCAGTGTCATCGACCATGGCCTGGGCCTGACAGCCGTGCCCCTGGCCGCCGGCGCGCTGGCCGTGCTGGCGCTGCTGGTAACCCTGATCACTTTTCGCCAGGGCGGCAATGCCGACCTGGCCCCTGCCACTCACTGA	MPLSLLILALSAFAIGTTEFVIMGLLPDVAADLGVSIPGAGWLVTGYALGVAIGAPFMAMATARLPRKAALVALMGIFIVGNLLCAVASDYNVLMFARVVTALCHGAFFGIGSVVAAGLVAPNKRASAVALMFTGLTLANVLGVPLGTALGQQAGWRSTFWAVTVIGVIALIGLIRFLPAKRDEEKLDMRAELVALKGAGLWLSLSMTALFSASVFTLFTYVAPLLGEVTGVSPRGVTWTLVLIGLGLTLGNIIGGKLADKSLANTLMGVFLTMALVSTVLSWTSVALIPTEITLFLWATACFAAVPALQVNVVTFGKAAPNLVSTLNIGAFNIGNALGAWVGGSVIDHGLGLTAVPLAAGALAVLALLVTLITFRQGGNADLAPATH	PGPT0028991_3757	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
D1-35_01723	303			hypothetical protein	ATGACCCTCGACCTCGACGAAATAATAAAAGCCCTGGCGCACCCAGTACGGCGAGACATCCTCAACTGGCTCAAGGACCCCAAAGTCCAGTTCCCCGAACAGTTGCACAACCATGAATTCGGTATTTGCGCCGGCCAGATCGATCAGCGCTGCGGCCTTTCGCAGTCCACGGTTTCGGCGCATCTGGCGGTGCTGCAGCGGGCGGGGTTGATCACCAGCCAGAAGGTCGGTCAATGGCACTTCTTCAAACGCAACGAGGACGTGATCCAGCAATTCCTCAAGCAAATGAGCCAAGAGCTCTGA	MTLDLDEIIKALAHPVRRDILNWLKDPKVQFPEQLHNHEFGICAGQIDQRCGLSQSTVSAHLAVLQRAGLITSQKVGQWHFFKRNEDVIQQFLKQMSQEL	PGPT0004735_436	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
D1-35_01724	585	acpH	COG3124	Acyl carrier protein phosphodiesterase	ATGAACTATCTCGCACACCTGCACCTCGGCGGCCCTGGCCGGGAACAACTGCTCGGCAGCCTCTACGGCGATTTCGTCAAAGGGCCGCTGCAGGGGCAGTTCACTCCGCAGATCGAAGCGGCGATCGCCCTGCATCGACGCATCGACATGTACACCGATCGCCATCCGTTGGTGGATATCGCCTTGTCGCGCTTCTCCACGGTCCGCCGGCGTTATGCCGGGATCGTGCTGGATGTGTTTTTCGACCATTGCCTGGCCCGCGACTGGGCGCAGTACGGCGAAGGGCCGCTGCTGGATTTCACTTCCCGGGTCTACCAGGTGCTCGCCGCCGAAGCGCAACTGCCCGGGCGCCTGGCGCAGATCGCGCCGTTCATGGCAGCGGATGACTGGTTGGGTTCCTATAGGGAATTCGACGTGCTCGGGCAGGTGCTGCGCGGTATTTCCCGGCGCCTGTCGCGGCCCGAGGAACTGGCCGGGGCGATGGAGGAGTTGGTCAGGCTGTATGAGCCGTTGAGCGAGGATTTTCGGTTGTTCTATCCACAGTTGCAGGATTTTGCGCAGAATCAGATCACACCGCAAAATTGA	MNYLAHLHLGGPGREQLLGSLYGDFVKGPLQGQFTPQIEAAIALHRRIDMYTDRHPLVDIALSRFSTVRRRYAGIVLDVFFDHCLARDWAQYGEGPLLDFTSRVYQVLAAEAQLPGRLAQIAPFMAADDWLGSYREFDVLGQVLRGISRRLSRPEELAGAMEELVRLYEPLSEDFRLFYPQLQDFAQNQITPQN	PGPT0008850_556	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008850-acpH-K08682	NA	NA
D1-35_01725	795			hypothetical protein	ATGAGCCGGCTGCGGGTGTACGCGCGAATCGCGCGCGTGTTGCTGGTCGTCGCGCTGGGCCTGGCCATGGCCAGTGTGTTCGGGCTGCTGGAACGCCTGGGGCTGGCCCATTCGATGGTGCGCCGCCAGCGCTGGTCGAGGTTTTTCATGGCGCGACTGAGCAATGCCCTGCCCTTTCGCGTCACCGTTCATGGACACCTGCCAAAACAGCCGATGCTGTGGGTCAGCAACCATGTGTCCTGGACTGACATTCCGCTGCTGGGCATGCTCACGCCGCTGTCATTCCTGTCCAAGGCCGAAGTGCGCACCTGGCCGGTGGCTGGATGGCTGGCGGCCAAGGCCGGCAGCCTGTTCATCCGGCGCGGCTCGGGCGACAGCCAATTGATTCGTAAACAGATGAGCCGCCATCTGGAGCAAGCGCATCCGCTGCTCATGTTCCCTGAGGGCACGACCACCGACGGACGTTCGCTGCGCACGTTCCATGGTCGCCTGCTGTCGGCGGCCATCGATGCCGACGTGGCCTTGCAACCGGTGGCGATCCGTTACCTGCGTAACGGCAAACCCGACTTGCTGGCTCCCTTCATTGGCGATGATGACCTGCTGTCGCACCTGATGCGCCTGTTTGCCAATGACCTGGGCGACGTGGAAATCCACTTGCTGAAGCCCATCGCCTGCCACGGCCAGGAACGCGCGGCCCTGGCGTTCCAGGCGCAACAGGCGGTGCACAAGGCGCTGTTCGGAACGATTCCAGAGAAACAGCAAGCGCCGGTACGGCCTGCGGCGATTGCGGCTTGA	MSRLRVYARIARVLLVVALGLAMASVFGLLERLGLAHSMVRRQRWSRFFMARLSNALPFRVTVHGHLPKQPMLWVSNHVSWTDIPLLGMLTPLSFLSKAEVRTWPVAGWLAAKAGSLFIRRGSGDSQLIRKQMSRHLEQAHPLLMFPEGTTTDGRSLRTFHGRLLSAAIDADVALQPVAIRYLRNGKPDLLAPFIGDDDLLSHLMRLFANDLGDVEIHLLKPIACHGQERAALAFQAQQAVHKALFGTIPEKQQAPVRPAAIAA	PGPT0014465_479	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULE-ORNITHINE_LIPIDS_BIOSYNTHESIS,PGPT0014465-olsA-K22617	NA	NA
D1-35_01726	756			hypothetical protein	ATGACTCAGATCGCCCGCATCAGCGACACCGGCAATGAACGCCGCCTGCAAGCCGAACGCCTGATTGGCGCCAAGGCCTTGCACGAAGCACAGGCCCTGCGCTTCAACGTCTTCAGCGGCGAATTCAACGCCAAGCTCAAGGGCGCGGAACTGGGTCTGGACATGGATGACTATGATGTTCACTGCGCCCACATCGGCGTACGCGACCTGAACACCGGCCGCCTCGTGGCCACCACCCGCCTGCTCGACCACCAGGCCGCCAGCAGCCTGGGCCGGTTCTACAGCGAAGAAGAATTCAGCCTGCACGGGCTGGTCCATCTCCAGGGTCCGATCCTGGAAATCGGCCGCACCTGCGTCGACCCGGCCTACCGCAACGGCGGCACCATCGCGGTGCTCTGGGGCGAACTGGCCGAAGTCCTCAATGAAGGCGGCTACAGCTACCTGATGGGTTGCGCGAGCATTCCGATGCAAGACGGCGGCATCCAGGCCCAGGCAATCATGCAACGCCTGCGCGAACGCTACCTGTGCACCGAACACCTGCAAGCCGTGCCGAAAAAACCCTTGCCGGCACTGGACGTTCCGTCCAACGTCATCGCCGAGATGCCACCGCTGCTCAAGGCGTATATGCGCCTGGGCGCGAAGATTTGCGGCGAGCCGTGCTGGGACGAGGATTTCCAGGTCGCCGACGTGTTCATCCTGCTCAAGCGCGACGAACTCTGCCCGCGTTATGCCCGTCACTTCAAGGCGGCGGTGTGA	MTQIARISDTGNERRLQAERLIGAKALHEAQALRFNVFSGEFNAKLKGAELGLDMDDYDVHCAHIGVRDLNTGRLVATTRLLDHQAASSLGRFYSEEEFSLHGLVHLQGPILEIGRTCVDPAYRNGGTIAVLWGELAEVLNEGGYSYLMGCASIPMQDGGIQAQAIMQRLRERYLCTEHLQAVPKKPLPALDVPSNVIAEMPPLLKAYMRLGAKICGEPCWDEDFQVADVFILLKRDELCPRYARHFKAAV				NA	NA	NA	NA	NA
D1-35_01727	873			hypothetical protein	ATGCCTTGGCAAACCCTGATCGAACGCGGCGAGCGGTTGCCTGCCTTTGTGGATCTGGCGGAAGGTTACGCGGGCTTGTTGCAACGGCTGGGGCCGGTCACGCCATTCGAGCTGGCCGTGGCCGGCGCCAAGTTGATGGCCACGCCGGGGCTCGCGTTCCTGGTGGGCTACCAGGCGGCCCTGCGGGCGCTCTGGCCAAGCGCGCCGCAGAGCCTCGGCGCCTTGTGCGCCACCGAGCAGCGCAGCCTGCGCCCGGCGGATATGCAGACCCGTCTCAGCGACTTGCGGGTGAATGGACGCAAGGATTTCGTCACCGCGGGCGATGCCGCCGAATGGCTGCTGATCGCGGCCCGAAGCGAAGCGGCCGGCGAAGCACCGCGGCTGAAGCTGGCGGTGGTCTATGGCGGAGAACCCGGTGTAAACCTGGAAAAACTCCCCGCCATCCCCTTGATGCCGGACATCGGCCATGCTCGGGTATTGCTCGATGGCGCGTTGTGCGAAGTGCTGCCAGGGGACGGCTGGGATGCCTACGTCAAACCGTTCCGTACCCTGGAAGACCTTTATGTGCTCAGTGCAATGGCTGCCTGGCTCTATGGTGTGGGCCAGGAGTGTGATTGGCCGCAGGCCTTGCAACTGCGCCTGTTGGCTCTGCTGGCGGGGTGCGCGGAGGTAAGTCGGCAAAATCCGTCCAGTGCGGCCGGGCATGTGCTGCTGGGTGGGCTGTTCGCGCAGTTCAAGGGGCTTGATGTTGAATTGAACGAGGCACTGGCTGCTGGGCCGGCGTCGTGGCGAGAAATGTGGGGGCGCGACAAAGGAGTCATGGATATCGCGGCGGGCGCGCGGGCCAAGCGGTTGGCCAAGGCGTTGGGCTAG	MPWQTLIERGERLPAFVDLAEGYAGLLQRLGPVTPFELAVAGAKLMATPGLAFLVGYQAALRALWPSAPQSLGALCATEQRSLRPADMQTRLSDLRVNGRKDFVTAGDAAEWLLIAARSEAAGEAPRLKLAVVYGGEPGVNLEKLPAIPLMPDIGHARVLLDGALCEVLPGDGWDAYVKPFRTLEDLYVLSAMAAWLYGVGQECDWPQALQLRLLALLAGCAEVSRQNPSSAAGHVLLGGLFAQFKGLDVELNEALAAGPASWREMWGRDKGVMDIAAGARAKRLAKALG	PGPT0008385_9327	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
D1-35_01728	1095			hypothetical protein	ATGCCCAGACGCTGGCTGTTGCTTCCGCTGTTGCTGTTGACCCTCACAGCCGGCGCTGAAGACTGGCCCTCAGAACAATGGCCAACCGGCCCGACGCCCACCGGGCCGGCCCTTGAAGCGCTGGAGCAATACGCCTTTACCCAAAGGGATGACAGCACCCGCGAGGGCATCCGCACCGACGCGCTCCTGATCATCCAGGACGGCCGACTGGTCTATGAACGCTACGCCGGACCCACGACCGCCCAGACTCCGCACCTGACCTGGTCCATCAGTAAAAGCCTGCTGGCGACAATCTTCGGCGTGGCCTACGGCGAAAGGCTGTTCGCCCTGGATGATCCCGCTGCCAAGTACTACCCGCCGCTGCAGCGGCACCCGGACATGACCCTGGCCGATCTGTTTCATTGGACTTCCGGCCTGGACTGGCAGGAAGACTACGAATACGCGCCACTCAATTCCTCGGTGGTGGCGATGCTCTACACGCGGGGGCGCCACGACATGGCGGCGTTCACTGCCGCGCACGCAAGCTTCGGCCCGCCCGGGCAAGTGTTCCGTTACTCCAGTGGCGACAGCAACCTGCTGGCGGCGGCGCTGAAAACCATCGTCGGCCCGGCGCGCTATGCCGATTACCCCTGGACGGCCCTGTTCGAACCGCTGGGCATCCGCCACGCGACCTGGGAAACCGACGCCAGCGGCACGTTTGTCGGGTCGTCCTATACCTACCTGACGGCGCAGGACCTGGCGCGTGTCGGCTTGTTGATGCAGCGCGATGGCCGCTGGGGCGACCGACAATTGGTGTCCAAAGACTGGATAGCATTCAATCGCGAGCCTTTCGCCGGATTCCAGGCGGGCCAGGATGAAGCCGTGCCTGGCGGGCATTGGTGGCTCAATCGCGGTGCCGACTCCACCCTCCGCCCATGGCCTGACGCACCGCCGGATACGTTCGCCGCGCTCGGTCACTGGGGCCAGGCGCTGTATATCATTCCCAGCGCCAGGCTGGTGATTGTGCGCTACGGCGATGACCGCGACGGCAGCTACCGCCACAACGAATTGCTCAAGCGCGCCATGGCGGCCTTCGCCGGGGCGGTGCGACCATGA	MPRRWLLLPLLLLTLTAGAEDWPSEQWPTGPTPTGPALEALEQYAFTQRDDSTREGIRTDALLIIQDGRLVYERYAGPTTAQTPHLTWSISKSLLATIFGVAYGERLFALDDPAAKYYPPLQRHPDMTLADLFHWTSGLDWQEDYEYAPLNSSVVAMLYTRGRHDMAAFTAAHASFGPPGQVFRYSSGDSNLLAAALKTIVGPARYADYPWTALFEPLGIRHATWETDASGTFVGSSYTYLTAQDLARVGLLMQRDGRWGDRQLVSKDWIAFNREPFAGFQAGQDEAVPGGHWWLNRGADSTLRPWPDAPPDTFAALGHWGQALYIIPSARLVIVRYGDDRDGSYRHNELLKRAMAAFAGAVRP				NA	NA	NA	NA	NA
D1-35_01729	309			hypothetical protein	ATGAGACGCAACGTGTTGCTCAGCCTGGCGTCGGTGCTGCTCATTGCCCTGTTCGGTTGGGTCTGGTTGGAGCGGGTAGCCCTGCAGGCCTTCCCCGACATCATCAGCGCGTACACCGCCAAGGAGTATTGCTCGTGCCGCTATGTGATGCGGCAGCCAGCCGAGTATTGCCGCGGGTATGTGAAGCAGTCGGTTCCCGTCAGTGATTTTTTCGAGAGTGTTGAAGCCAGACGCGTCACGGTCAGCGGGTTGGGGCGTAGCCACAGTGCGCGCTGGATCGGCGAGCGGCAGGGGTGTCGGTTGGAGTAA	MRRNVLLSLASVLLIALFGWVWLERVALQAFPDIISAYTAKEYCSCRYVMRQPAEYCRGYVKQSVPVSDFFESVEARRVTVSGLGRSHSARWIGERQGCRLE				NA	NA	NA	NA	NA
D1-35_01730	591			hypothetical protein	ATGTTCAAGCGGTTTCTCCCCCACGCTGTCATCACGTTGCTGCTGGCCTGCGCCGCGTTGCCGGCCCAGGCCGACTGGTACCTGGACGGCGAATCGTCGCGGCTTTCGTTTATCAGCAGCAAAAACGGCAATGTGTCCGAGGTCCAGCGCTTTCTCGTGCTTCATGGCCAGGTCCAGCCCAAGGGCCTGGCGCGGCTGGAGGTCGAGCTGGAGTCCATCAACAGCGGCGTCCCGCTGCGGGACGAACGCATGCGCGCCGAGCTGTTCGAGATCAAGCAGTTTGCCGAAGCCACTATCACCGCGCAGCTTGACCTGATGCCGATCCAGGACCTGGCCAACGGCGCACAGTTGGAGTTGCGCCTGCCGGTAACGGTGGACCTGCATGGCAAGCAGCACGAATACAACGCCCAACTGCTGGCGACGCGCCTGGATGAGCGACGTTTCCAGGTCGTGACCCTGGAGCCGGTGGTGCTCAACGCGGCGGATTTCGGCCTGACGCCGGGCCTGGAAAAGCTGCGCGCACTGGCCGGATTGTCGACCATCAGCCTGTCGGTGCCGGTGAATGCGGTGCTGATTTTCACGGCGCGCTGA	MFKRFLPHAVITLLLACAALPAQADWYLDGESSRLSFISSKNGNVSEVQRFLVLHGQVQPKGLARLEVELESINSGVPLRDERMRAELFEIKQFAEATITAQLDLMPIQDLANGAQLELRLPVTVDLHGKQHEYNAQLLATRLDERRFQVVTLEPVVLNAADFGLTPGLEKLRALAGLSTISLSVPVNAVLIFTAR				NA	NA	NA	NA	NA
D1-35_01731	1158	clsA_1	COG1502	Major cardiolipin synthase ClsA	ATGAGCGGTCCGGTATTTCCCTGGCGCGAAGGCAATCGCTTCGAGTTGTTGATCGACGGTCCGCAGTTCTTTCCGCGCATGCTGGTGGAAATCGCCCGCGCCCAGGAGCAGGTGGAACTGGAGCTGTATCTGGTGGAGGCGGGCGCTTGCGCCGAGGCGATGGTCCAGGCGCTCGTCCAGGCCGCCGAGCGGGGTGTTCGCGTGCGCTGCCTGTTCGACGACTACGGCAGCCTGGCGTTTACCCTGGGCCTGCGCAATCGCCTGGTCGAGGCAGGTGTGGAGCTGCGGTTCTACAATCGCCTGAGCTGGCGTCGCTGGGTGCGCAATCTTTACCGCGACCATCGCAAGCTGCTGCTGGTCGATCAGCGCCTGGCGGTGGTCGGCGGCACCGGGGTCACCGACGAATTCTGGAACCCTTTGGAAGACCAAAGCGACTGGCACGAGGTGATGGTGGAAATCGTCGGCCCGCTGGTGCTCGACTGGCAGCTTCTGTTCGACCGCCAGTGGCTCGCCAACCGCCATCGTCGGGCCTGGAAACCGGCTTCCAATTTCGGCTTGCCGCGCTTGCCCCGTGTTCCGCCGGTAGGCGAGGGCATGGGCCGGGTGGCCTATGCCGACGCCCGCCAGCACCGCGACATCCTGCAATCACTGTCCCGGGCGTTAAACAGCGGTCAGAAACGTATCTGGATGGCCACGCCGTATTTCCTGCCGACCTGGAACGTGCGCCGCTCCTTGCGCAAGGCCGCCGCCCGGGGCGTCGATGTGCGCCTGCTGCTGACCGGCCCGCGCACCGATCACCCCTCCGTGCGCTACGCCGGCCATCGTTATTACCCGCGCCTGCTCAAGGCCGGTGTGAAGATCTATGAATACCAGCCATGTTTCCTGCATTTGAAAATGGTTCTGGTGGACGATTGGGTCAGCATCGGCTCGTGCAATTTCGATCACTGGAACCTGCGCTTCAACCTGGAGGCCAATCTGGAAGCATTGGACTCAGGACTGAGCAAGGCCGTGGCGATCAGTTTTGAGCGCGATTTCGACCAAAGCCTGCAAGTGAGCCTCGACGCCTGGCAGCGCCGGCCGCTGTGGAAGCGCGTCAAGCAACGGTTGTGGGGATGGGTGGACCGGCTGGTGGTGAATCTGCTGGATCGACGGGGTTAG	MSGPVFPWREGNRFELLIDGPQFFPRMLVEIARAQEQVELELYLVEAGACAEAMVQALVQAAERGVRVRCLFDDYGSLAFTLGLRNRLVEAGVELRFYNRLSWRRWVRNLYRDHRKLLLVDQRLAVVGGTGVTDEFWNPLEDQSDWHEVMVEIVGPLVLDWQLLFDRQWLANRHRRAWKPASNFGLPRLPRVPPVGEGMGRVAYADARQHRDILQSLSRALNSGQKRIWMATPYFLPTWNVRRSLRKAAARGVDVRLLLTGPRTDHPSVRYAGHRYYPRLLKAGVKIYEYQPCFLHLKMVLVDDWVSIGSCNFDHWNLRFNLEANLEALDSGLSKAVAISFERDFDQSLQVSLDAWQRRPLWKRVKQRLWGWVDRLVVNLLDRRG	PGPT0007725_5152	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
D1-35_01732	2292			Beta-xylosidase	ATGAAGAAGCTGTGTTTGCTGGGCCTGTTTGTCACCCTGGCCAGTCAATCCGTATTAGCCGACAACCTGCCAGCCCCCATGGAGAACAAGGACGCTTTCATCAGCAGCCTGATGAAGCAGATGACCCTCGAGGAAAAGATCGGCCAACTGCGCCTGATCAGCATCGGCCCGGAAATGCCCCGGGAGATGATCCGCAAGGAAATTGCCGCGGGCAACATCGGTGGTACGTTCAACTCCATCACCCGCGACGAAAACCGTCCGATGCAGGACGCGGCCATGCGCAGCCGGTTGAAGATCCCGATGTTCTTCGCCTATGACGTGATCCATGGCCACCGGACCATTTTCCCGATTCCCCTGGCCCTGGCTTCGAGCTGGGACATGGACGCCATCTACCGCTCCGGTCGTATCGCGGCCAAGGAAGCGGCGGCCGACAGCCTGGACATCACCTTTGCGCCGATGGTCGATATCTCCCGCGACCCGCGCTGGGGCCGGACCTCCGAAGGTTTCGGCGAGGACACTTACCTGGTGTCGCGCATTGCCGGGGTGATGGTCAAGGCATTCCAGGGCAGCGGCGCCAACGCCGCCGACAGCATCATGGCCAGCGTCAAGCACTTCGCCCTGTATGGCGCGGTGGAAGGCGGCCGGGACTACAACACCGTGGACATGAGCCCGGTGAAAATGTACCAGGACTACCTGCCGCCCTACCGCGCTGCCATCGACGCCGGTGCAGGCGGGGTGATGGTCGCGCTGAACTCCATCAACGGCGTGCCGGCCACCGCCAACACCTGGCTGATGCACGACCTGTTGCGCAAGGAATGGGGCTTCAAGGGCCTGGCCGTCAGCGACCACGGGGCGATTTTCGAGTTGATCAAGCATGGCGTCGCCCGGGACGGTCGCGAAGCGGCAAAACTGGCGATCAAGGCCGGCATCGACATGAGCATGAACGACTCGCTCTACGGCAAAGAGCTGCCAGGACTGCTCAAGGCTGGCGAAATCGAGCAGAGCGACCTTGATAACGCGGTGCGTGAAGTGCTGGCCGCCAAGTACGACATGGGCCTGTTCAAGGACCCGTACCTGCGCATCGGCAAGGCCGAGGATGACCCGGCCGACGTCTATGCCGACAGCCGCATGCATCGCGCCGATGCCCGTGACGTGGCGCGCCGCAGCCTGGTACTGCTGGAAAACCGCAACCAGACCCTGCCTCTGGAGAAGACCGCGAAGGTCGCCCTGGTCGGTCCGCTGGCCAAGGCGCCGATCGACATGATGGGCAGCTGGGCCGCCGCCGGTCGCCCGGCGATGTCGGTCACCGTGTACGACGGCATGGCCCGTGCGCTGGGCGGCGAGTCGAAGCTGATCTACGCCCGTGGCGCCAATATCACCGGCGACAAGAAGGTGCTCGACTACCTCAACTTCCTCAATTTCGACGCACCGGAAGTGGTGGATGACCCGCGCCCGGCCCAGGTGCTGATCGATGAAGCGGTGAAAGCCGCCAAGGAAGCCGACGTGGTCGTGGCCGCCGTGGGCGAGTCCCGTGGCATGTCCCACGAGTCCTCGAGCCGCACCGAGTTGAACATCCCGGCCAGCCAGCGCGAGCTGATCAAAGCCCTGAAAGCCACCGGCAAACCCTTGGTGCTGGTGCTGATGAACGGCCGTCCGCTGTCGCTGCTGGAGGAACAACAGCAAGCCGATGCGATCCTGGAAACCTGGTTCAGCGGCACCGAAGGCGGCAACGCCATTGCTGACGTGCTGTTCGGCGACTACAACCCGTCGGGCAAGCTGCCGATCACCTTCCCACGCTCGGTCGGGCAGATTCCTACCTACTACAATCACCTGAGCATCGGCCGGCCGTTCACGCCGGGCAAGCCGGGCAACTACACCTCGCAATATTTCGACGACACCACCGGCCCGCTCTACCCGTTCGGCTATGGCTTGAGCTACACGACGTTCAACCTGTCGGACATGGCCTTGTCGTCCACCACGCTGAACAAGACCGGCAAGCTCGACGCCAGCATCACCCTGGAAAACACCGGCGAGCGTGACGGTGAAACCGTGGTGCAGCTGTACATCCAGGATGTGACCGGGTCGATCATCCGCCCGGTCAAGGAGCTGAAGAACTTCCGCAAGGTGATGCTCAAGGCCGGCGAGAAGAAAGTCATCCACTTCACCATCACCGAAGACGACCTGAAGTTCTTCAACGCCCAGCTCAAGTACGCCGCTGAACCGGGCAAGTTCAACGTGCAGATCGGCCTGGATTCCCAGGACGTGAAGCAGCAGAGTTTCGAGTTGCTCTGA	MKKLCLLGLFVTLASQSVLADNLPAPMENKDAFISSLMKQMTLEEKIGQLRLISIGPEMPREMIRKEIAAGNIGGTFNSITRDENRPMQDAAMRSRLKIPMFFAYDVIHGHRTIFPIPLALASSWDMDAIYRSGRIAAKEAAADSLDITFAPMVDISRDPRWGRTSEGFGEDTYLVSRIAGVMVKAFQGSGANAADSIMASVKHFALYGAVEGGRDYNTVDMSPVKMYQDYLPPYRAAIDAGAGGVMVALNSINGVPATANTWLMHDLLRKEWGFKGLAVSDHGAIFELIKHGVARDGREAAKLAIKAGIDMSMNDSLYGKELPGLLKAGEIEQSDLDNAVREVLAAKYDMGLFKDPYLRIGKAEDDPADVYADSRMHRADARDVARRSLVLLENRNQTLPLEKTAKVALVGPLAKAPIDMMGSWAAAGRPAMSVTVYDGMARALGGESKLIYARGANITGDKKVLDYLNFLNFDAPEVVDDPRPAQVLIDEAVKAAKEADVVVAAVGESRGMSHESSSRTELNIPASQRELIKALKATGKPLVLVLMNGRPLSLLEEQQQADAILETWFSGTEGGNAIADVLFGDYNPSGKLPITFPRSVGQIPTYYNHLSIGRPFTPGKPGNYTSQYFDDTTGPLYPFGYGLSYTTFNLSDMALSSTTLNKTGKLDASITLENTGERDGETVVQLYIQDVTGSIIRPVKELKNFRKVMLKAGEKKVIHFTITEDDLKFFNAQLKYAAEPGKFNVQIGLDSQDVKQQSFELL	PGPT0019110_3885	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
D1-35_01733	609	lemA	COG1704	Protein LemA	ATGAATCCACGACTGAACCACCTTCGCGGCCTGCAAATGCTGGCCCTGATGCTCTTCACAACATTGCTGGCCGGTTGTGGCATCAACAACATCCCGACGCTGGACGAGCAGGCCAAGGCGGCCTGGGGTCAGGTGCAGAACCAATACCAACGCCGCGCCGACCTCATTCCCAACCTGGTGGAAACCGTCAAGGGTTATGCCCGGCACGAACAGGAAACCCTGACCGCAGTAATCGAAGCGCGGGCCAAGGCCACCTCGATCCAGGTCGATGCCAATACCTTGGACAATCCGGAAAAACTCAAGCAGTTCCAACAAGCCCAGGACCAGTTGAGCGGGGCGTTGAGCCGCTTGATGGTGGTGTCCGAGCGCTACCCGGACCTGAAGGCCAACCAGAACTTCCTGGCGTTGCAATCGCAACTCGAAGGCACCGAGAACCGCATTGCCGTGGCGCGTCGCGACTTCATCCTGGCGGTGCAGAAGTACAACACCGAAATCCGTACGTTCCCCGGCCGCCTGTGGCACAGCGTGATGTACAGCGACTTGCCGATCCGCGAAACCTTCGAGGCGACCAGCCCGAATGCCGAAAAAGCGCCTGAAGTGAAGTTCTGA	MNPRLNHLRGLQMLALMLFTTLLAGCGINNIPTLDEQAKAAWGQVQNQYQRRADLIPNLVETVKGYARHEQETLTAVIEARAKATSIQVDANTLDNPEKLKQFQQAQDQLSGALSRLMVVSERYPDLKANQNFLALQSQLEGTENRIAVARRDFILAVQKYNTEIRTFPGRLWHSVMYSDLPIRETFEATSPNAEKAPEVKF				NA	NA	NA	NA	NA
D1-35_01734	750			hypothetical protein	ATGCGAGTGTTGAAATTTGGCCTGGTGCTGTTGCTCTGGGTCTTTGCCATCACGGCCCAGGCCGAGTTGAAATTTCCGGCATTGACGGGGCGGGTGGTGGACTCCGCCCAACTACTCGACCCGTCGGTGCGCACGCAACTCGATGCGCAACTCAAGGCCCATGAGCAGGCGACCAGTGAGCAGGTGGTTGTCGTCACCCTGCCGGACCTGCAGGGCACCAGCATCGAAGACTTCGGTTACCAATTAGGCCGCCACTGGGGCATCGGGCAGAAGGATAAAAACAACGGCGCGCTGCTGATCGTCGCCCGCGATGACCGTAAACTGCGGATCGAAGTGGGGTATGGCCTGGAAGATCGGCTGACCGATGCCCAGAGCTCCGTCATCATCAATCAGGTCATCACTCCGGCATTCAAGACGGGAAATTTCAACAAGGGCATCAGCGACGGCGTCGCGGCGATGCTCGTGGTGTTGGGCGGCAGTCCGCTGGATGAGCCAGCCCCTGCGTATGACGCGGGAGGGCAGGGTGAGGGCGACTTCATCGACCGGCATGCGGGGCTGATAATCTTCCTGGCGATGCTGTTCATCCTGACGATAGGCGTTTGCCAGGTGCTTGGTATCCTGCCGAGCAGTGGCGGTTCCGGCGGTGGCAGCTCCAGAAGCGGCGGTGGCGGTTTCGGCGGCGGCGGTGGCGGAGGCTTCAGCGGTGGCGGAGGCAGTTTTGGTGGCGGCGGTTCGTCGGGCGGCTGGTGA	MRVLKFGLVLLLWVFAITAQAELKFPALTGRVVDSAQLLDPSVRTQLDAQLKAHEQATSEQVVVVTLPDLQGTSIEDFGYQLGRHWGIGQKDKNNGALLIVARDDRKLRIEVGYGLEDRLTDAQSSVIINQVITPAFKTGNFNKGISDGVAAMLVVLGGSPLDEPAPAYDAGGQGEGDFIDRHAGLIIFLAMLFILTIGVCQVLGILPSSGGSGGGSSRSGGGGFGGGGGGGFSGGGGSFGGGGSSGGW				NA	NA	NA	NA	NA
D1-35_01735	618			hypothetical protein	ATGGCATTACTGACTGAACACGAACAACGCAAGGTGGCCGAGGCCATTGCCCGGGTCGAGCGCGACACCGATGCCGAACTGGTAACGGTGCTTGCTGCTCGCGCCGACGACTACGCCTACATCCCGCTGCTCTGGGCCAGCTTGCTGGCCCTGGTGGCCCCCGGCGTGGTGCATTACCTGACGGGCTGGCTGACCACGCACAGCTTGCTGTTGGTGCAGTGGGGCAGTTTCATCGGGTTGTGCCTGCTGTTTCGCCTGCCTGCTATCACCACGTACCTGATCCCTCGCTCAGTACGTCACTGGCGAGCGTCGAACCTGGCGCGCCGGCAATTTCTCGAGCAGAACCTGCACCATACGGTGGACGGCACAGGCATGCTGATCTTCGTTTGCGAGGCCGAGCGGTATGTGGAAATCCTGGTGGACGAGGGCATTTCCAAGCGACTCGACAATAAGCATTGGGAGGCGATTGTCGCGGCATTTACCCAGCAGGTTCGCCAGGGCCAGACGTTGCAAGGCTTTGTGACGTGCATTGAAGCCTGCGGCGAACTGCTCAAGGCGCATGTGCCGGTGACCCATGCGCGCAATGAGTTGCCGAATCGGTTGGTGGTGCTCGGCTGA	MALLTEHEQRKVAEAIARVERDTDAELVTVLAARADDYAYIPLLWASLLALVAPGVVHYLTGWLTTHSLLLVQWGSFIGLCLLFRLPAITTYLIPRSVRHWRASNLARRQFLEQNLHHTVDGTGMLIFVCEAERYVEILVDEGISKRLDNKHWEAIVAAFTQQVRQGQTLQGFVTCIEACGELLKAHVPVTHARNELPNRLVVLG				NA	NA	NA	NA	NA
D1-35_01736	1218			hypothetical protein	ATGTCCGTCACTGCAACTTCCGCCCGTCCCGCGCCGGATCACCACGCCCAGTTCATCGAGCTGTTGCAGGCCAGCCTTGGGCAGAACGCCTTCATCAAGCTCGTACTGGCCAAATACGTCGGTGACGAAGCCGATCTGCAGCGGCTGATCATCAAGCAACTGACGGTCAAGGATCAGCCGTGCCTGTCCTTCGTCTACCGCTACAAGACGCGCGACATCACCAAGAACTTCCCGCTGGCCGAAGGCGTTGAGACGGTCGCCGCGCTGTTGCCGGCCTCGTTCAAGAACGCACATCTGCTGGCAATCACTGACGAGGCGCAGCTGGAATACAGCAAGAAGGGCAAGAGCTCGTTGTTCAAGAGCAAGCCCCAGCAACTGCGGGAAGTGCCGTCCGCGGGGCACAACCGTGAAAAAAACCGCTTCCTCGATCTGAGCCGGCCGTTCCTCGCCGACCTGGGCGTGACCAACCACAAGCACGAGCTGATTCCGGCGATGTCGCGCAAGTGGAAGCAGATCAACAAGTTCATCGAAGTCTTCAGCCACGCGTTGACGTCTTCGCCGCTGGCGCTGGACAAACCGGTGCGGGTCGCGGATTTCGGCTCGGGCAAGGGCTACCTGACGTTCGCCATCCATGATTACTTGCGCAACACCTTGCAGGCCGAGGGGCTGGTGACAGGCGTCGAATTGCGCGAGGACATGGTCAAGCTGTGCAACGAAGCCGCCGCGCGGCTTGAGCATCCGGGCCTGGAGTTCCAGCACGGGGACGTGCGCAGCGTCGCGCCGCGTGAAGTGGACGTGATGATCGCCCTGCATGCCTGCGACATTGCCACCGACTACGCGATCCACATGGGCATCCGCTCGGGAGCCTCGATCATCATGTGTTCACCGTGCTGTCACAAGCAGATCCGCCTGCAGATCCAGAGCCCGGCGCTGCTCAAGCCGATGCTCCAATATGGCCTGCACCTGGGCCAACAGGCGGAAATGGTCACCGACAGTCTGCGGGCGCTGTACCTCGAAGCCTGTGGCTACGAGACCAAGGTATTCGAGTTCATCTCCCTGGACCACACCAACAAGAACAAGATGATCCTGGCGGTCAAGCGCCCGGAACCGGTGGATGCCATCGAACTCCTCGCCAGGATCGAAGAGCTGAAGGCGTTTTACCGCATCACCGAACATTGCCTGGAAACGCTGCTGCGGGCTGACGGCTACCTCGCCTGA	MSVTATSARPAPDHHAQFIELLQASLGQNAFIKLVLAKYVGDEADLQRLIIKQLTVKDQPCLSFVYRYKTRDITKNFPLAEGVETVAALLPASFKNAHLLAITDEAQLEYSKKGKSSLFKSKPQQLREVPSAGHNREKNRFLDLSRPFLADLGVTNHKHELIPAMSRKWKQINKFIEVFSHALTSSPLALDKPVRVADFGSGKGYLTFAIHDYLRNTLQAEGLVTGVELREDMVKLCNEAAARLEHPGLEFQHGDVRSVAPREVDVMIALHACDIATDYAIHMGIRSGASIIMCSPCCHKQIRLQIQSPALLKPMLQYGLHLGQQAEMVTDSLRALYLEACGYETKVFEFISLDHTNKNKMILAVKRPEPVDAIELLARIEELKAFYRITEHCLETLLRADGYLA				NA	NA	NA	NA	NA
D1-35_01737	582	yhbO	COG0693	Protein/nucleic acid deglycase 2	ATGGCCGCGAAGAAAATCCTCATGCTGGTCGGCGATTACGTCGAAGATTATGAAGTGATGGTGCCTTTTCAGGCCTTGCAGATGATCGGCCACACAGTGCACGCGGTGTGCCCGGACAAAACCACCGGACAGACGGTGCGCACCGCGATCCATGATTTCGAAGGCGACCAGACCTACAGCGAGAAGCCTGGGCATCTGTTTGCCCTCAACCATGATTTCGCCAGCGTCCAGGCCAGCGACTATGACGCGCTGCTGGTGCCGGGCGGTCGTGCGCCGGAATACCTGCGCCTGAATGAAAGCGTCCTGCAACTGGTGCGCGATTTCGATTTGGCGGGCAAGCCGATCGCCGCGGTGTGCCATGGGGCGCAATTGCTGGCGGCGGCAGGCATCCTGGAAGGGCGCGAATGCAGCGCCTATCCAGCATGTGCTCCGGAGGTGCGCCTGGCCGGCGGGACGTTCATCGATATTCCAGTGACCGAAGCCCATGTCCAAGGCAACCTGGCCACCGCACCGGCGTGGCCCGCCCATCCGAACTGGCTGGCGGGGTTCCTGACGCTGCTGGGCACGGCCATCACCTTGTAG	MAAKKILMLVGDYVEDYEVMVPFQALQMIGHTVHAVCPDKTTGQTVRTAIHDFEGDQTYSEKPGHLFALNHDFASVQASDYDALLVPGGRAPEYLRLNESVLQLVRDFDLAGKPIAAVCHGAQLLAAAGILEGRECSAYPACAPEVRLAGGTFIDIPVTEAHVQGNLATAPAWPAHPNWLAGFLTLLGTAITL	PGPT0015010_717	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
D1-35_01738	1020			hypothetical protein	ATGACCGATTTCCAGGAATACGACGCCCGGCTCGAAAATTGGGAGACGTTGCGCACCGACACCGCTTTCAGCGGCCTGCTGGTGGGCAATGGCGCGAGCCGCGCCGTGTGGGACGATTTCGGCTATGACTCGTTGTTCGAGAACGCCCGCACCGTCGAGGAAAAACCACTGAGCCCTTCGGAACTGAGCGTCTTCGACGCCCTGCAGACCCGCAGTTTCGAGCAGGTACTGGGCGCGTTGAAAACCACCAGCCGGGTCAACAAGGCCCTGGCCGTCAGCTCCGCCGCCCCGCGCAATCGCTATTACGCGATCAAGGAAGCCTTGATCAACACCGTGCACGCGGTGCATATCCCCTGGCGACTGGTGCAACCCTCGACCCTGGGAAGTCTCAATCAGGAGCTGGGCCGCTACCGCACAGTGTTCACCACCAACTACGATCTGCTCAGCTATTGGGCGATCCAGCATACGCCCGAGAACCTCACCGATCTGTTCCTGGGTGCCGATCACAGCTTCGATCCGAGTCGGACCAGTACAGACAAGCCGCGCCTGTTGTATCTGCACGGCGGCCTGCATTTGGTGCGCGACCAGGACGGCACGGCACGCAAGCTCGCTTCCACCGAAGGCACGCTGTTGGGCAGTTTTGCCATCAACAACACCCTCAAGACCCTCGACGACGTGCCGCTTTTTGTCAGCGAAGGGCCGAGCCAGGACAAACTCAAGACCATCCGCAGCAGCGATTACCTGTCGTTCTGCTACGACCAGTTGTTGCACCACGACGACAATCTGTGTCTGTTCGGCCACGCCTTGGGCGAGCAGGACAGCCATATCGTCCATGCCCTGCGCCAAGCGGCGCCGAGGACCGTGGCCATCTCGATTTACCCGCGCAGCCAGGCGTTCATCCAGCATCAGAAGCGGCATTACGCCAAATTGTTCGAGGGCCTGGACACGCAATTGCGCTTCTTCGATGCCAAGACCCACCCACTGGGCGATCCGAAGCTGGCGGTGCCGGTGGAGGTTTAG	MTDFQEYDARLENWETLRTDTAFSGLLVGNGASRAVWDDFGYDSLFENARTVEEKPLSPSELSVFDALQTRSFEQVLGALKTTSRVNKALAVSSAAPRNRYYAIKEALINTVHAVHIPWRLVQPSTLGSLNQELGRYRTVFTTNYDLLSYWAIQHTPENLTDLFLGADHSFDPSRTSTDKPRLLYLHGGLHLVRDQDGTARKLASTEGTLLGSFAINNTLKTLDDVPLFVSEGPSQDKLKTIRSSDYLSFCYDQLLHHDDNLCLFGHALGEQDSHIVHALRQAAPRTVAISIYPRSQAFIQHQKRHYAKLFEGLDTQLRFFDAKTHPLGDPKLAVPVEV				NA	NA	NA	NA	NA
D1-35_01739	1350			hypothetical protein	ATGGATATTCGAAACTCCACGCCGCTGGCCGGTTACCTTGATCTGCTGATGGATGCCGTGTGCGCCGTCGACGCCCTGGGGCGTTTCGTGTTTGTCAGTGCCGCCAGCGAGCGGATCTTCGGCTACACGCCGAAGGAGCTGATCGGCCGTTCGATGATCGATATGGTCCACCCTGCCGACCGCCAGCGGACCCTTGATGCGGCGCGCGAAGTCATGCGCGGAGAACCCAAGCTCAATTTCGAGAACCGCTATCTGCGCAAGGACGGTGGGGTCGTCCATATCCTCTGGTCGGCGCGCTGGTCCGAGCCTGACCAATTGCGGATCGCCGTGGCGCGGGACATCACCGAGCGCAAGCAGGCGGAGTCCCGGCAGGCCGCGTTGTACGCGATTTCCGAGGCCGCCCATGCTGCCGCCGACCTGCTGGCGTTGTTCAAACGTATCCATTCGATAATCGGCGAGTGGCTGCCGGCACTGAATTTTTCGGTGGCGTTGTATGACGAGCAATGTGCCCAGCTCAACTTTCCCTATCACGTCGACGACCGGGAGCGACAGCCGGAACTGCCGGGTACGACCATTGGGCGTTTGTGTGCCGAAGTCATACGCAGCGGTCAGCCGATCCTGCTGACGCCCGGCTCCAGCTCGTTGCCCGTGGAGCTGCACGACCTCGTGGCGAAACCGGACGCGCCGTGCTGGCTGGGTGTGCCACTGAATTCGCAGAGCGGCACGATTGGCGCGTTGATCGTCAAGAGCGCGGCGGATAACGAGCGCTACACCGAGCAGGACAAGGAATTGCTGCAGTATGTTTGCGCGCAGATTGCGATTGCCATCGAGCGCCAGCAACTGCATACCCGGTTGCAGCACATGGCCCAGTACGATCAGCTCACTCAGGTACCCAATCGTGAGTTGCTGCGTGACCGCTTCAAGGCCGCATTGACCACGGCCCGTGTTGCATCGGGGCGGATGGCATTGCTCTACATCGATCTGGATCGCTTCAAGCAGATCAACGACACCTACGGTCATGCCGTTGGCGACATGCTGCTGCAAGCGGTGGCCAGCCGACTCAAGGGTTGCATACGTGACACCGACACTGTCGCCCGCATCGGGGGCGATGAATTCGTGGTACTGCTCCATAGCATCCAGAGCGTGGCAGACGCCGACCGGGTGCAGGAGCAGATTCGTCACGCGCTGGCCCAGCCGCTGCGGCTGGACGGTCATTGCCTGAGCATCGAACCGAGCATTGGCGTGGCGTGTTTCCCCGAACACGGCACGGAAGACATCACCTTGTTCCGCCACGCCGACGAGGCGATGTACGCAGCCAAACGCCACAATCACCGGGCCTTCGGCATCTGA	MDIRNSTPLAGYLDLLMDAVCAVDALGRFVFVSAASERIFGYTPKELIGRSMIDMVHPADRQRTLDAAREVMRGEPKLNFENRYLRKDGGVVHILWSARWSEPDQLRIAVARDITERKQAESRQAALYAISEAAHAAADLLALFKRIHSIIGEWLPALNFSVALYDEQCAQLNFPYHVDDRERQPELPGTTIGRLCAEVIRSGQPILLTPGSSSLPVELHDLVAKPDAPCWLGVPLNSQSGTIGALIVKSAADNERYTEQDKELLQYVCAQIAIAIERQQLHTRLQHMAQYDQLTQVPNRELLRDRFKAALTTARVASGRMALLYIDLDRFKQINDTYGHAVGDMLLQAVASRLKGCIRDTDTVARIGGDEFVVLLHSIQSVADADRVQEQIRHALAQPLRLDGHCLSIEPSIGVACFPEHGTEDITLFRHADEAMYAAKRHNHRAFGI				NA	NA	NA	NA	NA
D1-35_01740	504			hypothetical protein	ATGAGCCGGATGGCCACCTTTTTACGCACCACCAGTATTGTCGTGCTGATGGGCCTGGGTGCCAGCAGTGCCTGGGCCCAGTCACCCGCCGAATTCATCAACGATGCATCCGCCAAAGGCATGGCTGATATCGAAGCCAGCCGTGCCGCACATTCGAAGGCGGAATCAAGGGAGGTCAAGGACTACACCATCATGGTGATCAACGACCGCACCACCGCCAACCAACACCTGGCGAAAATCGCCAAGAAGCTCGACTTGCCCGTCGCGCCCCGGGAAGAAGTCGCGGACAAGGCCAAGACCTTGATGCCGCAAGTGGCCGAGGGCGAGTCGTTCGAGGCGGCATATGCCGCCAGCCAGGTCAAGGCCACTGAGGAAGCCATCGAGCAGATCCAGCAACAGGCCCAGACCACCAACGTGCCGGAGATCAAGGCGTTCGCCGACGAAACCCTGCCCAAATTGCAGACGCATCTTGAGATGGCCAGGGCGCTGCAGGCCAGTCGCTGA	MSRMATFLRTTSIVVLMGLGASSAWAQSPAEFINDASAKGMADIEASRAAHSKAESREVKDYTIMVINDRTTANQHLAKIAKKLDLPVAPREEVADKAKTLMPQVAEGESFEAAYAASQVKATEEAIEQIQQQAQTTNVPEIKAFADETLPKLQTHLEMARALQASR				NA	NA	NA	NA	NA
D1-35_01741	909	yghA		putative oxidoreductase YghA	ATGTCCACACGCCGAGAACCCAACCAATACGCGATGCAGAATCCACTGACCCAATACCCTCGTCCGGAATTCCCCGACCAGCCGCAATCACCCCCTGGCATTGACCAGGACATGGAACCACAGCCCGATCACGGCGAAAAAACCTATCAAGGCTTCGGTCGCCTGGAGGGGCGCAAGGCGCTGATCACGGGCGGCGATTCGGGGATCGGTCGCGCGGCGGCCATTGCCTATGCCCGCGAAGGCGCCGATGTAGCTATCAACTATCTGCCCAGCGAAGAACGCGACGCGCAGCAAGTCATCGAGCTGATCAAGGCCGAAGGCCGCAAGGCCATTGCGATTCCGGGAGATCTCAAGGACGAAGCGTTCTGCGTCCAGATGGTGAAGATGGCGCAGCAGGAGCTCGATGGCCTGGATATCCTGGTCAACGTCGCTGGTAAGCAGGAAGCGCAAAAGGACATTGCCGACATCACCACCGCGCAATTCGATGACACCATGAAAACCAACATCTACGCGATGTTCTGGATCTGCAAGGCCGCGGTACCGCTGATGCCGGCCGGGGCGACGATCATCAATACCGCGTCGATCCAATCCTACGATCCGTCCGCGACGCTGCTCGATTACGCCACCACCAAAGCGGCGATCGTGGCGTTTACCAAGGCGTTGGCGGGACAGGTCATCAGCAAGGGAATCCGGGTCAATGCCGTGGCCCCGGGGCCGATCTGGACGGTGCTGCAACCCAGCGGCGGACAGCCTAGGGAGAAGATCCCTACATTCGGCTCCCAGGTTCCGATGAAGCGTCCGGGGCAGCCAGCGGAATGTGCGCCGCTGTACGTGCTGCTGGCCTCGCAGGAGTCGAGTTATATCACCGGGGAAGTATTCGGCGTGACGGGAGGGAATCCGTTGCCCTGA	MSTRREPNQYAMQNPLTQYPRPEFPDQPQSPPGIDQDMEPQPDHGEKTYQGFGRLEGRKALITGGDSGIGRAAAIAYAREGADVAINYLPSEERDAQQVIELIKAEGRKAIAIPGDLKDEAFCVQMVKMAQQELDGLDILVNVAGKQEAQKDIADITTAQFDDTMKTNIYAMFWICKAAVPLMPAGATIINTASIQSYDPSATLLDYATTKAAIVAFTKALAGQVISKGIRVNAVAPGPIWTVLQPSGGQPREKIPTFGSQVPMKRPGQPAECAPLYVLLASQESSYITGEVFGVTGGNPLP				NA	NA	NA	NA	NA
D1-35_01742	405			hypothetical protein	ATGACGTTCGCAAAGATTGCTCAAAAACTGGCCCTGTGGGCAGGAAGTCCCAAGACCTTTCTCGGAGCTATTGTGTTGTTGGCGCTCTGGGCCGCCAGCGGACCGTTCTTCGGTTTCAACGACACCTGGCAACTGATCATCAATACCTCGACCACGATCATCACCTTCCTCATGGTTTTCCTGATCCAGAACACGCAAAACCGCGATACCGATATCCTGCACTTGAAAGTCGATGAATTGTTGCGCGCGACCAAGGACGCGCAGAACGCAATGCTCGGTCTCGAGTCGCTGGACCTCAAGCAGCTGGAAGCGTTGCGCAAGCGCTACCAGGACATGGGCAAAGACGAGGCCAAGAGCCTTGATGGTGTAGAAGAAGAGAAGAAAGTCGACTTGAACCAGTGCTGA	MTFAKIAQKLALWAGSPKTFLGAIVLLALWAASGPFFGFNDTWQLIINTSTTIITFLMVFLIQNTQNRDTDILHLKVDELLRATKDAQNAMLGLESLDLKQLEALRKRYQDMGKDEAKSLDGVEEEKKVDLNQC				NA	NA	NA	NA	NA
D1-35_01743	147			hypothetical protein	ATGAACCTCACCCGCACCTTTTGCCTCGCCTGCTGCCTGTTCGCACTACAGGGCTGCTTTGACAATTCGGATAACGAGACCAAGGACAACACCGACGGCACCAAGTCTTCGGTGCAGATGCAGGAGTCCAAGTCGGAGAGCAAATAA	MNLTRTFCLACCLFALQGCFDNSDNETKDNTDGTKSSVQMQESKSESK				NA	NA	NA	NA	NA
D1-35_01744	411			hypothetical protein	ATGCTTTACCCGATTGCGATTTCCATGGGCGATGAGCACCACGCCTGGGGCGTTGAAGTGCCGGATATCCCTGGTTGTTTTTCCGCAGGCGATGATCTGGACGATGCGATGGCCATGGCGCGCGAGGCCATCGAAGGGCACTTTGAAATTCTTGCCGAAGATGGGTCGCCCATTCCGCCGGCCAACACCGTGACGCTGCACGCGGCCAATCCGAAATATGCCGGGTGCGCGTGGGCATTGGTGGACATTGATGTGACCAGATATCTGGGCAAGGCGCAGAAACTCAACATCACCCTGCCCGGCTATCTGCTCAACCGTATCGATGAATATGTGCTGCATCATCCGGAGGAAAAGAGCCGGTCAGGCTTCCTGGCATCGGCGGCACTCAAGGTTTTGCAACAAGGACGTTGA	MLYPIAISMGDEHHAWGVEVPDIPGCFSAGDDLDDAMAMAREAIEGHFEILAEDGSPIPPANTVTLHAANPKYAGCAWALVDIDVTRYLGKAQKLNITLPGYLLNRIDEYVLHHPEEKSRSGFLASAALKVLQQGR				NA	NA	NA	NA	NA
D1-35_01745	216			hypothetical protein	GTGAACAGCCGATTCCTGATAAGCCAGATTGTTGCGGATGGTTGGTACCTGGTACGGATCCGAGGCAGTCACCACCATTTCAAGCACCCGACCAAACCGGGACTGGTTACGGTTCCTCATCCCAAGAAGGATCTGCTCAAGAAAACGGCCATCAGTATTTTGCAACAGGCCCTGCTCCAGACGGCCAGTTGCCCAGCTTCCCCGGAGGACGATTGA	MNSRFLISQIVADGWYLVRIRGSHHHFKHPTKPGLVTVPHPKKDLLKKTAISILQQALLQTASCPASPEDD				NA	NA	NA	NA	NA
D1-35_01746	630	rhtB_2	COG1280	Homoserine/homoserine lactone efflux protein	ATGACAGAGCTCTGGTTGTTTTTCATGGCGTTGACGGTGGCGTATCTGTTGCCCGGGCCGGACATGATCCTGGTGCTGCAAACCGGTGCCCGTCAGGGCAAGGCTGCGGCGCTGGCAACGGCGGTAGGCTTGGGGATTGCCCGGGCATGTCATGTCGCGCTGGCGGCAATGGGGCTATCGGTATTGTTCAAGGCAGCGCCCTGGACCTTTGATGTGGTGCGCCTGGCCGGGGCTGCGTATCTGGCGTGGATCGGGTTTCAGTGTTTGCGGACCACGTTGTTGCCAAGCTTTGGAGGAGCTGACGCCGAGGTCGGAAAGCGACAGTGGTACCAAGCGATACAACGCGGTCTGCTGACCAACCTGCTCAACCCCAAGGCGCTGCTGTTTTGCTCAGTGTTGCTGCCGCAGTTCATCGACCCACAGGGCGGGCCGGTGCTGGGGCAATTCGCGATGCTCGGTTTGGTGCTGGTCGGCGTCGGCCTGCTGTTTGACAGCGCCTACGCACTGGTGGGCGTAGCGCTCGGACGCTGGATTCAGCGATCGCCCTCGGCCCAACGTGTGCAGCAGTGGGTGTTTGGCAGCGTGCTGATTGGGTTTGCGGTACGGCTGACGTTTGTGCAGCAGTCGTAG	MTELWLFFMALTVAYLLPGPDMILVLQTGARQGKAAALATAVGLGIARACHVALAAMGLSVLFKAAPWTFDVVRLAGAAYLAWIGFQCLRTTLLPSFGGADAEVGKRQWYQAIQRGLLTNLLNPKALLFCSVLLPQFIDPQGGPVLGQFAMLGLVLVGVGLLFDSAYALVGVALGRWIQRSPSAQRVQQWVFGSVLIGFAVRLTFVQQS				NA	NA	NA	NA	NA
D1-35_01747	477	decR_1	COG1522	DNA-binding transcriptional activator DecR	ATGAAACTTGATGCCTTCGACCGCAAAATTCTCGCTGCACTGCAGCGGGACGGCCGGCTGAGCAACGTACAACTGGCCGAAGAAATCGGCCTGTCCCCCTCGCCATGCCTGCGCCGCGTGCGGATGCTCGAGGAAGCGGGAGTGATCCGCGGCTATCAAGCCATCCTGGATCGCGATGAAGTGGGCCTCGGTATGACGATCTTTGTCGGCATCAAGGTCGAACGGCACACCGATGAACGAGCCGAGGCATTTCGCCTGGCGGTGACCGCGCTACCCGAAGTGATCTCGGCATTCCTGGTGTCAGGCGAGTCGGATTTCCTGCTACAAGTGGTGGTGCCGGACTTGCGGGCCTATGACCGATTTGTCACGGGCAAGCTGTTGAAGCTGCCGGGGGTGAGTGACATTCGCAGTAATTTTGCGATCAACACGGTGAAGGCTCCGGGTGCGCTGCCGTTGGGGCATTTGCCAGATGCTTGA	MKLDAFDRKILAALQRDGRLSNVQLAEEIGLSPSPCLRRVRMLEEAGVIRGYQAILDRDEVGLGMTIFVGIKVERHTDERAEAFRLAVTALPEVISAFLVSGESDFLLQVVVPDLRAYDRFVTGKLLKLPGVSDIRSNFAINTVKAPGALPLGHLPDA				NA	NA	NA	NA	NA
D1-35_01748	3786			hypothetical protein	ATGGCAGTCATTAATGGAACAGCTGGCGCAGATGCACTGATTGGCACCGCAGGGGACGATGAGATCAACGCTCTGGGTGGCAACGATGTCATCAAGGGGACTGCTGGCGCAGACAAAATCGATGGCGGTGCGGGTTTAGATACTGTCGACTATTCGGCATCTACTGAAGGTATCAGTATAGATTTGCGTCAGGGCACTGGACTTGTTGGACGAGGTGGCGATGCAGAGGGAGATACGCTCATTGGTATCGAAACTGTCATAGGCTCTGCCTTCAATGACGTGCTTTCCTCTGGTCCGTACACCGTAATCCCAACGGTACAGCTGGAAGGGGGAGCTGGCGACGATATCTACAACATCAATCTGGGGCTGACCCCCTACATCATCGAACAGGCCGGTGGCGGCAACGATGAAGTCCGCGTGTCGGTGATCAATGCCAACGGCACGGTCCTGGCGGCGAACGTCGAGCGCCTGACCTACGTCGGCACCGGCGCATTCACCGGTTACGGCAACGACAGCGACAACGTCATTACCGGCGGTTCGGGTAACGACACCTTGTTCGGTGGCGCGGGAGCGGACCAGTTCATCGGCGGTGCCGGCTATGACATAGCGGGTTATACCGACAGCAAGCAAGCTGTGAACATCAATCTCAAGACGGGCGTGCATTCCGGGATCGCGGCAGGTGATACCTACACCGGTATCGAGGTGATCAGAGGATCGAATTTCAACGACACGTTCGTTGGCGATGGCAGCGGTATACGACTCGACGGCGGCGCCGGGATCGACGTGATCGATTACTCGGGCTCGACTGCCGGGGTAAACGTCGATATCCGTAATGGGTGGGGAACCGCAGGCACGGGCGGAGATGCCGAAGGCATCATTTTGGCGAATATCGAAACCGTCATAGGCTCTGCCTTCAACGACGTGCTCTCCGCTGGCCCGTACACCGTAATCCCCACGGTACGGCTGGAAGGGGGGGCTGGCGACGACATCTACAACATCAATCTGGGGCTGACCCCCTACATCATCGAACAGGCCGGTGGCGGCAACGATGAAGTCCGCGTGTCGGTGATCAATGCCAACGGCACGGTCCTGGCGGCGAACGTCGAGCGCTTGACCTACGTCGGCACCGGCGCATTCACCGGTTACGGCAACGATAGCGACAACGTCATTACCGGCGGTTCGGGTAACGACACCTTGTTCGGTGGTGCGGGAGCGGACCAGTTCATCGGTGGTGCCGGCTATGACATAGCGGGATATACCGACAGCAAGCAAGCCGTGACCATCAATCTCAAGACGGGTGTGCATTCAGCGATCGCGGCAGGCGATACGTACACCGGTATCGAGGTGATCAGGGGATCGAATTTCAACGACACGTTCGTTGGCGATGGCAGCGGTATGCAACTCGACGGCGGTGCCGGGATCGATACGGTCGACTACTCGGGCTCGACTGCCGGGGTAAACGTCGATATCCGTAATGGGTGGGGAACCGCAGGCACGGGCGGAGATGCCGAAGGCATCATTTTAGGGAATATCGAAACCGTCATAGGCTCTGCCTTCAACGACGTGCTCTCCGCTGGCCCGTACACCGTAATCCCAACGGTACAGCTGGAAGGGGGGGCTGGCGACGATATCTACAACATCAATCTGGGGCTGACCCCCTACATCATCGAACAGGCCGGTGGTGGCAACGATGAAGTCCGCGTGTCGGTAATCAATGCCAACGGCACGGTCCTGGCGGCGAACGTCGAACGCCTGACCTACGTCGGCACTGGTGCATTTACCGGTTACGGCAACGACAGCGACAACGTCATTACCGGTGGTTCGGGTAACGACACACTGTACGGTGGTGGGGGAGTAGATCAGTTAATCGGCGGTTCGGGTAACGACACATTATACGGAGGCGCGGGCGCGGATCAGTTCATCGGTGGTGCTGGCACTGACGTAGCGGGTTATACCGACAGCAATGAAGCTGTGACCATCAATCTCAAGACGGATGTGCATTCCGCGATCGCGGCAGGCGATACCTACACCGGTATCGAGGTGATCAGGGGATCGAATTTCAACGACACGTTCGTTGGCGATGGCAGCGGTATGCAACTCGACGGCGGTGCCGGGATCGATACGGTCGACTACTCGGGCTCTACTGCCGGGGTAAACGTCGATATCCGTAATGGGTGGGGAACCGCAGGCACGGGCGGAGATGCCGAAGGCATCATTTTAGGGAATATCGAAACCGTCATAGGCTCTGCCTTCAACGACGTGCTCTCCGCTGGCCCATACACCGTAATCCCAACGGTACAGCTGGAAGGGGGAGCTGGCGACGATATATACAACATCAATCTGGGGCTGACCCCCTACATCATCGAACAGGCCGGTGGCGGCAATGATGAAGTCCGCGTGTCGGTGATCAATGCCAACGGCACGGTCCTGGCGGCCAACGTCGAGCGCCTGACCTACGTCGGCACTGGTGCATTTACCGGTTATGGCAACGACAGCGACAACATCATTACCGGCGGTTCGGGTAACGACACACTGTACGGTGGCGCGGGAGCGGATCAGCTCATAGGCGGTGCTGGCTATGACATAGCGAGCTATCTCGACAGCAAAGCAGCCATGGCCATCAACCTCAAGACGGGCGTGCATTCCGGGATCGCGGCGGGTGATACCTACACCGGTATCGAGGCGATCAGAGGATCGAATTTCAACGACATTTTCTACGGTGGTAGTTCGCCCGTGGCGCACGATGGCGCGGCTGGCATCGATCTGGTCACTTATGAACAGTCTGACAGCGCGGTGACGATCGACCTGACGAACGGCACGAACATAGGGGCGGCTGCTGGTCAGACCTACGCCAACATTGAAATGTTTCAAGGCAGCAATTTTGACGACACGCTATCGGGCTCGGGTCTGAAGGATATCTTCATTGGTGGAGCCGGGGCAGATGTAATCGATGGCCGGGTAGGTCTGGACAGTGCTTTTTACATTACAAGTACAACAGGCATCTCGATCAACTTGCAGACGCAAATCAATCAAGGTGGCGATGCCGAAGGTGATGTATTGCTTAACATCGAACATGTGTTGGGCAGTCATTTCAACGATGTCCTGGTTGGAGACACGGGTGTTAATTATCTGGAGGGTGGATTGGGCAACGACGTCATCGACGGCGGTGACGGCAATGATTTCCTCTATGGTGGGCTGACTTCTTGGATAGGACCTTTCAGCGTCGATAGCTCGGCGAACGGGCCGCAGGCAGACATCCTGTACGGTGGCGGCGGTAACGACACCATCGTCACGACTGCGAGCGACGAGGGGACTCAAGCCTACGGTGAGGCCGGAAATGACACTATCACTGTGATACATGGCATGGCTGACGGTGGGGAAGGCAACGACCTGCTGACCGGTAGAGGCGTGGGCTTTTCACTGTCAGGAGGTCAGGGGGATGACAGGCTGATATTGCAGACCGGCGGTTTTGCTAACGGCGGTGAGGGTGAGGATATCTACACCATCGATACTCCAAAGTTAGTGACGATTCAGGACGACGGTATCAGCAGCGGTGACAAATTGGTTTTGTCCTACATCGATAGCTCTGAACTGTTGGCTGATCGCATCGGTGATGACCTCTATCTGCACCGATCAAGTTTCACTCCGGGACAGGCACCGCAAGAAGGTGTGCGCCTGAAGGATTGGTATGCAGGTTACGACACCATCGAACAGATCCAGACAGCTGATATGCAGCTCATCAGTCTGGTGGGCATCAACACATTTGCCAATGATATGTTTTCCTGA	MAVINGTAGADALIGTAGDDEINALGGNDVIKGTAGADKIDGGAGLDTVDYSASTEGISIDLRQGTGLVGRGGDAEGDTLIGIETVIGSAFNDVLSSGPYTVIPTVQLEGGAGDDIYNINLGLTPYIIEQAGGGNDEVRVSVINANGTVLAANVERLTYVGTGAFTGYGNDSDNVITGGSGNDTLFGGAGADQFIGGAGYDIAGYTDSKQAVNINLKTGVHSGIAAGDTYTGIEVIRGSNFNDTFVGDGSGIRLDGGAGIDVIDYSGSTAGVNVDIRNGWGTAGTGGDAEGIILANIETVIGSAFNDVLSAGPYTVIPTVRLEGGAGDDIYNINLGLTPYIIEQAGGGNDEVRVSVINANGTVLAANVERLTYVGTGAFTGYGNDSDNVITGGSGNDTLFGGAGADQFIGGAGYDIAGYTDSKQAVTINLKTGVHSAIAAGDTYTGIEVIRGSNFNDTFVGDGSGMQLDGGAGIDTVDYSGSTAGVNVDIRNGWGTAGTGGDAEGIILGNIETVIGSAFNDVLSAGPYTVIPTVQLEGGAGDDIYNINLGLTPYIIEQAGGGNDEVRVSVINANGTVLAANVERLTYVGTGAFTGYGNDSDNVITGGSGNDTLYGGGGVDQLIGGSGNDTLYGGAGADQFIGGAGTDVAGYTDSNEAVTINLKTDVHSAIAAGDTYTGIEVIRGSNFNDTFVGDGSGMQLDGGAGIDTVDYSGSTAGVNVDIRNGWGTAGTGGDAEGIILGNIETVIGSAFNDVLSAGPYTVIPTVQLEGGAGDDIYNINLGLTPYIIEQAGGGNDEVRVSVINANGTVLAANVERLTYVGTGAFTGYGNDSDNIITGGSGNDTLYGGAGADQLIGGAGYDIASYLDSKAAMAINLKTGVHSGIAAGDTYTGIEAIRGSNFNDIFYGGSSPVAHDGAAGIDLVTYEQSDSAVTIDLTNGTNIGAAAGQTYANIEMFQGSNFDDTLSGSGLKDIFIGGAGADVIDGRVGLDSAFYITSTTGISINLQTQINQGGDAEGDVLLNIEHVLGSHFNDVLVGDTGVNYLEGGLGNDVIDGGDGNDFLYGGLTSWIGPFSVDSSANGPQADILYGGGGNDTIVTTASDEGTQAYGEAGNDTITVIHGMADGGEGNDLLTGRGVGFSLSGGQGDDRLILQTGGFANGGEGEDIYTIDTPKLVTIQDDGISSGDKLVLSYIDSSELLADRIGDDLYLHRSSFTPGQAPQEGVRLKDWYAGYDTIEQIQTADMQLISLVGINTFANDMFS				NA	NA	NA	NA	NA
D1-35_01750	885	rhlA		3-(3-hydroxydecanoyloxy)decanoate synthase	ATGAGGCCAGAAATCGCTGTGCTGGATATACAGGGTCAGTATCGGGTTTACACGGAGTTCTATCGCGCAGACGCCGCGCAAAAGACCATCATCCTGGTCAACGGCTCGATGGCCACCACCGCGTCGTTTGCACAGACCACCAAAAACCTCTACCCGCAATTCAATGTCGTGCTGTACGACCAGCCCTACGCGGGCAAGTCCAAGGCTCACAACCGCCACGAGAAAATGCTGACGAAGGAAATCGAAGGCCAGATCCTGCTGGAGCTGATCGACCACTTCGCCGCCGATCACGTATTGTCGTTTTCCTGGGGCGGAGCCGCCACCCTGACCGCCTTGGCCCAGCGCCCGCGGCGCATCGAAAAAGCCGTGATCAGTTCTTTCTCACCGGTGCTCAACGCACCGATGCGCGACTACCTGGAACGTGGCGTGGACTATTTGAGCAGCCTGGACGGCGATCGTGTCGGACACCTGGTCAACAGCACGATTGGCAAGCACCTGCCACCGCTGTTCAAGCGCTTCAACTATCGCCACGTCAGCAACCTGGCCGAGCATGAATACGGACAGATGCACTTTCACATCAACGATGTGCTCCACAGCGACCAGCAGTGCTATGTCAACGCGGCGAAAAAGATCAACGTGCCGGTGCTGTTCCTGAATGGCGAATGGGACGAATACACCGCGGCCACCGACGCCAGGCTCTTCGCCAACCATGTCCAGCACAGCAGCTTCACCACGCTGCAAGCCACCGGGCACTTCCTCGACATGGAACACAAGGCCGCCTGCCGCGACAGCCGCGAGGCGTTGCTGGGTTTCCTCAAGCCAACCCACCACGCCAGCCGACCGCGCTACAGCTATGTACAGGACTACCATGCAGTGGCCATCTGA	MRPEIAVLDIQGQYRVYTEFYRADAAQKTIILVNGSMATTASFAQTTKNLYPQFNVVLYDQPYAGKSKAHNRHEKMLTKEIEGQILLELIDHFAADHVLSFSWGGAATLTALAQRPRRIEKAVISSFSPVLNAPMRDYLERGVDYLSSLDGDRVGHLVNSTIGKHLPPLFKRFNYRHVSNLAEHEYGQMHFHINDVLHSDQQCYVNAAKKINVPVLFLNGEWDEYTAATDARLFANHVQHSSFTTLQATGHFLDMEHKAACRDSREALLGFLKPTHHASRPRYSYVQDYHAVAI	PGPT0006830_121	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-1_RhlI|CepI|SolI_PERCIPITATION|SIGNALLING|AHL|NAHL,PGPT0006830-rhlA-K18100	NA	NA
D1-35_01751	693	rsuA	COG1187	Ribosomal small subunit pseudouridine synthase A	ATGCGCGTTGACCGTTTCCTCAGTAACCTGCCGCGTTTCAACCGCCAACAGGTCCGCCTGCTGCTGGTGGAACGGCGCGTACGGATCGACGACCAGACCGTCATCGATCCACAGGCACAGGTGCGTGAATTCAGCCGCGTCGAGGTGGATGACGAAGTGCTGCAAGCAGGCCGACCGGCGCGCTATTTCATGCTGCACAAGCCGCCCGGCTGCGTGAGTGCCACCCGCGATCCGCAGCACCGCACCGTCCTCGATCTGCTGGACGAACCGGACAAGGACGACTTGCACATCGCCGGTCGCCTGGACTTCAACACCACCGGGCTGATGCTGATCACCAACGACGGCAGCTGGTCGCGGCGCCTGACCCAGCCGCAGACCAAACTGCCGAAGGTCTACTACGTCGAGACCGAGCAAACCATTACCGCCGAGTACGCCTTCACGTTTGCCCAAGGCCTGTACTTTGCGTTCGAAGACCTCACCACCCAACCGGCGCAATTGACCCAACTGGGGCCGACATCCGCGCGCTTGAGCATCGTTGAAGGCCGTTATCATCAGGTCAAGCGCATGTTTGGTCACTTCAACAACAAGGTGCTGCGCCTGCACCGTGAAAGCATGGGCCCGCTGCTGCTGGACGCTGATCTCGCACCGGGCCAATACCGCGCCTTGAGCCCAGAAGAAGTTGGCCTGATCTGA	MRVDRFLSNLPRFNRQQVRLLLVERRVRIDDQTVIDPQAQVREFSRVEVDDEVLQAGRPARYFMLHKPPGCVSATRDPQHRTVLDLLDEPDKDDLHIAGRLDFNTTGLMLITNDGSWSRRLTQPQTKLPKVYYVETEQTITAEYAFTFAQGLYFAFEDLTTQPAQLTQLGPTSARLSIVEGRYHQVKRMFGHFNNKVLRLHRESMGPLLLDADLAPGQYRALSPEEVGLI				NA	NA	NA	NA	NA
D1-35_01752	219			hypothetical protein	ATGAATAAACCCGATCTCTGCCCGGCGTGCGGCGCCACCAACGACTGCACCCTGGCCAATCCGAAAACCGTTGATCGTGCCTGCTGGTGCTATGGCGTGAGCATCGACCCGGCGGTGCTGGAAAATTTGCCGGCCGAGCTGCGCAACCAATCCTGCCTGTGCCCGCGATGCGCCCGGGTCGATGACCAGTTGCGCGCCAAGCACCAACCGATCGCGTAA	MNKPDLCPACGATNDCTLANPKTVDRACWCYGVSIDPAVLENLPAELRNQSCLCPRCARVDDQLRAKHQPIA				NA	NA	NA	NA	NA
D1-35_01753	747	dosC		Diguanylate cyclase DosC	ATGTCGCTTCGTTCGCCGTTGTATTCCCAGCGCTCGCCGGTGCTCATCCTGGCCATTTTGCTCGGCGCCGGCTTCCTGGTGACGTCGCTGCTGGGGTACTACGCCGCCAACACGTCGCTGCGGGACAACGTGCTCAAGACGCTGTATTTCAATCTGCTGATCGGCCTGCTGGTGACAGTGGCCGCGCTCGTGGTGCTGCATCGGCTGATGGTCAGCTATCAGCGGCGGATCGACGCCCAAGCGATTCTTGACGGCCTGACCGAGCTGCCCAATCGGCGGGGCTTCGACCTCCTGGCGGTGCAGGCCCTGCACGAAGCCCAACGCGAGCCCAGGCCATTGGGGGCGCTGTTGCTGGAGGTGGATGACTTCAAGCGACTGGACGCCAACCATGGCCACATCGCCAGTGATCAATTGCTCACTGGTTTCGCTCGCGACCTGACCGATACACTGCGCCATTCAGACATTGTCTGCCGCTGGAGCGCCGATGCCTTCGTCCTGCTGCTCAAGGACACCGATGGACAGAACGCTCTGAAAATCGCCGAGAAAATTCGCCAGCGCATCGAGCAACAGCGCTACTTTTGCAGCGGCAAGCAATTGCGGATCACCATCAGCATCGGCCTGACCACGTTGCAGGATAAAGACACCTTGCACAGCCTGCTGTCCCGGGCCGATCATGCGCTGCAACGCGCCCGACAGACCGGAAGCAACCGAACCTGCGTGGAAATGCCTCATTCCAGTTATGAATAA	MSLRSPLYSQRSPVLILAILLGAGFLVTSLLGYYAANTSLRDNVLKTLYFNLLIGLLVTVAALVVLHRLMVSYQRRIDAQAILDGLTELPNRRGFDLLAVQALHEAQREPRPLGALLLEVDDFKRLDANHGHIASDQLLTGFARDLTDTLRHSDIVCRWSADAFVLLLKDTDGQNALKIAEKIRQRIEQQRYFCSGKQLRITISIGLTTLQDKDTLHSLLSRADHALQRARQTGSNRTCVEMPHSSYE	PGPT0015900_2283	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-CELL_FATE_CONTROL	PUTATIVE-CELL_FATE_CONTROL-1,PGPT0015900-pleD-K02488
D1-35_01754	1779	atzF		Allophanate hydrolase	ATGACCTTCTCTCTGCGCCTGGACAACCTGCGCGACGCCTACCGCAAGGGTGAAACGACACCGCGCCAGCTGCTGTTGGCCCTGCGGGAAAAAGCCGCTGCGCTCAACCCGGACTATCACCTGTTCATCCACCTGCTCTCGCCCGAAGAACTCGAACCTTACCTTTCGGCACTGGAAAACCGCGACCTGGAAAGCCTGCCGTTGTATGGCGTGCCATTCGCGATCAAGGACAACATCGACCTGGCTGGCATTCCCACCACCGCCGCCTGCCCGGCCTTTGCCTACGTGCCGCAACGTTCGGCGAGCATCGTCGAGCAATTGCTGGCGCTGGGTGCGGTTCCTGTTGGCAAGACCAACCTCGACCAGTTCGCCACTGGCCTCAACGGTACCCGCACGCCCTACGGAGCTTGCCGCAACAGCGTGCTGGCCGACTACCCGGCGGGCGGCTCCAGCGCGGGCTCGCCGCTGGCGGTGGCCCTGGGCGTGGCCAGCTTTGCCCTGGGCACCGACACCGCCGGCTCCGGTCGCGTGCCTGCGGCGCTGAACAACCTGGTGGGGTTGAAAGCCACCAAGGGCCTTATCTCCACCGCTGGCGTGGTGCCGGCCTGCCGTACGCTGGACTGCGTGACCACATTCACCGCGACGGCGCGCGAAGCCAGCCAGCTGTTGGCATTGACTGCGCGTCTCGACCCGCGCGACGAATACAGCCGCCCCAACCCGCAATGGAACGACGGCTCGGCGTTCGGCGCACCACGACGTTTTCGCTTCGGCGTGCCCCGCCGGCAAGACCTGGAATTTTTCGACTTCGACGAAGGCCCACGGCTGTTCGCCGATGCCATCGAGCGCCTCGAACACCTGGGCGGCGAAGCTGTCGAGTTGGACTTGTCACCCTTCCTCGAAGCGGCACGCCTGCTCTATGAGGGGCCGTGGGTTGCCGAACGCTACAGCGTGGCCGGGGAACTGATGGAGCGCGAACCCGACGCGGTACTGCCGGTGATCCGCGCCGTGCTGGCGCAAGCGCCGACGGTGACCGGCGTGGAAACCTTCCGTGCCCAGTACCGTTTGCAGGCGCTCAAGGCCCAATGCGACCGCGCGATGGAAGCGCTCGATTGCGTCCTCACCCCGACCATCGGGCGCCCGGTGACGCTCGCCGAACTCGCCGCCGAACCGCTCCTGCGCAATTCGCAACTGGGTTACTACACCAACTTCATGAATCTGCTGGACTACGCCGCCGTGGCCGTTCCCAGCGCATTCATGGCCAACGGTTTGCCTTGGGGCGTGACGCTGTTCGGCCGCGCCTTCACCGATCAGTACCTGCTGAGCGTGGCCGACGCCTTGCAGCGTCAGCAAGCGCCTGATCTGCCAGTGCCTGCCAACCCGGCGCGCCATGATCGGGCACGGTTGGTCGTGTGCGGCGCGCACCTGGATGGGCTGGCTTTGAACTGGCAGCTCAAGCAACGTGGCGCCCGCCTGATCGAGGCGACCCGAAGCTCAGCGAATTATCGCCTCTACGCCTTGGCCGGCGGCCCGCCCCTGCGCCCTGGCATGCTTCGGGTCGGCGAGGGAGGCGTGGCGATCGAAGTGGAAGTCTGGGAATTGCCAAGCAGCGAGCTGGGTTCGTTCCTCACCGGTATCCCCGCACCGCTGGGGCTGGGTAAGGTGCAACTGGCCGACGGACGCTGGGAAAGCGGCTTCATTTGCGAGCCGTATGGTCTGGACGGCGCGCAGGACATCAGTCATCTGGGCGGATGGCGGGCTTATCTGAGTACCCGTCAGTAA	MTFSLRLDNLRDAYRKGETTPRQLLLALREKAAALNPDYHLFIHLLSPEELEPYLSALENRDLESLPLYGVPFAIKDNIDLAGIPTTAACPAFAYVPQRSASIVEQLLALGAVPVGKTNLDQFATGLNGTRTPYGACRNSVLADYPAGGSSAGSPLAVALGVASFALGTDTAGSGRVPAALNNLVGLKATKGLISTAGVVPACRTLDCVTTFTATAREASQLLALTARLDPRDEYSRPNPQWNDGSAFGAPRRFRFGVPRRQDLEFFDFDEGPRLFADAIERLEHLGGEAVELDLSPFLEAARLLYEGPWVAERYSVAGELMEREPDAVLPVIRAVLAQAPTVTGVETFRAQYRLQALKAQCDRAMEALDCVLTPTIGRPVTLAELAAEPLLRNSQLGYYTNFMNLLDYAAVAVPSAFMANGLPWGVTLFGRAFTDQYLLSVADALQRQQAPDLPVPANPARHDRARLVVCGAHLDGLALNWQLKQRGARLIEATRSSANYRLYALAGGPPLRPGMLRVGEGGVAIEVEVWELPSSELGSFLTGIPAPLGLGKVQLADGRWESGFICEPYGLDGAQDISHLGGWRAYLSTRQ	PGPT0001010_620	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_ATRAZINE|DERIVATE_DEGRADATION	XENOBIOTIC_CYANURIC_ACID_DEGRADATION,PGPT0001010-atzF-K01457	NA	NA
D1-35_01755	3630	carB_2		Carbamoyl-phosphate synthase large chain	ATGTTCGAAAAAATCCTGATTGCCAACCGTGGCGCCATTGCCTGCCGCATCCTGCGGACCCTGCGCGAGCTGGACGTCAAAGCCGTCGCCGTTTACTCCCAGGCCGACGAAGCCAGCCTGCACATCCTTCAGGCCGACGAAGCCCACTGCCTGGGCGAAGGCGCGGCGGCGGGCACCTACCTGGCGGTGGACAAGCTCCTGGCGATCGCCCGGGACAGCGGCGCGACCGCGATCCATCCCGGCTACGGTTTTCTCTCGGAAAACGCCGCTTTCGCACAAGCTTGCGAGGCCGCCAACATTGCCTTCATCGGCCCGACACCGGAGCAGTTGCGAGTGTTCGGCCTCAAGCACACCGCACGCGCCCTGGCTCGCCAGCACGGCGTGCCCCTGCTCGAAGGCACGGAGCTGCTCGACAGCCTGGATGCCGCGCTACTGGCCGGCGCGCAGGTCGGCTACCCGGTCATGCTGAAAAGCACGGCGGGCGGCGGCGGAATCGGCATGCGCGTATGCCGCAGCGCCGCTGAATTGAGCGAGTCCTTCGAAGCGGTCAAGCGCCTCGGGCAGAACAATTTCAGCGACGCCGGCGTGTTCATCGAGAAGTACATCGAACGGGCGCGGCACCTTGAGGTTCAAGTGTTCGGCGACGGCCAGGGCCAGGTGATCGCTCTGGGCGTGCGCGACTGCTCGGTGCAGCGGCGCAACCAGAAAGTCATCGAAGAAACCCCGGCGCCCAACCTGCCCGAGGGCATGGCCGACGCGCTTTGCGCTGCCGCGATCAAGCTGGCCCGGGCGGTCGACTACCGCAGCGTCGGCACCGTGGAGTTTGTCTATGACAGTGACACCGGGCGCTTCTATTTCTTGGAAGTGAACACACGCCTGCAAGTGGAGCATGGCGTCACCGAGCAGGTGTGGGGCGTGGACCTGGTGCGCTGGATGGTGCAATTGGCCGCCGGAGAACTGCCGCCACTGAGCGAACTGAGCCAAGGGCTGAAAGCCGAGGGCCACGCGATCCAGGCGCGCCTGTATGCCGAGGACCCAGGCCGGGATTTCCAGCCGAGCCCAGGGCTGCTGACTGCGGTGGAATTTGCGCAGGCCAACGGCAAGGAACTGCGCATCGACACCTGGGTCGAGGCCGGTTGCCAGATCCCGCCGTACTTCGATCCGATGATCGCCAAAGTCATTCGCTGGGCGCCGACCCGCGAGCAGGCACGCCTGGGCCTGCATCAAGCGCTGGACGAAAGCCTGCTCTATGGCGTGGAAACCAACCGTGTCTACCTGCAACAGATCCTGCTCGACGCGCCCTTCGCCGATGGCCAGCCCTGGACCCGCTGCCTGGAGACCCTGGCCTACCGCGCCAACACCGTCGAAGTGCTCAGCCCCGGCACTCAGACCAGCGTTCAGGATTACCCCGGTCGCCTCGGTTATTGGGCGGTGGGCGTGCCGCCGTCGGGACCGATGGACAGCCGTTCGTTGCGCCTGGGCAATCGCCTGCTGGGCAACGAGGAAGGTGTGGCGGCCTTGGAAATCACCATGAGCGGGCCGCTGCTGCGCTTCAACTGCGCTGCGCGAGTGGCGGTGACCGGCGCAGAAATCGCCCTGACGCTGGACGGCGAAACGGTGCCGATGGACACCCCGCTGTCGATCGGTGCAGGGTCCACCCTCGCCATCGGCACGATTACTGGCGCCGGGGCGCGGAGTTATCTGTGTGTACATGGCGGCTTGCAGGTACCGGATTACCTGGGCAGCAAAAGCACCTTCACCCTCGGCCAGTTCGGCGGCCACGGCGGGCGAGCATTGTGCACCGGCGACGTGCTGCACCTGGCTGCGTTGGATGAGCACGTCGTGGTGCCGTCGATCGAAGAGCCGCCCCTGGTGTTGCCAGCCGTGCGGCAGATCCGTGTGATCTACGGTCCCCACGGCGCGCCGGAATATTTCACCGAGCGCTACATCCAGACGTTCTTCGACACCGCCTGGGAAGTGCATTTCAACTCCAGCCGAACCGGCGTGCGGCTGATCGGGCCGAAGCCGGAATGGGTACGTGCCGACGGCGGCGAAGCAGGCCTGCATCCGTCCAATATCCATGACAACCCGTACGCCATCGGCGCGGTGGACTTCACCGGCGACATGCCGGTCATCCTCGGCCCCGACGGCCCGAGCCTGGGTGGCTTCGTCTGCCCCGTGACGGTGATCGAGGCGGACCTGTGGCAACTGGGACAGCTCAAGGCGGGGGACAAGGTGCGGTTTGTGCCGGTGGACCTGAAGACTGCCCGCTCACTGGCCTTGAAATGGGATCAATGTGGGAGCGAGCCTGCTCGCGAAGGGGCCAGATCAGACACCGCATTGACTGCTTCGCGAGCAGGCTCGCTCCCACAGGGGGTTGAGTCGCCTGTGGTTTTGGACATCGGCCAGGACGACACCCGCCTGGTCGCGCGGCTGTCCGGCGACACCCATCTGCTGCTTGAAATCGGCGCTCCGGAACTGGACCTGGTGCTGCGTTTTCGCGCTCACGCCTTGATGCAGGCCCTGGAGCAAAAACACCTGCAAGGGGTGATCGACCTGACGCCGGGTATTCGCTCGCTGCAAGTGCATTACCAGCCCGAACAATTACCCCTGGCCGATCTGCTGGCCATCGTCGCCGGCGAGTGGGACGCCGTGTGCGCCGCGCAAGATTTGCAGGTGCCGTCGCGCATCGTCCATCTGCCGCTGTCCTGGGACGATCCGGCCTGCCAGCTGGCGATCGAAAAGTACATGACCACCGTGCGCAAGGACGCGCCCTGGTGCCCGAGCAACCTGGAGTTCATCCGGCGCATCAACGACCTGCCCAACCTCGACGAAGTACAACGCACAGTGTTCGATGCCAGCTATCTGGTGATGGGCCTCGGCGATGTCTACCTCGGCGCGCCGGTCGCCACGCCGCTGGACCCGCGGCACCGGCTGGTGACCACCAAATACAACCCGGCCCGCACCTGGACCGCGGAAAATTCGGTGGGCATCGGCGGCGCCTATCTGTGCGTGTACGGCATGGAGGGCCCCGGCGGCTATCAGTTCGTCGGCCGCACGTTGCAGATGTGGAATCGTTATCGGGACGTCGCCGCATTTGACGGCAAGCCCTGGCTGCTGCGCTTCTTCGACCAGATCCGCTTCTACCCGGTCAGCGCCGATGAACTGCTGCGCATCCGTCGGGATTTCCCGTTGGGCCGCTTCGAACTGGCGATCGAACACAGCCAACTCAACCTCGCTGATTACCAGCGCTTCCTGGCCCGGGAAGCGGACAGCATCGACGCGTTCCGCGAGCAGCAACAAGGCGCCTTCCGTGCCGAGCGCGAGCGCTGGATCGCCAGTGGCCAGGCGCATTTCGACAGCGAGGAACCAGCAACCGCGCCGAGCGAAGATTCAGTGCTGGACGAGGGCCAACTGAGCGTCGACAGCCACATCGCCGGCAACCTCTGGCAGGTCCAGGTGGAGGTGGGCGCGCGGGTCATCGCGGGTGACGTGCTGGTGATTCTGGAGTCCATGAAAATGGAAATCCCGGTGCTTGCGCCCATCGCCGGCGTGGTCCGAGAAGTGCGCGTCCAGCCCGGTTCAGCGGTGCGCGCCGGGCAACGCGTGGTGGTGCTGGAACGTGACTGA	MFEKILIANRGAIACRILRTLRELDVKAVAVYSQADEASLHILQADEAHCLGEGAAAGTYLAVDKLLAIARDSGATAIHPGYGFLSENAAFAQACEAANIAFIGPTPEQLRVFGLKHTARALARQHGVPLLEGTELLDSLDAALLAGAQVGYPVMLKSTAGGGGIGMRVCRSAAELSESFEAVKRLGQNNFSDAGVFIEKYIERARHLEVQVFGDGQGQVIALGVRDCSVQRRNQKVIEETPAPNLPEGMADALCAAAIKLARAVDYRSVGTVEFVYDSDTGRFYFLEVNTRLQVEHGVTEQVWGVDLVRWMVQLAAGELPPLSELSQGLKAEGHAIQARLYAEDPGRDFQPSPGLLTAVEFAQANGKELRIDTWVEAGCQIPPYFDPMIAKVIRWAPTREQARLGLHQALDESLLYGVETNRVYLQQILLDAPFADGQPWTRCLETLAYRANTVEVLSPGTQTSVQDYPGRLGYWAVGVPPSGPMDSRSLRLGNRLLGNEEGVAALEITMSGPLLRFNCAARVAVTGAEIALTLDGETVPMDTPLSIGAGSTLAIGTITGAGARSYLCVHGGLQVPDYLGSKSTFTLGQFGGHGGRALCTGDVLHLAALDEHVVVPSIEEPPLVLPAVRQIRVIYGPHGAPEYFTERYIQTFFDTAWEVHFNSSRTGVRLIGPKPEWVRADGGEAGLHPSNIHDNPYAIGAVDFTGDMPVILGPDGPSLGGFVCPVTVIEADLWQLGQLKAGDKVRFVPVDLKTARSLALKWDQCGSEPAREGARSDTALTASRAGSLPQGVESPVVLDIGQDDTRLVARLSGDTHLLLEIGAPELDLVLRFRAHALMQALEQKHLQGVIDLTPGIRSLQVHYQPEQLPLADLLAIVAGEWDAVCAAQDLQVPSRIVHLPLSWDDPACQLAIEKYMTTVRKDAPWCPSNLEFIRRINDLPNLDEVQRTVFDASYLVMGLGDVYLGAPVATPLDPRHRLVTTKYNPARTWTAENSVGIGGAYLCVYGMEGPGGYQFVGRTLQMWNRYRDVAAFDGKPWLLRFFDQIRFYPVSADELLRIRRDFPLGRFELAIEHSQLNLADYQRFLAREADSIDAFREQQQGAFRAERERWIASGQAHFDSEEPATAPSEDSVLDEGQLSVDSHIAGNLWQVQVEVGARVIAGDVLVILESMKMEIPVLAPIAGVVREVRVQPGSAVRAGQRVVVLERD	PGPT0001005_218	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0001005-uca|dur|urd-K01941	NA	NA
D1-35_01757	642			hypothetical protein	ATGTCACTCGCCATCGCCACTGCACACAAGCAACCCGAGACCGCCGTATACCGTTCCACGATTCCCGCCGGCGAACCCTGGCTGACCGAGGTCAAGGCCGGCCAGACCCTGCGCATCCTCGACCTGGAAGGCAACCAGGCGGTCGATACGTTGTTCTACAGCCTGGCCAACCCCAAGGAACGCTACGACGTGCAACGCACACTGCGCCGGCAGAACAGCGTCTACCTGAGCACCGGCAGCGTGCTGTATTCCAACCTTGGCCGCCCGATGCTGACCATCGTCGAGGACACCTGCGGGCGCCACGACACCCTCGGCGGCGCCTGCGCGCAGGAAAGCAACACCGTGCGCTACGCCCTGGAAAAACGCTACATGCACAGCTGCCGCGACAATTACCTGCGGGCCTGCGCCCACGACGGTCGACTGGGCAAGGGTGACATCGGACCGAACATCAATTTTTTCATGAACGTGCCGGTGACCGCCGACGGCGGCCTGACTTTCGAAGACGGGATCTCGGCGCCGGGCAAATACGTCGACCTGCGGGCCGAGATCGATGTGATCGTGTTGATCTCCAACTGCCCGCAACTGAACAACCCGTGCAACGCCTACAACCCTACCCCTGCGGAGCTGCTGATATGGAACTGA	MSLAIATAHKQPETAVYRSTIPAGEPWLTEVKAGQTLRILDLEGNQAVDTLFYSLANPKERYDVQRTLRRQNSVYLSTGSVLYSNLGRPMLTIVEDTCGRHDTLGGACAQESNTVRYALEKRYMHSCRDNYLRACAHDGRLGKGDIGPNINFFMNVPVTADGGLTFEDGISAPGKYVDLRAEIDVIVLISNCPQLNNPCNAYNPTPAELLIWN	PGPT0001000_1266	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0001000-ycgI-K09967	NA	NA
D1-35_01758	726			hypothetical protein	ATGACCGATTCGATCCAGCTGTTTCCCCCCTTCGCCGAAGAATTGCTGCCCGGTGGCGGCCATCGCTCGTTCGTCCTCAAGCGAGGCCAGTTGCTGCGCCTGACCGATGTGCGTGGCGGTGCCAACGTGAGCCTTACCTTGCTCAATGCCAACGAAAAAACCGAGCGCCTGAACCTGCCGGACAGTCTGAAATGCCAACACACCGCCAAGCTCACCGCCGGTCATTGCCTGTATTCGGACATGGGCCGGGTATTGGCGGCAATCACTGCGGATACCTGTGGCTGGAGCGATAGTTTTGGCGGCGTGCTCTGCGCCGAGGAAGTCGCTGAAAAGTATGGTCAGGGCCGTTACCAGGAACTGCGCAACGGCTTCTTCCGCAACGGCACCGACAACCTGTTGGTAGAACTGGGCAAATGGGGGTTGGGTCTGTCCGACCTGCTGATGACCCTCAACCTGTTCAGCCGGGTCGATGTCGACGAGGCCGGCCACTTCCATTTCGTGGAGGGCAACTCCAAGGCCGGTGACTACATCGAGCTGTACGCACCGATGGACACCCTGGTGGTGCTGACCGCGCTGCAACATCCGATGGACCCGAACCCGCTATACGCGCCGCAGCCGCTCAAACTCAGCTGGATGAACGCCAACCCCAGCGTCGCCGAACACTGCCGCCAATCGCGCCCGGAAAACCAGCGCGGCTTCATCAACACCGACCGCCTGTTCGCCTGA	MTDSIQLFPPFAEELLPGGGHRSFVLKRGQLLRLTDVRGGANVSLTLLNANEKTERLNLPDSLKCQHTAKLTAGHCLYSDMGRVLAAITADTCGWSDSFGGVLCAEEVAEKYGQGRYQELRNGFFRNGTDNLLVELGKWGLGLSDLLMTLNLFSRVDVDEAGHFHFVEGNSKAGDYIELYAPMDTLVVLTALQHPMDPNPLYAPQPLKLSWMNANPSVAEHCRQSRPENQRGFINTDRLFA	PGPT0001000_758	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0001000-ycgI-K09967	NA	NA
D1-35_01759	789	cmpD_1		Bicarbonate transport ATP-binding protein CmpD	ATGAGCTTCATTACCGTGAACAACGTCTGGCAGCAGTATGCCGATCAAGTGGTGCTCGAGCGCTTGAACCTGAGCGTTGCCGAGGGTGAGTTCTGCACCCTGGTGGGTGCCTCGGGTTGCGGCAAGTCGACTTTCCTGCGGCTGCTGCTGGGCCAGGAACGCGCCAGTCGCGGACAGATCCTGCTGGACGGCGAGCCGTTGGCGGGCGAGCCGGATGCCAGCCGTGGAGTAGTGTTCCAGCGTTACTCGGTATTCCCGCACCTGACGGTACTGGACAACGTCGCCCTCGGCCTGGAATTGCCGCGCTCGCCGTTGCTGGGGCGTCTGTTCGGCGGCGCCAAACGCCAGGCCCGCGAAGACGCCGCACAACTGCTGGACAAAGTCGGCCTCGGCCACGCGCTGGACAAATACCCTGCGCAGCTCTCCGGCGGCATGCAGCAACGGCTGGCCATCGCCCAGGCGCTGATCATGAAGCCGCGGGTGTTGTTGCTCGACGAACCCTTCGGCGCCCTCGACCCCGGCATTCGCAAAGACATGCATGCCCTGCTGCTGGAACTCTGGCGGGAAACCCGGCTGACCGTGTTCATGGTGACCCATGACCTGTCCGAAGGTTTCAGCCTTGGCACCCGCCTGCTGGTGTTCGACAAGGTTCGTGTCGATCCCCATGCCCCCGGCGCCTATGGCGCACGCATCACCTACGACATCCCACTGAACAGCGACCGCCGCACCGCCCGTGCCGCCGTCGACGCCCTGCCTGCCGAACTGGCCGGCACGTTGCGTATCGCTTGA	MSFITVNNVWQQYADQVVLERLNLSVAEGEFCTLVGASGCGKSTFLRLLLGQERASRGQILLDGEPLAGEPDASRGVVFQRYSVFPHLTVLDNVALGLELPRSPLLGRLFGGAKRQAREDAAQLLDKVGLGHALDKYPAQLSGGMQQRLAIAQALIMKPRVLLLDEPFGALDPGIRKDMHALLLELWRETRLTVFMVTHDLSEGFSLGTRLLVFDKVRVDPHAPGAYGARITYDIPLNSDRRTARAAVDALPAELAGTLRIA	PGPT0001140_5213	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
D1-35_01760	816			hypothetical protein	ATGCGCCTGATCAACCGCTACCCCGATCGCCCCAGCCGCTTGTTGCTGGTGATCCTGCCATTTGCGCTGGTGCTGTTTGCCTACTTCATGGGCTCGGCGGAACGGCTGACGGACAACCCCAACGACAAGCTGCTGCCCAGCGCTGTGCAGATGGCCGATGCAGTCAAACGCCTGGCGTTCACCGCCGACGCTCGCAGCGGCGATTACCTGCTCTGGCAGGACACCGCTTCGAGTCTGCGCCGGTTGGCGATCGGCCTGGGCATCAGCGCCCTGGCCGGGCTGTGCCTGGGCATCGCCGCCGGCACGCTGCCGCTGTTCGGCGCGCCGTTGTCGCCGCTACTCACCGTGGTGTCGATGGTGCCGCCATTGGCGATCCTGCCGATCCTGTTCATCGTCTTCGGCCTGGGGGAGTTGTCCAAGGTGATGCTGATCGTCATCGGCATCACCCCGTGCCTGGCCCGCGACCTGGAGCAGCGTGCCCGGGAAATTCCGCCTGAGCTATTGATCAAGGCCCAGACGCTGGGTGCCTCGACCTGGACCCTGATGTTGCGGGTGGTCCTGCCGCAATTGCTGCCGCGCCTGTTGATTTCCCTGCGGCTGATGCTGGGTTCGGCCTGGCTGTTCCTGATCGCTGCCGAAGCCATCGCTTCCACCGATGGCCTGGGCTATCGGATTTTCCTCGTGCGTCGTTACCTGGCGATGGATGTGATCCTGCCCTACGTGGTGTGGATCACCCTGCTCGCCTGGCTGATGGACTGGGGCCTCAAGCGCCTGACCCGCCGAGCATTTCCCTGGTACGAGGGGGCGAAGGCATGA	MRLINRYPDRPSRLLLVILPFALVLFAYFMGSAERLTDNPNDKLLPSAVQMADAVKRLAFTADARSGDYLLWQDTASSLRRLAIGLGISALAGLCLGIAAGTLPLFGAPLSPLLTVVSMVPPLAILPILFIVFGLGELSKVMLIVIGITPCLARDLEQRAREIPPELLIKAQTLGASTWTLMLRVVLPQLLPRLLISLRLMLGSAWLFLIAAEAIASTDGLGYRIFLVRRYLAMDVILPYVVWITLLAWLMDWGLKRLTRRAFPWYEGAKA	PGPT0001145_5042	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
D1-35_01761	1068			hypothetical protein	ATGCTCAAGCTTCGTCTGTCCTCACTGCTCCTCGCCGCGCTTGCGGCCTTCGCGAGCATCCCATCCCACGCCGCGCCCAAGGACCATTTCAACGTCTGCTGGACCATCTATGCCGGCTGGATGCCCTGGGAATACGCCGGCAGCCAGGGCATCGTTGACAAATGGGCGAAGAAATACGGCATCACCATCGATGTCGTGCAGCTCAACGATTACGTCGAGTCCATCAACCAGTACACCGCCGGTCAGTTCGATGGCTGCACCATGACCAACATGGATGCCCTGACCATTCCCGCCGCCGGCGGCGTGGACAGCACCGCACTGATCGTCAGTGACTTCTCCAACGGCAACGACGGCATCGTCCTCAAGGGCGAGGGCAAGAAAGTCGCCGACCTCAAGGGCATGGACGTCAATCTGGTGGAACTGTCGGTGTCCCACTACCTCTTGGCTCGGGCCCTGGATTCGGTCGGCCTCGCCGAGAAAGACCTGAAAGTCGTCAACACCTCCGACGCCGATATTTCTGCCGCCTTCAACACCGACTCGGTCAAGGCCGTCACGACATGGAACCCGATGCTCTCGGACATCAAGGCCCAGCCGGGTGTCAGCGAAGTATTCAACTCCAGCCAGATCCCAGGCGAAATCATGGACATGATGGTGGTCAACACTCAGACCCTCAAAGACAACCCGGCCCTGGGCAAGGCACTGACCGGCGCCTGGTTCGAAGTGGTGGCGCTGATGAACGCCAGGAACGCAGCCGCCAATGCCGCGCTGGAACACATGGCCAAGGCGTCGGGTACTGATCTCAAAGGTTTCCAGGCGCAACTGGACACTACCAAGCTGTTCGCCACCCCCAAGGAAGCCCTCGCCTTCGCCACCAGCGAACAACTGCCCGCCACCCTGCGCAAGGTCGCCGAGTTCTCGTTCCGCCACGGTCTGCTGGGTGAAGGCGCCAAGGATGCCGACGCAGTGGGCATGGCGTTCGCCAATGGCGTGACCCTGGGCGACAAAACCAACCTCAAGCTGCGCTTCGATCCCACCTACGTGCAACTGGCCGCCGACGCCAAGTTGTAG	MLKLRLSSLLLAALAAFASIPSHAAPKDHFNVCWTIYAGWMPWEYAGSQGIVDKWAKKYGITIDVVQLNDYVESINQYTAGQFDGCTMTNMDALTIPAAGGVDSTALIVSDFSNGNDGIVLKGEGKKVADLKGMDVNLVELSVSHYLLARALDSVGLAEKDLKVVNTSDADISAAFNTDSVKAVTTWNPMLSDIKAQPGVSEVFNSSQIPGEIMDMMVVNTQTLKDNPALGKALTGAWFEVVALMNARNAAANAALEHMAKASGTDLKGFQAQLDTTKLFATPKEALAFATSEQLPATLRKVAEFSFRHGLLGEGAKDADAVGMAFANGVTLGDKTNLKLRFDPTYVQLAADAKL	PGPT0001135_1786	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
D1-35_01763	420			hypothetical protein	ATGTATCGACGACTGCTGCTCATTGCGTTTCTCGGTTTGACTCTTTCGGCCTGCGTGCCTTACTCCGACGGAGGCTCCAGCTACTACCGTTCCGAGGTCTACACCTCACCGGCGCCGGTCTATTACAGCGGCGGTGGAAGTTACTACTCGGCACCGCGTGGCTATTACGCACCACCACGGTACTACCAGCCGGCGCCGCGTTATTACTCGGCTCCACGCTACTACCAGCATGGCCCACGCTATTACTCGCCACCGCGAGCGGCGTATCGCCCCTATCCGCATCGGGGCGGTTGGGACGGCCGGGACCGGGGCGGCTGGAATGACGACCGTCGCGGCCGGGGCGGACGTGACCGTGGGCATGATCATCGGGGACGTGGCCATGATGGACGTGGTCATGACGGACGGGGCGGTCACCGCTGA	MYRRLLLIAFLGLTLSACVPYSDGGSSYYRSEVYTSPAPVYYSGGGSYYSAPRGYYAPPRYYQPAPRYYSAPRYYQHGPRYYSPPRAAYRPYPHRGGWDGRDRGGWNDDRRGRGGRDRGHDHRGRGHDGRGHDGRGGHR				NA	NA	NA	NA	NA
D1-35_01764	1113	fadJ_1		Fatty acid oxidation complex subunit alpha	ATGAATCTGCACTTCGAAGAACTGACCGGCATCAACGGGGCGCGCCTGGGCGTCGCCACCCTGGATGCCGAAAGATCCTTGAACGCCCTTTCCCTGCCGATGATCAACGCCCTGCGCGATCGCCTCGACGCCTGGGCCCGGGAATCGCAGATTGTCTGTGTGCTGTTGCGCGGCAATGGTGCCAAGGCCTTCTGCGCCGGTGGCGAGGTGCGCAGCCTGGTCGAAGCGTGTCGCGCCCACCCCGGCGAAGTGCCGCCGCTGGCTGCGCAGTTTTTCGCTGCCGAATACCGGTTGGACTTCAATCTGCACACGTATCCGAAACCGTTGATCTGCTGGGGGCATGGCTATGTACTCGGCGGCGGCATGGGCCTGCTGCAAGGCGCCAGCACGCGAATCGTCACGCCGAGCAGTCGACTGGCGATGCCGGAAATCAGCATCGGCTTGTATCCGGACGTCGGCGCCAGTTGGTTCCTGTCGCGCCTGCCGGGCAAGCTTGGCCTGTTCCTCGGCCTTACCGGCGCCCACATGAACGCCAGGGATGCCATCGACCTGGGCCTGGCCGATCGCTTTCTGCTCGATGAGCAGCAGGATGACCTGATCGAAGGCTTGTTGCAGCTTAACTGGCAAGAACAGACCGAGATGCAGCTCAACAGCCTGCTCAAGGCTCTACAGCAAGAAGCACTGCCGCAACAACCCGAAGCCCAATGGTTGCCGCGTCGGCAGCAAATCGATGAGTGGCTGGATGTCAGCGACGTGCGCTGCGCCTGGAAAGCCCTCAGCCTGCTGGTGGATCATCCGGACCCATTGATCGCCCGGGCAGCCAGGACCATGACCGAAGGCTCGCCGCTGACGGCGCACCTGGTCTGGGAGCAGATCAGCCGCGCCCGCCCTTTGTCATTGGCCGGTGTGTTCCGCATGGAATACACCTTGAGCCTCAACTGCTGCCGCCATCCGGAATTCAGCGAAGGCGTGCGGGCGCGGTTGATCGACAAGGACCACAAGCCGCGCTGGCATTGGCCGGATATCAATCATGTGCCGCAAGCGGCGGTCGAGGCGCATTTCCATAAGGTATGGGAGGGGCGGCATCCGTTGGCGGATTTGTCCAATGAGTAA	MNLHFEELTGINGARLGVATLDAERSLNALSLPMINALRDRLDAWARESQIVCVLLRGNGAKAFCAGGEVRSLVEACRAHPGEVPPLAAQFFAAEYRLDFNLHTYPKPLICWGHGYVLGGGMGLLQGASTRIVTPSSRLAMPEISIGLYPDVGASWFLSRLPGKLGLFLGLTGAHMNARDAIDLGLADRFLLDEQQDDLIEGLLQLNWQEQTEMQLNSLLKALQQEALPQQPEAQWLPRRQQIDEWLDVSDVRCAWKALSLLVDHPDPLIARAARTMTEGSPLTAHLVWEQISRARPLSLAGVFRMEYTLSLNCCRHPEFSEGVRARLIDKDHKPRWHWPDINHVPQAAVEAHFHKVWEGRHPLADLSNE				NA	NA	NA	NA	NA
D1-35_01765	693	ung	COG0692	Uracil-DNA glycosylase	ATGACCGCTGACGACCGTATCAAACTCGAACCCAGCTGGAAGCAGGCACTGCGTGCCGAGTTCGACCAGCCGTACATGGCGGAGTTGCGCGAGTTCCTGCGCAGTGAATACGCCGCCGGCAAGGAAATCTATCCGCCGGCCCCGCTGATTTTTAATGCACTCAATTCCACGCCGCTGGACAAGGTCAAGGTGGTGATCCTCGGCCAGGACCCGTACCACGGCCCGGGCCAGGCCCATGGCTTGTGCTTTTCGGTGCAGCCGGGCGTGCCGACGCCGCCGTCGCTGGTGAACATCTACAAGGAATTGAAGCGCGACCTGAACATCGATATCCCCAACCATGGCTATCTGCAGAGCTGGGCCGACCAGGGTGTGTTGTTGCTCAACACGACCTTGACCGTGGAGCGCGCCAATGCCAATGCCCACGCTAAAAAAGGCTGGCAGCACTTTACCGACAAGGTCATCGAAGTGGTCAGCGAACACCAGCCGCACCTGGTTTTCCTGCTGTGGGGGGCTCATGCCCAGAGCAAGCAGAAGCTGATCGATGCGACCAAGCATCTGGTGTTGACCTCGGTCCACCCGTCACCGCTGTCAGCCCATCGGGGCTTTATCGGCTGCGGGCATTTCAGCCGGACCAACAAGTTTCTCCAGCAGCATGGCGAGCAGCCGATCGATTGGCGGTTGCCGCCGGTTTAG	MTADDRIKLEPSWKQALRAEFDQPYMAELREFLRSEYAAGKEIYPPAPLIFNALNSTPLDKVKVVILGQDPYHGPGQAHGLCFSVQPGVPTPPSLVNIYKELKRDLNIDIPNHGYLQSWADQGVLLLNTTLTVERANANAHAKKGWQHFTDKVIEVVSEHQPHLVFLLWGAHAQSKQKLIDATKHLVLTSVHPSPLSAHRGFIGCGHFSRTNKFLQQHGEQPIDWRLPPV	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
D1-35_01766	1044			hypothetical protein	ATGTCTGAGGCGACAACTTTCAGACAATGGTGGGGAACACCGCTGGTCGGTCTGGCCGGCGGTTATCTGGCCAGCCTGATCGGCTGGCCCTTGCCCTGGATGGTCGGCTCGCTGTTGGCGATCATCCTGGTGCGCTGTCTAACTCCCTGGCAACTGATGGAAATCCCCGGCGGCCGCAAATGCGGCCAATGGGTGGTGGGCATCGGTATCGGCCTGCACTTCACGCCGGTGGTGATGGAACAGGTCCTCAGCCACTTCGGCCTGATCTTCTTCGGCGCGCTGATCACCAGCGTGTCCAGCATCGTGAGTGTCTGGCTGATGCGCCGCACCGGCGAAGACCGCGCCACGGCCTTTTTCTCCAGCATGCCGGGCGGTTCCGGCGAGATGGTCAACCTCGGCGCCCGCAATGGCGCGATGCTCAGCCATGTTGCCGCGGGCCAGAGCCTGCGCGTGCTGGTGGTGGTGTTGTGCGTGCCGGCTGCCTTCAAATATCTGCTCGGTGACGGCACGCCGGTGCAACACGCCACGGCGGTGGATTGGTTGTGGCTGGCGGTTCTGTTTCCGGCGGGTGCCCTGCTCGCCTGGATCTGGGAGCGCTTGCGCCAACCCAATCCATGGCTGTTCGGGCCCTTGTTGGTCAGCGCGGCGGTGAGCATCGGCTGGGACCTGCACATCGGCCTGCCCGACGGCGGCAGCCAGATCGGCCAATGGCTGATCGGCAGCGGCCTGGGCTGTCATTTCAACCGGCAGTTCTTCCGCCGCGCACCGTCGTTCATGGGTCGTACCTTGATTGGCACGGTGCTGACCATGCTGATCGCCACGCTTGCGGCCCTGGGCCTGAGCACCTGGACCCACCTGGACTTGCGCTCGCTGACCCTGGGCATGATGCCCGGCGGCATCGCCGAAATGAGCCTGACGGCGGAGACCCTGCAACTGTCGGTGCCGTTGGTGACGGCGCTGCAGGTGATGCGGTTGCTGTTCGTGCTGTTTCTGGCGGAGCCGTTGTTCAGGTATTGGGTTCGCAGGCCGGATCCGGACTTGTAG	MSEATTFRQWWGTPLVGLAGGYLASLIGWPLPWMVGSLLAIILVRCLTPWQLMEIPGGRKCGQWVVGIGIGLHFTPVVMEQVLSHFGLIFFGALITSVSSIVSVWLMRRTGEDRATAFFSSMPGGSGEMVNLGARNGAMLSHVAAGQSLRVLVVVLCVPAAFKYLLGDGTPVQHATAVDWLWLAVLFPAGALLAWIWERLRQPNPWLFGPLLVSAAVSIGWDLHIGLPDGGSQIGQWLIGSGLGCHFNRQFFRRAPSFMGRTLIGTVLTMLIATLAALGLSTWTHLDLRSLTLGMMPGGIAEMSLTAETLQLSVPLVTALQVMRLLFVLFLAEPLFRYWVRRPDPDL	PGPT0027725_1267	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-AbrB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027725-antitoxin_abrB-K07120	NA	NA
D1-35_01767	1515			hypothetical protein	ATGGATACCCTGAATTATCTCGGCCAGGGTTTTGGCGTTGCACTGACGCCGTACAACCTCGTCACCGCGTTGAGCGGCACGCTGATCGGTACCGTGGTCGGCCTGCTGCCGGGCCTGGGCCCGATCAACGGCGTGGCGCTGCTGATACCGATTGCCTTCGCCCTGGGCCTGCCGCCGGAATCGGCGCTGATCCTGTTGGCGGCGGTGTACCTGGGCTGCGAATACGGCGGACGTATCAGCTCGATCCTGCTGAACATCCCCGGTGAAGCCTCCACCGTGATGACCACCCTGGACGGCTACCCGATGGCCCGCCAAGGCCTGGCCGGGGTGGCGTTGTCGCTGTCGGCGTGGAGTTCGTTCATCGGCGCGTTCATTGCCACCTGCGGCATGGTGTTGTTTGCGCCACTGCTGGCCAAATGGGCGATCGCCTTCGGACCAGCGGAATATTTCGTCCTGATGGTGTTTGCCATTGTCTGCCTCGGCGGCATGGCCGGCGACCGACCGCTCAAGACTTTCATCGCTGCGCTGATCGGGCTGTTCCTGTCTTGCGTCGGCATCGATGCGAACAGCGGCGTGTACCGTTTTACGGGTGACAACATCCATTTGACCGATGGCATCCAGTTCGTCGTGCTGGTGCTGGGCCTGTTCTCCATCAGCGAGATTCTGTTGCTGCTGGAAAAAACCCATCGCGGCCAGGAAGCGGTGAAAGCCACCGGGCGGATGATGTTCAACTTCAAGGAAGCGGCCTCGGTGTTCTGGGTGAACATCCGCTGCGGCGTGCTCGGTTTCATCATGGGCGTATTGCCTGGCGCGGGCGCGACCCTGGCCAGTGCCGTGGCCTACATGACCGAAAAACGCATGGCTGGAGCCAGTGGGACGTTCGGCCAGGGCGACAAGCGTGGCCTCGCGGCGCCGGAAACCGCCATCGGCGGCGCGGCCTGCGGCGCGCTGGTGCCGATGCTGACCCTCGGCGTCCCAGGTTCCGGCACCACGGCGGTGATGATCGGCGCGCTGTCGCTCTATAACATCACGCCCGGCCCGCTGCTGTTCCAGCAACAGCCGGACATCGTCTGGGGCCTGATCGCTTCGTTGTTCGTCGCCAACGTCATGCTGGTGATCCTCAACATCCCGATGATTCGTATCTTCACCCGCATCCTGGCCGTGCCGAACTGGGCGCTGGTGCCGGTCATCGCGATCATCACCGGGATCGGCGTTTACGCGGTGCACGCGACCACATTCGACCTGTTCCTGATGATCGGCATCGGCATCTTCGGTTACATCCTGCGCAAGCTGGATTTCCCGCTGTCGCCCGTGCTGCTGGGCTTCATCCTTGGCGGTCTGATGGAGCAGAACCTGCGTCGTGCATTGTCGATTTCCAATGGCGCGTTGGAAATCCTCTGGTCCAGCCCGATCACCTTCGGCTGCTGGGTCCTGACGGCAATCATGCTGTTCCTGCCGCTGCTGCGCATCTGGCGTCGTCGCAGTGCCCAGCGTCGTGCCCTGGCCAATGTCTGA	MDTLNYLGQGFGVALTPYNLVTALSGTLIGTVVGLLPGLGPINGVALLIPIAFALGLPPESALILLAAVYLGCEYGGRISSILLNIPGEASTVMTTLDGYPMARQGLAGVALSLSAWSSFIGAFIATCGMVLFAPLLAKWAIAFGPAEYFVLMVFAIVCLGGMAGDRPLKTFIAALIGLFLSCVGIDANSGVYRFTGDNIHLTDGIQFVVLVLGLFSISEILLLLEKTHRGQEAVKATGRMMFNFKEAASVFWVNIRCGVLGFIMGVLPGAGATLASAVAYMTEKRMAGASGTFGQGDKRGLAAPETAIGGAACGALVPMLTLGVPGSGTTAVMIGALSLYNITPGPLLFQQQPDIVWGLIASLFVANVMLVILNIPMIRIFTRILAVPNWALVPVIAIITGIGVYAVHATTFDLFLMIGIGIFGYILRKLDFPLSPVLLGFILGGLMEQNLRRALSISNGALEILWSSPITFGCWVLTAIMLFLPLLRIWRRRSAQRRALANV	PGPT0017350_1491	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017350-tctA-K07793	NA	NA
D1-35_01768	462			hypothetical protein	ATGCTCGTCATCCAACGTATTATTGCCGCGGTGCTGCTGCTGGCCTGCATCGGCCTGGCACTGATGGCCTGGCCCTATCAGGCTGCCTTTTCCTATGAACCGGTTGGCCCGCGTGCCTTTCCCCTGCTGATACTCGGGCTGATGGGGCTGGCGCTGCTGTACATGCTGTTTCGTCCCACGCCCGTCGTGCACAGCGAAGACGATCCGCACCTGGACCGTGAAACCCTGCAGAAGATCGGTATCTGCGTGGCGCTGTTGCTGGTATTCGCCGGGACCTTCGAGCCCTTGGGATTCATCCTCGCCAGCATTCTGATCGGCGTGCCGATGGCACGTCTGTACGGCGGCCGCTGGGTGCCGAGCGTGGTGATCATCAGCCTCATGGCCATTGGTCTTTATCTGTTGTTCGACAAGCTGATGGACGTGCCGCTGCCCCTGGGCCTGCTCGGCGTCCTGGAGAATTGA	MLVIQRIIAAVLLLACIGLALMAWPYQAAFSYEPVGPRAFPLLILGLMGLALLYMLFRPTPVVHSEDDPHLDRETLQKIGICVALLLVFAGTFEPLGFILASILIGVPMARLYGGRWVPSVVIISLMAIGLYLLFDKLMDVPLPLGLLGVLEN	PGPT0017355_1912	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017355-tctB-K07794	NA	NA
D1-35_01769	993			hypothetical protein	ATGAACCTATCACTGCGCAAAGTAGCCTTGGCCGCCGGATGCCTGATGTTCGCCGGGCAATTGCTCGCCGCGGACCCATCCAAAGAGCCGAAGCGCCCGGAATGCATCGCACCCGCTGCCCCTGGCGGCGGTTTCGACCTGACCTGCAAACTGGCGCAGAGCGCGCTGGTCAACGAAAAACTGCTGACCAAGCCGATGCGCGTCACTTACATGCCCGGCGGTGTCGGCGCGGTGGCCTACAACGCAGTCGTCGCACAACGCCCTGCCGACGCCGGCACGCTGGTGGCCTGGTCCAGTGGCTCGTTGCTGAACCTGGCGCAAGGCAAGTTTGGCCGTTTTGATGAAACCAATGTGCGCTGGCTCGCTGCCGTCGGCACCAGCTATGGCGCCATCGCCGTGAAAAGCGATTCGCCCTACAAAAACCTCGACGATCTGGTACAGGCCCTGAAGAAAGATCCGGGCTCGGTGGTGATCGGTTCCGGCGGTACCGTCGGCAGCCAGGACTGGATGCAGACCGCTTTGATTGCCAAGGCCGCCGGCATCGACCCGCGCAAACTGCGCTACGTGGCCCTTGAAGGCGGCGGTGAAATCGCGACCGCCCTGCTCGGTGGCCATATCCAGGTGGGCAGTACCGACATCTCCGACTCCATGCCACACATCCAGAGCGGCGACATGCGTTTGCTGGCGGTGTTCTCTGATAAACGCCTGGACGAGCCGGAGATGAAAGACATCCCGACCGCCGTGGAACAAGGCTACGACATCCGTTGGCCGGTAGTCCGTGGCTTCTACCTGGGCCCGAAGGTCACCGATGCAGAATACGAATGGTGGAAAAACGCCTTTGACAAGCTGCTGGCCTCCGAAGAGTTCGCCAAGCTGCGCGACCAACGGGAACTGTTCCCGTTCGCCATGACCGGTCCGGAGCTGGACGCCTACGTGAAGAAGCAAGTGGCCGACTACAAGATGCTGGCCAAAGAATTCGGCCTGATTCAGTAA	MNLSLRKVALAAGCLMFAGQLLAADPSKEPKRPECIAPAAPGGGFDLTCKLAQSALVNEKLLTKPMRVTYMPGGVGAVAYNAVVAQRPADAGTLVAWSSGSLLNLAQGKFGRFDETNVRWLAAVGTSYGAIAVKSDSPYKNLDDLVQALKKDPGSVVIGSGGTVGSQDWMQTALIAKAAGIDPRKLRYVALEGGGEIATALLGGHIQVGSTDISDSMPHIQSGDMRLLAVFSDKRLDEPEMKDIPTAVEQGYDIRWPVVRGFYLGPKVTDAEYEWWKNAFDKLLASEEFAKLRDQRELFPFAMTGPELDAYVKKQVADYKMLAKEFGLIQ	PGPT0017360_1031	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017360-tctC-K07795	NA	NA
D1-35_01770	672	tctD_1	COG0745	Transcriptional regulatory protein tctD	ATGCGTGTCCTGCTCGTCGAAGACCATCTGCAGCTCGCCGAAAGTGTCGCCCAGGCCCTCAAGAGCACAGGGTTGACGGTGGATGTGCTGCACGACGGGGTGGCCGCCGATCTGGCCCTGAGCAGCGAGGAATACGCGGTGGCGGTCCTTGATGTCGGGCTGCCGCGCATGGACGGCTTCGAGGTGCTGGCGCGCTTGCGGGCGCGGGGCAAGACGCTGCCGGTGCTGATGCTGACCGCTCGCAGCGACGTCAAGGATCGGGTCCATGGCCTGAACCTCGGCGCCGACGATTACCTGGCCAAACCTTTCGAACTCACCGAGCTTGAGGCGCGGGTAAAGGCACTGCTGCGCCGTAGCGTACTGGGTGGCGAGCGGCAGCAGCGCTGTGGTGGGCTGGTCTACGACCTGGACACCCGGCGCTTTACCCTCGACGAGGAACTGATGACCCTGACCTCTCGCGAGCAGGCTGTCCTGGAAGCGTTGATCGCCCGGCCCGGGCGGGTGATGAGCAAAGAACAACTGGCAGCCCAGGTGTTCGGCCTGGATGAAGAGGCCAGTCCCGACGCCATCGAAATCTATGTCCATCGCCTGCGCAAGAAGCTCGACGGCCATGCGGTGGCAATCGTGACATTCCGCGGACTGGGCTATCTGTTGGAAAACCGCGATGCATAA	MRVLLVEDHLQLAESVAQALKSTGLTVDVLHDGVAADLALSSEEYAVAVLDVGLPRMDGFEVLARLRARGKTLPVLMLTARSDVKDRVHGLNLGADDYLAKPFELTELEARVKALLRRSVLGGERQQRCGGLVYDLDTRRFTLDEELMTLTSREQAVLEALIARPGRVMSKEQLAAQVFGLDEEASPDAIEIYVHRLRKKLDGHAVAIVTFRGLGYLLENRDA	PGPT0017365_822	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-GENTAMICIN|TOBRAMYCIN|KANAMYCIN_RESISTENCE,PGPT0017365-tctD-K07774	NA	NA
D1-35_01771	1392	sasA_8		Adaptive-response sensory-kinase SasA	ATGCATAAGCCCGACAGCCTGCGCTGGCGGCTACTTCGCAACCTCGCTTCGTTGCTCGTGGTACTGATGCTCGCCAGTGGCCTGAGCGCCTACTGGAATGGTCGTGAAGCCGCCGATACGGCCTACGACCGGACGCTCCTGGCGTCGGCCAGAACCATCGCCGCCGGTCTTTCGCAGCGCGACGGTACCCTCAGCGCGGACGTACCTTATGTCGCTCTGGACACCTTCGCCTATGACAGTGCCGGACGTATCTATTATCAAGTCAACGACATCCACCAGAAGCTGATCTCCGGCTACGAGAATCTTCCCGGGCCGCCGCCCGGTACGCCGCGCACCGACGATTACCCGGCGCTGGCACGTTTCTACAACGCCAGTTACCAAGGGCAGAATGTGCGCGTGGTGAGCCTGCTCAAGGCCGTGAGCGAACCCGAAATGAACGGCATGGCGGAAATCCGCGTGGCGGAAACCGAAGAAGCTCGGGTCAGCATGGCCCGCGGCTTGATGGCCGATACCTTGTTGCGGCTGGGCATGCTGGCGGTGGGCGCGCTGTTGCTGGTGTGGTTCGCGGTCAGCGCGGCGTTGCGCCCGCTGGAACGCTTGCGCACGGCGGTGGAGGAACGCCAGCCGGACGATCTGCGGCCGTTGCCGCTGGTGGAAGTCCAGCACGAATTGTGGCCGTTGGTACGTGCCCTCAATCATTTCACCGAACGGCTGCGCGGCCAGTTCGAACGCCAGGCGCAATTCATTGCCGATGCCGCCCATGAGCTGCGCACGCCACTCGCGGCGCTCAAGGCTCGCCTGGAGCTGGGCTTGCGCGCCAGCGAACCGTCGACCTGGCGCGAAACCCTGGAAACCGCCGCCCAGGGCACTGATCGCTTGACCCATCTGGCGAATCAACTGCTGTCGCTGGCGCGGGTGGAGAACGGCGCGCGGGCAATTGCCGAAGGCGGTGCACAGTTGCTCGACCTGAGCCAGCTCGCCCGAGAACTGGGCATGGCCATGGCGCCACTGGCCCATGCCCGTGGGGTTGCGTTGGCCCTGGAAGCCGATGAACCCGTCTGGTTACGGGGCGAGCCGACTTTGCTCAACGAGCTGTTGAGCAACCTGGTGGACAATGCCCTGGCCCATACTCCTTCGGGCGGTAACGTGATCCTGCGGGTCACCGCGCCGGCGGTACTGGAAGTCGAGGATGACGGCCCGGGCATTCCCGAGACTGAGCGGGAACGGGTATTCGAGCGCTTCTATCGGCGCAACCAGCAAGTGGCCGGCTCGGGATTGGGGTTGGCAATTGTCGGAGAAATCTGCCGTGCGCATCTGGCGCAGATCACCCTGCATGATGGGCAGGAGGGCGGGTTGAAGGTGCGAGTGAGTTTTGCTCCTGGCTCAGAATGA	MHKPDSLRWRLLRNLASLLVVLMLASGLSAYWNGREAADTAYDRTLLASARTIAAGLSQRDGTLSADVPYVALDTFAYDSAGRIYYQVNDIHQKLISGYENLPGPPPGTPRTDDYPALARFYNASYQGQNVRVVSLLKAVSEPEMNGMAEIRVAETEEARVSMARGLMADTLLRLGMLAVGALLLVWFAVSAALRPLERLRTAVEERQPDDLRPLPLVEVQHELWPLVRALNHFTERLRGQFERQAQFIADAAHELRTPLAALKARLELGLRASEPSTWRETLETAAQGTDRLTHLANQLLSLARVENGARAIAEGGAQLLDLSQLARELGMAMAPLAHARGVALALEADEPVWLRGEPTLLNELLSNLVDNALAHTPSGGNVILRVTAPAVLEVEDDGPGIPETERERVFERFYRRNQQVAGSGLGLAIVGEICRAHLAQITLHDGQEGGLKVRVSFAPGSE	PGPT0017370_845	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-GENTAMICIN|TOBRAMYCIN|KANAMYCIN_RESISTENCE,PGPT0017370-tctE-K07649	NA	NA
D1-35_01772	822			hypothetical protein	ATGAGCGATTTGGCGGATAAGGTCCAGCGGGATTTGGTGGCGGCCATCGATAATGATGACCTGGTCCTGCCAACATTACCGGAAGTGGCCATGCAGATTCGCCGGGCCGCCGAAGACCCGGAAATCAGCGTCAGCAACCTGAGTAAAGTGATTGGTCGTGACACCGCCCTCTCGGCGCGCCTGATAAAAGTAGTCAACAGCCCCCTGCTGCGTGCCACCCAGGAAGTAACGGACCTGCACACGGCCATCACGCGGTTGGGGGTCAACTACAGCAGCAACCTGGCGATCGGGCTGGTCATGGAGCAGATATTCCATGCTCGCTCCGAAGTGGTTGAGCAAAAGATGCGGGAAGTCTGGCGCAAGAGCCTGGAGATCGCCGGCGTCAGCTATGCGTTATGTCGCAGCTACACGCATCTCAAGCCCGATCAGGCGGCGCTGGGTGGACTGGTCCATCAGATCGGCGTGCTGCCGATCCTGACGTACGCCGAGGACAACAATGAACTGCTGTCGGACCCGGTCAGCCTCAATCACGTCATCGAGACGATCCATCCCGTGCTGGGGGACAAGCTGCTCAGCGTCTGGGAGTTTCCGGAGCGGTTGGTGAAGTTGCCGGGGCTGTACCTGGATTTCACCCGAGACTCGAAGCAACTCGATTATGTCGACCTGGTGCAGGTTGCCGCGCTGTACTGCTACAAGGATGCCGACCACCCGCTGAGCAGGATTGACGCGTTCGGGGTTCCGGCGATCAGGAAGCTGGGCATCGACCTGGACAACAAGGACCGCTGCGCGGATATCGAAGAAGCTCGGTCGATGTTTTATTAA	MSDLADKVQRDLVAAIDNDDLVLPTLPEVAMQIRRAAEDPEISVSNLSKVIGRDTALSARLIKVVNSPLLRATQEVTDLHTAITRLGVNYSSNLAIGLVMEQIFHARSEVVEQKMREVWRKSLEIAGVSYALCRSYTHLKPDQAALGGLVHQIGVLPILTYAEDNNELLSDPVSLNHVIETIHPVLGDKLLSVWEFPERLVKLPGLYLDFTRDSKQLDYVDLVQVAALYCYKDADHPLSRIDAFGVPAIRKLGIDLDNKDRCADIEEARSMFY				NA	NA	NA	NA	NA
D1-35_01773	942	ygfZ		tRNA-modifying protein YgfZ	ATGGCTGATTCCGCTTTTTTCTGCACCCTGTCCCACGAAGGCGTTCTCGCGGTCCGTGGCGTGGACGCAAGCAAATTCCTGCAAGGCCAATTGACCTGCAACCTCAACTACCTGAGCGACAGCCGGGCCAGCCTCGGCGCACGTTGCACCCAGAAGGGCCGGATGCAATCGAGCTTCAGGATCCTGCTTGAAGGCGACGGCGTGCTCCTGACAATGGCCAGCGAATTGCTCGAACCGCAACTGGCGGACCTGAAAAAATACGCAGTGTTCTCCAAATCCAAGCTCACCGACGAGAGCGCCGCATGGGTTCGTTTCGGACTGGAAGGCGCCGATGCCACGCTCACCGACCTGGGCCTGGAACTGCCGGTCGATACCGACAGCGTGGTTCGCCATGAATCCTTGATCGCCATCCGCGTCTCTCCAGGCCGCGCCGAACTCTGGGCTCGCGCCGAACAGGCCGATACGCTGCGCACTCGCCTGAGCGCGAAACTGGCCGAAGGCGATCTCAACCGCTGGCTGCTGGGCCAGGTTCGCGCGGGCATTGGCCAGGTCATGCCGGCTACTCGCGAGCTGTTCATTCCGCAGATGCTCAACCTGCAGGCCGTAGGGGGCGTGAGTTTCAAGAAAGGCTGCTATACCGGCCAGGAAATCGTCGCGCGCATGCAGTACCTCGGCAAGCTCAAGCGCCGGCTGTATCGCCTGCAGCTGGAGGCAGGCGAGCTGCCAGAGCCGGGCACTCCACTATTCTCCCCCACTCACGGCAGTTCCATCGGCGAAGTGGTCATTGCTGCCCGCGCCGAACAAAACATTGAACTGCTGGCGGTGTTGCAGGCCGAAGCAGCGGAAGATGGCAATTTGCACCTCGGAGCTTTGGAAGGACCCGCGCTACAATTGCTGGACTTGCCTTACGAACTGGACCGCGACCGCGAAATCCAGCGTTGA	MADSAFFCTLSHEGVLAVRGVDASKFLQGQLTCNLNYLSDSRASLGARCTQKGRMQSSFRILLEGDGVLLTMASELLEPQLADLKKYAVFSKSKLTDESAAWVRFGLEGADATLTDLGLELPVDTDSVVRHESLIAIRVSPGRAELWARAEQADTLRTRLSAKLAEGDLNRWLLGQVRAGIGQVMPATRELFIPQMLNLQAVGGVSFKKGCYTGQEIVARMQYLGKLKRRLYRLQLEAGELPEPGTPLFSPTHGSSIGEVVIAARAEQNIELLAVLQAEAAEDGNLHLGALEGPALQLLDLPYELDRDREIQR				NA	NA	NA	NA	NA
D1-35_01774	255	sdhE	COG2938	FAD assembly factor SdhE	ATGGTCGAAGATGTTGAACTGAATCGCCTCTACTGGCACAGCCGCCGCGGCATGCTTGAGCTTGACGTGCTGCTGGTGCCGTTCGTGAAGGAGGTCTACCCACACCTTGATGAAGTCGACCGTGCGTGTTACGTCCGTTTGCTCGAATGCGAGGATCAGGACATGTTCGGCTGGTTCATGGAACGCAGTGAATCCGAGGATCCGGAACTGCAGCGCATGGTCCGGATGATCCTGGACCGTGTCCAGCCCAAGTAG	MVEDVELNRLYWHSRRGMLELDVLLVPFVKEVYPHLDEVDRACYVRLLECEDQDMFGWFMERSESEDPELQRMVRMILDRVQPK	PGPT0027750_1281	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-CptA-CptB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027750-antitoxin_cptB|ygfY|sdhE-K09159	NA	NA
D1-35_01775	453			hypothetical protein	GTGTCCAGCCCAAGTAGCCGCTTCGAGTGCCGCTGGCGCGCCTCCCGGCAGCTGCTGGCGGCCTATCTCCTGGCCCAGGTGTTTGCCTTGGGCTCGTTGTTTCTGTGCTCGATTCCTCCCTGGCTCGCAGTCGTTGCTTCGATGTTGTGCCTGGGCCACGGCGCCTGGGTGCTACCGCGATATCTGTTGCTGAGCCATCGCCAGGCTTTTCGTGGTTTGCGTCGCGATGCCGACGGCTGGCAGCTCTGGAGCGAGGGCGGCGGCTGGCAGGCGGTGCAGTTGCGGCCGGACAGCCTGGCATTGCCGATGATTGTGGTGCTGCGCTTTCGCTTGCGGGGCGAGTGGTGGGTCCGCTCGTTGTGCGTGCCCCGCGACGCGCTGGCGCCGGATGTCCATCGGCGCCTGCGGGTCCGGCTCAGGTTCAGCCGGCGTAGGTGGGCGGCACCAGGATAG	MSSPSSRFECRWRASRQLLAAYLLAQVFALGSLFLCSIPPWLAVVASMLCLGHGAWVLPRYLLLSHRQAFRGLRRDADGWQLWSEGGGWQAVQLRPDSLALPMIVVLRFRLRGEWWVRSLCVPRDALAPDVHRRLRVRLRFSRRRWAAPG	PGPT0027745_182	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-CptA-CptB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027745-toxin_cptA|ygfX-K19168	NA	NA
D1-35_01776	1617	nadB	COG0029	L-aspartate oxidase	ATGAGCCAACAGTTTCAACATGATGTTCTGGTAATCGGCAGCGGCGCCGCCGGATTGAGCCTTGCGCTGACATTGCCAGCGAACCTGCGCATAGCAGTGCTGAGCAAAGGCGACCTGGCCAACGGCTCGACGTTCTGGGCCCAGGGCGGCGTCGCCGCCGTGCTGGATGACACGGACACTATCCAATCCCATGTCGACGACACGCTTAACGCCGGCGGCGGGTTGTGCAATCGCGAAGCCGTGCGTTTTACCGTCGAGCACAGCAGGGAAGCCATCCAATGGCTGATCGACCAGGGCGTGCCTTTCACCCGTGACGAGCAATCGGGCACCGAAGATGGCGGCTTTGAATTCCATCTGACACGCGAAGGCGGCCACAGCCACCGGCGGATCATCCATGCAGCCGATGCGACCGGCGCGGCAATTTTCAAGACCCTGCTGGCCCAGGCCCGGCAACGGCCGAACATCGAATTACTGGAACAGCGAGTCGCGATCGACCTGATCACCGAGAAACGCCTCGGCCTGGAAGGCGACCGCTGCCTGGGGGCCTATGTGCTCAATCGTGGCACCGGCGAAGTCGACACCTACGGGGCGCGCTTCGTGATCCTCGCCTCCGGCGGCGCGGCCAAGGTCTATCTCTATACCAGCAACCCCGATGGTGCCTGCGGTGACGGCATTGCCATGGCCTGGCGTTCAGGCTGCCGAGTGGCGAACCTGGAATTCAACCAGTTCCACCCCACTTGCCTGTATCACCCCTTGGCCAAGAGCTTCCTGGTGACCGAGGCACTGCGCGGCGAAGGCGCTCATCTGAAGCTCCCCAACGGCGAACGCTTCATGCAGCGCTTCGATCCTCGCGCCGAACTGGCCCCACGGGACATCGTTGCGCGGGCCATCGACCATGAAATGAAGCGCCTGGGCATCGACTGCGTGTACCTGGACATCAGCCACAAACCCGAAGCCTTCATCAAAAGTCATTTCCCCACGGTGTATGAGCGCTGCCTGGAATTTTCCATCGACATCACCAAGCAGCCGATCCCGGTGGTGCCAGCGGCGCATTACACCTGCGGCGGGGTGATGGTCGACCAGCACGGCCGCACCGATGTACCCGGCCTGTATGCGATTGGCGAAACCAGCTTCACCGGATTGCACGGAGCCAATCGCATGGCCAGCAATTCGCTGCTGGAATGTTTCGTCTATGCCCGCTCGGCGGCGGCGGACATCCTCGATCAGTTGCCGCAGGTTGCCATCCCGACCACCCTGCCTACCTGGGATGCCAGCCAGGTGACCGACTCGGACGAAGACGTGATCATCGCCCACAACTGGGACGAACTGCGGCGCTTCATGTGGGACTACGTCGGCATCGTACGCACCAACAAGCGCCTGCAACGGGCCCAGCATCGGGTGCGTTTGCTGCTCGATGAGATCGATGAGTTCTACAGCAACTATAAAGTCAGCCGCGACCTGATCGAGTTGCGCAACCTGGCGCAGGTGGCGGAACTGATGATTCGCTCAGCCATGGAGCGCAAGGAAAGCCGAGGACTGCACTACACCCTCGACTACCCGGACCTGCTGCCCGAGGCATTGGACACTATCCTGGTGCCGCCCACCTACGCCGGCTGA	MSQQFQHDVLVIGSGAAGLSLALTLPANLRIAVLSKGDLANGSTFWAQGGVAAVLDDTDTIQSHVDDTLNAGGGLCNREAVRFTVEHSREAIQWLIDQGVPFTRDEQSGTEDGGFEFHLTREGGHSHRRIIHAADATGAAIFKTLLAQARQRPNIELLEQRVAIDLITEKRLGLEGDRCLGAYVLNRGTGEVDTYGARFVILASGGAAKVYLYTSNPDGACGDGIAMAWRSGCRVANLEFNQFHPTCLYHPLAKSFLVTEALRGEGAHLKLPNGERFMQRFDPRAELAPRDIVARAIDHEMKRLGIDCVYLDISHKPEAFIKSHFPTVYERCLEFSIDITKQPIPVVPAAHYTCGGVMVDQHGRTDVPGLYAIGETSFTGLHGANRMASNSLLECFVYARSAAADILDQLPQVAIPTTLPTWDASQVTDSDEDVIIAHNWDELRRFMWDYVGIVRTNKRLQRAQHRVRLLLDEIDEFYSNYKVSRDLIELRNLAQVAELMIRSAMERKESRGLHYTLDYPDLLPEALDTILVPPTYAG	PGPT0013355_1308	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013355-nadB-K00278	NA	NA
D1-35_01777	582	algU	COG1595	RNA polymerase sigma-H factor	ATGCTAACCCAGGAAGAGGATCAGCAGCTGGTCGAGCGCGTTCAACGCGGCGACAAGCGAGCTTTCGATCTGCTAGTGCTGAAATACCAGCACAAAATTCTCGGGTTGATCGTGCGTTTTGTGCACGACACCCATGAAGCCCAGGATGTTGCCCAGGAAGCTTTCATCAAGGCGTACAGGGCACTTGGTAATTTTCGCGGGGATAGCGCGTTTTATACGTGGCTTTACCGCATCGCCATCAACACGGCGAAAAACTATCTGGTTTCACGCGGCCGCCGGCCGCCGGATAGCGATGTTAGCTCCGAGGATGCAGAGTTCTATGACGGCGATCACGGCCTCAAGGATCTCGAATCACCGGAACGTGCATTGCTGCGGGATGAGATCGAAGGCACTGTCCATCGAACCATTCAGCAACTGCCTGAAGATTTGCGTACGGCGTTAACTTTACGTGAATTCGACGGTCTGAGTTACGAGGACATTGCCAGCGTCATGCAATGTCCGGTGGGTACCGTGCGCTCCCGGATCTTCCGCGCTCGGGAGGCCATCGATAAAGCCCTGCAACCATTGTTGCAGGAAAACTGA	MLTQEEDQQLVERVQRGDKRAFDLLVLKYQHKILGLIVRFVHDTHEAQDVAQEAFIKAYRALGNFRGDSAFYTWLYRIAINTAKNYLVSRGRRPPDSDVSSEDAEFYDGDHGLKDLESPERALLRDEIEGTVHRTIQQLPEDLRTALTLREFDGLSYEDIASVMQCPVGTVRSRIFRAREAIDKALQPLLQEN	PGPT0014960_6447	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-35_01778	588	mucA	COG3073	Sigma factor AlgU negative regulatory protein	ATGAGTCGTGAAGCCCTGCAGGAATCGCTGTCCGCAGTGATGGATAACGAAGCGGACGAATTGGAATTGCGTCGGGTATTAAATGCCTTTGACGATGTTGAAACCCGTGAGACCTGGGCTCGCTACCAGATTGCCCGGGCGGTGATGCACAAGGACTTGTTGCTTCCACGCCTGGATATCGCTGCGGCCGTTTCTGCTGCGCTGGCTGACGAAGCCGTGCCGGCAAAAGCCTCTCGCGGACCATGGCGCAGCCTGGGTCGCCTGGCAGTTGCTGCCTCGGTTACCGTAGCTGTATTGGCAGGTGTGCGTCTGTACAACCAGGATGAGATTGCCGGCGTGCAAATGGCGCAGCAGTCCAATCAGCCTGGCCTGGCAGCACCACAGGTCAAGGGTCCGGCGGTACTGGCCGGCTACAGCGAAGGTTCGGAAGCTGCCGGTCCGATGACCAACGGTGTACTGCAAGGCCAGCCAGGCTGGCATGATCAGCGTTTGCCTAATTACCTGCGTCAGCATGCCCAGCAGGCTGCGCTGAAAGGTACTGAAAGCGCGCTGCCATACGCTCGTGCGGCCAGTCTGGAAAACCGTTAA	MSREALQESLSAVMDNEADELELRRVLNAFDDVETRETWARYQIARAVMHKDLLLPRLDIAAAVSAALADEAVPAKASRGPWRSLGRLAVAASVTVAVLAGVRLYNQDEIAGVQMAQQSNQPGLAAPQVKGPAVLAGYSEGSEAAGPMTNGVLQGQPGWHDQRLPNYLRQHAQQAALKGTESALPYARAASLENR	PGPT0014976_792	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014976-rseA-K03597	NA	NA
D1-35_01779	948	mucB	COG3026	Sigma factor AlgU regulatory protein MucB	ATGCGCGCCATACCTCTTTTCTCGCTTCTGGTAGGTGGCTGGTGCGTTGTTCCAGCCTATGCCGGTGAAGCTCAGGACTGGCTCAATCGTCTGAGTCAAGCCGAGCAGCAGCAAAGCTTCCAAGGCACTTTCGTTTACGAGCGTAACGGTAGTTTTTCTACCCATAACATCTGGCATCGCGTCCAGGATGGCAAAGTCCGCGAGCGGCTGCTCCAGCTCGATGGTTCGGCACAGGAGGTCATGCGCATTGACGGAAAGACTCAATGCGTCAGCGGCACCTTGATCGCCGGGCTGGGCAATACGCCAGATGGCACCGCACGTGCGCTCGATCCGCAGAAACTCAAGAATTGGTATGACCTTGCCGTTATTGGCAAGTCGCGCGTGGCTGGGCGTCAGGCTGTCATTGTCGCCCTGACCCCCAAGGATCAGCATCGCTATGGCTTTGAGCTGCATCTCGACAGAGAGACCGGCTTGCCGCTCAAGTCCCTGTTGCTCAGTGACAAAGGCCAGTTGCTCGAACGTTTCCAATTCACTCGCTTGAACATCGGTGAGCCTTCAGACGCTGATCTGCAGGCCAGTGTCGAATGCAAGGCTGTTGCGCAGGGGCCCGGTAAGGCCGCCACGGTGAAAACCGCCTGGCATTCCGACTGGCTTCCGCCCGGCTTTGAATTGACCAGTAGCGCTGCGCACAAGGACCCGGACACCAAGATCCAGGTCAGTAGCTTGATGTATGACGATGGCCTGGCCCGTTTCTCGGTGTTCCTGGAGCCGCTGAACGGTGCAACTGCCACCGACACCCGCACGCAGCTTGGCCCGACCGCAGCGGTATCGCGTCGGCTTACTACACCCCAAGGCGAGATGATGGTGACGGTAGTTGGCGAAATACCTATCGGTACGGCGGAACGGATCGCATTGTCCATGCGTTCCGACGTCGCGGCAGCCCAATAA	MRAIPLFSLLVGGWCVVPAYAGEAQDWLNRLSQAEQQQSFQGTFVYERNGSFSTHNIWHRVQDGKVRERLLQLDGSAQEVMRIDGKTQCVSGTLIAGLGNTPDGTARALDPQKLKNWYDLAVIGKSRVAGRQAVIVALTPKDQHRYGFELHLDRETGLPLKSLLLSDKGQLLERFQFTRLNIGEPSDADLQASVECKAVAQGPGKAATVKTAWHSDWLPPGFELTSSAAHKDPDTKIQVSSLMYDDGLARFSVFLEPLNGATATDTRTQLGPTAAVSRRLTTPQGEMMVTVVGEIPIGTAERIALSMRSDVAAAQ				NA	NA	NA	NA	NA
D1-35_01780	1428	degP	COG0265	Periplasmic serine endoprotease DegP	ATGTCGATACCACGCTTGAAAACCTATCTCTCCATTTTTGCCACCGTGCTGGTGCTCGGTCAGGCCGTTCCCGCTGTGGCGGTCGAGTTGCCGGACTTCACTCAACTGGTCGAACAGGCTTCGCCTGCCGTGGTGAACATCAGTACCACGCAGAAGCTGCCGGAGCGTCGGGTGATGGACCCGCAGATGCCGGACCTGGAAGGCCTGCCGCCCATGCTGCGCGAGTTCTTCGAGCGAGGGATGCCACAGCCGCGTTCGCCTGGCGGTGGTCGTCAGCGTGAAGCGCAGTCCTTGGGCTCGGGCTTCATCATCTCGCCAGACGGCTACATCCTGACCAACAACCATGTGATTGCCGACGCCGATGAGATCCTCGTGCGCCTGGCAGATCGCAGTGAACTGAAGGCCAAGCTGATCGGCACCGACCCGCGTTCGGACGTGGCCTTGCTGAAAATCGAAGGCAAGGACCTGCCGGTGCTCAAGCTCGGCAAATCGCAGAACCTGAAAGCCGGCCAGTGGGTGGTGGCAATCGGTTCGCCGTTCGGCTTCGACCATACCGTGACCCAGGGCATCGTCAGCGCCATTGGGCGTAGCCTGCCAAACGAAAACTACGTGCCATTCATCCAGACCGACGTGCCGATCAACCCGGGCAACTCCGGTGGGCCGCTGTTCAACCTCGACGGCGAAGTGGTGGGTATCAACTCTCAGATCTACACCCGTTCGGGCGGTTTCATGGGGGTGTCCTTCGCTATTCCGATCGACGTGGCCCTGGATGTATCCAACCAGCTTAAAAGCGAGGGCAAGGTCAGCCGTGGCTGGCTGGGCGTGGTCATCCAGGAAGTGAACAAGGACCTGGCCGAGTCGTTTGGCCTGGAGAAACCTGCCGGCGCGCTGGTGGCGCAGATCCAGGAAGGTGGTCCGGCCGCCAAGGGCGGCTTGCAAGTGGGCGATGTGATTCTCAGCCTCAATGGGCAGCCGATCGTCATGTCCGCCGACTTGCCGCATCTGGTGGGCGCCCTCAAGGCCGGGGCCAAGGCCAACCTGGAAGTGATTCGCGAAGGCAAGCGCAAGAATGTCGAGTTGACTGTCGGCGCGATCCCGGAAGAAGGCAAGGAACTGGATTCGCTGCCCAAGTCCGGCGTCGAGCGCAGCAGCAATCGCCTGGGTGTCGCGGTGGTCGAGCTGACCGATGAGCAGAAGCGAACCCTGGAATTGCAGGGTGGTGTGGTGATCAAGGAAGTACAGGACGGTCCCGCTGCGTTGATCGGCCTGCAACCTGGCGACATCATTACTCACCTGAACAACCAGGCCATCGGCTCGGCCAAGGAGTTCACCGACATCGCCAAGGCGTTGCCGAAGAATCGCTCGGTGTCGATGCGCGTCCTGCGCCAGGGGCGTGCAAGCTTCATTACCTTCAAGCTGGCTGAATAA	MSIPRLKTYLSIFATVLVLGQAVPAVAVELPDFTQLVEQASPAVVNISTTQKLPERRVMDPQMPDLEGLPPMLREFFERGMPQPRSPGGGRQREAQSLGSGFIISPDGYILTNNHVIADADEILVRLADRSELKAKLIGTDPRSDVALLKIEGKDLPVLKLGKSQNLKAGQWVVAIGSPFGFDHTVTQGIVSAIGRSLPNENYVPFIQTDVPINPGNSGGPLFNLDGEVVGINSQIYTRSGGFMGVSFAIPIDVALDVSNQLKSEGKVSRGWLGVVIQEVNKDLAESFGLEKPAGALVAQIQEGGPAAKGGLQVGDVILSLNGQPIVMSADLPHLVGALKAGAKANLEVIREGKRKNVELTVGAIPEEGKELDSLPKSGVERSSNRLGVAVVELTDEQKRTLELQGGVVIKEVQDGPAALIGLQPGDIITHLNNQAIGSAKEFTDIAKALPKNRSVSMRVLRQGRASFITFKLAE	PGPT0015105_3270	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
D1-35_01781	1434	bepA_1	COG4783	Beta-barrel assembly-enhancing protease	ATGACATTTCTGCGCCCCACCCTGCTGACGCTCGCTTGCCTGCTCGCCTCACCGGGCTTCGCCGACGACCTGCCGTCACTTGGCGATGCCAGTTCTGCCATCGTCTCGCCGGAACAGGAGCATCAGCTGGGCCGCGCCTGGCTGGCCTTGTTGCGCAGCCAGGTCTCGCAACTCAACGATCCGCAGCTCAAGGACTATGTCGAAACCAGCGTCTACAAGCTGGTGGAGACCAGCCAGGTCAACGACCGGCGCCTGGAATTCATCCTGATCAACAGCCCCCAGCTCAACGCTTTCGCCGCGCCCGGCGGGATCGTCGGGGTCAACGGCGGCCTGTTCCTCAACGCCCAGACCGAAGGCGAATATGCTTCGGTCATGGCCCACGAGCTGGCGCACTTGTCGCAACGCCATTTTGCCCGCGGCGTCGAAGCCCAACAGCGCATGCAGGTGCCGATGATGGCGGCGCTGCTGGCCGGCATCGTGATTGCCGCCGCCGGTGGCGGTGACGCCGGGATCGCCGCCATTGCCGGGACCCAGGCCGCCGCCATCCAGGAGCAACGGCGTTTCTCGCGGCAAAACGAACAGGAAGCCGACCGCATCGGCATCCAGAATCTGGAGAAGGCCGGTTACGATCCGCGGTCGATGCCGACGATGTTCGAGCGTCTGATGCGCCAGTACCGGTTTGACGCCAAGCCCCCGGAATTCCTGCTGACTCACCCGGTCACCGAATCGCGCATCGCCGACACCCGCAACCGCGCCGAACAGGCCAAGCCGGGCGGAATCGAGGACAGCATGCGTTACCAACTGATCCGCGCGCGGGTCCAGTTGACCTATGAAGAAACCCCCGGCCTGGGGGCCAAGCGCTTCCGCGCACAGCTGGACGAGAACCCGAAGAGTGACGTGGCCCGCTACGGACTGGCGATCGCCCAGATCAAGGGTGGCCAACTGAATGAAGCCCGGGAGAACCTCAAGCCATTGCTGGCCAAAGCGCCCAACGAGATCATCTACAACCTCGCCCAGGTAGACCTGGACATCACCAGCAACAAGCTGGCGGACGCTCAATCTCGCGTGGATCGACTGCTGAGCCAATATCCGGGCAACTACCCGCTCAATCAGGTGCGCGTCGATCTGTTGCTCAAGCAGAATCGCCCCGCCGATGCGGAAAAGGCCCTGGAAACCCTGCTCAAGAGCCGCCCGGACGATCCGGACATCTGGTACATGGTGGCCGAGACGCGTGGCCTGTCAGGCAATATCATTGGCTTGCACCAGGCACGCGCCGAATACTTCGCGTTGGTTGGCGACTATCGTCAGGCGATCCAGCAACTGGACTTCGCCAAACGACGCGCCGGGAGCAATTTTCCTTTGTCATCGCGCATCGACGCCCGCCAGCGCGAACTCATGGAACAGGAGCGCATGGTCAAGGACATGATGGGCTGA	MTFLRPTLLTLACLLASPGFADDLPSLGDASSAIVSPEQEHQLGRAWLALLRSQVSQLNDPQLKDYVETSVYKLVETSQVNDRRLEFILINSPQLNAFAAPGGIVGVNGGLFLNAQTEGEYASVMAHELAHLSQRHFARGVEAQQRMQVPMMAALLAGIVIAAAGGGDAGIAAIAGTQAAAIQEQRRFSRQNEQEADRIGIQNLEKAGYDPRSMPTMFERLMRQYRFDAKPPEFLLTHPVTESRIADTRNRAEQAKPGGIEDSMRYQLIRARVQLTYEETPGLGAKRFRAQLDENPKSDVARYGLAIAQIKGGQLNEARENLKPLLAKAPNEIIYNLAQVDLDITSNKLADAQSRVDRLLSQYPGNYPLNQVRVDLLLKQNRPADAEKALETLLKSRPDDPDIWYMVAETRGLSGNIIGLHQARAEYFALVGDYRQAIQQLDFAKRRAGSNFPLSSRIDARQRELMEQERMVKDMMG				NA	NA	NA	NA	NA
D1-35_01782	240	tusA_2	COG0425	Sulfur carrier protein TusA	ATGACCGATGCTGTAGCCCACGATGCCGAGCTGGACGCCAGTGGACTGAACTGTCCGCTGCCGTTGCTCAAGGCCAAGCTGGAACTCAATCGCCTGGCCAGTGGCGCCGTGCTCAAAGTGACGGCCACGGATGCGGGCTCCCAGCGCGACTTTCGCACCTTTGCCCGCTTGGCCGGTCATACGCTGCTGCGCGAAGAAGACGATAACGGCGTCTACCGTTACTGGCTGAAAAAAGCCTGA	MTDAVAHDAELDASGLNCPLPLLKAKLELNRLASGAVLKVTATDAGSQRDFRTFARLAGHTLLREEDDNGVYRYWLKKA				NA	NA	NA	NA	NA
D1-35_01783	1071			hypothetical protein	ATGTTCAAAGTGTTACGCGACTGGATTCAGCGCTACTTCTCCGATGAGGAAGCGGTGGTCCTGGCAGTGCTGCTGTTCCTGGCGTTTACGGCGGTCCTGACGCTGGGCGGGATGCTCGCGCCGGTGCTGGCGGGAATGGTGCTGGCGTATCTGATGCAGGGGCTGGTCACAGCCTTGGAACGCCTGCGTTTGCCTGGCTCCGTGGCGGTAGGGCTGGTGTTCGCGCTGTTCATGGGGCTGCTGGTGGTGTTCCTCGTGGTCATCGTGCCGTTGCTCTGGCATCAATTGGTGACCCTGTTCAATGAACTGCCGGGAATGCTCGCCAAATGGCAATCGCTGTTGTTGCTGCTGCCGGAACGCTACCCGCACCTGGTCTCGGACGAGCAAGTGCTGCAGACCATCGAAGTGGTGCGTGGCGAGATCGGCAAGTTCGGCCAGTGGGCGCTGACGTTTTCGCTGTCCAGCCTGCCGTTGCTGGTGAACATCATGATCTATCTGGTGCTGGTGCCGATTCTGGTGTTTTTCTTTCTCAAGGATCGGGAAATGATCGGACGCTGGGTCCGAGGCTACCTGCCGCGCGAGCGGGCATTGATCACCCGTGTGGCCCAGGAGATGAACCGGCAGATTGCCAACTACATCCGTGGGAAAGTCATCGAGATTTTCATCTGTGGCGGCGTCACGTACATCGGTTTTGTGGCGCTGGGGCTCAACTATGCTGCGTTGCTCGCGTTGCTGGTGGGCATTTCGGTGGTGGTGCCTTACGTCGGCACTGTGGTCGTGACCGTGCCGGTGGCGCTGATCGCGCTGTTTCAGTGGGGTTGGAGCGACCAGTTCATCTATCTGATGGCGGTGTACGGGATCATCCAGACGCTGGACGGCAATGTGCTGGTGCCGCTGCTGTTCTCCGAGGCGGTGAACCTGCATCCGGTGGCGATTATCTGCGCGGTGTTGTTGTTTGGCGGGCTGTGGGGCTTCTGGGGGGTGTTCTTTGCGATTCCCCTGGCGACGTTGTTCAAGGCGGTGCTGGATGCGTGGCCGAGCAAGGAGCCGGTGGTGGCGCCGTTGTTGTAG	MFKVLRDWIQRYFSDEEAVVLAVLLFLAFTAVLTLGGMLAPVLAGMVLAYLMQGLVTALERLRLPGSVAVGLVFALFMGLLVVFLVVIVPLLWHQLVTLFNELPGMLAKWQSLLLLLPERYPHLVSDEQVLQTIEVVRGEIGKFGQWALTFSLSSLPLLVNIMIYLVLVPILVFFFLKDREMIGRWVRGYLPRERALITRVAQEMNRQIANYIRGKVIEIFICGGVTYIGFVALGLNYAALLALLVGISVVVPYVGTVVVTVPVALIALFQWGWSDQFIYLMAVYGIIQTLDGNVLVPLLFSEAVNLHPVAIICAVLLFGGLWGFWGVFFAIPLATLFKAVLDAWPSKEPVVAPLL				NA	NA	NA	NA	NA
D1-35_01784	474	bcp	COG1225	Peroxiredoxin Bcp	ATGGCCGTTGCCATCGACCAGCCGGTTACCGATTTCCAGGCGCCCGCCACCAGCGGGCAGACCATCAGCCTCGCCGCCCTGAAAGGCAAACAGGTGGTCATTTATTTCTACCCGAAAGACAGCACCCCCGGTTGCACCACCGAAGGCCAGGGTTTTCGCGACCACTACGCGCAATTCCAGGCCGCCAACACCGAAATATTCGGTGTGTCGCGGGACAGCCTCAAGTCCCACGAGAACTTCAAGTGCAAGCAGGAGTTCCCCTTCGAGCTGATCAGCGACAAGGACGAAACGGTCTGCCAACTGTTCGACGTGATCAAGCTGAAGAAGCTGTACGGCAAGGAATATCTGGGCGTTGATCGCAGCACCTTTTTGATCGACAAGGATGGCGTGCTGCGCCAGGAGTGGCGTGGTGTGAAAGTGCCGGGGCATGTGGATGCGGTGCTGGCGGCGGCTCAGGCGCTCAACCAAGCCTGA	MAVAIDQPVTDFQAPATSGQTISLAALKGKQVVIYFYPKDSTPGCTTEGQGFRDHYAQFQAANTEIFGVSRDSLKSHENFKCKQEFPFELISDKDETVCQLFDVIKLKKLYGKEYLGVDRSTFLIDKDGVLRQEWRGVKVPGHVDAVLAAAQALNQA	PGPT0013120_2837	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013120-bcp|PRXQ|DOT5-K03564	NA	NA
D1-35_01785	561	gcvR	COG2716	Glycine cleavage system transcriptional repressor	ATGTCCACCCCCACAGTCCGCGAACAATTCCTTGTTATCAGTGCCCTTGGCGCAAACCCCATGGAGCTGACTAACGTCCTGTGCCGCGCCAGCCATGAAAATCGCTGCGCCGTCGTGACCTCACGCCTGACCCGTCATGGCGAATGCAGCGCCCTCGTGCTGGAGATTTCCGGCAGCTGGGACGCCCTGGCGCGCCTGGAGGGCAGCCTGCCGGTGCTGGCCAAGAAGCACGCCTTCACCGTCAACGTGGTGCGCAGCGCCGCGCTGGAAAATCGTCCCCAGGCCTTGCCGTATGTAGCTTATGTGAGTTCGGCCTACCGCCCGGACATCATCAACGAACTGTGCCAGTTCTTCATGGACCATCACGTCGAGCTGGAAAACCTGACCTGCGATACCTATCAGGCCCCGCAGACTGGCGGCACCATGCTCAACGCCACGTTCACCGTGACATTGCCGGCCGGCACCCAGATCAGCTGGCTGCGCGATCAGTTCCTGGATTTCGCCGACGCGATGAACCTGGACGCACTGATCGAACCGTGGCGCCCACAAAACCCAATGTAA	MSTPTVREQFLVISALGANPMELTNVLCRASHENRCAVVTSRLTRHGECSALVLEISGSWDALARLEGSLPVLAKKHAFTVNVVRSAALENRPQALPYVAYVSSAYRPDIINELCQFFMDHHVELENLTCDTYQAPQTGGTMLNATFTVTLPAGTQISWLRDQFLDFADAMNLDALIEPWRPQNPM	PGPT0026370_281	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026370-gcvR-K03567	NA	NA
D1-35_01786	879	dapA_1	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGATTGCGGGCAGTATGGTGGCACTGGTCACACCCATGGATGCACAAGGGCGTCTTGACTGGGCCAGCCTCAGCAAACTCGTGGACTTCCACCTTGAGAACGGCACCCACGCGATCGTCGCCGTCGGTACCACCGGCGAGTCGGCCACCCTTGACGTCAACGAGCACATCGAAGTCATCCGCGCGGTGGTCAAGCAGGTCAATGGCCGCATTCCGGTAATCGCCGGCACCGGCGCCAATTCGACCCGCGAAGCCGTCGAGCTGACCCGTAACGCCAAGGAAGCCGGGGCCGATGCCTGCCTGCTGGTCGTTCCGTACTACAACAGGCCGACCCAGGAAGGCCTGTACCAGCACTTCAAGCACATTGCCGAAGCCGTCGACATCCCGCAGATCCTCTATAACGTTCCCGGCCGCACCTCCTGCGACATGCAGGCCGAGACCGTGATCCGCCTGTCCACCGTGCCGAACATCATCGGCATCAAGGAAGCCACTGGCGACCTGACGCGTGCCAAGGCCATCCTCGATGGCGTGAGCGAGGACTTCATCGTCATGTCCGGCGATGATCCGACCGCTGTCGAGCTGATCCTGATGGGCGGCAAGGGCAACATTTCCGTCACCGCCAACGTCGCGCCACGCGCCATGGCCGACCTGTGCGAGGCCGCGCTCAAGGGCGACGCCGAGACCGCACGGGCAATCAACGAAAAACTGATGCCGCTGCACAAGGACCTGTTCATCGAAGCCAACCCGATCCCGGTGAAATTCGCCCTGGTCGAAATGGGCCTGATGCACGAAGGCATCCGCCTGCCGCTCACCTGGTTGAGCACTACCTGTCACGAACAGCTGCGGCAGGCCATGCGCCAGTCCGGCGTCCTGGTTTAA	MIAGSMVALVTPMDAQGRLDWASLSKLVDFHLENGTHAIVAVGTTGESATLDVNEHIEVIRAVVKQVNGRIPVIAGTGANSTREAVELTRNAKEAGADACLLVVPYYNRPTQEGLYQHFKHIAEAVDIPQILYNVPGRTSCDMQAETVIRLSTVPNIIGIKEATGDLTRAKAILDGVSEDFIVMSGDDPTAVELILMGGKGNISVTANVAPRAMADLCEAALKGDAETARAINEKLMPLHKDLFIEANPIPVKFALVEMGLMHEGIRLPLTWLSTTCHEQLRQAMRQSGVLV	PGPT0002080_7806	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
D1-35_01787	1116	bamC		Outer membrane protein assembly factor BamC	ATGAAGCGAATGGCCGGCCTTTCCGCACTTGCCTTGATTATCTCCAGCACCAGTGGCTGTGGATGGATCTGGGGCCCGGATGGTTATTTCCGCGACCGTGGTAGCGATTACCTCGAAGCGCAACAGACTGCACCGATGCAACTGCCACCTGATGTCAGCGTTGCCAAGCGCCTGGATCCGCTGCTGCCGATCCCGCGCAACGTCGCCGACGACAGCGTCAAGGGCGAATACGTTGTCCCGCGTCCACAGCCGCTGTCGGCCGTGGCCGATGCCAGCGACTACACGCTGCAGAAGAGCGGTGATTCGAGCTGGGTCATGGGCCAGCATCCACCGGCCGAAGTCTGGCCCGTGGCTATCCAGTTCTTCCAGGACAACGGTTTCCGCCTGGACGAACAGCGCCCGCAGACCGGCGAATTCACCACCACCTGGCAGCGCTCCGATGAACTGTCCGCGGCCATGGCCAAGCGCCTGAGCGCCGCCGGTGTCGCAGCCGACAGCGAAACCCGCGTGCGCGTGCGCATCGAGCCGGGCGTGCAGCGCAACACCAGTGAAATCTACGTGGTCAGCGCCGAGCGTCCCGCCGGCAGCACTGCCGACGTGGCTTTCACCAATCGCTCGGTCAATGGCAGTCTCGACGCCGCGCTGGTCGACGACATGCTCGCCAGCATGAGCCGTAACGCCGAGCAGGGCGGTTCGGTCTCGATGCTCGCGACCCGTGACTACGACACGCCGAGCCGGGTCAGCCTGAGCGAAGACGGCAGCGGCAACCCGGTGCTCAACGTCGGCTCCGACCTCGATCGCGCCTGGTCGAGCGTTGGCCGCGCGCTGGAGCAGGGCGAATGGCGGGTTGAAGACATCAACCGCAGCCTGGGCCTCTACTACATCAACCTCGCTGAAAAAGCCGAGAAGAAAGACGAGAAGCCTGGCTTCTTCAGTAGCTTGTTCGGCAGTGCGCCGGACAAGGAAGAAGTCGAAGCCCGCGCCGAGCGTTACCAGGTTCGCCTGAGCAAGGTCGGCGACAACGTCCAGGTCACCGTCGAGAAAAACATCAATACCGTGGCGCCAGCCGATGTGGCTCGCAAGGTATTGGGTGTGATTCAGGACAACCTGGGCTGA	MKRMAGLSALALIISSTSGCGWIWGPDGYFRDRGSDYLEAQQTAPMQLPPDVSVAKRLDPLLPIPRNVADDSVKGEYVVPRPQPLSAVADASDYTLQKSGDSSWVMGQHPPAEVWPVAIQFFQDNGFRLDEQRPQTGEFTTTWQRSDELSAAMAKRLSAAGVAADSETRVRVRIEPGVQRNTSEIYVVSAERPAGSTADVAFTNRSVNGSLDAALVDDMLASMSRNAEQGGSVSMLATRDYDTPSRVSLSEDGSGNPVLNVGSDLDRAWSSVGRALEQGEWRVEDINRSLGLYYINLAEKAEKKDEKPGFFSSLFGSAPDKEEVEARAERYQVRLSKVGDNVQVTVEKNINTVAPADVARKVLGVIQDNLG				NA	NA	NA	NA	NA
D1-35_01788	759	yycJ	COG1235	Putative metallo-hydrolase YycJ	ATGCGTTTTGCCGTTCTCGGCAGCGGTAGCCAGGGGAACGGCACGCTGATAGCCAGTGCTGGCACCTACGTGCTGGTCGATTGCGGTTTCTCCCTGCGGGAAACCGAGAAGCGCCTGTTGCGCCTGGGTGTGCACCCGGCGCAACTGAGCGCGATACTCGTGACCCACGAACATGCCGACCACGTGCATGGCGTGGGTTTGCTGTCTCGGCGCTACAATCTGCCGGTCTACCTCAGTCGCGGGACGTTCGGTGGCCTGCGCAAGCCCATCGAGCCGGCTGGCTTCGTGGCCGGTGGCGAGCAGTTGCGTATCGGTGCCCTGGACATCAGCGTGGTCAGCGTGGCGCACGATGCCCGCGAGCCGACGCAGTATGTGTTCAGTGATGGCGAGCGGCGTTTCGGATTGCTCACCGACCTGGGCTCGTACTGCGACAGGGTGATGGACAGTTATCGGGACCTCGACGCATTGATGATCGAGTCCAACCACTGCCGCGACATGTTGGCGCGAGGGTACTATCCCTACTTCCTGAAGCAACGGGTAGGCGGGGAACACGGACATCTGAACAACCACCAGGCGGCATTCCTGGTGGCCGAGTTGGGCTGGCAAGGCCTGCAACACCTGGTCCTGGCCCATCTGAGCAGCAAGAACAACCTGCCGCAGCTGGCCCGGCAATGTTTCGTCGACACCCTCGGGTGCGACCCGGACTGGCTGCAACTGGCCGATCAAGATTCAGGGCTCGACTGGCGACATATCGCCTAG	MRFAVLGSGSQGNGTLIASAGTYVLVDCGFSLRETEKRLLRLGVHPAQLSAILVTHEHADHVHGVGLLSRRYNLPVYLSRGTFGGLRKPIEPAGFVAGGEQLRIGALDISVVSVAHDAREPTQYVFSDGERRFGLLTDLGSYCDRVMDSYRDLDALMIESNHCRDMLARGYYPYFLKQRVGGEHGHLNNHQAAFLVAELGWQGLQHLVLAHLSSKNNLPQLARQCFVDTLGCDPDWLQLADQDSGLDWRHIA				NA	NA	NA	NA	NA
D1-35_01789	714	purC	COG0152	Phosphoribosylaminoimidazole-succinocarboxamide synthase	ATGGAAAAACGTGAAGAACTCTACCGCGGCAAAGCCAAGTCGGTTTACAAGACCGATGACGCTGACCGCTTGATCCTGCTGTTTCGCAACGACACCTCGGCGTTCGACGGCAAGCGCATCGAACAGCTGGACCGCAAGGGCATGGTGAACAACAAGTTCAACGCCTTCATCATGCAAAAGCTCGAAGCCGCCGGCGTGCCGACGCAGTTCGACAAGCTGCTGGGCGACAACGAATGCCTGGTCAAGAAGCTGGACATGATCCCGGTCGAATGCGTCGTGCGTAACTACGCCGCCGGCAGCCTGGTCAAGCGCCTGGGCGTGGAAGAGGGCATGAAGCTCAACCCTTACACGTTCGAGCTGTTCCTGAAGGACGACGCCAAGGGCGACCCGTTCATCAACGAATCCCACGTCGTGGCATTCGGTTGGGGCACCGCCGAGCAACTGGCGCGCATGAAGGAACTGTCGCTCAAGGTCAACGAAGTGCTGACCAAACTGTTCGACGACGCCGGTCTGCTGCTGGTCGACTTCAAACTCGAATTCGGCGTGTTCAGCGACGGCTCCATCGTCCTGGGTGACGAATTCAGCCCGGACGGCTGCCGCCTCTGGGACAAGGACACCAAGAAGAAGATGGACAAGGACCGCTTCCGCCAAGGCCTCGGTGACGTGATCGAAGCCTACGAAGAAGTCGCCCAACGCCTGGGTGTCCCGCTGTAA	MEKREELYRGKAKSVYKTDDADRLILLFRNDTSAFDGKRIEQLDRKGMVNNKFNAFIMQKLEAAGVPTQFDKLLGDNECLVKKLDMIPVECVVRNYAAGSLVKRLGVEEGMKLNPYTFELFLKDDAKGDPFINESHVVAFGWGTAEQLARMKELSLKVNEVLTKLFDDAGLLLVDFKLEFGVFSDGSIVLGDEFSPDGCRLWDKDTKKKMDKDRFRQGLGDVIEAYEEVAQRLGVPL	PGPT0021565_4194	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021565-purC-K01923	NA	NA
D1-35_01791	1635			hypothetical protein	ATGCTACGGTTTTTCGCCGACCTTGGCTTTCGTTGGAAAATCACTCTGCCGATTGCGTTCCTGGCGGTGCTGCTGGTGCTGATGGGGTGGACGGGCATGCGCGGCATCGGTCAGGTGACCGAGTCCAGTACGCAGTTGACCAAGCGCTATCTGCCGGCCATCAGCCTGTTGCTCAATGCCGACCGCGATCTTTATCAGGCCTTTGTGGCCGAGCGCAGTCTGCTGGATGGTCATGCGGATGAGCATATTCAAGCGCTGAGTGCCAGTCATGGCGAGAATGCCAAGCAGGCCTATGACCGTGTGCAGAAATATGCCGCGATGCAGCCCGGCGCAGAGGCTCAGGCCTTGGTCAGCCAGTTCAATGACAGTTTCGGGAAATGGATGCAGGTTTCGCGGCGGGTCGTCGAGCAGTCGGTAGGCGATCCGCAGGGCGCCAGCGCGCTGAGCTTTGGTGACAGCGAGCGCCTGTTCGAAACCATGCGTGATTCAATCGACAAGCTGGGTGATCTGGAAGATGCGGCGTCCCATCGCGAGGGCGATGCGGCCATCGCCAATGGCGAGGCGGTCGGCGTGCAGCAGGGCGTTATTCTGCTGGTTGGCCTGCTCGGTTGCATCCTGGTTCTGGTTGCCTTGCCGCTCGTGGTGCTGAGCCCGATGCGCCGTTTGTTGCACCGCGTCGAGCAGATTGCAGAGGGCGGCGGCGATCTCAAGGGGCGCCTTGAAGTGCGTTCGGCTGATGAGCTCGGGCAGCTTGGCAGCGCGTTCAACCGGTTCCTGGACAAGTTGCAGCCGCTGATTGCCGAGGTCGGACGGGTAACCGGGGAAGTGGACTCGGCAGCCCGGGCCATGGCTGCTATGGCTGCGACGAATGACCGGCTGATCAGCAGCGAGCACGCGGCGCTCGACCAAGTCAGCACCGCCGCGACGCAGATGAGCGCCGCTGTGCATGAGGTTGCTCATAACGCCGTGAGCGCCTCGGACGCCGCGCAACAGGCCACCAGCCAATCCCGCGACGGCGCCGAGGTGGTCAGCAGCACGATCGAGTCGATCCGCCAACTGGCCCACGAAGTGGAAAGTGCCTCGGGCACGATCGAGGCATTGGCCCAGGAAACGTCCAGTATCGGTGCGGTGCTGGAGGTGATCCGTGGCATCGCCGAGCAGACCAACCTGCTGGCGCTGAACGCCGCCATCGAGGCAGCGCGAGCTGGCGAACAGGGTCGTGGTTTTGCGGTGGTGGCCGATGAGGTCAGGGCGCTGGCGGCGCGTACCCAGGATTCGACCAAGGATATCCAGGTCCGCATCGAGCGCTTGCAGAGCGGTGTCGCCAAGGCCGTGCAGGCCATGCAGGTCGGCAGCAGCAAGGCGCGGGACAGCGTCGAGCGCGCCGCCGGTGTCGACCAGGTGCTCAGTGGTACTGGCGGGTCGATCCAGCGGATCAATGACATGGCCGCGCAGATCGCCAATGCCTGTGAAGAGCAGAGCAGCGTGACCGAGGAGATTGCCCGCAACATTTCCGATATTCGTGACCTGTCCAACGAAGCGGCAGCGAACTCCGCCCAAAGCATGCACGCCAGCCAGCAGCTGTCGAACCTGTCCAGGAACCTGGCGGAGCTGACCGGCCGTTTCCGCACCTGA	MLRFFADLGFRWKITLPIAFLAVLLVLMGWTGMRGIGQVTESSTQLTKRYLPAISLLLNADRDLYQAFVAERSLLDGHADEHIQALSASHGENAKQAYDRVQKYAAMQPGAEAQALVSQFNDSFGKWMQVSRRVVEQSVGDPQGASALSFGDSERLFETMRDSIDKLGDLEDAASHREGDAAIANGEAVGVQQGVILLVGLLGCILVLVALPLVVLSPMRRLLHRVEQIAEGGGDLKGRLEVRSADELGQLGSAFNRFLDKLQPLIAEVGRVTGEVDSAARAMAAMAATNDRLISSEHAALDQVSTAATQMSAAVHEVAHNAVSASDAAQQATSQSRDGAEVVSSTIESIRQLAHEVESASGTIEALAQETSSIGAVLEVIRGIAEQTNLLALNAAIEAARAGEQGRGFAVVADEVRALAARTQDSTKDIQVRIERLQSGVAKAVQAMQVGSSKARDSVERAAGVDQVLSGTGGSIQRINDMAAQIANACEEQSSVTEEIARNISDIRDLSNEAAANSAQSMHASQQLSNLSRNLAELTGRFRT	PGPT0015710_20161	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
D1-35_01792	747			hypothetical protein	GTGTCCACCGCTGATCTTTTGCACGCATTGCATCAGGACGGTTTTGTCCTGATGCCCGGTGTGTTGACCGCCACGCAAATCACCGAAATACGCCAGGCCATCGACCAACTGAAACCCCACCACTGGGACTACAGCGGCGTCATCGATCATTACAAATGCGTCTTCAATCGAGACCCGTTCTGGCTGCCGTATCTGGAGGTGAGCGGGGTGATCGAGCTGGCCGAGGCGGCGTTGGGCGAGGATTGCCACATCATCGGGCAGACCGCCTGGCGCTGCCATCCCGGTTTTGTCGGCGCTGCGCTGCACCTGGATTACCTGCCGATGCAGCTGCCCCCCAGCCTGTTGGCCGAGCCTTCTTTTGAACTGCCGATGCAGGTTTTCACCGCACAGTTCTACCTTGATGACATCGACGCCGACTTGAGCCCGACGCGGGTCATTACCGGCAGCCACAAGGCGGGGCGGGCGCCCATGGCCGGCGAAACCCAGTGGCAGGGCCGTGCGGCTAAACCGGTGCTGTGCCAGGCGGGTGATGTGCTGATATTGCGCAGCGAGTTGTGGCACGCCGGCAGTGACAACCGGACCGCCGACCGCACCCGCTACATGCTCCAGGTGCACTATGGCCGGCGGATGGTCGCGCAGAAGTTTTCACCTTACCTGCACTGGCAGTTCAATCCCGCGGTGCTGGCCGCCGCGACACCTCGCCAACGGCGGCTGTTGGGTGACCATCAGGAGGCGGAATACGATTGA	MSTADLLHALHQDGFVLMPGVLTATQITEIRQAIDQLKPHHWDYSGVIDHYKCVFNRDPFWLPYLEVSGVIELAEAALGEDCHIIGQTAWRCHPGFVGAALHLDYLPMQLPPSLLAEPSFELPMQVFTAQFYLDDIDADLSPTRVITGSHKAGRAPMAGETQWQGRAAKPVLCQAGDVLILRSELWHAGSDNRTADRTRYMLQVHYGRRMVAQKFSPYLHWQFNPAVLAAATPRQRRLLGDHQEAEYD				NA	NA	NA	NA	NA
D1-35_01793	369			hypothetical protein	ATGACTCGATATTCGCCCATCAACTTCGCGCAGAAGTACACGCTGTTCCATGATCAGTGGGCACCGAAAGTCGTGGCTGAAATGAATGACTACCAGTTCAAGATCGTCCGCCTGGAAGGCGATTTCATCTGGCACACCCACGCCGACACGGATGAAACCTTCATCGTGCTGGACGGCGAACTTCGTATCGACTTTCGCGATGGCGCGGTGCTGATCGGTCCGGGCGAGATGTATGTCGTCAAGCAAGGCGTCGAGCACAAGCCCAGTGCCGCGCAGGAAGTGAAACTGTTGCTGATCGAACCGCGGGGAGTCATCAACACCGGCGAACAAGTGAATGCGCGAACCGCGATCAATGACGTCTGGATCTGA	MTRYSPINFAQKYTLFHDQWAPKVVAEMNDYQFKIVRLEGDFIWHTHADTDETFIVLDGELRIDFRDGAVLIGPGEMYVVKQGVEHKPSAAQEVKLLLIEPRGVINTGEQVNARTAINDVWI				NA	NA	NA	NA	NA
D1-35_01794	807			hypothetical protein	ATGACTCAACCCGGTAACCGTCGCGACTGGCTGCTGCGCGCGCCTGAATCGAAGAAGCTGGAGCGCATCGAAGCCTACTTCAGTGGGCACGGCTATAGCGCCCACCGGCATGACACCTATGCCATAGGGTTCACGCTCGCCGGGGTCCAGAGCTTCAACTACCGGCAGAGCAAACGTCATAGCCAGCCCGGCGGAACCATCGTCCTGCACCCGGACGAAGTCCATGACGGCGAGGCGGGGACAAGCGATGGTTTTCATTATCGAATGTCCTACATCGAACCGTCATTGATCCAGCAGGTATTGGGGGGCCGGCCATTGCCTTTCATCGAAGGCGGGTTGTCGAACGATCCCCGGCTCAACGTTGCGACTCGCAGGCTCTTGGGCAGTCTCGGGCATCACCTCGACCCGCTGGAGGAAGACGACGCCCTCTACGACGTGGCCCAGGCACTGGCTGACGCGGCAGGTAACCAGCGCGGACGCCGACTGCTTGACTACCCCGCAGCGGAGCGCGCGCGCCTGTTCATTCATGATGCCCTTGACCAGGCCATTACCCTGGATGACCTCGTGCAGGCCAGTGGCCGGGACCGATGGAGCCTGTCCCGGGACTTTCGCGCCCTGTACGGCACCAGCCCCTATCGCTACATCACCCAGCGTCGATTGAATGAAGCCCGTCGCCTCGTGCTGCATGGCATGCCGCTGAGCGAAGCCGCACTGGCCTGCGGCTTTTTCGACCAGAGCCACATGACCCGGCTGCACACCCAGGCCTTTGGCATTTCACCGGCACGCTGGCTGAAAATGCTGCGCTAG	MTQPGNRRDWLLRAPESKKLERIEAYFSGHGYSAHRHDTYAIGFTLAGVQSFNYRQSKRHSQPGGTIVLHPDEVHDGEAGTSDGFHYRMSYIEPSLIQQVLGGRPLPFIEGGLSNDPRLNVATRRLLGSLGHHLDPLEEDDALYDVAQALADAAGNQRGRRLLDYPAAERARLFIHDALDQAITLDDLVQASGRDRWSLSRDFRALYGTSPYRYITQRRLNEARRLVLHGMPLSEAALACGFFDQSHMTRLHTQAFGISPARWLKMLR				NA	NA	NA	NA	NA
D1-35_01795	192			hypothetical protein	ATGTACTTTGAAATCTACCGACAAACCCGAGGGACCCCGAACACAGGACAAGGCCAATGGCGCTGGCGCCTGCGAGCCGGCAATCACGAAACCATCGCCAGCGGTGAATCCTACGTGAACAAGGCAGACTGCCTTCACGTCATCGGATTGATCAAAACCGCCCAATGCGAGACGCCTGTAAAGGAAATCTGA	MYFEIYRQTRGTPNTGQGQWRWRLRAGNHETIASGESYVNKADCLHVIGLIKTAQCETPVKEI				NA	NA	NA	NA	NA
D1-35_01796	936	nodD2_1		Nodulation protein D 2	ATGAACCGCAACGAATTGCGCAAGGCCGATATCAACCTGATGGTGGTTTTCGAAACGCTGATGCTTGAGCGTAACGTGACACGGGCGGCGGAAAAGCTGTTCCTCGGCCAGCCAACCATCAGCTCGGCCCTGAATCGCTTGCGCACGCTGTTCAATGATCCGTTGTTCATTCGGGTCGGGCATCGCATGGAGCCCACCGCGCGGGCCGAGGAAATCATCCAGCACCTGTCGCCGGCACTGGATTCGCTGTCGGTTGCCTTGAGCTTGACCCATGATTTCGACCCCTCCAGCAGTGCCATGACGTTTCGCATCGGGCTGTCCGACGATGTCGAGTTTGGCCTCTTGCCGCCGCTGTTGCGCAGCTTGCGGCAAGAGGCGCCGCAGATCGTGTTCGTGGTCCAGCATGTCGATTACTGGCGTATCCCCGATTTGCTGGCCTCGGGCGATATCACTGTCGGCATCAGCCAGACCCGTGGGCTGCCGGCCAATGCCAAGCGCAAGCTGTTGCGACATATCCAGCCCTGCGTGTTGCGCGCCGATGCCTCGGATACCCCGCTGACCCTGGATGAATACTGTTCGCGGCCCCACGTGCTGGTTTCCCATACCGCCAACATTGCCGGGTTTGCTGACGAATGGCTGGCCGAGATCGGTCGCAAGCGCCAGGTAGTGCTGTCGGTGCCGCAGTACAGCGCGCTACCGGCGTTGCTGGCTGGCACCGACCTGATCGCCAGCCTGCCGGACTACACCGCCACCGCCATGGCCGCTTCCGGCCAGGTGTTCTGCGAACCCTTTCCCTTCCAGACGCCGACCCTGGACCTCTCCATGGTCTGGCTGAGCCATGTCGACAATGACCCGGCCGAACGCTGGTTGCGGTCCCGCCTGGAGGCTTTCATGAGCGAGCGTGCCGGCTTGCTGGACGAAACAAAACCTGCCTGA	MNRNELRKADINLMVVFETLMLERNVTRAAEKLFLGQPTISSALNRLRTLFNDPLFIRVGHRMEPTARAEEIIQHLSPALDSLSVALSLTHDFDPSSSAMTFRIGLSDDVEFGLLPPLLRSLRQEAPQIVFVVQHVDYWRIPDLLASGDITVGISQTRGLPANAKRKLLRHIQPCVLRADASDTPLTLDEYCSRPHVLVSHTANIAGFADEWLAEIGRKRQVVLSVPQYSALPALLAGTDLIASLPDYTATAMAASGQVFCEPFPFQTPTLDLSMVWLSHVDNDPAERWLRSRLEAFMSERAGLLDETKPA	PGPT0028130_230	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexEF-OprN,PGPT0028130-mexT-K18297	NA	NA
D1-35_01797	366			hypothetical protein	ATGCCTCACCTGCACATGGAGTACACCGCGAACCTGACCGAGCTGAACGCCGACGTCGCGCTGTTGCGCATGAACAACGCACTGGTGGCATCCGGTCAGTTCGCCGCCGAGTTCGACATCAAGAGCCGGGCCGTGAAAATCGATACGTTTCGCGTCGGCACCGGCATGGGGGAGCGTGGGTTCGTGCATGTGAAGCTGGCTTTGCTGAGCGGCCGTTCGCCGGAAATCAAGAAGCAGCTGGCCGATAGCCTGCTGGCGGTGATCCAGGATCTTGGCCCATGGCCCGCCGGTGTGAGCGTGCAACTGTGCGTGGAAGTCCTCGATATCGACCGCGGCCCCTACGCCAAGGCCGCCATCGGTCTTTGA	MPHLHMEYTANLTELNADVALLRMNNALVASGQFAAEFDIKSRAVKIDTFRVGTGMGERGFVHVKLALLSGRSPEIKKQLADSLLAVIQDLGPWPAGVSVQLCVEVLDIDRGPYAKAAIGL				NA	NA	NA	NA	NA
D1-35_01798	936	pcpR_2		PCP degradation transcriptional activation protein	ATGCTGAACAGCAACACCCTCAGAAAGCTCGACATGCAGGACCTCATGGTGTTCAGCGCCGTATTCGAGCAAGGCAGCGTCACCGGTGTGGCGGAAATCCTCTGCGTCAGCCAGTCAACGGTCAGCTACAGCCTGAAAAAGTTGCGGGCCTGCTTTGACGACGAACTGTTCATCAACACCCGGACCGGCATGCGCCCCACCTTCAAGGCCGAAGGCATGCACGAGCATGTGCGCAGCATCTTGCAAAGCATCAACCTCTGCCATGCCGGCACGCCGGCCTTCGATCCGACCCGGCAGGCCGTGACCTTCGAGATTTGCGCACCGGAATACTTTGAACAGCTGCTCCTGCCACAACTGCTGCAAGGCTTCGATCATGCAGACCTGCCCGTCGTGGTGAACGTGCACAAGCTCGGAGCCGATATTCCCGTTGATGACTTGCGTGACGGCAGCCTGGACCTGGTGATCTGTTTCGGCCCCCATTTCCACAGCAGCCATGCCGATCTCAAGACCCAACGCCTGCTGGAAGAAGAACTGGTCTGCGTGACAGACAAACGGTCGGCTCCGCTGGAATCGCCGTTGAGCATCGAAGCGTTCGTACAGCGTCGACACGTTTTCCCCACGCCTTGGGCGTCGCCCACCAACATGGTCGACGGCTGGCTGACGCGGCAGGCTCGGCAACGGCAGATCGCCGCACGTGCCAACAGTTACGGCGCGGCGTTGAAGATGATCACCGGTACCGATTTCCTCCTGACCCTGCCCCGTCGCATCCAGCAATTGCTGGCCAGCGCAGCGACATTCCAGCACTGCCGGGCGCCGGCGGGCTTGCCGGGATTTACCCTGGACATGCAATGGAGCCTTGCGGCCGATCAGGACAGCGCCAACGCCTGGCTGCGTGAACAGATCGTCAAGGCCTGTCCCGGGCAAGACCTCGCTTGA	MLNSNTLRKLDMQDLMVFSAVFEQGSVTGVAEILCVSQSTVSYSLKKLRACFDDELFINTRTGMRPTFKAEGMHEHVRSILQSINLCHAGTPAFDPTRQAVTFEICAPEYFEQLLLPQLLQGFDHADLPVVVNVHKLGADIPVDDLRDGSLDLVICFGPHFHSSHADLKTQRLLEEELVCVTDKRSAPLESPLSIEAFVQRRHVFPTPWASPTNMVDGWLTRQARQRQIAARANSYGAALKMITGTDFLLTLPRRIQQLLASAATFQHCRAPAGLPGFTLDMQWSLAADQDSANAWLREQIVKACPGQDLA				NA	NA	NA	NA	NA
D1-35_01799	1383	puuA_1	COG0174	Gamma-glutamylputrescine synthetase PuuA	ATGAGTCTTGTCGAATCTTCTTTTGCCTCCGTGCAGCAAGCCCAGGCGTTCCTGGCACAGAATCCGGATATCGAGCTGTTCGAATTGTTTATCGTGGATAACAACGGTGTGCCTCGGGGCAAGTGGCTGCATCGGGACGAGCTGCTCGCGGTCTACCAGAGTGGCCGGCCACTGCCGAGCACGATCCTCGGACTGACGCTCAATGGCGACGATGTTGAGAACTCTGGCCTGGTCTGGGACGTCGGTGATATCGATTGTCGTGCCTACCCCATCAGCGGCAGCTTGCAGCGCATGCCGTGGCGGCGGATTCCTACCGCCGCCGTGCAAGTCGGCATGCATCCCCGGGAGGGCATGCCGGCGGCCATCGCCGATCCGCGCTATCTGCTCAGTCGGGTGATCGAAGCCTTGCAGGCGCAGGGTTATTACCCGGTGATGGCGGCGGAGCTGGAGTTCTACCTGCTGGATGCGCAACGGGACAGCGAGGGGCGGCCGCAACCGGCGCGGGACGCAGATGGGAGCAGGCCGCGTTCCACCCAGGTCTATGGTTTGCGTGAGCTGGAACAGATCGAGCCCTTCCTTGCTGATCTTTATGCGGCCTGCAAGCTGCAGGGTATCCCGGCCCGTACGGCCATTTCCGAATACGCGCCGGGGCAGGTCGAGATCACCCTTGAACACCGCACCGATGCCCTGCAAGCCATGGATGACGCAGTGCGCTACAAACGGCTGGTCAAGGGCGTGGCGCACCAGCACGGCATGGCTGCCTGTTTTATGGCCAAACCGTTCGATCACCTGGCGGGTTCCGGCATGCACATGCATGTGAGTCTCGCCGACCGGGAGGGCAATAACCTGTTTGCCAGCGAAGCCGCCGACGGCACGCCGTTGCTGCGTCATGCGGTGGGCGGGATGCTCGCGACTTTGCTCGATTCGCTGCTGTTGTTTTGCCCTAATGCCAATTCCTACCGCCGTTTCCAAAGCCACAGCTACGCGCCGCTGGCTGCGACCTGGGGCGTGGACAACCGCACCGTCAGCCTGAGAGTCCCGGGTGGCCCGGCCTTTTCTCGGCACATCGAACACCGTATCTGTGGTGCCGATGCCAATCCGTACCTGGCCGCAGCGGCGATCCTGGCCGGTATCCATCTTGGCATATGCGAACAGCGCGATCCCGGAGCGCCTGTCGAGGGCAACGGATACGCCCAGGCGAGCCAATTGTTGCCCACCGACTGGCTGACCACCTTACGTGCCCTTGAATCTTCGACATGGGCGCGGGACGCGTTGGGGGATGAATTCCTTGGCGTCTACCTGGCGGTCAAGCGCGCCGAATATCGCCAGTTCATGGGCGAGGTCGGCGAGCAGGATTGGCGTTGGTACCTGAACCAGGCCTGA	MSLVESSFASVQQAQAFLAQNPDIELFELFIVDNNGVPRGKWLHRDELLAVYQSGRPLPSTILGLTLNGDDVENSGLVWDVGDIDCRAYPISGSLQRMPWRRIPTAAVQVGMHPREGMPAAIADPRYLLSRVIEALQAQGYYPVMAAELEFYLLDAQRDSEGRPQPARDADGSRPRSTQVYGLRELEQIEPFLADLYAACKLQGIPARTAISEYAPGQVEITLEHRTDALQAMDDAVRYKRLVKGVAHQHGMAACFMAKPFDHLAGSGMHMHVSLADREGNNLFASEAADGTPLLRHAVGGMLATLLDSLLLFCPNANSYRRFQSHSYAPLAATWGVDNRTVSLRVPGGPAFSRHIEHRICGADANPYLAAAAILAGIHLGICEQRDPGAPVEGNGYAQASQLLPTDWLTTLRALESSTWARDALGDEFLGVYLAVKRAEYRQFMGEVGEQDWRWYLNQA	PGPT0000645_4915	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
D1-35_01800	1650	eptA	COG2194	Phosphoethanolamine transferase EptA	ATGCTGACTATTAAAGCCGTGCGCCCCGAGTGGGTGACGCTGGTCGCCAGTGCCTTTTTGTTAGTGGCCTTCAATGCCATTCTGTGGCAACACCTGCTCGCCATCACGGCGGCGGACGGACACGGTGTGTTGCTGTGCATCGCGTTTGCCGTGATGGTGTTCTGCGCGTTCAACCTGGTGCTGACACTGGTGGCGTTCCGTCCGCTGCTCAAGCCGTTGTTGATGCTGTTGTTCATGATCAGCGCCGGGGTCGCTTATTTCATGGCCCAATACGGTGTTTTGATTGATGCCGGCATGTTGCGTAACTTTGCCGAAACCAATGCCACGGAAGTGCGTGACCTGTTGTCGTTAAAGTTGTTTGGCTACCTTTTACTGTTAGGTGTACTGCCTGCATGGTTACTGTTCAAGACCCCGATAAGTTATCGTCGCTGGCCCAGGGAGTTGTTAAGCAAGTTGCTCGTCGGCGTCGTCTCGGCTGCGCTGTTGGGCGGGGTTGCCTTGATCAATTACCAAGGGTTGTCTTCGCTGTTTCGCAATCATCACGAGTTGCATCTGATGGTGGTGCCGAGCAACTACATCGGCGCCTCGATCGGCTACTTGCGCGAGCAGGTCGCCTCGGCCAAGCAGCCGTTCATTACATTGGGCGAGGATGCGCAGCGCAACCCGGCCTGGCAAACCCAAGGGCGCAAATCCCTGACGGTGCTGGTGGTGGGCGAGAGCGCGCGTGCAGAGAACTTTGGCATTCTCGGCTATCACCGCGATACCACGCCGCAGTTGGATAAAGAGGCCGGCCTGATTGCCTTTACCGACGTGCATTCCTGCGGCACCGAGACCGCCGTGTCGGTGCCGTGCATGTTTTCCAACATGGGCCGCAAGAACTACGACGCGAGCAAGGCCAAGAACGAAGAGGGCCTGCTGGATGTGCTCAAGCGCGCCGGACTGGAAGTGATCTGGCGCGACAACCAGTCCGGCTGCAAAGGCACCTGTGATCGGGTTGCGGTGCAGGACGTGAGTAATCTCAAGGACCCGGCCCTGTGTGCCAACAGTGAATGCCGCGATGAAATCCTGCTCCAGGGCCTGCAGCAGTTCATCGATACCCTCGACAAGGACACGGTGCTGGTGTTGCACCAGATGGGCAGCCACGGACCGGAATACTTCAAGCGTTATCCCAAGGAGTACGAGCATTTCACCCCGGTGTGTGAAAGCAACGCGTTGAATAATTGCAGCCGCGAAAGCATCGTCAACGGCTACGACAATACATTGGTATACACCGATCATGTGCTGTCGACGCTGATCGACCTGCTGCGGGCGAATCAGGACAAGGTCGACACGGCCATGCTGTACCTGTCGGACCATGGCGAGTCGCTTGGCGAATACAACCTGTTCCTCCATGGCACGCCTTATATGCTCGCTCCGGAGCAACAGAAACATGTGGCGATGCTGGCCTGGTTCTCCGACGGTTATCAGCAAGCCTTCTCGGTCGACACGCATTGCCTGCAACTGAGTCGGGAAAAACCCCTCAGTCAGGACAACCTGTTTCATTCGATGCTCGGGCTGCTGGAGGTCAACAGCAAGGTCTACAACCAGGAGCTGGACATGTTTGCCGGTTGTCGCGGCGCAGTCATCGACGGCGTGCTGGCCCGTGAGTAG	MLTIKAVRPEWVTLVASAFLLVAFNAILWQHLLAITAADGHGVLLCIAFAVMVFCAFNLVLTLVAFRPLLKPLLMLLFMISAGVAYFMAQYGVLIDAGMLRNFAETNATEVRDLLSLKLFGYLLLLGVLPAWLLFKTPISYRRWPRELLSKLLVGVVSAALLGGVALINYQGLSSLFRNHHELHLMVVPSNYIGASIGYLREQVASAKQPFITLGEDAQRNPAWQTQGRKSLTVLVVGESARAENFGILGYHRDTTPQLDKEAGLIAFTDVHSCGTETAVSVPCMFSNMGRKNYDASKAKNEEGLLDVLKRAGLEVIWRDNQSGCKGTCDRVAVQDVSNLKDPALCANSECRDEILLQGLQQFIDTLDKDTVLVLHQMGSHGPEYFKRYPKEYEHFTPVCESNALNNCSRESIVNGYDNTLVYTDHVLSTLIDLLRANQDKVDTAMLYLSDHGESLGEYNLFLHGTPYMLAPEQQKHVAMLAWFSDGYQQAFSVDTHCLQLSREKPLSQDNLFHSMLGLLEVNSKVYNQELDMFAGCRGAVIDGVLARE	PGPT0022420_401	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0022420-eptA-K03760	NA	NA
D1-35_01801	642			hypothetical protein	ATGCCCGGGCAATCCCCATCCACCGTCGAGCTTGAATTCACCCGACAGCACGAGCAGGAGCATGCGCAAACCTGCCATCAACCGGCGCCTCGGCGGTTGCGCCTGGTGTTCTGGCGTGACGAGCAGTTGGTGCGCAACGCTCTGAAGGCCGCCGGCGAGCCCGGCCTGGTGCTGGATGTGGCGTGCGGGGCGGGGCGCTTCTGGCCGGTGCTGGCCGAACATGCCAACCGGGTGATCCTGGCGGCGGACCCGTCGCCGCAAATGCTTGATCACGCGCTCGCCCACCACGAGCAAGCGTTGCTTGAGCGGGTCAGGACCTTCCCGAGTTCCGCGTTCACCCTCGGGCTATCCGCGAACGCGGTGGACTGTATTTTTTGTCTGCAACTGTTTCTGCATATCCAGGCCAGCGAGCATCGCCTGGCGTTGCTGCGCGAATTCCATCGGGTCAGCCGCGACACAGTGATCGTGTCGGTCCAGATCGAGGGCCGGCTGAGAACCGGCCAGCCGCCACCCAGGCGCCTGGTCGACCGGGCCCGGGTCGAAGCCGAGTTTATCGAGGCCGGTTTCAGCGTGCAGTGGTATCAGGATTTCCTGCCCGGTTTCGCCTTGAAGCGAGTTTATGTATTACGTAAGACCAGTTAA	MPGQSPSTVELEFTRQHEQEHAQTCHQPAPRRLRLVFWRDEQLVRNALKAAGEPGLVLDVACGAGRFWPVLAEHANRVILAADPSPQMLDHALAHHEQALLERVRTFPSSAFTLGLSANAVDCIFCLQLFLHIQASEHRLALLREFHRVSRDTVIVSVQIEGRLRTGQPPPRRLVDRARVEAEFIEAGFSVQWYQDFLPGFALKRVYVLRKTS				NA	NA	NA	NA	NA
D1-35_01802	1134	rnd	COG0349	Ribonuclease D	GTGGCCATCGATATTCACTGGATTCGCGACAACGATAGCCTCGGTCGGTTTTGCGCCGAATGGCAACAGTTGCCATTCGTCGCCCTCGACACCGAATTCATGCGGGTCGACACCTTTTATCCCATTGCCGGCTTGCTGCAGATCGGTGACGGTAAAAGCGCCTACCTGATCGACCCATTGACCATTGATGACTGGCAACCCTTGGCTGCGCTGCTGGAGAACCCGGCTGTGCTCAAGGTGTTGCATGCCTGCAGCGAGGATCTGGAAGTCTTGCTGCGCCTGACGGGCAGCCTGCCCGCGCCGCTGTTCGACACCCAGCTGGCCGCCGCTTACCTGAACCTGGGCTTTTCGATGGGTTACTCGCGGCTGGTGCAGGAAGTGCTGGGTATCGAGTTGCCCAAGGGCGAGACCCGTTCCGACTGGTTGCAGCGGCCCCTTTCCGAGACGCAGATCAGCTACGCCGCCGAGGATGCCGTGCACCTGGCGGAAGTTTTCGTCGAGTTGCGCCCGAAGCTTTCCGGCGAAAAATACGCCTGGGTGCTGGAGGATGGCGCCGAGCTGGTGGCCAACCTGCGACGTGAAGTCGACCCGTATGAGGTCTACCGCGACGCCAAGCTGGCCTGGAAACTCTCCCGTGCGCAACTGGCCGTGCTGCGTGAGCTTTACGCTTGGCGCGAACGCGAGGCGCGAGCCCGTGACCTGCCACGTAACCGCATCCTCCGCGAGCATTCGCTGTGGCCCCTGGCCCGCACGCAACCGGATAACCTCGGCGCGCTGGCAAAAATAGAAGACATGCACCCGCGCACGGTGCGTCAGGACGGCGAATTCCTGCTGGACCTGATCAAGCGTGCCGGCAGCGTGCCGCCCGAACAATGGCCGCCCGCCGTGGCCGAGCCGCTGCCCATCGAGGCCGCGGCGCTGATCAAGCGCCTCAAGGCGCTGGGCCAGGCTGAAGCCGAGCGCCTGGGCATTGCTCCTGAATTGATGCTTCGCAAGAAAACCCTCGAAGCCCTGATCAAGAGCGGCTATCCCGAGGGACCTTACCAACTGCCCGATTCGCTGCGTGGCTGGCGCCGCGAGTTGATGGGCCAGGCGCTGCTCGACAGCCTGGCCACCGCCGGAGAACAGCCTTGA	MAIDIHWIRDNDSLGRFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQIGDGKSAYLIDPLTIDDWQPLAALLENPAVLKVLHACSEDLEVLLRLTGSLPAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQRPLSETQISYAAEDAVHLAEVFVELRPKLSGEKYAWVLEDGAELVANLRREVDPYEVYRDAKLAWKLSRAQLAVLRELYAWREREARARDLPRNRILREHSLWPLARTQPDNLGALAKIEDMHPRTVRQDGEFLLDLIKRAGSVPPEQWPPAVAEPLPIEAAALIKRLKALGQAEAERLGIAPELMLRKKTLEALIKSGYPEGPYQLPDSLRGWRRELMGQALLDSLATAGEQP				NA	NA	NA	NA	NA
D1-35_01803	294	ycgL	COG3100	Protein YcgL	TTGAAACGTATCTGCTCCATCTACCGAAGCTCGAAAAAAAACGAGATGTACCTGTATGTGCTCAAGAGCGACGCCTTGAAGCGTGTGCCTGAGCCATTGATGGCGGCCTTCGGCAAGGCGATCCATGCCTTCGACCTGGTTCTGAGCCCGGAGCGGCAATTGTCCCGCGAAGACATCAACAAGGTGCTTGAGAACCTCGATACCCAGGGTTATCACCTGCAGATGCCACCGGCGGAAGACGAGTACATCGAGCATCTGCCCGAAGAGTTGTTGCGCCGCAACGACCCGGTCTGA	MKRICSIYRSSKKNEMYLYVLKSDALKRVPEPLMAAFGKAIHAFDLVLSPERQLSREDINKVLENLDTQGYHLQMPPAEDEYIEHLPEELLRRNDPV				NA	NA	NA	NA	NA
D1-35_01804	933	ghrA_1		Glyoxylate/hydroxypyruvate reductase A	ATGCGCGTTCTGATTGCCGAACACGACCACGCGATGTATGCCCAGCTCCTGCGCCAGGCTGCAGCCGATATCGAAATCCTGACCAGCGGCGACTCCGCTGAACTGTCACGCCTGGCCGCCGATTGCCCGGTCTGGCTCGGCCAGCCGGACTTGCTGGCGACCTTGTTGCGTCAGGGCCACAAGCCCCGTTGGTTGCAATCGACCTGGGCGGGGATCACGCCGCTGCTGGCCGAGGGCCTGACCCGTGACTACCGTCTGACCCGCGCGGTGGGCATTTTTGGCCAGGTCATGGCCGAATATGTGCTCACCTACATGCTCGGGCATGAGCGCGAAGTCCTGGCGCGCCTGGTCAGCCAGGTGGAGCGCAAATGGGATAATCGCCAGAGCCAGAGCCTGGCGGGCCGCAAGGTATTGATCGTCGGGACCGGCGATATCGGTCGCCGCGTGGCTGAGTTCCTGGTGCCATTTGGCGTGCAGTTGTACGGCATCGCCAGTGAAGCTCGGGAATTGGTGCCGTTTATTGAAGTTGGCGCGTTGCAGGACTTGCCCCGTCTGGTGGGCGAGGTGGACTACGTGATCAACCTGTTGCCGAATACACCGGACACTCACGATATCTACGACGCGGCGTTGTTCAAGCAATTCAAACCCACCGGGCTGTTCATCAATGTCGGCCGTGGCGTGGCCGTGGTCGATGCGGACCTGGTGCAAGCGTTGCAGGACGGGCACCTGGCCGGTGCGGTAATCGACGTGTGCCGCCAGGAGCCGTTGCCACAGCGCCATCCGTTCTGGACCGCCTGGGGATTGTTGCTGACCGGCCACAGCTCCGCACCGACGTCGCCGCCGATGATGGTGCAGTTGTTCCTGGAGAACCTGCGCGCCTATGAGGCCGGCGAAGCGTTGCGCGGGGAAGTGGATTTCAGTCGGGGCTACTGA	MRVLIAEHDHAMYAQLLRQAAADIEILTSGDSAELSRLAADCPVWLGQPDLLATLLRQGHKPRWLQSTWAGITPLLAEGLTRDYRLTRAVGIFGQVMAEYVLTYMLGHEREVLARLVSQVERKWDNRQSQSLAGRKVLIVGTGDIGRRVAEFLVPFGVQLYGIASEARELVPFIEVGALQDLPRLVGEVDYVINLLPNTPDTHDIYDAALFKQFKPTGLFINVGRGVAVVDADLVQALQDGHLAGAVIDVCRQEPLPQRHPFWTAWGLLLTGHSSAPTSPPMMVQLFLENLRAYEAGEALRGEVDFSRGY				NA	NA	NA	NA	NA
D1-35_01805	594	rutE		malonic semialdehyde reductase RutE	ATGAGTGCCAATCCCCGCATCGCCGAATACGCCATCCACCCCCAGTTCATCGAACGCTGGTCGCCCCGCGCTTTCACCGCTGAAAGCATTTCCCAAGAAACCCTGCTGAGCTTCTTCGAAGCCGCGCGCTGGGCGCCTTCGGCCTATAACTCGCAGCCGTGGCGTTTCCTGTATGCCCGTCGCGACACGCCGAACTGGGAGCGTTACCTGGGCCTGCTCAACGAATTCAACCGTGGCTGGGCCCAACACGCCTCGGCGCTGGTGATCATCGCCTCGAAAACCACCTTCGCGGTGCCCGGCGCCACCGAGGAAACCCCGGCCCAGTGCCACACCTTCGACACGGGCGCGGCCTGGGGCCACCTGGCGTTGCAAGCGAGCCTCAGCGGCTGGCACACCCACGGCATGGCCGGCTTCGACCAGGACCTGACCCGCAAGGAACTGAAGATCCCCGACGGCTACGCCCTGCACGCGGCCGTGGCGATTGGCAAGCTGGGAGACAAATCGACGCTGGCCGACTACCTCCAGGCCCGCGAAGTGCCGAGCCCGCGCCGGCCGTTGAGCGAGCTGGTGGCCGAGGGTGATTTCACCCTCTGA	MSANPRIAEYAIHPQFIERWSPRAFTAESISQETLLSFFEAARWAPSAYNSQPWRFLYARRDTPNWERYLGLLNEFNRGWAQHASALVIIASKTTFAVPGATEETPAQCHTFDTGAAWGHLALQASLSGWHTHGMAGFDQDLTRKELKIPDGYALHAAVAIGKLGDKSTLADYLQAREVPSPRRPLSELVAEGDFTL				NA	NA	NA	NA	NA
D1-35_01806	450			hypothetical protein	ATGGCCGCCAAAGTCGAACCGTTCTGGATACGCAAAACCCTCGATCAGCTCGATTCACAGGAGTGGGAATCGCTGTGTGACGGCTGTGGCCTGTGCTGCCTGCAAAAGCTCGAAGACGAAGACGACAACAGCGTCTACTACACGCGCATCGCCTGCAAGTTGCTCGACCTGAAGACGTGTCAGTGCACCGATTACCCCAATCGTCGCGACTTTGTTCCTGATTGCATCCAGCTCACGCCGGGCAAGGCCGATGAGTTCAAATGGTTGCCGCCAACCTGCGGCTATCGCCTGGTCAGCGAGGGCAAGGACCTGCCGCTTTGGCACCATCTGGTCTGCGGCGACCGTGACGCGGTGCACCACGAACGCATTTCCCAATCCGGGCGCATGCTCGCCGAAGGCAGCGTGGCTGAAGAGGATTGGGAAGATCACCTGATTTTCCGCGCCGGCTGA	MAAKVEPFWIRKTLDQLDSQEWESLCDGCGLCCLQKLEDEDDNSVYYTRIACKLLDLKTCQCTDYPNRRDFVPDCIQLTPGKADEFKWLPPTCGYRLVSEGKDLPLWHHLVCGDRDAVHHERISQSGRMLAEGSVAEEDWEDHLIFRAG	PGPT0009760_669	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-1_ExpI|EsaI_PERCIPITATION|SIGNALLING|AHL|NAHL,PGPT0009760-ycgN-K09160	NA	NA
D1-35_01807	1230			hypothetical protein	ATGGCTGCAGGATTGAAACGGATGCTGGCGGCCGGGCTGCTGGCGGTGAGCGGACCGCTGTGGGCCGCGCAGAAAGTCGATCTGGATTATCACGTCCACCTGTTGCCGCAGAGCGACCAGGCCGAAGTGCGCCTGACGCTGGCGCGGGGCTCGGCGGTGCGCAGCCTGGATTTCGATCTTGGAAGCGATGGTCGCTACAGTGATTTCAAAGCCGATGGCCAGTGGCAACTGACCCCCGGTCACGAAGCTCGGGGCGTCTGGCGCCCAGCCGCCGACAAGGCGAGCCTGACTTATCGCGTCCGCCTCAGCGAGTCGCGCAAAAACGGCTCCTTTGAGACCCGCATGACCCCCGGATGGGCGCTCCTGCGCGGTGATGATCTGGTACCGCCAGCCAGGCTGGATCAGCAGGACGGCACCGAGCTGGTGTCACGCCTGGAATTCGAATTGCCGGGTGGCTGGCAAAGCATCGAGACGCCCTGGCCGCGTATCGGCAAGCAGCGTTTTCGCATCGACAACCCTTCGCGCCTGTTCGACCGGCCGACGGGCTGGATGCTGGCCGGCAAACTCGGCAGCCGCCGCACGCGCCTGGGCGAGACCGAAGTGACCGTGGCTTCGCCGCGAGGCCAGGGCATGCGGCGGATGGACGTGCTGACGCTGCTGACCTTCGTCTGGCCGCAGGTGCAGGCAATCGTGCCGCGCCATCCGGCCAAGCTGTTGATCGTTGGCGCGGGCGATCCGATGTGGCGTGGCGCCCAGGGCGGCCATGAATCGATTTACCTGCACAGCCGTCCGGCGCTGGTCAGCGAACGGGGCAGCAGCCCGTTATTGCGGGAGTTGATCCAGGTGCTGGCGCGCATCAACGATCATGATCGCAGCGACTGGATCAGCGAAGGGCTCAACGAGTATTACGCCATCGAATTGCTGCGCCGTGCCGGCGGCATGAGCGACGAGCGTTATCAGGCATTGAATGATCGACTCGCCCGGGACAGCAAGGGCGTCACGATGTTGCGTGGTGAACAGGTGAGCCCGGCGATGGTGTCCAAGGCGGTGCTGCTGTTGCAGGAGCTGGACCGGGAAATCCGCCTGAAAACCCGCAACAAGCGTTCGCTGGATGATGTGCTGCAAGGGGCGATGCGCTTGGAAACCGTCGACACCGAGGAGTTTGTGCAGCTCAGCGAGAGCATCCTGGGCGGGGGCTCCAGCGTTCTGGATACGCGGTTACTTCAGTAA	MAAGLKRMLAAGLLAVSGPLWAAQKVDLDYHVHLLPQSDQAEVRLTLARGSAVRSLDFDLGSDGRYSDFKADGQWQLTPGHEARGVWRPAADKASLTYRVRLSESRKNGSFETRMTPGWALLRGDDLVPPARLDQQDGTELVSRLEFELPGGWQSIETPWPRIGKQRFRIDNPSRLFDRPTGWMLAGKLGSRRTRLGETEVTVASPRGQGMRRMDVLTLLTFVWPQVQAIVPRHPAKLLIVGAGDPMWRGAQGGHESIYLHSRPALVSERGSSPLLRELIQVLARINDHDRSDWISEGLNEYYAIELLRRAGGMSDERYQALNDRLARDSKGVTMLRGEQVSPAMVSKAVLLLQELDREIRLKTRNKRSLDDVLQGAMRLETVDTEEFVQLSESILGGGSSVLDTRLLQ				NA	NA	NA	NA	NA
D1-35_01808	378			hypothetical protein	ATGAGCGACAACAATCCGTTCGGGCCGGTTGAGACCACCCCTTTCCAAACCCGCAGCCCGCAGAACGTGCACGGCTGGGAGCGCATTGGGTCACTGGCCGGTGGGGTGCTGATGATGGGCAAGGGATTGCGCCGCGGCGGTGTGATCGGCCTGGCCCAACTGGCAATCGGCGGCATGGCCCTGGCCCGCGGCATCACCGGACATTGTTCGGCCAAGACCCTGCTGGAAAAAAATCGTCAGCACCTGCACGACGCCCGCGCCCGGATCGAGCAGGCCGGCGATGAACTGAGCCGCATGAAAACCAATGCCGAGGCGGCGACCGGCACCGCTACGGTAACGGGGAATGATTCGTTGGTTTCGCCGAAGGCTGGGCTCTGA	MSDNNPFGPVETTPFQTRSPQNVHGWERIGSLAGGVLMMGKGLRRGGVIGLAQLAIGGMALARGITGHCSAKTLLEKNRQHLHDARARIEQAGDELSRMKTNAEAATGTATVTGNDSLVSPKAGL				NA	NA	NA	NA	NA
D1-35_01809	471			hypothetical protein	GTGGCCAACAAACGCTACAGCTGCATCGGTCTGTTCAACCCCAAGTCGCCGGAAAACGTCGGTTCGGTCATGCGTGCCGCCGGCTGTTACGGCGTCGCGTCGGTGTTCTATACCGGCAAGCGCTACGAACGCGCTGCCGACTTCGTTACCGACACCAAAAAAGTCCACTACGACATCCCGCTGATCGGCATCGACGACCTGAAAAAGATCCTGCCCCTGGGCTGCGTGCCGGTGGCCGTGGAACTGGTGGACGGCGCCCGTCCCTTGCCCGAATACACCCATCCGGACCGGGCCCTGTACATCTTCGGTCCGGAAGACGGTTCTCTGGACAAGGACATCCGCGACTGGTGCGAAGATGTGATCTACATCCCCACCAACGGCTGCATGAACCTGGCCGCTACAGTCAACGTCGTGCTCTACGACCGCATGGCCAAAGGCAACAACACCCGCTCGGGGCCGCAATTTCGCTGA	MANKRYSCIGLFNPKSPENVGSVMRAAGCYGVASVFYTGKRYERAADFVTDTKKVHYDIPLIGIDDLKKILPLGCVPVAVELVDGARPLPEYTHPDRALYIFGPEDGSLDKDIRDWCEDVIYIPTNGCMNLAATVNVVLYDRMAKGNNTRSGPQFR				NA	NA	NA	NA	NA
D1-35_01810	375			hypothetical protein	ATGAGTTCGTCCACCCCACCGTCCAACACCGCCAAGCTCGACCGCATCCTCGCCGACGCCCAGCGCGACCGGGAAATGGGCTACCGCGACAAAGCCCTGAAAATGTACCCCCACGTCTGCGGTCGCTGCGCCCGTGAGTTTTCCGGCAAGCGCCTGAGCGAACTGACCGTCCATCACCGTGACCACAACCACGACAACAACCCGCAGGACGGTTCCAACTGGGAACTGCTGTGCCTGTACTGCCACGACAACGAGCACTCGCGCTACACCGACCAGCAATACTTCGGCGACGGCTCCCTGAGCACGCCGAAGATCGCCAAGGCGACGCATAACCCCTTCGCCGCGCTGGCCGGGCTGATGAAAAAAGACGAGTAG	MSSSTPPSNTAKLDRILADAQRDREMGYRDKALKMYPHVCGRCAREFSGKRLSELTVHHRDHNHDNNPQDGSNWELLCLYCHDNEHSRYTDQQYFGDGSLSTPKIAKATHNPFAALAGLMKKDE				NA	NA	NA	NA	NA
D1-35_01811	1011	speE_3		Polyamine aminopropyltransferase	ATGCCCGGGATCGGCTGGTCCTTCGGCGGCCTGGGCATTTCGATCGGCGGCAACAGCGGCGGGCCGCCACCCGGTGGGGCAGCCTTGGGCACGCCGTTGGGCGTGACCGGCGGATACGGCATGGGCGTGGCGGTGCCCGGCGCCCCGGGAATGCTCGGCGGGTTGACGGGAATCGTCGGTTGCTGGGCCTGGGCGCAACTTATCGAGAGCGCCGCCACGGCAATGGCCGTTAGAATGGTGCACTTCATCAATGGCTCCGTGGCTATTGTCTGCTTTCAGGCTAGTCCCAACCGGGCCGGTCTGCCCCATTCCCATGAGATTTCCATGAAACGTTTCGTTCTTCTCGACACCACGCCCATTCCCGACAACGGCGGTGCCTTGTGCCTTTTCGAGTATGGCGAAGATTTCGTCATCAAGATCCAGGGCGGTGACGGCGGACAGTTGATGAATACCCGCATGCACGGTTCCGAAGATGCCCTGGCCGAGATTCCCTGTCGCAAGGTCGCCGGCCGTCCCGGCTCGCGGGTGCTGATCGGTGGTCTCGGCATGGGCTTCACCCTCGCCTCCGCCCTGAAACACCTGGGCAAGAGCGCCGAAGTGGTAGTGGCCGAGCTGGTCCCGGGTGTGGTCGAGTGGAACCGCGGCCCCCTCGGCGAAAAGGCCGGGCGACCGCTGTCGGACCCGCGCACCGTGGTCCGCATGGAAGACGTCGCCAAGGTCCTGCAAGCCGAGCCGCAAGGGTTCGACGCGATCATGCTGGATGTCGACAACGGCCCGGAAGGCCTGACCCAGAAAGCCAACAGTTGGCTGTATTCGGCCGGCGGCCTGGCCGCGTGCGCCAAGGCCCTGCGCCCCAAGGGCGTGCTGGCGGTATGGTCGGCCAGCGCTGACCGGCAGTTTTCCGACAAGCTGAAAAAGGCCGGCTTCAAGGCCGAAGAGGTGCAAGTGTTCGCCCATGGCAACAAAGGCACCCGCCACACCATCTGGATTGCCGAGAAGCTCAAGGGCTGA	MPGIGWSFGGLGISIGGNSGGPPPGGAALGTPLGVTGGYGMGVAVPGAPGMLGGLTGIVGCWAWAQLIESAATAMAVRMVHFINGSVAIVCFQASPNRAGLPHSHEISMKRFVLLDTTPIPDNGGALCLFEYGEDFVIKIQGGDGGQLMNTRMHGSEDALAEIPCRKVAGRPGSRVLIGGLGMGFTLASALKHLGKSAEVVVAELVPGVVEWNRGPLGEKAGRPLSDPRTVVRMEDVAKVLQAEPQGFDAIMLDVDNGPEGLTQKANSWLYSAGGLAACAKALRPKGVLAVWSASADRQFSDKLKKAGFKAEEVQVFAHGNKGTRHTIWIAEKLKG				NA	NA	NA	NA	NA
D1-35_01812	474			hypothetical protein	ATGTCAGAACCGACCTTACTGAACAACCAAATTCGCGACTGGCTGATGGACTGTGGTCTGTTCGACCAACTGCTGCCCGTCGACTTTGCCGCGGCATCGGGCTATTTCAGCATCAGTACCGTCGCCCAGGGCGAAGCGATTTTTCGCGAGGGCGATGCCGGCAGTTTCATGTGCATCCTTCACACCGGCCAGGTGGCCGTGCAGAAAACCGGCCCCGACGGCCAGCCCGTGACCATCGCCACGCTGCGCAGCGGCCGCGCCTTCGGCGAAATGGCCGTGCTCGACGGCGAACGACGCTCGGCCAGTTGCATCGCCGCCACCGAATGTCAGTTGTTGAACCTGGGCAAGGACTCCCTGGAAAAAATGCTCAACGACGCACCGAAGATCGCCGCCAAGATCATCCGCGCCCTCGCCGTCTCCCTGTCCAAGCGCCTGCGCATGGCCGACGGGCAGTTGCTGTCGCAGCAGGTGTAG	MSEPTLLNNQIRDWLMDCGLFDQLLPVDFAAASGYFSISTVAQGEAIFREGDAGSFMCILHTGQVAVQKTGPDGQPVTIATLRSGRAFGEMAVLDGERRSASCIAATECQLLNLGKDSLEKMLNDAPKIAAKIIRALAVSLSKRLRMADGQLLSQQV	PGPT0015075_5300	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
D1-35_01813	2055	dapb1		Dipeptidyl aminopeptidase BI	ATGCCCCTATCCGCCCACGTTCCCGACGCCCCGATTGCCCGCAAGGCCCCCGGTGTTGACCCCTACGCCTGGCTGCAGGAGCGCGACACCGACGCCGTGCTCGAATACCTGAAGGCTGAAAACAGCTACCAGCAAGCCCGGCTCGCCGATCAGGCCGAACTGCGCGAAACGCTGTTCCAGGAAATCAAGGGACGAATCCTCGAAACCGACCTCTCCCTGCCCTCGCCCTGGGGTCCTTACCTGTATTACACCCGCACCACGGCGGGTGATGAATACGCTCGCCATTACCGTTGCCCGCGTCCGGCCGATGACAGCCTGACGGTCGATGAAAGTCGTGAACAGCTGTTGCTGGACCCGAACGCGCTGGCAGGCGGCGGTTTCTTTTCCCTCGGCGCGTTCAGCATCAGCCCCGACCATCAGCGTCTGGCCTACAGCCTGGACACCAGCGGCGATGAGATCTATACGCTGTTCGTCAAGGAGCTGTCCAACGACAAGGTCAGCGAACTGTCCTTCGAAAACTGCGACGGCAGCATGACCTGGGCCAACGACAGCCTGACGCTGTTCTTCGGCGAACTCGACGATACCCATCGCCCGCACAAGCTGTTGCGCTATCGCCTGGACGGCACCGCCGCCGAAGAAGTGTTCAATGAACCGGACGGGCGTTTTTTCCTGCATTGCTACCGTTCAAGCTCCGAGCGGCAGTTGATCCTGTCCCTGGGCAGCAAGACCACCAGCGAAGTCTGGGTGCTGGACGCGGCGCAACCACAACAACCGTTTACCTGCGTCGCGCCACGGGTAGAGAACCACGAATACGATGTCGACCATGGCCTGCTCGAAGGGCAATGGACCTGGTTCATCCGCAGCAACCGCGACGGCATCAATTTCGCCCTGTACCAGGCGCCCGATATGGGCGAAGCGCCGGCCGAAGCCGACTGGCAGAACCTGATCCCCCACAGTGACACGGTGATGATCGACGGCCTGAGCCTGAACGCCAGCGCCATGACATTGAGCCTGCGCGAGGGCGGCCTGCCGATCATCGAAGTCCACCCACAAGGTTTACCGGCCTATCGGGTGCAATTGCCGGACGCGGCCTACAGCCTGCACGTGCAGAACAGCCTGGAGTTTGTCAGCGAGCGCATTCGCCTGCGCTACGAAGCGCTGAATCGTCCGGCGCAGATCCGCCAGCTGGACCTGGCCAGCGGTGTTCAGGTCGTACTCAAGCAAACCCCGGTGCTGGGTCCGTTTGATGCCGATGCGTATGTCAGCCAACGGCTTTGGGCGACGGCACCGGACGGTACGCAAGTGCCCATCAGCCTGGTGGTCAAGCGCGAGGCCTTGGGCAAGCCCGTGCCGCTGTACTTGTACGGCTACGGCGCCTATGGCGAAAGCCTCGACCCATGGTTCTCCCATTCGCGCTTGAGCCTGCTGGACCGTGGTGTAGCGTTTGCCATCGCCCATGTGCGCGGCGGCGGCGAACTGGGCGAGGCCTGGTATCGCGCTGGCAAGCAGGAGCACAAGCACAACACTTTCAGTGATTTCATCGCTTGCGCCGAACACCTGATCGCCCAGGGCTTCACCTCGGCCGATCAGTTGGCGATCAGCGGCGGCAGCGCCGGTGGCCTGCTGATCGGCGCAGTCCTCAACCAACGCCCGGAGCTGTTCAAGGTGGCGATCGCCGAAGTGCCGTTCGTCGACGTGCTCAACACCATGCTCGACCCCGAACTGCCACTGACCGTGACCGAATACGACGAATGGGGCAACCCCGAGGAGCCGGACGTTTATGATCGGATTCGGGCCTACGCGCCGTACGAAAACGTCCGCGCCCAGGCGTATCCGGCAATGCTGGTGATCGCCGGCTACAACGACAGCCGCGTGCAGTACTGGGAAGCGGCCAAGTGGGTGGCGAAACTGCGCGCGACCAAGACCGACGAAAACCCGCTGCTACTCAAGACCGAACTGGGCGCTGGCCATGGCGGCATGAGCGGCCGCTACCAGGGATTGCGTGACGTAGCGCTCGAATACGCATTTGTCTTGAAGGTTTTGGGCGTGGCTTGA	MPLSAHVPDAPIARKAPGVDPYAWLQERDTDAVLEYLKAENSYQQARLADQAELRETLFQEIKGRILETDLSLPSPWGPYLYYTRTTAGDEYARHYRCPRPADDSLTVDESREQLLLDPNALAGGGFFSLGAFSISPDHQRLAYSLDTSGDEIYTLFVKELSNDKVSELSFENCDGSMTWANDSLTLFFGELDDTHRPHKLLRYRLDGTAAEEVFNEPDGRFFLHCYRSSSERQLILSLGSKTTSEVWVLDAAQPQQPFTCVAPRVENHEYDVDHGLLEGQWTWFIRSNRDGINFALYQAPDMGEAPAEADWQNLIPHSDTVMIDGLSLNASAMTLSLREGGLPIIEVHPQGLPAYRVQLPDAAYSLHVQNSLEFVSERIRLRYEALNRPAQIRQLDLASGVQVVLKQTPVLGPFDADAYVSQRLWATAPDGTQVPISLVVKREALGKPVPLYLYGYGAYGESLDPWFSHSRLSLLDRGVAFAIAHVRGGGELGEAWYRAGKQEHKHNTFSDFIACAEHLIAQGFTSADQLAISGGSAGGLLIGAVLNQRPELFKVAIAEVPFVDVLNTMLDPELPLTVTEYDEWGNPEEPDVYDRIRAYAPYENVRAQAYPAMLVIAGYNDSRVQYWEAAKWVAKLRATKTDENPLLLKTELGAGHGGMSGRYQGLRDVALEYAFVLKVLGVA	PGPT0020980_1965	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020980-ptrB-K01354	NA	NA
D1-35_01814	495			hypothetical protein	ATGGACACCATGACCGAGAACGATTATCTGATTGCCTGGGGTCTCTACGCCTTCGCCGCCCTCGGCTGCCTCCTGGTGTGGATGCGCATGACCCGCTTCATGTGGCGCTGGTTGCGCGAGCCGCTGCGGCTGCTGATGGCGGTGTTGCTGTTCAGCCCGACCATCGTCGACCCGGTGAAGGAAAAGGTCGCCCCGGCGCTGGCCATTGCCGCCCTGGACTTGCTCTTCAAGGTTGGCAACAACGTCTGGCGCGCAGCGTCCGACCTGCTCATGTACGCCATGATCGCCTTCGGCCTCTATCTGGTCCTGGTGCTGATCCGTATTCCTGTCGAACGCGCGGCCAAGGCTCGCCAGGAGCGGGCCGCCGCAGCCAAAGCGGCCGCCGCTGCCGAGCCTGACGACGAGCCTGCGTTCGGCGTGGCCGGTGACGACCGTTATGGTCGCCCACCCGTGCCGAGCAATCCCCAGCGTTCGCGTATCGAACCGCGCCTGTAA	MDTMTENDYLIAWGLYAFAALGCLLVWMRMTRFMWRWLREPLRLLMAVLLFSPTIVDPVKEKVAPALAIAALDLLFKVGNNVWRAASDLLMYAMIAFGLYLVLVLIRIPVERAAKARQERAAAAKAAAAAEPDDEPAFGVAGDDRYGRPPVPSNPQRSRIEPRL				NA	NA	NA	NA	NA
D1-35_01815	777	yafJ	COG0121	Putative glutamine amidotransferase YafJ	ATGTGTGAGTTATTGGGCATGAGCGCCAATGTGCCGACCGATATCGTCTTCAGCTTCACCGGGCTGATGCAGCGCGGCGGCAAGACCGGGCCGCACCGCGACGGCTGGGGCATCGCTTTTTATGAAGGCCGTGGCCTGCGCCTGTTCCAGGACCCGGCCGCCAGCAGCGAGTCGGAAGTGGCGAACCTGGTGCAACGCTATCCGATCAAGAGCGAAGTGGTCATCGGTCACATCCGCCAGGCCAACGTCGGCAAGGTCTGCCTGTCCAACACCCACCCGTTCGTGCGGGAGTTGTGGGGGCGCAACTGGTGTTTCGCCCACAACGGCCAGCTCGCCGATTTCCAGCCGGGCGTGAGCTTCTACCGCCCAGTGGGCGATACCGACAGCGAGGCGGCGTTCTGCGACCTGCTCAACCGCGTGCGCCAGGCTTATCCTGAGCCGGTGGAGGTCGAGCAGTTGCTGCCGGCCTTGATCGAGGCGTGCGGCGAATACCGCAGCAAGGGCGTGTTCAACTGCCTGCTCAGCGACGGCGACTGGCTGTTCTGCTATTGCTCGACCAAACTGGCGCAGATCACCCGGCGCGCACCGTTCGGCCCGGCGCGGCTCAAGGATGTGGACGTGATTGTCGACTTCCAGGCCGAAACCACGCCCAACGACGTGGTCACGGTGATTGCCACCGAACCCTTGACCGAAAACGAAACCTGGACCCGCTACGAACCGGGCCAATGGAGCCTGTGGCGACGCGGCGAATGCGTCAGCCACGGCCGGACCGAATAA	MCELLGMSANVPTDIVFSFTGLMQRGGKTGPHRDGWGIAFYEGRGLRLFQDPAASSESEVANLVQRYPIKSEVVIGHIRQANVGKVCLSNTHPFVRELWGRNWCFAHNGQLADFQPGVSFYRPVGDTDSEAAFCDLLNRVRQAYPEPVEVEQLLPALIEACGEYRSKGVFNCLLSDGDWLFCYCSTKLAQITRRAPFGPARLKDVDVIVDFQAETTPNDVVTVIATEPLTENETWTRYEPGQWSLWRRGECVSHGRTE				NA	NA	NA	NA	NA
D1-35_01816	543			hypothetical protein	ATGTTGCTCAGTTATCTACGGTTGGTGTTGTTCGCGGTGGGCCTGCTGGTCGGGGTCCAGGTGCCGGGCTTCGTCAATGATTACGCCAAGCGGGTCGAGGCCCACCTGATCGAGGCGCAGACTGGCCTGCAGGGGTTCCAGGGCACCGCCAACCAGTTCTTCAAGGGTGACATGCAGGCCCTGGTGGCGCATTACCGCGCCAGTGAAGACCCGATCTTTCGCAGCGATGCCGACAGCCTGAACACCTTGCTCGTGCGCCAGCAGGCTTTGGACAAACAGTTCCAGGCAATGCAGGGCCCGTGGTACATCCGCCTGCTGCAGGTGGCCCTGGCCGCCGATCCGGACATCCGCAAGGAAACCTGGAACGGCTACAGCTACCAGATCCTGCTGACCCCCGAGGCGATGATCTGGGGCATCAGCGGCGCGATGTTGCTGTCGTTCGGCCTGGAATGCCTGTTCCGCCTGATCGACTGGGTGGTGCTGGGTGGCAAGCGCCTGCGCCAGAGCCGGCCGATCGAAGAGCGTGACCTGCGCGGACTGTAG	MLLSYLRLVLFAVGLLVGVQVPGFVNDYAKRVEAHLIEAQTGLQGFQGTANQFFKGDMQALVAHYRASEDPIFRSDADSLNTLLVRQQALDKQFQAMQGPWYIRLLQVALAADPDIRKETWNGYSYQILLTPEAMIWGISGAMLLSFGLECLFRLIDWVVLGGKRLRQSRPIEERDLRGL				NA	NA	NA	NA	NA
D1-35_01817	1287	naiP_1		Putative niacin/nicotinamide transporter NaiP	ATGAGTGCACCCGACACGCTCGGCGTCCCCCAACCCCAGGCCCGCTCCGGACCGTTCGATTGGTATCGCAACATCAACCAGCAGGAACGGCGTACCTTCTGGAGCTGCAAGATCGGTTACGCCCTGGACGGCATGGACACCCAGATGCTCAGCTTCGTGGTGCCGACGCTCATCGCGATGTGGGGCATCAGCACGGGTGAAGCGGGGCTGATTCACACCAGCACCTTGATCGCTTCGGCCATCGGCGGCTGGGTGGCGGGCATTCTCTCGGACCGCATCGGTCGGGTGCGCACGTTGCAATTGACGGTATTGTGGTTCGCCTTCTTCACCTTCCTCTGCGGTTTCGCCCAGAACTACGAACAACTGTTGATCGCCCGCACGCTGATGGGCTTCGGCTTCGGCGGCGAGTGGACCGCCGGCGCCGTGTTGATGGGCGAAGTGATTCGCGCCAAGGACCGTGGCAAGGCGGTCGGCATGGTGCAATCGGGCTGGGCCCTGGGCTGGGGCATGACGGCGATTCTGTATGCGCTGCTGTTCTCGGTGCTGCCGCCGGAAGACGCCTGGCGCGCATTGTTCATCCTCGGCATCGTGCCGGCGGTGTTCGTGATCTTCGTTCGCCGGCTGGTCAAGGATCCGGAAGTCTATAACCAGGCCAAGGCCCGGCTGACGCCCGAGAACCCGGCGAAGTTCTACGAGATTTTTGCCCCTGGCATTCTGTTCACGACGATTCGAGCCTCGCTGCTGACCACTGGCGCGCTGGGTGGCTACTACGCCATCACCTCCTGGCTGCCGACCTTCCTGAAAAACGAGCGCGGCTTGAGCGTCCTGAGTACCGGCGGCTACCTGGCGATGGTGATCGTCGGCTCGTATGTGGGTTACGTCATCAGCGCCTATCTGTCCGACATCCTCGGGCGCAAGAAGAATTTCGTCCTGTTTGCCGTCGGTTCCTTCACTATCGTGCTGCTGTATACCCAGGTGCCGGTGAGCAACAACGTGATGCTGTGGCTGGGCTTCCCCTTGGGCTTCTTCGCTTCGGGCATGTTCAGCGGCATGGGGTCGTTCCTCACCGAACTGTTCCCCACGCGCATCCGCGGATCGGGGCAGGGCTTCTGCTACAACATTGGCCGCGCGGTGGCGGCGCTGTTTCCGCTGTTGATCGGTATCCTGAGCCAGAAGGTGCCGCTGAGCGTCGGCATCGGAGCCTTCGCGGCGGTGTCCTATGGCGTGGTGATCCTGGCGGCCCTGAGCCTGCCGGAGACTCAGGGCAAGCAGTTGGAAGCCGACTGA	MSAPDTLGVPQPQARSGPFDWYRNINQQERRTFWSCKIGYALDGMDTQMLSFVVPTLIAMWGISTGEAGLIHTSTLIASAIGGWVAGILSDRIGRVRTLQLTVLWFAFFTFLCGFAQNYEQLLIARTLMGFGFGGEWTAGAVLMGEVIRAKDRGKAVGMVQSGWALGWGMTAILYALLFSVLPPEDAWRALFILGIVPAVFVIFVRRLVKDPEVYNQAKARLTPENPAKFYEIFAPGILFTTIRASLLTTGALGGYYAITSWLPTFLKNERGLSVLSTGGYLAMVIVGSYVGYVISAYLSDILGRKKNFVLFAVGSFTIVLLYTQVPVSNNVMLWLGFPLGFFASGMFSGMGSFLTELFPTRIRGSGQGFCYNIGRAVAALFPLLIGILSQKVPLSVGIGAFAAVSYGVVILAALSLPETQGKQLEAD				NA	NA	NA	NA	NA
D1-35_01818	753	pxpA3	COG1540	5-oxoprolinase subunit A 3	GTGAACCGCCTGCTACTGAACTGCGACATTGGCGAAAGCTTCGGCAACTGGACCATGGGTCTGGACGCCGAGGTGATGCCCTTTATCGATTGCGCCAACATCGCCTGCGGCTTTCATGCCGGCGACCCGAGCATCATGCGCAAGACCGTCAGCCTCGCCCTGAGCCACGGCGTACGGATCGGCGCGCACCCGGCCTATCAGGACCTGGCGGGCTTCGGCCGCCGCTCCATGGCCTATGGCGCCCAGGAGCTGCAAGACCTGCTGCACTACCAGATCGGCGCCCTGGACGGTATCTGCCGGGCCCAGGGTGGACAGGTCAGCTACGTCAAACCTCACGGTGCGATGTACAACGACATGATGGCCAACCCGGCGCAACTGCGTGCTGTTATCGAGGCCATCGCCGCGTATGACCGGCAGTTGCCGCTGATGCTGCTGGCGACCCGGGACAACAGCGCCGCCCAGGCCCTGGGCGACGAATACGGTGTGACCCTGTGGTTCGAAGCCTTCGCCGACCGGGCCTATGACAGCGCCGGTCGCCTGGTCTCGCGGCAGTTGCCGGGGGCGGTGCATCACGATTCCGAGGTGATCATCGGGCAGGCGCTGACCATTGCCCGCGGCGACGCGCTGACGGCCAGCGACGGCAGCGCGTTGAATCTGCACGCCGATACGTTGTGCGTGCACGGCGACAACGCCAGCTCCGTGGCGGCCGTGCAGCGTATCCGCGAGGCCCTCGACCGGCAGAGCGCGCCATGA	MNRLLLNCDIGESFGNWTMGLDAEVMPFIDCANIACGFHAGDPSIMRKTVSLALSHGVRIGAHPAYQDLAGFGRRSMAYGAQELQDLLHYQIGALDGICRAQGGQVSYVKPHGAMYNDMMANPAQLRAVIEAIAAYDRQLPLMLLATRDNSAAQALGDEYGVTLWFEAFADRAYDSAGRLVSRQLPGAVHHDSEVIIGQALTIARGDALTASDGSALNLHADTLCVHGDNASSVAAVQRIREALDRQSAP				NA	NA	NA	NA	NA
D1-35_01819	705	pxpB	COG2049	5-oxoprolinase subunit B	ATGAAACCACGCGTGGAAGTGGTGGCGGTGGACTGCCTGATGGTGCGCCTGTTCGACGAAATCGCCGAGGCCAACATGCCGTGGATGCTCGCTGCCAGCGCGCGCCTGCGCGCGGTTTTCGCCGATGATCTGATTGATCTGGTGCCGTCCTACACCACCCTGATGGTGCATTACGATTTGCTCGCCCTGACTCCGAACCAGGCCCGCGAGTTGATCGGCGAAGCGCTGAACAACCTCTCGCCGGATGCCCGGTCCGCCGGGCAATGCCATGTGCTGCCGGTGTGGTACGACCCAAGTGTCGGGCCGGAGCTGGACCTGCTGGCGAGCCGCAGCGGGTTGACGGTGACGCAAGTCATCCAGCGTCACAGTGAGCGGGAATATCAGGTGTTCGCCCTGGGCTTCGCGCCGGGATTCGCTTTCATGGGGCTGGTGGACGAGGAACTGGCCGCACCGCGACTCGACACCCCACGCAAACGGGTCGCGGCGGGCAGCGTCGGAATCGCCGAGCGCCAGACCGCCGCGTATCCGGTGGTATCGCCTGGCGGCTGGAACCTGATCGGCCGCACCCCGGCCAAATTGTTCGATCGCGAGCGCGATGGCTACAGCCTGATGCAACCCGGCGACACGGTGCGTTTTGCCGCTGTCGATCACGCTGAGTTCATTGCCCTGGGCGGCGATGACACACCGTTGGAGGCACAGGCATGA	MKPRVEVVAVDCLMVRLFDEIAEANMPWMLAASARLRAVFADDLIDLVPSYTTLMVHYDLLALTPNQARELIGEALNNLSPDARSAGQCHVLPVWYDPSVGPELDLLASRSGLTVTQVIQRHSEREYQVFALGFAPGFAFMGLVDEELAAPRLDTPRKRVAAGSVGIAERQTAAYPVVSPGGWNLIGRTPAKLFDRERDGYSLMQPGDTVRFAAVDHAEFIALGGDDTPLEAQA				NA	NA	NA	NA	NA
D1-35_01820	921	pxpC	COG1984	5-oxoprolinase subunit C	ATGAGCCGTCTGTTGATCGAGGCCAGCACAGCGCTGTGCCTGTTGCAGGATAATGGCCGCTTCGGCGTCAGGCACCTGGGCGTGACCCAGGGCGGCGCGGCGGACTGGCTGTCGATGAGCTGGGCCAACTGGATGCTGGGCAACGCCCCGGATGCCGCAGTGGTGGAAATCACCCTCGGCGGTTTTACCGTGGTGGCCGAGGAGGATTGCGTGCTGGCGCTGGCCGGTGCGGACCTGGGCGCGCGGATAGACGGGCAGGGCGTGGCGTCGTGGCGATTCTTCAGCCTGCGCCAAGGCCAGGTGTTGGCGTTCACTCAGCCGGTGCTCGGTGCCCGCGCCTACCTGGCGGCTCCCGGTGGTTTTGATGCGCCTGCGGTGCTGGGCAGCCGGGCGACGGTGGTGCGCGAAGAACTCGGTGGCCTGGATGGGCGGGGGCGGGCGCTGAGTCGCGGTGAGCAGCTGAGTTATTCAGGCTCGGCAACGCCTCGGCCGATGCCCCACAGGCGGATTCCGGATTTTCAGCAGCTGCAGCCGCTGGACCTGATCCTCGGTGCGCAAAATGGCGCGTTCAGCGGACGCAGCCTGTTCGATGCCTTCAATACACCATGGACGCTGGACAGTCGCGCCGATCGCATGGGCATGCGCTTGCTCGGTCCGGCGCTGGAATACCAGGGCCCAGCGATGATTTCCGAAGGCATTCCGCTCGGCGCCGTGCAGGTGCCGCCGGACGGCCAACCGATCGTGCTGCTCAATGATCGGCAGACCATCGGCGGTTATCCGCGCCTGGGCGCCTTGACGCCGCTGTCCCTGGCCCGGTTGGCGCAATGCCTGCCAGGGACGCAGCTGCGGTTGCGGCCGGTGGTGCAGGCCGTTGCGCATCGGCAGCAGGTGGAGTGTATGCGCAGTTTTCTCGGCCGCTAA	MSRLLIEASTALCLLQDNGRFGVRHLGVTQGGAADWLSMSWANWMLGNAPDAAVVEITLGGFTVVAEEDCVLALAGADLGARIDGQGVASWRFFSLRQGQVLAFTQPVLGARAYLAAPGGFDAPAVLGSRATVVREELGGLDGRGRALSRGEQLSYSGSATPRPMPHRRIPDFQQLQPLDLILGAQNGAFSGRSLFDAFNTPWTLDSRADRMGMRLLGPALEYQGPAMISEGIPLGAVQVPPDGQPIVLLNDRQTIGGYPRLGALTPLSLARLAQCLPGTQLRLRPVVQAVAHRQQVECMRSFLGR				NA	NA	NA	NA	NA
D1-35_01821	1179			hypothetical protein	ATGCTGCTTAACCTGTTCAATGAGATGCGCGCCGCCAAGGTGCCGGTGTCGGTGCGCGAACTGCTGGACCTGATCAACGCGCTGAAACAGCGGGTGATCTTCGCCGACATGGACGAGTTCTATTACCTGTCCCGGGCCATCCTGGTGAAGGACGAACGGCACTTCGACAAGTTCGACCGGGCGTTCGGCGCTTACTTCAATGGCCTGGAAAAACTTGATGATCATCTGCAGGCGTTGATTCCCGAGGACTGGTTGCGCAAGGAGTTCGAGCGCTCCCTGACCGATGAGGAACGGGCACAGATCCAGTCCCTGGGCGGTCTGGACAAGCTGATCGAAGAGTTCAAGAAGCGTCTGGAAGAACAGAAGGAACGCCACGCCGGCGGCAACAAGTGGATCGGCACTGGCGGCACCAGCCCGTTCGGTTCCGGTGGCTTCAACCCCGAAGGTATACGGGTCGGCGACGCTGGCAAGCGCCAGGGCAAGGCCGTGAAAGTCTGGGACCAGCGCGAGTACAAGAACCTCGACGACCAGGTGGAACTGGGCACCCGCAATATCAAGATCGCCCTGCGCCGCCTGCGCAAGTTTGCCCGCCAGGGCGCGGCCGAAGAGCTGGACATCGACGGCACCATCGATCACACCGCCCGGGACGCTGGCCTCTTGAACATCCAGATGCGCCCGGAGCGACGCAACACCGTCAAGCTCCTGCTGCTGTTCGACATCGGCGGCTCGATGGACGCCCATGTGAAGATCTGCGAGGAGCTGTTCTCGGCCTGCAAGACCGAGTTCAAGCACCTGGAGTATTTCTACTTCCACAACTTCGTCTACGAATCGGTGTGGAAGAACAACCTGCGTCGCACCTCGGAGCGCACGTCGACCCAGGACCTGCTGCACAAATACGGCGCCGACTACAAAGTGATCTTCATCGGCGACGCGGCCATGGCCCCTTACGAGATCACCCAGGCCGGCGGCAGCGTCGAGCACTGGAACGAAGAAGCCGGTTACGTGTGGATGCAGCGCTTCATGGAGAAGTACAAGAAGCTCATCTGGATCAATCCGTACCCGAAAGACACCTGGGGTTACACCGCCTCGACCAATATCGTCCGTGAGTTGGTGGAGGACCGGATGTATCCGCTGACGTTGCGAGGGTTGGAGGAAGGGATGCGGTTTCTTTCCAAATAA	MLLNLFNEMRAAKVPVSVRELLDLINALKQRVIFADMDEFYYLSRAILVKDERHFDKFDRAFGAYFNGLEKLDDHLQALIPEDWLRKEFERSLTDEERAQIQSLGGLDKLIEEFKKRLEEQKERHAGGNKWIGTGGTSPFGSGGFNPEGIRVGDAGKRQGKAVKVWDQREYKNLDDQVELGTRNIKIALRRLRKFARQGAAEELDIDGTIDHTARDAGLLNIQMRPERRNTVKLLLLFDIGGSMDAHVKICEELFSACKTEFKHLEYFYFHNFVYESVWKNNLRRTSERTSTQDLLHKYGADYKVIFIGDAAMAPYEITQAGGSVEHWNEEAGYVWMQRFMEKYKKLIWINPYPKDTWGYTASTNIVRELVEDRMYPLTLRGLEEGMRFLSK				NA	NA	NA	NA	NA
D1-35_01822	846			hypothetical protein	ATGAAGTTCGAAGGCACCCGCGCCTACGTGGCCACCGATGACCTGAAACTGGCGGTGAACGCCGCCATCACCCTGGAACGGCCGTTGCTGGTCAAGGGCGAACCGGGCACCGGCAAGACCATGCTGGCCGAACAACTGGCGGAGTCCTTCGGCGCGCGCCTGATCACATGGCACATCAAGTCCACGACCAAGGCCCACCAGGGCCTGTACGAATACGATGCGGTCAGCCGCCTGCGGGATTCACAGCTGGGCGTGGACAAGGTCCACGACGTGCGCAACTACTTGAAGAAGGGCAAGCTCTGGGAAGCGTTCGAGTCCGAAGAGCGGGTCATCCTGCTGATCGACGAAATCGACAAGGCCGACATCGAGTTCCCCAACGACTTGCTGCAGGAACTCGACAAGATGGAGTTCTACGTCTACGAGACGGACGAAACCATCAAGGCCAAGCAGCGCCCGATCATCATCATTACCTCCAACAACGAAAAGGAACTGCCGGACGCCTTCCTGCGCCGCTGCTTCTTCCATTACATCGCCTTCCCCGACCGCGCCACCCTGCAGAAAATCGTCGACGTGCACTACCCGGACATCAAGAAAGACCTGGTCAGCGAAGCGCTGGACGTGTTCTTCGACGTGCGCAAGGTACCGGGCCTGAAGAAAAAACCTTCCACCTCCGAGCTGGTGGACTGGCTCAAGCTGCTGATGGCCGACAACATCGGCGAAGCGGTGCTGCGCGAGCGTGATCCGACCAAGGCTATCCCGCCGCTGGCCGGCGCCCTGGTCAAGAACGAACAGGACGTGCAATTGCTCGAGCGCCTGGCGTTCATGAGCCGTCGCGGCACTCGCTGA	MKFEGTRAYVATDDLKLAVNAAITLERPLLVKGEPGTGKTMLAEQLAESFGARLITWHIKSTTKAHQGLYEYDAVSRLRDSQLGVDKVHDVRNYLKKGKLWEAFESEERVILLIDEIDKADIEFPNDLLQELDKMEFYVYETDETIKAKQRPIIIITSNNEKELPDAFLRRCFFHYIAFPDRATLQKIVDVHYPDIKKDLVSEALDVFFDVRKVPGLKKKPSTSELVDWLKLLMADNIGEAVLRERDPTKAIPPLAGALVKNEQDVQLLERLAFMSRRGTR				NA	NA	NA	NA	NA
D1-35_01823	297			hypothetical protein	ATGTTGACTCAGTCTCGGCGTCTTGCCAGTATTGCCTATCGCCAAATCGGCGATACATTCGATGGCATGTCTACTAAATATCGATTCAGAGATACCTATCGCATCCAATTGCGGGAAAGGGATCATCCACCTCCCCATGTCCACCTCACCGGTGGCGGAGTGGATGTCGTCCTGAGTCTGGAAACCGTTGAAGTCATGATGGGCCGCGCTCCGCCATTGATTATCAAGGAAGCGCTGGACTGGGTCCGGGCCCATCAGGCGCAACTGCTGGAGGATTGGCAACGATGCTACCCATGA	MLTQSRRLASIAYRQIGDTFDGMSTKYRFRDTYRIQLRERDHPPPHVHLTGGGVDVVLSLETVEVMMGRAPPLIIKEALDWVRAHQAQLLEDWQRCYP				NA	NA	NA	NA	NA
D1-35_01824	501			hypothetical protein	ATGCTACCCATGAAACGGCCGCGGCTAATGGCCGTGCAGCCTTTATTGCCGTTCAGTCTCGAACTGACATTCATCGACGGTCAGCAACTGAGGCTGGACTTGAGCGCCGATGTGCAAAGTTATCCGGGCTTGCAGCCATTGCTTGAAGACGGTGCGTTTGGTGGCGCAGCCCTGGGCGACGACGGCTGGAGTGTGGAGTGGCCGGACCTGGATATCCAGATCGGCGCCGACACCTTGTATTTCAACGCATTGGCCCAGAACGCCGCGGATGAAAACACCCGTATTTTCATCGATTGGCGCGCCCGAACCGGGTTGCCATTGAACAAGGCGGCCGAAGCGCTGGGGGTCAGTCCTCGCAGTATCACTCGCTACAGTAGCGGCCGTGAGGCGGTACCACGATCGCTGGCTCTTGCATGCCTGGGCTGGGACTCTCTGCAGCGCGGTACGGGCCGGGCGGTGGCGGAGCAAAAAGGTCGCTACGTTGTCACTCCCAAGACCTAG	MLPMKRPRLMAVQPLLPFSLELTFIDGQQLRLDLSADVQSYPGLQPLLEDGAFGGAALGDDGWSVEWPDLDIQIGADTLYFNALAQNAADENTRIFIDWRARTGLPLNKAAEALGVSPRSITRYSSGREAVPRSLALACLGWDSLQRGTGRAVAEQKGRYVVTPKT				NA	NA	NA	NA	NA
D1-35_01825	1077			hypothetical protein	ATGAAGCGTCGATACAGTTGGCCACTGTGGGCCTTCGTCGCCATCGTTGCACTGCTGGTGGCCGTGCATTTCGCGCTGCCTTATCTGGTGCGCGACTACCTGAACGATAAATTGGCGGACATGGGCGACTACCGTGGCCAGGTCAGCGATGTCGACCTCGCGCTCTGGCGCGGCGCCTACCGGATCAATGGCCTGAAAATCGTCAAGGTCGATGGCAAGATCCCGGTGCCATTCGTCGACGCGCCGCTGGTCGACCTGTCCGTGAGCTGGCACTCGCTCTGGTATGACCATGCGGTGGTCGCCGCCGTGGAGTTCACCCATCCCGAGGTCAACTTCGTTGACGGCGGGCCCAACCGGCAGAACTCCCAGACCGGCCGTGGCACCAATTGGCGTGAACAATTGAGCAAACTGATGCCCATCACCCTGAACGAGGTGCGGATCAGCGACGGCAAGGCCACGTTTCGCAACTTCAACTCCAAACCACCGGTCAATCTGCGAGCTACCAACGTCAACGCCAGCTTTTATAACCTGACCAATGTGGTCGACACCGAAGGCAAGCGCGACGCCCGTTTCGAAGGCAAGGCCCTGGTGGCCGAGCATGCGCCACTGGAAGTCCAGGCAACCTTCGACCCATTGAGCGACTTCGAGGATTTCGATTTCCGCCTGCGCGCCACCAACATCGAGCTCAAGCGCCTGAACGACTTTGCCGCGGCCTATGGCAAGTTCGACTTCAACGCCGGCCACGGCGACCTTGTAGTCGAGGCCGAAGCCGACAACGCCCGGCTCAGCGGTTACATCAAGCCACTGCTTCGCGATGTGGACGTGTTCGACTGGCAACAGGACGTCGAAAACAAGAACAAGAACATCTTCCGTTCGGTCTGGGAAGCCTTGGTCGGCACGGGCGAAACCGCCCTGAAAAACCAGAGCAAGAACCAGTTCGCCACTCGCGTGGAGCTCAGCGGCAACGTGCACCAGCAGAACATCAGCGCCTTCGAAGCCTTCCTGCAAATTCTGCGCAACGGTTTCGTCCAGGCCTTCAATGCCCGTTATGAACAGCCGCCGCCCTCCAAAGACTAG	MKRRYSWPLWAFVAIVALLVAVHFALPYLVRDYLNDKLADMGDYRGQVSDVDLALWRGAYRINGLKIVKVDGKIPVPFVDAPLVDLSVSWHSLWYDHAVVAAVEFTHPEVNFVDGGPNRQNSQTGRGTNWREQLSKLMPITLNEVRISDGKATFRNFNSKPPVNLRATNVNASFYNLTNVVDTEGKRDARFEGKALVAEHAPLEVQATFDPLSDFEDFDFRLRATNIELKRLNDFAAAYGKFDFNAGHGDLVVEAEADNARLSGYIKPLLRDVDVFDWQQDVENKNKNIFRSVWEALVGTGETALKNQSKNQFATRVELSGNVHQQNISAFEAFLQILRNGFVQAFNARYEQPPPSKD				NA	NA	NA	NA	NA
D1-35_01826	975	cysK	COG0031	Cysteine synthase A	ATGAGTCGTATATACGCTGACAACGCCCATTCCATCGGCAATACGCCACTGGTGCAGATCAACCGCATCGCCCCGCGCGGCGTGACCATCCTGGCGAAGATCGAAGGGCGCAACCCGGGTTATTCGGTCAAGTGCCGGATCGGCGCAAACATGATCTGGGACGCTGAAAGCTCAGGTCGTCTCAAGCCCGGGATGACCATCGTCGAGCCAACCTCGGGCAATACCGGCATTGGCCTGGCGTTCGTGGCCGCCGCCCGTGGCTACAAGCTGATGCTGACCATGCCGGCGTCCATGAGCATCGAGCGGCGCAAGGTGCTCAAGGCGCTGGGCGCGGAGCTGGTGCTCACCGAGCCGGCCAAGGGCATGAAGGGCGCCATCGAGAAGGCCGCCGAGATCCTCGCCAGCGACCCGTCGAAATATTTCATGCCGCAGCAGTTCGATAATCCGGCGAACCCGGCGATCCACGAAAAAACCACCGGTCCGGAAATCTGGAACGATACCGATGGCGCGGTGGATGTGCTGGTCGCGGGCGTGGGCACGGGTGGAACCATTACCGGGGTCTCGCGGTATATCAAGAACACCTGTGGCAAACCGATCCTGTCGGTGGCGGTGGAGCCCGAGGCGTCGCCGGTGATTACCCAGGCGATGGCGGGGCAGGAAATCAAGCCGAGCCCGCACAAGATCCAGGGGATCGGTGCGGGTTTTGTACCGAAGAACCTCGATCTGTCGATTGTCGATCAGGTCGAGCGCGTCACCGATGAGGAGTCCAAGGCCATGGCCCTGCGCCTGATGCAGGAAGAGGGCATCCTCTGCGGCATTTCCTGCGGCGCGGCCATGGCCGTGGCGGTGCGCCTGGCGGAAAAACCGGAAATGCTGGGCAAGACGATCGTGGTGATCCTGCCTGATTCGGGCGAACGGTACCTGTCGAGCATGTTGTTCAGTGACCTGTTTACCGAGCAGGAGACTCAGCAGTAA	MSRIYADNAHSIGNTPLVQINRIAPRGVTILAKIEGRNPGYSVKCRIGANMIWDAESSGRLKPGMTIVEPTSGNTGIGLAFVAAARGYKLMLTMPASMSIERRKVLKALGAELVLTEPAKGMKGAIEKAAEILASDPSKYFMPQQFDNPANPAIHEKTTGPEIWNDTDGAVDVLVAGVGTGGTITGVSRYIKNTCGKPILSVAVEPEASPVITQAMAGQEIKPSPHKIQGIGAGFVPKNLDLSIVDQVERVTDEESKAMALRLMQEEGILCGISCGAAMAVAVRLAEKPEMLGKTIVVILPDSGERYLSSMLFSDLFTEQETQQ	PGPT0002810_3392	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
D1-35_01827	999			hypothetical protein	ATGGCCAGCCGCCGCGTCGGGCTGATGGCGCTGCGCAATTCAAACAAGGAGTTGAAAGAAATGAGCGTTTCGTTTGTCGCCAAGGCCTCGGTGTTGCTGCTGTTTGTGGGCAGTACGCTTTTTGTGCATTTGCGTGGCAAGGCGCGTCTGCCGGTGTTGCGCCAGTTCGTCAACCACTCGGCGTTGTTTGCCCCTTACAACGCCTTGATGTACTTGTTTTCCAAGGTGCCCTCCAAACCCTACCTGGATCGCCGCGAATTTCCGGAATTGGATGTGCTCAAGGAAAACTGGCAAGTGATCCGCGACGAAGCCATGCATCTTTTCGACGAGGGTTATATCCGCGCCGCCGAGAAAAACAACGACGCCGGTTTTGGTTCGTTCTTCAAGAAAGGCTGGAAGCGCTTCTATCTCAAGTGGTACGACAAGCCGCTGCCATCGGCGGAGTTGTTGTGCCCCCAGACCGTCGAGCTGGTCAATCGGATTCCCAACGTGCGGGGCGCGATGTTTGCCCTGTTGCCGGGGGGCAGCCATCTCAATCCCCATCGTGACCCGTTCGCCGGTTCGCTGCGCTATCACCTGGGGCTGTCCACGCCCAACTCCGATGATTGCCGGATCTTCGTCGACGGGCAGGTCTACGCCTGGCGCGACGGCGAAGATGTGATGTTCGATGAAACGTATGTGCACTGGGTCCGCAATGAAACAGACCAGACGCGCGTGATCCTGTTCTGCGATATCGAGCGTCCCCTCAAAAACCCATTGATGACTCGTTTCAATCGCGCCATCAGTGCCTTCCTCGGCCGCGCCACCGCGCCGCAGAACCTGGATGACGAGCGCGTCGGCGGCATCAACCGCGCCTATGCCTGGAGCAAGACGTTCAGCGACGGCATCAGCGGCCGGGTCAAGCAATTCAAGCGCCGGCATCCCAAGGCCTATCGGGTGATGCGACCGGTGTTGGCGGTGGCTGTGTTGACGGCGCTGGGCTACTGGTTGTTCGTTTAA	MASRRVGLMALRNSNKELKEMSVSFVAKASVLLLFVGSTLFVHLRGKARLPVLRQFVNHSALFAPYNALMYLFSKVPSKPYLDRREFPELDVLKENWQVIRDEAMHLFDEGYIRAAEKNNDAGFGSFFKKGWKRFYLKWYDKPLPSAELLCPQTVELVNRIPNVRGAMFALLPGGSHLNPHRDPFAGSLRYHLGLSTPNSDDCRIFVDGQVYAWRDGEDVMFDETYVHWVRNETDQTRVILFCDIERPLKNPLMTRFNRAISAFLGRATAPQNLDDERVGGINRAYAWSKTFSDGISGRVKQFKRRHPKAYRVMRPVLAVAVLTALGYWLFV	PGPT0022350_75	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022350-lpxO-K12979	NA	NA
D1-35_01828	864			hypothetical protein	ATGTTTTCCTTTTCCAAGAACGCCTTATTGGCGACGGCTTCCACGAGCCTGTTCGTTTTGTTGTGGAGCAGCGGAGCGATCTTTTCCAAACTGGGCCTGGCCCACGCGTCACCCTTCGCTTTCCTGCTGATCCGTTTTGCGCTTGCGCTGTGCGCGCTGGTGCTGTTGATCCCGCTGTTGAAGTTCAAGCTGCCGAAGGCTGGCAAGCCGATGCTGTACGCGGCGGCGACCGGCCTGGTGTTGTTGGGTGCCTATCAGATTTTCTATCTGCTGGCGCTGCAATTGAACGTTACGCCCGGTGTGATGGCCACGTTGATGGGCGTACAACCGATCCTCACCGTGGTGCTCATGGAGCGCCAGCGTTCCTGGCAACGGATGTTCGGCCTGGCGCTGGGCCTGGTGGGCTTGATCATGGTGGTGTACCAAGGCATTGGCCTGGCCGGCATGTCGTTGACGGGCATGCTGTGCGGGTTGCTGGCGCTGGTGAGCATGACGGCAGGTTCGATCATGCAGAAGCGCATCACCGACAATCCCCTCGGTACATTGCCGGTGCAGTACCTGGCCGGGCTCTTGCTGTGCGTGGTGTTCGTGCCGTTTCAACCGTTTCACTTCGAGCACAATGCGGGGTTCATCGTGCCGGTGTTGTGGATGGGGCTGGTGGTGTCGGTGTTGGCGACCTTGTTGCTTTACCGCTTGATCGCCCGGGGCAACCTCGTCAACGTCACCAGCCTGTTCTACCTGGTGCCGGCAGTGACGGCGATCATGGACTACCTGGTGTTCGGCAACCGGCTGGCGTTATTGAGCCTGCTGGGCATGGTGCTGATCATCGTCGGGTTGGTGTTTGTGTTCCGTAAGAGCCGCTAG	MFSFSKNALLATASTSLFVLLWSSGAIFSKLGLAHASPFAFLLIRFALALCALVLLIPLLKFKLPKAGKPMLYAAATGLVLLGAYQIFYLLALQLNVTPGVMATLMGVQPILTVVLMERQRSWQRMFGLALGLVGLIMVVYQGIGLAGMSLTGMLCGLLALVSMTAGSIMQKRITDNPLGTLPVQYLAGLLLCVVFVPFQPFHFEHNAGFIVPVLWMGLVVSVLATLLLYRLIARGNLVNVTSLFYLVPAVTAIMDYLVFGNRLALLSLLGMVLIIVGLVFVFRKSR				NA	NA	NA	NA	NA
D1-35_01829	891			IS1595 family transposase ISBsp7	GTGAATCTCGTCGACACCCTGCGCTTGCTGTCGCTGGCCGCCATCTGGGGGGCCAGCTTCCTGTTCATGCGCATCATCGCCCCGGTGATTGGCACGATTCCTACGGCTTTTTTCCGCGTTTCCATTGCCTTCGTCGGCCTGCTGGTCATTCTTGCGCTGATGCGTATCGACTGGAATTTTCGCGGCAAGCTGAAAGCGGTGATGGTGCTGGGCCTGATCAACTCGGGCATTCCGGCAACGTTCTATTCCCTTGCCGCCCAGGTGTTGCCGGCCGGTTATTCGGCAATCTTCAACGCCACCACACCGTTGATGGGCGTGCTGATTGGCGGGTTGTTTTTCAGCGAGCAACTCACCGTGGCCAAGGTCAGCGGGGTGTTCCTCGGCCTGTTCGGCGTTGGCATCCTGACCGGTGCCGGCCCGGTGGCATTCGACCACCAGTTACTGATGGGTGCCCTCGCCTGTCTGCTCGCCACCACTTGCTATGGTTTTGCCGGCTTCCTCACCCGTCGTTGGCTCGACCATCAAGGTGGGCTGGACAGCCGCCTCTCCGCCTTGGGCAGTATGTTCGGCGCCACGGTTTTCCTGTTGCCGTTGTTCGGTTACAGCGTCATCAGCCAACCGCCGGCCAGTTGGGGCGGCTGGAGCGTCTGGCTATCGTTGCTGGGGCTGGGCCTGGTGTGTACCGCGCTGGCGTACATCCTGTATTTCCGCTTGCTCAGCTCTATCGGTCCGGTCAAATCCATGACAACGACCTTTTTGATCCCGCCGTTCGGCGTGCTGTGGGGCGCGTTGTTGCTGGATGAGCCGTTGGGGATGGCGCATTTGTATGGCGGGGTGTTGATTGCGGCGGCGTTGTGGCTGGTGTTGAAGCCTGGGGCGTCTAGCCGGTAA	MNLVDTLRLLSLAAIWGASFLFMRIIAPVIGTIPTAFFRVSIAFVGLLVILALMRIDWNFRGKLKAVMVLGLINSGIPATFYSLAAQVLPAGYSAIFNATTPLMGVLIGGLFFSEQLTVAKVSGVFLGLFGVGILTGAGPVAFDHQLLMGALACLLATTCYGFAGFLTRRWLDHQGGLDSRLSALGSMFGATVFLLPLFGYSVISQPPASWGGWSVWLSLLGLGLVCTALAYILYFRLLSSIGPVKSMTTTFLIPPFGVLWGALLLDEPLGMAHLYGGVLIAAALWLVLKPGASSR				NA	NA	NA	NA	NA
D1-35_01830	1722	aceK	COG4579	Isocitrate dehydrogenase kinase/phosphatase	ATGTCGCAGCCATGGCCCGCCACCGATATCGCCCGTTCGATTCTCGACGGCTTCGATGATTACCGTGAGCAATTCCGGCACATCACCGATGGCGCCCGTGCCCGGTTCGAGCAGGCGCAGTGGCAGGAGGCGCAAGCGGCGTCGGCGGCGCGCATCAACTTGTATGAAGAAAAAGTCTTCGAAACCGTGGCCAGGCTGCGCAACACCTTCGATGCCGAGGCCTTGATGGATGTCGGTTGCTGGCCGCTGGTGAAAAGCGCCTATATCAGCCTGATCGACCTGCGTTTTGACGATGAGCTGTCGGAAACCTGGTACAACTCGATCTTCTGCGGCCTGTTCAGCCATGACCTGATCAGCGACGGCACCATGTTCATCCACACCACCCGGCCGAGCCTGCGCCGTGCCCGTGCGGCCCAGACTCGGACCTACAAACCCCAGGGGCAACTGGACAGGATGCTGGCGGCGATTTTCGCCGACTATCGCTTCAGCGAGGACTACGCCGACCTGCCCGGCGACCTGCAACGCCTCGAAAGCCAACTGCGCGAGAACCTGCCGGATTGGGTCTGCAAGGATCCGGAGTTGACGGTCGAGTTGTTCTCCTCGGTGCTCTACCGCAACAAGGGCGCCTACCTGGTGGGGCGCATCTACACCCGTGACGACCAATGGCCGCTGGTGATCCCGCTGCTGCATCGCGAGGGGCGCGGCATCCAGATCGACGCGCTGATTACCGACGAGGCGCAGGTGTCGATCATTTTCTCGTTCACGCGTTCGTATTTCATGGTCGATGTGCCGGTGCCGGCGGAATTCATCGGTTTCCTCAAGCGCATCCTGCCGGGCAAGCACATCGCCGAGTTGTACACGTCCATCGGTTTCTACAAGCACGGCAAATCGGAGTTCTACCGGGCGCTGATCAACCACCTGGCGAATACCGACGACCAGTTCATCATGGCCCCGGGCGTGCGCGGCATGGTCATGAGCGTGTTTACCCTGCCGGGCTTCAACACGGTCTTCAAAATCATCAAGGACCGCTTCTCGCCGTCGAAAAACGTCGACCGGGCCACAGTGATCGAGAAGTATCGACTGGTGAAAAGCGTCGACCGGGTCGGGCGCATGGCCGACACCCAGGAGTTCGCCGACTTCCGTTTTCCCTTGAGTAAATTCGAACCGGCCTGCCTGGAAGAATTGCTGGAAGTGGCGCCGTCCACGGTGTCGGTGGAAGGCGACACGGTGCTGATTCGCCACTGCTGGACCGAACGCCGGATGACGCCGCTGAACCTCTATCTGGAAAACGCCAACGAGGCCCAGGTACGCGAGGCGCTGGAGGATTATGGCCTGGCGATCAAGCAGCTGGCGGCGGCCAATATCTTCCCCGGCGACATGCTGCTGAAGAACTTCGGCGTCACTCGCCATGGTCGCGTGGTGTTCTACGACTACGATGAAATCTGCTTCCTGACCGAAGCCAATTTTCGCCACATCCCGCAGCCGCGTACACCGGAAGACGAGATGGCCTCCGAGCCCTGGTATTCCATCGGGCCGCTAGACGTCTTCCCCGAAGAATTCCCGCCCTTCCTGTTCGCCGATGCCGGGCAGCGCAAGCTCTTCGACCAGTTGCATGGCGAGCTGTACAACGCCGATTACTGGAAGGGCCTGCAAGAGGCGATTCGGGCGGGGAAGGTGATCGATGTGTTTCCGTATCGGCGCAAGGACCTGGACAGCGAATAA	MSQPWPATDIARSILDGFDDYREQFRHITDGARARFEQAQWQEAQAASAARINLYEEKVFETVARLRNTFDAEALMDVGCWPLVKSAYISLIDLRFDDELSETWYNSIFCGLFSHDLISDGTMFIHTTRPSLRRARAAQTRTYKPQGQLDRMLAAIFADYRFSEDYADLPGDLQRLESQLRENLPDWVCKDPELTVELFSSVLYRNKGAYLVGRIYTRDDQWPLVIPLLHREGRGIQIDALITDEAQVSIIFSFTRSYFMVDVPVPAEFIGFLKRILPGKHIAELYTSIGFYKHGKSEFYRALINHLANTDDQFIMAPGVRGMVMSVFTLPGFNTVFKIIKDRFSPSKNVDRATVIEKYRLVKSVDRVGRMADTQEFADFRFPLSKFEPACLEELLEVAPSTVSVEGDTVLIRHCWTERRMTPLNLYLENANEAQVREALEDYGLAIKQLAAANIFPGDMLLKNFGVTRHGRVVFYDYDEICFLTEANFRHIPQPRTPEDEMASEPWYSIGPLDVFPEEFPPFLFADAGQRKLFDQLHGELYNADYWKGLQEAIRAGKVIDVFPYRRKDLDSE	PGPT0001475_754	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-CITRIC_ACID_BIOSYNTHESIS,PGPT0001475-aceK-K00906	NA	NA
D1-35_01831	3912			hypothetical protein	ATGACTGACCAAGCCCCCGCTATCGACAAACTGCTGAAGAACCTCGATCACGCCATGCTCGCCGACCGTCACCGGTTGCGGCGGCAGTTGCTCGAGCTGCGCAAGAAACCCGACGAGGCCAAGCTGGCCCAGTGGGTGACGCGCATGCAGGCATCGTGCGACCAGGTGCTGGCGCGCAAGGCGAGCGTGCCGTCGATTCGCTACGATGACAACTTGCCGATCGCGGCCAAGCGCGACGAGATCAAAGAGGCGCTGCTCAAGCATCAGGTGTTGATCATCGCCGGCGAAACCGGCTCGGGTAAAACCACACAGTTACCGAAAATCTGCCTGGAAATCGGTCGCGGCCAGCATGGCTTGATCGGCCACACCCAGCCACGCCGGATCGCCGCTCGCAGCGTGGCAAGCCGTGTCGCCGAAGAACTCGGCACGCCGCTGGGGGCGTTGGTGGGTTATCAGGTGCGCTTCGAGGACCAGAGCGACGCCAACACCCTCATCAAGCTGATGACCGACGGCATTCTGCTGGCCGAGACCCAGAATGACCGGTACCTCGAACGCTACGACACGATCATCGTCGACGAGGCCCACGAACGCAGCCTCAACATCGATTTCCTGCTCGGCTACCTCAAGACCCTGTTGCCGCGCCGTCCGGACCTGAAGGTGATCATCACTTCGGCGACCATCGACCTGGAACGCTTCTCCAAGCACTTCGATGACGCGCCGATCGTCGAAGTCTCGGGCCGTACCTTTCCAGTGGAGACCTGGTATCGCCCGTTGACGCTGGAGCAGGACGAGGAGGGCAATCGGGTCGAGGACGACTTGACCGTCGACCAGGCGATCCTCGCCACCCTCGATGAAATTGCCGCCCATGAACGCAGCGAGCGGCGCAGCCCCGGCGATGTGCTGGTGTTCCTGCCGGGCGAGCGGGAGATTCGCGACGCGGCGGAGATGCTGCGCAAGGCCCAGCTCAAGCACACCGAAATCCTGCCGTTGTACGCGCGACTGTCGCCGGCCGAACAACAGCGTATCTTCCAGTCCCACCCGGGCCGGCGCGTGGTGCTGGCGACCAACGTCGCCGAAACGTCGCTGACCGTGCCGGGCATCCGCTACGTGATCGACAGCGGCACCGCGCGCATCAGCCGCTACAGCTACCGCGCCAAGGTCCAGCGCCTGCCCATCGAAGCCATTTCCCAGGCCAGCGCCAACCAGCGCAAGGGCCGCTGCGGACGAGTCGAGCCGGGGATTTGCGTGCGCTTGTACAGCGAAGAGGATTTCCTTGGCCGGCCCGAGTTTACCGATCCGGAGATCCTGCGCACCAACCTGGCGGCGGTGATCCTGCAGATGCTGCATCTGCGTCTCGGCGAGATCACTGACTTTCCATTTATCGAGCCGCCGGATGGCAAGGCCATCAGCGACGGTTTCAACCTCCTGCAAGAACTCTCGGCGGTGGACCGCAACAGCCAGCTGACGCCGTTGGGGCGCCAGTTGGCGCGCTTGCCGGTGGACCCGCGCATGGGCCGCATGTTGCTGGAAGCGGCGAAACTGGGCAGCCTCCAGGAAGTCCTGATCGTTGCCAGTGCCATGTCGATCCAGGATCCGCGCGAACGCCCGCCCGAGCGCCAGCAGGCCGCCGACCAGGCCCACGCGCAATGGAAGGACGCGGACTCGGACTTCGCCGGGCTGGTCAATCTGTGGCGCGGCTTTGAAGAGCAGCGCCAGGCCCTGACCGCCAGCCCCCTGCGTAACTGGTGCCGCAAGAACTTCCTGAATTACTTGCGCCTACGCGAATGGCGCGATTCCCATCGCCAGTTGAGCCTGATCTGCCGCGACATGCAGTTGAGCCTCAATAAGGAACCGGCCGATTATCCGAAACTGCACAAGGCGGTGCTCTCGGGCCTGTTGAGCCAGATCGGCCAGAAAACCGAGGACGGCGATTACCTCGGTGCGCGGCAGCGACGCTTTTGGGTCCATCCCTCGTCCGGGCTGGGCAAGAAGCGCCCGCAGTGGCTGATGACCGCCGAGCTGGTGGAAACCACCAAGTTGTATGCGCGCATGGTGGCGAAGATCGAACCGGACTGGATCGAACCGCTGGCCGGGCACCTGATCAAGAAAAACCACTTCGAACCCCATTGGGAGAAGAAGCGCGGGCAGGTGGTGGCTTACGAGCAGATCACCTTGTTCGGGCTGATCGTGGTCGGTCGCCGGCCGGTGCACTACGGGCCGGTGGACCCGGTGGTGTCCCGCGAACTGTTCATCCGCGAGGCGCTGGTGCGTGGCGAAATCCAGTCCCGGGCCAAGTGCCTGAGCGCCAACACCCGATTGCTGGAGCAGCTTGACGAGCTCGAGGCCAAGGCTCGTCGCCGCGACATCCTGGCAGACGAGGAAACCCTCTTCGCCTTCTACGATGCACGCCTGCCCGCCGAGATCCACCAGACCGCGACGTTCGATAGCTGGTACCGGATCAACAGCCAGAAAGACCCGCAGCTGCTGATCATGCGCGAAGAAGACGTGCTCGCTCGCGAGGCCAGCGAGGTGACGGCCAATCTGTATCCCGACACCTTGCGCGTCGGCGACCTGACCTTGCCGTTGAGCTATCACTTCGAGCCCAACCACCCGCGCGATGGCGTGACGCTGCGGGTACCGGCGCCGCTGTTGCCTATGTTGCCGCCGGAGCGCCTGGAATGGCTGGTGCCGGGGATGATCGAGGCCAAGTGCATCGCCCTGGTGCGCAACCTGCCCAAGGCTCTGCGCAAGAACTTCGTGCCGGTGCCGGACTTCGTCAAGGCGGCGCTGCAGCGCATCACTTTCGCCGACGGCTCGCTGCCGCAATCCCTGGGGCGGGAGCTGCTGCGCATGACCGGCGCGCGGGTCAGCGACGAAGCCTGGGCGGAGGCGGCGCAGCAGGTGGAAAGCCATTTGCGCATGAATCTGGAGATCGTCGACGGCCAAGGCAAGTTCCTTGGCGAAGGCCGCGATGTTGCTGAGCTGACCGCGCGTTTTGCCGAAGCCAGCCAGGCGGCCCTGGCCGTGCCACAAACGGCGAAGAGCCAGGAACCGGTGGAGGCGAAAGTCTTCGCGCCGGTGGCGGAAAAAACCCAACAGAAGATCGCCGGGCTGTCGATGACGGTGTACCCGGCGCTGGTGGAAGAGGGCGGCGTCGTCAAGGAAGGGCGTTTCCCGACCCCGGCCGAAGCCGAGTTCCAGCATCGCCGCGCCTTGCAACGCTTGCTCATGCAGCAACTGGCCGAAACGGCGAAATTCCTTCGCGGCAAGCTGCCGGGCCTGACCGAACTGGGCCTGCTGTATCGCGAACTTGGGCGCATCGACGGTCTGGTGGAAGACATCCTGCTGGCAAGCCTCGACAGTTGCGTCCTCGAAGGCGAGCCGAGCCTGCCACGCGACGGCGCCGCGCTGGCGGCCCTGGCCGAACGCAAGCGTGGCGGCTGGACCGAGCATGCCGAACGCCTGGCCAGGCTGACCCTGGATATCCTGAAACTCTGGCACGGCCTGCAAAAACGCTTCAAGGGCAAGATCGACCTGGCCCAGGCCGTGGCGCTGAACGACATCAAGCAGCAGCTCAGCCACCTGGTGTACCCGGGCTTTGTGCGTGAAACCCCGCATCAATGGCTCAAGGAACTGCCGCGCTACCTCAAGGCTATCGAGCAACGCTTCGAGAAGCTCGGCAGCCAGGTACAGAAGGACCGGGTCTGGAGCGGCGAGCTGTCCAACCTCTGGGCGCAATACCAGGCCCGCGCCAGCAAGCATGCCCAGGAAGGCAAGCGCGATCCGCAGCTGGAACTGTACCGCTGGTGGCTGGAGGAATACCGCGTATCGCTGTTCGCCCAGCAACTGGGCACCAAGGTGCCGATTTCCGACAAACGCCTGAGCAAGCAGTGGGGGTTGGTGGAGGGCTGA	MTDQAPAIDKLLKNLDHAMLADRHRLRRQLLELRKKPDEAKLAQWVTRMQASCDQVLARKASVPSIRYDDNLPIAAKRDEIKEALLKHQVLIIAGETGSGKTTQLPKICLEIGRGQHGLIGHTQPRRIAARSVASRVAEELGTPLGALVGYQVRFEDQSDANTLIKLMTDGILLAETQNDRYLERYDTIIVDEAHERSLNIDFLLGYLKTLLPRRPDLKVIITSATIDLERFSKHFDDAPIVEVSGRTFPVETWYRPLTLEQDEEGNRVEDDLTVDQAILATLDEIAAHERSERRSPGDVLVFLPGEREIRDAAEMLRKAQLKHTEILPLYARLSPAEQQRIFQSHPGRRVVLATNVAETSLTVPGIRYVIDSGTARISRYSYRAKVQRLPIEAISQASANQRKGRCGRVEPGICVRLYSEEDFLGRPEFTDPEILRTNLAAVILQMLHLRLGEITDFPFIEPPDGKAISDGFNLLQELSAVDRNSQLTPLGRQLARLPVDPRMGRMLLEAAKLGSLQEVLIVASAMSIQDPRERPPERQQAADQAHAQWKDADSDFAGLVNLWRGFEEQRQALTASPLRNWCRKNFLNYLRLREWRDSHRQLSLICRDMQLSLNKEPADYPKLHKAVLSGLLSQIGQKTEDGDYLGARQRRFWVHPSSGLGKKRPQWLMTAELVETTKLYARMVAKIEPDWIEPLAGHLIKKNHFEPHWEKKRGQVVAYEQITLFGLIVVGRRPVHYGPVDPVVSRELFIREALVRGEIQSRAKCLSANTRLLEQLDELEAKARRRDILADEETLFAFYDARLPAEIHQTATFDSWYRINSQKDPQLLIMREEDVLAREASEVTANLYPDTLRVGDLTLPLSYHFEPNHPRDGVTLRVPAPLLPMLPPERLEWLVPGMIEAKCIALVRNLPKALRKNFVPVPDFVKAALQRITFADGSLPQSLGRELLRMTGARVSDEAWAEAAQQVESHLRMNLEIVDGQGKFLGEGRDVAELTARFAEASQAALAVPQTAKSQEPVEAKVFAPVAEKTQQKIAGLSMTVYPALVEEGGVVKEGRFPTPAEAEFQHRRALQRLLMQQLAETAKFLRGKLPGLTELGLLYRELGRIDGLVEDILLASLDSCVLEGEPSLPRDGAALAALAERKRGGWTEHAERLARLTLDILKLWHGLQKRFKGKIDLAQAVALNDIKQQLSHLVYPGFVRETPHQWLKELPRYLKAIEQRFEKLGSQVQKDRVWSGELSNLWAQYQARASKHAQEGKRDPQLELYRWWLEEYRVSLFAQQLGTKVPISDKRLSKQWGLVEG				NA	NA	NA	NA	NA
D1-35_01832	1122		COG0332	Beta-ketodecanoyl-[acyl-carrier-protein] synthase	ATGCATAACGTCGTCATCAGCGGCACCGGCCTGTACACCCCGGCCAACAGCATCTCCAATGAAGAGCTGGTGCAGTCTTTCAATACCTATGTCGCGCAGTTCAACGCCGACAACGCCGACGCCATCGAGCGCGGCGAAGTCGAGGCATTGACCGAGTCCAATGCGGCCTTCATCGAAAAGGCTTCAGGCATCAAGAGTCGTTTCGTGATGGACAAGGACGGTATTCTCGATCCCAAGCGCATGACGCCGCGCCTGCCGGAGCGCTCCAACGAAGAATGGTCGGTGCTTTGCGAAATGGCCGTCGGCGCCGCGAAACAGGCGCTTGAGCGCGCCGGTCGCAGCGCCGCTGACATCGACGGCGTGATCGTTGCCTGTTCCAACCTGCAGCGTCCCTATCCGGCCATTGCCATCGAAGTCCAGGAAGCTTTGGGTATCGAAGGGTTCGGTTTCGACATGAACGTGGCCTGTTCTTCGGCGACCTTCGGCATCCAGGCCGCCGCCAACAGCGTACAGCTGGGCCAGGCCCGGGCGATCCTGATGGTCAACCCGGAAGTGTGCACCGGCCACTTGAATTTCCGTGACCGCGACAGCCATTTCATCTTCGGCGACGCAGCCACGGCGGTGATCATCGAGCGGGCGGACCAGGCGACATCGCCGTACCAGTTCGACGTGGTCAGCACCAAGCTGCTCACCAAGTTCTCCAACAACATCCGCAACAACTTCGGCTTCCTCAACCGCGCGGCGGAAGAGGGCATCGGCACGCGGGACAAACTGTTCGTCCAGGAAGGCCGCAAGGTGTTCCGCGACGTCTGCCCGATGGTCGCCGAATTGATTGGCGCTCACTTGCAGGAAAACCAGCTGAACGTCGGCGAAGTGAAGCGTTTCTGGCTGCATCAGGCCAACCTGAGCATGAACCAGCTGATCGTGCGCAAGCTGCTGGGGCGCGAAGCCAGCGAGGAAGAAGCTCCGGTGATTCTCGACCGCTACGCCAACACCAGCTCGGCGGGTTCGGTGATTTCCTTTCACCTGTACCAGGACGACCTGCCCAGCGGCTCGGTCGCGGTGCTCAGCTCGTTTGGCGCTGGCTACTCGATCGGCAGCGTGATCCTGCGCAAGCGCTGA	MHNVVISGTGLYTPANSISNEELVQSFNTYVAQFNADNADAIERGEVEALTESNAAFIEKASGIKSRFVMDKDGILDPKRMTPRLPERSNEEWSVLCEMAVGAAKQALERAGRSAADIDGVIVACSNLQRPYPAIAIEVQEALGIEGFGFDMNVACSSATFGIQAAANSVQLGQARAILMVNPEVCTGHLNFRDRDSHFIFGDAATAVIIERADQATSPYQFDVVSTKLLTKFSNNIRNNFGFLNRAAEEGIGTRDKLFVQEGRKVFRDVCPMVAELIGAHLQENQLNVGEVKRFWLHQANLSMNQLIVRKLLGREASEEEAPVILDRYANTSSAGSVISFHLYQDDLPSGSVAVLSSFGAGYSIGSVILRKR	PGPT0008355_521	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
D1-35_01833	1311	oprO	COG3746	Porin O	ATGATCCGTAAGCACTTCGCAGGTTTTGCCGCCAGCGCTCTGGCAATGGCAGTAACCGCCCAGGCTTTCGCCGGCACCGTAACCACCGACGGCGCCGATATCGTGGTCAAGACCAAGGGCGGCCTGGAGGTCGCTACCACTGACAAAGAGTTCAGCTTCAAGCTCGGCGGTCGTTTGCAGGCTGACTACAGCCAGTTCGACGGGATCTACACCGACAACGGCGACAAGGCTGATGCCGCTTACATCCGCCGCGGCTTCCTGGAGCTGTCCGGTGTGCTGTACACGGACTGGGCCTACACCATCAACTACGATTTCTCCCACAACAGCGGCGATTCCGACAACGGCTACTTCGACGAAGCCTCCCTGGCCTACAACGGCTTCAAGCCGGTGTCGATCAAGGTTGGTCGTTTCGACCCGGACTTCGGCCTGGAAAAAGCCACCAGCTCCAAGTGGGTCACCGCGCCTGAGCGTAACGCCGCCTACGACCTGATCGACTGGGCCAACGGCCACCAGAACGGCCTGGGCCTGCAAGCCTCCGGCGTCTTCGCCGACTCGTTCTATGCCTCGGCTGGCGTGTTCAGCAAAGATACCGACGACACCGACGGCAACAGCATCAAGCAAGCCAACGGTCGTTTCGTATTCGCTCCGATGCACGACGCCGGCAACGTGCTGCACTTCGGTGTGAACGTGGCCTCGCGTGACGTTTCGGACACCGCGTTCGACGCGCGTTATCGCTCCCGTCTGGGCATGCGTGGTGTCGAGACCCTGGGCGGCAACGATGCCGGTCCTAACGGCAACCGTCCGGTACTGGGTGGCGCGAACAACTCGCCGGCCGGCTCCTACGACACCGACACCGCTTTCGGCCTGGAAGCCGCGTTCGCCATGGGGCCTGCGTCGATCCAGGGTGAATACATCACCCGCAAGACCAAGGCTGACGACAGCGCCTTCGAAGACCTCAAGGGCCATGGTTTCTACGTGCAGGGCGCCTACACCCTCACCGGCGAGGCGCGCGGTTACAAAATCGGCAAATTCGATTCGATCAAGCCTGCCAACAAATCCATCGGCGCCTGGGAACTGTTCTATCGCTACGACAGCATGACGGTCGAAGACGACAACATCACCACCGCCACCGCGACCCGTGATGTGGGCGACGCCGAAGCCAAGGTGCACAACCTGGGCGTCAACTGGTACGCCAACGAAGCGGTGAAGATCTCTGCCGCTTACGTCAAGGCCAAGACCGACAACGTGACCAACGTCAACGGCGACGACGACGGCAAAGGTGTGGTCGTGCGTGCCCAGTACGTGTTCTAA	MIRKHFAGFAASALAMAVTAQAFAGTVTTDGADIVVKTKGGLEVATTDKEFSFKLGGRLQADYSQFDGIYTDNGDKADAAYIRRGFLELSGVLYTDWAYTINYDFSHNSGDSDNGYFDEASLAYNGFKPVSIKVGRFDPDFGLEKATSSKWVTAPERNAAYDLIDWANGHQNGLGLQASGVFADSFYASAGVFSKDTDDTDGNSIKQANGRFVFAPMHDAGNVLHFGVNVASRDVSDTAFDARYRSRLGMRGVETLGGNDAGPNGNRPVLGGANNSPAGSYDTDTAFGLEAAFAMGPASIQGEYITRKTKADDSAFEDLKGHGFYVQGAYTLTGEARGYKIGKFDSIKPANKSIGAWELFYRYDSMTVEDDNITTATATRDVGDAEAKVHNLGVNWYANEAVKISAAYVKAKTDNVTNVNGDDDGKGVVVRAQYVF	PGPT0002640_462	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPHATE_TRANSPORT,PGPT0002640-oprO-K07221	NA	NA
D1-35_01834	1125			hypothetical protein	ATGCCGCTTCACGTCCTGGACAACCTGTCCGCCATCGCGTCACCCGAGTGGGACGCGATGGTGCCCGCCAATCAACCGTTCCTGCGCCACGCTTTTTTAAGCACACTTGAAGACAGCGCCAGCCTGGGTGCGCATTCCGGTTGGCAGCCCGAGCACCTGTTGCACATGGAAGACGGACGGCTGCTGGCGGCCCTGCCCAGTTACCGCAAGTGGCATTCCTACGGCGAGTACGTGTTCGATCATGGTTGGGCCGACGCCTGTGCCCGGGCGGGCATCGACTATTACCCCAAGCTGTTGACAGCGGTGCCGTTCAGTCCGGTCAGCGGGCCGCGGCTGCTGGCGGCGTCATTGGAGGACGGTCTGGAATTGCTCGGCAGCCTGCCGGGTTATCTGGAAATCGAAGGGCTTTCCAGCGCTCACATCAACTTCACCGATGCCTTTACCGATGCGGCGCTGGCCGGTCAGGACGGTTGGCTGCAGCGGATCGGTTGCCAGTATCACTGGCAGAATCGCGGCTATCGGGATTTCCAGGATTTCCTTGATGCGCTCAGTTCCCGCAAGCGCAAGCAGATGCGCAAGGAGCGCGAGCAAGTGGCAGGGCAGGGCATCGAGTTCGAGTGGCTCGAAGGCCATCAACTGGACGAGGCGCAATGGGATTTTGTCTACGCCTGTTACGCCAATACCTATGCGGTGCGTCGGCAAGCACCTTATCTGACCCGGACATTCTTCAGCCTGCTGGCCGAGCGCATGCCCGAAGCCATTCGCGTGGTCCTGGCCAAGCAAGGTTCGCGGCCGGTGGCGATGGCATTCAGCCTGGTCGGTGGCGACAGTTTTTACGGCCGTTACTGGGGCTGTCTCGCGGAGTTCGATCGCCTGCACTTCGAGACGTGTTTCTACCAGGGCATGGACTATGCGATCGCCAACGGCCTGCAGCGCTTTGACGCCGGAGCCCAGGGCGAGCATAAATTGATTCGTGGGTTCGAGCCGGTGATTACCCGCTCGTGGCATTACTTGCGCCATCCGGGCCTGAAGGCGGCGGTGGCGGATTTCCTCGTGCGTGAGCATGAGGGCGTGCTGGCGTATGCCGAAGAGGCCAGGACAGCACTGCCGTATCGGCAATGCTGA	MPLHVLDNLSAIASPEWDAMVPANQPFLRHAFLSTLEDSASLGAHSGWQPEHLLHMEDGRLLAALPSYRKWHSYGEYVFDHGWADACARAGIDYYPKLLTAVPFSPVSGPRLLAASLEDGLELLGSLPGYLEIEGLSSAHINFTDAFTDAALAGQDGWLQRIGCQYHWQNRGYRDFQDFLDALSSRKRKQMRKEREQVAGQGIEFEWLEGHQLDEAQWDFVYACYANTYAVRRQAPYLTRTFFSLLAERMPEAIRVVLAKQGSRPVAMAFSLVGGDSFYGRYWGCLAEFDRLHFETCFYQGMDYAIANGLQRFDAGAQGEHKLIRGFEPVITRSWHYLRHPGLKAAVADFLVREHEGVLAYAEEARTALPYRQC				NA	NA	NA	NA	NA
D1-35_01835	1842		COG1132	Putative multidrug export ATP-binding/permease protein	ATGTACCCCATGGTTTACCGCCGTTTTGAAAAACTGATCGACATCTTCCGCAACGCCCCGACCTCGGCCCCGCCGAACCGCGTCCTGCCCTTCTACACGTATTACCTGAAACAGGTCTGGCCCAGCTTCGCCGCACTGCTGGTGGTCGGCCTGATCGGCGCGCTGATCGAAGTGGCGCTGTTCAGCTACCTGAGCCGCATCATCGACCTGACCCAGGCCACGCCCAACACCGACTTCTTCAAGCTGCACGGCCTCGAGCTGGCCTGGATGGCGGTGGTCGCACTGGTGTTCCGGCCGATCTTCGTGGCCCTGCATGACCTGCTGGTGCACCAGACCCTGAGCCCGAGCATGACCAGCCTGATCCGCTGGCAAAACCACAGCTACGTGCTCAAGCAGAGCCTGAATTTCTTCCAGAACGACTTCGCCGGGCGCATTGCCCAGCGCATCATGCAGACCGGCAACTCCCTGCGCGACTCGGCGGTACAGGCCGTGGATGCGTTGTGGCACGTGCTGATCTACGCCATCAGCTCACTGGTGCTGTTCGCCGAAGCCGACTGGCGCCTGATGATCCCGCTGCTGGCCTGGATCGCTGCCTACATCGGCGCGCTCTGCTACTTCGTGCCACGGGTCAAGGAACGCTCCGTGGTGTCCTCCGATGCGCGCTCCAAGCTCATGGGCCGGATCGTCGACGGCTACACCAACATCACCACCCTGAAGCTGTTCGCCCACACCAACTTCGAACAGCAATACGCTCGCGAAGCCATCGAGGAACAGACCGAGAAAGCCCAGTTGGCCGGCCGCGTGGTGACGAGCATGGACGTGGTCATCACCAGCATGAACGGGCTGCTGATCGTCGGCACCACGGCCCTGGCGCTGTGGTTGTGGACCCAGTCGCTCATCAGCGTCGGCGCCATTGCCCTGGCCACCGGCCTGGTGATCCGCATCGTCAACATGTCCGGCTGGATCATGTGGGTGGTCACCGGCATTTTCGAAAACATCGGCATGGTCCAGGACGGCTTGCAGTCTATCTCCCAGCCGGTCAGCGTCACCGACCGCGAGCAGGCCAAGCCGCTCGCGGTAGCCCGTGGCGAGGTGCGTTTCGAGCATGTGGATTTCCACTACGGCAAGAAAAGCGGCGTCATCAGCGACCTGAACCTGACCATCAGGCCCGGCGAAAAAATCGGCTTGATCGGGCCGTCCGGCGCGGGTAAATCCACGCTGGTGAACCTGCTGCTACGCCTCTATGACGTGCAGGGCGGACGCATCCTAATCGACGGCCAGGACATTGCCCATGTCGGGCAGGAAAGCCTGCGCGAACGCATCGGCATGATCACCCAGGACACCTCGCTGCTGCACCGCTCGATCCGCGACAACCTGCTTTACGGCAAGCCCGACGCCACCGACGCGCAACTCTGGGAAGCGGTGCACAAGGCCCGTGCCGATCAGTTCATCCCGTTGCTGTCGGACGCCGAAGGCCGCAGCGGTTTCGATGCGCATGTCGGTGAGCGCGGCGTGAAGCTCTCCGGTGGCCAGCGCCAACGCATCGCCATCGCCCGGGTATTGCTCAAGGATGCGCCGATCCTGATCATGGACGAAGCGACCTCCGCGCTGGATTCGGAAGTCGAAGCGGCGATCCAGGAAAGTCTCGAGACGCTGATGCAAGGCAAGACCGTGATCGCCATCGCCCACCGCCTCTCGACGATCGCCCGGATGGACCGGCTGGTGGTGCTGGAAAACGGCCACATCGCCGAGACCGGCAGTCATGCCGAGCTGTTGGCCCATGGCGGGCTGTATGCGCGGCTCTGGCAGCATCAGACGGGTGGATTTGTCGGGATTGATTGA	MYPMVYRRFEKLIDIFRNAPTSAPPNRVLPFYTYYLKQVWPSFAALLVVGLIGALIEVALFSYLSRIIDLTQATPNTDFFKLHGLELAWMAVVALVFRPIFVALHDLLVHQTLSPSMTSLIRWQNHSYVLKQSLNFFQNDFAGRIAQRIMQTGNSLRDSAVQAVDALWHVLIYAISSLVLFAEADWRLMIPLLAWIAAYIGALCYFVPRVKERSVVSSDARSKLMGRIVDGYTNITTLKLFAHTNFEQQYAREAIEEQTEKAQLAGRVVTSMDVVITSMNGLLIVGTTALALWLWTQSLISVGAIALATGLVIRIVNMSGWIMWVVTGIFENIGMVQDGLQSISQPVSVTDREQAKPLAVARGEVRFEHVDFHYGKKSGVISDLNLTIRPGEKIGLIGPSGAGKSTLVNLLLRLYDVQGGRILIDGQDIAHVGQESLRERIGMITQDTSLLHRSIRDNLLYGKPDATDAQLWEAVHKARADQFIPLLSDAEGRSGFDAHVGERGVKLSGGQRQRIAIARVLLKDAPILIMDEATSALDSEVEAAIQESLETLMQGKTVIAIAHRLSTIARMDRLVVLENGHIAETGSHAELLAHGGLYARLWQHQTGGFVGID	PGPT0029145_990	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029145-vcaM-K18893	NA	NA
D1-35_01836	564	ppiA	COG0652	Peptidyl-prolyl cis-trans isomerase A	ATGCTGAAAAAAATCGCCCTCGCCGCCGGCACCGTACTGTTTGCTGCCAACCTGATGGCCGCCACGCCGGCCAAGGCACCACACGTCCTGCTGGACACCACCAACGGCCAGATCGAAATCGAACTGGACCCGGTCAAGGCGCCCATCAGTACCAAGAATTTCCTTGAGTACGTCGACAGCGGCTTCTACAACAACACGATTTTCCATCGCGTCATTCCGGGCTTCATGGCTCAGGGCGGCGGTTTCACCCAGCAGATGCAGCAGAAAGACACCAAGCCACCGATCAAGAACGAAGCCAGCAATGGCCTGCATAACGTTCGCGGCACCTTGTCGATGGCCCGTACATCCAACCCGGATTCGGCCACCAGCCAGTTCTTCATCAACGTGGCCGACAACGCCTTCCTCGACCCGGGCCGCGACGCCGGCTACGCGGTATTCGCCAAGGTGGTCAAGGGCATGGACGTGGTGGACATCATCGTCAACTCCCAGACCACCACCAAATCAGGCATGCAAAACGTGCCGGTCGATCCTGTGATCATCAAGTCGGCCAAGCGCATCGACTGA	MLKKIALAAGTVLFAANLMAATPAKAPHVLLDTTNGQIEIELDPVKAPISTKNFLEYVDSGFYNNTIFHRVIPGFMAQGGGFTQQMQQKDTKPPIKNEASNGLHNVRGTLSMARTSNPDSATSQFFINVADNAFLDPGRDAGYAVFAKVVKGMDVVDIIVNSQTTTKSGMQNVPVDPVIIKSAKRID	PGPT0015110_1671	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015110-ppiA-K03767	NA	NA
D1-35_01837	804	tgnD_1		(E)-2-((N-methylformamido)methylene)succinate hydrolase	ATGGCCTTTTTCGAACATGAAGGTTGCAGCCTGCACTATGAGGAATATGGCCACGGCACACCGCTAGTGCTGGTCCACGGGTTGGGCTCCAGCACGCGCGACTGGGAAAAGCAGATTCCCGTGTTGTCGCGCCACTACCGCCTGATCGTGATGGATGTGCGCGGCCACGGCCGCTCCGACAAGCCGCGCGAGCACTACAGCATCGCGGGCTTCAGCGCCGACCTGGGCGCCCTGATCGAGCGCCTCGATCTCGGCCCGGTGCACCTTGTGGGCTGGTCCATGGGCGGCATGATCTGTTTCCAGCTGGCCGTGGACGAACCCGCACGGGTCAGGAGCCTGTGCATCGTCAACAGTGCCCCTGAAGTCAAAGTCCGTACGCCCGACGATTGCTGGCAATGGTTCAAGCGCTGGAGCCTGATGCGCCTGCTGAGCCTGGAAACCATCGGCAAGGCCCTCGGCGAGAAGTTGTTCCCCAAGCCCGAACAAACCGAACTGCGCCTGGAGATGGCCCGGCGTTGGGCAGAGAACGACAAACGTGCCTATCTCGCCAGTTTCGACGCCATTGTCGGCTGGGGCGTGCAGGAACGCCTGGCGCAAATTGCCTGTCCAACCCTCATTATCTGCGCCGACCACGACTACACCCCGGTGGCGCTGAAAGAGGCCTATGTAAAACTGCTGCCTGACGCACGACTGGCAGTCATCGCCGATTCACGGCACGCTACGCCCCTGGATCAACCCGAACGCTTCAACCAGACCCTGCTCGAATTCTTGACCGCAACCGACTTCACTACCCAGGATCACTGA	MAFFEHEGCSLHYEEYGHGTPLVLVHGLGSSTRDWEKQIPVLSRHYRLIVMDVRGHGRSDKPREHYSIAGFSADLGALIERLDLGPVHLVGWSMGGMICFQLAVDEPARVRSLCIVNSAPEVKVRTPDDCWQWFKRWSLMRLLSLETIGKALGEKLFPKPEQTELRLEMARRWAENDKRAYLASFDAIVGWGVQERLAQIACPTLIICADHDYTPVALKEAYVKLLPDARLAVIADSRHATPLDQPERFNQTLLEFLTATDFTTQDH	PGPT0004995_986	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0004995-pcaD|catD-K01055	NA	NA
D1-35_01838	924	yhaJ_1		HTH-type transcriptional regulator YhaJ	ATGAAAGCGCCCCGCGTGACCCTTGATCAATGGCGAACGTTGCAGGCGGTGGTGGACCATGGTGGTTTCGCCCAGGCCGCCGAAGTACTGCACCGCTCTCAGTCATCGGTGAGCTACACCGTGGCCCGCATGCAGGATCAGCTCGGCGTGCCGTTGCTGCGTATCGACGGGCGCAAGGCCGTGCTGACCGAAGCCGGCGGCGTGCTGCTGCGCCGCTCCCGGCAACTGGTGAAACAGGCCAGCCAGCTGGAAGACCTGGCCCACCACATGGAGCAGGGTTGGGAAGCTGAAGTGCGCCTGGTGGTCGACGCGGCCTACCCCACTGCCCGCCTCGTCCGCGCCCTGACCGCATTCATGCCGCAGAGCCGGGGCTGCCGGGTAAGGCTGCGCGAAGAAGTCTTGTCCGGTGTCGAAGAGGTACTGCTCGAAGGCGTCGCCGACCTGGCCATCAGCGGCTTCAGCATTCCCGGTTACCTGGGCGCGGAACTGAGCGATGTCGAATTCGTCGCGGTGGCCCATCCCGAGCACGCCCTGCACCGACTCAACCGCGAGCTGACGTTCCAGGACCTGGAGAGCCAGCTGCAAGTGGTGATCCGCGACTCCGGTCGCCAGCAGCCGCGCGATGTCGGCTGGCTCGGCGCCGAACAGCGCTGGACCGTCGGAAGCCTGGCCACCGCTGCGACATTCGTCGGCAGCGGCCTGGGCTTTGCCTGGCTGCCCCGGCACATGATCGAGCGAGAACTCAGGGAGGGCACGCTCAAACGTCTACCCTTGGATCAGGGCGCCAGCCGCAACCCGAGCTTCTACCTGTATTCGAACAAGGAAAAGCCCCTGGGACCGGCCACGCAGATTCTCATCGAGCTGCTGCGCACCTTCGATACCGCGCCGCTGGATGCGCCGTTCGCTGCCCCTGAACAAGCCTGA	MKAPRVTLDQWRTLQAVVDHGGFAQAAEVLHRSQSSVSYTVARMQDQLGVPLLRIDGRKAVLTEAGGVLLRRSRQLVKQASQLEDLAHHMEQGWEAEVRLVVDAAYPTARLVRALTAFMPQSRGCRVRLREEVLSGVEEVLLEGVADLAISGFSIPGYLGAELSDVEFVAVAHPEHALHRLNRELTFQDLESQLQVVIRDSGRQQPRDVGWLGAEQRWTVGSLATAATFVGSGLGFAWLPRHMIERELREGTLKRLPLDQGASRNPSFYLYSNKEKPLGPATQILIELLRTFDTAPLDAPFAAPEQA				NA	NA	NA	NA	NA
D1-35_01839	315			hypothetical protein	ATGAAAAAAATCTGTTGTGCGCTGCTGACCCTGCTGCCGCTGAGTGCCTTTGCCTACCCGATCGACGTGGAAAAACACCTCAACGGCTTGAGCATCGACTACACCGCCTACGACACCGATGCCGACATCGGCTCGATCCAGGTCAACAACTACGGCAGCACCGACGCGGCGTGCAGCGTGGTGTTTCGCAACGGCCCCGAAGCGCCGCGAACCCGCAAGATCGAAGTCGCCGCCGGCAAGTTCAAGAACGCCACCGCCAAGTTCAACCGCAACATCATCAAGCTGCGCATCGAGCTGACCTGCAAGCCGAAATAA	MKKICCALLTLLPLSAFAYPIDVEKHLNGLSIDYTAYDTDADIGSIQVNNYGSTDAACSVVFRNGPEAPRTRKIEVAAGKFKNATAKFNRNIIKLRIELTCKPK				NA	NA	NA	NA	NA
D1-35_01840	600	azoR	COG1182	FMN-dependent NADH-azoreductase	ATGTCCCGCGTTCTGATCATCGAAAGCAGTGCCCGCCAGCAAGACTCGGTTTCCCGTCAACTGACCCAGACCTTCATCAGCCAGTGGAAAGCCGCGCATCCGGCCGATGAGATCAGCGTTCGCGACCTGGCAGTCAACCCTGTTCCGCACCTGGACGCCCATCTGCTGGGGGGCTGGATGAAACCGACCGAGCAGCGCAACGACCTCGAGAACGCCTCCCTGGAGCGCTCCAACCAGCTGACCGATGAGCTGCTCGCCGCCGATGTTCTGGTGATGGCCGCGCCGATGTACAACTTCGCCATCCCGAGCACCTTGAAAGCCTGGCTCGACCACGTGCTGCGCGCCGGCGTGACCTTCAAGTACACCCCCACCGGTCCCCAGGGGCTATTGACCGGCAAGCGCGCTTTCGTGCTCACCGCCCGCGGCGGCATTCACGCCGGTGGCAGCACCGATCACCAGGAACCGTACCTGCGCCAGGTCATGGGCTTCATCGGTATCCACGACGTGACCTTCATCCATGCCGAAGGCATGAACCTGGGCGGCGACTTCCAGGAGAAGGGCCTGAACCAGGCCAACGCCAAGCTATCCCAAGTAGCCTGA	MSRVLIIESSARQQDSVSRQLTQTFISQWKAAHPADEISVRDLAVNPVPHLDAHLLGGWMKPTEQRNDLENASLERSNQLTDELLAADVLVMAAPMYNFAIPSTLKAWLDHVLRAGVTFKYTPTGPQGLLTGKRAFVLTARGGIHAGGSTDHQEPYLRQVMGFIGIHDVTFIHAEGMNLGGDFQEKGLNQANAKLSQVA	PGPT0006790_2691	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
D1-35_01841	867	bioP	COG0697	Biotin transporter	ATGGGCTATCTACTTTTTGTGACCTTGATCCAGGCGTTTTCCTTCAGCCTGATCGGCGAATACCTGGCCGGGCATGTCGACAGTTATTTCGCGGTGCTGGTGCGCGTAGTGTTGGCGGGGCTGGTGTTCATTCCACTGACCCGCTGGCGCCAGGTTGAGCCGTCGTTCATGCGCGGCATGCTGTTGATCGGCGCCCTGCAGTTCGGCGTGACCTACGTCTGCCTCTACCTGAGTTTCCGCGTACTGACGGTGCCGGAAGTGCTGTTGTTCACCATCCTCACCCCGCTGCACGTGACTTTGATCGAAGATGCACTCAATCGACGTTTCAACCCCTGGGCCTTGATTGCGGCGCTGGTGGCGGTGGCCGGCGCGGCGGTGATTCGTTATGACCGGATCAACCCGGATTTCTTCATGGGCTTTTTGCTGCTGCAACTGGCGAACTTCACCTACGCGGCCGGGCAAGTGTTGTACAAGCACCTGGTGGCACGGCACCCGAGCGACCTGCCGCACTATCGGCGTTTCGGCTATTTCTACCTAGGCGCGCTGATGGTCGCGCTGCCGGCCTTCCTGCTGTTCGGCAAGGACGATTTCTGGCCTGAAGCGCCGTTGCAATGGGGCGTGCTGGTATTCCTCGGCCTGGTCTCCACCGCGCTGGGGCTGTATTGGTGGAACAAGGGCGGGTGCCTGGTGAACGGCGGGACATTGGCGGTAATGAACAACCTGCACGTGCCGGTGGGGTTGCTGGTGAACCTGCTGATCTGGAACCAGCATGAGGCGTTGGGTCGGTTGCTGCTGGGTGGGTCGGTGATACTCGCGGCGGTGTGGATCAGTCGGTTAGGGATACGCCAGCCCCAGCCTTCACGCTGA	MGYLLFVTLIQAFSFSLIGEYLAGHVDSYFAVLVRVVLAGLVFIPLTRWRQVEPSFMRGMLLIGALQFGVTYVCLYLSFRVLTVPEVLLFTILTPLHVTLIEDALNRRFNPWALIAALVAVAGAAVIRYDRINPDFFMGFLLLQLANFTYAAGQVLYKHLVARHPSDLPHYRRFGYFYLGALMVALPAFLLFGKDDFWPEAPLQWGVLVFLGLVSTALGLYWWNKGGCLVNGGTLAVMNNLHVPVGLLVNLLIWNQHEALGRLLLGGSVILAAVWISRLGIRQPQPSR				NA	NA	NA	NA	NA
D1-35_01842	1299	ybdG	COG0668	Miniconductance mechanosensitive channel YbdG	ATGGATATCAAACAATTCTGGCTCAACCTTCAGGATTTCTGGGGGGCCCTGGATCAGCACCCGCTCCTGCATTCCGGTCTCGCCCTGGCCCTGCTGCTGGCGATCGCGCTGGTGCTCGGACGCGTGGCGCGTTACCTGATCCTGCACGGCGCCAAGCTGATCGGCCGCCAACCGGCCCTACACTGGGTCAACGACCTGCGCCAGAACAAAGTCTTCCATCGCCTGGCGCAGACGACGCCGTCGCTGATCATCCAGTTCGGCCTGCACCTGGTGCCGGGGCTGAGCAAGACCAGCATGGTCTTCCTCGGCAATGTCGCGCTGGCCTTCACCATCCTGTTCATGCTGCTGGCCGTCAGTGCCCTGCTCAGTGCGCTATTGGACGTCTATGCGCGCACCGAACACGCCCGCACCCGCTCGATCAAGGGCTACGTGCAGCTGACAAAAATGGTCCTCTACGTGTTCGGCGCGATCATCATCGTCGCCACGCTGATCGACCGCTCGCCGCTGTTGCTGCTGTCGGGCCTGGGTGCGATGTCGGCGGTGATCCTCCTGGTCTACAAAGACACGCTGCTGTCGTTTGTCGCCAGCGTGCAGTTGACCAGCAACGACATGCTGCGGGTCGGCGACTGGATCGAAATGCCCCAGGTCGGCGCCGACGGTGATGTGGTGGACATCACGTTGCACACGGTGAAGGTGCAGAATTTCGACAAGACCATCGTCTCGATCCCCACCTGGCGCCTGATGTCCGAATCGTTCAAGAACTGGCGCGGCATGCAGCAATCCGGCGGACGGCGGATCAAGCGCAGCCTGTTCATCGATGCCAGCGGCGTGCGCTTCCTGCACGACGAGGAAGAACAGCGCTTGACGCAGGTGCGCCTGCTGACCGATTACATCGGCCGCAAGCAGGCCGAGCTCAAGGCCTGGAACGAAGCCCAGGGCAACGTCGCGGCGATGTCGGCCAACCGCCGGCGGATGACCAACCTGGGCACTTTCCGCGCCTATGCCCTGGCCTATCTGAAAAGCCACCCGGAGATCCAGCCGAACATGACCTGCATGGTCCGCCAGCTGCAGACCACTGCCCAGGGTATCCCGCTGGAAATCTACTGCTTCACCGGCACCACCGTGTGGGCCGACTACGAGCGCATCCAGGGGGATATCTTCGATTACCTGCTGGCGGTGATGCCAGAGTTCGGGCTGGGCTTGTACCAACAGCCGAGCGGTACGGATCTGCGGGCGGGGTTGCTGCCGGCGGTGCTGGGGGCAAGCCATATTCCGGAGCCGGAAAAGCAGGTGGTCTGA	MDIKQFWLNLQDFWGALDQHPLLHSGLALALLLAIALVLGRVARYLILHGAKLIGRQPALHWVNDLRQNKVFHRLAQTTPSLIIQFGLHLVPGLSKTSMVFLGNVALAFTILFMLLAVSALLSALLDVYARTEHARTRSIKGYVQLTKMVLYVFGAIIIVATLIDRSPLLLLSGLGAMSAVILLVYKDTLLSFVASVQLTSNDMLRVGDWIEMPQVGADGDVVDITLHTVKVQNFDKTIVSIPTWRLMSESFKNWRGMQQSGGRRIKRSLFIDASGVRFLHDEEEQRLTQVRLLTDYIGRKQAELKAWNEAQGNVAAMSANRRRMTNLGTFRAYALAYLKSHPEIQPNMTCMVRQLQTTAQGIPLEIYCFTGTTVWADYERIQGDIFDYLLAVMPEFGLGLYQQPSGTDLRAGLLPAVLGASHIPEPEKQVV	PGPT0013774_187	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013774-mscM|ybdG-K16053	NA	NA
D1-35_01843	1347	rhlE_1	COG0513	ATP-dependent RNA helicase RhlE	GTGTTTTCCCAATTCGCCCTGCACGAACGCCTGCTCAAAGCCGTGGCCGAGCTTAAATTTGTCGAGCCAACGCCGGTGCAGGCAGCGGCTATTCCGCTCGCGCTCCAGGGGCGTGACCTGCGGGTGACGGCGCAGACCGGCAGCGGCAAGACCGCTGCGTTCGTGCTGCCGATCCTCAATCGCCTGATCGGCCCGGCCAAGGTCCGCGTCAGCATCAAGACCCTGATCCTGCTGCCGACCCGCGAGCTGGCCCAGCAGACCTTGAAGGAAGTGGAACGCTTCGCGCAGTTCACCTTCATCAAGTCCGGCCTGATCACCGGCGGGGAAGATTTCAAGGTCCAGGCCGCCATGCTGCGCAAGGTGCCGGATATCCTGATCGGCACGCCGGGGCGGATGATCGAGCAACTGAACGCCGGCAACCTCGACCTCAAGGAAGTCGAAGTGCTGGTGCTGGACGAAGCCGACCGCATGCTGGACATGGGTTTTGCCGAAGATGTGCAGCGCCTGGTGGATGAATGCGTCAATCGCCAGCAGACCATGCTGTTCTCCGCCACCACTGGCGGTTCGGGCCTGCGCGAGATGATCGCCAAGGTCCTGAACAACCCTGAGCACTTGCAGCTCAACGCGGTCAGCCAGCTGAACTCCACGACTCGCCAGCAGATCATCACCGCTGACCACAACCAGCACAAAGAGCAGATTGTGAACTGGTTGCTGGCCAACGAGACCTACGAAAAAGCCATCGTGTTCACCAACACCCGGGCCATGGCCGACCGCATCTACGGTCGTCTCGTCGCCCAGGAATACAAGGCGTTCGTGCTGCACGGCGAGAAAGACCAGAAGGACCGCAAGCTGGCCATCGACCGCCTCAAGCAGGGCGGTGTGAAAATCCTGGTTGCCACCGACGTCGCGGCCCGTGGCCTGGACGTCGAAGGCCTGGACATGGTCATCAACTTCGACATGCCCCGCAGCGGCGACGAGTACGTGCACCGCATCGGCCGCACCGGTCGCGCCGGCAACGATGGCCTGGCGATCTCGCTGATCTGCCACGGCGACTGGAACCTGATGTCGAGCGTCGAGCGCTACCTCAAGCAGAGCTTCGAGCGCCGCACCATCAAGGAAGTCAAAGGCACCTACGGCGGACCGAAAAAGGTCAAGGCGTCGGGCAAGGCCGTTGGCGTGAAGAAGAAAAAGGTCGACGCCAAGGGCGACAAGAAGAAAACCGGCGCCAAGGCTCCGACCAAGCGCAAGACCGCCAACCGCCCGAAGAGCGACGCGCCATCGCTGGTCAGCAAGGACGGCATGGCCCCGCTCAAACGCCGCAAGCCCGAGGCGCCAGCGGCTGAATAA	MFSQFALHERLLKAVAELKFVEPTPVQAAAIPLALQGRDLRVTAQTGSGKTAAFVLPILNRLIGPAKVRVSIKTLILLPTRELAQQTLKEVERFAQFTFIKSGLITGGEDFKVQAAMLRKVPDILIGTPGRMIEQLNAGNLDLKEVEVLVLDEADRMLDMGFAEDVQRLVDECVNRQQTMLFSATTGGSGLREMIAKVLNNPEHLQLNAVSQLNSTTRQQIITADHNQHKEQIVNWLLANETYEKAIVFTNTRAMADRIYGRLVAQEYKAFVLHGEKDQKDRKLAIDRLKQGGVKILVATDVAARGLDVEGLDMVINFDMPRSGDEYVHRIGRTGRAGNDGLAISLICHGDWNLMSSVERYLKQSFERRTIKEVKGTYGGPKKVKASGKAVGVKKKKVDAKGDKKKTGAKAPTKRKTANRPKSDAPSLVSKDGMAPLKRRKPEAPAAE	PGPT0013740_2632	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
D1-35_01844	786			hypothetical protein	ATGAAACGTACGTGCACCAGCCTGATACTCGCAGGATCGTTGCTCGCCGGCAGCCAAGCCATGGCCGGCGATCTGTTGCAGTGGCAGAACAACAGCCTGAGTTACCTCTACGGCAAGGATTTCCAGATCAATCCGCGTATCCAGCAGACCGTGACGTTCGAACACGCCGATGCCTGGGCCTACGGCGACAACTTCTTCTTCCTCGACCGGATCTTCTACAACGGCGAGGACGACAGCAATTCCGGCCCGAACACCTACTACGGCGAGTTCAGTCCGCGCCTGTCGTTCGGCAAGATCTTTGATCAAAAGCTCGAACTGGGCCCGGTCAAGGACGTGCTGCTGGCGATGACCTATGAGTTTGGCGAAGGTGACAACGAGTCCTACCTGATCGGCCCGGGTTTCGACCTGGCGATTCCCGGCTTCGATTACTTCCAGCTGAACTTCTACAACCGCCAGACCGAAGGCTCGCGGGCGGGCGACAACGTCTGGCAGATCACCCCGGTCTGGGCCGTCACCGTCCCGGTGGGTTCATCCGACATTCTGTTCGATGGGTTCATCGACTGGGTCGTCGACAACGACAGCAACGCCAAGGGCACGTACCACGCCAACCTGCATATCGTCCCGCAGATCAAATATGACCTGGGCAAGGCGTTGAAGCTCGGCGCCAAGCAGCTGTACGTGGGCGTGGAATACGACTACTGGAAGAACAAGTACGCCATCGAGGACAGCGAAAGCTTCAAGACCAACCAGAGCAATACCAGCCTGCTGGTCAAATATCATTTCTGA	MKRTCTSLILAGSLLAGSQAMAGDLLQWQNNSLSYLYGKDFQINPRIQQTVTFEHADAWAYGDNFFFLDRIFYNGEDDSNSGPNTYYGEFSPRLSFGKIFDQKLELGPVKDVLLAMTYEFGEGDNESYLIGPGFDLAIPGFDYFQLNFYNRQTEGSRAGDNVWQITPVWAVTVPVGSSDILFDGFIDWVVDNDSNAKGTYHANLHIVPQIKYDLGKALKLGAKQLYVGVEYDYWKNKYAIEDSESFKTNQSNTSLLVKYHF				NA	NA	NA	NA	NA
D1-35_01845	1290			hypothetical protein	ATGCTGGAATGGCTGAACCTGAGCGTGCGCTGGGTTCACATGATCACTGGCGTGGCCTGGATCGGCGCGTCGTTCTACTTCGTCTGGCTGGAAAACAACCTCAATCGCGTCAATCCCCGGAGCGGCCTGGCCGGTGATTTATGGGCCATCCACGGTGGCGGCATCTACCACCTGGAAAAATACAAACTCGCGCCGCCGTCCATGCCGGACAACCTGCACTGGTTCAAATGGGAAGCCTATTTCACCTGGATGTCGGGCATCGCCCTGCTGTGCCTGGTGTTCTATTGGAACCCGACCGTCTACCTGCTGGCTCCCGGCAGCAGCCTGAGCGGCGCCGAGGGTGTTGCCCTGGGCATCGGTTCACTGTTCGTTGGCTGGTTCGTCTATTCGGCACTCTGCGACTCGGCACTCGGCAAGCGCCCCGCCCTGCTCGGCCTGATTCTGTTCGTGCTGTTGATCGCCGCGGCCTACGGCTTCAGCAAGGTGTTCAGCGGTCGCGGCGCCTACCTGCATGTCGGCGCCGTCATCGGTACGATCATGGTCGGCAACGTGTTCCGCATCATCATGCCGGCACAGCGCGCCTTGGTGGCGGCCATCGCCGAGAACCGCACGCCTGACCCGGCGTTGCCGGCCAAGGGCCTGTTGCGTTCGCGCCACAACAACTACTTCACCCTGCCGGTGCTGTTCATCATGATCAGCAACCACTTCCCGAGCACCTACGGCAGCCAGTACAACTGGCTGATCCTGGCCGGGATCGCCGTGGCGGCCGTGTTGGTGCGTCATTACTTCAACACTCGCCATGACAGCAACCGGTTCGCCTGGACGCTGCCGGTCGGCGCCCTGGCGATGATCTGCCTGGCTTACGTCACCGGGCCCAAGCCAATGCCAACGGCACCGGAAGTCGCCAAGGCTCCTGGCGTGATCGAGTATCAACCGTTGCCGGAAACGGCGGTGGGCGGCGGGGCCAAACCGGCCGCGGCGCCAGCCGCTCCGGCAACGGCGCCCGCCCAGGCGTCCACTGCGCAGGGCCCGTTATTTGAAAAGGTCCACAGCGTGATCCAGGAGCGCTGCTCGGTCTGTCATTCGGCCAAGCCCACCAGTCCGCTGTTCAGCGCCGCGCCAGGCGGGGTGATCTTCGATACGCCGCAGCAGATCCAGCAACAGGCCGCACGCATCCAGGCCCAGGCCGTGACCACCCAGATCATGCCCTTGGGCAACATCACCCAGATGACCCAGCAGGAACGTGACCTGATCGGCGCCTGGATCACCCAGGGCGCACGCACCAACTAG	MLEWLNLSVRWVHMITGVAWIGASFYFVWLENNLNRVNPRSGLAGDLWAIHGGGIYHLEKYKLAPPSMPDNLHWFKWEAYFTWMSGIALLCLVFYWNPTVYLLAPGSSLSGAEGVALGIGSLFVGWFVYSALCDSALGKRPALLGLILFVLLIAAAYGFSKVFSGRGAYLHVGAVIGTIMVGNVFRIIMPAQRALVAAIAENRTPDPALPAKGLLRSRHNNYFTLPVLFIMISNHFPSTYGSQYNWLILAGIAVAAVLVRHYFNTRHDSNRFAWTLPVGALAMICLAYVTGPKPMPTAPEVAKAPGVIEYQPLPETAVGGGAKPAAAPAAPATAPAQASTAQGPLFEKVHSVIQERCSVCHSAKPTSPLFSAAPGGVIFDTPQQIQQQAARIQAQAVTTQIMPLGNITQMTQQERDLIGAWITQGARTN				NA	NA	NA	NA	NA
D1-35_01846	504	allA	COG3194	Ureidoglycolate lyase	ATGCGCACACTCAAGATCGAGCCATTGACCAAAGAAGCCTTCGCCCCGTTCGGTGACGTGATCGAAACCGACGGCAGCGATCACTTCATGATCAACAACGGTTCGACCATGCGCTTCCACCGCCTGGCGACGGTCGAGACCGCCACGCCGGACGACCACGCGATCATCAGCATCTTCCGCGCCGACGCGCTGCAGATGCCGTTGACCGTGCGCATGCTGGAGCGCCATCCGCTGGGCAGCCAGGCCTTCATTCCGCTGCTCGGCAACCCCTTTCTGATCGTGGTCGCGCCACTTGGCGATGCACCTGTATCAGGCTTGGTCCGCGCCTTCGTCACCAACGGCAGGCAGGGCATCAATTACCATCGCGGCGTCTGGCACCACCCGGTGCTGACGATCGAAAAGCGGGATGACTTCCTGGTGGTTGATCGCAGTGGCACAGGCAACAACTGCGATGAGCATTTTTTTCAAGAGGATGAGTACTTGATCCTCGCCCCCCACCAATAA	MRTLKIEPLTKEAFAPFGDVIETDGSDHFMINNGSTMRFHRLATVETATPDDHAIISIFRADALQMPLTVRMLERHPLGSQAFIPLLGNPFLIVVAPLGDAPVSGLVRAFVTNGRQGINYHRGVWHHPVLTIEKRDDFLVVDRSGTGNNCDEHFFQEDEYLILAPHQ	PGPT0021505_649	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021505-allA-K01483	NA	NA
D1-35_01847	996	alc		allantoicase	ATGAAAGCTTACGCCGTACCGTTCGAGAAATTCGTCAACCTGGCCGACGCCCGCCTGGGCACCAGGATCATTTCGGTGACCGATGACTGGTTCGCCGATGCCAACCGCCTGTTCCAGCCGACCCCGGCCGTGTGGAAGGAGGGTGTGTTCGACGATAACGGCAAATGGATGGACGGCTGGGAGTCGCGCCGCAAGCGTTTCGAAGGCTACGACAGCGCGGTGATCCGCCTGGGCGTGCCGGGCTCGATCAAGGGCGTGGATATCGACACCTCGTTCTTCACCGGTAATTACCCACCGTCGGCCTCCCTGGAAGCCTGTTTCCTGGCTGAAGGCGAGCCGGATGAAAACACCCAGTGGACCGAAGTGCTGTCGGCCGTCGAGCTGAAGGGCGACAGCCACCACTACCACGAAATCAGCAATGACCAGGCGTTCAGCCATCTGCGCTTCAACATCTATCCGGACGGCGGCGTGGCCCGCCTGCGCGTCTACGGCATTCCGTACCGCGACTGGTCCGCGGTCGGCGACAACGAACAGATCGACCTGGCCGCCGCCCTCAACGGTGGCCGTGCCCTGGCCTGCTCCGATGAACACTTCGGCCGCATGAGCAACATCCTCAACCCGGGCCGTGGCGTGAACATGGGCGACGGCTGGGAAACCGCCCGTCGGCGCACCCCCGGCAATGACTGGGTGATCGTCGCCCTGGGCCATGCCGGCATTGTTGAGAAAGTCGTCGTCGATACCCTGCACTTCAAGGGCAACTACCCGGACAGCTGCTCGATCCAGGGCGCGTTCGTCAAAGGCGGCACCGACAGCCAGATCGAAACCCAGTCGCTGTTCTGGCGCGAACTGCTGCCGAGCCAGAAGCTGGAAATGCACGCCGAACACACCTTCGCCGAGCAGATCAAGGCGCTGGGGCCGATCACGCACATCCGCCTGAACGTGTTCCCGGACGGTGGCGTGAGCCGCCTGCGGGTATTGGGCAAGGTCGCTAAATAG	MKAYAVPFEKFVNLADARLGTRIISVTDDWFADANRLFQPTPAVWKEGVFDDNGKWMDGWESRRKRFEGYDSAVIRLGVPGSIKGVDIDTSFFTGNYPPSASLEACFLAEGEPDENTQWTEVLSAVELKGDSHHYHEISNDQAFSHLRFNIYPDGGVARLRVYGIPYRDWSAVGDNEQIDLAAALNGGRALACSDEHFGRMSNILNPGRGVNMGDGWETARRRTPGNDWVIVALGHAGIVEKVVVDTLHFKGNYPDSCSIQGAFVKGGTDSQIETQSLFWRELLPSQKLEMHAEHTFAEQIKALGPITHIRLNVFPDGGVSRLRVLGKVAK	PGPT0000880_876	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0000880-alc-K01477	NA	NA
D1-35_01848	516	pucL	COG3195	Uric acid degradation bifunctional protein PucL	ATGACTGCCTTCCAGACCCTCAAGCCTTCCCGCCTGAGCCGCGAAGCGTTCGTCGAAGCCTTCGCCGACATCTACGAACATTCGCCATGGGTGGCCGAAAAGGCCTTCGACCTAGGCCAGGATCCCTCGATCGACCAGATCGAAACCCTGCACCAGCGCATGAGCGACATCCTGTTGAGTGCCGACCACGCCAGCCAGCTGGCGCTGATCAACGCTCACCCGGACCTGGCCGGCAAAGCCGCCGTCCAGGGCCAACTGACCGAAGCCAGCACCAACGAACAGGCTGGCGCCGGTATTCACCAATGCACGGCCGAAGAGTTCCAGCGCTTCACCGAGCTGAACGAGGCCTACAAGGCCAAGTTCAAGTTTCCCTTCATCATGGCGGTAAAAGGCAGCAACCGGCACCAGATCCTTGCCGCGTTCGAAACGCGCATTCACCACTCGGCGGATGCCGAATTCAAATGCGCATTGGCAGAGATCAACAAGATCGCGTTGTTCCGATTACTGACCCTTTAG	MTAFQTLKPSRLSREAFVEAFADIYEHSPWVAEKAFDLGQDPSIDQIETLHQRMSDILLSADHASQLALINAHPDLAGKAAVQGQLTEASTNEQAGAGIHQCTAEEFQRFTELNEAYKAKFKFPFIMAVKGSNRHQILAAFETRIHHSADAEFKCALAEINKIALFRLLTL	PGPT0021130_514	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021130-uraD-K13485	NA	NA
D1-35_01849	927			hypothetical protein	GTGAGCGCTGACTACCCACGCGACCTGATCGGTTACGGCAGTAACCCTCCCCACCCGCAATGGCCGGGCAATGCCCGAATCGCCCTGTCTTTCGTACTCAACTATGAGGAAGGCGGCGAGCGCAACATCCTGCATGGCGATCGTGAGTCCGAAGCGTTCCTCTCGGAAATGGTTTCGGCGCAACCGTTGCTGGGCGAGCGCAACATGAGCATGGAGTCGCTGTACGAGTATGGCAGCCGTGCCGGCGTCTGGCGGATCCTCAAGCTGTTCAAGCAATTCGATATCCCGCTGACTATCTTCGCCGTGGCCATGGCCGCTCAGCGCCATCCGGACGTGATCCGCGCCATGGTCGCCGCCGGCCATGAAATATGCAGCCACGGCTATCGCTGGATCGACTACCAGTACATGGATGAAGCGCAGGAGCGCGAACACATGCTCGAAGCGATCCGCATCCTCACCGAACTTACCGGCGAGCGGCCGTTGGGCTGGTACACCGGACGCACCGGCCCCAATACCCGGCGATTGGTAATGGAAGAAGGCGGCTTTCTCTATGACAGCGACACCTACGACGACGACCTGCCGTACTGGGAGCCGAATAACCCCACCGGCAAGCCGCACCTGGTAATCCCTTACACACTCGACACCAATGACATGCGCTTCACCCAGGTGCAGGGTTTCAACAAGGGCGACGACTTCTTCCAGTACCTCAAGGATGCCTTCGACGTACTGTATGCCGAAGGCGCCGAAGCACCGAAGATGTTGTCCATCGGCCTGCATTGCCGCCTGATCGGCCGCCCTGCCCGCCTCGCCTCCCTCAAGCGTTTCCTGGAATACGTCAAGGGCCACGAACAGGTGTGGTTCAGCCGCCGGGTCGACATTGCACGCCACTGGCAGCAGACCCACCCGTATCCGGGAGTTTCGAAATGA	MSADYPRDLIGYGSNPPHPQWPGNARIALSFVLNYEEGGERNILHGDRESEAFLSEMVSAQPLLGERNMSMESLYEYGSRAGVWRILKLFKQFDIPLTIFAVAMAAQRHPDVIRAMVAAGHEICSHGYRWIDYQYMDEAQEREHMLEAIRILTELTGERPLGWYTGRTGPNTRRLVMEEGGFLYDSDTYDDDLPYWEPNNPTGKPHLVIPYTLDTNDMRFTQVQGFNKGDDFFQYLKDAFDVLYAEGAEAPKMLSIGLHCRLIGRPARLASLKRFLEYVKGHEQVWFSRRVDIARHWQQTHPYPGVSK	PGPT0012156_295	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012156-chitin_deacetylase-NA	NA	NA
D1-35_01850	354	pucM	COG2351	5-hydroxyisourate hydrolase	ATGGGACGTCTGACTACACACGTTTTGGATGCTGCACACGGTTGTCCGGGCAGCTTGATCAGGATCGAGCTGTACCGCGTCGAAGGTTCGCAAATGCAGCTGGTCGCCAGCGCATTGACCAACAGCGATGGCCGTTGCGACGCACCGCTTCTGCAAGGGGATGACTACCGCAGCGGGGTCTACCAGATTCAATTCCACGCCGGCGACTACTACCGCGCCCGTGGCGTGCAATTGGCCGAGCCGGCGTTCCTTGATGTGGTGGTGCTGCGCTTCGGTATTTCGCAGGAGCAGGAGCATTACCATGTGCCCCTGCTGATTTCGCCTTACGCCTATTCAACCTATCGAGGCAGCTGA	MGRLTTHVLDAAHGCPGSLIRIELYRVEGSQMQLVASALTNSDGRCDAPLLQGDDYRSGVYQIQFHAGDYYRARGVQLAEPAFLDVVVLRFGISQEQEHYHVPLLISPYAYSTYRGS	PGPT0021125_1404	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021125-uraH|pucM|hiuH-K07127	NA	NA
D1-35_01851	627	rhtB_3	COG1280	Homoserine/homoserine lactone efflux protein	ATGAATCTGGAAACCTGGTTGTTGTTCAGTGGCGCCGCCTTGGTGGTGATCCTCATCCCCGGCCCGCTGTCGCTGCTGATGATCAGCAACAGCCTCAACTACGGTCTGCGCCGTTCTTATCCGGCATTCCTCGGTGGGGTGGTCGCCTCGATCTGCCTGTTGAGCGCCTCAGCGCTGGGGCTCGGGGCGCTGTTGCTGGCTTCGGAACAATTGTTCAGCGCCCTGAAAATTGTCGGCGCGCTGTATCTGTTCTACCTCGCCTGGCAGAGCTGGCAGCAATCGCACCAGCCATCCCAGGGCGCCGAAGTGCCCCAGGCTACCGCCACTCCAAGGTTTCGCGCGCTGTTCGGCCGGGCATTCGTGCTGGGCGCGAGCAACCCGAAAGACATCCTCTTCTTCGCGGCGTTCCTGCCGCAATTCCTGAGCGCCGAGCAGCCATTCCTGCCGCAACTGCTGATCATGATCGCCACCTGGACCGTGCTCGACCTGCTGTGCAAGCTGGCCTATGGCCTGGGTGCCCACGGCGCCGCCCGGTATCTGCGTACCGGCAAGGGTCAGAGCTGGTTCAACCGGGTCAGTGCGGGGTTGTTCAGTGGGGCGGGGGCGGCTTCTTTGTTGAGCCGCTGA	MNLETWLLFSGAALVVILIPGPLSLLMISNSLNYGLRRSYPAFLGGVVASICLLSASALGLGALLLASEQLFSALKIVGALYLFYLAWQSWQQSHQPSQGAEVPQATATPRFRALFGRAFVLGASNPKDILFFAAFLPQFLSAEQPFLPQLLIMIATWTVLDLLCKLAYGLGAHGAARYLRTGKGQSWFNRVSAGLFSGAGAASLLSR				NA	NA	NA	NA	NA
D1-35_01852	1350	adeP_1	COG2252	Adenine permease AdeP	GTGGAAAGCCGCAAACCCGAAGCCCAGACCCTGGACCTTTCGCCGCCACTACGCAGTGGCTGGCTGGAGCGAATCTTCAAACTCAGCTTGCACGGCACCACGGTGAAGACCGAGCTGATCGCCGGCCTGACGACCTTCATCACCATGGCCTACATCATCTTCGTCAACCCCAACATCATGGCCGACGCGGGCATTGATCACGGCGCTGCGTTCGTCGCTACGTGCATTGCCGCCGCCCTGGGTTGCCTGTTGATGGGCCTGTATGCCAATTGGCCGGTAGGCCTGGCGCCGGGCATGGGCCTGAACGCTTTTTTTACCTACACGGTCGTCGGGACCATGGGCTACAACTGGGAAACCGCGCTGGGCGCGGTGTTCGTTTCCGGGGTGTTGTTCATGTTCCTGACCCTGTCGCGGGTGCGTGAGTGGTTGCTCAACAGCATTCCGGTGAGCCTGCGCTACGCCATGGGCGCGGGGGTCGGACTTTTCCTCGGGCTGATCGGCCTGAAGACCGCCGGTATCATCGTCGACAGCCCGGCGACGCTGATCAAGCTGGGTTCCTTGCATGAGCCAGGACCGCTGCTGGCCGCCGTGTGTTTCCTGATGATCGCCGTGCTGAGCTATCACCGCGTGTTCGGCGCGATCCTGATCAGCATCATTGCCGTGACCCTGGCCGGTTGGGGCCTGGGACTGGTGCAATACAACGGCGTGATGTCGACGCCGCCGAGCCTGGCTCCGACCTGGATGGCGATGGACGTCGCCGGCGTGTTCAACGTCAGCATGATCAGTGTGGTGCTGGCCTTCCTGTTCGTGCATATGTTCGACACCGCCGGCACCTTGATGGGCGTCGCCCAGCGCGCTGGCCTGGTAAAGCCCGACGGCAAGATCGAAAACCTGTCCAAGGCCCTCAAGGCCGACAGCGCCTCCAGCGTATTCGGCGCGATGGTCGGTGTTCCGCCAGTGACCAGCTATGTGGAAAGCGCGGCCGGCGTCGCAGCCGGCGGCCGCACGGGGCTTACGGCGGTGACGGTCGGTGTGCTATTTATTGCCGCCATGTTCTTTGCCCCGCTGGCCGGGATGATTCCTGCCTATGCAACGGCCGGCGCCTTGATTTATGTGGCCATGCTGATGATGGGCGGCATGGCCCACATCGAGTGGGACGAAGCGACCGACAGTATTCCAGCCATCGTCACCGCCATCATGATGCCGCTGACCTTCTCGGTCGCCGATGGCATCGCGCTGGGTTTCATCACCTACGTGGTACTCAAGGCCGGCACCGGTAAACACAAGGAAATATCCGTCAGCCTGTGGGTGCTCTGCGCGATCTTTATCGCCAAGTTCATCTTCTTGTAA	MESRKPEAQTLDLSPPLRSGWLERIFKLSLHGTTVKTELIAGLTTFITMAYIIFVNPNIMADAGIDHGAAFVATCIAAALGCLLMGLYANWPVGLAPGMGLNAFFTYTVVGTMGYNWETALGAVFVSGVLFMFLTLSRVREWLLNSIPVSLRYAMGAGVGLFLGLIGLKTAGIIVDSPATLIKLGSLHEPGPLLAAVCFLMIAVLSYHRVFGAILISIIAVTLAGWGLGLVQYNGVMSTPPSLAPTWMAMDVAGVFNVSMISVVLAFLFVHMFDTAGTLMGVAQRAGLVKPDGKIENLSKALKADSASSVFGAMVGVPPVTSYVESAAGVAAGGRTGLTAVTVGVLFIAAMFFAPLAGMIPAYATAGALIYVAMLMMGGMAHIEWDEATDSIPAIVTAIMMPLTFSVADGIALGFITYVVLKAGTGKHKEISVSLWVLCAIFIAKFIFL	PGPT0007325_2796	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
D1-35_01853	438			hypothetical protein	ATGCTTGACCTTAAAAATCCGACCTCCCAACAAATGGCCATGGAAGCGTTCTTCTTCGGTTATCAGGCGTTCACCGCCAAAGCCGATGAAATGCTTGAGCGCCGGGGCTTGAGCCGCGTGCATCAGCGCATCGTTTTTTTCATCGCCCGTTATCCATCATTGAGTGTGAAGGAGCTGCTGGCGCTGCTTGGCGTGAGCAAACAGGCATTGAACATGCCGCTGCGGCAATTGATGGAAATGCATTTGGTGAACAGCGTTGCCTCCGAGGCCGACAAGCGCAAGCGGCTGCTGGAACTGACCGCCGAGGGCGCGCGCTTTGAACAGGCGTTACGGCGCGAGCAGGTGAAATTGCTTGAACGGGTGTTTGCCGAGGCGGGGGAAGCGGCGGTGGATGGGTGGCTGGCGGTGAATCTGGGGTTGGGGAAATCCAGCGACTAG	MLDLKNPTSQQMAMEAFFFGYQAFTAKADEMLERRGLSRVHQRIVFFIARYPSLSVKELLALLGVSKQALNMPLRQLMEMHLVNSVASEADKRKRLLELTAEGARFEQALRREQVKLLERVFAEAGEAAVDGWLAVNLGLGKSSD				NA	NA	NA	NA	NA
D1-35_01854	1167	lysN	COG1167	2-aminoadipate transaminase	ATGGCTTTTTCCGAACGTGTCTCGCGCCTCAAAAGTTCTTTGATCCGGGAAATTCTCGCCGCGGCGCAGCGCCCGGAAGTGATGTCGTTTGCCGGCGGCCTGCCGGCCGAAGCCATGCTGCCGAAGGTGCAGTGGGAGGACATGCCGCTGTCCATGGGCCAATACGGCATGAGCGAAGGTGAGCCGGCCTTGCGTGAAGCGCTGGCAGCGCAGGCGCGATCGTTGGGCCTGGCTTGTGAGGCCGGTCAGGTATTGGTCGTGAGCGGTTCCCAGCAAACCCTCGATCTGGCGGCAAAGCTGCACATTGACGTCGGCACCGAGATCCTGCTCGAAGCGCCGACCTACCTTGCGGCTCTACAGATTTTCCATTTGTTCGGCGCCAATTGCATCACCGTGCCCCTTGAAGCGGATGGCCCGGACCTTGAGCAATTGCGGGCCCGGCTGCAGCAGCATCGACCGGCGTTCATCTACCTGATCCCAACGTTCCAGAACCCTTCGGCGGTACGCTACAGCGAGGCCAAGCGCGATGCGGTCGCGGCACTGCTGGACGAGTTCGGCGTGACGCTGGTGGAGGACGAGCCCTATCGCGAACTGACCTTCGATGGTGGCAGCGCCACGCCAATTGCCGGCCGTTTGAAAAAGGCCAGCTGGATCTACACCGGCACGGTGTCGAAGACGCTGCTGCCTGGGTTGCGTGTGGGTTACCTGATTGCCAGCCCGGACCTGTTCCCGCATTTGCTACGGCTCAAGCAGTCAGCGGACCTGCACACCAATCGCATCGGCCAGTGGCAGGCGTTGCAATGGATCGGCACCGAGCAGTACCGCAGCCATTTGAGTGAATTGAGGGATTTCTACCGGGATCGCCGCGACAGGTTCCAGGCCGCGCTGCAAAAGCATTTCGCCGACATCGCCGACTGGAACGTGCCCCAGGGCGGGCTGTTTTTCTGGCTGACCCTCAAGCAACCGCTGGATACCCGGACCTTGCTTGCCGCAGCCCTGGAGGAGGACGTGGCGTTCATGCCAGGAGAACCGTTTTTTCCCGAGCCGGACAAGCATCCCGGGCACTTGCGGTTGAATTTCAGCTATATCGATCCGGCGCGGCTGGATGAAGGGCTCAGGCGACTGGCGGGGGTGGTGCGGGGGGCTTTGGCTGCCGAGGCGGCTTGA	MAFSERVSRLKSSLIREILAAAQRPEVMSFAGGLPAEAMLPKVQWEDMPLSMGQYGMSEGEPALREALAAQARSLGLACEAGQVLVVSGSQQTLDLAAKLHIDVGTEILLEAPTYLAALQIFHLFGANCITVPLEADGPDLEQLRARLQQHRPAFIYLIPTFQNPSAVRYSEAKRDAVAALLDEFGVTLVEDEPYRELTFDGGSATPIAGRLKKASWIYTGTVSKTLLPGLRVGYLIASPDLFPHLLRLKQSADLHTNRIGQWQALQWIGTEQYRSHLSELRDFYRDRRDRFQAALQKHFADIADWNVPQGGLFFWLTLKQPLDTRTLLAAALEEDVAFMPGEPFFPEPDKHPGHLRLNFSYIDPARLDEGLRRLAGVVRGALAAEAA	PGPT0007135_1902	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007135-lysN-K05825	NA	NA
D1-35_01855	372			hypothetical protein	GTGATCGTCAAAGCGCTTCGAGTTGGTCTGGGCCAGCTCATCATCTTCATCGATTTCATTACTCGCCCCGGCAAGAAAAAGCGCTCGGCCGAAGCCCAGGCGCAAGTCGACCAGGCGGCCCGCAGCCTGACGCTTTATCAGTTCCATGCCTGCCCGTTCTGCGTGAAGACCCGCCGCGCCCTGCACCGCCTCAACGTGCCCGTGGCGCTGCGCGATGCGAAAAACAACGAGCAGGATCGCCAGACTCTGCTGGAACAGGGTGGCCGGATCAAGGTGCCTTGCCTGCGCATTGAAGAGAATGGCGAGACCACCTGGATGTATGAATCCAATGTGATCATTGATTATCTGGATAAGCGGTTTTCGGCGGTCTGA	MIVKALRVGLGQLIIFIDFITRPGKKKRSAEAQAQVDQAARSLTLYQFHACPFCVKTRRALHRLNVPVALRDAKNNEQDRQTLLEQGGRIKVPCLRIEENGETTWMYESNVIIDYLDKRFSAV				NA	NA	NA	NA	NA
D1-35_01856	561	folE_2	COG0302	GTP cyclohydrolase 1	ATGGAATCAGCCTCTGTGACACTGGAACAGAATTACACCGCGATCCTCGGGCAACTCGGCGAGGACGTTTCCCGCGAGGGCCTGCTCGACACGCCCAAGCGCGCTGCCAAGGCCATGCAGTACCTTTGCCGCGGTTATGAACAGACCCTGGAAGAAGTCACCAACGGTGCCTTGTTCAGCTCCGACAACAGCGAAATGGTGCTGGTCAAGGACATCGAGTTGTACTCGCTGTGCGAGCACCACCTGTTGCCTTTCATCGGCAAGGCCCATGTGGCCTATATTCCGAGTGGCAAGGTGCTGGGCCTGTCGAAAGTCGCGCGTATCGTCGATATGTATGCGCGTCGCCTGCAGATCCAGGAAAACCTCAGCCGCCAGATCGCCGATGCGGTCCAGCAGGTGACGGGGGCCATGGGCGTGGCAGTGGTGATCGAAGCCAAGCACATGTGCATGATGATGCGCGGTGTGGAAAAACAGAATTCTTCGATGATCACGTCGGTGATGCTCGGTGAATTCCGTGAAAACGCGGCGACCCGCATGGAATTTCTCAGCCTGATCAAGTAA	MESASVTLEQNYTAILGQLGEDVSREGLLDTPKRAAKAMQYLCRGYEQTLEEVTNGALFSSDNSEMVLVKDIELYSLCEHHLLPFIGKAHVAYIPSGKVLGLSKVARIVDMYARRLQIQENLSRQIADAVQQVTGAMGVAVVIEAKHMCMMMRGVEKQNSSMITSVMLGEFRENAATRMEFLSLIK	PGPT0007875_4417	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007875-folE-K01495	NA	NA
D1-35_01857	1209	intQ	COG0582	Putative defective protein IntQ	ATGGCTCGAAAGCCAATGGGATTGCCCACCGGAGTTGAATTTGTCGGCCAGTCCGTCAGGATTCGCTTCACATGGAACGGGCAACGCCGTTGCGAAACCCTCCCCTATCCCCAGACACCGAAAGGCATTAAAGCGGCATCCGATCTACGCGCTAACGTAACCAGCCTGATCAAGCATGGCGTGCTCGATGACCAACGCTATGCCGAGCTGTTTCCCAACTCCACTTATGCCACCTACTCGGCTACTCCCCGCTTCGGGGAGTATGCTCAGGAGTGGTTAAACAGTCGGGAGGTCGTAGCAGGCACACGCAAGAACTACCGGGCATCCCTCAATCTGTACTGGATGCCTCACCTCGCCTTGCTACCCGTCGATAGCATCACCTCGGTGCTGCTGCGCAAAATCGTAGCCAATACTGAATGGAAATCGCCGGGCGTTAAGCGTTCGGCAATCCAGCGACTCACTACAGTGTTCAGTACTGCCGTCAAAGATGGGCTGATCAATCGCAACCCGGTCGAGTCCATCGAGCTTCCCGTGAAAACGAAAAAGCCCATCGACCCCTTCACGGTGGCGGAAGCCAACGCCATCATTGAACACCTCTATAAGACGCTGACCCATTCGATGCGGATCTACGCGGCTTACTTCGAGTTCGCCTTCTATACCGGTATGCGCCCTAGCGAGATAGCAGCCCTTCGCTGGGGCGAGATAGACAAGGACAAGCGCCTAGCCAACGTGTGTCGGATCGTCGCGGACTATAAGATCGAGGAGCGCACCAAAACCCGCAATGAACGGCAAGTCATGCTCAACAGCCGTGCCCTGCACGCCCTTCAGGTGGCGGAGCACATCGCCGAGCAGCGTGCGAAACAGAGCCGCAGGAAGCAGCCGAAATCGCCCTATGTGTTCCCACCCACAAAAAATTTCGAGTTCATCCAGCAATCCAGCGTCACCGACAAACACTTCCAGGCGGCGCTGACCGAATTGGAGATTCGCGCCCGCCGGCAATACAACTGCCGACACACATACGCTACCATGTGCCTCATGGCGGGTATGAACCCTGCGTTTATTGCCACTCAGCTGGGTCACAGCGTTCAGATGTTGCTCTCGACCTATGCCCGATGGATCAACTCCAGCACCGACTGGGGCGAACTCGGGAAACTCGAAAACAGCTTGATTGGTACAAAATTGGTACAGACAGAACAAGTACCCTCCTGA	MARKPMGLPTGVEFVGQSVRIRFTWNGQRRCETLPYPQTPKGIKAASDLRANVTSLIKHGVLDDQRYAELFPNSTYATYSATPRFGEYAQEWLNSREVVAGTRKNYRASLNLYWMPHLALLPVDSITSVLLRKIVANTEWKSPGVKRSAIQRLTTVFSTAVKDGLINRNPVESIELPVKTKKPIDPFTVAEANAIIEHLYKTLTHSMRIYAAYFEFAFYTGMRPSEIAALRWGEIDKDKRLANVCRIVADYKIEERTKTRNERQVMLNSRALHALQVAEHIAEQRAKQSRRKQPKSPYVFPPTKNFEFIQQSSVTDKHFQAALTELEIRARRQYNCRHTYATMCLMAGMNPAFIATQLGHSVQMLLSTYARWINSSTDWGELGKLENSLIGTKLVQTEQVPS	PGPT0021996_592	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0021996-int|intR|intV|intQ|intW|xerC-K14059	NA	NA
D1-35_01858	543			hypothetical protein	ATGAATTGGATCCTCACGCATACCGGCAAACGCTTTGACCTGTTCGAACCGGACGCCGACATGATCGACCCACGAGACATTGCGCACTCGCTCGCTCATTTGTGCCGCTTCAACGGGCACACCCACGAGTTCTACAGCGTGGCCCAGCATAGTTGCTTGGTTGCGGATCTGGTGCCGGCCGAGCACAAGCTCTCCGCCCTGCTCCACGACGCCACCGAGGCTTACCTGGGCGACATGACCCGGCCGCTCAAAGAGTGGATGCCTTACTACCGTGGATTCGAGGACGTCATATGGGGGCGTATTTGCGAGCGCTTTGGCTTGGAGATCGACCTCCCCGCAAGCGTGCACCAAGCCGACCTGATCGCCTTGACCACCGAACGGCGCGACCTGATGCCGCCCGATCCGGACCCATGGGATTTCCTTGTCGGTATCGAACCCGCGCCCGAACGCATCCGGCCATGGTCACCCACCGAAGCCCGGCTCACGTACCACCAGCGACTGATGGACCAACTCGCTATTGAACACCGGAGGAAAGCGGCATGA	MNWILTHTGKRFDLFEPDADMIDPRDIAHSLAHLCRFNGHTHEFYSVAQHSCLVADLVPAEHKLSALLHDATEAYLGDMTRPLKEWMPYYRGFEDVIWGRICERFGLEIDLPASVHQADLIALTTERRDLMPPDPDPWDFLVGIEPAPERIRPWSPTEARLTYHQRLMDQLAIEHRRKAA				NA	NA	NA	NA	NA
D1-35_01859	222			hypothetical protein	ATGAGCCGCCACAGCCCGATGCTACGCCTCTCACCTCAAGATGCCGGCGTGCTGCACCAGCAACACGCCAAAGCCACCGCCGAACTGCGCGAAGTGACTCGATTCCGCAAGGAGTTCGACCGGCAACTGTCGCTGCTGATCGGCTACGACGCCCTGCGCAAGTTGCACAAGGACACCCAGAACGCCCTGCTACTCGCCGACCTGGTCAAGGAGGCAGCATGA	MSRHSPMLRLSPQDAGVLHQQHAKATAELREVTRFRKEFDRQLSLLIGYDALRKLHKDTQNALLLADLVKEAA				NA	NA	NA	NA	NA
D1-35_01860	429			hypothetical protein	ATGACTGCAATTCAAATATGCGCGTTGATCGGCCTGATAGTCGGCGCGGCCCTTATCTACTGGACCGGCTACCGAGGCGGGCTGCTCGACGGACGTGCTGCGGGACAGATTGAAGGAATTGAGGAAGGCAAAGCAATACAGAGATCCGACTCATCAGGGACGATCCGGGATCTGAACTTACTACTCAATCAGTCGAGAGCGAGCAGAAAGGAACTATATGCTCAATACGAGCGCGCCCTTGCCGCCTCGAAGCTCGGTAAAAAAGACCGCGATACCCTATTAGCCGTTGCTCAGCAGCTGCAATTGGCAGCCGAAACGTTCAAGGCACTGAAGTCTACCGAGCAAGAAATCCGCACCCATCGACTGCGCACAAAGACTCTGGAGATTGCAGCTCTACTGGATCAGGTCAAAGTGGAGGACGCAGCATGA	MTAIQICALIGLIVGAALIYWTGYRGGLLDGRAAGQIEGIEEGKAIQRSDSSGTIRDLNLLLNQSRASRKELYAQYERALAASKLGKKDRDTLLAVAQQLQLAAETFKALKSTEQEIRTHRLRTKTLEIAALLDQVKVEDAA				NA	NA	NA	NA	NA
D1-35_01861	330			hypothetical protein	ATGACTAGCCAGCCTCAAAACCCGCTGCGCCTGATGCCAGCACCGGAGACGGCCACCGTCGAGCTGCTGTATCGCACCTTCGGCGACGTTCTTATCCCCCTCGAAAAGCTGCGCGTGCAGTACTTCCGCAACCTTAACGAGCAGTCATTTGCAGCCGAAATCACCAGCGGCCGCATTCAACTGCCCGTGACCACGCTGGACAGCAGCCGCAAGGCACCGAAATACGCGCACATCCGCCACGTCGCTGCACTGATCGACATCCAGGCCTACAAGGCCGACGAAGTCCACGCGAAGGCCCACGCCGACGCAACGGAAGAAGTCCAACCGTAA	MTSQPQNPLRLMPAPETATVELLYRTFGDVLIPLEKLRVQYFRNLNEQSFAAEITSGRIQLPVTTLDSSRKAPKYAHIRHVAALIDIQAYKADEVHAKAHADATEEVQP				NA	NA	NA	NA	NA
D1-35_01862	285			hypothetical protein	ATGGAGCGCAATCTCGAAAAGACCGCCAAGCACTTTGGCCTGACCCGCCCCACCCTGATCAAGCTCATGCGTGAGAAGGGTCTGCTCACCGACCGCAACCTGCCGGCGTTCCCCGTCCGCGACCGTGAATACCTTCGGGTCAAGGACAGCAACTGGTACCACGACACGCTGGGCATGCAGTACAGCCAATCGACACGCGTCCGGCAGGCCGGCATCCCCTGGCTAGCAGAACAACTGGGCCTCGACCTTCCTGCCATCCCGGCAGACAACCGTGACGTGGCCTAG	MERNLEKTAKHFGLTRPTLIKLMREKGLLTDRNLPAFPVRDREYLRVKDSNWYHDTLGMQYSQSTRVRQAGIPWLAEQLGLDLPAIPADNRDVA				NA	NA	NA	NA	NA
D1-35_01863	585			hypothetical protein	ATGAGCAAATTCAAGATCGACAACCGCGCACTGACGTTGCTTAGCGCCCAGGTAAACCTCAGCGGGACTATCAACCACACCCTACGGTCAACGCCTCGACGCGATGTGCTGGCGTTTCGGTTGAAGGTTGAACGCAACAAGGCGGACAGCACCTTCACCATTGAGCTGGGCTCAGAGCGCCACACGTTGACTTTGCCCAACACCAAGAAAACTCACCTGAAGCTGGCCGACTTCATTGAGGAGATCGTCAACGGCCCTTTTGACCAGACTGGCGAACAGCATCCGGTACGACATGCTGAGCGCGAGTACGGCGCTTTCAGCGCCCAGCAGCGCGAACAAGTTTACAGGCTGGTTTGCACGGGCGGATTTATCGACCTGGACCTGGGCTTTGAACTGCCGATCCGACTCGCCGTGCACCGCACACGTACACGCTCGGGCATCACCGTAGTCATGAGCATCGGCATTAAAAGCCCGCGTACCAAGTGCTTCACCGCGTACGGCACCGACGCCGAGATGTACGAGCAGGTTTGCGAATCCATCAACCACCTGGCTGCGCTGGCAACACCCGCCGCGCACGCAGCATAG	MSKFKIDNRALTLLSAQVNLSGTINHTLRSTPRRDVLAFRLKVERNKADSTFTIELGSERHTLTLPNTKKTHLKLADFIEEIVNGPFDQTGEQHPVRHAEREYGAFSAQQREQVYRLVCTGGFIDLDLGFELPIRLAVHRTRTRSGITVVMSIGIKSPRTKCFTAYGTDAEMYEQVCESINHLAALATPAAHAA				NA	NA	NA	NA	NA
D1-35_01864	177			hypothetical protein	ATGCACACCACAGCATCCATTCACATCCATCCGGCAGTTGCCGACCTAACCCGCATCTTCGAAGTAAGGCGTCTGGCCCGCATCTACGGCTGCGCATTCATCCCGTCTAAACCCAAGCAACAGGCCCGTAGCGCACCGGCGTCCTTCGATCCAAACGACGGAGGACGGGCGGCATGA	MHTTASIHIHPAVADLTRIFEVRRLARIYGCAFIPSKPKQQARSAPASFDPNDGGRAA				NA	NA	NA	NA	NA
D1-35_01865	1317			hypothetical protein	ATGGCGTCGCCTCTTTCCGATTTAGATGAACTGGTTTTGAAATGCCGGGACGAAAAGGCCAAGAGCTATATTCGCGAGGCTGTAGCATGCTATAAATCTGGTGCATTTCGCTCATCGATTGTTTCGACTTGGATTGCCGTGGCTTTTGATATCATCGATAAATACAAGGAGTTATCCTTGGCAGGTGATAAGCAAGCCGAGGGAGTAATACATGCCTTCGAAGCGGCGCGAGTGGCGAATGATATCTCTGCCTCTTTGAAGTTTGAACGAGAGCTGCTAACTAATGCTCGAGACAAATTTCAACTGATATCGCACGTTGAGTTTACAGATTTAGATCGGCTACAACAGGACCGTAATAGATGCGCTCATCCATCAATGACCGTAGATAGTGAAATTTTCAACCCTCCTGCCGAACTCGCAAGGGTACATATGAGATCGGCAGTTGAGTATTTACTCCAGTACCCACCTGCTCAAGGAAAGTACGCGCTTGGCTTGTTGCTCAAGGAGGTTGACTCGGGCTATTTTCCCGCCGATACAGAGAAGGCAGTCGTTGCGTTTAGAAACGGCCCTTTGCTTAAGGCGCGTTCGGCTCTCGTGACCAGTTTCATTGTGGTTCTTTTAAAGAAATTTTTCTCGGGTTTAACGCTTAAAGAAGAGCTGCAAGTTTCAACTGCGCTTAAAGCGATTGAAACGATGCATAAAGTCGTATATGACCAAACAATGGCGGAAAAGCTTTCTCCAGTTGTTCGTGCTTTAGACGCAGAGGATCTCGATAACGTTCTCACCCTACTTACCTTGTTAGACGACGCATGGGTTATGCTTGATGAAGATCAGCAGCAGAGAATTTCTGCCTACGTTGAAGAGCTGCCTACCGATAATTTTGACCAGTTAATCCCCCTGTTGGCACTTGAAGGCTTAGAGGTACCTGCGAAAAACCGAGTTATGAAAGCTAATCGTTCGGAAATTAATCGCTCAAAAACAACCTTATACAATGACGTCGTCGGGGAGAGGGTGGCCGAGCTATTCGCTATCTCGCCTTCTTTTGCTATGGCAAATGACTTTGGTCACACGGTTATCAGGTTCGCGAACCATTTTACCAAGCAACAAGTCCTTGACTTAATTCGAGCGTGTGGAACAAATGATCAAATCAAATACAGCTTTGTAGTGGGTGCTGTAATATCTGCTTTGAAGGATAATAAGCAAGTTGAGCTTGGGGAGTTGAATGCTGTTTTGATTGAAGTAGGTCTGGAAGAGTATGTTAATGACCCTGAGCAGATAGGAGATGACCTAGAAGACCAGTCTCCGGATGCGGCATAG	MASPLSDLDELVLKCRDEKAKSYIREAVACYKSGAFRSSIVSTWIAVAFDIIDKYKELSLAGDKQAEGVIHAFEAARVANDISASLKFERELLTNARDKFQLISHVEFTDLDRLQQDRNRCAHPSMTVDSEIFNPPAELARVHMRSAVEYLLQYPPAQGKYALGLLLKEVDSGYFPADTEKAVVAFRNGPLLKARSALVTSFIVVLLKKFFSGLTLKEELQVSTALKAIETMHKVVYDQTMAEKLSPVVRALDAEDLDNVLTLLTLLDDAWVMLDEDQQQRISAYVEELPTDNFDQLIPLLALEGLEVPAKNRVMKANRSEINRSKTTLYNDVVGERVAELFAISPSFAMANDFGHTVIRFANHFTKQQVLDLIRACGTNDQIKYSFVVGAVISALKDNKQVELGELNAVLIEVGLEEYVNDPEQIGDDLEDQSPDAA				NA	NA	NA	NA	NA
D1-35_01866	648	lexA_3		LexA repressor	ATGAAGATTTCAGACACGCGCCTGCAGAATTTCCGAAGAGTCTTGGCTGAGAAAAAACTCCGCTTGACCGACATCGCTGACCTTTTGGGCAAAGCACCGGCTCAAGTGAGCGCGTTCGGTGGGAAGAATCCCACGAAAGGTATTGGTGATCAGATTGCCCGGGAAATAGAGCAGGCATTAAGTCTTCACACCGGTTATCTAGACATGCCTTTTGGAATAGGCGAATTCAATAATGCGACCGTATTGAGTCACACAGGACGTAAATTGCCTGTTATTGGATCTATCGCCGCCGGGGCATGGTGTGAGTCGGATATAGTTTTCGATCCGCGTGATGCGGAGGAATGGATCGATGCCCCCGGACCTGTCGGGCCTCGGGCTTTCATACTTCGCGTCGAAGGAATGAGCATGGAGCCGAAATTCGTCGAGGGCGATAAAATAGTCATCGATCCCTCTCTAGAAGCTCTACCTGGTCATTTTGTTGCCGCAAAAAGAACCAGAGATCAAGCGGCAACACTCAAGCAATTGAAGCAAGAAGGGAATGAGCAGTATCTCTATGCGCTAAACCCTGACTGGCCGGAAAGAATTATAAGAATGACCGAAGAATGGACCATCTGTGGAAGAGCAAGATGGAAAATATCAGACCTATAG	MKISDTRLQNFRRVLAEKKLRLTDIADLLGKAPAQVSAFGGKNPTKGIGDQIAREIEQALSLHTGYLDMPFGIGEFNNATVLSHTGRKLPVIGSIAAGAWCESDIVFDPRDAEEWIDAPGPVGPRAFILRVEGMSMEPKFVEGDKIVIDPSLEALPGHFVAAKRTRDQAATLKQLKQEGNEQYLYALNPDWPERIIRMTEEWTICGRARWKISDL				NA	NA	NA	NA	NA
D1-35_01867	231			hypothetical protein	ATGAATCTGCGCGATTACATCAACAATTTGGGTCCCGAGGAGCTCATGGCTTATGCAGCGCGTTGCAGCATAGCGGTTAGCTATCTAAGGCTACACGTCAAGTACGCGAGCAAAGATCCCAGCGTCTCGCTGATCAAGTCATTGACCCGCGAAAGCGAAGGCTGCGTCTCCCTTGCCGAAGTGCTAGAGCATTTTGGTATTACCGAAACGATTGTATCCAAAGCTGCTTAG	MNLRDYINNLGPEELMAYAARCSIAVSYLRLHVKYASKDPSVSLIKSLTRESEGCVSLAEVLEHFGITETIVSKAA				NA	NA	NA	NA	NA
D1-35_01868	519			hypothetical protein	ATGAGCCGAATCGCTCTGAGTTGCGTCGAACGAGCACAGCGGGAAGTCCTGCCGCTCGATCTGGCGCTTTACCATGCCGCTCGGGACTACCCTGGCGGCGCCGCTGCAATTGCCGCCACCACCGGCCGAAACCCCACCACGCTGCAGCACAAGCTGTCCCCCACGCACCCCAGCCATTCGGTAAACATTCAAGAGTTTGGCGAGATCCTCGAACTGACGAAGGACAGGCGCATCCTGGATGCGGTGCATGCCTTGGTCGGCGATACGATCTGGCACGAGCTGTCTGAGGTGTACACCACTGACATGCCGGAAACCCTGACCGTCGGCCTTGCTGAGTACTTTCGGCAGGTGGCAGATCTGGCCGACACCTGGGCCAAGAGCATTGGTGATGGGGTGGTCAGCGATCAAGAGCTGGCCGCGATCCGCCTGCAGGTGTTTCGAGGTATCCAGGGGCTGCTGGGCTTGTTCAACCGCGCCACGTACGTCAACCAGACAACGCGGGGTGATGGCCGTGGCTGA	MSRIALSCVERAQREVLPLDLALYHAARDYPGGAAAIAATTGRNPTTLQHKLSPTHPSHSVNIQEFGEILELTKDRRILDAVHALVGDTIWHELSEVYTTDMPETLTVGLAEYFRQVADLADTWAKSIGDGVVSDQELAAIRLQVFRGIQGLLGLFNRATYVNQTTRGDGRG				NA	NA	NA	NA	NA
D1-35_01869	2220			hypothetical protein	ATGCTCGATGACGTGCTGAATCAGTTTGCGGACTTCGGTCTGGAGCCCGCGCAGCCACTGCTTTACGGCAAGCTGACTCGATGCAAGACCGTCCTGGATAAGGGCAAAGAGAAAAACGGTTGGTACGTTCTACACGAGCACCACACCGAGAAAGGCGAAACTTTGATCTTCGGTGCGTTCGGCGACTGGCGTACAGGGGAAACGCAAAAGATCAAGGTGAAGCCTGGCCGGATGACGCCTGAAGAGCGTGAAGTCATGCGCGCTCGTCAGGAGGAAGCCAAGCGCAAGGCCGCCGAGAAGGCTGCCAACGCTGCCCGTCGAGCGGCTAACCGTGCTGCTGGTTTATTCAAGCGGATGCCCGAGAAGGGCCGTAGCGCCTACTTGGACCGAAAGCAGATCGTGGGCCTCGGCGTTCGTTATGCTCCGCGCTCCGGCGCGGTTTTGGTGCCCATGCAAAACGCTCGGGACCAGATCGTCGGGTTACAAGTGATATTCCCCGAGAAGCAAGAGGACACCGGCCGCGACAAGTCTTATTGGCCCTATGGGATGGCGAAGGAAGGCGCCTTCCACCTCATTGGTCCGCACCCTGAGCCGGGTGAGCCAGTGCTGGTGTGTGAGGGCTACGCCACCGGTGCAAGCCTGCACATGGCGACCTCGTTGACGGTCGCCATTGCCTTTGATGCGGGCAACCTCATGACGGTCGCCAAGGCAATGCGCGAGCGGTTCCCGGGGCGTCCACTAATCATCTGCCGGGATGATGACTGGAAAACCAAGCGCCCGAATGGCGAGCCCTGGAACCCAGGTGAAGAGAAAGCCAACAACGCGGCAACGGTTGTAGGCGGTCAGGTAGTAGGTCCGATCTTTTCGGGGGAGCGAGAGGACAAGTGGACCGACTTCAACGACCTGCACTGTGCTGAAGGATTGGAGGCGGTGCGCCGCCAGGTACTGGCGGTGGTCAAGCCACCTGCAGCGGGTGGCTGGAAAGACCAGCTGGCCCGCACTGAAAACGGCATGTTGATCGCGCACATGCAAAACGTAGAGCTGATCCTGGGCAACGACGAACGTTGGGCCGGTGTGATTGGCTTCAGTGCGTTCAGCTCCAAGATCGTCAAGCTGCGTGCTGCCCCGTATGGCGGCGGTGTCGGCGATTGGGCCGACATTGATGACATGCTGGTCATGAAGTGGCTCGCGCAACAGTACAACCTGCGGGTCAAGGCGAGCAGCGTTATTGAAGCTGTCAGTGTTGTTGCACATGACCATGCCTTTCACCCGGTACGCGATTATCTCAATGGCTTGGAGTGGGATCGGGTACCTCGGCTCGACACCTGGTTGACAGACATCATGGGCGTAGCCCCGACGGATTACAGCTCCAAGGTCGGTAAGCGCTGGATGGTGTCGGCGGTCGGCCGGGTGATGCAGCCGGGCTGCAAGGCTGACTCGGTGATGATTCTCGAAGGCGCGCAAGGTGCCGGTAAGTCCACCGCCATGTCGGTCTTGGGCGGCGCTTGGTTTATGGACACTCCTTTCGCCTTGGGCGACAAGGATGGGTTCCAGGCCATTCGCGGAAAGTGGATCGTTGAGCTGGGAGAGCTGGACAGTTTCAACAAGGCCGAGTCCACCAAGGCAAAGCAGTTCTTCTCGGCCTCGACGGACACTTACCGCGAGAGCTATGGCCGTAGAACGATGGACGTGCCACGCCAGTGTGTTTTCGTGGGTACGACGAACCAGGATGAGTACCTGAAGGATGCCACAGGGAACCGTCGGTATTGGCCGGTGGCTTGTACCAAGGTGGACCTTGATAAGTTGCGCGAGATCCGCGACCAGCTGTGGGCCGAGGCGATGTTTTGCTATCAGTCCGGCGATATCTGGTGGGTCAACCGGGAGGAGGCGCCGCTGTTCGCCGAGGCGCAGGAAGAGCGCTTTGTGGTGGATGAATGGGAAGGCCCGATTCTGGCCTGGCTCGAAGAGTCTCAGATTGGCGAAACCGCGACCGGCACCGACATTCTTCTGGGGGCTTTGAAGCTGGACTTCGGTCACTGGGGCAAACCAGAACAGATGCGGGTCGGGGCAATCATGCACCGGTTGGGTTGGCGCAAGGTCCGGCAACCTGCTCTGCGTAAGAGCGGCATCAGGCCTTGGGCTTACAAGAAGCCAGAAAACTGGGGCAGGTCATCGAACCTTGAGCAGCAGCCGGTTGAGGAGCCATGTTTCGATGATTAA	MLDDVLNQFADFGLEPAQPLLYGKLTRCKTVLDKGKEKNGWYVLHEHHTEKGETLIFGAFGDWRTGETQKIKVKPGRMTPEEREVMRARQEEAKRKAAEKAANAARRAANRAAGLFKRMPEKGRSAYLDRKQIVGLGVRYAPRSGAVLVPMQNARDQIVGLQVIFPEKQEDTGRDKSYWPYGMAKEGAFHLIGPHPEPGEPVLVCEGYATGASLHMATSLTVAIAFDAGNLMTVAKAMRERFPGRPLIICRDDDWKTKRPNGEPWNPGEEKANNAATVVGGQVVGPIFSGEREDKWTDFNDLHCAEGLEAVRRQVLAVVKPPAAGGWKDQLARTENGMLIAHMQNVELILGNDERWAGVIGFSAFSSKIVKLRAAPYGGGVGDWADIDDMLVMKWLAQQYNLRVKASSVIEAVSVVAHDHAFHPVRDYLNGLEWDRVPRLDTWLTDIMGVAPTDYSSKVGKRWMVSAVGRVMQPGCKADSVMILEGAQGAGKSTAMSVLGGAWFMDTPFALGDKDGFQAIRGKWIVELGELDSFNKAESTKAKQFFSASTDTYRESYGRRTMDVPRQCVFVGTTNQDEYLKDATGNRRYWPVACTKVDLDKLREIRDQLWAEAMFCYQSGDIWWVNREEAPLFAEAQEERFVVDEWEGPILAWLEESQIGETATGTDILLGALKLDFGHWGKPEQMRVGAIMHRLGWRKVRQPALRKSGIRPWAYKKPENWGRSSNLEQQPVEEPCFDD				NA	NA	NA	NA	NA
D1-35_01870	360			hypothetical protein	ATGATTAAGGAGATCGACGCGCGGCTGCGCAAATGGGCCGAGGAGCTGCATAGCGACCTTAGTGCCGGCGGGCTCGCCGGTGGGAACATGGTTGCCATGATGATGGAGAGCAATGGACAGCTGATTCGAGGCCGGCGGGCGTTCCGTGCGCCGCTGGAAGGTTCGCTTGATATCGAGCTGATCGTGACCAAACATCTCGATCCTCTGCATGTGCAAATCGTGCGAGAGCACTACTGCAACCAGGACAGCGACATGCGCTTGAAGTATGCCCACTGCGGCTGCGGGCGCGACACCTACTACCAGCGTCTGCATGACGCGCACCTGTGCATCTATTGGCTGCTGATGGGAGTTGCTGCTTGA	MIKEIDARLRKWAEELHSDLSAGGLAGGNMVAMMMESNGQLIRGRRAFRAPLEGSLDIELIVTKHLDPLHVQIVREHYCNQDSDMRLKYAHCGCGRDTYYQRLHDAHLCIYWLLMGVAA				NA	NA	NA	NA	NA
D1-35_01871	345			hypothetical protein	ATGACGAACGAGCAGCAAGCACTGGCAGAAATGCCGATCTGGTTAGTAATTCTTTTGGCCTTGGTCGGCGGCGTATCGGGGGAGATGTGGCGGGCCGACAAGGATGGGGCGCGGGGCTGGGCGTTGTTGAGGCGCCTGGCACTGCGGTCCGGTGCCTGCGTTGTCTGCGGGGTGTCGGCGATGATGTTGATGATCGCCGCCGGCATGTCGCTCTGGACAGCGGGCAGCCTGGGCAGCATCACCGCGATGGCCGGCGCCGATGTCGCCATCGGCCTTTACGAACGCTGGGCCGCCAAGCGGCTGGGTGTAGCAGAGGCACCGCCGGCCGGTGGCGGGCAGGGATGA	MTNEQQALAEMPIWLVILLALVGGVSGEMWRADKDGARGWALLRRLALRSGACVVCGVSAMMLMIAAGMSLWTAGSLGSITAMAGADVAIGLYERWAAKRLGVAEAPPAGGGQG				NA	NA	NA	NA	NA
D1-35_01872	129			hypothetical protein	ATGATTTTGACGCCGGGGACCCTGCCGTTTTCCCTGGGGTACGGGGTCGCAAACCCGCGGGAAAGCGTTAGCGGCAGGGTTGCCAGCTTACTGAAATTCAAGCCATTGAAATTGAAAGGTCTGCATTGA	MILTPGTLPFSLGYGVANPRESVSGRVASLLKFKPLKLKGLH				NA	NA	NA	NA	NA
D1-35_01873	603			hypothetical protein	ATGACAGAACCACAGTACCTGTCGAAGAGCGCCTTCGCGGCCCGGATCGGCAGGGCGCCGAGTTACATCACCTGGTTGAAAAACAACAACCGGCTGGTGCTCAGTGCCGACGGCAAACAAGTTGATGTTCAGGCCAGCGAAGCGTTGATTCGCGACACTGCCGACCCGAGCAAAGCCGCCGTCGCCGAGCGTCACCAGCAGGACCGGATTCAGCGTGACGTGTACGGCCAGCTTTCAACCTCGGTTGAGCCGACTTGCACGGCTGCGCCGCCGCCCGCGAACACCCCTGCGGGGCAGCTCCCCGATTTCCAGAAAGCCCGCGCTCTGCGCGAGCACAACTTGGCCCAGCTCGCGGAAATCGAGCTGCACAAAGCCAAGGGATCGCTAGTCGCATTACCCGCTGTGAAATTGGGTGCCTACAACGCTGGCCGCCTCCTGCGCGATCAGCTGTTCGGCATGCCGCCACAGCTGGCGCCGGAGCTGGCGGTCATGACTGACCCCTGGGAAATCGAAAAGCACCTGACGGCGGCCTTGCGCCGCACGCTGGAGGACGCGGAGCGCTTGTCCTCGGCGGACCTTGAACACGCCCTGAACACGAGTTGA	MTEPQYLSKSAFAARIGRAPSYITWLKNNNRLVLSADGKQVDVQASEALIRDTADPSKAAVAERHQQDRIQRDVYGQLSTSVEPTCTAAPPPANTPAGQLPDFQKARALREHNLAQLAEIELHKAKGSLVALPAVKLGAYNAGRLLRDQLFGMPPQLAPELAVMTDPWEIEKHLTAALRRTLEDAERLSSADLEHALNTS				NA	NA	NA	NA	NA
D1-35_01874	2013			hypothetical protein	ATGCCCACGGAAATTCCTGACGGTGCAGAGGTGTACCGCGAGGCGTATTTCCGTGGGCTGCGTCCCGACCCGGATGTCTGGATCGATGTATGGGCCGACGAATACATGCGCATCCCGCGTGACACCGGTGCCGCCGAGCCCGGCCAGTACCGCACTTCGCGCACGCCGTATGCCCGCGAACCCATGCGTTGCTTGTCACCGGCTCACCCCTGCAAACGCGTGGTGACCATGGTCGCCTCGCAGTTGATGAAAACCCAGATCGCCTTGAACTGGATCGGCGGCCTGATCCACATGGCGCCGTCGAACATTCTGACGTTGCTGCCGAGCCTGGGCTTGGCGAAGCGGGTCTCCTCGCGGATTGGCAAGACCATCAAGGCTACGCCGGTACTGCGTGAACGGGTGGCGTCCAGCCGCTCGCGAGACTCACGCAACACCATGGACACCAAGGAGTTCGAAGGCGGTTCGCTGTACGTCACCACAGCCGGCTCGGCGGCCAACCTTTCGGAGTTATCGGCGCGCTACGTCTACGGCGACGAGATCGACCGCTGGGAAGTGGACATCGGCGAGGAGGGTGACCCCATCGAGCTGGCGGAAACGCGGGGTAGTACGTTCGGTCGCAATGCGAAGTTCTACTTCTCCAGTTCGCCAACCATCAAAGGTGCCTCGCGGATCTCCGACCTGTTCGAGGGCAGCGACCAGCGTCACTACTACGTGCCGTGCCCCACCTGCGGCCACATGCAGACTCTGGAATGGGAAAGCTTGCACTACTCGCGGGACTTCAGCGTGGTGCACTACCAGTGCGCAGGCCCTGATTGTGACGTGCTGATCGAGGAGTACCACAAGGCCGAGATGCTCGCCAAAGGCGAATGGCGCGCCCATGCCGAGGGTGACGGCGAGACGGTAGGGTTTACCCTCAACGCCTTGTATTCACCGCTCGGCTGGATGGACTGGAAATCCCTCGCCAAGCAGTTCGAAAAGGCTAAAAAAGCCCAGGCCAAGGGCGACCTTGAACCGATGCAGGTGTTCTATAACACCCGTTTGGCGAAGGTGTGGGACAGCGCCCAGGAGCAAACCAAGGCCGATACCCTGAAGCACCGGGCACGCCTGGAAAACTTCACCCTCGGCTCGATGCCGGCCGGCGTGCTCATGGTCACCGGCGCCGTTGACGTCCAGGCCAACCGCCTAGAGTTCATGGCGATGGGCTGGGGCGTCGGCATGGAGCGCTGGGTCATTGACTACCAGATCGTCGCGGGCGACCCGGCTGACGACCGCACCTGGGCGGCGCTGGACGAGTTGCTCAAGGCCAAGTATCGGCATCCATGCGGTGTTGGCCTGGGCATCCTGGCAACGGCTGTCGACTCCGGCGGTCATCACACCGACGAGGTTTATCAGTTCTGCCGCGTGCGCCGCTGGCGAAACGTGTTCGCCATCAAGGGCGCGAGCAAGCCCGGCAAGCCGGTGATTGCCCAGCGGCCGTCCATGGTGGATGTGACCTGGAAAGGCCAGACAGAACGCAACGGCGCCGAGCTGTGGTTTGTCGGTACCGACACGGCGAAAGACTGGATCTACAACCGCTACCCATTCGAGTCCGGCCCGGGCGCGTTGCACTTTGCCAGCGACTTGCCGGACGACTTCTTCGCGCAGTGCGTGGCCGAACGTAAGGTCGCCCGATATGTGCGTGGTCACAAACGCATCGAATGGGTCAAGGGCAAGGCTGAGCGCAACGAGGCCCTCGACCTGATGGTGTACTGCCTTGCCATGGCGCATTACCTGGGCATCAACCGCTACAAGGAGCACGACTGGGAGCGGGTCCGTCAGGCCTTGGCGCAGTCTGGGTTGTTCGATGACGCGTTGGGCATCAAGCCCGTGCAGGGCGAACGAGTCACTCAGCCGGTTCCGGCGGCCTTGTCACAACCAACACCGCAACCCGTCGCCCAAGCGGCTCAACCACGATCCGCTACGCCACCCCCTCAACGCCGCAGTTCCACTAGCGGCTATCTGAAGAGACGCTGA	MPTEIPDGAEVYREAYFRGLRPDPDVWIDVWADEYMRIPRDTGAAEPGQYRTSRTPYAREPMRCLSPAHPCKRVVTMVASQLMKTQIALNWIGGLIHMAPSNILTLLPSLGLAKRVSSRIGKTIKATPVLRERVASSRSRDSRNTMDTKEFEGGSLYVTTAGSAANLSELSARYVYGDEIDRWEVDIGEEGDPIELAETRGSTFGRNAKFYFSSSPTIKGASRISDLFEGSDQRHYYVPCPTCGHMQTLEWESLHYSRDFSVVHYQCAGPDCDVLIEEYHKAEMLAKGEWRAHAEGDGETVGFTLNALYSPLGWMDWKSLAKQFEKAKKAQAKGDLEPMQVFYNTRLAKVWDSAQEQTKADTLKHRARLENFTLGSMPAGVLMVTGAVDVQANRLEFMAMGWGVGMERWVIDYQIVAGDPADDRTWAALDELLKAKYRHPCGVGLGILATAVDSGGHHTDEVYQFCRVRRWRNVFAIKGASKPGKPVIAQRPSMVDVTWKGQTERNGAELWFVGTDTAKDWIYNRYPFESGPGALHFASDLPDDFFAQCVAERKVARYVRGHKRIEWVKGKAERNEALDLMVYCLAMAHYLGINRYKEHDWERVRQALAQSGLFDDALGIKPVQGERVTQPVPAALSQPTPQPVAQAAQPRSATPPPQRRSSTSGYLKRR				NA	NA	NA	NA	NA
D1-35_01875	207			hypothetical protein	ATGTCCTTTACACAAAAGCACCTCGACGCGGTTGAGGCGGCCATCGCTCGCGGTGAGAAAGTCGTGCGCTACACCGACCGCACCGTGGAGTACCGCACCGTCGACGAGCTGATCAAGGCCCGCGACGAGATCCGCACCTCTCTGGTCAACTCGGCCGGGCCGCGCTCCCGCGTAGTCCGACTTTATCATGGAGGCAAAGGAGTCTGA	MSFTQKHLDAVEAAIARGEKVVRYTDRTVEYRTVDELIKARDEIRTSLVNSAGPRSRVVRLYHGGKGV				NA	NA	NA	NA	NA
D1-35_01876	1482			hypothetical protein	ATGGCCCGACACTATCCGACGCTCAGCCGTAGCGGATTCTTGTTGCCGTCGAACATCAAGGCCAGTTACGAAGGCGCCGGAGAGGGTCGCCGATCCACTGGCTGGGATGCGCCCGACAACGGAATCAACAGCATCAACACACCGGCACTGCGCAACCTGCGCGGCCGGTCGCGGGCAGCGGTACGCAACGACCCGTATGCCTTCAACGTCATCGACAAACGCGTCAGCAACTTGATCGGCACGGGCATCACGCCCAGGCCGAACACCGAAGACAACGCGCTTCGCAAGCTGCTGCAGCTGCTATGGGATGACTGGGTGGACGAGTCGGACGCCGATGAGCACACCGACTTCTATGGGCAGCAGGCGCTGGTCGCTCGCACCGTCGAGACTTCCGGCGAATGCTTTGTCCGCTTACGACCACGCCGCCTGGATGAGGGGCTGGCGGTACCACTCCAGGTGCAGATCCTCGCGCCGGAGTTCGTACCCCACGATAAATTCGAGACCACGCGCACCGGCAACGCCATTCGTGCTGGCATTGAGTTCAATCCGGAGGGCAAGCGGGTGGCCTACTGGATGTACCTGTCGCACCCCCGCGACGGCGTATCGCTGAACGCGGGTTATAACCAGTTGGTGCGGGTACCGGCATCGCAGGTGCTGCATGTCTTCGAACCGGTAGAGCCGGGGCAATTGCGCGGTGTACCGCGCCTGTCTCCCGTACTCAAGCGCCTGCGTAGCCTGGATAACTATGACGACGCGGTGCTGTTCAGGCAGGAAGTAGCAAACCTCTTCGCCGGCTTCATCAGCCGCCCGGCGCCGGACTCTGGCCCCGTGCCAAGGGATCCCGTCACCGGTGAGCCGCTGAGCTTTGACCGTGACGGATTCACGCCCATGGTCGCGCTGGAGCCCGGCACCATGCAGGAGTTGGGGCCGGGTGAGGAGGTTGAGTTCTCCAAACCGCCGGACGCCGGCAACAACTACCCCGACTTCATGCGCCAACAACTGATGGCCGCAGCTGCGGGTACCGGCACGCCATACGAGATCCTCACCGGTGATATGCGCGAAGTGAATGACCGGGCGTTGCGCGTCGTGTTGAACGAGTTCCGGCGCCGTTTGGAACAACTGCAATTCGGCGTGTATGTGCATCAGCTCTGCCGCCCGATCCGTGCTGCCTGGATGGACATGGCGGTCCTGTCCGGTGCCTTGGTGTTGGACGACTACGCCAAACGGCGCCGCGAATACCTGCGCACACGCTGGGTGCCGCAAGGCTGGGCCTACATCCAGCCTGTTCAGGACGTGCAGGCCCGCCGCATGGAAGTGCAAGCTGGCTTCGCCTCACGCAGCGAAATGGTCACCCGTACCGGTTATGACGCCGAAACCGTCGACGCGGAAAACGCTGCCGACAACGCAAGGGCCCAAGCGCTGGGCCTCAACTACAACACGCACGAAGCCGTCGAGGTTACTGACGACAAGGAGCAACCATGA	MARHYPTLSRSGFLLPSNIKASYEGAGEGRRSTGWDAPDNGINSINTPALRNLRGRSRAAVRNDPYAFNVIDKRVSNLIGTGITPRPNTEDNALRKLLQLLWDDWVDESDADEHTDFYGQQALVARTVETSGECFVRLRPRRLDEGLAVPLQVQILAPEFVPHDKFETTRTGNAIRAGIEFNPEGKRVAYWMYLSHPRDGVSLNAGYNQLVRVPASQVLHVFEPVEPGQLRGVPRLSPVLKRLRSLDNYDDAVLFRQEVANLFAGFISRPAPDSGPVPRDPVTGEPLSFDRDGFTPMVALEPGTMQELGPGEEVEFSKPPDAGNNYPDFMRQQLMAAAAGTGTPYEILTGDMREVNDRALRVVLNEFRRRLEQLQFGVYVHQLCRPIRAAWMDMAVLSGALVLDDYAKRRREYLRTRWVPQGWAYIQPVQDVQARRMEVQAGFASRSEMVTRTGYDAETVDAENAADNARAQALGLNYNTHEAVEVTDDKEQP				NA	NA	NA	NA	NA
D1-35_01877	1161	clpP_2		ATP-dependent Clp protease proteolytic subunit	ATGAGCAAACCAGCGCTTCCGCGCATTTACAACAGAGCCGGCCAGCGGGTGAAGGTCCAGGACAAGACCTGGTACGCCATGCAAGAGAGCGGCGATGCCGAAGAGCGGGTTATCGAGGTGTTCGTCTACGGCGAGATCGGCACCTGGGGCATCACCGCCAATCAGTTCGTGCAGGATCTGCGCGCCATGGATGACGGCGTATCGCCGGTTATCGCGGCATTCAACAGCATCGGCGGCGACCTGTTCGACGGGCTGGCGATGCACAACGCGCTGTCTCGCCTGGGCGAGCGTTGCACCGGCCGTGTCGATGCGCTGGCAGCCAGCGCGGCCAGTGTCGCGGTATGCGGGGCGCACCGTGTGGTCATCGCCTCCAACGCGATGCTGATGATCCACAACCCGTGGACCTACGCGGCGGGGGACGCCGAAGACTTTCGCAAGGTAGCCGACGTCCTGGATCAAACCATGGAGGCCATTATCGCGGCCTATAAGGCCAAGGCGCCGGATATCGACGAAGCCGAGCTTCGGCGTCTGGTGGCGGCTGAAACCTGGCTGACCGCCAACGAAGCGGTGGCCCTGGGGCTGGCCGATGAGGTGGGCGACGGGGTGAAGGTCAAGGCGTGTCTGGGGCAGGGCGCCGTGCTGCAGCGTTACCAGCATGCCCCGGCTGAATTGCTTGCCCAACTGGACGAGCCACCTGAACCGGATATCGAGCAGGAGCCTGAACCTACTGATCCGCTCCAGGATCCTCCTGTGGCGAACTCGGCCAAGCTGGCCCTGATGATCACCCAGCGTTGTACGGCGGACGGCATCAGCAACCTGATTGAGCCGCTGCTCAACTCGACCAAGCTGGAAAGCGAGGCCATCGTCCTGGCAGGCTTGGCCCGTGCCAAAGCCGTAAACGATCTCTGCGTTGCCGCACGACTGCCTGAGTTCAGCGCCGAATACGTCGCGGCCGGTTTGGATGCCGCCTCGGTTCGAGCGCGTCTGTTCGACAAACTGGTGGGCAGCGGCAAAGGCTTCGAGATCGATAACAGCCTACCGCTCAATGCAGATCCGGCCCCGAAGGTTCAGGCCAAACAACCCGACCCCACCTCTATCTGGGCAGCCCGTCAGGCGGCGCAGTCAGGTACCGCTAATACCTCGAAAGGAGCAAGACCATGA	MSKPALPRIYNRAGQRVKVQDKTWYAMQESGDAEERVIEVFVYGEIGTWGITANQFVQDLRAMDDGVSPVIAAFNSIGGDLFDGLAMHNALSRLGERCTGRVDALAASAASVAVCGAHRVVIASNAMLMIHNPWTYAAGDAEDFRKVADVLDQTMEAIIAAYKAKAPDIDEAELRRLVAAETWLTANEAVALGLADEVGDGVKVKACLGQGAVLQRYQHAPAELLAQLDEPPEPDIEQEPEPTDPLQDPPVANSAKLALMITQRCTADGISNLIEPLLNSTKLESEAIVLAGLARAKAVNDLCVAARLPEFSAEYVAAGLDAASVRARLFDKLVGSGKGFEIDNSLPLNADPAPKVQAKQPDPTSIWAARQAAQSGTANTSKGARP				NA	NA	NA	NA	NA
D1-35_01878	345			hypothetical protein	ATGACCATCAAACTGGAACCGATGCACGCCGGAGAATTCCTCCTGTCCGAGGGGGCCGGGAACATCTCGCGTGAAGCGATCAATGTCGCGGCAGGCCCAGCCTTGAATCCAGGGCAAGTACTCGGGCTGATCACTGCCACTGGCGAGTTCGCCCCTTACGACCCGACAGCTGAAGACGGCACGCAAACCGCCGTGGCGATCCTCTTCGGCCCGCTTGGCGAATCCGACGTGGTACGTCGAGCCCGCGCCGTGGTGCGTCTTGCGGAGGTGAGCGAAGTCCATCTGACCGGACTCGACCCCGACGCGGAAAAAGCCCTCGCCGCGCATTTTCTGATCGTTCGTTAA	MTIKLEPMHAGEFLLSEGAGNISREAINVAAGPALNPGQVLGLITATGEFAPYDPTAEDGTQTAVAILFGPLGESDVVRRARAVVRLAEVSEVHLTGLDPDAEKALAAHFLIVR				NA	NA	NA	NA	NA
D1-35_01879	210			hypothetical protein	ATGCCAGACCACAACGAAGCCCTAGCCAGCGCCCTGGAGCTGTTGCTGATCAATCAGAACGCCATCGGCGCTGCTGTTGAAGAACTTTCCAAGTGGGTCGCTGAGCGAGGCTCATCGGACGTTGCGGACAACGTCACGACTGCCTTAGAAACACTGGACCTCAATGCCGATGGGATTGGCAATGCAATTCGAGTCCTGCGTCAGGGATAG	MPDHNEALASALELLLINQNAIGAAVEELSKWVAERGSSDVADNVTTALETLDLNADGIGNAIRVLRQG				NA	NA	NA	NA	NA
D1-35_01880	996			hypothetical protein	ATGGCCGATATCGCCATTTTTGACGACGAAGCGTTTGCCGTACCGGCGCTCACCGCCGCAATCAACGAACAACCCTATCTGCCGGGCCGTATCAGCAGCCTCGGCCTGTTTCAAGAAGAGGGCGTTGCTACCCTGACAGTGCAAATCGAGAAGGATGGCGACACCCTGGCCCTTGTGCCTGCAGGTGAGCGCGGAACTTCAGGTCTGGTCGTCGGTGCCAGCAAACGCAAGATGATCCCTTTCAACACCGTGCACCTGCCGGAACGTTTCACCATCAAGGCCGACGAGATCCAGGGCATCCGGGCGTTCGGCACCCGCACCGAGTTGCAAGCGGTACAGGACGTCGTGAATACCCGGCTGGCAAAAGCGCGCCGCCAGTTGGACGCGACGCACGAGTTTCAACGCATGGGCGCACTCAACGGCTTGGTGCTGGATGCCGACGGTAAGACACCACTGCTCGATCTCTACGCCGCCTTCGGAGTGTCTCGACAAAAACTGTCCATGGGGCTGAATGACCCGAGTACCGAACTGCGCGTTATGTGCGGGGAGGCGCTGGACATGCAGGAGGACGCGCTGGGTAGCGTCACCAGCACCGGCTCCCGCGCCTTCTGTGGCAAGAATTTCTGGAACAAGCTGATCGTTCACAAGTCGGTCAAGGAAACCTACATCGCCACGCAGCAAGCGGCGGCATTGCGCGGTGACGCTCGGGAGAGTTTCGAGTTCGGCGGCATCGTCTGGGAGCGCTACCGTGGCAAGGTGGCCGGTGTGGCCTTCGTCCATGATGACAAGGCGCTGCTGGTCCCTGAAGGCGTGCCGGACCTGTACATCTCGGTGTTCGCTCCAGCGGATTACATGGAAACGGTTAATACCCAGGGCATTCCGTACTACAGCAAGCTGGAGCCGTTGCCGTTCAACAAGGGGGTGGCCGGCGAAGCGCAATCCAACCCGCTGCACCTGTGCTCACGGCCCCGTGCGCAGATCCTGCTGGAACTCTAA	MADIAIFDDEAFAVPALTAAINEQPYLPGRISSLGLFQEEGVATLTVQIEKDGDTLALVPAGERGTSGLVVGASKRKMIPFNTVHLPERFTIKADEIQGIRAFGTRTELQAVQDVVNTRLAKARRQLDATHEFQRMGALNGLVLDADGKTPLLDLYAAFGVSRQKLSMGLNDPSTELRVMCGEALDMQEDALGSVTSTGSRAFCGKNFWNKLIVHKSVKETYIATQQAAALRGDARESFEFGGIVWERYRGKVAGVAFVHDDKALLVPEGVPDLYISVFAPADYMETVNTQGIPYYSKLEPLPFNKGVAGEAQSNPLHLCSRPRAQILLEL				NA	NA	NA	NA	NA
D1-35_01881	315			hypothetical protein	ATGAGCTTTCGCGAGCTGGTCGGTGACCTGGACCACACGGTATTTGATGTCCTCGGCGACTCGGTGCTGATCGAAGGCCGACCAGTCCTGGGCATGTTCTCCGCTCCCTGGTTGCAACCCAAACTCGGCCGGATTAACACCGGCCTTCGCGAGCCGCACCTGGTCATCCGCGTGGCGGACGCTGAAGGGATCAGTGAGCGGCACCAGGTCGTGGTCGACCTGCCGGTGCATGACGGCGGTGGCAACTACATCGTCGTCAGGCTGGAGCCCGGCGGCGATGGCTTGGTAACTCTGGTGTTGAGGAAATCCCCATGA	MSFRELVGDLDHTVFDVLGDSVLIEGRPVLGMFSAPWLQPKLGRINTGLREPHLVIRVADAEGISERHQVVVDLPVHDGGGNYIVVRLEPGGDGLVTLVLRKSP				NA	NA	NA	NA	NA
D1-35_01882	663			hypothetical protein	ATGAGTGTCGGCAGCTATGTCAAGCAGTCAGCCAGCAGCGGCATGATCACGTTGCAGGCTGATCGGTCGGATCTGAAAGCGTTTGCGGACTTCGCTGCGCTGGTACCCAAGGCTTCCTTAGCTGCACAGCGCCGGGCCATCAACAAAACGTTGCGGTGGCTGCGAACTCACATTGCCCGCACCGTCAGCCGGCAGGAGCGCATTGCAGTGGCTGCGGTACGGCAGCGCCTGAGGGCCTACCCGCTTTCTGGAAACGGTCAGGGCAAGCTGTGGTTCGGTATCAATGCGATTGAGGCCAGCCGTGCGGGTCGACCTCGACAATCACGGTCGGGTGTTTCGGTAGCAGGCCGTCGATATGGGGGAGCGTTTTTCAAGAAGGTCTACGGCAGTCGGCCCGATATCTGGATCCGAACCGCGAGCAAGCACTTCAAGGCCAGCGACTACCCCGACAGTGAGGTGTCTGGCGGTGGTGGGGCAAGCTCAGGCTGGGTCTCGGAGAACGATAGCCGCTTTCCGCTCGCCAAGGCCAAGATATCCCTGGAAGACGTCCGGCCGCACTTCGAGTCCTGGACCAATCGGGCTCACCAGCGCCTGCTTGAGATCCTGGAGCAGGAGCTGAACTTTGAACTGCAGAAGTATCTGCGAGGATCGGCCCGTGTCTGA	MSVGSYVKQSASSGMITLQADRSDLKAFADFAALVPKASLAAQRRAINKTLRWLRTHIARTVSRQERIAVAAVRQRLRAYPLSGNGQGKLWFGINAIEASRAGRPRQSRSGVSVAGRRYGGAFFKKVYGSRPDIWIRTASKHFKASDYPDSEVSGGGGASSGWVSENDSRFPLAKAKISLEDVRPHFESWTNRAHQRLLEILEQELNFELQKYLRGSARV				NA	NA	NA	NA	NA
D1-35_01883	525			hypothetical protein	GTGTCTGACTTCAGTCTTGAACTTTTGTATCAGGCCGTTGAGGCTCATATCGACCAAGCGATCCCAGGATTGGCCTGCGTGCGGACCATGCCCTATATGGCCGATCACATCGACTTGCCTGCTGCGGTGATTGAGTTGGTCGAGCTGGAGCCCGGCCGAGATCCCGGAACAGGGGAGACGGCGCTGGTTGCGCGTTTGGAGGTGCGCTTCATCGTTGGCGGTGAGGATGCCGAGTGCCAACAGAAAGCGGCATTCGCCGCCGCACAAATGGCCGTGCTGTTGCGTATCCAGACATGGGGGCTGGAGGTCGAGCCCGCCGAGTTTGTTCGGGCAGCCCAAGACTGGACCCGCCCCGAGTTGGATGGTTACGCGGTCTGGGTCGTTGAATGGACGCAGACAATTTACCTCGGTCAGGAGGAGTGGCCGTGGCCGAATCAACCGCCGGGTTCCTTGCTCTGGGGTTTCAGCCCTGACACGGGACCTGGTAGCGAAGGTAACTATCAGACACCGGAGGATATGGCATGA	MSDFSLELLYQAVEAHIDQAIPGLACVRTMPYMADHIDLPAAVIELVELEPGRDPGTGETALVARLEVRFIVGGEDAECQQKAAFAAAQMAVLLRIQTWGLEVEPAEFVRAAQDWTRPELDGYAVWVVEWTQTIYLGQEEWPWPNQPPGSLLWGFSPDTGPGSEGNYQTPEDMA				NA	NA	NA	NA	NA
D1-35_01884	564			hypothetical protein	ATGAGCTACCCCAGTGCGCAGCATGACCGCATGCTGGCCGGCCTGGTCAAGGATTGTTATGTGGTCGCGCTGGATCTGACCGCTTCGCCACCCGCATGTCGGGTGTCGGATGGGGACTGGGTCAGTGCCTGGGTGCGTTGGCACAGCATCGCCGCCGGCAAAGCCCGTCATTGGCGAGCCCCCAGCATGGGCGAGCAGGGAACTCTGGTAAGTGCCAGCGGCGATGTGGCGCAGGGCACATTTATCCCCGGCCTCTATGGCGATGCCGGGGCACCGCCGGACAACCGCGACCACGTCGAGGTATGGCGTTTCGAGGATGGGGGCTCGCTGGTCTATGACTGGCAGGCCGGCACCTACACCATCACCGTGCCAAGCGGTACCGTGACGATCAAAGTCGGCGGAACCGAAGTGGTCGTAACGGACAGCGAGATCAACGCCACGGCAGGCGATATCACCCTGACGGGCAATGTGCTGATCAACGGCCCGTTGCAGGTCACGGGCGATATCAACGGCGGCGGAAAAATCATCGATACCGGTGGCAACACGCCGAACCACAAACACTGA	MSYPSAQHDRMLAGLVKDCYVVALDLTASPPACRVSDGDWVSAWVRWHSIAAGKARHWRAPSMGEQGTLVSASGDVAQGTFIPGLYGDAGAPPDNRDHVEVWRFEDGGSLVYDWQAGTYTITVPSGTVTIKVGGTEVVVTDSEINATAGDITLTGNVLINGPLQVTGDINGGGKIIDTGGNTPNHKH				NA	NA	NA	NA	NA
D1-35_01885	249			hypothetical protein	ATGAGCAAAACGCGAACAGACACCGAGCGGCCAACTGCCGTCGCGGCGGTGCCTGAGCCCTTCCAAACCGAGTCGTCGGCCCCCATCGGAGCGGCACGAGTGTTTCGTGACACCCGATACACCTCACGCACGCTGATCATGCCGGACGGCAGCAGCTTGCCGATCATCGCCGGCCAGGTCACAGCCTGCGGCGATGATCAATACGCCTTTCTCAAGGCCCACCCGGATATGCAACAGCTGACGGAGTAA	MSKTRTDTERPTAVAAVPEPFQTESSAPIGAARVFRDTRYTSRTLIMPDGSSLPIIAGQVTACGDDQYAFLKAHPDMQQLTE				NA	NA	NA	NA	NA
D1-35_01886	327			hypothetical protein	ATGATCGGAGTGGACCGTCGCACGGGGCAGCCGCTGTCCGGGCAGGCGCATTTGCGGCAGTCTATTGAGGACATTCTGAGCACGCCTGTCGGCAGCCGCCGCATGCGGCCAGAGTACGGCAGCCAAATGCGTCGCTATGTCGACCTGCCAGTTAATGAGGGCTGGAAAAGCGCGGTACAGGCTGAAGTCGCTCGTGCCCTCGGGCGCTGGGAGCCCCGTTTGAAACTTGAACGTGTCCGGGTCATTGCGGTGGTGGATGGACAAATCACCTTGCAACTGACGGGCTCTTACATTGGCGATGGCGTGGTGCTGGAGGTGAACGCATGA	MIGVDRRTGQPLSGQAHLRQSIEDILSTPVGSRRMRPEYGSQMRRYVDLPVNEGWKSAVQAEVARALGRWEPRLKLERVRVIAVVDGQITLQLTGSYIGDGVVLEVNA				NA	NA	NA	NA	NA
D1-35_01887	885			hypothetical protein	ATGAGCACTATCGACCTTTCGGCGTTGCCGGCACCACAGGTGCTGGAGAGTCTGGATTTTGAAGAGTTGTATCAGGGCGAGCTGGCGACGTTCCGCGACTACATGGGCGATAACTGGACCGCTTTCCTTGAAAGCGATCCGGTGACCAAGCTGCTGGAGCTGGGCGCCTATCGACGCATGCAGAATCGGGCGAGGGTCAACGACGCGGCCAAGGCACTGTTTCTGGCTCATGCCACTGGTGCTGACCTGGTGCAGTTGGCCGCGAACGTGAACCTTGAACGGCTGGTCATTCAGGCCGAGGACCTGTCCGCCGTGCCGCCGGTGTCGGCGGTGCTGGAAAGCTACGACGCACTGCGCGAGCGCATCCAATTGAGGTACGAAGGGCTGACCACTGCTGGGCCTCGGAACAGTTACATCCTGCACGCCCGTAACGCCTCGGGCCTGGTGGCAGACGCCACGGCCGAAAGCCCGGCGCCGGCCGAGGTGGTCGTGACGGTACTGTCCCTGGAGGGCGATGGTACGGCCAGCCCCGAGTTGTTGGCCGAGGTGGCCACTCACCTCAACGACGAAGATCGGCGGCCTGTTGCTGATCGGCTGACGGTGCAGGGCGCCGAGATCCTGCCTTATCGAATCGATGCCGTGGTGTACATGGCCGGTAATGGCCCGGAAAACGAGGCAGCGCTGGCCGAATGCAATGCGCGATTGCAGGCCTGGATCAACCCCCGGCGCCGCTTAGGCGTTGAGGTGGCCCGTTCGGCGATTGATGCACAAATCCACGTCAGTGGCGTGGCCCGGGTCGAGATCCCTGGATGGATGGACATCCGCCCAACCAAAGCCCAAGCGGCGTGGTGCACGGGGTTCACCATAACGCGGGGTAGCAAATGA	MSTIDLSALPAPQVLESLDFEELYQGELATFRDYMGDNWTAFLESDPVTKLLELGAYRRMQNRARVNDAAKALFLAHATGADLVQLAANVNLERLVIQAEDLSAVPPVSAVLESYDALRERIQLRYEGLTTAGPRNSYILHARNASGLVADATAESPAPAEVVVTVLSLEGDGTASPELLAEVATHLNDEDRRPVADRLTVQGAEILPYRIDAVVYMAGNGPENEAALAECNARLQAWINPRRRLGVEVARSAIDAQIHVSGVARVEIPGWMDIRPTKAQAAWCTGFTITRGSK				NA	NA	NA	NA	NA
D1-35_01888	609			hypothetical protein	ATGAAAAGTCTGCTTCCCCTCAACAGCACGCAGCTCGAACGGGCAATTGAAGCGGCTATCGACGAAACAACAGAGATACCGCTTCGAACCTTATACAACCCGGACACCTGCCCGGCGCACCTGCTTTACCAACTGGCTTGGGCCTGGTCCGTGGACCGCTGGGACGAGGCATGGCCCGAAGAGATCAAGCGTTCGGTGATTCGCTCTTCGTTCTACGTTCATGCCCATAAGGGAACCATTGGCGCCCTGCGCCGGGTGGTGGAACCGTTCGGTTATCTGATCGAGGTCGTCGAGTGGTTCCAGACAGAGCCCAAGGGCGTGCCGGGAACGTTCGCGTTGAAGATCGGTGTTTCCGATGGAGGCATCAGCGAAGAAACCTATCAGGAACTGACGTGGTTGATCGATGACGCTCGGCCGGTCAGTCGCCACATGACAGGGCTGGCGATCAGCCTCGAAACCACAGGCCATTTGAACATCGGCGTTGCCTTGTATGAAGGCGACGAAATCGACGTGTACCCGCCGGTCATGCGTGACATTGAAGTTACGGGCCGTTTTGGTGTGGTGGGACGCGAACACTCCATAGACACCTTGGACGTTTATTATGATTGA	MKSLLPLNSTQLERAIEAAIDETTEIPLRTLYNPDTCPAHLLYQLAWAWSVDRWDEAWPEEIKRSVIRSSFYVHAHKGTIGALRRVVEPFGYLIEVVEWFQTEPKGVPGTFALKIGVSDGGISEETYQELTWLIDDARPVSRHMTGLAISLETTGHLNIGVALYEGDEIDVYPPVMRDIEVTGRFGVVGREHSIDTLDVYYD				NA	NA	NA	NA	NA
D1-35_01889	2166			hypothetical protein	ATGATTGATGTGAACTCGCAATTTTTCGCGATCCTCACGAACGTGGGTATGGCAAAACAAGCGAACGCCGACGCCCTCGGTATTCCCTGGAAAATCACTGAAATGGGGGTGGGGGATGCCAATGGTACTGACCCTATCCCCAATGCAGCTCAAACCAAACTCATCAACGAATGGCGCCGTAGGCCACTGAATCAACTTAAAGTTGATCCTGTCAACCCGGCGGTCATCATTGCCGAGCAGATCATCCCGGCTGATGAGGGTGGCAAGTGGATTCGCGAAATCGGTCTGTATGACGCGGACGGGGATCTGGTGGCGGTGGCGAATTGCGCGCCGAGCTTCAAGCCGGTGCTGTCGCAGGGATCGGGCCGTACGCAAGTGGTGCGGATGAATTTGATCGTTTCCAGCACCGCCAACATCTCGCTCAAAATAGACCCTGCAGTGGTGCTGGCCACACGTGAGTACGTCGATACAAGAATCTTTGAAGAATTGTGCAAGCTGGACACCAAACAATCGGTGCGGGTTGCCACCACGGCGAACATCACGCTGGCGGGGTTGCAGACGATTGATTCGGTAGTCTTGCTCGACGGCGACCGTGTGCTGGTAAAAAACCAGGCTGCTGCTAAGGACAATGGCCTTTATGTCGCAGCCACGGGAGCGTGGTCGCGCTCACTTGATGCTGACAGCAGCGTTGAAGTGACCTCTGCGCTGTTGGTCTCGGTTGAGCAGGGCGCTTCGCAGGCGGATACACGCTGGCAGCTAGTGACGGATGGGGCAATCGTCCTGGGTACAACGCCGTTGGTTTTCCAGAACGTCAATCATGGCTTGGCACCCATCAGTTCCCCTGCATTTACCGGTACGCCTACTGCCCCGACGGCGCCGGTGGGGACCAATACCAACCAGTTGGCAACGACGGCATTTATTCAGGCCGCCATAGCGGCACTGGTGGACTCGTCGCCAGGCACGTTGGATACGCTCAACGAGCTGGCTGCCGCGCTGGGCGACGACCCAAACTTTGCCACCACGGTCACCAACGCTTTAGCCACGAAAGCGCCGCTCAACGGTCCGGTTTTCACTGGCGAGCCACGAGCGCCTACCCCGGCGCCTGGGGATAGCGACACCTCCCTAGCGACCACCGCTTACGTTCAGCAGGCATTGAACGGCGGCAGCGTTCTCAACGTTGCAGGCTCGGGGAATATCGTGTTGACCGCCTCGCAACTAGGGGCCGGGTTGATTGTGTTAACCGGTGCTTTGACTGGCAACAGGGTGGTAATTGTTCCTACAGTGATCGGGCGTTATCAGTTCTGGAACGCCACGACCGGAAACTTCACGCTTACAGTAAAAACTGCGGCGGGGACCGGCGTCGGTATCAGTCAGGGCCAGTCGTCGCTCCTGTTCGGTGACGGCTCGAATATTTACCTTCAGCAATCTGATTTCATCAGTCCTGTACTCAGAGGAACGCCGACGGCGCCCAAAGCGCCGCGTTTCGATGTCAGTGATCAGGTGATGACGGCGGCAGCGGTACAGGCCCGAGGCCTTCAATATTCCGGCTTTGTTTCTCTCGGCGGCGCAGTGCCAGGTAACGTTTCGCATATCGGTGGGATTGTGCATTTTACCGGCGCGGGCTTTCCCTCCTACAGCCTGCCCGACTCCACCGCGAACAACATACTCCCAGGCGCGGTAATACGGCTTCACAACTGGTCCGTTTCAAACCTGGCGCTCGCCGTGCAAGGCGCAGACAAAGCGCAGGAAAACAATGACACCACCTCTTCTGCGGCTACCCGGTCGATTCCGCCGGACACTTACGTAGATTGCATATACATCGGATCCGGAGTTTGGATGTTGATGGGTACAGGGGTCGCTGGGAAAACCCGTCAGTTCGGCGCTCTGCTGGCCCCGAATGGTTACCAGCGATTGCCGTCTGGCTTGTTGATGCAGTGGATGACTGCAAACTTTGCTTCGGCGTTTAAGGGGGTCGTCTTCAATCTGCCAGCTGCTTTCCCTAACCAGTTTTTCGGGTGCAGCGTCAGTCTGACGGACAGCGCCATTTACGACAGTACCGGTCAGCCCTTCGTGGCTGGAATGCCCAACGGACTGGGTCAGGTTCTTTTGCAATCCAACTACACCGCCAGTCAGTCGGCTGTCCGGGTACTTGCGTTCGGTTATTAA	MIDVNSQFFAILTNVGMAKQANADALGIPWKITEMGVGDANGTDPIPNAAQTKLINEWRRRPLNQLKVDPVNPAVIIAEQIIPADEGGKWIREIGLYDADGDLVAVANCAPSFKPVLSQGSGRTQVVRMNLIVSSTANISLKIDPAVVLATREYVDTRIFEELCKLDTKQSVRVATTANITLAGLQTIDSVVLLDGDRVLVKNQAAAKDNGLYVAATGAWSRSLDADSSVEVTSALLVSVEQGASQADTRWQLVTDGAIVLGTTPLVFQNVNHGLAPISSPAFTGTPTAPTAPVGTNTNQLATTAFIQAAIAALVDSSPGTLDTLNELAAALGDDPNFATTVTNALATKAPLNGPVFTGEPRAPTPAPGDSDTSLATTAYVQQALNGGSVLNVAGSGNIVLTASQLGAGLIVLTGALTGNRVVIVPTVIGRYQFWNATTGNFTLTVKTAAGTGVGISQGQSSLLFGDGSNIYLQQSDFISPVLRGTPTAPKAPRFDVSDQVMTAAAVQARGLQYSGFVSLGGAVPGNVSHIGGIVHFTGAGFPSYSLPDSTANNILPGAVIRLHNWSVSNLALAVQGADKAQENNDTTSSAATRSIPPDTYVDCIYIGSGVWMLMGTGVAGKTRQFGALLAPNGYQRLPSGLLMQWMTANFASAFKGVVFNLPAAFPNQFFGCSVSLTDSAIYDSTGQPFVAGMPNGLGQVLLQSNYTASQSAVRVLAFGY				NA	NA	NA	NA	NA
D1-35_01890	426			hypothetical protein	ATGATTTATTCCAGCAAAACAACAAATCTCTTCTATGACTCGGACTGGGGCGCGGATCTGCCGGCAGACGCAACCGAAATATCGTTTGAGTTGCGCCAACACTTATTGGACGGGCAGACGCGGGGCTTGGCTATCAACTTCGATACCGAGCCGCCATCTCTCCTCGAGCGACCACCGTTGTCGTTGGAACAGTTGACCGAGATCGAACGCAGCTGGCGTGCGTCGCAATTGTCTGCGACTGACGGTGTGGTTGCGCGCCACCGGGACGAATCAGAAAGCGGTATGACTACCACACTTGCTGCTGAACAATACGTTGCATTGCAGGCCTATCGGCGCCAGTTGCGAGACTGGCCACAAGCGGGCCAGTTTCCACTGGCAGAACATCGCCCCATTGCCCCGGGCTGGCTCGCCGAACATACCCATTAA	MIYSSKTTNLFYDSDWGADLPADATEISFELRQHLLDGQTRGLAINFDTEPPSLLERPPLSLEQLTEIERSWRASQLSATDGVVARHRDESESGMTTTLAAEQYVALQAYRRQLRDWPQAGQFPLAEHRPIAPGWLAEHTH				NA	NA	NA	NA	NA
D1-35_01891	1164	gpFI_2		Putative prophage major tail sheath protein	ATGAGCTTCTTTCACGGCGTTACCACCACGAACGTCGACACCGGCGCTCGTGTCGTTGCGTTGCCTTCGTCCTCGATCATTGGACTGGTTGACACCTTTGTACCGGCGCCGGCCTACAGCGCGCAGCCGAACGACCTGGTGGTGATCACCAACGAACGCGAAGCGGTGGCCGCCTTCGGCCCCGACTCGGCAATGACCAAAGCCTGCAAGGCCATCTATACCCGAGCCAAGGCGGTGATCGTCGCCTGTGGTGTGGCCCAGTTGGCCGATCCGGCTGCACAGACCTCGGCGATCATCGGCGGCGTTCAGGCTGACGGTAAGCGTACCGGTCTGCAGGCGCTGCTGGACGGCAAGAGCCGGTTCAACGCGCAGCCGCGGCTGTTGGTCACTCCCAAGCACAGCGCGACACAGGCTGTCGGTACCGCCCTGGTGGCAGTGGCCGACAAGTTGCGAGGGCTCGCCATTCTCGACGGTCCAAACACCACCGATGAGGCGGTGATGGCCTACGCCGAGAACTTCGGCGCCAAGCGGGCGTACCTGGTTGATCCGGGTGTGCAGTATTGGGACACCACGGCGGACGCCACGGTCGACGCGCCGGGCTCGGCCTGGGTGGCGGGCTTGTTCGCCTGGACCGACAGCGAATACGGCTTTTGGGCTTCGCCTTCGAACAAGGAGTTTGTTGGTATCACTGGCACTACGCGGCCGATTGAGTTCCTGGACGGTGACGAAACCTGCCGGGCCAACCTGCTCAACAACGCCAACATCACCACGATCATCCGTGATGACGGCTTCCGCCTGTGGGGCAACCGCACCCTTTCGAGCGATCCGAAGTGGGCGTTCGTCACTCGCGTACGGACGATGGACATCGTCATGGACGCGATCCTCTACGGCCACAAATGGGCGGTCGACCGCTCCATCACAGCGACTTACATCAAGGACGTGACTGAAGGTCTGCAGGCGTTCATGCGCGACCTGAAAGCCCAAGGCGCAATCATCAACTTCGAGGTGTATGCCGACCCGGAGTTGAACACGGCCAGCCAGCTGGAGCAGGGCAAGGTGTATTGGAACATCCGCTTCACCGACGTTCCGCCGGCAGAAAACCCCAACTTCCGCGTAGAGGTCACCAACCAATGGCTGACCGAAGTGCTCGACACCGCCGCTTAA	MSFFHGVTTTNVDTGARVVALPSSSIIGLVDTFVPAPAYSAQPNDLVVITNEREAVAAFGPDSAMTKACKAIYTRAKAVIVACGVAQLADPAAQTSAIIGGVQADGKRTGLQALLDGKSRFNAQPRLLVTPKHSATQAVGTALVAVADKLRGLAILDGPNTTDEAVMAYAENFGAKRAYLVDPGVQYWDTTADATVDAPGSAWVAGLFAWTDSEYGFWASPSNKEFVGITGTTRPIEFLDGDETCRANLLNNANITTIIRDDGFRLWGNRTLSSDPKWAFVTRVRTMDIVMDAILYGHKWAVDRSITATYIKDVTEGLQAFMRDLKAQGAIINFEVYADPELNTASQLEQGKVYWNIRFTDVPPAENPNFRVEVTNQWLTEVLDTAA				NA	NA	NA	NA	NA
D1-35_01892	510			hypothetical protein	ATGGCAATGATTCCCGAAACCCTGGCGAACCTGAACTTGTTCGCCGACGGCGTCAGCTTCCAGGGCGATGTGCCGAGCCTGACGCTGCCCAAGCTCACGCTCAAGATGGAAGAGCATCGCGGCGGCGGTATGGATGCGCCGGTCGAGCTGGACATGGGCATGGAAAAACAGGAAGCGAACTTTACTACCACTGGCGTACGCCGTGAGTCGTTGAAGTTCTTCGGCTTGGCCGACGGCACGGCGTTCAACGGTACGTTCCGAGGGGCCTATAAAGGGCTCAAGGGCAAAGTCACGCCGGTCATCGTCACCCTGCGCGGCACGTTGAAAGAAGTCGACATGGGCGACTGGAAGCCGGGCGACAAGGCCGAGATCAAACACTCCATCGGGCTGACGTACTACAAGCTCGAAGTGGACGGCCGAACCGTCTACGAGATCGACCCCATCGGCATGCGCCGCGTGATTAATGGCGTTGATCAACTGGCCGCCCAGCGTTCCGCATTGGGCCTTTAA	MAMIPETLANLNLFADGVSFQGDVPSLTLPKLTLKMEEHRGGGMDAPVELDMGMEKQEANFTTTGVRRESLKFFGLADGTAFNGTFRGAYKGLKGKVTPVIVTLRGTLKEVDMGDWKPGDKAEIKHSIGLTYYKLEVDGRTVYEIDPIGMRRVINGVDQLAAQRSALGL				NA	NA	NA	NA	NA
D1-35_01893	327			hypothetical protein	ATGAGCAGTACCGCAACTCCAAGCTGGATGACCCTGACCGTTGACCGCGTCACCGTGAAACTGACTGTGCCATCAGAAGCCAACGGCGTGCGTGTCGATACGCTGAGCCTCCGAACACCGACCGTGCGTGACCTTCGGATTGCCCGCCAGACAGCGCCCAATGATGAGGAGCAACAAGATCTGAACTTGTTCGCCTCCCTGGCCGAAGTCGGGACCAAGGATCTGGATGGCTTGACGCTGAAGGACTTCAACCGCATACAGGCCGGCTATTTTCGCCTGGTGCGAGAAGATGAATTTCAACCCCAAGGTGCAGAAGCAACTGGCTAA	MSSTATPSWMTLTVDRVTVKLTVPSEANGVRVDTLSLRTPTVRDLRIARQTAPNDEEQQDLNLFASLAEVGTKDLDGLTLKDFNRIQAGYFRLVREDEFQPQGAEATG				NA	NA	NA	NA	NA
D1-35_01894	123			hypothetical protein	ATGAATTTCAACCCCAAGGTGCAGAAGCAACTGGCTAAGCGTCTTGCCACCGAACTGAACTTTTCCGCCGCTGAAATCCTCGCCATGCCGTTCTCCGACATGGTCTGGTGGCTGTCAGACTGA	MNFNPKVQKQLAKRLATELNFSAAEILAMPFSDMVWWLSD				NA	NA	NA	NA	NA
D1-35_01895	2577			hypothetical protein	ATGGCTAGCAAACTGGCGTTATCGCTGGTGATTGGCGGCGCCGTCAGTTCGACGATGGCGTCTGCCTTCCGCACGGTTGATGGCCACATCAAAAAGCTGGAGGAAAAAGGCAGCAAGGCCAAGGTGCTCAAGAGCACCATTGGCGAAACCATTCGCCTGCGCGATGAATGGAAGCGGGCGCACGACAGCGGTGCTGCTTCGGCGGATGGTCTGTTGCGCAAGCTCAACGGCAACCTTGACGCCCTGCGTAAACAGGGCGTGGAGGTGGGCAGGCTGGGGCAGGAGTACCAGCGCCTCGGCCGGGCAGCCAAAGCCGCCGATCTGCAGCTTAAAGGTCACCAGCAGCTCGATGCCGGCAAGAAAGGACTCACGTCGAGCATTGGTCAAGGTGTTGTCGCCACCGGCCTTGCAGCGATTCCGACCAAGGTCAGCGCGGATTATCAGGCGATCATCCGCGACATTGCGATCAAGGCGGATGTGGTCAACAAGCCGCAAGAAACACAGCTTAGCCAGACAGTAATCCAGACCTCCCGCGATACGGGCATGGCCCGTAACGACGTGGCGGACCTGGTAAACCAGCTGGTTGGTGCCGGTATGGACCTCAAGCAGGCTATGGCCTACGCGCCGACGGCGGCGAAGTTTGCCATCGGCCAGGGCGCCTCCGGCGTCGACACGGCCAGCATGATCATGGCGCTGCAGCAAAACGCCAAGATCACCGACCCCAAGGTAATGCAACAGGCCCTGGAGGCCATCGCCTACCAAGGACAGGCGGGGAGCTTCGAGGCCAGCGACATGGCCCGGTGGTTCCCGCAACTGCTGGCCAGCATGGAGAAGAACGGCAGCACCGGCATGGAGGCGGTCAGCTCCTTGGGCGCGATGCTTCAAGTCCAGATGAAAACGGCCGGCGGCTCGGACGAAGCGGCCAACAACCTGAAAAACTGGATGGAGAAAATCGGTTCGGGCGACGTGGTCAAGGCGTACAAGGACGCCGGCATTGACTATCAAGGCTCCCTGAACACTGGCATTCAGAAGGGCATGTCGACCCTGGAATCCAGTTTCGCCCTGGCGATGAAATACATCCAGGCCACCGACCCGGCGAAGGCCGCGAAGATGGCCGAGGCCCAGGCCAAGATCAGCAAGGAGACGGACCCGGAGAAGGCCAAGGCGGCGCTCGATGCGCTGGAAAAATCCCTGCGTACCGGTGACCTGTTCGCCGACATGCAGGTCAAGGCAGCGCTCACTGCCTACTCGCAAAACAAGTCGCTGTACGAGCAGTTGAAAAAGGATTCGCAGTCTTCTGGCGGGATCCTCGATAAGAACCTGGCCGAGCGGCGCGAAACGTCGAAACAGATGTGGGACGAGCTGGGCCAGGCGGTTAGCGATGGCATGCGCAGCGTGGGTGACGCCATCCGCCCGGCGACCGATGCGGTCGCCCAGGGCCTGACCTCAATTGTGCGTGGGTTGACGAAGCTTTCGGATGGCTCGCAACCGGTGGTGCTTGGCATTGCTGCTATCACCACCGGCCTGTTGGCCCTCAAGACGGCTGCCAGCGCGGTGAAGATTGGCAAGGGGCTGTACAACATATCGCGTGGTCGGGCGATGGAGCGAGGCGTGGGCGCCCTCGGTAACGCCGCTGCCAAGGCTCCTAAAACCGGTATCAAGACGGTGGATAAGGGGCTCGGCGTACTCGGTAAGCTGATGGGAGCGGGCAATGATTCCGGTGGGGGGCTGAGCACTGAGCCGCAACGCGTGTTCGTCGTCAACGCTGATGCGATAGGCCGAGCAGGCTCTGGTCCAAGCTCAGGCCCCGACGCTGCAGGCAGACGTCAGCGTGGGCGACGCGGTCGCCGTTCCGGCATCGGAAACCTCCCACGTCGCCGATTGCCCGGCCGGGCGTCGAATATCCCGTCCGTATCGGCTCCTGCCGCCGTTTCTATGATGCCAAAGGTTGGCCTGTTGGCTGCTGCGCCTATTGCCGCTGCGGCGGAGGCGGTGCCCGATAGCTCGCTCGGCCGTGCGGTTCAGTCGATTAGGGGCGTCACCCGAGCCACCAAGCGTCTCCCCGGCGGTTCGGTATTAGATGCCGGGGTGGGAGTTATCGATACCGCGCTTAACGCCAAGACCCAAGACGAAAAAGCCGAGGGATACGGCGGTGCTGCGGGTGGTTTCGCGGGCGCCCTGGCCGGCGGTGCAGCAGGTGCCGCTATCGGTTCGGTGGTGCCGATCATCGGTACGGCCATCGGCGGCGCAATCGGTGCCGCGCTGGGCGGCCTGGGTGGCGAAAGCATCGGCAGCTTCTTGGGTAAGTCCTGGTTTGGCAGTGAGGCCAAGGCGGAAGAGGCCAAGCCTGCCGAGGTCGCCAAGCCAGCTGACCCCACACCGCCCGTGCCGCCAAAGGTTGAGCAAGCTTTCAGCTTTGCGCCGAATGTCTCCATCACTGTTCAGGGCGATGTTAAAGATCCTGCGCAGCTGGCTCGGGAGCTGGAGCCGCATTTGCGTCAGCTCATGGAGGCTTTCTCTCGGGAGACGCTTGCTCGACAGTCGTCGAGCCAGTTGTTCGATGCTCCCCACGTTTAA	MASKLALSLVIGGAVSSTMASAFRTVDGHIKKLEEKGSKAKVLKSTIGETIRLRDEWKRAHDSGAASADGLLRKLNGNLDALRKQGVEVGRLGQEYQRLGRAAKAADLQLKGHQQLDAGKKGLTSSIGQGVVATGLAAIPTKVSADYQAIIRDIAIKADVVNKPQETQLSQTVIQTSRDTGMARNDVADLVNQLVGAGMDLKQAMAYAPTAAKFAIGQGASGVDTASMIMALQQNAKITDPKVMQQALEAIAYQGQAGSFEASDMARWFPQLLASMEKNGSTGMEAVSSLGAMLQVQMKTAGGSDEAANNLKNWMEKIGSGDVVKAYKDAGIDYQGSLNTGIQKGMSTLESSFALAMKYIQATDPAKAAKMAEAQAKISKETDPEKAKAALDALEKSLRTGDLFADMQVKAALTAYSQNKSLYEQLKKDSQSSGGILDKNLAERRETSKQMWDELGQAVSDGMRSVGDAIRPATDAVAQGLTSIVRGLTKLSDGSQPVVLGIAAITTGLLALKTAASAVKIGKGLYNISRGRAMERGVGALGNAAAKAPKTGIKTVDKGLGVLGKLMGAGNDSGGGLSTEPQRVFVVNADAIGRAGSGPSSGPDAAGRRQRGRRGRRSGIGNLPRRRLPGRASNIPSVSAPAAVSMMPKVGLLAAAPIAAAAEAVPDSSLGRAVQSIRGVTRATKRLPGGSVLDAGVGVIDTALNAKTQDEKAEGYGGAAGGFAGALAGGAAGAAIGSVVPIIGTAIGGAIGAALGGLGGESIGSFLGKSWFGSEAKAEEAKPAEVAKPADPTPPVPPKVEQAFSFAPNVSITVQGDVKDPAQLARELEPHLRQLMEAFSRETLARQSSSQLFDAPHV				NA	NA	NA	NA	NA
D1-35_01896	846			hypothetical protein	ATGGCCTACATGGAGCAAATGCAATCGGCGCTGAAATCGCTGCTTGCAGCGGGGGAGTCTGGCCGTACCAGTCTCGACGGCATGCTGGGCCCGCTCAACGGCGCCGTCAGCGACATGACGGGCGCAGCCTCGGAGCTGGAGGGTGTGCCCTTCATTGGGCCTGCCATCGGCGCCAAGGTGCAACGGACCATGCGGGCAATCAACGCGGCGCAGTCCACCGTGGGCCAGGTGGCGGCCAAGTACAACCAATCCGTCACCGCAGCCGGCCAAGTCCAGAAGCGGCTGGGTTCGCTCAAAGAACAGGCTGGCAAAGCGGGTGCAGCGATTAATCGCATCGCCGGCCAGGTGAGCCCATCGCTGAGCAACATCATGCCCACGGGTTCATTTGCCCCCCAACTGACACCAGCTGCCGAGGCGGTGAAGCCGTTCCCGCACCTGCTGATCATGCAGCCCCTGGTGCCGAACGCGCAGCCGTACTACTTCAACCTGGATACGGCGGCTTTCGAGGAACTACGTCGGCAGACGTCGTTTCGTTGGGCAGGCCAGGAACGGCTGACACGCAGCATCGCCCAGCAGGCGGTCGGCCAAGGAGAGGACAAGATCAGCCTAAAGGGCGCGATTTTTCCGGGCTTCAAAGGTGGGCTCAAACAGCTGGACACCCTGCGCACCATCGGGCGACGTCTGCAGCCGGTGAACCTGACCACCGGCTACGGCGAAGTGCTCGGCACCTGGTGCCTGCTCAACATCGAGGAAGATCAAAGCAACCTGCTCGCGGGTGGCATTCCGCGTAAGCAATCCTTTTCACTGGAGTTTGTGAGCTATGGCGACGATCTGCAGAACGTCTGA	MAYMEQMQSALKSLLAAGESGRTSLDGMLGPLNGAVSDMTGAASELEGVPFIGPAIGAKVQRTMRAINAAQSTVGQVAAKYNQSVTAAGQVQKRLGSLKEQAGKAGAAINRIAGQVSPSLSNIMPTGSFAPQLTPAAEAVKPFPHLLIMQPLVPNAQPYYFNLDTAAFEELRRQTSFRWAGQERLTRSIAQQAVGQGEDKISLKGAIFPGFKGGLKQLDTLRTIGRRLQPVNLTTGYGEVLGTWCLLNIEEDQSNLLAGGIPRKQSFSLEFVSYGDDLQNV				NA	NA	NA	NA	NA
D1-35_01897	207			hypothetical protein	ATGGCGACGATCTGCAGAACGTCTGATGGGGATCTGTTGGACACCGTATGTCATCACTACTACGGCCATTTGAATGGCACGGTGGAGGCCGTGCTTGCCGCCAATCAAGGCCTGGCCGATGAGCCTCAACCGTTTCGCGCTGGTGTGATTATCCTGCTGCCGGATCTGCCAGCGCAGACGCTGGAGGATATCCAGCTGTGGGATTAA	MATICRTSDGDLLDTVCHHYYGHLNGTVEAVLAANQGLADEPQPFRAGVIILLPDLPAQTLEDIQLWD				NA	NA	NA	NA	NA
D1-35_01898	1047			hypothetical protein	ATGAAGCCGACCTATCGCATCGTTGCGGACGGCAAAGACATCACCGCGTTGATCAATGACCGGTTATTGAGTCTGCGCACCTCGGATAAGCCGGGCATGGACTCGGACGACTTCGAGTTGCGGATCGATGATCGTGATCAAGCGGTTGCGCTGCCCACACGTGGGGCGGGTGTCGAGGTTTACCTGGGATATACCGGCCAGGCCCTGACCCGCTTGGGGCGCTACACCGTCGACGAGATCGAGTTGTCGGGGCCGCCTGACACGATGGTGATCCGGGGTAAAGCCAGTGACATGCGTGGCAGCGGCAAGACCGTGCGCAGCGGGTCCTGGGAAAACGTGCCCCTGCAGCAGATTGTCCGCGACGTGGCAGCCCGCAATGGTTGGCAGCCAGTGTGCCCAGTGCAAACCAAAGTGCCCCGCGTCGACCAGCTCAACGAGTCGGACTACAACTTCATCACCCGCCTTGCCAAACAGTATGACTGCACGGCCAAGCTGGCCGACGGCAAGCTGTTGGTCATGCCTCGGCAGGGCGGCCAGACCGCGAGCGGCAAGAACCTGAGCCCTGTGGTTCTGAGGCGCTCTGATCTGAGCCGTTATCAATTCCGTCTCGGCGATCGCAATACGCAAAAGGCGGTACGCACCAAGCACCAGGACAAAAAGTCAGGAGCCCTGAAGGTAGTCGAGCTGGACAACGACGACCTGCCGAACGGCCTGCCAGCGGTCCATACCGACCGGCATATCTACCCCAACAAGTCAGCCGCCGAGCAGGCCGCCAAGGCGCGCTTGGCTGCGTTCAATCGCAGCAGCGCCGGGGTTCGCCTGGAAATGGCCGGGCGCACCGATGTATTTGCCGAGCGGTCGATCATCGTCCAGGGGATCAAGCCCGGGCTTGATGGTGAATACCTGGCTGAGGCGGTGGAGCAACTGTTCACCTCCAGTGGCTGGACCACCACCGTCGAGTGCAACGGCGGCAAGAAGGGCAAGGCCAATGCCAAAGGTAAGAAAAAGAAGAAGGAAGCCAAGCCGGTCAAGGTCGTCCAGCTTTAG	MKPTYRIVADGKDITALINDRLLSLRTSDKPGMDSDDFELRIDDRDQAVALPTRGAGVEVYLGYTGQALTRLGRYTVDEIELSGPPDTMVIRGKASDMRGSGKTVRSGSWENVPLQQIVRDVAARNGWQPVCPVQTKVPRVDQLNESDYNFITRLAKQYDCTAKLADGKLLVMPRQGGQTASGKNLSPVVLRRSDLSRYQFRLGDRNTQKAVRTKHQDKKSGALKVVELDNDDLPNGLPAVHTDRHIYPNKSAAEQAAKARLAAFNRSSAGVRLEMAGRTDVFAERSIIVQGIKPGLDGEYLAEAVEQLFTSSGWTTTVECNGGKKGKANAKGKKKKKEAKPVKVVQL				NA	NA	NA	NA	NA
D1-35_01899	564			hypothetical protein	ATGCCACTCACTGAGCAGCAACTACAGCGCATCATGCCCAACGCCCGCCGCCAAGCGGGCGTTTTTGTATCGGCCCTGAACGCCGCCATGGCACACCGACAGATCGATACGCCCAAGCGGCAGGCGGCATTCCTGGCCCAGGTTGGGCATGAGTCCGGCCAACTGCAGTACGTGCGGGAGCTGGGCGGCGATCAGTACCTCAGTAAATACGACACCGGTTCGCTGGCTTCGAAACTCGGCAACACGCCCGAGCCTGACGGTGATGGCCAGCGCTATCGTGGTCGCGGCTTAATCCAGATTACCGGTGCCCACAATTACCTGCGCTGCAGCTTGGCGCTGTTCGGGGACGAGCGCCTGTTGCGTACGCCTGAACTACTGGAGCTGCCCCTATGGGCGGCCGAGTCGGCTGCATGGTTCTGGTGGGTCAGGGAGTTGAACGTGTTGGCTGATCGGGGTGAGTTCGAAACGATCACCCGGAAAATCAATGGCGGGCTCAATGGTCTGCAGGAACGCCTGCAGCTGTGGGAGCGGGCGAGGGCGGTGTTATGCGTCTCGTCGACATGA	MPLTEQQLQRIMPNARRQAGVFVSALNAAMAHRQIDTPKRQAAFLAQVGHESGQLQYVRELGGDQYLSKYDTGSLASKLGNTPEPDGDGQRYRGRGLIQITGAHNYLRCSLALFGDERLLRTPELLELPLWAAESAAWFWWVRELNVLADRGEFETITRKINGGLNGLQERLQLWERARAVLCVSST	PGPT0012140_613	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012140-putative_chitinase-K03791	NA	NA
D1-35_01900	543			hypothetical protein	ATGCGTCTCGTCGACATGATCCCGCTGCAGTACCGCGTGCTGGCCGCCGGGCTTCTGTTGTTCGCTCTGGTTGCCGCTTCGGCGGTCATCGCCTGGACGGTTCAAGGCTGGCGATACGGTCAGCAGCTGGAAAAACAAGCCCGGCTCCACACCGAAACTCTCAACCAAATAACCCTGGCCTCGACCGCGCTGCAGCGCACCGAGCAGGACAAGCGCCTGGCCCTGGAGCAGCGGCTGGCCGCCAATGACCAAACCCACTATCGAGCCCTAACCGATGCCCAACGTGACCAGGATCGCCTGCGTGATCGCCTCGCTACTGCTGATGTCCGGCTGTCAGTCCTACTCGACGCCACCGATACCACCTGCAGCGGTGCGGTGCCAGCCACCACCAGCGCCGGCGGCGTGGTTCATGGAACCACACGTGCCCGACTTAACCCGGCGCATGCTCAAAGAATTATCAGCATCACCAATGACGGCGACCAAGGATTAATTAAACTTGCCGCCTGTCAGGCTTATCTGAAGGATATAAATTTAGCGCGGTAG	MRLVDMIPLQYRVLAAGLLLFALVAASAVIAWTVQGWRYGQQLEKQARLHTETLNQITLASTALQRTEQDKRLALEQRLAANDQTHYRALTDAQRDQDRLRDRLATADVRLSVLLDATDTTCSGAVPATTSAGGVVHGTTRARLNPAHAQRIISITNDGDQGLIKLAACQAYLKDINLAR				NA	NA	NA	NA	NA
D1-35_01901	795	dpnM		Modification methylase DpnIIA	ATGTCTTCACCCATCATTCCTTGGATGGGCGGCAAACGTCGCCTAGCCGACCGCCTCATTCCGCTTTTTCCTCCACACGAGTGCTATGTCGAAGTCTTTGCCGGCGGTGCCGCGCTTTACTTTATGCGACCCCAGGCCGCACCCGTTGAAGTCCTGAACGATATCAACGGCGACCTGGTGACGCTCTATCGCGTTGTGCAGAACCACCTGGAAGAATTCGTGCGCCAGTTCAAATGGGCGCTCAGCTCCCGCCAGTTGTTCGAGTGGCAGAAAATGACCCGTCCCGAAACCCTTACCGACATCCAGCGCGCCGCCCGGTTCTTCTATCTGCAACACCATGCTTTCGCCGGCAAGGTCACCGGGCAGACGTTCGGCACCGCGACCACTGGCCCGGCCATCAACCTGCTGCGGATCGAGGAGAACCTCTCGGCCGCGTGGCAGCGACTGTCCGGCACCTACGTCGAAAACCTTCCCTGGCTTGATTGTGCTGAGCGCTACGACCGCGCTCATACGTTCCACTACATGGACCCACCGTACTGGCAGACCGCTGGATATGGCGTGGATTTCCCGTTCGAGAATTACGAGCGGATGGCCGACTTTATGCGTCGTTGCAAGGGCAAGGTAATGGTCAGCATCAACGACCACCCGGACATCCGTCGCGTGTTTGAAGGCTTTCACTTCGAGACGTTGGACATTCGGTACAGCAACACGAACCAGCGTCAGTGCAAGGCTGAGGTCAGCGGTGAACTGGTGATCATGAACTGGGAGCCGGCAGCGTTGGGAGGGCTGTTTTAA	MSSPIIPWMGGKRRLADRLIPLFPPHECYVEVFAGGAALYFMRPQAAPVEVLNDINGDLVTLYRVVQNHLEEFVRQFKWALSSRQLFEWQKMTRPETLTDIQRAARFFYLQHHAFAGKVTGQTFGTATTGPAINLLRIEENLSAAWQRLSGTYVENLPWLDCAERYDRAHTFHYMDPPYWQTAGYGVDFPFENYERMADFMRRCKGKVMVSINDHPDIRRVFEGFHFETLDIRYSNTNQRQCKAEVSGELVIMNWEPAALGGLF	PGPT0027190_2355	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0027190-dam-K06223	NA	NA
D1-35_01902	276			hypothetical protein	ATGGTTGTCGCGCTCGATCTGATCCGCTTGCTATGTGATTACGCTGGAGCGTTACTGTGGTCACACAAACGAAGGACCAAGACCATGGAAACCGAAACCGCTGATAAATACTTGAACATCTTCCCCTCCGAGCTGCTGGCGGCGGTGGCACGCGGGGAGGTGGATCTGAATCACTGGGCCGGCGTGGTGCTGGCTGGGCGAGGGTTGGACCAGAACGCACGCTGGGTGGGATTCCCAGAGGCGGCCCGCCTTCTGGATCAACGCAGTCAGGCTTAG	MVVALDLIRLLCDYAGALLWSHKRRTKTMETETADKYLNIFPSELLAAVARGEVDLNHWAGVVLAGRGLDQNARWVGFPEAARLLDQRSQA				NA	NA	NA	NA	NA
D1-35_01903	702	yedK_1	COG2135	SOS response-associated protein YedK	ATGTGCGGGAGATTCGTGCAGTACGAGGGCATGGCGGTGTTTATGGAGGAGCTTGGCCCTCAGCTGCCATTGTTCGGCGGGTACGACGCAGAGCCGATCAGCCGGTACAACGTGGCTCCGACGACCCGCGTGCAGATCCTGCACAGCACAGAGGCAGGTATCCACATCACTCCAGTGAGGTGGGGATGGGCGCCCTTTTGGGCGAAGGGAAAACGTCCGGATCCGATCAATGCCAGGATCGAGACCGTTACGACGGGAAAGTTTTTCAAACAGCTTTGGCCGGCCGGGCGCGCACTGGTGCCCAGCGAGGGTTGGTATGAGTGGGTTAAAGACCCAAATGATCCGAAGAAAAAACAACCCTATTTCATCCGGTTGAAGGATCAGAAGCCGATGTTCTTCGGGGCGCTCGCACAGGCCCGTCCAGGTCTGGACGAGCAAGACGGTGACGGTTTCGTAATCATTACCGCGTCATGCGACCAGGGCATGGTAGATATCCATGATCGCCGGCCGTTGGTGTTATCACCTGAGCAAGCGCGGGAGTGGCTGGACCCGGATCTCAGCCCAGGGCAAGCAGAGGAAATTGCAAGAGACCATTCCAGGCCTGAGGCCGATTTCGAATGGTATGCCGTGGGAAAAGAGGTGGGGAATGTCAGAAACCAGGGAGCACAGTTGTTGCTCCCCTGGAATCCGGAAGAAAACTAA	MCGRFVQYEGMAVFMEELGPQLPLFGGYDAEPISRYNVAPTTRVQILHSTEAGIHITPVRWGWAPFWAKGKRPDPINARIETVTTGKFFKQLWPAGRALVPSEGWYEWVKDPNDPKKKQPYFIRLKDQKPMFFGALAQARPGLDEQDGDGFVIITASCDQGMVDIHDRRPLVLSPEQAREWLDPDLSPGQAEEIARDHSRPEADFEWYAVGKEVGNVRNQGAQLLLPWNPEEN				NA	NA	NA	NA	NA
D1-35_01904	426	umuD	COG1974	Protein UmuD	ATGAGCTTTTCAATTCTAGGCCCTATTGCTGAGGGTGGCTTGAAGCTGCCCCTGTGTTCGTTTCGTGTGCCCGCCGGGTTTCCATCTCCAGCGGCGGACCACATCGAAGCGCACATCTCATTGGATGAGGTTCTGAACATTCGCGCTCCGCATGTCTACCTGGTTTCCATCGCCGGGGAGAGCATGCAAGGCGCTGGGATCTTTGAAGGGGACCTAGCCGTTGTGGACCGTGCGATGGAACCTGCGCATGGTCACATCGTCGTGGCGCTGCTGAACAACGAACCCGTGTGCAAGCGCCTCTGCATCCGTGGGAAGGAGGTGATTCTCCTGTCGGAGAACCCAAAGTACCCACCAAGGTACGTGCTCGAGGGCGACGAGCTGGTCATCTGGGGCGTTATCACCTGCAGCGTGCGCAGCCATGTCTAA	MSFSILGPIAEGGLKLPLCSFRVPAGFPSPAADHIEAHISLDEVLNIRAPHVYLVSIAGESMQGAGIFEGDLAVVDRAMEPAHGHIVVALLNNEPVCKRLCIRGKEVILLSENPKYPPRYVLEGDELVIWGVITCSVRSHV	PGPT0015094_950	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ADAPTIVE_MUTATION	CE-BACTERIAL_FITNESS-ENVIRONMENT-INDUCIBLE_DNA_POLYMERASES,PGPT0015094-umuD-K03503	NA	NA
D1-35_01905	1278	umuC	COG0389	Protein UmuC	ATGTCTAAAGCCCAGCCCGTTTTCGCCCTGATCGACTGCAACAGCTTCTACGCCAGTTGCGAAAGAGTGTTCCGCCCGGACCTGGTCCGCGTGCCCATCGTCGTGCTGAGCAACAACGACGGGTGCGTGATCGCCCGCAGCTACGACGCCAAGCCCTACGTGAAGATGGGCGAGCCGTATTTCCAGATCAAGCACAAGCTGCAGAAACACGGCATCGTCCCGTTCTCGTCGAATTACGCGCTCTACGGTGACATGAGCGAGCGCGTGATGACCCTCATTGAAGCAATGGTGCCGGCCGTCGAGGTTTACAGCATCGACGAAGCCTTCGCGGATCTCACCGGCATCGACGGCCGGGATGCCCTCGGCCGGAAGATCCGCAGCCAGGTGCTGCGCTGCACCGGCATCCCGGTTGGGGTAGGGATCGCTCATACCAAAACCCTGGCAAAACTGGCGAACCACACCGCCAAGCGGCTCCAGGCGCAAACGGGCGGCGTTGTCGACATCTGCGACCCGTTTAAGCGCGACTGGGTGTTGCGCAACACCGACGTGTCTGAAGTCTGGGGAGTCGGTCGCAAGATGAAACTTCACTTGGACACCATGGGCATCAAGACCGCGATGGACCTGGCAAAGGCCGATCCGTGGACGCTACGGAAGAAATTCAGCGTGGTGATCGAAAAGACCGCCCGGGAGCTGGCCGGCACGCCGTGCCTGGAGCTGGACGAGCCGGACCCGCCGAAGCAAGAAATCTGCTGTAGCCGGATGTTTGGTATGCGGCTCACGGAGCTGGCCCCGATCAAGGAAGCGGTAGCCACCTACATGATGCGCGCATCGGAAAAGCTCAGAGCGCAGAAGTCGCTGTGCAAGAAGGTCCGCGTGAGCATCCGCACCGGCATGTTTAATCCCGAGGAGGCGAAGTATGCCAATGGGGTGCTGATTGACCTGCCATATCCGACTGACGATGTACGATTGCTGACGAAGGCGGCCGTGGATTCGCTTGATCGGGTGTTTCGGCCAGGCTTCAAGTACAGCAAGGCGGAAGTGTTGTTGATGAACCTCTGTCAACCGGGAGAGTATACCGACGATCTGTTCGCATTCTCCCAGCCAACTGACGCCACGAAGCTAATGACCGTACTGGATGAGATCAATAGTCGGTGGGGGAGAGGGACGTTACGCACGGCCGGGGTGCCTGCAGAACCGGACTGGGGGATGCGTAGAGAAATGATGAGCCGGAGTTACACCACCAAGCTGGGTCAGCTTTGGCGGGTTACGTGTCGATAA	MSKAQPVFALIDCNSFYASCERVFRPDLVRVPIVVLSNNDGCVIARSYDAKPYVKMGEPYFQIKHKLQKHGIVPFSSNYALYGDMSERVMTLIEAMVPAVEVYSIDEAFADLTGIDGRDALGRKIRSQVLRCTGIPVGVGIAHTKTLAKLANHTAKRLQAQTGGVVDICDPFKRDWVLRNTDVSEVWGVGRKMKLHLDTMGIKTAMDLAKADPWTLRKKFSVVIEKTARELAGTPCLELDEPDPPKQEICCSRMFGMRLTELAPIKEAVATYMMRASEKLRAQKSLCKKVRVSIRTGMFNPEEAKYANGVLIDLPYPTDDVRLLTKAAVDSLDRVFRPGFKYSKAEVLLMNLCQPGEYTDDLFAFSQPTDATKLMTVLDEINSRWGRGTLRTAGVPAEPDWGMRREMMSRSYTTKLGQLWRVTCR	PGPT0014882_935	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
D1-35_01906	1131			hypothetical protein	ATGTTACTCAGCCCGGGGGTTGCAATACAAATGGTCAAGAAAAGCAGGGGCGTTAAGCCAACTGAAGAGTCAAAGCGTGAGGCTGAGGCTGCCGTTTCTGTTGTAGCGCGTCAGGTTAAGTTTAACGTCGCTGAGTATCCCGTTTCCATGTATGTCGACAGATTTAAAAACGATATAGATGACCGATACTTTGTTCCATCATACCAGCGAAATCTTGCTTGGAACGATGAGCAGAAATCGCAATTTATTGAATCGTTAATAATAGGTTTGCCTATCCCATTTATGTTTTTTTATCAAACAGGGGACGGTAGGATGGAAATTGTGGACGGGTCTCAGAGAATGAGAGCTATGAGGTCGTTCCTCAAAGAAGGGCTCCGTCTGCGTGACTTGGTTTTGGTCCCTGAGCTGAACGGTTTTTCGGTTGAGGATCTTCATGCTGACAGAGTTAATAAGCTAGAAGATATAACTATACGTACAATTATTCTTGATACGGATACTGACCCGTCTACACGAGCGGAGATGTTTGCACGTATCAATCGGATGGGAACGACTGCAAACGAAGCAGAAATTCGCCGAGGATCACTGCCAGGTGCAGTGACCGAAATGATAACCAAATTAGCAGAGGATCGCAGGTTTGTGGCGATGACTCCACTAACTGCTAAAGCGATAAGTTCACGGGAGCGTGAAGAACTCGTTACTCGTTTCTTTGCGTACCTGAATAGAAATGATACCCCCGATGGTCGGTTTCCTGGTTATAGAGATCGTCCAAAGAAATTTATATATGATTATCTGAAAGATGCTAACTCGGCTGCTAAGGATAATCCGGAAATTATCGAGCAGATGAGTGAAGAGTTTTTTCGGATGTTGGATTTTGTCCGAAAAACATTTGAGTTGGGCTTCAGAAAGAATGGAACTGCGAACACGGTGCCGCGTGTCAGGTTTGAAGCTATAGCGGTGGGCTCAGCACTTGCCTTGAGGAAGTTTCCTGATTTGGAAGTTGACTCTAAGGTGATTTCAGAACGAATGAAAACCGAGCATTTCGACAGTGTCGTTGTCTCCGATGGAGCGAACGTGCGTTCCAAGCTAGAGGGACGGATTGACGTTGTGGTACGTATGTTGGTTAACGAATGA	MLLSPGVAIQMVKKSRGVKPTEESKREAEAAVSVVARQVKFNVAEYPVSMYVDRFKNDIDDRYFVPSYQRNLAWNDEQKSQFIESLIIGLPIPFMFFYQTGDGRMEIVDGSQRMRAMRSFLKEGLRLRDLVLVPELNGFSVEDLHADRVNKLEDITIRTIILDTDTDPSTRAEMFARINRMGTTANEAEIRRGSLPGAVTEMITKLAEDRRFVAMTPLTAKAISSREREELVTRFFAYLNRNDTPDGRFPGYRDRPKKFIYDYLKDANSAAKDNPEIIEQMSEEFFRMLDFVRKTFELGFRKNGTANTVPRVRFEAIAVGSALALRKFPDLEVDSKVISERMKTEHFDSVVVSDGANVRSKLEGRIDVVVRMLVNE				NA	NA	NA	NA	NA
D1-35_01907	711			hypothetical protein	ATGACTACTCTACGAGCGGCTTTGGCAGAGCGGAAAGAAGAGTTTTCTGTCCATATGGCCCTGGCGCACGCTTTGGACCGCAGACTTATCTCCGGCGATCCGGTTTCGATTGGAGAGACGGCAGTAACAGTGCGGCACTTGCTGACAATTAAGTCAGGCCTGATAGTCCATTTGTATAACATAGTTGAGTCAGTAATGACACGAACGATTCAGGAGGTTGGAGAGGCAGTTCAAGCCGCTCGTCCTTCTGAATGGACAACGGAAACTTTGAAAGAATGGCTTCGGTACTATGCGGCTTCAGGAGGGGATGGGAATGAAGACACCCGCCTGGACGTTGTTCACAAGGCTGCCTTAAAACTGTTAACCAAAGAGCCAATTCGAGAGCTTACTTTTAAAAAGCCATCTGGAACGTGGTCGGATAAGGTAATTTATACTTTTTCGCAACGACTGAAAGTGGATTTTAGGTTTACGGCGGCGTTGGCGATAAAGATGGCCAAGAGCTCGACATATGCAGATAAAACCCCGCTGGAGTTTTTGGCTGACAGAAGAAATGCGATTGCACATGGAAGGCGCTCGTTTGAAGACGGTGCGCGTGAATTGAGTTTGCAGAGTATACAGGATCTTGCTGATGTAACTATTGAGTACATGGAGCATGCTGTAGATGCATTTCAGAAGTTTGTAGACGATAAACATTATGTGGCGGCCGTTTGA	MTTLRAALAERKEEFSVHMALAHALDRRLISGDPVSIGETAVTVRHLLTIKSGLIVHLYNIVESVMTRTIQEVGEAVQAARPSEWTTETLKEWLRYYAASGGDGNEDTRLDVVHKAALKLLTKEPIRELTFKKPSGTWSDKVIYTFSQRLKVDFRFTAALAIKMAKSSTYADKTPLEFLADRRNAIAHGRRSFEDGARELSLQSIQDLADVTIEYMEHAVDAFQKFVDDKHYVAAV				NA	NA	NA	NA	NA
D1-35_01908	1089	ydiO	COG0270	putative BsuMI modification methylase subunit YdiO	ATGCGCAATACAGAAAAAATTTTGGCGGTCGATTTGTTTTGTGGGGCCGGCGGTCTTACTTACGGGTTGGAGAGCTCCGGTATTTCAGTGACCCTTGGAGTTGATATCGACCCGAACTGTGCTCATGCTATTGAAGCAAATTCAAATGCTAGGTTTCTGCAAGCCGACGTTGCTTCGTTGGACGTCGCGGAAGTTAAGAAGGCGCTGTCGGGCGGTGATTTTACACTTCTTGCCGGCTGCGCGCCGTGCCAGCCTTTCTCCACATATTCACGTGCCGCAAAACAGAGGCATGGAGTTGGTGCGGGTGATGGGCGAAGCGAGGATTGGCGTCTTGCGGAGCACTTCGGAAATGTTATACGTGAGGTGCAGCCTGATATCGTGACAATGGAGAACGTCCCTCCATTGGCGCAGCAGGACGTGTTTAAAACTTTTTTAGAAAAGCTTGAGGGTTATTGGGTGGATTGGAAGGTTATCGAATGTAATTCGATCGGTCTTCCCCAAACTAGAAAGCGACTAGTGCTTGTTGCTTCGAAGTTGGGTCCAATCGAAATCCCTGACTTCGATTTGCCTCAGAAAACAGTGCAGGACACAATTGGTGGTCTTCCTAAGATAGTAGCGGGGGGAGGAGATCCGAACGATAAACTTCATAAAGCTAGTCGACTCAGTGCACTGAATATGAGGCGGATACGCTCTTCGATTCCCGGCGGTACTTGGAGGGACTGGCCTGAAGAACTTCTTTCCTCGTGCCACACAAAGGAAACTGGTGCAACTTACCCTTCAGTTTACGGACGGATGGAGTGGGATTCTCCAGCTCCCACCATTACAACGCAATGTTTTGGCTATGGAAACGGTCGTTTTGGACACCCTGAGCAGGACAGAGCTATAAGCCTTCGCGAAGCAGCAATGCTGCAAGGGTTTCCACGTGATTACTCGTTTCTTCCCGATGGAGAGCCTGTTTCCTTTGCTAAGGTTGGTAGGTTAATTGGCAATGCCGTACCTGTAACATTGGGAGAGGTGATTGGTCGATTTATCAGGCAGCATGTCACTGAATATAGTCAATTGCGTACCGTTGAGCAGCGTGCAGGATAA	MRNTEKILAVDLFCGAGGLTYGLESSGISVTLGVDIDPNCAHAIEANSNARFLQADVASLDVAEVKKALSGGDFTLLAGCAPCQPFSTYSRAAKQRHGVGAGDGRSEDWRLAEHFGNVIREVQPDIVTMENVPPLAQQDVFKTFLEKLEGYWVDWKVIECNSIGLPQTRKRLVLVASKLGPIEIPDFDLPQKTVQDTIGGLPKIVAGGGDPNDKLHKASRLSALNMRRIRSSIPGGTWRDWPEELLSSCHTKETGATYPSVYGRMEWDSPAPTITTQCFGYGNGRFGHPEQDRAISLREAAMLQGFPRDYSFLPDGEPVSFAKVGRLIGNAVPVTLGEVIGRFIRQHVTEYSQLRTVEQRAG	PGPT0020015_4560	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
D1-35_01909	531			hypothetical protein	GTGAGAAAGTTATTTGCTACAGATTTAGACGCGAAAATTGCGCTGTTCCATAAGGCATTTGATGGCCCCGCTAATTTGCTCACCGCAGTACTTCGAGGGCACATGATGGTCGAAGAAAGGCTGCATGATGTGATATCGGCTGGTGTAGCCATTTATAGCCGCCCTTTCAAAGAGAACGACATATTTACCTTCGGCACTGCAGCCAAGCTAGCCCAGGCAATCATAGGTTCTGCCGGAGATGTTGATTTATGGAAAGCGGTTGCATCGTTAAACGCGCTCCGTAATGCCGTGGGGCACCGATATGAGCCTGCGCGGTTAGATCAGCTATTAACAAAGTTCTTCAGGGACACCGACCAAACGGCTTGTAATGTTTTTAAAGGCGAATACCATTCTTATCAGCATAAAAGCGAGTCGGAAGATACCCACGCCTTGGTCGTTCGATTACGCTGCATGGCGATATGGGCTCAATTAGGTGTGCATGCTGATAAACTTACACAGGACTTAGGTGGTATATTGCTAAGCCGACGGTAA	MRKLFATDLDAKIALFHKAFDGPANLLTAVLRGHMMVEERLHDVISAGVAIYSRPFKENDIFTFGTAAKLAQAIIGSAGDVDLWKAVASLNALRNAVGHRYEPARLDQLLTKFFRDTDQTACNVFKGEYHSYQHKSESEDTHALVVRLRCMAIWAQLGVHADKLTQDLGGILLSRR				NA	NA	NA	NA	NA
D1-35_01910	870			hypothetical protein	ATGACATCTAACAAGACATACGAAGAGCCTCGACCAGCCATCCCAGCAGACCTCCGCCGGTCTGTTGAAGTCGAATCAGGCCACTGCTGCGCTATTAAAGGCTGCAATGAGCATACCTACCTAGAAATTCACCACATTGACCAGAACCGTAACAATAACACTCTAGAAAATCTTATTCTGCTATGCGATAAGCACCATAAAATGTCTCATGCCAACGTCATTGATCGAAAGGCATTGAAACAATATAAGGATCTGCTTGCTGACTCTTTCAATAATTTGATCACTGATAAATTCGAAGAACTAAAGGCTTTAATCACCGGTGACAAACCGTCAACCCTTGCGCCAATAAACTCCACTGACCAGCCTGCCAACCATCAAGTTGAGAAGCGTGCTGCCTCCAGATCCGACATACTAAACTTTGCTCTTATCCATGTAGCTATAGCCCACTATGAAAAAGAGAATAAGCTGTACTTTGAGCATCAAGTAGAATTTCGCCAAGGGGATACTTCACTAACGCTAGACGCTCTACGCCAAGACGACGATTTACAAGAGGACATCATTCTTGATGTCCATTACTTACGTAAACCTTATCTGGATGCGCCTGTTTACGGCCCTTGGCTCGCTAAGAAAATCGAAATCTACGAGCTTCTCACTGGACGTCCCGCCAAAGGTGTGCTTATCGCAGTGGTAGGTCGCGAGCGTATGCTTGAAGGGAGTTACCTAGACCTTACTCAACAAGGCATCAAGTCATGCGAAGGTAAAGTTACACTTCAGGTTTATAGTTGCGAGCAGGTAGGCTTTCACCCCGGAACAGTAAGTGCCGCCATGTTTGCCTCGAATCTTAAGAGCTCAACTTTACCGTCGGCTTAG	MTSNKTYEEPRPAIPADLRRSVEVESGHCCAIKGCNEHTYLEIHHIDQNRNNNTLENLILLCDKHHKMSHANVIDRKALKQYKDLLADSFNNLITDKFEELKALITGDKPSTLAPINSTDQPANHQVEKRAASRSDILNFALIHVAIAHYEKENKLYFEHQVEFRQGDTSLTLDALRQDDDLQEDIILDVHYLRKPYLDAPVYGPWLAKKIEIYELLTGRPAKGVLIAVVGRERMLEGSYLDLTQQGIKSCEGKVTLQVYSCEQVGFHPGTVSAAMFASNLKSSTLPSA				NA	NA	NA	NA	NA
D1-35_01911	558	smrA	COG2840	putative DNA endonuclease SmrA	ATGCAAGACGACGACTTTTCCCTGTTCAAAAGTGCGATCCAGGGCGTAAAACCGATCAAACACGATCGCGCCGAAACCGGCAAGCCAAAGGCCGATCGCGCGCAGATCGCCAAGTTGCGCCAGGCCGCCACCGTGCGCACCGATGCAACAACCGTGGATGGCCTGTCCGATCAGTTCGTCATCGACGTCGGCCCTGAAGACGAGTTGATGTGGGCGCGCGACGGGGTCCAGGAAAGCCAGATGCGCAAGCTGAAGGTCGGTCAGATCCCCTTCGAAGGCAGCCTCGACCTGCACGGTATGACTGTCGAAAAGGCCCGGGAAACCCTCTGGGCCTTCCTCGCCGAAGCCACCCGATTCGAAATCCGCTGCGTGCGCGTCACCCACGGCAAGGCGGTGCGGCTGGACGGCAAGCGACCGATGATCAAGAGCCACGTCAACACCTGGCTGCGCCAGCACCCGCAAGTGCTCGGCTTCACCTCCTGCCAGGCCAGGCACGGCGGCGCCGGGGCGGTCTACGTGATGCTCAAGCGCACCATGATGGAAGGTCGCGACGAGTAA	MQDDDFSLFKSAIQGVKPIKHDRAETGKPKADRAQIAKLRQAATVRTDATTVDGLSDQFVIDVGPEDELMWARDGVQESQMRKLKVGQIPFEGSLDLHGMTVEKARETLWAFLAEATRFEIRCVRVTHGKAVRLDGKRPMIKSHVNTWLRQHPQVLGFTSCQARHGGAGAVYVMLKRTMMEGRDE				NA	NA	NA	NA	NA
D1-35_01912	321			hypothetical protein	ATGAAGTTATCCGATGGTTTTGACGCACGTCGCTTGCGGCCCAAGGGCCCGAGCAACTGGCGATTTCGTATCGGCGCAGGGATCGCGGCGCTGCTGGCAACGCTCGGTGTGCTGCTGGCGATGGCCGGCGCCGCCAGCCTGCTCGGCCGTCCGCCCGCGCTGGGCGAGTTGAACGCCACCCCGCTCGGCTCGGCGATCATCCTGGCAATCGGTCTGTTGGTCCTGCTGTTGGGCATCTGGCTCTGGCGCCGTTGCCGCCGTCGCGCCCGCCAATCCCTGGAGCTGGCCATGGCTCCCCATCTGATGAAAAAACACGACTGA	MKLSDGFDARRLRPKGPSNWRFRIGAGIAALLATLGVLLAMAGAASLLGRPPALGELNATPLGSAIILAIGLLVLLLGIWLWRRCRRRARQSLELAMAPHLMKKHD				NA	NA	NA	NA	NA
D1-35_01913	591			hypothetical protein	ATGTCCGTTCCAAAAACGATGTTTCAACTCAGCGGCCGCGGTTATGCAGCGGCCAACCTGAGTCAAGCGACGCTGATCATCATCGATGCCCAGAAAGAGTATCTCGCCGGCCCCCTGGCCCTCAGCGGCATGGATGCGGCGGTCGCGAACATCAAGCAACTGCTCGGCGCAGCCCGCACCGCCGGCCGGCCCATCGTGCATGTACGCCACCTCGGTACCCACGGCGGGCTGTTCGACCCACAGGGCGAACGGGGGGAATTCATTCCAGGCCTTGAGCCGCGGGACGACGAAACCATTATCGAAAAGCTCTTGCCGAGTGCTTTCCACGGCACCGAACTGAAGAAGCGCCTGGAAGATTTCGGCCCACTGGATCTGATCGTCTGCGGTTTCATGAGCCATTCCAGCGTCAGCACCACCGTGCGCGCCGCCAAGAACCTGGGCTTTCGCTGCACCCTGGTCGAAGACGCCTGCGCCACCCGTGATCTGCCGCACAAGGCCGGCGTGCTGAGCGCCGAACACGTCCACCAGACTGAAATGGCGATCATGGCGGACAACTTCGCCACCCTGGCCATGACCCGCGACTTCACCTGA	MSVPKTMFQLSGRGYAAANLSQATLIIIDAQKEYLAGPLALSGMDAAVANIKQLLGAARTAGRPIVHVRHLGTHGGLFDPQGERGEFIPGLEPRDDETIIEKLLPSAFHGTELKKRLEDFGPLDLIVCGFMSHSSVSTTVRAAKNLGFRCTLVEDACATRDLPHKAGVLSAEHVHQTEMAIMADNFATLAMTRDFT				NA	NA	NA	NA	NA
D1-35_01914	909	prmB	COG2890	50S ribosomal protein L3 glutamine methyltransferase	GTGATCACTTCCCGCCTTCGTACCCTGCGCGACCATATTCGTTGGGCCGTCAGCCGTTTCCATGGCGAGGATCTGTTCTTTGGCCATGGCACCGACAATGCCTGGGATGAGGCTCGCCAACTGGTGTTGGGCGCGCTGCATTTGCCTTGGGAAATTGCCGACAGCTATCTGGATTGCCGTCTCGAAGACGAAGAGCTGGTGCATGTACAGCGCCTGCTGCGCCGACGTATTGCCGAGCGCATTCCGACTGCCTACCTGCTCGGTGAAGCGTGGTTCTGCGGAATGTCTTTCATCGTCGACGAACGCGTGCTCATCCCGCGTTCGCCCATCGGCGAGCTGATTGAAAAACGCTTCGAGCCCTGGCTGGGCCAGGAGCCTGCGCGGATCCTCGACCTGTGCACCGGTTCCGGCTGCATCGGGATCGCCTGTGCCTATGAATTCCCGGAAGCCGAAGTGGTGTTGGCCGACCTGTCGTTCGAAGCGCTGGAGGTGGCCAATCAGAATATCGAGCGCCATGGCGTCGATGAGCGGGTGTTCACAGTCCAGGGCGATGGTTTCGATGGCTTGCCGGGGCAACGTTTCGATCTGATCGTGTCGAACCCGCCTTACGTCGACGCGGAGGATTTCGCCGACATGCCCCAGGAATACCAGCACGAACCTGAGTTGGGCCTGGCCTGTGGCGATGACGGCTTGAACCTGGTTCGCCGGATGCTGGCCGAGGCGGCCGACCATCTGACCGAGAAGGGCCTGTTGATTGTCGAGGTGGGCAACAGCCAGGTGCATGTCGAGGCGCTTTACCCGGAGGTCGACTTCGCCTGGCTGGACTTCGAACGCGGCGGGCATGGCGTGTTCATGCTCAGCGCCGGACAGTGCCGCCAGCATCAGGTGTTGTTTGCCTCAAGGGTTTGA	MITSRLRTLRDHIRWAVSRFHGEDLFFGHGTDNAWDEARQLVLGALHLPWEIADSYLDCRLEDEELVHVQRLLRRRIAERIPTAYLLGEAWFCGMSFIVDERVLIPRSPIGELIEKRFEPWLGQEPARILDLCTGSGCIGIACAYEFPEAEVVLADLSFEALEVANQNIERHGVDERVFTVQGDGFDGLPGQRFDLIVSNPPYVDAEDFADMPQEYQHEPELGLACGDDGLNLVRRMLAEAADHLTEKGLLIVEVGNSQVHVEALYPEVDFAWLDFERGGHGVFMLSAGQCRQHQVLFASRV				NA	NA	NA	NA	NA
D1-35_01915	789			hypothetical protein	ATGACTGAGACTCAAACTTCTCCCGACACCGTCGCCGAACCGGCCGCCGCGCCTGCGGTGGAGCAGCCTTGGGCGGATGTGCAGGCCGAGCAGCATAAAATGCTCCGGCTGGCCCCGCTCAAGACCGATCGCGCCACCGGTGTGCGGCCCTTGCGCTTTGTCGAGTTCAGCTACGCCGAGCGTCACAGCAAGGAGCGCAGTTTGCTGCGCATGAGCATCAAGTTGCCGGGCCAACGGGTGCGCAAGGAACAGAACCATCTGGACGTCTGGGCCGACCACGTCGAGAAACGTCTGTCTTTCTCCCCTGACAACTTGCAAGTCGAGCCTTTGAATCGTGGGCTCGGACGCTTTCTCGCCGCTCAGGGCATCACCTGGGCGAAGAAGCGCTGGTCGAGCTATCGGGTGGACGGCAGCGACCTGAACAACAAGGACGCGCTGAACGAAGACACGCGCCTGCGCCGCGATCACTTCCTCAAGGCCCACGGCTTCGAGGTGGTCTACGCCGACGCCCAGCATCTCAAGGGCAGCGTCAAGGCCGCCCAGGTTGGCGACCTGGTGGGCGACTGGAACACCGAGAAGCTGCAGTTCGTCGAGATTCTCGAAGCCGCGCAGATGCTGCAACAAGCCGAGCAGAACCTGGCGGAGCAGGAAGTCAAACTCAAGAAGCAGGAAGAGAAGGTCAACAAGTTCAAGCGCGAAGACACCGGCTTGCGCTTTACCATCACTTGCCTGGTGGCGTTTGCGATGTTCCAGGCGGGATTGCTGATCTGGATTGCGACGCGGCATTGA	MTETQTSPDTVAEPAAAPAVEQPWADVQAEQHKMLRLAPLKTDRATGVRPLRFVEFSYAERHSKERSLLRMSIKLPGQRVRKEQNHLDVWADHVEKRLSFSPDNLQVEPLNRGLGRFLAAQGITWAKKRWSSYRVDGSDLNNKDALNEDTRLRRDHFLKAHGFEVVYADAQHLKGSVKAAQVGDLVGDWNTEKLQFVEILEAAQMLQQAEQNLAEQEVKLKKQEEKVNKFKREDTGLRFTITCLVAFAMFQAGLLIWIATRH				NA	NA	NA	NA	NA
D1-35_01916	966	estD	COG1073	Esterase EstD	ATGATGTTAAAACTGTTTGCCTTGAGTCTCGCCCTCTTGACTGGCCTGGTTTGCGGCCAGGCCCAGGCCACCGTCCTGCAACGTCCCATCAGCCTCGACACCGGCAACGGTGAACTTTTCGGCTCGCTGCTGTTGCCCAAGTCCGACACACCGGTGCCCGTTGTCCTGATCATTTCCGGGTCAGGTCCTACGGATCGTGACGGAAACAACCCCGAGGGCGGGCGCAACGACAGCCTCAAGCGCCTGGCCTGGGTACTCGCCAGGCATAACATCGCCAGCGTGCGCTACGACAAGCGCGGTGTGGCCGCCAGCCTCGCCGCCACGCCGGACGAGCGCAACCTCAGCGTCGAGGCCTACGTCGCCGATGCCGTGGCCTGGAGCCACAAGCTCGCCGCCGATCCGCGACTGGGCCCGTTGATCCTGCTGGGCCACAGCGAAGGTGCGCTGATCGCCAGCCTCGCCGCGCCCCAGGCCAACGCTGCGGCAGTGATTTCGGTGTCCGGCAGTGCACGGCCGATCGACCAGGTGCTACGGCAACAACTGAGCAGCCGCTTGCCACCGGCGCTGATGTTGCGCAGCAACGAGTTACTCGACAGCCTCAAGGCCGGGCGCCCCGACGCGGACGTTCCTGCGCAGCTGCAGGTGATTTTCCGTCCCAGTGTGCAGCCTTACCTGATCTCCTTGTTCCGCCAGGACCCGGCCCAAGCCTTCGCGGCATTGAAGATGCCGGCGCTGATCATCCAGGGCAGCCATGACATCCAGGTCAGCGTCGAGGATGCCAGGCAGCTGAAAGCCGCCAAGCCTGACGCACAACTGGCCCTGATCGAGGGCATGAACCATGTGATGCGCATTGTGCCCAACGACGTGAAGCGGCAACTGGCGTCCTATAAAGACCCCAATCTGCCCCTGGCGGCTGAACTGGGTGTGCAGATCCTGCGCTTTATCGGCTCGATCGGTTCCCGTTGA	MMLKLFALSLALLTGLVCGQAQATVLQRPISLDTGNGELFGSLLLPKSDTPVPVVLIISGSGPTDRDGNNPEGGRNDSLKRLAWVLARHNIASVRYDKRGVAASLAATPDERNLSVEAYVADAVAWSHKLAADPRLGPLILLGHSEGALIASLAAPQANAAAVISVSGSARPIDQVLRQQLSSRLPPALMLRSNELLDSLKAGRPDADVPAQLQVIFRPSVQPYLISLFRQDPAQAFAALKMPALIIQGSHDIQVSVEDARQLKAAKPDAQLALIEGMNHVMRIVPNDVKRQLASYKDPNLPLAAELGVQILRFIGSIGSR				NA	NA	NA	NA	NA
D1-35_01917	1092	aroC		Chorismate synthase	ATGTCCGGCAATACCTACGGCAAGCTGTTCACCGTCACCACCGCGGGCGAAAGCCATGGCCCGGCGTTGGTCGCCATTGTCGACGGCTGCCCGCCGGGCCTGGAGATTTCCCTGGAGGACCTGCAGCGTGACCTTGATCGCCGCAAGCCCGGCACCAGCCGCCACACCACCCAGCGCCAGGAAGCCGATGAAGTCGAAATCCTCTCCGGTGTGTTCGAAGGTCGCACCACCGGTTGCGCCATCGGCCTGCTGATTCGCAACACCGACCAGAAGTCCAAGGACTACTCGGCCATCAAGGACCTGTTCCGCCCGGCCCACGCCGACTACACCTACCATCACAAATACGGCGAGCGCGACTACCGTGGCGGCGGTCGCAGTTCGGCCCGGGAAACCGCCATGCGCGTAGCGGCCGGGGCAATTGCCAAGAAGTACCTGGCCAGCCAGGGCATCGTCATCCGTGGCTACATGAGCCAGCTGGGCCCGATCGAAATCCCGTTCAAGACCTGGGATTCGGTGGAGCAGAACGCCTTTTTCAGCCCCGACCCGGACAAGGTACCCGAGCTTGAAGCCTACATGGACCAGTTGCGCCGGGATCAGGATTCGGTCGGCGCGAAAATCACCGTGGTCGCCGAAGGCGTGATGCCTGGCCTGGGCGAGCCGATCTTCGACCGTCTCGACGCCGAACTGGCGCACGCGCTGATGAGCATCAACGCAGTCAAGGGCGTGGAGATCGGCGCCGGTTTCGCCTGTGTCGCCCAGCGTGGCACCGAACACCGCGACGAGTTGACTCCCGAGGGATTTCTGAGCAACAACGCCGGCGGCATCCTTGGCGGCATCTCTTCGGGCCAGCCGATTGTTGCCCACCTGGCATTGAAGCCGACGTCCAGCATCACCACGCCGGGACGCTCGATCGACATCCACGGCAACCCGGTGGATGTCATCACCAAGGGCCGCCACGACCCTTGCGTGGGCATTCGCGCAACGCCGATTGCCGAGGCGATGATGGCGATCGTGCTGATGGACCACCTGTTGCGTCATCGCGGACAGAACGCCGACGTTCGGGTCGGCACGCCGGTGTTGGGTCAGCTTTGA	MSGNTYGKLFTVTTAGESHGPALVAIVDGCPPGLEISLEDLQRDLDRRKPGTSRHTTQRQEADEVEILSGVFEGRTTGCAIGLLIRNTDQKSKDYSAIKDLFRPAHADYTYHHKYGERDYRGGGRSSARETAMRVAAGAIAKKYLASQGIVIRGYMSQLGPIEIPFKTWDSVEQNAFFSPDPDKVPELEAYMDQLRRDQDSVGAKITVVAEGVMPGLGEPIFDRLDAELAHALMSINAVKGVEIGAGFACVAQRGTEHRDELTPEGFLSNNAGGILGGISSGQPIVAHLALKPTSSITTPGRSIDIHGNPVDVITKGRHDPCVGIRATPIAEAMMAIVLMDHLLRHRGQNADVRVGTPVLGQL	PGPT0012875_3365	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012875-aroB-K01736	NA	NA
D1-35_01918	1146	hcaT		putative 3-phenylpropionic acid transporter	ATGGCGGCAGTGCCGTACTGGCGGCTTTCCAGCTTCTATCTGTTTTACTTTGCGCTGCTCGGTTCGACCGCGCCGTTCCTGGCGCTGTATTTCGATCACCTCGGGTTCAACGCCGCGCGCATCGGCGAGCTGGTGGCGATTCCCATGCTGATGCGTTGCGTCGCGCCGAACCTCTGGGGTTGGCTGGGTGACTACACCGGCCGGCGCCTGGCAATCGTGCGGTTTGGCGCGATCTGTACGCTGCTCAGTTTCTCGCTGATCTTCATCGACAAAAGCTACGCCTGGCTGGCGATGGTCATGGCGCTGCATGCGTTCTTCTGGCACGCGGTACTGCCGCAATTCGAAGTCATCACCCTGGCCCACTTGAGCGGGCAGGCGGCGCGCTACAGCCAGATCCGACTGTGGGGCTCCATCGGCTTCATCATCACCGTGGTCGCGCTCGGTCGGTTGTTCGAATGGTTGAGCCTGGACATCTATCCCGTGGCGCTGGCGTTGATCATGGGTGGCATCGTGCTCAGCAGTTTCTGGGTGCCCAACGCCCAGCCCGTTCAGGGGCCGCGGGTGGCCGGGGACGGTTTCCTGCGGCAGTTGCGCAATCCGGGCGTGCTGGCGTTTTATGCCTGCGTCGGCCTGATGCAACTGAGCCATGGGCCGTATTACACCTTCCTGACGTTGCACCTGGAGCGCCTGGGCTACAGCCGCGGATTGATCGGCATGCTCTGGGCCGTCGGCGTGGTTGCGGAAGTGCTGGTTTTCCTGCTGATGAGCCGGATCCTGGCGCGGTTTTCCATGCGCCGGGTGTTGATGGCCAGCTTCCTGCTGGCGGCGCTGCGCTGGTTGCTACTGGGGTCGTTGGCGGAGTTTCTCTGGGTGCTGTTGCTTGCCCAGGTCCTGCACGCAGCGACCTTTGGCAGCTTTCACGCCGCTGCCATCCATTTCGTGCAACGTAGCTTCGGCTCACGCCAGCAAGGTCAGGGGCAGGCGCTGTACGCCGCGCTGGCCGGAACCGGCGGGGCGCTGGGCGCGTTGTATTCCGGCTACAGCTGGAATGCCCTGGGCGCCGGTTGGACTTTCAACATCGCCAGTCTCGCAGCCTTCGCTGCAGCCGTTATCATTGCCACACGCATGCAAGAGGACAGGCCATGA	MAAVPYWRLSSFYLFYFALLGSTAPFLALYFDHLGFNAARIGELVAIPMLMRCVAPNLWGWLGDYTGRRLAIVRFGAICTLLSFSLIFIDKSYAWLAMVMALHAFFWHAVLPQFEVITLAHLSGQAARYSQIRLWGSIGFIITVVALGRLFEWLSLDIYPVALALIMGGIVLSSFWVPNAQPVQGPRVAGDGFLRQLRNPGVLAFYACVGLMQLSHGPYYTFLTLHLERLGYSRGLIGMLWAVGVVAEVLVFLLMSRILARFSMRRVLMASFLLAALRWLLLGSLAEFLWVLLLAQVLHAATFGSFHAAAIHFVQRSFGSRQQGQGQALYAALAGTGGALGALYSGYSWNALGAGWTFNIASLAAFAAAVIIATRMQEDRP	PGPT0028051_1364	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
D1-35_01919	621	mtnB	COG0235	Methylthioribulose-1-phosphate dehydratase	ATGAGCCTTACCCGTGAACAACTCACCCGGGAAATCATCGACGCCGGGCGTTTTCTGTATGGTCGCGGCTGGTCCCCGGCCACCAGCAGCAATTATTCGACCCGGTTGTCTTCCGACCAGGCCCTGCTTACCGTTTCCGGCAAACACAAGGGGCAACTGGGCGTCGACGATGTGCTCGCCACCGACCTGGATGGCAACAGCCTGGAGCCGGGCAAGAAACCGTCTGCCGAAACCCTGTTGCACACGCAGCTGTATCGCTGGCGGCCGCAGATCGGCGCGGTGCTGCACACCCATTCGGTGAATGCCACGGTGCTCTCGCGCTTGACCGGCGCAGCCTTCATCGACTTCGAGGACTACGAGCTGCAAAAGGCCTTCAGCGGAGTCACGACCCATGAGTCCCAGGTTCGCGTGCCGATTTTCGACAACGACCAGGACATCGTGCGTCTCGCCGCCAAGGTTCAGCCCTGGCTCGACGCGCACCCCGATTGCGTCGGTTATCTGATCCGTGGGCACGGCCTGTACACCTGGGGGCCGGGCATGAACGATGCGCTGCGGCAAATCGAGGCGTTCGAGTTCCTGTTCGAATGCGAGCTCAAGACTCGCACACTCTTGAACCGTTAA	MSLTREQLTREIIDAGRFLYGRGWSPATSSNYSTRLSSDQALLTVSGKHKGQLGVDDVLATDLDGNSLEPGKKPSAETLLHTQLYRWRPQIGAVLHTHSVNATVLSRLTGAAFIDFEDYELQKAFSGVTTHESQVRVPIFDNDQDIVRLAAKVQPWLDAHPDCVGYLIRGHGLYTWGPGMNDALRQIEAFEFLFECELKTRTLLNR				NA	NA	NA	NA	NA
D1-35_01920	546	mtnD	COG1791	Acireductone dioxygenase	ATGAGCAGCCTGTCCGTCTATCACGTTTCAAGTCCCGAGATTCCGAACAAGGTCCTGACCCATTTCGAAGACATCGCCGCGACCCTCGCCGAAAAAGGCGTGCGCTTCGATCGTTGGGAAGCCGCGACGAAGATCCAGCCCGGCGCCAGCCAGGAGGAAGTGATTGGCGCCTACCGGAGCCAGATCGACAAGCTCATGACCGAGCGCGGCTACGTCACGGTGGATGTCATCAGCCTCAACAGCGACCACCCGCAAAAAGCCGAACTGCGCGCCAAGTTTCTGGATGAACACCGTCACGGCGAGGACGAAGTGCGCTTTTTTGTCGCCGGTCGTGGCCTGTTCACCTTGCACATCGACGACTACGTCTACGCGGTACTGTGCGAAAAGAACGATCTGATCTCGGTGCCCGCCGGTACGCCGCATTGGTTCGACATGGGCGAACACCCCCATTTCGTCGCCATTCGGCTGTTCAATAACCCGGAAGGCTGGGTCGCCAAGTTCACCGGTGATGAAATCGCCAGCCGTTTCCCGCGCCTGGAGGACTGA	MSSLSVYHVSSPEIPNKVLTHFEDIAATLAEKGVRFDRWEAATKIQPGASQEEVIGAYRSQIDKLMTERGYVTVDVISLNSDHPQKAELRAKFLDEHRHGEDEVRFFVAGRGLFTLHIDDYVYAVLCEKNDLISVPAGTPHWFDMGEHPHFVAIRLFNNPEGWVAKFTGDEIASRFPRLED				NA	NA	NA	NA	NA
D1-35_01921	684	mtnC		Enolase-phosphatase E1	GTGACGATCAAGGCCATCCTCACCGACATTGAAGGCACCACCAGCGCGGTCAGTTTTGTATTCGACGTGCTGTTTCCCTATGCCGCCCGACACCTGCCGGATTTTGTCCGGCACAACGCCGGGCGTGCCGACGTCGCGGAGCAACTGGACGCCGTGCGCCGCGACAGTGCCGAGCCGGACGCAGACGTCGAACGGGTCATCGCGATCCTGCTGGGCTGGATTGCCGAAGACCGCAAGGCCACGCCGCTCAAGGCCTTGCAGGGTATGGTCTGGGAGCAGGGATACACGGCCGGCCAGTTGAAAGGGCACGTTTATCCTGACGCGGCGCAGGCGCTCGAGGCCTGGCATCAGCAAGGTTACCGGTTGTTTGTCTATTCCTCGGGGTCGATCCAGGCACAGAAGCTGATTTTTGGCTGTTCCGAGGCTGGCGACCTGTCGCCGTTGTTCAGCGGTTATTTCGACACCACGTCGGGAGCCAAGCGGGACGCGCAGTCGTATCGGCGAATCAGCGAGGCGATGGGGATCGCGCCGCAGGAAATCCTGTTTCTGTCGGATATCGTCGAGGAACTGGACGCGGCCAGGAATGCCGGAATGGCAACCTGTGGATTGGCCCGCGAGGGCGGTGATCTGGCCGGCCACACGACGGTTGAAAGCTTCGCGCAGATCGAACCTTCGCGCTTCTGA	MTIKAILTDIEGTTSAVSFVFDVLFPYAARHLPDFVRHNAGRADVAEQLDAVRRDSAEPDADVERVIAILLGWIAEDRKATPLKALQGMVWEQGYTAGQLKGHVYPDAAQALEAWHQQGYRLFVYSSGSIQAQKLIFGCSEAGDLSPLFSGYFDTTSGAKRDAQSYRRISEAMGIAPQEILFLSDIVEELDAARNAGMATCGLAREGGDLAGHTTVESFAQIEPSRF				NA	NA	NA	NA	NA
D1-35_01922	279			hypothetical protein	ATGAACATGATTCAAGAGAAGTTTGCATCGCTGTTTTCCAACTACGAAGTCACCACGCAGCCTCGCCCGGACGGCGGCATTCTGCTGACCTTGCGCAACAGCGATGGCAAACTGTTCAAGCGTACGATTTCCTACGCTCAGTTGCATGCCGGGGACCAACTTTCCTGGGCGATCAGTGCCATTCGCCGCGACCTGGCTGAACAGGCCAGCGAACTGCCACCGGTCGCGATGCTGCAGAGCCAGCACCGTTTCGCGCTGCCGACCTATCACAGCGCCTGA	MNMIQEKFASLFSNYEVTTQPRPDGGILLTLRNSDGKLFKRTISYAQLHAGDQLSWAISAIRRDLAEQASELPPVAMLQSQHRFALPTYHSA				NA	NA	NA	NA	NA
D1-35_01923	1824	caiC		Crotonobetaine/carnitine--CoA ligase	ATGAGTCGTACACCCAGCGACGCTATTACCTGGGGCATGATGCTGCGCAAACTGCCCGTCATCGCCAAAGTTGTTCCGCGAATCATCAAGGGCCTGAAACTCGCCAACGTCCAGGACCCCACCCAGCCTTGCGGCCTTGGCTGGTGTTTCGAACAGGCCACGCAACGCAATCCCCACGGCCCGGCGCTGCTCTGCGGCGACACGGTACTGTCTTATGCACAGGTCAACGAACAGGCCAATCGCATTGCCCATTACTTGCTGGCGCAAGGTCTTGGCAAGGGCGACTGCGTGGCGATTGTTCTGGAAAACCGCCCGCAGCTGCTGATTACGGTGTTGGCGGTGGCGAAGGTCGGGGCGGTGAGCGCGATGATCAACACATCGCAAACCGGAGATGCCCTGGTGCACAGCCTGGCGTTGGTCGCGCCGGTGGCGGTGGTGGTCGGGGATGAACGGGTCGCTGTCTTCAACGACGTGCGCGGCCGAACGGCGCTGGCGGATGCGCGGACCTGGTGGGTTGCCGACCAGGACAGTGGCGCGGTTCCGTGCGGATTCGTCGACCTGATGGTCGGCAGCGAGGATTACCCAGGCGATAACCCGCTTGGCAGACAGGTGTTTTTCAACGATCCCTGTTTTTATCTCTACACCTCGGGCACCACCGGGTTACCCAAGGCCGGCGTATTCCGCCATGGACGCTGGATGCGCACCTCGACCAGTTTTGGCCTGATCGCCCTGGACATGCAGCCCGATGACGTCGTTTATTGCACGCTGCCGCTGTATCACGCCACCGGCCTGTGTGTGTGCTGGGGCGCGGCAGTTTGCGGTGCCTCGGGGTTCGCCATCCGCCGCAAGTTCAGCGCCAGCCAATTCTGGAGCGACGTGCGTCGCTACCGGGCGACCACGTTGGGTTATGTCGGCGAACTGTGTCGCTACCTGATCGAGCAGCCCGCCAGCGCCGACGACCGGCGGCATGAGGTCCGGAAGATGATCGGCAACGGCTTGCGCCCGGGCGCCTGGCTGGCCTTCAAGACCCGCTTCGGGATTGGCCATATCTGTGAATTGTATGCGGCCAGCGACGGCAATATCGGCTTCACCAACATCCTGAACTTCGATAACACGGTCGGGTTTTCCCTGATGGGTTGGGAACTGGTGCAGTACGACCATGACAGCGGCGCGCCGTTGCGCAACCTGCAAGGGCGCATGCAGAAAGTCCCCAAGGGCGAGCCGGGCCTGCTGCTGGCGCGCATCGACGACAAGGCGCCGCTGGATGGCTACACCGATCCGGCCAAGACCGAAAAAACCGTCTGCCGAGACGTCTTCGTCCCAGGCGATCGTTATTTCAACACCGGCGACCTGCTGCGCAATATCGGCTTCGGCCACGGGCAGTTCGTTGATCGCCTCGGCGACACCTATCGCTGGAAAGGCGAAAACGTCTCCACCACCGAAGTCGAAAACGCGCTCCTGCAACATCCACAGATCGCCGAGGCGGTGGCCTACGGCGTGGAGATCACCGGAACCAACGGCCGCGCCGGGATGGCCGCGATCACCCCGGCCGAGTCCCTGGCGACCCTGGATTTCAGCGAGCTGCTGCAATTTCTGCAAGGCAAGCTGCCGGCCTACGCGGTGCCGCTGTTCCTGCGGATCAAGGTGAAGATGGAAACGACCGGCACGTTCAAGTACCAGAAAACCCGCCTCAAGGCCGAAGCCTTTGACCCCTGCCTCACGGGCGAGGAACCGATCTACGCCTGGCTCCCCGACACCTCGACCTACGTGCGGGTGGACCGCCAACTGGCGACGCGGATCCAGGGTGGGCAGTACCGCTATTGA	MSRTPSDAITWGMMLRKLPVIAKVVPRIIKGLKLANVQDPTQPCGLGWCFEQATQRNPHGPALLCGDTVLSYAQVNEQANRIAHYLLAQGLGKGDCVAIVLENRPQLLITVLAVAKVGAVSAMINTSQTGDALVHSLALVAPVAVVVGDERVAVFNDVRGRTALADARTWWVADQDSGAVPCGFVDLMVGSEDYPGDNPLGRQVFFNDPCFYLYTSGTTGLPKAGVFRHGRWMRTSTSFGLIALDMQPDDVVYCTLPLYHATGLCVCWGAAVCGASGFAIRRKFSASQFWSDVRRYRATTLGYVGELCRYLIEQPASADDRRHEVRKMIGNGLRPGAWLAFKTRFGIGHICELYAASDGNIGFTNILNFDNTVGFSLMGWELVQYDHDSGAPLRNLQGRMQKVPKGEPGLLLARIDDKAPLDGYTDPAKTEKTVCRDVFVPGDRYFNTGDLLRNIGFGHGQFVDRLGDTYRWKGENVSTTEVENALLQHPQIAEAVAYGVEITGTNGRAGMAAITPAESLATLDFSELLQFLQGKLPAYAVPLFLRIKVKMETTGTFKYQKTRLKAEAFDPCLTGEEPIYAWLPDTSTYVRVDRQLATRIQGGQYRY	PGPT0019835_108	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	vCITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019835-atuD-K13776	NA	NA
D1-35_01924	519			hypothetical protein	ATGTCCGATACAAGCCGCCAGATGACCCCGGAAGAAGCTGCGGAGTTTGCCGAGCAGGTATTCAACGTCGCTCGTCAGGGCGATGCCGCGATGATGGCCGCGCTGTTGAGCAAGGGCCTGCCGCCGAACCTGCGCAATCACAAGGGCGACACCTTGCTGATGCTGGCCGCGTACCACGGGCACGTGGAGACGGTAAAAGTGCTGCTGGAGAATAAGGCCGATCCGGAAATCCGCAACGACAACGGCCAGAGCCCGATTGCCGGTGCGGCGTTCAAGGGCGATCTGGCGGTGGTTTCGGCCCTCGTCGATGGCGGCGCGCAAGTCGAAGGCTCCTCGTTCGATGGCCGCACGGCGCTGATGATGGCGGCGATGTTCAACCGAGTGGAAATAGTCGATTACCTGATCAGCAAAGGCGCCGACCCGAAGGCCAAGGATGCCAACGGCGTCTCGGCGCTGGACGCGGCCAGGACCATGGGGGCGGTGGACACCACGGCGCAGCTGGAAAAGTTGTTGGGCTGA	MSDTSRQMTPEEAAEFAEQVFNVARQGDAAMMAALLSKGLPPNLRNHKGDTLLMLAAYHGHVETVKVLLENKADPEIRNDNGQSPIAGAAFKGDLAVVSALVDGGAQVEGSSFDGRTALMMAAMFNRVEIVDYLISKGADPKAKDANGVSALDAARTMGAVDTTAQLEKLLG				NA	NA	NA	NA	NA
D1-35_01925	531			hypothetical protein	ATGAAAGCCGCACTCGTCGAACTCATCAGCAAAATCAGCTCCGGCTGCCTGGGCGAGGCGGACATCGAGAAAATCGCCGACGAAGCGGCCCAGGCCTACGCCGACCCGGTGACGTTCCTGGCGGCGAACCCGGACATCAACTATGACGACAGCTTCCCGATCCCGCTGGGGGAGTGGGTGGTGGTAGGCAGTCTGCCGGACACCGTGCTGTTCCAGGCCGACTCCTACGTCGACCTGTTCGAGCAGATCGTCGCCTCGTTCGGCCCTGGCGTCGCGTTCAACCTCAAGCCCAAGCAACTGGCGAAGACCGAGGCGCTGACCGCGCTCAATCGTATCCAGATCCAGATGAGCAGCCTGAACAAGGAGAGCGGCGGCTACGTGCTGATGAACTTCAGCCAGTTGCTCGACGATGAATTGCAGATGGTGCTGGTGTACGGCAACGACGTGCCGCGTGTGCTGGAGTTGTGTGGCGAAGTCGGCATCGCCGCGGCCCCCGCCCTGGAAGCGCTCAAGATCGCGGTTCACGTCTGA	MKAALVELISKISSGCLGEADIEKIADEAAQAYADPVTFLAANPDINYDDSFPIPLGEWVVVGSLPDTVLFQADSYVDLFEQIVASFGPGVAFNLKPKQLAKTEALTALNRIQIQMSSLNKESGGYVLMNFSQLLDDELQMVLVYGNDVPRVLELCGEVGIAAAPALEALKIAVHV				NA	NA	NA	NA	NA
D1-35_01926	192			hypothetical protein	ATGGGTTCCACTTTCAACGGCCTGATTGGCCTGATCATCCTGGCGCTCGATATCTGGGCGATCATCAATGTGCTCAAGAGTGGCGCGGGCACCGGGGCGAAAGTCCTGTGGGTGCTGCTGATTCTCCTGCTGCCGGTGTTGGGCCTGATCATCTGGGCGATTGCCGGGCCGCGGGGCAACGTGCGGGTCTGA	MGSTFNGLIGLIILALDIWAIINVLKSGAGTGAKVLWVLLILLLPVLGLIIWAIAGPRGNVRV				NA	NA	NA	NA	NA
D1-35_01927	1200	sotB_2		sugar efflux transporter	ATGAGTGCTCATTCACCCGCCTCGCCCGCTGCCCTGACCCGAGGCATGGTCCTGCTGTTTGCCTTCTGCTGCGGCGCCATCGTTGCCAATATCTACTACGCCCAACCCATCATCGAACTGATCGCGCCCGACGTCGGCCTGTCCAGCACCATGGCCAGCCTGATCGTCTCGCTGACCCAGATCGGCTACGCCCTGGGCCTGTTTTTCCTGGTGCCGCTGGGGGATCTGCTGGAAAACCGGCGCTTGATGATTTTCACCACCGTGGTGGCAATTGCCAGCCTGCTGGGCGCGGCGTTTACCGAGCAGCCGAACGTGTTCCTGCTGGTGTCATTGCTGGTGGGGTTCAGTTCCGTCTCGGTGCAAGTGCTGATTCCGCTGGCGGCGCACCTGGCACCGGAAGAATCCCGGGGACGGGTCGTGGGCGGGATCATGGGCGGCCTGCTGTTGGGGATCCTGCTAGCGCGGCCGGTGTCCAGCCTTGTCGCCGATCACCTTGGCTGGCGGGCGATGTTCATGATCGCCGCCGCGTTGATGGCGGCAATCAGCATCGTCCTGGCATTCACCGTGCCCAAGCGCCAGCCCGAGCACCGCGCCTCCTACGCGCAACTGCTGGGCTCGCTCGGCACCCTGTTACGCCAGCAGCCGCAGTTGCGCCAGCGGGCTTTGTACCAGGCGTGCATGTTTGCCACGTTCAGCCTGTTCTGGACCGCCGTCCCCCTGGAGCTGTCGCGCAACCATGGTTTGTCCCAGACTGAAATTGCGCTGTTTGCGCTGGTCGGCGCCATCGGTGCCGTCGCCGCGCCGATTGCCGGCCGCCTGGCGGACGCCGGCCACACCCGAATTGCTTCGCTGCTGGCCATGCTGTTCGCCAGCCTGAGTTTCCTGCCGGCGTTCATCCATCCCGCTTATAGCGTGATCGGCCTTGCGGTGACCGGCGTGGTTCTGGATTTCTGCGTGCAGATGAACATGGTCCTGGGCCAGCGCACCATCTACGCCCTTGACGCAAAAAGCCGCAGCCGCCTGAACGCGCTGTACATGACCAGCATCTTTGTCGGCGGCGCTTTCGGTTCGTCCATCGCCAGTGCCGTCTACGAACATGGCGGCTGGCTGTGGGTGGTGATCATCGGTAGCGCCTTCCCGTTGCTGGCCCTGTTGCGTTTCCTGAGTGCTTCGCAGAAGGCTTCGCTGGCGACGGCCTGA	MSAHSPASPAALTRGMVLLFAFCCGAIVANIYYAQPIIELIAPDVGLSSTMASLIVSLTQIGYALGLFFLVPLGDLLENRRLMIFTTVVAIASLLGAAFTEQPNVFLLVSLLVGFSSVSVQVLIPLAAHLAPEESRGRVVGGIMGGLLLGILLARPVSSLVADHLGWRAMFMIAAALMAAISIVLAFTVPKRQPEHRASYAQLLGSLGTLLRQQPQLRQRALYQACMFATFSLFWTAVPLELSRNHGLSQTEIALFALVGAIGAVAAPIAGRLADAGHTRIASLLAMLFASLSFLPAFIHPAYSVIGLAVTGVVLDFCVQMNMVLGQRTIYALDAKSRSRLNALYMTSIFVGGAFGSSIASAVYEHGGWLWVVIIGSAFPLLALLRFLSASQKASLATA				NA	NA	NA	NA	NA
D1-35_01928	999	sbp_1	COG1613	Sulfate-binding protein	GTGAAGAATTTCTTTGGCGCCTCCCTCCTCGCCGCCGGCCTGGCGTTCGGCAGCCTGGCCCACGCCGCCCCGACTCTGCTCAACGTTTCCTACGACGTGATGCGGGATTTCTATAAGGACTACAACGCCGCGTTCCAGAAACACTGGCAGGCCGAGCACAACGAAAGCATCACCGTGCAGATGTCCTTTGGCGGTTCGAGCAAGCAGGCGCGCTCGGTAATCGATGGGCTGCCAGCGGATGTCATCACCATGAACATGGCGACTGACATCAATGCCTTGGCCGACAACGGCAAGCTGGTTCCGGATAACTGGGTCACCCGCCTGCCGAACAACAGCGCGCCGTTCACCTCGGCCACCGTGTTTATCGTGCGCAAGGGCAATCCGAAAGCGCTGAAGGACTGGCCGGACCTGCTCAAGGACGGCGTCCAAGTGATCGTGCCCAACCCGAAAACCTCGGGCAACGGCCGCTATACCTACCTTTCGGCCTGGGGCTATGTGCTGAAGAATGGCGGCGATGAGAACAAGGCCAAGGATTTCGTCGGCAAGCTGTTCAAGCAGGCCCCTGTGCTGGACACCGGCGGTCGTGCCGCGACGACTACGTTCATGACCAACCAGATCGGCGATGTGCTGGTGACCTTTGAGAACGAAGCGGAAATGATCGCCCGTGAATTCGGTCGCGACCAGTTCGAAGTGGTCTACCCAAGCGTCTCCGCCGAAGCCGAGCCACCGGTCAGCGTTGTGGATAAAGTCGTCGAGAAGAAAGGTTCCCGCGCCGCCGCCGAGGAGTACCTCAAATACCTGTGGTCGCCCGAAGGCCAGGAAATTGCCGCCGCCAACTACCTGCGTCCTCGCGACCCGGCGGTGCTGGCCAAATACACCGACCGTTTCCCGAAAGTGGATTTCCTCTCGGTGGAAAAAACCTTCGGCGACTGGCGCACCGTGCAGAAGACCCATTTCAACGATGGTGGGATTTTTGACCAGATCTATAGCGGGCAATAA	MKNFFGASLLAAGLAFGSLAHAAPTLLNVSYDVMRDFYKDYNAAFQKHWQAEHNESITVQMSFGGSSKQARSVIDGLPADVITMNMATDINALADNGKLVPDNWVTRLPNNSAPFTSATVFIVRKGNPKALKDWPDLLKDGVQVIVPNPKTSGNGRYTYLSAWGYVLKNGGDENKAKDFVGKLFKQAPVLDTGGRAATTTFMTNQIGDVLVTFENEAEMIAREFGRDQFEVVYPSVSAEAEPPVSVVDKVVEKKGSRAAAEEYLKYLWSPEGQEIAAANYLRPRDPAVLAKYTDRFPKVDFLSVEKTFGDWRTVQKTHFNDGGIFDQIYSGQ	PGPT0002995_720	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002995-cysP|ylnA-K02048	NA	NA
D1-35_01929	825			hypothetical protein	ATGGACAGCAATAACAACTGGCGTGAACGCCTCTACGTGATCATTTTCCAGACCGACACGGTGGCCGGCCGCCGCTTCGACAGCACGCTGCTGTTGATCATCCTTGCGAGCCTGGTGATCGTGATGCTCGACAGCATCGACAGCGTGCACAAGAACTACGCGGCCCTGCTGGCCTACATCGAGTGGGGTTTCACGTTGATTTTCATCGTTGAATACGGCCTGCGCCTGTACTGCTCGCCCAAGCCGCTGCGCTATGCGTTCAGCTTTTATGGCCTGGTGGACCTGCTGGCGATCGTGCCGGGCATCCTCGCGTTGTACTACAGCGATGCCCAGTACCTGCTGATCGTACGGATCATCCGCATGCTGCGGATTTTCCGCGTTCTCAAGCTCAGCCCCTACCTCAAGCAGGCCAACTATCTATTGGCCGCACTGCGCGGCAGCAAGCAGAAAATCATCGTGTTCCTGGTCAGCGTGTCGACCCTGGTGACGGTGTTTGGCACCCTGATGTATGTCATCGAAGGCCCCGAGCATGGTTTCACCAGCATTCCCAAGGGCATCTATTGGGCTATCGTGACATTGACCACCGTAGGCTTCGGCGACATCGTGCCGAAGACGCCGCTGGGCCAAGTGGTTTCGTCCCTGGTGATGATTACCGGCTACTCGATCATCGCCGTACCGACGGGTATCTTCACTGCGGAACTGGCCACCGCCATGCGCGGTGACCAGCTCAAGCACAATTGCCCGGTGTGCAGCAAAAACAACCACGACCATGGCGCTGCTTTCTGTTCTCGTTGCGGTAACGCACTGTTTAAGAAATTGGAATAA	MDSNNNWRERLYVIIFQTDTVAGRRFDSTLLLIILASLVIVMLDSIDSVHKNYAALLAYIEWGFTLIFIVEYGLRLYCSPKPLRYAFSFYGLVDLLAIVPGILALYYSDAQYLLIVRIIRMLRIFRVLKLSPYLKQANYLLAALRGSKQKIIVFLVSVSTLVTVFGTLMYVIEGPEHGFTSIPKGIYWAIVTLTTVGFGDIVPKTPLGQVVSSLVMITGYSIIAVPTGIFTAELATAMRGDQLKHNCPVCSKNNHDHGAAFCSRCGNALFKKLE	PGPT0002715_3538	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716	NA	NA
D1-35_01930	900		COG4413	Urea transporter	ATGCCCAACACCCACTGCCCAGACTGGGCCACCGCCCTGCTCAACGGCTTCAGCCAGATTTTCCTCCAGCGCCATCCCCTGTGCGGCCTGTTCTGCCTCTTGGCGATTCTGCTCACCGCGCCAGCGTTGTTCGGCGGCGCGCTACTGGGCGGCGTGGCCGGATTGCTGACGGCCCAACGACGTGGTTATGCCAAGGAGGATCGGCAGGCCGGGCTGTTCAGCTATAACGGCATCCTGCTGGGTTTGCTGCTGAGCCTGGCATTGCCTTGGTCAGCCCTGTTGCCGCCATTGATCATCGCCGCTGGCGGCCTCAGCGCAATGCTCACCCAACAGTGGCTCAAGCGCACCCGAGGCCCACGCTGCCTGCCCGCCTACACCGCGCCTTTCGTCGGGCTCGGCTGGTTGCTGCTGGGTCTCGCCCCGCCTGCGCCCTCGCCCGCTGCACTGGAGCAGACACTCCCCAACCTGTTGCTTGCCCCGCTTAACGGCCTCGGCCAGGTCATGTTTCTCGACCAGCCCCTGGCTGGTGTGCTGATCACCATCGGCCTGCTGATCGCCAACCGTCGCGCCGTCGGCTGGGCGCTGTTCGGTTCCGTCGCAGGCTTTGCCTTCGCCTGGCTGCACGATTGCCCGCACACCTTGTCCGGCCTGGGCGGCTACAACCCGGCCTTGGTGGCCGTGGCCCTCGGCCAACAGGCACGCGGGCCATGGCAGCCGCTGGCGGGCGTGCTGCTGGCGGTCCTTCTCGCACCGGGTTTCGCGGCGCTGGGCGTGGCGCCATTGACGGCGCCATTCATTCTCGCGTGCTGGCTGGTGCATGCCACCGCGCGGCTTTGGCACCCAGGCTGTCTCGACATCGCGCCTTGCGCTCTGCGGGGCAATCACCCTAGGCTGCGCTGA	MPNTHCPDWATALLNGFSQIFLQRHPLCGLFCLLAILLTAPALFGGALLGGVAGLLTAQRRGYAKEDRQAGLFSYNGILLGLLLSLALPWSALLPPLIIAAGGLSAMLTQQWLKRTRGPRCLPAYTAPFVGLGWLLLGLAPPAPSPAALEQTLPNLLLAPLNGLGQVMFLDQPLAGVLITIGLLIANRRAVGWALFGSVAGFAFAWLHDCPHTLSGLGGYNPALVAVALGQQARGPWQPLAGVLLAVLLAPGFAALGVAPLTAPFILACWLVHATARLWHPGCLDIAPCALRGNHPRLR	PGPT0000950_317	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000950-utp-K08717	NA	NA
D1-35_01931	1416	ttuE		Pyruvate kinase	ATGACGCCTGACAAGAAGGTCAAGATCCTCGCGACACTCGGCCCCGCCACCCGTGGGATCGATGACATCCGCGAACTGGTGCAGGCCGGAGTGAACATCTTTCGCCTGAACTTCAGCCACGGCGACCACGCCGACCACGCCCAGCGCTACCAGTGGATCCGCGAAGTCGAGCAGCAGCTCAATTACCCGCTGGGCATCCTGATGGACCTGCAAGGACCAAAACTGCGGGTCGGCAAGTTCGCCGATGGCAAGGTGCTGTTGCAGCGCGGTCAAGCCTTGCGTCTGGACCTGGACCCGACGCCAGGCGATCAGCGTCGGGTCAACCTGCCCCACCCGGAAATCATCGCCGCGCTGGAGCCGGGCATGGACTTGCTGCTCGATGACGGCAAGCTGCGCCTGCGGGTAACCGCCAGACACACCGACGCCATTGATACCGAGGTGCTCAACGGTGGCGAACTGTCGGACCGCAAGGGCGTGAACGTGCCCCAGGCCGTGCTCGACCTGAGCCCGCTGACCGCCAAGGACCGCCGCGACCTGAGTTTCGGCCTGGAGCTGGGCGTGGACTGGGTGGCGCTGTCGTTCGTGCAGCGTCCCGAGGACATTCGCGAAGCCCGCGCGCTGATCGGCGACAAGGCGTTCCTGATGGCCAAGATCGAGAAGCCCTCGGCCGTCGCGCAACTGCGGGAAATCGCCGAACTGAGCGACGCGATCATGGTTGCCCGAGGTGACCTGGGCGTCGAGGTGCCGGCCGAGAGCGTGCCGCAGATTCAGAAAAACATCATCGGCACCTGCCGCGCCCTCGGCAAACCGGTGGTGGTGGCGACACAGATGCTTGAGTCGATGCGCTTCTCCCCGGCGCCGACCCGCGCCGAAGTCACCGATGTCGCCAACGCCGTGGCCGAAGGTGCCGACGCGGTGATGCTGTCGGCGGAAACCGCCTCGGGCGACTATCCCCTCGAAGCCGTGCAGATGATGAGCAAGATCATCCGCCAGGTGGAAAACGGCCCGGACTACCAGGCACAACTCGACGTCAGCCGACCGAAAGCCGAGGCCACGGTGTCGGACGCCATCAGTTGCGCGATCCGCCGGATCAGCAACGTGCTGCCCGTGGCGGTGCTGGTCAACTACAGCGAGTCGGGCAGCTCCAGCCTGCGGGCGGCGCGGGAACGGCCGACGGTGCCGATCCTCAACCTGACGCCCAACCTGCAGGCGGCCCGTCGCCTGACCGTCGCGTGGGGCGTGCATTCGGTGGTCAACGATCGGCTGCGGCAGGTGGACGAAGTGTGTTCCACCGCGCTGGAAATCGCCCAGGCCCAGGGCATGGCCCAGCGTGGCGACACCCTGCTGATTACCGCCGGCGTGCCGTTCGGGCAGCCGGGGTCGACCAACTCGCTGCGTATCGAGACCCTCATCTAG	MTPDKKVKILATLGPATRGIDDIRELVQAGVNIFRLNFSHGDHADHAQRYQWIREVEQQLNYPLGILMDLQGPKLRVGKFADGKVLLQRGQALRLDLDPTPGDQRRVNLPHPEIIAALEPGMDLLLDDGKLRLRVTARHTDAIDTEVLNGGELSDRKGVNVPQAVLDLSPLTAKDRRDLSFGLELGVDWVALSFVQRPEDIREARALIGDKAFLMAKIEKPSAVAQLREIAELSDAIMVARGDLGVEVPAESVPQIQKNIIGTCRALGKPVVVATQMLESMRFSPAPTRAEVTDVANAVAEGADAVMLSAETASGDYPLEAVQMMSKIIRQVENGPDYQAQLDVSRPKAEATVSDAISCAIRRISNVLPVAVLVNYSESGSSSLRAARERPTVPILNLTPNLQAARRLTVAWGVHSVVNDRLRQVDEVCSTALEIAQAQGMAQRGDTLLITAGVPFGQPGSTNSLRIETLI	PGPT0002020_7110	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002020-pyk-K00873	NA	NA
D1-35_01932	1281	ttuD		Putative hydroxypyruvate reductase	ATGTCGGTCGATCCGCAACAATTGCTGCGCGAGCTGTTTGCCACGGCCATCGACGCGGCCCATCCGCAGCACGTCCTCGAACAGTACCTGCCCGCTGACCGCAGCGGTCGGGTGATCGTCATCGGTGCCGGCAAGGCCGCCGCGGCCATGGCGCAAGTGGTCGAGCGCTGCTGGCGCGGCGAAGTCAGCGGCCTGGTGGTGACCCGCTACGGCCATGGCGCGCCCTGCGAGAAAATCGAAGTGGTCGAGGCCGCTCATCCAGTACCGGACGCCGCTGGCCTGGAAGTGGCCGGACGGGTGCTCGAACTCGTCAGCAACCTCAACGAAGACGACCGGGTGATCTTCCTGCTGTCCGGCGGGGGCTCGGCGTTGCTGGCCTTGCCGGCGGCCGGCATCACCCTGGCCGACAAGCAATCGATCAACAAGGCCCTGCTCAAGTCCGGCGCCACCATTGGCGAGATGAATTGCGTGCGCAAGCACCTCTCGGCGATCAAGGGAGGCCGACTGGGCAAGGCCTGCTGGCCGGCGACCGTCTACACCTACGCGATTTCCGATGTGCCCGGCGATCTCGCCACGGTTATCGCCTCCGGCCCCACCGTGGCCGACCCCAGCACTTCGGCCGACGCGCTGGCGATTCTCAAGCGCTACGGCATGGAGATCCCGGCCTCGGTGCGCACCTGGCTGCAAAGTCCGGAATCGGAGACCGTCAAGCCCGGCGACCCGAGCCTGACGCGCAGTCATTTCCAGCTCATCGCCCGCCCTCAGCAATCCCTCGAAGCCGCGGCGGTGAAGGCTCGCCAGGCCGGTTTCAGCCCATTGATCCTCGGTGACCTGGAAGGCGAATCCCGGGACGTGGCGAAGGTCCATGCCGGCATCGCCCGGCAAATCGCCCTCCACGGCCAGCCCTTGGCTGCGCCGTGCGTGATCCTTTCCGGCGGCGAAACCACGGTCACCGTGCGCGGCAATGGCCGTGGCGGGCGCAACGCCGAGTTCCTGCTGAGCCTGACCGACAGCCTCAAGGGCCACCCCGGCATCTATGCACTGGCGGGCGACACCGACGGCATCGACGGCTCCGAAGACAATGCCGGCGCCATCATGACCCCGGACAGCTATCGCCGCGCCACCGAGCTGGGCCTGAACGCCAGTGATGAACTGGATAACAACAACGGCTACGGCTACTTCGCCGCGCTGGACGGGTTGATCGTCACCGAGCCGACCCGCACCAATGTCAACGATTTTCGCGCCATCCTGATCCTCGAGAACCCGAAAAATGACGCCTGA	MSVDPQQLLRELFATAIDAAHPQHVLEQYLPADRSGRVIVIGAGKAAAAMAQVVERCWRGEVSGLVVTRYGHGAPCEKIEVVEAAHPVPDAAGLEVAGRVLELVSNLNEDDRVIFLLSGGGSALLALPAAGITLADKQSINKALLKSGATIGEMNCVRKHLSAIKGGRLGKACWPATVYTYAISDVPGDLATVIASGPTVADPSTSADALAILKRYGMEIPASVRTWLQSPESETVKPGDPSLTRSHFQLIARPQQSLEAAAVKARQAGFSPLILGDLEGESRDVAKVHAGIARQIALHGQPLAAPCVILSGGETTVTVRGNGRGGRNAEFLLSLTDSLKGHPGIYALAGDTDGIDGSEDNAGAIMTPDSYRRATELGLNASDELDNNNGYGYFAALDGLIVTEPTRTNVNDFRAILILENPKNDA	PGPT0024440_1000	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024440-gck|gckA-K11529	NA	NA
D1-35_01933	891	glxR	COG2084	2-hydroxy-3-oxopropionate reductase	ATGGCTAAAATCGGATTCATCGGCACCGGCATCATGGGCCACCCCATGGCACTGAACCTGCAAAAGGCCGGTCACAGCCTGTTCCTGACCCAGCATCACGACGCTGCCCCGGCCGACCTCGTGGCAGGCGGCGCGGTGGCGCTGGCCAACCCGAAGGAAGTCGCCCAGGAGGCCGAATTCATCATCGTCATGGTCCCGGATACCCCACAGGTCGAGGACGTGCTGTTCCGCGCCGACGGCGTAGCGGCCGGCGTGGGCGCGGGCAAGGTGGTGATCGACATGAGTTCGATCTCCCCCACCGCCACCAAGGCGTTCGCGGCGAAGATCAATGAAAAAGGCGCGCAGTACCTCGACGCCCCGGTGTCCGGCGGTGAAGTCGGCGCCAAGGCCGCGACCCTGAGCATCATGGTCGGTGGCGACAGCGCCGCGTTCGAGCGTGCGCTGCCACTGTTCCAGGCGATGGGCAAGAACATCACCCTGGTGGGCGGCAACGGCGATGGCCAGACCGCCAAGGTGGCGAACCAGATCATCGTCGCGCTGAACATCCAGGCCGTGGCCGAGGCCCTGCTGTTCGCCTCGAAGAATGGCGCCGACCCGGCCAAGGTCCGTGAAGCGTTGATGGGCGGTTTCGCCTCGTCGAAGATCCTCGAAGTACACGGTGAGCGCATGATCAAGGGCACCTTCGACCCGGGCTTCCGCATCAGCCTGCACCAGAAGGACCTGAACCTGGCCCTGCAAGGCGCCAGGGAGCTGAACATCAACCTGCCCAACACCGCCAACGCCCAGCAAGTGTTCAGCACCTGCGCGGCCATGGGTGGCAGCAATTGGGACCACTCGGCGCTGATCAAGGGGCTGGAGCATATGGCCAATTTCTCGATTCGCGATAACTGA	MAKIGFIGTGIMGHPMALNLQKAGHSLFLTQHHDAAPADLVAGGAVALANPKEVAQEAEFIIVMVPDTPQVEDVLFRADGVAAGVGAGKVVIDMSSISPTATKAFAAKINEKGAQYLDAPVSGGEVGAKAATLSIMVGGDSAAFERALPLFQAMGKNITLVGGNGDGQTAKVANQIIVALNIQAVAEALLFASKNGADPAKVREALMGGFASSKILEVHGERMIKGTFDPGFRISLHQKDLNLALQGARELNINLPNTANAQQVFSTCAAMGGSNWDHSALIKGLEHMANFSIRDN	PGPT0018170_447	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
D1-35_01934	783	hyi	COG3622	Hydroxypyruvate isomerase	ATGCCGCGTTTCGCCGCCAACCTGTCCATGCTGTTTACCGAGCAGGATTTCCTCGCCCGTTTCGAAGCGGCCGCCAAGGCCGGTTTCAGTGGTGTCGAGTACCTGTTCCCCTACGACTACAGCTCCGCCGAACTCAAGGCCCTGCTCGACGCCTATGGCCTGACCCAAGTGCTGTTCAACCTGCCGGCCGGCGACTGGGCCAAGGGTGAGCGCGGTATCGCCTGCCTGCCGGATCGGGTCGAGGAGTTCCGCGCCGGGGTCGACCTGGCGATTGCCTATGCCAAGGTGTTGGGCAACACCCAGGTCAATTGCCTGGCCGGGATCCGTTCGCAGAAGTGCGACGAAGCGCTGGCGGAAAAAACCTTCGTCGCCAACCTGAAGTACGCCGCCGAAAAGCTCCAGGGCGCCGGCATCAAGCTGGTGATGGAAGCCATCAACACCCGCGACATCCCGGGTTTTTTCCTGAACAACACCGCCCAGGCCCTGTCGATCCGCGAACAGGTGGGCAGCGCCAACCTGTTCCTGCAATACGACATCTATCACATGCAAATCATGGAAGGCGACCTGGCCCGGACGCTGTCGGCGCACCTGGGCGAAATCAACCATGTGCAACTGGCGGACAACCCGGGCCGCAACGAGCCCGGCACCGGCGAGATCAATTATCGGTTCCTGTTCGAACACCTGGATCGCATTGGTTATCAGGGTTGGATCGGCTGTGAATACAAGCCGCTCACCACGACCGAAGCGGGACTGGGCTGGTTGAAAAGCCATAACGCGATCTGA	MPRFAANLSMLFTEQDFLARFEAAAKAGFSGVEYLFPYDYSSAELKALLDAYGLTQVLFNLPAGDWAKGERGIACLPDRVEEFRAGVDLAIAYAKVLGNTQVNCLAGIRSQKCDEALAEKTFVANLKYAAEKLQGAGIKLVMEAINTRDIPGFFLNNTAQALSIREQVGSANLFLQYDIYHMQIMEGDLARTLSAHLGEINHVQLADNPGRNEPGTGEINYRFLFEHLDRIGYQGWIGCEYKPLTTTEAGLGWLKSHNAI	PGPT0018150_462	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0018150-otnI|ygbM-K22131	NA	NA
D1-35_01935	1776	gcl	COG3960	Glyoxylate carboligase	ATGAGCAAAATGAGAGCAATCGAAGCCGCCGTCCTGGTGATGCGCCGTGAAGGCGTGGACACCGCCTTCGGCATCCCGGGTGCCGCGATCAACCCGCTGTACTCTGCCCTGCAAAAGGTTGGCGGCATCGATCATGTCCTCGCTCGCCACGTTGAAGGCGCCTCGCACATGGCCGAGGGCTACACCCGGACCAAGGCCGGCAACATCGGCGTGTGCATCGGTACTTCGGGGCCGGCGGGCACTGACATGGTCACTGGCCTCTACAGCGCTTCGGCCGACTCGATTCCGATCCTGTGCATCACCGGACAAGCGCCCCGCGCCCGCATGCACAAGGAAGATTTCCAGGCGGTGGATATCACCAGCATCGTCAAGCCCGTGACCAAATGGGCGACTACCGTGCTGGAGCCGGGACAGGTGCCCTACGCCTTTCAGAAGGCTTTCTTCGAGATGCGCTCCGGCCGTCCGGGCCCGGTGCTGATCGACTTGCCGTTTGACGTGCAGATGGCCGAGATCGAATTCGACATCGACGCCTATCAGCCGCTGCCCCTGGCCAAGCCGGCCGCCAACCGGGTGCAGATCGAGAAGGCCTTGGCGATGCTGAACCAGGCCGAGCGCCCATTGCTGGTGGCGGGTGGCGGCATCATCAATGCCGATGCCAGCGACCTCTTGGTGGAGTTTGCCGAGCTCACCGGCATCCCGGTGATCCCGACCTTGATGGGCTGGGGCACGATCCCGGACGATCATCCGTTGATGGTCGGCATGGTCGGCCTGCAAACCTCGCACCGCTACGGCAACGCCACCTTGCTCAAGTCGGACGTCGTGCTGGGCGTCGGCAACCGTTGGGCCAACCGCCACACCGGTTCGGTGGACGTCTACACCGAAGGCCGCACATTCATTCACGTCGACATCGAACCGACCCAGATCGGCCGGGTGTTCACCCCCGACCTGGGTATCGTTTCCGACGCAGCCTCGGCCCTGACCGTGTTCATCGAAGTGGCCCGCGAATGGCAAGCCGCCGGCAAGCTGAAGAACCGCAGCACCTGGCTTCAGGATTGCCAGCAACGCAAGGCCAGCCTGCAGCGCAAGACCCATTTCGACAACGTGCCGGTGAAGCCGCAGCGCGTCTATGAGGAAATGAACCAGGTGTTCGGCAAGGACACCTGCTATGTCAGCACCATCGGTCTATCGCAGATCGCCGGGGCGCAGTTCCTCCACGTCTACAAACCACGCCACTGGATCAACTGCGGCCAGGCCGGTCCCCTGGGCTGGACCATTCCGGCCGCGCTGGGAGTGGTCAAGGCCGATCCGGATCGCAAGGTCGTGGCGCTGTCGGGCGACTATGATTTCCAGTTCATGATCGAAGAACTGGCGGTGGGCGCACAATTCAAGCTGCCCTACATCCATGTCGTGGTGAACAACTCCTACCTGGGCTTGATCCGCCAGGCTCAGCGCGGCTTCGACATGGACTACTGCGTGCAGCTGTCCTTCGACAACCTCAACGCCCCGGAGCTCAACGGTTATGGCGTGGACCACGTCGCCGTGGCCGAGGGCCTGGGTTGCAAGGCATTGCGGGTGTTCGAGCCGTCAGGTATCCAGCCAGCGCTGCGCAAGGCCCAGGAGATGATCGAAGAGTTCAGGGTGCCAGTGATCGTCGAGATCATCCTTGAGCGGGTGACCAACATTTCCATGGGCACCGAGATCAACGCCGTCAATGAATTTGAAGACCTGGCGCTGGTGGGCAACGATGCACCCACCGCGATTTCATTGCTCGACTGA	MSKMRAIEAAVLVMRREGVDTAFGIPGAAINPLYSALQKVGGIDHVLARHVEGASHMAEGYTRTKAGNIGVCIGTSGPAGTDMVTGLYSASADSIPILCITGQAPRARMHKEDFQAVDITSIVKPVTKWATTVLEPGQVPYAFQKAFFEMRSGRPGPVLIDLPFDVQMAEIEFDIDAYQPLPLAKPAANRVQIEKALAMLNQAERPLLVAGGGIINADASDLLVEFAELTGIPVIPTLMGWGTIPDDHPLMVGMVGLQTSHRYGNATLLKSDVVLGVGNRWANRHTGSVDVYTEGRTFIHVDIEPTQIGRVFTPDLGIVSDAASALTVFIEVAREWQAAGKLKNRSTWLQDCQQRKASLQRKTHFDNVPVKPQRVYEEMNQVFGKDTCYVSTIGLSQIAGAQFLHVYKPRHWINCGQAGPLGWTIPAALGVVKADPDRKVVALSGDYDFQFMIEELAVGAQFKLPYIHVVVNNSYLGLIRQAQRGFDMDYCVQLSFDNLNAPELNGYGVDHVAVAEGLGCKALRVFEPSGIQPALRKAQEMIEEFRVPVIVEIILERVTNISMGTEINAVNEFEDLALVGNDAPTAISLLD				NA	NA	NA	NA	NA
D1-35_01936	441			hypothetical protein	ATGAGCGATCTCACCTTGAAAATCGCCGTCAGCCTGGCGGGGCAAGCCCTTGCCGCAGGCCGCGAGATCAGCGCAGCCCCCTTGACCGTCGCGGTCCTGGACAGCGGCGGACACCTCGTAGCCTTGCAGCGCGAGGACGGCGCCAGCCTGTTGCGCCCGCAAATCGCCATCGGCAAGGCCTGGGGCGCCATCGCCCTGGGCAAAGGCTCACGCCTGCTCGCCCAGGACGCCCAGCAGCGCCCGGCGTTCTTTGCCGCTTTGAACGGCATGGGCCAAAGCAACATCGTGCCGGCACCGGGCGGAGTGTTGATCAGGGATCAGGACGGGAAGGTGCTGGGGGCGATTGGTGTCAGCGGGGATGTTTCGGATGTGGATGAGCAGGTGGCGGTCAGGGCGGTGGAGGTGTCGGGGTTGAGGGCGGATGTGGGGGTTGTTGTTTGA	MSDLTLKIAVSLAGQALAAGREISAAPLTVAVLDSGGHLVALQREDGASLLRPQIAIGKAWGAIALGKGSRLLAQDAQQRPAFFAALNGMGQSNIVPAPGGVLIRDQDGKVLGAIGVSGDVSDVDEQVAVRAVEVSGLRADVGVVV				NA	NA	NA	NA	NA
D1-35_01937	459			hypothetical protein	ATGTCTGACCTACCCGCTTCACACCGCTTGCGAACCGGCCGCTACGGTGAGTTGAATCGAATCTATTTATTGACCACTAACACGGCTGATCGAAAGCCCGTCTTCCATGATTTCGCTTTAGGCAGATTGGTCGTTGAACAATTTCGATGTGCTGAGGATAAACGATGGGCAAAGTCATTAGCCTGGGTGGTCATGCCGGACCATTTTCATTGGCTGGTTGAGTTGCAACAAAGCTCACTGAACGAGCTGATGCAAAAGACCAAGTCCTTGAGCGCTCGGGCAGTAAACATATCCACCGGCTATAGAGGCAGCCTTTGGCAGCCGGGATACCATGAACGAGCATTGAGGCAGGAGGATGGATTGATAGTTATGGCGCGCTATGTCGTCGCCAACCCACTGCGGGCAGGCCTGGTGAAGCGGCTTGGCGACTATCCGCTGTGGGATGCCATCTGGCTTTGA	MSDLPASHRLRTGRYGELNRIYLLTTNTADRKPVFHDFALGRLVVEQFRCAEDKRWAKSLAWVVMPDHFHWLVELQQSSLNELMQKTKSLSARAVNISTGYRGSLWQPGYHERALRQEDGLIVMARYVVANPLRAGLVKRLGDYPLWDAIWL	PGPT0030655_3057	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030655-yafM|rayT|tnpA-K07491	NA	NA
D1-35_01938	609	rutR_1	COG1309	HTH-type transcriptional regulator RutR	ATGAGCACTATCCGCGAGCGCAACAAAGAACTGATCCTGCGTGCCGCCAGCGAAGAGTTTGCCGACAAGGGCTTCGCCGCGACCAAAACCAGCGACATCGCGGCCAAGGCGGGCCTGCCCAAACCCAACGTCTACTATTACTTCAAATCCAAGGAGAACCTCTACCGCGAGGTCCTGGAAAGCATCATCGAGCCGATCCTCCAGGCCTCCACGCCCTTCAACGCCGACGGCGAGCCGGGCGAAGTATTGAGCCACTACATCCGCTCCAAGATCCGCATCTCCCGCGACCTGCCCTTCGCCTCGAAAGTCTTCGCCAGTGAAATCATGCACGGCGCCCCGCACCTCAGCGCCGACCTGGTCGAACAACTCAACGCCCAGGCCCGGCACAACATCGACTGCATCCAGACCTGGATCGACCGCGGCCAAATCGCCCCCATCGACCCCAACCACCTGATGTTCAGCATCTGGGCCGCCACCCAGACCTACGCCGATTTCGACTGGCAGATCAGCGCCGTGACCGGCAAGGCCAAGCTCGACGAAGCGGATTACGAAGCGGCGGCGCAGACGATTATCCGGTTGGTTTTGAAGGGGTGTGAGGTGGATCGCTAG	MSTIRERNKELILRAASEEFADKGFAATKTSDIAAKAGLPKPNVYYYFKSKENLYREVLESIIEPILQASTPFNADGEPGEVLSHYIRSKIRISRDLPFASKVFASEIMHGAPHLSADLVEQLNAQARHNIDCIQTWIDRGQIAPIDPNHLMFSIWAATQTYADFDWQISAVTGKAKLDEADYEAAAQTIIRLVLKGCEVDR				NA	NA	NA	NA	NA
D1-35_01939	915	yedI	COG2354	Inner membrane protein YedI	ATGGCTGGAAGCAGTTTGCTGGTTTTGATCGACGACATCGCCACCGTGCTCGACGATGTGGCGCTGATGACCAAGATGGCCGCCAAGAAAACCGCCGGCGTGCTCGGCGACGACCTGGCGCTCAATGCCCAGCAAGTCTCCGGCGTGCGGGCCGAGCGGGAGCTGCCGGTGGTCTGGGCGGTGGCCAAGGGTTCCTTCATCAACAAGCTGATCCTGGTGCCGTCGGCGCTGGCAATCAGTGCCTTCGTGCCTTGGCTGGTGACACCCCTGTTGATGGTGGGTGGCGCCTACCTGTGTTTCGAAGGGTTCGAAAAACTCGCCCACAAGTTCCTTCACAGCAAGGCTGAAGACCAGGCCGGGCATGCGCAACTGGTGGAGGCGGTGGCCGACCCGGCGGTGGACCTGGTGACCTTCGAAAAGGACAAGATCAAAGGCGCGGTTCGCACCGACTTCATTCTCTCGGCGGAAATCATCGCCATCACCCTCGGCACTGTCGCCGATGCGCCGCTGACCCAGCAGGTTATCGTGCTGTCGGGCATTGCGATTGTCATGACTGTCGGCGTGTACGGCCTGGTGGCGGGGATCGTCAAGCTCGATGACCTGGGCTTGTGGCTGACCAAAAAGCCAGGGCAGGCCGCCAAAAGCATCGGCGGCGCCATCCTGCGCGCCGCGCCCTACATGATGAAAAGCCTGTCGGTGATCGGTACGGCGGCGATGTTCCTGGTGGGCGGCGGCATCCTGACCCATGGCGTACCGGCGGTGCATCACTGGATCGAAGGCGTGGCGGCTGGTGCCGGCGGCGCCGGGTTCATCGTGCCGATGCTGCTCAATGCGGTGGCGGGGATTGTCGCGGGTGCTGCCGTGTTGGCGGGTGTGCTCGTCGTGGGCAAAATCTGGAAAGCGCTGAAAGGCTGA	MAGSSLLVLIDDIATVLDDVALMTKMAAKKTAGVLGDDLALNAQQVSGVRAERELPVVWAVAKGSFINKLILVPSALAISAFVPWLVTPLLMVGGAYLCFEGFEKLAHKFLHSKAEDQAGHAQLVEAVADPAVDLVTFEKDKIKGAVRTDFILSAEIIAITLGTVADAPLTQQVIVLSGIAIVMTVGVYGLVAGIVKLDDLGLWLTKKPGQAAKSIGGAILRAAPYMMKSLSVIGTAAMFLVGGGILTHGVPAVHHWIEGVAAGAGGAGFIVPMLLNAVAGIVAGAAVLAGVLVVGKIWKALKG				NA	NA	NA	NA	NA
D1-35_01940	789			hypothetical protein	GTGGCTAAATACCTCCTGCTTATCGCCGCGTTAATGAGTGCGGGCATGGTCCACGCCGATAACAGCAAGGCCAATGCCCCCGTGGTGGTGGATTCGGACGGCTTCAAGGAGCCGCTGACCAAACTCAAGTTCAACCCGGGCCTGGACCAGCGCGAATTCGAACGCTCGACGCTCAACGCTTTGAACGTCTACGACCCGCTGGAATCGTGGAACCGCCGCGTCTACCACTTCAACTACCGCTTTGACGAATGGGTCTTCCTCCCTGTTGTCGACGGCTACCGCTACGTCACCCCGGCCTTCGTGCGCACCGGCGTCAGCAATTTCTTCAACAACCTGGGGGACGTGCCGAACCTGATGAACAGCCTGCTGCAATTGAAGGGCAAGCGTTCGATGGAAACCACGGCGCGCCTGCTCCTCAATACCACCGTCGGCATCGCCGGCCTCTGGGACCCGGCCACGGCCATGGGCCTGCCGCGCCAGAGCGAGGACTTTGGCCAGACCCTGGGTTTCTATGGTGTGCCCGGCGGCGCGTATTTCGTGCTGCCGATCTTCGGTCCTTCGAACCTGCGCGACACTTCGGGCCTGCTGGTGGACTACACCGCGGAATCGGCGATCAACTTCCTGAACGTCTCGGAGGTCAGCTCCAACCACCCGGAACTGCTGCTGTTGCGCGGCGTGGACAGGCGCTACCAGACCAGCTTCCGCTACGGGCAGCTGAACTCGCCGTTCGAGTATGAGAAGGTGCGGTACGTGTACACCGAGTCGCGCAAGTTGCAGATCGCCGAGTAA	MAKYLLLIAALMSAGMVHADNSKANAPVVVDSDGFKEPLTKLKFNPGLDQREFERSTLNALNVYDPLESWNRRVYHFNYRFDEWVFLPVVDGYRYVTPAFVRTGVSNFFNNLGDVPNLMNSLLQLKGKRSMETTARLLLNTTVGIAGLWDPATAMGLPRQSEDFGQTLGFYGVPGGAYFVLPIFGPSNLRDTSGLLVDYTAESAINFLNVSEVSSNHPELLLLRGVDRRYQTSFRYGQLNSPFEYEKVRYVYTESRKLQIAE	PGPT0024485_990	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024485-mlaA|vacJ-K04754	NA	NA
D1-35_01941	1299			hypothetical protein	ATGCTCCGTTCCTTGCGCTTCGCTGCCTTCGCCGGCGGCCTTATCCTGAGTGCGTCCGCGCTGGCGGTGGATGTCGACGCCGCCAGCTATGGCTACCCCTTGACCAACCCGTTCGAGGCGACCATCGCCACCACGCCGCCGGACCTGCGCCCGGAGCTGCCGCTCAATGAGGACATCAACCAGTCGGACCAGAGCCTGACCCTGCGTCCGGAGCGCGAATTCATCCTGCCGGACAATTTCTGGCCGGTGAAAAGCCTCACCTACCGCATGGCCACCCAGGACAAACCCGCGCCGCTGATCTTCCTGATCGCGGGCACCGGCGCGCGGTATGACAGCACGCTCAACGAGTATTTGAAGCGCCTCTACTACAAGGCCGGCTACCACGTGGTGCAGTTGTCCTCGCCCACCAGTTTCGATTTCATGAGTGCCGCTTCGCGCTTCGCCACGCCAGGCATCACCAAGGAAGACGCCGAAGACATGTATCGCGTGATGCAGGCCGTGCGCGCGCAAAATCCGAAAGTGCCCGTCACCGAGTACTACCTGACCGGCTACAGCCTCGGCGCCCTGGACGCGGCCTTCGTTGCGCACCTGGACGAGACCCGGCGCAGTTTCAACTTCAAGAAAGTCCTGTTGCTGAACCCGCCGGTGAACCTCTACACCTCGATCACCAACCTGGACAAGCTGGTCCAGACCGAGGTCAAGGGCATCAACAGCACCACGACATTCTATGAACTGGTGCTGAACAAACTGACCCGCTACTTCCAGCAGAAAGGCTACATCGACCTCAACGACGCCCTGCTCTATGACTTCCAGCAGTCCAAGCAACACCTGACCAACGAGCAGATGGCGATGCTGATCGGCACCTCGTTCCGTTTCTCGGCGGCCGACATCGCCTTTACCTCGGACCTGATCAACCGTCGCGGCCTGATCATCCCGCCGAAGTTCCCGATCACTGAAAGCACCAGCCTGACGCCGTTCCTCAAGCGCGCGCTGCAATGCGATTTCGACTGCTACCTCACCGAGCAGGTGATCCCGATGTGGCGTGCGCGCACCGACGGCGGCAGCCTGCTGCAACTGGTTGACCAGGTGAGTCTGTACGCGTTGAAGGATTATCTGCAGGCCAGCACGAAAATCGCGGTGATGCACAACGCCGACGATGTGATTCTCGGCCCGGGCGACCTCGGCTTCCTGCGCAAGACTTTTGGCGACCGCCTGACCGTTTATCCACTGGGCGGCCATTGCGGCAACCTTAACTATCGCGTCAACAGCGACGCCATGCTGGAGTTCTTCCGTGGCTAA	MLRSLRFAAFAGGLILSASALAVDVDAASYGYPLTNPFEATIATTPPDLRPELPLNEDINQSDQSLTLRPEREFILPDNFWPVKSLTYRMATQDKPAPLIFLIAGTGARYDSTLNEYLKRLYYKAGYHVVQLSSPTSFDFMSAASRFATPGITKEDAEDMYRVMQAVRAQNPKVPVTEYYLTGYSLGALDAAFVAHLDETRRSFNFKKVLLLNPPVNLYTSITNLDKLVQTEVKGINSTTTFYELVLNKLTRYFQQKGYIDLNDALLYDFQQSKQHLTNEQMAMLIGTSFRFSAADIAFTSDLINRRGLIIPPKFPITESTSLTPFLKRALQCDFDCYLTEQVIPMWRARTDGGSLLQLVDQVSLYALKDYLQASTKIAVMHNADDVILGPGDLGFLRKTFGDRLTVYPLGGHCGNLNYRVNSDAMLEFFRG				NA	NA	NA	NA	NA
D1-35_01942	855			hypothetical protein	ATGAAGATGCGACGACTCTTGGGCGCAGGTGCCGCACTGGTACTGGCGATCAGCTCCACCCTGGCCAGCGCCGAAACCAAAACCCTGAGCATTGGTTATGTCGACGGCTGGTCCGACAGCGTCGCGACCACCCATGTGGCGGCCGAAGTGATCAAGCAGAAACTCGGTTATGACGTGAAGCTGCAAGCGGTGGCGACCGGGATCATGTGGCAGGGCGTGGCCACCGGCAAGCTCGATGCAATGCTTTCGGCCTGGCTGCCGGTGACTCACGGTGACTACTGGACGAAAAACAAGGACAACGTGGTCGACTACGGCCCGAACTTCAAGGACGCCAAGATCGGCCTGATCGTGCCAGAGTACGTCAAGGCCAAGTCGCTGGAAGACCTCAAGACCGACGATTCCTTCAAGAAACGCATCGTCGGCATCGACGCCGGTTCAGGCGTGATGCTCAAGACCGAACAGGCGATCAAGGACTACGACCTGACCGGTTATCAACTCAAGGCCAGTTCCGGCGCCGGCATGATCGCCGAGCTGACCCGTGCCGAGAAGAAACAAGAGTCCATCGCCGTCACCGGTTGGGTGCCGCACTGGATGTTCGCCAAGTGGAAACTGCGCTTCCTGGAAGATCCGAAGGGTGTCTACGGCGCGGCTGAAACCGTAAACAGCATCGGCAGCAAAGGCCTGGAAGCCAAGGCGCCGGGAGTGGTCGCGTTCCTGAAGAAGTTCCAGTGGGCCTCGAAAGACGAAATCGGTGAAGTCATGCTGGCGATCCAGGAAGGCGCCAAGCCGGACGCCGCCGCCAAGGATTGGGTTGCCAAGCACCCGGACCGCGTGAAGGAGTGGACCGGCAAGTAA	MKMRRLLGAGAALVLAISSTLASAETKTLSIGYVDGWSDSVATTHVAAEVIKQKLGYDVKLQAVATGIMWQGVATGKLDAMLSAWLPVTHGDYWTKNKDNVVDYGPNFKDAKIGLIVPEYVKAKSLEDLKTDDSFKKRIVGIDAGSGVMLKTEQAIKDYDLTGYQLKASSGAGMIAELTRAEKKQESIAVTGWVPHWMFAKWKLRFLEDPKGVYGAAETVNSIGSKGLEAKAPGVVAFLKKFQWASKDEIGEVMLAIQEGAKPDAAAKDWVAKHPDRVKEWTGK	PGPT0013640_3825	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
D1-35_01943	312	yjcH	COG3162	Inner membrane protein YjcH	ATGAACGACAGCATTTACCTCTCGATACAAAACAGCCCGCGCTTCAAGGAGCTGGTGAGTAAAAGGGAAAAGTTCGCCTGGATTCTCTCGGCGATCATGCTAGGGCTTTACTCGGGATTCATCCTTCTGATTGCCTACGGGCCGCATATTCTCGGCGCCAAGATCACGCCTGAGGGAACGATCACCTGGGGCATTCCCATCGGGATCGGCCTGATTCTCTCGGCTTTTGTCCTGACCGGCATTTACGTACGACGCGCCAATGGCGAGTTCGACGACCTGAACAATGCGATTCTCAAGGAGGCTCAGCAATGA	MNDSIYLSIQNSPRFKELVSKREKFAWILSAIMLGLYSGFILLIAYGPHILGAKITPEGTITWGIPIGIGLILSAFVLTGIYVRRANGEFDDLNNAILKEAQQ				NA	NA	NA	NA	NA
D1-35_01944	1659	actP	COG4147	Cation/acetate symporter ActP	ATGATCCGGCGTCTACTGGCTCTTTTGAGCATCGCTGCGTTCGCACCGAGCGTCTGGGCGGCTGATGCCGTGGCGGGGGCTGTGCAGAAACAACCCCTCAACGTCGCGGCTATCCTGATGTTCGTGGCCTTCGTCGGCGCGACTCTGTACATCACCTACTGGGCGTCCAAGAAAAACAACTCGGCGGCCGACTACTATGCGGCTGGCGGCAAGATCACCGGCTTCCAGAACGGCCTGGCGATTGCCGGCGACTACATGTCGGCGGCTTCCTTCCTGGGTATTTCCGCGCTGGTGTTCACGTCCGGTTATGACGGCCTGATCTACTCCATCGGCTTCCTGGTGGGCTGGCCGATCATTCTGTTCCTGATCGCCGAGCGTCTGCGCAACCTAGGTAAATACACCTTCGCCGACGTGGCGTCCTATCGCCTCGGGCAAACCCAGATCCGCAGCCTGTCGGCTTGCGGTTCGCTGGTGGTGGTGGCGTTCTACCTGATCGCGCAAATGGTCGGTGCCGGCAAGCTGATCCAGCTGCTGTTCGGCCTGGACTACCACGTTGCGGTGATCCTGGTCGGTATCCTGATGTGCCTCTACGTGCTGTTCGGCGGCATGCTGGCCACCACCTGGGTACAAATCATCAAGGCCGTGCTGTTGCTGTCGGGTGCTTCGTTCATGGCGCTGATGGTGATGAAGCACGTCAACTTCGACTTCAACATGCTGTTTGCCGAAGCGGTCAAGGTTCACCCTAAAGGTGAAGCGATCATGAGCCCTGGCGGCCTGGTGAAGGATCCGATCTCGGCCTTCTCCCTCGGCCTGGCGCTGATGTTCGGTACCGCTGGCCTGCCACATATCCTGATGCGCTTCTTCACCGTTAGCGACGCCAAGGAAGCTCGCAAGAGCGTGCTGTATGCCACCGGCTTCATCGGCTACTTCTACATCCTGACCTTCATCATCGGCTTCGGCGCGATCCTGCTGGTCAGCACCAACCCGGCCTTCAAGGACGCGGCAGGTGCCTTGCTGGGCGGCAACAACATGGCGGCGGTGCATCTGTCCAACGCGGTTGGCGGCAGCATCTTCCTGGGCTTCATCTCGGCGGTGGCGTTCGCGACCATCCTGGCGGTGGTAGCGGGGCTGACCCTGGCCGGTGCCTCGGCGGTGTCCCATGACCTGTACGCCAGCGTGATCAAGAAAGGCAAGGCCAACGAGAAGGATGAGATTCGGGTTTCGAAAATCACCACCATCTGTCTGGCGGTGCTGGCGATCGGCCTGGGCATCCTGTTCGAGAAGCAGAACATCGCGTTCATGGTGGGCCTGGCGTTCTCCATCGCGGCGAGCTGCAACTTCCCGGTACTGCTGCTTTCGATGTACTGGAAGAAGCTGACTACCCGTGGCGCGATGATCGGCGGCTGGCTGGGCCTGGTCAGTGCCGTGGGCCTGATGGTGCTCGGTCCGACCATCTGGGTGCAGATCATGGGTCACGAGAAGGCGATCTTCCCGTACGAATACCCAGCGCTGTTCTCGATGGCCATTGCGTTCGTCGGCATCTGGTTCTTCTCCATCACCGACAAGTCGGCTGAAGGCGCTAACGAGCGGGCGCTGTTCTTCCCGCAGTTCGTGCGTTCGCAGACGGGTCTGGGGGCGAGTGGGGCGGTTAATCACTGA	MIRRLLALLSIAAFAPSVWAADAVAGAVQKQPLNVAAILMFVAFVGATLYITYWASKKNNSAADYYAAGGKITGFQNGLAIAGDYMSAASFLGISALVFTSGYDGLIYSIGFLVGWPIILFLIAERLRNLGKYTFADVASYRLGQTQIRSLSACGSLVVVAFYLIAQMVGAGKLIQLLFGLDYHVAVILVGILMCLYVLFGGMLATTWVQIIKAVLLLSGASFMALMVMKHVNFDFNMLFAEAVKVHPKGEAIMSPGGLVKDPISAFSLGLALMFGTAGLPHILMRFFTVSDAKEARKSVLYATGFIGYFYILTFIIGFGAILLVSTNPAFKDAAGALLGGNNMAAVHLSNAVGGSIFLGFISAVAFATILAVVAGLTLAGASAVSHDLYASVIKKGKANEKDEIRVSKITTICLAVLAIGLGILFEKQNIAFMVGLAFSIAASCNFPVLLLSMYWKKLTTRGAMIGGWLGLVSAVGLMVLGPTIWVQIMGHEKAIFPYEYPALFSMAIAFVGIWFFSITDKSAEGANERALFFPQFVRSQTGLGASGAVNH	PGPT0001400_1788	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CATION_TRANSPORT,PGPT0001400-actP-K14393	NA	NA
D1-35_01945	1998	asnB_2	COG0367	Asparagine synthetase [glutamine-hydrolyzing] 1	ATGTGCGGTATTTTCTCATCCCTTGGTTTTGACATCGATACTCATTATGTGGAGCGTGCGCTAGACGCTTTGCACCACAGGGGTCCTGATGGACGTAGCTCCTACTTTGATCATGAGGAAAAACTCGTTCTGGGTCATACCCGACTGTCCATTATCGATCTTGATAATGGTGGTCAGCCACTGTTCAGCAAAGACGGCAACAAGGTCCTTGTTTGTAATGGCGAGATCTATGATCACGACCGGTTAAGAGCCGAGTTGATCGAAGAGGGTTATTCATTTTCCTCATGTTCGGATTCTGAAGTCATTCTTCATCTTTATGAACGTGATGGGATCGATTTTACCAGCTCCCTGCGGGGCGAATTTGCGTTCATACTATTTGACCGAACTCAACGAAAACTGCATATCTGCCGAGACCGTTTTGGTATTAAGCCGTTGTACTATCATCTGGATCAAACCTGTGGCCTGAAGATAGCCTTCGCCTCGGAAGCCAAGGCCCTTTTCGCGGCTGGCATTCTTGCTCCAAAGCTAGATGTCGTTGCTATTCGCGACATGCTCAGCTTTGTGCCAATGGACAGTATTTTTGAAAATATCAATGTGGTGAAGCCTGCTACGTTGATCACCATCGACCTTGAGCGCTCAAGTCTCGAAAGCCATGTGTACTGGGAACCAGACCTGCTACCTGATGCCTTTGATGCCAAACGGCACGATGAAGCTCAGGTATTGGCAGAACTGAAGCAAAGACTTGAGGAATCCATCTCACTAAGGCTTCGAGCGGACGTGCCCGTGGGCATTTATCTCAGCGGTGGCCTGGATTCGGCGGCGGTCGCTGCGATCGCCGCGAAAATCCTGCCGTCGCCACCCGAAGTTTTTTCCATTTCCTTCAATGAAGATGAGGACTATGACGAAGCAGCCATTGCAATGCGCATGGCCGCGAAAATTGGCGCCAACTTCCATAAAATTCAATGCAGCGAAGACGACCTGCTGGGTAACCTTGAGGATTGCCTCTGGTTCAGTGAAACCCCGGCAGTCAATTACAACGGCGTCGGCAAATACCTGTTATCCAAACTAGCAGCCCAGCATGTCACCTGCGTCCTGACGGGGGAGGGCTCAGACGAACTGTTTCTAGGCTATGCCTACTTCAAGGACCGCAACGAGGGGTTATCGAGTCACGCCTATCGGCGCGCGCCGAAGAAGCCCACAAGAGCGCAAAACCGCTCGGAACAACGGATCAATCGAACCTTCGGGTTCGTTCCTCAGGTCGAGATGATTGATCTTTTTTCTACCAGTACTCAGGCGTTTCTGCACAATCTCTTCGCCAAGTGCAAGCGGCCGATATTGCGCACTACATCGCCGATAAGCCGTTTAACACAACGTATCGACAAAGCGCAGACCGACCCGCTTGAACCGGTCAATAAGATGCAGATGTTCAGCATCAAGGGTTTGCTGTCCCCCTTCATTCTGTCCAATCTTGGGGATCGCCAGGAAATGGCTCACTCCCTTGAAGGTCGAACTCCTTTTTTGGATCATCATTTGTTCGACTGGGCGTGCAAGCTGCCGAACACGCTGAAGATCAAAGACGGTGTAGAAAAATACATTCTTCGTGAGCTGGTCAAAAATGACATTACGGATGAAGTCTATGCTCGCAAGAAGTGGCCCTACATCACGCCTCCCATTTGGGTCGACGCCGGAAGGTCAGAAAAAATGGCCAAGCTGGTCGACACCTATCTAACGCCTCAAGCGATCAAGACCAGCGGGATATTTTCAGCATTTTCCATTCGACTGATGCTCAAGCTGGTGAAAACGCGCGTGGTGCCACGACACCTTCGAGAGAGGCTCAACAACATCCTGCTTTATGTTCTGACCGTACAGATCCTTGACAACCAGTACGTTCAGAATCTCGATACGTGGTTGGAGTCAAGTAAAGCGACCAGGTCTCGTAAAGCGCAAAATGACGTCCCTGTATCGCGCCATCGAGCGCCTCCGATGATGATTCCATAA	MCGIFSSLGFDIDTHYVERALDALHHRGPDGRSSYFDHEEKLVLGHTRLSIIDLDNGGQPLFSKDGNKVLVCNGEIYDHDRLRAELIEEGYSFSSCSDSEVILHLYERDGIDFTSSLRGEFAFILFDRTQRKLHICRDRFGIKPLYYHLDQTCGLKIAFASEAKALFAAGILAPKLDVVAIRDMLSFVPMDSIFENINVVKPATLITIDLERSSLESHVYWEPDLLPDAFDAKRHDEAQVLAELKQRLEESISLRLRADVPVGIYLSGGLDSAAVAAIAAKILPSPPEVFSISFNEDEDYDEAAIAMRMAAKIGANFHKIQCSEDDLLGNLEDCLWFSETPAVNYNGVGKYLLSKLAAQHVTCVLTGEGSDELFLGYAYFKDRNEGLSSHAYRRAPKKPTRAQNRSEQRINRTFGFVPQVEMIDLFSTSTQAFLHNLFAKCKRPILRTTSPISRLTQRIDKAQTDPLEPVNKMQMFSIKGLLSPFILSNLGDRQEMAHSLEGRTPFLDHHLFDWACKLPNTLKIKDGVEKYILRELVKNDITDEVYARKKWPYITPPIWVDAGRSEKMAKLVDTYLTPQAIKTSGIFSAFSIRLMLKLVKTRVVPRHLRERLNNILLYVLTVQILDNQYVQNLDTWLESSKATRSRKAQNDVPVSRHRAPPMMIP				NA	NA	NA	NA	NA
D1-35_01946	1005			hypothetical protein	ATGGCTGTTGATTTTTCCTGGAGTAAAATTTCCCAGTATTTCCATCCTGTTCTTGATGAAAAGAAATTGCGTAATTCACCCGTTCAGGTCGAAATTGGTGATTTCAAGATTGTGCTTTTCAGGGGGGCGGAAAACGAAATCGTAGCCATGCCTGATCGGTGCCCTCATCGATTTACTCCCCTGTCAATGGGAACTGTTTTACCCAACGGTTCGATAGAATGTCCTTACCACGGCTGGACCTTCGATAAAGACGGCAAAGGCGCCATTCCTTCCTGTCCAAAAGTAAAAACATGCACGATTCCTGTATTAAAGACGGTGCAACGCCATGGCGTCATTTGGGTAGGAGGACAGGAAGCCTCTCCTCCTCCTGAGTTTGAAGATCCTGATTACGTATTTTTGGGACAGTTCCCCGTTGTCTTCAAGTGTCCCTTACACGTTGCCCTGGATAATTTCTCTGAAGATGAGCATTTTCCGTATGTACATCAAACGTTCGGTTGGGACCGGGAAGGCGCAAAGCACGTCGAATACGAATTTGAACAGTTCGATGACAGCACCAATAACTATTACCGAGGTCCCATTCGAAAATTTCCGCTAATGTTCCTTACCGGTGTTCAGCCAGGGGATATCTCCCACAACCGGTTTATTACGTTTTTTAATCCAGTTCGCAGTACCTACGAGTCCTGGGTCACGCGTCGGGAAACCGCCGCATCTATTGGCGGGCGGATCAAAACCACCATATTCTTTGTTCCAAACAGTGCGCAGCGCACTACCCTCTACAGCTTCGTCTTTGGAAAAGCGGAGGATAAGAAATCTGCTTTCCTTCAAAAGAACCTTAAACGCTTTGTCTTGAAATTCATAAAAAAAGAATTTGAAGCAGACGGTAAATTCTCCGAGCGTCTTGCTCATCTTCCCTATGCACTGAACGGCACCAGGCTAGGAAAATATGACAAGCCTCTGGTTGTGCACAGAAAAATGCTTGAACGTATTTATTTAGGCGATCGCTAG	MAVDFSWSKISQYFHPVLDEKKLRNSPVQVEIGDFKIVLFRGAENEIVAMPDRCPHRFTPLSMGTVLPNGSIECPYHGWTFDKDGKGAIPSCPKVKTCTIPVLKTVQRHGVIWVGGQEASPPPEFEDPDYVFLGQFPVVFKCPLHVALDNFSEDEHFPYVHQTFGWDREGAKHVEYEFEQFDDSTNNYYRGPIRKFPLMFLTGVQPGDISHNRFITFFNPVRSTYESWVTRRETAASIGGRIKTTIFFVPNSAQRTTLYSFVFGKAEDKKSAFLQKNLKRFVLKFIKKEFEADGKFSERLAHLPYALNGTRLGKYDKPLVVHRKMLERIYLGDR				NA	NA	NA	NA	NA
D1-35_01947	252			hypothetical protein	ATGAACACGGCTCAAGTCAAAGAGGAGTTACATCACCTATGGAGAGAGTTGCTCCCCTCGCAGAGCTTCGATGAAGACTCAGATTTTCTAAGTGTCGGTGGCAGTTCATTAAAGGTCATGAGTCTTTTCGTAAAGTGTATGAAGAAATTTGGTGTGAAGATGGAAGTCAAAAATTTTTACGCATTGAATACTATCAATAGGCAAAGCGCTTTCATTACAAGCGAGTTGCAGCTTGAAGCACAGCTTGAGTAG	MNTAQVKEELHHLWRELLPSQSFDEDSDFLSVGGSSLKVMSLFVKCMKKFGVKMEVKNFYALNTINRQSAFITSELQLEAQLE				NA	NA	NA	NA	NA
D1-35_01948	750			hypothetical protein	ATGCACAGTCCGATTGCGGTCGTCACCGCTCCAAAAATCCCCAAGGCATATAAATCTCTATTTGAAAAAGCCGAGCAGGACCGGCTTTTAGTGGGGGACCTCGAAGTGAGGCTGTATCGCTGGCCCGGCGAACGTACTGTGTTATGCCTCCACGGTTCCAATGGCAATTCGGCTCAGTTTGGAAAGCTGATTTCCAAGTTGACTGAAGTGGGTCATGGCGTTATTGCGGTAGATATACCATCCCACGATGCGCAGGGTCGTTTTATCCCGTCCAACAATATCGGGTTCAGCCTCCTCGCCCTGCAAAAAAAATACGGCGAAATCTATGCGGTGGTCGCGCATTCCATGGCGTGCAGCTGGGCACTGTGGGCGATGAGGAACGGATTACACGTCCAACGTGTGGTCTGCTTGTCCCCCGCTGCGACTCAGGAATATGTCTTCAAGCGGTTCCTCGCGCTTCAGGCTGACCGGGGTGTTTGCATGGATGACCTGGAGCAAGAAATATCATCGTCATTCGGCAGTTCATGGAGGGAGGAGTATTCGACGATCAACCTATGCCAATTCCTGACGCTAGATGCGCTGATCTATCACGATCGCGATGATCCGGTAATTGAATTCGAACAAGGTGGCGAGCAACTTGCGGAACGTTGGGTCGGCGCCTTGTTTCGAGCGACGAATGGGCAAGGACACTCTGGGTTTTTTAGGAGTGAAACGATAATGGAAGAAGTTAAGAGTTTTATTGTTTCGTAA	MHSPIAVVTAPKIPKAYKSLFEKAEQDRLLVGDLEVRLYRWPGERTVLCLHGSNGNSAQFGKLISKLTEVGHGVIAVDIPSHDAQGRFIPSNNIGFSLLALQKKYGEIYAVVAHSMACSWALWAMRNGLHVQRVVCLSPAATQEYVFKRFLALQADRGVCMDDLEQEISSSFGSSWREEYSTINLCQFLTLDALIYHDRDDPVIEFEQGGEQLAERWVGALFRATNGQGHSGFFRSETIMEEVKSFIVS				NA	NA	NA	NA	NA
D1-35_01949	306			hypothetical protein	ATGGAAGCTGATGTGACCAAAGAGGCGCTGTACAGCAATATTGAACGAATCATTTTGCAGTACTGCGATGCGGCGGATCTGGGTATTACCGGTATCGATCCCGACGTCAGTCTGACCCAAGAGCTAGGCGTTGACAGTGTTGACTTCCTCGATATCGTTTTTGAGATCGAAGATACCTATAAAATTCAGTTTCCACTTGAGCAATGGTCGGCGGATGTGCCTGACGGTAAAAAAAATGAATCCAAGATGTGCGATTTCGTGGATGCAGTTTACGCACTAATAGTGCCGAAATTGGTTGAGGCATGA	MEADVTKEALYSNIERIILQYCDAADLGITGIDPDVSLTQELGVDSVDFLDIVFEIEDTYKIQFPLEQWSADVPDGKKNESKMCDFVDAVYALIVPKLVEA				NA	NA	NA	NA	NA
D1-35_01950	447			hypothetical protein	ATGAATTTCGAAGTTAACGCGTTGGTCGATAAGGTTGTGGACGTTTCTGAATGGGAACGTATTACCTGTCGCAGCACGGTGCCAACACAGGCCCCTCTCTTTGAGGGGCATTTTCCAGGTAACCCAATCGTTCCAGGCGTGTTGCTGGTGGAGATGATGGCTCAAGCGAGTGGTTATCTTTATATGTTGTCATCGGGTTTTCAGCGGATGCCTTACCTGGTAAATATCAAAAGCGCGAAGTTTAAGCGGTTTGTCTCGCCAGGTGAGGTGCTTGACGTGAAGTCGCAGTTAACTCATCAAGGAGACGGTTATTTGGTTTTCAAAGCCAGTATTAGCGCGCCGTTGATGGTGGCCAACGCCGAGCTCATGTTGAAACTAATGGATTTTCCTAATGACGTTCTCAAGGAAAGTGTTGTCAGTTCGGTAAAGTCGGCGAGGGGTGAGTGA	MNFEVNALVDKVVDVSEWERITCRSTVPTQAPLFEGHFPGNPIVPGVLLVEMMAQASGYLYMLSSGFQRMPYLVNIKSAKFKRFVSPGEVLDVKSQLTHQGDGYLVFKASISAPLMVANAELMLKLMDFPNDVLKESVVSSVKSARGE	PGPT0008365_1475	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008365-fabZ-K02372	NA	NA
D1-35_01951	999			hypothetical protein	ATGAATAACAGCGCCTTTATTCTGGGTGTCGGCGGAGTCTCCAACTTGGGATGTTTACAGGCCCGCGATCCATGGATGGCTTTTTCGCCGCTCCTTATCGGCACGAGCAAAGTCAGCGCGTCTGAATTCCCGGTGAGTAGATATATTACTAAACAGCGTGATATCAACTCTATGGGTTTGGGACAAAAAATGTTGGTCTGTGCCGCAGGCTTGGCATTGGAGGACGCACGCTTGCTGGGCAGCGATCTTACAAGCTATGACATTTTTATGGCTTCGAAAATCGGTGAACGAAATAAGGATGTCGATGCCGCTATTATACAAGGGGCTAAAATCGGTACGCTCGACATCAACGCCGAGTTGAGCCGTTTACGGCCTACCCATTTCCTTGCTGAACTACCGAATTTGTATTCAGCTAACATTTCGATAGTGTTTGGTGCTAAAGGCGAGAGCGTAACGTTCGTCGGAGAAGCGTCTGCTTCGGTACAAGCGGTGACGCATGCTATCGAGAAACTCTCGAGTGGGCAGGCGCACCATTCTATCGTAGGGGGCGTGTTCAACGGTGATCAGGAAATTCACGATGAGTACGTTGCCTCAATAAACCATTGTGGATCAACGCCCATCGTATTCGGCAGCGCAGCGACTTGTATGGTACTCGGATCGGTACCGACCGACGCGATAGCCGGTATTTCACGACTTGAGCGCTTTGATCTGAAGAACTTAGCCGAGATTATTATCGAGAATGAAGTGTCGGCCGTTTCGGCAAGTTTTCATCCCGGCATCAGTCCTCCTGCATATTGGTTCCCTGAAGGCGTTGGGATTGTAGGCGTCAATATCGCCGATTATTTCGGCAGTCTATTTGAATCGACATTGCCCACTCAAGTCCTGTTTTCATTGTTGCATTTTAAGCCAATGCTGCAGTTGCAACGCCGCAAGCGAATACTACTGATAACCCAAGTAGGAAGAGCACATTTCGAAGCATTTCTCGTGGATGTTTTATAG	MNNSAFILGVGGVSNLGCLQARDPWMAFSPLLIGTSKVSASEFPVSRYITKQRDINSMGLGQKMLVCAAGLALEDARLLGSDLTSYDIFMASKIGERNKDVDAAIIQGAKIGTLDINAELSRLRPTHFLAELPNLYSANISIVFGAKGESVTFVGEASASVQAVTHAIEKLSSGQAHHSIVGGVFNGDQEIHDEYVASINHCGSTPIVFGSAATCMVLGSVPTDAIAGISRLERFDLKNLAEIIIENEVSAVSASFHPGISPPAYWFPEGVGIVGVNIADYFGSLFESTLPTQVLFSLLHFKPMLQLQRRKRILLITQVGRAHFEAFLVDVL				NA	NA	NA	NA	NA
D1-35_01952	996	kshA		3-ketosteroid-9-alpha-monooxygenase, oxygenase component	ATGGACTCGCAAAATCAAATTCACCCGGTGACTAATCGGTTTCCATTTGGCTCGTATCCCTGCGGCTGGTATGCCGTAGCATGGGCTGACGATATTGATAATGAAACTATCCGAAGTGTGCGGCTCTGTGGCAAAGACATTGTTGTCGTTAGGACTGCTTCAGGGGAAGTTGCGGTATATGATGCCCATTGCCCTCATCTAGGCGCACACTTGGGGTTTGGTGGGGTGGTCATCGGTGAAAATATCCGGTGCCCGTTTCATGGCTGGGAGTTTGGTAGCGGTGGGCAGTGTAGCCGTATTCCATTCTATGACGGTACCATGAAAGTTGGCTTGAAACGGTGGCACTCGATTATTCACGCAGGCATGCTCCAAGTCTGGTACGGCGGCACGCAAAGTGAGCCTGGTTGGAATGTGGACCCAGTGGATTCTGTTGGATGGACCTCGCCGCGACTGGATAAGGGAAGTGTCTGGTCATTGAAGACGCACGTCCAAGAGGTGGCGGAAAATGGAGTGGATGTTGCTCACTTTACAACGGTACATAATGCGGAATCCATTGGCGAGTTAAGAGAGCTCTCATTCACTTGGCCACGTGCTAGTTGGACATCAATCAGCTCCAGTGATATCGGTGGGAAGTCTTCGGTGGCGCACGCCAACGTCGTATTGGATGGGTTGGGGTTGCATAAAGTTGAAGTCAATGTGGATGGTGGGAAGATAAGGTTTAGGAGTTTTCTCTACGTTTCCCCGATAGACAATGAGAACGTTGTAATCCGCATGAGCGTTTCCGTAAAACACACGGGCGACCCTCGTAAAGATGCGATGCTGATTAAATACCTTACCCCTCGATTAGCTGGTGAGTTGGCCAAGGATTTCGATATTTGGGAGAACAAAAAGTATATAGAACGCCCTCCATTAAGTCGCGTTGATGGTCCGATTGCCAAGTTTCGCCAATGGTGCCAGGGGTTTTACGACGGAAGTGCGGCATTTCAAGGTTGGTAG	MDSQNQIHPVTNRFPFGSYPCGWYAVAWADDIDNETIRSVRLCGKDIVVVRTASGEVAVYDAHCPHLGAHLGFGGVVIGENIRCPFHGWEFGSGGQCSRIPFYDGTMKVGLKRWHSIIHAGMLQVWYGGTQSEPGWNVDPVDSVGWTSPRLDKGSVWSLKTHVQEVAENGVDVAHFTTVHNAESIGELRELSFTWPRASWTSISSSDIGGKSSVAHANVVLDGLGLHKVEVNVDGGKIRFRSFLYVSPIDNENVVIRMSVSVKHTGDPRKDAMLIKYLTPRLAGELAKDFDIWENKKYIERPPLSRVDGPIAKFRQWCQGFYDGSAAFQGW				NA	NA	NA	NA	NA
D1-35_01953	345	pchB_1	COG1605	Isochorismate pyruvate lyase	ATGATGATGACGGTCGATAAAATATTTAGAGAACTTACCGCCAAACAACCGGATGAGTGTGAAAATCTCGCAGATATCCGTAGGGCGATTGACGGCTTGGATGAACACATTATCCGTGCGATGGGACAACGTATGTTATATGTCCGGTCCGCGTCTCGTTTCAAACCCTCTGAATCTAGTATCCCAGCGCCTGCGCGTGTGGCAGAAATGCTTCCTCAGCGTCGGAAATGGGCAGAAGAGGCGGGGTTGGATGGTGATTTTGTACAAGGTCTGTTTAGCCAGATTATCAATTGGTATATCGCTGAGCAGGTTGGTTATTGGCGACAACAACGAGGCCTCGCATAA	MMMTVDKIFRELTAKQPDECENLADIRRAIDGLDEHIIRAMGQRMLYVRSASRFKPSESSIPAPARVAEMLPQRRKWAEEAGLDGDFVQGLFSQIINWYIAEQVGYWRQQRGLA	PGPT0003065_308	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_AQUIRED_RESISTANCE|SAR	SAR-SALICYLIC_ACID_METABOLISM	SAR-SALICYLIC_ACID_BIOSYNTHESIS,PGPT0003065-pchB|pmsB-K04782	NA	NA
D1-35_01954	1413	pchA	COG1169	Salicylate biosynthesis isochorismate synthase	ATGAGTATTCTCGATGTGGATTACACAGGGCTTTATCTATGTATTGAAGAGGCTCATAAAAAAGCGCTTGAAACGGCAAGCCCTGTGCTCGCGGCTTTTTCTTGTGTTGTCGCAACGGTGGATCCGCTGTCGCTGTTGGAAAGAGCTCAGGGCTACCACGATTCCTACGCGTTTTGGAAGGCTAGAGACCCGGCGGTCTGCATGTTTGGCTGGGGTACGGAGGTTGAAATCAACGTCCAAGGCGAAACACGTTTTTCCGAGGTGCAGGCACTCTGGCGTTCGCTTCTTGAGCACTCGGTATGCCGGGGACCTTTAGGGCCTAGGTTGGTTGGCGGATTTCGATTTGATGTGGATGGTGACAAGGATCCGTGTTGGAGGGACTTCCCCGACGCCTGCATGAGTTTGTACAAAACGCTGGTTGTCCATGCGCCAGATCGGGATTGGCTGCTTTGCCACTGCTATGTCGATCCAGATGCGGATGTGGCTTTGTTGGTGGCTAGCTACAAAAAACACATCGAACTTTTATGCGGGCGCGAAAAGAAACTGGCGCACGGATCGTCCAACTTTGCGTTGTACGAACCGGCGAACGCTGGTCAATGGAAGTCAAAAGCCAGACTGGCTGTCGAGAAAATACAGTGCCAGGCATTTACCAAAGTCGTGCTGGCCCGGTCCGTCCAGCAGGTACATGACGAGCCCATCAATCCCGGCGCTTTGGTGAGAGCTTTAAGCAGCAATAGCCAAGCGCATCTGTTCGCTTTTAGCCGGGGTGATAGTTGCTTTGTTGGAGCAACGCCTGAGCGTCTGGCTTGTGTCCTCGACGGAAATCTTCACACCCATGCATTGGCGGGAACCACTCGCCGGGATGAGGACGCTGCAATAGACCGGCGCTTAGGGGAGATGCTTTTTGAGTCGAACAAGGAGCGGCACGAGCATGCCCTTGTCGTCGAGGCGATTCGTGAGGCGCTGACGCCGTTGGTATCCGAGCTGGAAATCTCCCAAGAGCCGACTTTGCACTGCCTTCCCAAAGTCCAGCATCTCAATACCGCCATTCGTGCTCAAGTCAAAGGGGAGGTTAGCTTACTCAATATAGTCGCGGCTATGCATCCAACGCCTGCGGTTGCCGGCCATTCACGCCAGGCGGCGCTTGATTATATTCGCAAGCACGAAGAACTGGATCGAGGTTGGTACGCTGCTCCTCTTGGTTGGCTTGATGCCGACGGGAATGGAGATTTTATTGTAGGGCTCAGATCCGCACTAATATCAGGCGTTAATTGTAGGCTCTTTGCGGGATGCGGCATTGTCAGCGACTCGGACCCAGAACAAGAATATCAAGAAACATGTCTGAAATTATCCGGTCTGCAACAGGCGCTAATTGATAGCGCTCGACCTATTGCAAGTCTGATGCTGGCTTGA	MSILDVDYTGLYLCIEEAHKKALETASPVLAAFSCVVATVDPLSLLERAQGYHDSYAFWKARDPAVCMFGWGTEVEINVQGETRFSEVQALWRSLLEHSVCRGPLGPRLVGGFRFDVDGDKDPCWRDFPDACMSLYKTLVVHAPDRDWLLCHCYVDPDADVALLVASYKKHIELLCGREKKLAHGSSNFALYEPANAGQWKSKARLAVEKIQCQAFTKVVLARSVQQVHDEPINPGALVRALSSNSQAHLFAFSRGDSCFVGATPERLACVLDGNLHTHALAGTTRRDEDAAIDRRLGEMLFESNKERHEHALVVEAIREALTPLVSELEISQEPTLHCLPKVQHLNTAIRAQVKGEVSLLNIVAAMHPTPAVAGHSRQAALDYIRKHEELDRGWYAAPLGWLDADGNGDFIVGLRSALISGVNCRLFAGCGIVSDSDPEQEYQETCLKLSGLQQALIDSARPIASLMLA	PGPT0003060_47	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_AQUIRED_RESISTANCE|SAR	SAR-SALICYLIC_ACID_METABOLISM	SAR-SALICYLIC_ACID_BIOSYNTHESIS,PGPT0003060-pchA|pmsC-K01851	NA	NA
D1-35_01955	843			hypothetical protein	ATGGATAGAAATAAAAGTTCTCGTGATGTTGATCTGGATATGGTATCCCGGCGGTACGAGTTCTGTTTGGAAAGGGACCTGAGTGCGAACTGGAACCAGGATGACCAATTTAAAACAATTTTGGCCAACGCGCTTTCCATTCCATTGCCCAGTGGTGAAAAGCTATTCATAAAATCAGTCAGGTATTTTCTTGAACAATTAAGTGATCCGCAGTTGAAGAGGGTGGTCGGTGTTTTTTTTAAACAAGAGTCGGCTCACACCAAAGAGCATATTGCCTATAATCGTTTGATTGCAGAACATCGAGGCTACGATCTGGAGCGGTTAGAAGCTCCCTATAAAAAACACAATGAATATATTTCGGAGCACGCTTCGCCAGTTTCGTTGTTAGCCACTACAGTGTGCATGGAACACCTGACGGCCGTTACATCGCACTTGGTAATTACTGATGAGCGTTGCCTCGGCCGTGCGAAAGGAGCAGTGAAAGACTTTTGGTTATGGCATTCGTTGGAGGAGATTGAACATAAAGCAGTTGCCTTTGATGTTTATATGAACGTATGTGGCGATAAAGCCCTGCTTAATCAGACGATGGATTTTACCGTCGGCCAGCTGTGCAAAAACCTAACGTACACAATTTGCCAGATGTACATGATGGAAGGTGGGAAACCTCGAGTCATCAAGGAATGGTTGGAGAAAACGGAGTTTTTGAATGCTGGCGACGGGTTGTTGAAAGGTATGATGAAATACATAGAAGATTTTTATCGTGACGATTTTCACCCGTGGGATCACGATAATAGTCATCTGATTGCCTCGGTCGTCAATCATCTTGACAATGCGCTAGCGTGA	MDRNKSSRDVDLDMVSRRYEFCLERDLSANWNQDDQFKTILANALSIPLPSGEKLFIKSVRYFLEQLSDPQLKRVVGVFFKQESAHTKEHIAYNRLIAEHRGYDLERLEAPYKKHNEYISEHASPVSLLATTVCMEHLTAVTSHLVITDERCLGRAKGAVKDFWLWHSLEEIEHKAVAFDVYMNVCGDKALLNQTMDFTVGQLCKNLTYTICQMYMMEGGKPRVIKEWLEKTEFLNAGDGLLKGMMKYIEDFYRDDFHPWDHDNSHLIASVVNHLDNALA				NA	NA	NA	NA	NA
D1-35_01956	1815	tycB		Tyrocidine synthase 2	ATGGAAAAATGTTTAAGTTTTTATTTAAGCGCTCAGGCTGAGCGGACTCCGTATGCCCCGGCACTGACCGGCGATAAAGGTTCGTACGATTATTTTACACTAGAACAAGATGTCCGCGCACTTGCGGAAATCTTGACAGAAATGACGCCGGAGAAACAGAGAAGAATAGGTGTGTATCTGGATGATAAGTTTGATGTCTTCATCGCGATGCTGGCCATATTTAGAGCGGACTTGGTATATGTTCCTATTGATGTGACGCTTCCTTTTGAACGTTGTCGATATATGATCAACGACAGTGATCTGGCTTTTGTGATCACCGATCCTGTTCACGCTTCTGCGTTGATGCAAGAGGGCGTACGCACACTGTTCATGAATACACCAAGGCAGGGGGAAAGTGATTCTACACTGCGACGGCAGAAGCGACCACGAGGCATAGAGAGTGCCGACCCCGATAGAATTGCCTATGTTTTGTACACGTCTGGGTCAACGGGGATGCCCAAGGGTGTGGAAATGCCGCACAAGTCGATAGCCAATCTGATTGACGACCAGTTGGAAAATGATGCTTTGTTTAGACGGCCCCTGCGTACGCTGCAATTTGCATCACCTGGATTTGATGTCTCTTGCCAAGAGGTACTTTCATGTCTCGCGGTCGGTGGTGAGTTGGTCATTGCTCCTGACGATATTAGAGCCGATACATCGAAGCTGTTCGAGTTCATTCGTGTCCACGAACTGGAAAGAGCATTTCTCCCTTACTCTGTATTGCAGACCTTAGCGATAGAGTATGAACGTCAGGAGGCGAAAGGTCCTGGCGCCTTTATACACATGATCACCGCTGGCGAACAGTTGCTAATGACCAAAGAAATCATCAAATGGTTAAGTCGATTGGACTGCCGCTTGATCAATCATTATGGTCCGACAGAAACGCATGTGGTTACCACGTATAGTAATAATGCTCCATTTGATCGCTGGCCTTATCACGTTCCCATTGGCAAAGCGATTGGCAATGTGCAGACGTACATTCTAAATGAGTTACTTCAGCCATGCGCGATGGGGGAGGACGGTGAGCTATGTGTGGGCGGAGCATGCCTGTCAAAGGGGTATATTAATTCGGCTGCCGGTAGCCATGATAAGTATATTGAAATATTAACCCCCTCCGGGAAGGCGCAACGTGTTTATAGAACCGGGGATATTGCTCAAGTCAATGAGGCCGGTGAGATTATTTACAAAGGGCGTCGAGACACACAGATAAAGTTGAACGGATATCGTGTCGAGTTGGGTGAGGTCGAGGCTGGCTTAAAGAGCATTCCGGAGGTCAAAGAGGCCGTTGCTGTCGTCAGGCAGCTGGGTGAGAGCTCCGTTGAGAAAGTTTTAATCGGGCTCGTCGTGTTAACGGGTAGGGCGTGGGAGGGGCCGCTCGAAATCGATGAAGTGGACGCGACCTACTTTTCCGGTTTTATCGGAAAACTGCCTGCTTTTATGCAGCCCAAACAGATGTATGCAATCAACAAAATTCCTGTGACGAGCAACGGTAAGCTGGATCGAAGGGCAATTGAGGCGCTGCTTGATGCTCGGATCAACTCGACGTCGCTTGGATTCAACGAAAACGAGGCTGTCGTTGCGAAGTTGTTTTCAAAGCTCTTAGGTATTTCTGTAACCAGCCTTGAAACAGATTTTTTTGAAAAAGGTGGCAACTCACTGTTGGCCGTTCGATTTGTCAAGGCGTTAGAGGACCAGTGTGGCGTTAGGATTAATTTAAGTAGTTTTTTGTTGAGGCCTAACGTTAAAAATACAGCCTCTTTAATTAAGGTCGGATGA	MEKCLSFYLSAQAERTPYAPALTGDKGSYDYFTLEQDVRALAEILTEMTPEKQRRIGVYLDDKFDVFIAMLAIFRADLVYVPIDVTLPFERCRYMINDSDLAFVITDPVHASALMQEGVRTLFMNTPRQGESDSTLRRQKRPRGIESADPDRIAYVLYTSGSTGMPKGVEMPHKSIANLIDDQLENDALFRRPLRTLQFASPGFDVSCQEVLSCLAVGGELVIAPDDIRADTSKLFEFIRVHELERAFLPYSVLQTLAIEYERQEAKGPGAFIHMITAGEQLLMTKEIIKWLSRLDCRLINHYGPTETHVVTTYSNNAPFDRWPYHVPIGKAIGNVQTYILNELLQPCAMGEDGELCVGGACLSKGYINSAAGSHDKYIEILTPSGKAQRVYRTGDIAQVNEAGEIIYKGRRDTQIKLNGYRVELGEVEAGLKSIPEVKEAVAVVRQLGESSVEKVLIGLVVLTGRAWEGPLEIDEVDATYFSGFIGKLPAFMQPKQMYAINKIPVTSNGKLDRRAIEALLDARINSTSLGFNENEAVVAKLFSKLLGISVTSLETDFFEKGGNSLLAVRFVKALEDQCGVRINLSSFLLRPNVKNTASLIKVG				NA	NA	NA	NA	NA
D1-35_01957	1182	fabF_1	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGAAAAGCAAAGTTGTGGTGGTGGGGCTGGGTGTGAGTACGTCTGTTGGTCAGGGGGTTAATGAAAATTGGCAGGCGATGGTGAGCGGTGGGTCAAATTTTAAACATTCAAAGCGGCTATGCGGGAAAAGTATACGAACTTCTTTCGCGGCAGTCGATGATCGCTTCGAAGAAGAATTAAATCCTCGGGTAGTTATAGAAACGTATATTAAGGAGGTTGTTGCGGAAGCCTGCATTGATGCCGGCGGTGGTACGTTTGATCGCATGTATTATTCGCTTCCTAATGGCATGTATTATTGGCATGAGCGTCTCGCGGATCGAACGGCAAGCCCCCAATCGGTACGCAATGCTTTTGAGACGTTTTCTTCTGAGGAGGAATTGTCTGCGTTTTTTTTTGAAACGTATGGCCTTGCTCAGTATCCGGCAATCATCGCAACCGCATGCGCATCCTCTGCAAGCGCAATTCAGTTGGGTTACGAAGCAATTGTCCGCGGGAATGCCAAAAGGGTCTTAGTTGCAGCCGCGGACAGCTCGATTTATGACGAAACCGTTACTAAGTTTAATAACCTGTCGGCGTTGTCAACACGTAATGATTCGCCGAGTACGGCATGTCGCCCTTTTAGTCAAAGTCGTGACGGGTTTGTAATTGGTGAAGGGGGTGGGTGTATCGTGCTTGAAAGGGAAGATATAGCCAAGAAACGAAACGCGAGAATCTACGCTTATCTCAGCGGCTGCGGAAATACCACGGATAACGTTCATCGGACCAAAGGTGATCCGCAAGGGGCCGGTATCAAGAACTGCATGCTCAAAGCGATTGAAGATGCCGGACTGACTCCCTCGGCGATCAGTTGCGTGAATGCGCACGGTACGAGTACACCCGAGAATGATCGGATGGAAACCAAGATTATTGGGGAGTTGTTGGGAAAAGAAACATTAGTGACGTCAGTTAAGTCGTTGATCGGTCATACCATTCATGCCGCCGGCGTGATTGAGGCGGTGGTGTCGGTTTTAAGTTTGAAGCATCAGGTCGTAACACCAACGCTAAACTATGATGGTGGCATGGCGGATCACGGTGTCACGATTGTTGATGCCAATCACCACCATGCTCATATTGAAAGTGTCATTTCTAACTCATTCGGCTTTGGTGGGCAGAATGTATCGGTCGTCTTTACGCGAGCCTGA	MKSKVVVVGLGVSTSVGQGVNENWQAMVSGGSNFKHSKRLCGKSIRTSFAAVDDRFEEELNPRVVIETYIKEVVAEACIDAGGGTFDRMYYSLPNGMYYWHERLADRTASPQSVRNAFETFSSEEELSAFFFETYGLAQYPAIIATACASSASAIQLGYEAIVRGNAKRVLVAAADSSIYDETVTKFNNLSALSTRNDSPSTACRPFSQSRDGFVIGEGGGCIVLEREDIAKKRNARIYAYLSGCGNTTDNVHRTKGDPQGAGIKNCMLKAIEDAGLTPSAISCVNAHGTSTPENDRMETKIIGELLGKETLVTSVKSLIGHTIHAAGVIEAVVSVLSLKHQVVTPTLNYDGGMADHGVTIVDANHHHAHIESVISNSFGFGGQNVSVVFTRA	PGPT0008360_1793	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
D1-35_01958	1251			hypothetical protein	ATGATTGTTGCAGGGAAAAATGAGGTGCCAGCGCTATTATTGAATGGTGTTGATGTAATGCTTGAATCTTGGGCGGATTATATAATTGTGTATCCGCACACCTTGGATAAGGAGCGCTTCGTTACGAGTCTTCAGGCTGCGCTTGATATTAATCCCTATTTTTCCGGAAGGAAATATTCCAAGGATGGTGTTCAAACGTTTGTCACTGGTGGAAATGAAGGTGTGTTGCTGGAGACCCAACAGTTCAACGTTGAGTTACCATCGCGCTTCTACGAGAACGACTACCACGGGTATGACCTGCTCTGTGGGAAGGACTTCAGGGCAGGGCATAGGCTTTCACGCTCAAGCTTCAAGCACCCCCTGTTCCAGATAAAACTATCTGAATTTGAGGGGGCGAGCGTTTTGGGTTTGAGTGTCTGGCACTCGTTGTCGGATGGCTCCACCTTCTTTAATTTCATCCGGCTCCTGTCACGTTTGTACATGGGGCTCGAGACCGAAAGCCATACACCGGATTTTGCTCGTATCGGCAAGGGAAGGGGGGCAGATGTCACTTCGTTGCTTGTTGATGTATGGGATACACCTACCGGCCCGGAAAAATCTCCCCTCTTTTCGGAGGCCACTTTCGTTTTGAATGAAGCGTCAGTGGCTCGAATCGTAGGCGGCTTCGACTGCGTTGGTTTTATGCGTTACGACTACATCATAGCGGACGCATGGAAGTACATCAGTGCAGGTTTGGCTTTGGACGTTGATGATACTGTGTCACTCTATCCAGTGTATGACGCAAGGCAACTTACCACGGTGGGACCAAACTATGTTGGGAATTTATTATGTTACCCTTCTATCCACCTGTCGACGTCAGACATTGCCACTATTAAGTTGGATATGCTGTCCTCGTTGATACGCGAAGGGGCTTTTGATCTCGTCGTTAAGGGTGACGAATTGCTTGAAGAGATTCAGGAGATTGCGTGTTTTTCTCAGCGGAGCGCTAAAGGCCGTTATTTGCTTAAGCCGCTTTATGACAGTATGTACGGCTCGGGGCTGTTATTTAATAACCTGATGGCCATGCCTTATAAGGAATTTGATTTTGGTGGTGGCCCGTCTCACATTGACTTGCCTCTTTCGGACCCTATTCGATTTGTTCAAATATATCCGTCGGTCGCTAATCCGGGGTGTTTGGTTGTTAAGGTAAATTTGCCAGAGGCCGAGTTGATTTTATTCAGTGAGGCATACACGAAAGGACTACAAGAATGA	MIVAGKNEVPALLLNGVDVMLESWADYIIVYPHTLDKERFVTSLQAALDINPYFSGRKYSKDGVQTFVTGGNEGVLLETQQFNVELPSRFYENDYHGYDLLCGKDFRAGHRLSRSSFKHPLFQIKLSEFEGASVLGLSVWHSLSDGSTFFNFIRLLSRLYMGLETESHTPDFARIGKGRGADVTSLLVDVWDTPTGPEKSPLFSEATFVLNEASVARIVGGFDCVGFMRYDYIIADAWKYISAGLALDVDDTVSLYPVYDARQLTTVGPNYVGNLLCYPSIHLSTSDIATIKLDMLSSLIREGAFDLVVKGDELLEEIQEIACFSQRSAKGRYLLKPLYDSMYGSGLLFNNLMAMPYKEFDFGGGPSHIDLPLSDPIRFVQIYPSVANPGCLVVKVNLPEAELILFSEAYTKGLQE				NA	NA	NA	NA	NA
D1-35_01959	1587	dhbE	COG1021	2,3-dihydroxybenzoate-AMP ligase	ATGAAGTCGAGCACGCCTGAAATCATATTCGATGATTATTTCAAGAAGGGGGTGCTACCTAAGGCCGATCTATTTTCATCGCTCGTTGATTGGGCTGATGAGTTTGGCGAACGTGTTGCGTTGAAGGATGAGTTTCGGCAACTGTCTTATCGGCAGTTGCTTGAGGAAGCATCAGGATTTGCCCGCTTACTCTCATCTCGTGGTTTGCAGCGTGACGATCGGGTGCTTGTTCAGTTACCTAACTGTGTCAATTTTTTTATCGTACTGTTCGCTGTTATTCGTGTGGGGGCCTTGCCGGTTCTGGTACTGCCGGGGCATCGGTCGCATGAGATCAGGGGCGTGCATAAGGTCGCTGACGCTCGTTTCTATATAGCGCAACGCGAGCATGATCACTTCAGCTATGAAAGCATTGCGACGATGCTGATCGGTGAGGGGCTGGATAAAAATAGTGTTGTCTTTTTCGATGATCTCGGCTTTTCAAGGGCGATCGATGAGCACGAAGAAGATGCCTTTGTTCCTCCTGCACCTGATGATATTGCCTTGTTGTTGTTGTCGGGAGGCACTACGAATACACCAAAGCTAATTCCTAGGACTCATGCCGATTATGTGTTCAATTTCACCCACATGGCCACCGAGTGCCTGCTTGACACTTCTTCTCGTTATTTGTGTGCAGTGCCGGTGGCTCATAACTTCGCGCTTGGCTGCCCGGGCGTTCTGGGCATCATGGCCATGGGCGGATTTGCTTACCTCTTGGCGCGCCCCGATATCCTGGTTTTTTCTGAAATAGTCTCTCAGGAGCGGATCACCGTTACGGCGCTGGTGCCTGCTTTGGCTGAGCTGCTTGTTGAGTATATGGAGTTGGGCGTCGAGGCGTTCTCCAGCCTCACACTGATCCAGGTCGGTGCGGCGAAGTTTTCCGAAGCGTCAGCCCAGAAGATACGGTCTTTTTTGAATTGTGAGCTCCAGCATATTTATGGGATGGCGGAAGGGCTGCTCTGTTTCAACCGTCGTTTTGATCCGGTGTCACTCAAGATCAGCACCCAGGGACGGCCGTTGAGCGCCGTCGATCTTCTGCGCGTTGTTGATGAACACGGTCAGGATTTGCCACAAGGTGGGGTGGGAGAGCTGTATGTCAGAGGCCCCTACACGATTCGGGGATATTTCAATAATGCAGAAGCCAACCGTGAGGGGTTCGACTCGGAAGGTTTTTATAAGACTGGAGACTTGGTTCGGCTTGATGAGGGTGGCAATGTGATAGTGCTGGGCAGAGTCAAAGAGCAGATCAATCGAGCGGGAGAAAAGTACTCGCCCGCAGATACCGAAGGAGTATTGCTCGCGTGGGACAGAATCGATGCTTGTTCCGTAGTTGGGGTGGAGCGCATAGCGGAGGGTGACCGGGTTATATTTTTTATCCAGCCTCGTGGGCAGACCCTCAGTAGGGAAGAGGTTTGTCGCTACCTTGAGGTCCAGGGCGTCGCAGGCTACAAATATCCCGATGAGGTCATCATGGTCAGTGCCCTACCGCTTACGGCTGTTGGCAAAATTGATAAGAAGAAGCTGGCCGCGCAGTACGCGTCGATGGCGTGA	MKSSTPEIIFDDYFKKGVLPKADLFSSLVDWADEFGERVALKDEFRQLSYRQLLEEASGFARLLSSRGLQRDDRVLVQLPNCVNFFIVLFAVIRVGALPVLVLPGHRSHEIRGVHKVADARFYIAQREHDHFSYESIATMLIGEGLDKNSVVFFDDLGFSRAIDEHEEDAFVPPAPDDIALLLLSGGTTNTPKLIPRTHADYVFNFTHMATECLLDTSSRYLCAVPVAHNFALGCPGVLGIMAMGGFAYLLARPDILVFSEIVSQERITVTALVPALAELLVEYMELGVEAFSSLTLIQVGAAKFSEASAQKIRSFLNCELQHIYGMAEGLLCFNRRFDPVSLKISTQGRPLSAVDLLRVVDEHGQDLPQGGVGELYVRGPYTIRGYFNNAEANREGFDSEGFYKTGDLVRLDEGGNVIVLGRVKEQINRAGEKYSPADTEGVLLAWDRIDACSVVGVERIAEGDRVIFFIQPRGQTLSREEVCRYLEVQGVAGYKYPDEVIMVSALPLTAVGKIDKKKLAAQYASMA	PGPT0003525_4	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-YERSINIABACTIN_METABOLISM,PGPT0003525-irp5|ybtE-K04783	NA	NA
D1-35_01960	1290	gltA	COG0372	Citrate synthase	ATGGCTGACAAAAAAGCGCAGTTGATCATCGAGGGCGCAGCCCCCGTCGAGCTGCCCATTTTAACCGGCACCGTTGGTCCCGATGTAATCGACGTACGGGGCCTGACGGCCACGGGCCGTTTCACCTTTGACCCAGGTTTCATGTCGACCGCCTCGTGCGAGTCGAAAATCACCTATATCGACGGCGACAACGGCATCCTGCTGCACCGCGGCTACCCGATCGAGCAACTGGCTGAAAAATCGGACTACTTGGAAACCTGCTACCTGCTGCTCAACGGCGAGCTGCCAACCGCAGAGCAAAAGGCCCAGTTCGTCAGTACCGTGAAGAACCACACCATGGTTCATGAACAGTTGAAGACCTTCTTCAACGGTTTCCGTCGCGATGCCCACCCGATGGCCGTCATGTGCGGCGTTGTCGGCGCCCTTTCGGCCTTCTACCACGACTCCCTGGACATCAATAACCCCCAGCATCGCGAAATCTCCGCGATCCGCCTGGTGGCGAAGATGCCGACCCTGGCAGCCATGGTCTACAAGTACTCCATGGGCCAGCCCATGATGTATCCGCGCAACGACCTGACCTATGCAGAGAACTTCCTGCATATGATGTTCAACACCCCGTGCGAGATCAAACCGATCAGCCCGGTGCTCGCCAAGGCCATGGACCGGATCTTCATCCTCCATGCCGACCACGAGCAGAACGCCTCCACGTCCACCGTGCGCCTGGCCGGTTCGTCGGGTGCCAACCCGTTCGCCTGTATCGCCGCCGGTATCGCTGCACTCTGGGGCCCGGCCCACGGCGGTGCCAACGAAGCGGTACTGACCATGCTCGATGAAATCGGCGATGTCTCGAACATCGACAAGTTCATCGCCAAGGCCAAGGACAAGAACGATCCATTCAAGCTGATGGGCTTCGGTCATCGGGTCTACAAGAACCGCGACCCACGCGCCACCGTGATGAAGCAGACCTGCGACGAAGTGCTCAAGGAACTGGGAATCAAGAACGATCCGCAACTCGAACTGGCCATGCGCCTGGAGGAGATCGCCCTGACCGACCCGTACTTCATCGAGCGCTCGCTCTACCCGAACGTCGACTTCTACTCGGGGATCATCCTCAAGGCGATCGGCATTCCAACCAGCATGTTCACCGTGATCTTCGCCCTGGCGCGGACCGTGGGCTGGATCTCCCACTGGAAGGAAATGCTCTCCAGCCCGTACAAGATCGGCCGCCCACGCCAGTTGTACACCGGCTACGAGTCGCGTGACATTACCCGGTTGGAAGACCGCAAGTAA	MADKKAQLIIEGAAPVELPILTGTVGPDVIDVRGLTATGRFTFDPGFMSTASCESKITYIDGDNGILLHRGYPIEQLAEKSDYLETCYLLLNGELPTAEQKAQFVSTVKNHTMVHEQLKTFFNGFRRDAHPMAVMCGVVGALSAFYHDSLDINNPQHREISAIRLVAKMPTLAAMVYKYSMGQPMMYPRNDLTYAENFLHMMFNTPCEIKPISPVLAKAMDRIFILHADHEQNASTSTVRLAGSSGANPFACIAAGIAALWGPAHGGANEAVLTMLDEIGDVSNIDKFIAKAKDKNDPFKLMGFGHRVYKNRDPRATVMKQTCDEVLKELGIKNDPQLELAMRLEEIALTDPYFIERSLYPNVDFYSGIILKAIGIPTSMFTVIFALARTVGWISHWKEMLSSPYKIGRPRQLYTGYESRDITRLEDRK	PGPT0001455_2802	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
D1-35_01961	258	sdhC	COG2009	Succinate dehydrogenase cytochrome b556 subunit	ATGCTTTATGCATTGAGCAAGTCGCTGGAGTCCGCCGAAGGGTTTGCCGAGGTGAAGGCGTACATGACCAGCCCCTTGGCCAAGTTCATAGCTTGGGCCCTGCTTTCGGCGTTGCTCTATCACATGGTGGCCGGCGTGCGCCATCTGATGATGGACATGGGCATCGGCGAGACGCTAGAGGGTGGCAAGCTGGGCTCGAAGATAATTATTGCCGTATCCGCGGTACTGATCGTTTTGGCAGGAGTATGGATATGGTAA	MLYALSKSLESAEGFAEVKAYMTSPLAKFIAWALLSALLYHMVAGVRHLMMDMGIGETLEGGKLGSKIIIAVSAVLIVLAGVWIW	PGPT0001595_3553	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
D1-35_01962	369	sdhD	COG2142	Succinate dehydrogenase hydrophobic membrane anchor subunit	ATGGTAACTAATGTCACGAACCTCTCGCGTTCGGGTCTGTACGACTGGATGGCTCAGCGGGTGTCTGCGGTCGTTCTCGCGGCTTATTTCATCTTCCTGATTGGATATCTCATTGCAAATCCTGGCATTGGCTACGACCAGTGGCACGCGCTGTTTGCAAATAACTGGATGCGTATTTTCAGCCTCCTGACTCTTGTTGCGCTAGGGGCTCACGCCTGGGTTGGGATGTGGACCGTCGCGACCGACTATCTAACGCCTATGGCGCTTGGCAAGTCTGCGACTGTAGTGCGTTTCCTCTTCCAGGCGGTATGCGGCGTTGCGATGTTCGCTTACTTCGTCTGGGGTGTGCAGATTCTCTGGGGTATCTGA	MVTNVTNLSRSGLYDWMAQRVSAVVLAAYFIFLIGYLIANPGIGYDQWHALFANNWMRIFSLLTLVALGAHAWVGMWTVATDYLTPMALGKSATVVRFLFQAVCGVAMFAYFVWGVQILWGI	PGPT0001590_1239	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001590-sdhD|frdD-K00242	NA	NA
D1-35_01963	1773	sdhA	COG1053	Succinate dehydrogenase flavoprotein subunit	ATGGCTAACATTCCAACGATTTCTTTCGACGCCATCATCATTGGTGGTGGCGGTGCCGGCATGCGCGCAGCGCTGCAACTGGCACAGGGCGGTCACAAGACTGCCGTGATCACCAAGGTTTTCCCGACCCGTTCGCACACTGTTTCCGCCCAGGGTGGCATCACTTGCGCCATCGCTTCGGCCGACCCGAACGATGACTGGCGCTGGCACATGTACGATACCGTCAAGGGTTCCGACTACATCGGTGACCAGGACGCTATCGAATACATGTGTCAGGAAGGCCCGGCTGCTGTTTACGAGCTGGACCACATGGGCATGCCGTTCTCGCGTACCGAACAGGGCCGTATCTACCAGCGTCCGTTCGGCGGCCAGTCCAAGGACTACGGCAAGGGCGGCCAGGCTGCACGCACTTGCGCTGCGTCCGACCGTACCGGTCACGCACTGCTGCACACCCTTTATCAGGGCAACCTGAAAGCCGGTACCGTGTTTCTGAACGAGTACTACGCTGTCGACCTGGTGAAGAACCAGGACGGCGCCTTCGTCGGCGTGATCGCGATCTGCATCGAAACTGGCGAAACCACCTACATCCGCGCCAAGGCCACCGTGCTGGCGACCGGCGGTGCGGGCCGTATCTACGCGTCCACCACCAACGCCCTGATCAACACCGGTGACGGCGTCGGCATGGCCCTGCGTGCCGGCGTGCCGGTGCAGGACATCGAGATGTGGCAGTTCCACCCGACCGGCATCGCCGGCGCTGGTGTACTGGTCACCGAAGGCTGCCGTGGTGAAGGTGGTTACCTGATCAACAAGCACGGCGAGCGTTTCATGGAGCGTTATGCTCCGAACGCCAAGGACCTTGCCGGTCGTGACGTCGTGGCTCGTTCGATGGTTAAAGAGATCATTGCCGGTAACGGCTGTGGCCCGAACGGCGACCACGTGATGCTCAAGCTCGACCACCTCGGCGAAGAAGTGCTGCACAGCCGCTTGCCAGGTATCTGCGAACTGTCCAAGACCTTCGCTCACGTCGATCCAGTCGTTGCGCCGGTTCCAGTGGTTCCAACCTGCCACTATATGATGGGCGGCGTTGCCACCAACATTCATGGCCAGGCAATCACCCAAAGCGCCGAAGGCGTGGACGAAATCATCCCTGGCCTGTTCGCAGTGGGTGAAGTGGCGTGCGTATCGGTGCACGGTGCCAACCGCCTGGGTGGCAACTCGCTGCTCGACCTGGTGGTATTCGGCCGCGCTGCCGGTCTGCACCTGGAAAAAGCGCTGACCGACGGTATCGAATACCGCGACGCCAGCGACACCGACATCGACGTGGCCCTCAAGCGTCTGGCCGGTCTCAACGAGCGTACCGAAGGCGAAGACGTCGCCACCCTGCGTCGCGAGCTGCAAAGCTGCATGCAGAACTACTTCGGTGTGTTCCGTACCGGCGAATACATGCAGAAGGGTATTGCCCAGCTGGCGCAATTGCGTGAACGAATCGCCAACGTGAAGATCAACGATAAGTCGCAGGCGTTCAACACTGCCCGTATCGAAGCGCTGGAACTGCAGAACCTGCTGGAAGTGGCCGAAGCCACCGCCATCGCGGCTGAAGTGCGTAAAGAGTCCCGTGGTGCCCATGCCCGCGAAGACTTCGAAGACCGTGACGACGAAAACTGGCTGTGCCACACCTTGTACTTCCCGGGTGAAAAACGCGTCGCCAAGCGTGCCGTGAACTTCTCGCCGAAGACTGTTCCGACTTTCGAACCTAAAGTCCGGACTTATTAA	MANIPTISFDAIIIGGGGAGMRAALQLAQGGHKTAVITKVFPTRSHTVSAQGGITCAIASADPNDDWRWHMYDTVKGSDYIGDQDAIEYMCQEGPAAVYELDHMGMPFSRTEQGRIYQRPFGGQSKDYGKGGQAARTCAASDRTGHALLHTLYQGNLKAGTVFLNEYYAVDLVKNQDGAFVGVIAICIETGETTYIRAKATVLATGGAGRIYASTTNALINTGDGVGMALRAGVPVQDIEMWQFHPTGIAGAGVLVTEGCRGEGGYLINKHGERFMERYAPNAKDLAGRDVVARSMVKEIIAGNGCGPNGDHVMLKLDHLGEEVLHSRLPGICELSKTFAHVDPVVAPVPVVPTCHYMMGGVATNIHGQAITQSAEGVDEIIPGLFAVGEVACVSVHGANRLGGNSLLDLVVFGRAAGLHLEKALTDGIEYRDASDTDIDVALKRLAGLNERTEGEDVATLRRELQSCMQNYFGVFRTGEYMQKGIAQLAQLRERIANVKINDKSQAFNTARIEALELQNLLEVAEATAIAAEVRKESRGAHAREDFEDRDDENWLCHTLYFPGEKRVAKRAVNFSPKTVPTFEPKVRTY	PGPT0001605_2930	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
D1-35_01964	705	sdhB	COG0479	Succinate dehydrogenase iron-sulfur subunit	ATGTTGCAAGTCAGTGTGTATCGCTACAACCCTGATCAGGACGCCGCGCCGTTCATGCAGGACTTCCAGGTCGATACCGGTGGTAAAGACCTGATGGTGCTGGACGTGCTGGCCTTGATCAAAGAGCAGGACGAAGGTTTTTCCTATCGTCGCTCGTGCCGCGAGGGCGTTTGCGGCTCCGACGGCATGAACATCAACGGCAAGAACGGCCTGGCCTGCATCACGCCGCTGTCGGCGGTGGTCAAGGGCAACAAGCTGATCGTTCGGCCGCTGCCAGGTCTGCCGGTCATCCGTGACCTGGTCGTCGATATGAGCATCTTCTACAAGCAATACGAGAAGGTGAAGCCATTCCTGCAGAACGACACGCCGGCTCCGGCCATCGAGCGTCTGCAGTCTCCTGAAGAGCGTGAAAAGCTCGACGGTCTGTACGAGTGCATCCTGTGCGCCTGCTGCTCGACCTCGTGCCCATCGTTCTGGTGGAACCCGGACAAATTCCTGGGCCCGGCCGCCCTGCTGCAAGCGTATCGCTTCCTGGCAGACAGCCGTGACACCAAGACGTCCGAGCGTCTGGCCGCACTGGATGACCCGTTCAGCGTATTCCGCTGCCGCGGGATCATGAACTGCGTCAACGTCTGCCCGAAAGGCCTGAACCCGACTAAGGCCATCGGTCACGTACGTAACATGCTGCTGCAAAACGGCGTGTGA	MLQVSVYRYNPDQDAAPFMQDFQVDTGGKDLMVLDVLALIKEQDEGFSYRRSCREGVCGSDGMNINGKNGLACITPLSAVVKGNKLIVRPLPGLPVIRDLVVDMSIFYKQYEKVKPFLQNDTPAPAIERLQSPEEREKLDGLYECILCACCSTSCPSFWWNPDKFLGPAALLQAYRFLADSRDTKTSERLAALDDPFSVFRCRGIMNCVNVCPKGLNPTKAIGHVRNMLLQNGV	PGPT0001600_3951	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
D1-35_01966	2832	sucA	COG0567	2-oxoglutarate dehydrogenase E1 component	ATGCAAGAAAGCGTGATGCAGCGCATGTGGAACAGTGCCCACCTCTCCGGTGGTAACGCTGCCTATGTGGAAGAGCTCTACGAGCTCTACCTGCACGACCCTAACGCTGTGCCAGAAGAATGGCGCACCTACTTTCAGAAGTTGCCGGCTGACGGTAACTCTGCCACCGATGTTTCGCACTCGACGATTCGCGATCATTTCGTGCTGCTGGCAAAGAACCAGCGCCGCGCCCAACCGGTGTCTGCCGGCAGCGTGAGCTCCGAGCATGAGAAGAAGCAAGTTGAAGTACTGCGACTGATCCAGGCCTACCGGATGCGCGGCCACCAGGCAGCCCAGCTGGACCCGCTGGGGCTGTGGCAGCGTCCTGCACCTGCAGACCTGTCGATCACTCATTACGGCTTGACCAATGCCGATCTTGATACGACCTTCCGTGCCGGCGACCTGTTCATCGGCAAAGAGGAAGCGAGCCTACGCGAAATTCACGAAGCGTTGCAGCAGACATATTGCCGCACCATCGGCGCTGAATTCACGCACATCACCGATTCCGAGCAGCGCCAGTGGTTCCAGCAGCGTCTGGAAAGCGTTCGTGGCCGTCCGACGTACTCCGCCGACATCAAGAGCCACTTGCTCGAGCGCGTCACCGCCGGTGAAGGTCTGGAGAAATACCTGGGTACCAAATACCCGGGCACCAAACGTTTCGGCCTGGAAGGCGGCGAAAGCCTGATTCCGATGCTCGACGAGCTGATCCAGCGTTCCGGCTCCTACGGTACCAAGGAAGTCGTCATCGGCATGGCCCACCGTGGTCGCCTGAACGTACTGGTCAATACCTTCGGCAAGAACCCGCGCGAGCTGTTCGACGAGTTCGAAGGCAAGAAGAAGGTCGAGCTGGGTTCCGGTGACGTGAAATACCACCAGGGCTTCTCGTCCAACGTGATGACCACCGGTGGCGAAGTCCACCTGGCCATGGCCTTCAACCCGTCCCACCTGGAAATCGTTTCCCCGGTGGTCGAGGGTTCGGTCCGTGCCCGCCAGGATCGTCGCAACGACCCGACCGGTGAAAAGGTCCTGCCGATTTCCATCCACGGTGACGCGGCATTCGCCGGTCAGGGCGTGGTCATGGAAACCTTCCAGATGTCGCAGACCCGCGGCTTCAAGACTGGCGGTACGGTTCACATCGTCATCAACAACCAGGTCGGTTTCACCATCAGCAACCCGCTGGACTCGCGTTCCACCGAGTACGCTACCGACGTCGCGAAAATGATCCAGGCGCCGATTCTCCATGTGAATGGTGATGACCCGGAAGCCGTGCTGTTCGTGACCCAGCTGGCCATCGACTACCGCATGCAGTACAAGCGCGACGTGGTGATCGACCTGGTCTGCTACCGTCGTCGCGGCCACAACGAGGCCGACGAGCCAAGCGGTACCCAGCCACTGATGTACCAGCAGATCGCCAAGCAGCGCACCACCCGCGAGCTGTACGCCGATCGCCTGACCCAGAGCGGTGTTCTGGATGCCGCACGTATCCAGGAAAAAGTCGATGAATATCGCAACGCCCTGGATAACGGCCTGCACGTTGTAAAAAGCCTGGTCAAGGAACCGAACAAGGAACTGTTCGTGGACTGGCGTCCTTACCTGGGTCACGCCTGGACCGCGCGTCACGACACGCGCTTCGACCTCAAGACCTTGCAGGAACTGTCGGCCAAGCTGCTGGAAATCCCGGAAGGCTTCGTGGTCCAGCGCCAGGTTGCGAAGATCTACGAAGACCGCCAGAAGATGCAAGCCGGCGGCCTGCCGATCAACTGGGGTTACGCCGAAACCATGGCGTACGCGACCCTGGCGTTCGAAGGTCACCCGATTCGCATCACCGGCCAGGACGTAGGCCGCGGTACTTTCTCGCACCGCCACGCGGCGCTGCACAACCAGAAAGACGCCAGCACCTACATCCCGCTGCAACACCTGTACAAAGGCCAGCCACGTTTCGACCTGTACGATTCGCTGCTGTCCGAGGAAGCCGTCCTGGCGTTCGAATATGGCTATTCCACCACCGAGCCGAATGCGCTGGTGATCTGGGAAGCCCAGTTCGGCGACTTCGCCAACGGTGCCCAGGTGGTGGTCGACCAGTTCATCACCAGCGGCGAGCACAAGTGGGGTCGTCTCTGCGGCCTGACCATGCTGCTGCCACACGGTTATGAAGGGCAGGGGCCGGAGCACTCTTCGGCACGTCTGGAGCGTTACCTGCAATTGTGCGCCGAGCACAACGTCCAGGTTTGCGTACCGACGACCCCGGCGCAGATCTACCACCTGCTGCGTCGCCAGGTCATCCGTCCGCTGCGCAAGCCGCTGATCGTGCTGACGCCCAAGTCGCTGTTGCGGCACAAGCTGGCGATTTCCACGCTCGAAGACCTGGCCGAAGGCTCCTTCCAGACCGTTATCTCGGAAATCGACACCCTGGACGCGGCAAAGGTGACTCGCCTGATCCTGTGCAGCGGCAAGGTCTACTACGATCTGCTGGAAAAACGTCGTGCCGAAGGCCGCGAAGACATTGCCATCGTGCGTATCGAGCAGCTCTACCCGTTCCCGGAAGACGACCTGATGGAGGCCATCGCGCCTTACACCAACCTCACCCACGTGGTGTGGTGTCAGGAAGAACCGATGAACCAGGGCGCGTGGTACAGCAGCCAGCATCACCTGCGTCGCAGCATCGGCAACCATAACAAGGCCCTGGGCCTGGAGTACGCCGGTCGTGACGCTTCTGCCGCCCCTGCGTGTGGTTATGCGTCGATGCACGCCGAGCAGCAGGAAAAACTGCTGCAAGATGCCTTCACTGTTTAA	MQESVMQRMWNSAHLSGGNAAYVEELYELYLHDPNAVPEEWRTYFQKLPADGNSATDVSHSTIRDHFVLLAKNQRRAQPVSAGSVSSEHEKKQVEVLRLIQAYRMRGHQAAQLDPLGLWQRPAPADLSITHYGLTNADLDTTFRAGDLFIGKEEASLREIHEALQQTYCRTIGAEFTHITDSEQRQWFQQRLESVRGRPTYSADIKSHLLERVTAGEGLEKYLGTKYPGTKRFGLEGGESLIPMLDELIQRSGSYGTKEVVIGMAHRGRLNVLVNTFGKNPRELFDEFEGKKKVELGSGDVKYHQGFSSNVMTTGGEVHLAMAFNPSHLEIVSPVVEGSVRARQDRRNDPTGEKVLPISIHGDAAFAGQGVVMETFQMSQTRGFKTGGTVHIVINNQVGFTISNPLDSRSTEYATDVAKMIQAPILHVNGDDPEAVLFVTQLAIDYRMQYKRDVVIDLVCYRRRGHNEADEPSGTQPLMYQQIAKQRTTRELYADRLTQSGVLDAARIQEKVDEYRNALDNGLHVVKSLVKEPNKELFVDWRPYLGHAWTARHDTRFDLKTLQELSAKLLEIPEGFVVQRQVAKIYEDRQKMQAGGLPINWGYAETMAYATLAFEGHPIRITGQDVGRGTFSHRHAALHNQKDASTYIPLQHLYKGQPRFDLYDSLLSEEAVLAFEYGYSTTEPNALVIWEAQFGDFANGAQVVVDQFITSGEHKWGRLCGLTMLLPHGYEGQGPEHSSARLERYLQLCAEHNVQVCVPTTPAQIYHLLRRQVIRPLRKPLIVLTPKSLLRHKLAISTLEDLAEGSFQTVISEIDTLDAAKVTRLILCSGKVYYDLLEKRRAEGREDIAIVRIEQLYPFPEDDLMEAIAPYTNLTHVVWCQEEPMNQGAWYSSQHHLRRSIGNHNKALGLEYAGRDASAAPACGYASMHAEQQEKLLQDAFTV	PGPT0001530_2185	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
D1-35_01967	1224	sucB	COG0508	Dihydrolipoyllysine-residue succinyltransferase component of 2-oxoglutarate dehydrogenase complex	ATGGCTATCGAAATCAAAGCCCCGTCATTCCCGGAATCGGTTGCCGATGGCACCGTTGCCACCTGGCACAAGAAACCAGGCGAGGCCGTCAAGCGTGACGACCTGATCGTCGACATCGAGACCGACAAGGTCGTGCTGGAAGTATTGGCCGAAGCCGACGGCGTGCTGGGCGCAATCATTGCCGAAGAGGGCGCCACCGTTCTGTCGAACCAGGTCCTGGGCTCGATCGAAGAGGGCGGCGCTGCCGCCGCCGCTCCAGCCGCTGCTGCTGCACCGGCTGCCGCTCAGGCCGCTGCTCCTGCTGCATCGGGCGAAGACGATCCAGTCGCTGCCCCTGCTGCTCGCAAGCTGGCTGAAGAGAACGGTATCAACATCGCTTCCGTTGCCGGCACCGGCAAGGGTGGTCGCGTGACCAAGGAAGACGTGGTTGCAGCTGTTGCCGCCAAGAAAGCCGCACCGGCCGCAGCACCAGCCAAGCCTGCCGCGCCTGCCGCTTCCGCACCAGTGTTCGCTGCCGGCGACCGCGTGGAAAAGCGCGTACCGATGACCCGCCTGCGTGCCAAGGTTGCCGAGCGTCTGGTCGAAGCCCAGTCGAACATGGCGATGCTGACCACTTTCAACGAAGTCGACATGACCGAAGTCATGGCCCTGCGTTCGAAGTACAAGGATCTGTTCGAGAAGTCCCACAACGGCGTACGCCTGGGCTTCATGTCGTTCTTCGTCAAGGCTGCCACCGAAGCGCTGAAACGCTTCCCGGCCGTCAACGCGTCGATCGACGGTTCCGACATCGTCTACCACGGCTACGCCGACATCGGTGTCGCGGTCTCCAGCGACCGTGGCCTGGTGGTTCCGGTACTGCGCAACGCCGAACTGATGAGCCTGGCCGAAATCGAAGGCGGCATCGCCACCTTCGGCAAGAAGGCCCGTGACGGCAAGCTGTCCATCGAAGAGATGACCGGCGGTACGTTCACCATCACCAACGGTGGTACATTCGGTTCGATGATGTCGACCCCGATCGTCAACCCGCCACAAGCGGCTATCCTCGGCATGCACAACATTCTGCAGCGTCCGATGGCGATCAATGGTCAAGTCGTGATTCGTCCGATGATGTACCTGGCACTGTCCTACGATCACCGCCTGATCGACGGCAAAGAAGCCGTGACGTTCCTGGTCACCATCAAGAACCTGCTTGAAGATCCGGCTCGTCTGCTGCTGGATATCTGA	MAIEIKAPSFPESVADGTVATWHKKPGEAVKRDDLIVDIETDKVVLEVLAEADGVLGAIIAEEGATVLSNQVLGSIEEGGAAAAAPAAAAAPAAAQAAAPAASGEDDPVAAPAARKLAEENGINIASVAGTGKGGRVTKEDVVAAVAAKKAAPAAAPAKPAAPAASAPVFAAGDRVEKRVPMTRLRAKVAERLVEAQSNMAMLTTFNEVDMTEVMALRSKYKDLFEKSHNGVRLGFMSFFVKAATEALKRFPAVNASIDGSDIVYHGYADIGVAVSSDRGLVVPVLRNAELMSLAEIEGGIATFGKKARDGKLSIEEMTGGTFTITNGGTFGSMMSTPIVNPPQAAILGMHNILQRPMAINGQVVIRPMMYLALSYDHRLIDGKEAVTFLVTIKNLLEDPARLLLDI	PGPT0001535_2848	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
D1-35_01968	1437	lpdG	COG1249	Dihydrolipoyl dehydrogenase	ATGACTCAGAAATTCGACGTGGTAGTGATTGGTGCGGGCCCTGGCGGCTACGTAGCGGCCATCAAGGCTGCGCAACTGGGCCTTACCACTGCCTGCATCGAGAAATACACCGACAAGGAAGGCAAGCAAGCCTTGGGCGGTACTTGCCTGAACGTCGGTTGCATTCCTTCCAAGGCGCTGCTGGACAGCTCTTGGAAATACAAGGAAGCGAAAGAAAGCTTCAACGTTCACGGTATCTCTACCGGTGAAGTGAAAATGGACGTCGCCGCGATGGTTGGCCGCAAGGCCGGCATCGTCAAGAACCTGACCAGCGGTGTTGCCACCCTGTTCAAGGCCAACGGCGTGACTTCCATCGAAGGCCACGGCAAGCTGCTGCTGGGCAAGAAAGTCGAAGTGACCAAGCCAGACGGCTCGGTTGAAGTGATCGAAGCCGAAAACGTCATCCTGGCGCCAGGCTCGCGTCCGATCGACATCCCGCCGGCTCCGGTCGACCAGAACGTCATCGTCGACTCCACCGGTGCCCTGGAATTCCAGACCGTGCCAAAACGCCTGGGCGTGATCGGCGCTGGCGTGATCGGCCTGGAACTGGGTTCGGTATGGTCGCGCCTGGGCGCTGAAGTGACCGTGCTCGAAGCCCTCGACACCTTCCTGATGGCCGCCGACACCGCGGTTTCCAAGGAAGCGCTGAAGACCCTGACCAAGCAAGGCCTGGACATCAAGCTGGGCGCTCGCGTGACCGGCTCCAAGGTCAACGGCGAAGAAGTCGTGGTCAACTACACCGACGCCAACGGCGAACAGACCATCACGTTCGACAAGCTGATCGTAGCGGTCGGTCGTCGTCCGGTGACCACTGACCTGCTGGCCGCCGATTGCGGCGTGGAAATCGACGAGCGCGGCTTCATCGCGGTCGATGACCATTGCGCAACCGCCGTACCGGGCGTCTTCGCCATCGGTGACGTGGTTCGCGGCATGATGCTGGCGCACAAGGCGTCCGAAGAAGGCATCATGGTTGTCGAGCGCATCAAGGGCCACAAGGCCCAGATGAACTACGACCTGATCCCATCGGTTATCTACACCCACCCGGAAATCGCATGGGTCGGTAAAACCGAGCAGGCCTTGAAAGCCGAAGGCGTTGAAGTTAACGTCGGCACCTTCCCGTTCGCCGCCAGCGGCCGCGCCATGGCAGCCAACGACACCGGCGGTTTCGTGAAAGTCATCGCCGACGCCAAGACCGACCGCGTATTGGGCGTTCACGTCATTGGCCCAAGCGCTGCCGAGCTGGTACAGCAAGGCGCGATCGGTATGGAATTCGGCACCAGCGCTGAAGACCTGGGCATGATGGTCTTCTCCCATCCGACCCTGTCCGAAGCCTTGCACGAAGCGGCCCTGGCCGTGAATGGCGGCGCCATCCACGTGGCCAACCGCAAGAAGCGTTAA	MTQKFDVVVIGAGPGGYVAAIKAAQLGLTTACIEKYTDKEGKQALGGTCLNVGCIPSKALLDSSWKYKEAKESFNVHGISTGEVKMDVAAMVGRKAGIVKNLTSGVATLFKANGVTSIEGHGKLLLGKKVEVTKPDGSVEVIEAENVILAPGSRPIDIPPAPVDQNVIVDSTGALEFQTVPKRLGVIGAGVIGLELGSVWSRLGAEVTVLEALDTFLMAADTAVSKEALKTLTKQGLDIKLGARVTGSKVNGEEVVVNYTDANGEQTITFDKLIVAVGRRPVTTDLLAADCGVEIDERGFIAVDDHCATAVPGVFAIGDVVRGMMLAHKASEEGIMVVERIKGHKAQMNYDLIPSVIYTHPEIAWVGKTEQALKAEGVEVNVGTFPFAASGRAMAANDTGGFVKVIADAKTDRVLGVHVIGPSAAELVQQGAIGMEFGTSAEDLGMMVFSHPTLSEALHEAALAVNGGAIHVANRKKR	PGPT0001380_2638	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
D1-35_01970	1167	sucC	COG0045	Succinate--CoA ligase [ADP-forming] subunit beta	ATGAATCTTCACGAGTATCAGGGTAAGCAGCTGTTCGCTGAGTACGGCCTGCCAGTATCCACCGGTTACGCGGTAGACACCCCGGAAGCGGCAGCAGAAGCTTGCGACAAGATCGGCGGCAGCGAATGGGTTGTCAAAGCCCAGGTTCACGCCGGTGGTCGCGGTAAAGCGGGCGGCGTCAAGCTGGTTCGCAGCAAAGAAGACGCCAAAGCCTTCGCGCAGCAGTGGCTGGGCAAGCGTCTGGTGACTTACCAGACTGACGCCAACGGTCAGCCAGTCACCAAGATCCTGGTTGAATCGTGCACTGATATCGCTAAAGAGCTGTACCTGGGCGCTGTCGTTGACCGTTCGAGCCGTCGTATCGTGTTCATGGCTTCCACCGAAGGTGGCGTGGACATCGAGAAAATCGCTCACGACACCCCTGAGAAAATCCTCAAGGCCACCATCGATCCACTGGTTGGCGCACAGCCATTCCAGGGTCGCGAGCTGGCTTTCCAGCTGGGCCTGGAAGGCAAGCAGGTTGCCCAGTTCGCCAAGATCTTCGTGGGTCTGGCCAAACTGTTCCAGGATCACGATCTGGCCCTGCTGGAAGTGAACCCGCTGGTGATCAAGGCCGACGGCGATCTGCACTGCCTCGATGCCAAGATCAACATCGACGCCAACGCCATGTACCGTCAGCCTAAGCTGAAGACTTTCCACGATCCGTCGCAGGACGATCCGCGCGAAGCGCACGCTGCCAAGTTCGAACTGAACTACGTAGCGCTGGAAGGCAACATCGGCTGCATGGTCAACGGTGCCGGCCTGGCCATGGGTACCATGGACATCGTCAACCTGCATGGCGGCAAGCCAGCCAACTTCCTCGACGTGGGCGGCGGTGCTACCAAGGAACGCGTTACCGAAGCGTTCAAGATCATCCTGTCCGACTCCAACGTCGCTGCAGTACTGGTCAACATCTTCGGCGGCATCGTTCGCTGCGACATGATTGCCGAAGGCATCATTGGCGCCGTGAAAGAAGTCGGCGTGAAAATCCCGGTTGTTGTGCGCCTTGAAGGCAACAACGCTGAACTGGGCGCTAAAGTACTGGCAGAAAGCGGTTTGAACATCATCGCTGCTACCAGCCTGACCGACGCTGCTCAACAAGTCGTCAAAGCTGCGGAGGGCAAATAA	MNLHEYQGKQLFAEYGLPVSTGYAVDTPEAAAEACDKIGGSEWVVKAQVHAGGRGKAGGVKLVRSKEDAKAFAQQWLGKRLVTYQTDANGQPVTKILVESCTDIAKELYLGAVVDRSSRRIVFMASTEGGVDIEKIAHDTPEKILKATIDPLVGAQPFQGRELAFQLGLEGKQVAQFAKIFVGLAKLFQDHDLALLEVNPLVIKADGDLHCLDAKINIDANAMYRQPKLKTFHDPSQDDPREAHAAKFELNYVALEGNIGCMVNGAGLAMGTMDIVNLHGGKPANFLDVGGGATKERVTEAFKIILSDSNVAAVLVNIFGGIVRCDMIAEGIIGAVKEVGVKIPVVVRLEGNNAELGAKVLAESGLNIIAATSLTDAAQQVVKAAEGK	PGPT0019515_2116	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
D1-35_01971	885	sucD	COG0074	Succinate--CoA ligase [ADP-forming] subunit alpha	ATGAGCGTCCTGATCAACAAAGACACCAAGGTTATCTGCCAGGGCATTACCGGTTCGCAAGGTAGCTTCCACACCCAGCAAGCCATCGAATACGGCACCCAGATGGTCGGCGGTGTAACGCCGGGCAAAGGCGGCACCGAGCACCTGGGCCTGCCAGTGTTCAACACCGTGAAAGACGCTGTAGCTGCCACTGGCGCCACCGCCAGCGTGATCTACGTTCCAGCTCCTTTCTGCAAGGACTCCATCCTGGAAGCAGCATTCGGCGGCATCAAGCTGATCGTTTGCATCACCGAAGGCATTCCTACCCTGGACATGCTGGATGCCAAGGTCAAGTGCGACGAACTGGGTGTTACCCTGATCGGCCCTAACTGCCCAGGCGTGATCACTCCAGGCGAATGCAAGATCGGCATCATGCCAGGTCACATTCACTTGCCAGGCAAGGTCGGTATCGTTTCCCGTTCCGGCACCCTGACCTACGAAGCCGTGAAGCAGACCACTGACGCCGGTTTCGGTCAGTCCACTTGCGTCGGCATCGGCGGTGACCCGATCCCAGGCTCCAACTTCATCGACATCCTGAAGCTGTTCCAGGAAGACCCGAAGACCGAAGCGATCGTCATGATCGGTGAGATCGGCGGTTCCGCTGAAGAAGAAGCCGCTGCCTACATCAAGGCAAACGTGACCAAGCCGGTCGTTTCCTACATCGCTGGTGTGACTGCCCCTGCGGGCAAGCGCATGGGCCATGCGGGTGCAATCATCTCCGGCGGCAAAGGCACTGCGGACGAGAAGTTCGCTGCGCTGCAAGACGCAGGCGTGAAAACCGTGCGTTCGCTGGCAGACATCGGCAAGGCCCTGGCCGAGCTGACTGGCTGGGAAATGAAGAAGTAA	MSVLINKDTKVICQGITGSQGSFHTQQAIEYGTQMVGGVTPGKGGTEHLGLPVFNTVKDAVAATGATASVIYVPAPFCKDSILEAAFGGIKLIVCITEGIPTLDMLDAKVKCDELGVTLIGPNCPGVITPGECKIGIMPGHIHLPGKVGIVSRSGTLTYEAVKQTTDAGFGQSTCVGIGGDPIPGSNFIDILKLFQEDPKTEAIVMIGEIGGSAEEEAAAYIKANVTKPVVSYIAGVTAPAGKRMGHAGAIISGGKGTADEKFAALQDAGVKTVRSLADIGKALAELTGWEMKK	PGPT0001540_1578	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
D1-35_01972	1314	brnQ	COG1114	Branched-chain amino acid transport system 2 carrier protein	ATGAAAGTGTTGAAAGGCCAGGACATCCTGGCGCTTGGTTTCATGACATTTGCCCTGTTCGTCGGGGCCGGCAACATCATCTTTCCGCCTATCGTCGGTTTGCAGTCCGGGCCTCATGTCTGGATGGCGGCGCTGGGCTTTCTCATCACGGCGGTCGGGCTGCCGGTGATCACGGTCGTTGCGCTGGCCAAGGTCGGTGGCGCGATGGACGCCTTGAGCAGCCCCATCGGCAAGATCGCCGGTGGTTTGCTGGCAGCGGTGTGCTACCTGGCGGTCGGCCCGCTATTCGCCACCCCGCGAACCGCCACCGTATCGTTCGAAGTCGGCCTGGCACCGCTGACCGGCGAGAGCCCGTTGGCGTTGTTCCTGTACAGCGCGGTGTACTTTCTGGTGGTGTTCTTCATCTCGCTTTATCCGGGCCGCTTGCTGGACACCGTCGGGCGCTTTCTCGCGCCGCTGAAAATCATCGCCCTGGCGGTGCTGGGCATCGCCGCGTTTGCCTTGCCGGCGGGCGACATCGGCGTGGCGACTCCCGAATACGTGGCGGCGCCGTTTTCCCAAGGCTTCATCAATGGCTACCTGACCATGGATACCCTCGGTGCCTTGGTGTTCGGCATCGTCATCGTCAACGCCATCCGTTCCCGAGGGGTCGAGTCTCCGGCCTTGATCACCCGCTACGCCATCATCGCCGGGCTTATCGCCGGGGTGGGGCTGGCGCTGGTCTATGTCAGCCTGTTCCGCCTGGGTTCGGGCAGCCATGAAGTCGCCGCGGGCGCGACCAACGGCGCGGCCGTCCTGCATGCCTACGTGCAACATACCTTCGGCAGCCTGGGCAGCGGCTTCCTTGCGGTACTGATCTCCCTGGCGTGCCTGGTGACGGCGGTTGGCCTGACCTGCGCCTGCGCCGAGTACTTCAGCCGCGTCCTGCCGCTGTCCTACAAGACGCTGGTGATCATCCTGGCGGCGTTTTCGCTGCTGGTGTCCAACCTCGGGCTGACCAAGCTGATCGCTTTCTCGATTCCGGTCCTCACCGCGATCTATCCACCTTGCATCGCATTGGTCGCCCTGAGCTTCTGCAAAGACTTCTGGCATGAGCAGGGGCGGATCGTCGGCCCGGTCATGCTGGTGTCGTTCCTGTTCGGCTTGATCGACGCCCTCAAGGGCGCCGGGCTGGCGGATTGGCTGCCGACGCAGTTGGCCCACCTGCCGTTGAGCGACCAGGGCCTGGCCTGGCTGGTCCCTTCGGTCATGACCCTGGTGGTCGCGGTGGTCTGCGATCGACTGCTGGGCAAGCGCAGCGAAGCGTTGGCGTAA	MKVLKGQDILALGFMTFALFVGAGNIIFPPIVGLQSGPHVWMAALGFLITAVGLPVITVVALAKVGGAMDALSSPIGKIAGGLLAAVCYLAVGPLFATPRTATVSFEVGLAPLTGESPLALFLYSAVYFLVVFFISLYPGRLLDTVGRFLAPLKIIALAVLGIAAFALPAGDIGVATPEYVAAPFSQGFINGYLTMDTLGALVFGIVIVNAIRSRGVESPALITRYAIIAGLIAGVGLALVYVSLFRLGSGSHEVAAGATNGAAVLHAYVQHTFGSLGSGFLAVLISLACLVTAVGLTCACAEYFSRVLPLSYKTLVIILAAFSLLVSNLGLTKLIAFSIPVLTAIYPPCIALVALSFCKDFWHEQGRIVGPVMLVSFLFGLIDALKGAGLADWLPTQLAHLPLSDQGLAWLVPSVMTLVVAVVCDRLLGKRSEALA	PGPT0014385_1686	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
D1-35_01973	738			hypothetical protein	ATGTCATTCATCCAAGCCAACCTGATCCATCTGCTCGCCGCCGTCTGGTTCATCATCTGCTGGGCCGGCTATACCCGTTACGCCTCCTGGAAGGCCCGCGACACGGCGTGCCTGGCCAGCGTGATGCACCTGTACCGCGAAGACTGGATGCGTCGCATGCTGCTGCGCGACAACCGCATTGCCGATGCCAGCGTGATCGGCAACCTGGAGCGCAACGCGTCCTTCTTCGCCTCCAGCACGCTGATCATCCTGGCCGGTATCCTGACCGTGCTCGGGGCGTCTGACCGCGCGGTATCGCTGCTTGCGGACCTGCCGCTGGTACAACAGGCCTCCCAGGGCATGGCGGAAGTGAAGCTGCTGTGTCTTGCGCTGGTGTTCGTCTACGCGTTCTTCACGTTCAGCTGGTGCATGCGCCAATACAACTTCGCCGCGGTCCTGGTAGGTTCTGCGCCGATGATCGGCGAGCGGCATGTGTCCGAGCTGGAGCGCAAGGCCTTTGCTTCGAGGGCGGCGCGGGTCATTTCGATGGCGGCCAACCAGTTCAACTTCGGCTTGCGTGCCTATTATTTCGGCATGACCATGCTGGCATGGTTCGTCAGCCCCTGGCTGTTCATGCTGATGAGCGCCGGCGTGGTGTTTGTGTTGTATCAACGCGAGTTTCATTCGGATGTGCTGGACGTGATGGTCTACACGCCTACCGAAGCGCCGGTGCCCGAAACCGGCAAGGAAGCGGCTTGA	MSFIQANLIHLLAAVWFIICWAGYTRYASWKARDTACLASVMHLYREDWMRRMLLRDNRIADASVIGNLERNASFFASSTLIILAGILTVLGASDRAVSLLADLPLVQQASQGMAEVKLLCLALVFVYAFFTFSWCMRQYNFAAVLVGSAPMIGERHVSELERKAFASRAARVISMAANQFNFGLRAYYFGMTMLAWFVSPWLFMLMSAGVVFVLYQREFHSDVLDVMVYTPTEAPVPETGKEAA				NA	NA	NA	NA	NA
D1-35_01974	252			hypothetical protein	ATGCGTAAGACTTTTGCTATTGCCTTGATGTTGGCCGCCTCCCTCGGTCTCGCTGCCTGCGATAAAAAATCCGAGGACAAGGCTCAAGATGCCAACCAACACGCTGAACAAGCTCAGCAAGACATGAACAAAGCACAGGATAAAGTGAACGACGCGGCGAAAGAAAACGCCGAAGCTGCCAAAGCTCAGTCTGAATCGAACAGTGCCGCCCAGCAGGAACAAGCCCCTGCTACCGCGCCTAAAACCAACTGA	MRKTFAIALMLAASLGLAACDKKSEDKAQDANQHAEQAQQDMNKAQDKVNDAAKENAEAAKAQSESNSAAQQEQAPATAPKTN				NA	NA	NA	NA	NA
D1-35_01975	477			hypothetical protein	ATGGCTGAGGATTCCGTTTTTGAGCGTGCGACACGCTTCTTATCCGCGCTAAGGCATTGCCAGGTGCTGGGTCTGACATTGCACAGCGCCAATTCCGAAGGTTTGACCGTGATGTTGCCCTACAGCCCATCTATCGTTGGTAATCCGCTGACAGGCATCGTCCATGGCGGAGCGCTGACCACGCTGATGGATACCGCTTGCGGCATGTCGACCTTGTGCGTGCTGCCGCAATTCGAGGTCTGCCCGACCCTGGATCTGCGCATCGATTACATGCACGCGGCCATGCCTGATAAAGCCATCTATGGTTTCGCACAGTGCTATAGGGTCACGCCGGACGTGATTTTCAGCCGGGGTTTTGCCTACCAGGATGATCCCGGGCAACCCATCGCCCATGTGGTGGGCACTTTCATGCGCCTGGGCGATAGCGCTCGGGGAATGGGAAAGGGTGGCCTGACGGCTGCGGCGCAAAAGCCATGA	MAEDSVFERATRFLSALRHCQVLGLTLHSANSEGLTVMLPYSPSIVGNPLTGIVHGGALTTLMDTACGMSTLCVLPQFEVCPTLDLRIDYMHAAMPDKAIYGFAQCYRVTPDVIFSRGFAYQDDPGQPIAHVVGTFMRLGDSARGMGKGGLTAAAQKP	PGPT0001841_42	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001841-yigI-NA	NA	NA
D1-35_01976	462			hypothetical protein	ATGAGCGATATCACCGAGGAACAACTGCGCCAGGCCTGCGAGCATGGCGACTACGCGCTGCTGCTGGCCTCGATCCCCTATGCGCGCCTCATCGGCGTCGAATGTTCTCGTCAGGGCGACGAGTTGCTGTTTTGCCTGCCGGCCAACAAGGACAACATTGGTAACCCTTTACTGCCCGCGATCCATGGCGGGGTGATTGCCGGTTTCATGGAGCTGTCGGCCGCCGTTCATCTGCTGATTGCGACCCGTGCGACCGGGGTGCCGAAGATCATCGATTTTTCCCTGGATTACCTGCGCGCCGGGCAGTTTCGTGACACCTATGCCCGGTGTCAGGTCTGGCGCCAGGGCCGGCGCGTGGCCAATGTGGCGATCACCGCCTGGCAGGAATCCGAAGCCGAACCGATTGCCACGGCTAGGGCCCATTTCAAGATCCCTGCACCCTCCAGGCCGACCGCCCCTTGA	MSDITEEQLRQACEHGDYALLLASIPYARLIGVECSRQGDELLFCLPANKDNIGNPLLPAIHGGVIAGFMELSAAVHLLIATRATGVPKIIDFSLDYLRAGQFRDTYARCQVWRQGRRVANVAITAWQESEAEPIATARAHFKIPAPSRPTAP	PGPT0001841_14	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001841-yigI-NA	NA	NA
D1-35_01977	1905	htpG	COG0326	Chaperone protein HtpG	ATGAGCGTGGAAACTCAAAAGGAAACCCTGGGCTTCCAGACCGAGGTGAAGCAGCTGCTGCACCTGATGATTCACTCGCTGTATTCGAATAAGGAAATTTTTCTTCGCGAGCTGATCTCGAACGCCTCTGACGCAGTCGACAAATTACGTTTCGAAGCGCTGTCCAAGCCAGAACTGCTGGAAGGCGGCGCGGAGCTGAAAATCCGTGTGAGCTTCGACAAGGACGCGAAAACCGTCACGCTCGAAGACAACGGCATCGGCATGAGCCGCGACGAGGTGATCACGCACCTGGGCACCATCGCCAAGTCCGGCACCGCCGATTTCATGAAAAACCTGTCGGGCGACCAGAAGAAGGATTCCCATCTGATCGGTCAGTTCGGCGTCGGTTTTTATTCCGCGTTCATCGTTGCCGATCAGGTCGAAGTGTTCAGCCGCCGTGCCGGCCTCGCAGCGAGCGAAGGCGTGCACTGGTCCTCCAAGGGCGAAGGCGAATTTGAAGTCGCGACCATCGACAAGGCTGAGCGCGGTACCCGCATCGTCTTGCACCTGAAGTCCGGTGAAGAAGAGTTCGCCGATGGCTGGCGCCTGCGCAACATCATCAAGAAATATTCTGACCATATCGCGCTGCCGATCGAGTTGCCGAAGGAAGTCACCGCTGCCGAAGGCGAAGAAAAACCTGAAGTGGAATGGGAAACCGTCAACCGCGCCAGTGCCCTGTGGACCCGTCCTCGTACCGAGATCAAGGACGAGGAATACCAGGAGTTCTACAAGCACATCGCCCACGACTACGAGAACCCGCTGAGCTGGAGCCATAACAAGGTCGAAGGCAAGCTGGAATACAGCTCGCTGCTGTACGTGCCGACCCGTGCGCCATTCGACCTGTACCAGCGCGAAGCACCACGCGGGCTGAAGTTGTACGTGCAGCGCGTGTTCGTGATGGACCAGGCCGAATCGTTCCTGCCGCTGTACCTGCGCTTCATCAAGGGTGTGGTGGACTCCAATGACCTGTCGCTGAACGTTTCGCGGGAAATCCTGCAGAAAGATCCGATCATCGACTCCATGAAGTCGGCGCTGACCAAGCGCGTCCTCGACATGCTGGAAAAGCTGGCAAAGAGCGAGCCTGAGCAATACAAGAGCTTCTGGAAGAACTTCGGCCAGGTGATGAAAGAAGGCCCGGCCGAAGATTTCGCTAACAAAGAGAAGATCGCCGGCCTGCTGCGTTTTGCCTCGACCCAGAGTGACGACGGCGAGCAGAGCGTCAGCCTGGCCGATTACCTGGCCCGCGCCAAGGAAGGCCAGGACAAGATCTACTACCTGACCGGCGAAACTTATGCGCAGGTCAAGAACAGCCCGCACCTGGAAGTCTTCCGCAAGAAAGGCATCGAAGTGCTGCTGCTGACCGACCGCATCGACGAGTGGCTGATGAGCTACCTCAACGAGTTCGACGGCAAGAGCTTCGTCGATGTGGCCCGTGGCGACCTCGACCTTGGCAACCTGGATTCGGAAGAAGACAAGAAAGCCGCCGAAGAAGTCGCCAAGAGCAAGGAAGGCCTGGTCGAGCGGATCAAGACTGCGTTGGGCGATGCCGTCAGCGAAGTGCGTGTCTCGCACCGCCTGACCGACTCCCCGGCCATCCTGGCCATCGGCGAGCAGGACCTCGGCCTGCAGATGCGCCAGATCCTTGAGGCCAGCGGCCAGAAGGTTCCGGATTCCAAGCCGATCTTCGAATTCAACCCGGCTCACCCGCTGGTGGAAAAACTCGACAACGAGCAGAGCGAAGAGCGTTTTGGCGACCTCTCGCACATCCTGTTCGACCAGGCGGCCCTGGCGGCCGGCGACAGCCTGAAGGACCCGGCGGCCTATGTCCGGCGTTTGAACAAGCTGCTGGTTGAGCTGTCAGCTTGA	MSVETQKETLGFQTEVKQLLHLMIHSLYSNKEIFLRELISNASDAVDKLRFEALSKPELLEGGAELKIRVSFDKDAKTVTLEDNGIGMSRDEVITHLGTIAKSGTADFMKNLSGDQKKDSHLIGQFGVGFYSAFIVADQVEVFSRRAGLAASEGVHWSSKGEGEFEVATIDKAERGTRIVLHLKSGEEEFADGWRLRNIIKKYSDHIALPIELPKEVTAAEGEEKPEVEWETVNRASALWTRPRTEIKDEEYQEFYKHIAHDYENPLSWSHNKVEGKLEYSSLLYVPTRAPFDLYQREAPRGLKLYVQRVFVMDQAESFLPLYLRFIKGVVDSNDLSLNVSREILQKDPIIDSMKSALTKRVLDMLEKLAKSEPEQYKSFWKNFGQVMKEGPAEDFANKEKIAGLLRFASTQSDDGEQSVSLADYLARAKEGQDKIYYLTGETYAQVKNSPHLEVFRKKGIEVLLLTDRIDEWLMSYLNEFDGKSFVDVARGDLDLGNLDSEEDKKAAEEVAKSKEGLVERIKTALGDAVSEVRVSHRLTDSPAILAIGEQDLGLQMRQILEASGQKVPDSKPIFEFNPAHPLVEKLDNEQSEERFGDLSHILFDQAALAAGDSLKDPAAYVRRLNKLLVELSA	PGPT0014640_2025	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-PR1_LIKE_PROTEINS,PGPT0014640-hptG-K04079	NA	NA
D1-35_01978	729			hypothetical protein	ATGAGTCAGGTTACGGTTCGTTCACTGGTGTATCAGATCGATGGGCAAAGCTATGAAGGTCGCCTGGCCTTCGACGTCAACCAGCAGGGCCCGCGTCCGGGGTTGCTGATGGCGCCGAACTGGATGGGCGTGGGGGCGGGGGCCGAGGACATTGCCAGGTTGGTGGCCGCCAACGGCTACGTGGTGCTGATCGCCGACCTGTACGGGCAGACGCTGCGCCCGAGCAACGCCGACGAGGCGGGAGCGGCAATGATGCCGCTCAAGAACGACCGGGCCTTGTTGCGCAAGCGCATGCAGGTAGCGCTGGAGCAATTGCAGAACCAGGGCGAAGCGCAGGTCGACACGGCGAAACTGGCCACGTTCGGCTTCTGCTTCGGTGGTTGCTGTTCACTGGAGCTGGCTCGCAGCGGCGCACCGCTCAAGGCTGCGATCTCGTTCCACGGGACCCTGGATACGCCGAACCCGGCCGATGCGCAGAATATCCAGGGCGCCGTCCTGGTGATGCATGGCGCTTCCGATCCGCTGGTGCCGAAAGAACAGTTGCCGGCTTTCGAGGAGGAGATGAACGCCGCCGGGGTGGACTGGCAATTGCTGAGTTATGGCGGCGCGGTGCATTCCTTCACCGATCCACAGGCCAATGTGCCGGGCAAGATGATGTACAACGCCAAGGTCGCCGGGCGGGCGTTCCGGTCGATGCATAATTTGCTGGATGAGGTGTTCAAGGGCTGA	MSQVTVRSLVYQIDGQSYEGRLAFDVNQQGPRPGLLMAPNWMGVGAGAEDIARLVAANGYVVLIADLYGQTLRPSNADEAGAAMMPLKNDRALLRKRMQVALEQLQNQGEAQVDTAKLATFGFCFGGCCSLELARSGAPLKAAISFHGTLDTPNPADAQNIQGAVLVMHGASDPLVPKEQLPAFEEEMNAAGVDWQLLSYGGAVHSFTDPQANVPGKMMYNAKVAGRAFRSMHNLLDEVFKG				NA	NA	NA	NA	NA
D1-35_01979	861			hypothetical protein	ATGACCGCTCCCCTGATCGTTCGTCCCCGCGCAGAAGACGTGGAGGGCCAGCCGATTCTTCGCCCGCTGCCGTCCGCCAAATGCCGCAGCGTCGGGCCTTTCGTGTTTTTCGACCATATGTTGCAAACCACCTACCCGGCAGGCAAAGGCATGAACATCCGCCAGCACCCGCACATCGGGTTATCCACCCTCACCTACCTGTTCGAAGGGAAACTCCAGCACAAGGACAGCCTGGGTTCCGACCAGGTAGTGGATGCCGGGGATGTCAGCTGGATGACGGCGGGCAGCGCGATCGCCCATGTCGAGCGCACTCCGCAATCGTTGCTGGCCAGCGCTTTTGTCATGCATGGCCTGCAAGTCTGGCTGGCCTCGCCCCAGCCTCATGAGCAGGGGCCCGGGCACTACAGCCATCATCCGGCACCGACCCTGCCGGTCTCCGAGAACCTGGGCGTCAGCATCCGCATGATTGCCGGGTCAGGCTTTTGCCTGGAGTCGCCAGTACCGGTGCTCTCGCCTACGTTGTATGCCGAACTGAACCTGCAAACCGCGACGACATTGCTGATTCCCACCGAACATGAAGAGCGTGCACTGTATGTATTGAGCGGCGAGGCGCAACTGGACGGTGAGCCGCTGGAGCCTCACTCGCTGGTCATCCTGCCGGCCGGAGAAGAAATGGCCCTGTTCGCCAGCAGCGACTGCCATGCCGTGCTGTTCGGCGGGGCACCGCTGGACGGGCCACGGCGGATGAACTGGAATTTCGTCGCCAGCGACCCGGCCCGTATCGATGAAGCCCGCCGGCGCTGGGCGGCCGGGGACTGGCCGACTGTGCCGGGGGAAAGCGAGCGGATCGAATTGCCCTGA	MTAPLIVRPRAEDVEGQPILRPLPSAKCRSVGPFVFFDHMLQTTYPAGKGMNIRQHPHIGLSTLTYLFEGKLQHKDSLGSDQVVDAGDVSWMTAGSAIAHVERTPQSLLASAFVMHGLQVWLASPQPHEQGPGHYSHHPAPTLPVSENLGVSIRMIAGSGFCLESPVPVLSPTLYAELNLQTATTLLIPTEHEERALYVLSGEAQLDGEPLEPHSLVILPAGEEMALFASSDCHAVLFGGAPLDGPRRMNWNFVASDPARIDEARRRWAAGDWPTVPGESERIELP				NA	NA	NA	NA	NA
D1-35_01980	1134			hypothetical protein	ATGTCTTCCAGGTTGAACGACGAATGCGCAAAGCATAACCCGAGGCTACAGCGGACGGCAGCGCTGGCTGAACCCAGGCGGGACGGATGGGTCTATGCTGCTTATGGCTTTCGGAGACTGCCTGTGCCTTTGACCCGTTTGATCTTCATTTGGCTGCTGGCTGTTTCGAGCACCGGCGCTGTGTCTCGCGAATACACCTACAGTGATGCGCACCTGCACTACGTCGATTTCTTCCAGGAAACGGCCGGCATGCCCAAGTTGCTCAAGGCCATGGCGGACAATCGCATCGAGCATGTGATGATCTCCGGCGTGCCGGTGGCCAAGAAATGGCATGAAGACGAACCCAAGCGCCCGCGCTATTACGCCGGTGACGATGCCGACGCCTATTGGTACAGCGCCACCGATGTGATTGTGGCCGCCGCGGTAAACAAACTGCCCGCCGAACAGCGGCAGTACTTCCATCCGTTCCTGTCCGGCTTCAATCCCAATGACAAGAACTCCGACGCTCATATCCAGCGCATGCTCGACCTGTATCCGGGGCTGTGGCAAGGCATCGGCGAAGTCTTCACTCGCCATGATGACCTGACGGCGCTGACCTCCGGCGACACACCGCGCGCCAACAACGAAGCGATGACGCGGATCTATCACCTCGCGGCGGAAAATGACCTGCCGGTGATGCTGCATTCCAACATCACCTCCAAGCGTGAGAAAAATCCGCTGTACCTGGCGGAGGTCGAAGAGCCGTTGCGCAATCATCCCCATACGCGATTCATCTGGGCCCATGCCGGCACCAGCATGGAAATCCATCGGCACCAGACTCGGCTGGATTTCCTGTTGCCCACCCTGACGCGGATGCTTGAGTCTTATCCCAATCTGTTCATCGACCTGTCCTGGAGCATGCTCACGCCCTATTTGCTCGACGAGGCGGGTAAGCCCCGCGAGGAATGGGTAAAACTGGTGGAGCGCTTCCCGGAGCGCTTCATGCTCGGGTCTGATGTGGTCGGACGCTTCAACAAGCTGGGCAAGGAGCTGCACAGCTTCGACCCGTTCCTTGATGCCTTGCCGGAAGATGTCGCGAGGAAAGTGGCGCGGGATAACTTCCTTTCGGTATTGCCCCGTACCGCCCCACGCTGA	MSSRLNDECAKHNPRLQRTAALAEPRRDGWVYAAYGFRRLPVPLTRLIFIWLLAVSSTGAVSREYTYSDAHLHYVDFFQETAGMPKLLKAMADNRIEHVMISGVPVAKKWHEDEPKRPRYYAGDDADAYWYSATDVIVAAAVNKLPAEQRQYFHPFLSGFNPNDKNSDAHIQRMLDLYPGLWQGIGEVFTRHDDLTALTSGDTPRANNEAMTRIYHLAAENDLPVMLHSNITSKREKNPLYLAEVEEPLRNHPHTRFIWAHAGTSMEIHRHQTRLDFLLPTLTRMLESYPNLFIDLSWSMLTPYLLDEAGKPREEWVKLVERFPERFMLGSDVVGRFNKLGKELHSFDPFLDALPEDVARKVARDNFLSVLPRTAPR				NA	NA	NA	NA	NA
D1-35_01981	465			hypothetical protein	ATGCATCTCACCCGTTCAAGCGCACTGGTCGCGCTGTTGTTGACCTGCGGCCTGGCACAGGCCGAAGTCCGTGTCGAAGGTCCGGTGGAATACGGTGTCTTCGAAGGGCCGCAAGCCGAATTGCAATCGGGCGAGCGGGTCTTGCGGCGCAGCAATGAGCAGATCCGCCAGACCGAGAGCGTACCGGCAAAGCTGGGCACCAAATTTGGCATGCGCTACCAGTTGGCCGGCAAGGTCGCGGATGACCAGCCGTTGACCCTGTTGTATTTCACCCCGGGCATCCGTACCCCCGATGGCGTGCGCCATGACAAATTCGAAGTCATTCAGAAGCTGGTGCCTGGCGCGCCGCAGGATGTGATGGCCTACGAATTCACCGAAAGCCACGAAGTGGTGCCGGGGGAGTGGCGATTCATGGTGTTCCAGGGGGATCGTTTGCTGACGCAGCAGCGGTTTGTCGTGCGCTAA	MHLTRSSALVALLLTCGLAQAEVRVEGPVEYGVFEGPQAELQSGERVLRRSNEQIRQTESVPAKLGTKFGMRYQLAGKVADDQPLTLLYFTPGIRTPDGVRHDKFEVIQKLVPGAPQDVMAYEFTESHEVVPGEWRFMVFQGDRLLTQQRFVVR				NA	NA	NA	NA	NA
D1-35_01982	1221	fabB		3-oxoacyl-[acyl-carrier-protein] synthase 1	ATGCGCCGCGTCGTTATCACTGGTCTGGGCATCGTTTCGTGCCTGGGCAATGACAAAGAGACCGTCTCCGCTAACCTGCGTGCAAGTCGCCCTGGCATCCGGTACAACCCGGAATACGCCGAAATGGGTCTGCGTAGCCAGGTTTCCGGCTCCATTGACCTCAATCTCGAAGAGCTGATCGATCGCAAGATCTACCGTTTCGTCGGCCACGCGGCAGCTTATGCCTACCTGGCCATGAAGGACGCCATCGCTGACTCCGGCCTGACCGACGAGCAGGTTTCCAACGTGCGCACCGGCCTGATCGCCGGTTCCGGTGGCGCGTCGACCCTGAATCAGATGGAAGCGCTGGACATCCTGCGCGAAAAAGGCGTCAAGCGTGTCGGCCCGTACCGCGTCACGCGGACCATGGGCAGCACCGTGTCGGCCTGCCTGGCCACGCCATTCAAGATCAAGGGCCTGAACTACTCGATCTCCTCCGCCTGCGCCACCAGTGCCCACTGCATTGGCACCGCGGTCGAGCAGATCCAGATGGGCAAGCAGGACATCGTCTTCGCCGGCGGCGGCGAAGAAGAACATTGGAGCCAGTCGTTCCTGTTCGACGCGATGGGCGCCTTGTCCAGCAAGCGTAACGACTCCCCGCAGACAGCTTCCCGTGCCTACGATGCCGACCGTGACGGTTTTGTCATCGCCGGCGGTGGCGGCATGGTCGTGGTCGAGGAGCTGGAACACGCCCTCGCCCGTGGCGCGAAAATCTATGCGGAAATCGTCGGCTACGGCGCCACTTCCGACGGCTACGACATGGTCGCGCCAAGCGGCGAAGGTGCCGTGCGCTGCATGCAGATGGCCATGTCCACCGTCGATACGCCAATCGACTACCTGAACACCCACGGCACCTCGACTCCGGTCGGCGACGTCGCGGAGATGAAAGGCGTACGTGAAGTGTTCGGCGACAAGGCCCCGGCCATCAGTTCCACCAAGAGCCTGTCGGGTCACTCCCTGGGCGCCGCCGGCGTTCACGAAGCGATCTACTGCATGCTGATGATGGAAGGCAACTTCATGGCCGGTTCGGCCAACATCGACGAGCTGGACCCGGAAGTGGCCGACCTGCCAATCCTGACCAAGACTCGCGAAAATGCCACCATCAACACCGTGATGAGCAACAGCTTCGGCTTCGGTGGCACCAACGCCACCCTGGTGATGAAGCGCTGGCAGGGCCAGTAA	MRRVVITGLGIVSCLGNDKETVSANLRASRPGIRYNPEYAEMGLRSQVSGSIDLNLEELIDRKIYRFVGHAAAYAYLAMKDAIADSGLTDEQVSNVRTGLIAGSGGASTLNQMEALDILREKGVKRVGPYRVTRTMGSTVSACLATPFKIKGLNYSISSACATSAHCIGTAVEQIQMGKQDIVFAGGGEEEHWSQSFLFDAMGALSSKRNDSPQTASRAYDADRDGFVIAGGGGMVVVEELEHALARGAKIYAEIVGYGATSDGYDMVAPSGEGAVRCMQMAMSTVDTPIDYLNTHGTSTPVGDVAEMKGVREVFGDKAPAISSTKSLSGHSLGAAGVHEAIYCMLMMEGNFMAGSANIDELDPEVADLPILTKTRENATINTVMSNSFGFGGTNATLVMKRWQGQ	PGPT0013310_893	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0013310-fabB-K00647	NA	NA
D1-35_01983	516	fabA	COG0764	3-hydroxydecanoyl-[acyl-carrier-protein] dehydratase	ATGACCAAACAAAACGCCTTTACTCGGGAAGATCTGCTGCGCTGCAGTCGCGGTGAGCTGTTCGGCCCAGGTAACGCGCAACTGCCCGCCCCGAACATGCTGATGGTGGATCGCATCACCCATATCAGCGACGAGGGTGGCAAGTACGGCAAAGGTGAATTGGTCGCCGAGCTGGATATCACTCCGGACCTGTGGTTCTTCGCCTGCCATTTCGAAGGTGACCCGGTGATGCCGGGCTGCCTGGGCCTGGATGCCATGTGGCAACTGGTCGGCTTCTTCCTTGGCTGGCAGGGCCTGCCGGGTCGCGGTCGCGCCCTGGGTTCGGGCGAGGTGAAGTTCTTCGGTCAGGTGCTCCCGACCGCGAAGAAGATTACCTATAACATTCATATCAAACGCGTCCTCAAGGGCAAGCTGAACATGGCCATCGCCGATGGTTCGGTGGCTGTCGACGGTCGCGAGATCTACACCGCCGAAGGCCTTCGGGTCGGCGTTTTCACCTCCACTGACAACTTCTAA	MTKQNAFTREDLLRCSRGELFGPGNAQLPAPNMLMVDRITHISDEGGKYGKGELVAELDITPDLWFFACHFEGDPVMPGCLGLDAMWQLVGFFLGWQGLPGRGRALGSGEVKFFGQVLPTAKKITYNIHIKRVLKGKLNMAIADGSVAVDGREIYTAEGLRVGVFTSTDNF				NA	NA	NA	NA	NA
D1-35_01984	1902	rcsC_8		Sensor histidine kinase RcsC	ATGACCTTGCGTCGACGTTGGGATATCAATACCCGCACCCAGCTCATTGCCCTCGGCCCGGCATTGTTGCTGACCGTGCTGTTGATCAGCTTCTTTACCTTCGTGCGAATCCAGGACTTGCGCCAGGAGCTCAACCACACCGGGCAACTGATCGCCAACCAACTGGCTCCGGCTGCGGAATACGGGGTGATTTCCGGCAACAACGAGGTGCTGGAAAGTTTGCTCACCGCCACCCTGGCCACTCCTCATGTGCGCTTCCTGGAAGTCCAGGACCGCACGGAGCGGATCCTCGTGTACGTCGAGCAACCGGCGCAGACGCGCAACCACTCGCGGCAGGTGGAGGTGTTCCAGGCTCCGGTTCGCCTGCAACGCATTGCGCTGAACAATGACTTCCTGCAAGGCACCAGCCCGTCCACCGAGGCGCCCGGCGAAGACTACCTGGGCCGCGTGATCGTCGGCATGTCCAGTGATGCCTTCAGCGAGCGCCAGCAGGAGATCCTGCTCAAGGCCGCGATCCTGGCGTTGTTCGCCCTGCTCTTTACCTTCCTGGTGGCGCGCCGACTGGCCGCCAGCCTGTCACAGCCGATCCGCGACATCGGCAATGCGGTCAAGGCGATCCAGCAAGGCGACTACAGCACCCCTTTGCCGATCGTCGACGACGGCGAACTGGGCGCTCTGTCGCGGCACATCAACAATCTGGCCGACGGCCTCGAGCAGGCCAGCCGCGAACAGCAGCAAGCCATGGCGCAGTTGATCCAGACCCGCGAGGAAGCGGAAAAGGCCAACAGCGCCAAATCGGAATTCCTGGCCATGATGAGCCATGAACTGCGCACGCCCATGAATGGCGTCCTGGGCATGTTGCAGTTGCTGGAAACCACCCAGATGACCGACGAGCAGCACGAGTACACCGCGCTGGCTTCGGAATCCACCGAGCACCTGCTGAAGGTGATCAACGACATTCTCGACTTCTCGCGCATCGAACGTTCGGCCCTGGAACTTGAACATATCGCTTTCAACCTGGCGGAACTGGTCGGCAGCTGCGCCCAGTCGTTCCAGCACAGCGCCGCGCAACGCAAGCTGGGCCTGGACCTGCTGATCCCCGACGACATGCGGGCCCTGCAAGTGCAAGGCGACCCGACGCGGATCCGCCAGATCCTGGTCAACCTGATCGGCAACGCACTGAAGTTCACCGACCAGGGGCGCGTCACCGTGCAATGCCAGTGGCAGGCGCTGGATCACGAACTGCTGTGGTTCACCTGCACGGTACGCGACAGTGGGATCGGCATCCCGGCCGACAGCCTGGAGCGCATGTTCGATGCGTTCCAGCAGGCCGACAGTTCGATTTCCCGGCGCTATGGCGGCACGGGCCTGGGCCTGCCGATCGCGCGCACCCTGGCCGAACGCATGGGCGGCACACTGCGGGCCCAGAGCGTGGAAGGCCAAGGTTCGGTGTTCACCCTGGAAATCCCGCTCGCGCTGTCCCGGCAGTCCCCACCGACCCTGGCCCCGCGCGCGCCCGGTGGCGGCAATGATGGCGAGGGCCGCAACGTCTTGCTGGTGGAAGACAATCCGGTCAACCAGACCGTGATCGAAGCCATGCTGCGCAGCCTGGGCTTCACGGTCAGCGTCGCCACCGATGGCGCCCAGGCCGTGCGCAGCGCCGAAAGCCTGATTTTCGAAGTGATCCTGATGGACTGCCGGCTTCCGGTGATCGACGGCTACGAAGCCACGCGACAGATCCGTCAGTTGCCAGGCTGCGCCGAGGTGCCCATCATCGCCCTGACGGCCAACGCGTTGCAGGGCGACCGTGAAGCCTGCCTGGCCGCAGGCATGAACGATTACCTGGCCAAGCCATTCAAAAGAATTGACCTGCAGCAGATTTTGCAGCGCTGGGTACGTTGA	MTLRRRWDINTRTQLIALGPALLLTVLLISFFTFVRIQDLRQELNHTGQLIANQLAPAAEYGVISGNNEVLESLLTATLATPHVRFLEVQDRTERILVYVEQPAQTRNHSRQVEVFQAPVRLQRIALNNDFLQGTSPSTEAPGEDYLGRVIVGMSSDAFSERQQEILLKAAILALFALLFTFLVARRLAASLSQPIRDIGNAVKAIQQGDYSTPLPIVDDGELGALSRHINNLADGLEQASREQQQAMAQLIQTREEAEKANSAKSEFLAMMSHELRTPMNGVLGMLQLLETTQMTDEQHEYTALASESTEHLLKVINDILDFSRIERSALELEHIAFNLAELVGSCAQSFQHSAAQRKLGLDLLIPDDMRALQVQGDPTRIRQILVNLIGNALKFTDQGRVTVQCQWQALDHELLWFTCTVRDSGIGIPADSLERMFDAFQQADSSISRRYGGTGLGLPIARTLAERMGGTLRAQSVEGQGSVFTLEIPLALSRQSPPTLAPRAPGGGNDGEGRNVLLVEDNPVNQTVIEAMLRSLGFTVSVATDGAQAVRSAESLIFEVILMDCRLPVIDGYEATRQIRQLPGCAEVPIIALTANALQGDREACLAAGMNDYLAKPFKRIDLQQILQRWVR	PGPT0004750_833	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_REGULATORS	CE-QSR-QUORUM_SENSING_REGULATED_FLS,PGPT0004750-aoxS-K20974	NA	NA
D1-35_01985	933			hypothetical protein	ATGTCTGCGGACCAACCGCGCAAGACGCCCCTCCGCGGCCGCCTGCCGCTACTCCTGTGCCTGGCGTTTGTCAGTCTGCTGACGACCCTCGATGCCCGGGCCGCCGAGATTCTCTTGACCGGCGCCCAGGATAGCCCCGGCGTGCAATCGTTCACCCAGGCCCTGCAAGCCCGACGCCCGCAAGACAACGTGCGGTTCGCGCCATTGGCCAGCCTGCCGTCGCCGGACCGTCTGCCCGGCGATGTGCGCCTGGTCCTGCTTGATCCGCCAAGCCTCGACTGGCGCCTGCAAAAAAACCACGGCCCGGCCACGCTGGTCCTGCGCATCAGTCGCTTGCAGGCATACGAACGCCTGGGCGAGGCAACGCCTGAGCGTCTGAGCCTGCTGTGGAGCGATCCGCCCATGGCGCGGCAACTGCAACTGATCCGCAGGGTGCTGCCGCAAGTGCGGCGGGTCGGCGTGCTGTTCGACCGGCACAGCGAATTCCTGCTCAAGGACATCCAGCAGGCAGCCAGGCCGCTGGGCCTGGAAATCGTCAGCGAACGCTGGGACGACAGCAGCGACAACCGTCCCTTGCAGAACCTGCTGGGCCGCAGCGACGTACTGCTGGGCCTCGATGACCCCGACCTCTACAACCCCAAGACCGTGAAAAACCTGCTGCTCAGTAGCTACGCCCGGCAACGCGCGCTGATCGGGCCAAGCGCCGCGTTTGTCAGGGCCGGCAGCCTGGCCAGCACCTACAGCGACCAGGACGACTGGCTGGCGATCCTCGACGAATTGCTCGACCGTCCCACCGCCAGCTGGCCGCGCACGCTGTATCCGGTCCGTTTCAAAGTCATGAGTAACCAGCAGGTCGCCCGCTCGCTGGGCATTGAACCGATTGATGCCGAAGCCGTCGCTGCGCAGTTGGCAGAAGGAGAACACCGCCCATGA	MSADQPRKTPLRGRLPLLLCLAFVSLLTTLDARAAEILLTGAQDSPGVQSFTQALQARRPQDNVRFAPLASLPSPDRLPGDVRLVLLDPPSLDWRLQKNHGPATLVLRISRLQAYERLGEATPERLSLLWSDPPMARQLQLIRRVLPQVRRVGVLFDRHSEFLLKDIQQAARPLGLEIVSERWDDSSDNRPLQNLLGRSDVLLGLDDPDLYNPKTVKNLLLSSYARQRALIGPSAAFVRAGSLASTYSDQDDWLAILDELLDRPTASWPRTLYPVRFKVMSNQQVARSLGIEPIDAEAVAAQLAEGEHRP				NA	NA	NA	NA	NA
D1-35_01986	2187	btuB_1		Vitamin B12 transporter BtuB	ATGGAAAAGTCGCACGGCTCGGTTAACATGCCCGCCATCCCTCCTTCAATCAAAGGCTGTGCCGTGTTCGTTGGCCCTTCCCGTCCAGGTTCATCACTGCTGTTGGCGCTGGTCATCAGCCCCTCCGTGGTGGCCGATGATCTGTTCGTGGACCACCAGCCCCTGCCCCAGGTACTTACCGCCACGCGCCTGAAACAGTCGCCGGCGGCGGTGCCGGGCAGCATGACCGTGCTTGACAGCGAGTTGATCAAGGCCAGCGGTGCCCGGGACATCAGCGAACTGTTGCGCCTGGTGCCGGGCATGATGGTCGGCAACCTCAGCGGCAACCAGGCCACGGTGAACTACCACGGCACCAACGCCAGCGAAGCGCGACGCATGCAAGTGCTGATCGACGGCCGCTCGGTGTACCGCGCCGGCCTCGCCACGGTGGACTGGAGTGACATTCCGGTCGCCATGGAAGACATCGACCGGATCGAAGTCTTCCGCGGCCCCAACACCGTCAGCTACGGCGCCAACGCGCTGATGGCAGTCGTCAATATCATCACCCGCGCCCCGGCGGGTAGCCACGGCACCCGCTTGAAAATGACCCGGGGCCAGCGTGGCATCAGCGACTGGTACGCCAGCCAGGGCAGCGGTTGGGAAAATGGCGATATGCGCCTGTCCTTGTCCGGCCAGGAAGACGACGGTTTCGACAGTGACCGCAACGGCGCGGACTACCGCGACAGTCGGCGCCTGAATCGCATCAACCTTTCCGTCAGCCAGGCCCTGGACGAATGGCAGAGCATCGATTGGCAACTGAGCGCCAAAGAGGGCAGCAACCAGCGGCCCTATACCTATCGCCCGGTTTTCGCCGGGATAACCGCGGCCGGGGACAACTCCGATGTCATCGCCAAGGACTACGCCGGTTCGTTGCGCTGGAACCTCGACCTGGACCCCAACCACAGTCTCTACGTACAGGGCTCGATCCAGCATTGGGATCGCCAGCAGACCTGGCGCGCCTGCGATGCCGAGGTGTCCTTCAGCCCGCAATTGACCGACCTCTGGCAGCTCAACCCGAATTACGCCGAGAAGCTGGCGCGCAATATTCCAAGCTTCCTTGGCACAGGGGCACCTGCCGGCACGGCCCAGGAGCAGGCGCTGGCCAACCAGGTGATCGATCAATGGCGCAACGGTGCCTCGCGAACCCTGTGCGGCGACATCGACCAGAGCGCCCGGGAGTCACGTTACGACCTGGAAATCCAGGACACCCTGAGCCTGTCCGATAGCCTGCGCCTGGTCACCGGGGCGAATTATCGCTACGACCGGGCCGACTCCGAGACGTACTTCAACGGCACGCTGGACGACACCACCTGGCGTCTGTTCGGCCAACTCGAATGGCGCGCCAGCGAGCATTGGCTGCTGCAGGGTGGGGCGATGTTCGAGGACACCCGCCTGACCGGCAGCTCACTGACCCCGCGAGTCGCGGTCAATTACCTGATCAACCCGCGACACGGGCTTCGGGCGGTGTACTCCGAAGCGGTGCGCTCGCCAGACATGTTCGAGAACAACGTCAACTGGAGCTACCAGGTCACCAACCTGCGGCCCGCCGCGTTCGGCCAGGACAGCGCGCGCTATTTCGTCCGCACGCGCGGCCCGGGGAACCTCGAGCAGGAGCACATGCGCTCGCGAGAGCTGGGCTACAACGGTTATTTCATGGACCTGGGCCTGACGGTGGATGTGAAGCTGTTCCATGACGAAATCACCGGCATGATCAGCGAACCGCTGCGCAACAACCAGTACATCGCCAGCAATGCCAACGACTCGCAGTTCGACGGTGCCGAGACCCAGCTCGACTGGCGCCTGACCAGCGCCGATCGCCTGCGCCTGACCTATGCCTACGTCGATGCCCAGGCCAGCAATCCTCTCGACGAACAACTGACCGCCCGCAACAGCGGCTCGGCGGGATGGCTGCACGACTGGGGCCAGGGCTGGAACAGCGCGGTTTTCTATTACGGGGCCGACGATCTCAATGGCTACCGCTACGAGCGGGTCGATACCCGCGTCGCCAAGCGGATCCCCCTGGGCAAGGCCAGCCTGGAGCTGGCGGGTATCGTGCAGCAGCGCCTCGATAACCAGCCGACCACATTCGCCGACAATCGCTACGACGCCCGTCACGTCCTGTATTTCAGCGCGGAGCTGTCGTTCTAG	MEKSHGSVNMPAIPPSIKGCAVFVGPSRPGSSLLLALVISPSVVADDLFVDHQPLPQVLTATRLKQSPAAVPGSMTVLDSELIKASGARDISELLRLVPGMMVGNLSGNQATVNYHGTNASEARRMQVLIDGRSVYRAGLATVDWSDIPVAMEDIDRIEVFRGPNTVSYGANALMAVVNIITRAPAGSHGTRLKMTRGQRGISDWYASQGSGWENGDMRLSLSGQEDDGFDSDRNGADYRDSRRLNRINLSVSQALDEWQSIDWQLSAKEGSNQRPYTYRPVFAGITAAGDNSDVIAKDYAGSLRWNLDLDPNHSLYVQGSIQHWDRQQTWRACDAEVSFSPQLTDLWQLNPNYAEKLARNIPSFLGTGAPAGTAQEQALANQVIDQWRNGASRTLCGDIDQSARESRYDLEIQDTLSLSDSLRLVTGANYRYDRADSETYFNGTLDDTTWRLFGQLEWRASEHWLLQGGAMFEDTRLTGSSLTPRVAVNYLINPRHGLRAVYSEAVRSPDMFENNVNWSYQVTNLRPAAFGQDSARYFVRTRGPGNLEQEHMRSRELGYNGYFMDLGLTVDVKLFHDEITGMISEPLRNNQYIASNANDSQFDGAETQLDWRLTSADRLRLTYAYVDAQASNPLDEQLTARNSGSAGWLHDWGQGWNSAVFYYGADDLNGYRYERVDTRVAKRIPLGKASLELAGIVQQRLDNQPTTFADNRYDARHVLYFSAELSF	PGPT0003790_22338	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
D1-35_01987	1026	gpsA		Glycerol-3-phosphate dehydrogenase [NAD(P)+]	ATGACTGAACAGCGCCCGATCGCGGTCCTGGGAGGCGGGAGTTTCGGCACCGCCGTGGCTAACCTGCTGGCGGAGAACGGCCACGCGGTGCGCCAGTGGATGCGTGACCCGGAGCAGGCCGAGGCCATCCGGCTCAACCGGGAGAATCCGCGTTACCTCAAAGGCATCAAGGTTCGCCCTGAAGTGGAGCCGGTCACCGATTTGCAGGCCACGCTCGAGGGCAGCGATCTGTTTTTCGTTGCCTTGCCTTCCAGCGCCCTGCGCTCGGTGCTGGCGTCCCACGCCGAACGCCTGAGCGGCAAGTTGCTGGTGAGCCTGACCAAAGGCATCGAGGCGCAGACCTTCAAGCTGATGAGCGAGATTCTTGAGGAAATCGCCCCCAAGGCGCGCATCGGCGTGATTTCCGGGCCGAACCTGGCGCGGGAAATCGCCGAGCATGCGCTGACCGCCACCGTGGTCGCCAGTGAAGACGAGGAGCTTTGCCAGCGGGTCCAGGCCGCCCTTCATGGCCGAACCTTCCGGGTCTATGCCAGCGCCGATCGTTTCGGCGTGGAGCTGGGCGGGGCGCTGAAGAACGTCTACGCGATCATCGCCGGCATGGCGGTCGCGCTGGGCATGGGCGAAAACACCAAGAGCATGCTGATCACCCGGGCGCTGGCGGAGATGACCCGTTTTGCCGTCAGCCAGGGTGCCAACCCGATGACATTCCTCGGGCTGGCCGGGGTGGGCGACCTGATTGTCACCTGCTCTTCGCCCAAGAGTCGCAACTACCAGGTCGGCTTCGCCCTTGGCCAGGGCCTGAGCCTGGACGAGGCCGTGTCGCGCCTGGGCGAAGTGGCCGAAGGGGTCAATACCCTCAAGGTCCTCAAGGCCAAGTCCCAGGAGACCGGGGTGTATATGCCGCTGGTCGCGGGACTGCACGCCATTCTGTTTGAAGGGCGCACGCTGGAGCAGGTCATCGAACTGTTGATGCGTGGCGAACCGAAGACCGATGTCGATTTCATTTCCACCAGCGGTTTCAACTGA	MTEQRPIAVLGGGSFGTAVANLLAENGHAVRQWMRDPEQAEAIRLNRENPRYLKGIKVRPEVEPVTDLQATLEGSDLFFVALPSSALRSVLASHAERLSGKLLVSLTKGIEAQTFKLMSEILEEIAPKARIGVISGPNLAREIAEHALTATVVASEDEELCQRVQAALHGRTFRVYASADRFGVELGGALKNVYAIIAGMAVALGMGENTKSMLITRALAEMTRFAVSQGANPMTFLGLAGVGDLIVTCSSPKSRNYQVGFALGQGLSLDEAVSRLGEVAEGVNTLKVLKAKSQETGVYMPLVAGLHAILFEGRTLEQVIELLMRGEPKTDVDFISTSGFN	PGPT0024330_1148	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024330-gpsA-K00057	NA	NA
D1-35_01988	348			hypothetical protein	ATGAACGATCCGAAAGGGCAGCCCCAATACGAATCCATCCTGCTGCGTGTGCTGTGGATGGTGATCTATCTGCTGGTCTGGCAGGTGGCGCAATTCATCCTCGGCGCCGTGGTGCTGGTGCAATTGGTTTATCGACTGATCTACGGCGCACCCAGCGCCAGCCTGATGAATTTTGGCGACAGCCTGAGCCAGTTCCTCGCGCAGATCGGCCGCTTCGGCACTTTCCACAGCGACCAGAAACCCTGGCCCTTCGCTGACTGGCCGACCCCGCGGACACCGGAAGGCGAAGCGCCTCACACCGTGGCGCCAGCGCCGCACCCGGTCCGTGACGAGGAGCCGAAACTATGA	MNDPKGQPQYESILLRVLWMVIYLLVWQVAQFILGAVVLVQLVYRLIYGAPSASLMNFGDSLSQFLAQIGRFGTFHSDQKPWPFADWPTPRTPEGEAPHTVAPAPHPVRDEEPKL				NA	NA	NA	NA	NA
D1-35_01989	453			hypothetical protein	ATGAAACTGTGGGTATTGCGTCACGGTGAAGCAGAGCCGCACGGGGCTCGTCCGGACCCTGAGCGGGTATTGACGGTCCATGGCCGCGAAGAGGTGCTGCGCAGCGCCGGGCAGTTGATGGCTGAGCCGTTGCGGGCCATTTATGCCAGTCCCTACGTGCGTGCCCAGCAGACCGCGCAACTGGTGCGTGAAGCCCTGGGGTTCGAGCCAGAGTTGATCACGGTCGACTGGCTCACCCCGGAGACCCGGCCGGCCGATGTGTTGAAACATCTGGAGGACCAGGACGACGTACTGCTGGTCAGCCACAACCCGCTGGTGGGCAGCCTGTTGGGCTTGTTGCAGCACGGCCACCTGCAGCAACCTGAACAGGTGCAAACGGCCGGTCTGGCAGAGCTGGAAGGCGACCTGCCGCTGGCCGGCTCGATGAAACTCAAGAGCCTCAGGCATCCCTGA	MKLWVLRHGEAEPHGARPDPERVLTVHGREEVLRSAGQLMAEPLRAIYASPYVRAQQTAQLVREALGFEPELITVDWLTPETRPADVLKHLEDQDDVLLVSHNPLVGSLLGLLQHGHLQQPEQVQTAGLAELEGDLPLAGSMKLKSLRHP				NA	NA	NA	NA	NA
D1-35_01990	444		COG2050	Putative esterase	ATGAGTCTTTGGCGCACCACCCCCAACATCGAACAACTGAACGCCGCCGGTAAAAATACCATCAGCGAAGTGCTGGACATCCGTTTCGAATCCTTCGATGAAGAATCCCTGACCGCGAGCATGGTGGTCGATCACCGCACCCACCAACCGTTCGGGTTGCTGCACGGCGGCGCTTCGGTGGTGCTGGCCGAAACGGTCGGGTCCATGGCCGCCTACCTGTGCGTGGACACCAGCAAGTTCTATTGCGTCGGCCTGGAAATCAACGCCAACCACCTGCGCGGTGTGCGCAGCGGGCGGGTCACCGCGACGGCTCGCGTGGTTCACCTGGGCCGCACCACGCAGGTCTGGGATATTCGCCTGGTCAATGATGATGGCAAGGTCAACTGTGTATCGCGCCTGACCATGGCGGTGGTGCCGCTGGGCGAGCAGCCGCCGGCGCGTTGA	MSLWRTTPNIEQLNAAGKNTISEVLDIRFESFDEESLTASMVVDHRTHQPFGLLHGGASVVLAETVGSMAAYLCVDTSKFYCVGLEINANHLRGVRSGRVTATARVVHLGRTTQVWDIRLVNDDGKVNCVSRLTMAVVPLGEQPPAR	PGPT0001845_733	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
D1-35_01991	795			hypothetical protein	ATGTCGCAACAGGTGTTTTTCGCCCACGCCAATGGTTTCCCCTCGGCTACCTACGGCAAGCTGTTCGCCGCGCTGGCGCCGCAATATGAGGTCGCGCACCTCGAACTGCACGGTCACGACCCACGGTTTCCGGTGGACGACAACTGGAACAACCTGGTGGACGAGCTAATTCATCACCTGGAGCAGCAACCGGAACCGGTGTGGGGCGTCGGCCATTCCCTGGGCGGTGTGTTGCACTTGCATGCGGCGTTGCGTTGCCCTCGGTTGTATCGCGGCGTGGTCATGCTCGATTCCCCGGTGCTGACCCGCGCCGACCGATGGCTGATCCTGGCCGCCAAGCGCATGGGGTTCATTGATCGCCTGACCCCGGCCGGGCGGACCCTGGGACGGCGCGAGGAATTCAGCGACCTGGCGTCGGCGCGGGCCTATTTTGCCGGCAAAACGCTGTTTCGCGGTTTCGACCCGGAATGCTTTGAAGCTTATCTGCAACATGGCTTGCAACCTGTCGGTGACCGGTTGCGGCTGCGCTTCGACCCGGCCACGGAGATCAGCATCTACCGTGGCGTGCCCCATACCCGCCCCGCGAGGGCTGGAACACTCCAGGTTCCGCTGGCGGTAGTACGGGGCCGGCAGAGTCGCGTGGTGATGCGTCATCACACGCGTGTGGTGGGGCGCATGCCGCAGGGTGAATCCCTGACCATGCCCGGTGGCCACATGTTTCCCCTCGAATATCCCCAGGACACGGCCAACCTGCTCAAGGACCTGCTCCAGCGCTGGCAAGGGCCTGACGCATGA	MSQQVFFAHANGFPSATYGKLFAALAPQYEVAHLELHGHDPRFPVDDNWNNLVDELIHHLEQQPEPVWGVGHSLGGVLHLHAALRCPRLYRGVVMLDSPVLTRADRWLILAAKRMGFIDRLTPAGRTLGRREEFSDLASARAYFAGKTLFRGFDPECFEAYLQHGLQPVGDRLRLRFDPATEISIYRGVPHTRPARAGTLQVPLAVVRGRQSRVVMRHHTRVVGRMPQGESLTMPGGHMFPLEYPQDTANLLKDLLQRWQGPDA				NA	NA	NA	NA	NA
D1-35_01992	852	menH_1		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGAACGCCGTCGAAGAGGTTCGCCTGAGCTTGCCCCATATCGAACTCGCCGCCCACCTGTTCGGACCGGAGGATGGCCGGCCGGTGATCGCGCTGCATGGCTGGCTGGACAACGCCAACAGCTTCGCCCGGCTCGCCCCACGGCTGGAGGGTGTGCGGGTGATTGCCCTGGACATGGCCGGCCACGGTCATTCCGGACACCGCCCGCCCGGGGCCGGCTACGCCCTGTGGGACTACGCCCATGATGTGCTGCAAGTGGCCGAGCGATTGGGCTTGAAACGTTTCGCGCTGTTGGGGCACTCCATGGGCGCCATCGTTTCGCTGGTGCTGGCCGGCTCCCTGCCGGAGCGGATCACGCACCTGGGCCTGATCGACGGCGTGATTCCGCCTACAGCCAAGGGCGACAATGCGGCGGAGCGGCTGGGCATGGCCCTGCAGGCGCAGCTGGATTTGCAGGAAAAGCGCAAACCGGTCTACACAACCCTCGACCGAGCCATCGAAGCGCGCATGAAAGGGCTGGTGGCGGTCAGTCGCGAGGCCGCCGAGTTGCTCGCCCAGCGCGGTCTGATGCCAGTGTCGGGCGGCTATACCTGGCGCACCGACAACCGCCTGACCTTGCCATCGCCACTGCGCCTGACCGATGAACAGGCCATGGCGTTCGTGGCCCGAGTCGCCTGTCCAGCGCACCTGGTGGTGGCAGCTGACGGCATGCTGGCCCAGCATCCGGAGTTGCTGGAACGTCTACCCTTCAGTCATGAGCGGTTGCCTGGCGGTCATCATTTGCACCTGAACGATGAGGTCGGTGCGGCTCTTGTAGCAGACTGTTTCAATCGGTTCTTCAGCGTTTCTTGA	MNAVEEVRLSLPHIELAAHLFGPEDGRPVIALHGWLDNANSFARLAPRLEGVRVIALDMAGHGHSGHRPPGAGYALWDYAHDVLQVAERLGLKRFALLGHSMGAIVSLVLAGSLPERITHLGLIDGVIPPTAKGDNAAERLGMALQAQLDLQEKRKPVYTTLDRAIEARMKGLVAVSREAAELLAQRGLMPVSGGYTWRTDNRLTLPSPLRLTDEQAMAFVARVACPAHLVVAADGMLAQHPELLERLPFSHERLPGGHHLHLNDEVGAALVADCFNRFFSVS				NA	NA	NA	NA	NA
D1-35_01993	807			hypothetical protein	ATGTATTCATTCGCCCTGCTGGCGCTGGCCGCTTTCGGTCCGGCCGCCCTGGCCGCCGATGTGCCCGGCAGCCAGGACCTGGCGCGCGTGCCGCGGATGCCCGACGCGCAAATCGTCGATTACAAGCAAACCAGCGACCTTGAGCGTATCTACCCGATGGGCTCGATCCGCAGGATCAGCGGCCAGCTGCGCTTCGATGGGCAGGTCGACGCCCGCGGCAACGTCACGTCGGTCACCTATGAATTACCGCCGGAGCACACCGCCACCCAGGCTTTTACCGCTGCTCGCGAAGCACTGCAGAAGCAGGACGCCGAGCTGCTTTTCTGGTGCCAGGCGCGTGATTGCGGTGAGAGCAGCCTGTGGGCCAACCAGGTGTTTGGCAATGCCAAGCTCTATGGTGCCGACAGCGGCCAGGCCTATCTGCTGTTGCGCCTGGCGCCGCCGGCGGACAACACGCTGATCGCGCTGTATGCCATCACCCGCGGCAACCGCAAGGCCTACCTGCACGTCGAACAGTTCGAAGCGAACGCTCCCCTGGGGGATCTGCTGCCGACATCTGCGACGTTGCTGCGCCAGCTCAAGGACACCGGCGTGCTGGATCTGCCGCGTCTTGCCGGCGAGCCGGACGACGCCTGGCTGCGCTTGCTCTCCCGGGCGCTGAACCTGGACACCGGCCTTCGGGTCAGCATCGCCGGCCCGCAGGCCGAGGTGTGGCGCCAGGCCCTCATTGGCCAGGGTGTGCGGGCCGCGCGCATGGAGACGGCCAGCGATGAGGCGAAGGGTCTGCACCTTGAACTGTTGCGATAA	MYSFALLALAAFGPAALAADVPGSQDLARVPRMPDAQIVDYKQTSDLERIYPMGSIRRISGQLRFDGQVDARGNVTSVTYELPPEHTATQAFTAAREALQKQDAELLFWCQARDCGESSLWANQVFGNAKLYGADSGQAYLLLRLAPPADNTLIALYAITRGNRKAYLHVEQFEANAPLGDLLPTSATLLRQLKDTGVLDLPRLAGEPDDAWLRLLSRALNLDTGLRVSIAGPQAEVWRQALIGQGVRAARMETASDEAKGLHLELLR	PGPT0013045_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013045-yghU|yfcG-K11209	NA	NA
D1-35_01994	1038	ydiK_1	COG0628	Putative transport protein YdiK	ATGCTCAATAACGATCGGCTATTGGTGCAGATCCTGCTGTTGGTGTTGTTCGGCGCAAGCCTCTGGGTGATGGCGCCATTCTGGTCGGCGCTGTTCTGGGGCGCCGTGCTGGCTTTCGCCAGCTGGCCGCTGATGCGCTTGCTGACCCGCTGGGTCAACGGGCGTGAATCCCTCGCCGCGGCGTTGCTGACGGTCGGCTGGATGTTACTGGTGGCGGTGCCGCTGGTGTGGCTGGGATTCAACCTGGCCGATCATGTGCGCGATGCCACGGCGTTCATCAGGGATGTCCAGGTCGACGGCCTGCCCGCAGCGCCGGAATGGCTGGCTGGTGTGCCGCTGGTAGGTGGGCGGCTGGTGACGCTCTGGGACAGCATCGACCAACAGGGCGCGGCGATGATGGTGTCCATCAAGCCGTACCTCGGAAGGGTCGGCAATTGGTTGCTGGCCCGCAGCGCGCAAGTAGGCGGCGGTATTCTCGAACTGACGTTGAGCATCGTGTTCGTGTTCTTTTTCTACCGTGACGGCCCGCGCCTGGCGGCCTTTGTCCAAGGCTTGCTGGAGCGGTTGATTGGTGACCGTGCCGGGTACTACGTCGACCTGGTGGCCGGTACGGTGCAGCGGGTGGTCAACGGCGTGATCGGTACCGCGGCGGCCCAGGCCGTGCTCGCGCTGATCGGTTTCCTGATCGCGGGCGTGCCGGGAGCACTGGTGCTTGGTATTGTCACTTTCCTGCTCAGCCTGATTCCCATGGGCCCGCCGCTGGTCTGGATCCCCGCCACGGCGTGGCTGGCGTGGAAGGGCGAATACGGGATGGCGGTGTTCCTCGGTATCTGGGGCACCTTCATCATCAGCGGCGTGGATAACGTGCTCAAGCCTTACCTGATCAGCCGCGGCGGAAACCTGCCGCTGGTCATCGTGCTGCTGGGGGTTTTCGGCGGGTTGATCGCCTTTGGTTTCATCGGCCTGTTCATCGGTCCGACGCTGTTGGCGGTGGCGTACAGCTTGCTGACGGATTGGAGCAAGAGCCACGCGCGGTAA	MLNNDRLLVQILLLVLFGASLWVMAPFWSALFWGAVLAFASWPLMRLLTRWVNGRESLAAALLTVGWMLLVAVPLVWLGFNLADHVRDATAFIRDVQVDGLPAAPEWLAGVPLVGGRLVTLWDSIDQQGAAMMVSIKPYLGRVGNWLLARSAQVGGGILELTLSIVFVFFFYRDGPRLAAFVQGLLERLIGDRAGYYVDLVAGTVQRVVNGVIGTAAAQAVLALIGFLIAGVPGALVLGIVTFLLSLIPMGPPLVWIPATAWLAWKGEYGMAVFLGIWGTFIISGVDNVLKPYLISRGGNLPLVIVLLGVFGGLIAFGFIGLFIGPTLLAVAYSLLTDWSKSHAR				NA	NA	NA	NA	NA
D1-35_01995	1047	sasA_9		Adaptive-response sensory-kinase SasA	ATGCGCATGCGCCTGGACACCCTGTTCGGCCGGCTGTTCGGCGTGCTTTTGCTGGCGATCGTCCTGGCGCACCTGCTGGCTTTTGCCTGGTTTTTCTACTACGGCCCGCCACCGCCTCCGGGACCACCGCCCGAGTCTTCCCGGCCAATCGAAGGCGGCCAAGGCTCGGCGCCACCAACCGATCGTCCTTTGCGCCCGCGGTTCGGCGGTCCCGTGGTGCCGCTGACATTTCAGTTTGTGTTCCTGATCGTAGCCGCCTGGTACGGCGCCAAGCTGTTGACCCGGCCGATCCAGCGCCTGAGCGAGGCCGCCGAACGATTAAGCGAGAACCTCGACAGCCAGCCATTGGATGCAAGCGGCCCCAGGGAGGCACGCCAGGCGGCCCATACGTTCAACTTGATGCAGCAGCGGATCCGTGAGCAGGTACAACAGCGCTCGCGGATGCTCGGCGCGGTCTCCCACGATTTGCGAACGCCGCTGTCACGGCTAAAGTTGCGCCTGGAACAGATTGACGACCCCAAGCTGCAAAACCAGATGCGCCAGGACCTGGACGACATGATCGGCATGCTCGACGCCACGCTTTCCTACTTGCATGAACAACGCACCAGCGAAGCGTTGCAATGGATGGATGTGCAAGCCTTGGCGGAATCACTGAGCGAGAATGCCCAGGATCAGGGTGCCGATGTCCAGGTCAGTGGTGCCTGCGCCCCGCTGCTGGTGCAACCCATGGCGCTGCGCTCGTGCATCAACAACCTCATCGACAATGCCTTGCGCTACGCCGGTCATGCCTCGATCGTCCTGGAAGACCAGCGCCACCAATTGCTGATCCGAGTGATCGATCACGGCCCCGGCATCGCCGCAGACAAACGCGAAGCTGTGTTCGAGCCGTTCTTTCGCCTGGAAGGCTCGCGCAACCGCAACTCCGGCGGCGTAGGCCTGGGCATGACCATCGCCCGGGAAGCCGCCGAACGTCTGGGTGGGCAATTGAGCCTGGAGGAAACTCCCGGGGGCGGATTGACGGCGGTGATCGGCCTGCCCCGTCGTTGA	MRMRLDTLFGRLFGVLLLAIVLAHLLAFAWFFYYGPPPPPGPPPESSRPIEGGQGSAPPTDRPLRPRFGGPVVPLTFQFVFLIVAAWYGAKLLTRPIQRLSEAAERLSENLDSQPLDASGPREARQAAHTFNLMQQRIREQVQQRSRMLGAVSHDLRTPLSRLKLRLEQIDDPKLQNQMRQDLDDMIGMLDATLSYLHEQRTSEALQWMDVQALAESLSENAQDQGADVQVSGACAPLLVQPMALRSCINNLIDNALRYAGHASIVLEDQRHQLLIRVIDHGPGIAADKREAVFEPFFRLEGSRNRNSGGVGLGMTIAREAAERLGGQLSLEETPGGGLTAVIGLPRR	PGPT0004100_5298	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-CUS_TRANSPORT_SYSTEM,PGPT0004100-cusS|copS|silS-K02484	NA	NA
D1-35_01996	759	ompR_3		Transcriptional regulatory protein OmpR	ATGCAGAACACCCCTGTTGCAAATTCTGGCGACCCACAAGTACTCGACGACGATAAGCGTTGGAGCACCCACGCACTGATCGTCGATGACGACGTACCGATCCGAGAACTGCTGATCGACTACCTGGCCCGCTTCAGCATTCGCGCCATCGGCGTGACCGATGGCGCGGCCATGCGCCAGGCGCTGCAGGCCGGGCATTTCGATGTGGTCGTCCTGGACCTGATGTTGCCGGGCGAGGACGGCTTGCAGCTGTGCCGCTGGCTGCGGGCCGAATCGGACATTCCGATCCTGATGCTGACTGCCCGCTGCGAACCCACCGATCGCATCATCGGCCTGGAACTGGGTGCCGACGACTACATGGCCAAGCCCTTCGAACCCAGGGAGTTGGTGGCGCGAATCCAGACCATCCTGCGCCGCGTGCGTGATGATCGCACCGAGCAGCGCGCCAATATCCGCTTCGACAACTGGCGGCTCAACAGCGTACTGCGCCAACTGATTTCCGCCGACGGGCTGGTGGTGCCGCTATCCAACGCCGAGTTCCGGCTGCTATGGGTGTTCATCGAGCGTCCGCACCGAGTGCTCAGCCGTGAACAACTGCTGGACGCGGCCCGCGGTCGTTCGATCGAAGCCTTTGATCGCAGTATCGACCTGCTGGTCTCGCGCTTGCGTCAAAAGCTGGGTGACGACCCGAAGGCCCCGCAGTTGATCAAGACCGTACGCGGTGAAGGCTACCTGTTCGACGCGCGAGCCATCAGTTGA	MQNTPVANSGDPQVLDDDKRWSTHALIVDDDVPIRELLIDYLARFSIRAIGVTDGAAMRQALQAGHFDVVVLDLMLPGEDGLQLCRWLRAESDIPILMLTARCEPTDRIIGLELGADDYMAKPFEPRELVARIQTILRRVRDDRTEQRANIRFDNWRLNSVLRQLISADGLVVPLSNAEFRLLWVFIERPHRVLSREQLLDAARGRSIEAFDRSIDLLVSRLRQKLGDDPKAPQLIKTVRGEGYLFDARAIS	PGPT0012985_762	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OSMOLARITY_SIGNALLING,PGPT0012985-ompR-K07659	NA	NA
D1-35_01997	699	pyrF	COG0284	Orotidine 5'-phosphate decarboxylase	ATGTCCGCCTGCCAGACGCCTATCATCGTCGCCCTGGATTTCCCTACCCGTGACGCCGCCCTGAAGCTGGCCGACCAGTTGGACCCCAAGCTCTGCCGGGTCAAAGTCGGCAAGGAACTGTTCACCAGTTGTGCTGCGGAGATCGTCGGCACCCTGCGGGACAAGGGCTTCGAGGTCTTCCTCGACCTGAAATTCCACGACATCCCCAACACCACCGCCATGGCCGTCAAGGCCGCTGCGGAGATGGGCGTGTGGATGGTTAACGTGCACTGCTCCGGTGGCCTGCGCATGATGGCGGCGTGCCGGGAAGTGCTGGACCAGCGCAGCGGTCCGAAACCGCTGCTGATCGGCGTGACCGTGCTGACCAGCATGGAGCGTGAGGACCTGGCGGGAATCGGCCTGGACATCGAGCCCCAGGAGCAGGTGTTGCGTCTGGCGGCGCTGGCGCAGAAGGCCGGCATGGACGGTCTGGTCTGTTCGGCCTTGGAAGCCGGCGCCCTGAAGACGGCCCACCCGTCGCTGCAACTGGTGACCCCGGGGATTCGTCCAGCGGGCAGTGCCCAGGACGACCAGCGTCGTATCCTCACGCCGCGCCAGGCACTGGATGCCGGTTCTGACTATCTGGTGATCGGCCGTCCGATCAGCCAGGCCGCCGATCCGGCCAAGGCCTTGGCGGCGGTGGTGGCCGAACTGGCCTGA	MSACQTPIIVALDFPTRDAALKLADQLDPKLCRVKVGKELFTSCAAEIVGTLRDKGFEVFLDLKFHDIPNTTAMAVKAAAEMGVWMVNVHCSGGLRMMAACREVLDQRSGPKPLLIGVTVLTSMEREDLAGIGLDIEPQEQVLRLAALAQKAGMDGLVCSALEAGALKTAHPSLQLVTPGIRPAGSAQDDQRRILTPRQALDAGSDYLVIGRPISQAADPAKALAAVVAELA	PGPT0014965_3864	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0014965-pyrF-K01591	NA	NA
D1-35_01998	1005	yfmJ	COG2130	Putative NADP-dependent oxidoreductase YfmJ	ATGACTGCTCAGATCAATCGCCAGTTCCTGCTCGCCAAACGCCCGGTAGGCGCCGCGACCCGCGAGACATTCACTTATCAACAAGTGCCGGTCGGCGAACCGGCAGCCGGTCAGATCCTGGTGAAGAACGAATACCTGTCTCTGGACCCGGCCATGCGTGGCTGGATGAACGAGGGTAAGTCCTATATCCCGCCGGTCGGCATCGGTGAAGTCATGCGAGCCTTGGGCGTAGGCCAGGTTGTCGTGTCGAACAATCCGGGCTTCGCGGTCGGGGACTACGTCAACGGTGCATTGGGCGTGCAGGATTATTTTCTCGGCGAGCCACGAGGTTTCTACAAGGTAGATCCGAAACTGGCGCCGCTGCCGCGTTATTTGTCCGCGCTGGGCATGACCGGCATGACCGCCTATTTCGCCCTGCTGGATGTCGGCGCCCCCAAGGCCGGCGAAACCGTAGTGCTCTCGGGAGCCGCCGGGGCGGTGGGCAGCATCGCTGGGCAGATCGCCAAAATCAAAGGCTGCCGCGTGGTCGGCATTGCCGGCGGCGCCGATAAATGCCGGTTTCTCATTGATGAGCTGGGCTTTGACGGCGCCATCGACTACAAGAGCGAAGACGTCCACGCCGGCCTCAAGCGCGAATGCCCGAAAGGCGTGGATGTGTATTTCGACAACGTCGGCGGCGACATCCTCGATGCGGTGCTCAGCCGCCTGAACATGAAGGCCCGCGTGGTGATTTGCGGTGCGATCAGCCAATACAACAACAAGGAAGCGGTGAAAGGACCGGCCAACTACCTGTCGCTACTGGTCAATCGTGCGCGCATGGAAGGCTTCGTGGTCATGGACTACGCCGCGCAATTCGCCGCCGCCGGGCAGGAAATGGCCGGCTGGATGGCCAAGGGGCAGCTCAAGAGCAAGGAAGACATCGTCGAAGGGCTGGAGACCTTCCCCGAGACGCTGACCAAGCTGTTCAGCGGGGAGAACTTCGGGAAGTTGGTGTTGAAGGTCTGA	MTAQINRQFLLAKRPVGAATRETFTYQQVPVGEPAAGQILVKNEYLSLDPAMRGWMNEGKSYIPPVGIGEVMRALGVGQVVVSNNPGFAVGDYVNGALGVQDYFLGEPRGFYKVDPKLAPLPRYLSALGMTGMTAYFALLDVGAPKAGETVVLSGAAGAVGSIAGQIAKIKGCRVVGIAGGADKCRFLIDELGFDGAIDYKSEDVHAGLKRECPKGVDVYFDNVGGDILDAVLSRLNMKARVVICGAISQYNNKEAVKGPANYLSLLVNRARMEGFVVMDYAAQFAAAGQEMAGWMAKGQLKSKEDIVEGLETFPETLTKLFSGENFGKLVLKV	PGPT0023605_873	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_CURCUMIN_RESISTANCE	ADAPTION_TO_PIS-CURCUMIN_DEGRADATION,PGPT0023605-curA|yncB-K23256	NA	NA
D1-35_01999	762	linC	COG1028	2,5-dichloro-2,5-cyclohexadiene-1,4-diol dehydrogenase	ATGAGCATGACGTTTTCCGGACAGGTTGCCGTGGTGACGGGCGCGGCGGCAGGCATTGGCCGCGCCACCGCCCAGGCGTTCGCGGCGCAAGGCCTGAAAGTGGTCGCGGCGGACCTGGACATGGCGGGCGGCGAGGGTACGGTGCAGTTGATTCGCGATGCCGGTGGCGAGGCGGTGTTCGTGCGCTGTGACGTGACCGTGGAAAGCGATGTGCAACGTCTGATGGACGAGGTGATCAGTGCCTACGGTCGCCTGGATTACGCATTCAACAACGCCGGCATCGAGATCGAGAAGGGCAAGCTGGCCGATGGCACGCTGGACGAGTTCGACGCGATCATGGGGGTCAACGTCAAAGGCGTCTGGCTGTGCATGAAGTATCAATTGCCGTTGCTGCTGGCCCAAGGGGGCGGCGCTATCGTCAATACGGCCTCAGTGGCCGGGCTAGGGGCCGCGCCGAAAATGAGCATCTATGCAGCCTCCAAGCACGCGGTGATCGGGCTGACCAAGTCGGCTGCCATCGAATACGCCAAGAAGAAAATCCGTGTGAACGCGGTCTGCCCGGCGGTCATCGACACCGATATGTTCCGGCGCGCCTACGAGGCGGACCCGAAGAAAGGCGAGTTCGCCAATGCGATGCACCCCGTGGGGCGTATTGGCAAGGTCGAGGAGATCGCCAGCGCGGTGCTGTACCTGTGCAGCGACGGGGCGGCATTCACTACGGGGCATTCGCTGGCCGTGGACGGCGGGGTCACGGCGTTCTGA	MSMTFSGQVAVVTGAAAGIGRATAQAFAAQGLKVVAADLDMAGGEGTVQLIRDAGGEAVFVRCDVTVESDVQRLMDEVISAYGRLDYAFNNAGIEIEKGKLADGTLDEFDAIMGVNVKGVWLCMKYQLPLLLAQGGGAIVNTASVAGLGAAPKMSIYAASKHAVIGLTKSAAIEYAKKKIRVNAVCPAVIDTDMFRRAYEADPKKGEFANAMHPVGRIGKVEEIASAVLYLCSDGAAFTTGHSLAVDGGVTAF	PGPT0003180_8999	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
D1-35_02000	1398	hisC_4		Histidinol-phosphate aminotransferase	ATGGAGTTGAGAATCGACCGGCAGGCCCTGGTGCCTGTCGTGCAGCAAATTGTCGACGCGCTGGCCAGCCGGATCCGCCAGGGTGTGGTGCCGCCAGGGGCGCGCCTGCCATCGATCCGGCGGCTCGCGCGGGAAAACCTGCTAAGCCAGGCGAGTGTCCACGAAGCCTGCCAGCGGCTGGTGGCGCAGGGGCTGCTGGCCTCTCGTCATGGCTCAGGTTTTCTGGTCGCCTCAGGCCCTTTGGCATGGCATGAGCCGGTCGATCAGTTTTGGCCGCCGGGCATTTCTTACCAGCAGGCGGGGTTGGGGGCCGGTTCGCCAGGGGCTCTGGAACTGGGGGGCGGCGGGTTGCCCGAGAGCTGGCGTGAAAGCGACGACCTTGGTTATGCGATCCGCCAGGTTACCCGCACCGATATGGCGGGGTTGTTCAACTACAGCACGCCGATGGGGCTGCCGGCCTTGCGCGAGCAATTGTCCAGGCGCCTGAAACAGTTCGATATCGATGCCGATGAAAACCTGATCCTGACCACGACGGGGGTAAGCCACGGGCTGGACCTGATCGTGCGCACACTGCTGCAACCAGGGAGCTGCGTCGTGGTGGAAAGCCCGGGTTATTCGAAGCTGTTCGACCTGCTCAGGCTGCACAGGATCGACATGATCGAACTGCCGAGAACACCGCACGGCCCGGACATCGCTGCGCTCGAATGTCTGTTGGCGATGCATCGCCCCAACGCCCTGTTCATCAACAGTGCCTGCCACAACCCAACCGGCAGCAATCTTTCCCTGGCTGTAGCCCAGCGATTGCTTGAGTTGGCGAAAGAGCACGCCATGCTGGTTATCGAGGACGATGTCTATGCCGATTTCCAGGGTTCGACGCGAGTCCGCCTGGCCGCTCTGGATGCCGATGTGATCTACCTCGGCAGTTTCTCGAAAACCCTCAGCAGTTCGTTACGAGTCGGCTTCGTGGTGGCCGGGCCCTGCGTTATCGCGCGATTGAGCGAGGTCAAGGGGATAACCAGCATGGGCGGGTCGCGATTCTCTGAAGCGGTACTGACCAATCTGTTGGCCAACGGTGCCTACCGAAAACTGGTCCAGCGCCAGCGGCAGCGGCTGAATGCCGATATGGCCATGACGTTGCAGTTGCTCGACGAGGCCGACTGGGAAGTTTTTGGCAAACCGGCAGGGGGGCTGTTCATTTGGGCGCGCCCGCCCATTTGCGACTACGGCAGGTTGCAGTGTCTGGCCAGGTACTCCGGCATCCAGCTGTCCTCGCGTACGGCGTTCAGTCCTTCAGGCACCGACACTGACTGGTTGCGGATCAACGTGGCCCATGCCCGAGACCCCAAGGCGTTGGCGTTTTTCCATGCCACGGCTCTGGATCGACCTCAAGTGTCCTGA	MELRIDRQALVPVVQQIVDALASRIRQGVVPPGARLPSIRRLARENLLSQASVHEACQRLVAQGLLASRHGSGFLVASGPLAWHEPVDQFWPPGISYQQAGLGAGSPGALELGGGGLPESWRESDDLGYAIRQVTRTDMAGLFNYSTPMGLPALREQLSRRLKQFDIDADENLILTTTGVSHGLDLIVRTLLQPGSCVVVESPGYSKLFDLLRLHRIDMIELPRTPHGPDIAALECLLAMHRPNALFINSACHNPTGSNLSLAVAQRLLELAKEHAMLVIEDDVYADFQGSTRVRLAALDADVIYLGSFSKTLSSSLRVGFVVAGPCVIARLSEVKGITSMGGSRFSEAVLTNLLANGAYRKLVQRQRQRLNADMAMTLQLLDEADWEVFGKPAGGLFIWARPPICDYGRLQCLARYSGIQLSSRTAFSPSGTDTDWLRINVAHARDPKALAFFHATALDRPQVS				NA	NA	NA	NA	NA
D1-35_02001	1968	mcpQ_1	COG0840	Methyl-accepting chemotaxis protein McpQ	ATGATTACGGCCGTGCAAGGACGTTTCGCCAACCTCGGTATGGCGAAAAAACTGGGCATCGGGTTTTTCCTGGTGTTGCTGCTCACTGCGTTGGTGGCGGCCATCGGTGTCTGGTCGCTGCAAACCATCAGTCAGCGTTTCGATGGTTTGAAACAGATGTCGTCCCTCAACAGCGGGTTGCTCAAGGTCCGGTTGCTTGAGCAGGAATACGCCTCGCGCTCCGACCCCAAGACGGCCGATGCCTTGCGCCAGGGTGTCGATGCATTGGTTGCCCTGGCGAATGAGCTCAAGGCGCAATCGGCTGCCAATGTACCGGTGATGGATGAAGTGGAGCAGGCTCTGGCGGCGTATCGCAAGGCATTCGATGAGTTTGTGGATCTGAGCCAGAGCAAGGACCTGGCCCTGGAAATGGCCAGTTGGTCGGTTTCCAGTGTCGCCAACAACCTGGATGTGTTGCAGGCGGGTCTGGCCGATGACGGCGCCTATACCTTGAAAGAGTCCGAAGGCAAGGACGGTGCGGAATTCATCGAGCAGGCCAACCAGGTCAGCGAGGTCTCGCGGCTGATGCTGCAGGCCATGAACGAAGCGCGGGTTCGCCTGGACCAGAGCCGTAAAGGCAGCGAGGAGAACGCCGGGCAAGGCAACATCGAACAGGCCGAGCAGGCCATGAAACTGGCCGAAGTACTCAAGGGCGCGGTCAAGGATCCGGGTTACCAGACCGTACTCAACGAAGTGGCCGGGCACATCGGCGGATTCAATCAGCAGTTGGCCGAATACACCGGTTTGCTGGCCAAGGAGAAAACCGTCTACCAGCAATTGCATGAGCGTGCCGACCAGGTTGTGGCGCGGGTCGACCAAGCCTACAACGCTGAAGACAGTGCAATGCAGGCGGAGCTGAAGAAAAATTCGCTGATGATCGTCGGTTCGTCGGCCCTGGCCCTGCTGGTGGGATTGATCGCTGCCTGGCTCATCACCCGGCTGATCGTTACGCCGCTGCGCAGTGTCATTCGCGTCGCCCAACAGATTGCTTCAGGTGACTTGAGTGCCAAGGTTGATGTGACACGTCGGGATGAGATCGGCCAGTTGATGCTGGCCATGCAGCAGATGGCGGCCGGCTTGAGCAGCATCGTCAGCGGTTTGCAGGCCGGCATCGAGCAATTGGCCAGCTCGGCACAGTCGCTGTCGTCCGTGACCGAGCAGACCAACCTTGAAGTCAGCAGCCAGAAGGAGGAAACCGAGCAGGTGGCCACGGCCATGAACCAGATGACCGCCACCGTGCATGACGTGGCGCGCAACGCCGAAGAGGCCGCGCGAGCAGCCCAGACCGCCGACGACAAGGTTGAAAGCGGCCAGCGGGTGGTGCGCCAGAGCATGGTGCGTATCGAACAACTGGCTGATTCGGCGACGTCGGCCAGCACCAGCATCGAAAGCCTCAGCGCCGAGATACAGAACATCGGCACGGTGCTGAGCGTGATCAAGAGCGTCGCCGAACAAACCAACCTGCTGGCGCTCAACGCCGCTATCGAGGCGGCCAGGGCGGGCGAGCAGGGCAGGGGTTTTGCCGTGGTGGCCGATGAGGTGCGAGCCCTGGCCAAGCGTACGCAACAGTCCACTGAGGAAATCGAGCGATTGGTCAGCGCCCTGCGCTCGGCCGCCCAGACCTCCGTACAACAGATCCAGAGCAGCGGCGAATTGGTCAAAATGGCCGTCAGCGATGCGCTGCAGACCGAAAGCGCATTGGGCAGCATTGCGGCGGCGGTGTCGTTGATCCAGCAGATGAACCAACAGATCGCGGCGGCAGCCGAGCAACAGAGTTCGGTGGCTGAAGAGATCAACCGCAGTGTTACCAGTATCCGTGCCAGCGCCGATCAATCGTCCATGGCCATGCAGGGCAATGCCGCTTCAAGCATTGAGCTGGCACAGCTGGGGAGCGAGTTGAAGGGGATGGTGGGGCATTTCAGGTTGTGA	MITAVQGRFANLGMAKKLGIGFFLVLLLTALVAAIGVWSLQTISQRFDGLKQMSSLNSGLLKVRLLEQEYASRSDPKTADALRQGVDALVALANELKAQSAANVPVMDEVEQALAAYRKAFDEFVDLSQSKDLALEMASWSVSSVANNLDVLQAGLADDGAYTLKESEGKDGAEFIEQANQVSEVSRLMLQAMNEARVRLDQSRKGSEENAGQGNIEQAEQAMKLAEVLKGAVKDPGYQTVLNEVAGHIGGFNQQLAEYTGLLAKEKTVYQQLHERADQVVARVDQAYNAEDSAMQAELKKNSLMIVGSSALALLVGLIAAWLITRLIVTPLRSVIRVAQQIASGDLSAKVDVTRRDEIGQLMLAMQQMAAGLSSIVSGLQAGIEQLASSAQSLSSVTEQTNLEVSSQKEETEQVATAMNQMTATVHDVARNAEEAARAAQTADDKVESGQRVVRQSMVRIEQLADSATSASTSIESLSAEIQNIGTVLSVIKSVAEQTNLLALNAAIEAARAGEQGRGFAVVADEVRALAKRTQQSTEEIERLVSALRSAAQTSVQQIQSSGELVKMAVSDALQTESALGSIAAAVSLIQQMNQQIAAAAEQQSSVAEEINRSVTSIRASADQSSMAMQGNAASSIELAQLGSELKGMVGHFRL	PGPT0015710_8507	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
D1-35_02002	771			hypothetical protein	GTGACACCACTCATGATCACCCTGCTCGTCGTAGCCGGGATCGCACTGTTGATCGCCATTGGCTACATGAACCATGTGGTGGAAAACAACAAGCTGGAAAAGGCCCGCACCAAAGTCGAACTCAACGACCGCTTGCGGCGTTGCGGCGAGCTCACGGAAACTTTCCCCGGCCAGTTGATGACCCCGGCCCTGAAGTTGCTGATGACGCGCCTGGAGATGAATGTCTGCCAGCGCTTGCTCAACCTTGAAAAGTCCAACGCTGCGGTCAAGGCTCGCCTGGATGAACTGTCCGCATTGGCTGCTCAGGGTGAGTCGATTCCGGTAAGCAACCCGCCGGCACCGATACAAACCGAGGCCAAGGCCAAGGATGTGCGGTTTCTGCTCGAAGCGTTGCACGGCCAGATCACCCGCGCCGCGCAGGATGGCTTCCTGCCGCCCAACGAGGCCAAGCGCTGGATCCGTGAAGTGCGGCACCTGCTGGTGCTGCTGCACATCGAGTTCTTCAACAATCTCGGTCAGCAAGCCTTGCAACAGGAGCAACCGGGGCAGGCCCGCCTGGCATTCGAGCGAGGCGTGCAATACCTGCGCAAACAGCAGGAGCCGCAGGTCTATGCCGAACAGTTGGCCTATCTGGAGAAGCTTCTGGCCCGCGCCAATGCCCAGGTCCTGGCCAGCACCCAGCCGGTCGAGGGCGAGGTTAACCAGTTGACTGAAGGGTTGAAGGAAGACGAAGCGAACGACGAGTGGAAGAAAAAGAAAGTCTACGATTGA	MTPLMITLLVVAGIALLIAIGYMNHVVENNKLEKARTKVELNDRLRRCGELTETFPGQLMTPALKLLMTRLEMNVCQRLLNLEKSNAAVKARLDELSALAAQGESIPVSNPPAPIQTEAKAKDVRFLLEALHGQITRAAQDGFLPPNEAKRWIREVRHLLVLLHIEFFNNLGQQALQQEQPGQARLAFERGVQYLRKQQEPQVYAEQLAYLEKLLARANAQVLASTQPVEGEVNQLTEGLKEDEANDEWKKKKVYD				NA	NA	NA	NA	NA
D1-35_02007	1902	acoR_1	COG3284	Acetoin dehydrogenase operon transcriptional activator AcoR	ATGCTGATAAAAACAACTCATCCCAAACTTCATCGCGAAGCTCGGCTGGCCCGGGAAAAACTGCACCTCGAGGGCACCGTTCCCGATGGCGTATTGCGCGCCGAAATCGATGCTTCGTGGCGGCGCAGTCTCAGTCATGGCGTGCATTTCAATGCCAAGCAAGAACTGGCGTTGGAGTCGAACGCCAGTCTTGAAGTGCTGCTGGAAAGCAATCGGTTGTTGATCGATGCGGCGGTGCCGGCCATCGATTATCTGGCCGAGCGCCAGGGCAAGGAAGGGCTCATCATCCTCGCCAATTCCGACGCCACCATCCTGGCAGCCGAAGGGCGCGCCGATCGTTTCAAAGGTAGCAACCTGCAAGACATCACGCTGGGCGCTTGCTGGAGCGAAGCGGCGCGCGGCACCAACGCGCTGGGTACCGCGCTGGTGGAAGCCCGGCCAACGATGATCGATTGCGGTGAACATTACCTAGATCGTCTGACCGATTTTTCCTGCACCTCGGTGCCGATTTATTGCGCGCAGGGTGACATCCTCGGCGTCCTTGACCTGACCCGCGAAGGCCCGCTCGGCCGCGTTCACGACAGCACGGCGTTGCTGGCCATGGCCGTCAGCCAGATCGAAAGTCGCGTGTTCAACGCTTGTTACCCGGACCAGATCGTCCTCGCCTTCCACAGCCGTCGCCAATACCTCGAGTCCCCCTGGCAGGGTTTGCTCGCGGTGAGTCTCGGCGGGCAGATCCTCGCGGTCAGCGCCCAGGCATGTCAGTTGCTCCATGCCGAGCGTTCGGCGCTGGTTGGCCGAGGCTGTGAAGAGTTCCTGGGTGTCGATGGCCTGCAACTGTTATCGCGTCTGCATCAGGGCGGCATCGGCAGTCTGCAAACGGCCAAGGGTGAATTTTTCTACAAAACCCTGCGCGCGCCGCAGCGCTCGATCAACGTCAGCGTTCCATCGCGCACCCCAATCAAAACCGCTAAACCGCAACCCGATCTCGAATCCCTGGCCGGCAACAATGCCCGTTACGCCAGGGCGCTGCGCATGGCCCGCCAAGGTCTGGCCAATGAATTGCCAGTATTGCTGCTGGGCGAAACGGGCACCGGAAAGGAAGTCATCGCCCGAGCGCTCCATATGGCTGGAACCCGCTGCGACAAACCTTTCGTCGCGGTGAACTGCGCGGCCATCCCCGAAGGCCTGATCGAGTCGGAGCTGTTTGGCTACCGCGAAGGTGCCTTTACCGGTTCGCGCCGGGGCGGCATGGTCGGGCGCCTGCAACAGGCCCATGGCGGCACGTTGTTTCTCGATGAAATCGGCGACATGCCACTGGCCTTGCAGGCCCGTTTACTCAGGGTACTGCAGGACCGCAAGGTCGCGCCGCTGGGCGCTGGAGAGGAGCAAGACATCGACATCGCGCTGATCTGCGCCACGCACCGCGACCTTAAGCGTCTGGTGGAAGACAAACACTTTCGCGAGGATCTGTTTTACCGGGTCAACGGCATCAGCGTAATGCTCCCGGCCCTGCGCGAGCGCGACGACTTCAATGGCCTGGTCGATCGTTTGCTGGCCAAACTCGACGCGCCGACAGTGGTCCTGCGTGACGATTTGATCCGCTTGCTAGGCGGCTATCACTGGCCGGGCAACATCCGCCAATTGGAAATGGTTCTGCGCACCGCGCTGGCCATGCGTGAGCCGGGGGACACCGTGCTCACCCTCGACCATCTGCCCGACAGTATGCTCGACGAACTGACCGCCGGCGAACGCCCTCAGAGTGGCAGTATTCGTGAACATGAACTGGAGCTGATTCGTCAGTCCCTGGACACGCACCAAGGTAACGTCTCGGCGGCCGCCGATGCCTTGGGTATCAGCCGCGCGACCCTGTATCGCAAGCTCAAACTGTTGCGTTCGTGA	MLIKTTHPKLHREARLAREKLHLEGTVPDGVLRAEIDASWRRSLSHGVHFNAKQELALESNASLEVLLESNRLLIDAAVPAIDYLAERQGKEGLIILANSDATILAAEGRADRFKGSNLQDITLGACWSEAARGTNALGTALVEARPTMIDCGEHYLDRLTDFSCTSVPIYCAQGDILGVLDLTREGPLGRVHDSTALLAMAVSQIESRVFNACYPDQIVLAFHSRRQYLESPWQGLLAVSLGGQILAVSAQACQLLHAERSALVGRGCEEFLGVDGLQLLSRLHQGGIGSLQTAKGEFFYKTLRAPQRSINVSVPSRTPIKTAKPQPDLESLAGNNARYARALRMARQGLANELPVLLLGETGTGKEVIARALHMAGTRCDKPFVAVNCAAIPEGLIESELFGYREGAFTGSRRGGMVGRLQQAHGGTLFLDEIGDMPLALQARLLRVLQDRKVAPLGAGEEQDIDIALICATHRDLKRLVEDKHFREDLFYRVNGISVMLPALRERDDFNGLVDRLLAKLDAPTVVLRDDLIRLLGGYHWPGNIRQLEMVLRTALAMREPGDTVLTLDHLPDSMLDELTAGERPQSGSIREHELELIRQSLDTHQGNVSAAADALGISRATLYRKLKLLRS	PGPT0001030_1196	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
D1-35_02008	1719		COG1132	Putative multidrug export ATP-binding/permease protein	ATGCTGCGTTTGATCGTTCGGCTGGTCGACAGCCAGAACCCCGCGGCGCTGCAAGCGGCGTTGCGCTGGCTCTACAGCTTCGTGCGCCCGCACCGGTTGGCGATTGCCGGGCTGCTTGGGCTGTCGGTCTGCGCTTCGTCGCTGGTATTGGTACAACCCTGGCTAACCAAGCTGCTGATCGACGACGGCCTGTTGGCGCGCAACTTTGCGATGCTGGCGCTGATCGCCGGGTTGATGATTGTCGCCGGGTTGTTGGGCACGGCGCTGTCGGGCATCAATCGGTACCTGCACACGCGATTGTCCGGACGGATTCTGTTTGCCCTGCGCGATGACCTTTATCGGCATCTGCAGACGCTCTCGCCGGGTTTCTACGGCGAGCGGCGTATCGGTGATCTGATGTCGCGTCTGGATGGCGATGTCGCGGAGATCCAGCGCTTTGCCGTGGATTCGCTGTTCTCGGCGGTGTCGGGCGTGATTGGCCTGGTGGTCGCCGTGGCGATGTTGGTGACCCTGTCGTGGCAACTCTCGCTGCTGGCCTTGGTGCTGATTCCACTCGACGTGCTTTGGCTACGCTGGATGCGGCGTAAGGTCGAGCGCGATGTGCGGCAGCTGCGCGAGCGTTCGGCGGACATGTCCTCGTTCATGGTCGAGACCTTGCCGGTGATGAAATTCATCCAGTCCGCCGGTCAGCAACAGCGCGAGGCGCGGCGACTGGAGACGTTGGGCCAAGGGTACATGAGTCAGCTCTTGCGCCTGCAAGTCACTGAGTTTTTCACCCAAGCGGTGCCCGGCACGCTGACATCGTTGTCGCGGGCCTGTGCGTTTTTGATTGGCGGGTACTGGGTGGTGCAAGGGACTTGGCAATTGGGCGCGTTGATCGCGTTTTCCACCTATCTGGGCATGGCTGTCGGCCCGGTCCAGAGCCTGCTAGGGCTCTACGTCGCGATTCAGCGGATGACCGTGAGCCTTGGGCGGGTCATGGAACTGCGCGGTGAAGAGCCAACCGTCCTTACTCCGGTTGCGCCGCAGCCGATGCCGGTCTCTGGCGAACTGCGTTTCGACAACGTGCACTTCAGCCATCCCGGTCGCCCGACCACCTTGCGTGGTATTCAAGCGCGAATTCCTTATGGGTTGAAAGTCGCCCTGAGCGGCGGCTCTGGTGTCGGTAAGTCGACCCTGATCGATCTGCTGCAGCGGCACCACGATCCGCAGTCCGGTCGGGTCTTGCTGGGGGAGGTCGATCTGCGGGAACTGGACCTGTTCCAGCTGCGTCGGCGGATAGCCGTGGTCAGTCAGGACATCGTGCTGTTTCGCGGCAGCCTCGCCGACAACCTGGCATACGCGGTGCCCGACGCCAGTCGCGAAGCGATTGCCGAAGTGGCGCGGCTGGCGCAGCTCGACAGCCTGATCGAGTCACTGCCCGAAGGCCTCGACAGCCCTTTGGGCGAGCGTGGCCAGCAGTTGTCCGGCGGACAGAAACAGCGCATCGCCATCGCCCGGGCGCTGCTACAGGATCCGTTGATCCTGGTGCTGGACGAAGCGACTTCGGCGGTCGACGAAGCCACCGAGCGCGAAGTGATCGCGGCCATCGACCGGTTGTTCGCCGGGCGTACTCGGATCCTGATCAGCCATCGCCCCTCGACCCTGGCCGATGCCGATCTGTGCTTTGAACTGCTGGATGGCGTGCTCACGTCAAGAACGGTGCAGCATGAGGCCTGA	MLRLIVRLVDSQNPAALQAALRWLYSFVRPHRLAIAGLLGLSVCASSLVLVQPWLTKLLIDDGLLARNFAMLALIAGLMIVAGLLGTALSGINRYLHTRLSGRILFALRDDLYRHLQTLSPGFYGERRIGDLMSRLDGDVAEIQRFAVDSLFSAVSGVIGLVVAVAMLVTLSWQLSLLALVLIPLDVLWLRWMRRKVERDVRQLRERSADMSSFMVETLPVMKFIQSAGQQQREARRLETLGQGYMSQLLRLQVTEFFTQAVPGTLTSLSRACAFLIGGYWVVQGTWQLGALIAFSTYLGMAVGPVQSLLGLYVAIQRMTVSLGRVMELRGEEPTVLTPVAPQPMPVSGELRFDNVHFSHPGRPTTLRGIQARIPYGLKVALSGGSGVGKSTLIDLLQRHHDPQSGRVLLGEVDLRELDLFQLRRRIAVVSQDIVLFRGSLADNLAYAVPDASREAIAEVARLAQLDSLIESLPEGLDSPLGERGQQLSGGQKQRIAIARALLQDPLILVLDEATSAVDEATEREVIAAIDRLFAGRTRILISHRPSTLADADLCFELLDGVLTSRTVQHEA				NA	NA	NA	NA	NA
D1-35_02009	678	epr	COG1404	Minor extracellular protease Epr	ATGAGGCCTGAGCTGCGGATTGGGGTGGTGGACAGTGGTCATTCGCCGGCGCAACGGGCGCAGGTGATTGCCGGTCGACGGTTCTCGCTGCTGGAGGATGGACTGGCCGAAAGCGATCTACACAACGATCCGCTGGGCCATGGTAGCGCGGTGATCGAGGCCATCAGCCGGCGTGCACCGGCGGCGGTTTTTTGCGTAGCCCAGGTGTTCGACCAGCGTGGCGTCACCAGCGCCTTGCAGATCGCTACCGCCATCGATTGGCTGGTGGCGCAGGACGTGCGGTTGATCAATCTGAGCCTCGGATTGCGGCAGGATCGTCACCTGTTGCGTGAAGCCTGTGCTGCGGCGGTGGCGCGGGGCATTTTGCTGTGTGCGTCCAGCCCGGCCCAGGGCGAAGGAGTGTTCCCGGCAAAGTATCCGCAGGTGCTGCGGGCCACCGGCGACGCTCGTTGCACCGAGCAGCAATGGTCGTGGCTCAACAGCGCCCAGGCGGATTTTGCCGCGTGTGTTCACGGTACCTACCCGGGGCAGTCGGGTGCGAGCCTCGGCTGTGCGGCATTGAGCGGGCACATTGTGGGTTTCCTCATCGAAAATCCCGAGGCGAGCAACGAACACGTTGTCGAGTGGCTGCAAAAGAACGCCCGTTATCACGGCCCTGAACGGCGCGTCGGCGCATGA	MRPELRIGVVDSGHSPAQRAQVIAGRRFSLLEDGLAESDLHNDPLGHGSAVIEAISRRAPAAVFCVAQVFDQRGVTSALQIATAIDWLVAQDVRLINLSLGLRQDRHLLREACAAAVARGILLCASSPAQGEGVFPAKYPQVLRATGDARCTEQQWSWLNSAQADFAACVHGTYPGQSGASLGCAALSGHIVGFLIENPEASNEHVVEWLQKNARYHGPERRVGA				NA	NA	NA	NA	NA
D1-35_02010	1296			hypothetical protein	ATGAAGCCGATTGTGATTCTTGGCGCGGGGCCTGCGGGGGCGGCGGTGGCCCTGGGGTTGCGACGGCTTGGGTATCCCGTGAAATTGGTCAGTGAATGGCGGCGCTTCGCGGCACTGGAAGGGGTTTCCGTGCGGGTGTTGGATGCCTTGCGCGGTTCGGGGCTGCATCAAGCATTGACGGATGCGACGCAGCCTTCCCAGCGGCAGGTGTCCTGGAACGGTCAGCAGCATGCTCAGAACATTGAATTTTTACTGGATCGCCCGCGCTTCGATCGCGGCTTGCGCGAGGATTTGCGCCTGGCCGGCGTTGAGTTGATCGAGGGCCGAGTGCTGACGGTGCAGCCACACGCTTCGGGACATCGAATCGAACTGCAAGGGCGTGACGCACTGCTCGCGGATTTCCTGGTGGAGGCCCGCGGACGCCAGGCACCTGCCCTTGGCAAAGGCCTGCGTGGGCCAGAGACGGTCAGTTTGCTCAATCGCTGGCAAGGTGCGCCGGGTAGCAGCGCCAGTGCTGTGGAAAGCCTTGCGGACGGCTGGGCCTGGATGGCGCGCCGGGCCGACGGCCAGTGTTATTGGCAATGGACGGTGGACGTGGCCAGTGCCGAGTTGCCGGGCAAAGCGCTGTTGCTCGATTACTGCCGCCATCGGTTCCAGCAGTCGGCATTGACCCACGCGTTTTTTGGGGGTGAACCGCAAACCGATCTGCACCTGCATGCCCGCAGCAGTACGGCGATCTTGTGTCCGCAGGTCTGCGGTGATCAATGGATTCGTGTGGGCGACGCCGCCATGGCGGTGGATCCGCTGTCGGGTAATGGCATCTTCCAGTCGTTGTCTTCGGCGTTGCAAGCGCCTGCGGTGATCAACACGCTGTTGCGCAAACCTGAGCGGAGTTTGCTGGCACAGCGTTTTCATCAGCAACGGGTGGAGCAGTTGTTTTTACGCTTCGCGCGCATTGGCCGGGACTTTTATGCCGATGAGCAGCGTTGGTCGAACCAGCCGTTCTGGCAGGCGCGGCGGCAGTGGCCGGATGCTGAGGTCGCCCACGCCGAGGCGGATTTCTCCGCTCTGAGGATTGAGCTGGCGCCGGTATTGCGCGATGGATTTGTGGATGAGGCCGAGGTGGTGATCACGGCGGATCAACCGCTGGGGACCTGGCATGTGCAAGGGGTTGAGTTGGCACCGTTGGTGCGACGGTTGCGTAGCGAGCCGGCCGAGCGAGTCTTGGCGGGGTTGACAGTGGAGCAGGGAAGGATGGTTCGGGGGTGGTTGTTGGGGCAGGGGTTCAAGCCCTGA	MKPIVILGAGPAGAAVALGLRRLGYPVKLVSEWRRFAALEGVSVRVLDALRGSGLHQALTDATQPSQRQVSWNGQQHAQNIEFLLDRPRFDRGLREDLRLAGVELIEGRVLTVQPHASGHRIELQGRDALLADFLVEARGRQAPALGKGLRGPETVSLLNRWQGAPGSSASAVESLADGWAWMARRADGQCYWQWTVDVASAELPGKALLLDYCRHRFQQSALTHAFFGGEPQTDLHLHARSSTAILCPQVCGDQWIRVGDAAMAVDPLSGNGIFQSLSSALQAPAVINTLLRKPERSLLAQRFHQQRVEQLFLRFARIGRDFYADEQRWSNQPFWQARRQWPDAEVAHAEADFSALRIELAPVLRDGFVDEAEVVITADQPLGTWHVQGVELAPLVRRLRSEPAERVLAGLTVEQGRMVRGWLLGQGFKP				NA	NA	NA	NA	NA
D1-35_02011	1491	styD_1		Phenylacetaldehyde dehydrogenase	ATGCCCCTGCCTTATTTGCTCCCCGCCACCTCGGCCTTCGTCCAACGCGCCCCACGCATGCTCATCGGCGGCGACTGGGTCGAGGCCGCCGACGGTCAGACCATGCCGCTGCATAATCCGGCCACCGGCGAAGTGCTGTGCTTGGTGCCACGAGCCACCCCCGACGATGTCGACCGCGCAGTGTTGGCCGCCCGTCAGGCTTTCGACGATTCGGCCTGGACGCGCACCCGCCCTCGGGAGCGGCAGAATCTATTGTGGAAACTCGCCGACCTGATGCAGCGCGACGCCGAACTGCTGGCGCAGCTCGAATGCCTGAACAACGGCAAAAGCGCGGCGGTGGCGCAAGTGATGGACGTGCAACTGTCCATCGACTTCCTGCGCTACATGGCCGGTTGGGCCACCAAGATCGAAGGCTCCAGCGTTGACGTGTCGCTGCCGTTGATGCCCAACGATCAATTCCACAGTTTCATTCGCCGCGAAGCGGTGGGCGTGGTCGGGGCTATCGTCGCCTGGAATTTCCCGCTGCTGCTGGCTTGCTGGAAACTCGGCCCGGCACTGGCCACCGGTTGCACCGTCGTGCTCAAACCTGCCGACGAAACGCCGCTGACCGCGCTGAAGCTCGCAGAACTGATGTTGGAAGCCGGTTACCCCGAAGGCGTGTTCAACGTGGTCACCGGCACCGGTATCACGGCGGGCTCCGCCCTGACTCACAATCCGTTGGTGGACAAGCTGACGTTCACCGGCTCCACCGCCGTGGGCAAGCAGATCGGCAAGACCGCCATGGAATCCATGACCCGGGTCACTTTGGAACTGGGCGGCAAGTCGCCGACCATCGTCATGGCCGATGCCGACCTGAAGACCGCTGCCGCGGGCGCCGCCAGTGCGATTTTCTTCAACCAGGGCCAGGTCTGCTGCGCCGGTTCGCGGCTGTATGTGCAGCGCAAGTATTTCGACAATGTGGTGGCGGATATCGCCGACATCGCCAATGCAATGAAGCTCGGCAACGGACTGGACCCCAGTGTCGAAATGGGCCCGCTGATCTCCGCGCGGCAACAGGAACGGGTTTATGGCTACATCGAAAAAGGTCGGGAAAGCGGCGCGACCATCGCCTGCGGCGGTGAGCAATTTGGGCCGGGGTTCTTCGTCAAACCCACGGTGATAGTCGATGTCGACCAGCGGCATTCACTAGTACAGGAAGAAATCTTCGGCCCGGTGCTGGTGGCGATTCCGTTCGATGACGAGGCCGATGCGTTGCGCATGGCCAATGACAGCCCTTATGGCCTTGGGGCGAGCATCTGGTCGAATGATTTGGCGGCGGTGCACCGGATGATTCCGCAGATCAAGTCGGGTTCGGTGTGGGTCAACTGCCACAGCGCCCTGGACCCGGCGTTGCCGTTTGGCGGCTACAAGATGTCAGGGGTCGGGCGCGAGATGGGGTATGCGGCGATCGAGCATTACACCGAGTTGAAATCGGTGTTGATCAAGTTGTGA	MPLPYLLPATSAFVQRAPRMLIGGDWVEAADGQTMPLHNPATGEVLCLVPRATPDDVDRAVLAARQAFDDSAWTRTRPRERQNLLWKLADLMQRDAELLAQLECLNNGKSAAVAQVMDVQLSIDFLRYMAGWATKIEGSSVDVSLPLMPNDQFHSFIRREAVGVVGAIVAWNFPLLLACWKLGPALATGCTVVLKPADETPLTALKLAELMLEAGYPEGVFNVVTGTGITAGSALTHNPLVDKLTFTGSTAVGKQIGKTAMESMTRVTLELGGKSPTIVMADADLKTAAAGAASAIFFNQGQVCCAGSRLYVQRKYFDNVVADIADIANAMKLGNGLDPSVEMGPLISARQQERVYGYIEKGRESGATIACGGEQFGPGFFVKPTVIVDVDQRHSLVQEEIFGPVLVAIPFDDEADALRMANDSPYGLGASIWSNDLAAVHRMIPQIKSGSVWVNCHSALDPALPFGGYKMSGVGREMGYAAIEHYTELKSVLIKL	PGPT0006035_518	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_LIGNIN_DEGRADATION|LIGNINASES	PLANT_LIGNIN_DEGRADATION-DEHYDROGENASE_ACTIVITY,PGPT0006035-feaB-K00146	NA	NA
D1-35_02012	1581			hypothetical protein	ATGAAGAGAAAACTCCGATCAGGCCTGAGCGTCAGTCTGCTGACCGCGGCGGCCTGCGTGGCGCTGCATTCGCCTCACAGCCTGGCAGCTCGCGACGCCCAGACTGTCCTCAAGGAAACCTGCCAGGGCTGTCACACCCCCGAAGCCGATAACGCCCTGAGCCGTATCAGCCACCAGCGTAAAACCCCGGAAGGCTGGCTGATGAGCATCGCCCGGATGCAGGTCATGCATGGTTTGCAGATCAGCGATGACGACCGCCGAACCCTGGTCAAATACCTGGCCGACACCCAGGGCTTGGCGCCGAGCGAGACCGATGGGGTGCGTTATGCGCTGGAGCGACGGCTCAATACCGTCGAGAAATTCGACGACCAAACCAGCCAGATGTGCGGCCGCTGCCACTCCGGCGCGCGGGTTGCGCTGCAGCGCCGACCCGCCCAGGAATGGGAGCGCCTGGTGAACTTCCACCTCGGCCAGTGGCCGTCCCTCGAATACCAGGCCCTGTCCCGCGACCGCGACTGGTTCGACCTGGCCCGCAAAGAAATGGTGCCGCTGCTGGCCAAGCGTTATCCGCTGGACAACCCGGCCTGGAAAGCATGGCAGGGCAGCGCGCCGAAAGCCGAGGCGCTGGTCGGCGACTGGAGCTTCAGCGGGAACCTGCCGGGTAAAGGCGAGCTGGCTGGCGTCATGAGCGTGACTGCCGATGGCAGCGACACGTTCAAGGTCAACGTCAAAGGTCAGTATGCCGACGGTAGCCCGTTCAATGGTGAGGGCAGTGCGATTCTCTACACCGGTTACGAATGGCGCGGCAACGTGTCCATCGATGGCGTGACCATGCGCCAGGTATTCGCCGCCCAGGGCAATGCCATGCAGGGCCGGATGTTCGAGGCCGAGCACGACGAGCGGGGGCTGGACTTTGTCGCCGCCAAGCAGGGTTCCAATCGTTTGCTGGCGGTGCAGCCGGGTTATCTGAGGGCGGGCAGCGAAACTGAAGTCACCCTGGTCGGCAGCGGTCTCACTGGCAAACCTGACTTTGGCAAAGGCGTGGAAGTGGTCCAAGTGCTGGAGCAAACGCCCGAGCGCCTACGGGTCAAACTCAAGGCGGCTGCCAATGCGCAACCGGGCCTGCGCAACGTCACGGTCGGCACGCTGAAAGGCCCGACGCTGTCGGTCTACAGCAAGATCGCTGAAGTCAAAGTCGTGCCCGAATTCTCGGTGGCGCGGATCGGCGAGGGTGGTGGCTCGACGCCGAAAGTCCAGGGCCGTTTCGATGCTGAAGCCTGGGGCAAGGGCGCTGACGGCAAACCCTATCGAATCGGCGTGTTCCCGGCGCAATGGACAGTCGAGGCTTTCGATGACCGCGCCAAAGAGGATGAAGACGTCAGGTTTGCGGGCACCATGCAGGCCGATACCGGCGTGTTTACCCCAGGCGATGCCGGGCCGAACCCGCAGCGCAAGATGTCCACCAACAATGCCGGCAATCTCAAGGTGATCGCCGCCGTCGACGACGCAGGGAGGTCCTTGACCGGCGAAGGCCACATGATCGTCACCGTGCAACGCTGGAACAATCCACCCATTCCATAA	MKRKLRSGLSVSLLTAAACVALHSPHSLAARDAQTVLKETCQGCHTPEADNALSRISHQRKTPEGWLMSIARMQVMHGLQISDDDRRTLVKYLADTQGLAPSETDGVRYALERRLNTVEKFDDQTSQMCGRCHSGARVALQRRPAQEWERLVNFHLGQWPSLEYQALSRDRDWFDLARKEMVPLLAKRYPLDNPAWKAWQGSAPKAEALVGDWSFSGNLPGKGELAGVMSVTADGSDTFKVNVKGQYADGSPFNGEGSAILYTGYEWRGNVSIDGVTMRQVFAAQGNAMQGRMFEAEHDERGLDFVAAKQGSNRLLAVQPGYLRAGSETEVTLVGSGLTGKPDFGKGVEVVQVLEQTPERLRVKLKAAANAQPGLRNVTVGTLKGPTLSVYSKIAEVKVVPEFSVARIGEGGGSTPKVQGRFDAEAWGKGADGKPYRIGVFPAQWTVEAFDDRAKEDEDVRFAGTMQADTGVFTPGDAGPNPQRKMSTNNAGNLKVIAAVDDAGRSLTGEGHMIVTVQRWNNPPIP				NA	NA	NA	NA	NA
D1-35_02013	1431			hypothetical protein	ATGGGCGCTATTTTGAATCTGGTCGAACGAAATCTGCACGAAGTGCATGTCGACGCCGACCGCATGCTGTTCCACATTCCCAGCAGCTCGCTGTTCGCCAGCGATGAGCTGACGGGCACCATCATCGATACCTTGCGCGGTCCCGGCTGTTCATCGGACGACCTGATCCAACGCTTGGCCGCACGCTTCAACGGCGAAGAAATCACCGAAACCCTGCGTGAGCTGATTTCCCTGGAACTGGTCAGCGACGGCTCGCCACTGACCCCGGACATCGGTACTAAACGCGTCGAGCGCACCGCGATCAATACCGTGGTGCTCAACGTCAACACGGGCTGCAATCTGAGCTGCACCTACTGCTACAAAGAAGACCTCGACAAGCCCTCGGCCGGCAAGAAGATGGACGTTGAAACAGCGGTCGCTTCGGTAGAAATGCTGCTGCGCGAATCCCCGGATGAAGAGCGTTTCACGGTGGTGTTCTTCGGAGGAGAGCCGCTGAGCAATCGCAAGCTGATCGAGTACATGGTCGATTATTGTGAAAAGCGTTTTGCCGAAGCGGGCAAGTTCGTCGAATTCGTCATGACCACCAACGCCACGCTGCTCACCGAAGAGACCGTGGACTACCTCAACGCTCACCGTTTCGGCCTGTCAGTCAGTATCGACGGACCGAAAACCGTCCACGACCGCAACCGCATTACCGTGGGCGGGCAGGGCACTTACGATGTGGTTCGGCGCAAGGCTGAAATGCTGCTGTCGCGCTACAACAGTCGTCCGGTCGGTGCCCGCGTCACCTTGACCACCGGCGTCACCGACGTCGAAACCATTTGGGACCACCTGTTCAACGAACTGGGTTTTGCCGAAGTCGGGTTTGCCCCGGTGACCTCCGGTGACATCAGCACCTTCAACCTGTCCAGCGACGAGCTGATCGAAGTTTTCGCCAACATGAAGAAGCTCGGCCGGCGTTATCTGGAAGCGGCGCTGGAGCACCGCAATATCGGTTTCTCCAACCTGCATCAGCTGATCACCGACATCCACGAAGGCCACAAAAAAGCCCTGCCATGCGGCGCGGGCCTGAAGATGCTGGCGGTGGATCACAAGGGCGAATTGAACCTGTGCCACCGCTTTACCGGCTCATCGTTGCCGACCTTCGGCAACGTTCACAGCGGGGTGAAACAGGTCGAGTTGAACGATTTCCTGTCCCAGCGCCTGGACCGCACCAACACCGGTTGCGAAGACTGCCAGATCCGCAATCTCTGCTCTGGCGGCTGCTACCACGAGAGCTACGCCCGATACGGCGACCCGACTCATCCGACCTATCACTACTGCGAACTGATGCGTGACTGGGTCGACTTCGGCATCGAGGTCTACACCCGGATCATGGCTCACAACCCTGCGTTTATCAGCAGCTACATCACTCCGCGCAAGGCTCACTGA	MGAILNLVERNLHEVHVDADRMLFHIPSSSLFASDELTGTIIDTLRGPGCSSDDLIQRLAARFNGEEITETLRELISLELVSDGSPLTPDIGTKRVERTAINTVVLNVNTGCNLSCTYCYKEDLDKPSAGKKMDVETAVASVEMLLRESPDEERFTVVFFGGEPLSNRKLIEYMVDYCEKRFAEAGKFVEFVMTTNATLLTEETVDYLNAHRFGLSVSIDGPKTVHDRNRITVGGQGTYDVVRRKAEMLLSRYNSRPVGARVTLTTGVTDVETIWDHLFNELGFAEVGFAPVTSGDISTFNLSSDELIEVFANMKKLGRRYLEAALEHRNIGFSNLHQLITDIHEGHKKALPCGAGLKMLAVDHKGELNLCHRFTGSSLPTFGNVHSGVKQVELNDFLSQRLDRTNTGCEDCQIRNLCSGGCYHESYARYGDPTHPTYHYCELMRDWVDFGIEVYTRIMAHNPAFISSYITPRKAH	PGPT0026880_384	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0026880-ydeM|yidF|alsB|chuR-K06871	NA	NA
D1-35_02014	324			hypothetical protein	ATGAAACATCTTAAGGCAATCAATAACAAAGCGTTGAAGTTGGATCAGGCCGCAGCGGAAAACCGCATCGAAGAAGTGGTGGCGATGAGCTCCGTCGCCGGCTGCGCCTCGACCACCGACCCAGGTTGGGAAATCGACGCGTTTGGCGGCGTGTCGTCGCTGTGCCAACCGATGGAAGCCGATCTGTATGGTTGCTCCGACCCATGCTGGTGGCCGGCCCAGGTGCCGGACATGATGAGCACCTACCCGGACTGGAACAAGGATGCCCAGGCGTCCAACGAAAACTGGCGCAACCTCGGCACTGTCTTTCCGAAAGACAAGTGA	MKHLKAINNKALKLDQAAAENRIEEVVAMSSVAGCASTTDPGWEIDAFGGVSSLCQPMEADLYGCSDPCWWPAQVPDMMSTYPDWNKDAQASNENWRNLGTVFPKDK				NA	NA	NA	NA	NA
D1-35_02015	1119			hypothetical protein	ATGCAATGCATCAAAGCCTGCGGCTTGGCCGCGTTCGGTGTCCTGGGCGTTATATCGCTCAATGTTCTGGCCGATGAAAACACCGCGCTCCAAAGCGGTCACGAATACATGGTGACCACCAATTATCCGAACAACCTGCACGTAATCGACCTGGCCACCGACAGCCTGTTCAAGACCTGCAAAATGCCGGATGCCTTCGGTCCTGGCACCGTGCAGCTGTCGCCGGATCGCAAGACCGCCTACGTGCTGAACAACCACTACGCGGATGTCTACGGCGTTGAGCTGGACAGCTGCAAGCAGGTCTTCCACGCCAGCATTACCCAGAAACCGGGGGAGAAAGCGAAGTCGATGTTCGCCTTTACCCTCAGCCATGACGGCAAGGAACTGTTCACCATCGCCAATCCGACGTTGATGCTCAACGATCGTTACGAGGTGCAGCAACCTCGGCTCGATGTGTACGCCACCGATGCCGGCATGGACGCCAAACCCATTCGCAGCTTCCCGGCGCCACGGCAGCTGACCATCATGCAAAGCGGCGACGATGGAACGTTGTATGTGGCGGGAGCGGATGTCTACAAGGTCAACGTGAACACTGGCAAGTTCGACGTGCTGATTCCCAGTCGCCATTGGAAACGTGCCAATTACAGCGCACCGGATGTGCTCTACGTGTGGAACCAGCAGACCTACCGTCATGATTTTTCGCTGCTCTACACCGCAGCGAAATTCAAGGACAAGAATCAGGACCTGGCGACCGCCGAGTACCTCTATGGGCTGTTCAGCATCGACTTGAAAACCGGCAAGACCGAAACCACCGACTTCGGCCCCCTGACGGAAATCTACTTCAGTGGCATGCGCTCGCCCAAGGACCCGAACCTGATGTTCGGCGTGCTCAACCGGCTGGCCAAGTACGACATCAAGCAGAAAAAACTGCTTCAGGCCGCTACGTTGGATCATTCCTACTACTGCATTTCGTTCAACAAGGCCGGCAGCAAGATTTACCTGGCGGGAACCTTCAACGACGTAGCGGTGTTCGATGCCGATAGTTTGAAGCAGATTGGCAACATCAAATTGCCCGGCGGCGACATGGCGATTACCACGGCGCAAATATTCACGCGTTAA	MQCIKACGLAAFGVLGVISLNVLADENTALQSGHEYMVTTNYPNNLHVIDLATDSLFKTCKMPDAFGPGTVQLSPDRKTAYVLNNHYADVYGVELDSCKQVFHASITQKPGEKAKSMFAFTLSHDGKELFTIANPTLMLNDRYEVQQPRLDVYATDAGMDAKPIRSFPAPRQLTIMQSGDDGTLYVAGADVYKVNVNTGKFDVLIPSRHWKRANYSAPDVLYVWNQQTYRHDFSLLYTAAKFKDKNQDLATAEYLYGLFSIDLKTGKTETTDFGPLTEIYFSGMRSPKDPNLMFGVLNRLAKYDIKQKKLLQAATLDHSYYCISFNKAGSKIYLAGTFNDVAVFDADSLKQIGNIKLPGGDMAITTAQIFTR				NA	NA	NA	NA	NA
D1-35_02016	1668	fadD3_2	COG0318	3-[(3aS,4S,7aS)-7a-methyl-1,5-dioxo-octahydro-1H-inden-4-yl]propanoyl:CoA ligase	ATGAGTGTTCCCAGTTACACCATTGGACCGCAAACCACACCCTTGTTGGCGATGACCATTGGCGCGGCGTTCGACCGAGCGGTGGAACGGTTCACCGATCGCGAAGCTTTGGTCGTGCGGCATCAAGGGTTGCGCTACACCTGGGCACAGTTGGCCGAGGAGGTGGATGGTTGCGCACGAGGGTTGCTCGCGCTGGGCCTCAAGGCCGGCGAACGGATAGGCATCTGGTCGCCGAACTGCGCGCAGTGGTGCATCACCCAGTTCGCATCGGCCAAGGTGGGGGCGGTGCTGGTGAACATCAACCCGGCCTACCGTCTGACCGAGCTCGAGTACACGCTCAAGCAATCGGGGTGTCGCTGGCTGATTTGTGCCGACTCGTTCAAAACTTCCAACTACCACGCGATGCTTCAAGATCTGCTGCCCGAACTCCACCGCTGCGCTGTCGGCGCACTGGAAAGCGACCGGTTGCCTGAATTGCAGGGCGTGATCAGCCTCGGCGACACGCCGGCTGACGGTATGTTGTCATGGGAGGGCCTGTTGGAGCTGGCGGAACAAATGTCTGCGGAACAACTACGGCAATGCGGCGAGCAACTGCAGTTCGACGACCCCGTCAACATCCAGTACACCTCGGGTACTACTGGATTTCCCAAAGGTGCCACCCTCAGTCACTACAACATCCTGAATAACGGTTTCATGGTCGGTGAAAGCCTGAAGCTCAGCGCGCACGACAGGTTAGTGATACCGGTGCCGCTGTATCACTGCTTCGGCATGGTCATGGGCAATCTGGGGTGTGTCACCCACGGAACGACAATGATCTACCCCAGCGCAGCCTTCGATCCGCTGGAGACCCTGCGGGCCGCGGCACAGGAGAAAGCGACCGGCATGTATGGCGTGCCGACGATGTTCATTGCCATGCTCGACCACCCGGAGCGCCAATTATTGGACTTGAGCCATCTGCGAACGGGCATCATGGCCGGCTCCACCTGCCCGATCGAAGTCATGAAGCGGGTGATCGACGACCTGCACCTCAAGGAGATGCAGATCGCCTACGGCATGACCGAAACCAGCCCGGTCTCCACCCAGACCGGCCCGGACGACGATATCGAGCACCGGGTCACCCGTGTCGGCCGCACTCAGCCGCATTTGGAAAGCAAGGTCGTCGATGAGCAAAACCGGATCGTTGCTCGCGGTCAGATCGGCGAACTGTGTACCCGAGGCTACAGCGTAATGCTCGGCTACTGGAACAACCCGCAAGCGACCGCGGAGGCCATCGACGACGCAGGCTGGATGCACACCGGTGACTTGGCAATCATGGATGAGGAGGGTTACCTGAGGATCATCGGGCGCAATAAGGACATGATCATCCGGGGCGGCGAGAATGTTTATCCGCGCGAAATCGAAGAGTTCTTCTTTACTCATCCTGCGGTGGCAGACGTGCAGGTCATCGGTGTGCCGGACAAGGTCTACGGAGAAGAGATCGTAGCTTGGGTCAGGTTGCATGAGGGGCACCAGGCAGATGCCGACGAGCTGCGCGATTACTGCAAGGGCCGGATCGCTCACTTCAAGGCGCCGCGCCATTTCAAGTTCGTTGACGATTTTCCGATGACCGTCAGCGGCAAGGTGCAGAAATTTCGCATGCGTGAAATCAGCGTAGAGGAATTGGGATAA	MSVPSYTIGPQTTPLLAMTIGAAFDRAVERFTDREALVVRHQGLRYTWAQLAEEVDGCARGLLALGLKAGERIGIWSPNCAQWCITQFASAKVGAVLVNINPAYRLTELEYTLKQSGCRWLICADSFKTSNYHAMLQDLLPELHRCAVGALESDRLPELQGVISLGDTPADGMLSWEGLLELAEQMSAEQLRQCGEQLQFDDPVNIQYTSGTTGFPKGATLSHYNILNNGFMVGESLKLSAHDRLVIPVPLYHCFGMVMGNLGCVTHGTTMIYPSAAFDPLETLRAAAQEKATGMYGVPTMFIAMLDHPERQLLDLSHLRTGIMAGSTCPIEVMKRVIDDLHLKEMQIAYGMTETSPVSTQTGPDDDIEHRVTRVGRTQPHLESKVVDEQNRIVARGQIGELCTRGYSVMLGYWNNPQATAEAIDDAGWMHTGDLAIMDEEGYLRIIGRNKDMIIRGGENVYPREIEEFFFTHPAVADVQVIGVPDKVYGEEIVAWVRLHEGHQADADELRDYCKGRIAHFKAPRHFKFVDDFPMTVSGKVQKFRMREISVEELG	PGPT0008380_8037	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
D1-35_02017	861	rhaS_7		HTH-type transcriptional activator RhaS	ATGGCGCCGAATCAGACTGGAAAGCCCAAGCTGTTGTGGTTCGATCTGACGCATGATCGGTCCACCAAGGAACTCGCCAGCCAGTTCGAGCAAACGTGCAACTGCGTCCTGGCAAAAAACACCCTGCTGCCCAATGGCGTACAGGCCGACATGATCTGCATTCATTTCGACCGGCCGGATACACAGGGACTCAGGCGGCTGCTGGACATCAAGCGCACCGTCCCGGCAATTCCCATCAGCATGTTCACGGTGCAGCACTCCGAGGAGCTGGCGGTCTGGGCCATGCGCTCGAGCGTCTGGGAATACATGGTACTTCCCCTGACAGCCGCCGAGAGGAAACGCTACCTGACCGCCGTGGTGCAATTGTGCGAATTGCGCAGGCAGGCTGGTGGCCATGGCTCGACCTCGCAGATCGACCATGCGCCAACGCTGCCGGACAGCATCCGCCTGACCTCCGGGCATCAGAAACACCAGGCCCTCACCCACATCATGCTGTACATCGACCAGCACTTTCGCGACAGCATCGATCAGCGCGACCTGGCCAAGCGTTGCGGCATGACGACGTTTCGCTTCAGCCGCGTGTTCAAGGAGACCAATGGCCTGGGGTTCACCGACTACGTGCTGAACAAGCGCATGAGTTTCGCCAAGGAATTGCTCGACAACAGCCAGATGCCCATCACCAGCATCGGCTACGAGGCCGGATTCAAGGACCCGTCCTACTTCGCGCGTGCCTTCAAGCAGTACGCCAACTGTACGCCGAGCGAATATCGCCTTGCCTATCAGATGCGTTGCGCAAGCCCGGCGCCGTTGCCATCGGATGAGGAGGCGCTGGAAAGCCTGGTACACAGCCTTGAGGGCTGA	MAPNQTGKPKLLWFDLTHDRSTKELASQFEQTCNCVLAKNTLLPNGVQADMICIHFDRPDTQGLRRLLDIKRTVPAIPISMFTVQHSEELAVWAMRSSVWEYMVLPLTAAERKRYLTAVVQLCELRRQAGGHGSTSQIDHAPTLPDSIRLTSGHQKHQALTHIMLYIDQHFRDSIDQRDLAKRCGMTTFRFSRVFKETNGLGFTDYVLNKRMSFAKELLDNSQMPITSIGYEAGFKDPSYFARAFKQYANCTPSEYRLAYQMRCASPAPLPSDEEALESLVHSLEG				NA	NA	NA	NA	NA
D1-35_02018	195			hypothetical protein	ATGACTCTTCAAACTATCAAGGCTTCGGTACTGAAGTTCGCCAAAGATGAAGATGGCCTGACCATTGTGGAATACGCGGTGGCCGGTGGCCTGATCACCGTATTGGTCGCCGCAGCCTTCGTCCTTCTGGGCGGGGCCGTCAACACCAAGATCCGTGCGTTGTGCCAGGCCGTCAACGGCAACGTTGCCTGCTGA	MTLQTIKASVLKFAKDEDGLTIVEYAVAGGLITVLVAAAFVLLGGAVNTKIRALCQAVNGNVAC	PGPT0015910_604	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0015910-flp|pilA-K02651	NA	NA
D1-35_02019	195			hypothetical protein	ATGACTCTTCAAACAGCAAAAACTGCAATCAGCAAGTTCGCCAAGGATGAAGATGGCCTGACCATCGTCGAATACGCCGTGGCGGGCGGCCTGATCACGGTGTTGGTGGCAGCGGCTTTCGTCCTCCTGGGCGGTGTCGTGGATACCAAGATCCGCGCGCTGTGCCAAGCCGCCAACGGCAACGTGGCCTGCTAA	MTLQTAKTAISKFAKDEDGLTIVEYAVAGGLITVLVAAAFVLLGGVVDTKIRALCQAANGNVAC	PGPT0015910_633	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0015910-flp|pilA-K02651	NA	NA
D1-35_02020	531			hypothetical protein	ATGTCCATGGAATTGCTCATATCGACAATATTGCTGCTAGGACTGCTGGGAGTGGCGGTGGTGGGCGATCTGCGTCGCCACCGTATCCCCAACGCGCTGGTCCTGACGGGGGTTGCGCTGGGATTGGCCGGCCAGGTTTATACCGGCGGGTTGAGCGGGTTGGGTGACAGCCTGCTGGGCATGCTGATCTGTTTCGCGCTGTTCCTGCCGATGTACGCCGTGGGCGGCATGGCCGCTGGCGACGTCAAGTTGATGACCATGGTCGGTGGTTTCCTGCCCTTTCATTACGCCCTCTGGGCGGCGCTGTTCAGCCTGATCGCCGGCGGGGTGTGCGGTTTCCTGATTGTTCTGGCCCGCGGCCAACTGCTCCAGACCCTGCAGCGTTACTGGTTGAGCGTCCGGGCCCAGGCCTATCTGGCGCCCACTGTCGATGAGGTGGCTGGCAAACCTTTTCCCTATTCGATTGCAATCCTGATCGGCACCTTGAACAGCGTTTACTGGCAACTGGTTGCCGACGGCTGGGGAGTCTAG	MSMELLISTILLLGLLGVAVVGDLRRHRIPNALVLTGVALGLAGQVYTGGLSGLGDSLLGMLICFALFLPMYAVGGMAAGDVKLMTMVGGFLPFHYALWAALFSLIAGGVCGFLIVLARGQLLQTLQRYWLSVRAQAYLAPTVDEVAGKPFPYSIAILIGTLNSVYWQLVADGWGV	PGPT0016000_382	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016000-cpaA-K02278	NA	NA
D1-35_02021	1329			hypothetical protein	ATGCACGTCATCAACGATAGCGATGCCTACCCCAGTGAACGGGAAGCGGTGCAGCGCCTGGCGCCCCAGCCTGGCTCCATACGCGACACCGGCCTGACCGACAGCTTTCTCGGCGAACTGGTCTGCAAACATTTGCACGAAGCCGGCGTGCTGGACATGTCGCGACTGGTGGAACGCCTGGCCCTGACCGGCGCGGTGCTGGAGGAAGTATTGGCCTTCCTGCGCAAGGACGGTCGGGTCGAAGTGCTGGGCCAACTGGCCCAGGCAGGCGGGCAGTCGCTGCGTTACGGCCTGACTGAACGCGGCCGCAGTTTCGCCCGGGATGCGCTGGCCCGCAGTGGCTACATCGGCGCGGCACCGTTCCCGGTCAGCACGTATCGCTCGCTGATCAAGATCCAGACCATCCACCACGGCCGCATCACCGCCAAGGATATGAACCACGCCCTGGCGGGCATGGTGCTGAGCCAGGGGATGCTCGACCAGTTGGGCGTCGCGCTGAATTCCGGGCGGGCGATCATGATCTACGGCCCGGCTGGCACTGGGAAAACCTACGTCAGCAGCCGACTGATCCGGTTGTTTGCCGAGGCCATCTGGGTGCCCCACGCCATCGTCATCAACGAGTCGGTGATCGAGATCTACGATCCGCAGGTGCACCAGCGTCTGGATGACAGCGGCCAGACGAACAGCCTCATGCTCAACGAAGGCATCGATCGCCGGCTGCTGTGCTGCAAACGTCCGATCGTCATCACCGGCGGCGAATTGAGCATGGAGCAACTGGACGTACGCTACGACCCGTTCACCCGCCAATACCAGGCGGCCTTGCAGCTCAAGGCCAGCAACGGCCTGTTCATCATCGACGACATGGGCCGCCAGCGCATGGCCCCGGCTGAATTGCTCAATCGCTGGATCGTGCCGATGGAGGAAAAGCGCGACTTCATCAACCTGGGCGGCGGGCGCCACTGCGAGCTGCCGTTCGACCTGGTGCTGGTGTTCTCCACCAACCTCAATCCCCTCGAACTGGCCGACGAGGCCTTCTTGCGGCGCATCGGCTACAAGGTCCAGTTCGGCTACCTCAAACCCGAGGAATACGAGCGCATCTGGCGCCAGGAATGCGAACGCCTGGGCATCGTGCATGACCCGCAGCTGGTGCGTCATGTCCTGCAGCGGTTGTATGGGGGCGAGGGCATGCCGCTGGTGCCCTGCCATCCCCGCGACCTGTTGAGCATGGCGCTCGACCGCCAGCGTTACCTGGGCGGTTCCGGGCCCCTGGCGCCCCAAGAGCTGGAGTGGGCCTGGCACAACTACTTCGTTCAGCTCGACTTCCTTTGA	MHVINDSDAYPSEREAVQRLAPQPGSIRDTGLTDSFLGELVCKHLHEAGVLDMSRLVERLALTGAVLEEVLAFLRKDGRVEVLGQLAQAGGQSLRYGLTERGRSFARDALARSGYIGAAPFPVSTYRSLIKIQTIHHGRITAKDMNHALAGMVLSQGMLDQLGVALNSGRAIMIYGPAGTGKTYVSSRLIRLFAEAIWVPHAIVINESVIEIYDPQVHQRLDDSGQTNSLMLNEGIDRRLLCCKRPIVITGGELSMEQLDVRYDPFTRQYQAALQLKASNGLFIIDDMGRQRMAPAELLNRWIVPMEEKRDFINLGGGRHCELPFDLVLVFSTNLNPLELADEAFLRRIGYKVQFGYLKPEEYERIWRQECERLGIVHDPQLVRHVLQRLYGGEGMPLVPCHPRDLLSMALDRQRYLGGSGPLAPQELEWAWHNYFVQLDFL				NA	NA	NA	NA	NA
D1-35_02022	816			hypothetical protein	ATGAGCTCTCGTACGTTTTCGCTGATAGGCGTTTCCCTGGTAATGGGCCTTGGTGCCGCATGGATGGCTGACTCCTGGCTGAGCGCGCGACTCAACGCGACCCCCGACGATCATCTGCGCAGCGTCGTCATCGCGACGGTGCAAATCCCCTTCGGGCAAATGGTCGAGGCCCAGCAGGTGACGACCGTGCGCATGCCCATGGACACCATCCCGGACGATGCCTTCGATGCCAGTGAAAAAGCCGTGGGCAAGATCGCCACGTTCGACATCCTGCGCGGCGACATCGTGCGCGGTGCCCGGCTCAGCGAGCACTTGGGCGGCAGCACCCTGGCCTCGCTGATCGCGCCGGACAAACGCGCCATATCGGTACGCGTGGATGATGTGGTCGGTGTCGGTGGATTCCTGTTGCCAGGTAATCGGGTCGATGTGCTGGCGACCAAGACCACCAACGCCGGTAGCAACAGCGCCACGTCCCGGACGCTGCTGGAGAACCTGCGAGTGCTGGCGGTGGACCAGACGGCGGGTACTGACAAGACCCAACCGGTAGTGGTGCGGGCCGTGACCCTGGAAATGTCCGCCAGCGAAGCGGAATTGCTGGTCACCGCGCAGACCGAAGGCAAGCTGCAACTGGCCTTGCGCAACCCGTTGAACCTGGAGAAGAGAGCCTTGGCCGTTGCGCCGCCAGCTCCGGCGCCGATGATGGCGGTGGCTGCAGCTCCGGTGCCACGGCCTGCGGTGCAGCGCAGCGCCAAGCCTGAGGGAAGTGCGGTCACGTTGATCCGTGGGGTTGAAAGCACTGTGATCAACATCCGCTGA	MSSRTFSLIGVSLVMGLGAAWMADSWLSARLNATPDDHLRSVVIATVQIPFGQMVEAQQVTTVRMPMDTIPDDAFDASEKAVGKIATFDILRGDIVRGARLSEHLGGSTLASLIAPDKRAISVRVDDVVGVGGFLLPGNRVDVLATKTTNAGSNSATSRTLLENLRVLAVDQTAGTDKTQPVVVRAVTLEMSASEAELLVTAQTEGKLQLALRNPLNLEKRALAVAPPAPAPMMAVAAAPVPRPAVQRSAKPEGSAVTLIRGVESTVINIR	PGPT0016005_1234	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016005-cpaB-K02279	NA	NA
D1-35_02023	1332			hypothetical protein	ATGAACTCCAGTACCCGGCAGCCCTTGACGCTGCCTCGACGCCAGGGAGGGGCGGTGAGTGTATTGATGGTGATTGCGCTGGTGGCGATTTCCATGATGGCGGCGTTGGCCCTGGATGGCGGTCACATGTTGCTGAACAAGACGCGCCTGCAGAACGCGGTGGATGCCGCGGCCTTGGGTGGCGCGAAGACCCTGAGCCAGGTGAGCGGTGGCGTCAACATGTCCAGCAGTACCCGCACGGCGGCCCTGGACACCCTGACGCTCAATGCCGACGCCGCTGGCAACGCCGAACTCGCAACGGCCATCGCCGGCAATCCGGGGGCGTTTGCCGTGGTCGAGTTGGCCAGCAGCGTCTATGGGCCTTTCTCCTATCCTGGCCCGACCGATGCGAAGTACGTACGGGTATCGGTCGCCAGTTATCAACTGAACGGGTTCTTCTGGAGTGCCGTCCAGACGATGGGCAGCGACGGCCTGGGCAACAAAAGAGTCGCGGCGATCGCCACGGCAGGCCCCAGCCCGACGGCTCCGTGCGATCTGGCGCCGCTCATGGTCTGTGGCGATACCTCTCAATACAACCCGGCCGCCGGCAATTTCTGGGGCTACCGCTTTGGTGACCTGGAAGTGTTGAAGACTGCGGCAGGCAATACTTCGCCCATCGGACCGGGCAACTTCCAACTGCTCGATTTCGGCTCCGGCGGCAGTGCGGTACGGGAAGACCTGGCCGGTGGTGGTTCGATTTGCCGCAGTGTCGGGGACAACGTCCAGACCTCGCCCGGCAACAAGGCGGGCCCGACATCCCAGGGCCTGAACACCCGCTTCGGGATCTACAACGGTCCGGTCAGTTCCTCCGACTACCCGCCCGATCTGGTTACGGCCTCCAACACGCCGGCAATGACCTATGACGATGCGCTTGGCCCCAGATACGAAGGCCAGTCTGTCACCTCGAGCAATGGCGACCTGTCGGCGGGCGGCCAGGCAATCCTGGATTACAACGATTGGCGCGCCAGCGTTGCCGCGTGTGTCGCGGGAGGCGGCAGCGGCTGTGAAAGCAATGGGGTGTTCGAGCGCAGGATGCTGAAGATCGTCATCGGCGACTGCGCCGGGAAACTCAGCGGCTCGACCTCGATCCCGGTCCTCGGTTTCGGCTGCTATTTCGTCGTGCAGCCGGTGAACGGCGGTGGTTCGGAATCCGTCATCTTTGGTCAGTTCGTCCAGGAGTGCGAGGGCGACAACGTCCCCGGGCCGACGCCGTCCAGCGATGCTGGCCCGCAAATCATCCAGCTCTATAAAACCTACCTCAACGGCAGCGGCACTCCGAGCACCGACTCGTAG	MNSSTRQPLTLPRRQGGAVSVLMVIALVAISMMAALALDGGHMLLNKTRLQNAVDAAALGGAKTLSQVSGGVNMSSSTRTAALDTLTLNADAAGNAELATAIAGNPGAFAVVELASSVYGPFSYPGPTDAKYVRVSVASYQLNGFFWSAVQTMGSDGLGNKRVAAIATAGPSPTAPCDLAPLMVCGDTSQYNPAAGNFWGYRFGDLEVLKTAAGNTSPIGPGNFQLLDFGSGGSAVREDLAGGGSICRSVGDNVQTSPGNKAGPTSQGLNTRFGIYNGPVSSSDYPPDLVTASNTPAMTYDDALGPRYEGQSVTSSNGDLSAGGQAILDYNDWRASVAACVAGGGSGCESNGVFERRMLKIVIGDCAGKLSGSTSIPVLGFGCYFVVQPVNGGGSESVIFGQFVQECEGDNVPGPTPSSDAGPQIIQLYKTYLNGSGTPSTDS				NA	NA	NA	NA	NA
D1-35_02024	465			hypothetical protein	ATGAGACTTGTCCCGTTCAGACCGCGTCGCGCCCAGCAAGGGGTGGCGCTGGTGGAATTCACTCTGGTGCTGCCGTTGTTGCTGCTGCTGTTGCTGGCCTTCGGCGAGTTCGGTCGCATGCTTTACCAGTACAACGTGCTGCTGCAAGCCAGTCGCGATGCCGGCCGCTTCGTCTCCAGCCAGGCCTGGAACACCACCCTTGGCGCCATCGACTTGAACGGCACGCTGCGGACCCGGACAAAAAACGTCGCGGTGTATGGCGTGCCCAGCACCGTCGGTGCGGCGGTAGTGCCGGGGTTGACAGTCGGCAACGTGGTGGTCGAGGCCGTTGGCAGCAATCACGTGAGGGTGACCATCACCCATGCCTTTTCTCCGGTCATCGGCACTGTGATTCCGGGCTTCTTCGGTGCTCCTACCCGCCTGGGCATCGATCTGGTCGCGACTACCGTGATGAGGGCGCTCTGA	MRLVPFRPRRAQQGVALVEFTLVLPLLLLLLLAFGEFGRMLYQYNVLLQASRDAGRFVSSQAWNTTLGAIDLNGTLRTRTKNVAVYGVPSTVGAAVVPGLTVGNVVVEAVGSNHVRVTITHAFSPVIGTVIPGFFGAPTRLGIDLVATTVMRAL				NA	NA	NA	NA	NA
D1-35_02025	495			hypothetical protein	ATGAACCGCAAGCACATGCGCGGCACCTATGTCGTGGAGTTCGCCTTCGTCGGCCTGCTGGTGTTCACCCTGCTGTTCGGCGTCGTCGAAATGGGCCGCCTGTATTTCACTGCCAACGCCCTGGATGAAGCGGCGCGGCGCGGGGCACGGCTGGCGGCGGTGTGCAACATCAGCGATCCGGTGGTCTTGCGCCGGGCCATTTTCAACGCCGCGACGGACGCCGGCACCAGCCAGCTGATCAGCAACCTGGCCACCACGAACCTGGCGCTGACCTACCTGGACGTCGACGGTGCTGTCGTCGCCAACCCGGCCAACACCACTGGCACCGCAGGTTTTCGGGCCATCCGCTACGTGCAGTTGAGCGTGCAGAACTTCAATTTCAATCTGTTCATCCCCGGCTTGGGCGTGTCGATTACGTTGCCTACCTTCAGGGCGACCTTGCCACGCGAAAGTCTTGGGCGTCATTCCGATTCAGGGGAGATCACACCATGCTGA	MNRKHMRGTYVVEFAFVGLLVFTLLFGVVEMGRLYFTANALDEAARRGARLAAVCNISDPVVLRRAIFNAATDAGTSQLISNLATTNLALTYLDVDGAVVANPANTTGTAGFRAIRYVQLSVQNFNFNLFIPGLGVSITLPTFRATLPRESLGRHSDSGEITPC				NA	NA	NA	NA	NA
D1-35_02026	1221			hypothetical protein	ATGCTGAACACCCGGGAAACTCCGCTTACGACCGCTACCGGCAGGCCCGGCTTGCGGTTACTGGTCAGCAGTCGCGATGCGACGTCGCTGCGTGATCTGCAATGCGTCTGCCAGCGCATGCCGGGCCTTGAAGTCAGCACCCGACTGGTCAGCAACGGGCATGTCGATCCGCTCTTCGGCCTCGATCGCATGCCTGACCTGCTGCTGTTGCGGGTCAGCCATCTGTGGCGCGAGGAACTGTCGGCGCTGCTGCAACGTCCGGCCCATGAGCGCCCGCCGATGCTGGTGTGCGGTCTGTTGGGCGAGCAGGAGGGCATGCGCCTGGCCATGCAGGCCGGTGCGCGTGACGTGCTGCCCGAGCCCTTCGCCGATACGGAGCTGGCGGCTGCGCTGAACCGGCTGGTGGCCGAAGTGCGTCTCGGCAACGGCAACGAAGGCAAGCTGATCGCAGTGATCAGCGCCAAGGGCGGCTCCGGCGGGACCCTGGTGGCGTGCAACATGGCCCAGCAACTCAGCGCTCGTGCAGGCAATACCCTGCTGTTGGACATGGACTTGCAGTTTGGCAGCGTGACCCATTACCTGGACGTGGCGCAGTCCCACAGCCACCTTGAAGTGCTGCAGCAGGTCGATGACATGGACAGCGTGGCGCTTCGCGGTTTTTGCAGCCATTTCAGCCCGACCTTGCATGTGCTGGGTGGCCGGGCCGGCGAGCTGTGCCTGCCCCAGGATGCCCAGCCCGAGCAGCTCGATGCGCTGTTGCAACTGGCACGCGGCAGCTATGACTGGGTCGTGGTGGACCTGCCCAGGCAGATCGACCACCTCACCGGCGCAGTCCTGGAACAGGTCGACCGGGTGTACGTGGTGGTCCAGCAGAGCGTCAGCCACCTGCGTGATGCCAGCGCCCTGGTGCGGATCCTTCGCGAAGACCTGGGCGTTCGCGGCGAGCAACTGCAGATCGTGATCAACCGCTACGACAAGACCTCCGCCGTCAGTCTGAAGGATGTTGGCGAGGCCCTGCGTTGCGCGAACCTGTCGAAATTACCCAATGACTTCAACCTGGTCAGCCAGAGTCAGAACACTGGCGTGCCGTTGGGGCTGCATGCGCCGAAGGCGGCTATCACCGCCGCCCTGCGCGATTTGGCCGAGGACCTGGTCGGTCACCAGATGGCCGCAGACAAAGGCCTGCTCAAACGCGCCTTCAACCGTTTTTTCGGGGGATGA	MLNTRETPLTTATGRPGLRLLVSSRDATSLRDLQCVCQRMPGLEVSTRLVSNGHVDPLFGLDRMPDLLLLRVSHLWREELSALLQRPAHERPPMLVCGLLGEQEGMRLAMQAGARDVLPEPFADTELAAALNRLVAEVRLGNGNEGKLIAVISAKGGSGGTLVACNMAQQLSARAGNTLLLDMDLQFGSVTHYLDVAQSHSHLEVLQQVDDMDSVALRGFCSHFSPTLHVLGGRAGELCLPQDAQPEQLDALLQLARGSYDWVVVDLPRQIDHLTGAVLEQVDRVYVVVQQSVSHLRDASALVRILREDLGVRGEQLQIVINRYDKTSAVSLKDVGEALRCANLSKLPNDFNLVSQSQNTGVPLGLHAPKAAITAALRDLAEDLVGHQMAADKGLLKRAFNRFFGG	PGPT0016020_909	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016020-cpaE-K02282	NA	NA
D1-35_02027	1440			hypothetical protein	ATGATCAGCGACTTCCGCAACCGCTTGCGCAAACAGTCCGCCAGAGCCGCGGCTCCAGCCGCCCAGCCGAGAGACAGCCTGCCCGATAGCATGGATGAATTGATGCCATGGGAGCAGGCCATCCCGGATGTGCTCTATGAAACCCGCAGCCAGGTTACCCCGGTGGAAGCCGAGTGGCGGGAAAAAATCTATCAGCAACTGCTCAAGGTCATGGACCTGTCCCTGCTCGATGCCCTGGAGCAGGCCGAGGCTGCGCGGCAGATCCGCGATATCTGCCAGCGCTTGCTGGAAGAACATTCGGCCCCTGTCAGCACGGCCAGCCGCCAGCTGATCATCAAGCAGATCACCGATGAAGTGCTCGGGCTCGGGCCACTGGAACCGTTGCTGGCCGACCACAGCGTCTCCGATATCCTGGTCAACGGCTTCGCCTCGGTCTATGTCGAACGCTTCGGCAAGCTGCAACGCACCGACGTGCGTTTCCGCGACGACCAGCACTTGCTGAATATCATTGACCGCATCGTTTCCAGCCTCGGCCGGCGCATCGATGAATCCTCGCCGTTGGTCGACGCACGCCTCAAGGACGGCTCGCGCGTCAACGCGATCATTCCGCCGCTGGCCATCGACGGCCCGAGCATGTCGATCCGGCGTTTTGCCGTGGACCTGCTCAACACCGACAGCCTGATCCAGGTGGGCACCATGACCCCGGCCATCGCCTTGCTGCTCAAGGCCATCGTCCGCGGGCGCCTGAACGTGCTGATTTCCGGCGGGACCGGCAGCGGCAAGACCACCATGCTCAACGTGTTGTCGAGCTTCATCCCGCATAACGAGCGCATCGTCACCATCGAGGATTCGGCCGAGTTGCAATTGCAGCAACCCCATGTGGTGCGCCTGGAAACCCGGCCCTCGAACATCGAAGGTCGTGGCGAGGTGAGCCAGCGTGAACTGGTGCGCAACAGCCTCCGGATGCGTCCCGACCGCATCGTCATCGGCGAAGTGCGTGGCGCCGAAGCGATGGACATGCTCACCGCCATGAACACCGGCCACGATGGTTCCCTCACGACGATCCATGCCAACACCGCCCGCGATGCACTGGGGCGAATCGAAAACATGGTGTCGATGACCGGGGCGACGTTTCCCATCAAGGCCATGCGTCAACAAATTGCCTCGGCCATCGATGTCGTGATCCAACTGGAGCGTCAAGAAGACGGCAAGCGTCGCGTTGTGAGCATGCAGGAGATCAATGGCATGGAAGGGGAGATCATCACCATGACCGAAATCTTCTCGTTTGCCCGCCACGGTCTCGGCGAGCACGGTGAGGTGCTCGGGGAATATCGGCCCAGCGGCATGATCCCGGCGTTTCGCGACGTGCTGGCCAAGCGCGGCATCGAGCTGCCGCTGACACTGTTCCGTCCTGAGTGGATGGAGGGTCGGCAGTCATGA	MISDFRNRLRKQSARAAAPAAQPRDSLPDSMDELMPWEQAIPDVLYETRSQVTPVEAEWREKIYQQLLKVMDLSLLDALEQAEAARQIRDICQRLLEEHSAPVSTASRQLIIKQITDEVLGLGPLEPLLADHSVSDILVNGFASVYVERFGKLQRTDVRFRDDQHLLNIIDRIVSSLGRRIDESSPLVDARLKDGSRVNAIIPPLAIDGPSMSIRRFAVDLLNTDSLIQVGTMTPAIALLLKAIVRGRLNVLISGGTGSGKTTMLNVLSSFIPHNERIVTIEDSAELQLQQPHVVRLETRPSNIEGRGEVSQRELVRNSLRMRPDRIVIGEVRGAEAMDMLTAMNTGHDGSLTTIHANTARDALGRIENMVSMTGATFPIKAMRQQIASAIDVVIQLERQEDGKRRVVSMQEINGMEGEIITMTEIFSFARHGLGEHGEVLGEYRPSGMIPAFRDVLAKRGIELPLTLFRPEWMEGRQS	PGPT0016025_895	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016025-cpaF-K02283	NA	NA
D1-35_02028	987			hypothetical protein	ATGAATAACATTCCTGGTGAATTCATCCTGGCGTTCCTCGGCATGGTCTTTGTGGCTGTGTTCCTGCTGTCCCAGGGCGTGGTGGTCCCGGTCTTCGGCGAGGCGGGGAAAATGCGCAAGCGCATTCGTGGCCGTCTGCATGTGCTGGAGAAAGCCAACCACTTGCCCAACATGCGGACGGTATTGCGGCAGAAATACCTGACGCGCCTGTCTCCCTTGGAGGCCCGGCTGGAGCAACTGCCGTTCATGGCCAGCCTGACCCAGATGATCGAACAATCCGGCCATGAATACCGGGCCTATCGGGTGATGCTGCTCGGCCTCGCGCTGGGGGTGGCCGCCGGGGCCGCGGTGCTGCTGGTGTCGCCGCTCTGGTGGATGGCGCTGATCGCGTCGTTTGTCGTGACGTGGCTGCCGCTGCTGAAAGTCATGCGCGACCGCAACAGGCGTTTCGCTGCGTTCGAGGAGGGCTTGCCGGATGCGCTGGACGCCATGTGCCGGGCCTTGCGCGCCGGGCATCCGTTCAACGAAACCTTGCGACTGGTGGCCGAGGAGCACAAGGGGCCGGTGGCCCAGGAGTTCGGCATGACCTTCTCCGACATCAACTATGGCAACGACGTGCGCAGGGCCATGCTGGGTCTGCTGGAGCGCATGCCGAGCATGACCGTGATGATGCTGGTGACCTCCATCCTCATTCACCGCGAGACCGGCGGCAACCTGACCGAAGTGCTCGAGCGCCTGAGCCGATTGATCCGCGGGCGTTTTCGCTTCCAGCGCAAGATCAGGACGTTGTCGGCGGAGGGACGCATGTCGGCCTGGGTACTGGTGGCGATCCCGTTCGTGCTGGCGATCGCCATCGTGCTCACCAGCCCCAGCTACATGCCTGTGCTGATCAACGACCCCATCGGTCACAAGCTGATCATCGGTGCCTTCTGCGCCATGTTGATCGGAATTTTCTGGATCAAGAAAATTATCCGGATCCAGGTTTAA	MNNIPGEFILAFLGMVFVAVFLLSQGVVVPVFGEAGKMRKRIRGRLHVLEKANHLPNMRTVLRQKYLTRLSPLEARLEQLPFMASLTQMIEQSGHEYRAYRVMLLGLALGVAAGAAVLLVSPLWWMALIASFVVTWLPLLKVMRDRNRRFAAFEEGLPDALDAMCRALRAGHPFNETLRLVAEEHKGPVAQEFGMTFSDINYGNDVRRAMLGLLERMPSMTVMMLVTSILIHRETGGNLTEVLERLSRLIRGRFRFQRKIRTLSAEGRMSAWVLVAIPFVLAIAIVLTSPSYMPVLINDPIGHKLIIGAFCAMLIGIFWIKKIIRIQV	PGPT0022290_407	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022290-tadB-K12510	NA	NA
D1-35_02029	966			hypothetical protein	ATGGATTTCTTACTTGGGTTGTTCAGTCGGTTCACCGGAAGCGAGGAGCTCGCCCGGCTGTTGTTCATCGTTGTGATCGGCCTCAGCACGGTGCTCGCGGCCGTTGCCGTCAGCCTGCTTTTGCTGGGCTTGCAGGACCCGGTCCAGCGGCGCCTGGCGTTGATCAAGCGCGGCTATGCCGGCAGCACGGCGGGGCAGGAGGCGCCCGGCAACCTGCAACTGCTGCTGGAGCGGGTCGGCCAGCGCTTTGCCTCAGCCGACCCGACGCAGGTTTCGGCGACCCAGATGCTGCTGACGCATGCTGGCTACCGCTCCGCCTCGGCGGTCCAGATGTACTGGGCTGTGCGCCTGATCCTGCCGCTACTGATGATTGGCCTTGCGCTGGTGTTGCTGCCGATGATCAAGGTTTCAGTGGCTATTGGTTTGCTGGCCGTGACGCTCGTTGCCGGCATCGGCTGGCTGTTGCCGGCGCTCTATGTCGGCAAGCGCAAGCAGGCACGGCAAACCCGGTTGCGCGCGGCGTTCCCGGATGCGCTGGACCTGATGGTCGTCTGCGTCGAGTCAGGCCTGGCCCTGCCCACGACCATAGAACGGGTGGCCGAAGAAATGTCGGTCAGCCAGGTCGAGCTGGCCGAGGAACTGGCCTTGGTCAACGCTCAGATCCGCGCGGGCATCACCAGTACCGAGGCGCTCAAGCAATTGGCCGTGCGCACCGGTCTGGAAGACATCCAGGGCCTGGTCAGCCTGTTGGCGCAAAGTATCCGTTTCGGCACCAGCGTGGCCGATACCCTGCGAATCTATGCCGACGAATTTCGTGACCGGCGGACCCAGGCCGCCGAAGAAATGGGTGCCAAGATCGGCACCAAACTGATCTTCCCGCTGATCTTCTGCCTCTGGCCAAGCTTCTTCCTGGTCGCCATAGGCCCCGCCATGATCGGTGTGTTCAGGGCTTTCGGGAATATGTAG	MDFLLGLFSRFTGSEELARLLFIVVIGLSTVLAAVAVSLLLLGLQDPVQRRLALIKRGYAGSTAGQEAPGNLQLLLERVGQRFASADPTQVSATQMLLTHAGYRSASAVQMYWAVRLILPLLMIGLALVLLPMIKVSVAIGLLAVTLVAGIGWLLPALYVGKRKQARQTRLRAAFPDALDLMVVCVESGLALPTTIERVAEEMSVSQVELAEELALVNAQIRAGITSTEALKQLAVRTGLEDIQGLVSLLAQSIRFGTSVADTLRIYADEFRDRRTQAAEEMGAKIGTKLIFPLIFCLWPSFFLVAIGPAMIGVFRAFGNM	PGPT0022295_699	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022295-tadC-K12511	NA	NA
D1-35_02030	270			hypothetical protein	ATGAAAACCCAACAATTGATGATCGTTTGCGTGGCCTGCCTGTCTACCACCGCCTGGGCGATCGAGCCAGGTCCTTCCTCCGCGGCGCAGCAAGGCACCGAGCGCTGGATGCAACTGCAGATCCGCGGTGTCGTGGCATCGACCAATCTGCAGACCGTCTCGGCCACCGAACGTGAGCTGGCCATGCAGCGCTGGCTCAATAGTTTCACCTACCCGATCCCGGAATTTTTTGACCAGGACTCGGGGGGAGAAATCACCAGCAGCAAATAG	MKTQQLMIVCVACLSTTAWAIEPGPSSAAQQGTERWMQLQIRGVVASTNLQTVSATERELAMQRWLNSFTYPIPEFFDQDSGGEITSSK				NA	NA	NA	NA	NA
D1-35_02031	714			hypothetical protein	ATGAAAACATTGACCGCTATAGCGGCGGCCCTGGTGTTGACCGGTTGCGCCAGCAACGGCACCGTGGCCTCGCACCCGGGCAGTTGCGCCAAGCCCGGATCCGATCAGGATCTGGCCCTCAACCTGGCCGATGACATGGCCAATGATGGGCGCTTGTATGCCAGCCTGGCGAACCTCGAAGGTTTACCCGAGGAGCTGGTCCAGGTTCGCCTGCGCAAGGCTCGGGTGCTGCGCCTGATGGGGCGCAACGAGGCCGAGCCGCTGTATAGGAGCCTGCTCGGGACTTGCCTGGCCGCCGACGGTGAACATGGCCTGGGGCAGTTGGCCGCCGCTCGAAATGATTACGCCAGCGCTACGGAACACCTTGAGCACGCCGCCAGGATGGCCCCCACCGAAGGCAAGATCCGCAACGACCTGGGGGTGGTCTATCTCAACCAACGCCGGATTCCCCAGGCCCGCTTCGAGTTCATGACGGCCATGGAACTTCAGCGATCAGACTCGCTGGCGGCACTTAACATGGTCACCCTGTTGATCTACCAGGACAACTGGAAGCAGGCCGCCGAGCTCGCGAACATGGCCAAGCTGAGCCCTCAGCAGATAGCTGATGCCCAGGCCCGCGCGGAAAAAATCAGGGGCTCGGCCAGTCATCCCCTGACGACACAAGCGAACCGCCTGAACGAGGTCGTCGAGGCCTCAACCGGCGCGGCCAAGTAG	MKTLTAIAAALVLTGCASNGTVASHPGSCAKPGSDQDLALNLADDMANDGRLYASLANLEGLPEELVQVRLRKARVLRLMGRNEAEPLYRSLLGTCLAADGEHGLGQLAAARNDYASATEHLEHAARMAPTEGKIRNDLGVVYLNQRRIPQARFEFMTAMELQRSDSLAALNMVTLLIYQDNWKQAAELANMAKLSPQQIADAQARAEKIRGSASHPLTTQANRLNEVVEASTGAAK				NA	NA	NA	NA	NA
D1-35_02032	1224	sctC_1		Type 3 secretion system secretin	ATGACCTATCGCACCGTGCCTACACTAAAACGCTTCATACATGGATTGTTCTGGATGAGCCTCGGCCTGGAAGCAGCCCACGCGGCTTCGGCCAACTGCTCGCAACTGGACAATCTGCCCGCGACCTTCGAGGTCGGCCAAGGGCTGCAGAATGAACTGCGCATCCTGGCCCCCGTGACGAAGCTGGCGGTGGGCGATCCGAAGATTGCCGACGTGCAACCCAGTGGCAGCGATGCCTTCATTCTCACCGGCCTGATGCCCGGTGCTACCAGTCTGATGGTCTGGACCGAGTGCTCGAAAATACCGCGCCAGAGCATGGTCTTCGTGACGGGCCGGGCCACCGCGGCGCTGACCAGCGCCGCGAGCGTACCGTCGGAAGACCCGATGCTGCTCGCCCAGGTCCAGACCGACATCCGCTTCGTCGAGGTCAGCCGGACCAAGCTCAAGGAGGCCTCGACTTCGATTTTCGGCAGCCGTGGCAACTTCCTGTTCGGCTCGCCCAGAACGCTGCCCACGATCGGCGGCGTAGTCCGTCCTTCCCTGCCGGTCAACAACGACATGTTCAACCTGTCCTTCGCCACCGGGCAGACGCTGCTGATGATCAACGCGCTGGAGGGCAGCGGTTTTGCCTATACCCTGGCGCGGCCGAGCCTGGTGGCGCTCAGCGGGCAAAGCGCGAGCTTCCTGGCCGGTGGCGAAGTACCGATTCCGGTGCCGAGTGCCGGGAGCGACAACGTGTCCATCGAGTACAAGGAGTTCGGGATTCGCCTGACGCTCACGCCGACCGTCATCGGCAAGAATCGCATCGTGTTGAAGGTGGCGCCCGAAGTCAGTGAACTGGATTTCACCAACGCCGTGAACATTGCCGGCACGCTCGTCCCGGCGCTGACCGTGCGCCGCACCGATACCAGCATCGCCCTGGCCGACGGTGAAAGCTTTGTCATCAGCGGTCTGATCAGCACACGCAATGCGTCTCAGGTGAACAAATTTCCGGGCCTGGGCGACGTGCCGATTCTCGGTGCATTTTTCCGTGACAACTCGATCAATCGCGAAGAGCGCGAACTGCTGATGATCGTCACGCCGCACCTGGTTCAGCCTTTGGCCGCCAACGCTCAGTTGCCGACGCTACCGGGCGAGCAACTGCGCAATTATGACCCGAACTTCTATCGCATGTATTTCCTTGAAAACGGCGAATTCGACAAGCGCAGCGGGCTTTCCCAATGA	MTYRTVPTLKRFIHGLFWMSLGLEAAHAASANCSQLDNLPATFEVGQGLQNELRILAPVTKLAVGDPKIADVQPSGSDAFILTGLMPGATSLMVWTECSKIPRQSMVFVTGRATAALTSAASVPSEDPMLLAQVQTDIRFVEVSRTKLKEASTSIFGSRGNFLFGSPRTLPTIGGVVRPSLPVNNDMFNLSFATGQTLLMINALEGSGFAYTLARPSLVALSGQSASFLAGGEVPIPVPSAGSDNVSIEYKEFGIRLTLTPTVIGKNRIVLKVAPEVSELDFTNAVNIAGTLVPALTVRRTDTSIALADGESFVISGLISTRNASQVNKFPGLGDVPILGAFFRDNSINREERELLMIVTPHLVQPLAANAQLPTLPGEQLRNYDPNFYRMYFLENGEFDKRSGLSQ	PGPT0016010_1503	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016010-cpaC-K02280	NA	NA
D1-35_02033	408			hypothetical protein	GTGTCCAACGTCGTTGCCGATCACCTCGTCTTGCTTGACCACTTGCGCAGCATCCTGGTCGCCGTGGGTGAGGCCGAACAGGTTCCCGAAGAAAGCCATGCGCTGTTCCTGGAGCGTTTTGACGAATTGCGCGCGCAACTGCCAGTCGACCCGATCGAAAGCCAGTACCTTGGCCAGGACCTGCTGTGCCAGGTGATCGTGCGTTATCCACAAATCGCCCACCTGGTGCCTCGAGACCTGCTGTGGTATTTCGGCGGCGATTGCCTGCACTACATGCCCGACGAAGAGATCGCCCTGTATCAGGCCCTCGAGGAACGTCGTTTCGAAGCCGAGCAAAACGACGAGCCGTTCGACTGGAACCAGGAAAAACAATTGCTGGCCATGTCTGATCAGGACAGCAAGCACTGA	MSNVVADHLVLLDHLRSILVAVGEAEQVPEESHALFLERFDELRAQLPVDPIESQYLGQDLLCQVIVRYPQIAHLVPRDLLWYFGGDCLHYMPDEEIALYQALEERRFEAEQNDEPFDWNQEKQLLAMSDQDSKH				NA	NA	NA	NA	NA
D1-35_02034	2448	fadE	COG1960	Acyl-coenzyme A dehydrogenase	ATGCTGTTGTTGTGGATACTGGTTCTGGTCGTCGGGATAGCCTGGCTGGCACACCGCCGCACCGCCCCGCTGCCAGCGCTGGGCATCGTTGCGGTCTACCTGTTGGCGATGGGCATCTTCAGCCATGCGCCCGGGTGGCTGCTGCTTGTCCTATGGTTGGTACTTGCCGCCGTTGCAGCCCCGCTGTTGCTACCTGACCTGCGCCGTAGATATTTCAGCGCGCCGATGTTCGACTGGTTCCAGAAAACCTTGCCACCGATGTCCGAGACCGAGCGCGATGCCATTGATGCCGGCACGGTGTGGTGGGACGGGGAATTATTCAGCGGCCGGCCGGACTGGGACATGCTGCTGGCCTACCCAAAAGTAAAACTGACTGACGAAGAGCAGGCGTTTCTCGACGGTCCAACCGAAGAACTCTGCGCGATGGTCAGCGACTGGCAGATCGGCCAGGCCATGGACCTGCCGCCCGAAGCCTGGGCCCATATCAAGGAACATGGTTTCTTCGCCCTGATCATTCCGAAGGAATACGGCGGCAAGGGATTTTCCGCCTATGCCCACTCCCAGGTGGCGATGAAACTGGCGACCCGCAGTGGCGACCTGGCGTCCACCGTGATGGTCCCCAACTCCCTCGGCCCGGCGGAACTGCTGCTGCACTACGGCACCGATGAACAACGCAACCATTATCTGCCGCGACTGGCCCGGGGTGACGATATTCCCTGCTTCGCCCTGACCGGGCCGCTGGCTGGCTCCGATGCGGGGGCGATGCCCGACACCGGGATCATTTGCAAAGGCGAATGGCAAGGCCAGGAAACCATCGGCCTGCGCTTGAACTGGGAAAAACGCTACATCACCCTCGGCCCCGTCGCCACCCTCCTCGGCCTGGCCTTCAAAGCCTACGACCCGGAGCACCTGTTGGGTGAAGAAGAGGACCTGGGGATCAGCCTGGCGCTGATCCCCACGGATACGGCCGGGGTCAATATCGGTCGCCGTCACCTGCCTCTTGGCGCCGCCTTCATGAACGGACCGAACTGGGGCAAGGACGTGTTCATCCCGCTGGACTGCCTCATCGGCGGCCAGGCCATGCTCGGCAAGGGCTGGATGATGCTGATGAATTGCCTGTCGGTCGGGCGCTCGATTTCCCTGCCAGCGGTAGGGACCGGCGCGGCGAAGTTCACCAGCCTGGTCACCGGCCAGTACGCCCAGGTAAGGGAACAATTCAACGTGCCGTTGTCCGCCTTCGAGGGCATCCAGGAAGCCATGGCACGTATCGGCGGCAATGCCTGGTTGATGGACGCCGCACGCATGCTGACCGCCAACGCGGTGGACCTCGGCGAAAAGCCTTCGGTACTGTCTGCCATCCTCAAGTACCACCTGACCGAGCGCGGCCGCGAGTGCATCAGCCACGCCATGGACGTGCACGGCGGCAAAGGCATCATCATGGGGCCGAACAACTACCTGGGCCGCAGCTGGCAAGGCGCGCCGATCTTCATCACGGTCGAAGGCGCGAATATCCTCTCGCGCAACCTGATGATCTTCGGCCAGGGGGCGATTCGCTGCCATCCGTTCGTATTGAAGGAAATGGCCCTGGCAACTCGAGAAGACAAAGACCAGGCATTGGTCGAATTCGACGAGTTGCTGCTCAAGCACATCGGTTTTGCCATCGGCAACGCCGCCAGCACCCTGGTCCTGAACCTCGGCCTGGGGCACTTCGACAACGTGCCGGGCAATGCCCTGAGCCAAGGGTATTTCCGTGCCCTCAACCGGCAGGCGGCGGCGTTCGCCTTGCTGGCGGACCTGAGCATGATGCTGCTGGGTGGCGAACTCAAACGTCGCGAACGCCTGTCGGCCCGCCTGGGGGATGTATTGAGCAACCTTTACCTGGCCTCGGCGGCGCTCAAGCGCTATCACGACCTTGACTCGCCAGACCATATGGGGCCGCTGTTTCGCTGGGCCATGGAGGAAAGCCTGGGTCAATCGGAGCGGGCACTGGACGAACTGCTGGTCAACTTCCCGAATCGGCTGCTGGGCGGCCTCTTGCGAGTGGTGGTGTTTCCTTTCGGCCGCCGTCACAAGGGACCGAGCGACAGGCTGGACGCCGAGGTGGCTGCCGTTATCGGCCGCGCCAAGGGCGATCCGACTCTGGAAGAGCTGCTCCAAGGCTGTTATCGCCCGCAGTCGGAAGAGGACCCGGTGGGCGCGCTGCAACATGCCGCCGACCTGCTGGCCGCCGCCCAGCCGCTTCACAAAAAGCTCCATGGAGCGTTCAAGCAGGGCCAACTCAACCCTGCGCCCGGCGAACCTATCATCGATGCGGCCCTGGAGGCGGGTGTCCTGCAAGCCGGTGAGGCGCAGACCCTGCGCGCAGCCGAAGCGGCACGCCGCAAGGTCATCGATGTGGATGATTTCGACAAGGAGGAACTGACGCTCGCCGAGGCCAAGGTGCGGTGA	MLLLWILVLVVGIAWLAHRRTAPLPALGIVAVYLLAMGIFSHAPGWLLLVLWLVLAAVAAPLLLPDLRRRYFSAPMFDWFQKTLPPMSETERDAIDAGTVWWDGELFSGRPDWDMLLAYPKVKLTDEEQAFLDGPTEELCAMVSDWQIGQAMDLPPEAWAHIKEHGFFALIIPKEYGGKGFSAYAHSQVAMKLATRSGDLASTVMVPNSLGPAELLLHYGTDEQRNHYLPRLARGDDIPCFALTGPLAGSDAGAMPDTGIICKGEWQGQETIGLRLNWEKRYITLGPVATLLGLAFKAYDPEHLLGEEEDLGISLALIPTDTAGVNIGRRHLPLGAAFMNGPNWGKDVFIPLDCLIGGQAMLGKGWMMLMNCLSVGRSISLPAVGTGAAKFTSLVTGQYAQVREQFNVPLSAFEGIQEAMARIGGNAWLMDAARMLTANAVDLGEKPSVLSAILKYHLTERGRECISHAMDVHGGKGIIMGPNNYLGRSWQGAPIFITVEGANILSRNLMIFGQGAIRCHPFVLKEMALATREDKDQALVEFDELLLKHIGFAIGNAASTLVLNLGLGHFDNVPGNALSQGYFRALNRQAAAFALLADLSMMLLGGELKRRERLSARLGDVLSNLYLASAALKRYHDLDSPDHMGPLFRWAMEESLGQSERALDELLVNFPNRLLGGLLRVVVFPFGRRHKGPSDRLDAEVAAVIGRAKGDPTLEELLQGCYRPQSEEDPVGALQHAADLLAAAQPLHKKLHGAFKQGQLNPAPGEPIIDAALEAGVLQAGEAQTLRAAEAARRKVIDVDDFDKEELTLAEAKVR	PGPT0021800_552	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021800-fadE-K06445	NA	NA
D1-35_02035	624	gstB_1	COG0625	Glutathione S-transferase GstB	ATGCTGAAGATCTGGGGTCGGAAGAATTCGTCGAACGTACGCAAGGCGCTGTGGTGTGCCGAAGAGCTGGGGCTGGCCTACGAGGCCATCGACGCGGGCGGCGCGTTTGGCGTGGTGGATACGCCCGAGTACCGCGCGAAGAATCCCAACGGCCGGGTTCCGATGATAGAAGACGACGGCTTCGTGCTCTGGGAATCCAATACCATCGTGCGTTACCTGGTGGCTCGCCATGCCTCAGGCTCGGCCTGGTATCCCGATGACATACAGGCCCGCGCCAGCGCTGAAAAATGGATGGACTGGACCACGTCCAGCTTTGCCGCTCCGTTTCGCACGGTGTTCTGGGGCGTGCTGCGCACCCCGGCCGAGCAGCAGGACTGGCCGGCCATCAATGCGGCAATCAAGGAGTGCGACCAGTTGCTGGCAATGGTGGAGCAAGCCCTCGGCGAACAGCCTTACCTCTGCGGTGAGGAAATCGGAATGGGCGACATTCCCTTGGGCAGTTTCATTTATGCCTGGTTCGAGATGCCCATCGAGCGCGCCGCATTGCCTCGGCTGGAGGCCTGGTATGCGCGGCTCCAGCAGCGTCCGGCTTATCGCAAGGCCGTCATGACCGCGTTGACTTAA	MLKIWGRKNSSNVRKALWCAEELGLAYEAIDAGGAFGVVDTPEYRAKNPNGRVPMIEDDGFVLWESNTIVRYLVARHASGSAWYPDDIQARASAEKWMDWTTSSFAAPFRTVFWGVLRTPAEQQDWPAINAAIKECDQLLAMVEQALGEQPYLCGEEIGMGDIPLGSFIYAWFEMPIERAALPRLEAWYARLQQRPAYRKAVMTALT	PGPT0013170_17671	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
D1-35_02036	933	yadG	COG1131	putative ABC transporter ATP-binding protein YadG	ATGAGTTCCGCTCTGTCCATACGGCAGCTAACCAAAACCTACGGCAACGGTTTCCAGGCCCTGAGTGGTATCGATCTGGATGTCGCCGAAGGTGATTTTTTTGCCTTGCTGGGCCCCAACGGTGCCGGCAAATCCACCACCATCGGCATTCTTTCCACGCTGGTGAACAAATCCGGCGGGACGGTGAACGTCTTCGGCCATGACCTGGACCGCGAGCCCGCCGCGCTCAAGCGCTGCATCGGCGTGGTGCCCCAGGAATTCAACTTCAACCAGTTCGAAAAGACCTTCGACATCGTCGTGACCCAGGCCGGCTACTACGGCATCCCGCCGAAGATCGCCAACGAGCGCGCCGAGCAGTATCTGACCCAGCTTGGCTTGTGGGACAAGCGCGATGTGCCGTCCCGTTCGTTGTCCGGCGGCATGAAGCGACGCCTGATGATTGCCCGCGCGCTGGTGCATGAACCGCGCCTGCTGATCCTCGACGAACCCACCGCCGGCGTGGACATCGAGCTGCGTCGTTCGATGTGGACCTTCCTCACCGAGCTGAACCAGAAAGGCATCACCATCATCCTCACCACGCACTATCTGGAAGAGGCCGAGCAGCTGTGCCGCAACATCGGCATCATCGACCACGGCACCATCGTCGAGAACACCAGCATGCGGCAGTTGCTGAGTCAGCTGCATGTGGAAACCTTCCTGCTGGATCTCAAGCATGACCTGAGCGCCGCGCCGCAGCTGGTGGGTTATCCGGCTCGCCTGCTCGACGGCCATACCCTGGAAGTCCAGGTCGACAAGTCCGCTGGTATTACCGGGCTGTTCACCCAGCTGGCCGTGCAAAACATCGAAGTGCTGAGCCTGCGCAACAAGACCAATCGCCTTGAGGAGTTGTTCGTGTCCCTGGTGGAAAAAAACCTGGCGAAGGTGGCGGTATGA	MSSALSIRQLTKTYGNGFQALSGIDLDVAEGDFFALLGPNGAGKSTTIGILSTLVNKSGGTVNVFGHDLDREPAALKRCIGVVPQEFNFNQFEKTFDIVVTQAGYYGIPPKIANERAEQYLTQLGLWDKRDVPSRSLSGGMKRRLMIARALVHEPRLLILDEPTAGVDIELRRSMWTFLTELNQKGITIILTTHYLEEAEQLCRNIGIIDHGTIVENTSMRQLLSQLHVETFLLDLKHDLSAAPQLVGYPARLLDGHTLEVQVDKSAGITGLFTQLAVQNIEVLSLRNKTNRLEELFVSLVEKNLAKVAV	PGPT0006725_8790	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-35_02037	786	yadH	COG0842	Inner membrane transport permease YadH	ATGAGTATGAGTTCGGAACTGCGCCCCAACCTCATCGCCCTCAATACCATTGTCTATCGTGAAGTCCGGCGCTTCATGCGGATCTGGCCGCAGACCTTGCTGCCCCCGGCGATCACCATGGTCCTGTACTTCGTGATTTTCGGTAACCTGATCGGCCGGCAGATCGGCGACATGGGCGGCTTCACGTACATGGACTACATTGTGCCGGGGCTGATCATGATGTCGGTGATCACCAACTCCTACGGCAACGTGGTATCGAGTTTCTTCGGCAGCAAGTTCCAGCGCTCCATCGAAGAGCTGATGGTTTCGCCGGTTTCACCCCATACGATCCTGATCGGCTTCACCCTGGGCGGCGTGCTGCGCGGGCTGGCGGTCGGCCTGATCGTGACGCTGCTGTCGCTGTTCTTCACCGATCTGCAGGTGCATCACCTGGGGGTGACGATCCTGGTGGTGGTCCTGACGGCGACGATCTTTTCGCTGCTGGGCTTCATCAACGCGGTGTTCGCGCGAAACTTCGATGACATCTCCATTATCCCGACGTTCGTGCTCACGCCGCTGACGTATCTGGGCGGGGTGTTCTACTCGATTTCCCTGCTGCCACCGTTCTGGCAGACCGTATCGCTGGCCAACCCGGTGCTGCATATGGTCAATGCTTTCCGCTACGGGATCCTTGGCGTTTCGGACATTCGCATCAGTATTGCAATTACCTTCATGCTAGTGGCGACCGTGGTGCTTTATGTGAGCTGTGCGCGGTTGCTGGTGAGTGGGCGAGGGATGCGTACCTGA	MSMSSELRPNLIALNTIVYREVRRFMRIWPQTLLPPAITMVLYFVIFGNLIGRQIGDMGGFTYMDYIVPGLIMMSVITNSYGNVVSSFFGSKFQRSIEELMVSPVSPHTILIGFTLGGVLRGLAVGLIVTLLSLFFTDLQVHHLGVTILVVVLTATIFSLLGFINAVFARNFDDISIIPTFVLTPLTYLGGVFYSISLLPPFWQTVSLANPVLHMVNAFRYGILGVSDIRISIAITFMLVATVVLYVSCARLLVSGRGMRT	PGPT0006730_16348	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-35_02038	531			hypothetical protein	ATGCCCCGGCGATTATTCAAACGTTACATGCCTGACCCCGCGAGCATTCGGGAACATAAATCCTTACGCTTTCTCGGCACCCTGCTGCACGATCCCAACCTCTGGCACCTCAATCGTCATTCGGTGGCGCGGGCGATGGCCGTTGGCCTGTTCGCCGCTTTTCTGCCGATACCGCTGCAAATGCTCCTGGCCGCCGCGCTGGCCGTCACGGTTCGCGGCAACATCCCGATCGCGGTAAGCCTGGTCTGGCTGACCAACCCCATCACCATGCCCGCGGTATTCTTCTGCACCTATCAGACCGGCGCCTGGCTGATGGACGTTCCAGCCCGGACGCTGCCCGACGAATTGACCTGGGAGTGGATCACCAACCAGCTGTCAACGTTGTGGCAGCCGTTTTTGCTGGGGTCGGTGGTCACTGGGTTGGTGCTTGGAGTCTTGGCTTATTTCGTCACCATGGCGTATTGGCGATGGTGGGTTGCCAGGCAGTGGCGGCGGCGCAAGCGCAGCCGGATGAGAGAAAAACTGGACTGA	MPRRLFKRYMPDPASIREHKSLRFLGTLLHDPNLWHLNRHSVARAMAVGLFAAFLPIPLQMLLAAALAVTVRGNIPIAVSLVWLTNPITMPAVFFCTYQTGAWLMDVPARTLPDELTWEWITNQLSTLWQPFLLGSVVTGLVLGVLAYFVTMAYWRWWVARQWRRRKRSRMREKLD				NA	NA	NA	NA	NA
D1-35_02039	2247	comEC	COG0658	ComE operon protein 3	ATGCGCACGGCAATGGTCGCGCTTGCACTGGGGCTGCTGGCCCCGGTTTTTCTACCGGTACTGCCGTCGCCATGGCTGATCGCAGCCATGGCGACGCTGGCGTTGATGGTACTGCCGTTTCGTCTGTACCCGGCGGGTTGCTTCCTCTTCGGGCTGGTCTGGGCGAGCCTCGCCGCACACCATGCACTGGACGGACGGTTGCCCTTCGCACTGGACGGCGAGACGCGCTGGGTCGAAGGGCGGGTCGTCGGTTTGCCGCAACACGGCGATGGAACGGTGCGTTTCGAGTTGGCCGATATCCAGTCAAGGCGCACGCGCTTGCCAACCTCGATGCGCCTGGCCTGGTATGGCGGGCCGCCGGTCAGCAGCGGTGAGAAATGGCGCCTGGCGGTAAAGCTCAAGCGACCCGCGGGGCTGCTCAATCCCCATGGCTTCGACTATGAGGCGTGGCTGTTGAGCCGCGGCATTGGCGCGACCGGCAGCGTCAAGCAAGGGCGACGCCTGCAACCGGCCCAGGGCGCCTGGCGCGACGGGGTGCGCCAGGCATTGGCGAAAGTCGATGCCCAAGGGCGTTCCGGGGCGCTGATGGCATTGGTCCTTGGCGATGGCTCCGGGTTGAGTCGCGAAGATTGGCAGGTGCTGCAAGACACCGGCACGATCCATCTGCTGGTCATTTCCGGGCAGCACATCGGCCTGTTCGCCGGCCTCGTATACCTGCTGGTCGCCGGCGCGGCGCGTCATGGTGTCTGGCCGGCGTGGTTGCCATGGCTGCCTTGGGCGTGCGTGCTGGCGTTCACCGCGGCGCTGGGTTACGGCCTGCTCGCCGGTTTCGAAGTGCCGGTGCGGCGGGCCTGTGTGATGATCGGACTGGTGCTGCTGTGGCGCTTGCGCTTTCGCCAGGCCGATCCTTGGAAAGCCTGGCTGTTGGCGCTCCTGGCAGTGCTGCTGCTCAATCCGCTGGCGAGTCTGCGGCCGGGGTTCTGGTTGTCGTTCGCCGCGGTGGCCGTTCTGATGTTTACCTTCTGCGGTCGCCTGGGCCCCTGGCGTTGGTGGCAGACCTGGACCCGCGCCCAGTGGTTGATTGCTCTCGGGTTGTGCCCGCTACTCTTGATCCTCGGGCTGCCGGTCAGCCTCAGCGGTCCGTTGGCCAATCTGCTGGCGGTGCCCTGGGTCAGTCTGCTGGTGTTGCCTTCGGCCTTGCTTGGCACCGCGTTGCTACCGATACCTTACATAGGCGAGAGCCTTCTCTGGATTGCCGGCGGCTTGCTCGATCTGCTGTTCAAGGCGCTCGCGCTGGCAGCCGGGCAGATGCCAGCCTGGGTGCCTCCCGCGGTGCCGCTGTGGGCCTGGTGCGTGGCGGCGCTCGGCACTGCGCTGCTGTTGCTGCCCAAGGGCGTACCGCTGCGGATCCTGGGTTGGCCGATGCTGATGCTGATGGTTTTTCCCCCACGGGAAGAAGTACCCCACGGGCAAGCCGAAATCTGGCAACTGGACGTCGGCCAGGGGCTGGCGATCCTCGTGCGCACCCAGCGGCACGTCTTGCTTTATGACGCGGGGCCGCGTTTTGGCGACGCCGATGCGGGCGAGCGCGTGGTGGTGCCGACCTTGCACAGGCTCGGTGTGCATGCCTTGGACATGCTGCTGCTCAGTCACGCCGATGCCGATCACGCCGGCGGTGCACAAGCCGTACGCAACGGATTGCCGACCCGTCGGGTGGTCAGCGGCGATCCCGAGGCGCTGCCCGTCGATCTGCAGGCAGGGGCGTGCGATAGCGGCGAACGCTGGGAATGGGACGGGGTGAGGTTCGAACTGTGGCGCTGGGCATCGGCTGTCGAGAGCAACCAGAAATCCTGTGTCTTGCTGGTCGAGGCCGGTGGCGAGCGGTTGCTGCTGACCGGAGATATCGATACCCATGCCGAACGGGCCTTGCTCGACAGTCCCCTGGCGATGCCGACCCAGTGGCTGGCAGCGCCGCACCATGGCAGCCGCAGCTCATCGTCGATGGCGCTGCTGGCGCGCCTCGAGCCCCATTCGGTATTGATTTCCCGGGGGCGCAACAATGCGTTCGGCCATCCCCATCCGTGGGTGATGGAGCGTTATCGACGCTTGGGCATGGTGATCTACGACAGTGCTGAACAAGGTGCCATTCGTCTGCAACTCGGCGCCTTTACACCTGCGCTTGGCCAGGCGGGCATTCGCCGTTACTGGCGTGATCCGCCGCCCGCCGGGCCAGCGTCGGAGCATTGA	MRTAMVALALGLLAPVFLPVLPSPWLIAAMATLALMVLPFRLYPAGCFLFGLVWASLAAHHALDGRLPFALDGETRWVEGRVVGLPQHGDGTVRFELADIQSRRTRLPTSMRLAWYGGPPVSSGEKWRLAVKLKRPAGLLNPHGFDYEAWLLSRGIGATGSVKQGRRLQPAQGAWRDGVRQALAKVDAQGRSGALMALVLGDGSGLSREDWQVLQDTGTIHLLVISGQHIGLFAGLVYLLVAGAARHGVWPAWLPWLPWACVLAFTAALGYGLLAGFEVPVRRACVMIGLVLLWRLRFRQADPWKAWLLALLAVLLLNPLASLRPGFWLSFAAVAVLMFTFCGRLGPWRWWQTWTRAQWLIALGLCPLLLILGLPVSLSGPLANLLAVPWVSLLVLPSALLGTALLPIPYIGESLLWIAGGLLDLLFKALALAAGQMPAWVPPAVPLWAWCVAALGTALLLLPKGVPLRILGWPMLMLMVFPPREEVPHGQAEIWQLDVGQGLAILVRTQRHVLLYDAGPRFGDADAGERVVVPTLHRLGVHALDMLLLSHADADHAGGAQAVRNGLPTRRVVSGDPEALPVDLQAGACDSGERWEWDGVRFELWRWASAVESNQKSCVLLVEAGGERLLLTGDIDTHAERALLDSPLAMPTQWLAAPHHGSRSSSSMALLARLEPHSVLISRGRNNAFGHPHPWVMERYRRLGMVIYDSAEQGAIRLQLGAFTPALGQAGIRRYWRDPPPAGPASEH	PGPT0029415_2388	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
D1-35_02040	636	tolQ_2	COG0811	Tol-Pal system protein TolQ	GTGTGGGAATTGGTCAAATCCGGCGGCTGGATGATGTTGCCGATCATTCTGAGTTCCATCGCGGCACTGGGTATCGTTGCCGAACGCCTGTGGACCCTGCGGGCCAGCCGCGTGACCCCGGAGCATCTGCTCGGGCAGGTCTGGGTCTGGATCAAGGACAAGCAGCTGAACAAGGACAAGCTCAAGGAACTGCGAGCCAGCTCGCCGCTGGGGGAGATCCTCGCGGCAGGCCTGGCGAATTCCAAGCATGGTCGCGAGATCATGAAGGAGTGCATCGAGGAGGCCGCCGCGCGCGTCATCCATGACCTGGAACGCTACATCAATGCCCTTGGGACCATCGCGGCCATGTCGCCATTGCTGGGCCTGTTGGGCACGGTCCTGGGCATGATCGACATTTTCAGCGCGTTCACCGGTTCCGGCATGACGACCAATGCCGCCGTGCTGGCGGGCGGTATTTCCAAGGCACTGATCACCACCGCCGCGGGCCTGATGGTGGGTATTCCGGCGGTGTTCTTCCATCGCTTCCTGCAACGCCGCGTCGACGAGCTGGTGGTGGGCATGGAGCAGGAAGCCATCAAGCTGGTCGAGGTGGTGCAGGGCGACCGTGACGTGGACCTGGCCGGGGGCAAGAAGTGA	MWELVKSGGWMMLPIILSSIAALGIVAERLWTLRASRVTPEHLLGQVWVWIKDKQLNKDKLKELRASSPLGEILAAGLANSKHGREIMKECIEEAAARVIHDLERYINALGTIAAMSPLLGLLGTVLGMIDIFSAFTGSGMTTNAAVLAGGISKALITTAAGLMVGIPAVFFHRFLQRRVDELVVGMEQEAIKLVEVVQGDRDVDLAGGKK	PGPT0003750_3961	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003750-exbB-K03561	NA	NA
D1-35_02041	429	tolR		Tol-Pal system protein TolR	GTGAAATTCCGCCGCAAACCACGGGAAAATATCGAGATCAACCTGGCGTCGCTGATCGACGTGGTGTTCATCCTGCTGCTTTTTTTCGTCGTGACCACCACCTTCACCCGGGAAACCCAGTTGAAGGTTGAGCTGCCGCAAGCGGTGAGTGGCTCGCCGGCCGAGGACCAGCAGTTGAAAAACCTGGAAGTCACCATCAGCGCCGAGGGCGCGTTCTCGGTGAACAACCAGTTGCTGCCCAAGAGCGACCTGGCGAGCCTGATCGAGGCGCTGCAGAGGGAGTCCGGCGGTGATACCAACCTGCCGCTGGCCATCAGCGCCGACGGCAAGACGCCTCACCAATCGGTCATCACCGCCATGGACGCGGCCGGCAAGCTCGGCTTCAGCCACCTGCGCATGACCACGATCGAGGCGGCGCCGGCACCTTGA	MKFRRKPRENIEINLASLIDVVFILLLFFVVTTTFTRETQLKVELPQAVSGSPAEDQQLKNLEVTISAEGAFSVNNQLLPKSDLASLIEALQRESGGDTNLPLAISADGKTPHQSVITAMDAAGKLGFSHLRMTTIEAAPAP	PGPT0003755_1583	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003755-exbD-K03559	NA	NA
D1-35_02042	1011	lpxK	COG1663	Tetraacyldisaccharide 4'-kinase	ATGGCCATGTCCGATCGATTGCTTGCCGCGTGGTACAAGGGGCATCCCGCCCTGGTGCTGCTGCGCCCGCTTGAATGGCTGTACCGACGCGTAGTGATCGGCAAGCGCGAGCGCTTCCTGGCGGGCGAGGGCGAGATCTACCAGCCGCCGGTGCCGCTGATTGTGGTGGGTAACATTACCGTCGGCGGCACCGGCAAGACGCCGTTGATCCTCTGGATGATCGAGCATTGCCAGCGCAGTGGCCTGCGGGTCGGCGTGGTCAGCCGGGGTTACGGCGCCAGGCCGCCGCAATTGCCATGGCGAGTCGAGGCCGAGCAGGGCGCCGACGTCGCGGGCGACGAACCGCTGCTCATCGTCCAGCGCAGCGGCGTGCCGTTGATGATCGATCCTGATCGCAGCCGCGCTGTCCGGGCGCTGCTGGACGCCGAGCCGCTGGACCTGATCCTGTCCGACGACGGTATGCAGCATTACCGCCTGGCCCGTGACCTCGAACTGGTATTGATCGACAGCGCCCGTGGCCTGGGCAACTGCCGTTGCCTGCCGGCCGGCCCGTTGCGCGAGCCGGTGGAGCGCCTGCGCTCGGTCGACGCCGTGCTGTTCAACGGCGCCAGCGCTGATCGCGAGGACGGCTTCGCGTTCGAGTTGCGGCCCACCGCGCTGATCAACCTGGCCAGCGGCGAGCGGCGCCCCCTCGACCATTTTCCTCCCGGCCAGACCCTGCATGCCGTGGCCGGCATCGGCAATCCCCAGCGTTTCTTCAAGACCCTCGAAACGCTACACTGGCGGCCTGTACCGCACGGGTTTGCCGATCATGCCGAATACAGTGCCCAGGCCTTCGATTTCGAACCGTCATTTCCAGTGGTCATGACGGAAAAGGACGCGGTCAAATGCCGTGCCTTCGCCGCGCCCGACTGGTGGTACCTGGCGGTTGACGCAGCGCCTTCGCCAGCCTTCGCGGCCTGGTTCGATACGCAGCTGATGCGCCTGTTGCCGGATCGGCTCTTGCCTTAA	MAMSDRLLAAWYKGHPALVLLRPLEWLYRRVVIGKRERFLAGEGEIYQPPVPLIVVGNITVGGTGKTPLILWMIEHCQRSGLRVGVVSRGYGARPPQLPWRVEAEQGADVAGDEPLLIVQRSGVPLMIDPDRSRAVRALLDAEPLDLILSDDGMQHYRLARDLELVLIDSARGLGNCRCLPAGPLREPVERLRSVDAVLFNGASADREDGFAFELRPTALINLASGERRPLDHFPPGQTLHAVAGIGNPQRFFKTLETLHWRPVPHGFADHAEYSAQAFDFEPSFPVVMTEKDAVKCRAFAAPDWWYLAVDAAPSPAFAAWFDTQLMRLLPDRLLP	PGPT0022380_1521	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022380-lpxK-K00912	NA	NA
D1-35_02043	186			hypothetical protein	ATGGACACCAAACTGCTCGATATCCTGGCTTGCCCGGTCTGCAAAGGCCCGCTCAAGCTCAGTGCCGACAAGACCGAGCTGATCAGCAAGGGCGCCGGCCTGGCCTATCCGATTCGCGACGGCATCCCGGTGATGCTCGAAAGCGAAGCCCGTACCCTGACCACCGACGAGCGCCTGGATAAATGA	MDTKLLDILACPVCKGPLKLSADKTELISKGAGLAYPIRDGIPVMLESEARTLTTDERLDK	PGPT0022380_102	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022380-lpxK-K00912	NA	NA
D1-35_02044	765	kdsB	COG1212	3-deoxy-manno-octulosonate cytidylyltransferase	ATGAATACAGCGTTTACTGTTGTCATTCCGTCGCGCTTTGCCTCCACGCGCTTGCCCGGTAAACCGTTGCTGCTGATCGCCGGCAAGCCGATGATCCAGCATGTCTGGGAGCAGGCTTGCAAGAGCAGCGCCCAGCGTGTGGTGGTGGCAACGGACGACGCGCGCATCGTGGAGGCCTGCCAGGGCTTTGGCGCCGAAGTGGTGATGACCCGCGAGGATCACAACTCCGGTACTGACCGCCTGGCGGAAGTGGCTGGGAAACTCGGTCTGGCGCCCGACGCCATCGTCGTCAACGTGCAGGGTGACGAGCCGCTGATCCCGCCGAGCGTAATTGATCAGGTCGCCGCGAACCTGGCGGCGCACCCAGAGGCGCGCATGTCCACCCTGGCCGAGCCGATCGAGGACGTGCAGACCCTGTTCAATCCCAACGTGGTCAAGGTGGTCAGCGACCTCAACGGCCTGGCACTGACGTTCAGTCGTGCCAGCTTGCCTTGGGCCCGAGAGGCATTCGCTCAGGACCGCGACGTGCTGCCCGACGGCGTGCCGTACCGTCGCCATATCGGCATCTATGCCTACCGCGCCGGTTTCCTTCAGGACTTCGTCGCTTGGGGCCCGTGCTGGCTGGAAAACACCGAAGCCCTCGAGCAACTTCGAGCGTTGTGGCATGGCGTGCGGATCCATGTCGCCGATGCGCTGGTCGCGCCGCCGACCGGTGTAGACACTGCCGAAGACCTCGAGCGCGTTCGTCGCCTGCTGGAGGCTTGA	MNTAFTVVIPSRFASTRLPGKPLLLIAGKPMIQHVWEQACKSSAQRVVVATDDARIVEACQGFGAEVVMTREDHNSGTDRLAEVAGKLGLAPDAIVVNVQGDEPLIPPSVIDQVAANLAAHPEARMSTLAEPIEDVQTLFNPNVVKVVSDLNGLALTFSRASLPWAREAFAQDRDVLPDGVPYRRHIGIYAYRAGFLQDFVAWGPCWLENTEALEQLRALWHGVRIHVADALVAPPTGVDTAEDLERVRRLLEA	PGPT0023065_1177	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
D1-35_02045	465			Putative low molecular weight protein-tyrosine-phosphatase	ATGCGGGTTCTGTTCGTCTGCCTTGGCAACATTTGCCGGTCGCCCACCGCCGAAGGCATCTTGCGCCATAAGCTGCGCGAAGCCGGGCTGGAGGGGCAAGTGGAAGTCGCCTCTGCCGGTACCGGTGACTGGCACGTCGGCAAGGCCCCGGATAAACGCAGCATGGCCGCGGCCCTGCGACGTGGCTACGATCTGTCGGCCCAGCGGGCCCGGCAAGTCACCCGCGCCGATTTCGCCGCCTATGACCTGATCCTGGCGATGGACAGCAATAACCTGCGCAACCTCAAGGCACTGCAACCGGCCAGTGGCAAGGCCGAGCTCGATCTGTTCCTGCGTCGCTACGAGGCTGAGCTCGATGATGTCCCAGATCCGTACTACGACGGCGAACAGGGTTTCGAGCAGGTGCTCGACCTGATCGAACAGGCCACGGATCGTCTGGTCATCGAAGTGAAGGGGCGGTTATGA	MRVLFVCLGNICRSPTAEGILRHKLREAGLEGQVEVASAGTGDWHVGKAPDKRSMAAALRRGYDLSAQRARQVTRADFAAYDLILAMDSNNLRNLKALQPASGKAELDLFLRRYEAELDDVPDPYYDGEQGFEQVLDLIEQATDRLVIEVKGRL	PGPT0014530_6245	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
D1-35_02046	1020	murB	COG0812	UDP-N-acetylenolpyruvoylglucosamine reductase	ATGACCTTGCATGTCCAGGCCGGTGTCAGCCTCAAGCCGTTCAACAGCTTTGGCGTGGACGTCGCCGCACGGTTGTTCGCCGAGGCCCACAGCGATGCCGATGTCCGCGAGGCGCTGGTCTATGCCGCCGGGCATGATCTGCCGTTGCTGCTGATCGGCGGCGGCAGCAACCTGCTATTGACCGACGACATCGACGCGCTGGTGTTGCGCATGGCCAGTCGGGGGATCCGCCTGCTCAGCGACGACGGCGAACGCGTGGTGATCGAGGCCGAGGCCGGGGAGCCCTGGCATCCTTTTGTCCAGCACACGCTGGCGCAAGGTTGGTCGGGGCTGGAGAACCTCAGCCTGATTCCCGGTACGGTAGGGGCGGCACCGATGCAGAATATCGGTGCCTACGGCGTCGAGATAAAGGATGTCTTCGCCGGCCTTACCGCGCTGGATCGCCATAACGGCGAGTTGCGCGACTTCACTCTTGAAGAATGCGCCTTCGCCTACCGCGACAGCCTGTTCAAGCAGCAGGCGGGACGCTGGCTGATCCTGCGGGTACGTTTTGCCCTCAGTCGTGTCGCGCATCTGCACCTGGAATACGGCCCGGTCCGCCAGCGCCTGAGCGAGCAAGGCATCGATCAGGCAACGCCTTCGGACGTCAGCCGGGCGATTTGCAGCATTCGCAGCGAAAAGCTTCCGGACCCCGCCGTACTCGGCAACGCCGGCAGCTTCTTCAAGAACCCCTTGGTGCCGGTCAGTCATGTGGCGCATCTCAAGCTGCAATACCCTGACCTGGTGGCTTATCCACAGCCTGGAGGGCAGATGAAAATCGCGGCCGGCTGGCTGATCGAACGGGCCGGCTGGAAGGGCTTTCGCGAGGGCGACGCTGGCGTGCACAAGTTGCAGGCACTGGTGCTGGTCAATTATGGCAACGCCACGGGCCTGCAATTGCTGGACCTGGCTCAACGGATCCAGAAGGACATTGCCGAACGTTTCCAGGTCGATCTGGAGATGGAGCCGAATCGGTACTGA	MTLHVQAGVSLKPFNSFGVDVAARLFAEAHSDADVREALVYAAGHDLPLLLIGGGSNLLLTDDIDALVLRMASRGIRLLSDDGERVVIEAEAGEPWHPFVQHTLAQGWSGLENLSLIPGTVGAAPMQNIGAYGVEIKDVFAGLTALDRHNGELRDFTLEECAFAYRDSLFKQQAGRWLILRVRFALSRVAHLHLEYGPVRQRLSEQGIDQATPSDVSRAICSIRSEKLPDPAVLGNAGSFFKNPLVPVSHVAHLKLQYPDLVAYPQPGGQMKIAAGWLIERAGWKGFREGDAGVHKLQALVLVNYGNATGLQLLDLAQRIQKDIAERFQVDLEMEPNRY	PGPT0024115_1927	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024115-murB-K00075	NA	NA
D1-35_02047	471	iorA_1		Isoquinoline 1-oxidoreductase subunit alpha	ATGATTACCCTGAAACTCAATGGAACAGATCATCAACTGGATGTCACCGAGGACATGCCGCTGCTGTGGGCAATCCGCGATGTGGCCGGTTACAACGGCACCAAGTTCGGCTGCGGCATGGGCCTGTGCGGCGCGTGCACGATCCACATCGATGGCGCCCCGGCGCGCAGTTGCATCACGCCGATCGGCTCGGTGAAGGGCCAGAACATCAGCACCATCGACGCGCTTCACGTCGACCCGGTCGGCCAGGTGGTACAGAAGGCCTGGCTGGACACCGCCGTGGCCCAGTGTGGTTTTTGCCAGGGCGGGCAGATCATGTCCGCCACGGCATTGCTCAAGACCAACCCCAACCCGACGGATGAACAGATCGAAGAGGCCATGGTCGGCAACCTCTGCCGCTGCGGCACCTACAACCGGATCAAGACCGCGATCCGTCAGGCCTCCACTCACCTGAAGGAGGCCAAGGCATGA	MITLKLNGTDHQLDVTEDMPLLWAIRDVAGYNGTKFGCGMGLCGACTIHIDGAPARSCITPIGSVKGQNISTIDALHVDPVGQVVQKAWLDTAVAQCGFCQGGQIMSATALLKTNPNPTDEQIEEAMVGNLCRCGTYNRIKTAIRQASTHLKEAKA	PGPT0009812_697	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-QUINOLINE_RESISTANCE,PGPT0009812-iorA-K07302	NA	NA
D1-35_02048	2316	iorB_1		Isoquinoline 1-oxidoreductase subunit beta	ATGAGCCGCTTGCCGAATGATTTTGTGCTGAGCAACCTCAGTCGTCGGGGTTTCCTCAGGGGCGCCAGCGCCACGGGCGTGCTGGTGCTGGCCGCCAGTTGGGGGCTGCCGGAGGCCTTTGCCGAAGAGAAGAAATTCGGCGCCGAGGGCATGCCCCATGGTGCGGTCGACGACCCCAAGGTCTACGTGAGCATTGCCGCCGACGGCAGCGTCACGGTGATCTGCAACCGTTCGGAAATGGGCCAGGGGGTGCGCACCAGCCTGAGCATGGTGGTGGCCGACGAACTCGACGCCGACTGGGCGCTCGTCAAGGTCAGGCAGGCGCCGGCTGATGAGGCGCGCTTCGGCAACCAGGACACCGACGGCTCGCGCAGCATGCGTCACTGGTACGAGCCGATGCGCCGCTGCGGTGCCGCCGCCCGAACCATGCTTGAATCGGCCGCCGCTGCCCAGTGGAAAGTGCCGGTGGGCGAATGCCGTGCGCAACTGCATAAAGTGGTGCATCAGCCTTCGGGGCGCGAACTGGGTTATGGCGAGTTGGCCGCCGCCGCGGCGGCCTTGCCGGTTCCGGCCCGCGACAGCCTGCGCCTCAAGCAGCCGTCGGAGTTTCGTTACATTGGCAAGGAAGCGAGCCGTGCCATCGATGGCGCGGACATTGTCAACGGCCGAGCGGTATTCGGTGCCGATGTGCATTTCGACGGCATGCTTTACGCCGTCATGGCCCGCCCACGGGTCTACGGTGGCAAGGTCAAGAGCGTGGACAGCAGCGCGGCGTTGAAGGTGCCGGGCGTGATCAAGGTGGTGCAGATCGAAGGACGCCCTTTGCCCTCCGAATTCCAGCCGCTGGGCGGCGTGGCGGTGGTAGCGAAAAACACCTGGGCGGCGATCAAGGGCCGCGAAGCGTTGAAAATCGAATGGGACGATGGCCCGAACGCCGGCTATGACTCCATCGCCTACCGCAAGGAACTGCAAGCGGCTGCTCTGAAACCGGGCAAAGTCCTGCATAGCACTGGCGATCTTGACGACGCACTGGCCAAAGCCGATTCGACGTTGGAGGCTGCCTACTACCTGCCGCACCTGTCCCAGTCACCGATGGAGCCGATGGTCGCGGTCGCCCGCTTCAAGGACGGTCAATGCGAAGCCTGGGCACCGAGCCAGGCACCCCAGGTCACCCGCGAGCGCGTCGCCGAACGCCTGGGCATCCCTTTCGACAAAGTCACGATAAACATCACGTTGCTGGGCGGCGGTTTCGGACGCAAGTCCAAACCCGATTTCGTCGTCGAGGCGGCGGTGCTCGCCAAGGAATTCCCCAGCCAGGCGGTTCGGGTGCAATGGACCCGCGAGGACGATATTCATCACTCGTATTTCCATACCGTATCGGCCGAATACCTGAAGGCCGGCCTGAACAAGGACGGGCTGCCCTCCGCTTGGCTGCATCGCACCGTGGCCCCGACCATCACCGCGCTGTTCGCGCCGGGCATGACCCACGAAGCGCCGTTCGAAGTGGGCATGGGCGTGACCAACATGGCCTATGCCATTCCCAACCTGCGCCTGGAGAACCCCGAGGCGGTGGCCCATACCCGGGTTGGCTGGTACCGCTCGGTGTCGAACATTCCCCATGGTTTTGCGATCCAGAGCTTCATCGACGAACTGGCCCACAAGGCCGGCCAGGACCCGCTCAAGTACCATCTGAAGTTGCTGGGCCCGGACCGCAGGATCAACCCCAACAGCCAGAATGACAGCTGGAACTACGGCGAATCGCCCGAGCGTTATCCCATCGATACGGCGCGGATCCGCACCGTGCTGGAGACTGCCGCGAAGGCCGCTGGCTGGGGCCGTGAATTGCCCAAGGGCCGGGGCTTGGGGCTGGCGGTGCACTACAGCTTCGTCACCTATGTGGCCGCGGCAATTGAAGTCGAGGTCAAGGATGACGGCACGATAATCGTGCACAAGGCGGACATTGCCGTGGACTGTGGGCCGCAGATCAATCCCGAGCGTATCCGCTCGCAGTTCGAAGGCGCCTGCGTGATGGGCCTGGGCAACGCGATGGTCGGGGAGATCAGCTTCAAGGACGGCAAGGTCCAGCAGGACAATTTCCACATGTATGAAGTGGCGCGCATGTCCCTGGCACCCAAGGAAGTAGCCGTGCACCTGGTCACTCCGCCGGGCGAAGTGCCGCTGGGGGGCGTTGGTGAACCGGGCGTGCCGCCGATCGCGCCGGCATTGTGCAACGCAATCTTCGCCGCCACCGGCAAGCGCATCCGTGATCTGCCTGTGCGTTACCAGTTGCAAGGCTGGCAGCAGGCCAAAGCCTGA	MSRLPNDFVLSNLSRRGFLRGASATGVLVLAASWGLPEAFAEEKKFGAEGMPHGAVDDPKVYVSIAADGSVTVICNRSEMGQGVRTSLSMVVADELDADWALVKVRQAPADEARFGNQDTDGSRSMRHWYEPMRRCGAAARTMLESAAAAQWKVPVGECRAQLHKVVHQPSGRELGYGELAAAAAALPVPARDSLRLKQPSEFRYIGKEASRAIDGADIVNGRAVFGADVHFDGMLYAVMARPRVYGGKVKSVDSSAALKVPGVIKVVQIEGRPLPSEFQPLGGVAVVAKNTWAAIKGREALKIEWDDGPNAGYDSIAYRKELQAAALKPGKVLHSTGDLDDALAKADSTLEAAYYLPHLSQSPMEPMVAVARFKDGQCEAWAPSQAPQVTRERVAERLGIPFDKVTINITLLGGGFGRKSKPDFVVEAAVLAKEFPSQAVRVQWTREDDIHHSYFHTVSAEYLKAGLNKDGLPSAWLHRTVAPTITALFAPGMTHEAPFEVGMGVTNMAYAIPNLRLENPEAVAHTRVGWYRSVSNIPHGFAIQSFIDELAHKAGQDPLKYHLKLLGPDRRINPNSQNDSWNYGESPERYPIDTARIRTVLETAAKAAGWGRELPKGRGLGLAVHYSFVTYVAAAIEVEVKDDGTIIVHKADIAVDCGPQINPERIRSQFEGACVMGLGNAMVGEISFKDGKVQQDNFHMYEVARMSLAPKEVAVHLVTPPGEVPLGGVGEPGVPPIAPALCNAIFAATGKRIRDLPVRYQLQGWQQAKA	PGPT0009811_234	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-QUINOLINE_RESISTANCE,PGPT0009811-iorB-K07303	NA	NA
D1-35_02049	972	paoD	COG1975	Molybdenum cofactor insertion chaperone PaoD	ATGGACAGCGTTGATCTGAACGTGCTGCGCAGCGTGCTGGAATGGCGTCGCGCCGGGCAGCGGGTGGTGCTGTTCACCGTGGTCCAGACCTGGGGCACCGCGCCGAGACCTCCGGGGGCTATGCTGGCCCTGCGCGAAGACGGCGTGGTGATCGGTTCGGTATCGGGCGGTTGTGTCGAGGATGACCTGATCGCCCGGCTGCACGACGGCCGGATTCCGGCGGATGGCCCGCCCGTGCAGCTCATCACCTACGGTGTCACCCGTGAGGAAGCGGCGCGTTTCGGCTTGCCGTGCGGCGGCACCTTGCGCCTGACGGAGGAGCGAGTCGGCGATCCAGGCTGGGTCGCCGAGTTGCTGGCGCGGTGCGAGGCCCACGAAATAGTTGCCCGGGAATTGACCATCGCGACCGGCGCTGTGCTGCTGACACCAGCGAGCAAAAGCGATGCCTTGGTGTTCGATGGCGAAACTCTGCGGGCGATTTATGGCCCGCGCTGGCGGCTGTTGCTGATCGGCGCCGGACAGCTGTCGCGTTACGTGGCGGAAATGGCCCGGTTGCTGGATTTCGAGGTGTTGATCTGCGACCCGCGCAAGGAATTCGTCTACGGTTGGGAAGAGCAGCATGGCTGCTTTGTTCCGGGCATGCCCGACGAGGCGGTGCTGAGCATCGAGACCGATGAGCGCACCGCGATTGTTGCCCTAACCCATGACCCGCGCCTGGACGACATGGCCTTGCTCACCGCCCTGGATTCCAGGGCTTTTTATGTGGGCGCCCTCGGCTCACGGGTCAACAGCCAGAAGCGCCGGGACAACCTCGCTCAGCTAGGCTTGTCAGCACAAGCCATCGAGCGGCTGCACGGCCCTATCGGCCTGCATATCGGCAGTCACACCCCGGCGGAAATCGCCCTGTCGCTGCTGGCGGAAATCGTCGCGATCAAGAATGGCGTCGAATTGCGCCAAAAGAAACCGCTGTAG	MDSVDLNVLRSVLEWRRAGQRVVLFTVVQTWGTAPRPPGAMLALREDGVVIGSVSGGCVEDDLIARLHDGRIPADGPPVQLITYGVTREEAARFGLPCGGTLRLTEERVGDPGWVAELLARCEAHEIVARELTIATGAVLLTPASKSDALVFDGETLRAIYGPRWRLLLIGAGQLSRYVAEMARLLDFEVLICDPRKEFVYGWEEQHGCFVPGMPDEAVLSIETDERTAIVALTHDPRLDDMALLTALDSRAFYVGALGSRVNSQKRRDNLAQLGLSAQAIERLHGPIGLHIGSHTPAEIALSLLAEIVAIKNGVELRQKKPL	PGPT0007280_2321	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_BIOSYNTHESIS,PGPT0007280-xdhC|paod|ygeB|pucA-K07402	NA	NA
D1-35_02050	591	glmU_1		Bifunctional protein GlmU	ATGTCTGAGTCCATTGGCGTGATCATCCTCGCGGCTGGCTCGGGCCGCCGTTTCCGCCAGGTCGCCGGGCCTGACAAGGACAAGCTGCTGACTGATTGCATAGGACGTGACGGCGCGGTGCGCTCGGTAATCGAACACGTGCTGGTCAATCTGCCGGCCTCGCTGGACAAGCGCGTGCTGGTCACCCGCAATGACCGTCCGCAGGCCATTCGCATGGCCCAGGCCTACGGATGCGATTTTATCGAGCTGGATTCGCCTGGCCTGGGCGACAGCATTGCCGCCGGCGTCCGGGCCTGTCCGGAGGTGGCTGGCTGGCTGATCGTGCTGGGCGACATGCCGTTTGTCCTGCCGTCGAGCATCGAAAATGTGGCGGCAGGGATTCGCGAGGATGGCATCAGCGTGCCGGTTCTTGCCGGGGAGTATGGGCATCCGGTGGGATTTGGTCGTGGGTTTGGCCCGCAGTTGATGGCGTTGTCCGGTGACCGTGGTGCGAAGGTGTTATTCGCCGGGGCGCAAGTCGTCGAGGTGTCGGTGGACGATCCTGGTGTGACCTGGGACATTGATGTGCCGGAGGCATTGATCTTCAGATAG	MSESIGVIILAAGSGRRFRQVAGPDKDKLLTDCIGRDGAVRSVIEHVLVNLPASLDKRVLVTRNDRPQAIRMAQAYGCDFIELDSPGLGDSIAAGVRACPEVAGWLIVLGDMPFVLPSSIENVAAGIREDGISVPVLAGEYGHPVGFGRGFGPQLMALSGDRGAKVLFAGAQVVEVSVDDPGVTWDIDVPEALIFR				NA	NA	NA	NA	NA
D1-35_02051	3195	rne		Ribonuclease E	ATGAAAAGAATGCTGATTAACGCAACTCAACCCGAAGAGTTGCGTGTTGCACTGGTAGACGGCCAGCGCCTCTACGACCTGGATATCGAATCCGGTGCACGCGAGCAGAAGAAGGCCAACATCTATAAAGGCCGGATTACTCGCATCGAACCAAGCCTTGAGGCTGCCTTTGTCGATTTCGGCTCCGAGCGCCACGGCTTCCTGCCCCTCAAAGAAATCTCCCGCGAATACTTCAAGAAGGCCCCCGAAGGCCGCGTCAACATCAAGGACGTCCTGAGCGAAGGCCAGGAAGTCATCGTCCAGGTCGAAAAAGAAGAACGTGGCAACAAGGGCGCCGCCCTGACCACCTTCATCAGCCTCGCCGGCCGCTACCTGGTCCTGATGCCGAACAACCCACGTGCCGGCGGTATCTCCCGCCGCATCGAAGGCGAAGAGCGCAACGAACTGCGCGAAGCCCTGAACGGCCTGGTCGCACCCGCCGACATGGGCCTGATCGTGCGCACTGCCGGCCTGGGCCGCAGCAGCGAAGAAATGCAGTGGGACCTCGACTACCTGCTGCAACTCTGGACCGCGATCAAGGAAGCCTCGCTGGATCGTTCCGCACCTTTCCTGATCTACCAGGAAAGCAACGTGATCATCCGCGCCATCCGCGACTACCTGCGCCAGGACATCGGCGAAGTGCTGATCGACAGCGTCGAAGCCCAGGACGAAGCCCTGACCTTCATTCGCCAGGTGATGCCGCAGTACGCCAGCAAGATCAAGCTCTACGAAGACAGCGTTCCGCTGTTCAATCGTTTCCAGATCGAAAGCCAGATCGAGACCGCCTTCCAGCGCGTCGTCGAACTGCCGTCGGGCGGCTCCATCGTCATCGACCCGACCGAAGCCCTGGTGTCCATCGACATCAACTCGGCGCGCGCCACCAAAGGCAGCGACATCGAAGAAACCGCCCTGCAGACCAACCTTGAAGCCGCCGAAGAAATCGCCCGCCAGTTGCGCCTGCGCGACATCGGCGGCCTGATCGTCATCGACTTCATCGACATGACCCCGGCCAAGAACCAGCGCGCCGTGGAAGAAAAGGTCCGTGAATGCCTGGAAGCCGACCGTGCCCGCGTACAGGTCGGTCGTATCTCGCGCTTCGGCCTGCTGGAAATGTCCCGTCAGCGCCTGCGTCCATCCCTGGGCGAAAGCAGCGGCATCGTTTGCCCGCGCTGCAACGGCACCGGCATCATCCGTGACGTCGAGTCGTTGTCCCTGGCGATCCTTCGCCTGATCGAAGAAGAAGCCCTGAAGGACCGCACCGCTGAAGTTCGTGCCCAGGTGCCGATCCCGGTGGCCGCGTTCCTGCTCAACGAAAAACGCAACTCGATCACCAAGATCGAACTGCGCACCCGCGCCCGCATTGTGATCCTGCCGAACGACCACCTCGAGACGCCGCACTTCGAAGTGCAGCGCCTGCGTGATGACAGCCCCGAGGCCCACACCAACCAGTCCAGCTACGAAATCGCCGCGGCCGCCGCCGAAGTCGAAGACGTCCAGCCAGCTGCCGCCACCCGCACCCTGGTTCGCCAGGAGGCAGCGGTCAAGACCGCGCCGGCCCGTGCCAACGCTCCGGTCCCGACCGAAGCCGCCGCACCGGTTGCCGCCCCAGCCGCAGCCCCGGAACCTAGCCTGTTCAAAGGCTTGGTGAAGTCCCTGGTCAGCCTGTTCGCCACCAAGGAAGAGCCTGCCGCCCCGGCCGTTGTCGCCAAGCCTGCCGCTACCGAGCGTCCGGCCCGCAACGAAGAACGCCGCAACGGTCGCCAGCAGACCCGCAACCGCAACGGTCGTCGCGACGAAGAGCGCAAGCCGCGCGAAGAACGTGCTCCGCGTGAAGAGCGCGCACCCCGTGAGCCGCGTGAAGAGCGTCAACCACGCGAAGCCCGTGAGGAAGTTCCAGCGGTAGCCCGCGAAGAACGCGCACCACGTCCGCCTCGCGAAGAGCGCCAGCCACGCGCACCACGTGAAGATCGCAAGCCGCGTGGCGAGCGTGAAGAACGTGTTCGCGAATTGCGCGAGCCTCTGGACGCCGCACCGGCTGTTGCTGCGACGCCTGCGACTCCGGCAGCAGAACGCCCGGCTCGCCAGCCTCGCGAAGAGCGTGCACCGCGTCCGCCGCGTGAAGAGCGTCAGCCGCGCGCCGAGCAGGCAGCCGCCGAAGCCAGCGAAGAGGAAGTACTGAACACCGAAGAGCAGTTGCAGGAAGACGGTCAGGACAGCGCCGAGGGCGATCGTCCACGTCGTCGCTCCCGCGGCCAGCGTCGTCGCAGCAACCGTCGCGAGCGCCAACGCGATGCCAACGGCAACGTGATCGAAGGCTCGGAAGAGTCCGACGCCGGCGAGAACGCCGAAGCGCCTAGCGCTGCCGACCTGGCCGCCGGCCTGGCCGTCACCGCGGCTGTTGCCAGCAGCGCGATCAGCGCCCCAGCCGAGGCCCAGGCACACGAGCAGGCCGAACGGGCCACCGCTGCGGTGGAAGAGGCAGCGGTCGAAGCGCCAGTTGTCGAAGCGACCACTCCGGTAGAAATCACTGCTTCGCCAGAGGTGGAACTCGCACCGGTTCGTGAAGCCGAGCCGCAAGCCGAAGCCGCCGCCGAGCCTGCCCCGGTCGTCGAGCAGCCGGTGGTAGCCGCTGAAATGCCTGCCGAGGAAACCGCACCAGAGCCAGTACGCGAAGAGCAGACCGCTTTCAACTGGAACGCAGAGCCAGCCGCACCAGCGCCGGTTGCTGAACCTGAGCCGGTAGTAACCGTCGAACCGCAAGTGGTCGAGCCTGCGCCAATGGTCGAAGCGCCTGTGGTTGCCGAAGCAGTGGTTGCCGAAGCCCCAGCCCCGGTTGAAGCGCCTGCACCGGTCAGTGCCCTGACCCCTAACGGCCGCGCCCCGAACGATCCACGCGAAGTACGTCGTCGCAAGCGTGAAGCCGAGCGTCTGCAGAAAGAAGCTGAACTGGCCGCCGCAGCTGCCACTCAAGCGCCTGCCGCCGAACCGGCTCCGGTCGTGGAAGAAGTCGCCGAGGCAGCCCTTGCCCCGGTAGCTGAAGCCCCGACTGAATCGGCCCCGGTGATCGACGAACCTCAGCACGCCGCTGAAGAAGAAGTCGCTCCGCGTCACACTGAAGCCCTGGAAAAAGAGCACGAGCCTAAACCTCACGCCTGA	MKRMLINATQPEELRVALVDGQRLYDLDIESGAREQKKANIYKGRITRIEPSLEAAFVDFGSERHGFLPLKEISREYFKKAPEGRVNIKDVLSEGQEVIVQVEKEERGNKGAALTTFISLAGRYLVLMPNNPRAGGISRRIEGEERNELREALNGLVAPADMGLIVRTAGLGRSSEEMQWDLDYLLQLWTAIKEASLDRSAPFLIYQESNVIIRAIRDYLRQDIGEVLIDSVEAQDEALTFIRQVMPQYASKIKLYEDSVPLFNRFQIESQIETAFQRVVELPSGGSIVIDPTEALVSIDINSARATKGSDIEETALQTNLEAAEEIARQLRLRDIGGLIVIDFIDMTPAKNQRAVEEKVRECLEADRARVQVGRISRFGLLEMSRQRLRPSLGESSGIVCPRCNGTGIIRDVESLSLAILRLIEEEALKDRTAEVRAQVPIPVAAFLLNEKRNSITKIELRTRARIVILPNDHLETPHFEVQRLRDDSPEAHTNQSSYEIAAAAAEVEDVQPAAATRTLVRQEAAVKTAPARANAPVPTEAAAPVAAPAAAPEPSLFKGLVKSLVSLFATKEEPAAPAVVAKPAATERPARNEERRNGRQQTRNRNGRRDEERKPREERAPREERAPREPREERQPREAREEVPAVAREERAPRPPREERQPRAPREDRKPRGEREERVRELREPLDAAPAVAATPATPAAERPARQPREERAPRPPREERQPRAEQAAAEASEEEVLNTEEQLQEDGQDSAEGDRPRRRSRGQRRRSNRRERQRDANGNVIEGSEESDAGENAEAPSAADLAAGLAVTAAVASSAISAPAEAQAHEQAERATAAVEEAAVEAPVVEATTPVEITASPEVELAPVREAEPQAEAAAEPAPVVEQPVVAAEMPAEETAPEPVREEQTAFNWNAEPAAPAPVAEPEPVVTVEPQVVEPAPMVEAPVVAEAVVAEAPAPVEAPAPVSALTPNGRAPNDPREVRRRKREAERLQKEAELAAAAATQAPAAEPAPVVEEVAEAALAPVAEAPTESAPVIDEPQHAAEEEVAPRHTEALEKEHEPKPHA				NA	NA	NA	NA	NA
D1-35_02053	957	rluC	COG0564	Ribosomal large subunit pseudouridine synthase C	ATGACAACTACTGCCCCTTCGACCCCAGGCGTTCAACTGCTTGAGGTCTCGCCGGAATATGCCGGCCAACGAATTGATAATTTCCTGCTTGCCCGGCTCAAAGGCGTGCCCAAGACCTTGATCTATCGCATTTTGCGCAAAGGCGAAGTGCGGGTGAACAAAGGTCGGATCAAGCCCGAATACAAGCTCCAGGCGGGCGACGTCGTGCGCGTACCGCCGGTTCGCGTGCCCGAGCGCGATGAGCCGGTGCCACTGGCGCAAGGTTTGTTGCAACGCCTGGAAGCCGCCATCGTCTTCGAAGACAAGGCGCTGATCGTGGTCAACAAGCCCGCGGGCATCGCGGTCCACGGCGGCAGCGGCCTGAATTTCGGCGTGATCGAAGCCTTCCGTCAGCTGCGTCCCGATGCCAAGGAGCTGGAGCTGGTCCATCGTCTGGATCGGGACACCTCCGGGCTGTTGATGATTGCCAAGAAGCGCAGCATGTTGCGCCATCTGCACGAACAGTTGCGCGGCGATGGCGTCGACAAGCGCTACATGGCGCTGGTGCGCGGTCGTTGGGAAACATCCGTCAAGCAGGTCCGCGCGCCGCTGCTCAAGAGCAACCTGCGCTCCGGCGAGCGCATGGTGGAAGTCAACGAAGAAGGCAAGGAAGCGCTGACCGTGTTCAAGGTGCTGCGCCGTTTCGGCGACTTCGCCACCATGGTCGAGGCCAAGCCGGTCACTGGGCGGACCCACCAGATCCGCGTCCACACCCTGCATGCCGGGCATTGCATTGCCGGTGACAGCAAGTACGGGGACGATGACTTCAGCAAGGAAATCCGTGACCTGGGCGGCAAGCGCCTGTTCCTTCATGCCTACATGCTGACCGTGCCGTTGCCGGACGGCGGCGAGCTGAAATTGCAGGCCCCCGTGGATGACATGTGGGCCAAGACCGTGGAGCGGTTGAGTGCATCCTGA	MTTTAPSTPGVQLLEVSPEYAGQRIDNFLLARLKGVPKTLIYRILRKGEVRVNKGRIKPEYKLQAGDVVRVPPVRVPERDEPVPLAQGLLQRLEAAIVFEDKALIVVNKPAGIAVHGGSGLNFGVIEAFRQLRPDAKELELVHRLDRDTSGLLMIAKKRSMLRHLHEQLRGDGVDKRYMALVRGRWETSVKQVRAPLLKSNLRSGERMVEVNEEGKEALTVFKVLRRFGDFATMVEAKPVTGRTHQIRVHTLHAGHCIAGDSKYGDDDFSKEIRDLGGKRLFLHAYMLTVPLPDGGELKLQAPVDDMWAKTVERLSAS				NA	NA	NA	NA	NA
D1-35_02054	663	ppaX	COG0546	Pyrophosphatase PpaX	GTGCATCCTGACTACAAGCTGCTGATATTTGATTGGGACGGCACTCTGGCCAACTCCATCGGTCGGATTGTCGAGTCGATGCACGTCGCGTCGGACCGAACGGGTTTTGCTCGGCGGGATGATTTTGCGGTGAAGGGCATTATCGGTCTTGGGCTGCCGGAAGCGATTCGCAGCCTGTACCCGGAAATCGCTGATGATGAGTTGAGCGTTTTTCGCCAGCATTATGCCGACCACTACATCGCGCTGGAGGCCGAGCCTTCGCCGCTGTTCGACGGCGTGGCCGACACGCTCCAGGCCCTGCGGGAAGAGGGCTATCACCTGGCTGTCGCGACCGGCAAGGCTCGACGCGGGCTGGATCGGGTGCTGAAGTCCCATGGCTGGGACGATTATTTCGACATCACCCGCGCCGCCGACGAAACCGCCAGCAAGCCGCATCCGCTGATGCTTGAGCAAATCCTGGCCCACTGTAATGTGCGGCCCGAGCAGGCGCTGATGGTCGGGGATTCGTCGTTCGACCTGCAGATGGCGCGTAATGCCGGCATGGGCTCTGTCGCTGTCAGTTATGGCGCTCAGACGATCGAGGCGCTTCGGGCGTTTGAACCGTGCCTGGCGATTGACCATTTTCCCGAATTGCACGCGTGGCTGAGCCAGCGTGCCGGTTGA	MHPDYKLLIFDWDGTLANSIGRIVESMHVASDRTGFARRDDFAVKGIIGLGLPEAIRSLYPEIADDELSVFRQHYADHYIALEAEPSPLFDGVADTLQALREEGYHLAVATGKARRGLDRVLKSHGWDDYFDITRAADETASKPHPLMLEQILAHCNVRPEQALMVGDSSFDLQMARNAGMGSVAVSYGAQTIEALRAFEPCLAIDHFPELHAWLSQRAG	PGPT0001730_4600	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
D1-35_02055	990			hypothetical protein	ATGACCGATGAATGGAAAGCACCGGCCAAGGCAGATGCCGAGAGCGGTGATGGAAAAAGCTGGAAGCTGTTGGAAAAGACTCTGTTGGCCGGTGTGCAAGAGCAGCGTCGGTCGCGTCGCTGGGGGATCTTCTTCAAGCTGCTGACCTTTGTTTATCTTTTCGTTGCGCTGCTGCTGTTTACGCCGTTGATGAGTATCGAAAAGGGTGCGGTCAGTGGTTCGGCGTATACCGCGTTGATCGACGTTGAAGGAGTGATCGCCGACAAGGAGCCAGCCAGTGCGGATAACATCGTCGGCAGTCTGCGGGCTGCCTTCGAAGATCCGAAGGTCAAGGGCGTGGTGCTGCGCATCAACAGCCCGGGCGGCAGTCCGGTGCAGTCGGGTTACGTCTACGACGAGATCGTCCGGTTGCGCGCGCTTCACCCGAACACCAAGGTCTATGCAGTCATCGCCGATCTCGGCGCGTCGGGTGCCTATTACATTGCCAGCGCTGCGGACCAGATCTATGCCGACAAGGCCAGCCTGGTCGGCTCCATTGGCGTGACGGCGGCCGGTTATGGTTTTGTCGGGACCATGGAGAAGCTCGGTGTGGAGCGGCGGGTCTATACCTCTGGCGAGCACAAGTCGTTCCTTGATCCGTTCCAGCCGCAAAAGCCTGAAGAAACCGCGTTCTGGCAGGGCGTACTCGACACGACTCACAAGCAATTCATTGCCAGCGTCAAGAAAGGCCGCGGCGAGCGCTTGAAGGACAAGGAACATCCGGAATTGTTTTCCGGGTTGGTCTGGTCCGGGGAGCAGGCTTTGCCGCTGGGCCTGATCGATGGCCTGGGCAGCGCCAGTTCGGTGGCTCGGGATGTGATCGGTCAGAAGGACCTGGTGGACTTCACCATCGAAGAATCGCCGTTTGACCGCTTCTCGAAGAAGCTGGGCGCAAGCATCGCCGAGCATCTGGCGATGTGGATGGGCTTCCAGGGCCCGGCGTTGCGCTAG	MTDEWKAPAKADAESGDGKSWKLLEKTLLAGVQEQRRSRRWGIFFKLLTFVYLFVALLLFTPLMSIEKGAVSGSAYTALIDVEGVIADKEPASADNIVGSLRAAFEDPKVKGVVLRINSPGGSPVQSGYVYDEIVRLRALHPNTKVYAVIADLGASGAYYIASAADQIYADKASLVGSIGVTAAGYGFVGTMEKLGVERRVYTSGEHKSFLDPFQPQKPEETAFWQGVLDTTHKQFIASVKKGRGERLKDKEHPELFSGLVWSGEQALPLGLIDGLGSASSVARDVIGQKDLVDFTIEESPFDRFSKKLGASIAEHLAMWMGFQGPALR	PGPT0030320_2680	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5a_AUTOTRANSPORTER_SECRETION,PGPT0030320-pspA-K04773	NA	NA
D1-35_02056	579	yceF	COG0424	7-methyl-GTP pyrophosphatase	ATGCTGCCTTTATTACTTGCCTCAAGCTCGGTCTACCGTCGGGAACTGCTTGCCCGCCTGGGGCTGCCGTTCGTCTGCGACTCACCGGACATCGACGAAAGCCATCGCGCCGGCGAGGCCGCGCTCGAACTGGTGAAACGCCTGGCCCGGGAAAAAACCTTCGCCCTGGCGGACCGTTACCCGGCACACCTGATCATTGGCTCGGACCAGGTCGCCGTGATCGGAGAGCGCATCCTGGGCAAGCCCCACACCTTCGAGAACGCCCGCGAGCAACTGCTGGCCGCCAGCGGGACCAAGGTAACCTTCCTGACCGGCCTGGCACTACTCAACAGCCAGACCGGCGCCTGCCAGGTCGATTGCGTTCCGTTTACCGTAACCATGCGGACATTGGATCAGGCTCGCGTGGAGCGCTATCTGCGCACCGAGCAACCGTACGACTGCGCCGGCAGCTTCAAGGCCGAAGGCCTGGGCGTGAGCCTGTTCCAGCGCACCGAAGGGCCGGACGCCACCAGCCTGGTCGGCCTGCCGCTGATTCGTCTTGTGGACATGTTGCTAGTTGAGGGTGTGGAGGTTCCCTGA	MLPLLLASSSVYRRELLARLGLPFVCDSPDIDESHRAGEAALELVKRLAREKTFALADRYPAHLIIGSDQVAVIGERILGKPHTFENAREQLLAASGTKVTFLTGLALLNSQTGACQVDCVPFTVTMRTLDQARVERYLRTEQPYDCAGSFKAEGLGVSLFQRTEGPDATSLVGLPLIRLVDMLLVEGVEVP				NA	NA	NA	NA	NA
D1-35_02057	528	yceD	COG1399	Large ribosomal RNA subunit accumulation protein YceD	ATGTTGAATGACCCGATTCCACCTCACGTTGACCCGCGCAAATTGGCTGACCGTGGCACCACCCTTCAAGGTGAATTGCTGCTGGCCGATTTGAAGAGACTCTGCGACCCGCTTTCCGACGATGTCGGTACGGTCCAGGCCAAATTCGTTTTTGAACGAGATGAACGTAAATCTGTGGTGATCCACAGCTTTATCGACACTGAAGTCAAAATGGTTTGCCAGCGTTGTCTTGAGCTGGTCACCCTGCCGATCCACAGCGAATGCAGTTACGCCGTGGTGAAGGAGGGTGCGAATACCCAGTCGTTGCCGAAAGGTTATGACGTGCTGGAACTGGGCGAAGATCCATTGGATCTGCAGTCACTGATCGAGGAGGAGCTTCTGCTCGCCTTGCCCATTGTGCCTGCTCATCATCCGGAAGAATGCCAGCAGCCGGCGGGAGCAGATGAGCCCGAACCGAGCGAGGACGAGGTAACGCGGTCCAACCCGTTCAGTGTATTGGCGCAGTTAAAGCGTGACCCAAACGTTTAG	MLNDPIPPHVDPRKLADRGTTLQGELLLADLKRLCDPLSDDVGTVQAKFVFERDERKSVVIHSFIDTEVKMVCQRCLELVTLPIHSECSYAVVKEGANTQSLPKGYDVLELGEDPLDLQSLIEEELLLALPIVPAHHPEECQQPAGADEPEPSEDEVTRSNPFSVLAQLKRDPNV				NA	NA	NA	NA	NA
D1-35_02058	183	rpmF	COG0333	50S ribosomal protein L32	ATGGCTGTTCAGCAGAACAAAAAATCCCGCTCTGCCCGTGACATGCGCCGTTCGCACGACGCTCTCGAGGCTAGCACCCTGTCTGTAGAAAAAACCACCGGTGAAGTTCACCTGCGTCACCACGTATCGCCAGAAGGCGTATACCGTGGCCGTAAAGTGATCGACAAGGGCGCCGACGAGTAA	MAVQQNKKSRSARDMRRSHDALEASTLSVEKTTGEVHLRHHVSPEGVYRGRKVIDKGADE				NA	NA	NA	NA	NA
D1-35_02059	981	plsX	COG0416	Phosphate acyltransferase	ATGGGCGGGGACTTCGGTCCCCGCAGCATTGTCCAGGCCAGCCTCGCTTGCCTGAATGCTACGCCCTCGCTGCACCTGACCCTCGTCGGTCAACCCTCCCTCCTGGAAGAATTGCTCAGTGGCTATCCCGCTGCGGATCGCGCGCGCCTGACGATTACCCCGGCGTCCGAAGTCATCGCCATGGACGAGAAGCCTGCCCAGGCTCTGCGCGGCAAGCCCGACGCCTCGATGCGCGTGGCATTGGAGCTGTTGCGCGACGACAAGGTCCAGGCGTGTGTCAGTGCGGGTAATACCGGGGCGTTGATGGCGCTGTCCCGCTACGTGCTGAAAACCCTGCCGGGGATCGATCGGCCCGCCATGGTCGCGGCGATCCCGACCCAGCGCGGTTTCTGCCAGCTATTGGACCTGGGCGCCAATGTCGACTGCAGCGCCGAGCATTTGCTGCAGTTCGCGGTGATGGGCTCGGTCGCGGCTGAAACCCTCGGCATCGCTCGCCCTCGCGTGGCACTGCTGAATATCGGCACCGAAGACATCAAGGGTAATCAGCAGGTCAAGCTCGCGGCCACATTGTTGCAAAGCGCCCGGGGCATCAATTACATCGGTTTTGTCGAGGGTGACGGGCTATATCGCGGCGAGGCGGACGTGGTGGTATGCGACGGTTTTGTCGGCAATATCCTGCTCAAGTCCAGCGAAGGCCTGGCGACCATGATTGGCGGCCGCATCGAGGCCCTGTTCAAGCAGAGCCTGGCTTCCAGGGCGGTGGGTGCGCTGGCATTGCCGCTGATGCGTCGTCTGCAGGCGGATCTGGCCCCGGCGCGGCACAATGGTGCGAGTTTTCTCGGGCTGCAGGGCATCGTGATCAAGAGTCATGGTTCGGCTGGGGTGCAGGGCTTTCAGAGTGCAATCAACCGGGCGGTGATTGAAATCGAGGAAAACCTGCCTGAGCGCCTGCATGGCCGTCTTGAAGATTTGTTAACTTAG	MGGDFGPRSIVQASLACLNATPSLHLTLVGQPSLLEELLSGYPAADRARLTITPASEVIAMDEKPAQALRGKPDASMRVALELLRDDKVQACVSAGNTGALMALSRYVLKTLPGIDRPAMVAAIPTQRGFCQLLDLGANVDCSAEHLLQFAVMGSVAAETLGIARPRVALLNIGTEDIKGNQQVKLAATLLQSARGINYIGFVEGDGLYRGEADVVVCDGFVGNILLKSSEGLATMIGGRIEALFKQSLASRAVGALALPLMRRLQADLAPARHNGASFLGLQGIVIKSHGSAGVQGFQSAINRAVIEIEENLPERLHGRLEDLLT	PGPT0024410_2289	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024410-plsX-K03621	NA	NA
D1-35_02060	939	fabD_1	COG0331	Malonyl CoA-acyl carrier protein transacylase	ATGTCTGCTTCCCTCGCATTCGTCTTTCCAGGACAGGGCTCGCAGTCCCTCGGCATGCTGGCCGAGCTGGGCGCGCAATACCCGTTGATCCTGGAAACATTCAAAGAAGCATCCGATGCACTCGGCTACGACTTGTGGGCACTGACCCAGCAAGGGCCGGAAGAGCAACTTAACCAGACCGACAAGACCCAACCCGCGATCCTGACCGCCTCCATTGCGCTGTGGCGCTTGTGGCTGGCTGAAGGCGGCGCGCGTCCGGCGTTTGTCGCCGGTCACAGCCTGGGTGAGTACAGCGCCCTGGTGGCGGCTGGCAGCCTGAGCCTTGGCGACGCGGTCAAGCTGGTGGAACGGCGTGGCCAGTTGATGCAGGAAGCGGTTCCGGCCGGGCAGGGTGGCATGGCCGCTATCCTCGGCCTGGAAGACGCCGATGTGTTGGCAGCCTGTGCCGAAGCGGCGCAAGGCGATGTGGTCAGCGCGGTGAATTTCAATTCGCCGGGCCAGGTGGTCATTGCCGGCGCCAAGGCGGCTGTCGAGCGCGCGATCGAAGGTTGCAAGGCCCGTGGCGCCAAGCGCGCGATGCCCTTGCCGGTCAGCGTTCCGTCGCACTGCGAGCTGATGCGCCCGGCCGCCGAGCGGTTTGCCGAATCCATCGCCGCCATCGACTGGCAGGCGCCGCAGATTCCCGTGGTTCAGAATGTCAGCGCCAACGTGGCGCCGGATCTCGAGACCCTCAAGCGCGATCTGCTGGAACAACTCTACAAGCCGGTTCGCTGGGTCGAATCGGTACAGACCCTGGCAGCCAAGGGCGCGACCGAACTGGTCGAGTGCGGCCCTGGCAAGGTGCTGGCAGGTCTGAACAAACGCTGCGCCGAAGGCGTGTCGACTTCCAATCTCAACACCCCAGACGCTTTCGCTGCCGCTCGTGCAGCGCAAGCCTGA	MSASLAFVFPGQGSQSLGMLAELGAQYPLILETFKEASDALGYDLWALTQQGPEEQLNQTDKTQPAILTASIALWRLWLAEGGARPAFVAGHSLGEYSALVAAGSLSLGDAVKLVERRGQLMQEAVPAGQGGMAAILGLEDADVLAACAEAAQGDVVSAVNFNSPGQVVIAGAKAAVERAIEGCKARGAKRAMPLPVSVPSHCELMRPAAERFAESIAAIDWQAPQIPVVQNVSANVAPDLETLKRDLLEQLYKPVRWVESVQTLAAKGATELVECGPGKVLAGLNKRCAEGVSTSNLNTPDAFAAARAAQA	PGPT0008350_2395	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
D1-35_02061	744	fabG_3		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAGTCTGCAAGGTAAAGTTGCACTGGTGACCGGTGCAAGCCGCGGCATCGGCCAGGCTATCGCACTGGAATTGGGTCGCCAAGGCGCCATTGTCATTGGCACCGCGACTTCCGCTTCAGGCGCCGAGCGTATCGCCGCGACCTTGAAGGAAAACGGCATCCAAGGCACCGGCCTTGAGCTGAATGTCACCAGCGACGAATCTGTTGCGGCGGTTCTGGCAAGCATCCAGGAGCAGTTCGGCGCTCCGGCGATCCTGGTCAATAATGCCGGCATCACTCGCGATAACCTGATGATGCGCATGAAAGATGACGAATGGTTCGATGTGGTCGATACCAACTTGAACAGCCTGTATCGGCTGTCCAAGGGCGTTCTGCGTGGCATGACCAAGGCCCGTTGGGGCCGAATTATCAGTATCGGCTCGGTTGTGGGTGCCATGGGCAACGCTGGCCAAGTAAACTATGCTGCGGCTAAAGCCGGCCTGGAAGGTTTCAGCCGTGCGCTGGCACGGGAAGTCGGTTCGCGCTCGATTACGGTAAACTCGGTTGCACCGGGTTTCATCGACACCGACATGACCCGCGAACTGCCGGAAGCACAGCGTGAAGCTTTGTTGACACAGATTCCGCTGGGCCGTCTGGGGCAAGCTCAAGAAATCGCGTCCGTGGTCGCTTTTCTTGCTTCGGACGGTGCGGCATACGTGACTGGGGCTACAATCCCGGTAAACGGCGGGATGTACATGAGTTAA	MSLQGKVALVTGASRGIGQAIALELGRQGAIVIGTATSASGAERIAATLKENGIQGTGLELNVTSDESVAAVLASIQEQFGAPAILVNNAGITRDNLMMRMKDDEWFDVVDTNLNSLYRLSKGVLRGMTKARWGRIISIGSVVGAMGNAGQVNYAAAKAGLEGFSRALAREVGSRSITVNSVAPGFIDTDMTRELPEAQREALLTQIPLGRLGQAQEIASVVAFLASDGAAYVTGATIPVNGGMYMS	PGPT0003180_14371	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
D1-35_02062	237	acpP_1	COG0236	Acyl carrier protein	ATGAGCACCATCGAAGAGCGCGTCAAGAAAATCGTTGCCGAGCAACTGGGCGTTAAAGAAGAAGAAGTTGTGAACACCGCTTCCTTCGTCGAAGACCTGGGTGCCGACTCCCTTGACACCGTTGAGCTGGTGATGGCTCTGGAAGAGGAATTCGAGACCGAGATTCCTGACGAAGAAGCTGAAAAGATCACTACTGTACAAGCTGCTATCGACTACGTTACCAGCCACCAGGCGTAA	MSTIEERVKKIVAEQLGVKEEEVVNTASFVEDLGADSLDTVELVMALEEEFETEIPDEEAEKITTVQAAIDYVTSHQA	PGPT0011375_6292	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
D1-35_02063	1245	fabF_2	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	GTGTCGCGTAGACGCGTCGTAGTCACCGGTATGGGTATGTTGTCGCCACTGGGCACGGATGTGCCGAGCAGCTGGCAGGGCATTCTGGCTGGCCGTAGTGGCATTGGTCTGATCGAACACACCGACCTTTCTGCCTATTCCACCCGTTTTGGCGGCTCGGTAAAGGGTTTCAATGTCGAGGAATACCTGTCGGTCAAGGAAGCCCGCAAGCTTGACCTGTTCATTCAATACGGCCTGGCAGCCGGTTTCCAGGCGGTGCGCAATGCCGGGCTGGAAGTCACCGACGCCAACCGTGAGCGCATCGGCGTGGCCATGGGTTCGGGTATTGGCGGCTTGACCAATATCGAAGAAACCAGCCGTACGCTGCATGATTCCGGGCCGCGGCGTATTTCGCCGTTTTTCGTGCCGGGCTCGATCATCAATATGATTTCCGGTTTCCTGTCCATCCACCTTGGTGCACAGGGACCCAACTACGCCATCGCTACTGCCTGCACCACGGGCACGCACTGCATCGGCATGGCCGCGCGCAACATCATGTACGACGAAGCTGACGTGATGATTGCCGGTGGCGCCGAAATGGCCGCCTGCGGCCTCGGCATGGGCGGTTTCGGCGCGTCCCGTGCGCTGTCGACCCGCAACGATGAGCCGGACCGGGCTAGCCGCCCGTGGGACAAGGGCCGCGATGGTTTCGTACTGTCGGACGGTGCCGGTGCGCTGGTGCTCGAAGAACTTGAGCACGCCAAGGCTCGTGGCGCGACCATCTATGCCGAACTGATCGGCTTCGGTACCAGCGGCGATGCGTTCCACATGACGTCGCCACCGGCCGATGGCGCCGGTGCGGCCCGTTGCATCACCAATGCCTTGCGCGACGCCAAGCTCAATCCAGGGCAGGTGCAGTACATCAACGCCCATGGTACGTCGACCCCGGCCGGCGATCTGGCCGAAGCCCAGGCCATCAAGACGGTGTTTGGCGACCACGCCTACAAACTGGCTGTCAGCTCGACCAAATCGATGACCGGCCACCTGTTGGGCGCGGCAGGTGCGGTGGAAGCGATCTTCAGCGTACTGGCGATCAACAGCCAGGTGGCGCCGCCGACCATCAACCTTGATGAGCCGGACGAGGGCTGCGACCTCGACTTCGTGCCACATACCGCCCGCAGCATGGACATCGACGTCGTGTTGTCCAATTCCTTCGGCTTCGGCGGGACCAACGGCTCGCTGGTGTTTCGCCGGTTCGCCGGTTGA	MSRRRVVVTGMGMLSPLGTDVPSSWQGILAGRSGIGLIEHTDLSAYSTRFGGSVKGFNVEEYLSVKEARKLDLFIQYGLAAGFQAVRNAGLEVTDANRERIGVAMGSGIGGLTNIEETSRTLHDSGPRRISPFFVPGSIINMISGFLSIHLGAQGPNYAIATACTTGTHCIGMAARNIMYDEADVMIAGGAEMAACGLGMGGFGASRALSTRNDEPDRASRPWDKGRDGFVLSDGAGALVLEELEHAKARGATIYAELIGFGTSGDAFHMTSPPADGAGAARCITNALRDAKLNPGQVQYINAHGTSTPAGDLAEAQAIKTVFGDHAYKLAVSSTKSMTGHLLGAAGAVEAIFSVLAINSQVAPPTINLDEPDEGCDLDFVPHTARSMDIDVVLSNSFGFGGTNGSLVFRRFAG	PGPT0008360_4554	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
D1-35_02064	816	pabC	COG0115	Aminodeoxychorismate lyase	ATGGAAAGCTGGGTCGACGGTCAGCCGGCTGACGCTCTGTCGCTGAAAGATCGCGGCCTGGCCTACGGTGATGGGTTGTTCGAAACCATCGCCGTGCGGGACGGTAAGCTCGTTCTGCTTGAGGGGCATCTGCAACGCCTCGCGTTGGGATGCCGACGGTTGGCAATCAGTGCCGATTGGGCGGTATTGAATGCAGAACTGCAAGCCTATGCGCAGCAGCTCGGCGATGGCGTTCTGAAACTGATCGTGACCCGTGGCGACAGTCTGCGGGGCTATGCCGCCAATCCTTCAGCCCAGGCCCGCCGCATCTTGCAGGGCAGCCCGCCGGCGGCCTATCCACTGGCCCATGCCGAGCAAGGCGTTCAGCTGTTTCCTTGCACTACACGCCTGTCCGAGCAACCGTTGCTCGCCGGCCTCAAACACCTCAATCGCCTTGAACAAGTGCTGGCCCGCGCCGAGTGGAGCGACACCGAGCATGCCGAAGGCTTGATGCTGGATATGTCCGGGCGGGTGATCGAAGGCGTGTTCAGTAATCTGTTCACGGTGCACGACGGAGCGCTGATCACGGCGGATCTGAGCCGTTGTGGTGTCGCCGGGGTGATGCGTGGGCAATTATTGTTTCAAGCCGAGTCTGATGGCATCGCTACTCAGGTCACCAATATCCGCCTCGAACAGCTGCACCAGGCCGACGAGGTCTTTGTCTGCAACAGCGTTTATGGCGTGTGGCCGGTACGCGGATGCGGTTCGGCGCGCTGGTCGGTTGGCCCGCTCACCCGTAAACTGCAGACCCTTGCCCGTGCGCTATTGGATGCTTGA	MESWVDGQPADALSLKDRGLAYGDGLFETIAVRDGKLVLLEGHLQRLALGCRRLAISADWAVLNAELQAYAQQLGDGVLKLIVTRGDSLRGYAANPSAQARRILQGSPPAAYPLAHAEQGVQLFPCTTRLSEQPLLAGLKHLNRLEQVLARAEWSDTEHAEGLMLDMSGRVIEGVFSNLFTVHDGALITADLSRCGVAGVMRGQLLFQAESDGIATQVTNIRLEQLHQADEVFVCNSVYGVWPVRGCGSARWSVGPLTRKLQTLARALLDA	PGPT0008020_1166	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008020-pabC-K02619	NA	NA
D1-35_02065	1173	mltG	COG1559	Endolytic murein transglycosylase	GTGAGACGTAAATTCTTGCTGCTGCTGGAAGTCGGACTGGTTCTGGCAGGGCTGTTGCTGGGCGCTTCGGCGTGGAAAATTCACTCGGCGCTGCAGCAGCCGTTGAACATCACCCAGGAAGAACTGCTTGACGTACCCAGCGGCACCACGCCGACCGGGACGCTCAATCGCCTGGAAGCCGATGGCCTGATCAAGGATGCATTCTGGCTGCGGGTGTACTGGCGCTTCAACCTCGCCGGCCAACCCCTGCACTCCGGCGAATACCGGATGGTCCCAGGGATGACGATGGACGGCCTGATCGGTGTCTGGAAGCGTGGTGACGTGGTGCAATACAGCGTCACGCTGGTGGAGGGCTGGAATTTCCGTCAGGTTCGCGCAGCGCTGGCCAAGGATGAGAAGCTCCAGCAGACCCTCGCCGGCCTGAGCGACAGTCAGGTGATGGACCGTCTTGGTCATTCCGGGATATTTCCCGAAGGCCGGTTCTTCCCGGATACCTATCGGTTCGTGCGCGGTACGTCGGATACCGATCTGCTGAAGAAGGCCTACGATCGGCTGGAAGAGGTGCTCGCCAAGGAGTGGGCGCAACGAGCCGCCGACGTGCCTTACACCCAGCCCTACCAAGCATTGATCATGGCTTCCCTGATCGAGAAGGAGACCGGCGTGCCCCAGGAGCGTGGCCAGATCGCCGGGGTGTTCGTGCGCCGCTTGCGCCTGGGCATGTTGTTGCAGACCGATCCCACCGTAATCTATGGCCTGGGGGAGCGCTACACCGGCAAGCTCACCCGTGCCCATCTGAAAGAACCGAATCCCTACAACACCTATCTGGTTCCAGGGCTGCCGCCGACGCCGATCGCGATGGTCGGGCGCGAGGCGATTCATGCGGCGTTGAACCCGGCGGACGGCAACAGCCTTTATTTCGTGGCCCGGGGCGATGGCAGCCATGTGTTTTCCGATGACCTGGAAACGCACAATAACGCGGTGCGCGAATACCAACTCAAGCGCCGCGCCGATTATCGTTCGAGCCCGGCCCCGGTTGCGCCGGACGATGTGGCGCCGATTCCCGCCGCTTCACCTGATACGGCGCCTGAAGCCGTGCCCCAGGTGCCGCCTCAGGAGCCCGCGCCGCAACCTGCCCCCGAACCGAATGCCAGCGAGCCGCCGAGCCCGCAATGA	MRRKFLLLLEVGLVLAGLLLGASAWKIHSALQQPLNITQEELLDVPSGTTPTGTLNRLEADGLIKDAFWLRVYWRFNLAGQPLHSGEYRMVPGMTMDGLIGVWKRGDVVQYSVTLVEGWNFRQVRAALAKDEKLQQTLAGLSDSQVMDRLGHSGIFPEGRFFPDTYRFVRGTSDTDLLKKAYDRLEEVLAKEWAQRAADVPYTQPYQALIMASLIEKETGVPQERGQIAGVFVRRLRLGMLLQTDPTVIYGLGERYTGKLTRAHLKEPNPYNTYLVPGLPPTPIAMVGREAIHAALNPADGNSLYFVARGDGSHVFSDDLETHNNAVREYQLKRRADYRSSPAPVAPDDVAPIPAASPDTAPEAVPQVPPQEPAPQPAPEPNASEPPSPQ				NA	NA	NA	NA	NA
D1-35_02066	633	tmk	COG0125	Thymidylate kinase	GTGACTGGCTTGTTTATAACCCTGGAAGGCCCCGAAGGCGCCGGCAAGAGCACCAACCGCGAATACCTCGCCGAACGTTTGCGGGCTGAAGGCATCGAGGTGGTGCTGACCCGTGAGCCGGGCGGCACGCCATTGGCCGAGAGGATTCGCGAGGTGCTGCTGGCACCCCTTGACGAGGTCATGAACCCCGACACCGAGCTGTTGCTGGTTTTCGCTGCCCGGGCGCAACATCTGGCCGAGGTGATCCGCCCGGCGCTGGCCCGTGGTGCGGTGGTGCTGTGTGATCGCTTCACCGATTCGACCTATGCCTACCAGGGGGGCGGCCGGGGCTTGTCCCTTGAGCGTATCGCCGCGTTGGAAACCTTTGTCCAGGCGGACCTGCGGCCAGACCTGACTCTGGTGTTCGACTTGCCGGTGGACATCGGTCTGGCCCGCGCCAGCGCCCGGGGTCGGCTTGATCGCTTCGAGCTGGAAGGGCAGGCCTTCTTCAACGCCGTGCGCAATGCCTTCCTGGAGCGTGCCCAGGCTGATCCGGCGCGTTACCTGCTGATCGACGCCGCCCAACCGCTGGCACAGGTCCAGCAATCGCTGGATGGTCTGCTGCCGCGTCTGCTGGAGCGTGCCCGTGGCTGA	MTGLFITLEGPEGAGKSTNREYLAERLRAEGIEVVLTREPGGTPLAERIREVLLAPLDEVMNPDTELLLVFAARAQHLAEVIRPALARGAVVLCDRFTDSTYAYQGGGRGLSLERIAALETFVQADLRPDLTLVFDLPVDIGLARASARGRLDRFELEGQAFFNAVRNAFLERAQADPARYLLIDAAQPLAQVQQSLDGLLPRLLERARG	PGPT0021395_3499	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021395-tmk-K00943	NA	NA
D1-35_02067	987	holB	COG0470	DNA polymerase III subunit delta'	GTGGCTGAAGCCTATCCGTGGCAGGACAGCCTCTGGCAGCAATTGGCCGGGCGTGCCCAGCATGCCCATGCCTACCTGCTGCACGGTCCGGCCGGGATCGGCAAGCGGGCGCTGGCCGAACGCCTGATGGCGAGCCTGTTGTGCCAGGCCCCGGTGGCCGCGGGCGCCTGCGGCGAATGCAAGTCCTGCCTGCTGCTCAAGGCCGGTAGCCATCCAGACAATTACGTGCTGGAGCCTGAAGAGGCGGACAAGGCGATCAAGGTCGACCAGGTCCGGGACCTTGTGAGTTTCGTCGTCCAGACCGCGCAGATGGGCGGGCGCAAGGTCGTGTTGATCGAACCGGTGGAGTCGATGAACATCAACGCTGCCAATGCCTTGCTCAAGAGTCTCGAAGAGCCTTCCGGGAATACCGTCCTGCTGTTGGTCAGCCACCAGCCGAGTCGGTTGTTGCCGACCATCAAGAGCCGTTGCGTGCAGCAGGCTTGTCCGCTGCCCAGCGAGGCCATGAGCCTGCAGTGGCTGGGCCAGGCCTTGCCTGACAGCAGCGATGAGGAGCGTGTCGAGCTGCTGACCCTGGCCGCCGGTTCGCCACTGGCGGCCGTCAGCCTCCAGGCCCAGGGCGTGCGTGAGCAGCGGGCACTGGTAGTGGACGGCGTCAAGAAGCTGCTCAAGCAACAGCAGTCGCCGACGCAACTGGCCGAGGGCTGGAACGCCATTCCGTTGCTGCTGCTGTTCGACTGGTTCTGCGACTGGTCGAGCCTGATCCTGCGTTATCAGCTCACCGAGGACGAGGCTGGGCTGGGACTGGCGGACATGCGCAAGGTGGTCCAGTACCTGGCGCAAAAAAGCAGCCAGGACAAAATCCTGAACATTCAGGACTGGATCCTTGCCCAACGCCAGAAGGTGCTGAGCAAGGCCAACCTCAATCGCGTCCTGTTGCTGGAGGCGCTGTTGGTGCAATGGGCAAGTTTGCCTGGTCGTAACTGA	MAEAYPWQDSLWQQLAGRAQHAHAYLLHGPAGIGKRALAERLMASLLCQAPVAAGACGECKSCLLLKAGSHPDNYVLEPEEADKAIKVDQVRDLVSFVVQTAQMGGRKVVLIEPVESMNINAANALLKSLEEPSGNTVLLLVSHQPSRLLPTIKSRCVQQACPLPSEAMSLQWLGQALPDSSDEERVELLTLAAGSPLAAVSLQAQGVREQRALVVDGVKKLLKQQQSPTQLAEGWNAIPLLLLFDWFCDWSSLILRYQLTEDEAGLGLADMRKVVQYLAQKSSQDKILNIQDWILAQRQKVLSKANLNRVLLLEALLVQWASLPGRN				NA	NA	NA	NA	NA
D1-35_02068	357			hypothetical protein	ATGAACGAACCTGTCAGCCCCGGGCCACGCAATGGCATCCTGTCCCTGACCATCAAGGACAAGTCGGTGCTCTACGCCGCCTACATGCCCTTCATCAGGAATGGCGGCCTGTTTATCCCGACCAACAAGAATTATCGCCTGGGCGATGAGGTGTTCATGCTGTTGAGCCTGATGGACGAACCGGAGAAAATCCCGGTCGCCGGCAAGGTGATCTGGCTCACCCCCAAAGGCGCCCAGGGCAACCGGGCGGCCGGGGTTGGCGTGCAGTTCAACGAAGGCGACAACTCGGCTCGCAATCAGATCGAAACCCACCTGGCCGGAACCCTCAAGTCCGACCGTCCTACCCATACGATGTAG	MNEPVSPGPRNGILSLTIKDKSVLYAAYMPFIRNGGLFIPTNKNYRLGDEVFMLLSLMDEPEKIPVAGKVIWLTPKGAQGNRAAGVGVQFNEGDNSARNQIETHLAGTLKSDRPTHTM	PGPT0015970_293	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015970-pilZ-K02676	NA	NA
D1-35_02069	795	ycfH	COG0084	putative metal-dependent hydrolase YcfH	ATGCTTGTAGATTCCCATTGTCACCTTGATCGCCTCGACCTTGCCGCCCATGGCGGTTCGCTGGACGCCGCGCTGGATGCAGCGCGCCAACGAGGCGTCGGGCATTTCCTGTGCATCGGTGTCAGCGCCGATAACGCCGCCGACGTCAAGGTCCTGGCCGACCGTTATGCGGATGTTGATTGTTCGGTGGGTATCCACCCGCTGGACGTACAGCCCGATGCCGCGCCGGCCCTGGACTGGCTGCTGCGCGAGCTCGACCATCCTCGGGTGGTGGCCATTGGCGAGACTGGCCTCGACTATCACTACGAGCCGGAGGCCGCCGAGGTGCAGCAGGCTTCGTTCCGCTTGCACCTGGAAGCGGCTCGTCAGACTGGCAAGCCGGTAATCATCCACACCCGCGGTGCCCGCGCCGATACCCTGGATCTGCTGCGCGACGCGGCGTTGCCCCAGGCGGGCGTGCTGCATTGCTTCACCGAGGACTGGGACATGGCCAAGGCTGCGCTGGACATGGGTTACTACATCTCCCTGTCCGGAATTGTCACGTTTCGCAATGCCGATGCCCTGCGCGACGTCGCCAGCAAAGTGCCGGCAGATCGATTGCTGGTGGAGACCGATTCGCCCTACCTGGCGCCAATACCCTATCGCGGCAAGCCGAACCTTCCTCAGTATGTGCGCGAGGTGGCCGAGTTCCTGGCCATGTTGCGCGGTGAATCCTATGAGCGGTTCGCGCAGCAGACCACGGAAAACTTCAAGCGCCTGTTCCCCCTGGCGCATGTCGGTTCGCCGAGGGCCTGA	MLVDSHCHLDRLDLAAHGGSLDAALDAARQRGVGHFLCIGVSADNAADVKVLADRYADVDCSVGIHPLDVQPDAAPALDWLLRELDHPRVVAIGETGLDYHYEPEAAEVQQASFRLHLEAARQTGKPVIIHTRGARADTLDLLRDAALPQAGVLHCFTEDWDMAKAALDMGYYISLSGIVTFRNADALRDVASKVPADRLLVETDSPYLAPIPYRGKPNLPQYVREVAEFLAMLRGESYERFAQQTTENFKRLFPLAHVGSPRA				NA	NA	NA	NA	NA
D1-35_02070	639			hypothetical protein	ATGCACAAAGAACCCCGTAAGGTCCGTGAGTTTCGTCGCCGCGAGCAGGAAATTCTCGACACCGCGCTCAAGTTGTTCCTCGACCAGGGTGAAGACAGTGTCACCGTCGAGATGATTGCGGATGCCGTGGGTATCGGCAAAGGCACGATTTATAAACATTTCAAATCCAAGGCCGAGATCTACCTGCGGCTGATGCTCGATTACGAGCGCGATTTGAACGAGTTGTTGCATTCGGCCGATGTGGACAAGGACAAGGAAGCGCTTTCCCGGGCCTATTTCGAGTTCCGCATGCGCGACCCGCAGCGTTACCGCTTGTTCGACCGTCTGGAAGAGAAGGTGGTCAAGGGCAACCAGGTGCCGGAAATGGTCGAGGAGCTGCACAAGATCCGCGCTTCCAACTTCGAACGCCTGACCCTGCTGATCAAGGGCCGGATCAGCGAAGGCAAGCTCGAAGATGTGCCGCCGTATTTCCATTACTGCGCAGCCTGGGCGCTGGTGCATGGCGCCGTGGCGCTGTATCACTCGCCGTTCTGGAGCAATGTGCTTGAAGATCAGGAAGGCTTCTTCCAGTTCCTGATGGACATTGGCGTGCGCATGGGCAACAAGCGCAAGCGCGACACCGACGTCCCGAGCAGTTGA	MHKEPRKVREFRRREQEILDTALKLFLDQGEDSVTVEMIADAVGIGKGTIYKHFKSKAEIYLRLMLDYERDLNELLHSADVDKDKEALSRAYFEFRMRDPQRYRLFDRLEEKVVKGNQVPEMVEELHKIRASNFERLTLLIKGRISEGKLEDVPPYFHYCAAWALVHGAVALYHSPFWSNVLEDQEGFFQFLMDIGVRMGNKRKRDTDVPSS				NA	NA	NA	NA	NA
D1-35_02071	969	moaA	COG2896	GTP 3',8-cyclase	ATGATCGTTGACCGTCAAGGCAGGCGTTTTCGCAATTTGCGGATCAGCCTGACTTCAGCCTGCAACTATGCCTGTACCTACTGCGTGCCAGACGGCAAGCGGCTGGTGGCTGCGCAGGATGAACTGTCGGCCGAGGCCATGGCGCGGGGCGTGGCCTATCTGATCGAAGCCGCCGGCATCGAGCGGTTGCGCATCACCGGTGGAGAGCCACTGGTCAGCCCCAAGCTGGAAAGCTTCATGACGGCGGTGGGGCAGATGGGGCTGCAGGACATCAGTCTGACCACCAATGGTCAACTGCTGGCAAAGAAGCTGCCGCTGCTGGTCAACGCCGGTATCCGCCGTATCAACGTCTCCCTCGACACCCTGGACCCCGTGGCGTTTCGCAGCATTGCCCGTGGTGGTGACCTGGCGACTGTGCTGGACGGCATGGAGCAGGCCCGGGCGGCGGGAATGAAGATCAAGGTCAACATGGTGCCGTTGCGCGGGCAGAACCTGGACCAGGTGATGCCATTGCTCCAGTACTGCCTGGAGCGTGGTTATGAGTTGCGTTTCATCGAGTTGATGCGCATGGGCCACCTGGCCAAGGACTCCAATGCGTTCCTTCAACAGTTCGTCAGCCTCCAGCAGTTGCTGGGCCTGATTGGCGACCAGTACGAATATCTGCAGGCCGATGCGCCGATCGATGCCACGGCCGTGCGTTACGAGATTCCGGGGTTGGGGCATTTCGGTGTGATTGCCAACGAAAGCGTGCCGTTCTGCCGCACCTGTTCGCGGCTGCGGCTGTCTTCCACGGGCTGGTTGCATGGCTGCCTGTCGTCGAGTAACCGTCACTACGTTGGCGATCTGTTGGACAAACCGCGTCACCAGGCATTGCCGGCGCTCCAGCGGCTGTTGGTCAAGGCCTTGGGGGACAAGCAGGAAGTGGCGTTCTCCGGTGGTGCGACGATCATGAAAATCATCGGCGGCTGA	MIVDRQGRRFRNLRISLTSACNYACTYCVPDGKRLVAAQDELSAEAMARGVAYLIEAAGIERLRITGGEPLVSPKLESFMTAVGQMGLQDISLTTNGQLLAKKLPLLVNAGIRRINVSLDTLDPVAFRSIARGGDLATVLDGMEQARAAGMKIKVNMVPLRGQNLDQVMPLLQYCLERGYELRFIELMRMGHLAKDSNAFLQQFVSLQQLLGLIGDQYEYLQADAPIDATAVRYEIPGLGHFGVIANESVPFCRTCSRLRLSSTGWLHGCLSSSNRHYVGDLLDKPRHQALPALQRLLVKALGDKQEVAFSGGATIMKIIGG	PGPT0008410_3947	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639	NA	NA
D1-35_02072	606			hypothetical protein	ATGCGTAGCCTGTTTTTGCTGCTGGCCGTTTTGACGCTGGGTGGCTGCATGAATGTCAGCGACATGGGGGAGGGCGTTCGTTATCACATGAGCGACGCCGGCCTGCTGGACCATAGCGACAGCCGTCGGGTGAACAACCTGCGCATTCAGCCGGATTCCTTCATCTACATTGCCCAGGGTGCTTTTGCTCCGCCAGGCAGCGCTTATCCGCGGCCCAATGTCGTGGCTGAAGAAGCGTTCAACGGTTTCATCGAGTATTTCCCCATGGTTCGTCGCGCCCGGGTCCCGGAAGGCCTCGACCAGGCGATGGGCGAAGCGCGGGCCGCCGGTGCTCATTACTTGCTGTATACCCGGTTCGCCAAGGCGGACAACCGCATCGGCAACACCGACGAATGGCTGGACGAAGAAGCCGTGGATCGACTGGGTGTCGATACCGGTGTCATTCAGATCATGTTGATCGAGACCAGCACCCAGTATTTGATTGATACTGCGCGTATCAAAAGTCGTGGCGGTTTACTGACGTTGCACGACAAACAGCCAGAAGACTTGATCGCCGCCCCACTGCGTGAATATGCCCGCACCTTGCTGGGGATAAGCGACCAGTAA	MRSLFLLLAVLTLGGCMNVSDMGEGVRYHMSDAGLLDHSDSRRVNNLRIQPDSFIYIAQGAFAPPGSAYPRPNVVAEEAFNGFIEYFPMVRRARVPEGLDQAMGEARAAGAHYLLYTRFAKADNRIGNTDEWLDEEAVDRLGVDTGVIQIMLIETSTQYLIDTARIKSRGGLLTLHDKQPEDLIAAPLREYARTLLGISDQ				NA	NA	NA	NA	NA
D1-35_02073	567			hypothetical protein	ATGAGCGGACCGCAAAAAGCCAATGACCTGCTGGGACAGATCCCGAAGACCAAAGGCCTGCCGCCGGTCCACTTGTGGAACCCCGACTTCTGCGGCGACATCGACATGCGCATCGCCCGTGATGGCACCTGGTATTACCTGGGCACGCCGATCGGGCGCAAGCCGATGGTCAAGCTGTTCTCCACCATCATTCGCCGCGACGGCGATGATTATTTCCTGATCACCCCTGTGGAAAAAGTCGGCATCAAAGTCGACGACGCCCCGTTCGTGGCCGTGACCCTTGAGGTCGAGGGGGAGGGGGAGGGGGAGGGGCAGTTGTTGCGCTTTACTACCAATGTCGAGGAAACCACCGAAGCCGGCCCCGATCATCCGATGCGGGTGGTCATCGACCCCCGGACCCAGGAGCCTGCGCCGTACGTGCATGTGCGCAGCAATCTCGAAGCGCTGATTCATCGCAACGTGTTCTATCAACTGGTGGAGCTGGCGGTGAGTCGCGAGATCGATGGTCAGCGCTGGCTGGGCGTGTGGAGCGGCGGCGTGTTTTTCCCCATCGGCCTTGAGCCCTGA	MSGPQKANDLLGQIPKTKGLPPVHLWNPDFCGDIDMRIARDGTWYYLGTPIGRKPMVKLFSTIIRRDGDDYFLITPVEKVGIKVDDAPFVAVTLEVEGEGEGEGQLLRFTTNVEETTEAGPDHPMRVVIDPRTQEPAPYVHVRSNLEALIHRNVFYQLVELAVSREIDGQRWLGVWSGGVFFPIGLEP				NA	NA	NA	NA	NA
D1-35_02074	747			hypothetical protein	ATGTCCAGCAGTTTTCACGCGTCGACCGTCGATTGGCTGGGTGGCTGGATTGCCGCCGGCCAGGTCAAGCCTGGGCAAACCATCAAGGTCGAGGCAGATCTGGGCGAGCAACTGGGCGTCAGCCGCACGGTGATCCGTGAGGCAATCAAGACGCTGGTGGCCAAAGGCATGTTGGAAGTCGGCCCGAAAGTCGGCACGCGGGTACTGCCGGTGCGCCGCTGGAACCTGTTCGACCCGCAGGTGGTTGGCTGGCTGTCACGCAGCGGCCTGCCGGAAAACTTCGTCGACGACCTGCTGGACCTGCGGCGCACCATCGAACCGATGGCGGTGCGCTGGGCCTGCGAACGGGCGACGGCTGATCAGGTGCAGGCGATCCGCCTGGCTTATCATGCGCTGGAGCGGGCGGTGGACAGCGGCGCCGATTACAACCTTGCCGACCAGTTTTTCCACGAATGCATTCTCGCCGCCAGCCACAATCAATTCATCGAGCAGATGGTCCCGGCCCTGGGCGCGTTGCTGGCGGTCTCGTTCGAGGTGTCGGCGGCCGATCCGGACGAATTGCGGCGCACCTTGCCGATCCACAAGGATATCGCCGAAGCCATCGCCGAGCGCGACGCGGCGCGCGGCGTCTGGGCCTGCATGACCCTGATCGACAACGCTGACCTGGCCATCAAGCGCTTTTACCCCGACGTCATGGCCGGTCGAACAGACAATACCGGGCGAGCCGGGAACGGGAGGTTGCAATGA	MSSSFHASTVDWLGGWIAAGQVKPGQTIKVEADLGEQLGVSRTVIREAIKTLVAKGMLEVGPKVGTRVLPVRRWNLFDPQVVGWLSRSGLPENFVDDLLDLRRTIEPMAVRWACERATADQVQAIRLAYHALERAVDSGADYNLADQFFHECILAASHNQFIEQMVPALGALLAVSFEVSAADPDELRRTLPIHKDIAEAIAERDAARGVWACMTLIDNADLAIKRFYPDVMAGRTDNTGRAGNGRLQ	PGPT0018085_154	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018085-dgoR-K19776	NA	NA
D1-35_02075	876			6-deoxy-6-sulfogluconolactonase	ATGAACTGGACGGCTGTGACGGAACATCGGGCGAAACTGGGCGAGGGACCGTTCTGGGACGAGCCGACCCAGGCGCTGTATTGGGTAGATATCGCCGGCAAGCAGGCGCTGCGGCTGATCGGCGCCAATGTACAGATCTGGCAGATGCCCGAACACGTTTCCGCCTTCATCCCGACCCAGAGCGGCGATGCGTTGGTGACATTGAGCAGTGGCGTCTATCGACTGGACCTGGATTCGCCTGGGCTGGAGCCGCGCCTGAAGTTGCTGTGCATGGCCGATCCCCAGCCCGGCAATCGTGCCAACGAAGCGCGCTGTGATGCGCTGGGCCAGCTTTGGCTGGGCACCATGCAAAACAATATCGGAGAAGAGGGCGAGGACCTGCCCATCGAGCGACGTTCCGGCGGCCTGTTCCGTGTCGGCGGCGATGGCCGGGTGATGCCCCTGCTGCGCGGGCTGGGCATTCCAAACACGCTGCTATGGAGCCCCGATGGCACGACGGTGTATTTCGGTGAGAGCCTCGATGGCACGCTCTATCGGCACTTCATCTACCCCGACGGCAAACTCGCGCCCGCGGAGGTCTGGTTCGGCCCCCATTCCCGTGGCGGGCCGGACGGTTCGGCGATGGATGCGCAAGGTTACATCTGGAATGCTCGCTGGGATGGCAGTTGCCTGCTGCGGCTGCATCCGGACGGCCACGTCGATCGGGTGATCGAGTTACCGGTCAGCCGTCCCACCAGTTGTGTATTCGGTGGAGACGACCTGCGGACGCTGTACATCACCAGTGCGCAAAGTCCGCTTGGGCATCCGCTGGACGGTGCGGTGCTGTCGATGCGAGTGGACGTTCCGGGTGTGGCTTGTACGAGGTTTGCTGGCTAG	MNWTAVTEHRAKLGEGPFWDEPTQALYWVDIAGKQALRLIGANVQIWQMPEHVSAFIPTQSGDALVTLSSGVYRLDLDSPGLEPRLKLLCMADPQPGNRANEARCDALGQLWLGTMQNNIGEEGEDLPIERRSGGLFRVGGDGRVMPLLRGLGIPNTLLWSPDGTTVYFGESLDGTLYRHFIYPDGKLAPAEVWFGPHSRGGPDGSAMDAQGYIWNARWDGSCLLRLHPDGHVDRVIELPVSRPTSCVFGGDDLRTLYITSAQSPLGHPLDGAVLSMRVDVPGVACTRFAG	PGPT0017460_298	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017460-araB|L_arabinonolactonase-K13874	NA	NA
D1-35_02076	819	ucpA_1		Oxidoreductase UcpA	ATGGCTGAAGCGCTTTGCTTGCCACCGGTGCCGGAGCCGCCGCAGGGCGAACGGTTGAAAGGCAAGGTCGTGCTGCTGACGGGTGCTGCCCAGGGCATTGGCGAGGCAATCGTTGCTGCGTTTGCTTCCCAACAGGCGCGGCTGGTCATCAGCGACATCCAGGCTGAAAAAGTCGAGGCCGTCGCCGCCCATTGGCGTGGGCGCGGTGGGGATGTACAAGCACTCAAGGTCGATGTTTCAAGCCAGCAGGACCTGCACGCCATGGCCCGGCGAGCGGTTGAACTGCATGGTCGCATCGACGTATTGGTGAACTGCGCTGGCGTCAATGTGTTCCGCGATCCGCTGGAAATGACCGAGGAAGACTGGCGCCGTTGCTTCGCCATCGACCTGGACGGTGCCTGGTATGGCTGCAAGGCCGTATTGCCACAGATGATCGAGCAGGGCGTGGGCAGCATCATCAATATCGCGTCGACCCATTCGTCCCACATCATTCCCGGCTGTTTCCCTTACCCGGTGGCCAAGCATGGCCTGCTCGGGCTGACCCGTGCCCTGGGCATCGAATACGCCCCCCAAGGCGTGCGGGTGAATGCCATTGCGCCGGGCTACATCGAGACCCAGCTGAATATCGATTACTGGAATGGCTTCACCGATCCACGGGCCGAACGCCAGCGTGCGCTGGATCTGCACCCGCCACGGCGTATCGGCCAGCCGATCGAAGTGGCAATGACGGCGGTGTTTCTGGCCAGTGACGAAGCACCTTTCATCAACGCTTCATGCATCACCATTGATGGTGGACGTTCGGTCATGTACCACGACTGA	MAEALCLPPVPEPPQGERLKGKVVLLTGAAQGIGEAIVAAFASQQARLVISDIQAEKVEAVAAHWRGRGGDVQALKVDVSSQQDLHAMARRAVELHGRIDVLVNCAGVNVFRDPLEMTEEDWRRCFAIDLDGAWYGCKAVLPQMIEQGVGSIINIASTHSSHIIPGCFPYPVAKHGLLGLTRALGIEYAPQGVRVNAIAPGYIETQLNIDYWNGFTDPRAERQRALDLHPPRRIGQPIEVAMTAVFLASDEAPFINASCITIDGGRSVMYHD				NA	NA	NA	NA	NA
D1-35_02077	1005	araF	COG1879	L-arabinose-binding periplasmic protein	ATGAAACATCGTCGTGGGATCCGTTCCCTGTGTCGCGCCGCCCTGGCGGTTACCGCGTTCAGTCTCAGCAGCCACCTGCTGGCGGCCGATGCGGTGAAAATCGGTTTCCTGGTCAAGCAGGCCGAGGAGCCCTGGTTCCAGACCGAATGGGCATTCGCCGAGAAGGCGGCCAAGGACAAAGGCTTCCAGTTGATCAAGATCGCCGTGCCTGACGGCGAGAAAACCCTCTCCGCTATCGACAGCCTGGCCGCCAACGGTGCCAAGGGCTTTGTGATCTGCCCGCCGGACGTGTCCCTGGGCCCGGCCATCATGGCCAAGGCCAAGCTCAACGACCTCAAGGTGATCGCCGTGGACGACCGTTTCGTCGACGCCAGCGGAAAATTCATGGAAGACGTGCCGTACCTGGGCATGGCCGCGTTCGAGGTTGGCCAGAAACAAGGCGCCGCGATGGCTGCCGAAGCGAAAAAACGCGACTGGGACTGGAAAGACACCTACGCGGTGATCAACACCTTCAACGAGCTGGACACCGGTAAGAAACGCACCGACGGTTCGGTCGATGCCCTGAAGAAGGCCGGGATGCCGGAAGACCATATCCTGTTCACAGCGCTGAAGACCCTCGACGTGCCGGGCAGCATGGACTCCACCAACTCGGCGTTGGTCAAGCTGCCTAGCGCCGCGAAAAACCTGATCATCGGCGGCATGAATGACAACACCGTGCTGGGTGGCGTGCGCGCTACCGAAGCAGCCGGCTTCAAGGCGGCCAACGTGATCGGTATCGGCATCAACGGCACCGACGCCATCGGCGAGCTGAAGAAACCAAATAGTGGCTTCTTCGGTTCGATGCTGCCAAGCCCGCACATCGAAGGCTACAAGACCGCCGAAATGATGTACGAGTGGATCACCACCGGCAAGGAGCCGCCGAAGTACACCGCCATGGACGAGGTGACGCTGATCACCCGGGAGAACTTCAAGCAGGAACTGGAAAAGATCGGCCTGTGGAATTGA	MKHRRGIRSLCRAALAVTAFSLSSHLLAADAVKIGFLVKQAEEPWFQTEWAFAEKAAKDKGFQLIKIAVPDGEKTLSAIDSLAANGAKGFVICPPDVSLGPAIMAKAKLNDLKVIAVDDRFVDASGKFMEDVPYLGMAAFEVGQKQGAAMAAEAKKRDWDWKDTYAVINTFNELDTGKKRTDGSVDALKKAGMPEDHILFTALKTLDVPGSMDSTNSALVKLPSAAKNLIIGGMNDNTVLGGVRATEAAGFKAANVIGIGINGTDAIGELKKPNSGFFGSMLPSPHIEGYKTAEMMYEWITTGKEPPKYTAMDEVTLITRENFKQELEKIGLWN	PGPT0016605_90	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOSE_TRANSPORT_I,PGPT0016605-araF-K10537	NA	NA
D1-35_02078	1545	araG_1	COG1129	Arabinose import ATP-binding protein AraG	ATGCAAGCGCAAACAGCGACACGGCAACACAACACTGGCGGCAGCTTGCGATTCAACGGGATCGGCAAGACCTTTCCCGGCGTGCAGGCCCTGGCCAATATCAGTTTCGTCGCCCATCCAGGACAGGTTCATGCCTTGATGGGTGAAAACGGCGCGGGCAAGTCCACGTTGCTCAAGATCCTTGGCGGCGCCTATATCCCGAGCAGCGGCGACTTGCAGATCGGTGAGCAGACGATGGCGTTCAAAGGCACCGCCGACAGTATCGCCAGCGGTGTGGCGGTGATTCACCAGGAGCTGCACCTGGTGCCGGAAATGACCGTCGCCGAAAACCTGTTCCTTGGCCATTTGCCGGCGCGTTTCGGCCTGGTCAATCGCGGTGTGCTGCGCCAGCAGGCGTTGGCGCTGCTCAAAGGCCTGGCGGACGAAATCGACCCGCAGGAAAAAGTCGGTCGCCTGTCCCTCGGCCAGCGCCAGTTGGTGGAAATCGCCAAGGCCTTGTCCCGTGGCGCCCACGTCATTGCTTTCGACGAACCGACCAGCAGCCTCTCGGCGCGGGAAATCGACCGTTTGATGGCGATCATCGCCCGCCTGCGGGACGAGGGCAAAGTGGTGTTGTACGTCAGCCACCGCATGGAAGAAGTCTTTCGAATCTGTAATGCGGTGACGGTGTTCAAGGACGGTCGTTATGTCCGGACCTTCGAAAACATGAGCGAGCTGACCCATGATCAACTCGTCACCTGCATGGTCGGTCGTGATATCCAGGACATCTATGACTACCGTCCGCGTGAGCGTGGCGATGTGGCGCTGCAGGTGAAGGGGCTGCTGGGGCCGGGCCTGCGCGAGCCGGTGAGTTTCGAGGTGCACAAGGGTGAAATCCTTGGCCTCTTCGGGCTGGTCGGCGCCGGTCGTACCGAGCTGTTTCGCTTGCTCAGTGGCCTGGAGCGCCAGAGCGAGGGCAGTCTTGTCCTGCACGGCAAGGAACTGAAACTGCGTTCGCCACGGGACGCCATCGCCGCTGGCGTGCTGCTCTGCCCGGAGGACCGCAAGAAGGAAGGCATCATTCCGTTGGGCAGTGTCGGCGAGAACATCAACATCAGCGCGCGTCCGTCCCATTCGACCCTCGGCTGCCTGCTGCGCGGCGAATGGGAGCGGGGCAATGCCGACAAGCAGATCAAGTCGCTGAAAGTGAAGACCCCGGCGGCCAGCCAGAAAATCATGTACCTGTCCGGTGGCAACCAGCAGAAGGCGATCCTCGGGCGTTGGCTGTCGATGCCGATGAAGGTCCTGCTGCTGGACGAGCCGACACGGGGCATCGACATCGGTGCCAAGGCCGAGATCTACCAGATCATCCACAACCTGGCGGCCGATGGCATCGCCGTGATCGTGGTGTCCAGCGACCTGATGGAAGTGATGGGCATTTCCGACCGGATCCTGGTGCTGTGCGAAGGGGCCATGCGCGGCGAGCTGCCGCGTGACCAGGCCAATGAATCCAACCTGCTGCAACTGGCGCTGCCGCGCCAACGCGTTGCCGACGCGGCGAACTGA	MQAQTATRQHNTGGSLRFNGIGKTFPGVQALANISFVAHPGQVHALMGENGAGKSTLLKILGGAYIPSSGDLQIGEQTMAFKGTADSIASGVAVIHQELHLVPEMTVAENLFLGHLPARFGLVNRGVLRQQALALLKGLADEIDPQEKVGRLSLGQRQLVEIAKALSRGAHVIAFDEPTSSLSAREIDRLMAIIARLRDEGKVVLYVSHRMEEVFRICNAVTVFKDGRYVRTFENMSELTHDQLVTCMVGRDIQDIYDYRPRERGDVALQVKGLLGPGLREPVSFEVHKGEILGLFGLVGAGRTELFRLLSGLERQSEGSLVLHGKELKLRSPRDAIAAGVLLCPEDRKKEGIIPLGSVGENINISARPSHSTLGCLLRGEWERGNADKQIKSLKVKTPAASQKIMYLSGGNQQKAILGRWLSMPMKVLLLDEPTRGIDIGAKAEIYQIIHNLAADGIAVIVVSSDLMEVMGISDRILVLCEGAMRGELPRDQANESNLLQLALPRQRVADAAN	PGPT0016615_103	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOSE_TRANSPORT_I,PGPT0016615-araG-K10539	NA	NA
D1-35_02079	969	araH	COG1172	L-arabinose transport system permease protein AraH	ATGACCATTCAAAACAATGCACTGCCAACGGCACGCAAGCCCCTCGACCTGCGCCGCTTCCTCGACGACTGGGTCATGCTGCTGGCGGCCATCGGCATCTTTGTGCTCTGCACCTTGATGATCGACAACTTCCTGTCGCCGCTGAACATGCGGGGCCTGGGCCTGGCGATTTCCACCACCGGCATTGCCGCCTGCACCATGCTTTATTGCCTGGCTTCCGGGCACTTCGACCTGTCGGTGGGCTCGGTGATTGCCTGTGCCGGCGTGGTCGCTGCCGTGGTAATGCGCGACACCAACAGCGTGTTCCTCGGTGTCAGCGCGGCGCTGGTGATGGGCCTGATCGTCGGTCTGATCAACGGCATCGTCATTGCAAAACTACGGGTCAACGCGTTAATCACCACGCTGGCGACGATGCAGATCGTTCGCGGCCTGGCGTATATCTTCGCCAACGGTAAAGCGGTCGGCGTGTCCCAGGAATCGTTCTTCGTGTTCGGCAACGGCCAGCTGTTTGGCGTGCCGGTGCCGATCCTGATCACCATCGTCTGCTTCCTGTTCTTCGGCTGGTTGTTGAACTACACCACCTACGGGCGCAACACCATGGCCATCGGCGGCAACCAGGAAGCGGCGTTGCTGGCGGGGGTGAACGTTGATCGCACCAAGATCATCATCTTTGCCGTGCATGGCGTGATTGGCGCGCTGGCGGGTGTGATCCTGGCGTCGCGCATGACCTCGGGCCAGCCGATGATCGGCCAGGGCTTCGAGCTGACGGTGATCTCGGCCTGTGTATTGGGTGGGGTTTCGCTGAGTGGCGGGATCGGCATGATTCGCCATGTCATTGCCGGTGTACTGATCCTCGCGATCATCGAGAACGCGATGAACCTGAAGAATATCGACACCTTCTACCAGTACGTCATCCGTGGTTCGATCCTGTTGCTGGCGGTGGTGATTGACCGGTTGAAGCAACGCTGA	MTIQNNALPTARKPLDLRRFLDDWVMLLAAIGIFVLCTLMIDNFLSPLNMRGLGLAISTTGIAACTMLYCLASGHFDLSVGSVIACAGVVAAVVMRDTNSVFLGVSAALVMGLIVGLINGIVIAKLRVNALITTLATMQIVRGLAYIFANGKAVGVSQESFFVFGNGQLFGVPVPILITIVCFLFFGWLLNYTTYGRNTMAIGGNQEAALLAGVNVDRTKIIIFAVHGVIGALAGVILASRMTSGQPMIGQGFELTVISACVLGGVSLSGGIGMIRHVIAGVLILAIIENAMNLKNIDTFYQYVIRGSILLLAVVIDRLKQR	PGPT0016610_371	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOSE_TRANSPORT_I,PGPT0016610-araH-K10538	NA	NA
D1-35_02080	381			hypothetical protein	ATGCCTCGTGGAAGCAAAGACAAATACACCGACAAGCAAAAGCGCAAGGCCGAGCACATCGAAGAGAGTTATGAGCAAAAAGGCGTGCCGGAGGGCAAGGCCGAAGCTCGGGCCTGGGCGACCGTCAATAAGCAGTCCGGGGGTGGCGAACGCTCCGGTGGGTCCGGCAAGAAAAAACCCGCCGAGGCCAAGCAATCCGATCGCAAGGAATCGGCCCGGCGCGCCGTCAAGTCGCGTGAAGGCCATCCGCGCACCAGCAACGCCTCCCATGAGGCTCAGACGGTGGACAGCCTGATGAAGGAAGCCCGGGCGAAAAACATTCCCGGACGCTCGAAGATGCGCAAGCAGGAGTTGGTCGAGGCGTTGCGCAAGGCCGGGTAA	MPRGSKDKYTDKQKRKAEHIEESYEQKGVPEGKAEARAWATVNKQSGGGERSGGSGKKKPAEAKQSDRKESARRAVKSREGHPRTSNASHEAQTVDSLMKEARAKNIPGRSKMRKQELVEALRKAG				NA	NA	NA	NA	NA
D1-35_02081	342			hypothetical protein	ATGATCAGATCCAGGCTGACTGCGTTCACATTTGCCGCTTTGTTGTCCTCGGCGGCTTTCGCAGCCACGACTTCAGGGACCGGCCCGACCGATCCGGTACAGGCACCGAATTCGCCCGCCACCCAAGGCTTGCCCAAGCTGAATACCGACGGCACCGGCGGCACCTTGAACAATGGCCAGCCGCCCGCCACGGGCACCGATCCACGGGTCCAGGGTAATGACACCGGTCGCCAGGGTGGCATGAACACCCCGGACTCCACCGCTCCGGATAACGCCGACACCGGCGTGGGTTCGAAAACCACCACCGGCGGTTCCGGTTCGGAAGGTGGCGCCAACCAATAG	MIRSRLTAFTFAALLSSAAFAATTSGTGPTDPVQAPNSPATQGLPKLNTDGTGGTLNNGQPPATGTDPRVQGNDTGRQGGMNTPDSTAPDNADTGVGSKTTTGGSGSEGGANQ				NA	NA	NA	NA	NA
D1-35_02082	483			hypothetical protein	ATGTCGATCGAGATCCGTCCTGCGCAACCCAGCGATGCGCCGCAAATCCTTGCCTTCATCACTGAGCTTGCCGATTACGAAAAAGCCCGCCACGAAGTCATCGCCAGCGTTGCCGATATCGAGCGCAGCCTGTTCAGCGAAGGCGCAACCGCCCATGGGTTGATGTGCCTGCGCGATGGCGTGCCGATCGGTTTCGCAGTGTTTTTCTTCAGTTACTCCACTTGGCTGGGCAGCAATTGCCTGTACCTCGAAGACCTCTATATCACTCCCGAACAACGCGGCGGCGGGGCGGGCAAGACGTTGTTGCGGCATCTGGCGAAGATCGCCTGCGACAACGACTGCGGTCGCTTCGAGTGGAGCGTCCTGGATTGGAACACCCCGGCCATCGAGTTCTACAAATCCCTTGGCGCGCAGCCCCAGGAAGAATGGGTGCGCTACCGCATGGATGGCAAGGTACTGCGGGATTTCGCCAACGGCAATTGA	MSIEIRPAQPSDAPQILAFITELADYEKARHEVIASVADIERSLFSEGATAHGLMCLRDGVPIGFAVFFFSYSTWLGSNCLYLEDLYITPEQRGGGAGKTLLRHLAKIACDNDCGRFEWSVLDWNTPAIEFYKSLGAQPQEEWVRYRMDGKVLRDFANGN				NA	NA	NA	NA	NA
D1-35_02083	633	gstB_2	COG0625	Glutathione S-transferase GstB	ATGGAACACTCACTGAAGATCCTCGGCCGCACCTCTTCGATCAACGTCAGAAAAGTACTCTGGACCTGTCAGGAACTGGACATCCCTTACGAACGCGAAGATTGGGGTATCGGCTTTGCGTCGACCCATGACCCGGCATTCCTGGCCCTCAACCCCAACGCCCAGGTGCCGGTGATCATTGATGAGAACGGCGTGCTCTGGGAGTCGAACACTATCTGCCGCTACCTGGTGGGCAAGCATGGGCGCGACGACCTGTTACCCATAGAACCTGCCGCCCGCGCGCGCGTCGAGCAGTGGATGGACTGGCAAGCCACGGAGCTCAATCCGTCGTGGGGGGATGCATTTTATGGGTTGGTGCGCAAACATCCGGATTTCCAGGACCCGCAGCTCATCGCTGCCGGGGTTAAAGGCTGGAACGAGAAAATGGGGTTGCTCGAGCATCAGTTGAATCACACCGGCGCCTACGTGGCCGGTGCGAAATTTTCCCTGGCGGACGTGCTTATCGGCCTGTCCGCGCACCGCTGGCGCCAGACGCCCATGGAGCGTCCGGACTATCCAGCCGTGGCCGCTTATTGCAAGCGGCTCGAACAGCGTCCCGGATTTGCCGAGTACGCGTCCAGCGCCTACTCGTAA	MEHSLKILGRTSSINVRKVLWTCQELDIPYEREDWGIGFASTHDPAFLALNPNAQVPVIIDENGVLWESNTICRYLVGKHGRDDLLPIEPAARARVEQWMDWQATELNPSWGDAFYGLVRKHPDFQDPQLIAAGVKGWNEKMGLLEHQLNHTGAYVAGAKFSLADVLIGLSAHRWRQTPMERPDYPAVAAYCKRLEQRPGFAEYASSAYS	PGPT0013170_18140	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
D1-35_02084	984	dgoK1	COG3734	putative 2-dehydro-3-deoxygalactonokinase DgoK1	ATGCAGGCGCAATTGATAGCGCTCGATTGGGGTACCACCTCATTACGAGCTTACAAACTTGCCGCTGGAGGCGAGGTGCTCGAACAGCGTTCGCTGTCGTCGGGGATCATGCAGTTGCCGTCCGGGCCGCGCACGGTCGCCGGCCAGGCGTGCAACAACGGTTTCGAACTGGCCTTCGATGAAGCCTGCGGCGACTGGCTCGATGCGCAGCCAGGTTTGCCCGTCATCGCTTGTGGCATGGTCGGCAGCGCCCAGGGCTGGCGTGAAGCGCCTTACTGCGACACGCCGGCAAACGTCGCCAACCTCGGACATTCCCTACAGGTCATCCGCAGTCTTCGCGGAGTCAATGTGCACATTGTGCCGGGAGTGATCCAACGTTCCCGGCTGCCCAATGTCATGCGCGGCGAAGAAACCCAGGTGCTCGGTGCGTTGGCCAGCCTGCCGAACGAAGCGGTGCTGATCGGCCTGCCGGGCAGCCATTCGAAATGGGTGGAAGTGGCCGATGGCTGCATCGTGCATTTCGACACCTTCATGACTGGCGAGATCTTCGCCGTGCTCAGTGACCACAGCATTCTCGGCCGCACCCAGCAACGCGGTGTGGCGTTCGACGGCGCGGCGTTTGATCGTGGCGTGCAGGTAGCGCTGTCGGTAGACGGCCAGATCGGCCCGCTGTCCACGGTATTCAGCGCCCGCAGCCTGGGCTTGACCGGCGAACTCGGTGCCAGCGCCCAGGCCGACTATCTTTCCGGCCTGCTCATCGGCCATGAACTGACCGCCCTGGCCGCCGTGCAGCGGCAGCGACGCAACAGCGTGCATCTGCCAACGGTGGTGCTGATCGGCAACTCTCAACTATGTGCCCGCTATCAACGGGCTCTCGACGCCTGCGGGTTCGCCCGCGTGACCTTGGCCGAACAGGCCACCGAACGCGGGCTGTGGCAACTGGCCGTGGCGGCCGGGCTGCTCGATTCCACCGCATCGCGCTAA	MQAQLIALDWGTTSLRAYKLAAGGEVLEQRSLSSGIMQLPSGPRTVAGQACNNGFELAFDEACGDWLDAQPGLPVIACGMVGSAQGWREAPYCDTPANVANLGHSLQVIRSLRGVNVHIVPGVIQRSRLPNVMRGEETQVLGALASLPNEAVLIGLPGSHSKWVEVADGCIVHFDTFMTGEIFAVLSDHSILGRTQQRGVAFDGAAFDRGVQVALSVDGQIGPLSTVFSARSLGLTGELGASAQADYLSGLLIGHELTALAAVQRQRRNSVHLPTVVLIGNSQLCARYQRALDACGFARVTLAEQATERGLWQLAVAAGLLDSTASR	PGPT0018080_268	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018080-dgoK-K00883	NA	NA
D1-35_02085	621	dgoA	COG0800	2-dehydro-3-deoxy-6-phosphogalactonate aldolase	ATGCTCACCCAAGCACTGGCGCAAAACGGGCTGATCGCGATCTTGCGCGGCCTACGTCCCGAAGAGGCGGCCGCTATCGGCGAAGTCCTTTATGACGCCGGATTTCGCGTCATCGAAGTACCGCTCAATTCTCCTGAGCCGTACGAAAGTATCCGCATCCTGCGCAGCACGTTGCCCGCCGATTGCCTGATCGGTGCCGGCACCGTGCTCACACCGGAGCAGGTCGAGCAGGTGAAAGCGGCTGGCGGCCAGGTGATCGTCATGCCCCACAGCGATCCAAAGGTGCTGCGCGCGGCGAAAGCGGCGGGCCTGTACCTGTCGCCCGGCGTCGCCACGCCCACCGAAGCCTTCGCCGCGCTGGCCGAGGGTGCTCATGTGTTGAAGATGTTTCCGGCCGAGCAGATGGGCCCGGCAGTGGTGAAGGCCTGGCTTGCGGTGTTGCCGTCCGGGACCGTGCTGGTGCCGGTGGGCGGGATCACGCCGGACAACATGGCGGTGTTCATCGAGGCTGGCGTCAAGGGTTTCGGCCTCGGTTCCGGGCTGTTCAAGCCGGGCCTGACAGTGGACGAAGTGGCGGTGCGCGCCAAGGCCTACGTGGCCGCATGGAACGCTTTGAGCTGA	MLTQALAQNGLIAILRGLRPEEAAAIGEVLYDAGFRVIEVPLNSPEPYESIRILRSTLPADCLIGAGTVLTPEQVEQVKAAGGQVIVMPHSDPKVLRAAKAAGLYLSPGVATPTEAFAALAEGAHVLKMFPAEQMGPAVVKAWLAVLPSGTVLVPVGGITPDNMAVFIEAGVKGFGLGSGLFKPGLTVDEVAVRAKAYVAAWNALS	PGPT0018075_527	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018075-dgoA-K01631	NA	NA
D1-35_02086	1149	dgoD	COG4948	D-galactonate dehydratase	ATGAAAATCACCAAGTTGACCACCTTTATCGTTCCGCCGCGCTGGTGCTTCCTCAAGGTCGAGACCGACGAGGGCGTGACGGGTTGGGGCGAGCCGGTGGTCGAAGGCCGTGCCCACACAGTGGCGGCCGCCGTCGAGGAATTGTCCGACTACCTGATCGGCAAAGACCCACGCAACATCGAGGACATCTGGACCGTGCTCTATCGCGGCGGTTTCTACCGCGGTGGTGCCATTCACATGAGCGCGCTGGCCGGTATCGATCAGGCGTTATGGGACATCAAGGGCAAGGCCTTGGGCGTGTCGGTCAGCGATCTGCTGGGTGGCCAGGTGCGCGACAAGATCCGTGTGTATTCGTGGATCGGCGGCGACCGCCCGGCGGACACCGCCCGAGCGGCGAAGGAAGCCGTTGCACGGGGCTTCACTGCGGTGAAGATGAACGGCACCGAGGAGCTGCAATTTCTCGACACGTTTGAAAAAGTCGACCTGGCCCTGGCCAACGTGGCGGCGGTGCGCGATGCGGTCGGGCCGAACGTCGGCATCGGCGTGGACTTCCATGGCCGCGTGCACAAGCCGATGGCCAAGGTGCTGATGAAGGAGCTCGACCCTTACAAGTTGATGTTCATCGAGGAGCCGGTGCTCAGCGAAAACTACGAAGCGCTCAAGGAACTGGCACCCCTGACCAGCACGCCGATCGCCTTGGGCGAACGGTTGTTCTCGCGCTGGGACTTCAAGCGGGTGCTCAGCGAAGGCTACGTGGACATCATCCAGCCGGATGCCTCCCACGCCGGCGGCATCACCGAAACCCGCAAGATCGCCAACATGGCCGAGGCCTATGACGTGGCGCTGGCGTTGCACTGCCCGCTGGGCCCGATCGCGCTGGCGGCGTGCCTGCAGCTGGACGCGGTTTGCTACAACGCGTTCATCCAGGAGCAGAGCCTGGGTATCCATTACAACGAGAGCAACGACTTGCTGGATTACATCAAGGATCCGCAGGTGTTCGACTATGACAAAGGCTTCGTGAAGATCCCCAACGGCCCGGGCCTGGGCATCGAGATCAACGAGGAATACGTCATCGAGCGCGCGGCCATCGGCCACCGCTGGCGCAACCCGATCTGGCGCCATGCCGATGGCAGTTTTGCCGAGTGGTGA	MKITKLTTFIVPPRWCFLKVETDEGVTGWGEPVVEGRAHTVAAAVEELSDYLIGKDPRNIEDIWTVLYRGGFYRGGAIHMSALAGIDQALWDIKGKALGVSVSDLLGGQVRDKIRVYSWIGGDRPADTARAAKEAVARGFTAVKMNGTEELQFLDTFEKVDLALANVAAVRDAVGPNVGIGVDFHGRVHKPMAKVLMKELDPYKLMFIEEPVLSENYEALKELAPLTSTPIALGERLFSRWDFKRVLSEGYVDIIQPDASHAGGITETRKIANMAEAYDVALALHCPLGPIALAACLQLDAVCYNAFIQEQSLGIHYNESNDLLDYIKDPQVFDYDKGFVKIPNGPGLGIEINEEYVIERAAIGHRWRNPIWRHADGSFAEW	PGPT0002220_1457	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0002220-dgoD-K01684	NA	NA
D1-35_02087	1311	dgoT		D-galactonate transporter	ATGCAAGCGCACACCCTGAGCGCGCAGGCGTCGTTGGTGACGCCCAGCCGCAAGCGTTTTTTCATCATGGTCCTGCTGTTCATCACCGTGGTGATCAATTACCTGGACCGCAGCAACCTCTCGATTGCCGCCCCCGCACTGACCAGCGAACTGGGGATCGATCCGATCCATGTCGGGCTGATTTTCTCGGCGTTCGGCTGGACCTACGCCGCCATGCAAATTCCCGGTGGCTGGCTGGTGGACCGCGTGCCGCCACGCATTCTCTACAGCGTGGCGTTGCTGCTGTGGTCGGTGGCCACGGTGATGCTCGGTTTCGCTGCCAGCTTCATCGCGCTGTTTGTCCTGCGCATGGCCGTCGGCGCCCTGGAGGCGCCGGCTTATCCAATCAACAGCCGCGTGGTTACCACTTGGTTTCCCGAGCGTGAACGGGCCACGGCAATCGGTTTTTATACGTCCGGGCAATTTGTCGGCCTGGCATTCCTGACGCCGGTCCTGGCCTGGCTGCAGCATGCCTTCGGCTGGCACATGGTGTTCGTGGTGACCGGTGCCGTCGGCATTCTCTGGGCGGTGATCTGGTACGCGGTGTATCGCGAGCCGCGGGATTTCAAAGGCGCCAACGCCGCTGAAATCGAACTGATCCGCGAAGGGGGCGGGCTGGTGGATATCCAGGCCGAGACGGCCAAGGCCAAGGCGAAATTCAGCTGGACCGACCTTGGGATAGTCCTGACCCAGCGCAAGCTCTGGGGGATTTACCTGGGCCAGTTCTGCCTCAACTCCACGCTGTGGTTCTTCCTGACGTGGTTTCCGACCTACCTGGTGAAATATCGCGGCATGGATTTCATCAAATCCGGCTTGCTGGCGTCGCTGCCGTTCCTCGCGGCGTTTGTCGGCGTGTTGTGTTCCGGGTTCTTTTCCGACTGGCTGATCCGTCGCGGCGCCACGGTGGGGTTCGCGCGCAAGCTGCCGATTATTGGTGGTCTGTTGATTTCCACGGCAATCATCGGCGCCAATTTCGTCGAGTCGACGCCGCTGGTGATTGCATTCCTGGCCCTGGCCTTTTTCGGCAACGGCCTGGCGTCGATCACCTGGTCGCTGGTATCGACTTTGGCGCCGGCACGGCTGTTGGGATTGACCGGTGGGGTGTTCAATTTCATCGGCAACCTGGCGGCCATCGCCACGCCGATCGTCATTGGTTTTCTCGCCAGCGGCGATTCGTTTGCCCCGGCCATCACCTACATCGCCGTTCTGGCGTTGATTGGCGCGCTGTCCTACATCCTGCTGGTCGGGAAAGTCGAGCGCATCGAGTTGTAG	MQAHTLSAQASLVTPSRKRFFIMVLLFITVVINYLDRSNLSIAAPALTSELGIDPIHVGLIFSAFGWTYAAMQIPGGWLVDRVPPRILYSVALLLWSVATVMLGFAASFIALFVLRMAVGALEAPAYPINSRVVTTWFPERERATAIGFYTSGQFVGLAFLTPVLAWLQHAFGWHMVFVVTGAVGILWAVIWYAVYREPRDFKGANAAEIELIREGGGLVDIQAETAKAKAKFSWTDLGIVLTQRKLWGIYLGQFCLNSTLWFFLTWFPTYLVKYRGMDFIKSGLLASLPFLAAFVGVLCSGFFSDWLIRRGATVGFARKLPIIGGLLISTAIIGANFVESTPLVIAFLALAFFGNGLASITWSLVSTLAPARLLGLTGGVFNFIGNLAAIATPIVIGFLASGDSFAPAITYIAVLALIGALSYILLVGKVERIEL	PGPT0002190_511	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_GALACTONATE_TRANSPORT,PGPT0002190-dgoT-K08194	NA	NA
D1-35_02088	804	xynR_1	COG1414	HTH-type transcriptional regulator XynR	ATGCAGCAAGACGATCCAAAAATCACCAAGGACGCCGCGCCTACAGGCACCCAGACATTGCTGCGTGGCCTGGGCGTCGTCCAGGCGGTCGCCAGCGGCGCCCGTGACTTGAAGGAAATCGCCCGGCTGATCGGCACCACTCGCAGCACCACCCATCGCCTCGCCAGTTGCCTGGTGGACGAGCGTTATCTGCGCGTGGTGCCGCAAGTGGGCTATCTGCTGGGGCCGAAGCTGATCGAGCTGGGTTTCCAGGCGCGGGAAGAACTGCCGTTGGTGAGCCTGGCGGGGCCATACCTGGACGAGCTGTCGGCGCTCACCGGAGACACCGTCCACCTGGCGATTCGCGAGGGCGACGAGGTCCTGTACCTGTTGAAAAATCCGGGCCGCAACGGACCGGAAATGCGCTCACGGGTGGGCCACCGCATGCCGCTCGCGCGCACCGGGATCGGCAAGGCACTGATGCTCGATGACTCCCAGGAGCAATGGAAAAGGCTGTACGAGATCAGCCTTCCGGCGGGTGGGAAGAATCAGTTCTGGCCCCAGCATCAGGAGCAATCCTGGGAGCAGTTCCAGCAACGAATGGTGGAATACGTAGCAGGCGGCTATGCCTTCGACCTCGAAGACAACGAACCGTCGATTCGTTGCGTGGCGGCACCGATCCGCGACGCCGGCAAGCGTATCGTCGCCGGTATCAGCATCGCCAGCACCGTGCCGTACATGCCGCTGGAAAAGATGGCCGAGCTGATTCCCTTGGTCAAAGGCGTCACCGCGCGGCTGTCGGCGGAGCTGGGCGCCAAGGTCTGA	MQQDDPKITKDAAPTGTQTLLRGLGVVQAVASGARDLKEIARLIGTTRSTTHRLASCLVDERYLRVVPQVGYLLGPKLIELGFQAREELPLVSLAGPYLDELSALTGDTVHLAIREGDEVLYLLKNPGRNGPEMRSRVGHRMPLARTGIGKALMLDDSQEQWKRLYEISLPAGGKNQFWPQHQEQSWEQFQQRMVEYVAGGYAFDLEDNEPSIRCVAAPIRDAGKRIVAGISIASTVPYMPLEKMAELIPLVKGVTARLSAELGAKV				NA	NA	NA	NA	NA
D1-35_02089	1665		COG0644	Electron transfer flavoprotein-ubiquinone oxidoreductase	GTGGAACGCGAATACATGGAATTCGACGTGGTCATCGTCGGTGCCGGCCCCGCTGGCCTGTCTGCCGCTTGCCGACTGAAACAGAAGGCCGCCGAAGCCGGTAAGGAAATCAGCGTCTGCGTGGTCGAAAAAGGCTCCGAGGTCGGTGCGCACATTCTCTCCGGCGCGGTGTTCGAACCGCGTGCCTTGAACGAACTGTTCCCGGACTGGAAAGAACTCGGCGCGCCGTTGAACACGCCGGTCGTGCGCGATGACATTTATGTCCTGCGAAACGCCGAGGCGGCGAGCAAAATCCCCGACTTCTTTGTGCCCAAGACCATGCACAACGAAGGCAACTATATTATTTCCCTGGGCAACCTGTGCCGCTGGCTGGCCCAGCAGGCCGAGAACCTGGGCGTGGAAATCTACCCTGGCTTCGCCGCCCAGGAAGCGCTGTTCGATGAAAACGGCGTGGTTCGCGGCATCATCACCGGCGACCTGGGTGTCGACCGTGAAGGCAACCCGAAGGAAGGCCTCTACACGCCCGGCATGGAACTGCGTGGCAAATACACGCTGTTCGCCGAAGGCTGCCGTGGTCACATCGGCAAGCAACTGATCAAGCGCTTCAACCTGGACAGCGAGGCCGACACCCAGCACTACGGCATCGGTCTGAAAGAGATCTGGGAAATCGACCCGGCCAAGCATCAGCCTGGCCTGGTGGTGCATACCGCCGGTTGGCCGCTGGACATCATGGGCACCGAAAACACCGGCGGCTCGTTCCTTTATCACTTGGAAAACAATCAGGTGGTGGTCGGTCTGATCGTCGATCTTTCCTACAGCAACACCTTTCTGTCGCCGTTCGACGAGTTCCAGCGCCTCAAGCATCACCCGGTGCTCAAGCAGTACCTGGAAGGTGGCAAGCGCGTCAGTTACGGTGCTCGCGCCATCGCCAAGGGCGGCCTGAATTCGTTGCCGAAAATGGTCTTCAAGGGCGGCGCGCTGATCGGTTGCGACCTCGGTACGTTGAACTTCGCCAAGATCAAGGGCAGCCACACCGCAATGAAGTCGGGCATGCTCGCCGCCGAAGCAGTGGCTGATCGCCTGTTCGCCGAGTCCGAAGGCGGTGACGAACTGACCGCCTATGTCGATGGCTTCAAGAGCAGCTGGCTGTACGAAGAACTTTTCGCCAGTCGCAACTTCGGCGCAGCGATCCACAAATACGGCGCGATCGTCGGCGGCGGCTTCAACTGGCTCGACCAGAACATCTTCGGCGGCAAGATTCCGTTCACCCTGCGCGATACCAAGCCGGACTATGCGTGCCTGAAACTGGCGGCCGATTGCAAGAAGATCGACTACCCGAAACCGGACGGCAAGATCAGCTTCGACAAGCTCAGTTCGGTGTTCATCTCCGGTACCAACCATGAAGAAGAACAGCCTTGCCACCTGAAGCTGACCGACCCGAGCATCCCGATCGGCAAGAACCTGCCACTGTACGACGAACCGGCCCAGCGCTACTGCCCGGCCGGCGTGTATGAAGTGATCACCAAGGAAGACGGTGAGAAGCGCTTCCAGATCAACGCCCAGAACTGCGTTCACTGCAAGACCTGCGACATCAAGGACCCTGCACAGAACATCACCTGGGTCACGCCGGAAGGCGCCGGCGGACCGACCTACCCGAACATGTAA	MEREYMEFDVVIVGAGPAGLSAACRLKQKAAEAGKEISVCVVEKGSEVGAHILSGAVFEPRALNELFPDWKELGAPLNTPVVRDDIYVLRNAEAASKIPDFFVPKTMHNEGNYIISLGNLCRWLAQQAENLGVEIYPGFAAQEALFDENGVVRGIITGDLGVDREGNPKEGLYTPGMELRGKYTLFAEGCRGHIGKQLIKRFNLDSEADTQHYGIGLKEIWEIDPAKHQPGLVVHTAGWPLDIMGTENTGGSFLYHLENNQVVVGLIVDLSYSNTFLSPFDEFQRLKHHPVLKQYLEGGKRVSYGARAIAKGGLNSLPKMVFKGGALIGCDLGTLNFAKIKGSHTAMKSGMLAAEAVADRLFAESEGGDELTAYVDGFKSSWLYEELFASRNFGAAIHKYGAIVGGGFNWLDQNIFGGKIPFTLRDTKPDYACLKLAADCKKIDYPKPDGKISFDKLSSVFISGTNHEEEQPCHLKLTDPSIPIGKNLPLYDEPAQRYCPAGVYEVITKEDGEKRFQINAQNCVHCKTCDIKDPAQNITWVTPEGAGGPTYPNM				NA	NA	NA	NA	NA
D1-35_02090	750	etfB_1		Electron transfer flavoprotein subunit beta	ATGAAGGTTCTTGTAGCTGTCAAACGAGTGGTCGACTATAACGTCAAGGTTCGCGTCAAGGCGGACAACTCCGGCGTCGACCTCGCCAACGTCAAGATGTCGATGAACCCCTTCTGCGAAATCGCCGTGGAAGAAGCCGTACGCCTGAAAGAGAAAGGCGTGGCAACCGAGATCGTTGTCGTCTCCATCGGCCCGACCACCGCCCAGGAGCAACTGCGCACTGCGCTGGCGCTGGGTGCCGATCGCGCCATCCTCGTCGAATCCGCCGAAGAGCTGACTTCCCTGGCCGTTGCCAAACTGTTGAAAGCCGTTGTCGACAAGGAACAGCCACAGCTGGTGATCCTCGGCAAACAGGCCATCGACAGCGACAACAACCAGACTGGCCAGATGCTTGCTGCGTTGAGCGGCTACGGCCAGGGCACCTTCGCTTCGAAAGTCGAAGTGTCCGGCGACAGCGTTGCCGTGACCCGCGAGATCGACGGCGGCGCGCAGACGGTTTCCCTGAAACTGCCAGCCATTGTCACCACCGACCTGCGTTTGAACGAGCCGCGTTATGCGTCCCTGCCAAACATCATGAAAGCCAAGAAGAAGCCGCTTGAAGTGCTGACTCCGGATGCTTTGGGCGTTTCCACCGCCTCCACCAACAAGACCCTGAAGGTCGAAGCGCCGGCTGCACGCAGCGCGGGCATCAAGGTCAAGTCGGTGGCTGAACTGGTCGAGAAACTGAAAAACGAAGCGAAGGTAATCTGA	MKVLVAVKRVVDYNVKVRVKADNSGVDLANVKMSMNPFCEIAVEEAVRLKEKGVATEIVVVSIGPTTAQEQLRTALALGADRAILVESAEELTSLAVAKLLKAVVDKEQPQLVILGKQAIDSDNNQTGQMLAALSGYGQGTFASKVEVSGDSVAVTREIDGGAQTVSLKLPAIVTTDLRLNEPRYASLPNIMKAKKKPLEVLTPDALGVSTASTNKTLKVEAPAARSAGIKVKSVAELVEKLKNEAKVI	PGPT0001035_4224	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001035-fixA|etfB-K03521	NA	NA
D1-35_02091	930	etfA_1	COG2025	Electron transfer flavoprotein subunit alpha	ATGACTATCTTGGTAATCGCCGAACACGATAACAAGGCGCTGGCTCCGGCCACGCTGAACACCGTTGCTGCCGCAGCCAAAATCGGTGGCGATCTGCACGTGCTGGTGGCCGGGCAGGGCGCAAGTGCCGTTGCCGAAGCTGCTGCAAAAATTGCCGGCGTGGCAAAAGTACTGTCGGCCGACAACGCCGCCTACGCACATCAGCTGCCGGAAAACGTTGCTCCGCTGGTGGCCGAGCTGGGCAAGGGCTACAGCCACATCCTGGCTGCCGCTACCTCCAACGGCAAGAACATCCTGCCGCGCGTGGCTGCCGCACTGGACGTCGACCAGATCTCCGAAATCATCTCGGTGGAAAGCGCCGATACTTTCAAGCGCCCGATCTACGCTGGCAACGCCATCGCCACCGTACAATCGACCGCTGCGATCAAGGTCATCACCGTGCGCGCCACCGGTTTCGACCCGGTTGCCGCCGAAGGTGGCTCGGCTGCCGTTGAAGCGGTAGGCGCTGCTCACGACGCCGGCATCTCCAGCTTCGTCAACGAAGAACTGGCCAAGTCCGACCGTCCTGAACTGACCGCTGCCAAGATCGTCGTTTCCGGCGGTCGCGGCATGCAGAACGGTGACAACTTCAAGCACCTGTACGCCCTGGCCGACAAGCTGGGCGCTGCCGTTGGTGCTTCGCGCGCCGCGGTCGACGCCGGTTTCGTGCCGAACGACATGCAGGTCGGCCAGACCGGCAAGATCGTTGCGCCACAGCTGTACATCGCCGTCGGTATCTCCGGCGCGATCCAGCACCTGGCCGGCATGAAAGACTCCAAGGTGATCGTTGCGATCAACAAGGACGAAGAAGCGCCGATCTTCCAGGTGGCCGATTATGGTCTGGTGGCTGATCTGTTCGAAGCCATCCCCGAGCTGGAGAAGCTGGTCTAA	MTILVIAEHDNKALAPATLNTVAAAAKIGGDLHVLVAGQGASAVAEAAAKIAGVAKVLSADNAAYAHQLPENVAPLVAELGKGYSHILAAATSNGKNILPRVAAALDVDQISEIISVESADTFKRPIYAGNAIATVQSTAAIKVITVRATGFDPVAAEGGSAAVEAVGAAHDAGISSFVNEELAKSDRPELTAAKIVVSGGRGMQNGDNFKHLYALADKLGAAVGASRAAVDAGFVPNDMQVGQTGKIVAPQLYIAVGISGAIQHLAGMKDSKVIVAINKDEEAPIFQVADYGLVADLFEAIPELEKLV	PGPT0001040_5001	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522	NA	NA
D1-35_02092	825			hypothetical protein	ATGGATCTTCGCCATTTGGCCGGTTGGTCGTTGTTGTGGGCATTGGCTTGCATGCCGGGCCTGTCTGTCGCCGCTGGCAAATGTGAGCGTCTGGTCGCCACTGGCAGCCCCGATGCGCCGCCTTATCTTTGGCAAGACTCCCAGGACCCCAAGCACCTGATCGGCGCTGGCGCCGACCTGCTGGAGGAGGTGGCTAAGGCGCTGGGCATCAAGATCGAGCTGCTCTACGCCGGCAAGCGTGCCCAGGCATTGGACGAGGTGCGCAGCGGGCGCATGGACCTGCTCACCGATGCTCCGCTGACCACGAACGGGCTGGACAGCCTCGATTACGTGCATCCGGCCTTGCTGGAAAATGATTACCTGGTCTGGACCCGCAAGGACTCGACGTTGCTCATCACCCGGCCCGAGGATCTTCATGGACATCCCGGAGCCTTGTCGGAGAAGGCCCGAATGACCCAGGGATTCAGCGTCTTTGCCGAGCAGAATCTAACCCTGACCCGGACACCCAACCTGACCCAGGCCTTTCAGAAATTGCTGCTGGGTGAAGTGGAATATGTCTTGGCAGGACGCTACTCGGGCATGGCGATGGCGCAGACATTGGGGATGGCCAACGATCTGCAGGCGGCACCGCAACCGGTGGATAAACCGGGATTGTTCCTCGCGGTTTCCCATAACTCCGCCTGCAACGATCCATGGTTGCGCGGACAGCTGGCGCAAAAGATGACAGAATTGGCCGCGTCCGGCCTGACGGAGGCTGTGTTGCAGCGCAATCTGGAGTGTTGGAGAACACAGTTGCAGCCACCTGTCAGTGCCCCAAAACCGTAG	MDLRHLAGWSLLWALACMPGLSVAAGKCERLVATGSPDAPPYLWQDSQDPKHLIGAGADLLEEVAKALGIKIELLYAGKRAQALDEVRSGRMDLLTDAPLTTNGLDSLDYVHPALLENDYLVWTRKDSTLLITRPEDLHGHPGALSEKARMTQGFSVFAEQNLTLTRTPNLTQAFQKLLLGEVEYVLAGRYSGMAMAQTLGMANDLQAAPQPVDKPGLFLAVSHNSACNDPWLRGQLAQKMTELAASGLTEAVLQRNLECWRTQLQPPVSAPKP	PGPT0020800_7740	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
D1-35_02093	360			hypothetical protein	GTGACTATTCGACCTCTTTTCGCTGCCCTGGCCGTTCTGGCTCTGGCGGGTTGTGCAGCCGATCCGGCGCCGAATGAACAGCTGCGCCTGACTGAACAGGCCATCGAGCAGGCCCATGCGGTGGGCGCCACCGCCGATGACGTGCCTGAACTCAAACTCGCCGAAGAAAAATTCGCCCGCGCCAAGAGCAACATGGCCGACGAATCCTACAAGAAGGCACGCATGCGCGCCGAGCAGGCCGAGCTGGACGCGCGCCTGGCCGAAGCGAAGGTGCTCAGTCTCAAGCGCCAGGAGCAGTTGAACGTGCTCGATACTCGAATCAAGCGCTTGCGCAAACAGTTGAGGGATGATGCCCAATGA	MTIRPLFAALAVLALAGCAADPAPNEQLRLTEQAIEQAHAVGATADDVPELKLAEEKFARAKSNMADESYKKARMRAEQAELDARLAEAKVLSLKRQEQLNVLDTRIKRLRKQLRDDAQ				NA	NA	NA	NA	NA
D1-35_02094	810	pal_7		Peptidoglycan-associated lipoprotein	ATGAAGCCGTCCCATGTATGTGGCAGCCTGGTCCTCGCGGGCCTCGCCAGTTTGTATGGCTGCGCCGGGCAGCGTAGCGAAGCGGCGCTGGAACAGGCCAGTGCCAGCTTCCAGAAGGTCAAGGAAGACGCCAATGTCCTGCGCGCCGCGCCCAAGGATGTCATCCGCGCCGGCGAATCCCTGGCCCGGGCCGATCGCCTGTCCAGCTATTGGGGCAGCGGCGAGGATGTCCAGCATTACGCTTACCTGAGCCAGCGCTACAGCGAGATCGCGCGGGAACACAGCAATCAGTTGCTCAACGAAGAGCGCGCGGCGAAGCTTGAGCTGGAACGCCAGCGCCTGCAATTGGCCTTGCGCGAATCCAAGTTGCTGAGCGTCCAGCAGCAAGGCAAGTGGCTGGAAGAACAGATCATGGCGATGGCCACCACCCAGACTGATCGCGGCTTGGTGATGACCCTGGGTGACGTGCTGTTCGACACCGGCGAAGCGGAACTGAAGAACTCGGCCAACCGCGTGGTGCTCAAGATCGTGCAGTTCCTGCAGCTCAATCCCAAGCGCGTGGCGCGTATCGAGGGCTACACCGACAGCACCGGTGGCAAGCAGGAGAACCTCAAGCTGTCCCGTGATCGCGCGCAGGCGGTGGCGGACGTGCTGGTGGACCTGGGGATCGATGAAAAGCGCATTCAGGTCGAAGGCTACGGCGATCAATACCCGGTGGATGTCAACGCTTCCGAGCGTGGCCGGGCCCAGAATCGTCGTGTGGAAATCGTCTTTTCCGACGAGAAAGGCCAGCTCGGCGCCGCCCGCTGA	MKPSHVCGSLVLAGLASLYGCAGQRSEAALEQASASFQKVKEDANVLRAAPKDVIRAGESLARADRLSSYWGSGEDVQHYAYLSQRYSEIAREHSNQLLNEERAAKLELERQRLQLALRESKLLSVQQQGKWLEEQIMAMATTQTDRGLVMTLGDVLFDTGEAELKNSANRVVLKIVQFLQLNPKRVARIEGYTDSTGGKQENLKLSRDRAQAVADVLVDLGIDEKRIQVEGYGDQYPVDVNASERGRAQNRRVEIVFSDEKGQLGAAR				NA	NA	NA	NA	NA
D1-35_02095	1443	norG_3	COG1167	HTH-type transcriptional regulator NorG	ATGACCAACCTCCTGCTCTACCAACGTATTGCTCAACAGCTGGCTGAAGATATCCGGCGCGGTGTATATCAGCCCGGCGAACGCGTGCCGTCGGTGCGCAAGATGAGTTCGCAGCTCAACGTCAGCCATGCCACTGTGTTGCAGGCCTATGCCAACCTGGAAGACCAGGGGTTGATCCGGGCGCGGCCGCAGTCGGGTTACTACGTGCACCAGACGCCGGCCCTGACCGCGCCGACGCCGGACATCGCCCGGGTCGAGCGCCCCGGCCTGGTGACGCGCAGCAGCATCATCCAGCAGGTGTTGGTCGAGTCGCGTCGTGAGGGGGTCTTCCCGCTGGGCGCGGCGGTACCGAGCGTCGATTATCTGCCAGTGCGGGCGTTGCACCAGCAGTTGGCCAAGGTCACACGGTTTCACAGTCCGCGGGCCTTCAGCTACATGTTCAGCCCCGGCTTCGAGCCGTTACGGCGCCAGGTGGCGATTCGCATGCGTGATGCCGGAGTCGTGGTCGACCCCTCCGAAGTGGTGATTACCCATGGCTGCGTCGATGCGTTGCAAATGTCGCTGCGCGTGCTGACCCGGCCGGGGGACCTGATCGCCGCCGAGTCGCCGACCTATTACGGTTTGCTGCAGTTGGCGGATCTGTTGGGACTCAAGGTGATCGAGATCCCCAGCGATCCGGTCACCGGTATGAGCCTTGAAGCCTTGCAGCTGGCGGCCAACCAATGGTCGATCAAGGCGTTGGTCCTGACCACGCGCCTGAGCAATCCCCTCGGCGGCACGATGCCTGAGGAGCGGCAAAAGCAGCTGCTGCGCCTGGCGTCGGATTTCGACATTCAGATTGTCGAGGACGACATTTACGGCGAACTGATGTTCGAGCAGGGGCGTACCAAGGCACTCAAGGCGTACGACCGCCTGGATCGGGTGATCTACTGCTCGAGTTTTTCCAAGACCTTGTCGCCGGGTGTGCGCATCGGCTGGATGACCGCCGGCAAGTTCCAGCAAGAGATCCAGCGCCTGCAAACGTTCAGTACTCATTCGGCGTGCAGCGTCACGCAGATGGGCATCGCGGCGTACCTGGAAAACGGCGGCTACGACCGGCACCTGCGCTACATTCGCCAGGAGTACCGCAAGAACCTCAGCGCCTTTCAACTGGCTGTGCAGCAGTATTTTCCCGAAGGCACGCAAATGAGCCGTCCTACCGGGGGTTTCATCCTTTGGGTCAGCCTGCCGGGACGGGTCAATACCCAGGAGTTGCACGTGCGGGCGCTGCAACAGGGCATCAGCATCGCCCCCGGGCTGATCTTCAGTAACACCGAGCAGTTCAACCACTGCATTCGCCTGAACTGCGGAACACCCTGGAACCGCGAGGCAGAGCGGGCCCTGATGACGCTGGGGCTGTTGGCCACCCAGCTGTGCCAGGAGACCGCGAGCGGGCTCCTTTAA	MTNLLLYQRIAQQLAEDIRRGVYQPGERVPSVRKMSSQLNVSHATVLQAYANLEDQGLIRARPQSGYYVHQTPALTAPTPDIARVERPGLVTRSSIIQQVLVESRREGVFPLGAAVPSVDYLPVRALHQQLAKVTRFHSPRAFSYMFSPGFEPLRRQVAIRMRDAGVVVDPSEVVITHGCVDALQMSLRVLTRPGDLIAAESPTYYGLLQLADLLGLKVIEIPSDPVTGMSLEALQLAANQWSIKALVLTTRLSNPLGGTMPEERQKQLLRLASDFDIQIVEDDIYGELMFEQGRTKALKAYDRLDRVIYCSSFSKTLSPGVRIGWMTAGKFQQEIQRLQTFSTHSACSVTQMGIAAYLENGGYDRHLRYIRQEYRKNLSAFQLAVQQYFPEGTQMSRPTGGFILWVSLPGRVNTQELHVRALQQGISIAPGLIFSNTEQFNHCIRLNCGTPWNREAERALMTLGLLATQLCQETASGLL				NA	NA	NA	NA	NA
D1-35_02096	405			hypothetical protein	GTGGCGGCTGCGGCACAGGAAAAACCCGCGGCCAGCGCCACGAAGAATTCTGGCAAGGCACCCGCAGCGGTGAAAAAAGCCCCCGCGAAGAAAGCCGCGAATACCAGAAAAAAACGTGCCCCCGTCGCCTCCAAAAGCAAATCCGCTCGCGAAATTGCCAAGACCCGACTGCCACCGGCGAAGCTCGATTTGAGCTTGCCCAATGAAATGGTCGAGGAGCTGAAGCCCCCGGGAACTGTGCCGCTGCCCAAGCGTGAGCCGTTGTTGCCGCCCATGTTCGGCGATAAGCCTGGGCCGTTCCAACTCAACGGACGTTTGCTGAGCAATGAAATGCAGCTGCCGTTGCGCAACCAGGAGCGCAACGAAGTGGAAGGCGCAGCGCTGGAGTTCGAATTCAAGCAGTAG	MAAAAQEKPAASATKNSGKAPAAVKKAPAKKAANTRKKRAPVASKSKSAREIAKTRLPPAKLDLSLPNEMVEELKPPGTVPLPKREPLLPPMFGDKPGPFQLNGRLLSNEMQLPLRNQERNEVEGAALEFEFKQ				NA	NA	NA	NA	NA
D1-35_02097	255			hypothetical protein	ATGAAATGCCGCGAGGGCTGTGGCGCCTGCTGCATCGCCCCCTCCATCAGCTCACCCATCCCAGGGATGCCTCAAGGCAAGCCGGCGGGCGAGCGTTGCGTGCAGTTGTCGGTCGACAATCTGTGCCAGATATTCGACCGGGCCGATCGCCCTGCGGTGTGCTCGGCGTTTGAGGCTGACATCGAGGTCTGTGGCGACAGCAGCGAAGACGCCATTCGACTGATCGGTTGGTGGGAGCAAGTCACGGCAGCGTAA	MKCREGCGACCIAPSISSPIPGMPQGKPAGERCVQLSVDNLCQIFDRADRPAVCSAFEADIEVCGDSSEDAIRLIGWWEQVTAA				NA	NA	NA	NA	NA
D1-35_02098	609			hypothetical protein	ATGGGTTCGCTGCATCGTATGGCTGTGTTGTGTGGTTTGACCGTGTTGCTGGCGACGGCTACCGCCCAGGCTGAGGATTGGCAGGTTGCCAAGGAAAAGGACGGCATCAAGGTTTCACTCAGTGAAGTCAGCCTTTCCAAGTACAAGGCCTACCAAGGCGTGACCGTGATGAAGACCACCATGGCGAAGTTGCGCGCCTTGCAGGAGGACGTATCGGGTGCCTGTGCCTGGATTCATGAATGCAAGAGCCAGAAGCTGCTCAAGCACGAGGGCGACAAGAGCTGGACCTACACTCGATTCAACACGCCGTGGCCGGTTACGCCGCGTGACTCCGTGCTGGAAGTTACCACCGTCGAAGGCGCGGATGGCAGCCTGACCCGCAACCTCAAGGGCGTGCCTACTTACGCTCCTGAAGAAAAAGGTTTTGTGCGAGTGGCACAAGTCGACGGTTTCTGGAAATTCACTCCCAAGGGCGCGGATCAGGTCGAGGTGATTTACCAGGTCCATACCGAGCCGGGGGGCGACGTTCCGTCCTGGCTGGCTAACAAGTTCGTGGTGGATGCGCCGTTCAATACCCTGAAAGCGTTGAAAGAACGCGCCGAAAAATAG	MGSLHRMAVLCGLTVLLATATAQAEDWQVAKEKDGIKVSLSEVSLSKYKAYQGVTVMKTTMAKLRALQEDVSGACAWIHECKSQKLLKHEGDKSWTYTRFNTPWPVTPRDSVLEVTTVEGADGSLTRNLKGVPTYAPEEKGFVRVAQVDGFWKFTPKGADQVEVIYQVHTEPGGDVPSWLANKFVVDAPFNTLKALKERAEK				NA	NA	NA	NA	NA
D1-35_02099	237			hypothetical protein	ATGCAAAAGTGGGAAATCACCTTCGTTGACGATCACGGCGAAACGATCGCCGAGCAGTTTGATTACGCCCAGGAGCCCACGATGGAACAAGCGGCACAACTGATTCAGGAAAAGCTGGTACCTCTCTCGAAAGAGCTGGACCTCAACGACCTGGAGGGCCGCACCGACGACCCCACGGTCAAGAGCCTGAAAACCCAGAACAGCATTGAGATCATCAGCATTAAACCGGTTTCATGA	MQKWEITFVDDHGETIAEQFDYAQEPTMEQAAQLIQEKLVPLSKELDLNDLEGRTDDPTVKSLKTQNSIEIISIKPVS				NA	NA	NA	NA	NA
D1-35_02100	342			hypothetical protein	ATGAGCACAGCCTATCAAGAAGATGTCAGCACCAGCGTGTTGCGCCGCATGAAAGAAGGCGGTTTCGATTTCTCCCAATTCCATCCCATCGAGTTCTACGCCATTTTTCCCGACGAGGAACGGGCGCGCAGGGCGGCAGGTCATTTTCGGGGAGAATCGTTGAATGCGCAGATCAGCGCTCGGGAAGATGGAGCCTGGTCACTGGAACTGAGCCGGGTGATGTACGCCACTTATGACGATATCGGCGACTTCGAACTGAATTTCGAGGCGGTGGTTGAGCCACTGGGTGGCATCATTGAAGGGTGGGGCGTCAAGCAGGAGATCCGTCGCCTGCAGGCCTGA	MSTAYQEDVSTSVLRRMKEGGFDFSQFHPIEFYAIFPDEERARRAAGHFRGESLNAQISAREDGAWSLELSRVMYATYDDIGDFELNFEAVVEPLGGIIEGWGVKQEIRRLQA				NA	NA	NA	NA	NA
D1-35_02101	819			hypothetical protein	ATGGAAGGCGATTCATTGAAAGCTCTCATTGCGATCGGGGCGCTGCTGCTCAGCACGCCTCTATTTGCCGCGCAACTCGTGCTTGAACTGGGCACGCAGGCACGCACCTGGCAAACCGAGGAACTGCTCAAGCATCCTGAAGCTCGGACGGTTCGGATCAATGAAGATGTTTCCTACAAGAAACCCATGAGCTATCGCGCCGTACCCCTCACGGCGTTGTTGACTGGCGTCCAGCCGGATGACCACTTGCAGGCCGTGGCGCTGGATGGCTTTGCCGCGGAAATGCCCGCTGCACCGTTGCTCAACCAGAGTGGCGCCCGTGCGTGGCTGGCGATCGAAGACCCCGCAGCCCCCTGGCCGTCGCTGGGCGAGGGCAAGCGCAGTGCCGGGCCCTTTTACTTGGTCTGGACCGATCCCCAGGCGGGACATATCAGCCCCGAACAGTGGCCATACGCGCTGGCGAGCATCAAGCGCCTGTCCGCGGTGGCCGAGCGCTTCCCTGCCCTGCTGCCCGCCCCGGGCCTGGCCAAGGACGACCCGATCAATCAGGGTTTTGCGCTGTTCCAGAAAAACTGCCTGGCCTGCCACCGCCTCAACGGTGCAGGCGATGCCCAGTTCGGCCCGGACCTGAACATTCCCTTCAATCCAACCGAGTACTTCTCGGGGGATTTTCTCAAGCGTTACATACGGGATCCGCAGAGCCTGCGGCGCTGGCCTCAAGGGAAGATGCCGGGGTTCTCGGCGGCGGTGCTGCCGGATGCGGAGCTTGATTTGCTGGTGGGATATTTGAAGCATATGGCGGGACGCAAGCAGCCGTAG	MEGDSLKALIAIGALLLSTPLFAAQLVLELGTQARTWQTEELLKHPEARTVRINEDVSYKKPMSYRAVPLTALLTGVQPDDHLQAVALDGFAAEMPAAPLLNQSGARAWLAIEDPAAPWPSLGEGKRSAGPFYLVWTDPQAGHISPEQWPYALASIKRLSAVAERFPALLPAPGLAKDDPINQGFALFQKNCLACHRLNGAGDAQFGPDLNIPFNPTEYFSGDFLKRYIRDPQSLRRWPQGKMPGFSAAVLPDAELDLLVGYLKHMAGRKQP				NA	NA	NA	NA	NA
D1-35_02102	96			hypothetical protein	ATGTTCAAACATTCGAAAGTTCGTCAAGCCGGACTCATTCTCTTTGCCACTACGCTGCTGTTGATTTTGCCGAACATTACCAAGGTCATCGGCTGA	MFKHSKVRQAGLILFATTLLLILPNITKVIG				NA	NA	NA	NA	NA
D1-35_02103	1206	fadA_3	COG0183	Putative acyltransferase	ATGACCCAAGCTTTGATTTTCGATGCATTACGCACGCCCCGCGGCAAGGGCAAGGCCGATGGCGCCCTGTATACCGTCAAGCCGGTGAACCTGGTCGCCGGCCTGCTCGACGCGTTGCGCCAGCGCATGGACCTGGACACCCGTCACGTCGATGACATCGTGCTCGGCTGCGTGACTCCGGTAGGCGACCAAGGCGCCGACATTGCCAAGACGGCGGCCCTGGTGGCGGGCTGGGACGTCAGCGTGGCGGGCGTGCAACTCAACCGTTTCTGCGCCTCGGGCCTTGAAGCGGTGAACCTGGCGGCGATGAAAGTGCGCTCCGGCTTCGAGGACCTGGTGGTGGCCGGCGGCGTGGAGTCGATGTCGCGGGTACCGATGGGCAGCGATGGAGGCGCGTGGGCGCTGGACCCACAATCGAACCTGCAGGGGCATTTTGTCCCCCAGGGCATTGGCGCGGACCTGATCGCTACCCTGGAAGGCTTCAATCGCGAAGAGGTCGATACCTTCGCGCTGCAATCCCAGCGCAAGGCCGCTCGGGCTCGGGACGACGGATCGTTTGCTAAATCCCTGGTGGCGGTGCGGGAACAGAATGGCATCGTGCTGCTGGAACACGACGAATTCATCCGTGGCGACTCGACCCTTGAAGGGCTGGGCAAGCTTCGGCCGAGTTTCGAGGCGATGGGCCAGATGGGTTTCGACGCGACGGCGTTGCGTGTCTATAGCCATGTCGAACGAATCAATCATGTGCACACCCCGGGCAACAGCTCGGGCATCGTCGACGGCGCGGCGCTGATGCTGATCGGCACCGAGGCAAAGGGCCGCGAGCTGGGCCTGGAGCCCCGGGCGCGAATCGTCGCCACTGCGGTCACCAGCACCGAGCCGACCATCATGCTCACTGGCCCGGCCCCGGCCACCCGCAAGGCCTTGGCGAAAGCCGGGTTGCGGGTGGAAGACATCGATCTGTTCGAGGTCAACGAAGCCTTCGCCTCGGTGGTGCTCAAATTCATCAAGGACATGGCCATCGATCCCGCAAAGGTGAATGTCAACGGCGGTTCTATCGCCATGGGGCACCCACTGGGTGCCACCGGGTGCGCAATTCTTGGCACTTTGCTCGATGAGCTGGAGGCGCGTCGCCTGCGTTACGGCCTGGCGACGCTGTGTGTCGGCGGCGGAATGGGCATCGCCACCATCATCGAACGCCTCTGA	MTQALIFDALRTPRGKGKADGALYTVKPVNLVAGLLDALRQRMDLDTRHVDDIVLGCVTPVGDQGADIAKTAALVAGWDVSVAGVQLNRFCASGLEAVNLAAMKVRSGFEDLVVAGGVESMSRVPMGSDGGAWALDPQSNLQGHFVPQGIGADLIATLEGFNREEVDTFALQSQRKAARARDDGSFAKSLVAVREQNGIVLLEHDEFIRGDSTLEGLGKLRPSFEAMGQMGFDATALRVYSHVERINHVHTPGNSSGIVDGAALMLIGTEAKGRELGLEPRARIVATAVTSTEPTIMLTGPAPATRKALAKAGLRVEDIDLFEVNEAFASVVLKFIKDMAIDPAKVNVNGGSIAMGHPLGATGCAILGTLLDELEARRLRYGLATLCVGGGMGIATIIERL	PGPT0008320_4601	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
D1-35_02104	2145	fadJ_2	COG1024	Fatty acid oxidation complex subunit alpha	ATGACCGAAGCCATTCGTTACGAAACCGGCCAGGACCGGATCGTTCTCCTGACCCTGGACATGCCGGGCCAGATCAGCAATACCATGAACGCGACCTATCGCGAGGCGATGGCCGCCTGCGTGGCGCGTCTGTTGGCCGAAAAAGATTCGATCGCCGGGGTGATCATCACCTCGGCCAAAAAAACCTTTTTTGCCGGTGGCGACTTGAACGAGCTGGTCAGGATAGACCCATCCGAGGCCCAGGCGTTCTATCAGATGGTCCTGGGGCTGAAAGCGCAACTGCGCGCCCTCGAAACCCTCGGTGTACCCGTCGTCGCGGCGATCAATGGTGCGGCCTTGGGCGGCGGCTGGGAAATCTGCCTGGCGTGTCATCATCGCGTAGCGCTGGACCATCCATCGGTGCAGATCGGCTTGCCGGAGGTCACCCTCGGCTTGCTGCCGGGCGGTGGCGGTGTGGTGCGGATGGTGCGGGTGCTGGGTTTGGAAAAGGCTTTGCCGTATCTGCTCGAGGGCAAGCGACTTGGCCCGCAGCAGGCGTTGCAGGCCGGCTTGATCGACGAGCTGGCGGCGGATCGCGACGAGCTGCTGGCCAAGTCCCGAGCCTGGATTCTCGCCCATCCAGATGCAATCCAACCTTGGGATGTGAAGGGGTATCGGCTTCCAGGCGGGACCCCGTCCGACCCGAAGGTCGCCCAGATGCTGGCGATCGCGCCTTCGATCCTGCGCAACAAGACCCAGGGCTGCCTGCCGGCCCCGGAAAAGATTCTCTGCGCTGCGGTAGAGGGCGCGCAGGTGGCGTTTGACGCGGCGCATCTGATCGAGACGCGCTATTTCACCGAACTCGCCACGGGACAAGTGGCGAAGAACCTGATCGGCACCTTCTGGTTTCAACTCAACGAAATCAAGGCCGGCAGATCCCGCCCACAGGGTGTTGTGCCTTATCTGACAAAAAAAGTCGGCGTGCTCGGTGCAGGCATGATGGGCGCCGGTATCGCCTGCGTCAGCGCGGTGGCCGGCATCGACGTGGTGCTCAAGGACATCGACCTGGCCGCCGCACAGAAGGGCAAGGCACGCTCGGCGGCGTTGCTGGACAAAAAAGTCGCGCGCGGCCAACTCACCGAGGAACAACGCGACGCCACGCTGGCGCGGATTCACCCTACCGACAACGATGCCGAGCTGGCCGGTTGCGACCTGATCATCGAGGCCGTCTTTGAAGACCGTTCCCTGAAAGCCAAGGTATCGTCAGCAGCCCAGGCGGCAGCGGGGCCTGAGGCGGTGATCGCTTCCAACACCTCGACCCTGCCCATCACCGGCCTGGCCGAGGCGGTGTCGGACGCGAGCAGATTCATCGGGCTGCACTTCTTCAGTCCGGTGGAAAAAATGCCGCTGGTGGAAATCATCAAGGGGGTCGGGACCAGTGATGAAACCCTGGCCCGGGCTTTCGATTTTGTCCGGCAGATCGACAAGACGCCCATCGTGGTCAACGACAGCCGGGGTTTTTTCACTTCGCGGGTGTTTGGCACCTTCATCAACGAAGGCATTGCGATGCTCGGCGAGGGCGTGAGTGCGCCGATGATCGAAACCGAAGCGCGCAAAGCCGGGATGCCGGTCGGGCCCCTGGCTGTTTCGGACGAAGTTTCCCTCGGTTTGATGAGCCATATCCGCGCTCAAACCGCCAAAGACCTGCACGCAGAAGGGAAAGCGCCGACAGAGCATCCTGCATTCGCCGTGATCGACCTGCTGCTTGATGAGTACAAACGACCAGGCAAAGCGGCCGGAGCCGGTTTTTATGACTATCCAGCCCAAGGGCAGAAGCATCTCTGGCCGGAGCTCAAGAGCCGTTTCGAGAAAGCCGATGGGCAAATCCCCGCGCAGGATATCCGCGATCGCCTGCTGTTCATCCAGGCCTTGGAAACTGTTCGCTGCGTAGAGGAAGGCGTCGTCACTTCGACGCCGGATGCCAATGTCGGCTCGGTATTCGGCATCGGTTTCGCGGCCTGGACAGGTGGGACGTTGCAGTTCATCAACCAGTACGGTTTGCCGGCATTTATCGCTCGTGCCCAGTACCTGGCCGAGCAATATGGCGAACGTTTCTCACCGCCGGCCCTGTTGCTGGAAAAAGCCGCCAGCCGGGCGACGTTCTGA	MTEAIRYETGQDRIVLLTLDMPGQISNTMNATYREAMAACVARLLAEKDSIAGVIITSAKKTFFAGGDLNELVRIDPSEAQAFYQMVLGLKAQLRALETLGVPVVAAINGAALGGGWEICLACHHRVALDHPSVQIGLPEVTLGLLPGGGGVVRMVRVLGLEKALPYLLEGKRLGPQQALQAGLIDELAADRDELLAKSRAWILAHPDAIQPWDVKGYRLPGGTPSDPKVAQMLAIAPSILRNKTQGCLPAPEKILCAAVEGAQVAFDAAHLIETRYFTELATGQVAKNLIGTFWFQLNEIKAGRSRPQGVVPYLTKKVGVLGAGMMGAGIACVSAVAGIDVVLKDIDLAAAQKGKARSAALLDKKVARGQLTEEQRDATLARIHPTDNDAELAGCDLIIEAVFEDRSLKAKVSSAAQAAAGPEAVIASNTSTLPITGLAEAVSDASRFIGLHFFSPVEKMPLVEIIKGVGTSDETLARAFDFVRQIDKTPIVVNDSRGFFTSRVFGTFINEGIAMLGEGVSAPMIETEARKAGMPVGPLAVSDEVSLGLMSHIRAQTAKDLHAEGKAPTEHPAFAVIDLLLDEYKRPGKAAGAGFYDYPAQGQKHLWPELKSRFEKADGQIPAQDIRDRLLFIQALETVRCVEEGVVTSTPDANVGSVFGIGFAAWTGGTLQFINQYGLPAFIARAQYLAEQYGERFSPPALLLEKAASRATF	PGPT0001870_1311	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0001870-fadJ-K01782	NA	NA
D1-35_02105	735			hypothetical protein	ATGTCGTTACGCATCTGCATTCTGGAAACCGATATCCTGCGTCCGGAACTGGTCGAGCAATATCAGGGTTACGGGCAGATGTTCCAGCGCCTGTTTTCGCAACAGCCTATTGCGGCCGACTTTGTCGTGTACAACGTGGTGGAAGGGCAATACCCCAGCGATGACGAGCAATTCGACGCCTATCTGGTGACCGGCAGCAAGGCCGACTCCTTCGGCAGCGACCCTTGGATCCAGACCCTCAAGACCTATCTGATGGACCGCTACCAGCGTGGCGACAAACTGCTGGGCGTCTGCTTTGGTCATCAGTTGCTGGCCTTGTTGCTGGGCGGCAAGACCGAGCGCGCCAGCCAGGGATGGGGGGTTGGCACCCATCGTTACAAACTCGCGGCAAAGGCGCCCTGGATGAGCCCGGTGATGGAGGAACTGACTTTGTTGATCAGTCATCAGGACCAGGTTACCGAGCTGCCGGAAAATGCCACGGTCATCGCCTCAAGCGATTTCTGCCCATTCGCGGCCTATCACATCAATGATCAGGTCCTGTGCTTCCAGGGCCACCCGGAATTCATCCATGATTATTCCCGGGCCTTGCTGGAGATTCGCCAGCAACACCTCGGCGAGCAGATCTACAGCCAGGGCGTGGCGAGCCTTGAACAGGAGCATCACGGCACGACGGTAGCGGAGTGGATGATGCGTTTCGTCGCCCACAAACCCCAAGCTGAAGCCGCCCAAGGCTGA	MSLRICILETDILRPELVEQYQGYGQMFQRLFSQQPIAADFVVYNVVEGQYPSDDEQFDAYLVTGSKADSFGSDPWIQTLKTYLMDRYQRGDKLLGVCFGHQLLALLLGGKTERASQGWGVGTHRYKLAAKAPWMSPVMEELTLLISHQDQVTELPENATVIASSDFCPFAAYHINDQVLCFQGHPEFIHDYSRALLEIRQQHLGEQIYSQGVASLEQEHHGTTVAEWMMRFVAHKPQAEAAQG				NA	NA	NA	NA	NA
D1-35_02106	972	corA	COG0598	Cobalt/magnesium transport protein CorA	ATGGGTAGAGTCGTTGCTGCTGCGGTTTACAGCGCCGGTAAGAAAGTCACCAATATCACCCTCGACGAAGGCAGCGCCTGGGCTGCAAAACCAGGACATTTTGTCTGGATCGGCCTCGAAGAGCCCAGCGCGCTGGAACTGACCAACCTGCAACGCCAGTTCAACCTGCATGAACTGGCAATTGAAGACGCCATGGAGAAACATAGCCGTCCCAAGCTGGAGACGTTTGGCGATGCGCTGTTCATCGTCACTTATTCACCGGTACGCGAGAACGGCAAGCTGCAATTCATCGAGACCCATATCTTCGCCGGCAAGGGCTATATCATCACCGCTCGCAACGGCCACTCGGCGTCCTACGCACATGTCCGGCAGCGCTGTGAGGCGCGTCCCATCTTGCTGGAGCATGGGGAGGATTTTGTCCTCTACGCCATCCTCGATTTCGTCATCGAGAACTACCAGCCCGTCGGCGAAGCCATCCACACCGAGATCGATGAACTGGAGCGCAACGTACTGTGCAGCGCCTTGAACGAGCGCGATATCCAGAACCTGCACAGTCTGCGCCGCGACGTGCTACGCCTGCGTCGTTATGCGGCACCTATGGTGGAGATCAGCGAAGAGCTGCAGCGCCTGGACTTTCCGTTCATCGACAAGAACATGAGTCCATATTTCCGCGATGTGCAGATTCATGTCACCCGGCAGATGGAAGACCTGGCGACGCTGGCGGACATTGCCAGCCAGACTATCGAGATCGGCGTGTTGCTGGAAGCCTCGCGCCAGAGCGTGGTGCAGCGCAAGTTCGCAGCGTGGGCGGCGATCCTGGCGTTTCCAACGGCGGTGGCCGGGATCTACGGGATGAACTTTGAAAACATGCCGGAGTTGACCTGGCACTACGGGTATTTCCTGGTGCTCGGGTTTATCGGGGTGGGGTGTACGTCGTTGTGGGCGAGTTTCAAGCGATCGGGATGGTTGTAG	MGRVVAAAVYSAGKKVTNITLDEGSAWAAKPGHFVWIGLEEPSALELTNLQRQFNLHELAIEDAMEKHSRPKLETFGDALFIVTYSPVRENGKLQFIETHIFAGKGYIITARNGHSASYAHVRQRCEARPILLEHGEDFVLYAILDFVIENYQPVGEAIHTEIDELERNVLCSALNERDIQNLHSLRRDVLRLRRYAAPMVEISEELQRLDFPFIDKNMSPYFRDVQIHVTRQMEDLATLADIASQTIEIGVLLEASRQSVVQRKFAAWAAILAFPTAVAGIYGMNFENMPELTWHYGYFLVLGFIGVGCTSLWASFKRSGWL	PGPT0014010_2982	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284	NA	NA
D1-35_02107	783	plsC	COG0204	1-acyl-sn-glycerol-3-phosphate acyltransferase	TTGCCGAAAACAGTGCACATCCGTACACTGCGCCACCTTTTGTCCCGATGGGGCCTGTTGATGTTGTTTGCACTGCGTATGTGTTTGATGGGCCTGCATTTTATTTTGGCGGGTGTGCTGGGCGTGATCCTGGGTCTGTGCCGGCCGTTCAATCCTGACAACAGTCGTATATGCGCCAGGTTATACGCGCTGCCTGCGATGTGGTTTCTACGCCTGCGGGTCAAGGCAGAGGTCGACACGCTGATCAACAAGACTCACGGCTGCGTGATCATCGCCAATCATCAGTCCAACTACGATCTTTTCGTGTTCGGCAACGTGGTGCCGCGTCGTACCGTGTGCATTGGCAAGAAGAGCCTGAAGTGGGTGCCGTTGTTCGGCCAACTCTTCTGGCTGGCGGGCAACGTGTTGATTGATCGCGGCAATGCGATCAAGGCGCGCAAATCGATGCTGACCACCACCCATACATTGCAGCATGAAAACACGTCCATCTGGGTGTTCCCGGAAGGGACGCGCAATTTGGGGGAAGACCTGTTGCCCTTCAAGAAAGGCGCGTTCCAGATGGCGATTGCCGCCGGGGTGCCGATTATCCCGGTGTGCGTCAGCACTTATATCAAGCATATGCGCCTGGATCGCTGGCACGCCGGTGACATTCTCATTCGTTCGCTGCCAGCCATTCCTACCGCTGGCCTGAGCATGGATGACATGCCCCGCCTCATCGCCCAATGCCGCGAACAGATGCGTGAATGCATCGAGACGATGGACCGGCAACTGCGCGTCGCGTAA	MPKTVHIRTLRHLLSRWGLLMLFALRMCLMGLHFILAGVLGVILGLCRPFNPDNSRICARLYALPAMWFLRLRVKAEVDTLINKTHGCVIIANHQSNYDLFVFGNVVPRRTVCIGKKSLKWVPLFGQLFWLAGNVLIDRGNAIKARKSMLTTTHTLQHENTSIWVFPEGTRNLGEDLLPFKKGAFQMAIAAGVPIIPVCVSTYIKHMRLDRWHAGDILIRSLPAIPTAGLSMDDMPRLIAQCREQMRECIETMDRQLRVA	PGPT0024380_4438	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655	NA	NA
D1-35_02108	690	fadB_2		Fatty acid oxidation complex subunit alpha	ATGAGCGACCTGATTGCCTACCATCTCGAAGACGGTATCGCGACCCTGACCTTGAACAATGGCAAGGTCAATGCCATTTCGCCTGATGTGATCGTCGCATTCAACGCTGCGCTGGACCAGGCAGTGTCTGATCGCGCGGTGGTGATCATTACCGGGCAACCGGGGATTCTGTCGGGCGGTTACGATTTGAAGGTGATGACCGCCGGCCCCAAGGAGGCAGTCAGTCTGGTCGCGTCTGGCTCGACCCTAGCCCGTCGTTTGTTGTCGCACCCCTTCCCCGTCGTTGTCGCCTGCCCTGGGCATGCGGTGGCCAAGGGTGCGTTCCTGCTGCTGTCGGCGGACTACCGCATTGGTGTGGAGGGGCCGTTTACCATCGGGCTGAACGAGGTGCAGATCGGCATGACCATGCACCACGCCGGTATCGAGCTGGCCCGTGATCGCTTGCGCAAGTCTGCGTTCCACCGCTCGGTGATCAATGGCGAGATGTTCAATCCGCAGAGCGCCGTGGACGCTGGTTTCCTCGACAAGGTGGTCGCGGCTGACGAGTTGCAAGCTGCAGCACTGGAGGCAGCGCGTCAGTTGAAGAAGATCAACATGACCGCCCACAAGAATACCAAGCTCAAGGTTCGCAAGGCCTTGCTGCATGCATTGGACAGCGCGATTCTGCTGGATCAGGAATACACGGGCTGA	MSDLIAYHLEDGIATLTLNNGKVNAISPDVIVAFNAALDQAVSDRAVVIITGQPGILSGGYDLKVMTAGPKEAVSLVASGSTLARRLLSHPFPVVVACPGHAVAKGAFLLLSADYRIGVEGPFTIGLNEVQIGMTMHHAGIELARDRLRKSAFHRSVINGEMFNPQSAVDAGFLDKVVAADELQAAALEAARQLKKINMTAHKNTKLKVRKALLHALDSAILLDQEYTG	PGPT0001860_8280	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
D1-35_02110	150			hypothetical protein	ATGAAAACCATAGAGCGGTACAGTCCGCCCTCCGCGGACGCATTGGCGCGCCTGAAAATCAATCTCGGCTATACCAGCCAGCAAACGGCCGAACTGGTAGGGCTGGCTCAGGGTGGGCAATGGGGCAAGTACACGGGTGGCGCGAGCTGA	MKTIERYSPPSADALARLKINLGYTSQQTAELVGLAQGGQWGKYTGGAS				NA	NA	NA	NA	NA
D1-35_02111	198			hypothetical protein	ATGCGGGAATTCGGTATGAGCGGCGCAGAATTGGAAAAGGTCCATGTCGAAATTGCTAAATTGATGGCTGAGACCAAAAAGCTCAACGCCGAAGCGGGCAAGATGACCCGCGAAACGTTCTGGTACCCAGTCGCGGTTGCCACCGGCCTGATCGGTACAGTGGCCACCGTCACCACGCTGCTAATCAAATTCGTCTAA	MREFGMSGAELEKVHVEIAKLMAETKKLNAEAGKMTRETFWYPVAVATGLIGTVATVTTLLIKFV				NA	NA	NA	NA	NA
D1-35_02112	1041	uvsE		UV DNA damage endonuclease	ATGACTCACCCACGAATCGGCTTCGCCTGCCAATACCGGCACCCTGATCGCGGCCTCGCAGCGAGTGCATTAAAGACCATCGAAGCGCCATACAACCCCCGCACCACGACGTTACGCTGGATGGATGGCGTCCCTCTCCAGGTCGCCCGCGACAAGCTGCTTGAAGTCGTGGCGCACAATCTCGACGCACAACTGCGCCTCATCGCCTACGTTGCCGAGCTTGCGCCGACCCTGCGCATGCTCCGACTGAGCAGTGATCTGTTGCCGTTCTACAGTCATCCGAAGGTGAGTGCTTTCTATCAGGACCCGGTCATTCAAAGCCAGCTGGAAGAACGCTTCGCTGTGATTGGCAACCTCGCGCGTTCGGCGGATATCCGGCTGTCCTTCCACCCTGGCCAGTATTGTGTGTTGGGCTCGGATAAACCGGGTGTGGTGGAGAACAGCATCGCCGAGTTCGAGTACCACGCCGACATGATCCGGATGATGGGCTACGGTCGGCGCTTCCAGGACTTCAAATGCAACGTGCACATCGCCGGGCGCCTCGGGGGCGAGGGGATCCGTTCGATCTGGCCGCGATTGTCGGAGGTGGCGCGCAATTGCATCACCTTCGAAAACGAGGAGAAGACCTACGGCGTCGATGATTGTCTGCAACTGGCTGACCTTGCCCCCGTCGTGCTGGATATCCACCACTGTTGGATCAACGAGAACGATTACATCGCACCGGACTCCCCGCGAGTCGATCGCATCATCGAAAGTTGGCGTGGAGTTCGGCCAACCATGCATTATTCACAGCCGCCGGAGCGATTGCAGGAATTGGGTTTCGATGCAGGCAAAAAGCTTGAGATGGATGCGTTATTGAAGGTGGTGTCCAAACGTGACTTGTACGGTCACAGTGACCAGATGTGGAATCGCTGGACCAACTCATACGCGCTCAAGTTTCTGGACCGTTTCGACATCATGTTGGAGGCGAAAGACAAGAATCTGGCTGCGCAGGCATTTTATGAAGATGTCGCTCGGCCTTATCTTCATCCCTGCGTATAG	MTHPRIGFACQYRHPDRGLAASALKTIEAPYNPRTTTLRWMDGVPLQVARDKLLEVVAHNLDAQLRLIAYVAELAPTLRMLRLSSDLLPFYSHPKVSAFYQDPVIQSQLEERFAVIGNLARSADIRLSFHPGQYCVLGSDKPGVVENSIAEFEYHADMIRMMGYGRRFQDFKCNVHIAGRLGGEGIRSIWPRLSEVARNCITFENEEKTYGVDDCLQLADLAPVVLDIHHCWINENDYIAPDSPRVDRIIESWRGVRPTMHYSQPPERLQELGFDAGKKLEMDALLKVVSKRDLYGHSDQMWNRWTNSYALKFLDRFDIMLEAKDKNLAAQAFYEDVARPYLHPCV				NA	NA	NA	NA	NA
D1-35_02113	498			hypothetical protein	ATGACTACATGGAAAAGTTTGGCCTGGCGTGCCCAGGTTGTTGTCTTGGCGTTAATGCTTTCCACGAACACCTCCTGGGCTTCGGGAAACACTCAAGAGGCCAATACGAATCTGGTCCGCCAGGCATTCGCGAACTGGCAGCAGGGCAAAGGCACGGTCTTCGACCTGCTGGCGCCCGATGCGGTCTGGACAGTCGCGGGATCGAGCCCGGTTTCCGGCGTGTATTACGGCAAGACCGAGCTGATCGAACAGGCCGTGCGGCCGATCAGCGCCCGACTGGCGACGCCAATTTCCCCCATGTTACAGAGCATCGTCGCCCAGGACGACATTGTCGTTGTCCTGTGGAACGGCACTGCGACAGCCCTCGATCAAAAACCCTACAACAATACCTACCTGTGGCAACTGACCTTCAAGGATGGCCGGATCACTCAGGCAATGGCCTTCCTCGACACCTACGCGTTGAATGAGCTCATGCGCCGGGTAACGCCTGCGCAGTAG	MTTWKSLAWRAQVVVLALMLSTNTSWASGNTQEANTNLVRQAFANWQQGKGTVFDLLAPDAVWTVAGSSPVSGVYYGKTELIEQAVRPISARLATPISPMLQSIVAQDDIVVVLWNGTATALDQKPYNNTYLWQLTFKDGRITQAMAFLDTYALNELMRRVTPAQ				NA	NA	NA	NA	NA
D1-35_02114	816			hypothetical protein	ATGTCCCCACACCAGAGCCTGGTGCTACTTGCCCGAGGCGGTTATGCCGCTCGTGGCGTTATTTATCTCATCGTCGGCATTCTTGCCTTGCTCGCGGCCCAGGACTCCACCAAACCGAAGGACAGTCACAAAAGCCTTGAAATGCTGCTGAGCCAGCCCTTCGGCCATGCCTTGGTCGGCCTGGTAGTAGCGGGCCTGCTTGCCTTCGCCGGCTGGCGCATCTTGCAAGCCACGCGCGACGTTGATCATCACGGTACGCAGTTCAAGGGCCTGGTGATTCGCGCCGGGTTGCTGGCGAGCGGCCTGGTCAATGGCGCGCTGGCATTCTTTGCCTTGGGCCTGCTGATCAGCGGCTTGAAAAGCTCCGGGAATTCCGGCGGTGGGCAAACCCAGGACCTGCTGGCGCGCGTCCTGTCCTGGGACCATTCGAACCTGTTAGTTTACCTCGTCGCGCTGGTGCCACTGGGCGTCGGCATTGCCCACATCATCAAAGGCTGGAAGGCCTCGTTCGAAAAATATTTCGAGGCTGACGAAGAAGTGATGCGTTATGTGCGGCCGGTATCGCGCTTCGGCCTGATCGCCCGCGGGGTGGTGTTTATCGAGATCGCCGTGCTGCTGATCATCAGCGGCTCGACCTATAAAGCCGTGGACCCGCCCGGAATGAAAGATGCCCTCGATGCGTTGCAGAATCTGCCGGCCGGAGGCTTGGTGTTGATGGTGATGGCCCTGGGGCTGATTGCCTTTTCGGTCTACAGCTTTTCCGAGGCGGCATGGCGCAAGATCAATATGGATGTGCCAGGAGTGGTGCACACATAG	MSPHQSLVLLARGGYAARGVIYLIVGILALLAAQDSTKPKDSHKSLEMLLSQPFGHALVGLVVAGLLAFAGWRILQATRDVDHHGTQFKGLVIRAGLLASGLVNGALAFFALGLLISGLKSSGNSGGGQTQDLLARVLSWDHSNLLVYLVALVPLGVGIAHIIKGWKASFEKYFEADEEVMRYVRPVSRFGLIARGVVFIEIAVLLIISGSTYKAVDPPGMKDALDALQNLPAGGLVLMVMALGLIAFSVYSFSEAAWRKINMDVPGVVHT				NA	NA	NA	NA	NA
D1-35_02115	843			hypothetical protein	ATGACGACTATAAATACGTCAAATGCTACTCAGGTAACAACCGTCACCCTCAAACCCAACTCCATCAAAAGTGACGCGGACACGGCCAGCTCCGCGGCGCCGTTACCGGCGATCGAGAGCAAACCCTTCCTTTCAGACCAGGCAAAAATACTCTCGTCCTTATACACCTCTGCAAGCGATTATTTGAAGACCGAACACATGGAGCCTTTCCCCGGAATAGTGAAAGGCTACATCGCTCCTTCCGGCTATATAAACGTTGAAAAATACAACGCCTATCTGTTCGACAAGGCTGCGACCACTATGGTCGCAGCGGCCATGGATAAAGGCATCCCCTTGGACAAGGAAGAAGTCCTGGCCCAGTTGAAAGGTGATCATTCTGATATAGCCGCTATAACACTTGACGACCCGCATCGAAAAGCCAAGCTGGGGGAAAACAGTGTTTTCACCGACTTGACGCTTTCCGATCTGGGCAACATGACTGACGTCTACATCACAGCTAAAGAGAATGGGCTGGACCTTGAGGAAGTAGGAGGGCTTGCTCTGGACAGAGCGATCCAAAACCACTACGGAGAAACCTTGCAAGAAAGTGATATCTACCCTAGCGGCTGGGATTTTACAGAAACAGACCCGGATAAAATCGCTGCCGCCGTCAATTGGCTACCGGAATCATTCACCAGCGGGGCCGACGAGATAAGAAACAAGATCCAAGGTGATTTGGGGTTGGGCAGTGATTTCATAGACTTCCTGCTAAACCCCAGACTTGGACTTAGGGGAGCCACCGACGCTTCTCTTGATTTCTTATCGAAGCTGGTCGATATATACAACAAACAGAAGCAAGCTTAA	MTTINTSNATQVTTVTLKPNSIKSDADTASSAAPLPAIESKPFLSDQAKILSSLYTSASDYLKTEHMEPFPGIVKGYIAPSGYINVEKYNAYLFDKAATTMVAAAMDKGIPLDKEEVLAQLKGDHSDIAAITLDDPHRKAKLGENSVFTDLTLSDLGNMTDVYITAKENGLDLEEVGGLALDRAIQNHYGETLQESDIYPSGWDFTETDPDKIAAAVNWLPESFTSGADEIRNKIQGDLGLGSDFIDFLLNPRLGLRGATDASLDFLSKLVDIYNKQKQA				NA	NA	NA	NA	NA
D1-35_02116	438			hypothetical protein	GTGAAAAAATTGATCCAAGTGTCTGCCGGTATCGTCGCAGTGGCCCTGAGCCAAACTTCTTTTGGTGCAACATCCAACTGGACACAAACCCGCTTGGCGCCTAGCGTGTACGGCCCGAGCTCCGAGAATTCTAACTTTTTCTCGACTCCGCTCGATATCCCCTTGGGAGCTACGATAACATCCGTATCCTGGAATATCGGGCTCTACAAACACGGAGCCACGACTCAGCTATATAAGGTCTGCTATGCGGCCCGCTACTCTACTGTCTACGACAAGTGCACGGACTCCGTACCGATTCTTGCCAACGCAACCGAATTTTTTTATGGACTGGATGCCAAGGGAAAATTCAAGATAACAGGAATTCTGTTTGGCGGGACCTACCCTGCTTATCCGTCCCATAGCAACTCAATCACCGCACACTATCGAAGCCCACGATAA	MKKLIQVSAGIVAVALSQTSFGATSNWTQTRLAPSVYGPSSENSNFFSTPLDIPLGATITSVSWNIGLYKHGATTQLYKVCYAARYSTVYDKCTDSVPILANATEFFYGLDAKGKFKITGILFGGTYPAYPSHSNSITAHYRSPR				NA	NA	NA	NA	NA
D1-35_02117	351		COG1052	2-ketogluconate reductase	ATGCATTCTGCGTTCGCCGCCGCCGACAAAGGTGAAGCGATCATTAATGCCGAGGTGCTACGTGCCTTGGGCAAGGGCGGTTACCTAATCAACGTGGCCCGAGGCAAACTGGTCAACGAGCCGGACCTGGTAGCCGCCCTTGCCACCGGTGACATTGCCGGTGCCGCGCTGGATGTGTTTATCGATGAGCCGAACGTGCCTGAAGCGTTGTTTGGTAATGAGCAAGTGGTGCTGCAACCGCACAGGGCGAGCGCGACGCTGCAGACCCGCACGCGAATGGGCGAAATGGTGGTGGCGAGCCTGGTGGACAGTTTTGCTGGAAAAGTCCCTCAGGGGTGCGTGACGGGTTGA	MHSAFAAADKGEAIINAEVLRALGKGGYLINVARGKLVNEPDLVAALATGDIAGAALDVFIDEPNVPEALFGNEQVVLQPHRASATLQTRTRMGEMVVASLVDSFAGKVPQGCVTG	PGPT0001315_9	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-VITAMIN_C|ASCORBIC_ACID_BIOSYNTHESIS,PGPT0001315-2_ketogluconate_reductase-K22229	NA	NA
D1-35_02118	333			hypothetical protein	ATGGATATACTCACGCCATCCCGCTTTGACGACGCTGCGATTCTGTACCCGAACGAGAGGGCTGGGCTTGAGCGCTGCCTGCGCATTTTGAGAATGGCGCGCCCCAAGGAATTCGCAGACCTGCAAAAGCTTTTCGGTACGCACGGTGTCGACTTGTTCAAGCCAAGAGCCGCAATGAATTGGGTTGTGATTGATGTAGGCGGCAATAATCTCAGGGTGATAGGCGGCGTTAACTACGCGCGGCAGAAGTTCTACGTCAAACACGTCTACACGCATGCCGATTACGACGTCGCCAACGTCTGGTATGCAAGAAACAAAGGGACAAAACGATGA	MDILTPSRFDDAAILYPNERAGLERCLRILRMARPKEFADLQKLFGTHGVDLFKPRAAMNWVVIDVGGNNLRVIGGVNYARQKFYVKHVYTHADYDVANVWYARNKGTKR	PGPT0027570_60	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HigB-HigA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027570-toxin_higB-K19166	NA	NA
D1-35_02119	486			hypothetical protein	ATGAGCGCAGCCCGGAACGACTTTCAAACGGTGATCGCAACGCTTGGCGAGCTTTACGCGATACTGGATCGCCTGCGGGGTGAGTTTGTGCACGGCATCAAGACCCCGGCCGACTACGAGCGCGCGACCGATTTGCTCGATGAGCTCACCGATGGGCGTGGGCTGAGCAAGACCGAGGAAAGGATTCTCGCTGAGCTTGAAGAGGAAATCCTGGCGTACCAGCGTGATTCCGACCAGTTTCGCGAATCGAACGCTGCTTTTGAGGCAACCTGCACCCCGGTGCAACTGATCAAGGACCTTATGGAGACGCTCGGGCTCACTGGCTCAGACCTTCCTGAAATCGGTGATAAAACCGCGGTGTCCAAGGTGCTCAATGGCGATCGCCCCATCAGTCACAAGATGGCTTATGCGCTGGCTGAGCGGTTTGCGATGGAACCGAGCGCTTTCTTGTCGGCTGGTCCTGCAAAGGAGCCGGATAAGAGGTAG	MSAARNDFQTVIATLGELYAILDRLRGEFVHGIKTPADYERATDLLDELTDGRGLSKTEERILAELEEEILAYQRDSDQFRESNAAFEATCTPVQLIKDLMETLGLTGSDLPEIGDKTAVSKVLNGDRPISHKMAYALAERFAMEPSAFLSAGPAKEPDKR	PGPT0027580_336	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HigB-HigA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027580-REGULATION_higA-K18831	NA	NA
D1-35_02120	966	ytfF		Inner membrane protein YtfF	ATGATGCGGGTCCGCTCGAACCTCATCGTCGGATTGGCCCTCGCGGTAGTCGCGACGCTGAGCTGGGCGCTGAACTTCATTGCGCCCTACGTCACCGGGGCCTACACAATCTATGATTTGATGATCGTACGATTCCTGATCGCCGGAGCGCTGGGCCTGGGTGTCGTGCTGCTCTACCGGGCCCGACTTCGGCTCCTGCGCCTCGATCAGGTGCTCCTGGCCGCTGGCCTGGGTGTGATCGGCTATCTCGGCTATAGCGCATGCATCGCCGCCGGTATCATTTTTGGTGGGCCGGTGCTGACCCCGGCCTTTATTGGCATGGTGCCGGTCTTGCTGGCACTGCTGGGCAACGCCACGACCAAAACTCTCCAGTGGAGCAAACTGGCGATCCCACTGGTTTTCCTGACCGTGGGCCTGCTGCTGTCCAATCTCGGCGCTGTCCATCAACCCGTTGCAGGCCAGGGTTCCTGGCTGATGGGTTTGCTGTTTTCTATCGGTGCCGTGATCTTGTGGCTCGCGTTCAGTTGGTTGAATCAACGCGCCTTGCTGAAGCTATCGCCCAACGCCTCGGGCGTATGGACAGGCCTCATGATGGCGGGTGCGGGAATCGGCACCGTGTGCCTGTTACCGGCGATACAAGCGTTCGACCTGCTCGAACTGCCGCGCGTGGGTTTCAGTTTTTCCGTTGCAGGGCACTTGTACCTCTGGAGTTTCGTTATTGCGCTGATGTCATCCTTCGTCGGTGCCTGGGCCTGGAACGCCGCGTCCCGGCGCCTGCCCATGGTGCTTTCCGGGCAGTTGATCGCCCTGGAATCGCTGTTCGCGACACTGCTTGGCTTGTGGTTTCATGGCCGGCTGCCGACGCTACTGGAGATGTCGGGGCTTGCTGCCGTGCTTGTCGGGGTGATCATGGCGGTGCGTATCATTCTGGTTTCGCGTGGATCGACAGTGGCCCGTGTCCCTTGA	MMRVRSNLIVGLALAVVATLSWALNFIAPYVTGAYTIYDLMIVRFLIAGALGLGVVLLYRARLRLLRLDQVLLAAGLGVIGYLGYSACIAAGIIFGGPVLTPAFIGMVPVLLALLGNATTKTLQWSKLAIPLVFLTVGLLLSNLGAVHQPVAGQGSWLMGLLFSIGAVILWLAFSWLNQRALLKLSPNASGVWTGLMMAGAGIGTVCLLPAIQAFDLLELPRVGFSFSVAGHLYLWSFVIALMSSFVGAWAWNAASRRLPMVLSGQLIALESLFATLLGLWFHGRLPTLLEMSGLAAVLVGVIMAVRIILVSRGSTVARVP				NA	NA	NA	NA	NA
D1-35_02121	342			hypothetical protein	GTGAAGAAGCCTTATATCGCACTTGTTACGCTGCTGTTTTTTACCGTTTACACGGCGTGTACGTTGTTGCTCGCCGAGCAATCGCTCTTGGCGTTCGGCGTCAGACTCATGTCCAGCGCAGACACCGCGCAAGTAGTCATCGACCTTTATCTGCTCGCCTGCATGGCGTGCATCTGGATGTACCGGGACATACGCGCAAGAGGCAAATCGCTCGTATCGTTGCTACCTTACATCCTGATCACGGCCATCTTCGTATCAATCGGTCCGTTGCTGTACATCGTTGTTAACGGATTTGGACGTCAATCGCCGGTGACGGTTGCACCTGCTCATCCGCCGTCTTGA	MKKPYIALVTLLFFTVYTACTLLLAEQSLLAFGVRLMSSADTAQVVIDLYLLACMACIWMYRDIRARGKSLVSLLPYILITAIFVSIGPLLYIVVNGFGRQSPVTVAPAHPPS				NA	NA	NA	NA	NA
D1-35_02122	600			hypothetical protein	TTGGAGCAATGCAACGGCATCTTTCTCGCCAGCGGCTACGCCCCTCGCTACGAAACGACACCGCTCACGTCGTCGTCAATGGAAGTGGTACGTGATGCCATTGATCATATCCTTAATGCCAATAATCCCGCGCCGGCGATTGTTCTGGGCGCTCAATGGGACATCCTTGCAGCCAACGCCAGCGCGGGTGTCCTGTTCGATCTGGTGGGTCTTGCCAGGGATGCCGCGGATGGACTCAATCTCTTGGTGACACTGCTGCAACCCGGCGGCTTGGGCGACCATCTGAGCAACGCCGAGGAAATAAGATTAGTGGCCTGGCAACGGGCATCTCGGGAAGCCTTGAACAATCCCGCATTGGCTGGGATTCTGAAGAGTCTGCCGACTCCACACAGCGCTTCGGCGCTGGCTGACGATCTGCCTCCGTTGTTATTGACGCAGGTCGAGTCGCCCCATGGCGAGCTGACGTTCATGTCAACATTCACCACTTTTGGCATGCCGCTCGACATCACGATGAGCTCGTTGCGTATCGAGCATCTCATTCCTGCCGACGCCAAGACCTGGAAGGTCATGACCAAGGCGTACGAGCAGACGCAACGCTAA	MEQCNGIFLASGYAPRYETTPLTSSSMEVVRDAIDHILNANNPAPAIVLGAQWDILAANASAGVLFDLVGLARDAADGLNLLVTLLQPGGLGDHLSNAEEIRLVAWQRASREALNNPALAGILKSLPTPHSASALADDLPPLLLTQVESPHGELTFMSTFTTFGMPLDITMSSLRIEHLIPADAKTWKVMTKAYEQTQR				NA	NA	NA	NA	NA
D1-35_02123	816	dapF_1		Diaminopimelate epimerase	ATGCAACCGACACTCAATCTCAACTTCCAAAGAATGCACGCCAATGGCGACGATTTTGTCATCGTCGATTCGCGAAACTCGCCCAGTCCGGTGACCAGTGCGATAGCCCGGCGGATGGGGGATCGGAACCGCGGCGTGGGCTTCAATCAACTCGCGGTGCTGCTCGATTGTGAAGATGCCGATGCGCGGGTGGTGTTCTGGAACGCAGATGGCTCCGCGCTGGATGTGTGTGGCAGCGCGACGCGCGGGGCGGCGGACCTGCTCATGCGCGAAGCCAATGTTGCTTCGGTAGCGCTACGCACCAACCGCGGTCTGTTGATCTGCGAGCGAACGCCAAACGGCGACATTTGCGTCGACATGGGCGTGCCACTTTGCGGCTGGTCGGACATTCCCCTGTCGCAGGAACTGGACTCCACCGTTTTGCCCCTTGCCGGTAGTCCAGCCGCGTGCAGCATGGGCAACCCGCATTGCACATATTTTGTCGACGATCTGGCTGACGTTGATATCGCCACTATCGGACCAGCCATCGAAACCCACCCGCTATTTCCACTCAAGACCAATGTTCATTTCGTCCAGGTCGTTGATCGCACGCATATCCGATTGCGCATCTGGGAGCGCGGGGCGGGCATTGCGCTGGGTTCAGGTTCTTGCTCGTGCGGCGCGGTTGTCAACGGAATCCGTCGTGGACTGCTGGACAGTACCGTCGAAGTTGAATGTGATGGCGGAAACGTGACGGTGCAATGGGACGGCGTGGGTTCGGTCTTTCTGATCGGGCCGGTGGAGGCAAGCTTCTCAGGGACAATGAGTCAAGCTTGA	MQPTLNLNFQRMHANGDDFVIVDSRNSPSPVTSAIARRMGDRNRGVGFNQLAVLLDCEDADARVVFWNADGSALDVCGSATRGAADLLMREANVASVALRTNRGLLICERTPNGDICVDMGVPLCGWSDIPLSQELDSTVLPLAGSPAACSMGNPHCTYFVDDLADVDIATIGPAIETHPLFPLKTNVHFVQVVDRTHIRLRIWERGAGIALGSGSCSCGAVVNGIRRGLLDSTVEVECDGGNVTVQWDGVGSVFLIGPVEASFSGTMSQA	PGPT0007230_4122	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007230-dapF-K01778	NA	NA
D1-35_02124	816			hypothetical protein	ATGAATTTCTTCAAGAAGCTCTTCGGTTCATCAAAAGCCCCTGAAACCCAGGACGCGCAGCCAACGCCGCAGGTCCACGAGCTCGGCGACCTGACCGAGGCAGAAGCAGCCAATCTGGCCATCCGGGAAGCGGGTGAAGCGTGCCTGGATCGTCATTGGCGCGCTGTCGGCACCGTCGAGCGGGATGTCCTTGCCTATATGATCAGTCCAACCTTTTCCGGTGGCCCTTACTGGCCCTCCACCCGCCAGGCCTACCGCGTGGTTCGCCGTGGCGACACGATCATTCTCGCCACGGAAGGCCTGTCGGATCCGTTCGATGATACGGAAGGAATGGGCAACGGTTTCGAAATGGAGCTGTTCGTCGAAACTGCGGATATACCCGAGCACGCCTATGGCCCCGTGGGTGAGGTCGATCCTTTCAAGCGCAGCTGGGCGTTCGAACTTGTGGAGCATGTTGCCAGGACGGTCGCCGACGCGGGCGGCATCACGCACCAGCTTGATCAGTACGGGGCGCTGTCCCTGGAGATTCCCGGGTTCAGTCAATCGCACCCTATGAGCGAGCAACTGCCCAAGCTCTTCGTAACGGATGATGATTGCACCGGGGTCCTGCTGGGAGCCCCCGAGCCGGACTTCTCTACCCGAGTGGAGGATATGCCCCTGTCACCGGTCAGATTGGTGCCGGTGGTGTTGATCACCGCGGCGGAGCTGGAGTACGTGCGTTCCGGTGGGCGAGCGGCGCGGGAGGATCTGGTGAGCCGTTTGCAGGAGGCAGGCATCGGACATATGAGCAGCCTGCATCGGGCGAGTGTGGTGTGA	MNFFKKLFGSSKAPETQDAQPTPQVHELGDLTEAEAANLAIREAGEACLDRHWRAVGTVERDVLAYMISPTFSGGPYWPSTRQAYRVVRRGDTIILATEGLSDPFDDTEGMGNGFEMELFVETADIPEHAYGPVGEVDPFKRSWAFELVEHVARTVADAGGITHQLDQYGALSLEIPGFSQSHPMSEQLPKLFVTDDDCTGVLLGAPEPDFSTRVEDMPLSPVRLVPVVLITAAELEYVRSGGRAAREDLVSRLQEAGIGHMSSLHRASVV				NA	NA	NA	NA	NA
D1-35_02125	303			hypothetical protein	ATGGAATTGATCGAAATATTCAAAGCGCTCTCGAACCCTACACGCCTTCAGATCCTGAAAGGTCTGAAGGATCCCGCAAAGAACTTCCCTCCGCAGGATGAAGGTGACGTTCATACGGTGGGAGTCTGCGTCAGCAGTATTCAAGAAGGTATCGGACTGTCGCAGTCGACGGTGTCCGGTTATCTTGCGACGTTGCAACGAGTGGGGTTGGTCGAAGTCAGGCGCATCGGTCAGTGGACTTACTACAAGCGCAATGAAGCAGCCATCAGCGCGCTTGCGGAGATCATAGGGACAGAACTGTAA	MELIEIFKALSNPTRLQILKGLKDPAKNFPPQDEGDVHTVGVCVSSIQEGIGLSQSTVSGYLATLQRVGLVEVRRIGQWTYYKRNEAAISALAEIIGTEL				NA	NA	NA	NA	NA
D1-35_02126	975			Zinc-type alcohol dehydrogenase-like protein	ATGAAAGCGATGGTACTCAAGTCATTTGGCGGGTCGGGTTCGTTCGAGCTTCATGATGTGCCCAAGCCTGTGCCGCAGGCAGGACAAGTCCTGGTCCGGGTACATGCAACCTCCATCAATCCGTTGGATTACCAGGTTCGACGCGGCGACTATCCCGACCTGGTGCAACTGCCGGCCATTACCGGCCACGATGTATCGGGCGTTGTCGAAGAAGTTGGGCCGGGAGTGACCAACTTCGCTCCGGGCGATGAAGTCTGGTACACCCCGCAAATATTCGACGGGCCAGGAAGTTATGCCGAGTACCACGTCGCTGCCGAGAGCATCGTCGGGAAGAAGCCAGCCTCGCTGAGCCATCTTGAGGCGGCGAGCCTGACCCTGGTTGGCGGGACGGTATGGGAAGCATTGATCGTGCGTGCGGCGCTCAGAGTGGGAGAAAGCATTCTGATACACGGCGGCGCGGGAGGCGTCGGCCATGTGGCGATCCAGTTGGCAAAAGCCATGGGAGCACAGGTATTCACCACCGTGCGCGAGGCAAACGCCGAGTTCGCACGCAGCATGGGCGCCGATGTGATCATCGACTACGAAAAACAGGATTATGTTGAAGCCGTCATGCGAGAAACGGGTGGCCGCGGTGTGGATGTCGTGTTCGACACCATCGGCGGCAACACATTGTCACGCAGCCCTGACGTGCTCGCACAACTTGGCCGCGTCGTCACGATCGTCGACATTTCACAGCCACAGAACGTCGTTCAGGCCTGGGGCAAGAACGCGAGTTATCACTTCGTTTTCACCAGACAGAACCGCGGCAAACTCGATGAGTTGAGCGCATTGGTAGCGCGAGGTCTGCTGCGGCCACATGTCGGCGCCGTCTATTCGCTGGCCGACATCGGGCTCGCCCATGCCCGGCTGGAAAGTCCAAACAATGGCATTCGAGGAAAAATCGCGATCGCAGTCGAGCCGTCGCTCATCGCGTAA	MKAMVLKSFGGSGSFELHDVPKPVPQAGQVLVRVHATSINPLDYQVRRGDYPDLVQLPAITGHDVSGVVEEVGPGVTNFAPGDEVWYTPQIFDGPGSYAEYHVAAESIVGKKPASLSHLEAASLTLVGGTVWEALIVRAALRVGESILIHGGAGGVGHVAIQLAKAMGAQVFTTVREANAEFARSMGADVIIDYEKQDYVEAVMRETGGRGVDVVFDTIGGNTLSRSPDVLAQLGRVVTIVDISQPQNVVQAWGKNASYHFVFTRQNRGKLDELSALVARGLLRPHVGAVYSLADIGLAHARLESPNNGIRGKIAIAVEPSLIA	PGPT0013255_7537	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
D1-35_02127	342			hypothetical protein	ATGATTTACGAGATCGCTCTGCTCCCGGTTCACAAAGAACGCATTGAAATGTTCAGACGAGCATTTGCCGAGGTCGCCCCTTTGCTCACCCGAGCAAAGGGCTACGGCGGCCATTTGCTGGCGCAAGGGATTGAAACCCCCGAGCAATTCAACCTGATCGTGCGATGGCAATCGCTTGAGCATCACACACCGGGTTTCGAAGAGAGTGAAGACCACCGGCTGTTCATGCTGGGCTTGGAGGAATACTTTTCGCAAGAGCCGAGGGTCTACCACATTGAGGGGGCGGCTTTTTTTATCGGTGAAGGTGCTGATCCAGGCGGCGCCGTCAGCCGGGGAATCTAA	MIYEIALLPVHKERIEMFRRAFAEVAPLLTRAKGYGGHLLAQGIETPEQFNLIVRWQSLEHHTPGFEESEDHRLFMLGLEEYFSQEPRVYHIEGAAFFIGEGADPGGAVSRGI				NA	NA	NA	NA	NA
D1-35_02128	2190	rcsC_9		Sensor histidine kinase RcsC	ATGACAGATTGGCTCCAGAGCTACGGAGAAATGGCTGAACGGGTCCGCCGCCATGACTGGGACAGCACGCCACTCGGGCCGCCCGCACAATGGCCCGATGTGCTGAAGACGACCGTGGCGCTGAGCCTGGCTTCGCATTTCCCTCAGGCCATCGTCTGGGGACCGGACTTGATCACGTTATACAACGATGCGTTCATGCCCATTCTCGGCAGCAAACCCGAGGCGCTGGGGCGGCCGTTCAATGAGGTCTGGCGGGAGGCCTGGAGCGAGATCGGCCCTATCGTGGGGGCGGCTTTCGATGGACAGGCGACGTTTATCGAGAACTTTCCCCTGGTGATCGAGCGCGGTGGTGGTCCTGAACAGGCCTATTTCACCTTCTGCTACAGCCCTATCCGCGACCAGTTCGGCAAAGTGGTGGGCATGCTCGACACGGTCACCGAGACCACTGCGACTGTATTCATGACCCAGCGCCTGGCGGTGCTCGATGCAATCGGCAGCGCCGTGGCGAATGCCACCGATCCACAGGCGATCATGGCGGCCACCGCCCGGATCCTGGCGGCGCACCTCAACCTGTCCAACTGCGCATACGCAGACATGGACGAAGACGAGGACGGCTTTACGATTCGCGGCGATTGGGCCCGGGCCGGGTCGCCGAGTATCGTCGGGCACTACCGACTGGCGGATTTCGGTCGGCTGGCGGTCGCCAACCTGGGCGCCGGCAAGCCGCTGGTGATCAATGACAACCTCGCGGAGTTGGCACCGGAGGAGGCGGCAGCGTTCCAGTCGATCGGTATTGCGGCGACTATTTGTGTTCCGTTGATCAAGAATGGACGGTTGACCGCCCTGATGGCCATCCACGACAAAACGCCCCGGATCTGGTCGTCCAACGATCTGGCGCTGCTGCTGGAAGTCACCGAGCGATCCTGGGCGCACATCGAACGTGCTCGGGCGGACGCGGCCGTGCGCGAAGGCCTCGCCGCCCTGGCCGAACTGAACGCAACGCTGGAGCAACGGGTCGAGGAGCGCACTACACGATTGAGGCAGACCGAAGCGGCGCTGCACCAGTCGCAGAAACTCGAAGCCATCGGCCAGCTCACCGGCGGCGTGGCCCACGATTTCAACAACCTGCTGACGATCATCCGCTCCTCTGTCGATTTCCTGCGCATGCCCAACCTGTCCGACGAGCGCCGGCAACGCTACATGACCGCCGTTTCCGAGACGGTGGAACGTGCTTCGAAGCTGACCAGCCAACTGCTGGCGTTTGCCCGGCGCCAGCCGTTGACGCCGGAAATCATCGACGTGCGCAAGCAGGTACAGAGCCTCGGCGACATGCTGGAGACCGTGACCGGGGCGCGTATTCACGTCAAGGTCGAACTGTGCGAGCAGCCTTGTTACATCCGCGCCGACCTGAGCCAGTTCGAAACGGCGTTGATCAACATGGCCCTGAACGCCCGGGATGCGATGAACGGCCAGGGAACGCTGTGGCTACGGCTCAATTGCGGTGCAGGCATGCCGCCGATCCGCGGCCATTCCGGGGCAGGGCAGGCATTTGCCGCGATTGCCCTGGAAGACACCGGCACGGGTATTGCCCCGGAGGCACTTGAACACATCTTCGAACCGTTCTTCACCACCAAGGAGGTGGGCAAGGGAACGGGGTTGGGATTGTCCCAGGTGTTCGGTTTTGCCAAGCAGTCTGGCGGCAATGTCGATGTCTCTACCGTGGTCGGAAAGGGCAGCGTGTTTACTTTGTATCTCCCGGAAGTGGAGCCCGAGGAGCAGCATGAACCCGAGGGAGAGGAAAACTCTCTGCTGGTGCTGGAAAAAGGCCGGCACCGGGTATTGGTAGTGGAAGACAACCTGGAAGTAGGGCGCTTTGCCAACCAGATCCTGCAAGACCTCGGATACGAAACGGCCTGGGCGACCAATGCCGAACAGGCGCTGGAAATGGTCGGCCCGGATGCGATGGCGTTCGACGCGATATTTTCCGACGTGGTCATGCCGGGCATCAGTGGCATTGCCCTGGCCAGGCAACTGCGCCAACGCCGCAAGGATCTGCCGGTGGTGCTGACCTCCGGCTACAGCGAGGAGCTGGCCCACAGCGGGCATGAAGGTTTCGCGTTTTTGTCCAAGCCTTACTCGGCCGATCAGGTTTCCCGGGTTTTAAACCAGACGCTGTTGGGCTCGGACTGA	MTDWLQSYGEMAERVRRHDWDSTPLGPPAQWPDVLKTTVALSLASHFPQAIVWGPDLITLYNDAFMPILGSKPEALGRPFNEVWREAWSEIGPIVGAAFDGQATFIENFPLVIERGGGPEQAYFTFCYSPIRDQFGKVVGMLDTVTETTATVFMTQRLAVLDAIGSAVANATDPQAIMAATARILAAHLNLSNCAYADMDEDEDGFTIRGDWARAGSPSIVGHYRLADFGRLAVANLGAGKPLVINDNLAELAPEEAAAFQSIGIAATICVPLIKNGRLTALMAIHDKTPRIWSSNDLALLLEVTERSWAHIERARADAAVREGLAALAELNATLEQRVEERTTRLRQTEAALHQSQKLEAIGQLTGGVAHDFNNLLTIIRSSVDFLRMPNLSDERRQRYMTAVSETVERASKLTSQLLAFARRQPLTPEIIDVRKQVQSLGDMLETVTGARIHVKVELCEQPCYIRADLSQFETALINMALNARDAMNGQGTLWLRLNCGAGMPPIRGHSGAGQAFAAIALEDTGTGIAPEALEHIFEPFFTTKEVGKGTGLGLSQVFGFAKQSGGNVDVSTVVGKGSVFTLYLPEVEPEEQHEPEGEENSLLVLEKGRHRVLVVEDNLEVGRFANQILQDLGYETAWATNAEQALEMVGPDAMAFDAIFSDVVMPGISGIALARQLRQRRKDLPVVLTSGYSEELAHSGHEGFAFLSKPYSADQVSRVLNQTLLGSD				NA	NA	NA	NA	NA
D1-35_02129	186			hypothetical protein	ATGGGAGCACCGTACAGCGAGGAGAACGGAGCCGCGTATCCGATCAATGAAGGGTTGCAGTGTGGGCAATCGGCCTATCGGTCGGATTTTGGTGACGAGCCAATCAAGTCAATCCGGACCAGGGTGGCCAAGGTGCCGCGGGGTGAGAAGGCCAAATTCTTGCCCAGGGTCCCGCTCAGCAAATAA	MGAPYSEENGAAYPINEGLQCGQSAYRSDFGDEPIKSIRTRVAKVPRGEKAKFLPRVPLSK				NA	NA	NA	NA	NA
D1-35_02130	411			hypothetical protein	ATGCGTTTGACTTTGTCCACCTTGGTGCTTGGGCTTGTGTTCGCTCAGGGCGCGATGGCCGCTGGCGACGGTACCGCTGCGGTTGGCGGTGGCTTGGGCGGTGTTCTGGGGAACGTGGTCGGCCAGCAGATGGGCGGCAGCACAGGCGCGGCGATTGGCGCCGGTGTCGGCGGTGCAGCCGGCAGTGCGGTCGGGGCTCGCAAGGGCAGCCGTACGGAAGCGGCCATCGGTGGTGGTCTGGGATCGGCCGGTGGTTCGATTGTTGGCAATCGCCTGGGCGGGTCCACGGGCTCGACCATCGGCGCGGGCGTCGGTGGGGCGGCAGGCGGCGCATTGGGCAGCAACCTGTCCAACGATAACGACGGACATTCAAAAAGCAAGAAGCACAAGCACAAGAGAAAGCATCGCTGA	MRLTLSTLVLGLVFAQGAMAAGDGTAAVGGGLGGVLGNVVGQQMGGSTGAAIGAGVGGAAGSAVGARKGSRTEAAIGGGLGSAGGSIVGNRLGGSTGSTIGAGVGGAAGGALGSNLSNDNDGHSKSKKHKHKRKHR				NA	NA	NA	NA	NA
D1-35_02131	174			hypothetical protein	ATGACCCCGGAAACCGAAGGCAAGGAAGAAAAAGGCCCCTCGGGCGTCCCGTTCATCAATGATCCAGGCGTCAACGACCCGGGCAACGAAGATCCCGGTTCCCTGATGGATGACGCCCAGGTGCCCTTGATCGAGGATGAAGAAACCGAAGTTGAGGATGAATCCTACGATTGA	MTPETEGKEEKGPSGVPFINDPGVNDPGNEDPGSLMDDAQVPLIEDEETEVEDESYD				NA	NA	NA	NA	NA
D1-35_02132	204			hypothetical protein	ATGACTGCCGACTCGCCTGTTCCCGACGACGATGAAACCCCGGAATATCCGTTGCCTTCGCCCACCGACTCATTGAGCCGCGATCAGCGTCCACCTGATGACGATGCTGGAGTTGAGCAGGTGCCAAGCGAAGATGAAGACGTCGAGGCGGCGCCGGACGATCCCGATATTGCCGGTGATGATGCTTCCGGCAAGCCAAGCTGA	MTADSPVPDDDETPEYPLPSPTDSLSRDQRPPDDDAGVEQVPSEDEDVEAAPDDPDIAGDDASGKPS				NA	NA	NA	NA	NA
D1-35_02133	369			hypothetical protein	ATGATGAAGCCAAACATGACCGCGCTGGCGTTGGCCGGGATTCTGTCGGCCAGCTCGTTGGCGGCTTTCGCCCAATCCGACAGCGCGCCCGTGGACAAGGGAGGCATGCCGCCCTCTACCCAGATGGACGCCGGCTCCACCACCGAGAAAGCCGGTAACGCTCTGCCACCCGGTTCCGTGGGAGGAGGCAATGGCGGCGACGCCAGCGGCAGCAGCACCAGCCCGGGAACCGGGAGTGGCTCCACCAGCGGTGGCAGTACGATGGGCGGCGGTTCTTCCGGCTCAAGTAGTGGAACCGGTAGCAGCAGTAGCGGTGGCAGCTCCAGCGGCGGCGGATCAGGCTCCGGCTCAGGCGGCTCCGGCGGCTAA	MMKPNMTALALAGILSASSLAAFAQSDSAPVDKGGMPPSTQMDAGSTTEKAGNALPPGSVGGGNGGDASGSSTSPGTGSGSTSGGSTMGGGSSGSSSGTGSSSSGGSSSGGGSGSGSGGSGG				NA	NA	NA	NA	NA
D1-35_02134	696	gph_1		Phosphoglycolate phosphatase	ATGAATGCACCGCTGAAAAAGTTTGGACCGATCAAGGCTGTGATTTTCGATATGGATGGCCTGCTGCTGGATACCGAAGGTATCTACACCGAGGTCACCTCCATCATCGCCGAGCGCTACGGGCGCACGTTCGACTGGAGCGTCAAGCAGAACATCATCGGGCGCGGCGCCGGGGACCTGGCGCGCTACGTGGTGCAGGCGCTGGAGCTGCCGATCACCCCGGAGGAATTTCTGGTGATTCGTGAACCGCTCATGCGTGAACGTTTCCCCCACGCCCTGGCGATGCCCGGCGCGGAGGAATTGGTGCGGCATCTCAAAGCCCACCACGTGCCGATAGCGGTGGGAACCAGTTCGTCGCGTCAGTCGTTCGAGCTGAAAACCACTTTGCACCGGGATTGGTTCGCGCTGTTCGACTTCATCGTCACCGCCGATGACCCGGAAGTGGGCGCGGCGAAACCGGCCCCGGATATCTTCCTCACCGCCGCCCGGCGCCTGGGTGTCGCGCCGGCGGATTGCCTGGTCTTCGAGGATTCCCCGTTTGGTGTGACGGCGGCGAAGGCGGCAGGCATGACGGCTATTGCGATTCCCGACTCGGCCATGGCCGACGAAAAGTACAGCCATGCCGACGCCATTATCCGTTCGCTCAAGCTGTTCCAGCCAGGCCTGTGCGGTTTGCCGGAACTGGAATGGGCCTGA	MNAPLKKFGPIKAVIFDMDGLLLDTEGIYTEVTSIIAERYGRTFDWSVKQNIIGRGAGDLARYVVQALELPITPEEFLVIREPLMRERFPHALAMPGAEELVRHLKAHHVPIAVGTSSSRQSFELKTTLHRDWFALFDFIVTADDPEVGAAKPAPDIFLTAARRLGVAPADCLVFEDSPFGVTAAKAAGMTAIAIPDSAMADEKYSHADAIIRSLKLFQPGLCGLPELEWA	PGPT0008620_152	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008620-FHY-K20884	NA	NA
D1-35_02135	747	bdcA	COG1028	Cyclic-di-GMP-binding biofilm dispersal mediator protein	ATGAGCACGCAAACACTGAGTGGCAAAGTCGCCTTGGTCCAAGGCGGTTCCCGTGGCATCGGCGCCGCCATTGTCAAACGCCTTGCCGCAGAAGGCGCGGCCGTGGCCTTCACCTATGTCAGCTCCGGCGCCAAGTCTGAAGAACTGCAGAACAGCATCACCGCCGCCGGCGGCAAGGCCCTGGCGATCAAGGCCGACAGCGCCGATGCCGACGCCATCCGCCATGCCGTCCAGGCCACCGTCGACGCCTTTGGCCGATTGGACATCCTGGTCAACAACGCGGGCATCCTGGCGTTGGCGCCGCTGGATGAATTCAAGCTGGAAGATTTTGACCAGACCCTCGCCATCAACGTGCGCAGCGTATTTGTCGCCACTCAGGCAGCCGCACGGCATATGAGCGAAGGGGGCCGGGTCATCAATATCGGCAGCACCAATGCCGACCGCATGCCCTTCGCTGGCGGCGCCACCTACGCCATGAGCAAATCCGCGCTGGTGGGCCTGACCAAAGGCCTGGCTCGCGACCTGGGCCCACGCGGCATTACCGTCAACAATGTTCAGCCCGGCCCGGTGGACACTGACATGAACCCGGCGGATAGCGATTTCGCCTCCAGCCTGATGGAACTCATGGCGGTAGGCCGTTATGGCACGGTGGAAGAAATCGCCAGCTTCGTCGCCTACCTCGCGGGTCCGGAAGCGGCCTATATCACCGGGGCCAGCCTGACAATCGACGGTGGTTTCGGCGCCTGA	MSTQTLSGKVALVQGGSRGIGAAIVKRLAAEGAAVAFTYVSSGAKSEELQNSITAAGGKALAIKADSADADAIRHAVQATVDAFGRLDILVNNAGILALAPLDEFKLEDFDQTLAINVRSVFVATQAAARHMSEGGRVINIGSTNADRMPFAGGATYAMSKSALVGLTKGLARDLGPRGITVNNVQPGPVDTDMNPADSDFASSLMELMAVGRYGTVEEIASFVAYLAGPEAAYITGASLTIDGGFGA	PGPT0003180_13205	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
D1-35_02136	924	pgrR_1		HTH-type transcriptional regulator PgrR	ATGGAGACTTTCAGCAGTATCGAATGTTTTGTCCGCAGTGCCGAGGTCGGCAGCTTCGCCGAGGCCGCACGCCGCTTGAGCCTGACCCCGGCGGCGGTAGGCAAAAGCGTCGCCAAGCTTGAAGCGCGCCTGGGCGTTCGGCTGTTCCAGCGCAGCACCCGCAGCCTGGCCTTGACCGAGGCCGGCCAACTGTTCCTGCGGGAAGTGGGCAGCAGTTTTAATACCATCCAGAACGCCGTCGCCAACCTGGCCAGCGCCGGCGGGCAGCCAGCCGGCACGCTGAAGGTGAGCATGGGAACGGCGTTCGGCCGGTTGTATATCGTGCCGTTGTTGGGTGAGTTTTTGCGCCGATACCCGGCAATCAACCCGGACTGGCATTTCGATAACCGTCAGGTGGACCTGATCGGCCAGGGTTTCGATGCCGCCATCGGCGGCGGCTTCGAGCTGCCCCAGGGCGTCGTGGCGCGCAAATTGACGGTGGCCCATCGGGTGCTGGTTGCGTCCGGACAGTACCTGCAAAACCATGCCGCCGTCGTTGAGCCGCAGGATCTGGGGCAACATCAGGGAATCCTGATCCGCTCACCGCAGACAGGGCGTATCCGTTCCTGGCAACTGACCAGCCGTAACCGCGAACACAGCCCGCTGACACTCAAGGCGCAAATGACCATGAGTGACTCGGAAGCCGCCTGCATCACCGCAGCCCAAGGGCTGGGCATTGCCCTGGTGAGCATGCCGTTTGCCGTGCCGTTCCTGAGCAGCGGCGCACTGCAACGGGTGCTGCCGGACTGGTACGTCGACGACGGCAATATCTCGATCTACTACGCCGAGCATAAACTGCTGCCGGGCAAGACCCGGGCGTTCGTGGATTTCATCATCGAGCAGTTTGCCGAGCAGGGGCTGGCGCAGCGGTTCAGTGCTGTTTGA	METFSSIECFVRSAEVGSFAEAARRLSLTPAAVGKSVAKLEARLGVRLFQRSTRSLALTEAGQLFLREVGSSFNTIQNAVANLASAGGQPAGTLKVSMGTAFGRLYIVPLLGEFLRRYPAINPDWHFDNRQVDLIGQGFDAAIGGGFELPQGVVARKLTVAHRVLVASGQYLQNHAAVVEPQDLGQHQGILIRSPQTGRIRSWQLTSRNREHSPLTLKAQMTMSDSEAACITAAQGLGIALVSMPFAVPFLSSGALQRVLPDWYVDDGNISIYYAEHKLLPGKTRAFVDFIIEQFAEQGLAQRFSAV				NA	NA	NA	NA	NA
D1-35_02137	729	hyuE		Hydantoin racemase	ATGCGAATTCTCATCGTCAACGTCAACACCACCGAGTCCATCACTCAGTCCATCGCGCGCCAGGCCCAGGCCGTTGCCGCGCCGGGAACCGAGATCGTCGGGCTGACGCCGCATTTCGGGGCAGACTCGATCGAAGGCAATTTTGAAAGCTACCTGGCCGCCATCGCCGTAATGGACCGGGTGATGTCCTACGACCAGCCGTTCGACGCGGTGATCCAGGCGGGCTACGGCGAACACGGTCGGGAAGGACTGCAGGAACTGCTCAACGTGCCAGTGGTGGACATCACCGACGCCGGCGCCAGCACGGCCATGTTTCTTGGTCATGCCTACTCGGTCGTCACCACCCTGGACCGCACGGTGCCGCTGATCGAGGACCGGCTCAAGCTTTCCGGCCTGTTCGACCGCTGCGCCTCAGTCCGGGCCAGTGGCCTGGCGGTGCTGGAACTTGAGCAAGACCCGCAGCGGGCGGTTGAAGCCATCATCCATCAGGCGGAACTCGCCGTCAGCCAGGACAAGGCCGAAGTGATCTGCCTGGGTTGCGGCGGCATGGCCGGGCTGGATGAGCAGATTCGTCAACGCACCGGAGTGCCTGTGGTCGATGGCGTGACGGCGGCGGTGACGATTGCCGAGTCGCTGGTGCGGCTGGGGTTGTCCACGTCGAAAGTGCGCACTTATGCGACGCCGCGACCGAAGACCATCATTGGCTGGCCGGGGCGGTTTGGGCGGTGA	MRILIVNVNTTESITQSIARQAQAVAAPGTEIVGLTPHFGADSIEGNFESYLAAIAVMDRVMSYDQPFDAVIQAGYGEHGREGLQELLNVPVVDITDAGASTAMFLGHAYSVVTTLDRTVPLIEDRLKLSGLFDRCASVRASGLAVLELEQDPQRAVEAIIHQAELAVSQDKAEVICLGCGGMAGLDEQIRQRTGVPVVDGVTAAVTIAESLVRLGLSTSKVRTYATPRPKTIIGWPGRFGR	PGPT0000895_881	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000895-hpxA-K16841	NA	NA
D1-35_02138	1530	pucI_2	COG1953	putative allantoin permease	ATGCGTACAAGTCTTTCCAATAACATCGCGCTGGATCTGCCCTCCCCAACCGCTGCCCTGGATGAACAACCCGCAGCCCCTCTCACCTTGAGTCCAAGGCTGCATAACAAGGACCTCGCGCCCACCAAAGCCGAAGGGCGACGCTGGGGCCGCTACAGCATCTTCGCCCTGTGGACCAACGACGTGCATAACATTGCCAATTATTCATTCGCCATCGGCCTGTATGCCTTGGGACTGGGCGGTTGGCAGATTCTACTGTCGCTGGGGATCGGCGCGGCGCTGGTGTACGGCTTCATGAATCTGTCCGGCTATATGGGGCAGAAGACCGGCGTGCCGTTTCCGGTCATCAGCCGGATCAGTTTTGGCATACACGGTGCGCAGATTCCCGCACTGATCAGGGCCGTCATCGCAATTGCCTGGTTTGGTATCCAGACTTACCTGGCGTCCGTGGTGTTTCGGGTCCTGCTGGTGGCGATTCATCCGGGCTTTGCCGATTATGATCAGAACTCGATCCTCGGGCTGTCGAGCCTGGGCTGGGTATGCTTCGTCGCCATCTGGTTCGTGCAACTGATGATCCTGGCCTATGGCATGGAAACCGTGCGGCGCTATGAAGGCTTCGCCGGCCCGGTCATCCTGGTGACCGTCGCGGCGTTGGCCGGTTGGATGTACTTTCAGGCCGGTGCGACGATTGCCTGGTCGATCCGCGAGCCGCTGGCCGGCGGTGAGATGTGGCGCAACATATTCGCCGGTGGTGCGCTGTGGCTGGCGATCTATGGCACGTTGATCCTCAACTTCTGCGATTTCGCTCGCTCTTCGCCGTGCCGGCGGACAATCGTCGTCGGAAATTTCTGGGGCCTGCCGGTGAATATTCTGGTATTTGCCGCCATCACCATCCTGTTGTGCGGTGCGCAGTTCCAGATCAATGGCCAGGTCATCGAGAGCCCGACCCAGGTCATCGCCTCGATTCCCAACACGTTTTTCCTGGTGCTTGGTTGCCTGGCGTTCCTGATCGTCACCGTGGCGGTGAATATCATGGCCAACTTTGTCGCCCCGGCCTTCGTCCTCAGCAACCTGGCGCCCAGGTACCTGAACTTCCGTCGTGCCGGACTGATCAGCGCCGCCATTGCCGTGCTGATCCTGCCGTGGAACCTCTACAACAGCCCGCTGGTGATCGTGTATTTCCTCTCCGGTCTCGGCGCCCTGCTCGGGCCGCTGTACGGCGTGATCATGGTCGACTACTGGTTGCTGCGAAAAGGCCGCATCAACGTGCCGCAACTCTACAGCGAGGACCCAAATGGTGCGTATTTCTACAGCAACGGGGTCAACCTGCGGGCGGTAGCGGCGTTCATTCCAGCGGCGCTGATCGCGATTGTCCTGGCGCTGGTGCCCGGTTTCGACAGTATTTCTCCGTTTTCCTGGCTGATTGGCGCTTCGATTGCAGGGTTGCTGTACCTGATCGTTGCCAAGCGCGAGGTGCATTACGAGGACGTCAGCGGTGAGTCCATTGCCGTGGATAACGTCAGCCATTGA	MRTSLSNNIALDLPSPTAALDEQPAAPLTLSPRLHNKDLAPTKAEGRRWGRYSIFALWTNDVHNIANYSFAIGLYALGLGGWQILLSLGIGAALVYGFMNLSGYMGQKTGVPFPVISRISFGIHGAQIPALIRAVIAIAWFGIQTYLASVVFRVLLVAIHPGFADYDQNSILGLSSLGWVCFVAIWFVQLMILAYGMETVRRYEGFAGPVILVTVAALAGWMYFQAGATIAWSIREPLAGGEMWRNIFAGGALWLAIYGTLILNFCDFARSSPCRRTIVVGNFWGLPVNILVFAAITILLCGAQFQINGQVIESPTQVIASIPNTFFLVLGCLAFLIVTVAVNIMANFVAPAFVLSNLAPRYLNFRRAGLISAAIAVLILPWNLYNSPLVIVYFLSGLGALLGPLYGVIMVDYWLLRKGRINVPQLYSEDPNGAYFYSNGVNLRAVAAFIPAALIAIVLALVPGFDSISPFSWLIGASIAGLLYLIVAKREVHYEDVSGESIAVDNVSH	PGPT0009075_906	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
D1-35_02139	744	cysH	COG0175	Phosphoadenosine phosphosulfate reductase	ATGAGCCCATCGTTTGATGTCGTGGAACTCGCCACGACCTATGCCAACAAGTCCCCGCAGGACATCCTCAAGCTGGCCTTCGCCGAATTCGGCGACGACCTGTGGATATCCTTCAGTGGCGCTGAAGACGTCGTGCTGGTGGACATGGCCTGGAAGCTGAACAAGAACGTCAAGGTGTTCAGCCTCGACACCGGTCGCCTGCACCCGGAAACCTATCGTTTCATTGAACAAGTGCGCGAGCATTACAAGATCGATATCGAACTGATCTCGCCCGACCATACGAAACTGGACCCTTTCGTGAAGGAAAAAGGCCTGTTCAGCTTCTACAAGGACGGTCACGGTGAATGCTGTGGCATCCGCAAGATCGAGCCGCTGCGCCGCAAACTGACCGATGTCCGCGCTTGGGCTACCGGTCAGCGCCGCGACCAGAGCCCGGGCACCCGCAGCCAGGTGGCCGTGCTGGAAATCGACACGGCGTTCTCCACGCCGGAGCGCACGCTGTACAAATTCAACCCGTTGTCGCAGATGACCAGCGAGGAAGTCTGGGGTTATATCCGCATGCTGGAGTTGCCTTATAACAGCCTGCATGAGCGCGGTTTCATCAGCATCGGCTGTGAGCCCTGCACCCGCCCTGTCCTGCCGAACCAGCACGAGCGCGAAGGCCGCTGGTGGTGGGAAGAAGCCACGCAAAAAGAATGCGGGCTGCACGCTGGCAATATCATCGCCAAATCCAAGACCGTCTGA	MSPSFDVVELATTYANKSPQDILKLAFAEFGDDLWISFSGAEDVVLVDMAWKLNKNVKVFSLDTGRLHPETYRFIEQVREHYKIDIELISPDHTKLDPFVKEKGLFSFYKDGHGECCGIRKIEPLRRKLTDVRAWATGQRRDQSPGTRSQVAVLEIDTAFSTPERTLYKFNPLSQMTSEEVWGYIRMLELPYNSLHERGFISIGCEPCTRPVLPNQHEREGRWWWEEATQKECGLHAGNIIAKSKTV	PGPT0002785_1499	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002785-cysH-K00390	NA	NA
D1-35_02140	618		COG0560	Phosphoserine phosphatase	GTGGAAATTGCCTGTCTCGACCTGGAAGGTGTGCTGGTCCCGGAGATCTGGATCGCCTTCGCTGAAAAAACCGGGATTGACTCCCTCAGGGCAACCACTCGGGACATTCCCGATTACGACGTGCTGATGAAGCAACGGTTGCGCATCCTGGATGAGCATGGCCTGAAGCTCTCCGACATCCAGGAAGTCATCGCTACGCTCAAGCCGCTGGACGGCGCCATCGAGTTCGTCGACTGGCTGCGCGAGCGCTTCCAGGTGGTGATTCTTTCCGACACGTTCTACGAATTTTCCCAGCCGCTGATGCGTCAGCTGGGCTTCCCGACGCTGCTCTGCCATCGTCTGGTTACCGACGACAGCGGACGGGTGACCGGCTATCAATTGCGTCAGAAAGATCCGAAGCGCCAGTCGGTCCTGGCCTTCAAGAGTTTGTACTACCGAGTAATTGCCGCCGGGGATTCTTACAACGACACGACGATGCTGGGCGAAGCCGATGCCGGGATTCTGTTCCACGCGCCGGAAAACGTGATCCGTGAGTTCCCGCAGTTTCCGGCGGTGCATACGTTTGCCGAGTTGAAGCAGGAGTTCATCAAGGCCTCGAACCGCAATCTCAACTTGTAA	MEIACLDLEGVLVPEIWIAFAEKTGIDSLRATTRDIPDYDVLMKQRLRILDEHGLKLSDIQEVIATLKPLDGAIEFVDWLRERFQVVILSDTFYEFSQPLMRQLGFPTLLCHRLVTDDSGRVTGYQLRQKDPKRQSVLAFKSLYYRVIAAGDSYNDTTMLGEADAGILFHAPENVIREFPQFPAVHTFAELKQEFIKASNRNLNL	PGPT0020280_72	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020280-trhH-K02203	NA	NA
D1-35_02141	1344	pabB	COG0147	Aminodeoxychorismate synthase component 1	ATGCCAACCTGCTTCGTACACCCTCTGCCCTACCGCGCCAACCCCGCCGAGTATTTCGCGGCGATCCGTCATGCCCCAGGCAGCGTGCTGCTCGACAGTGGCCGGCCGAGCGCCGAGCGCGGGCGTTATGACTTGCTCAGCGCCTGGCCGCTGAAGCAACTGGCGGTATTGCCGGAAGAGAGTGGCAGCGATTTCCTGCAACGTCTTCGGATACAGCTGACGCAACTGGGCCACGCCGAATTACCAGCCGCCGTGCAATTGCCCTTCGCCGGTGGCCTGATCGGTTATTTGAGTTACGACTTCGGCCGACGCCTCGAAGCCCTGCCGTCCTGCGCCAAGGACGATCTGCAACTGCCGGACGCGCGTTTTGGCGTGTACGACTGGGCACTGGTCACCGATCACCAGACTCGCACAAGCCAATTGGTCTTCCATCCCCATTGCGGCGAAAACCAACGCCAACGCTTGATCGAGCTGTTCCGTCAGCTAACCTCGGTGCCTCTCTCCTCGTTCAGTCTGGACGGCCCGATGGCGCCCGATCTCGACGCTGAAGCCTATCGACAGGCATTCGAGCGTATCCAGGCGTATATCCAGGCCGGCGACTGTTATCAGGTCAACTTTGCCCAACGCTTTCGCGCGCCGTGCCAGGGCGATGCGTGGGCCGCTTACCAGGCGCTGCGGGCGGCTTGCCCGACGCCGTTTTCCGGTTTCCAGAGCCTGCCGGAGGGCGGTGCGGTGCTGAGCCTGTCGCCCGAACGCTTCGTCCAGGTCAGTGAAGGTCACGTCGAAACCCGTCCGATCAAGGGCACCCGCCCTCGCGGCACGACGCCCGAAGACGACGCGGCTCACGCCGCCGAGCTGCTGGCCAGCCCCAAGGACCGTGCCGAGAACCTGATGATCGTCGACTTGCTGCGCAACGACCTGGGCCGCACCTGCCGCATCGGCTCGGTGCGGGTGCCGGAATTGTTCAGCCTGGAAAGCTACCCGAACGTCCATCATCTGGTCAGCAGCGTGACTGGCGAACTGGCGGACGACAAGGACGCCCTGGACCTGATCGCCGACAGCTTTCCCGGCGGCTCGATCACCGGCGCGCCGAAGATCCGTGCCATGCAGATCATCGACGAGCTCGAACCGACCCGACGCGGTCTGTATTGCGGCTCGTTGTTGTACCTCGATGTGCGCGGGGAGATGGACAGCTCCATCGCCATCCGCAGCTTGCTGGTCAAGGACGGGCAGGTATGTTGCTGGGGTGGCGGCGGGATCGTCGCGGATTCGGATTGGCAGGCGGAGTATCAGGAGTCGATGACCAAGGTGAGGGTCTTGCTGGAAACCTTGCAGAACCTCTGA	MPTCFVHPLPYRANPAEYFAAIRHAPGSVLLDSGRPSAERGRYDLLSAWPLKQLAVLPEESGSDFLQRLRIQLTQLGHAELPAAVQLPFAGGLIGYLSYDFGRRLEALPSCAKDDLQLPDARFGVYDWALVTDHQTRTSQLVFHPHCGENQRQRLIELFRQLTSVPLSSFSLDGPMAPDLDAEAYRQAFERIQAYIQAGDCYQVNFAQRFRAPCQGDAWAAYQALRAACPTPFSGFQSLPEGGAVLSLSPERFVQVSEGHVETRPIKGTRPRGTTPEDDAAHAAELLASPKDRAENLMIVDLLRNDLGRTCRIGSVRVPELFSLESYPNVHHLVSSVTGELADDKDALDLIADSFPGGSITGAPKIRAMQIIDELEPTRRGLYCGSLLYLDVRGEMDSSIAIRSLLVKDGQVCCWGGGGIVADSDWQAEYQESMTKVRVLLETLQNL	PGPT0008005_1350	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008005-pabB-K01665	NA	NA
D1-35_02142	987			hypothetical protein	ATGTTCGGCCTCTGGAAGACCTGGAAGGCCCTGGAAGCCCGGGGCATCATGGGCATCAACCGGCGTAATGCCGACTACGTGCTCAAGTACAACAAGCGCAGCCTTTACCCGATTGTCGATGACAAGATCATCACCAAGGAACGGGCCATCGCCGCCGGCATTCACGTGCCGGAGCTGTACGGGGTGATCTCCACCGAGAAGGAAATCGACAAGCTCGACGGGATCATCGGCGGACGCACCGACTTCGTCATCAAGCCGGCCCAGGGCGCCGGCGGTGACGGCATCATCGTTATTGCCGACCGCTTCGAGGGCCGCTATCGAACCGTGTCCGGGAAGATCATCAGCCACGAGGAAATTGAGCATCACATCTCCAGCATCCTCACCGGCCTGTACTCCCTCGGCGGGCACCGTGACCGGGCGCTGATCGAGTACCGCGTGACGCCGGACCAGATCTTCAAGAGCATCAGCTACGAAGGCGTACCGGATATCCGCATCATCGTGCTGATGGGCTATCCGGTGATGGCCATGCTGCGCTTGCCGACCCGCCAGTCCGGCGGCAAGGCCAACCTGCACCAGGGCGCCATCGGCGTCGGCGTCGACCTCGCCACCGGCCTGACCTTGCGCGGTACCTGGCTGAACAACATCATCACCAAGCACCCCGACACCACCAACGCGGTGGATGGCGTGCAACTGCCCTATTGGGACGGCTTCATGAAACTGGCCGCCGGTTGCTATGAACTGTGCGGGCTGGGCTACATCGGCGTCGACATGGTGCTGGACCAGGAAAAAGGCCCGTTGATCCTGGAACTGAACGCCCGCCCAGGGCTGAACATCCAGATCGCCAACGACTGCGGCCTGACCCTGCGCACCCACGCCGTGGAGGCACGCCTGGAAGAACTCAAGGCCAGGGGCGTCACCGAAACCGTGGAAGAGCGCGTGGCGTTTGCCCAGGAATTGTTCGGGCATATTCCGCCGGTTGAGGGCTAG	MFGLWKTWKALEARGIMGINRRNADYVLKYNKRSLYPIVDDKIITKERAIAAGIHVPELYGVISTEKEIDKLDGIIGGRTDFVIKPAQGAGGDGIIVIADRFEGRYRTVSGKIISHEEIEHHISSILTGLYSLGGHRDRALIEYRVTPDQIFKSISYEGVPDIRIIVLMGYPVMAMLRLPTRQSGGKANLHQGAIGVGVDLATGLTLRGTWLNNIITKHPDTTNAVDGVQLPYWDGFMKLAAGCYELCGLGYIGVDMVLDQEKGPLILELNARPGLNIQIANDCGLTLRTHAVEARLEELKARGVTETVEERVAFAQELFGHIPPVEG				NA	NA	NA	NA	NA
D1-35_02143	1533			hypothetical protein	ATGCGCTCCCTTACCCTCCATCTGAAAATGCTGATCGCCATCTTGGTGGTGCTGGGCCTGTCAGTGACGGCCTATCAGATTTTCGTGCTCGGCATCCCGGTGACCGAAGACGCCACCGATGACCTGTGGAATATCGATGCCAAGGTCGAGTTCGTGCCCAACGCCAAGGATCCGGTGAAGATCCAGATGTTCGTGCCGCCCCTGAGCCGCGATTACGTCAGCCTCAACGAGAGCTTCATCTCCAACAACTACGGCGTAGCGGTGAACCGCGTCGACGGCAACCGCAAGGTGACGTGGTCGGCCCGGCGCGCCAAGGGCAACCAGACCCTTTATTACCGCCTGGTGCTGACCAAGCGCTACAGCGCCGAGAAAACCAAGGTCAAGGGCCCGACCTTCCGCGACAGCATCGCCGTCGAAGGGCCGGAAAAACTCGCCGCCGAAGCGCTGTTGGCACCGATTCGCCAGCATTCGGCCGACGTCGAAACGTTCATCAGCGAAGCCATCAAGCGGGTCAACAACCTCAACGACGACAACGTCAAGCTGTTGCTGGCCGGCGACCCGTCTTCGAGCAACAAGGCCAGAATCGTCGAACTGGTACTGTCCATTGCCCACGTGCCGGTCGAGAAGGTCCACACCATCCGCCTGGTGGCCGACCAGCCTCAGACGCCCGAGCTGTGGCTGCGCAGCTTCAACGGCACCGACTGGCTGTACTTCAACCCCGACACCGGCGAGCAAGGCCTGCCCACCGATCGCCTGCTGTGGTGGACCGGCGATGAAAACCTGATCACCGTCGATGGCGGCAAGAAAGCCACCGTCACGTTCAGCATGAACAACAGCGAAATGAACGCCATTCGCCTGGCCAAGCTGACGGACGAGAACACCGACGCCAACTTCCTCGAATACTCGCTCTACGGCCTGCCGCTGCAAACCCAGCAGACCTTCATGATCATGGTGATGATCCCGATCGGCGTGCTGGTGATCCTGGTGTTGCGCAACCTGATCGGCCTGCAGACCCTCGGGACGTTCACCCCGGTGCTGATCGCCCTGGCCTTCCGCGAAACCCAACTGGGCTTCGGCATCATCCTGTTCACGGTGATCACTACCCTGGGCCTGTCGCTGCGTTCCTACCTGGAACATCTCAAGCTGCAAATGCTGCCGAGGCTTTCGGTGGTGCTGACGTTCGTAGTGGTGCTGATCGCCGCCATCAGCCTGTTCAGCCATAAGCTGGGCCTGGAGCGTGGCCTGTCGGTGGCATTGTTCCCGATGGTGATCCTGACCATGACCATCGAACGCCTGTCCATCACCTGGGAAGAGCGCGGCGCCGGCCATGCGATGAAAGTCGCCATCGGCACCCTGTTCGCCGCGTCCCTGGCGCACCTGATCATGAGCGTCCCGGAGCTGGTGTACTTCGTGTTCACGTTCCCGGCGATCCTGCTGATCCTGGTGGGTTTCATGCTGGCCATGGGTCGTTATCGCGGCTACCGCCTGACCGAGCTGGTGCGGTTCAAGGCTTTCGTCAAGGCTGACTCCTGA	MRSLTLHLKMLIAILVVLGLSVTAYQIFVLGIPVTEDATDDLWNIDAKVEFVPNAKDPVKIQMFVPPLSRDYVSLNESFISNNYGVAVNRVDGNRKVTWSARRAKGNQTLYYRLVLTKRYSAEKTKVKGPTFRDSIAVEGPEKLAAEALLAPIRQHSADVETFISEAIKRVNNLNDDNVKLLLAGDPSSSNKARIVELVLSIAHVPVEKVHTIRLVADQPQTPELWLRSFNGTDWLYFNPDTGEQGLPTDRLLWWTGDENLITVDGGKKATVTFSMNNSEMNAIRLAKLTDENTDANFLEYSLYGLPLQTQQTFMIMVMIPIGVLVILVLRNLIGLQTLGTFTPVLIALAFRETQLGFGIILFTVITTLGLSLRSYLEHLKLQMLPRLSVVLTFVVVLIAAISLFSHKLGLERGLSVALFPMVILTMTIERLSITWEERGAGHAMKVAIGTLFAASLAHLIMSVPELVYFVFTFPAILLILVGFMLAMGRYRGYRLTELVRFKAFVKADS				NA	NA	NA	NA	NA
D1-35_02144	537			hypothetical protein	ATGACACTCAAGCCCTTATCTGCTGCCCTATGCTTTATCTGCCTGCCAGGGATTGCCGCGGCGGGTGAAAAAACCGTGTACGGCCTCAACGAATATGCAGCCCTGCAGGGCATTGACCTGGAGGTCGCGGCCAAGCTCGACACCGGTGCCAAGACCGCCTCCCTCAGCGCCCGTGACATCAAGCGCTTCAAGCGCAACGGCGAATCCTGGGTGCGTTTCTACCTGGCCATCGACGCGGCCCATTCGCACCCCATCGAACGCCCGCTGGCCCGGGTCAGCAAGATCAAGCGCCGCGCCGGTGACTACGACCCGGAAGAAGGCAAGAAATACACGGCCCGGCCGGTCATCGAACTGGATATCTGCATGGGCTCGGCCCTGCGCAGCATCGAAGTGAACCTGACCGACCGTAGCGCCTTCCAATACCCGTTGCTGATCGGCTCCGAAGCGCTCAAGCGTTTCGACGCGCTGGTCGATCCCAGTCTCAAATACGCTGCCGGCAAACCCGCCTGCGCCAATGCCGCTCATACCGCAGAGTAA	MTLKPLSAALCFICLPGIAAAGEKTVYGLNEYAALQGIDLEVAAKLDTGAKTASLSARDIKRFKRNGESWVRFYLAIDAAHSHPIERPLARVSKIKRRAGDYDPEEGKKYTARPVIELDICMGSALRSIEVNLTDRSAFQYPLLIGSEALKRFDALVDPSLKYAAGKPACANAAHTAE				NA	NA	NA	NA	NA
D1-35_02145	714	glaR	COG1802	HTH-type transcriptional repressor GlaR	ATGCTCGATCAGCTCGAAACGCCGGTCCTCGTCCAGGAAGATGCCGAGACGCTGTCCGAGAACGTCTTCCGGCGTATCCAGGCCGCCATCGTCAAGGGTGAAATTGCCCCCGGCAGCAAGATCTCCGAGCCCGAGCTGGCCCGTACCTACGGCATCAGTCGCGGGCCGCTGCGCGAGGCGATCCATCGCCTGGAAGGCCAGCGGCTGCTGGTGCGCATTCCCCATGTTGGCGCGCGGGTGGTCTCGCTGAGCCATGCCGAGCTGCTGGAACTCTACGAAATTCGTGAATCCCTGGAGGGCATGGCCTGTCGCCTTGCGGCGGAGCGTATGACCCAGGAAGAAATCGACGAACTGCGTCGAGTGCTGGAAACCCACGAGCGCGATGCGGCGTTCCAGGCCGGCGTCGGTTATTACCAGCAGGAAGGCGATTTCGACTTCCACTACCGGATCATCCAGGGCAGCGGCAATCGCACCCTCACCCAAATGCTCTGCGGCGAGCTGTATCAACTGGTGCGCATGTACCGCATCCAGTTTTCCACCACGCCGAACCGTCCGCGCCAGGCTTTTGCCGAGCACCACCGGATTCTCGACGCCATCGCCGACCGTGACGGCGAACTGGCCGAATTATTGATGCGCCGGCACATCGGCGCCTCCAAACGCAACATTGCGCGTCATTTCCAGGACAGCGCCGCCACTCAACGAGGTGAGTCATGA	MLDQLETPVLVQEDAETLSENVFRRIQAAIVKGEIAPGSKISEPELARTYGISRGPLREAIHRLEGQRLLVRIPHVGARVVSLSHAELLELYEIRESLEGMACRLAAERMTQEEIDELRRVLETHERDAAFQAGVGYYQQEGDFDFHYRIIQGSGNRTLTQMLCGELYQLVRMYRIQFSTTPNRPRQAFAEHHRILDAIADRDGELAELLMRRHIGASKRNIARHFQDSAATQRGES				NA	NA	NA	NA	NA
D1-35_02146	891	prpB	COG2513	2-methylisocitrate lyase	ATGAGTTCCAGCAAGAGCACGCCAGGCCAGCGTTTTCGCGATGCGGTCGCCGCCGAGCATCCATTACAAGTGGTCGGCACCATCAACGCCAACCATGCGCTGCTGGCCAAGCGCGCCGGCTTCAAGGCGATCTACCTGTCGGGTGGCGGCGTGGCGGCCGGTTCCCTCGGCGTGCCGGACCTGGGCATCACCGGCCTGGATGACGTGCTCACCGATGTGCGCCGCATCACCGACGTGTGCGACCTGCCGTTGTTGGTGGACGTGGACACCGGCTTCGGCTCCTCGGCGTTCAACGTGGCGCGCACGGTCAAGTCGATGAGCAAGTTCGGCGCGGCGGCGATTCACATCGAGGACCAGGTCGGCGCCAAGCGTTGCGGCCATCGTCCGAACAAGGAAATCGTTTCGCAACAAGAGATGGTCGATCGCATCAAGGCTGCCGTCGACGCCCGTACCGATGACAGTTTTGTGATCATGGCGCGTACCGATGCGTTGGCAGTGGAAGGCCTGGAGTCGGCCCTGGACCGCGCCGCCGCTTGCATCGAGGCCGGTGCCGACATGATTTTCCCGGAAGCGATCACTGAACTCGAAATGTACAAGCTGTTCGCCAGCCGTGTGAAAGCGCCGATCCTGGCCAACATTACCGAATTCGGCGCGACCCCGCTCTACACCACCGAACAACTCGCCGGGGCCGACGTGTCCCTGGTGCTGTACCCGCTGTCGGCGTTCCGTGCGATGAACAAGGCCGCCGAAAATGTCTACACCGCCATCCGTCGCGATGGTACGCAGCAGAACGTCATCGACACCATGCAGACCCGCATGGAGCTTTACGATCGCATCGACTACCACACCTTCGAGCAGAAGCTCGACGCGTTGTTCGCCGCGAAAAAGTAA	MSSSKSTPGQRFRDAVAAEHPLQVVGTINANHALLAKRAGFKAIYLSGGGVAAGSLGVPDLGITGLDDVLTDVRRITDVCDLPLLVDVDTGFGSSAFNVARTVKSMSKFGAAAIHIEDQVGAKRCGHRPNKEIVSQQEMVDRIKAAVDARTDDSFVIMARTDALAVEGLESALDRAAACIEAGADMIFPEAITELEMYKLFASRVKAPILANITEFGATPLYTTEQLAGADVSLVLYPLSAFRAMNKAAENVYTAIRRDGTQQNVIDTMQTRMELYDRIDYHTFEQKLDALFAAKK	PGPT0001555_854	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001555-prpB-K03417	NA	NA
D1-35_02147	1128	prpC_1	COG0372	2-methylcitrate synthase	ATGGCCGAAGCAAAAGTACTCAGTGGCGCCGGGCTCCGTGGCCAGGTGGCCGGACAAACCGCCTTGTCCACCGTGGGCCAGTCAGGCGCCGGGCTGACCTATCGCGGCTACGACGTTCGCGACCTGGCGGCTGACGCGCAATTCGAAGAGGTGGCCTACCTGCTGCTGTACGGCGAGCTGCCGACCCAGGCACAGCTGGACGCCTACACGGGCAAACTGCGCCAGTTGCGCGACCTGCCCCAAGCCTTGAAAGAAGTGCTGGAACGCATTCCCGCCGACGCCCATCCGATGGATGTGATGCGCACGGGCTGCTCGTTCCTCGGCAACCTGGAGCCCGAGCAGGATTTCTCCCAGCAGCACGACAAGACCGATCGTCTGCTGGCCGCGTTCCCGGCGATCATGTGCTACTGGTATCGCTTCAGCCACGAAGGCCAGCGCATCGAATGCGTAACCGACGAAGTCTCCATTGGCGGCCACTTCCTGCATCTGCTGCACGGCAAAAAGCCGAGCGAGTTGCACGTCAAGGTGATGAACGTGTCGCTGATCCTTTACGCCGAGCACGAATTCAACGCCTCGACCTTTACCGCGCGGGTTTGTGCTTCGACATTGTCCGACCTGTTCTCCTGCATCACCGCTGCCATCGGCTCCCTGCGTGGCCCGTTGCACGGCGGCGCCAACGAGGCGGCGATGGAAATGATCGAGCGTTTCAGCTCGCCGCAAGAAGCCATCGAGGGCACCCTCGGCATGCTCGCGCGCAAGGACAAGATCATGGGCTTCGGCCATGCCATCTACAAGGACAACGACCCGCGCAACGAGGTGATCAAGGGCTGGTCGAAAAAGCTCGCCGATGAAGTCGGCGACACGGTGCTGTTCCCGGTTTCCGAAGCTATCGACAAGACCATGTGGGAGCAGAAGAAACTGTTCCCCAACGCCGATTTCTACCATGCCTCGGCGTACCACTTCATGGGCATCCCGACCAAGCTGTTCACGCCGATCTTCGTCTGCTCGCGCCTGACCGGCTGGGCCGCCCATGTGTTCGAACAACGTGCCAACAACCGCATCATCCGACCGAGCGCCGAATACACCGGCGTCGAACAGCGCAAGTTCGTGCCAATCGAACAACGCTGA	MAEAKVLSGAGLRGQVAGQTALSTVGQSGAGLTYRGYDVRDLAADAQFEEVAYLLLYGELPTQAQLDAYTGKLRQLRDLPQALKEVLERIPADAHPMDVMRTGCSFLGNLEPEQDFSQQHDKTDRLLAAFPAIMCYWYRFSHEGQRIECVTDEVSIGGHFLHLLHGKKPSELHVKVMNVSLILYAEHEFNASTFTARVCASTLSDLFSCITAAIGSLRGPLHGGANEAAMEMIERFSSPQEAIEGTLGMLARKDKIMGFGHAIYKDNDPRNEVIKGWSKKLADEVGDTVLFPVSEAIDKTMWEQKKLFPNADFYHASAYHFMGIPTKLFTPIFVCSRLTGWAAHVFEQRANNRIIRPSAEYTGVEQRKFVPIEQR	PGPT0001480_947	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-CITRIC_ACID_BIOSYNTHESIS,PGPT0001480-prpC-K01659	NA	NA
D1-35_02148	2592	acnD	COG1048	2-methylcitrate dehydratase (2-methyl-trans-aconitate forming)	ATGAACACAGAATTTCGCAAACCGCTGCCCGGCACATCGCTGGATTATTTCGACGTTCGCGCGGCCGTGGATGGCATTCGGCCTGGCGCCTACGATAGCCTGCCGTACACCTCCCGCGTGCTGGCGGAAAACCTCGTGCGCCGCTGCGATCCGGCGACGCTGCGCGAATCGCTGCTGCAACTGATCGAGCGCAAGCGCGACCTGGATTTCCCCTGGTTCCCGGCGCGCGTGGTCTGCCATGACATCCTCGGCCAGACCGCATTGGTCGACCTGGCCGGCCTGCGCGACGCCATCGCCCTGCAAGGCGGCGACCCGGCGCAGGTCAATCCGGTGGTGCCGACCCAACTGATCGTCGACCACTCGTTGGCGGTAGAGAGCGCCGGTTTTGATCCGCAGGCGTTCGCCAAGAACCGCGCCATCGAAGACCGCCGCAACGAAGACCGCTTCCACTTCATCAACTGGACCAAGAAGGCCTTCAAGAACGTCGACGTGATCCCGCCGGGCAATGGGATCATGCACCAGATCAACCTGGAGAAAATGTCTCCCGTCATCCAGCAGCGTGACGGCGTGGCGTTCCCCGACACTTGCGTAGGCACCGACAGCCACACGCCTCACGTCGATGCCCTGGGTGTGATCGCGATCGGTGTCGGTGGCCTGGAAGCCGAAAGCGTCATGCTCGGTCGCGCCTCGTGGATGCGCCTGCCGGAAATCATCGGCGTCGAGCTGACCGGCAAGTTGCAACCGGGCATCACTGCCACCGACATGGTGCTGGCGCTGACCGAATTCCTGCGCAAGCAGAAAGTCGTCGGGGCCTGGCTGGAGTTCTTCGGCGAAGGCGCCCGCGCCCTGACCCTGGGGGATCGCGCGACGATCTCCAACATGGCCCCGGAATACGGCGCCACGGCAGCGATGTTCCATATCGATCAGCAAACGATCGATTACCTGAAGCTCACCGGCCGCGAAGACCAGCAAGTGCAGTTGGTCGAACATTACGCCAAGACCACCGGCCTCTGGGCTGACAGCCTGGAAGGCGCGGTATATGAGCGCGGTCTGACCTTCGACCTGTCCTCGGTGGTGCGTAACATGGCCGGTCCGAGCAACCCGCACGCCCGTGTCGCGGTGTCCGATCTGGCTGCCAAAGGCATTTCTGGCCAGTGGGACGATGTGCCCGGGCAAATGCCCGACGGCGCGGTGATCATCGCGGCGATCACCAGTTGCACCAACACCAGCAACCCGCGCAACGTGATCGCCGCCGGTTTGCTGGCGCGCAACGCCAATCGCCTGGGCCTGGCGCGCAAGCCGTGGGTCAAGTCATCCCTCGCACCGGGCTCGAAAACCGTCGCGTTGTACCTGGATGAAGCGGGCCTGACGTCTGAACTTGAGCAACTGGGTTTTGGCGTGGTCGCGTTCGCCTGTACTACCTGCAACGGCATGTCCGGCGCGCTGGACCCGGTGATCCAGCAGGAAATCATCGACCGTGACCTGTACGCCACCGCCGTCTTGTCGGGTAACCGCAACTTCGACGGGCGGATTCACCCGTACGCCAAGCAGGCGTTCCTGGCGTCGCCGCCATTGGTGGTGGCTTATGCCATCGCCGGGACCATCCGTTTCGACATCGAGAAGGATGTGTTGGGTGTGGTGGACGGTCAGGAAATACGCCTCAAGGACATCTGGCCGAGCGACGAGGAAATCGACGCGGTGGTCAAGGCTTCGGTGAAACCCGAGCAGTTCCGCCAGGTGTACATCCCGATGTTCGCCATCCAGGAAGACACCGGGCCGAAAGTGACCCCGCTGTACGACTGGCGCCCGCAAAGCACCTATATCCGTCGTCCGCCCTATTGGGAAGGCGCATTGGCCGGTGCGCGGCCGCTCAAGGGCATGCGTCCGCTGGCGGTGCTGCCGGACAACATCACCACCGATCACCTGTCGCCGTCCAACGCCATCATGCTCGACAGTGCCGCGGGTGAATACCTGGCGAAAATGGGCCTGCCGGAAGAAGACTTCAACTCCTACGCGACCCACCGCGGCGATCACCTGACCGCGCAACGGGCCACCTTTGCCAACCCGAAACTGTTCAACGAAATGGTCGTTGAGGACGGCAAGGTCAAGCAGGGCTCCCTGGCTCGGGTCGAACCGGAAGGCAAGGTCATGCGCATGTGGGAAGCCATCGAAACCTACATGGAACGCAAGCAGCCGTTGATCATCATCGCCGGCGCCGACTACGGCCAGGGTTCGTCCCGGGACTGGGCGGCCAAGGGCGTGCGCCTGGCCGGTGTCGAGGCGATCGTCGCCGAAGGTTTCGAGCGCATCCACCGCACCAACCTGGTGGGTATGGGCGTGTTGCCGCTGGAGTTCAAACCCGGCACGGATCGCAAGACGCTTGGCATCGACGGCAGCGAAGTCTATGACGTGATCGGCGAGCGCACCCCGCGGGCGACGCTGACCCTGGTCATCACGCGCAAAAATGCTGAACGCGTCGAAGTGCCGGTGACCTGCCGCCTCGATACCGCCGAGGAAGTGTCGATCTACGAAGCCGGGGGCGTGCTGCAACGCTTCGCCCAGGATTTCCTTGAATCGGCGATTGCCGTTTAA	MNTEFRKPLPGTSLDYFDVRAAVDGIRPGAYDSLPYTSRVLAENLVRRCDPATLRESLLQLIERKRDLDFPWFPARVVCHDILGQTALVDLAGLRDAIALQGGDPAQVNPVVPTQLIVDHSLAVESAGFDPQAFAKNRAIEDRRNEDRFHFINWTKKAFKNVDVIPPGNGIMHQINLEKMSPVIQQRDGVAFPDTCVGTDSHTPHVDALGVIAIGVGGLEAESVMLGRASWMRLPEIIGVELTGKLQPGITATDMVLALTEFLRKQKVVGAWLEFFGEGARALTLGDRATISNMAPEYGATAAMFHIDQQTIDYLKLTGREDQQVQLVEHYAKTTGLWADSLEGAVYERGLTFDLSSVVRNMAGPSNPHARVAVSDLAAKGISGQWDDVPGQMPDGAVIIAAITSCTNTSNPRNVIAAGLLARNANRLGLARKPWVKSSLAPGSKTVALYLDEAGLTSELEQLGFGVVAFACTTCNGMSGALDPVIQQEIIDRDLYATAVLSGNRNFDGRIHPYAKQAFLASPPLVVAYAIAGTIRFDIEKDVLGVVDGQEIRLKDIWPSDEEIDAVVKASVKPEQFRQVYIPMFAIQEDTGPKVTPLYDWRPQSTYIRRPPYWEGALAGARPLKGMRPLAVLPDNITTDHLSPSNAIMLDSAAGEYLAKMGLPEEDFNSYATHRGDHLTAQRATFANPKLFNEMVVEDGKVKQGSLARVEPEGKVMRMWEAIETYMERKQPLIIIAGADYGQGSSRDWAAKGVRLAGVEAIVAEGFERIHRTNLVGMGVLPLEFKPGTDRKTLGIDGSEVYDVIGERTPRATLTLVITRKNAERVEVPVTCRLDTAEEVSIYEAGGVLQRFAQDFLESAIAV	PGPT0001515_670	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACONITIC_ACID_BIOSYNTHESIS,PGPT0001515-acnD-K20455	NA	NA
D1-35_02149	1191	prpF	COG2828	2-methyl-aconitate isomerase	ATGGCTCACTCGCCTCAAATCAAGATCCCCGCGACCTATATGCGTGGCGGCACCAGCAAAGGCGTGTTCTTCAGCCTGCAAGACCTGCCCGAAGCAGCGCGCGTTCCCGGCCCGGCCCGGGATGCGCTGCTGCTGCGGGTGATCGGTAGCCCCGATCCGTACGAAAAGCAGATCGATGGCATGGGCGGTGCGACGTCCAGCACCAGCAAGACCGTGATCCTGTCCAAGAGCACCCGGGCCGATCACGACGTCGATTACCTGTTCGGCCAGGTGTCCATCGACAAGCCGTTCGTGGATTGGAGCGGCAACTGCGGCAACCTGTCGGCGGCGGTGGGGGCGTTTGCCATCGGTAGCGGTCTGGTGGATGCCAGCCGTATCCCGCAGGACGGTATGGCCGTGGTGCGGATCTGGCAGGCGAACATCGGCAAGACGATCATCGCCCATATACCGATCACCGACGGCGCGGTGCAGGAAACCGGTGACTTCGAACTCGACGGCGTGACCTTTCCGGCCGCTGAAGTGCAGCTGGAGTTCATGGACCCGGCGGCCGAGGAGGAGGGCGGCGGTGGTTCGATGTTTCCTACCGGCAACCTGGTGGACGACCTGGAAGTGCCCGGTGTCGGCAAGCTCAAGGCGACGCTGATCAACGCAGGCATTCCGACGATATTCATCAACGCCCGGGATGTCGGTTACACCGGCACCGAATTGCAGGGCGCCATCAACGGCAATCCCAAGGCGCTGGCGATGTTTGAAACGATTCGTGCCCATGGCGCTTTGCGCATGGGCCTGATCAAGCACCTGGACGAAGCTGCCCAGCGCCAGCACACGCCGAAAGTGGCGTTTGTCGCGCCGCCGGCGGATTACCTTTCATCCAGCGGTAAAACCGTGGCGGCGGGTGACGTCGACTTGCTGGTTCGGGCGTTGTCCATGGGCAAGCTGCACCACGCCATGATGGGCACCGCCGCTGTCGCCATCGGCACCGCCGCGGCGATTTCCGGCACCCTGGTCAACCTCGCGGCCGGTGGCGTCGAACGCAACGCGGTGCGCTTCGGCCACCCGTCCGGCACCTTGCGCGTTGGCGCCGAGGCGAGCGTAGTCAATGGCGAATGGACCGTGAAAAAAGCCATGATGAGCCGCAGCGCGCGGGTGTTGATGGAAGGGTTTGTGCGGGTGCCGGGGGATGTTTTCTAA	MAHSPQIKIPATYMRGGTSKGVFFSLQDLPEAARVPGPARDALLLRVIGSPDPYEKQIDGMGGATSSTSKTVILSKSTRADHDVDYLFGQVSIDKPFVDWSGNCGNLSAAVGAFAIGSGLVDASRIPQDGMAVVRIWQANIGKTIIAHIPITDGAVQETGDFELDGVTFPAAEVQLEFMDPAAEEEGGGGSMFPTGNLVDDLEVPGVGKLKATLINAGIPTIFINARDVGYTGTELQGAINGNPKALAMFETIRAHGALRMGLIKHLDEAAQRQHTPKVAFVAPPADYLSSSGKTVAAGDVDLLVRALSMGKLHHAMMGTAAVAIGTAAAISGTLVNLAAGGVERNAVRFGHPSGTLRVGAEASVVNGEWTVKKAMMSRSARVLMEGFVRVPGDVF	PGPT0001520_250	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACONITIC_ACID_BIOSYNTHESIS,PGPT0001520-prpF-K09788	NA	NA
D1-35_02150	894			hypothetical protein	ATGGTTTTTTCATTACGACAATTGGTCTGGGCTCTAGCCCTCGGCGGCGCAGTGATCACCTCGTCGATGGCCGCCGAAAAGACCCAACTGCTGGCCTCGCTGCCCGTCACCTACGGGTTGGGCGAGGCCTTGCTCAAGGGCACCGACGTCAGCCTGGCCCGGGCCGCTCCGGACAATCTTCCCGGCACCCGGCAAAGCGCCTATTTCAGTGGCCGTGGCGCCCCGGCCCTGAGCAAGCTGGCCGGCGAGGCCGACGCGGTGATCGGGCTGCGTTCGCTCTGGCCGGACGATCCGCTGTACCCCATGGCCCGCCGCAGCAATATCCGTATCGTTGAAATCGACGCTGCTCGTCCGGTGGACGGCGCCCTGCCCGGCATCGCCATACAGCCGGGCATGACCGACGGCCTGGCGAGCCAGCCGTGGATGGCCAGCCACAATCTGGGGCGGATGGCCGACGTGATCGCTGCTGATCTGGTGCGCCTCGTCCCGGCGGACAAACCGAAAATCGATGCCAACCTGGCGGCACTCAAGCAGCGCCTGCTCAAGCTCAGCGCCGACAGTGAAAAGCGCCTCGCCAGCGCTGACAACCTGAGCGTGGTCAGCCTGAGCGAGCACTTCGGTTACTTGATCAGTGGCTTGAACCTGGATGGCATCAACACCGATGCCCGCCCCGACGCCGAATGGACAGCCGAAGCCCTGAAGCAGCTGACAGCCACGCTCAAGGAGAACGATGTCGCACTGGTGCTGCATCACCGACAGCCGCCGGAAGCTGTGAAAGCGGCCATCGCCGAAGGCGGTAGCCAACTGCTGGTGCTGAGCACCGACGGTGCCGATCCGGTGGCGGAACTGGAAAACAACGTGGAGCTGGTCGTCACCGCACTGACGAAAGGCTGA	MVFSLRQLVWALALGGAVITSSMAAEKTQLLASLPVTYGLGEALLKGTDVSLARAAPDNLPGTRQSAYFSGRGAPALSKLAGEADAVIGLRSLWPDDPLYPMARRSNIRIVEIDAARPVDGALPGIAIQPGMTDGLASQPWMASHNLGRMADVIAADLVRLVPADKPKIDANLAALKQRLLKLSADSEKRLASADNLSVVSLSEHFGYLISGLNLDGINTDARPDAEWTAEALKQLTATLKENDVALVLHHRQPPEAVKAAIAEGGSQLLVLSTDGADPVAELENNVELVVTALTKG				NA	NA	NA	NA	NA
D1-35_02151	900	znuB_1	COG1108	High-affinity zinc uptake system membrane protein ZnuB	ATGAGTTATGAAGCCTTCCGCCTGATGGTCCAGGGTTGGGCCTCCTCCGGTTACCTGCCCGAGGCGCTGGCCTATGGTTTTGTGGTCAACGCCTTGCTGGCCGGGCTGTTGATCGGCCCGGTGCTGGGCGGCCTCGGCACGCTGGTGGTGGTCAAGCGCTTTGCGTTTTTCTCCGAAGCGGTGGGCCATGCGGCGCTGACCGGCGTGGCCGTCGGCATCCTGCTCGGCGAACCCTACACCGGGCCCTACGGCAGCCTGTTCGGCTACTGCCTGCTGTTCGGCATCCTGCTCAATTACCTGCGCAACCGCACCGGCCTGGCCCCGGATACGTTGATCGGCGTCTTCCTCTCGGTGTCCCTGGCCCTGGGCGCGAGCCTGCTGCTGATCCTGGCGGGCAAGATCAATGTGCACATCCTGGAAAACGTGCTGTTCGGCTCAGTGCTGACGGTCAACGGCAATGATCTCGCGGTGCTGGCGGTGGTCGGTTCGCTGGTGATGGCGCTGGCGCTGCCGCTGTACAACCGGATCATGCTCGCCAGCTTCAACCCGCAGCTGGCGGCGGTACGCGGGGTGGCGGTCAAGACGCTGGACTATCTGTTCGTGGTCCTGGTGACGCTGATCACTGTGGCGGCGGTGAAAGTCATCGGCGCGATCCTGGTGGGTGCGTTGCTGGTGATTCCGGCCGCGGCCGCGCGTTTGCTCAGCCAATCGTTGAAAGGTTTTTTCTGGTGTTCGGTGCTTATCGCAACCGTCAGTACTTTATGCGGGATCCTGGCGCCGATCGTTTTCGACCTGCCGATCCCGTCCGGTGCCGCGATTATTCTTGTGGCCGGCATCGCCTTCGCCCTGAGCGCCATCGCCCGTGGCGTCGTCCCCCATCTGAAAGGGAATCTTGGATAA	MSYEAFRLMVQGWASSGYLPEALAYGFVVNALLAGLLIGPVLGGLGTLVVVKRFAFFSEAVGHAALTGVAVGILLGEPYTGPYGSLFGYCLLFGILLNYLRNRTGLAPDTLIGVFLSVSLALGASLLLILAGKINVHILENVLFGSVLTVNGNDLAVLAVVGSLVMALALPLYNRIMLASFNPQLAAVRGVAVKTLDYLFVVLVTLITVAAVKVIGAILVGALLVIPAAAARLLSQSLKGFFWCSVLIATVSTLCGILAPIVFDLPIPSGAAIILVAGIAFALSAIARGVVPHLKGNLG	PGPT0004225_305	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004225-znuB-K09816	NA	NA
D1-35_02152	753	scaC_1	COG1121	Manganese import ATP-binding protein ScaC	ATGACGGCTCAGGAACCCCTCATCCAGCAACATGTCGGCCCGATGATCGAGTTCGCCGACATCAGCCTGAATCTTGGGCGCACCGCGATTCTCGACAATGTGGCCTTTCAGGTACAAGCCGGCAGCATCCATGCACTGGTCGGCCCCAACGGCGGCGGCAAGAGTTCGCTGATCAAGACCTTGCTTGGACAGATGCCGCACCAGGGGCGCTTGAGCCTGCAATGGCCGGGCGAACCCGGCGTCATCGGCTACGTGCCCCAGGCGCTGGAATTCGACCGGGGCCTGCCCATGACGGTGGACGACTTCATGGCGGCCATGTGTCAGCGGCGCCCGGCCTTCCTCGGTTTGAGCAAGCATTATGCTGGCGCCATCGGTCAGGCCCTCGAGCGGGTCGGCCTGCAGGACAAGCGCAAGCGACGCATGGGCGCGCTGTCCGGTGGCGAGCGTCAGCGGGTATTGCTGGCCCAGGGATTGATCCCGCCGCCGCAACTGCTGGTACTGGATGAACCCATGTCGGCTTTGGACGAGGCCGGCATCCAGGTATTTGAACGCTTGCTGCAGGACTGGCGCCAGGCCGGCATTACCGTGCTCTGGATCGAGCACGACCTGGAAGCCGTCGGACGCCTGGCCGATCACGTCACCGGGCTGAATCGACGGGTGTTGTTCGACGGCCCGCCGCGCCAGACCCTGACCCCGGAACGGCTGCTGACGCTGTTTTCGACCCATCCACGTGCCAACGGGAGCGCCGCCTGA	MTAQEPLIQQHVGPMIEFADISLNLGRTAILDNVAFQVQAGSIHALVGPNGGGKSSLIKTLLGQMPHQGRLSLQWPGEPGVIGYVPQALEFDRGLPMTVDDFMAAMCQRRPAFLGLSKHYAGAIGQALERVGLQDKRKRRMGALSGGERQRVLLAQGLIPPPQLLVLDEPMSALDEAGIQVFERLLQDWRQAGITVLWIEHDLEAVGRLADHVTGLNRRVLFDGPPRQTLTPERLLTLFSTHPRANGSAA	PGPT0004230_1760	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004230-znuC-K09817	NA	NA
D1-35_02153	930	ssaB	COG0803	Manganese ABC transporter substrate-binding lipoprotein	ATGTCTATTGCACCTTCACGCCGCCCCTTGCTGCGCCTGCTGCTGATTGGCCTGCTCGCCTGCCTGTTCACTCCCATGGCCAGCGCCGAAACGGCCAAGCGCCTGCGCATCGGCATCACCCTGCACCCTTATTACAGCTACGTGGCCAACATCGTCGGCGACAAGGCCGAGGTGGTGCCGTTGATCCCAGCCGGCTTCAACCCTCACGCCTATGAACCCCGCGCCGAGGACATCAAGCGCATCGGCGGGCTCGATGTGATCGTGCTCAACGGTGTGGGTCACGACGATTTCGCCGACCGCATGATCGCCGCCAGCGAAACCCCGGACGTGAAGGTGATCGAGGCCAACGAGAACGTCCCCTTGCTCGCCGCCACCGGCACCGCGGCGCGGGGCGCGGGCAAAGTCGTCAATCCGCATACGTTCCTGTCCATCAGCGCCTCCATTGCCCAGGTCAACAACATCGCCCGGGAACTGGGCAAGCTCGACCCGGACAACGCCAAGACCTACACGCAGAACGCCCGGGCCTACGGCAAGCGCCTGCGGCAGATGCGCGCCGCCGCCCTGGCCAAGCTGACACAGGCGCCGAACGCCGAGCTGCGGGTCGCCACGGTACATGCCGCCTACGATTACCTGCTGCGCGAATTCGGCCTGGAAGTGACTGCCGTGGTCGAACCGGCCCATGGCATCGAGCCAAGCCCCAGCCAGTTGAAAAAGACTATCGACCAGCTGCGTGAGCTGGACGTGAAGGTGATCTTCTCGGAGATGGATTTTCCATCCACCTACGTCGACACCATCCAGCGTGAATCGGGAGTGAAGCTGTACCCGCTGTCGCACATTTCCTACGGCGACTACAGCGCCGAGAAATACGAAAAGGAAATGACCGGCAACCTCGACACCGTGGTCCGGGCGATCGAGGAGTCCGGCGCATGA	MSIAPSRRPLLRLLLIGLLACLFTPMASAETAKRLRIGITLHPYYSYVANIVGDKAEVVPLIPAGFNPHAYEPRAEDIKRIGGLDVIVLNGVGHDDFADRMIAASETPDVKVIEANENVPLLAATGTAARGAGKVVNPHTFLSISASIAQVNNIARELGKLDPDNAKTYTQNARAYGKRLRQMRAAALAKLTQAPNAELRVATVHAAYDYLLREFGLEVTAVVEPAHGIEPSPSQLKKTIDQLRELDVKVIFSEMDFPSTYVDTIQRESGVKLYPLSHISYGDYSAEKYEKEMTGNLDTVVRAIEESGA	PGPT0004220_2324	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	ROOT_COLONIZATION-ZINK_TRANSPORT_LIPOPROTEIN,PGPT0004220-znuA-K09815	NA	NA
D1-35_02154	576			hypothetical protein	ATGAGCGCACCCACCACCCAGGTCATCCGCCCCGCCGGTGCCGGCCACGAAACCCTGTATGTATTGTTGCTGTGCCTGATTATCCTGCTGGGCGCCGGTTCGGTCGTGGCCTGGCATGGGGAAACCCGGGATGTTGCCCACCTGGACGCCCATCAATTGGACGCACGCCGCGACCTCAGCGCCGCCGAGCAAGGCATTTATGCCGACCTGCGGGTGACACTGGATGAGATCCGGATCCTGCGCGAGAGCGAGCAAGCCCTCCCCGGTCCGCAAGTCCTGGCCGATGAAGGCTTCGCCCCGTTCGCCCAAGACGCCAGTTCCGTCAGCCGCGGCGGCCACGCCTGGCAATTGCTGGCAGACCGAGCCTACTTCGGCGCGAGCGCCAATTCGTCCGTCGCAGGCTCCTTTCTGATGCGCATCAGCGAAGTGCCCGATGCGTCCCCGGACATCTGGCTCAACCGCGGCAATCCTCCAACCACCCCTACCACGTTGGACGACGCCGCTTTGTCCGCCGCCGGCTGGCAACAGATCGTCGCGCAATTCGACGCTGGCGTAACCCGCCAGCATCGGCATTGA	MSAPTTQVIRPAGAGHETLYVLLLCLIILLGAGSVVAWHGETRDVAHLDAHQLDARRDLSAAEQGIYADLRVTLDEIRILRESEQALPGPQVLADEGFAPFAQDASSVSRGGHAWQLLADRAYFGASANSSVAGSFLMRISEVPDASPDIWLNRGNPPTTPTTLDDAALSAAGWQQIVAQFDAGVTRQHRH				NA	NA	NA	NA	NA
D1-35_02155	327			hypothetical protein	ATGAACCTCCGCGCCTCTTTCAACAGCCTGGCGCTGCTGCTCTGCGCAGGCTTGAGCACCAGCGCCCTGGCCCACAATCCGATGTGCGAATGCAAGGCTATCGACGCTGAACAGATTCAGTGTACTGGCGGTTTTTCCGATGGCAGCGGCGCCCCCGGAGTGACGCTGGACGTGATCGGCTACGACGAAACCATCCTGGTCCCCGGCAAGCTCGGCGCCGACTCGACGTTGACCTTCAAGAAACCCAACGCCGAGTTCTACGTACTTTTTGACGCCGGCCCCGGCCACGTCGTGGAAATCGACCAAGCCGACATCGAGGCCCCATGA	MNLRASFNSLALLLCAGLSTSALAHNPMCECKAIDAEQIQCTGGFSDGSGAPGVTLDVIGYDETILVPGKLGADSTLTFKKPNAEFYVLFDAGPGHVVEIDQADIEAP				NA	NA	NA	NA	NA
D1-35_02156	543			hypothetical protein	GTGAACCCGTCCACTACGACAACATCACCGTCACGCCTGGGCCAGTTCTGGCATAAATGGCGCTTCCATATCAACGTCCTGTTGCTGCTGATTCCCCTGGGTTTCATGCCCAAGTACTTGTCGGAGGCCGCGTTGTTCCGAGGCGACGGCGGGCTTGGCGAGCGGGAAGTCGGCGAAGTCCAGGTGGGCCCCTGGAGCTTGCGCCTGGCGGAGTTTCGCGACGAAGCGCCACGCACCCAGGGCCCCGCCGGGCCGATGAAACACTTCAACGCCGCCCTGTGCCAGCGCTGCATCAGCGAGGTTAAAGCCACCTATCTGCGCATCGGCAAGCCCCGCAGCCTGCGGGCCGCCGGGGTGATTTTCTTCGGCTCGCCCTATCGCATGGGTGCCTTGTTGCCGGTGCCGAAAAAGACCCAGCCAGACGCCGAACTGTGGATCACCCTCGAAGGCTGGGACGGCTCGATGCATCAAGCTTCCATCCCCCTGAGCCAGGCCTCCCCGGCCACCGTCGCCTGGTTGCAATCCCAAGGAGCCCGACCATGA	MNPSTTTTSPSRLGQFWHKWRFHINVLLLLIPLGFMPKYLSEAALFRGDGGLGEREVGEVQVGPWSLRLAEFRDEAPRTQGPAGPMKHFNAALCQRCISEVKATYLRIGKPRSLRAAGVIFFGSPYRMGALLPVPKKTQPDAELWITLEGWDGSMHQASIPLSQASPATVAWLQSQGARP				NA	NA	NA	NA	NA
D1-35_02157	1215			hypothetical protein	ATGTCGAAGAAGTCCCGCTCCAAACTCTGGTTCCTGGTTCACAGCTGGCTGGCGTTGCCCATCTGGTTTTTCGTTCTGATCGTTTGCGTCACCGGTACGCTGGCGGTGGTCAGCCAGGAGATCGTCTGGCTGGTCAATCCGGAAATGCGCGCCAGCAAGCCCGCCGATGATGCGCCGTTGCTCAGCTACGACCAGGTCGTTGCCGCCATCAAGCAAGCCCAGCCCCTGACTCAGGTGCAAAACATTGTGCGTCCGGACGAGTCGCACTTCGCCCTGGAGGTCAAGGTCACCTACCCCGACGGTCGCCCCGACACTGTTTACGTCAACCCCTACAGCGGCGTCATCCAGGGCTCGGCACCGGCCTTCAACTTCAGGGGGTTCACCCGTGCATTGCATGGCTGGTGGCTGGTGCCGTTCACCAACGGCTACAGTTGGGGCTGGTACCTGGTGTCCTTCCTCGGCCTGCCGATGCTCGCGTCGCTGGTGACCGGGCTGGTTGTATATAAACGTTTCTGGAAAGGTTTTTTCAGCCCGACCCTGCGTATTCGCCACGGGGCCCGCATTTTCTGGGGCGATTTCCATCGGCTCAGCGGCATCTGGTCGATTTGGTTCATTGCCGTCATTTCCATCACCGGCACCTGGTTCCTGATCGAGGCCACGCTGGCCGATAACGGCATTTCCATCTCCAGTGCTCCGGTCGTCCCCGTGGTGGCCCGGGAAAACGTTCCGCTGTCGACGGGTGGTACGCCTCCGCCGCAACTGAACCTGGACCGCGCCATTGAAATTGCCCAGCAGCGGATCCCGGGCCTGGAAGCGAGTTTCGTCAGCCTGCCCGGCAATGCCTACAGCCATCTGGAAGTCGGCGGACGCGGCTGGTATCCGCTGATGTACCAGACGGCGACCATCAATCCCTACAACGGTGATGTCGACGCTTCCCGATTGTTGTCGGACCGCACGGCGCTGGAGTTCGTGACCGAATCCATGCGCCCGCTGCACACCGGGGATTTCGGTGGCCTCTGGATCAAGCTCATCTGGTGTTTCTTCGGCCTGGTGCTAAGCATGATGGTCCTCAGCGGCCTGCTGATCTGGACCAAACGCACGGCGCTGGCGACCGCCAACGCCCTCAAGCGCAACCAGAAACCTGTGCGGCCAGCCCAAACCACGCCGCAACTGCAGCCTTCCATGCACCGTGACTCACCGGAGGGCAGCCTGTGA	MSKKSRSKLWFLVHSWLALPIWFFVLIVCVTGTLAVVSQEIVWLVNPEMRASKPADDAPLLSYDQVVAAIKQAQPLTQVQNIVRPDESHFALEVKVTYPDGRPDTVYVNPYSGVIQGSAPAFNFRGFTRALHGWWLVPFTNGYSWGWYLVSFLGLPMLASLVTGLVVYKRFWKGFFSPTLRIRHGARIFWGDFHRLSGIWSIWFIAVISITGTWFLIEATLADNGISISSAPVVPVVARENVPLSTGGTPPPQLNLDRAIEIAQQRIPGLEASFVSLPGNAYSHLEVGGRGWYPLMYQTATINPYNGDVDASRLLSDRTALEFVTESMRPLHTGDFGGLWIKLIWCFFGLVLSMMVLSGLLIWTKRTALATANALKRNQKPVRPAQTTPQLQPSMHRDSPEGSL				NA	NA	NA	NA	NA
D1-35_02158	462	soxR	COG0789	Redox-sensitive transcriptional activator SoxR	GTGATTCAGGTGACGACGTCGATCAACATTCACAAGGAACTGACCGTCGGCCAGGTGGCCGCCCGCAGCGGCGTGGCGGTCACCGCGCTGCACTTCTATGAAACCAAGGGCCTGATCAAAAGCACGCGCAACCCGGGCAACCAACGTCGTTACCCCCGGGCCGTCCTGCGGCGCGTGGCGCTGATCAAAGTCGCCCAGCGCCTGGGCATACCCCTGGCGGAAATTGGCGAGGCGCTGAAAAACCTGCCGGACAACCGTGCGCCCACGGCGGCCGACTGGAAGACCCTGTCAGCGCAGTGGAGCCGGAACCTGGATGACCGGATCAATCAACTGATCGCATTGCGAGACCGGCTCAACGGTTGTATCGGCTGCGGCTGCCTGTCGATGGAAAATTGCCCGCTGCGCAACCAGGCTGATGTGCTCGGCAAACGCGGGCCAGGGGCGCATTTGCTGGAACCCTGA	MIQVTTSINIHKELTVGQVAARSGVAVTALHFYETKGLIKSTRNPGNQRRYPRAVLRRVALIKVAQRLGIPLAEIGEALKNLPDNRAPTAADWKTLSAQWSRNLDDRINQLIALRDRLNGCIGCGCLSMENCPLRNQADVLGKRGPGAHLLEP	PGPT0012955_870	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012955-soxR-K13639	NA	NA
D1-35_02159	414			hypothetical protein	ATGCAATCGCCAAGTGGTCATCGCAGCTTCACGCAGTTGATCGAGTTCGACATCGAGCCTCAGTGGCAGCAGACGCTGGTCAACGCCCTGTCAGCGCAGACCGAGCGCCTGGCTCGTGATCATTCGGGTTTCCTCAATGCCAGTATCCAGGTCAGCGAGGACGGACGTCGGGTGCTTAATTACCTGCAATGGCAAACCCGCGAGGCGGGTGAAGCGGCGTTCCGCAGCGTTGAGAATGGTGAGGAAAGTTTCTGGCAGTTCATCCAGGCGCATCGGGCCAAAGCGGTGACGTTTGGCTCGTTCCAGGTGCTGCGCAACATCGAGCGCAGCCTGGACGATGCGTTGCATTGCCCGTTGGTCAACCAAGCGCAACGGGAGATCCGAGAGGGCGATACCCATTATCAAAAGCGTTGA	MQSPSGHRSFTQLIEFDIEPQWQQTLVNALSAQTERLARDHSGFLNASIQVSEDGRRVLNYLQWQTREAGEAAFRSVENGEESFWQFIQAHRAKAVTFGSFQVLRNIERSLDDALHCPLVNQAQREIREGDTHYQKR				NA	NA	NA	NA	NA
D1-35_02160	267			hypothetical protein	ATGAATCGTATCCTTGCTGTCTTGTTGCTGTTGACTGTCACCGTATTGAGCGGTTGCGCTTCGTCGTCCCCGGAGCTGCGTCCTTACACCGCCGAGGAATCCCGTGAGCTGGCCCTCGAAGCCTTGAATCGGCGGGGGCTTTCGTTTGATGAATACCATGCGAAGAAAGCCGAATTGCTCGGTCCTTCGCAGAAAAACGTCGGCTTCGACGAGCGCGGCGAGATGAGCGCCGAGCAGACAGTCCAGGCACCGGGCCGGTCGAGCTGA	MNRILAVLLLLTVTVLSGCASSSPELRPYTAEESRELALEALNRRGLSFDEYHAKKAELLGPSQKNVGFDERGEMSAEQTVQAPGRSS				NA	NA	NA	NA	NA
D1-35_02161	615	eamB_1	COG1280	Cysteine/O-acetylserine efflux protein	ATGACCCTCTCGCTTGACCTGCTGCTGGGCTTCGCCCTGTTTGCCCTGGTGACCTCGATAACGCCCGGCCCCAACAACACCATGTTGCTGGCCTCGGGTGTGAATTTCGGCTTCAACCGGACCATCCCGCACATGCTCGGCATCACTTGCGGCTTCTTTTCCCTGGTCCTGGCGGTGGGCCTTGGGCTGGGCGCGGTGTTCCAGACATATCCGCTGCTCTACACCGTGCTGCGCTACGTCGGTGCGGCATATCTGATATACCTGGCCTGGAAAATCGCCCACTCCGGTCCTGTCTCGGACGGCGGCGCGGGTGAGAACAAGCCGATCAGCTACTGGGGCGCAGCAGCGTTCCAATGGGTCAACCCAAAGGCCTGGATCATGGCCATCGGCGCCATCAGCACCTATACGCCTCTGCAAGGTTACTTTTTCAATGTGGTGGTGATCGCGGCGGTGTTTGCGTTGATCAACCTGCCTAGCGTCAGCCTGTGGGTAGTCTGCGGCAGCCTGCTGCGCAACTTGTTGCAGGATCGCCGGTGGCTGCGTGTCTTCAACTGGGGCATGGCGCTGCTGTTGGTCGCGTCGCTGTATCCGTTGTTGCTCGAAAGCGTGAGTTAA	MTLSLDLLLGFALFALVTSITPGPNNTMLLASGVNFGFNRTIPHMLGITCGFFSLVLAVGLGLGAVFQTYPLLYTVLRYVGAAYLIYLAWKIAHSGPVSDGGAGENKPISYWGAAAFQWVNPKAWIMAIGAISTYTPLQGYFFNVVVIAAVFALINLPSVSLWVVCGSLLRNLLQDRRWLRVFNWGMALLLVASLYPLLLESVS				NA	NA	NA	NA	NA
D1-35_02162	1167	iscS_2	COG1104	Cysteine desulfurase IscS	ATGAATAAGCGTCCTTTGTATTTTGATTACGCCGCCACCACCCCGGTGGACGAGCGGGTGATCCAGGTCATGGTCCAATGCCTGGGTTTCGACGGTAACTTCGGTAACCCGGCCTCCAGCTCTCATGCCTTCGGCCAGGAGGCCCGGCGCTCGGTGGAACTGGCGCGCCAGCAGGTGGCTCGGTTGGTGGGTGCTCAGGCCGGACAAATCGTCTGGACTTCCGGCGCCACCGAATCCAATAACCTGGCCCTCAAGGGCGTGGCCCAGGCGCGTGAAGCGCGTGGCGGCCACGTCATTACCAGCCTGATCGAACATAAGGCCGTTCTCGATACGGTCAGGCAGCTCGAGGAAAGTGGCGTCGCGGTAACCTGGCTGGCGCCGTGCGCTGATGGCCTGATCGACCCGCAAGCGGTTCGCGAGGCGCTCCGCGAAGACACTTTCCTGGTGTCGCTGATGCTGGTCAATAACGAGTTGGGCACGGTCAATGACGCCATCGCCATTGGCGAGATCGTTCGAGCGCATGGCGCGTTGTTTCATATGGACGCGGCCCAGGGTGCGGGAAAAGTGAGCATCGACCTGGCCCGGTGGCCGGTGGACTTGATGTCGTTTTCCGCACACAAGATCTACGGCCCCAAGGGGATCGGCGCACTTTATGTTGGTGATCGCGCGCGCCCGCGGCTGTCGGCCCAGATCCATGGCGGCGGTCATGAAGGTGGCTTGCGCTCCGGGACCTTGGCGACCCATCAGATTGCCGCGATGGGCGCGGCATTCGAGCTGGCGGCGCAGGCCTTTGAGGAAGAACTCGCCGACATCGCCCGACTGCGCAATCGTTTGCTTGAACCTTTGCTGGCCTTGCCCGGTGTGTGTATGAATGGCAGTGCCAACTGTCGCATTCCCCATACGGTGAGCCTGACGTTCAACGAAGGTGAGTTCAACCTGGCGACGCTGGGCGCAACGATGGCATTCTCCGCGACCTCGGCTTGCAACTCGGCGCAAAACACTCCATCCCACGTGTTGCTCGCCCTTGGGCATGATGCACGCGCGGCCGGGCGGACCATTCGTTTGAGCCTGGGCCGCTTTACCAGCGGACAGGACATTGATGAGGCGGTGCGATTGATCAAGGCCGCCTGTGTTGCCGCGCCGGCCTTCTGGGCGGCAACCCCCTGA	MNKRPLYFDYAATTPVDERVIQVMVQCLGFDGNFGNPASSSHAFGQEARRSVELARQQVARLVGAQAGQIVWTSGATESNNLALKGVAQAREARGGHVITSLIEHKAVLDTVRQLEESGVAVTWLAPCADGLIDPQAVREALREDTFLVSLMLVNNELGTVNDAIAIGEIVRAHGALFHMDAAQGAGKVSIDLARWPVDLMSFSAHKIYGPKGIGALYVGDRARPRLSAQIHGGGHEGGLRSGTLATHQIAAMGAAFELAAQAFEEELADIARLRNRLLEPLLALPGVCMNGSANCRIPHTVSLTFNEGEFNLATLGATMAFSATSACNSAQNTPSHVLLALGHDARAAGRTIRLSLGRFTSGQDIDEAVRLIKAACVAAPAFWAATP	PGPT0000065_4241	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
D1-35_02163	1809			hypothetical protein	ATGAGTACCCAGCCTTCGACCCCGGGACAGGTTCCCCAGCGCCTGGCCCGAATTCGCCAATTGATGAGCCAGGAGGACATCCATGCGCTGTTGGTGCCTTCCGCCGACCCGCATCTTTCGGAGTATCTGCCTGGGTACTGGCAAGGGCGCCAATGGTTGTCCGGGTTCCATGGCTCGGTCGGTACATTGATCGTGACCGCGGATTTCGCCGGGGTCTGGGCGGACAGTCGTTACTGGGAACAAGCCACCAGCGAACTGGAAGGCAGCGGCATCGAGCTGGTCAAACTCATCCCCGGAAAGCCCGGGCCGTTGGACTGGCTGGCCGAAAACACGCCTGAAGGGGGGGCGGTAGCGGTCGATGGTGCGGTCATGGCGGTGGCATCGGCGCGGACCCTGAGCAGCAAGCTGCAAGAGCGTGGCGCACGGTTGCGTACCGACATCGATCTGCTCGCACAAGCCTGGACCGATCGTCCGAGCCTGCCGGATCAACCGGTCTACGCGCATTTGCCGCCGCAAGCCACGATCGGTCGTGTCGAGAAAATCGCCCAGTTGCGCGAAGCCCTGAAGGAGCGTGCTGCGGATTGGCATTTCATCGCCACCCTGGACGACATCGCCTGGCTGTTCAACCTGCGCGGCGCGGATGTGTCATTCAATCCGGTATTCGTCTCCTTTGCCCTGATCAGCCAGCAACAGGCGACGCTGTTTGTGGATTTGAACAAGGTCGACGCTGCGCTGCGTTCTGTTCTTGAGCAAGACGGCGTAACGCTGCGCGACTACAGCGAAGTGGCCACTGCGTTGCGTGAAGTGCCGAGCGGCGCGAGCCTGCAGGTCGATCCGGCCCGGGTCACGGTCGGTTTGCTGGACAATCTGGACAGCGGCGTGAAACTCGTCGAAGTGCTCAACCCCACAACACTGGCCAAATCGCGCAAAAGCCCGGCCGATGCCGAGCACATCCGTCGAGCCATGGAGCAGGACGGAGCGGCGCTCTGCGAATTTTTTGCCTGGCTGGAAAGTGCCTGGGGCCATGAGCGCATCACTGAACTGACCATCGATGAGCACCTGACCGCAGCGCGCAAGCGCCGGCCGGAGTTCGTCTCCTTGAGCTTCAATACCATCGCGGCGTTTAATGCCAATGGCGCGATGCCTCACTATCACGCCACCGAAGAGGCGCACGCGGTCATTGAGGGAGATGGCTTGCTGTTGATCGATTCGGGCGGCCAGTACCTTGGCGGTACGACCGATATCACCCGCATGGTGCCGGTCGGGACACCGACGTCGGAGCAGAAGCGTGACTGTACCCGCGTGCTCAAAGGCGTAATTGCCTTGTCCAGGGCCAAATTCCCCAAGGGCATTCTGTCGCCTCTGCTGGATGCCATCGCCAGGGCGCCGATCTGGGCTGAACAGGTGGATTACGGTCATGGCACCGGCCACGGTGTCGGCTATTTCCTCAACGTCCACGAGGGCCCGCAAGTGATTGCCTATCAGGCTGCCGCTGCACCCCAGACCGCCATGCAGCCGGGCATGATCACGTCCATCGAGCCGGGTACTTATCGCCCGGGTCGCTGGGGTGTTCGTATCGAGAACCTGGTGTTGAACCGGGAGGCGGGCAGCAGCGAGTTCGGCGAATTCCTCGCATTCGAAACCCTGACGTTGTGCCCGATCGACACCCGCTGCCTTGAGCCGTCGTTGCTGAACCAGGACGAAAAGGACTGGCTCAACGCCTACCACGGCGAGGTTCAGCGTCGCTTGAGTCCGCTGCTCGATGGCGCTGCGCTGCAATGGCTGAACACACGGACAGCGGCAATCTGA	MSTQPSTPGQVPQRLARIRQLMSQEDIHALLVPSADPHLSEYLPGYWQGRQWLSGFHGSVGTLIVTADFAGVWADSRYWEQATSELEGSGIELVKLIPGKPGPLDWLAENTPEGGAVAVDGAVMAVASARTLSSKLQERGARLRTDIDLLAQAWTDRPSLPDQPVYAHLPPQATIGRVEKIAQLREALKERAADWHFIATLDDIAWLFNLRGADVSFNPVFVSFALISQQQATLFVDLNKVDAALRSVLEQDGVTLRDYSEVATALREVPSGASLQVDPARVTVGLLDNLDSGVKLVEVLNPTTLAKSRKSPADAEHIRRAMEQDGAALCEFFAWLESAWGHERITELTIDEHLTAARKRRPEFVSLSFNTIAAFNANGAMPHYHATEEAHAVIEGDGLLLIDSGGQYLGGTTDITRMVPVGTPTSEQKRDCTRVLKGVIALSRAKFPKGILSPLLDAIARAPIWAEQVDYGHGTGHGVGYFLNVHEGPQVIAYQAAAAPQTAMQPGMITSIEPGTYRPGRWGVRIENLVLNREAGSSEFGEFLAFETLTLCPIDTRCLEPSLLNQDEKDWLNAYHGEVQRRLSPLLDGAALQWLNTRTAAI	PGPT0006770_1438	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
D1-35_02164	591	nsaD		2-hydroxychromene-2-carboxylate isomerase	ATGAACAGATCCGTCGAGTTTTTTTTCGACCTGGGCAGCCCGACCACCTACCTGGCCTATACCCAATTGCCCGCGCTCTGCGCTGAAACCCATAGCGAGCTCATCTATCGCCCCATGCTTCTGGGCGGCGTATTCAAGGCAACGGGCAACGCGTCGCCCGTTACCGTGCCGGCCAAGGGGCCTTATCTGTTCCAGGACTTGAACCGTTTCGCCAAGCGCTACGGTGTCGACTTCAAGCTCAACCCGCATTTTCCAATAAACACATTGCTATTGATGCGCGCCGTCACGGGCATGCAACTGCGTCATCCGGATCGTTTCGAGACTTTCACGAGCTGTCTGTTCCGGGCGCTCTGGGTGAATGCCCGCAACCTCAACGACCCGGCAACAGTCGCGGCCGTGCTGGACGAAGGGGGTTTCGACCCTGCCTATGTGCTTGCCCTTACAGCCGACGAGCAGGTCAAGGAAACATTAAGGAGCACAACCGAAGAGGCCGTGCGCCGAGGTGTGTTCGGTGCGCCGAGCATGTTTGTCGGCAACGAGATGTTCTTTGGCCAGGATCGCCTGGACTTCGTCCGTGAAGCCCTCGGCTGA	MNRSVEFFFDLGSPTTYLAYTQLPALCAETHSELIYRPMLLGGVFKATGNASPVTVPAKGPYLFQDLNRFAKRYGVDFKLNPHFPINTLLLMRAVTGMQLRHPDRFETFTSCLFRALWVNARNLNDPATVAAVLDEGGFDPAYVLALTADEQVKETLRSTTEEAVRRGVFGAPSMFVGNEMFFGQDRLDFVREALG				NA	NA	NA	NA	NA
D1-35_02165	729	kduD		2-dehydro-3-deoxy-D-gluconate 5-dehydrogenase	ATGAATAACAAGAAGGTGGTACTGGTAGTGGGAGCTGGCGATGCTACTGGTGGCGCGATAGCCCGGCGTTTCGCTCGGGAAGGCTTCGTGGCCTGCGTCACTCGCCGCAACGCTGACAAGCTCGAAGCTTTGGTCGATGAAATCCGTACCCAGGGCTGTGAAGCCCACGGTTTTGCCTGCGACGCACGCAAGGAAGATGATGTGATCGCACTGATCGAGCAAATCGAGGAGCAGGTTGGCCCGATCGAAGCCTTCGTATTCAACATCGGCGCCAACGTGCCTTGCAGCATTCTCGAAGAGACGGCTCGCAAATATTTCAAGATTTGGGAAATGGCCTGCTTTTCAGGTTTCCTCAATGCTCGAGAAGTAGCCAGGCGCATGGTCAAACGTCAGCGCGGCACGATCCTGTTTACTGGCGCCACGGCAGGCTTGCGCGGGGCATCAGGGTTCGCCGCATTTGCGGGGGCCAAGCATGGCATCCGGGCCTTGGCCCAGAGCATGGCGCGAGAATTGGGGCCGATGAATATTCATGTAGCCCATGTTGTGGTGGATGGCGCCATCGACACTGACTTCATCCGCGATAATTTCCCGGAAAAGTACGCAACCAGGGCAGAAGACGGCATCCTCGGCCCGGAGCACATCGCCGAAAACTATTGGTACTTGCATACCCAGCCGCGGGATGCCTGGACCTTCGAACTGGATCTGCGCCCCTGGAACGAACGCTGGTAA	MNNKKVVLVVGAGDATGGAIARRFAREGFVACVTRRNADKLEALVDEIRTQGCEAHGFACDARKEDDVIALIEQIEEQVGPIEAFVFNIGANVPCSILEETARKYFKIWEMACFSGFLNAREVARRMVKRQRGTILFTGATAGLRGASGFAAFAGAKHGIRALAQSMARELGPMNIHVAHVVVDGAIDTDFIRDNFPEKYATRAEDGILGPEHIAENYWYLHTQPRDAWTFELDLRPWNERW				NA	NA	NA	NA	NA
D1-35_02166	570			hypothetical protein	ATGCGTTATTCAGCCAATCACAAGATGGAAACCCGAGAGAAACTGCTGACCAGCAGTGCCATGTCGGCCAAGAAATCAGGATTTTCGACGGTCGGGGTAGATGGCCTGATGAAGGCGATCGGTCTTAGCGGCGGGGCGTTCTACAGCCATTTCTCATCCAAGGATGAGCTTTTCAAGGCGATCGTCGAGCGCGAGTTGAGCCAGAGCCTGGAGCGCTTGAGTGGTAACGGCGTCATGGACTCGATGAAACTGGAGCGTTGCCTCAAGCAGTACCTGAGCATGAGCCATGTGGAGCAACCCGAGGCTGGTTGCGCCTTGCCGGTTCTGGGGGCTGAGATTGCGCGTTCGGATATGTCGGTGCGTGAGGCCGCGCAAAGCTGGATCTGCCGCCTGCACGAAAGCTGGGCGCGGATACTTGAGAGCGATAGCCTGGCTTGGGCGATCCTGTCTCAATGCGTGGGTGCGCTGGTTGTTGCGCGAATGCTGGCAGCGCCTGAGCTCCAGCAGGAGGTTCTCAGGTCCAGCCATGACGAGATCAGCCATCGCCTGGCCGAACGACAGTCCAGCTGA	MRYSANHKMETREKLLTSSAMSAKKSGFSTVGVDGLMKAIGLSGGAFYSHFSSKDELFKAIVERELSQSLERLSGNGVMDSMKLERCLKQYLSMSHVEQPEAGCALPVLGAEIARSDMSVREAAQSWICRLHESWARILESDSLAWAILSQCVGALVVARMLAAPELQQEVLRSSHDEISHRLAERQSS				NA	NA	NA	NA	NA
D1-35_02167	282			hypothetical protein	ATGAAACGAATCTTGATACTGATCGCCGTACTAGCGGTTACGGGCTGCGCGGCGACGTCGAAAATCGAAGTCAAACGCGGAAAAAAAGGCCTGCATATCAACTGCTCCGGCCTGTCCTCTTCCTGGGACCAGTGCAGGGCCAGCGCCGCCAACTCATGCGCGCCCAAGGGTTACAAAATCATCGCCAAATCAGGTGACGCCGTTGAGGAGCCTGGGGACTATCCTTTCGGGCTCAATCCAGCCGGATACACCAGCCGCAGCATGATCGTCATCTGCAAATAG	MKRILILIAVLAVTGCAATSKIEVKRGKKGLHINCSGLSSSWDQCRASAANSCAPKGYKIIAKSGDAVEEPGDYPFGLNPAGYTSRSMIVICK				NA	NA	NA	NA	NA
D1-35_02168	888	rhtA	COG5006	Threonine/homoserine exporter RhtA	ATGACTTCACCACATCGCAGCCTGGCAACCACCTTGTATCCGGTTGCCCTGCTACTAATAGCCATGGCATCCATCCAGTCTGGAGCCTCTCTTGCCAAAAGCATGTTCCCTGTAGTCGGTGCGCAAGGCACCACGACGCTACGGCTCATTTTCGCAAGCCTTATCATGTTGATACTGCTGCGGCCGTGGCGAGCCAAACTTACCGCCCAATCCTTGCGCACGGTGATTGTCTATGGGCTGGCGCTCGGCGGCATGAACTTTCTCTTCTATATGTCGCTTCGTACCGTTCCACTGGGCATTGCAGTGGCTCTGGAATTCACCGGCCCCTTGGCAGTCGCTATCTATGCCTCGCGCCGGGCGATTGATTTTCTCTGGATCGCCCTGGCGGTGGTTGGCTTGCTCCTGCTAATACCCACCGGAGCCACCAGCGCGGGCATCGACCTGATCGGAGCCGGCTATGCATTGGGGGCGGGGGTCTGTTGGGCCCTGTATATCCTGTTTGGCCAGAAGGCCGGGGCGGACAATGGTGTGCAGACCGCTGCGCTCGGCGTCATGATCGCAGCCTTGTTCGTAGCCCCCATCGGCATCGTGCATGCCGGGACCGCTTTGCTGACCCCGAGCCTCATCCCTGTCGCCATTGGCGTCGCCATTCTGTCAACCGCCCTGCCCTACACGTTGGAAATGATCTCACTCACCCGCATACCAGCCCGCACCTTCGGCACACTGATGAGCGTCGAGCCTGCGGTCGGCGCGCTATCGGGGCTGCTGTTTCTCCAGGAGTATCTATCCCTGGCCCAATGGGCAGCCATAACCTGCATCATCCTCGCGTCGATCGGCGCTACGTTGACCATGGGCGACTCTGCCAAGCCCGCCATTGCCGCAGATTGA	MTSPHRSLATTLYPVALLLIAMASIQSGASLAKSMFPVVGAQGTTTLRLIFASLIMLILLRPWRAKLTAQSLRTVIVYGLALGGMNFLFYMSLRTVPLGIAVALEFTGPLAVAIYASRRAIDFLWIALAVVGLLLLIPTGATSAGIDLIGAGYALGAGVCWALYILFGQKAGADNGVQTAALGVMIAALFVAPIGIVHAGTALLTPSLIPVAIGVAILSTALPYTLEMISLTRIPARTFGTLMSVEPAVGALSGLLFLQEYLSLAQWAAITCIILASIGATLTMGDSAKPAIAAD				NA	NA	NA	NA	NA
D1-35_02169	405			hypothetical protein	ATGATGTACACCCGTTTGTTGCTGCCCCTGATTCCGCTGTTGTTCATTGGCGCTGTCCAGGCTGACGTTTGTACCAACGCCACGACCCAAGGCGACATAAACCAGTGTGCAGCCCAAGAGACAAAGGCCGCCGACAAGGAACTGAACAGCCTGTACAAACAGATCACAGCGCGTTTGAAAGACAATGCCGAGGCCAAGCAATTGCTGGTCAAGGCACAGCGAGCCTGGATTGACTTCCGTGACGCCGAATGCAGCTTTTCTGCTTCTGGTGCCGAAGGGGGGAGCGTCTATCCGATGATTCAGAATGACTGCATTACAGCCCTGACGAAGGCGCGAGTAGAGGCGTTCAAGACGTACCTTAACTGCGAAGAAGGAGACCTGAGCTGCCCGGTACCTGGGGCTTGA	MMYTRLLLPLIPLLFIGAVQADVCTNATTQGDINQCAAQETKAADKELNSLYKQITARLKDNAEAKQLLVKAQRAWIDFRDAECSFSASGAEGGSVYPMIQNDCITALTKARVEAFKTYLNCEEGDLSCPVPGA				NA	NA	NA	NA	NA
D1-35_02170	459			hypothetical protein	ATGCATCTATCTGATCGTATCGAAAGAAAGATCTTGTTGAAGGCGCCGCGTTCGCAGGTCTGGCGAGCCATGGCCAATGCTGAAGCCTTCGGCCAATGGTTTGGCGTGGATCTCGCGGGCAAGCGGTTTGTCGCCGGTGAGCGCACCCAAGGGCAGATTACCTATCCGGGTTATGAGCATCTTGTGTGGGATGTCCTGGTGGAGCGTGTCGAACCCGAGCGAGTGTTCTCGTTTCGCTGGCATCCTTACGCAGTGGAGCCGCAGACCGACTATTCCCAAGAGTCCGAGACGCGTGTGCTATTCGAGCTTGAAGACATGGGCGGTGGCACTCTGCTGAAGGTAGTGGAGTCGGGGTTCAATGACATTCCCGAGGCGCGTCGACTCAAGGCTTTCCGAATGGACAGTCGTGGTTGGGATGAACAGATGGCCAATATTGAAGAGTATCTGAACAAGCCATGA	MHLSDRIERKILLKAPRSQVWRAMANAEAFGQWFGVDLAGKRFVAGERTQGQITYPGYEHLVWDVLVERVEPERVFSFRWHPYAVEPQTDYSQESETRVLFELEDMGGGTLLKVVESGFNDIPEARRLKAFRMDSRGWDEQMANIEEYLNKP				NA	NA	NA	NA	NA
D1-35_02173	210			hypothetical protein	ATGAAAACTTTCAATTCCTTGATCGCCGTTACCAGCCTTGTCCTGAGCGCCAGCGCTTTCGCATTGCCAAGCCAGCAACAGGATCGATTCTTTACCCAGTCGCCTGAGCCTTCGCAGTCAGTAGCAGCAGACGGCGCCGATCGCACTCCTGGCGGCCAGACTCTCGCTGCTGATGGCGCTGACCGCACCATCGGACGGCGCCTGGCATGA	MKTFNSLIAVTSLVLSASAFALPSQQQDRFFTQSPEPSQSVAADGADRTPGGQTLAADGADRTIGRRLA				NA	NA	NA	NA	NA
D1-35_02174	948	pchR	COG2207	Regulatory protein PchR	ATGTCGGTATCCACGTCCATCACCATCACGCCCATTAACGGCGTAGATCAGCGTCGCGCCGAGCTGGCGAACCTGATGAAGCGCTTCGCACCGGAATATGGTGTCCACGCAACGGCCATCGAGGCCTTGCACCTGATCCGCAGCGATCAACCCACCGAGGCCTTGCACGTTGTGCACAAGCCCGGGCTGTGCGTGATTGTCCAGGGGCGCAAGGAAGTCACGCTGTCTGACGAGCGCTATGTTTACGATCCGCTCAATTACCTGGTGGTCTCGGTGACGCTGCCGCTGGCCGGCCAGGTGATCGAGGCCAGCCCCGAGCAACCGTACTTGTGCATACGCCTGGACATCGACCCGGCACAGATCTGCCAGTTGATCGCCGATGCCAGCCCAATTGGCGTACCGAGCGAAAGAGCCGATCGCGGATTGTTCCTGGACCGCATCGACGAGCCGCTGCTCGACGCAATGCTGCGTTTGCTGCGACTGCTCGACAGCCCGGACGACATCGCCACCCTCGCGCCACTGGCCCAGAAAGAGATTTTCTATCGACTGTTGCGAGGCGCCCAAGGCAGGCGGCTGCACGAAATCGCTATTCCTGACACACAGACCCACCGCATCAGCCGCGCCATCGAGTGGCTTAACACCCATTACGCCGAACCATTGAGCATCGACAGCCTGGCGCAGATGATCAATCTGAGTCCCTCGGCACTGCATCATCGCTTCAAGGCCGTGACCGCCATGAGCCCGTTGCAATACCAGAAACAGTTACGCCTGCAGGAAGCCCGACGACTGCTGCTGGCGGAGAACAGCGATGTTTCGTCAATCGGCTACAAGATGGGCTACGAGAGCCCCTCGCAGTTCAGCCGTGAATACAGCCGTCTATTCGGCGCCTCACCGAGCAAGGACGTCGCTCGCCTTCGCGCCCAGGCGTTGCAAGCGAGCAGCGCCTGA	MSVSTSITITPINGVDQRRAELANLMKRFAPEYGVHATAIEALHLIRSDQPTEALHVVHKPGLCVIVQGRKEVTLSDERYVYDPLNYLVVSVTLPLAGQVIEASPEQPYLCIRLDIDPAQICQLIADASPIGVPSERADRGLFLDRIDEPLLDAMLRLLRLLDSPDDIATLAPLAQKEIFYRLLRGAQGRRLHEIAIPDTQTHRISRAIEWLNTHYAEPLSIDSLAQMINLSPSALHHRFKAVTAMSPLQYQKQLRLQEARRLLLAENSDVSSIGYKMGYESPSQFSREYSRLFGASPSKDVARLRAQALQASSA				NA	NA	NA	NA	NA
D1-35_02175	738			putative oxidoreductase	ATGTCCGATATTCAAAACAAGGTAGTGGTCATCACTGGCGCCAGCAGCGGGATTGGTGAGGCGGCAGCACGGTTGTTGGCGGCCCGCGGGGCTTGCGTGGTGCTTGGCGCCCGGCGCGTGGAGCGCTTGCAAGCGCTGGTGCAGGAACTTGAAGCCGCCGGTCACCGGGCTGCCTGCAAAGTCGTGGACGTGACCCGTCGCGACGATGTCCAGAGCCTGATCGATTTCGCCGTCGAGAAATTCGGCGGGCTTGACGTGATCATCAATAACGCCGGCGTCATGCCGCTCTCCAAGCTTGAGGCGCTGAAGGTCGAGGAATGGGGCCGCATGATCGACGTCAACATCCGTGGCGTGCTCCACGGCATCGCCGCCGGCCTGCCGTTGATGCAGCGCCAGCGCAGCGGACAGTTCATCAATATTGCCTCCATCGGTGCGTACACCGTCAGCCCGACTGCCGCTGTGTACTGCGCGACCAAGTTTGCCGTACGGGCGATTTCCGAAGGCCTGCGCCAGGAGGTGGGTGGGGATGTCCGGGTGACGGTGATTTCCCCCGGCGTGACCGAGTCGGAACTGGCGGAAAGCATTTCCGACGAAGGCGGACGGGCCGAGATGCGCGAGTTCCGCAGGATCGCCATCCCCGCAGAGGCCATCGCTCGGGCAATTGCCTATGCGATCGAGCAACCGGCAGACGTGGACGTCAGCGAATTGGTGGTGCGGCCGACGGCCAGCCCATTTTAA	MSDIQNKVVVITGASSGIGEAAARLLAARGACVVLGARRVERLQALVQELEAAGHRAACKVVDVTRRDDVQSLIDFAVEKFGGLDVIINNAGVMPLSKLEALKVEEWGRMIDVNIRGVLHGIAAGLPLMQRQRSGQFINIASIGAYTVSPTAAVYCATKFAVRAISEGLRQEVGGDVRVTVISPGVTESELAESISDEGGRAEMREFRRIAIPAEAIARAIAYAIEQPADVDVSELVVRPTASPF	PGPT0021285_300	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021285-ydfG-K16066	NA	NA
D1-35_02176	258			hypothetical protein	GTGAGAAAGGCATTTGGAGATCAGGACAAATTCGTCGGCCTGTGGGTGACGGCCGATGGCGTGATTCGCCATCGGTTGCTTCCGGGCGGGCGCTACGACGAAGCGCGGGGCACTCGGGAGAGTGCCTATGAGGGCGACTATTGGCTGCAGGACGACCATATCGAATACCACGACGATACGGGTTTCACCGCCGACGGGGATTTCCGCGATGGCGTGCTGTATCACGCCGGAATGGTCCTGTATCGCCAGGAAGAATAG	MRKAFGDQDKFVGLWVTADGVIRHRLLPGGRYDEARGTRESAYEGDYWLQDDHIEYHDDTGFTADGDFRDGVLYHAGMVLYRQEE				NA	NA	NA	NA	NA
D1-35_02177	687	inhA		Isonitrile hydratase	ATGACGTTGCAGATCGGTTTTCTGTTATTCCCCCAGGTTCAGCAGTTGGACCTCACCGGGCCTTATGACGTGCTGGCTTCGCTGCCAGATGTGAAAGTGCATCTGATCTGGAAAGACCTGGCGCCGGTTACCTCCAGCACGGGCTTGGTCCTGCTGCCAACCACCACATTCGAGGACTGTCCGAAGCTCGACGTCATTTGTGTCCCCGGTGGTAGCGGCGTCGGTCCGTTGATGGAAGATGAGCAGACCCTGGCCTTCATCAAACGCCAGGCCACTCACGCCAAATACATCACCTCGGTGTGCACCGGTGCGCTGGTACTCGGCGCGGCGGGATTGTTGCGCGGCAAGCGCGCCACCACCCACTGGGCCTTCCACAGTTTGTTGCAGCCGCTGGGGGCGACGCCGGTCAAGGACCGTGTGGTCCGCGACGGCAACCTGCTTACCGGTGGCGGCATCACCGCGGGAATCGATTTTGCCTTGACCCTGGCGGCCGAGCTGTTCGACCGGGACACCGCCGAGCTGGTCCAATTGCAGCTTGAATACGCACCGGCTCCGCCGTTCGCCGCAGGTTCCCCGGACACCGCGCCGACGCTGGTGCTCGAAGAGGCCAACCGGCGTTCGGCGGAATCGTTCCGCGTGCGCTCGCAGATCACCCAGCGGGCTGCGGCACGCTTGGAAACAGCGTAG	MTLQIGFLLFPQVQQLDLTGPYDVLASLPDVKVHLIWKDLAPVTSSTGLVLLPTTTFEDCPKLDVICVPGGSGVGPLMEDEQTLAFIKRQATHAKYITSVCTGALVLGAAGLLRGKRATTHWAFHSLLQPLGATPVKDRVVRDGNLLTGGGITAGIDFALTLAAELFDRDTAELVQLQLEYAPAPPFAAGSPDTAPTLVLEEANRRSAESFRVRSQITQRAAARLETA				NA	NA	NA	NA	NA
D1-35_02178	993	cdhR_4	COG4977	HTH-type transcriptional regulator CdhR	ATGCCAAACACAGCAAAAACCGTTCATGTGCTGGCCTTCGCCAACGTACAAGTGCTGGATGTCACCGGGCCTCTGCAGGTCTTCGCGTCGGCCAATGACCTGGTTCGTGGACAAGGCTTGCCGGCGCCGTATGCGCCGACTGTTATTGCTGCGGGTGGCGGGGCGGTGATGTCGTCGGCGGGGTTGGCGCTGATGGCCGAACCACTGCCCAGCGAGGGCAGTGACACCTTGTTGATTGCCGGCGGTTGGGGCGTGTACGAAGCCGCGAAAGATCCTGCGCTGGTGGCCTGGGTCAAGGATCAGGGAGCGTGTTCGCGAAGAGTCGCATCGGTGTGTACCGGGGCGTTTCTGCTGGCGGCCAGTGGCTGGCTGGACGGACGACGGGTGGCGACCCATTGGACCCGCTGCGAACAGCTGGCCCGGCAACATCCAGAACTGCAGGTCGAACCCAATCCGATTTTCATCAAGGATGGTTCGGTCTGGACCTCGGCTGGAGTCACGGCCGGCATTGACCTGGCGTTGGCGCTGGTCGAAGAGGACCTGGGCCGGGCGATGGCGCTGGAGGTGGCGCGGCATCTGGTGGTGTTCCTCAAGCGCCCCGGGGGACAGTCGCAGTTCAGCGCTACCTTGGCGTTACAGGAGCGGGGTGGTCGCTTCGATAAACTGCACGCCTGGATCGCCGAAAACCTCACCCGCGACCTGGGCTTGTCGAGCCTGGCCGCCGAGGCCGGTATGAGCGAGCGCAGCTTTGTCCGTCATTACCGCGCCGAGACCGGCCAGACCCCGGCCCGTGCGGTGGAACTGATCCGCGTGGAAACTGCCCGGCGGCTGCTCTGCGACAGTGCGGTGCCGATCAAGCGCGTCGCCCTGCAATGCGGCTTCGGCAGCGAAGAAACCTTGCGTCGCAGTTTTCTCCGGGGCATGGGCGTGACGCCCCAGGCTTATCGCGAGCGGTTTGCGCTCAGCCCTCAAGCAAATCCAGCAATGCCCTGA	MPNTAKTVHVLAFANVQVLDVTGPLQVFASANDLVRGQGLPAPYAPTVIAAGGGAVMSSAGLALMAEPLPSEGSDTLLIAGGWGVYEAAKDPALVAWVKDQGACSRRVASVCTGAFLLAASGWLDGRRVATHWTRCEQLARQHPELQVEPNPIFIKDGSVWTSAGVTAGIDLALALVEEDLGRAMALEVARHLVVFLKRPGGQSQFSATLALQERGGRFDKLHAWIAENLTRDLGLSSLAAEAGMSERSFVRHYRAETGQTPARAVELIRVETARRLLCDSAVPIKRVALQCGFGSEETLRRSFLRGMGVTPQAYRERFALSPQANPAMP				NA	NA	NA	NA	NA
D1-35_02179	903	ephA		Epoxide hydrolase A	ATGACATCTGCGCCCAGGATCAATTTTGCGGTAACGCCGCTGCTGCGCATCGCCTATGAGGAGCACGGCCCCGCCAGCGGCGAGCCGATTATCCTGCTGCACGGATTTCCCTATGACCCGCGGGCCTTTGACGAGGTTGCCCCGCCCTTGGCCCAACGCGGTTATCGAGTCATCGTGCCGTACCTGCGCGGCTACGGCCCGACCCGTTTCAACAATCCCGCGATTGCCCTCTCCGGCCAGCAAGCGGCACTGGCCCAGGACCTGCTGGACCTGATGCACACACTCGGCATTCCCCAGGCTGCGCTGTGCGGCTATGACTGGGGTGGCCGCGCCGCATGCATTGTCGCCGCGTTGTGGCCCGAGCGCGTTCGCTGCCTGGTCACCGGCGATGGCTACAACCTGCAGAATATTCCTCGATCAACCCAGCCACTGGACCCGGAAACCGAATACCGCTTGTGGTATCAGTATTACTTCCACACCGACCGAGGCGTCGAAGGCCTGAAGCAGAACCGACGCGAGCTGTGCCAATTGCTCTGGCGCCTGTGGTCGCCGACCTGGGCGCGCGGTGCGGAGCTGTATCCGCTGAGCGCGCCTTCGTTTGATAATCCGGATTTTGTCGAGGTGGTGATTCATTCCTATCGCCATCGCTTCATGTACGCGCCGGGAGATCCGACGCTTGAATGGATGGAGGAACAGTTGGCGGCGCAACCGGCCATCAGCGTGCCGAGTATTTCCCTGTGCGGCGCAGATGACGGCGTGGGACCCGCGCCCGAGCACGACGAAGATGCCGCGTATTTCACCGGACGCTACGAGCGCCGCGTGCTGGCCGGCGTCGGCCATAACATTCCTCAGGAAGCACCTGAAGCCACGCTCAGGGCATTGCTGGATTTGCTTGAGGGCTGA	MTSAPRINFAVTPLLRIAYEEHGPASGEPIILLHGFPYDPRAFDEVAPPLAQRGYRVIVPYLRGYGPTRFNNPAIALSGQQAALAQDLLDLMHTLGIPQAALCGYDWGGRAACIVAALWPERVRCLVTGDGYNLQNIPRSTQPLDPETEYRLWYQYYFHTDRGVEGLKQNRRELCQLLWRLWSPTWARGAELYPLSAPSFDNPDFVEVVIHSYRHRFMYAPGDPTLEWMEEQLAAQPAISVPSISLCGADDGVGPAPEHDEDAAYFTGRYERRVLAGVGHNIPQEAPEATLRALLDLLEG				NA	NA	NA	NA	NA
D1-35_02180	378			hypothetical protein	ATGACGCATATAAAACGCCCCATCACCACCGAACCCCGAACCGGGCTGAGCCGCGAAGAACTCTGGGACGGCCCGGACAAGGGCTTGATCAAATGCTGGGAAGTCGGCCGCGACCGGGCGCAGAGGTTCCCTGAACTGGCGCAACGTTGTCTCGCCGGAGAGCTGCCGGTGCTGGGCTGGAAAGGCGGGGTCAGCCGCAGCCTGAAGAAGACCGCCAAGTTCGGTTGCCTCAAGTACCTGGCCCAATGGCAGGGCCTGCGCGGCGAAGACCTGGACATCGACCTGGCCGAGGAACGTACCCTGACCTGCTCCAACACGAGCATGATCGTGACATTCACGCCAGACCGGGCCAAATATGTGAACCAGGAACCCGCCTGA	MTHIKRPITTEPRTGLSREELWDGPDKGLIKCWEVGRDRAQRFPELAQRCLAGELPVLGWKGGVSRSLKKTAKFGCLKYLAQWQGLRGEDLDIDLAEERTLTCSNTSMIVTFTPDRAKYVNQEPA				NA	NA	NA	NA	NA
D1-35_02182	297			hypothetical protein	ATGGTCAAGATCACCCCCAATCCCCCAGAAAAAGCCGAAAACCTGTCCGGCCATCCCAACCCTGACACCCAGGACGGCCAGATATTTTCCGCCGTCGCGGACATCAACACCGAATCCATACTGACCACCCTCAGCGAAACCCTGGCCTCGGCCAACGCCATGGCCAGCGACCTGGCGTTCGATCTGGAAGGCTCCCGACGGCATGTCGCGCTGGGGCTTCAGCAGTTGATCGAGTTGGGAACGCTGCTGGCCAACCGAGCGCTGGATAACATCGAACTGGCGGAGCCACCGCGCTAG	MVKITPNPPEKAENLSGHPNPDTQDGQIFSAVADINTESILTTLSETLASANAMASDLAFDLEGSRRHVALGLQQLIELGTLLANRALDNIELAEPPR				NA	NA	NA	NA	NA
D1-35_02183	1824		COG3387	Trehalase	ATGGCTGATCGTGACGAACCGCAGAGCCCGATCGAGAACCACGGCATCATCGGTGACATGCGCACGGCGGCGCTGGTCAACGATCGGGGCAGCGTGGATTTTTTCTGCTGGCCGGAATTCGACAGCCCGTCGATCTTCTGTTCACTGCTCGACACCCCTGAGGCGGGCATCTTTCAGCTTGCTCCGGATTTGCCGGATGCCCGTCGCCAGCAAATCTACCTGCCCGACACCAATGTCTTGCAGACCCGCTGGCTGAGCGATGGCGTGGTGGTGGAAATCACCGATCTGCTGCCCATTGGCGACAGCGAGGATGATTTGCCGGTCTTGATGCGCCGAGTGCGCATGACAGTCGGCAGCGCGACGTTTCGCATGCGCTGCGCGGTGCGCCATGATTATTCACGCGCCGCGACTACCGCGCGCCAGGACGGCGACCACGTCATCTTCGAGGCCCCGCAGCAACCGAGCCTGCGCCTGTGCGCCGACCAGCCCATGACCCTGGATGGCCAGGCGGCGGTGGCCGGGTTCACCCTGGGCCAAGGCCAGACCGCCGAATTTCTCCTGGGGGGCATCGACGACCCGCGCCTGGTGGACGACACCAGTGCCCTGTGCCTGGAACGAACCCTGGCGTTCTGGCGCGGCTGGATCGGCCAATCCAACTACCGTGGCCGCTGGCGGGAAATGGTCAACCGCTCGGCGTTGGCGCTGAAGCTGCTGACCTCGCGCAAACAGGGCGCGATCCTCGCCGCCGCCACCTTCGGCCTGCCGGAAACACGCGGCGGCGAACGCAACTGGGATTACCGCTACACCTGGATCCGCGACGCCTCGTTCACCGTCTACGCGTTCATGCGCCTGGGCTTTGTCGACGAAGCCAACGCCTATATGCGCTGGCTGCGCGGCCGGGTCAGCGACTGCCGCGAACAACCGACCAAGCTCAACATCCTCTACGGCCTGGACGGCCGGCTCGAACTACCGGAAACCGAGCTGACGCACCTGAGCGGCTACGGCAACGCGCGTCCGGTGCGCATCGGCAACCTCGCCTACCAGCAGGTTCAGTTGGACATCTTCGGCGAGTTGATGGATGCGGTGTACCTGGTCAACAAATACGGCGAAGCCATCTCCCACCAAGGCTGGAAACACACGGTCGATGTGGTCGACCAAGTATGCGAAATCTGGCGGGACAAGGACGTGGGTATCTGGGAAATGCGCGGCGAGGAGCAGCATTTCCTGCATTCGCGGCTGATGTGCTGGGTGGCGGTGGACCGTGCCATCCGCCTGGCGAGCAAACGTTCCCTGCCCGCCCCGTTCGCGCGTTGGGACGAGACTCGACAGGCCATCTATGAAGACATCTGGACGAATTTCTGGAACGACGAACACCAGCACTTCGTCCAGCGCCTGGGCAGCACCGCCCTTGACGGCTCGATGCTGTTGATGCCGCTGGTTCGCTTCGTCAGTGCCCGCGACCCGCGCTGGCTGTCAACGCTGGACGCCATCGAGAAAGATTTGGTGCGCGACGGCATGGTCTATCGCTACCGCACCGACGACGGCTCGATCGACGGCCTCAGCGGCACCGAAGGTTCGTTCGTCGCCTGCTCGTTCTGGTACGTCGAGTGCCTGGCCCGCGCCGGCCGCGTGGAGAAAGCCCAACTGGAATTCGAACAATTGCTGCGCTACGCCAATCCGCTTGGGCTGTATGCCGAGGAATTCGACAGCCATGGTTATCACCTGGGCAACCTGCCCCAGGCGCTGAGCCATCTGGCGCTGATCAGCGCGGCGAGTTTCCTGGACCGCAGGTTGAGCGGGGAGAAAAATCATTGGCAGCCGTGA	MADRDEPQSPIENHGIIGDMRTAALVNDRGSVDFFCWPEFDSPSIFCSLLDTPEAGIFQLAPDLPDARRQQIYLPDTNVLQTRWLSDGVVVEITDLLPIGDSEDDLPVLMRRVRMTVGSATFRMRCAVRHDYSRAATTARQDGDHVIFEAPQQPSLRLCADQPMTLDGQAAVAGFTLGQGQTAEFLLGGIDDPRLVDDTSALCLERTLAFWRGWIGQSNYRGRWREMVNRSALALKLLTSRKQGAILAAATFGLPETRGGERNWDYRYTWIRDASFTVYAFMRLGFVDEANAYMRWLRGRVSDCREQPTKLNILYGLDGRLELPETELTHLSGYGNARPVRIGNLAYQQVQLDIFGELMDAVYLVNKYGEAISHQGWKHTVDVVDQVCEIWRDKDVGIWEMRGEEQHFLHSRLMCWVAVDRAIRLASKRSLPAPFARWDETRQAIYEDIWTNFWNDEHQHFVQRLGSTALDGSMLLMPLVRFVSARDPRWLSTLDAIEKDLVRDGMVYRYRTDDGSIDGLSGTEGSFVACSFWYVECLARAGRVEKAQLEFEQLLRYANPLGLYAEEFDSHGYHLGNLPQALSHLALISAASFLDRRLSGEKNHWQP	PGPT0014070_246	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-TREHALASE,PGPT0014070-EC_3_2_1_28|alpha_trehalase-K22934	NA	NA
D1-35_02184	801		COG1028	Glucose 1-dehydrogenase	ATGCAGATTTCTCTTGCCCGACAAGTTGCTCTGGTTACCGGCGCCAGCTCCGGCATTGGCGCAGGTTCGGCCCGGGCACTGGCGGCGGCCGGTGCCGCCGTGGTGCTCAATTACCATTCCAGCGCCGGCCCCGCCGAAGACCTGGCCCGCGAAATCAACGACAGCGGCGGCAGAGCCATCGCCATTGGTGCCGATGTGTCGAAGGAACAGGACGTCGAGCGGCTATTTGCCCAGACCGTGGACGCGTTCGGCGCGCTGGACATCCTGGTCGCCAACTCCGGCCTGCAAAAAGATGCCGCCGCCGTCGACATGAGCCTGGACGACTGGAACGCCGTCATCGGCGTCAATCTCACCGGCCAGTTCCTTTGCGCCCGCGCGGCCTTGCGCATTTTCAACCGCCAGGGCATTCGCCAGGGTGTGTCCCGGGCCGCCGGCAAGATCATCCACATGAGTTCGGTGCACCAGCGCATCCCCTGGGCCGGCCACGTCAATTACGCGGCGTCCAAGGGCGGCATCGATCAGCTCATGCAGACCCTGGCCCAGGAAACCAGTCACCAGCGCATCCGCATCAACAGCATCGCCCCCGGCGCCATCCGCACAGCCATCAACCGTGAGGCCATGGAGGGCGACAAGGAACAGGAGCTGTTGCAGCTGATTCCCTACGGCCGGGTCGGCAATGTGGAGGATGTCGCCAACGCGGTGGTCTGGCTGGCGTCGGACCTGTCCGATTATGTGGTGGGCACCACGCTGTTCATCGATGGCGGGATGAGCCTCTATCCGGGGTTCCGCGGCAATGGCTGA	MQISLARQVALVTGASSGIGAGSARALAAAGAAVVLNYHSSAGPAEDLAREINDSGGRAIAIGADVSKEQDVERLFAQTVDAFGALDILVANSGLQKDAAAVDMSLDDWNAVIGVNLTGQFLCARAALRIFNRQGIRQGVSRAAGKIIHMSSVHQRIPWAGHVNYAASKGGIDQLMQTLAQETSHQRIRINSIAPGAIRTAINREAMEGDKEQELLQLIPYGRVGNVEDVANAVVWLASDLSDYVVGTTLFIDGGMSLYPGFRGNG	PGPT0014705_341	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
D1-35_02185	1173			hypothetical protein	ATGGCAAATCCTTATCGTGAACTGTTCAGCGCACCTGGCAGCCGTGGCTTCGTGCTGGCGGGAATGATCGCGCGCATGCCGATATCGATGACCGGGATCGGCGTGATCACCATGCTTGCGCAGCTCAAGGGCGGCTACGGATTGGCCGGCGCGGTGGCGGCGACGTTTGCCCTGGCGACGGCGTTCTGCGCGCCGCAGGTGTCGCGGCTGGTCGACCGTTTTGGCCAGGGGCGGGTCTTGCCATTAGCGGCGCTGCTGGGTGGCGGGGCGTTGCTGATGCTGCTGTTGTGCACGCGCTTGCAGGCGCCCCAGTGGACGCTGTTCCTGTTCGCCGCCCTGGCCGGTTGCATGCCCAGCATGTCGGCCATGGTGCGGGCGCGCTGGACCGAGGTGTATCGCGGCCAGCCGCAGCTGCGCACTGCCTATGCGCTGGAGTCAGTGTTGGACGAGGTCTGCTTCATCGTCGGACCGCCGCTGTCGGTGGGGTTGTGCGTGGTCGCTTTCCCGGAGGCCGGGCCGCTGGCCTCGGTGTTGCTGCTGGCGATCGGCGTGACGGCGTTTGTCCTGCAGCGCGGCACCGAGCCGCCGGTGCACCCGCATCAGGCGCATCACCAAGGCTCGATCATCAGCTCAAGCGACGTGCTTTTGCTGCTGCTGTTGATGGTCGCCATGGGCGTCATCGTCGGGGTGGTGGACGTGGTCAGCGTGGCGTTCGCCCAGCATCAGGGGCAACCGGCGGCGGCGAGCATCGTGCTGTCGGTCTATGCCATCGGCTCGTGCCTGGCCGGCCTGGCGTTCGGCGCGCTGCGCTCGAAACTGCCGTTGCCGCGATTGTTTCTGTACGGCGGCGTGGCGACGGCGCTAACCACGCTGCCACTGTTGTTGGCGAGCAATATCCTCGGGCTGTCGCTGGCGGTATTTGTCGCGGGGTTGTTCTTCGCGCCGACGCTGATCGTCGCCATGGCCCTGGTGGAACGCATCGTGCCGCCGGCGCGGCTCACCGAAGGCCTGACCTGGCTGGTGACCGGCCTGAGTATCGGAGTCGCCATTGGCGCGGCGGGCTCGGGTTGGCTGGTGGATACGTATGGCGCGCGCAGTGGTTTCTGGCTGGCGATTGCAGCTGGGGCAGTGGTGCTGGGAGCGGCGGTGCAGAGTTATCGCCAGCAAAAATAA	MANPYRELFSAPGSRGFVLAGMIARMPISMTGIGVITMLAQLKGGYGLAGAVAATFALATAFCAPQVSRLVDRFGQGRVLPLAALLGGGALLMLLLCTRLQAPQWTLFLFAALAGCMPSMSAMVRARWTEVYRGQPQLRTAYALESVLDEVCFIVGPPLSVGLCVVAFPEAGPLASVLLLAIGVTAFVLQRGTEPPVHPHQAHHQGSIISSSDVLLLLLLMVAMGVIVGVVDVVSVAFAQHQGQPAAASIVLSVYAIGSCLAGLAFGALRSKLPLPRLFLYGGVATALTTLPLLLASNILGLSLAVFVAGLFFAPTLIVAMALVERIVPPARLTEGLTWLVTGLSIGVAIGAAGSGWLVDTYGARSGFWLAIAAGAVVLGAAVQSYRQQK				NA	NA	NA	NA	NA
D1-35_02186	1134			hypothetical protein	GTGGACCTGCAAACCATCCTGGGTAAACTGTTCGCCAACGCCGGCGCCGTTGGTATCGACGGCGTTTTCCAATTCGTGTTCGGCCCGCATCAGGCGTACTGGTCCGAGGTCAAAGCCAGCAGCCACACCCAGGCTGGTCGGCACAGCAGCCCCGACGTGACCATCGAAATCGCGGAAAAGGACTTTCTCGGGATCATGGCCGGCCTGGCCAATGTCGAGGAACTGTTCGCCAGCGGCCGCCTGAAGATCGATGGCAACATGGGCTTGGCGACGTTGCTGCCGCAGATCATCGATCACGCCCGCAATGGCAGCCGCCCGGCGGAAAAGGTCGACATGAACAAACGCTACCCGACCCCGCCGCGCTTCAGCGAAACCCTCACCGCGAGCCTGCCGACCCAACGCAGCGTCGAGCGGCGGCCGCGCAGCGAACTGTCGGTGAGGGATTTCCAGGCACGCTACCTGCCCCATGGCATTCCGCTGGTGATCAGCGACGCGCTGCAGGACTGGCCCTTGTTCAAGCTCACTCGGGAAGAATCCCTGGTGCATTTTGCCCAGCTGCAAGGCATCACCCGCCACGGCGACTACGTGAAAAAAACCTTTTCCACGGAGCGGGATTTTCGCTCGACCTCCATGGCCGATTTCATCGCGTCCCTCGACAACCCGGCCGCCAAGGGTGCGGACGGCGAGCCGCCAGCCTACATGGGCAACAATATCTTGCCGGCGCAACTGATGGAGCTGATCAAGTACCCGCCCTACTTCGATCCATCGCTGTTCATTCCGCCGCGCATCTGGATCGGCCCCAAGGGCACCCTCACACCGCTGCACCGCGACGACACCGACAACCTGTTCGCCCAGGTCTGGGGCCAGAAAACCTTCACCCTCGCCGCCCCCCACCACCGCGAGGCCCTGGGCACCTGGTCGACCGCGCCCCAGGGCGGGCTGGACGGTTGCGACTTCAACCCGGACGCGCCGGACTACGAGCATTTCCCCCACGCCCGCAACGTGACATTCCTGCGGGTGACGCTGGAGGCTGGGGATTTGCTGTTTTTGCCGGAGGGCTGGTTTCATCAGGTGGAATCGGTGGCCACTTCGCTGTCAGTGAATTTCTGGGTGAATTCGGGGCGGGGTTGGTGA	MDLQTILGKLFANAGAVGIDGVFQFVFGPHQAYWSEVKASSHTQAGRHSSPDVTIEIAEKDFLGIMAGLANVEELFASGRLKIDGNMGLATLLPQIIDHARNGSRPAEKVDMNKRYPTPPRFSETLTASLPTQRSVERRPRSELSVRDFQARYLPHGIPLVISDALQDWPLFKLTREESLVHFAQLQGITRHGDYVKKTFSTERDFRSTSMADFIASLDNPAAKGADGEPPAYMGNNILPAQLMELIKYPPYFDPSLFIPPRIWIGPKGTLTPLHRDDTDNLFAQVWGQKTFTLAAPHHREALGTWSTAPQGGLDGCDFNPDAPDYEHFPHARNVTFLRVTLEAGDLLFLPEGWFHQVESVATSLSVNFWVNSGRGW				NA	NA	NA	NA	NA
D1-35_02187	771	tam	COG4106	Trans-aconitate 2-methyltransferase	ATGAGCTGGTCCGCCCAACAATATGTCGCGTTCGAACAGGAACGCACCCGCCCGTCCCGCGATCTGCTGGCGGCCATCCCGCCGGTACAGGCGCGTCAGGTCATCGACCTGGGCTGCGGCCCCGGCAACTCCACCGAACTGCTGGTCGATCACTTTCCCGACGCAACGGTGCGTGGCCTGGACAGTTCCGCCGACATGGTCGAAGCCGCCCGTAAGCGCTTGCCCGGCGTGACATTCGACACCGCCGATATCGGGCGCTGGAACGAAAGCGGCCCCTTCGACGTGATCTTCGCCAACGCCGTGCTGCAATGGCTTCCCGACCACGCCACCCTGCTGCCGTCGCTGGTGGACAAACTCGCCGCTGGCGGCAGCCTGGCCGTCCAGATGCCTGACACTCTGCACCAACCGTCCCATCGCTTGATGCGTGACATTGCTGCCAGCGGCCCCTGGGCCAGCCAACTGGCCGGCGCGGCGGATTCGCGGATCGAGGTGGAGGATGCCAGCACTTATTACTCGATCCTCAAACCCCACTGCACCCGCGTCGATGTGTGGCGCACCACCTACCATCACCCGCTGGCCGGTGGCGCCTCGGGGGTCGTGGAGTGGTTCAAGGGCAGCGGCCTGCGGCCATTCCTCGAGCCGCTGGACGAAGCGCAGCGCGAGGACTATCTGCAGCAATACCTAAAGGCCATCGAACAGGCCTATCCGGCCCTGGACGATGGGTCGGTCCTGCTGCCGTTCCCGAGGGTGTTCATCGTCGCGACACGCTAG	MSWSAQQYVAFEQERTRPSRDLLAAIPPVQARQVIDLGCGPGNSTELLVDHFPDATVRGLDSSADMVEAARKRLPGVTFDTADIGRWNESGPFDVIFANAVLQWLPDHATLLPSLVDKLAAGGSLAVQMPDTLHQPSHRLMRDIAASGPWASQLAGAADSRIEVEDASTYYSILKPHCTRVDVWRTTYHHPLAGGASGVVEWFKGSGLRPFLEPLDEAQREDYLQQYLKAIEQAYPALDDGSVLLPFPRVFIVATR				NA	NA	NA	NA	NA
D1-35_02188	735	lgrE		Linear gramicidin dehydrogenase LgrE	GTGACCCAACTGACCCTGCTGTGTCTGCCGTATTCCGGCGCCAGCGCGATGGTTTACAGCCGCTGGCGGCGCAAGGTGCCGCAGTGGTTGACGGTGCAGCCGGTGGAGTTGCCGGGGCGTGGGGCGCGTTTCGCCGAGCCGCTGCACACCGACATGGGGCCCTTGGCCAAGCAATTGGCGCGGGAGCTGGCCCCGACCCTCCAGGCCCCTTACGCCCTGTTCGGCCACAGCCTGGGCGCGCTGCTGGCCTGTGAAATCGTCCACGCCTTGCGTGAGCTGGGCTGCCCGGAACCGGTGGCGCTGTTTGCCTCGGGCACCGCGGCGCCGACGATGCGCGCCGACTATGACCGGGGTTTCGCCGAGCCGAAAACCGATGCTGAACTGATCGACCAGTTGCGCACCCTCAACGGTACCAGCGAAGAGGTGCTGGCCAATGAAGAGCTGATGGCTTTGACCTTGCCGGTGCTGCGCGCGGACTTCCTGCTCTGTGGCCGCTACCAGTCAAGGCTTCGGTCACCGCTCAACTGCCCCGTGCACGTGCTCGGCGGCACCGCCGACAAGGCCACCACCGAACAGTTGATCGGCTGGAGCCGCGAAACCAGCGGCAGCTTCTCCGTGGATATGCTGGCGGGCGGGCACTTCTTCATTCATGAACACGAGGCCAGGGTGCTGCGGCTGATCAAGGATCAGCTGAGCGTGCATCACCGGCGACACGGGTTGGCGATCAGCGCCTGA	MTQLTLLCLPYSGASAMVYSRWRRKVPQWLTVQPVELPGRGARFAEPLHTDMGPLAKQLARELAPTLQAPYALFGHSLGALLACEIVHALRELGCPEPVALFASGTAAPTMRADYDRGFAEPKTDAELIDQLRTLNGTSEEVLANEELMALTLPVLRADFLLCGRYQSRLRSPLNCPVHVLGGTADKATTEQLIGWSRETSGSFSVDMLAGGHFFIHEHEARVLRLIKDQLSVHHRRHGLAISA	PGPT0004157_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_GOLD_RESISTANCE	GOLD_RESISTANCE-DELFTIBACTIN_METABOLISM,PGPT0004157-delftibactin_thioesterase-NA	NA	NA
D1-35_02189	12450	dltA_1		D-alanine--D-alanyl carrier protein ligase	ATGAATGCTGAAGACGCCTTGAAACTTGCTCGCCGGTTTATCGGGTTGCCCCTGGACAAGCGCCAGATGTTCCTGGCAGCGCTGGACAAGGAGGGCGTGGATTTCAGCCGTTTCCCCATTCCCCAAGGCGTCGAAGCCGACGACCGCCAGGCCCTGTCCTATGCCCAGCGCCGCATGTGGTTTCTCTGGCAACTGGACCCCGACAGCGGTGCCTACAACTTGCCCGGCGCGGTGCGGCTCAAGGGCGCGCTGAGCCTGTCGGCGCTGGAGCAGGCCTTCGCCAGCCTGGTGGCCCGCCATGAAACCCTGCGCACAGTGTTCCAGCGCCAGGCCGACGACAGCCTGGTGCAAGTACCTACCGATGCGCCGCTGGTGATCGAGCAACAGGACCTCAGCGCATTGCCCGCAGGCGAACGCGAGCAGGCAGTACGTCAAGCCGCCGAAGCACAATCGATGCGCCCCTTCGACTTGTCGCGCGGCCCTTTGCTGCGGGTCGAACTGCTCAAGCTTGATCAGCAGGAGCACGTGTTGCTGCTGACCTTGCATCACATCGTCTCCGACGGCTGGTCGATGAACGTGCTGATCGACGAGTTCATCCGCTGCTACGACGCCCACGAGGCAGGCGTGGCCCCGCAATTGGCCGACCTGCCGATCCAGTACAGCGACTATGCCCTGTGGCAGCGTCGCTGGCTGGAGGCCGGCGAGCAGGCGCGGCAGCTGGCGTACTGGCAGGCACAACTGGGCGATGAACATCCGGTGCTGGAGTTGCCCACCGACCATTCGCGCCCGGCGATGCCCAGCTATCGCGGCAGCCGTTATGAATTCGCCATCGACGCCGCATTGGCGGAGCAACTGCGCAGCACAGCCCAGCAGCAGGGCGTCACGCTGTTCATGCTGCTGCTCGGCGCGTTCAATGTGCTGCTGCATCGCTACAGCGGCCAGTCCGATATCCGCGTCGGCGTGCCGATCGCCAACCGTAACCGGGATGAGGTCGAAGGGCTGATCGGCTTCTTCGTCAACACCCAGGTACTGCGTACCGAACTGGACGGCCAGCTCCGTGTCGACGAGTTGCTGCGGCGGGTCAAAGAAACCGCGCTCGGCGCCCAGGCCCATCAGGACCTGCCGTTCGAACGCCTGGTCGAAGCGCTCAAGCTGGAGCGCAGCCTCAGCCATACGCCGTTGTTCCAGGTGATGTACAACCATCAGCCGCACGTGGCGGACGTCACCACGATCCGCACGGCGTCCGGGCTGGAACTGGGCATGATCGAATGGCAGGCGCGCACCACTCAGTTCGACCTGACCCTGGACACTTATGAAAAGGCCGGCACGCTGCACGCGGCGCTGACCTACGCCAACGACCTGTTCGAGGCGCCGAGCATCGCGCGCATGGCCCGGCATTGGCTGCGACTGCTCACCGCGATGATCGCTGATCCGTCCCGGCGCATCGGCGAACTGCCGCTGCTCGACGCTGACGAACACGCCACCCTGGTCCACGGTTGGAACGCCACGGCGCAACGCTACCCGACCGCGCAGTGCATGCATCAACTGATTGAAGCCCAGGTGGCGCGCACCCCGGACGCACCGGCGCTGGTGTTTGCTGAGCAAACCCTGAGCTATGCCGAGCTCGATGCCCGCGCCAACCGACTGGCTCACCTGCTGCGGGAGCGCGGCGTGCGGCCGGACAGCCTGGTGGGGATCTGCGTCGAGCGCTCGCTGGAAATGGTGGTGGGCCTGCTGGCGATTCACAAGGCCGGCGGCGCCTATGTGCCGCTGGATCCTGAGTACCCGCAGGAGCGCCTGGCCTACATGATCGAGGACAGCGCCATCGGCTTGCTGCTGACCCAGCGCTCGCTGTCGGCGGCGCTGCCAACCGACGGCGTCGAGGTGATCGAACTCGACCAGGCGGCCGGCTGGCTCGACGGCTACAGCGACCATCGTCCCGACATCACGCTTGATCCGCTGAACCTGGCCTACGTGATCTACACCTCTGGCTCCACCGGCAAACCCAAGGGCGCTGGCAACAGTCATGCGGCGCTGGTCAATCGCTTGTGCTGGATGCAACAGGCCTATGCCTTGGATGGCAGCGACGCGGTGTTGCAGAAAACTCCGTTCAGCTTCGACGTGTCGGTGTGGGAATTCTTCTGGCCGCTGATGACCGGAGCCCGGCTGGTAGTCGCCGCGCCGGGCGTGCACCGCGATCCGCTGCAACTGATCGAGACCATCAAGCGCCATCGCATCAGCACGCTGCACTTCGTGCCGTCGATGCTGCAAGCGTTCATTCATGAGCCGGGCGTGGAAAGCTGCGAAGGTCTCAAGCGCATCGTGTGCAGCGGTGAAGCGCTGCCGTTGGACGCGCAACACCAGGTCTTCGCCAAGCTGCCGAACGCCGCGCTCTACAACCTCTACGGCCCGACCGAAGCGGCCATCGACGTGACCCACTGGACCTGTGTCGATGAAGGCGCCGATTGCGTGCCGATCGGTGTCCCCATCGCCAACCTGCGCACCCATGTGCTCGACGCCGATCTGTCGCCGGTGCCGTGGGGCGTGGCGGGCGAGTTGTACCTGGGCGGGACGGGGCTGGCGCGCAGTTATCACCAGCGTCCGGCGCTGACCGCCGAGCGTTTCGTGCCGTGCCCGTTCCATGCCGGCGCACGCCTGTACCGCACCGGTGACCGCGTGCGCCAGCGCGCCGACGGTGTGATCGAATACCTCGGCCGCCTCGATCACCAGGTCAAGCTACGCGGCCTGCGCATCGAGCTCGGCGAAATCGAAACCCGCCTCATGCAGCACCCGCTGGTGCGCGAGGCCGTGGTGCTGGTCCAGGACGGCAAGCACCTGGTGGGCTACCTGGTGCTGGAAAACAGCGAGCCGCACGAGCAGTGGCAGCAGGACCTCAGGGCTTGGCTGCTGGCGAGCCTGCCGGAATACATGGTGCCGACCTATCTGATGCCGCTGGCCAGATTGCCCGTCACCGCCAACGGCAAGCTCGACCGCAAGGCCCTGCCACAACCGGACGCCGCGCCCCGACAAACATTCGTCGCCCCGCAGGATGCGCTGCAAGTTGCCCTGGCCGAAATATGGCAGGACGTACTCGGCGTGGAGCGCGTCGGCCTCGAAGACAACTTCTTCGAGCTGGGCGGCGACTCGATCATTTCCATCCAGGTGGTGAGCCGCGCGCGGCAGGCCGGTATCCGCATTCATCCCCGCGATCTGTTCCAGTACCAGACCGTGCGCAGCCTGGCGCTGGTCGCCACTCGCGACAGCCACAGTGCTGTGGATCAGGCGACAGTTACCGGCGATGCTGTGCTCGGGCCGATCCAGCGGCAGTTCTTCTCCCAGGCGATGCAGGCCCGTGACCACTGGAACCAGTCGCTGTTGCTGACCGCCCGCGAGCCGCTGGATGCACAGCGGCTCGACGCGGCGCTGACCTGCGTCATCAACCACCACGACGCCTTGCGTCTGCGCTTTGTCGAAGACGCCGACGGTTGGCGGCAGGGCCACGGGCCGCTTGTGCAAAACGCCGATCTTTGGCAACGCGAAGCCCGATCCATCGAAGACCTCGCTGCACTGTGCGACGAGGCGCAGCGCAGCCTGAAGCTGCAGGACGGTCCGCTGCTGCGCGCCATGCTGGTGGACCTGGCCGACGGGAGCCAGCGGCTGGCGCTGATCATTCATCACCTGGTAGTGGACGGTGTGTCGTGGCGCGTGTTGCTGGAAGACTTGCAGCAAGCCTACGAACAACTGGCGGCGGGCGGCGCGGCCACGTTGCCGGCCAAGACCAGCGCGTTCCAGAGCTGGACCGCGCGGCTGAGTGCCGAAGCGTCGCGCTTCGACGATCAGTTGGCCTACTGGCAAGCCCAGCACCAGGGCGCGGCGGACATTCCTTGTGATCGTCCGCAGGGCAGCCTGCAAAATATCCACGGCGCGAAGATCGAATGGCGCCTGGACGCCGAGCTGACCCGGCAGTTGCTGCAACAGGCCCCAGCGGCCTATCGCACCCAGGTCAACGACCTGTTGCTGACCGCGCTGGCCCGCACCATCAGCCACTGGAGCGGGCAGCCGGGCACGCTGGTGGAACTGGAAGGCCATGGCCGCGAAGAGCTGTTCGACGACATCGACCTGACCCGCACGGTCGGTTGGCTGACCAGCCTGTTCCCGGTGAAGCTCACCGTTACCGACGACCTCGACGGTTCGATCAAGACCGTCAAGGAGCAACTGCGCGGCGTGCCGGACAAAGGCCTGGGGTATGGCGTGCTGCGGCATCTGGCGGCGCCTTCGGTACAAGCGACATTGGCCGGTCTGGCGCAACCGCGCATCACCTTCAATTACCTCGGCCAGTTCGACCGTCAGTTCGACGAAACGGCGCTGTTGCTGCCATCCGGCGAAGGCAGTGGGGTCGCCCAGGACCCGACCGCGCCGCTGGCCAACTGGCTGACCGTGGAAGGCCAGGTGCATGGCGGCGAGCTGGCGCTGAGCTGGGGGTTCAGCCGTGAAATGTTCGACAGCGCGACCGTGCAGCAACTGGCCGATCAATACGCCCTCGCGCTCAAGGCGCTGATTCGACATTGCGTCAGTCTGGCGACGCCGCAAGCGACGCCGTCGGACTTCCCGCTGGCGCAAATCAGCCAGGCGCAGCTCGACCATCTGCCGGTGGCGGCTGGCCAACTCGACGATATCTACCCGCTGTCACCGATGCAGCAGGGCCTGTTGTTCCACACGCTGTACGAGCAGGCGGCGGGCGAGTACGTCAACCAGCTGCGGGTGGACGTGCAAGGCCTGGATGCCGAGCGATTCCGTGCGGCGTGGCAGGCCACCGTCGCTGCGCAAGACATCCTGCGCAGCGGCTTCGTCTGGCAGGGCGAATTGCCGCAGCCGCTGCAGATTGTCCACAAGCAGGTGCAGTTGCCGTTCACGGTGCTCGACTGGCGCGAGCGTGCCGAGCAGAGCCAGGCTCAGGCCCGGGCCCTTGCCGCGCTGGCTGACGCAGAACGCGCGCAAGGTTTCGATCTGAGCCAGGCACCGCTGTTGCGCCTGGTGCTGGTGCAGACCGGCGCTGAACAATGGCATCTGATCTACACCCATCACCACATCCTGATGGACGGCTGGAGCAATTCGCAATTGCTCGGCGAGGTCATGCAACGCTACAACGGCCACGCGCCGGGCCGCATCGCCGGACGTTATCGCGATTACATCGCCTGGCTGCAACGCCAGGACGGCCAGCTCAGCCAGGACTTCTGGAGCGAGCAACTGGCCGCGCTGCAAGAACCGACCCGGCTCGCCCGCGCGGCTTTGGGTGATGCTGGCCAGAGCGGCCATGGCGATCACTTCCTGACGCTGGATGCGCCACGCACCAAGGCACTGGAGACCTTCGCCCGCCGGCAGAAAGTCACTGTCAACACGCTGGTACAAGCGGCGTGGCTGCTGTTGCTGCAACGCTATACCGGGCACCAGACCGTGGCATTTGGCGCGACCGTCGCCGGGCGGCCGGCGGATCTGCCCGGCATCGAACAGCAGGTCGGCCTGTTCATCAACACCTTGCCGGTGATCGGCACGCCGCGCCCCGACCAGACGGTCGGCCAGTGGCTGCAAGCGGTGCAGGCGCAGAACCTGAGCCTGCGGGATTTCGAGCACACGCCGTTAGCGGACATCCAGCGTTGGGCCGGGCAGGGCGGGGAGGCGCTGTTCGACAACCTCCTGGTGTTCGAGAACTACCCGATCGCCCAAGCCTTGCAGCAGGGAACCGACAGCGATGTCACCTTTGGCGACGTGGCCAATCTTGAGCAGACCCACTATGCCCTGAGCGTGGCGGTCACCCTCGGTGAACAACTGGCGTTGCATTACAGCTACGAGCGTCGACAGTTCGCCGACGAGGTCATCAACCAGATCAGCGCTCACCTGCTGCACCTGCTTGAGCAATTCAGCCAGGACGCCGAACGCAGCCTGGGCGAAATCGCCTTGGCCAGCGCCGCGGAACACGCGCGGCAACAGGCCGGCAACCACCCGCAGCCTTATCCGGTGGACATCGCCGTGCATCAGCGGATCGCCGCGTTGGCGAACGAGCGCCCGCAGCGCACGGCGGTGATCTTCGATGGCCGGCACTTCAGCTATGGCGAAATCGACCAGCGCGCGAACCAGTTGGCCCATGCCCTGATCGCCCGTGGTGTCGGCGCCGAAACCCGGGTTGGCGTGGCCCTGCCGCGCAGCGAAAGCGTGATCGTCGCGCTGCTGGCGGTGCTCAAGGCCGGAGGCGCCTACGTGCCGTTGGACATCAGTTATCCCCGGGAACGCCTGGCGTACCTGATGGAAGACGCCGGACTGGCCTTGTTGATCAGTGACACCTCGGTGGCGGCGCAATTGCCAGTGGCCGAATCGCTACCGCTGCTGGAGCTGGATCGGGTCGATCTGCGCGAACTGCCGGTCAGTGCGCCGCAGGTGCGACTCGATCCGCAGAACCTTGCCTACGTCATCTACACCTCCGGCTCCACCGGCAACCCCAAGGGCGTCAGCGTGGCGCACGGTCCGCTGGCGATGCACTGCCAGGCCATCGGCGAGCGTTATGAAATGCGCGACAGCGATTGCGAGTTCCATTTCATGTCGTTCGCTTTCGACGGTGCCCATGAGCGCTGGCTCACCAGCCTGACCCACGGCGCCTCGCTGCTGGTTCGCGATGACAGCCTGTGGACCCCGGAGCAAACCTACAACGCCATGCGCGAGCACGGCGTGACGGTGGTGGCGTTCCCGCCGGTGTACCTGCAACAACTGGCCGAGCACGCCGAGCGTGAAGGCAACCCGCCGAAAGTGCGCATCTACTGCTTCGGCGGCGACGCGGTGGCCAACGCCAGCTTCGAACGGGTCAAGCGCGCCTTGCAGCCTGAGTACATCATCAACGGCTACGGCCCGACCGAAACCGTGGTCACCCCGCTGATCTGGAAGGCCGGTCGCGAGGTGGCTTGTGGCGCGGCCTATGCGCCGATCGGCAGCCGCATCGGCGACCGCAGCGCCTACGTGCTCGATGCCGACCTGAACCTGCTGCCACAGGGCATGCCCGGTGAGCTGTACCTGGGCGGCAGCGGCCTGGCCCGCGGTTACCTGAACCGTCCGGGGCTGACCGCCGAGCGTTTTGTCGCCGACCCGTTCAGCGCCGGCGGCTTGCTCTACCGCACCGGCGACCTGGTGCGCCAGCGCGCCGACGGCACCTTCGATTACCTCGACCGTATCGACAACCAGGTGAAGATCCGTGGTTTCCGCATCGAGCTGGGGGAAATCGAAGCCAGCCTGCAAGCCCTCGACGGCGTGCGCGAAGCGGTGGTCGCGGCCCAGGAGGGTGCTGCCGGCAGCGGCAAGCGCCTGGTGGCCTACGTCGTGGCTGATCAATGGGTGCCGGATGACTTCGCAGAGAATCTGCGCGAACAACTCAAGGCGACCTTGCCGGCGCACATGGTCCCGGCCTATCTGCTGTTGCTCGAACGGCTGCCGCTGACCCCCAACGGCAAGCTCGATCGCAAGAACCTGCCCAAGCCCGACGCCAGCCAATTGCAGCAAAGCTACAGGGCACCGCGCAGCCCGTTGGAACAGCAACTCGCGGCGGTCTGGCAGGACGTGCTCAAGCTTGAGCGGGTGGGCCTGCGCGATAACTTCTTCGAACTGGGCGGCGATTCCATCGTCTCGATCCAGGTGGTCAGCCGCGCCCGTCAGGCCGGGATTCACTTGACGCCCAAGGACCTGTTCCAGCACCAGACGCTTGAGATGCTGGCGACCGTGGCCCGCCAGGGCGAAGCTGCGCAAGTCATCGATCAGGGCCCGGTGACGGGTGAGCTGGCGCTGCTGCCAGTGCAACGCTTGTTCTTCGAGCAAGCGATACCGCAACGTCATCACTGGAATCAGGCGGTGCTGCTCAAGCCGACCGAGCCTCTGGAGGCGTCGACTCTGTATCAGGCGCTGAGCGCGCTGGTGCTGCATCACGATGGCCTGCGCTTGAGCTTCACGGAGCAGGGCGAAGGCTGGAAGGCGGCCTACCGTCCTGCGGACGTTCACTGCGAAGACCTGCTCTGGACCGTGGACGCGCCTGACGCCTCGGCCTTGCACAGCATCGCCAACGAAGCCCAACGCAGCCTCGGTCTGCAAGACGGTCCGCTGCTGCGGGCGGTACTGGCGACCTTGGGCGATGGCAGCCAACGTCTGTTGTTGGCGGTGCATCACCTGGTGGTCGATGGCGTGTCGTGGCGCATCCTGTTCGAGGATCTGCAACGGGCCTACCGACAGCTGTCCAGCGGCGCAGCGTTGCAGCTACCGGACAAAACCACCTCAGCGCAGGTCTGGGCCGAGCGCTTGCAAGACCATGCCCACAGCCCGGCGCTGCAGCAACAATTGGCCTTCTGGCAGGCCCAGCTCGAAGACATCGATGCGCGCTTGCCGATGGATCATCCACAGGGCGGCCAGCAGAACCGCCTCGCGCTGACCGTGCGTACGCGACTGAACGCCGCACTGACCCGACAGCTGCTGCAAGACGCGCCCAAGGCCTATCGCACCCAGGTCAACGACTTGCTGCTGACGGCTTTGGCGCGGGTCATGGTGCGCTGGACCGGCGCCGACAGTGCGCTGATCCAGCTCGAAGGCCACGGCCGCGAAGCGCTGTTCGACGACGTCGACCTGACCCGCACCGTCGGCTGGTTTACCAGCCTGTACCCGGCCCGACTCACGCCGCAGGCCGATCTTGGGGATAGCCTCAAGCAGATCAAGGAACAACTGCGGGCGATCCCGGACAAAGGCCTCGGTTTTGGTGCCTTGGCGCATCTGGCGGATGACGCTACGCGGGCAAGTCTGGCGCGGCTGCCGACGCCAGGCCTGACCTTCAACTACCTGGGCCAGTTCGACGCCAGCTTCGACGCAGCCGACGGCGCCTTGTTCGTGCCGGCCAACGAAGCGGCCGGCGATGAGCTGGACGCTGAAGCACCGTTGTCGAATGTGCTGGCGTTGAACGGCCAGGTGTTCAATGGCGAACTGGACCTGGGCTGGACCTTCAGCCGCGAGCAGTTCAACGAGGCGACCATCCAGGCCTTGGCCGATGAGTATGCGCTTGAGTTACAGCAGCTCATCGAGCATTGCTGCCAGGGCGGACATCACGGTGTGACGCCATCGGACTTCCCGCTGGCGAGCCTGAGCCAGCAGCAACTGGACGGGCTGGCGCTGCCGATGGCGCAGATCGTCGACCTGTATCCGTTGTCGCCGATGCAGCAAGGCATGCTGTTCCACGGCGTGTATGGCGACGCCACCGGCGACTACATCAACCAATTGCGCCTGGACGTGGAAGGGCTGGACCCGCAGCGTTTCCGCCAGGCCTGGCAAGCGGCGGTGGACGCCCACGACATCCTGCGCACGCGGTTCGTCTGGCAAGGGGATTTGCCGGCGCCGGTGCAGGTGGTCAGCAAATACCTGGAGCTGCCTTACAGCGTGCAGGATCTGCGCAGCGATCCGTTGCCTGACCAGGCCTTGCAGGCCCTGGCCGATGCCGAACGCGAGCAACTGGACCTGAGCGCGTCGGCACTGATACGCCTGATGATCGTGCGCCTCGACGAACAGCGTTATCACCTGATCTACAGCCACCACCACATCCTCATGGACGGCTGGAGCAATTCGCAGCTGCTCGGCGAAGTGCTGCAACGCTACAGCGGTCAATCCGTTGCGGTGTCCGGCAGCCGCTACCGCGACTACATCGCCTGGCTGCAACGCCAGGACGCGGCGGCCAGCGAAGCGTTCTGGAAACCGGCGCTGCAACAGCTGGAGACGCCGACACGATTGGCCGATGCGGTGGCCAAACCGGCCGACATGGGCAGTGGTTACGGCGATCATGTCCACGTGCTGGACGAAGCGTCGACCCGTCGCCTGGAAGCTTTCGCCCGCGCCTCGAAAGTCACGGTGAACACCCTGGTGCAAGCGGCGTGGCTGCTGCTGTTGCAGCGCTACACCGGTCGAGAAACGGTGGCCTTCGGGGCGACCGTGGCCGGGCGTCCGGCGGACTTGCCCGGCATCGAGCAGCAGATCGGTCTGTTCATCAACACCTTGCCAGTGATCGCCAGCCCACGGGCCGGGCAGACCTTGGACAGCTGGCTGCAAGCGGTGCAGGCGCAGAACCTCGCCCTGCGCGATTTCGAGCACACCGCGTTGCTGGACATCCAGCGCTGGGCCGGGCAGGGCGGCGACGCGCTGTTCGACAGCCTGCTGGTGTTCGAGAACTACCCGATCGCCCAGGCGTTGGAACAGGGCGCGCCGGACGGTTTGCGTTTTGGTTCGCCGGTCACTCAGGAGCAGACCAATTATCCGTTGACGCTGCTGGTGGGGTTGGAGCGGCAGTTGTCGGTACACATGAGTTATCAGCGGGCGAGCTTTGCGCCGGATACGGTTGAACGGCTGGCGGCGCATCTGGCGCAGTTGCTCGGGCAGATGAGCGCCAATGGCGAGCGCTGCCTCGGTGAACTGTCGATGCTGGAATTCGATGAGCATCAACGTTTGACCCATGACTGGAACCCGGTCGATGCGCCGTTCGAACAGGACCTGTGCATTCATGAAGTCATTGCGCGCCAGGCCGACGCTTCGCCGGATGCCCTGGCAGTGACTTTTGCCAACACGCGCCTGAGCTACAGCGAACTGGACGGCCGCGCCAATCGCCTGGCCCACAAACTCATCGAACTGGGCGTCGGCCCGGAAGTGCGTGTCGGCGTGGCGATGCCGCGTTCCGAGCAGTTGCTGATCGCCTTGCTGGCGGTGCTCAAGGCCGGTGGCGCGTACGTGCCGCTGGACCCGGATTACCCGGCCGAGCGCGTGGCCTACATGCTTGAGGACAGCCGCGCGCGGGTGTTGCTGACCGAGCAGGCGGTGGCGCAGACGCTGACGGTTCCGGCCGAGACGCAAATGCTGATGCTCGATCAGCTCGACCTTTCACGTTATCAACTGAGCTCGCCCGTTACAGACGTCACCCCAGACAACCTCGCCTACGTCATCTACACCTCCGGTTCCACCGGCAAACCCAAGGGCGTGGCGATCGCCCACCGAAACGTCTTGGCGCTGATCGACTGGTCCAGAACCGTCTACAGCCGCGACGACATCCAGGGCGTCCTGGCATCGACCTCGGTGTGTTTCGACCTGTCGGTGTGGGAGCTGTTTGTCACCCTCGCCAACGGCGGTTCGCTGATCATCGCCCGCAACGCCCTGGAACTGCCGCACCTGCCGGCCCGCGATCAGGTGCGCCTGATCAACACCGTGCCTTCGGCGATCGCCGCGTTGCAGCGCAGCGGCGAGATCCCGGACAGCGTGCGCATCATCAATCTGGCCGGTGAGCCGCTGAAGCAGAGCCTGGTGGATGCCCTCTACCCATCACACATCACCTGTGGGAGCGAGCTTGCTCGCGATAGCGGTGGGTCAGTCGATGAGGGGCTAACTGCCAGGACGCCATCGCGAGCAAGCTCGCTCCCACAGGTGGTGGGTGAACAGGTCGGTGGGGTTGAGCATGTTTATGATCTGTATGGCCCCTCGGAAGACACCACCTATTCCACCTGGACCCGCCGCACCGCCGGCGGCACGGCAAACATCGGTCGCCCGCTCAAGCACACCGCCAGCTACCTGCTCGACGCCAACCTGCAACCGGTGCCGCAAGGCGTCTCGGCGGAGCTGTACCTGAGCGGCGCGGGCATCACCCGGGGTTACCTCGGGCGCGCGGCGATGACCGCCGAAAAGTACGTGCCGAACCCGTTCTCGACCACCGGCGAACGCCTGTATCGCACCGGCGACCTGTGCCGCTATCGCGCCGATGGCGTGCTCGAATACCAGGGCCGGCTCGACCATCAGGTGAAGATCCGCGGCTTTCGCATCGAGCTGGGCGAAATCGAGGCGCGGCTGTTGCAGCAAGCCGAGGTAAATGACGTCGCCGTGCTGGCCCAGGAAGGGCCGGGCGGGCAGCAGTTGGTGGCTTACGTGGTTGCTTCGACCGACGCGAATACTCTGCGCGATCAACTCAAGGCCAATCTCAAGGCGCACCTGCCCGACTACATGATCCCGGCGCACTGGCTGTTCCTCGACCACCTGCCACTGACCCCCAATGGCAAGCTCGACCGCAAGGCCTTGCCGAGCATCGAGGCCGGGCGCTCAGAAAACGCTTACGAAGCACCGGTCAGCGACCTTGAACAGCAAGTCGCAGCGATCTGGGCCCAGGTGCTCACCGTCGAGCGCGTGGGCCTGCACGATCACTTCTTCGAGCTGGGCGGCCACTCGTTGCTGGCGGTCACCGCCGTTTCGCGCATGGCTCTCGAACTGGGGTTGAGCCTGACCCCGCAGCTGTTATTCCAGCACCCCGTCCTGAAGGATTTTGTCGCCCGACTCGACAGCGGCGACGGGCCGATCAACGAACAGAAACTGAACAAGCTGGACGCCCTGCTTGATGAAATGGAGGAAGTCTGA	MNAEDALKLARRFIGLPLDKRQMFLAALDKEGVDFSRFPIPQGVEADDRQALSYAQRRMWFLWQLDPDSGAYNLPGAVRLKGALSLSALEQAFASLVARHETLRTVFQRQADDSLVQVPTDAPLVIEQQDLSALPAGEREQAVRQAAEAQSMRPFDLSRGPLLRVELLKLDQQEHVLLLTLHHIVSDGWSMNVLIDEFIRCYDAHEAGVAPQLADLPIQYSDYALWQRRWLEAGEQARQLAYWQAQLGDEHPVLELPTDHSRPAMPSYRGSRYEFAIDAALAEQLRSTAQQQGVTLFMLLLGAFNVLLHRYSGQSDIRVGVPIANRNRDEVEGLIGFFVNTQVLRTELDGQLRVDELLRRVKETALGAQAHQDLPFERLVEALKLERSLSHTPLFQVMYNHQPHVADVTTIRTASGLELGMIEWQARTTQFDLTLDTYEKAGTLHAALTYANDLFEAPSIARMARHWLRLLTAMIADPSRRIGELPLLDADEHATLVHGWNATAQRYPTAQCMHQLIEAQVARTPDAPALVFAEQTLSYAELDARANRLAHLLRERGVRPDSLVGICVERSLEMVVGLLAIHKAGGAYVPLDPEYPQERLAYMIEDSAIGLLLTQRSLSAALPTDGVEVIELDQAAGWLDGYSDHRPDITLDPLNLAYVIYTSGSTGKPKGAGNSHAALVNRLCWMQQAYALDGSDAVLQKTPFSFDVSVWEFFWPLMTGARLVVAAPGVHRDPLQLIETIKRHRISTLHFVPSMLQAFIHEPGVESCEGLKRIVCSGEALPLDAQHQVFAKLPNAALYNLYGPTEAAIDVTHWTCVDEGADCVPIGVPIANLRTHVLDADLSPVPWGVAGELYLGGTGLARSYHQRPALTAERFVPCPFHAGARLYRTGDRVRQRADGVIEYLGRLDHQVKLRGLRIELGEIETRLMQHPLVREAVVLVQDGKHLVGYLVLENSEPHEQWQQDLRAWLLASLPEYMVPTYLMPLARLPVTANGKLDRKALPQPDAAPRQTFVAPQDALQVALAEIWQDVLGVERVGLEDNFFELGGDSIISIQVVSRARQAGIRIHPRDLFQYQTVRSLALVATRDSHSAVDQATVTGDAVLGPIQRQFFSQAMQARDHWNQSLLLTAREPLDAQRLDAALTCVINHHDALRLRFVEDADGWRQGHGPLVQNADLWQREARSIEDLAALCDEAQRSLKLQDGPLLRAMLVDLADGSQRLALIIHHLVVDGVSWRVLLEDLQQAYEQLAAGGAATLPAKTSAFQSWTARLSAEASRFDDQLAYWQAQHQGAADIPCDRPQGSLQNIHGAKIEWRLDAELTRQLLQQAPAAYRTQVNDLLLTALARTISHWSGQPGTLVELEGHGREELFDDIDLTRTVGWLTSLFPVKLTVTDDLDGSIKTVKEQLRGVPDKGLGYGVLRHLAAPSVQATLAGLAQPRITFNYLGQFDRQFDETALLLPSGEGSGVAQDPTAPLANWLTVEGQVHGGELALSWGFSREMFDSATVQQLADQYALALKALIRHCVSLATPQATPSDFPLAQISQAQLDHLPVAAGQLDDIYPLSPMQQGLLFHTLYEQAAGEYVNQLRVDVQGLDAERFRAAWQATVAAQDILRSGFVWQGELPQPLQIVHKQVQLPFTVLDWRERAEQSQAQARALAALADAERAQGFDLSQAPLLRLVLVQTGAEQWHLIYTHHHILMDGWSNSQLLGEVMQRYNGHAPGRIAGRYRDYIAWLQRQDGQLSQDFWSEQLAALQEPTRLARAALGDAGQSGHGDHFLTLDAPRTKALETFARRQKVTVNTLVQAAWLLLLQRYTGHQTVAFGATVAGRPADLPGIEQQVGLFINTLPVIGTPRPDQTVGQWLQAVQAQNLSLRDFEHTPLADIQRWAGQGGEALFDNLLVFENYPIAQALQQGTDSDVTFGDVANLEQTHYALSVAVTLGEQLALHYSYERRQFADEVINQISAHLLHLLEQFSQDAERSLGEIALASAAEHARQQAGNHPQPYPVDIAVHQRIAALANERPQRTAVIFDGRHFSYGEIDQRANQLAHALIARGVGAETRVGVALPRSESVIVALLAVLKAGGAYVPLDISYPRERLAYLMEDAGLALLISDTSVAAQLPVAESLPLLELDRVDLRELPVSAPQVRLDPQNLAYVIYTSGSTGNPKGVSVAHGPLAMHCQAIGERYEMRDSDCEFHFMSFAFDGAHERWLTSLTHGASLLVRDDSLWTPEQTYNAMREHGVTVVAFPPVYLQQLAEHAEREGNPPKVRIYCFGGDAVANASFERVKRALQPEYIINGYGPTETVVTPLIWKAGREVACGAAYAPIGSRIGDRSAYVLDADLNLLPQGMPGELYLGGSGLARGYLNRPGLTAERFVADPFSAGGLLYRTGDLVRQRADGTFDYLDRIDNQVKIRGFRIELGEIEASLQALDGVREAVVAAQEGAAGSGKRLVAYVVADQWVPDDFAENLREQLKATLPAHMVPAYLLLLERLPLTPNGKLDRKNLPKPDASQLQQSYRAPRSPLEQQLAAVWQDVLKLERVGLRDNFFELGGDSIVSIQVVSRARQAGIHLTPKDLFQHQTLEMLATVARQGEAAQVIDQGPVTGELALLPVQRLFFEQAIPQRHHWNQAVLLKPTEPLEASTLYQALSALVLHHDGLRLSFTEQGEGWKAAYRPADVHCEDLLWTVDAPDASALHSIANEAQRSLGLQDGPLLRAVLATLGDGSQRLLLAVHHLVVDGVSWRILFEDLQRAYRQLSSGAALQLPDKTTSAQVWAERLQDHAHSPALQQQLAFWQAQLEDIDARLPMDHPQGGQQNRLALTVRTRLNAALTRQLLQDAPKAYRTQVNDLLLTALARVMVRWTGADSALIQLEGHGREALFDDVDLTRTVGWFTSLYPARLTPQADLGDSLKQIKEQLRAIPDKGLGFGALAHLADDATRASLARLPTPGLTFNYLGQFDASFDAADGALFVPANEAAGDELDAEAPLSNVLALNGQVFNGELDLGWTFSREQFNEATIQALADEYALELQQLIEHCCQGGHHGVTPSDFPLASLSQQQLDGLALPMAQIVDLYPLSPMQQGMLFHGVYGDATGDYINQLRLDVEGLDPQRFRQAWQAAVDAHDILRTRFVWQGDLPAPVQVVSKYLELPYSVQDLRSDPLPDQALQALADAEREQLDLSASALIRLMIVRLDEQRYHLIYSHHHILMDGWSNSQLLGEVLQRYSGQSVAVSGSRYRDYIAWLQRQDAAASEAFWKPALQQLETPTRLADAVAKPADMGSGYGDHVHVLDEASTRRLEAFARASKVTVNTLVQAAWLLLLQRYTGRETVAFGATVAGRPADLPGIEQQIGLFINTLPVIASPRAGQTLDSWLQAVQAQNLALRDFEHTALLDIQRWAGQGGDALFDSLLVFENYPIAQALEQGAPDGLRFGSPVTQEQTNYPLTLLVGLERQLSVHMSYQRASFAPDTVERLAAHLAQLLGQMSANGERCLGELSMLEFDEHQRLTHDWNPVDAPFEQDLCIHEVIARQADASPDALAVTFANTRLSYSELDGRANRLAHKLIELGVGPEVRVGVAMPRSEQLLIALLAVLKAGGAYVPLDPDYPAERVAYMLEDSRARVLLTEQAVAQTLTVPAETQMLMLDQLDLSRYQLSSPVTDVTPDNLAYVIYTSGSTGKPKGVAIAHRNVLALIDWSRTVYSRDDIQGVLASTSVCFDLSVWELFVTLANGGSLIIARNALELPHLPARDQVRLINTVPSAIAALQRSGEIPDSVRIINLAGEPLKQSLVDALYPSHITCGSELARDSGGSVDEGLTARTPSRASSLPQVVGEQVGGVEHVYDLYGPSEDTTYSTWTRRTAGGTANIGRPLKHTASYLLDANLQPVPQGVSAELYLSGAGITRGYLGRAAMTAEKYVPNPFSTTGERLYRTGDLCRYRADGVLEYQGRLDHQVKIRGFRIELGEIEARLLQQAEVNDVAVLAQEGPGGQQLVAYVVASTDANTLRDQLKANLKAHLPDYMIPAHWLFLDHLPLTPNGKLDRKALPSIEAGRSENAYEAPVSDLEQQVAAIWAQVLTVERVGLHDHFFELGGHSLLAVTAVSRMALELGLSLTPQLLFQHPVLKDFVARLDSGDGPINEQKLNKLDALLDEMEEV				NA	NA	NA	NA	NA
D1-35_02190	13593	lgrB_2		Linear gramicidin synthase subunit B	ATGGACAAGAGTGTTGCTTTGAGGGTTGCCAAGCGCTTTATCACTCTGCCGCTGGACAAACGCCGGCTGTACCTGGAAAAGATGCTCGAAGAGGGCGTCTCGCCGGCCAACCTGCCGATCCCCAAGGTGCGTTCCGGGTTTGAACAGGTCCCGCTGTCCTACGCCCAGGAGCGCCAGTGGTTCCTCTGGCAGATGGACCGCCACAGCTCGGCTTACCACATCCCCAGCGCCTTGCGCCTCAAAGGGCAACTGGACGTGCCGGCGCTGGAGCGCAGCTTCAATGCCGTGGTCGAGCGCCACGAAAGCTTGCGCACCACGTTCGCCGAGCACGGCGAGCAAACCGAGCAGATCATTCATCAACATATGCCCTTGAGCATCGCGGTCGAGGCGCTGCCCGCCGGTTCTACGGTCAGCCAGGACGAACGTATCAAGGCCTTCGTCGAAGGTGAAACCGCGCGTCCGTTCGATCTGCGCCAAGGGCCGTTGCTGCGGGTTTCGCTGTTGAAAATTGCCGAAGACGACCATGTCCTGGTGCTCATCCAGCACCACATCATTGCCGATGGCTGGTCGATGCAGGTGCTGGTGGATGAACTGGTCCGGCACTACGCCGCCGACATTGGCGGCCAGCCGCTGGCCTTGCCGGACCTGCCGGTGCAATACGCTGATTATGCGATCTGGCAACGGCACTGGCTGGAGGCGGGGGAGCGTGAGCGGCAACTGGCCTATTGGGTCCAGACCCTCGGTGACGAGCAACCGGTGCTGGAACTGCCGTTCGATCATCCGCGCCCCCCGGTGCAGAGCTTTCGTGGCGCGCGCCTGGATTTGACCCTGAGCGCGGAACTGGCCACCGCGCTCAAGCAGCTGGCCCAGCGTGAAGGCGCCAGCCTGTTCATGGTCTTGCTGGCCTCGTTCCAGGCGCTCCTGCACCGCTACAGCGGGCAACCGCAGATCCGCGTGGGCGTGCCGACGGCCAACCGCAACCGGGTCGAGACCGAAGGGCTGATCGGTTTTTTCGTCAACACCCAGGTACTCAGTGCCGACGTTGATGGGCAACTGCCGTTTGATCAGTTGCTCGCCCAGGTCAAGCAATCGGCGATGGCGGCCCAGGCCCATCAGGACTTGCCATTCGAGCAATTGATCGAGGCCCTGCAACCGGAGCGCAGCCTGAGCCACAGCCCGATTTTCCAGGTCATGTTCAACCACCAGAACGCCGACGCCACTCGAAGCCGGCAGATGCACCTGCCGCAGCTGCGGGTCGAGGATCTGGTATGGGAAGGGCGTACTGCCCAGTTCGACTTGACCCTGGGCACCTATGAAACCGAGCAGGGCATCGCTGCGGAACTGACCTACGCCACCGACCTGTTCGATGCGCAGACCATCGAGCGCCTGGCCGGGCACTGGCAGAACCTGCTGCACGGCATCGTCGATGTGCCACGCCAGCGTATCGGCGAACTGCCGCTGCTCGACCCGGCGCAACAGCAACTCACGCAGCAGCAATGGCTGCGGGTGGCCGACCACACTGACGAAGCCGTTTGCGTGCACCAGCGCATCGCCCAACAGGTGCGCCGCAACCCCGAGGCGCTGGCGCTGACCATCGACGACCAGGCCCTGAGCTACGCACAACTGGACGCGCGCGCCAACCAACTGGCCCATCGCCTGATCGACCTGGGCGTGATGCCCGGCCAGTTGGTGGGCATCGCGGTCGAGCGCAGCGTCGAGATGATTGTCGGCCTGCTGGCGATCCTCAAGGCCGGCGCCGCCTATGTGCCGCTGGATCCGGCGTACCCCGAGGATCGCCTGGCCTACATGATCGAGGACAGCGGCATCGGACTGCTGCTGACCCAGGCCCGTTTGCAGGCGCGCTTGCCGATCCCGCCAAGTCTTCGGACTCTGTTGCTGGACCAGCCGGACGCCGCATTGCAAGCAGCCCCGCAAACCTGCCCGGTGGTGCCGCTGACTGGCGAACACCTGGCCTACGTCATCTACACCTCCGGTTCCACCGGCAAGCCCAAGGGCGTAATGGTGCGCCATGGCGCCCTGAGCAATTTCATCCACAGCATGATCGCCGAGCCGGGCCTCGCGCCCGGCGACCGCATGCTGTCATTGACGACGTTCTCTTTCGATATTTTCGGCCTGGAAATCTACGGACCTCTGTCAGCCGGGGCCAGCGTGGTGCTGACCGGCCAGAACGTGCACCAGGACCCGCAAGCGGTGCTGGCGCTGATCGAACAACACGCTGTCAGCGTGCTGCAAGCCACACCGTCGAGCTGGCGCATGTTGCTCGATCATGAGCAGGCTTCGCTGCTGGCCGGGCGGACCTTCCTCTGCGGCGGCGAAGCGTTGCCGCTGGAACTGGCGCAGCGCTTGCTGGCGCTCTCGCCGAACGTCTGGAACCTCTACGGCCCGACCGAAACCACCATCTGGTCGGCGCTGCATCCGTTGAGCCTGGAGCGCGACCGTCCGTTCCTCGGTAAACCGCTGGACAACACCGCGCTGTACATCGTTGGCGGCGACCTGACCCTCAACCCGCCCGGTGCGCCGGGAGAGCTGCTGATCGGGGGCGCCGGCCTGGCCCGTGGTTATTTCCAGCGCCCGGCGCTGACCGCCGAACGCTTCGTGCCGGACCCGTTTTCCGCCACGGGCGAGCGCCTGTACCGCACCGGCGACCTGTGCCGTTATCGCGCCGAAGGCGTGGTCGAGTACCTCGGCCGGATCGACCATCAGGTGAAGATCCGCGGCCTGCGTATCGAGCTGGGGGAAATCGAAGCCGCGCTGCTGGCCCAGGACCGCGTGCGCGAAACCGTGGTGGTGGCCCACCAAGGCCCGACCGGCGCGCAATTGGTTGCCTACGTGGTGCCCGCCAGCGGCGCAGTGCCGGAGCCGGACGCGCCGTTGCGCACCGCACTCAAGGCGGCCCTCAAGGCGCAGTTGCCGGAATACATGGTGCCGGCGCACCTGTTGTTCCTGGCGCAACTGCCGCTGACGCCCAACGGCAAGATCGATCGCAAGGCCTTGCCGGCGCCCGAGGCCAGCGATTTGCAGCAGGCCTACGTGGCGCCGCGCAGCGAGGTCGAGCAACAGGTCGCGGCAATCTGGCAGGACGTGCTCAAGCTTGAACGCGTGGGGCTGGAAGACAATTTCTTCGAACTGGGCGGGCATTCGCTGCTGGTGACCCAGGTGGTCTCGCGGGTCCGTCGGGTGCTTGGCATCGAAGTGCCGCTGCGCAGCCTGTTTGAACACAGCACGTTGCAGGCGTTCGTCGCCGCCTTCGATACCACGACAGGCGAACAGGCCCCGGCCATGACGCCGGTGCCTCGCGACGCGCCGCTGCCGTTGTCCTTTGCCCAGGAGCGCCAGTGGTTCCTCTGGAAAATGGACCCCGACGGCGCCGCCTACAACATACCGACCGCGTTGCGGATGCGCGGCGCATTGGACAAGGACGCGCTGCGCAAGAGCTTTGCCGCACTGGTCCAGCGCCACGAAAGCTTGCGCACCGCATTCGTGGAAGAGGATGGACGCACTGGCCAGGTGATTTGTGAGCAGGGCGAAGTCGACTATATCGAGGAGCGTCTGGAAGGGCGTGATATCCAGGCCTTCCTTGAACAGCAGACGCAACGCCCGTTCGATCTGCTGAATGACGCGCTGCTGCGCGTGGCGCTGTTGGAAGTGGCCGAGGAGGATCATCTGCTGGTGCTGACGCTGCATCACATCGTCTCCGACGGCTGGTCGTTACAGGTGATGGTCGATGACCTGATGAGCCTGTACTCGGCTTTCATCCAGGGTCAACCGGCACAACTGCCGCCATTGGCGGTGCAATACGCCGACTACGCGGTCTGGCAGCGGCAATGGATGGCGGCCGGCGAGCGCGACCGCCAACTCGCCTACTGGTCGGCGCAACTGGGCGGCGAACAGCCGCTGCTGGAACTGCCCACCGACCACCCGCGCCCAGCGCAACAAAGCCTGCGCGGGGCACGCCTGCCGATCGTGCTGGATCGCGCCTTGAGCGATGACCTCAAGGCCCTGGCCCGGCAAGAAAACGTCACGCTGTTCGTGCTGTTGCTCGGCTCGTTCCAGGCATTGCTGCATCGCTACAGCGGCCAGGCCGACATCCGCGTCGGCGTGCCGATCGCCAACCGCCAGCGGCTGGAAACCGAGCGCTTGATCGGGTTCTTCGTCAATACCCAGGTCCTGCGCAGCGAGTTCTCCGGCGACCTGACCGGCGCCGCGTTGCTGCAACAGCTCAAGCAGACGGCCATGGCCGCGCAGATGCACCAGGACCTGCCCTTCGAGCAACTGGTAGATGCCCTGCAGCCGCAGCGCAACCTGAGCCACAGCCCGCTGTTCCAGGCGATGTTCAACCACCGCAACGAAACCGCCTCGGTGTTTGCCAAGGCCTTGCCGGGGCTCGACGTCGAACCCGTAGGCTGGACGCAGCGCACCGCGCAATTCGACCTGAGCCTGGACACCGTCGAAAGTCCCCAGGGCCTGTACGCTGCCCTGACCTACGCCACCGACCTGTTCGAGCCGGCGACCATCGAACGCATGGCCGGGCATTGGCTCAACCTGTTGCGCAGCCTGGTGCAGGACCTGCACCGCCCGGTGGCGCAATGGTCGCTGCTGGACGAGGACGAGCGTCGACACATGCTCATCGACTGGAACGCGACGGCCCGGCAATACCCGCTCGACCGCAGCGTCCAGGCGCTGATCGAGGAACAGGTGCGCCGGACCCCGGATGCGCCTGCATTGGTCTTTGGCGGGCAGCGCCTGAGCTACCGCGAACTCAACGCCCGGGCCAACCGCCTGGCCCATCGCTTGATCGACCTGGGCGTCGGTCCCGATGTGCTGGTGGGCATCGCCGTCGAACGTTCGGTGGAGATGGTGCTCGGGCTGTTGGCGATCCTCAAGGCCGGCGGTGCCTACGTGCCGTTGGACCCTGAGTACCCGCAGGATCGCCTGGCCTATATGTTCGAAGACAGCGGCATCGGTTTGCTGCTGACCCAGCAACACCTGCTTGATGCTTTGCCGATTCCGCAAGGGCTGCGCAGTCTGGTACTGGACCTGCCCGCTGAGGGGTCGCATGCCAGTCGTGAGGAGAATCCCGACGTCAAGGTGCACGGCGAAAACCTGGCCTATGTCATTTATACCTCCGGTTCCACCGGCAAGCCCAAGGGTGCGGGCAATCGCCATTGCGCCCTGGTCAACCGGCTGTGCTGGATGCAGCAGGCCTATGGCCTCGATGCGACTGACAGTGTGTTGCAGAAAACGCCGTTCAGTTTCGACGTGTCGGTGTGGGAATTTTTCTGGCCGCTGCTGACCGGCTCGACGCTGGTGGTGGCCGCGCCGGGGGCCCATCGCGACCCGGCGCAACTGATCGAGCTGATCACCGCGCAGCGCATCACCACGCTGCACTTCGTACCGTCGATGCTCCAGGCGTTCGTGCAGGACCCGCGCGTGGCCGAATGTACCAGCCTCAAGCGGATCGTCTGCAGCGGTGAAGCGCTGCCGGTGGATGCCCAGCAGCAGGTGTTCGCCAAACTGCCGGATGCCAGCCTGTACAACCTCTACGGCCCGACCGAGGCGGCCATCGACGTGACCCACTGGACCTGCGTCGAGGAGGGCCGCGACAGCGTGCCGATCGGACAGCCGATCGCCAACCTCGGCACCTACATTCTCGACGATGAGCTGTCGCCGGTGCCGGTCGGGGTGATCGGCGAGCTGTACCTGGCGGGCGAAGGGCTGGCGCGCGGTTACCATCGGCGCGCGGCGTTGACCGCCGAACGGTTCGTCACCGCGCCGTTCGGCGCTGGCCAGCGCTTGTATCGCACCGGCGACCTGGCGCGTTATCGGGCTGATGGCGTGATCGAATACGCCGGCCGAATGGACCATCAAGTGAAAATCCGTGGCTTGCGCATCGAGTTGGGCGAAATCGAAGCGCGTCTGGCCGAACACGAGGCGGTACGCGAAACCGTGGTCCTGGCCCAGGACGGCACGTTGCTGGTGGCCTACGTGGTGCCGGCGCGCGCCGAGCTGATGGTCGCCGATGACGCCGTCCGCCAGGCGCTGCAAGTGCGCCTCAGGGAACATCTGAGCCAATCCCTGCCCGACTACATGGTGCCGCAACACTGGGTGTGGCTGGAGAAAATGCCGGTCAGCCCCAACGGCAAGCTTGAGCGCAAGGCTCTGCCGAAGGCCGATCCGAGCGCCAGCCACAAGGGCTACAGTGCCCCGGTCACCGCCGTGGAAAACACTTTGGCCGCGATCTGGCAAAGCGTGCTCGGGCGCGAACGCGTAGGGCGGACCGACAATTTCTTCGAGCTGGGTGGCGATTCGATCATTTCCATCCAGGTGGTGAGTCGCGCCCGTCAGGCCGGGATTCATTTCAGTCCCAAGGACCTGTTCCTGCACCAGACCATCCAGGGCCTCGCCGGGGTGGCAACGACCGGAGACAACGGGCCGGTCATCGATCAGGGCCCGGTGGTCGGGCAGACGGTATTGCTGCCGTTCCAGCAGTTGTTCTTCGAACAGGCCATGGCCGAGCCTCATCATTGGAACCAGTCGGTGTTGCTCAAGAGCTTGCGCGCCGTGGATGCCGCGCATCTGGAGCAGGCGTTGCAGGCTCTGGTCGAGCATCACGATGCGTTGCGCCTGGCCTTCGTCTGCGAGGCAGGCACCTGGACCGCTCGCCACAATACCTTGGCCGAACAGCGCACGCTCTGGCAGCGCTCGCCGCTGTTGTGGACCGCCGAGGTGGCCGATGCGCCGGCCCTTGAACGCCTGGCCGAACAAGCCCAACGCAGCCTCGACCTGCAAGATGGCGCGCTGCTGCGCGGAGTGCTGGCGAGCCTGGCCGACGGCAGCCAGCGGCTGTTGCTGGTGATCCATCACCTGGTGGTGGACGGCGTGTCCTGGCGTGTACTGCTGGAGGACCTGCAACAGGCGTACGAGCAGTTGCAGGCCGGCCAGACGCCAGCGTTGCCGGCCAAGACCACGGCTGCGCAGACCTGGGCGCAACGGTTGCAGGCGCATGCCGGCAGCGCGACGTTGCAGTCCCAGCTGAAGTATTGGCAAGAGCAACTGCAAGGCGCCGGTCATGACTTGCCTTGCGACCGCCCAGGGGGCGATTTGCGCAGGTGCTACGCGACCCAGGTTCAGACGCGGCTGGACAAGGACCAGACGCGACGCCTGCTGCAGCAAGCGCCGGCGGCTTATCGCACCCAGGTCAACGACCTGCTGCTGACCGCGCTGGCCCGGGTGATCGGCCGCTGGACTTCCCAGGCCTCGACCTTGATTCAGCTGGAGGGCCATGGCCGCGAGGCGCTGTTCGATGACCACATTGACCTGAGCCGCAGCGTCGGTTGGTTCACCAGCCTGTTCCCGGTGCGCTTGAGCCCGACGGCCACCACCGAAGGCTCGATCAAGGTCATCAAGGAGCAACTGCGGGCGATCCCAGACAAAGGGCTCGGCTTCGGCGTGTTGCGTTACCTGGGCGATGAACCGACGCGGCGCACCCTCGCGGCGCTGCCGGTGCCGCGCATCACATTCAACTACCTGGGCCAGTTCGACAGCGGCTTTGCCGACGACGCCGACGGCCTGTTTGTCCCGGCCAGCGAATCGGCGGGCGCGGCGCAGAGTCCGTTGGCGCCGCTGGACAACTGGCTGACGCTCAACGGCAGCGTCTATGCCGGCGAGTTGAGCATCGACTGGACGTTCAGCTCGCAAATGTTCGATGAAGCGACGATCCAGGCGCTGGCCGAGGATTACGCTGGGGAATTGCAGGCATTGATCGACCACTGTTGCGAGCCGCGGCACCACGGGTTCACGCCGTCGGACTTCCCCCTGGCCGAATTGCAACAGCAACAGTTGGACGCCTTGCCGCTGGTGGCGCGCGACGTGGAAGACATCTATCCGCTGTCGCCGATGCAGCAGGGCATGCTGTTCCACACGCTGTACGAGCAGCAGGCCGGCCACTACATCAACCAGATGCGCGTGGATGTCGAAGGGCTGGACGTCGAGCGCTTCCGCCAGGCCTGGCAAGCGGCGACCGACGCCCACGACGTGCTGCGCAGCGGTTTTGTCTGGGAGGGTGATTTCAAGCGTGCATTGCAGGTGGTGCACAAGCGCGTAGCGGTCGCGTTACAGCTGCATGACGCACGTACGCAGGCTGACCTGCCTGAGCACCTGAACACCCTCGCAACGGCCCAGCGCGAGCAAGGTTTTGCCCTCGATGCGGCGCCGTTGTTGCGGTTGGTGGTGGTGCGCGTGGCGCAGGAGCGTTATCACTTGATCTATACCAGCCATCACATCCTGATGGACGGCTGGAGCAATTCGCAGTTGCTCGGCGAAGTGCTGCAACGCTACAGCGGTCAACCCGTTGCCGTGTCCGGCAGCCGCTACCGCGACTACATCGCCTGGCTGCAACGCCAGGACGCGGCGGCCAGCGAAGCGTTCTGGAAACCGGCGCTGCAACAGCTGGAGGCGCCGACACGATTGGCCGATGCGGTGGCCAAACCGGCCGACATGGGCAGTGGTTACGGCGATCATATCCACGTGCTGGACGAAGCGTCGACCCGTCGCCTGGAAGCTTTCGCCCGCGCCTCGAAAGTCACCGTCAACACACTGGTGCAAGCCGCGTGGCTGCTGCTGTTGCAGCGCTACACCGGCAAAACCACCGTGGCTTTCGGCGCAACCGTGGCCGGGCGTCCGGCGGACTTGCCCGGCATCGAGCAGCAGATCGGTCTGTTCATCAACACCTTGCCAGTGATCGCCAGTCCTCGGGCCGAGCAGACGTTGGACAGCTGGCTGCAAGCGGTGCAGGCGCAGAACCTGGCCTTGCGCGAGTTCGAGCACACCGCGTTGCTCGACATCCAGCGCTGGGCCGGGCAGGGCGGCGACGCGCTGTTCGACAACCTGCTGGTGTTCGAGAACTACCCAATTGCCCAGGCGCTGGAGCAGGGCGCGCCGGACGGTTTGCGTTTTGGTTCGCCAGTGACTCAGGAGCAGACCAACTATCCGTTGACGCTGCTGGTGGGGTTGGAGCGGCAGTTGTCGGTGCACATGAGTTATCAACGGGCGAGCTTTGCGCCGGATACGGTTGAACGGCTGGCGGCGCATCTGGCGCAGTTGCTCGGGCAGATGAGCGCCAATGGCGAGCGCTGCCTCGGTGAACTGTCGATGCTGGAATTCGATGAGCATCAACGTTTGACCCATGACTGGAACCCGGTCGATGCGCCGTTCGAACAGGACCTGCGCATCCACCAACTGATCGCCCGCCAAGCGCAATCCACTCCTGACGCATTGGCGGTCACCTTCGCCAACACGCGCCTGAGCTACAGCGAACTCGACGGCCGCGCCAATCGCCTGGCCCACAAGCTCATCGAACTGGGCGTCGGCCCGGAAGTGCGGGTGGGCGTGGCGATGCCGCGCTCCGAGCAGTTGCTGATCGCCTTGCTGGCGGTGCTCAAGGCCGGTGGCGCGTACGTGCCGCTGGACCCGGATTACCCGGCCGAGCGCGTGGCCTACATGATTGAGGACAGCCGTGCGCGGGTGTTGTTGACCGAGCAGGCGGTGGCGCAGACGCTGACGGTTCCGGCTGGCACCGAAGTGCTGATGCTGGACCGGATTGAGTTGAGCTCATATCCCTTCAACGCACCGGGCACAACGGTCACCCCAGACAACCTCGCCTACGTCATCTACACCTCCGGTTCCACCGGCAAACCCAAGGGCGTGGCCATCGCCCACCGCAACGTCTTGGCGCTGATCGACTGGTCCAGAACCGTCTACAGCCGCGACGACATCCAGGGCGTGCTTGCTTCCACCTCGGTGTGCTTCGACCTGTCGGTGTGGGAGCTGTTTGTCACCCTCGCCAACGGCGGCTCGCTGATCATCGCCCGCAACGCCCTGGAACTGCCGCACCTGCCGGCCCGCGATCAGGTGCGCCTGATCAACAGCGTGCCTTCGGCGATCGCCGCGTTGCAGCGCAGCGGCGAGATCCCGGACAGCGTGCGCATCATTAATCTGGCCGGTGAGCCGCTGAAGCAGAGTCTGGTGGATGCCCTCTACCCGACACCCCAAACCTGTGGGAGCGAGCTTGCTCGCGATAGCGGTGGGTCAGTCGATGAGGGGCTAACTGCCAGGACGCCATCGCGAGCAAGCTCGCTCCCACAGGTGGTGGGTGAACAGGTCGGTGGGGTTGAGCATGTTTATGATCTGTATGGCCCCTCGGAAGACACCACCTATTCCACCTGGACCCGCCGCACCGCCGGCGGCACGGCGAACATTGGTCGCCCGCTCAAGCACACCGCCAGTTACCTGCTCGACGCCAACCTGCAACCGGTGCCGCAAGGCGTCTCGGCGGAGCTGTACCTGAGCGGCGCGGGCATCACCCGGGGTTATCTCGGGCGCGCGGCGATGACCGCCGAAAAGTACGTGCCGAACCCGTTCTCGACCACCGGCGAACGCCTGTATCGCACCGGTGACCTGTGCCGCTATCGCGCCGATGGCGTGCTCGAATACCAGGGCCGACTCGACCATCAGGTGAAGATCCGCGGCTTCCGCATCGAGCTGGGGGAAATCGAGGCGCGGCTGTTGCAGCAAGCCGAGGTAAGCGACGTCGCCGTGCTGGCCCAGGAAGGGCCGGGCGGGCAGCAGTTGGTGGCTTACGTGGTTGCTTCGACCGACGCGAATACTCTGCGCGATCAACTCAAGGCCAATCTCAAGGCACACCTGCCCGACCACATGATCCCGGCCCACTGGCTGTTCCTCGATCACCTGCCACTGACCCCCAACGGCAAGCTCGACCGCAAGGCCTTGCCGAGCATCGAAACCGGGTCTTCGCAGGGCGGTTACGAGGCGCCGGCCAGCGAGCTGGAGCACCGGATCGCCGGTATCTGGCAAGAAGTGCTGGAAGTGCAACAGGTCGGGCGCAACGACCATTTCTTCGAGCGCGGCGGTCACTCCTTGCTGGCGACGCAGGCCATCTCCCGGTTGCGCAAGCTCACGCGTCATCCGCTGAGCCTGCGCGACTTGTTCGACCATCCGCAACTCAAGGCACTGGCGGCGCTGATGAGCGAGACCGGCGACGGCGCGGCGCGGGCCGGCGATTCCAGCCAGGTCCGACTCAAGGCCCATGGGCCACGGCAATCGGCACCGCTGTCGCTGGTGCAGCGACGGTTGTGGATCGCCGAGCAGCTGGCCGGCGGCACCTCCGCCTATGGCATGCCCATGGCGCTGCGGTTGTGCGGCGAGTTGTCCGTCGAGCGGCTGATGAGCAGCTTTGCCGAAGTGACACGCCGTCACGCCGTGCTGCGCACCGCGTATGTCCAGGATGACGAAGGCGATCCGCTGGCGCTGATCGCCGATGAGGTCCGGCTGGATTTCCCGCTGGTCGATCTGTCCGACCTGTCCCCCGGCACCCGGCAAGAGCAAGTGGCCCAGGCGATCCTGGACAATGCCAGTACCCCGATTGACCTGGAACAGGCGCCATTGCTGCGCGGGCGGATCCTGCGCCTGGGGCCGACCGAGCACGTGTTGTTGTACGCCATGCACCACATCATTTCCGATGGCTGGTCGATGGGGCTGTTGATCAATGAACTGGTGCAGATCTACGAAGCGTCCCTGCGCGGCGAGCCCATGCCGCTGGCGCCGCTGGAGGTCCAGTACCACGACTTCGCCTTGTGGCAGCAGGCGCTGGAAGACCAAGGCGTGCTGGCGCGCCAGGGCGATTATTGGAAGCAGCGGCTCGACGGTTACCACGGGCGTCTTGATTTGCCTTTGGACAATCCACGCGGCCAGACGGCCTCTTATGAGGGCGATGCGCTGCAGTTCGAGCTGCCTGCCGGGCTGAGCGCGGCGTTGCGCCGGGTGTCGAGCGCGGCCGGCGTCACGCTGTACAGCACGTTGCTGGCGTCGTTCCAGGTGTTGTTGCATCGCCTCTGCGACGCCCAGGATCTTGTCGTCGGCGCTGACGTGGCCGGGCGCGAACAACCCGAGCTGGAGCGCTTGATCGGCTTCTTCGTCAACGTCCTGCCGTTGCGTTCGCACTTTGCCGCCGATGTCGGCTTCAACCGGTTCCTGGCGCAGACCCAGGACCATCTGCTCGGCGCGCTGGAACATCAGGACCTGCCGTTCGACCAGATCGTCGAGGCCGCGGGCGTGCCGCGGCACAAGGGCATGAACCCATTGCTGCAGGTGTTGTTCGTGATGAACAACGTGCCGGTGCGCACGCGTTCCATGGCCGGCTTGAGCGTGGAGTTCCTGCCGGCGCTGCAGAACCATTCTAAATTCGACATGGCATTGTTCGTTGACGAAGAAGAAGGGCAATTGCGCGGTAATTGGCAATTCGCCACAAGCTTGTTCGGACAAGAGCGCATCCAGTACCTGATCCGGGCCTGGACGGCCCTGTTGGAACAGATCGTCGCTGATCAGGACATTCAATTGGGAGCTATCAGCATGCCAGTCGACAACGTGGCGACAGCCGCCACGCCTGCCAACGTCCCGGGGCCCAAGGCCGACAAACTGGGCAAGTTTCTCAAGCGTTCGGCGACCCCGGCCGCGCGGCCTCGTCCGGCGTTGGTGCGCGAATCGCTGGTGGCGACGCCCCAGCGTTTCCCGCTGATGCTGGAGCCCGGCGAGCCGCACCTGGACGTCATCGAGTGGATCCGCCAGAACCGGCCATTGATCGAGCAGAAGCTGGCCGAACACGCCGGCATCCTCTTCCGTGGCTTCGAACTGGACGGTATCCAGGGCTTCGAAGCGTTCGCCGAAGCGATCCAGCCGGGGCTGTACGGCCAGTACGGCGACCTGCCGAAGAAGGAAGGCGGCAAGAACACCTACCGGTCCACGCCGTACCCGGAACGCAAGATGATCCTGTTTCACAACGAGAGCTCCCACCAGGACCGCTGGCCGCGCAAGCAGATGTTCTATTGCGAGCAGGCCGCACCCGTGGGCGGCGCGACCCCGGTGGTGGATTGCCGCCTGATGTACGAAAAGCTGCCGACGGACCTTCGCGAGAAGTTCGAAGACAAGGGTTTGCTGTACGTGCGCACCTTCACCGACAAACTCGACGTGTCGTGGCAGCACTTCTTCAAGACCGAGGATCGCCTTGAAGTGGAGGCCCGCTGCCGGGCTGGCGGCATCCAGTGGCGCTGGCTCGATAACGATGAACTGCAGACCCGCACGCCGGGGCCGGCGATCATCACGCACCCGATCACCGGGGAAAAATCCTTCTTCAACCAGGTGCAGCTGCATCACATCCATTGGCTGGAGCCGGACGTGCGCCAGGACCTGTTGTCGATGTACGGCCTGGAGCGCATGCCCCGGCATGTGTACTACGGCGACGGCACGCCGATCGAAGACGAGGTGATGGCGCGTATCGGTGAGTTGTACGAAGCCTGCGCGGTGCGTTTCGACTGGCAGAAAGGTGACGTGATCCTGTTGGACAACATGCTCGTGGCCCACGCCCGCGACCCGTACGAGGGACCGCGCAAGATCGTCGTCGCCATGGGCGATATGTACGACCACGCCAGCCTGGAGCGTCCATCGGGCGCCGGGCGATCGGTCCGTGGCGCATTCAATACCGAGGAAAGCGGAGCATGA	MDKSVALRVAKRFITLPLDKRRLYLEKMLEEGVSPANLPIPKVRSGFEQVPLSYAQERQWFLWQMDRHSSAYHIPSALRLKGQLDVPALERSFNAVVERHESLRTTFAEHGEQTEQIIHQHMPLSIAVEALPAGSTVSQDERIKAFVEGETARPFDLRQGPLLRVSLLKIAEDDHVLVLIQHHIIADGWSMQVLVDELVRHYAADIGGQPLALPDLPVQYADYAIWQRHWLEAGERERQLAYWVQTLGDEQPVLELPFDHPRPPVQSFRGARLDLTLSAELATALKQLAQREGASLFMVLLASFQALLHRYSGQPQIRVGVPTANRNRVETEGLIGFFVNTQVLSADVDGQLPFDQLLAQVKQSAMAAQAHQDLPFEQLIEALQPERSLSHSPIFQVMFNHQNADATRSRQMHLPQLRVEDLVWEGRTAQFDLTLGTYETEQGIAAELTYATDLFDAQTIERLAGHWQNLLHGIVDVPRQRIGELPLLDPAQQQLTQQQWLRVADHTDEAVCVHQRIAQQVRRNPEALALTIDDQALSYAQLDARANQLAHRLIDLGVMPGQLVGIAVERSVEMIVGLLAILKAGAAYVPLDPAYPEDRLAYMIEDSGIGLLLTQARLQARLPIPPSLRTLLLDQPDAALQAAPQTCPVVPLTGEHLAYVIYTSGSTGKPKGVMVRHGALSNFIHSMIAEPGLAPGDRMLSLTTFSFDIFGLEIYGPLSAGASVVLTGQNVHQDPQAVLALIEQHAVSVLQATPSSWRMLLDHEQASLLAGRTFLCGGEALPLELAQRLLALSPNVWNLYGPTETTIWSALHPLSLERDRPFLGKPLDNTALYIVGGDLTLNPPGAPGELLIGGAGLARGYFQRPALTAERFVPDPFSATGERLYRTGDLCRYRAEGVVEYLGRIDHQVKIRGLRIELGEIEAALLAQDRVRETVVVAHQGPTGAQLVAYVVPASGAVPEPDAPLRTALKAALKAQLPEYMVPAHLLFLAQLPLTPNGKIDRKALPAPEASDLQQAYVAPRSEVEQQVAAIWQDVLKLERVGLEDNFFELGGHSLLVTQVVSRVRRVLGIEVPLRSLFEHSTLQAFVAAFDTTTGEQAPAMTPVPRDAPLPLSFAQERQWFLWKMDPDGAAYNIPTALRMRGALDKDALRKSFAALVQRHESLRTAFVEEDGRTGQVICEQGEVDYIEERLEGRDIQAFLEQQTQRPFDLLNDALLRVALLEVAEEDHLLVLTLHHIVSDGWSLQVMVDDLMSLYSAFIQGQPAQLPPLAVQYADYAVWQRQWMAAGERDRQLAYWSAQLGGEQPLLELPTDHPRPAQQSLRGARLPIVLDRALSDDLKALARQENVTLFVLLLGSFQALLHRYSGQADIRVGVPIANRQRLETERLIGFFVNTQVLRSEFSGDLTGAALLQQLKQTAMAAQMHQDLPFEQLVDALQPQRNLSHSPLFQAMFNHRNETASVFAKALPGLDVEPVGWTQRTAQFDLSLDTVESPQGLYAALTYATDLFEPATIERMAGHWLNLLRSLVQDLHRPVAQWSLLDEDERRHMLIDWNATARQYPLDRSVQALIEEQVRRTPDAPALVFGGQRLSYRELNARANRLAHRLIDLGVGPDVLVGIAVERSVEMVLGLLAILKAGGAYVPLDPEYPQDRLAYMFEDSGIGLLLTQQHLLDALPIPQGLRSLVLDLPAEGSHASREENPDVKVHGENLAYVIYTSGSTGKPKGAGNRHCALVNRLCWMQQAYGLDATDSVLQKTPFSFDVSVWEFFWPLLTGSTLVVAAPGAHRDPAQLIELITAQRITTLHFVPSMLQAFVQDPRVAECTSLKRIVCSGEALPVDAQQQVFAKLPDASLYNLYGPTEAAIDVTHWTCVEEGRDSVPIGQPIANLGTYILDDELSPVPVGVIGELYLAGEGLARGYHRRAALTAERFVTAPFGAGQRLYRTGDLARYRADGVIEYAGRMDHQVKIRGLRIELGEIEARLAEHEAVRETVVLAQDGTLLVAYVVPARAELMVADDAVRQALQVRLREHLSQSLPDYMVPQHWVWLEKMPVSPNGKLERKALPKADPSASHKGYSAPVTAVENTLAAIWQSVLGRERVGRTDNFFELGGDSIISIQVVSRARQAGIHFSPKDLFLHQTIQGLAGVATTGDNGPVIDQGPVVGQTVLLPFQQLFFEQAMAEPHHWNQSVLLKSLRAVDAAHLEQALQALVEHHDALRLAFVCEAGTWTARHNTLAEQRTLWQRSPLLWTAEVADAPALERLAEQAQRSLDLQDGALLRGVLASLADGSQRLLLVIHHLVVDGVSWRVLLEDLQQAYEQLQAGQTPALPAKTTAAQTWAQRLQAHAGSATLQSQLKYWQEQLQGAGHDLPCDRPGGDLRRCYATQVQTRLDKDQTRRLLQQAPAAYRTQVNDLLLTALARVIGRWTSQASTLIQLEGHGREALFDDHIDLSRSVGWFTSLFPVRLSPTATTEGSIKVIKEQLRAIPDKGLGFGVLRYLGDEPTRRTLAALPVPRITFNYLGQFDSGFADDADGLFVPASESAGAAQSPLAPLDNWLTLNGSVYAGELSIDWTFSSQMFDEATIQALAEDYAGELQALIDHCCEPRHHGFTPSDFPLAELQQQQLDALPLVARDVEDIYPLSPMQQGMLFHTLYEQQAGHYINQMRVDVEGLDVERFRQAWQAATDAHDVLRSGFVWEGDFKRALQVVHKRVAVALQLHDARTQADLPEHLNTLATAQREQGFALDAAPLLRLVVVRVAQERYHLIYTSHHILMDGWSNSQLLGEVLQRYSGQPVAVSGSRYRDYIAWLQRQDAAASEAFWKPALQQLEAPTRLADAVAKPADMGSGYGDHIHVLDEASTRRLEAFARASKVTVNTLVQAAWLLLLQRYTGKTTVAFGATVAGRPADLPGIEQQIGLFINTLPVIASPRAEQTLDSWLQAVQAQNLALREFEHTALLDIQRWAGQGGDALFDNLLVFENYPIAQALEQGAPDGLRFGSPVTQEQTNYPLTLLVGLERQLSVHMSYQRASFAPDTVERLAAHLAQLLGQMSANGERCLGELSMLEFDEHQRLTHDWNPVDAPFEQDLRIHQLIARQAQSTPDALAVTFANTRLSYSELDGRANRLAHKLIELGVGPEVRVGVAMPRSEQLLIALLAVLKAGGAYVPLDPDYPAERVAYMIEDSRARVLLTEQAVAQTLTVPAGTEVLMLDRIELSSYPFNAPGTTVTPDNLAYVIYTSGSTGKPKGVAIAHRNVLALIDWSRTVYSRDDIQGVLASTSVCFDLSVWELFVTLANGGSLIIARNALELPHLPARDQVRLINSVPSAIAALQRSGEIPDSVRIINLAGEPLKQSLVDALYPTPQTCGSELARDSGGSVDEGLTARTPSRASSLPQVVGEQVGGVEHVYDLYGPSEDTTYSTWTRRTAGGTANIGRPLKHTASYLLDANLQPVPQGVSAELYLSGAGITRGYLGRAAMTAEKYVPNPFSTTGERLYRTGDLCRYRADGVLEYQGRLDHQVKIRGFRIELGEIEARLLQQAEVSDVAVLAQEGPGGQQLVAYVVASTDANTLRDQLKANLKAHLPDHMIPAHWLFLDHLPLTPNGKLDRKALPSIETGSSQGGYEAPASELEHRIAGIWQEVLEVQQVGRNDHFFERGGHSLLATQAISRLRKLTRHPLSLRDLFDHPQLKALAALMSETGDGAARAGDSSQVRLKAHGPRQSAPLSLVQRRLWIAEQLAGGTSAYGMPMALRLCGELSVERLMSSFAEVTRRHAVLRTAYVQDDEGDPLALIADEVRLDFPLVDLSDLSPGTRQEQVAQAILDNASTPIDLEQAPLLRGRILRLGPTEHVLLYAMHHIISDGWSMGLLINELVQIYEASLRGEPMPLAPLEVQYHDFALWQQALEDQGVLARQGDYWKQRLDGYHGRLDLPLDNPRGQTASYEGDALQFELPAGLSAALRRVSSAAGVTLYSTLLASFQVLLHRLCDAQDLVVGADVAGREQPELERLIGFFVNVLPLRSHFAADVGFNRFLAQTQDHLLGALEHQDLPFDQIVEAAGVPRHKGMNPLLQVLFVMNNVPVRTRSMAGLSVEFLPALQNHSKFDMALFVDEEEGQLRGNWQFATSLFGQERIQYLIRAWTALLEQIVADQDIQLGAISMPVDNVATAATPANVPGPKADKLGKFLKRSATPAARPRPALVRESLVATPQRFPLMLEPGEPHLDVIEWIRQNRPLIEQKLAEHAGILFRGFELDGIQGFEAFAEAIQPGLYGQYGDLPKKEGGKNTYRSTPYPERKMILFHNESSHQDRWPRKQMFYCEQAAPVGGATPVVDCRLMYEKLPTDLREKFEDKGLLYVRTFTDKLDVSWQHFFKTEDRLEVEARCRAGGIQWRWLDNDELQTRTPGPAIITHPITGEKSFFNQVQLHHIHWLEPDVRQDLLSMYGLERMPRHVYYGDGTPIEDEVMARIGELYEACAVRFDWQKGDVILLDNMLVAHARDPYEGPRKIVVAMGDMYDHASLERPSGAGRSVRGAFNTEESGA				NA	NA	NA	NA	NA
D1-35_02191	3192	lgrD_1		Linear gramicidin synthase subunit D	ATGAACGAGGTGACGATGGACACGCAGGAAGCGGGTTTCGCCCTGACGCCCGAACAGCAACGGGCACTTGAGCAACTGTCGGGCACGGTGACCTGTGGCGAGGCCTTGCGTTGGCTGAACGTGGTCATCGACGGTGATCTCGACCCGCAGCGATTGCAGGTCGCCTTCGACACGCTGGTGGCGCAGCAGCCGATGTTGCTGGCGCGACTGACCAAGGTCGGCGGTTTCCACGGTTTGCGTCAGGTGGCCCATGCGGGACGCTTCCCACTGACGATACAAGCCAGCGAACAACCGGCCGAGGAAGTCCGGGCGCAGATCAGCGAGACGCTCGGCCGGGCTTTTGTGCTCGGCGAATCGGCCAGTGTCCAGGCGGTGCTTTATCGTCTGGCGTCTCGGCAATGGCAACTGCTGCTGGGCGTCGCCCGCCACAGCGCGGATGCGCCGTCGATGAACCTGCTGCTTGAACAGCTACGGCAGGCTTACGCCGGCGATGTGGCGGAGGAAGAGGCGCCCGGCGAGTTTGCCCAGTACCTGGAGTGGCGCAGCGAAGTGGTGCTGGATGAAGATGCCGGCACTGCAAGAAATTACTGGCAGCAGCATTTGCACGGCCTGCAGACGGCGATCGACACGCCGTGGCTGGCTGCGCGTCGCACTGGTGGTGGAACAGCCGATGCGCAGATTTCGCTGATCTTCGAGCCGGCCCGACGCGACGCCTTGCAACGGTTGGCCGAGCAGCTCGGCCAACCGCTGGCGACGTTGCTGCAAGGCGCATGGTGGGTGCTGCTGGGACGCCTGGGTGGCCTTGAGCAAGCGCTGGTCGGCGTGCGCCACGACAGCCGTGGCGACTATGACTACTTCGCCAATGCCTTCGGCGTGTTCGAAAAGAACCTGCCGCTTTGTGTTCCATTGCCCGCCGACGCGCCGTTCGGCGAGTGGCTGGCGGAGCTGGCGACGCGGCTCGAAACTCATCGCACCTGGCAGGAATACTGGACGCCGGAACTGGCGTCGGAGGCGGCGTATCCGGCCTATGGCTTCGCGATTGCCCCGGCGAATTCTGTTCGCAGCAGCGCTGGCCTGACGTGGGCGACTGAGCCCTTGCCTGGACGGGATGCGTCCGAACTGTTGCTGCAGATTCAACTGGACGACACCCAACAACTGGTTGCGGTCGACCTCTGCTATGCCCGCTCGGGTTATTCGCAAGCCGCGGTTCGCAGCGTGCTCGAACAATACGAGGTGCTGCTGGCCTCGATCCTCGCGGCTGCGCACACGCCACTGGCGCAGCTCAACTTGCTCGGCGACACCGAGGAGCAGCGTTTGCGGGCGATCAACCCGGCGATGCAGGCATTGGAGGATAACCGCTACCTGCCGCAGCGCATCGCCGAGCTGGCGCTGCAGACGCCGGACGCCATCGCCCTGAGCGAGGCTGGTCAATCGCTGAGCTACGGTCAACTGAAAGATCAGGTCGAGCGCGTCGCCCAGGGCCTCCTGGACCAAGGCCTGGGCGAAGGGTCGATTGTCGCCCTGGCCTTGCCGCGCTCGGCGGAACTGGTGACCGCGATGCTGGCGAGCTGGCGCATCGGCGCGGCTTATCTGCCGCTGGATATCCAGTGGCCCCAGGCCCGTCAGGCGTTGATGCTGGAGCAGGCCGGCGCCGCTGTGTTGCTCACCGATGCAACGCATTTTCCTGCCTGGCAGGCGCAGCCTTTCAAGGCGCTGGCAATCGCCGAGCTTGATCGTCCTTCAAGCACGCCGTTGCCGGCCCTCACGACCAAGGGCAATGACATTGCCTATGTGTTGTTCACCTCAGGCTCCACCGGCGTGCCCAAGGGCGTGGTGATCGAGCATCGGCAATTGCTCAACTACACCGCCCAGGCCAGCCAGGCGTTGGGGCTGAGCCAGTGCAAACACGTCGCTTTGAGCTCTACCGTGGCGGCGGACCTGGGCAATACGGCGCTGTTTGGCGCGTTGTTCAATGGCGCGACCTTGCATGTGGCCAGTGATGAACAGATGCAGGACGGCGCGCTCTTTGCCGGGCTCCTGCGAGAACAACAGATCGACTGCCTGAAAATCGTGCCGTCGCACCTCGCGGCGTTGCTCGACAGTGAGCAGGCGACGCTGCCGCATATCCTGGTACTTGGCGGCGAGCCGATTGCGCCAACGCTGGTCGAGCGTATCGCCCGGTTGCGCAGCGATTGCCGGGTGTTCAACCACTATGGGCCGACCGAAGCCACGGTCGGAGTGATGATCCATCGGTTGGCGCTGGACGGTGCTGCCGATGATTGTTCGGCGCTGACCCAGGTGCTGGGCAATAACCAGGTCTACGTGCTGGACGCTGACAGGCGCCTGGCGCCGGTGGGTGTGCTGGGCGAGGTGTACCTGGGTGGTGCGCAGTTGTGCCGGGGTTACGTGAATGCCAAGGCGGACGAGCAGACGTTCATCCCGAGCCCGTTCGACCCGGCGCAGCGCCTGTACCGCACTGGCGACCTGGCGCGTTATCGCCCGGACGGTGGGATCCAGTTGCACGGTCGCCGCGATCAACAGGTCAAGGTGCGCGGGTTCCGCATCGAACTGGCGGAAATCGAGGCCGAGCTACTACGTGTACCGCAGGTGGCCGAAGCGCTGGTATTGCCCGGCGAGCAGGGCTTGTTGGCATTTGTCGTGCCCCGGCAAGGCCTGTCTTCGGGCGTGCTCGACGCCGTGCGCGCCGAACTGAGCGCGCGCCTGCCCGGCGTGATGGTGCCGCAGCAGCTGCAACTGATCGAACGTTTCCCTCGGCTGGCCAACGGCAAGATCGATCGCAAGGCGCTGCAGCAGTTGGCGGTCGCGATCAGCGATGAGGAGGATGCCGCGCCCCGCGATGCGCTGGAGCAGCTGCTGGCCGCGCGCATGGCTCAATTGCTTGGGCTTGAACGATTGGGCATCGAGCGCGACTTCTTCGCCGCCGGCGGCCATTCGCTGCTGGTGATCAAGCTGGTGGCCGGCATTCGCAAGTTGTTGCAGTGCGACATCCATCCTGGGCTGGTCTTCGATCATCCGACCGTGGCGTCCCTGGCCATGGCCTTGCGAGCGGTGGAGGGCAGTCCGGGGCAACTGGAAAAAATCGCTCAGGTGCGTTTGCGCATGGAAGCGCTGAGTCCCGAGGAAAAGGCCCGGCTGACCGAGCAGGCTCGGCAACTGCAAGCGGCCAAGTGA	MNEVTMDTQEAGFALTPEQQRALEQLSGTVTCGEALRWLNVVIDGDLDPQRLQVAFDTLVAQQPMLLARLTKVGGFHGLRQVAHAGRFPLTIQASEQPAEEVRAQISETLGRAFVLGESASVQAVLYRLASRQWQLLLGVARHSADAPSMNLLLEQLRQAYAGDVAEEEAPGEFAQYLEWRSEVVLDEDAGTARNYWQQHLHGLQTAIDTPWLAARRTGGGTADAQISLIFEPARRDALQRLAEQLGQPLATLLQGAWWVLLGRLGGLEQALVGVRHDSRGDYDYFANAFGVFEKNLPLCVPLPADAPFGEWLAELATRLETHRTWQEYWTPELASEAAYPAYGFAIAPANSVRSSAGLTWATEPLPGRDASELLLQIQLDDTQQLVAVDLCYARSGYSQAAVRSVLEQYEVLLASILAAAHTPLAQLNLLGDTEEQRLRAINPAMQALEDNRYLPQRIAELALQTPDAIALSEAGQSLSYGQLKDQVERVAQGLLDQGLGEGSIVALALPRSAELVTAMLASWRIGAAYLPLDIQWPQARQALMLEQAGAAVLLTDATHFPAWQAQPFKALAIAELDRPSSTPLPALTTKGNDIAYVLFTSGSTGVPKGVVIEHRQLLNYTAQASQALGLSQCKHVALSSTVAADLGNTALFGALFNGATLHVASDEQMQDGALFAGLLREQQIDCLKIVPSHLAALLDSEQATLPHILVLGGEPIAPTLVERIARLRSDCRVFNHYGPTEATVGVMIHRLALDGAADDCSALTQVLGNNQVYVLDADRRLAPVGVLGEVYLGGAQLCRGYVNAKADEQTFIPSPFDPAQRLYRTGDLARYRPDGGIQLHGRRDQQVKVRGFRIELAEIEAELLRVPQVAEALVLPGEQGLLAFVVPRQGLSSGVLDAVRAELSARLPGVMVPQQLQLIERFPRLANGKIDRKALQQLAVAISDEEDAAPRDALEQLLAARMAQLLGLERLGIERDFFAAGGHSLLVIKLVAGIRKLLQCDIHPGLVFDHPTVASLAMALRAVEGSPGQLEKIAQVRLRMEALSPEEKARLTEQARQLQAAK				NA	NA	NA	NA	NA
D1-35_02192	2463	fpvA	COG4773	Ferripyoverdine receptor	ATGTCGGCAATTCATGAGTTGAAACCGCTGTTCAAGGCATTGGTCATGTCCCGCGGCCTGCGTTCGCGCCGGGTGTTGACGGGCCTGGGTCTGGTCTGCGTGTTGCCATTGAGCACCCAGGTGATGGCTGAAAACGTCAGCATCAACATCCCTGCGCAACCGCTGCCGCAGGCATTAAAAGCGTTCGGCGAGCAGACCAACCAACAAGTGATCTATAACGCCGACGAACTGGCCGGCCTGAAAAGTAATCGCGTCAGCGGCAAGATGAGCCCGCAAGCGGCCATCGCCGAATTGCTCAAGGGCACCGGCGTGCGCCACAGCCTCGAGGGCAATACCCTGATGCTGGTAAAGGGCTCCGGCGCAGGCCTGGAATTGGGCGCGACCACCATCAACGCGAAGCAGCCGGAGGCCACCACCGAAGGCAGCAACTCGTACACCAGTAATGCGGTGACCATCGGCAAGGGCACTCATACCCTGAAGGAGATTCCGCAATCGATCACGGTGATGACGCGCAAGCAGATGGATGACCAGAACCTGGTCAGCCTCAAGGACGCCGTCAACCAGACCACCGGCGTCGTCGGCCTGCAGGGCGTTGGTCAGGGCATGATCCTCTCGTCGCGCGGTTTCCAGATTGACGACTGGCAGTACGACGGTGTGCCGATCCCGCGTAACACCTACTCGCTGGGCAACTGGGCGACCCAGGACCTGATCTTCTTCGACCGCCTGGAAATTCTCCGTGGCGCATCCGGCCTGCTGCAAGGCACCGGCAGCCCGGGTGGCGCCGTCAACCTGGTGCGCAAGCGTGGCCAGAGCGCCCCGACCGTGACCCTGACCGGCAAGGCCGGCTCCTGGGACCACTACGGCCTGCAACTGGACGCCGGCGGCCCGCTGAACGAGGCCGGCAACATCCGCGGCCGTATCGTCGCCGATGAAGACCAGAGCAATTCCTTCGTCGATCATGCCTGGAACAAGACCCACTCGCTCTACGGCTCGCTGGACATCGACCTGAGCGAAGACACCACCCTGGGCTTCGCGGCCAGCCAATCCAACGGCGAGTCGCGTGGCAACATCCGCGGCCTGCCACGCTACGCCGATGGCTCGATGCCGGACGTGTCGCGCTCGACCTACACCGGCGCGCGCTGGAACCGTTCCGATATCGACGTCACCACGCTGTACGCCGACCTGGAGCATCGCTTCAACGAGGATTGGGCGTTCAAGGTCGGTGCAGTGCAGATGACCGAAGACAACCAGGCAAAAAACCAGCGCACGCAAAGTCCTGGCGGCCTGCTACCGGATGGCAGCCGTGTGCAATATGCCGACTTCGTGACTGACTTCCAGTCCACCAAAGTGGGTCTGGACATGAACCTGGTCGGCAAGTTCGAAGCCCTGTCGATGGAGCAGGAGGTCATGCTCGGCGGCAACTACTCCCAGCTGGAGACGGACGACAAATACGCCCGGACCTTCAACAGCAGCACCGACGATATCTTCGACCTCGACAACAACCGTCCGGACATCAGCTATGAGGGTCTGATCAACAGCCCGGGTGGCATGGGCACACTGAGCAAATATGACATTCGCCAGAAAGGTATATACGGTACCTGGCGCGTCAAGCCGGTGGACGACCTGACGCTGATCCTCGGCTCCCGGGTCAGCTGGTATGACTTCAGCTACAAGTCGAAAACGGAACGGGCAACCGGTATTACCCGCAACGCGCCAAGTACCGCGACTGAAACCGGGGTGGTCACGCCCTACGCCGGTATCGTCTATGACCTGAGCCGTGAGTGGGCGGTGTACGCCAGCTACACCGACGTGTTCCAGCCGCAGACCAACGTTGATCCGAACGGTTCGGTACTCAAGCCCATCGTCGGTACCAACTACGAAATCGGCCTCAAGGGTGAGTTGATGGACGGGCGGGTCAACACCTCCCTGGCGGTCTTTCGCTACGACCATGAGAACCGTGCCGTCAACATCCCCAGCTGTACCGGGTTGAACTGCTCCGAAGCCGCGGGGAAAGTCCGCAGCCAGGGCATCGAGGCCGAGATCAGCGGTGAAGTGGTAGACAACTTGCAGCTGTTCGCGGGCTACACCTACAACACCACCAAGTACCTGGAAGACCCGACCAACGAAGGCAGTGTCTTCAGTACCTGGACGCCGAAACACATGCTGCGGGTGTGGGGCAACTATCAGTTCACCGGTGACTGGAACCGTGTCAATGCGGGCCTGGGCTTCACCACCCAAAGCCATACGCAGGTCTTCGACCTCAACTATGACGTTCCGGGTTATACCGTGTGGAATGCCCGTGTCGGCTATCAGTTGACGCCGGAGATCGGGTTGGCGGTCAATGCCAACAACCTGTTCGACAAGACGTATATAACGCCGGCTTACAACCAGATCAACGGTAACAACAACTTCGGCGATCCGAGGAATCTGATGTTTACCGTGAAGTACACGCCGCAGTTTTGA	MSAIHELKPLFKALVMSRGLRSRRVLTGLGLVCVLPLSTQVMAENVSINIPAQPLPQALKAFGEQTNQQVIYNADELAGLKSNRVSGKMSPQAAIAELLKGTGVRHSLEGNTLMLVKGSGAGLELGATTINAKQPEATTEGSNSYTSNAVTIGKGTHTLKEIPQSITVMTRKQMDDQNLVSLKDAVNQTTGVVGLQGVGQGMILSSRGFQIDDWQYDGVPIPRNTYSLGNWATQDLIFFDRLEILRGASGLLQGTGSPGGAVNLVRKRGQSAPTVTLTGKAGSWDHYGLQLDAGGPLNEAGNIRGRIVADEDQSNSFVDHAWNKTHSLYGSLDIDLSEDTTLGFAASQSNGESRGNIRGLPRYADGSMPDVSRSTYTGARWNRSDIDVTTLYADLEHRFNEDWAFKVGAVQMTEDNQAKNQRTQSPGGLLPDGSRVQYADFVTDFQSTKVGLDMNLVGKFEALSMEQEVMLGGNYSQLETDDKYARTFNSSTDDIFDLDNNRPDISYEGLINSPGGMGTLSKYDIRQKGIYGTWRVKPVDDLTLILGSRVSWYDFSYKSKTERATGITRNAPSTATETGVVTPYAGIVYDLSREWAVYASYTDVFQPQTNVDPNGSVLKPIVGTNYEIGLKGELMDGRVNTSLAVFRYDHENRAVNIPSCTGLNCSEAAGKVRSQGIEAEISGEVVDNLQLFAGYTYNTTKYLEDPTNEGSVFSTWTPKHMLRVWGNYQFTGDWNRVNAGLGFTTQSHTQVFDLNYDVPGYTVWNARVGYQLTPEIGLAVNANNLFDKTYITPAYNQINGNNNFGDPRNLMFTVKYTPQF	PGPT0003775_246	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_COMPLEX_RECEPTOR,PGPT0003775-fptA|fhuE|fpvA|C_FEV_OM1|fauA-K16088	NA	NA
D1-35_02193	4122	dhbF	COG1020	Dimodular nonribosomal peptide synthase	ATGAACGAATTGCTAGATGATGATCTGCTGGCGCTGCTGCTCGATGACGCCGCCGACGATCTGCACGCGCGGTCCAACCGCAGCCGGCTGGACCGCGCGCCCTTGTCTTTCGCCCAGCAACGCTTGTGGCTGGAACAACAGCGCGACCCGACCCGGTCGGCCTACAACCTGCCACGTGCCCTGCGCCTGACGGGCGAGCTGAATGCCGATGCCCTGGAGCAAGCGCTGAATCGGGTCATCGACCGGCACGATATCCTCCGCACCGCGTTCATCGAAATCGACGGCGCCGCGACCCAGGTGGTTGAGCGCAACGCCTGCCTGGTCCTGCATCGCGAAGACCTCGCCGGGCTCGACCAGCCGACGCTTTCGCAGCGCATCGAGCAACACGCCCGGCGACCGTTCGATCTCACCCAGGCGCCGCTGATGCGGGCCACCCTGCTCAGGCTGAGCCCTGCGGAACATGTGCTGTTGCTGAATATGCATCACATCGTGTCCGATGCCTGGTCCAACACGATCCTCATGCAGGACATGACCCAGGCCTATGCCCAGGGCTTGCTGGGCGATCCGTCACCGCTGCCGCCGTTGCCCCTGCAATACGCCGACTACGCGAAGTGGCAACGCGGCGAGTACTTGCAGAGCCTGGCCTGCCGGCGCGGCGGCGAATACTGGAGCGAGTACCTGGGCCACGACCTGCCCACACTGGAACTGCCACAGGATTTTGCGCGCACCGCGAGCCAGACACACATGGCCGGCCGTGTGCAGGTGGCGCTGGCCCCGGCGATGGTCCATGCGCTCGACACGTTCTGCCAACGCCAGGGGCTGACGCCGTTCGTGGTAGCACTGGGTGCCTGGCAATTGCTGCTGGCCCGCTACAGCCGCCAGACCGACTTCACCGTCGGCGTTCCCAACGCCAACCGCAACAACCATGAAAGCCAGGACCTGGTAGGTTTTTTTGTCAGCAGCCAGGTGTACCGGGCGCGGATCGACTCGACCCGCAGCGCGCTGGATTTTCTCCGCGATCTGCGCGTGCAGTCCCTCGCCGCGCTGGAGCATGCCGATTACCCGCTGGAATTGATCCTCGATCAATTGGGCGCCAACCCGCTGTTTCAGGTCCTGTTCAACTGGCGCACCGGATCACAGGCGGCGTCGCTGCCAAGTCCGCATCAATTCATGCTGGAGTTTCTCGACACCGGCGAAAACCAGGCCAAGTTCGACGTGTCGCTGGATGTCGACTATTCACAACAGCAGACCGTGGCGACCTTCGAATACAGCCGTGACCTGTACCGCACACAAACCATCGAGCGCATGGCCGAGCATTGGCAGAACCTGCTGCGCGGCCTGATCGAAACGCCCGGCTGCGCCCTCGGCGAGCTACCGTTGTTGAGCGCCGATGAACAGCGGCTGACCCTGAACGACTGGAACCGTCGGCCGACCCGGTTGCGCCAGGAAGAGTGCCTGCACCAGGTGATCGAAACCCACGCCGCCAACACCGCAGAGGCGATAGCGCTGACGTTCGAAGGGCAGCACATAAGCTATGCCGAGCTCAATCGACACGCCAACCAATTGGCCCATCGTTTGATCGAACAAGGCGTCGGGCCCGACGTACTGGTCGGCATCGCCGTCGAACGCACGCCACGGATGATCATCGGCCTGCTGGCGATTCTCAAGGCCGGCGGCGCCTACGTACCACTGGACCCGGCCTACCCGGCCGATCGCCTGGCCTACATGATCGAGGACAGCGGCGTCAGGCAGATCCTGACCGAGGCCCACCTGCTTGATTCGCTGGCGCTGCCCGCCGGCGTCGACTGCCTGTTGCTGGATCCGGTCGATGCCGTCAGCACCTATCCCGAACACAATCCGCACGTGCCGATGGATCCGGACAACCTGGCCTATGTGATCTACACCTCCGGTTCCACCGGCAAACCCAAAGGCGCACTGCTCGCGCACCACAACGTCAGCCGATTGTTCCAGGCCACCGACCATTGGTTCGGTTTCGGCCAGCAGGACGTGTGGTGCCTGTTTCACTCCTACGCCTTCGATTTTTCCGTGTGGGAGATCTTCGGTGCCCTGCTGCACGGCGGTCGACTGGTCATCGTGCCCCACGCCGTGAGCCGGGCGCCCGAGGATTTCTACGCCCTCGTCTGCCAGGAAAAGGTCACGGTGCTCAACCAGACCCCATCGGCATTCAAGTCATTGCTGCAGGTGGCCTGCGAGGCTCAACAGACGCTCGTCCACCGGTTGCGACAAGTGATTTTCGGCGGTGAAGCGATTGATGTGCAGAGCCTGCGCCCCTGGTTCGAACGTTTCGGCGACCAGACACCACAATTGATCAACATGTACGGCATCACCGAAACCACGGTGCATGTCACCTGGAGGCCGCTGTCGTTGCAGGATTTGCATGGCGAGGCCGCCAGCCCCATCGGCGAGCCCATTGTCGATCTGTCCTGGTATTTGCTCGATGCGCACCTGAACCCGGTGCCCAAGGGTTGCATCGGCGAGCTGTACGTCGGTCGCGCGGGCCTGGCCCGCGGTTACCATCAGCGCGCCGTCCTGACCGCCAGCCGTTTCATTCCGGACCCGTTCGACCCACTGCCGGGCGGACGCCTGTACCGCACCGGGGACCTGGCCCGCTACCTCAGCGACGGCAGCATCGAATACATCGGACGCCTCGATCATCAGGTCAAGATCCGCGGCTTCCGCATCGAGTTGGGCGAGATCCAGGCGCGCCTGCAAATGCTCTCGGCGGTCCGCGATTGCGTGGTGTTGGCCCATGTAGGCCCAGGCGGCCTGCAATTGATCGCGTACGTCATCCCGACGCAACCGGCCTCGGCCGAGTTGCGCGAAGGCCTGCTGACTGCGCTGAAAACGCAGATGCCGGACTACATGGTGCCCAGCCATCTGTTATTCCTCGATCACCTGCCGCTCAATGCCAACGGCAAGCTCGATCGCAAGGCCTTGCCGGAACCGGACGCCGCCCTCCGGCATTCGACCTACGTGGCGCCCCGCACGCAGTTGGAACAGGCCCTGGTGCAACTCTGGCAACAGTCGCTGAAGGTCGAGCGCGTGGGTATCAGCGACAGTTTTTTTGAGCTGGGTGGGCATTCGATCCTGGCGATCGAGCTCATCGCCAACCTCAAGGCACGCCTGAACCACACGGTGCGCCTGCAAGAACTGCTGGCCAACCCGAGCATCGCCGAACTGGCCCGGTTCATTTCGCAAAAACACCGCGAGCAGACGCAGTGCCTCGTCGCCCTGAACAACGCGCCCGCCAGCGCACCGCAGCTGTTCTGCCTGCACCCCAGCGGGGGCATCGTCTTCTGCTACCAGCCACTGGCGCGCAAACTGCAAAATCGCGCACTCACCTTCGGCGTCATGCACCGCGGCTTCAGCGAACCCCATGCGGGCGCCGAGGCCTGGCACCAGATGATTGCCGACTACAGCCAGGAAATCGTCTCGGCTCAGCCAGAGGGTCCGTATTACCTGATGGGATGGTCCCTGGGCGGGGCGATTGCCCTGGACATCGCGGCAACCCTGGAAAGCCAGGGTCATACGGTGGGTTTCCTGGGGCTGGTGGACAGCACGATTCCCGAGCACCTGTATCCCGCGACGTTGCCGCGTCATCGGGAACTGCTTGCGGAGGAAAAAACCGACCCGACCTCGCAGGATCTGCATGAGGCAATCGAGTATTTCGATCTGCTGTTCCCTGCTCTTACGGAACGCACCGCGGCCTTTCGACGGGAACACCCTGACAGCTCGGTCAAGGCCTTCCACGAGTGGGCCGCCGGCCAGATCGAGCCTGAGCGAGGCGACTTGCTGTCGGTCGTGCAGAGCGTCAAGGAAGAGGTCATGAATGCCCAGGCGTTCTCGGTGCATGACCGGTTGCTGGAGGCCTTTGAAGGGTTCACTTTCAAGCCGGTACGGGTACGTCCCAGCTGCTGGTGGACCGAGGCGGAGAAAACACCGCAAGAGCTGGCGTTTTGCGAGGCGTTGGTCAGGGAACATAGCTTGACTGGCGAGTTGCAGTGCTCGGTGCATTCTCCGTTGCGCCATCGGGGCATGATCTTTGATGAGGGGTTGCTTGATTCGTTGGTTGAGGTGTTTTTGGGGGGCTTGGCGGGGTAG	MNELLDDDLLALLLDDAADDLHARSNRSRLDRAPLSFAQQRLWLEQQRDPTRSAYNLPRALRLTGELNADALEQALNRVIDRHDILRTAFIEIDGAATQVVERNACLVLHREDLAGLDQPTLSQRIEQHARRPFDLTQAPLMRATLLRLSPAEHVLLLNMHHIVSDAWSNTILMQDMTQAYAQGLLGDPSPLPPLPLQYADYAKWQRGEYLQSLACRRGGEYWSEYLGHDLPTLELPQDFARTASQTHMAGRVQVALAPAMVHALDTFCQRQGLTPFVVALGAWQLLLARYSRQTDFTVGVPNANRNNHESQDLVGFFVSSQVYRARIDSTRSALDFLRDLRVQSLAALEHADYPLELILDQLGANPLFQVLFNWRTGSQAASLPSPHQFMLEFLDTGENQAKFDVSLDVDYSQQQTVATFEYSRDLYRTQTIERMAEHWQNLLRGLIETPGCALGELPLLSADEQRLTLNDWNRRPTRLRQEECLHQVIETHAANTAEAIALTFEGQHISYAELNRHANQLAHRLIEQGVGPDVLVGIAVERTPRMIIGLLAILKAGGAYVPLDPAYPADRLAYMIEDSGVRQILTEAHLLDSLALPAGVDCLLLDPVDAVSTYPEHNPHVPMDPDNLAYVIYTSGSTGKPKGALLAHHNVSRLFQATDHWFGFGQQDVWCLFHSYAFDFSVWEIFGALLHGGRLVIVPHAVSRAPEDFYALVCQEKVTVLNQTPSAFKSLLQVACEAQQTLVHRLRQVIFGGEAIDVQSLRPWFERFGDQTPQLINMYGITETTVHVTWRPLSLQDLHGEAASPIGEPIVDLSWYLLDAHLNPVPKGCIGELYVGRAGLARGYHQRAVLTASRFIPDPFDPLPGGRLYRTGDLARYLSDGSIEYIGRLDHQVKIRGFRIELGEIQARLQMLSAVRDCVVLAHVGPGGLQLIAYVIPTQPASAELREGLLTALKTQMPDYMVPSHLLFLDHLPLNANGKLDRKALPEPDAALRHSTYVAPRTQLEQALVQLWQQSLKVERVGISDSFFELGGHSILAIELIANLKARLNHTVRLQELLANPSIAELARFISQKHREQTQCLVALNNAPASAPQLFCLHPSGGIVFCYQPLARKLQNRALTFGVMHRGFSEPHAGAEAWHQMIADYSQEIVSAQPEGPYYLMGWSLGGAIALDIAATLESQGHTVGFLGLVDSTIPEHLYPATLPRHRELLAEEKTDPTSQDLHEAIEYFDLLFPALTERTAAFRREHPDSSVKAFHEWAAGQIEPERGDLLSVVQSVKEEVMNAQAFSVHDRLLEAFEGFTFKPVRVRPSCWWTEAEKTPQELAFCEALVREHSLTGELQCSVHSPLRHRGMIFDEGLLDSLVEVFLGGLAG	PGPT0003165_29	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003165-dhbF-K04780	NA	NA
D1-35_02194	1659	yojI_1	COG4615	ABC transporter ATP-binding/permease protein YojI	ATGAGCCAACCACAACGCGGGGTGATCAGTGAACTGTTCAGCCTGCTCAAACCCTTCCGGCTGATTGTCGTAGGCTCCATCCTCTTGGGCATGCTCGGTGGCCTGAGCATCACCGCCCTGCTGGCGACCATCAACGACGCGCTGAACGCCGATGCCGGGCCCTCGCCACACATGCTCGGCACCTTCGCCGGGCTTTGCGCGGCGGCGCTGCTGACCTCGATCCTGTCGGACATCGGCACCAACCATGTCGGCCAGAACATCATCGCCAGCCTGCGCAAATCCCTCGGCCAGAAAGTCCTGTTGGCACCGATCGAACAGATCGAGCGTTTTCGCAGTCATCGGCTCATCCCGATACTGACCCACGACGTCAACATGGTCAGCAACTTCGCTTTCTCCTTTGCGCCATTGGCCATTGCCTTCACCGTCACCCTCGGCTGCCTGGCCTACCTGGCCTACCTGTCATTGCCGATGTTTGCGCTGCTGCTGGTGGCATTGGTGATCGGCACGGTCATCCAGTACGTGGCGCGAGCCCGTGGCATTCGCGGTTTCGAAGCGGCCCGCGAGGCTGAAGACGCCCTGCAAAAGCACTACAGCGCGATCGCCGCCGGCGCCAAGGAACTGCGTATCCATCGGCCTCGTCGCCAACGCATGTTCAGCCAGCGCATCGAAGCCACCGCCGAGCAGATCTGCGATACCAACATCCGCTCGGTCAACACCTTCGTGGTCGCCAAGACCTTCGGCTCGATGCTGTTCTTTGTGGTCATCGGCCTGGTCCTGGCCCTGCAATCGCTGTGGCTGGGCATCGACAAGGCGGTGCTCAGCGGTTTTGTGCTGGTGCTGTTGTATATGAAAGGGCCGCTGGAATACCTGGTGATGACCTTGCCGGTGATCAGCCGCGCCAACATTGCATTCAAACGCATTGCGGAGTTGGCCGAGCAGTTCTCCTCGCCGGAGCCACACCTGCTGCTCAATGATAAGAGCGTGCCCAAGCCGACGATCCAACAGCTTGAATTGCGTGACGTGCACTACGCCTTCCCGGCGGTCGACGGCAGCCAGGCCTTCGCCCTCGGACCGGTCAACCTGTCCATCGCCCAAGGCGAGATCGTATTCATCGTCGGCGAGAACGGCGGGGGCAAGACCACGCTGATCAAATTGCTGCTGGGCCTCTATGCGCCCCAGGGCGGTGAAATTCTGCTCGATGGCAAGCCGGTGCTGGCTGCGCAGCGTGACGATTATCGCCAGTTGTTCACCACGATTTTTGCCGACTACTACCTGTTCGATGAACTGGTGCAAGGCGACCAGCAAGTGCCGGGGACCGCCAATCGCTACCTGGAGCGCCTGGAGATTGCCCACAAGGTCAGCATTCACGACGGTGTCTTCAGCACCACCGATCTCTCCACCGGCCAACGCAAGCGCCTGGCCCTGCTCAACGCCTGGCTGGAAGAACGCCCGGTGCTGGTCTTCGACGAATGGGCCGCCGACCAGGACCCGGTGTTCCGGCGGATCTTCTACACCGAGCTGCTGCCGGAGCTGAAGGCCCTGGGCAAGACCATCATCGTCATTTCCCACGACGACCGTTACTTCGACATCGCCGATCAGCTGGTGCGGATGCAGGCCGGTCAGGTCGTCACTGAAAAGGTCCCGGCAGCCTTCGCCTGA	MSQPQRGVISELFSLLKPFRLIVVGSILLGMLGGLSITALLATINDALNADAGPSPHMLGTFAGLCAAALLTSILSDIGTNHVGQNIIASLRKSLGQKVLLAPIEQIERFRSHRLIPILTHDVNMVSNFAFSFAPLAIAFTVTLGCLAYLAYLSLPMFALLLVALVIGTVIQYVARARGIRGFEAAREAEDALQKHYSAIAAGAKELRIHRPRRQRMFSQRIEATAEQICDTNIRSVNTFVVAKTFGSMLFFVVIGLVLALQSLWLGIDKAVLSGFVLVLLYMKGPLEYLVMTLPVISRANIAFKRIAELAEQFSSPEPHLLLNDKSVPKPTIQQLELRDVHYAFPAVDGSQAFALGPVNLSIAQGEIVFIVGENGGGKTTLIKLLLGLYAPQGGEILLDGKPVLAAQRDDYRQLFTTIFADYYLFDELVQGDQQVPGTANRYLERLEIAHKVSIHDGVFSTTDLSTGQRKRLALLNAWLEERPVLVFDEWAADQDPVFRRIFYTELLPELKALGKTIIVISHDDRYFDIADQLVRMQAGQVVTEKVPAAFA	PGPT0003400_236	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-PYOVERDIN_TRANSPORT,PGPT0003400-pvdE-K06160	NA	NA
D1-35_02195	876	egtB		Hercynine oxygenase	ATGAACCGATTTTTATTGAAGACGCTTCCGGCATTGGCCCTCACCGCCCTGCTGCCCTCCCATGCCCAGGCCTCGCAACCGGGCCAGGTATTTCGCGACTGCAAGGACTGCCCGGAAATGGTCGTGCTGCCCACCGGCACCTTCCAGATGGGCGCGCCGGACAACGAGGTCGGCCGCGAGCCCGACGAAGGCCCGATGCACCCGGTGACGTTCGACAAACCGGTGGCCATCAGCCGCTTCCAGGTGCTCAAAGGCGAGTGGTTCGCCTACCTGCGCGACAGCGGCTACGTGATGCCTGACGGCGACAAGCGCCCCGGCCGCGCGTGCCAGGCCGGCGTCCCGGATTACCAGGGTAGCGATCCGCGCAAGCAATACACCGACCGGCACCCGGCGGTGTGCATGGATTTCGCCGAGGCCAGCGCCTACGTGGCGTGGCTGTCGAAAAAAACCGGCAAGCCGTATCGGTTGGTCAGCGAGTCCCTGCGCGAATACGCAGCGCGCGGCGGCAGCGATGGCCCGTTTCCCTTCCCGTTCGATGAAGGCAAGGACTACAGCATCGCCCAGCACGCCAATACCTACGGCGCCGCCGACGGCTACAACTTCACCGCGCCGGCCGGCAGCTTCGCGCCCAATGCCTTCGGCGTGTACGACATGCACGGCAACGTCTACGAATGGACCGCCGATTGCTTCAACGAAAACTACCTCAATGCTCCAGGCGACGGCAGCGCCGCACTGACAGGCAACTGCAAAGTACGGCGCATCCGTGGCAACGACTGGGGCGAAGCACCGGTGTTCTCCCGTTCGGGCAACCGCAACGCGGTGTTTTCCGATGCCCGCGGTGATTGGCTGGGGTTCCGGGTCGCCCGGGATATGTAG	MNRFLLKTLPALALTALLPSHAQASQPGQVFRDCKDCPEMVVLPTGTFQMGAPDNEVGREPDEGPMHPVTFDKPVAISRFQVLKGEWFAYLRDSGYVMPDGDKRPGRACQAGVPDYQGSDPRKQYTDRHPAVCMDFAEASAYVAWLSKKTGKPYRLVSESLREYAARGGSDGPFPFPFDEGKDYSIAQHANTYGAADGYNFTAPAGSFAPNAFGVYDMHGNVYEWTADCFNENYLNAPGDGSAALTGNCKVRRIRGNDWGEAPVFSRSGNRNAVFSDARGDWLGFRVARDM				NA	NA	NA	NA	NA
D1-35_02196	1281	cefD_2	COG0520	Isopenicillin N epimerase	ATGAACGAGCGCCGTACCTTTCTCAAGCAAGCCGGGATCCTGACGGCCGGCCTGCCGTTTGCCGCCAGCCTGCCGTCCATCGCCGCTGCAGATCCATTGTCGCCGCTGCCCCGAGACAAATGGGCGCAACTGCGCTCGTTGTTCAACCAGGACCCGGACTACCTGCATTTCTCCAACTTCCTCATCACCACTCACCCGCGTCCGGTGCGCGAGGCCATCGAACGCCACCGCGCCGCCCTCGATAAAAACCCGGGATTGTTGATGGACTGGGACCTGGGCGTCATCGAAGAGCGCGAGGAAAACGTGCGGACCTGGGCCGGGCGCTACCTGCAAGCGACACCGAAACAGATCGCCCTGACCGGCAGCACCACCGAAGGCCTGGCGATGATTTATGGCGGCGTCCATGTACGGCCCGAACAGGAAATCCTCACCACCGCCCATGAACACTATGCCACCCACACCATCCTCGACTTGCGCAAGCAACGGGACGGCACCCGGGTGCGCAAGATCAAGCTGTTCGAAAACGCCCGCGACGCCAGCGAGGCGCAAATCCTCGCGGCCATCGACCGCAACATCCGCCCCGAGACCCGCGTACTGGGCATGACCTGGGTGCACTCGGGCAGCGGCGTGAAGCTGCCGATCGGCAAGATCGGCGCCCTGGTGGACAAGCACAACCAGGGCCGCGGCGATGAGCAGCGGATCGTGTATGTGGTGGACGGCGTGCACGGTTTCGGTGTCGAGGACCTGAATTTCCCGCAGATGAATTGCGACTTCTTCATCGCCGGCACCCACAAATGGATGTTCGGCCCCCGGGGCACCGGCGTGGTGTGCAGCCGCAGCGAAGAAGTCAGGTACGTCACGCCGATCATCCCGACCTTCTCCGAGGCGACGGCGTTTTCCACCACAATGACCCCGGGCGGCTACCACGCCTTTGAGCATCGCTGGGCGGCGGACGAGGCCTTCAAGCTGCATCTGCAATTGGGCAAGGCCGAGGTGCAGGCGCGCATTCACGCGCTGAACAGCTACCTGAAAAAACAATTGCTGGCGCTGCCGCAGATCGAGCTGGTCACGCCGCTGAGCCCGGAGCTGTCGGCCGGTTTCAGCTTCTTCCGGGTCAAGAATCGTAAAAGCGATGAGATCGCTGCCTACCTGATGCAAAACCGCGTCATCGCCGACGCCGTGCACCGCGATGCCGGGCCGGTGATCCGCACCGCGCCGGGGCTGCTCAACACCGAAGTCGAAATCGACCGCTTCATGGCGCTGTTGAGCAAAACACTCTGA	MNERRTFLKQAGILTAGLPFAASLPSIAAADPLSPLPRDKWAQLRSLFNQDPDYLHFSNFLITTHPRPVREAIERHRAALDKNPGLLMDWDLGVIEEREENVRTWAGRYLQATPKQIALTGSTTEGLAMIYGGVHVRPEQEILTTAHEHYATHTILDLRKQRDGTRVRKIKLFENARDASEAQILAAIDRNIRPETRVLGMTWVHSGSGVKLPIGKIGALVDKHNQGRGDEQRIVYVVDGVHGFGVEDLNFPQMNCDFFIAGTHKWMFGPRGTGVVCSRSEEVRYVTPIIPTFSEATAFSTTMTPGGYHAFEHRWAADEAFKLHLQLGKAEVQARIHALNSYLKKQLLALPQIELVTPLSPELSAGFSFFRVKNRKSDEIAAYLMQNRVIADAVHRDAGPVIRTAPGLLNTEVEIDRFMALLSKTL	PGPT0010995_52	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-PENICILLIN_METABOLISM,PGPT0010995-cefD-K04127	NA	NA
D1-35_02197	1371			hypothetical protein	ATGACCACACCACGTTCGAAAAAGGCTCTTTTCACCGGCGTATCCCTGGCCCTGGCGCTGGTCGTCGGTGGTGGGCTCGCGGCCTGGGACCATTGGTGGCGGGACAATCCCGGCTACCCGGTGAAGGTGATGAAAGAAGCCCGGGAGTTGCACGAGCGCCTGTTGTCCTTCGACAGTCACATCACCGTGCCGCTGGATTTCGGCACCGCCGGCAATGAAGCGGACAAGGACGGCAACGGCCAGTTCGACCTGGTAAAAGCCAATCGCGGTCACCTCTCCGGCGCCGCGCTGACCATATTCGGCTGGCCCGAACTGTGGAACGGCCCCAACGCGCCGCACAAGCCCACCGCCGGCTTCGTCGAGGAAGCGCGCAACCAGCAGGAAGTGCGCTACAAGATCATCACCGGCATGGTCCGGGATTTCCCCAACCAGGTCGCCATCGCCTACACCCCCGACGACTTCCGTCGCCTGCACGGCGAAGGCAAGTTCGCGATTTTCATCAGCATGCTCAACGCCTATCCCCTCGGCCACGACCTGAGCCTGCTGGACCTGTGGACGGCGCGGGGCATGCGCATGTTCGGCTTCAGCTACATCGGCAACAACGACTGGGCCGATTCTTCGCGACCGCTGCCGTTTTTCAACGATTCGCCCGACGCCCTTGGCGGCCTCTCGGACATTGGCAAGCAAGCGGTGAAACGCCTGAACGACCTCGGCGTGATCATTGACGTATCGCAAATGTCGACCCTGGCCCTGGAGCAAGTCGCACAACTGAGCCGCACCCCATTGGTAGCTTCTCACTCGGCGCCACGGGCCATGGTGGACATCCCGCGCAACCTCAGCGACAAGGAAATGCAGTTGATCAAGGCCAGCGGCGGCGTGGTGCAGATTGTCGGTTTCTCCCAGTACCTGCGACCGCTGACGCAAAAGACCCAGGACAAACTCAACGACCTGCGCGAGCGCTTCGACCTGCCGCCGCTGCCCAACCTGGCGATGGCGCTGATGCCCGGCGATCCGATCATCGCCGCGTGGCCGGAACAGCGATTCGGCGAATACGCCGGCCAGCTCTACGCCATTCTCGAAGAGGAACCCAAGGCCAGCCTCAAGGACCTGGGCGATGCCATCGACTACGCCGTGCGCAAGATCGGTATCGACCATGTCGGCATCAGCTCGGACTTCAACGAAGGCGGCGGCGTTAAAGGCTGGGAAGACGTCGGCGACATCCGCAACGTGACCGCCGAACTGCTGACGCGCGGCTACTCCGAAGCCGACATCGCCAAGCTTTGGGGCGGCAACTTCCTGCGCGTCTGGGACCAGGTGCAGAAAGCCGCCCAGCCAGCGATTGCCGCGACGCAGAAGGCGGCCCAGCGATGA	MTTPRSKKALFTGVSLALALVVGGGLAAWDHWWRDNPGYPVKVMKEARELHERLLSFDSHITVPLDFGTAGNEADKDGNGQFDLVKANRGHLSGAALTIFGWPELWNGPNAPHKPTAGFVEEARNQQEVRYKIITGMVRDFPNQVAIAYTPDDFRRLHGEGKFAIFISMLNAYPLGHDLSLLDLWTARGMRMFGFSYIGNNDWADSSRPLPFFNDSPDALGGLSDIGKQAVKRLNDLGVIIDVSQMSTLALEQVAQLSRTPLVASHSAPRAMVDIPRNLSDKEMQLIKASGGVVQIVGFSQYLRPLTQKTQDKLNDLRERFDLPPLPNLAMALMPGDPIIAAWPEQRFGEYAGQLYAILEEEPKASLKDLGDAIDYAVRKIGIDHVGISSDFNEGGGVKGWEDVGDIRNVTAELLTRGYSEADIAKLWGGNFLRVWDQVQKAAQPAIAATQKAAQR	PGPT0020950_405	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
D1-35_02198	1617			hypothetical protein	ATGACGATTTCTCGACGATGGTTCATGGCAGGCCTGGCGCTGACCGGTGCCGCCGTGCCTGCGGTGTATTACGGGCACCGTGAACTGACCCGGCCGGACCCCACCATCACTCCCGGCGAGGCGTCGTTCGATGTGGCGGATGTGGCGGGCCAGCGCCGGGCCAACACGCTGCGGGGTATCTGGACGATCCGTTTCACCGGTCGCGATGCCGGTCTCGACGGTATGCCCGGCGACGGCCTGCAAGTGTTTCTCGACATCGCCCACAAGGGCCGTGGCCTAGTGGGCTGCCTGGACACCGGCGAACGCCTGCGTGCCGGGGACGAACCGCGTTATCGGGTCTTGGGCGACCTGGCCGGCAGCGACCCGAAGCAGTTGAGTTGGCGACTGATCGGCAGCGAACATGCCGCGCCGGATTACGAGTTCATCATGACCGTTGACGAAGTCTGGGCCGGTTTCGGCAATGCCGGCACCGCCACCCTCAGTGGCCGGGTGTTGCGCCTGGACCGCCCGCTGGCACAGCCGGAACTCGACAACCAGTTCATCGCCGTCAAGCAGCGCTTTCCCGAAGCCAGGGAGCGCATACCGCTGAGCCCGAAGCTCCTGGCCTGGCTGGTCTCGCCCGAGCACCGTCTGTTTCACCAGCTCTGGCACGCCTCGCGGGACAAATGGCACACCCTCGACGAAGACAAACGCAACGCCCTGCGCGGCCTTGGCTGGCAGCCCGGGCCGCGAGACAACGAGCGTGACGCCCGTGGGCCGCGCAAGGATCGCAACGGCTCGGGGGTGGATTTCTTTTTCATGCATCGGCACATGCTCGGCACGGCGCGTTCGTTCCAGCCGTTACCGTCGTGGCCGCGTTTCCCCTTGCCGCAACCGGAGCTGGAACGCGATCGCCTAGGCTTTGCCCGGTATTTCGATAACCTCGACGGCACGGCACTGCCGCCGACATGGCTGGCCCGTGGCGACGAGCAGTACGCCCAATGGGTCAGCGACATCAAGACCGCCGAGACCTACCACAGCAATTTCCAGGTCTGGGAGTCGCGCTATCGCGATCCGCGCTACCTGTCGAAGCTGACCTTGGGCCAGTTCGGTTCCGAGGTGGAACTGGGCCTGCATGACTGGCTGCACATGCGCTGGGCCTCGGTGCCCAGGGACCCGTCCAACGGTCATCCGGTGCCGTTCGCCCGTGATCAGGCGGACTTCGCCCAGCGCTGGTTCGAACCGGAGAACGATTTTCTGGGCGATCCGTTTTCCTCTCACGTGAGCCCGGTATTCTGGGCCTTCCACGGCTGGATCGACGATCGCCTCGAAGACTGGTTCCGCGCCCACGAGCGTTTCCATCCGGGCGAAGTCAGCCGGCTGCAAGTCAACGGCGTGCCCTGGTTCGCCCCGGGCCGCTGGGTGGAAATCGCCGACCCCTGGCTGGGCCCGGACACCCATGGTTGCAGTACCACGCCGGGGCTGCAGGTCGGCCGCTCGGTGGAAATGGACCCGGAAACCATGAAACTGGCGCTGCGCATCACCTTTGGCAGTGATGACGACAAACTCTCCAGACTGTTGCGCCGCGTGCCGCAACGGCCGTGGTACGCGCGTAATCTGAAGTCCAAGCCGGTTTGA	MTISRRWFMAGLALTGAAVPAVYYGHRELTRPDPTITPGEASFDVADVAGQRRANTLRGIWTIRFTGRDAGLDGMPGDGLQVFLDIAHKGRGLVGCLDTGERLRAGDEPRYRVLGDLAGSDPKQLSWRLIGSEHAAPDYEFIMTVDEVWAGFGNAGTATLSGRVLRLDRPLAQPELDNQFIAVKQRFPEARERIPLSPKLLAWLVSPEHRLFHQLWHASRDKWHTLDEDKRNALRGLGWQPGPRDNERDARGPRKDRNGSGVDFFFMHRHMLGTARSFQPLPSWPRFPLPQPELERDRLGFARYFDNLDGTALPPTWLARGDEQYAQWVSDIKTAETYHSNFQVWESRYRDPRYLSKLTLGQFGSEVELGLHDWLHMRWASVPRDPSNGHPVPFARDQADFAQRWFEPENDFLGDPFSSHVSPVFWAFHGWIDDRLEDWFRAHERFHPGEVSRLQVNGVPWFAPGRWVEIADPWLGPDTHGCSTTPGLQVGRSVEMDPETMKLALRITFGSDDDKLSRLLRRVPQRPWYARNLKSKPV				NA	NA	NA	NA	NA
D1-35_02199	249			hypothetical protein	ATGTTCAAGCACACCCCCAATCCCCCCGAAGAATCCCCCAGCCCGTTATTCACCGTCGCACCAGACGCCGACATCGAATGCCTGCTCGCCAACCTCAGCGAAACCCTCGCCTCGGCGAACGCGATGGCCAGCGACCTTGCCTTCGCCCTGGAAGGCTCGCGACGGCATTTGGCGTTGGGGATCCAGCAGATGATCGAGCTCGGTGAGCTCCTGGCAAACCGCGCCCTGGACATTGCCGCGCCGCGCTAG	MFKHTPNPPEESPSPLFTVAPDADIECLLANLSETLASANAMASDLAFALEGSRRHLALGIQQMIELGELLANRALDIAAPR				NA	NA	NA	NA	NA
D1-35_02201	234			hypothetical protein	ATGGGGCTGCTTCGCAACCCAGCGGGGATAAATCCCCTCGCCACACAGGAATCTCTGTTCGCCAATAATAGTGTTCGGCTTTGGTTCTGTTTATCCGGCCATGTAAGCCGTCCGAGCGAGGCTACGTTGCCTTGCGTCATTGCCTACAACTACGCCAGAATCCGCCGACTTGTGCGCTTGGCTCGTGGCTTTTACTGTTTCCGGGTCGCTGATTGCAGTGATCGGGTTTGGTAG	MGLLRNPAGINPLATQESLFANNSVRLWFCLSGHVSRPSEATLPCVIAYNYARIRRLVRLARGFYCFRVADCSDRVW				NA	NA	NA	NA	NA
D1-35_02202	1395	ttgF_1		Toluene efflux pump outer membrane protein TtgF	ATGAAAGCGCACCTGACCCTCCTGGCCGCCAGCCTGCTGCTGGCGGCCTGCGGCACACCTTTGTCGACACCCGACAGCGGCATCGAGCCGCCGCAAGCCTGGCAAACTGTCGATACGCCCAATGCGCGTGTCGATAACCAACAATGGTGGAAGCAGTTCGGCAGCCGGCAACTCGATCGTTTGATCGAACAGGCGCGCCAAGGCAGCTTCGACCTCGCGGCCGCCATGGCCCGGGTTCGCCAGGCCCAGGCCAGCGCGGTGATCGCCGGCGCGCCGTTGCTGCCGGAAATCCGCGCCGGGCTCAACGGCAATCGCCAGGAGCTGCTGCGGGGCAAGGGCTATAGCCAGTTGGACGTGGATCGGAACAACCGCACCATCGACTACTACGATGCCCACCTCAGCGCCAGTTATGAAGTGGATTTCTGGGGCGGCAAGCGGGCTACCCGGGACAGTGCGCTGAGCGCGTTGTCGGCCAGCCGGTTTGACCGGGCGACCGTGGAATTGACCTTGCTCAGCGCTGTCGCCAACAGCTACACCCAGGCCTTGTCGCTGCGCGAACAACAGCGCATCGCCGAACTTAACCTGGCCAACGCGCAAAACGTGCTCGACCTGGTGCAGACCCGCTACGACGCCGGCAGCGCCACGGCGCTGGAACTGTCCCAGCAAAAAAGCCTGGTGGCGACGCAGCGGCGCCGATTGCCCCAGGTGCAACAACAGGCGCGCGAGGCGTTGATCACCCTGGCGGCGTTGCTGGGCCAGCCGGTGCAAGCGCTCAAGCTCGACGATGAAACCTTCGACGCCTTGCACTGGCCCGCCATCGACGCGGGCGTACCCAGTGACCTGCTGCGCCGTCGCCCCGACATCGCCGCCGCCGAAGCACGCCTCGCCGCCGCCCAGGCCGACATCAGCGTGGCCCGCGCCGCCCTGCTGCCCTCGGTCACCCTGGGCCTGAGCCTGGCCACCGGCGCCGACATTGCCGACCAGTTGCTGCGCAACAACGTCTACAACCTCAGCGCCGGCCTGGCCGCGCCAATCTTCAACAACGGACGCTTGCGGGCCGAACGGGACAGGGCCACCGCGCGCCAGGAAGAACTGCTGGAAACCTACCGCGCCGCGATCGTCAACGGTTTCGCCGACGTCGAGAAAGCCCTGAACGGCATCCAGGGTCTGGACCAGCAGCGACAATGGCAGAGCGAAGAGCTGCACCAGGCGCAAACCGCCTTCGACATCGCCCAAAGCCGCTACCAGGCCGGCGCAGAAGACTTGCTCACCGTACTCGAAACCCAACGCACGCTGTACGCCGCCCAGGACATGAACGTGCAATTGCGCCTGGCACGGGTGCAGGCGAGCGTGGCGTTGTACAAGGCGCTGGGTGGGGGTTGGCGGGTGATGTAG	MKAHLTLLAASLLLAACGTPLSTPDSGIEPPQAWQTVDTPNARVDNQQWWKQFGSRQLDRLIEQARQGSFDLAAAMARVRQAQASAVIAGAPLLPEIRAGLNGNRQELLRGKGYSQLDVDRNNRTIDYYDAHLSASYEVDFWGGKRATRDSALSALSASRFDRATVELTLLSAVANSYTQALSLREQQRIAELNLANAQNVLDLVQTRYDAGSATALELSQQKSLVATQRRRLPQVQQQAREALITLAALLGQPVQALKLDDETFDALHWPAIDAGVPSDLLRRRPDIAAAEARLAAAQADISVARAALLPSVTLGLSLATGADIADQLLRNNVYNLSAGLAAPIFNNGRLRAERDRATARQEELLETYRAAIVNGFADVEKALNGIQGLDQQRQWQSEELHQAQTAFDIAQSRYQAGAEDLLTVLETQRTLYAAQDMNVQLRLARVQASVALYKALGGGWRVM	PGPT0009810_2792	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexXY-OprM,PGPT0009810-toxI|oprM|oprM|emhC|ttgC|cusC|adeK|smeF|mtrE|cmeC|gesC-K18139	NA	NA
D1-35_02203	1971	macB_1	COG0577	Macrolide export ATP-binding/permease protein MacB	ATGAGTACGCCCCTGATCGAACTGCGGGACATTCGCAAGGCCTACGGCGGTGGCGACAGCCCACGGGTGGAAGTGCTGCGGGGTATCGACCTGTCGATTCACGCTGGGGAGTTTTTGGCGATCGTCGGGGCGTCCGGCTCCGGCAAATCGACGCTGATGAACATCCTCGGCTGCCTCGACCGTCCCACCAGCGGCGAGTACCGCTTTGCCGGTGAGAACGTCGCCCGACTGGGCAGCGACGAACTGGCCTGGCTACGCCGGGAGGCGTTCGGGTTCGTGTTCCAGGGCTACCACCTGATCCCGTCCGGCACGGCCCAGGAAAACGTCGAGATGCCGGCCATCTATGCCGGCACCTCGGCCGCCGAGCGTCATGCCCGGGCCAGCGCCCTGCTCGAACGCCTGGGCCTGGCGAGCCGCACCGGCAATCGTCCCCACCAGCTGTCCGGCGGGCAGCAACAGCGAGTGTCGATTGCCCGGGCCTTGATGAACGGCGGCCACATCATCCTCGCCGACGAACCCACCGGCGCCCTCGACAGTCAGAGCGGCATTGAAGTCATGGCGCTGCTCGACGAACTGGCGAGCCAGGGCCACGTAGTGATCCTGATCACCCACGACCGCGAAGTGGCGGCCCGGGCCAAACGCATCATCGAAATCCGCGATGGGCTGATCATCAGCGACAGCGCCACCACCACAGCCAGCGCACCACAAGCCAACCCCAAGGCGTTGCAGGCGGTGGATCTGCGCCAGCGCCTGAGCGCCGGCAGCGAGCACAACGGCGCCTGGAAAGGCGAACTGGTGGACGCCGTCCAGGCCGCTTGGCGAGTGATGTGGATCAACCGTTTTCGCACCGCCCTGACCTTGCTCGGCATCGTCATCGGCGTGGCCTCAGTGGTGGTAATGCTGGCGGTGGGCGAAGGCAGCAAGCGCCAGGTCATGGCCCAGATGGGCGCCTTCGGCTCTAACATCATCTACCTAAACGGCACCGCGCCCAACCCGCGCGCCGCCAAGGGCATCATCAGCGAACAGGACATCGCCGCCCTCGCCGCCCTGCCCGAAGTGCAGCGCTTCATGCCGGTCAACGGCAACAACGCCAACGTGCGTTTCGGCAACCTCGACCACACCAGCTACGTGGGCGGCAACGACACGAATTTCCCGACCATCTTCAACTGGCCGGTGGCCCAGGGCAGCTACTTCAGTGACACCGATGAGCGCAGCGCGGCGGCGGTGGCGGTGATCGGCCACAAGGTCCGGCAGAAGCTGCTCAAGGACGTCGCCGATCCCATCGGCCGCTACATCCTGATCGAAAACGTGCCATTCCAGGTGGTCGGCGTACTCGCCGAAAAAGGCGCCAGCTCGGGGGATTCGGACGCCGACAACCGCATCGCCGTGCCCTACTCCGCCGCCAGCGTGCGTCTGTTTGGCAGCCGTCATCCTGAATACGTGGTGATCGCCGCTCGCGACGCGGCCAAGGTCAAGGAGGCCGAGCAGGCCGTTTCCCGTACCTTGCTGCGACTGCACAACGGCAAGCAGGATTTCGAGCTGACCAACAACGCCGCGATGATCCAAGCCGAGGCCCGCACCCAGGGCACGCTGTCGTTGATGCTCGGGGCCATTGCGGCAATCTCGCTGCTGGTGGGCGGCATCGGCGTGATGAACATCATGCTCATGACAGTGCGCGAGCGGACCCGGGAAATCGGCATCCGCATGGCCACCGGTGCCCGCCAGCGCGACATCCTGCGCCAGTTCCTGACCGAAGCGGTGATGCTCTCGGTGGTCGGTGGATTGGCCGGCATCGGCCTGGCCCTGCTGGTGGGCGGCGCGTTGCTGCTGGGCAAAATCGCCGTGGCGTTCGAATGGCTGGCGGTGTTCGGCGCCTTCGGTTGTGCGCTGGTCACCGGCGTCGTCTTCGGTTTCATGCCGGCCCGCAAGGCCGCTCGCCTCGACCCGGTCGCGGCCCTTACCAGTGAATGA	MSTPLIELRDIRKAYGGGDSPRVEVLRGIDLSIHAGEFLAIVGASGSGKSTLMNILGCLDRPTSGEYRFAGENVARLGSDELAWLRREAFGFVFQGYHLIPSGTAQENVEMPAIYAGTSAAERHARASALLERLGLASRTGNRPHQLSGGQQQRVSIARALMNGGHIILADEPTGALDSQSGIEVMALLDELASQGHVVILITHDREVAARAKRIIEIRDGLIISDSATTTASAPQANPKALQAVDLRQRLSAGSEHNGAWKGELVDAVQAAWRVMWINRFRTALTLLGIVIGVASVVVMLAVGEGSKRQVMAQMGAFGSNIIYLNGTAPNPRAAKGIISEQDIAALAALPEVQRFMPVNGNNANVRFGNLDHTSYVGGNDTNFPTIFNWPVAQGSYFSDTDERSAAAVAVIGHKVRQKLLKDVADPIGRYILIENVPFQVVGVLAEKGASSGDSDADNRIAVPYSAASVRLFGSRHPEYVVIAARDAAKVKEAEQAVSRTLLRLHNGKQDFELTNNAAMIQAEARTQGTLSLMLGAIAAISLLVGGIGVMNIMLMTVRERTREIGIRMATGARQRDILRQFLTEAVMLSVVGGLAGIGLALLVGGALLLGKIAVAFEWLAVFGAFGCALVTGVVFGFMPARKAARLDPVAALTSE	PGPT0027920_359	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027920-macB|ybjZ|pvdT-K05685	NA	NA
D1-35_02204	1149	macA	COG0845	Macrolide export protein MacA	ATGAAACGTCCCCGCCTCACCCGCCCCGCCTGGCTCCTGACTTTCGCCCTGTTACCGGCCGTGGCCTTCGCCGCCTGGCAAGCGGTTACGCCGGACCACGGCCCCGTCGCCACCGCGGCCGTCACCCGCGGCGATATCGAAAACAGCGTCACCGCCCTCGGCACATTGCAACCGCGGCGTTATGTAGACGTCGGCGCCCAGGCCTCCGGGCAGATCCAGAGGATCCATGTCGAGGCCGGCGACGAGGTTCGCGAAGGTCAGTTGCTGGTGGAAATCGACCCGTCCACGCAGAAAGCCCGGCTCGACGCCGGACGTTTTTCCATCGAAAACCTCAAGGCCCAACTCCAGGAACAACGCGCCCAGCACGACCTGGCGCAACAGAAATTCCGCCGTCAACAACAGCTCAAGGCCGGCGGAGCTACTCGCGAAGAGGATGTGCAGACGGCGCAGGCCGAGGTGCGGGCGACCCAGGCGCGCATCGACATGTTCCAGGCGCAGATCCGCCAGGCCCAGGCCAATCTGCGCAGCGATGAGGCCGAATTGGGCTATACCCGGATCTACGCGCCGATGAACGGCACCGTGGTTGCCGTCGGAGCACGAGAAGGCCAGACCCTCAACGCCCAGCAGCAAACCCCGCTAATCCTGCGCATCGCCCGGCTGTCACCGATGACGGTCTGGGCCGAAGTCTCGGAAGCCGACATCGGCCACGTCAAGCCGGGCATGACCGCCTACTTCACCACCCTGGCCGGCGGCAACCGGCGCTGGAGCAGCACCGTGCGACAGATCCTGCCGGTGCCGCCGCGTCCGCTGGAAGCCAGCCAGGGCGGCAGCCCCTCCGGCGGCCGCAGCGGCAGCGAACGGGTGGTGCTCTACACCGTGCTGCTGGACGTGGACAACGCCGACCGCGCCCTGATGACCGACATGACCGCCCAGGTATTTTTCGTCGCTGCCCAGGCCAAGGACGTGTTGACCGTGCCCATCGCCGCGTTGCAGGACGCAAGCCAGGTGCGGGTGCTGGCCGACAATGGCGACATCCAGCCAAGGACCGTTCGCACCGGCGTCAGCGACCGCTTGCGCACGCAGATCCTCGACGGCCTGAGCGAAGGCGATCGCGTGCTGATCGGCCCGGCCAGCGGCAGCGGAGGCTGA	MKRPRLTRPAWLLTFALLPAVAFAAWQAVTPDHGPVATAAVTRGDIENSVTALGTLQPRRYVDVGAQASGQIQRIHVEAGDEVREGQLLVEIDPSTQKARLDAGRFSIENLKAQLQEQRAQHDLAQQKFRRQQQLKAGGATREEDVQTAQAEVRATQARIDMFQAQIRQAQANLRSDEAELGYTRIYAPMNGTVVAVGAREGQTLNAQQQTPLILRIARLSPMTVWAEVSEADIGHVKPGMTAYFTTLAGGNRRWSSTVRQILPVPPRPLEASQGGSPSGGRSGSERVVLYTVLLDVDNADRALMTDMTAQVFFVAAQAKDVLTVPIAALQDASQVRVLADNGDIQPRTVRTGVSDRLRTQILDGLSEGDRVLIGPASGSGG	PGPT0027919_912	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027919-macA|pvdR-K13888	NA	NA
D1-35_02205	480	fecI_3	COG1595	putative RNA polymerase sigma factor FecI	TTGGAAAACTACTATCGCGAACTGGTGTGTTTCCTCAACGCCAGGCTAGGCAACCGCCAGGCGGCCGAAGATGTGGTGCATGACGCCTACGTGCGGGTGCTGGAGCGCGCCAGCGATACCCCCATCGAGCAGCCCCGGGCGTTCCTTTATCGCACCGCGCTGAACCTGGTGATCGACGGGCATCGGCGCAATACCCTGCGCCAGGTCGAATCCCTTGATGTGCTCGACAGCGAAGAACGGTTCTTCACCCCATCGCCCCATACCAGCCTGGACCACGGCCAGCGCCTGGACATGCTGCAACGGGCCCTGGCCGAGTTGCCGCCGCTGTGCCGCGAGAGTTTCCTGCTGCGCAAGCTCGAAGGCCTGTCTCACTCGCAGATCGCCGGGCGCCTGGGTATTTCCAGGGCGCTGGTGGAGAAACACATCGTCAATGCCATGAAGCATTGTCGTATTCGCGTACGGCAGTGGGACGCGTCCTGA	MENYYRELVCFLNARLGNRQAAEDVVHDAYVRVLERASDTPIEQPRAFLYRTALNLVIDGHRRNTLRQVESLDVLDSEERFFTPSPHTSLDHGQRLDMLQRALAELPPLCRESFLLRKLEGLSHSQIAGRLGISRALVEKHIVNAMKHCRIRVRQWDAS				NA	NA	NA	NA	NA
D1-35_02206	1335	pvdA	COG3486	L-ornithine N(5)-monooxygenase	ATGACACAGGCAATTGCAGCGCCCACCGTTCACGATTTGATCGGCATCGGCTTCGGCCCTTCGAACCTGGCGCTGGCCATCGCGCTTCAGGAACGTGGCCCGGTCCAGGGCGAACTGGATGTGTTGTTCCTCGACAAACAGGCTGACTACCGCTGGCATGGCAATACCCTGGTGACCCAGAGCGAATTGCAGATTTCCTTCCTCAAGGATCTGGTGACCCTGCGCAACCCGACCAGCCCGTACTCGTTCGTCAATTACCTCAAGCACCATGGCCGCCTGGTGGATTTCATCAACCTCGGCACCTTCTACCCGTGTCGCATGGAGTACAACGACTACCTGCGCTGGGTGGCGGCGCAGTTCGCCGGCCAGAGCCGCTACGGCGAAGAGGTGCTGCGCATCGAGCCGGTGCTGCACAACCAGCAGGTTGAAGCACTGCGGGTGATTTCCCGCAACGGACGGGGCGAGGAGTGTGTGCGCACCACGCGTTCGGTGGTGGTCAGCGCTGGCGGCACGCCGCGCATTCCCGAGGCGTTCAAGGGGTTCAGGGAAGATGCGCGGGTGTTCCATCACTCGCAGTATCTGGAGCGCATGGCAACCCAACCGTGCGTGAGCGGCCAGCCAATGAAAATCGCGATCATCGGCGGCGGCCAGAGCGCAGCCGAAGCCTTCATCGACCTCAACGACAGCTTCCCATCGGCACAGGTCGACATGATCCTGCGCGGCTCGGCCCTCAAGCCGGCCGACGACAGCCCGTTCGTCAACGAAGTGTTTTCGCCGGAGTTCACCGACCTGGTGTTCCAGCAACCCCACAGCGAGCGCGAGCGGCTGGTCAATGAATACCACAACACCAATTATTCGGTGGTGGACATCGATCTCATCGAACGCATCTACGGGATTTTCTATCGCCAGAAAGTCTCGGGCATCGCCCGCCATGCGTTCCGTACCCTGACCACGATCGAAAAAGCCACGGCCACGGAGAATGGCGTGGAGTTGGCCATGCGCAACAACGCCACCGGCGAGCTGACAAACCGGCGCTATGACGCGGTGGTGCTCGCCACCGGCTACGAGCGCCAGATGCACCGCACCTTGCTCGAGCCGCTGGCGCAATACCTCGGCGATTTCGAGGTGGATCGCAACTACAAACTGATCACCGATGAGCGCTGCAAGGCCGCCATCTACATGCAGGGCTTTTGTCAGGCCAGCCATGGTTTGAGCGACACCTTGCTGTCGATCCTGCCGGTGCGCGCCGACGAAATCGCCGGCTCGCTCTATGAGCACGGCAAGGAACGCGGCCTGGGCCAATCGGTACGGGAACAGTTGCTGGCCACGGCATAA	MTQAIAAPTVHDLIGIGFGPSNLALAIALQERGPVQGELDVLFLDKQADYRWHGNTLVTQSELQISFLKDLVTLRNPTSPYSFVNYLKHHGRLVDFINLGTFYPCRMEYNDYLRWVAAQFAGQSRYGEEVLRIEPVLHNQQVEALRVISRNGRGEECVRTTRSVVVSAGGTPRIPEAFKGFREDARVFHHSQYLERMATQPCVSGQPMKIAIIGGGQSAAEAFIDLNDSFPSAQVDMILRGSALKPADDSPFVNEVFSPEFTDLVFQQPHSERERLVNEYHNTNYSVVDIDLIERIYGIFYRQKVSGIARHAFRTLTTIEKATATENGVELAMRNNATGELTNRRYDAVVLATGYERQMHRTLLEPLAQYLGDFEVDRNYKLITDERCKAAIYMQGFCQASHGLSDTLLSILPVRADEIAGSLYEHGKERGLGQSVREQLLATA	PGPT0003390_373	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-PYOVERDIN_BIOSYNTHESIS,PGPT0003390-pvdA-K10531	NA	NA
D1-35_02207	3645	bvgS_3		Virulence sensor protein BvgS	ATGATTGTGTTTTCACGCATGAGCCTGGCGGCGTTGTCGCTGGGTTTATTGAGCATGGCACCGCAGGTCGTCGCTGCGCCCGAGTTACTGCAGGTGCTTGGGCGTTCCACCGTGAGCGGTTATTCGGTGTCGCTGGACGCAGCCGACCGGGCCTGGCTGCGCGACAAGGGCTCGTTGCTGCTGGGCGCCTCGGCGCCGGATTATGCGCCGTTCGGTATCACCGGCAATGGCCATGAATACGAAGGCCTGACCGCCGATTACGCCGGGTTGCTCGGTCAGTTGTTGCAGGTCGATGTGCAGGTGCGCCGGTACCCGTCGCGGGCCGAGGCGCTGCAGGCCCTGCGCGGCGGTGCAATCGACATGCTCGGCAGCGCCAATGGCTTCGAGGCGGGCGATCCGGAACTGGCGATGTCCCAGGCCTACGCCGATGACCAGCCGACCCTGGTGACCCGTGCCGGTGACAATCGCAAGCTCGCGCCGGACCTGGCGGGCAAGCGGGTGGCGATGCTTTATCACTATCTGCCCCCTGAAGCGGTCAAGGCTTTTTACCCCAAGGCTTCGCTGCAGCTGTACCCGTCGACGCTGAGCGCCATCGGTGCCGTGGCTTTCGGCCAGGCCGACGTCTATCTGGGGGACTCGATCAGCGCCCATTACCTGATCACCAAGAACTACCTGAACAACGTCCAGTTGGCCGATTTTTCACGCTTGGAAGTGCAGCCGTTCGCGTTTGCCCTGGCGCGTGACAACACGCGCCTGCTGCGGATCATCAACAGCGCCTTGCAAGCCATTCCCGGCACCGAGCGCATGGCGATCCTGCGCCGTTGGAGCGCCGGTGGCACAAGCATGCCCGGCCACCAACGGCTGCATTTCAGCGTCAGCGAACAACGCTGGCTGGACACGCATCCGCGAATCAGGGTGGTGATCAATGATCACTTCATGCCGCTCACGTTCATTGACCAACAGGGGCACTTTCGCGGCATCAGTGCCGATGTGCTGGCGAAAATCAGCCTGCGCACCGGGCTGAAATTCGATATCCAGCACGGTGAGTCGCTTGAGGATCTGATCGCGCAGGTCAAGGGCGGCGAGGCCGACGTCGTGGCGGCGTTCCCGCCGGGTTCCGACTACGCCGATGAACTGAGTTCCACCCGACCTTATTTGAGCAATCCCTACGTGCTCGTGGCCGCCCTGGATACCCAGGCCCCCGTCACGCCGGAGCAGATGGCCGGCAAGCGTCTGGCGCTGGTGCGCGGAAATGGGCTGCGCGATTACCTGCTGCAGCAATTTCCCGAGGTCCAACTGGTGCCGGCGCAAAACGCCGCCGATGCCCTGGCCATGGTGGCTTCCGGCGCGGTGGACGCGGCGATCAGCCCGCTGCTCAGTGCCAGCTACATGATCTCCCGTCAGTACCGCGACACGCTGCGGATCACCTGCACCGTCGGCACCGAGCCGGCGCTGATCGCCTTGGGCACCCGCCGGGACGCGCCGCAGTTGCATTCGATCCTGGACAAGGCGCTGCTCAGCGTTGCTCCTGAGGAAATGGACGAACTGACCAACCGCTGGCGTACGGAAATCGTTGTGGAAGACAGTTATTGGCTGCGCCACCGCGCCACCGTTCTCCAAGGCTTCGCCATCGCTGCACTGCTGTTGTTCCTGGCGCTGGGCTGGATCGGCTATCTGCGCCACCTGATACGCAAGCGTCGGCAGGCCGAAGTCGCCCTCAACGACCAGCTGGAATTCATGCGGGTATTGATCGATGGTACGCCGCATCCGATCTATGTCCGTGATCGCGAGGCGCGGTTGGTGTTGTGCAACAGCGGCTACCTTGAGGTATTCGGTGCCGAACGGCAGAGCGTTGTCGGCAAGACCCTGCTCGAAAGCGCGCCGGGGGATCCGGTCGAAGCGCGGCTCTACCACCATGACTATCTAAGGGTCATGGAGGAGGGCTTGCCACGGGTCCAGGACCGCGGCCTGACTGTGGCCAGCGGCGAGGTGCTGACTATTTATCAATGGATGCTGCCGTATCGCGGCAGCGACGGCGCGGTCAGCGGCATGATCGGCGGCTGGATCGACGTCAGCGAACGCCAGTACCTGCTCGAACAATTGCGCATTGCCAAGGACGGTTCGGATGACGCCAACCGGGCCAAGACCACGTTCCTGGCGACGATGAGCCACGAGATCCGCACGCCGATGAACGCGGTGATCGGCATGCTCGAACTGGCGCTGAAAAAGGCCGAAGAAGGCATTGTCGATCGGGCGGCCATCGAGGTCGCTTCGGGCGCCGCCCATGGCTTGCTGGCGCTGATCGGCGACATCCTCGATGTTGCCCGTATCGAGTCCGGGCGGATGTCGCTGGCGCCGGAGCGCGCCAACCTGCGGGAGCTGGTCGAGTCGGTGGCGCGGGTTTTCGAGGGCCTGGCCCGGCAGAAACACCTGGGCCTGCAGCTGGCCCTGGACGACGAGCTCGACCGCGACGTGCTGATCGATCCGTTGCACTTCAAGCAGGTGCTGTCGAACCTGCTCAGCAACGCGATCAAGTTCACCGATCAGGGCTTGGTGCGCTTGATCGCCGAGGTCGTCCCCGGCAGTGAAGACGAGCGACTCGCTGTTCGCTTGCGGGTGGAAGACACCGGCAGCGGGATTTCCCTTGAAGACCAGCAGCGGCTGTTCCAGCCGTTCACCCAGGTCGGCGACAACCGCGAGTCGACCCGCGGCGGCTCCGGGCTGGGGTTGGTCATCAGCCGGACCTTGTGCGAAATGATGGGCGGCACCCTGACGATGAGCAGCCTGCCGGGGGAGGGCACGCAGGTCGAGATCCGGCTGGATCTGCCGCTGCTCGACGCCTTGCTCCAGGCCCCACTTGCCGGGGGCAAGACGCCGTTGCCGATGCGGGTGCTGGCCATTCTGGTGGTCGATGACTATCCGGCCAATCGCCTGTTGCTGTGCCAGCAACTGAGTTACCTGGGCCACCGCGTGGAGGAGGCTGCGGAGGGTGTGCAAGGCCTGCATGCGTGGCGCGCCGGGCGCTTCGACATGATCATTACCGACTGCAACATGCCTTTGATGGATGGCTACGCATTGACCCGAGCCATTCGTGAAGAGGAGCACGCGCGAGGCCTGTCGCCGATATTGATACTCGGGTTCACCGCCAATGCCCAGCCAGAAGAAAAGCAGCGTTGCATCGACGCGGGAATGAACGACTGCCTGTTCAAGCCCATCGGGCTCGAAGTCCTCGGTGCCCGTCTGGCGCAGGTTTTTCCGGAACCGGCCGCAGGGTTTCCTGGAACGGAGGCCGAGGCGCCCGCGGATGATTTCGACCTGGACGGCCTGGCGCAGTTGACCGGCGGCGATACGGAGGCGCTGAACAGCCTGATCAGCGAACTGGTCACCTGCAATACCGAAGACACCGCGCAATTGCTGCACTTGTCCGCCCGGCATGATCTGCCCGGACTCGCCGACCTGGCGCATCGGATCAAGGGCGGGGCGCGGATGGTCAGGGCGCAAGGTCTGGTTAGCGCGTGCGATGCCCTGGAAGACGCTTGCCGGGAGCGGGATGCGTCGTCGTTGGCCGATGCGGTGGGTGACTTGCAGCAGGCGCTCGAACATTTGACCGGGCGGCTGCGTGCATCGTCGCTCTGGTCAGGTTGA	MIVFSRMSLAALSLGLLSMAPQVVAAPELLQVLGRSTVSGYSVSLDAADRAWLRDKGSLLLGASAPDYAPFGITGNGHEYEGLTADYAGLLGQLLQVDVQVRRYPSRAEALQALRGGAIDMLGSANGFEAGDPELAMSQAYADDQPTLVTRAGDNRKLAPDLAGKRVAMLYHYLPPEAVKAFYPKASLQLYPSTLSAIGAVAFGQADVYLGDSISAHYLITKNYLNNVQLADFSRLEVQPFAFALARDNTRLLRIINSALQAIPGTERMAILRRWSAGGTSMPGHQRLHFSVSEQRWLDTHPRIRVVINDHFMPLTFIDQQGHFRGISADVLAKISLRTGLKFDIQHGESLEDLIAQVKGGEADVVAAFPPGSDYADELSSTRPYLSNPYVLVAALDTQAPVTPEQMAGKRLALVRGNGLRDYLLQQFPEVQLVPAQNAADALAMVASGAVDAAISPLLSASYMISRQYRDTLRITCTVGTEPALIALGTRRDAPQLHSILDKALLSVAPEEMDELTNRWRTEIVVEDSYWLRHRATVLQGFAIAALLLFLALGWIGYLRHLIRKRRQAEVALNDQLEFMRVLIDGTPHPIYVRDREARLVLCNSGYLEVFGAERQSVVGKTLLESAPGDPVEARLYHHDYLRVMEEGLPRVQDRGLTVASGEVLTIYQWMLPYRGSDGAVSGMIGGWIDVSERQYLLEQLRIAKDGSDDANRAKTTFLATMSHEIRTPMNAVIGMLELALKKAEEGIVDRAAIEVASGAAHGLLALIGDILDVARIESGRMSLAPERANLRELVESVARVFEGLARQKHLGLQLALDDELDRDVLIDPLHFKQVLSNLLSNAIKFTDQGLVRLIAEVVPGSEDERLAVRLRVEDTGSGISLEDQQRLFQPFTQVGDNRESTRGGSGLGLVISRTLCEMMGGTLTMSSLPGEGTQVEIRLDLPLLDALLQAPLAGGKTPLPMRVLAILVVDDYPANRLLLCQQLSYLGHRVEEAAEGVQGLHAWRAGRFDMIITDCNMPLMDGYALTRAIREEEHARGLSPILILGFTANAQPEEKQRCIDAGMNDCLFKPIGLEVLGARLAQVFPEPAAGFPGTEAEAPADDFDLDGLAQLTGGDTEALNSLISELVTCNTEDTAQLLHLSARHDLPGLADLAHRIKGGARMVRAQGLVSACDALEDACRERDASSLADAVGDLQQALEHLTGRLRASSLWSG	PGPT0014485_167	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE_EVG-EMR_SYSTEM,PGPT0014485-evgS|bvgS-K07679	NA	NA
D1-35_02208	405			hypothetical protein	ATGCCGAACAAAGCATTACGTATCATGATCGCCGATTCAGAGCATTTTCATCGAATGAAGCTTGAGCGCCTGTTCAACCAGCAAGGTTATTTCCGGATTGCGCCGGTGAACGACATGGAGGAATTGTTGCTGCTGGTGGAGTATGGCAGCGAGCCGTTCGACGTGATCGTCGCCAATGCCCGACTGGCAAGTGGCGGAGTGGAGTTAGCCGATTTCCTGGTCGACAACCCCCAGGTGCTTCACGGGTTGATCTACAACATGCCGCAGGCTGGCGTGTCGCCGCAGGTAGGCGGGCGCCGGTCTCACGTGCAACTGAGCCAGGCCGCGTTGCCCGAACCTGTTGCACTGGCCTGCCTGATGGCTCGTGCCGAGGGAGCGTGTATCAGCGAGCGGGCGCGCTCTTGA	MPNKALRIMIADSEHFHRMKLERLFNQQGYFRIAPVNDMEELLLLVEYGSEPFDVIVANARLASGGVELADFLVDNPQVLHGLIYNMPQAGVSPQVGGRRSHVQLSQAALPEPVALACLMARAEGACISERARS				NA	NA	NA	NA	NA
D1-35_02209	615	bvgA_3		Virulence factors putative positive transcription regulator BvgA	GTGAAAGACATGTTGATCGTGGACGACCACCCTGTCATTCGAGGAGCGTTGCGGCTCATTTGCCAGAATGAAGGGGCTGCGCAGGTCCGCGATGCCAGCAGCGTGGCGCAAGCCAGGGCCTTGATCAAGGAAGGCATACCCGACCTGGTGATCCTGGACCTGGTAATGAACGGTTTCGACGGCCTTGAACTGTTGAGCTGGATCATGGCCGAGTTCCCGTCATGCGGGGTGCTGGTGTTTACCTCCCAGGATGCCCAGCATTTCTGCAATCGCTGTATCTCGGCGGGGGCCCGAGGGTTTGTCACCAAGAAAAGCGACCTGAAGGAATTGACCAAGGCCATTCATGCATTGAAGTCCGGTTATTCCTATTTCCCACAGATGTCCGTCCGCCTGGATTTCCAGCAGCGCACCGAACAGCAGGCGCTGGAGAGTCTCTCGATCCGCGAGTTGTCAATCCTGCGGATGCTGGCCATGGGCATGCGCGGCAAGGACGTCGCCGAAGCTTTGTTCCTGAGCCCCAAGACGGTCAGCACCTACAAGACCCGCCTGCTGGAGAAGCTTGGCTTGAAAACCCTGGTGGGCCTGTCGGATTTCGCCAAGCGCAATCACTTGTAG	MKDMLIVDDHPVIRGALRLICQNEGAAQVRDASSVAQARALIKEGIPDLVILDLVMNGFDGLELLSWIMAEFPSCGVLVFTSQDAQHFCNRCISAGARGFVTKKSDLKELTKAIHALKSGYSYFPQMSVRLDFQQRTEQQALESLSIRELSILRMLAMGMRGKDVAEALFLSPKTVSTYKTRLLEKLGLKTLVGLSDFAKRNHL	PGPT0014490_394	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MdtEF-TolC,PGPT0014490-evgA|bvgA-K07690	NA	NA
D1-35_02210	825	dmlR_9		HTH-type transcriptional regulator DmlR	ATGCCCAAGTCCAAGCTCAGCCGGCGTATCGCCCAGCTGGAGGAGCGCCTGGGCGTCAGGCTGATCCATCGCACCAGCCGGCATTGTTCGTTGACGGAAATCGGCCAGGCCTATTACCAGCGCTGCCTGGCCATGCGGGTCGAGGCTGAAAGTGCCGCCGAAGTGATCGAACGCAACCGCTCAGAACCCCAGGGACTGGTGCGCATCAGTTGCCCGACGGCGCTGCTCAACAGCTGGGTCGGACCGATGCTGACCCGCTACATGGTCAAGTACCCGCGGGTGGAGCTGTTCATCGAGAGCACCAACCGCCGCGTCGACCTGCTCCACGAAGGGTTCGATATCGCGTTGCGGGTCCGTTTCCCCCCGTTGGAAAACACCGACATGGTCATGAAGGTGCTGAGCAACAGCACCCAGTGCCTGGTGGGAAGCCCGGTCTATCGTGAAGGCCTGTCGTCCCCCGCCTCGCCGGCGGACCTCAATGGCCTGCCCAGCCTCCACTGGGGTTCGGCGCAACGTGAATACCAATGGGAGCTGTTCGGCCCGGACGGCACCCGCGCGCTGATCCGCCACGCACCGCGCATGGTCACCGACGACCTGCTGGCCTTGCGTCATGCGGTGCTGGCAGGCATCGGCATCGCTCACCTGCCCACGGTCGTGGTACGCGAAGACCTGGCCGCCGGACGCCTGGTGGAACTGGTGCCGGGCTGGACACCGAAATGCGGGATCGTCCATGCGATATTCGCCTCACGCCGTGGCTTGCTGCCCTCGGTGCGAACCCTGATCGACTTCCTCGCCGAGGAGTTCAGCCAGAGCGACATGGCCTAG	MPKSKLSRRIAQLEERLGVRLIHRTSRHCSLTEIGQAYYQRCLAMRVEAESAAEVIERNRSEPQGLVRISCPTALLNSWVGPMLTRYMVKYPRVELFIESTNRRVDLLHEGFDIALRVRFPPLENTDMVMKVLSNSTQCLVGSPVYREGLSSPASPADLNGLPSLHWGSAQREYQWELFGPDGTRALIRHAPRMVTDDLLALRHAVLAGIGIAHLPTVVVREDLAAGRLVELVPGWTPKCGIVHAIFASRRGLLPSVRTLIDFLAEEFSQSDMA				NA	NA	NA	NA	NA
D1-35_02211	867			hypothetical protein	ATGAAAAACATCACCGGCGTCTATACCAGTCCGCGGCCTCATTGGGTCGGCGACGGCTTTCCGGTTCGCACGCTGTTTTCCTACGATAATCTGGGCAAACATGTCAGCCCGTTCCTGCTGCTCGATCATGCGGCCCCCAGCGAATTCGCACCGACCACCGAGCGACGCGGCGTAGGCCAGCACCCTCATCGTGGTTTCGAAACCGTGACCATCGTCTACCAGGGCGAACTGGAACATCGTGATTCGACTGGCAGCGGCGGCAAGATCGGCCCCGGTGACGTGCAATGGATGACCGCTGCGTCCGGCATCATTCACGAAGAGTTCCACTCCGAAGCCTTCGCCCGGCAGGGCGGGTTCATGGAAATGGTCCAGCTGTGGGTCAACTTGCCCGCCAAGGACAAGATGGCGCCGGCCGGCTACCAGACCATTCTCAAGGGCGACATCCCACAGATCGCTCTGAAGGACGGAGCCGGTAGCTTGCGCCTGATTGCCGGGTCCTTCGAAGGGCATCAAGGCCCGGCGAAAACCTTTACCCCGATCGACGTCTGGGACATCCGCCTGAACGCCGGGAAGCACCTGGCCGTGGCCGTGCATGACGGTTACAACACCGCACTGGTTGTGCTGCGCGGTACCGTCCAGGTCAACGGCCGTGAACGCGTCGAGCAAGGGCAACTGGCCCTGTTCGAACGGGCCGGCGACCAATTGAGCCTGCAAGCCGACCATGACGCGGTGGTCCTGTTGCTCAGTGGCGAGCCCATCGATGAACCCATCGTCGGCCATGGCCCGTTCGTGATGAACAGCCAGCAGGAAATCCTCCAGGCCTTCGAGGATTTCCATTCCGGGCGCTTCGGCCGGATGGACGGCTGA	MKNITGVYTSPRPHWVGDGFPVRTLFSYDNLGKHVSPFLLLDHAAPSEFAPTTERRGVGQHPHRGFETVTIVYQGELEHRDSTGSGGKIGPGDVQWMTAASGIIHEEFHSEAFARQGGFMEMVQLWVNLPAKDKMAPAGYQTILKGDIPQIALKDGAGSLRLIAGSFEGHQGPAKTFTPIDVWDIRLNAGKHLAVAVHDGYNTALVVLRGTVQVNGRERVEQGQLALFERAGDQLSLQADHDAVVLLLSGEPIDEPIVGHGPFVMNSQQEILQAFEDFHSGRFGRMDG	PGPT0019980_2805	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
D1-35_02212	1443			hypothetical protein	ATGCTGTCTCTGTTCACCGACCACCCGCTGCTCTGTGCCCTGGCACTGCTTGTGCTCGATCTGGTGTTGTGGCGGCTTGTCAGCGCCGACCGGACCTACTGGAAAATCGGTGTACGGCTGCTGATCTTTTCGTTGTTCAGCGTGCTGCTGTTCAACGAAGGCCTCAATCCCATGGAAAAAGCCCAGTGGGTCGACGACGTGCCCCGGCACCTCGCGGCGACCGGCTTGCAGATTGGCTGGTGGTTGTTCGCCGCGCGCACTCTGACGGTGATGATCGGTGCGGTGATGATGCAACGGGTCGGCCATACCGGGCGGCTATTGCAGGACCTGCTCGGTGCGGTGATTTTCCTGGTCGCGGTGATCGCCGCGTTGGCTTACGTGCTCGACCTGCCTGTCAAAGGCGTGCTGGCGACGTCCGGCGCGATGGCAATCATCGTCGGCCTGGCGTTGCAGAGCACCCTCAGCGATGTTTTCTCCGGCATCGTGCTCAATACCACAAAGCCCTATCAGGTCGATGACTGGATTTCCATCGACGGCACCGAAGGCCGGGTCACCGACATCGATTGGCGGGCTACACGGCTGCAGACCTCCCAAGGGAGCATGGCGGTGATCCCCAACTCGCTGGCGGCAAAGGCCAAGATCATCAATTTCAGCCGACCCAGCGATGTCCATGGCTTGTCGATCAGCATCCAGGTGAGCCCTCACGCACGGCCGCAAACGGTAATCGACGCACTGGAGCGGGCGATGGTCGGCTGCCGTGCGTTGCTGTCGAGCCCGGAGCCCTGCGTGGCGCTGAAAAGCACCGGCAGTGGCGGGGCGGAATACGAGATCAGTGGGTTCGTTGCCTCGATGGGCCAGAAGCGCGGGGTGCGCAACCAGTTGTTCGACCTGGCGTTCCGGCATTTGCAGGCGTCCGGCGTGAGCCTGCTGTCCACTAGTGAAAGTGCGGCTCCCGCCGTGGTGTCGCGGCCCCGGGCATTGCTGGAGAGCTCGAACATTTTCTCGACCCTGCGCCAGGATGAAAAAGACACCTTCAGCCAGAACATGACCTTGCAAACCTTCCGCGCCGGCGACGTGATCCTGGCGGCCGGGGAGGTCAGCGATCATCTGTTCATCATCGAGTCCGGGGTGGTCAGCGTGACGCTCATGCGTAAAGGCCAGCCGCTGGAGGGCGGGCGCATGGGACCGGGGGAAGTTATCGGCGAAGCCGGAATCGTCGCCGAACAGGCCGCACTGGCGAACTTCTCTGCCAAGACCTTCTGCACGCTGTATCGCATCGAGAACAGCTACCTCAAGCCCTGCCTCGAAGCCCGTCGCGATATCAACGACGCGATGAAGAACCTGCTGGACGTGCGCATGCACCTGGCCCAGAACCTGACTCGCGACGTGCCCAAGCCGGTGGCCAAGAAGCGTTTTCTGCAGTGGTTGCGCAGCCGGGCCTGA	MLSLFTDHPLLCALALLVLDLVLWRLVSADRTYWKIGVRLLIFSLFSVLLFNEGLNPMEKAQWVDDVPRHLAATGLQIGWWLFAARTLTVMIGAVMMQRVGHTGRLLQDLLGAVIFLVAVIAALAYVLDLPVKGVLATSGAMAIIVGLALQSTLSDVFSGIVLNTTKPYQVDDWISIDGTEGRVTDIDWRATRLQTSQGSMAVIPNSLAAKAKIINFSRPSDVHGLSISIQVSPHARPQTVIDALERAMVGCRALLSSPEPCVALKSTGSGGAEYEISGFVASMGQKRGVRNQLFDLAFRHLQASGVSLLSTSESAAPAVVSRPRALLESSNIFSTLRQDEKDTFSQNMTLQTFRAGDVILAAGEVSDHLFIIESGVVSVTLMRKGQPLEGGRMGPGEVIGEAGIVAEQAALANFSAKTFCTLYRIENSYLKPCLEARRDINDAMKNLLDVRMHLAQNLTRDVPKPVAKKRFLQWLRSRA				NA	NA	NA	NA	NA
D1-35_02213	441			hypothetical protein	ATGCAACCGCGTATCGATTTCTACACCGCTTCCCCCGACGCCTACAAAGCCATGCTGACGCTGGAAAACACGGTGTCGAAACTGGGCCTGGAAAAGTCCCTGCTGGAGTTGGTCAAGCTGCGTTCCTCGCAGATCAACGGCTGCGCATTCTGCATCGACATGCACACCGCCGATGCGCGCAAGGACGGCGAGACCGAGCGGCGCCTGTACGCGGTGACCGCCTGGCGCGAAGCACCGTTCTTTACCGGCCGTGAACGCGCCGCGTTGGCCTGGACCGAAGCGCTGACACGCCTGAGCGAGACCCATGCGCCAGACGCGGACTACGCGCTGCTGAGCGAGCATTTCACGCCCAAGGAGATGGTCGATCTGACCGTGGCGATCAATGCCATCAACGGCTGGAATCGGCTGGCAGTGGGCTTTCGGAAAATGCCCGAGGTTTGA	MQPRIDFYTASPDAYKAMLTLENTVSKLGLEKSLLELVKLRSSQINGCAFCIDMHTADARKDGETERRLYAVTAWREAPFFTGRERAALAWTEALTRLSETHAPDADYALLSEHFTPKEMVDLTVAINAINGWNRLAVGFRKMPEV				NA	NA	NA	NA	NA
D1-35_02214	765	nimR_1		HTH-type transcriptional regulator NimR	ATGGCTTGGCTCGACGCTCACGCCCGCTTCGACCCCGATCGCCATCACGCGCCGGTCGTTGGCATCGCCGCAACGCTGGGTCATCACGATTCTGGCTTGCACGCTCACCGGCGTGGGCAATTGCTGTTCACCTTTCACGGCTGCACGCGCATCACCTTGCAACGGCAACTTTGCCTGCTGCCCCCCTCACGAGCGGCCTGGATTCCACCGGGCACGCCGCATCGCGCAGTGATGCAACAGAGCGTGGAGTATCGATCAATCTACCTGACGCCGGCTTTGTGCGCCGATCTACCTTCGCAAGTGCGCATCATCGAGGTTTCGCCACTGCTGCGCGCCGTACTTGAACCGATCGCCCACGCTGCGTTTGACAGCGACTGGATGCAGGGCCGCAACGCGCATCTGCTGGGCCTGTGCGTGGAGGAAATCCGCCAGGCGGCACCACAGCCGATGCTGCTGCCGCTGCCTCAAGACAAGCGCCTGGCGCCGCTGCTCAAGACTCTGGAACAACTGCCACCGGCGCTGGCTGTGCTGGAGCAGCAGATCGGCGCGAGTGGCCGGACCATCGGGCGAATCCTGCAACGGGAAACCGGCATGAGCTATCAGCAGTGGCGTCAGCAATGGCGCTTGATGCGCGCCATTGAACTGCTCGCCACTGGCCGCAGCCTGAGCTATTGCGCTTTCGAACTGGGCTTTGCCAGCGACAGCGCCTTTATCGCTTTCTTCAAGCTCATGACCGGTCTCACGCCCAAGAACTACCTGAGGTAA	MAWLDAHARFDPDRHHAPVVGIAATLGHHDSGLHAHRRGQLLFTFHGCTRITLQRQLCLLPPSRAAWIPPGTPHRAVMQQSVEYRSIYLTPALCADLPSQVRIIEVSPLLRAVLEPIAHAAFDSDWMQGRNAHLLGLCVEEIRQAAPQPMLLPLPQDKRLAPLLKTLEQLPPALAVLEQQIGASGRTIGRILQRETGMSYQQWRQQWRLMRAIELLATGRSLSYCAFELGFASDSAFIAFFKLMTGLTPKNYLR				NA	NA	NA	NA	NA
D1-35_02215	1158	ydhC_1		Inner membrane transport protein YdhC	ATGACATCCCGTCCCCTGCTTCATCTGGCGATCGCCCTGGTCATGTTTCCCCAGATCGCCCAGACCCTTTACAGCCCTGCATTGGCAGACATCAGCCAGGCCTTTGCCGTCAGCGCCCAAATGGCGGCGCAGACGCTTTCGGTGTTTTTCCTGGGGTTCGCTCTCGGAGTGGTGGTATGGGGGCGCCTCTGCGATCGCGCGGGCCGTCGGCCCGTCATGCTGGCCGGCCTCGCGTTGTACGGGGCTGCGACCGTGCTCGGTTTGAACGCCTCAAGCTTTGACGCGTTGCTGGCCTTTCAGGCCTTGGCCGCGTTCGGCGCCGCAGTCGGTTCGGTAGTGACCCAAACGGTTTTGCGTGACCGCTTCCAAGGCGCCGAACTGGGCCAGGTCTTCTCGATCATCGGTATCGCATTGGCGGCCAGTCCGGCTATCGGTCTGTTCAGCGGCGCGGGCCTGGTGGAGCTCTTCGGGTATCAAGGCGTACTCGGCGCACTTTTGCTGCTGTCGTTGATCCTGCTGCTGTGGTGCGTGTGTGCCTTGCCCGAAACCTTGCCGGTCCGACTGCCTCCACCGCCGCTGTTGAAAATCCTCTGGCGCATGCTGGTGGACCCGGCCATCTGGCGTTCGGCATGGCTGGTGGCTGCGTTCAACGTGGCGCTGTTCAGCTACTACAACCTCGCACCGTTCCAGTTCGAACGGCTCGGCTTGAGTCCCGCCATGTTCGGTTACAGCGGAGTAGTTCTGGCGTTGGGTTCAGGCTTGGGCGCCTGGCTCAACAAACGCCTGCTGGCACGCGGATTCGACGGCAATCAATTGTCGGCCCTGGCGGCGATTGTCCTGCTGGTGGGCGGTTCGGGCGTGCAAGGCCTGCTCGACAGCGGCAGCTTTGTCGCACCGATGTTGCTGGTAGTGCTGGCGTTCGGCATGGCGATCCCCAACGTCCTGGGTGCGGCGCTCGTACATTACAAGGATTGCCTGGGCACGGCCGGCGCGCTGTTCGGCCTGTTCTACTACGTGCTGATCGGCGCTGCGCTGATGCTCGCCGCCTGGTTCCAGGCGCTGGGCTGGACCTTGATCCTTTGCGGCACGCTGGCGGTGGGCTTGACGGTGCGCCAGTTGCTGCGTGCCAAACGCCAGTCATCCCGTGCCGGGAACTAA	MTSRPLLHLAIALVMFPQIAQTLYSPALADISQAFAVSAQMAAQTLSVFFLGFALGVVVWGRLCDRAGRRPVMLAGLALYGAATVLGLNASSFDALLAFQALAAFGAAVGSVVTQTVLRDRFQGAELGQVFSIIGIALAASPAIGLFSGAGLVELFGYQGVLGALLLLSLILLLWCVCALPETLPVRLPPPPLLKILWRMLVDPAIWRSAWLVAAFNVALFSYYNLAPFQFERLGLSPAMFGYSGVVLALGSGLGAWLNKRLLARGFDGNQLSALAAIVLLVGGSGVQGLLDSGSFVAPMLLVVLAFGMAIPNVLGAALVHYKDCLGTAGALFGLFYYVLIGAALMLAAWFQALGWTLILCGTLAVGLTVRQLLRAKRQSSRAGN				NA	NA	NA	NA	NA
D1-35_02216	423			hypothetical protein	ATGCAAGTTCAAGTCAACAGCAACCATATCGAAGGCAGTGTCCGATTGCAGGAGTGGGTCGGCAGTACGGTGGTGGACGCGCTACAGCGTTTCGAAGACCAGTTGGCCCGGGTTGAAATCCACGTCAGCGACGAGAACGCCCAGAAGGGCGGCGCCGCTGACAAACGCTGCCAGATCGAGGCGCGCCTGCAAGGCGTTGCGGCCATCTCCGTAAGCCACAAGGCCGAAAGCCTGGAGCTGGCGGTCGAGGGCGCCGCCGAGAAAATGCTGCATGCGCTCGATCATCAGGTTGGCAAGCTCAACCCCGCCGTCGAATCCATGGGGCGCGTGACCGCTCCGGTGGATGAAGCGCCACCGGAATTGGTGGACGCCATGCTGGAGGAAGACTTCCTCGCAAACCAAGAGGCTCGTGGCAAAGAATAA	MQVQVNSNHIEGSVRLQEWVGSTVVDALQRFEDQLARVEIHVSDENAQKGGAADKRCQIEARLQGVAAISVSHKAESLELAVEGAAEKMLHALDHQVGKLNPAVESMGRVTAPVDEAPPELVDAMLEEDFLANQEARGKE				NA	NA	NA	NA	NA
D1-35_02217	1176			hypothetical protein	ATGACCGCTCATCAACCCTTCAGCCGGCAGGTATTGGCCGAGCTTCTGGCATTCGACGAACAGCCGAGCCTTTCGTTGTATATGCCTACCCACCGTACATTCCCCGAACGCAGCCAGGACCCGATCCGCTACAAGAACCTGGTGCGCGAACTGCAGACGCAACTGGAACAACAGCATCCGGGCGTCGATTGCGCGCCGTTGCTTGAGCCTTTTCATGCGCTGGTGGACGACCAGGATTTCTGGAACTCCAATCGGGACGGCATCGCCGTATTCGGCGCCCGTGACTACTTCAAGGTCATCGCGGTGAACCAGCGCCTGCCGCAATGCGCATTCGCCAACAGCCATCCTTATCTGAAGCCATTGTTGCGTCTGGTCCAGTCGACCGAACGTTATCAGGTGCTGTGCCTGACCCGTAACGAGGTGTGGTTGTACGAGGGCTCCTCCCAACAACTGGAAAAAGTCGAGCTGGCCGACGAGGTGCCGCGCAACCAGAACGAGGCGCTCGGCGATGAACTGACTTCAGGTGACCAGCAGGGTTTTCCCAACGGCTTCAGCCGCAGCAGTGAGCGCGGCGATCCGATGATGCATGAATCCGCCGGCGGCGGTAAGCAGGACGAAATCAACCTCGACCGCGAGCGTTTTTTTCGCGCCGTAGACAAAGCCATCCTGGAACATTACTCGCAGCCTTCGGGCTTGCCGATGATCCTCGTGGCCCTGCCGGAAAACCAGGCGGTGTTTCGCGCGGTCAGCCATAACTCGCAGTTGTTGGCCCAGGGCATCGATGGGGACCCTTCGAGGTTGAGCGTGGAGGAGTTGCGCGTCCAGTGCTCCAAGGTCATGGCCCACAGCCATTCGGATCGGGTCGTCGACAGCCTCAATCGTTATGGCGTCGCGGTCGGCCAGGGACGGGCGCTGGACAACCTCGCCGAGATCGCCAAGGCCGCTTGGGAAAGCCGCATTGCGCTGTTGCTGGTGGAGGCGGAGCGCCAGGTGCCCGGCCAGCTCGACGCAGACAAGGGCCGCTTGATCATTGACGAGACCGGCGATGAACAGGCGCCTGACGTGCTGGACGAATTGATCCTGGCCGTGACCCGGCAGGGCGGCGAGGTCATCGTCGTGCCGCCTGAGCATGTCATGCCGACCGATACGGGGGCGGCGGCGGTGTGCCGGTTCTAG	MTAHQPFSRQVLAELLAFDEQPSLSLYMPTHRTFPERSQDPIRYKNLVRELQTQLEQQHPGVDCAPLLEPFHALVDDQDFWNSNRDGIAVFGARDYFKVIAVNQRLPQCAFANSHPYLKPLLRLVQSTERYQVLCLTRNEVWLYEGSSQQLEKVELADEVPRNQNEALGDELTSGDQQGFPNGFSRSSERGDPMMHESAGGGKQDEINLDRERFFRAVDKAILEHYSQPSGLPMILVALPENQAVFRAVSHNSQLLAQGIDGDPSRLSVEELRVQCSKVMAHSHSDRVVDSLNRYGVAVGQGRALDNLAEIAKAAWESRIALLLVEAERQVPGQLDADKGRLIIDETGDEQAPDVLDELILAVTRQGGEVIVVPPEHVMPTDTGAAAVCRF				NA	NA	NA	NA	NA
D1-35_02218	501	fecI_4	COG1595	putative RNA polymerase sigma factor FecI	ATGATTCCCAAGCTGCCTCGCAGACCCGGCTTTTTCGAGTATTACGAAGAGTTGATCGGCACCTGGACCCGCCGCCTGCGCAACCGCGAGCAGGCCGAGGACCTGGCCCACGACGCCTTCGTGCGCGTGCTCGAGTCCGATTCGGCGCAGGTCGAGCAGCCACGTGCCTATCTGCACCAGACAGCGCGCAATATTGCAGTGGACGGCTATCGGCGTGAAGATCGACGGGGCGCCATGGAGGAAGCGGCGCTTGACCCTGGTTATTCGTTTGCGGGCGACCCGGAGCACTACATGCACGCGATCCAGCTGGCGGACTCCATCGAACGGGCGCTTGCCGAGCTGCCGGCCCATTGCCGCACGGTGTTTGTCTGGCAGAAGATCGAAGGCCTGACCCAGGCGGAAATCGCCGAGCGCCTGGGCCTGTCAAAAAACATGGTGGAAAAGTATATGATCCGCACCCTGCGCCATCTGCGTGATCGCCTCGACGGACCGGATCAATGA	MIPKLPRRPGFFEYYEELIGTWTRRLRNREQAEDLAHDAFVRVLESDSAQVEQPRAYLHQTARNIAVDGYRREDRRGAMEEAALDPGYSFAGDPEHYMHAIQLADSIERALAELPAHCRTVFVWQKIEGLTQAEIAERLGLSKNMVEKYMIRTLRHLRDRLDGPDQ				NA	NA	NA	NA	NA
D1-35_02219	972			hypothetical protein	ATGATGGATAGCCGTGACTGCCCGTGCGGGCAGAGCAGGGTTCGCGACGAGGCGGCGCAATGGTTCGTGCGTCTGCAGGACCCGGTCATGAGCCTCGACGAGCGTCAGCGTTTCGAGGCCTGGCTGGGCGAACACCCCAACCACCGCGATGAAATTCAATTGCTGCAAGGGATCTGGAGCGCAACGGACCTGCTGTCCATGGAGCGCTTGCAAGCGCTGTGCGAGCGGCCTGCCGAACGCCCGAGACGCAGGCCTTTGCTGCGCTATGCGGTGGCCGCCGGATTGGTGGCGGTGGCGGTCGGGCTGGGGCTGTTCAGTGGCCTGGGTGCGTCGAGCGATTACCGCAGCGAATTCGCCACTGCCCTCGGTGAGCGTCGACATGTCGCGCTGCCGGATGGCTCGCTGATCGACCTCAACAGCCGCAGCCATGTGCGTGTTGTCTTCGAACATCGCCAACGTCGGGTAGAGCTGGTCGAGGGGGAGGCGCTGTTCAGGGTCGAGCATGATGCCGCGCGCCCGTTCACCGTTGACGCGGGCAACGGCCAGGTGACGGTGACCGGGACGCGCTTCGACGTGCGCCGCGATGCCGGCAGCACCCGGGTGGCGGTGGAGGAGGGTAGCGTCAAGGTCCAAGGGCGTGATTTCCCCATCAATCTCACGGCCGGCCTGGGTACCCGGATCGATGCTCAAGGCAAGGTCGCGTCACCGTACCCGATCAACGCCGATGAACTCACCGCGTGGCGCAACGGCAAGCTGGTGTTCAACAACGCGCCGTTGAGTGAAGTCGCCGAGGAGGTCTCCCGTTATCGCGCCAGGCCCCTGCGGGTTGCCAGTGCCGCGGTGGGCAACCTGCGCCTGACCAGTGTGTTTCGTTCGGACAATCCCGAGGCGCTGCTCAAGGCCTTGCCGAACATCCTGCCGGTGGCCGTGCGCACACTTGACGACGGCAGCCAGGAAATAATTGCGAAATAG	MMDSRDCPCGQSRVRDEAAQWFVRLQDPVMSLDERQRFEAWLGEHPNHRDEIQLLQGIWSATDLLSMERLQALCERPAERPRRRPLLRYAVAAGLVAVAVGLGLFSGLGASSDYRSEFATALGERRHVALPDGSLIDLNSRSHVRVVFEHRQRRVELVEGEALFRVEHDAARPFTVDAGNGQVTVTGTRFDVRRDAGSTRVAVEEGSVKVQGRDFPINLTAGLGTRIDAQGKVASPYPINADELTAWRNGKLVFNNAPLSEVAEEVSRYRARPLRVASAAVGNLRLTSVFRSDNPEALLKALPNILPVAVRTLDDGSQEIIAK	PGPT0003910_4009	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003910-prhR|fecR-K07165	NA	NA
D1-35_02220	2439	fecA_2	COG4772	Fe(3+) dicitrate transport protein FecA	GTGAAAACTTCCGCCAAGAACAACAAACGTACCGCCACCCGTTGGCTACCGCTGGCGCTGACCCTGGCGGTCAGCGCCGCGTTGCCCGAAGCTTTTGCCGACCAGACCGTCACGGCGATCCACATCCAGGCGCAACCCTTGGGCCAGGCGCTGAGCCAGCTTGGCCAGCAGACCTCGTTGCAGGTGTTTTTCAGCGCGGAGCTGGTGGCCGGCAAACAGGCCCCGGCGGTGCAGGGCAACCTGTCTCCCGAGGTGGCCCTGGGTCAATTGCTCAAGGGCAGCGGTTTGCAATACCAGATCGATGACGGCTCGGTGACTGTACTGCCGGCTCCTTCGACGTCTACCGATGGCCCACTGGAGTTGGGCGCCACCGAGATCCAAGTGGTCGGCGACTGGCTTGGCGACGCCAACGCCGAAGTGGTACAGAACCACGCCGGCGCGCGGACGGTGATCCGCCGCGAAGCGATGGTCGAGCAGGGCGCCATGAACGTCGGCGATGTCTTGCGGCGGGTCCCGGGCGTGCAGGTGCAAGACGCCAACGGCACCGGTGGCAGCGACATCGCCCTGAACGTCGGCGTGCGCGGCCTGACCTCGCGCCTGTCGCCGCGCTCCACGGTACTGATTGACGGCGTACCGGCGGCCTTCGCGCCGTACGGCCAGCCGCAACTGTCCATGGCACCGATCTCGTCGGGCAACCTGGACAGCATCGACGTGGTACGCGGTGCCGGCTCGGTGCGCTACGGACCGCAGAACGTCGGCGGCGTGATCAACTTCGTGACCCGTGCCATCCCGGAAAAAGCCACCGGGGAAATCGGCAGCACCCTGGAGACCTCCAAGCACGGCGGCTGGAAGCACATCGATACGGCGTTCCTGGGCGGTACCGCCGATAACGGGCTGGGCGTGGCGCTGCTGTATTCGGGCATCAACGGCAACGGATATCGCAAGAGCAACAACGATAACGACATCGACGACGTGATTCTCAAGACCCACTGGGCGCCGACCGACGTTGATGATTTCTCGCTGAACTTCCACTACTACGACGCCGAGGCCGACATGCCCGGCGGCCTGACCCAGGCACAATACGACGCCGACCCGTACCAGTCCGATCGCGACTGGGACAGTTTCAGCGGCCGCCGCAAGGACGTGTCGTTCAAGTGGATCCGCGAAATCGGCGAGCGCACCCAGGCCGAAGTGTTGACCTATTACTCCGACAGCTTCCGCGGCAGCACCATCGCCTCGCGGGACCAGCGCAACCTGGTGTCCTACCCGCGTAGCTATTACACCTTTGGCATCGAGCCGCGGGTGTCCCATGTGTTCGACCTCGGGCCGACCACCCAGGAGGCCAGCGTCGGTTATCGCTACCTCAAGGAAGGCATGCACGAGGAGGCCAGCCGCCTGGCGCTGCGCAACAACGAACCGGTGGTGCGTCCGGGCGCCGACGGTCACGTCTATCAGGACCGGACCGGTGGTACCGAAGCTCATGCGGTCTACATCGACGACAAGATCGACGTGGGCAAGTGGACCATCACTCCGGGCATCCGCTTCGAAAGCATCAGCACCGAATGGCACGACCGCCCGGTGCTCGACACCGCCGGCCGCCCGGTGCAGGAAAAGCGCCGCAGCATCGACAGCAACGAACCGTTGCCGGCCTTGAGCGTGATGTACCACCTGTCCGACGCCTGGAAATTGTTCGCCAACTACGAGACCTCGTTCGGCAGCCTGCAGTATTTTCAACTCGGCCAGGGCGGCGACGGCAACAACACCGCCAATGGCCTGAGCCCGGAAAAGGCCAAGACCTACGAGATCGGTACGCGCTACAACGATGACGTGTGGGGCGGGGAAGTGACACTGTTCTACATCGACTTCGACGACGAGTTGCAATACATCAGCAACGATGTGGGCTGGACCAACATGGGCGCCACCAAGCATCAGGGGCTGGAAGCGTCGGTGCACTACGACATGGCCGCGTTGGACCCGCGCCTCGACGGCCTGACCGCCAGCGCTGGTTTCACCTATACCCGGGCCACCTATGAAGGGGACATCCCGAGCTTCAAGGGCCGTGACCTGCCGTTCTATTCGCGCCAGATTGCCACCTTGGGCCTGCGCTACGAAGTCAATCGCTGGACTTACAACCTCGATGGCTTCGCCCAGTCCGGGCAACGTTCACCGGGCAACAGCGTGAACCCCGATGGCAGTTTCAGCGATAACTACATCACCGACGGCACCGCCGATGGGCAGTACGGCGACATGCCGGGCTATATGCTCTGGAACGTTCGGGGCGGCTATGATTTCGGCTCGCAGCTGTCGAACCTGAAACTCGGCGCGGGGGTGAAGAACCTGTTCGACCATCAGTACTACACGCGTTCCAGCGACAACAACTCGGGTATCTACGTCGGCGCGCCGCGTACGTTTTTCGTGCAGGCGAGTGTCGGATTTTGA	MKTSAKNNKRTATRWLPLALTLAVSAALPEAFADQTVTAIHIQAQPLGQALSQLGQQTSLQVFFSAELVAGKQAPAVQGNLSPEVALGQLLKGSGLQYQIDDGSVTVLPAPSTSTDGPLELGATEIQVVGDWLGDANAEVVQNHAGARTVIRREAMVEQGAMNVGDVLRRVPGVQVQDANGTGGSDIALNVGVRGLTSRLSPRSTVLIDGVPAAFAPYGQPQLSMAPISSGNLDSIDVVRGAGSVRYGPQNVGGVINFVTRAIPEKATGEIGSTLETSKHGGWKHIDTAFLGGTADNGLGVALLYSGINGNGYRKSNNDNDIDDVILKTHWAPTDVDDFSLNFHYYDAEADMPGGLTQAQYDADPYQSDRDWDSFSGRRKDVSFKWIREIGERTQAEVLTYYSDSFRGSTIASRDQRNLVSYPRSYYTFGIEPRVSHVFDLGPTTQEASVGYRYLKEGMHEEASRLALRNNEPVVRPGADGHVYQDRTGGTEAHAVYIDDKIDVGKWTITPGIRFESISTEWHDRPVLDTAGRPVQEKRRSIDSNEPLPALSVMYHLSDAWKLFANYETSFGSLQYFQLGQGGDGNNTANGLSPEKAKTYEIGTRYNDDVWGGEVTLFYIDFDDELQYISNDVGWTNMGATKHQGLEASVHYDMAALDPRLDGLTASAGFTYTRATYEGDIPSFKGRDLPFYSRQIATLGLRYEVNRWTYNLDGFAQSGQRSPGNSVNPDGSFSDNYITDGTADGQYGDMPGYMLWNVRGGYDFGSQLSNLKLGAGVKNLFDHQYYTRSSDNNSGIYVGAPRTFFVQASVGF	PGPT0003795_142	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_CITRATE_TRANSPORT,PGPT0003795-fecA-K16091	NA	NA
D1-35_02221	1152	ybjJ		Inner membrane protein YbjJ	ATGACTGCCATAACACCCCCGCCCACTTTTGTTCCCGGACGCCTGGAACAGATGTCCACCCGCATCGCCTATCTCATTGCCGGAATCGGTATTGCCGCCTGGGCGCCGCTGGTGCCTTATGCCAAGGCGCGGGCGAACCTGGATGAAGGGACCCTCGGCTTGCTGCTGTTATGCCTTGGGGTCGGGTCGATCCTGGCGATGCCGATCTCCGGTGCGCTGGCGACGCGGTTCGGCTGCCGTCGGGTACTCAGTGGCGGTACGATCCTGATCTGCCTGGCGTTGCCGCTGCTGGCGTCGATGAGTTCCTTGCCCTGGTTGGTGGCGGCATTGTTCGTGTTTGGCGCCGGGCTCGGCACCGTCGATTCGACCGTGAACCTGCAAGCGGTGATCGTCGAGCGCGCCAGCGGCAAGACCATGATGTCGGGTTTCCACGGCATGTTCAGCCTCGGCGGAATCATCGGCGCGGCCGGCGTGAGCGCCCTGCTCGGCCTCGGGCTTTCGCCGCTGGCGGCAACCCTGGTGGTCAACGCGGTCTTGCTGGTGGCGTTGTTCAAGGCCGCACCGCACCTGTTGCCCTACGGCAGTGAAAGCTCGGGACCGGCGTTTGCCATTCCGCATGGCGTGGTGCTGTTCATCGGCATCCTCTGCTTTATCGTGTTCCTGGCCGAAGGCGCGGTACTGGACTGGAGCGCGGTGTTCCTGACCACCGAGCGTGCGGTGGATACCGCCTACGCCGGGTTGGGTTATGCCGCGTTTGCGCTGACCATGACCGTCGGCCGGTTGACAGGCGATTCGGTGGTGCATCGCCTGGGTGCCAAGCGCGTGATCATCTACGGCGGCTCGATCGCCGCAGCAGGTTTCTTCCTGGCGACCCTCGCACCGATGTGGCAAGCGGCGCTGCTGGGGTATGCGCTGGTCGGCGCCGGGTGTTCGAACATCGTGCCAGTGCTGTACACCGCCGTCGGCAAACAGACCCTGATGCCCGAAGCCATCGCCGTGCCGGCCATCACCACGATCGGTTATGCCGGCATCCTCGCGGGGCCGGCACTGATCGGCTTTGTCGCCCATGGCAGCAGCCTGGCCATTGCGTTCGGATTGATTGCGCTGTCGCTGGTGGCGGTGGCGGTCAGCGGGAAGGTGTTGAAGGTCTAA	MTAITPPPTFVPGRLEQMSTRIAYLIAGIGIAAWAPLVPYAKARANLDEGTLGLLLLCLGVGSILAMPISGALATRFGCRRVLSGGTILICLALPLLASMSSLPWLVAALFVFGAGLGTVDSTVNLQAVIVERASGKTMMSGFHGMFSLGGIIGAAGVSALLGLGLSPLAATLVVNAVLLVALFKAAPHLLPYGSESSGPAFAIPHGVVLFIGILCFIVFLAEGAVLDWSAVFLTTERAVDTAYAGLGYAAFALTMTVGRLTGDSVVHRLGAKRVIIYGGSIAAAGFFLATLAPMWQAALLGYALVGAGCSNIVPVLYTAVGKQTLMPEAIAVPAITTIGYAGILAGPALIGFVAHGSSLAIAFGLIALSLVAVAVSGKVLKV				NA	NA	NA	NA	NA
D1-35_02222	1164			Carnitine monooxygenase oxygenase subunit	ATGGATCATCAGACTCAACTCAGGCTGACCCGGGAACTTCTGCGCCTCATTGACTGCAATGAAACCAGCCAGGCCGAGTCGCTTTCTCTCAACCCGGTGACCCGCTACACGTGCGTGGCGCATCTGGCGCGCGAGCAGGCCGTGCTCTTTCGCGGTGTCCCGCTGATGGTCGGCCTGTCCTGTGAATTACCCGGCTCCGGTGATTACCTGACCGATGATCGGTGCGGCGTGCCCATCGCTGTCGTCCGGCTCCCGGATGGCGGGCTCAGTGCATTCGTCAACGTTTGCCGCCATCGCGGCGCGCGTGTTCTGGAAGATCGAGGAACGTTGACGGGCTCGATGGTTTGTCCCTATCACGGTTGGGTCTACGATCTGGCTGGCAACCTGAGGACGGTGGCGCCCGCTGAGAGTTTCCAAGGCTTGACGTGTGCCGAGCGGAGCCTGACGCGCCTGGCGGTGTACGAGCAGCACGGGCTTATCTGGGTCAGCTCGGTGCCTGGCCGCGTCATCGAGCCGCTGGCGCCGATGGGAGCGCTGACCCAGGAAATCGCCAATTATCACTTCGAGAAATTTGCTCTTTATCGACGCGTTCAGCTCGATAAAGCTTTCAACTGGAAAATGGTCATAGAGACCTTCCTGGAGAACTGGCATTTCCCATTCGTGCATCGCAGAACGGTACTGCCAATTTTCTTGCCCTCGGTCAGCCTGTTCGAGGCATTTGGTCGCCACGGGCGTTTGATCATGCCACGCCGCTCCATCCTGCAGATGCGCGACGAGCCCATTGAGCAATGGAGCCTGCTCAAACATTCGCTGATCATCTATTGGCTGTTTCCCAATACCCTTTTGCTCTGGCAGGGCGATCATCTGGAAACCTGGCAGGTCTTTCCCGATCAAGAACGTGTTAATCGATGCACGGCTCAGGTGTCGCTTTATACGCCGCAGGCCGCGACGTCGGTTCGCGAACGCGAATACTGGGATAAAAACATGGCGCTTTTGCTCGAAACGGTGGACGGCGAAGATTTCGAAATTAGCGAGCGTATCCAGGGCGGCTTGCGCTCCGGCGCCCAGGAACACCTCACATTTGGCCGTCATGAACCGGCGCTGCAGCATTTTCATCGGCAGATCTGGCTGGCTTTGGAAGAGGCCCCGGCGCCGGCCGACTGA	MDHQTQLRLTRELLRLIDCNETSQAESLSLNPVTRYTCVAHLAREQAVLFRGVPLMVGLSCELPGSGDYLTDDRCGVPIAVVRLPDGGLSAFVNVCRHRGARVLEDRGTLTGSMVCPYHGWVYDLAGNLRTVAPAESFQGLTCAERSLTRLAVYEQHGLIWVSSVPGRVIEPLAPMGALTQEIANYHFEKFALYRRVQLDKAFNWKMVIETFLENWHFPFVHRRTVLPIFLPSVSLFEAFGRHGRLIMPRRSILQMRDEPIEQWSLLKHSLIIYWLFPNTLLLWQGDHLETWQVFPDQERVNRCTAQVSLYTPQAATSVREREYWDKNMALLLETVDGEDFEISERIQGGLRSGAQEHLTFGRHEPALQHFHRQIWLALEEAPAPAD				NA	NA	NA	NA	NA
D1-35_02223	993	dapF_2		Diaminopimelate epimerase	ATGACGCAGTTCTACAACGCACGCGGCAACCTCTACGGAGTCGTCTCACCGCAGCAGGTGCGTGCCCAGGGCATCGGCCTGCCGTCGTCCGCCGCCGAGGCGGCCTCGTTACGCCAATCCTGGGCCGGCGCCGCCGTGCAGGCCTTCTGCGCCTGGGCGCCGGGGGAGGCGCCGCCGGATGCCAAGGCTCATCGCAGTGATGGGCTGCTGGTCGGCCCGTTCCAGGACACGCCGCCCTTCGACCTGCTGATCGTCAATACCGACGGGACGCTGGCCGAGCGTAGCGGCAATGGCCTGACGATTTTTTCCCTGGTTCTGCAAGAGCGGGGGTTGCTGGTGGGCGATGACGATTGCGTACTGCAGGTTCACCACGACAAACCCGACGGTATCTCACCGCTGCGGACATCGGTTCGCGCCGCTGAACTGGGCGGGGTCCCAGGCTTCTGGCTGGACCTGGGGACACCGCTGTTCGGGCCCGCTGCCGTGGGCGCTCAAGGTGTAGCAGCGGTGACCTTCAAGCAATGCGCGGTAAGCCGGGTGCCTGCGCTGCATGGCTTGAACCCGGCGTGGGGCAACAGCCAATTCGTGCGCATCGGCAATCCTCATTGCGTAACGCTGGTGGATGACGTGGAGGCGTTGCCAGGTCTTGCGCAGATGCGCGCCGAGGCGCTGGCGCAAAGCCTGACCAACATTGCCTATGCAGCGCCTGGCGGGGCGGGGATTCCTTGTCCGGCGGGCGTCAACCTGCAATGGGCCTGGCGCGCCGCCGACGGACAAATCGCCGCCCGGGTGTTCGAGCGGGGCGAAGGCCCAACCGCGTCCTCCGGCACCAGCGCTTGCGCCGTCGCGTGTGCCGCGTGGTGGGTGGGCTGGGTGCAGGCCGGGACGGTGAGCGTCATGATGCCCGGCGGTACTGCGCCAATCCTGTTGCAAGAGCGGGAGGGTGAGTTGGTACGGGTCAGCCTGTTTGGCACGGCCAGCGCCATGCGTTAG	MTQFYNARGNLYGVVSPQQVRAQGIGLPSSAAEAASLRQSWAGAAVQAFCAWAPGEAPPDAKAHRSDGLLVGPFQDTPPFDLLIVNTDGTLAERSGNGLTIFSLVLQERGLLVGDDDCVLQVHHDKPDGISPLRTSVRAAELGGVPGFWLDLGTPLFGPAAVGAQGVAAVTFKQCAVSRVPALHGLNPAWGNSQFVRIGNPHCVTLVDDVEALPGLAQMRAEALAQSLTNIAYAAPGGAGIPCPAGVNLQWAWRAADGQIAARVFERGEGPTASSGTSACAVACAAWWVGWVQAGTVSVMMPGGTAPILLQEREGELVRVSLFGTASAMR	PGPT0007230_253	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007230-dapF-K01778	NA	NA
D1-35_02224	1566	amyP		Glucan 1,4-alpha-maltotetraohydrolase	ATGAAAAGGACGTCACTGCCGGGCTTGCTGCTGGGCATTGTTTTAGCTTTGCCAGCGATGGCTGCAACCGATGCCGTGCGTAATGGCAGCGCAGAGGAAATCCTGCTGCAAGGCTTTCACTGGAACTCCAGCCGCAACACGGAAAAGTGGTACCCGGTGCTCTCGCGCATGGCCAACACGATTGGCGCCGACGGCTTTACCGCCATCTGGATGCCACCGCCATGGGCGGATCAATCAAGTTGGAACAACGGGACCGTTTCGGGGGGCGGCGAAGGTTACTTCTGGCACAGCTTCGAGAAGGACGGCCGCTACGGTACCGACGCACAGCTGCGTCAGGCAGCGGCCGCGCTGAACAAGGCCGGGGTCAAGGTCATCTACGACGTGGTGCCCAATCACATGGCTGAACGAGACGGCCCTTCGATGTTTGTTCGAGGCAGCGGGGAGTGGCGGCAGGACTGCCGCCCTGCATGCGATGAAGGCGACGCATTCGACGAGGGCGACCCGGATCTGAATACCGGCAACCAGCGAGTAGCTGAAACCTTCAAGAATGAGTTCATCAACCTGCGCGACAACTACGGCGCGCAAGGCCTGCGCTTCGACTTCGTCCGGGGTTACGCTCCCGAAACGGTGGATAAGTGGATGGAGGCCTTCGGCAGCCAACAGTTCTGTGTCGGCGAAAACTGGAAAAGCCCTAACGAGTATCCACCGAGTGACTGGCGGCACGGCGCAAGTTGGCAGGAAGTATTAAAAGACTGGTCGGATCGCTCACACTGCCCGGTGTTCGACTTCGCGCTCAAGGAGCGCATGCAGAACGGTCCGATCGCCGAATGGCGCCATGGCCTGAACGGCAATCCAGACCCGGCCTGGCGCCGAATCGCAGTCACCTTCGTCGATAACCACGACACCGGCTACTCACCCGGCGCCTATGGCGGCCAACATCACTGGCCGGTCGCCGATGCGTTGATCAACCAGGCCTACGCTTACATTCTCAGCAGCCCCGGTACGCCGACCGTGTATTGGGCTCACATGTACGACTGGCAACGGGATGAGCTGATTCGTCGGCTGATCAAATTGCGCAAGGACGCGGGTATTCGCGCCGACTCGCCAATCCGCTTCCACCCCAATTACTCGGGATTGGTGGCGACTACCAGCGGCAGCCGAAAAGCCCTGGTAATCGCCCTGCAGTCGGATCTCCAGCAGTTGCCTCAAGGTATGCAGGCAGCGGCACTGGAGTGGGACAACGGCGCCATCCGCATCTGGAGCATCCCTGCCGAACCGCCGCAGGTTTCGGTCAGCTTTCATTGCGACAACCCAGGCGCTCAGCACGGCGAAAGCGTTTACGCCGTTGGGTCGTCCCTGGAATTGGGGGCGTGGGATCCTCGCCACGCCGTGCCGCTGGAGGGCTCCAATAATCGCCGGAGCAGCGTTATCCAACTGCCTGCGCAGCAACAAGTGGAATGGAAGTGCATGGTTCGCCGCCAGGACTCTGCGGAGATTCGTTGGCAGCCAGGGCCGAACGTTTCATTCACCAGTGACACGGCCTACGAGACGACCGGGCGACTTTAA	MKRTSLPGLLLGIVLALPAMAATDAVRNGSAEEILLQGFHWNSSRNTEKWYPVLSRMANTIGADGFTAIWMPPPWADQSSWNNGTVSGGGEGYFWHSFEKDGRYGTDAQLRQAAAALNKAGVKVIYDVVPNHMAERDGPSMFVRGSGEWRQDCRPACDEGDAFDEGDPDLNTGNQRVAETFKNEFINLRDNYGAQGLRFDFVRGYAPETVDKWMEAFGSQQFCVGENWKSPNEYPPSDWRHGASWQEVLKDWSDRSHCPVFDFALKERMQNGPIAEWRHGLNGNPDPAWRRIAVTFVDNHDTGYSPGAYGGQHHWPVADALINQAYAYILSSPGTPTVYWAHMYDWQRDELIRRLIKLRKDAGIRADSPIRFHPNYSGLVATTSGSRKALVIALQSDLQQLPQGMQAAALEWDNGAIRIWSIPAEPPQVSVSFHCDNPGAQHGESVYAVGSSLELGAWDPRHAVPLEGSNNRRSSVIQLPAQQQVEWKCMVRRQDSAEIRWQPGPNVSFTSDTAYETTGRL	PGPT0019210_14	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0019210-mta-K22253	NA	NA
D1-35_02225	1248	codA	COG0402	Cytosine deaminase	ATGCACATCATCAACGCCCGCCTGCGCAACCGCGAAGGCTTGCATGAACTGCACCTGGAAAACGGCCTGATCGCCAGCATCGCCCGCCAGACCGAGGCCCCCAGCCTGGGCCCCGAAGACCTCGACGCCGGCGGCAACCTGGTGGTGCCGCCCTTCGTCGAGCCGCACATTCACCTGGACGCCACCCTGACTGCCGGCGAACCGCGCTGGAACATGAGCGGTACGCTGTTCGAAGGTATCGAGTGCTGGGGCGAACGCAAGGCCACCATCACCCACGAAGACACCAAAACCCGCGCCAGGAAGACGCTCCAGGCCCTCGCCGCCCATGGTATCCAGCATGTGCGCACCCACGTCGACGTGACCGACCCGACGCTCACCGCGCTCAAGGCAATGCTGGAAGTGCGCGAGGAAAGCCGTCATCTGGTCGACATGCAGATCGTCGCGTTTCCCCAGGAGGGCATCGAGTCCTACCGCAGCGGTCGCGAACTGATGGAAGAAGCCATCCGCATGGGCGCCGACGTGGTGGGCGGCATTCCGCATTTCGAGTACACCCGCGATCAAGGCGTCAGCTCGGTGAAATTCCTCATGGACCTGGCCGAGCGCACCGGTTGCCTGGTGGATGTGCATTGCGACGAAACCGACGACCCGCACTCGCGCTTCCTCGAGGTACTCGCCGAAGAGGCCCGCAGCCGCGACATGGGCGCCCGGGTCACCGCCAGCCACACCACGGCCATGGGCTCCTACGACAACGCCTACTGCGCCAAGCTGTTCCGCCTGCTCGGGCACTCGGGCATCAGCTTTGTATCGTGCCCCACCGAAAGCATTCACCTGCAAGGACGCTTCGACAACTTCCCCAAACGCCGTGGCGTCACCCGGGTCAATGAACTGCTCGAAGCCGGGATGAACGTCTGCTTCGGCCAGGACTCGATCGTCGACCCGTGGTATCCGTTGGGCAATGGCAACATCCTGCGCGTGCTCGAAGCCGGGCTGCACATCTGCCATATGCTCGGCTACCGCAACCTGCAAAGCGCTTTGGACCTGGTCACTGACAACAGCGCCAAGGCCATGGCCCTGGGCGAACGTTACGGACTGGAACCCGGACGCCCGGCGAACCTGCTGATCCTCTCGGCCGACAGCGACTACGAAGTGATCCGCAGCCAGGGCCTGCCGCTTTACTCGATTCGCAATGGTGAAGTGTTGATGAAGCGGCAGATGCCGGTGGTGGAGTTTCCCCCCCGGGCAGGTTGA	MHIINARLRNREGLHELHLENGLIASIARQTEAPSLGPEDLDAGGNLVVPPFVEPHIHLDATLTAGEPRWNMSGTLFEGIECWGERKATITHEDTKTRARKTLQALAAHGIQHVRTHVDVTDPTLTALKAMLEVREESRHLVDMQIVAFPQEGIESYRSGRELMEEAIRMGADVVGGIPHFEYTRDQGVSSVKFLMDLAERTGCLVDVHCDETDDPHSRFLEVLAEEARSRDMGARVTASHTTAMGSYDNAYCAKLFRLLGHSGISFVSCPTESIHLQGRFDNFPKRRGVTRVNELLEAGMNVCFGQDSIVDPWYPLGNGNILRVLEAGLHICHMLGYRNLQSALDLVTDNSAKAMALGERYGLEPGRPANLLILSADSDYEVIRSQGLPLYSIRNGEVLMKRQMPVVEFPPRAG	PGPT0021315_1331	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021315-codA-K01485	NA	NA
D1-35_02226	1272	codB_1	COG1457	Cytosine permease	ATGACTCAGAACGATCCCGGTAACGACTACCCCTTGAGCGAAGTCCCGATGCACGCCCGCAAGGGCCTCGCCTCCACGGCCATGGTGCTGCTGGGTTTCACTTTTTTCACCGCGACCATGTTTGCCGGCGGCAAGTTGGGCGTGGCGTTCGGTTTCGCCGAGATGCTCGGCGTGATTGTCATCGGCAACCTGCTGCTGGGGCTGTACGCGGCCAGCCTGGGTTACATCGCCTTCAAGAGCGGGCTCAATTCAGTGTTGATGGGCCGCTTCTGTTTTGGCGAGGTGGGCAGCAAGCTCAGCGACTTGATCCTGGGCTTCACCCAGATCGGCTGGTACGCCTGGGGCACGGCCACTGCGGCGGTGGTGCTGGGCAAGTATTTCGAATTGAGCCAGGGCACCGTTCTGGGGTTGATGGTGCTGTTCGGGCTGGGCTTCTGCGCCACGGCCTACATCGGCTATCGCGGGCTGGAAATCCTCTCGTACGTCGCCGTCCCGGCGATGATGCTGTTGCTGATCCTCTCGATGTGGGTTGCCACGCAGCAGGTCGGTGGCCTCGATGGCCTGCTCGCGGTAGTGCCCACCGGCAGCCTCGACTGGTCGACCGCGATCACGCTGGTGTTCGGCACGTTCGTCAGCGGCGCCACCCAGGCGACCAACTGGACGCGCTTTTCCCGTTCGGCAAAGGTCGCGGTGCTGGCCAGCCTGATCGGTTTTTTTCTCGGCAATGGCCTGATGGTGCTGATCGGCGCCTACGGAGCCATCGTCTACCAGCAGCCCGATGTGGTCGAAGTCTTGCTGCTGCAAGGTTTCGCCATGGCGGCGATGGCGATGCTTCTGCTCAACATCTGGAGCACCCAGGACAACACGATCTACAACTTTGCCGTGGCCGGCTGCAACCTGCTGCGCACCCGCCGACGCAAGACCGTCACACTGGCCGGCGCGGTGATCGGCACGCTGCTGGCGCTGCTGGGCATGTACGATTTGCTGGTGCCGTACCTGATCCTGCTCGGCACCGTGATCCCACCGATTGGCGGGGTGATCATGGCCGACTTCTTCTTCCGCTGGCGTGGTCGCTATCCGCGCCTGGCCGCGGCGCAACTGCCGGCCTTCAACTGGCCCGGGCTGTGTGCTTACGGCGTCGGCACGGTGGCCGCCTTCAATTCACCCTGGGTCGCGCCGCTGGTAGGAATCGCCACCGGCGCGCTAACGTATGTGCTATTGATCGGCGTGATGGGTATTCGCACCGCTGACGCGCCTCTACAAGACCTATAA	MTQNDPGNDYPLSEVPMHARKGLASTAMVLLGFTFFTATMFAGGKLGVAFGFAEMLGVIVIGNLLLGLYAASLGYIAFKSGLNSVLMGRFCFGEVGSKLSDLILGFTQIGWYAWGTATAAVVLGKYFELSQGTVLGLMVLFGLGFCATAYIGYRGLEILSYVAVPAMMLLLILSMWVATQQVGGLDGLLAVVPTGSLDWSTAITLVFGTFVSGATQATNWTRFSRSAKVAVLASLIGFFLGNGLMVLIGAYGAIVYQQPDVVEVLLLQGFAMAAMAMLLLNIWSTQDNTIYNFAVAGCNLLRTRRRKTVTLAGAVIGTLLALLGMYDLLVPYLILLGTVIPPIGGVIMADFFFRWRGRYPRLAAAQLPAFNWPGLCAYGVGTVAAFNSPWVAPLVGIATGALTYVLLIGVMGIRTADAPLQDL				NA	NA	NA	NA	NA
D1-35_02227	831	dhaA		Haloalkane dehalogenase	ATGACCCACTGGCCGCTGGATCAGGAATACGACTTCAACGGGCACCCCATCCGCTACGCCATTCACGGCGACGGCGCGCCGTTGGTGTTTGTCCATGGCACGCCGTTCTCCTCTTATGTATGGCACCGGATCGCCCCGCTGTTTTTCGCCACGCACAAGGTTCATTACTTCGACCTGTTGGGTTATGGCCAATCCGCGCAACCCGATGCAGACGTGTCCCTCGGTGTTCAGAACCGGCTGCTTGCCCGACTGCTGGAGCATTGGAAGCTGGATTGCCCGGACGTCATCGCCCATGACTTTGGCGGCGCCACGGCCCTGCGCACCCATCTGCTCGATGGCAAGGATTACCGCAGCCTGACCCTGATCGACCCGGTAGCCTTGTCGCCTTGGGGCTCTGCGTTCGTGCAACACGTACGCCAGCACGAAGCGGCGTTCAGCGGCCTGCCCGACTACATCCAGCGGGCCATCGTGCCGACCTATATCCGTGGCGCGATCAAGCGCTGCATTACCGATGAAGAGCTCTCCCCGTACGTCCAGCCCTGGCTCGGCGAAACCGGCCAGGCCGCGCTCTACCGGCAGATTGCGCAGATGGACGAGCGTTACACCGACGAGGTCCAGGACCTTTATCCGAAGGTACGCTGCCCAACGCAGATCCTTTGGGGCGAGGATGACCAGTGGATCCCCATCGAACGCGGCCGGGCGTTGCACAAGATGATCCCGGGGGCGCTGTTCCATCCTGTACCGAATGCCGGGCATCTGGTCCAGGAGGACGCGCCGGAAGCGATCGTCGCGGCGGTGATGCGGTTCTTGCCGTCGCACTCGCCTGCCTGA	MTHWPLDQEYDFNGHPIRYAIHGDGAPLVFVHGTPFSSYVWHRIAPLFFATHKVHYFDLLGYGQSAQPDADVSLGVQNRLLARLLEHWKLDCPDVIAHDFGGATALRTHLLDGKDYRSLTLIDPVALSPWGSAFVQHVRQHEAAFSGLPDYIQRAIVPTYIRGAIKRCITDEELSPYVQPWLGETGQAALYRQIAQMDERYTDEVQDLYPKVRCPTQILWGEDDQWIPIERGRALHKMIPGALFHPVPNAGHLVQEDAPEAIVAAVMRFLPSHSPA				NA	NA	NA	NA	NA
D1-35_02228	357	queD	COG0720	6-carboxy-5,6,7,8-tetrahydropterin synthase	GTGGAAATCTTCAAAGAGTTCACCTTCGAATCCGCCCACCGCCTGCCCCACGTACCGGAAGGCCACAAGTGCGGACGCCTGCATGGTCACTCGTTCAAGGTGGCGATCCACCTCAGCGGCGACATCGACCCGCACACCGGCTGGATTCGCGACTTCTCGGAAATCAAGGCGATTTTCAAGCCGCTCTACGAGCGCCTGGACCACAACTACCTCAACGACATCCCCGGTCTGGAAAACCCCACCAGCGAAGTCCTGGCCAAGTGGATCTGGAACGAGTTGAAGCCGCTGCTGCCGGAACTCAGCGCCATCCGCATCCACGAGACCTGCACCAGCGGCTGCATCTACCACGGCGAATGA	MEIFKEFTFESAHRLPHVPEGHKCGRLHGHSFKVAIHLSGDIDPHTGWIRDFSEIKAIFKPLYERLDHNYLNDIPGLENPTSEVLAKWIWNELKPLLPELSAIRIHETCTSGCIYHGE	PGPT0007880_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007880-folE2-K09007	NA	NA
D1-35_02229	288	relE_1	COG2026	mRNA interferase toxin RelE	ATGGGCGTTGAATATGATGTCCAATGGGATCCGAAGGCCCTGAAAGAGCTGCGAAAACTGGACGGTGCGGTCCGTCTGCAGCTTTTGAAAAAACTCCAAGAGCGACAAGGGCACCCTCGCGTACCGGGTGATGCTCTTCACGGGATGAAGGATTGTTACAAGATCAAGTTACGCGGGGCTGGGTATCGACTCGTGTATCGCATAGAGGAGGAGCGGATCGTCATTCTGGTAATAGCGGTTGGCAAGCGAGAGCGCAGCGGCGTCTACGCTTCAGCCAGGACCCGGTAG	MGVEYDVQWDPKALKELRKLDGAVRLQLLKKLQERQGHPRVPGDALHGMKDCYKIKLRGAGYRLVYRIEEERIVILVIAVGKRERSGVYASARTR	PGPT0027425_915	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-RelE|StbE-RelB|StbD_TOXIN-ANTITOXIN_SYSTEM,PGPT0027425-toxin_relE_2|stbE|pasB-K06218	NA	NA
D1-35_02230	288	yafN	COG2161	Antitoxin YafN	ATGCAAATCGTCTTGGCTGATGTGGCTGTCAGCGTATCGGAACTGAAGAAAAATCCGTCCGCGGTCCTGAGTGGCGCGAACGGCTCACCTGTGGCAGTGCTGAACCATAACCGCGTGATGGGCTACATGGTACCGGCGGAGGTCTACGAAGCGATGATAGAGCGCCTGGACGAGTTGGAGCTGGCCCAAGTAGTCAAAGCGCGGATCGAGGCCAACGAATCGCGGGTACGCATATCGCTCGATGACCTTATTGGCGAGGCTGAAGCTGATATCGCCAATGGGCGTTGA	MQIVLADVAVSVSELKKNPSAVLSGANGSPVAVLNHNRVMGYMVPAEVYEAMIERLDELELAQVVKARIEANESRVRISLDDLIGEAEADIANGR	PGPT0027440_73	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-RelE|StbE-RelB|StbD_TOXIN-ANTITOXIN_SYSTEM,PGPT0027440-antitoxin_stbD-K18923	NA	NA
D1-35_02231	1080			hypothetical protein	ATGACCGCCATTCACATCAAGTTCCCCGCGCTGACTCTGAAGGCCGGCCCTCGCGCCTTCAAGCGCATCCGCCAGGCAGGCCTTCAGGCCGCCGATGTCGGCATCCTGCCGGGTGCCGCCGGAGGGCCGAAAGCCTTGGGTATCCAAGGGCTGGACCTGGCGCTGTTCGGCGAATGGCTGCCCGCCGCGCCGCGGGAGCGCTCGCTGATCGGTGCATCGGTCGGCTCCTGGCGCTTCGCCAGCGCCTGTCTGCCGGACGCCGCCGAGGGCATTCGCCGCCTGGGCATCCTGTACAACGAGCAGAGCTTCGCCAAAGGCGTGACCATGGCCGGGGTCAGCCAGAGCTCGCAGCGCATGCTCGACGACCTGCTTGAAGGACGCGACCTGACGATCCTCGACAATCCGCATTACCGGCTCAACATCATGGTAGTCCAGAGTCATGGCCTGTTGGCGCAGGACCATCGCGGCCGGCTGGGCCTGGGGCTGTCCTCGGTGATCGCCGACAACCTGCGCGGCCGGGCGCGGCTGTCGCGGCATTTCGAAAGGCTGATCATCCACGACCCGCGCCTGGCTCCCCCGCTCCATCCGTTGACGGACTTCCCCTCGCGCTTCGTGCCGCTGGAGGCCGGCAACCTGCGCCAGGCACTGCTGGCGTCGGGCTCGATCCCGATGATCATGGAAGGCGTGCGCGACCTGCCCGGCGCCGGCGCGGGCACCTACCGCGATGGCGGCCTGCTGGACTACCACCTTGACCTGCCCTATAGCGGCGAGGGCATCGTGCTCTATCCGCACTTCACCGATCGGGTCATTCCCGGCTGGTTCGACAAAGGCCTGCCATGGCGCCGAGGCGATACCTCGCGCTTGCAGGATGTGCTGCTGCTGGCGCCGTCCCGCGAATACCTGGCTCGCCTGCCCTACGGCAAACTGCCGGACCGCAACGACTTCAAGCGTTTCATGGGCGATGACCCGGCCCGCCGCAAATACTGGCGCACCGCAATGGACGAAAGCCGCCGGCTCGGCGACGAGTTCCTCGAACTGACCGCCAACGGTGGGCTGGGAGAGCGTTTGCTGACCCTTTAG	MTAIHIKFPALTLKAGPRAFKRIRQAGLQAADVGILPGAAGGPKALGIQGLDLALFGEWLPAAPRERSLIGASVGSWRFASACLPDAAEGIRRLGILYNEQSFAKGVTMAGVSQSSQRMLDDLLEGRDLTILDNPHYRLNIMVVQSHGLLAQDHRGRLGLGLSSVIADNLRGRARLSRHFERLIIHDPRLAPPLHPLTDFPSRFVPLEAGNLRQALLASGSIPMIMEGVRDLPGAGAGTYRDGGLLDYHLDLPYSGEGIVLYPHFTDRVIPGWFDKGLPWRRGDTSRLQDVLLLAPSREYLARLPYGKLPDRNDFKRFMGDDPARRKYWRTAMDESRRLGDEFLELTANGGLGERLLTL				NA	NA	NA	NA	NA
D1-35_02232	309			hypothetical protein	GTGAACCGCCTCACTGCCTTTTTCATCGCGGCGCTCATGGTCATCGGTACAGGTCCGGCTCAAGCCAGGGATCTCGATGCCACTGAAGCCCAAAAATTACTGGACGCTGGTACCATCCTGCCTTTTGATCAGCTCAACGCCGCTGCCCTGGCCAAACACACTGGCGCCACGGTGACCGATACCGAGCTGGAAGAGGAATACGGCAAGTACCGCTACAAAGTGGATCTGCGTGATGCCAAGGGCATCGAGTGGGATCTGGAACTCGACGCCGTCACTGGCGAGGTGCTCAAGAATCATCAGGATACGTAA	MNRLTAFFIAALMVIGTGPAQARDLDATEAQKLLDAGTILPFDQLNAAALAKHTGATVTDTELEEEYGKYRYKVDLRDAKGIEWDLELDAVTGEVLKNHQDT				NA	NA	NA	NA	NA
D1-35_02233	312			hypothetical protein	ATGAAGCTTAATCTGCGCGCCCGCAATCGTTGGGCGCTGGCGCTGCTGGTGTGTTGTTCGGTGGCCGTGGCCCGCGACCTGGACCAGGACGAGGCCCTGCAACTGCGTCAGCAGGGCGTGATCCTGCCCTTGGAACACCTGCTGCAACAGGCCCTGGATCGCCATCCCGGCGCCAAGTTACTGGAAGCCGAGCTGGAAGAAAAGCACGGCGTCTACATCTACGAAGTCGAGCTGCTGGACACCGACGGCGTCGTGCGCGAACTGGACCTCGAGGCCGCGACCGGCCGTTTACTCAAAGATAAGGAAGACTGA	MKLNLRARNRWALALLVCCSVAVARDLDQDEALQLRQQGVILPLEHLLQQALDRHPGAKLLEAELEEKHGVYIYEVELLDTDGVVRELDLEAATGRLLKDKED				NA	NA	NA	NA	NA
D1-35_02234	669	qseB_2		Transcriptional regulatory protein QseB	ATGCGCCTGCTACTGGTGGAAGACCATGTTCCCCTGGCCGACGAACTGATGGCCGGGCTCGCCCGGCAGGGCTACGCGGTCGATTGGCTCGCCGACGGGCGCGACGCGGTGTATCAGGGCAGCAGCGAGCCCTACGACCTGATCATTCTCGACCTTGGGCTGCCAGGAGTGCCGGGGCTCGAGGTGCTGGCGCAATGGCGCGCTGGCGGCTTGACCACCCCGGTACTGATCCTCACCGCGCGTGGCTCCTGGGCCGAGCGCATCGAAGGACTCAAGGCCGGGGCCGATGATTACCTGACCAAACCCTTTCACCCTGAAGAACTGCACCTGCGCATCCAGGCGCTGTTGCGACGCTCCCACGGCCAGGTCAACCAGCCGACGCTGCAAGCGGCGGGGTTGCACCTGGACGAAGGCCGGCAATGCGTGATTCGCGACGGCGCCGAGATCCAGCTGACCGCCGCCGAATTCAGGCTGCTGCGCTATTTCATGCTCCACCCCGAGCAAATCCTTTCCAAAAGCCACCTCGCCGAGCACCTCTATGATGGTGAAACCGAGCGCGATTCGAATGTGCTGGAAGTCCACGTCAATCACCTGCGGCGCAAGCTCGGACGCAGCGTGATCGAAACCCGTCGCGGCCAGGGCTACCTGTTCGGCGGACAGGCGCAGTGA	MRLLLVEDHVPLADELMAGLARQGYAVDWLADGRDAVYQGSSEPYDLIILDLGLPGVPGLEVLAQWRAGGLTTPVLILTARGSWAERIEGLKAGADDYLTKPFHPEELHLRIQALLRRSHGQVNQPTLQAAGLHLDEGRQCVIRDGAEIQLTAAEFRLLRYFMLHPEQILSKSHLAEHLYDGETERDSNVLEVHVNHLRRKLGRSVIETRRGQGYLFGGQAQ	PGPT0011060_302	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS|LIPID|IVA_REGULATION,PGPT0011060-phoP-K07660	NA	NA
D1-35_02235	1314	sasA_10		Adaptive-response sensory-kinase SasA	GTGAGATCCATCCAGCGGCGCCTGAGCCTGGGCCTGATCGGTGTGATGGTGGTGGTCGGCCTGGTCCTCGCGCAGACCAGCCTGTGGTTGTTCGAGTTGGGTTTGCAGCGCTACCTCGAAGCGGGGTTGCGCAATGACAGCGAGAACCTGCTGGTGGCCCTGGTCCGTGGCCCGCAAGGGTTGCAACTGGACGAGCGACGCTTGTCGCCGGCTTACCTGCGACCGTTCTCCGGGCATTATTTCCGCATCGATTTTGCCGACGAGCATTGGCGCTCCCGTTCCCTCTGGGACCAGGAACTGCCGCGGCTCGACCATCCGGGGCTGCACAGCAACCTGCAACTGGGCCCCGAAGGCCAGAAACTGCTGGTGCTGCGCACGGACTACCGGCGCCTGGGCCAGGCAATTTCCATCAGCGTGGCGCAGGACTACACGCCGGTGCGCGACAGTTTCCTGCGGATGCAGCAGGTCGGCCTTGGCCTCGGGTTGGCGGGGTTGCTGCTGATCCTGCTGTTGCAGCGGCTCACGGTGCAGCGCGCCTTGCGGCCGTTGGAGAAGGCCCGGGAGCAGATTGCCCAGCTGCAACGCGGCCAGCGTTCACAACTCGACGAACAAGTGCCCAGGGAACTGGAGCCGCTGGTAGCGCAGATCAACCATTTGCTGGCCCATACCGAAGACAGCCTCAAGCGTTCGCGCAACGCCCTGGGTAACCTTGGCCATGCCTTGAAGACGCCTCTGGCGGTGCTGCAAAGCCTGGCGTCGAACGAAAAGCTCGACCCTTATCCTGAGTTGCGCAAGTTGCTGCTGGATCAACTCGAGCAGGTTCGCCAGCGCCTGAACCGCGAACTCAACCGTGCGCGCCTGTCCGGCGATGCCTTGCCCGGCGCGCACCTGGATTGCGACGCCGAACTGCCGGGTTTGTTGGCGACGCTGAACATGATCCACGGCGAGCATCTGCACCTGGCTTATGTCGCGCCGCCCGGCTTGCACCTGCCCTGGGATCGCGAAGACTTGCTGGAACTGCTGGGCAACCTGCTGGACAACGCTTGCAAATGGGCCGACGCCGAAGTGCGCCTGACCGTGAGCGAGACGCTCGTGGGTTTCCACCTGGCAGTGGAAGACGATGGCCCCGGCATCCCGCCGGATCGCCGCGACCAGGTCTTCAGCCGCGGCACGCGCCTGGATGAGCAGACCGATGGCCATGGCCTGGGGCTGGGCATCGTGCGCGACATCGTCGACACCTGGGGCGGGACATTAGCGTTGGGCGACAGCGAGTGGGGCGGGTTGAAAGTAATGATTGAGCTGCCCAAGCGCTGA	MRSIQRRLSLGLIGVMVVVGLVLAQTSLWLFELGLQRYLEAGLRNDSENLLVALVRGPQGLQLDERRLSPAYLRPFSGHYFRIDFADEHWRSRSLWDQELPRLDHPGLHSNLQLGPEGQKLLVLRTDYRRLGQAISISVAQDYTPVRDSFLRMQQVGLGLGLAGLLLILLLQRLTVQRALRPLEKAREQIAQLQRGQRSQLDEQVPRELEPLVAQINHLLAHTEDSLKRSRNALGNLGHALKTPLAVLQSLASNEKLDPYPELRKLLLDQLEQVRQRLNRELNRARLSGDALPGAHLDCDAELPGLLATLNMIHGEHLHLAYVAPPGLHLPWDREDLLELLGNLLDNACKWADAEVRLTVSETLVGFHLAVEDDGPGIPPDRRDQVFSRGTRLDEQTDGHGLGLGIVRDIVDTWGGTLALGDSEWGGLKVMIELPKR				NA	NA	NA	NA	NA
D1-35_02236	1320			hypothetical protein	ATGATAAATGCAGTAATTGCCGCGGTTGGCGTCATGCTGGTACTCAGCCTGTCCCGCGTGCATGTGGTGATCGCGCTGATTATCGGCGCGCTGGTGGGTGGCTTGGTAGGTGGCCTGGGGATCGAGGCAACGCTCAAGGCCTTCAATGCGGGCCTTGGCGGCGGCGCGACGGTGGCGTTGTCCTACGCTCTGCTGGGCGCCTTTGCGGTCGCGATCGCCAAATCCGGCATGGCCCATGCCTTGGCCGACAAGGTCCTGGCCATGGTCGACCGCCAGGACACCGCCGGCGGCACGGGCGTCAAATGGCTGCTTATCGGCCTGCTGGGTACGGTCGCGGTGGCCTCGCAGAATATCCTGCCGATCCATATCGCCTTCATTCCGCTGCTGGTGCCGCCACTGCTTTATGTGCTGACCAAGCTGCAACTGGACCGTCGGCTGATCGCTTGCGTCATGACTTTCGGCCTGATCACCCCCTACATGTTCCTGCCGGTGGGCTTCGGCAATATCTTCCTCAACGAAATCCTGCTCGCCAACATCGCCCGCAGCGGTGTCGATGTCAGTGGCATCAACGTCACCCATGCGATGGGCATCCCGGCGCTGGGCATGGTGTTCGGGCTGGTGCTGTCGTTTATCAGCTATCGGAAGAAACGCGTCTACGATCTGAAAAAGATCGCCAGGGCCGAGCAGGTGGCCGTGCGCTACAACCCGCTCAGCCTGTTGGTCGCCGGGTTGGCAATCGCAGCGGCATTCGCCATCCAGCTCCTGCTCGATTCGATGATCATCGGCGCCCTGGCCGGTTTCCTGATTTTCTCGGTGTCGGGCGTGGTGCGCTGGCGCGAGACGGACGACCTGTTCACCGAAGGCATGAAGATGATGGCGATGATCGGCTTCATCATGATCGCCGCCTCGGGCTTCGCCGAAGTGATGAAGGCCACCGGTGAGGTGCAAAGCCTGGTGGAAACCTCGGCGGCCTGGATCGGCCACAACAAGGGCATCGGTGCGCTGTTGATGTTGCTGGTCGGGCTGCTGGTGACGATGGGGATCGGCTCGTCGTTTTCCACGGTGCCGATCCTGGCGACCATTTTTGTGCCGCTGTGCCTGCAACTGGGCTTCAGCCCGCTGGCGATCGTCTGCATCGTCGGCACCGCCGGCGCCCTGGGCGATGCCGGCTCGCCTGCCTCGGATTCGACACTCGGCCCGACCTCCGGCCTGAACATCGACGGCCAGCATCACCACATCTGGGACACCGTGGTCCCGACCTTCCTGCACTACAACCTGCCATTGCTGGCGTTTGGTTGGGTGGCGGCGATGGTGTTGTAG	MINAVIAAVGVMLVLSLSRVHVVIALIIGALVGGLVGGLGIEATLKAFNAGLGGGATVALSYALLGAFAVAIAKSGMAHALADKVLAMVDRQDTAGGTGVKWLLIGLLGTVAVASQNILPIHIAFIPLLVPPLLYVLTKLQLDRRLIACVMTFGLITPYMFLPVGFGNIFLNEILLANIARSGVDVSGINVTHAMGIPALGMVFGLVLSFISYRKKRVYDLKKIARAEQVAVRYNPLSLLVAGLAIAAAFAIQLLLDSMIIGALAGFLIFSVSGVVRWRETDDLFTEGMKMMAMIGFIMIAASGFAEVMKATGEVQSLVETSAAWIGHNKGIGALLMLLVGLLVTMGIGSSFSTVPILATIFVPLCLQLGFSPLAIVCIVGTAGALGDAGSPASDSTLGPTSGLNIDGQHHHIWDTVVPTFLHYNLPLLAFGWVAAMVL	PGPT0020805_629	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
D1-35_02237	1680	mcpP_1	COG0840	Methyl-accepting chemotaxis protein McpP	ATGCGCCTGAGCCTGAAGGCTAAAGTCCTGTCCCTGGCAATCCTGCCGGTATTGCTGTCCGCGGTGATCATCAGCCTGACCACGGCGTTCATCTTGAAGGAACAGGCCAGCAAGGAAGTCCAGCAAACCCGCGAACGTCTGCTCAGCGAGGCCAAGGCCACGCTGCAGAATTACGTCGCGGTCGGCCTTACCGCCATCAAGCCGCTCTACGATGCCGCCGCGCCTGGCGATAACGAGGCGCGCGCCCAGGCAATCAAGTTGCTGTCGAACATCAGCTACGGCAAGGACGGCTACTTCTTCGGCTACGACTCCGAGACCATTCGCCTGTTCAAGGCCAACAGCCCCGACGGCGTGGGCAAGAGTTTCAAGGACAACCGCGACCCGAACGGCGTCTACGTCAACCGTGACCTGGTGAAGGTCGCCAAGGACGGCACGCATTATCTGGAATACAGCTCGCCGCTGCCCGGCAGCAAGGACCTGGTGCCCAAGCTCGGCTACACCGAATACCTGGCCAAGTGGGACCTGGCGGTCGGCAGCTCGGTCAACCTCGACGGCATTGAAGGTCAGGTGGCGCTGGTGGAAGCCAAGGTCCACGATCGCCTGCAAGGCGTGATCCTGAGCATCGTCGGGATCGCCGCGGTGGTACTGCTGGTGATCGCGGTGGTGGGCCTGGTGCTCGCCAATACCATCCTGCGTCCGCTGCACCTGATGAAGGACAACCTCGATGACATCGCCGCGGGCGAGGGCGACCTGACCCGGCGCCTGGCGATTACCAGCCAGGACGAACTGGGCCAACTGGCCGGTTCCTTCAACCGCTTCGTCGACAAGATCCACGGCCTGGTAAGGCAGATCACCGACATGACGTCGCAACTGACCGGCCTGGTGACGCAGGTGTCCGAGCAGGCCCAGCGTTCCGAGCAGGCCATGGAGCGCCAGCGCCACGAGACCGACCAGGTCGCCACGGCGATCAACGAAATGTCCTCCGCCGCCCAGGAAGTCGCCCGCAGTGCCCAGGGCGCAGCCGTCGCGGCCCAGCAGACCGATGAAGAAGGCCAGTCCGCCAAGCGCGTGGTGGCCGGCAGCATCCAGCAGATTCATGCGCTGGTGAACGATATCCGCAGCAGCGGCGTGTCCCTGGACAGCCTGCAACAGGATGTGGCCTCGATTGTCAGCGTGCTCGGTGTGATCCGTTCGATTGCCGAGCAGACCAACCTGCTGGCCCTCAACGCGGCCATCGAGGCTGCGCGTGCCGGTGAGGCGGGCCGCGGGTTTGCGGTGGTTGCCGACGAAGTCCGCGCCCTCGCCAGCCGGACCCAGCAAAGCACCCAGGAAATCCAGGGCATGATCGATCGCCTGCAATCGGGTACCCATGCCGCGGTGGAAGCGATGCGCCGTTCCAGCGAGGCCGGCGACGGCACCTCGGAACGGGCCAACGAGGCGGGCGCCTCCCTGGACACCATGGCGCAACTGATCGGCACCATCAACTCGATGAACGCCCAGATCGCCAGCGCCGCCGAGGAGCAGACCGCGGTGGCTGAAGAAATCAACCGCAGCGTGCATCAGATTGCCGTGGCGGTGGACACTGTCGCCGACGAAACCCAGCTCAGCGCCCAGACTTCTCGCAGCCTGGCCGATCTGGGCCAGCGCCTGGGCAAACTGGTGGGGCAGTTCCGGATCTGA	MRLSLKAKVLSLAILPVLLSAVIISLTTAFILKEQASKEVQQTRERLLSEAKATLQNYVAVGLTAIKPLYDAAAPGDNEARAQAIKLLSNISYGKDGYFFGYDSETIRLFKANSPDGVGKSFKDNRDPNGVYVNRDLVKVAKDGTHYLEYSSPLPGSKDLVPKLGYTEYLAKWDLAVGSSVNLDGIEGQVALVEAKVHDRLQGVILSIVGIAAVVLLVIAVVGLVLANTILRPLHLMKDNLDDIAAGEGDLTRRLAITSQDELGQLAGSFNRFVDKIHGLVRQITDMTSQLTGLVTQVSEQAQRSEQAMERQRHETDQVATAINEMSSAAQEVARSAQGAAVAAQQTDEEGQSAKRVVAGSIQQIHALVNDIRSSGVSLDSLQQDVASIVSVLGVIRSIAEQTNLLALNAAIEAARAGEAGRGFAVVADEVRALASRTQQSTQEIQGMIDRLQSGTHAAVEAMRRSSEAGDGTSERANEAGASLDTMAQLIGTINSMNAQIASAAEEQTAVAEEINRSVHQIAVAVDTVADETQLSAQTSRSLADLGQRLGKLVGQFRI	PGPT0015710_17866	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
D1-35_02238	1062	ydiK_2	COG0628	Putative transport protein YdiK	ATGAACCGAAAGAACCTCCAAAACAAGTCGCAGATGCTGTTGCTGATCCTGGTCAGCATTGCCTTCGTCTGGATTCTGCTGCCGTTTTATGGGGCGGTATTCTGGGCCGTCATCCTGGGCATCGTCTTTGCGCCGCTGCAACGTCGCTTGCAGTTCAAGTTCGGCTGGCCGCGCAACGTCACGGCACTGTTCACCCTGAGCATCTGCGTGGTGATCGCCATTTTGCCGGTGATCGTCATCAGTACCTTGCTCGTCCAGGAAGGGGCGGCGCTGTACAAGAGCCTGGAAAGTGGCGAGCTGGACGTCGCCGACTACCTGGCGCGTTTCAAGGAGGCGTTGCCGCCGTTCTTCCAGCACCTGCTCGACCGCTTCGGCCTGGGCAACCTGAGTGGCCTGCGAGACAAGATCGTCAAGAGCGCCATGCAGGGCAGCGAATTTTTCGCCACCCAGGCGTTCAGTTTCGGCCAGGGTACGTTCCAGTTTCTGGTGAGCTTCTTCGTGATGCTCTACCTGTTGTTCTTTTTCCTGCGTGACGGCGCGGAGCTGGTGCGCAAGGTGCGCTCGGCCGTTCCGCTGGCCGAGCACCAGAAGCGCCGCCTGCAATTGAAGTTCAACCGGGTGGTGCGGGCGACGGTGAAGGGCAACCTGTTGGTGGCGATCACTCAGGGCGCCCTGGGCGGCCTGATTTTCTGGATCCTGGGTATCCCGACGGTGTTGCCGTGGGCGGTGCTGATGGCTTTCCTGTCGCTGCTGCCGGCGGTGGGGGCGGGCATTGTCTGGGTGCCAGTGGCGGTGTATTTCCTGCTGTCGGGGGCGATCTGGCAGGGCGTGGTGCTGGCGCTGTTCGGGGTCTTCGTGATCGGCCTGGTGGACAACTTCCTGCGCCCGATCCTCGTCGGCAAGGACACCAAGATGCCCGACTACATGGTCCTGATTTCGACGCTTGGCGGGTTGGCCGTATTCGGCCTCAATGGTTTTGTCATCGGGCCACTGATCGCCGCGCTGTTCATGTCCTGCTGGGCGCTGTTCGTCGAGGGCAAGCCGCGGGTGCAGTTGCCCTAG	MNRKNLQNKSQMLLLILVSIAFVWILLPFYGAVFWAVILGIVFAPLQRRLQFKFGWPRNVTALFTLSICVVIAILPVIVISTLLVQEGAALYKSLESGELDVADYLARFKEALPPFFQHLLDRFGLGNLSGLRDKIVKSAMQGSEFFATQAFSFGQGTFQFLVSFFVMLYLLFFFLRDGAELVRKVRSAVPLAEHQKRRLQLKFNRVVRATVKGNLLVAITQGALGGLIFWILGIPTVLPWAVLMAFLSLLPAVGAGIVWVPVAVYFLLSGAIWQGVVLALFGVFVIGLVDNFLRPILVGKDTKMPDYMVLISTLGGLAVFGLNGFVIGPLIAALFMSCWALFVEGKPRVQLP				NA	NA	NA	NA	NA
D1-35_02239	183			hypothetical protein	ATGCCCAAGGTTCAAATCATGTCTGTCATTGGCAGCGCCGTCCCCGCCCCACTTCGGGAGCGCGGACTGTTGGCTTGCTGGTATCTGGTGCAGGATGGCGTCACCGTCAGCGGCCCGCTGACTTCCCTGCCCGCCGCCCAGGCCCTGTCGCAACGTATCGGTCCGTACCTGTTGAGCGCCTAG	MPKVQIMSVIGSAVPAPLRERGLLACWYLVQDGVTVSGPLTSLPAAQALSQRIGPYLLSA				NA	NA	NA	NA	NA
D1-35_02240	195			hypothetical protein	ATGCCCACACAAAATCCCCACCGCATCGTCGGCCTGTGCACTTCCAGCAAGGTCTACAACGTACTGACCGAGCTCAAGCACCTGGAAGGCCACCGCAGCGCCAAGTTCCTTTCCCTGCTCGCGGAAAACCTGGTTCGCAAGGGCCTGCTCAATGAACAGGAAGTGGTGCACATGCTCGATCTGGTGGTCGATTGA	MPTQNPHRIVGLCTSSKVYNVLTELKHLEGHRSAKFLSLLAENLVRKGLLNEQEVVHMLDLVVD				NA	NA	NA	NA	NA
D1-35_02242	228			hypothetical protein	GTGAGCACCGCCCAGATCAGTCTGCCCAAGGGCGTGGGGCCTCACGCTGAAAAGCTGTACGACGCCATCACCCAGGCCAGCACCCCGGAAGAACTGAACCGCGCCGGTGGCAAGGCCGAGGGTTTTGTCCTGGGGCTCGAAAGTACCAAGGCGATCAAGAGCCAGGTCGCCGAGTCGTTGTATGTCATCTACGACGATGCGGCGAGCCAGCGGGCGACGGAGCTGTAG	MSTAQISLPKGVGPHAEKLYDAITQASTPEELNRAGGKAEGFVLGLESTKAIKSQVAESLYVIYDDAASQRATEL				NA	NA	NA	NA	NA
D1-35_02243	1197	tyrB	COG1448	Aromatic-amino-acid aminotransferase	ATGAGCCTGTTTTCCGCTGTCGAATTGGCACCACGCGACCCCATCCTGGGCCTCAACGAAGCTTTCAACGCCGACCCCCGTACCAATAAGGTCAACCTGGGCGTGGGTGTTTACTGCAACGAGGAAGGGCGCATTCCGTTGCTGCGCGCCGTGGTCGAAGCCGAGACGATTCGCGTGGCTCAGCATGTTTCTCGCGGTTACCTGCCGATCGACGGCATTGCCGCCTATGACCAGGCAGTCCAGACCCTGCTGTTCGGCAAGGATTCCCCGCTGATCGCATCGGGCCGCGTCATCACCACCCAGGCCGTGGGCGGCACGGGCGCACTGAAAATCGGTGCCGACTTCCTTAAGCAATTGCTGCCGGACGCGGTCGTGGCCATCAGCGACCCAAGCTGGGAAAACCACCGCGCGCTGTTCGAAACCGCCGGTTTCCCGGTGCAGAACTATCGCTACTACGACGCCGCTACCCACGACGTGAACCGCAGCGGCCTGCTGGAAGACCTCAACGCCCTGCCCGACCGTTCGATCGTTGTGCTGCATGCCTGCTGCCACAACCCGACCGGCGTGGACCTGAGCCCGGAAGACTGGAAAAACGTCCTGGCCGTGGTCAAGGCCAAGAACCACGTGCCGTTCCTGGACATGGCCTACCAGGGCTTCGGCAAAGGCATCGACGAAGACGCGGCGGCCGTGCGCCTGTTCGCCGAATCGGGCCTGACCTTCTTCGCCTCCAGCTCGTTCTCCAAGTCGTTCTCCCTGTACGGCGAGCGTGTCGGCGCGCTGTCGATTGTCAGCGAGTCGAAGGAAGAAAGCACCCGCGTGCTGTCCCAGGTCAAGCGCGTGATCCGCACCAACTACTCCAACCCGCCGACCCACGGCGCCAGTATCGTCGCCGCCGTGCTCAACAGCCCTGAGCTGCGCGCACAGTGGGAAGAAGAGCTGGCCGAAATGCGCCTGCGCATTCGTGGCATGCGTGAGCAGATGGTCGACATGCTGGCCAAGGCCGCGCCGCATCACGACTTCAGCTTCGTCGCCCGCCAGAGCGGGATGTTCTCCTACTCCGGCTTGACCGTTGAACACGTGACACGCCTGCGCAACGAGTTCGGCATCTATGCCCTGGACACCGGCCGCATCTGCGTGGCCGCGCTGAACCAGAACAACATCGATGCGGTGACCAAGGCCATCGTCCAGGTGATCTGA	MSLFSAVELAPRDPILGLNEAFNADPRTNKVNLGVGVYCNEEGRIPLLRAVVEAETIRVAQHVSRGYLPIDGIAAYDQAVQTLLFGKDSPLIASGRVITTQAVGGTGALKIGADFLKQLLPDAVVAISDPSWENHRALFETAGFPVQNYRYYDAATHDVNRSGLLEDLNALPDRSIVVLHACCHNPTGVDLSPEDWKNVLAVVKAKNHVPFLDMAYQGFGKGIDEDAAAVRLFAESGLTFFASSSFSKSFSLYGERVGALSIVSESKEESTRVLSQVKRVIRTNYSNPPTHGASIVAAVLNSPELRAQWEEELAEMRLRIRGMREQMVDMLAKAAPHHDFSFVARQSGMFSYSGLTVEHVTRLRNEFGIYALDTGRICVAALNQNNIDAVTKAIVQVI	PGPT0020310_635	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020310-tyrB-K00832	NA	NA
D1-35_02244	2016	uvrB	COG0556	UvrABC system protein B	ATGTCTGAATTCCAGCTAGTCACTCGCTTCCAGCCCGCCGGCGACCAGCCGGAAGCCATCCGCCTGATGGTGGAAGGCATCGAGGCCGGGCTGGCGCACCAGACCTTGCTCGGTGTGACCGGCTCGGGCAAGACGTTCAGTATCGCCAACGTGATCGCCCAGGTGCAGCGGCCGACCCTGGTGCTGGCGCCTAACAAGACCCTGGCGGCGCAGTTGTATGGCGAGTTCAAGGCGTTTTTCCCGAACAACGCGGTCGAGTATTTCGTCTCCTACTACGACTACTACCAGCCCGAGGCTTATGTGCCTTCGTCGGACACCTTCATCGAGAAGGACGCCTCGATCAACGACCACATCGAACAGATGCGGCTGTCGGCGACCAAGGCGTTGCTTGAGCGCAAGGACGCCATCATCGTCACCACGGTGTCGTGCATCTACGGTCTGGGCAGCCCGGAAACCTATCTGAAAATGGTCCTGCACGTGGATCGTGGCGACAAACTCGACCAGCGCGCCTTGCTCCGGCGCCTGGCGGACTTGCAATACACCCGCAACGACATGGACTTCGCCCGGGCCACGTTTCGGGTGCGCGGCGATGTGATCGACATCTATCCGGCCGAATCGGACCTGGAAGCGATTCGTATCGAGCTGTTCGATGACGAGGTGGAGAGCATCTCGGCGTTCGATCCGCTGACCGGCGAGGTGATCCGCAAACTGCCACGCTTCACGTTCTACCCCAAGAGCCACTACGTGACGCCGCGGGAAACCCTGTTGGGCGCCATCGAGGGCATCAAGGCCGAGTTGCAGGAACGCCTGGAATACCTGCGTTCGAACAACAAACTGGTGGAAGCCCAGCGTCTGGAGCAGCGGACCCGGTTCGACCTGGAAATGATCCTGGAGCTGGGCTACTGCAACGGCATCGAGAACTACTCGCGCTACCTGTCGGGTCGTCCGGCGGGTGCGCCGCCGCCCACGTTGTATGACTATTTGCCGGCCGATGCCCTGCTGGTGATCGACGAATCCCACGTCAGCGTGCCTCAGGTCGGCGCCATGTACAAAGGCGACCGTTCGCGCAAGGAAACCCTGGTGGAATATGGCTTCCGCCTGCCCTCGGCGCTGGATAATCGGCCGATGCGCTTCGACGAATGGGAAGGCGTGAGCCCGCAGACGATTTTCGTCTCGGCCACGCCCGGCAACTACGAAGCCGAGCACGCCGGACGGGTGGTCGAGCAAGTGGTGCGGCCGACCGGGCTGGTGGACCCGCAGGTCGAGGTGCGCCCGGCGCTGACTCAGGTCGATGACCTGCTCTCGGAGATCACCAAGCGCGTGGCGGTGGAAGAGCGGGTGCTGGTGACCACGCTGACCAAGCGCATGGCCGAAGACCTCACCGACTACCTCGCCGACCACGGCGTGCGGGTGCGTTACCTGCACTCGGATATCGACACGGTGGAGCGGGTCGAGATCATCCGCGACCTGCGCCTGGGCACCTTCGATGTGCTGGTGGGGATCAACCTGCTGCGCGAAGGCCTGGACATGCCCGAGGTGTCGCTGGTGGCGATTCTCGACGCGGACAAGGAAGGTTTCCTGCGTTCCGAGCGCTCGTTGATCCAGACCATCGGTCGCGCGGCGCGTAACCTCAACGGCCGGGCGATCCTTTATGCCGATCGCATCACCGGCTCGATGGAGCGCGCCATCGGCGAGACCGAACGCCGTCGCGACAAGCAGATCGCTTTCAACCTGGCCAATGGCATCACGCCCAAGGGCGTGTTCAAGGACGTCGCCGACATCATGGAAGGCGCCACCGTGCCCGGTTCGCGCAGCAAGAAGCGCAAGGGCATGGCCAAGGCCGCCGAAGAGAGCGCCCGCTACGAAGCCGAACTGCGCTCGCCGAGCGAAATCACCAAGCGTATCCGGCAGTTGGAAGAGAAGATGTACCAGCTCGCCCGGGACCTGGAATTCGAAGCAGCGGCGCAGTTGCGTGACGAGATTGGCAAGTTGCGTGAGCGGTTGCTGACTGTCTGA	MSEFQLVTRFQPAGDQPEAIRLMVEGIEAGLAHQTLLGVTGSGKTFSIANVIAQVQRPTLVLAPNKTLAAQLYGEFKAFFPNNAVEYFVSYYDYYQPEAYVPSSDTFIEKDASINDHIEQMRLSATKALLERKDAIIVTTVSCIYGLGSPETYLKMVLHVDRGDKLDQRALLRRLADLQYTRNDMDFARATFRVRGDVIDIYPAESDLEAIRIELFDDEVESISAFDPLTGEVIRKLPRFTFYPKSHYVTPRETLLGAIEGIKAELQERLEYLRSNNKLVEAQRLEQRTRFDLEMILELGYCNGIENYSRYLSGRPAGAPPPTLYDYLPADALLVIDESHVSVPQVGAMYKGDRSRKETLVEYGFRLPSALDNRPMRFDEWEGVSPQTIFVSATPGNYEAEHAGRVVEQVVRPTGLVDPQVEVRPALTQVDDLLSEITKRVAVEERVLVTTLTKRMAEDLTDYLADHGVRVRYLHSDIDTVERVEIIRDLRLGTFDVLVGINLLREGLDMPEVSLVAILDADKEGFLRSERSLIQTIGRAARNLNGRAILYADRITGSMERAIGETERRRDKQIAFNLANGITPKGVFKDVADIMEGATVPGSRSKKRKGMAKAAEESARYEAELRSPSEITKRIRQLEEKMYQLARDLEFEAAAQLRDEIGKLRERLLTV	PGPT0014920_2842	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014920-uvrB-K03702	NA	NA
D1-35_02245	1482	gltX	COG0008	Glutamate--tRNA ligase	ATGACCACCGTCCGTACCCGCATCGCGCCTTCGCCTACTGGCGATCCCCATGTCGGCACCGCTTACATCGCCTTGTTCAACTATTGCTTTGCCAAGCAGCACGGCGGTGAGTTCATCCTGCGGATCGAGGACACCGATCAGTTGCGTTCGACCCGCGAGTCGGAACAGCAGATATTCGACGCCCTGCGCTGGCTCGGCATCGACTGGAGCGAAGGTCCGGACGTCGGCGGGCCGCACGGTCCGTACCGCCAGAGCGAGCGTGGCGAGATCTACAAGCAGTACTGCCAGCAGCTGGTGGACATGGGCCACGCGTTTCCTTGCTTCTGCACCGCCGAGGAATTGGACCAGATGCGCGCCGAGCAAATCGCCCGGGGCGAGACCCCGCGCTACGACGGCCGTGCGCTGCTGCTGTCGAAGGAAGAAGTCAACCGTCGCCTGGCCGCGGGCGAACCTCATGTGATCCGCATGAAGGTGCCGAGCGAGGGCGTCTGCGTGGTGCCGGACATGTTGCGTGGCGATGTCGAGATCCCGTGGGACCGCATGGACATGCAAGTGCTGATGAAGACCGACGGCCTGCCGACGTACTTCCTGGCCAACGTGGTCGACGACCATCTGATGGGCATCACCCATGTGCTGCGCGGCGAAGAATGGCTGCCCTCGGCACCGAAACTGATCCTGCTCTATGAGTACTTCGGCTGGGAGCAACCGCAGTTGTGCTACATGCCGCTGCTGCGTAACCCGGACAAGAGCAAGCTGTCCAAGCGCAAGAATCCGACCTCGGTGACCTTCTACGAGCGCATGGGCTTCATGCCCGAGGCGATGCTCAACTACCTGGGCCGCATGGGCTGGTCGATGCCGGACGAGCGCGAGAAGTTCTCGCTGGAGGAGATGGTCGAGCACTTCGACCTGTCCCGCGTCTCCCTGGGCGGGCCGATCTTCGACGTCGAGAAGCTGTCCTGGCTCAACGGCCAGTGGCTGCGCGACCTGCCGGTGGAAGAGTTTGCCGCGCGTGTGCAGAAGTGGGCGTTCAACCCCGAGTACATGATGAAGATCGCCCCGCACGTGCAGGGCAGGGTAGAGACCTTCAGCCAGATCGCGCCATTGGCCGGGTTCTTTTTTGCCGGCGGCGTGACCCCGGATGTGAAGCTGTTCGAATCGAAGAAGCTCTCCGGCGATCAGGTGCGGCAGTTGATGCAGTTGATCCTGTGGAAGCTGGAAAGCCTGCGCCAGTGGGAAAAGGACAGCATCACCGCGACCATCCAGGCGGTGGTTGAACACCTGGAGCTGAAATTGCGCGATGCGATGCCGCTGATGTTTGCCGCGATCACCGGCCAGGCGAGCTCGGTGTCGGTGCTCGATGCGATGGAAATCCTCGGGCCGGACCTGACCCGTTTCCGTCTGCGCCAGGCCATTGATCTGCTCGGTGGCGTGTCGAAGAAGGAGAACAAGGAGTGGGAAAAACTGCTGGGCGCGATTGCCTGA	MTTVRTRIAPSPTGDPHVGTAYIALFNYCFAKQHGGEFILRIEDTDQLRSTRESEQQIFDALRWLGIDWSEGPDVGGPHGPYRQSERGEIYKQYCQQLVDMGHAFPCFCTAEELDQMRAEQIARGETPRYDGRALLLSKEEVNRRLAAGEPHVIRMKVPSEGVCVVPDMLRGDVEIPWDRMDMQVLMKTDGLPTYFLANVVDDHLMGITHVLRGEEWLPSAPKLILLYEYFGWEQPQLCYMPLLRNPDKSKLSKRKNPTSVTFYERMGFMPEAMLNYLGRMGWSMPDEREKFSLEEMVEHFDLSRVSLGGPIFDVEKLSWLNGQWLRDLPVEEFAARVQKWAFNPEYMMKIAPHVQGRVETFSQIAPLAGFFFAGGVTPDVKLFESKKLSGDQVRQLMQLILWKLESLRQWEKDSITATIQAVVEHLELKLRDAMPLMFAAITGQASSVSVLDAMEILGPDLTRFRLRQAIDLLGGVSKKENKEWEKLLGAIA	PGPT0008460_2321	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
D1-35_02250	540			hypothetical protein	ATGAGCGATAAAAAAGCACAAACCCGTGAACGCATTCTCAAGGCCGCCAGCGATGCGCTGATCCAGCGCGGGCCGGCCGAGCCGAGCGTGGGCGAGGTGATGGGCGCGGCAGGGCTGACGGTGGGCGGTTTTTATGCCCACTTCGAAAGCAAGGACGCCTTGATGCTGGAGGCGTTCAAGCAACTGCTCAATCGCCGCCGTGGCCTGATCGCCGACATGGATGCCGAGCTGACAGGCGAAGAGCGGCGCGCGTTGGTCGCGGCGTTCTACCTGTCGCGCAAACATCGTGATTCCACCGAGCAGGCGTGCCCGATCCCGGCCTCGGTCGGCGAGCTCGGGCGACTGCCGGACGCGTTTCGTGAGGTTCTCAGTGAGCATATCGAGCTGATGGTCGCGCAGTTGGCCGCCAGCCCCGAGGATGCGGATAAAGCCCTGGCCGACATCGCCTTGATGGTCGGCGGCCTGGCCCTGGCCCGGGCGTTGGGCCCGGGCGAGTTATCGGATCGTTTGCTGCGCGCCGCCAAGTCGGCGGTGCGCTGA	MSDKKAQTRERILKAASDALIQRGPAEPSVGEVMGAAGLTVGGFYAHFESKDALMLEAFKQLLNRRRGLIADMDAELTGEERRALVAAFYLSRKHRDSTEQACPIPASVGELGRLPDAFREVLSEHIELMVAQLAASPEDADKALADIALMVGGLALARALGPGELSDRLLRAAKSAVR				NA	NA	NA	NA	NA
D1-35_02251	834	rutD_2		Putative aminoacrylate hydrolase RutD	ATGGACAGGTTGAGCTGGATTCGTGGTGTCAATGGCACGCTTGGCCGGATAGCCCCGCGCCTGGTAGCGAAACAAATGCGCAGGGTGTTCATGAGTCCTCGGGCCCTGCCGCCGCGGGACTGGGAGCTGCCATTGCTGGCCTCGTCCGAGCGCATCACCTTGCGCTTCGGCCTGTCTGCGTTGCGCTGGGGCAAAGGCCCGGCGGTGCTGCTGATGCACGGCTGGGAAGGGCGCCCGACGCAGTTCGCGGCGTTGATCAATGCGCTGGTGGAGGCCGGTTATACGGTGGTGGCGCTGGATGGGCCGGCCCATGGTCGCTCGCCGGGTCGCGAGGCCAATGTGCTGCTGTTCGCCAGGGCGATGCTTGAAGCCGCAGCCGAGTTGCCGCCGTTGCAAGCAGTGATCGGCCACTCCATGGGCGGCGCTAGTGCCATGCTGGCGGTTCAGCTTGGGTTGCGGACCGAGACACTGGTCAGCATCGCTGCGCCGGCGCGTATCCTCGGCGTCCTGCGTGGCTTCGCGCGGATGATGGGTTTGCCACCCAGGGCGCGTTCGGCCTTTATTCGCCAGGTGGAGCAGGACGTCGGCATGCAGGCTTCGAAGATGGATGTCGCGCAATATCAGCTGGATATTCCGGGCTTGATTGTCCACGCCGAGGACGATACGTCGGTATCGGTCAAGGAATCACAACTGATCCACGAAGCCTGGTTCGACAGCCGCTTGCTGCGCCTGGGCCAGGGCGGGCATCAACGGGTACTGGCCGACCCCCGCGTCATTGATGGTGTGTTATCACTGCTGGCCGGACGCAGCCTGCAGGCGCGGCAATCGGCCTGA	MDRLSWIRGVNGTLGRIAPRLVAKQMRRVFMSPRALPPRDWELPLLASSERITLRFGLSALRWGKGPAVLLMHGWEGRPTQFAALINALVEAGYTVVALDGPAHGRSPGREANVLLFARAMLEAAAELPPLQAVIGHSMGGASAMLAVQLGLRTETLVSIAAPARILGVLRGFARMMGLPPRARSAFIRQVEQDVGMQASKMDVAQYQLDIPGLIVHAEDDTSVSVKESQLIHEAWFDSRLLRLGQGGHQRVLADPRVIDGVLSLLAGRSLQARQSA	PGPT0031980_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-POLYENE_COLLIMOMYCINS_METABOLSIM,PGPT0031980-putative_hydrolase-NA	NA	NA
D1-35_02252	486			hypothetical protein	ATGGGCTGGGATCGGGCAACGCCGTTCATCATTGATCTTCAAGTGAATGCCGAAGACATCGACGGGCTGGGTCACGCCAATAATGCGGTGTACGTTACCTGGCTGGAGCGCTGCGCGTGGCGCCATTCCCAGCGCCTGGGCCTGGACCTGGTGGAGTACCGCCGGCTTGACCGGGCCATGGCGGTGGTGCGGCATGAGATCGATTACCTGGCGGCGGCCTATGAAGGCGACGAATTGCAGTTGGCGACCTGGATCGTCGACTGGGATCAGCGGCTGAAAATGACCCGGCACTTTCAATTGGTTCGCCCCAGTGATAACGCCACATTGCTGCGCGCCCAGACCACATTTGTCTGCATCGAACTGTCCACCGGCAGGCCCAAGCGCATGCCGCCGGAGTTTATCGAGGGCTACGCAGTGGCGCTGAACCCCTGTGGGAGCGAGCCTGCTCGCGAAGGCGGCGAAACATCCAACAGCTTTGCAAGCTGA	MGWDRATPFIIDLQVNAEDIDGLGHANNAVYVTWLERCAWRHSQRLGLDLVEYRRLDRAMAVVRHEIDYLAAAYEGDELQLATWIVDWDQRLKMTRHFQLVRPSDNATLLRAQTTFVCIELSTGRPKRMPPEFIEGYAVALNPCGSEPAREGGETSNSFAS	PGPT0001850_3076	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
D1-35_02253	960	dusC	COG0042	tRNA-dihydrouridine(16) synthase	ATGCAAATTGCCCTGGCGCCCATGGAGGGGTTGGTCGACAACATCCTGCGGGACGTCCTGACCCGTGTTGGCGGTATCGACTGGTGTGTCACCGAGTTCATCCGCGTCAACGACCGTCTGCTCACGCCGGCCTACTTCCATAAGCTCGGCCCTGAACTGCTGACCGGTGCCAGGACGGCTGCCGGAGTGCCGTTGCGGGTGCAGTTGCTGGGTTCCGATCCGGTGTGCCTGGCGGAAAACGCCGCGTTGGCCTGTGAGCTGGGCTCGGAAGTCATCGACCTGAACTTCGGTTGCCCGGCCAAGACGGTGAACAAATCCCGGGGCGGGGCGGTGTTGCTCAAGGAACCGGAGCTGCTCAATCAGATCGTCGAGCATGTCCGCCGCGCGGTGCCGAAACACATCCCCGTCACCGCCAAAATGCGCCTGGGCTTCGACAGCCCGGACGGTGCGCTGGTCTGCGCCACGGCCCTGGCCGAGGGCGGCGCGGCGCACATCGTCGTGCATGCGCGGACCAAGGTTGATGGCTACAAGCCGCCGGCCCACTGGGAATGGATTCCGCGGGTCCAGGACGTGGTCAAGGTACCGGTGTTCGCCAACGGCGATATCTGGAGCGTGGAAGACTGGCGTCGTTGCCGGGAAATCAGCGGCGTTGAAGACATCATGCTCGGCCGCGGCCTGGTTTCCCGCCCTGACCTGGCTCGGCAGATCTCCGCCGCCCGGGCCGGCGAGGAGGTGGTCGAGATGTCCTGGGCTGAACTGCAGCCGATGCTCCAGGACTTCTGGACGCAAGTGGTCGAGCAACTGACGCCACGCCAGGCACCCGGTCGGTTGAAGCAGTGGCTGGCGATGTTGACCCGCAACTACCCCGAGGCGGTCGAGCTGTTCAGTGCCCTGCGCCGGGAAACCGACCTGGACGCAGTGGGTCGTTTGCTGGGTGTGCAGCGCACGGAAGCGGCCTGA	MQIALAPMEGLVDNILRDVLTRVGGIDWCVTEFIRVNDRLLTPAYFHKLGPELLTGARTAAGVPLRVQLLGSDPVCLAENAALACELGSEVIDLNFGCPAKTVNKSRGGAVLLKEPELLNQIVEHVRRAVPKHIPVTAKMRLGFDSPDGALVCATALAEGGAAHIVVHARTKVDGYKPPAHWEWIPRVQDVVKVPVFANGDIWSVEDWRRCREISGVEDIMLGRGLVSRPDLARQISAARAGEEVVEMSWAELQPMLQDFWTQVVEQLTPRQAPGRLKQWLAMLTRNYPEAVELFSALRRETDLDAVGRLLGVQRTEAA	PGPT0013740_4	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
D1-35_02255	453	ibpA	COG0071	Small heat shock protein IbpA	ATGAGTACTGCATTTTCGCTGGCCCCTCTGTTCCGTTCCTCGGTGGGCTTCGACCGTTTCAACGACCTGTTCGAAACCGCCCTGCGTAACGAACCGGGCAGCAGCTATCCACCCTACAACGTGGAAAAACATGGCGATGACGAATACCGCATCGTAGTCGCCGCCGCCGGTTTCCGCGAAGAGGACCTGGACCTGCAAGTGGAAAAAGGTGTGCTGACCATCAGCGGCGGCAAGCGCGAGGCCAGCAACGACAGCGTGACCTTCCTGCACCAGGGCATCGCCCAGCGTGCGTTCAAGCTGTCCTTCCGGTTGGCGGATCATATCGAGATCAAGTCCGCCGGCCTGAGCAACGGTCTGTTGAGCATTGACCTGTTGCGTGTGGTGCCGGAAGAGGCGAAAGCCAAGCGCATCCCGATCAACGGTGCGCAACAGCAAGCCGCACTGGAAAATTGA	MSTAFSLAPLFRSSVGFDRFNDLFETALRNEPGSSYPPYNVEKHGDDEYRIVVAAAGFREEDLDLQVEKGVLTISGGKREASNDSVTFLHQGIAQRAFKLSFRLADHIEIKSAGLSNGLLSIDLLRVVPEEAKAKRIPINGAQQQAALEN	PGPT0014641_1039	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014641-ibpA-K04080	NA	NA
D1-35_02256	3279			hypothetical protein	ATGCCCAAACCCGCCGACCATACTCCGCCCCTGCCGCGTATCCAGGCGCTCGACCCGAAACGGTCGGAGCAAAGCTGGGAAAGCGCGCCACAGTTGCTCGCCGCCCTGAACGGAGCGCGGCTGGGGGCCTGGTCGTGGGACATCGATACCGGCCAGATCAGCTGGTCCCGAGGCACCCAGGCGTTGTTCGGCTTCGACCCGCGCCAGCCATTGCCGGCGGACGTCGACTACCTCGACCTGCTGCTGCCCGAGGATCGGGCCAGGGCCGTGCGGGCCTTCCATGCAGCCGTGTCCGGCGTGCCGCTGGAACAGGCGATGCACCACCGCATCGTCTGGCCCGATGGCAGCCTGCACTGGCTGGAAATCAGTGGCAGCGTACTGCCTGACAAGCACGGTCGCCCGCGCATGATCGGGGTGATCCGCGAAATCACCCACCAGCGCGAACGGGAACAGGCGCTGCGCAGCTCGGAGAAACGCTTCGCGACACTGTTCCACCTGTGCCCGAACATGGTCCTGCTGACCCGCCAGGAAGATGGGCTGATCAGCGAAGCCAACCAGTATTTCGAAAGCCTGTTCGGCTGGCCGGTCCACAATGTGATCGGCCGCACCACCCTGGAACTGGGCCTGTGGGTCGACCCCACGCAGCGCGCCAAACTGGTAGAGGCCACCAAGGCCAAGGGCGAGCTGGTGAGCATGGAAGTGCAATTCCGCGCCAGTAACGGCCAGGTCCACAACGGTATCCTCAGCGCCCAGAAAGTCGAACTCGAAGGCCAGCCTTATTTACTGAGCACCTTCCTCGACACCACCGAACGCAAACTTGCCGAACAGGCCCTCAAGGACAGCCAGGAGCGCCTGGACCTGGCCCTCGACTCGGCGCAACTGGGTACCTGGGACTGGCACATCCCCAGCGGCATGCTCTACGGCTCGGCCCGGGCCGCGCAGCTCCATGGCCTGGAGCCCCAGGCGTTCCACGAATCGTTCGATGCGTTTTTCGAGGGCGTGCCTACCGAAGAACGCAACAACATGCGCAACGCCTACCGCAGCCTGCGTGAAGGCCCGGCGGGCAATTACCAGCTGACCTACCGCGTGCAACTGCCGGACGGCAGCTCGCGTTACCTGGAAAGTCGCGCCCGTCTCTACCGCAACGACGACGGCAGCCCGCTGCGCATGGCCGGCACCTTGCTCGACATCACCGACCAGGTGGAGCGCGAACAGAGCCTGGCGGCTTCGGAAGAAAAATTCGCCACGTTGTTCCAGGTCAGCCCCGATCCGATTTGCCTTACCCACCAGGACGACGGCACGTTCCTGGAAATAAACTCCAGTTTTACCCAGACATTCGGCTGGGCGGCCAATGATGTGCTGGGCCGCAGCGCCGACGAGATCGGCCTGTGGGAAGCTTCGGGCAGCAGCCTGCAGCGCATCGAACGGGTGATCCGCGAGCAGTCGCTGAGCAATGTCGCCATCGTCGTCCACCACAAGAACGGCCAGCCGCTGACCTGCGTGATCTCCAGCCGGCAGATCAGTGTCGGCAACCAGCCCTGCATCGTCACCACCCTGCGGGACATCACCCAGCAACAACGCTCCGAAGCGGCACTGAAAGCCAGCGAGGAAAAATTCGCCAAGGCATTCCACTCCAGCCCCGACGCGATCACCATTACCGAATGCGAAAGCGGCCGCTACCTTGAGGTCAACGATGGCTTCTGTCGCCTGACCGGTTATCGCGCCGACGAAGTCATCGGCCATACCGTCTACGAGGTCGGCATCTGGGCCGAAGAAAAGCAACGGACGGCGCTGCTCGCCGAATTGCAGCTCAAGGGCCGCGTTCTCCACCAGGAAATGCTCGGGCGCAACAAGCGCGGGGAAATCCTCACGGTGGAAGTATCGGTCGAGCCCATCACGCTCAACGAAACCGCATGCCTGCTGCTGACCGCCCGTGACGTGAGCCTGCTGCGCAACGCCGAGGCGCAGATCCGTCACCTCGCCTATCACGACCCGCTGACCAACCTGCCCAACCGCGCGCTGCTGCTGGACCGGCTCAGCCAGCAGATCGCCCTGCTCAAGCGCCATAACCTGCGCGGGGCGTTGCTGTTCCTCGACCTCGACCATTTCAAGCACATCAATGATTCGCTCGGCCATCCGGTTGGCGACACGGTGCTGAAGATCATCACCGCGCGCCTCGAAGCCAGCGTGCGCCTCGAAGACACCGTGGCGCGCCTGGGCGGCGATGAATTCGTCGTGCTGCTCAGCGGCCTGGAAGGCACGCGTGGCGTGGTCAGCCAGCAGGTGCAGACCCTGGCCGACACCCTTCGCGAACTGCTTTCCGAGCCGATGTTTCTCGATGGGCAACGACTGCAAGTCACCCCCAGCATCGGCATGGCGCTGATACCGGACCACGGCTCCACGCCCACTGACCTGCTCAAGCGCGCCGATATCGCCCTGTACCGCGCCAAGGATTCGGGACGCAATACCTCGCAGATGTTCCACGCCACCATGCAAAAAGCCGCCAGCGAACGGCTGCGCATGGAAACCGACCTGCGCCAGGCCCTGGCTCGCAACGAGTTCAGCGTGCATTTCCAGCCACAGGTCGATGCCCGGGACAACCGCATCGTTGGCGCCGAAGCGCTGGTGCGCTGGCATCATCCGGACCTGGGCGCGCAATCACCCAATGAGTTCATCAAGGTGCTGGAGGACAGCGGCCTGATCCTGGAAGTCGGCACCTGGATCCTCGACGAAGCCTGCGATGGCTTCAAACAACTGATCGCCAAGGGCAAGGTCGACCCCCGACGGTTCAAACTGTGCGTGAATATCAGCCCCCGGCAGTTCCGCCAGAGCGACTTCGTCGAGCGCATCGAAACCAGCCTCGCCAGCCATGGCCTGCCCTATTCCCTGCTGAAGCTGGAAATCACCGAAGGCATCGTGATCCACAACCTGGACGACACCATCGGCAAGATGCGCCGCCTGAAGAAATTGGGGGTGAGCTTTGCCATGGACGACTTCGGCACCGGTTATTCATCGCTGACTTACCTCAAGCGCCTGCCGGTGGACACGCTGAAAATCGACCAATCGTTCGTACGTGACGCCACCAGTGACCCCAACGACGCCGAGATCATCCGCGCCATCGTCGCCATGGCCCGCAGTCTGAACCTGGAAATGATTGCCGAAGGCGTCGAGACGCTGGAGCAACTGAAGTTTTTGCAGGGGCTCGATTGTCATTTGTACCAGGGTTACCTGCACAGCCGGCCATTGCCGCTGGAGGCGTTCGAGCGGTTGTTGCCTTAG	MPKPADHTPPLPRIQALDPKRSEQSWESAPQLLAALNGARLGAWSWDIDTGQISWSRGTQALFGFDPRQPLPADVDYLDLLLPEDRARAVRAFHAAVSGVPLEQAMHHRIVWPDGSLHWLEISGSVLPDKHGRPRMIGVIREITHQREREQALRSSEKRFATLFHLCPNMVLLTRQEDGLISEANQYFESLFGWPVHNVIGRTTLELGLWVDPTQRAKLVEATKAKGELVSMEVQFRASNGQVHNGILSAQKVELEGQPYLLSTFLDTTERKLAEQALKDSQERLDLALDSAQLGTWDWHIPSGMLYGSARAAQLHGLEPQAFHESFDAFFEGVPTEERNNMRNAYRSLREGPAGNYQLTYRVQLPDGSSRYLESRARLYRNDDGSPLRMAGTLLDITDQVEREQSLAASEEKFATLFQVSPDPICLTHQDDGTFLEINSSFTQTFGWAANDVLGRSADEIGLWEASGSSLQRIERVIREQSLSNVAIVVHHKNGQPLTCVISSRQISVGNQPCIVTTLRDITQQQRSEAALKASEEKFAKAFHSSPDAITITECESGRYLEVNDGFCRLTGYRADEVIGHTVYEVGIWAEEKQRTALLAELQLKGRVLHQEMLGRNKRGEILTVEVSVEPITLNETACLLLTARDVSLLRNAEAQIRHLAYHDPLTNLPNRALLLDRLSQQIALLKRHNLRGALLFLDLDHFKHINDSLGHPVGDTVLKIITARLEASVRLEDTVARLGGDEFVVLLSGLEGTRGVVSQQVQTLADTLRELLSEPMFLDGQRLQVTPSIGMALIPDHGSTPTDLLKRADIALYRAKDSGRNTSQMFHATMQKAASERLRMETDLRQALARNEFSVHFQPQVDARDNRIVGAEALVRWHHPDLGAQSPNEFIKVLEDSGLILEVGTWILDEACDGFKQLIAKGKVDPRRFKLCVNISPRQFRQSDFVERIETSLASHGLPYSLLKLEITEGIVIHNLDDTIGKMRRLKKLGVSFAMDDFGTGYSSLTYLKRLPVDTLKIDQSFVRDATSDPNDAEIIRAIVAMARSLNLEMIAEGVETLEQLKFLQGLDCHLYQGYLHSRPLPLEAFERLLP	PGPT0023624_512	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
D1-35_02257	930	cmpR_2		HTH-type transcriptional activator CmpR	ATGCTTTGCATAACCAACTGGAATCCGACCAGAAACGCCATGGACCTCGCCAACCTCAATGCCTTTATTGCCATTGCTGAAACCGGCAGTTTTTCCGGTGCCGGTGAACGCCTGCACCTGACGCAACCGGCCATCAGCAAGCGTATCGCCGGCCTCGAGCAGCAGCTCAACGTGCGCCTGTTCGACCGTCTGGGCCGGGAAGTCAGCCTGACCGAAGCCGGTCGGGCCCTGCTGCCACGGGCCTATCAGATTCTCAACGTGCTGGACGACACCCGCCGCGCCCTGACCAACCTGACCGGCGAAGTGACCGGGCGCCTGACCCTCGCCACCAGCCACCATATCGGCTTGCACCGGCTGCCACCGCTGTTGCGGGAGTTCACCCGACGCTACCCGCAGGTGGCACTGGATATTCAGTTCCTGGATTCGGAAGTGGCCTACGAGGAAATTCTCCATGGCCGGGCGGAACTGGCGGTCATCACCCTGGCCCCCGAGCCCCACACGCTGGTACGGGCCACGCCGGTGTGGGACGACCCGCTGGATTTCGTGGTGGCGCCGGAACACGCCCTGCTGGAAAACAGCGCCGTCAGCCTGGCGGACATTGCCCTTCATCCGGCGGTTTTCCCGGGAGGCAACACGTTTACCCACCACATCGTGCAGCGGCTGTTCGAAGCCCAGGGCCTGACGCCGAACATCGCAATGAGCACGAATTATCTGGAAACCATAAAGATGATGGTGTCCATCGGCCTGGCCTGGAGCGTTTTGCCGCGCACGATGCTTGATGATCAAGTGGCGCGTGTGCCTTTGCCGGGCATACAGCTCAGTCGCCAGCTAGGCTATATCCTGCACACCGAAAGGACGCTGTCGAACGCTGCACGGGCTTTCATGGCTCTATTGGACGCACAAATCGATCTGCCAGGGACAAGGGCATAA	MLCITNWNPTRNAMDLANLNAFIAIAETGSFSGAGERLHLTQPAISKRIAGLEQQLNVRLFDRLGREVSLTEAGRALLPRAYQILNVLDDTRRALTNLTGEVTGRLTLATSHHIGLHRLPPLLREFTRRYPQVALDIQFLDSEVAYEEILHGRAELAVITLAPEPHTLVRATPVWDDPLDFVVAPEHALLENSAVSLADIALHPAVFPGGNTFTHHIVQRLFEAQGLTPNIAMSTNYLETIKMMVSIGLAWSVLPRTMLDDQVARVPLPGIQLSRQLGYILHTERTLSNAARAFMALLDAQIDLPGTRA				NA	NA	NA	NA	NA
D1-35_02258	1419	leuC_1	COG0065	3-isopropylmalate dehydratase large subunit	ATGGCCGGCAAAACGCTCTACGACAAGCTCTGGGATTCGCATTTGGTCAAGCAGCGCGACGATGGCTCGGCGCTGATCTACATCGACCGCCACATCATTCACGAAGTGACCTCGCCGCAAGCCTTCGAAGGTCTGCGTCTGGCCGGGCGCAAGCCTTGGCGCATCGATGCCAACATCGCGACCCCGGACCACAACGTGCCGACCACGCCGGAGCGCAAGGGTGGCATCGAAGCCATTGCCGACCAGGTTTCGCGCCTGCAAGTCCAGACCCTTGACGACAACTGTGATGAATACGGCATCGTCGAATTCAAGATGAATGACGTCCGCCAGGGCATCGTCCACGTGATCGGCCCGGAGCAGGGCGCGACCTTGCCGGGCATGACCGTGGTCTGTGGTGACTCGCATACCTCGACCCACGGCGCCTTTGGTGCGCTGGCCCACGGTATCGGCACCTCCGAGGTCGAGCACGTGCTCGCTACCCAGTGCCTGGTCGCCAAGAAAATGAAAAACATGCTGGTGCGCGTCGAGGGCAAGCTGCCTTTCGGCGTGACCGCCAAGGACATCGTCCTGGCCGTGATCGGCAAGATCGGCACCGCCGGCGGTAATGGCCACGCCATCGAATTCGCCGGTAGCGCGATCCGCGATTTGTCCGTCGAAGGCCGCATGACCATCTGCAACATGTCCATCGAAGCCGGCGCCCGCGTCGGCCTGGTGGCCGCCGATGAAAAAACCGTGGAATACGTCAAGGGCCGGCCGTTCTCCCCGAAAGGCGCCGAATGGGACATGGCGGTCGAAGCCTGGAAAGACCTGGTCTCCGACCCGGACGCCAGGTTCGACACCGTGGTCGAGCTCGACGCGACGCAGATCAAGCCGCAAGTCAGCTGGGGCACATCGCCGGAAATGGTCCTGGCCGTGGACCAGAACGTGCCGGACCCGGCCAAGGAAATGGACCTGGTCAAGCGTGACTCCATCGTCCGCGCCTTGAAATACATGGGCCTGAGCGCCAACCAGGCGATCACCGACATTCAGCTCGACCGTGTGTTCATCGGTTCCTGCACCAACTCGCGGATCGAAGACTTGCGCGCCGCCGCCGTGATCGCCAAGGGCCGCAAGGTTGCCTCGACGATCAAGCAGGCGATCGTGGTGCCGGGCTCGGGGCTGGTGAAAGCCCAGGCCGAAGCGGAAGGGCTGGACAAGATTTTCCTCGAGGCCGGTTTCGAATGGCGCGAGCCAGGCTGCTCGATGTGCCTGGCGATGAACCCGGATCGCCTGGAGTCGGGCGAGCACTGCGCCTCGACGTCCAACCGAAACTTCGAAGGCCGCCAGGGCGCCGGTGGGCGTACGCACCTGGTGAGCCCGGCGATGGCCGCCGCCGCTGCCGTCAACGGCCGTTTTGTCGATGTCCGCGAATTGATCTGA	MAGKTLYDKLWDSHLVKQRDDGSALIYIDRHIIHEVTSPQAFEGLRLAGRKPWRIDANIATPDHNVPTTPERKGGIEAIADQVSRLQVQTLDDNCDEYGIVEFKMNDVRQGIVHVIGPEQGATLPGMTVVCGDSHTSTHGAFGALAHGIGTSEVEHVLATQCLVAKKMKNMLVRVEGKLPFGVTAKDIVLAVIGKIGTAGGNGHAIEFAGSAIRDLSVEGRMTICNMSIEAGARVGLVAADEKTVEYVKGRPFSPKGAEWDMAVEAWKDLVSDPDARFDTVVELDATQIKPQVSWGTSPEMVLAVDQNVPDPAKEMDLVKRDSIVRALKYMGLSANQAITDIQLDRVFIGSCTNSRIEDLRAAAVIAKGRKVASTIKQAIVVPGSGLVKAQAEAEGLDKIFLEAGFEWREPGCSMCLAMNPDRLESGEHCASTSNRNFEGRQGAGGRTHLVSPAMAAAAAVNGRFVDVRELI	PGPT0001442_1709	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001442-leuC-K01703	NA	NA
D1-35_02259	645	leuD1	COG0066	3-isopropylmalate dehydratase small subunit 1	ATGAAAGCTTTCACCCAGCACACCGGTCTTGTCGCGCCTTTGGATCGTGCCAACGTCGACACCGACCAGATCATCCCCAAGCAATTCCTGAAGTCCATCAAACGCACCGGCTTCGGCCCGAACCTGTTTGACGAATGGCGTTACCTGGATGTGGGCCAGCCGTACCAGGACAACTCCAAGCGGCCGTTGAACAAGGACTTCGTGCTCAATGCCGAGCGTTACCAAGGCGCCAGCGTATTGCTGGCCCGCGAGAACTTCGGTTGCGGTTCGAGCCGCGAGCACGCGCCATGGGCCCTGGAAGAATACGGTTTTCGCAGCATCATCGCGCCGAGCTACGCCGACATCTTCTTCAACAACAGCTTCAAGAACGGCCTGCTGCCGATCATTCTCAGCGATGCCGAAGTGGACGAGCTGTTCCAGCAGGTCGAGGCCAACCCTGGCTATCAACTGCAGATCGACCTGGCGGCCCAGACCGTGACCCGTCCCGACGGCAAGGTGCTGGGTTTTGAAATCGACGCGTTCCGCAAGCACTGCCTGCTCAACGGCCTGGACGACATCGGCCTGACCCTGCAGGACGGCGAGGCGATTGCCGCGTTCGAAGCCAAGCACCGGGCGAGCCAGCCTTGGTTGTTTCGTGATGCTTGA	MKAFTQHTGLVAPLDRANVDTDQIIPKQFLKSIKRTGFGPNLFDEWRYLDVGQPYQDNSKRPLNKDFVLNAERYQGASVLLARENFGCGSSREHAPWALEEYGFRSIIAPSYADIFFNNSFKNGLLPIILSDAEVDELFQQVEANPGYQLQIDLAAQTVTRPDGKVLGFEIDAFRKHCLLNGLDDIGLTLQDGEAIAAFEAKHRASQPWLFRDA	PGPT0001443_742	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001443-leuD-K01704	NA	NA
D1-35_02260	765	ycgJ		putative methyltransferase YcgJ	ATGACCAGCACCGCCCACAGCCAAGTCGTTCAAAAGCAATTCGGCGAACAGGCCTCGGCCTACCTGAGCAGCGCCGTGCACGCCCAGGGCGCCGAATTCGTGCTGCTGCAGGCCGAGCTGGCCGGTCACGCCAATGCCCGTGTGCTGGACCTGGGCTGTGGCGCCGGGCATGTGAGCTTCCATGTGGCGCCGCTGGCCGGCGAGGTGGTGGCCTACGACCTGTCCCAACAGATGCTCGACGTGGTTGCCGCGGCGGCGGCCGAGCGTGGCCTGGGCAATATCGGCACGGTACGTGGCGCCGCCGAGCGGCTGCCGTTCGCCGACGGCGAGTTCGACTTCGTGTTCAGCCGCTATTCGGCGCATCATTGGAGTGACCTGGGCCTGGCTTTGCGGGAAGTGCGCCGGGTGCTCAAGCCGGGCGGCGTAGCGGCGTTCATTGATATCCTGTCGCCGGGCATGCCGCTGCTTGATACCTACCTGCAAAGCGTCGAAGTGCTGCGCGACACCAGCCATGTGCGCGACTATTCGGCTGCCGAGTGGTTGCAGCAGGTCAGCGACGCGGGGCTGCACACCCGTAGCACCTCGCGCCAGCGTCTGCGCCTGGAATACCGTTCGTGGGTCGAGCGCATGCGTACTCCGGAGGTAATGCGGGCGGCGATTCTCGAGCTGCAGCGCTCGATGGGCGATGAAGTGCGTGAATATTTTCAGATTGAGGCCGATGGATCGTTCAGCACGGATGTACTGGTGCTGTGGGCCGAGCGATAG	MTSTAHSQVVQKQFGEQASAYLSSAVHAQGAEFVLLQAELAGHANARVLDLGCGAGHVSFHVAPLAGEVVAYDLSQQMLDVVAAAAAERGLGNIGTVRGAAERLPFADGEFDFVFSRYSAHHWSDLGLALREVRRVLKPGGVAAFIDILSPGMPLLDTYLQSVEVLRDTSHVRDYSAAEWLQQVSDAGLHTRSTSRQRLRLEYRSWVERMRTPEVMRAAILELQRSMGDEVREYFQIEADGSFSTDVLVLWAER				NA	NA	NA	NA	NA
D1-35_02261	1083	leuB		3-isopropylmalate dehydrogenase	ATGAGCAAGCAGATTCTGATTCTCCCAGGTGATGGCATCGGCCCGGAAATCATGGCCGAGGCGGTCAAGGTCCTGGAGCTGGCGAACGCCAAGTACGGCCTGGGTTTCGAACTCAGCCACGACGTGATCGGTGGCGCCGCCATCGACAAGCACGGCGTGCCGCTGGCCGATGAAACCCTGGACCGTGCCCGTGCCGCCGATGCCGTGCTGCTGGGCGCCGTGGGCGGGCCGAAATGGGACAAGATCGAACGCGACATCCGCCCCGAACGCGGGCTGCTGAAGATTCGCGCGCAACTGGGCCTGTTCGGCAACCTGCGTCCGGCGATTCTTTATCCGCAACTGGCCGATGCATCGAGCCTGAAGCCGGAAATCGTCTCCGGCCTGGACATCCTCATCGTGCGTGAGCTGACCGGCGGTATCTACTTCGGTGCCCCGCGCGGTACCCGTGAGCTGGAAAACGGCGAGCGCCAGGCCTACGACACCCTGCCGTACAGCGAAAGCGAAATCCGCCGTATCGCCCGGGTCGGCTTCGACATGGCCCGCGTGCGTGGCAAGAAGCTGTGCTCGGTGGACAAGGCCAACGTGCTGGCGTCCAGCCAACTGTGGCGCGAAGTGGTCGAGCAGGTGGCCAAGGATTATCCGGACATCGAGCTGAGCCACATGTACGTCGACAACGCCGCGATGCAACTGGTGCGCGCGCCGAAGCAGTTCGATGTGATCGTCACCGACAACATGTTCGGCGACATCCTGTCCGACGAAGCGTCGATGCTCACCGGTTCCATCGGCATGCTGCCGTCGGCCTCCCTGGATGCCAACAACAAAGGCATGTACGAGCCGTGCCACGGCTCGGCGCCGGACATTGCCGGGCAGGGCATTGCCAACCCGTTGGCGACCATCCTGTCGGTGTCGATGATGCTGCGCTACAGCTTCAACTTGAACGATGCCGCCGACGCGATTGAAAAATCCGTCAGCGTGGTCCTGGACCAGGGCTTGCGCACCGGTGACATCTGGTCACAAGGTTGCACCAAGGTCGGTACGCAGCAAATGGGCGATGCAGTAGTCGCCGCGCTGCGGAATCTGTAA	MSKQILILPGDGIGPEIMAEAVKVLELANAKYGLGFELSHDVIGGAAIDKHGVPLADETLDRARAADAVLLGAVGGPKWDKIERDIRPERGLLKIRAQLGLFGNLRPAILYPQLADASSLKPEIVSGLDILIVRELTGGIYFGAPRGTRELENGERQAYDTLPYSESEIRRIARVGFDMARVRGKKLCSVDKANVLASSQLWREVVEQVAKDYPDIELSHMYVDNAAMQLVRAPKQFDVIVTDNMFGDILSDEASMLTGSIGMLPSASLDANNKGMYEPCHGSAPDIAGQGIANPLATILSVSMMLRYSFNLNDAADAIEKSVSVVLDQGLRTGDIWSQGCTKVGTQQMGDAVVAALRNL	PGPT0001441_2109	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001441-leuB-K00052	NA	NA
D1-35_02262	1113	asd	COG0136	Aspartate-semialdehyde dehydrogenase	ATGAAACGTGTAGGTCTGATCGGTTGGCGCGGCATGGTCGGTTCCGTGCTCATGCAGCGAATGCTGGAAGAGCAGGATTTCGATCTCATTGAGCCGGTGTTTTTCACCACCTCCAACGTCGGTGGCCAGGGCCCGTCCGTGGGCAAGGACACCGGTGTGCTCAAGGATGCCTACAGCATCGAAGAGCTCAAGACCCTCGACGTGATCCTGACCTGCCAGGGCGGCGACTACACCAGCGAAGTGTTCCCCAAGCTGCGTGAAGCCGGCTGGCAGGGTTACTGGATCGACGCCGCTTCCAGCCTGCGCATGCAGGATGACGCGGTGATCATCCTCGACCCGGTCAACCGCAAGGTCATCGACCAGCAACTGGACGCGGGCACCAAGAACTACATCGGCGGCAACTGCACCGTCAGCCTGATGCTGATGGGCCTGGGCGGGCTGTTCGAGGCTGGCCTGGTCGAGTGGATGAGCGCCATGACCTATCAGGCGGCTTCCGGTGCCGGCGCGCAGAACATGCGTGAACTGATCAAGCAGATGGGCGCGACCCACGCCGCTGTCGCCGATGACCTGGCCAACCCGGCCAGCGCCATCCTCGACATCGACCGCAAGGTCGCCGAGGCGATGCGCAGCGATGCCTACCCGACCGAGAACTTCGGCGTGCCGCTGGCTGGCAGCCTGATCCCGTGGATCGACAAGGAACTGCCTAACGGCCAGAGCCGTGAAGAGTGGAAGGCCCAGGCCGAAACCAACAAGATCCTCGGTCGCTTCAAGAGCCCGATCCCGGTGGACGGCATCTGTGTGCGCATCGGCGCCATGCGCTGCCACAGCCAGGCGCTGACCATCAAGCTGAACAAGGACGTGCCGATCGCCGACATCGAAGGGTTGATCAGCCAGCACAACCCTTGGGTCAAGCTGGTGCCGAACAACCGCGAAACCAGCATTCAAGAGCTGAGCCCGACCAAGGTCACCGGCACCCTGAACGTGCCGGTGGGCCGCCTGCGCAAACTGAACATGGGCTCGCAGTTCGTCGGTGCATTCACCGTCGGCGACCAGTTGCTGTGGGGCGCGGCCGAGCCGCTGCGGCGCATGCTGCGGATCCTGCTCGAGCGTTGA	MKRVGLIGWRGMVGSVLMQRMLEEQDFDLIEPVFFTTSNVGGQGPSVGKDTGVLKDAYSIEELKTLDVILTCQGGDYTSEVFPKLREAGWQGYWIDAASSLRMQDDAVIILDPVNRKVIDQQLDAGTKNYIGGNCTVSLMLMGLGGLFEAGLVEWMSAMTYQAASGAGAQNMRELIKQMGATHAAVADDLANPASAILDIDRKVAEAMRSDAYPTENFGVPLAGSLIPWIDKELPNGQSREEWKAQAETNKILGRFKSPIPVDGICVRIGAMRCHSQALTIKLNKDVPIADIEGLISQHNPWVKLVPNNRETSIQELSPTKVTGTLNVPVGRLRKLNMGSQFVGAFTVGDQLLWGAAEPLRRMLRILLER	PGPT0014045_936	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133	NA	NA
D1-35_02263	1011	usg	COG0136	USG-1 protein	ATGAGCCAGTCCTTTGATATTGCCGTGATCGGCGCCACCGGTACTGTCGGCGAAACCCTGGTGCAGATCCTCGAAGAGCGGGATTTTCCGATCGGCACCCTGCACCTGCTGGCGAGCAGCGAATCGGCGGGAAGCTCGGTGCTGTTTCGCGGCAAGAACGTGCGGGTGCGCGAGGTCGATGAATTCGATTTCGGCAAGGTCCAACTGGTGTTCTTCGCCGCCGGTCCGGCGGTCACCCTGAGTTTTGCACCACGCGCCACGGCTGCCGGTTGTGCGCTGATCGACCTCTCCGGCGCGCTGCCGCCGGAGCAGGCGCCGCAGATCGTGCCAGAGGCCAACGCCGGGTTGCTGGCCGGCCTGAGCAAACCGTTCCAGGTCAGCAGCCCCAGCGCCTCGGCCACTGCGCTCGCCGTGGTGCTGGCGCCGCTGCGCGATTGCCTGGACCTGCAACGCATCAGCCTGACCGCCAGTCTCGCCGTCTCCGCCCAGGGGCGCGCAGCGGTGAGCGAGTTGGCGCGCCAGACCGCCGAGTTGCTCAATGCCCGTCCGCTGGAGCCGAAATTCTTCGATCGGCAGATGGCGTTCAACCTGCTGGCCCAGGTCGGTGTCCCGGATGAGCAGGGTCATACGCTGCTGGAGAAGCGCCTGGTCCACGAGCTGCGCCAAGTGCTTGCGCAACCTTTGTTAAAGATTTCCGTCACTTGCATTCAAGCGCCGGTGTTTTTCGGCGATAGCTTTAGCGTGACCGTACAGTCCGCGAGCGCCGTTGACCTGGCGAAGGTCAACGCAGCCCTGGAGGCGGCGCCCGGAATTGAGCTGGTGGAGGCGGGTGACTACCCGACGCCGGTGGGCGATGCGGTCGGCCAGGATGTGGTTTGTGTCGGGCGTGTGCGCGGTGGCGTGGACGATCCGGCGGAACTGAATCTGTGGCTGACGTCGGATAACGTGCGCAAGGGCGCGGCGCTCAATGCCGTGCAGGTGGCTGAGTTGTTGATAAAAGACTTGCTGTAA	MSQSFDIAVIGATGTVGETLVQILEERDFPIGTLHLLASSESAGSSVLFRGKNVRVREVDEFDFGKVQLVFFAAGPAVTLSFAPRATAAGCALIDLSGALPPEQAPQIVPEANAGLLAGLSKPFQVSSPSASATALAVVLAPLRDCLDLQRISLTASLAVSAQGRAAVSELARQTAELLNARPLEPKFFDRQMAFNLLAQVGVPDEQGHTLLEKRLVHELRQVLAQPLLKISVTCIQAPVFFGDSFSVTVQSASAVDLAKVNAALEAAPGIELVEAGDYPTPVGDAVGQDVVCVGRVRGGVDDPAELNLWLTSDNVRKGAALNAVQVAELLIKDLL	PGPT0014045_4966	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133	NA	NA
D1-35_02264	2583			hypothetical protein	ATGGTTCAAGTTCGCAAACTGGTGTTAGCAATAGCGGCCGCCTCGGCGCTGTCCTCCGGTATGGCGCAAGCGCTCGGGCTCGGGGAGTTGACCCTGAAGTCGCCGCCGAACCAGCCTTTGGTCGCCGAGATCGAGCTGCTCGATGTCCAGCAACTGACCGCCGCCGAAGTCGTGCCGAGCCTGGCTCCCCCCGAAGAGTTCGCCAAGGCGGGCATTGACCGCCAAGCCTTCCTCAATGACCTGAGCTTCACCCCGGTGATCAACGCCAACGGCCGCAGTGTCCTGCGGGTGACGTCCAGCCGGCCACTGTCCGAGCCGATGGTCAAGTTCCTGGTGCAGGTGATGTGGCCCAACGGCCGCTTGCTGCGCGACTACAGCGTGCTGCTCGATCCGTCCAAATTCTCGCCGCAGGCCGCCGATGCTGCGCGGGCGAAGCCGTCCCAAGCGGTTTCCACACCGGTCACCGGGGCCACCAAGCCGTCCCAATACACCACCACGCCGCGCGACACCCTGTGGGAAATCGCCGCCAAGGTGCGCAACGGCGGTTCGGTGCAACAAACCATGCTGGCGATTCAGGCGCTGAACCCGAACGCCTTCATCAACGGCAATATCAACCTGCTCAAGACCGGCCAGGTGTTGCGCCTGCCGGATCCGGTGCAAAGCACGGCGCTGCCGCAACCCCAGGCCATCGCCGAAGTGGCCGCACAGAACGCTGCCTGGCGCCAGGGGCGTCGGGGTGTGGCAGGTAACGGCCGGCAACAGTTGGACGCGACCAAGCGGGGCGCTGCCGAGGGCGCGCCAGCCCAGGCCGCCGCGCGCGACAACCTGAGCCTGGTCTCCGCCGAGTCGGCAAAGGCCGGCGCCAAGGGCAAAGGGCCTGCCGGCGATGCCCAGGCACTGAGCAACCAGCTTGCAGTGACTCAGGAGAGCCTGGATGCGGCTCGTCGCGACAACGAAGAACTGAAAAGCCGTATGGCTGACCTGCAGAGCCAACTGGACAAGCTGCAGCGTCTGATCGAGCTGAAGAACAACCAACTGGCGAAGATGCAGGCTGATGGCGCTGCTGTACCGCCTGCGGGCGAGTCGACCCCGACGATGTCGGCCGAGCTGACCCCGACGCCGTCGGCGCAGCCACCGGCGCCAACACCAGCACCCGAGGCCGCCCCGGAAGCGACGCCGCCCGCCGCACCGGTCGAGCCGACAGCTGCCGCTTCCGATGAAAAGAAATACAACGACCTGCTGACCAATCCGATCCTCCTGGGGCTGATTGGCGGTGGCGCGTTGATCCTGTTGCTGCTTCTGTTGCTGCTTGCCCGTCGCCGCAAGGCCCAGCAGGAAGCCGAGAAACATCTGCGCATGGCCCGAGCCCTCGAGGAGGAGGCCGACTTCTCCCCGGAGCTCGATCTGCCCCCGAGCAGCTTCGAGGGCATTGAGGTTCCACCACCCAGCGTAAAACTCGAACCCAAGCCAGCCCCGGCGCCAGTGCCCAAGCCGGCTCCGGTGATTGCGCCAGTGATTGTCACGCCGCCCATTGCCGCACCATTGGTGGCCCCGGCCGCCGATCGTTCCGACGACGTGCTGCCTCAGGCCCAGTCGCACATCGATCGCGGTCGTTTGAACCAGGCGGCCGATCTGCTGGAGCAAGGCATCAAGGCTGAGCCTCAGCGCAGCGATCTGCGTCTGAAGTTGATGGAAGTCTACGGCCAACAGGGCGACCGAGACGCCTTTGTTGCCCAGGAACGCCAACTGGTCGCCAACGGTGAAAACTACGCCCAGGTCGAACAGCTCAAGAGCCGTTTCCCGGCCATGGCGGTCGCCGCTGGCGCAGGCCTGGCAGCCGCAGCCGTGGCTGCCGAACTGGATGCGCAGTACGTCAAGGAACTGCTGGAAGACAAGCCGGCGACCGATGAAGAACTCGACAACGCTTTTGACCTGAGCCTGGACGACTTTGATACGACGCCCGCAGCGCCGGCACCCGAGCCGCTCAACGAACTGGACGCGTTTCCGGAAGACGATGACCTGAGTTTCGAGTCGGTGCTCAAGCAGCAGACCGAGGCCAACGAAAGCCTCGACGACCTGTCGGAGTTCGACCTGGACCTGGGCGCCGACGCTCCGGCACCCGCCCTGGAGGATGACGACTTCCTGCTGGGCCTGGAGGATGACCTCAAGGGTCTTGACGTCCCGGCTGCCGAAACGCCGGCCCTGAACGACACCCCGGCCGACGATCTTGAGCTGCCGGCGGATTTCGACCTGTCCCTGGCGGACGAAATGGATGCCCATGACCAGCCCAAGGATGCCTTCGAATCCGAGCTGGATGATGTCAACGCCGAGCTGGATCGTTTGTCCGACAGCCTCGGTCAGCCGACCTTCACGGCCGATGATGCCTTGGCGACTGCTGACGACGAGCCGGATTTCGACTTCCTCAGCGGCACCAACGAAGTGGCGACCAAGCTCGATCTGGCCCAGGCCTACATCGACATGGGCGACGACGATGGCGCCCGGGATATCCTGGGCGAGGTCCTCAACGAAGGCGATGCCACGCAGAAGAGTGAAGCGCAGGAAATGTTGTCACGCCTGGCTTGA	MVQVRKLVLAIAAASALSSGMAQALGLGELTLKSPPNQPLVAEIELLDVQQLTAAEVVPSLAPPEEFAKAGIDRQAFLNDLSFTPVINANGRSVLRVTSSRPLSEPMVKFLVQVMWPNGRLLRDYSVLLDPSKFSPQAADAARAKPSQAVSTPVTGATKPSQYTTTPRDTLWEIAAKVRNGGSVQQTMLAIQALNPNAFINGNINLLKTGQVLRLPDPVQSTALPQPQAIAEVAAQNAAWRQGRRGVAGNGRQQLDATKRGAAEGAPAQAAARDNLSLVSAESAKAGAKGKGPAGDAQALSNQLAVTQESLDAARRDNEELKSRMADLQSQLDKLQRLIELKNNQLAKMQADGAAVPPAGESTPTMSAELTPTPSAQPPAPTPAPEAAPEATPPAAPVEPTAAASDEKKYNDLLTNPILLGLIGGGALILLLLLLLLARRRKAQQEAEKHLRMARALEEEADFSPELDLPPSSFEGIEVPPPSVKLEPKPAPAPVPKPAPVIAPVIVTPPIAAPLVAPAADRSDDVLPQAQSHIDRGRLNQAADLLEQGIKAEPQRSDLRLKLMEVYGQQGDRDAFVAQERQLVANGENYAQVEQLKSRFPAMAVAAGAGLAAAAVAAELDAQYVKELLEDKPATDEELDNAFDLSLDDFDTTPAAPAPEPLNELDAFPEDDDLSFESVLKQQTEANESLDDLSEFDLDLGADAPAPALEDDDFLLGLEDDLKGLDVPAAETPALNDTPADDLELPADFDLSLADEMDAHDQPKDAFESELDDVNAELDRLSDSLGQPTFTADDALATADDEPDFDFLSGTNEVATKLDLAQAYIDMGDDDGARDILGEVLNEGDATQKSEAQEMLSRLA	PGPT0016075_683	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	SURFACE_ADHESIVE_FIMBRIAE,PGPT0016075-fimV-K08086	NA	NA
D1-35_02265	855	truA	COG0101	tRNA pseudouridine synthase A	TTGGCAAACATAGACAACCCGGCCGCAGAAATGGCGGCTGACGGCTTTTTCCGGATCGCCCTGGGCGTTGAATACAAAGGCTCGCGCTATCGCGGCTGGCAGCGTCAGGCCTCCGGTGTCCTGACGGTGCAGGAAACCCTTGAAAATGCCCTGTCCAAAGTCGCCGACTCGCCCGTGTCGCTGCATTGCGCCGGGCGTACCGATGCCGGCGTGCATGCGTGCGGGCAGGTGGTGCATTTCGATACCCAGGTCGAGCGCTCGATGAAGGCCTGGGTCATGGGCGCCAATATCAACTTGCCGCACGATGTCAGCGTCAGTTGGGCCAAGGCCATGCCGGCGCATTTCCATGCCCGCTTCAAGGCTATCGCCCGGCGTTATCGCTATGTGATCTACAACGACCAGATCCGCCCGGCGCACCTGAACGAAGAAATCACCTGGAACCACCGCCCGCTGGACGTCGAACGCATGGCCGAGGCCGCGCAATATCTGGTCGGCGTCCACGACTTCAGCGCCTTCCGCGCCGGCCAATGCCAGGCCAAATCGCCGATCAAGGAGCTGCATCACTTGCGCGTGACCCGTCACGGCAAGATGATCGTGCTCGACATCCGTGCCAGCGCCTTCCTGCATCACATGGTGCGCAACATCGCCGGCGTGCTGATGACCATCGGCGCGGGCGAGCGACCGGTGGAGTGGATCAAGGAAGTGCTGGAAAGCCGCATCCGTCGTTCCGGAGGCGTCACGGCGCATCCGTTTGGCCTGTACCTGGTACAGGTGGAATATCACGATGAGTTCGAACTGCCGGAGCGTTACATCGGGCCACATTTCCTGACAGGCTTCTCGGAACTCGACGGCTGA	MANIDNPAAEMAADGFFRIALGVEYKGSRYRGWQRQASGVLTVQETLENALSKVADSPVSLHCAGRTDAGVHACGQVVHFDTQVERSMKAWVMGANINLPHDVSVSWAKAMPAHFHARFKAIARRYRYVIYNDQIRPAHLNEEITWNHRPLDVERMAEAAQYLVGVHDFSAFRAGQCQAKSPIKELHHLRVTRHGKMIVLDIRASAFLHHMVRNIAGVLMTIGAGERPVEWIKEVLESRIRRSGGVTAHPFGLYLVQVEYHDEFELPERYIGPHFLTGFSELDG	PGPT0014045_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133	NA	NA
D1-35_02266	651	trpF	COG0135	N-(5'-phosphoribosyl)anthranilate isomerase	ATGGAATTGCCTGAGGTTTTCCCCATCATGCCGGTCGTTCGCAGCAAGATATGCGGGATCACTCGCGTCGAGGACGCGCTGGCGGCGGTCGAGGCCGGGGCGGACGCCATCGGGCTGGTGTTTTACGCCAAGAGTCCGCGGGCGGTGACGGTGCAGCAGGCGAGGGCGATCATCCAGGCCTTGCCGCCATTCGTGACGCCGGTCGGTCTGTTCGTCAACGCCAGCCGTTGCGAGCTGGGCGAGATACTCGATGCGGTGCCGTTGGCGCTGTTGCAGTTCCATGGCGACGAGACGCCAGCCGATTGTGAAGGCTGGCATCGCCCTTATATCAAGGCCCTGCGGGTCAAGGCCGGCGACGACATCGCCGCGGCTTGCGAGGCCTTTGCCGGTGCCAGCGGGATCTTGCTGGACACCTACGTCGAGGGCGTTCCCGGCGGGACCGGCGAAGCGTTCGACTGGTCGCTGGTCCCGCAAGATCTTGCCAAGCCGATCATCCTCGCCGGTGGCCTGACGGCGGACAACGTGGCGGCAGCCATTGCCCAGGTCCGCCCCTATGCGGTGGACGTCAGTGGTGGCGTGGAGCAGGCCAAGGGCCTCAAGGATCCGGCAAAGATTCGCGCGTTCATGGCCGCTGTGCGCAGCAGCCAGTAG	MELPEVFPIMPVVRSKICGITRVEDALAAVEAGADAIGLVFYAKSPRAVTVQQARAIIQALPPFVTPVGLFVNASRCELGEILDAVPLALLQFHGDETPADCEGWHRPYIKALRVKAGDDIAAACEAFAGASGILLDTYVEGVPGGTGEAFDWSLVPQDLAKPIILAGGLTADNVAAAIAQVRPYAVDVSGGVEQAKGLKDPAKIRAFMAAVRSSQ	PGPT0007115_2302	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
D1-35_02267	921	accD	COG0777	Acetyl-coenzyme A carboxylase carboxyl transferase subunit beta	ATGAGCAACTGGTTGGTAGACAAACTGATCCCTTCGATCATGCGTTCCGAGGTGAAGAAAAGCTCGGTGCCTGAAGGTCTGTGGCACAAATGTCCATCCTGCGAAGCGGTGCTTTACCGCCCCGAGCTGGAAAAGACCCTGGACGTTTGCCCCAAGTGCAACCACCACATGCGCATCGGCGCGCGTGCCCGTATCGATATTTTCCTCGACGCCGAAGGCCGCGTTGAACTGGGCGCCGAACTGGAGCCCGTGGACCGCCTGAAATTCCGCGACGGCAAGAAATACAAGGACCGCCTGACCGCCGCCCAGAAACAGACCGGCGAAAAAGATGCGCTGGTGTCCATGAGCGGTACCCTGCTGGGCATGCCGGTGGTGGTGTCGGCGTTCGAGTTCTCCTTCATGGGCGGTTCCATGGGCGCGATCGTCGGCGAGCGCTTCGTTCGCGCGGCCAACCATGCCCTGGAAAACCGTTGCCCGATGATCTGCTTCGCCGCCTCCGGCGGTGCGCGGATGCAGGAAGCGCTGATCTCGCTGATGCAAATGGCCAAGACCTCCGCGGTGCTGGCGCGTCTGCGTGAAGAAGGCATTCCGTTCATTTCGGTACTGACCGACCCGGTCTACGGCGGCGTCTCCGCCAGCCTGGCGATGCTCGGTGACGTGATCGTCGGCGAGCCGAAAGCGCTGATCGGCTTTGCCGGCCCTCGCGTGATCGAACAGACCGTGCGGGAAAAACTGCCGGAAGGTTTCCAGCGCAGTGAATTCCTGCTTGAGCACGGTGCCATCGACATGATCATTCACCGTCAGGAACTGCGCCCGCGCCTGGGCAACCTGCTGGCGCAATTGATGGGCCTGCCGACGCCGAAGTTCGTCGCCACGCCGATCGAGCCGATCGTGGTTCCGCCGGTGCCTGCAGGCCTATGA	MSNWLVDKLIPSIMRSEVKKSSVPEGLWHKCPSCEAVLYRPELEKTLDVCPKCNHHMRIGARARIDIFLDAEGRVELGAELEPVDRLKFRDGKKYKDRLTAAQKQTGEKDALVSMSGTLLGMPVVVSAFEFSFMGGSMGAIVGERFVRAANHALENRCPMICFAASGGARMQEALISLMQMAKTSAVLARLREEGIPFISVLTDPVYGGVSASLAMLGDVIVGEPKALIGFAGPRVIEQTVREKLPEGFQRSEFLLEHGAIDMIIHRQELRPRLGNLLAQLMGLPTPKFVATPIEPIVVPPVPAGL	PGPT0001710_741	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
D1-35_02268	1308	folC	COG0285	Dihydrofolate synthase/folylpolyglutamate synthase	ATGACCCAACGTACCCTGGGCGACTGGCTTGCCTACCTTGAGCAGTTGCATCCATCCGCCATCGACATGGGGTTGGAGCGCTCGCAAGCGGTAGCGTCCCGCATGGGACTGGCCAGGCCGGCGCCCCGGGTCATCACGGTTACCGGCACCAATGGCAAGGGTTCGACCTGCGCCTTCCTGGCTTCGCTGTTGCGGGGCCAGGGCCTGAGTGTCGGTGTCTACAGTTCGCCGCACCTGCTGCGCTACAACGAGCGGGTGCAGGTCAATGGCATCGAAGCCTCTGATGCCGAGCTGTGCGAAGCCTTCGCGGCGGTGGAAGCCGGGCGGGGCGAGACTTCCCTGACGTATTTCGAAATGGGCACGCTGGCGGCGTTCTGGTTGTTCGCCCGTGCCGGTCTGGACGCCGTCGTGCTGGAAGTCGGCCTGGGCGGGCGGTTGGACGCGGTCAACCTGGTGGATGCGGACATCGCGCTGGTCACCAGTATCGGCGTGGACCATGCCGACTACCTGGGCGATACCCGCGAATCCGTGGCCTTCGAGAAGGCCGGCATCTTCCGCCCGGGCGCGCCTGCGCTGTGTGGCGACCTTGACCCACCGCAGCCCTTGCTCGACAAGGTTCGCGAGCTTGATTGCCGATTTTTTCTGCGTGGGCGGGATTTCGACCTGGCCATGACCGAGCAGCACTGGCAATGGCGCGGCAGTGACGCCAAGGGCAATCCGGTGGAACTGCACGACCTGCCGCTCCTGGACCTGCCGATGGAAAACGCTGCGCTGGCGCTTCAGGCCTATTTGCTCGCGGATCTGCCGTGGGACGCGGGACGGATTGTCCAGGCGTTGCAGGCGACTCGCGTCGTCGGTCGTCTTGATCGTCGTTCGTTCGATTGGCAGGGCAAGCGTCTCAACCTGCTGCTCGATGTCGGCCACAACCCTCATGCCGCCCAGTACCTGGCGGAGCGCCTGGCGCGGCGGCCGGTGGCGGGCAAGCGCCTGGCGGTGTTCGGGCTGCTGTCCGACAAGGACCTCGATGGCGTGGTCGATGCCTTGGATGCTACTGTCCAGCACTGGGCCGTCGCTCCGCTGGATTCGCCGCGTTCCCGTCCGGCCAGCGAGTTGCAGGCAGCCTTGCAGGGTCGTGGCGCTTCGGTTGATGCTTACGCCAGTGTGGCCGACGCGCTGGAAGGGCAGTGCGCCCTGGCGACGGCCGACGACGAGATTCTGTTGTTCGGATCATTTTTTTGCGTAGCCGAGGCCCTTCAATGGTTGGCCCGGCGCTCCTCGGAGGAAGCTGCAGATGGCATTGCTGGATAA	MTQRTLGDWLAYLEQLHPSAIDMGLERSQAVASRMGLARPAPRVITVTGTNGKGSTCAFLASLLRGQGLSVGVYSSPHLLRYNERVQVNGIEASDAELCEAFAAVEAGRGETSLTYFEMGTLAAFWLFARAGLDAVVLEVGLGGRLDAVNLVDADIALVTSIGVDHADYLGDTRESVAFEKAGIFRPGAPALCGDLDPPQPLLDKVRELDCRFFLRGRDFDLAMTEQHWQWRGSDAKGNPVELHDLPLLDLPMENAALALQAYLLADLPWDAGRIVQALQATRVVGRLDRRSFDWQGKRLNLLLDVGHNPHAAQYLAERLARRPVAGKRLAVFGLLSDKDLDGVVDALDATVQHWAVAPLDSPRSRPASELQAALQGRGASVDAYASVADALEGQCALATADDEILLFGSFFCVAEALQWLARRSSEEAADGIAG	PGPT0007975_2150	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007975-folC-K11754	NA	NA
D1-35_02269	669	ftsN_1		Cell division protein FtsN	ATGGCATTGCTGGATAAGGCTTATAAGCAGCGCATGGTCGGGGCCCTGGTGTTGGTGGCCCTGGCGGTGATCTTCCTGCCGATGCTGTTTTCCCGTCAGGACGAGCAGCGCCAGGTCACGGTTGATGCACCCGCTGCGCCCCAGGCGCCCGCCGTGCCGCCGGTGCAGGTCGAACCGGTGGCGGTGCCCGAGCCGCAAGCATTGCCTCAGGAACCTGTTCCGAGTGACGAGGAACTGGCCCAGGAACCTGCCGCGCCGTCTGCGCCCATTGCGCCCGCGCCGACCGCACCGGCTCCGGCCACGCCGAGCAAACCGGCTGCCGCGCCGACGCCTGTTCCAGCAGCGCCGGCAGTCAAGCCAGCCCCGACCCAGCCGATCACGGCGGCACCGAAACCGGATACCACGCAAAGCCGCGTCGATGCCAATGGCCTGTCGGTCAGTTGGTCGGTGCAACTGGCCAGCCTGACCAGCCGCGAAAGCGCGGAAAAACTGCAGAAGAACCTGCGCAGCCAGGGTTACAACGCCTATATCCGTTCCGCCGATGGCAAGAATCGGGTGTTTGTCGGTCCGCTGATCGAGCGTGCCGAGGCTGACCGCCTGCGCGACTTGCTCAATCGCCAGCAAAACCTCAAGGGTTTTGTGGTGCGCTTCCAGCCTGAGCGTGGTTGA	MALLDKAYKQRMVGALVLVALAVIFLPMLFSRQDEQRQVTVDAPAAPQAPAVPPVQVEPVAVPEPQALPQEPVPSDEELAQEPAAPSAPIAPAPTAPAPATPSKPAAAPTPVPAAPAVKPAPTQPITAAPKPDTTQSRVDANGLSVSWSVQLASLTSRESAEKLQKNLRSQGYNAYIRSADGKNRVFVGPLIERAEADRLRDLLNRQQNLKGFVVRFQPERG				NA	NA	NA	NA	NA
D1-35_02270	561			hypothetical protein	GTGCCATTTACCTGGGTTGATTGGGCGATCGTTGCAATCGTCGCCATCTCTGCATTGATCAGTCTGAGTCGCGGCTTCGTCAAGGAAGCGCTCTCGCTGCTGACCTGGATCATTGCGGGAGTCGTGGCCTGGATGTTTGGTGGCTCGCTGTCCCAGTACCTCGCCGGATACATCGAAACACCGTCGGCCCGCGTCATCGCGGGCTGTGCCATCTTGTTTATCGCCACCTTGCTGGTTGGCGCAATGATCAATTATCTGATCGGCGAACTGATTCGCGTCACCGGGCTTTCCGGGACGGACCGGTTCCTGGGCATGGCCTTCGGCGCGGCGCGTGGCGCATTGCTGGTGGTCGTGGCCGTCGGGCTGTTGAGCCTGGGGCCGGTACAGCAGGATACGTGGTGGCAGGAGTCCCGGCTCGTGCCACAATTTCTTTTGGTCGCAGACTGGTCCAAGAACCTGATCCTGGGTTGGAGCAGTCAGTGGCTTGCCAGCGGTATCAGCGTACCCGCTGAAATACCGTTCAAGGAACAGCTCTTGCCGATGGCCAAAACGCCGCAGTGA	MPFTWVDWAIVAIVAISALISLSRGFVKEALSLLTWIIAGVVAWMFGGSLSQYLAGYIETPSARVIAGCAILFIATLLVGAMINYLIGELIRVTGLSGTDRFLGMAFGAARGALLVVVAVGLLSLGPVQQDTWWQESRLVPQFLLVADWSKNLILGWSSQWLASGISVPAEIPFKEQLLPMAKTPQ	PGPT0011655_827	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|COLICINS,PGPT0011655-cvpA-K03558	NA	NA
D1-35_02271	1506	purF	COG0034	Amidophosphoribosyltransferase	ATGTGTGGCATCGTCGGTATCGTCGGTAAGTCGAACGTCAATCAGGCGCTGTATGACGCGCTAACCGTGCTCCAGCACCGCGGCCAGGACGCTGCCGGTATCGTGACCAGCCATGACGGCCGGTTGTTCCTGCGCAAGGACAATGGACTGGTGCGTGACGTGTTTCATCAGCGTCACATGCAGCGCCTGGTCGGCCACATGGGTATCGGCCATGTGCGCTACCCGACAGCGGGCAGCTCGACCTCGGCCGAGGCCCAGCCGTTCTACGTCAACTCGCCGTACGGCATCACCCTGGCGCACAACGGCAACCTGACCAACGTCGAGCAGTTGGCCAAGGAAATCTACGAATCCGATCTGCGCCACGTCAACACCAGTTCCGACTCGGAAGTGATGCTCAACGTGTTCGCCCACGAGCTGGCCCAGCGCGGCAAGCTGCAGCCAACCGAAGAAGACGTGTTCGCCGCCGTAACCGACGTGCATAACCGCTGTGTCGGTGGCTACTCGGTAGTGGCGATGATCACCGGCTACGGCATCGTCGGTTTCCGCGACCCCCATGGCATCCGTCCGATCGTGTTCGGCCAGCGCCACACCGACGAAGGCGTCGAGTACATGATCGCCTCCGAGAGCGTGTCCCTGGACGTGCTGGGCTTCACTCTGATTCGCGACCTGGCACCGGGCGAAGCGGTCTACATCACTGAAGACGGCAAGCTTTTCACCCGCCAGTGCGCGACCAACCCGAGCCTGACCCCGTGCATCTTCGAACACGTCTACCTGGCGCGTCCGGACTCGATCATCGACGGTATCTCGGTCTACAAGGCGCGCCTGCGCATGGGCGAGAAACTGGCCGACAAGATCCTGCGCGAGCGTCCGGACCACGACATCGACGTGGTCATCCCGATCCCGGACACCAGCCGCACCGCGGCCCTGGAGCTGGCGAACCACCTGGGCGTGAAGTTCCGCGAAGGCTTCGTGAAGAACCGCTACATCGGCCGCACCTTCATCATGCCGGGCCAGGCCGCGCGGAAAAAATCCGTACGCCAGAAGCTCAACGCCATCGAGCTGGAATTTCGCGGCAAGAACGTGATGCTGGTGGACGACTCCATCGTGCGCGGCACCACTTGCAAGCAGATCATCCAGATGGCCCGCGAAGCCGGCGCCAAGAACGTATATTTCTGCTCCGCGGCCCCGGCCGTGCGTTACCCGAACGTCTACGGCATCGACATGCCGAGTGCCCACGAGCTGATCGCTCATAACCGCACGACCCAGGAAGTGGCCGACCTGATCGGCGCCGACTGGTTGATCTACCAGGACCTGCCGGACCTGATCGAAGCGGTCGGTGGCGGCAAGATCAAGATCGAGCAGTTCGATTGCGCGGTATTCGACGGCAAGTACGTTACCGGCGATATCGACGAGGTCTATCTGAACCGGATCGAGAACGCCCGTAACGATGCGTCCAAAGCCAAGACCCAGGCGGTCAGCGCGATCATCGATCTGTACAACAACTGA	MCGIVGIVGKSNVNQALYDALTVLQHRGQDAAGIVTSHDGRLFLRKDNGLVRDVFHQRHMQRLVGHMGIGHVRYPTAGSSTSAEAQPFYVNSPYGITLAHNGNLTNVEQLAKEIYESDLRHVNTSSDSEVMLNVFAHELAQRGKLQPTEEDVFAAVTDVHNRCVGGYSVVAMITGYGIVGFRDPHGIRPIVFGQRHTDEGVEYMIASESVSLDVLGFTLIRDLAPGEAVYITEDGKLFTRQCATNPSLTPCIFEHVYLARPDSIIDGISVYKARLRMGEKLADKILRERPDHDIDVVIPIPDTSRTAALELANHLGVKFREGFVKNRYIGRTFIMPGQAARKKSVRQKLNAIELEFRGKNVMLVDDSIVRGTTCKQIIQMAREAGAKNVYFCSAAPAVRYPNVYGIDMPSAHELIAHNRTTQEVADLIGADWLIYQDLPDLIEAVGGGKIKIEQFDCAVFDGKYVTGDIDEVYLNRIENARNDASKAKTQAVSAIIDLYNN	PGPT0020225_2650	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020225-purF-K00764	NA	NA
D1-35_02272	1212	metZ	COG0626	O-succinylhomoserine sulfhydrylase	ATGAGTCAGGATTGGGATGCCGGTCGGCTGGACAGCGACCTTGAAGGTGTAGCGTTCGATACCTTGGCGGTTCGCGCGGGCCAGCACCGTACACCGGAAGCCGAGCATGGCGATCCGATGTTCTTCACCTCCAGCTACGTCTTCCGCACCGCTGCCGATGCCGCGGCGCGATTTGCCGGTGAAGTGCCGGGCAACGTCTATTCGCGTTACACCAATCCCACCGTGCGGGCTTTCGAGGAGCGCATCGCCGCCCTGGAAGGCGCCGAGCAAGCGGTTGCCACCGCCACCGGCATGGCTGCGATCATGGCCGTGGTCATGAGCCTGTGCAGCGCTGGTGATCATGTACTGGTGTCGCGCAGCGTCTTCGGCTCGACCATCAGCCTGTTCGAAAAGTACTTCAAGCGCTTCGGTGTCGAAGTCGACTACGTACCGCTGGCGGATTTGTCGGGTTGGGATGCGGCAATCAAGGCCAACACCAAACTGTTGTTCGTCGAATCGCCGTCCAACCCGCTCGCCGAGCTGGTGGATATCGCCGCGTTGGCGGAAATAGCCCACGCCAAAGGCGCCATGCTGGTGGTCGACAACTGCTTCTGCACGCCGGCGCTGCAACAGCCGCTCAAGCTGGGCGCGGATGTGGTGGTGCACTCAGCCACCAAGTTCATCGACGGCCAGGGTCGTTGCATGGGCGGCGTTGTCGCCGGTCGTGGCGAGCAGATGAAAGAAGTGGTGGGTTTCCTGCGCACCGCCGGGCCGACCCTCAGCCCGTTCAACGCCTGGATCTTCCTCAAGGGCCTGGAAACCCTCGGTCTGCGGATGAAAGCGCATTGTGCCAACGCTCAGGTCCTGGCCGAGTGGCTGGCACAGCAGGACGGCATCGAGAAAGTCCATTACGCCGGCCTCAAGAGTCATCCGCAACATGAGCTGGCGGCGCGTCAGCAGCGTGGTTTTGGCGCGGTGGTGAGTTTCGAAGTCAAGGGCGGCAAGGAGGGCGCCTGGCGCTTCATCGATGCCACCCGGTTGATTTCCATCACCGCGAACCTGGGTGACAGCAAGACCACTATCACGCACCCAAGCACCACCTCTCACGGACGTCTCTCGCCACAAGAGCGTGAAGCAGCGGGCATCCATGACAGCCTGATCCGCGTCGCGGTCGGCCTGGAAGACGTAGCGGACCTGCAAGCCGACCTGGCCCGCGGGTTGGCGGCCTTGTGA	MSQDWDAGRLDSDLEGVAFDTLAVRAGQHRTPEAEHGDPMFFTSSYVFRTAADAAARFAGEVPGNVYSRYTNPTVRAFEERIAALEGAEQAVATATGMAAIMAVVMSLCSAGDHVLVSRSVFGSTISLFEKYFKRFGVEVDYVPLADLSGWDAAIKANTKLLFVESPSNPLAELVDIAALAEIAHAKGAMLVVDNCFCTPALQQPLKLGADVVVHSATKFIDGQGRCMGGVVAGRGEQMKEVVGFLRTAGPTLSPFNAWIFLKGLETLGLRMKAHCANAQVLAEWLAQQDGIEKVHYAGLKSHPQHELAARQQRGFGAVVSFEVKGGKEGAWRFIDATRLISITANLGDSKTTITHPSTTSHGRLSPQEREAAGIHDSLIRVAVGLEDVADLQADLARGLAAL	PGPT0020020_1038	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020020-mdeA-K01761	NA	NA
D1-35_02273	774	gdhI	COG1028	Glucose 1-dehydrogenase 1	GTGATCGAGCTGGCAACGCCGCCGAGCGGTACTCATGGCCGGGTTGCCCTGGTAACGGGCGCGGCACGGGGGATCGGCCTGGGCATTGCCGCCTGGCTGATCTGCGAAGGTTGGCAGGTCGTCTTGACCGACCTGGACCGCCAGCGCGGCTCCAGGGTGGCGAAGGCCCTGGGCGACAATGCCTGGTTCATCGGCATGGACGTGGCGGATGAAGGGCAGGTCGCCACCGGCATCGCCGAAGTGCTCGGGCAGTTCGGCCGGCTCGACGCGCTGGTATGCAACGCGGCCATTGCCGACCCGCACAACATCACCCTGGAAAGCCTCGACCTGGCTCACTGGAACCGGGTCCTGGCGGTGAACCTGGGCGGGCCGATGCTGCTGGCCAAGCATTGCGCGCCTTACCTGCGTGCCCATAACGGCGCCATCGTCAACCTGGCCTCGACCCGCGCCGCGCAATCGGAGCCCGACACCGAGGCGTATGCGGCGAGCAAGGGTGGCCTGCTGGCGCTGACCCATGCCCTGGCGATCAGCCTTGGGCCGGAGATCCGCGTCAACGCCGTCAGCCCCGGCTGGATCGATGCGCGAGACCCCTCGCAACGTCGTGCGCAGCCATTGACCGACGCCGATCATGCCCAGCATCCGGCGGGCAGGGTAGGCACGGTGGAGGACGTGGCGGCGATGGTGGCGTGGCTGTTGTCGCGCAACGCCGGTTTTGTTACCGGGCAGGAGTTTGTCGTGGACGGTGGCATGACCAAGAAAATGATCTACGAGTGA	MIELATPPSGTHGRVALVTGAARGIGLGIAAWLICEGWQVVLTDLDRQRGSRVAKALGDNAWFIGMDVADEGQVATGIAEVLGQFGRLDALVCNAAIADPHNITLESLDLAHWNRVLAVNLGGPMLLAKHCAPYLRAHNGAIVNLASTRAAQSEPDTEAYAASKGGLLALTHALAISLGPEIRVNAVSPGWIDARDPSQRRAQPLTDADHAQHPAGRVGTVEDVAAMVAWLLSRNAGFVTGQEFVVDGGMTKKMIYE	PGPT0008190_904	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
D1-35_02277	1284	puuB_1		Gamma-glutamylputrescine oxidoreductase	ATGGCGAACACATCCTACCCAGCGTCCTATTACGCCGCATCGGCGAATCCGGCGCCGTCGCGCCCTGCCCTGCAGGATGACGTCGAAACCGATGTTTGCGTCATCGGTGCGGGTTATACGGGGTTGTCTTCTGCATTGTTTCTGCTGGAGCATGGCTTCAAGGTCACGGTTGTCGAGGCGGCCAGGGTCGGCTTTGGCGCCTCGGGTCGTAACGGCGGGCAGATCGTCAACAGCTATAGCCGCGACATTGATGTGATCGAACGCAGTGTCGGCCCTCAGCAGGCGCAGTTGCTGGGCAACATGGCGTTCGAGGGTGGCCGGATCATTCGTGAGCGGGTGGCGAAGTACCAGATTCAGTGTGATCTGAAGGACGGCGGTGTGTTCGCCGCTCTCACCGCCAAGCAGATGGGCCATCTGGAGTCGCAGAAGCGTTTATGGGAGCGTTTCGGGCACACCCGGCTGGAACTGCTCGATCAGCGGCGTATCCGCGAGGTGGTGGCTTGCGACGAGTATGTCGGCGGGATGCTGGACATGAGCGGCGGGCATATTCATCCGCTCAACCTGGCCTTGGGCGAAGCGGCGGCGGTCGAGTCGCTGGGCGGGGTGATTTATGAACAGTCGCCGGCGGTGCGCATCGAGCGCGGCGCCAGTCCGGTTGTGCATACCCCGCAGGGCAAGGTCAGGGCCAAGTTCATTATCGTGGCGGGTAATGCTTACCTGGGCAATCTGGTGCCTGAGCTGGCGGCCAAGTCCATGCCTTGCGGTACGCAGGTGGTTGCCACCGAGCCGTTGGGCGATGAGCTGGCTCAACGTCTGCTGCCCCAGGATTATTGCGTCGAAGACTGCAACTACTTGCTCGATTACTACCGGCTGACAGGCGACAAGCGTCTGATCTTCGGTGGCGGCGTGGTGTACGGCGCGCGGGATCCGGCGAATATCGAAGCGATCATCCGGCCGAAGATGATCAAGGCGTTTCCGCAGCTCAAGGATGTGAAGATCGATTACGCCTGGACCGGAAATTTCCTGCTGACACTGTCGCGTCTTCCGCAGGTCGGACGGTTGGGGGACAACATTTATTATTCCCAGGGCTGCAGTGGCCATGGCGTGACGTATACGCATCTGGCGGGCAAGGTCCTGGCCGAGGCACTGCGAGGTCAGGCGGAGCGTTTTGATGCGTTTGCGGACCTGCCTCACTACCCGTTCCCGGGCGGGCAGTTGTTGCGTACGCCGTTTGCGGCGATGGGGGCCTGGTATTACGGGTTGCGGGATCGGTTGGGGTTCTGA	MANTSYPASYYAASANPAPSRPALQDDVETDVCVIGAGYTGLSSALFLLEHGFKVTVVEAARVGFGASGRNGGQIVNSYSRDIDVIERSVGPQQAQLLGNMAFEGGRIIRERVAKYQIQCDLKDGGVFAALTAKQMGHLESQKRLWERFGHTRLELLDQRRIREVVACDEYVGGMLDMSGGHIHPLNLALGEAAAVESLGGVIYEQSPAVRIERGASPVVHTPQGKVRAKFIIVAGNAYLGNLVPELAAKSMPCGTQVVATEPLGDELAQRLLPQDYCVEDCNYLLDYYRLTGDKRLIFGGGVVYGARDPANIEAIIRPKMIKAFPQLKDVKIDYAWTGNFLLTLSRLPQVGRLGDNIYYSQGCSGHGVTYTHLAGKVLAEALRGQAERFDAFADLPHYPFPGGQLLRTPFAAMGAWYYGLRDRLGF	PGPT0007637_1575	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007637-puuB|ordL-K09471	NA	NA
D1-35_02279	1251			hypothetical protein	ATGCCATCGATTGGTAAAAACCAGTTTGTGACCTACTCGGTTCCTCGAGGGCAAATTCGGTCGGAGCGCTCGGACTCCTCTTCGAACGCCGGACACATGATATCACTTTCGCCCGCAAATTTAAGTGATGAGGCGATAAATGCACTGAAGGCTGCGGTGGAAAGCTCTGATAAGTCGCAAGCGTCCTTGGCATTGCTCGCCTCGCATGTGATAGGCGATGGCCAGCTCACGCTTCATTCAGGTCAGCAGGAGGAAGCCGTCTATAAAAAACTAATGGATCGCACTGCACAAGGGCCGCAAGAGCTTACGGTGCGTGTACGAATGAATGATTTTCAGATGTACGACATTCTGGAAATTACCCAGTCCCGTGATAAAGCCGCTCCCACTGCAATTAGCTTGAAGGGCCCGTCAGAGCGTGGAGCTGAAACGCCGCGACATCCGGAAGCATCGACATCCCGTCTCCGAAATTGGACGTCGGCGGCTACGCAAAAGGCGCAGCAGACGTTAGGTTTGACTTCGCCGGGGCGCTCACTACCGCGGCTGACTAAAGAGGCAAAAAGGATGATCGCTGAAGCGGATATTGCGCATGCATTAACGAAAACAGATCAGCTGGATGTCCGTCATAGATATCAGCAGCAGATGGAGCAGAATCAAAGACTTCAGCCCATTCAGCGAGTAAGCGATCAAGAATTATGGAGTCAAGCGATCGACGACGCAGAGCGAATACCAGTGTCCCGTCTTTCCGCTAGAGAGAAACTCCAGTTACAAAAAGAAGGAATGACGCTTCACAAAGCGAAAATTTTCGCGCTGTTTAACTCGTTTTTATACCCCATTGGTCGCTATCGGGATAGGCACATGTCTGACGAGACCCGTGCCAGGCTCAACGCTGAAACACAAAAAATTCGACAGATGCCCATTGGCAACGGTTACCCCTCCAGTCTGGGCCCCTTGAGTTTCGCCCGCTCTACCTCCGACTTGGATACCGAATCGGATGACCAACTGCCTGAGCTGCGAAAGTCTATTGAGGACCCGTCTTCCCTTGAAGTTGATAGTCAGGCCTATCATTCATTAGGTCTTGAAGAACGCGAAGCGCTGGACGCGCTAGCCGACCTTATTGATGCGCATGGGCTGGATTCTGCTATGCACAAAATGTCACCCAAAATACGGGATTCGTTTGATGGGTATCAGCTGAGGCGTAATCGTTTATCCCAACACCAAACGCCGCAGGTTGAGCAAGGAGAGGCGATGTAG	MPSIGKNQFVTYSVPRGQIRSERSDSSSNAGHMISLSPANLSDEAINALKAAVESSDKSQASLALLASHVIGDGQLTLHSGQQEEAVYKKLMDRTAQGPQELTVRVRMNDFQMYDILEITQSRDKAAPTAISLKGPSERGAETPRHPEASTSRLRNWTSAATQKAQQTLGLTSPGRSLPRLTKEAKRMIAEADIAHALTKTDQLDVRHRYQQQMEQNQRLQPIQRVSDQELWSQAIDDAERIPVSRLSAREKLQLQKEGMTLHKAKIFALFNSFLYPIGRYRDRHMSDETRARLNAETQKIRQMPIGNGYPSSLGPLSFARSTSDLDTESDDQLPELRKSIEDPSSLEVDSQAYHSLGLEEREALDALADLIDAHGLDSAMHKMSPKIRDSFDGYQLRRNRLSQHQTPQVEQGEAM				NA	NA	NA	NA	NA
D1-35_02280	525			hypothetical protein	ATGACACCACTTGGCTCCAACGAGGTTTTCATCATCCGGCCGAAGATCGGCATCGGTCGTTTATTTTTTGTCCCACTGCTTCGCCAGACACCTTGGGCGATCACGGCGATCTTTTGTATCAGCTTATCGACCGGCCTGTCGTTACCGGGGAGGGAATGGCCGGGCATCATCCTCGCAAGCCTGGTTGTGATGTGGTGGGTATATCAACTGGGCAGAGATATCAGCGAGCGCGCTTCACTGGCCGTGCAGGCGTCTGGTGTGGCTTTTCTCGGACGGTACCAACTAACGAAACGCACACCGCTGCGAATAGTGTTCAAACCCGACGGCCACCTGGCTGTTTTTAGCAAGTCTTACAGTATTTATGTCGAGTATGAAAACGGGCGTTTATTAATCGCTCGCCGTGTCGTCGGAAAAAAAGTCAACCAACAGAAACAGCTCGCCAGCGAGCTCGCCGCGTTTCTGGGCTTATTTGCATACGTGGATGATGGCTCTGGAAGACTGAAGAAATTAGCCGGCCAACGGTGA	MTPLGSNEVFIIRPKIGIGRLFFVPLLRQTPWAITAIFCISLSTGLSLPGREWPGIILASLVVMWWVYQLGRDISERASLAVQASGVAFLGRYQLTKRTPLRIVFKPDGHLAVFSKSYSIYVEYENGRLLIARRVVGKKVNQQKQLASELAAFLGLFAYVDDGSGRLKKLAGQR				NA	NA	NA	NA	NA
D1-35_02281	618			hypothetical protein	ATGGAAAGCTGTTTGAGGACGCTTGGAGTTAGCCTCGCTAACAAGATAGTGATCCCCGCCGCTTGGTTATCGGGGCTTGTAACGATAGGACTTGTGTGGGGCATGATACGGTTTTCGCCCGATAAGCTTACAGTCGAAGGACGTCAGCTCTTCGTGGCTTCTTTTTCTATCTTTTGTCTCGCCATAGGGTACTTGATATGGCGTAAGCGACGAGCAGAAGCACTTGTGACATCCATCAACCTGAAAGAAGGTCTGAGCCTGGACGGTGCTCGGATGCTCGGCTATCCAAACTCCCTGTTTTTTGTCTTTGACCTGTCCAACAAGAAACTCGCTCAATGCCAAAGTGTCACCGGCGACTATCAAATTCGAGACTTCACGTGGGTAACAGGCTGGCAGTTCGAGTGGCAACAGATTGACAGCAGGGTATCGGGCGGCGTTCTTCAAATAGTCGATGGGGCAGGCATGAGCGTTCCAGCCGACGAAATTCGGCGTAGGTTCATAAAATTCACACTGGTTTTGACGGTTGCCGATACAAATCATCCTCTCTTCCGTTTCCCGATGAGCCGGAGCGCAGCTGAAGGCTGGTGTAGCCGGTGCAGTGTTCTTTTCAAGTGCTAA	MESCLRTLGVSLANKIVIPAAWLSGLVTIGLVWGMIRFSPDKLTVEGRQLFVASFSIFCLAIGYLIWRKRRAEALVTSINLKEGLSLDGARMLGYPNSLFFVFDLSNKKLAQCQSVTGDYQIRDFTWVTGWQFEWQQIDSRVSGGVLQIVDGAGMSVPADEIRRRFIKFTLVLTVADTNHPLFRFPMSRSAAEGWCSRCSVLFKC				NA	NA	NA	NA	NA
D1-35_02282	579			hypothetical protein	GTGACTTCAGTTTATAAGCGCGTGGTGACTTATCGCTGCCTTGGAACTATTTACCATCAAGGCTTGGCATTTGGTGAAGCAGGGCGAAAGCTAATTGACTCGAAGCAGAGTAATCTGTTCGTGCCAGGAATGATCAACATCTGTCTTGCCACGGAAATATTTTTAAAGTCAATCAACGCAACGATGACTTATGTTCTCGATGAAGAGGACGAACTGCCTGGCGGAATTGCGATATCCCAAGGACGTGATGAGTCTCTCAAAATCGCACCTGGCGGACAAGGACATCATCTCAGCAAACTGTACGAAAATCTGCCAGACGAAGCTAAAGAGTCAATCAAGGCTTTCGCCATCAATGAAGGATACAGCGGTGATATCGCCTATGGACTGCAGCAATATGACAAGGTTTTCGTAGAGTGGCGCTATATCTATGAGAAAAATGACCCTGGCGCCTTAGGCACGCATCCCCTCTTCCCGATTTGCAATGCCATTGACGCCTACTGTCGCGGAAATCTGGAGAAGACGTTTGGGGCAGTTGACGAAAAGCTCGAAGAGTCCCATCCGGATTTCGAGGCCAGGTAA	MTSVYKRVVTYRCLGTIYHQGLAFGEAGRKLIDSKQSNLFVPGMINICLATEIFLKSINATMTYVLDEEDELPGGIAISQGRDESLKIAPGGQGHHLSKLYENLPDEAKESIKAFAINEGYSGDIAYGLQQYDKVFVEWRYIYEKNDPGALGTHPLFPICNAIDAYCRGNLEKTFGAVDEKLEESHPDFEAR				NA	NA	NA	NA	NA
D1-35_02283	252			hypothetical protein	ATGAAAGTATTTCTCTACGCTTCTTTCAACGACGAAGGGAATAGAACTCACTTGGTTCGCACGACCGAAACACCACTCGAGAGCCTCCCTGGCAATATTCAGGACATCTACAAAAAGATTGAGGTTAAAGAATATGACGTCAATCCAGATGATCTATCAAGTCACTGGTGGTTATGCAAGGAGCTCGTTGACAACCTTTGCACGAAAGGCTGGGACGCGTGCGTTTGGGCGCGAGTTAACAGCTACGCCTGA	MKVFLYASFNDEGNRTHLVRTTETPLESLPGNIQDIYKKIEVKEYDVNPDDLSSHWWLCKELVDNLCTKGWDACVWARVNSYA				NA	NA	NA	NA	NA
D1-35_02284	213			hypothetical protein	ATGACGTCGTTCGAAGAATTCAGGGCCACATCCCATGAGCTTCTCAAAGAGCTGGATGCCGCGACGATAAAAATGATGATGCTGGTTTCTGCGAAAGAGGTATCCGGTCCTTTTTGGGAGGACGCTGCCCAGCGGCATCACGACGCTGTAGATGCCTGGCATTCCTTTCTCAATATTCCGACGGGTTTCGTGTCGGATCCGCCTCTACCCTAA	MTSFEEFRATSHELLKELDAATIKMMMLVSAKEVSGPFWEDAAQRHHDAVDAWHSFLNIPTGFVSDPPLP				NA	NA	NA	NA	NA
D1-35_02285	549			hypothetical protein	ATGCGAGAATTTGAGCTCATTAAGTCCGTGCCAGTCCCCTCAAGGTCCGGCATTACCCATCTTTACAACCCGATGAACCTGGTCGACGCTTTTGCGATTCGGCTCCCTGCGGGCACATCCAGCGATCCGGATTTGCTAGCTCGATTCATTCTTTCACACCAGCCCTCCTGGATCGGATGGCTCCTGGCAGTCCGGGACACTATCGTTGCCTGTTTTGGACTCAAGACAGCCAGACATCTGGCATCGCTTGCCAATCGGGTTGGCGTCTTCAAGGTCTACAGTACAAACCAGACTGAAATCGTGTTGGGAGAGGACGACAAGCACCTCGACTTTCGGATATCGATCCTGTGTTCTGAAGAGGCGGAGCCAGAAGGCAATCGCCAATTGGTGTTTTCAACCGTGGTTCAGTGCCACAACCGTCTTGGCCGGGCCTATATCTTCGTTATCGCCCCGTTTCATCGCTTGGTGGTCAAGGCCAGCTTGCTCCGTGCAGCGCGCGTCGGTTGGCCTCTGGCTACCTGCGCCTCAGAGCGCAGTGTCCCCGTGTAG	MREFELIKSVPVPSRSGITHLYNPMNLVDAFAIRLPAGTSSDPDLLARFILSHQPSWIGWLLAVRDTIVACFGLKTARHLASLANRVGVFKVYSTNQTEIVLGEDDKHLDFRISILCSEEAEPEGNRQLVFSTVVQCHNRLGRAYIFVIAPFHRLVVKASLLRAARVGWPLATCASERSVPV				NA	NA	NA	NA	NA
D1-35_02286	777			hypothetical protein	GTGCAGAGAATGGGCAAACTGGAACCGTTAATGCCGTACAACTACATGAACGGCCGCTACCTGGTCTTCAAAGGCAACGGCATCGATGGGGCGCCTTTGGGCAGGATTCACCAGGACGGAACCGTTCGAAACCTGCAGGGTGAGCCGCTCTACTACATAAACATGGACGAACATGCGTTCTGTTCGATGGACTTTACCTTTCAGGGCAATATACAAAAAATTCGCGGCACGTTTTACGTGCTCGGTGACAGAACGCTGTTCACATTTTCCGAGATGAAGGTTAAGCCACTTGGAAACGAGACCGAGGAGCAGGCGCTTCACCGGGAGTTCAAAAACACCGCGATAAACCTGGCAAGGCAAATCGCCCAGGCGAAGAACGAGATGGCGCAGGAACGGATAGAGATGGCCATGTCCGATTCAAACCCTTTCCGGCGTTTCCGTGCCTTCTTCACGAGCCGAGCCCGCAGGGAGCGAGCATCACCAGGTTGGCGTCGCAGTGAGTTAGAAAACGATCATGAGTTCAAATCGAGGTCTGTCGCTGTCTCCTCATCATCACTTGCGCCAATGAGCTTATGGGCAACAGATGCAAGGACCAGGCAAACGCGGCCATACAACAATTACGCGACGGTCCGGTTACAGGTGAACTCCTATTACGGTCTGTCCCTGGCTTTCCGCTTTCCGCCGATCAAGGTGGGTTGTACTGCGTCACTCGCACAAGCTCCTCGTCGTAACCCACGTTGGGAAAACATCCCCTCCGTCTATACCCCGCGTTTCTAG	MQRMGKLEPLMPYNYMNGRYLVFKGNGIDGAPLGRIHQDGTVRNLQGEPLYYINMDEHAFCSMDFTFQGNIQKIRGTFYVLGDRTLFTFSEMKVKPLGNETEEQALHREFKNTAINLARQIAQAKNEMAQERIEMAMSDSNPFRRFRAFFTSRARRERASPGWRRSELENDHEFKSRSVAVSSSSLAPMSLWATDARTRQTRPYNNYATVRLQVNSYYGLSLAFRFPPIKVGCTASLAQAPRRNPRWENIPSVYTPRF				NA	NA	NA	NA	NA
D1-35_02287	249			hypothetical protein	ATGAAAACGCTAGTCTTGGCACTCTCGCTGGTCGCACTGGCAGCCTGCATGCCTTATAGGACGGTCACCTCGCCAGATCCAGACTGGATGCGTCTGGGTGGATATGAGCCTGAGGGTTATCCAAGGACGTTTGTCGAGACTTGGGAGGGCAAATGCTATGCGGTTACCGAGGCATGGTTCAAGAGCGCAATCAACGGTCGTACCTTGTGGACCAAGCGGCAGTCTCACGAGGCTGTTACCTGTCCATAG	MKTLVLALSLVALAACMPYRTVTSPDPDWMRLGGYEPEGYPRTFVETWEGKCYAVTEAWFKSAINGRTLWTKRQSHEAVTCP				NA	NA	NA	NA	NA
D1-35_02288	231			hypothetical protein	ATGAAATGTTATCTATGCGGGCTGGAAGCACAACAGTCCGAAGAGAACCAAGGTGGTGAGCTCGTCAACTGCGCTGACTGCGGCACCTACAAGATTTCAGGCCTTGTTCTGAAAGAACTGGGGGCCAGGAAATTCAATTACCCAAAAATGCGCGATGATTTGCACCGCCAGCGGCAGTTCAACGCTACGTCTGTCGCCGAGATCAATACCGAGACGGTCATCTGGGCTTGA	MKCYLCGLEAQQSEENQGGELVNCADCGTYKISGLVLKELGARKFNYPKMRDDLHRQRQFNATSVAEINTETVIWA				NA	NA	NA	NA	NA
D1-35_02289	981	pip_1		Proline iminopeptidase	ATGGATGTCCCCCGTCAGATCACGTACAGTCAATTTCCCCCTATCGAGCAGCCTCGGCGCAGCGGCATGCTGCCCGTCGACGATCTGCATACGCTTTATTGGGAAGAAAGCGGCAACCCCGACGGTGTACCGGTGATTTACCTCCACGGCGGACCCGGCGAAGGCGCTCCGCCGACCAAACGACAGTTCTGGGATCCCGATCATTACCGCATCGTACTGTTCGATCAGCGCGGCGCCCTTCGCTCGACACCCTTGGCGGAACTGCGCGACAACACTACCCAAGCGCTGGTCAACGACATCGAGGCGTTAAGGGAGCATCTGGAAATCGATCGTTGGCTGATCACCGGTGGCTCGTGGGGCACCACCTTGGCCTTGGCCTACGGCGAGACGCATCCGCAACGCTGCCTTGGCTTCATCCTGCGAGGGGTATTCCTGGGCACAGCCGACGAGATCGACTGGTTCATCCACGGCATGCGGCGCTTCTTTCCCCGCGCTCATGAAGACTTCGTGAATTTCATTCCCGAAGCCGAACGCCACGACCTCTTGAAAGCCTATCTGGACCGCATGACCGGTGACGACGAGCACCTACGCGTGGAAGCCATCCGCTGCTGGGTGCGCTACTCCGCCAGTTGTTCGCTGTTGCGGCATGACCCTGACGGCGTCGAAGAACAAGCGTCAGACGATCAGACCAGCACTGGCATGGGATGCCTGGATGCCTGGTACTTCAAGAACCAGCTATTCTTGGAGGAAGATCAGCTCATCCGAGACATCGCGGCGATTACCCATCTGCCGTGCAGGATCATCCAGGGCGGGCACGACATGATTGCTACGCCAAACTCGGCCTTTCGCCTGCATAAAGCGTGGCCAGGCTCGGTGCTGACCGTGATCAATGATGCCGGGCATTCACCTTCGGAAACCGGGATTGTCAGTGCTTTGATCGAGGCGACGGAGCAGTTCAAGGTGGGTGGGAAATTCGGTTAG	MDVPRQITYSQFPPIEQPRRSGMLPVDDLHTLYWEESGNPDGVPVIYLHGGPGEGAPPTKRQFWDPDHYRIVLFDQRGALRSTPLAELRDNTTQALVNDIEALREHLEIDRWLITGGSWGTTLALAYGETHPQRCLGFILRGVFLGTADEIDWFIHGMRRFFPRAHEDFVNFIPEAERHDLLKAYLDRMTGDDEHLRVEAIRCWVRYSASCSLLRHDPDGVEEQASDDQTSTGMGCLDAWYFKNQLFLEEDQLIRDIAAITHLPCRIIQGGHDMIATPNSAFRLHKAWPGSVLTVINDAGHSPSETGIVSALIEATEQFKVGGKFG				NA	NA	NA	NA	NA
D1-35_02290	1002	trxB	COG0492	Thioredoxin reductase	ATGCCCCTGGATTGCGATGAATATGAAGAGCTGTTCGCTCGGCCAGAATCAGCTTCCACTGAAGGTGGGGACGTTGATCTTGATTGTCTGATCGTCGGCGCCGGCCCCGCTGGATTGACCGCTGCTGTTTACCTGAGTCGATTCCACCGGCAGGTCCTGGTCGCCGACGGTGGGCGCAGCCGTGCGAGTCTCATTCCACGTTCCCATAACTATCCGGGTTTTCCACCGGGCATCTCCGGCACGGACCTGCTCGCCCGGCTGCGAGAGCAGGCGTTGCGTTACGGCGCGATCATCGAGTCAGGAAGGGTCAAGCGCCTGCTCAAGCACCGTGCAGGTTTTGTTGCGCAACTCAACGGCCGTGAACTGGTTGCGCGTCGCGTGGTGCTGGCGACCGGAATCGTCGACACGCTGCCACACATGGAGCGGCCTTACGATGCGGTTGCGCAATCGGTGATCCGACTTTGCGCGATCTGTGATGGTTACGAAGTCAACGGCGACAACGTCGCGGTTTATGGCGAGGCGAGCTGTGCGATCAATCATGGATTGTTTTTGCGAAACTTCACTGACCGGGTAACGGTATTGATTCATGGAGATAGCCAGGCTTGCGAAGAAGCCGTTGCGGTAGCGAGGCATGCCGGTATTCGCGTGGTCGACGATCGTGTCGAGCATATAGAGGCTGGCAGCGATCAAGTCCAGGTTGAAACGTGCAAGGGCGAAAGCCTCTGCTTCGACATTGTGTATCCGTGTCTGGGTTCGCAAATATGCTCCGAACTCGCGGTGCAACTCGGTGCCGAAACCGAGCAAGGTGCGCTGGTCGTCGACCCGCACCAGCGCACCTGCGTAGAAGGTCTGTATGCGGTTGGAGACGTGGTCAATTCGCTCAAGCAGATCAGTGTCGCTACCGGCCAGGCGGCAATATGTGCGACGGCGGTGCATAACAGCCTGGAGGTGCGTTTATGGGATCGAGCGCGTGACAAGAAGATGCCTTTCGATTCGGCTTGA	MPLDCDEYEELFARPESASTEGGDVDLDCLIVGAGPAGLTAAVYLSRFHRQVLVADGGRSRASLIPRSHNYPGFPPGISGTDLLARLREQALRYGAIIESGRVKRLLKHRAGFVAQLNGRELVARRVVLATGIVDTLPHMERPYDAVAQSVIRLCAICDGYEVNGDNVAVYGEASCAINHGLFLRNFTDRVTVLIHGDSQACEEAVAVARHAGIRVVDDRVEHIEAGSDQVQVETCKGESLCFDIVYPCLGSQICSELAVQLGAETEQGALVVDPHQRTCVEGLYAVGDVVNSLKQISVATGQAAICATAVHNSLEVRLWDRARDKKMPFDSA	PGPT0013060_8637	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
D1-35_02291	210			hypothetical protein	GTGGATGTGTACAGGATCGAATTCGAAAATGACCGTTGGACACTTTATAAATCCCATGGCTACAAACCGATCCTGCAGGCTGACAGTCAAGGTGAGTTGATCGACCATGTGCTTGCCTTGACGCGGGGGGAGGGTGTCGTGATTCGATTCATGGGCAACAGCGGCCTGCGAGAATTGAGGCTGGGGAACGTGCGGGACGACGTACCTTAG	MDVYRIEFENDRWTLYKSHGYKPILQADSQGELIDHVLALTRGEGVVIRFMGNSGLRELRLGNVRDDVP				NA	NA	NA	NA	NA
D1-35_02292	120			hypothetical protein	ATGACCGACGAGAAGAAAAACGAACAACCCAAGGACGACACGCCCGCCCACTCCACCGAGCAGGAGCGTGAGCGTTTGAAGGACTTCAACAAAGAGGGTATTCCACCGGGCTCTTCGTGA	MTDEKKNEQPKDDTPAHSTEQERERLKDFNKEGIPPGSS				NA	NA	NA	NA	NA
D1-35_02293	135			hypothetical protein	ATGACTATCGAAGCAGAGACACTCGTACAACTGACCGAAGCACTTCAGAAGCGTGGGATCGTGCTGGTATCCGACGTGGCGTTTATCCGAGCGCCTTACAGGGAGGATCATCATTGGATTTGCATGGTGGAATAA	MTIEAETLVQLTEALQKRGIVLVSDVAFIRAPYREDHHWICMVE				NA	NA	NA	NA	NA
D1-35_02294	177			hypothetical protein	ATGGCTGACGACTTGAGCAATCGCGGGCCCCAGGACCGGAACCGCATCAACACTTCCGAAGACTGGGAATTGAGATACTGGGCGAAAGAATTCGGCGTGACCGAAGAGCAGCTCAAGGCAGCGGTCAAGGCTGTTGGGCCGGTGGCCGATGATGTTCGCGAGCATCTGAAGAAGTGA	MADDLSNRGPQDRNRINTSEDWELRYWAKEFGVTEEQLKAAVKAVGPVADDVREHLKK				NA	NA	NA	NA	NA
D1-35_02295	429			hypothetical protein	ATGAGCACGACTGAACAAATACAAAGCAGCGGAAAATACAGCGCCAAATGGCAGGAACGTTTCGACTTCTTCGATACCTATGGCGCGCCAAACGACCCGCGCTACAAGGAAGCCGTCAAGACTCTGCCGGACTTCAAAAAGAAAATCCTGATCAACGCCAACGTGATCGCGTTTTTCTTCGGTCCTATCTACCTGTTTGTCTTGGGCCTGTGGAAGAAGAACCTGGCGCTGCTCGGAATCTTCCTGGCGATCAACATCGTATTGAGCGTGGTTTTCGCCATCATCGGCATGGAATTTCCGCGGCCGTTGAGCATGGGTCTGAACATCGCCATGTCGATGATGTATGCGCTCATGACCAACTATGCGTACTACCTGAAGGAAATCAAAGGCGAGCAAGGCTGGAATCCGCTCAAAGGCATGCGTCTCTGA	MSTTEQIQSSGKYSAKWQERFDFFDTYGAPNDPRYKEAVKTLPDFKKKILINANVIAFFFGPIYLFVLGLWKKNLALLGIFLAINIVLSVVFAIIGMEFPRPLSMGLNIAMSMMYALMTNYAYYLKEIKGEQGWNPLKGMRL				NA	NA	NA	NA	NA
D1-35_02296	534			hypothetical protein	ATGTTCAAATCGCGCTCGTTGATTGCTGCAGTGACCTGTTTTGCCTTGGCGGCGGGCCCTGGCCTTGCTGTCGCGGACCCGGGCAATGGCAAGGGAAACGCTCAAGTCGATCAAGGTCAGGGACAAGGAGGCAAGGGCGGGCAGGGCAACAAGGGCGGCCAGGGTAATGCTGGCAATAAGGGTAACCAAGGCAATGCTGGCAATAAAGGCAACCAGGGCGGCAAAGGCAACCAGGGCGGTGGCGGCAGCGATTGGCATAACGGGCCGAGCATCGACCGTGGCGGTGTTCTGGGGGTGATTGGCGGTTATCGCGATTACTGGAGCCCTGGCCCGGCACTGCCGCCGGGTATCCAGAAGAACCTCGCCCGGGGCAAGCCGCTGCCCCCCGGTATCGCCAAGAAGCTCGACGGACGTTTGCTGGGACATCTGCCGCGCTATGACGGTTACGAATGGCAGCAGGTCGGTACCGACCTGATTCTGGTGGCGATCGCCAGTGGCATCATTTACGAAGTGCTCAACGGTGCCTTCGACTGA	MFKSRSLIAAVTCFALAAGPGLAVADPGNGKGNAQVDQGQGQGGKGGQGNKGGQGNAGNKGNQGNAGNKGNQGGKGNQGGGGSDWHNGPSIDRGGVLGVIGGYRDYWSPGPALPPGIQKNLARGKPLPPGIAKKLDGRLLGHLPRYDGYEWQQVGTDLILVAIASGIIYEVLNGAFD				NA	NA	NA	NA	NA
D1-35_02297	1851	acoR_2	COG3284	Acetoin catabolism regulatory protein	ATGGCCGCACCAGCTCCTGCCTTGTCCCACGAGGCCATCATTCAGGCTTCCTGGTCCCGTTGCCGCGCCTTTGGCCTCAATCACCAGAGCGTACCGGCATTCGACCCATTGCCGGCCGAGGGTATCGCCCAGTTACTGGAAAGCCAGCATTCACTGGTGCAGACCACCCACCAGGAAGTCCTGCCGTACTACGAGAACATCCTGAGCAATTCCAATTGCCTGATCATGCTGGCCGACAACCAGGGCCAGGTGCTGACCTCCTGGGGCACCCAGCGGTTCATCGAACCGAAACTGGCCCACGGTTTCAGCGCCGGAGCGACCTGGATGGAGCGCTGCACCGGCACCAACGCCATCGGCACCGCGCTGGCCTGTGAACAGGCGGTGCACATCGAACACGATGAACATTTCCTCAAGGCCAACCGTTTCATGACCGGCTCCGCCGCGCCGATCTTCGATGCCGAGCGCAAGGTCATCGCGGTGCTGGACGTCTCCAGCGACAGCTACCTGCCGCCGTCCCATACGCTGGGCATGGTCAAGATGATGAGCCAGACGGTGGAGAACCGGCTGATCCTCAACCTGTTTCGCGGTGAACACTTCCAGCTCACCTTCAACACCGGACTGAACAACCTCGACAGCCAATGGGCCGGGCTGTTGATTTTCGATGAGAGCGGCCAGGTGCTCTCGGCCAACCGCCGCGCCGACAACCTGTTGGGCCTCAGCCTGTCGCGGGTAAGCATCGAAAGCCTGTTCAAGGTCTCGCTGATGGAATTGCTCAACCAGCCCGACGGCCTGCCGTTCGCCTTGCAGGCGTCCGGGCGCAATCGGTTCCAGTGCCTGCTCAAGCGGCCGAAGCAGGTGTCGGTCAAGCCGCGCATCTTTGCCGAAACGACCCCCTCGCCAGCGCTCGCCCCTGCCAATACCACCATCAGCCTCAACACCCTGCACTTCGGTGACAGCAGGGTGGAAAAAGCTGTGCGCCAGGCCGAGCGCCTGTTGGAGAAAGACATTCCGCTGCTGATCCACGGCGAGACCGGCGTCGGCAAGGAAGTCTTCGTCAAGGCTTTGCACCAGGCCAGTTCGCGTTGCAAGCAGGCGTTTATCGCAGTCAACTGCGCGGCGATTCCCGCCGAGTTGGTCGAGTCGGAATTGTTCGGTTATGAAAAAGGTGCCTTCACCGGCGCCAACCAGAAGGGCAGCATCGGCCTGATCCGCAAGGCCGATCGCGGCACGTTGTTCCTTGATGAGATCGGCGACATGCCGCTACCGACCCAGGCCCGCTTGCTGCGGGTCTTGCAGGAACGCTGCGTGCAACCGGTGGGCAGCGCCGAGCTGTTCCCGGTGGACATCCGCATCATCTCCGCCACCAACCGCTCGCTGCGCGAACAGGTGCAACTGGGGCGATTTCGTGAAGACCTCTACTACCGCATCGGCGGTCTGACCCTGGAATTGCCGCCCCTGCGCGAACGCAGCGACAAGCAGGCGCTGTTCAAGCGCCTCTGGGAACACCACCGCGAGCCGACCCAATGGGCCGGCCTGAGCCGCGAAGTCCTGGAGCTGTTCGAACGCCACCCGTGGCCGGGCAACCTGCGGCAAGTCAGCAGCGTGCTGCAAGTGGCCCTGGCAATGGCCGAAGAACAACCGATCCGCCCGGAACATCTGCCCGATGACTTTTTTGTCGACCTGGAAATGGAGCCGGTGGAAACACCGGAACCGCTGGCAGTAGACCTGAACGACGCCGAAGACCTGAACCGCCAGTTGCAGGCCGTCGGCGGCAATATTTCCCACCTGGCACGACGCCTCGGCGTGAGCCGCAATACCTTGTACAAACGCCTGCGGCAGTTGGAAAGCTGA	MAAPAPALSHEAIIQASWSRCRAFGLNHQSVPAFDPLPAEGIAQLLESQHSLVQTTHQEVLPYYENILSNSNCLIMLADNQGQVLTSWGTQRFIEPKLAHGFSAGATWMERCTGTNAIGTALACEQAVHIEHDEHFLKANRFMTGSAAPIFDAERKVIAVLDVSSDSYLPPSHTLGMVKMMSQTVENRLILNLFRGEHFQLTFNTGLNNLDSQWAGLLIFDESGQVLSANRRADNLLGLSLSRVSIESLFKVSLMELLNQPDGLPFALQASGRNRFQCLLKRPKQVSVKPRIFAETTPSPALAPANTTISLNTLHFGDSRVEKAVRQAERLLEKDIPLLIHGETGVGKEVFVKALHQASSRCKQAFIAVNCAAIPAELVESELFGYEKGAFTGANQKGSIGLIRKADRGTLFLDEIGDMPLPTQARLLRVLQERCVQPVGSAELFPVDIRIISATNRSLREQVQLGRFREDLYYRIGGLTLELPPLRERSDKQALFKRLWEHHREPTQWAGLSREVLELFERHPWPGNLRQVSSVLQVALAMAEEQPIRPEHLPDDFFVDLEMEPVETPEPLAVDLNDAEDLNRQLQAVGGNISHLARRLGVSRNTLYKRLRQLES	PGPT0001030_1639	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
D1-35_02298	1095	ugpC_2	COG3839	sn-glycerol-3-phosphate import ATP-binding protein UgpC	ATGTCATTACAGCTTGAGCACATCTGTCGCACCGTCGAAGGCCAGACCTGGATCGACGATGCCAATCTGAGTTTCGAACCCGGATCCTTCAACGTTCTGCTGGGCCGCACGCTGTCCGGCAAGACCAGCCTGATGCGCCTGATGGCCGGTCTGGACAAGCCCGACAGCGGCCGCATCCTGATGAACGGCGTCGATGTCACCAAACGGCCGGTGCGGCTGCGCAATGTGTCGATGGTGTACCAGCAGTTCATCAACTACCCGACCATGACCGTATTCGAAAATATCGCCTCGCCGCTGCGCCAGGCCGGTATCTCCGAAGAAATTATCCAGGGCAAGGTCCTGGAAACCGCGAAGATGCTCCGGATCGAAAAATTCCTCAAGCGTCATCCGCTGGAGCTGTCCGGCGGCCAGCAGCAACGGACCGCCATGGCCCGTGCGCTGGTCAAGGACGCCGAACTGATCCTGTTCGACGAGCCGCTGGTGAACCTCGACTACAAGCTGCGTGAAGAACTGCGCCAGGAAATGCGCGAGCTGTTCCAGGCTCGTCACACCATCGCCGTCTACGCCACCACCGAGCCGAACGAAGCGCTGGCCCTGGGTGGCACCACGACGATCCTGCATGAGGGCCGGGTGATCCAGAGCGGCAAGTCGTCTTCCGTTTATCACCAACCGCAAACCGTGCTGGCCGCCGAGCTGTTTTCCGAACCACCGATCAATCTCATGCCGGGACGCATTGCCGGCAATGAAGTCAGCTTCGCCAACTTCGTGCACTTCCCGCTGAACGTCGACCTGCGTCCGGTGGGCGAGGGCGAGTTCCGTTTCGGCGTGCGTCCCAGCCATATCTCACTGGTGCCGAGCAACGACGACGACCTGGAACTGGCGGTGACCGTCGAGGTGGCCGAGATCAGCGGTTCCGAGACCTTCCTGCACGTGCGCAACGAACACTTCCTCCTGGTCCTGCATTTGCCCGGTGTGCACGAATACGACGTCGACGCGCCGATCCGCATCTACATCCCGACCCATAAATTGTTTGTCTTCGATGCCCAGGGCAAGCTGGTCCAAGCCCCAGGGCAACGTATCGCGAGGGTTGCCTGA	MSLQLEHICRTVEGQTWIDDANLSFEPGSFNVLLGRTLSGKTSLMRLMAGLDKPDSGRILMNGVDVTKRPVRLRNVSMVYQQFINYPTMTVFENIASPLRQAGISEEIIQGKVLETAKMLRIEKFLKRHPLELSGGQQQRTAMARALVKDAELILFDEPLVNLDYKLREELRQEMRELFQARHTIAVYATTEPNEALALGGTTTILHEGRVIQSGKSSSVYHQPQTVLAAELFSEPPINLMPGRIAGNEVSFANFVHFPLNVDLRPVGEGEFRFGVRPSHISLVPSNDDDLELAVTVEVAEISGSETFLHVRNEHFLLVLHLPGVHEYDVDAPIRIYIPTHKLFVFDAQGKLVQAPGQRIARVA	PGPT0016815_131	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_GLYCEROL_TRANSPORT,PGPT0016815-glpS-K17324	NA	NA
D1-35_02299	1110	sugC	COG3839	Trehalose import ATP-binding protein SugC	ATGGCCGAAATTCGTTTGCAGAACCTCGCCCACAGCTACACCAGCACCCCGGCGGGCCCCGAGGACTACGCGATCCGCGAGATGAACCACATCTGGGAGCAGGGCGGCGCCTATGCGCTGCTCGGACCTTCGGGTTGCGGCAAGTCGACCTTGCTCAACATCATTTCCGGCTTGCTCAGCCCTTCCGAAGGGCAGGTGATGTTCGACAGCAAAGTCGTCAACGAACTGTCCCCGGAGCGGCGCAACATCGCCCAGGTGTTCCAGTTTCCGGTGGTCTACGACACCATGACGGTGTTCGACAACCTGGCGTTCCCGCTGCGCAACCAGGGCATGGCCGAGGCGCGGATCCACACCAAGGTGCAGGAAATCGCCGAGGTTCTCGACCTGCAGAGCCTTTTGGACAAGAAGGCCCGCAACCTCACCGCCGATGAAAAACAGAAAGTCTCCATGGGCCGTGGGCTGGTGCGCGACGATGTCTCGGCGATCCTGTTCGACGAGCCGCTGACGGTGATCGATCCGCACCTGAAATGGAAACTGCGGCGCAAGCTCAAGCAGATCCACGAGCAGTTCAACATCACCATGGTCTACGTCACCCACGACCAGTTGGAGGCCTCCACCTTCGCCGACAAGATCGCGGTGATGTACGGCGGCCAGATCGTGCAGTTCGGCACACCGCGTGAACTGTTCGAGCGCCCGAGCCACACCTTCGTCGGCTACTTCATCGGCAGCCCCGGCATGAACCTGATCGAGGTCCAGGCGCAGCCCGGTGGCGTCGGCTTCGCCTCGACCCACTTGCCGCTGTCCGAAACCCTGCAGCGGCGTGTCGCCGACGCGCAAGGCAAGAGCCTGAAGGTCGGCATCCGCCCGGAATTCGTGCATGTCTGGGACGGCCCTTACGACGACGCGATGCGGGCTGACGTGGTGCACGTCGAAGACCTCGGCACCTACAAGATCCTGACCCTCAACCTTGATGGCGCACCGCTGAAGGTCCGCCTCGCCGAAGACAAGCCTGTGCCGGAAGGCACCGCGTACATCAGTTTTCCGGGTCAATGGCTGATGGTCTATGCCGATGAATATCTGCTTGAATCCGCAGGCGAGGTGCAGCCATGA	MAEIRLQNLAHSYTSTPAGPEDYAIREMNHIWEQGGAYALLGPSGCGKSTLLNIISGLLSPSEGQVMFDSKVVNELSPERRNIAQVFQFPVVYDTMTVFDNLAFPLRNQGMAEARIHTKVQEIAEVLDLQSLLDKKARNLTADEKQKVSMGRGLVRDDVSAILFDEPLTVIDPHLKWKLRRKLKQIHEQFNITMVYVTHDQLEASTFADKIAVMYGGQIVQFGTPRELFERPSHTFVGYFIGSPGMNLIEVQAQPGGVGFASTHLPLSETLQRRVADAQGKSLKVGIRPEFVHVWDGPYDDAMRADVVHVEDLGTYKILTLNLDGAPLKVRLAEDKPVPEGTAYISFPGQWLMVYADEYLLESAGEVQP	PGPT0016820_63	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_GLYCEROL_TRANSPORT,PGPT0016820-glpT-K17325	NA	NA
D1-35_02300	867	melD_2	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGAACAAGGTGCAGAACAACAAGGCCTGGTGGCTGGTGTTGCCGGTGTTCCTGCTGGTGGCCTTCAGTGCCGTGATCCCGATGATGACCGTGGTCAACTATTCGGTGCAGGACATCTTCGACCAGTCCAGCCGCTACTTCGTCGGCGCCGACTGGTACAGGCAGGTGCTGCTCGACCCACGGCTGCACGATTCGCTGTTGCGCCAGTTCATCTACTCGGCGTGTGTCCTGCTGATTGAAATTCCGCTGGGCATCGCCATCGCCCTGACCATGCCGACCAAGGGCAAGTGGTCGTCCCTGGTGCTGATCATCCTGGCGATTCCGTTGCTGATTCCGTGGAACGTGGTGGGTACCATCTGGCAGATTTTCGGGCGCGCCGACATTGGCCTGCTGGGCTCGACGCTCAACGCCATGGGCATCAACTACAACTACGCGGCCAACACCATGGACGCTTGGGTCACGGTGCTGGTGATGGACGTCTGGCACTGGACTTCGCTGGTGGCACTGCTGTGCTATTCGGGGCTGCGGGCCATTCCGGACGTTTATTATCAAGCGGCGCGAATCGACCGGGCGTCGAACTGGGCGGTGTTCCGGCACATCCAGTTGCCGAAGATGAAGAGCGTGCTGCTGATCGCGGTGATGCTGCGCTTCATGGACAGCTTCATGATCTACACCGAGCCGTTCGTCCTCACCGGCGGCGGGCCGGGCAACGCCACCACGTTCCTCAGCCAGACCCTGACGCAGATGGCTATCGGTCAATTCGACCTGGGCCCGGCGGCGGCGTTTTCCCTGGTGTACTTCCTGATCATTCTGTTGGTGTCCTGGCTGTTCTATACCGCCATGACGCACTCCGACGCCAACCGTTGA	MNKVQNNKAWWLVLPVFLLVAFSAVIPMMTVVNYSVQDIFDQSSRYFVGADWYRQVLLDPRLHDSLLRQFIYSACVLLIEIPLGIAIALTMPTKGKWSSLVLIILAIPLLIPWNVVGTIWQIFGRADIGLLGSTLNAMGINYNYAANTMDAWVTVLVMDVWHWTSLVALLCYSGLRAIPDVYYQAARIDRASNWAVFRHIQLPKMKSVLLIAVMLRFMDSFMIYTEPFVLTGGGPGNATTFLSQTLTQMAIGQFDLGPAAAFSLVYFLIILLVSWLFYTAMTHSDANR	PGPT0016585_410	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_GLYCEROL_TRANSPORT,PGPT0016585-glpP-K17322	NA	NA
D1-35_02301	801	dasC	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGAGCAAGAGAAAGCTGATTCCGCTTTTGATCTACATCCTGTTCCTGCTGGTGCCCATCTACTGGCTGCTGAACATGTCGTTCAAGAGCAACACCGAAATCCTCGGTGGCCTGACGCTGTGGCCACAGGATTTCACCTTCCAGAACTACAAAGTGATCTTCACCGATCCGAGCTGGTACACCGGTTACCTCAACTCGCTGTACTACGTGAGCCTGAACACGGTGATTTCCCTGGCGGTCGCGCTGCCGGCGGCCTATGCGTTCTCGCGCTACCGCTTTCTTGGCGACAAGCATCTGTTCTTCTGGCTGCTGACCAACCGCATGGCGCCACCGGCGGTTTTCCTGTTGCCGTTCTTCCAGCTGTACTCGTCCATCGGCCTGTTCGACACCCATATCGCCGTAGCTTTGGCCCACTGTCTGTTCAACGTGCCGTTGGCGGTGTGGATTCTTGAAGGCTTCATGTCCGGCGTGCCGAAAGAAATTGACGAGACCGCCTACATTGACGGCTACAGTTTCCCCAAGTTCTTCGCCAAGATCTTTATCCCGTTGATCGGTTCCGGCATCGGCGTCACGGCGTTTTTTTGCTTCATGTTCTCCTGGGTCGAGCTGTTGCTGGCCCGGACACTGACCTCGGTGAATGCCAAGCCGATCGCGGCGGTCATGACCCGCACGGTGTCGGCGTCCGGTATTGACTGGGGCGTGCTGGCGGCGGCAGGGGTGTTGACCATCCTGCCGGGCATGCTGGTGATCTGGTTCGTTCGCAACCACGTGGCCAAGGGCTTTGCCCTGGGCCGGGTCTGA	MSKRKLIPLLIYILFLLVPIYWLLNMSFKSNTEILGGLTLWPQDFTFQNYKVIFTDPSWYTGYLNSLYYVSLNTVISLAVALPAAYAFSRYRFLGDKHLFFWLLTNRMAPPAVFLLPFFQLYSSIGLFDTHIAVALAHCLFNVPLAVWILEGFMSGVPKEIDETAYIDGYSFPKFFAKIFIPLIGSGIGVTAFFCFMFSWVELLLARTLTSVNAKPIAAVMTRTVSASGIDWGVLAAAGVLTILPGMLVIWFVRNHVAKGFALGRV	PGPT0016810_381	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_GLYCEROL_TRANSPORT,PGPT0016810-glpQ-K17323	NA	NA
D1-35_02302	273			hypothetical protein	ATGGAATGGATGAACTGGACCGCCCCGACGGCGACGTTTTTTGGGGTCATTGCCTTGCTGCTGGCGGGCATGACGACATGGGAATTGCGTTCGCCGAGTATCCCTCGGCGTGGTTTCCTGCCGATTGCCACGACCCGTGGCGATCGGTTGTTTATCGGTCTTCTCGGTAGCGCCTACCTGCACCTGCTGGTGATCGGCGTTACCGACTGGAGCATCTGGATAGCGTTCGCGTTGTCTCTGGTGTGGCTGTTGGCAGTGATGCGGTGGGGCTAG	MEWMNWTAPTATFFGVIALLLAGMTTWELRSPSIPRRGFLPIATTRGDRLFIGLLGSAYLHLLVIGVTDWSIWIAFALSLVWLLAVMRWG				NA	NA	NA	NA	NA
D1-35_02303	1743			hypothetical protein	ATGTTCGATAAAAACAATAAGCTGCGACATAGCGTTTCATTGGCAGCCATGCTGGCACTCAGCGGGCTGAGCGCTACGGCCTGGGCCGACGCCTATGAAGACGCCGCGAAAAAATGGATCGGCAGCGAATTCAAGCCGTCGACCCTGACAGCCGAGCAGCAGCTCGAAGAACTGAAGTGGTTCATCAAGGCTGCCGAGCCATTTCGCGGGATGAAAATCAACGTGGTCTCGGAGACCATCGCTACCCACGAATATGAATCCAAGGTACTGGCCAAGGCTTTTAACGAAATCACCGGGATCCAGCTGACCCACGACCTGCTCCAGGAAGGCGACGTGGTGGAGAAGCTGCAGACCCAGATGCAGTCCGACAAGAACATCTACGACGGCTGGGTCAATGACTCGGACCTGATCGGCACGCATTTTCGCTACGGCAAGACCGAGTCGATCACCGACCTGATGGCCAACGAAGGCAAGAATTTCACCTCGCCGACCCTCGACCTCAAGGACTTCATCGGCATCTCCTTCACCACCGCGCCGGACGGCAAGGTCTATCAACTGCCCGACCAGCAGTTCGCCAACCTTTACTGGTTCCGCGCCGACTGGTTCGAGCGTGCGGACCTGAAGGCCAAGTTCAAGGAAAAATACGGCTACGAGCTGGGCGTACCGGTGAACTGGTCGGCCTATGAAGACATCGCGAAGTTCTTCTCCGAAGACGTCAAGGAGATCGACGGCAAGCGCGTCTACGGCCACATGGACTACGGCAAGAAAGACCCGTCCCTGGGCTGGCGCTTCACCGATGCCTGGTTCTCCATGGCCGGCGGCGGTGACAAGGGCCTGCCTAACGGCTTGCCAGTGGACGAGTGGGGCATTCGCGTCGAAGACTGCCATCCGGTCGGCTCCAGCGTCACCCGCGGCGGCGACACCAACGGCCCGGCCGCCGTGTTCGCCACCACCAAGTACGTCGACTGGATGAAGAAATACGCGCCACCGGAAGCGGCGGGCATGACCTTCTCCGAGTCCGGTCCGGTGCCGTCCCAAGGCAACATCGCCCAGCAGATTTTCTGGTACACCGCTTTCACCGCCGACATGACCAAGCCGGGCCTGCCAGTGATGAACGCCGACGGCACGCCGAAATGGCGCATGGCGCCGTCGCCACGCGGTCCGTATTGGGAAGAGGGCATGAAGCTGGGCTATCAGGACGTGGGTTCCTGGACCTTCATGAAGTCGACGCCTGAGAAACAGCGCCTCGCGGCCTGGCTCTACGCGCAGTTCGTGACATCCAAGACCGTGTCGCTGAAGAAGACCATCGTTGGCCTGACGCCGATTCGCGAATCGGACATCAACTCCCAGGCGATGACCGACCTGGCGCCGAAACTTGGTGGCCTGGTGGAGTTCTATCGCAGCCCGGCCCGTGTGCAATGGTCGCCAACCGGGACCAACGTGCCGGACTATCCACGCCTGGCGCAACTGTGGTGGAGCCACATCGCCGAAGCGGCCAGTGGCGAGAAAACCCCGCAACAGGCTCTCGACGGGCTGGCCAAGGATCAGGACGCGATCATGACGCGTCTGGAACGCTCCAAGGCCCAGGCCACCTGCGCACCTAAGATGAACCCTGAGCGCGACGCGCAATACTGGTTCGATCAACCGGGCGCACCGAAGCCGAAACTGGCGAACGAGAAGCCTAAAGGCGAGACGGTCAACTATGCCGAATTGCTGAAATCGTGGGAGGCGGCGCGTAAGTAA	MFDKNNKLRHSVSLAAMLALSGLSATAWADAYEDAAKKWIGSEFKPSTLTAEQQLEELKWFIKAAEPFRGMKINVVSETIATHEYESKVLAKAFNEITGIQLTHDLLQEGDVVEKLQTQMQSDKNIYDGWVNDSDLIGTHFRYGKTESITDLMANEGKNFTSPTLDLKDFIGISFTTAPDGKVYQLPDQQFANLYWFRADWFERADLKAKFKEKYGYELGVPVNWSAYEDIAKFFSEDVKEIDGKRVYGHMDYGKKDPSLGWRFTDAWFSMAGGGDKGLPNGLPVDEWGIRVEDCHPVGSSVTRGGDTNGPAAVFATTKYVDWMKKYAPPEAAGMTFSESGPVPSQGNIAQQIFWYTAFTADMTKPGLPVMNADGTPKWRMAPSPRGPYWEEGMKLGYQDVGSWTFMKSTPEKQRLAAWLYAQFVTSKTVSLKKTIVGLTPIRESDINSQAMTDLAPKLGGLVEFYRSPARVQWSPTGTNVPDYPRLAQLWWSHIAEAASGEKTPQQALDGLAKDQDAIMTRLERSKAQATCAPKMNPERDAQYWFDQPGAPKPKLANEKPKGETVNYAELLKSWEAARK	PGPT0016805_136	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_GLYCEROL_TRANSPORT,PGPT0016805-glpV-K17321	NA	NA
D1-35_02304	942			hypothetical protein	ATGCCTTCATCCTTACTTTCTCGCCTCAGGCAACGCTGGCTGGCCTGGTTGTTCATGGCCGCGATGGTGGTCGGCCTGCCGGTGGGCTGCGCGGTGTTGCAGCACAAGGAACGCGAGCTGGTGTTTCGCATCGAGCCGGGGACGGCGAGCTGGTTCAGTGGCCTTCCCAGCGGCGTGCAGGAGTTCGACCTCAAGCCCAAGAGCTTCAAGGCCGGGGAAAATATCCACGGCTGGTGGTGGCCGGCCGAACGCAAGAACGCGCCCGCCATCCTGTACCTGCACGGCGTGCGCTGGAACCTGACCGGCCAGCTGTTTCGCATCCAGCAATTGCGGGCGCTGGGCTATTCGGTCATGGCGATCGATTACCGTGGCTTTGGCAAAAGCCAAGGGGGGTTGCCCTCTGAAGCCAGCGTGTACGAGGATGCAAGAATCGCCTGGGAACGTCTTGCGGTGCTGCAACCAGACCCGGCCCTGCGCCTGATCTACGGCCATTCCCTGGGCGGTGCCGTCGCGGTGGATCTTGCGGCGGAGCTGGGTCAGGAGGCGGCAAAAAATGGCACCACCGTGCCCGCCCGAGGCCTGGTCATCGAATCGACCTTCACGTCCTTGGGCGATGTCGCCACCGCCATGGCCAACACTTCCCTGCCGGTACGCTGGCTGCTGTCGCAGAAGTTCGATTCCATCGACAAGATCGGCGAGATCAACATGCCGCTGCTGATCGTGCACGGCGCCGCCGACCGCTACGTACCACCACGCTTCAGCGAGCAGCTGTTCAATGCCGCCCGGGAACCCAAGCGTTTGTTGTTGGTGCCGGGCGCCACGCATAACAACAGCATGAGCCTGGCGGGCCGCACGTATCGGCAGGCGTTGGATGCGTTGATGCATGCCCGCCCATCCCCGGTGGCCGGAAACGCCCAGGCAAGCCCGGTCAAGGCGGGCTAA	MPSSLLSRLRQRWLAWLFMAAMVVGLPVGCAVLQHKERELVFRIEPGTASWFSGLPSGVQEFDLKPKSFKAGENIHGWWWPAERKNAPAILYLHGVRWNLTGQLFRIQQLRALGYSVMAIDYRGFGKSQGGLPSEASVYEDARIAWERLAVLQPDPALRLIYGHSLGGAVAVDLAAELGQEAAKNGTTVPARGLVIESTFTSLGDVATAMANTSLPVRWLLSQKFDSIDKIGEINMPLLIVHGAADRYVPPRFSEQLFNAAREPKRLLLVPGATHNNSMSLAGRTYRQALDALMHARPSPVAGNAQASPVKAG				NA	NA	NA	NA	NA
D1-35_02305	228			hypothetical protein	ATGACGAGCGAACATTCGAAAACAGCCAGCCAAGTCGGCAACAATGCGCCAGCCAAGGATGCTGCCGGCGACCCGGTGGACGTCGTGGAGCGCGATGTGCGCCACCCGGATCCAGCCACTGACAAAGTCGACAAGACGATCACGCCCAAGTCGATCAAGAGCCATGAGCAGGACGCTGAGAAATTGCGCGACAAGGTCGGGCAGGTGGAGAAAAAGCTCGGCCGCTGA	MTSEHSKTASQVGNNAPAKDAAGDPVDVVERDVRHPDPATDKVDKTITPKSIKSHEQDAEKLRDKVGQVEKKLGR				NA	NA	NA	NA	NA
D1-35_02306	543			hypothetical protein	ATGCGACGTAGAAGCGCAGCGTATTGGCTGTGGGTGAACCGTCGGCTGGCGGGGCGCAACCACGAAGAGATCCTGGAGGACGGCACGCAGGTCGAGGTCCAGGCGCGGATCAACCAGCAGAGCGTGACGCAACTTTTCATCTGTGTTTATCGGCCGAACGGATCCGTCTGGGTCGAGGAGTTCCATGATCGCGCGTTGCGCGAACCGTTGTGCCAAGCGCTCGAATGGGGCTTGGCCCGGGCCAGGGACATCGTCGCCGGTAGCGGATGTTTCAAGGCGCCCCACAAGATTCAGATGACCCTTGGGCCATTGATCCGCGACGAATGCACCCTGGCCCTGAGGCGCATGGACATGAGCGATGAAGAGCGCCGCAACCTCAAGATCCGGGATGCCTGGGCAGAGTACGTCCACGCCAAGGAAGCGATGCTGGCGCTGATGCGTTCGGCCCGGGTCGAGGCCGACGTATGGGAGACGCAGAAGCGTCGGCTGTGCGAAGCCATTGATCGGCGGGCCTCCCTGGCCCGAGCGTGCCTGGGCAGTTGA	MRRRSAAYWLWVNRRLAGRNHEEILEDGTQVEVQARINQQSVTQLFICVYRPNGSVWVEEFHDRALREPLCQALEWGLARARDIVAGSGCFKAPHKIQMTLGPLIRDECTLALRRMDMSDEERRNLKIRDAWAEYVHAKEAMLALMRSARVEADVWETQKRRLCEAIDRRASLARACLGS				NA	NA	NA	NA	NA
D1-35_02307	795	chbG		Chitooligosaccharide deacetylase	ATGCCTCGCCAAGTGATCGTCAACGCTGATGACTTCGGGCTCAGCCTCGATGAAAACGACTTGATTCTACGAGCCTTCGAGGCAGGCGTGATCAGCTCCGCCACGGCCATGGCCAACATGCCGGGGTTCGACCAGGCGTGTGAACTGGCCCGACACCCACTGCTTGAAGGGCGCATCGGCCTGCATTTCAATCTCAGTTACGGACCGCCGCTGAGTCAGGCAATCAGGACACGGCAGACATTCTGCAATGCAACCGGCGAATTCGACCTTAATCTGTCGCGCTACAGCCTGCGGCTGGGGACGGATGATCTGGCGGCCGTGGAAGAAGAACTCCAGGCGCAGTGGCAATACTGCCTGGACCGTGGCCTGCGTCCGAGCCATCTGGACTCTCATCAGCATGTACATAACATCTGGCCCGTTGGCGAACTGGTGGCTCGCTTCGCCGCCCGGCAAGGCGTGCCCATGCGCCTGGCACGTAACCTGGGACCGAACCTGAGCGTCGCCAAACGCATCTTCAAAACCCTGCTCAACCGCCGCCTGCGCAGGCTCTGCGGCGCAACGGCGGATTATGTCTGCACGCCAGCGGACCTTCATCACGCGGCGCCACCGAAGCACGGTTCGCTGGAAGTGATCGTTCATCCGCTGCAACTGGACGGGGATTTTGGCGACGCCAGCCTGGCCCTCGACAACTCGCTGACCCAAGTGCTGCACAAGCGCCTGGCGGGGGTGCCGAAGGTCGGGTATGGCGAGAGTGGGCGGGACTTTGAGCGAGTTGAGTTTGGGGATCTGTACTGA	MPRQVIVNADDFGLSLDENDLILRAFEAGVISSATAMANMPGFDQACELARHPLLEGRIGLHFNLSYGPPLSQAIRTRQTFCNATGEFDLNLSRYSLRLGTDDLAAVEEELQAQWQYCLDRGLRPSHLDSHQHVHNIWPVGELVARFAARQGVPMRLARNLGPNLSVAKRIFKTLLNRRLRRLCGATADYVCTPADLHHAAPPKHGSLEVIVHPLQLDGDFGDASLALDNSLTQVLHKRLAGVPKVGYGESGRDFERVEFGDLY	PGPT0012160_695	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012160-chbG-K03478	NA	NA
D1-35_02308	1173			hypothetical protein	ATGGCGATCCGGTTCCAGTGGTGTCGCTCCATGAGCGCGGCGGAGTTTCCTGCAACGGCTTATGAAGAGCTGCGGACCCAGGTGGTCGACGCTACGCCGTTCAATACGCTGGCCTGGTTGCAAGCGGCGGAATTTGCCCTCGCGCCCGACCAGCAACTCCATGTGCTGCTGGGCTGGCAGGACCAGACACTGTGCCTGTGCCTGCCTCTGGTCGCGGGGCGCGAGCGCATCGGCGGGCTGCGCTTTCGGGTGTTGCATCACTTGGGGTTTCCACTGGCTGACCGTATCGCCCTGTTGGTGCGCCTGGACGCCGACGCCATGGGCCAGGCGCTGATGCAGATCCGCCAGCAGGTGCCCCACGCGTTGCTGCAATTGAATGAAGTGATCGAGCCGGTCGGCGAACAAAGCGTGCTCAGTGCCTGGATGGCGCAGAGTTCCACCGGCGAACGGCGGCTCAGTTGCCGGGTCCCGGTGCACCTGATCAGCGACAGTGACCATCAGGAAATCACCGGCGATCCGCGTTACAAGTTGCGCCGCGCGCGCAAGCGGATCGCCGCTTGCGGTGCCGAAATACGTCGGGTGACGCCGGATGCCATCGGCATGGGGCAACTGCTGCGGGCTCTCGCTGAAGTCGAGGCGGCCAGTTGGAAAGGCGAGGAAGGTGTCGGCATCTTCGCCGACCCCGGGCGCCGGCAATGGATGAACCTTGCCTTCACCGCCCTCGCCGCCCAAGGCCTGGTGCGGGTGGTGATGCTGGAGCTGAACGGCGAGTGCATCAGCTATCGCCTCGGCCTGCTCGACCAGGGACGGCTGTATGACTACAACCTGGCGTTCCTGCCGCGGCACGCCGACCTGGGCAGCGGCCGGTTCTTGCTCGAAGAGTGGATCCGCTGGGGGCTGGACGAGAACTGGCGGTGGATCGATGCATCGCGCGTCAGCCTTGAGAATTCCAGCCATCAACTGCACGAACGCATGACCGGCCAACTTGAGCACTGGCGCTGGAGTTTCTATTCCTGGCGGCCCGATGGCCTGCTCCTGGGGTTCGCCCTGCGGCTATGGAAAAGCCTGAAGCCCTGGCTCGGCAAGCGCCGCGCCAAACCGCCCGCGACAATGTCGCCCACTGCCAAAAAGCCGGAGGACACGCATGCCTCGCCAAGTGATCGTCAACGCTGA	MAIRFQWCRSMSAAEFPATAYEELRTQVVDATPFNTLAWLQAAEFALAPDQQLHVLLGWQDQTLCLCLPLVAGRERIGGLRFRVLHHLGFPLADRIALLVRLDADAMGQALMQIRQQVPHALLQLNEVIEPVGEQSVLSAWMAQSSTGERRLSCRVPVHLISDSDHQEITGDPRYKLRRARKRIAACGAEIRRVTPDAIGMGQLLRALAEVEAASWKGEEGVGIFADPGRRQWMNLAFTALAAQGLVRVVMLELNGECISYRLGLLDQGRLYDYNLAFLPRHADLGSGRFLLEEWIRWGLDENWRWIDASRVSLENSSHQLHERMTGQLEHWRWSFYSWRPDGLLLGFALRLWKSLKPWLGKRRAKPPATMSPTAKKPEDTHASPSDRQR				NA	NA	NA	NA	NA
D1-35_02309	690			hypothetical protein	ATGAACGCTCTGCAAAAATTGCGTGATCGCATTCAGAAAAAAGGCCTGCGTTCCGTTTTCAAACTGCTGGTACGCCGCTTCGTGTTTTTCCATTCGCAACTGGTATGGCTGGAACACGATGTGAGAATCCCGCTGCGGCCGCATACCCTCAGGCCCTACCCACCGGTACGTCGAGAGTTCATCACCGTCGAAAACGCCGACGCTTTCGCCAGGCATTTCGGCGACCGCGTCGAAACCATGCGCGAGCTGGCCGCCGAAGGCTATACCGGCCTGATGTACCTGGACGACAAGGGCGACACCGTGGGCTTCGTCTGGGCCAGTACACGAGACTATTTTGACCGCCATTTCTATGGCTGCTGGTTCCCGGTCAAGCCTGGCGAATACTTCCAGTTCGGCGGAGAAATGATCCGTGCGTACTGGGGCTCCCAGCTGTCGGCGGACGTACAGACCGACATGTGGAAAGTCATGGCGGACAAGGGCTGCGAAAAAATGGTCGATGTTTGCGACTTGCAGAACACCCCAGCGATCAAGATGCACATCCGCATGGACTTCCAGGAGCGCGGCCAGATCACCCATGTGTATTGCCTGTTCGGGCGCTTCCGGTTCTTCCGCGACACGTTCTACAGCGGCTCGGTACTCGACGCCTTCCGTAAACCGGCCCGGCCGGTTGCATCAGCTGCGGCGGCCTGA	MNALQKLRDRIQKKGLRSVFKLLVRRFVFFHSQLVWLEHDVRIPLRPHTLRPYPPVRREFITVENADAFARHFGDRVETMRELAAEGYTGLMYLDDKGDTVGFVWASTRDYFDRHFYGCWFPVKPGEYFQFGGEMIRAYWGSQLSADVQTDMWKVMADKGCEKMVDVCDLQNTPAIKMHIRMDFQERGQITHVYCLFGRFRFFRDTFYSGSVLDAFRKPARPVASAAAA				NA	NA	NA	NA	NA
D1-35_02310	1977			hypothetical protein	ATGGGGCCAGTGGGGTGCATGGGAAAAATCGGCGCCGGTCTGTGCCTTCTGGCCCTCGCAGCCTCGGCCCATGGTGCGTCCATGCAATGGACCGGCATCCGCGACGGCAGCCTGTACCTGCAGACCGACCAGCCAAGCACTGTGACCGTGCGCTGGGTGCCCGCCTGGCAGGCCGATGCCAATACCGAACACCTTTACCTGCTCGACGGCCAGGGGCGGCTGGCCGGTGAGCGCCTGGTCGAGGCGGCACAGACCCGTGGCGAGCAGCAGTGGCCGCTGCGGCCTGGTGCCGCCAGTTATCGCCTGGAAATTCCCGGCTACAGTTTCCGCCGCTATACGGTAGAGCACGACGCGCGCACCCGTGCCCTGTTCGCTCCGGCCAAAGTGCATTTCAGCGCCGAAGCCCACGATGGCGACGAGTTGTACTTCAAGGTGGCGGCCGGCGAACGCGCAGTGCTGGCGGGTAAATTCCATGGCGGTGTGCACGCGCTGCAAGCCCGGCGCGTCGGCGACGGCAAACAGCTCCAGCTGAATCTCAAACCGTATCGCGCCTATTGGCAGTTCGACCAGATCGCCCTGCCGGTGGCGGATGTCGAGCAAACCTGGCGTCTGCACTTGCAAGGCAACGGCAAGGTAGCGTTCTGGCTCGACGGTAGCGCCAACCTGTTCGCCCAGGACCCGGCGCAGTTGCAGCCGGTGCGCCAGGATCCGGGCCAAACCCACCTGACCCTTCATGACGATGTGCTCGGCCCCACCCCCAGCCTGGGCATGTCCCTGCCCTATGTGTTGCCGCCACCGTCCGCCTACGCGGTGATCGATACCCTCAAGCCCCGAGCGGCCACCTACTACAGTTTCGTCGATGTCACGGCGGCCAAGGCCGACCACGAAGATGCGTTCCGGCGCCTGTACCAGGATCGCTTCGGCATCACCCGGGACATTACCCTCTTGGCCGGCAGCCAACGCAAGGCCGATCTGCGCGCCGACCGGACCAGCAGCAGCGGCTTGCAAGCCTGGCTCGACACGACCCGCGCCCTGGGCGGCAAGGGCCTCCATTACCTGAGTTTCGCCGACGAGCCGAACCTCAACTATCCGGACTTCGCCAGCTTCCAGCAGATGTTCGAAAGCCTGGCCGCCCAGGTCCGCGCCAACGACGCCAATGCCCGCGCCGGAGTGCGCATCGCCATGCCGGCCAGCTCCCGATTCACCAATGGCCCGCTGGCCGAAAACGCGGCGGATCGGCGCGGCATCGATTGGGCACGGCGCCTGCTGGAAACCTCCGGCGACCGGATCGACGCCCTGGCCTGGCATGAATGGATGGTCCGCGACTTGCTGGCGACCCGGGTCTATCGCAACAGCGTCCGCCAGGCCGCCGACCTGGTGGGCCTGGACAGCCAGGGCCGGCCGCGCAAGGCCTTGCTGCTGGATCAGACCAACATTTCCAGCGGCTCGAGCCTCAGCCCCTACGATCAGGAAACGCACTACGCCGCGCTGTGGTGGGCGTCGGTGGCGATCAACGCCTCCGCCGACGGCTGGCTGGACATGCTCAACTGGTTTCAGTCCGCCGACGAGCCGCAATACCCCAAAGGCATGGTGCGAGTGCTGGAGAACCAGCGCTTCGAACTCAAGCCGGTGGGCCTGGCCCAGCAATTCATTCAGCAGCACTGGCTCGACCAGGTGCTGCGCCTGGACAACGACGCGTTTGAAGTCGACGCGCTGGCCATGGCCACCGGGCAGCAGCGCAGCCTGCTGGGCGTGAACAAAAGCACTCGCGCCCATCAAGTCAGCCTGCAGGGCGCGGGCTGCCCGCAGCCCGGCGCCAGCCTGGTGTATTTCGGCCCGGACAACATCAGCCGCAATGCCCCGTTCAACTGCAAGGCCGGCCAGGTCGGATTTCTCTTGCCAGGAGAAACCGTATTCGCCCTGCGCTGGACTGCCACCCTTCCCCCCCAACCCGCTATCCGTCAGGAGGCTCCATGA	MGPVGCMGKIGAGLCLLALAASAHGASMQWTGIRDGSLYLQTDQPSTVTVRWVPAWQADANTEHLYLLDGQGRLAGERLVEAAQTRGEQQWPLRPGAASYRLEIPGYSFRRYTVEHDARTRALFAPAKVHFSAEAHDGDELYFKVAAGERAVLAGKFHGGVHALQARRVGDGKQLQLNLKPYRAYWQFDQIALPVADVEQTWRLHLQGNGKVAFWLDGSANLFAQDPAQLQPVRQDPGQTHLTLHDDVLGPTPSLGMSLPYVLPPPSAYAVIDTLKPRAATYYSFVDVTAAKADHEDAFRRLYQDRFGITRDITLLAGSQRKADLRADRTSSSGLQAWLDTTRALGGKGLHYLSFADEPNLNYPDFASFQQMFESLAAQVRANDANARAGVRIAMPASSRFTNGPLAENAADRRGIDWARRLLETSGDRIDALAWHEWMVRDLLATRVYRNSVRQAADLVGLDSQGRPRKALLLDQTNISSGSSLSPYDQETHYAALWWASVAINASADGWLDMLNWFQSADEPQYPKGMVRVLENQRFELKPVGLAQQFIQQHWLDQVLRLDNDAFEVDALAMATGQQRSLLGVNKSTRAHQVSLQGAGCPQPGASLVYFGPDNISRNAPFNCKAGQVGFLLPGETVFALRWTATLPPQPAIRQEAP				NA	NA	NA	NA	NA
D1-35_02311	1305			hypothetical protein	ATGAGCCGAGCCCATTACCTCAAGCATCTGGCACTGAGCATGGGCACGCGCCTGGCGATGATCGCTCTGCGCCTGCTGCGCAACGTGTTGCTGGCAAGGATCCTCGGGCCCAGCGAGCGTGGACTGTTTGCATTGCTCAGTACCCTGCCCGACCTGATCAGCGCCGCCACCAGCGGTGGCCTGAATTCCGCCGTCGGTTACCAGGCGGCGCAGCAGCGCTCGATGGGCTTGTTGCTCAGCCAGGTGCTGATGTTCGGTTGTTTGTTGGCCGGGTTGTTGACCTTGTTGGTGGTGGCGCTGGTGCGGGAATTTGGCGGTGAGCTGGACATCACCACGCAATTGGGATTGCTGGCCTGGCTGCTGTTGCTGGCCGTACCGCTGACCGTGCTCAAGAGTGGCCTGCTGACGCTGCACAATGCCTCGGGCGGCGTGGGCGCGTTCAACGCGTTGCGGCTGATGGAATCGCTGGCACCGCTGGTATTGTTCGTGGCGCTGTTCTGGATGTGGCAAGACAAAGCGCTGGAGGCGGCGTTGATCAGTTGGCTGGCGGGCTTGAGCCTGGTGGTGCTGGCCGGCTGGATGTGGTTGCGCCGCGATCACACAGTCGAGCTGCAGTGGGACCGCACCGGCCAGAACGAGCTGTTGCGCTACGGTGCCCGCAGCCATCCGGAGCTGCTGTTCCAGCAAGTGGTGCTGCGTTCGGATTTTCTGTTCATCGGCGCCCTGCTGGGCAGCACGGCGCTGGGGCATTACGCCATGGCCAGCGCCGCGGCCGAACTGCTGCTGATCGTGCCGGAAGCGGTCACCACGCCGCTGATGAAACGCCTGCTGCAGCAAGACCGCGACATGCAGCGCCTGACCCCGCTGGCCTTGCGCCTGACCGCCACAGTGATGCTCGGTGCCTGCCTGGGCATGGCGCTGATTGGCGAATGGTTGATCGTCACGCTGTTCGGCGCCGCCTATCAACCGGCCTACCCGGCCCTGCTGGCGCTGCTGCCGGGGCTGTTCGGGCTCTGCTATGCGAGCATCCTGCGCCTGGATCTGCTGGGCAAGGACCGACCCGGCACGGTGTCGCTGCTGATGGGCGTCGGCGCGCTGCTGAACCTGGCGCTCAACCTGGTCCTGATACCGCGCTACGGCATCGTCGGCGCGGCCGCCGCGTCGTCGATCGCCTATCTGGGGGTAACGCTGGCGCTGCTGGGCATGTACTGCCGCCTCAGCGGCGTGGCGCTGTGGCAGACACTGATCATCCTGCCCAGCGATTTGCTGCCGATGCGCCAGATGCTGCTGGGGAAATCCGCGTGA	MSRAHYLKHLALSMGTRLAMIALRLLRNVLLARILGPSERGLFALLSTLPDLISAATSGGLNSAVGYQAAQQRSMGLLLSQVLMFGCLLAGLLTLLVVALVREFGGELDITTQLGLLAWLLLLAVPLTVLKSGLLTLHNASGGVGAFNALRLMESLAPLVLFVALFWMWQDKALEAALISWLAGLSLVVLAGWMWLRRDHTVELQWDRTGQNELLRYGARSHPELLFQQVVLRSDFLFIGALLGSTALGHYAMASAAAELLLIVPEAVTTPLMKRLLQQDRDMQRLTPLALRLTATVMLGACLGMALIGEWLIVTLFGAAYQPAYPALLALLPGLFGLCYASILRLDLLGKDRPGTVSLLMGVGALLNLALNLVLIPRYGIVGAAAASSIAYLGVTLALLGMYCRLSGVALWQTLIILPSDLLPMRQMLLGKSA				NA	NA	NA	NA	NA
D1-35_02312	1005			hypothetical protein	ATGTCGATCAAACACGTCTTCAAGCGCACCGGCGGCTGGCTGTACCTGAACACGTCGATGGGGCGCCATCCCTTGCGTGGCGCCGGCGTGATCCTGATGTTGCACCGGGTGTTGAACAACGACCGCGCCGCCGAACTGCCGCATCGCAACGAGCTGTGCGTGGGGCCTGACGCGTTCGAACACCTGTTGATCTGGCTGCAACGGCATTTTGAATGCGTGCCGTTGATGAGCTTGCTGCTGGCCGACCCGAAAAGCGTTCCGAACCGTCCGCGGGTGGCCCTGACGTTCGACGATGGCTGGCGCGACAACGCCATGAATGCCTTTCCCCTGCTGCGCCAGTACCAGGTGCCTGCGAGCATTTTCCTGTCCACCGATTTTGTTGGCAGCCGCCAGCATTTCTGGTGGGAAAGCATCGGCGAAACCCTCTGGGGCAGCCATGGGCAGCTGGCGCGGCATTCGCTCATCGAACATTTGCAGCAGGTCGGCCGGCCATTGCCGGTGCTGCTCGATGACATCGACGACGAGCGCCGCAGCCTGGCGCTGCTGCATTTCCTGCAAAGCCTGAAAACCCTCGATGCGCGAACCCTGAGCGATCTCACCGAGGCCTGTCCGCAGGGCTCGCAACCCCAGGCATTGGACTGGACCCAGGTGCGCATGCTCGAAGATTCCGGCCTGATCCGCTTCGGCCCCCACGGTGCCAGCCATGCGATCCTGACCGGGCTGGACGACCAGCGTTTGCACGAGGAACTGACCCGCAGCTGGATAGCTTTGGAAAATGGCTGCGCGCAACCCTTGCCGGTGTATTGCTACCCCAACGGTGATCATGATGCACGGGTACGCGAGCAAGTGGCGGCCCACGGTTTTCCGTTTGCCCTGGGCACCGAGGCCGGGCTGTATCGCCACGATGGCGACCCCTTGAACCTGCCACGCTTCGGCGTCAGCCAGCGCAATGCCTGCCACCCCGAGTTGCTGGCCTGGCGCATCCGTCGAGGAGCCCGCTCATGA	MSIKHVFKRTGGWLYLNTSMGRHPLRGAGVILMLHRVLNNDRAAELPHRNELCVGPDAFEHLLIWLQRHFECVPLMSLLLADPKSVPNRPRVALTFDDGWRDNAMNAFPLLRQYQVPASIFLSTDFVGSRQHFWWESIGETLWGSHGQLARHSLIEHLQQVGRPLPVLLDDIDDERRSLALLHFLQSLKTLDARTLSDLTEACPQGSQPQALDWTQVRMLEDSGLIRFGPHGASHAILTGLDDQRLHEELTRSWIALENGCAQPLPVYCYPNGDHDARVREQVAAHGFPFALGTEAGLYRHDGDPLNLPRFGVSQRNACHPELLAWRIRRGARS				NA	NA	NA	NA	NA
D1-35_02313	1137			hypothetical protein	GTGGCTGAGTTTTTCTATTGGTCTTGCCTGTTGCTGCCGGTGTACGCGTACCTCGGCTACCCGCTGTTGCTGACCTTGCTGGCGCCGCTGTTTCCGCTACGGCGCTACACCATTGCAGTGCCGATGGACGTGAGCATTGTGATTGCCGCCCACAACGAGGCGCGGCACATCGAAGAAAAATTGCGCACGCTGCTGGCTCAGGATTATCGCGCGCGCTCGCTGCAAATCATCCTCGCCAGCGACGGTTCCACCGATGACACGGTGGCCTGCGCACGCAAGGTCAGCGATCCGCGGATCAGCGTGCTCGACCTGCCGCGCCAAGGCAAGGCTGCCGCCCTCAACACGGGCGTGGCCCATAGCAGCGGCGAAATCCTGGTGTTCACCGACGCCGACAATCAATGGGCCCACGATACCCTCGGCCACCTGTTGGCGCCGCTGGCCGACCCGGAAGTCGGCGCCTGCGCCGGGCACATGGTAATCCCCGTGCCCGGCAAGGGCCTGAGCCTGGGCGACAGCCTGTATCGGCACTACGAAGGCTGGCTGCGTCGGGTCGAGAGCCGCACCGGCTGCATGGTCTCCGCCGACGGTGCTCTGCTGGCCCTGCGCAGGGAGTTGTTCCAGGCGATACCGGCGCAAGTCAACGATGACTTTTTTCTCAGCACCTGTGCGCCGGTGGCCGGCAAGGCGATCGTCTACGCCCCGCTCGCCCGAGTGACCGACCAGGGCGTGGACGAAGCCGACAAACAGTTCCGCCGGCGCCAGCGGGTCACCGTCGGAGGGCTGCAGAGCCTGGCCCAGCGCCGGGAACTGCTCAATCCCTTGCGCCATGGGCTCTACGCCATTGGCTTGATCAGCCACAAGCTGATCCGCCGCCTGGCCCCGGTGTTGCTGGTGCCGCTGTTGCTGAGCAACGCCTGGCTGTGGAACGAGCATGGGTTCTATCGCCTGAGCCTGGTGGCGCAGTTGCTCGGTTACGCCATCGCCTTGATCGGGTTGCTGGACGTCGGCCACCGTCTGCCCAGGCCTTTCCGCCTGGCCGCGTTCGTGCTGGTGACGTTGGCGGGCATGAGCATCGGGTTGTGGCAGTTTCTGCGCGGCCACCGCTATAGCCAATGGAATCCCGAGCAGAACCGCTAA	MAEFFYWSCLLLPVYAYLGYPLLLTLLAPLFPLRRYTIAVPMDVSIVIAAHNEARHIEEKLRTLLAQDYRARSLQIILASDGSTDDTVACARKVSDPRISVLDLPRQGKAAALNTGVAHSSGEILVFTDADNQWAHDTLGHLLAPLADPEVGACAGHMVIPVPGKGLSLGDSLYRHYEGWLRRVESRTGCMVSADGALLALRRELFQAIPAQVNDDFFLSTCAPVAGKAIVYAPLARVTDQGVDEADKQFRRRQRVTVGGLQSLAQRRELLNPLRHGLYAIGLISHKLIRRLAPVLLVPLLLSNAWLWNEHGFYRLSLVAQLLGYAIALIGLLDVGHRLPRPFRLAAFVLVTLAGMSIGLWQFLRGHRYSQWNPEQNR				NA	NA	NA	NA	NA
D1-35_02314	960	mftF	COG0463	Putative mycofactocin biosynthesis glycosyltransferase MftF	ATGAAACGCGTGAGCATTGTGATCCCGATGTACAACGAGGCCCGGCACATCGGCCGCACGTTGCTGGCGGCGCAGGAAGCTGCGCGCCAGGCGCAGCTGGAGTGCGAGCTGATCGTGGTCGACAACGGCTCGGACGACCATGGCCCGCGCATCGCCAACGAATTGGGCGCCCGGGTGCTGATCGTGCCCGGCGTGCACATCGGCGCCCTGCGCAATCGTGGCGCGGCGGCCGCCAGCGGCGACTGGCTGGCATTCATCGATGCCGACATCGAAATGCCCGCCGACTGGCTCAGGTTGTTGATCGAAATCGAAGGTCGCCAGGGCGATGTGCTCGGTCTCGACCTGGATACTCCCGAGCAGGCGCCGTGGTTCGCCCGGGCCTGGCAACGGCGCGGCCAACGCCCGGGGTCGCGTCCGCTGCACCGGGTGCAGTGGCTGCCCAGTGCCAACCTGCTGATGCGCCGCGCCTGGTTCGATCGCGTCGGTGGCTTCGATGAAACCCTGCGCACCGGTGAGGACAAGGATTTTTCCCTGCGCCTGCGCCAGGCCGGAGCGCAGTTGTTGCTGGTGAGCGAAAGCCTTGCCCTGCACTGGGGTTACGAAGGCAGCTGGCGCGAGTGGATGAGCAAGGAACTGTGGCGTCAGGGCAGTCACTGGCAGCTGCTGCGCAGCCACGGGCCGAGCCTGCGGCTGTTGCGCTTCCCCGCCTTGTCCATCGGTGCCTGGGGCCTGGATTTCGTGGCGCTGGTCACGCTGTTCCAGGGCCAGGCGCGCCTGGGGCTGATGCTGCTGTTGATCAGCACATTGCCGGCCCTGGCTCTGAGCCTGCGCCAGAGCCAGCGCGACCCGCGCCTGACCTTGCAACTGTGGGCCCTGCATGGGGTGCGCCTGCACCTGACCGGCGCGGCGCTGCTGCTCAATCTTTTTCAATGGAACGTCAGGAGACCTGCCCGTGGCTGA	MKRVSIVIPMYNEARHIGRTLLAAQEAARQAQLECELIVVDNGSDDHGPRIANELGARVLIVPGVHIGALRNRGAAAASGDWLAFIDADIEMPADWLRLLIEIEGRQGDVLGLDLDTPEQAPWFARAWQRRGQRPGSRPLHRVQWLPSANLLMRRAWFDRVGGFDETLRTGEDKDFSLRLRQAGAQLLLVSESLALHWGYEGSWREWMSKELWRQGSHWQLLRSHGPSLRLLRFPALSIGAWGLDFVALVTLFQGQARLGLMLLLISTLPALALSLRQSQRDPRLTLQLWALHGVRLHLTGAALLLNLFQWNVRRPARG				NA	NA	NA	NA	NA
D1-35_02315	1368			hypothetical protein	ATGATTGTCCCGCTCTCGATCGTCAGCCTCCTGGGCCTGGTTTGCCTGATGTTGCTGGCCAGCCCTTATCCGTACCTGGCTCCCGGCGCGGTGCTCGGCCTGGTCGGTGTCGCCGTGCTCTATCGCAAGCCCGGCTGGGGCTTGCTGGGGATTGCCGCGCTGGTGCCGTTCGAAGGCCTGTTCAAGGAAAACGCCTTTTCCGGCAGCAAGTTTCTCGGGCTGGCGCTGATCCTGATCCTGGCGTTGCAACTGGCCCTGCATCAGATTCCCGCCACTCGCCTGCGCAGCAACATCTGGAAGCCGCTGATCGGCTTCATGCTGTTCTATGGCCTGAGCTTGCTGCTATCGGAAAACCCGGGCCTCTCCACCACCCACTTCCGGGAACTGGCGGTGGGCCTGGTGCTGTTCGCGATCACCCTGCTGATCGGCCGCGAGCTGAACCTGGACCTGTTCTGCCGGTTGGTCACCCTGAGCGTCACGACGACCTGCGTGCTGGCGATGTTCTCCGCCCGGTACCAGGATCAGGGCCGCGCTTCCGGCCTGTTGGAAGATCCGAACACCTTCGCCCTGCTGATCGCCTTCACCGTGCCGCTGGCGTTGTTGCTGGTGGTGCGCAGTCCGAACCTGCTGCACCGGTTGTTCTGGGGTGGCTGCTTCATCCTGCTGCTGGGCGGCATGACCAAGACCGAATCGCGTTCGGGACTGGTGGTGCTGCTGCTCAGCCTGATGATCGGCTTGTATCACTACCGCGCGCAGCTGCCGCGCATCCGCCCACGGCACCTGGGCTTCGCGATGCTCGGGCTGGCGCTGCTGATTCCCCTGGCAATCGCGGTGATGCCGGCCGGCTACGTGGCGCGCATCCAGTCACTGAGCATCCTCAGCGCTGGCGCCAGCGCGCACAAGGACGAATCCCTGGGCCGCCGCGCCTCGTACATCGTCGTCGGCAGCCAGATGCTTCGCGAAAATCCGCTGCTCGGCTCAGGTCCCGGAACGTTTCCCCTGCACTACGCCCCCACCGGTTACGCCAAGGCTTTCTCGGCCAACCGCAAGCTGGGGGACCTGTATCGCCGGGCGCATAACACCTACCTGGAAATCTTCAGCGAGATCGGCATTCCCGGCGGGTTGATGTTCGTCGGCATGATCGGCCTGGGTCTCTACAACCTGTTGCGCGCACGCCAGCTCTGGCTCCAGCGGCGGGACTGGGCGCAGGCGGACCTGCTGACGCACCTGGGCATGAGTTTCCTGTCGCTGGCGTTGTTCCTGATGTTCCTCAGTGCACCGAACCACAAGTTGCTGTGGATCATGCTGGGCTTGACCAGCGTATTGCGCTACGACGCCGAACGGTCCGCGCCGCAGGAGACCCGTTGA	MIVPLSIVSLLGLVCLMLLASPYPYLAPGAVLGLVGVAVLYRKPGWGLLGIAALVPFEGLFKENAFSGSKFLGLALILILALQLALHQIPATRLRSNIWKPLIGFMLFYGLSLLLSENPGLSTTHFRELAVGLVLFAITLLIGRELNLDLFCRLVTLSVTTTCVLAMFSARYQDQGRASGLLEDPNTFALLIAFTVPLALLLVVRSPNLLHRLFWGGCFILLLGGMTKTESRSGLVVLLLSLMIGLYHYRAQLPRIRPRHLGFAMLGLALLIPLAIAVMPAGYVARIQSLSILSAGASAHKDESLGRRASYIVVGSQMLRENPLLGSGPGTFPLHYAPTGYAKAFSANRKLGDLYRRAHNTYLEIFSEIGIPGGLMFVGMIGLGLYNLLRARQLWLQRRDWAQADLLTHLGMSFLSLALFLMFLSAPNHKLLWIMLGLTSVLRYDAERSAPQETR	PGPT0023135_109	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023135-waaL|rfaL-K02847	NA	NA
D1-35_02316	1104	mshA_2		D-inositol-3-phosphate glycosyltransferase	TTGAACGCGCCGTTCGGCCCGTCCCACCGCAGCAGCCCCCTGTCGATCATTCATCTGCTCGACAGCGGCGGCTTCTACGGGGCCGAGCGGATGCTGCTCGATCATTGCCTGGCCACGCCCGGCCAGCACCAGGTGGTGTTTTTGGCGGCGCCGCCGACCTTGATCACGCGCTTTCGCCAGGCCGGGGTCGATTGCCGTCACTGCGCCAACTGGGCCGAGCTGCTGCAGCATTTGCGGCAACGGCGCGCCGAACGACCGCTGATCAACACGCACAACTTCAAAGGCCTGTTGTTCGGCTGGGCCGCGGCCACGCTGCTGCGCCTGCCCCTGGTGATTACCCAGCACGGCTTTACGCCGCGCAGCACCAAGCAGCGTTTTTATACCTGGCTGAGCCTGCAACTGTGCCGCACCGCCTCGGTCAAGCGAGTGGTATGCGTGGCCGAAAGCATCGCGGCGTTGCACCGCCAGGCCAGCGTGCAGGCGGACAAACTCGACGTGATTCCCAACGGTCTGCCGGCGGTCGCCACACCCCTGCCGCATCGCGATGACCGGCAGCGCTGGCGGGTCGGCTACGTCGGCCGCTTGAGCAGCGAAAAAGGCCCGGACCTGTTTCTCGACGCCATGATCCCGCTGTGCCAGCGCCATGCTTCGCTGCACGCGGTGATGCTCGGCGACGGCCCGGAACGCCAGCTCCTGCTCAAGCGCATCACCGATGCCGGGCTGCCCACGCGCATCGAATTGCCTGGCTACCAGACCGACATGAATGCCTGGTGGAGCCGCCTCGATGTACTGGTGATCAGCTCACGCACCGAGGGCACGCCGATGATTCTGCTCGAAGCCATGCAAGCCGGAGTGCCGGTGGTGGCGTTCGGCGTCGGCGGCATTCCCGACGTCGTGCAGGACCGCCATAACGGCCTGCTCGCCACGCCCGCCGACAGCGACGAGTTGGCCCGGCAGATCGAGACACTGTTCAGCGAACCACCGCTGGCGCAGATCCTCGCCGACAACGCACGGCGCACCCAACGCGACCGCTACGACCTGCGCACGCTGGCCGAACGCTGGTCGCAACTGTATATCCGCACCGCACGGGAGGCCCGGCCATGA	MNAPFGPSHRSSPLSIIHLLDSGGFYGAERMLLDHCLATPGQHQVVFLAAPPTLITRFRQAGVDCRHCANWAELLQHLRQRRAERPLINTHNFKGLLFGWAAATLLRLPLVITQHGFTPRSTKQRFYTWLSLQLCRTASVKRVVCVAESIAALHRQASVQADKLDVIPNGLPAVATPLPHRDDRQRWRVGYVGRLSSEKGPDLFLDAMIPLCQRHASLHAVMLGDGPERQLLLKRITDAGLPTRIELPGYQTDMNAWWSRLDVLVISSRTEGTPMILLEAMQAGVPVVAFGVGGIPDVVQDRHNGLLATPADSDELARQIETLFSEPPLAQILADNARRTQRDRYDLRTLAERWSQLYIRTAREARP				NA	NA	NA	NA	NA
D1-35_02317	1593			hypothetical protein	ATGAACCCCAAGGAAAATTATCTGCACGAGTTTTTCAGGATCTTCTTTGCCAACAAGCAGTGGGTGAAGCGCATCTTCCTGATTTTCGCCGTGATCGCCCTGGTGCTGCCATTGATGCTCAAGCAGAGCTTCGATATCACCGCCCAGGTGATCGTCCAGTCGAAAAAACTCTCCCAGGGCGACGCCACCACGTCGCTGAACCAGGAAAACGCCACGTTCATCCCGCCGTCCCTGGCGGACATGGAAACCGAGAGCAATATCCTCCGCTCGCCGGCGTTGATTCGCCAGACCATCCAGACCCTGCGCGACCAGGGCGAGTACACGCCAAGCCCGGGCATCCTCAACAAATGGGTCAGCGAGCCGCTCAAGCGCTACATCACCCAGCCGCTGCGTGAGTATGTGGTCAACCCGTTGCGCGACGGCCTGGGGCTTGAGGTCGATCCGGTGCGCGACACAATGCTCGATACGCTGACCGATCAGGCCATCGAAAACCTGAAGATCGAAACCCTCCCCGGCTCCAATGTCATTTCCATCGTCTACAGCTTCGGTGACCCGGCCCAGGGCACGCGGTTCGTCGCGCAACTGCTGAAGAACTACCTCACCGGCCGCCAGGAACTGCAATCGATCGAACTGCCGCAGACCTTCTACGAGCAGAAAAAAGCCCAATACCAGACGCGTCTCGACGGCCTCGAAGACAAACGACTCGGGCTGCTCGAGGGCATCGGTTCGTCCGATCCGAAGGAAGAAGTCACTTTCCGCCTGAACGCCATCAATACCGAAGAGCAGGCGCTGAACCTCTATCAGGATCGCCTGCTGCAAAGCCAACGCTGGCTCGACTACCTCAAGAGCAGCCTGGCGGCGACGACCAGCTCGCGGTTCAACGACTACACCTTCCCGTTCACCTTCACCACCACGGTGGACAACATCGCCTTCGAAGACCGGGAAATCCGCCAGTTGGGTGAGCAATTGACCGGCCAGGTCAGCCGCTACATGAATGACCTGGCGATTTTCCAGCCCGGCAGCGAACCGATGCTGCTGGCCCGGGAGCAGATCGTGCGGACCCGCCAGCAGTTTCTAAAAGTGGTGAACAACCGCATCCAGGAACGCACCACCGATCTTGCGGTGGTCAGCTCGGTGATCGAGCAGAAAAAAGCGCGCATCGGGGCGTTCAAGGAGCGCATCCACCAGTTGCAGGAAACCCAGAGCAAGCTGCGGCAGATGGACACCGAGATCAACGCTCTGCACGCGGCGTTCTCCACCTACGCCCAGCGATTCGCCGAAGCCAGCACCGCCCGCTCGCTGGACAACGACCTGTCCAACGCCCGGGTCCTGAGCCCGCCTTTCGAACCGACCGCCGCGGCATTTCCCAAGCCGATGCTGATCATTGTGTTCGGCCTGTTCAGCGGCCTGCTGCTGGCCATCGCCCTGGTCTATGTGCGTGAGTTCTTCGACCATCGCTTCAAGCATCCGGCGCAGATCACCCAGCAACTGGATCTGCCGGTGTTGCTGGTGATCAACGAGCAGTCACCCGAGCAGGTCAATCCGCATCGCAACTGGAGCTTGCCCAGCCTTGTCCATTGGGTGAGAAATTGA	MNPKENYLHEFFRIFFANKQWVKRIFLIFAVIALVLPLMLKQSFDITAQVIVQSKKLSQGDATTSLNQENATFIPPSLADMETESNILRSPALIRQTIQTLRDQGEYTPSPGILNKWVSEPLKRYITQPLREYVVNPLRDGLGLEVDPVRDTMLDTLTDQAIENLKIETLPGSNVISIVYSFGDPAQGTRFVAQLLKNYLTGRQELQSIELPQTFYEQKKAQYQTRLDGLEDKRLGLLEGIGSSDPKEEVTFRLNAINTEEQALNLYQDRLLQSQRWLDYLKSSLAATTSSRFNDYTFPFTFTTTVDNIAFEDREIRQLGEQLTGQVSRYMNDLAIFQPGSEPMLLAREQIVRTRQQFLKVVNNRIQERTTDLAVVSSVIEQKKARIGAFKERIHQLQETQSKLRQMDTEINALHAAFSTYAQRFAEASTARSLDNDLSNARVLSPPFEPTAAAFPKPMLIIVFGLFSGLLLAIALVYVREFFDHRFKHPAQITQQLDLPVLLVINEQSPEQVNPHRNWSLPSLVHWVRN	PGPT0026030_71	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PSL_POLYSACCHARIDE_METABOLISM	CE-EPS-PSL_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026030-pslE-K20998	NA	NA
D1-35_02318	1023			hypothetical protein	ATGAACGCCAGAATGCTTGTCCTGCTGTTGCTGCCGCTTGCCGGTTGCTCCAGCACCACCGATACCCGCTCGATGCCGGTGCAGATCCTCACGGCCGCGCCGGCCAACGCCCAGGCCACCGACATGCCCAAGGTCGAACAGACCCTGCGGCCCCAGGACGTGCTGGATGTGATTTTTCATATCAGCACCACCGCTTCCCAGGCTTATCGTGTACAGCCGGGCGACCAGGTAGCGCTGAACTTTACCGCCGCCAGCCAGCTCAACGGCACGCAACAGGTGATGCCCGACGGCAGCATCGAACTGCCGGGCGCCAACACCTCGGTGAAACTCGCCGGCCTGACCACCGACGAGGCCCGCCTGGCGGTACAGCGAGCCTATGACCAGAAGATGCTGTTCCAGCCCAATCGCAACCAGTTGACGGTGCTGGTGACCAGTCCGCTGGCCGGCGAGACGACCCTGCGCAATACCCTGACCCACCCTGGCACCGGCATGAGCCGGGAAATCACCGTGGGCCGGGACGGTTACGCCAGCTTTCCGGAAATCGGCGCCGTACCGCTGCAGGGCATGACCGTCACCCAGCTGGAAACCTTCCTCAACGAGCGTTACGCCAATCTGCCCGGACGCATGACCGTCGATGTGCTGCTCAAGTCCACCGCCGGCAATGAAATCTATGTCCTCGGTGAAGTGGCCCAGCCCGGTTCCTATCCGATCCGCCGGCCCATCTCGGTACTGGAAGCCCTGACCCTGGCCCGTGGCGCAAACGTCAAGGCCCGGCTCGACTCGGTGGTGATCATGCGCCGCAACGGCAATCAGGTCGAAGCCCGCCACTACGACGTCGAAAAAGCCTTGAGCGGCGACGCCTCGCAAATCGCCTACCTGCAGCCCGAAGACATGCTCTTCGTGCCCAAGACCGGGCTGGCCAAAGCCGGCGAAACGGCCCGCCAATTGGCCGACGTGGTGCTGTTCCAGGGCGTGGGGTTCGGCTTCGGCTACCGCGTCGACAACAAAGGCAGCGACAACTGA	MNARMLVLLLLPLAGCSSTTDTRSMPVQILTAAPANAQATDMPKVEQTLRPQDVLDVIFHISTTASQAYRVQPGDQVALNFTAASQLNGTQQVMPDGSIELPGANTSVKLAGLTTDEARLAVQRAYDQKMLFQPNRNQLTVLVTSPLAGETTLRNTLTHPGTGMSREITVGRDGYASFPEIGAVPLQGMTVTQLETFLNERYANLPGRMTVDVLLKSTAGNEIYVLGEVAQPGSYPIRRPISVLEALTLARGANVKARLDSVVIMRRNGNQVEARHYDVEKALSGDASQIAYLQPEDMLFVPKTGLAKAGETARQLADVVLFQGVGFGFGYRVDNKGSDN	PGPT0025530_2300	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0025530-wza|gfcE|epsA-K01991	NA	NA
D1-35_02319	645	yveL	COG0489	Putative tyrosine-protein kinase YveL	ATGGACGGTTCAACGAATATCCTGACCATAGCAAGCCCGAGCGAGACCAACCTGACCTCGACCGTGCTCGACCCTTCCTTGCGGATCCTGCTCCTGACGGCAGCGAATATCGGCACTGGCACGAGCACCAGCGCCATGGCGCTGGCCGCCCAGTTGGCGCAGATGAGCAGCGGCCGTGTGCTGCTGGTGGACGCCAGCCGGTCGCCGCGCAACCTCAGCCAGCAGCTGTCGCTGCAAAAAGAGCGCGGCTTCAGCGACCTGCTGTTCAACAGCCTTTCTCCGCCGCTGTTGCAGGACTGCGTGGTGCAGGTTTCCAGCCTGCCCTTCGACGTGCTGCCCAACGGTCGCCTGGGCCATAACGCCGAGCGCCTGAGCCCCGAGCGACTGCGCCCGCTGTTCAGGCAACTGGCCGCGCAGTACCGCTTCGTGGTGATCGACGCCGACGCGGTGTATTCGGCCACCGACACCCTGGTCATGGGCACTCAGGTGGACGGCGTGGTGCTGGTGGTGCGCGGCGAGGACACCCGCTGGGAAGTCGCCCAGGCCGCCCGACAACGCTTGGCCCAGGCCGGCGCGAAGGTGGTCGGCAGCGTGTTCAATCGCCGCAAGTACTACATGCCCAAGTGGCTCTACAACAACCTGTAA	MDGSTNILTIASPSETNLTSTVLDPSLRILLLTAANIGTGTSTSAMALAAQLAQMSSGRVLLVDASRSPRNLSQQLSLQKERGFSDLLFNSLSPPLLQDCVVQVSSLPFDVLPNGRLGHNAERLSPERLRPLFRQLAAQYRFVVIDADAVYSATDTLVMGTQVDGVVLVVRGEDTRWEVAQAARQRLAQAGAKVVGSVFNRRKYYMPKWLYNNL				NA	NA	NA	NA	NA
D1-35_02320	747			hypothetical protein	ATGACCCGACATGAGCAAGACATCCCGACCCGGACCCTCGGCCGTGACAAACGAGTCGACCCCGAGCACCGCAGGCGCCTGGACGCGGCTATTCACCGCCAGGGTCGTGGCTGGATGACCGGCCGCGACGGCGGCCGGCCCTGGACCGTCTCGCGCACCAACCGGGTGGTGGCCTGCCTCGGCGCATTGGCCCTGTTGCTGATGCTCAGTCCGCTGCTGCTGGGCCTGGCACTGCTGGTGAGGTTCTCCAGCCCTGGCCCGGTGCTGTTCGTGCAGAAACGCACCGGCTATCGCGGCCGCGTTTTCGGCATGTACAAGTTCCGCACCATGGTCGCCGACGCCGAGGCCTTGAAAGAATCGCTGCGCCACCTCAACAAGCACGGCGCCGACGCCATTGACTTCAAGATCGACAACGATCCGCGCATCACCCCCATCGGCCGGTTCCTGCGCCGCAGCAGCCTCGATGAACTGCCGAACCTGATCAACGTCGTGACCGGCGACATGCGCCTGGTGGGCCCGCGGCCGACCTCGTTCAACGCCTACCGCTACAAGGACAACCATTTGGTGCGCCTGAGCATCTACCCCGGCCTCACCGGCCTCTGGCAGATCTCCGGACGCAGCAATATCGACTTCGACCAGCGCGTGGAACTGGACCTCAGCTATATCGCCGAGCAGAGCCTTTTGCTGGATTTGAAGATCCTGATCATCACCCCCTTCAAAGTCTTCAGCGGCCACGGAGCGAGTTAA	MTRHEQDIPTRTLGRDKRVDPEHRRRLDAAIHRQGRGWMTGRDGGRPWTVSRTNRVVACLGALALLLMLSPLLLGLALLVRFSSPGPVLFVQKRTGYRGRVFGMYKFRTMVADAEALKESLRHLNKHGADAIDFKIDNDPRITPIGRFLRRSSLDELPNLINVVTGDMRLVGPRPTSFNAYRYKDNHLVRLSIYPGLTGLWQISGRSNIDFDQRVELDLSYIAEQSLLLDLKILIITPFKVFSGHGAS	PGPT0026575_226	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026575-exoY-K16566	NA	NA
D1-35_02321	1083	galE1	COG1088	UDP-glucose 4-epimerase	ATGAACATCCTGGTGACCGGCGCGGCCGGTTTCATCGGCGCCCATTGCGTGCTGCGGCTGCTGCGCGACGGCCATGACGTGTGCGGACTGGACAACTTCAACGACTACTACGACCCGCAACTCAAGCACGACCGCGTGGCGTGGGTCAAAGGCCAGGCCGGCGACTTCCACCTGGCGCGAATCGACCTGACCGACGCACCGGCCCTCGACCAACTGTTCCAGTCCCATCGCCCCGACGTGGTGATCCATCTGGCAGCCCAGGCCGGCGTGCGTTATTCGCTGGAAAATCCGCGGGCTTATGTCGACAGTAATCTCAGCGGGTTCCTGAACATTCTGGAGAGCTGCCGCCGCCATCCGGTCAGGCACCTGATCTACGCCTCTTCCAGTTCGGTGTACGGCGCCAACCAGCGCACGCCGTATTCGGTACAGGACGGCGTCGACCATCCGTTGTCGTTGTACGCGGCCACCAAAAAGGCCAATGAACTGATGGCCCACAGCTACAGCCATCTGTTCGGCATCCCCTGCACCGGCCTGCGTTTCTTTACCGTCTATGGCCCCTGGGGCCGGCCAGACATGTCGCCGATCCAGTTCGCCCGGGCCATTACCGAAGGCCAGGTGCTGAAGCTGTTCAACCATGGCGAGCACGAGCGCGACTTCACCTGCATCGACGACATCATCGAGAGCATCGCCCGGCTGATCGAGCGCCCACCTCATGCAAACCCGGACTGGAATCGCCACCAGCCGGACCCGGCCACCAGCCTGGCACCGTGGCGCGTCTTCAACATTGGCGGACAGCATCCGGTGACGCTGCGGGCCTACGTGGCGCTGGTGGAAAAACACCTGGGCCGGAGCGCGCGAGTCGAGCTGCTGCCCCTGCAACCGGGCGATGTGCTGAACACCTGCGCCGATGCCAGCGACCTGGCCCGGGCCACCGGTTTCCAGCCTTGTATCGAACTGGATGAAGGCCTCGGCCGTTTCATCGACTGGTTCCTCGATTACTACGCACCGCCCATCGCCCACGCACCGCTTGCGACAGAACGCTTGCGGCCCAACCTCAACGGAGGAGTCTATGACCCGACATGA	MNILVTGAAGFIGAHCVLRLLRDGHDVCGLDNFNDYYDPQLKHDRVAWVKGQAGDFHLARIDLTDAPALDQLFQSHRPDVVIHLAAQAGVRYSLENPRAYVDSNLSGFLNILESCRRHPVRHLIYASSSSVYGANQRTPYSVQDGVDHPLSLYAATKKANELMAHSYSHLFGIPCTGLRFFTVYGPWGRPDMSPIQFARAITEGQVLKLFNHGEHERDFTCIDDIIESIARLIERPPHANPDWNRHQPDPATSLAPWRVFNIGGQHPVTLRAYVALVEKHLGRSARVELLPLQPGDVLNTCADASDLARATGFQPCIELDEGLGRFIDWFLDYYAPPIAHAPLATERLRPNLNGGVYDPT	PGPT0019020_818	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
D1-35_02322	1356	rkpK_2	COG1004	UDP-glucose 6-dehydrogenase	ATGGACGTGAGCGTATTTGGAACGGGGTACGTTGGGCTGATTCAAGCGGCGGCGCTGGCAGACGTCGGACATCGCGTCCTGTGTGTCGATATCGATCCGAACAAGATCCGGCAACTGCAACAGGCGGTGCCGCCCATCAGCGAGCCGGGACTGTCCGGGTTGCTCGAAGACAACATCAAGGCCGGGCGCCTGTCGTTCAGTTGCCAGGCCAGTGATGCGGTCAACCATGGCGAGCTGATCTTCATCGCCGTGGGCACGCCCGCCGATGAAGATGGCTCGGCGGACCTCAGCCATGTCCTGGCCGTGACCCGGCAGATCGCCGACTTCATGGACAGCGACCGCACCCTGATCATCAAGTCGACCGTGCCGGTCGGCACGGCTGACAAGGTCGCCGAATGCGCCCGCCAGGCGTTGGCCCGTCGCGGCCTGCAACAACTGAATGTGCGCGTGGTGTCCAACCCGGAGTTCCTCAAGGAAGGCAGCGCACTGGCCGATTGCATGCGCCCGGACCGGATCATCGTCGGCACCGTCGACGCCCTGGCCCGCGACCAGATGAGCGAGCTCTACGCGCCCTTCTGCCGTAACCACGAAAAGCTGATGTTCATGGACAACCGCAGCGCGGAACTGACCAAGTACGCCGCCAACGCCATGCTCGCCACGCGCATCAGTTTCATGAACGAACTGGCCAACCTCACCGAACACCTGGGTGCCGACATCGAGGCCGTGCGCAAGGGCATCGGCTCGGACCCGCGCATCGGCTACCACTTCATCTATCCCGGCTGCGGCTTTGGCGGCTCGTGCTTTCCCAAGGACCTGCGCGCCCTGCTGCACACCGCCGAACAAAGCGGCATGCCACTGCGCCTGCTGCGCAGCGTCACCGATGTGAACGACAGCCAGCGGCACATCCTTTTCGAAAAACTCACGCTGCAATTCCCCGACGGCCTGGCCGGCAAGTCGATTGCCATCTGGGGCCTGGCATTCAAACCGAACACCGACGACATGCGCGAAGCGCCCAGCCGCTACCTGATGGAGGCACTCTGGCGCGAAGGCGCCCGCGTTCAGGCCTACGACCCGGAAGCCATGTCCGAATGCCGGCGCCTCTATGGCTATCGCAAGGACCTGAACCTTTGCGCTACCCGCGACGACACGCTGGAAGATGCCGACGCCCTGGTGATCTGCACCGAGTGGAAGAATTTTCGCGTGGTCGATTTCGACCTGCTTGCCAGCAAGCTGCGCGCGCGGGTCATCATCGATGGTCGCAACCTGTACAACCCGGAACACCTGGCCGCCGCCGGGCTGCTGTATCGCGGCATCGGGCTGCGCCACACCGTGCCCGTTCAGGGGCCACAAGCATGA	MDVSVFGTGYVGLIQAAALADVGHRVLCVDIDPNKIRQLQQAVPPISEPGLSGLLEDNIKAGRLSFSCQASDAVNHGELIFIAVGTPADEDGSADLSHVLAVTRQIADFMDSDRTLIIKSTVPVGTADKVAECARQALARRGLQQLNVRVVSNPEFLKEGSALADCMRPDRIIVGTVDALARDQMSELYAPFCRNHEKLMFMDNRSAELTKYAANAMLATRISFMNELANLTEHLGADIEAVRKGIGSDPRIGYHFIYPGCGFGGSCFPKDLRALLHTAEQSGMPLRLLRSVTDVNDSQRHILFEKLTLQFPDGLAGKSIAIWGLAFKPNTDDMREAPSRYLMEALWREGARVQAYDPEAMSECRRLYGYRKDLNLCATRDDTLEDADALVICTEWKNFRVVDFDLLASKLRARVIIDGRNLYNPEHLAAAGLLYRGIGLRHTVPVQGPQA	PGPT0017855_1823	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
D1-35_02323	1698			hypothetical protein	ATGGCGCGATACCTCAAGGAACTGCTACTGCTTCTATACCTGCTCAGGGCACATGACTATTACCTCGACCGTCTTGCGGCGCTGGGTTTTGGCTTTGCAACGCTGCTGTTCGGCGCGATGTTCGTTGCGCTGGTGCTGGCTCTGTGGATGACCGCGTACATTCGCCAGGCATTGGTGCGGCATCTGTTTGCCCTGGCGATGTTTGCCTCGGCGGTGTTCTTCGAGGTCTACACGCGCGTAACCGACAGCTACCTGACCTACAGCCAGTTCGTGTCGATGGTCTATTCCGGCGGGTTCATCCAGGAGGCGGCTTATCAGTACCGCGAGGTGATCATCAGTGCGGTTGCGGGGGGCTTGTTGCTGCTGCTGGGGATCGGCCTGAAGCCCCGGCGGCGTCTGCCGTTGCCCGGTTACGTCGCGATCACTGCGCCATTGCTCGGCGTGCTGCTGCTCAGTGGCGTACTGTTCGTACGGGCAGGCGAGGGCGCGCGCGGTTTGCCGATCATGTACACGCCGCTGGCCTATCTGAACCTGTTCATCTATGAAGCCGTGCACAACACCGTGGGCCCACGGGCGCCAGTCAGCCTCGTGCGGCAAACAGCGGCAATCGGGCACGATATCGTGCTGATCATCGACGAAAGCATTGGCGGGAACTATCTTGATATCAACACGCCGTCCGGCGTCGCTACCGGCCTCAAGACGCCCCCTCCCGGCGTGGAAATCCTCAATTACGGCTACGCCGCCTCGATCGCCAATTGCAGCGCGGATACCAACGTTACCTTGCGCTATGGCGGCACCCGTGGCGACTACATGCGCATCAACAGCACCCAGCCGTCGATCTGGCAGTACGCCCGCAACGCCGGGTTGCGCACCGTCTATATCGATGGCCAGAACACCGGCGGCAAGCGGCAGAACCTGATGACCGAGCTGGAACAACAGGACATCGACGAATTTGTACAGTTCGACCAGGTCCGTGTGCGCGACCGTGACATGGCGGCTGTGGCGAAACTGATCGAGCTGATGGACAACGACCGGGCCGAACTCGTGGTGGTCAATAAAGTCGGCGCGCATTTCCCGGTCCACGACAAATACCCCGATGTTTTCATGACCTACCGTCCGGCCTTACCGCGAGGGCAGTTCGAGGAGGTGGCCGACACCGGCCGGCGCGACGGCTTCAGTGGCGAAGCGAATGATTGGGTGCTGTATCGCAATGCTTACCAGAACACCTTGCTGTGGAACGTCGGCGAATTTTTCCAACGCCTATTCCGACAGGGCAATCTCGACAATGCGGTGTTGATCTATACCTCCGATCATGGCCAGGATCTGCACGAGCGCGGCAACCCCGGCCTCAACACCCATTGCGGCGGAGATCCGGTGGAAGAAGAAGGGCTGGTACCGTTGCTGGTGATCCAGGGAAGCCGGTTGCAAACCCTCGATTGGCGCAGCGCCTGGGCGCAGAACAAGGACCGCTCCAGCCACTACAACATCTTCCCGACGCTGCTGCGGTTGATGGGCTACGAGTCGGCCGGCGTCACGGCGCTGTATGGAAAATCCCTCGACCAGCCGACCGAAGACGACTTCACCTTCAACTACCGTTTTAATGCGCGGCTGGGGGCCAAGCCGGCGTGGAAGCACATTGACCTGGACAACATCGTTACGCCGAAACCGGTTCAGGGTGAGATGGCGGTGGGGCATTGA	MARYLKELLLLLYLLRAHDYYLDRLAALGFGFATLLFGAMFVALVLALWMTAYIRQALVRHLFALAMFASAVFFEVYTRVTDSYLTYSQFVSMVYSGGFIQEAAYQYREVIISAVAGGLLLLLGIGLKPRRRLPLPGYVAITAPLLGVLLLSGVLFVRAGEGARGLPIMYTPLAYLNLFIYEAVHNTVGPRAPVSLVRQTAAIGHDIVLIIDESIGGNYLDINTPSGVATGLKTPPPGVEILNYGYAASIANCSADTNVTLRYGGTRGDYMRINSTQPSIWQYARNAGLRTVYIDGQNTGGKRQNLMTELEQQDIDEFVQFDQVRVRDRDMAAVAKLIELMDNDRAELVVVNKVGAHFPVHDKYPDVFMTYRPALPRGQFEEVADTGRRDGFSGEANDWVLYRNAYQNTLLWNVGEFFQRLFRQGNLDNAVLIYTSDHGQDLHERGNPGLNTHCGGDPVEEEGLVPLLVIQGSRLQTLDWRSAWAQNKDRSSHYNIFPTLLRLMGYESAGVTALYGKSLDQPTEDDFTFNYRFNARLGAKPAWKHIDLDNIVTPKPVQGEMAVGH				NA	NA	NA	NA	NA
D1-35_02324	669		COG1136	putative ABC transporter ATP-binding protein	ATGCTTGAGGTCCGAAACGTCTTCAAAAGCTACACCACGCCCCAAGGCCCCCTGGCGGTGCTGCAAGGTATCGACCTGACGCTGCCTCCCGGCAGCAGCCTGGCGCTGATGGGGGAATCCGGCAGCGGCAAGAGCACCTTGCTGCATCTGGTCGCTGGCCTCGACAAGGTCGATCGGGGCAGCATCCACAGCGCGGGGCACCGGCTCGAAGACATGAGCGAAAGCCAGTTGGCGAACTGGCGGCGCACCGAGATCGGCCTGGTGTTCCAGCAGTTCAACCTCATCAGCAGCCTTGCGGTGGAAGACAATCTCGCATTCCAGGCGCGCCTGTGCGGTCGGTTCGACGCTACGTGGCAAGCGCATCTGGTGCAGCGGCTCGGGTTGTCGGAGCTGTTGCGGCGTTATCCCGAGCAGCTTTCCGGTGGTCAGCAACAACGGGTAGCCCTCGGCAGGGCGCTGGCTTCACGGCCGCCGTTGTTGCTGGCCGATGAACCCACCGGCAGCCTCGACGAAGCCACCAGCGACGAGGTGCTGCAACTGCTGCTGGAGTTGCTCGATGGCAGCCCCACCAGTCTGTTGATGGTTACCCACAGCCAGCGGGTGGCGGCGCGCCTGGCACATCGCGTGGTATTGCAAGGCGGGCGCCTGGCGCAAGCGGGCCCGGCGTGA	MLEVRNVFKSYTTPQGPLAVLQGIDLTLPPGSSLALMGESGSGKSTLLHLVAGLDKVDRGSIHSAGHRLEDMSESQLANWRRTEIGLVFQQFNLISSLAVEDNLAFQARLCGRFDATWQAHLVQRLGLSELLRRYPEQLSGGQQQRVALGRALASRPPLLLADEPTGSLDEATSDEVLQLLLELLDGSPTSLLMVTHSQRVAARLAHRVVLQGGRLAQAGPA	PGPT0013345_15507	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
D1-35_02325	2469			hypothetical protein	ATGATCTTTCGCCAGACCCTCAAGGCCCTGCTCAGTCACTGGCGTCGACACCCAGTGCAATTTTTCAGTGTGTTGACCGGGCTTTGGCTGGCCACCAGCCTGCTCACTGGCGTGCAGGCCTTGAACAGCCAGGCCCGGGACAGCTACGCCCGGGCCAGCCAGCTGATCGGCGGCGAACCCCAGGCCAGCCTCAGTGCTCCCGGCGGGGGCTCGTTCCCACAGCAATGGTTTGTCGACCTGCGGCGTCAGGGTTGGCCCGTATCGCCGGTGTTGCAGGGTCGGCTGACGCTTGCGGGGCATGAAGACCAGCGCCTGCAATTGATGGGCATCGACCCGGTGTCGCTGCCGCCGGGTTCGGCCGTCGCGGGGCAAGCGCGGGAGATCGCCGAGGTGGTGGACTTCTTCACCGGCCCCGGTCGTACCTGGATCGCCCCGCAGACGTTGCAGGCCCTCGGGCTGAAAGTGGGCGACCGGCCCCGCAGCGCCGACGGCCAGGCCTTGCCGCCGCTGCACGTACAGCCGGACATGGCGCCAGGCATGCTGTTGATGGACATCGGTTTCGCCCAGCAGCTCCTTGGATTGCCGGAGCAGGTCTCGCGAATGTTGTTGCCGGCCACGTTCACCGCGCCCTTGCCCGAGGCATTCAACGGCCTGTTGCAATTCAAGCGCGCGGACGAGGAGAACAACTTGACGCGCCTGACCGAGAGCTTTCATTTGAACCTCGACGCACTCGGGTTCCTGTCATTCGTGGTGGGACTGTTTATCGTCCATGCCGCCATCGGCCTGGCCCTGGAACAACGGCGCAGCCTGCTGCGAACCTTGCGCGCCTGTGGCGTCAGTGCGCGGGTACTGGTCGCCAGCCTGGCGCTGGAGTTGGGCGCGTTGGCCTTGCTCGGCGGGGTGGCCGGGGTGCTCAGCGGTTACTGGCTGGCGAGCCTGCTATTGCCTGATGTCGCGGCGAGCCTGCGCGGTCTGTACGGCGCCGAAGTGCCGGGGCAATTGCACCTCAGCCTTTGGTGGTGGCTCGGCGGCGTGGGCCTGGGCCTGCTCGGTGCGTTGCTGGCCGGGGGCCAAAGCCTGTTGCGGGCGGCGCGCCTGCCCTTGCTGGCGCTGGCCAATCCCCAGGCCTGGCACCAGGCCCACGCGCGGTGGTTGCGGCGCCAGGGCGGGGTGGCACTGATGGCCGCGCTGATCGCGGTGGCGGCGCTGGTCTGGGGCGACAGCCTGGCGAGCGGTTTTGTCCTGATGACTGCGTTGTTGCTGGGCGCGGCGCTGGCGCTACCGGTGCTGCTCAACGCTGTGTTGAACCGGTTGTTGCGCGGCAACCGTTCCGTGCTCGGCCAATGGTTCCTCGCCGATTGCCGCCAGCAGTTGCCGACGTTGAGCCTGGCGCTGATGGCGTTGTTGCTGGCGCTGGCGGCGAATATCGGCGCCGGCAGCATGACCGCCGGTTTCCGCCAGACCTTCAGCGACTGGCTCGAACAGCGGCTCACCGCCGAGCTGTACATCAACCCACAGACCCCGGCCCAGGCAGGTAAGTTGTACGAATGGCTCAAGCAACAACCGAGTATCAGCGCCGTGCTCCCGAACTGGCAGGTATCGGTCCCTCTGCAAGGCTGGCCGTCGGATATCTACGGCATCGTCGATCACCCTTCCTATCGCCTGCACTGGCCCTTGCTGGAGTCGGCCGGTGACCAGGCCTGGGACCAACTGGCCGGCGCCGACACGCTGATGCTCAGCGAACAACTGGCCCGGCGCCTGAAAGTGGAGGTCGGCGACCGGTTGACCCTGCCGACCCCACAAGGGCCGTGGACGCCGCGGGTTGTCGGGATTTATGCCGATTACGGTAATCCCAAGGGGCATGTGCTGATAAACGCCGATCACCTGCTGGCGCACTGGCCGCAATTGACGCCAAATCGCTTCAACCTGCGCATCGGGCCGTCCGCCATCGGGCCATTGCTGGCGGCGTTGCAAGGCCGGTTCAGCCTGGACGACAGTCACATCGTCGACCAGGCTCGCCTCAAGGGCTGGTCGACCCAGGTATTCGAGCGCACCTTTGCCGCCACCGCGGCGCTGAACAGCCTGACCCTGGCGGTCGCCGGAGTGGCGTTGTTCATCAGCCTGTTGACCCAGAGCCAGAGCCGTCTCGGTCAGTTGGCGCCGTTGTGGGCCGTGGGGGTAACGCGTCGGCAACTGATGCTGCTCAACCTCGGCCAGACCTGGTTGCTGGCGCTGCTGACCTTACTGCTGGCCGTGCCGCTGGGCATCGCCCTGGCCTGGTGCCTGGATGCCGTGATCAACGTCCAGGCCTTTGGCTGGCGCTTGCCGTTGCGGGTGTTCCCGCTGCAATTGGCGCAGCTGCTGGGCTTGGCAATGTTCGCCACGCTGCTGGCGTCGGCGTGGCCGCTGTACGCGCTGTACCGCACGCAACCGGCGGATCTGCTCAGGACCTTCGCCCATGAAAATTAG	MIFRQTLKALLSHWRRHPVQFFSVLTGLWLATSLLTGVQALNSQARDSYARASQLIGGEPQASLSAPGGGSFPQQWFVDLRRQGWPVSPVLQGRLTLAGHEDQRLQLMGIDPVSLPPGSAVAGQAREIAEVVDFFTGPGRTWIAPQTLQALGLKVGDRPRSADGQALPPLHVQPDMAPGMLLMDIGFAQQLLGLPEQVSRMLLPATFTAPLPEAFNGLLQFKRADEENNLTRLTESFHLNLDALGFLSFVVGLFIVHAAIGLALEQRRSLLRTLRACGVSARVLVASLALELGALALLGGVAGVLSGYWLASLLLPDVAASLRGLYGAEVPGQLHLSLWWWLGGVGLGLLGALLAGGQSLLRAARLPLLALANPQAWHQAHARWLRRQGGVALMAALIAVAALVWGDSLASGFVLMTALLLGAALALPVLLNAVLNRLLRGNRSVLGQWFLADCRQQLPTLSLALMALLLALAANIGAGSMTAGFRQTFSDWLEQRLTAELYINPQTPAQAGKLYEWLKQQPSISAVLPNWQVSVPLQGWPSDIYGIVDHPSYRLHWPLLESAGDQAWDQLAGADTLMLSEQLARRLKVEVGDRLTLPTPQGPWTPRVVGIYADYGNPKGHVLINADHLLAHWPQLTPNRFNLRIGPSAIGPLLAALQGRFSLDDSHIVDQARLKGWSTQVFERTFAATAALNSLTLAVAGVALFISLLTQSQSRLGQLAPLWAVGVTRRQLMLLNLGQTWLLALLTLLLAVPLGIALAWCLDAVINVQAFGWRLPLRVFPLQLAQLLGLAMFATLLASAWPLYALYRTQPADLLRTFAHEN	PGPT0013350_5302	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
D1-35_02326	1071			hypothetical protein	ATGAAAATTAGAATCGGCCTGATGCTGCTGGCCTTGCTCGGCGGCTGCGACGACTCGTCGGCGCCGGAAAAGGGTTTCGCCGGCCTCGGCAACCAGGCCGTTGCATTTACGCCTGTGGTGCCGGGGCGCGTGTTCAGTTTTCCGGCCGATCATGGTGCCCATGACGGGTTTCGGATCGAGTGGTGGTACGTCACCGCCAATCTCAAGGATGCCGAGGGGCGGGATTTCGGCGTGCAGTGGACGTTGTTCCGCAGCAGCCAGGATGCCGCTCCCCAGGCCAGTGGCTGGCGTAACCAGTCCATCTGGCTCGGTCACGCCGCGGTCACTTCCGCGACTGTCCATCACGCCGCCGAACGTTACGCCCGTGGCGGTGTGGGGCAGGCGGGAGTGCGCACCAGTCCGTTCGACGCCTGGATCGACGATTGGCAATTGACCACCCGAGCCGCGGGCGCCGACCCCCTGGCGGCGATGCAGCTCAAGGCGCGGGATGCGCGTTTCAGCTATGAGCTGCAGCTCACCTCGACACGCCCCTTGGTCCTGCAAGGCGACCAGGGCTTCAGCCAGAAATCCGCGCAGGGCCAGGCGTCGTATTACTACAGCCAACCCTTCTTCCAGGCCAACGGTCAGCTGGAAATCGATGGCCAGCGCTATCAGGTCAGCGGTCCGGCCTGGCTCGACCGTGAATGGAGCAGCCAGCCCCTGACCGAAAACCAGACCGGATGGGACTGGTTTTCCCTGCATCTGGATAATGGCGAACACGTCATGCTCTACCGCATGCGGCACAAGAAAGGCGCGCCTTACCTCACCGGCACCTGGATCGACGCCCAGGGCCAGGCAACGACTCTGAGCGCCAGCGAAATCAGCCTCGAACCGCTGGACACCGCCGAGGTCGCGGGACGCTCGATGCCGGTGCGCTGGTCGATCAGGATTCCCGCCAGGCAGCTAGAAATCATCACTCAGGCGCTGAATCCCGATGCCTGGATGAACCTGCGTATTCCTTATTGGGAAGGGCCGGTGCAACTGAGCGGCAATCGTGGCGGCATCGGTTACCTGGAAATGACCGGCTACTGA	MKIRIGLMLLALLGGCDDSSAPEKGFAGLGNQAVAFTPVVPGRVFSFPADHGAHDGFRIEWWYVTANLKDAEGRDFGVQWTLFRSSQDAAPQASGWRNQSIWLGHAAVTSATVHHAAERYARGGVGQAGVRTSPFDAWIDDWQLTTRAAGADPLAAMQLKARDARFSYELQLTSTRPLVLQGDQGFSQKSAQGQASYYYSQPFFQANGQLEIDGQRYQVSGPAWLDREWSSQPLTENQTGWDWFSLHLDNGEHVMLYRMRHKKGAPYLTGTWIDAQGQATTLSASEISLEPLDTAEVAGRSMPVRWSIRIPARQLEIITQALNPDAWMNLRIPYWEGPVQLSGNRGGIGYLEMTGY	PGPT0013350_319	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
D1-35_02327	243			hypothetical protein	ATGAGCGATGACCTCAAACCTCCGTCGCTGGCCGACTGGCAGCGGCTGTTCGACGACAAGGCCTACTTCCAGCAGTCGCCCGACGTTCATTTCACCGAGCTGACGCGGCTGGCGGACGACCTGTTCGGCCAGGGAGCCATTGACCTGGACCGCTGGCAGGAGCTGAAGACCAAAGCGGAGGAACTGCACCAGCGCTCGCCGGATGCGAATGTGGCGGAGGAAGTGGCCGATCCTGATGCCTGA	MSDDLKPPSLADWQRLFDDKAYFQQSPDVHFTELTRLADDLFGQGAIDLDRWQELKTKAEELHQRSPDANVAEEVADPDA				NA	NA	NA	NA	NA
D1-35_02328	171			hypothetical protein	ATGAAGCCCGGTCCCGATCAGACCCAACACAACCCCGACGAGCCGGCGTTGCCCGGCGAAGTGGAGCGAGACAACGACGCGCTACGACCGAACGACCCGGCCAAGCGAGAGCAGCAAGGCAATGCCGAGGCGCAGGAAACCGATGCGCAAAAAACCGCACGGGGCGATTGA	MKPGPDQTQHNPDEPALPGEVERDNDALRPNDPAKREQQGNAEAQETDAQKTARGD				NA	NA	NA	NA	NA
D1-35_02329	519	hcpA	COG3157	Major exported protein	TTGGCTACCCCCGCTTACATGTCCATCGAAGGCGCCAGACAAGGCCTGATCACCGCCGGCGCGTTCACCGCCGACTCGGTAGGCAACATCTATCAGGAAGGTCATGAAGACCAGGTCATGGTGCAGGGCTTCGAGCATCAGGTGAACATCCCCCGCGACCCTCAATCGGGCCAGCCAACCGGCCAGCGCGTGCACAAGCCCCTGGTCATCACCAAAGTCTTCGACAAGGCTTCGCCCCTGTTGCTGGCAGCCCTGACCAGCGGCGAGCGCCTGACGAAGGTGGAGATCCAGTGGTACCGCACATCGGCCGCAGGCACCCAGGAGCACTACTACACCACCACCTTGGAGGAGGCGATCATCGTCGACATGAAAGACTACATGCTCAACTGCCAGGACCCGGGCAACAGCCACTTCACCCATCTGGAGGACGTTCATTTCAGCTACCGCAAGATCACTTGGACTCACGTGGCCTGTGGCACCTCGGGCTCGGATGACTGGCGCAACCCGGTAATCATCTGA	MATPAYMSIEGARQGLITAGAFTADSVGNIYQEGHEDQVMVQGFEHQVNIPRDPQSGQPTGQRVHKPLVITKVFDKASPLLLAALTSGERLTKVEIQWYRTSAAGTQEHYYTTTLEEAIIVDMKDYMLNCQDPGNSHFTHLEDVHFSYRKITWTHVACGTSGSDDWRNPVII	PGPT0025980_249	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0025980-hcp-K11903	NA	NA
D1-35_02330	1377		COG5383	putative protein	ATGAGCTTCGTCAGCCCCGACCTGATCCGCCAACGCTTCTCCAGGGCGATGTCCGACATGTACCGCGACGAAGTACCGCTGTACGGCGCATTGATGAACCTGGTGGAGCAAACCAACGCCCGGGTGTTGGGCAACGATCCGCAACTGGCCGAACACCTGCGCAACACCGGCGAACTGCAGCGCCTGGACCTGGAACGGCATGGCGCGATCCGCGTCGGCACCGCCGCCGAGCTGGCGATGCTGGGTCGGCTGTTCGCGGTCATGGGCATGCAGCCGGTGGGCTATTACGATCTGACGCCGGCCGGGGTGCCGGTGCATTCCACGGCCTTCCGCGCCGTGCATGAAACCGCACTGCAAGTCAGCCCCTTTCGCGTGTTCACTTCGCTGTTGCGCCTGGAGCTGATTGAAAACGCCGAGCTTCGGGCCTTTGCCGAATCGGTGCTGGGCAAACGGCAGATCTTCACTTCCGGCGCCCTTGAACTCATCGAGTTGGCCGAACGTCAGGGCGGCCTGACCGAGCCCCAGGCCGAGGAATTTGTGCTGCAAGCGCTGGAAACCTTTCGCTGGCACCACAGCGCCACCGTCACCGCCGAACAATACCGTCAACTGAGCGCCCAGCATCGGCTGATCGCCGACGTGGTGGCGTTCAAGGGCCCGCATATCAATCACCTGACGCCGCGCACCCTGGACATCGACATTGTCCAGACCCAGATGCCGGTGCATGGCATCACGCCCAAGGCCGTGATCGAAGGCCCGCCCCGTCGCCAGTGCCCCATCCTGCTGCGCCAGACCAGTTTCAAGGCGCTCGATGAACCCGTCGCGTTCACCGACCAACCAGAATCCCAAGGCAGCCACAGCGCCCGGTTTGGTGAAATCGAGCAACGCGGCGCGGCCCTCACGCCCAAGGGCCGGGCGCTCTACGATCAACTGCTGAACGCGGCGCGGGACGCCCTGGGCGCGTTTCCCAACGAAGCCAATGCCGAACGCTACAACGCGCTGATGGCTGAACACTTCGCCGACTTCCCTGACACCCTCGACGAACTGCGCCGACAAGCACTCGCGTACTTTCGCTATTTCGTGACGCCAGCGGGGCTGGCCGCCAAGGGCGCGATTGAACGGTCGAGCTCGCTGGAGCACTTGCTCGAACAGCAATACCTGCGCGCCGAACCCTTGGTGTACGAAGATTTCCTTCCGGTCAGCGCCGCCGGCATCTTCCAGTCGAACCTGGGCGATGCCGCGCAGAATCACTACGCCGGACAGTCCAATCGGCACGCCTTCGAAACGGCGCTGGGGCGGCCGACCATCGATGAACTGGGGCTGTATGCCGAGACGCAGCAGCGCTCCGTCGATGAATGTCTGCATACGCTGGGGCTCTGA	MSFVSPDLIRQRFSRAMSDMYRDEVPLYGALMNLVEQTNARVLGNDPQLAEHLRNTGELQRLDLERHGAIRVGTAAELAMLGRLFAVMGMQPVGYYDLTPAGVPVHSTAFRAVHETALQVSPFRVFTSLLRLELIENAELRAFAESVLGKRQIFTSGALELIELAERQGGLTEPQAEEFVLQALETFRWHHSATVTAEQYRQLSAQHRLIADVVAFKGPHINHLTPRTLDIDIVQTQMPVHGITPKAVIEGPPRRQCPILLRQTSFKALDEPVAFTDQPESQGSHSARFGEIEQRGAALTPKGRALYDQLLNAARDALGAFPNEANAERYNALMAEHFADFPDTLDELRRQALAYFRYFVTPAGLAAKGAIERSSSLEHLLEQQYLRAEPLVYEDFLPVSAAGIFQSNLGDAAQNHYAGQSNRHAFETALGRPTIDELGLYAETQQRSVDECLHTLGL				NA	NA	NA	NA	NA
D1-35_02331	1221	lutA_2		Lactate utilization protein A	ATGCAGACCCGGTTCAGTGAAAAAAGCCAACGCCTGCCTCGCGCCGAAGAGGCCGAACGGATCCTGCGCAGTTGCGTGCATTGCGGCTTCTGCAACGCCACCTGCCCCACTTACCAGTTGCTCGGCGATGAACTGGACGGCCCGCGCGGACGCATCTACCTGATCAAGCAGGTGCTCGAAGGCCAGCCGCCAACCGCCAGCACCCAACTGCACCTGGATCGTTGCCTGTCGTGCCGCAACTGCGAAACCACTTGCCCGTCCGGCGTCGATTATCACAACCTGCTGGACATCGGCCGGGCCGTGGTCGACGCGGCCGTACCCCGCCCCGCCAGCCAACGGGCCCTGCGTCTCGGCTTGCGCGGCCTGGCCACGAGTCCCGAACGATTCAAGAGTCTGCTGCGCCTGGGAGCAGTGTTCCGCCCGCTGCTGCCGGCGAACCTGGAGGCCAAGTTGCCACGGTCGGCGGCGTCCGCCGGCACGCGCCCGGCCGTGCGGCACTCGCGCCGCGTGCTGATGCTCGAAGGCTGCGTGCAGCCGGGCCTGTCGCCGAACACCAACGCGGCCGCCGCCCGGGTGCTGGACCGGCTCGGCATCAGCGTCGTTGCCAGCCCTGAAGCCCGCTGTTGCGGCGCGCTGGATTATCATCTCGACGCTCAACCCACCGGGCTGGACCACGCCCGGCGCAACATCGATGCCTGGTGGCCGCACTTGCAGGACGGCGCCGAGGCGATCGTCCAGACCGCCAGCGGCTGCGGCGCGTTTATCAAGGACTACGGGCATCTGTTGGAACACGATCCCGCCTATGCCGCCAAGGCGAAACACGTCAGCGAACGCGCGCTGGACCTGGTGCAGGTACTCGGCAACGAACCGCTGGAAGCAATCTGCGCTGCCAGGGATCAACGCATCGCCGTCCATTGCCCCTGCACCTTGCAGCACGCGCAGAAACTCGGTGGCGCCGTCGAAGCCCTGCTCACAAGGCTGGGCTTCAACCTCACCGAGGTGCCCGACGGCCACCTGTGCTGCGGCTCGGCAGGGACCTATTCGCTGACCCAGCCGGCGCTGGCGCGACAATTGCGGGACAACCGTCTCAACGCGCTAGAAAGCGGCCGGCCGGAGCTGATCGTCACCGCCAATGTCGGCTGCCAGAGCCACCTCGACGGTGCTGGTCGCACGCCCGTGCGGCACTGGATCGAGCTGGTGGATCAGTCCCTGGCAGAATGA	MQTRFSEKSQRLPRAEEAERILRSCVHCGFCNATCPTYQLLGDELDGPRGRIYLIKQVLEGQPPTASTQLHLDRCLSCRNCETTCPSGVDYHNLLDIGRAVVDAAVPRPASQRALRLGLRGLATSPERFKSLLRLGAVFRPLLPANLEAKLPRSAASAGTRPAVRHSRRVLMLEGCVQPGLSPNTNAAAARVLDRLGISVVASPEARCCGALDYHLDAQPTGLDHARRNIDAWWPHLQDGAEAIVQTASGCGAFIKDYGHLLEHDPAYAAKAKHVSERALDLVQVLGNEPLEAICAARDQRIAVHCPCTLQHAQKLGGAVEALLTRLGFNLTEVPDGHLCCGSAGTYSLTQPALARQLRDNRLNALESGRPELIVTANVGCQSHLDGAGRTPVRHWIELVDQSLAE				NA	NA	NA	NA	NA
D1-35_02332	1059			hypothetical protein	ATGACCGCGCAAGTCGACCGCGACGCCAGCGAGCTGCTGCTGGAGCAGGTCAACCGCGCTCGCGCGAGCGATACGCCGCTGCGCATCCAGGGCTCCAACAGCAAGGCTTTCCTGGGACGCCAGGTGGCCGGCGAGGTGCTGGACACCCGTGCGCATCGCGGGATCGTTGACTACGACCCCACGGAGCTGGTCATCACCGCCCGCGCCGGCACCCCGCTGCGGGAACTGTTGGCCGCGCTGGACGCCGCCGGGCAGCGGCTGCCCTGCGAGCCGCCGGCGTTCGGCGCGGACGCCACGGTGGGCGGCATGGTCGCCGCCGGATTGTCGGGGCCGCGCCGTCCGTGGGCCGGCTCGGTGCGCGACTATGTGCTCGGCACGCGGATGATCAGCGGCCACGGCCACCTGTTGCGCTTTGGCGGCGAGGTGATGAAAAACGTCGCCGGCTACGACCTGTCGCGCCTGCTGGCCGGTAGTTTCGGTTGCCTGGGGGTGATCACCGAAGTGTCCTTGAAAGTGCTGCCCAAGCCCCGCCACGGCTTGAGCATCCGCCTGGAAATAGACAGCCGCGAAGCCCTGGAAAAACTCGCCGAATGGGGCCGACAACCCTTGCCCATCAGCGCCGCCAGCCACGACGGCGATTGTCTGCGCCTGCGCCTGGAAGGCGGCGAGGGTTCGGTCAGCGCGGCCCATCAGCGCCTGGGCGGCGAAGCCATCGACGATCAATACTGGACCGAGCTGAATGAACATCGCCTGCCATTCTTCGCTGAAGACCTGCCCCTGTGGCGCCTGTCGCTGCCCAACGCTACCGGCCCGCTCGACTTGCCCGGTGCGCAACTGATCGATTGGGCGGGCGCGCAGCGCTGGCTGAAAACCGACGCCGATACGGTCCAGGCACTGGCCCGGGAATGGGGCGGCCATGCCGTCTGCTATCGTCCTGGCGCAACCGCAACGCCGTTCCAACCGTTGGAACCGGCGCTGCTGCGCTACCACCGTCAACTCAAGGCGAAGCTTGATCCCCAGGGCCTGTTCAATCCTGGCCGAATGTACGCGGAGTTCTAG	MTAQVDRDASELLLEQVNRARASDTPLRIQGSNSKAFLGRQVAGEVLDTRAHRGIVDYDPTELVITARAGTPLRELLAALDAAGQRLPCEPPAFGADATVGGMVAAGLSGPRRPWAGSVRDYVLGTRMISGHGHLLRFGGEVMKNVAGYDLSRLLAGSFGCLGVITEVSLKVLPKPRHGLSIRLEIDSREALEKLAEWGRQPLPISAASHDGDCLRLRLEGGEGSVSAAHQRLGGEAIDDQYWTELNEHRLPFFAEDLPLWRLSLPNATGPLDLPGAQLIDWAGAQRWLKTDADTVQALAREWGGHAVCYRPGATATPFQPLEPALLRYHRQLKAKLDPQGLFNPGRMYAEF				NA	NA	NA	NA	NA
D1-35_02333	1500		COG0277	putative FAD-linked oxidoreductase	ATGAACATCCTCTACGACGAGCAGCTCGACGGCCCGCTGCCGAAAGTGCACAAGCAGGCCCTGCTCGACGCCATGCAGGCACGTATTCCGGACTTGGATATCCTGCACCGCGACGAAGACCTCAGGCCCTACGAATGCGATGGGCTGTCTGCCTACCGGACCACGCCCCTGCTGGTCGTGCTGCCGCGGCGGGTCGAGCAGGTGCAGGCCTTGCTCAAGCTGTGCCATGAACAGAATGTGCCGGTGGTGGCCAGGGGCGCCGGGACCGGCCTGTCCGGTGGCGCCCTGCCCCTGCAAAGCGGCGTGTTGCTGGTCATGGCGCGCTTCAACCAGATCCTGCACATCGACCCCGACGCCCGCACCGCGCGCCTGCAGCCAGGGGTGCGCAACCTGGCGATTTCCCAGGCGGCGGCGCCGTTCGGGTTGTACTACGCGCCGGACCCTTCCTCGCAGATCGCCTGCTCCATCGGCGGCAACGTCGCAGAGAACGCCGGCGGCGTGCATTGCCTGAAATACGGCCTGACGGTGCACAACCTGCTGAAGCTGGAAATCCTCACCATCGAAGGCGAACGCCTGGTGCTGGGCAGCGAGGCCCTGGACTCGCCAGGCCTGGACCTGCTGGCGTTGTTCACCGGCTCCGAAGGCCTGCTGGGGATCATCACCGAAGTCACCGTCAAGCTGTTGCCTCGCCCCCAGGTCGCCAAGGTCTTGCTGGCCAGCTTTGACTCGGTGGACAAGGCCGGACGGGCGGTGGCCGAGATCATCGCAGCCGGGATCATCCCCGGCGGCCTGGAAATGATGGACAATCTGGCGATCCGCGCCGCCGAGGATTTCATCCACGCCGGCTACCCGGTCGACGCCGAAGCGATCCTGCTGTGCGAGCTCGATGGCGTCGAGGCCGATGTCCACGATGACTGCGAACGGGTCCGCCAGGTGCTGCAACGGGCCGGCGCCACCGAGGTGCGCCTGGCCCGGGACGAGGCCGAACGCCTGCGGTTCTGGGCCGGACGCAAGAATGCGTTTCCGGCGGTAGGCCGCCTGGCGCCGGACTATTACTGCATGGACGGGACCATCCCCCGGCGGGCATTGCCCGAGGTCTTGCAGCGCATCGCCAGCCTGGGCAGCGAACACGGCCTGCGGGTCGCCAACGTGTTCCATGCCGGCGACGGCAACATGCACCCGCTGATCCTGTTCGACGCCAACCAGCCGGGCGAGCTGGAGCGCGCCGAAACCCTGGGTGGGAAGATCCTCGAACTGTGCGTCCAGGTGGGCGGCAGCATCACCGGTGAACACGGCGTCGGCCGGGAGAAAATCAACCAGATGTGCACGCAGTTCAACAGCGACGAGCTGTTGCTGTTCCACGCGGTGAAAGCCGCGTTCGATCCGCTTGGCCTGCTCAACCCCGGCAAGAACATACCGACCCTGAACCGCTGCGCTGAATTCGGCGCGATGCATATCCATGGCGGGCAATTGCCGTTTCCTGAACTGGAGCGATTCTGA	MNILYDEQLDGPLPKVHKQALLDAMQARIPDLDILHRDEDLRPYECDGLSAYRTTPLLVVLPRRVEQVQALLKLCHEQNVPVVARGAGTGLSGGALPLQSGVLLVMARFNQILHIDPDARTARLQPGVRNLAISQAAAPFGLYYAPDPSSQIACSIGGNVAENAGGVHCLKYGLTVHNLLKLEILTIEGERLVLGSEALDSPGLDLLALFTGSEGLLGIITEVTVKLLPRPQVAKVLLASFDSVDKAGRAVAEIIAAGIIPGGLEMMDNLAIRAAEDFIHAGYPVDAEAILLCELDGVEADVHDDCERVRQVLQRAGATEVRLARDEAERLRFWAGRKNAFPAVGRLAPDYYCMDGTIPRRALPEVLQRIASLGSEHGLRVANVFHAGDGNMHPLILFDANQPGELERAETLGGKILELCVQVGGSITGEHGVGREKINQMCTQFNSDELLLFHAVKAAFDPLGLLNPGKNIPTLNRCAEFGAMHIHGGQLPFPELERF	PGPT0001890_13	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001890-dld-K00102	NA	NA
D1-35_02334	930	lip1		Lipase 1	ATGCTGGTGTTGTGGGTGGTCCTTGCGGTGTTCATCGCCTGGAGCTGGTTGACGTATCCGGGCATCGGCCATGTGCTGTATGACCTGGGCATGGCGCTGGAGGCGCGTCTCTACCGGCTGCACAAAATTACCGTGCCGATCAGCGAAATGACGGTGTCGACCTGGCAGGGCGGGCCCTATGAAGCGTCCGGCAGCGTGCTGATGCTGCATGGCTACAGCGCCGACAAGAACCTCTGGTTGCGCTTCGCCCGGTATTTCGTCGGCGATTACCGGGTGGTGATTCCCGACCTGGCCGGCCATGGCGAAACCGGCTTCAAGGCCGGCGGCGGTTATGACATCCCGACCCAGGCGCGGCGAGTGATCGAATTGCTCGATGCCTGTGGCCTGGACAAGGTCCATGTGATCGGCAACTCCATGGGTGGTTACCTCGCAGCCTGGCTGGCGGCGACGTCGCCTGAGCGGGTGTTGACCCTGGCGCTGATCGATCCGGCCGGTGTCACCGCCCCCGAACCCAGCGACATGGAACGCCACTTGGCCGCCGGTCACAACCCGTTCCTGGTTGATTCTCGAGACGATTTCGCGCCGTTCTACGCCATGACCATGGCCTCGCCGCCCTGGCTGCCCAGTGTAGTGCTGGCGGCGCTGGCCGAGCGTTATGAACAGCGCCGGGAGGAATTGGCGGAGATCTTCGTCGATTTACGCGCCAGCCCACCAATGGAACCGCGCCTGGCCGACATCCGCGCGCCTTCGTTGCTACTCTGGGGGCGCAAGGACCGGTTGATCGACGTCAGCAGCGTACCGGTATGGAGCAAGGGCATCACCGACCTCAGGGTGGAAATCTGGGACGGGGTCGGGCATATGCCGATGGTTGAAAAACCGGGCAAGACTGCGGCGTTGTACCGGGATTTTCTGAAGGGGTTGGGGCAGTGA	MLVLWVVLAVFIAWSWLTYPGIGHVLYDLGMALEARLYRLHKITVPISEMTVSTWQGGPYEASGSVLMLHGYSADKNLWLRFARYFVGDYRVVIPDLAGHGETGFKAGGGYDIPTQARRVIELLDACGLDKVHVIGNSMGGYLAAWLAATSPERVLTLALIDPAGVTAPEPSDMERHLAAGHNPFLVDSRDDFAPFYAMTMASPPWLPSVVLAALAERYEQRREELAEIFVDLRASPPMEPRLADIRAPSLLLWGRKDRLIDVSSVPVWSKGITDLRVEIWDGVGHMPMVEKPGKTAALYRDFLKGLGQ				NA	NA	NA	NA	NA
D1-35_02335	1080	dgcC		putative diguanylate cyclase DgcC	ATGCATAAAACGGGAAAAAAGGGATTGTCGCTGGCCAGGAGGCTCTACACATCCCGAATCCTCGGCCTTGCGCTGGGGTTGCTGGTGGTGAGCGCCGCGCTCTATCCCCTCGATCCGGCGCCCTGGGTCTGGGGCTTCATGCTGTTCAACGGGTTGCTCTGGCCGCACGTGTCCTACCAATGGGCCCGTCGTTCGACGGTGCCGTACCATGCCGAGCACCGCAACCTGGTGATCGACGCCTTCCTCGGTGGCTTCTGGGTCGCCGCGATGCAATTCAACCCGCTGCCCACCGCCGTGACGCTGGCGATGATGGCAATGAACAACGTGGCCATCGGCGGCCTGCGTTTCCTGTTGGTCGGGGCTGTGGCCCAGGTTGCCGGTATCACCGTCGGGATATTCATGTTCCCCTTTGCCAGCGTGCCCATGACCAGCCCGGCGCAGCTATACGCCTGCTTGCCGTTGCTGTGCCTGTACCCGCTGGCGCTGGGCTGGATCTGCTTTCGCCAGGCGCACACCCTGGGCCGACAGAAACGCGAATTGCTGGCCCTGAGCCGTACCGACAGCCTGACCGGCCTGCTCAACCATGGCGCCTGGAAGGACCGGCTCAACGAGGCATTCCAGCACTGCCGACGGCAGTCACCGGACGGGGCAGGGCATGGCGTGATCGCGCTGATCGATATCGACCACTTCAAAGCCATCAATGACACCTACGGCCATGGCGCCGGTGATGTCGTGCTGCGTCAGCTCGGCAAGCTGCTGGGGCAGAACCTGCGGGCCACGGACATCGTCGGGCGCTATGGCGGCGACGAGTTCGGGGTGATCCTGCCGGACCTGACGCTGCTCAGCGCGGTGCAGGCGATGGAGGGGCTACGCGAACGCTTCACCGCGCAGGACTATGAACGTGACCCGGCGCTGAAAGTGAGCCTGAGCATCGGCCTGGCGGCCTTCACGTCGGATTATGCCGATGCGACCGCCTGGCTCGACGACGCCGACCAGGTGCTCTATGAAGCCAAGACCAGCGGACGCAACCGGGTTGTCTGTCAGCGACACCGGCCGGTGCTGGAGGCGTCTGCGGTCTAG	MHKTGKKGLSLARRLYTSRILGLALGLLVVSAALYPLDPAPWVWGFMLFNGLLWPHVSYQWARRSTVPYHAEHRNLVIDAFLGGFWVAAMQFNPLPTAVTLAMMAMNNVAIGGLRFLLVGAVAQVAGITVGIFMFPFASVPMTSPAQLYACLPLLCLYPLALGWICFRQAHTLGRQKRELLALSRTDSLTGLLNHGAWKDRLNEAFQHCRRQSPDGAGHGVIALIDIDHFKAINDTYGHGAGDVVLRQLGKLLGQNLRATDIVGRYGGDEFGVILPDLTLLSAVQAMEGLRERFTAQDYERDPALKVSLSIGLAAFTSDYADATAWLDDADQVLYEAKTSGRNRVVCQRHRPVLEASAV	PGPT0026210_180	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0026210-adrA-K18968	NA	NA
D1-35_02336	1239	cpg2_1		Carboxypeptidase G2	ATGACCGTTATCGTTCGTCGCTCCCGTCTCGCCGTCAGCCTCGGCCTGAGCCTGGCCCTCGGCGCCTTTGCCCCTGCCGCTCTGGCGCAACCTCATCAACAGGTGCTGGCCGATGCCGAGCAGTACAAGGGCGAGGCGCTGAAATTGCTTGAACGCCTGGTGAACATCGACTCCGGTTCCGGCTATGTGCCGGGGCTGACCCAGGTCGGCGATATCGCGATCGACGAGTTGCAGAAGCTCGGCGCCAGCATTGAAAAAGTGCCCAATTCGGACGGCACCCACCATGTCCTGGCGACGTTCAAGGGCACCGGCAAGGCGAAAATCCTGCTGATGGCCCATATGGACACGGTGTTCAAGGAAGGCTCGGCGGCCGAACGTCCCTTCCGTATCAAGGATGGCCGCGCCTACGGGCCGGGGGTGATGGATGACAAGGGCGGCATCGTCGCGGGCATCTATGCGCTGAAGGTGCTGAAGAACCTGGATTTCAAGAATTACGCGCAGATCACGTTCCTGCTCGATGCCAGCGAAGAGACTGGTTCGGACGTCGCCACCGACCTGATCAAGAAAACCGCCAAGGCCCATGACGTGACCCTCAACCTTGAACCGGGGCGCCCGGCCGACGGCCTGGTGGTGTGGCGCAAGGGCAGCGCAACCGCGCTGGTGGAGGTCAGGGGCAAGGCGGCCCACGCCGGCGTCGCACCGGAACTGGGGCGTAACGCGGCAATGGAAGCGGCGCATCAGATACTGCAACTGGGCAAGCTGGGCGACGCGGAAAAGAAGACCACCATCAACTTCACCGTGCTCAAGGCCGGTGACCGGACCAACGTGATCCCCGACCAGGCCACGGCCAAGGCCGACGTGCGCGCAGCGGTGCCGGAAGAATTCGACCGCATCGAAAAAGACCTGGCCCGGGTCTCGAAAGACAAGCTGATCGCCGACACCGAAGTCACCACCAGCCTGCAGCGCGGCTTGCCGCCCATGCCACAGACCGCCGAGTCGGACCGGCTGATGGCCATGGCCCAGGGTATCTATGGCGAGCTGGGCCGCAAACTGACCGAGGAAGGCAGCGGCGGGGCGGCGGACGCGAGCCTGTCCGCCGGCGTTGGTACACCGACGCTGGACGGCTTCGGCATCGTCGGCGGCAATATCCATACGCCCGAGGAATATGCCGAGGTCGAAAGCGTGGTGCCGAGGATTTATCTGCTGACGCGAATGATCATGGAGTTGGCGGCACGGTAG	MTVIVRRSRLAVSLGLSLALGAFAPAALAQPHQQVLADAEQYKGEALKLLERLVNIDSGSGYVPGLTQVGDIAIDELQKLGASIEKVPNSDGTHHVLATFKGTGKAKILLMAHMDTVFKEGSAAERPFRIKDGRAYGPGVMDDKGGIVAGIYALKVLKNLDFKNYAQITFLLDASEETGSDVATDLIKKTAKAHDVTLNLEPGRPADGLVVWRKGSATALVEVRGKAAHAGVAPELGRNAAMEAAHQILQLGKLGDAEKKTTINFTVLKAGDRTNVIPDQATAKADVRAAVPEEFDRIEKDLARVSKDKLIADTEVTTSLQRGLPPMPQTAESDRLMAMAQGIYGELGRKLTEEGSGGAADASLSAGVGTPTLDGFGIVGGNIHTPEEYAEVESVVPRIYLLTRMIMELAAR				NA	NA	NA	NA	NA
D1-35_02337	279			hypothetical protein	ATGTTCAAACCAACACCCAACCCACCGGACACCGATCCAGCCACCGCCGCTCCAAGAGAAACCGATCCCGGCCAACTCTTCACCGTCATCAACGGCATCGACACCGAATCCCTGCTCGCCAACCTCAGCGAAACCCTCGCCTCGGCCAACGCCATGGTCGGTTACCTGGCCTTCGACCTGGAAGACTCACGACGCCATATTGCCTTGGGCATCCAGCAACTGATCGAACTGGGCGCACTCCTGGCAAACCGCGCGCTGGACAACGTCGACCCGCGTTAG	MFKPTPNPPDTDPATAAPRETDPGQLFTVINGIDTESLLANLSETLASANAMVGYLAFDLEDSRRHIALGIQQLIELGALLANRALDNVDPR				NA	NA	NA	NA	NA
D1-35_02339	279			hypothetical protein	ATGTTCAAACCAACACCCAACCCACCGGACACCGATCCAGCCACCGCCGCTCCAAGAGAAACCGATCCCGGCCAACTCTTCACCGTCATCAACGGCATCGACACCGAATCCCTGCTCGCCAACCTCAGCGAAACCCTCGCCTCGGCCAACGCCATGGTCGGTTACCTGGCCTTCGACCTGGAAGACTCACGACGCCATATTGCCTTGGGCATCCAGCAACTGATCGAACTGGGCGCACTCCTGGCAAACCGCGCGCTGGACAACGTCGACCCGCGTTAG	MFKPTPNPPDTDPATAAPRETDPGQLFTVINGIDTESLLANLSETLASANAMVGYLAFDLEDSRRHIALGIQQLIELGALLANRALDNVDPR				NA	NA	NA	NA	NA
D1-35_02341	1335			hypothetical protein	ATGCGGCTGTGCGTTGTGTTTTTCATGAGCTTCTGGCTGCCGCTCATGGCATGGGCCGGCGCCTTGCCCGTTCCCGAACACGGCCCGGCCCTGCGCATCCAGGGCTCCAACACCATCGGCGCGGCACTGGGGCCGGCCCTGGTCAAGGGCCTGATGCAAGGCCAGGGGCTGCTCAGGGTCAGCAGCGAAATAACCGGCCGGGACAATGAGCAACGGATCGTTGGCTGGACCGCCGAAGGCAAGCGCGTCCAGATCGACATCGCGGCCCACGGTTCCAGCACCGGATTCGCCGCTCTCAAGCAAGCCAGCGCTGACCTGGCAGCCTCGTCCCGTCCGATCAAGGACGGTGAACTGAAGGACCTGTCGGCCCTCGGCGACTTGAAAAGCCCGATGGCCGAGCAGGTCATCGCCATCGACGGCCTGGCGATTATTCTGCATCCGCAAAACCCGTTGCGTCAGCTCGACACCTCGCAACTGGCGCGCATTTTCAGCGGTGAGGCAAAGACCTGGGAAGCGGTGGGCAGCGTCGGCGGGGCCATCCATTTATACGCGCGGGACGAACAGTCCGGCACCTACGATACCTTCAAGGAACTGGTACTCAACCGACAAGGAAAAAAGCTCGATCCTGCGGCCCAGCGCTTCGAATCCAGTGAGCAATTGTCCGATGCGGTCAGCCAGGATCCGCAAGGCATCGGCTTCATCGGCTTGCCCTACGTACGTCAGGCCAAACCCCTGGCGATCGTCGACGGCGCCTCGCAGCCCATGTTGCCGCTGAACAACCTGATCGCCACCGAGGATTATCCCCTGTCCCGACGCTTGTTCTTCTACTTGCCGCCAGCGCAAACCAACCCGTGGGCCGAAGCCCTGGTCGACTTCAGCCAAAGTGAACAAGGCCAGGCCATCGTCGCGGCCAACGGATTCATCGCCCAGACCATCCAGGCCATGTCCGTCACCCCCAACGCGCTGATGCCGGAGGGTTACCAGGCCTTGAGCCGCCATGCCCAGCGCCTGACCGTGAATTTCCGCTTCGAGGAAGGCAGCGCCAGCCTGGACAACAAGGCCCACCAAGACCTCGGCCGGGTACTCGACTATATAAGGCAACACGGAAAACTCGACCGGCGCGTGACCCTGGTGGGTTTTGGCGACCTCAAGGACGACCCGGCGCGAGCCGACCTGCTGTCCAAACTGCGCGCCATGGCGGTGCGGCGGGAATTGGTCAAATACGGCGTGACGTTGCGCGAGGTCCGCGGGTTCGGCGCGCTGATGCCGGTGGCGGCCAACAATGAAGACGAAGGCCGGGTGCGCAATCGGCGGGTGGAGGTTTGGGTTTACTGA	MRLCVVFFMSFWLPLMAWAGALPVPEHGPALRIQGSNTIGAALGPALVKGLMQGQGLLRVSSEITGRDNEQRIVGWTAEGKRVQIDIAAHGSSTGFAALKQASADLAASSRPIKDGELKDLSALGDLKSPMAEQVIAIDGLAIILHPQNPLRQLDTSQLARIFSGEAKTWEAVGSVGGAIHLYARDEQSGTYDTFKELVLNRQGKKLDPAAQRFESSEQLSDAVSQDPQGIGFIGLPYVRQAKPLAIVDGASQPMLPLNNLIATEDYPLSRRLFFYLPPAQTNPWAEALVDFSQSEQGQAIVAANGFIAQTIQAMSVTPNALMPEGYQALSRHAQRLTVNFRFEEGSASLDNKAHQDLGRVLDYIRQHGKLDRRVTLVGFGDLKDDPARADLLSKLRAMAVRRELVKYGVTLREVRGFGALMPVAANNEDEGRVRNRRVEVWVY	PGPT0002625_445	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
D1-35_02342	813	xthA_2	COG0708	Exodeoxyribonuclease III	ATGAAGATCGTCTCCTTCAACATCAACGGGCTGCGCGCCCGTCCCCATCAGTTGGCGGCACTGATCGACAAGCACCAGCCTGACGTCATCGGGTTGCAGGAAACCAAGGTTCACGACGAACAATTTCCCCTGGCCGAGGTGCAAGCCTTGGGTTATCACGTGCATTACCACGGGCAGAAAGGCCATTACGGCGTCGCCCTGCTCTCGCGCCAGGCGCCGCTGACCCTGCACAAAGGTTTCGAGACTGACGACGAAGACGCCCAGCGGCGTTTCATCTGGGGCACCTTCGCCGATGCCAATGGCGTGCCGGTGACCATCATGAACGGTTATTTCCCCCAAGGTGAAAGTCGCGACCATCCGACCAAGTTCCCGGCCAAGCAGCGCTTCTACAGCGATTTGCAGCAACTGCTGGAAACCCGCTTCAGCAACGACCAGCCGGTGGTGGTGATGGGCGATGTGAACATTTCCCCGGAAGACTGCGACATCGGTATCGGCCCGGACAACATGAAGCGCTGGCTGAAGACCGGCAAATGCAGCTTCCTGCCGGAAGAACGCGAATGGATGGCGCGCCTGAAGAATTGGGGTCTGGTGGACAGCTTCCGTCACCTGAACCCGGACGTCAGTGACCGCTTCAGCTGGTTCGACTACCGCAGCCGCGGTTTCGAGGACGAGCCCAAGCGCGGCCTGCGCATCGATTTGATCCTCGCGTCCCAAGGCCTGCTGCCACGGGTCAAGGACGCCGGCGTGGATTATGAATTGCGCGGCATGGAAAAACCCTCGGACCACGCGCCGATCTGGCTGGAACTGAGCTGA	MKIVSFNINGLRARPHQLAALIDKHQPDVIGLQETKVHDEQFPLAEVQALGYHVHYHGQKGHYGVALLSRQAPLTLHKGFETDDEDAQRRFIWGTFADANGVPVTIMNGYFPQGESRDHPTKFPAKQRFYSDLQQLLETRFSNDQPVVVMGDVNISPEDCDIGIGPDNMKRWLKTGKCSFLPEEREWMARLKNWGLVDSFRHLNPDVSDRFSWFDYRSRGFEDEPKRGLRIDLILASQGLLPRVKDAGVDYELRGMEKPSDHAPIWLELS				NA	NA	NA	NA	NA
D1-35_02343	645			hypothetical protein	ATGCCTGACGCCATTACCGCTGATATCCACATGCTCGACAGCGGCTATTCCCGCGAAGCGCGTTCATTGCTGTACCAGGCCTACCGCCATGAGCCGACCTTCAGCTACCTGTTCGAATCCGAGCGTCCCGGTTACGAACAGCGGGTGCGGGCGACGGTGCGTGAACTGGTCAAGCAGCATTTCTTCCAGGACCTGCCAGCGATCGGCCTGTTGGTCAACGACCGCCTGATCGGCATCGCCCTGATTGCCCCGCCGCAGCGGCGCCTGGGCATTACCGAAAGCTGGGCCTGGCGCCTGCGCATGGTCTTGAGCACGGGGTTTCGCTGCACCCGGCGTTATCTGGAATATCACGCCGCGGTGCTGGCCTGCCTGCCATCGGACGCGGTCCATGTGCTGCCACTGCTGGGGGTTCATCCGCAGTTCCAGGGCCAGCATTACGGCGAGCAGTTGCTTGAGGCAGTCCATAACTGGTGTGCGGTGGACGAGCATTCCCAAGGCGTCGTGCTCGATACCGGCAACCCGCGCTACCTGGAATTTTATAAACGCCAGGGCTATGAGGAAATCGGCGAAATCGCGGTAGGACCGGTCCGCGAGCATGTGTTCTTTCACGCCAACCCGCAGGTTTTACACAGCGCGACGGCATAA	MPDAITADIHMLDSGYSREARSLLYQAYRHEPTFSYLFESERPGYEQRVRATVRELVKQHFFQDLPAIGLLVNDRLIGIALIAPPQRRLGITESWAWRLRMVLSTGFRCTRRYLEYHAAVLACLPSDAVHVLPLLGVHPQFQGQHYGEQLLEAVHNWCAVDEHSQGVVLDTGNPRYLEFYKRQGYEEIGEIAVGPVREHVFFHANPQVLHSATA				NA	NA	NA	NA	NA
D1-35_02344	1728	tamA	COG0729	Translocation and assembly module subunit TamA	ATGAATTTCCCAGGACGAATGACCAGTGGCGCGCTCTTGCTGTCCCTCAGCTGCGCCGCGCTGGCACAAAGTGTATTGGATGTACGGGTCAAACCGTCCAATGACGAGCTCAAGGCCAATGTAGAGGGCTATATCGGTGGCCTCGGTGAGCGTGACGAAGAGGCACTGCTGCGTTTCAGTCGCGGCGCCGAGGAGCAGGCGCGCAAGGCGGCCCAGGCGCTCGGCTATTACCAGCCGCAGATCGACAGCGAGGTCAAGGCTGGCAAGGACCCGCGCCTGACCCTGACCATCGACCCCGGCGAGCCGGTGCACCTGCGCAATGTCACGATCCGCATCGACGGCCCGGCGGCCTCGCTGAAGAGTTTCCGGGTGCCGGACAACGCCGGTCTCAAACCGGGTGCGGTGCTCAATCACGGACGCTATGAAGATGCCAAGCGGACGATCCAGAACCAGGCCTCGCGTTATGGTTTTTTCAGCGGAAAGTTTCTCAGCCAGACGTTGCGCGTTGATCCCAAGGCTGGCGTTGCCGATGTCGAGCTGATCTACGACAGCGGCCCGCGTTACGCCCTGGGCCCGGTCAGTTTCGAGGGCGATACGCCGTTCGACGAGGACCTGCTGCAGCGCATGGTGCCGTTCAAGGCGGGCGCGCCCTACGATTCCGAATTGATTGCCGAACTCAACCAGGCCTTGCAGTCGAGCGGTTATTTCGAAGGCGTGCGCGTTGATGCGGCGCCCACCGCGGCCACCGAGAATGTGATCCCGGTGGCGGTCAAGCTCGACACCCGCAAGCCGCGCACCATGGGCCTGGGCCTGGGGTTTTCCACTGACGTCGGCCCGCGCGCCAAGGCCAACTGGACGCGTCACTGGGTCAATCCCCAAGGCCACAGCTATGGCTGGGAAGCGGAAATATCGGCGCCCCGGCAAAACGTCGGCCTCTGGTACGACGTGCCGCTCGACCCCCCGCTGACCGACAAGCTGCGCTACGCCGGCGGCTATCAATATGAAGAACTGTCCGGCACCGACACCCTCAGCAAACTGCTGACCGTGGGCCCCGAGTGGCACAGCAAGCTGCCCAGCGGCTGGCAGCGGGTGGTGTCGCTCAAATGGCAGCGCGAAGAATACCGCCTCGGCGACGATTCGGGCCTGAGCACCTTGCTGATGCCCGGCGTCAGCTATTCGTACCTGCGCAGCGACAACCGCATCGACCCGCACAACGGCTATCGCCTGCAATTCGACACCAAGGTCGCCAAGGAAGGACTCGGCTCGGACAACAACCTCTTGTATGGCACGGCCATGGTCAAGGGCCTGACCACGGTATTCGACAAGCATCGCCTGTTGGCCCGGGCCCAGGTGGGCGGCAGCGCCACCAACGGCTACAAGTCGATTCCGCCGTCCCTGCGCTTTTTCGCCGGTGGCGACCAGAGCGTGCGTGGCTACGACTACCAGAGCCTGTCGCCGGAGAACTCCGAGGGCGATCGCATCGGCGGCCGCTACATGGTGGCCGCCAGCGTCGAGTATCAATATTCGGTCGCGGAGAAATGGCGCGTGGCGACCTTCGTCGACCAGGGCAACTCCTTCAACAGCCTTGAACTGCCAAGCCTCAAGACCGGGGTCGGCGTCGGCGTGCGCTGGGTCTCGCCGGTCGGCCCGATCCGTCTCGACCTGGCTCATGCGATGGACGATGACGGCGGCATTCGACTGCACTTTTCCATGGGGCCCGAGTTGTGA	MNFPGRMTSGALLLSLSCAALAQSVLDVRVKPSNDELKANVEGYIGGLGERDEEALLRFSRGAEEQARKAAQALGYYQPQIDSEVKAGKDPRLTLTIDPGEPVHLRNVTIRIDGPAASLKSFRVPDNAGLKPGAVLNHGRYEDAKRTIQNQASRYGFFSGKFLSQTLRVDPKAGVADVELIYDSGPRYALGPVSFEGDTPFDEDLLQRMVPFKAGAPYDSELIAELNQALQSSGYFEGVRVDAAPTAATENVIPVAVKLDTRKPRTMGLGLGFSTDVGPRAKANWTRHWVNPQGHSYGWEAEISAPRQNVGLWYDVPLDPPLTDKLRYAGGYQYEELSGTDTLSKLLTVGPEWHSKLPSGWQRVVSLKWQREEYRLGDDSGLSTLLMPGVSYSYLRSDNRIDPHNGYRLQFDTKVAKEGLGSDNNLLYGTAMVKGLTTVFDKHRLLARAQVGGSATNGYKSIPPSLRFFAGGDQSVRGYDYQSLSPENSEGDRIGGRYMVAASVEYQYSVAEKWRVATFVDQGNSFNSLELPSLKTGVGVGVRWVSPVGPIRLDLAHAMDDDGGIRLHFSMGPEL				NA	NA	NA	NA	NA
D1-35_02345	3675	tamB	COG2911	Translocation and assembly module subunit TamB	GTGAATCGCGGTTTGAAATTAGTGCTCCTGGCGCTCGCCGGGTTACTGCTGACGGTCGTCCTGGCCTTGAGCATTGTGTTGGGCACCGCCTTTGGCAGCCGTTGGGCTCTCGGCCTGGTACCGGGCCTGAGCGTGGAGAATTTCCAGGGGCGGCTGGGCGGGCGGTGGAGCGCCGATCGGGTGCTGTGGCAGCAAGATACCCGCCGGGTGGCGCTGGAGCGGCCGAACTTCGCCTGGTCGCCGTCGTGCCTGCTGCGCATGACCCTGTGCATCGAACAGCTCAAGGCCGACGCCATCGCCGTGCAGTTGCCAGCCACCGCCGATGAACCGAGCAGCGGCCCGATCAGCCTGCCGGACCTGGACTTGCCGTTGGCGATCGAACTGGGCGATGTCCAGGTGGGCAGCCTGTTGTTCAACGGCAGTGAGCAGCTCAAGGGGCTGCAACTGGTGGCGCACTGGACCGCCGAGGGTTTGCAGATCGACTCGGTGCAGTTGCAACGCGACGAACTGAGCCTGAAGTTATCCGGCCTGCTGCAACCGCACGGCGACTGGCCGCTGGACGCGACGGGCCAGTTGACCCTCCCAGCGCCGGGCGCGACGCCTTGGGCACTGGAGCTGAAAGTCGCTGGCGACCTGCTCAAGACCCTCAACCTCACGGCCGACAGCAGTGGTTATCTGCAAGGCCGCCTGACGGGCGAACTGCAACCGCTGGTGGATAACCTGCCGGCCAAGGTGCGCATCACCGCCGACGGTTTCAAGGCCAGCGCCGATCTGCCGGACACGCTGCTGCTCAACCAACTGGAGCTGACCGGCGAAGGCGACCTGAAGAACGGTTATCAACTGCTCGGCAAGGCGACACTGCCCGCCGAAAAGGGGCCGGTGGCGTTGCTGCTGCAAGGCCATGTGGACGCCAATGGCGCGCAAGTCGCCGGGCTGGATCTCGACGCCGGCAACCAGCAGACCCTCAAGCTCACCGGGCAGTTGGATTGGCGCGAAGGGCTGAACGCCGAAGCAAAAGTCGCCTGGCTGGATTTCCCCTGGCATCGCCTTTATCCGCTGATCGACGAGCCGCAAGTCACGCTGCGCAGTTTTAATGGCGAAGTCTCGTACACCGACGGCCAGTACCTGGGCAATTTCCAGGCGGCGCTGGACGGTCCCGCCGGGGCGTTCAGCCTGGGCAGTCCGTTCAGCGGCAACCTGACGCAAATCCACTTGCCGGAACTCAAGCTTGCCGCCGGACAGGGCAAGGCCGAAGGGCACCTGGACCTGCAATTTGCCGACGGCATCGCCTGGGACACCGCGCTGCAACTGTCGTCGGTCAATCCGGCGTACTGGCTCGCCGAACTGCCCGGCACGCTGGCCGGGCCGTTGCGCAGTAAAGGCTCGATGAAAAACCAGCGCATGGAACTCGACGCGGACGTGGACCTCAAGGGCAAGCTGCGCGGCCAGCCGGCACTGTTCCAGGCCAAGGCTAGCGGCGCTGGCGAACAATGGAACCTCGGCGCTCTGGATATCCGCCTCGGCGATAATCGCATCAACGGTACGGGCAGCCTGCAACAGCAGCTGACCGGCCAGATCGACATCAAGCTCGCGCGCCTGGCCCAGCTCTGGCCGCAGTTGCGTGGTCAGGTCAGCGGGCGTGTCGACGTGGCCGGCACGCTCAAGGCCCCCCAGGGCAAGCTCGACTTGCAAGGGACGCAACTGGCGTTTCAGGACAATCATCTGCAAAGCCTGAACCTGGACGCGACGCTCGACGGCGCGCAACGGGGCAAAGTCGATCTCAAGGCCAGCGGTATCCGCAGCGGCGAAACTTCCCTTGGCGTCCTGACGTTGAGCGGGCAGGGCGATATCAAGCAACAGCAACTGAAGGTCGACCTGCAAGGGCCCCAGTTGAAAACCAGCCTGGCCCTTGATGGCACGCTGGATCAGGGCAGCTGGCGTGGACGCCTGGCCAGTGGCGACCTGCGGGTCGGCGGTCAGGACTGGCGCCTGCAAGCGCCGGCGAAGCTGGAACGGCTGGCCAACGGTACGCTGAACTTCGGTGCCCACTGCTGGCGCTCCGGCCAGGCCAGCCTGTGCGGCGAAGACCAACGGCTGATGCCGGAGCCGAAGCTGCGCTATCACCTCAAGCAATTCCCCATCGAAAGCCTGGCCCAGTGGATGCCCAGGGATTTTGCCTGGCAAGGCCGGCTCAACGCCGACCTGCAACTGGACCTGCCGGCCAGCGGCCCGAATGGCCGGGTGCTGGTGGATGCCAGCGGCGGCACGTTGCGGATTCGGGATAAAGAACAGTGGCTGGACTTCCCCTACCAGACCCTGACGCTCGACAGCCGCCTGACACCCACGCGCATCGATACCGATCTGAATTTCGTCGGCGCCAGGCTCGGCGAACTGAGGGTCCAGGCGCGGATCAATCCGTTGCCAGCGAGCAAGCCGCTGAGCGGTTCGTTCCGCCTGAACGGCCTGGACCTGTCCGTCGCCCGTCCGTTCGTGCCGATGGTGGAAACCCTCACGGGTCACTTGAACGGCAGTGGCACGCTGTCCGGCGGGCTGCTCGCGCCCCAGGTCAACGGCAACCTGGTGCTCAGCGATGGCGAAGTGTCCGGCCCGGAACTGCCGGTCAGCCTCGAAGCCTTCCAACTGCGGGCGATGATCGCCGGTGAAACGGTGCGTCTGGATGGCGATTGGAAGAGTGGCAAGAGCGGGCAGGGCCGCCTGACCGGGAACATCGGCTGGGGCGAGGCGCTGACCATGGACCTGGCACTCAAGGGCTCGCAACTGCCGGTGACCGTCGAGCCCTACGCGGTGCTGGACGTGGCGCCGGACTTGAAAATCACGCTGCAGGGCGAGCGGCTGGCGATTGCCGGCAAGGTCCTGGTGCCGAAGGGCGAGATCACCATTCGCGAATTGCCGCCGTCAACCGTCAAGGTTTCGGACGACACGGTGATCGTCGGCCACCAGACCGAAGAGGGCAAGGCACCGATGGCCATGGCAATGGACATCGACGTGCTCGTCGGCCAGGAGAAGCTTGCCTTTTCGGGATTCGGGCTCACCGCCAACGTCCAGGGGCAGGTGCACATTGGCGATAACATGGACACTCGCGGCGAACTCTGGCTCAACGACGGCCGCTATCGGGCCTATGGGCAGCGGTTGACGGTGCGCCGGGCGCGCTTGTTGTTCGCCGGGCCTATCGATCAGCCGTACCTGGACATCGAAGCGATCCGCCAGACCGACGATGTGATTGCCGGCATCCGCTTGAGCGGCAGCGCCGAGCAACCCACCACGCAAATCTTCTCGGAGCCGGCCATGAGCCAGGAGCAGGCATTGTCCTACCTGGTGCTGGGCCGGCCGCTGAGTACCACCGGCGAAGACAACAACATGCTCGCCCAGGCTGCACTGGGCCTGGGCTTGATGGGCAGTTCCGGCGTGACCACCAGCCTGGCCAACAATCTGGGAATCGAGGATTTCCAACTCGACACCCAGGGCAGCGGCAACGAAACCAGCGTGGTCGCCAGCGGCAACCTGTCGGAAAAACTCAGCCTGCGCTACGGCGTCGGAGTGTTCGAACCGGCCAATACCATTGCCCTGCGCTACAAGCTGAGCAAGAAGGTCTACCTCGAAGCCGCCAGCGGCGTCGCCAGCTCGCTGGATATCTTCTACAAGCGCGATTTCTGA	MNRGLKLVLLALAGLLLTVVLALSIVLGTAFGSRWALGLVPGLSVENFQGRLGGRWSADRVLWQQDTRRVALERPNFAWSPSCLLRMTLCIEQLKADAIAVQLPATADEPSSGPISLPDLDLPLAIELGDVQVGSLLFNGSEQLKGLQLVAHWTAEGLQIDSVQLQRDELSLKLSGLLQPHGDWPLDATGQLTLPAPGATPWALELKVAGDLLKTLNLTADSSGYLQGRLTGELQPLVDNLPAKVRITADGFKASADLPDTLLLNQLELTGEGDLKNGYQLLGKATLPAEKGPVALLLQGHVDANGAQVAGLDLDAGNQQTLKLTGQLDWREGLNAEAKVAWLDFPWHRLYPLIDEPQVTLRSFNGEVSYTDGQYLGNFQAALDGPAGAFSLGSPFSGNLTQIHLPELKLAAGQGKAEGHLDLQFADGIAWDTALQLSSVNPAYWLAELPGTLAGPLRSKGSMKNQRMELDADVDLKGKLRGQPALFQAKASGAGEQWNLGALDIRLGDNRINGTGSLQQQLTGQIDIKLARLAQLWPQLRGQVSGRVDVAGTLKAPQGKLDLQGTQLAFQDNHLQSLNLDATLDGAQRGKVDLKASGIRSGETSLGVLTLSGQGDIKQQQLKVDLQGPQLKTSLALDGTLDQGSWRGRLASGDLRVGGQDWRLQAPAKLERLANGTLNFGAHCWRSGQASLCGEDQRLMPEPKLRYHLKQFPIESLAQWMPRDFAWQGRLNADLQLDLPASGPNGRVLVDASGGTLRIRDKEQWLDFPYQTLTLDSRLTPTRIDTDLNFVGARLGELRVQARINPLPASKPLSGSFRLNGLDLSVARPFVPMVETLTGHLNGSGTLSGGLLAPQVNGNLVLSDGEVSGPELPVSLEAFQLRAMIAGETVRLDGDWKSGKSGQGRLTGNIGWGEALTMDLALKGSQLPVTVEPYAVLDVAPDLKITLQGERLAIAGKVLVPKGEITIRELPPSTVKVSDDTVIVGHQTEEGKAPMAMAMDIDVLVGQEKLAFSGFGLTANVQGQVHIGDNMDTRGELWLNDGRYRAYGQRLTVRRARLLFAGPIDQPYLDIEAIRQTDDVIAGIRLSGSAEQPTTQIFSEPAMSQEQALSYLVLGRPLSTTGEDNNMLAQAALGLGLMGSSGVTTSLANNLGIEDFQLDTQGSGNETSVVASGNLSEKLSLRYGVGVFEPANTIALRYKLSKKVYLEAASGVASSLDIFYKRDF				NA	NA	NA	NA	NA
D1-35_02346	474	marR	COG1846	Multiple antibiotic resistance protein MarR	ATGAAGCATTTCACCCCGGACGAATTCCACAATTGCCATCTCGGCATGCTCCTTGGCCGCGCCGCGGCGCTCAAGGACCGGATCATCGACACCCACATGGAGCCTGTCGGCATCACCGCCGCGCAGTTCAAGGTGTTGATCATCATGGCCCAGCACGGCATCGATACGCCGGTCGAGCTGTGCCGGTACCTGTCGCTGGACAGCGGCTCGATGACCCGCATGCTCGACCGCCTGGAGCAGAAGGGCTTTCTGGTTCGCCAGCGCTCGGCACAGGATCGGCGCCAGGTTCGTCTGGTGCTGACCGACGCCGGCCAGGCCCTCGCCGATCGCCTGCCATTCATCGGTGCCGACGCCATGAATCAACTGGCCGGCGCCATCAGCCGCGAGGAGCTGCAAACCCTCGAAGACATCCTCAAGAAAATACTGCTCGCCGCCGGTGACCCCATCACCGTCCTGCGATTGGGGGCCAAATGA	MKHFTPDEFHNCHLGMLLGRAAALKDRIIDTHMEPVGITAAQFKVLIIMAQHGIDTPVELCRYLSLDSGSMTRMLDRLEQKGFLVRQRSAQDRRQVRLVLTDAGQALADRLPFIGADAMNQLAGAISREELQTLEDILKKILLAAGDPITVLRLGAK	PGPT0029244_29	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIPLE_ANTIBIOTIC_RESISTANCE,PGPT0029244-marR-K03712	NA	NA
D1-35_02347	1470	ttgF_2		Toluene efflux pump outer membrane protein TtgF	ATGAAACATCAAACCTTGCGTACCCGCCTGAGCCTTGTGCTGTTGGCCATGAGCCTCGCCGGTTGTGCCAGCTACAGCGGCCTGAAGACCGAGGGCGTCAGCCTGGAGGCCAAGAGCCTGCAGGCTGGGCAATCGCTGACCGGGGTCAAACTGTCGCCCGCCGCGTGGCCGAAAAGCGACTGGTGGAAAAGCCTTGGCGACCCGCAACTCGACGGCCTGATCCGTGAAGCGCTGCGCGACAGCCCGGACATGCAGATCGCCAGCGCCCGGGTGCACCAGGCCAGCGCCGCTGCCTATGCCGCGAATGCCGCGCGCCTGCCGACCCTCGACGCCAGCGGCAGTGTCAGCCGTTCGCGCCTGGCCCGTGACCAGGACCCGCAAGGGCAGGGCGGCGCCTATAGCACCCTGCGTTCGCTGAGCGTCGATTTCAATTACAACTTCGACCTCTGGGGCGGCCAACGTGCCGCCTGGGAAGCGGCCCTGGGCCAGGCCCGCTCCGCCGAGATCGATCGCCAGGCCGCGCAACTGACCCTCGCCGCCGACGTGGCCCGGGCCTACAGCGACCTGGGCCAGGCCCACATCATTTATGACCTGGCCAATGAAGACCTCAAGCGCACGCGGCAGATGCTCGACCTGGGCAAACGCCGTCTCGGTGCCGGGATCGACAGCGAATATCAGTTCCAGCAGACCGAAAGCCTCGAAGCCAGCGCCGATGCGACGCTGATCGACGCGGAAAAACGCCTGCAAAGTGCAAAGATCGCCTTGGCGGTGCTGCTGGGCAAAGGTCCCGACCGGGGCAACGACATCGCCCGGCCCAACGTGCTGCAGGCCAGCGCGGTTGCGCTGCCGTCGAATCTGCCGGCCGAGTTGCTCGGTCGCCGTCCCGACCTGGTCGCGGCGCGGTGGCGGGTCGAGGCCGCGAGCAAGAACATCGAGGCCGGCAAGACCAACTTCTACCCCAACCTCAACCTGAGCGCGGCGGCGGGGGTGCAATCGCTGCTGGGTGACGCGATGTTCGGCGCGCCCAGTCGTTTCTTCAACGTGGCGCCGACCGTGTCGTTGCCGATCTTCGATGGCGGCCGCCTGCGGGCGGACCTGGACGCCCGGGACGCCGATTACGACCTGGCGGTGGCGCAATACAACAAGAGCCTGGTCGCGGCCCTTGGCGATGTCAGCGACACCATCAACCAGCTGCGCGACATCGGTCGGCAGCTGGGCGCCCAGCAACACGCGGTGGATATCGCCCGGAACTCCTACGACACCGTGGTCCAGCGCTACGGTTCCGGCATCGGCAATTACCTGGACGTGTTGAGCATCGAGCAGCAACTGCTCCAGGCCCAGCGCCAACTGGCGACCCTCAATGCCGAGCAGATCGATCTGTCGATCCAACTGATGCAGGCCCTGGGCGGTGGTTTCGATACCCAAACCATCGCTTCGGCCACTCCGGCCGCCACCGCGCCGACTCACTGA	MKHQTLRTRLSLVLLAMSLAGCASYSGLKTEGVSLEAKSLQAGQSLTGVKLSPAAWPKSDWWKSLGDPQLDGLIREALRDSPDMQIASARVHQASAAAYAANAARLPTLDASGSVSRSRLARDQDPQGQGGAYSTLRSLSVDFNYNFDLWGGQRAAWEAALGQARSAEIDRQAAQLTLAADVARAYSDLGQAHIIYDLANEDLKRTRQMLDLGKRRLGAGIDSEYQFQQTESLEASADATLIDAEKRLQSAKIALAVLLGKGPDRGNDIARPNVLQASAVALPSNLPAELLGRRPDLVAARWRVEAASKNIEAGKTNFYPNLNLSAAAGVQSLLGDAMFGAPSRFFNVAPTVSLPIFDGGRLRADLDARDADYDLAVAQYNKSLVAALGDVSDTINQLRDIGRQLGAQQHAVDIARNSYDTVVQRYGSGIGNYLDVLSIEQQLLQAQRQLATLNAEQIDLSIQLMQALGGGFDTQTIASATPAATAPTH				NA	NA	NA	NA	NA
D1-35_02348	1197	emrA_1	COG1566	Multidrug export protein EmrA	ATGGCAACTGCCGAAACTACCCAGGAAACCCAACAGGACAGCGGCAACCCGCGCAAGCGCAAGGTGTTGCTGCTGGCCCTGGCCCTGATCGTCATTCTCGCCGGCGTCGGTGTCTGGGCCTGGCATGAACTTTATGGACGCTGGAGCGAAAGCACCGACGATGCCTACGTGAACGGCAACGTGGTGGAAATCACCCCGCAAGTCAGCGGCACCGTGGTGAGCATTGGTGCCGATGACGGTGACCTGGTGCGCGAAGGCCAGGTGCTGGTGCAGTTCGACCCGAACGACGCCGAAGTTGCCTTGCAAAGTGCCCAGGCCAACCTGGCCCATACCGTGCGCCAGGTGCGTGGTTTGTACAGCAATGTCGACGGCATGAAAGCGCAGGTGCATGCGCAGGAAGCGGAAGTGCAGAAGGCTCGGGAAAACTACAACCGACGCAAGAACCTGGCGGCCGGCGGGGCGATTTCCCAGGAAGAACTGTCCCACGCCCGGGACGATCTGACCTCGGCGCAGAACGCCCTGGCTAACGCCCGGCAACAACTCATGACGACCAGCGCGCTGGTGGATGACACCGTGGTGTCGAACCATCCCGACGTACAGGCGGCGGCCGCGCAATTGCGCCAGGCTTACCTGAGCAATGCTCGCAGCACCTTGATTGCGCCGGTGACCGGTTACGTCGCCAAGCGCACCGTTCAGCTCGGGCAGCGCGTGCAGCCGGGCACGGCGCTGATGGCGGTGATCCCGCTGGACCAGTTGTGGATCGACGCCAACTTCAAGGAAACCCAGCTACGTGACATGCGCATCGGCCAGCCGGTGGACATCGAGACCGACCTTTATGGCAGCGACGTGAAGTACAGCGGCACGGTGGACAGCCTGGGCGCCGGTACCGGCAGTGCGTTTGCCTTGCTGCCAGCGCAGAACGCCACCGGTAACTGGATCAAGATCGTCCAGCGGGTGCCGGTGCGCATTCATATCAATGCCGAGGAGCTGGCCAGGCATCCACTACGGGTCGGCCTGTCGACCCAGGTCAACGTCAATCTCCACGACCAGAGCGGCCCGGTACTGGCCCAGCAGCCACCGCAAAAAGCCTCGTTCAGCACTCAGGTCTACGCCCGCCAGCTGGCCGATGCCGACGCGATGATCACTCGGCTGATTCATGAGAACAGCGCGGCGGCGAGCAAGACCGCGCAGCGTTGA	MATAETTQETQQDSGNPRKRKVLLLALALIVILAGVGVWAWHELYGRWSESTDDAYVNGNVVEITPQVSGTVVSIGADDGDLVREGQVLVQFDPNDAEVALQSAQANLAHTVRQVRGLYSNVDGMKAQVHAQEAEVQKARENYNRRKNLAAGGAISQEELSHARDDLTSAQNALANARQQLMTTSALVDDTVVSNHPDVQAAAAQLRQAYLSNARSTLIAPVTGYVAKRTVQLGQRVQPGTALMAVIPLDQLWIDANFKETQLRDMRIGQPVDIETDLYGSDVKYSGTVDSLGAGTGSAFALLPAQNATGNWIKIVQRVPVRIHINAEELARHPLRVGLSTQVNVNLHDQSGPVLAQQPPQKASFSTQVYARQLADADAMITRLIHENSAAASKTAQR	PGPT0013750_863	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0013750-emrB-K03543	NA	NA
D1-35_02349	1530	emrB		Multidrug export protein EmrB	ATGAGCAATAACGCGTCCTTCACGCCGCCCAGCCTGTTGCTCAGCACCATCGGGTTGTCGCTGGCGACGTTCATGCAGGTGCTCGATACGACCATCGCCAACGTCGCCTTGCCGACCATTTCCGGCAACCTGGGCGTCAGTTCCGAGCAGGGCACCTGGGTCATTACCTCGTTTGCGGTGAGCAATGCGATCGCGCTGCCGCTGACCGGTTGGCTGAGCCGCCGGTTTGGCGAGGTGAAACTGTTTTTGTGGGCAACGATGCTGTTCGTCCTGGCCTCGTTCCTCTGCGGGATTTCCACGTCGATGCCCGAGCTGATCGGTTTTCGTGTGGTTCAGGGCCTGGTGGCCGGGCCTCTGTATCCGATGACCCAGACCTTGCTGATTGCCGTGTACCCGCCGGCGAGGCGCGGGATGGCCTTGGCCTTGCTGGCGATGGTCACCGTGGTGGCGCCGATCGCCGGGCCGATCCTGGGCGGCTGGATCACCGACAGCTACAGTTGGCCGTGGATTTTCTTCATCAACGTGCCGATCGGGATTTTCGCGGTGCTGGTGGTGCGTCAGCAGCTCAAGGCGCGGCCGGTGGTCACCAGTCGCCAGCCGATGGATTACGTCGGGTTGATCACCCTGATCATCGGTGTCGGGGCGTTGCAGGTGATCCTCGACAAGGGCAACGACCTGGATTGGTTCGAGTCGAACTTCATCATCGTCGGCGCGCTGATTTCGGCCGTTGCGCTGGCGGTGTTCGTGATCTGGGAAATGACCGATCGCCATCCGGTGGTCAACCTGCGGCTGTTTGCCTATCGCAACTTTCGCATCGGGACGATTGTGCTGGTAGGCGGTTATGCCGGATTCTTCGGCATCAACCTGATCCTGCCGCAGTGGTTGCAGACCCAGATGGGTTATACCGCCACCTGGGCCGGCCTGGCGGTTGCGCCCATCGGGATCCTGCCGGTGCTGATGTCACCTTTCGTTGGCAAATACGCCCACAAGTTCGACCTGCGCCTGCTGGCCGGGCTGGCGTTCCTGGCGATCGGTTTGAGTTGCTTCATGCGCGCCGGGTTTACCAACGAGGTGGATTTCCAGCACATCGCCCTGGTGCAGCTGTTCATGGGCATCGGCGTGGCGCTGTTCTTCATGCCGACCCTGAGCATCCTGATGTCGGACCTGCCGCCCCAGCAGATCGCCGACGGCGCGGGGCTGGCGACGTTCCTGCGGACCCTGGGCGGCAGTTTTGCCGCGTCGCTGACCACTTGGATCTGGATCCGCCGCGCCGACCAGCACCATGCCTACCTGAGCGAAAGCATCAGCACTTTCGAACCGGCCACGCGCGAGACGATCAACCAGCTCGGCGGGGCGAGCACGCCGGTGTACGCCCAGCTCGACCAGATCCTCACCAGCCAGGCGTACATGCTCTCCACCGTGGATTACTTCACGCTGCTGGGCTGGGCGTTCATGGGGTTGATCCTGCTGGTGTGGCTGGCGAAACCGCCGTTTGCGGCGAAGGCCGGGCCTGCCGCCAGCGGTCATTAA	MSNNASFTPPSLLLSTIGLSLATFMQVLDTTIANVALPTISGNLGVSSEQGTWVITSFAVSNAIALPLTGWLSRRFGEVKLFLWATMLFVLASFLCGISTSMPELIGFRVVQGLVAGPLYPMTQTLLIAVYPPARRGMALALLAMVTVVAPIAGPILGGWITDSYSWPWIFFINVPIGIFAVLVVRQQLKARPVVTSRQPMDYVGLITLIIGVGALQVILDKGNDLDWFESNFIIVGALISAVALAVFVIWEMTDRHPVVNLRLFAYRNFRIGTIVLVGGYAGFFGINLILPQWLQTQMGYTATWAGLAVAPIGILPVLMSPFVGKYAHKFDLRLLAGLAFLAIGLSCFMRAGFTNEVDFQHIALVQLFMGIGVALFFMPTLSILMSDLPPQQIADGAGLATFLRTLGGSFAASLTTWIWIRRADQHHAYLSESISTFEPATRETINQLGGASTPVYAQLDQILTSQAYMLSTVDYFTLLGWAFMGLILLVWLAKPPFAAKAGPAASGH	PGPT0029220_3500	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029220-emrB-K03446	NA	NA
D1-35_02350	762	lpxH_2	COG2908	UDP-2,3-diacylglucosamine hydrolase	TTGCTGATTTCAGATCTGCATCTGGAAGAGGAGCGCCCGGACATCACCCGGGCGTTTCTGGATTTACTCGCCACACGCGCCCGCTCGGCGCAAGCGTTATACATTCTGGGCGACTTCTTCGAAGCCTGGATCGGCGACGATGCCATGACGCCGTTCCAGCGCTCCATCTGCCAGGCCCTGCGCGAATTGAGCGACAGCGGCACGGCAATTTTCCTGATGCACGGCAACCGCGACTTCATGCTCGGGCAGGCCTTTTGCAAAGCGGCCGGCTGCACCCTGCTCAAGGACCCGACCGTCGTGCAATTCAGCGACGAGCCGGTGCTGCTGATGCACGGCGACAGCCTGTGCACGAGGGATGTCGGCTACATGAAACTGCGGCGCTGGCTGCGCAACCCGGTCACGCTGTTCATCCTGCGCCACCTGCCCTTGGGCAGCCGCCAGAAACTGGCGCGCAAGCTGCGCAGTGAAAGCCGCACGCAGGTGAGGATGAAAGCCAACGACATCGTTGACGTCACGCCAGAAGAGGTCCCACGCGTCATGCAGCACTATGGCGTGAAAACCTTGGTCCACGGCCACACCCACCGCCCCGCCATCCACAAGCTGCAACTGGGCGAACACGCCGCCCGGCGCATCGTGCTGGGAGATTGGGACAAGCAGGGCTGGGCGTTGCAGGTGGATGAGCAGGGCTTTTCGCTGGCGCCGTTCGAGTTGGCCCCGCCGCCACAACTGCCGGCACCCGACACAATCCCCGACTACATATAG	MLISDLHLEEERPDITRAFLDLLATRARSAQALYILGDFFEAWIGDDAMTPFQRSICQALRELSDSGTAIFLMHGNRDFMLGQAFCKAAGCTLLKDPTVVQFSDEPVLLMHGDSLCTRDVGYMKLRRWLRNPVTLFILRHLPLGSRQKLARKLRSESRTQVRMKANDIVDVTPEEVPRVMQHYGVKTLVHGHTHRPAIHKLQLGEHAARRIVLGDWDKQGWALQVDEQGFSLAPFELAPPPQLPAPDTIPDYI	PGPT0022370_824	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022370-lpxH-K03269	NA	NA
D1-35_02351	507			Peptidyl-prolyl cis-trans isomerase cyp18	ATGACCCAAGTCAAACTGACCACCAACCATGGCGAGATCGTCCTGGAGCTGAACGCCGAGAAGGCACCGATTACCGTTGCCAACTTCGTTGAATACGTCAAGGCCGGCCACTACGAAAACACCGTTTTCCACCGTGTCATCGGCAACTTCATGATCCAGGGCGGCGGTTTCGAACCGGGCATGAAAGAAAAGAAAGACAAGCGCCCGAGCATCCAGAACGAAGCCGACAACGGCCTTTCCAACGACAAATACACCGTTGCCATGGCCCGCACCATGGAGCCGCATTCGGCCTCCGCGCAGTTCTTCATCAACGTCGCCGACAACAGCTTCCTGAACCACAGCGGCAAGAACGTCCAGGGCTGGGGCTACGCCGTATTCGGCAAGGTCACTGCCGGTACCGATGTGGTCGACAAGATCAAAGGCGTCTCCACCACTTCCAAGGCTGGCCACCAGGACGTCCCGGCAGAAGACGTGATCATCGAGAAAGCCGAGATCATCGAGGCGTGA	MTQVKLTTNHGEIVLELNAEKAPITVANFVEYVKAGHYENTVFHRVIGNFMIQGGGFEPGMKEKKDKRPSIQNEADNGLSNDKYTVAMARTMEPHSASAQFFINVADNSFLNHSGKNVQGWGYAVFGKVTAGTDVVDKIKGVSTTSKAGHQDVPAEDVIIEKAEIIEA	PGPT0015111_3274	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
D1-35_02352	1698	glnS	COG0008	Glutamine--tRNA ligase	ATGAGCAAGCCCACTGTCGACCCTACCTCGAATTCCAAGACCGGCCCGGCCGTGCCGGTCAATTTCCTGCGCCCGATCATCCAGGCGGACCTGGATTCGGGTAAGCACACGCAGATCGTCACCCGTTTTCCGCCGGAGCCCAACGGCTACCTGCACATCGGTCACGCCAAATCCATTTGCGTGAACTTCGGCCTGGCCGAGGAGTTCGGTGGCGTCACGCACCTGCGTTTCGATGACACCAACCCGGCCAAGGAAGACCAGGAATACATCGACGCGATCAAGAGCGACGTCAAGTGGCTGGGCTTCGAATGGGCCGGCGAAGTGCGCTACGCCTCGCAGTATTTCGACCAGTTGCACGACTGGGCGGTGGAACTGATCAAGTCCGGCAACGCCTACGTGTGTGACCTGACGCCGGAGCAGGCCAAGGAATATCGCGGCAGCCTGACCGAGCCGGGCAGGAACAGCCCGTTCCGTGACCGCGGCGTGGAAGAGAACCTCGACCTGTTTGCCCGCATGCGCGCCGGTGAGTTCCCGGACGGCGCCCGTGTGCTGCGCGCGAAGATCGACATGGCCTCGCCGAACATGAACCTGCGCGACCCGATCATGTACCGCATCCGTCACGCTCATCACCACCAGACCGGCGACAAATGGTGCATCTACCCGAACTATGACTTCACCCATGGCCAGTCGGACGCCATCGAAGGCATCACGCATTCGATCTGCACCCTGGAATTCGAAAGCCATCGTCCGCTGTACGAGTGGTTCCTCGAGCATCTGCCGGTGCCGGCCAACCCGCGCCAGTATGAATTCAGCCGCCTGAACCTGAACTACACGATCACCAGCAAGCGCAAGCTCAAGCAACTGGTGGACGAGAAGCACGTCAGCGGCTGGGATGACCCGCGCATGTCGACGCTGTCGGGTTTCCGCCGTCGTGGCTACACGCCAAAGTCGATCCGCAACTTCTGCGAGATGGTCGGCACCAACCGTTCCGACGGCGTGGTCGATTTCGGCATGCTGGAATTCAGCATTCGCGAGGACTTGGACCACAGCGCGCCGCGCGCCATGTGCGTGTTGCGTCCGCTCAAAGTCGTCATCACCAATTACCCGGAAGGCCAGGTCGAAAACCTCGAACTGCCGTGCCACCCGAAAGAAGACATGGGCGTGCGCGTCCTGCCGTTCGCCCGGGAAATCTATATCGACCGTGACGACTTCATGGAAGAGCCACCCAAAGGCTACAAGCGCCTGGAGCCGGCCGGCGAAGTGCGCTTGCGCGGCAGCTACGTGATCCGCGCCGACGAGGCGATCAAGGACGCCGACGGCAACATCGTCGAGCTGCGTTGCTCGTACGATCCCGACACCCTGGGCAAGAACCCGGAAGGCCGCAAGGTCAAGGGCGTGATCCACTGGGTGCCGGCCGCCGCCAGCGTCGAGTGCGAAGTGCGCCTGTACGATCGCCTGTTCCGTTCGCCGAACCCGGAGAAGGCCGAGGACAGCGCCAGTTTCCTGGACAACATCAACCCTGACTCCCTGCAAGTACTCACCGGTTGTCGTGCCGAGCCTTCGCTGGGCAACGCACAGCCGGAAGACCGTTTCCAGTTCGAGCGCGAAGGCTACTTCTGCGCGGATATCAAGGACTCGAAACCCGGTGCTCCGGTGTTCAACCGTACCGTGACCTTGCGCGACTCCTGGGGTCAGTGA	MSKPTVDPTSNSKTGPAVPVNFLRPIIQADLDSGKHTQIVTRFPPEPNGYLHIGHAKSICVNFGLAEEFGGVTHLRFDDTNPAKEDQEYIDAIKSDVKWLGFEWAGEVRYASQYFDQLHDWAVELIKSGNAYVCDLTPEQAKEYRGSLTEPGRNSPFRDRGVEENLDLFARMRAGEFPDGARVLRAKIDMASPNMNLRDPIMYRIRHAHHHQTGDKWCIYPNYDFTHGQSDAIEGITHSICTLEFESHRPLYEWFLEHLPVPANPRQYEFSRLNLNYTITSKRKLKQLVDEKHVSGWDDPRMSTLSGFRRRGYTPKSIRNFCEMVGTNRSDGVVDFGMLEFSIREDLDHSAPRAMCVLRPLKVVITNYPEGQVENLELPCHPKEDMGVRVLPFAREIYIDRDDFMEEPPKGYKRLEPAGEVRLRGSYVIRADEAIKDADGNIVELRCSYDPDTLGKNPEGRKVKGVIHWVPAAASVECEVRLYDRLFRSPNPEKAEDSASFLDNINPDSLQVLTGCRAEPSLGNAQPEDRFQFEREGYFCADIKDSKPGAPVFNRTVTLRDSWGQ				NA	NA	NA	NA	NA
D1-35_02353	1383	cysS	COG0215	Cysteine--tRNA ligase	GTGCTTACGATCTACAACACGCTCACCAAGAGCAAAGAAGTCTTCAAGCCGCTGGATGGCAACAAGGTCCGCATGTACGTCTGCGGCATGACCGTGTACGACTATTGCCACCTCGGCCATGGCCGCAGCATGGTCGCCTTCGACCTGGTGACCCGTTGGTTGCGCTTCAGCGGTTATGACCTGACCTATGTGCGCAACATCACCGACATCGACGACAAGATCATCAATCGGGCCAACGAGAACGGTGAAGCGTTCGATGCGCTGACCGAGCGCATGATCAAGGCCATGCACGAGGACGAGGCGCGCCTCAACATCCAGAAGCCGGACCTGGAGCCGCGGGCCACCGACCACATCCCGGGCATGCTGGCGATGATCCAGACCTTGATCGACAAGGGCTATGCCTACGCACCGGGCAACGGCGATGTGTACTACCGCGTCGCCAAGTTCATGGGCTACGGCAAGCTGTCGCGCAAGAAGATCGAAGATTTGCGCATCGGCGCACGCATCGAGGTCGACGAGTCGAAAGAAGATCCGCTGGACTTCGTGCTGTGGAAAGGCTCCAAGCCGGGCGAGCCGAGCTGGGATTCACCGTGGGGCGCCGGGCGTCCGGGCTGGCACATCGAATGCTCGGTGATGTCGACCTGCTGCCTGGGCGAGACCTTCGACATTCATGGTGGTGGCAGCGACCTGGAATTCCCGCACCACGAAAACGAAATCGCCCAGAGCGAAGCGGCCACCGGCAAGACCTACGCCAATGCCTGGATGCATTGCGGCATGATCCGCATCAATGGCGAGAAGATGTCCAAGTCCTTGAACAACTTCTTCACCATCCGCGACGTGCTCGACAAGTATCACCCGGAAGTTGTGCGTTACCTGCTGGTGTCCAGCCACTACCGCAGCGCCATCAACTATTCGGAAGACAACCTCAAGGATGCCAAGGGCGCCCTGGAGCGTTTCTACCACGCACTCAAGGGCCTGCCGAACGTGGCGCCCGCCGGTGGCGAAGCGTTCGTGGCGCGGTTCACCGAAGTGATGAACGACGACTTCGGCACGCCGGAAGCCTGCGCGGTGCTGTTCGAGATGGTGCGTGAGATCAACCGCCTGCGCGAGAGCGATCTCGATGCGGCGGCGGGCCTGGCAGCGCGGCTGAAGGAACTGGCCAGCGTGTTGGGCGTGTTGCAGCTTGAAGCCGACGACTTCCTGCAAGCCGGCGCCGAGGGCCGCGTGGACGCCGCCGAGGTCGAGGCCTTGATCCAGGCGCGCCTGACCGCGCGGGCCAACAAGGACTGGGCCGAATCCGACCGCATCCGCGACCAGCTCACCGCCATGGGCGTGGTGCTCGAAGACGGCAAGGGCGGGACGACCTGGCGGTTGGCGGACTGA	MLTIYNTLTKSKEVFKPLDGNKVRMYVCGMTVYDYCHLGHGRSMVAFDLVTRWLRFSGYDLTYVRNITDIDDKIINRANENGEAFDALTERMIKAMHEDEARLNIQKPDLEPRATDHIPGMLAMIQTLIDKGYAYAPGNGDVYYRVAKFMGYGKLSRKKIEDLRIGARIEVDESKEDPLDFVLWKGSKPGEPSWDSPWGAGRPGWHIECSVMSTCCLGETFDIHGGGSDLEFPHHENEIAQSEAATGKTYANAWMHCGMIRINGEKMSKSLNNFFTIRDVLDKYHPEVVRYLLVSSHYRSAINYSEDNLKDAKGALERFYHALKGLPNVAPAGGEAFVARFTEVMNDDFGTPEACAVLFEMVREINRLRESDLDAAAGLAARLKELASVLGVLQLEADDFLQAGAEGRVDAAEVEALIQARLTARANKDWAESDRIRDQLTAMGVVLEDGKGGTTWRLAD	PGPT0002985_5234	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002985-cysS-K01883	NA	NA
D1-35_02354	195	csrA1		Translational regulator CsrA1	ATGCTGATACTCACCCGCAAAGTCGGTGAAAGCATAAACATTGGTGACGACATCACGATCACCATTCTGGGCGTAAGCGGCCAACAAGTCCGGATCGGCATCAACGCCCCGAAAAACGTTGCGGTGCATCGAGAAGAAATCTATCAGCGTATCCAGGCCGGCCTGACTGCTCCTGACAAGCCACAAACGCCCTGA	MLILTRKVGESINIGDDITITILGVSGQQVRIGINAPKNVAVHREEIYQRIQAGLTAPDKPQTP	PGPT0015065_1421	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
D1-35_02355	366			hypothetical protein	GTGCGTAAATTGGCTTGGGTATTGGTGGTATTGGCGCTGGCGGGATGCGGTGAAGGGCGTGACGTCTCGGCACCCAAGCCCAAGCCCGTGGCGAGCTTCACGCCGGCCGCCGCTGCCGCACCGCAGTGGGCCGTCGAGGTTCGAGGCCAGACGCCCCAGGCCGTCAGCGATCTGACCGGATGGCTGATCGAGCACAGCTTCATGTCCACTGTCGTCAGGGAAAACGGCAAGGACCGCGTCCTGGTAGGGCCGTTAAGCTCCAAGGCTGAAGCCGAAGCGAAGCAGGAGCAGATCACCGCTGCCCTGGTCCGTGCGAAGAAACGCAACATCGAGGCCTTGGTGGTGGACTTCCCGCCGGCTCAATAA	MRKLAWVLVVLALAGCGEGRDVSAPKPKPVASFTPAAAAAPQWAVEVRGQTPQAVSDLTGWLIEHSFMSTVVRENGKDRVLVGPLSSKAEAEAKQEQITAALVRAKKRNIEALVVDFPPAQ				NA	NA	NA	NA	NA
D1-35_02356	690	dns	COG2356	Extracellular deoxyribonuclease	ATGATTGTTCGCTGTTTAGCTTTATTGCTCGTCTTCGTTGCCACGGGTGCACAGGCTGGTGCGCCGCGCACCTTCAACGAAGCCAAGAAAGTCGCCTGGAAACTCTATGCGCCACAATCCACCGAGTTCTACTGCGGGTGCAAATACACCGGCAACCGGGTGAACCTCGCGGCATGCGGTTATGTACCGCGCAAGAACGCCAATCGCGCCGCCCGCATCGAGTGGGAGCATATTGTCCCGGCCTGGCAGATCGGTCATCAGCGCCAATGCTGGCAACAGGGCGGGCGCAAACAATGCACCCGCTACGACCCGGTCTATCAAAGGGCCGAGGCGGATCTGCATAACCTGGTGCCGAGCATTGGCGAGGTGAACGGTGATCGCAGCAACTTCAGCTTCGGCTGGTTGCCGGTGCAGAAAGGCCAGTACGGCTCATGCCTGACTCAGGTGGACTTCAAGGCCAAGAAGGTCATGCCGCGCCCGTCCATTCGGGGAATGATCGCCAGGACGTATTTCTACATGAGCAAACAATACGGTTTGCGCCTCTCCAAACAGGACCGGCGCCTGTATGAGGCCTGGGACAAGACCTACCCGGTGCAGGCCTGGGAACGCCAGCGCAACCAGAGCGTGGCGTGCGTCATGGGTCGCGGGAACGAATTCGTCGGCCCGGTGGACCTGAAGGCCTGCGGCTGA	MIVRCLALLLVFVATGAQAGAPRTFNEAKKVAWKLYAPQSTEFYCGCKYTGNRVNLAACGYVPRKNANRAARIEWEHIVPAWQIGHQRQCWQQGGRKQCTRYDPVYQRAEADLHNLVPSIGEVNGDRSNFSFGWLPVQKGQYGSCLTQVDFKAKKVMPRPSIRGMIARTYFYMSKQYGLRLSKQDRRLYEAWDKTYPVQAWERQRNQSVACVMGRGNEFVGPVDLKACG				NA	NA	NA	NA	NA
D1-35_02357	249			hypothetical protein	GTGGCAACGCCTCTCGCTGCAACTACCCCCTTAGATTCCTACACACGACTCGGCCTGCGCGTCTCGAAAATCATCAATTCGCCCACCGCGCAAAAGGCCAAGGCCGCGCTGATCTTCCGCCTGCCCGACGAGCCGATCGACGAGTGGGAACGCCTGCTCGAAGAAATCGACGAGAACGACAACGTCACCCTCGCTTATCGCGACGATGGCGGTGTGCAGGTTTTCTGGGTTGTGCCGAAGGAAGATTGA	MATPLAATTPLDSYTRLGLRVSKIINSPTAQKAKAALIFRLPDEPIDEWERLLEEIDENDNVTLAYRDDGGVQVFWVVPKED				NA	NA	NA	NA	NA
D1-35_02358	1089	ansB_2		Glutaminase-asparaginase	ATGACATCTGCTTTCAAGACTCTTGTTCCGGGCGCCTTGGCCCTTCTGCTCCTGCTGCCCGGCGCGCTCCAGGCAAAAGAAACCCAAACCGAGCAAAAGCTCGCCAACGTCGTCATCCTCGCCACCGGCGGCACCATCGCCGGCGCGGGCGCCAGCTCGGCCAACAGCGCCACTTACCAGGCGGCGAAGGTGGGCATCGAACAACTGATCGCCGGCGTGCCCGAGCTCAGCCGACTGGCCAATGTGCGTGGCGAACAGGTCATGCAAATCGCCTCGGAAAGCATCACCAACGACAATCTGCTGCAGCTGGGCCGGCGCGTCGCCGAGCTCGCCGACAGCAATGACGTCGATGGCATTGTCATCACCCATGGCACCGACACGCTGGAAGAAACCGCGTACTTCCTCAACCTGGTGGAAAAGACCGAAAAACCGATCATCGTCGTCGGCTCGATGCGTCCCGGCACCGCGATGTCGGCCGATGGCATGCTCAATCTCTACAATGCCGTGGCCGTGGCCAGCAGCAAGGAAGCACGGGGCAAGGGCGTGCTGGTGACCATGAACGATGAAATCCAGTCCGGTCGCGATGTCAGCAAGATGATCAACATCAAGACTGAAGCCTTCAAGAGCCCATGGGGCCCGCTGGGCATGGTAGTGGAAGGCAAATCCTACTGGTTCCGCCTGCCGGCCAAGCGTCACACCCTGGACTCGGAATTCGACATCAAGACCATCAAGAGCCTGCCGGACGTGGAAATCGCCTACTCCTACGGCAACGTCAGCGACACGGCTTACAAGGCCCTCGCCCAGTCCGGCGCCAAGGCGATCATTCATGCCGGCACTGGCAACGGTTCGGTGTCGTCGCGGGTTGTGCCTTCGTTGCAGGCCTTGCGCAAGGAAGGCGTGCAGATCATTCGTTCGTCCCACGCCAACGCCGGCGGTTTCGTGCTGCGCAACGCCGAACAGCCTGACGATAAATACGACTGGGTCGTGGCCCACGACTTGAATCCGCAGAAGGCGCGCATCCTGGCCATGGTCGCCCTGACCAAGACTCAGGACAGCAAGGAATTGCAGCGGATATTCTGGGAATACTGA	MTSAFKTLVPGALALLLLLPGALQAKETQTEQKLANVVILATGGTIAGAGASSANSATYQAAKVGIEQLIAGVPELSRLANVRGEQVMQIASESITNDNLLQLGRRVAELADSNDVDGIVITHGTDTLEETAYFLNLVEKTEKPIIVVGSMRPGTAMSADGMLNLYNAVAVASSKEARGKGVLVTMNDEIQSGRDVSKMINIKTEAFKSPWGPLGMVVEGKSYWFRLPAKRHTLDSEFDIKTIKSLPDVEIAYSYGNVSDTAYKALAQSGAKAIIHAGTGNGSVSSRVVPSLQALRKEGVQIIRSSHANAGGFVLRNAEQPDDKYDWVVAHDLNPQKARILAMVALTKTQDSKELQRIFWEY	PGPT0000700_66	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000700-aspQ|asnA|asnB-K05597	NA	NA
D1-35_02359	447			hypothetical protein	ATGTCCTTTTCCATCGGCTTTCCCAATGCCGCGACCATCACCATCGGTGGTAGATCCATCTCCACACTGAATGCCCTGAGGGAGGCGAGCGCCGACGCGGCTGATGAGGCGCTTGGCGAAACGCAGGAAACCGGCACGGTCCGTGCGAACCTGGCGACCGAAGCCGAGGGCAAGACCGAGAAAAGCAGCAGTACGCAAAGTATCGCTATGCAAGTGCTGCTCAAGCGAATGCAGGAACTCCAGCAGCAATTGCGGGAGCAGCAGCAACAACTTGCCGCTGCACAGACGCGTGCCTATCCAACGCCCGAAGCCAAGACGACCGCTATCATGGCTATCCAAGGGCAAATCGCCGATACCACCGGCGCGCTGCAACAGGTCACCGGCAACCTGATCAAGGAACTGGCCAAGGATTCGGGTTCGGGGGCGCTGGTGAATACCACCGCTTGA	MSFSIGFPNAATITIGGRSISTLNALREASADAADEALGETQETGTVRANLATEAEGKTEKSSSTQSIAMQVLLKRMQELQQQLREQQQQLAAAQTRAYPTPEAKTTAIMAIQGQIADTTGALQQVTGNLIKELAKDSGSGALVNTTA				NA	NA	NA	NA	NA
D1-35_02360	960	rbsB	COG1879	Ribose import binding protein RbsB	ATGAAGCTGCCATTCGCTGGACGCCTTCTCGCCGTCGCCATGCTCGCGGCCGCATCCGCAGCGCTGCCATTCTCCTCGGCGCTCGCCCAGACCACCGAAAAACCCAAGGTCGCCCTGGTCATGAAATCCCTGGCCAACGAATTCTTCCTGACCATGGAAGATGGCGCCAAGGCTTATCAGAAGGAACACTCCGCCGAGTTCGACCTGATCTCCAACGGGATCAAGGATGAAACCGACACCGCCAACCAGATTCGCATCGTCGAGCAGATGATCGTGTCCAAGGTCGATGCGCTGATCATCGCGCCGGCCGACTCCAAGGCTATGGTGCCGGTGATCAAGAAAGCCGTGGATGCCGGCATCACGGTGATCAACATCGATAACCAGCTCGATCCGGCCGTGGTCAAGAGCAAGAACATCAACGTGCCGTTCGTAGGTCCGGACAACCGCAAGGGCGCCCGCCTGGTAGGTGAATACCTGGCCAAGCAGCTCAAGGCCGGTGACGAGGTCGGCATCATCGAAGGCGTGTCGACCACCACCAACGCCCAGGCGCGCACCGCAGGCTTCAAGGATGCGATGGAGGCGGCGCAGATCAAAGTCGTCTCCCTGCAATCCGGTGACTGGGAAATCAACAAGGGCAACCAGGTTGCCGCGTCGATGCTCAGCGAATATCCGAACATCAAGGCATTGCTGGCCGGCAACGACAGCATGGCGGTCGGTGCGGTCTCGGCCGTGCGCGCCGCTGGCAAGGCGGGCAAGGTGCAAGTGGTCGGCTACGACAACATCAACGCCATCAAGCCGATGCTCAAGGACGGTCGCGTCCTGGCGACAGCCGACCAGTTCGCTGCCAGGCAGGCAGTGTTCGGCATCGAAACCGCGCTGAAGATGCTCAAGGGCGAAAAAGTCGACAGCGGCACCAACGGCGTCATCGAAACTCCGGTCGAGCTGGTGACCAAGCCGTAA	MKLPFAGRLLAVAMLAAASAALPFSSALAQTTEKPKVALVMKSLANEFFLTMEDGAKAYQKEHSAEFDLISNGIKDETDTANQIRIVEQMIVSKVDALIIAPADSKAMVPVIKKAVDAGITVINIDNQLDPAVVKSKNINVPFVGPDNRKGARLVGEYLAKQLKAGDEVGIIEGVSTTTNAQARTAGFKDAMEAAQIKVVSLQSGDWEINKGNQVAASMLSEYPNIKALLAGNDSMAVGAVSAVRAAGKAGKVQVVGYDNINAIKPMLKDGRVLATADQFAARQAVFGIETALKMLKGEKVDSGTNGVIETPVELVTKP	PGPT0015740_4107	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
D1-35_02361	1554	araG_2	COG1129	Arabinose import ATP-binding protein AraG	ATGTCCGTTCGTGATCCGAACGCTGTCCTTTGCGTCAGCGGTATCGGCAAGACCTATGCGCAGCCGGTACTGAGCGATATCACCCTGACGTTGATGCGCGGTGAAGTGCTGGCGCTGACCGGCGAAAATGGCGCCGGCAAAAGTACCTTGTCCAAGATCATCGGCGGGCTGGTCACGCCGACAACCGGGCAGATGCAATTCCAGGGGCAGGATTACCGTCCCGGCAGCCGGACCCAGGCTGAATCGTTGGGCGTGCGCATGGTGATGCAGGAGCTCAACCTGCTGCCGACCCTTTCCGTGGCTGAAAACCTGTTCCTCGACAACCTGCCCAGCCACGCTGGCTGGATCAGCCGCAAGCAATTGCGCAAGGCGGCAGTCGAGGCCATGGCCCAGGTGGGGCTGGATGCCATCGATCCTGACACGCTGGTCGGTGAGCTGGGGATCGGTCACCAACAGATGGTCGAGATCGCCCGCAACCTGATCGGCGATTGCCATGTGCTGATCCTCGACGAACCGACCGCCATGCTGACGGCCCGTGAAGTCGAGATGCTTTTCGAACAGATTACCCGTCTGCAAGCCCGCGGCGTGTCGATCATCTACATTTCCCATCGCCTCGAAGAACTGGCGCGGGTGGCCCAGCGCATTGCGGTGTTGCGCGACGGCAACCTGGTCTGCGTCGAGCCGATGGCCAACTACAACAGCGAGCAACTGGTGACGCTGATGGTCGGTCGCGAGCTGGGCGAGCACATCGACCTGGGCCCGCGCCAGATCGGCGCACCGGCACTGACGGTCAAGGGCCTGAGCCGTTCCGACAAGGTTCGCGATGTGTCCTTTGAAGTGCGCAGTGGCGAAATCTTCGGTATTTCCGGCCTGATCGGGGCGGGGCGCACCGAGCTGCTGCGGCTGATCTTCGGCGCCGATGCGGCCGACAGCGGCACGGTGGCGCTGGGTTCACCGGCGCAGGTGGTGAGCATTCGCTCGCCGTCCGACGCGGTAGCTCATGGCATCGCCTTGATTACCGAGGATCGCAAGGGCGAAGGCTTGCTGCTGACCCAATCCATCGCGGCCAATATTGCCTTGGGCAACATGCCGGAGATTTCCAGTGGCGGTTTCGTCAACGGCAGCGAGGAACTCTCGCTGGCGCAGCGGCAGATCGATGCCATGCGCATCCGCAGCTCCAGCCCGACGCAGTTGGTGTCGGAGCTGTCCGGCGGTAACCAGCAGAAGGTCGTGATCGGCCGCTGGCTCGAACGCGATTGCTCGGTATTGCTGTTCGACGAGCCGACCCGGGGCATCGACGTCGGCGCCAAATTCGACATTTATGCGCTGCTCGGTGAGTTGACTCGCCAGGGCAAGGCGCTGGTCGTGGTGTCCAGTGACCTGCGGGAACTGATGCTGATCTGCGACCGGATCGGCGTGCTGTCCGCCGGGCGCCTGATCGACACCTTCGAGCGCGACAGCTGGACCCAGGATGACTTGCTTGCCGCCGCGTTCGCCGGCTACCAGAAACGTGATGCGTTGCTCAACGAAGCAGCGCCTAGGGAACTCTCATGA	MSVRDPNAVLCVSGIGKTYAQPVLSDITLTLMRGEVLALTGENGAGKSTLSKIIGGLVTPTTGQMQFQGQDYRPGSRTQAESLGVRMVMQELNLLPTLSVAENLFLDNLPSHAGWISRKQLRKAAVEAMAQVGLDAIDPDTLVGELGIGHQQMVEIARNLIGDCHVLILDEPTAMLTAREVEMLFEQITRLQARGVSIIYISHRLEELARVAQRIAVLRDGNLVCVEPMANYNSEQLVTLMVGRELGEHIDLGPRQIGAPALTVKGLSRSDKVRDVSFEVRSGEIFGISGLIGAGRTELLRLIFGADAADSGTVALGSPAQVVSIRSPSDAVAHGIALITEDRKGEGLLLTQSIAANIALGNMPEISSGGFVNGSEELSLAQRQIDAMRIRSSSPTQLVSELSGGNQQKVVIGRWLERDCSVLLFDEPTRGIDVGAKFDIYALLGELTRQGKALVVVSSDLRELMLICDRIGVLSAGRLIDTFERDSWTQDDLLAAAFAGYQKRDALLNEAAPRELS	PGPT0016600_1053	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
D1-35_02362	978	rbsC_1	COG1172	Ribose import permease protein RbsC	ATGAAAACCGCTCCTGCCGTCGGCAAATCGAATGGCAACTTTTATGGCCTTGGCACCTACCTGGGCCTGGCCGGCGCCTTGCTGGCCATGGTCGCGCTGTTCTCGGTCCTGAGCAGCCACTTTCTTTCCTATGACACCTTCAGCACCCTTGCCAACCAGATTCCGGATTTGATGGTACTGGCGGTCGGCATGACGTTCATCCTGATCATCGGCGGCATCGACCTGTCGGTGGGCTCGGTGCTGGCGCTGGCTGCCTCGACGGTCAGCGTGGCGGTGCTCGGCTGGGGCTGGAGCGTCTGGCCGTCGGCCTTGCTCGGCATGGCCGTGGCGGCGCTGGCCGGGACGGTGACCGGTTCGATTACCGTAGCGTGGCGCATCCCGTCGTTCATCGTCTCGCTGGGCGTGCTGGAAATGGCCCGTGGCCTGGCGTACCAGATGACCGGCTCGCGGACCGCCTATATCGGCGACTCCTTCGCCTGGCTGTCCAACCCGATCGCCTTCGGTATTTCCCCTTCGTTCATCATTGCCTTGCTGGTGATTTTCATTGCCCAGGCCGTGCTGACCCGTACCGTGTTCGGTCGCTACCTGATCGGCATCGGCACCAACGAAGAGGCTGTGCGCCTGGCCGGCATCAATCCCAAACCCTACAAGATCCTGGTGTTCAGCCTCATGGGGCTGCTGGCCGGTGTCGCCGCGCTGTTCCAGATTTCGCGCCTGGAGGCGGCAGATCCCAACGCCGGTTCAGGGCTTGAGCTGCAAGTCATCGCCGCGGTGGTCATCGGCGGTACGAGCCTGATGGGCGGGCGCGGCTCGGTCATCAGTACCTTCTTCGGCGTGCTGATCATTTCGGTGCTGGCGGCGGGCCTGGCCCAGATCGGCGCGACCGAGCCGACCAAAAGGATCATTACCGGTGCGGTGATCGTGGTGGCGGTGGTGCTCGATACGTACCGCAGCCAGCGCGCCAGTCGGCGGGCTTGA	MKTAPAVGKSNGNFYGLGTYLGLAGALLAMVALFSVLSSHFLSYDTFSTLANQIPDLMVLAVGMTFILIIGGIDLSVGSVLALAASTVSVAVLGWGWSVWPSALLGMAVAALAGTVTGSITVAWRIPSFIVSLGVLEMARGLAYQMTGSRTAYIGDSFAWLSNPIAFGISPSFIIALLVIFIAQAVLTRTVFGRYLIGIGTNEEAVRLAGINPKPYKILVFSLMGLLAGVAALFQISRLEAADPNAGSGLELQVIAAVVIGGTSLMGGRGSVISTFFGVLIISVLAAGLAQIGATEPTKRIITGAVIVVAVVLDTYRSQRASRRA	PGPT0016590_4241	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
D1-35_02363	1020	purR	COG1609	HTH-type transcriptional repressor PurR	ATGGCAACGATCAAGGATGTGGCGGCGCTCGCGGGGATCTCCTACACGACGGTGTCCCACGTGGTGAACAAGACGCGACCGGTCAGTGACGAGGTGCGACGCAAAGTCGAGGCGGCCATCGAGCGATTGGACTACGTGCCCAGCGCGGTGGCGCGTTCACTCAAGGCCAAGACCACAGCGACTATCGGCCTGCTGGTGCCCAACAGCCTCAACCCGTACTTCGCCGAACTGGCCCGTGGGATCGAGGATTACTGCGAGCGCAATGGCTATTGCGTGATCCTGTGCAATTCCGACGACAACCCGGACAAGCAGCGCAGTTACCTGCGGGTGCTGTTGGAAAAACGCATCGACGGCTTGATCGTGGCGTCGGCCGGCGGCGATGTCGGCCTGGCCGAGGGCTTGGCCAACGTGCGCACGCCCATGGTGATCGTCGACCGCGGGCTCGATGGGGTGGACGCCGACCTGGTGCGTATCGACCACGAATATGGCGCGTACCTGGCGACCCGGCACCTGCTGGAGCTGGGGCACCGCGACATTGCCTTTATCGGTGGGCCGGCGGACACCAGCGTGGCGCAGATGCGCCTGGCGGGTTACTGCCGTGCGCTGAAAGAGGCGGGGATCGAATTGCCCGTAGAGCGCATGCTCGAAAGCGATTTCACCAGTACCGGTGGCTATCGCGCGGCGGCGCAACTGCTTGAGCAGCAGCCGCCCAGCGCGATCTTCGCCGCCAACGATATGATCGGCATCGGGGCGCTGCGCGCCGCCGCCGAACGCAACGTGCGGGTGCCCGGCGAGCTGTCGATCATCGGCTTCGACGACATCCAGATGAGCCGTTACGTCTACCCGGCGCTGACCACGGTGGGGCAGTCGATCCTGCAGCTCGGCGAGATGGCGGCCGAAGTGCTGCTACGCCGGATCGCCACGCCGACGCTTGCCACCGACCAGCGGATCGTGACGCCCAGCATTGTCTTGCGAGAATCGACTGCACCGCTGTCCGGTACATTCGCCCAATACCGCTGA	MATIKDVAALAGISYTTVSHVVNKTRPVSDEVRRKVEAAIERLDYVPSAVARSLKAKTTATIGLLVPNSLNPYFAELARGIEDYCERNGYCVILCNSDDNPDKQRSYLRVLLEKRIDGLIVASAGGDVGLAEGLANVRTPMVIVDRGLDGVDADLVRIDHEYGAYLATRHLLELGHRDIAFIGGPADTSVAQMRLAGYCRALKEAGIELPVERMLESDFTSTGGYRAAAQLLEQQPPSAIFAANDMIGIGALRAAAERNVRVPGELSIIGFDDIQMSRYVYPALTTVGQSILQLGEMAAEVLLRRIATPTLATDQRIVTPSIVLRESTAPLSGTFAQYR	PGPT0017992_9192	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
D1-35_02364	915	rbsK	COG0524	Ribokinase	ATGCCAGCAAAAGTAGTGGTAATAGGCAGCCTGAACATGGACCTGGTGACGCGTGCGCCACGTCTGCCCCGTGGCGGTGAAACGCTGATCGGGGAATCGTTTTCGACCATCCCCGGCGGCAAGGGCGCCAACCAGGCGGTGGCTGCCGCGCGCCTCGGGGCGCAAGTGTCCATGGTCGGTTGCGTCGGCGGTGACGCCTACGGTCAGCAATTGCGCGGTGCGCTGGTGGCCGAAGGCATTGATTGCCAGGCCGTCAGCGTTGTCGAGGGTTCCAGCGGCGTGGCGCTGATCGTGGTCGATGACAACAGCCAGAATGCGATCGTGATCGTCGCCGGCGCCAACGGTGAGCTGACGCCGGCTGTGCTCGACAGTTTCGACGCGGTGCTGCAAAGCGCCGAGGTCATCATCTGCCAGCTTGAAGTGCCGGATGCCACCGTCGGCCATGCACTCAAGCGTGGTCGTGAACTCGGCAAGACCGTCATCCTCAATCCGGCGCCCGCTTCTCGGGCATTGCCCGCCGACTGGTACGCCTGCGTCGATTACCTGATTCCCAACGAAAGTGAAGCGGCGATCCTCAGCGGCCTGGCGGTGGAGTCCCTGGAAAACGCCGAAGCCGCCGCGACCCAGTTGATCGCCGCCGGTGCCGGCAAGGTGATCGTGACCCTGGGGGCCCAAGGGCTGATGTTCGCCAACGGTTCGAGCTTCGAACATTTCCCGGCGCCGCGGGTCAAGGCAGTGGACACCACGGCAGCGGGCGACACGTTTGTCGGCGGGTTTGCCGCGGCCCTGGCCAGCGGCAAGAATGAGGTCGAGGCTATTCGTTTCGGCCAGGTCGCCGCTGCACTGTCGGTCACCCGCGCGGGCGCTCAGCCTTCCATTCCAACCCTGCAGGAAGTACAGGCGTTCGAAGCATGA	MPAKVVVIGSLNMDLVTRAPRLPRGGETLIGESFSTIPGGKGANQAVAAARLGAQVSMVGCVGGDAYGQQLRGALVAEGIDCQAVSVVEGSSGVALIVVDDNSQNAIVIVAGANGELTPAVLDSFDAVLQSAEVIICQLEVPDATVGHALKRGRELGKTVILNPAPASRALPADWYACVDYLIPNESEAAILSGLAVESLENAEAAATQLIAAGAGKVIVTLGAQGLMFANGSSFEHFPAPRVKAVDTTAAGDTFVGGFAAALASGKNEVEAIRFGQVAAALSVTRAGAQPSIPTLQEVQAFEA	PGPT0017405_3123	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
D1-35_02365	405	rbsD	COG1869	D-ribose pyranase	ATGAAAAAAACTCCTCTGTTGAACATCGCCCTGTCGCGATTGATCGCCTCCCTCGGTCATGGCGACAAAGTGGTCATCGGTGACGCCGGCCTGCCGGTGCCGCCCCACGTCGAGTTGATCGACCTGGCGCTGACCCATGGGGTTCCGGATTTCGTCAGTACCTTGAAAGTGGTGCTCAGCGAGATGCAGGTCGAGCGCCATGTGTTGGCTCAGGAAATCCTCGATAAACAACCGTCGGCCCTGGCCACGTTGCAGGCGCTGCATGCCGAAGGCGCGCTGGGTACGCGGGAGCTGGTCAGCCACGAGCAATTCAAGACGCTCAGCCGAGAGGCGAGGGCAATCATTCGCACAGGAGAATGTTCTCCATACTGCAACGTGGTGCTGATCGCCGGCGTCACGTTCTAG	MKKTPLLNIALSRLIASLGHGDKVVIGDAGLPVPPHVELIDLALTHGVPDFVSTLKVVLSEMQVERHVLAQEILDKQPSALATLQALHAEGALGTRELVSHEQFKTLSREARAIIRTGECSPYCNVVLIAGVTF	PGPT0016595_512	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
D1-35_02366	1029	rihA	COG1957	Pyrimidine-specific ribonucleoside hydrolase RihA	ATGCACCGCTATGCTCAGAAAATGCATCAACTGTTGCGGAGTCTGCTGCTTTTGTCATTGCTCACGGCTACAAACGCCCAGGCGGCGGAAAAAATCGACCTGATCATCGACACCGATCCAGGCGCCGATGACGTGGTTGCGTTGTTGTTCGCGCTGGCATCCCCCGAAGAGCTGCATATTCGGGCGTTGACCACCGTCGCCGGCAACGTGCGCCTGGACAAGACATCCCGCAACGCGCGCCTGGCTCGCGAGTGGGCCGGGCGTGAAGAGGTTCCGGTGTACGCCGGTGCCCCGAAGCCGTTGATGCGCACGCCGATCTACGCCGAAAACATCCATGGCAAGGAAGGTTTGTCCGGTGTCGAGGTGCATGAGCCGAAGAAAGGATTGGCCGAGGGCAATGCCGTCAGCTACCTGATCGACACGCTCAAGGCCGCCAAGCCACACAGCATCACCATTGCGATGCTGGGCCCGCAGACCAACCTGGCCCTGGCGCTGGTCCAGGAGCCCGACATCGTCCAGGGCATCAAGGAAGTGGTGATCATGGGGGGCGCGCATTTCAACGGCGGCAATATCACGCCGGTGGCGGAGTTCAACCTGTACGCCGATCCCCAGGCGGCAGAGATAGTCGCCAAAAGCGGGCTGAAGCTGACGTATCTGCCACTGGACGTGACCCACAAGATCCTCACCAGCGAGGCACGCCTCAAGCAGATCGCCGCGCTGAACAACAACGCCAGCAAGCTGGTCGGCAATATTCTCAATGAGTACGTCAAGGGCGATATGGAGCACTACGGCATGACCGGCGGCCCGGTGCATGATGCGACCGTGGTCGCCTATCTGCTCAAGCCGCAGTTGTTTACCGGGCGTTCGGTCAATCTGGTGGTGGACAGTCGTGAAGGCCCGACGTTCGGGCAGACGGTCGTCGATTGGTACGACGGCCTCAAGGCGCCCAAGAATGCCTTCTGGGTGAAGGACGGCGATGCGCAGGGGTTCTTCGATCTGTTGACCGAGCGGCTGGCCCGCCTCAAGTAG	MHRYAQKMHQLLRSLLLLSLLTATNAQAAEKIDLIIDTDPGADDVVALLFALASPEELHIRALTTVAGNVRLDKTSRNARLAREWAGREEVPVYAGAPKPLMRTPIYAENIHGKEGLSGVEVHEPKKGLAEGNAVSYLIDTLKAAKPHSITIAMLGPQTNLALALVQEPDIVQGIKEVVIMGGAHFNGGNITPVAEFNLYADPQAAEIVAKSGLKLTYLPLDVTHKILTSEARLKQIAALNNNASKLVGNILNEYVKGDMEHYGMTGGPVHDATVVAYLLKPQLFTGRSVNLVVDSREGPTFGQTVVDWYDGLKAPKNAFWVKDGDAQGFFDLLTERLARLK	PGPT0013465_402	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
D1-35_02367	198			hypothetical protein	ATGAGCACCGTCAGCATCGAAGCCACCATCAATGCCAAATGGGCCCAGGGCCACAGCTCATACAGCCCGGGCAGCCCTGAGGAACTGGCAATCATCGGCATCGAGTTGTTGGTGAAAGAGCTCGGGACGCAAGGCGCTCAGAACTTCATCCAGCAGGCGTTCGAACGCTACCCGAGCATTATCGAGACGGTTGACTAG	MSTVSIEATINAKWAQGHSSYSPGSPEELAIIGIELLVKELGTQGAQNFIQQAFERYPSIIETVD				NA	NA	NA	NA	NA
D1-35_02368	306			hypothetical protein	ATGCAGATCGACCTGAACAAACCAGATGGACTTACCCTCGACTCGGTTCGCCAATTGCTGGCTTCTGCCAGTGATGACGAGCATACCCAACTGCGAGTGACCAAGGACGGCATTGCCTATCTGTCTTCGGGCATCGTGGGTGGTGCTGAAATCGATGGCCTGCGGTTCCGGCTCGAGACATGGGCGAAAGGGTCAGGCTACGTTGGCCGGGTCGCGGCAAGTGACGAGGTCTGGGTCATGCAGATCTATAACGCGCTGAAGGACAACTGGCCGAACCCACCCTTCGATTACATCGATATCTATTGA	MQIDLNKPDGLTLDSVRQLLASASDDEHTQLRVTKDGIAYLSSGIVGGAEIDGLRFRLETWAKGSGYVGRVAASDEVWVMQIYNALKDNWPNPPFDYIDIY				NA	NA	NA	NA	NA
D1-35_02369	315			hypothetical protein	ATGCCTTGGAAGCTCGTGTCATTGAATATTCTGTTGGCCGCCACGTTCTTGAGCGGATGCAGTAGCACGTCGGAGTCGACGCCTGATCCCGTGGCAGCCGAGGCCGGTCATACCCGCTGCGATGCCAAGGCCGCCGAGTTTGCCGTCGGCAAGCAGGCTTCGCCGCAGTTGCTTGAGCAAGCGCGCGCTCGATCCGGCGCGCAGAATGCCCGGATTCTCAAACCCAACGACATGATCACGCTTGAGTACCGCTCCGATCGCCTCAACCTCAACACCGATGCCAAGCTGGTGGTCAATCGGGTGAGCTGCGGCTGA	MPWKLVSLNILLAATFLSGCSSTSESTPDPVAAEAGHTRCDAKAAEFAVGKQASPQLLEQARARSGAQNARILKPNDMITLEYRSDRLNLNTDAKLVVNRVSCG				NA	NA	NA	NA	NA
D1-35_02370	213	capB_2		Cold shock protein CapB	ATGTCTAATCGCCAAACCGGCACCGTTAAATGGTTCAACGATGAAAAAGGCTTCGGCTTCATCACTCCTCAAGGTGGCGGTGACGACCTGTTCGTACACTTCAAAGCTATCGAAAGCGACGGTTTCAAAAGCCTGAAAGAAGGCCAGACCGTTTCCTTCGTAGCTGAGAAAGGCCAAAAGGGTATGCAAGCTGCACAAGTTCGCCCAGAGTAA	MSNRQTGTVKWFNDEKGFGFITPQGGGDDLFVHFKAIESDGFKSLKEGQTVSFVAEKGQKGMQAAQVRPE	PGPT0014675_1803	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
D1-35_02371	303			hypothetical protein	ATGCGTCTGAACACCCTATTGGCAGTAGTCGCCCCCCTCGCCCTGCTGCTTCCGCTGAGTGCCCACGCCGAATGGCCCAAGGGCGAGCGTGAGAAATACATGGCGCAGTGCACTCAAGCGGCGACCCCGCAGATTGGCGCAGCGGCGGCCAAGACCCACTGCGCTTGTGGCGCGGACGCGATCAAATCCTACCCGGCGAGCGATATCCAGGCGCTGATGGACAATAAGGCCACCCCTGAACTGCAGCAGAAAGCGCTCGGTCAGATCGCCAAATGCAAGGCCAATCCACCCGCAAAAAAATGA	MRLNTLLAVVAPLALLLPLSAHAEWPKGEREKYMAQCTQAATPQIGAAAAKTHCACGADAIKSYPASDIQALMDNKATPELQQKALGQIAKCKANPPAKK				NA	NA	NA	NA	NA
D1-35_02372	1923	thrS	COG0441	Threonine--tRNA ligase	ATGCCAACTATTACTCTTCCCGACGGCAGTCAACGTTCATTCGACCACCCGGTTTCCGTAGCCGAGGTCGCCGCATCCATCGGCGCGGGCCTGGCCAAGGCCACCCTGGCCGGCAAGGTCGACGGCAAGCTGGTCGACGCCAGCGATGTCATCGACAGCGATGCCACGCTGCAAATCATCACGCCCAAGGACGAAGAGGGGCTGGAGATCATTCGCCACTCTTGCGCGCACCTGGTTGGCCATGCGGTCAAGCAGCTGTATCCGAGCGCGAAAATGGTCATCGGTCCGGTCATCGACGAAGGCTTTTATTACGACATCGCCTTCGAGCGTCCTTTTACCCCGGACGACATGGCCGCCATCGAACAGCGCATGCAGCAGCTGATCGAGAAAGACTACGACGTCATCAAGAAGGTCACCCCGCGCGCCGAAGTCATCGAAGTCTTCAAGGCCCGTGGCGAGGACTACAAGCTGCGTCTGGTGGAAGACATGCCGGACGAGCAGGCCATGGGCCTGTACTACCACGAAGAATACGTCGACATGTGCCGCGGCCCGCACGTGCCGAACACCCGTTTCCTGAAGTCCTTCAAGCTGACCAAGCTGTCCGGCGCCTACTGGCGTGGCGATGCGAAGAACGAACAGTTGCAGCGCGTCTACGGCACCGCCTGGGCCGACAAGAAGCAGCTGGCGGCCTACATCCAGCGCATCGAGGAAGCGGAAAAACGCGACCACCGCAAGATCGGCAAGCGCCTCGGCCTGTTCCACACCCAGGAAGAATCCCCGGGCATGGTGTTCTGGCATCCGAATGGCTGGACGCTGTATCAGGTGCTTGAGCAATACATGCGCCAGGTCCAGCGCGAAAACGGCTACCTGGAGATCAAGACGCCGCAAGTGGTTGACCGCAGCCTGTGGGAGAAATCCGGGCACTGGGCCAACTACGCCGACAACATGTTCACCACCCAGTCGGAAAACCGCGACTACGCCATCAAGCCGATGAACTGCCCGTGCCACGTGCAGGTGTTCAACCAGGGTCTGAAAAGCTACCGTGAGTTGCCGATGCGCCTGGCCGAGTTCGGTGCCTGCCACCGCAACGAGCCATCGGGTGCGCTGCACGGCATCATGCGCGTGCGGGCCTTTACCCAGGACGACGCCCACATCTTCTGCACCGAAGAGCAGATGCAGGCCGAATCCGCCGCGTTCATCAAGCTGACCATGGACGTCTACCGGGACTTCGGCTTCACCGAAGTCGAGATGAAGCTGTCCACTCGTCCGGAAAAACGCGTCGGCTCCGACGAACTGTGGGATCGCGCCGAAGCAGCCCTGGCCGCTGCGCTCGACAGCGCGGGCCTTGCGTACGATCTGCAGCCGGGCGAGGGCGCTTTCTACGGTCCGAAGATCGAATTCTCGCTGAAAGATTGCCTTGGTCGCGTCTGGCAGTGTGGTACCCTGCAGCTCGATTTTAACCTGCCGATCCGTCTGGGCGCTGAATATGTGTCCGAAGACAACAGCCGCAAGCACCCGGTCATGCTTCACCGCGCGATCCTCGGTTCCTTCGAGCGTTTCGTCGGTATCCTGATCGAACACTACGAGGGTGCGTTCCCCGCGTGGCTGGCGCCGACCCAGGCAGTGATCATGAATATCACTGATAAACAGGCAGATTTTGCCGCTGAAGTCGAAAAAACTCTCAACCAAAGCGGATTTCGTGCCAAGTCCGACTTGAGAAATGAAAAGATCGGCTTTAAAATCCGCGAGCATACTTTGCTCAAGGTTCCCTTTCTCTTGGTTGTTGGAGATCGGGAGGTCGAGATGCAGACTGTCGCTGTGCGTACTCGTGAAGGTGCTGACCTGGGCTCGATGCCCGTCGCCGAATTCGCTGAGTTTCTCGCGCAAGCGGTTTCCCGGCGTGGTCGCCCAGATTCGGAGTAA	MPTITLPDGSQRSFDHPVSVAEVAASIGAGLAKATLAGKVDGKLVDASDVIDSDATLQIITPKDEEGLEIIRHSCAHLVGHAVKQLYPSAKMVIGPVIDEGFYYDIAFERPFTPDDMAAIEQRMQQLIEKDYDVIKKVTPRAEVIEVFKARGEDYKLRLVEDMPDEQAMGLYYHEEYVDMCRGPHVPNTRFLKSFKLTKLSGAYWRGDAKNEQLQRVYGTAWADKKQLAAYIQRIEEAEKRDHRKIGKRLGLFHTQEESPGMVFWHPNGWTLYQVLEQYMRQVQRENGYLEIKTPQVVDRSLWEKSGHWANYADNMFTTQSENRDYAIKPMNCPCHVQVFNQGLKSYRELPMRLAEFGACHRNEPSGALHGIMRVRAFTQDDAHIFCTEEQMQAESAAFIKLTMDVYRDFGFTEVEMKLSTRPEKRVGSDELWDRAEAALAAALDSAGLAYDLQPGEGAFYGPKIEFSLKDCLGRVWQCGTLQLDFNLPIRLGAEYVSEDNSRKHPVMLHRAILGSFERFVGILIEHYEGAFPAWLAPTQAVIMNITDKQADFAAEVEKTLNQSGFRAKSDLRNEKIGFKIREHTLLKVPFLLVVGDREVEMQTVAVRTREGADLGSMPVAEFAEFLAQAVSRRGRPDSE				NA	NA	NA	NA	NA
D1-35_02373	534	infC	COG0290	Translation initiation factor IF-3	ATGAGACAAGATAAACGAGCTGCACCGAAAGCCCCGATCAACGAGAATATCTCGGCACGCGAGGTTCGGTTAATTGGCGCTGATGGCGAGCAGATTGGCATCGTCTCGATTGATGAAGCGCTTCGTATTGCTGAAGAAGCCAAGCTTGATCTGGTGGAAATTTCCGCGGACGCAGTCCCACCCGTTTGCCGGGTGATGGACTACGGCAAGTCGATCTTCGAAAAGAAGAAGCAGATTGCCGCGGCGAAGAAAAACCAGAAGCAGATTCAGGTAAAAGAAATCAAGTTTCGTCCAGGGACGGAGGAAGGGGATTACCAGGTAAAACTGCGCAACCTGGTACGTTTCCTGAGTGACGGGGACAGGGCCAAGGTATCCTTGCGATTCCGCGGCCGTGAGATGGCCCACCAGGAGCTGGGGATGGAACTCCTCAAGCGGGTTGAACAAGACCTGCTCGAGTACGGTTCGGTCGAACAGCATCCTAAGATGGAAGGACGCCAGCTGATCATGGTCATCGCCCCGAAAAAGAAGAAGTAA	MRQDKRAAPKAPINENISAREVRLIGADGEQIGIVSIDEALRIAEEAKLDLVEISADAVPPVCRVMDYGKSIFEKKKQIAAAKKNQKQIQVKEIKFRPGTEEGDYQVKLRNLVRFLSDGDRAKVSLRFRGREMAHQELGMELLKRVEQDLLEYGSVEQHPKMEGRQLIMVIAPKKKK				NA	NA	NA	NA	NA
D1-35_02374	195	rpmI		50S ribosomal protein L35	ATGCCAAAGATGAAGACTAAAAGTGGTGCTGCTAAGCGGTTTCTGAAAACTGCTAACGGTATCAAGCACAAGCACGCTTTCAAGAGCCACATCCTGACCAAAATGTCGACCAAGCGTAAGCGTCAACTGCGCGGTAGCAGCTTGCTGCATCCGTCTGACGTGGCAAAAGTCGAGCGCATGCTGCGCCTTCGTTAA	MPKMKTKSGAAKRFLKTANGIKHKHAFKSHILTKMSTKRKRQLRGSSLLHPSDVAKVERMLRLR				NA	NA	NA	NA	NA
D1-35_02375	357	rplT	COG0292	50S ribosomal protein L20	ATGGCTCGTGTAAAGCGTGGCGTCATTGCCCGTAAGCGTCACAAAAAAATTCTGAAACTTGCTAAAGGCTACTACGGCGCGCGTTCCCGCGTATTCCGTGTTGCCAAGCAAGCGGTAATCAAGGCAGGCCAATACGCCTACCGTGACCGTCGTCAGAAAAAACGTCAGTTCCGCGCTCTGTGGATCGCTCGTATCAATGCTGGTGCTCGTGTTAACGGTCTGTCTTACAGCCGTTTCATCGCTGGCCTGAAAAAAGCGTCCATCGAGATCGACCGTAAGGTTCTGGCTGATCTGGCAGTGAACGAAAAAGCGGCGTTTGCTGCGATTGTCGAGAAAGCTAAAGCCACCTTGGCTTAA	MARVKRGVIARKRHKKILKLAKGYYGARSRVFRVAKQAVIKAGQYAYRDRRQKKRQFRALWIARINAGARVNGLSYSRFIAGLKKASIEIDRKVLADLAVNEKAAFAAIVEKAKATLA				NA	NA	NA	NA	NA
D1-35_02376	1017	pheS	COG0016	Phenylalanine--tRNA ligase alpha subunit	ATGGAAAACCTGGACGCGCTGGTCGCTCAAGCACTAGAGGCTGTGCAAAGCGCTGAAGATATCAATGCCCTGGAGCAAATCCGGGTTCACTACCTTGGCAAGAAAGGCGAGTTGACTCAGGTGATGAAGACCCTGGGGAACCTGCCGGCTGAAGAGCGTCCGCAGGTCGGTGCGCTGATCAACGTCGCCAAGGAGCGTGTCACAGAGGTCCTCAATGCGCGCAAGGCGTTGTTCGAGGAGGCGGATCTGGCTGCCAAGCTCGCCGCCGAGTCCATCGACGTGACCCTGCCTGGCCGTGGCCAGACTTCCGGTGGCCTGCATCCGGTGACCCGTACCCTGGAGCGCATCGAGCAGTTCTTCACCCATATCGGCTATGGCATCGCCGAAGGCCCTGAGGTCGAAGACGACTACCATAATTTCGAAGCGCTCAACATCCCAGGCCATCACCCGGCCCGGTCGATGCATGACACCTTCTATTTCAATGCGAACATGCTGTTGCGCACCCATACCTCGCCCGTACAGGTCCGCACCATGGAATCGCAACAACCGCCGATCCGCATCGTCTGCCCGGGCCGTGTGTACCGCAGCGACTCCGATATCACCCACTCGCCGATGTTCCATCAGGTTGAAGGCCTGCTGGTGGATCGCGACATCAATTTCGCCGACCTGAAAGGCACTATCGAAGAGTTCCTGCGGGTGTTCTTCGAAAAAGAACTGGCCGTGCGTTTCCGCCCTTCGTACTTCCCGTTCACCGAGCCATCGGCTGAAGTCGACATGGAATGCGTGATGTGCAGCGGCAAAGGCTGCCGCGTCTGCAAACAGACCGGCTGGCTGGAAGTCATGGGCTGCGGCATGGTTCATCCGAACGTGCTGCGCATGTCCGGGATCGATCCGGAAGAGTTCTCCGGCTTTGCCTTCGGCATGGGCGTCGAGCGCCTGGCCATGCTGCGTTACGGTGTGAATGACTTGCGCCTGTTCTTCGACAACGACTTGCGATTCCTTGCGCAATTTCGCTAG	MENLDALVAQALEAVQSAEDINALEQIRVHYLGKKGELTQVMKTLGNLPAEERPQVGALINVAKERVTEVLNARKALFEEADLAAKLAAESIDVTLPGRGQTSGGLHPVTRTLERIEQFFTHIGYGIAEGPEVEDDYHNFEALNIPGHHPARSMHDTFYFNANMLLRTHTSPVQVRTMESQQPPIRIVCPGRVYRSDSDITHSPMFHQVEGLLVDRDINFADLKGTIEEFLRVFFEKELAVRFRPSYFPFTEPSAEVDMECVMCSGKGCRVCKQTGWLEVMGCGMVHPNVLRMSGIDPEEFSGFAFGMGVERLAMLRYGVNDLRLFFDNDLRFLAQFR				NA	NA	NA	NA	NA
D1-35_02377	2379	pheT	COG0072	Phenylalanine--tRNA ligase beta subunit	ATGAAATTCAGTGAACAATGGCTGCGCGGCTGGGTAAGCCCGCAGGTAAGCCAGGACGAGCTGGTTGCTCGCCTGTCGATGGCCGGCCTTGAGGTCGATAGCGTGACGCCGGCCGCCGGTGAGTTCAGCGGTGTGGTCGTGGGCGAGGTGCTGAGCACCGAGCAGCACCCGGACGCCGATAAACTGCGGGTTTGCCAGGTCAACAATGGCACGGAGACCTTCCAGGTCGTCTGCGGCGCGCCCAACGTGCGCCCGGGCCTGAAGATTCCGTTCGCCATGATCGGCGCCGAGCTGCCGGGCGACTTCAAGATCAAGAAAGCCAAGCTGCGCGGCGTCGAATCCAACGGCATGTTGTGCTCCCAGGCCGAACTGCAGATCGGCGAAGGTAATGACGGCCTGATGGAACTGCCAGCCGACGCACCGGTTGGCCAGGACATTCGTGAATACCTGGGCCTGGACGATGCCAGCATCGAAGTCGACCTGACGCCGAACCGTGGCGACTGCCTGTCCCTCGCCGGTCTGGCGCGCGAAGTGGGCGCCTTGTATGACGCTCCGGTCACCCGCCCTGCGGTCGCGGTCGTTCCGGCGGTGCATGATGAAGTGCGGCCGGTTGAAGTTCTCGCGCCGGCCGCATGCCCGCGTTACCTGGGTCGTGTGATCCGCAACGTCGACCTATCGAAGCCGACCCCGCTGTGGATGGTCGAGCGCCTGCGGCGCGCCGACGTGCGCAGCATCGACGCGGCCGTCGACATCACCAACTATGTGATGCTCGAACTGGGCCAGCCGCTGCACGCGTTCGACCTGGCTGAAATCAACGGCGGCATCCGCGTGCGCATGGCCGACGAAGGCGAGAAGCTGGTACTGCTCGACGGCCAGGAAGTGACCCTTCGCAGCGACACACTTGTGATCGCCGACCACACCCGCGCCCTGGCGATTGCCGGCGTGATGGGCGGCGAGCACAGTGGCGTCTCGAAGACGACCCGTGATGTGTTCCTCGAAAGCGCGTTCTTCGACCAGATCGCTGTCGCTGGCAAGGCCCGTTCCTACGGCCTGCACACCGACGCCTCGCACCGCTACGAGCGTGGCGTGGATTGGCAGCTGGCCCGTGAAGCCATGGAGCGCGCCACTGGCCTGCTGCTGGAAATCACCGGTGGCGAAGCCGGCCCGATCATCGAGACGGTCAACGAGCAGCATTTGCCGAAGATCGCGCCGGTGACCCTGCGTGCCCAACGCATCACCCAGATGCTGGGCATGGAAATGGACTCGGCCGAAGTCGAGCGCCTGCTTAGCGCCCTGGGCCTGGGCATCCGCGCCGATGGGGAAGGACAGTGGCAGGTTGAAGTGCCGAGCCACCGCTTCGATATCAGCCTGGAAGTCGACCTGATCGAAGAACTGGCCCGCCTGTACGGCTACAACCGTCTGCCGGTTCGCTACCCGCAAGCCCGTCTGGCTCCACAGGCCAAGGCTGAGGCGCGCAGCGAGCTGCCGGAACTGCGCCGCCTGCTGGTGGCCCGTGGTTATCAGGAAGCGATCACCTACAGCTTCATCGATCCGCGCCAGTTCGAGCTGTTCAGCCCGGGTGTCGAGCCGCTGCTGCTGGCCAACCCGATCTCCAACGACATGGCGGCCATGCGTTCGTCCTTGTGGCCGGGCCTGGTCAAGTCGTTGCAGCACAACCTGAACCGCCAGCAGGACCGCGTGCGTCTGTTCGAAAGTGGCCTGCGCTTCGTTGGGCAACTGGACGGCTTGAAGCAAGAGCCGATGCTGGCCGGTGTCGTCTGTGGCAGCCGCCTGCCGGAAGGCTGGGCGCAAGGTCGCGATGTTGTTGATTTCTTCGACGTAAAAGCTGACGTGGAAGCGGTGCTGGGCTTCGCCGGCGCGCTAGACGCGTTCACCTTTGTGCCGGGCAAGCATCCGGCGCTGCACCCGGGCCAAACCGCACGCATCGAGCGAGACGGGCGCGAAGTCGGTTATGTCGGGGCGATTCACCCTGAATTGTCGAAGACCCTGGGCCTCGATCGTCCGGTCTTCGTTTTCGAGCTGGTGCTGGCCGAAGTCGCCCAAGGAAAAATGCCGAAATTCCAGGAGTTGTCGCGCTTTCCTGAAGTGCGTCGTGACCTTGCCCTGGTGGCCGATGTCAGCGTCGCATCCAGCGACGTACTGGCAGTAATCCGTGAAAATGCAGGCGAATGGCTGACGGACCTCAGGCTATTTGACGTGTATCAGGGTAAAGGCATTGATCCGCATAGAAAAAGCCTTGCAGTCGGCTTGACCTGGCAGCATCCATCGCGCACTCTTAACGACGATGAGGTGAATACCGCAACGCAGAATATCCTCACCTCGCTCGAACACAGGTTGAACGCCACGTTAAGGAAGTGA	MKFSEQWLRGWVSPQVSQDELVARLSMAGLEVDSVTPAAGEFSGVVVGEVLSTEQHPDADKLRVCQVNNGTETFQVVCGAPNVRPGLKIPFAMIGAELPGDFKIKKAKLRGVESNGMLCSQAELQIGEGNDGLMELPADAPVGQDIREYLGLDDASIEVDLTPNRGDCLSLAGLAREVGALYDAPVTRPAVAVVPAVHDEVRPVEVLAPAACPRYLGRVIRNVDLSKPTPLWMVERLRRADVRSIDAAVDITNYVMLELGQPLHAFDLAEINGGIRVRMADEGEKLVLLDGQEVTLRSDTLVIADHTRALAIAGVMGGEHSGVSKTTRDVFLESAFFDQIAVAGKARSYGLHTDASHRYERGVDWQLAREAMERATGLLLEITGGEAGPIIETVNEQHLPKIAPVTLRAQRITQMLGMEMDSAEVERLLSALGLGIRADGEGQWQVEVPSHRFDISLEVDLIEELARLYGYNRLPVRYPQARLAPQAKAEARSELPELRRLLVARGYQEAITYSFIDPRQFELFSPGVEPLLLANPISNDMAAMRSSLWPGLVKSLQHNLNRQQDRVRLFESGLRFVGQLDGLKQEPMLAGVVCGSRLPEGWAQGRDVVDFFDVKADVEAVLGFAGALDAFTFVPGKHPALHPGQTARIERDGREVGYVGAIHPELSKTLGLDRPVFVFELVLAEVAQGKMPKFQELSRFPEVRRDLALVADVSVASSDVLAVIRENAGEWLTDLRLFDVYQGKGIDPHRKSLAVGLTWQHPSRTLNDDEVNTATQNILTSLEHRLNATLRK				NA	NA	NA	NA	NA
D1-35_02378	303	ihfA	COG0776	Integration host factor subunit alpha	ATGGGGGCTCTGACGAAAGCTGAGATGGCGGAACGTCTGTATGAGGAGTTGGGCCTGAATAAACGGGAGGCCAAAGAATTGGTCGAACTGTTTTTCGAAGAAATCAGGCACGCTCTCGAAGACAACGAACAAGTCAAATTGTCCGGTTTCGGCAATTTCGACCTTCGGGACAAACGCCAGCGGCCTGGCCGCAATCCGAAAACGGGAGAAGAAATCCCGATCACGGCTCGCCGTGTGGTCACCTTTCGTCCAGGGCAGAAGTTGAAGGCCCGAGTTGAGGCTTATGCTGGAACCAAGTCATAA	MGALTKAEMAERLYEELGLNKREAKELVELFFEEIRHALEDNEQVKLSGFGNFDLRDKRQRPGRNPKTGEEIPITARRVVTFRPGQKLKARVEAYAGTKS				NA	NA	NA	NA	NA
D1-35_02379	357			hypothetical protein	ATGCTGGAACCAAGTCATAACGACGAGCTACCCGTCATCCCAGGCAAACGCTACTTCACCATCGGTGAAGTCAGCGAGCTGTGTGCGGTAAAACCGCACGTGCTGCGTTATTGGGAGCAGGAGTTTCCTCAACTCAACCCGGTCAAGCGCCGCGGAAACCGCCGGTATTATCAGCGCCAGGATGTGCTGATGATCCGCCAGATCCGCGCGCTGCTGTACGACCAGGGGTTCACCATCGGCGGCGCGCGCCTGCGCCTTTCCGGTGATGAGGCCAAAGACGACACAACCCAGTACAAACAGATGATCCGCCAGATGATCGCCGAGCTTGAAGATGTACTGGTGGTGCTCAAGAAATAA	MLEPSHNDELPVIPGKRYFTIGEVSELCAVKPHVLRYWEQEFPQLNPVKRRGNRRYYQRQDVLMIRQIRALLYDQGFTIGGARLRLSGDEAKDDTTQYKQMIRQMIAELEDVLVVLKK				NA	NA	NA	NA	NA
D1-35_02381	762	ygfF_2		putative oxidoreductase YgfF	ATGGTCAACGACTCGCAGGCACCGCTGATCCTGATAACCGGCGGAAGTCGCGGAGTGGGCGCCGCCACCGCGCGGCTGGCCGCCGCACAAGGCTACGACGTCGCGATCAGCTACGTTGCCAACGAGCCCGCGGCGCTGGCCGTGGTCGCGGATGTGGAGGCACTCGGACGTCGCGCGCTGGCCATGCGCGCCGACAGTGCCGACCCCGAACAGGTCGCCGATCTGTTCGCGGCCATCGACCGCTCGTTCGGGCGCATCGACGTCCTGGTCAATAACGCGGGGATACTGTCGGCTCAGTCACGCCTGGAAGACCTTGGCTTCGAGCGCATGCAGCGCATCTTCGCGGTCAACTCCATCGGCCCGATTCTCTGCGCCCAGCAGGCAGTGAAGCGCATGGCGTACCGGCATAACGGCCCGGGCGGCGCGATCATCAACGTCTCTTCGGCATCGGCACGCCTGGGCAGTCCCAACGAATATGTCGATTACGCGGCGTCAAAAGGCGCCTTGGAGACCTTCACCATCGGCCTCGCCAAAGAAGTGGCCCGGGAAGGCATACGCGTCAACTGCATTCGCCCCGGACACATCTACACCGAAATGCACGCCAGCGGCGGCGAGCCGGGGCGGGTTGATCGGGTGAAGGACTCGATCCCCATGGGTCGAGGAGGCCAACCGGAGGAAGTGGCACGGGCGATTCTGTGGCTGGCGGGTGGAGAGGCGTCGTTTGTGACGGGGACGTTTCTTGATGTGACTGGAGGGAAGTGA	MVNDSQAPLILITGGSRGVGAATARLAAAQGYDVAISYVANEPAALAVVADVEALGRRALAMRADSADPEQVADLFAAIDRSFGRIDVLVNNAGILSAQSRLEDLGFERMQRIFAVNSIGPILCAQQAVKRMAYRHNGPGGAIINVSSASARLGSPNEYVDYAASKGALETFTIGLAKEVAREGIRVNCIRPGHIYTEMHASGGEPGRVDRVKDSIPMGRGGQPEEVARAILWLAGGEASFVTGTFLDVTGGK	PGPT0003180_16170	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
D1-35_02382	828			hypothetical protein	ATGCCTATCCATATCATTTCACTGGTTCTTTTCGCCGCGCTCCTGCATGCCAGCTGGAACGCCTTGCTGCGCGGCGGTGCCGATCGGCTGTGGTCAATGACGATCATGTGCATCGCCATCGCCGTGACCTGCGTCGTCGCCGCAGCATTCATGGTCCCACCGGCTGCCGCCAGTTGGGGTTATGCGGTGCTTTCAGCCGTACTGCACGTCGGCTACAACCTGTTCCTGGTGCGCAGCTACCGGGTCGGCGACCTGGGACAGGTCTATCCGATTTCCCGTGGCTCATCACCGGCACTGATCGCCCTGGGCGCCGCCGTCTTCGCCGGAGAAAGCATCGCCCCCGGCGTCCTGCTGGGGATTGCGCTGGTGTCCGGCGGGATCATTTCCCTGGCCTTCAGGGGCCGCCAACTGTCGGTGCCCAGCCTGCCCTACGCGCTGGGCACCGGCTGTTTCATCGCCGCCTATAGCGTCGTCGACGGCATCGGTGCCAGGCTCTCCGGCGCGCCGCTCGCCTATACCGTCTGGATGTGCGCCTTGTGGGGCGTGATGATGCCGATGGTCTACATCGGCCTGCGCGACGCACGCAGCCTGTTCTCCGTCCGCCCCGGAATATTCAGCGCCGCGGCCGGCGGGCTGGTCTCCTTGCTGGCCTATGGAATAGTCATCTACGCCATGAACGAAGCGCCCCTGGGGGCGGTATCGGCATTGCGCGAAACCAGCGTGCTGTTTGCGGCGCTGATCGGCGCCATCTTCCTCGGCGAGACACTCACCGCCCGCCGGATCCTGGCGTGCGCAGTGATCGTCAGCGGCACCATCATCATCGGCTGA	MPIHIISLVLFAALLHASWNALLRGGADRLWSMTIMCIAIAVTCVVAAAFMVPPAAASWGYAVLSAVLHVGYNLFLVRSYRVGDLGQVYPISRGSSPALIALGAAVFAGESIAPGVLLGIALVSGGIISLAFRGRQLSVPSLPYALGTGCFIAAYSVVDGIGARLSGAPLAYTVWMCALWGVMMPMVYIGLRDARSLFSVRPGIFSAAAGGLVSLLAYGIVIYAMNEAPLGAVSALRETSVLFAALIGAIFLGETLTARRILACAVIVSGTIIIG				NA	NA	NA	NA	NA
D1-35_02383	948	gcvA_2		Glycine cleavage system transcriptional activator	ATGACGCGCATCCTCAAATCGCCGGATATCCTTCACATGAGAGACCTGCCGCCGACCGCTACATTACGAGCCTTTGAAGTCGCCACCCGCCACGCGACCTTTACCGCAGCCGCGCAAGAGCTGCACGTCACCCAAAGCGCGGTCAGTCACCAGCTCAAGCACCTGGAGTCCCTTTGGGGATTGCAACTGTTCGAGCGTGGCAAGTCACTGCGCCTCACCGCCGCGGGGGCCACGCTGGCGCCCATCGTGCGCGAGTTCTTCATGAGCCTTGAAGCGACCCTGGGCGATCTACGCGAACAGAAAGGCAGGGTTCGACTCGAAGTCAGCACCACTTATTCCTTCGCGCTGAAGTGGCTGCTGCCCCGCTTGCCGAATCTCTCCCGCCTGCACCCGGAGTTATTGGTCTCGCTGGACACCACCGACAAGATCATCCACTTCTCCAGTGCCCAGGCCGACGTGGCAATCCGGCTCGGCAAGGGCAACTACCCCGGCCTGTATTCGGAATTTCTCTTCGGCGAGCAGGTTTTTCCGGTGGCCAGTCCTGACTTGCTGCAGCGCTTCGGGACGCCACGCAGCCCCGCCGAACTGTTGCACTACCCGTTGCTGACCCGGGATGGCGCCGAGCTGGTGCCGAAATGGGAGATGTGGTTCGAGAAGGTCGGCCTGGAATTCTTGCCACTCAAGGAAAGCGTCAGGTTCGGCGACACCAACATGACGGTCGAGGCAGCCCTGCTCGGCCAGGGCGTTGCCTTGGTGCGCAGCGGGCACGTTGAAAGCGAAATCAGCGATGGCCGCCTGGTGCGGCTGTTCGACGTGCCATTCCCGTCACCACTGGCCTACTATTTTGTCTGTCCCAAGGGCATCGAATCGCAGCCGCATATCGTCAGCTTCCGCCAATGGTTGATCGGCGAGGCGTCGACCGTCCAACGCGCTTATGAAAATGCATGA	MTRILKSPDILHMRDLPPTATLRAFEVATRHATFTAAAQELHVTQSAVSHQLKHLESLWGLQLFERGKSLRLTAAGATLAPIVREFFMSLEATLGDLREQKGRVRLEVSTTYSFALKWLLPRLPNLSRLHPELLVSLDTTDKIIHFSSAQADVAIRLGKGNYPGLYSEFLFGEQVFPVASPDLLQRFGTPRSPAELLHYPLLTRDGAELVPKWEMWFEKVGLEFLPLKESVRFGDTNMTVEAALLGQGVALVRSGHVESEISDGRLVRLFDVPFPSPLAYYFVCPKGIESQPHIVSFRQWLIGEASTVQRAYENA	PGPT0026360_4098	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
D1-35_02384	2019			hypothetical protein	ATGACAGACGTAGAGACGGCTATTGCTGAGTGGGAGCCGCTTGATCTCGAATGGCATCAGGGTTTCGCCTTCCTGGAAGGCGTGCTGCTGGGCGACGGGCAAGTGCCGGACGTGTACATCCTGCTCAACCCTGAAGGCGCACACCCCGACGCGATAGCGAAAGCTGCCAGTGACGGGCGTTATCCGCCTTCGCCTCTGGTTGCCGGCCAGCCGGTCTGGCGGCATCGACGCAACCCCTGGGTTTTGCGTGACGCCTTGCGCGACTATTACCTGCTTCCCGCCTACCCACAGCGCTACGGTTATCACGGGCTCCAGAGCCTGGCGTTTCGGTTCGACAAAGCCCTGGAAAACCTTGGCCACCAATATTGGCGCGATGCGTCCGGCGCCTATTGGTTCGGCGAATACGCAATCACCGAAATCCTTCAGGCAAAGCCCGACAGCCTGGCCCTGGTGGCATTGTCGCCAGCCTCGGTGACTGCAGCCTCTGCCCTGTTCAGCGACGGGGTGAGTATCTTTCTTCAAGGCAAATTCATCGCCAGCGCGACGGCGCGGGTGCGTTATTGCAATCACCCTTCCTATCGAGTGATTGACGGCCAGGTCTACAAGGGCTTCAACCCCCTGCATCAGAAGGACGGCACCCCATTGCCGATCAGCAATCCGGACGACTTCCGGATGCTCGCCGAACGCTGGGGAACCGATGGGCAGTCGATCATCGTGCAGGCGCAGCAAGGTTCGAGCATTGCCTATGAGTATTTCTATCGCATCGACAATGCCGACCTGGCGACCTTCACCGTGCTTAACGAACGTTACGCCAAGGACCAGCAACGCGCCTATTACCTGACCGGCAAGACCCTGCGCTACGTTGGCGATTTTCGGCTGCTGAAGAACTGCCACCCGGCGTTCGACGAGTGCGGCCGCGTGATTGGCAGCAGCGAAAGCGAGGATGAGTATTTCGCCGTGGACGACCTGTACGTCTACGCCGCCGGGACGCGCCTGCGTGACGCCCACGGCCCGAGTTTCCGCCACTTGGGGTTCGATTACTACCGTGATCAACATCACGTCTACAAACGTCAGAAACGCCTGGATGTCGACGTGGAAAGCTTCGTCGTGACCCAGCTCTGTGGCGATGACCTGGACTACTCGCCTGTGCTCGCAGGCGACAGGAATGGTCCGCTGGGTTCTGGCGGAATCATCGATGCGGCAATGCAACAGGCATGGGCGCCCTACTTCGAGGCTCATCCGCAATTGCAGGGTTACTGGTGGCATCGTTTGCAAGCGCCGCCTGAAGTTGCAGAAGCGCAAGCAGAAACGCCGCCGTTACAAGCCATCGGCCTCGGTTTCGAAGTCGGCCGCCAAGTGTATTTTCATGGCCGCGTTATCAATGGGCTGGACGCTGCAAGTTTCCAATTGCTCGACACACACCTGTGCGGCGATGCCCGGGGGCTTTATCTGATCCCGTTTCATAACGCCGAGACACAAGTGCCCGAACGGTTTTCCCAGGAGCCGGTTGAGCACTTCCGCTCACTCGGCGGGCCCTATCTCACCGACGGCAAAACCGTGTTCTGCCACCGGGTCTTCTACCATCCCCCTGAACCGATTCGTAAGGCTCAGGTAGGCAGTTTCGAGTCTTGCGGGCATGGTTGGGCCAAGGATCGGGACGCGGTTTATTACTACGGCGAGGCGAAAAAAAAGCTGCATCCTTGCGACACTCGCATTCTCGGTACCTATGCCGTTAGCCCCACGCTGATCTTCTCGGAAGGCAAGTGGCTGGATGTAGCTTTCGAGCCTGACGAAGTCCGCGTGCCGCATCCCGATTTCCTGCAATTGGGTACACGCAAACTGTTCTGCCATCGGCGGCCGCTGAGTGCCAAGCGTATCGACCTGGGCACCTTGGAATTCCTGACGGAGCGTCATGCCCGAGACAAGCACCGAATCTACCACTACGACGGCTATGCGAGCCTGACCGAGGTCGATGAAGCGCATTATCAGCAATCCCTTCGTGAGCCGTCCCATTCATAG	MTDVETAIAEWEPLDLEWHQGFAFLEGVLLGDGQVPDVYILLNPEGAHPDAIAKAASDGRYPPSPLVAGQPVWRHRRNPWVLRDALRDYYLLPAYPQRYGYHGLQSLAFRFDKALENLGHQYWRDASGAYWFGEYAITEILQAKPDSLALVALSPASVTAASALFSDGVSIFLQGKFIASATARVRYCNHPSYRVIDGQVYKGFNPLHQKDGTPLPISNPDDFRMLAERWGTDGQSIIVQAQQGSSIAYEYFYRIDNADLATFTVLNERYAKDQQRAYYLTGKTLRYVGDFRLLKNCHPAFDECGRVIGSSESEDEYFAVDDLYVYAAGTRLRDAHGPSFRHLGFDYYRDQHHVYKRQKRLDVDVESFVVTQLCGDDLDYSPVLAGDRNGPLGSGGIIDAAMQQAWAPYFEAHPQLQGYWWHRLQAPPEVAEAQAETPPLQAIGLGFEVGRQVYFHGRVINGLDAASFQLLDTHLCGDARGLYLIPFHNAETQVPERFSQEPVEHFRSLGGPYLTDGKTVFCHRVFYHPPEPIRKAQVGSFESCGHGWAKDRDAVYYYGEAKKKLHPCDTRILGTYAVSPTLIFSEGKWLDVAFEPDEVRVPHPDFLQLGTRKLFCHRRPLSAKRIDLGTLEFLTERHARDKHRIYHYDGYASLTEVDEAHYQQSLREPSHS				NA	NA	NA	NA	NA
D1-35_02385	609	rhtB_4	COG1280	Homoserine/homoserine lactone efflux protein	ATGCCGTTTGATACCTGGTTGCTCTATCTGGTTACTTGCTGCGGCATAGCGGTAGTGCCAGGTCCCAATGCCTTGTTGGCGCTGACCCACGGCGCCATTCACGGCAGCCGGAAAACGCTGTTCACCATCACCGGCGGCGTCCTCGGCTTTGCCGTCGTGCTGACGCTTTGCGCCCTGGGCCTGGGTGCGCTGATCCAGGCTTCAGTTACCTGGTTCACGGCGTTGAAAATCATCGGCGGGCTCTATCTGATCTGGCTGGGCTTCAATCTATGGCGATCGCCTCCCGTCAGTCTTGAGGCGCCCGCTACAGACAGCTTCCGTGGTTCGTCGCTGTTCCGCCAAGGGCTGGTATCGGCCATTTCCAATCCCAAGGCGCTGCTGCTGTTTACCGCATTCATTCCGCCGTTTCTGGATCCCCACCGGAACATCATCGCGCAGACGTTGGCCATCGCGCTGACTTACGCGGTTGTCGAGTTTATCGTCGAGTTCGGTGTAGCCAGCGCAGCGCACCGGGTCAGGCCCTGGCTGGCCCGAACCGGGCGCCGGTTCAATAAAGTCTGCGGCGGTTTTTTCGTACTTTTCGGGGTGAGCCTGCCGATTCATAACTGA	MPFDTWLLYLVTCCGIAVVPGPNALLALTHGAIHGSRKTLFTITGGVLGFAVVLTLCALGLGALIQASVTWFTALKIIGGLYLIWLGFNLWRSPPVSLEAPATDSFRGSSLFRQGLVSAISNPKALLLFTAFIPPFLDPHRNIIAQTLAIALTYAVVEFIVEFGVASAAHRVRPWLARTGRRFNKVCGGFFVLFGVSLPIHN	PGPT0021036_1207	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_RELATED_GENES	CE-QSR-PUTATIVE_TRANSPORTER,PGPT0021036-rhtB-K05834	NA	NA
D1-35_02386	783			hypothetical protein	ATGACCACTCGCAAAACCGTCCTCATCACTGGCGCCTCCACCGGCATCGGCGCGGTCTATGCCAAGCGCTTCGCTCAACGCGGCCATGATCTGGTGCTGGTAGCCCGCGACAACGCGCGGCTGGAAGCGCTGGCAAGCGAACTGCGCAATGAACACAACGTCAGTGTCGATGTGCTCCAGGCCGACCTCACCCAAACCGGCGATCTGCACAAGGTCGAGGCCCGCCTGCGCGATGACGACAGCATCGGCATCCTGATCAACAACGCCGGCGCCGCCCAGTCCGGCAGTTTCATCGAACAGACCACCGACAGCGTCGCGCACCTCGTTGCGCTCAACACCACCGCGCTGGTTCGACTCGCCAGCGCCATCGCCCCGCGCCTGGCAAACGCTGGCGAAGGCGCAATCATCAACATCGGCTCCGTGGTCGGCCTGGCACCGGAATTTGGCATGTCGGTCTACGGCGCAACCAAGGCCTTTGTGCTGTTCCTCTCCCAAGGGCTCAGCCTCGAGCTTTCGCCCAAAGGCGTCTACGTCCAAGCCGTGCTGCCGGCAGCCACCCGTACCGAAATCTGGGAGCGCGCCGGCATCGACATCAATACGCTGAGTGAAATCATGGAAGTGAGCGACCTGGTGGATGCCGCGCTGGTCGGCTTCGATCGCCGCGAAGGCGTGACCATCCCGCCCTTGCAGGACGGCGCGCGCTGGGATGCGTTGCAGGCGGCGCGGCAGGGACTGCTGTCGCAGATCAAGCAATCGACGGTTGCCGAGCGCTACAAAGCCTGA	MTTRKTVLITGASTGIGAVYAKRFAQRGHDLVLVARDNARLEALASELRNEHNVSVDVLQADLTQTGDLHKVEARLRDDDSIGILINNAGAAQSGSFIEQTTDSVAHLVALNTTALVRLASAIAPRLANAGEGAIINIGSVVGLAPEFGMSVYGATKAFVLFLSQGLSLELSPKGVYVQAVLPAATRTEIWERAGIDINTLSEIMEVSDLVDAALVGFDRREGVTIPPLQDGARWDALQAARQGLLSQIKQSTVAERYKA	PGPT0030485_2515	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-OXIDOREDUCTASE_ACTIVITY	PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124
D1-35_02387	582			hypothetical protein	ATGAGAGTGACCAAGGCCCAGGCACAGGCAAACCGCGAGCACATCGTCGAGACGGCGTCCGTGTTGTTCCGCGAGCGCGGCTTTGACGGAATAGGCGTGGCGGACCTGATGGCTGCTGCGGGTTTTACCCATGGCGGCTTCTACAAACATTTCGGTTCGAAGGCCGACCTGATGGCTGAGGCTTCCGCGAACAGCCTGTCGCAGTCGCTGGCCAGCACCGGCGAGCTTGATGTAGCCGGATTTTTTGCAATGTATCTATCCAGGGAACACCGCGACGCGCGGGGGCACGGTTGCACGATGGCGGCGTTGTGCGGGGATGCGGCGCGTCAGTCAGACGAGTTGAAGGCGACTTTCGCCAGCGGCGTCGAAAGCACCCTGGCTTCGCTTGAAAAAAAGCTTGGGACACAGGAGGAGGGGGCCCGGGCGAAGATGCTTGGCCTGCTCGCCCAGGCTATCGGCGCGATCATGCTTTCGCGCGCGTGCCCGGACGATGCCCCGCTGGCTGGGGAAATACTCGAGGTCTGCCGAGCACAGATCCTCGCGTCCCTGCCAGCATCCGGAGCCATGAAAAACCAGCGGTAG	MRVTKAQAQANREHIVETASVLFRERGFDGIGVADLMAAAGFTHGGFYKHFGSKADLMAEASANSLSQSLASTGELDVAGFFAMYLSREHRDARGHGCTMAALCGDAARQSDELKATFASGVESTLASLEKKLGTQEEGARAKMLGLLAQAIGAIMLSRACPDDAPLAGEILEVCRAQILASLPASGAMKNQR				NA	NA	NA	NA	NA
D1-35_02388	264			hypothetical protein	ATGACAGACATATATCTGCTGATAGCGAGCGGCACGGACCAGAGCGATGCGTACGTGCTGGGTTGGTTCGATGACAGGAACAAAGCCAGGGAAGTGGCCGAGCAGAAAGAATGGGAGGCTTATCGCGCCAGCCTGAAGGCGGAAAACCGTTGGTCAAGCCATAAACCGCTGGCGCCGGACAAGACCGAGTATCGGCGGTACTGGATCAAGACCGTGTCGAAGTTCGAATACGTTTCCGTCCCGAGGTCCCTGGCGGTTCACTGA	MTDIYLLIASGTDQSDAYVLGWFDDRNKAREVAEQKEWEAYRASLKAENRWSSHKPLAPDKTEYRRYWIKTVSKFEYVSVPRSLAVH				NA	NA	NA	NA	NA
D1-35_02389	915	gcvA_3		Glycine cleavage system transcriptional activator	ATGAAACTGCAACCGTTGCCGCCGCTCAACAGCCTGGTGGCGTTCGAGGCCGCTGCTCGCCACCTGAGTTTCACCGTGGCGGCTCGTGAACTGAACGTCACCCAGGGCGCCATCAGCCGCCAGATACGCCTGCTCGAAGATTATCTGGGCACGGCACTGTTCATCCGCACGACCCGTGAAATCAACCTCACTTCTACAGGCAGCCAGTACCACGAAAGCATTCGCGACACTCTGCAGCAGATCGCCCGCGCCACGGCTGGCGTTCGGCATTGGCAAGGCGCCCAGCAAGTCACCGTGGTCACCAGTACGGCGATGGCATCCCTGTGGCTGCTCCCGCTTGTTTCGGAGTTTCAGCGCCAGCACGAAGAAATCGACCTGCGCATCATCGCCACCGACCAGGTCGAGGACTTTTCCCGACTCGATTGCGATCTGGCGCTGTATTACTGCAGCAAGCCGCCCAACAACATGAAAGTCTCCGCGCTGTTCAGCGAAGAGATTTTCCCGGTATGCAGCCCCACGTACCTGGCGCAGCACCCCGAGGCCGGCAGGCTCGACCAGCTCGGCGCCTGCACCTGGTTATGGCTGGAGGATCAGCATCGGGACTGGATCGGCTGGAAGGAATGGTTCCGACGCCTGGGCCACCAGGCGCCAGAGCCTCGTCGGCGGATCAACATCAACAGCTACTCGATGCTGATCCAGTCGGCGCTGGCAGGGCAAGGTGTGGCCCTGGCCTGGTCGAGGTTGCTCGGCGACCACTTGCAGACCGGCAACCTTGTCCGCCCGACCGCTAGCCTCTTGCGCACCGATGCGCAGTTTTGCCTGCTGGAACCCTTGGGGCGCGTGCCGAACCGGCAAAGTGTCAATCGCTTCCGCGAATGGCTGATGGCCTACCTTGCGCAGACGGAGGATGCCTGA	MKLQPLPPLNSLVAFEAAARHLSFTVAARELNVTQGAISRQIRLLEDYLGTALFIRTTREINLTSTGSQYHESIRDTLQQIARATAGVRHWQGAQQVTVVTSTAMASLWLLPLVSEFQRQHEEIDLRIIATDQVEDFSRLDCDLALYYCSKPPNNMKVSALFSEEIFPVCSPTYLAQHPEAGRLDQLGACTWLWLEDQHRDWIGWKEWFRRLGHQAPEPRRRININSYSMLIQSALAGQGVALAWSRLLGDHLQTGNLVRPTASLLRTDAQFCLLEPLGRVPNRQSVNRFREWLMAYLAQTEDA	PGPT0026360_2904	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
D1-35_02390	1119		COG1018	NADPH oxidoreductase	ATGACGACCTACGAAAAGCTGACGCGGCCCCAACGTTTTACCGACCCGACGACCTGGACCGCTTATGGCTCGCAATGGCACAGCGGCGAGCAGAAAACCTTGTCATGTTGCGCCGTGCACCAGGAAACCCATGACGTAAAGACGTTCGTGTTCCAATGCGCGGACTTCAGTGCCTTGAGCTTCGAACCGGGGCAATTCATCACGCTGTCGCCGGTCATCGGTGGGCAAACCATCGCGCGCTGCTACACGCTGTCGTCCTCCCCCACGCGCCCGTTCACCTTTTCGATTACGGTCAAGCGCGTGCCGGGTGGCGTGGTCTCGAACTGGCTGCATGACCATCTCGAACCGGGAGACAACCTCAGGGCGTCCGGCCCGGCGGGCAGTTTCACACCGGTGGGTCATTCGGCGACAAAACTGCTGTATCTGTCGGCCGGTTCCGGCGTGACGCCCTTGATGTCGATGACTCGCGCCGCCTGCGACATGGCGGCCAATCTCGACATCGTGTTCCTGCACAGCGCCCGCACGCCGGCGGATATCATTTTCCATGACGAACTGACGCGAATGCAGGCCGATATGCCCGGCCTGCGGGTCATCGGCATTTGCGAAGGGCTCGGCGTTGCCAGCCAATGGCAGCAACCGATCGGTCGGCTCGACCTGCCTCTGTTGAGCCAGCAAGTACCGGACTACCACCAGCGGGAAATCTTCACCTGTGGCCCCCAGGGCTACATGGAAGCAGTCAAGGCGCTGCTCAGGGAAGCGGCGTTCGATTTTCGCCACTATCATCAGGAAAGCTTCGATATCGCGGTGCTGAATGAGGAACCGCTGATCGAGCAGGCCCCCTCACTCGACCAGCAACAGATGTTCACCGTCACCCTGTCGCGCTCTGGCAAGACCTTCAGCATGCCCGGCAACCAGACCGTGCTGAGCGCGGCAAAAAAAGCCGGGGCGATCGTGCCCTCCTCGTGCAGCCAGGGCATCTGTGGCACCTGCAAGACCGCCCTGCTGGAAGGCACGGTGGACATGAACCACAACGGCGGCATCCGGCAACGGGAGATCGACAAAGGCCTGCGCTTGCTCTGCTGCAGCAAGCCGACCTCCAATCTGATCATCGATCTCTAG	MTTYEKLTRPQRFTDPTTWTAYGSQWHSGEQKTLSCCAVHQETHDVKTFVFQCADFSALSFEPGQFITLSPVIGGQTIARCYTLSSSPTRPFTFSITVKRVPGGVVSNWLHDHLEPGDNLRASGPAGSFTPVGHSATKLLYLSAGSGVTPLMSMTRAACDMAANLDIVFLHSARTPADIIFHDELTRMQADMPGLRVIGICEGLGVASQWQQPIGRLDLPLLSQQVPDYHQREIFTCGPQGYMEAVKALLREAAFDFRHYHQESFDIAVLNEEPLIEQAPSLDQQQMFTVTLSRSGKTFSMPGNQTVLSAAKKAGAIVPSSCSQGICGTCKTALLEGTVDMNHNGGIRQREIDKGLRLLCCSKPTSNLIIDL	PGPT0013685_227	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013685-gbcB-K21832	NA	NA
D1-35_02391	1254			Carnitine monooxygenase oxygenase subunit	ATGAACCCAACCCTGAAAACCCATCGTGAACTGCTGGCCGACCGCACCCCGGGCCATGGCATGCCCGGCGGTCTGTTCGGCCGCGAGGATATTTTTGCAACCGACGTCGATGTGTTTTTTACCAAACACTGGATTCTGGTGGGGGTCACCAGCGACGTTGCCGAACCCGGCGATGTTTCGACGATCGATATCGGCAAATCCTCGATCATCCTGGTCCGCGATGATGACGAGCATGTGCAGGCGTTCCGCAATGTCTGCCGGCACCGTGGGGCGCGCTTGAAACAGGCCGGCAAATCGACGGTGGGCATGCTGGTCTGCCCCTATCACCAATGGACGTACGACCTGGATGGCAGCCTGAAACATGCCGCGCACATGGGCAAGGATTTCGACCCGGGGTGCAAGAGCCTGATCCCGGTCCACACCCGCGTGGTGGGTGCCCATGTATTCGTCTGCCTGAGTGACGAGCCGCCGGAAGACATCCTGTACCTCGACCAGGTCATGACCCCGCGTTTCGCTCAGTACGATCTCAGCCATTCGAAGATCGCCTACGAGTCGGAAATCATCGAAAACGGCAATTGGAAACTGGTGATCGAGAACAATCGCGAGTGTTATCACTGCGCCGCCACTCACCCCGAATTGACCGCGTCGTTCCTGCCGGAAGACTTCGGCTTCTGCACCGATGGCCTGGGCGAGGACTCGCTCCTGGCACTCAAGGAATACCACCAGCGCAACGCCGATACCAGGCAAGACTGGGAAAACCAAGGCTACCTCTGCGAGGCCGTCGAGCACCTGGGCGAGGACGCGGTGACTCAGTTCCGCACCCAGCGCCTGGCCATCGCCGGCAACGGCGAATCCCAGACCCTCGATACCCGCGTCGCCTGCACGCGCTTGTTTGGCGACCTCACCCGGCGCGATCTGGGCGACATGCACCTGTGGACCCACAACTCATGGACCCACATCATGAGCGACCATGCGGTGGTCTCCTACATCATCCCGCTGGCGCCCGACAAAACCCTGGTGCGGACCAAATGGCTGGTGCACGCCGATGCCATCGAGGGCGTGGACTACCAGGTGGATAAACTGATCGAGGTCTGGGCGGCGACCAATCTTCAAGACGCCAACCTGGTCGGCATCACCCACAGCGGCACCCAGGACCCGGCCTATTCACCCGGACCGTTCTCGGCGTTTACCGAAACCTATGTCGACCAGTTTTCTCGCTGGTACGCGGCGCGTCTGGCCGCCCATGGCGTGTGA	MNPTLKTHRELLADRTPGHGMPGGLFGREDIFATDVDVFFTKHWILVGVTSDVAEPGDVSTIDIGKSSIILVRDDDEHVQAFRNVCRHRGARLKQAGKSTVGMLVCPYHQWTYDLDGSLKHAAHMGKDFDPGCKSLIPVHTRVVGAHVFVCLSDEPPEDILYLDQVMTPRFAQYDLSHSKIAYESEIIENGNWKLVIENNRECYHCAATHPELTASFLPEDFGFCTDGLGEDSLLALKEYHQRNADTRQDWENQGYLCEAVEHLGEDAVTQFRTQRLAIAGNGESQTLDTRVACTRLFGDLTRRDLGDMHLWTHNSWTHIMSDHAVVSYIIPLAPDKTLVRTKWLVHADAIEGVDYQVDKLIEVWAATNLQDANLVGITHSGTQDPAYSPGPFSAFTETYVDQFSRWYAARLAAHGV	PGPT0013680_347	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013680-gbcA-K00479	NA	NA
D1-35_02392	1224	opuAA_1	COG4175	Glycine betaine transport ATP-binding protein OpuAA	ATGAGCACCATTCGTTTTGAAGACGTCGACGTCATCTTCGCCAGCCGCCCGAAGCCGGCGCTGGAGCTGCTCGACCAGGGTTTTTCGCGCCCGGAGATTCTGCAGCAAACCGGCCTGATCGTCGGCGTGGAGAAGGCCAATCTCGACATCAACAAAGGTGAAATCTGCGTGCTGATGGGCCTGTCCGGCTCCGGCAAATCGAGCCTGTTGCGCTGCATCAATGGCTTGAACACGGTGAGTCGCGGCAAGTTGTTCGTCGAGCACGAGGGCCGACAGATCGACATCGCCGCCTGCACCCCGGCCGAGCTGAAAATGATGCGCACCCGACGCATCGCCATGGTCTTCCAGAAATTCGCCCTGATGCCCTGGCTGACCGTGCGCGAGAACATCGGTTTCGGCCTCGAAATGCAAGGCCGCCCCGAGAAGGAGCGGCGCAAGCTGGTCGACGAAAAGCTTGAACTGGTGGGCTTGACCCAATGGCGCAACAAGAAGCCCGACGAGTTGTCCGGCGGCATGCAGCAGCGCGTCGGCCTGGCCCGCGCCCTGGCGATGGACGCCGATATCCTGCTGATGGACGAACCCTTCTCGGCCCTCGATCCGCTGATTCGCCAAGGCCTGCAGGACGAACTGCTCGACCTGCAGCGCAAGTTGCACAAGACCATCGTCTTCGTCAGCCATGACCTGGACGAAGCCCTCAAGCTGGGAACCCGGATCGCCATCATGAAAGACGGCAAGATCATCCAGTACAGCAAACCCGAGGAGATCGTGCTGAAGCCGGCCGACGACTACGTGCGCAATTTCGTCGCCCACACCAACCCACTGAATGTGCTCTGTGCGGGAAGCCTGATGACCCCGTTGGACCAGTGCATATCCGCACAGGGCGAATATTGCCTGGATACGGTGCAGAACCTCTGGGTTGCGCTGAACGCATCGAGAGGATTGGCCAGCGTGCGCCGCGGCGCTGCGGCCCAACCGCCGCAACACTGGAACCGCAACGAGGCCACCGCGCCCTTGCGCCGCCTGGTCACCTCGGTGCCGGCGGATACCGGCATGCGCGAGGCGCTGCGTATCCGCTACGAAACAGGACACCCATTGATCGTGCTCGATAAAGACCAGACCGTCGTCGGTGTACTGGGCGATACGGAACTGTACCGCGCGCTGCTCGGGCATGACCTGTCGCGCCCGGTTTTATCCGAGCCATTGTCAGAGCCTGCGGTGGCCTGA	MSTIRFEDVDVIFASRPKPALELLDQGFSRPEILQQTGLIVGVEKANLDINKGEICVLMGLSGSGKSSLLRCINGLNTVSRGKLFVEHEGRQIDIAACTPAELKMMRTRRIAMVFQKFALMPWLTVRENIGFGLEMQGRPEKERRKLVDEKLELVGLTQWRNKKPDELSGGMQQRVGLARALAMDADILLMDEPFSALDPLIRQGLQDELLDLQRKLHKTIVFVSHDLDEALKLGTRIAIMKDGKIIQYSKPEEIVLKPADDYVRNFVAHTNPLNVLCAGSLMTPLDQCISAQGEYCLDTVQNLWVALNASRGLASVRRGAAAQPPQHWNRNEATAPLRRLVTSVPADTGMREALRIRYETGHPLIVLDKDQTVVGVLGDTELYRALLGHDLSRPVLSEPLSEPAVA	PGPT0013630_562	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
D1-35_02393	849	opuAB_1	COG4176	Glycine betaine transport system permease protein OpuAB	ATGTGGACTGCACAAGAAAAACTCCCACTGGGTGAGTACATCGCCCGATACGTCGAATGGCTGACCCAAAATGGCGCCGATGTCTTCGACGCCATTTCGCTGTCGCTCTCCGAGGTCATTTCGGTCTTTACCAGCGCCCTCCTCTGGTTCAACCCGCTGGCCTTGATCGGGCTGCTGGCCCTCTTCGCTTATTACATTCAACGCAAGGTGAGCCTGACGCTCTTCGTCGCCCTGTCGTTCCTGTTGATCTTCAACCTGGGCTACTGGCAGGAAACCATGGAAACCCTGGCCCAGGTGACATTCGCCACGCTGGTGTGCGTCATCATCGGCGTGCCGCTGGGCATCGTCGCGGCGCATCGTCCCTGGTTCTACGCAACCCTGCGACCGGTGCTCGACCTGATGCAGACCGTCCCCACTTTCGTCTACCTGATCCCGACCTTGACGCTGTTCGGCCTCGGCGTGGTTCCGGGATTGATTTCCACGGTGGTCTTCGCCATTGCCGCGCCAATCCGCCTGACCTACCTGGGCGTGCGCGATGTGCCTCAAGAACTGATGGACGCCGGCAAAGCCTTCGGCTGCTCACGTCGCCAGCTGCTGGCACGCATCGAGCTGCCCCATGCCATGCCGAGCATCGCCGCCGGGATTACCCAATGCATCATGTTGTCGCTGTCGATGGTGGTCATCGCGGCGCTGGTCGGTGCGGATGGCCTGGGCAAACCCGTGGTCAACGCGCTGAATACCGCCGATATCGCCATGGGTTTCGAAGCAGGCCTGGCGATCGTGTTGTTGGCGATCATCCTCGACCGCATCTGCAAGCAGCGCGAAACCGTGAAAAGAGGTGACGCATGA	MWTAQEKLPLGEYIARYVEWLTQNGADVFDAISLSLSEVISVFTSALLWFNPLALIGLLALFAYYIQRKVSLTLFVALSFLLIFNLGYWQETMETLAQVTFATLVCVIIGVPLGIVAAHRPWFYATLRPVLDLMQTVPTFVYLIPTLTLFGLGVVPGLISTVVFAIAAPIRLTYLGVRDVPQELMDAGKAFGCSRRQLLARIELPHAMPSIAAGITQCIMLSLSMVVIAALVGADGLGKPVVNALNTADIAMGFEAGLAIVLLAIILDRICKQRETVKRGDA	PGPT0013635_2038	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
D1-35_02394	702			hypothetical protein	ATGCCCCAGGTAGGAAAGGCGCGCGGCAAGGCCCAGGACGCCGGCTGGCGAGGGTCGCCCGAAGGCTGGCTGGAAGCGGCCTACGAGGCCTTGAAGGAGTCCGGCATCGATGCGGTCAGGGTCATGCCGCTGGCCAAGCGTTTGGGATTGTCACGCACCAGCTTCTATTGGTTCTTCGAGGATCGTGAGCAGTTGCTCGCCGCCTTGCTGTCGCGCTGGCGCGAGACCAACACCGGTGGCTTGATCCGGCAAAGCGAGAGCTACGCCGAGAGCATTTCCGAGGCGATCCTGAATGTCTTCGAATGCTGGCTCAATCCTCAATTGTTCGATTCGCAATTCGAATTCGCCGTGCGCAGCTGGGCGCTCCAGTCCGCTGAAGTGGCGCAGGAAGTCGCCATCGTCGACGAGCAGCGAATGGGCGCCCTGGCGAGCATGTTCAAGCGCTTTGGTTATGACAGCCAGGGTGCCGACGCACGGGCCCGGACGATTTACCTGACCCAGATTGGCTACATCACCATGAACACCAGCGAGCTGATCACCGTGCGTTTCCAGCGCATCCCGCATTATGTGAGCATTTTCACCGGCAAAGTACCCAAGCAGCGCGAGCTGGATCGTTTCTACGGTAAATTCGGTTATGCCGAAAAAGAGCCAGGGATCTTTGTGCCGTTGACGGAAACCTTTGAAGAGACGGCCGGTAAATGA	MPQVGKARGKAQDAGWRGSPEGWLEAAYEALKESGIDAVRVMPLAKRLGLSRTSFYWFFEDREQLLAALLSRWRETNTGGLIRQSESYAESISEAILNVFECWLNPQLFDSQFEFAVRSWALQSAEVAQEVAIVDEQRMGALASMFKRFGYDSQGADARARTIYLTQIGYITMNTSELITVRFQRIPHYVSIFTGKVPKQRELDRFYGKFGYAEKEPGIFVPLTETFEETAGK				NA	NA	NA	NA	NA
D1-35_02395	786	proC_1		Pyrroline-5-carboxylate reductase	ATGAACGCGCCGACGCTGGGCATCATTGGCGGAACGGGCTGGCTGGGCGGGGCGATTGCCAAGGCTGTGTTGGCGCAGGCGCTGTTGCCGGCGGGTAACCTGGTTATTTCCAATCGCTCGGGTGTCCATCCTTTGGCGCAACAAGGCGTTTGTCTGGTCACGGACAACCAGGCGCTGGTGGACCGCAGCGACGTGATCATCATCGCGGTGCGCCCTGAGCAGTTCGCCGGCCTGAGCCTCAACGCTTCTGGCAAGACAGTCATTTCATTGATGGCCGGGATCACCGCGCAGGCCATTGCCGCCCGGACCTCGGCTTCGAGAGTGCTGCGGGCGATGCCCAATGCGGCGGTGGAGATCGGGCAGTCGTTTACACCTTGGTATTGCTTCGGCGTGGTGGATGCGGCGACGAAGAGCTTCGTCCAGCGCTTGTTCGGATGCGTCGGTACTGCCGCCGAGGTTGAGCAGGAAGACTTCATTGATTACCTTTCCGCGCTTTCCGGCACCGGCCCGGCCTTTCCCGCCTTGCTCATGACAGCCCTGGCCAATCAGGCGATGGAGGCCGGCATCCCCGCCGAGATTGCACAGCTTGCGGCGAAGAATGTCGTGGTCCACAGCAGCCAGTTACTGGCCAGCCATGACGCCGGGCAGATGATCGACGCCCTGGTCGCCTACCGCGGCGTGACCGCCGCCGCCCTCCAGGCGATGACCGAGGGACATTTCGAGGAGCAGGTGGGGAAGGCATTGCAAGCCGGCGCCACGGTCGCCCGCCAGGGCCTGCAAGCCTGA	MNAPTLGIIGGTGWLGGAIAKAVLAQALLPAGNLVISNRSGVHPLAQQGVCLVTDNQALVDRSDVIIIAVRPEQFAGLSLNASGKTVISLMAGITAQAIAARTSASRVLRAMPNAAVEIGQSFTPWYCFGVVDAATKSFVQRLFGCVGTAAEVEQEDFIDYLSALSGTGPAFPALLMTALANQAMEAGIPAEIAQLAAKNVVVHSSQLLASHDAGQMIDALVAYRGVTAAALQAMTEGHFEEQVGKALQAGATVARQGLQA	PGPT0014225_5653	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286	NA	NA
D1-35_02396	2037	stcD_1		putative N-methylproline demethylase	ATGTCCAGCGATCCTCTGCTGCAGCCCTACAAGATCAAGCATCTGACCCTCAAGAATCGGATCATGACCACCTCCCACGAACCCGCGTATCCCGTGGATGGCATGCCGAAGGATTTGTACCGCGCCTATCACGTCGAACGGGCGAAGGCCGGCGTTGCGTTGACCATGACCGCAGGCTCCGCTGCGGTTTCACGGGACAGCCCGCCGGTGTTCAACAACGTGCTGGCGTACAAGGACGAGGTGGTCAAATGGATGAAGGACCTGACCGACGAATGCCACGAACACGGCGCCGCGGTGATGATTCAACTGACCCACCTGGGGCGGCGCACGCGCTGGGACAAGGCTGACTGGCTACCGGTCGTCTCGCCGTCCCATCGCCGCGAAGCGTCCCACCGGGCGTTCCCGAAAAAGATGGAAGACTGGGACATCGACCGGATCGTCAAGGACTACGTGGACGCCGCCGAACGCATGAAGGCCGCCGGTCTCGACGGTTTGGAACTGCAGGCCTACGGGCACCTCATGGATCAATTCTGGTCGCCACTGACCAACGATCTCGACGGCCCCTACGGTGGTTCGCTGGAAAACCGCATGCGCTTCACCTTCGATGTGTTGCGCGGCATCCGCCAGCGCTGCGGTGAGGACTTCCTGCTGGGGGTGCGCTACACCGGCGATGAAGACCTGCCCGGCGGCTTTGGCGCCAGCGATGGCCTGCAGATTTCCCACATGCTCAAGGACAGCGGGCTGGTAGATTTCCTCAACGTCGTGCGCGGGCACATCGATACCGATGCCGGCCTCACCGACGTGATCCCGATCCAAGGCATGCGCAACTCGCCGCATCTGGATTTTGCTGGCGAGATCCGCTCCGCCACCGGTTTCCCGACCTTTCATGCAGCGAAGATCCCGGACGTCGCCACGGCGCGACACGCCATCGCCTCGGGCAAGGTGGACATGATCGGCATGACCCGCGCGCACATGACCGACCCGCATATCGTGCGCAAGATCATCGAAAAACGTGAAGAAGAGATCCGCCCTTGCGTTGGCGCCAACTATTGCCTGGACCGCATCTATCAGGGCGGCGCCGCGTATTGCATCCACAACGCCGCCACCGGGCGCGAAACCACCATGCCCCACGAAATCCCCAAGGCGCCGCTCAAGCGCAAGGTGGTGGTAATCGGCACCGGCCCGGCGGGCCTGGAGGCGGCACGGGTGGCCGGCGAGCGCGGCCATGCAGTCACCGTGTTCGAAGTGGCCGACCAGCCAGGCGGGCAGATCCGCTTGACCGCGCAGAGCGAGCGCCGCCGCGAGATGATCAGCATCATCGACTGGCGCATGGCGCAATGTGAACGCCTTGGCGTGAAGTTCCAGTTCAACACCTGGGCCGAAGCCGAGACGGTGATGGCCGAAGAACCGGACGTGGTAATCGTCGCCACGGGCGGCCTGCCCCACACCGAGGTGCTCAAGCAAGGCAACGAACTGGTGGTGTCGACCTGGGACATCGTTTCCGGCGATATCAAGCCCGGCCAGAACGTGCTGATCTTCGACGACGCCGGCGACCACGCGGCGCTACAGGCGGCCGAGATCATCGCCAGCAGCGGCGCGAAACTGGAAATCGTCACGCCCGACCGGTCGTTCGCACCGGAGGTGATGGCGATGAACCTGGTGCCTTACATGCGCAGCCTGCAAGACCTGAACGTCACCTTCACCGTCACCTATCGGGTCGATTCCGTGGAAAAACGCGACGGTCAACTGGTTGCGCACTTCGGCAGCGACTACGGCCAGGTGCACAAGCAGCGTGTGGTCGATCAGGTGGTGGTCAACCACGGCACCCTGCCCCTGGACGATTTGTACTTTGAGTTGCGGCCGTATTCGAGCAACAACGGCGCGGTCGAGCAGCACAACCTGATCGCCGGGAAAACCCAGAATATCGTGACCAACCCCGGAGGCCGCTTCCAGCTGTTCCGGATCGGCGACGCGGTGTCGGCGCGCAATACCCATGCGGCCATCTACGATGCGCTGCGGTTGGTCAAGGACATCTGA	MSSDPLLQPYKIKHLTLKNRIMTTSHEPAYPVDGMPKDLYRAYHVERAKAGVALTMTAGSAAVSRDSPPVFNNVLAYKDEVVKWMKDLTDECHEHGAAVMIQLTHLGRRTRWDKADWLPVVSPSHRREASHRAFPKKMEDWDIDRIVKDYVDAAERMKAAGLDGLELQAYGHLMDQFWSPLTNDLDGPYGGSLENRMRFTFDVLRGIRQRCGEDFLLGVRYTGDEDLPGGFGASDGLQISHMLKDSGLVDFLNVVRGHIDTDAGLTDVIPIQGMRNSPHLDFAGEIRSATGFPTFHAAKIPDVATARHAIASGKVDMIGMTRAHMTDPHIVRKIIEKREEEIRPCVGANYCLDRIYQGGAAYCIHNAATGRETTMPHEIPKAPLKRKVVVIGTGPAGLEAARVAGERGHAVTVFEVADQPGGQIRLTAQSERRREMISIIDWRMAQCERLGVKFQFNTWAEAETVMAEEPDVVIVATGGLPHTEVLKQGNELVVSTWDIVSGDIKPGQNVLIFDDAGDHAALQAAEIIASSGAKLEIVTPDRSFAPEVMAMNLVPYMRSLQDLNVTFTVTYRVDSVEKRDGQLVAHFGSDYGQVHKQRVVDQVVVNHGTLPLDDLYFELRPYSSNNGAVEQHNLIAGKTQNIVTNPGGRFQLFRIGDAVSARNTHAAIYDALRLVKDI	PGPT0021970_166	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_STACHYDRINE_USAGE	PLANT_DERIVED_STACHYDRINE_DEGRADATION,PGPT0021970-hpbA-K22551	NA	NA
D1-35_02397	102			hypothetical protein	ATGACCGGCGCGCATACGCCGGATCACCCCTGTTTCGACTGGATGGTAATCCTGGTTATTCCCCCGCGCAAGAAAAATGTACACCTGTGTCTCAATCGTTGA	MTGAHTPDHPCFDWMVILVIPPRKKNVHLCLNR				NA	NA	NA	NA	NA
D1-35_02398	750	etfB_2		Electron transfer flavoprotein subunit beta	ATGAAAGTGCTCGTTGCGATAAAGCGCGCCATCGACCCGAATGTGAAAGTCCGGGTGAAGGCTGACGGTTCAGACGTTGAGCTCAACGGCGTGAAAATGGCCTTGAATCCGTTCTGCGAGATCGCGGTTGAAGAGGCGATTCGCCTCAAGGAAAAAGGGCTGGCAACCGAAGTGGTGGTGGTCTCGGTGGGCACATCGGCCGCCCAGGAACAACTGCGCACGGCGTTGGCACTCGGTGCGGACCGCGCACTTCTGGTCGAGACCAGCGCGATTCTCGAGCCGCTCAACGTCGCCAAGTACCTGAGCAAAGTGATTGATCAGGAACAACCGCAACTGATCCTGTTCGGCAAGCAGGCGATCGACCAGGAAAACAATCAGGTCGGGCAAATGGTCGCGCAATTGATCGGCAGCGGTCAGGCCACTTACGCCTCGGCAGTCAATCATGTCGACGGGCAATGGCTCGTCGAGCGTGAGGTCGATGGGGGCAGCCAGGTGGTCGCGCTGTCGACGCCGGCCGTGGTGACTTGCGATCTGCGCCTGAATCAACCGCGCTACGCCTCGTTGCCGAACATCATGAAAGCCAAGAAAAAGCCCTTGGAAACCATCGCCGCCGACAGCTTGGGCGCGAGCGTGAAGCAACACGCTCGATTGCTCGGTGTTGTCCCTCCACCGGTACGCAAAGCAGGCATCACGGTCGCTTCGGTGACCGAGTTGGTGGATAAACTGAAAACCGTTGCGGGGGTGATTTGA	MKVLVAIKRAIDPNVKVRVKADGSDVELNGVKMALNPFCEIAVEEAIRLKEKGLATEVVVVSVGTSAAQEQLRTALALGADRALLVETSAILEPLNVAKYLSKVIDQEQPQLILFGKQAIDQENNQVGQMVAQLIGSGQATYASAVNHVDGQWLVEREVDGGSQVVALSTPAVVTCDLRLNQPRYASLPNIMKAKKKPLETIAADSLGASVKQHARLLGVVPPPVRKAGITVASVTELVDKLKTVAGVI	PGPT0001035_4233	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001035-fixA|etfB-K03521	NA	NA
D1-35_02399	936	etfA_2	COG2025	Electron transfer flavoprotein subunit alpha	ATGCGCACATTGGTGATCGCCGAGCACAGTGTCGGTCAACTGACGGCAGGCACCTGGAGCGCCGTGGGCGCTGCCGTGGCGTTGGGTGCTGAAACGGATTTGCTGGTGATGGGCGGGACGGACGCCTCGGCCGTGGCGCAACAGGCAGCGCTGGCCCAAGGCCTGGACCGGGTGCTGCTCGCACAGGCGGAGGTATTCGAAAATGCCCTGGCTGAAAACGTCCAGCCGCTGATCACGTCGCTGGTGGCCGAGGGGTATACACACGTCGTTGCCGATGCCAGCAGCATGGGCCGCAATCTGCTGCCACGGGTCGCGGCGAGCCTGGATGTGGGCATGCTTTCGGACGTTACCCACATCGTCTCGGCGGACACTTTCCAGCGGCCTGTTTATGCCGGCAATGCCATCGCCACGCTGCAGTCACTGGATCCGATCAAGTTGCTCACGGTGCGCGCTTCGGCATTCGCCCCAGCGTTATCCCATGACAAACCCTGCGAAGTGGTTGCAGTGGACGGCGGACAAAGCGCCAGCAACGTGCGTTTGGTGAGCGAACAACTGACGGCCAGCGAACGGCCCGATCTGTCGAGCGCCCGCGTCGTCGTTTCCGGTGGCCGCGGGATGCAGAGCAAAGAGAACTTCGCCCTGATCGAGCGAGTGGCCGACAAGCTCGGCGGTGCCGTGGGGGCCTCCCGCGCTGCTGTTGATTCGGGATTCGCGCCCAACGATTTGCAGGTCGGGCAGACGGGCAAGATCGTCGCGCCGGAGCTTTATATTGCCGCAGGCATCAGTGGCGCCATTCAACATCTGGCGGGCATGAGCGGTTCAAAGGTCATCGTCGCGATCAACCAGGACGCCGAGGCACCGATTGCCCAGGTGGCGGATTACCTGTTGGTGGCGGATTTGTTCGAGGCGTTGCCGGCACTCGAAAGGGCATTGTGA	MRTLVIAEHSVGQLTAGTWSAVGAAVALGAETDLLVMGGTDASAVAQQAALAQGLDRVLLAQAEVFENALAENVQPLITSLVAEGYTHVVADASSMGRNLLPRVAASLDVGMLSDVTHIVSADTFQRPVYAGNAIATLQSLDPIKLLTVRASAFAPALSHDKPCEVVAVDGGQSASNVRLVSEQLTASERPDLSSARVVVSGGRGMQSKENFALIERVADKLGGAVGASRAAVDSGFAPNDLQVGQTGKIVAPELYIAAGISGAIQHLAGMSGSKVIVAINQDAEAPIAQVADYLLVADLFEALPALERAL	PGPT0001040_4066	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522	NA	NA
D1-35_02400	900			hypothetical protein	ATGATGACCTTACCCCGTAAAACTTTTATCGGCTGGTTTGCCGGCCTTGCATTGGCCTGCGGCAGCCTGATCGCTCAAGCCGAGGAACCCGCGCCCATTCGTATCGGCTGGGTGAACTGGTCGGATACGGAAATCGCCGTGAAGCTGGCGAATACCGCGTTGCAGGATCATCTCAAGCAACCGGTCAAGCTGGTACTGGCCGACATCGGCATCCAGTTCCAGGCACTGGCCAACGGCAATATCGATTTGATTCCGATGGTCTGGCTGCCGAGCACCCACAAGTCCTTCTATGACAAGTACAAGGACAAGCTCGAAGACCTCGGCGTCCTGTATGAAGGCCGGATCGGCATGGCGGTGCCCACCTCGATTCCTACCAGTGAGATTGCCAGTGTCGAAGACCTCAACAAACCCGAAGTGCGGGAGAAGCTCGGCGGCAAGATTCTCACCTCGGAAGTGGGCAATGGTCAGTACAAGCTGACGGAAAAAGCCATCAAGGAATACAAGCTCGACGGCTACAAGATGGTTGCGTCTTCAGAGTCCGGCATGCTGAGTGAACTGGATCGCAACATCAAACGGGACAAGTGGTCGTTGGTCAACGCCTGGAGCCCCCACTGGATGTTCGCCAAATGGCCGCTGCGTTACCTGGATGATCCAAAGCAGATATTCGGTGGCGCCGAGCAGATCCACGCGATTGCCCGCAAAGGTTTCAGCGCCGAACATCCGGACGTGGCGCGCTTCTTCGCCAACTTCAAGATCCCGAAAGCGGACCTTGAGAAGTTGATGGCGGATGCCCGCGAAAGCACTGCGGACAAGGTGGTTGCCGAGTACTACGCGGCGAACAAACCGCGCTTCGAAGCGATGTTCGGCAGCCAGACTGCTTCCGCTACGCCAGCCCCGTAA	MMTLPRKTFIGWFAGLALACGSLIAQAEEPAPIRIGWVNWSDTEIAVKLANTALQDHLKQPVKLVLADIGIQFQALANGNIDLIPMVWLPSTHKSFYDKYKDKLEDLGVLYEGRIGMAVPTSIPTSEIASVEDLNKPEVREKLGGKILTSEVGNGQYKLTEKAIKEYKLDGYKMVASSESGMLSELDRNIKRDKWSLVNAWSPHWMFAKWPLRYLDDPKQIFGGAEQIHAIARKGFSAEHPDVARFFANFKIPKADLEKLMADARESTADKVVAEYYAANKPRFEAMFGSQTASATPAP	PGPT0013640_3222	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
D1-35_02401	954	cdhR_5	COG4977	HTH-type transcriptional regulator CdhR	ATGAACGCGATGATCGAGTCCCAGAAAACATCGAGCGTGGGCTTCCTGTTGCTCGATAATTTCTCCCTGACCTGTTTCACCCAATGCCTGGACGTGCTCGTCACCGCCAATTTGATTCAGCCAGGGTCGATAAAAATCCATACTTTCAGTCGCAACGACTCTGAAGTGATCAGCGACCTGGCAATCCCCATCAGGCCAGACACACCGTTGACCGATATCAGGATCGCGGCGCTGGACTTGATGATTGTCTGCGGCGGCCTGCGCACGCCGAGGGTACTCCCCCACGGGTTGGTAACGCTGCTGACCAAACTGGCGAACCTGCCCATTGCGCTCGGCGGCTTATGGAACGGCGCCTGGTACCTGGGCAAGGCTGGACTGCTGGATGGTTACCGATGTGCTATTCATGCCGAACAACGAATGGCCTTGTCGGAGTGTTCACCGAAAACCACGGTGACGCTGGATACAGTGGTGTTCGACAGGGACCGATTCACCGCGTCAAACCCTGCCGGCGCGTTTCAGATCATGATGAAATGGCTGTACGCGGCCCTCGACCCGAAAGTTGCGGACGCGGTGTTTGACCTGTTGGACCATGAGTCTCGGTTTCGTACCTCGGCCAAGGTCCTGGACCGCAAAGTCAGTGCGTGCCTGCGGGAAGTCATTGCATTGATGGAATGCAACCTTGAAGAACCTTTGAGCCTGGACTTGCTCGCTCAATGCGTTCAGCTTTCCAAGCGCCAGATCCAGCGCCTGTTTCGCAGGCAGATCAATATGTCTCCGCAACGCTACTATCTGGAACTACGGCTGACCGAGGCACGGCGCCTGCTACAGAACTCCAGGCTGAGCGTCACGGATGTCGCCATTGCCTGCGGGTTTGTCTCTACCCCTCACTTCAGCAAGTGCTATAGCACGCTCTTTGGCTGTCCTCCTTCGAAGGAAAGTCGCTACGAGATATAG	MNAMIESQKTSSVGFLLLDNFSLTCFTQCLDVLVTANLIQPGSIKIHTFSRNDSEVISDLAIPIRPDTPLTDIRIAALDLMIVCGGLRTPRVLPHGLVTLLTKLANLPIALGGLWNGAWYLGKAGLLDGYRCAIHAEQRMALSECSPKTTVTLDTVVFDRDRFTASNPAGAFQIMMKWLYAALDPKVADAVFDLLDHESRFRTSAKVLDRKVSACLREVIALMECNLEEPLSLDLLAQCVQLSKRQIQRLFRRQINMSPQRYYLELRLTEARRLLQNSRLSVTDVAIACGFVSTPHFSKCYSTLFGCPPSKESRYEI				NA	NA	NA	NA	NA
D1-35_02402	1362	dddP	COG0006	Dimethlysulfonioproprionate lyase DddP	ATGCCCCCTTCACCTTTTTCGATTCCAGCCAATGCCCGGCGCATCGACCCGGCGAGGCAGCGTGCAGTTGCACTGAAAAAAGACGGCTCCGTCGACGACAACAACCGCGTCGAGATAGGCCCTACGCCGCTGGCGTTTGCGGAGTGGGAGCGGCTGGGCCTGGAGCCGCCCCATTTGCCCACCCTGCGCAAGTACCGATTGCAACGGATAGTCGATCAACTGGTCGTCCGTGACCTGGGTGGCATCCTGTTATTCGATCCGCTGAATATCCGCTACGCGACCGATACCACCAACATGCAACTGTGGACGACTCATAACCCCGCACGGGCATGCTTCGTCGCCGCCAGCGGGCATGTGGTTTTGTGGGATTTTCATGGCTGTGATCACTTGTCCGCCCACTTGCCGCTGGTGACGGAGCTACGCAGCGGGGCATCGTTTTTCTTTTTCGAGACCGGTGAACACACGGATCGACACGCCAGGCATTTCGCCGCGCAACTCGACGATTTGCTGCGCCAACACGCCGGAGTCAACCGACGGCTTGCGGTCGATCGAATAGAAGTCGCCGGCGTGCGCGCCCTGGATGCCTTGGCGATCGAAATTTGCAGCGGCCAGGAAGTGACCGAATTCGCGCGCATGATCAAGGGCCCGGATGAAATCAAGGCGATGCGCTGTGCGGTGGCTTCATGCGAAGCGTCAGTGGCCGAAATGCACCAGGCAATGCGCGCCGGCGCGACCGAAAACGATGTCTGGGCCGCGCTGCATTCCGGCAATATCCGCCGCGGTGGCGAATGGATCGAGACGCGCATCCTCAGTTCCGGTCCTCGCACCAACCCCTGGTTCCAGGAGTCCGGCCCACGCGTGTTGAACGACGGCGACCTGCTGTCATTCGACACGGATCTGATCGGCACCTACGGCATGTGCGTGGACATGTCCCGCAGCTGGATCTGCGGGGGTCTGGAGCCCATGCCCGAACAGAAGCGCCTGTACCGGATCGCCCATGACCATATCGTCCATAACACCGAGTTGATCAAGCCAGGCGTACGCTTCACCGAGCTGACCGCCAAGGCGCACCGGTTGCCCGAACCGTGCCGGGCTCAACGGTATGGCGTGCTTTATCACGGCGTCGGGCTGTGTGACGAGTACCCGAGCATTCGTTATCCGGAGGACCTGGAGTCCTACGGATACGAGGGCGAACTGCAGCCGGGCATGGCCCTGTGCGTCGAGGCGTATGTCGGTGAGGTGGGCGGACAGGATGGCATCAAGCTGGAGAACCAATTGCTGGTGACCGAGGCCGGTTATGAGTTACTCACCCACTACCCTTTCGATGACAGTTTCCTGCGGGATACGAAGCGCAACTCATGA	MPPSPFSIPANARRIDPARQRAVALKKDGSVDDNNRVEIGPTPLAFAEWERLGLEPPHLPTLRKYRLQRIVDQLVVRDLGGILLFDPLNIRYATDTTNMQLWTTHNPARACFVAASGHVVLWDFHGCDHLSAHLPLVTELRSGASFFFFETGEHTDRHARHFAAQLDDLLRQHAGVNRRLAVDRIEVAGVRALDALAIEICSGQEVTEFARMIKGPDEIKAMRCAVASCEASVAEMHQAMRAGATENDVWAALHSGNIRRGGEWIETRILSSGPRTNPWFQESGPRVLNDGDLLSFDTDLIGTYGMCVDMSRSWICGGLEPMPEQKRLYRIAHDHIVHNTELIKPGVRFTELTAKAHRLPEPCRAQRYGVLYHGVGLCDEYPSIRYPEDLESYGYEGELQPGMALCVEAYVGEVGGQDGIKLENQLLVTEAGYELLTHYPFDDSFLRDTKRNS	PGPT0002906_15	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-DMSP_DEGRADATION,PGPT0002906-dppP|dddP-NA	NA	NA
D1-35_02403	1491	puuC_1	COG1012	NADP/NAD-dependent aldehyde dehydrogenase PuuC	ATGGCTGATTTACTGACCAAGGAACAGTACGCGGCCATCGCCGCCAAGTTGCAGTTTCCTACCCAGGCCTTCATCAACGGCGAGTTCCGCGATGCGCTCTGTGGAAAGACCTTCATCACGACGAACCCTGCCACGGGTGAACAGCTTGCAGAGGTAGCGGCTTGCGATACCCGTGACGTCGACGTTGCCGTGGCTGCCGCCAAGCAGGCGTTCGAGGATGGCCGCTGGCACAAACTGTCGCCCGGCGCACGCAAGCAGGTGCTCCTGCGTTTCGCCCAGTTGCTGGAAGACAATGCCCATGAGCTCGCGGTGCTGGAAAGCCTGGACAGTGGCAAGCCGGTCAGCGAATGCCAGAACGTCGATGTGCCCGACACCATCCATACCTTGCGCTGGCATGCCGAGTTGATCGACAAGGTGTACGACAGTACCGCGCCGACCGGCCACGGTGCCGTAACGATGGTGGTGCGCGAAGCGATCGGCGTGGTCGGCCTGGTCCTGCCTTGGAACTTCCCGCTGTTGATGCTGGCCTGGAAGATTGGTCCTTCCCTGGCCGCCGGCTGTTCCATCGTGGTCAAGCCCGCCAAGGAAACCACCCTGACCGCGCTGCGTGTCGCCGAGCTGGCCCATGAGGCTGGTATTCCGGCCGGTGTATTCAACATTACCCCTGGCGGTGGTCGCGAGGCTGGCGAGGCAATCGGCCGACACATGGATGTGGCGATGGTCAGCTTCACCGGTTCTACCGACACAGGCCGGTTGTTCCTCAAGTACGCGTCCGAGTCGAACCTCAAGCGCGTGGTGCTGGAACTGGGGGGCAAGAACCCCGCCGTGGTGATGAATGACTGCGAAGACCTCGATCAGGTTGCCCAGTATGTGACCGCCGGCGCTTTCTGGAACATGGGCGAGAACTGCTCGGCGTCGTCGCGGCTGATCGTCCATGAAGAGGTCAAGGAAGAGTTGCTGCAACTGATCGGCAAGCACCTGCGCGATTGGAAAATGGGCGACCCGCTGGATCCGCAAAATCGCCTCGGGGCCATGATCAGCAAAACCCATTTCGAGAAGGTGCGTTCGTATCTGGAGTATGCGGCCGAGCAGAAACTCAATGTGCTGCAAGGTGGCGAGACCGAGTCCGGTGTGTACGTGCAGCCGACGATCATCGACGGTGTTGAACGTGACAGTCGCCTGTTCATCGAGGAGATCTTCGGCCCGGTCCTGAGCGTCACCCGCTTCAGCACGATCGACGAAGCCATTGCGCTGGCCAACGACACGGTCTACGGCCTGGCGGCATCTGCCTATACCGGTAGCCTGCGTAACGCTTTGCGGCTGTCGCGGGAAATTCGGGCGGGCGTGGTCACGGTCAACTGTTTCGGTGAAGGCGACGCCTCCACGCCGTTCGGCGGCTACAAGGAGTCCGGTTTTGGGGGGCGTGACAAATCCGTCTGGGCACACGATCAGTACACCGAGCTGAAAACCATCTGGATCGATGCTTCGTAA	MADLLTKEQYAAIAAKLQFPTQAFINGEFRDALCGKTFITTNPATGEQLAEVAACDTRDVDVAVAAAKQAFEDGRWHKLSPGARKQVLLRFAQLLEDNAHELAVLESLDSGKPVSECQNVDVPDTIHTLRWHAELIDKVYDSTAPTGHGAVTMVVREAIGVVGLVLPWNFPLLMLAWKIGPSLAAGCSIVVKPAKETTLTALRVAELAHEAGIPAGVFNITPGGGREAGEAIGRHMDVAMVSFTGSTDTGRLFLKYASESNLKRVVLELGGKNPAVVMNDCEDLDQVAQYVTAGAFWNMGENCSASSRLIVHEEVKEELLQLIGKHLRDWKMGDPLDPQNRLGAMISKTHFEKVRSYLEYAAEQKLNVLQGGETESGVYVQPTIIDGVERDSRLFIEEIFGPVLSVTRFSTIDEAIALANDTVYGLAASAYTGSLRNALRLSREIRAGVVTVNCFGEGDASTPFGGYKESGFGGRDKSVWAHDQYTELKTIWIDAS	PGPT0007638_420	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007638-puuC|ordL-K09472	NA	NA
D1-35_02404	903	dapA_2	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGAAGTTTGAAGGCATTTACACACCGGCCGTTACGCCCCTGACCTCAGACGGCAGTATCGATAAGACAGCCTTCGCCGACGTCCTGGAGTATCTGGTCGACGCCAAGGTACACGGCATCATTATCGGCGGCTCGACCGGCGAATATTATGCCCACACCGCCCAGGAGCGTTTCGACCTGGCTGCCCAGGCCAAGGACGTGCTGCGCGGTCGCCTGCCGCTGATCGTGGGGACCGGCGCCATCCGCACCGAAGACTCCGTCGCCTACGCCGAAGCGGCGAAGGCGATCAAGGCCGATGCGCTGCTGGTGGGTTCACCGCCCTATGCACTGCCAACGCAAAAGGAAATCGCGCTGCACGTCAAGGCAGTGGACCGCGCCGCCAATCTCCCCATCATGCTTTACAACTATCCAGGCCGCATGAGCGTGAGCATGGGCACGGAGTTCTTTGATGAGGTCCGTGATGTGAAGAACATCGTCGCCATCAAGGAAAGCTCCGGCGACATGGCGCAGATGCACCGCCTGGCCTGCAAGTATCCGCACATCGCTCTGTCTTGCGGCTGGGACGACCAGGCCCTGGAGTTTTTCGCCTGGGGCGCCCGCAGTTGGGTGTGTGCCGGTTCCAACTTCATTCCCCGTGAACACGTCGCGCTGTACGAGGCCTGCGTGGTCGAGAAGAACTTCGACAAAGGTCGCCGAATCATGGCGGCGATGATGCCGCTGATGGATTTCCTGGAAGGTGGAAAATTTGTCCAGTCCATCAAGTACGGCTGTGAACTGAACGGCTTGAGCACCGGTGGCCTGCGTGCCCCCCTGCACGGCCTGGACCTTGATGAGAAACAGGCGCTGCAAAGTGTCGTCACCGAGCTCAAGCGCAACATCGCGCAAATCACTGGAGGTGCATGA	MKFEGIYTPAVTPLTSDGSIDKTAFADVLEYLVDAKVHGIIIGGSTGEYYAHTAQERFDLAAQAKDVLRGRLPLIVGTGAIRTEDSVAYAEAAKAIKADALLVGSPPYALPTQKEIALHVKAVDRAANLPIMLYNYPGRMSVSMGTEFFDEVRDVKNIVAIKESSGDMAQMHRLACKYPHIALSCGWDDQALEFFAWGARSWVCAGSNFIPREHVALYEACVVEKNFDKGRRIMAAMMPLMDFLEGGKFVQSIKYGCELNGLSTGGLRAPLHGLDLDEKQALQSVVTELKRNIAQITGGA	PGPT0002080_3656	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
D1-35_02405	1320	puuB_2		Gamma-glutamylputrescine oxidoreductase	ATGTTGAAAGTCTCTTCGTTACCTGCCGATGATCAGTCTTGCGGGTGGTATCACTTGAGCAGGGGGCGCCAGGTCAAGCCCGCCCATCAAGGTCACGACAGCGCACGTTGGGTGATTGTCGGTGCCGGTTTTACCGGGCTCGCCGCCGCCCGGCAGCTCGCGACTCATTTCCCCGACGACCACATTGTGTTGATCGACGCTCAGGAAATCGGCTTTGGCACTTCCGGTCGCAATGCCGGATTCGCTATCGACTTGCCGCATGACATCGCCGCAGAAGATTACATCGGTGATATCGCCACTGCCAAAACAACCCTTAAACTCAATTTGAGCGGCCTGAGCTATCTAAAAGAATTGGTTGAACGCCACAACATCAATTGCCAGATGAAGCATTGCGGCAAATATCAGGCGGCCGTTGAACCACGGGGCATCGCTGTCCTGGAAGCCTACCGTCGCGGACTCGATAAGCTCGATCAACCCTACCAGATGATCGAGGCTGGCGAACTACCCGAACATATCGGCACGCATTTCTACCGCAAGGCCTTATTTACGCCAGGGACTTCCTTGCTTCAGCCGTCGGCGCTGGTCAAAGGTCTGGCCGACAGCCTTCCCGGCAACGTGACACTCTACGAAAACACCGCGATCACGCATGTCGAGTACGGCACCAGGACGGTGCTCAAGCACGCCGGGGGCTCAATCACCGCCGACAAACTGATCCTGACCAATAATGCCTTTGGCATGAGTTTCGGCTTCCTGAAGGGGCGAATGCTACCAGTGTTCACCTATGCCAGCCTGACCCGTCCCATGACCGAGCAAGAGCAAGCTCGCCTGGGCGGCCGGCCTTATTGGGGGGTGATTCCCGCGGACCCATTCGGCACCACGGTACGTCGCACTCCGGACAACCGCCTGTTGATCCGTAACAGTTTCAGCTTCAACCCCGACGGCCGCAGCGATACAAAATATCTGAAACGCTTTGTCGCCAGGCATCAAGCCTCTTTCGAGCAACGCTTTCCCATGTTGCCCGCGATGAACTTCGAATATACCTGGGGCGGTGCACTGGCTCTTTCGCGTAACCATATGGGTTATTTCGGCGAACTTTCACCCCATGTCTATGGGGCTCTTTGCTGCAATGGCCTGGGTGTTACCCGCGGGACGGCGACCGGAAAACTCCTGGCGGATTGGCTGGCCGGCGAACACTCCGAACTTATTGATTTTGTCTTGAAATCACCCGGCCCCAGCCCTAATCCACCCGGCCCGCTGGTTTCAGCGGGCGTCAATATAAGTTTGCGCTGGGGGCAATACCGCGCCGGTAAAGAAAGTTGA	MLKVSSLPADDQSCGWYHLSRGRQVKPAHQGHDSARWVIVGAGFTGLAAARQLATHFPDDHIVLIDAQEIGFGTSGRNAGFAIDLPHDIAAEDYIGDIATAKTTLKLNLSGLSYLKELVERHNINCQMKHCGKYQAAVEPRGIAVLEAYRRGLDKLDQPYQMIEAGELPEHIGTHFYRKALFTPGTSLLQPSALVKGLADSLPGNVTLYENTAITHVEYGTRTVLKHAGGSITADKLILTNNAFGMSFGFLKGRMLPVFTYASLTRPMTEQEQARLGGRPYWGVIPADPFGTTVRRTPDNRLLIRNSFSFNPDGRSDTKYLKRFVARHQASFEQRFPMLPAMNFEYTWGGALALSRNHMGYFGELSPHVYGALCCNGLGVTRGTATGKLLADWLAGEHSELIDFVLKSPGPSPNPPGPLVSAGVNISLRWGQYRAGKES				NA	NA	NA	NA	NA
D1-35_02406	1029	ousX	COG2113	Glycine betaine-binding periplasmic protein OusX	ATGTCTGAATTCAAGCTCTCCCGCAGCATTCTCAATTGCGCTACAGCCCTCGCCATTGCGGCCATGTCCCTGTGCGCAAACGCCTCGGCGAACCAACCGGGCGACGGTGTGAAGGTCACCCCCATCTTCCCGTCCATCGCTGAAGAGCGTTTCCGTGGCGAAGTGGCCATGGAAGGGCTGCGAGGGCTGGGTTACAAGGTGCAGGAGCCCAAGGAGACCGAATACGGCGTCATGATGATGGCCTTGGGTAGCGGTGATGCGGACTTTACCGTGCATTTGTGGGACAAGTTGCACGATAAATTCTTCCAGCAGGCCGGGGGTGATAAAGCCATGGTCAAGGCGGGCGACATCATGCCCGGTGTACTTCAAGGTTATCTGATCGACAAAAAGACCGCTGAAGCGCACAACATCAAGTACATCACCGACTTGAAGAAACCGGAAATCGCCAAGCTGTTCGACACCAACGGCGACGGCAAGGCAGACATGACGGGCTGTAATCCTGGCTGGGGCTGCGAGCTGATCATTGCCCATCACATGAAGGCCTATGACCTGGAAAAAACGGTCACGGTCAACCAGGGTTCCTATTTCGCGCTGATGGCTGACACCATTACCCGTTATAAGGAAGGACAGCCGATTCTCTACTTCACCTGGGTCCCACAGTGGATTGCCACCGTTCTGGTCGAAGACAGGGATGTGGTCTGGCTGGAAGTACCGAAAACCGACCTGCCTGATGGCAACAATAACGTTGACACGATGTACAAGGGCAAGAATCTCGGCTTTGCAGTGGATAAGGTCGAGGCCGTGTTGAATAAAGAGTTCGCCGACAAAAATCCGGCAGCCTTGAAGTTCCTTTCGGTGATGCAGATTACTACCGCTGACGAAAGTGCCCAGAACCTGAAGATGCAACAGGGCGAGAAAAAGCCTGCGGATATTCGCCGCCACGCCAAGGAGTGGGTAGCCGCCCATCGGCAGCAGTTTGATGCCTGGTTACAAACTGCTCGCGCGGCAGCGACACAAGCCAGCAATTGA	MSEFKLSRSILNCATALAIAAMSLCANASANQPGDGVKVTPIFPSIAEERFRGEVAMEGLRGLGYKVQEPKETEYGVMMMALGSGDADFTVHLWDKLHDKFFQQAGGDKAMVKAGDIMPGVLQGYLIDKKTAEAHNIKYITDLKKPEIAKLFDTNGDGKADMTGCNPGWGCELIIAHHMKAYDLEKTVTVNQGSYFALMADTITRYKEGQPILYFTWVPQWIATVLVEDRDVVWLEVPKTDLPDGNNNVDTMYKGKNLGFAVDKVEAVLNKEFADKNPAALKFLSVMQITTADESAQNLKMQQGEKKPADIRRHAKEWVAAHRQQFDAWLQTARAAATQASN	PGPT0013640_557	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
D1-35_02407	954	ousW	COG4176	Glycine betaine/choline transport system permease protein OusW	ATGTCCGAGTTCAGTTTTCTCGACCCGTTCCAAGTCGCCACCATTCCACTCGGCGATTGGGTGGAAAGCACCCTGAATTTTCTGGTGCACAACTTTCGCGATGTATTTCGCGCCATCCGCTGGCCGATTGACCAGGTACTTAACGGCGTTGAGTTCATTCTGCAGAGCATTCCGCCGAGCATCGGCATCCTCCTGTCTTCATTGCTCGGATGGCAACTCGCTGGTAAACGCATGGCGTTGCTGTGCTTTGTGACGCTCACACTGCTGGGTTTGATCGGTGTCTGGTCCGAGTCGATGACGACCCTGGCGCTGGTACTGACCTCGGTGTTCTTTTGCGCGCTGCTGGGTATTCCACTGGGTATTCTCTGTGCCCGCAGCGACAACCTGGAAAAGGTCCTGCGGCCCATCCTCGATGCCATGCAGACACTGCCGGCGTTCGTTTATCTGGTGCCGGTCGTCATGCTGTTCGGCATCGGCAACGTGCCGGGCATCCTTGTGACGATTGTCTTCGCCCTCCCCCCTCTGGTGCGCCTGACGAACCTGGGCATCCGCCAGGTGCCGGAGGACAAGATAGAAGCGGCCCGCGCGTTTGGTTGCACACCGCGGCAGATGCTCACCCGTGTCCAGCTGCCACTGGCGACGCCAACCATCATGGCGGGACTCAACCAGACCCTGATGCTCTCGCTGTCGATGGTGGTCATCGCCTCGATGATCTCGGTGGGCGGCCTGGGACAGATGGTCCTGCGCGGCATCGGTCGCCTGGACATGGGCCTGGCCACGGTCGGCGGGACGGGCCTGGTACTGCTCGCCATCTTCCTTGACCGCCTGACCCAAGCCATGGGCGCGCGCACCGGCGCCGACCCGAGCCTGCGCTGGTATCACACCGGTCCCGTAGGTCTGCTGCTACGCCTGTTCGGCGCAAGACAGCCTGCGGGGCGGAGCAAGACCGCCTGA	MSEFSFLDPFQVATIPLGDWVESTLNFLVHNFRDVFRAIRWPIDQVLNGVEFILQSIPPSIGILLSSLLGWQLAGKRMALLCFVTLTLLGLIGVWSESMTTLALVLTSVFFCALLGIPLGILCARSDNLEKVLRPILDAMQTLPAFVYLVPVVMLFGIGNVPGILVTIVFALPPLVRLTNLGIRQVPEDKIEAARAFGCTPRQMLTRVQLPLATPTIMAGLNQTLMLSLSMVVIASMISVGGLGQMVLRGIGRLDMGLATVGGTGLVLLAIFLDRLTQAMGARTGADPSLRWYHTGPVGLLLRLFGARQPAGRSKTA	PGPT0013635_1112	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
D1-35_02408	1161	proV	COG4175	Glycine betaine/proline betaine transport system ATP-binding protein ProV	ATGACTAGTTCAGACGAAATCATTTCTGTTAAGAACGTTTTCAAGATATTCGGCGCACAACCCGACGCGGCGATGAAGATGCTTGCCGCTGGCGCCTGCAAAAAAGATGTGTTTGAGAAAACAGGTCAGGTTATTGGTGTTTTCGACGCCAGCTTCGCCGTCAAGCGTGGCGAAATCTTTGTGATCATGGGGCTCTCGGGTTCTGGCAAGTCGACGATGGTGCGTTTGTTCAACCGGCTTATCGAGCCCACCTCCGGCAGCATTTATCTGAACGGTCGGGAAATTACCGGGCTGGCTGATAAAGCCCTGCTTGATGTTCGCCGTAAAGAGATGGGCATGGTGTTCCAATCCTTCGCCCTGATGCCTCACATGAGTGTCCTGGAGAACACCGCCTTCGGCCTGGAAATTTCCGGCATCGCCGAAAAGGAACGGCATAGCCGCGCCAGGGAAGCCCTCAGCCAGGTCGGTCTTGCTGGCCAGGAGCACAGTTATCCGCATCAACTTTCCGGCGGCATGCAGCAACGCGTAGGCCTGGCCCGTGCGCTGGCCAACGACCCGACCATCCTGCTGATGGACGAAGCCTTTTCCGCGCTGGACCCGCTTATCCGCAGCGAGATGCAGGGGGAGCTCATTCGCCTGCAAGCCGAACAGAAGCGGACCATCATTTTCATCTCCCACGACATCGAGGAAGCCGTTCGCATCGGCCACCGCATCGCGATCATGGAGGGCGGCCAGGTGGTGCAGATCGGCACGCCTCAAGAGCTGATCAGCCAACCCGCCAATGACTATGTGCGCACCTTTTTCAAAGGGTTCGACAGTTCACGGATTCTCAAGGCGGGCGACGTGGCCAGGCTTGATCCGGAATGGGTTCGTAAAGCGAATGGCCAGGCGCCCCACTTCAAGGCCGGCCTTCCGTTCGGTTACCTGGTCGATGAACGAGGGCAACTGCTCGGGGTCGTCGACATCGATACCAGTGGCGCGGGTGGCGGCACACATCACACCCAGCACCAACACCAGCCGGTATTTACCGATACGCCCCTGCACGAAGTATTGGAAATTGCGGCCAACCTGCCGTATCCGGTCCCTGTACTGGACCGCTCGGGCGCGCTCACCGGGACCCTGTCAAAGAGCGAGTTGCTGCAAACGCTGAGCCGCCATTGA	MTSSDEIISVKNVFKIFGAQPDAAMKMLAAGACKKDVFEKTGQVIGVFDASFAVKRGEIFVIMGLSGSGKSTMVRLFNRLIEPTSGSIYLNGREITGLADKALLDVRRKEMGMVFQSFALMPHMSVLENTAFGLEISGIAEKERHSRAREALSQVGLAGQEHSYPHQLSGGMQQRVGLARALANDPTILLMDEAFSALDPLIRSEMQGELIRLQAEQKRTIIFISHDIEEAVRIGHRIAIMEGGQVVQIGTPQELISQPANDYVRTFFKGFDSSRILKAGDVARLDPEWVRKANGQAPHFKAGLPFGYLVDERGQLLGVVDIDTSGAGGGTHHTQHQHQPVFTDTPLHEVLEIAANLPYPVPVLDRSGALTGTLSKSELLQTLSRH	PGPT0013630_1584	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
D1-35_02409	969	gcvA_4		Glycine cleavage system transcriptional activator	ATGCTCAGCAGACACGTTGACCCCGATACATTACTGCTTAGAATGCCTTCCCTCAGGGCTGTCAGAGCGTTTGTCGCCGCCGCCAAATATGAAAGCTTCACTCGGGCGGCAGAGGCACTTTGTGTATCGCAAGCGGCGATCAGTCGGCAGATCCGGGAGCTTGAGGACTCCTTGGGCGCTCAATTGTTCATGCGTGCCGGGCGGACGGTAGAGCTGACCGCCGAGGGGAAGATTTTTTTTGAGGCGGCGCAACTGTCCTTCGTTAATATCGCACAGGCGGCTGAAAGGATTCGTACCACGCCGACGCAGAAGCACATTCTGACTGTTTGTTGCTCACCCGCATTCTCCGCATTATGGCTGTCGGAACATCTTCCAGAGTTTCGTGCAACGAACCCGGATATCGAGTTCAATCTGATCACTACCCAGAACTTTGTGAATATGGAGCCTGGCGTAGAGCCGGACATCATCATCTCGAAGATCCGCAAGGTCGGGGACGGGTACAAGAGTTATCAGTTGTGCCACGACATTATTTATCCTGTTTGCTCTCCCGTGTTCCTGGAGGCGCACCCCGAACTGACTTCGCTTGAAGGCGTGCGCGATTCTTCGCTACTCAATCTGAGTCCCTATGGCCGGTCGGGGGTGGCTGAGCATGTTGACTGGGGGGTATGGCTGGCGTTTCTGAACGTTGATATTGATGAGCGTCCTGGTGACTGCCCGCCTATTTTTCATGCCAATGACTACAACCTGATCATGAATATGGTCTTGACCCATCAGGGCGTAGCACTGGGCTGGAACCAGCTGGTCGGGGCCATGGTCGAGAGGGGGCAGCTTGTTCGTCCCGTCGAGCAGCAGGTGACGCTTCGAAACAGTCTTCATTATGTTGCCTGTAATGAAAGGACTGAATATGAAGATGCCTGTCGGAGAGTGCGAGACTGGATCCTCTCGAAGTTTTCCAGATTGGCTGTATAA	MLSRHVDPDTLLLRMPSLRAVRAFVAAAKYESFTRAAEALCVSQAAISRQIRELEDSLGAQLFMRAGRTVELTAEGKIFFEAAQLSFVNIAQAAERIRTTPTQKHILTVCCSPAFSALWLSEHLPEFRATNPDIEFNLITTQNFVNMEPGVEPDIIISKIRKVGDGYKSYQLCHDIIYPVCSPVFLEAHPELTSLEGVRDSSLLNLSPYGRSGVAEHVDWGVWLAFLNVDIDERPGDCPPIFHANDYNLIMNMVLTHQGVALGWNQLVGAMVERGQLVRPVEQQVTLRNSLHYVACNERTEYEDACRRVRDWILSKFSRLAV	PGPT0026360_545	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
D1-35_02410	1236			Carnitine monooxygenase oxygenase subunit	ATGAATATCAGAACATCCGTGATCGACCTGATTCAAAAGCGCAAGGCGCGCCACGCGCTTCCTCGCGAACTGTACATTGAACCTGAGGTTTTTCGGCAGGATCTTGAGCAGATCTGGCACAAGGACTGGATCTTTGCCGGGCATACCTTTGAGCTTGAAAAACCCGGGCAATACCTGACATTGCAGATCGGCGACTATCCCGTCCTGGTCGTCAGGGATAAAAGTGGTCAGGTCCGGGCTTTTCACAACGCCTGTCGTCACCGTGGCTCCAAAGTTTGCGAGCACGCCCAGGGCAAAGTCGCAAAACTGGTCTGTCCTTATCATAAGTGGACTTTCGAACTGGACGGCAGTCTTTTGTTTGCCGGTAACATGGGCGCCGACTTCGACAGGTCGCAGTACAATTTGAAGCCTGTCCATTGTGAAGTTGTTCACACCTACATTTATGTCTGTGTCGCTGACAAGGCGCCGGAATTCGACAGTTTCAGAAATGCTGTAAGTCCGTTTATAGCCCCGCATTTCCTGGATAACTGCAAGATCGCTTTCGAGTCCAACCTCATTGAAAAGGGTAACTGGAAACTTGTCTTTGAAAATAATCGCGAGTGCTTCCACTGCGACGGTACCCATCCGGAATTGATGAACTCCTTTGTCGAGAACCTTTCGGTGGCCGGGGTGGGCGGCGAAGATGATCCCGAACTGAGCGCACACTGGAATCGCTGCGAGACCGCGGGTATGCCGAGCAAGCTGGTCATGGATCCCAATGGCCGGTTTCGTATGACACGCATCCCACTTTCGGCAGGCGCCGTGAGTTACACAATGGACGGTAAACCTGCTGTGGCGGGACGCCTGGATAAAAGCGGCGAGCCGGATATTGGCGCCTTGCTGTATTTCAACTACCCATCTACCTGGAACCACTTCCTTGGTGATCATGCGTTGAGCTTCCGCGTCCTCCCGATCGGACCGGACGAAACGCTTGTCACGACCAAATGGCTGGTGCCCAATACCGCCGTTGAAGGTGTTGACTACGAGATTGATCGGTTGACCAAGGTCTGGCTTGCCACCAACGATCAGGACCGTCGTTTGGTGGAAGGTACGCAGGCCGGTATTACCTCACCGAGTTACGAGCCGGGACCCTTTTCGGACATCGCGGAAAACGGTGTATGCCAGTTTGACGATTGGTACTGCGAAATCATGCTTAAGCGGCTCCAGGCCCATATTCCGCTCAAGTCGGTGGGCTGA	MNIRTSVIDLIQKRKARHALPRELYIEPEVFRQDLEQIWHKDWIFAGHTFELEKPGQYLTLQIGDYPVLVVRDKSGQVRAFHNACRHRGSKVCEHAQGKVAKLVCPYHKWTFELDGSLLFAGNMGADFDRSQYNLKPVHCEVVHTYIYVCVADKAPEFDSFRNAVSPFIAPHFLDNCKIAFESNLIEKGNWKLVFENNRECFHCDGTHPELMNSFVENLSVAGVGGEDDPELSAHWNRCETAGMPSKLVMDPNGRFRMTRIPLSAGAVSYTMDGKPAVAGRLDKSGEPDIGALLYFNYPSTWNHFLGDHALSFRVLPIGPDETLVTTKWLVPNTAVEGVDYEIDRLTKVWLATNDQDRRLVEGTQAGITSPSYEPGPFSDIAENGVCQFDDWYCEIMLKRLQAHIPLKSVG	PGPT0013680_537	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013680-gbcA-K00479	NA	NA
D1-35_02411	894	dapA_3	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGTCCGCATTCGCTTTTTCCGGCCTCAACCTGGCCGTGACCACGCCTTTCGATGCCCAAGGCAAGATCGACTATCCGCGCTTCGAAACGTTGCTTGAGCACTATCTCGTGGCCGGCGTGGAGGGCTTTGTCCTGAGTTCGGGGACCGGCATGCATGTCTACCTTAGCCAGGAAGAGTCCAGGCAATTGGTTGCCTTCGGCACCAGCGTCATCAAGGGTCGTGCTCGCGTCATTGTGCAAACCTCTGCCTTGCTGGTGGACGAAGTAGTGCAGCGCACCCGCCACGCCGCCGGGTGTGGCGCCGATGGCGTCATGGTGCTGCCGCCGTTTTTCGAAGGCCCAACCGACGACCAGTGCATCGTTGACTTCTACTCCACAGTGTCCGAAGCCGGGTTGCCGATCATTGGCTACAACGTGCCTCAGGCGGTGGGTGTGGAAGTCACTCCGTCGCTGTTTCGCCAGTTGAGTGAGATTCCGAACTTCGTGTCGGTCAAGGACAGCAGTGGTGACCTTGCCGCCCAAGCCGCGCTGATCCGCACGGGCCTGCCGACGATGAATGGCGCCGATGCACTGGTGCCCTACGCGCTCTTCGCCGGGGCCGCAGGCCTGATCTGGGGCGGCGCGAACATGGCCCCGCGCGCTTGCGTTGCCGTGGTAGAGGCCGCCATGAGGCACGACTGGATCAGTGCCCGGGAGATCTGGCGGTCGATAGAGCCGGTGATGTCGTTGATCTGGCAGGGTGACTATGTGCAGTCGGTCTACGCCGCTGCCGAGATCACCGGCTACGGAGCGGGAAACCCGCGTCGGCCGTTGGCGCGTTTGGCTGCTGGTAAACTCGACGCGCTCAAGGTTGCCCTTGAACCGTTGATCGCGCTTGAATCTGACCTCGCCTGA	MSAFAFSGLNLAVTTPFDAQGKIDYPRFETLLEHYLVAGVEGFVLSSGTGMHVYLSQEESRQLVAFGTSVIKGRARVIVQTSALLVDEVVQRTRHAAGCGADGVMVLPPFFEGPTDDQCIVDFYSTVSEAGLPIIGYNVPQAVGVEVTPSLFRQLSEIPNFVSVKDSSGDLAAQAALIRTGLPTMNGADALVPYALFAGAAGLIWGGANMAPRACVAVVEAAMRHDWISAREIWRSIEPVMSLIWQGDYVQSVYAAAEITGYGAGNPRRPLARLAAGKLDALKVALEPLIALESDLA	PGPT0002080_4739	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
D1-35_02412	888			hypothetical protein	ATGAGCAACCAGTCGGACAGCGCGGCACCTGCTTACGATGTGCCCAGGCCTCAGCTCGGTATCATCCTGTGCCTTCTCTCGATGCTGGTGTTCGCCAGCCAGGACGGGATTACCAAGGTCCTGGTCAAGGATCTCCCGATTGCGCAGCTGGTGATGGTGCGCTACTGGGCCTTCCTGGTTTTCGCTGTCGGCTATGGCGTCTTCCAGGGAAGCCTGCGCACCGCCTGTCGAAGCCGCCACCCCTGCCTGCAGATCATTCGCGCCTTGATCGGCGTGGGTGAAATCGCCTTGTTCGGACTGGGGCTGCGCTACCTTGGGCTGGCGGAAATGCACGCGCTGTATGCAGTCTTCCCGCTGATGACGCTGGCCTTGGCTGGAGCGTTCCTGGGCGAGTTCATCGGGGTTCGTCGATGGATAGCCGCCGCCATCGGTTTTACGGGGACACTGGTTATCCTTCGCCCCGGCACCGGTGTCTTCGAGCTGGCGGCGCTGGTCCCGTTGTTGTCTGCCCTGGGTTTTGCGATTTTCAGCGTGTTGACCCGGCGCATCAGCCAGCATGATTCGTTCGCTACGAACCTGCTTTACATGGGGTTTTTCGGCGCGATAGCCATCACCTTGTGGGGGCTTCCAGGTTGGGTTTCGCCAAGCCCGATGCAATGGGCCCTGATCGCGGTGCTTTCCACTACCGGGGTTGTGGCCCAGCTGTTGTTGCTCCAGGCGCTGAAGTACGCAACGGCAGCCACGCTCCAACCGTTCAACTACACCTTGCTGGTGTTCGCCACGCTGATTGGCCTGCTGGTATTCGGTGAGCTGCCCGACACCTGGACCGTGGTGGGTGCATGTCTGGTGATTGCGGGTGGGATGTATGCGATCAAGGCGAAAGGGTAG	MSNQSDSAAPAYDVPRPQLGIILCLLSMLVFASQDGITKVLVKDLPIAQLVMVRYWAFLVFAVGYGVFQGSLRTACRSRHPCLQIIRALIGVGEIALFGLGLRYLGLAEMHALYAVFPLMTLALAGAFLGEFIGVRRWIAAAIGFTGTLVILRPGTGVFELAALVPLLSALGFAIFSVLTRRISQHDSFATNLLYMGFFGAIAITLWGLPGWVSPSPMQWALIAVLSTTGVVAQLLLLQALKYATAATLQPFNYTLLVFATLIGLLVFGELPDTWTVVGACLVIAGGMYAIKAKG				NA	NA	NA	NA	NA
D1-35_02413	1944	pctA	COG0840	Methyl-accepting chemotaxis protein PctA	ATGAATATCAAACAGAAGCTGACATGGGCGTTCGCGACCATTGCCTGCCTCCCGGTTATCCTGGTGGCGGTGCTCGTTGTATTGAACCTGCGCGATGCGGCACAAGCCAACTTCCTGGACAGCAGCGGCCGCGAGATCCGCCAGATCGACAACGGCATGAAGCAGTTCTTCGACGGCATCATGCAGAACGTCGAGTTCTTCGCCAAGGACCCGCGGATCGTCGCGGCCAAGGACCTGAAGAACTACTCGGGTGCTGAGGCCGCGCAGATCCCGCTGACCGAGAACAACAAACAGCTGCTGGCGATTTTCGACCAGTTCGCCAAGAGCCATCCAACCACCGCCTACCTGTCCCTGGGCCTGGCGGACGGTGGCTATGCCAGCTGGCCGGATGATCCGAAGATTTCCAACTACGACCCGCGCGTACGCCCCTGGTACAAGGCGGCTATTGCAGCGCCTGGCACCACCGTGAAAACCGATGCCTATTACTGGGCGCCGGACGACGTGTCGTTGATCGGCATCGTGCACACGGTCGCCGATGCCAGCGGCAAGGTGGTCGGCGTGGTCGGCCTCGATGTGTCGCTCAAACAGCTGACCGAACTGGTCAAGAACATCAAGCTGGGCGACAGCGGCTACCTGATGCTGGTGGAGGCCAGCGGCAACGTGCTGGTCGACCCGGCCGAGGCCAAGCACAACTTCAAGCCGCTGGCCGACCTCGGCCCCAATTACGCCGCGCTGGCCAAGAGCAGCGATGGCGCCACCCAGATCGAGATCGATGGCGTGCCCTACATGGCCAACATCGTCACCTCCAAAAGCCTGGGCTGGCGCTTCATCGGCCTGATCAAGCGCGACGAAGTGATGGCCGAGGCTTCGAGCCTGACCTGGTTGATCGCCGCCATCGCCGCCGCGCTGGCCGTGGTCTTCGCCATTGTCGGCGCCAGCTTCGCCAGCGTGATCGTGCGGCCGATTCGTGGTGTTGCCAATGGCCTGCAGGAAATCGCCGAAGGTGAAGGCGACCTCACCCGCAAACTGTCGGTGCAGGGCAAGGACGAAACGGCCACCCTGGCGGGTTGGTTCAACCAGTTCCTGGCCATGATCGCGCAACTGATGCAGCGCATCGGCAGCGCTTCTTCCGACCTGCAAACTGCCGCGGCCGATACCAGCAACGTGGCCCAGAACATGAACGATGCCGCCGGGCGCCAGCGCCAGGCCGTGGAGCTGGTGAGCACCGCGTTCAACGAAATGGTCGCCACCGCGAACGAGGTGGCCCGCTCCTGCAGCCAGGCCGCCGTCAGCGCGGACACCGGCTATCGCGATGTACACGACGGCCAACATCATATCGGCGAAGCCACCGGCAGTGTGCTGAAGCTGAGTGAGGAATTGCAGCAGTCGACCCAGACCATGCAAGCGCTGGAGCAGGACAGCAAGAACATCAACACCATCCTCGACACCATCCGTTCGATCGCTGAACAGACCAACCTGCTGGCGCTCAATGCGGCCATCGAAGCGGCGCGCGCGGGCGATCAGGGCCGCGGCTTTGCCGTGGTGGCCGACGAGGTGCGCGCCCTGGCGCGGCGTACCGCCGATTCCACCGGCGAGATCGACAGTCTGCTCGGCAACCTCGCGCGGCGCACCCAGGAAGTGACGCAACAGATGCAGAACAGCCTGCAGGTGTCGCACACCAGCGTCGAACGCATCCAGCAGGCTCGCGACAGCTTCGACAAGATCCGCACCTCGGTGGACTCGATCCGCGACCAGAACACCCAGATCGCCACCGCCGCGGAGCAACAGCACCAAGTGGCGGAAGACATCAACCGGCACATCGCGCAGATCCATTCCGATGCGCAACTGGTCGAGGAATTCGCCCATACGGCGCAGACCGGTTCGGGGCGGCTGACCGATATTTCCGGCCAGCTCAAGGGGCTGGTGGGACGCTTCAGGTTCTAA	MNIKQKLTWAFATIACLPVILVAVLVVLNLRDAAQANFLDSSGREIRQIDNGMKQFFDGIMQNVEFFAKDPRIVAAKDLKNYSGAEAAQIPLTENNKQLLAIFDQFAKSHPTTAYLSLGLADGGYASWPDDPKISNYDPRVRPWYKAAIAAPGTTVKTDAYYWAPDDVSLIGIVHTVADASGKVVGVVGLDVSLKQLTELVKNIKLGDSGYLMLVEASGNVLVDPAEAKHNFKPLADLGPNYAALAKSSDGATQIEIDGVPYMANIVTSKSLGWRFIGLIKRDEVMAEASSLTWLIAAIAAALAVVFAIVGASFASVIVRPIRGVANGLQEIAEGEGDLTRKLSVQGKDETATLAGWFNQFLAMIAQLMQRIGSASSDLQTAAADTSNVAQNMNDAAGRQRQAVELVSTAFNEMVATANEVARSCSQAAVSADTGYRDVHDGQHHIGEATGSVLKLSEELQQSTQTMQALEQDSKNINTILDTIRSIAEQTNLLALNAAIEAARAGDQGRGFAVVADEVRALARRTADSTGEIDSLLGNLARRTQEVTQQMQNSLQVSHTSVERIQQARDSFDKIRTSVDSIRDQNTQIATAAEQQHQVAEDINRHIAQIHSDAQLVEEFAHTAQTGSGRLTDISGQLKGLVGRFRF	PGPT0015710_9353	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
D1-35_02414	1032	cdhR_6	COG4977	HTH-type transcriptional regulator CdhR	ATGCCCAGCGCATTCGAAAGCGTACTCAAGAACAAGAACATGGCCTATCGCCCCCAAGGGGCTGCGCCTGAGGGACAAGCGCCGGTGCGCGTCGCGTTTGTGCTGATGGACAACTTTTCCATGATGTCCTTTACCGGCGCGGTGGACGCGCTGGTCACCGCCAACCTGATGAGCGACATGCCGCTTTATGAAGTGCTGACGGTGGGCGCTTCGGGCGGGCAGGTGACGAGTGACCTGGGCATCGTGATTTCCACCGATATCGAGCTGGCGCAATTGCCCGATAACCTCGACGTGCTGATTGTCGCCGGAGGCTTTCGTGTGAAGTTGCAAGGCACGCCGTTATTGCGGCGCAAGCTGCGCGCCCATGCGACGTCCGGGGCGATAGTGGGGGGGTTGTGGAACGGCGTTTTTTTTGTGGCAGAGGCGAACCTGCTCGATGGTTTCGAATGCGCGGTCCATCCGGAAAGTCGGGCGACGATGGCCGAAATGTTCCCCCATGTGAAAGTCACCAGCCGCGCCTATGTCGTGGACCGCGAGCGAGTCAGCTGCGCGGGCGCCAACAGCTCGCTGCGCATGATGCTCCAGCTGATCCGCCGCACCGGCGGCGAGGCGCTGGTGGGGGCAATCGAAGAGATCCTTCGCTGCGATGAATCAGGGGATGACGCCACGGACCTGCCGCCGATCTTCGTCGAGACCGATCCGACGCTGCCGGAAAGCCTCAAGCTGGCGTTGGAACTGATGTGGCAGAACGTCGAGGAGCCCTTGACGATCGATGAGCTGGCGGCCTGCGTCAAGGTCTCCAAGCGCCAGCTGGAACGGCGGTTCTGCCGGTTCCTCGGTGCGACCCCGACGCGTTATTACCTGGAACTGCGCCTGACACGCGCACGCCAGCTCATCCAGCAGACCAACCGCTCGGTGACCGAAATCGCCGTGGCCACCGGCTTCGTCAGCTCCCCGCATTTCCAGCGACGTTTCCGCGATTTTTTTGGTGTGCCGCCGGGTAGCTATCGTTCGACGTTTGGGCGCAAGTAA	MPSAFESVLKNKNMAYRPQGAAPEGQAPVRVAFVLMDNFSMMSFTGAVDALVTANLMSDMPLYEVLTVGASGGQVTSDLGIVISTDIELAQLPDNLDVLIVAGGFRVKLQGTPLLRRKLRAHATSGAIVGGLWNGVFFVAEANLLDGFECAVHPESRATMAEMFPHVKVTSRAYVVDRERVSCAGANSSLRMMLQLIRRTGGEALVGAIEEILRCDESGDDATDLPPIFVETDPTLPESLKLALELMWQNVEEPLTIDELAACVKVSKRQLERRFCRFLGATPTRYYLELRLTRARQLIQQTNRSVTEIAVATGFVSSPHFQRRFRDFFGVPPGSYRSTFGRK				NA	NA	NA	NA	NA
D1-35_02415	1212			hypothetical protein	ATGCACACCCAATCCACGGCGCTGGACTCATCCCCGACGGGCATCTGGCTGCCGATATTCGCCGGCCTCTGCGCCAGCCTCGTCAGCATCGGCCTCGCACGCTTCGCCTACACGCCGTTGATTCCGTCGCTGATCGAAGCGCATTGGTTCAGCGCCAACGACGTGGTTTACCTGGGAGCGGCGAACCTGGTGGGCTACCTGATCGGCGCCCTGCTCGGCCGGCCCATGGCTCGGCGCCTGGGCAACAAGCAGGCGCTGCGCCTGATGATGCTGGCCGTGACGGCGGCATTTTTTGCCTGCGCCTTCCCGGTGTCGGTGATCTGGTATTTCGCTTGGCGGCTGCTGTCGGGCATCGCTGGCGGCGCGATCATGGTGCTGGTGGCGGCGACCGTACTGCCGCATGTGCCCGCCGCGCGCAGAGGCTTGGCCAGTGGTGCGATTTTCCTTGGCATCGGGCTGGGTATCGCCGGCTCCGGAACGATTGTGCCGCCGCTGTTGAGCCACGGTCTGCAGGCGACCTGGCTGGGGCTCGGCGTGTTGTCACTGGTGCTGACCGGGCTGAGCTGGTTCGGTTGGCCGCAAGATTCTGCCCAGGCGACAAGCGTCGCGAAACACGCCACACCGGCCGAACCCACGCCCCGCGCCGTGTATCAGCTGTTTGCCCAATACGCCTTCATGGCGGCAGGGTTGGTCCCGGCAATGGTGTTCCTGGTGGACTACGTAGCGCGGGGCCTCAAGGCCGGCGCCCATGTCGGTGCGCTGGTCTGGGTGATGTACGGCCTCGGCGCGATTATCGGCCCGGTGACCTACGGCCTTCTCGCCGACCATCTGGGCGCGCGCAAAAGCATACGACTGGTGCTGGCCGTCCAGGCCGTTGCCCTTGGCCTGCTGGCGATTACCCAGAGCTTCCTGGCGCTGGCGGTACTGGCCGTGCTGATCGGCTCGTTCCCGCCGGGCATCGTGCCGTTGGCCCTGGCCCGGGTGCACGAACTGGTGCCGGACCATCATCGCCAGCAAGTCGCCTGGAGCCGCGCCACCGTTTCATTCGCAACCTTTCAGGCGCTCGCCGGGTTCGGCTATTCGGCGCTGTTCAATGCCAGTGGCGGACAGCATGCGGTGCTGTTCCTGGTTTCTGCGGGGGCGATCGTGGTGGCGCTGCTGCTCGATTTCACGCCCAAGCTGTTCGCAAGGACCGCAACCGCGGACGACTAA	MHTQSTALDSSPTGIWLPIFAGLCASLVSIGLARFAYTPLIPSLIEAHWFSANDVVYLGAANLVGYLIGALLGRPMARRLGNKQALRLMMLAVTAAFFACAFPVSVIWYFAWRLLSGIAGGAIMVLVAATVLPHVPAARRGLASGAIFLGIGLGIAGSGTIVPPLLSHGLQATWLGLGVLSLVLTGLSWFGWPQDSAQATSVAKHATPAEPTPRAVYQLFAQYAFMAAGLVPAMVFLVDYVARGLKAGAHVGALVWVMYGLGAIIGPVTYGLLADHLGARKSIRLVLAVQAVALGLLAITQSFLALAVLAVLIGSFPPGIVPLALARVHELVPDHHRQQVAWSRATVSFATFQALAGFGYSALFNASGGQHAVLFLVSAGAIVVALLLDFTPKLFARTATADD				NA	NA	NA	NA	NA
D1-35_02416	876			hypothetical protein	ATGAATTGGGATGACGCGCGGGTGTTTCTCGCGGTATGTCGGGAGTCGACACTGCGTGGAGCGGCCCGGATACTGGGCGTGGATCAGGCGACCGTGGGGCGACGGATCGTCGCGTTGGAAAAATCCTTGAGCGCCGCGTTGTTCCTGCGCACCTCCGACGGTTATGCGCTGACGGCGGTGGGCGAAGCGGCGCTCAAGGCCGTGGAGAAAATGGAGCAGTCGGCCCTGGAGCTTGAGCGTCGCATCCAGGGCCTGGACGATCGGCTGATCGGCAACGTACGCGTCGCCACCACCGATTCGTTGGCGATCGATTTCCTCATCCCGGCCATCGCCCGCCTGCATGCGCGGCATCCCGACGTCCGCGTGCAACTGGACGCCTCCACGCAGATCATCAGCCTGGTCAAGCGTGAAGCGGACATTGCCGTGCGCAATACCCGGCCCGACAATCCTGATCTCATCGCCCGGCGGATTGCGCGCTGGCCGGTGGGGCTGTTCGCCTCCCAGGATTACGTCGACGCTCATGGGGAGCCTGCGCCGGGCAGTGCTTTCGAAGGGCATGACCTGGTGGTCTATCAACCGTACTGGCAGGGCCAAAAGGATTTCACCCTGGTGGCCGAACCGGTCGGCCGAGGACGGATTGTCGCCAGCCTGAGCTCAAGCCTGCTGGTACGCAGGTCGATCGGGGCGGGGATCGGGGTGGGAGAAATTCCGGTGTACATGGGGGAGCGCGACGGGCTGGTGCGGCTCTGGCCGCAGCGCACGCGACCGCTGCCATATGAGGTGTGGCTGGTAACTCACGCGGATCTGCGCCACACGGCGCGGGTGCGGGCGGTGATCGATGAGATCGTCGCGGCGTTTTCCAAGGAGAACGAGTAG	MNWDDARVFLAVCRESTLRGAARILGVDQATVGRRIVALEKSLSAALFLRTSDGYALTAVGEAALKAVEKMEQSALELERRIQGLDDRLIGNVRVATTDSLAIDFLIPAIARLHARHPDVRVQLDASTQIISLVKREADIAVRNTRPDNPDLIARRIARWPVGLFASQDYVDAHGEPAPGSAFEGHDLVVYQPYWQGQKDFTLVAEPVGRGRIVASLSSSLLVRRSIGAGIGVGEIPVYMGERDGLVRLWPQRTRPLPYEVWLVTHADLRHTARVRAVIDEIVAAFSKENE				NA	NA	NA	NA	NA
D1-35_02417	723	yhhW_1	COG1741	Quercetin 2,3-dioxygenase	ATGCTGACCCTTCGCAAAGCTTCTGATCGCGGCATCGCCCGTCACGGCTGGCTGACGTCGTTCCATACCTTTTCCTTCGCCAACTACCGCGACCTCAACCAACAGGGTTTTTCCGACCTGCTGGTGATCAACGACGATCGGGTTGCCGCCGCCAAAGGTTTCGGCCAGCACCCACACCGGGACATGGAAATTTTCTCCTACGTGCTCGAAGGCGCGCTGGAGCACAAGGACACCCTGGGCACGGGCTCGGTGATTCGTCCGGGTGATGTGCAGTTGATGAGCGCCGGCAGCGGCGTGGCCCACAGCGAGTTCAATCACAGCGCGGACGAGCCGGTGCACTTCCTGCAGATCTGGATCGTGCCCAATGTCGTGGGCGCTACGCCGCGCTACCAGCAGGAGCACTTCAGCACCGAACAGAAACGCGGTCGCCTGCAACTGATCATCTCCCCGGACGGCGCCGAGGGGTCGTTGCACGTACGCCAGGACGCACGGGTGTATGCCGGGCTGTTCGATGGTCAGGAAAGCGCCACGCTGACCTTGGCCGCTGATCGTTATGCCTATGTGCATGTGGCCCGGGGCAGCGTCGAGCTCAACGGCGTGGCGTTGCAGGAAGGCGACGGTGTGCGGGTACGCAACGAACAGGCACTGACGCTGGGCAACGGCCAGGATGCCGAGGTGCTGGTGTTTGACCTGCGGCCGCAGGAACTGCCGCAAATGCCATAA	MLTLRKASDRGIARHGWLTSFHTFSFANYRDLNQQGFSDLLVINDDRVAAAKGFGQHPHRDMEIFSYVLEGALEHKDTLGTGSVIRPGDVQLMSAGSGVAHSEFNHSADEPVHFLQIWIVPNVVGATPRYQQEHFSTEQKRGRLQLIISPDGAEGSLHVRQDARVYAGLFDGQESATLTLAADRYAYVHVARGSVELNGVALQEGDGVRVRNEQALTLGNGQDAEVLVFDLRPQELPQMP	PGPT0019980_4508	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
D1-35_02418	951	cdhR_7	COG4977	HTH-type transcriptional regulator CdhR	ATGAAAACCGTTGCAATGGTGCTGTTCCCCGATTTCCTGCTGCTCGACATGGCCGGGCCGCTCGAAGTGTTTTCCATCGCCAATCGTTTTCTCGCGCCGGAGCAGCACTATCAGTTGCTGACCCTGGGCACCGAGCGCGGGGCGTTGCGAGCCTCCAACGGGGTGACTGTCCAGGCCGACATCCATATCGACCAGGCTTGGGCGGCCTACGACGTACTGCTGGTACCGGGCGGGCCTGGTGCCTATAACGACAGGCATCCGGGCTTGCACACCTGGTTGCGGGCGTCGGCGCAGCGGGCCACGCGCTACGGGTCGATCTGCACGGGAGCCTTCATCCTGGGAGAGGCGGGCTTGCTCGACGGCTATCGGGTCACCACCCATTGGCATTACACCGAACGCCTGATCCAGCGGTTCCCCAAGGCTTTGGTCGAGACCGACAAGATCATCTTGCATGACCGACGGTTGATCACCTCCGGCGGGGTCACGGCCGGTATCGACATGGCCCTGTCCATCGTCGCCCAGGACCATGGCCGCAAAGTCGCGCTGGATGTGGCCAAGGTCTTGCTGGTGGTCATGCAGCGCCAGGGTGGGCAAGCGCAGTTCAGCCCGCTGGTAGCGGCGGTGGCGGCACAGGAATCGGCGGTTACCCGGGTGCAGCATTACGTGATGGAACATCTGGAGGAGCCGTTTTCCATCGAGCGCATGGCTGATCTGGCCGCCATGAGCTCAAGGCATTTCGCCCGGGTTTTCCTGCGCGAAGTCAAGATGACACCGATGGAGTTCCTGCAAGGTGCGCGCATCGATCGGGCGCGGCAGTTGCTGGAGTCCACCGACTTGCCCCTCAAGACCGTGGCCTTTCGCAGTGGCTTTGGCAGCGTCCGGCACATGCGCCAGTTGTTCAGCGAAAAACTCGGCCTGACACCGGTCCAGTACCGGCAGCAGTTCAGTTGA	MKTVAMVLFPDFLLLDMAGPLEVFSIANRFLAPEQHYQLLTLGTERGALRASNGVTVQADIHIDQAWAAYDVLLVPGGPGAYNDRHPGLHTWLRASAQRATRYGSICTGAFILGEAGLLDGYRVTTHWHYTERLIQRFPKALVETDKIILHDRRLITSGGVTAGIDMALSIVAQDHGRKVALDVAKVLLVVMQRQGGQAQFSPLVAAVAAQESAVTRVQHYVMEHLEEPFSIERMADLAAMSSRHFARVFLREVKMTPMEFLQGARIDRARQLLESTDLPLKTVAFRSGFGSVRHMRQLFSEKLGLTPVQYRQQFS				NA	NA	NA	NA	NA
D1-35_02419	1509			hypothetical protein	ATGAACAGCTTCACCAAACCTTGCGCCGCAACAGCGGCGAGCCCCGAAACCACGGTGCGCTTCGGTCCGTTTGTCTTTCACCGCCAGCAGCGGCTGGTTACCTGCGATGGCGAGCCCCTGGCCTTGGGCGGTCGCGCCCTGGACATCCTGCACTTGTTGGTTGCCCATGCGGGCGCCTTCGTCAGCAAGCAAACCCTGATCGCCCAGGTCTGGCCCGACAGCGTGGTGGAAGACATCAACCTGCGGGTGCACATCGCCGCCTTACGGCGGGCGTTCGGTGCTGGACAGGATGGCAATCGCTACATCCTCAATCATCCGCGCCAGGGCTACTGCTTCGCCGTGCCCCTGACCCCGCAGCCGAGTGCTGAATCATCCGGCGCCAGGCGCTCCGAGCGGCACAATCTGCCCGCGCGCCTGAGCCCGGTGATCGGTCGCGACAAGCTGCTGGGACGGCTGTTGGTCGAGGTTCCGCGCCAGCCCCTGACCACCGTCGTCGGCCCGGGCGGTATCGGCAAGACCACGGTGGTGTCGCGGGCGGCGGAACTGTTGCTCGAGCATTTTGCCGACGGCGCCTGGTTTATTGACCTGGCGGCGATCAGCGACCCGGCCGAGGTCTGCCCGCGGATCATGCAAACCCTTGGCCTGACGGGCGGCTCGCTGGGACAGTGCCTGCAATCGTGCCGGATGTTGCTGGTGCTCGATGGCGCCGAACACCTGCTCGATGCCTGCCGGGAGCTGGCCTTGACGCTGCGCTCAGCGGCCCCTGGCGTATCGCTGTTGTTGAGCAGTCGCGAAGCCTTGGAGCTTGCAGATGAACATGTCGTGCAATTGGCCGGTCTGGCCGTGGCGACGGCCAGCGAGCCCGGCCACTTGATATTGGCGAGTCCGGCAGTGCGCTTGCTGGTTGATCGGGTCGGTGCCCGACAGCAGGGCTTCAAGCCGGGTGAACGCGACCTCGCGCCTCTCGCACAGATCTGCCAGCGCCTGGACGGGTTGCCGTTGGCGCTGGAACTGGCGGCGGCCCAGGTTGATGTGCTGGGCGTGGCGGGGGTCCTGGAACAGTTGGACTACGGTCTGTCACTGTTGAGCCACGGCCGCCGTACAGCCGTGGCGCGCCACCGCAGCCTTGACGCGGCGCTGGATTGGAGTTTCGAGCGCTTGGGCAGCGACGAACGAACGGTGTTCCAGCGGCTGGCGGTGTTCGAGGAACCGTTCACGTTGAAGGCTGCGCTGGCTGTGGTCAGTTGCACTGACGTCGGGGTGGGGCGATTGCCCTGGCTGCTGTCACGGCTGGTCAAGCAGTCGCTGGTGATGGTCGAACAAGGTGCCGAAGGCAATCGCTACCACCTGCTCAATACCACGCGTGCCTATGCCTTGGAAAAGTTGCGTCGCGCAGGCCAGTGGCAGTCGCTCCATCGGCGCTACGTGTTGCAGGAGGCTTGGCTGGCGCGGCGTTCAAGACCCGAGCTGGCGAGTCAGCGTCTGGAGCAGCGCGCCGGCTTCCTTTAG	MNSFTKPCAATAASPETTVRFGPFVFHRQQRLVTCDGEPLALGGRALDILHLLVAHAGAFVSKQTLIAQVWPDSVVEDINLRVHIAALRRAFGAGQDGNRYILNHPRQGYCFAVPLTPQPSAESSGARRSERHNLPARLSPVIGRDKLLGRLLVEVPRQPLTTVVGPGGIGKTTVVSRAAELLLEHFADGAWFIDLAAISDPAEVCPRIMQTLGLTGGSLGQCLQSCRMLLVLDGAEHLLDACRELALTLRSAAPGVSLLLSSREALELADEHVVQLAGLAVATASEPGHLILASPAVRLLVDRVGARQQGFKPGERDLAPLAQICQRLDGLPLALELAAAQVDVLGVAGVLEQLDYGLSLLSHGRRTAVARHRSLDAALDWSFERLGSDERTVFQRLAVFEEPFTLKAALAVVSCTDVGVGRLPWLLSRLVKQSLVMVEQGAEGNRYHLLNTTRAYALEKLRRAGQWQSLHRRYVLQEAWLARRSRPELASQRLEQRAGFL				NA	NA	NA	NA	NA
D1-35_02420	2811			hypothetical protein	ATGAGCCAATACCTCAACCTGCCCGTCGAACAGACGGTGCATTTCGGCCCTTACCGGGTCCATCCGCGCCAGCGCCTGGTGCTGGAGGGCGGGCAACCGTTGCGCCTGGGGCGGCGAGCGGTGGAGATCCTGCTGGTGCTGCTCGAACACGCCGGCCAAGTGGTGAGCAAGCAGCAACTGATCGCCCGGGTCTGGCCGAAAAGCGTGGTGGAGGACACCAACCTGCGGGTTCACGTGGCGGCGTTGCGCAAGGCCCTGGGCGACGGCCAGGCCGGTCAGCGTTATATCGTCACGGTGGCGCAGCGCGGCTACAGTTTTGTCGCACCGGTGACATTCGAAGCGCCCGAGGAACTGGCGCGCATCCCCCACCCCTCCCTGGCGCGCAACCTGCCGCCGCGCCGTACCCGCATGATCGGCCGCCAGGGCCTGGTGGAGAGCCTGGTGGCGCAACTTCCGCGCAAACGCTTCATCAGCCTGGTCGGCAGCGGCGGCATCGGCAAGACCACCGTCGCCTTGCGGGTTGCCGAACGGCTGCTTGGCCAGTACCGCGACGGCACCTGCCTGCTGGACCTGGCCTCGCTCAACGACGCGACCATGATCGCCCCCAACCTCTGCGCGTTGCTGGAGCTGACGCTGCATGACGGCGAACCGCTCGACGCGATCGTCCGGCAACTCAAGGACCGCCATCTGCTGCTGGTCATCGACACCTGTGAACACCTGATCGATGCCGTCGCGCTGCTCTGCGAAACCCTGCTGCGCGGCGCGCCTCACCTGCACATCCTGGCCACCAGCCGCGAAGGCCTGCGCGCCGAAGGCGAACACGTGCAGCGCCTCGATTCGCTGGCGTTTCCGCCAAGGGGCATGGTCATCGAAGGTTATCCGGCCCTGGAATTCCCGGCGCTGCAACTGTTCGCCGAACGGGCGATAGCCAGCCAGGACGACTTTGAGCTGACGGACCACGAGGTTCCGCTGATCGTCGATATCTGCCAGCGGCTCGACGGAATCCCCCTGGCGATCGAACTGGCCGCCGCCCAGGTCGGGCGCTTTGGGCTGGAGGCGCTATGCCGGCAACTGCAGGACAGCGTCGCCCTGCTCGACCATGACAGGCACGCCAGCGCACCGCGCCAGCAAACCCTGCGCGCCACGGTGGACTGGAGTTTCGCGCTGCTCACGCCGTGCGAACAGACCTGCCTGCGGCGCCTGGCGGTGTTCATGGGCAGTTTCAACCTGGCGTCGGCCGCGGCAGTCATCGTCGGCCAGCATGTCGCGCCGGAACAGGTGCTGGTCTCGATCAGCCAGTTGGTGGCGAAATCGTTGCTCAATGTCGAGATCGGCGACGATGAGGTCCGTTATCGGTTGCTGGACACCACGCGCAGCTACGCCCTGGAAAAACTGCTGGATGCCGGGGAACTGGCCGCCACCCGGGAGCGCCACGCCGAGCGCTGCCTGACGCTCATGGAACAGGCTGAAAAGGATTGGGAAAACACTTCTACGCGCGTGTGGATCGCACGCTACGCGGCCTATCGGGACGACATCCGCGCGGCGCTCGACCGCGGGCTGGGCCCGCAGGGTTCGCACGCCGTGGCGATCCGCCTGGCCGCGCGCACCCTGCCGCTCTGGCAAGAGCTGTCGCTGCTCAAGGAGCACGGGCTGTATGTCAGCAAGGCGCGGGCGCTGCTACAGGCCAGCCCCTCGCCGTGCCAGAGATTGACCCTCGCCCTGGAACTGGCCCACGGCAGTTTCAACTACCACACCGAGGGCGGTACGCCGGCCACTGTCGAGGCCTTCGTCACGGCCCGCCACCTGGCCCGGCAGTGCCAGGACCGGGCGGGAGAATTGCGCGCATTGTCGGGCCTCATGACGGTCAATCTCAGCGCCGGCCGCTATCAGCAGGCGCTGGAGCAAAGCCTGGATTTCGATCGCCTGGGCCTGCCGGGCGACCCGGTCCTGTCCTTGAGTACCCAGCGCCTGCGGGTGCTGGCGCTGCATTTCACCGGCGACCAGGACGGCGCGCGACGTGACGCCGAGCAGGTCATCCAGCGCCTGGCCCAGAATGGTCACCTGAGCCGCTTCAGCCACGGTTTCGGCGTGCAATACGAGCAGAGCGTGGCCGCGCTGACGATCCTGTCGCGCATCCTCTGGCTGCAAGGGTTCGCCGAAAAAGCCCGGCGCACGGCCAACCTTGCGCTACAGATTGCCCTGCAGATCAACCACGGCCTTTCGATCTGCTACACCCTGGCGATCGCCGGTTGCGTGATCGCCCATTACACCGGCGATCAGCCGACCGCCCAGGAACGGCTGGACATGTTGAAGCAGCAGGCCAAACGCCATTCGGTCATGCTCTTCCATGATTGGGCTGGCCATTACGAGCGCGCCTTCGACGGCGCCAGTCCGCAGTCGCACTGGAGCGCTTGCGGCCTGATCCAGGATACCGTCGTCACTCTGCGCGGCGATGCCGTCAGCCCGCAGCAGATCGAGCGCGCCCATAGCGGCGCGGCAGGCTGGTGCTCGGCGGAAATCCTGCGCATCGCTGCCGAAGCGTTGCTGGCCGAGGGAAAAGCGGGCGCAGAAAGCCGTGCCGAAGAGTACTTACACGCCGCGCTGACGGTAGCCCGGAGCCAAGGCGCGCTGGCCTGGCAATTACGCAGTGCCATGTCGCTGGCCCGGCTGTGGCAACGGCGCGGCCAGGATGCGGCGGCGCAGGATGTGCTCGCTTCGGTCTATCGGCGCTTCAGCGAAGGGTTCGACACACCCGACCTAAAGGAAGCCGGCGCGCTGCTCCAGACGCTGACTCGCCAGCTCGGGTCTTGA	MSQYLNLPVEQTVHFGPYRVHPRQRLVLEGGQPLRLGRRAVEILLVLLEHAGQVVSKQQLIARVWPKSVVEDTNLRVHVAALRKALGDGQAGQRYIVTVAQRGYSFVAPVTFEAPEELARIPHPSLARNLPPRRTRMIGRQGLVESLVAQLPRKRFISLVGSGGIGKTTVALRVAERLLGQYRDGTCLLDLASLNDATMIAPNLCALLELTLHDGEPLDAIVRQLKDRHLLLVIDTCEHLIDAVALLCETLLRGAPHLHILATSREGLRAEGEHVQRLDSLAFPPRGMVIEGYPALEFPALQLFAERAIASQDDFELTDHEVPLIVDICQRLDGIPLAIELAAAQVGRFGLEALCRQLQDSVALLDHDRHASAPRQQTLRATVDWSFALLTPCEQTCLRRLAVFMGSFNLASAAAVIVGQHVAPEQVLVSISQLVAKSLLNVEIGDDEVRYRLLDTTRSYALEKLLDAGELAATRERHAERCLTLMEQAEKDWENTSTRVWIARYAAYRDDIRAALDRGLGPQGSHAVAIRLAARTLPLWQELSLLKEHGLYVSKARALLQASPSPCQRLTLALELAHGSFNYHTEGGTPATVEAFVTARHLARQCQDRAGELRALSGLMTVNLSAGRYQQALEQSLDFDRLGLPGDPVLSLSTQRLRVLALHFTGDQDGARRDAEQVIQRLAQNGHLSRFSHGFGVQYEQSVAALTILSRILWLQGFAEKARRTANLALQIALQINHGLSICYTLAIAGCVIAHYTGDQPTAQERLDMLKQQAKRHSVMLFHDWAGHYERAFDGASPQSHWSACGLIQDTVVTLRGDAVSPQQIERAHSGAAGWCSAEILRIAAEALLAEGKAGAESRAEEYLHAALTVARSQGALAWQLRSAMSLARLWQRRGQDAAAQDVLASVYRRFSEGFDTPDLKEAGALLQTLTRQLGS				NA	NA	NA	NA	NA
D1-35_02421	273			hypothetical protein	GTGCGTGAGTTAAACGTTGTTAATTTTTTCGCGACGGCGGTGCTAAAACCTCAGGGGGAACTGCTTTTGTGGCGAGGGGATTTATCCCCGCTGGGCCGCGAAGCGGCCCCCCAAAGCGCAATCCCCAAATATGTCTGGCACCCCGAGATAACAGTCTTGGGACTGCTTCGCAGTCCAGCGGGGATAAATCCCCTCACCACACATAAATCCCCTCACCACAGGGGTTTGTGTCTGTCGATCGCTCTGCGCAGCGCCTCCCACCGTTGCGCTTGA	MRELNVVNFFATAVLKPQGELLLWRGDLSPLGREAAPQSAIPKYVWHPEITVLGLLRSPAGINPLTTHKSPHHRGLCLSIALRSASHRCA				NA	NA	NA	NA	NA
D1-35_02422	822	cpo_1		Non-heme chloroperoxidase	ATGAGCACTTTCATCACCCGCGACGGCACCGAGATCTACTACAAGGATTGGGGCAGTGGCCAACCGGTGGTCTTCAGCCACGGCTGGCCGTTGAATTCGGACAGTTGGGAGGCGCAGATGATGTTCCTGGCGTCCAACGGCTATCGGGTGATTGCCCACGACCGTCGTGGTCACGGGCGTTCCAGCCAGCCCTGGGACGGCAATGACATGGACACCTACGCCGATGACCTGGCCGAGCTGATCGAGCGCCTGGACCTCAAGGACGCGGTGTTGCTCGGTTTCTCCACCGGCGGTGGCGAAGTGGCGCGCTACATCGGTCGGCATGGCGCCGCCCGCGTCGCCAAGCTCGGCCTGATCTCGGCGGTCACGCCGCTGATGCTCAGGACCGCGGCCAACCCCGGCGGCCTGCCCGTTGAGGTATTCGACGGCTTCCGCCAGGCCTCTCTGGCCGATCGTTCTCAGCTATACAAGGATGTGGCCAGCGCGTTTTTCGGCGCCAACCGTCCGGGTGCCAAGGTGTCCCAGGGCATGATCGACTGGTTCTGGATGCAGGGCATGCTCGCCGGCCACAAGAACGCCTACGACTGCATCAAGGCCTTCTCGGAAACCGATCTTTCCGAAGACCTGCGCAACATCGACGTGCCGACCCTGGTGGTGCATGGCGATGACGACCAGGTAGTGCCGATCGAAACCGCCGGCATCGCGGCCGCCAAGCTGCTCAAGAACTCGCAGCTGCTGGTCTATCCGGGCGCGCCCCATGGTCTGACCGACACCCACAAGGACCGGCTGAACGCCGACCTGCTGGCGTTCATCCAGGGTTGA	MSTFITRDGTEIYYKDWGSGQPVVFSHGWPLNSDSWEAQMMFLASNGYRVIAHDRRGHGRSSQPWDGNDMDTYADDLAELIERLDLKDAVLLGFSTGGGEVARYIGRHGAARVAKLGLISAVTPLMLRTAANPGGLPVEVFDGFRQASLADRSQLYKDVASAFFGANRPGAKVSQGMIDWFWMQGMLAGHKNAYDCIKAFSETDLSEDLRNIDVPTLVVHGDDDQVVPIETAGIAAAKLLKNSQLLVYPGAPHGLTDTHKDRLNADLLAFIQG	PGPT0013125_2341	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013125-cpo-K00433	NA	NA
D1-35_02423	948	nodD2_2		Nodulation protein D 2	ATGAACCGCAACGATCTACGCCGCCTCGACATGAACCTGCTGGTGATCTTCGAGGCGCTGATGTTCGAGAAGAACCTGACCCGTGTCGCCGAAAAGCTCTTCATGGGCCAGCCGGCGGTGAGCGCGGCGCTCGGGCGGCTGCGGGATCTGTTCGATGATCCGCTGCTGATCCGTCACGGGAGGGGCATGGAACCGACGCCTCGGGCCCTGGCGATCCTGCAAGAATTGCAGCCGGCCATGGACACCATTTCCGGCGCGGTCAGCCGGGCCAAGGCGTTCGACCCGTCCACCAGTTGCGACGTGTTCCGCATCGGTCTGTCCGATGATGCCGAATTCGGCCTGTTTCCACCGCTGCTCAGTCAATTGCGCGAAGAAGCGCCGGGCATCATCGTGGTGGTGCGCCGGGCCAATTTCCTGCTGATGTCGTCGTTGCTCGCCAGCGGCGAAATCAGCGTCGGCGTCAGCTACACCACCGACCTGCCGGCCAATGCCAAGCGCAAGAAACTGCGGGACATTCCCTGCAAGGTCCTGCGTGGCGACAAGCGCCCGGGGCCGCTGACCCTGGACGACTACTGCTCGCGACCCCACGCCATGGTGTCGTTCTCGGGCGACCTGAGCGGCAACATCGACCTGGACCTGGCGCGCATCGGCCGGGCCCGCAAAGTGGTCTTGGCAGTGCCGCAATTCAGCGGCCTGCGCGCCTTGCTGGCGGGCACCGAGCTGATCGCCACGGTACCGGACTACGCCGCCTGCGCGCTGGTGGAGGGCTGCGCCTTGCGCGCCGAAGACCCGCCGTTCGAGATCAATGCCGCCGAGTTGTCGATGGTCTGGAGCGGCGTCCACGACAATGACCCCGCCGAGCGCTGGCTGCGCTCGCGCATCGCCACCCACATGTCCCAACCGTTGCCGGCAGCCGCCTCGACGGACCCGGCCGGAGCTCACCGATGA	MNRNDLRRLDMNLLVIFEALMFEKNLTRVAEKLFMGQPAVSAALGRLRDLFDDPLLIRHGRGMEPTPRALAILQELQPAMDTISGAVSRAKAFDPSTSCDVFRIGLSDDAEFGLFPPLLSQLREEAPGIIVVVRRANFLLMSSLLASGEISVGVSYTTDLPANAKRKKLRDIPCKVLRGDKRPGPLTLDDYCSRPHAMVSFSGDLSGNIDLDLARIGRARKVVLAVPQFSGLRALLAGTELIATVPDYAACALVEGCALRAEDPPFEINAAELSMVWSGVHDNDPAERWLRSRIATHMSQPLPAAASTDPAGAHR	PGPT0028130_108	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexEF-OprN,PGPT0028130-mexT-K18297	NA	NA
D1-35_02424	414			hypothetical protein	ATGAACGCCACTGACGAACGCCGCATGCAGGACCTCGGCCTGCTGTTCCTGCGCCTGAGCGGCGCGCTGTTTCTGCTGTGGGTCCATGGCTTGCCGAAGCTGCTGAACTACAGCGCCGAGCTGACCCGCATCGAAGACCCGTTCCACCTCGGCGCGGCGCCCACGCTGATCCTGGCAATTTTCGCCGAGGTGCTTTGCCCGCTGCTGATCATGGCTGGCGTGCTGGTGCGCCTGGCGTGCTTGCCCATCCTCTTCCTGCTGGCCGTTGCGCTGCTCGTGGTGCACCCGCAATGGAGCCTGGAAGAAGGCCAGTTCGGCTGGTTGCTGCTGATCATATTTACCAGCGTGTTCATTGCTGGCCCGGGAGGCCTGGCGATCAACGCGCGTTTTGCTGGAGTGCTGCGTCATGCCTGA	MNATDERRMQDLGLLFLRLSGALFLLWVHGLPKLLNYSAELTRIEDPFHLGAAPTLILAIFAEVLCPLLIMAGVLVRLACLPILFLLAVALLVVHPQWSLEEGQFGWLLLIIFTSVFIAGPGGLAINARFAGVLRHA	PGPT0028505_5037	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028505-catD-K15977	NA	NA
D1-35_02425	639			hypothetical protein	ATGCCTGAATCCCAAACCCTTGAATCAACCGCGATCCCGGCGATCCCCGGCTTCGATGAAATCGTCACCCTGGTAGTCAAGCACCGGGTCAAGGCCGGGCAGGACGGCGCCTATGAAGCCTGGTTGCGGCGCATCGTCAGCGTGGCCGGCCAATGGCCGGGGCATCTGGGCGTGGACGTAGTCCGGGGCAAGCAGGGCGGGTTGTCGCTGTTCACCTGCGTGCTGCGGTTCTGCTCCACCGAGGCCATGCAGCGCTGGCTGGACTCGCCCGAGCGCCGCGAACTGGTGGAAGAGGCCGCGCCGCTGCTGGCGGACGGCGACCAGACAGAAGTCGCTCCGCACAAGGAATTCTGGTTCGCCCCGCTGGCCGATGCCGCCACGCCGCCACCGCGCTGGAAGCAATCGGTGGTGACCTTGCTGGTCATCCTGCCGCACACCTTGCTGGTGCCGTTGCTCTGGGGCCCGCTGTTGCAACTCAACGCGTTTCTGTCCAACTACGTGGTCGCCACGTTCCTGATCACCGTGACCATCGTGCTCTCGGTGGTGTACGTGTGCATGCCGCTGGCGACGCGTCTGTTCGCGCCGTGGCTGGAAGCGTCCAAGGCCCACCAACACCTGGAGCCCGGCGATGGCCAATAA	MPESQTLESTAIPAIPGFDEIVTLVVKHRVKAGQDGAYEAWLRRIVSVAGQWPGHLGVDVVRGKQGGLSLFTCVLRFCSTEAMQRWLDSPERRELVEEAAPLLADGDQTEVAPHKEFWFAPLADAATPPPRWKQSVVTLLVILPHTLLVPLLWGPLLQLNAFLSNYVVATFLITVTIVLSVVYVCMPLATRLFAPWLEASKAHQHLEPGDGQ				NA	NA	NA	NA	NA
D1-35_02426	1968	nfdA_1		N-substituted formamide deformylase	ATGGCCAATAAAGACGACCCGACCGATCCGCTGCGCCGCCAGTTGCTGGCCGCCGGATCCCTGCTCAGCGCGGCGGCGGCTTTCTGGCCACGCCTGTCTCTTTCCTCTTCCCATCCAGAAGGACATCCAATGAACGCCGATCTGATTCTGTTCAATGGCCAGTTCCATACCGTCGACCGTGAAAAACCTCGCGCCAGCGCGGTTGCCATCAGCCAGGGCCGTTTCGTCGCCGTGGGCACCGATGCCGAGGCCATGGCCTTGCGTGGCAGCGGCACCCAGGTCATCGACCTCAAGGGCCGCACCGTCATTCCCGGCCTCAACGACTCGCACCTGCACCTGATCCGCGGTGGCCTGAACTACAACCTGGAGCTGCGTTGGGAAGGTGTGCCGTCCCTGGCCGACGCCTTGCGCATGCTCAAGGACCAGGCCGATCGCACCCCGACCCCGCAATGGGTACGGGTGGTGGGGGGCTGGAACGAATTCCAGTTCGCCGAAAAGCGCCTGCCGACCCTGGAAGAACTGAACCAGGCCGCGCCCGACACCCCGGTGTTCGTATTGCACCTGTACGACCGCGCCTTGCTCAACCGCGCCGCGCTGCGGGTGGCCGGCTACACCCGCGACACGCCGAACCCGCCGGGCGGCGAGATCGTTCGCGATGCCAACGGGAATCCGACCGGCATGCTGGTGGCGCGGCCCAACGCGATGATCCTTTACTCGACGCTGGCGAAAGGGCCGAAGCTGCCGCTGGAATACCAGGTCAACTCCACCCGCCAGTTCATGCGCGAGCTCAATCGCCTGGGCCTGACCAGCGCGATCGACGCCGGCGGCGGCTATCAGAACTACCCGGACGACTACGAAGTCATCGAGCAGTTGGCTCGCGAGCAGCAGTTGACGGTGCGCATCGCCTACAACCTGTTCACCCAGAAGCCCAAGGAAGAACTCACCGACTTCAAGAACTGGACCGGCAGCGTCAAGCTGCACCAGGGCGACGATTTCCTGCGGCACAACGGTGCCGGGGAAATGCTGGTGTTCTCGGCGGCGGACTTCGAAGACTTCCTCGAACCGCGTCCGGACCTGCCGCCGGGCATGGAGCAGGACCTGGAGCCGGTGGTGCGTCATCTGGTCGAGCAGCGCTGGCCGTTCCGCCTGCACGCCACCTATGACGAATCCATCAGCCGCATGCTCGACGTGTTCGAGAAGGTCAACCGCGACATTCCGTTCAACGGCCTGCCGTGGTTCTTCGACCACGCCGAGACCATCACGCCGAAAAACATCGAGCGGGTCCGCGCGCTGGGCGGTGGCATCGCCATTCAGGACCGCATGGCCTTCCAGGGTGAATATTTCGTCGACCGCTACGGCGCCAAGGCCGCCGAAGCCACGCCGCCGATCAAGCGCATGCTGGCCGAAGGCGTACCGGTGGGCGCCGGCACCGACGCCACCCGGGTCTCCAGCTACAACCCGTGGACCTCGCTGTACTGGATGGTCAGCGGCCGCACCGTCGGCGGCCTCTCGCTGCACGAAGAAGGCCTGCCGCGGCTGACCGCGTTGGAGCTGTTCACCCATGGCAGCGCCTGGTTCTCCTCGGAGCAGGGCAAGAAGGGCCAGATCAAGGTTGGTCAACTGGCGGACCTGGCAGCCCTGAGCGCGGATTTCTTCAGCGTCGAGGAAGAAGCCATCAAGTGGATCGAATCGGTGCTGACCGTCGTGGACGGCAAGGTCGTCTACGCCGCTGGCGACTTCGAAAAACTCGGCCCGGCCAGCGTCCCGGTACTGCCGGACTGGTCGCCGGTGGTCAAGGTTCCCGGCCACTGGCGTCCGGCTTCGCCATTGCAGGCGCAAGTCCACCAGTGCAGCGGGCCGTGCAAGGTGCATTCCCACAGCCATGAACGGGCGCGTCTGTCGAACGTGCCGGTCAGCGACTTCCAGGGGTTCTGGGGCGCGTTTGGCTGTTCGTGTTTTGCCTTTTAA	MANKDDPTDPLRRQLLAAGSLLSAAAAFWPRLSLSSSHPEGHPMNADLILFNGQFHTVDREKPRASAVAISQGRFVAVGTDAEAMALRGSGTQVIDLKGRTVIPGLNDSHLHLIRGGLNYNLELRWEGVPSLADALRMLKDQADRTPTPQWVRVVGGWNEFQFAEKRLPTLEELNQAAPDTPVFVLHLYDRALLNRAALRVAGYTRDTPNPPGGEIVRDANGNPTGMLVARPNAMILYSTLAKGPKLPLEYQVNSTRQFMRELNRLGLTSAIDAGGGYQNYPDDYEVIEQLAREQQLTVRIAYNLFTQKPKEELTDFKNWTGSVKLHQGDDFLRHNGAGEMLVFSAADFEDFLEPRPDLPPGMEQDLEPVVRHLVEQRWPFRLHATYDESISRMLDVFEKVNRDIPFNGLPWFFDHAETITPKNIERVRALGGGIAIQDRMAFQGEYFVDRYGAKAAEATPPIKRMLAEGVPVGAGTDATRVSSYNPWTSLYWMVSGRTVGGLSLHEEGLPRLTALELFTHGSAWFSSEQGKKGQIKVGQLADLAALSADFFSVEEEAIKWIESVLTVVDGKVVYAAGDFEKLGPASVPVLPDWSPVVKVPGHWRPASPLQAQVHQCSGPCKVHSHSHERARLSNVPVSDFQGFWGAFGCSCFAF				NA	NA	NA	NA	NA
D1-35_02427	630	ycaC_1	COG1335	putative hydrolase YcaC	ATGAGCAACGTTCCCGCCTACAACCGCCTGAACAAAGACGACGCGGTGGTCCTGCTGGTCGATCACCAGACTGGCCTGATTTCCCTGGTCCAGGATTTCTCGCCCAACGAGTTCAAGAACAACGTGCTGGCCCTGGCTGACCTGGCCAAGTTCTTTGGCCTGCCGACCATCCTGACCACCAGTTTCGAACAGGGCCCCAATGGCCCGATCGTGCCGGAGCTCAAGGAAATGTTCCCGGACGCGCCGTATATTCCGCGCCCTGGCCAGATCAATGCCTGGGACAACGAAGACTTCGTCAAGGCGATCAAGGCCACCGGCCGCAAGCAATTGATCATCGCCGGCGTAGTGACCGATGTCTGCGTGGCGTTCCCGACCCTGTCGGCCCTGGCTGAAGGTTTCGACGTGTTTGTCGTGACCGACGCCTCGGGTACGTTCAACGAAACCGTGCAACAAGCCGCCTGGGTGCGCATGACCGCCGCCGGCGCGCAGATGATGAACTGGTTCTCGGTGGCCTGTGAGCTGCACCGCGACTGGCGCAACGACATCGAAGGCCTGGGTAACCTGCTGTCCCAGCGCATCCCCAACTACCGCAACCTGATGAACAGCTACTCGGCGCTGACGGCCAAATAA	MSNVPAYNRLNKDDAVVLLVDHQTGLISLVQDFSPNEFKNNVLALADLAKFFGLPTILTTSFEQGPNGPIVPELKEMFPDAPYIPRPGQINAWDNEDFVKAIKATGRKQLIIAGVVTDVCVAFPTLSALAEGFDVFVVTDASGTFNETVQQAAWVRMTAAGAQMMNWFSVACELHRDWRNDIEGLGNLLSQRIPNYRNLMNSYSALTAK				NA	NA	NA	NA	NA
D1-35_02428	879	dmlR_10		HTH-type transcriptional regulator DmlR	ATGAACCCCTTCGAAGAAATGCGCATCTTTGCCCAGGTCATGGAGTCGGGCAGTTTCACCGCCGCGGCGGACAAACTCGGGCTGTCCAAGCAGTTCGTCAGTCGCAAGTTGATGGAGCTGGAGCAGCGGCTGGGGGTTCGGTTGCTCAATCGCTCGACGCGCCGCCTGGACGTCACTCCGTTGGGCCAGCGCTATCATGAGGCGGCGTTGCGCCTGCTCAGCGAAGTCGAGCAGGTGGAGCAGGGCATCAGTGGCCAGACCAGCGAGCCGCGCGGAACCATCCGCCTCAGCGCTCCGTTGTCCTTCGCCGTGGCGCACCTGGGCAGCCTGCTGCCGCTGTTCTTGCAGCGCTACCCGGATGTCACCGTGGAGGTCGACCTGAGTGATCGTTCGGTGGACCTGCTGGGGGAGGGGTACGACCTCGCACTGAGGATCGGCGTGCTGGAAGATTCGACCCTGATCGCCCGGCGCATTGCGAGTATCGAGCGAGTGTATTGCGCGAGCGCCGCCTACCTGGCGCAGCGAGGCACGCCGACGCGACCGGAAGACCTGCGCACCCACGACTGTTTGCCGTACGGGCACAGCCGTCAGGTGCAGTGGCGATTCGCCGGAAAGGGCAAGCCGTTGGCGCTGGAAGTGGTGGGACGCATGCGTGCCAATAACGGCGACTTGCTCAGGGATGCGGCGATTGCCGGCATGGGGATTACTTATCTGCCGACCTTCATCCTCGGTGAGGCGTTGAGGGATGGGCGGCTGATCCAGGTATTGGAGGGATTCGAGACCGAGCCCCTGACGCTGTCGGCGGTCTATCCGCAGCACCGACAAAGCTCGCGACCGGTGCAGGCGTTGGTGGAATTCTTGCGTGAACACATGCAGTAG	MNPFEEMRIFAQVMESGSFTAAADKLGLSKQFVSRKLMELEQRLGVRLLNRSTRRLDVTPLGQRYHEAALRLLSEVEQVEQGISGQTSEPRGTIRLSAPLSFAVAHLGSLLPLFLQRYPDVTVEVDLSDRSVDLLGEGYDLALRIGVLEDSTLIARRIASIERVYCASAAYLAQRGTPTRPEDLRTHDCLPYGHSRQVQWRFAGKGKPLALEVVGRMRANNGDLLRDAAIAGMGITYLPTFILGEALRDGRLIQVLEGFETEPLTLSAVYPQHRQSSRPVQALVEFLREHMQ				NA	NA	NA	NA	NA
D1-35_02429	474		COG5592	DNA nickase	ATGAACGCCATCGACCTGTTGAAAGCGGACCATGAACGCGTGAAGGGCATCCTGTCCCAGTTGAGCGAATCAACCGACCGCGCCATCAAGAAACGCACCGAACTGTTGGCCAAGCTGGAAATGGAAGTGTCTATCCATACCCGCCTGGAAGAAGAAATCCTTTATCCGGCCTTCAAACAGGAAGGCGGCAAGGACGAAGCCGAGATGTACTACGAAGCCAAGGAAGAGCACCGCACCGTCGATTCCCTGGTGCTACCCGACCTGAAAAACACCGACCCTTCCCAGCCTGAGTTCGCCGGTCGCGTGAAAGTGGTCAAGGAGCTGCTCGAGCATCACATCGAAGAAGAAGAGGAAGAAATGTTCCCTAAAGCCGAAGAAATCCTCGGCAAGGCCAAGCTCGAAGAACTGGGCAACCAGATGGAAGCCGTGAAGGCCCAGTACAAAAAAGAGTTCACCGCCAACCTGGCTGCCTGA	MNAIDLLKADHERVKGILSQLSESTDRAIKKRTELLAKLEMEVSIHTRLEEEILYPAFKQEGGKDEAEMYYEAKEEHRTVDSLVLPDLKNTDPSQPEFAGRVKVVKELLEHHIEEEEEEMFPKAEEILGKAKLEELGNQMEAVKAQYKKEFTANLAA				NA	NA	NA	NA	NA
D1-35_02430	276			hypothetical protein	ATGGAGTTGAAGTGGACCAGCAAGGCGCTTTCCGACATCGCCCGACTTTATGAATTTCTGGCGCTGGTGAATCAACCCGCCGCCGCGCGAACGGTACAACAGCTCACGGCGGCGCCGACCGCTCTGCTGACCAACCCACGCATGGGTGAACGCCTGGAAGAGTTCGACCCTCGGAACGTGCGCAGAATCCAGGTCGGCCCCTACGAAATGCGCTATGAAATAATCGGCTCCACCCTTTACCTGCTACGCCTGTGGCACACACGCGAAGATCGATGA	MELKWTSKALSDIARLYEFLALVNQPAAARTVQQLTAAPTALLTNPRMGERLEEFDPRNVRRIQVGPYEMRYEIIGSTLYLLRLWHTREDR	PGPT0027550_2778	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-ParE-ParD|paaAR_TOXIN-ANTITOXIN_SYSTEM,PGPT0027550-toxin_parE1_3_4-K19092	NA	NA
D1-35_02431	273			hypothetical protein	ATGACAACCACCACGAAAACCCGGTCGGTCACCGCTCATGTCCCGGTGGACCTGGCTGAAAAAGTCGACCTGATGGCCGAGCGCCTGGAGCGCTCCAGGAACTGGATCGTCAAACAAGCGCTATCTGCCTGGATCGAACAGGAGGAGGAACGCAGCCGTCTGACTCATGAGGCATTGGCCGATGTTGACGCTGGCCGCGTGGTTGATCACCAGGCTGTCCAGGCTTGGGCCGACAGTCTCAGCACCGACACCCCGTTACCGGTACCGCGCTGA	MTTTTKTRSVTAHVPVDLAEKVDLMAERLERSRNWIVKQALSAWIEQEEERSRLTHEALADVDAGRVVDHQAVQAWADSLSTDTPLPVPR				NA	NA	NA	NA	NA
D1-35_02432	1464	nuoN	COG1007	NADH-quinone oxidoreductase subunit N	ATGGAATTCACGATTCAACACTTTATCGCGCTTGCGCCGCTGTTGATCACCAGCGCCACGATCATCGTGGTGATGCTGGCGATCGCCTGGCGGCGCAATCACTCGCAGACCTTCCTGCTGTCGGTGGCGGGGCTGAACCTGGCCTTGCTGTCGATCCTGCCGGCCCTGAAAGTCGCGCCATTGGCGGTCACGCCACTGATCCAGATCGACAGCTTCGCCTGCCTGTACATGGCGCTGATCCTGGTCGCCACCCTCGCCTGCGTCACCCTCGCCCACGCCTACCTGGGTGACGGCGGTTCGGGTTACCCGGGCAACCGCGAAGAACTGTACCTGCTGATCCTGATGGCCGCCGCCGGTGGCCTGGTCCTGGTCAGCGCGCAGCACCTGGCCAGCCTGTTCATTGGCCTGGAGCTGCTGTCGGTACCGGTCTACGGCCTGGTGGCCTATGCCTTCTTCAACAAGCGCTCCCTGGAAGCCGGCATCAAGTACATGGTGCTGTCGGCGGCCGGTTCCGCGTTCCTGTTGTTCGGCATGGCCCTGCTCTACGCCGAAGCCGGCACCCTGAGCTTCGTCGGCATCGGCCAGGCCCTGGCGGCCACCGGCCTGCCTAGCCCGATCGCGCAACTGGGCCTGGGCATGATGCTGATCGGCCTGGCGTTCAAGTTGTCGCTGGTGCCCTTCCACCTCTGGACCCCGGACGTCTACGAAGGCGCCCCGGCGCCGGTGGCGGCGTTCCTGGCTACCGCTTCGAAAGTGGCGGTGTTCGCGGTGATGGTGCGACTGTTCCAGATCTCGCCAGTGGCCAGCAGCGGTGTCCTGAGCAATGTGCTGACGATCATCGCCATCGCGTCGATCCTGTTTGGCAACCTGCTGGCGCTGACCCAGAGCAACCTCAAGCGTCTGCTCGGTTACTCGTCCATCGCCCACTTCGGCTACCTGCTGATCGCCCTGATCGCCAGCAAAGGCCTGGCCGTGGAAGCCATCGGCGTGTATCTGGTGACCTACGTGATCACCAGCCTCGGCGCCTTCGGCGTGATCACCCTGATGTCCTCGCCGTACAACGGCCGCGACGCCGACGCCCTGTACGAGTACCGCGGCCTGTTCTGGCGCCGTCCGTACCTGACCGCCGTGCTGACCGTGATGATGCTGTCCCTGGCCGGCATCCCGCTGACCGCCGGCTTCATCGGCAAGTTCTACATCATCGCCACCGGCGTCGAGGCCCACCAATGGTGGCTGGTCGGCTCCCTGGTGCTGGGCAGTGCCATCGGCGTGTTCTACTACCTGCGCGTGATGGTCACCCTGTACCTGATGGAACCCAACCTGCGTCGTCACGATGCCGAGCTGCACTGGGAACAGAAGGCAGGCGGCGTGATGCTGCTGGCCATCGCGGTGTTGGCGTTCTTCCTCGGTGTGTACCCGCAGCCGTTGCTGACGCTGGTCCAGCAGGCGGGCCTGACCGGCTGA	MEFTIQHFIALAPLLITSATIIVVMLAIAWRRNHSQTFLLSVAGLNLALLSILPALKVAPLAVTPLIQIDSFACLYMALILVATLACVTLAHAYLGDGGSGYPGNREELYLLILMAAAGGLVLVSAQHLASLFIGLELLSVPVYGLVAYAFFNKRSLEAGIKYMVLSAAGSAFLLFGMALLYAEAGTLSFVGIGQALAATGLPSPIAQLGLGMMLIGLAFKLSLVPFHLWTPDVYEGAPAPVAAFLATASKVAVFAVMVRLFQISPVASSGVLSNVLTIIAIASILFGNLLALTQSNLKRLLGYSSIAHFGYLLIALIASKGLAVEAIGVYLVTYVITSLGAFGVITLMSSPYNGRDADALYEYRGLFWRRPYLTAVLTVMMLSLAGIPLTAGFIGKFYIIATGVEAHQWWLVGSLVLGSAIGVFYYLRVMVTLYLMEPNLRRHDAELHWEQKAGGVMLLAIAVLAFFLGVYPQPLLTLVQQAGLTG	PGPT0026860_1743	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026860-nuoN-K00343	NA	NA
D1-35_02433	1533	nuoM	COG1008	NADH-quinone oxidoreductase subunit M	ATGATTCTGCCCTGGCTAATCCTGATCCCCTTCATCGGCGGCCTGCTGTGCTGGATGGCGGAGCGTTCCAGCTCTACCCTCCCGCGCTGGATTGCGCTGCTGACCATGTCCCTGGAACTCGCGCTCGGCCTCTGGCTGTGGGCGACCGGCGACTATTCATTTGCACCGGCGCCTGGCGCCGATCCGACCTGGGCGCTTGAGTTCAAGCACACCTGGATCGAGCGCTTCGGCATCAGCGTGCACCTGGCCCTCGACGGCCTGTCGCTGCTGATGATCCTGCTGACCGGCCTGCTGGGTATTCTCTCGGTACTCTGCTCCTGGAAAGAGATCCAGCGTCACGTCGGTTTCTTCCACCTGAACCTGATGTGGATCCTGGGCGGTGTCGTCGGCGTGTTCCTGGCGCTGGACCTGTTCATGTTCTTCTTCTTCTGGGAAATGATGCTGGTGCCGATGTACTTCCTCATCGCGCTCTGGGGTCACAGTTCTTCGGACGGCAAGAAAACCAGGATCTACGCGGCGACCAAGTTCTTCATCTTCACCCAGGCTTCCGGCCTGATCATGCTGGTGGCGATCCTTGGCCTGGTGCTGGTGAACTTCAACAATACTGGCGTGATTACCTTCAATTACGCCGACCTGTTGAAAGTGCAGATGTCGCGCACCACCGAATACGTGCTGATGCTGGGCTTCTTCATCGCCTTCGCGGTGAAGCTGCCGGTGGTGCCGTTCCACTCCTGGCTGCCGGACGCCCACGCCCAGGCACCGACCGCCGGTTCCGTGGACCTGGCCGGTATCCTGTTGAAAACGGCGGCCTACGGCCTCCTGCGTTTCGCCCTGCCGCTGTTCCCGAATGCCTCGGCGGAGTTCGCGCCGATTGCCATGACCCTGGGCCTGATCGGGATTTTCTACGGTGCGTTCCTGGCATTTGCCCAGAGCGATATCAAGCGCCTGATCGCCTTCTCCAGCGTCTCGCACATGGGCTTCGTGCTGATCGGGATCTACTCCGGCAGCCAGCTGGCCCTGCAAGGCGCGGTGATCCAGATGCTCGCCCACGGCCTGTCGGCCGCGGCGCTGTTTATCCTCAGCGGTCAGTTGTACGAGCGCCTGCACACCCGGGACATGCGTGAAATGGGCGGCATCTGGTCGCGCATCGCCTACCTGCCGGCCATCAGCCTGTTCTTCGCGGCCGCTTCCCTGGGTCTGCCAGGCACCGGCAACTTCGTCGGCGAGTTCCTGATCCTGATCGGCTCGTTCGTCAGCGCACCGTGGATCACCGCGATCGCGACGTCCGGCCTGGTGTTCGGTTCGGTCTACTCGCTGATCATGATCCACCGCGCCTACTTCGGTCCGGCCAAGTCGGACGAAGTGTTGCGGGGCATGGACGGTCGCGAACTGATCATGGTGCTCGGCCTTGCGGTGCTGCTGGTTTACCTCGGCGTCTACCCGCAACCGTTCCTCGACACCTCTGCCGCCACGATGCATGGCGTGCAGCAGTGGCTCGGCACCGCCTTCTCTCAACTCGCTTCGGCCCGGTAA	MILPWLILIPFIGGLLCWMAERSSSTLPRWIALLTMSLELALGLWLWATGDYSFAPAPGADPTWALEFKHTWIERFGISVHLALDGLSLLMILLTGLLGILSVLCSWKEIQRHVGFFHLNLMWILGGVVGVFLALDLFMFFFFWEMMLVPMYFLIALWGHSSSDGKKTRIYAATKFFIFTQASGLIMLVAILGLVLVNFNNTGVITFNYADLLKVQMSRTTEYVLMLGFFIAFAVKLPVVPFHSWLPDAHAQAPTAGSVDLAGILLKTAAYGLLRFALPLFPNASAEFAPIAMTLGLIGIFYGAFLAFAQSDIKRLIAFSSVSHMGFVLIGIYSGSQLALQGAVIQMLAHGLSAAALFILSGQLYERLHTRDMREMGGIWSRIAYLPAISLFFAAASLGLPGTGNFVGEFLILIGSFVSAPWITAIATSGLVFGSVYSLIMIHRAYFGPAKSDEVLRGMDGRELIMVLGLAVLLVYLGVYPQPFLDTSAATMHGVQQWLGTAFSQLASAR	PGPT0026850_1635	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026850-nuoM-K00342	NA	NA
D1-35_02434	1854	nuoL	COG1009	NADH-quinone oxidoreductase subunit L	ATGAACCTTCTCTTCCTGACTTTCGTATTTCCCCTCATCGGTTTCCTGCTGCTGTCTTTCTCCCGTGGACGCTGGTCGGAAAACCTTTCGGCGCTGGTCGGCGTGGGCTCGATCGGCCTGTCCGCCCTCATCACCGCCTACGTGATCTGGCAATTCAACGTCGCCCCACCGGAAGGTGGCCGGTACGTGCAGGTGCTGTGGCAGTGGATGGCGGTGGAAGGCTTCACGCCGAACTTCGCCCTCTACCTGGACGGCCTGTCAGTGACCATGCTTGGCGTGGTGGTCGGCGTGGGTTTCCTGATCCACCTGTTCGCCTCCTGGTACATGCGCGGTGAAGCCGGTTACTCGCGCTTCTTCGCCTACACCAACCTGTTCATCGCCAGCATGCTGTTCCTGGTACTCGGCGATAACCTGTTGTTCCTGTACTTCGGCTGGGAAGGCGTGGGCCTGTGCTCGTACCTGTTGATCGGTTTCTACTACAGCAACCGCAACAACGGTAACGCCGCGCTCAAGGCATTCATCGTGACCCGCATCGGCGACGTGTTCATGGCCATCGGCCTGTTCATCCTGTTCCAGCAACTGGGCACGCTGAACATCCAGGAGCTGCTGGTTCGTGCTCCGGAGCACTTCAAGGCCGGCGACTTCTGGATCGTCCTGGCGACCCTGATGCTGCTGGGCGGTGCTGTCGGTAAATCCGCGCAACTGCCGCTGCAGACCTGGCTGGCGGACGCGATGGCCGGCCCGACCCCGGTTTCGGCACTGATCCACGCCGCGACCATGGTCACCGCAGGCGTCTACCTGATCGCCCGTACCCATGGCCTGTTCGCCCTGGCGCCGGACATCCTGCACCTGGTCGGCCTTGTTGGCGGCGTGACCCTGGTGCTGGCCGGTTTTGCCGCGCTGGTGCAGACCGACATCAAGCGTATCCTCGCCTACTCGACCATGAGCCAGATCGGCTACATGTTCCTGGCCCTGGGTGTCGGCGCCTGGGAAGGCGCGATCTTCCACCTGATGACCCACGCGTTCTTCAAGGCCCTGCTGTTCCTTGCCTCCGGTGCGGTGATCGTTGCCTGCCACCACGAGCAGAACATCTTCAAGATGGGCGGCCTGTGGAAAAAACTGCCGTTGGCCTACGCCAGCTTCATCGTTGGCGGCGCGGCCCTGGCGGCCCTGCCACTGGTCACCGCCGGTTTCTACTCCAAGGACGAAATCCTCTGGGAAGCGTTCGCCAGCGGTAACCAGGGTCTGCTCTATGCCGGCCTGGTGGGTGCGTTCATGACTTCGCTGTACACCTTCCGCCTGATCTTCATCGCGTTCCACGGTGAAGCCAAGACCGAAGCCCACGCCGGCCACGGCATCGCCCATTGGCTGCCGCTGTCGGTGCTGATCGTGCTGTCGACCTTTGTCGGCGCAATGATCACCCCACCGCTGGCCGATGTGCTGCCGCAAAGCGTCGGCCATGCCGGCGGCGAAGCCAAGCACAGCCTGGAAATCGCCTCGGGTGCCATCGCCCTGGCGGGGATCCTGCTGGCCGCCCTGCTGTTCCTTGGCAAGCGCCGCTTCGTCACGGCCATCGCCAACAGCGGCATCGGGCGTTTCCTCTCGGCCTGGTGGTTCGCCGCCTGGGGCTTCGACTGGATCTACGACAAACTGTTCGTCAAGCCATACCTTGCGATCAGCCACATTCTGCGCAAAGACCCGCTCGACCAGACCATTGGCCTGATCCCGCGCATGGCCAAGGGCGGCCACACCGCCCTGAGCCGTACCGAGACCGGTCAACTGCGTTGGTATGCGGCTTCCATGGCGGCTGGCGCCGTGCTGGTTATCGGCGCCATCGTGCTGGTAGCGGTCTGA	MNLLFLTFVFPLIGFLLLSFSRGRWSENLSALVGVGSIGLSALITAYVIWQFNVAPPEGGRYVQVLWQWMAVEGFTPNFALYLDGLSVTMLGVVVGVGFLIHLFASWYMRGEAGYSRFFAYTNLFIASMLFLVLGDNLLFLYFGWEGVGLCSYLLIGFYYSNRNNGNAALKAFIVTRIGDVFMAIGLFILFQQLGTLNIQELLVRAPEHFKAGDFWIVLATLMLLGGAVGKSAQLPLQTWLADAMAGPTPVSALIHAATMVTAGVYLIARTHGLFALAPDILHLVGLVGGVTLVLAGFAALVQTDIKRILAYSTMSQIGYMFLALGVGAWEGAIFHLMTHAFFKALLFLASGAVIVACHHEQNIFKMGGLWKKLPLAYASFIVGGAALAALPLVTAGFYSKDEILWEAFASGNQGLLYAGLVGAFMTSLYTFRLIFIAFHGEAKTEAHAGHGIAHWLPLSVLIVLSTFVGAMITPPLADVLPQSVGHAGGEAKHSLEIASGAIALAGILLAALLFLGKRRFVTAIANSGIGRFLSAWWFAAWGFDWIYDKLFVKPYLAISHILRKDPLDQTIGLIPRMAKGGHTALSRTETGQLRWYAASMAAGAVLVIGAIVLVAV	PGPT0026845_3029	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026845-nuoL-K00341	NA	NA
D1-35_02435	309	nuoK	COG0713	NADH-quinone oxidoreductase subunit K	ATGCCTGCTATCCCTCTCGAGCATGGTCTGGCGGTTGCCGGCATCCTGTTCTGTCTCGGTCTGGTCGGCCTGATGGTCCGCCGCAACATTCTGTTCGTGCTGATGAGCCTGGAGGTCATGATGAATGCCTCCGCCCTGGCCTTCATCGTCGCGGGCGCGCGCTGGGCGCAACCGGATGGACAGATCATGTTCATCCTGGTGATCAGCCTGGCAGCCGCCGAGGCCAGTATCGGCCTGGCGATCCTGTTGCAGCTGTACCGCCGCTTCCACACTCTCGATATTGACGCTGCCAGCGAGATGCGCGGATGA	MPAIPLEHGLAVAGILFCLGLVGLMVRRNILFVLMSLEVMMNASALAFIVAGARWAQPDGQIMFILVISLAAAEASIGLAILLQLYRRFHTLDIDAASEMRG	PGPT0026840_890	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026840-nuoK-K00340	NA	NA
D1-35_02436	501	nuoJ	COG0839	NADH-quinone oxidoreductase subunit J	ATGGAATTCGCTTTCTATTTCGCATCGGGTATCGCGGTGGTGTCCACGCTTCGTGTGGTCACCAACACCAATCCTGTGCACGCCCTGCTCTACCTGATCATTTCGCTGATCGCCGTGGCCATGACCTTTTTCGCTCTCGGAGCACCGTTCGCCGGTGCCCTGGAAGTGATCGCCTACGCCGGCGCCATCATGGTGCTGTTCGTATTCGTGGTGATGATGCTCAACCTGGGTCCGGCGGCCGTCCAGCAGGAACGCTCCTGGCTCAAGCCGGGCATCTGGGCCGGACCGGTGATTCTCTCCGCGCTGCTGCTGGGTGAACTGCTGTATGTGCTGTTCGCCCACCAGAGCGGCCAGGCCATCGGCCACACCACCGTAGGCGCCAAGGCCGTGGGCATCAGCCTGTTCGGTCCGTACCTGCTGGTGGTCGAACTCGCCTCGATGCTGCTGCTTGCCGCAGTCGTCACGGCGTTCCATTTGGGCCGTAACGAGGCGAAGGAGTAA	MEFAFYFASGIAVVSTLRVVTNTNPVHALLYLIISLIAVAMTFFALGAPFAGALEVIAYAGAIMVLFVFVVMMLNLGPAAVQQERSWLKPGIWAGPVILSALLLGELLYVLFAHQSGQAIGHTTVGAKAVGISLFGPYLLVVELASMLLLAAVVTAFHLGRNEAKE	PGPT0026835_2983	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026835-nuoJ-K00339	NA	NA
D1-35_02437	549	nuoI	COG1143	NADH-quinone oxidoreductase subunit I	ATGTTCAAATATATTGGCGACATCGTTAAGGGTACCGGTACCCAACTGCGAAGCCTGGTCATGATCTTCGGCCATGGCTTTCGCAAGCGCGACACCCTGCAATACCCGGAAGAAGCGGTCTACCTGGCGCCGCGTTATCGCGGCCGTATCGTCCTGACCCGCGACCCCGACGGTGAGGAACGCTGCGTGGCCTGCAACCTGTGCGCCGTGGCGTGCCCGGTAGGTTGCATCTCGCTGCAGAAAGCCGAGACCGAAGACGGTCGCTGGTACCCGGACTTCTTCCGTATCAACTTCTCGCGCTGCATTTTCTGCGGGTTGTGCGAGGAAGCGTGCCCGACCACCGCGATCCAGCTCACGCCGGATTTCGAAATGGCCGACTTCAAGCGTCAGGACCTGGTGTACGAGAAAGAAGACTTGCTGATTTCCGGTCCCGGTAAAAACCCTGATTACAACTTCTATCGTGTTGCAGGTATGGCCATTGCCGGTAAGCCGAAAGGCGCCGCGCAGAACGAAGCCGAACCGATCAACGTGAAGAGCTTGCTGCCTTAA	MFKYIGDIVKGTGTQLRSLVMIFGHGFRKRDTLQYPEEAVYLAPRYRGRIVLTRDPDGEERCVACNLCAVACPVGCISLQKAETEDGRWYPDFFRINFSRCIFCGLCEEACPTTAIQLTPDFEMADFKRQDLVYEKEDLLISGPGKNPDYNFYRVAGMAIAGKPKGAAQNEAEPINVKSLLP	PGPT0026830_1008	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026830-nuoI-K00338	NA	NA
D1-35_02438	1008	nuoH	COG1005	NADH-quinone oxidoreductase subunit H	ATGAGCTGGTTCACCCCTGAAGTGATCGCGGTGATCCTGACGGTCCTCAAGGCCATCGTGATCCTGCTGGCCGTGGTGGTCTGCGGCGCGTTGCTGAGCTTCGTCGAACGTCGCCTGCTCGGCTGGTGGCAGGACCGCTACGGTCCGAACCGCGTCGGCCCGTTCGGCATGTTCCAGATCGCCGCCGACATGATCAAGATGTTCTTCAAGGAAGACTGGACGCCACCGTTTGCCGACAAGGTGATTTTCACCCTGGCACCGGTCGTGGCCATGAGCGCCTTGCTGATCGCCTTCGCGGTCATCCCGATCACCCCGACCTGGGGCGTGGCGGACCTGAACATCGGCCTGCTGTTCTTCTTCGCCATGGCCGGTCTGTCGGTGTACGCGGTGCTGTTCGCCGGTTGGTCGAGCAACAACAAGTTCGCCCTGCTCGGCAGCCTGCGGGCCTCGGCCCAGACCGTGTCCTATGAAGTGTTCATGGGCCTGTCGCTGATGGGCATCGTGATCCAGGCCGGCTCGTTCAACATGCGCGACATCGTCGAGTACCAGGCCCAGAACCTGTGGTTCATCATTCCGCAGTTCTTCGGTTTCTGTACCTTCTTCATCGCCGGCGTGGCCGTGACTCACCGTCACCCGTTCGACCAGCCGGAAGCGGAACAGGAACTGGCCGACGGTTACCACATTGAATATGCCGGCATGAAATGGGGCATGTTCTTCGTTGGCGAGTACATCGGCATCATCCTGATCTCGGCGCTGCTGGTAACGCTGTTCTTCGGTGGCTGGCACGGTCCGTTCGGCATCCTGCCGCAACTGTCCTTCGTCTGGTTCGCCCTGAAGACCGCGTTCTTCATCATGCTGTTCGTTCTGCTGCGCGCCTCGATCCCGCGCCCACGCTACGACCAGGTGATGGACTTCAGCTGGAAATTCTGCCTGCCGCTGACCCTGATCAACATGCTGGTGACCGCTGCGATCGTTTTGATGAACGCGCCTGCGGCCGCGGTTCAGTGA	MSWFTPEVIAVILTVLKAIVILLAVVVCGALLSFVERRLLGWWQDRYGPNRVGPFGMFQIAADMIKMFFKEDWTPPFADKVIFTLAPVVAMSALLIAFAVIPITPTWGVADLNIGLLFFFAMAGLSVYAVLFAGWSSNNKFALLGSLRASAQTVSYEVFMGLSLMGIVIQAGSFNMRDIVEYQAQNLWFIIPQFFGFCTFFIAGVAVTHRHPFDQPEAEQELADGYHIEYAGMKWGMFFVGEYIGIILISALLVTLFFGGWHGPFGILPQLSFVWFALKTAFFIMLFVLLRASIPRPRYDQVMDFSWKFCLPLTLINMLVTAAIVLMNAPAAAVQ	PGPT0026825_2464	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026825-nuoH-K00337	NA	NA
D1-35_02439	2715	nuoG	COG1034	NADH-quinone oxidoreductase subunit G	ATGGCCACTATCCACGTAGACGGCAAAGAGCTCGAAGTCGATGGCGCAGACAACCTGTTACAGGCATGTCTGTCGCTGGGCCTCGACATTCCTTATTTCTGCTGGCACCCCGCCCTTGGCAGCGTTGGCGCCTGTCGCCAGTGCGCGGTCAAGCAGTACACCGACGAAAACGACAAGCGTGGTCGGATCGTCATGTCCTGCATGACCCCCGCCACCGACGGCAGCTGGATCTCCATCGACGACGAAGAAGCGAAAGTGTTTCGCGCCAGCGTCGTCGAATGGCTGATGACCAACCACCCTCACGACTGCCCGGTCTGTGAGGAAGGCGGCCATTGCCACCTGCAAGACATGACCGTGATGACCGGCCACAACGAGCGCCGTTATCGCTTCACCAAGCGCACCCACCAGAACCAGGACCTCGGCCCGTTCATTTCCCACGAGATGAACCGCTGCATCGCCTGCTACCGTTGCGTGCGTTTCTACAAGGACTACGCCGGCGGCACCGACCTCGGTGTGTTCGGCGCCCACGACAACGTGTACTTCGGTCGCGTTGAAGACGGCACCCTGGAAAGCGAGTTCTCCGGCAACCTCACCGAGGTCTGCCCGACCGGTGTGTTCACCGACAAGACTCACTCCGAGCGCTACAACCGCAAGTGGGACATGCAGTTCTCGCCAAGCATCTGCCACGGCTGCTCCAGCGGCTGCAACATCAGCCCGGGCGAACGCTACGGCGAACTACGTCGCATCGAGAACCGCTACAACGGTTCGGTGAACCAGTATTTCCTCTGCGACCGTGGCCGTTTCGGCTATGGCTACGTCAATCGCAAGGACCGCCCGCGCCAGCCGCTGCTCGCCAATGGCGCCAAGCTGAGCCTGGACGAAGCCCTGGACAAGGCCGCCGAACTGCTGCGCGGTCGCAACATTGTCGGCATCGGTTCGCCACGGGCCAGCCTGGAAAGCAACTACGCCCTGCGTGAGCTGGTCGGTGCCGAGCACTTCTACAGCGGCATCGAAGCCGGCGAGCTGGAACGTATTCGCCTGGTGCTGCAAGTGCTCAAGGACAGCCCGCTGCCCGTGCCGACGATGCGCGACATCGAAGATCACGATGCGGTGTTCGTCCTCGGCGAAGACCTGACCCAGACCGCCGCCCGCATGGCCCTGGCCCTGCGCCAGTCGGTAAAAGGCAAGGCCGAGGACATGGCCGACGCCATGCGCGTCCAGCCATGGCTCGACGCTGCGGTGAAGAACATCGGCCAGGACGCGCTGAACCCGCTGTTCATCGCCAGCCTCGCTGAAACCAAGCTCGACGACGTCGCCGAAGAATGCGTCCACGCCGCTCCGGACGACCTCGCGCGCATCGGTTTTGCCGTCGCCCACGCCCTGGACGCCAGCGCCCCGGCCGTCGACGGCCTGGACAGCGAAGCCGCCGGCCTGGCCCAGCGCATCGCCGACGCCCTGCTGGCGGCCAAGCGTCCATTGATCATCGCCGGCACCTCGCTGGGTTCCAAGGCGCTGATCGAAGCCGCCGCCAACATCGCCAAGGCCCTGAAGCTGCGCGAGAAGAACGGTTCCATCAGCCTGGTCGTGCCGGAAGCCAACAGCCTCGGCCTGGCCATGCTCGGTGGCGAATCGGTCGATGCCGCCCTGCAAGCAGTGATCGACGGCAGCGCCGATGCCATCGTGGTGCTGGAGAACGACCTGTTCACCCGCACCGACAATGCCAAGGTCGATGCTGCGCTGAACGCTGCCAAGGTAGTGATCGTCGCCGACCATCAGAAAACCGCCACCACCGACCGCGCCGACCTGGTGCTGCCGGCGGCGAGCTTCGCCGAAGGCGACGGTACGCTGGTCAGCCAGGAAGGTCGCGCCCAGCGCTTCTTCCAGGTCTTTGACCCGCAATACCTGGACGCCAGCATCCTGGTCCACGAAGGCTGGCGCTGGCTGCATGCCTTGCGCGCGACCCTGCTGAACCAGCCGATCGACTGGACCCAGCTGGACCACGTCACCGCGGCCGTCGCTTCGAGCAGCCCGCAGTTGAGCCGCATCGTCGACGCCGCGCCGTCCGCCGCGTTCCGCATCAAGGGCCTGAAGCTGGCGCGCGAACCGCTGCGCTACTCCGGTCGCACCGCGATGCGCGCGAACATTAGCGTGCACGAACCGCGTATGCCGCAGGACCAGGACACCGCGTTCGCCTTCTCCATGGAAGGTTACTCGGGCTCCGCCGAACCGCGCTCCCAGGTGCCGTTCGCCTGGTCGCCGGGCTGGAACTCGCCGCAAGCCTGGAACAAGTTCCAGGACGAAGTCGGCGGTCACCTGCGCGCCGGTGATCCGGGCACCCGCCTGATCGAAAGCCAGGGCGATGGCCTCGGCTGGTTCGCCAGCGTGCCACGCGCCTTCAATCCGGCACCGGGCACCTGGCAGGTCGTGCCGTTCCATCACCTGTTCGGCAGTGAAGAGAACTCTTCCAAGGCCGAGCCGGTGCAGGAGCGCATCCCGGCGGCCTACGTGTCGCTGGCCAAGTCCGAAGCCGATCGCCTGGGCGTCAACGATGGCGCCTTGCTGAGCCTGAACGTTGCGGGCCGGACCTTGCGTCTGCCACTGCGCATCAATGAAGAACTGGGCGCCGGCCTGGTGGCCCTGCCGGCTGGCCTGGCGGGCATTCCACCGGCGATTTTCGGCAAGACTGTCGACGGTCTGCAGGAGGCAGCGCAATGA	MATIHVDGKELEVDGADNLLQACLSLGLDIPYFCWHPALGSVGACRQCAVKQYTDENDKRGRIVMSCMTPATDGSWISIDDEEAKVFRASVVEWLMTNHPHDCPVCEEGGHCHLQDMTVMTGHNERRYRFTKRTHQNQDLGPFISHEMNRCIACYRCVRFYKDYAGGTDLGVFGAHDNVYFGRVEDGTLESEFSGNLTEVCPTGVFTDKTHSERYNRKWDMQFSPSICHGCSSGCNISPGERYGELRRIENRYNGSVNQYFLCDRGRFGYGYVNRKDRPRQPLLANGAKLSLDEALDKAAELLRGRNIVGIGSPRASLESNYALRELVGAEHFYSGIEAGELERIRLVLQVLKDSPLPVPTMRDIEDHDAVFVLGEDLTQTAARMALALRQSVKGKAEDMADAMRVQPWLDAAVKNIGQDALNPLFIASLAETKLDDVAEECVHAAPDDLARIGFAVAHALDASAPAVDGLDSEAAGLAQRIADALLAAKRPLIIAGTSLGSKALIEAAANIAKALKLREKNGSISLVVPEANSLGLAMLGGESVDAALQAVIDGSADAIVVLENDLFTRTDNAKVDAALNAAKVVIVADHQKTATTDRADLVLPAASFAEGDGTLVSQEGRAQRFFQVFDPQYLDASILVHEGWRWLHALRATLLNQPIDWTQLDHVTAAVASSSPQLSRIVDAAPSAAFRIKGLKLAREPLRYSGRTAMRANISVHEPRMPQDQDTAFAFSMEGYSGSAEPRSQVPFAWSPGWNSPQAWNKFQDEVGGHLRAGDPGTRLIESQGDGLGWFASVPRAFNPAPGTWQVVPFHHLFGSEENSSKAEPVQERIPAAYVSLAKSEADRLGVNDGALLSLNVAGRTLRLPLRINEELGAGLVALPAGLAGIPPAIFGKTVDGLQEAAQ	PGPT0026820_482	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026820-nuoG-K00336	NA	NA
D1-35_02440	1359	nuoF	COG1894	NADH-quinone oxidoreductase subunit F	ATGACCCTGACTTCCTTCGGGCCCGCCAACCGCATCCAGCGTTCGGCCGAAACCCATCCCCTGACCTGGCGCCTGCGTGACGATGGCGAGGCGGTGTGGCTGGACGAATACCAGGCGAAGAACGGCTATGCCGCCGCGCGCAAGGCGTTCGCCGACATGGCCGCCGACGACATCGTCCAGACCGTGAAAGACGCCGGCCTCAAGGGCCGTGGCGGCGCGGGCTTCCCCACGGGTGTGAAGTGGGGCCTGATGCCCAAGGACGAGTCCATCAACATCCGCTACCTGCTGTGCAACGCGGACGAGATGGAACCCAACACCTGGAAAGACCGCATGCTGATGGAGCAACTGCCCCATCTGCTGATCGAAGGCATGCTGATCAGTGCCCGCGCGCTGAAAACCTACCGTGGCTACATCTTCCTGCGCGGCGAATACACCACCGCCGCCAGGCACCTGAACCGTGCCGTCGAAGAAGCCAAGGCCGCAGGCCTGCTGGGCAAGAACATCCTGGGCTCGGGTTTTGATTTCGAGCTGTTCGTCCACACCGGCGCCGGGCGCTACATCTGCGGTGAAGAAACCGCCCTGATCAACTCCCTCGAAGGCCGCCGCGCCAACCCGCGCTCCAAGCCGCCCTTCCCCGCCGCTGTTGGCGTGTGGGGCAAGCCGACCTGCGTGAACAACGTCGAGACCTTGTGCAACGTGCCGGCGATCATCGCCGACGGCGTGGACTGGTACAAATCCCTGGCCCGTGACGGCAGCGAAGACATGGGCACCAAGCTCATGGGCTTCTCCGGCAAGGTCAAGAACCCTGGCCTGTGGGAACTGCCGTTCGGCGTCACCGCGCGCGAGCTGTTCGAGGACTACGCCGGCGGCATGCGCGACGGCTACAAGCTCAAGTGCTGGCAGCCCGGCGGCGCCGGTACCGGTTTCCTGTTGCCGGAACACCTTGACGCACAAATGTACGCCGGCGGCATCGCCAAGGTCGGCACCCGGATGGGTACCGGCCTGGCGATGGCGGTGGACGACAGCGTCAACATGGTCTCCCTGCTGCGCAACATGGAGCAGTTTTTCGCCCGCGAGTCCTGCGGTTTCTGCACCCCTTGCCGCGACGGCCTGCCATGGAGCGTCAAGCTGCTGATGGCCCTCGAGAACGGCCAGGGCCAGGCCGGCGACATCGAGACCCTGCTGGGGCTGGTCGGTTTCCTCGGCCCAGGCAAGACCTTCTGTGCTCACGCACCGGGTGCCGTGGAGCCGTTGGGCAGCGCAATCAAATACTTCCGCCCTGAGTTCGAGGCCGGCATCGCGCCAACCCGCGCGGGCGATCTCAATCAGGTGGTCACGCCGACCATGGTCGGCGCGTAA	MTLTSFGPANRIQRSAETHPLTWRLRDDGEAVWLDEYQAKNGYAAARKAFADMAADDIVQTVKDAGLKGRGGAGFPTGVKWGLMPKDESINIRYLLCNADEMEPNTWKDRMLMEQLPHLLIEGMLISARALKTYRGYIFLRGEYTTAARHLNRAVEEAKAAGLLGKNILGSGFDFELFVHTGAGRYICGEETALINSLEGRRANPRSKPPFPAAVGVWGKPTCVNNVETLCNVPAIIADGVDWYKSLARDGSEDMGTKLMGFSGKVKNPGLWELPFGVTARELFEDYAGGMRDGYKLKCWQPGGAGTGFLLPEHLDAQMYAGGIAKVGTRMGTGLAMAVDDSVNMVSLLRNMEQFFARESCGFCTPCRDGLPWSVKLLMALENGQGQAGDIETLLGLVGFLGPGKTFCAHAPGAVEPLGSAIKYFRPEFEAGIAPTRAGDLNQVVTPTMVGA	PGPT0026815_879	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026815-nuoF-K00335	NA	NA
D1-35_02441	498	nuoE_1	COG1905	NADH-quinone oxidoreductase subunit E	ATGAACAGCACGCTTATCCAGACAGACCGTTTCGCCCTGAGCGAAACCGAGCGCTCGGCCATCGAGCACGAGCTGCATCACTACGAAGACCCGCGCGCGGCGTCGATCGAAGCCCTGAAGATTGTCCAGAAGGAACGTGGCTGGGTGCCCGATGGCGCGCTCTACGCCATCGGCGAAATCCTCGGCATTCCGGCCAGCGACGTCGAAGGTGTCGCCACGTTTTACAGCCAGATTTTCCGTCAGCCGGTCGGCCGCCACATCATTCGCGTCTGCGACAGCATGGTCTGCTACATCGGCGGCCACGAGTCGGTGGTCAGCGAAATCCAGGGCAAGCTGGGCATTGGCCTGGGCCAGACCACCGCCGACGGCCGCTTCACGCTGCTGCCGGTGTGCTGCCTGGGCAACTGCGACAAGGCACCGGCGCTGATGATCGACGACGACACCTTCGGTGACGTCAAGCCGGATGGCGTCGCCAAACTGCTGGAGGGCTACGTATGA	MNSTLIQTDRFALSETERSAIEHELHHYEDPRAASIEALKIVQKERGWVPDGALYAIGEILGIPASDVEGVATFYSQIFRQPVGRHIIRVCDSMVCYIGGHESVVSEIQGKLGIGLGQTTADGRFTLLPVCCLGNCDKAPALMIDDDTFGDVKPDGVAKLLEGYV	PGPT0026810_2082	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026810-nuoE-K00334	NA	NA
D1-35_02442	1782	nuoC	COG0649	NADH-quinone oxidoreductase subunit C/D	ATGACTACAGGCAGTGCTCTGTACATCCCGCCTTACAAGGCAGACGACCAGGATGTGGTCGTCGAACTGAACAACCGCTTTGGCGCCGAGGCGTTCACCGCCCAGGCCACCCGCACCGGCATGCCGGTGCTTTGGGTTGCCCGCGCCAGGCTCATCGAAGTCCTGACTTTCCTGCGCAACCTGCCCAAGCCGTACGTCATGCTCTATGACCTGCACGGCGTGGACGAGCGCCTGCGCACCAAGCGCCAGGGTCTGCCGGGCGCCGACTTCACCGTGTTCTACCACCTGCTGTCGATCGAGCGTAATAGTGACGTAATGATCAAGGTCGCCTTGTCCGAGAGCGACCTCAGCGTGCCGACCGTGACCGGCATCTGGCCGAACGCCAACTGGTACGAGCGTGAAGTCTGGGACATGTTCGGCATCGACTTCCCCGGCCACCCGCACCTGACCCGCATCATGATGCCGCCGACCTGGGAAGGTCACCCGTTGCGCAAGGACTTCCCGGCCCGCGCCACCGAGTTCGACCCGTACAGCCTGACCCTGGCCAAGCAGCAGCTCGAGGAAGAATCCGCGCGTTTCAAGCCGGAAGACTGGGGAATGAAGCGTTCCGGCGCCAACGAGGACTACATGTTCCTCAACCTGGGCCCGAACCACCCTTCGGCCCACGGTGCGTTCCGTATCATCCTGCAACTGGACGGTGAAGAGATCGTCGATTGCGTCCCGGACATCGGCTACCACCACCGTGGCGCCGAGAAGATGGGTGAGCGTCAGTCCTGGCACAGCTATATTCCATACACCGACCGCATCGATTACCTCGGCGGCGTGATGAACAACCTGCCGTACGTCCTGTCGGTGGAAAAACTGGCGGGCATCACGGTGCCGGACCGGGTCAACGTGATCCGCATCATGATGGCCGAGTTCTTCCGGATCACCAGCCACCTGTTGTTCCTGGGTACCTATATCCAGGACGTGGGCGCCATGACGCCGGTGTTCTTCACTTTCACCGACCGCCAGAAAGCCTACACCGTGATCGAAGCCATCACCGGTTTCCGCCTGCACCCGGCCTGGTACCGCATCGGTGGCGTTGCCCACGACCTGCCGCGCGGCTGGGAAAAGCTGGTCAAGGATTTCGTCGAGTGGATGCCCAAGCGCCTGGACGAATACACCAAGGCAGCGTTGCAGAACAGCATCCTCAAGGGTCGTACCGTCGGCGTCGCCGCGTACAACACCAAGGAAGCGCTGGAATGGGGCGTCACCGGCCCGAACCTGCGCGCCACCGGCCTCGATTTCGACCTGCGCAAGGCGCGCCCGTACTCCGGCTACGAGAACTTCGAGTTCGAAGTCCCGCTGGCGTCCAGCGGCGATGCCTATGACCGCTGCCTGGTTCGCGTCGAGGAAATGCGCCAGAGCGTCAAGATCATCGAGCAATGCATGCGCAACATGCCGGAAGGCCCGTACAAGGCGGACCACCCGCTGACCACGCCGCCGCCAAAAGAGCGCACGCTGCAACACATCGAGACCCTGATCACGCACTTCCTGCAGGTTTCGTGGGGCCCGGTCATGCCGGCCAACGAATCCTTCCAGATGATCGAAGCGACCAAGGGCATCAACAGTTATTACCTGACGAGCGATGGCGGCACCATGAGCTACCGCACCCGGATTCGCACCCCAAGCTACCCGCACCTGCAGCAGATCCCTTCGGTGATCAAAGGCAGCATGGTCGCGGACTTGATCGCGTACCTGGGTAGTATCGATTTCGTTATGGCCGACGTGGACCGCTAA	MTTGSALYIPPYKADDQDVVVELNNRFGAEAFTAQATRTGMPVLWVARARLIEVLTFLRNLPKPYVMLYDLHGVDERLRTKRQGLPGADFTVFYHLLSIERNSDVMIKVALSESDLSVPTVTGIWPNANWYEREVWDMFGIDFPGHPHLTRIMMPPTWEGHPLRKDFPARATEFDPYSLTLAKQQLEEESARFKPEDWGMKRSGANEDYMFLNLGPNHPSAHGAFRIILQLDGEEIVDCVPDIGYHHRGAEKMGERQSWHSYIPYTDRIDYLGGVMNNLPYVLSVEKLAGITVPDRVNVIRIMMAEFFRITSHLLFLGTYIQDVGAMTPVFFTFTDRQKAYTVIEAITGFRLHPAWYRIGGVAHDLPRGWEKLVKDFVEWMPKRLDEYTKAALQNSILKGRTVGVAAYNTKEALEWGVTGPNLRATGLDFDLRKARPYSGYENFEFEVPLASSGDAYDRCLVRVEEMRQSVKIIEQCMRNMPEGPYKADHPLTTPPPKERTLQHIETLITHFLQVSWGPVMPANESFQMIEATKGINSYYLTSDGGTMSYRTRIRTPSYPHLQQIPSVIKGSMVADLIAYLGSIDFVMADVDR	PGPT0026795_361	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026795-nuoCD-K13378	NA	NA
D1-35_02443	675	nuoB	COG0377	NADH-quinone oxidoreductase subunit B	ATGCAATACAATCTCACCAGGATCGACCCCGATGCTCCTAACGAGCAGTATCCGATCGGCAAGCGGGAAACCGTTTCCGATCCGTTAGAGGATCAAGTTCACAAGAACATCTTCATGGGCAAGCTCGAAGACGTGCTGAACAGCACGGTCAACTGGGGTCGCAAGAACTCCCTGTGGCCGTACAACTTCGGCCTTTCGTGCTGCTACGTGGAAATGACCACCGCCTTCACGGCGCCCCACGACATCGCGCGCTTTGGCGCCGAGGTGATCCGGGCATCGCCGCGCCAGGCGGATTTCATGGTTATCGCCGGTACGCCGTTCCTGAAAATGGCTCCCATCATCCAGCGCCTGTACGAACAGATGCTGGAACCCAAGTGGGTCATTTCCATGGGCGCGTGTGCCAACTCCGGCGGCATGTACGACATTTATTCCGTGGTCCAGGGAGTCGACAAGTTCCTGCCGGTGGATGTCTACGTGCCCGGCTGCCCGCCCCGCCCCGAAGCGTTCCTGCAAGGCCTGATGCTGCTGCAGGAATCCATCGGCCAGGAGCGTCGCCCACTGTCCTGGGTCGTCGGTGATCAAGGCGTCTATCGCGCCGACATGCCGTCGCAAAAGGAACAGCGCCGCGAACAGCGAATCGCAGTCACCAACCTGCGCAGCCCCGACGAAGTCTGA	MQYNLTRIDPDAPNEQYPIGKRETVSDPLEDQVHKNIFMGKLEDVLNSTVNWGRKNSLWPYNFGLSCCYVEMTTAFTAPHDIARFGAEVIRASPRQADFMVIAGTPFLKMAPIIQRLYEQMLEPKWVISMGACANSGGMYDIYSVVQGVDKFLPVDVYVPGCPPRPEAFLQGLMLLQESIGQERRPLSWVVGDQGVYRADMPSQKEQRREQRIAVTNLRSPDEV	PGPT0026785_287	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026785-nuoB-K00331	NA	NA
D1-35_02444	414	ndhC		NAD(P)H-quinone oxidoreductase subunit 3, chloroplastic	ATGCCCGAAGCGACAGGACTCATGGCCCACAACTGGGGCTTTGCCATTTTCCTTCTGGGTGTTGTCGGCCTGTGTGCCTTCATGCTCGGCGTGTCGAGCCTGCTCGGGTCAAAAGCCTGGGGCCGCAGCAAGAATGAACCGTTCGAATCCGGCATGCTGCCTACCGGTGGCGCCCGCTTGCGGCTCTCAGCCAAATTCTATCTGGTCGCGATGCTCTTCGTGATCTTCGATATCGAAGCCCTTTTTCTCTTTGCATGGTCTGTGTCCGTCCGCGAAAGCGGCTGGACCGGATTCGTCGAAGCTCTCGTTTTCATAGCAATTCTGTTGGCAGGTCTTGTCTACCTTTACCGGGTGGGGGCTCTTGATTGGGCTCCGGAAGCTCGGCGCAAGCGGCAGGCGAAGCTGAAACAATGA	MPEATGLMAHNWGFAIFLLGVVGLCAFMLGVSSLLGSKAWGRSKNEPFESGMLPTGGARLRLSAKFYLVAMLFVIFDIEALFLFAWSVSVRESGWTGFVEALVFIAILLAGLVYLYRVGALDWAPEARRKRQAKLKQ	PGPT0026780_553	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026780-nuoA-K00330	NA	NA
D1-35_02445	1326	aceA	COG2224	Isocitrate lyase	ATGGCACTGACACGCGAACAGCAAATTGCAGCCCTTGAAAAAGACTGGGCTGAAAACCCGCGCTGGAAAGGCGTGAAGCGCAATTATTCGGCTGCTGACGTCGTCCGTCTGCGTGGCTCGGTGCAACCTGAGCACACCTTCGCGAAAATGGGCGCCGAGAAGCTGTGGAACCTGGTCACCCAGGGCGCCAAGCCAGCCTTCCGTCCCGAGAAAGACTTCGTCAACTGCATGGGCGCCCTGACTGGCGGCCAGGCTGTGCAGCAGGTCAAGGCCGGTATCCAGGCCATCTACCTGTCGGGCTGGCAAGTGGCCGCGGACAACAACTCCGCCGAGTCCATGTACCCCGACCAGTCGCTGTACCCGGTGGACTCGGTTCCAACCGTGGTCAAGCGCATCAACAACTCGTTCCGTCGTGCCGACCAGATCCAGTGGAAAGCCGGCAAGAACCCGGGCGACGAAGGCTACATCGACTACTTCGCGCCAATCGTGGCTGACGCCGAAGCCGGTTTCGGCGGCGTACTGAACGCCTACGAACTGATGAAGAGCATGATCGAGGCAGGCGCCGCCGGCGTGCACTTCGAAGATCAGCTGGCCTCGGTGAAAAAATGCGGCCACATGGGCGGCAAGGTACTGGTTCCCACCCAGGAAGCCGTACAGAAGCTGACCGCCGCGCGCCTGGCCGCCGACGTTGCCGGCGTACCGACCATCATTCTGGCCCGTACCGACGCCAACGCCGCTGACCTGCTGACTTCCGACTGCGATCCGTACGACCAGCCGTTCGTCACCGGCACCCGTACCCAGGAAGGCTTCTACAAGGTGCGCGCCGGTCTCGACCAGGCCATCGCCCGTGGCCTGGCCTACGCCCCGTACGCCGACCTGATCTGGTGCGAAACCGCCAAGCCGGACCTGGACGAAGCTCGTCGCTTCGCCGAAGCGATCAAGAAGGAATACCCGGACCAACTGCTGTCGTACAACTGCTCGCCTTCCTTCAACTGGAAGAAGAACCTGGACGACGCGACCATCGCCAAGTTCCAGCGCGAACTGTCCGCCATGGGCTACAAGCACCAGTTCATCACCCTGGCCGGCATCCACAACATGTGGCACAGCATGTTCAACCTGGCGCACGACTACGCCCGCAACGACATGACCGCCTACGTGAAGCTGCAAGAGCAGGAGTTCGCTGACGCCGCCAAAGGCTACACCTTCGTGGCCCACCAGCAGGAAGTCGGCACCGGCTACTTCGACGACATGACCACGGTGATCCAGGGCGGTACCTCGTCGGTGACCGCACTGACCGGCTCGACCGAAGAAGAACAGTTCCACTGA	MALTREQQIAALEKDWAENPRWKGVKRNYSAADVVRLRGSVQPEHTFAKMGAEKLWNLVTQGAKPAFRPEKDFVNCMGALTGGQAVQQVKAGIQAIYLSGWQVAADNNSAESMYPDQSLYPVDSVPTVVKRINNSFRRADQIQWKAGKNPGDEGYIDYFAPIVADAEAGFGGVLNAYELMKSMIEAGAAGVHFEDQLASVKKCGHMGGKVLVPTQEAVQKLTAARLAADVAGVPTIILARTDANAADLLTSDCDPYDQPFVTGTRTQEGFYKVRAGLDQAIARGLAYAPYADLIWCETAKPDLDEARRFAEAIKKEYPDQLLSYNCSPSFNWKKNLDDATIAKFQRELSAMGYKHQFITLAGIHNMWHSMFNLAHDYARNDMTAYVKLQEQEFADAAKGYTFVAHQQEVGTGYFDDMTTVIQGGTSSVTALTGSTEEEQFH	PGPT0001550_1159	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLYOXYLIC_ACID_BIOSYNTHESIS,PGPT0001550-aceA-K01637	NA	NA
D1-35_02447	762			hypothetical protein	ATGTCCCTACGTACCCTGCTGACCACCCTGCTGCTCGGTTGCAGCCTGTCAGTCATGGCGGCTACCGAAATCGTGCCGCTGAACTACCGCACCAGCGCGGACTTGCTGCCGGTGGCGCAGAACTTCATCGGCAAGGATGGCCAGGTCAGCGCTTACGGCAACCAACTGATCGTCAACGCCGAACCCGGCAAGATCGAAGAACTTCGACAATTCCTGGCGCAGCTCGACGTGGCTCCCAAGCGCTTGCTGATCACGGTCGACACCAATGAAAACAACCTGCAAGGCGATCAGGGTTACTCGATCAACGGAGCCGCCCCCAGCCAGACCCGCATCATCAACCGCAGCACCGCCAGCCGTGACGGCGGCGTGCAGCAGATCCAGGCCAGCGAGGGCCAGCCGGCGCTGATCCAGGTGGGCCAGAGCGTGCCCTTCACCAGCAACCAGACCGATGGCTATGGGCGCATGCAAAGCCAGACCGAATACCGCAACGTCACCCAAGGTTTTTACGTAACGGCCAGCGTCACGGGCGAGACCGTTCATCTGAGCATCAGCACCAACCGTGACCGCATGAGCCAGGAACGTCCCGATGTAGTGAACGTGCAAAGCACCGACACAACCGTCAGCGGGCGCCTGGGCGAGTGGATCACCCTGGCCGGGGTGAATCGGCAGAATCAGGCCGATAAACAAGGCCTGACCCGCAGCTACTCGACCCAAGGCCGGGATGACATGATTTTGCGGGTCAAGGTCGATACGCTGAACTGA	MSLRTLLTTLLLGCSLSVMAATEIVPLNYRTSADLLPVAQNFIGKDGQVSAYGNQLIVNAEPGKIEELRQFLAQLDVAPKRLLITVDTNENNLQGDQGYSINGAAPSQTRIINRSTASRDGGVQQIQASEGQPALIQVGQSVPFTSNQTDGYGRMQSQTEYRNVTQGFYVTASVTGETVHLSISTNRDRMSQERPDVVNVQSTDTTVSGRLGEWITLAGVNRQNQADKQGLTRSYSTQGRDDMILRVKVDTLN				NA	NA	NA	NA	NA
D1-35_02448	426			Acetyltransferase	ATGAATAAAATTCACGTTCGTGTCGCAGACTGGCAAAAGGATAACGCCGAGATCCGGCGCATTCGTGAAGCGGTATTCATTGCCGAGCAATCCGTGCCGCCGGAGTTGGAGTGGGATTCGGATGACCAGGACGCCGTGCATTTCCTGGCCTTCGAAGGCGACTTCCCCATCGGCACCGCGCGCCTGCTGACCGATGGCCATATCGGCCGCGTCTCGGTCCTGAAGGATTGGCGCGGCCTGAAAGTCGGCGATGCGCTGATGCACGCAGCAATCGCCGAGGCCGAGAAGCGCGGGCTCAAGCAGCAGATGCTCAGCGCCCAGGTGCACGCCACGCCGTTTTACGAGCGACTGGGGTTTGCGGTGGTCAGCGAGGAGTTCCTCGAAGCCGGGATTCCTCACGTGGACATGGTGCGGCGCTCGATCTGA	MNKIHVRVADWQKDNAEIRRIREAVFIAEQSVPPELEWDSDDQDAVHFLAFEGDFPIGTARLLTDGHIGRVSVLKDWRGLKVGDALMHAAIAEAEKRGLKQQMLSAQVHATPFYERLGFAVVSEEFLEAGIPHVDMVRRSI				NA	NA	NA	NA	NA
D1-35_02449	1167	roxA	COG2850	50S ribosomal protein L16 3-hydroxylase	ATGAATTCTGACATTCCACTGCAACTCCTGGGCGGTATCACGGCACGGGAGTTCCTGCGCGACTACTGGCAGAAGAAACCCCTGCTGATCCGCCAGGCCATTCCTGACTTCGAAAGCCCGATCGACGCCGACGAACTGGCCGGCCTTGCGCTTGAGGAAGAGATCGAGTCACGCCTGGTGATCGAACACGGCGAGCGCCCCTGGGAATTGCGTCGCGGCCCGTTCGCCGAAGACGAGTTCAGCAAACTGCCGGAGCGCGAGTGGACCCTGCTGGTGCAGGCGGTCGACCAGTTCGTACCGGAAGTCAGCGAGCTGCTGGAGCATTTCCGCTTTTTGCCGAGCTGGCGCATCGACGATGTGATGATCAGCTTCGCTGCCCCAGGTGGCGGCGTCGGCCCGCATTTCGACAACTACGATGTGTTCCTGCTGCAGGGCCACGGCAAGCGCAACTGGAAAATCGGCCAGATGTGCAACTCCGAAAGCCCGCTGCTGCCCCATGCAGACTTGCGCATCCTCGCCGATTTCGAGGCGACCGAGGAATGGGTCCTGGAACCTGGCGACATGCTCTACCTGCCGCCGCGCCTGGCCCACTGCGGCGTCGCCGTGGATGACTGCATGACCTATTCGGTGGGTTTCCGCGCACCGAGCGCCGCCGAGGTGCTGACCCATTTCACCGACTTCCTCAGCCAGTTCCTGCCGGATGAAGAGCGCTACACCGACGCCGATGCGCGGCCTGTCGCCGATCCGCATCAGATCCAGCAAGACGCCCTGGACCGACTCAAGGGCCTGCTGGCCGAGCACATGAGCGACGAGCGCCTGCTGCTGACCTGGTTCGGCCAGTTCATGACCGAGCCGCGCTATCCGGAACTGGTCGTCGGCCCGGAGCTGGAAGAGGACGATCTGCTGGCCGGACTGGAACAGGGCGCGGTGATCATTCGCAACCCGAGCGCTCGCCTGGCCTGGTCGGAAGTCGATGAAGACCTGTTGCTGTTCGCCAGCGGCCAGAGCCGTTATTTGCCGGGCAAATTGCGCGACCTGTTGAAGATGATCTGTGCCGCCGACGCGCTGCACATCGAGAACCTCGGCCCATGGCTGGCCGACGAGGACGGTCGCGGCCTCATTCATGAATTGGTCAAGCAAGGTAGCCTGGGGTTCGCCGATGAATAA	MNSDIPLQLLGGITAREFLRDYWQKKPLLIRQAIPDFESPIDADELAGLALEEEIESRLVIEHGERPWELRRGPFAEDEFSKLPEREWTLLVQAVDQFVPEVSELLEHFRFLPSWRIDDVMISFAAPGGGVGPHFDNYDVFLLQGHGKRNWKIGQMCNSESPLLPHADLRILADFEATEEWVLEPGDMLYLPPRLAHCGVAVDDCMTYSVGFRAPSAAEVLTHFTDFLSQFLPDEERYTDADARPVADPHQIQQDALDRLKGLLAEHMSDERLLLTWFGQFMTEPRYPELVVGPELEEDDLLAGLEQGAVIIRNPSARLAWSEVDEDLLLFASGQSRYLPGKLRDLLKMICAADALHIENLGPWLADEDGRGLIHELVKQGSLGFADE				NA	NA	NA	NA	NA
D1-35_02450	1371	purB	COG0015	Adenylosuccinate lyase	ATGCAGCTCTCTTCGCTCACTGCGGTTTCCCCTGTAGACGGCCGCTACGCCGGCAAAACCCAGGCCCTGCGCCCTATTTTCAGCGAGTACGGCCTGATCCGTGCCCGCGTTCTGGTTGAAGTGCGCTGGCTCCAGCGCCTGGCCGCTCACCCTGGCATTGGCGAAGTACCGGCCTTTTCCGCCGAAGCCAACGCGGTACTGAACGCCCTGGCCGACGATTTCGCGCTGGAGCACGCCGAGCGCGTCAAAGAGATCGAGCGCACCACCAACCACGACGTCAAGGCCATCGAATACCTGCTCAAGGAGCAGGCGGCCAAGCTGCCGGAACTGGCCAACGTCAGCGAGTTCATCCACTTTGCCTGCACCAGCGAGGACATCAACAACCTGTCCCACGCCCTGATGCTGCGCGAAGGCCGTGACGAGGTGATGCTGCCCCTGATGCGCCAGACCGCCCAGGCCATCCGCGAACTGGCGATCCGCTTCGCCGACGTGCCGATGCTGTCGCGCACCCACGGTCAACCGGCTTCGCCGACCACCCTGGGCAAGGAACTGGCGAACGTGGTGTATCGCCTGGAGCGCCAGATCGCCCAAGTAGCCGCCGTGCCACTGCTGGGCAAGATCAACGGCGCCGTGGGCAACTACAACGCCCACCTGTCGGCCTACCCGGACATCGACTGGGAAGCCAACGCCCGCGCCTTCATCGAAGACGAGCTGGGCCTGAGCTTCAACCCGTACACCACCCAGATCGAACCGCATGACTACATCGCCGAGCTGTTCGACGCGATCGCGCGCTTCAACACCATCCTGATCGACTTCGACCGTGACATCTGGGGCTACATCTCCCTGGGTTACTTCAAGCAGCGCACCATCGCCGGCGAAATCGGTTCCTCGACCATGCCGCACAAGGTCAATCCGATCGACTTCGAAAACTCCGAAGGCAACCTGGGCATCGCCAACGCGCTGTTCCAGCACCTGGCGAGCAAGCTGCCGATTTCCCGCTGGCAGCGCGACCTGACCGACTCCACCGTGCTGCGCAACCTGGGCGTAGGTTTTGCCCACAGCGTCATCGCCTACGAGGCCAGCCTCAAGGGCATCAGCAAGCTGGAACTGAACGAGCAGAAAATCGCCGCCGACCTGGATGCCTGCTGGGAAGTCCTGGCCGAGCCGATCCAGACCGTGATGCGTCGCTATAACATCGAAAACCCCTATGAAAAGCTGAAAGAACTGACCCGTGGCAAGGGCATCAGCCCGGACGCGTTGCAGACTTTCATCGATGGCCTGGACATGCCTGCCGAGGCCAAGGCAGAGCTGAAGAAACTGACCCCGGCCAGCTACATCGGCAACGCGGCGGCACAAGCCAAGCGCATCTGA	MQLSSLTAVSPVDGRYAGKTQALRPIFSEYGLIRARVLVEVRWLQRLAAHPGIGEVPAFSAEANAVLNALADDFALEHAERVKEIERTTNHDVKAIEYLLKEQAAKLPELANVSEFIHFACTSEDINNLSHALMLREGRDEVMLPLMRQTAQAIRELAIRFADVPMLSRTHGQPASPTTLGKELANVVYRLERQIAQVAAVPLLGKINGAVGNYNAHLSAYPDIDWEANARAFIEDELGLSFNPYTTQIEPHDYIAELFDAIARFNTILIDFDRDIWGYISLGYFKQRTIAGEIGSSTMPHKVNPIDFENSEGNLGIANALFQHLASKLPISRWQRDLTDSTVLRNLGVGFAHSVIAYEASLKGISKLELNEQKIAADLDACWEVLAEPIQTVMRRYNIENPYEKLKELTRGKGISPDALQTFIDGLDMPAEAKAELKKLTPASYIGNAAAQAKRI	PGPT0021555_2726	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021555-purB-K01756	NA	NA
D1-35_02451	624	hflD	COG2915	High frequency lysogenization protein HflD	ATGACGCCGATCCAGGAACAACTGACGGCACTCGGCGGGGTGTTTCTCGCCGCGGTGCTGGTGGACCGGATCGCCAAGACCGGCCAGGCCACCGAAGCCGGCCTGGGCTGCATGCTCGGCAGCCTGCTGGTGCGCGATCCCAAGGACACCCTGGAAGTCTATGGTGGCGATGACCTGAACCTGCGCGAAGGCTACCGTGCGCTGATCGGCGCCCTGGAGCGCGACCCCAGTGCCCTGCAACGCGAGCCGCTGCGCTACGCTCTGTCGATGCTGGGCCTGGAGCGTCAGCTGGCCAAGCGCGACGACCTGCTGGAAACCATCGGCAAACGCCTGCCGCAAATCCAGTCCCAGGTCGAACACTTCGGCCCGTCCCACGAGAACGTGATCGCCGCTTGCGGCGCGCTGTACCAGGACACCTTGAGTACCCTGCGCCAGCGCATCCAGGTGCATGGCGACATGCGCAACCTGCAGCAGCCTAGTAACGCTTCGAAGATCCGCGCCCTGTTGCTGGCCGGGATTCGCTCGGCGCGGCTGTGGCGACAACTGGGTGGGCATCGCTGGCAGCTGGTGATCAGCCGGCGCAAATTGCTGAAAGAGCTTTACCCGTTGATGCGCAACGAATAA	MTPIQEQLTALGGVFLAAVLVDRIAKTGQATEAGLGCMLGSLLVRDPKDTLEVYGGDDLNLREGYRALIGALERDPSALQREPLRYALSMLGLERQLAKRDDLLETIGKRLPQIQSQVEHFGPSHENVIAACGALYQDTLSTLRQRIQVHGDMRNLQQPSNASKIRALLLAGIRSARLWRQLGGHRWQLVISRRKLLKELYPLMRNE				NA	NA	NA	NA	NA
D1-35_02452	1125	mnmA	COG0482	tRNA-specific 2-thiouridylase MnmA	ATGCGTGATCCAGCCTCTTCGAACACCCCCAAGCAACGCGTCATAGTCGGCATGTCCGGCGGCGTGGACTCTTCCGTTTCCGCCCTTCTGCTGATCGAGCAGGGTTATGAGGTGGAAGGCCTGTTCATGAAGAACTGGGAAGAAGACGACGGAACCGAATACTGCACCGCCATGGACGACCTGGCGGACGCCCAGGCCGTCTGCGACCGGATCGGCATCAAGCTGCACACCGCCAACTTCGCCGCGGAGTACTGGGACAACGTGTTCGAGCACTTCCTCGCCGAATACAAGGCCGGTCGCACGCCGAACCCGGACATCCTCTGCAACCGCGAAATCAAGTTCAAGGCGTTCCTCGACTACGCCATGATGCTCGGCGCCGACCTGATCGCCACCGGTCACTACGTGCGCCGCCGCGACATCGACGGTCGTACCGAGCTGCTCAAGGGGCTGGACCCGAACAAGGACCAGAGTTATTTCCTGCACGCCGTCGGCGCAGAACAGATCGCCAAGACCCTGTTCCCGGTGGGCGAACTGGAAAAACCCGAAGTGCGCGCGATTGCCGAGAAACATGACCTGGCCACCGCCAAGAAGAAGGATTCCACCGGGATCTGCTTCATCGGCGAACGGCGCTTCAGCGATTTCCTCAAGCAATACCTGCCGGCCCAGCCGGGCGAGATCAAGACCACCGAAGGCGAAGTCATCGGCCGCCACCATGGTCTGATGTACCACACCATCGGCCAGCGCCAGGGCCTGGGCATCGGCGGCTTGAAAGACGCCGGTGAAGAGCCTTGGTACGTGCTGGTCAAGGACCTGGAGCACAACGAGCTGATCGTTGGCCAGGGCAATGACCATCCATGGCTGTTTTCCCGTGCCCTGCTGGCCTCCGATATCTATTGGGTCAACCCGATCGACCTCAGCGAACCGCGCCGCCTGACGGCCAAGGTTCGCTATCGCCAGAGCGACCAACCCTGCACCCTGGAAAAAACCGCCAGCGGCTATCGCGCCACGTTCGATGATCCGCAGCGCGCGGTCACCCCCGGCCAGTCCGTGGTGTTCTACGACGGTGAAGTCTGCCTCGGCGGCGGCGTGATAGAAGTCGCCGAGCCATGGAGCAGCCAGGCATGA	MRDPASSNTPKQRVIVGMSGGVDSSVSALLLIEQGYEVEGLFMKNWEEDDGTEYCTAMDDLADAQAVCDRIGIKLHTANFAAEYWDNVFEHFLAEYKAGRTPNPDILCNREIKFKAFLDYAMMLGADLIATGHYVRRRDIDGRTELLKGLDPNKDQSYFLHAVGAEQIAKTLFPVGELEKPEVRAIAEKHDLATAKKKDSTGICFIGERRFSDFLKQYLPAQPGEIKTTEGEVIGRHHGLMYHTIGQRQGLGIGGLKDAGEEPWYVLVKDLEHNELIVGQGNDHPWLFSRALLASDIYWVNPIDLSEPRRLTAKVRYRQSDQPCTLEKTASGYRATFDDPQRAVTPGQSVVFYDGEVCLGGGVIEVAEPWSSQA				NA	NA	NA	NA	NA
D1-35_02453	447	nudJ	COG0494	Phosphatase NudJ	ATGAACTGGCAACCCCACATCACCGTCGCCACCATCGTCGAAGACCACGGCCGCTTCCTGATGGTCGAAGAATCCAAGGGCGGACGAGCAGTGCTCAACCAGCCCGCCGGCCACCTGGACCCGAACGAAACACTGATCCAAGCCGCCATACGTGAAACCCTCGAAGAAACCGGCTGGGACGTCGAACCCACCAGCGTCACCGGCCTCTACCTCTACACCGCCCCGAGCAACGGTGTGACCTACCAACGGGTCTGCTTCGCCGCCAAAGCCCTGAAACACCACCCGGATTATCAACTGGACGACGGCATCCTCGGCGCCAAGTGGCTGACCCGCGACGAATTGCTGAAACAGCGCGACCGCTGGCGCAGCGAGCTGGTCATCCGCTGCATCGACGATTACCTGGCCGGCCATCGCCACAGCCTGGAGCTTATCCGCCCTTCTCTTTAG	MNWQPHITVATIVEDHGRFLMVEESKGGRAVLNQPAGHLDPNETLIQAAIRETLEETGWDVEPTSVTGLYLYTAPSNGVTYQRVCFAAKALKHHPDYQLDDGILGAKWLTRDELLKQRDRWRSELVIRCIDDYLAGHRHSLELIRPSL	PGPT0028060_19	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACIMETHRIN|CF3-HMP_DETOXIFICATION,PGPT0028060-nudJ|ymfB-K12152	NA	NA
D1-35_02455	2226	icd_1	COG2838	Isocitrate dehydrogenase [NADP]	ATGCCCACCCGCTCGAAGATCATCTATACCTTCACCGACGAAGCGCCTGCCCTCGCCACCTATTCGCTGCTGCCGATCGTCGAAGCCTTCACCGCTTCGGCCGATATCGCCGTGGAGACCCGCGATATCTCCCTCGCAGGGCGCATCCTGGCCAGCTTCCCCGAGCAACTGGGTGACAAAGCCGTAGCCGACCACCTCGCCGAACTGGGCGACCTGGCCGTCACGCCTGAAGCCAACATCATCAAGCTGCCGAACATCAGCGCCTCGGTGCCGCAACTGCAGGCCGCGATCAAGGAATTGCAGGCCCAGGGCTACGCACTGCCGGACTACCCGGAAACCGTGACCACCGACGCCGAGAAAGAAGTCCGCGCCCGTTACGACAAGGTCAAGGGCAGCGCCGTGAACCCGGTCCTGCGCGAAGGCAACTCCGACCGCCGCGCGCCGCTGTCGGTGAAGAACTACGCTCGCAAGCACCCGCACAAGATGGGCGCCTGGGCTGCCGATTCCAAATCCCACGTGGCCCACATGAGTACCGGCGATTTCTACGGCAGCGAAAAAGCCGCCCTGATCGACGCCGCGGGCAGCGTGAAGATCGAGCTGATCGCCAAGGACGGTACTGCCACTGTCCTGAAGGAAAAAACCACCGTCCAAGCCGGTGAGATCCTCGATTGCGCGGTCATGAGCAAAAATGCCCTGCGCAATTTCATCGCCGCCGAAATCGAAGACGCCAAGCAGAAAGGCGTGCTGCTGTCGGTTCACCTCAAAGCGACCATGATGAAGGTCTCCGACCCGATCATGTTCGGCCAGATCGTGGCTGAGTACTATAAGGACGCGCTGGCCAAGCACGCCCAGGTACTGGAGCAGATCGGCTTCAACCTGAACAACGGCATCGGCGACCTGTACGCCCGCATCAAGGCCCTGCCGGCCGAGCAGCAGGCGCAGATCGAAGCCGACATCCAGGCGGTCTATGCCGTTCGTCCGGCACTGGCGATGGTCAACTCCGACAAAGGCATCACCAACCTGCACGTGCCGAGCGACGTCATCGTCGACGCCTCGATGCCAGCCATGATCCGTGACTCCGGCAAGATGTGGGGCACCGACGGCCAGCTGCACGACACCAAGGCCGTGATCCCGGATCGCTGCTACGCGACCATCTACCAGGCCGTGATCGAAGACTGCAAGCAACACGGCGCCTTCGACCCGACCACCATGGGCAGCGTGCCGAACGTCGGCCTGATGGCCAAGAAAGCCGAAGAGTACGGCTCCCACGACAAGACCTTCCAGATCAAGACTGACGGTGTGGTCCGCGTCTCGGACAGCAACGGTCGCACCCTGCTGGAGCAGAACGTCGAGGCTGGCGATATCTTCCGCATGTGCCAGACCAAGGACGCGCCGATCCAGGACTGGGTCAAGCTCGCCGTCAACCGCGCCCGCGCCAGCAGCACCCCGGCAATCTTCTGGCTCGACCCGATGCGCGCCCACGATGGCGTGATGATCGAGAAGGTCCAGGCTTACCTGAAGGATCACGACACCAGCGGCCTGGAGATCCGCATCATGTCGCCTGTCGACGCGATGAAGTTCACCCTGGCGCGTACCCGCGAAGGCAAGGACACCATCTCGGTGACCGGCAACGTACTGCGTGACTACCTGACCGACCTGTTCCCGATCATGGAACTGGGCACCAGCGCCAAGATGCTCTCGATCGTGCCACTGATGAACGGTGGCGGCCTGTTCGAAACCGGCGCCGGCGGCTCGGCACCCAAGCACGTGCAGCAATTGCTGGAAGAGAACTTCCTGCGTTGGGATTCCCTGGGCGAGTTCCTGGCCCTGGCCGCATCCCTGGAACACCTGGGCGTGACCTACAACAACCCGAAAGCACTGGTGCTGGCCAAGACTCTCGACCAGGCGACTGGCGAATTCCTGGACCGCAACAAGTCGCCTTCGCGCAAGGTCGGCGGCATCGACAACCGCGGCAGCCACTTCTACCTGACCCTGTTCTGGGCCCAGGCACTGGCCGCCCAGGATGACGACGCAGCCCTGAAGGCGCAGTTCACCACCCTGGCCAAGACCCTGACCGACAACGAAGAAAAAATCGTTGCCGAGCTCAACGCCGTCCAAGGCAAGCCAGTGGACATCGGCGGCTACTACTCCGCCAACCCTGAGCTGACCAGCAAGGCCATGCGCCCGAGCAACACCTTCAACGCGGCGATTGCTGCGCTGGTATAA	MPTRSKIIYTFTDEAPALATYSLLPIVEAFTASADIAVETRDISLAGRILASFPEQLGDKAVADHLAELGDLAVTPEANIIKLPNISASVPQLQAAIKELQAQGYALPDYPETVTTDAEKEVRARYDKVKGSAVNPVLREGNSDRRAPLSVKNYARKHPHKMGAWAADSKSHVAHMSTGDFYGSEKAALIDAAGSVKIELIAKDGTATVLKEKTTVQAGEILDCAVMSKNALRNFIAAEIEDAKQKGVLLSVHLKATMMKVSDPIMFGQIVAEYYKDALAKHAQVLEQIGFNLNNGIGDLYARIKALPAEQQAQIEADIQAVYAVRPALAMVNSDKGITNLHVPSDVIVDASMPAMIRDSGKMWGTDGQLHDTKAVIPDRCYATIYQAVIEDCKQHGAFDPTTMGSVPNVGLMAKKAEEYGSHDKTFQIKTDGVVRVSDSNGRTLLEQNVEAGDIFRMCQTKDAPIQDWVKLAVNRARASSTPAIFWLDPMRAHDGVMIEKVQAYLKDHDTSGLEIRIMSPVDAMKFTLARTREGKDTISVTGNVLRDYLTDLFPIMELGTSAKMLSIVPLMNGGGLFETGAGGSAPKHVQQLLEENFLRWDSLGEFLALAASLEHLGVTYNNPKALVLAKTLDQATGEFLDRNKSPSRKVGGIDNRGSHFYLTLFWAQALAAQDDDAALKAQFTTLAKTLTDNEEKIVAELNAVQGKPVDIGGYYSANPELTSKAMRPSNTFNAAIAALV	PGPT0001170_900	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
D1-35_02456	1257	icd_2		Isocitrate dehydrogenase [NADP]	ATGGGGTATCAAAAGATTCAGGTTCCAGCCGTCGGTGACAAAATCACCGTCAATGCAGACCATTCTCTTAATGTTCCCGACAATCCGATCATTCCTTTCATTGAAGGTGACGGCATTGGCGTTGATATCAGTCCGGTCATGATCAAGGTCGTCGACGCCGCGGTCGAGAAGGCTTATGGCGGCAAGCGCAAGATTTCCTGGATGGAAGTCTATGCCGGTGAAAAAGCCACCCAGGTCTACGACCAGGACACCTGGCTTCCCCAGGAAACCCTGGACGCGGTCAAGGACTACGTGGTTTCCATCAAGGGCCCTCTGACCACGCCGGTCGGTGGCGGTATCCGTTCGTTGAACGTCGCGCTGCGCCAGCAGCTGGACCTGTATGTCTGCCTGCGCCCGGTGCGCTGGTTCGAGGGTGTGCCAAGCCCGGTGAAGAAGCCTGGCGATGTCGACATGACAATCTTCCGCGAGAACTCCGAAGACATCTATGCAGGCATCGAGTGGAAGGCCGGTTCGGCCGAGGCCACCAAGGTCATCAAGTTCCTCAAGGAGGAAATGGGTGTTACCAAGATCCGCTTCGACGAAGATTGCGGTATCGGCGTCAAGCCGGTTTCCAAGCAGGGCACCAAACGTCTGGCGCGCAAAGCCTTGCAATATGTTGTCGACAATGACCGCGATTCGCTGACCATCGTGCACAAAGGCAACATCATGAAGTTCACCGAAGGTGCCTTCAAGGAATGGGCCTACGAAGTGGCGGCCGAAGAGTTCGGCGCGACCCTGCTCGACGGCGGGCCCTGGATGCAGTTCAAGAATCCGCGGACCGGCAAGAATGTCGTGGTCAAGGATGCCATCGCCGACGCCATGCTCCAGCAGATCCTGCTGCGCCCGGCCGAGTACGACGTGATCGCAACCCTGAACCTCAACGGCGACTATCTCTCCGACGCCCTGGCGGCCGAAGTGGGCGGTATCGGTATCGCGCCGGGCGCCAACCTGTCGGACACCGTGGCGATGTTCGAGGCCACCCATGGCACCGCGCCCAAATATGCCGGCAAGGACCAGGTCAACCCGGGTTCGCTGATCCTGTCGGCGGAAATGATGCTGCGTCACATGGGTTGGACCGAAGCGGCCGACCTGATCATCAAGGGCACCAACGGCGCGATCTCGGCCAAAACCGTGACCTATGACTTCGAACGCCTGATGGACGGAGCCAAGCTGGTATCGTCTTCCGGCTTTGGTGATGCACTGATCTCGCACATGTAG	MGYQKIQVPAVGDKITVNADHSLNVPDNPIIPFIEGDGIGVDISPVMIKVVDAAVEKAYGGKRKISWMEVYAGEKATQVYDQDTWLPQETLDAVKDYVVSIKGPLTTPVGGGIRSLNVALRQQLDLYVCLRPVRWFEGVPSPVKKPGDVDMTIFRENSEDIYAGIEWKAGSAEATKVIKFLKEEMGVTKIRFDEDCGIGVKPVSKQGTKRLARKALQYVVDNDRDSLTIVHKGNIMKFTEGAFKEWAYEVAAEEFGATLLDGGPWMQFKNPRTGKNVVVKDAIADAMLQQILLRPAEYDVIATLNLNGDYLSDALAAEVGGIGIAPGANLSDTVAMFEATHGTAPKYAGKDQVNPGSLILSAEMMLRHMGWTEAADLIIKGTNGAISAKTVTYDFERLMDGAKLVSSSGFGDALISHM	PGPT0001170_3492	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
D1-35_02457	300			hypothetical protein	ATGCCGGGTACCGGGATGACATTCAAGGGCAAGGTCAAATGGTTCAACAACTCCAAGGGCTTCGGGTTTATCAATCGCGATGGCGATCCGAATAAGGAAGACCTGTTCGCTCACTACTCGGCGATCCTGATGGACGGCTACAAGACCTTGAAGGCCGGGCAAACCGTGTCGTTCAGCATGATCCAGGGTCCCAAGGGCGTACACGCAGTCGCCATCACGCCCGTCGCGCAGGACAACGCCGACGCCACGCCCGAATCCGTCAACGCCCTGGAGCACGTCAGCGCCTCCGAAAAAGGCTGA	MPGTGMTFKGKVKWFNNSKGFGFINRDGDPNKEDLFAHYSAILMDGYKTLKAGQTVSFSMIQGPKGVHAVAITPVAQDNADATPESVNALEHVSASEKG	PGPT0014675_1798	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
D1-35_02458	246	clpS	COG2127	ATP-dependent Clp protease adapter protein ClpS	ATGTACAAGGTGGTTTTGTTCAACGATGACTACACACCGATGGATTTCGTCGTCGAAGTGCTCGAGGTGTTTTTTAACCTGAATCGCGAGCTGGCGACCAAGGTCATGCTGGCCGTCCATACAGAGGGACGGGCAGTATGTGGAGTGTTTACCCGCGACATCGCCGAGACAAAGGCCATGCAGGTCAACCAGTACGCCCGGGAAAGCCAGCATCCGCTACTCTGTGAAATCGAGAAGGACGGTTAA	MYKVVLFNDDYTPMDFVVEVLEVFFNLNRELATKVMLAVHTEGRAVCGVFTRDIAETKAMQVNQYARESQHPLLCEIEKDG	PGPT0014575_3	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014575-clpA-K03694	NA	NA
D1-35_02459	2271	clpA	COG0542	ATP-dependent Clp protease ATP-binding subunit ClpA	ATGTTAAACCGCGAGCTCGAAGTCACCCTCAATCTTGCCTTCAAGGAGGCTCGTTCGAAGCGTCATGAATTCATGACCGTCGAACACCTGCTGCTGGCCCTATTGGATAATGAGGCTGCCGCCACCGTTTTGCGTGCCTGCGGCGCAAACCTCGATAAACTCAAGCATGATCTGCAGGAGTTCATCGACTCCACCACGCCATTGATCCCCGTTCATGACGAGGATCGCGAAACCCAGCCAACCCTGGGCTTCCAGCGTGTATTGCAGCGTGCTGTCTTTCACGTACAGAGCTCGGGCAAGCGCGAAGTCACCGGCGCCAATGTCCTGGTCGCGATCTTCAGCGAGCAGGAAAGCCAGGCGGTCTTCCTGCTCAAGCAGCAGAGCGTGGCGCGTATCGATGTCGTCAACTACATCGCCCATGGCATCTCCAAGGTGCCCGGGCATGGCGATCATTCCGAGGGTGAGCAGGACATGCAGGACGACGAGGGCGGTGAGTCTTCTTCTTCAGGCAATCCCCTGGATGCCTATGCCAGCAACCTGAACGAACTGGCGCGCCAGGGCCGTATCGACCCGCTGGTCGGGCGCGAGGCGGAAGTCGAGCGCGTGGCGCAGATCCTGGCCCGGCGTCGCAAGAACAATCCGCTGCTGGTAGGCGAGGCGGGCGTGGGCAAGACCGCGATCGCCGAAGGCCTGGCCAAGCGCATCGTCGATAACCAGGTGCCGGACCTGCTGGCCAACAGTGTCGTCTATTCCCTCGACCTGGGTGCCTTGCTGGCCGGTACCAAATACCGCGGCGACTTCGAGAAACGCTTCAAGGCGCTGCTCGGCGAGCTGAAGAAACGTCCGCAGGCGATCCTGTTCATCGACGAGATCCACACCATCATCGGTGCCGGTGCTGCGTCGGGTGGCGTCATGGATGCCTCGAACCTGCTCAAGCCGTTGCTTTCCTCGGGTGATATCCGTTGCATCGGCTCGACCACGTTCCAGGAATTCCGTGGCATTTTCGAGAAAGACCGTGCTTTGGCCCGGCGTTTCCAGAAAGTCGACGTCTCGGAGCCGTCGGTGGAAGACACCATCGGCATCCTGCGCGGCCTGAAAGGGCGTTTCGAGCTGCACCACAGCATCGAATACAGCGATGAGGCGTTGCGCGCCGCCGCCGAGCTGGCCTCGCGCTACATTAATGATCGGCACATGCCGGACAAAGCCATCGATGTTATCGACGAGGCGGGTGCCTATCAGCGCCTGCAACCGGTGGAGAATCGCGTCAAGCGCATCGACGTGCCGCAGGTCGAGGACATCGTCGCGAAGATCGCGCGGATTCCGCCAAAACACGTCACCAGTTCCGACAAGGAGCTGCTGCGTAACCTGGAGCGCGACCTGAAGCTCACGGTGTTCGGCCAGGATGCGGCCATCGACTCGCTGTCGACCGCTATCAAGCTGTCGCGCGCCGGTCTCAAGTCGCCGGACAAACCGGTCGGTTCGTTCCTGTTCGCCGGGCCTACCGGTGTCGGCAAGACCGAGGCGGCACGGCAGTTGGCCAAGGCGCTGGGGATCGAGCTGGTGCGCTTCGACATGTCCGAGTACATGGAGCGTCACACCGTATCGCGGCTGATCGGTGCGCCTCCAGGTTATGTCGGCTTCGACCAGGGCGGCCTGTTGACCGAGGCGATCACCAAGCAGCCGCACTGCGTGCTGTTGCTCGATGAGATCGAGAAGGCGCATCCGGAAGTCTTCAACCTGCTGCTGCAGGTCATGGACCACGGTACGCTGACCGACAACAACGGACGCAAGGCGGATTTCCGCAACGTGATCATCATCATGACCACCAACGCCGGCGCTGAAACCGCTGCGCGCGCTTCGATCGGTTTCACCCATCAGGATCACTCGTCCGATGCGATGGAAGTGATCAAGAAGAGCTTCACGCCTGAGTTCCGTAACCGCCTGGACACTATCATCCAGTTTGGTCGCCTCAGCCATGAAGTCATCAAGAGCGTGGTGGACAAGTTCCTTACCGAACTTCAGGCGCAGCTCGAAGACAAGCGGGTGTTGCTGGAGGTTACCGATGCGGCACGCAGCTGGCTCGCCGAAGGTGGCTACGATGTGACGATGGGGGCACGGCCGATGGCTCGCCTGATCCAGGACAAGATCAAGCGTCCACTGGCGGAGGAAATCCTCTTTGGCGAACTGGCCGAGCATGGCGGTGTGGTCCACATCGACATCAAGGATGGCGAGCTTACGTTCGACTTCGAAACCACGGCAGAAATGGCCTGA	MLNRELEVTLNLAFKEARSKRHEFMTVEHLLLALLDNEAAATVLRACGANLDKLKHDLQEFIDSTTPLIPVHDEDRETQPTLGFQRVLQRAVFHVQSSGKREVTGANVLVAIFSEQESQAVFLLKQQSVARIDVVNYIAHGISKVPGHGDHSEGEQDMQDDEGGESSSSGNPLDAYASNLNELARQGRIDPLVGREAEVERVAQILARRRKNNPLLVGEAGVGKTAIAEGLAKRIVDNQVPDLLANSVVYSLDLGALLAGTKYRGDFEKRFKALLGELKKRPQAILFIDEIHTIIGAGAASGGVMDASNLLKPLLSSGDIRCIGSTTFQEFRGIFEKDRALARRFQKVDVSEPSVEDTIGILRGLKGRFELHHSIEYSDEALRAAAELASRYINDRHMPDKAIDVIDEAGAYQRLQPVENRVKRIDVPQVEDIVAKIARIPPKHVTSSDKELLRNLERDLKLTVFGQDAAIDSLSTAIKLSRAGLKSPDKPVGSFLFAGPTGVGKTEAARQLAKALGIELVRFDMSEYMERHTVSRLIGAPPGYVGFDQGGLLTEAITKQPHCVLLLDEIEKAHPEVFNLLLQVMDHGTLTDNNGRKADFRNVIIIMTTNAGAETAARASIGFTHQDHSSDAMEVIKKSFTPEFRNRLDTIIQFGRLSHEVIKSVVDKFLTELQAQLEDKRVLLEVTDAARSWLAEGGYDVTMGARPMARLIQDKIKRPLAEEILFGELAEHGGVVHIDIKDGELTFDFETTAEMA	PGPT0014575_1539	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014575-clpA-K03694	NA	NA
D1-35_02460	219	infA	COG0361	Translation initiation factor IF-1	ATGTCGAAAGAAGACAGCTTCGAAATGGAAGGCACTGTCGTCGACACCCTGCCCAACACCATGTTTCGTGTGGAGTTGGAAAATGGGCACGTCGTAACCGCGCATATCTCCGGCAAGATGCGCAAGAACTACATTCGTATTCTTACCGGTGACAAAGTGCGCGTCGAGCTGACGCCCTATGACTTGAGCAAAGGGCGCATCACTTACCGCGCTCGCTAA	MSKEDSFEMEGTVVDTLPNTMFRVELENGHVVTAHISGKMRKNYIRILTGDKVRVELTPYDLSKGRITYRAR				NA	NA	NA	NA	NA
D1-35_02461	708	bpt	COG2935	Aspartate/glutamate leucyltransferase	ATGACCGAGTTGGCGCGCTTGAAGTTCTATGCCACTCAACCTCACTCTTGCAGTTATCTGCCGGAGGAGCAGGCCACGACCCTGTTCCTCGACCCGAGCCAGCCCATGGATGTGCATGTCTACGCAGACCTGTCGGAAATGGGCTTTCGGCGCAGTGGCGATCATCTTTACCGGCCCCATTGCCAACACTGCAATGCGTGCGTTCCGGCGCGCATTCCCGTGGCGCGATTCACACCCAATCGCCAGCAAAAGCGTATTTTCAAGCGCAACGCCGACTTGCAGGTGCGCCCGGCCAAGCCGCAATTTACCGAAGAATATTTTGACCTGTACCAGCGCTATATCGAGCAACGCCACGCCGATGGTGACATGTACCCGCCTAGCCGGGATCAATTCTCGACGTTCCTGGTGCGCGACCTGCCGTTCTCGCGCTTCTACGAGTTCCGCCTCGATGACCGACTGGTCGCCATCGCCGTCACCGACCTGCTGCCCAATGGGCTTTCGGCGGTGTACACCTTCTATGAGCCCGACGAAGAAAAACGCAGCCTGGGGCGTTTTGCGATTCTCTGGCAGATCAACGAGTGCCGGCGCCTGGGCCTGGATGCGGTGTACTTGGGCTATTGGATCAAGAACTGCAAAAAAATGAACTACAAGACCCAATATCGGCCCATTGAATTGCTGATCAATCAGCGGTGGGTTGTCCTGAACTAA	MTELARLKFYATQPHSCSYLPEEQATTLFLDPSQPMDVHVYADLSEMGFRRSGDHLYRPHCQHCNACVPARIPVARFTPNRQQKRIFKRNADLQVRPAKPQFTEEYFDLYQRYIEQRHADGDMYPPSRDQFSTFLVRDLPFSRFYEFRLDDRLVAIAVTDLLPNGLSAVYTFYEPDEEKRSLGRFAILWQINECRRLGLDAVYLGYWIKNCKKMNYKTQYRPIELLINQRWVVLN				NA	NA	NA	NA	NA
D1-35_02462	681	aat	COG2360	Leucyl/phenylalanyl-tRNA--protein transferase	ATGCTGACCTGGTTACAACGCAACACGTTCGATTTCCCACCGCTGGAAAAAGCCATGCGCGACCCCAATGGCTTGCTGGCCGCCGGCGGGGATCTTTGCGCCGATCGGTTGATCCAGGCCTATCGCCACGGCTGCTTTCCATGGTTCTCGGAGGGACAGCCGATTCTGTGGTGGTCACCGGACCCGCGCACCGTGCTGTTTCCCGACGAACTGCATGTTTCCCGCAGCCTGAACAAGCTGTTGCGCAAGCAGCGCTATCAAGTGACGTTCGACCGGGACTTCGCGGCGGTCATCAAGGCCTGCGCCGCACCCCGCGATTATGCCGACGGCACCTGGATCACCGACGCCATGCAGACCGCTTATCTGGAACTGCACCGGCGTGGCTTCGCCCATTCGGTGGAGGTCTGGGACCAGGACCAACTGGTGGGCGGCTTGTATGGCCTGGCGATGGGGCAGCTGTTTTTCGGCGAGTCGATGTTCAGCCGGGCCGACAATGCGTCGAAATTCGGCTTCGCAACCCTGGTCCAACATCTCAAGGAAGCGGGTTTCGTGCTCATTGACTGCCAGATGCCCACCGAGCACCTGCACAGCCTGGGCGCCCGGTCGATTCCCCGCGCAGCGTTTGCCGATTACCTGAAGGCGCACCTGGACCAGCCCAACCAGGCCACCTGGCTTTGCTGA	MLTWLQRNTFDFPPLEKAMRDPNGLLAAGGDLCADRLIQAYRHGCFPWFSEGQPILWWSPDPRTVLFPDELHVSRSLNKLLRKQRYQVTFDRDFAAVIKACAAPRDYADGTWITDAMQTAYLELHRRGFAHSVEVWDQDQLVGGLYGLAMGQLFFGESMFSRADNASKFGFATLVQHLKEAGFVLIDCQMPTEHLHSLGARSIPRAAFADYLKAHLDQPNQATWLC				NA	NA	NA	NA	NA
D1-35_02463	960		COG0492	Glucosaminate ammonia-lyase	ATGAGCGAAGCGAAGCATTCACGCCTGATCATTCTCGGTTCCGGCCCTGCAGGGTACAGCGCGGCTGTCTATGCAGCCCGCGCCAACCTCAAACCCGTTGTCATTACCGGCATACAGGCCGGTGGCCAGCTCACCACCACGGTCGAAGTCGATAACTGGCCCGGCGATGTCGAAGGCCTGACCGGTCCCGTACTCATGGAACGCATGCAGCGGCACGCCGAGCGCTTCGACACGCAGATCGTCTACGACCATATCCATACCGCCAAGTTGCAACAGCGACCGTTCGAACTGGTCGGCGACAGCGGCACCTATACCTGCGATGCATTGATCATCGCCACTGGCGCCTCGGCTCAATACCTGGGCCTGCCTTCAGAGGAAACCTTCGCCGGCAAAGGCGTGTCCGCCTGCGCGACCTGTGATGGCTTCTTTTATCGAAACCAGGTGGTGGCCGTTATCGGTGGCGGTAACACGGCGGTTGAAGAAGCCTTGTACCTGTCGAACATCGCCAGGGAAGTTCACCTGATTCACCGCCGCGACAAGCTGCGCGCGGAAAAGATATTGCAGGACAAGCTCTTCGAAAAGGCAGCCAACGGCAATATCCGCCTGCACTGGAACCAGAACCTGGATGAAGTGCTGGGTGACGCCAGCGGCGTGACCGGCGCGCGCCTGCGGCACAGCGAGACGGGCGATACCAGCACGTTATCCCTGGCCGGGGTGTTCATCGCCATCGGGCATAAACCCAACACCGATCTGTTCCAGGGCCAGTTGCAGATGCGCGATGGCTACCTGATTGTGCGTGGCGGCAGCGAAGGCAATGCCACCGCCACTGACATCGAAGGTGTTTTTGCCGCCGGCGACGTGGCTGACCACGTCTATCGCCAGGCCATTACGTCCGCCGGCGCCGGTTGCATGGCCGCGCTGGATGCAGAAAAGTATCTCGATGACATCCCGGCCGTTTGA	MSEAKHSRLIILGSGPAGYSAAVYAARANLKPVVITGIQAGGQLTTTVEVDNWPGDVEGLTGPVLMERMQRHAERFDTQIVYDHIHTAKLQQRPFELVGDSGTYTCDALIIATGASAQYLGLPSEETFAGKGVSACATCDGFFYRNQVVAVIGGGNTAVEEALYLSNIAREVHLIHRRDKLRAEKILQDKLFEKAANGNIRLHWNQNLDEVLGDASGVTGARLRHSETGDTSTLSLAGVFIAIGHKPNTDLFQGQLQMRDGYLIVRGGSEGNATATDIEGVFAAGDVADHVYRQAITSAGAGCMAALDAEKYLDDIPAV	PGPT0018945_75	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018945-trxB-K22345	NA	NA
D1-35_02464	2406	ftsK	COG1674	DNA translocase FtsK	TTGAAGAAATCCACCGCAGCACCCAAGACAGTCGTTCCGCTCTGGCGCCAACAATTGCACTACCGGCTCAAGGAAGGTGCGTTGATCGCCATTGGGGCCTTGTGCCTGTTCCTGATGATGGCCTTGCTGACCTACGGCAAGGACGATCCGGGCTGGAGCCACAACAGCAAGATCGAAGACGTGCAGAATTTCGGCGGGCCGGCCGGTTCCTACAGCGCTGACATCCTGTTCATGGTGCTGGGCTATTTCGCCTATATTTTCCCGCTGCTGCTGGCGATCAAGACCTATCAGATTTTCCGCCAGCGCCATGAGCCCTGGCAGTGGAGCGGCTGGCTGTTCTCCTGGCGCCTGATTGGCCTGGTGTTCCTGGTGTTGTCAGGCGCCGCGCTGGCACATATCCATTTCCACGCACCCACCGGCCTGCCGGCCGGGGCGGGTGGTGCGCTGGGCGAGAGCCTTGGTGATCTGGCGCGCAATGCCCTGAATATCCAGGGCAGCACGCTGCTGTTCATCGCACTGTTCCTCTTCGGCCTGACGGTGTTCACCGACCTGTCCTGGTTCAAGGTCATGGACGTCACCGGCAAGATCACGCTCGACCTCATCGAATTGATCCAGGGTGCGCTGAACCGCTGGTGGGCGGCGCGCAACGAACGCAAGCAACTGGTGGCGCAACTGCGTGAAGTGGACGATCGGGTCCATGACGTCGTGGCGCCCACCGTTCCGGACAAACGCGAGCAGGCCAAGGTCAAGGAACGCCTGATCGAGCGCGAGCAGGCCCTGAGCAAGCACATGTCCGAGCGCGAAAAGCAGGTGCCGCCGGTTATCACCATGGCCCCGGCCAAGCCGCCGGAGCAGAGCAAGCGCGTGCAGAAGGAAAAACAGGCGCCGCTGTTCGTCGACAGCGCGGTGGAAGGGACCTTGCCACCGATTTCGATCCTCGATCCTGCCGAAAAGAAACAACTCAATTATTCCCCCGAATCCCTGGCGGCCGTCGGTCACCTGCTGGAGATCAAGCTCAAGGAGTTCGGTGTCGAGGTGTCGGTGGATTCGATCCATCCGGGTCCGGTCATCACCCGTTACGAAATCCAGCCGGCCGCCGGCGTCAAGGTCAGCCGTATCGCCAACCTCGCGAAGGACCTGGCGCGCTCCCTGGCGGTCACCAGCGTGCGGGTGGTGGAAGTGATCCCGGGCAAGACCACCGTGGGCATCGAGATCCCCAACGAGGATCGCCAGATCGTGCGCTTCTCCGAGGTGCTCTCGACCCCCGAGTACGACAATCACAAGTCACCGGTCACCCTGGCCCTGGGCCACGACATCGGCGGCAAGCCGGTCATCACCGACCTGGCGAAGATGCCTCACCTGCTGGTGGCCGGTACCACCGGTTCGGGTAAGTCGGTGGGGGTGAACGCGATGATCCTGTCGATCCTGTTCAAGTCCGGCCCGGAAGACGCCAAGCTGATCATGATCGACCCGAAGATGCTCGAATTGTCGATCTACGAAGGCATCCCGCACCTGCTGTGCCCGGTGGTCACCGACATGAAGGACGCGGCCAACGCCCTGCGCTGGAGCGTTGCCGAGATGGAGCGCCGCTACAAGCTGATGGCGAAGATGGGCGTGCGCAACCTGTCGGGCTTCAACGCCAAGGTCAAGGAGGCCGAGGAAGCCGGCACGCCGTTGAGCGACCCGCTGTACCACCGCGAAAGCATCCACGACGAAGCGCCGCTGTTGCACAAGCTGCCGACCATCGTGGTGGTGGTGGACGAATTTGCCGACATGATGATGATCGTCGGCAAGAAGGTCGAAGAACTGATCGCCCGTATCGCCCAGAAAGCCCGTGCGGCCGGTATTCACCTGATCCTCGCCACACAACGGCCGTCGGTAGACGTGATCACCGGCCTGATCAAAGCCAACATCCCGACCCGCATGGCGTTCCAGGTGTCGAGCAAGATCGACTCGCGGACCATCATCGACCAGGGCGGCGCCGAGCAATTGCTCGGCCACGGTGACATGCTCTACATGCCGCCCGGCACCAGCCTGCCGATCCGTGTCCACGGTGCGTTCGTCTCCGATGACGAAGTGCACCGCGTGGTCGAAGCCTGGAAGTTGCGTGGCGCGCCTGAATACAACGACGACATCCTCAACGGTGTCGAAGAGGCCGGCAGCGGTTTCGAGGGCAGCAGTGGCGGCGGTGACGACGATGCCGAGACCGATGCGCTCTATGACGAAGCGGTGCAGTTCGTCCTGGAGAGTCGCCGTGCCTCGATTTCCGCCGTACAGCGCAAGCTGAAGATCGGCTACAACCGCGCCGCACGCATGATCGAGGCCATGGAAATGGCCGGGGTCGTGACGGCCATGAACACCAACGGCTCGCGCGAAGTGCTGGCGCCGGGCCCGATGCGCGACTGA	MKKSTAAPKTVVPLWRQQLHYRLKEGALIAIGALCLFLMMALLTYGKDDPGWSHNSKIEDVQNFGGPAGSYSADILFMVLGYFAYIFPLLLAIKTYQIFRQRHEPWQWSGWLFSWRLIGLVFLVLSGAALAHIHFHAPTGLPAGAGGALGESLGDLARNALNIQGSTLLFIALFLFGLTVFTDLSWFKVMDVTGKITLDLIELIQGALNRWWAARNERKQLVAQLREVDDRVHDVVAPTVPDKREQAKVKERLIEREQALSKHMSEREKQVPPVITMAPAKPPEQSKRVQKEKQAPLFVDSAVEGTLPPISILDPAEKKQLNYSPESLAAVGHLLEIKLKEFGVEVSVDSIHPGPVITRYEIQPAAGVKVSRIANLAKDLARSLAVTSVRVVEVIPGKTTVGIEIPNEDRQIVRFSEVLSTPEYDNHKSPVTLALGHDIGGKPVITDLAKMPHLLVAGTTGSGKSVGVNAMILSILFKSGPEDAKLIMIDPKMLELSIYEGIPHLLCPVVTDMKDAANALRWSVAEMERRYKLMAKMGVRNLSGFNAKVKEAEEAGTPLSDPLYHRESIHDEAPLLHKLPTIVVVVDEFADMMMIVGKKVEELIARIAQKARAAGIHLILATQRPSVDVITGLIKANIPTRMAFQVSSKIDSRTIIDQGGAEQLLGHGDMLYMPPGTSLPIRVHGAFVSDDEVHRVVEAWKLRGAPEYNDDILNGVEEAGSGFEGSSGGGDDDAETDALYDEAVQFVLESRRASISAVQRKLKIGYNRAARMIEAMEMAGVVTAMNTNGSREVLAPGPMRD	PGPT0030468_5367	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
D1-35_02465	624	lolA	COG2834	Outer-membrane lipoprotein carrier protein	ATGCGCCTGATTCGCATGCTGTTGTTGCCCGTATTGGCTTTGTCTACCTTGTCGGTCCATGCCGGCGAGAAAGATGTGGCCCGCCTGACCCAGTTGCTGGGCGGCTCCCAGACCCTGACTGCGCGTTTCTCCCAGCTGACCCTCGACGGCAGCGGCACCCAGTTGCAGGAAACCGCTGGCGACATGGCCCTGCAGCGCCCTGGCCTGTTCTACTGGCACACCGATGCACCCGCCGAACAGCTGATGGTGTCCGATGGCAAGAAAGTCTCCCTGTGGGACCCGGACCTCGAACAAGTGACCATCAAGACCCTCGACCAGCGCCTGACCCAGACGCCGGCGCTGCTGCTCTCCGGCGATATCTCGGAGATCAGCCAGAGCTTCGACATCACCTCCAAGGAGGCCGGTGGCGTGATTGACTTCACTCTCAAGCCGAAGACCAAGGACAGCCTGTTCGACAGCCTGCGCCTGTCGTTCCGCAACGGCCTGGTCAACGACATGCAACTGATCGACAGTGTCGGCCAGCGCACCAATATCCTGTTCACCGGGGTCAAGGCCAACGAGCCGATCGCCGCGTCCAAGTTCAAGTTCGACATCCCCAAGGGTGCGGATGTGATCCAGGAATAA	MRLIRMLLLPVLALSTLSVHAGEKDVARLTQLLGGSQTLTARFSQLTLDGSGTQLQETAGDMALQRPGLFYWHTDAPAEQLMVSDGKKVSLWDPDLEQVTIKTLDQRLTQTPALLLSGDISEISQSFDITSKEAGGVIDFTLKPKTKDSLFDSLRLSFRNGLVNDMQLIDSVGQRTNILFTGVKANEPIAASKFKFDIPKGADVIQE	PGPT0024475_918	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024475-lolA-K03634	NA	NA
D1-35_02466	1326	rarA	COG2256	Replication-associated recombination protein A	ATGGACCTGTTTCGAAGCGCCCCGATTGCCCAGCCATTGGCCGCCCGCCTGCGGGCCACCAACCTGGATGAGTACGTCGGCCAGGAACATGTGCTCGCCCGGGGCAAGCCCCTGCGCGAAGCCCTGGAGCAGGGCGCCCTGCATTCGATGATCTTCTGGGGCCCGCCGGGGGTCGGCAAGACCACCCTGGCGCGGTTGCTGGCGGAAGTCTCGGACGCGCATTTCGAAACGGTGTCGGCCGTGCTGGCCGGGGTCAAGGAGATTCGCCAGGCGGTGGAAATCGCCAAGCAGCAGGCCGGCCAGTACGGCAAGCGCACCATCCTGTTCGTCGATGAAGTGCATCGCTTCAACAAGTCGCAGCAGGACGCCTTCTTGCCCTATGTCGAAGACGGCACGCTGATTTTCATCGGTGCCACCACCGAGAACCCTTCGTTCGAACTCAACAACGCCTTGCTGTCCCGCGCGCGGGTCTACGTGCTCAAGAGCCTCGACGAGGCGGCGATGCGCAAGCTGGTGCATCGCGCGCTCACCGAAGAGCGCGGCCTGGGCAAGCGCCACCTGAGCCTCAGCGACGAAGGTTTCCAGATATTGTTCAGCGCTGCCGACGGCGATGGCCGACGCCTGCTCAACCTGCTGGAAAACGCCTCGGACCTGGCCGAAGACGACAGCGAGATCGGTGTCGAACTGCTGCAAAGCCTGCTGGGCGATACCCGGCGCCGCTTCGACAAGGGCGGCGAGGCGTTCTACGACCAGATTTCGGCGCTGCACAAGTCGGTGCGCGGCTCCAACCCGGACGGCGCGTTGTACTGGTTTGCGCGGATGATCGATGGCGGTTGTGATCCGCTGTACCTCGCGCGCCGCGTGGTGCGCATGGCCAGCGAAGACATCGGCAACGCCGATCCGCGCGCGCTGAGCCTGTGCCTGACGGCCTGGGACGTGCAGGAACGCCTCGGCAGCCCGGAAGGCGAGCTCGCCGTGGCCCAGGCCATTACCTACCTGGCCTGCGCGCCGAAAAGCAACGCCGTCTACATGGGCTTCAAGGCGGCGATGCGCAGCGCCGCCGAGCACGGCTCTCTGGAAGTGCCGTTGCACCTGCGCAACGCGCCGACCAAGCTCATGAAACAGTTGGGCTACGGCGAGGAATACCGTTACGCCCATGACGAGCCTGACGCTTACGCCGCTGGCGAAGACTATTTTCCCGAGGAACTCGAACCCCAGCGGTTCTATCAGCCGGTGCCCCGTGGCCTGGAGCTGAAGATCGGCGAGAAGCTCAACCACTTGGCGCAATTGGACCGATTGAGTCCACGGCAGCGGAGAAAACCGTGA	MDLFRSAPIAQPLAARLRATNLDEYVGQEHVLARGKPLREALEQGALHSMIFWGPPGVGKTTLARLLAEVSDAHFETVSAVLAGVKEIRQAVEIAKQQAGQYGKRTILFVDEVHRFNKSQQDAFLPYVEDGTLIFIGATTENPSFELNNALLSRARVYVLKSLDEAAMRKLVHRALTEERGLGKRHLSLSDEGFQILFSAADGDGRRLLNLLENASDLAEDDSEIGVELLQSLLGDTRRRFDKGGEAFYDQISALHKSVRGSNPDGALYWFARMIDGGCDPLYLARRVVRMASEDIGNADPRALSLCLTAWDVQERLGSPEGELAVAQAITYLACAPKSNAVYMGFKAAMRSAAEHGSLEVPLHLRNAPTKLMKQLGYGEEYRYAHDEPDAYAAGEDYFPEELEPQRFYQPVPRGLELKIGEKLNHLAQLDRLSPRQRRKP				NA	NA	NA	NA	NA
D1-35_02467	375	crcB		Putative fluoride ion transporter CrcB	GTGATCCCCTTGATTCTCGCAGTCTCCGCCGGCGGCGTTGCCGGTACATTGTTGCGTTTCGCCACGGGCAACTGGATCAGCGCAAATTGGCCGCGGCACTTCTATACCGCGACGCTGGCCGTTAATATCGTGGGCTGTCTGCTGATCGGCGTCCTATACGGCCTGTTTCTGATTCGCCCCGAAGTGCCCATCGAGGTGCGCGCGGGGTTGATGGTCGGTTTTCTTGGCGGCCTGACGACTTTTTCATCCTTTTCACTGGATACGGTGCGCCTGCTGGAAAGCGGGCAGGTGCCGCTGGCCCTGGGCTATGCGGCCATCAGCGTGTTCGGCGGGCTGCTCGCCACCTGGGCCGGCCTGTCCCTGACCAAACTTTGA	MIPLILAVSAGGVAGTLLRFATGNWISANWPRHFYTATLAVNIVGCLLIGVLYGLFLIRPEVPIEVRAGLMVGFLGGLTTFSSFSLDTVRLLESGQVPLALGYAAISVFGGLLATWAGLSLTKL	PGPT0004985_3903	DIRECT EFFECT	BIO-REMEDIATION	FLUORIDE_DETOXIFICATION	FLUORIDE_RESISTANCE	FLUORIDE_RESISTANCE-FLUORIDE_TRANSPORT,PGPT0004985-crcB-K06199	NA	NA
D1-35_02468	1281	serS	COG0172	Serine--tRNA ligase	ATGCTCGATTCCAAACTGTTACGTAGCAACCTTCAGGACGTAGCGGACCGCCTGGCATCCCGTGGCTTTGCCCTGGATGTCGCGCGCATCGAAGCGCTGGAAGAACAGCGCAAGACCGTCCAGACCCGCACCGAAGCCCTGCAGGCTGAACGTAACGCGCGCTCCAAGTCCATCGGTCAGGCCAAGCAGCGCGGCGAAGACATCGCGCCGCTGATGGCCGATGTCGAGCGCATGGCGGGCGAGTTGAGTGCCGGCAAGACCGAACTGGACGCGATCCAGAGCGAGCTTGATTCGATCCTGCTGGGCATCCCGAACCTGCCTCACGAATCGGTGCCGGTGGGTGAAGACGAAGACGGCAACGTCGAAGTACGTCGCTGGGGCACGCCGAAAGTCTTCGATTTCCCGGTACAGGACCACGTCGCCCTGGGCGAGAAATTCGGTTGGCTGGACTTCGAAACCGCCGCCAAGCTGTCGGGCGCGCGTTTCGCCCTGCTGCGCGGGCCGATCGCCCGTCTGCATCGCGCACTGGCGCAGTTCATGATCAACCTGCACGTCACCGAGCACGGCTACGAAGAGGCCTACACGCCTTACCTGGTCCAGGCGCCGGCGCTGCAAGGCACCGGTCAGTTGCCGAAGTTCGAGGAAGACCTGTTCAAGATCGCTCGCGACGGCGAAGCCGACCTGTACCTGATCCCGACCGCCGAAGTCTCGCTGACCAACATCGTTGCCGGCGAAATCGTCGACGCCAAGCAACTGCCGATCAAGTTTGTCGCCCACACCCCGTGCTTTCGCAGTGAAGCCGGCGCGTCGGGTCGTGACACTCGCGGCATGATCCGCCAGCACCAGTTCGACAAGGTCGAGATGGTGCAGATCGTCGAGCCGTCGAAATCCATGGAAGCCCTGGAAAGCCTGACCGCCAACGCCGAGAAGGTCCTGCAACTGCTCGAGCTGCCGTATCGCACCCTGGCGCTGTGCACCGGCGACATGGGCTTCAGCGCGGTCAAGACTTACGATCTGGAAGTCTGGATCCCGAGCCAGGACAAGTACCGCGAGATTTCGTCGTGCTCCAACTGCGGTGATTTCCAGGCCCGCCGCATGCAGGCGCGTTTCCGCAACCTGGAAACCGGCAAGCCGGAACTGGTCCATACCCTCAATGGCTCCGGCCTGGCGGTGGGTCGTACGCTGGTCGCCGTGTTGGAAAACTATCAGCAGGCCGACGGTTCGATCCGGGTGCCTGAAGTGCTGAAGCCGTACATGGGCGGCATCGAGGTCATCGGCTAA	MLDSKLLRSNLQDVADRLASRGFALDVARIEALEEQRKTVQTRTEALQAERNARSKSIGQAKQRGEDIAPLMADVERMAGELSAGKTELDAIQSELDSILLGIPNLPHESVPVGEDEDGNVEVRRWGTPKVFDFPVQDHVALGEKFGWLDFETAAKLSGARFALLRGPIARLHRALAQFMINLHVTEHGYEEAYTPYLVQAPALQGTGQLPKFEEDLFKIARDGEADLYLIPTAEVSLTNIVAGEIVDAKQLPIKFVAHTPCFRSEAGASGRDTRGMIRQHQFDKVEMVQIVEPSKSMEALESLTANAEKVLQLLELPYRTLALCTGDMGFSAVKTYDLEVWIPSQDKYREISSCSNCGDFQARRMQARFRNLETGKPELVHTLNGSGLAVGRTLVAVLENYQQADGSIRVPEVLKPYMGGIEVIG				NA	NA	NA	NA	NA
D1-35_02469	1395	cysG_1	COG0007	Siroheme synthase	ATGGACTATCTGCCACTGTTCCACAACCTGCGCGGCAGCCGCGTGCTGGTGGTCGGCGGCGGCGAGATTGCCTTGCGCAAGTCTCGCCTGCTGGCGGATGCCGGTGCCCTGCTGCGGGTGGTCGCACCCGACATCGAACCGCAGTTGCGGGAACTGGTCAGTGGCAGCGACGGCGAATGCGTGCTGCGTGGCTACGTTGAAGCGGATATGGACGGCTGCGGCCTGGTCATCGCCGCCACCGACGACGAGCCGCTCAATGCCCAGGTTTCGGCCGACGCCCACAAGCGCTGCGTGCCGGTCAACGTGGTGGACGCGCCTGCGCTGTGCAGCGTGATCTTCCCGGCGATCGTCGACCGCTCGCCGCTGGTTATTGCGGTGTCCAGCGGCGGCGACGCGCCGGTGCTGGCACGGCTGATCCGCGCCAAGCTGGAAACCTGGATTCCATCGACCTACGGGCAACTGGCCGGCCTGGCGGCGCGCTTTCGCAATCAGGTCAAGCAACTGTTTCCCGATGTGCAGCAACGGCGGGCATTCTGGGAAGAGGTTTTCCAGGGCCCGATCGCCGATCGCCAACTGGCCGGGCAGGGCGCCGAGGCCGAGCGGTTGCTGCGCGAGAAGATCGACGGCCAGGCGCCGAACGCGCCGGGGGAAGTCTATCTGGTAGGCGCCGGGCCGGGTGACCCGGACCTGCTGACCTTCCGCGCGCTGCGCCTGATGCAGCAGGCGGACGTGGTGCTTTACGACCGTCTGGTGGCCCCGGCGATTATCGAGCTGTGCCGGCGCGACGCCGAGCGGGTTTACGTCGGCAAGCGCCGGTCCGAGCATGCGGTACCCCAGGACCAGATCAACCAGCAATTGGTCGACCTGGCCCGGCAGGGCAAGCGTGTGGTGCGGTTGAAGGGCGGCGATCCGTTCATCTTCGGTCGTGGCGGCGAAGAAATCGAAGAACTGGCGGCCCATGGCATCCCGTTCCAGGTGGTCCCGGGCATCACCGCCGCCAGTGGTTGCGCGGCTTACGCCGGGATCCCGCTGACCCATCGCGACTACGCCCAGTCGGTGCGTTTCATCACCGGGCATCTCAAGGACGGCAGCAGCGATCTGCCCTGGGCGGACCTGGTATCGCCAGCGCAGACCCTGGTGTTCTACATGGGCCTGGTGGGGCTGCCGGTGATTTGCAACGAATTGATCAAGCACGGTCGAGCGGCGGACACGCCGGCGGCGCTCATCCAGCAAGGCACGACTTCAAACCAGCGGGTGTTTACCGGTACCTTGGCGGACCTGCCGCGGCTGGTGGCCGAGCATGAGGTGCATGCGCCGACACTGGTGATCGTCGGGGAAGTGGTGCAGTTGCGCGAGAAGCTGGCTTGGTTTGAAGGGGCTCAGGGGCAGGTCTGA	MDYLPLFHNLRGSRVLVVGGGEIALRKSRLLADAGALLRVVAPDIEPQLRELVSGSDGECVLRGYVEADMDGCGLVIAATDDEPLNAQVSADAHKRCVPVNVVDAPALCSVIFPAIVDRSPLVIAVSSGGDAPVLARLIRAKLETWIPSTYGQLAGLAARFRNQVKQLFPDVQQRRAFWEEVFQGPIADRQLAGQGAEAERLLREKIDGQAPNAPGEVYLVGAGPGDPDLLTFRALRLMQQADVVLYDRLVAPAIIELCRRDAERVYVGKRRSEHAVPQDQINQQLVDLARQGKRVVRLKGGDPFIFGRGGEEIEELAAHGIPFQVVPGITAASGCAAYAGIPLTHRDYAQSVRFITGHLKDGSSDLPWADLVSPAQTLVFYMGLVGLPVICNELIKHGRAADTPAALIQQGTTSNQRVFTGTLADLPRLVAEHEVHAPTLVIVGEVVQLREKLAWFEGAQGQV	PGPT0003690_964	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003690-cysG-K02302	NA	NA
D1-35_02470	1005	yqjG	COG0435	Glutathionyl-hydroquinone reductase YqjG	ATGGGTTTGTTGGTCGAGGGCCGCTGGCAGGACCAGTGGTATGAGAGCAAGGACGGTAGTTTCCAGCGTGAACAGGCGCAACGCCGCCACTGGATAACCGCCGACGGCAGCGCCGGCCCTTCCGGCGAGAGCGGTTTCGCCGCCGAAGCCGGTCGTTATCATCTTTATGTATCCCTGGCCTGCCCCTGGGCCCATCGCACGCTGATCTTGCGCAAGCTCAAGGGCCTGGAAGACCTGATCGATGTTTCAGTGGTCAGCTACCTGATGCTGGAAAACGGCTGGACCTTCGATCAGGCTCACGGCTCGACGGGCGACAAGCTCGACCACTTCGACTTCCTGCACCAGCGCTACACCGCCGATACACCGAACTACACCGGTCGTGTCACTGTGCCCGCGCTGTGGGATAAACAGCAGCAGCGCATCGTCAACAATGAGTCAGCGGAAATCATCCGCATGTTCAACAGCGCCTTCGATGGTTTGACCGGCAACGACCTGGATCTCTATCCAGAGCACCTGCGCGGCGAAATCGATGGGTTGAACGAGCGCATCTATCCGGCGGTGAACAACGGCGTCTACCGGGCCGGCTTCGCCACCACCCAGGCGGCTTACGAAGAAGCCTTTGATCAGCTGTTTGCCGAGCTGGACCGTCTGGAGGCTCTGCTCGACACCCGCCGCTACCTGGCTGGCGAGTACCTGACCGAGGCCGACATCCGCTTGTTCACGACGATGATCCGTTTCGACGCGGTGTACTTCGGTCACTTCAAATGCAACCTGCGACGCATCGCCGATTATCCGAACCTGTCGAACTGGCTGCGGGAGATGTATCAGTGGCCAGGCATTGCCGAGACAGTGGATTTCACGCATATCCAGGAGCATTACTACGGCAGCCACAAGACCATCAACCCCAATGGGATCGTGCCCAAGGGGCCGAAGCAGGACTTCATGGTGGCGCATGATCGAGGGAGGTTGGGTGGGAAAGGGATCTGGCGCGGGGCCCGGGATTGA	MGLLVEGRWQDQWYESKDGSFQREQAQRRHWITADGSAGPSGESGFAAEAGRYHLYVSLACPWAHRTLILRKLKGLEDLIDVSVVSYLMLENGWTFDQAHGSTGDKLDHFDFLHQRYTADTPNYTGRVTVPALWDKQQQRIVNNESAEIIRMFNSAFDGLTGNDLDLYPEHLRGEIDGLNERIYPAVNNGVYRAGFATTQAAYEEAFDQLFAELDRLEALLDTRRYLAGEYLTEADIRLFTTMIRFDAVYFGHFKCNLRRIADYPNLSNWLREMYQWPGIAETVDFTHIQEHYYGSHKTINPNGIVPKGPKQDFMVAHDRGRLGGKGIWRGARD	PGPT0013050_953	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013050-yqjG-K07393	NA	NA
D1-35_02471	1002	trpD_1		Anthranilate phosphoribosyltransferase	ATGACCGACTTTCCTTCGCTGACCCTCGAGACCCCGGCCGAACATCCGTTCGCCCAATTCGTGCGCATCCTTGGCAAAGGCAAGCGCGGCGCCCGCAACCTCACCCGGGAAGAAGCCCGCGAGGCCATGGGCATGGTGCTCGATGAGGAGGTCGAAGAGACCCAGCTCGGCGCCTTCCTGATGCTGTTGCGGCACAAGGAAGAAAGCGCCGAGGAAATGGCCGGCTTCACCGACGCCCTGCGTCAACGCCTGGTGGTTCCACAACTGGCGGTAGACCTCGACTGGCCGACCTACGCCGGGAAGAAGCGCCACCTGCCGTGGTATCTGCTGGCGGCCAAATGCCTGGGACAGAACGGCGTGCGGATCTTCATGCACGGCGGCGGCGCCCACACGGCGGGTCGGCTCTACACCGAACAGTTGCTTGGTTTGCTGGATATTCCCTTGTGCCGCGACTGGCAACAGGTCGGCACGGCGCTGGACACCGGCGGCCTGGCCTTCATGCCGCTGGTGGACTGGGCACCGCAGATGCAACGGATGATCGACCTGCGCAACACTCTCGGCCTGCGCTCGCCGATCCATTCCCTGGCGCGGATCCTCAACCCACTGGGCGCGCGTTGCGGTCTGCAAAGCATCTTCCATCCTGGCTACCAGGCCGTGCATCGCGAGGCCAGCGGGTTGCTGGGCGACACCGCCATCGTGATCAAGGGCGACGGCGGCGAGATCGAAATCAATCCGGACGCCGACAGCCATCTGTACGGCACCACCGGTGGCGCCAGTTGGGACGAAGAATGGCCACGCCTGTCGGAGCAGCGCCACGTCAAGCCGGAGCGCCTCGACCCTGAGCATTTGAAAGCCGTCTGGCGCGGCGACGTCGAGGACAGCTACCCGCAACTGGCGTTGATCGCCACGATGGCTTTGGCCTTGCGCGGCCTGGGTTTGTCTCGCGAAGAAGCGTTCGACAAAGCCCGGCAGTATTGGGACGCGCGGAACAGATCGATTTAG	MTDFPSLTLETPAEHPFAQFVRILGKGKRGARNLTREEAREAMGMVLDEEVEETQLGAFLMLLRHKEESAEEMAGFTDALRQRLVVPQLAVDLDWPTYAGKKRHLPWYLLAAKCLGQNGVRIFMHGGGAHTAGRLYTEQLLGLLDIPLCRDWQQVGTALDTGGLAFMPLVDWAPQMQRMIDLRNTLGLRSPIHSLARILNPLGARCGLQSIFHPGYQAVHREASGLLGDTAIVIKGDGGEIEINPDADSHLYGTTGGASWDEEWPRLSEQRHVKPERLDPEHLKAVWRGDVEDSYPQLALIATMALALRGLGLSREEAFDKARQYWDARNRSI	PGPT0003690_2	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003690-cysG-K02302	NA	NA
D1-35_02472	336	tusE	COG2920	Sulfurtransferase TusE	ATGAACGTGCTGACCGTGGGCGCGCGCAGCATCGCGCTGGACAAGGACGGCTACCTGGCCGATCTCAATGACTGGTCAACGGAAGTGGCCACAGCCCTGGCCGCCGCCGAAGACATCGAGCTGAGCCCCGAGCACTGGGAAATCCTCGAACTGCTCCGGGCCTTCCACGATGAATTCCAGCTGTCCCCCGCCACTCGGCCGCTGATCAAGTACACCGCGCTGAAACTCGGCGCGGACAAGGGCAACAGCCTGCACCTGAACCGATTGTTCAAAGGCACTCCCGCCAAACTCGCCGCCAAGCTGGCGGGCCTGCCCAAACCGACGAATTGCTTATGA	MNVLTVGARSIALDKDGYLADLNDWSTEVATALAAAEDIELSPEHWEILELLRAFHDEFQLSPATRPLIKYTALKLGADKGNSLHLNRLFKGTPAKLAAKLAGLPKPTNCL				NA	NA	NA	NA	NA
D1-35_02473	294	tusB		Protein TusB	ATGTCGACTTTGCATGTGTTGTCCCATTCACCGTTCGGTGATAACCGCCTCGCCAGTTGCCTGCGGATACTGGGGAGCCAGGATGCGCTGCTGCTGTGCGGCGACGCGACTTACGCGCTGCAACCTGGCACCGAACCGTTCGCTGCACTCCAGGCCTCCGGGCGCAAGGTGCTCGTCCTTGCCGAAGACGCCCAGGGCCGTGCCCTGCACATTCCCGACTGGGCCGAAGCCATTGATTATCCGGCCTTCGTCGAGCTCTCAATCGAGCATGACAAGGTCAACTCCTGGCTATGA	MSTLHVLSHSPFGDNRLASCLRILGSQDALLLCGDATYALQPGTEPFAALQASGRKVLVLAEDAQGRALHIPDWAEAIDYPAFVELSIEHDKVNSWL				NA	NA	NA	NA	NA
D1-35_02474	363	dsrF	COG2923	Intracellular sulfur oxidation protein DsrF	ATGGCCAAGTCGTTATTGCTCATTAGCCGTCAGTCTCCGTGGTCTGGCCCTGGAGCCCGGGAAGCGTTGGACATCGTGCTGGCCGGCGGTGCGTTCGACCTGCCCATTGGCCTGCTGTTTCTCGATGACGGCGTGTTCCAGCTCAGCGCCGGGCAAAACGCCAAGGCCCTCCAGCAAAAAGACCTGAGCGCCAATTTGCAGGCATTGCCGATGTTCGGCGTCGAAGACCTGTTTGTCTGCGCCGACAGCGCCGCCGAGCGTGGCATCGCCACCGATACCCTGGCACTGGACGCTTTTAAAGTGCTGGGCGCAGCGGACATCGCCGCGCTCATTGACCGTTACGACCAGGTGATCACCCTCTGA	MAKSLLLISRQSPWSGPGAREALDIVLAGGAFDLPIGLLFLDDGVFQLSAGQNAKALQQKDLSANLQALPMFGVEDLFVCADSAAERGIATDTLALDAFKVLGAADIAALIDRYDQVITL				NA	NA	NA	NA	NA
D1-35_02475	393	dsrE	COG1553	Putative sulfurtransferase DsrE	ATGAAGTTCGCCATCGCGCTGTTTTCCGCCGCCCATGCGCCCTCCTCGCGCCGCGCCTTGCTGTTTGCGCAAGCCGCGCTGGCCGGTGGGCATGAGATCGTGCGGCTGTTTTTCTACCAGGACGGCGTCTACAACGCCGATAACAGCATCGTCACGCCTCAGGATGAGCAGGATCTGCCCCGGCAATGGCGAACCTTCGTCAGCGACCATCAGCTCGACGGCGTCGTCTGCATCGCGGCGGCGTTGCGCCGTGGTGTGCTCAACGCTGAAGAGGCCCAGCGCTATCAGCGTTCGGCAATCAGCGTCGAAGCGCCTTGGGCCCTCTCCGGACTGGGTCAGCTGCACGATGCGATCCAGGACGCCGACCGCTTGATCTGTTTTGGAGGCGCATGA	MKFAIALFSAAHAPSSRRALLFAQAALAGGHEIVRLFFYQDGVYNADNSIVTPQDEQDLPRQWRTFVSDHQLDGVVCIAAALRRGVLNAEEAQRYQRSAISVEAPWALSGLGQLHDAIQDADRLICFGGA				NA	NA	NA	NA	NA
D1-35_02476	330			hypothetical protein	ATGGCGGCAACCGGACAGCAGCACGAACGAGCCCTGGAGATCTTTCTCGACGAACGCCCGCAGTTGCGTGTCGAGCTGGACAACCTCAACCCCCTGCTGGCCCAGGCCAAGGGCGAAACCGCTGCGCAGTATCGCGCCGAGCGCTTGCATGAGGCGTTCGAAGCCGAGGCCGAGCGCCTGGGTCTGTTTGCCTGGGAGCTGACGCTGTCGCTGACGGCGGACTCCGCCGAGGACTACCAGGCCCAGCGCATGGAAGTGCACAGGGAAGTCGCGGAGATGGCGGGAATGGAGTGGGCTGAGTATTGCCAGTTAAATGGTCTCATGGACTGA	MAATGQQHERALEIFLDERPQLRVELDNLNPLLAQAKGETAAQYRAERLHEAFEAEAERLGLFAWELTLSLTADSAEDYQAQRMEVHREVAEMAGMEWAEYCQLNGLMD				NA	NA	NA	NA	NA
D1-35_02477	351			hypothetical protein	ATGCGAATGCTGATGGTGGCCGTGGCCGCAACCCTGCTGGCCGGCTGCGCGGGTTCGGCGATGGAACAGGCCCGGACCCAAGCCCCCTACAAGACCCTGGCCTCGGACAAGCCGGAGCAGAATGTCGCCCAATGCGTGAAGTTCGCCTGGGAAGACGAAGCGGTGTTCGGCGTCGATGCCGGTGCCTACCTGCAACCCGGCAAGCAGGGTGGCTCGACGGTGTACACCCGCTCGGCCGAATCGTTTGTCGATATACAAGCCAGTGCCACCGGCACGGCGTTGAAGTACTACGCCAAACAGGATGATTTTGTCGCCAAGCGCCGGTTGGCGGCGTTGGCGACTTGCCTCTGA	MRMLMVAVAATLLAGCAGSAMEQARTQAPYKTLASDKPEQNVAQCVKFAWEDEAVFGVDAGAYLQPGKQGGSTVYTRSAESFVDIQASATGTALKYYAKQDDFVAKRRLAALATCL				NA	NA	NA	NA	NA
D1-35_02478	354			hypothetical protein	ATGAAAAAGCCATATGATTTGCATGACATCTGGGCGTTACTTTTTGTCTTCAGCATTGAAAACACCCATGACGTGGCGCGCGAGGAAATAATAACTTCAAAAAACGTTAATAATGATGAAGAGCTTGGGCAGCTATTCGATTTGCTGGTTCGCCCGGAGTTCCTATTTTACAGTCCGAAGGAACGTATTTTGTTGATTGACACTCTCAGCTATTTCCTCGAGAACAATGATAGCTTTGATAGAGTTTTCTTAAAATTGGATACGTATTTTGATGAGGACGTTCGGGATCAACGTAGATTTATGCAAATACTATTAAACTCTTTAATCAGGTATAGATCCGAGATTGAGAATTAG	MKKPYDLHDIWALLFVFSIENTHDVAREEIITSKNVNNDEELGQLFDLLVRPEFLFYSPKERILLIDTLSYFLENNDSFDRVFLKLDTYFDEDVRDQRRFMQILLNSLIRYRSEIEN				NA	NA	NA	NA	NA
D1-35_02479	1737			hypothetical protein	ATGGACCAGATTTCGAGCCCGCATGTCCTCCCCGTCGAACGCGAATTCAGTCCGCGCGCGGTCATCACGGGGATCGTGCTTGGCATCCTCCTGACGCCCTCCAATGTCTATGCCGGATTAAAAATCGGCTGGTCGTTCAACATGTCGATCATTGCCTTGCTGGTCGGCTACGGCATCTGGCAAGGCCTGGCCAAACGCTCGGCCGCGGGGCTGCCGTGGACGTTGCACGAAAGCAACATCAACCAGACCGTTGCGTCGGCAGCGGCGTCGATCATCTCCGGCGGGCTGGTCGCGCCCATTCCGGCGTACACCTTGCTGACCGGCCAGCAACTGGACCCGGTGCCGATGATTGCCTGGGTATTTTCGGTGAGCTTCCTGGGCATCTGGATTGCCTGGTACCTGCGGCCGTCATTGCTCAATGACAAGGCGCTGAGGTTCCCCGAAGGCATGGCGACCCTGGAAACCCTCCTGCACATCTACAACCATGGCCAGGAAGCCGCGACGCGGCTCAAGGTGCTGCTCGGCGCGGCGCTGCTGTCCGGGCTCGCCAAGTGGGTGGATACGTTTTGGTGGACCATCCCGCGTTGGTCGCCGAGCGCCCAACTGGAGCGCCTGACCTTTACCGCAGACCCTTCGCTGTTGCTGGTGGGGTTCGGCGGCATCATCGGCATCCGCGTCGGCTTGACCCTGCTGCTCGGCGCGCTGCTGGCGTGGGGCGGGTTGGCGCCGTGGCTGCTGGAAAATGGCCTGGTGCAGTTACCGCCCGGCAGCAGTGGACCGCAATTTGCGGTGCTGGTGGAGTGGCTGCTGTGGCCGGGGGTGAGCCTGATGGTCTGCTCGACGCTGGCTTCCCTGGCGATTCGCCTGTGGGCCTTGCACGGTTCCACCAAGGCCAGCGGCGCGGCGACCTGGGTGGTTCCCAAGGCCGGCCCCGCCCTCGGTTTCCTGTTGGCGATCTTTCTGGTGGTAAGCCTGCAAGCGCTGTTGTTCGGCATCAATCCGTGGATGGCGCTGCTGACCATCCCCTTGGCCATCTGCCTGGCGGCGGTGGCGGCCCGTGTGGTTGGCGCCACGGGTATTCCGCCTATCGGTGCCATCGGGCAACTGTCCCAGTTGAGTTTCGGCATCGTCGCCCCGGGCCAGGTGCCGATCAATCTGATGAGTGCCAATACCGCCGGCGGTTCGGCCGGGCAATGCACAGATTTGATGAACGATTTCAAGGTGGGCCGAGCGATCGGCGCCACGCCGCGCAAACAACTGCAGGCGCAGACCCTGGGAATCTTCATCGGCAGCATCGTCGGCGTGCTGGCCTATCTGGCGCTGATCCCGGACCCCCAGACCATGCTGCTCACCGAAGAGTGGCCGGCCCCGGCGGTCGCCACCTGGAAGGCCGTGGCACAGACCCTCACCCATGGCCTGGACTCACTGTCAGCCAGCATCCGCTGGGCGATTTTCATCGGCGCCATCGCCGGCTTGCTGCTGGGCATCCTCGACAGCCTGCTGCCGGCCCATCGGGCCCGCTACCTGCCAAGCACGGCGGCCTTGGGCCTGGCCTTTGTCCTGCCGGCCTCGGTATCGCTGATGATGGCCCTCGGCGCCGTACTCACCTGGCTGGTGAGCTGCCGCTGGCCAAGCCTCACGGAACGCTTCGCTATTACGGCGGCGGCGGGGTTGATTGCGGGGGAGAGCATTACCGGGGTAGGGGCGTCGTTGTGGGAGATGGTTGGGAATATGTGA	MDQISSPHVLPVEREFSPRAVITGIVLGILLTPSNVYAGLKIGWSFNMSIIALLVGYGIWQGLAKRSAAGLPWTLHESNINQTVASAAASIISGGLVAPIPAYTLLTGQQLDPVPMIAWVFSVSFLGIWIAWYLRPSLLNDKALRFPEGMATLETLLHIYNHGQEAATRLKVLLGAALLSGLAKWVDTFWWTIPRWSPSAQLERLTFTADPSLLLVGFGGIIGIRVGLTLLLGALLAWGGLAPWLLENGLVQLPPGSSGPQFAVLVEWLLWPGVSLMVCSTLASLAIRLWALHGSTKASGAATWVVPKAGPALGFLLAIFLVVSLQALLFGINPWMALLTIPLAICLAAVAARVVGATGIPPIGAIGQLSQLSFGIVAPGQVPINLMSANTAGGSAGQCTDLMNDFKVGRAIGATPRKQLQAQTLGIFIGSIVGVLAYLALIPDPQTMLLTEEWPAPAVATWKAVAQTLTHGLDSLSASIRWAIFIGAIAGLLLGILDSLLPAHRARYLPSTAALGLAFVLPASVSLMMALGAVLTWLVSCRWPSLTERFAITAAAGLIAGESITGVGASLWEMVGNM				NA	NA	NA	NA	NA
D1-35_02480	771			hypothetical protein	ATGGCTTTGCAGCTTAACCGCTTACTGATGTCTGGCGTCCTGATGCTCCTGCTTGCAGGTGGGTCGGCGTTGGCCATCGCGGCTGAGCCGCCGCTGCGCATCGTCACGGAGGAGTTGCCGCCCTACAACATGACGCAGAACGGACGCGTGACCGGCATGAGCACCGAGGTCGTCGAGGCCGTGCTCAAGGAAATCGGCGTCCAGGCGTCGATCCAGCCCATGCCCTGGGCCCGCGCGTACGAGTTGGCGCTCAATGAAAGCAATGTCCTGATCTATTCGATCGTCCGCACGCCCGCACGCGAAGCGCTTTTCCAGTGGATCGGCGCCATCGCCCCGACCCAGTGGTACATCTACTCCCTGGCTGAGCGGCCAGTGAAGCTCAACTCCCTGGCCGACGCCCATGGGCACCAGATCGCGACCGTCAATCAGGATGTCGGCGAGCAATACCTGGTCTCGAAGGGATTCCGCATCGGCAAAGATCTGCAATCGAGCACCCGATACGAACACAACTACCGCAAGCTCAAGGTCGACCATGTGGAGTTGTGGATTTCCAACGAACTCAACGCGCTGTACCTGACTCGGCAGAATGGCGAAGACCCGGAAAAAGTCCTCATCCGGTCATTGCCGCTGCCCGAACTGAGCAGCGCCGACGGCTTGAACATGGCATTCAGCCGCAACACGCCGGCGCAAACCGTCGAGAAATTCCGCGCCGGCCTGGAGGCCATTCGTCGCAACGGCGTCTACGATGCCATCGCGCGCAAGTGGTTATGA	MALQLNRLLMSGVLMLLLAGGSALAIAAEPPLRIVTEELPPYNMTQNGRVTGMSTEVVEAVLKEIGVQASIQPMPWARAYELALNESNVLIYSIVRTPAREALFQWIGAIAPTQWYIYSLAERPVKLNSLADAHGHQIATVNQDVGEQYLVSKGFRIGKDLQSSTRYEHNYRKLKVDHVELWISNELNALYLTRQNGEDPEKVLIRSLPLPELSSADGLNMAFSRNTPAQTVEKFRAGLEAIRRNGVYDAIARKWL	PGPT0020800_13972	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
D1-35_02481	1344			hypothetical protein	ATGGACGGCAACTTCGCCCCGGCGCCCTTTCAACGACCACAGGCCAAGGCCCTCAGCTCCCTGGGGCGTCGACTGGTGCTCGCGACGCTGCTGTTCTGTCTGATTTTCACCGTGGCGATGGTGACATGGCGCACCTGGCTGGCCTGGGAAAGCAACCTGGCGGAGATGAATTCCGAGCTGGGGCTGATCGACCAAGTGTTCCAGGACACCCTGGCCCATGCCATCTGGGAAATGGATCGCGAGTCCCTGGACAAGCAGCTCAACAGTGTCGCCAGTGCCGCGCCGGTCGGACGCGTGGTCCTGAATGTCCTGCGGCCCGGCCGCTCACCGGAAATCATCGAACTCAACCGCTACACCAGCGGTAACGCCGGCTCGGCACCGGTGTTGCAGCGCCAGCTCATCGCGCAACCCTATCTCGGCGCCCATGAAAAAGTCGGCGAGCTGATCATCGAGGGCGATAACCAACTGCTCTGGAAGCGCCTGTGGGGCGAAGCGCGCACCATCGTCATTACGCAAATCATCCAATCGATGCTCCTGGCCGGGCTGGTCATGACCATGTTCAACCGCCTGGTGACCATCCATGTGGTGCATATTGCCCGGCATTTGGGTGAGCTCGCTCCGCAAACTCTCAAGCGTCACCTCAAATTGCAGCGCTCGGTCAACCGCCAGGACGAACTGAGCCTGCTCGAAACCCAGGTCAACGAACTGCAGGACAATCTCCACGCGCACCTGGAACGCCAGCGTTCGGACGAACTGGCGATCGCCGCCAGCCGCGATCAACTGGTCGAACTGGTCGAGGCGCGCACGGCGGAACTCAAGGCCGCCAACCAGGCCCTCGAAGCCTTGTCCCGCCACGACGCCTTGACCGGCCTGGCCAACCGTCGCCACTTCGACGAACTGAAGGAAGTCGAATTCCGCCGCGCCATGCGTCATAGGACGCCGCTGGCGGTGCTCATGTGCGACGTGGATTTTTTCAAGATCTACAACGACACCTACGGCCACATGAACGGCGACCTGTGCCTGCAACAGATAGCCGAAACCCTGCGTGACGTGTTCGGGCGCTCCGGCGAGCTGACCGCACGGGTGGGTGGCGAAGAGTTCGTCGTCGTGCTGCCCAACATCGACGCGCAGCAGGCCTGCGAGGCGGCCGAGAGGCTGCGCGCCGCCCTGGCCGAACGCAAGCTGCCTCACAGCGGCTCATCGGTCTCGCCCTTCGTCACACTGAGCATCGGCGTCGCCGAGCTGGACCCCGAGATCATGGATCATTTCGATCCACTGATGCAACGCGCCGACCAGGCGCTGTACCGGGCCAAGCACCAGGGACGCAACCGCGTCTCCCTCTGA	MDGNFAPAPFQRPQAKALSSLGRRLVLATLLFCLIFTVAMVTWRTWLAWESNLAEMNSELGLIDQVFQDTLAHAIWEMDRESLDKQLNSVASAAPVGRVVLNVLRPGRSPEIIELNRYTSGNAGSAPVLQRQLIAQPYLGAHEKVGELIIEGDNQLLWKRLWGEARTIVITQIIQSMLLAGLVMTMFNRLVTIHVVHIARHLGELAPQTLKRHLKLQRSVNRQDELSLLETQVNELQDNLHAHLERQRSDELAIAASRDQLVELVEARTAELKAANQALEALSRHDALTGLANRRHFDELKEVEFRRAMRHRTPLAVLMCDVDFFKIYNDTYGHMNGDLCLQQIAETLRDVFGRSGELTARVGGEEFVVVLPNIDAQQACEAAERLRAALAERKLPHSGSSVSPFVTLSIGVAELDPEIMDHFDPLMQRADQALYRAKHQGRNRVSL				NA	NA	NA	NA	NA
D1-35_02482	735			hypothetical protein	ATGCGCCACTCTCTGCTGCTCTGCTCCTGCGTACTCCTGGCCTTGATCAGCCTCACAAGCCAGGCCGAAATGATCGAGGTCGTGACCGAGGACTCGCTTTACGCGTATCTGCGCGATGACAAACTCGTCGGCCCCGGTATCCATATTGCGTCCGACACGCTGCAACAGGCCAACCTCAGCGATTTCCGCATGGCGCTGTATCCCTGGGCGCGGGCTTATGAGATGGCCTTGCGCGAACCCAACGTGCTGATTTTCCCACTGGATCGCACCCCGGCCCGGGAGCAGCTGTTCAAGTGGGTCGGTGAAATCCATCGTTCCACCAGCCGGCTCTACAAGCTGCGCGACGCCGACCCCATCACTGTCCGCAACCTTGAAGAGGCCAAGCAGTACAGCATCGGCGTGATACGCAATGACGCCAAGCAGATCTATCTGCAAGAACGTGGCTTCAGTCGTCTGGTCGTGTCGGCGAACAACCACGACAACTTCCAGAAACTGTTGAACCGTCAGGTCCAACTGGTGCCGATGCCGGAGAACACGGCACGCCTGATGAGCCAGGATGCCCAGATGGATTTCAATCAGCTGGAGGAAGTCTATGCCCTCGACGAGCAGCCCCACCGGGTCTACCTGGCTTTCAGCCTGAGCACACCGGACGAAACGGTCGCCCGTGCCCAGCGCGCGTTTGAAGCGCTCAAGGCATCGGGCGAAGTCGAGCGGATCATGAAGGAGAAGCGTTGA	MRHSLLLCSCVLLALISLTSQAEMIEVVTEDSLYAYLRDDKLVGPGIHIASDTLQQANLSDFRMALYPWARAYEMALREPNVLIFPLDRTPAREQLFKWVGEIHRSTSRLYKLRDADPITVRNLEEAKQYSIGVIRNDAKQIYLQERGFSRLVVSANNHDNFQKLLNRQVQLVPMPENTARLMSQDAQMDFNQLEEVYALDEQPHRVYLAFSLSTPDETVARAQRAFEALKASGEVERIMKEKR	PGPT0020800_15770	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
D1-35_02483	531			hypothetical protein	ATGAGCACACTGAACTCGGCATCGGAGTCCATTCAGACCCTGATGCTGGAACGCAACGATTGGGTACCCAACCACCCGCGCCTGCCGGTGATCATCTACCGTGACGCGATGACTGCCCAGGCAGGTGACCTGGCCGCCCAGCTGGAAGAGATGTTTCGCAGCAACGGCTGGCCGCCGCAATGGCGCTACGGGATCTACGATTTCCACCATTACCACACGGAGGGCCACGAAGTCCTGGGCGTCGCCAGCGGTCAGGCGCGCTTGATGATCGGCGGCCCCGATGGCCAAGTGATCGGCGTCCAGGCAGGCGACGTGTTGCTGCTGCCTGCTGGCACCGGGCATTGCAACCTGGGTTCCAGCGAAGATTTCCTGGTCGTCGGAGCGTATCCACCGGGCCAGCAGGCCGACATCTGCCGGGAAGCGCCGAGCGCGGCGCAACTGGCAAACATCGACGCGCTACCGTTTCCTGATCGGGACCCCGTGCAGGGATCACCGGGGGCCGTCGGCCGATATTGGACCAAGCCCCGTTGA	MSTLNSASESIQTLMLERNDWVPNHPRLPVIIYRDAMTAQAGDLAAQLEEMFRSNGWPPQWRYGIYDFHHYHTEGHEVLGVASGQARLMIGGPDGQVIGVQAGDVLLLPAGTGHCNLGSSEDFLVVGAYPPGQQADICREAPSAAQLANIDALPFPDRDPVQGSPGAVGRYWTKPR				NA	NA	NA	NA	NA
D1-35_02484	2067			hypothetical protein	ATGACGATGGCTGAGAAAAATCATGTCGACTGGCTGGTCGAACAATCGATGCTCCACGCGGCGCGGCAGCGGGCCAAGCTCTATTCGGGGCAAGGACGCTTGTGGCAGCAGCCCTATGCGCACACCCGGCCCCGTGATGCTTCAGCGCTTTCCTCTGTGTGGTTTACCGCATACCCAGCCTCCATCGTCACCCGGGAAAATGGCACGGTGCTCGAGGCATTGGGCGACGAAACCTTGTGGCACGCCTTGTCGAAAATCGGCATCCAGGGCATCCACAATGGTCCGCTGAAAAGATCCGGCGGCCTGCGCGGCACTGACTACACGCCAACCATCGATGGCAATTTCGACCGTATCAGCTTCGACATCGACCCTGAGCTGGGCACCGACGCTCAACTCCAGGCACTGACCCGCATGGCCGCTGCACACAACGCGGTGGTCATCGACGACGTCATCCCGTCCCACACCGGCAAGGGCGCCGATTTTCGCCTGGCGGAGATGGCTTACGAAGACTATCCGGGCCTCTACCACATGGTGGAAATTCGCGAGGAAGACTGGCCGCTGCTGCCCGAGGTCGGGGAGGGGCGTGATGCCCAGAACCTCACCGCGCAGCAGGTGGATGCCCTGCGGGACAAGCACTACATCGTCGGCCAGTTGCAGCGAGTGATTTTCTTCGAGCCTGGCGTCAAGGAAACCGACTGGAGCGCGACGCCGATCATCCTGGGCGTCGACGGCAAGCCACGGCGTTGGGTTTACCTGCACTATTTCAAGGAAGGGCAGCCGTCGCTGAACTGGCTGGACCCGACCTTTGCCGCGCAGCAGATGATCATTGGCGATGCGCTGCACGCCATCGATGTCATGGGGGCGAAAATCCTCCGGCTGGACGCCAACGGATTCCTCGGCGTGGAGCGCAAGCTCGATGGCACCGCCTGGTCCGAAAGCCATCCGCTGTCGATCACCGGCAACCAGTTGCTCGGCGGGGCGATTCGCAAGGCCGGCGGTTTCAGCTTCCAGGAATTGAACCTGACCCTCGACGACATTGCCGCCATGTCCCACGGCGGGGCGGACCTGTCTTACGACTTCATCACCCGACCGGCCTACCAGCACGCCCTGCTGATGGGCGACACCGAATTCCTGCGCTTGATGCTGCGCCAGATGCACAGCTTCGGCATCGACCCGGGCTCGCTGATCCACGCCTTGCAGAATCACGATGAACTGACCCTGGAGCTGGTGCACTTCTGGACGCTGCATGCCCACGACACCTACCTGTATCAAGGCCAGACGTTTCCCGGCAGCATCCTGCGCGAGCACATCCGCGAGCAGATGTATGAACGCTTGTCCGGCGAGCATGCGCCTTACAACCTGAAATTCGTCACCAACGGCGTGTCTTGCACCACGGCGAGCATCATCACCGCCGCCCTGGGCATTCGCGACCTCGACGCGATCACAGCGGCCGATATCCAGCAGATTCGCCAGGTGCATCTGCTGCTGGTGATGTTCAACGCCATGCAACCGGGCGTGTTCGCCTTGTCTGGCTGGGATCTGGTGGGAGCGTTGCCGTTGCCGGCGGAACAGGTCGAGCACCTGATGCGCGACGGCGACACGCGCTGGATTCATCGCGGTGCCTACGACCTGGTCGACCTCAACCCGGAAGCGCCGCTGTCAGCCGGGCAGATGCCACGTCCAAAGACCTTGTACGGCAGCCTGCCGAGCCAGTTGAAGGATCCGGATTCGTTCGCCTCGCAATTGCGCAGGATCCTGGCCGCGCGCCGCGCCTACGACATCGCGGCGAGCCGCCAGATCCTCATCCCGGACGTCGAGCATCCGGGGCTGCTGATCATGGTTCACGAACTGCCAGCCGGCAAAGGCACGCAGATCACCGCGCTGAACTTCGGTTCGACGCCGATCACCGAAACCCTGCACCTGCCAGGTATCGCACCGGGGCCGGTGGTGGACATCATCAATGAGCGGGTCGAAGGGGATCTCACGCCCGAGGGTGAGTTCACCATTACTCTGGATGCGTTCGAGGGGTTGGCGCTGCGGGTGGTGAGCAGTTCGCCGATGATCTAG	MTMAEKNHVDWLVEQSMLHAARQRAKLYSGQGRLWQQPYAHTRPRDASALSSVWFTAYPASIVTRENGTVLEALGDETLWHALSKIGIQGIHNGPLKRSGGLRGTDYTPTIDGNFDRISFDIDPELGTDAQLQALTRMAAAHNAVVIDDVIPSHTGKGADFRLAEMAYEDYPGLYHMVEIREEDWPLLPEVGEGRDAQNLTAQQVDALRDKHYIVGQLQRVIFFEPGVKETDWSATPIILGVDGKPRRWVYLHYFKEGQPSLNWLDPTFAAQQMIIGDALHAIDVMGAKILRLDANGFLGVERKLDGTAWSESHPLSITGNQLLGGAIRKAGGFSFQELNLTLDDIAAMSHGGADLSYDFITRPAYQHALLMGDTEFLRLMLRQMHSFGIDPGSLIHALQNHDELTLELVHFWTLHAHDTYLYQGQTFPGSILREHIREQMYERLSGEHAPYNLKFVTNGVSCTTASIITAALGIRDLDAITAADIQQIRQVHLLLVMFNAMQPGVFALSGWDLVGALPLPAEQVEHLMRDGDTRWIHRGAYDLVDLNPEAPLSAGQMPRPKTLYGSLPSQLKDPDSFASQLRRILAARRAYDIAASRQILIPDVEHPGLLIMVHELPAGKGTQITALNFGSTPITETLHLPGIAPGPVVDIINERVEGDLTPEGEFTITLDAFEGLALRVVSSSPMI				NA	NA	NA	NA	NA
D1-35_02485	1263			hypothetical protein	ATGAGTATCCGCCAAGCCTTCAGAGGAATTTGCGTGGGGGCGGTCATTGTCGTGGCAGCCAACGCGATGGCGGCCGGCACGCTTCCCGTCGGTCCCGCTGCCGGAGACATGCAGCTGTCGCCGTTTTATCGATGGTCTGACGCGATGCCTGCGCAGCCTGGCGTGCTGCTGCGCAGCGAGGCCATGGCGGTTCAGGCTCAAATGCCTGCCGCCGCGCGGGCCTTGCGTCTGCTCTACAGCTCCATCGATCAGCGCTGGCAGTCCGGTCTCGTTCCGGTCAGCGGAGCTTTGTATCTGCCGGCAGGAAATCCTCCGGCCGGAGGCTGGCCGCTGCTGGCCTGGGCTCACGGCACGCTGGGCATCGCCGATGCCTGTGCGCCTTCCTGGGCGGGATTGCGTGAGCGTGACGCGGCGTACATCAATCGCTGGCTCGCGCGCGGCTTCGCCGTGGTGGCCAGCGATTATCAAGGCTTGGGAGGACCGGGACCGCATCCCTATACGTTCTGGCAGGCCGAGGGACGCTCGGTCCTGGACTCGATTCGCGCTGCCCAAGCCTTCAAGCCAGGCCTGATCGCCAATCGCGTTGTCCTGGCCGGACAATCCCAGGGCGGCGGGGCGGCACTGGGCGCGGCGATCCTTGCTGGCACCTACGCACCGGAACTGCCCATTCTGGGCGCGGTGCTCACGGCGCCGAACAGCACATTCCCCGAAGGCCCCATCAAGCTGCCGCCGCGCCAGTCCAATACGGTGTTCCTGGCAATGGCGTCAGGCGCGTTGCGTGAGGATGGGCCACCGATCGAAGGCATCCTGACGGCCAAGGGGCTCGAACTGTTGAGCGTCGCCCGGCAAGGCTGTACCGGTGATATTGGGCAAAAGTCCAAGGCGTTGCAGATTGGTTCGTTTGCCGAGCTGTTCACGATTACCCCAGAGGCATTGAACGCTGCGCGCATGCCGACGACTGACATGCCCCAGGCGTCGATTGCTTTTCCGGTGTTCATCGCCACGGGCAAGGCGGATCAGACCATTACGCCAGAGCGGCAATACGCGGTCGCGGCGGCGTTGTGTGCCGCTGGCAATCCGGTGACGTGGCGGACGTATGAAGGCCTGGGGCATGACGGGGTACTACATGGTTCCCTGGACGACGTGTTTGCCTTTGTCGAGGCCCGGTTCGATGGACAGGAGCATGGTTCCAATTGCTCCATCCTGCAGAACCCCGGGGCGCCAGGCGAAAGAGACGTGGCAGCACCGTTCAACGACGACTGA	MSIRQAFRGICVGAVIVVAANAMAAGTLPVGPAAGDMQLSPFYRWSDAMPAQPGVLLRSEAMAVQAQMPAAARALRLLYSSIDQRWQSGLVPVSGALYLPAGNPPAGGWPLLAWAHGTLGIADACAPSWAGLRERDAAYINRWLARGFAVVASDYQGLGGPGPHPYTFWQAEGRSVLDSIRAAQAFKPGLIANRVVLAGQSQGGGAALGAAILAGTYAPELPILGAVLTAPNSTFPEGPIKLPPRQSNTVFLAMASGALREDGPPIEGILTAKGLELLSVARQGCTGDIGQKSKALQIGSFAELFTITPEALNAARMPTTDMPQASIAFPVFIATGKADQTITPERQYAVAAALCAAGNPVTWRTYEGLGHDGVLHGSLDDVFAFVEARFDGQEHGSNCSILQNPGAPGERDVAAPFNDD				NA	NA	NA	NA	NA
D1-35_02486	966	aes_1	COG0657	Acetyl esterase	ATGAGTCGCGACGAAAATCCGCCGGTGCATCCCGACCTGACGGCCGTGGTCGGCGCGCTCCGGGAGCAGGGATTGCTGCCCGTCGTTCATGGGGACGTGCACAGCGTCCGGGCGCATCTGGAACGGATCAATGCCTGGGCGGCGCAACGCAGCGTGCCGCTGTCCTACGAGCGGACCCTGGGCTTTGCCGTTGATGGGCGAACGGTGCCCTGCAAACTCTATTGGCCGGAGGGCGATGAGACGCCTTGCCTGATGTTCTACTGCCATGGCGGCGGATTCCGCCACGGTTCGCTCGCCGGCTGGGACGCACCTTTGCGCCAGTTGGTGCGCGACAGTGGCCTGGCGGTGCTCTCCATCGACTATGCGCTGGCGCCGGAACATCGCTTTCCGGTGGCGTTCAACGAGGTGGCGGCGATCGTCAGCCGGGTCATCAAGCTCGGCGCTATCACCGACTGCCCGGTACGCGGCTATGCCCTGGGCGGCGATTCGGCAGGCGCCAATCTCGCCTTGGGCGTCGCCATTGCACTACGCGACGCGGGAATCGATGCGTTGCGGCAGCTATTGCTGTTCTACGGCAGCTACTCGCGGGACCTGACCTCCGATTCCTGGCAGCGACTTGGCGGCTACGGCGGCCAGAATCTGTCGGTCGAGACCATGCACGCTTACTGGGCCAGCTACCTGGCCAATGACGAGGCCGACTGGAGGGTGCAGCCGATCATTGGTGAATTGGCGGGCCTGCCGCCGGTGCGATTGGTGGTCGGTGAACTGGATCCGCTGGTGGACGAAAACCGTGAGCTGGCGAGTCGATTGCAAAGCGCGGGCGTGACAATAGATCTGCAAGTACTCGCGAACATGCCTCACGGGTTCATTCGCTTCAATGAGGTGGCTCCTGTCGCACGCAACGTCATCGCTGCGCAGGGCAACGCCTTGCGCAAGGCATTTTCCGGACGGGGAAACTTTCCATGA	MSRDENPPVHPDLTAVVGALREQGLLPVVHGDVHSVRAHLERINAWAAQRSVPLSYERTLGFAVDGRTVPCKLYWPEGDETPCLMFYCHGGGFRHGSLAGWDAPLRQLVRDSGLAVLSIDYALAPEHRFPVAFNEVAAIVSRVIKLGAITDCPVRGYALGGDSAGANLALGVAIALRDAGIDALRQLLLFYGSYSRDLTSDSWQRLGGYGGQNLSVETMHAYWASYLANDEADWRVQPIIGELAGLPPVRLVVGELDPLVDENRELASRLQSAGVTIDLQVLANMPHGFIRFNEVAPVARNVIAAQGNALRKAFSGRGNFP				NA	NA	NA	NA	NA
D1-35_02487	1029	ghrB_2		Glyoxylate/hydroxypyruvate reductase B	ATGTTTGACCATCGCCATAAAATAGTGGTTACACAGCGGTTTTTCGACGCCATGGCCAGCGACTTTCTGGAGAGCCATGGCTGTGAGGTGGTCGTCGCGGAGCTGGCGCCCGGCCAAGCCGATGGTGACCTGAATGAACGGCAGCTGATCGACCTGCTGGCAGACGCCGACGGTTGGATCGTCGGGCACGCGAATGTCACGTCCAGCCTGCTGGGTGCACTGCCGCGCCTGCAAGTCATCGCCCGTCGCGGCGTCGGTTATGAGCGGGTCGATACGGCAGCGGTGGCAGCGGCAGGGAAGGTGGCGACCATTGCTACTGGCGGCAACGATGCCAGCGTCGCCGACCACGCCGTTGCGCTGATGCTCGCCGTTTGCCGTCAACTCAAGCGCTGCCAAATGGGCTTGTCGGCCAATGACTGGTCGATCCCCCTGGGCGGTGATCTGTACCGCAAGACGGTTGGCATCGTCGGGTTGGGCCGGATTGGCCGGGGTGTCCTGCAGCGCTTGTCCGGGTTTGAAGTCAGGCCGCTGATCTATACGCCTCATCCAGGCGGCGCCGAGGCCGACGGTAATTTTGTTGACCTGGATACGCTGCTCAGGCAAAGCGACTTCATTACCCTTCACGCGCCGCTCAATGCGCAAACCCAAGGACTGATCGATGAGCGCGCGCTTAACCTGATGAAGCGTTCCGCGGTGCTTATCAACACCGCGCGGGGCGGGTTGGTGCGCGATGCCGATCTGCTGCGGGCCCTGCGCGAAAAGCGAATCGCAGGGGCAGGGCTCGACGTCTTCGAAAGCGAGTCGGACCCCTCGCTCTTGCCGGTGACCGAACAACTGATTCAGCTACCGAACGTGATCGTGACGCCCCATGTCGGCGCGTCCACGGTGGAAGGGCTCAATCGCACCAATCTGATCGCCGCCCAATGCGCGGTGGCCGTCCTGGAAGGACGCAGCCCGCCCAGCCATTGCGTCATCGCGGACGGACGTCGAACTGTCGGCTGCGAGAGCCGCGTGGATAACCGGCCATGA	MFDHRHKIVVTQRFFDAMASDFLESHGCEVVVAELAPGQADGDLNERQLIDLLADADGWIVGHANVTSSLLGALPRLQVIARRGVGYERVDTAAVAAAGKVATIATGGNDASVADHAVALMLAVCRQLKRCQMGLSANDWSIPLGGDLYRKTVGIVGLGRIGRGVLQRLSGFEVRPLIYTPHPGGAEADGNFVDLDTLLRQSDFITLHAPLNAQTQGLIDERALNLMKRSAVLINTARGGLVRDADLLRALREKRIAGAGLDVFESESDPSLLPVTEQLIQLPNVIVTPHVGASTVEGLNRTNLIAAQCAVAVLEGRSPPSHCVIADGRRTVGCESRVDNRP	PGPT0009155_5226	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
D1-35_02488	1398			hypothetical protein	ATGAAATCGATTAACGCCGTCGCTATGACGTTGCTGTCGACAATGTTTGTGTCTGAAGTGGCTCTTTCAGCAACGATCAGTTATCCGGACCGGTTCCAGCATGAAGGAAAGTTGAATGCTTATCTGCGCTCGGTTTATATCAATACTCGAATATCTAACGATTTGATCGAAGACCGTTTTGGCGGTTTTCCGGACGGCAACAAACTGGGCGGTACCGGAATCGGCGCAATTCTGGATTACAACTCAAGTTATTGGGCCGGCGTCGTAGGGTTTGACGCCTCGCTGTATGGCGTGGCAATGATCGATTCCAAAGATAACGGCCGGGACTTGTTCGATGACAGCGATGGCACGAATGGCGGTTTCGCAAAAGTCGGGCAGAGTTATTTCAAATTGCGTTATGAGGGGAATGGCTGGAACGTCGACTCCCAGATAGGGCGGGGCCGGTTCGATGCGGGAACGCTGGTCACGCTCGACACGCGGATTGTCCCTGGGTCCTACCAGGGAGGTCGGGCTCATCTGAATTTCACCGAGATGGGCATTGGTCCGCTTCCCGGCACGCTGGGGTTCGAAACGGCCTATATCAACCGTACGTCGCCTCGGGACAGAGAAGAGTTCGAGCATTTGTTGAGTCAGTCGGGCGAGGAAATAAAAGACCTGTACACCTACGGCGTCAAATACGACCTGAAGGCCATCGAACTTGGCTACGACCATGGCGTATCGCGGGACTTCAATGAAAACACTCGATACGGACTCACGTTGAAAGCGCCTCTCGGCGATAAAGCCGGGATCGTACTGGACACTCAATATTATGAGTTCGAAAAGGCCGGACGTATCTGGGAGCGTGATTGGCAGGCCGGCCAGGCCGCTTATGACGATGATGCGAGCTGGTTGAATATCAACGTTGGTTTGTTGCTCGACAAACTTCGCCTGGGTGTTTCGTTTTCCGAGACCAAAGCCGAGTTGAGCAATGGGCAACTCGGTTATGCCTACTTTGATCATGCGGACAATGTCGACGGCAGGATGGATGCCTGGACACGCTCCGGCAACGACTTCAATAACGATGGCGAGCGAACCTGGCAAATCGGCGCCGAATATGACTTGAGCGGACATTCTTTATTGGGGGCTTCGCTGGACGGTTTCAAAGTCATGACTATTTATAAGCAAGGTCAGTTTGACGCCACCGATCCATTCAGCGGCCGCCGCACCGATGTGACCGAGCGACAGAATGAATACCGTCTCTATTATCGCTTCGATGAAAAGGAATACGCCGGGCTCTCGGTCGGCTTGATTTATATCGATTACCGGATTGACCAGGACTTTGTCGCATTGATATCCGCACAACCCGACAACGTGGTCAGCGGCTCGGAGGCCAGGGTGTATCTGGATTACGCGTTTTGA	MKSINAVAMTLLSTMFVSEVALSATISYPDRFQHEGKLNAYLRSVYINTRISNDLIEDRFGGFPDGNKLGGTGIGAILDYNSSYWAGVVGFDASLYGVAMIDSKDNGRDLFDDSDGTNGGFAKVGQSYFKLRYEGNGWNVDSQIGRGRFDAGTLVTLDTRIVPGSYQGGRAHLNFTEMGIGPLPGTLGFETAYINRTSPRDREEFEHLLSQSGEEIKDLYTYGVKYDLKAIELGYDHGVSRDFNENTRYGLTLKAPLGDKAGIVLDTQYYEFEKAGRIWERDWQAGQAAYDDDASWLNINVGLLLDKLRLGVSFSETKAELSNGQLGYAYFDHADNVDGRMDAWTRSGNDFNNDGERTWQIGAEYDLSGHSLLGASLDGFKVMTIYKQGQFDATDPFSGRRTDVTERQNEYRLYYRFDEKEYAGLSVGLIYIDYRIDQDFVALISAQPDNVVSGSEARVYLDYAF				NA	NA	NA	NA	NA
D1-35_02489	1269	citN_1	COG2851	Citrate transporter	ATGGTCGTCACGTTTATGGCATTGATCATAAGCAAGCGACTTTCCGCTGTGACGGCACTCATTCTTGTCCCGGTCGCGTTTGGCCTGGCCAGTGGAGCAGGACCGGAACTGGGCGCGATGGTGATGAACGGCGTCAAGCAAGTAGCGCCCACCGCTCTGATGTTGATGTTTGCAATCCTCTATTTCGCAATCATGTTTGACGCCGGGCTCTTTGAACCCGCTGTACGAAAGATTCTGCGTTACGTGGGCAACGATCCTCTGCGCGTGGTGCTGGGCACTGCACTGCTGGCCACGGTCATTTCTTTTGATGGTGATGGCGCAACGACGGTCTTGATTGTAACGACTGCATTCCTGCCGCTTTATTTGCGCCTGGGCATGAACCCGCTGATTCTGGCGTTGATGCTGTTGTTGACCAATACCGTGGTCAACCTGATTCCCTGGGGAGGGCCGGTGGCCCGCGCCGCCAGTGCGCTTCACCTGGATGTGGCCGAGTTGTTCCTGGGGTTGGTGCCGGCCATGTTCGCGGGCCTTGCCTATGCGTTTGTCGTGGCGTTCTGGATCGGCCGCAGAGAGCGCCGTCGCTTGGGCTGGACGGCCGCTGCCAAGGACGCCGCGCCGGAAAATGTCGTCTTGCCCACCACGCATTCCGAGACGCATCGGCCGAAGCTTTTCTGGGTCAACCTCGCGCTCACCGCTGGGCTTATGTATGCGATGGCGACAGGGCTGGCACCTTTGCCGATGTTGATGATGGTGGGGCTTTCCCTGGCGCTGCTGATCAACTATCCACGCTTGGCGGAACAGAAGGCCAGAGTCGCGGCGCACTCTGAAAGTGTCCTGATGGTCATCGCCCTGATATTTGCATCAGGTGCGTTTACCGGGATCTTGTCAGGTACCGGCATGGTTGATGGGATGTCCGAAAAGATTGTGCAATTGATTCCCGACGACCATGGCCAATATTTCAGCATCATTACCGCGCTCGTCGCCTTGCCACTCAACTTCCTGTTATCCAATGACGCGTTTTTCTTTGGCATCTTGCCGGTACTGGGCGCGGCGGGCGTCGAATACGGTATTGACCCGATGCACATAGCGCGGGCCTCGGTGCTGGGCCAACCGGTTCACGCATTAAGCCCTTTGGTGGCGGCGGTTTATCTGATCAGCGGAATCATCAAGCGTGACATGGGCGACATGCAACGCTATTGCCTGCTCTGGGCGATCGGCAGCAGCCTTGTCTTGATTGTAACCGCGGTCATTACCCGGGCGATTATCTGA	MVVTFMALIISKRLSAVTALILVPVAFGLASGAGPELGAMVMNGVKQVAPTALMLMFAILYFAIMFDAGLFEPAVRKILRYVGNDPLRVVLGTALLATVISFDGDGATTVLIVTTAFLPLYLRLGMNPLILALMLLLTNTVVNLIPWGGPVARAASALHLDVAELFLGLVPAMFAGLAYAFVVAFWIGRRERRRLGWTAAAKDAAPENVVLPTTHSETHRPKLFWVNLALTAGLMYAMATGLAPLPMLMMVGLSLALLINYPRLAEQKARVAAHSESVLMVIALIFASGAFTGILSGTGMVDGMSEKIVQLIPDDHGQYFSIITALVALPLNFLLSNDAFFFGILPVLGAAGVEYGIDPMHIARASVLGQPVHALSPLVAAVYLISGIIKRDMGDMQRYCLLWAIGSSLVLIVTAVITRAII	PGPT0001500_359	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_CITRATE_TRANSPORT,PGPT0001500-TC_CITMHS|CitMHS_family|citN-K03300	NA	NA
D1-35_02490	1206			hypothetical protein	ATGCCAGAACAAGAAGGCCTTTACCTCTCGGCAGAAGAGGCGGCAGCCATACTCCGGGTCAGCCTGCCGACGCTGTACGCCTATGTCAGCCGTAAAAACATCCGCTCCATCAAGATTGCCGGCTCGCCCAAGCGGCGCTACTGGGCAGAGGACATTCAACGACTGGTGAAAGTACCGGCGCAAGACAAGCCCGTTGCCAAGCGTACGACGCCGGCGGACAGCGCGATTACGCTGATAACGGACGATGGCCTGTTTTATCGCGGCCACAATGTCGTCGAGCTGGCTGATCGTTCAACCGTCGAAGAAGTCGCCGAGTTGATCTGGCAGGTGCCTTCGGCGTTCGGCACATCGCTGCCTCGGACACCGAAGGACGCTGCCAGGCTGTTGAAGATCTATGAACACACGTCCGCCCAGGAAAAAGCCATCGCGCTGTTTCCTCTGGTGCAGCGCGAAAATCCCAAGGCCTTCGACCTTTCCCCTGACAGTTACGCCCGCACCGGCGCCGATGTCGTGCGCTGGTTTGCCGCGTTGGTCGTGGGGGCGACCGAACCGAGCAACCAGCCCTTGCATGAGTTCATCACCCAGGCCTGCGGCGCCCCGCCAGCGCATGCCGATCTGATCCGGCGACTGCTGATTCTCAGCATTGATCATGAACTGGACCACACCACTCACAGCGTCCGCGTTGCCGCCACCACCGGCGCAACCCCCTATTATGCGGTCATCGCCGCGCTCGCCGCCGCGCGAGGCCACAAGATCGCCTACGGACGAAATGAAGCCGCCAGCCGGATGATCGAGGAAATCTGTACGGCCGCGGACCCTACTCGACCGATCCTGCAGCGCTACAGCCAGGACGGACACATCGTCGGGTTCGGCCCCAATGTGCATTCGATCAACGACCCGCGAGCCAGCAACCTCATGGCCGCGTTGACCGCGGTATTTGATGGCGACAGTGAATTCATCAGGTTGCAGAAAGCCTTTTCGGTGGCCTCGGAACTCGTTGCATACCCGCCTGAATTCATTCTCCTGGTGAGTTTCATCGGCAGGAAAATGGGACTGCGCGGACAGGAAATTTCATTGGCCGGCGTCGGTCGCTCGATCGGCTGGATCGCCCATGCCAGCGAGCAATACAACCAGCACCACGAGGGCCGGCCTCGCGCTCGTTATACCGGGACGTTGCCAACGGCGACCGACATGGGGCGCCGTTGA	MPEQEGLYLSAEEAAAILRVSLPTLYAYVSRKNIRSIKIAGSPKRRYWAEDIQRLVKVPAQDKPVAKRTTPADSAITLITDDGLFYRGHNVVELADRSTVEEVAELIWQVPSAFGTSLPRTPKDAARLLKIYEHTSAQEKAIALFPLVQRENPKAFDLSPDSYARTGADVVRWFAALVVGATEPSNQPLHEFITQACGAPPAHADLIRRLLILSIDHELDHTTHSVRVAATTGATPYYAVIAALAAARGHKIAYGRNEAASRMIEEICTAADPTRPILQRYSQDGHIVGFGPNVHSINDPRASNLMAALTAVFDGDSEFIRLQKAFSVASELVAYPPEFILLVSFIGRKMGLRGQEISLAGVGRSIGWIAHASEQYNQHHEGRPRARYTGTLPTATDMGRR	PGPT0001455_4724	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
D1-35_02491	630			hypothetical protein	GTGCATGGATGTTCTGGATGGCGAGACCTACGGTGGTGGGGCTTGCTCGCGAAGAGGCCAGTCCATCCAACATCCCCATCGCCTGAAACGCCGCCATCGCGAGCAAGCTCGCTCCCACACAGGTCATGTGCCGTGCATGGATGTTCTGGATGGCGCAGACCTACGGTGGGAGCGAGCCTGCTCGCGAAGAGGCCAGTCCATCCAACATCCCCATCGCCTGAAACGCCGCCATCGCGAGCAAGCTCGCTCCCACACAGGTCATGTGTCGTGCATGGATGTTCTGGATGGCGCAGACCTACGGTGGGAGCGAGCCTGCTCGCGAAGAGGCCAGTCCATCCAACATCCCCATCGCCTGAAACGCGCCATCGCGAGCAGGTCATGTGCCGTGCTTGGATGCTCTGGATGGCGCAGGTCTACTGTGGGAGCGAGCCTGCTCGCGAAGAGGCCTCACAGGCAGGGAATATCTTTCGTCCGCAGGCGCGCCCGGAGCGGACTTCAACGGCGCCCCATGTCGGTCGCCGTTGGCAACGTCCCGGTATAACGAGCGCGAGGCCGGCCCTCGTGGTGCTGGTTGTATTGCTCGCTGGCATGGGCGATCCAGCCGATCGAGCGACCGACGCCGGCCAATGA	MHGCSGWRDLRWWGLLAKRPVHPTSPSPETPPSRASSLPHRSCAVHGCSGWRRPTVGASLLAKRPVHPTSPSPETPPSRASSLPHRSCVVHGCSGWRRPTVGASLLAKRPVHPTSPSPETRHREQVMCRAWMLWMAQVYCGSEPAREEASQAGNIFRPQARPERTSTAPHVGRRWQRPGITSARPALVVLVVLLAGMGDPADRATDAGQ				NA	NA	NA	NA	NA
D1-35_02492	1410			2-methylcitrate dehydratase	ATGACGGATTCAACCGTTGCGATGCGGCTGGCACGCTATGCCCACGCATTCAGGAAACAGCGCCTGCCCGACGAAATCATCCACCTGGTGCGCCAGCGCTTCATCGACAGCCTGGCCTGCGTGCTGGGCGCCTACGGGGCGGCCCCGGTAAAGGCTGCGCTGGGTTATGCGGCTGCCAACCCCGCGACAACCGCCGGCATATTCGGCTCGAACCTGCAAACGACAGCGGAAATTGCTGCCTTCGCCAACGGCCTGATGGTTCGTTTCCTCGACTACAACGATGGCTACATGGGCTTGGAGCCGGGCCATCCGAGTGACAACATCCCGGCCTGCCTCGCCGTGGCGCAAGCCGAGAGCGCTACCGGCGCCGAACTGATTTCGGCCATCGTCCTGGCCTATGAGATCCAGATGCGCTTGCAGGATGCGGCAAGCTTGAACAGGCGTGGCTGGGACCACGTCAATTACATCAACGTCGCGATGGCAGCGGCGGCTTCCAACCTGATGAAGCTGGACGTTGCGCAGACCGAGCAAGCCATCAACATCGCCTTGAGCGGGCACTTGGCAATGCGCCAGGTGCGCAGTGGAACCTTGTCCGACTGGAAGGGTTGTTCGGCCGCCAATGCAGCGCGCAACGCGGTTTTTGCGGCCCAGCTGGCGCGCCATGGCATGACCGGGCCGTCGCCGGTCTTCGAGGGCGAGATGGGGTTCTTCAAGCTGGTTTCAGGGCCGTTCGAGCTGGACACTGATCGTTTTGCTACGCCCGACAATGGCGACTATGCGATACGACGCTCGCTGACCAAGACATTCCCCACCAACGGCGAGCTGCACACCGCCGTCTGGGCCGCGCTGGATATCCGCAAGCGCATCGACAACGTGAATGACATCGCTGCCATTACCATCGAAACGTCCGAATTCAACCGTCGTGTCCTCGCGGACACCGCGGAGAAATGGTTGCCGAAAACCCGCGAGACGGCGGACCACAGCCTGCCCTATAACGTGGCTCGGGCATTGCTCGACGGGGATATCACCATCGCTTCGTATTCCGCGGAAAAAATCGCCGACCCTGCGGCGATTGCCTTGATGGACAAGGTCAGCGTCACGGAGGATCCGGCGTTGACGGCGCTGTTTCCAAGGCACCTTGCCAATCGTGTCAGTGTGACGCTGGTCTGCGGCGAGCAGGTGGTGAGCGAAATGATCACCGGCCCCGGGTCAGTCGAAACGCCGATGACCGATGGGGATTTCGAGCGGAAATTCCGGCGCATGGCGATGCCGCATATCGACGCGTCGGCACAAGACCTGGTGCTTGGGTTCGTCGCCGGGCTTGAGCGGCAGACGCAGTTCAATTCGTTGTTTGCGGCGATGGCTGTCGCCCCCATTGCGGACCAGAAACCGGCTGCACTGCGCCTTTGA	MTDSTVAMRLARYAHAFRKQRLPDEIIHLVRQRFIDSLACVLGAYGAAPVKAALGYAAANPATTAGIFGSNLQTTAEIAAFANGLMVRFLDYNDGYMGLEPGHPSDNIPACLAVAQAESATGAELISAIVLAYEIQMRLQDAASLNRRGWDHVNYINVAMAAAASNLMKLDVAQTEQAINIALSGHLAMRQVRSGTLSDWKGCSAANAARNAVFAAQLARHGMTGPSPVFEGEMGFFKLVSGPFELDTDRFATPDNGDYAIRRSLTKTFPTNGELHTAVWAALDIRKRIDNVNDIAAITIETSEFNRRVLADTAEKWLPKTRETADHSLPYNVARALLDGDITIASYSAEKIADPAAIALMDKVSVTEDPALTALFPRHLANRVSVTLVCGEQVVSEMITGPGSVETPMTDGDFERKFRRMAMPHIDASAQDLVLGFVAGLERQTQFNSLFAAMAVAPIADQKPAALRL				NA	NA	NA	NA	NA
D1-35_02493	309			hypothetical protein	ATGACCAAGTTGCGTGATGTATGTCGGCATGTCCGGTCCAAGCAAGCGGGGCCGTTCTGGATTACCTTCGATATCTTTTTCAACGGGCGGGAGAATTTCGAGCGTTATTCCGATTGCGCGGCACTTTCCCCGGCGCAATTCGCGAAGCTCTACGGCACTGATCCCGAGCGGGTCAAGCACATCCCGGTGGCGAACCTGGAAATGGTCAAGATTTCCTTTCCCCGCCCAACATCCCAGGGCGGAATGGTCGAGCGCGACATGCATGCCGGCCAGCAATACGTCCGGCTGCTTGATGTGACCATCGACTGA	MTKLRDVCRHVRSKQAGPFWITFDIFFNGRENFERYSDCAALSPAQFAKLYGTDPERVKHIPVANLEMVKISFPRPTSQGGMVERDMHAGQQYVRLLDVTID				NA	NA	NA	NA	NA
D1-35_02494	1416			hypothetical protein	ATGCGAACGGTATTTCAAGATTGTATAAAAGTCATTGTTCCCTGCGGTTCTTTGGGCGCGGGCGTTCGGGAACAGGAAATAGCCTATGGATTGGCCGCCGGTGCACAAGTTATCGCTACCGATGCCGGTTCAACCGACAGTGGCGCGGCTTATCTTGCACTGGGTAAATCGAAGAACAACCGAGGCGCGGTCAAGCGTGACTTGATGATATTAATGAAAGCCCAGGCGCAATCCGGAGTGCCGATCATTGTCGGTACCGCCGGTCAGGCCGGAGGCGATCTTAATTTGAACTGGACGCGTGATATCGCCTTGGAAATAGCCGAAGAGTTGGGCGTGGCGCCAAAGATTGCGCTCATTTATTGCGAGCAGGACAAGGACACGATAAAGAACTTGAACGCCGAGGGGCGTATAAAACCCTTGTCGCCACATACTGCGTTGGACGACGCAACGGTGGACGCTTGCGAACATATTGTCGCCGCGCTGGGGGTGGAGCCCTTTCTCGCTGCGCTGGAGGCCGGTGCCGATATCATATTGGCCGGCCGCTCCACCGATACCGCGGTCATTGCCTGTTATCCAATCTGGAAAGGCGCGCCTTGGGGGCCTTCGTGGCACGCTGGCAAGACCGGCGAATGCGGCGTGCAGTGTGCCGTCAATCCCACGCTAGGCTCGGGAATCCTGCTGAGTATCGATGCGAACGGCTTCGAAGTCGAGCCGTTGAGCCAGGACAACCGGTGCACGCCCCATAGCGTTTCGGCCCACATGCTCTACGAAAACAGCGACCCGTTCCGGTTGGTCGAGCCCGGTGGCATCTTGAATGTAGCCGAGGCACGTTACACCGATCTCAATGGCCGTGCTGTCCGGGTCGAAGGTTCGCGCTGGGAGGAAATGCCGTACACCATGAAGTTGGAAGGCGCCGCGGCCGGTTTATATCAAACGATCATGCTGGTGGGCATTCAAGACCCCGATGTACTCAAGGATATCGACGGTTTCCATGATCGGTTACTTGAAGCGCTTTATACAAGAACCCGCCAATCCATCCCCGCCGAGGAACTGGGCGAGTTTCATATTTCCCTGCGCATGTATGGGTGGAACGGCGTCACCGGTGTAACGCCGCCTGCGGGAACACTACCGCCGCCGGAACTAGGTATGTTGTTTGTGGCAACTGCCGCAACCCAGGAAATGGCCAATACCATTGCCCACGCGTGTAATCCCTATTTCTTCCATTACCCGAGTGTCATGGGCAAGGAACTGCCGTCGTATGGATTTGCCTTTACCCCGGCTGATATACCGCGTGGGCAGATTTTCGAGTTTAAGTTGAATCACGTGGTGGAACTTGACGATCCCATGGAGTTGGTTCGTCTGGAGTGGATTGATTTATCGGCTACCTCGGTGGCCAGGAAGGAGCTTGCACAATGA	MRTVFQDCIKVIVPCGSLGAGVREQEIAYGLAAGAQVIATDAGSTDSGAAYLALGKSKNNRGAVKRDLMILMKAQAQSGVPIIVGTAGQAGGDLNLNWTRDIALEIAEELGVAPKIALIYCEQDKDTIKNLNAEGRIKPLSPHTALDDATVDACEHIVAALGVEPFLAALEAGADIILAGRSTDTAVIACYPIWKGAPWGPSWHAGKTGECGVQCAVNPTLGSGILLSIDANGFEVEPLSQDNRCTPHSVSAHMLYENSDPFRLVEPGGILNVAEARYTDLNGRAVRVEGSRWEEMPYTMKLEGAAAGLYQTIMLVGIQDPDVLKDIDGFHDRLLEALYTRTRQSIPAEELGEFHISLRMYGWNGVTGVTPPAGTLPPPELGMLFVATAATQEMANTIAHACNPYFFHYPSVMGKELPSYGFAFTPADIPRGQIFEFKLNHVVELDDPMELVRLEWIDLSATSVARKELAQ				NA	NA	NA	NA	NA
D1-35_02495	933	rhaR_1		HTH-type transcriptional activator RhaR	ATGCGCCAGACCGGACCGGATGAACCGCCGCAGAACGCTCCCCAGCGCATCAGCGCCGAGTCGATGGCGCGTTTCATGCCGGGCACGCCGCAAGTCGTGCCGACGCGTGCGCAGGTCCAGGAAATGGTGGTGCAGCTGTTCAGCCACCCTACGGTAGTCGAGCCGATCCTGGTGCCCGCGGTGGTCGAGCCTCTGCTCGTCCTGGTGCTGACCGGGGGCGCCCGGATCGAGGAACGTTCGCTGGGCGGCGAATGGGAAGCCGTCGATGTTCAGGCCGGTGATTTCTACCTCACCAGCACGAACGAGCCTTACGAGATGCGCTGGCAAACGCAAGGTTGCGACACCTTTGAAGTCATGCACCTGTATCTCGGTTTGCCGTTGATCGAGCGCGCCGCGCGCGACGTGCTCGGGGAACGGGCCGGTCCTGTCACCTTTCGCGATATCTCCGGAGCCCGGGATCTGCGGGTGAGCTTCATGCTGGATCAGTTGCGCAACGAGCTGGTCGACGAACGCCAGCCCAGCCCACTGTTTGCACAGAGCCTGGCCCAGGCACTGGCGGTGCACCTGGTGCGTACCTACCTCGCGCCCCACAGCGGAGCCTCGCGCAGCAACGCGCTGCAGGCGTACAAATTGCGTCGGGTCCTCGAGACGATGAACCAGCGCCTCGCCGATGATTTCAGCCTTGCCCACCTGGCCCAGGTCGCGGAGCTGAGCGAGTATCACTTCAGCCGAATGTTCAAGCGCGCCACGGGCCTGTCGCCTTCACAGTATTTCATTCGCCTGCGCATGAGCCGGGCCCGGCAGCTGCTGCTTGAAACGGACCGCAGCGTCATCGACATCGGATTGGAGGTGGGTTACTCAAGCCCGAGCCATTTCTCCCAGGTCTTTCGCCGGGAGACAGGCGTGACGCCCAGCGATTATCGCCAGGCGTGA	MRQTGPDEPPQNAPQRISAESMARFMPGTPQVVPTRAQVQEMVVQLFSHPTVVEPILVPAVVEPLLVLVLTGGARIEERSLGGEWEAVDVQAGDFYLTSTNEPYEMRWQTQGCDTFEVMHLYLGLPLIERAARDVLGERAGPVTFRDISGARDLRVSFMLDQLRNELVDERQPSPLFAQSLAQALAVHLVRTYLAPHSGASRSNALQAYKLRRVLETMNQRLADDFSLAHLAQVAELSEYHFSRMFKRATGLSPSQYFIRLRMSRARQLLLETDRSVIDIGLEVGYSSPSHFSQVFRRETGVTPSDYRQA				NA	NA	NA	NA	NA
D1-35_02496	969	dmlR_11		HTH-type transcriptional regulator DmlR	ATGAGCGCTTTTCCCATTACGCTGAAAAGCTCCTGTCCAGGTAAAGAATCGCGCAGCGTGAAGAAGATAGTTCGAGTCGATGATCTACAGGTGTTCGTGACGACCACTGACGCCGGGAGTTTTTCCGCGGCGGCGCGCTTGCTGGATATTTCTCCGGCGCTGGCCAGCGTCGCGGTACAGCGACTTGAGGCAAGCCTGGGGGTGAGGCTGTTCGTGCGCTCTACGCGGCGGCTGCGTTTGTCGGATGATGGCGAGCGCTACCTGGCCCATGCCCAGCGGGCATTGGAGGTGCTGGAGGATGGCGAGCTCGCCCTGGCCGAGGGGCGTGACGAAGTGGCCGGGACGTTGCGCTTGTCGGTGCCCTCGGACATCGGGCGAAACCTGCTGCTGCCGTGGCTGGACGAGTTCCAGCAGATGCATCCCAAGGTACTGTTGCAGCTGCGGGTCAGCGACCAGGTCGCCGACCTGTTCGGGGAGCATCTCGATGCGAGCATTCGTTATGGTCAGTTGGCCGATTCGAGCCTCGTCTCCTTGATGCTGGCCCCATCCAACCGAAGGACCGTGTGTGCCTCACCCGACTACATCGCGCGGCACGGCCTGCCAAAGACGCCGGGTGAGCTGAGCGGGCACAATTGCCTGCGTTACGTGATGGGTGAGCAAACCTACGAGCGTTGGATTTTCCAGACAGCGAATGGGCTGGAAACGGTTCAGGTCGCTGGCGATCGCATCAGCGATGACGCTGATATTGCCAGGCGTTGGGCCGTGGCGGGCCAGGGGATCGTCTACAAATCGAAGCTCGATGTAATGGACGATCTTCGCAGCGGTCGCCTGGTGGAGATTTTTCCAGCGGAGTATGGCCAGCCAGCGCCGCTGCAACTGGTGTGCGCCCATCGAACCTCGCTGACGCCGTCGGTCCAGGTGCTCAGGGCCTTCCTGTCTGCGCGCTGTGAACGTTACATCAACGAGTGA	MSAFPITLKSSCPGKESRSVKKIVRVDDLQVFVTTTDAGSFSAAARLLDISPALASVAVQRLEASLGVRLFVRSTRRLRLSDDGERYLAHAQRALEVLEDGELALAEGRDEVAGTLRLSVPSDIGRNLLLPWLDEFQQMHPKVLLQLRVSDQVADLFGEHLDASIRYGQLADSSLVSLMLAPSNRRTVCASPDYIARHGLPKTPGELSGHNCLRYVMGEQTYERWIFQTANGLETVQVAGDRISDDADIARRWAVAGQGIVYKSKLDVMDDLRSGRLVEIFPAEYGQPAPLQLVCAHRTSLTPSVQVLRAFLSARCERYINE	PGPT0012355_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-FIT-SYSTEM,PGPT0012355-fitG-K19618	NA	NA
D1-35_02497	885	rcnA	COG2215	Nickel/cobalt efflux system RcnA	ATGCCGAATTTTGCTGAACTGCTGCAACAGGGGGGCGCTCACGCCTGGCTGTATTTCCCCAGTGCGATCTTGCTGGGCGCCTTGCACGGGCTGGAACCTGGTCATTCGAAAACCATGATGGCGGCGTTCATCGTGGCCACTCGCGGCTCGGTCAAGCAGGCGGTGTTGCTGGGGTTGGCCGCGACGCTTTCGCACACCGCCGTGGTGTGGCTGGTGGCGATTGGCGGGATGTACCTGGGCCAGGGGCTGGACGCCGAGACTACGGAACCGTACTTCCAACTCGCCTCTGCGGTGCTGATCATTGCGATCGCGTTGTGGATGCTCTGGCGTACCTGGCGTGGCGAACAGATGTTCAAGCTTGAGAGCGGTGACGGGCATCGCCATGCTCATCACGATCACGATCACGATCACGATCACGATCACGATCACGATCACGATCACGATCACGATCACGATCACGATCACGATCATGCGCATCCGGAACTGGCGCTGTCATCGGAGGGTTACCAGGACGCTCATGAACGGGCGCATGCCAACGACATCCGCAAGCGTTTCAGCAATCGAGACGTCACCACGGGCCAGATCATTGTGTTTGGCCTGACGGGTGGGCTGATCCCGTGTCCTGCGGCGATAACCGTCCTGCTGCTCTGCCTGCAGGTCAAGGAAGTTGCGCTCGGCGGCATGCTTGTCTTGTGCTTCAGCATCGGCCTGGCAATTACCCTGGTTACGGTGGGAGCGGCCGCGGCCCTTGGCGCTCGGCAGGCCTCCAATCGCTGGCCGTGGCTGGGCACTGTTGCCCGGCGCGCGCCTTATCTGTCGAGCGTGTTGATAATTGCAGTCGGCCTGTATGTGGGTATCCACGGCTGGATCGGTTTGAGCGCATGA	MPNFAELLQQGGAHAWLYFPSAILLGALHGLEPGHSKTMMAAFIVATRGSVKQAVLLGLAATLSHTAVVWLVAIGGMYLGQGLDAETTEPYFQLASAVLIIAIALWMLWRTWRGEQMFKLESGDGHRHAHHDHDHDHDHDHDHDHDHDHDHDHDHDHAHPELALSSEGYQDAHERAHANDIRKRFSNRDVTTGQIIVFGLTGGLIPCPAAITVLLLCLQVKEVALGGMLVLCFSIGLAITLVTVGAAAALGARQASNRWPWLGTVARRAPYLSSVLIIAVGLYVGIHGWIGLSA	PGPT0004550_1151	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004550-rcnA-K08970	NA	NA
D1-35_02498	294	csoR	COG1937	Copper-sensing transcriptional repressor CsoR	ATGAGTGAACTCAACCACGATCATCCCCATGTCCACCAAAGCCATGAAGCGATCATCAAGCGCCTCAAGCGCGCGGACGGTCACCTGCGCAGCATCATCCTCATGATCGAGGAAGGTCGTGATTGCGTGGACATCGCCCAGCAGTTGCATGCGGTTGAGAAAGCCGTGTGCCAGGCCAAGCGCACACTGATCCAGGATCACATCGATCATTGCCTCGAAGACACCGTTTCGGCACTGGACAGGGGCGAGCGCGCGCCGCTGGAAGCCTTCAAACAAATCACCAAGTACCTCTAG	MSELNHDHPHVHQSHEAIIKRLKRADGHLRSIILMIEEGRDCVDIAQQLHAVEKAVCQAKRTLIQDHIDHCLEDTVSALDRGERAPLEAFKQITKYL				NA	NA	NA	NA	NA
D1-35_02499	1557			hypothetical protein	ATGGAATGGATCGTTGACCCCACGGCATGGCTCGGCCTGCTGACCCTGATCGTGCTGGAGCTGGTGCTCGGCATCGATAACCTCGTATTCATCGCCATCCTGGCGGACAAGCTCCCCCCCGCGCAGCGCGACCGTGCCCGAGTTATCGGCCTGTCCCTGGCGCTGCTGATGCGCCTGGGCCTGCTGGCGAGCATCTCCTGGATGGTGACCCTGACCAACCCGCTTTTCGAAGTGTTCGGCAAGACGTTCTCGGGCCGCGACTTGATCATGCTGTTTGGCGGCGTGTTCCTGTTGTTCAAGGCAACCATGGAGTTGCATGAGCGACTCGAGGGCCACGTGGCGCAACGTTCCGGCAACGCCGCCTATGCGCTGTTCTGGCCGATCGTTGCGCAGATCGTGGTGCTGGATGCGGTCTTTTCCCTGGATGCGGTGATCACCGCCGTGGGCATGGTTGAACATCTGTCAGTGATGATGATCGCGGTGATCTTCTCCATCGGCCTGATGATGATCGCGAGCAAGCCGTTGACGAAATTCGTCAATGGCCACCCTACCGTCATCATGCTGTGCCTGGGCTTTTTGATGATGATCGGCTTCAGCCTCACCGCCGAGGGCCTGGGTTTCCACATTCCTAAAGGTTACCTGTACGCCGCGATTGGCTTCTCGATCCTGATCGAGCTGTTCAACCAGTTGGCGCGCTCGCGGCGCAAGAAAAACCTGCAAGGTCTTCGGCCGATGCGCGAGCGTACCGCCCATGCGGTGCTGCGCCTGCTGGGCGGTCAAAAGCTGGGGGCCGATGAGGTCGGTGAAGAAATCGCCGACCTGCTGGAAGGCGAAAAAACCGAACAGGTTTTCCATCGACGCGAACGGGTGATGATCAGCGGCGTGCTGCAATTGGCGGAGCGCCCGATACGCAGTGTGATGACCCCTCGCGCGCAAATCGACCACCTCGACCTGGCGAACACGCCGGAAGACATCCGTACGACGCTGATGCACTCGTCGTATTCGCGCTTGCCGTTGATTCGCGACGGACGCGTGGATGAGCCGTTGGGTTTCGTCCACAAGAAGGAGCTGCTCAAGGAAATACTGGCGGGCAATCAACCGAATCTGGAAGCCATGGCGCGCAAAGCCATCAACCTGCTCGACAGTTTCACGATCCTCAACGCGCTGGAGCAAATGCGCAAGGAGTCGACCCACATCGCCTTCGTGGTCAACGAATTCGGTGACTTCGTCGGCCTGCTCACGATGACCGACATCCTTGAGTCCATTGCGGGCGAATTGCCCGACGCCAGTGAAATCGACGGGCCGAATATTGTTGCGCGAGAGGACGGTTTCCTCGTCAGCGGGGCCCTGAACCTCAGCCAGGTTCGCGAACACATCGGTTTCCAGGCGTACGCGACGGAGGATTACCAGACACTTGCCGGGCTGGTGATGAGCTTGCTGGATCGCTTGCCGATGATTGGCGATACCCTGAATTGGCAGGGATGGAGCATGACCGTCATGGAGGTTGAAGAGCGTCGGGTAACCAGGGTCTTGCTGCGTATCGAGGAACAGGCGTGA	MEWIVDPTAWLGLLTLIVLELVLGIDNLVFIAILADKLPPAQRDRARVIGLSLALLMRLGLLASISWMVTLTNPLFEVFGKTFSGRDLIMLFGGVFLLFKATMELHERLEGHVAQRSGNAAYALFWPIVAQIVVLDAVFSLDAVITAVGMVEHLSVMMIAVIFSIGLMMIASKPLTKFVNGHPTVIMLCLGFLMMIGFSLTAEGLGFHIPKGYLYAAIGFSILIELFNQLARSRRKKNLQGLRPMRERTAHAVLRLLGGQKLGADEVGEEIADLLEGEKTEQVFHRRERVMISGVLQLAERPIRSVMTPRAQIDHLDLANTPEDIRTTLMHSSYSRLPLIRDGRVDEPLGFVHKKELLKEILAGNQPNLEAMARKAINLLDSFTILNALEQMRKESTHIAFVVNEFGDFVGLLTMTDILESIAGELPDASEIDGPNIVAREDGFLVSGALNLSQVREHIGFQAYATEDYQTLAGLVMSLLDRLPMIGDTLNWQGWSMTVMEVEERRVTRVLLRIEEQA				NA	NA	NA	NA	NA
D1-35_02500	213			hypothetical protein	ATGGGCATTGTCAACATCGACGACGAACTTCACGACCAGCTACGCAAGGCCACCAAGGTCTCCTGCCGTTCGATCAACGCGCAGGCGGCCTTCTGGATCAAGGTCGGCATGCTGTGCGAGACCAACCCTACCCTCAGTTTCAACGAGATCATCCAGCGCGAACTCAGCGACGCCGGCGTTACGGCGCAACCGTTGGAGGCGAACTGGCAATGA	MGIVNIDDELHDQLRKATKVSCRSINAQAAFWIKVGMLCETNPTLSFNEIIQRELSDAGVTAQPLEANWQ				NA	NA	NA	NA	NA
D1-35_02501	780	map_2	COG0024	Methionine aminopeptidase	ATGATCAAGCGACCCGAAGAACTGGCCCTGATGGCCGAGTCCGGCCGACTGCTCGCCTTGGTGTTCAAACGGCTGGATCAAACCAATTTGATGGGGCTGTCAACGCTGCAGATCGATGCAATGGTCGAGGATTTCATCGTCCGCGATCTCCATGCGCGCCCCGCCAGCAAGGGACAGTACGGGTACGGTTTTGTACTCAACTGCTCGATCAACGAAGTGGTTTGCCATGGTGTGCCCTCGCGCTCGCGAGTGCTTCAAGACGGCGACATCGTCAATCTGGACATCACCCTGGAAAAGAACGGCTATATCGCGGATTCGAGCAAGACGTACCTGATCGGCAACGTCGACCCAGCCGCCAGGAAGCTGGTCCAGGTCACTTATGAAGCCATGTGGAAGGGCATCCGCGCCGTCCGCCCGGGCGCTCGCCTGGGCGACATCGGCTCGGCCATCCAAGGCCATGCGACACGCAACGGTTATTCGGTGGTCCGTGAATATTGCGGCCACGGCATCGGCCGGCAAATGCACGAGGAACCCCAGGTGTTGCACTTCGGCAAAGCGGGAACGGGCCTGGTCCTGCGCGAGGGCATGGTCTTCACCATCGAACCGATGCTCAACCAGGGCACATCGGACGTCAGGACCGAAGCCGACGGCTGGACCGTGGTAACCCGGGACGGCGCGCTCTCCGCGCAGTTCGAGCATACCGTGGCCGTCACGGCGTCCGGTTTTTCGGTGCTGACGTTGCGGCCTGATGAATCGGACAAGATCACGGGCACGCTTTGA	MIKRPEELALMAESGRLLALVFKRLDQTNLMGLSTLQIDAMVEDFIVRDLHARPASKGQYGYGFVLNCSINEVVCHGVPSRSRVLQDGDIVNLDITLEKNGYIADSSKTYLIGNVDPAARKLVQVTYEAMWKGIRAVRPGARLGDIGSAIQGHATRNGYSVVREYCGHGIGRQMHEEPQVLHFGKAGTGLVLREGMVFTIEPMLNQGTSDVRTEADGWTVVTRDGALSAQFEHTVAVTASGFSVLTLRPDESDKITGTL	PGPT0020010_6155	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
D1-35_02502	1320			hypothetical protein	ATGAGTACCCCTTCCTATTTGCATCGGCTGAGCCTGGCCCTCAACGCCCGTGACGATGAACTGCGTCCGGCAATGTGCGGGTTCCTGTTGTTCCTCTGCCTGTTCACCGGCTACTTCATGTTGCGTCCGATCCGTGAGTCGATGGGGATCGCCGCGGGTGTGGAGAATCTGCAATGGCTGTTTACCGCGACCTTTCTCGTCATGCTGGTGGCCGTGCCGTTGTTCGCCTGGCTCAGCGCGCGAGTGCCGCGCCTGCGCCTCGTCGATTGGGTGTATGGCTTCTTCGTCTTGAACTTGCTGATGTTCGTCGAGCTGTTCCAGTTCGATTCGGACAACGTCTGGCTGGCGCGTACTTTTTACGTATGGATTTCGGTCTATAACCTGTTCGTCGTCTCCGTGGCCTGGAGCCTGATGGCCGATGTATTCGACAGCGAGCAGGCCAAGCGTCTGTTCGCCTTCATCGCGGCCGGCGCCAGCACTGGCGGCCTGCTCGGGCCGGCCTTGAGTGCACTGCTGGTCGACAGCCTCGGTGCCTCGGGGTTGATGTTCGTGGCTGCCGTGTTGCTGGGGGCCACGCTGGGATTGAAACGAACCTTGATGCGTTGGCGTGAAACCGGTGGGGCCGGGCGTCCCGGCGCGGCACCCACGCAAAGCCCGCAGCGGCCCCTGACTGGCAATCCGTTCAGCGGCATGACGGCGGTGTTCCGTTCGCCGTATCTGCTGGGGATCGCCGGTTTCGTCGTGCTGCTGGCAACGGTCAGCACCTTTCTCTACTTCGAGCAGGCACGTCTGGTGGCCGAGCTGTTTCCGGACCGCCAGGCCCAGGTACGGGTCTTCGGCACTATCGATTTTATTGTGCAGGCGGGCGCGCTACTGTCCCAGCTGTTCATCACCGGGCGCATCGCCCCGAAGCTCGGCATCGGTGCGTTATTGGCGATCGTCCCGCTGATCATGTGCATCGGCTTCGTCGGTCTGGCACTGGCGCCAGGCTTTGCGATCCTCGCGACATTGATGATTGTGCGAAGGATCGGCGAGTACGCGTTCGTGAGGCCGGGCCGGGAAATGCTGTTCACGCCGTTGGACGCGGAACATAAATACAAAGCCAAGAACTTTATCGACACGGTGGTCTATCGCGGCGGTGATGCGGTCAGCGGTTGGATCAAGACGGCACTCGATATGCTGGGGCAGGGCGCCGGCCTGGTCGCGTTGATCGGCGCAGGGTGTGCGTTGCTGTGGGCCGGCCTTGGATGGCGGCTGGGACGGCAAGCTGACCATCGCCGTGATGAACTGGAGCTGGAAGCTGGCGTTGCCGAAACCTAG	MSTPSYLHRLSLALNARDDELRPAMCGFLLFLCLFTGYFMLRPIRESMGIAAGVENLQWLFTATFLVMLVAVPLFAWLSARVPRLRLVDWVYGFFVLNLLMFVELFQFDSDNVWLARTFYVWISVYNLFVVSVAWSLMADVFDSEQAKRLFAFIAAGASTGGLLGPALSALLVDSLGASGLMFVAAVLLGATLGLKRTLMRWRETGGAGRPGAAPTQSPQRPLTGNPFSGMTAVFRSPYLLGIAGFVVLLATVSTFLYFEQARLVAELFPDRQAQVRVFGTIDFIVQAGALLSQLFITGRIAPKLGIGALLAIVPLIMCIGFVGLALAPGFAILATLMIVRRIGEYAFVRPGREMLFTPLDAEHKYKAKNFIDTVVYRGGDAVSGWIKTALDMLGQGAGLVALIGAGCALLWAGLGWRLGRQADHRRDELELEAGVAET				NA	NA	NA	NA	NA
D1-35_02503	1056			hypothetical protein	ATGTGGAATAGAACAACAATCCCCGCAATCGGACTTTCGCCCAACCTGGGTCGGATCATCACGCTGGCCCGGACGCTCGCTGCGGGCGTAGCGCTGTTCAGCGCCATCAGCGTCGAAGCATCGGCTCGCGTTGCACCCAAACCCGACTGGTCCACCAGCGACATACCGTCGCAGAAAGGCCGGATTGTCCTGATCACCGGCGGCACCAGCGGCATGGGTTATGAAGATGCGCTGGCATTGGCGCGTGCCGGGGCCGACGTCATTATCGCCGCCCGCAACCCGGAGCGCGGCGCTGAGGCCATCGCCCGTATCCGCGAGTCCGTGCCCGATGCCAAGGTACAATTCGAGGCTGTGGACCTGGCCAATCTCTCATCGGTAAGTGCCCTGGCCCAGCGTCTCCAGAGCAAGCTGCCGCGCCTCGACGTGTTGATCAACAATGCCGCCATCATGGCGCCGCCAGAGCGCGGTACGTCTGCCGACGGTTTCGAACTGCAACTAGCGACCAATTACCTGGGGCACTTCGCGCTGACCGGCCTGCTGGTGCCGCTCTTGCGCCAGAGCCAGGACGCCCGAGTTGTGAGCGTTTCAAGTATTGCGGCGACGCGCGGCACGATGAATTTCGATGACCTGCAGTTCGAGCGCAAATACGACCCATACGCGGCCTACGCGCAATCGAAACTGGCGGTCCTGCACTGGGCGTTTGCCTTGCAGCGGCGCAGTGACGCCGAAAACTGGGGTATTCGCAGCATGGCGGCGCACCCCGGGGTAGCGGTCACCGAGTTGGTCGCGCGCGGGCCCGGCCTCGAAAGCGAGTTCGGCCAGCGCTGGGCAAAGGATCGCGACGCGTACCACTCGGCGGCGCAAGGCGCGTTGCCCACGTTGTATGCCGCTACCGCTGTGCGAGCCGTGGGCGGTGCTTACTACGGCCCGACTGGGGACGATGAAAGGCGCGGTCCGTTGGGTGTCGCCAAGACGCCGCCTGCCGCGAACTCGCAGGCGGATGCCGAACGGCTCTGGGCCATCTCCGAGCAATTGACCGGCGTGACCTATCGCTGA	MWNRTTIPAIGLSPNLGRIITLARTLAAGVALFSAISVEASARVAPKPDWSTSDIPSQKGRIVLITGGTSGMGYEDALALARAGADVIIAARNPERGAEAIARIRESVPDAKVQFEAVDLANLSSVSALAQRLQSKLPRLDVLINNAAIMAPPERGTSADGFELQLATNYLGHFALTGLLVPLLRQSQDARVVSVSSIAATRGTMNFDDLQFERKYDPYAAYAQSKLAVLHWAFALQRRSDAENWGIRSMAAHPGVAVTELVARGPGLESEFGQRWAKDRDAYHSAAQGALPTLYAATAVRAVGGAYYGPTGDDERRGPLGVAKTPPAANSQADAERLWAISEQLTGVTYR				NA	NA	NA	NA	NA
D1-35_02504	261			hypothetical protein	ATGAACATTCAGAACCTATCGATCGCCAGTCTGTTGGCCGTCATCGCATTAGGCGGTGCGCCGCTCTATGCGAAAGAGCAAACCAATCCCCCGGCTTACGAATACGGCATGCCGCTGGACGTGGCCCAGGCCATTCGCATCGAGGCACCGAGCCCGTCGGTGTGCGAGGTGGTGCGGGCCAAGATGACCTATGTCGATACCCAGGGTGAACTCCGGCACGTCAGCTTCCTGCAGCTGGCCGATGCGTGCTCCATCCAGTGA	MNIQNLSIASLLAVIALGGAPLYAKEQTNPPAYEYGMPLDVAQAIRIEAPSPSVCEVVRAKMTYVDTQGELRHVSFLQLADACSIQ				NA	NA	NA	NA	NA
D1-35_02505	1374	sasA_11		Adaptive-response sensory-kinase SasA	ATGAAGGGATCCATAGCCAAGCGACTGGCGTTGATGTTCGCGCTTGCAGTCACGCTGATCACCGCGGTCAGTGCGACGCTGTTGCGCTGTTCGTTGAAGCAGTCGCTCGACGAGCAGATGCAGAACGAGCTGATCCTGCGCCATTCGGTGCTCGATCCGGTGCTCGCCAAATACGATTCGCCGGCGTTCTGGGTCGGCTTGCGACAAAAGCTCGATGGCCTGACGCCCGCGGATGAGCGCGTGCGTTATTGGGTGGTGGTCGACGACCCGGCCTACAGTTATGGCGGGCCGATGCCGGACGGCCTGGACTGGTCGAAGCGCCCGGATGGTTTCGCCACCCTCGATCTGCCCGACCGAGACCGCCCCATGGTGCTGATGGTCGAGACCATTGCGGCCATGGGCAGCCGTCCGGAATTGCGTTTTATCGTGGGATTGGATTCGACGCCGTTCATGAAGACTCTGGATGACTTCACCCGGATATTGATCCTGACTTCTGCGCTGGGGGTCGTGCTGGTGGCGCTGCTCGGCTATTGGATCGCGCGTTTTGGCCTGGGCCCGGTCCGGCGCTTGAGCCGGCAGGCCAACAGTCTGCCGCCGGGGGATTCGAAGCAGCGACTCGACACGCAGGCGCTGCCTGGCGAATTGCAGGAGCTGGCGGTGTCATTCAATGGCGCCCTGGCGCGCCAGGAAGCCGCCTGGTGCCAGCTCGAAGGGTTCAATGCCAATGTGGCCCATGAGCTGCGAACGCCGCTGACCAACCTGATCGGGCAGACCCAGGTCGCGTTGGCCCACGGGCGGGACGTGAATGAGCTCCAGGATCTGTTGCAGTCCAATCTCGAAGAACTGGAACGGATGGGCACCATCGTCAACGACATGCTGTTCCTGGCGGGCGCCGAAAGCGGCCAGCGGGCAACCGAGCTGAGCGATGTCTCGCTTTACGAGGAAGCGTCGAAGACCGTGGAATACCTCGAGCCGGTCCTGCACGACAAACAGTTGAGCGTGGTCATCCAGGGCGACATGCGCGTGTGCATCGATCGGCGTCTGTTCCACCGTTCCCTGGCCAATCTGCTGCAAAACGCGGCGCGCTACGCGGTGCCGGCGAGCACCATCACGGTGAGCTTGGAAGACCATGGGATGCAGGCCAGGGTGAGCGTTTCCAACGCCGGCGAACCGATCGAAAGCGTGCACCTGGAGCATTTGTTCGAACGCTTCTATCGAGCCGACGTCGCCAGGGCCCGAAGCGACGCGCACCATGGCCTGGGGCTCTCCATCGTGCGGGCGGTGGCGTCGATGCACGGTGGGCGGGTGTTCGCCCACAGCCAGGACGGACTCAACACCTTCGGCTTTTCCCTGACGAGCCAGGCGGCGCGCTAG	MKGSIAKRLALMFALAVTLITAVSATLLRCSLKQSLDEQMQNELILRHSVLDPVLAKYDSPAFWVGLRQKLDGLTPADERVRYWVVVDDPAYSYGGPMPDGLDWSKRPDGFATLDLPDRDRPMVLMVETIAAMGSRPELRFIVGLDSTPFMKTLDDFTRILILTSALGVVLVALLGYWIARFGLGPVRRLSRQANSLPPGDSKQRLDTQALPGELQELAVSFNGALARQEAAWCQLEGFNANVAHELRTPLTNLIGQTQVALAHGRDVNELQDLLQSNLEELERMGTIVNDMLFLAGAESGQRATELSDVSLYEEASKTVEYLEPVLHDKQLSVVIQGDMRVCIDRRLFHRSLANLLQNAARYAVPASTITVSLEDHGMQARVSVSNAGEPIESVHLEHLFERFYRADVARARSDAHHGLGLSIVRAVASMHGGRVFAHSQDGLNTFGFSLTSQAAR	PGPT0004980_1271	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0004980-cusS|copS|silS-K07644	NA	NA
D1-35_02506	705	czcR_3		Transcriptional activator protein CzcR	ATGCGGTTGCTCATCGTCGAGGACGAAGAAAAAACGTCTTCCTATGTCCATCGTGGCTTGAGCGAGCTTGGCTACATTGTCGATGTCGCGACCAATGGTATCGATGGCCTGCATTACGCGTTGGAAATGGATTACGACGTGGTGATCCTGGATGTGATGCTGCCGGGCAAGGACGGCTACGGCGTGTTGCAGGGCTTGCGCCTGCACAAGAAGACGCCGGTGATCATGTTGTCGGCCAGGGGCACGGTGGATGATCGGGTCCGGGGGCTGCGCGAGGGTGCTGACGACTACCTGGGCAAACCGTTTTCCTTCGCCGAGCTTGTTGCGCGGGTCCAGGCATTGATCCGACGGCGTGCCGATGACGCCGCCGACCCGACGCATTTGCGCATCGATGACCTGGAGGTCGATCTGCAGGCGCGCAAGGTAACCCGGGCCGGGCTGCGCCTGGACCTGACCGCCAAGGAGTTCTGCCTGTTGAGCCTGCTGGCGCGACACCAGGGTGAGATTCTCTCCAAGTTGATGATTGCCGAGCAGGTCTGGGACATGAATTTCGATAGCGACGCCAATGTGGTCGAAGTCGCGATCAAGCGGGTGCGGGCCAAGGTGGATGCGCCGTATCCGCGCAAGTTGCTGCATACCGTGCGCGGCATGGGTTATGTGCTGGAGAGCCGTGAACTCAGTGACAGGCAAGCGGGTACAGCGTGA	MRLLIVEDEEKTSSYVHRGLSELGYIVDVATNGIDGLHYALEMDYDVVILDVMLPGKDGYGVLQGLRLHKKTPVIMLSARGTVDDRVRGLREGADDYLGKPFSFAELVARVQALIRRRADDAADPTHLRIDDLEVDLQARKVTRAGLRLDLTAKEFCLLSLLARHQGEILSKLMIAEQVWDMNFDSDANVVEVAIKRVRAKVDAPYPRKLLHTVRGMGYVLESRELSDRQAGTA	PGPT0004105_123	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
D1-35_02507	408			hypothetical protein	ATGAAAATCATTCCCTACCTGACCTTCAACGGCCGCTGCAAGGAAGCCTTCGCGTTGTACCAGGAGGTGCTGGGCGGCGAGCTTTTTTCCATGTCCTTTGCCGAGGCGCCCGAGGACGTCGGCATGCCCAAGGACCCCAATCTGATCATGCACACCTGCCTGACCGTGGGCGGCTTCAGCCTGATGGCTTCCGACTGCGCGCCCGGCCAACCGTTCAGCAAGCCGCAAGGCGTGTCGGTGTCTCTCAATGTCGACAGCGCGGAGGAGGCCGAGCGGCTGTTCAATGGCCTGAGTGCCGGCGGCAGCGTGCAGATGCCCTTGGGCAAGACTTTCTGGGCGGAGCGCTTTGCGATGTTCGAAGACCGTTTCGGGGTCGCCTGGATGGTCAATTTCGAGGGGCGGCCATAA	MKIIPYLTFNGRCKEAFALYQEVLGGELFSMSFAEAPEDVGMPKDPNLIMHTCLTVGGFSLMASDCAPGQPFSKPQGVSVSLNVDSAEEAERLFNGLSAGGSVQMPLGKTFWAERFAMFEDRFGVAWMVNFEGRP	PGPT0030505_3038	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
D1-35_02508	426			hypothetical protein	ATGCGATTTATGGTGATCATCAAAGCCAGTCCCGAATCCGAAGCCGGAGAAATGCCCAGCGCGCAGCTGCTGACCGCCATGGGCGCCTACAATGAAGAACTGGTCAAGGCCGGGGTGATGCTCGCCGGTGAAGGCCTGCATCCCAGTGCCAAGGGTGTTCGCGTACAGTTTTCCGGAAACAACCGGACCGTCGTCCAGGGCCCGTTTGCCCAAACAGGAGAATTGATCGCCGGCTTCTGGATCTTCCAGGTCCAGTCGTTGCAGGAAGCTGTCGACTGGGTCAAGCGCTGCCCCAACCCTATGGTCAGCGACAGTGAGATTGAAATTCGCCAGATCTTCGAGGCTGAGGATTTCGGCGAGTCTTTTACCACCGAGTTGCGCGAGCAGGAAGAACGTTTGCGAGCGCAGATTTCCGATCAATCGTGA	MRFMVIIKASPESEAGEMPSAQLLTAMGAYNEELVKAGVMLAGEGLHPSAKGVRVQFSGNNRTVVQGPFAQTGELIAGFWIFQVQSLQEAVDWVKRCPNPMVSDSEIEIRQIFEAEDFGESFTTELREQEERLRAQISDQS	PGPT0014960_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-35_02509	897		COG0596	Fluoroacetate dehalogenase	ATGTTTGCCTCATTTGAATCGGGTCGATGCCACGTCAACGATATCACCGTCAACTACCGCAAAGGCGGCAGTGGCCAAGGTTTGCTACTGCTTCACGGGCACCCTCAGACTCACGTGATGTGGCACAAGATCGCCGAGCCGCTGGCGCAACATTTCACCGTGGTGGCGGCGGATCTTCGGGGCTACGGTGACAGCGAAAAACCGCCGAGCGACGCGCAGCACCTGGCCTACTCCAAACGGCAGATGGCGCTGGACGGGGTGGAGCTGATGCGCGAACTGGGATTCATAAAGTTCGACGTGTTGGCTCACGACAGGGGCGCACGAGTGGCCTGTCGGATGGCGTTGGATCACCCGGACGCAGTAAAACGCTTGATCGTTCTGGATATCGCTCCGACGCTGGCGATGTACGAGCAGACCAATGAAGCTTTCGCCCGCGCCTACTGGCACTGGTTCTTTCTGATTCGCCCAGCCCCTTTTCCCGAGACGCTCATTGAAGCGGATCCGCAGCTGTATCTGCGCAGCGTCATGGGTGCTCGCAGCGCGGGCATGGCGCCCTTCACCGAAGCGGCATTGGCCGAGTATCTGCGTTGCCTGAGACTACCGGGGGCAGCCCATGGTCTGTGTGAAGACTACCGAGCCAGTGCCAGTATCGATCTGGAGCACGACAAGAGCGACCTGCAAGCCGGCAGGAAACTCTCACTGCCGTTACTCGCCCTATGGGGAGCTGACGGCGTTGTGGGCCGCTGCTTCGATCCGCTTGGCGAATGGCAAAAGGTCGCCAGTGACGTCCGGGGAAAAGCCCTGCCGTCGGGGCATTACATCGCAGAGGAAGCGCCAGGGCTTCTGATTGACGAAGTGCTCGGGTTCCTGCTCCCACCGGTCCCCAGCGCCAGGTGA	MFASFESGRCHVNDITVNYRKGGSGQGLLLLHGHPQTHVMWHKIAEPLAQHFTVVAADLRGYGDSEKPPSDAQHLAYSKRQMALDGVELMRELGFIKFDVLAHDRGARVACRMALDHPDAVKRLIVLDIAPTLAMYEQTNEAFARAYWHWFFLIRPAPFPETLIEADPQLYLRSVMGARSAGMAPFTEAALAEYLRCLRLPGAAHGLCEDYRASASIDLEHDKSDLQAGRKLSLPLLALWGADGVVGRCFDPLGEWQKVASDVRGKALPSGHYIAEEAPGLLIDEVLGFLLPPVPSAR	PGPT0006880_562	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006880-dehH-K01561	NA	NA
D1-35_02510	1944	acoR_3	COG3284	Acetoin catabolism regulatory protein	ATGACCCTGCATGACTCGCAGACGATCCCCGGCGAACTCGCGGCGTTCGTCAACGACCACTTTTCCGGGCGCGGCCTCAGGCCGGACGGGGTCATTGCGCAATCCTGGTACCGCAGCGTCGTGGAGCACCGGCTCGATCCTGGCGCGCCGAGCCGCAAGAATATCCTCAGCGCCGACGCCATACGGCGTCATCAGGAACAGCACCAGCAATATCTTTCCATCGCCAGCCAGGGCGTCAGCGGCCTGGCCCAGCGCGTGGTGCCAGCCGGTTTTGCCGTACTGCTGAGCGACGAGCATGGCATCACCCTGGATTCCCGGCTCCCCAGCCAGCACGACATCTACACCCGATCGGGGCTGGTAGTGGGCGCGCAGTGGGACGAGTCGGTGGTGGGCACCAACGGCATCGGTACCACCCTGGCGGCGGCGCAGCCGTTGATCATTCATCGTGAGGAGCACTTCCTGGCATCGAATTTCAGCCTGAGCTGCTCGGTGGCGCCGATCTTCGACGCCCAAGGCTTGTTACGCGGCTGCCTGAATGCGACCTGCATGAACAACGAGGGCCCTCGTGAAAGCCAGTACCTCACGCTGCAACTGGTGATCATGTACGCGCGGCTGATCGAGAACGCAGACTTTCGCCAGCGCTATCGCGACCGCTTGACCCTGTCCCTCAAACCCATCGATGAAATTGCCGACCTGGCCAACGAACAACTGCTCGCGCTCGATGAAAGTGGTCGCGTCATCGGCGCCAACCGTGCCGCGTTTGTCGCCCTGGAGCTGGCAGATCAGCCGGCACTGCTCGGCACGCTCATCGACAGCCTGCTCCCGACTACGGTGGACGAACTGCTCCGGCTCACCAATGGCGGCGCCCAGGGTGTGCGCTTGCGCCGTTGTCAGGATGAAGCATTGCTGGACGTCGGCCTGCGTATCCCTTCCGAACGGCACCGCCCGCTGCCCGTCGCCCGCCCGGCCCCTGAGGCTCACCCGGATCTGCAGCAACTCGCCGGTCTCGACGCCCGGCTGCAACAAAACGTGCGACGCGTACGCAAGGTGATCGACAAGGGCATCCCGATCCTGATTACCGGCGAGACCGGCACCGGCAAGGAGGCCTTTGCTCGTGCCATCCACCAGGCCAGCCAACGTCGCGCCGGGCCTTTCGTGGCATTGAACTGCGCGGCGATTCCGGAAACGTTGATCGAGAGCGAGCTGTTCGGCTATCGCGCCGGCAGTTTCACCGGCGCCAACCGCAAAGGCATGAAAGGCAAACTGGAGCTGGCGAACGGCGGAACCCTGTTCCTTGATGAAATCGGCGACATGCCCGCCCATTTGCAGACGCGTTTGCTGCGGGTGCTGGCGGAGCGTGAAATCTCGCCTCTGGGGGCCGAGGTGCCGGTGACCCTGGATGTCCAGGTGATTTCGGCCACACACCAGGACCTGCAGGCGATGATCGGCGACAAGCGCTTTCGTGAAGACCTGTTCTATCGCCTCGCCGGCATGAACCTGGCGCTGCCGGCCTTGCGCGAACGCAGCGATCGGGCCGAGCTGATCGACAAGTTGCTCGCCGCCCAACCTGGCGCCCGCGGGTTATGGCTGAACGCCGATGCGCGCCAATGCCTGATCGACTACCCGTGGCCCGGCAACATTCGCCAGTTGCTCAATAGCCTGCGCTACGCGGTGGCCCTGGCGGAAGACGGCGTGATCGACCTGGATTGCCTGCCCGGCGAATTACTCTCACCGCAGGCGCTGCGGTTGCCTGGCAGCGCCCAACCGTCGACCAGCAACCTGGGTGAACAACTCGGGAGCGAAGAGGCCCGTCAACTGCTCGGCACCTTGCGTCGGCTGCGCTGGAACATCAGCGCCGCCGCCACCGAACTCGGCGTTTCGCGCTCGACGCTGTACCGCAAGATGAAAAAGCACGGCGTCGTCGCGCCCAACGATCAGCCCTGA	MTLHDSQTIPGELAAFVNDHFSGRGLRPDGVIAQSWYRSVVEHRLDPGAPSRKNILSADAIRRHQEQHQQYLSIASQGVSGLAQRVVPAGFAVLLSDEHGITLDSRLPSQHDIYTRSGLVVGAQWDESVVGTNGIGTTLAAAQPLIIHREEHFLASNFSLSCSVAPIFDAQGLLRGCLNATCMNNEGPRESQYLTLQLVIMYARLIENADFRQRYRDRLTLSLKPIDEIADLANEQLLALDESGRVIGANRAAFVALELADQPALLGTLIDSLLPTTVDELLRLTNGGAQGVRLRRCQDEALLDVGLRIPSERHRPLPVARPAPEAHPDLQQLAGLDARLQQNVRRVRKVIDKGIPILITGETGTGKEAFARAIHQASQRRAGPFVALNCAAIPETLIESELFGYRAGSFTGANRKGMKGKLELANGGTLFLDEIGDMPAHLQTRLLRVLAEREISPLGAEVPVTLDVQVISATHQDLQAMIGDKRFREDLFYRLAGMNLALPALRERSDRAELIDKLLAAQPGARGLWLNADARQCLIDYPWPGNIRQLLNSLRYAVALAEDGVIDLDCLPGELLSPQALRLPGSAQPSTSNLGEQLGSEEARQLLGTLRRLRWNISAAATELGVSRSTLYRKMKKHGVVAPNDQP	PGPT0001030_945	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
D1-35_02511	1437	aldA	COG1012	Lactaldehyde dehydrogenase	ATGACCGAGATCATCGATTACCAGAACTTCATCGCCAACGCCTTTGTCCCCAGCGAACCGAGCATCGAAGTGCACAACCCGGCCAACGGACGCTTGCTGGCGCGGGTGCCGCAAGCCAGCGGCGAACAGGTTGAAGCGGCCGTTGCCGCGGCGCGCAAGGCGCAGAAAGGCTGGGCGGCCCGCCCGGCCATCGAACGCGCTGGTTACCTGCGCAAGATCGCCAGCAAAGTGCGCGACAACGCCGAGCGCCTCGCCCATGTCATCACCGCCGAACAGGGCAAGGTGCTGGGGCTGGCGCGGGTGGAGGTCAACTTCACCGCCGACTATCTGGATTACATGGCGGAATGGGCGCGGCGCCTTGAAGGCGAGGTGCTGACCAGCGATCGCGCCGGCGAAAGCATCTTCCTGTTGCGCAAACCCCTGGGTGTGGTGGCCGGCATCCTGCCGTGGAACTTCCCGTTCTTCCTGATCGCACGCAAGATGGCGCCTGCGCTGGTGACCGGCAACACCATCGTGATCAAGCCCAGCGAAGAAACCCCGATCAACTGCTTCGAGTTCGCCCGCCTGGTCGCCGAAACCGACTTGCCGGCAGGCGTGTTCAACGTGGTCAGCGGCACCGGCGCAACGGTGGGGCATGACCTGACCCGCCATGCCGGCATCGACCTGATCAGCTTCACCGGCAGCGTCGGCACCGGCTCGCGAATCATGGCCGCAGCGGCGCCGAACATCACCAAGCTCAACCTGGAACTGGGCGGCAAGGCCCCGGCGATCGTGCTGGCGGACGCCGACCTGGCGCTGGCGGTCAAGGCGGTCACCGCGTCGCGGGTGATCAACAGCGGGCAAGTCTGCAATTGCGCCGAGCGGGTGTACGTCGAACGCAAGGTTGCGGATCAATTCATCGAGCAGATCGCCGCGTCGATGGCCGCGACCCGCTACGGCGACCCGCTGGCCGAAGACAATCTGGACATGGGCCCGCTGATCAACCAGGCGGCGCTGGACAAGGTCGCACAAATGGTCCGGACCGCCACGGGGCAGGGGGCCGAAGTGGTCACCGGCGGCGCGGTGGCCGACAAGGGCCAGGGCTTTCATTACCAGCCGACGGTGCTGGCCGGGTGTGGCAGCGACATGGCGATCATGCGCCAGGAGATTTTCGGCCCGGTGTTGCCGATCCAGATTGTCGATGACCTGGACGAAGCCATCGCCCTGGCCAACGACAGCGAGTACGGCCTGACCTCATCGATCTATACCCGCAGCCTGAGCGCGGCCATGCGCGCCAGCCATGAACTGGATTTCGGCGAAACCTACATCAACCGGGAGAATTTCGAAGCGATGCAGGGTTTTCATGCGGGGGCGCGCAAATCCGGTATCGGCGGCGCGGATGGCAAGCACGGTTTGTATGAGTACACCCATACTCATGTGGTTTACATCCAAATCTGA	MTEIIDYQNFIANAFVPSEPSIEVHNPANGRLLARVPQASGEQVEAAVAAARKAQKGWAARPAIERAGYLRKIASKVRDNAERLAHVITAEQGKVLGLARVEVNFTADYLDYMAEWARRLEGEVLTSDRAGESIFLLRKPLGVVAGILPWNFPFFLIARKMAPALVTGNTIVIKPSEETPINCFEFARLVAETDLPAGVFNVVSGTGATVGHDLTRHAGIDLISFTGSVGTGSRIMAAAAPNITKLNLELGGKAPAIVLADADLALAVKAVTASRVINSGQVCNCAERVYVERKVADQFIEQIAASMAATRYGDPLAEDNLDMGPLINQAALDKVAQMVRTATGQGAEVVTGGAVADKGQGFHYQPTVLAGCGSDMAIMRQEIFGPVLPIQIVDDLDEAIALANDSEYGLTSSIYTRSLSAAMRASHELDFGETYINRENFEAMQGFHAGARKSGIGGADGKHGLYEYTHTHVVYIQI	PGPT0001725_428	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
D1-35_02512	2178	qgdA		Quinohemoprotein alcohol dehydrogenase ADH-IIG	ATGACACAGATTGGCCTCGCCGTGCCTACTGCTTCTGCGAAAGCGTGCCCGCGCGTTCCCCTCAAGACGTTATTTATCGTGCTGGCGCTTGCCCTCAATGCCGCCCCAGGCTGGGCGCAGGACATGCCGGCGAATGTCGATGGCAAGCGCATCATTGCCGCCGACCGGGAGCCGGGGAACTGGATGAGTACCGGCCGTACCTACGACGAGCAGCGCTACAGCCCCCTGAACAAAATCAGCGACCAGAACGTTGGCCAGCTGGGCCTCGCGTGGAGCTACAAGCTCGACCTGGATCGTGGTGTCGAGGCCACGCCGATCGTGGTCGATGGCGTGATGTACACCACCGGTCCGTTCTCCGTGGTCTACGCCCTGGATGCGCGCGACGGCAAGCTGATCTGGAAGTACGACCCCAAGTCTGACCGCAACCGCGCCGGCGAGGCCTGTTGCGATGCGGTCAACCGGGGTGTGGCGGTGTGGAAGGGCAAGGTCTACGTGGGTGTGCTCGACGGGCGCCTGGAGGCGATCGATGCCAAGACCGGCCAGCGCGCCTGGTCGGTGGACACCCGCGCCGATCACTCGCGCAGCTACACCATCACCGGGGCCCCGCGGGTGGTCAACGGCAAAGTGGTGATCGGCAACGGCGGCGCCGAGTTCGGCGTACGCGGTTACGTCACCGCCTACGACGCTGAAACCGGCAAGCAGGCCTGGCGTTTCTTCACGGTACCGGGTGACCCCAAGCTGCCGCCCGAAGACAAGGCCATGGCGATCGCCGCCAAGACCTGGCACGGCGATGCCTATGTGGCCCAGGGCGGGGGCGGTACGGCCTGGGACTCTTTCGCTTTCGACCCGGACTTGAACCTGCTGTACATCGGGGTGGGCAATGGCTCGCTGTGGGACCCGAAATGGCGTAGCCAGGCCAAGGGTGACAACCTGTTCCTGTCATCCATCGTCGCGGTCAATGCCGACACCGGCGAGTACGCCTGGCACTACCAGACCACGCCAGGAGACGCCTGGGACTACACCGCCACCCAGCACATGATCCTGGCTGAACTGCCGATCGATGGAAAGCCGCGCAAGGTCTTGATGCAGGCGCCGAAGAACGGTTTTTTCTACGTGATCGACCGCGCCACGGGTGAGCTGCTGTCGGCCAAGGGGATCGTGCCGCAAAGCTGGACCAAGGGCATGGACATGAAGACCGGCCGGCCGATCGTCGACGACGAGAATGCCGCGTACTGGAAGGATGGCAAGCGCAAACTGGTCACGCCGGCGTTCTGGGGCGCCCACGACTGGCAGCCGATGTCCTACAACCCGAACACGGGCCTGGTGTATATCCCGGCGCACATCATGTCGGCCTACTACGAGCACATCCCCGAGGCGCCGAAGCGCAACCCGTTCAAGAGCATGTACCAGTTGGGCCTGCGCACCGGGATGATGCCGGAGGATGCCGACGGGCTGCTGGAAATGGCCAAGGGCTGGTCGGGCAAACTGATTGCCTGGGATCCGGTCAAGCAGCAACCGGCCTGGGAAGTGCCCTATGTGACGATCTTCAACGGCGGCACCTTGAGCACCGCCGGCAACCTGGTGTTCGAGGGCAGCGCCGATGGCCGGGTGATCGCCTACGCCGCCGACACCGGCAAGAAACTCTGGGAGCAGCCGGCGGCCAGTGGCGTCATGGCCGCGCCGATTACCTACAGCGTGGACGGTGAGCAATACGTCACCTTCATGGCCGGCTGGGGCGGAGCCTTCTCGACGTTTGCCGGGGCTTTGTCCCTGCGCGCCGGGGTGCGGCCGTTCTCCCAGGTGCTGACCTACAAACTGGGCGGCACCGCGAAACTCAACGAGCCGGCGCCGCTTGCCGACACGCCGAAACCGCCGCCACTGACCGCTGACATGGCGGCGGTGGACGCCGGCGGCAAGCTCTATGACGGCTACTGCTCGCAGTGCCACGGCATCCATGCCGTCAGCGGTGGCGTGCTGCCGGACCTGCGCAAGCTGACCAGCGAAAAACACCAGATGTTCCTCGGCATTCTTTATGGCGGCCGAGTACCTGACGGCATGCCGTCCTTTGCCGATGCCTTCACGCCGGAACAGGTCGAGCAGATTCATCAATACCTGATCAAGCGCGCCCACGACCTGCAGCAGGAAGGCGGCGTCTGGAAAACCTTCAGCGCCAAATGA	MTQIGLAVPTASAKACPRVPLKTLFIVLALALNAAPGWAQDMPANVDGKRIIAADREPGNWMSTGRTYDEQRYSPLNKISDQNVGQLGLAWSYKLDLDRGVEATPIVVDGVMYTTGPFSVVYALDARDGKLIWKYDPKSDRNRAGEACCDAVNRGVAVWKGKVYVGVLDGRLEAIDAKTGQRAWSVDTRADHSRSYTITGAPRVVNGKVVIGNGGAEFGVRGYVTAYDAETGKQAWRFFTVPGDPKLPPEDKAMAIAAKTWHGDAYVAQGGGGTAWDSFAFDPDLNLLYIGVGNGSLWDPKWRSQAKGDNLFLSSIVAVNADTGEYAWHYQTTPGDAWDYTATQHMILAELPIDGKPRKVLMQAPKNGFFYVIDRATGELLSAKGIVPQSWTKGMDMKTGRPIVDDENAAYWKDGKRKLVTPAFWGAHDWQPMSYNPNTGLVYIPAHIMSAYYEHIPEAPKRNPFKSMYQLGLRTGMMPEDADGLLEMAKGWSGKLIAWDPVKQQPAWEVPYVTIFNGGTLSTAGNLVFEGSADGRVIAYAADTGKKLWEQPAASGVMAAPITYSVDGEQYVTFMAGWGGAFSTFAGALSLRAGVRPFSQVLTYKLGGTAKLNEPAPLADTPKPPPLTADMAAVDAGGKLYDGYCSQCHGIHAVSGGVLPDLRKLTSEKHQMFLGILYGGRVPDGMPSFADAFTPEQVEQIHQYLIKRAHDLQQEGGVWKTFSAK	PGPT0006870_7	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUBSTRATE_UTILIZATION-OTHERS	PLANT_DERIVED_ALCOHOL_DEHYDROGENASE-CYTOCHROME_C,PGPT0006870-exaA-K00114	NA	NA
D1-35_02513	2154			hypothetical protein	ATGCTTAAGCCCGACAGCACCTTGCTCGACCGGAACGCCGCCTTGGCTCAGCGAGATGCGGCCGTCAATGAGCGCGATACCGCGCTGGCGAAAGTCGACTTCCTGCAAAACACCCGTTCGTGGCGTTTCACCCGGCCACTGCGTACGCTGTTCCGGGTGCTGCGTTATGGATTTTCCGCCTACCGGGAGTTTCCCGAAACGGCTCCGGCAATCGTCTACCCGGCAGCGCCGGAACCGTTGCCGAACGTTGAGGTACAAGCGGATTTCGCCACCAGAGGGCAGCTGGATATTCTCTGCTTCGCCAATATCGACTGGGCCGCGCGCTTCCAGCGACCGCAGCAGTTGATGAGCCAGTTCGCGAGCAATGGTTATCGGGTGTTTTATATCGTTCCATCCAGTGTGCCGGAGCAGGGACAGCTTTATCGAGTGACGTCAGTGGCGTCCAACCTTTTCGAGGTGGCGCTGCATCGCGATGTGCAAATGGCCTATTACGAAAAGATAGTGACGCCTGAGAACCATCAGGCGTTGCTGCGTGCGATTGCTGCATTGGTCACTGACATGCAGATCAGAACCGCCCTCTCGGTGGTGCATATTGCCTACTGGAGCCCCGTGGTACTCAGCCTGCGCACGCTGCATGGCTGGCGCATTCACTATGACTGCATGGACGATTGGGATGGTTTTCCGAACATCGGCGAACAGCTGCTGAGCGAGGAAAAGACCCTGGTCGCCCAGGCCGATCTGGTGACTGTTTCCGCGGCGGTGCTTTACCAGAAATGGTGCGCTCATAACCCTCGCTGCGTGCTGGTGCGAAACGCTGTGGATTTTGCTTTTTTCCACCAGCACTGTTTTACCAACGATCTGCTGAGCGGGCTGGTCGGCCCGGTGATTGGCTATTACGGCGCCTTGGCTGAATGGCTCGATTATCCACTGCTGGCGGCGTTGGCGGACCTGCGACCGACGTGGAATTTCATCCTGGTGGGGGATATTTTCGTAGAGGACCTGGCGGGGCTCGAGCACAAGCCCAATGTGCGGTTGTTGGGCCGCAAGCCGTACACCGACATGCCGCTGTACCTGGATCATTTCGATGCGTGCCTGATTCCCTTCAGGCTCTACAACGTGACCCATGCGGTCGATCCGGTGAAGTTCTACGAGTACCTCAGCGCCGGCAAACCGGTGATCTCCACGCCACTGGCGGAGATCGCCATCTACAAGGACCTGCTGTACTTCGCAACCGGAGTCGATGAGTTCATCGAGCAGATCGAGCGTGCCCTGGCCGAGCGCGATCTGGCCCTTTACAAGCGGCGTGTGGAGCTCGCTCGGGCCAACGATTGGAAGGATCGATTTAATAGCATGCAACTTGCCATCGTCGGGCTGTACGAGAAAGTCTCCATCGTCATCGTGACGTACGACAACCTCAATCTGACGATTCAATGTGTCAACAGCATTCTGCGTAATACCACCTGGCCCAATTACCAACTGATTGTCGTCGACAACGGCTCGGACGATGGTACGCAAGATTATCTTGAACGCCTGGGCCGTGAGGTACCGTTCACGAAGATCATCCTCAACCCGGACAACCGGGGCTTCGCTGCGGCGAACAACCAGGGTTTGCGAGAAGCCGACGGTGACGTCCTGCTACTGCTCAATAACGACACGGTGGTACCGGGCGGTTGGCTCGATCCGCTGGTCAGGCTTTTGCGTGACCCGAGTATCGGCCTGGTCGGGCCGGTCACGAATGCGGTAGGAAACGAAGCGAAGATCGAGATTTCCTATACTGACATCCAACAGATGCAGGCGTTTGCAGACCACTACACCGTAGCCCGTAAGGGGCAGTCGTTCGATATATCCATGCTCGCAATGTTTTGTGTCGCCTTTCGCCGAACCACCTTCGATGAGGTGGGGTATCTGGATGAAACGTTCGGTATCGGGTTGTTCGAAGATGACGACTACAGCCGTCGTGTTCAGGCTGCCGGCTACCGCACGGTCTGCGCTGAAGATGCGTTTATCCATCACTACGGGCAGGCCTCGTTCAGCAAGCTGATCGCCAGCGGCGAATACCAGGCGCTCTGGGACAAAAACCAGGCGTATTTCGAAAGCAAATGGGGGGCGTGGCAAGCCCACGTACATCGCGACGAGCCCGGTGCGGAGGGGTAG	MLKPDSTLLDRNAALAQRDAAVNERDTALAKVDFLQNTRSWRFTRPLRTLFRVLRYGFSAYREFPETAPAIVYPAAPEPLPNVEVQADFATRGQLDILCFANIDWAARFQRPQQLMSQFASNGYRVFYIVPSSVPEQGQLYRVTSVASNLFEVALHRDVQMAYYEKIVTPENHQALLRAIAALVTDMQIRTALSVVHIAYWSPVVLSLRTLHGWRIHYDCMDDWDGFPNIGEQLLSEEKTLVAQADLVTVSAAVLYQKWCAHNPRCVLVRNAVDFAFFHQHCFTNDLLSGLVGPVIGYYGALAEWLDYPLLAALADLRPTWNFILVGDIFVEDLAGLEHKPNVRLLGRKPYTDMPLYLDHFDACLIPFRLYNVTHAVDPVKFYEYLSAGKPVISTPLAEIAIYKDLLYFATGVDEFIEQIERALAERDLALYKRRVELARANDWKDRFNSMQLAIVGLYEKVSIVIVTYDNLNLTIQCVNSILRNTTWPNYQLIVVDNGSDDGTQDYLERLGREVPFTKIILNPDNRGFAAANNQGLREADGDVLLLLNNDTVVPGGWLDPLVRLLRDPSIGLVGPVTNAVGNEAKIEISYTDIQQMQAFADHYTVARKGQSFDISMLAMFCVAFRRTTFDEVGYLDETFGIGLFEDDDYSRRVQAAGYRTVCAEDAFIHHYGQASFSKLIASGEYQALWDKNQAYFESKWGAWQAHVHRDEPGAEG				NA	NA	NA	NA	NA
D1-35_02514	687			hypothetical protein	ATGCTAGATCTCTCTCGTCTCACGCCAGCGGCGCTAAAGGATCAGCCGTTCTCATGGGCTGAAATCGGCAACCTGTACTCGGCCGAGGATGCCGCCGCGTTGGCAGCGTCTTTTCCTCATGATCACTTCAAGACCGTGAGTGGTTATGGCGGTGAAAAAAACTATGACTACGAGGCACGAGCCTTGTTGGGCATGGGCGACGATACCATCGCTCATGCGCAGGAATTGAGCGAGGCATGGTTGCGGCTGGCTCGGGATCTTGGCTCGGCTGGTTATCGCGAAGCCATGTCGCAAATGACTGGAATCGATCTGCGCAGCGTGCCGATGGAGGTCAATGTCTTTCATTACGGTCCGGGTGCGAGCCTGGGCGCCCATCCGGACCTGCCCGATAAACTGGTCACCCATATCCTCTATTTCAATGAGTCCTGGGACCGCAACGACGGCGGTTGCCTGAACATCCTGCACCGCAACGATCCCAGCGCAGTGGCGGCCGAGATCGAGCCCCTGGTGGGTAATTCGGCGATCCTGGTGCGCTCGGATAATTCCTGGCATGCCGTCACGCCCGTAGTCAATGGCTGCCATTCTTCCCGTCGTAGCCTGACCGCAACGTTCTACCGGCCGGGCTCGCGCAGTTCCATGTGGCCGCCGGATGACAGCACGCCGCTGCATCGGTACCCGCATGCTTAA	MLDLSRLTPAALKDQPFSWAEIGNLYSAEDAAALAASFPHDHFKTVSGYGGEKNYDYEARALLGMGDDTIAHAQELSEAWLRLARDLGSAGYREAMSQMTGIDLRSVPMEVNVFHYGPGASLGAHPDLPDKLVTHILYFNESWDRNDGGCLNILHRNDPSAVAAEIEPLVGNSAILVRSDNSWHAVTPVVNGCHSSRRSLTATFYRPGSRSSMWPPDDSTPLHRYPHA				NA	NA	NA	NA	NA
D1-35_02515	2763	btuD_5		Vitamin B12 import ATP-binding protein BtuD	GTGCCGCTAACGGAAGTGACTCATGGAAGGGCTTTGCCGATGTCGTTTGAAGTGGCCATCAGCGCCGAGAACCTGAGCAAGTGTTATCAGATCTACGATGCGCCCAAGGACCGCCTGTTGCAGATGCTGGTGCGCGGCAGGAAGCGTTTCTACCGCGAGTTCTGGGCCCTGGACGATGTTTCCCTGACCATCGCAAGGGGGGAGACCGTCGGCATAATCGGCCGTAACGGCAGTGGCAAATCCACCTTGTTGCAACTGATCTGCGGAACGTTGATGCCGACCCGGGGCAGTGTTCGCGGGCATGGCCGGATTGCGGCGTTGCTTGAGCTCGGGTCGGGTTTCAATCCGGAGTTCAGCGGCCGCGAGAACGTCTATGTGAACGCGGCGGTGCTGGGCTTGAGTCGCGCGGAAATCGATGCTCGTTTTGATGACATCATTGCCTTCGCCAACATCGGCGACTTCATCGACCAGCCCACCAAAATCTATTCCAGCGGGATGCTGGTCCGGCTGGCCTTCGCCGTTTCGGTCTGTGTGGAACCGGAGATCCTGATCGTCGACGAGGCCCTCTCCGTCGGCGATGCATCTTTTCAATTCAAATGCCTGAACCGCCTGGAAGAACTGGCTGCCAAAGGCACCACGCTGCTGTTCGTCTCCCACGACATGAGCATGGTCAAACGGTTTTGCCACCGGGTCATCTATCTGCGCGCAGGCCGCGTCGTTGCCAGCGGCTCACCCGATGAAATGGCCGAGTTGCACTTGCTCGACATGCGTGACGAGCAACGTCGCTGGGCCAGTGGCGGGGCCATACCGGTTACACAAAAATCCTTTATTGGCGGTCAGCAGGGGATGGCCTTTGGAACCGGGGAGGGACACATCAGCGCCGCCTGCTTCACCAACACTCGGCAGCTTTCTTCGAGTTACCTGTATGGCGACGACGTCGAGATTCGCGTTGAAGCGTTACTGCATGAGTCGATCACTCAGCCCAACATCAGCTTCACTATCCAGGAAGCGAGGCTGCTGGTGATCGGCGGGGGCAACTTCGCCCTGCAGCCGGGCCCGGTCGAAAACGGCTTGCGGCATACGGCCATTACGGTGCGCTTCCCGGCCAACCTCGCCGAGGGGCGTTACCACGTCACGCTCAAGCTGTTGCATGGCGCGACGGAAGACACCTCGCAACTGATCGAGAAGCAAGTCGCGCCCTTGGCGTTCGACATGTTGCCCAGCCACAAGCATTTCCTGGGTATGGTTGACTTGGGATTGCAGAGCGTCGACCCGCGAGCGGCCGAGTCGCCTCCCAAGACCTGCGGGATTCAAGCAGAGGAGGACCTGGCGGAACACTTGGATGAGCGCACGTGGCAGGTGGCTATCTTCGGCACCTTCGACGTAGAAAACTATGGTGACCTGCTGTTCCCCATCATCGCCGAGGCAGAGCTGGCCCGGCGCTTGGGTTCGGTCAATCTGCAGCGGTTTTCCTATCATGGGAAAACCCCATCCGAATGGCCCTATGCGGTGACGTCGTTGACAGAGCTGCCCGCTGTAGCGGCAGGCCTGGATGGCGTGTTGATCGGCGGTGGTTTCCTGATCCGATTCGATAAAGTCGTTGCCCATGGCTATGGTCCGACCACTGCCGACATCCATCACCCTACCGGTTATTGGCTGACCCCCGCGCTCATCGCGCTGCAGCATGCCGTTCCGGTCATGTGGAATGCACCGGGGATGCATTGCAACAGTATTCCCGATTGGGCCAGGCCGTTATTGACGATGGCCCTTGAGCAGAGCCGGTACGTGCGCGTCCGTGATGCCCTGTCGCGCGATACCCTCGGCGCGCTCAGCCAGCAAATCGAGATCGAAGTGCTGCCCGACACCGCGTTCGGCTTGCCGCGCCTGATCGGTGAGCAACGGCCCTCGGCCGAGTTTGTTCGGCTGCGCGAGCATGCCGGGCTGACCGGGCCCTACATCGTGATCCACGCCATTCATGTGGTGGAGTCCTTTGTAAAATTGTTCGAAGACCACCCTGAGGCGTTCCTGGGCTACCAGTTCCTGGTGGTGCCGATTGGACCGGTCCTGGGCGACGATCCGTCAGTGATTGCCGGGCGGCTGCCCGGATCCATCACCTTGCCGTTCTGGCCGAAGCCGTTGCTCATGGCCGAAATTCTCAGCCAGGCCCAAGCGGTGATCGGCCATAGCTATCACCTGGCGATCACCGCCCTGGCGTTTGGCGTGCCGGTGTTTTGCTCGGCGGACCTGACCACGGGCAAGTACACGGCGCTGGCGGGGTTCGACACGCTACATGCGTTGCCGAACGTCGCGACGATCGATCCGCAATGGTTCCTCGCCCGCGTGGGCAAGACTCAGCCATCGCCCTTGGCGCGTGCGGCGGCGGATCAGTTGGTGGAGCATTGGGACCGGGTCGCTGAGATCATTCGCCAAGGTAAAACGGCGTCACAGCCGGTGCTGGGGGCTTTTCTGCAGCACCTGCCGAATCTGCTCGAAGCCGCGGCCGAGACGTGCTACCCAGTGCCAGCTGAATCGCCGGTGAGTCCGGTCATCCCTGTGCCGCAGATCAACGAACCCGCGCAGGACCTGGCAGCACGAGAGCTTGCCCAACAGCAACGGATCATCCAGCTCCGTGAGCAACTGGCTCGCAGCGATGCCAGGATGCGTGAGCTGCAGAACTCCAATTCATTCCGAATGACCGCGCCACTGCGTTCCATCGCCCGTGGTATCAGAAACCTGACAGCGAACAAAGACCGACAATGCTAG	MPLTEVTHGRALPMSFEVAISAENLSKCYQIYDAPKDRLLQMLVRGRKRFYREFWALDDVSLTIARGETVGIIGRNGSGKSTLLQLICGTLMPTRGSVRGHGRIAALLELGSGFNPEFSGRENVYVNAAVLGLSRAEIDARFDDIIAFANIGDFIDQPTKIYSSGMLVRLAFAVSVCVEPEILIVDEALSVGDASFQFKCLNRLEELAAKGTTLLFVSHDMSMVKRFCHRVIYLRAGRVVASGSPDEMAELHLLDMRDEQRRWASGGAIPVTQKSFIGGQQGMAFGTGEGHISAACFTNTRQLSSSYLYGDDVEIRVEALLHESITQPNISFTIQEARLLVIGGGNFALQPGPVENGLRHTAITVRFPANLAEGRYHVTLKLLHGATEDTSQLIEKQVAPLAFDMLPSHKHFLGMVDLGLQSVDPRAAESPPKTCGIQAEEDLAEHLDERTWQVAIFGTFDVENYGDLLFPIIAEAELARRLGSVNLQRFSYHGKTPSEWPYAVTSLTELPAVAAGLDGVLIGGGFLIRFDKVVAHGYGPTTADIHHPTGYWLTPALIALQHAVPVMWNAPGMHCNSIPDWARPLLTMALEQSRYVRVRDALSRDTLGALSQQIEIEVLPDTAFGLPRLIGEQRPSAEFVRLREHAGLTGPYIVIHAIHVVESFVKLFEDHPEAFLGYQFLVVPIGPVLGDDPSVIAGRLPGSITLPFWPKPLLMAEILSQAQAVIGHSYHLAITALAFGVPVFCSADLTTGKYTALAGFDTLHALPNVATIDPQWFLARVGKTQPSPLARAAADQLVEHWDRVAEIIRQGKTASQPVLGAFLQHLPNLLEAAAETCYPVPAESPVSPVIPVPQINEPAQDLAARELAQQQRIIQLREQLARSDARMRELQNSNSFRMTAPLRSIARGIRNLTANKDRQC	PGPT0023305_1	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
D1-35_02516	516			hypothetical protein	GTGCTGGCCAATACCAACTACGTCAAAAAGATCGTCTTCCCGCTGGAAACCCTGCCGATGGTGTCGCTCGGCGCTGCGCTGTTCCACATGGCGATCAGCATCCTGGCCTGGCTGCTCTTCTATATCGTGCTGTTCGGAACCCCTCCGGCAACTGCCCTTCTGCTGCCGTTGGTGCTGTTTCCGTTGGTGTTGTTGACGCTGGGTATTTCCTGGTTCCTCGCCTCGATAAGCGTATACCTGCGCGATATCGGCCAATTCATCGGCATCGTCATAACGGCGATGCTCTTTCTCTCGCCGATTTTCTACCCCCTTACGATACTTCCACAAAGCTATCAGGCCGCCTTGCAGGCGAACCCCCTGACGCTGCCGGTGGAAATGGTTCGTGACGTACTGTTCTGGGGCAGGACACCGCAATGGGCGCAGCTGGCGGCTTATTCGGCAATTTCCTTGCTGATTGCCTGTGCCGGATTCGCCTGGTTCCAGAGGACACGCAAAGGCTTTGCCGATGTCATATGA	MLANTNYVKKIVFPLETLPMVSLGAALFHMAISILAWLLFYIVLFGTPPATALLLPLVLFPLVLLTLGISWFLASISVYLRDIGQFIGIVITAMLFLSPIFYPLTILPQSYQAALQANPLTLPVEMVRDVLFWGRTPQWAQLAAYSAISLLIACAGFAWFQRTRKGFADVI	PGPT0023304_1150	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
D1-35_02517	2475			hypothetical protein	ATGTCCAAGGGACTGGAAGAACGCATGGATCAGATCAACCGTCTTGTCGATCACATTGACAAACTGACTCGCTCAACACAGTCCAGATCCATTGAAGCCTTGCAGTTGGTCAAGGAAATCGAGAATCGGGACCGGCTGATCAAGCAACTGAACCTGGGCTCACAAGCGCTTCGCACTCGCCTGTCGCTTCAGGAAGGCAAGGCCGGGCGACTGCGCGAGCAATTGCAAGTGACCGAACGGCGCCTCAAAGACACCCAGGCATCACTTCGCGCAAAAGAACGGCAAGCGGTGGAGCTGTCTGATTGGGCGGTGGATCTGCGCGCACAACTGGCGGCGAAGCAGACTGAGCTGCTCAAGCTTTCTGACTGGGGCAACGCCATCGAACGCGCACCGCTGCGTTATTCGATACGCAAGCAGCTGTATAAATTATCGCGCCGGATCTACGCCTGGTTGCCGCTCACCGCACAGCAGAAAAGCAGGCTGGCCCAGCGGCTTCGAAGCTGGCTGAAACGCACCACGGCGACAGCCGGCGAATCATCGGCGTCCCCAAGCCTCGCGCCGCTGCAACCCCTGCTACCACCGATTGACCTTGCCGTGCCATCCAGTCACGGGCAGCCGACGATCCTGATGTTCGGCGTGATCGATTGGCACTTCCGCATCCAGCGCCCACAAAACCTGGCCAAGGAGTTGGCGCGGGCGGGACAAACGACGTTTTATATTTCCAACCACTTTATCGACGATGATGCTCCCGGCTTCGAGGCGGAGCGCCTGGAAGGCTCCGAGCGGCTGTTCCAGATCCGTTTCAAGGTGCGCGGGGCTCCGGCCATTTATCATGCCCCGCCTTCAGCGGCCGCGATCAGCCAGTTGCGCCAAGGCCTGGCCATGCTGCTGGACGCGGCGAACGTCGCCGCCGTGGATTGCATCGTCCAGCACGCCTACTGGTTCCCGCTGGCAAGACGTGTCCCCAACGCCACGCTGGTCTATGACTGCATGGATCATCACGAAGGTTTCGGCAATGTTGCCCAGGAACTGCTCGACCTGGAAATCGCCTTGATGCGCCGGGCCGATCTGCTGGTGGCGACTTCCGACTGGATCGAACAACACGGCAAGCGGGAAAACCGCAACGTAGAGGTGATCCGCAACGCCTGCGAATACGGTTTTTTCAGCCAACGTCCCGACAAGATCTACCGGGACCCGGCCAACAGAAAGATCATCGGCTACTACGGCGTCATCGCCGAATGGTTCGACCTGGAACTGGTCAAACGCGTCGCCCAGTCCTTCCCACAGCAGCTGATCCTGTTGATCGGCAGCGATATCGTCCAGGCGAAAAAATATTTCAAGGCCTGCCCGAATGTGGTCCTGGAAGGCGAAGTCCCGTATGCCTCCCTGCCCTATTACCTCTACGCCATGGATGTTTGCCTGCTTCCGTTCAAGGTCATGCCCCTGACGCTCGCCACCAATCCGGTCAAAGTCTATGAATACCTGAGCGCAGGAAAACCGGTAGTGTCGGTGAAACTGCCAGAGTTGAGCCAGTTCGGCAAACTGGCCTGGGCTGTTGAACAGCCCTCTGAATTCATCTCTGCCATACGCGGTGTACTCGATGCTCTGCCAGAGGTCGGCGCAACGCCAAAGGCGCGTCAATCGTTCGCCCAGGGCCAGACCTGGCAGCATCGGGCCGCCAGCCTGCGCAAGGCCATCGCGTCATTGCCCCTGCCCAAGGTCAGCGTCGTGGTGTTGACCTACAACAACCTCGAACTGACCAAGGCTTGCCTCGACAGTCTGTTGACCCAGAGCCAGTACCCGAACCTCGAAATCATCGTGGTCGACAACTGCTCCAGCGACCAGACCCCGGCCTATCTCACTGCCTGGGCCAAGGGACATCCCGAACGGATCGTCATCCTCAATCCGGACAACAAGGGATTCGCCGCAGGGAACAACCAAGGGCTCGCGGCAGCCAGTGGCGAGTACCTGGTCATCCTCAACAACGACACGGTCGTCACCGCCGGCTGGATCAGGGGGTTGATCCGTCATCTGAAGGACCACGAGGAAATCGGCATCATCGGTCCGGTCACCAACAACATCGGCAACGAAGCCAAAGTCAGCACCCGTTATGGCCGGATGGAGGACATGCCCGCCGAAGCCGCGCAAATGACCCGTGCCCGAATGGGCGAGTGGTTCGAAATCAACACCCTGGCGTTTTTCTGCGTGATGTTCCCGCGCTCGACCTACGAGCAGATCGGCGGTCTGTGCGAGGAGTACGGCCTGGGGTTCTTCGAGGATGACGATTACTGCCGCCGCGTGCAGCGTCGCGGCCTGCGCGCGGCTTGCGCCGAAGACGTCTTCGTCCATCACCACCTGTCCGCCTCGTTCAACACCTTGGGTGCCAGGAAAAAACAGGCACTTTTCGAGAAGAACCGGGCGATCTACGAGAACAAATGGGGATCCTGGGTTCCGCACACGTACCGAGATGTATAG	MSKGLEERMDQINRLVDHIDKLTRSTQSRSIEALQLVKEIENRDRLIKQLNLGSQALRTRLSLQEGKAGRLREQLQVTERRLKDTQASLRAKERQAVELSDWAVDLRAQLAAKQTELLKLSDWGNAIERAPLRYSIRKQLYKLSRRIYAWLPLTAQQKSRLAQRLRSWLKRTTATAGESSASPSLAPLQPLLPPIDLAVPSSHGQPTILMFGVIDWHFRIQRPQNLAKELARAGQTTFYISNHFIDDDAPGFEAERLEGSERLFQIRFKVRGAPAIYHAPPSAAAISQLRQGLAMLLDAANVAAVDCIVQHAYWFPLARRVPNATLVYDCMDHHEGFGNVAQELLDLEIALMRRADLLVATSDWIEQHGKRENRNVEVIRNACEYGFFSQRPDKIYRDPANRKIIGYYGVIAEWFDLELVKRVAQSFPQQLILLIGSDIVQAKKYFKACPNVVLEGEVPYASLPYYLYAMDVCLLPFKVMPLTLATNPVKVYEYLSAGKPVVSVKLPELSQFGKLAWAVEQPSEFISAIRGVLDALPEVGATPKARQSFAQGQTWQHRAASLRKAIASLPLPKVSVVVLTYNNLELTKACLDSLLTQSQYPNLEIIVVDNCSSDQTPAYLTAWAKGHPERIVILNPDNKGFAAGNNQGLAAASGEYLVILNNDTVVTAGWIRGLIRHLKDHEEIGIIGPVTNNIGNEAKVSTRYGRMEDMPAEAAQMTRARMGEWFEINTLAFFCVMFPRSTYEQIGGLCEEYGLGFFEDDDYCRRVQRRGLRAACAEDVFVHHHLSASFNTLGARKKQALFEKNRAIYENKWGSWVPHTYRDV				NA	NA	NA	NA	NA
D1-35_02518	2409			hypothetical protein	TTGCCTGGATCAAGCCTGAAATACGCAGTGGTGCTGTTGGTTTTACTGGCGAGTACGGCGGTCGGCGTGTACGGTTTTTCGACGCTTGAACTGGCGTCCATGAACAGCAGCAGCCGCACGATACTGCTGTCAGTGGCAGTCCTGGCGGCCCTTACCGCTTTCACTCGCAAGCCGCCGATCATTCTTTGCCTTGGCCTGCTGGCGTGCCTGACCATTGCCTGCGCGCAGATCTGGCCGATGATTGTCGTCGCGGTCTTCGCGCTGTCTGCCACCGTGCTCGGCAGGTGGCTGCTCAGGCAAGAAAATCCGGCCGACTGGAGCATCCATCTGCTGATGGGCATCGGCACGTTCGGTACGCTGACAGGCCTGGCTGCGTATATGCCGATCAACTATCCCTGGCTGTATGGCGCGATGCTGGCAGTGCCGCTTGTACTGGGGCGCAAACAGGTCCTGTCGATAGGTCGCGAACTGCTGACACAAATCCAGGCCACCCGCTCGGCACAAACGCCCCTGCAAACCGGGCTCGATGTATTGATTGGCGGCTTCGCCTGCCTCTACGTGCTGGTAGCCTTCATGCCGGAGGTCGGCCACGACGCCTTGGCCATGCACCTCTTCGTCCCTTCACACCTGGCCCAGCGGCACCAATGGTCGTTCGATGCAAACACCTATGTGTGGGCCGTCATGCCCATGCTGGCCGACTGGATCTATAGCATCGTCTATATGCTGGCGGGCGAAACGGCGTCACGCCTGAGCAATAGCGCGTTCGCCTTGCTGGTGGCGTGGCAGATTCGCAACATGACCCTTTGGGCCGGGGGCTCCGCCACGAGCGCTCGCGGGGCAAGCCTGATCTTTCTGTCGACGCCCCTCGCCTTCGCTGAAAGCAGCAGCCTGCATATAGAGTCGGCGTGGACCGCCTTCATGCTGGCCGGGACCCTGGCAATCCTGAAGGTCTCAGGCTTCACTGCGGATCCTCGGGAACGCCTGTCGCAACTGGCCCTGGCCGGTGTCCTGCTGGGCTTCGCCATGGCGACCAAGGCGGTGACGCTGAGTGTCCTGCCGGTCCTGCTGTTGGTCCTCTTGCTGCAGTACAAGGCCTGGGCCATGCGAGGAATCGTCAAGACCCTCATGCTCGGCAGCGCCGGCCTGCTGCTGGCGGGCGCTACCCCTTACGTCTGCGCCGGGTACTTGACCGGTAATCCGGTGTTCCCGTTTTTCAACGGGGTTTTCCATTCGCCGCTCTGGCCGGACATGAACTTCGAACCGCCCGCCACTTTCGGTACCGGGATGACCTGGGACACCCTCTATCGAATGGTCTTCCAGTCGCCGCAGTTCATCGAGGGGCGGGTCGGCGCGGCGGGTTTCCAGTGGCTGCTGCTACCCACAGCGGCCGTCGCCGTGCTGTTGAGCGGCAACAAAAAAGCCCTGTGCATCCTCCTGGTCGGCGCCGGCGCGATGTTCATGACGTTCCAGTCAACGGCCTACCTGCGTTATGTGTTTCCCTCCTTTGCGCTGTTCTCGGTGATCCTCGCCCTGCCCTTTTCCGACGCCAGGGCCTTCCCCCGCAGCCTCGCCATCGCGGCCGGTGCCGTGTTGGTCCTGGCCAATACCCGCTTCATCCAGGCCGCGACTTACTATGGCGAAATCAAACCCTCGGCACTCTTGAGCCAGGCCGGTCGGGAGGCCTTTTTGCTGGAGCGCCTGCCGATCCGGAAAATGGTCGACACCGTCAACGCCTTGAACAGCGGTTATCAACCCGTGGCGGTTTTTGCGTCGCCCTTGATGGCGGGTTTGCGTGGCGATGCCCTTTACGCATCGTGGTACAACCTGAAGTGGAAGGGCGAATTCGACGCAGCGACCTCGCCGGCGGAGCTTACCCGGCGCTTGCGCCAGCGCCAGGTGAACTGGCTGGTGATCGATCTCAAGTCTCTTCCCCAGGCGCAACTCGACCGCCTGCTCGCCGTGTCCACGTCATATTCCAGGCTGGGTAACCTGGACCTGCGCAAACTCAACGCCACCCACTACGAGCTCCTGCTCAATCCGGACCTGTCCAGCCTCGACGGCTGGAACCTGCTGTCGCCCTCGACCTATGACACCTCGCGCAAAATCCTGACCGTCAACGTCAACACACCCGCCACCCAGCGCGTCGACGTCACGCCGGGGCTGACCTACATCAACAGTGTGTCCGCACGCTGCGCGGAGGCAGCCACTACCGGAAGAATCCAGGCCAACTGGATTGACGACCAAGGCGACTTCATCAGCGCCAGCATCGCAACGTTTGATTGCACCACGCATTGGGAGACCCATGAGATGAGTGTCATCGCCCCGGCTAATGCCACGTCCGCGGTCATTTATGCGTCCGGGCATACCGACACTCCCCTGGAGTTCAAATCACTTTCATTCAGGCAATAG	MPGSSLKYAVVLLVLLASTAVGVYGFSTLELASMNSSSRTILLSVAVLAALTAFTRKPPIILCLGLLACLTIACAQIWPMIVVAVFALSATVLGRWLLRQENPADWSIHLLMGIGTFGTLTGLAAYMPINYPWLYGAMLAVPLVLGRKQVLSIGRELLTQIQATRSAQTPLQTGLDVLIGGFACLYVLVAFMPEVGHDALAMHLFVPSHLAQRHQWSFDANTYVWAVMPMLADWIYSIVYMLAGETASRLSNSAFALLVAWQIRNMTLWAGGSATSARGASLIFLSTPLAFAESSSLHIESAWTAFMLAGTLAILKVSGFTADPRERLSQLALAGVLLGFAMATKAVTLSVLPVLLLVLLLQYKAWAMRGIVKTLMLGSAGLLLAGATPYVCAGYLTGNPVFPFFNGVFHSPLWPDMNFEPPATFGTGMTWDTLYRMVFQSPQFIEGRVGAAGFQWLLLPTAAVAVLLSGNKKALCILLVGAGAMFMTFQSTAYLRYVFPSFALFSVILALPFSDARAFPRSLAIAAGAVLVLANTRFIQAATYYGEIKPSALLSQAGREAFLLERLPIRKMVDTVNALNSGYQPVAVFASPLMAGLRGDALYASWYNLKWKGEFDAATSPAELTRRLRQRQVNWLVIDLKSLPQAQLDRLLAVSTSYSRLGNLDLRKLNATHYELLLNPDLSSLDGWNLLSPSTYDTSRKILTVNVNTPATQRVDVTPGLTYINSVSARCAEAATTGRIQANWIDDQGDFISASIATFDCTTHWETHEMSVIAPANATSAVIYASGHTDTPLEFKSLSFRQ				NA	NA	NA	NA	NA
D1-35_02519	1020			hypothetical protein	ATGAACACAACAACAGCGATTTTCACGGATGAACTACGCGTTGCCGTCGTCATCCCCAGCTATCGGGTCACCGCACACATCGTCGGCGTCATCGACGCCATCGGGCCGGAAGTCTGGCGCATCTATGTCATTGACGATGCCTGCCCGGACGGTTCGGGCGGGCATGTCCTGGCCTCCTGTGACGACCCTCGGGTCAAGGTGCTGCCCCATGACATCAACAAAGGTGTGGGGGGTGCGGTCATGACCGGCTATCGAGCAGCCCTCGCTGACGGCGCGAGTATCATCGTCAAGGTCGACGGCGACGGTCAGATGGACCCTACCCTGATTCCGCTGTTCATCGAACCGATCCTGGCGGGTGAAGCCGACTACACCAAGGGCAATCGGTTTTTCGACCTGGAGGAAGTCCAGTCGATGCCGCGAATTCGACTGTTCGGCAATGCCGTGTTGTCGTTGATGGCCAAACTGTCGACGGGTTACTGGGATCTGTTCGACCCGACCAACGGCTATACCGCGATTCACCGTGACGTCGCCAGGCTGCTGCCCCTGGACAAGGTCAGCCAACGCTATTTTTTCGAGACCGACATTCTGTTCCGCCTGAACACCGTGCGCGCCGTGGTGGTGGACATACCGATGGAAGCACGCTACGGCGATGAGGTCAGTCACCTGAAGATCTCGAAAATCGTCGGCGAATTTCTCTTCAAGCATCTGCGCAACTTCACCAAGCGCGTGCTCTATAACTACTACTTGCGCGACATGTCCCTGGCTTCGATCGAGCTGCCGATCGGGATCCTGATGTTCGTGTTCGGCATCCTGTTCGGCAGTTATCACTGGTTCGAGTCGGCGCAGCATGGCGTCGCGACGCCAGCCGGCACCGTGATGCTCAGCGCATTGCCCATGCTCATGGGGCTGCAATTGATCATGGCGTTTCTCGGTTATGACATCGCCTCGGTCCCCAACAGGCCTCGGCATTCCAGGCGCAGGGCCACTTCATTGCGGGAAGAAAAGTCATTAAAGCGCTAA	MNTTTAIFTDELRVAVVIPSYRVTAHIVGVIDAIGPEVWRIYVIDDACPDGSGGHVLASCDDPRVKVLPHDINKGVGGAVMTGYRAALADGASIIVKVDGDGQMDPTLIPLFIEPILAGEADYTKGNRFFDLEEVQSMPRIRLFGNAVLSLMAKLSTGYWDLFDPTNGYTAIHRDVARLLPLDKVSQRYFFETDILFRLNTVRAVVVDIPMEARYGDEVSHLKISKIVGEFLFKHLRNFTKRVLYNYYLRDMSLASIELPIGILMFVFGILFGSYHWFESAQHGVATPAGTVMLSALPMLMGLQLIMAFLGYDIASVPNRPRHSRRRATSLREEKSLKR	PGPT0017834_680	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0017834-DPM1_like|arnC|ppm1|wcaA-K00721	NA	NA
D1-35_02520	687			hypothetical protein	ATGCTCAGGGAAGTCTTCGTGGAATTCCACCACGCGTTCCGTCGACTGGCAGACCGCTATTTCCAGGTCGGGGGTCTTGAGGTGGAGTTGGGAGCGGGCATCGCGCCCATGCGCGATTCGTACCCGCAGGTATTGGCCACGGACGTTGTCGCCAGCGAGAAACTCGACATGGCGCTCGATGCCCAGGCAATGAGCCTGGACGATGATTCGGTGAGAGCCTTTTATGGCCAGAATTGTTTTCATCATTTTCCTCACCCCGAGTGCTTTTTCACGGAGCTGGAAAGGACGCTCAGGATCGGCGGCGGGGCCATTTTGATCGAGCCCTTTCACGGCCCCTTTGCCGCGTTCCTCTATAGGCGCCTGTTCAAGTCCGAAGGCTTCGACATGCACTTCCCTTCTTGGCATACACCGTCAACCGGCCCCATGAACGGTGCCAACCAGGCCCTCAGCTACATCGTTTTCGTTCGCGACCGGCAGGCGTTCGAGCACAAGTACCCGGGCCTGGAGATCGTCCACCAGGAGATCTGTGGCAGCTACCTGCGTTACCTGATTTCCGGCGGCCTGAACTTTCGCCAGCTGTTGCCTGACGTATTCATCCCTGTGCTCAAGGTCATTGAAAAACTGCTGTATCCGTTGCACCGGATATTGGCCTTGCACCACATCGTGGTGATCCGGAGGACGTCTTGA	MLREVFVEFHHAFRRLADRYFQVGGLEVELGAGIAPMRDSYPQVLATDVVASEKLDMALDAQAMSLDDDSVRAFYGQNCFHHFPHPECFFTELERTLRIGGGAILIEPFHGPFAAFLYRRLFKSEGFDMHFPSWHTPSTGPMNGANQALSYIVFVRDRQAFEHKYPGLEIVHQEICGSYLRYLISGGLNFRQLLPDVFIPVLKVIEKLLYPLHRILALHHIVVIRRTS				NA	NA	NA	NA	NA
D1-35_02521	414			hypothetical protein	TTGACCTTTATCCGATACGGCGCCATCCAACTCGTGGCCTATGGGTTGGACATGGGGACGTTTTTGCTGCTGCTCGCGCTATTCGATAATCAACCCGTGCTGGCCAACGTCGCTGGCAAAGTCGCGGCCGGGACGTTCGCGTTCTTTTCGCATCGGCATTTCACATTCCAGTCGACACGCGTCGGCAGCAAGGCTCAAGCGCTGCGCTATTTTTCATTGCTCGCCATCAATATTCCGCTCGCTTCGGTGCTGCTCAGCGCGGGGCTGTACCTCATCGACAACCCTGTCCCGGTGAAATTTGTCAGCGACGTGATCTGCGTAGCGCTGACCTACTGGATCAGCAAGCGGTTCGTGTTTCGTACCGATACGCACCCGCCGGCTCCCGCTGACCGAGCCGAAGGCGCACGACCATGA	MTFIRYGAIQLVAYGLDMGTFLLLLALFDNQPVLANVAGKVAAGTFAFFSHRHFTFQSTRVGSKAQALRYFSLLAINIPLASVLLSAGLYLIDNPVPVKFVSDVICVALTYWISKRFVFRTDTHPPAPADRAEGARP				NA	NA	NA	NA	NA
D1-35_02522	1284			hypothetical protein	ATGACGCTACTGATTACCGGCGCGACCGGCTACATTGGACGACGCTTGAGTGCCCTCGCGGCGGCAAGCGGTCACGAAGTCATTTGCGCTACCCGCAAGCCGTGCCCTGCCCCCTATGCCTGGCTTCCTTATGATCTGCGGGGCCCGGCGCCCGAGTGCCCGGCCGGCACTCAGGCGCTGATCCATCTGGCGGCCGACACGTCACCCGATACTGACACTAACGCGGACGCTGAAATAAACGCGGCCCTGGCGCTGATCGATTGCGCCCGACAAGGCTCGGCCAGGTTCATCTTCATTTCCAGCCAAACCGCCGGGGCCACGGCCCCGAGCGTTTATGGCCGGACCAAGTGGCGTATCGAGCAGCATGTGCTCGCCGCCGGGGGTACCGTGATCCGCCCCGGACAAGTGTACGGAGGCCCCGAATGCGGGCTCTTTGGCCTGTTGACCGGGCTGGTTCGCCGGAGCCCAGTCATTCCGATCCTCTTGCCGGCGCCCTGCGTGCAGCCCATCCATGTCGACGACCTCGCGGCCGCGATACTGGCCATCGCCGAGCGGGACGACATTCATGGCGAGGTCCTCAAGCTGGGTGCCGTAAAACCGATTGCCTTTGGGCGCTTCCTGAGCGCCATTGCGACGCACCGGGTCCGCGCCGTGCGCATGCCAATCCCTCTGCCGGTGGCATTGCTCAGGCTGTTGCGGCTGATACTCGGACGATCCTTGAACAGAAAACTGGGCCTGGAGCGGATCTTTTCCCTTATTCATCTGCCGCCCATGGACAGCGAGCGTTCCCTGGAAAAACTCGGCATCGCGTTGCGCCCTCTTGCCCACGGCATGCATCGCTCCGGCCATGGGCAACGTCGAGGCCTGCTTCAGGAAGCGGCGGTGCTCTTGGGCTACCTGCTCAAACGCCCGCCGCAAAAAAGCCTGGTAAGGCGCTATGCAAGGGCACTGGAGCGTGCGGGCAAAACCCGTCCTGTCATTCACTCACGCCTGCTGATGGGCCGGCCGATACTCTTGACGCTGCTGGACAACCCCGGCGTCCTGCGCACGCCCGAGGGCCAGGAACTGGCCTGGCGCCTGCAGGTTGCACTCGGTATCGCCGAAGCCAGCCCCCAAGGCGCGCAGGTATTTCTCGGCACCCGATGGCCGCGCAGCCTTGTCGCCACGCTGGCTGCGTTGGGACTCACCTCGGTCAAAGCGTTGGTGTGGAAGATAGCGGCGTTGTCGTGCCGTGCTTTTGCCCGCCCGCTGCTGCTTGGAAGTGAATCCCACCGTGAAGCCTGA	MTLLITGATGYIGRRLSALAAASGHEVICATRKPCPAPYAWLPYDLRGPAPECPAGTQALIHLAADTSPDTDTNADAEINAALALIDCARQGSARFIFISSQTAGATAPSVYGRTKWRIEQHVLAAGGTVIRPGQVYGGPECGLFGLLTGLVRRSPVIPILLPAPCVQPIHVDDLAAAILAIAERDDIHGEVLKLGAVKPIAFGRFLSAIATHRVRAVRMPIPLPVALLRLLRLILGRSLNRKLGLERIFSLIHLPPMDSERSLEKLGIALRPLAHGMHRSGHGQRRGLLQEAAVLLGYLLKRPPQKSLVRRYARALERAGKTRPVIHSRLLMGRPILLTLLDNPGVLRTPEGQELAWRLQVALGIAEASPQGAQVFLGTRWPRSLVATLAALGLTSVKALVWKIAALSCRAFARPLLLGSESHREA				NA	NA	NA	NA	NA
D1-35_02523	1629			hypothetical protein	GTGCTTTTGCCCGCCCGCTGCTGCTTGGAAGTGAATCCCACCGTGAAGCCTGAGTTCGATGTGATCATTGTCGGCAGCGGCCCAGCCGGGACTTCAGCGGCCTTTCCGCTGGTCAAGGCGGGCCTGCGAGTGGTCATGGTTGATGCCCAGGCCAACAGCGACTCACCGGTGCCGCCGACCCGCCCATTCCTCAGTGCCAGGGCCGACGACGCGCATCAGTGGAAATGGATGATCGGCGAAAACTTCCACGCCCTGGACCAACTGGACGCCGTATCGCCCAAGCTGAAGACGCCGACCCACGCCCATGTCTTCGAAGGGTTCAGCGCCGGCAATCGCATCGAGACCAACAACTTTATCGGCATCGGATCACTGGCCACCGGAGGCCTGTCCAATGCCTGGGGTTGCGGCGTGGCAACGCTGGGCGCCGGTGACTTTGCCGGGCTGCCCATCGATTATTCCGAGATGCAGGCGTCCTACGAAACGGTCGCGCGCCGGATCGGTATCAGTGGCCGGTTCAACGACGATCTCTCCAGCTACTTCGGTCTGGATGAGTGGTCGCAACCGCCCCTGCCGCTGGACAGCCTGCATCAGCGCCTGCTCGACCGCTACACCCGGCGCCGAGCGGTGTTTCCCGACCTGGGGTTTCGTCTTGGCCGTTCAAGGGTCGCCGCCTTGAGCCAGCCCCTCGACGAGCGCAAGGCCTGCGATCTTTCTGGAAACTGCTTGTGGGGCTGTCACCACCAAGCCTTGTACAGCGCCTCGCAAGAGCTGCGAAAACTCAAGCAATACCCTGGGTTCCAGCACGTCCAGAATTTCCTGGTGGAGGATCTGCTGAAACAGGACGACTCCTGGACCATCACCGATCATCGCTCCGCCCGGCGCTTGCGCGGTGCGCGCCTGTTGCTGGCGGCGGGCACACTGGCCTCGACCCGGCTCGTCCTCAAGTGCCTGAACCATTCGGCACCGGTACCGCTGCTGTCATCGCCGACGGCGGCCTTCCTGCTATGGCTGCCAAGAATGCTCGGCACCCCGAGAGTGCCGGCATTTGGCCTGGGCCAGCTCTCGTTCACCCTGGAGTTGAAGTCCGGCGCCACAGCTTTCGGTTCGACGTTCAGCACCACGGGCTTACTCATGACCGAGTTCGTCAGCCGGATTCCCATGAGCAAACGCTACAGCATCGAATTGCTGAGGAACCTGCTCAGCGCGTGCGTCGTCGGCAACATCTTTCTTCCCGGGCAGCTGTCCAGCAACACGGCGGTGCTGCGCCTCGACGGTTCGTTGAGCATCACCGGCCAAGTGCATCCCGAACTCCCCGGGATCATGAAAGCCGCCGAGACCAGGCTGCGCCGGATCTATTGGAAGATGGGCGCGCTGTTGATGCCCATGAGCTTCACCGTCGGCAGACCGGGAGCAGATATCCACTATGCGGGAACCCTGCCCATGCACTCGACGCCGAAGATTGGCCAGACCGATCGCCTTGGCCAGGTCGCAGGCCTCGACGGCGTGCATGTCGTTGACGGCGCCTGTCTGCCCAGCCTTGCCGAGAAATCGCACACGTTGACCCTGATGGCCAACGCGGACCGGATAGCACGCTCTCTGACAACAATGATAGGAAATCAGCAGTCATGA	MLLPARCCLEVNPTVKPEFDVIIVGSGPAGTSAAFPLVKAGLRVVMVDAQANSDSPVPPTRPFLSARADDAHQWKWMIGENFHALDQLDAVSPKLKTPTHAHVFEGFSAGNRIETNNFIGIGSLATGGLSNAWGCGVATLGAGDFAGLPIDYSEMQASYETVARRIGISGRFNDDLSSYFGLDEWSQPPLPLDSLHQRLLDRYTRRRAVFPDLGFRLGRSRVAALSQPLDERKACDLSGNCLWGCHHQALYSASQELRKLKQYPGFQHVQNFLVEDLLKQDDSWTITDHRSARRLRGARLLLAAGTLASTRLVLKCLNHSAPVPLLSSPTAAFLLWLPRMLGTPRVPAFGLGQLSFTLELKSGATAFGSTFSTTGLLMTEFVSRIPMSKRYSIELLRNLLSACVVGNIFLPGQLSSNTAVLRLDGSLSITGQVHPELPGIMKAAETRLRRIYWKMGALLMPMSFTVGRPGADIHYAGTLPMHSTPKIGQTDRLGQVAGLDGVHVVDGACLPSLAEKSHTLTLMANADRIARSLTTMIGNQQS				NA	NA	NA	NA	NA
D1-35_02524	1104	wecB	COG0381	UDP-N-acetylglucosamine 2-epimerase	ATGACCCGCAAAGTACTCTGCATCGTCGGTACACGCCCGGAAGCCATCAAGATGGCTCCGGTGATCAACGCCCTCAAGGCCGAAAAAAACATCCAGTGCCGGGTGCTCGCCACCGCCCAGCACCGCGGCCTGCTCGACCAGATACTGAAGGGCTTTGCGATTAACGCCGACCTCGACCTGGACATCATGCGTCCCAACCAGTCTCTGGCAGCGCTGACCTCACGCCTGCTGCGTGAACTCGACGGCGTTCTGCAAGCCGAGAAACCCGATGTCGTACTGGCTCAAGGTGACACGACCACCGTCATGAGCGCCGCACTGGCGTGTTTCTACCTGCGAATTCCCTTCGGCCATGTCGAAGCGGGCCTGCGTACCGGGGACCTGTACAATCCGTTCCCCGAAGAGGCCAACCGGGTCATCGCCGGCAAGCTGGCCCGCTGGCATTTCGCGCCGACCCAGGGCGCCGTGGCCAACCTGCTGGGCGAAGGTGTTGCCGCCAGTGATATCACCCTGACCGGCAATACCGTCATCGATGCCTTGCTGATGACCGCGGCACAGGACTCAGCCTTGACCGTCCCACTCGATGCGCACAAACGCATGGTGCTGGTGACCTGCCATCGTCGGGAAAACTTCGGCGAACCGTTCCAGGATATCTGCCAGGCACTCAAGCGCCTGGCAGAACGGAACCCGGACATCCAGATTCTCTATCCCGTCCACCCCAACCCGAACGTCAAGGACGTCGCGCATCAGTTGCTCGGCCGAACCCCGAACATCATCCTTTGCACACCGCTGGACTACGCTCCGTTTGTCGCGGCGATCAAGCGCTCATACCTGATCATCAGCGATTCCGGGGGCGTGCAGGAAGAAGCCCCTGCCCTGGGTAAACCGGTGCTGGTACTCAGGACAGAAACCGAACGCCCCGAAGCGGTCGACCTCGGCGTAGTCAAGTTGGTGGGCGCCAATCGGGACACCATCGTTGAACAGGCACAGCATCTCCTGGATGACCCTGAGGCCTATCAGGGCATGGCGCGGGGCGTTTCCCCCTATGGCGACGGCAGGGCCGCAACGCGTATTGCCGACGTCCTGCGCCAGCACTTTCAGCCATGA	MTRKVLCIVGTRPEAIKMAPVINALKAEKNIQCRVLATAQHRGLLDQILKGFAINADLDLDIMRPNQSLAALTSRLLRELDGVLQAEKPDVVLAQGDTTTVMSAALACFYLRIPFGHVEAGLRTGDLYNPFPEEANRVIAGKLARWHFAPTQGAVANLLGEGVAASDITLTGNTVIDALLMTAAQDSALTVPLDAHKRMVLVTCHRRENFGEPFQDICQALKRLAERNPDIQILYPVHPNPNVKDVAHQLLGRTPNIILCTPLDYAPFVAAIKRSYLIISDSGGVQEEAPALGKPVLVLRTETERPEAVDLGVVKLVGANRDTIVEQAQHLLDDPEAYQGMARGVSPYGDGRAATRIADVLRQHFQP	PGPT0018905_2415	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
D1-35_02525	1128			hypothetical protein	ATGAGAATGATCTACCTGTCCCCGGTGCCATGGGCCAGTTTCAGCCAGCGCCCTCATCATTTCGTCAACTGGTATCACCACCAGACTGGCGCACAGGTGCTCTGGATCGACCCCTACCCGACGCGCTTGCCCATGCTGAACGATCTCAGACGAAAGGCGACTGCTATCGATCAGCAAAGCGTCACCGTTCCGCCCTGGTTGAAGGTTTGCAGCCCGTTGAGTCTGCCCATCGAGCCCCTTCCAGGCTCGGCAATGCTCCTCAAGAGACTGTGGCGCAACGTGTTCAGGTTGGCCGCGGCATTTTCCGCGCAAGGGCCTTGTATGATCTGCGTGGGGAAACCTTCCGAACTGGCCTTGCAACTGCTGGCGCTCAACCCTGCAAGCCATGCCGTATACGATGCCATGGATGATTTCCCGGCCTTTTATCAGGGACTGTCACGCAGATCCATGGAGCGTCGCCAGGCGCAGCTCATTCAACGGGTAAACAAAGTGCTGGCCTCCTCCAGCCATTTGCGCGACAAACTCCTCGGCCTGACCGATCAGGTAGAACTTGCCCTCAATGCCTGTGACATGCACGGACTTGCGCCGGTCGAAAGCCTGGACCTGGCCGCCAAACAACAAGTACTTGGTTATGTCGGCACGCTCGGTCGTTGGTTCGACTGGGACATGGTCACCGCGCTGGCGCAGGCCAATCCTGGAAACCGCATCCGGCTGATTGGTCCCGTCTTCGCACCAGCGCCCTGCGTATTGCCTGCCAACATCGAGCTGCTACCCAGGTGTTCCCATGCCAGCGCAATCGCGGCCATGGCAACGTTTTCGGTAGGCCTGATTCCGTTCAAGCTCAACCGCCTGACCGCCTCGGTCGACCCGGTCAAATACTACGAGTACCGCGCCCTCGGCCTGCCTGTCATCTCGACCCGCTTCGGTGAAATGGCCCTGCGCGACCGGGAGCCGGGCATCTGGATCGTGGATCAAGGCACTGACCTGCGCAACACCGTCGTTGCAGCGCTCGCCAGTCAAAGCGACCATGCCACCGTTCAGCAATTTCGTCAGGCGCATCTCTGGGCCAAGCGTTTTTCGGCGGTCGACCTCATGCCTGCCTCATTGGAGAAACCAGAAGTCTGGTAA	MRMIYLSPVPWASFSQRPHHFVNWYHHQTGAQVLWIDPYPTRLPMLNDLRRKATAIDQQSVTVPPWLKVCSPLSLPIEPLPGSAMLLKRLWRNVFRLAAAFSAQGPCMICVGKPSELALQLLALNPASHAVYDAMDDFPAFYQGLSRRSMERRQAQLIQRVNKVLASSSHLRDKLLGLTDQVELALNACDMHGLAPVESLDLAAKQQVLGYVGTLGRWFDWDMVTALAQANPGNRIRLIGPVFAPAPCVLPANIELLPRCSHASAIAAMATFSVGLIPFKLNRLTASVDPVKYYEYRALGLPVISTRFGEMALRDREPGIWIVDQGTDLRNTVVAALASQSDHATVQQFRQAHLWAKRFSAVDLMPASLEKPEVW				NA	NA	NA	NA	NA
D1-35_02526	918	perR_1		HTH-type transcriptional regulator PerR	ATGCGTACCGATGCCGATGCCCCTTTGATTCTTCCACCGCTGAAAGCAATTCAGGCTTTTGAGCAAACGGCCCGGTTCAGCAATGTCGCCAGGGCGGCGGAAGTGCTGGACCTGACACCGTCCGCGGTCAGTCATCAATTGGCGAAACTTGAAGCGATGATTGGCCGGCAACTGTTTGTGCGTGCCGCGCGGGGCGTCACGCTCACGCCTGTGGGGGAGCAATACCTCAAGGAGGTGTCCGGGTTGCTCCATAGCCTGGCCGTCGCCACTGAACGCGCGGCCAGCGACGTGAGCCTGGACTGCTTGCGCCTGCATTCGGCGCCCAGCTTCGGGTTGTTGTGGTTGATGCCGAGGCTGGAAGCTTTTCGGGCGTCCAACCCTGATATCCAGATCAATCTTTCCTGCTCTTACGAATCGCTGCATTTCAGTCGGGACAAGATTGACGTGGACATCCGCCACGGCACTGCAAACTGGCCCAGTTATGAAGTCCGTACCGTCCAGAACGAGACCTTCGCGGTGCTCGCTTCGCCAAAACTGCTCGCGCAATGCCCGATCCGCAACGCGTCCGATTTGTTGAATTGCGACCTGGTGCTTTCGGAAGCCACGTTGCTCAAATGGCCGCAATGGTTTGCGCAACATGGCCTGGCGCGCCCGGAGAAGCCTTATGCCTTGAGCTTCGACCGGTCGTACATGTCGCTGGAGGCCGCCAGTCATGGCTTGGGGTTTGCCTTGGAAAGCACATTGCTGGCCAAGAAGTATCTTGCCACCGGCAGCCTGGTCGAGGTGGCACCCGAGGCGCTCAGCGCACCGGTGGCTGCCCATCACCTGGTGTTTCCGAAGGCCCACTCGAGCTTCCCCCGCGTCCGGCGTTTTCTGGAGTGGATGGAAAGTGAGCTGGGGCAGGGCTTCGCCTATTGA	MRTDADAPLILPPLKAIQAFEQTARFSNVARAAEVLDLTPSAVSHQLAKLEAMIGRQLFVRAARGVTLTPVGEQYLKEVSGLLHSLAVATERAASDVSLDCLRLHSAPSFGLLWLMPRLEAFRASNPDIQINLSCSYESLHFSRDKIDVDIRHGTANWPSYEVRTVQNETFAVLASPKLLAQCPIRNASDLLNCDLVLSEATLLKWPQWFAQHGLARPEKPYALSFDRSYMSLEAASHGLGFALESTLLAKKYLATGSLVEVAPEALSAPVAAHHLVFPKAHSSFPRVRRFLEWMESELGQGFAY	PGPT0026360_3181	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
D1-35_02527	750	fabG_4		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGCTTCTTCAAGGCAAAGTCGCAATCATTACCGGCGCCGCATCTGCCCGTGGCATTGGCCGCGCCACCGCTACGACGTTCGCCCGGCACGGCGCCCGCGTCGTGATTCTCGACCTGGATGAATCTGCCGCACGCGATGCCGCCAGCGCCCTGGGCGACAGTCATCTCGGCCTTGCCGCCAACGTCGCCAATGAAGCGCAGGTCCAACGGGCCGTCGCCCGCGCCATCGAACATTTCGGCCGAATCGACGTTCTCATCAACAACGCGGGCATCACCCAACCCCTCAAGACCCTCGATATCCGTGCGTCGGACTACGACAAGGTATTGGACGTCAGCCTGCGCGGCACCCTGCTCATGTCACAAGCCGTGATCCCGCTGATGCGCGAGCAGCAAGGCGGCAGCATCGTCTGCATGTCTTCGGTGTCTGCCCAGCGCGGTGGCGGCATATTCGGTGGGCCACACTACAGCGCCGCCAAGGCCGGTGTACTGGGCCTGGCCAAGGCAATGGCGCGCGAACTGGGCCCGGACAAGGTGCGGGTCAACTCCATCGCCCCAGGTCTGATCCACACCGACATCACCGGCGGCCTCATGCAGGACGAGCGTCGTCACGCAATCATCGAAGGTATTCCGTTGGGTCGCCTGGGTGCGGCCCAGGACGTCGCTAACGCCGCCCTCTTCCTCGCCAGCGACTTATCTTCGTACCTGACGGGCACCACGTTGGATGTAAACGGTGGAATGCTGATTCATTGA	MLLQGKVAIITGAASARGIGRATATTFARHGARVVILDLDESAARDAASALGDSHLGLAANVANEAQVQRAVARAIEHFGRIDVLINNAGITQPLKTLDIRASDYDKVLDVSLRGTLLMSQAVIPLMREQQGGSIVCMSSVSAQRGGGIFGGPHYSAAKAGVLGLAKAMARELGPDKVRVNSIAPGLIHTDITGGLMQDERRHAIIEGIPLGRLGAAQDVANAALFLASDLSSYLTGTTLDVNGGMLIH	PGPT0005315_475	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CYCLOHEXANECARBOXYLIC_ACID_DEGRADATION,PGPT0005315-badH-K07535	NA	NA
D1-35_02528	1320	nicT_1		Putative metabolite transport protein NicT	ATGACTACTCTGTCGCTCGAAGCGGTTTCGACCGTGCGCTCCAATGCCTACCGGAAAACGGCCTGGCGGCTGATGCCATTCCTGATGCTGTGCTATTTGTGCGCCTATCTGGACCGGGTCAACGTCGGCTTCGCCAAGCTGCAAATGATGAACGACCTGGCGCTCAGCGAAACCGTCTACGGGCTGGGTGCGGGGATGTTCTTCATTGGCTACTTCCTCTGCGAAGTCCCCAGCAACGTCATCCTGCACAAGGTCGGCGCTCGCGTGTGGATCGCGCGGATCATGATTACCTGGGGCATCATTTCGGCGCTGTTCGCCTTCGTCGAAACGGCCTGGCAGTTCTATGCCCTGCGGTTTCTGCTCGGGGTCGCCGAAGCAGGGCTGGCGCCGGGATTGCTGCTCTATCTCACCTACTGGTTCCCATCCTATCGCCGTGCGCGCATGACTGTGCTCTGGTTCATCGCCATCCCTTTGTCAGGCATGGTGGGCGGTCCGCTCTCGGGCTGGATCATGAACCATTTCGCCGGCGTGCACGGCTGGGCCGGATGGCAGTGGATGTTCGTGCTTGAAGCCATTCCCACCGTCATTGTCGGTTTGCTGGTGCTGAGTTACCTCAAGGACGGCGTCCATCAGGCCCACTGGCTGGACGACGAAGAAAAGGCGTTGGTCAGCGGTGAACTGGCCGAGGACAACCAGCAAAAGGTCACCCATGCCTCGGTGGGCGAGTTCGTCCGCGACCGCCGCCTGTGGTTGTTGGCAGGTATCTATTTCTGCGTCGTCATGGGCCAGTACGCCATCACCTTCTGGCTGCCGACGCTGGTGCGCAACGCCGGGGTTTCCGATCCGCTGCACATCGGTTTCCTGACCAGCCTGCCCTACCTCTGCGCGATCGCGGCCATGTTGCTGATCGGCCGCAGCGGCGACAGGCATCGCGAGCGGCGCTGGCACCTGATCATACCGATGATCGCCGGTGCCATCGGGCTGACGCTCGCCGCGCTGCTGGGTGGCAACATCCTGCTGTCCATCCTGAGCCTGTGCCTGGCGGCATCCGGCATCCTGTCCGCGTCCTCGATGTTCTGGATGCTGCCCACGACCCTCCTCGGCGGGGTGTCCGCCGCCGCAGGCATCGCGGCGGTGAACAGCTTCGCCAACCTCGCCGGCTTCTGCTCTCCCTATCTGATTGGCTGGATCACCACGCAAACCGGCTCCAGCGCCATCGGCATGTACCTGATCACCGCGTACTGCTGGGCGGCGCCTCGCTGGTGCTGCGCATCCCCGCCGCCCTGGTCAATCGTTAAGTTCACCGGAGTTTCACCATGA	MTTLSLEAVSTVRSNAYRKTAWRLMPFLMLCYLCAYLDRVNVGFAKLQMMNDLALSETVYGLGAGMFFIGYFLCEVPSNVILHKVGARVWIARIMITWGIISALFAFVETAWQFYALRFLLGVAEAGLAPGLLLYLTYWFPSYRRARMTVLWFIAIPLSGMVGGPLSGWIMNHFAGVHGWAGWQWMFVLEAIPTVIVGLLVLSYLKDGVHQAHWLDDEEKALVSGELAEDNQQKVTHASVGEFVRDRRLWLLAGIYFCVVMGQYAITFWLPTLVRNAGVSDPLHIGFLTSLPYLCAIAAMLLIGRSGDRHRERRWHLIIPMIAGAIGLTLAALLGGNILLSILSLCLAASGILSASSMFWMLPTTLLGGVSAAAGIAAVNSFANLAGFCSPYLIGWITTQTGSSAIGMYLITAYCWAAPRWCCASPPPWSIVKFTGVSP	PGPT0002325_8	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-ORGANIC_ACID_METABOLISM	P-SOLUBILISATION-TARTARIC_ACID_TRANSPORT,PGPT0002325-ttuB-K13021	NA	NA
D1-35_02529	849	aptA	COG3959	Apulose-4-phosphate transketolase subunit A	ATGACTCGCTCGCTTTCCTCTGCTTCAACCATGTCCCTGACCGAACGCGCCCACAACATCCGTCATCACGCGCTGCGCATGGGTCAGGTCCAGGGCCAAGGCTACGTTGGCCAGGCCCTGGGCGCCGCCGACCTGCTGGCGGTCGCGTACTTCCACGCCATGAACTATCGGCCCGAAGACCCTGAATGGGAACAACGTGATCGCTTCTATCTCTCCATCGGCCACTATGCGATTGCGTTGTACGCGGCATTGATCGAGGCCGAAATCGTTCCGCTCGATGAACTGGAAACCTACGGAGCGGACGACAGCCGCCTCCCCATGTCGGGAATGGCGGCGTACACGCCAGGCATGGAAATCACCGGCGGCTCCCTCGGCCAAGGCCTGGGCATCGCGGTAGGCGCCTGCCTGGGGCTGAAGCGCAAAGGCTCGCCCGCCTTCGTCTACAACCTGCTCTCGGACGGTGAATTGAACGAAGGTTCAACCTGGGAAGCGGTGATGTCGGCGTCGCACTGGAAACTCGACAACCTGATCGCCATCGTCGACGTCAATAACCAGCAGGCCGATGGATACTCCAGCGAAATCCTCTCGTTCGAGCCGATCGTCGATCGCTGGCAAGCCTTTGGCTGGTTTACCCAGCGCGTCGACGGCAACGATCTGGATGCGCTGGTCGCGGCATTCGATGCCGCGCGCAACCATCCCGCCGGACAGCCCCGGGTGATTATCTGCGATACCCGCATGGGCAAGGGTGTGCCATTCCTGGAAAACCGCGAAAAGACCCATTTCATCCGCGTTGAAGAACACGAGTGGGACCTGGCGCTGAACAACCTTGAAGAAGGAAAAAAGTCATGA	MTRSLSSASTMSLTERAHNIRHHALRMGQVQGQGYVGQALGAADLLAVAYFHAMNYRPEDPEWEQRDRFYLSIGHYAIALYAALIEAEIVPLDELETYGADDSRLPMSGMAAYTPGMEITGGSLGQGLGIAVGACLGLKRKGSPAFVYNLLSDGELNEGSTWEAVMSASHWKLDNLIAIVDVNNQQADGYSSEILSFEPIVDRWQAFGWFTQRVDGNDLDALVAAFDAARNHPAGQPRVIICDTRMGKGVPFLENREKTHFIRVEEHEWDLALNNLEEGKKS	PGPT0011200_9587	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
D1-35_02530	1023	aptB	COG3958	Apulose-4-phosphate transketolase subunit B	ATGAACAACGCCGCCAACACACCGAACGCGATGGGTGAACCGGGCAAAAAACGCCTCACCACCTCGGCGATGATCGCCTCGATTGCAGCCGAGGGCCAAGCCACGAAACCTGCACCATTCGGACATGCACTGGCTGCATTGGCCGACCAGCGCCCGGACATCGTCGGGCTGTCCGCCGATCTGTCCAAATACACCGACCTGCACATCTTCGCCAAGGCCCATCCGGATCGCTTCTATCAGATGGGCATGGCCGAGCAGTTGCTGATGAGCGCAGCAGCTGGCATGGCCCGGGAAGGTTTCGTGCCGTTTGCCACGACCTACGCGGTGTTCGCTTCCCGTCGTGCCTACGACTTCATCTGCATGGCGATCGCCGAGGAAAACCTCAACGTCAAGATCGTCTGCGGCTTGCCGGGCCTTACCACTGGTTACGGCCCCAGCCACCAGGCCACGGACGACCTGGCGATCTTCCGCGCCATGCCCAACCTGATGATCGTCGACCCCTGCGACGCGCTGGAAATCGAACAGGCCGTGCCCGCCATCGCCGCGCACCAAGGCCCGGTCTACATGCGTTTGCTGCGCGGTAACGTGCCCCTGGTGCTGGACGAGTACGGCTACACGTTCGAAATCGGCAAAGCCAAGACCCTGCGCACCGGCAACGATGTGCTGATCGTTTCCACCGGGTTGATGACGATGCGTGCTCTGGAAGCCGCAAAGCAATTGCAGGCAGACGGCGTCGACGTCGCGGTACTGCACATGCCGACCATCAAGCCGCTGGATGAACACACCCTCCTTGCCGAGGCCAGAAAGCCGGGACGACTGGTGGTGACCGCGGAAAACAGCTCTATCATCGGCGGGCTCGGCGAAGCGGTTGCCGGGGTCCTGCTGCGCAACGGCGTGACGCCGACGTTCAGGCAAATAGCCTTGCCAGACGCCTTCCTCGACGCGGGCGCGCTGCCGACACTGCATGATCGCTACGGCATTTCCACCCAGGCCGTTTGCGCGCAAATCAAAGCCTGGCTTTAA	MNNAANTPNAMGEPGKKRLTTSAMIASIAAEGQATKPAPFGHALAALADQRPDIVGLSADLSKYTDLHIFAKAHPDRFYQMGMAEQLLMSAAAGMAREGFVPFATTYAVFASRRAYDFICMAIAEENLNVKIVCGLPGLTTGYGPSHQATDDLAIFRAMPNLMIVDPCDALEIEQAVPAIAAHQGPVYMRLLRGNVPLVLDEYGYTFEIGKAKTLRTGNDVLIVSTGLMTMRALEAAKQLQADGVDVAVLHMPTIKPLDEHTLLAEARKPGRLVVTAENSSIIGGLGEAVAGVLLRNGVTPTFRQIALPDAFLDAGALPTLHDRYGISTQAVCAQIKAWL	PGPT0011200_6721	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
D1-35_02531	987	aes_2		Acetyl esterase	ATGCCTGATCAATGGCTCGATCCCGCATTTCGCGGCCTTGTCGCCTCGGGTGCTGAACAATGGTCGCTGAACACGCTGCCGGCCATCCGCACCCGAGTCCATTCGGGCTTCAAACCCGAGCATCGCGCACGATGCGAAGTGCGCTGGATCTCCGGCCCCGATACCGCACGCTTGCGTCTGTGCCTCTATCGGCCGAAAGGCCTCGGGCCAGACGCAAGCCTTCCGGCGATCCTGTCCATCCATGGCGGTGGCTTCGTACTCGGAAGACCCGAGATGGCCGATGACTTCCTGGCCGACCTGGCCGACGAACTGAGTGCGTTCATCGTTGCAGTGGATTATCGACTGGCGCCAGAACATTCCTTTCCAGCGCCCCTTGACGACTGCTACAGCGCCCTCGCCTGGCTGTTCGAAAACAGTCAGGACCTGAGCCTGGATCCCCGGCGCATTGCCGTGATGGGCCATAGCGCCGGCGGCGCCCTCGCCGCCGCATTGGCCATCATGACCCGCGACAGAGCCCGGTTTCCGCTCGCCGGCCAGGTCCTCATCTATCCCATGCTCGATCACCGCACAGGCTCAGCGCAATCACCCTATCCCAGCGGGCAGACCGGGACGTTCAGTTGGTTGCCGGAGCCCAATCAGTTCTGCTGGAGATGCCTGCGCGGTGGCTACGCCCTGGACGATGAACGTGTCGGTCTGTTTTCCCCGGCCCTGCAACCCGACCTGCGCAACCTGCCGCCGACGTTCATTGCCGTCGGCTCTCAAGACCTGTTCCTTGAGGAGGACGTCGATTTTGCAATGCGGCTGTCTCGCGCCGGAGTTGCCATGGAACTCCACGTCTATCCTGGCGCCCCGCATATGTTCGACCAAGTGCCAGGGCGCATCGCGGATCAATTGACCCTTGATATCGTCCGGGCGTTGAAAGGACTTTTGAGCAGCAGTCATGCTTGCCCTCCCTGTCCATCAGCCAGCGCCGCGCCGTTGAGGTAA	MPDQWLDPAFRGLVASGAEQWSLNTLPAIRTRVHSGFKPEHRARCEVRWISGPDTARLRLCLYRPKGLGPDASLPAILSIHGGGFVLGRPEMADDFLADLADELSAFIVAVDYRLAPEHSFPAPLDDCYSALAWLFENSQDLSLDPRRIAVMGHSAGGALAAALAIMTRDRARFPLAGQVLIYPMLDHRTGSAQSPYPSGQTGTFSWLPEPNQFCWRCLRGGYALDDERVGLFSPALQPDLRNLPPTFIAVGSQDLFLEEDVDFAMRLSRAGVAMELHVYPGAPHMFDQVPGRIADQLTLDIVRALKGLLSSSHACPPCPSASAAPLR				NA	NA	NA	NA	NA
D1-35_02532	387			hypothetical protein	ATGTCCCATTCACACTCCCAGGGTCGCAACGACCTCGCCCATGCCCGCCACGTCGAGGCGGCTCTGCTTGACTACCTGCGCGGGCAGAGCGCGCGACATGAAGCCCTGGTGGTCGCCGCGGTCGGTGACCTGCGTATCCGTATCGACGCTGCCGATGCGTTGCTCGAACGCGCCAACGCTTCCCAATCGTCCGCCATTGCCTTTCGTCTGGCTGCTGCCGAGGCGGCGCGTGTCGGCGCCCATCTATTCTTCGAGCTGGCCGGGCGCAGCTTGCCGCGGCCGTTGCCGGATGCAGCCGAGCCGGCGTTGCTGACCCAGCGTCGGCTGCTGGGCGACCATTACCTCAACGGCGCGGCGCTGGCTGATGGACAGGGAGGGCAAGCATGA	MSHSHSQGRNDLAHARHVEAALLDYLRGQSARHEALVVAAVGDLRIRIDAADALLERANASQSSAIAFRLAAAEAARVGAHLFFELAGRSLPRPLPDAAEPALLTQRRLLGDHYLNGAALADGQGGQA				NA	NA	NA	NA	NA
D1-35_02533	1233	soxC_1		Dibenzothiophene desulfurization enzyme C	ATGAGCCATTCAGCGACTATTGATCCGTCCGAGCAGGTTCGTCCGGTGCCTCGGCGCCCGGCCCATCTCATTCGCAGCGACGCCGAGGCGATCGCGGTGGCGCACCGTGTGGCCGGGGATTTTGCTCGCGAGGCGGCAACCCGCGACCAAGAACGACGACTGCCCTGGGAAGAACTCGAACGCTTTTCCGAAAGCGGGTTGTGGGCGATCAGCGTGCCGAAGGCCTACGGTGGCGCCGGGGTGTCCTATGTCACGCTGAGCGAAGTGATCGCCATCATCTCCGCAGCCGATTCCTCCCTCGGCCAGTTGCCGCAAAACCATTTTGGTGTACTCAGCAATCTTGGCTTGACCGGCAGCGAAGAGCAGAAGCGGCGCTACTACGCCAGGGTGCTCGAGGGGTATCGCTTTGGTAACGCTTTTTCCGAAGCGCGAAGCCAATACGTCACCACGTTCCAGACGCAGATTCGCTTCGAGGGGGACACGGCGGTACTTGATGGAGAAAAGGCCTACTGCACCGGTGCATTGTTCGCTCATATCGTGCCGGTAGCCGCGGTGGACGAGGCGGGGCATGTGCATATCGCGCTGGTTCCGCGCGATGCCGCCGGACTGACGGTGATCGACAGTTGGGACGGTTTCGGCCAACGCATCACCGCCAGCGGCCAGGTGCGCATCGAAGGCGTACGCGTGCCTGCCCGCGACGTGGTACCTGCCTGGAAAGCCTATGACCAGCCCACTGCCGATGGTCCGATTTCGCAGATCATCCAGGCCGCGGTGGACACCGGCATTGCCCGGGGTGCCTTCGCCGAGACCCTGCGTGTCGCCCGCCAGGCGCGTCCTTGGGTCGACAGCGGCCTGCAACACGGTTGGCAGGATCCGCTAGGCCAAGCGCTGATCGGCGAGCTGGCCTGGCGGCTGCAAGCGGCCGAGGCGATTTTGCAGCGCGCGGCCCAAGCGGTCGATCTTGCGGTCGCCGAGCCCAGTGAGGAACGGGTCGCCGAAGCCTCTGTGGTCGTAGGCCAGGCCAAGGTGCTGTCCACCGAGATTGCCCTTGAGGCTTCCAGCCGCCTGCTGGAGCTGGGCGGCACGCGCAGCGTCTCGGCCAGCCAGGGCCTGGACCGGTTCTGGCGCAATGCGCGGACTCACACCCTGCATGACCCGGTGCGCTGGAAATATCACTTGGTCGGCAACCAGCTTCTCAATGACATCAAGCCGCAACGTCACTCCTGGAACTGA	MSHSATIDPSEQVRPVPRRPAHLIRSDAEAIAVAHRVAGDFAREAATRDQERRLPWEELERFSESGLWAISVPKAYGGAGVSYVTLSEVIAIISAADSSLGQLPQNHFGVLSNLGLTGSEEQKRRYYARVLEGYRFGNAFSEARSQYVTTFQTQIRFEGDTAVLDGEKAYCTGALFAHIVPVAAVDEAGHVHIALVPRDAAGLTVIDSWDGFGQRITASGQVRIEGVRVPARDVVPAWKAYDQPTADGPISQIIQAAVDTGIARGAFAETLRVARQARPWVDSGLQHGWQDPLGQALIGELAWRLQAAEAILQRAAQAVDLAVAEPSEERVAEASVVVGQAKVLSTEIALEASSRLLELGGTRSVSASQGLDRFWRNARTHTLHDPVRWKYHLVGNQLLNDIKPQRHSWN				NA	NA	NA	NA	NA
D1-35_02534	777	livF_2	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGACCATTGCGGCCCTTGCGGGCACCGCAAGCAGCGAGTTGCTGGCGGTACACGACATCGAAGTCATCTACGACGGCGCGATCCTCGCCGTGGCCGGGGTTTCCCTGCGGGTCGGGCAGGGCGACATCGTTGCGCTGCTGGGCGCCAACGGGGCTGGCAAGAGCACCACGCTCAAGGCCGTTTCCGGGTTGGTCCAGGCTGACCGTGCGCAAGTCAGCCGCGGCCGGATCACTTTCCAGGGGCAGGATACCGCCGGCGTCGCAGCCAACCTGCTGGCCCGCCAGGGCATTGTCCATGTGCTGGAGGGGCGCCACGTGTTCGCCCACCTGACCGTCGAGGACAACCTGCGCACCGGCGGTTTCCTGCGTAACCCGACGCGCCGGGAACTGGAACAGGATCTGGAGCGCATCTACGCCTGGTTCCCACGTCTCAAGACCAAGCGCAAGACCCAGGCCGGGCTGACCTCCGGTGGCGAGCAGCAGATGCTTGCCATCGGTCGGGCGCTGATGACCCGACCTCGGCTGGTATTGCTGGATGAACCTTCGATGGGGCTGGCGCCGATCCTCGTCGAGGAGATTTTTGCCATCGTCGCCCAGCTCAATGCCCAGGAAGGCATGAGCTTCCTGGTGGCCGAACAGAACATCAACGTTGCGCTGCGCCATGCCACCTACGCCTACGTCCTGGAAAACGGTCGGGTCGTGGGTGAGGGCAGCGGTGCGGAGTTGGCGGCGCGGGAAGACATTCAGCAGTTCTATCTGGGCGGCAAGACCGGTTGA	MTIAALAGTASSELLAVHDIEVIYDGAILAVAGVSLRVGQGDIVALLGANGAGKSTTLKAVSGLVQADRAQVSRGRITFQGQDTAGVAANLLARQGIVHVLEGRHVFAHLTVEDNLRTGGFLRNPTRRELEQDLERIYAWFPRLKTKRKTQAGLTSGGEQQMLAIGRALMTRPRLVLLDEPSMGLAPILVEEIFAIVAQLNAQEGMSFLVAEQNINVALRHATYAYVLENGRVVGEGSGAELAAREDIQQFYLGGKTG	PGPT0020785_1349	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
D1-35_02535	1335			hypothetical protein	ATGCATGCAACTTTAAAACGCAGCCTCGCTGCCATCGGCCTGGCACTGGGTGCCTGCGCAACGCTGGTACCGGTTGCCCAGGCGGCCAACGAACAGTTCTTCCCCCTGGCCACCTACCGGGTCGGCGCCTATGCCTCCAGCGGCATTCCGGTGTGGGCCGGAATGATCGACTATCTGCGCTACATCAACGAGGTGGAAGGTGGGATCAACGGTGTCAAGCTGGTCTGGCAGGAGTGCGAGACCGAATGGACGGCGGAAAAAGGCATCGAGTGCTACGAGCGCTTCAAGAACGGCCTCAACGGCGCGCCGGTGGCGGTCTACCAGCCCAACGGTGCACCGGCGGCCTATGCCCTCGCGGACAAGGCCGAAGCCGACCGGATTCCGCTGATCACCCTCGGCTATGGCCGTACCGAGGCCACCGATGGCAGGGTGTTCCCCTACAATTTCCCGGCCATGCTGACGTTCTACAGCGAGGCCTCGGCATTCATCAATTATGTGGCTGAGCGTGAGGGCGGGCTGGACAAGCTCAAGGGCAAGAAGATCGCCACCGTCTACCATGACTCGGCCTATGGTCGGGAAACCCAGGGGCCGCTGGCGCTGCTGGCGCAGAAGTATGGCTTCGAGAACATCCAGATCGCGGTGGCGGATCCGGGCAACGAACAGGCCGGGCAGTGGCGCCATGTGCGGCAGCTCAAGCCGGACTGGGTGTTCCTGCGTACCTGGGGTGTATCCACGCCGGTGGCGATCAAGACCGCGGCGCGTTTTGGCTACCCGGTGGAGCGCATCGTCGGTGACATCTGGGCCAGTTCCAACGAGGACGTGTTGCCGGCCGGCGAGGCCGGCAAGGGCTACCTGGCGTTGACACCCTATCCAGGCGGTGCCGATTTCGACATCCACCAACGCATTCGCCAGTACATCCTCGATACCGGCAAGAGCGATCTCAAGGATCCGAAGAGTTTCGGCAGCGTCTATTACAACTCCGGCCTGGTGAATGCCGCCATTGCCGTCGAGGCGATCCGCACCGGGCAGAAGAAGTTCGGCAATCGTCCGCTCAACGGTGAGGAAGGTCGCTGGGGCCTGGAGCATCTCGACCTCGATGACGCCCGTCTCGAGGAGATCGGTTTCCTTGGACTGATGCAGCCGCTGAAGCTGTCTTGCAGCGACCATGAAGGTGGCGGGGCAGCCAAGGTACAACAATGGGACGGCGAGCAATGGAAACTGATCACCGACTGGGTCCAGGCCGACCGCGCGACGTTGCGCCCATTGATCGACGCCAAGGCCGCCGAGTATGCGAAAGAAAAGGGCGTAACGGCCCGCGATTGCGCGGCGCAGTAG	MHATLKRSLAAIGLALGACATLVPVAQAANEQFFPLATYRVGAYASSGIPVWAGMIDYLRYINEVEGGINGVKLVWQECETEWTAEKGIECYERFKNGLNGAPVAVYQPNGAPAAYALADKAEADRIPLITLGYGRTEATDGRVFPYNFPAMLTFYSEASAFINYVAEREGGLDKLKGKKIATVYHDSAYGRETQGPLALLAQKYGFENIQIAVADPGNEQAGQWRHVRQLKPDWVFLRTWGVSTPVAIKTAARFGYPVERIVGDIWASSNEDVLPAGEAGKGYLALTPYPGGADFDIHQRIRQYILDTGKSDLKDPKSFGSVYYNSGLVNAAIAVEAIRTGQKKFGNRPLNGEEGRWGLEHLDLDDARLEEIGFLGLMQPLKLSCSDHEGGGAAKVQQWDGEQWKLITDWVQADRATLRPLIDAKAAEYAKEKGVTARDCAAQ	PGPT0020765_808	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
D1-35_02536	1065			hypothetical protein	ATGACCGCTACTGTTGCGCGCCTCACTGCCAGCTTCGACGACTCACCCCTGACCCTGGTGCGCCGGCGTTGGCGGCCGGGCCTCTTGTTGCTGCTACTGGTGGCTTTTATCGGGTTGCCGTGGCTCGGTAATGACTATTGGCTCAACGCGATCCTGATTCCCTTCCTGGTGCTGTCGCTGGCAGGCGTGGGGCTGAACCTGTTGACCGGCTACACCGGCCAGACCTCGGTCGGCGCCGCCGGCTTCATGGCCGTGGGCGCGTTCGCCACATACGGCCTGCTGCTGCGCGTGCCCGTGCTGCCGTTGCCACTGGCGCTGCTTGGCGGTGGAGTGATTGCCGGGTTGGTCGGGCTGCTGTTCGGCATCCCCAGCTCCCGGATCAAGAGCTTTTACCTGATGGTCACCACGCTGGCCTCGCAGTTTTTCCTGGAGTGGGTGTTCGCCAAGTTTCCCTGGTTCTACAACTACGCCTCGTCCGGCACCATCAGCGCGCCACGCCTGGAGCTGTTCGGCCATAACCTCGGCACCCCGGTCGGTCGCTACCTGTTGACCCTCAGTTGCGTGGTGCTGTTGACCTGGGTGGCGGTCAACCTGGTGCGCAGCCAGATTGGCCGCAACTGGATGGCCATCCGGGACATGGACACCGCTGCCGCTGTCATCGGGATCGCCGTGGAGCGCGACAAGCGCATGGCCTTCGCCGTCAGTTCGTTCTACCTCGCAATCGCCGGGGCGCTCTGGGCGTTCGCGTACCTGGGGACGGCCAGTGCAGGCAGCTTCGACATCAATCGTTCGTTCCAGATTCTGTTCATCATCATTATCGGTGGCATGGGCAGCATTGCCGGCAGCTTCATCGGCGCGGCCTTCATCAGCCTCGTGCCGATCCTGCTCAGCCATGCCGGCCTATGGCTGTTCAACGGCAACGTCGATGCCGGGCAACTGCAGAACCTGCAGAAGGTGCTCTTCGGTGGCCTGATCATCTGGTTCCTGATCAAGGAGCCGGAAGGGCTGGCACGCCTGCTCGGCGACCTGCGTGAACGCATCAAGGTCTGGCCGCTGCGGTTCTGA	MTATVARLTASFDDSPLTLVRRRWRPGLLLLLLVAFIGLPWLGNDYWLNAILIPFLVLSLAGVGLNLLTGYTGQTSVGAAGFMAVGAFATYGLLLRVPVLPLPLALLGGGVIAGLVGLLFGIPSSRIKSFYLMVTTLASQFFLEWVFAKFPWFYNYASSGTISAPRLELFGHNLGTPVGRYLLTLSCVVLLTWVAVNLVRSQIGRNWMAIRDMDTAAAVIGIAVERDKRMAFAVSSFYLAIAGALWAFAYLGTASAGSFDINRSFQILFIIIIGGMGSIAGSFIGAAFISLVPILLSHAGLWLFNGNVDAGQLQNLQKVLFGGLIIWFLIKEPEGLARLLGDLRERIKVWPLRF	PGPT0020775_4789	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
D1-35_02537	882	livH_2	COG0559	High-affinity branched-chain amino acid transport system permease protein LivH	ATGAATTTCTTTCTGGAAACCCTGGTTGGCGGGCTGCTGGCCGGCACTCTGTATTCACTGGTGGCCATCGGTTTCGTGCTGATCTACAAGGCCAGCGGCGTGTTCAATTTTGCTCAGGGCGCAATGCTGCTGTTCGCCGCGCTGACCTTCGTCAGCTTGCGTGAGCAGGGCCTGTCTTTTGCCCTCGCGTTGGTCCTGACGGTGCTGGTGATGATCGTCGGCGCGTTGTTGATCGAGCGCCTGGTGCTGCGGCCGTTGGTCAACCGATCGCAGATCACCCTGTTCATGGCCACCCTCGGCCTGTCGTTCATCATTGAGGGCCTGGCCCAAGGACTGATGGGCGCCCAGGTGCGTGCGCTGGACCTGGGCATCGAGGACGTCCCGCTGTACGTGGGGGAGATCATGGTCAGCCAGTTCGACTTGATCGCTGCTGGAGTGTCGGGGCTGACGGTGGCGGTGCTGGCCTTGCTGTTCAACAAGACCCGCATCGGGATCGCCCTGCGCGCCGTGGCCGATGATACCCGTGCGGCGTTGTCGCTGGGCATCAACCTCAATCGCATCTGGCAGATTGTCTGGGCCGTGGCCGGAGTGGTCGGCCTGGTCGCCGGGTTGCTCTGGGGCGCGCGGCAGGGCGTGCAGTTCTCGCTTTCGCTGGTGGTGCTCAAGGCACTGCCGGTGCTGATCATCGGCGGCTTCACCTCGATCGGCGGGGCCATCGTCGGCGGGCTGATCGTCGGTGCGGCGGAGAATCTTGCCGAGGCTTACATCGGTCCGCTGATCGGCGGAGGCATCACGCCCTGGTTCGCCTATTTCCTCGCCTTGATCTTCCTCTACATCCGTCCGTCCGGCCTGTTCGGCGACCGGATCATTGAACGGGTATGA	MNFFLETLVGGLLAGTLYSLVAIGFVLIYKASGVFNFAQGAMLLFAALTFVSLREQGLSFALALVLTVLVMIVGALLIERLVLRPLVNRSQITLFMATLGLSFIIEGLAQGLMGAQVRALDLGIEDVPLYVGEIMVSQFDLIAAGVSGLTVAVLALLFNKTRIGIALRAVADDTRAALSLGINLNRIWQIVWAVAGVVGLVAGLLWGARQGVQFSLSLVVLKALPVLIIGGFTSIGGAIVGGLIVGAAENLAEAYIGPLIGGGITPWFAYFLALIFLYIRPSGLFGDRIIERV	PGPT0020770_6600	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
D1-35_02538	771	lptB_3	COG1137	Lipopolysaccharide export system ATP-binding protein LptB	ATGAATGCGCTGTTGGAGGTGCGTAATGTGTCGCTGTCGTTCAGGGGCGTGAAAGCGATTTACGACCTCTCGTTCAGCGTCAGGCTTGGCGAGATCTGCGCGTTGATCGGGCCGAACGGTGCGGGCAAGAGTTCGTTGCTGAACATCCTCAACGGGGTCTACCGGGCCGATGCCGGCCAGGTGTTCTTCGCTGCCGAACCGTTGCGCCGTCCGCATCCACTGAAAGCGGCGCGGCTTGGTATCGGCCGGACGTTCCAGAACAACGCGCTGTTCAAGAAAATGAGCGTGGTGGACAACCTGCTTACTGGCCTGTCGCGCTTGCAGCGTACGTTTTTTCTCGAGCAGGCCTTGGGCTTGCCGCGCGCCCGGCGCGAGGCGCGGGCGTTCGCCGAGCGGGCCGAGCAGGTGCTGGAGTTCCTCGAACTGCAGGCCTGGCGTGACGTAGCGGTGGGCAGCCTTGCCTACGGTTTGCAGAAACGCGTGGAGCTGGGCCGGGCACTGATCGCGCAGCCGACCCTGCTGTTGCTCGACGAACCGATGGCCGGCATGAACGCTGAAGAAAAACAGGAGATGAGCCGCTTTATCGTCGATATCAATCGCGACCTTGGCACCACGGTGATTCTCATCGAGCACGACATTCCAGTGGTCATGGGGCTGTCCAGCCATGTGGTGGTGCTGGACTACGGACGCAAGGTCGGTGACGGCACGCCCGCGCAGGTGCAGGCCAACCCCGATGTGATCGCCGCTTACCTGGGGGCCTCGCACTCATGA	MNALLEVRNVSLSFRGVKAIYDLSFSVRLGEICALIGPNGAGKSSLLNILNGVYRADAGQVFFAAEPLRRPHPLKAARLGIGRTFQNNALFKKMSVVDNLLTGLSRLQRTFFLEQALGLPRARREARAFAERAEQVLEFLELQAWRDVAVGSLAYGLQKRVELGRALIAQPTLLLLDEPMAGMNAEEKQEMSRFIVDINRDLGTTVILIEHDIPVVMGLSSHVVVLDYGRKVGDGTPAQVQANPDVIAAYLGASHS	PGPT0020780_5741	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
D1-35_02539	972			hypothetical protein	ATGAGTGTTTTCGAACTCAATGCTCCATTGCCCGAAAGCGTGACGGACAGCGCCCTCGTGGCGTTGCAGCGCTGGGCCAGGGAGCGTCCGACGCAGATCGCCATGCGTCATCGACGCCTCGGCGTCTGGAAGGCCTGGCGGTGGATCGATGTGCAACGCGAGGTCGAGCGGGTTTGCGATGGCCTGCGCCAGCAAGGCTTCGTCCCTGGCGCACGGTTGGCATTGAGCGGTGCCTTCGAGCCGAGCCTGCTGATTCTGACATTGGCGGCGCGCCAGCTGGGTGGACACAGCGTGGTCGTCGACCGCGACAGTCAGGGCGAGGATCTGCAACGCCAGTTACGTCTGATCCGCCCTGCGTTCGCCTTTGTCCAGCGCCGCGAAAGTGTCTCGCACTGGCTGCAATGCGGCCTGGATGAAGAGTGGCCGCTGCGGCTGTATTCGGCCCAGGCCAGTGCGGCGCGTCGTGGCCTGTGGCAGGTGCAGTCACTGTCGGTGCTGTTCGTCACCGAGGCGCCGGCAGCGCAGCGCCAGGGCTGGGCCCAGGTCGCCAAGGACGCGGTGGTTTGGATCGATGAGGGCACTGAATGGCCTGATGGGCTGACTCATCTGTTCCGTCGCTGGCTGGAGGGCGGCGAAGGCCTGGCCTTTCCGGAAGCGCGCGAGTCAGCCAGCCGCGATCGCCGCGAGATTGCCCCGACGGCCTTGCTGTTGTCCGCTGCGCGAGTCGAATCGCTGGCGGCGGAAATCGAAGCCCGGCTGCCGATTGCAGGCAGTTGGCGGCGACGCCTCTGCGAATGGACCCTGGATGATCCGCGACGTGGTCTGCGCCGCTGGCTCAAGGCGCGGGTGCGGCGTCTGCTCGGGTTCCAGCGGCTGCGCCGGATCGAGGTGCCAAGCGCGCCCGCAAGCGCCTTGTTGCAAGGCTCGGCGCGCCAGGCCTGGTTGCAGGAATATCTGGAGCGAGCAGCATGA	MSVFELNAPLPESVTDSALVALQRWARERPTQIAMRHRRLGVWKAWRWIDVQREVERVCDGLRQQGFVPGARLALSGAFEPSLLILTLAARQLGGHSVVVDRDSQGEDLQRQLRLIRPAFAFVQRRESVSHWLQCGLDEEWPLRLYSAQASAARRGLWQVQSLSVLFVTEAPAAQRQGWAQVAKDAVVWIDEGTEWPDGLTHLFRRWLEGGEGLAFPEARESASRDRREIAPTALLLSAARVESLAAEIEARLPIAGSWRRRLCEWTLDDPRRGLRRWLKARVRRLLGFQRLRRIEVPSAPASALLQGSARQAWLQEYLERAA				NA	NA	NA	NA	NA
D1-35_02540	1416	dmoA_1		Dimethyl-sulfide monooxygenase	ATGCCACGTGAAATTCGTTTCAATGCCTTCGAGATGAACTGCGTCGGCCACCAGTCTCCAGGGCTCTGGCGACATCCCCTGGATCGTGCCTGGCAGTATAAAGACCTGGATTACTGGACCGACCTGGCCAAACTGCTGGAGCGCGGCAAGTTCGACGGCATCTTCATTGCCGATGTGATCGGTATCTACGATGTGCTCGGCGGCAATGGTGACGCCGCGATCCGCCAGGCGACCCAAGTCCCGGTCAATGATCCACTGGCGCTGATCACGCCGATGGCACTGGTGACCGAGCACCTGGGTTTCGGCCTGACCGCCTCGTTGACCTTCGAGCATCCCTATCCCTTTGCCCGCCGCCTGTCGACATTGGATCACCTGACCAAGGGGCGCATCGGTTGGAACATTGTCACGTCTTACCTCGACAGCGGCGCGCGTAACCTCGGCCAGAAGGCGCTCAGTGATCACGATGCACGCTACGACTACGCCGACGAATACCTCGAGGTGCTCTACAAACTGTTCGAAGGCAGTTGGGAGGAGGGCGCGGTGGTGCGCGACCGTGAGCGCGGCATCTTCAGCGACCCGGGCAAAGTCCATGAGATCCGTCACCAGGGCAAGCACTTCCAGGTGCCGGGTATCCACCTTTGCGAGCCGTCGCCGCAGCGCACGCCGGTGCTCTACCAGGCAGGGGCATCGAGCCGTGGCAAGGATTTCGCCGCCGGCCATGCGGAATGTGTATTCGTCGCGGCGCCGTCGAAGGTCATCCTGAAAAAGACCGTGGCCGATATCCGCCGACGTGCCGCCGAGGCCGGGCGTGATCCGCGCAAGGTGCTGATCTTCAACCTGCAAACGGTGATCGTCGACGAGACCGATGCCAAGGCACAGGCCAAGTGGCGGGAGCTGAAATCCTACAGCAGCTATGAGGGCGCGCTGGCGTTGGTTTCCGGCTGGACTGGCATCGATTTCAGCCAGTACCGACCCGACCAGGTGCTCAAGCACATCCATACCAACGCCATTCAATCGGCCGTGGAAACCTTCTCCACCGCCGACCCCGACAAACAATGGACAGTCCAGGAACTGGCCGATTGGGTCGGCATCGGCGGCTTTGGTCCGTTGATCGTCGGCGGCGCGCAAACCGTCGCCGACGAGTTGCAGGCCTGGGTCGAGGAAACCGATGTGGACGGCTTCAACCTGGCCTACGCCCTGGCCCATGAGACCTTTCGCGACGTGGTCGAGCTGCTGGTGCCCGAACTCCAACAACGCGGCGTGTACAAGACCGACTATCGCCCTGGCACCCTGCGCGAGAAGCTGTTCGGCGACGGCCCGCGCCTTCCCGCCAGCCACCCGGGCGCTGGTTATCGGGACTTGAATCGCCTGGCCCCGCGCGCTCGTGTCGCTGAGCCGGCCCTGGTTGAGGAGTAA	MPREIRFNAFEMNCVGHQSPGLWRHPLDRAWQYKDLDYWTDLAKLLERGKFDGIFIADVIGIYDVLGGNGDAAIRQATQVPVNDPLALITPMALVTEHLGFGLTASLTFEHPYPFARRLSTLDHLTKGRIGWNIVTSYLDSGARNLGQKALSDHDARYDYADEYLEVLYKLFEGSWEEGAVVRDRERGIFSDPGKVHEIRHQGKHFQVPGIHLCEPSPQRTPVLYQAGASSRGKDFAAGHAECVFVAAPSKVILKKTVADIRRRAAEAGRDPRKVLIFNLQTVIVDETDAKAQAKWRELKSYSSYEGALALVSGWTGIDFSQYRPDQVLKHIHTNAIQSAVETFSTADPDKQWTVQELADWVGIGGFGPLIVGGAQTVADELQAWVEETDVDGFNLAYALAHETFRDVVELLVPELQQRGVYKTDYRPGTLREKLFGDGPRLPASHPGAGYRDLNRLAPRARVAEPALVEE	PGPT0003040_10	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
D1-35_02541	948			hypothetical protein	ATGAAGCCCGGCCAATTCTTCCAACGTCTACTGCTCGGCACATTGTTTGCCGCACCGTTGGCCCAGTCCGCCGAGCCATTGGTACTGCATGTCGGCGACCAGAACTATTACAACGTCCGGGCTTCGGTGGAGGCTTCGGGTGTGCTTGAGGGCGCCCCCTATCGCGTCGACTGGAAGCACTTCCAAGCGGCCGCGCCACTGGCCGAGGCGCTGAGTACCGGTGACCTGGACCTGGGTTTCCTCGGCGATTCGGGCTTTTTGTTCCTGGCAGCCAAACAGGCACCAGTGAAGTTGATCGGCGTCTCGCGGCAGAACCCTAACACCATCGCGCTGCTCGTGCCCAAGGACTCGCCGGTCAAGACCATCGCCGACCTCAAGGGCAAGAAGGTCGCCTATTGGCCCGGGGCGTGGAGCCAGCAACTGACACTGCGCGCCCTGGAACGGGCCGGCTTGCCGGAAGACCACGTCGACTTCATCAAGCTGATGCCCATTGATGCAGCCGCTGCCTTGCCCCAGGGCAGCATCGATGCCTTTCCGGTGTGGGAGCCCTACATCTCGCAACAGATCCTCTTCTCCGGCGCCCGGCCGATCCTGACGGCGAAGGACCTCATGCCCGGCCTCAGCGCCATAGCCGCCTCGACGCCGGCCATCGACAGCAAGCGTGAAGCCATCGCCGACTTCCTCGGCCGCGTGAAACAAGCCCGCGCCTGGGTCGACAACCACACCGACCAATACGCGGACCTCTGGGCAAAGAAGGCCAATCTTGACCAGGACGTCTCGCGCCATTGGTTGCGCCAGGCCCACATGAGCGTTGGTCCGGTGGACCAGCAGTCCGCCGCCGACCTGCAGAGCACGGCGGACTTCCTGTTCAAGGTCAAGGCGCTACCGGCTCCGCTGGCCACTGCTGGCGTTATCGACACGTCCTTCAACCAAGCCTTCAGCCATTGA	MKPGQFFQRLLLGTLFAAPLAQSAEPLVLHVGDQNYYNVRASVEASGVLEGAPYRVDWKHFQAAAPLAEALSTGDLDLGFLGDSGFLFLAAKQAPVKLIGVSRQNPNTIALLVPKDSPVKTIADLKGKKVAYWPGAWSQQLTLRALERAGLPEDHVDFIKLMPIDAAAALPQGSIDAFPVWEPYISQQILFSGARPILTAKDLMPGLSAIAASTPAIDSKREAIADFLGRVKQARAWVDNHTDQYADLWAKKANLDQDVSRHWLRQAHMSVGPVDQQSAADLQSTADFLFKVKALPAPLATAGVIDTSFNQAFSH	PGPT0003025_3052	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003025-ssuA-K15553	NA	NA
D1-35_02542	1272	nepI_2	COG2814	Purine ribonucleoside efflux pump NepI	ATGACTGACTGTGTGTGTAATGCCGGACCCGGCAGCCATTCCGGCGTCGGGCCGGATGTGGAGCCGACAACCCCCGCGTGGATGGCCGTTTTCTCGCTGGCAATGGGCGTGTTCGGATTGCTGACCGCCGAGTACCTTCCGGCCAGCCTGTTGACGCCGATGGCGACCGACCTGGGAGTGTCCGAAGCGTTGGCTGGCCAGGCGGTAACGGTGACCGCAGTGGTTGCGTTGTTCGCTGGGCTGTTGGTGCCAGGCCTGACCCGCGGCATCGACCGCCGCTGGGTGCTGCTGGGTTTCTCCACGTTGATGATCGCATCCAATCTACTGGTCGCCGTTTCTTCCAGCCTCGCGGTGCTGTTGCTGATGCGTATCTTGCTGGGCATTGCCCTTGGCGGGTTCTGGAGCATGGCGGCAGCGGTGGCGATGCGCCTGGTACCGGCGGCTTTGTTGCCCCGAGCGCTCTCGATCATTTTCAGCGGCATCGCCATCGGGACGGTGGTTGCGGTCCCGTTGGGTAGCTACCTGGGCGGGCTGTATGGCTGGCGCAGCGCGTTCTTTGCAGCGGCGGCGGTAGGTGTGGTGACCCTGGCTTTCCAGTCGTTCACGCTGCCGCGCCTTGCGCCACGCAGGCCGGCACGCCTGCGCACCGTACTTGAAGTGTTGCGGCGCCCGGGCATCGCCATGGGCATGTTCGCTTGCGTGCTGGTGCACAGCGGCCATTTCGCGATGTTCACTTATGTCCGGCCATTTCTCGAAGGGACTACCGGCATCGACGCGCAAGGGCTGTCGCTGATGCTGCTGGGTTTCGGTGTGGCGAACTTCGCCGGCACGCTCCTGGCCGGGTGGGTGCTTGAGCGTCATCCGCTGGCCACCCTGGTATTGATGCCGGCGCTGGTAGGCGTTGCCGCACTGGCGTTGGTGCTGTTGCCGGCCTCGGTGCCGGGCCAGGCGGTGCTGCTGGCAATCTGGGGCCTGGCCTTTGGCGGTGTGCCGGTGGCGTGGTCGAACTGGGTCGCCAGCGCGGTGCCTGATCAGGCGGAAAGCGCCGGGGGCATGGTGGTGGCGTCCGTGCAGTCGGCCATCGCAACGGGCGCTGCCGCTGGCGGTGCAATGTTCAGCCTCGGTGGCAGCGCCGGCGTATTCGTCGCGGCGGCTGTGCTGATGCTGCTGGCTGCGTTGCTGATTGCGTTGCGGGTGCGGGTTCGTTCTGTCCATGGCAATGCCCAGGCCACGACGGCGTCGCTCATTGCCAATCCGTCGCAACGGCAGTGA	MTDCVCNAGPGSHSGVGPDVEPTTPAWMAVFSLAMGVFGLLTAEYLPASLLTPMATDLGVSEALAGQAVTVTAVVALFAGLLVPGLTRGIDRRWVLLGFSTLMIASNLLVAVSSSLAVLLLMRILLGIALGGFWSMAAAVAMRLVPAALLPRALSIIFSGIAIGTVVAVPLGSYLGGLYGWRSAFFAAAAVGVVTLAFQSFTLPRLAPRRPARLRTVLEVLRRPGIAMGMFACVLVHSGHFAMFTYVRPFLEGTTGIDAQGLSLMLLGFGVANFAGTLLAGWVLERHPLATLVLMPALVGVAALALVLLPASVPGQAVLLAIWGLAFGGVPVAWSNWVASAVPDQAESAGGMVVASVQSAIATGAAAGGAMFSLGGSAGVFVAAAVLMLLAALLIALRVRVRSVHGNAQATTASLIANPSQRQ	PGPT0021090_15	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021090-nepI-K03445	NA	NA
D1-35_02543	966	rclR_1	COG2207	RCS-specific HTH-type transcriptional activator RclR	ATGCCCACCGATCAGTTTGCCCTCTCCTCGGATCTCATCAACGAGTTGTTGCGCGGCATGCGCCTACGCGGCGTCGAGTACCGGCGTATCCAGGCCGGTCCAGCCTTCGGCCTGGGCTTCGCTGACAAACCCGGACACGCCTGGTTCCACTTCCTGGCGGTCGGCAATGCACTGCTGCGGATGGAAGACGGAACCACCTATGCGCTGTCGGCCGGCAATGCCGTGTTCATGTCCCATGGGGCGGTCCACCAACTGCTGTCCCATGTGGACGCGCCGGTTCAAGACATCGATCGCCTGGACGGCGCTCCCCTCGGCGATGCCGTCAGCGCGGTGGATACCGGAAACGATGCCAGCCCCACGCCGACGACCATTCTGTTCAGCGGCTGCATGGAGTTCGAACTGGGCAGCATCCATGGCCTGGGCAGGCTGATGCCGGGCCTGATGCTGATTGATGCCGGCGGCCAGCGTTACCCTGGACTGATGCCAATCCTGACCACCATGGAACGCGAAGCCAGCGCCGCACGTGTCGGCTTCGCCGGCATTCTCGCGCGGCTGGCCGACGTGGTGGCCGCCATGGTCGTTCGCGGTTGGGTGGAGTGCGCCTGCGGCAATGCCTCTGGCCTGGTCGCCGCATTGCGCGATCAGCGCCTGGCCAATGCACTTCTCGCGCTCCATCAACAACCGGGCCGAGACTGGACCGTCGCGCAGTTGGCGGAGCAATGCAATACCTCGCGCTCGGTCTTCGCCGACCGTTTCCAGGCGACTATCGGCATGGCCCCGTTGCGCTACGTCACCGAACTGCGGATGCGGCTCGCGAGCCAGTGGCTGACGCTCGAAAGGTTGCCAATCGAAGAAGTGGCGCAGCGCCTGGGCTACACCTCCCAGGCCGCTTTCAGCCGCGCATTCAAGCGCGTTACGGGCAAGACGCCTGGGTTGAGTCGTCAGTCGAGGCAGTCGGCTCTCTAG	MPTDQFALSSDLINELLRGMRLRGVEYRRIQAGPAFGLGFADKPGHAWFHFLAVGNALLRMEDGTTYALSAGNAVFMSHGAVHQLLSHVDAPVQDIDRLDGAPLGDAVSAVDTGNDASPTPTTILFSGCMEFELGSIHGLGRLMPGLMLIDAGGQRYPGLMPILTTMEREASAARVGFAGILARLADVVAAMVVRGWVECACGNASGLVAALRDQRLANALLALHQQPGRDWTVAQLAEQCNTSRSVFADRFQATIGMAPLRYVTELRMRLASQWLTLERLPIEEVAQRLGYTSQAAFSRAFKRVTGKTPGLSRQSRQSAL				NA	NA	NA	NA	NA
D1-35_02544	903			hypothetical protein	TTGAAAGCTGCCATCGTCAAAAATTACCGTCTCATCGTCAAGACCATGGGCTACGTGGGCTGGGCTTTGTTCTGGTTGTTGCTCTGGGACATCGCCGTCACGGTGGACTTCATGCTGTTTCTCAACGCCAAATTGAACCTGCCGCTGATGCCGCTGACCTTGCTCGGCTCGGCGTTGGTGGTGTTGATCAGCTTCCGCAACAGCAGTGCTTACAACCGCTGGTGGGAAGCACGGACGCTGTGGGGAACGATGATCAACAGTTCACGCAGCTTCGCTCGTCAGGTGCTGACGCTGCTGGACGACCCCGGCAGCGAGGTGAATCCGGTCAAGTCGACCTTGTTGCGTCGCCACGTCGCTTATGTGAATTGCCTCGCCGCGCATCTGCAAGGCCAGCCTTGTCCCGAGGAGGTGCGGGCGTTTATTCCGGACGAAGAGTTTGCCCGCAGTGGCACGACCAATAACTTTGCCAACGATATCCTCACCGGCTCGGCGACGTTGCTGGCACGCGAATACAAGGCCGGACACTTGGACAGTATTCGCCTGGCGCGTCTTGAGTCGACGCTGGTGGACCTGTCCAACAGTCAGGGCGGCATGGAGCGGATCGCGAATACGCCGCTGCCCTACCCTTATGTGTATTTTCCACGGCTGTTTATTTCGCTGTTCTGCCTGATTGTGCCGGTTGGACTGGTGGAATCCCTGGGCTGGTTCACGCCGCTGGCTTCGAGCGTGGTTGGGTTCATGCTGCTGGCCATCGAGCGCATCGGCACCGATCTGCAAAGCCCGTTTCGCCACAGCGAACATCAGATCCAGATGGAAGCGCTGTGCGAAACCATCGAAAAGAACCTGCAGTCGATGCAGCGCGATTCCTTGGGTGATGTGCGCAGGATTGAAGAGAACGCTTGA	MKAAIVKNYRLIVKTMGYVGWALFWLLLWDIAVTVDFMLFLNAKLNLPLMPLTLLGSALVVLISFRNSSAYNRWWEARTLWGTMINSSRSFARQVLTLLDDPGSEVNPVKSTLLRRHVAYVNCLAAHLQGQPCPEEVRAFIPDEEFARSGTTNNFANDILTGSATLLAREYKAGHLDSIRLARLESTLVDLSNSQGGMERIANTPLPYPYVYFPRLFISLFCLIVPVGLVESLGWFTPLASSVVGFMLLAIERIGTDLQSPFRHSEHQIQMEALCETIEKNLQSMQRDSLGDVRRIEENA				NA	NA	NA	NA	NA
D1-35_02545	666			hypothetical protein	ATGATCGATCTAAGCACTTGGAACCTGACCATCCCGGTCGGCACGCCTGCCCGAGTCATCGAGACGCCACGCCTGGTGGACGGTTACTCGGATGCGTATTTCCGCTCCGGCAATACGTTGTTTTTCTGGGCGCCGGTGACGGGCGGGACTACGTCCAGATCCGAGTTTCCACGTAGCGAACTTCGCGAGACGTACAAGAACGGTGAGCTGCGCAATTGGACGTACCCCGAAGCGGATCACCGGATGACGGCCAGCCTGTCCGTCAACCTGGTGCCGTCGGAAGGCAGGGTGGTGATCGGGCAGATTCATACCTACCAGGGCAAGGGCCCGCTGTTGAAGGTCGAATATGTCTACGATAAGGCCAGGAAGACCGGTAGCGTGATTGCCAACTATCGCCTCAAGCCGGGCAGTACGGACACCAAGGTGGTGATTGTCGAGGATGTCGAGTTGAACAAGCGGTTCACTTACGAGGTTCGTTTGAGCTCGGCGGGCTACCTGCATGTGATTTCGCAAGGAAATCGGTGGGGCAGGCAGCTCAGCAAAAGCTGGCAGGGCAAACAGCTGTATTTCAAGGCTGGCGCATACACCTTGGATAATACCGGCTACAAGAGCGAAGGCGGGCAGGTGACGTTCAACAAGCTGGAGGCCAGGCACAGCAAGGGTTGA	MIDLSTWNLTIPVGTPARVIETPRLVDGYSDAYFRSGNTLFFWAPVTGGTTSRSEFPRSELRETYKNGELRNWTYPEADHRMTASLSVNLVPSEGRVVIGQIHTYQGKGPLLKVEYVYDKARKTGSVIANYRLKPGSTDTKVVIVEDVELNKRFTYEVRLSSAGYLHVISQGNRWGRQLSKSWQGKQLYFKAGAYTLDNTGYKSEGGQVTFNKLEARHSKG	PGPT0019417_605	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019417-putative_alginate_lyase_2-NA	NA	NA
D1-35_02546	1986			hypothetical protein	ATGAGTCAGAGCATTTCGCCCGCCGCTTCAGCTGCGCGGAACACCGGCATGGTAATCACGACTTTATGGGGCTCGGACACCGTCGCAGGTATTACGGTCGATCCGGACGGTGCCATCTGGCTTGGCGCTTATAGTCGCCTGGGATTAGGAGGCGAAGAAGATTCAGGCTTCACCGCAAGCCTGGTTCGGTTCAATGCCGACGGTAGCCTGGATCGCAACTTCAGTGGAGACGGTAAGTCCCTCCTCCCCGTGTCGCTCGATATCGAGGACGGTGGCAACGCTGCGGTGCAGCCGGGAGGGGGCTACCTGGCGGCGCTCTACGTAAAAGTGGGCGATGCCTGGGTTTCAGGTGTAAGCCGTACCTTGGCTGACGGCAGCCTCGATACCAGTTTCGGGAATGGCGGCACCGCGACGGTGCCTTTCTACTGGAATGAAGATCTGGGCCAGCAAGCGTCGTTCTCCGTACAACGCGACGGCAGCTTTTTCGCAAGCGCCGGGTATCCCTCTGGGGAGATCCATATCGCCCGCTTCGACGCGACGGGGATTTTGGTCTCGTCTTTCGGCGAGGCTGGGGTCCTGCACCTGCCAGCGTCCGTGGGCGTTCAACCCGGCAGCGCGATCGACGTTTCGCTGCAGGGAGACGGGCAAGTATTGGTCACCGGGCGAGATACCCTGACCCGCCTCAACCCGGACGGTACTCTGGATAGCAATTTTGCAAACGGGGGCAGCCTCGCTCTGGATGTTCACCCAGACGCCCTCGTCATTCAGGATGACGGCAAAATCCTGCTGGCGGGCGCCTCGGGCGGCGTGGCGAGCGTCATCCGCCTCAATGCCGACGGCTCGCTCGACACCGGTTTCGGTGATCAGGGTAAGGTGAGTTGGGGCTCGCAAAGCGCTCCTTTCGCAGTCGCCGACATGATCCTGCTGGCCAACGGCAAGCTATTGATTGGCGGAAGCCAAGGAACGAGCGCGGACGGCTATCTGGCCGCCTTGGTCCAGTTGAACCCCAACGGTAGCCTGGACCTCGGCTTTGGCAATCCCGACGATGGCTATCACCACCTTGACGGTGGCCGCGAGGATGACTTCCTGCTCGGTACCGCCTCGTTCGACGATGCGATCTCTGGCGGGGCCGGTGACGATCTGCTCGATGGCCAGCAAGGTCGTGACCTGCTGACGGGCGGCGCCGGGGCCGATACGTTCCGTTACCAGTCAGCCGCAGACAGCTACCGAACCGCAACCACGGCCCATAGCGACCGAATCACCGACTTCGACCCCAGCACCGATACGATCGACCTCTCCTCCCTCGGCTTCCTCGGGCTGGGCAATGGACATGACGGAACGCTGGCGATACGCGTCAATGAAAGCGGGACCCGGACCTACCTCAAGAGTTTCGAGGCCAACGCGGATGGGGAACGCTTCGAAGTGATCTTCGACGGTAACCTGGGCCAAGCGCTGAATGAAACCAACGTCCTGTTTCAACAAGCCAGACTGGTGGGCACCGAAGGGGCTGATCCTTTACAAGGCAACGCTCGAGGCGAAATCATCGAAGGATTCGCAGGCGATGATCGCCTTAATGGCGCACTCGGGAATGATGTATTGGCCGGCGGAAATGGTCGGGACCTATTGGCGGGTGGCGGCAACAACGATGTGTTCCGGTTCGACGCATTGAGCGACAGCTACCGTACCGCCACCGAAAACCACACTGATCGCCTGATTGACTATACCGCGGGTGAAGACACGATCGACTTGTCCGCCTTGGGCTTTACCCGATTGGGAAATGGTTACAACGGCACGTTGGACGTGGTTTTTAATGAGGCCAGGAACCTGACTTACTTGAAGAGCTACGAAGCCGATGCATCCGGGGCTCGATTCGAGTTGAGCCTGGCAGGGGATCACTCCGGTTACCGTGACTTGAACATCATCTTCGCCGAGCCCTTGGAGGAGGATCTCTTTCAGTTGATCGGAGTGGCTGACTCCCTAGTGTGA	MSQSISPAASAARNTGMVITTLWGSDTVAGITVDPDGAIWLGAYSRLGLGGEEDSGFTASLVRFNADGSLDRNFSGDGKSLLPVSLDIEDGGNAAVQPGGGYLAALYVKVGDAWVSGVSRTLADGSLDTSFGNGGTATVPFYWNEDLGQQASFSVQRDGSFFASAGYPSGEIHIARFDATGILVSSFGEAGVLHLPASVGVQPGSAIDVSLQGDGQVLVTGRDTLTRLNPDGTLDSNFANGGSLALDVHPDALVIQDDGKILLAGASGGVASVIRLNADGSLDTGFGDQGKVSWGSQSAPFAVADMILLANGKLLIGGSQGTSADGYLAALVQLNPNGSLDLGFGNPDDGYHHLDGGREDDFLLGTASFDDAISGGAGDDLLDGQQGRDLLTGGAGADTFRYQSAADSYRTATTAHSDRITDFDPSTDTIDLSSLGFLGLGNGHDGTLAIRVNESGTRTYLKSFEANADGERFEVIFDGNLGQALNETNVLFQQARLVGTEGADPLQGNARGEIIEGFAGDDRLNGALGNDVLAGGNGRDLLAGGGNNDVFRFDALSDSYRTATENHTDRLIDYTAGEDTIDLSALGFTRLGNGYNGTLDVVFNEARNLTYLKSYEADASGARFELSLAGDHSGYRDLNIIFAEPLEEDLFQLIGVADSLV	PGPT0027825_379	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0027825-prtC-K01406	NA	NA
D1-35_02547	1245	yfeW_2		Putative D-alanyl-D-alanine carboxypeptidase	ATGCACTCATCCGCTATTTTTGGTGTGGCTGCGGCTGGTCGCTCGCTGCTTCTCTCGCTCGGTCTGCTCGCTGCGGGTATCACCGCAGGCGCATGGGCTGAGGATTATCCCCACGCCCAGGAACCGATTGGCACCGTGGAGCAGATCTATGACGGCGCCATGCTCCCCGATCTGGCGGTCAGTACCTACCGCAACATCGACCGGCTGTTCCCTACCCACAGGATCAAAGCCAGCGATCACCCGTATGCGCTGCCGAAATCAGACAAACAGTTGCCCAACGTTCGCTTCACTGTCGGGGACAAAAAGTACGACCTGTATGACTTCGTCGCACTGGACAGCATTACGGCGATGCTTGTGCTCAAGGACGGCAAGATTGTGTTCGAGACCTACCAGCGTGGCAACACCGAGAAAACCCGATGGATGTCGATGTCGATAGCCAAGTCCATTACGTCGACGCTGGCGGCTGCAGCGATCAAAGACGGCCTTATCAAGGGCCTTGATGCGCAAGTGGTAGATTACGTTCCCGAGCTCAAGGGCAGCGCCTACGAAGGCGTGACCGTGCGCAACGTGCTGATGATGTCTTCGGGCGTGAAGTGGAACGAGACCTACACCGATCCGGCGTCCGATCGTCGCGCGCTACTCAAAGCGCAGATATCGCAGAAACCGCGTTCGGCCATGGCCTTGATGGCAAGTTTGCCGCGAGCAGCCGAGCCTGGCACGGCCAACACTTACAGCACTGGCGAAACGCAGGTACTCGGCGAGATCGTCCGTGGCGCTGTGAAGATGCCGCTGGCCGATTATCTATCGCAGAAGATCTGGCAGCCGTTCGGTATGGAGAGTGATGCCCGGTGGTGGCTCGATTCGCCTGACGGCGTGGAAATCGGTGGCAGTGGTATCAGTGCCACGCTGCGCGATTATGGACGCTTCGGGCTGTTTTTCATGAACGGCGGCAAGATCAATGGCACCTCGATTCTGCCCGAAGGCTGGGTCACGGAGGCGACGCTGCCGACCACCCTCAAAGGCGGCAAGTCCCTGGACTACGGTTACATGTGGTGGACGGCGTGGACCGAGCCGTCGGTAAAAGACGGCGCCTATTCGGCGGTCGGTATCCAGGGCCAGAACATCTACGTCAACCCTGCCAATAACGTCGTGATTGTCACCTTCGGTGCCCAGCCCAAGCCGGTTGACAAAGAGCCGATCGACCCGATGGTATTCTTCGATGCCGTGGTGGCTGCGTTGAAGTAA	MHSSAIFGVAAAGRSLLLSLGLLAAGITAGAWAEDYPHAQEPIGTVEQIYDGAMLPDLAVSTYRNIDRLFPTHRIKASDHPYALPKSDKQLPNVRFTVGDKKYDLYDFVALDSITAMLVLKDGKIVFETYQRGNTEKTRWMSMSIAKSITSTLAAAAIKDGLIKGLDAQVVDYVPELKGSAYEGVTVRNVLMMSSGVKWNETYTDPASDRRALLKAQISQKPRSAMALMASLPRAAEPGTANTYSTGETQVLGEIVRGAVKMPLADYLSQKIWQPFGMESDARWWLDSPDGVEIGGSGISATLRDYGRFGLFFMNGGKINGTSILPEGWVTEATLPTTLKGGKSLDYGYMWWTAWTEPSVKDGAYSAVGIQGQNIYVNPANNVVIVTFGAQPKPVDKEPIDPMVFFDAVVAALK				NA	NA	NA	NA	NA
D1-35_02548	1320	dctA2_2	COG1301	C4-dicarboxylate transport protein 2	ATGTCCGCTGAAACTCAAAACCGCAAACCGTTCTACAAGATTCTTTATCTCCAGGTCTTGTTCGCGATCGCAATCGGCATCCTGATTGGCCACTTTTATCCGGAAGCCGGTACCACGTTAAAACCGCTCGGCGATGGTTTTATCAAGCTGATCAAAATGGTCATCGCCCCCATCATCTTCTGTACTGTGGTCACCGGCATCGCAGGCATGCAAAACATGAAAGCGGTCGGAAAGACCGGTGGCTATGCGCTTCTGTATTTCGAGATTGTTTCGACAATTGCCCTGTTGATCGGGCTGGCTGTGGTCAACTTCGTGCAGCCGGGCGCTGGAATGCATATCGATCCGTCCACGCTCGATGCGTCGGGTATTGCTGTGTACGCTGCCGCAGGCAAAGAGCAGAGCACCATTCAGTTCCTCCTGCATATTATCCCCAACACGATTGTTGGCGCGTTTGCTGAGGGTGAGATTCTGCAGGTGCTGTTCTTCTCTGTACTGTTTGGCTACGCGCTGCATCGCATCGGTGATTATGGGCGTCGGGTGTTCGAGTTCATCGAGAGCATCTCCCAGGTGTTGTTCAGCATCATGGGTGTGGTCATGAAAGTCGCGCCCATCGGTGCGCTGGGTGCGATGGCCTTCACTATCGGTAAGTACGGTGTCGGTTCTTTAGTCCAGTTGGGCTATCTGATGCTGTGTTTTTACTTCACCTGCGTGGTCTTCGTACTGGGGATATTGGGATCGATAGCGCGCCTGCATGGGTTCAGCATTTTCAGGTTCATCAAGTACATCCGCGAAGAGCTCCTGATCGTCCTGGGCACTTCGTCGTCCGAGACCGCGTTACCACTCATGATCGTCAAGATGCAGAAGCTCGGCGCGCATAAGTCCGTCGTGGGCCTGGTCGTCCCGACCGGTTATTCCTTCAACCTTGATGGCACTTCCATCTACCTCACCATGGCGGCGATTTTCCTCGCCCAAGCCACCGATACGCCCATGGACATTACGCACCAGATTACGTTGTTGCTGGTCTTGCTAGTCACATCAAAGGGGGCGGCGGGTGTAACGGGCAGTGGCTTCATCGTCTTGGCGGCGACGCTGTCGTCAGTAGGGCATGTGCCCGTTGCTGCGCTGGCCTTGATTCTGGGGATAGACCGTTTCATGTCTGAAGCGCGGGCATTGACCAATCTGATCGGTAATGGGGTGGCGACAATCGTGGTTGCCAAGTGGTGTGGGCAGTTGGACGAGAAGGTGCTTCAAAAGAGGCTGGAAGAGGGCCCTGGGGCGGCGGCTGTCGGTTCGTCGGCATCCCATAACGTCAGAATTTGA	MSAETQNRKPFYKILYLQVLFAIAIGILIGHFYPEAGTTLKPLGDGFIKLIKMVIAPIIFCTVVTGIAGMQNMKAVGKTGGYALLYFEIVSTIALLIGLAVVNFVQPGAGMHIDPSTLDASGIAVYAAAGKEQSTIQFLLHIIPNTIVGAFAEGEILQVLFFSVLFGYALHRIGDYGRRVFEFIESISQVLFSIMGVVMKVAPIGALGAMAFTIGKYGVGSLVQLGYLMLCFYFTCVVFVLGILGSIARLHGFSIFRFIKYIREELLIVLGTSSSETALPLMIVKMQKLGAHKSVVGLVVPTGYSFNLDGTSIYLTMAAIFLAQATDTPMDITHQITLLLVLLVTSKGAAGVTGSGFIVLAATLSSVGHVPVAALALILGIDRFMSEARALTNLIGNGVATIVVAKWCGQLDEKVLQKRLEEGPGAAAVGSSASHNVRI	PGPT0001450_1745	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0001450-dctA-K11103	NA	NA
D1-35_02549	663	hadL		(S)-2-haloacid dehalogenase	ATGAATTCGATTGAAAACAAGCTTCAGCAAACACCTGTGAAGCTCGTCCTGTTTGATTTGCTCACCGCTCTGCTGGACTCATGGACGCTATGGAATTGCGTGGCAGGCTCCGATGAAATGGGCCGCACCTGGCGTATGGCTTATTTGAAGGCGACTTACGGCTGTGGTGCTTACCGGCCTTATGAAACGTTAGTCGAAGAGGCTGCGATCAGTGTCGGACTAGGCAAGGAGGCCGCGCAGAATCTGGAGGCACGCTGGATGCAGTTGCAACCTTGGCCTGAGGCCAAACGCGTGCTCACCGAGTTGGCGCCGCACTACAAGCTCGGTGTGGTGACCAACTGTTCGGAGCGGTTGGGGCGTATCGCAGCGGATCTTCTGGGAGTGCCGTTTGACGTAATTGTCACTTCTGAACAGGCCGGCTTCTACAAACCCGATGCGGAACCTTACAGGCTCGCCCTGCAAATAGCGGGGGTGGAGTCCGCTCACGCCCTATTCGTGGCGGGCTCTGCTTACGATCTGTTTGGCACGCAGAAAGTTGGCTTGCCAACCTTTTGGCACAACAGAATAGGGCTCGATGCGCCCGCAGGTGCGCCTGATCCATTAATCATGCGTCCGACACTGGATAGCCTGGTTGAGGATATTAAAAATCTGAGCGGCAAATAA	MNSIENKLQQTPVKLVLFDLLTALLDSWTLWNCVAGSDEMGRTWRMAYLKATYGCGAYRPYETLVEEAAISVGLGKEAAQNLEARWMQLQPWPEAKRVLTELAPHYKLGVVTNCSERLGRIAADLLGVPFDVIVTSEQAGFYKPDAEPYRLALQIAGVESAHALFVAGSAYDLFGTQKVGLPTFWHNRIGLDAPAGAPDPLIMRPTLDSLVEDIKNLSGK	PGPT0006885_1831	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
D1-35_02550	1131	dthadh		D-threo-3-hydroxyaspartate dehydratase	ATGACAGCATTCACTCATATCGAAACCCCCGCCTTATTGCTGGATCGCGATCAACTCGATGCGAACATCCAACGGATGCGCAATAAGCTGGCAGCATTCAACGTGGTATTGCGGCCACACGTGAAGACCAATAAGTCGTTAGAAGTTACCGAGCGATTGTTTGCAGGCGGGCGCGGCCCGATCACCGTTTCAACCCTGCGGGAGGCCGATTTCTTTTTCGAGGCCGGGTTCACCGACATCTTGTATGGCGTCGGCATTGCGCCCAACAAATTCGCTCATGCCGGTGCATTGATCGGTAAAGGCGCACAGCTAAAGTTGGTACTCGACAATCTGGATACCGCCAGGTTACTGGCCGAATTCGCCGAAACGTCGGGTCATGTTTTTGATGTTCTGCTGGAAATCGATTGCGACGGTCACCGTTCCGGTCTTGGCCCGCAGTCACCGCTGCTGGTGGAAATCGCGCGGCTGCTGAGCGCCAATGGCGTCAGGGTCAGCGGCCTGATGACACATGCCGGCAAGTCTTACGACAGTCAGTCAATCGCTGAAATCGAAGCCAGCGCCCGGCATGAACGCGCGGCGATTATCGATGCCAGCCAAATGCTGACGAATGCAGGCTTCGACCTGTCGATCATCAGTGTCGGCTCGACACCCACGGCACTTTTTACCGAGGATCTATCCGGGGTGACTGAAGTACGCGCGGGTGTATTCGCCTTTTTCGATCTGGTCATGGCGGGCTTGGGCGTTTGTCAGGTGCAAGATATCGCCGTCTCGGTTCTGACGACTGTCATCGGTCATCAGATTGAAAAAGGCTGGATCATTACAGATGCGGGATGGATGGCACTTTCCCGTGATCGTGGTACCGCCAGACAGGCGGTCGATCAGGGCTATGGCATCGTCTGTGACGCCAGCGGCCAGCCCATCGGCGACCTGATCGTCAGCGCCACCAATCAGGAGCACGGGATCATTTCATCGCGGGCCGGGAAGCTTGAAGCCTCAAGCTTACTGCCCTTGGGCACGCTGCTGCGGATCCTGCCGAACCACGCCTGCGCCACCTCGGCGCAGCACGCGGGTTATCACGTTATCAGCGAGGGGCACAGTGTGGGCTACTGGCCACGCATCGCGGGTTGGTAA	MTAFTHIETPALLLDRDQLDANIQRMRNKLAAFNVVLRPHVKTNKSLEVTERLFAGGRGPITVSTLREADFFFEAGFTDILYGVGIAPNKFAHAGALIGKGAQLKLVLDNLDTARLLAEFAETSGHVFDVLLEIDCDGHRSGLGPQSPLLVEIARLLSANGVRVSGLMTHAGKSYDSQSIAEIEASARHERAAIIDASQMLTNAGFDLSIISVGSTPTALFTEDLSGVTEVRAGVFAFFDLVMAGLGVCQVQDIAVSVLTTVIGHQIEKGWIITDAGWMALSRDRGTARQAVDQGYGIVCDASGQPIGDLIVSATNQEHGIISSRAGKLEASSLLPLGTLLRILPNHACATSAQHAGYHVISEGHSVGYWPRIAGW	PGPT0020170_3	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020170-dthadh-K20757	NA	NA
D1-35_02551	906	dmlR_12		HTH-type transcriptional regulator DmlR	ATGAACGAGACAGTTGATCTCCGCTTTCTCTTGGTCATCCGGGAAAGCGAGAGTTTGTTGGCCGCGTCACGTAAGCTGGGTCTGACGCCTTCAGCGGTGACCCAGCGACTTCAGCAAATGGAGAAAAAACTGTCGATTCGATTGCTGGATCGGTCAGCCCGGCAGCTGCGCTTTACCGACGAGGGCGAGTTCTTGTGCCAGCGTGGGGCCGAGCTGGTCGAGCAGTTCGATTCCCTATTGGCGGATTTGCAAGAGCGGCGCAGTGGCTTCGTCGGCAAGTTGAAAATCAACGCACCGTTCGGATTTGGGCGACTGCACGTGGCACCCGTCGTGGCAGCTTTCCAGCGCCTGCATCCAGATGTAGAGATAGCATTGAGTCTGTCGGAACAGCCTATGGTCGAAGCGACTGACCGATTTGATGTGGTTATCCATATTGGGGAACTGCGCACCTCCAACCTGGTGGGCCATCCCATTGCCCCCAACCGTCGCTACGTATGCGCCTCACCGGACTTTATTGAACAGCACGGGCTGCCGGAACATCCCGACCAGCTCGCTACCTTGCCCTGCATCGCGCTGCGGGAAAACAACGAAGACGTCACGCTCTGGCATTTCACGCGCGCGGGTAAAACACACAACGTGCGAATCCGCCCAGCGTTGAGCTGCAACGATGGAAGTGTTATTCGGCAATGGGCTTGCGAAGGGAACGGCATCATCATGCGTTCTGAATGGGACGTTGCCGATGCTCTGGCGGAGGGGACGTTGATACGACTATTGCCGGGTTGGAAACTGCCAGAGGCCAATATTGTTGCGCTGACGCATCAACGCGAAGGGCTGCCCGCAAGAACGCTCAAATTTCTGCGCTTCCTCCAGGATCACTTCCGGCCGCAACCACTCTGGCGACAATAG	MNETVDLRFLLVIRESESLLAASRKLGLTPSAVTQRLQQMEKKLSIRLLDRSARQLRFTDEGEFLCQRGAELVEQFDSLLADLQERRSGFVGKLKINAPFGFGRLHVAPVVAAFQRLHPDVEIALSLSEQPMVEATDRFDVVIHIGELRTSNLVGHPIAPNRRYVCASPDFIEQHGLPEHPDQLATLPCIALRENNEDVTLWHFTRAGKTHNVRIRPALSCNDGSVIRQWACEGNGIIMRSEWDVADALAEGTLIRLLPGWKLPEANIVALTHQREGLPARTLKFLRFLQDHFRPQPLWRQ				NA	NA	NA	NA	NA
D1-35_02552	3723	rcsC_10		Sensor histidine kinase RcsC	ATGGTGACATTCAAGCCCGTCACCGACAGGCCCATTGCCGTCAGGATCGGGCTGGCGGTCGCCGCGCTGGTGTTCCTGATGCTGGCGGTGTCGCTGGTGAACCTCTACGGTTTGCGAGGCATGGTCCGCGCGGTGGATTCCGCCAGCCATTCGGCGGAGATCCTGGCCTCGGTCAACGGCGCCACCGGGCGTGTGGAAAACTTCATCGCCACCCGCGATTCTGAGAGTCTGTCCCAGGCCGAAGGCATGGTGGCGACGGCGATCGCCGGCCTCAGCGCCATTCCGGCGGCCGAGGCGCAATCGCTCAAAGGCAGCCTGGAGCGGCTCGCCGCAGCGATCACTGCCTTGCGCGCGGCGACCCTGACCATGGATGGCGAAACGGAGAACATGACCGCCCACTACGGGCGGATGCGAGAGGCGACGATCCTCGTCGAACAGGGCATCGCCGATGGCCTGAAGGGGCTCGATGCCCGCACCGCCGGGCACGAGGCGCGGGTGAGCGACATCGAAAGCGCCCACCGCATCCTGGATGTCCTGCGCAACGGCGAACGGATCATCACCGCCCATGTGGCCAAGATGTTGGTGACCGAGGATGCGGCGGCTGCCATGGCGGCGCGCAACGCCTGCGCGGCGCTCCTGCCGGTGATCGAGCAACTGCGCGAGGTGATGGGGGCGCCGCAGGCAACGGAGATCCTTGATCAGTTGGCGGCGGCGGTCGCTGCTGCCAGCGTCGCGGTAGAGCACCTTGGCGAGGCCCCCAGACGCCAGGGAGACGAAGCTTTGCGGCAGCTCGCCGCCGTCGGGGATGCGGCCGCGCGCCTCGAGGCGATGCTAGCTGACGCGGATGGGCTCGTCGGCCACGACGCAAGCGACATTCAGGCAGCGACCGGCTTGCTGCACAACGCCGCCGCGTTATCCAAGCGTTTCGCCGAGCGTGTCGCCACGCTGGAAGCGCAGACCTTGTCGTTTCGCCTGTCACCGTCGGCCGAAACCGCCCGCTCTGTCGGCCTGATTCTCGACGAGCTCTCCCGTCTCGCTCGGGTTCTGCCGTCGTCCGTAGGACTGCAAGCCAAGGCGACGCCCCTGACGGTCAGTGATCAGATTGCCGGCTACCGGGCGGCCTTTGCCAGGTTCCATCAGGCGAGCAATGCCTTGAGCGCGGCGCGCGACGAGGTTCGCAACGAGGCACGGAGCGCCGGCCTGTTGGTTGCGCGCTTTGCGGGTGAAGCGCGCTCCGACGCCTTGGTCCACAACGATCGCGGCATGCTTGCGACGATAGTTGCGGGCACCGTCGCCGTCCTGCTGGCCGGTGCCATCGCCTGGAGCACGTCACGATTTGTCGCGCAGCCCATCGTGGCCCTGGCCTCGGTCATGCGCCGGCTTGCGGCCGGCGACCTGAACGCCGAGATGGCCAGCGCCGCACGCGGTGACGAGATTGGAATCATGACCCGCGCCGTACGGGTGTTCCAGGAGAATGCCCTGCGCATCCGGGTGCTGGAGGCCGAGGCCGAGGCCGAGCGACAGCAGGTCCAGGCCTCTTTGGAGCGAATGGTCGCCGAACGGACCGACACGTTGCACCAACAGACCGACATACTGGAGGCGCAGGCCGTCGAACTCATTCAGGCGCGCAACCAGGCCGAGACGGCCAACCAGGCAAAGAGCGATTTTGTCGCCACGGTCAGCCACGAACTGCGCACCCCCCTGACCCTCATCCTCGCTCCCCTGGAACAGCTCTCGGCGGCGAACACTCCGCCAGCGGACTGGCGTGTGCAGGTCGAACGTGCCCAACGCAACGCATTGCGCTTGATGAACCGGGTGAACGACATCCTCGACTTTTCCAAGGCCGAAGCTGGCAAGTTCGAGCTGTGTCCCTCGCCGGTTGATTTGAACAAGGCGGTGGGGGTGCTGGCCGAGGACGCCGCCATGGTTGCCGAGGGCAAAGGCTGCACCTTGACTTGCAGCATCGATCCCGCGCTCGGCACGGTGTTTCTGGACCCCCGGCACTTCGAGAAAATCCTCCTCAACCTGGTGAGCAATGCCATCAAGTTCACGCCCGGCGGCGGCACCGTACACCTGGCAGTGACGCCGATCGAAGGCGAGCGATTTGAGTTAGCGGTGCAAGACTCGGGAATCGGCATAGAGCCGGACAAACTGCCGCTGTTGTTTCAGCGTTTTTCCCAGATCGACAATTCCGCCACGCGCCATTACAGCGGCACCGGCATCGGTCTCGCCCTGGTCAAGGACCTGGCTGAACTGATGGGCGGCGAAGTTGGCGTCGACAGCGAGCCTGGACGGGGTTCGCGCTTCTTTGTCCGGCTTCCGCTGGGGGCTGAGCAGAACACCCTGCCGACCGAAGCCAGCCATATGCTTGAGCGATCATCGGCGGGCACGACCAGTACGATGGAGCAGCGCCACCTGCGTTTTGACGATGGCCGCCAGGGCAGTCGCAACGACCTCGCTTCGACGCAAGGCGCAGACGACGAGCCGCATCCGGAACATGCCCTGCGATCCAGAGTGCTGGTGGTGGACGACAGCCCGGAAATGCTCAGTTATCTCAGCGAGCTTCTGCAAAACGACTACATCGTCGCCACCGCAACGGATGGAGAGCAGGCCTGGGCACTGCTGCAGCTTCGACCCATCGACGTGATCGTCTCGGATGTGATGATGCCCAAGCTCGACGGTTTCGGCCTGACCGCCAGGATCAAGGCCAGCGCCGGTTTTGCCCATTTACCGGTAATCCTGGTGACCGCCCGCGGCGGTAGCGAGGCCTGCATCTCCGGGCTGGAAAGTGGCGCCGACGACTATATCGCCAAACCCTTCTCGCCGCTGGAGCTCAAGGCTCGCGTACGCGCGGCGCTGCGCATGAGCCAGGTGCAAAGCGAACTGCAGGCAAAATCCCGCCAGGCGGGCATGGCCGAAATCGCCACGACTGTGCTGCACAACGTCGGTAACGTCCTCAACAGCGTGAACGTATCGGCAGAACTGGTCAGCAGCCAGATGCGCACCTCCAAGGCCCAGGGGCTGGGCAAAGTGGCGCGACTGATGAACGAACACGTCCACGACCTGAGCGATTTTCTGACCACGGACAACAAGGGAAGGATGCTGCCCGATTACCTGCTCAAGCTGGCGCAAGTGGTGACGGAAGAGCAGCAGGGCATCATCGAAGAGCTCGGGCAACTCATCAAAGGCATCGACCACATCAAAACCATCGTCGCTGCCCAGCAGTCCTATGCCGTTGCTGTCAGCGTCGTCGAGACAGTACCGGTCTCGGAGCTGATCGATGATGCCTTGCGCATGAGTGCCGGATCACTGGCACGCAAGGAGGTGACGGTGGTCAAGGACATCGCCGACTTGCCCCTGCTGTCGCTGGACCGGCACCGGGTGCTGCTGATTCTGGTGAACCTGATCCGCAACGCCAGGCAGGCGCTGGATGGCGTGAACGATCGCAGCTCCTGTATCACGTTCTGCGCGTCCCTTGTCGACGGATCAGCATTGCGTATCACGGTGGCCGACAACGGCAACGGGGTCGCGCCAGAGCACTTGGCGCGGATCTTTACCCATGGCTTCACTACTCGCAAGGATGGTCACGGTTTCGGCCTGCACAGCTGCGCGCTCGCCGCGCAGGAAATGGGCGGCAGCTTGACCGTGCACAGCGACGGGGCCGGGCAGGGCGCGACTTTTATCCTTGATATTCCCGTTGAGGCTGCGCTGAGCAAACGCTAG	MVTFKPVTDRPIAVRIGLAVAALVFLMLAVSLVNLYGLRGMVRAVDSASHSAEILASVNGATGRVENFIATRDSESLSQAEGMVATAIAGLSAIPAAEAQSLKGSLERLAAAITALRAATLTMDGETENMTAHYGRMREATILVEQGIADGLKGLDARTAGHEARVSDIESAHRILDVLRNGERIITAHVAKMLVTEDAAAAMAARNACAALLPVIEQLREVMGAPQATEILDQLAAAVAAASVAVEHLGEAPRRQGDEALRQLAAVGDAAARLEAMLADADGLVGHDASDIQAATGLLHNAAALSKRFAERVATLEAQTLSFRLSPSAETARSVGLILDELSRLARVLPSSVGLQAKATPLTVSDQIAGYRAAFARFHQASNALSAARDEVRNEARSAGLLVARFAGEARSDALVHNDRGMLATIVAGTVAVLLAGAIAWSTSRFVAQPIVALASVMRRLAAGDLNAEMASAARGDEIGIMTRAVRVFQENALRIRVLEAEAEAERQQVQASLERMVAERTDTLHQQTDILEAQAVELIQARNQAETANQAKSDFVATVSHELRTPLTLILAPLEQLSAANTPPADWRVQVERAQRNALRLMNRVNDILDFSKAEAGKFELCPSPVDLNKAVGVLAEDAAMVAEGKGCTLTCSIDPALGTVFLDPRHFEKILLNLVSNAIKFTPGGGTVHLAVTPIEGERFELAVQDSGIGIEPDKLPLLFQRFSQIDNSATRHYSGTGIGLALVKDLAELMGGEVGVDSEPGRGSRFFVRLPLGAEQNTLPTEASHMLERSSAGTTSTMEQRHLRFDDGRQGSRNDLASTQGADDEPHPEHALRSRVLVVDDSPEMLSYLSELLQNDYIVATATDGEQAWALLQLRPIDVIVSDVMMPKLDGFGLTARIKASAGFAHLPVILVTARGGSEACISGLESGADDYIAKPFSPLELKARVRAALRMSQVQSELQAKSRQAGMAEIATTVLHNVGNVLNSVNVSAELVSSQMRTSKAQGLGKVARLMNEHVHDLSDFLTTDNKGRMLPDYLLKLAQVVTEEQQGIIEELGQLIKGIDHIKTIVAAQQSYAVAVSVVETVPVSELIDDALRMSAGSLARKEVTVVKDIADLPLLSLDRHRVLLILVNLIRNARQALDGVNDRSSCITFCASLVDGSALRITVADNGNGVAPEHLARIFTHGFTTRKDGHGFGLHSCALAAQEMGGSLTVHSDGAGQGATFILDIPVEAALSKR				NA	NA	NA	NA	NA
D1-35_02553	1197			hypothetical protein	ATGCTCATTGCCACTACCGTCGTTGCACGGGTTTCAGTCGCCGCCAAGGAAAGGAGTCTGTACGTGTCTGATACTTCATGCCCGGTTCCATTATTGAAATGGCCTTTGATCCACAGCGTCCTTTGGCGCCTCGCCGGTTGCGTGACCGGGCTGGCGATGCTTGCCGCCCATCCAGCCCAAGCGGCCGACGGCGGTGTCGCCGGCGGCTCTACCGCAAGCTATAGCATTGCCTTCAGCAATTCATACGCAGGCAGCGATTTTCGCAAGGTGATGGTGCGCAACTGGCAGGAGATCGCGCTCCAGGCGCAAAAGGATGGGTTGATCCGCGAGGCTCCGGTGGTCAGCGCCAACAATTCGGCGTCGGAACAAGCGGCCCATATCCAGGACATGATCGTCAAAGGCGTCAATGCCATCGTCGTCCTGGCCGCGTCCGACACGGCACTGAACGGGGTGATCCGCGATGCCTGCAATGCCGGCATCGTGGTGGTGGTCATGGCCAGCCTGGTCAGCGAAAGTTGCGTTTATACCGTGGACTACAACTGGTCCGCCATGGGCCGCGTGGAGATGGATTACATCGCCGAGCGTCTCAAGGGCAACGGAACGCTGCTGGAGATCCGCGGCATTGCCGGCGATGCCACCGATAAAAACATCAGCGACGGCATTCGCAAGGCCGCCAGCGACTATCCGGGCCTGAAGTTCGCCAAGACCGTGTATGGGAACTGGACGGCTTCCGTCGCCCGCAAGGAGGTGGCGCTGGCACTGCCGTCGCTGCCGAGCATTGATGCCGTGGCGACTCAAGGGGGCGACGGTTATGGCGCGGCCATGGCGTTCAAGGCGGCGGGGCGGCCTTTGCCGATCATCGTGATGGGCAATCGTCAGGACGAACTCGCCCTGTGGAAACAGGAGCGCGATGCCAACGGCTACGAGACCGTCTCTGTTTCTGCCTCCCCCAGCGTTTCCCAGGTAGGTTTCTGGGTAGCCCAGCAGATTCTGGCGGGCAAGCAGGTGCCGAAGTTCGTCGAAGTGCCACTGGTGCGTATCGATGCGAAAGACCTGGACGCCTGGCTCGCGACCATGCCGGTGGGTGGCGCCGCCAATCCTTTTTACAGCCAGGCTTCCGTGGCCGCGATGATCGACGCGGCCAACAACAATACGGCGCCGCCGGCGACGCCTTTGCCGGAGGTTACGAAGCAGTAG	MLIATTVVARVSVAAKERSLYVSDTSCPVPLLKWPLIHSVLWRLAGCVTGLAMLAAHPAQAADGGVAGGSTASYSIAFSNSYAGSDFRKVMVRNWQEIALQAQKDGLIREAPVVSANNSASEQAAHIQDMIVKGVNAIVVLAASDTALNGVIRDACNAGIVVVVMASLVSESCVYTVDYNWSAMGRVEMDYIAERLKGNGTLLEIRGIAGDATDKNISDGIRKAASDYPGLKFAKTVYGNWTASVARKEVALALPSLPSIDAVATQGGDGYGAAMAFKAAGRPLPIIVMGNRQDELALWKQERDANGYETVSVSASPSVSQVGFWVAQQILAGKQVPKFVEVPLVRIDAKDLDAWLATMPVGGAANPFYSQASVAAMIDAANNNTAPPATPLPEVTKQ	PGPT0015740_952	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
D1-35_02554	1167	ydhP_2	COG2814	Inner membrane transport protein YdhP	ATGCGTATCAATCCACCGCTTGTCGCACTCGCCATTGGTGCCTTTGGCATCGGCGTTACCGAGTTTGCCCCCATGGGCATGTTGCCGGGCATCGCCGCGGATCTCGGCGTTTCCATTCCCGCCGCGGGTCTGTTGGTCAGTGCCTACGCCCTGGGCGTGCTGCTCGGCGCGCCGCTGATGACCTTGACCACCGGCAGAATTCCCCGACGCTATCTGCTGATCGGACTCATGGCGATTTTCACCCTGGGTAACCTGATGTCAGCGCTGGCGACCGATTACTACAGCCTGATGGTCGCCAGGGTGGTGACCTCACTGAACCACGGTGCGTTTTTTGGCGTCGGCTCCATCGTCGCCGCCAGCGTGGTCGCCCCGGAAAAACGTGCCGGGGCGGTCGCGGCCATGTTCATGGGCCTGACCCTGGCGACCATCGGCGGTGTGCCGTTGGCGGCCTGGTTTGGCGATTTGTTTGGCTGGCGCACCGCGTTCTGGGGAATTACCGGATTGGGCGTAATGGCAATGGCTGCGTTGTGGTTCGCGCTGCCCAACCTGCCGGCGCCGCAAAGCAGCGGGGTGCTGGCGGAAATTCGGGTGCTGGGCCGTGGCCCGGTGCTCGGGGCGTTGGCCCTGACGGTAGTCGGCTCGGGCGCAATGTTCACCGTCTTCACCTACATCGCTCCGATCCTGACCAGCGAGACCCATGCCTCCAGTGCCTTTGTCACGGCCATGTTGGTGCTGTTCGGCGTGGGGCTGACGCTGGGCAATATGTGGGGCGGCAAGGCCGCGGATCGTTCGATAGACCGCACCCTGATCGTTTCCCTTAGCGTGCTGATTCTCGTCCTGCTGGCGTTCACGGTACTGATGCGCTGGCCGCTGCCGGCCGCGGTTGCCATCCTCATCTGGGGTGTCGCCAGTTTTGCCTTGGTACCGCCATTGCAGATGCGCGTGATGGAAGCCGCCAAGGACGCGCCCAACCTGGCCTCGGCAGTGAATATCGGCGCCTTCAACTTCGGCAACGCGATTGGTGCGGCGCTGGGCGGCGCGGTGATCAACGCGGGGTTGGGTTACCCGGCGATTTCCCTGGCCGGCGCGGCAATGGCGGGTCTGGGGCTGCTGATGGTGCTGGCTTTTGCCTGGCGTGCCCGAGGGGTTGCGGCTGCGGCGTTGTGA	MRINPPLVALAIGAFGIGVTEFAPMGMLPGIAADLGVSIPAAGLLVSAYALGVLLGAPLMTLTTGRIPRRYLLIGLMAIFTLGNLMSALATDYYSLMVARVVTSLNHGAFFGVGSIVAASVVAPEKRAGAVAAMFMGLTLATIGGVPLAAWFGDLFGWRTAFWGITGLGVMAMAALWFALPNLPAPQSSGVLAEIRVLGRGPVLGALALTVVGSGAMFTVFTYIAPILTSETHASSAFVTAMLVLFGVGLTLGNMWGGKAADRSIDRTLIVSLSVLILVLLAFTVLMRWPLPAAVAILIWGVASFALVPPLQMRVMEAAKDAPNLASAVNIGAFNFGNAIGAALGGAVINAGLGYPAISLAGAAMAGLGLLMVLAFAWRARGVAAAAL	PGPT0028991_3703	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
D1-35_02555	894	dmlR_13		HTH-type transcriptional regulator DmlR	ATGGACTTCAACGGCAGATCAGGTGAAATGGCCATGTTCGCCACGGTGGCGCAGGAAGGCAGCCTGTCGGCCGCAGCGCGTGTATTGGGGCTGACCCCTTCGGCGGTCAGTCGGATCATCGCGCGAACCGAACAACGGCTCGGCACCCGCCTGCTGTTGCGCACCACCCGCTCGATCACCTTCACCGCCGAAGGCGAGGCTTACCTGCGCGCAGCCCGGCGTATCCTCGCCGACATGGCTGAGGTCGAAGAGGCCATCGCTGACCAGGGCGTGCCCAAGGGCCGTTTGCGGGTCAGTGCCGCCCTCGGCCATGGGCGGCAGACCATCGTTCCTCTGGTGGCCGCATTCAGCGCCCGCTACCCGAACATCGTCGTCGACCTCACCCTTGGCGACGAAGTGGTCGATATTCTCGGCGGCCAGGCCGATGTGGCGGTGCGGTTTGGCCACCTGCCCGACAGCCCGCTGACGGCCCGCAGGATCGGCGACACCGGCCAGGTGGTGGTGGCTTCTCCCGAGTATCTGCAACGACACGGCACCCCTCAGGAACCGGAAGACCTGCTGCGGCACAACTGTCTGCGCTTCAACTTCCGTCGCGCCGAACCCAACTGGCCGTTCACCCGCGACGGCAAAGAGTTTTCCCTGAAGGTCAGCGGCAACATCGAATGCAGCAGTGGCGAGGCGCTGGCACAGTTCGCACGGTTGGGGGCTGGCATCGCCCGTATCGGCGAGTTCAGCGTGGCCGAGGACCTGCAACGCGGCGATCTGGTATCGCTGCTGGATACCTGGAACCCCGGAGACCGGGAGCCGATCCATGCCGTCTTCGTGGGGGGTGCGGCGATGCCGGCGCGGGTACGGGTGTTTGTGGACTTTCTGCTGGAGCAGCATCGGATGTGA	MDFNGRSGEMAMFATVAQEGSLSAAARVLGLTPSAVSRIIARTEQRLGTRLLLRTTRSITFTAEGEAYLRAARRILADMAEVEEAIADQGVPKGRLRVSAALGHGRQTIVPLVAAFSARYPNIVVDLTLGDEVVDILGGQADVAVRFGHLPDSPLTARRIGDTGQVVVASPEYLQRHGTPQEPEDLLRHNCLRFNFRRAEPNWPFTRDGKEFSLKVSGNIECSSGEALAQFARLGAGIARIGEFSVAEDLQRGDLVSLLDTWNPGDREPIHAVFVGGAAMPARVRVFVDFLLEQHRM	PGPT0028940_840	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
D1-35_02556	528			hypothetical protein	ATGAGCACGGTACAGCCTCCGACCACGTCAAAGTCCGCGAAATGGCGCTTCAAGGCAGGCATCGCCATTCTTTGCCTGATGCTCACGTTATGGTTGCTGGTGCCGCTGGCAGCGGCTGCGGATGTACCCCGCTCCACCATCGCGGCGATCACCGGCGCGCTGTTCATCATCAACAAGGTGCTGTTGCTGCTGGTCATCGCGGTGATGGGCAAGGCAGGTTTTCAAGAGCTCAAGCAGAAGGTGTTCGGTTATGTGTCGGGCCTTGTACCCAGTGCCGAGCAGGAGGTCAGCGTCACCCGCCACCGTATTGGCCTGGTGATGTTCTGCCTGCCGTTGCTGTGCTCTTTTCTTGAACCTTATATCGATGCCTTCGCGCCCGGCTTTCGCCCCAACAGCTGGGCGTTGCAACTGCTTGGCGATGTCCTGTTGATCGGCAGCTTCTTCGTCCTGGGTGGCAACTTCTGGGAGAAATTGCGCGCGTTGTTTATCCGCACCGCACGGGTCAATACCGCTGCCGACGCGGTCTGA	MSTVQPPTTSKSAKWRFKAGIAILCLMLTLWLLVPLAAAADVPRSTIAAITGALFIINKVLLLLVIAVMGKAGFQELKQKVFGYVSGLVPSAEQEVSVTRHRIGLVMFCLPLLCSFLEPYIDAFAPGFRPNSWALQLLGDVLLIGSFFVLGGNFWEKLRALFIRTARVNTAADAV				NA	NA	NA	NA	NA
D1-35_02557	1122	aaeA_3		p-hydroxybenzoic acid efflux pump subunit AaeA	ATGCCCGATTCGCCCAGTTCCGTCGAGCCTGAGTTACAAACCGAACCGCTTCCTGAAAAGCCTGCGCCAGCCAATCCGCTAAGGCGCATTGCCCTGGGCGTTGCAGTGTTGATCGCCGTGCTGTTCACCCTCTCGATTTTCATGGAGCGCCGCACGCCCTCGACGTCACAAGCCGTGGTGCAAGCCTATGTGGTGGAAATGGCTGCCGAGGTGGGTGGCCGTGTGACAGAAATTACGGTGCTCGACAATGCCCGGGTGAAGACCGGCCAGGTGCTGTTTCGTATCGACCCGCAGCCTTACAGACTTGTCGTCAGCGAGGCAGAGGCACGGCTGGAGGAAGCCGGCCAGGCAGTGGGCGCCAGCACCGCCTCGGTGGATGCCGCCCAGGCGCAGCTGGTATCGGCGCGAGCGCAGCGCGACAACATTCGCGAGCAAGCCCGACGGGTGAATCAACTGGTTGAGCGTGGCGTGTTTGCCGCCGCCCGCCAGGATGAAGCGAAAGCCTCGCTGGGCTCCGCCGAGGCGGCCGTCAGCAAGGCCCAGGCCGACCTGGAACGGGCGCGCCAGCAACTGGGGCCCAAAGGCAACGACAACCCGCAGTTCAAGCAAGCCCTGGCCGCGCTGGAAAAAGCCCGGCTCGATCTGGTGCGCACCGAAGTCATCGCACCCGCCGACGGCGTGATCACCCATCTCCAGCTCGCGGTCGGTCAGGTCGTCAGCGCCGGCCAACCGGCACTGACCTTCATCGACAGGGGCACGGTATGGGTGTCTGCCGCGTTCAAGGAAAACAGCCTGGAACATGTGCAGGCCGACGATCCGGCGGAACTGGTGTTCGATGTATTGCCGGGCCGTGTGTTCAAAGGCCGTGTTGAAAGCGTCGGCTGGGGTGTCGCGCAACAGGGCAGCAGCAACTCGGCCCTGCCCTCGGTGCGCAACCAGAGTGGTTGGGTGCGCGACCCGCAGCGCTTTCCGGTACGCCTGATAGTGGAGGAACCGCACCCCATCGGCCCGCGTTACGGCTCGCAGGTGAGCGTGGTGATCTATACCGATGACAACCCCATGACTAACGCACTGGGGGCATTCATGACACGCCTGGGCGCCTGGCTGAACTATGTCAATTGA	MPDSPSSVEPELQTEPLPEKPAPANPLRRIALGVAVLIAVLFTLSIFMERRTPSTSQAVVQAYVVEMAAEVGGRVTEITVLDNARVKTGQVLFRIDPQPYRLVVSEAEARLEEAGQAVGASTASVDAAQAQLVSARAQRDNIREQARRVNQLVERGVFAAARQDEAKASLGSAEAAVSKAQADLERARQQLGPKGNDNPQFKQALAALEKARLDLVRTEVIAPADGVITHLQLAVGQVVSAGQPALTFIDRGTVWVSAAFKENSLEHVQADDPAELVFDVLPGRVFKGRVESVGWGVAQQGSSNSALPSVRNQSGWVRDPQRFPVRLIVEEPHPIGPRYGSQVSVVIYTDDNPMTNALGAFMTRLGAWLNYVN				NA	NA	NA	NA	NA
D1-35_02558	1047			hypothetical protein	ATGTCAATTGACGGGCAGGCCGAACTTGAGCTGCTGCGGATCAAACGCCAGGGACTGCGTGTCGCCCTGGCAGTGACCGTGGGCTTGTGCGCGGGTCTGGTCCTGGGCGACGTCCTGCCGTTTCTCGCGCCCTTGTTCGCCATCCAGTTCCTCTTGGCCAGCCGCCGCGCGCCAGCGCTGTCTCAAGGGTTGATTACGTTGCTGGTGAGTATGCTCACCGGCGCGCTGCTGGTGGGTGTGACGGGTATGTTCGGTGAACGACCATGGATATTGCTGCCGCTGCTTTGGCTGTTTTATCTCGCCTGTTTTACCGCGCAAGGCCGGCAACCTGGCGGCGCGGGACCAGCGCTGATGCTGGTGATCGCCATTGTGGTGCCGATGCTCGATATCGCGCAGAGCGATCTGGGCGAGTCCATTGTGCTGGTACTGGTCAAGGCGGTCGGCCTGGGTTTGCTGCTGGCCTGGGGCGCCCATGCGCTGCTGCCCGACCCTGCTGGTGAACATGCCAGGCAGGCCTCCGCCCAGCCGCACGAGCAGACGCTGGTGATTCGCCAGGCCATGGCCAGCGCGACAATTCTGCTGACCATGGTTGCCCTGTGCCTGAGCGACCCACGGCTGGCCACGGCGATCGTCGTCCCGATCACGGTGGCCTCGTTGCTTAGCCAGTTTTCCCTGGGCATGAGCAGCCGCACCGCCCTTGGCCTGGTGCTGGTCAACCTGCTAGGCGGGATGGCGGCGTCTGTGGCCTTCACGCTGTTTGAACTGCGCCCGACCCTGTGGCTGGTGGCGCTGATCCTGTTGCTGGTAAGCCTGCTGTTTGCCGGCAAAGCCGCCATCGGCAACGCCACTGGGAAGATATTCGGCGGCGGGCTTATCACCTTCGTTATTCTGTTCGGGCTCGGTGTATCGCCACTGCCAACAGAGACGCCACAGCTGTTTTCCAGCCGAATCGCCTACGTGCTGTTTGCAGTGGTCTATGCCATTGGCCTGGCCGCGCTGCTGTGGCCAAGAGCGCGCGTATCGGAGCCTCGTCCGCAATCGGTGTAG	MSIDGQAELELLRIKRQGLRVALAVTVGLCAGLVLGDVLPFLAPLFAIQFLLASRRAPALSQGLITLLVSMLTGALLVGVTGMFGERPWILLPLLWLFYLACFTAQGRQPGGAGPALMLVIAIVVPMLDIAQSDLGESIVLVLVKAVGLGLLLAWGAHALLPDPAGEHARQASAQPHEQTLVIRQAMASATILLTMVALCLSDPRLATAIVVPITVASLLSQFSLGMSSRTALGLVLVNLLGGMAASVAFTLFELRPTLWLVALILLLVSLLFAGKAAIGNATGKIFGGGLITFVILFGLGVSPLPTETPQLFSSRIAYVLFAVVYAIGLAALLWPRARVSEPRPQSV				NA	NA	NA	NA	NA
D1-35_02559	1323	yhdG_2	COG0531	putative amino acid permease YhdG	ATGACAGTGAACCGGTCACAACCCAAGCCCTCTTTGCGCCGCGCCATCACGGGGCCGATGCTGTTTCTGTTCATCCTGGGCGATGTACTGGGCGCTGGCGTTTATGCCCTTGCGGGTACCATCGCCGGAGAGGTAGGCGGGGCGATTTGGGTGCCGTTGTTGATCGCGTTGTTCTTCGCCATGTTGACGGCAGGTTCGTACGCCGAACTTGTCTCGAAATATCCTCACGCGGGCGCGGCGTCGGTGTTTGCCGAAAAGGCTTTCAAGTCACCGCTGATATCGTTCCTGGTTGGTTTTTGCATGCTCGCCGCGGCGGTGACCAGCGCGGCCGGTCTCTCGCTGGCCTTCGCGGGGGACTATCTTGGCGCATTCATCCAGGTATCACCCCACGTTGCTGCGCTGATTTTCCTGCTGGTCATTGCCCTCTTGAATGCGCGAGGAATCAAGGAATCTCTGGGGGCGAATCTGCTGATGACCGTGATCGAGCTGTCAGGGCTGATGTTGGTCATCGTGGCTGCGGGTTACTTTTTCAGTTCTGGCGAAGCTGAACTGGCAAGGGCGCTGGAGTTCAAGCCTGGGGTCAGTCCGATGCTGGCGGTATTGGGCGCGGCGTTGCTCGCGTTCTATTCGTTTGTCGGTTTTGAGACGTCCGCCAATCTCGCGGAAGAGATCAAGGATGTTCGCAAGGTATACCCACGGGCCTTGTTTGCGGCGCTGATTACCGCAGGGGTGGTTTACATGGCTGTTGGGGTCGCCGCGTCTTCAGTTTTGCCAACGGAAAAACTGCTTGCCACATCGGCCCCATTACTCGAAGTGGTTCGGGCTTCCGGGCTCGACATTTCGCCGCGCCTGTTTGCCTTTATCGCGCTCATCGCGGTGGCCAACGGAGCGCTGCTGACCATGATCATGGCCAGTCGACTCACTTATGGGATGGCCAATCTGGGGCTGTTGCCAGATGTCCTGGGAAGGGTTCTGCCGCATAGGCGCACACCCTGGGCGGCGATTATTGCAACGACGCTCGTAGCCATCGCACTGACGCTGACAGGAACGTTGGCGACCTTGGCGCAAACCGTGGTGCTGCTTTTACTGTTCGTGTTCCTCAGCACCAACATGGCCGTGCTGGTGTTACGCAAGGACAAGGTTGCGGAAGAACATTTTCAGGTTCCCACCTGGGTACCCTGGCTGGCGATCCTGTCTTGCCTCTTATTGCTGAGTCAGCAAGACTTGGGTACGTGGCTGCGAGGCGGGGCACTTATCCTGGTGGGGATGCTGCTGTATGTCTTTGCCCGAATGGCTGTGCCGGCTGTTGTAAAACCAGACTAG	MTVNRSQPKPSLRRAITGPMLFLFILGDVLGAGVYALAGTIAGEVGGAIWVPLLIALFFAMLTAGSYAELVSKYPHAGAASVFAEKAFKSPLISFLVGFCMLAAAVTSAAGLSLAFAGDYLGAFIQVSPHVAALIFLLVIALLNARGIKESLGANLLMTVIELSGLMLVIVAAGYFFSSGEAELARALEFKPGVSPMLAVLGAALLAFYSFVGFETSANLAEEIKDVRKVYPRALFAALITAGVVYMAVGVAASSVLPTEKLLATSAPLLEVVRASGLDISPRLFAFIALIAVANGALLTMIMASRLTYGMANLGLLPDVLGRVLPHRRTPWAAIIATTLVAIALTLTGTLATLAQTVVLLLLFVFLSTNMAVLVLRKDKVAEEHFQVPTWVPWLAILSCLLLLSQQDLGTWLRGGALILVGMLLYVFARMAVPAVVKPD	PGPT0020810_5910	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020810-TC_APA|yhdG-K03294	NA	NA
D1-35_02560	978			hypothetical protein	ATGAGCCGTCATGATCATGGTCACGCCTGCCTCCTTGAGGCCTTCAGCGCAATGACACTGGAGCTCCAGCGCCTGGCGCAGGACAAGAACATCGAGCATTTCCACGAAGCGGCGCTGAGCTGCATCAGCCAGCTGTTGCCCTTCGAGAGCGCCTGGTGGGGCCGCGGCGCGTTGGTTGACGGACTGCCTGAAGAACACAGCTCCTATCTACATGAACTGCCCCGCAGCTACCTGTCGGACTGGCAGTCGATTCGCCATATCGATGTGACTGTCGCCAGGGCCCACGATGTTCCGGGGCGAGCGGTCATCGTCGACATGCGCAACCCTGCCAGCGGCTCCGGGCTTAACTGGCTCGGCCAGACGTACGCCATCGGCGAGTTGCTGTGCGTGGTGTACATCGACCCGCAAACCCACCTCAGCGACCACCTCGCACTCTATCGCGCCCCAGACGCGGCACGCTTCACCGAGCAAGACTGCCTGTTGCTGAACAATCTCATGTTGCACCTGGTGGCGGCGGTATCCGCCAATCAGATTCGCACCCTGGTGGCGATGCGCGAGGCCCTCACGCATCCGCGCAACCTCGCGCTCGCCGTGTGCGACCAACGCGGCACCCTGCACTGCGCGGAACGTGGCTTCGTCGACTTATTGTTGAGCGAGTGGCCGGACTGGACCGGCCCTTGCCTGCCGGTGGCGATGAACGCTGACGGCTATGAAGGCAAGCACTTGCAGATCGAGGCATCGACGGTCGGCGACCTGCTCCTGCTGGCCGCTCGCAGCCGCACGGTGCTGATGCAACTGAGCCCACGGGAAAACGCCGTGGCCCAGGGTTTCGGCGAAGGCAAGACCTACAAGGAAGTCGCCCGCGACCTGGGCATGTCTCCCAACACCGTGCGCCATCACATCCGGGCGATCTACAGCAAGCTCGGAGTCAAGGACAAGGCCCGTATCGCCCATCTACTGCATGCCCCATCCGACTAA	MSRHDHGHACLLEAFSAMTLELQRLAQDKNIEHFHEAALSCISQLLPFESAWWGRGALVDGLPEEHSSYLHELPRSYLSDWQSIRHIDVTVARAHDVPGRAVIVDMRNPASGSGLNWLGQTYAIGELLCVVYIDPQTHLSDHLALYRAPDAARFTEQDCLLLNNLMLHLVAAVSANQIRTLVAMREALTHPRNLALAVCDQRGTLHCAERGFVDLLLSEWPDWTGPCLPVAMNADGYEGKHLQIEASTVGDLLLLAARSRTVLMQLSPRENAVAQGFGEGKTYKEVARDLGMSPNTVRHHIRAIYSKLGVKDKARIAHLLHAPSD				NA	NA	NA	NA	NA
D1-35_02561	882			hypothetical protein	ATGCCAATGACCAAGACTTTCACGCGCAATGCCGCACTGGCCCTGATCGGTGGCTTGTCGAGCCTGCACGCCAGTGCCGCCGACCTCAATGCCCGGGATTTTTTCGGCGCGCCTTCAGGCACCAACCTGGGCGTGGTGTATTTGCCGGCGAGCCGCGCTGACGACTTTCACGGCCCGGCCGACAGCACCGGCAAGGCCGACCTCAAGGTCAACGCCATGGCTTACCGTCAGGTATTTTTCACCGACGTCTGCGGCACCCTGTGCACTCCGCAGTTCATCGTGCCCTTTGCCGACATCAACGCACGCCTGCCAGGTGCCAGCCAACACACCGGGGAAAGCGGCTTTGGCGACCCTCAGGTCGGCGGCACGCTGTTCATCATCAATGACCCCGCCTCACGCACCTATAGCGGCTTGCTGACCCTGATCACCCTGCCAATTGGCGAATACCACGGCAAAAATCCAGACGTATCGCCCGGCGCCAATCGTTGGGGCGCGACCTTCGTTTACAACTACACCCAGGGCATCGGCGAAAAATGGGTATTGGAGGCGAACCTCGAAGCCCAGCTCTACGGCAAGAACGACGATTACTTTGGCAGCGAGCTGAAACAGGACCCGCTGTATCGCCTGCAGGCCTTCGCGTCCTACGACTTTACGCAAAGCACCTACGGGGCTTTGCGGCTGATCCACGCAGATGGCGGCGAACTGCGGATCAACGACCAGCGCATCGATGACACCCACAAGCGCTACACCCAGGTGGGCTTCGAAGTCGGCCACTGGCTGGATAAACAGAACCAGGTGATGTTCGGCCTTTCGCAAAACGTTGCCACCGATAACGGCTACCACGGCACTGACGCACTGCTGCGTCTGGTCCACGTGTTCTGA	MPMTKTFTRNAALALIGGLSSLHASAADLNARDFFGAPSGTNLGVVYLPASRADDFHGPADSTGKADLKVNAMAYRQVFFTDVCGTLCTPQFIVPFADINARLPGASQHTGESGFGDPQVGGTLFIINDPASRTYSGLLTLITLPIGEYHGKNPDVSPGANRWGATFVYNYTQGIGEKWVLEANLEAQLYGKNDDYFGSELKQDPLYRLQAFASYDFTQSTYGALRLIHADGGELRINDQRIDDTHKRYTQVGFEVGHWLDKQNQVMFGLSQNVATDNGYHGTDALLRLVHVF				NA	NA	NA	NA	NA
D1-35_02562	1164			hypothetical protein	ATGAACACCCAGACCCAACCGCTTGTGGATGAGCGTTTGCGCGCATCATCTGAACGGGCGTTGCTGGCAGCCATCGTGCTGTTCGCCGCCATCACCCCGACCATTCTCATGACCGCACCGGCCATTGCGGCGCAACTGGCGACTCAATGGCAGTTGAGCCCGTCACAGATCGGCGACCTTTTCTCCACCGAACTTGGCGCCATGAGCCTGGCCACCCTGCCCGCCCTGTGGTGGCTGAAACGTATCGACTGGCGCCGCGCCGCATTGCTGGCGGGTGTCGTGTTCATTGCAGCAAACCTTTTATCAGTGCTTGCTGCCGACTACTCGATACTCCTGGCGTTACGCTTTTGCAGTGCCCTGGCGGGCGGTTCGTTGATGATCATCTGCCTGTCCAGCGCCGCGTCAACAGCCAATCCCGGTCGCGTCTATGGGTTATGGGTGCTGGGGCAACTGGTCGTCGGGGCGATCGGTTTGAGCATCCTGCCTCGGCTCTTCGAACACTTCGGGCTATCGGCGTGCTACGTGATCCTCGCAGGGTTGATGACGGTCTTTTTGCCACTGGCCCGCTATTTTCCGCAAGGCAGCCCATCGGCTGAAACAACCGCCGAACATGTCGTCATCGCCTCGCTGTGGAAAGCCGCGCTGGGCATTCTGGGGGTCTTGAGTTTCTACATTTGCCTGGGCGGTGTGTGGACCTTTATCGGCTCCATCGCCACCCAGGCAGGTATCTCCGCCGAGTCCAGTGGCAAGGTTCTGGCGCTCGCCACGGTGATGGGCATTGTCGGAGCGGGCTGTGCCTCACTGATCGGCGACCGACTGCCACGCTTGCTGCTGTTGCTGCTGGGCTACGCACTGATGGCCGGCTCAGTGCTGCTGCTGCGAGGTCAACCCGAAATAATGCAATTTGCCGTGGCGGCCCTGCTGTTCAAGTTCACCTGGACCTTCATCCTGCCGCTGATTCTGGCCTGTCTGGCCGACCTCGACCGCTCCGGGAAACTGATGAACGCCTCCAACCTTGTGATCGGCGGTGGCCTGGCTATCGGCCCGACAGTGGCGGGCCGGCTGATCGAAGCCAGCGGCGGCTTCCAGTCGCTGCTGATCGGCGGGACGTGCATCACCCTGCTCTCCCTGGCGTTGATGCTCGGCAGCCGCCCAAACGCATGA	MNTQTQPLVDERLRASSERALLAAIVLFAAITPTILMTAPAIAAQLATQWQLSPSQIGDLFSTELGAMSLATLPALWWLKRIDWRRAALLAGVVFIAANLLSVLAADYSILLALRFCSALAGGSLMIICLSSAASTANPGRVYGLWVLGQLVVGAIGLSILPRLFEHFGLSACYVILAGLMTVFLPLARYFPQGSPSAETTAEHVVIASLWKAALGILGVLSFYICLGGVWTFIGSIATQAGISAESSGKVLALATVMGIVGAGCASLIGDRLPRLLLLLLGYALMAGSVLLLRGQPEIMQFAVAALLFKFTWTFILPLILACLADLDRSGKLMNASNLVIGGGLAIGPTVAGRLIEASGGFQSLLIGGTCITLLSLALMLGSRPNA	PGPT0028991_3861	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
D1-35_02563	1113		COG0123	Histone deacetylase-like amidohydrolase	ATGAGCCGAAAAAGTGCATTTTTCTTCGACGAACTCAGCCTCTGGCACAGCGCCGGGTTGCATGCCTTGACCTTGCCGGTGGGAGGATGGGTACAACCACCTGCCGCTGCGGGCCACGCTGAATCGCCGGAAACCAAACGCCGTCTGAAGAGCCTGCTGGACGTTTCCGGCCTGACCCGTCATTTGCAGGTACGCAGCGCCAACGCGGCGACCGATGAAGATCTGCTGCGGGTTCATACATCCGGTTACCTGCAACGCTTCAAGACGATGAGCGATGCCGGGGGCGGTGAGTTGGGGCCGCACGCCCCCATCGGGCCTGGTAGTTATGAAATAGCCAAGCTCTCTGCCGGGTTGGCCATCGCCGCGGTCGATGCCGTGCTCGTCGGGGAAGCCGACAACGCATACGCCCTGTCGCGCCCGCCAGGCCATCACTGCCTCGCCGACAGCGCCATGGGCTTTTGCTTCCTGGCCAACATTGCCATCGCCATTGAAGCCGCAAAAGCCCGCCGTGGCCTGGGCAACGTCGCGGTGATCGACTGGGACGTACACCATGGCAACGGCACACAATCCATCTTCGAAGAGCGTGGTGACGTGCTGACCATCTCACTGCACCAGGACGGTTGTTTCCCGGCGGGTTACAGCGGTGAAGCTGATCGCGGCCGTGGCGCGGGGTTGGGTGCGAACATCAATATTCCACTGCCGCCCGGCAGCGGCCATGAGGCTTACCTGTACGCGATGGAACGCATCGTGATCCCGGCACTGGAGCGCTTCGAGCCCGAATTGATCATTGTCGCCTGCGGCTACGACGCCAACGCCGTCGACCCGCTGGCCCGCATGCTGTTGCACAGCGACTCGTTCCGGCAGATGACCTGCCTCGTGCGTAAAGCCGCCGAGCGCTTGTGCCAGGGCCGTCTCGTGCTGGTGCACGAAGGTGGATACTCAGAAGCGTATGTACCGTTTTGCGGGCTGGCGACCCTTGAGGAACTGGCGGGCGTGAGGACTGTTGTCACCGATCCCATGCTGGAATTTGTCCAACTGCAGCAACCGAAGGAGGCGCTTGCGGCGTTTCAGCGGCACTTGATCGATGAGTTGGCCCACACACGCTTGGCCTAG	MSRKSAFFFDELSLWHSAGLHALTLPVGGWVQPPAAAGHAESPETKRRLKSLLDVSGLTRHLQVRSANAATDEDLLRVHTSGYLQRFKTMSDAGGGELGPHAPIGPGSYEIAKLSAGLAIAAVDAVLVGEADNAYALSRPPGHHCLADSAMGFCFLANIAIAIEAAKARRGLGNVAVIDWDVHHGNGTQSIFEERGDVLTISLHQDGCFPAGYSGEADRGRGAGLGANINIPLPPGSGHEAYLYAMERIVIPALERFEPELIIVACGYDANAVDPLARMLLHSDSFRQMTCLVRKAAERLCQGRLVLVHEGGYSEAYVPFCGLATLEELAGVRTVVTDPMLEFVQLQQPKEALAAFQRHLIDELAHTRLA				NA	NA	NA	NA	NA
D1-35_02564	1392	qseC_2		Sensor protein QseC	ATGACCTCCGTGCGGGCGCGCATCCTCATTCCTGTATTGGCCCTGATCCTGTTGGGAGACGCCCTGATCAGCTGGCTGGTGCTGCGCGATAGCCACCAGGAAATAGAAGAAGTCTACGACGCCCAACTGGCCCAAAGCGCGCGGCTGCTGCAAGGCGTGCTGCGCCAACGCGACCCCGGCGAAGCTGACTGGGACCGCCTGTACCAGGCCTTCGACCAGGCCATGAGTCGTGTCGGTGAAAACGGCGTTGCCCATCCTTATGAAACGCGCTTGACCTTCCAGGTGTGGCGCAGGGATGGTCAGCTACTGGTGCGCTCCGCCGGCGCACCGGTTCTCGATGCGTCGCTGGCCACCCTGGGTTCCCACGACATCGTCGATAACGGCAACGACTGGTGCGCCTTTCTCCTTGCCGACCCTGAACAGGACCTGCTGATCTGGGTGGGCGAGCGCGACGACATTCGCCAGGACCTGATCCAGCGCATCGTGCGTCATACCCTCTGGCCCAGCCTGATCGGAGTGCCGCTGCTGGCGCTGTTGATCTGGCTGGTCATCGGTTGGGGCCTCAGCCCCTTGCGGGCCATGGCCCTTTCTATCCGTGGGCGCACCACCGAGACTCTGCAGCCGTTGCATCTCAAGCCTCTGCCCAGCGACCTGGAGCCAATGCAAACCGCGCTGAATCGCCTGCTGGACCAGGTCGATGGTCTATTGGAGCGCGAGCGCCGCTTCATCGCCGACGCCGCTCACGAGCTGCGTACACCCTTGGCGATCCTGCGCATCCATGCCCAGAACGCGCAAACCGCGGTGACTGAAGAACAGCGGCGCGAGGCGCTGCATTTCCTGGTCAACGGGGTCGATCGCGCCACCCGCATCGCCAGCCAGCTCTTGACCATGGCCCGCATCGAACCGCAACTGAACAACCCCGTGTATCAACGCGTGCAACTCGCCGAACTGGTCCGCGAAGAGTTGGCTGAACTCACGCCACTGGCCATGGAGAAAAGCGTGGAGTTGGTACTGGAGTGTGATGAAGAGTGTTGGCTGCAAACCGAGCCGGTAGCACTGGCCATTGTCCTGCAGAACCTGGTGACCAATGCCCTCAACTTTTCTCCACCAGGGAGCGAGGTGGCTGTGGTGGTGCGCAAGGACGAGGCGGGCAGGGTCTGCTTGAGGGTTGAAGACGCCGGCCCGGGGATCGATGAAGGGGAAATCGCAAGGCTGTTCGAGCGCTTTTACAGTCGCGGCAATGCCAATGGCGCGGGCCTGGGATTGGCCATCGTGCAGATGGTGACAAACAAGATTGGCTGCACGTTACGCCTTTACAACCTGGCGGGCGGTGGCGTTTGTGCGGAACTTTGTCTGAACAGTGACCTTGCAAGCCCGACCTCCAACGCTTGA	MTSVRARILIPVLALILLGDALISWLVLRDSHQEIEEVYDAQLAQSARLLQGVLRQRDPGEADWDRLYQAFDQAMSRVGENGVAHPYETRLTFQVWRRDGQLLVRSAGAPVLDASLATLGSHDIVDNGNDWCAFLLADPEQDLLIWVGERDDIRQDLIQRIVRHTLWPSLIGVPLLALLIWLVIGWGLSPLRAMALSIRGRTTETLQPLHLKPLPSDLEPMQTALNRLLDQVDGLLERERRFIADAAHELRTPLAILRIHAQNAQTAVTEEQRREALHFLVNGVDRATRIASQLLTMARIEPQLNNPVYQRVQLAELVREELAELTPLAMEKSVELVLECDEECWLQTEPVALAIVLQNLVTNALNFSPPGSEVAVVVRKDEAGRVCLRVEDAGPGIDEGEIARLFERFYSRGNANGAGLGLAIVQMVTNKIGCTLRLYNLAGGGVCAELCLNSDLASPTSNA	PGPT0003920_789	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-POLYMYXIN_RESISTANCE,PGPT0003920-pmrB-K07645	NA	NA
D1-35_02565	663	basR		Transcriptional regulatory protein BasR	ATGCGCCTGCTCCTTGTCGAAGATGACCGTGCCCTCGGCCAGGGAATTCGCGTAGCCCTGGGTGCCGAAGGCTACACGCTGGACTGGCTGCAGGATGGCGTCGCGGCCCTGCACGCCGTGCGCAGCGAAAGCTTTGACCTGTTGCTGCTCGACTTCGGCCTGCCACGCCTCGACGGCCTCGACCTGTTGCAACAACTGCGCGCCGAGCAGCACGATTTACCGGTGCTGGTCCTCACCGCCCGCGACGGTACCGCCGAACGCATCGCGGGACTCGACGCTGGTGCCGACGACTATCTGGTGAAACCCTTCGACGTCGAAGAACTCAAGGCCCGCGTGCGCGCCTTGCTGCGCCGCAGCCAGGGCCGCGCGCAACCGATGCTTGAACACGCCGGCGTCAGCCTCGACCCGGCCACTCAGCAGGTGCGCTATCAGGATGCGGATATCATCGTCACCCCCATGGAATACCAACTGCTTCACCAACTGATGGTGCGCCCCGGCAAAGTGGTAACCCGCGAGCGCTTGTCCCGCGCGCTGTACGGCTGGCAGGACCGCGTCGAGAGCAACACATTGGAAGTGTTGATCCACAACCTGCGAAAAAAGTTATCCAGCGAGCTGATCCGCACCGTGCGCGGCGTTGGCTACGTATTGGCGCTCAAACCATGA	MRLLLVEDDRALGQGIRVALGAEGYTLDWLQDGVAALHAVRSESFDLLLLDFGLPRLDGLDLLQQLRAEQHDLPVLVLTARDGTAERIAGLDAGADDYLVKPFDVEELKARVRALLRRSQGRAQPMLEHAGVSLDPATQQVRYQDADIIVTPMEYQLLHQLMVRPGKVVTRERLSRALYGWQDRVESNTLEVLIHNLRKKLSSELIRTVRGVGYVLALKP	PGPT0003915_1173	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-POLYMYXIN_RESISTANCE,PGPT0003915-pmrA-K07666	NA	NA
D1-35_02566	267			hypothetical protein	ATGCGCAAAATTCTCCTGTTGTCCCTGATTATCGCCAGCCCCCTGGCTGTCGCCGGTCCGCAATGCACCACCGCGGAGCGTTCGCAATGGCAAGACGAAAAAGCCTTCCAGGACAAGCTCAAGGCCGAAGGCTACGAGATCAGCAAGTTCAAGGTGACCGATGGCAACTGCTACGAGATCTACGGCTTCGACAAGGACAAGCGCAAGGTCGAAATCTACCATGACCCGGTCACCGGCAAAGCCGTGAAGACCGAGATCAAAGGCTGA	MRKILLLSLIIASPLAVAGPQCTTAERSQWQDEKAFQDKLKAEGYEISKFKVTDGNCYEIYGFDKDKRKVEIYHDPVTGKAVKTEIKG				NA	NA	NA	NA	NA
D1-35_02567	546			hypothetical protein	ATGCCAGGCGAATCCTTACGCCTGTGGGACCCGTTGGTGAGACTGTTTCATCTGTCTATCGCCGGGGTCTTTGTCGCCAACTACTTCTTCAACGAAGCAGGCGACGACTGGCACGTCTGGCTGGGCTATTACGCCATGGCCTGGCTGCTGGTACGAACGGTTTGGGGATTCGTCGGACCACGTAGCGCACGGTGGGCGGACTTCTGGCCCACGCCAGAACGTCTGGGTGCTCACGTGCGCTCGTTGCTCAACGGTCGGCCACAACACCGCCTGGGCCATTCGCCGCTTGGCGCGCTGGTGATGTTGTCGATGTTGCTGGCATTGCTGACTATCGGCATCAGCGGCTTCCTGATGCAGGAAGTCGATGCCCTCTGGGGCGCCGATTGGCCGCTGCAACTGCACGAAACCGCCGCCAACACGCTGCTCGGTCTGGTGTGTGTGCATGTGCTGGCAGCCGTTATTGAAAGTATCCAGGTCCGCGACAACTTGCCGTTATCCATGCTCACCGGTCGCAGGAAGCGCCTGCCCGACGAACGTGCGCAGTAA	MPGESLRLWDPLVRLFHLSIAGVFVANYFFNEAGDDWHVWLGYYAMAWLLVRTVWGFVGPRSARWADFWPTPERLGAHVRSLLNGRPQHRLGHSPLGALVMLSMLLALLTIGISGFLMQEVDALWGADWPLQLHETAANTLLGLVCVHVLAAVIESIQVRDNLPLSMLTGRRKRLPDERAQ				NA	NA	NA	NA	NA
D1-35_02568	300			hypothetical protein	ATGGATAAGACAATCACCGTGGATCAGCTGGCTACCACCGACCTTGGACCATTCAACGAGATATGGCTCGGTGGAACTCATACCCAGCTATGCCTATGGCGTGGTGCCCAGGTGTTCACCCACGAAATGCTCAGCGAGGGCACCCATGATCAGAATGTCCAGCGCCTGTGCTTGCAGTTGGTCGACCCTGACGATCAGGCCGCGGTGGCCAGCGTTGAGCTGATCGCGCGCGAACGGCTGAACAAGATGGGGAAGGAGGGCGAGTTTTATCCGGCCGAGGAAGCGGACACCCATCAATAG	MDKTITVDQLATTDLGPFNEIWLGGTHTQLCLWRGAQVFTHEMLSEGTHDQNVQRLCLQLVDPDDQAAVASVELIARERLNKMGKEGEFYPAEEADTHQ				NA	NA	NA	NA	NA
D1-35_02569	420	glbN	COG2346	Group 1 truncated hemoglobin GlbN	ATGCGCATTGTCCTGCTGGTGCTGATCGGGCTGTTGAGCGCCTGCGCACAATCCTTGCCCAGGGACGACTCGCTCTATCAAGACCTCGGCGCACAGGCCGGGATCACCCGGATCGTCGAGGGCATGCTGCTGAACATCGCGCGTGATGAACGTATCGTAGAGCGCTTTCGCAAGATTGATATCGAGCGGCTGCGCGACAAATTGATCGAGCAATTTTGCCTGGAAACCGGCGGCCCCTGCACCTACACCGGTGACAGCATGGCCGAGAGTCACAAGGGGCAGAACATCAGCCGCAGTGACTTTAATGCCTTGGTTGAAGACCTGATCGCTGCAATGGATGAACAGCGTGTTCCGGTGCCGGTGCAAAATCGGTTGATCGCACGGCTGGCACCGATGCGCGGCGAGATCATCGAGAAGTAA	MRIVLLVLIGLLSACAQSLPRDDSLYQDLGAQAGITRIVEGMLLNIARDERIVERFRKIDIERLRDKLIEQFCLETGGPCTYTGDSMAESHKGQNISRSDFNALVEDLIAAMDEQRVPVPVQNRLIARLAPMRGEIIEK				NA	NA	NA	NA	NA
D1-35_02570	864			hypothetical protein	ATGAGTTCACGTTTGTGGCTATCGATCGCCTGTTGCACAGGACTCGCCCTTCAGGTTGTTTCTGCCGACGGCGGGCGTTTGATCGCGACCGGTGGCGCCAGCAGCCTGGAGGGTGCCGCCGGCGGCGGGATCACGCCGTGGGCAGTGCTGGCCGGTTACGGCGAAAAAAACGAATGGGGGGCGACTGCGTTCGCGACCTCGGTCAATCTGCCGGATTATCGGCTGGATGTCGCCGGGCTGGCCGTGGCCTACGACAACCGGGTCGAGCTGTCTTTTGCCCGGCAGCGTTTCGACCTGGGTTCGCTGGTGAACAAGCTGAACCTGCCCGACGATAACCTCGGCCAGGACATCTTTGCCATGAAGGTGCGTTTGTTCGGTGACGTGATCTACGACGATTTGCCGCAGGTTTCCCTTGGTCTGGAGTACAAACACCAGAACAACTTCCTGATCCCGAGCCTGGTCGGCGCCAGGCGGGACAGCGACACCGAAGGCTATCTGGCTGCCAGTCGGTTATTCATGGGCGGGGCGTTTGGCTACAACCTGCTGCTCAATGGCAGCCTGCGCTACAGCCGTGCCAATGAGCTGGGGTTGCTCGGGTTCGGCGGTGACCGTCGCGATACTCGTAGCGTGCTGAAGGAGGGCTCCCTGGCGGTGCTGCTCAATCCGCGCTGGGCACTGGGCGTCGAGTATCGGCAGAAACCGGACAATCTGTCCTTTGCCGGGGAAAGTGACTGGGCTGATCTGTTCGTCGGTTACTTTCCCAATAAACATCTGTCGGTGGTGCTGGCCTACGCGCGGCTGGGCGAAATCGCGACGCTCGACCGCCAGAACGGCACATATCTTTCGGTGCAGGGGAGTTTTTGA	MSSRLWLSIACCTGLALQVVSADGGRLIATGGASSLEGAAGGGITPWAVLAGYGEKNEWGATAFATSVNLPDYRLDVAGLAVAYDNRVELSFARQRFDLGSLVNKLNLPDDNLGQDIFAMKVRLFGDVIYDDLPQVSLGLEYKHQNNFLIPSLVGARRDSDTEGYLAASRLFMGGAFGYNLLLNGSLRYSRANELGLLGFGGDRRDTRSVLKEGSLAVLLNPRWALGVEYRQKPDNLSFAGESDWADLFVGYFPNKHLSVVLAYARLGEIATLDRQNGTYLSVQGSF				NA	NA	NA	NA	NA
D1-35_02571	2358			hypothetical protein	GTGAAACTGCGCAATAGTTTCCAGGCGCAAGTCGCAGCGGTGATGATCCTGTTGTCGCTGGGGGTGATCGGCGTGTTGTATTTCAGCGTCAATGCAGCGACCCGTTCTGCGGTGCGTAGCCAGTCCGAGGCGCAGTTGGACGTCGGTACGCGCGTCTTCGAGCGGCTGCTGGAAGTGCAGGGCCGACGCTTGGCCGATGGCGTGCAGTTATTGGCGGCCGACTTCGGCTTTCGCGAAGCGGTGGCCAGCCGGGATGCTGCAACCATCCGTTCAGTGCTGGTCAACCATGGCAAGCGCATCAATGCCAGCGACATGATTCTGCTGAGCATGGACGGCGAGGTGCTCGCCAGTACCCTCGACAACATGCCGGAAGGTTCATTGTTCCAGTACGATGGCGCGCTGCGCCTGGCACAACGTGCGCGCCAGGCCATGGTAATCGTACCGTTGCAGGGTAAACCGCATCTGTTGGTGGAAACGCCCGTACTCGCACCTCTGCCTGTTGCCAGGGTGGTGATGGGTTTCAGCATGGACAAGGCCTTTGCCAGTGAGTTGCGCTCACTCACCAACCTTGAGGTTTCGTTTCTTGCCGTTGATCACCAACGGCCTGGTGAGCTTGTCAGCACGCAACCAGACGTTCTGCGCGGGCCTGTCTCCAGCTTGATGCTCAACTCGTCCAACCGCAACAGCGCGGTACTGACGGAGCACCTGGATCGCAATTTCCTCAGTCAGTTTCTGCTGCTGGCTGACGGTTCGAACGAATACGATGGGCAAGTAATAGCACTCTTGCAGAGTCCGCTGGACGTGGCCATGCAAGCGTTTGCTCCGCTGGACGAAAAAATCCTGGCGATTACCCTGGTCGCACTGATCGCCTCGTTGGTCGGCGCTTTGCTATTGGCACGAGGTGTGTCGCGTCCGGTCAAGTCACTGGCCCTGGCGGCGGAGCGCATCGGTCAAGGCGATTACCAGACCCCCGTGGTATTGGAGCGGGAGGATGAACTCGGGGTGTTGGCCAAAGCCGTCAATTCGATGCAAAGCGGCATCGCCGAGCGGGAGCAGCAGCTGGCCCACAACGCCCTCCATGACCCCGTCACTGGCTTGCCCAACCGCGCATTGGCCATGGAGCGCCTGGGCAGTGCAATTGCCGCCAACCGGCCGATTGCCCTGATCTGCATGGGCATCCATAACCTGCGGGCCATCAACGAAACGGTCGACCCCGAAACGGTCGACCGGCTGCTCCGTCAGACCGGCCAGCAAACCCAAGCCCTGTTGCACCCTGGCGACACCGTGGCGCATCTGATCGCCGAGGAGTTCCTGGTTCTGCTCGATGGGATGGACAGCGATGCGGCGGTCGCCTTGGCGGACCGGTTGCAGCAAGTATTGCTCAAGCCCCAGCACATCAACGGCCACGACCTGGCCCTGGACTGCAGGCTTGGAATAGCGGCCTACCCGGCGGATGGGCAAAGCGCGCAGACCCTGCTGGAACGCGCCTCCATCGCCATGAAAGACGCGGCGCAGATGCCAGGTCATCTACAGATTTATCAGCACGGGCGTGATTTGGCCCACCGCCGCCAGATCGCCCTGATTCGAGACTTGCGCCACGCGGCGAACAACGGTGAGCTGCTCCTGCATTACCAGCCCAAGATGGACATTCTGAAGAGTCATGTCCGCCAGGCTGAAGGCCTGTTGCGCTGGCAGCATCCGCAACTGGGCCCGATCTCTCCAGCCGAATTCATTCCCTTGGCAGAACGGACCGGAAGCATTCAGGCGCTGACCCACTGGGTGATCAACGAGGGCATGCGCCAGCTCTCGGAGTGGAATGGGCGAGGGTTACGCTTGCAACTGTCATTGAATATATCCGCCGAAGACCTGATCAGCGACGATCTGCCTGGTCGGGTCGTGGTGTTGCTGCGCACGCATCGGCTGCCAGCCGAGCAGCTGGTGTTTGAAGTCACCGAGAGCGCTGTCATGCGCGAGCCCGAGCGGGCCTTGAAGAACCTCCATTTGTTGCGCGATTGCGGCATCAGTCTGTCGGTGGATGACTTCGGTACCGGCTATTCGTCCTTGGCGCACCTCAAGCGACTGCCGGTGCAAGAGTTGAAAATCGACCAGTCGTTCGTCCGAGACCTGCATGACACCAGCGAAGATGCGGTAATTGTCCGCTCGACCATCGAAATGAGTCATAACCTGGGGCTCAAGGTAGTTGCCGAAGGCGTTGAATATGAACACAGCCTGAGATTACTCGAGCGTTGGCATTGCGATACCGCGCAGGGCTACCTGATCAGCCGACCGCTGACCGCCGCGGCGTTCGAGGCCTGGGTGGCGTTGCCTTTGAATCTTCATTCTTCGCTGGTTCATTGA	MKLRNSFQAQVAAVMILLSLGVIGVLYFSVNAATRSAVRSQSEAQLDVGTRVFERLLEVQGRRLADGVQLLAADFGFREAVASRDAATIRSVLVNHGKRINASDMILLSMDGEVLASTLDNMPEGSLFQYDGALRLAQRARQAMVIVPLQGKPHLLVETPVLAPLPVARVVMGFSMDKAFASELRSLTNLEVSFLAVDHQRPGELVSTQPDVLRGPVSSLMLNSSNRNSAVLTEHLDRNFLSQFLLLADGSNEYDGQVIALLQSPLDVAMQAFAPLDEKILAITLVALIASLVGALLLARGVSRPVKSLALAAERIGQGDYQTPVVLEREDELGVLAKAVNSMQSGIAEREQQLAHNALHDPVTGLPNRALAMERLGSAIAANRPIALICMGIHNLRAINETVDPETVDRLLRQTGQQTQALLHPGDTVAHLIAEEFLVLLDGMDSDAAVALADRLQQVLLKPQHINGHDLALDCRLGIAAYPADGQSAQTLLERASIAMKDAAQMPGHLQIYQHGRDLAHRRQIALIRDLRHAANNGELLLHYQPKMDILKSHVRQAEGLLRWQHPQLGPISPAEFIPLAERTGSIQALTHWVINEGMRQLSEWNGRGLRLQLSLNISAEDLISDDLPGRVVVLLRTHRLPAEQLVFEVTESAVMREPERALKNLHLLRDCGISLSVDDFGTGYSSLAHLKRLPVQELKIDQSFVRDLHDTSEDAVIVRSTIEMSHNLGLKVVAEGVEYEHSLRLLERWHCDTAQGYLISRPLTAAAFEAWVALPLNLHSSLVH	PGPT0026010_460	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
D1-35_02572	684			hypothetical protein	ATGTCCAGGAATAACCCGCTTTTTGCACTGCTGTTACTGTTCGCGTGCCCCGTCGGGTGGGCGGGGGTGGCCAAGCTTGATGTGGCGATGCACGAAGGCACGGGCCAGCGGCTGCCCGACGCGGTGGTCACGCTGCAAGGCCCGATCGGTGCGCCGTTGGCGCCTCCCGCCGCCAATATGGATCAGCGCAACCAGCAATTTGCGCCTCATGTGCTGGCGGTGCACACCGGCACCCCGATCAAATTCCCCAACAGCGACAACATCCGCCATCAGGTCTACTCGTTTTCGCCGGCGAAGCGCTTTGAGTTGCGCTTGTACGAGGGCACCCCCTCCGAGCCGGTGCTGTTCGATAAGCCCGGCGTGGTGGTATTGGGCTGCAACATCCATGACCGGATGCTCGGCTACGTCTTTGTCACCGACGATCCGCGTTTTGCCGTCAGCGATGCCCAAGGCAATGTGGTGCTGAACGATTTGCCAGTCGGCGAGTACCGCGTGACGCTTTGGCATCCCCGGCTCAAGGGGATGCAACCGATCGATGCCGGTTCTGTGAAACTTCCTGCGACCGGCCTCAAGCAGAACTACACCCTGACGCTGGAGCCTTTACCTGAGCAGCCCGCAACCGCTCCGGCTTCGAGTGCCTTCGGCGATACATTCAAGCGAGCGGCTCGTGAAACTGCGCAATAG	MSRNNPLFALLLLFACPVGWAGVAKLDVAMHEGTGQRLPDAVVTLQGPIGAPLAPPAANMDQRNQQFAPHVLAVHTGTPIKFPNSDNIRHQVYSFSPAKRFELRLYEGTPSEPVLFDKPGVVVLGCNIHDRMLGYVFVTDDPRFAVSDAQGNVVLNDLPVGEYRVTLWHPRLKGMQPIDAGSVKLPATGLKQNYTLTLEPLPEQPATAPASSAFGDTFKRAARETAQ				NA	NA	NA	NA	NA
D1-35_02573	543			hypothetical protein	ATGAACGCTAAACGATTGTTCTGCATTATCGGTACTGCATTGACTGCCAGTTGCCTGTTCGTCGCGATGCCTGCTGCTTACGCGCAAGCAGGCTTGCCTGAAAGCATCAAGGTCCCGGCCGGGCATAAGGTCGCGCTCGAAACTGCAGGAGTCGGAGAAATCACTTATGAATGCCGTGACAAGGCCAATGCCGCAGGGCAGACAGAATGGTTTTTCATCGGCCCGAAAGCGCTGCTGAACGATCGAAGCGGCAAGGCTATCGGCACTTATTTCGGCCCACCTGCAACATGGCAAGCCAACGACGGTTCCAAAATCACCGGAACCCAATTGGCGGTCGCATCGGTCAGCCCCAAAGACCTCCCCTTGCAGCTGGTCAAGGCCAACCCCGCCGAAGGGAAAGGCGCAATGAGCGGGGTCAGTTACATCCAGCGGCTGGCCGTGAAGGGTGGCGTAGCGCCGATGGCCGAATGCTCCAGCGCCAACAAAGGCAAGCGTGAGGTAGTGAAGTATCAAGCCGACTATATATTCTGGGCTGCCCAATAG	MNAKRLFCIIGTALTASCLFVAMPAAYAQAGLPESIKVPAGHKVALETAGVGEITYECRDKANAAGQTEWFFIGPKALLNDRSGKAIGTYFGPPATWQANDGSKITGTQLAVASVSPKDLPLQLVKANPAEGKGAMSGVSYIQRLAVKGGVAPMAECSSANKGKREVVKYQADYIFWAAQ				NA	NA	NA	NA	NA
D1-35_02574	585	sigK	COG1595	ECF RNA polymerase sigma factor SigK	ATGTTGCTGCCAATGGCTGGAAACCTGTCCTTGCCCGAACCTTACTTCGACTATGAAGCCCACCTTGCGGCATGCGCCCAAGGCGACCAACAGGCGTTGCGCGCCTTATACGATCAGGAAAGCGCACGCGTGATGGGCGTTGCTCAGCGAATCGTGCGCCATAAGGCGTTGGCGGAAGACATCCTCCATGACGTCTTCATCAAGATATGGACTCGCGCCGCCAGTTTCGACCCGACCAGAGGCTCGGCCCGTGGCTGGATATTCAGCATAACCCGACACCTGGCCCTCAATGTAGTGCGCGACAACGCCAGGCAAATTCAGCTCGACGAGCACAGTGAAATGGCCTCGGACGCTTTGGCGTCCGTTGACGCGCCGAACAGCGACACGTTTGAGTACCTGACTCGTTCAGGTCGTATCTATACCTGCCTTGAACGATTGGAGCCGGCCCGGCGCAACTGCATACTTCATGCGTACGTGGACGGTTATTCACATTCCGAAATATCGAAAAAAGTGGGCGCACCGCTGGGAACCGTAAAGGCGTGGATCAAACGTAGTCTGGTGGCGTTGCGGGAGTGCATGGGATGA	MLLPMAGNLSLPEPYFDYEAHLAACAQGDQQALRALYDQESARVMGVAQRIVRHKALAEDILHDVFIKIWTRAASFDPTRGSARGWIFSITRHLALNVVRDNARQIQLDEHSEMASDALASVDAPNSDTFEYLTRSGRIYTCLERLEPARRNCILHAYVDGYSHSEISKKVGAPLGTVKAWIKRSLVALRECMG	PGPT0014960_5215	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-35_02575	723			hypothetical protein	ATGACGACGAGCGCAGAGGATGATCTTCCCGAAAGCATCGAAGAACTGGCGAGCGAATATGTGTTGGGGATATTGCCGGCCGATCAGCGCAAGCAGGTTCGACAGCGTCTCGCGCACGAACCCGCCTTGCGCGACGCGGTCGATGCCTGGGAGCAGCGCCTGGCTGCCTTGACTGAGCAGGCAGAACCGCAAACACCTGGGCCCCTTGTCTGGAGGCGTATCCAGAACAGCCTGGACAGTCATGGCCAGCGAGCGCCGAATGCCCCACGGTCGAGATCATTGTGGGATTTTCTTCCGTTATGGCGCGGGCTCGCCGGGGCAGGCATCATTGCAACCCTGCTGCTCGGAACGTTGCTCCTGACGCGCACGACCGCGGTCAGCCCAACCACTTACCTGGTGGTGCTGGTAGCGCCGCAAAACCAGGCACCTGGATGGGTCATTCAAGCGACCGACTCCAAGCAAATTCAACTTATACCGCTGGCGGTGGCACAGGTCCCCAGCGATAAAGCATTGCAATTCTGGACCAAGGCGGATGACTGGAAAGCGCCGGTATCCCTGGGTTTGGTCCGGCCTGGACAAACGCTGTCGGTCCCGCTCGATAAGTTACCGCCGTTGGAGCCCCATCAACTTTTTGAACTGACTCTTGAAAGTGTCAATGGCTCGCCGACCGGAAAACCCACAGGGCCGGTGCAGTTCATCGGCCGGGCCGTGAAAGTCCTCTAG	MTTSAEDDLPESIEELASEYVLGILPADQRKQVRQRLAHEPALRDAVDAWEQRLAALTEQAEPQTPGPLVWRRIQNSLDSHGQRAPNAPRSRSLWDFLPLWRGLAGAGIIATLLLGTLLLTRTTAVSPTTYLVVLVAPQNQAPGWVIQATDSKQIQLIPLAVAQVPSDKALQFWTKADDWKAPVSLGLVRPGQTLSVPLDKLPPLEPHQLFELTLESVNGSPTGKPTGPVQFIGRAVKVL				NA	NA	NA	NA	NA
D1-35_02576	363	walR_1	COG0745	Transcriptional regulatory protein WalR	ATGACCACCATCCTGGTCGTCGACGACGAGTATCTGATCGCTGACATCCTCAGCTTCGCGCTGGAGGATGAAGGCTTCATGGTCGTAAAAGCCAGCAATGGTCGAAAGGGACTCGAAGTTCTCGAAAGGGAGCGTCCAGCGTTGATTGTTACCGACTTCATGATGCCCGTCATGGACGGCTTGGAGTTCGCCACGGCTGTGCGAGCACTTCCGTCCATCAATCGTTTGCCAATCATCCTCATGAGCGGTGCTCAGGCGCACATAGGTATGCAGAGATCGGATCTGTTTGATGCAGTCCTGCCAAAGCCATTCGAGATAGGCGCCATCATCGCAGAAGTGAAAAAGCTCTTGTCTGCGCAGTAG	MTTILVVDDEYLIADILSFALEDEGFMVVKASNGRKGLEVLERERPALIVTDFMMPVMDGLEFATAVRALPSINRLPIILMSGAQAHIGMQRSDLFDAVLPKPFEIGAIIAEVKKLLSAQ	PGPT0013765_1037	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
D1-35_02577	1440	kaiC_1		Circadian clock protein kinase KaiC	GTGGAAAAGCTAAAACGCCTTCAAAGCGGAATCGAAGGGCTCGACGCTCTGCTTAACGGAGGGCTGGTCGCGGGTGCTTCATACATAATTCAAGGTCGTCCAGGTTCCGGCAAGACGATCCTCGCCAATCAGCTTGGATTCCATCACGTGCGTAATGGAGGCCGTGTTTTAGTCGCCACACTGCTGGCCGAGTCGCATGACCGTCTCTTTCAGTTTCTCTCTACCCTGAGCTTTTTCGACTCATCCAAAGTGGGCGCTGAAATCCAGTTCGTCAGCGCATTCGATACGTTGGAAAATGAAGGTCTCGATGAAGTAGTAAAACTGCTTCGGCGTGAGATCAGTCGGCAGAAGGCTACGGTCATGGTCGTCGACGGTTTGCTCAATGCGCGCTCCAAAGCCGATTCGCCTATCGACACCAAGAAATTCATCCTGGAGTTGCAAGGCCACGCAGCGTTTGCCGGATGTACCGTACTGTTCCTCACCAGTTCACGGCTTGACGACGGTAGCCCAGAGCACACGATGGTTGATGGTGTGATCGAAATGGGAGAGGAGCTGTTCGGCACTCGTTCCGTACGACGTATACAACTACGCAAGACGCGAGGCAGCAGCGCACTGACCGGTCTTCACGAATGTGAAATCACTGATGACGGCCTGGTTGTCTATCCGCGTCTCGAGAGCCTGTACAGCCGTCCTTCCTCGTCCGACAGTGCGGACATGACGCGTATCGCCAGTGGGATTGATTCACTCGACGATATATTGGGCGGAGGGCTACACAGCTCCAGTGTGTCTCTGGTCATGGGGCCCTCCGGGATCGGCAAGACCACGCTGGGTCTCAAATTCCTGGCCAAGTCCACACCTGATGCCCCAGGCTTGCATTTTGGGTTCTATGAAAGTCCACAGCGGCTGCGCCTGAAAGGATCCTCACTGGGCATCGATATCGAAGCCATGGAGGAAAGCGGGGCGTTGAGCATTGTCTGGCAGCCAACCACCGAAGGGCTGCTGGATGGACTCGGCTCAAGACTGCTGAGCATCGTCAAGGAAAAGGGTATCAAACGCCTGTTCATCGACAGTCTGAGCGGGATGACACGCGTTTCGACAAATCCGGGACGGATTACCGATTTCTACAGTGCGCTCATGAATGAGCTGCGCTCCAGAGGCGTTACGGTATTTGCATCCTGGGAAATGCGCGACCTGTTCGGTTCCGAGGTCAGCTCACCGAACTCCGACCTGTCGAGCATCGTCGACAACCTGATGCTGATGCGTTTCTTTGAGAGTCGCGCTGAACTAAGCAGGACGCTTTCCATTCTTAAGGTACGAGATAGCTCCTATGACCCCTCGCGATTCGAGGTGGTGATTCGTGATCAAGATGTTTTCCTGAAAAAGGCTTTGAGGAATGAACCTTCAGTTGCCACTGAGTCCTTGCCTGGTTCGATTTCATAA	MEKLKRLQSGIEGLDALLNGGLVAGASYIIQGRPGSGKTILANQLGFHHVRNGGRVLVATLLAESHDRLFQFLSTLSFFDSSKVGAEIQFVSAFDTLENEGLDEVVKLLRREISRQKATVMVVDGLLNARSKADSPIDTKKFILELQGHAAFAGCTVLFLTSSRLDDGSPEHTMVDGVIEMGEELFGTRSVRRIQLRKTRGSSALTGLHECEITDDGLVVYPRLESLYSRPSSSDSADMTRIASGIDSLDDILGGGLHSSSVSLVMGPSGIGKTTLGLKFLAKSTPDAPGLHFGFYESPQRLRLKGSSLGIDIEAMEESGALSIVWQPTTEGLLDGLGSRLLSIVKEKGIKRLFIDSLSGMTRVSTNPGRITDFYSALMNELRSRGVTVFASWEMRDLFGSEVSSPNSDLSSIVDNLMLMRFFESRAELSRTLSILKVRDSSYDPSRFEVVIRDQDVFLKKALRNEPSVATESLPGSIS	PGPT0030523_914	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENVIRONMENTAL_RYTHMICS_SIGNALLING	PUTATIVE-CLOCK-ASSOCIATED_HISTIDINE_KINASE,PGPT0030523-kaiC-K08482
D1-35_02578	846			hypothetical protein	ATGTCATGCTTGTATGCCGGTATGGCGGATGCCGCCGGTAACAAGACGATCGCGGGCTTCAAGCCTGGTTATAAGCCTATTGATCAAGATACCGAATGGCTGGATGACTTCGAGACTTTAAAGGATCTCGATGCCACTGCCCTGGTCAAGATGGTCTCCGCGCGGCTGGGTGAAGGCGCGGCGACGGCGCTGAATGCGGTCATCAGCGGCGATGCCTTGAAGGAGATAGTAGACCCGGTCAGTGTCGTAGGAAATGGTCTGCTGATTGGCGGTTTTTCTGCAATGGGCGCGGCTACAACCGCCACAGCCAACCTGGCGAAGTCCACGGAGCTGGGAAAAATGGCGGCTACCGCAGCCTCGGAGGGTGTAAAAAACGTATTGGGTACCCTGGCTTTCGGGCTCTGGGCAGCTGGCGCCTCGCTAGGTGGATCAGTGCCGAAAAAAGCCACCGCTGTGGTCGATGCCCATGTACCAAAAGCGGTAGAAGGGGGCGCAGATGCAGCGGGCAGGGTGGCGGTCAAGGGCGGTGAGCTTGCGCTCAAGACATCGCTCACCGGCGCCAGATTTGCCAAAGAGACAGCTGTGTCAGCGACCAACCACACAAAAAATGCAGCTCAAGCGGTAGGGGATGGAGTCACTAGCGTTGCCAGCGCCATTGGCACCACCTCCCAGTCAGCCTGGAATAAAAGCGTTGGGGCCCTGAGGCAACGCTCCGCGGTCACCCCTCAAAGCCAGGCCGCTCAGGGTCAGAGCATACCGATGCAGCCGCTCGCGGGTACGCAGGTCCAGGCATCTTCCTCAGCACCTGCGCGTCCGACTGCCCAGGATGACGGAGATATCGTTTAG	MSCLYAGMADAAGNKTIAGFKPGYKPIDQDTEWLDDFETLKDLDATALVKMVSARLGEGAATALNAVISGDALKEIVDPVSVVGNGLLIGGFSAMGAATTATANLAKSTELGKMAATAASEGVKNVLGTLAFGLWAAGASLGGSVPKKATAVVDAHVPKAVEGGADAAGRVAVKGGELALKTSLTGARFAKETAVSATNHTKNAAQAVGDGVTSVASAIGTTSQSAWNKSVGALRQRSAVTPQSQAAQGQSIPMQPLAGTQVQASSSAPARPTAQDDGDIV				NA	NA	NA	NA	NA
D1-35_02579	369			hypothetical protein	ATGGATACGATTAATGTAGGTGCAAGCCGCGAGCTGAACCGTCCACCTGATGAGATACAGCAGGAAACAACACTGCGGGCCTCTCACTCTCCGGTCCTCGGCGATATCGGGGTAGCAATGCGCACGCGGCTTCATAACCATTTCGAGGCTCACGTTGAAACACAAGCTGACTCCGATCAACCCGCTGCCCCTGCTTCAAGCGCCCGCAACGCGGAGCTGAACGCCATTCGCGATGACCGTGCCCAACGGCTGGAGGCCGGGGGTTATACCGTCCATGACATGGAGAAGGCGGAAAAAAACGCAGCCAGGGCCGACAGAGTGTTTGCGTCCATAAAGTCAGGGATGGGGGGACGCCCTTTGCGGCGCTGA	MDTINVGASRELNRPPDEIQQETTLRASHSPVLGDIGVAMRTRLHNHFEAHVETQADSDQPAAPASSARNAELNAIRDDRAQRLEAGGYTVHDMEKAEKNAARADRVFASIKSGMGGRPLRR				NA	NA	NA	NA	NA
D1-35_02580	528			hypothetical protein	ATGAAAGATATGAAACTCGAAAACATAGTTGGGGCGCTGTCGCTGGCGATTTCTGACTCTATCCACCAAGGCACTCAAGACCAAGCTCCGGAAGTTGGTCCGGCAGCTGCGGCTATTGCCTTGCTCGGTCACGAGCCAGGCATGTCCATAGAGCGCTTGAGGCGAGCCTTGGGGTTGTCTCATCCTGGAGCTGTGCGCCTGGTTGATAGGCTTGTCACCCAGGGTGTAGTGGAACGTAGACAAGCAGACGCTGATCGGCGTGCCGTTGCGCTCCACCTTACTACCGCAGGAAATGCGAACTGTGCTGCCGTGCTAGCGGTCCGCCAGGAACGTATAGCTCGTGTATTGGAAGTGCTTGATCCGGATGAGCGCGAACTTCTCGGACGGATAACCGAAAAGCTACTCAACGGCCTGGTGAATGATCTCGATCAAGGCTATTCAGTGTGTAGACTGTGCGACCCTGCGTCTTGCACGAATTGTCCAGTCGCAGATGCGTTGAATGAAAATCCCTGCACTGGCCATCTCTGA	MKDMKLENIVGALSLAISDSIHQGTQDQAPEVGPAAAAIALLGHEPGMSIERLRRALGLSHPGAVRLVDRLVTQGVVERRQADADRRAVALHLTTAGNANCAAVLAVRQERIARVLEVLDPDERELLGRITEKLLNGLVNDLDQGYSVCRLCDPASCTNCPVADALNENPCTGHL	PGPT0029235_347	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029235-emrR|mprA-K15974	NA	NA
D1-35_02581	138			hypothetical protein	ATGAAATACAAGCGACTTGGCCGTACGGGCCTGTATGTATCCGAGCTGTGCCTGGGCACGATGACGCTCGGTGGTAATGCCAACCGGGTATGTGGTCTGCAATCGGCGCGGTTGAACAGGGCGAAGCCAACAGTTTGA	MKYKRLGRTGLYVSELCLGTMTLGGNANRVCGLQSARLNRAKPTV				NA	NA	NA	NA	NA
D1-35_02582	597	fldP		Flavodoxin FldP	ATGAACTCAACTTCCACGCCAATCCGAACGGTCATCATTTATCACTCAGGCTATGGCCACACCGTACGAATGGCAGCTGCCGTCGCTGAAGGCGCTGGCACCGACTCTGTATTGGTTGCAATCGACCCCGAGGGCAATATTCCCGAGGATGCCTGGCAAACACTCGCAGACGCAGACGCAATTGTCTTCGGTTCGCCTACCTACATGGGCGGCCCTAGCTGGCAGTTCAAGAAATTCGCGGACGCCTCTTCCAAGCCCTGGTTCGAAGGCGCATGGCAAAACAAGATCTTTGGCGGCTTCACCAATAGCGCGAGCATCAACGGCGACAAGCTCAATACTCTTGAGTATTTCTTCCTGCTCTCTGGGCAGCACGCCGGGATCTGGGTTGGTCTGGACATCAAACCAGCGAACGTCAAGGCGTCGAAACGCGACGATTTGAACCGCATGGGTTCTTATATCGCGCCTATGGCGCAGACGCCGGCGGATGCCTCTCCTGACGAGATGTCATCGGGAGATCTGGAGACCGCGCGTCTGTATGGCGCGCGCGTCGCATTGATTGCCGGACAGTTCCGAGCCGGTAAATCTCAGTCTGTCTGA	MNSTSTPIRTVIIYHSGYGHTVRMAAAVAEGAGTDSVLVAIDPEGNIPEDAWQTLADADAIVFGSPTYMGGPSWQFKKFADASSKPWFEGAWQNKIFGGFTNSASINGDKLNTLEYFFLLSGQHAGIWVGLDIKPANVKASKRDDLNRMGSYIAPMAQTPADASPDEMSSGDLETARLYGARVALIAGQFRAGKSQSV	PGPT0009460_2471	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009460-wrbA-K03809	NA	NA
D1-35_02583	906	pgrR_2		HTH-type transcriptional regulator PgrR	ATGCCCAATCTTCAGGCACTTTTGATTTTTGCCCGCGTTGCGGAAATGATGAGTTTCACGCGTGCCGCTGAAAGCTTGGGAATCCAGAAGGGACGGGTGTCGACGGTGATTCGTGAGCTGGAACGGGACATGGGCGCGACCCTCCTGCACAGAACAACACGCAGCGTGCAATTGACCGAAGACGGTCGTAGTTTTTATGCACGTGCGCGTGACCTGCTGGCCGAAGCTCAGGACGTGCAGTCCATGTTCGCGAACAGCGGCGCCCCCCTGAGGGGGAGATTGCGCGTAGATATGCCGACTGAGTTGGCAAAGACCGTCGTGATTCCCGCTCTACCGCAACTACTCAAGGCCAATCCTGAGTTGGAGCTGGAACTATCCAGCACGGATCGCCGTGTCGATCTGGTTCAAGAAGGGTTTGATTGCGTGATTCGTCTCGGGCCGATCATGGACGACAGACTGATCGCCCGCTCGCTCGGCAAACTGCGCATGATGAACGTGGCGAGTCCAGGCTATCTGGCAAAGTACGGCATACCGCAAACACTCGACGACCTCCTCATCCAGGGTCACCAGATGGTTCACTACACGCCGACACTCGGCGCCCGACTCGCTGGTTGGGAATATCCGGAGGGAGACAGCTACGCATCACTTGCATTGCCAGGGGCGATGCAAGTGAATAACGTGCAGACCTATCATGCTGCGGGCCTGGCGGGGATTGGACTGATTCAGGCCGGCTATTTGGCCCTTGCGCACCACATCAAAAGCGGCGATCTGGTGGAAATTCTGCCGGATCTACGACCAGAGCCGCTGTCGGCGTCGCTCGTAGTCGCGCATCGGCGCAACCTTTCCCAACGCGTCCGGGCCTTCATGACTTGGATTGAGAGTGTTTTGGAACCCTATTTTGATTAG	MPNLQALLIFARVAEMMSFTRAAESLGIQKGRVSTVIRELERDMGATLLHRTTRSVQLTEDGRSFYARARDLLAEAQDVQSMFANSGAPLRGRLRVDMPTELAKTVVIPALPQLLKANPELELELSSTDRRVDLVQEGFDCVIRLGPIMDDRLIARSLGKLRMMNVASPGYLAKYGIPQTLDDLLIQGHQMVHYTPTLGARLAGWEYPEGDSYASLALPGAMQVNNVQTYHAAGLAGIGLIQAGYLALAHHIKSGDLVEILPDLRPEPLSASLVVAHRRNLSQRVRAFMTWIESVLEPYFD	PGPT0028940_765	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
D1-35_02584	546	rclC	COG3059	Inner membrane protein RclC	ATGCAGCACATCACGAGCGTCACCAGCAGCCAGGCTGCTCTCACTTCCAGTATTTCGAGACTCGAGAACGTAAATCGGGCAATTGTCTTGTCCGGCGTTGTTCTTCCCCTGCTAATGATTGGTCTACTCAAGTTCACGCAGATCGAGGTGCAGGTACTCATACCCCTGATCAGTGGCACCCCGTGGCTGGCCTGGCTTTATCCAGTTCTTGGCGAAGCCGGTACCTCGTACTTATTGGGTGTAGTCGAGATACTGACTGCACTGCTGCTCATCGCTTCACCCTGGTCTGCTCGAGCAGCTATCGCAGGTGGGTTGTTAGCATCGCTGACCTTCTTTACGACCATTTCCATGATGTTGGTATTGCCGATATGGGAGGCCGGATCGGGAGGTTTTCCATGGCTGAACTTCCTGGGCACGTTCCTGATAAAAGACGTTGCGTTGTTAGGGGTGAGCCTGGTGATCCTCACCGAGGGGCTGCAGCGTATGTTGCCCACTCTAGCGGCTAATCAAAATAGGGTTCCAAAACACTCTCAATCCAAGTCATGA	MQHITSVTSSQAALTSSISRLENVNRAIVLSGVVLPLLMIGLLKFTQIEVQVLIPLISGTPWLAWLYPVLGEAGTSYLLGVVEILTALLLIASPWSARAAIAGGLLASLTFFTTISMMLVLPIWEAGSGGFPWLNFLGTFLIKDVALLGVSLVILTEGLQRMLPTLAANQNRVPKHSQSKS				NA	NA	NA	NA	NA
D1-35_02585	996			hypothetical protein	ATGCATAACCACGCGCGGTTCCATCTTGCGGCCCTACTGACAGCCGCCCTAGTCACGGGTGCAACCTACTCACCGTCGCCCACCGCCGCGCAAGCGTCACAGACGTCGACCGCAACGACGGCACCGCCCCATAAACCCGCACTCGCAGGCACCTACGCCTTCACTCTGGGCAAGTTCCGCATCACCGCACTGAGCGACGGGACGCTGCCCCTCGATCTACATCCGCTGCTTAGAGGCATCAGCCCAAAGCAGATCGACGCAATGCTGCAACGCGGATTTGCTCGCAACCCGCTGGAGACGTCTATCAATGCCTACCTCGTCGATACTGGCTCACATGTAGTACTGATCGATACCGGTGCCGGTGAATTGTTCGGTAACGTTGGCGGCAAGCTACCCAAAAGCCTGGCGGCTGCGGGCTACCAGCCGGCACAGATCACCGATGTGCTGATTACCCACATCCATACCGATCATTCCGGCGGCCTGACACGCGGCGGCCAGATGATGTTTCCCAATGCGACCATCCACGTCGGCCAGGCCGACGTCGACTTCTTCCTGGACCGCGCCAACCTGGACAAGGGGTTAACGCCGGCTTATCTGGAGCAAGCGCTAAAGACGGTTGGCCCGTACCAGCGAGAAGGCAAGCTGAAGCCATTCGCAGCCGAATCCGAAATCCTCCCGGGTATCACCGCCATTCCCACGCCGGGACATACGCCGGGCCACAGCTTTTTTCGGGTCACAAGCGAAGGCGAGAGCATCGATTTCTGGGGCGATATCATGCATGTCGGCCTCATCCAGTTCTCGCGGCCTGAGGTGACAATAACCTTCGACGTCAATCAGAACGCCGCTCGCGCCCAGCGATTACGACAATTCGAGGCTGCCGCGAGTGAGCAACGGTTGTCAGCAGTCGCTCACTTGCCATTTCCGGGCATAGGCCACATCAGGCGCGAAGCCGGCAGGTATGAGTGGGTACCCGTCCAATACCGCAATCGCGACTGA	MHNHARFHLAALLTAALVTGATYSPSPTAAQASQTSTATTAPPHKPALAGTYAFTLGKFRITALSDGTLPLDLHPLLRGISPKQIDAMLQRGFARNPLETSINAYLVDTGSHVVLIDTGAGELFGNVGGKLPKSLAAAGYQPAQITDVLITHIHTDHSGGLTRGGQMMFPNATIHVGQADVDFFLDRANLDKGLTPAYLEQALKTVGPYQREGKLKPFAAESEILPGITAIPTPGHTPGHSFFRVTSEGESIDFWGDIMHVGLIQFSRPEVTITFDVNQNAARAQRLRQFEAAASEQRLSAVAHLPFPGIGHIRREAGRYEWVPVQYRNRD	PGPT0006762_2	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_ORGANO-PHOSPHORUS_INSECTICIDES	XENOBIOTIC_ORGANOPHOSPHATE_DEGRADTION,PGPT0006762-mpd-NA	NA	NA
D1-35_02586	2391	fhuA_1	COG1629	Ferrichrome outer membrane transporter/phage receptor	ATGAGTTCGTCCCCTGTTTCACAGCGCCATCCATTAAATCGTGCCTTGCACGCTGCGATTTTGGGTTTGATCGTAAGCAGCTATGCATTGCCATCGCTGGCGCAAACATCGAGCGCTGACCATAGCAACCCAGTCAAGCAGTGGAACATCGCTGCCGGCCCACTGGCGCCGGCGCTTGACCGCTTTGCGCGCGAGGCTGGCATCAGTCTTTCCTTCGACGCGTCGAGTGTCGCGAACCGCACCACTGCTGGCGTGGATGGCACGCTCGATACGTCGGCAGCGCTGTCATCGTTGCTGCAGGGGAGTGAATTGCAAATCGAACAGCAGGGCCCGAATGCCTATCTACTGCTCCCTCAACCAAAGCCCGCCGGCCCGCTGGAGCTCGACGCAACGGACGTCGAGGAATACCGCCTTGCACCCCTCATCATCAATGCCAAGGTCAGGGTCAGTGCCGACGACGACGCCAACTCGGTAGTTGCCAAGGAGCTCTGGGTTGGCGGCAAGGTGGCAACCAGCATTCTCAATACACCGGCATCGGTGTCGGTTGTTACCAACAAGGAAATGGAGCAACGCAGCGTCAGCACCACGGAAGAGGCGCTGCAATACACGCCGGGCGTGATCAGTGATTTCTATGGTACGGATGACCGCAACGACTATTTCCAGATCCGGGGCTTCCAGGCCACCACCTACCGTGACGGCTTGACCCTGAGTTCGATGCGCGGCGTACGCGAAGATCCGTTCGCTTATGAACGCATAGAGATTCTGCGTGGCGCCAACTCCACGCTGTTTGGCCCAGCGGACCCGGGCGGTTCGGTGAATTTCGTGACCAAACAGCCGCGCTTCGAACAGTTTGGCCAAGGCTATGTGACCTACGGTTCGTTTGACCATGTGGAGACAGGCATCGATGTGGGGGATGCGCTGAACGACGAGAAAACCGTGGCTGGCCGCTTTACTGCCAAAGGCCAGAACAGCGACCGCGAGTACGACCACTCACAGGACGACAACCGGTTGGTGATGGGTGGCCTCACCTGGGCACCCACGGATTACACGTCAGCCACCGTGATTCTGGACTATCTGAAAACTGAAAGTTCGCCCAACAGTGGCGGCTATCCGCTGGACAAAGAGTACGACCGCAGCAAGTTTTATGGAGAGCCCAGCTACAACTTCCACGATGTCGAGCGCACCAGCCTCAGCGGTAACGTCACCCATGACTTCGACAACGGCTTTGTACTGCGCAGCAATCTGCGTTACAGCAAATTGACCGATGATTTCGGCTACGTTTACCTCAGCGACAGCGCCGGACGTGTCGGTACTACCGTTGACCGGTATCTGTTTGGAACGGACACTGAGGCCGACCAGTTCAACGGCAATCTGATGCTGCAATACGATGCCCGCTTCGAGGACATCGACAGCAGCAGCCTGGTGGGCGTGGAGTACCTCGATTCGACCACCAAGGAAAGCTCGGTCTACGCCCTGACGACCCCGATTGACATCGCGAATCCCGTGTTTACTGGCGTTTCACGCTCAATCACGCCGTATGCCGTCAACAAGCGAGACGCGACCACCAAGGCCGTGTTCCTTCAGCAGAACCTGTCGTTCTACGAGCGTTTCATTGTCACCGCGGGTATGCGCAACGACTCGATGGACCTTACCAGCAAAGGCTTACAATCCACTGAGAAGGACAACTTCTCCGAAACCTCCTACCGAGGTGCGTTGACTTATATCGTCAACGACGAGGTGTCCACCTATGTGAGCATGGTGGAATCCGTCTCGCCGCCTCAGGTTGGCGTAACACCGCAGACGGGCAGGCAGTACGAAGTGGGCGTGAAGTATGCGCCGATGGGGATGGACGCACTGTTCTCCGCGGCCGTTTATGACTTGACCCAGGAAAACGTCACCATCGCCGTGGTGCTGCCGAGCGGCATCATCGAGCAACAGACGGTGGGCGAATCGCGGGCGCGTGGCCTCGACCTGGAGGCCAAGGCGCAGGTGACGCAGAACATCAGCCTGATAGGCGGCTATTCCTATATGGAGTCCGAGGTACTGCGCGGTTCGTTGTACGACGGCAGCTCCCTGAAAGGTAATGAGTTCTCCACGGCGCCCAAGCATTCCGCTTCGCTCTGGAGTTATTACGACGTGCCCGGTACTGATGTCAGCGTTGGCTTGGGTGCGCGCTACGTCGGCTCTTATTACTTCGATGCAGCCAACTCCGGCAAAAGCGATGGCACCACACTGTTCGACGCCGCCTTCAACTACGAGATCGCCAAGGGCACCGACCTTGCGGTGAACGTCAGCAACCTGCTGGATGAGCAGCACGTGGTCGGTTCCGGCACAGCGAACTTCTACAACCCGGGTCGCGAGATTACCGCCAAAGTGAGTTACAACTGGTAA	MSSSPVSQRHPLNRALHAAILGLIVSSYALPSLAQTSSADHSNPVKQWNIAAGPLAPALDRFAREAGISLSFDASSVANRTTAGVDGTLDTSAALSSLLQGSELQIEQQGPNAYLLLPQPKPAGPLELDATDVEEYRLAPLIINAKVRVSADDDANSVVAKELWVGGKVATSILNTPASVSVVTNKEMEQRSVSTTEEALQYTPGVISDFYGTDDRNDYFQIRGFQATTYRDGLTLSSMRGVREDPFAYERIEILRGANSTLFGPADPGGSVNFVTKQPRFEQFGQGYVTYGSFDHVETGIDVGDALNDEKTVAGRFTAKGQNSDREYDHSQDDNRLVMGGLTWAPTDYTSATVILDYLKTESSPNSGGYPLDKEYDRSKFYGEPSYNFHDVERTSLSGNVTHDFDNGFVLRSNLRYSKLTDDFGYVYLSDSAGRVGTTVDRYLFGTDTEADQFNGNLMLQYDARFEDIDSSSLVGVEYLDSTTKESSVYALTTPIDIANPVFTGVSRSITPYAVNKRDATTKAVFLQQNLSFYERFIVTAGMRNDSMDLTSKGLQSTEKDNFSETSYRGALTYIVNDEVSTYVSMVESVSPPQVGVTPQTGRQYEVGVKYAPMGMDALFSAAVYDLTQENVTIAVVLPSGIIEQQTVGESRARGLDLEAKAQVTQNISLIGGYSYMESEVLRGSLYDGSSLKGNEFSTAPKHSASLWSYYDVPGTDVSVGLGARYVGSYYFDAANSGKSDGTTLFDAAFNYEIAKGTDLAVNVSNLLDEQHVVGSGTANFYNPGREITAKVSYNW	PGPT0003790_11153	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
D1-35_02587	981	fecR_3	COG3712	Protein FecR	ATGTCGAGGCATGAGCCGCAGGCGCTCAATCCGGCCATTGTCGAGCAGGCGATCCAATGGCTGGTGCGCCTTCGCTTCAATCAAGCCGATGAACAAACACAGCGCACTTTCGAGCACTGGCTGCAGCAGTGCCCGGAGCATGTGTTGGCGTGGCAGCGTGTGGAAACGCTCGGGGATGAATTATCAGGCGTGCCAGCTCAATTGGCCCGACAAACCCTTGAGGGTACCCATCATGGAATGCGGCGGCGGGAAAGCCTGAAGCTACTGGGCCTATTGGCTACTGTTAGCACCGCAGCCTGGCTCGGCCGGGACTATACGCCCGTACCTGCCATGCTTGCGCAGCAGCGCAGCAGTACCGGCGAGCAACGACGCTTCCAACTCGATGATGGCAGCCTTATCCAGCTTAATAGCGATAGCGCCGTCGACAGCGATTTCGACGCCCAGCGCCGCCTGATAATCCTGCGGCGTGGTGAAATCATCGTGAATGTCGGCGCGGATCAACACTCGCCTCGAGCGCGACCGTTCTGGGTGCAATCACGTGACGGGATCATGCGCGCTCAGAGTTCCCGCTTTCTGGCACGGGAGCTGGATGATGGCACTCTGGTCGCGGCTCAGGAAGGGTCAGTCACGGTTTTCCCCGGCTCCAGTCAAACTCCTGCGAGCCGCAGCGTCCAGGCAGGAAGCCAGCTGCTGTTCTCATCAAGTGGCACCCGAATGTTCAGGGACAACGGCCTAGATCTATGGAGCTGGGGGGACGGGGTGATCAGCGCGCGCAATATGCGCCTCAATGATTTCATCGTGGAGTTGTCGCGTTATCGCCCCGGGGTGCTGCGCTGCGCCGAAGAGGTCGCTGATCGTCGCGTTTCCGGCACCTTCCAGCTCGCCGACAACGATCAGGTCCTGGCATTGGTCGCGCAGTCACTGCACTTGAACATTGATTATCGAACCCGTTATTGGGTCACCGTGACCGCTGCCACCTGA	MSRHEPQALNPAIVEQAIQWLVRLRFNQADEQTQRTFEHWLQQCPEHVLAWQRVETLGDELSGVPAQLARQTLEGTHHGMRRRESLKLLGLLATVSTAAWLGRDYTPVPAMLAQQRSSTGEQRRFQLDDGSLIQLNSDSAVDSDFDAQRRLIILRRGEIIVNVGADQHSPRARPFWVQSRDGIMRAQSSRFLARELDDGTLVAAQEGSVTVFPGSSQTPASRSVQAGSQLLFSSSGTRMFRDNGLDLWSWGDGVISARNMRLNDFIVELSRYRPGVLRCAEEVADRRVSGTFQLADNDQVLALVAQSLHLNIDYRTRYWVTVTAAT	PGPT0003910_4157	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003910-prhR|fecR-K07165	NA	NA
D1-35_02588	516	fecI_5	COG1595	putative RNA polymerase sigma factor FecI	ATGCGCAGCGATGAAACGCTAGGTAATGCAGATCTAGGGCTGCTCTATCGAACCCACCACTCGTGGTTACACGGCTGGCTTGTCCGACGCATCGGATGTCGCGATAACGCAGCAGATTTGGCGCAGGACACCTTCGTACGTCTGCTCAAATCCCGCCAGTCCAGCCCCTTGCGCGAACCACGCGCCTATTTGAGCAGTATCGCCCGCGGACTGATGATCGATCAGTATCGGCGTCGTGAACTCGAACGTGCCTACCTGGAAAGCGTCACGTTGCTGCCTCAGCACGAGGTCCCCTCGGAAGAAAGCCGGCTGTTGATTCTCGATGCGCTCGAGCGCATAGACCGCATGCTCGGTATGCTGAAACCCAGAGTTCGCCAGGCATTTTTATTTGCCCGACTCGACGGTCTGACCTGCGCGCAAATAGCCGAAAAGCTGGGTGTTTCCCGTGCGACGGTGGAACGCGACCTGGCCACGGCCCTGCAGCACTGCTATCGCTTGCGTTATGTCGAGGCATGA	MRSDETLGNADLGLLYRTHHSWLHGWLVRRIGCRDNAADLAQDTFVRLLKSRQSSPLREPRAYLSSIARGLMIDQYRRRELERAYLESVTLLPQHEVPSEESRLLILDALERIDRMLGMLKPRVRQAFLFARLDGLTCAQIAEKLGVSRATVERDLATALQHCYRLRYVEA	PGPT0003900_364	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003900-prhI|fecI-K23514	NA	NA
D1-35_02589	888			D-alanyl-D-alanine carboxypeptidase	ATGCTCAGTTCACTCGTTTCAAATGGTCAGGTACAAGCGGCTGATCGCTCAGAACTGATGGCCCCCTGGTGGAGTTTCACGAAAACAGTCTTGGCTGCTACGGCCCTATCGTTGGTGCGTGACGGGCTGGTCGGATTGGACCACCCTGTTCTTGGTCAGCCTTTTACGCTACGCCAGTTACTACGGCATGAGGCCGGTCTGCCTGATTACGGAGAACTTGCGGAGTATCACTCCGCCGTTAAAAATAGTGAGTCAGCCTGGCCGGCCGATGAAATGATGCAACGCCTTGACGGTGCTCGACTCCGATATAGTCCCGGAAACGGTTGGCGTTACTCGAATGTCGGCTACCTGCTTGTCGGCAGACTAATTGAACGGCTGACTGATCTGAAGCTTGATGAAGCGGTAATTCAACGGACACTTTCTCCTCTGGGCTTATTGGGCGTTCGCTTTGCAAAAACACGAGCAGACTTCCAAACGACCCACCTTGGAAGTTCCTCAAATTATGATCCTGCCTGGGTTTACCACGGCTTGTTGATCGGCCACATTTCGCACGCAGCGTTATTTCTGGATCGACTCTTTTGTGCAGACCTGCTCCCCACGGACTTGCTTCAGGAAATGCAAAAAGCACGAACATTGGGCGGCCCGATTCCCGGTCGCCCTTGGATCACGCCGGGCTATGGCCTTGGCGTGATGCAAGGGTCGATTGACGGCGGGTATTCGCTATGCGGGCACACCGGGTGCGGACCGAGCAGTGTCATTGCTGTCTACCGTCTCTGCGACGGCGACGCATCGGCTTGTTGTGCTGCTTTTGACGTGGGGTCCAGTGAAGGCTTCGTCGAAGCCATCGTCGTCGAGCAGCTCATGCAAGTTCTGCGTCAGAAGAGCTGA	MLSSLVSNGQVQAADRSELMAPWWSFTKTVLAATALSLVRDGLVGLDHPVLGQPFTLRQLLRHEAGLPDYGELAEYHSAVKNSESAWPADEMMQRLDGARLRYSPGNGWRYSNVGYLLVGRLIERLTDLKLDEAVIQRTLSPLGLLGVRFAKTRADFQTTHLGSSSNYDPAWVYHGLLIGHISHAALFLDRLFCADLLPTDLLQEMQKARTLGGPIPGRPWITPGYGLGVMQGSIDGGYSLCGHTGCGPSSVIAVYRLCDGDASACCAAFDVGSSEGFVEAIVVEQLMQVLRQKS				NA	NA	NA	NA	NA
D1-35_02590	801			hypothetical protein	ATGGATGTTGAGCTTGCTCATAAGATTGAGGCCGCAGAAAGCGAGTATCTACGTTCGCGCGTTGAGAACCTGGCAGAAATAAGCGGAAATCCTTATGGCGCGCGTGTTTTTTTCAACGCGGACTTTCCGTGTTTTCAGGTGAACGCATCGCCAAGCCCAATGTTCAACCGCATTTATGGTGACATCACCAGCAATCCCTTGGCAGTGTTAAATCTGCTCAATGAGTCAGCGGAGCGATCGACTGTAATTCCTCTTATTGGGAAATCTTCGGCGTTGGAGCAATACGTTGTTGTGGGCGAAGCACGGCTTGAGCGTTTGAGGGGCTGGACTCATTTGCAATTAGCTTGTGCCATTGAAAAGGTGGTTTTGAGTCGTCACTCATTCGAAATTGAAGAGGTCACGTCGAAGACTCTGGATCTATTCGCAGAAGTGCATGCGGGTAGCTTTCATACCAAGCCGGAGCATCGGCTTCTGAATCAGGCTTCCTTTGTAGGGCCGGTGCCTGACGGACGTCTGAAAATCTACGTATTGAAAGCGGAAGGGATAGTGGTAGCAGGGGCTTCGATGTATCTGGCCAGCAATGGCGTTGCCTACCTCGGAACGGCGGCAACACGAAAGGATGCCCGGGGCCACGGCTACCACCGAGCGCTGATTTCTCAACGAATAGAGCAAGCAAAGAAGCATGGCTATCATTGGATCGCTGCGACCGCGCTGGCCAGCTCCCAGAGCCGCCGAAATCTCGAGCGTGCCGGGTTAACGGCATCCCATGCCCAAGCACTGTACCGCCTGACAGACAGCTGA	MDVELAHKIEAAESEYLRSRVENLAEISGNPYGARVFFNADFPCFQVNASPSPMFNRIYGDITSNPLAVLNLLNESAERSTVIPLIGKSSALEQYVVVGEARLERLRGWTHLQLACAIEKVVLSRHSFEIEEVTSKTLDLFAEVHAGSFHTKPEHRLLNQASFVGPVPDGRLKIYVLKAEGIVVAGASMYLASNGVAYLGTAATRKDARGHGYHRALISQRIEQAKKHGYHWIAATALASSQSRRNLERAGLTASHAQALYRLTDS				NA	NA	NA	NA	NA
D1-35_02591	1233			NADH oxidase	ATGAATGTGTTCGACACCCTGATGCTCCCCAACGGTTCGACCATCAAGAACCGAATCGCCAAAGCCGCCATGGAAGAAAACATGGCGGACGCCGACCAGGCGCCCTCCGAAGAACTGATGCGTCTTTACCAGGCGTGGGCCGACGGCGGTGCCGGCCTGCTCATCACCGGCAACGTAATGGTCGACGGCCGCGCCATGACCGGACCGGGTGGCGTGGTGTTGCAGGATGATCAGCCGCTGGACAAGTTCAAGCACTGGGCGCGTATTGGCCGATCCGGCGGTGCGCAGTTCTGGTTGCAGATCAACCACCCAGGTCGGCAGATGCAGGCCAACCTTGGGCAAAAAACCTGGGCGCCGTCAGCCGTGCCGTTGGCACTGGGCAACATGTCCAAGCGTTTCGCCACGCCTCACGCCATGCCCCCTGGTTTGATTGAAGAGGTCATCCAGCGCTTCGCGAACACTGCGCGCCTTGGCGAACAAGCCGGATTCACCGGCGTGGAAATCCACGCCGCCCATGGTTATTTGTTGAGTCAGTTCCTTTCGCCGCTGACCAATCAAAGGCCGGACGAGTGGGGCGGCTCTCTGGAAAACCGGGCGCGGTTGTTGCTCGAAGTCGTCAAGGCGGTCAGGGCTGTGGTTTCGGCGGGATTCGCAGTAGCAGTCAAACTCAATTCCGCCGATTTCCAGCGCGGAGGGTTCACGGCCGATGACGCCAAAAGAGTGGTCGGGCTGCTCAACGACCTGGGGGTGGACCTGGTGGAATTATCTGGCGGCAGTTACGAAGTCCCCGCCATGCAGGGTGAGGCGCGTGATGGGCGTACCTTGGCCCGCGAGGCTTATTTTCTCGAGTTTGCCCGTGAGATCCAGACCGTCGCCAAGATGCCGGTGATGGTTACCGGTGGCATACGTCGACGTCCGGTTGCCGAGAGCGTCGTGCAAAGCGGTGTGGACATGGTGGGCATCGGTACGGCGTTGGCCATCGATCCTCACCTGCCGCGTGACTGGCTGCAGGGCAAAGACAACGCCCCGCAATTGCCGCCGATCACTTGGAAAAATAAGACCCTTGCGGCCTTGGCGAACATGGCGGTGGTGAAGTTTCAATTGCACAAACTGAGTCGGGCCAAACAGCCCGATCCGAGCGTGTCGCCGTTGCGTGCGCTGATCCTGCAGCAGCTCGCCCTGGCATTTCGCACGCGTCAGTATCGGCGTTGGGTGGAGAGGCGTTCGATATGA	MNVFDTLMLPNGSTIKNRIAKAAMEENMADADQAPSEELMRLYQAWADGGAGLLITGNVMVDGRAMTGPGGVVLQDDQPLDKFKHWARIGRSGGAQFWLQINHPGRQMQANLGQKTWAPSAVPLALGNMSKRFATPHAMPPGLIEEVIQRFANTARLGEQAGFTGVEIHAAHGYLLSQFLSPLTNQRPDEWGGSLENRARLLLEVVKAVRAVVSAGFAVAVKLNSADFQRGGFTADDAKRVVGLLNDLGVDLVELSGGSYEVPAMQGEARDGRTLAREAYFLEFAREIQTVAKMPVMVTGGIRRRPVAESVVQSGVDMVGIGTALAIDPHLPRDWLQGKDNAPQLPPITWKNKTLAALANMAVVKFQLHKLSRAKQPDPSVSPLRALILQQLALAFRTRQYRRWVERRSI				NA	NA	NA	NA	NA
D1-35_02592	480			hypothetical protein	ATGAGAATAGGCGAACTGGCGAAAATCAGCGGGTTGGCGCCGTCACGCATCCGGTACTACGAAGCCAGCGGTCTGATCAAGTCCGTTGGACGCAAAGCCAATGGCTATCGGGATTACGCACCTGATACCGAGTGGGTTCTGGAACTCATTACCGGCGCACAGGCGGCCGGTTTCTCATTGGAGGAAATCCGCCAACTGATGCCGATGAATGCCGGCGGTTGGCAACACGATGAGTTGCTCAGTGGACTCAAGCAGAAGGTTGAGGAGATCGGCGTACTGCAGCAACGGCTGGCCCAGAACAAGGCGCAACTTTTGCTCGTCATCAAGGGCATCGAGGGTAAGCCCGAAGGCATGGCGTGTGCGGACAACGCGCAGTTGCTGATCAATCGACTGCGCGAAGAAGGCGTTGTCCATTCTGCAGGCAAGCGTGCGACAGCGTCCTCCAAGAGAAAAAAGGCCCGTCAGGCTTCCGGGGCCTGA	MRIGELAKISGLAPSRIRYYEASGLIKSVGRKANGYRDYAPDTEWVLELITGAQAAGFSLEEIRQLMPMNAGGWQHDELLSGLKQKVEEIGVLQQRLAQNKAQLLLVIKGIEGKPEGMACADNAQLLINRLREEGVVHSAGKRATASSKRKKARQASGA				NA	NA	NA	NA	NA
D1-35_02593	570			hypothetical protein	ATGCCACGAATCAAAGCACTCAATGAACCCTACCCAGCCGACGTCAGGGCGGATTTCGACAAGATAATGGGCGTAGGAGTACCGCCACTCGCTCTATTCTCCACCATCGCAAGCAGCGATCGCGCATGGCGGAAATTCAAGGCAGGTTCGCTGCTGGATGGCGCGTTGCTGACACTTCGCCAGAGAGAATTGGTCATCGATAGGGTGTGTGCTCGCACAGGGTGTGAGTACGAGTGGGGGGTGCATGTGATGGCCTTCGCGAAGGCCGCCGGGCTCTCCAAGGAAGAGATTGCCGGCACGTTGGAATATCCGCTTCGCCCCGGGCAGTGGAAGGAGGAAGAGACCGCGCTACTGACCGCGGTCGATGCGCTTCATGATCGAGCGACTTTAAGCGATGAAGCGTTCTTTAACCTCAGAAAACACTTCGACGACGATCAGATCCTGGAGGTTCTGATGCTCGCGGGCTTTTACCGTACGGTTTCCTACATTGCGAATGGCCTCGCATTGCCGCTGGAGCAACATGCAGCGAGCTTCAGCGAATATCGCAAAGGTGAGACAGCTGGGCGTTGA	MPRIKALNEPYPADVRADFDKIMGVGVPPLALFSTIASSDRAWRKFKAGSLLDGALLTLRQRELVIDRVCARTGCEYEWGVHVMAFAKAAGLSKEEIAGTLEYPLRPGQWKEEETALLTAVDALHDRATLSDEAFFNLRKHFDDDQILEVLMLAGFYRTVSYIANGLALPLEQHAASFSEYRKGETAGR	PGPT0005005_1234	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
D1-35_02594	681			hypothetical protein	ATGTTCTGGCTGGGGCCATTCGAGTACAAATCAAAAAAAGAGCTTTTGGATCGGCTCAAGGACTATCTACAAAAAGCACCGGTCGGTGTGATCACCAACAAGCTTGCAGTCAAAAAACTACACCTGTTGCTTGCGATGCATCCGGACGCGGACAGAAAAATTGGCGACGGAATTGGCCACTTCAGGATCGAGAGAAATGCATTGCGGGCGGGGAAGGGGATCTGGCTCGTCCGCGTGGATGGCAGTGAAGATACCTTTTCCTACAAGCGGTGTATCACAGGCGTCGTTCAATCATCCCATGGCAAGGTATGCGAAGCACTGAGGTTTGCAGTGCGCCCGCAATTGGTCGCATTTCGGGATGCACTTGGTCTGCCTGTAATGTGTGCGGCGAGTGGAGTGATCATCACGCAGCGCAATGATTTGCACATCGATCACAGGGAGCCGTTTTGGATGCTGCTAGAGCGATTTTGCCAAGATCGTAAGGTCGATCTAACTAAGCTTGAGACGTCTGGAAACGGAGAAAAATTGGCACTGGTTGATCAAAATATCTCGTCTGCCTTTGCGCAGTACCATCGTCTTCATGCGGAATTTCAGCCTTTGCTGAAAGCTGCCAACGTCGCGAAAGGAGGGCGCCGTGTCGGTAGGATTTATGGCGAGGGAGAAGAAATCGATCCACGGTGA	MFWLGPFEYKSKKELLDRLKDYLQKAPVGVITNKLAVKKLHLLLAMHPDADRKIGDGIGHFRIERNALRAGKGIWLVRVDGSEDTFSYKRCITGVVQSSHGKVCEALRFAVRPQLVAFRDALGLPVMCAASGVIITQRNDLHIDHREPFWMLLERFCQDRKVDLTKLETSGNGEKLALVDQNISSAFAQYHRLHAEFQPLLKAANVAKGGRRVGRIYGEGEEIDPR				NA	NA	NA	NA	NA
D1-35_02595	432		COG1846	putative HTH-type transcriptional regulator	ATGGACATTTCACTATTCCGCGGACGCTTCACCCGCTTGAACAAGCGCCTGCGCCAGGAAGCACAGAATCATCCCGAGACATGGTCACAGATGCTGGTGTTGAGTGCCATTGATCAAATGGACGGCATGGCAACGCCCTCGAAAATTGCCGAAGCGGAAAATATCCGCTCGTCCAACCTCGCCGCCCTGTTGAAGGACTTGGAAGCCCGAGATCTTATTACCCGTACGCCAGATACCGAAGATCGCAGACGCACTTGGATCGGGCTGTCGGAACAAGGCCAATCAGTTTTACAGGCAAGCCGTAAGCGCCGCGATGAGTGGTTGGCTGAAGCCGTCGATGCCTGCCTGACCACCAACGAACGCAAGCAACTGGAAGCTGCCGGGCTGCTGATGGACAAACTCAGCAGCTACGGCCGCGGCGAGGAACGCTGA	MDISLFRGRFTRLNKRLRQEAQNHPETWSQMLVLSAIDQMDGMATPSKIAEAENIRSSNLAALLKDLEARDLITRTPDTEDRRRTWIGLSEQGQSVLQASRKRRDEWLAEAVDACLTTNERKQLEAAGLLMDKLSSYGRGEER				NA	NA	NA	NA	NA
D1-35_02596	792	surE_2	COG0496	5'-nucleotidase SurE	ATGGCGAACGGTCATCATCGATTCCAGCGAATTCTTCTTACCAACGACGACGGCATCGAAGCTCCCGGGCTCAAGGTCCTGGAACGTATCGCGTGCCAACTGGCGAATGAGGTCTGGGTCGTCGCGCCCTTGCTTGACCAAAGCGGAACCTCTCATTCCTTGAGCCTGCACGCCCCCTTGCGATTGAGCTTCCACGGAACCCGCCGGTTTGCGGTGACCGGCACGCCAGGTGACTGCATTGCCGTGGCGCTCGGGCATCTGCTCAATCACGACAAGCCGGACCTGATTTTATCCGGTGTCAATCGTGGGGCGAACCTGGGTACCGAAACGGTGTTCTCAGGCACCGTTGGCGCGGCGATGACCGGGCTGCTGTTTGGTATCCCCTCCATCGCACTGAGCCAGGCGTTTACCGACCGCGCCGCCGTGCCTTGGGAAAACGCTCTCAACAACGGGGCGCACACGGTTGAGCAACTGATGGCGCTGGACTGGCCGCAGGACGTTTGCCTGAACGTCAACTTTCCGAGCTGCGCGCCAGATGCCGTACGGCCGCTGAAAATAACCCACCAGGGCAGGGGGCGGTTGGAAGGGGTGTCCGTACGCTCGGAAAATGACCCGCGCGGTCTGGAATATCATTGGCTTCAACTGCACAGGCACCAACGGCCTGATGAACGCGGGACGGAAACGGCGGGAATCCTAGCGGGTCACATCACCGCGACGCCATTGCAGTTCGAGCGTACTCACGCGACTGCCAGCCAGATGTCTGAACAAATGATTCAAGCCAGGCTCATTTAA	MANGHHRFQRILLTNDDGIEAPGLKVLERIACQLANEVWVVAPLLDQSGTSHSLSLHAPLRLSFHGTRRFAVTGTPGDCIAVALGHLLNHDKPDLILSGVNRGANLGTETVFSGTVGAAMTGLLFGIPSIALSQAFTDRAAVPWENALNNGAHTVEQLMALDWPQDVCLNVNFPSCAPDAVRPLKITHQGRGRLEGVSVRSENDPRGLEYHWLQLHRHQRPDERGTETAGILAGHITATPLQFERTHATASQMSEQMIQARLI	PGPT0013405_1088	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013405-surE-K03787	NA	NA
D1-35_02597	279	sasA_12		Adaptive-response sensory-kinase SasA	ATGCTTGAGAAGTCGCCCGTTAACGACAAACCCCTATGGCGCTGGGTAGGCAGGATCGTCATTGAGATCGGTGACCGGGGGCCGGGTATCGAAGCACAGCATCTTGACAGCGTATTTGATCGCTTCTGGCGTGCGGAGCGTTCCAGGGCTCGCTATTCGGGCGGCAGCGGATTAGGCCTGTCCATCGCCCGTGCGATCTGCCAGGCCCATGGCGGAGCCATTACCGCCAGCAACCGCGCCCAGGGCGGCACGCTAATCAGGGCGGAGTATCCGCTGTAG	MLEKSPVNDKPLWRWVGRIVIEIGDRGPGIEAQHLDSVFDRFWRAERSRARYSGGSGLGLSIARAICQAHGGAITASNRAQGGTLIRAEYPL	PGPT0028835_13	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_AdeABC,PGPT0028835-adeS-K18143	NA	NA
D1-35_02598	933			hypothetical protein	ATGCAGCTGTATGGTGTGCAGTCCACGGCACTGCGTTATTTTCTGGAAGTGGCGCGATGCGGATCGATCAGCGAAGCCTCGGTGCGCTTGAACGTCGCAGCCTCAGCGGTGAGCCGACAAATTGCCAAGCTCGAGTTGGCTCTGGACGCCAGCCTGTTCGAGCGCCGTGCCCGGGGCATGGTGCTCAGCGAGGCGGGGGCGCGACTGGCGGCCTATGCGCGCAAGTCGCAGCTTGAGGCGGAGCAGGTGGTGCTGGAGATTACCGAGCTGCACGGCTTGCAGCGGGGCCATGTGCACGTTGCCTGCTCGGAGGGGTTTGCACTGGAATACATGCCCAGGAGCATCAGCGCGTTCAGGCGTGAGTATCAGGGTATTCATTTCACATTGGAGGTCTGTGCGCCGGCCGAAGCGACCGAGAAGGTGCGTTCCGGCGAAGCCGATCTGGCGATGACCTTCAGCCTGACGCCGCAAAGTGAAATCAAGGTCGAACATGTCATGAGCGGGGCGATTTTTGCCGTGGTCGCCAATTCCCATCCCCTGGCCGGGCGCGAAGCGGTCAGGCTCGCTGAGCTGCAGCCCTGGCCCATTGCGTTACCCAAGGCTGACACCACGATACGGCAGCTGTTCGACATCTGTTGCGGTGTACAGGGGTTGTTGTTCGACCCGGTGTTGACCACCAATTATGTGGCCGCGCTCTATAGCTTCGTCCGCGAAGAAGGCGTTATCAGCCTGGCCAGCGAAATGACCTTGCAAAAACAGGTAGCGGACAAGGCCCTGCAATGCGTGCCGATCCTCGACGAAGGCATGCAGGCACGACGTATCGAACTGCAAAGCATGGCTGGCCGCAATTTACCGGCAGCGGTGTCTGCGTTCAGGGATTTTTTGATTGCTGATCTGGAAAGCGGAGCGTCGTTGAAAGGAGGCCGTCCGTGA	MQLYGVQSTALRYFLEVARCGSISEASVRLNVAASAVSRQIAKLELALDASLFERRARGMVLSEAGARLAAYARKSQLEAEQVVLEITELHGLQRGHVHVACSEGFALEYMPRSISAFRREYQGIHFTLEVCAPAEATEKVRSGEADLAMTFSLTPQSEIKVEHVMSGAIFAVVANSHPLAGREAVRLAELQPWPIALPKADTTIRQLFDICCGVQGLLFDPVLTTNYVAALYSFVREEGVISLASEMTLQKQVADKALQCVPILDEGMQARRIELQSMAGRNLPAAVSAFRDFLIADLESGASLKGGRP				NA	NA	NA	NA	NA
D1-35_02599	1521	hbpA	COG0747	Heme-binding protein A	ATGGGCATCAAAGGTTTCGCCTGCAGCATTGCGCTGGCAGGCCTCATCAGCAGTTTTCCGGCGCATGCCGGTAAAGCCAACGACACCCTGGTTTACGCTTCCGACAGCGAGCCTGAAAACATCAGCCCCTATCACAACGATTTGCGCGAAGGGGTGATTCTCGGCCGGCTGATCTGGGACAACCTGATCTACCGCGATCCCAACAGCGGCGAATACAAACCCATGTTGGCTACCCGCTGGACACAGGTTGACGACACCACCCTCGACTTCGAGCTGCGCAAAGGCGTCAAATTTCACAACGGCGACGCCTTCACCGCCGACGACGTGGTGTTCACCCTCAACTACGTGGTATCGCCTGAAGCGAAAGTCGTTACCGTGCAAAACGTAGACTGGATCAAGAGCGCCGAAAAAACCGGTGACTACAGCGTCCGCCTGCATTTGAAGAAACCTTTCCCTCCGGCATTGGAATACCTGTCCAACGCCGTTCCGATGTTTCCCAAGCAGTACTTCGAGAAAGTCGGCCTGGCTGAGTTCAGCCGCAAGCCAGTGGGTACCGGGCCGTATAAAGCCGTGTCGGTGGTGGCTGGCGAAGGCGTGACCATGGAGATCAACAAGGACTACTTTCCGGACAGCCCACAAGGCAAGCCGCATATCGGCCACCTGAAGTTCCGGGTGATCCCGGATGCGGAAACCCGCCTGGCAGAGTTGATGACCGATGGTGTCGACTGGACGTGGCGTGTGACCCCGGATCAGGCAGTCGACCTCAAAGGTATGCCGAACCTGACCGTGACCAGCGGCGAAACCATGCGCATCGGTTTCCTGATTCTCGATGCTCGGGGCACCTCCACTGAAAACTCGCCGATGAAGCACCTCAAGGTACGCCAGGCCATCAACCATGCGATCAACCGCAATGCGCTGGCCACGCAATTGGTGGGTGGCGAAGCCAAGGCTTTGCAGGTGGCCTGTTATCCAGGCCAATTCGGTTGCGATACCACCGCGGCCACGGTCTACAACTACGACCCGGCCAAGGCCAAGGCGCTGCTCGCCGAGGCCGGCTACCCCAATGGCTTCGAGACAGAAATCTTCGCTTATCGCGACCGGGATTACGTCGAAGCCATCATTGGCAACCTGCGGGCCGTGGGCATCAACGCCAAACTGCGCTACTTGAAGTACGCCGCCCTGCGCGATCAGCAACGTGGCGGCAAGGTGCCCATGTCGTTTCAGGCCTGGGGCTCGTTCTCGATCCTCGACGCCTCGGCGTCGGCCGGCACCTGGTTCAAGGGCAACCCGGACGACAACATCAAGGACCCGCAAGTCCAGGGCTGGTTGCAGACCGCTGACAACGCCCTCGACCCGCAATTGCGCAAAGACAACTACCGCATGGCGTTGCAGCGCATCAGCGAACAGGCGTACTGGGCACCGCTGTTCAACTACTCGATGAACTACGCCTACACCGCCGATCTGGCGTTCACGCCGTATCCGGATGAGCTGCCGCGTTTCGTTCAGTCCAGCTGGAAGTAA	MGIKGFACSIALAGLISSFPAHAGKANDTLVYASDSEPENISPYHNDLREGVILGRLIWDNLIYRDPNSGEYKPMLATRWTQVDDTTLDFELRKGVKFHNGDAFTADDVVFTLNYVVSPEAKVVTVQNVDWIKSAEKTGDYSVRLHLKKPFPPALEYLSNAVPMFPKQYFEKVGLAEFSRKPVGTGPYKAVSVVAGEGVTMEINKDYFPDSPQGKPHIGHLKFRVIPDAETRLAELMTDGVDWTWRVTPDQAVDLKGMPNLTVTSGETMRIGFLILDARGTSTENSPMKHLKVRQAINHAINRNALATQLVGGEAKALQVACYPGQFGCDTTAATVYNYDPAKAKALLAEAGYPNGFETEIFAYRDRDYVEAIIGNLRAVGINAKLRYLKYAALRDQQRGGKVPMSFQAWGSFSILDASASAGTWFKGNPDDNIKDPQVQGWLQTADNALDPQLRKDNYRMALQRISEQAYWAPLFNYSMNYAYTADLAFTPYPDELPRFVQSSWK	PGPT0004430_16985	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
D1-35_02600	918	gsiC_1	COG0601	Glutathione transport system permease protein GsiC	ATGCTTGGATTCCTTCTGCGCCGTCTGGGCATCGCCATTTGCGTTGCCATTACCGTGTCGGTGATCAGCTTTTCTCTGTTGCACTTGTCCGGCGACCTGGCCACGGCCATTGGCGGACCGGAAGCCACCAGCGAACAGATCGAACAGATCCGCGTGCAGTACGGTTTGAACAAACCGCTACCGACCCAGTACTTCAACTGGCTGGGCGATTTGTTGCGGCTGGACCTGGGCAACTCGTTTTTCTTTCAGGAATCGGTCTACAACCTCGTCGCCAGCCGCTTGCCGATCACCCTCGGGTTAGGCGCCATGGCGCTGGGCATCGCCTTGCTGGTGGCGATTCCACTGGGCGTGCTGGCCGCGGTCAAACGCGACACCTGGATTGACCGACTGGCCTTGAGCATCGCCGTACTGGGCCAGGCAATGCCGAGTTTCTGGTTTGCGCTGATGCTGATCGTGGTGTTCGCGGTGACGCTCAAGTGGCTACCGGTGTCCGGTAACTCGACGATGTTGCACTTCGTCATGCCGGCCATTGCCTTGGGCTACTACGCGACGCCGGCAATCATGCGCCTGACCCGTGCCGGCATGCTGGATGTGCTCGACTCCGATTACATCCGCACCGCCCGCGCGAAGGGCCTGCGCCCTGCCCGCGTGTTGTTCAAGCACGCACTGCGCAACGCCTTGATTCCAGTCGTCGCGCTGGCGGCGGTGGAGTTTGGCTTCATGCTCGGCGGTTCGGTGGTGATCGAAACCGTGTTCTCCCTGCAAGGCATCGGACAGCTCGCCTGGGACGCCATCGCCCGTGACGACTTTCCTGTCGTACAGGCCGTGGTCCTGCTCATCGCGGTGATCTACATCATCCTCACCTTGCTGGCCGATGTGCTCAACGCACTGCTCGACCCGCGCATTCGCGTGCGCTAG	MLGFLLRRLGIAICVAITVSVISFSLLHLSGDLATAIGGPEATSEQIEQIRVQYGLNKPLPTQYFNWLGDLLRLDLGNSFFFQESVYNLVASRLPITLGLGAMALGIALLVAIPLGVLAAVKRDTWIDRLALSIAVLGQAMPSFWFALMLIVVFAVTLKWLPVSGNSTMLHFVMPAIALGYYATPAIMRLTRAGMLDVLDSDYIRTARAKGLRPARVLFKHALRNALIPVVALAAVEFGFMLGGSVVIETVFSLQGIGQLAWDAIARDDFPVVQAVVLLIAVIYIILTLLADVLNALLDPRIRVR	PGPT0004445_14427	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
D1-35_02601	903	gsiD	COG1173	Glutathione transport system permease protein GsiD	ATGAGCACCCCCACTACCCTCGCGATCAATGACTACCTGCCACCCCCCAGCAGCCTGAGCCGCGTACTTGGCAAGAGCTTTCGCCATCGTGGCTTCGCCATCGGCACGGTGTTGTTGCTGATCATCTTCACGGGTGCACTGTTCGCGCCGTGGCTGGCACCTTATGACCCGTATGCGCAAGACGTGATGCTGCGTATGAAACCGCCGGTATGGATGGCCAACGGCACCTGGGAATACGTCCTGGGCACCGACAAGCTGGGCCGTGACTACCTGTCACGACTGCTCTACGGCGCACGTATCTCACTGTTCATCGGCATTGCCGCGGCGCTTATTTCCGGCTTTATCGGCACCGTCATGGGGCTATTGGCGGGTTACTACGGCGGCAAGGTCGATGCGTTTATCAGCTACCTGATCACCACCCGGCTGGCGATGCCGGTCGTGATGGTCGCGCTGGCCTCGGCCTCGCTGATGGGCGGCTCGCTGAAAGTGGTGATTGTGCTGCTCGGCTGCCTGCTCTGGGATCGCTTCGCGGTGGTGGTCAGGGCTTCGGTGCAACAGATTCGCGATGCTGAATATGTGGCTTCGGCCCAGGCGCTGGGCTGTTCGACCCTGCGCATTCTGGTCAGTGAAATCCTGCCCAATCTGGTCGGTGCATTGATCGTCGTCGCGACGCTGGAAATGGCCCACGCGATCCTGCTGGAGTCGGCACTGTCGTTCCTCGGGGTGGGTGTGCAGCCGCCAACGCCGTCCTGGGGCTTGATGATCGCCGAAGGCAAACCCTACATGTTCTTTTCCCCGTGGGTCATCGCCATTCCCGGCGTCGCCCTGATGATTCTGGTGCTGGGTATCAACCTGGTCGGCGATGGCCTGCGCGATCTGATCCTGCCCGATGGCCGTAACTGA	MSTPTTLAINDYLPPPSSLSRVLGKSFRHRGFAIGTVLLLIIFTGALFAPWLAPYDPYAQDVMLRMKPPVWMANGTWEYVLGTDKLGRDYLSRLLYGARISLFIGIAAALISGFIGTVMGLLAGYYGGKVDAFISYLITTRLAMPVVMVALASASLMGGSLKVVIVLLGCLLWDRFAVVVRASVQQIRDAEYVASAQALGCSTLRILVSEILPNLVGALIVVATLEMAHAILLESALSFLGVGVQPPTPSWGLMIAEGKPYMFFSPWVIAIPGVALMILVLGINLVGDGLRDLILPDGRN	PGPT0004450_7541	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
D1-35_02602	1017	oppD_1	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGGCACTACTCCATGTAGAAAACCTGCGCGTGGATATCCCCATGGGCAACCGCCCGACGCCGGATGACATGCTCCATGCGGTGCGCGGTCTGACCTTTGAAGTCGAGCGCGGTGAAATGTTGTGCATCGTTGGCGAATCCGGCTGCGGTAAATCCTTGACGTCGCTGGCGCTGATGGACCTGTTGCCTCGCAAGGCCAAACGCACGGCGTCGCGGCTGATGCTGGACGGCATCGACATGATCGGCCAGAGCGAACGGCACATGTGCGACCTGCGTGGCAACCGTCTGGCAATGATCTTCCAGGAACCGATGACCTCGCTGAACCCGGCCTACAGCATTGGCGATCAACTCAGCGAAGTGCTGACCCGGCACCGCAAGGTGTCGCGCAAGGAGGCCCTGGTTCGCGCCGGGCAAATGCTGGAGAAAGTTGGTATCAGCAATGCCACCGAGCGCTTGCGCCAGTACCCGCATCAATTGTCCGGAGGTTTGCGCCAGCGGGTGATCATCGCCATGGCGTTGATGTGCGAACCGGACCTGATCATCGCCGATGAGCCCACCACCGCGTTGGACGTGACCATTCAAGCGCAGATCCTGCGCTTGATCCGCGACATCCAGAAAGAACTCGGCCTGGCGGTGATCTTCATCACCCACGACCTGGGGCTGGTGGCGCGGATCGCCGATCGGGTCGCCGTGATGTATGCCGGGGAAATCGTCGAAACCGCCCCTGCCCTGCAACTGTTCGAAAACCCGCAGCATCCGTACACCCGTGGTCTGCTGGCCAGTATCCCGATCCCGGGCCAGACCAAACCGGGTGCGGCGCTGGGTTCGATTCCAGGACTGGTGCCGAGCCTGGTAGGCGAACAGCAAGGCTGTGCGTTCCGCAATCGTTGTGGTCAGGCGATACCGGCCTGCGCGCAAGACATCCCCGAAGTCGAGCAGGACGGACACATGGCGCGCTGCCTGTTCGCCGCACCGGCCCCGGCACCGATTCGTCTTCAGGAGCGTGCACGGTCATGA	MALLHVENLRVDIPMGNRPTPDDMLHAVRGLTFEVERGEMLCIVGESGCGKSLTSLALMDLLPRKAKRTASRLMLDGIDMIGQSERHMCDLRGNRLAMIFQEPMTSLNPAYSIGDQLSEVLTRHRKVSRKEALVRAGQMLEKVGISNATERLRQYPHQLSGGLRQRVIIAMALMCEPDLIIADEPTTALDVTIQAQILRLIRDIQKELGLAVIFITHDLGLVARIADRVAVMYAGEIVETAPALQLFENPQHPYTRGLLASIPIPGQTKPGAALGSIPGLVPSLVGEQQGCAFRNRCGQAIPACAQDIPEVEQDGHMARCLFAAPAPAPIRLQERARS	PGPT0004435_8620	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
D1-35_02603	990	ddpF_2	COG1124	putative D,D-dipeptide transport ATP-binding protein DdpF	ATGAAAAAAGACATCGCTTTGGAGCTGTGTGACATCCGTCGCGAGTTTCGGATCAACCAGGGCTTTTTCAAACCCGCCGCCACCCTGAAGGCCGTGGATGGCGTTTCCCTGCGGCTGATGCGTGGCGAGACCCTCGGCCTGGTGGGTGAGTCCGGTTGTGGAAAAAGTACCCTGGCAAAGCTGCTGCTCGGCCTGTTGCCGCCTACCAGCGGCGATGTGCTGGTCAATGGTAAACATCTGGCGGCGACGGATCGCAAGACAATGTCCCGGCACATCCAGCCGATATTCCAGGACCCGTATTCTTCGCTGAACCCACGCAAGACGCTGCGCGAAATCATTACCCTGCCGCTGATCGTGCATGACATCGGCAGCCCCGCCGAGCGGCGCAAGAAGACCGAAGCGATGCTCGATGTGGTCGGTCTGCCCAAGCGGGTGATCGACAGCTACCCGAGCCAGTTGTCCGGCGGACAACGCCAGCGCGTCGCGATCGCACGCGCGCTGATCATGCGCCCCGATGTGTTGATCTGCGACGAGCCCACCTCGGCACTGGATGTGTCGGTGCAGGCGCAGATCCTCAACCTGCTGCAAGACCTCAAGCGCGAATTCGGCCTGACCTATCTGCTGATCAGCCACAACCTCGCGGTCATCGAACACCTCGCCGACCGGGTCGCGGTGATGTACCTCGGGCGCATCGTCGAAGAACGTACGCGCGAATCGTTGTTCGCCGAACCCGGCCACCCTTATACCCGCGCCTTGCTGGACTCGGTGCTCACCCCCGATCCGCGCCTGGGCATTCCCGATATCGGCCTGCACGGTACCTTTCCCAATCCGATGTCACCGCCGTCCGGTTGCGCGTTTCACCCGCGCTGCCCGAGCTGCTTCGCACCGTGCAAAACGGCCTACCCGGCCAATGATTCCATTATCGGCGGCAACGTGCGTTGCCACCTTCACGACAGTCCCGCCCAAACACTGGAGCTCGTCCACTCATGA	MKKDIALELCDIRREFRINQGFFKPAATLKAVDGVSLRLMRGETLGLVGESGCGKSTLAKLLLGLLPPTSGDVLVNGKHLAATDRKTMSRHIQPIFQDPYSSLNPRKTLREIITLPLIVHDIGSPAERRKKTEAMLDVVGLPKRVIDSYPSQLSGGQRQRVAIARALIMRPDVLICDEPTSALDVSVQAQILNLLQDLKREFGLTYLLISHNLAVIEHLADRVAVMYLGRIVEERTRESLFAEPGHPYTRALLDSVLTPDPRLGIPDIGLHGTFPNPMSPPSGCAFHPRCPSCFAPCKTAYPANDSIIGGNVRCHLHDSPAQTLELVHS	PGPT0004440_7530	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
D1-35_02604	1425	dapE_2		Succinyl-diaminopimelate desuccinylase	ATGAGTCGTTCATTGGCCATCAGCAACACCACCGCGCAATTCGACAACGGCGCTTTTTTCAAGCTGCTCGAACGTAGCGTCGCCTTGCACACCGAAAGCCAGGCAACGGACAGCCAGCCCGAGCTGTATCGCTACCTCAATGACTTCATCACCCCGCATGTCGAGGCAATGGGCTTCAGCGTCAAGATCTATGACAACCCGGTGGCAGAGCGTGGCCCCTTCATGATCGCCACACGCATCGAACATCCAGAACTGCCGACTGTGCTCAGCTACGGCCACGGTGATGTGGTGCGCGGCTATGAAGCCCAATGGCGTGAAGGCCTGTCACCGTGGCAAGTCACTGTCGAAGGCGATCGCTGGTACGGCCGCGGCACGGCGGATAACAAAGGCCAGCACCTGATCAACCTGACCGCACTGGAGCAAACGCTCAAGGCGCGCGGCGGCAAGCTGGGCTTTAACGTCAAACTGTTGCTGGAAATGGGCGAAGAAGAAGGCTCGCCGGGCTTGAACGCGTTCTGTGCCGCCCACAGCGAAGAGCTCGCCGCGGATATTTTCATCGCCTCGGACGGCCCGCGCCTGGCGGCATCACGACCGACGATTTTTCTCGGTTCACGCGGGGCGTTCAACTTCGAGCTGGTCGTCAATTTGCGTGAAGGCGCCCATCACTCTGGCAACTGGGGCGGCTTGCTGGCCAACCCAGGCATCATTCTGGCCAATGCCATCGCCAGCATGGTCGATGAACAGGGCCGGGTGAAAGTGGCAGGCCTACAGCCCGAGTCACTGCCGGAACCGGTTCGCCGGGCACTGGCTGATATTGATGTGGGTGGCGGCCCGGGCGATCCGGAAATCGATGCCAACTGGGGCAACCCGCAGCTCTCGCTGAGCGAAAAGGTGTTCGGCTGGAACACCCTCGACGTCATTGCCTTCAAGACCGGCAACCCGGATGCCCCCGTGCATGCGATCCCCGGTAAAGCCAATGCCCATTGCCATATCCGCTTCGTGGTGAACAGCGACTACACGACCTTCATCCCGGCGGTTCGTGCCCACCTGGATGCCCATGGCTTCAACAATGTCGAGGTCAAGCAAAGTCGTATCGATGTGATGCATGCCACTCGGCTGGACCCGCAAAGCCCGTGGGTCAATTGGGCGCTCAGCTCGTTGACACAGACCACCGGTAAAAAACCTGCGCTGCTGCCAAACCTTGGGGGCTCGCTGCCCAACGACGTCTTCGCCGACGTGCTCGGCCTGCCGACCTTGTGGGTGCCGCACTCTTATCCGGCCTGTTCGCAACATGCGCCGAACGAGCACTTGCTGGCACCGGTGGTCAAGGAAAGCCTGCAAATCATGGCCGGTCTCTTCTGGGACCTGGGCAACGATGCGGCACGCCTGGCTCAGGAGCACCAGTTGCGGGAGCAGGCGCAATGA	MSRSLAISNTTAQFDNGAFFKLLERSVALHTESQATDSQPELYRYLNDFITPHVEAMGFSVKIYDNPVAERGPFMIATRIEHPELPTVLSYGHGDVVRGYEAQWREGLSPWQVTVEGDRWYGRGTADNKGQHLINLTALEQTLKARGGKLGFNVKLLLEMGEEEGSPGLNAFCAAHSEELAADIFIASDGPRLAASRPTIFLGSRGAFNFELVVNLREGAHHSGNWGGLLANPGIILANAIASMVDEQGRVKVAGLQPESLPEPVRRALADIDVGGGPGDPEIDANWGNPQLSLSEKVFGWNTLDVIAFKTGNPDAPVHAIPGKANAHCHIRFVVNSDYTTFIPAVRAHLDAHGFNNVEVKQSRIDVMHATRLDPQSPWVNWALSSLTQTTGKKPALLPNLGGSLPNDVFADVLGLPTLWVPHSYPACSQHAPNEHLLAPVVKESLQIMAGLFWDLGNDAARLAQEHQLREQAQ				NA	NA	NA	NA	NA
D1-35_02605	1155	cpg2_2		Carboxypeptidase G2	ATGAGCGCCACGCCACAACAGGCGCTGGACTGGCTTGCCGGCCAGCGCCACGCCATGGAGTCGCTGCTACAACGTATCGTTGACACCGACTCCAACAGCTATGACAAGGCGGGCGTCGACGCGGTGGGCGCGCTGCTCGCGGTGGAATTGGAAGCCGACGGCATCCTGCTCAAGCGCATGCCGGTCGATGATTTTGGCGACGTGCTACTCGCAGAAGTGCCAGGCGCATCTGGAAAGCCGGTGCTGTTGCTAGGCCATCGCGACACGGTGTTCCCCAAAGGCACCACCTCGACGCGTGGCTACAGCCGCGACGCCAACCTCGCCTATGGCCCCGGCGTCGCCGACATGAAAGGCGGCCTGGTGCTCAACTGCTTCGCGCTCAAGGCACTCAAGCGCGCCGGTCAGTTGCCCTATCCGGTGCAGGTCCTGTACACCGGCGACGAAGAAATCGGCTCCGGCAGCGCCAGGACCCATATCGAAAAAGCCGCCCGTGGCGCCCGTGCCGTGCTCAATACCGAACCCGGCCGGGCCAGCGGCAACGTGGTCAGCGCACGCAAAGGCGGCGCCACGCTGATCATCGAAGTCAGCGGCCGCGCGGCGCATGCCGGGGTCAACCATGCCGACGGCGCCAGTGCCATCGAAGCCCTGGCACGCAAGATCGTCAAGCTCCATGCCTTGACCGATTACACAGCAGGCATCACGACCAATGTCGGCCTGATAGCCGGTGGCACCTCCAGCAACACCGTCGCGCCCAGCGCCTCTGCCCGGCTGGATGTGCGCTTCATCGAACTCAAACACTGGGATCAACTCTTTACCAAAATTCAGGCCATCGTCGCCGAGGAAGAACTGGCAGGCACCCGCGCCATCCTCAAGGAAGCGACAACCTTTCTACCAATGGAAGCCTGTCACAGCGAACGGCTGCTGCAAATCTACCAACAAGAAGCGCTGGCGCTGGGTTTCAGCGTCGAAGGCGAGTTCACCGGCGGTTGTGCCGACTCCGGATTCACAGCAAGCCTGGGCATTGCGACCCTTTGTGGCCTCGGGCCAGTGGGCGGCAAAGTCCATACCGACCGTGAATATCTGGAACTGGACACGCTGGTGCCTCGCGCTCTGGCGTTGGTGGCGACCATTCTGGCGGTCGGTGATAACTGTTGA	MSATPQQALDWLAGQRHAMESLLQRIVDTDSNSYDKAGVDAVGALLAVELEADGILLKRMPVDDFGDVLLAEVPGASGKPVLLLGHRDTVFPKGTTSTRGYSRDANLAYGPGVADMKGGLVLNCFALKALKRAGQLPYPVQVLYTGDEEIGSGSARTHIEKAARGARAVLNTEPGRASGNVVSARKGGATLIIEVSGRAAHAGVNHADGASAIEALARKIVKLHALTDYTAGITTNVGLIAGGTSSNTVAPSASARLDVRFIELKHWDQLFTKIQAIVAEEELAGTRAILKEATTFLPMEACHSERLLQIYQQEALALGFSVEGEFTGGCADSGFTASLGIATLCGLGPVGGKVHTDREYLELDTLVPRALALVATILAVGDNC				NA	NA	NA	NA	NA
D1-35_02606	2712	aceE_1	COG2609	Pyruvate dehydrogenase E1 component	ATGAACGACCTGTCCGATATTCATGCCCAATGGCCGGGCCAGGCCAGCGAAGATGCTCAAGAAGTGGTTGAATGGCGGGACGCCTTGCTGTCGGTTATCGCCCATAGCGGCGCGGCTCAGGCCAAGCAGATCCTCGACATGCTGATGACTGTGGCAAGCGCCTCGGACATCGGTTGGCGGCCCAGCCATGGCACGCCCTACATCAATACCATCGGTGTCGAGCGCCAGCCGGTATTTCCAGGGGACCTGGCCATCGAAGAAAGGCTGGCCTCGATCATGCGCTGGAACGCGTTGGCGATGGTTGCCAGGGCCAACCACGCTTATGGCGAATTGGGCGGACATATCGCCAGTTATGCCAGCGCGGCGGACTTGTTCGAAGTGGGCTTCAATCATTTTTTCAAAGCGCGGACCGACAGCAGCGGTGGCGATCTGGTGTTCTATCAACCGCATTCGGCGCCAGGGGTCTATGCCCGGGCGTTCCTCGAGGGCCGCCTGGAAGAAAAGGACCTAATGCATTATCGGCAAGAGATCGGCGCACGCGCCAAGGGCGCCCGAGGGTTGTCGAGTTACCCGCATCCTTGGCTAATGCCGGATTTCTGGCAGTTTCCGACGGGCTCCATGGGCATTGGTCCAATCAGTTCGATCTACCAGGCGCGTTTCATGCGTTACCTGGAGCACCGGGGCCTGCAAGACACCACGGGTCGAACCGTCTGGGGCGTGTTTGGCGACGGCGAAATGGATGAGCCGGAAAGCATGTCGGCGCTGACGATGGCCACCCGGGAAGGGCTGGATAATCTGGTCTGGGTGGTCAATTGCAACCTGCAACGGCTGGACGGGCCGGTTCGTGGCAATGGACGCATCATCGACGAGTTGGAGGCGTTGTTTGGTGGGGCAGGCTGGAACGTCATCAAACTGGTTTGGGGTTCCGACTGGGACAGTTTGTTTGCGCGCGATACAGAGGGCGCGCTGGTCAAGGCGCTGTCCAGCACTGTCGATGGGCAGTTCCAGACGTTCGCGGCCAAAGACGGACGCTTTAACCGGGAACATTTCTTTGGCCAGAACGAGGCATTGGCCCATCTGGCACACGGCCTGACGGATGAGCAGATCGATCGTCTGAAACGGGGCGGTCACGACATGGTGAAGATCTTCGCCGCCTATCAAAGCGCACTGCGCGAAGGCAACAAGCCCACTGTGATTCTGGCGCAGACCAAGAAGGGCTTCGGCATGGGCGATGCCGGGCAGGGCAGGATGACCGTGCACCAGCAGAAGAAGCTCGATCGGGAGGCGCTGATCGCGTTTCGCAATCGTTTCAACCTGCCGCTGACCGATGAACAGGCCGCCTCGTTGAGCTTCTTCAAACCTGCTGAAGACAGCGCTGAAATGCGCTATCTGCATGAGCGTCGCCGTGCATTGGGCGGGTACATGCCATCGCGGCCTTCGATCGCCGAATCATTGGCGGTGCCTGACGTCAGCAGCTATGGCACGTTTGCCATTGCTGCGGATGGCAAGGAGATGTCTACCACCATGGCGTTCGTGCGAATGCTCAGTGGTTTGCTGCGGGACAAACAACTGGGCCCGCGCATCGTGCCGATCGTGGCGGATGAAGCGCGTACGTTCGGCATGGCCAGCCTGTTCAAGCAGATCGGCATTTACTCCAGCGTGGGGCAGCGATATGAGCCGGAAGACATCGCCTCGATCCTGAGCTATCGAGAAGCGCTGGACGGCCAGATTCTCGAAGAGGGCATCAGCGAGGCAGGGGCGATCAGTTCCTGGGTTGCAGCAGCGACCAGCTATTCGGTGCATGGCTTGCCGATGCTGCCGTTCTACATCTATTACTCGATGTTCGGCTTCCAGCGCATTGGTGACCTGATCTGGGCCGCAGCGGATCAACGGGCTCGCGGTTTTCTGCTCGGGGCCACCGCCGGCCGCACGACATTGGGCGGTGAAGGTCTGCAGCACCAGGACGGCAACAGTCATATGATGGCGGCGATGGTCCCCAATTGCCGGGCTTACGATCCGGCATTCGCCGGCGAGTTCGCGGTGATCCTGGATCACGGCATGCGCCAGATGCTGGAGCGTCAGGTGGACGAGTTTTATTACGTCACCCTGATGAACGAGAACTACCCGCAGCCCAGCCTTCCTGACGGCGTCGAACAGGCGATTATCAAGGGCATGTATCGGTTCGCCCGGCATGAAGTCGAGGGTGCGCGTGGACGTGTGCAGTTGCTGGGCTCCGGCGCCATCCTGCGCGAAGTGATTGCCGCCGCCGAGTTGCTGGCCAGCGATTGGGGTGTCGACAGCCAGGTCTGGAGCGTGACCAGCTTCACCGAGTTGGCCCGTGATGCGCGCGAAGTGGAGCGCTGGAATCGACTGCACCCTGGACAACCTTCGCGCCGCAGTCATGTCCAGGTGTCGCTCAATGACTCGGCGCCGATCATTGCCTGCACCGACTACGTTCGCGCCTTGCCGCAGTTGATCGCCAGTTATCTCGATGCCCGTTACACGGTACTCGGCACCGATGGCTTTGGCCGCAGCGATACCCGCAGTCAGCTGCGCAGGTTCTTCGAAGTGGACCGCCACCAGATTGTCCTGAGTGCACTGACTGCACTGACTGCACTGGTGCACACAGGGCGCCTCGATGCCAATGTGTGTGCCGAGGCCATTGAACGCTACGCGATTGACGTTGACGCGGTGGTCCCTTGGGACGCTTGA	MNDLSDIHAQWPGQASEDAQEVVEWRDALLSVIAHSGAAQAKQILDMLMTVASASDIGWRPSHGTPYINTIGVERQPVFPGDLAIEERLASIMRWNALAMVARANHAYGELGGHIASYASAADLFEVGFNHFFKARTDSSGGDLVFYQPHSAPGVYARAFLEGRLEEKDLMHYRQEIGARAKGARGLSSYPHPWLMPDFWQFPTGSMGIGPISSIYQARFMRYLEHRGLQDTTGRTVWGVFGDGEMDEPESMSALTMATREGLDNLVWVVNCNLQRLDGPVRGNGRIIDELEALFGGAGWNVIKLVWGSDWDSLFARDTEGALVKALSSTVDGQFQTFAAKDGRFNREHFFGQNEALAHLAHGLTDEQIDRLKRGGHDMVKIFAAYQSALREGNKPTVILAQTKKGFGMGDAGQGRMTVHQQKKLDREALIAFRNRFNLPLTDEQAASLSFFKPAEDSAEMRYLHERRRALGGYMPSRPSIAESLAVPDVSSYGTFAIAADGKEMSTTMAFVRMLSGLLRDKQLGPRIVPIVADEARTFGMASLFKQIGIYSSVGQRYEPEDIASILSYREALDGQILEEGISEAGAISSWVAAATSYSVHGLPMLPFYIYYSMFGFQRIGDLIWAAADQRARGFLLGATAGRTTLGGEGLQHQDGNSHMMAAMVPNCRAYDPAFAGEFAVILDHGMRQMLERQVDEFYYVTLMNENYPQPSLPDGVEQAIIKGMYRFARHEVEGARGRVQLLGSGAILREVIAAAELLASDWGVDSQVWSVTSFTELARDAREVERWNRLHPGQPSRRSHVQVSLNDSAPIIACTDYVRALPQLIASYLDARYTVLGTDGFGRSDTRSQLRRFFEVDRHQIVLSALTALTALVHTGRLDANVCAEAIERYAIDVDAVVPWDA	PGPT0001385_1015	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001385-aceE-K00163	NA	NA
D1-35_02607	420			hypothetical protein	ATGAGCCGATCTGCCGACTGTCGTTCTAAAACCCTGAAGTGGATGCGTGAGCCTTCGAGCTGTACGCGCATCGTGGTCATCGTGTCCGCAATGGACAGTGATCATATTGACCTGATGCACCATGGGTTCAGCTGTTTTGACAATATCGCGCTGGTACAGGTTGAGCCTTCGGGCAGTGGGGCGCAAAGGTGCGTTGAAGGACAAGTTGCGAAGTGTGATTACAGCTTTCTCGTTTGCGGTGAACTGGAAGAGTCTCTGTTAAATGATCTTTCCATTGGCAATCCGTGCATCTACCAGATAGGGCAAGGCAGCTGGGCCGAGCGCTCCGTGATTGAAGCGGTAGAGCAGGTCAAGAAACTCGCCCGATTGAGCTATTCACGCCTTGAAACGTTACCCGACATTTGCAGGATATGCCCATGA	MSRSADCRSKTLKWMREPSSCTRIVVIVSAMDSDHIDLMHHGFSCFDNIALVQVEPSGSGAQRCVEGQVAKCDYSFLVCGELEESLLNDLSIGNPCIYQIGQGSWAERSVIEAVEQVKKLARLSYSRLETLPDICRICP				NA	NA	NA	NA	NA
D1-35_02608	462			hypothetical protein	ATGCTTGCGATATCGCAGTCTGCAATCTGGGTGAAAGAACCCCTGGCGGATACCGGCGTTGTCATCGTGACCAGCGCCGCGTTGCCCAAGTACATGATTGACTCGTTGCACATGGCGATCGACGACTGGGACCAGGTTGCCTATCTAGTGGTCCAGCAATCCAAGGCATTCATGCTCGACTGGCTGCAGTTTGGGGCTCACTCGATAGAGCCGGTGCCGGCTAGCACCTGTCGGGCCAGCCAACTGCTGCATGGTGTCTCCAAAGGTTGTTTTTTATTGGATATCGAAGACACCCCGATACCCCGTCTGACCTGGCTGGGATCAGTCTGTGGACACCCACTGCGTGTCCTCAAGCTGGGAGACGCAGCCTCCCAGGCAGCGATCGATAAACAGGTGGAAGAGATTTTATCGGTGACCCGGACACTGGTGAAAAGCGGGTTGCAGGAACGTTGTTTCAGCTAG	MLAISQSAIWVKEPLADTGVVIVTSAALPKYMIDSLHMAIDDWDQVAYLVVQQSKAFMLDWLQFGAHSIEPVPASTCRASQLLHGVSKGCFLLDIEDTPIPRLTWLGSVCGHPLRVLKLGDAASQAAIDKQVEEILSVTRTLVKSGLQERCFS				NA	NA	NA	NA	NA
D1-35_02609	1017	acdS		1-aminocyclopropane-1-carboxylate deaminase	ATGAACCTGAATCGTTTTGAACGTTATCCATTGACCTTCGGTCCTTCGCCCATCACGCCCTTGAAGCGCCTGAGTAAACATCTGGGGGGCAAGGTCGAGCTGTATGCCAAACGTGAAGACTGCAACAGTGGCCTGGCCTTTGGTGGGAACAAGACTCGCAAGCTCGAATACCTCATTCCTGAAGCGCTCGAGCAGGGCTGCGATACGCTGGTCTCCATCGGTGGCATTCAGTCGAACCAGACCCGCCAGGTTGCCGCAGTCGCTGCCCACTTGGGCATGAAGTGCGTGTTGGTGCAGGAAAACTGGGTGAACTATTCCGATGCGGTGTATGACCGGGTAGGCAACATCGAGATGTCGCGAATCATGGGCGCTGACGTGCGGCTTGATGCAGCTGGCTTCGATATCGGCATTCGGCCAAGTTGGGAAAAGGCCATGAGCGATGTCGTGGAGCAGGGCGGCAAACCGTTTCCGATTCCGGCGGGTTGTTCCGAGCACCCTTATGGCGGCCTCGGTTTTGTCGGCTTTGCCGAAGAAGTGCGGCAGCAGGAAAAAGAACTGGGCTTCAAGTTTGACTACATCGTGGTCTGCTCGGTGACCGGCAGTACGCAGGCGGGCATGGTGGTCGGTTTCGCGGCTGACGGTCGTTCAAAAAATGTGATTGGCATTGATGCTTCGGCCAAGCCGGAACAGACCAAGGCACAGATCCTGCGCATCGCCCGCCACACCGCTGAGCTGGTGGATCTGGGACGCGAGATTACCGAGGAGGACGTGGTGCTCGATACGCGTTTCGCCTACCCCGAATACGGTTTGCCCAACGAAGGCACCTTGGAGGCCATCCGTCTGTGCGGCAGCCTTGAAGGCGTGCTGACCGATCCGGTGTACGAAGGCAAATCGATGCACGGCATGATTGAAATGGTGCGTCGTGGTGAATTCCCCGAAGGCTCGAAAGTGCTTTACGCGCACCTGGGCGGGGTGCCGGCGCTGAACGCCTACAGCTTCCTGTTTCGTAACGGCTAA	MNLNRFERYPLTFGPSPITPLKRLSKHLGGKVELYAKREDCNSGLAFGGNKTRKLEYLIPEALEQGCDTLVSIGGIQSNQTRQVAAVAAHLGMKCVLVQENWVNYSDAVYDRVGNIEMSRIMGADVRLDAAGFDIGIRPSWEKAMSDVVEQGGKPFPIPAGCSEHPYGGLGFVGFAEEVRQQEKELGFKFDYIVVCSVTGSTQAGMVVGFAADGRSKNVIGIDASAKPEQTKAQILRIARHTAELVDLGREITEEDVVLDTRFAYPEYGLPNEGTLEAIRLCGSLEGVLTDPVYEGKSMHGMIEMVRRGEFPEGSKVLYAHLGGVPALNAYSFLFRNG	PGPT0002000_61	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0002000-cuyA-K17950	NA	NA
D1-35_02610	465	lrp_3	COG1522	Leucine-responsive regulatory protein	ATGCCGCAGCCACTGGATCGAACCGACCGCGCCATTCTCAAGGCCCTGCAACGAGATGCCTCCATCTCCAATGTGACGCTTGCAGAGAAGGTGAAACTGAGCGCCCCTGCGTGCCTCAGGCGTGTCGAACGGCTCAAGCAGGCCGGCCTGATCAAGAACATCGTCGCACTGCTGGACAATGAAGCGTTGGATGCGGGGATGGTGGTACTGATCGGCGTAGTGCTGGACCGCTCCACACCGGAATCCTTCGCCGCATTCGAGGCAGCCGCCCAAAAAGTGTCCGGCTGCATGGAGTGCCATGTGGTGACGGGAGAGTTCGACTACTTCATGTTGCTGCGCACCAAGGACAGCAACAGTTTCAACCGGCTCCATGCGGAGCAATTGCTTTACTTGCCCGGGGTTCGCCAGATTCGCTCGTTCATGGGGTTACGCCAGGTCTTGTCGACAACGCACATCCCACTTTGA	MPQPLDRTDRAILKALQRDASISNVTLAEKVKLSAPACLRRVERLKQAGLIKNIVALLDNEALDAGMVVLIGVVLDRSTPESFAAFEAAAQKVSGCMECHVVTGEFDYFMLLRTKDSNSFNRLHAEQLLYLPGVRQIRSFMGLRQVLSTTHIPL				NA	NA	NA	NA	NA
D1-35_02611	246	intA_2	COG0582	Prophage integrase IntA	ATGGCACTCTCAGAAATGACAGTTCGGCATGCCCGAATAACCGGTAATGACTACACCCTCGGCGACAGTGATGGTCTCACGCTCAATGTGACGGCCAGAGGCGGAAAAGTCTGGCTCTTCCGCTACTACTGGGTAGGCAAGCAGAAGCGCATGTCCTTGGGTTGTTACCCACAAATCTCGTTCAAAGAAGCCCGTACACGACGTGACGATGCGCGCGCCTGGTTGCCCAGGGCATTAACCCCATGA	MALSEMTVRHARITGNDYTLGDSDGLTLNVTARGGKVWLFRYYWVGKQKRMSLGCYPQISFKEARTRRDDARAWLPRALTP				NA	NA	NA	NA	NA
D1-35_02613	561	pgsA	COG0558	CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase	ATGAATATCCCAAACCTGATTACCGTTCTACGCGTCCTGCTCATCCCGATCTTCATATTGCTGTTCTATTTGCCGTACCACTGGAGCTACGTGGCTTCCGCCTCGGTCTTCGCCTTCGCCGCCGCAACAGACTGGCTCGACGGCTACCTGGCCCGCCGCCTGGAGCAGAGCACGCCGTTCGGCGCGTTCCTCGACCCGGTGGCCGACAAGCTGATGGTCGCGGTGGCGCTGGTGCTGCTGGTGCAGGAGCACGGCAACCTCTGGCTGACCTTGCCGGCAGCGGTGATCATCGGACGCGAAATAGTCGTATCGGCCCTCCGCGAATGGATGGCCGAACTGGGCGCCCGTGCCCAGGTCGCGGTATCGAACCTGGGCAAATGGAAAACCGCCGCCCAAATGCTTGCCTTGGTTATTCTGCTGGCGAACCCCTCGGACTTCAGCTTCTGGGTGCTGTTGGGTTACGCATTGCTGCTGGTGTCCGCAGGCCTGACATTGTGGTCGATGGTCCAATACCTGCGCGCCGCCTGGCCGCACCTGCGGACTGACGTTGATCCGAAATAA	MNIPNLITVLRVLLIPIFILLFYLPYHWSYVASASVFAFAAATDWLDGYLARRLEQSTPFGAFLDPVADKLMVAVALVLLVQEHGNLWLTLPAAVIIGREIVVSALREWMAELGARAQVAVSNLGKWKTAAQMLALVILLANPSDFSFWVLLGYALLLVSAGLTLWSMVQYLRAAWPHLRTDVDPK	PGPT0007705_3899	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLTRANSFERASE_ACTIVITY,PGPT0007705-pgsA|PGS1-K00995	NA	NA
D1-35_02614	1824	uvrC	COG0322	UvrABC system protein C	ATGACCGAACAGTTTGATCCCAGCGCTTTTCTGTCCACCTGCAGCGGTCGCCCTGGCGTGTACCGCATGTTCGACAGCGACGCGCGCCTGCTTTATGTCGGCAAGGCCAAGAATCTCAAGAAGCGCCTGGCCAGTTATTTCCGCAAGACCGGCCTCGCGCCGAAGACTGCGGCCCTGGTGGGGCGCATCGCGCAGATCGAAACGACCATCACGGCCAACGAAACGGAAGCACTGCTGCTTGAGCAGACGCTGATCAAGGAATGGCGCCCGCCCTATAACATCCTGCTGCGCGACGACAAGTCCTACCCGTACGTGTTCCTGTCGGACGGAGCGTTTCCGCGCCTGAGCATTCATCGCGGGGCCAAGAAGGCCAAGGGGCGGTATTTCGGTCCTTACCCCAGCGCTGGGGCCATTCGTGAAAGCCTGAGCCTGCTACAGAAAACCTTCTTCGTTCGCCAGTGCGAGGACAGCTACTACAAGAACCGCACCCGGCCGTGCCTGCAATACCAGATCAAGCGCTGCAAGGCCCCGTGCGTCGGGCTTGTCGAGCCCGAGATCTACGCTGAAGACGTACGTCACTCGGTGATGTTCCTGGAGGGGCGCAGCAATGCGCTGACCGACGAGTTGTCAGCAGCGATGGAAGAGGCATCGATCAACCTCGAATTCGAACGCGCCGCGGAGCTGCGCGACCAGATCGGGCTGCTGCGCCGGGTGCAGGACCAGCAGAGCATGGAAGGCGGCAGCGGCGATGTCGATGTCGTTGCGGCGTTCATCAACCCCGGCGGCGCCTGCGTCCACCTGATCAGCGTGCGCGGCGGTCGCGTTTTGGGCAGCAAGAATTTCTTCCCCCAGGTGGGTATCGAGGAAGACGTGGCCGAAGTCATGGCGGCTTTTCTCGGCCAGTACTACGTCAGCAGCCCGGAGCGCGATTTGCCCAGCGAGTTGATTGTCAACGTGGTGCATGAAGACTTCCCGACCCTGATCGAGGCCATCGAAAAGCTCCGCGGTCGCGAACTGACCATCAGTCACCGTGTGCGCGGCACTCGGGCGCGCTGGCAGCAACTGGCCGTGACCAACGCCGAACAGGCGCTAGGCGCGCGCTTGGCCAACCGCCAGCATGTGGCGGCGCGGTTCGAAGCCCTTTCCGATGTCCTCAACCTGGATGAACCACCGCAGCGACTGGAATGCTACGACATCAGTCACTCCAGCGGCGAGGCGACGGTAGCCTCTTGCGTGGTGTTCGGTCCGGAAGGGCCAATCAAGTCCGATTACCGACGCTATAACATCGAGGGCGTTACCCCGGGCGATGATTATGCGGCGATGCACCAGGCGCTGATGCGGCGCTTCGGCAAGCTGAAGGACGGCGAGGGCAAGTTGCCGGACATCCTGCTGGTGGACGGTGGCAAGGGCCAGTTGTCCATGGCCCGCGACGTGCTCAATGAATTGTCGGTCCCGGATCTGATTCTGCTGGGGGTTGCCAAGGGCGCCACGCGCAAGGCCGGTTTCGAGACCCTTTACCTGAACGACGCGGCCCACGAATTCACCCTGAAGGGAGACTCGCCGGCGCTGCATCTGATCCAGCAGATCCGCGACGAAGCCCACCGTTTCGCGATCACCGGCCACCGCGCCCGGCGAGGCAAGACCCGCCGTACGTCTACGCTGGAAGGCGTGGCAGGGGTTGGTCCGACGCGCCGGCGCGACCTGTTGAAACATTTTGGTGGCTTGCAGGAGCTGTCTCGTGCCAGCATCGAAGAGATAGCCAAAGCACCCGGTATCAGTAAAAAGCTCGCAGAGTCGATTTATGCGAACCTGCATAGCGAGTAG	MTEQFDPSAFLSTCSGRPGVYRMFDSDARLLYVGKAKNLKKRLASYFRKTGLAPKTAALVGRIAQIETTITANETEALLLEQTLIKEWRPPYNILLRDDKSYPYVFLSDGAFPRLSIHRGAKKAKGRYFGPYPSAGAIRESLSLLQKTFFVRQCEDSYYKNRTRPCLQYQIKRCKAPCVGLVEPEIYAEDVRHSVMFLEGRSNALTDELSAAMEEASINLEFERAAELRDQIGLLRRVQDQQSMEGGSGDVDVVAAFINPGGACVHLISVRGGRVLGSKNFFPQVGIEEDVAEVMAAFLGQYYVSSPERDLPSELIVNVVHEDFPTLIEAIEKLRGRELTISHRVRGTRARWQQLAVTNAEQALGARLANRQHVAARFEALSDVLNLDEPPQRLECYDISHSSGEATVASCVVFGPEGPIKSDYRRYNIEGVTPGDDYAAMHQALMRRFGKLKDGEGKLPDILLVDGGKGQLSMARDVLNELSVPDLILLGVAKGATRKAGFETLYLNDAAHEFTLKGDSPALHLIQQIRDEAHRFAITGHRARRGKTRRTSTLEGVAGVGPTRRRDLLKHFGGLQELSRASIEEIAKAPGISKKLAESIYANLHSE	PGPT0014925_3197	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014925-uvrC-K03703	NA	NA
D1-35_02615	642	gacA		Response regulator GacA	TTGATTAGGGTGTTAGTGGTCGACGACCATGATCTCGTCCGTACGGGCATTACACGGATGCTGGCTGACATCGATGGCCTGCAAGTGGTTGGCCAGGCCGAGTCCGGGGAAGAATCCCTGATCAAGGCGCGGGAGTTGAAACCCGATGTGGTGCTGATGGACGTCAAGATGCCGGGCATCGGCGGCCTCGAAGCCACGCGTAAACTGCTGCGCAGCCATCCGGACATCAAGGTTGTCGCGGTGACCGTCTGTGAAGAAGACCCGTTTCCGACGCGGCTGCTGCAAGCGGGCGCGGCGGGTTACCTGACCAAGGGCGCCGGCTTGAACGAGATGGTCCAGGCCATTCGCCTGGTGTTTGCCGGCCAGCGCTACATCAGCCCGCAGATCGCCCAGCAACTGGCGATCAAGTCTTTCCAGCCGACCAACGACTCGCCCTTCGATGCGTTGTCCGAGCGGGAAATCCAGATCGCGCTGATGATCGTCGGCTGCCAGAAGGTCCAGATCATCTCCGACAAGCTTTGCCTGTCACCCAAGACCGTCAATACCTACCGTTACCGTATCTTCGAAAAGCTTTCGATCAGCAGTGATGTCGAGTTGACGCTGCTGGCGGTGCGCCACGGCATGGTCGATGCCAGCGCCTGA	MIRVLVVDDHDLVRTGITRMLADIDGLQVVGQAESGEESLIKARELKPDVVLMDVKMPGIGGLEATRKLLRSHPDIKVVAVTVCEEDPFPTRLLQAGAAGYLTKGAGLNEMVQAIRLVFAGQRYISPQIAQQLAIKSFQPTNDSPFDALSEREIQIALMIVGCQKVQIISDKLCLSPKTVNTYRYRIFEKLSISSDVELTLLAVRHGMVDASA	PGPT0012935_980	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-VarA|VarS_SIGNALLING_SYSTEM,PGPT0012935-gacA|uvrY|varA-K07689	NA	NA
D1-35_02616	432			hypothetical protein	ATGTTCGAATGGCGCTCGGCTGAAGTCGATGATATCGAATTCGCCCGACAACTGACGTGCAGCAATATGCTTCCCTATTATCTGCGTCATGATTTGCTGTGGCAGGACGAAGCGTTTGACCTGGCCTGGGTGATTCGCCAGAACTGGATTATCCATCGAGGTGACCAGGCGCTGGGTTTCGTCAGCCTCAGCCGCGACGCCCGTGCGCTGTATATCCGGGAGTTGCAGATTGACAAGGCGTTTCATGGGCAGGGGGCCGGAACCTGGGCGATCGGACAGGTCTGGGGGATGGTGGCGGTGGAGCGTCGCCCCGCGTTGCGCCTGACCGTGTTCAAGGATAATCCGGCCAGGCAGCTCTACGAACGCATGGGGCTGCGGGTCGTCGGCGAGGATGAATGTTTCCTGAGAATGCAGCGGGACGTTGCCGCTTGA	MFEWRSAEVDDIEFARQLTCSNMLPYYLRHDLLWQDEAFDLAWVIRQNWIIHRGDQALGFVSLSRDARALYIRELQIDKAFHGQGAGTWAIGQVWGMVAVERRPALRLTVFKDNPARQLYERMGLRVVGEDECFLRMQRDVAA				NA	NA	NA	NA	NA
D1-35_02617	747	nadE_1		Glutamine-dependent NAD(+) synthetase	ATGAGCCGAGCCTTTGCTGCCGCCCAATCGATTTCCATTCCGGGGGACATTGCCGGCAACCTTATCCATCATCAGCGCTTCATGGAGTCCGCCGCCGATCGGAATGTGGGGTTGCTGGTGTTTCCAGAACTGTCGCTCACCGGGTACGAGCGAGGGCTGGCCGCAGAACTGGCTATCTTGCCGGAGGATTTTGTGTTGCAGCCGCTGCGCGACCTGGCGCGGGAGCTCGGCCTGACTGCGGTGGTCGGCATGCCGATTCGCCTCGCGACCGACGCCCCGGTGCTGATCGGCGCATTGGTGCTCGGTGCGGATGGCTCCCTTGGGGTCTACAGCAAACAGCATCTGCACGCGGGAGAAGAAATCGCTTTCGCGCCCGGTCACGGCGGTTCGATCCTGGCGATGGGCGCGGATCGCGTGGCGTTGGCGGTGTGCGCCGATTTTTCCCAGGCCAGCCATGCGGCGGCAGCTGCGGAGCAGGGCGCGACGCTATATGCAGCCGGCGTGTTGATAACCGAGGGAGGCTATGTAGCGGACACGACGTTGCTGCAAGGTTACGCCCGACAGCACGCCATGACGGTCCTGATGGCCAATCACGGTGGCGCTACCGGAGGGTGGGAGTCGGCCGGTCGCAGCGCGATCTGGGCGGCCGATGGTTCGCTGATTGCCGCTGCGCCAGGCGTCGGCGAGCTTCTGGTCATGGCTCGTCCCCGGGGCAGCGGCTGGGTAGGGCAGGTGGTGCCGCTTTGA	MSRAFAAAQSISIPGDIAGNLIHHQRFMESAADRNVGLLVFPELSLTGYERGLAAELAILPEDFVLQPLRDLARELGLTAVVGMPIRLATDAPVLIGALVLGADGSLGVYSKQHLHAGEEIAFAPGHGGSILAMGADRVALAVCADFSQASHAAAAAEQGATLYAAGVLITEGGYVADTTLLQGYARQHAMTVLMANHGGATGGWESAGRSAIWAADGSLIAAAPGVGELLVMARPRGSGWVGQVVPL				NA	NA	NA	NA	NA
D1-35_02618	129			hypothetical protein	ATGTTCAACGCCCTTGCACAGCTTCACACCGCCAGCGCCCTGCGCTCGGTTGCGGCTGCCCGGGTGAACAGCGTCCAGACTCCGGTCAGCTTTTATTTTGGGTATTGGTTTAGCCACTGGCGCGCCTGA	MFNALAQLHTASALRSVAAARVNSVQTPVSFYFGYWFSHWRA				NA	NA	NA	NA	NA
D1-35_02620	153			hypothetical protein	ATGAACTACGCCACTTATTACCGTTACGACAGTTTTGCCGCCTGGCGATTTACCAGCCACCGCTCGGGACAGCCTGCCGCCTCCGATCGGTCACCTACCGGTGGCATGCCTTCATTGCCGGCCATCACGGCCAATTGTCGAACACCCCAATAG	MNYATYYRYDSFAAWRFTSHRSGQPAASDRSPTGGMPSLPAITANCRTPQ				NA	NA	NA	NA	NA
D1-35_02621	1071	aroF_2	COG0722	Phospho-2-dehydro-3-deoxyheptonate aldolase, Tyr-sensitive	ATGAATTCGTCCGTTTCTGCTTTGCCACTGTCCACCCTCACGCCTGCCAATGAAGCGCTGACCCTGCGTCTGCCAAGCGCTCTGCAGCTCAAACAGCAATTGCCGCTCGCCACTGCGCTGAGCCAACAGGTCGACACCCATCGCCAAGCGGTGCGTGCGATCCTCGACGGCGAGGACTCGCGCCTGCTGGTCATCGTTGGCCCCTGCTCGATCCACGATCCTGAGTCTGCGCTTGAATACGCCGCCAACCTGGCGCGCCTCGCCCGCGAAGTGAGCGACAGCATGCTGCTGGTCATGCGCGCCTATGTCGAAAAGCCGCGCACCACCGTCGGCTGGAAAGGCCTGGCCTACGACCCCGATCTGGACGGCAGTGACGACATGGCTGCCGGCTTGAACCTGTCCCGGGAACTGATGCGTGAGATGCTGCGACTCGGCCTGCCGATCGCCACTGAATTGCTGCAGCCCATGGCCGCTGGCTACTTCGACGACCTGCTCAGCTGGGTCGCCATCGGTGCCCGGACCACGGAATCGCAGATCCACCGGGAAATGGCCAGCGGCCTCGGCATGCCGGTCGGTTTCAAGAATGGCACGGACGGCGGGGTCGGCATCGCCTGCGACGCCATGCGCTCCGCCGCCCACCCTCACCGGCATTTCGGCGTCGACAGCCAGGGACACCCGGCGATCATCCAGACCCAGGGCAACCCCGACACTCACCTGGTGCTGCGCGGCGGCCATCGCGGGCCGAATTATGATCGCCAGAGCGTGGCGCAGATACACGACGACCTCACCCGCCTCAAAATCCCGGCCCGGATCATGGTCGATTGCAGCCATGCCAACAGCGGCAAGGACCCGTTGCGCCAGCCGCAGGTGTTCAATGACGTATTGGAACAGCGTCTGCTAGGAAACCGCGCCCTCATTGGCATGATGCTGGAAAGCCATCTGTTTGAGGGTTGCCAACCATTGGGGCCGACGATGCGCTACGGCGTGTCGGTGACCGATGGATGCCTTGGCTGGGAGGCCACCGAGCAACTGCTGCGCCAGGCCGATCTCTCGTTGCGATTGCAGGCCTGA	MNSSVSALPLSTLTPANEALTLRLPSALQLKQQLPLATALSQQVDTHRQAVRAILDGEDSRLLVIVGPCSIHDPESALEYAANLARLAREVSDSMLLVMRAYVEKPRTTVGWKGLAYDPDLDGSDDMAAGLNLSRELMREMLRLGLPIATELLQPMAAGYFDDLLSWVAIGARTTESQIHREMASGLGMPVGFKNGTDGGVGIACDAMRSAAHPHRHFGVDSQGHPAIIQTQGNPDTHLVLRGGHRGPNYDRQSVAQIHDDLTRLKIPARIMVDCSHANSGKDPLRQPQVFNDVLEQRLLGNRALIGMMLESHLFEGCQPLGPTMRYGVSVTDGCLGWEATEQLLRQADLSLRLQA	PGPT0012920_4617	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012920-3_deoxy_7_phosphoheptulonate_synthase|aroF|aroG|aroH-K01626	NA	NA
D1-35_02622	1062			hypothetical protein	ATGAAGACTTACCCATCGCCGCAGGACAGTAGCGACCCATGCCGCGCAAGACTGCCAGCGCCTTCCCTGGCGAAGGCCAAGGGAGGCGTGGTGGATCCGGCCTGGAACAAGGCCGTGATCACGATCAAGCCGTATCCGACGATGACGAGTGGTGATGAAGTGCGGCTGCGTTGGCATGGGCTCAATAACGAAGGCGACCCCTACCGGCATGAAACCAGCAGGTTTATCACCGAGCGGCAGGTCGGACGGGACGTGGTTTTTGTTGTTCGTGAACCGCATATCGCCGAGCTCGACGGTGGATCGCTGGAGATCTCCTACCAGGTAGCCGGAAAATGGATCCCCGGCGTGCTGGGGTCGCAAGCCCTGCAGCTTGAAGTCGGCGACAGGCCCGAGCTGCTGTTGCCGCCGATTGCCAATGATGCGGTGGGTGGCAGCCTCGATCCCGCCCGGGTGCCGGAAGGAACGCGGGTGACCATTCGGCCTTATTCGAGGATGGCGGTCGGTGATCGGCTGGCCTTGAGTGTCAGCCAGGATTCCAAGGCGCTTTGGCATGACGTGCTGCACATCGAGGAACATGTATTGGGGCGTGAAGTGTCATTCTGGGTCGATTATTCGCACATTGCCCCGTATATCGGCCACAGGTTGAACCTGGGCTATGTTGTCAGGCACGGCCGCTCGGCACGCCAGGCCGAGTCTTTGTCGGTGCATATCGGCCCCTTGGTGCGCCCTGCGCTGAAGGCGCCCCAGGTCGCGGCGCTGAACGAAGGAGGGCTCGATATCGAAACGCTGCAAGGCCCGGTGACGGTGGTCATCGATGGCACCGGACTGGCGGCGGGCGAATGGGTCGGCCTGCAATGCAACGGGACCTATACCCATGTGCAGGAGCGGGAAATCACCGAGGCGATGGTCGGCCAACCGCTGGTCTTCGAGGTGCCGGCCGCCTATTGGCAGGAGCAGCGAAACAGGTCGGTGCAACTGTTTTATCAGGTGGAACGACTGGACGATGTCAGCCAGCGGTCTGCGGAGATCACTATCGAGGTGCGTACCCGGGCGCCTGGTTGA	MKTYPSPQDSSDPCRARLPAPSLAKAKGGVVDPAWNKAVITIKPYPTMTSGDEVRLRWHGLNNEGDPYRHETSRFITERQVGRDVVFVVREPHIAELDGGSLEISYQVAGKWIPGVLGSQALQLEVGDRPELLLPPIANDAVGGSLDPARVPEGTRVTIRPYSRMAVGDRLALSVSQDSKALWHDVLHIEEHVLGREVSFWVDYSHIAPYIGHRLNLGYVVRHGRSARQAESLSVHIGPLVRPALKAPQVAALNEGGLDIETLQGPVTVVIDGTGLAAGEWVGLQCNGTYTHVQEREITEAMVGQPLVFEVPAAYWQEQRNRSVQLFYQVERLDDVSQRSAEITIEVRTRAPG				NA	NA	NA	NA	NA
D1-35_02623	882	lips_1		Triacylglycerol lipase	ATGCAACGGAATGCAAACACTCACTTTCCTATCCTGCTGGTCCATGGGTTGTTCGGGTTCGACAAGATCGGCGCCTTCGGGCTCTTTGAGAACGTCAAACAGGCTTTGCGCACCGCCGGCGCGCGGGTCTTCATCCCGTATCTGTCGGCTACCCATTGCAATGAAGCCCGTGGTGAACAACTGCTGACGCAGATCGACCGGGTCCTGGAAGGAACCGGCTCCACCCGGGTCAACCTGATCGGGCATGGCCAAGGTGCGCTGGCGGCACGTTATGCCGGGGCAACCGCCCCCGAACGAGTCGCCTCGGTCACCTCGGTCAGCGGCCCCAACCAGGGCTCGGAACTGGCCGACTTCCTGCGCAAGGCCCTGACCCCCGGGCGATTGCCGGAGCATGTGGCGAACCGGGTCGCAACACTCTTCGCCGACTTCATCTCGGCACTCAGCGGCCAGGCTCGGCTTCCACAGAACGCCATCGCGGCGCTGGCGGCACTGACGACTGAAGGCGTGGGCGCGTTCAACGACCGATACCCCCAGGGCCTGCCCCGAAACTGGGGCGGCAACGGGCCGCAGCTGGTCAACGGCGTTCGCTACTACTCCTGGAGCGGCACGCTGCAAGACGCCCCTGGCGAAGCCTGCGGTGCAGCAGGTCCGCTGCATGATTTCTGCCGGGCCTTTTCCGAATACTTCATTACCGAAGCCGGACAGAACGATGGCATCGTCGGGCGCTTCAGTTCCCACCTGGGCAAGGTCATTCGCTCCGATTACCCACTGGACCACTTGCACGCCATCAATCACGCGAACGCCGGCGGGCACCGCAAGGGAACCGACCCGCTAGCGCTCTATATAAGGCACGCCGAGCGTTTGCGAATCGTCGGACTCTGA	MQRNANTHFPILLVHGLFGFDKIGAFGLFENVKQALRTAGARVFIPYLSATHCNEARGEQLLTQIDRVLEGTGSTRVNLIGHGQGALAARYAGATAPERVASVTSVSGPNQGSELADFLRKALTPGRLPEHVANRVATLFADFISALSGQARLPQNAIAALAALTTEGVGAFNDRYPQGLPRNWGGNGPQLVNGVRYYSWSGTLQDAPGEACGAAGPLHDFCRAFSEYFITEAGQNDGIVGRFSSHLGKVIRSDYPLDHLHAINHANAGGHRKGTDPLALYIRHAERLRIVGL	PGPT0024445_1591	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_LIPASE_ACTIVITY,PGPT0024445-lip|lipC-K01046	NA	NA
D1-35_02624	282	ppiC_1	COG0760	Peptidyl-prolyl cis-trans isomerase C	ATGGCCAAAGCCACTGCCCGCCACATCCTGGTATCCAGCGAAGACAAGTGCAACGAACTCAAGGCCCAGATCGAAGGCGGCGCTGATTTTGCCGAAGTCGCCAAGGCAAACTCCACTTGCCCGTCCAGCCGTCAGGGCGGTGACCTGGGCTCGTTCGGTCCAGGCCAGATGGTCAAGGAGTTCGACACCGTGGTGTTCAGCGCCCCGATCAATGTGGTCCAGGGCCCGGTCAAGACCCAGTTTGGCTATCACCTGCTGGAAGTCACCAGCCGCCAGGACTGA	MAKATARHILVSSEDKCNELKAQIEGGADFAEVAKANSTCPSSRQGGDLGSFGPGQMVKEFDTVVFSAPINVVQGPVKTQFGYHLLEVTSRQD	PGPT0000050_2494	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000050-nifM-K03769	NA	NA
D1-35_02625	1869	appA_1		Oligopeptide-binding protein AppA	ATGCGACTGGCGTTTCCCTCCTGGCTACTCACTGCCGTGGTCCTGCTGACAGGCGCCGCAGGTGTGAGCGCCGCCCCCCAACATGCCCTGACTGTTTATGGCGAGCCGGCCAAATACGCCGAAGGCTTCGGCCACTTTGCCTATGCCAATCCCCAGGCCCCCAAGGGCGGCACGATGCGCCGCTCGGCCATCGAGATCGGTCATTTCGACCATATCCTGCCCTATATCGACAAAGGCATCGGTGTCAGCCAGGTCGACGGCATGCTCTATTCGCCGCTGGCCCAGCGTTCGCTGGACGAGCCCTACACCGTCTACGGCCTGGTGGCCGAGAAAATGGAGCGTGCCGAGGATGGTCTGTCGCTGCGCTTCTACCTGAACGCCAAAGCCCGCTTCGCCGACGGCAAGCCCATTACCGCCGAGGACGTGCGCTACAGCTTCGAGCTGCTGATGACCCAGGGCAGCCTGCGCTACCGCACACAGTTCGCCGCAGTCAAAGGCGTCGTGGTGGAATCGCCTCGCAGCGTTCGTTTTGATTTCAAGAACAACGAAAACCGCACGCTACCATTGGATATTGCCACCCTGCCGGTGTTTCCCGAGCATTGGTGGAAAACCCGCGACTTCGCCAATGGCGGCGGCTACGAAGCCCCGCTGGGCAGTGGTCCGTACCGGGTGAGCAAAGTCGACTCGGGTCGCAGCATCACTTTCGAACGCAATGCAGACTGGTGGGGCAAGGATCTGCCGGTCAGTCGCGGCTTGTATAATTTCGACCATTTCAGCATTGAATATTTCGGCGATACCGATGTGGCCCGACAGGTCCTGCGTGGCGGCGCCTACGACTACAACCGCGAGTTTTCCGCGACCGGTTTTGCCATCGGCTACGACAGCCCGGCCCTGCGCGACGGTCGCCTGCAAAAGGCCCACCTCGCCACCGAAGCGCCGCAGCCGGCACAGGGCTTCGTGTTCAACCTGCAACGCCCGCAGTTCCAGGACCGCCGCGTACGCCAGGCGCTGGCCATGCTCTGGGATTTCGAATGGAGCAATCGCCAGATGATGCGCAATGCCTATGTGCGTCAGCAGAGTTTCTTTTCCAACACCGACCTCGCCGCCCGGCAACTCCCCGATGCGGCGGAACTGGCGATCCTCGAACCGTTGCGCGGCAAAGTCCCGGATGAGGTGTTCACGCAGGTATTCGAGGCGCCGAAAACCGACGGCAGCGGCGTGATCCGTGACAAACAGCTGCAAGCCCTGGCGCTGCTCGAACAGGCCGGCTGGAAGCCTCACGGCGACCGGCTGGTGAATGCCGAAGGCGAGCCCCTGAGCTTCACGTTCTTGAATACCCAGAACGGTATCGACCGTCTGTTGCTGCCCTACAAGCGGACCCTGGCGCAGATCGGTATCGACATGAGCATCCGGCGCATCGACTCATCCCAGTACGTCAATCGGCTGATGAGTCGCGACTACGACATGATCATCACCGGTTACCCCGTGAGCACCTCGCCCGGCATGGAACTCTACAATTATTTCGGCTCGGCGGCCGCCAATGATCCGGGCGCAAACAACTACATGGCCCTGCAGAACCCAGCCGTGGATGCCCTCATCGACGGCCTGGTCAAGGCCACCACCCAAAGCGACATGCTCCGCCATGCCCACGCCCTGGACCGGGTACTGCAATGGAATTACTACTGGATCCCCAACTATTACCCACCCGGCAGCTCGACCGTGTGGTGGAATCGCTTCGGCATGCCGAAGGTCCAGGCCAGCAATGACGAAGCCATCGAAAGCTGGTGGGAAGTCAGCACCACGCCGTTGACCAACGAACAGATGACCGCCGAACGCATCAAGCGCAGCGCACCCGGAGGACATCACTGA	MRLAFPSWLLTAVVLLTGAAGVSAAPQHALTVYGEPAKYAEGFGHFAYANPQAPKGGTMRRSAIEIGHFDHILPYIDKGIGVSQVDGMLYSPLAQRSLDEPYTVYGLVAEKMERAEDGLSLRFYLNAKARFADGKPITAEDVRYSFELLMTQGSLRYRTQFAAVKGVVVESPRSVRFDFKNNENRTLPLDIATLPVFPEHWWKTRDFANGGGYEAPLGSGPYRVSKVDSGRSITFERNADWWGKDLPVSRGLYNFDHFSIEYFGDTDVARQVLRGGAYDYNREFSATGFAIGYDSPALRDGRLQKAHLATEAPQPAQGFVFNLQRPQFQDRRVRQALAMLWDFEWSNRQMMRNAYVRQQSFFSNTDLAARQLPDAAELAILEPLRGKVPDEVFTQVFEAPKTDGSGVIRDKQLQALALLEQAGWKPHGDRLVNAEGEPLSFTFLNTQNGIDRLLLPYKRTLAQIGIDMSIRRIDSSQYVNRLMSRDYDMIITGYPVSTSPGMELYNYFGSAAANDPGANNYMALQNPAVDALIDGLVKATTQSDMLRHAHALDRVLQWNYYWIPNYYPPGSSTVWWNRFGMPKVQASNDEAIESWWEVSTTPLTNEQMTAERIKRSAPGGHH	PGPT0011625_527	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011625-yejA-K13893	NA	NA
D1-35_02626	1059	yejB_1	COG4174	Inner membrane ABC transporter permease protein YejB	ATGTGGGCTTATATTGCACGGCGCCTGCTGCTGATCATCCCGACGCTGGTGATCATTCTGCTGGTGAACTTCGTGATCGTGCAGGCGGCACCGGGCGGGCCGGTCGAACAGGCCATCGCCCACCTGCAGGGTATCGGCGGCGCCAGCGTCGGCAGTTCGGGCAATGCCATGGCCGGCAGCTCGCGCGCCAGCCGTGGCCTGGACCCGCAACTGATCAAGGACATCGAGAAACAGTACGGTTTCGACAAGCCCGCCCACGAACGCCTGTGGCTGATGCTCACCAGCTATGCCCGCCTGGATTTCGGCAAGAGCTTTTTCCGCGGCGCCACGGTCACCGACCTGATCCTGGAAAAGATGCCGGTGACCATTTCCCTCGGGCTCTGGGCGACGCTGATCACTTACCTGGTGTCGATTCCGCTGGGCATTCGCAAGGCCGTGCACCACGGTTCGGCATTCGACGTGTGGAGCAGCACCGCGATCATCATCGGCTATGCGATGCCGGCGTTCCTGTTCGCCATGTTCCTGATCGTCATGTTCGCCGGCGGCACCTCGCTCAACTGGTTCCCCGTGCGCGGACTGGTGTCGGACAACTTCGAATCACTATCGACGCTGGGCAAGATCGCCGATTACTTCTGGCATTTGGTGCTGCCCGTCACGTCGCTGGTCATCGGCGGCTTTGCCACCCTGACGATCCTGACCAAAAATTCGTTTCTCAACGAAATCACCCGTCAATACGTGGTGACGGCCCGGGCCAAAGGCATGAGCGAACGGCGCGTGTTGTACGGCCACGTGTTTCGCAACGCGATGCTGCTGGTGGTCTCGGGCATTCCCCAGGCATTCATCGGCGTGTTCTTCGCCGGCTCGTTGCTGATCGAGGTCATTTTCTCCCTCGATGGCCTGGGGCGCATGAGTTATGAAGCCGCCGTGTCCCGAGACTATCCGGTGGTGTTCGGCTCGCTGTTCATCTTCACCCTGTTCGGCCTGCTGATAAAGCTCATCGGTGACCTCTGCTACACCCTGGTGGACCCGCGTATCGACTTCGCCGCGAGGAACGCCTGA	MWAYIARRLLLIIPTLVIILLVNFVIVQAAPGGPVEQAIAHLQGIGGASVGSSGNAMAGSSRASRGLDPQLIKDIEKQYGFDKPAHERLWLMLTSYARLDFGKSFFRGATVTDLILEKMPVTISLGLWATLITYLVSIPLGIRKAVHHGSAFDVWSSTAIIIGYAMPAFLFAMFLIVMFAGGTSLNWFPVRGLVSDNFESLSTLGKIADYFWHLVLPVTSLVIGGFATLTILTKNSFLNEITRQYVVTARAKGMSERRVLYGHVFRNAMLLVVSGIPQAFIGVFFAGSLLIEVIFSLDGLGRMSYEAAVSRDYPVVFGSLFIFTLFGLLIKLIGDLCYTLVDPRIDFAARNA	PGPT0011630_938	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011630-yejB-K13894	NA	NA
D1-35_02627	1023	yejE_1	COG4239	Inner membrane ABC transporter permease protein YejE	ATGTTCAAGTTCTCGCCCTTGGGCCAGCGGCGTTTCGAGCGTTTCAAGAAAAACCGTCGTGGCTGGTGGTCGCTGTGGCTGTTCATCGGCCTGTTCGCCCTGACCCTGGGCGGTGAACTGATCGCCAACGACAAGCCATGGGTGGTGAGCTATCAGGGCTCGCTGTACTTCCCGGTTTTCAAGCGCTACACCGAGCAGGAATTTGGCGGTCAGTTGCCGTTCCAGGCCGACTATCGCAGCAACTATGTACAGAACCTGATTCACCAGGATGGCGGCTGGCTGCTCTTCCCGCCCATTCCTTTCAGCGACGACACGCCCAACTACGACCTCAACCAGCCGGCGCCAAGCCCGCCGTCGACGGTCAACTGGCTGGGCACCGATGATCAGGCCCGTGATGTGCTCGCGCGGGTGATCTTCGGCGCGCGGGTGTCGATCCTGTTCGCCCTGGCCTTGACCGCCATCAGTGCGCTGATCGGAATTACCGCCGGCGCCTTGCAGGGCTATTACGGCGGCTGGGTGGATCTGCTCGGGCAACGGTTGCTGGAAGTCTGGTCCGGGTTGCCGGTGCTCTATCTGCTGATCATCCTGTCCGGTTTCGTGGAACCGAATTTCTGGTGGCTGCTGGGGATCATGGCGCTGTTCTCCTGGCTGGCGCTGGTGGACGTGGTGCGCGCCGAGTTCTTGCGCGGGCGCAACCTGGAGTACGTGAAAGCGGCACGGGCCTTGGGCCTGACCGACCGCAAGGTGATCGTGCGACACATCCTGCCCAACGCCATGAACGCGACCTTGAGTTACCTGCCGTTCATCCTCACCGGCGCGATATCCACGCTGACGGCCCTGGACTTTCTCGGCTTCGGCATGCCGGCCGGCAGCGCGTCCCTGGGTGAGTTGATCGCCCAGGGCAAACAGAACCTGCAAGCGCCGTGGCTGGGATTGACGGCGTTCTTCACCCTGGCACTGATTCTGTCGCTGCTGGTGTTCATTGGCGAGGCGTTGCGCGACGCCTTTGATCCCCGGTCTTGA	MFKFSPLGQRRFERFKKNRRGWWSLWLFIGLFALTLGGELIANDKPWVVSYQGSLYFPVFKRYTEQEFGGQLPFQADYRSNYVQNLIHQDGGWLLFPPIPFSDDTPNYDLNQPAPSPPSTVNWLGTDDQARDVLARVIFGARVSILFALALTAISALIGITAGALQGYYGGWVDLLGQRLLEVWSGLPVLYLLIILSGFVEPNFWWLLGIMALFSWLALVDVVRAEFLRGRNLEYVKAARALGLTDRKVIVRHILPNAMNATLSYLPFILTGAISTLTALDFLGFGMPAGSASLGELIAQGKQNLQAPWLGLTAFFTLALILSLLVFIGEALRDAFDPRS	PGPT0011635_1061	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011635-yejE-K13895	NA	NA
D1-35_02628	1575	yejF_1	COG4172	putative ABC transporter ATP-binding protein YejF	ATGAGCGACAACCTGATCGAAATCCGCAACCTGAACGTCGCCTTCAACGACCAGCCGGTAGTGCGCGACCTGTGCCTGGATATCCGCCCTGGCGAATGCCTGGCCCTGGTGGGCGAATCCGGCTCAGGCAAGTCGGTGACGGCTCACTCGATTCTGCAATTGCTGACCGACAGCGGCGCACGCACCACCGGCAGCATTCGCTATCGAGACCAGGAACTGGTGGGCGCCGAGGCCAAGACCTTGCGTGAGTTGCGCGGCAATCGGATCGCAATGATTTTCCAGGAGCCGATGACGTCGCTGAATCCATTGCACAGCGTCGAAAAACAGATTGGCGAGACATTGATGCTGCACAGGGGACTGGGCGGCAAAGCGGCGCGCCAGCGGATCCTGGAACTGCTCGACCTGGTGGGTATCCAGAACCCGGCCGAACGGCTCAAGGCCTATCCCCACCAACTATCGGGCGGTCAGCGCCAGCGGGTCATGATCGCCATGGCCCTGGCCTGCGAACCGGAGTTGCTGATTGCCGACGAGCCAACCACCGCCCTGGACGTGACGGTGCAACGCAAGATCCTCCTGCTGCTCAAGTCATTGCAGCAGCGGCTCGGCATGTCCCTGCTGCTGATCAGCCATGACCTCAACCTGGTGCGCAGCATCGCCCAGCGGGTGTGCGTGATGAAGGCGGGAGAAATCGTCGAGCAGGCGCCTTGCGAAACGTTGTTCAGCGCACCGCAACACCCCTACAGCTGCGAACTGCTGCACGCCGAGCCGGAAGGCGAAGCCCTGCCCCGGGACGAGCGCGAAGACGTGTTGCAGGTTGAGGATTTGCGGGTCAGCTTCCCCAACGGTGGCGGGCTGTTGCGGCGCAAGCAATACCTGCGCGCCGTGGATGGCATCAGCCTGAGCATCCAGCGCGGCAAGACCCTGGGCATTGTTGGCGAATCCGGTTCCGGCAAGTCCACGCTCGGCCAGGCGATCCTGCGGTTGATCGAATCCGAAGGCAGCATCCGTTTTAGCGGCGCAGCCCTTGATCAGCTGTCGCAGAAAGAACTGCGGCCCTGGCGCAAGCAGATGCAGATCGTCTTCCAGGACCCGTTTGGCAGCCTCAGCCCGCGAATGTCGGTGCAGCAGATCATCAGCGAAGGCCTGGAGGTCCACAGCAGGTCCAGCGCCGAGCAATGCGAAGCCCAGGTGATCCAGGCGCTCAAGGAAGTCGGCCTCGACCCGCAGAGCCGGCATCGTTACCCGCACGAGTTTTCCGGCGGCCAGCGCCAGCGCATCGCCATCGCCCGGGCGCTGGTGCTCAAGCCCGCGCTGATCCTGCTGGACGAACCAACTTCGGCGCTGGATCGCACGGTGCAGAAACAAGTGGTCGCCCTGCTCCGCCAGCTCCAGGAAAAACACGGCCTGACCTACCTGTTCATCAGCCACGACCTGGCGGTCGTGCGAGCCCTGGCCCATGACATGATCGTGATCAAGGACGGCAAGGTCGTCGAGCAAGGCGCCAGCCACGACGTATTCGACTCGCCCCGACACCCTTATACCCGGGAGCTGCTGGCGGCGGCCCATCCGGGATAA	MSDNLIEIRNLNVAFNDQPVVRDLCLDIRPGECLALVGESGSGKSVTAHSILQLLTDSGARTTGSIRYRDQELVGAEAKTLRELRGNRIAMIFQEPMTSLNPLHSVEKQIGETLMLHRGLGGKAARQRILELLDLVGIQNPAERLKAYPHQLSGGQRQRVMIAMALACEPELLIADEPTTALDVTVQRKILLLLKSLQQRLGMSLLLISHDLNLVRSIAQRVCVMKAGEIVEQAPCETLFSAPQHPYSCELLHAEPEGEALPRDEREDVLQVEDLRVSFPNGGGLLRRKQYLRAVDGISLSIQRGKTLGIVGESGSGKSTLGQAILRLIESEGSIRFSGAALDQLSQKELRPWRKQMQIVFQDPFGSLSPRMSVQQIISEGLEVHSRSSAEQCEAQVIQALKEVGLDPQSRHRYPHEFSGGQRQRIAIARALVLKPALILLDEPTSALDRTVQKQVVALLRQLQEKHGLTYLFISHDLAVVRALAHDMIVIKDGKVVEQGASHDVFDSPRHPYTRELLAAAHPG	PGPT0011640_799	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011640-yejF-K13896	NA	NA
D1-35_02629	1335	bdlA_1	COG0840	Biofilm dispersion protein BdlA	ATGTTCATTCGCACTCGCAAACATCAGGACGTCTTGCACGAGACCCAGGGCGCACTGGCCTCTCTCGAAGCCGAGCGGGCGGCTTTTCACCAATCGATGGCGATCGTCGAGTTCGCGCCTTCAGGCGAAATACTTGGCGCCAACGCGCTGTTTCTGAACATGACCGGATACGTGCTGGATGACATCCTCGGCAAGCATCACCGGATGTTCTGCGCGCCTGAGTACGCCGGCAGCCGCGAATATGCGGTGTTATGGCAGCAACTGGCCCAGGGTGAGGGTAGCGAACAGCAGTACCTTCATCTGGCACGCGATGGCCTTGGGTCGTGGGTGCAGGCCAGCTACATTCCTGTGCGTGATCAGCGCGCCAGGGTCGAACGCATCATCCAGGTCAGCCGCGACATCAACGACCGCGTGCTACGGGCTCAGGCCGAGTCGAGTTTCATGCAGGCGATCGATCGCTCCATGGCGGTGATCGAGTTCGATCTGGGCGGTCATGTCATCAATGCCAACGTCAACTTCCAGAAGGTCATGGGTTATGGCCTGGAGGAGGTTCGCGGCCAGCACCATCGGATTTTCTGCGAGCCTGGCGAAGTTCAAGGCGAAGCCTATCGCGATTTCTGGGCTGGACTGAACCGTGGCGAATACAAGAGCGGGCTTTTCCAGCGCGTCGACAGGCACGGCAACACAGTCTGGCTGCAGGCCACCTATAACCCGCTCTACGATGCCCAGGGCCATTTGTACGGGGTGGTCAAGTTTGCCACCGACAGCACGCGTGAAGTCGAGCAACGCCAGACCGAATCAAAGGCGGCGCAGTTGGCCTTCGAGACGTCCCGGCAGACGGATGAGCACACCCAGTTGGGCACCGCCGTCGTGCAGCAGACCGTGACCGTAGTGCAAAGCATCGCCGATGAACTGCAACAGGTCGCTACCGGGATCAGCGCCCTCAGCGCGCAGTCCGAAGAGATCGGCAACATTGTCGATGCCATCCGGGGAATCGCCGAACAGACCAACCTGCTTGCGCTCAATGCGGCCATCGAGGCCGCTCGTGCCGGTGAGCAGGGTCGCGGCTTCGCGGTGGTTGCCGATGAAGTGCGCAATCTGGCCCGGCGTACCAGCCAGGCGACCGTTGCCATTACCGAAGTGGTCGGCAAGAACCGCGACCTGGCCAGGCAGGCGGTGGGCAGCATGCAATCGAGTACCGCCAAGGCCGAGCAAGGCGTGAAGCTGGCGAACCAGGCCGGCACCGTCATCCTCGACATCCACCGGGGCGCGAAGCAGGTTGTGGAAGTCATGGGCGAATTCGCCCAGACCCTGGACCAGCGCCGCGAAGCCTGA	MFIRTRKHQDVLHETQGALASLEAERAAFHQSMAIVEFAPSGEILGANALFLNMTGYVLDDILGKHHRMFCAPEYAGSREYAVLWQQLAQGEGSEQQYLHLARDGLGSWVQASYIPVRDQRARVERIIQVSRDINDRVLRAQAESSFMQAIDRSMAVIEFDLGGHVINANVNFQKVMGYGLEEVRGQHHRIFCEPGEVQGEAYRDFWAGLNRGEYKSGLFQRVDRHGNTVWLQATYNPLYDAQGHLYGVVKFATDSTREVEQRQTESKAAQLAFETSRQTDEHTQLGTAVVQQTVTVVQSIADELQQVATGISALSAQSEEIGNIVDAIRGIAEQTNLLALNAAIEAARAGEQGRGFAVVADEVRNLARRTSQATVAITEVVGKNRDLARQAVGSMQSSTAKAEQGVKLANQAGTVILDIHRGAKQVVEVMGEFAQTLDQRREA	PGPT0015710_26350	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
D1-35_02630	216			hypothetical protein	ATGAATAAATTCAACCCTCGCAAACTCAAGCTTTCCAAGTGGACCGCCTGCCAGCCCGTCAACCGGGAAAAGCATTTTCTCGTCACCCAATTGCTCTGCGACGAACAGGATTGCCCCGTTCAGGTCGAGTTGCAGGCGGTGTATAGCGGACGGGTGGCCGTGCTGGACTGGGGTGATCTGACCGACAGCGAACGGTGGAAAATCGGTTGGCATTGA	MNKFNPRKLKLSKWTACQPVNREKHFLVTQLLCDEQDCPVQVELQAVYSGRVAVLDWGDLTDSERWKIGWH				NA	NA	NA	NA	NA
D1-35_02631	1419	norR_2		Anaerobic nitric oxide reductase transcription regulator NorR	ATGAATCCCACCGAAAGTCTCAAGGACTACAAGCGCGTACGCACGCTGGCGATCCGCTCGCTGTTCGAGATCATCGAGCAGTCCAGCGAAGGCACGGTCATTGTCGATCGCGATGCGAATATCGTCTGGATGAACGAGCGCTACGCCCGTCGTTTCGGCCTCAATTCGGCGCAGGAAGCCATCGGCCGCGCCTGCGAAAGCGTCATCCCCGGCAGCTTGCTGCGTGAGGTGGTGCGCACCGGACGGCCGATCCTGCTGGACATGCAGGACACGCCCAAGGAACCGCTGGTGGTGATGCGCCTGCCGATCCACGACAACGCCGGCGCGGTGATCGGCGCCATCGGTTTTGCCCTGTTCGATGAGTTGCGCAGCCTGTCGCCGATGCTCAAGCGCTATCTGAGCATGCAGGAAGAACTGGCCTCCACCCGCTCGTTGCTGCGGGCGCGGCAGACCAAGTACAACTTTGCCCACTTCATCGGCACCAGCAGCGCCGGCCTGGAGGTCAAGCGCCGCGCCCGACGCAGCGCCAGCACCGATTCACCGGTGCTGCTGCTCGGCGAAACCGGTACCGGCAAGGAGTTGCTGGCCCAAGCGATCCATAGTGCTTCACCGCGGGCACACAAGGCCTTTGTCAGCATCAACAGCGCTGCCATCCCCGAATCGCTGCTCGAAGCCGAGTTCTTCGGCACCGCGCCAGGCGCTTTCACCGGCGCCGACCGCAAGGGCCGCGCCGGCAAACTGCAGATCGCCCAAGGCGGCACGCTGTTCCTCGACGAGATCGGCGACATGCCGCTACCGCTGCAAAGCAAACTGCTGCGGGTGCTTCAGGAGAAAGAATACGAACCGGTCGGCTCCAACGAGGTGTTGCAGAGCGATGTGCGGATCATTGCCGCGACCTCCACCGATCTTGAAGCGGCAATCAAGCGCGGCGAGTTCCGCGCCGACCTCTATTACCGTCTCAACGTGCTGCCGATCCAGGTCCCGCCGCTGCGTGAGCGCCTGGATGATCTGCCGGCACTGAGTGAGGCGATCCTCGAAGAACTGCGCAGCCAGCACGAACTGCACCGCGACGCCCTCGATCTGCTGGGCCAACATGCCTGGCCGGGCAACATTCGGGAGTTGCGCAACGTGCTGGAACGAGCCGCGTTGCTCAGCGACGACCTGATGCTCAGCGCTGCTGACATCCGCGCGGCCATCGGCACTTTCATCCCGGTTGAGCGCACGACAGGCCCGACCCTGGAGCCGTTATTGGCGCAGGAAACCTTCAGCCAGGCCCGGGCTCGATTTGACCGGCACTTGATCGAAACTACCCTCGCGAAATGCGATGGCAAGGTAGTCGAGGCGGCCGAGCGGTTGGGGCTGGGAAGATCGACGTTGTACAAGAAGATGGTGGCGCTGGGGATTGCGGAGTCTCAATAA	MNPTESLKDYKRVRTLAIRSLFEIIEQSSEGTVIVDRDANIVWMNERYARRFGLNSAQEAIGRACESVIPGSLLREVVRTGRPILLDMQDTPKEPLVVMRLPIHDNAGAVIGAIGFALFDELRSLSPMLKRYLSMQEELASTRSLLRARQTKYNFAHFIGTSSAGLEVKRRARRSASTDSPVLLLGETGTGKELLAQAIHSASPRAHKAFVSINSAAIPESLLEAEFFGTAPGAFTGADRKGRAGKLQIAQGGTLFLDEIGDMPLPLQSKLLRVLQEKEYEPVGSNEVLQSDVRIIAATSTDLEAAIKRGEFRADLYYRLNVLPIQVPPLRERLDDLPALSEAILEELRSQHELHRDALDLLGQHAWPGNIRELRNVLERAALLSDDLMLSAADIRAAIGTFIPVERTTGPTLEPLLAQETFSQARARFDRHLIETTLAKCDGKVVEAAERLGLGRSTLYKKMVALGIAESQ	PGPT0019455_153	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPIONATE|PROPANOATE_UTILIZATION,PGPT0019455-prpR-K02688	NA	NA
D1-35_02632	1392			hypothetical protein	ATGAGTGTGATCATTGCCTTGGCAGCCCTCACGCTGTTGATGGTTGCCGCCTACCGTGGCTACAGCGTCATTCTCTTTGCCCCGATCGCCGCCCTCGGCGCGGTCCTGCTTACCGATCCATCCGCCGTCGCCCCTGCATTCACCGGGGTGTTCATGGACAAGATGGTCGGTTTCATCAAACTCTATTTCCCGGTGTTCCTGCTTGGCGCGGTGTTTGGCAAGCTGATCGAGTTGTCGGGTTTCTCCCGCTCCATCGTCGCCGCGGCGATTCGCCTGCTGGGCACACGCCAGGCCATGCTGGTGATCGTGCTGGTCTGCGCGTTGCTGACTTATGGCGGCGTGTCGCTGTTCGTCGTGGTGTTCGCGGTGTACCCGTTCGCCGCGGAGATGTTCCGCCAGAGCAATATCCCCAAACGGCTGATTCCAGCCACCATCGCCCTCGGCGCATTCTCGTTCACCATGGACGCCCTGCCCGGCACGCCGCAGATCCAGAACATCATCCCCAGCACCTTTTTCAACACCACCGCTTGGGCCGCGCCGTGGCTGGGCGTGATCGGTACGATCTTCGTCTTCTGCTTCGGCATGCTGTTTTTGCAGCGCCAGCGCAACAAGGCCCAACGCGCCGGTGAAGGTTATGGCACCGAACTGCGCAACGAGCCGGAAACCGCTGAGGACATCAAGCTGCCCAACCCGTGGATCGCCGTTTCGCCGCTGCTGGCGGTGGGGATCATGAACCTGCTGTTTACCCAGTGGATCCCGCAGTGGTACGGCAAGACGCATAGCCTGGCGCTGCCGGGCATGGCGACACCGGTGACCAGCGACATCGCCAAGCTCACCGCGATCTGGGCGGTACAGGCCGCTTTGCTGGTGGGTATTGTCATGGTGCTGCTGTTCGGCTTCCGCGCGATTCGCAGCAAACTGGCCGAAGGTAGCAAGAGCGCGGTGGGCGGTGCCTTGCTCGCGGCGATGAACACCGCTTCGGAATACGGTTTCGGTGCGGTGATCGCCTCCTTGCCGGGCTTCCTGGTGCTGGCCGACTGGCTCAAGAACATTCCCGATCCGCTGGTCAACGAAGCGGTCACCGTGACGCTGCTGGCCGGCATCACCGGTTCCGCGTCGGGGGGCATGAGCATCGCCCTGGCGGCGATGTCCGAAACCTTCATCAGCGCCGCCCACGCCGCCAACATTCCCCTGGAAGTGCTGCACCGGGTGGCCGCCATGGCCAGCGGCGGCATGGACACCCTGCCCCACAACGGCGCGGTGATCACCTTGCTGGCCGTCACCGGCCTGACCCACCGTGAAGCCTACAAAGACATTTTCTGCATTACGCTGATCAAGACCCTCGCGGTGTTCTTCGTGATCGGTGTGTTCTACGCCACTGGCATTGTGTGA	MSVIIALAALTLLMVAAYRGYSVILFAPIAALGAVLLTDPSAVAPAFTGVFMDKMVGFIKLYFPVFLLGAVFGKLIELSGFSRSIVAAAIRLLGTRQAMLVIVLVCALLTYGGVSLFVVVFAVYPFAAEMFRQSNIPKRLIPATIALGAFSFTMDALPGTPQIQNIIPSTFFNTTAWAAPWLGVIGTIFVFCFGMLFLQRQRNKAQRAGEGYGTELRNEPETAEDIKLPNPWIAVSPLLAVGIMNLLFTQWIPQWYGKTHSLALPGMATPVTSDIAKLTAIWAVQAALLVGIVMVLLFGFRAIRSKLAEGSKSAVGGALLAAMNTASEYGFGAVIASLPGFLVLADWLKNIPDPLVNEAVTVTLLAGITGSASGGMSIALAAMSETFISAAHAANIPLEVLHRVAAMASGGMDTLPHNGAVITLLAVTGLTHREAYKDIFCITLIKTLAVFFVIGVFYATGIV				NA	NA	NA	NA	NA
D1-35_02633	777	bdhA		D-beta-hydroxybutyrate dehydrogenase	ATGACGACATTTCTTTCGGGCAAGACTGCCCTGGTCACCGGTTCCACCAGCGGCATCGGCCTGGGCATCGCCTTGAGCCTGGCCAAGTCCGGCGCCAACCTGATCCTCAATGGCTTCGGCGATGCCTCGGCGGCGGTCGCCGAGGTCAAGCAGTTCGGTGGCAAGGTCGGCCATCATCCGGCCGATGTCAGCGACCCGGCACAGATTGCCGACATGCTCGCCTACGCCGAGCGCGATTTCGGCGGCGTGGATATTCTGGTGAACAATGCCGGGATCCAGCACGTGGCGGCCGTGGAGGATTTCCCGGTGGAGCGCTGGGATTCGATCATTGCCATCAACCTGTCTTCGGTGTTCCACGCCACTCGCCTAAGCCTGCCGGGCATGCGCGCCAAGGGCTGGGGACGGATCGTCAACGTCGCCTCGGTGCACGGTCAGGTCGGTTCGGTGGGCAAGGCCGCGTACGTCGCCGCGAAGCACGGGGTGATCGGGCTGACCAAGGTGGTTGGCCTGGAAACCGCTACCAGCAACGTGACGTGCAATGCAATCTGCCCAGGCTGGGTGCTGACGCCACTGGTGCAGAAACAGATCGACGACCGCATCGCCAGCGGCGTCGACCCGCAACAGGCCCAGCACGACCTGTTGGCCGAGAAGCAACCGTCCCTGGAATTCGTCACCCCGCCGCAGCTGGGTGAACTGGTTCTGTTCCTCTGCAGCGAAGCCGGCAGCCAGGTGCGGGGCGCGGCGTGGAATGTTGATGGAGGGTGGTTGGCGCAATAA	MTTFLSGKTALVTGSTSGIGLGIALSLAKSGANLILNGFGDASAAVAEVKQFGGKVGHHPADVSDPAQIADMLAYAERDFGGVDILVNNAGIQHVAAVEDFPVERWDSIIAINLSSVFHATRLSLPGMRAKGWGRIVNVASVHGQVGSVGKAAYVAAKHGVIGLTKVVGLETATSNVTCNAICPGWVLTPLVQKQIDDRIASGVDPQQAQHDLLAEKQPSLEFVTPPQLGELVLFLCSEAGSQVRGAAWNVDGGWLAQ	PGPT0008310_1840	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008310-bdh-K00019	NA	NA
D1-35_02634	1956	acsA_1	COG0365	Acetyl-coenzyme A synthetase	ATGTCCGACATCCTCTGGCAACCCAGCCCCGAACGCATCGCCCGGTCGCGCATGGACGCCTTGCGCCGGTTCGTCAACGAACGGCACTCGCTGCAGTTGAACGATTACCCGGCCCTGCACGCCTGGAGCATCGACCAGCGCGAGGCTTTCTGGCAGGCCATCGTGGACTTCTTCGACATCCGTTTTCACCAGCGCCCCACCGCAGTGCTGGTGGAGGGCCCGCACATGCCCAGCGCACGCTGGTTCCCGGGGGCCACGCTGAGTTTCGCCGAACATCTGCTGCGCCGTCGCGATAACACCGTGGCGGTGGTTGCCGTGGATGAAGACGGCATCGAGCAAACGCTGACCTGGGCCGAGCTCGCCGCCCATGTCGCCGGCCTGCAGAAAAGCCTGCAAGCCGCCGGCGTGACCCAGGGCGACCGGGTCGCCGCTTGCATGCCCAACACCTGGCAGACGCTGGTGGGCATGCTCGCCACGACGAGCCTGGGGGCGATCTGGTCGTGCTCATCGCCGGATTTCGGCACCCAGGGCGTCATCGACCGGTTCGGCCAGATCGAGCCCAAGGTTTTGATTACCTGTGCCGGTTATCGTTATGCCGGCAAGGTCATCGACCAGCGCCCGAAGGTGAACGAGATCCTTGCGCGGCTGCCGTCCCTGCAACAGTTGATCGTGCTGCCTTACGCCCGACCCGATGCTCGCGTCGAGGATTTCAACACCCAGGCCGGCGTCGCGCTGTGGGAAAACTTTTATCAAAGCGGTGGCGCGCCGGAGTTCGCCAGCGTGCCGTTCGATCATCCGTTGTATATCCTCTACTCCAGCGGCACCACCGGCGTGCCGAAGTGCATCGTCCACAGCACCGGCGGCGTGCTGCTCCAACATATGAAGGAACATGGCCTGCACGTTGATCTCGGCCCCGGGGATCGGCTGTTCTACTACACCACCTGCGGCTGGATGATGTGGAACTGGCTGGTCTCGGCCCTGGCGGTGGGCAGCTCGGTGGTGCTGTATGACGGCTCGCCGTTTCACCCTGGTCCCGAACGCCTGCTCGACCTGATCGACCAACAGCGCATCAGCGCGTTCGGCACCAGCCCGAAATACCTCGCCGCCCTGGAAAGCCAAGGCATCCAGCCACGCCAGAGCCATGACCTGGGCAGCCTCAAGACCCTCCTGTCCACAGGCTCGGCTCTCGCCCCCCACAGCTACGATTACGTTTACCGCGATTTCAAGGCCGACGTTTGCCTGGCCTCGATGTCCGGCGGTACCGATATCGTCTCCTGTTTCATCAACGGCAACCCGCTGTCCGCCGTGCGCCGGGGCGAGATGCAGGGCAAGAGCCTGGGCATGGCGGTGCAGGTCTGGAACGAGGCCGGCGAGGCGGTGGTCGGCGAGAAAGGCGAGCTGGTCTGCACCCGGCATTTTCCAGCGATGCCCATCGGGCTCTGGAACGACCCGCGCCAGGATAAACTTCGCGCCTCCTATTTCAGCCAGTTTCCCGGAGTGTGGGCCCAAGGGGACTACGCCGAAGAACTGGCCCACGGCGGCTTGCTGATCCACGGACGCTCCGACGCGGTGCTCAACCCCGGTGGCGTGCGCATTGGCACGGCGGAAATCTATCGGCAGGTGGAAAAAGTCGAAGAGGTCCTCGACAGCGTCGCCATTGGCCAGCAATGGCAGGGTGACGTACGAGTGGTGCTGTTCGTGCGCCTGCGTGATGGCGTCGTGCTGGACGATACCCTGGAGCAAAAGATTCGCCAGGTCATCCGCGCTAACACGACGCCGCGCCATGTACCGGCGAAAATCCTCGCGGTCAGCGACATTCCGCGCACGATCAGCGGAAAAGTGGTGGAACTGGCCGTGCGTAACGTGGTGCATGGCGAGGCGGTGAAGAACACCGATGCGCTGGCCAATCCCGAGGCGCTGGAGCAGTTTCGCGGGCGGCCGGAGCTAGCGTCCTAA	MSDILWQPSPERIARSRMDALRRFVNERHSLQLNDYPALHAWSIDQREAFWQAIVDFFDIRFHQRPTAVLVEGPHMPSARWFPGATLSFAEHLLRRRDNTVAVVAVDEDGIEQTLTWAELAAHVAGLQKSLQAAGVTQGDRVAACMPNTWQTLVGMLATTSLGAIWSCSSPDFGTQGVIDRFGQIEPKVLITCAGYRYAGKVIDQRPKVNEILARLPSLQQLIVLPYARPDARVEDFNTQAGVALWENFYQSGGAPEFASVPFDHPLYILYSSGTTGVPKCIVHSTGGVLLQHMKEHGLHVDLGPGDRLFYYTTCGWMMWNWLVSALAVGSSVVLYDGSPFHPGPERLLDLIDQQRISAFGTSPKYLAALESQGIQPRQSHDLGSLKTLLSTGSALAPHSYDYVYRDFKADVCLASMSGGTDIVSCFINGNPLSAVRRGEMQGKSLGMAVQVWNEAGEAVVGEKGELVCTRHFPAMPIGLWNDPRQDKLRASYFSQFPGVWAQGDYAEELAHGGLLIHGRSDAVLNPGGVRIGTAEIYRQVEKVEEVLDSVAIGQQWQGDVRVVLFVRLRDGVVLDDTLEQKIRQVIRANTTPRHVPAKILAVSDIPRTISGKVVELAVRNVVHGEAVKNTDALANPEALEQFRGRPELAS				NA	NA	NA	NA	NA
D1-35_02635	1116	pilT_1	COG2805	Twitching mobility protein	ATGGAAATTGATCCCTTGTTACGCATCCTGGCAAGCCAGGATGGTTCCGACCTCTACATGTCCACCGGTGCACCGCCCTGCGCGCGTTTTGAAGGTGTGCTCAAGCCGCTGAGCAACCAGGCGTTCAAGGTCGGCGAGGTCGCCGGGCTCGCCGAGTCATTGATGGACGCCGAACAGCGCCTTGAGTTCGATCGGGAACTGGAAATGAACCTGGCGATTTCCCTGGCCGGTGTCGGGCGGTTCCGGGTCAACATCTTCAAACAGCGCAACGACGTGTCCATGGTGATACGCAACGTCAAGCTGGACATCCCGCGCTTCGAAGACCTGAAGCTGCCCAAGGTGCTGCTGGAAACCATCATGCAGAAGCAGGGGCTGATGTTGTTCGTCGGTGCGACGGGCTCGGGCAAGTCGACCTCCCTGGCGGCGCTGATCGATTACCGCAACCGCAACAGCAGCGGCCACATCATCACCATCGAGGACCCGGTGGAGTATATCCATCGGCATAAGAAATCGATCGTCAACCAGCGCGAAGTCGGGGTGGATACGCGCAGTTTTCATGCCGCGCTCAAGAATACCTTGCGCCAGGCGCCGGACGTGGTGCTGATCGGCGAAATCCGCGACCGGGAAACCATGGAGCATGCCCTGGCCTTCGCCGACACCGGCCATCTGGTGATTTCCACCCTGCATGCCCACAACGCCAACCAGGCCCTGGACCGGGTGATCAATTTTTTCCCGGAAGAACGCCGGGCGCAACTGCTGCACGACTTGGGCAACAACCTCAAGGCGTTTGTTTCCCAGCGCCTGGTGCGCACTCGCGGCGGTCAGCGGCGGGCGGCGGTGGAGGTGATGCTGGGCTCGCCGACGGTGGCCGACCTGATCCGGCGCAACGAGCTGGGCGAGCTCAAGGGCATCATGGAAAAGTCCGAGGAACTGGGCATGCAGACGTTCGACCAGGCATTGTTCAACCTGGTGGTCGAAGGCGCCATCGATGAGGAAGAAGCGCTGAAAAACGCCGATTCGGCGAACAACTTGCGTTTGCGCTTGAAGCTGCATGCGGAGACGGGGGCCGCGCCGCCGGCCGATCCGCCGGCGGGGGAGTGGGGACTGATGGATTGA	MEIDPLLRILASQDGSDLYMSTGAPPCARFEGVLKPLSNQAFKVGEVAGLAESLMDAEQRLEFDRELEMNLAISLAGVGRFRVNIFKQRNDVSMVIRNVKLDIPRFEDLKLPKVLLETIMQKQGLMLFVGATGSGKSTSLAALIDYRNRNSSGHIITIEDPVEYIHRHKKSIVNQREVGVDTRSFHAALKNTLRQAPDVVLIGEIRDRETMEHALAFADTGHLVISTLHAHNANQALDRVINFFPEERRAQLLHDLGNNLKAFVSQRLVRTRGGQRRAAVEVMLGSPTVADLIRRNELGELKGIMEKSEELGMQTFDQALFNLVVEGAIDEEEALKNADSANNLRLRLKLHAETGAAPPADPPAGEWGLMD	PGPT0015880_977	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015880-pilU-K02670	NA	NA
D1-35_02636	2538	rcsC_11		Sensor histidine kinase RcsC	ATGAATGCAATACCCGCCGGCAGCGACACACAGCAATTGATCGCCCGTCAGGACTGGACCGCCAGCCCCTTGGGCGCCATCGATACCTGGCCACAGAGCCTGCGCACCGCCGTGGACATCATGCTCCACTCGCCCATGCCGATGGCCGTGCTGTGGGGGCCGCAGCTGACCCATCTGTACAACGACGCCTATGCCCGGCTGGTCGGCGACAAGCACCCCAGGGCCTTCGGCCAGCCCACCCACACGGCCTGGCCTGAACTTCGGGGCGAGACCGAGGGGATTTATCACAGCGTGTTGCAAGGGCGCATGTACGCCTGCCGCGACAAACGGTGGCGCATGCCCTTCAGTGGCCGCCTCTGTGACGTGTGGCTCGACCTGACCTACAGCCCGATACACGACGAAAGCGCCAGTGTTGCCGGCATCCTGGTCACGGCCATCGAGACCAGCGAAAGACGCCGGCTGGCCCAGGAATTCGAGCGGCGTTCCGAGGCCAGCCTCAAGGCTCAGCAGGAAAGCGAGGAGCGCTTGCAACTGGCGCTGGCGGCCACCGATGCGCTGGGGACCTGGGACTGGGACATCAGCGAAGACCGCTTCATCGCCGATGCGCATTTCGCCCTGCTGCATGGCGTCGATCCGAGCCTGTCGCGGCAACTGCCGATCAGCGCGTACCTGGAAGGCGTGCACCCCGAAGACCGGGCGATGGTCGCGCGCAGCATCAAGCATTGCATCACCCACGGCACCGAATATGCCGAGGAGTACCGGCTGCTGCAGCCCGACGGTGAACTGCGCTGGGTATTCGTGCGCGGGCGCTGCTACAAGGATCGCCACGGCCGGCCCAAGCGCTTCCTTGGCGCGGCGCTGGACCTGACCGAGCGCAAGCGCACCGAGCACGCCCTGCGCCAGAGCCAGACCGAGCTGCAACTGATCATCAACGCCATGCCGGTGCTGATCAGCTATGTCGATCGCGAAGAGCGTTTCCGCCTGAACAACAGCGCCTACCTGAACTGGTACGGGCTGACCCCGCAGGAGCTGTACGGCAAGACCATTCGCGAGGTCATCGGCGACGAAGCGTACGCGGCGCGCGCCGAACAGATCGCCGGCGCCCTGGCGGGCAAGCCGTGCAGTTTCACCGTGCAGTCAGCCCATCGCGATGGCCGGCCACGGCATGCATTGATCAACTACCTGCCACGCCATGGCAGTGACGGCGCGGTGAACGGCTTCTACATCTTCGTGATCGACGAAACCGAGCGCAAGAAAACCGAAGAAGCGCTGCGTAATCTCAACGAAACGCTGGAGGAACGGGTAATCGCCCGCACCCAGCAACTGGCCGAGGCCAACCATCGCCTGCAAAGCGAGATGTTCGAGCGCGAACGCGCCGAAGAAGCGCTGCGCCATGCGCAGAAAATGGAAGCGGTGGGCCAGCTCACCGGCGGCATTGCCCATGACTTCAATAACATGCTCACCGGCATTCTCGGCAGCCTGGACCTGATGCAGCGCTACATCGCCTCGGGCCGCGCCGCCGAGATAGGCCGGTTTACCGAAGCGGCCATCTCCTCGGCCAACCGTGCCGCGGCCCTGACCCATCGCCTGCTGGCCTTTTCCCGGCGCCAGTCGCTGGACCGCAAACCCTTGGACGCCAATGGCCTGGTGCGCTCTCTCGAAGACCTGTTGAGCCGTACCACCGGCGATCACATCGTGCTGCGGCTTGAACTGGCCGGTGAGCTGTGGCCGGTCAGTACCGATGCCAGCCAACTGGAAAACGCCCTGCTCAACCTGGTGATCAACGCCAGGGACGCGATGCCCGACGGCGGCGAGTTGACCATCGAAACCGCCAACGTCTACCTCGACGGCAGCGACATCAGCACGCTGGAACCGGTCAAGGCCGGGGATTACGTGATGATCGCCGTGCGCGACAACGGCAGCGGCATGACTCCCGCCGTGCTGGCCAAGGCCTTCGATCCGTTCTTCACCACCAAACCCATCGGCCAGGGCACCGGCCTCGGTCTTTCGATGATCTACGGCTTTGCCCAGCAGTCCGGCGGACACCTGAGCCTGGACAGCGTGCCAGGCCAGGGCACGCGAGTGCAGTTGTACTTGCCGCGGCTGCGCGTTGCCGCGACCGAACAACCCGCAGCGCCGGCGGCCACGGACGCGCCGCCGGCCATTGCCGGGGAAACCGTGTTGCTGGTCGAAGACGAACCGGCGGTGCGCATGCTCGTGCTCGACCTGCTGGCCACCTTGGGCTACACCGCCCTCGAAGCCGAGGACGGCCGGCAGGCTCTGCTGTTGCTGGAATCCGGGCAGCGCATCGACCTGCTGGTGACCGATGTCGGCCTGCCGGGCATGAACGGCCGGCAGCTGGCTGAAATCGCCCGTCAGCACCGGCCTGATTTGAAAGTCCTGTTCATGACCGGTTATGCGCAGAAAGCCACCGAGCGCCAGGGGTTCCTCGAGCAAGGCATGGACATGGTTGCCAAGCCGTTCACCCTCGATCTCCTGGCCAACAAGATCCGGACGATGATCAACCATGGCAGCTGA	MNAIPAGSDTQQLIARQDWTASPLGAIDTWPQSLRTAVDIMLHSPMPMAVLWGPQLTHLYNDAYARLVGDKHPRAFGQPTHTAWPELRGETEGIYHSVLQGRMYACRDKRWRMPFSGRLCDVWLDLTYSPIHDESASVAGILVTAIETSERRRLAQEFERRSEASLKAQQESEERLQLALAATDALGTWDWDISEDRFIADAHFALLHGVDPSLSRQLPISAYLEGVHPEDRAMVARSIKHCITHGTEYAEEYRLLQPDGELRWVFVRGRCYKDRHGRPKRFLGAALDLTERKRTEHALRQSQTELQLIINAMPVLISYVDREERFRLNNSAYLNWYGLTPQELYGKTIREVIGDEAYAARAEQIAGALAGKPCSFTVQSAHRDGRPRHALINYLPRHGSDGAVNGFYIFVIDETERKKTEEALRNLNETLEERVIARTQQLAEANHRLQSEMFERERAEEALRHAQKMEAVGQLTGGIAHDFNNMLTGILGSLDLMQRYIASGRAAEIGRFTEAAISSANRAAALTHRLLAFSRRQSLDRKPLDANGLVRSLEDLLSRTTGDHIVLRLELAGELWPVSTDASQLENALLNLVINARDAMPDGGELTIETANVYLDGSDISTLEPVKAGDYVMIAVRDNGSGMTPAVLAKAFDPFFTTKPIGQGTGLGLSMIYGFAQQSGGHLSLDSVPGQGTRVQLYLPRLRVAATEQPAAPAATDAPPAIAGETVLLVEDEPAVRMLVLDLLATLGYTALEAEDGRQALLLLESGQRIDLLVTDVGLPGMNGRQLAEIARQHRPDLKVLFMTGYAQKATERQGFLEQGMDMVAKPFTLDLLANKIRTMINHGS				NA	NA	NA	NA	NA
D1-35_02637	276	ppiC_2	COG0760	Peptidyl-prolyl cis-trans isomerase C	ATGAAAGCCCAAGCCCGCCATATCCTGGTGAAAACCGCCGAAGAAGCCGAACAGCTCAAGCAACGCATCGCCAAGGGCGAAGCGTTTGACGTGTTGGCAAAAAAGTACTCCACCTGCCCCTCCGGCAAGCGCGGCGGGGATCTGGGTGAGGTACGTCCTGGGCAGATGGTCGGCGCGATCGATGCGGTGATTTTCAAGAAACCGCTGCGGGTGGTGCACGGACCGATCAAGAGCAAGTTCGGCTATCACCTGGTGCAGGTGTTTTACCGCGACTGA	MKAQARHILVKTAEEAEQLKQRIAKGEAFDVLAKKYSTCPSGKRGGDLGEVRPGQMVGAIDAVIFKKPLRVVHGPIKSKFGYHLVQVFYRD	PGPT0000050_2874	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000050-nifM-K03769	NA	NA
D1-35_02638	915	kdgK_1	COG0524	2-dehydro-3-deoxygluconokinase	ATGAGCAACACCAGACCCCGCATCGCCCTCATCGGCGAATGCATGATCGAACTGCAACACCGCGCCGACGGCAGCCTGCAGCAAAGCTTCGGCGGCGATACGCTGAACGCCGCGGTCTACCTGGCCCGGGCGTTGGGCGACAACGGCGCTGTGGATTACGTCACCGCGCTGGGCGACGACAGTTTCAGCGATGCCATGTGCCAGGGCTGGGCCGCTGAAAACATTGGTTTGGGCATGGTCCAGCGCTTGCCCGGGCGCCTGCCGGGTCTGTATTGCATCCAGACCGACGCGACGGGCGAGCGCCGCTTCCTGTACTGGCGCAACGAGGCGGCGGTGCGTGATTGCTTCACCTCGCCAGCCGCCGCGCCGATTCTCGCAGCGTTGGCCGACTACGATGTGCTGTATTTCAGCGGCGTGACCCTGGCGGTGATTGGCGAGCAGGGCCGGCGCAAACTCATCGACGCGCTGGTCGAGGCGCGTCGGCGCGGGGCCCAGGTGGTGTTCGACAACAACTACCGGCCGAGGCTCTGGGCCTCGGTCGAGGCGGCCCGTGCGGCTTATCGCAGCGTGCTGCCCTACGTCGAGCTGGCGTTGTTGACCGTGGACGACGAACAGGCGCTGTTCGGCCATGCCGACAGCGAGGCGGTGTTCGCTGCCTATGCACAATTGGGAACGCCTGAAGTGGTGCTCAAGCGCGGCGCCGAGGCTTGTCTGATTCGTTGCGACGGCCGGTCATATGAGGTGCCTGCCCTGCGGGTCGAGCGGGTGGTGGACACGACGGCGGCGGGAGACTCGTTCAGCGCCGCCTACCTGGCGAGCCGCTTGCTCGGCGGCAGCCCGGCGGAAGCCGCCGAGGCCGGGCATTTGCTGGCAAGCCGGGTGATCCAGGTGCCGGGGGCGTTGATACCGAGATGA	MSNTRPRIALIGECMIELQHRADGSLQQSFGGDTLNAAVYLARALGDNGAVDYVTALGDDSFSDAMCQGWAAENIGLGMVQRLPGRLPGLYCIQTDATGERRFLYWRNEAAVRDCFTSPAAAPILAALADYDVLYFSGVTLAVIGEQGRRKLIDALVEARRRGAQVVFDNNYRPRLWASVEAARAAYRSVLPYVELALLTVDDEQALFGHADSEAVFAAYAQLGTPEVVLKRGAEACLIRCDGRSYEVPALRVERVVDTTAAGDSFSAAYLASRLLGGSPAEAAEAGHLLASRVIQVPGALIPR	PGPT0018060_3197	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0018060-kdgK-K00874	NA	NA
D1-35_02639	1218			D-threonine aldolase	ATGTCTTCTGCCATTGATAACGCCGGTGTCGAAAAGGGCGCCGCTTCCCTGGGCGCCCATCTGCTGCGCGATGTCAGCCTGCCGGCCCTGGTACTGCATCGCGAGGCGCTGGAGCACAACATCCGCTGGATGCAGAAGTTCGTCAGCGACAGCGGCGCCGAGCTGGCGCCCCACGGCAAGACCAGCATGACCCCGACGCTGTTTCGTCGCCAGCTTGAGGCCGGTGCCTGGGGCCTGACCCTGGCCACCGCAGTGCAGACCCGCGCCGCCTACGCCCATGGCGTGCGCCGGGTGCTGATGGCCAATCAATTGGTAGGCCGGCCGAACATGGCGCTGATCGCCGATCTGCTGGCCGACCCGGCGTTCGAATTCCATTGCCTGGTGGATCATCCGGACAACGTCGCCGAACTGGGGGCTTATTTCGCCACGCACGGCGCACGGTTGAACGTGATGATCGAGTACGGCGTGGTCGGCGGTCGTTGTGGTTGCAGGACCGAAGCCGAGGTACTTGCGCTGGCCGAGGCCATCGGTGCGCAACCGGCGTTGGCCTTGACCGGTATCGAAGGTTACGAAGGGGTGATCCACGGCGATCACGCCATCAGCGGCATCCGGGCGTTCGCCGGGTCCCTCGTTGGGCTGGCGATGCAGTTGCAGGACAGCGGCACGTTTGCCAACGACAAACCCATCATCACCGCCTCGGGTTCGGCCTGGTACGACCTGATCGCAGAATCCTTCGAGGCACGCAATGCCCACGGGCGCTTCCTCAGCGTGTTGCGACCCGGCAGTTATGTGGCCCACGACCATGGCATCTACAAGGAGGCGCAATGCTGTGTGCTGGAGCGCCGCAGTGACCTGCACGAAGGCTTGCGTCCAGCGCTGGAAGTCTGGGCTCACGTGCAATCGCTGCCGGAGCCGGGCTTTGCGGTAATTGCCCTGGGCAAGCGCGACGTGGCCTACGACGCCGGGTTGCCGGTGCCGCTCAAGCGCTACACGCCGGGTTCGGAATCGGCGACGGGGGACGACGTCAGCGGCTGCAAGGTGACCGCGGTGATGGACCAGCATGCGTTCATGAGCGTGGCGCCGGGCGTTGAACTGCGGGTGGGCGACATCATTGCGTTCGGCACGTCCCATCCGTGCCTGACGTTCGACAAGTGGCGGGTGGGGTGTCTGGTAGATGAGGGGTTGCGGGTGGTCGAGAGCATGGAGACTTGTTTTTAA	MSSAIDNAGVEKGAASLGAHLLRDVSLPALVLHREALEHNIRWMQKFVSDSGAELAPHGKTSMTPTLFRRQLEAGAWGLTLATAVQTRAAYAHGVRRVLMANQLVGRPNMALIADLLADPAFEFHCLVDHPDNVAELGAYFATHGARLNVMIEYGVVGGRCGCRTEAEVLALAEAIGAQPALALTGIEGYEGVIHGDHAISGIRAFAGSLVGLAMQLQDSGTFANDKPIITASGSAWYDLIAESFEARNAHGRFLSVLRPGSYVAHDHGIYKEAQCCVLERRSDLHEGLRPALEVWAHVQSLPEPGFAVIALGKRDVAYDAGLPVPLKRYTPGSESATGDDVSGCKVTAVMDQHAFMSVAPGVELRVGDIIAFGTSHPCLTFDKWRVGCLVDEGLRVVESMETCF	PGPT0001970_1152	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0001970-dsdA-K01753	NA	NA
D1-35_02640	765	xynR_2	COG1414	HTH-type transcriptional regulator XynR	ATGACCGAAGACACCATCAAACGCCGGGCCCGGGGATTGGATCGGGCGTTCGATATCCTCGATTTCCTCAAGGAAATCGGCCAGCCGCTGCGCCCGAACGATATTGCCAGCGGCATCGGCAGCCCCAAGTCCACGGTCTACGAACTGGTGGCGTCGCTGCTCGAGCGGCGCATTCTCGAGCCGGTCGGCAAGGATGGTCACGTCTACCTGGGGCGGCAGTTGTATTTTCTCGGGCAGGCGCACCTGCGGCATTTCGACCTCAGCCGCGAGGCCGACCAGGCCTTGCAGGAGATCGTCCGCCAGACCCGCGAAACCGCGCAGATGTGCCTGCTCAACGGGCGCAAATACACCGTCGCGCTGATGAAGGAAGGCGAGCGGCATTTTCGTATTTCCTCGGACATCGGTGAGAACGCGCCGATCCCCTGGACCGCGTCCGGGCGCCTGCTGCTGGCGCATCTGAGCGACCAGCAGATCGTCGACCTGATCGACCCCGACGACTTCATCCTGCCGGGCGGCGAGCGTTTGCCCCTGGAGCAGTTTCTCAAGGAAATCCGCCAGGCCGGTGCCGATGGATTTTTCTCCTTCGACAGTGTGGCCGACACCTTCACGCATTGCTTCGCCGCGCCGGTCAAAGACCCCAGTGGCGTGGCCATCGCGACGCTGTGCATCGTCGCCCCGAGGGCTGACGCCAAGAACAATTATGCCGACTACCGCCGGGTGCTGATCGAGAGCGCCAACAACCTGGCCCGTCGCATCAACGAATAG	MTEDTIKRRARGLDRAFDILDFLKEIGQPLRPNDIASGIGSPKSTVYELVASLLERRILEPVGKDGHVYLGRQLYFLGQAHLRHFDLSREADQALQEIVRQTRETAQMCLLNGRKYTVALMKEGERHFRISSDIGENAPIPWTASGRLLLAHLSDQQIVDLIDPDDFILPGGERLPLEQFLKEIRQAGADGFFSFDSVADTFTHCFAAPVKDPSGVAIATLCIVAPRADAKNNYADYRRVLIESANNLARRINE				NA	NA	NA	NA	NA
D1-35_02641	387	yabJ_1	COG0251	2-iminobutanoate/2-iminopropanoate deaminase	ATGAGCATTACGCGCTATGGCACCGGCAGCACCGCGGGCGGCGGACAGCCGCGGCCCTTCGCTCGCGCCGTGGAGGCCGATGGCTGGTTGCACGTGTCCGGCCAGGTGCCCGCGGTGAACGGCGAGATTGTCGCTGGCGGCATCGTCGAGCAGACGCACCAGACCATGAAGAACCTGATCGCCATTCTCGAAGAGGCCGGCTATGGCCTGGAAGATGTTGTGCGTTGCGGCGTCTGGCTGGATGACCCGCGGGATTTCTGGAGTTTCAACAAGGTCTTCGGCGAATACTTCAGCCCCGAACACGCCCCGGCCCGGGCCTGTGTGCAGGCGAGCATGATGGTTGACTGCAAGGTCGAGATCGATTGCATCGCCTACAAGAAAAAGTGA	MSITRYGTGSTAGGGQPRPFARAVEADGWLHVSGQVPAVNGEIVAGGIVEQTHQTMKNLIAILEEAGYGLEDVVRCGVWLDDPRDFWSFNKVFGEYFSPEHAPARACVQASMMVDCKVEIDCIAYKKK	PGPT0020030_4268	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
D1-35_02642	789	glnQ_4	COG1126	Glutamine transport ATP-binding protein GlnQ	ATGACTGACGTTTCCCTTTCAAACGCGCAACCGCTGCTGGACATCCGCGGCCTGCGCAAACAATACGGCCCGCTGGAAGTGCTCAAGGGCGTGGACCTGAGCATGCAGCGTGGCAACGTGGTGACGCTGATCGGCTCCAGTGGCTCGGGCAAGACCACGCTGCTGCGTTGCGTCAACATGCTCGAAGAGTTCCAGGGCGGGCGGATCGTGCTCGACGGCGAGTCCATCGGCTATGACGAGGTGGACGGCAAGCGCGTGCGTCACGCCGAAAAAGTCATCGCCCGGCACCGGGCCATGACCGGGATGGCCTTCCAGCAATTCAACCTGTTCCCGCATCTGAGCGCTTTACAGAACGTCACCCTGGGCCTGCTCAAGGTGAAAAAACTGCCGAAGGACGAAGCGGTGGCCCTGGCCGAGAAATGGCTGCAGCGGGTCGGCCTGCTGGAACGGCGCGATCACTTTCCCGGTCAGTTGTCCGGCGGCCAGCAGCAGCGCGTGGCGATTGCCCGGGCGATCGCGATGAACCCCAGCCTGATGTTGTTCGACGAAGTGACCTCGGCCCTGGATCCGGAGCTGGTCGGCGAGGTGCTGAACGTGATCAAGGGCCTGGCCGAAGACGGCATGACCATGCTGCTGGTGACCCACGAGATGCGCTTTGCCTTCGAGGTTTCCGACAAGATCGTTTTCATGAACCAGGGCCGCATCGAAGAGCAGGGGCCGCCGAAGGAATTGTTCGAGCGCCCTCAATCGCCGCGCCTGGCGGAATTTCTCAAGAACACCCGTTTTTAA	MTDVSLSNAQPLLDIRGLRKQYGPLEVLKGVDLSMQRGNVVTLIGSSGSGKTTLLRCVNMLEEFQGGRIVLDGESIGYDEVDGKRVRHAEKVIARHRAMTGMAFQQFNLFPHLSALQNVTLGLLKVKKLPKDEAVALAEKWLQRVGLLERRDHFPGQLSGGQQQRVAIARAIAMNPSLMLFDEVTSALDPELVGEVLNVIKGLAEDGMTMLLVTHEMRFAFEVSDKIVFMNQGRIEEQGPPKELFERPQSPRLAEFLKNTRF	PGPT0020790_1287	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
D1-35_02643	663	tcyB	COG0765	L-cystine transport system permease protein TcyB	ATGTACCAATCCCCTAGTTGGTTGCAGGAGTTGTGGGTCGCCCGGGAGACTTTGTGGGCCGGTTTCCTGACCAGCGCGCAATGTTCGGCCCTGGCGATTGTGTTGGGCACCTTGATCGGTGTCGTCGCCGGGTTGGCGCTGACTTATGGCCGGGTCTGGATGCGCGCGCCGTTTCGTTTCTACGTCGACCTGATTCGCGGCACGCCGGTGTTCGTGCTGGTACTGGCCTGCTTCTACATGGCCCCGGCCCTGGGTTGGCAGATCGGTGCGTTCGAGGCTGGCGTCCTCGGATTGACGCTGTTCTGCGGCTCCCACGTGGCCGAGATCGTGCGCGGTGCGTTGCAGGCTCTGCCCCGCGGGCAGATGGAAGCGAGCCAGGCCATCGGCCTGACATTCTTCCAGTCGCTCGCTTATGTGCTGCTGCCCCAGGCCTTGCGGCAGATCCTGCCGACCTGGGTGAATTCCTCCACCGAGATCGTCAAGGCCTCGACCCTGCTGTCGGTGATCGGTGTCGCCGAACTGCTGCTCAGCACCCAGCAGATCATCGCCCGGACCTTCATGACCCTGGAGTTCTACCTGTTCGCCGGTTTTCTCTTTTTCATCATCAACTACGCCATCGAATTGCTCGGGCGGCACATTGAAAAGCGGGTGGCCTTGCCATGA	MYQSPSWLQELWVARETLWAGFLTSAQCSALAIVLGTLIGVVAGLALTYGRVWMRAPFRFYVDLIRGTPVFVLVLACFYMAPALGWQIGAFEAGVLGLTLFCGSHVAEIVRGALQALPRGQMEASQAIGLTFFQSLAYVLLPQALRQILPTWVNSSTEIVKASTLLSVIGVAELLLSTQQIIARTFMTLEFYLFAGFLFFIINYAIELLGRHIEKRVALP	PGPT0020795_9020	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
D1-35_02644	663	glnP_2	COG0765	Glutamine transport system permease protein GlnP	ATGAATTATCAGTTGAACTTTGCCGCCGTCTGGCGCGATTTCGACACGCTGCTGGCGGGGCTTGGCCTGGGGCTTTCCCTCGCGCTGGTGTCGATCGCGATCGGTTGTGTGATCGGCCTGCTGCTGGCGTTCGCGCTGTTGAGCAAGCACCGCGCACTGCGGTTGTTGGCCTCGGTGTATGTCACGGTGATCCGCAATACACCGATCCTGGTGCTGATCCTGCTGATCTACTTCGCCTTGCCGAGCCTGGGTATTCGCCTGGACAAGCTGCCGTCGTTCGTCATCACGCTTTCGCTGTACGCCGGGGCCTACCTCACCGAAGTGTTCCGTGGCGGCCTGGTGAGTATTCACAAAGGGCAGCGGGAAGCAGGTCTGGCGATCGGCCTGGGCGAATGGCAGGTAAAGGCCTACGTCACCGTGCCGGTGATGCTGCGCAACGTGCTGCCGGCGTTGTCCAACAACTTCATTTCGCTGTTCAAGGACACCTCGCTGGCGGCGGCGATTGCCGTGCCGGAGCTGACCTACTATGCCCGCAAGATCAACGTGGAAAGCTACCGGGTAATTGAAACCTGGCTGGTCACCACGGCCCTGTATGTCGCGGCCTGTTACCTCATTGCCATGTTGCTGCGTTACTTCGAGCAGCGCCTGGCGATCCGCCGTTAG	MNYQLNFAAVWRDFDTLLAGLGLGLSLALVSIAIGCVIGLLLAFALLSKHRALRLLASVYVTVIRNTPILVLILLIYFALPSLGIRLDKLPSFVITLSLYAGAYLTEVFRGGLVSIHKGQREAGLAIGLGEWQVKAYVTVPVMLRNVLPALSNNFISLFKDTSLAAAIAVPELTYYARKINVESYRVIETWLVTTALYVAACYLIAMLLRYFEQRLAIRR	PGPT0000725_691	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000725-glnP-K10037	NA	NA
D1-35_02645	849	peb1A	COG0834	Major cell-binding factor	ATGCAATGCCGACCTTCCTTGTTCAAAGCGTGTGTTTTTCTCTTCGCGGCCACGACGGCTGCCATGGGTGTCGCTCAGGCGGCCGACAGCAAGCTGGACAGCGTGCTGCAACGCGGGAAATTGATCGTGGGCACGGGCAGCACCAATGCGCCGTGGCACTTCCAGGGAGCGGATGGCAAGTTGCAGGGGTTCGATATCGATATCGCGCGGATCGTCGCCAAGGGTTTGTTCAATGACCCGGAAAAAGTCGAATTCGTGGTGCAGTCTTCCGATGCAAGGATTCCCAACCTGCTGACCGACAAGGTCGACATGAGCTGCCAGTTCATTACGGTCACCGCCAGCCGAGCCCAACAGGTGGCATTTACCTTGCCGTACTACCGCGAAGGGGTAGGCCTGCTACTGCCGGCCAACAGCAAGTTCAAGGAAATCGAAGACCTCAAGGCTGCCGGCGATGACGTCACCGTGGCGGTGCTGCAGAACGTCTACGCCGAAGAGCTGGTGCACCAGGCGCTGCCCCAGGCCAAGGTCGACCAGTACGACAGCGTCGACCTGATGTATCAGGCGGTGAACTCCGGCCGTGCCGCTGCCGCTGCCACCGACCAGTCCTCGGTCAAATACCTGATGGTGCAGAACCCCGGTCGCTACCGCAGCCCGGCCTACGCCTGGAGTCCGCAAACCTACGCTTGCGCGGTCAAGCGCGGCGACCAGGACTGGTTGAACTTCGTCAACACTGCGCTGCATGAAGCCATGACCGGTGTGGAATTCCCGACCTATGCCGCATCGTTCAAACAGTGGTTCGGCGTCGAGCTGCCATCGCCGGCCATCGGTTTCCCCGTTGAATACAAATGA	MQCRPSLFKACVFLFAATTAAMGVAQAADSKLDSVLQRGKLIVGTGSTNAPWHFQGADGKLQGFDIDIARIVAKGLFNDPEKVEFVVQSSDARIPNLLTDKVDMSCQFITVTASRAQQVAFTLPYYREGVGLLLPANSKFKEIEDLKAAGDDVTVAVLQNVYAEELVHQALPQAKVDQYDSVDLMYQAVNSGRAAAAATDQSSVKYLMVQNPGRYRSPAYAWSPQTYACAVKRGDQDWLNFVNTALHEAMTGVEFPTYAASFKQWFGVELPSPAIGFPVEYK	PGPT0020800_5433	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
D1-35_02646	282	relE_2	COG2026	mRNA interferase toxin RelE	ATGACCTATGAGTTGGAATTTTCTGATAAGGCATTAAAAGAGTGGAAAAAACTGGGAGCAACGTTAAGAGCTCAGTTCAAGAAAAAGCTGGAGGAGCGGCTGGGCAATCCGCATGTCCAGGCGGACCGGCTCCATGGGCTGGAAGATGCCTATAAAATCAAGCTGCGCAGCGCGGGCTATCGATTGGTTTATCGCGTGATAGATGATCGGTTGGTCGTTACGGTGATTGCGGTGGGCAAGCGCGAGCGTGGCCAGGTTTATGACGAGGCTGCCAAGCGGTAA	MTYELEFSDKALKEWKKLGATLRAQFKKKLEERLGNPHVQADRLHGLEDAYKIKLRSAGYRLVYRVIDDRLVVTVIAVGKRERGQVYDEAAKR	PGPT0027425_876	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-RelE|StbE-RelB|StbD_TOXIN-ANTITOXIN_SYSTEM,PGPT0027425-toxin_relE_2|stbE|pasB-K06218	NA	NA
D1-35_02647	249			hypothetical protein	ATGACCCATATCGTGCTTTCTCAAGTGGTAGCCAGCATCTCCGAACTCAAGAAAAACCCCATGGGCACCGTTGCTGCAGGCGGAGGATTATCTGTAGCGATCCTCAACCGTAACGAGCCGGCTTTTTACTGTGTCCCTGCCAAAGAGTATGAAGCCATGATGGAGCGGCTTGAGGACATCGAGCTGGTTGCCCTTTGCCGCGAGCGGGAGAATGACCCAACGATTAAGGTTTCTCTTGATGACCTATGA	MTHIVLSQVVASISELKKNPMGTVAAGGGLSVAILNRNEPAFYCVPAKEYEAMMERLEDIELVALCRERENDPTIKVSLDDL	PGPT0027440_326	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-RelE|StbE-RelB|StbD_TOXIN-ANTITOXIN_SYSTEM,PGPT0027440-antitoxin_stbD-K18923	NA	NA
D1-35_02648	1647			hypothetical protein	ATGCGCGTACTGGTCACCAACGCGAAGGACGATTTCCGGGTCAAGGCCTATGCCGGCACCAACGGCGTGTTGCTCGCCATGGACCTGGCCGAGCCCCGGCGCAAGGGGCTGCTGGGTTTTGCCATCGAGAAGCAGCAGGGCGCCAAGCCCTGGCTGTTCCTGTTCAACAGCCTGACGTTCCCCGACAAGGCCCACATCTTTCCCCAGTTCCATGCCACGCCCAGCGACAAGGCGCCCTTGCAGAAATTTCGCTGGGCCGATTACGCCGTCAACCCTGGCGTGACGATTCATTATCGCGTGCACCTGGCCTACGGCAGCGCCGATGCGCCGCAACTGGGCGAATCCCTCGAAGTGAGCGTGACCAGCGATGACGGCCAGCCGGCCAACCAGCGGGTCATCTTCAATCGCGCGGTGGCCGCCAGCCAGGCGTTCCAGCGCAAGTTTCCCGAACTGGACGCACTCATTGACGCCAACAAGAACCTGTCCATCGACGACTGGCCCGACGCGCCGCGGCGCTGGCTGGAAAACGGCTTGCTGGGACGCCTCACCGGCTTCATCGATCGGGCGCTCGATGCCAGCTGGGCGCTGGACGTCGCCATTTATGAGTACGAATTACCGGTGATCGTCGATGCGGTGAACGCTGCCCATGCCCGTGGTGCACGGGTCAGGGTGCTGTACCACGCCGAACCGGGGGATGACGGTACGCTGCGCAACGAAGCCAGCCTGGAAAAACTGCCAGCGGCGAACAAGCGTGGGCGGGTCACCCACAATATCTTCCACGACAAGTTCATCGTGCTGAGCAAAGTCGAAGGGAACGCGTCGCTGAAACCCGAGGCGGTGCTGTGCGGCAGTACCAATTTCACCGCCAACGGCATCTACCGCCAGGCCAATGTCATTCATGTGCTGGACGACCCGCGCATCAGCGCCAGTTACCTTCAGGTGTTCGAGCAGATCTGGGCCACACCGGAGGATGTCGATGCCACGCGCCAATGGCTGACCCGCAACAACCCCATGGATGCAGACGAGAAACTGTTTGCCGGTTTCTCGCCGCGTACCGGGCACGGCGATCTGGATCGCTTCGTCGACATCATCGACGGTGCGCGCAAGGACCTGCTGTTCGTCACGGCGTTTGCCTTGCCCGACCGGATCCTCGATGCCTTGCTCGGCCAGCCCAATGACGACGTGCTGCGCTACGGCCTGCAAAATACCACCAGCCGCATCAGCGGTTTTCACGCCGACCGCACTGCCGAATTCGCCGCCACCGCGCTGCTCAATACTGGCCTGGAAGGTTGGCTCAGGGAAAACATGAAAGGTCAGAAAGGCAACCTGCTGGTGCATACCAAAGCGGTGGTCACCGATTTCACCAGCGATGCGCCGACCATCATCAGCGGCAGCCATAATCTCAGCATCGCGGCGAGCAACGGCAACGACGAGAACTATCTCATCATCCAGGGCGACACCGACCTGGCCGACCGCTACGGGCTCGAACTGCTGCGTTTCTACGAGCATTACCGCTTTCGTTACTTCGCGAAAAAACTCGCCCTCAAGCAGGTCAAGCCGCTGGCGGTGGATGACAGCTGGAGCGACGATTATTACCGCGAGGGGGATTTGCGAATGTTGTCCAGGGTGAGGTTTTGCGGGCGTTGA	MRVLVTNAKDDFRVKAYAGTNGVLLAMDLAEPRRKGLLGFAIEKQQGAKPWLFLFNSLTFPDKAHIFPQFHATPSDKAPLQKFRWADYAVNPGVTIHYRVHLAYGSADAPQLGESLEVSVTSDDGQPANQRVIFNRAVAASQAFQRKFPELDALIDANKNLSIDDWPDAPRRWLENGLLGRLTGFIDRALDASWALDVAIYEYELPVIVDAVNAAHARGARVRVLYHAEPGDDGTLRNEASLEKLPAANKRGRVTHNIFHDKFIVLSKVEGNASLKPEAVLCGSTNFTANGIYRQANVIHVLDDPRISASYLQVFEQIWATPEDVDATRQWLTRNNPMDADEKLFAGFSPRTGHGDLDRFVDIIDGARKDLLFVTAFALPDRILDALLGQPNDDVLRYGLQNTTSRISGFHADRTAEFAATALLNTGLEGWLRENMKGQKGNLLVHTKAVVTDFTSDAPTIISGSHNLSIAASNGNDENYLIIQGDTDLADRYGLELLRFYEHYRFRYFAKKLALKQVKPLAVDDSWSDDYYREGDLRMLSRVRFCGR				NA	NA	NA	NA	NA
D1-35_02649	558			hypothetical protein	GTGGATTGGCCGGGCACGTTGCTCAAGGGACGTCCACGCCTGCTGGCGGATTTGCGTTTCAAATGGCGGCAGCGTTCAGCCCATGAGCTGTGGCTGGTGATCGTCGATGCGTCGGCCTCGACCCGTCGCCATCGCGCCTTGAGTGACGGCAAGGGCCTGCTGGCCCAACTGTTCGATGACGCCTACCGACAACGTGCACGGTTGGCGCTGTTGACCGCCAGCGGCACCGCGCCGAGGTGGCAAGTGCAGGGGCTCAAGGCCTCCATTGGCCTGGACGCTTGGCTCGACGCGCTGGGCGCCGGCGGCGGCACGCCGTTGCTGGCGGCGCTGGACGAGGCGCAGCGCTGGCTCATGGTTCGGCGCAAACGCTATCCGGCGGAGCAGCAGCGGGTGTTGCTGATGACCGATGGACGAGTCAAGGACGGGCTGGGCGTGCCGCCTCTCGAATGCCCGTGCCTGTTGATAGACATCGAGCGCGGCCCGATTCGCCTGGGTAGGGCAAGGCAACTGGCGGAGCAGTTGGGCGCTGAGTATCGGCATATCGATGAAGCGCACTGA	MDWPGTLLKGRPRLLADLRFKWRQRSAHELWLVIVDASASTRRHRALSDGKGLLAQLFDDAYRQRARLALLTASGTAPRWQVQGLKASIGLDAWLDALGAGGGTPLLAALDEAQRWLMVRRKRYPAEQQRVLLMTDGRVKDGLGVPPLECPCLLIDIERGPIRLGRARQLAEQLGAEYRHIDEAH				NA	NA	NA	NA	NA
D1-35_02650	1008	bchI	COG1239	Magnesium-chelatase 38 kDa subunit	ATGACCGACACCGCCCATTTTCCCCTCTCCGCCGTGGTCGGCGCCGATGCGCTGAAACTGGCCCTGTGCCTGGCGGCGATCGATCCGAAGATCGGCGGTGTGCTGATCGAAGGTCCACGGGGGATGGCCAAGTCCACGCTGGCCCGGGGCCTGGCGGATCTGCTGGCAAGCGGTCAGTTCGTGACCTTGCCACTGGGCGCCACCGAAGAGCGGCTGGTGGGCACTCTCGATCTGAATGCCGCACTTGGGGAAGGGCGCGCGCAATTTTCCCCCGGCGTGCTGGCCAAGGCCGACGGTGGCGTGCTGTATGTCGATGAGGTGAACCTGTTGCCGGATCACCTGGTGGACCTGCTGTTGGACGTCGCCGCCAGCGGCACCAACCTGATCGAGCGCGACGGCATTTCCCACCGGCATCCGGCGCGTTTCGTGCTGATCGGCACCATGAACCCGGAAGAGGGCGAACTGCGTCCGCAATTGCTCGATCGTTTCGGCCTGAACGTGGCGCTTGATGGCCACACGGCGCCTGCCGAGCGCGGGCAGATCATTCGGCGGCGGCTGGATTTCGACAGCGATCCGGCGGCGTTCTGCGCCGAGTGGGAAACCGCCCAACGACAGTTGCGTGAGCGCTGCCAACAGGCGCGCGTGCGGTTGGCCGGGATCCCATTGGATGACATGGCGCTGGAGCAGATTACCGAGCGTTGTTTCGCCGCTGGGGTCGATGGCTTGCGCGCCGACCTCGTCTGGTTGCGGGCCGCCCGTGCTCATGCCGCCTGGCGTGGCGCGGACGCCATCGCAGCCGAAGACATCGACGCCGTCGCCGAGTTTGCCTTGCGCCATCGGCGCCGCGACCCTGCGTCCCCGGCCCCCGCGCCGTCCCAGGCACCGTCGCCGAGCCGGAATGAAGCGAGCGAGTCCGGCGAAGGCCAGGGCCAATGGGGTGACCTGCCGGCCCGGGCGCTGCCGAGCGGTGCCCGGCGTGACGTGCCGAGCTGGCCAAAAAAGTCCTAG	MTDTAHFPLSAVVGADALKLALCLAAIDPKIGGVLIEGPRGMAKSTLARGLADLLASGQFVTLPLGATEERLVGTLDLNAALGEGRAQFSPGVLAKADGGVLYVDEVNLLPDHLVDLLLDVAASGTNLIERDGISHRHPARFVLIGTMNPEEGELRPQLLDRFGLNVALDGHTAPAERGQIIRRRLDFDSDPAAFCAEWETAQRQLRERCQQARVRLAGIPLDDMALEQITERCFAAGVDGLRADLVWLRAARAHAAWRGADAIAAEDIDAVAEFALRHRRRDPASPAPAPSQAPSPSRNEASESGEGQGQWGDLPARALPSGARRDVPSWPKKS				NA	NA	NA	NA	NA
D1-35_02651	3774	cobN		Aerobic cobaltochelatase subunit CobN	ATGCACCTGCTCAGGACCCAGCCCGGCGGTTTTGTGTCGGATGACAACATCGCCGACCTCGGACAAACCCCCGCCGAGCTGGTAATCCTGTGCAGCGGCGATTCCAGCCTGGCGCTGCTGGCCGAAGCGGCGCGGCAATTACCGGACGACTACCCGCAGTTTCGCCTCGCCAACCCGATGCAGGTGCAGAACCACGCGTCGGTGGACCTGTATGTCGACGACGTACTGCGCCACGCCAAGGTCATCCTGTTGTCGCTGCACGGTGGCATCGGCTATTGGCGCTACGGCATCGAGCGCCTGATGGAACTGGCCGCGCGCGGCGTGAAGCTGATCCTGGTGCCGGGGAATGATCGCCCCGACCCGGAGCTCAGCGACCTGAGCAACGTAGCGTTGGAGGATCGCGACCGGCTCTGGCAGTTCTTGCGCCAAGGCGGATTGGCCAACGCCCTGAACCTGTTCCATCACCTGGGCAGCCAATGGTTTGCGCGCGATTATCCGTGGGCCGAACCGCAGCCCTTGCCGCGCACAGCGATCTACCACCCCGAACAAACCCACGCGACCCTCGATCATTGGCAAACCGACTGGCGCGCCGACGAACCGGTGGCGGCGGTGTTGTTCTATCGTTCACACCTGCAAGCGGCGAACACTGCTTTCATCGACGTATTCTGCCAGCGCCTGCAAGCGGCGGGGCTCAATCCGCTGCCGATTGCCGTGGCCAGCCTCAAGGAACCCGGTTGTCTGGCACAGGTGGAAGATTGGTTGGACGAGGCAGCGGCGGGGGTGATTCTAAACACCACCGGCTTCGCCCAATCCAGCCCTGAAGCACCGCATCTGCGGCCGTTTCGCCGCGACATCCCGGTGATCCAGGCGATCTGCGCGCAGGACAATGAGCCCGGCTGGCGCGCCAGCGAACAAGGCCTGGGGCCACGCGACCTGGCGATGCACATCGCCCTGCCGGAACTGGATGGACGGATCATCAGCCGGCCTATCAGTTTCAAGGACCTGGCCTGGCGCAGCGAGCGCAGCCAGAGCGATGTGGTCTGCTACCGGGCGGTGCCCGAGCGCATGGATTTCGTTGCCGAGCTAGCCCGGCGCTGGACGGCGCTGGCGCGTCTGCCCAGCCGCGAAAAGCGCGTGGCGCTGATCCTCGCCAACTACCCGACTCGTGATGGGCGCATCGGCAACGGTGTCGGCCTGGACACGCCGGCGGCGGCGCTGAATATCCTCCGCGCCCTGCAGGCCGAGGGCTATCCGCTGTCGGCCGAGCTGCCGGCCAGCGGCACCGCGTTGATCCAGCAATTGCTCGGCGGCGTCAGCAACGATCTCGACAGCCTGGATTTGCGCCCGTGTCATCAAAGCCTGGCCCTGGACGCCTATCAAGCCATGTTCGACGCGCTACCCGAGGCCAACCGCGACGCGGTATTGGCCCGTTGGGGCGCGCCCGAGCAGGACCCGATGTTCCGTCAAGGTCGGCTGATGGTCGCCGGGTTGCGCCTGGGCCTGACGTTTATCGGCATCCAGCCGGCGCGCGGGTATCAGCTTGACCCGAGCGCGGTCTACCACGACCCGGACCTGGTGCCGCCCCACGGTTATCTGGCGTTCTACTTCTGGTTGCGCCACACCTACGGCGCCCATGCTGTTATTCACGTCGGCAAGCACGGCAACCTCGAATGGCTGCCGGGCAAGGGCGTCGGGCTCTCGGAAAATTGCTGGCCGGATGCGCTGCTCGGACCGCTGCCGAACATCTACCCGTTCATCGTCAATGACCCGGGCGAGGGCGCCCAGGCCAAGCGACGCACACAGGCGGTAATCATCGATCACTTGATGCCGCCGCTGACCCGGGCCGAAACCTACGGGCCGCTGCGCAACCTCGAACTGCTCGCGGACGAATACTACGAGGCGCAACTGCTCGACCCGCGCCGCGCCCGGGAGCTGCAACGGGATATTCTCAACCTGGTGCGCGAGACCCACATCGACCGCGAACTGCAACTCGACGCCGCCCTCGACAGCGACGCCGACGCGGCGATCTGGCTGCCACGCCTGGACACCTACCTGTGCGACCTGAAGGAGTCGCAGATTCGCGACGGCCTGCATATCTTCGGCGAGTCGCCTGGCGGACGGTTGCGTATCGATACCTTGCTGGCGTTGCTGCGCATTCCCCGTGGCGACGGCAAGGGTGCGCAGTCGAGCCTGTTGCGGGCCCTGGCGAAGGCGTTCGGGTTGGGGTTCGATCCGCTCGATTGTGCCTTGGCCGAGCCATGGACCGGGCCGCGGCCCGAGGCCCTGGGCGAGGTCAGCGCCGAGCCTTGGCGCAGCGTCGGCGACACCCGCGAGCGCCTGGAGCTGTTCGCCGCGCGGTTGATCGAACGGGCCCTGGAAGGTCCGGTCAAGCAGCTCGACGCGCCGGGCTGGGACGCGGTGGGGTGCATCATCGAACACCTGCGCGGCGTCGTCGCGCCGCGCCTGGACGCCTGTGGTCCGGCGGAAATGCGCGGCTTGCTTGATGCCCTGGGTGGACGCTTCGTGCCGGCCGGCCCCAGCGGTGCGCCGAGTCGTGGACGCCTGGATGTGCTGCCGACCGGACGCAATTTTTTCTCCGTCGATGTGCGCAACCTGCCCACCACCACGGCGTGGCGCATCGGCTTCCAATCGGCCAACCTGATCCTCGAACGGCACTTGCAGGACCATGGCGATCATCTGCGCCAGCTCGGTCTGTCGGTGTGGGGCACCGCGACCATGCGCACCGGTGGTGATGACATTGCCCAGGCCATGGCGCTGATGGGCGTGCGCCCGGTGTGGGCCACGGGCAGCCAGCGCGTCGACGATTTCGAAATCCTGCCGTTGAGCCTGCTGGACCGGCCCCGGGTCGATGTGACGCTGCGGGTCTCGGGGTTCTTCCGGGACGCCTTCGCCAACCTGATCCGCCTGTTCGATGCGGCGGTGCAGGCCGTTGCGGCCCTTGATGAGCCGGACGACATGAACCCGCTGGCGGCGAAAGTCCGCAGCGAATGCGAAGCCTTGCGGCAAACCGGGCTGCCGTTGGAAGACGCGACGCGCCAGGCCGGCTGGCGGATCTTCGGCGCCAAGCCCGGCGCTTATGGCGCGGGCGTGCAGGGCGCTGTTGACGGACGTCTCTGGCAGAGCCGCGAGGACCTGGCCGAGGTGTACCTCAACTGGGGCGGCTACGCCTACGGCGCCAGTGATGAAGGCACCGCCGCGCGGGCTCAGTTCAGCCGGCGCCTGAGCCAGGTGCAAGCGGTGTTGCAGAACCAGGACAACCGCGAGCACGACCTGCTCGATTCCAACGATTACTACCAGTTCCAGGGCGGCATGCTCGCCGCCGTCGAAACCTTGAGTGGCGAAGCCGCTGCCAGCTACCACGGCGACCACAGCCAGCCGGACTTGCCGAAAATCCGCACCCTGAAGGAAGAGCTCAACCGGGTCATCCGATCCCGCGCGGCCAATCCGAAGTGGATCGACGGCGTCAAGCGCCATGGTTACAAGGGCGCGTTCGAACTGGCGGCGACGGTGGACAACCTGTTTGCCTTCGACGCTACCACGCAGCTGATCGATGATCACCAGTACGCCTTGCTGGCCGATGCCTACCTGCTCGATCCGGATACCCGGGACTTCGTCCGCCAGCACAACCCCGACGCCCTGCGGGACATGACCGAGCGAATGCTCGAAGCCCAGCAGCGGGGGATGTGGCAGGAACCGGGCGACTATCGCGAGGCGCTGGAGAATCTGTTGCTGGATGTCGAAGAAGATGGCTGA	MHLLRTQPGGFVSDDNIADLGQTPAELVILCSGDSSLALLAEAARQLPDDYPQFRLANPMQVQNHASVDLYVDDVLRHAKVILLSLHGGIGYWRYGIERLMELAARGVKLILVPGNDRPDPELSDLSNVALEDRDRLWQFLRQGGLANALNLFHHLGSQWFARDYPWAEPQPLPRTAIYHPEQTHATLDHWQTDWRADEPVAAVLFYRSHLQAANTAFIDVFCQRLQAAGLNPLPIAVASLKEPGCLAQVEDWLDEAAAGVILNTTGFAQSSPEAPHLRPFRRDIPVIQAICAQDNEPGWRASEQGLGPRDLAMHIALPELDGRIISRPISFKDLAWRSERSQSDVVCYRAVPERMDFVAELARRWTALARLPSREKRVALILANYPTRDGRIGNGVGLDTPAAALNILRALQAEGYPLSAELPASGTALIQQLLGGVSNDLDSLDLRPCHQSLALDAYQAMFDALPEANRDAVLARWGAPEQDPMFRQGRLMVAGLRLGLTFIGIQPARGYQLDPSAVYHDPDLVPPHGYLAFYFWLRHTYGAHAVIHVGKHGNLEWLPGKGVGLSENCWPDALLGPLPNIYPFIVNDPGEGAQAKRRTQAVIIDHLMPPLTRAETYGPLRNLELLADEYYEAQLLDPRRARELQRDILNLVRETHIDRELQLDAALDSDADAAIWLPRLDTYLCDLKESQIRDGLHIFGESPGGRLRIDTLLALLRIPRGDGKGAQSSLLRALAKAFGLGFDPLDCALAEPWTGPRPEALGEVSAEPWRSVGDTRERLELFAARLIERALEGPVKQLDAPGWDAVGCIIEHLRGVVAPRLDACGPAEMRGLLDALGGRFVPAGPSGAPSRGRLDVLPTGRNFFSVDVRNLPTTTAWRIGFQSANLILERHLQDHGDHLRQLGLSVWGTATMRTGGDDIAQAMALMGVRPVWATGSQRVDDFEILPLSLLDRPRVDVTLRVSGFFRDAFANLIRLFDAAVQAVAALDEPDDMNPLAAKVRSECEALRQTGLPLEDATRQAGWRIFGAKPGAYGAGVQGAVDGRLWQSREDLAEVYLNWGGYAYGASDEGTAARAQFSRRLSQVQAVLQNQDNREHDLLDSNDYYQFQGGMLAAVETLSGEAAASYHGDHSQPDLPKIRTLKEELNRVIRSRAANPKWIDGVKRHGYKGAFELAATVDNLFAFDATTQLIDDHQYALLADAYLLDPDTRDFVRQHNPDALRDMTERMLEAQQRGMWQEPGDYREALENLLLDVEEDG	PGPT0009280_874	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009280-cobN-K02230	NA	NA
D1-35_02652	1065			hypothetical protein	ATGAAAACACTGGCCAAACTCCCCGTCACCATCGTCACCGGTTTCCTCGGCTCGGGTAAGACCACCTTGCTGCGGCACATGCTCGACAACGCCCAGGGCCGGCGCATCGCGGTGATCGTCAACGAATTCGGCGAGCTCGGTATCGACGGTGAGATTCTCAAACAGTGCTCCATCGGTTGCACCGAAGAAGAAGCCAACGGCCGGGTCTACGAATTGGCCAACGGTTGCCTGTGCTGCACCGTGCAGGAAGAGTTTTTTCCGGTGATGCGCGAACTGGTGGCCCGTCGCGGCGACCTCGACCACATCCTCATCGAAACCTCTGGCCTGGCCCTGCCCAAGCCCTTGGTCCAGGCCTTCCAGTGGCCGGAAATCCGCAGCGCCTGCACGGTCGATGCGGTGATTACCGTGGTCGACAGCCCGGCCGTGGCCGCCGGTACTTTTGCCGCGTTCCCCGACCAGGTCGATGCCCAGCGCAAACTGGACCCGAACCTGGATCACGAATCGCCGCTGCACGAGCTGTTCGCCGATCAACTGGCGAGCGCCGACCTGGTGATCCTCAACAAGGCCGACCTGATCAGCCCTGAAGACCTGGCAAAAGTCCGCCTGGAAGTCGCCGAAGAATTGCCGCCAGCGGTCAAGGTCATCGAAGCCAGCAGCGGTCGCCTGCCGCTGGACGTGCTGATTGGTCTGGGCGCGGGCTCCGAAGAGCACATCGACAGCCGCCACAGCCACCACGACCATCACCATGACGGTGATGATGACGACCACGATCATGACGCCTTCGACTCGATCTCCCTCGAACTGCCCCAGGCCGATGAAAGCCTGCTGCTGGACGCGCTGACGCAACTGGTGATCCAGCATGACGTGCTGCGGGTCAAGGGTTTCGCGGCGATCCCGAACAAGCCGATGCGCTTGTTGATCCAGGGCGTCGGCACGCGCTTCGACAAACACTTCGACCGCCAGTGGGGCGCCGACGAAGCGCGGGTGACGCGGCTGGTGCTGATCGGCCAGGCGCTGGATGCCGGGCTGCTTGAAGCGCAGCTGCGCGCCGCCCTCAGCGTCTAA	MKTLAKLPVTIVTGFLGSGKTTLLRHMLDNAQGRRIAVIVNEFGELGIDGEILKQCSIGCTEEEANGRVYELANGCLCCTVQEEFFPVMRELVARRGDLDHILIETSGLALPKPLVQAFQWPEIRSACTVDAVITVVDSPAVAAGTFAAFPDQVDAQRKLDPNLDHESPLHELFADQLASADLVILNKADLISPEDLAKVRLEVAEELPPAVKVIEASSGRLPLDVLIGLGAGSEEHIDSRHSHHDHHHDGDDDDHDHDAFDSISLELPQADESLLLDALTQLVIQHDVLRVKGFAAIPNKPMRLLIQGVGTRFDKHFDRQWGADEARVTRLVLIGQALDAGLLEAQLRAALSV				NA	NA	NA	NA	NA
D1-35_02654	1137	garK	COG1929	Glycerate 2-kinase	ATGAAAATAATCATCGCCCCCGACTCGTTCAAGGACAGTCTCAGCGCCCAGGGCGTGGCGGACGCGATTGCCCAGGGGTTGGCCGAGGTCTGGCCGGATGCGCAGTTGATCAAATGCCCGATGGCCGACGGCGGGGAAGGGACGGTGGAGTCGGTGCTGGCGGCGTGCAACGGCCAATGGCGTCGCGCCCTGGTTCGCGGGCCCTTGGGCGCCGCTGTCGAGGCCCGCTGGGGCTGGCTGCCCGACAGCGGCACCGCGATCATCGAGATGGCTGAGGCCAGCGGCCTGCAACTGGTGCCTCCGGGACAGCGCGACGCGTGCTGCAGCAGCACCTTCGGCACCGGCGAACTGATTCGCGCCGCCCTCGATGAGGGGGCCCAGCGCGTGATCCTGGCGATCGGCGGCAGTGCCACCAACGACGGCGGTGCCGGGGCGCTGCAGGCTCTGGGCGTGGCGCTGCTGGACGCAAAGGGCCAATCGCTGCCGCCCGGCGGCCTGGCCCTGGGCAAACTGGCGCGCATTGACCTGAGCGAGTTGGACCCGCGCCTGGCCGGGGTGCGTTTCGAAATCGCTGCCGACGTCGATAACCCCTTGTGCGGGCCCCATGGCGCTTCAGCGGTGTTCGGCCCGCAGAAGGGCGCTTCTGCCGAGCAGGTGCAGCAACTGGATCGCGCGCTGGGGCATTTCGCCGAGCACTGCGCCCAGGCGTTGCACCGGGACGTGCGCGATGAACCGGGCAGTGGCGCCGCCGGAGGCCTGGGATTCGCGGCCAAGGCCTTTCTCCAGGCCCGGTTTCGCACCGGCGTGGAAGTCGTTGCGCAATTGACCGGCCTGGCCGAGGCGATCAACGGGGCCGATCTGGTCATCACCGGCGAAGGCCGTTTCGATGCGCAGACCCTGCGCGGCAAGACGCCTTTTGGCGTGGCCCGCATTGCCCGACACCAAGGTGTACCGGTAGTGGTCATTGCCGGCACGCTGGGGGAGGGTTATCAGGCGCTGTATGAGCATGGCATCGATGCCGCCTTTGCCCTGGCGAACGGGCCGATGACACTTCAAGAGGCCTGCACCGATGCGCCACGCCTGTTGGCCGAGCGCGCGCGGGATATCGCCCGGCTCTGGCGCGTGGCGGCCCGCTAG	MKIIIAPDSFKDSLSAQGVADAIAQGLAEVWPDAQLIKCPMADGGEGTVESVLAACNGQWRRALVRGPLGAAVEARWGWLPDSGTAIIEMAEASGLQLVPPGQRDACCSSTFGTGELIRAALDEGAQRVILAIGGSATNDGGAGALQALGVALLDAKGQSLPPGGLALGKLARIDLSELDPRLAGVRFEIAADVDNPLCGPHGASAVFGPQKGASAEQVQQLDRALGHFAEHCAQALHRDVRDEPGSGAAGGLGFAAKAFLQARFRTGVEVVAQLTGLAEAINGADLVITGEGRFDAQTLRGKTPFGVARIARHQGVPVVVIAGTLGEGYQALYEHGIDAAFALANGPMTLQEACTDAPRLLAERARDIARLWRVAAR	PGPT0018175_2141	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018175-garK|glxK-K00865	NA	NA
D1-35_02655	1125	cdaR	COG3835	Carbohydrate diacid regulator	ATGTTCGAACTCGATCACGACCTGGCCCAGGACATCGTCGACCGGGCGATGGCGATTCTGCCCTATAACGTCAACGTCATGGACAACCAGGGCCTGATCCTCGCCAGCGGCGAGCGTGAGCGCATCAATACCCGTCACGAGGGTGCGCAGTTGGTCCTGGCGAATGGGCGGGTGGTGGAAATCGACGAGCACACCGCCGTGCACCTCAAGGGCGTGCAGCCAGGAATCAACCTGCCGTTGATGCTCGACCAGCGGCTGATCGGCGTGCTTGGCATCACCGGCGAACCCGCGCACTTGCGCACCTACGCCGAGCTGGTGCGCATGACCGCCGAAATGCTGCTCGCCCAGCGCAACCAGCAGGCCGAGCAGCAATGGCGGCGCCAGCGTTGCGATGATTTACTGGCGCTGCTGCTGGGTGATGCCGGGGATTCGCCACGGTTGCTCGACGAAGCCCTGCAGATGGGCCTCAAGCCGCAGCTGTCGCGGGTGCCATACCTGTTTGAATTGGGCCAGGAGCATGGGCCCGGGCAAACGGTCGAGGCGCTGAGCGCGTGGCTGATGTCGCGCTACCCGGACAGCTGGTGCCTGACCTCATCCAAATCTTCTTTGCTCTGGTGCCGGCCGGTTACGGCTTCGGTGGAGAACGAGCGCTTGCTCGGCAAGCTCGACGGGCTGGGCTGGAACATCCTCAGGGTGGCGGTGGGCGGTCAGGCCGAGGGTCTGACCGGCCTGCGCCGTTGCTACCGGCGTGTGGCGGACTTGCTCGCTTACGGCCGTGATGTCCTGCCGCAGTCGCGCCTGTTGATCCTCAATCGTTATCGCCTGCCGGTGCTGCTCTGGCGCCATCGCAGCGACGATGCGCTGGACGAGTTGCTGACACCGCTGCGCAAGGTGATCGCCAAGGACAACAACGGACAACTCCTGGCCACCCTGCGCAGCTGGTGCGAATACGACGGCCAGAGCCAGGCCTGCGCCGACGCCCTGGGCATCCACCGCAACAGCCTGCGCTATCGCATGGAACGCATCGCCGAGCTCAGCGGCGTGGACCCGCTGCGGCTGGATGGGATGCTGGCGTTGTACCTGGGGGTGCAACTGTTGCCGCACGATCAAAACCTCCCCTCATGA	MFELDHDLAQDIVDRAMAILPYNVNVMDNQGLILASGERERINTRHEGAQLVLANGRVVEIDEHTAVHLKGVQPGINLPLMLDQRLIGVLGITGEPAHLRTYAELVRMTAEMLLAQRNQQAEQQWRRQRCDDLLALLLGDAGDSPRLLDEALQMGLKPQLSRVPYLFELGQEHGPGQTVEALSAWLMSRYPDSWCLTSSKSSLLWCRPVTASVENERLLGKLDGLGWNILRVAVGGQAEGLTGLRRCYRRVADLLAYGRDVLPQSRLLILNRYRLPVLLWRHRSDDALDELLTPLRKVIAKDNNGQLLATLRSWCEYDGQSQACADALGIHRNSLRYRMERIAELSGVDPLRLDGMLALYLGVQLLPHDQNLPS				NA	NA	NA	NA	NA
D1-35_02656	1311	nicT_2		Putative metabolite transport protein NicT	ATGTCCCAGAGCGCAGCAGCCCTCCTGGCTACCCCCGACGAAAAAAATACCGTCTACAAGCGCATCACCCTGCGCTTGATCCCCTTCATCTTCATCTGCTACCTGTTCAACTACCTGGACCGGGTCAACGTTGGCTTCGCCAAGTTGCAGATGCTCGATGCGCTGAAATTCAGCGAAACCGTGTACGGCCTTGGTGCCGGGATCTTCTTCATCGGCTACGTGCTGTGTGGCGTGCCGAGCAACCTGGCACTGACAAAATTCGGCCCGCGGCGCTGGATCGCGCTGATGATGATCACCTGGGGCACGCTGTCGACCTGCCTGCTGTTCGTCACCACCCCGACCGGGTTCTATACCTTGCGGCTGTTCACCGGTGCAGCCGAGGCCGGGTTCTTCCCTGGCGTGGTGCTGTACCTCTCGCAGTGGTTCCCGACGTTCCGTCGCGGCCGGATCATGGCGCTGTTCATGTCGGCCATCCCGGTGTCGGGCCTGCTCGGCAGCCCGTTTTCCGGCTGGATCCTCAACCATTTCGCCGCTGGCCAGGGTGGCCTGGCGGGCTGGCAGTGGATGTTCCTGCTGCAAGGCGTGCCGACGGTGATCCTCGGGGCTCTGGCGTTCTTCCTGCTCAGCGACACCTTCGCCAATGCCAAATGGCTGACCGACCATGAGCGCGCCGTGCTCACCGCCGACCATGCCGAAGACCTGGCCAACAAGCCGAAGACCACCACCGATTCCCTGGCAGCCGTATTCAAGAACCCGGCGATCTGGGCCTTCGGCCTGGTGTACTTCTGCATCCAGAGCGGCGTGTACGCGATCAACTTCTGGCTGCCGTCGATCATCAAGAACCTGGGTTTCAGCGATAACCTGGTGATCGGCTGGCTGAGTGCGATCCCCTATCTGCTGGCGGCGGTGTTCATGCTGCTGGTGGGCCGCTCGGCAGACCTGCGCAAGGAGCGCCGCTGGCATCTGGTCGTGCCGATGCTGATGGGTGCGGTCGGGCTGCTGATCGCCGTCAATTTCGCCACTACGCCGGCCATCGCCATCCTCGGCCTGACCATCGCCACCATGGGCGCCCTCACCGGCCTGCCGATGTTCTGGCCGGTGCCCACCGCCCTGCTCAGCGCGGGGGCGGCGGCCGGCGGGCTGGCGCTGATCAATTCCATGGGCCAGATGGCCGGCTTCCTCAGTCCGTACCTGGTGGGCTGGGTCAAGGACGCCACCGGCTCGACCGATGCGGCGCTCTATGTGCTGGCGGCAGTGATTGTCTGCGGCAGCCTGCTGGCGTTGCGCATGACGCGCACCCTGCGGGGCTGA	MSQSAAALLATPDEKNTVYKRITLRLIPFIFICYLFNYLDRVNVGFAKLQMLDALKFSETVYGLGAGIFFIGYVLCGVPSNLALTKFGPRRWIALMMITWGTLSTCLLFVTTPTGFYTLRLFTGAAEAGFFPGVVLYLSQWFPTFRRGRIMALFMSAIPVSGLLGSPFSGWILNHFAAGQGGLAGWQWMFLLQGVPTVILGALAFFLLSDTFANAKWLTDHERAVLTADHAEDLANKPKTTTDSLAAVFKNPAIWAFGLVYFCIQSGVYAINFWLPSIIKNLGFSDNLVIGWLSAIPYLLAAVFMLLVGRSADLRKERRWHLVVPMLMGAVGLLIAVNFATTPAIAILGLTIATMGALTGLPMFWPVPTALLSAGAAAGGLALINSMGQMAGFLSPYLVGWVKDATGSTDAALYVLAAVIVCGSLLALRMTRTLRG	PGPT0002325_665	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-ORGANIC_ACID_METABOLISM	P-SOLUBILISATION-TARTARIC_ACID_TRANSPORT,PGPT0002325-ttuB-K13021	NA	NA
D1-35_02657	1014	yajO	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGAGCTACCGCACGCTGGGCCATTCCGGGTTGCAAGTCTCGACGCTGACCCTGGGCACGATGATGTTCGGTGAACAGACCAGCACCGAGGATTCGCTGCGGATCATCGACAAGGCCTGGGACCAGGGCATCAATTTCATCGACACGGCCGACGTCTACACCAACGGCCGTTCCGAAGAAATCGTCGGCGAGGCGATTGCCAGCCGGCGCCACGAGTGGGTGCTCGCCACCAAGGTCGGCTTCGGCCCGCCGGACGGTGTGCCCAACCGCAGCGGCTTGAGCCGCAAGCATATCTTCAACGGCATCGAGGCCAGCCTGACGCGCCTGGGCACCGATTACCTGGACATCTACTACCTGCACCGCGAAGACCACAACACGCCATTGCAGGTCACGGTGTCGGCCATCGGCGACTTGATTCGCCAGGGCAAGATCCGCTACTGGGGCCTGTCGAATTACCGCGCCTGGCGCATCGCCGAAGTGATCCGCATCGCCGACAGCCTGGGCGTCGATCGGCCGGTGATCAGCCAGCCGCTGTACAACATCGTCAACCGCCAGGCGGAAACCGAACAGATCACCGCCGCGCAGAACTACGGCCTCGGCGTGGTGCCCTACAGCCCCCTCGCCCGAGGTGTGCTCAGCGGCAAGTACGCACCCGATGTGGCACCGGATGCCAACAGCCGCGCCGGACGCCAGGACAAGCGCATCCTGGAAACCGAATGGCGGGTCGAATCCTTGCGCATTGCCCAGCAGATCCAGCAATACACCCGGGATCGCGGCGTCGGCATTGTCGAGTTCGCCATTGCCTGGGTGCTGAACAACCGTGCCGTCACGTCGGCGATCGTCGGACCGCGCACCGAAGAACAATGGGACGCGTACACCAGGGCGCAAGCGGTGCGGATCACCGCGGATGACGAAGCGTTCATCGATTCGCTGGTGACACCGGGGCATGCTTCGACGCCGGGCTTCAACGACATCAGTCATTTCGTGTCGGGCCGCGTGCCGCATACGTCGTAA	MSYRTLGHSGLQVSTLTLGTMMFGEQTSTEDSLRIIDKAWDQGINFIDTADVYTNGRSEEIVGEAIASRRHEWVLATKVGFGPPDGVPNRSGLSRKHIFNGIEASLTRLGTDYLDIYYLHREDHNTPLQVTVSAIGDLIRQGKIRYWGLSNYRAWRIAEVIRIADSLGVDRPVISQPLYNIVNRQAETEQITAAQNYGLGVVPYSPLARGVLSGKYAPDVAPDANSRAGRQDKRILETEWRVESLRIAQQIQQYTRDRGVGIVEFAIAWVLNNRAVTSAIVGPRTEEQWDAYTRAQAVRITADDEAFIDSLVTPGHASTPGFNDISHFVSGRVPHTS	PGPT0017540_1333	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017540-yajO|iolS-K23107	NA	NA
D1-35_02658	885	rarD_1	COG2962	Protein RarD	GTGTCCAAAGGCATCGCTCTATCGGTATCGGCCTCCGCCCTGTTCGCGGTCATGTACTACTACACCTCGCTGCTCGCACCGCTGACCGGCCTGGAGATTTTTGGCTGGCGCATGCTGCTGACGATGCCTTGCATGACGGCGTTCATGCTGATTTCACGGGAGTGGAAGCTCGTCGCCGATCTCGTCGAGCGCCTGGTCGCCACACCGCTTCTGCTGCTCGGGGCGATGGCGTCTTCGGCGCTGATGGGCGCGCAGTTGTGGCTGTTCATGTGGGCGCCGCTCAACGGCTACAGCCTGGACGTGTCGCTGGGTTATTTTCTGCTGCCGCTGTCGATGGTCCTGACCGGGCGCATCGTCTATGGCGAGCGACTCTCGCGCTTTCAGAAAGCCGCCGTGTTGCTCGCTACGCTCGGCGTGTTCAACGAGCTATGGCAAGTCGGTGGTCTGTCCTGGGCGACCCTGTTGGTCGTGCTGGGCTATCCGCTGTATTTCATCCTGCGCAAACGCATCCGGACCGACAACCTGGGCGGTCTCTGGCTGGACATGGCCCTGATGCTGCCGTTGGCCCTCTGGTTCGTGCAGAGCGGAGCGCAAGGCTTTGGTGTCTTCAACCAGTACCCGTGGCTGTCGCTGCTCATTCCGGTACTTGGCGTCATCAGCGCCTCGGCGTTGGTGGCGTACATCGTTGCCAGCCGCTTGCTGCCGCTCGGCCTGTTCGGGCTGTTGAGTTATGTCGAGCCGGTGCTGCTGCTGGGCGTGGCGCTGCTGCTGGGGGAAAGCATCGAGGCTGAGGAATGGCTCACCTATATCCCCATCTGGCTGGCGGTGGCCGTGCTGGTGCTGGAAGGCTTCAGGCACCTGGTGCGGCAGCGGCGCCGGGCTTAA	MSKGIALSVSASALFAVMYYYTSLLAPLTGLEIFGWRMLLTMPCMTAFMLISREWKLVADLVERLVATPLLLLGAMASSALMGAQLWLFMWAPLNGYSLDVSLGYFLLPLSMVLTGRIVYGERLSRFQKAAVLLATLGVFNELWQVGGLSWATLLVVLGYPLYFILRKRIRTDNLGGLWLDMALMLPLALWFVQSGAQGFGVFNQYPWLSLLIPVLGVISASALVAYIVASRLLPLGLFGLLSYVEPVLLLGVALLLGESIEAEEWLTYIPIWLAVAVLVLEGFRHLVRQRRRA	PGPT0003906_2613	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003906-rarD-K05786	NA	NA
D1-35_02659	1077	hpd		4-hydroxyphenylpyruvate dioxygenase	ATGGCAGATCTATACGAAAACCCGATGGGCCTGATGGGCTTCGAATTCATTGAATTCGCATCCCCGACCCCGAATACCCTGGAGCCGATCTTCGAGATCATGGGCTTCACCAAGGTGGCCACCCACCGTTCCAAAGACGTGCACCTGTACCGCCAGGGCGCGATCAACCTGATCCTCAACAACGAACCGCACAGCGTGGCGTCCTACTTCGCGGCCGAGCACGGCCCGTCGGTATGCGGCATGGCCTTCCGCGTCAAGGATTCGCAAAAAGCCTACAAGCGGGCCCTGGAACTCGGTGCCCAGCCGATCCACATCGAAACCGGCCCGATGGAGCTGAACCTCCCGGCGATCAAAGGCATTGGCGGCGCGCCGCTGTACCTGATCGACCGTTTTGGCGAAGGCAGCTCGATCTACGACATCGACTTCGTCTTCCTCGAGGGTGTCGATCGCAATCCGGTGGGCGCCGGTCTGAAGATCATCGACCACCTGACCCACAACGTTTATCGCGGGCGCATGGCCTACTGGGCCAACTTCTACGAGAAGCTGTTCAATTTCCGCGAGATTCGTTACTTCGACATCAAGGGCGAATACACCGGCCTGACTTCCAAGGCCATGACAGCCCCGGACGGCATGATCCGCATCCCGCTGAACGAAGAGTCATCCAAGGGCGCCGGGCAGATTGAAGAGTTCCTGATGCAGTTCAATGGCGAAGGCATCCAGCACGTGGCCTTCCTGACCGACGACTTGATCAAGACCTGGGACGCGCTCAAGAAGATCGGCATGCGCTTCATGACCGCGCCGCCGGACACCTATTACGAAATGCTCGAAGGCCGCCTGCCGAACCATGGCGAACCGGTGGCGGAGCTGCAATCGCGGGGCATCCTGCTGGACGGGGCCTCGGAGCAGGGCGACAAGCGCCTGTTGCTGCAGATCTTCTCGGAAACCCTGATGGGGCCGGTGTTCTTCGAGTTCATCCAGCGCAAGGGCGACGATGGCTTCGGCGAGGGCAACTTCAAGGCACTGTTCGAATCGATCGAGCGTGACCAGGTGCGGCGTGGTGTACTCACTACCGAGTAA	MADLYENPMGLMGFEFIEFASPTPNTLEPIFEIMGFTKVATHRSKDVHLYRQGAINLILNNEPHSVASYFAAEHGPSVCGMAFRVKDSQKAYKRALELGAQPIHIETGPMELNLPAIKGIGGAPLYLIDRFGEGSSIYDIDFVFLEGVDRNPVGAGLKIIDHLTHNVYRGRMAYWANFYEKLFNFREIRYFDIKGEYTGLTSKAMTAPDGMIRIPLNEESSKGAGQIEEFLMQFNGEGIQHVAFLTDDLIKTWDALKKIGMRFMTAPPDTYYEMLEGRLPNHGEPVAELQSRGILLDGASEQGDKRLLLQIFSETLMGPVFFEFIQRKGDDGFGEGNFKALFESIERDQVRRGVLTTE	PGPT0009480_1462	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0009480-hppD-K00457	NA	NA
D1-35_02660	945	eamA_1	COG0697	putative amino-acid metabolite efflux pump	ATGAAAGCCCTGGAACAAACTGCCTCGACACCCTCGGACCTGCCGGTCTACCTCAAGCTTGCGATGGTCACGATGATCTGGGGCGGCACCTTTGTTGCCGGCAGGATCCTTGCCGATGCGCTGACGCCGATGTTCGCCGCCAGCTTGCGTTTTCTCCTGGCGAGCATCGCGCTGTTGCTGTTTCTCGGCGTCGCCGGTATCCCCCTGGCCAGGCCCGGCTTGAAGCAGGGCCTGCAACTGGCCGCGCTGGGGTTCTTCGGGATTTTTCTCTACAACCTGTGTTTCTTCCATGGCTTGCAATACATCAACGCGTCGCGCGCCTCGTTGATCGTCGCGTTGAACCCGGCAGTGATCGGCTTGGCCTCCTGGTGCTTGTTCAAGGAACGGTTGGGCCGCTTTAAAGTCGCCGGTATCGTGCTGTGCATCGGCGGGGCGGGGTTGGTCATCATCAGTCGCGAACCGGCGCTGTTGCAGGCGACGGAACAGGCTTGGCGCGGGGATCTGCTGATTTTCGGCTGTGTGCTGGGGTGGGGCATCTATTCGCTGTTTTCCAAAGGCCTGAATGAGAGCCTGGGTCCTTTGCAGACCGTGACCTGGTCGATCCTGCTGGGCACGCTGATGTTGTGGCTGGCGTGCGCAGCCGGCGGTGAGATCCGCTTCGAGGCATTGCGTGGGCTGGACCTCAGGCAATGGTTGAGCCTGCTGTACCTCGGCGTGCTGGGTTCGGCCCTGGCCTATATCGCCTGGTATCAGGGCATCCGCCGGATCGGTGCGACGCGTTCCGGCGTCTTCATTGCGCTCAACCCGCTGACGGCGGTACTGCTGGGCGCGATGCTGCTCGACGAACGGCTCACTTTATTTATGTGCGTAGGCGGCGGGTTGATCCTGGCGGGGATCTTCCTGTGCAACAAACCGCTTGCACGCTCGGCAAAAAAGACGATTTGA	MKALEQTASTPSDLPVYLKLAMVTMIWGGTFVAGRILADALTPMFAASLRFLLASIALLLFLGVAGIPLARPGLKQGLQLAALGFFGIFLYNLCFFHGLQYINASRASLIVALNPAVIGLASWCLFKERLGRFKVAGIVLCIGGAGLVIISREPALLQATEQAWRGDLLIFGCVLGWGIYSLFSKGLNESLGPLQTVTWSILLGTLMLWLACAAGGEIRFEALRGLDLRQWLSLLYLGVLGSALAYIAWYQGIRRIGATRSGVFIALNPLTAVLLGAMLLDERLTLFMCVGGGLILAGIFLCNKPLARSAKKTI				NA	NA	NA	NA	NA
D1-35_02661	864	gltC_2		HTH-type transcriptional regulator GltC	ATGACTCTCACCCAACTCGAAATCTTTTCGCTGGTCGCCGAGCTGCAAGGTTTCACCGCGGCCGCGACACGCCTGGGCATCGGCCAGTCAGCGGTGTCCCACGCGATAAAATCCCTGGAACAGGAGTTGGGCGTCGAACTGTTCAGGCGTCATCAATCCCTCGTCGAGCTCAGCGACATCGGCCAGCAATTGTTGCTGCGTGCGCGGGCGATGCTCGGCCTCGCCAATACCCTGCAACAGGAGGCCGCGGATGCCCGCGGCATGCGCCGTGGAACCCTGCGCATCGGCTCGTTCGGGCCGACGTCGTCGATGAAACTGCTGCCCGCCATCCTGCAGCGCTACCGCACCCTGCATCCGGGAATCGAAGTGCACATCGATGAAGGGCCGGACCGGCAAGTGCTGCAATGGCTGGATGAACGACGGATCGACGTCGGTTTCGTGGTCCTGCCCGAGGAACGCTTCGATACGTTCGCCTTGATGGAAGACCAGATGGTCGCCCTGCTGCCCACCGATCATCCCCTCGCCGAGCGCGCCTGCGTGGAGCTCAAGGCGCTGTGCAACGACCCCTTCATACTCACCGAGGCCGGCTCCTCGGAAGTGGTCGGGCGGCTGTTCAGCGCCGCCCGGCTCACGCCGAATATCCGCTATCGCTGTTCGCAACTGCTCAGCACGCTGGATGTGGTCAGCCGGGGTGAAGCCGTGACCGTGGTTTCCGAGGGTTCGCTGCCGGCCGTGGAAAATCCCGGGTTTGTCGTACGTCCCTTGTCGCCGCGCGTTCCGCGCCAGATCGGCCTCGCGGTGCTGGACAGCCGCCAGGCCTCGCCCGCGACGCTGGCATTTATCGAAGTCGCCCGGCAACCATAA	MTLTQLEIFSLVAELQGFTAAATRLGIGQSAVSHAIKSLEQELGVELFRRHQSLVELSDIGQQLLLRARAMLGLANTLQQEAADARGMRRGTLRIGSFGPTSSMKLLPAILQRYRTLHPGIEVHIDEGPDRQVLQWLDERRIDVGFVVLPEERFDTFALMEDQMVALLPTDHPLAERACVELKALCNDPFILTEAGSSEVVGRLFSAARLTPNIRYRCSQLLSTLDVVSRGEAVTVVSEGSLPAVENPGFVVRPLSPRVPRQIGLAVLDSRQASPATLAFIEVARQP				NA	NA	NA	NA	NA
D1-35_02662	1563	pdeG		putative cyclic di-GMP phosphodiesterase PdeG	ATGCCATTGTCCGCCACACAGATACGCAAGCGGTCCCGTCGCAACCTGATCACCCTGCTCTGCGGGGTGCTGCCGGTGCTCTCGGGAGTGGGCATTCTCCATATCCAGGCCGAACGGACATTGCAACAGCAGGCCCGCCAGACCGCGGGAGAGCTGGTCCGGCAAGTCGAGCTGATGCTCGACAATACCGCGCTGGCGGCGCGCGCACTGCTGCCCCTGGCCGGTCAACCTTGCGAAGCGGTAAAACTGGCCCTGCGTGACCAGGTGACCCGCCGGCCCTTCGTCCGTTCGACCAACCTGATATGGGACGACACGCTGTACTGCAGCTCGCTGTTCGGCGAATTCGAGGAGCCGGTCAACCCGCACAATTACCACCAGGGCACTCTGTGGCTGATGGACGGCAACCCGGTCACGCCCGACACGGCATTGCTGATCTACCGGCTCAACGAGGGCCGGCAAGGGGCACTGGCGACACTGGACGGTTACCACCTGGCTAATGTCCTGCGCCTGATTGGCGGCGAGACGCGTTTGTTGCTGCAAGTAGGACCGAGCTGGCTGGCGGCGGACGGCAAGGTCCGGCAAACCCCGCCGCCTGCCCAGAAGGTAGCTCGCAACGAGTTGGCCTCGTCACGCTACGCCTTCAGCGTCGAAGCCGGCTTCGATGAAGGGGAAACCTGGCGCTACATGGCTCGGGAATATCCACCGCTATTCAGCCTGCTGATTGTCTTCGGCGCCATCGCGGCGCTGCTCGCCCATTGGACACAGAAACGCGCCTCCTCCCCCAGCCATGAACTGCTGCGCGCCCTCGAGGCCGGGGAGTTTGTGCCGTATCTGCAACCGGTGGTGCGCGGCGATGACAAGCGTTGGGCCGGGGTTGAGGTGCTGATGCGCTGGAACCACCCCAAGGAAGGCCTGGTGCGTCCAGACCTGTTTATCCCGCTCGCCGAACACAGCGGGCTGATCGTGCCGATGACCCAAGCACTGATGCAGCAGACCAGGCAATTGCTGGCGCCGCTCGCGCCCTTGCTGGAGGCGCCGTTTCATGTCGGTATCAATATCACCGCCCGCCACTGCAAGGACCTTGCGCTGCTGGAGGATTGCCGCGAGTTCCTGGCCGCGTTCCCACCGGGTGTCATCACGCTGGTGCTGGAGCTGACCGAGCGCGAGCTGATCGAACCGAGCCCGGTGACCCACCAATTGTTCGAGCTGCTGCGCGATCTGGGCGTCAAGATCGCCATCGACGATTTCGGCACCGGCCACTCCAGCCTGGGGTACTTGCAGCAGTTCAACGTCGATTTTCTGAAAATCGATCAAAGCTTTGTCGCGATGATCGGCGCCGATGCGCTGTCACGCCATATCCTGGACAGCATCATCGAGTTGTCGGGAAAACTGCAGTTGGAGATCGTCGCAGAGGGCGTCGAAACCGTTGAGCAAAGCGATTACCTGACGGCTCACAACGTCAACTTTCTACAAGGCTATCTGTTTGGCCGGCCTATTAGTGGCCAAGACTTCAATGCTGCGCTGACCGCCGCTAAAAGCCCGCCCACGACACCGTTCGATTGA	MPLSATQIRKRSRRNLITLLCGVLPVLSGVGILHIQAERTLQQQARQTAGELVRQVELMLDNTALAARALLPLAGQPCEAVKLALRDQVTRRPFVRSTNLIWDDTLYCSSLFGEFEEPVNPHNYHQGTLWLMDGNPVTPDTALLIYRLNEGRQGALATLDGYHLANVLRLIGGETRLLLQVGPSWLAADGKVRQTPPPAQKVARNELASSRYAFSVEAGFDEGETWRYMAREYPPLFSLLIVFGAIAALLAHWTQKRASSPSHELLRALEAGEFVPYLQPVVRGDDKRWAGVEVLMRWNHPKEGLVRPDLFIPLAEHSGLIVPMTQALMQQTRQLLAPLAPLLEAPFHVGINITARHCKDLALLEDCREFLAAFPPGVITLVLELTERELIEPSPVTHQLFELLRDLGVKIAIDDFGTGHSSLGYLQQFNVDFLKIDQSFVAMIGADALSRHILDSIIELSGKLQLEIVAEGVETVEQSDYLTAHNVNFLQGYLFGRPISGQDFNAALTAAKSPPTTPFD	PGPT0026215_325	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0026215-adrB-K21090	NA	NA
D1-35_02663	366			hypothetical protein	TTGTCCAGACTCGCTGAATTCCGTGCAGCCGAAAGGGCCCTTCAGGAGCAGCTCAAACAGCTGGAATCTCTGAAGAATGACGCCGGGCTGAAAAAAGAGATCGAATTTGAAGAAAAGCTCCTGGGGCTGATGAAAACCTACGGCAAGAGCTTGCGCGACATCGTCGCCATTCTTGATCCGAAGCCGTCCAAGGCCGGCCCGCAGGCGGTCAAGCCAACCAAGACCCGCCGCGCCCGCGTGGTCAAGGTGTACCAGAACCCGCACTCCGGCGAGCTGATCGAAACCAAGGGCGGCAACCACCGCGGCCTGAAAGCGTGGAAGGAACAATACGGGGCTCAAACCGTTGATTCCTGGTTGCGCGGTTGA	MSRLAEFRAAERALQEQLKQLESLKNDAGLKKEIEFEEKLLGLMKTYGKSLRDIVAILDPKPSKAGPQAVKPTKTRRARVVKVYQNPHSGELIETKGGNHRGLKAWKEQYGAQTVDSWLRG				NA	NA	NA	NA	NA
D1-35_02664	636			hypothetical protein	ATGATACGCAAGGCGCGCGCCATCGCCAAACCGCGTGTGGCTATTGCCTGGTGCTGCGGCGGGCTTCAGACTTTACGATTCGTCCTTGAGTGCAACGCAATGATTCGACCTTGTCTTACGCTGTTCATTCTCTTGTCAGCCGGCATTGCGAGTAGCGGTGCCCTTGCGCTCGAACCGCAGGTTGCGTGGCCATCGGGCTGGGTAGTCGAGTCGCTCCCCGCGCCAGCGTCCACACCGGCGAGTGCGCAGTCGATCAGTCGTGAACGCGCGACCAAGAACGATTCCGCGGGTAATGCGGTGATGGTGATGGAACTGACAACCACGCCGGTCGAACCCGATCATCAGGTCAACTTGCAAGGTGTGTTGCTGGAGATGCGAAAATCCGTTCAGAAGGATTTTTTCCAGGGCGGTTATCAAAGCGTCTGCAATAAGATTCATTCTTCCCTGTTGGGCGGGACTGCAGCGCTGGAAACCACTTGCACGATCACGCAGAACGGCAGACACGTGTTGTCTCAAACACTTGTTGCTGCGCTAAAAGAGGGCAGGGCGTATGTGCTGTCCTACGCCGGCCAGGCCCAGGTATTTGATGAAAGCCAGGAGGAAGTTCAGTCTGTAAGAAATAGCCTGAAACTCTAA	MIRKARAIAKPRVAIAWCCGGLQTLRFVLECNAMIRPCLTLFILLSAGIASSGALALEPQVAWPSGWVVESLPAPASTPASAQSISRERATKNDSAGNAVMVMELTTTPVEPDHQVNLQGVLLEMRKSVQKDFFQGGYQSVCNKIHSSLLGGTAALETTCTITQNGRHVLSQTLVAALKEGRAYVLSYAGQAQVFDESQEEVQSVRNSLKL				NA	NA	NA	NA	NA
D1-35_02665	522	gloA		Lactoylglutathione lyase	ATGAGCCTGCACGAACTCGACACTTTCCCAGGCGTTACTGCCCAGCCCGACGCCGCCACGGCCAGATTCGTCTTCAACCACACCATGCTGCGGGTCAAGGACATCACCAAGTCCCTCGACTTCTACACCCGTGTACTGGGTTTCTCGCTGGTGGAAAAACGCGATTTTCCCGAAGCCGAATTCAGCCTTTACTTCCTCGCACTGGTCGACAAGAGCCAGATCCCGGCAGACGCCGCGGCGCGTACCGAGTGGATGAAGTCGATCCCCGGCATCCTCGAACTGACGCATAACCATGGCACAGAAAACGATCCGGCGTTTGCCTACCACAACGGCAACAGCGACCCGCGCGGTTTCGGCCACATCTGCATCTCGGTGCCGGACGTCGTTGCCGCCTGCGAGCGCTTCGAAGCGCTGGGCTGCGACTTCCAGAAGCGCCTGAGCGATGGCCGCATGAAGAGCCTGGCGTTCATCAAGGACCCGGATGGCTACTGGGTCGAGATCATTCAGCCTGCGCCGCTGTAG	MSLHELDTFPGVTAQPDAATARFVFNHTMLRVKDITKSLDFYTRVLGFSLVEKRDFPEAEFSLYFLALVDKSQIPADAAARTEWMKSIPGILELTHNHGTENDPAFAYHNGNSDPRGFGHICISVPDVVAACERFEALGCDFQKRLSDGRMKSLAFIKDPDGYWVEIIQPAPL	PGPT0013300_1169	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BLEOMYCIN_RESISTANCE,PGPT0013300-gloA|ywbC-K01759	NA	NA
D1-35_02666	1563	ahpF	COG3634	Alkyl hydroperoxide reductase subunit F	ATGTTGGACGCCAATCTTAAAGCTCAGTTGAAGTCATACCTGGAACGGGTCACCCAGCCGATCGAGATCGTTGCATCCCTCGACGACGGTGCGAAATCCCAGGAAATGCTTGCATTACTCAAAGACGTTGCCAGTCTTTCCAACCAGATTACCTTGCTCGACAACGGTACTGATGCGCGCAAGCCATCGTTCTCGTTGAATCGCCCGGGAGCCGATATCAGCCTGCGCTTCGCCGGCATTCCCATGGGGCACGAATTCACTTCGCTGGTGCTGGCCCTGCTGCAAGTCGGCGGCCACCCTTCGAAGGCCAGTGTCGAAGTGATCGAACAGATCCGCTCGCTCAAGGGCGAGTTCAACTTCGAGACGTATTTCTCGCTGTCATGCCAGAACTGCCCGGACGTGGTCCAGGCGTTGAACCTGATGGCGGTGCTGAACCCGAACATCCGTCACGTCGCCATCGACGGCGCGCTGTTCCAGGCCGAAGTCGACGAACGCCAGATCATGGCGGTGCCGAGCATCTACCTGAACGGCGTCAACTTCGGCCAGGGCCGCATGGGCCTGGAAGAAATCCTCGCCAAGATCGACACCAGCGGCATCGAGCGTCAGGCCGAGAAGATCAGCGCCAAGGATGCTTTTGATGTACTGGTGGTCGGCGGTGGCCCGGCCGGTGCTTCGGCAGCGATCTACGCCGCCCGTAAAGGCATCCGCACCGGTGTCGCGGCCGAGCGTTTCGGCGGCCAGGTGCTCGACACCATGGCGATCGAGAACTTCATCTCGGTCCAGGAAACCGAAGGCCCGAAACTGGCCGTCGCCCTGGAAGAGCACGTCAAGCAGTACGACGTCGACATCATGAACCTGCAACGTGCCGACGCTTTGGTCGCTGGCAAAGACGGCGGGCTGCATGAGATCAAGTTCGCCAGCGGTGCGAGCCTCAAGGCCAAGACCGTGATCCTGGCGACCGGTGCCCGCTGGCGTGAAATGAACGTGCCGGGTGAGCAGCAATACCGCAACAAGGGCGTGGCGTACTGCCCGCACTGTGACGGTCCGCTGTTCAAAGGCAAGCGCGTAGCGGTGATCGGCGGCGGCAACTCCGGCGTCGAAGCGGCTATCGACCTCGCGGGTATCGTGGCTCATGTCACCTTGCTGGAGTTCGACGTGCAATTGCGTGCCGACGCGGTGTTGCAGCGCAAACTGCACAGCCTGCCGAACGTGACGGTGATCACCAACGCCCAGACCACCGAAGTGACGGGCGACGGCCAGAAGGTCAACGGTTTGCGCTACAAGGACCGTCCAAGCGGTGAAGTGCGCGACGTGACGCTGGAAGGCATCTTCGTGCAGATCGGCCTGTTGCCAAACACCGATTGGCTCAAGGGCACCGTCGAGCTGTCGCCGCGTGGCGAGATCATCGTCGATGCGCGCGGTGAAACCTCGATTCCGGGTGTGTTCGCCGCCGGTGACGTGACCACCGTGCCGTACAAGCAGATCGTGATCGCCGTGGGCGAGGGTGCCAAGGCTTCGTTGAGCGCCTTCGATCACCTGATCCGTACGTCCGCCCCGGCCTGA	MLDANLKAQLKSYLERVTQPIEIVASLDDGAKSQEMLALLKDVASLSNQITLLDNGTDARKPSFSLNRPGADISLRFAGIPMGHEFTSLVLALLQVGGHPSKASVEVIEQIRSLKGEFNFETYFSLSCQNCPDVVQALNLMAVLNPNIRHVAIDGALFQAEVDERQIMAVPSIYLNGVNFGQGRMGLEEILAKIDTSGIERQAEKISAKDAFDVLVVGGGPAGASAAIYAARKGIRTGVAAERFGGQVLDTMAIENFISVQETEGPKLAVALEEHVKQYDVDIMNLQRADALVAGKDGGLHEIKFASGASLKAKTVILATGARWREMNVPGEQQYRNKGVAYCPHCDGPLFKGKRVAVIGGGNSGVEAAIDLAGIVAHVTLLEFDVQLRADAVLQRKLHSLPNVTVITNAQTTEVTGDGQKVNGLRYKDRPSGEVRDVTLEGIFVQIGLLPNTDWLKGTVELSPRGEIIVDARGETSIPGVFAAGDVTTVPYKQIVIAVGEGAKASLSAFDHLIRTSAPA	PGPT0013150_1006	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013150-ahpF-K03387	NA	NA
D1-35_02667	564	ahpC_2	COG0450	Alkyl hydroperoxide reductase C	ATGCCTATCATCAACAGCCAAGTTAAACCGTTCAAAGCTACCGCTTTCAAAAACGGCGCATTCGTCGAAGTCTCGGACGCCGACCTGAAAGGCAAGTGGTCTGTCGTGTTCTTCTACCCGGCTGACTTCACCTTCGTTTGCCCAACCGAACTGGAAGACCTGGCCGACAACTACGCCGAGTTCCAGAAGCTGGGCGTCGAGATCTACAGCGTGTCGACCGACACTCACTTCGCCCACGCTGCCTGGCACAACACCTCGCCAGCCATCGGCAAGATCCAGTACACCATGATCGGCGACCCGACCCTGGCCATCTCGCGCAACTTCGACGTGCTGATCGAAGAAGCCGGTCTGGCGGATCGCGGTACTTTCGTGATCAACCCTGAAGGCCAGATCAAGATCGTTGAAATCAACGACGGCGGTGTAGGCCGTGACGCTTCCGAGCTGCTGCGCAAGATCAAGGCTGCTCAGTACGTTGCTGCCCACCCAGGCGAAGTCTGCCCAGCCAAGTGGAAAGAAGGCGAGGCCACTCTGGCTCCGTCCCTGGACCTGGTCGGCAAGATCTAA	MPIINSQVKPFKATAFKNGAFVEVSDADLKGKWSVVFFYPADFTFVCPTELEDLADNYAEFQKLGVEIYSVSTDTHFAHAAWHNTSPAIGKIQYTMIGDPTLAISRNFDVLIEEAGLADRGTFVINPEGQIKIVEINDGGVGRDASELLRKIKAAQYVAAHPGEVCPAKWKEGEATLAPSLDLVGKI	PGPT0003260_474	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0003260-ahpC-K24119	NA	NA
D1-35_02668	1356	garB		Glutathione amide reductase	ATGGCCTACGATTTTGACCTGTATGTGATTGGCGCCGGTTCCGGCGGTGTTCGAGCCGCACGGTTTGCCGCCGGTTTTGGAGCCAAGGTGGCCGTGGCGGAAAGCCGCTACCTGGGCGGCACCTGCGTGAACGTCGGCTGCGTGCCGAAAAAACTGCTGGTCTACGGCGCGCATTACGCCGAGGACTTCGAGCAAGCGTCGGCCTATGGCTGGACAGCGGGCGAGGCGAGTTTCGACTGGGCCACGCTGATCGCCAACAAGGATCGCGAGATCAATCGCCTCAACGGCATCTATCGCAACCTGCTGGTCAACAGCGGTGTCACTCTGCATGAAGGTCACGCGAAGATTACCGGCCCTCACGAAGTGGAAATCAACGGCCAGCGCCACACCGCACAGCACATCATGATCGCCACGGGCGGCTGGCCGGTGATCCCGGACATTCCGGGGCGCGAGCACGCCATCAGTTCCAACGAGGCGTTTTTTCTCAAATCGCTGCCCAAGCGCATGCTGGTGGTTGGTGGTGGCTATATCGCAGTGGAGTTCGCCGGGATTTTCCATGGCATGGGCGCGCGGACCTCCTTGCTGTATCGCGGCGACCTGTTCCTGCGCGGCTTCGACGGCGCGGTGCGCAAACACCTGGCCGAAGAGCTGCAACGCCGTGGCCTCGACCTGCAATTCAAGGCCGACATCCAGCGCATCGACAAGGAAGCCGACGGCAGCCTGAAGGTGACGCTCAAGGACGGTCGCACGCTGGTCACCGATTGCGTGTTCTACGCCACTGGCCGCCGCCCGATGCTGGACAACCTCGGCCTGGAGAACACCGGCGTCACGCTGGACGACAAGGGTTTTGTGCAGGTCAACGAAAAGTACGAGACCGCCGAGCCGTCGATCCTGGCGATTGGCGACGTGATCGGTCGCGTGCAGTTGACCCCCGTCGCACTGGCCGAAGGCATGGCAGTGGCGCGGCGCCTGTTCAAGCCCGAGCAATACCGTCTGGTGGATTACCGGATGATTCCCACGGCCGTGTTCAGCCTGCCAAACATCGGCACCGTTGGCCTGACTGAAGAGCAGGCCCGGGAGGAGGGCCATGAGGTGCAGATTTTCGAAAGCCGTTTCCGGCCGATGAAGCTGACTCTCACCGAGTGCCAGGAGCGCACGCTGATGAAGCTGGTGGTCGACGCCAGCTCCGACAAGGTGCTGGGTTGCCACATGGTCGGGCCGGACGCCGGGGAAATTGTCCAGGGCCTGGCGATCGCCCTCAAGGCCGGGGCCACCAAGCGCGACTTCGACGAGACCATTGGCGTGCACCCAACCGCCGCCGAAGAATTCGTCACCATGCGCACGCCAACCGCCTGA	MAYDFDLYVIGAGSGGVRAARFAAGFGAKVAVAESRYLGGTCVNVGCVPKKLLVYGAHYAEDFEQASAYGWTAGEASFDWATLIANKDREINRLNGIYRNLLVNSGVTLHEGHAKITGPHEVEINGQRHTAQHIMIATGGWPVIPDIPGREHAISSNEAFFLKSLPKRMLVVGGGYIAVEFAGIFHGMGARTSLLYRGDLFLRGFDGAVRKHLAEELQRRGLDLQFKADIQRIDKEADGSLKVTLKDGRTLVTDCVFYATGRRPMLDNLGLENTGVTLDDKGFVQVNEKYETAEPSILAIGDVIGRVQLTPVALAEGMAVARRLFKPEQYRLVDYRMIPTAVFSLPNIGTVGLTEEQAREEGHEVQIFESRFRPMKLTLTECQERTLMKLVVDASSDKVLGCHMVGPDAGEIVQGLAIALKAGATKRDFDETIGVHPTAAEEFVTMRTPTA	PGPT0013175_1850	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013175-gor-K00383	NA	NA
D1-35_02669	840	gtaB	COG1210	UTP--glucose-1-phosphate uridylyltransferase	ATGATCAAGAAATGCTTGTTCCCAGCAGCCGGTTACGGTACTCGCTTCCTGCCAGCGACTAAAGCCATGCCCAAAGAAATGCTGCCGGTGGTGAACAAGCCACTGATCCAGTACGGTGTCGAAGAAGCCCTTGACGCAGGCCTGACGGAAATTTCCATCGTCACCGGCCGTGGCAAGCGCGCCCTGGAAGACCATTTCGACATCAGCTACGAGCTGGAAAACCAGATCAAGGGCACCGACAAGGAAAAATACCTGGTCGGCATCCGCAAGCTGCTGGACGAGTGCTCGTTCTCCTATACCCGCCAGACCGAAATGAAAGGCCTGGGCCACGCGATCCTGACCGGTCGCCCGCTGATCGGTGACGAACCGTTCGCCGTGGTGCTGGCGGATGACTTGTGCGTCAACCTCGAAGGCGACGGCGTACTGACCCAGATGGTCAAGCTGTACAAGCAGTTCCGCTGCTCCATCGTGGCGATCCAGGAAGTGGATCCGCAGGAAACCAACAAGTACGGTGTGATCGCCGGCGAGATGATCCGCGAAGACATCTACCGGGTTCACAGCATGGTCGAGAAGCCAAAGCCTGAAGACGCACCGTCGAACCTGGCGATCATCGGCCGCTACATCCTGACTCCGGACATCTTCGACCTGATCGAACAGACCGAGCCAGGCAAGGGCGGTGAAATCCAGATCACCGACGCGCTGATGAAACAAGCCCAGAACGGCTGCGTGATGGCCTACAAGTTCAAGGGCAAGCGTTTCGACTGCGGTGGCGCCGAAGGTTACATCGACGCGACCAACTTCTGCTTCGAGAACTTCTACAAGACCGGCAAGGCTTACTGA	MIKKCLFPAAGYGTRFLPATKAMPKEMLPVVNKPLIQYGVEEALDAGLTEISIVTGRGKRALEDHFDISYELENQIKGTDKEKYLVGIRKLLDECSFSYTRQTEMKGLGHAILTGRPLIGDEPFAVVLADDLCVNLEGDGVLTQMVKLYKQFRCSIVAIQEVDPQETNKYGVIAGEMIREDIYRVHSMVEKPKPEDAPSNLAIIGRYILTPDIFDLIEQTEPGKGGEIQITDALMKQAQNGCVMAYKFKGKRFDCGGAEGYIDATNFCFENFYKTGKAY	PGPT0014875_5421	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
D1-35_02670	216			hypothetical protein	ATGTCGGCAACTCCAAACGCAAACGGTTACTCGGTCAGCCAGGACAAGGACGGCCAGTGGTGGATTACCAATTACCACGGTGAACAGGTCGCCGGCCCCTTGCCCAGCAAGGCCATGGCGGTGGAAGTGGCTGCGGTATTCCAGGATGAACGCTCTGCCCCGGCGCCCCGGGAGCGCGAAAAGGCTCCGGCACGCAATACTCGCCGCAAGAAATAG	MSATPNANGYSVSQDKDGQWWITNYHGEQVAGPLPSKAMAVEVAAVFQDERSAPAPREREKAPARNTRRKK				NA	NA	NA	NA	NA
D1-35_02671	336			hypothetical protein	ATGGCCATTCGCTATAATCTCGCGCCATTCCTCCCCCCTCTCGATGACGATCCCATGAAAACACTTCTGGCGCTGTTTACAGTCCTGGCCCTGGCGGGCTGTGCCTCAGCGGAAAAAACCTACCTGGCCAACGGTGAACAAGGCCTGGCCATCGACTGCTCGGGCGAAGCCAATTCCTGGGCGACCTGCTACGAAAAAGCCGATGCGTCCTGCGCCGGCACGGGTTATCGCATCGTCGGCACCGACGGCACACCACAAGCCAAGGAAAGCGAAAAGACTCTGGGGGTCGACGTGGGCAACTTCAGCAGCCGCAGTGTCGTCGTGGTGTGCAAATAA	MAIRYNLAPFLPPLDDDPMKTLLALFTVLALAGCASAEKTYLANGEQGLAIDCSGEANSWATCYEKADASCAGTGYRIVGTDGTPQAKESEKTLGVDVGNFSSRSVVVVCK				NA	NA	NA	NA	NA
D1-35_02672	231			hypothetical protein	ATGAAACGCGAACAGGTGCGCGAGCGCCATGCAGAAGGCCTGATCTGCGCCACCCATGTGATCCAGAACCCTGGGAGCCCGGGCGAGTGGATCGTGTTCTTCAAGAAAAGCGCCGGGCGCAGTTTTTTTCTGGTGGACGACCAGGACGAAGTTGAATCCTTCTCCCGGCTCGACGACCTGATCGAGACCTTGCGGGGCCTGGGGATCAAGTTCGCCGAGATTCACATCTAG	MKREQVRERHAEGLICATHVIQNPGSPGEWIVFFKKSAGRSFFLVDDQDEVESFSRLDDLIETLRGLGIKFAEIHI				NA	NA	NA	NA	NA
D1-35_02673	351			hypothetical protein	ATGAAGCGCAGCGTGTGGGTATTGGCCTTGGCCCTGAGTGGATGTGCGTCGGTATCGGACATCAACCAGACACCGCCCACCATGAGCGTCATCTCCGGAAAGAAGCCCCATGAATACGCCCGGTGTGTTGCCGACAAGCTGCTCGAGAGCCGTGGCCCGCTGCAAATGGAGCCGCATAAAAACGGCGTTCGGGTGATCGTTCCCGGCAAGCTGTCGGCGCTGCCGGCGGCGGTGTTCGACATCGACGAGCGCTCCAGCGGCAGCAGCATCAAGCTGCATGAAAGCATGTCCAACGTGCCCGTGCGCCCAGGGGATGTACAGGACGCGGCCAACGCCTGCATTTCCGGTTGA	MKRSVWVLALALSGCASVSDINQTPPTMSVISGKKPHEYARCVADKLLESRGPLQMEPHKNGVRVIVPGKLSALPAAVFDIDERSSGSSIKLHESMSNVPVRPGDVQDAANACISG				NA	NA	NA	NA	NA
D1-35_02674	303			hypothetical protein	TTGAAATTCATCCACCAGCGCGAGCACCTCAACGAGGACGATATCGTCGTTATCGAATGCTCCCAAATGTGCAACATCCGTTTGATGAACGACGCCAATTTCCGCAGCTTCAAGAACGGTGGCCGGCACACGTACCATGGCGGCTCGTTCGACACGTTCCCGGCCCGGATCACCGCACCGAGCACAGGCTTCTGGAACATCACCATCGACACCGTCAACCGTCGCGCCATCAGCGTTACCCGCAAGCCGACCCTGACCCACAAGATCAAGATCATCCGGCGCTCCAGCTCGAAACTGAGCTGA	MKFIHQREHLNEDDIVVIECSQMCNIRLMNDANFRSFKNGGRHTYHGGSFDTFPARITAPSTGFWNITIDTVNRRAISVTRKPTLTHKIKIIRRSSSKLS				NA	NA	NA	NA	NA
D1-35_02675	171			hypothetical protein	GTGGCCCAGACGACCAAATACGTCATCAAGTACAAGCTCAACGGCGAACGCCGCTTCGAGTTCGCGCAGTTGCAAAATGGCACCGAGGAAGAAGCCCTGGCAGAGCTGAAGAAGTTGCATGGCGAGAGCGATGATGTGATCAGCGACCTCAAGGTCAGCAAGGCCCTATAA	MAQTTKYVIKYKLNGERRFEFAQLQNGTEEEALAELKKLHGESDDVISDLKVSKAL				NA	NA	NA	NA	NA
D1-35_02676	720			hypothetical protein	ATGCCCCCTAAGTCCTCCCTGCCCCGCCCCATCGCCGACCTCGACTGGCCCGCCCTGGAACAAGACCTCGACCAGGACGGCTGCGCGATCATTCGCAACCTGCTGCCGGCAGCGTTGTGCCTGGAGCTGCGAGGCTTGTACAGCGACCCGGGGCTGTTTCGTTCCCGCGTGGTGATGGCCCGTCATGGATTCGGACGCGGCGAGTACCAGTACTTTGCTTATCCGCTGCCCAAGGTTGTCCAGCAACTACGTCAATCGCTGTATCCGCGGCTGGTGCCGCTGGCCAACCGCTGGAACGATTGCATGGGCCTGCCAGTGCGCTATCCCGAGCAGCACGCCGATTTCATCCGGCGCTGCCACGACGCCGGCCAACAACGCCCTACGCCGCTGCTGCTGCAATATGGCCCGCAGGACTACAATTGCCTGCATCAGGACCTGTACGGCGAGCACGTATTCCCGTTGCAGGTGGCGATCCTGCTGGCGGAACCGGGCGAGGACTTTGCCGGCGGCGAATTTGTCCTCACCGAACAGCGCCCGCGCATGCAGTCACGACCACAAGTCATCGATCTGAAACAGGGCGACGCCGTGGTGTTCGCCGTACACCAGCGACCCGTCAACGGCGTTCGCGGTTATTATCGAGTGAACCTGCGCCATGGCGTCAGCCGCTTGCACAGCGGCCGCCGGCATACACTTGGGATCATTTTTCATGATGCGCAATGA	MPPKSSLPRPIADLDWPALEQDLDQDGCAIIRNLLPAALCLELRGLYSDPGLFRSRVVMARHGFGRGEYQYFAYPLPKVVQQLRQSLYPRLVPLANRWNDCMGLPVRYPEQHADFIRRCHDAGQQRPTPLLLQYGPQDYNCLHQDLYGEHVFPLQVAILLAEPGEDFAGGEFVLTEQRPRMQSRPQVIDLKQGDAVVFAVHQRPVNGVRGYYRVNLRHGVSRLHSGRRHTLGIIFHDAQ				NA	NA	NA	NA	NA
D1-35_02677	681	alkB	COG3145	Alpha-ketoglutarate-dependent dioxygenase AlkB	ATGATGCGCAATGACCACACGCCCATCACCCTGGATCTGTTCGCCGACCAACCGCCCACCACGCCCGGCGAGGTCGAACAGATCGGCCAGCAATCCTTCGTATTACGCGGGTTTGCCCTGCCCTGGCTCGACCGCGTGCTGCCGGCGCTGGAAAGCGTCTTGCAGGCGGCGCCATTCCGGCAGATGGTCACGCCCGGCGGCTTTACCATGTCGGTGGCCTTGACCAGTTGCGGCGCGCTCGGCTGGACCACCGACCGCAGCGGCTATCGCTACACGGCCCACGATCCGCAGACCGGCCAGCCCTGGCCCGACATGCCACAGCTGTTTCGCGACCTGGCCCGTAACGCCGCCCGGCAGGCGGGGTTCGAACATTTCGAGCCCGATGCCTGCCTGATCAACCGCTACGTGCCCGGCGCCCGAATGTCGCTGCACCAGGACAAGAACGAACGCTCCCTGACGGCCCCCGTCGTCTCGCTCTCCCTGGGCCTGCCGGCGATGTTCCAGTTCGGCGGGTTCGAGCGCAGCGACAAAAGCCAGCGCATTGCGCTGTTCCACGGCGACATCGTGGTCTGGGGCGGTGTGGATCGCTTGCGTTACCACGGCGTGCTGCCACTCAAGCCGGGAGAGCATCCGACGCTGGGTGCCCAGCGGATCAATCTGACGTTCCGCATGGCCGGATAA	MMRNDHTPITLDLFADQPPTTPGEVEQIGQQSFVLRGFALPWLDRVLPALESVLQAAPFRQMVTPGGFTMSVALTSCGALGWTTDRSGYRYTAHDPQTGQPWPDMPQLFRDLARNAARQAGFEHFEPDACLINRYVPGARMSLHQDKNERSLTAPVVSLSLGLPAMFQFGGFERSDKSQRIALFHGDIVVWGGVDRLRYHGVLPLKPGEHPTLGAQRINLTFRMAG				NA	NA	NA	NA	NA
D1-35_02678	1074	ada_1	COG0350	Bifunctional transcriptional activator/DNA repair enzyme Ada	ATGAACAGCACTTCAAACACTCTCGCCTCTGAACAGGATCCCCGCTGGGCCGCCGTGCTTGCCCGGGACCCGCGTGCCGACGGGCAATTTGTCTATGGCGTGAAAACCACCGGTATCTACTGCCACCCCAGCAGCCTGTCGCGCTTGCCCAACCCGCGTAACGTCGAATTCTTCGACACGCCGGAACAGGCCCAGGCGGCCGGCTATCGCCCCAGCAAACGCCTGGCCAGGGACCAGACCCAGATCGCCGCGCAACAGGCCGCCCGGGTCGCGGCGGCCTGCCGGCAGATCGAGGCCGCCGAGGAACTGCCAGGCCTGAATGAACTGGCGCTGAGCGCGGGTTTGAGCCCTTTTCATTTCCATCGCGTTTTCAAGTCTGTCACCGGCCTGACGCCCAGGGCCTACGCCGCCGCCCACCGCTCGCGCAAAGTGCGCGAACGCCTGGCCGAAGCCGGGACGGTGACCGAGGCGCTGTATGACGCCGGTTTCAATTCCAACAGCCGCTTCTATGAAGCCGCCGACAAAGTCCTCGGCATGAAACCGGCCGACTACCGCGCCGCCGGGCAGAACACCGACATTCGCTTCGCCGTCGGCCAGTGCTCCCTGGGGGCGATCCTGGTGGCGCAAAGCGACCGTGGCGTGTGCGCGATTCTGCTGGGGGACGATCCGGACGCACTGGTACGCGACCTGCAGGACAAATTCCGCCGCGCCAACCTCATCGGCGCCGACCGGGAATTCGAGCAGTTGATTGCCCAGGTCGTGGGATTCATCGAAGCACCGGCCCTGGGCCTCGACTTGCCGCTGGACCTGCGCGGCACGGCCTTTCAGGAACGGGTCTGGCAAGCCCTGCGGGAGATTCCGCCGGGCAGCACCGCCAGCTACGCTGAGATTGCCCAGCGCATCGGCCTGCCCAAGGCCGTTCGCGCCGTGGCCCAGGCCTGCGGTGCCAACAGCCTCGCCGTGGCGATCCCCTGCCACCGGGTGGTGCGCAGCGACGGCAACCTCTCGGGCTATCGCTGGGGCGTCGAGCGCAAGCGTCAGCTGCTGGCGCTGGAACGTTCGTCGGCAGACTGA	MNSTSNTLASEQDPRWAAVLARDPRADGQFVYGVKTTGIYCHPSSLSRLPNPRNVEFFDTPEQAQAAGYRPSKRLARDQTQIAAQQAARVAAACRQIEAAEELPGLNELALSAGLSPFHFHRVFKSVTGLTPRAYAAAHRSRKVRERLAEAGTVTEALYDAGFNSNSRFYEAADKVLGMKPADYRAAGQNTDIRFAVGQCSLGAILVAQSDRGVCAILLGDDPDALVRDLQDKFRRANLIGADREFEQLIAQVVGFIEAPALGLDLPLDLRGTAFQERVWQALREIPPGSTASYAEIAQRIGLPKAVRAVAQACGANSLAVAIPCHRVVRSDGNLSGYRWGVERKRQLLALERSSAD				NA	NA	NA	NA	NA
D1-35_02679	489			hypothetical protein	ATGGACGTGAAACTCAAGATCGTCGAACCCTTCACCGTCGCCGGTTTGCAGGTGCGCACCCGCAATGCCGACGAGCAGCAAGGCGACACGGCAAAGATCGGCCCGATGTGGCAGCAGTTCTTCACCGAAGGGCTGTTCGAAAACGTTCCGGCCCGGCAGTCCGAGTCGTTCGTCTATGGGGTGTATTCCGATTACGAGTCCGATGCCACCGGCTACTTCAACGTGACGGCCGGTGTGCAGGTCGATGCCACGAGCGCAGGTTACCCCGCCGTGGACGTCGAGGGCGGGGATTACCTGGTGTTTTCGGCCAAGGGGCCGATGCCCGATTGCGTGATCCAGGCCTGGGGCCTGATCTGGGCGTACTTCGCCGATAACCCGCGAACCGTGCGCCGGTTCACCACCGATTTCGAGGTCTACAACGCGCCCGACTCGGTGGCGATCTATATCGGCGTTCAGTCTGCCGACGAACGTTCCAGCGCCAGCAGCTGA	MDVKLKIVEPFTVAGLQVRTRNADEQQGDTAKIGPMWQQFFTEGLFENVPARQSESFVYGVYSDYESDATGYFNVTAGVQVDATSAGYPAVDVEGGDYLVFSAKGPMPDCVIQAWGLIWAYFADNPRTVRRFTTDFEVYNAPDSVAIYIGVQSADERSSASS				NA	NA	NA	NA	NA
D1-35_02680	1062	pnoA		Nitronate monooxygenase	ATGAGTCAGTGGCCAGACACCCGCATTCTCGACCTGCTCGGCATCGAGCTGCCCATCATCCAGGGGCCTCTGGCCGGCGTAACCGGTCCGGCCATGGTAGTCGCCACCTGCAATGCCGGCGGGCTGGGCTCGATGCCGGCGGCGATGCTCGACGTGGAGCAACTGCGCCAGGCGCTGACGACCATCAGCGAACAGACCGACAAACCGTTCAACGTGAATTTTTTCTCGCACCAGCCACCGGCGTTCGATGAACAACGGGCCGAGGCCTGGAAACAGCGGCTCAAGCCTTATTACGAAGAACTGGGCGCCGACTTCGAAGCGCCGACGCCGGTGTCCAATCGCACCCCGTTCGATGATGCGGCCTGCCGCGTGCTCGAGGAACTGCGGCCCAAGGTGGTCAGCTTCCACTTCGGCCTGCCGGAAAAAACCTTGCTGGATCGGGTCAAGGCCACCGGCGCGAAGATCCTCTCCTCGGCCACCACCGTCGAAGAAGCCATCTGGCTCGAACAGCACGGCTGCGACGCGATCATCGCCATGGGCTATGAGGCCGGCGGTCATCGCGGGATGTTCCTGAGCGAGGACCTCAACACCCAGGTGGGTCTGTTCGCCCTGCTGCCGCAAGTGGTGGATGCGGTGAAGGTGCCGGTGATCGCCACCGGCGGGATCGGCGACGCGCGCGGGATTGTCGCGGCGTTTGCCCTGGGCGCGTCGGCGGTGCAGTTGGGCAGCGCTTATCTGTTCACGCCGGAAGCCAAGGTCACACCTTCCCACCACCGGGCGCTGCGCACGGCCAGGGAAAGCCAGACCGCCGTCACCAACCTGTTCACCGGCCGCCCGGCCCGGGGCATCGTCAACCGGGTGATGCGCGAGGTCGGCCCGATGAGCCCGCTCGCGCCGGCTTTCCCCCTGGCGGGCGGCGCCTTGATGCCGCTGCGGGCGAAAGACGAAGCAGATTTCGCCAACCTCTGGGCCGGCCAGGCGTTTCCCCTGGGGCGTGAGCTGCCGAGCGGCGAACTGACCCGGCGCTTGGCCGAAGAAGCGCTGGCGCGGTTCAAGGGCTGA	MSQWPDTRILDLLGIELPIIQGPLAGVTGPAMVVATCNAGGLGSMPAAMLDVEQLRQALTTISEQTDKPFNVNFFSHQPPAFDEQRAEAWKQRLKPYYEELGADFEAPTPVSNRTPFDDAACRVLEELRPKVVSFHFGLPEKTLLDRVKATGAKILSSATTVEEAIWLEQHGCDAIIAMGYEAGGHRGMFLSEDLNTQVGLFALLPQVVDAVKVPVIATGGIGDARGIVAAFALGASAVQLGSAYLFTPEAKVTPSHHRALRTARESQTAVTNLFTGRPARGIVNRVMREVGPMSPLAPAFPLAGGALMPLRAKDEADFANLWAGQAFPLGRELPSGELTRRLAEEALARFKG	PGPT0006800_1673	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
D1-35_02681	753	modA	COG0725	Molybdate-binding protein ModA	ATGCGCTCGAACCCTTTCGCCCGGCTGCTGCTGGCTACCTGCTTTTGTGTCAGTGCCGCTCAAGCCGACGAGGTGCAGGTAGCCGTCGCTGCCAACTTCACTGCGCCGATACAGGCCATCGCCGCCGATTTCGAAAAAGACACCGGCCACAAGCTGATAGCCGCCTATGGCGCGACCGGGCAGTTTTATACGCAGATCCAGAATGGTGCGCCCTTCGAAGTCTTCCTCGCCGCCGACGACACCACCCCGGCCAGGCTCGAAAGCGAAGGCGCTACCGTCAAGGGCTCGCGCTTCACCTACGCCATCGGCACGTTGGCGCTGTGGTCGGCCACGGACAACTACGTCGACAACCAGGGCCAGGTCCTGCGCGACAATGCATTCACGCACCTGTCCATCGCCAATCCGAAAACCGCGCCGTATGGCCTGGCCGCGACCCAGGTCCTGGAAAAACTCGGGCTGTCCGCGCCGGTCAAGAACAAGCTCGTCGAAGGCCAGAACATCACCCAGGCCTATCAGTTCGTCTCCACCGGCAACGCCGAACTGGGCTTCGTCGCTCTGTCCCAGGTGTACAAGGACGGCAAGCTGGCAAGCGGTTCGGCATGGATCGTCCCGGCCGAGCTGCATGCTCCGATCAAACAGGACGCGGTGATTCTCGCTAAAGGCCGGGACAACCCTGCCGCCCTGGCCTTGATGGAATACCTCAAGGGCCCGCAAGCCGCCGCCATCATCCAGTCCTTCGGTTATCAACGCTGA	MRSNPFARLLLATCFCVSAAQADEVQVAVAANFTAPIQAIAADFEKDTGHKLIAAYGATGQFYTQIQNGAPFEVFLAADDTTPARLESEGATVKGSRFTYAIGTLALWSATDNYVDNQGQVLRDNAFTHLSIANPKTAPYGLAATQVLEKLGLSAPVKNKLVEGQNITQAYQFVSTGNAELGFVALSQVYKDGKLASGSAWIVPAELHAPIKQDAVILAKGRDNPAALALMEYLKGPQAAAIIQSFGYQR	PGPT0008435_3649	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008435-modA-K02020	NA	NA
D1-35_02682	681			hypothetical protein	ATGCCGCTGACCGGCGCCGATTACGCGGCCATCTGGTTGACGCTGAAACTGGCGTCGCTGACCACGGTGATCCTGCTGCTCATCGGCACGCCCATCGCCCTGTGGCTGTCGCGCACCCGATCCTGGCTGCGCGGGCCGGTGGGCGCGGTGGTGGCCCTGCCGCTGGTGTTGCCGCCCACCGTGATCGGCTTTTATCTGTTGCTGGCGCTGGGTCCGAACGGCTGGATCGGCCAGTTCACCCAGGCTCTCGGCCTGGGCACCCTCACCTTCAGCTTTACCGGGTTGGTGATCGGCTCGGTGATCTATTCCATGCCGTTTGTTGTCCAGCCCTTGCAGAACGCGTTTTCCGCCATCGGCAATCGTCCACTGGAAGTCGCCGCCACGCTGCGAGCGGGTCCATGGGATACTTTTTTCCACGTTATCCTGCCCTTGGCCCGACCCGGTTTCATCACCGCGGCGATTCTCGGTTTCGCCCACACGGTCGGTGAATTCGGCGTGGTGCTGATGATCGGCGGCAACATCCCGGAAAAGACCCGGGTGGTGTCGGTGCAGATCTACGACCATGTCGAAGCCCTCGAATATGCCCAGGCCCATTGGCTGGCGGCGGCGATGCTGGGGTTTTCCTTCCTGGTGCTGCTGGCGCTGTACTCCAGCCGCCGCACCCGTGCCGGCTGGAGCTGA	MPLTGADYAAIWLTLKLASLTTVILLLIGTPIALWLSRTRSWLRGPVGAVVALPLVLPPTVIGFYLLLALGPNGWIGQFTQALGLGTLTFSFTGLVIGSVIYSMPFVVQPLQNAFSAIGNRPLEVAATLRAGPWDTFFHVILPLARPGFITAAILGFAHTVGEFGVVLMIGGNIPEKTRVVSVQIYDHVEALEYAQAHWLAAAMLGFSFLVLLALYSSRRTRAGWS	PGPT0008440_2403	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008440-modB-K02018	NA	NA
D1-35_02683	1080	btuD_6		Vitamin B12 import ATP-binding protein BtuD	ATGATCCAGGCAAGATTTCAACTCGACCACGGCGACTTTTTCCTCGACCTGGACGTGCAATTGCCTGGCCGTGGGGTGACGGCGCTGTACGGCGAATCCGGCTCTGGCAAGACCACTTGCCTGCGCTGCATCGCCGGCCTGGAGCGACCCTCCCAGGGCTTCATCGAGGTCAATGGCGAAGTCTGGCAAGACAGTGAGCGCGGCGTATTCGTACCACCTCATCAGCGCGCGCTGGGCTATGTTTTCCAGGAGGCGAGCCTGTTTGACCACCTGTCGGTGCGCGACAATCTGGCGTTCGGCCTCAAGCGCGTAGCACCGGCGCAACGGCGCGTGGACATGAACCACGCGACGGAACTGCTCGGCATCGGTCACCTCCTCGACAGGCAACCCCATAACCTCTCCGGCGGCGAACGCCAGCGCGTCGGCATTGCCCGCGCCTTGCTGACCAGCCCGCGACTGCTGCTGATGGACGAGCCACTGGCGGCCCTCGATACGCGGCGCAAAAACGAAATCCTGCCTTACCTGCAACGACTCCACGATGAACTGGACATCCCGGTGCTGTACGTCAGCCATTCCCAGGACGAAGTCGCGCGCCTGGCTGATCACATCGTGCTGCTCGATGCCGGGCGCGCCCTGGCCAGCGGGCCGATCGCCGAAACCCTGGCGCGGCTCGACCTGCCACTGGCCCAGGGCGATGACGCGGGCGTGGTGATCCAGGGCAACGTCAGCGCCCATGACCCGCAATACCAGCTACTTACCCTGACGTTGCCCGACAGCCAGCTCCAGGTGCGTGTCGCCCATCAGCCGATGGCTGTCGGCCGGCCGTTGCGCTTCAAGGTACAGGCGCGGGATGTCAGCCTGAGCCTGGCGAACGATGCACAGACCAGCATTCTCAATCGCCTGCCGGTGACGGTCGTCAGCGAACTGGCGGGCGACAACGCGGCTCATGTACTGATCCGGCTGGAGGCCGCTGGCACGCCGTTGCTGGCGCGGATTACCCGGTATTCCCGGGATCAGTTGAAGCTGCATCCGGGGCAGATGTTGTGGGCGCAGATCAAGGCGGTGGCGGTGTTGGCGTAG	MIQARFQLDHGDFFLDLDVQLPGRGVTALYGESGSGKTTCLRCIAGLERPSQGFIEVNGEVWQDSERGVFVPPHQRALGYVFQEASLFDHLSVRDNLAFGLKRVAPAQRRVDMNHATELLGIGHLLDRQPHNLSGGERQRVGIARALLTSPRLLLMDEPLAALDTRRKNEILPYLQRLHDELDIPVLYVSHSQDEVARLADHIVLLDAGRALASGPIAETLARLDLPLAQGDDAGVVIQGNVSAHDPQYQLLTLTLPDSQLQVRVAHQPMAVGRPLRFKVQARDVSLSLANDAQTSILNRLPVTVVSELAGDNAAHVLIRLEAAGTPLLARITRYSRDQLKLHPGQMLWAQIKAVAVLA	PGPT0008445_1267	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008445-modC-K02017	NA	NA
D1-35_02684	1038			hypothetical protein	ATGCCCGACACCCTGCCGCCCGATGCACTCCCGGCTGATCTGCACTACGTCGACGACACCGCCCCGGGCATCACTCGCCGCAAACTGCGGGGCAAGTTCTGCTACTTCGACCCGTCGGGCCAGCGCATTACCGACCCCGCCGAAATCCAGCGGATCAACGCCCTGGCCGTTCCGCCGGCCTACACCGATGTGTGGATCTGCACTGACCCGCGCGGCCACCTCCAGGCCACCGGACGCGACGCCCGAGGGCGCAAGCAATACCGCTACCATGCGCGCTGGCGCGAAGTGCGCGATGCGGACAAGTATTCACGCATGCTCGAATTCGGCCGCACCCTGCCGCGACTGCGCAAACGCCTCGAGGAAATCCTCGCCACGCCCGGTTTCAGCCGCGATAAAGTCCTGGCAACGGTCATCACTTTGCTCGACGTCACGCTGATCCGCGTCGGCAATAGCCAATACGCCCGGGACAACCGTTCCTACGGCCTGACCACGCTGCGCAACAAGCATGTCGCGGTCAACGGCAGCGCCATCGCTTTCCAGTTCCGTGGCAAGAGCGGCGTTGAACACCAGATCACCGTGAAGGACCGACGCCTGGCGCGGATCATCAAGCGTTGCCAGGAAATTCCCGGGCAGAACCTGTTCCAGTACCTGGACGAACACGGCGAGCGCCACGCCGTCACGTCTTCGGACATCAACGCCTACCTCAAGACACTCACCGGCGCCGATTTCACGGCCAAGGACTACCGCACCTGGGCAGGCAGCGCGGCGGCGCTGGACGGACTGCGCACATTGCAGTGGGAAACCGAGACCGAAGCCAAGCGACACGTTGCCGAAATGGTCAGGCAGGTTGCCCGGCAGTTGGGCAATACGCCTGCCGTCTGTCGCAAATGCTACATCCACCCCGCCGTGCTGGAAGGCTTCATGGGCGGCATCCTGAGCGAACTGCCCAAGCCTCGCGTACGCAAAGGACTCAGTGCGCAAGAAGCCGCGCTGACGATGTTCCTGCAGCGCATGGCCCAAGCCGTCGAAGCCTGCTAA	MPDTLPPDALPADLHYVDDTAPGITRRKLRGKFCYFDPSGQRITDPAEIQRINALAVPPAYTDVWICTDPRGHLQATGRDARGRKQYRYHARWREVRDADKYSRMLEFGRTLPRLRKRLEEILATPGFSRDKVLATVITLLDVTLIRVGNSQYARDNRSYGLTTLRNKHVAVNGSAIAFQFRGKSGVEHQITVKDRRLARIIKRCQEIPGQNLFQYLDEHGERHAVTSSDINAYLKTLTGADFTAKDYRTWAGSAAALDGLRTLQWETETEAKRHVAEMVRQVARQLGNTPAVCRKCYIHPAVLEGFMGGILSELPKPRVRKGLSAQEAALTMFLQRMAQAVEAC				NA	NA	NA	NA	NA
D1-35_02685	564	clpP_3		ATP-dependent Clp protease proteolytic subunit	ATGTCCGAACACATCGTCCATTTCCATTGCCAGATCGACCAGGGAACCACCGAGCGCTTCCGGGACAATTGCCTGGAAGCCATTGAAAAAGGCGCCGACTCGCTGATGCTCAACCTCTCTACTGTCGGCGGCAGCACCAATTTCGGTTTCACCCTCTATACCTTTATCAAATCCCTTCCGGTGCCCGTGCGCGCGGTGAATGCCGGCAACATCGAGTCGATGGGCATCGTCATGTACCTGGCCGCCAGCGACCGCACCACCACCCCACATTCACGCTTCCTGATACACCCGATGAATTGGTATTTCGGCCAGAAATCGGTGGATCACTCGCGCTTGCGTGAATACCTCTCGAGTCTGGACAACGACGTGGCGCGGTACGTGGAGATCTACGTCAAGGAAACCGCCGGCGCCGCCACGCAACTGGATATCTTCAAATGCCTGTGCGCCGAGGAGCGAGTGATACCGGCGGAAAATTCGCTGGCTTTCGGCATCGCGCACCGGGTGGAACAAGTGGTGTTTGCGCCCGAGGCGAAACACTGGAAAGTCAGCGGCGGCGAGGACTGA	MSEHIVHFHCQIDQGTTERFRDNCLEAIEKGADSLMLNLSTVGGSTNFGFTLYTFIKSLPVPVRAVNAGNIESMGIVMYLAASDRTTTPHSRFLIHPMNWYFGQKSVDHSRLREYLSSLDNDVARYVEIYVKETAGAATQLDIFKCLCAEERVIPAENSLAFGIAHRVEQVVFAPEAKHWKVSGGED	PGPT0014595_8549	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
D1-35_02686	180			hypothetical protein	ATGGCTAATAGCGGAAACAAAAACCCAGGTAACTTCGCAAACGACCGAGAGAAAGCATCCGAAGCCGGCAAGAAAGGCGGACATGCTTCCGGCGGAAACTTTGCCAACGACCGGGAAAAAGCCTCTGAAGCCGGTAAGAAAGGTGGCGAACGCAGCCATGGCGGCGGCAGAAAATCGTAA	MANSGNKNPGNFANDREKASEAGKKGGHASGGNFANDREKASEAGKKGGERSHGGGRKS	PGPT0002680_752	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_INDUCIBLE_PROTEINS,PGPT0002680-yciG|ymdF|gsiB-K06884	NA	NA
D1-35_02687	225			hypothetical protein	ATGAGCCAGGACCGATTCATTGTCAGTTTCATTGCCGACGGCCAGCCCGATAACCGGGTGCTGGCGGCTGACACCGAGACCCTGAGCACCGAAGAAGCCGAGGCACTCTTGAGAGTGACCTTCACCGAATTGAAAAGCGTCAGGATCAGTGACGTCCAAGTTCAGAAAAGAACCAAGCCAAACGAAACGGAACATAATGTTCCGGGGCACTTCAAACAGCCTTGA	MSQDRFIVSFIADGQPDNRVLAADTETLSTEEAEALLRVTFTELKSVRISDVQVQKRTKPNETEHNVPGHFKQP				NA	NA	NA	NA	NA
D1-35_02688	753			hypothetical protein	ATGCTTGGAAAGATCACTCATGGAACCTGGGCCATGCTTTGCGTGGCAACGGTGGGGTTGGCAGGCTGCGCGGGCGGTAACAGCCATTCACCGGTGGACGCGCCAGGAGCCGCGAAGAGCCCGACCACCGCGACGCTGGAAGCCGGGGCGGGGCTCATGCAGAACAAACCCCCGTTGCAAGCGCTGGACACCTACCTGGATGGCTTCCATTTCTACAACGGGCGGATGTCCGGGCAAATGGAAGCGCATCACTACTGCACGGCACTGAACGAAGAAGTGTTCCAGTGCGCCATCTTTGATGCCAACACCGCGAACGCCAAGCTCATGGGCGTGGAGTACATCATCAGCAAGCGCTTGTTCGAGGGCTTGCCGGCCAGCGAAAAACAGTTGTGGCACAGCCATGTGCATGAGGTGAAGTCCGGGCAACTGATCGCGCCAGGGATTCCCGAGGTGGCGGAAACCCGTTTGATGAAAAACCTTGTCAGCACCTACGGCAAGACCTGGCACACCTGGCACACCGAACAGGGCAACGCGCTGCCTTACGGTGTTCCGCAACTGATGATGGGCTTTACCGCCGACGGCCAGATCGACCCTCAGTTGGTGCGTGAGCGCGACAGCCGGATGGGCATCTCCAGCGAAGAGAAAAAACGCGCCCGCGCGGCAATCGAAGCGCCGGCAATCGATCCCGGGGCGGATGCCTGGCAGAAGGGGCAGGTGTGGCAGATCAAGGACCCGACGGGGCATGCTCATTAA	MLGKITHGTWAMLCVATVGLAGCAGGNSHSPVDAPGAAKSPTTATLEAGAGLMQNKPPLQALDTYLDGFHFYNGRMSGQMEAHHYCTALNEEVFQCAIFDANTANAKLMGVEYIISKRLFEGLPASEKQLWHSHVHEVKSGQLIAPGIPEVAETRLMKNLVSTYGKTWHTWHTEQGNALPYGVPQLMMGFTADGQIDPQLVRERDSRMGISSEEKKRARAAIEAPAIDPGADAWQKGQVWQIKDPTGHAH				NA	NA	NA	NA	NA
D1-35_02689	579			hypothetical protein	ATGCGCGAGTCTTTTCACGCCACACAAGGAAAATGCGACGCGATGTTCGAGATCAAACCGTGGGACGCCGTGACCTACCGGCAGCAGACCCGCCGCAGCACGCTCATCCTCGCCTTGGTATTCCTGGCCTTGGCGATGCTGCTATCGAGCCTGGCGGTGATGCTGTTCGGCACACCCGGGGGCGATAATTTTCGCTTCAACGTGGGCGGGGTTTTCGCCGCCGTGCTGCTGATGGCCGCGCTCATGCGCGGGTATTTCTGGCAACAGCCGTGGATGGCCGCGGCGGTGTACGGCTGGCAGCTCAAGCGCAGCCTGATGAGCGTTACCAACGTGATGCACCAGGTAAAGGCTGGGGTGCAGGCCCAGGATCCGGCGGCGATGAAGCTGCTGCGCTTCTATCATTTGGGCCTGGCCCAGATGCACCTGCTGGATGCCAACTCCAGCGACCAGGCCTCGTTGAATCGCGAGGCCGATGAACATCTGCAGAACATGCAGGCGCGCGGTCTGGACCCCGAGCAGTCGCGCCTTGACCCGGCCTGGATCGGTACCGTGAAACAGGCCTATAAGGCCCGCGATTAG	MRESFHATQGKCDAMFEIKPWDAVTYRQQTRRSTLILALVFLALAMLLSSLAVMLFGTPGGDNFRFNVGGVFAAVLLMAALMRGYFWQQPWMAAAVYGWQLKRSLMSVTNVMHQVKAGVQAQDPAAMKLLRFYHLGLAQMHLLDANSSDQASLNREADEHLQNMQARGLDPEQSRLDPAWIGTVKQAYKARD				NA	NA	NA	NA	NA
D1-35_02690	1374	ppnN	COG1611	Pyrimidine/purine nucleotide 5'-monophosphate nucleosidase	ATGACTCAAAGACATGTAATCAACGCCTCGGTAAGCCCCAAGGGCAGCCTGGAGACCTTGTCCCAGCGCGAAGTCCAGCAACTGAGCGAAGCCGGTTCCGGCAGCATCTACGATCTTTTCCGCCAGTGCGCCCTGGCTATCCTCAACACCGGCGCCCATGTCGACAATGCCAAGACCATCCTCGAAGCCTACAAGGATTTCGAGATACGCATTCACCAGCAGGACCGGGGCGTGCGCCTGGAGCTGCTGAACGCGCCGGCCGATGCATTCGTCGACGGCGAGATGATCGCCAGCACCCGGGAAATGCTCTTCAGCGCCCTGCGCGACATCGTCTACACCGAGAACGAACTGGACAGCCAGCGCATCGACCTGAGCTCATCCCAGGGCATCAGCGACTACGTCTTCCACCTGCTGCGCAACGCCCGCACCCTGCGTCCCGGCGTGGAACCGAAAATCGTCGTGTGCTGGGGCGGTCATTCGATCAACACCGAAGAATACAAATACACCAAGAAAGTCGGCCATGAACTCGGCCTGCGCAGCCTGGACATCTGCACCGGCTGCGGCCCCGGCGTGATGAAAGGCCCGATGAAAGGCGCGACCATTGCCCACGCCAAGCAGCGTATCCATGGCGGGCGTTATCTGGGCCTGACGGAACCGGGCATCATCGCCGCCGAGGCGCCGAACCCGATCGTCAACGAGCTGGTAATCCTGCCGGACATCGAGAAGCGCCTGGAAGCCTTCGTGCGCGTCGGCCACGGCATCATCATCTTCCCGGGCGGCGCCGGTACGGCGGAAGAGTTCCTCTACCTGCTGGGCATCCTCATGCACCCGGCCAACCAGGACCTGCCCTTCCCGGTCGTGCTCACCGGGCCGAAAAGCGCCGCGCCGTACCTGGACCAGTTGCACGCCTTTGTCGGCGCGACCCTGGGCGAAGCCGCGCAGAAGCACTACCAGATCATCATCGACGATCCGGCTGAAGTGGCGCGGCAGATGACCCAAGGCCTGAAAGAAGTGAAGCAGTTCCGCCGCGAGCGCAACGACGCGTTCCACTTCAACTGGCTGCTGAAGATCGACGAAGGTTTCCAGCGCCCGTTCGACCCGACCCACGCCAACATGGCCAGCCTCGGCCTGAGCCGCGACCTGCCGCCCCACGAACTGGCCGCCAACCTGCGCCGGGCGTTTTCCGGGATCGTCGCCGGTAACGTCAAGGACAAGGGCATCCGCCTGATCGAAGAACACGGCCCGTACGAGATCCACGGCGATCCCGCCATCATGGAACCGCTTGACCGCCTGCTGCAGGCCTTCGTCGCCCAGCACCGGATGAAACTGCCGGGCGGCGCGGCGTATGTGCCGTGCTATCGCGTGGTGACCTGA	MTQRHVINASVSPKGSLETLSQREVQQLSEAGSGSIYDLFRQCALAILNTGAHVDNAKTILEAYKDFEIRIHQQDRGVRLELLNAPADAFVDGEMIASTREMLFSALRDIVYTENELDSQRIDLSSSQGISDYVFHLLRNARTLRPGVEPKIVVCWGGHSINTEEYKYTKKVGHELGLRSLDICTGCGPGVMKGPMKGATIAHAKQRIHGGRYLGLTEPGIIAAEAPNPIVNELVILPDIEKRLEAFVRVGHGIIIFPGGAGTAEEFLYLLGILMHPANQDLPFPVVLTGPKSAAPYLDQLHAFVGATLGEAAQKHYQIIIDDPAEVARQMTQGLKEVKQFRRERNDAFHFNWLLKIDEGFQRPFDPTHANMASLGLSRDLPPHELAANLRRAFSGIVAGNVKDKGIRLIEEHGPYEIHGDPAIMEPLDRLLQAFVAQHRMKLPGGAAYVPCYRVVT	PGPT0021310_263	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021310-ppnN|ygdH-K06966	NA	NA
D1-35_02691	666	hxpA	COG0637	Hexitol phosphatase A	ATGCCTGTCAGTCTCCCCACCCCCATCGCCTACCGCGCCTTCCTCTTCGACATGGACGGCACGCTGCTCAACTCTGTCGCTGCCACCGAGCGGATCTGGACGCGCTGGGCCATGCGTCATGGCCTGGACGTGGCGACATTCCTGCCGACCATCCATGGCGTGCGCGCTGTCGACACCGTCGCCCGCCAGAACCTGCCGGGCGTGGATGCCCAGGCCGAGGCCGCGCAGCTCACCGTCGAAGAAATCGAGGACGTGGAGGGCGTGGTCGAGGTGCCCGGTGCGCTGGCGTTTCTCAAAAGCCTGCCGCCGACGCAATGGGCAATCGTCACCTCGGCGCCCATGGCCTTGGCTTTGCGCCGCATGGAAGCAGCCGGGATTGTGCGCCCGGCGGTGATGGTGACTGCCGAAGACGTGAGCGCCGGCAAGCCAAACCCCGATTGCTATCTACTCGCGGCGCAGCGCTTGCAAGTGAAACCGCAGGAATGCCTGGTGTTCGAGGATGCCGAAGCCGGTATCAAGGCCGGCGAGGCCGCGGGCGCGGACGTGGTGGTGGTGACGGCCACGCACACGCATCCGGTGGTGACGTTGCACTCGCAGATTGAGGATTACCGTGGGCTGAGCGCCACGGTGGAGGGCGGATTAATGCACCTTCCAAACCACCGCTAA	MPVSLPTPIAYRAFLFDMDGTLLNSVAATERIWTRWAMRHGLDVATFLPTIHGVRAVDTVARQNLPGVDAQAEAAQLTVEEIEDVEGVVEVPGALAFLKSLPPTQWAIVTSAPMALALRRMEAAGIVRPAVMVTAEDVSAGKPNPDCYLLAAQRLQVKPQECLVFEDAEAGIKAGEAAGADVVVVTATHTHPVVTLHSQIEDYRGLSATVEGGLMHLPNHR	PGPT0018405_65	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_SORBITOL_DEGRADATION,PGPT0018405-hxpB-K19270	NA	NA
D1-35_02692	1347	mepA	COG0534	Multidrug export protein MepA	ATGCCTGCCCAGCCACTCTGGAAAACCTACCTGCTGTTCCTGGCCCCCATGGTCCTGTCCAATTTCCTCCAGTCGATGTCCGGTACGCTCAACAGCATCTACATCGGCCAGATGCTCGGTACCCAGGCTTTGGCGGCGGTGTCGGGGATGTTTCCCATCGTGTTTTTCTTCATCGCCCTGGTGATTGGTCTGGGCGCGGGGGCGGGCGTGTTGATCGGGCAGGCCTATGGCGCCGGCGAGACCGGAACGGTGAAGGCGATCGCCGGCTCGACGTTGCTGTTGGGGGCGATCATCGGGTTGGTGGCCGCGGTGTTGGGCAGCGTCTTTGCTCGCGAGGCCCTGCAAGGGCTCGGCACGCCCGACGATGTGCTCGAAGATGCCATTTCTTACGCGCGGGTGATGATGTGGATCCTGCCGATGCTACTGGTGTTCGTGCTCTTCACCCAGCTGCTGCGCGGTGTGAGTGATACCGTCTCGCCGCTGCTGGCGTTGCTGGTATCCACCAGCGTCGGGATGCTGCTGACGCCGGTGCTGATCCGTGGCTGGCTGGGATTGCCACAGATGGGCATCCAGAGCGCGGCGTGGGCGGGCCTGGTGGGTACCGCATCGGCCATGGCCATGCTGGCGTGGCGCCTCAACCGGCGGGCGCATGCCTTGGCGCCGGACCGCGCGCTGTTCGCCGCGATGCGCCTGGACCGGGATATTCTCGCCAAGGTGCTGCGCATCGGCTTGCCGACAGGGTTGCAGATGGTGGTGATTTCGTTGTCGGAGCTGGTCGTCCTGGCGTTGGTCAATCACCACGGCTCCCAGGCCACGGCCGCCTACGGCGCGGTGACGCAGATCGTCAATTACGTGCAGTTTCCGGCGCTGTCGATCGCCATTACCGCCTCGATCCTCGGCGCCCAGGCCATTGGCGCCGGACACCTGGAACGCCTCGGGCCGATCCTGCGCACGGGGCTGTTGATCAACGTCTGGCTGACCGGTGGCCTGGTGCTGCTGGGGTATCTGTTGTCCCACTGGCTGCTGGGGCTGTTCATCACCGACCCGGCGGCGCGGGTCCAGGCCGAGCACCTGTTGCACATCATGCTCTGGAGCCTGCTGGTGTTCGGCTTCCAGGCCATCATCGGCGGCATCATGCGCGCCAGCGGCACGGTGCTGGTGCCGGTGGCGATCTCGATCTTCTGCATCATCGGCGTGCAAGTGCCGGCGGCCTACCTGCTGGACGCGCACTTCGGCCTGCAAGGGGTGTGGATGGCGTTTCCGGTGGCTTACCTGAGCATGCTGATTTTGCAGGCGGTGTACTACAAACGGGTCTGGCAGCATCAGCGGATCGAGCGGTTGGTGTAA	MPAQPLWKTYLLFLAPMVLSNFLQSMSGTLNSIYIGQMLGTQALAAVSGMFPIVFFFIALVIGLGAGAGVLIGQAYGAGETGTVKAIAGSTLLLGAIIGLVAAVLGSVFAREALQGLGTPDDVLEDAISYARVMMWILPMLLVFVLFTQLLRGVSDTVSPLLALLVSTSVGMLLTPVLIRGWLGLPQMGIQSAAWAGLVGTASAMAMLAWRLNRRAHALAPDRALFAAMRLDRDILAKVLRIGLPTGLQMVVISLSELVVLALVNHHGSQATAAYGAVTQIVNYVQFPALSIAITASILGAQAIGAGHLERLGPILRTGLLINVWLTGGLVLLGYLLSHWLLGLFITDPAARVQAEHLLHIMLWSLLVFGFQAIIGGIMRASGTVLVPVAISIFCIIGVQVPAAYLLDAHFGLQGVWMAFPVAYLSMLILQAVYYKRVWQHQRIERLV				NA	NA	NA	NA	NA
D1-35_02693	1218			hypothetical protein	ATGACGTCGTATTCCCACGACCACTCCCCCGCCAAAACCCAACCACGCATTCTCTGGCACGCCTTGATCGTGGCCATCGCCGCAAGCGTTGGCGTGCTGGCACTTAACGGTGCGAGCACACAGAGCATCGGTTTGAGCATCGTGCTGGTGGTTCTTGGCGTGGCCGTCGGCATCTGGGGCGCGCGTTCACAACGTCTTCAACTCGACGAGGCGACGGCCGCGGCCATCACCCGCCACGAGTTGCAAGCCGCCGGTCATGTTTCCCATAAAGCCAGCGCGCAGCTCAACGAAGTGATCCTCGGCGCGATGCCGATCTGGGCCAAGCAAGTCGAAAGCTCACGCCAGCAGACTGAAACCGCAATCGTCTCGCTGACCAGCCGCTTCACCGGTATCTCTTCGCGCCTCGAAGAGACCGTGCAAGCCTCGCAACAGGCCGCCGGCGAGTTGGCCGGCAGCGGCGGTGGCGGTGCCGTCCAGGTACTGGCGCAGAGCGAAGGCGAACTGGTCAAGGTCATCGACTCGCTGAAAACCACCCAGGCCAGCCGTGATGAAACCCTGACCCAAGTCCGCAACCTGACCGCCTACACCGGCGAACTGCGGACCATGGCCGCCGATGTCGCGGCGATTGCCGCCCAGACCAACCTGCTGGCCCTGAACGCCGCCATCGAGGCCGCCCGGGCGGGCGAAGCCGGGCGCGGTTTTGCGGTGGTGGCCGATGCGGTGCGCGCACTGTCGAGCAAATCCAGCGAGACCGGCCAACAGATGTCGGCCAAGGTCGACGTCATCAATACCGCCATCACCCAACTGGTCCAGGCCGCCTCCAGCGGCGCCGACCAGGACAGCCAGTCCGTGGCCGTGTCCGAAGGCAGCATTCAGCGCGTGCTGGAACGCTTCAAAAGCGTCACCGAGCGTCTCGCCGATTCGGCCGACATGCTGCAACGGGAAAGCTTCGGCATTCGCGACGAGCTCACCGAAGTGCTGGTCAATCTCCAATTCCAGGATCGGGTCAGCCAGATCCTCAGCCACGTGCGCGACAACATGGAGGACCTGCATGTGCACATACAGCAGGCCAACCAGTCGCCCGATCAGGCTATCTCCATCGACGCCCGCCAATGGCTGGCGCGCATGGAAACCACCTACGCCACCGACGAGCAACGCCGCAATCATCATGGCGACTCGGCCGCGCAAAAGACTTCACAGGAAATAACCTTCTTTTAG	MTSYSHDHSPAKTQPRILWHALIVAIAASVGVLALNGASTQSIGLSIVLVVLGVAVGIWGARSQRLQLDEATAAAITRHELQAAGHVSHKASAQLNEVILGAMPIWAKQVESSRQQTETAIVSLTSRFTGISSRLEETVQASQQAAGELAGSGGGGAVQVLAQSEGELVKVIDSLKTTQASRDETLTQVRNLTAYTGELRTMAADVAAIAAQTNLLALNAAIEAARAGEAGRGFAVVADAVRALSSKSSETGQQMSAKVDVINTAITQLVQAASSGADQDSQSVAVSEGSIQRVLERFKSVTERLADSADMLQRESFGIRDELTEVLVNLQFQDRVSQILSHVRDNMEDLHVHIQQANQSPDQAISIDARQWLARMETTYATDEQRRNHHGDSAAQKTSQEITFF	PGPT0015710_27871	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
D1-35_02694	369	cheY_2	COG0784	Chemotaxis protein CheY	ATGGCTAAAAGTGTATTGGTTGTCGACGACTCCGCGAGCGTTCGGCAGGTAGTCGGCATCGCGTTGAAAAGTGCCGGCTACGACGTGATCGAAGCCAGCGATGGCAAGGACGCACTGGGCAAGCTCACCGGGCAGAAAGTGCACCTGATCATCAGCGACGTGAACATGCCGAACATGGACGGCATCACCTTCGTCAAGGAGGTCAAGAAGCTCGCCAGCTACAAGTTCACGCCGATCATCATGCTCACCACCGAATCCCAGGAATCGAAGAAGCAGGAAGGCCAGGCCGCAGGCGCCAAGGCCTGGGTGGTCAAGCCGTTCCAACCGGCGCAGATGCTGGCGGCGGTATCCAAGCTGATTCTTCCTTGA	MAKSVLVVDDSASVRQVVGIALKSAGYDVIEASDGKDALGKLTGQKVHLIISDVNMPNMDGITFVKEVKKLASYKFTPIIMLTTESQESKKQEGQAAGAKAWVVKPFQPAQMLAAVSKLILP	PGPT0015690_3216	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015690-cheY|yneI-K03413	NA	NA
D1-35_02695	285			hypothetical protein	ATGCCGCTGCTGTACGAAACAGAAGATGACACCGCGCAGGTGCAGATCGACGGCGAGCTGACGATCTACACCGCCGCCGACCTGGCCGCACAATTGCTGCCACGGCTGGGGGCCACGCCGAACATGGCACTGGACCTGTCGCAGATCACCGAGATGGACGGCGCCGGCCTGCAACTGCTGCTGATGATTCAGCGCGAGGCACCCAAGGCCGGGACCCAACTGACGGTGACCGGCCAGAGCAAAGCCGTTACGGAGACACTCGCCCTGTGCAACCTCGTTGCCTAG	MPLLYETEDDTAQVQIDGELTIYTAADLAAQLLPRLGATPNMALDLSQITEMDGAGLQLLLMIQREAPKAGTQLTVTGQSKAVTETLALCNLVA	PGPT0014350_3164	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014350-rsbV-K04749	NA	NA
D1-35_02696	2106	cheA	COG0643	Chemotaxis protein CheA	GTGAGCATCAATCTCGATCAGGCACAACAAACGTTTATCGTCGAGGCACGAGAGCAGTTGCAGGCGATGGAAGAATCGCTGCTGCAACTGGAAAACGACCCCGCCGACGATGACGCCATCGGCGCAATTTTCCGCGCGGCCCACACCATCAAGGGTTCGGCCGGGCTGTTCGGCCTGGAGCCGATCGTCAGCTTCACCCACATCGTCGAAGACGTGCTCGACCGCTTGCGTGAAGGCAGCGTCGCGGTGGACCCGGGCCTGATCGCGGTGCTGCTCAAGTCCGGCGATCACATGCTGGAACTGATCGACGTGGTCGCCAACCAGGGCTCGACGTTGCAGCCCCCTGCCCTGGCTCGGGAAATGGAATTGTGCCAGATCCTCCAGGAATACCAGGCGCCCCCGACCGCGCCCGAAACCACTACTGCAGAGGCAACCGAAACGAGCGAGTCAACCGACGCGCGCCTCTGGCACATCACCCTGCGCTTTGGCCAGGAAGTGTTCCGCAATGGCATGGACCCGCTGTCGTTCCTGCGCTATCTGCAGACCCTCGGTGAGATCGTCGAGATCACCACGCTGACTGAGGCGATGCCGGCTATCGAAGCCTGGGATGCCGAATCCTGCTACTTGGGTTTTGATATCGGGTTTCGCTCCTCAGCCGGTCATGCCGCGATCAACGAAGTCTTCGATTTTGTTCGCGAAGATTGCCTCATCGACATCGTTGCCGTGCCAGAGGCGGAGGCAGAGCCCCAGGCGAGCACCGATTTGGTCACCACCGCCCAGACAGCCAGCGAAGAAAGCACCGCCATGGTCACCACCGGCGAGCTGCTGCCAGACCAGCGCAAGACCCCGCGCATGCCGGCCCAGGTCGCGCCCGACAAACAGGCCGTGACCAGCGACGGCAAGAGCAGGGACGGCACGTACGTCCGGGTCAATGCCGACAAACTCGACGAGCTGATCAACCTGGTCGGCGAACTGGTGATCGCCAGTGCCGGCGCCAGCCTGCTGGCCCGCACGTGCCAGAACGACCCGTTGCAGGAGGCCACCTCATCGGTGTCCGGGCTGGTGGAAGAGATTCTCGACGGCGCCCTGCGCCTGCGGATGATCCCGATCGGCGAAACCTTCAACCGTTTTCGCCGGGTGGTGCGCGACGTCAGCCAGGAACTGGGCAAGGACATCGACCTGATCATCAGCGGCGCGGAAACCGAGCTGGACAAGACCGTCGTGGAAAAGATCGGCGACCCGCTCATGCACCTGCTGCGCAACGCCATGGACCACGGCATCGAAACCGCCGAGGCGCGGATGGCCGCCGGCAAACCGGCCAAGGGTCACCTGCACCTCAACGCCTACCACGACTCGGGCAGCATCGTGCTGGAAATCGCCGATGACGGCGCTGGCCTGAACCGCGACCGCATCCTGGAAAAAGCCCACGAGCGCGGCCTGATCGCCGCCGGCGCGAACCTGAGCGACCAGGAAATCTACAACCTGATCTTCGAACCCGGCTTCTCCACCGCCCAGGCCGTCACCAACCTGTCCGGGCGCGGTGTGGGCATGGACGTGGTCAAGCGCAACATCACCCTGCTGCGCGGCACCGTCGACCTCGACAGCCAACCGGGCAAGGGCACCGTGGTGCGCATCCGCCTGCCGCTGACGCTGGCGATCATCAATGGCTTCCTCGTCGGCATCGGCCAGTCCACCTATGTGATTCCGCTGGACATGGTCCAGGAATGCATCGAACTGAGCGAAGACGATGGCGTCGCCAGTCGCGAACAAGGCTACCTCGACCTGCGCGGCGAAGTGCTGCCGCTGGTGTACCTGCGCGATCATTTCCATCACGAAGGCCCGGCCTCGCGCCGGCAGAACGTGGTGGTGGTGCGCTACGCCGAACTCAAGGCCGGGCTGGTGGTGGATGACCTGCTGGGTGAATTCCAGACCGTGATCAAACCCTTGGGCAAGCTGTTCGGCGCACTGCGCGGCATCAGCGGCTCGACCATTCTGGGCAGCGGTGCGGTGGCGTTGATTCTCGACGTACCTGCCCTGCTCACCCAGATCGCACAAACAGAAAACCGCTACAACCCGACCCCATTACAACAAGCCAACGCTCGCTGA	MSINLDQAQQTFIVEAREQLQAMEESLLQLENDPADDDAIGAIFRAAHTIKGSAGLFGLEPIVSFTHIVEDVLDRLREGSVAVDPGLIAVLLKSGDHMLELIDVVANQGSTLQPPALAREMELCQILQEYQAPPTAPETTTAEATETSESTDARLWHITLRFGQEVFRNGMDPLSFLRYLQTLGEIVEITTLTEAMPAIEAWDAESCYLGFDIGFRSSAGHAAINEVFDFVREDCLIDIVAVPEAEAEPQASTDLVTTAQTASEESTAMVTTGELLPDQRKTPRMPAQVAPDKQAVTSDGKSRDGTYVRVNADKLDELINLVGELVIASAGASLLARTCQNDPLQEATSSVSGLVEEILDGALRLRMIPIGETFNRFRRVVRDVSQELGKDIDLIISGAETELDKTVVEKIGDPLMHLLRNAMDHGIETAEARMAAGKPAKGHLHLNAYHDSGSIVLEIADDGAGLNRDRILEKAHERGLIAAGANLSDQEIYNLIFEPGFSTAQAVTNLSGRGVGMDVVKRNITLLRGTVDLDSQPGKGTVVRIRLPLTLAIINGFLVGIGQSTYVIPLDMVQECIELSEDDGVASREQGYLDLRGEVLPLVYLRDHFHHEGPASRRQNVVVVRYAELKAGLVVDDLLGEFQTVIKPLGKLFGALRGISGSTILGSGAVALILDVPALLTQIAQTENRYNPTPLQQANAR	PGPT0015645_2691	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015645-cheA|wspE-K03407	NA	NA
D1-35_02697	1659			hypothetical protein	ATGAAATGGTTCTACGACCTTAGAATCGCCACCAAACTGATCACCTCGTTCCTCGTGGTGTTGGCGCTGACCGCCGTCATGGGCGTGTTTTCGATCCACCAGCTGGGCCAGGTGAACGGCACCACCACCGAGATCCGCGAGAACTGGATGCCGTCCATGCGCGCCGCCTCGGGCATGCGCTTCTACGCAGCGAGCTTTCGCCTCAAGGAAAACCGTCATATTTCCGCCGACTCCGAGCAAGAACGCGTAACGCTGGAGCAGGAAGCCGACGAAGCGAAAAAGGCCTTCGAAACCCGTCTCGGCACCTATGAAAAACTGCTCTCCACCGCCGAAGACCGTCAACTGTTCGAAACCACCCGCAACGACTGGGCCGCTTACCTGGTGGTCAGCAAGGATCTGTTCGCGCTGTCCCGGCAGAACCAGACCGAGCAAGCCATGGCGCTGCTCAAGGGCGAGTCCAAACGCCAGTTCGACCTGGTGACAAGCGACCTGCAAAAACTCGTGGAACTGAACGACGTCGGTGCCGGCGCCGCCAGCGAACACGGCACCCAGCTGTATGAGAATGCACGCCTGTCGATCATCGCCGTGCTGGCTGCCGCCCTGCTGGTGGGCCTGGGTCTGGCGCTGTTCATTTCGCGAATTATTTCCCGTCCGCTGAAGCAGGCCGCCGCCGTCGCCGAACAACTGGCCGAAGGTAACCTGAACGCGAAAATCGAAGCCGGCTCCAAGGACGAAACCGGCATGGTGCTCAATGCCATGCAGAATATGGTTGGCAAGCTCTCGCACATCATCGGTGAAGTGCGCAACGCGGCGGACAATCTCGCCAGCGCTTCCGAAGAAGTCAGCGCCACCGCGCAATCGATGAGCCAGGCCACCAGCGAACAGGCGGCCAGCGTCGAGGAAACCAGCGCCTCCATCGAGCAGATGAGCGCCAGCATCAACCAGAACACCGAGAACGCCAAGGTTACCGACGGCATGGCCAGCAAGGCCGCCAAGGAAGCCACCGACGGCGGCGAATCGGTGCAGCAGACCGTGGTGGCGATGAAAAAAATCGCCCAGCGCATCAGCATCATCGACGACATCGCCTACCAGACCAACCTGCTGGCGCTTAACGCCGCCATCGAAGCGGCCCGCGCCGGCGAACACGGCAAAGGCTTCGCGGTGGTCGCCGCCGAAGTGCGCAAGCTGGCTGAGCGCAGCCAGGTTGCCGCCCAGGAAATCGGCGAGCTGTCGTCCAGCAGTGTCGACATGGCGGAGAAGGCCGGGAACCTGCTCAACGAAATGGTCCCGTCCATCAACAAGACTTCGGACCTGGTGCAGGAAATCAGCGCCGCGTCCGAAGAACAGGCCGCCGGCGTTGCGCAGATCAACACCGCCATGACCCAGCTCAATCAGGTGACCCAGCAGAACGCCTCCAGCAGCGAAGAACTGGCCGCCACCGCCGAAGAGATGAGCAGCCAGGCCGAACAGCTGCAACAGGCCATGAGCTTCTTCACCCTGGACACGCCCGCCAAGTCCGCCATGCAGAGCGCCAGGGTCGATAACACCCCAGGTCCGTCCAGCCGCAAACCGGCACGGACACCGGCACCGGTGATGCCCAAGGCGTTTGCCTACAACATGGCCAGCGCGCCGGACGAATCGGAATTCACCCGGTTCTGA	MKWFYDLRIATKLITSFLVVLALTAVMGVFSIHQLGQVNGTTTEIRENWMPSMRAASGMRFYAASFRLKENRHISADSEQERVTLEQEADEAKKAFETRLGTYEKLLSTAEDRQLFETTRNDWAAYLVVSKDLFALSRQNQTEQAMALLKGESKRQFDLVTSDLQKLVELNDVGAGAASEHGTQLYENARLSIIAVLAAALLVGLGLALFISRIISRPLKQAAAVAEQLAEGNLNAKIEAGSKDETGMVLNAMQNMVGKLSHIIGEVRNAADNLASASEEVSATAQSMSQATSEQAASVEETSASIEQMSASINQNTENAKVTDGMASKAAKEATDGGESVQQTVVAMKKIAQRISIIDDIAYQTNLLALNAAIEAARAGEHGKGFAVVAAEVRKLAERSQVAAQEIGELSSSSVDMAEKAGNLLNEMVPSINKTSDLVQEISAASEEQAAGVAQINTAMTQLNQVTQQNASSSEELAATAEEMSSQAEQLQQAMSFFTLDTPAKSAMQSARVDNTPGPSSRKPARTPAPVMPKAFAYNMASAPDESEFTRF	PGPT0015710_18934	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
D1-35_02698	537	cheW_2	COG0835	Chemotaxis protein CheW	ATGGGCGCCATCGCGACCACACGTCAGACCGTCAGCGCGGTCGAGGAAGAAGCGCAATACCTGACGTTCATGCTCGGCACGGAGATGTTCGCCATCGGCATCCTGTGCATCAAGGAAATCATCGAGTACGGCAACCTCACCGTCGTGCCAATGATGCCGGCCTTCGTGCGCGGGGTGATCAACCTGCGTGGCGCGGTCGTGCCGGTGGTGGACTTGTCGGCTCGTTTCGGCCGACCGAATTCCGCCATCAGCCGGCGCAGTTGCGTGGTCATCATCGAGGCCGCCAGCGCCGACGGGCAGGCCCAGGATATTGGCCTGCTGGTGGACACGGTGTCGGCGGTGCTGGAGATCCCGGCCTCGCAGATCGAGCCGCCGCCGAGTTTCGGCGCGAAGATCCGCGCCGACTTCATCAGCGGCATGGCCAAGGTCGATGGCAAGTTTGTCATCGTGCTGGAGGTCGACCGGGTGCTGTCCATCGACGAGATGTCCGAACTCGCCCAGGCCAGCCCCGCTGCGTTGGAAGCGCCAGCCTCATGA	MGAIATTRQTVSAVEEEAQYLTFMLGTEMFAIGILCIKEIIEYGNLTVVPMMPAFVRGVINLRGAVVPVVDLSARFGRPNSAISRRSCVVIIEAASADGQAQDIGLLVDTVSAVLEIPASQIEPPPSFGAKIRADFISGMAKVDGKFVIVLEVDRVLSIDEMSELAQASPAALEAPAS	PGPT0015680_1349	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015680-cheW-K03408	NA	NA
D1-35_02699	807	cheR_1		Chemotaxis protein methyltransferase	GTGAATTCAATGGCCCTCAGCGACCGGGAGTTCAGCCAGTTCCAAAACTGGCTGTACCAGGCCGCCGGCATCAACCTGTCGCCAGCCAAGAAAGCCCTGGTGGCCGGGCGGCTGTTCAAACGCCTCAAGCACTATGAGCTGGACAGTTATGGCGAATATTTCAAGCTGATCATGAGCGGCCAGCGCAGCGACGAATTGCAGGTGGCGCTGGACCTGCTCACGACCAACGAAACCTATTTTTTCCGCGAGCCCAAGCACTTCGACTTTCTTCGCGACCATGTGCTGCCCCACGCGACGCCGGGCAAGACCTTCCGCCTGTGGAGTGCGGCCAGTTCCTCCGGCGAGGAACCCTACAGCCTCGCCATGACCCTGGCCGAAAGCCTGGGCACCACGCCATGGGAAGTCATCGGTTCGGACATCAGCACCCAGGTGCTGGCCAAGGCCCGTTCCGGGCATTACCCGATGGAGCGCGCGCGCAACCTGCCCCATCCGTTGCTGGTGAAATATTGCCTCAAGGGCACCGGCAGCCAGCAAGGCACGATGCTCATCGATCGGGCACTGCGCAACCGCGTCAACTTCATCCAGGTCAACCTCAACGACACCCTGCCGGAGCTGGGGGAGTTCGACGTAATCTTTCTGCGCAACGTGATGATCTATTTCGACCAGCCCACCAAAAGCAAAGTGGTTGCGCGGCTGATCCCTCGGCTCAAATCCGGCGGGTATTTCATCGTCAGCCATTCGGAGAGCCTCAATGGCGTGTCCGATGCGCTGAAGTTGGTCGCCCCTTCGATTTATCGCAAGCCATGA	MNSMALSDREFSQFQNWLYQAAGINLSPAKKALVAGRLFKRLKHYELDSYGEYFKLIMSGQRSDELQVALDLLTTNETYFFREPKHFDFLRDHVLPHATPGKTFRLWSAASSSGEEPYSLAMTLAESLGTTPWEVIGSDISTQVLAKARSGHYPMERARNLPHPLLVKYCLKGTGSQQGTMLIDRALRNRVNFIQVNLNDTLPELGEFDVIFLRNVMIYFDQPTKSKVVARLIPRLKSGGYFIVSHSESLNGVSDALKLVAPSIYRKP	PGPT0015670_3868	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015670-cheR|pilK-K00575	NA	NA
D1-35_02700	486	cheD	COG1871	Chemoreceptor glutamine deamidase CheD	ATGAAGCAGGTAGCGGAGGTCTACCTCGGGCCGGGAGAGTTTCGCTTTGCGACCTGCCCGACCCGGCTGCGGACGATCCTCGGCTCGTGCGTGGCGATCACGCTCTGGCATCCGCAGCGCAAGATCGGCGGCATGTGCCATTTCATGTTGCCCAGCCGGGTGCGGTGCTCCACCGCGTTGAACGGGATGTACGCCGATGAAGCCATCGAACTGTTCGTCCGTCAGGCCCGGGCCCATCACACCGAGCCCGAGGAATACCAGCTCAAGCTGTTCGGCGGCGGCGAGATGTTTCCCGAACTGCAACGCCATGTGGCATTCGGCGATGTGGCGCGGTCGAACGTCAACGCGGCGCTGGAGATGGCCGCGCTCTATCGCCTGGACCTGATCGCCCAGGACATGGGCAGCACCGGCCACCGCAGCATCATTTTCGACCTTTGCACGGGCGACGTCTGGGTCAGGCACCAACCGATAAGGACCCTGCACTAA	MKQVAEVYLGPGEFRFATCPTRLRTILGSCVAITLWHPQRKIGGMCHFMLPSRVRCSTALNGMYADEAIELFVRQARAHHTEPEEYQLKLFGGGEMFPELQRHVAFGDVARSNVNAALEMAALYRLDLIAQDMGSTGHRSIIFDLCTGDVWVRHQPIRTLH	PGPT0015665_1198	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015665-cheD-K03411	NA	NA
D1-35_02701	1080	cheB_3	COG2201	Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGTCAGGCAAAAAAATAAACGTATTGCTGGTGGATGATTCCGCCGTGGTCCGCCAGGTATTGCTGGCGATCCTGAGTGACACGCCGGACATCAACGTCATCGGTGCGGCTTCCGACCCGATCTTTGCCATGGACAAACTGGCGAAGGAATGGCCCGACGTGATCGTGATGGACGTGGAAATGCCGCGCATGGACGGCATCACTTTTCTGAAAAAAATCATGAGCGAACGGCCTACCCCGGTGGTGATCTGCTCGTCGCTGACGCCCAAAGGCGCGGAAACCACCTTGCAAGCCATGTCCGCCGGTGCGGTGGAAATCATCACCAAGCCCACCAGCGGCTTGAAGAACTTCCTTTTGGAATCGGCCCCGGAACTGGTGTCCGCCATCCGCGCCGCCGCCCAGGTCAACGTCCGCAACCTGGGCAAGCGCCCGGCTCCGGCGGCGCCGCTGACGCCGGCGACCAAACTCACCGCCGACGCCATGCTGCCCGCCGCCAACGGCCATGCCATGGCCCAGACCACCGAACGCATCGTGGCCATGGGCACCTCCACCGGCGGCACCCAGGCGCTGGAAGCGGTGCTCACCGCCCTGCCGCGGGTATGTCCGGGCATCGTCATCGTCCAGCACATGCCGGAAAAATTCACTGCATCCTTCGCCGCGCGGCTCAACAGCCTCTGCCAGATCGAAGTGCGCGAAGCGAAAAACAACGACCGCATCCACCCGGGCCTGGCCCTCATCGCCCCCGGCGGCAAACACATGATGGTGACCCGCAGCGGCGCGTTCTATCACGTGCAGGTAGTGGACGGCCCGCTGGTCAATCGCCACCGCCCGTCGGTGGATGTGCTGTTCCGCTCGGTGGCGAAGTTCGCCGGCCGCAATGCCACGGGCATCATCATGACCGGCATGGGCGACGACGGCGCCCGCGGCCTCAAGGAAATGCTCGACGCCGGCAGCGCCACCGTGGCCCAGGACGAGGCCAGCTGCGTGGTGTTCGGCATGCCCAAGGAAGCCATCAAACTCAACGCCGCGCAGCGGGTGATGCCGTTGCAGGAGATTGCGCAGGTGATATTGCATCGCTGA	MSGKKINVLLVDDSAVVRQVLLAILSDTPDINVIGAASDPIFAMDKLAKEWPDVIVMDVEMPRMDGITFLKKIMSERPTPVVICSSLTPKGAETTLQAMSAGAVEIITKPTSGLKNFLLESAPELVSAIRAAAQVNVRNLGKRPAPAAPLTPATKLTADAMLPAANGHAMAQTTERIVAMGTSTGGTQALEAVLTALPRVCPGIVIVQHMPEKFTASFAARLNSLCQIEVREAKNNDRIHPGLALIAPGGKHMMVTRSGAFYHVQVVDGPLVNRHRPSVDVLFRSVAKFAGRNATGIIMTGMGDDGARGLKEMLDAGSATVAQDEASCVVFGMPKEAIKLNAAQRVMPLQEIAQVILHR	PGPT0015650_1839	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015650-cheB|chpB|wspF-K03412	NA	NA
D1-35_02702	609			hypothetical protein	ATGATCCCGGCTATCATGCCGCACGCCCATTCAACGGGCGTGCTGCAAGCCACCCTAAAGGATTCAGGTATGCCCCTTCTGCCGTCACGCGCTACCCTCCTCGTCTCAGGTCTTCTGATCAGCTCTCTGTGCCTGGCCGAGGGCGAGCCGGCGGAAAGCGTCATCAAGGACTCGACCAAATCCGCGGTCTCGTCGTTCATAACCGCAGGCAAGAACCTGTTGGGCGGTGTGAGCGAAGGCGTGCTCGACGGGCGCGAGTCGGTCCAGGGCACCGATGGCGCCGCGATCATCTCCTCCGGCGAGCAAATGAAAGACCGCATCACCATCGAAGTGCTGAAGCTTGAGCCCAGCGAAGAAAACGTCACCATCACCCTCGGCTTCAAGAACAGCACCGACACCCAACTGCGCCTGATCAACCTCGGACAAACCGGCACCCTGCTGGCCATCGACCAGGCCGGCTACGCCAACCGCCTCACCGGTCTGGACAACCCCGACGAAGTCACCGTCCCACCGAAGATCGCCGTACGACAGAAATTCGTTTTCGAAGGCATGAACGAGGCGATCAGTGCCGTACGGGTCTGGGGGGCGGATTATTCGGTCAAGAAGTAA	MIPAIMPHAHSTGVLQATLKDSGMPLLPSRATLLVSGLLISSLCLAEGEPAESVIKDSTKSAVSSFITAGKNLLGGVSEGVLDGRESVQGTDGAAIISSGEQMKDRITIEVLKLEPSEENVTITLGFKNSTDTQLRLINLGQTGTLLAIDQAGYANRLTGLDNPDEVTVPPKIAVRQKFVFEGMNEAISAVRVWGADYSVKK	PGPT0029340_220	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-Mat|Ecp_FIMBRIAE_ASSEMBLY,PGPT0029340-ecpB|matC-K21965	NA	NA
D1-35_02703	672			hypothetical protein	ATGGACGCATGGACGTTGCACTGGCTAGAAGCCTCGGGGAGTCTGGCTGAGTTTCGCAAGGAGCTGGTTGGTGAGTTCGAAACCGCTTATGAGGCCTTGGCTTTTCGGATGGTCCCGCCCCGACTTGATGTCCTGGTCCAGCGGTTGCCGGGCGAAACCATTCCGGAATTGGGCCTGGTAGGGCGAGCGTATCGAAGCTCGATGTTCAGCATGACGCTTGATCCAGATAATCCCAACTTCATTCCCAGCCTGCGCGCTGGCGCGCTACATCGTCAGATTATCCATGAGGTCCATCATTGTCTGCGCATGGCAGGGCCGGGCTATGGCTGGACGTTGGGCGAGGCTTTGGTGAGCGAAGGACTTGCCGGACAGTTCGTCCGATATCTGCTCAACACCGATCCAGAGAGTTGGGAGCGGGAAGTTGGCTCAACTGAGCTGTTGAATTCGCCGGTTGGGCTGCAAGCACTTGAATCGAGTTATTACGATCACAGCGAATGGTTTTTTGGTAGTGGGGACAAGCCCAAATGGCTGGGGTACTCGCTGGGCTACGAGATGGTGGGGTGTTGGCTTGCGTCCAGGCAGGAGGTAGACATTTTTACTTGGGTCAACGTACCTGCAACCGACATCATCGCTGCAGCGCTTGAGCGAGGTCTGATAACGGCGACTTCTTGA	MDAWTLHWLEASGSLAEFRKELVGEFETAYEALAFRMVPPRLDVLVQRLPGETIPELGLVGRAYRSSMFSMTLDPDNPNFIPSLRAGALHRQIIHEVHHCLRMAGPGYGWTLGEALVSEGLAGQFVRYLLNTDPESWEREVGSTELLNSPVGLQALESSYYDHSEWFFGSGDKPKWLGYSLGYEMVGCWLASRQEVDIFTWVNVPATDIIAAALERGLITATS				NA	NA	NA	NA	NA
D1-35_02704	624			hypothetical protein	ATGACCACGCCTGATCAAAACATCAAGAACGATACACACCCCCTCAGCCTGCTAAACGGCTCATGGCTGAACGAACCGAAAATCCACTCCGCGCCCACAACAGACTCCCTGCACCTGGAAACCGACAACGCTACCGACTTCTGGCGAGAAACCCACTACGGCTTCACCCACGACAGCGGCCATTTCCTCGGCGTCGAAGCCCCACCCAGCTTCACCTGCCAACTACGCATCCAAGGCACCTTCGAAGCCCTGTACGACCAGGCCGGCCTGATGGTCCGCATCAACGAACGCCAATGGGTCAAGGCCGGGATCGAACTGAGCGACGGCCAGGCCATGCTCGGCAGCGTACTCACCGACGGACAATCCGACTGGGCGACCAGCCCGTACACCGCCGATCCCAACGACTTCTGGATGCGCGCCACGGTCGCCAACGGCGTACTGCGCTTGCAGGTTTCCGCCGATGGACTTCGTTGGCCGCTGGTGCGCTTATGCCCGTTTCCCATCGCACCGACCTACCGCGTCGGCCCGATGGCGTGCAGCCCCAAGCGCGGCGGCTTGAAAGTCGCTTTTTCCGACTGGACGCTCGGGCCTGCGCTGGGCAAGGACTTGCATGATCTGACCTGA	MTTPDQNIKNDTHPLSLLNGSWLNEPKIHSAPTTDSLHLETDNATDFWRETHYGFTHDSGHFLGVEAPPSFTCQLRIQGTFEALYDQAGLMVRINERQWVKAGIELSDGQAMLGSVLTDGQSDWATSPYTADPNDFWMRATVANGVLRLQVSADGLRWPLVRLCPFPIAPTYRVGPMACSPKRGGLKVAFSDWTLGPALGKDLHDLT				NA	NA	NA	NA	NA
D1-35_02705	465			hypothetical protein	ATGACCCGTACAAAAAACTCGAACACTGCTCGCCTCGCCCTTGCCGCACTTGCCCTGTCCGGCGGCTTGAGCCTCGCCCAGTCGGCTTTCGCGGTCGACGCCCTGCCCCAGGGTTATCAACTGGCCTCGGCGGAAAAAACCTCCGAAGGCAAGTGCGGCGAAGGCAAATGCGGCGCCGCCGAAGCGGGCAAAAAAGTCACCCAGGCCGAAGGCAAATGCGGTGAAGGCAAATGTGGCGACGCGTCCTTCGCCCGCACTGATACCGACAAAGATGATCGCGTGTCGCTGAAGGAATTCCTCAGCGTGGCGCCGACCGAACAAGCCGAGTTCGAAAAGATGGACAGCAACCACGACGGCTACCTGTCCGAAGCGGAAACCTACAAATATCGCACCGGCCAATACACCGCCAATGGCAAGAAAGTGCCCACCGAGCTGTTCACCCGCATGAGCCAAGCCAAGGAATAA	MTRTKNSNTARLALAALALSGGLSLAQSAFAVDALPQGYQLASAEKTSEGKCGEGKCGAAEAGKKVTQAEGKCGEGKCGDASFARTDTDKDDRVSLKEFLSVAPTEQAEFEKMDSNHDGYLSEAETYKYRTGQYTANGKKVPTELFTRMSQAKE				NA	NA	NA	NA	NA
D1-35_02706	852			hypothetical protein	ATGAGCACCTTCACTTCACCCAACGGCGCCGGGCTCGGCCTGCGTCGCGCCATGCTTGGCGACTTGCTGAAAATGGCCCCGAACGCGGTGGATTTCCTCGAATGCGCGCCGGACAACTGGATCGGCGTCGGCGGTGTCTACGCCGAACAACTCGATCAACTGGCCGCAAGACACCCCATCACCTGCCACGGCTTGTCCCTGTCCCTCGGCGGCCCACAACCTCTCGACCTCGACCTGCTGCGGGGCACACGCCGCTTTCTCGATCGCTACGGCGTGGCGATCTACAGCGAGCACCTGAGCTACTGCTCCGCCAGCGGCCACCTCTACGACCTCTTGCCGATCCCCTTCACCGAAGAAGCCGTGCACCACGTTGCCGCGCGCATACGCCAGACCCAGGACCTACTGGGCCAGCGCATCGCCGTGGAAAACATCTCCTACTACGCCGCGCCCTTCCAGGCCATGAGCGAAATCGACTTCATCACCGCAGTCCTCGAAGAAGCCGACTGCGACCTGCTGCTGGACGTCAACAACCTCTACGTCAACGCCATCAACCACCGCTACGACGCTCAGAAATTTCTCGCCGCCCTGCCCGCGCAACGCGTCAGCTACCTGCACGTGGCCGGCCATTACGACGAAGCCGACGACCTGAAAATCGACACCCACGGCGCGCCCGTCAAGCAAGACGTCTGGACGCTTCTGTACCAGACCTACCAACGATTCGGACCGGTGCCGACATTGCTGGAACGCGACTTCAACTTCCCGCCGTTGACAGAACTGCTCGCCGAGGTAGGGCAGATCAAACAGCTGCAACAACTCGCCTGCCCAGCAACCCCGGAGGCCCGCCATGCCTGA	MSTFTSPNGAGLGLRRAMLGDLLKMAPNAVDFLECAPDNWIGVGGVYAEQLDQLAARHPITCHGLSLSLGGPQPLDLDLLRGTRRFLDRYGVAIYSEHLSYCSASGHLYDLLPIPFTEEAVHHVAARIRQTQDLLGQRIAVENISYYAAPFQAMSEIDFITAVLEEADCDLLLDVNNLYVNAINHRYDAQKFLAALPAQRVSYLHVAGHYDEADDLKIDTHGAPVKQDVWTLLYQTYQRFGPVPTLLERDFNFPPLTELLAEVGQIKQLQQLACPATPEARHA				NA	NA	NA	NA	NA
D1-35_02707	741			hypothetical protein	ATGCCTGAACAACTGCTCGACCAACTCAACTGCATGGCCAACTACGTCCGCCACCCCCACCACCCGCCCCCACCCGGGCTGGAAGCACGACGCCTGGCCATCTACCGCCAACTGTTCATCGGCAACATCGAATCACTGCTCGCCGCCAGCTTCCCAGTCATCCACCAAACCCTGCCGCGCGCCGACTGGCAACGACTGGTCCACGACTTCTACGCCAACTACCGCTGCCAGACGCCACTGTTCACGCAGCTTGCCGGTGAGTTTGTCGCCTACCTGGAACAACACGAGGATCTGCACGACCTCCCACCATGGCTGCCCGAACTCGCCCAGCACGAATGGAGCGAAAGCGCCCTGCTGCTGAGCGATGCGGTGGAGCCGTCACACAATCCCCACGGCGATCTGATGGAAGGCACGCCCGTGGTTTCCGGACTCGCGCAGGCACATGCCTATGAATGGCCGGTGTGCGACATCGGGCCGGATCATCAACCCACCGAAAAGCCTGCGACCCCAACGTTGGTATTGTTGCAGCGGCGCGAAGGGCAAGTGACGTTTTCGCGGCTGGCGCCGATGGCTTACGCATTGTTGGCGTCGCTGATGGAACATCGGCGCAGTGGGCGGGAGCATCTGGTTGCGTTGGCTGAGATGGCAGGAGTGTCGGTGCGGGAGTTGATGCCCATGGGGGTGGCGGCGCTTGAAGGGTTCAAGGCGCGGGGGATTGTGTTGGGGACGCGTTGGGGGTGA	MPEQLLDQLNCMANYVRHPHHPPPPGLEARRLAIYRQLFIGNIESLLAASFPVIHQTLPRADWQRLVHDFYANYRCQTPLFTQLAGEFVAYLEQHEDLHDLPPWLPELAQHEWSESALLLSDAVEPSHNPHGDLMEGTPVVSGLAQAHAYEWPVCDIGPDHQPTEKPATPTLVLLQRREGQVTFSRLAPMAYALLASLMEHRRSGREHLVALAEMAGVSVRELMPMGVAALEGFKARGIVLGTRWG				NA	NA	NA	NA	NA
D1-35_02708	273			hypothetical protein	ATGGAAAGATACGTCCCCATCACCGGCATCGACTGCACCCCGGCTTCGCTGCTGATTGATAGCCAGGCACCGCTTGATGTTCTGCATGCTACGGCTGATTACCGTATTCGGGTCGTGACACAGGTTTTGGAAAATATTGCGTTTCGTGCCGAGATTGGTAGCGATACGGTAGTGCTTTCGGATTTCGCGCAGTTGCTGGCGATTCCGCTAAGGGATGGGTGTGATTTGTTGGAGGTGATTGGGCGGCGGCTTCAGGAGGCGGTTGAGGGGTGA	MERYVPITGIDCTPASLLIDSQAPLDVLHATADYRIRVVTQVLENIAFRAEIGSDTVVLSDFAQLLAIPLRDGCDLLEVIGRRLQEAVEG				NA	NA	NA	NA	NA
D1-35_02709	927	dmlR_14		HTH-type transcriptional regulator DmlR	ATGAAGAAAATGCCGGATCTCGAAGCCTGGGCTATATTCGCCAAAGTGGCGGAAGCAGGCTCCTTCGCCCGTGCGGCGGCCGATCTCGGCCTGTCGCAGGCGACCGTCTCCAAGGCCGTTACGCGCCTGGAAGCCCGCATGAAGACCATGCTGTTCCATCGCACGTCACGGCAGATGTCGTTGACCGAGAGCGGGAACGCTGCGCTGGAACGCGCGTCGCGCATTCTGGCCGAGGGTGAAGCCGTCGAGGCTGAGGTCATAGAGCAGTCCACTAGCCTGCGCGGCGTGATCCGCTTGAGTGCCCCGATGTCGTTTGGCGTCTCACGCCTGGCGCCATTGTTGCCAGACTTCATGGCACAACATCCCGATGTGGTGCTGGATATCAGCTTCAATGACGAAATAATTGATCTGGTCGCTCAAGGGTTCGACCTGGCCCTGCGGATCTCGACCCTGAGCGACTCCAGTTTGCTGGCTCGGCGCCTGTGCACCGTGCGCATCCTATTGGTCGGCACTCCTGCCTACTTTGAACGCCATGGACGTCCCGACCATCCGCGGGATCTGATCAAGCACCGTGCGTTGCAATACAGCAATTCGCTCGGCGGCACTGGCTGGCGCTTCAGGCACAAACGGCATGGAGAATTTACCCAGGCAATGCCCGCCCCTTTACAGGCCAACAATGCCGAGGCACTCGAACCAGCCTTGCGGGCGGGACTGGGCATTGCGCTGCAGCCGGAGTTTCTGGCCTGGAAGGATCTGGAATCGGGGCTGTTGGAAACGGTGATGGAAGACTGGCAAGTAGAGCCGATCGCGCTGCACATCGTCACCCCTCCGGGGCGCAGCCGCCCAGTTCGCGTGCAAGCACTCATTGACTACCTGGCCGATCACCTGCGCAGTGCTCCATGGGCGCAAACGGGCGAAAAGGTGTAG	MKKMPDLEAWAIFAKVAEAGSFARAAADLGLSQATVSKAVTRLEARMKTMLFHRTSRQMSLTESGNAALERASRILAEGEAVEAEVIEQSTSLRGVIRLSAPMSFGVSRLAPLLPDFMAQHPDVVLDISFNDEIIDLVAQGFDLALRISTLSDSSLLARRLCTVRILLVGTPAYFERHGRPDHPRDLIKHRALQYSNSLGGTGWRFRHKRHGEFTQAMPAPLQANNAEALEPALRAGLGIALQPEFLAWKDLESGLLETVMEDWQVEPIALHIVTPPGRSRPVRVQALIDYLADHLRSAPWAQTGEKV				NA	NA	NA	NA	NA
D1-35_02710	705	yhhW_2	COG1741	Quercetin 2,3-dioxygenase	ATGATCGAACGCCGTTCCTTCGACAGCCTCGGTGGTGCTCACCACGGTTGGCTTGATGCCAGGCATCACTTTTCTTTCGCCGAATACCATGACCCAACGCGGTTTAATTGGGGCGCTTTACGGGTCTTGAACGACGACACGATCGCCCCGAACTCAGGCTTCCCGGCGCACCTGCATTCGGACATGGAGATCGTCACCTACGTCCGCGAGGGCGCCATCACTCATCAGGACAACCTTGGCAACAAGGGTCGCACCGTGGCGGGCGACGTGCAGGTGATGAGCGCAGGCAGCGGTATTCGCCACTCCGAATACAATCTGGAGGCGGGTATCACCAAAATCTTTCAGATATGGATCACCCCTGACACGAAAGGCGATCCACCCTCCTGGGGCTCCAAGCCGTTCCCGAAAGGCGACCGTTCCGGCCAGTTCGTAGCATTGGCGAGCGGCGCCGAAGGCGATGAAGATGCGCTGCCCATCCGTACGAACGCGCGGGTGCTGGGGGCAACGCTGAAAACCGGCGAAACGATCGAATACCACTTCGCCGACGACAAACATTTTGGCTACCTGGTCGCAGCCACGGGCAGCGTCAAAGTCAACAACCTTGTGCTCGAGGCGCGCGATGGCGCCGCCATCCACGATGAGCAGCGCATACGCATTACCGCCCGCGAGGATGCCGAAATACTGCTGGTAGACGCCGCCAGCTGA	MIERRSFDSLGGAHHGWLDARHHFSFAEYHDPTRFNWGALRVLNDDTIAPNSGFPAHLHSDMEIVTYVREGAITHQDNLGNKGRTVAGDVQVMSAGSGIRHSEYNLEAGITKIFQIWITPDTKGDPPSWGSKPFPKGDRSGQFVALASGAEGDEDALPIRTNARVLGATLKTGETIEYHFADDKHFGYLVAATGSVKVNNLVLEARDGAAIHDEQRIRITAREDAEILLVDAAS	PGPT0019980_5215	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
D1-35_02711	693	ycaC_2	COG1335	putative hydrolase YcaC	GTGTCCAACACGTTGCTAGAAGTACTGACCCCACAAAACAGCCAACTCATCTTCATCGACCAGCAGCCGCAGATGGCTTTCGGCGTGCAGTCGATCGACCGGCAAGTGCTGAAAAACAATGTCGTGGGGCTGGCCAGGGCCGCCAAGGCGTTCGGTATCCCTACGACCATCACCACCGTGGAAACCGACGGATTCTCGGGCAATACCTACCCTGAGCTACTGGCGGTGTACCCTGAGAACGACATCCTCGAGCGCACCTCCATGAACTCCTGGGACGATCAGAACGTTCGCGACGCCTTGGCGAAGTCCGCCGCTGCCGGTCGCAAAAAGATCGTCGTTGCTGGCCTGTGGACCGAAGTCTGCAACACCACCTTCGCGCTGTCCTGCTTGCGCGACACTGACTATGAAATCTACATGGTGGCCGATGCCTCGGGTGGCACTTCGGTTGAAGCGCATAAATACGCCATGGATCGCATGGTTCAGGCCGGTGTGGTGCCGGTGACCTGGCAGCAAGTGCTGCTCGAATGGCAGCGGGATTGGGCACGCAAAGAGACTTATGAAGAAGTGATGGCGATCGTAAGGGATCACTCCGGCGCCTACGGCATGGGAGTGGACTATGCCTACACCATGGTGCACAAGGCTCCGGAACGGGTGAAGCACGGCGAGCGTATCGGCCCCAACCCAGCCGAGTAA	MSNTLLEVLTPQNSQLIFIDQQPQMAFGVQSIDRQVLKNNVVGLARAAKAFGIPTTITTVETDGFSGNTYPELLAVYPENDILERTSMNSWDDQNVRDALAKSAAAGRKKIVVAGLWTEVCNTTFALSCLRDTDYEIYMVADASGGTSVEAHKYAMDRMVQAGVVPVTWQQVLLEWQRDWARKETYEEVMAIVRDHSGAYGMGVDYAYTMVHKAPERVKHGERIGPNPAE				NA	NA	NA	NA	NA
D1-35_02712	273			hypothetical protein	ATGAAAATGTATGCATTGTCCCTGGCCGCTGGCCTGCTTGTGGGTGTGGTCTACAGTCTTCTGAGCGTGCGCTCGCCTGCGCCGCCGCTGGTGGCCCTGATAGGGCTGATGGGAATCCTGGTCGGCGAGCAAATCATCCCGATCGGCAAGCACTTGTGGTGTGGCACGACATTGAGCGCTGCCTGCGACAAGACAAGCGCCGTCAGCCATGTACTCGGTCAACTGCCTGGTCGACACACCAAGCAACAGACTGAGGAATCAAAGCCGACCTGA	MKMYALSLAAGLLVGVVYSLLSVRSPAPPLVALIGLMGILVGEQIIPIGKHLWCGTTLSAACDKTSAVSHVLGQLPGRHTKQQTEESKPT				NA	NA	NA	NA	NA
D1-35_02713	1896	nfdA_2		N-substituted formamide deformylase	GTGACCCATTCCATTCCCGATACCATTTTCCGTAATGGTGAGATCACCACACTCAATCGCGCCAACCCGGTCGCGAGCGCCGTCGCCATCAAAGACGGCAAGTTCCTCGCCGTCGGCTCTGACCAGGAAATCATGCTGCTGGCGGGCCCGGCTACCAAGGTTGTCGACCTCAAGCGCCGTAGCGTGCTGCCTGGCCTGGTTGATAACCACACCCACGTGATCCGCGGCGGCCTCAATTACAATCTGGAGTTACGCTGGGACGGTGTGCGTTCTTTAGCCGACGCCATGGAAATGCTCAAGCGTCAGGTGGCAATCACGCCAGCACCGCAATGGGTTCGCGTGATCGGCGGCTTCACCGAACACCAGTTCATCGAGAAGCGCCTGCCGACCATCGAGCAGATCAATGCGATTGCGCCCGACACGCCGGTGTTCCTGCTGCACCTGTACGACCGGGCCTTGCTCAATGGTGCGGCCTTGCGTGCGGCCGGCTATACCCGGGATACGCCCGAGCCACCGGGTGGAGAAATCACCCGGGATGGCAACGGCAACCCCACCGGGCTGCTACTGGCCAAGCCCAACGCGATGATTCTTTACGCGACGTTGGCCAAGGGCCCCAAGTTGCCCTTCGACTATCAGGTCAACTCCACCCGCCACTTCATGCGCGAGCTCAACCGCCTCGGTGTGACCGGCGTGATCGACGCGGGCGGCGGTTTCCAGAACTATCCCGATGACTATGCCGTGGTGCAGAAGCTGGATGATGACGGCCAGATGACGGTCAGGCTGGCTTACAACCTGTTTACGCAGAAACCTAAGGAGGAAAAAGACGACTTCCTCAAGTGGACCTCCAGCGTCAAGTACAAACAGGGCAACGACTACTTCCGCCATAACGGTGCCGGTGAGATGTTGGTGTTCTCGGCAGCGGACTTCGAAGACTTCCGCCAGCCTCGTCCGAACATGCCGCCGGAAATGGAAGGCGAACTTGAAGAGGTGGTGCGTATCCTGGCGCAGAACCGATGGCCGTGGCGGTTGCACGCCACCTACGATGAAACCATCACCCGTGCGCTGGACGTCTTCGAGAAGGTCAATCAGGACATACCACTGGCCGGGATCAACTGGTTCTTCGATCACGCCGAAACCATCTCGGATAAATCGATCGACCGTATAGCAGCGCTCGGGGGCGGCATTGCCGTGCAGCACCGCATGGCTTATCAGGGTGAATACTTTGTCGAGCGCTACGGCGCCCGCGCCGCTGAGGCCACGCCGCCGGTGAAGCGAATTCTCGAAAAAGGCGTGAAAGTGTCAGCGGGCACTGACGCTACTCGCGTCGCCTCCTACAACCCCTGGGTCTCACTGTCGTGGATGGTCACCGGCAGGACCGTCGGCGGCCTGAACCTCTATCCACAACGTAATCTGCTTGATCGCGAAACCGCGTTGCGGATGTGGACCGAGAATGTCGCCTGGTTCTCCAACGAGGAAGGCAAACGTGGACGCATTCAGGCTGGCCAGTTCGCTGACCTGATAGTGCCGAGCAAAGACTACTTTTCGGTCCCCGAAGACGAGATTTCATTTCTGACCTCCGATCTGACCGTGGTGGGTGGGCGCGTTGTCTATAGTGCCGGCCAGTTCACTGCGCTGGACGACAACCTGCTGCCGCCCGCGATGCCGGACTGGTCGCCGACCCGCACGTTCAAGGGTTATGGCGCTTGGGGAGAACCGGAAGGCGCCGGCAGGAACTCGCTGGCGCCGTTGCGCGCTCAAGCCGCTGCATCGTGCGGCTGCGCAAGCTCCTGCGGTGTGCATGGTCATGACCATGCCGGTGCGTGGGGTTCCAATGCACCGGTGTCGGATCCGAGGAGTTTTTTTGGCGCTTTAGGCTGCTCCTGCTGGGCCGTATAG	MTHSIPDTIFRNGEITTLNRANPVASAVAIKDGKFLAVGSDQEIMLLAGPATKVVDLKRRSVLPGLVDNHTHVIRGGLNYNLELRWDGVRSLADAMEMLKRQVAITPAPQWVRVIGGFTEHQFIEKRLPTIEQINAIAPDTPVFLLHLYDRALLNGAALRAAGYTRDTPEPPGGEITRDGNGNPTGLLLAKPNAMILYATLAKGPKLPFDYQVNSTRHFMRELNRLGVTGVIDAGGGFQNYPDDYAVVQKLDDDGQMTVRLAYNLFTQKPKEEKDDFLKWTSSVKYKQGNDYFRHNGAGEMLVFSAADFEDFRQPRPNMPPEMEGELEEVVRILAQNRWPWRLHATYDETITRALDVFEKVNQDIPLAGINWFFDHAETISDKSIDRIAALGGGIAVQHRMAYQGEYFVERYGARAAEATPPVKRILEKGVKVSAGTDATRVASYNPWVSLSWMVTGRTVGGLNLYPQRNLLDRETALRMWTENVAWFSNEEGKRGRIQAGQFADLIVPSKDYFSVPEDEISFLTSDLTVVGGRVVYSAGQFTALDDNLLPPAMPDWSPTRTFKGYGAWGEPEGAGRNSLAPLRAQAAASCGCASSCGVHGHDHAGAWGSNAPVSDPRSFFGALGCSCWAV				NA	NA	NA	NA	NA
D1-35_02714	927	dmlR_15		HTH-type transcriptional regulator DmlR	TTGAATAAATTATCTGAAATGCATGCTTTCGTGGCGGTGGTGGACACAGGCAGTATTTCAGAGGCTGCTCGCCGTTTGGGCACCGCCAAGTCCATGATTTCCAAGCGCATTCAACAGCTCGAAAAACGCCTGGGGAGCATTCTTCTGGAGCGTGGCCGGCAGACTCGCCTGACTGAGTCAGGCGAGGTTTTTTACCGTCATTGCAGGGGAATTCTGGCTGACATTGAAACTGCCGAAAACGCGGTGCTGACGTCTCAGTCGATTGTCCGTGGAAGTCTGCGTATTGCAGCTCCGATGGCTTTCGGCAGGCGATATCTGACGCCGATTTTGGCAGCTTTTGCCAGGCAATATCCTGAGTTGTATCTGGATATCGAGTTCGACGACCGCCGCGTCAACTTGCATGAAGAGGGTTTTGATGCGGCGGTTCGTATCGGCGAATTACCAGACTCTTCGCTGATGGCCAAAATAATTACACCCAACCGCCATATCATCTGTGCGAGCCCTGATTATTTGAATGCTCATGGGACGCCACAAATACCGCAAGACCTGGCTCAGCATTTCGCCGTGCTTTACGTCAATCGCGAACCACATGGTATGTGGACGCTACCGGTAAACGGCACATTAGAGTCCTTTCGTGTGCGCTGCCGAATGCGCACCAACTGTGGCGATCAACTGATGGAGGCGGCGAAGACGGGGCTCGGGCTTGCCATATTGCCCACTTTCCTGGCCGCTCAAGCCATTGTGGACGGTGAATTGATCGAAGTGCTGGCGCCTTATGCGCCACGTGGAGGCAATATTTCTGTTGTCTATCGTCAATCGCATAAAACATTGGCCAAGCTTCTCGCGCTGAGTAGCTTCCTTAGCGAACGGATCGGTAACCCGCCAATTTGGGACCGGCTGCTGGCATCCAGTTCGCAACCACAGTAG	MNKLSEMHAFVAVVDTGSISEAARRLGTAKSMISKRIQQLEKRLGSILLERGRQTRLTESGEVFYRHCRGILADIETAENAVLTSQSIVRGSLRIAAPMAFGRRYLTPILAAFARQYPELYLDIEFDDRRVNLHEEGFDAAVRIGELPDSSLMAKIITPNRHIICASPDYLNAHGTPQIPQDLAQHFAVLYVNREPHGMWTLPVNGTLESFRVRCRMRTNCGDQLMEAAKTGLGLAILPTFLAAQAIVDGELIEVLAPYAPRGGNISVVYRQSHKTLAKLLALSSFLSERIGNPPIWDRLLASSSQPQ				NA	NA	NA	NA	NA
D1-35_02715	579			hypothetical protein	ATGATCACTCCTAAAATCAAATCGCTCGCTGCAGCAATCACGCTCGCCACGTGCATCTTAACTGTCTCGCCAGTGTCGGCACAGTCGACTAGCGAAGCGCAGTCAGCTGCATCACTCTCGGTTGTCATGGAATTCCTGGCCAATACTTCGCCCGATAAAGTCGAAGCCGCTGCGCACAGGTTAGCGGCTCCAGACGCCACCTATGTTTCTCTAAACTTCGATAACCCAGAACTCAAAAAAATCATGCCTTGGACCGGCACAAACAAAGGCCCGAAAGCCTTCAGTTCGTTATTCATGCAGGTCTCGGATTACTGGAAGATCGAAGACTTCACCATCACTACCAAAATCGCCTCCGGCGAAGATGTTGCGATTTTCGGTAAGTTCACCTATCGCTCCGTGGCGGTCGACAAGGTGTTTACATCACCGTTTTCCGTTCACGCCAAGGTTCGTGACGGAAAGATGACTTATTTCCAGTTCATGGAAGATACCTACGCGTCCGCCAGTTCGTTCCGCCAGTCCGGTTCGTGGACCGTGAAGACATCAGCGCATGCAGCCCCCGTTACGGTCGGGACCAATTAA	MITPKIKSLAAAITLATCILTVSPVSAQSTSEAQSAASLSVVMEFLANTSPDKVEAAAHRLAAPDATYVSLNFDNPELKKIMPWTGTNKGPKAFSSLFMQVSDYWKIEDFTITTKIASGEDVAIFGKFTYRSVAVDKVFTSPFSVHAKVRDGKMTYFQFMEDTYASASSFRQSGSWTVKTSAHAAPVTVGTN				NA	NA	NA	NA	NA
D1-35_02716	540			hypothetical protein	ATGCAACGGGTGATGATTGTTGGTCAACCTGGATCTGGGAAAAGCACTTTGGCGCGTAACCTGGGCCAACGCACGGGCTTACCGGTCGTTCATATCGACACTATTCACTGGCAGCCAGGGTGGGTCGAACGAAGCTGGGACGAGAAGACGCATCTCTGTCGCGAGGTCGAGTCCCTTGATCGCTGGATTTTCGAAGGTGGCCATTCAGCCACGTGGAACCATCGGATGGCTCGCGCTGATCTTTTGATATGGATCGATCGATCTGCGACGCTCCGATTTTGGCGTGTACTCCTCAGAACGCTGCTCCACCGAGGTCAGCGCCGGCCGGACTTGCCGGACAACTGCCCCGAATTGCTGGCGAATCTGCCAGAGTTTTTTAAGTTCATGTGGCGGACGAGAAAATCAGCCCGGGCGAAGATGAACCAACTCGTGGCGACTGCCCCCCCAACTTGCCGCGTGGTCTGTCTGCGGTCTAACCGGGATACAAGAATTTTTCTGGCGAGCGTTGGAAATTCGACTGGCCAGGCTCTGCGGGATTGA	MQRVMIVGQPGSGKSTLARNLGQRTGLPVVHIDTIHWQPGWVERSWDEKTHLCREVESLDRWIFEGGHSATWNHRMARADLLIWIDRSATLRFWRVLLRTLLHRGQRRPDLPDNCPELLANLPEFFKFMWRTRKSARAKMNQLVATAPPTCRVVCLRSNRDTRIFLASVGNSTGQALRD				NA	NA	NA	NA	NA
D1-35_02717	972	cdhR_8	COG4977	HTH-type transcriptional regulator CdhR	ATGCTCCCCATACGCGTTGCTGTTCTAGCTTTCGAAGGCGTCAGCCTTTTCCATCTTTCCGTGCCGGGAATGGTATTGGGAACCGCGCAACCTGCGCCCGATGGGCCTCGCTACGAAATCAATTACTGCGCAGAAGTGCCCGGAGTGATCAGCACCGACCAGGACATTGGCCTGTCGGTAAGCCTCGGCCTGGAGCTGATGGAAACTTCCGACGTCATCATCATCCCGGCGTGGGGCGATCAATCCCTTGTTGCATCGCCCCAACTCATAGAAGCGCTGCAGCTCGCCAATACGCAAGGCAAGCTCATCGTGGGATTGTGTTTGGGAGCGTTCGTCCTTGGCGATGCCGGGCTGCTCGATGGAAAGGAAGCAACCACCCACTGGGCCGTCCGTGACCAGTTTGCGCAACGTTTTCCCAAGGTCCGATTCAAGCCCGAAGTGCTCTACGTCAGCGCCGATAACATCGTAACGTCCGCCGGAACGGTCGCGGCAATCGATTGCTGCCTGCACCTGGTACGCGAGCGACTCGGTGCAGACGTGGCGAATCGCACCGCGAAAATGCTCGTGACGCCACCCCACAGGCCCGGAGGCCAGGCGCAGTATGTTGAACACCCGGTACCGCAATTAGCTGGCGAGACTCACCTGTCCGACGTCCTGACGTGGGCCCGAATGAACCTGTCCGGAGACCTCTCCCTCGACGTGCTGGCAGACATGGCGAAAATGAGCAGACGGACTTTTACCCGTCGGTTCAAGGAGGCGACTGGCACAACTGTGTCGAAATGGTTGACCGCTGAACGAGTGGCTAGGGCGCAGGCGTTGCTGGAAACGACTGAGTTGCCTATTGAATACATCGCGGGGGAGGTGGGGTTTGGGACGTCATTGTCGTTGAGGCAGCATTTTGGGGTGCATCTGGGGACGTCGCCTTCTGATTATCGGAAGATGTTTTGTCTTGGGGTGGGGCGGAAGATTTGA	MLPIRVAVLAFEGVSLFHLSVPGMVLGTAQPAPDGPRYEINYCAEVPGVISTDQDIGLSVSLGLELMETSDVIIIPAWGDQSLVASPQLIEALQLANTQGKLIVGLCLGAFVLGDAGLLDGKEATTHWAVRDQFAQRFPKVRFKPEVLYVSADNIVTSAGTVAAIDCCLHLVRERLGADVANRTAKMLVTPPHRPGGQAQYVEHPVPQLAGETHLSDVLTWARMNLSGDLSLDVLADMAKMSRRTFTRRFKEATGTTVSKWLTAERVARAQALLETTELPIEYIAGEVGFGTSLSLRQHFGVHLGTSPSDYRKMFCLGVGRKI				NA	NA	NA	NA	NA
D1-35_02718	891			hypothetical protein	ATGAAACTCAGAACTTTACCGCTTGCCGTCAGCATGGCTTGTGCCGTAGCCGCTGCCCCCGCGTTCGCCAGTTCGAATGCTCCCAAGGCACCTGACGCCTCTCACAAGTTGGATTTGCAGCAGGTTCGTAACGCCACGGTGAAAATCACCTACGGTGACACCACTTTCCTGATTGATCCGATGCTGGCAAAAAAAGGCGCTTATCCGGGTTTTGAAAACACCTATCGGAGCAACCTGCGCAACCCCTTGGTTGATCTGACGGAGTCGCCTGAGAAAGTTATCGCTGGAGTCGACGCCGTCATCGTCACCCATACGCACCTGGATCACTGGGACGATGCCGCGCAGAAAGCGCTGCCTAAAGACATTCCGTTGTTCGCCCAACATGAAGAAGATGCACAGCTGATTCGTTCCCAGGGTTTCAAGAACGTACGCGTACTGACGGATGAAGCCGAATTCGGCGGCGTGAAGATCACCAAGACCGGCGGCCAGCATGGCACTGACGAAATGTATGCCGTGCCAGCGCTCGCAAAACCGCTAGGCGAAGCCATGGGCGTGGTTTTCCAATCGCCGGGCTACAAGACGCTCTACCTAGCGGGTGACACGATCTGGCGTAAAGAGGTCGACCAGGCGATCAACCAGTACCGCCCGGAAGTTATCGTGCTCAACGCCGGGGAGGCAAAAATGGCCGGATTCGACGGCTCGATCATCATGGGCGAGGAAGATGTGCTTCGCGCCTCAAAAGCCGCGAAAAACGCACAGATTGTCGCGGTGCACATGGACGCGATCAACCATATGTCCCTGACCCGTGAAGAACTGCGCGCTTACGTCAAGAAGCAAGGGATTCAGGGGCGTGTGGACATTCCGGAAGATGGGGCTTCGCTGGAGTTCTAA	MKLRTLPLAVSMACAVAAAPAFASSNAPKAPDASHKLDLQQVRNATVKITYGDTTFLIDPMLAKKGAYPGFENTYRSNLRNPLVDLTESPEKVIAGVDAVIVTHTHLDHWDDAAQKALPKDIPLFAQHEEDAQLIRSQGFKNVRVLTDEAEFGGVKITKTGGQHGTDEMYAVPALAKPLGEAMGVVFQSPGYKTLYLAGDTIWRKEVDQAINQYRPEVIVLNAGEAKMAGFDGSIIMGEEDVLRASKAAKNAQIVAVHMDAINHMSLTREELRAYVKKQGIQGRVDIPEDGASLEF				NA	NA	NA	NA	NA
D1-35_02719	729			hypothetical protein	ATGGTACTCACCGTCAGTTCCGCTTACATCCCGCCGGCCAATACCAACCTCACGCGCTCCGAACAGGCGCTCGTGACCAAGGCGCCGACAGACGCTGCGAAAGAACTCCTGGCAAACGCCAGCCCAGCGGCCATCTTCCATCCCAGCGAAGAAGCCCAGGCAACAATGCCGATGCCTGTGGCGATCGAGACCTGGATCGGTCGCTCTCAATCACCGGACTTTCCTCGATACGTAGAGACCCTCAAAGGGGCAACCAGTACGCTGAAGTCCTCGTTCGAGGATTTCCAATCCACGCTCTCGACGACCCACCCGGACTTGGCCGGGAAGAAATACGGCTTCACTGTCGAAGCCGACGGCAGCCTGAAGGTGCTCAACTCCGCCGGCAAGCTCAGCAGTTCCGATATCCAACGGCTGACCGATCTGCTCAACGACTCCAAGGACCTGAAAGCCGCCGCCATCGCAGTTCGCGACGCCTCCATCGACCTGGTCGACGCCGACTCGCCTTGGTCCGGCAGCTACCTGGGCCTCTACAGCCTGACCAAGGAAAACTTCGCCAACACGATCGATCTGGCCCCGTTGCTGAAAGACCGTGGGTCGGTGTCCATACAGGAATATTCCGACGGGTTGTTTTTCAATCAGTTGGCGTACAAGGGCGAGCGGGCGACGCGGGAGACGGAACAGGCGATGTTCGAGAGGCGGGCGGCGGAGCGGTTTTCGGTGCGGGTTTGA	MVLTVSSAYIPPANTNLTRSEQALVTKAPTDAAKELLANASPAAIFHPSEEAQATMPMPVAIETWIGRSQSPDFPRYVETLKGATSTLKSSFEDFQSTLSTTHPDLAGKKYGFTVEADGSLKVLNSAGKLSSSDIQRLTDLLNDSKDLKAAAIAVRDASIDLVDADSPWSGSYLGLYSLTKENFANTIDLAPLLKDRGSVSIQEYSDGLFFNQLAYKGERATRETEQAMFERRAAERFSVRV				NA	NA	NA	NA	NA
D1-35_02720	1566	aer_2	COG0840	Aerotaxis receptor	ATGAGAAACAATCAGCCGGTCACGCAACGTGAGATTTCGCTCGCACCTCAGCAAAAGCTGATTTCCACCACGGATACGCGAGGCGTCATCACGTATTGCAATGACGCCTTCGTCGAGATCAGCGGATTCGACAAGGTGGACCTGATCGGCGCACCACAGAATATCGTTCGTCATCCGGATGTGCCGCCCGCCGTGTTTGCGCATATGTGGGCCGCGCTCAAGCAAGGCAAGCCGTGGATGGGGATCGTCAAGAACCGCTCGAAAAACGGCGACCATTATTGGGTCAATGCCTACGTCACGCCTGTTTACGAAGGGAGCCAGGTCGTCGGTTACGAATCGGTACGAGTCAAGCCGACGGCCAGCCAGATCCGCCGCGCCGAAGCGCTCTACAAACGCATCAGACTCGGCAAGGCAGCTGTCCCGGGTGTTGATCGGTGGTACCCCTTCCTGCTCAGTTGGGTACCGGTTCTGTTGATGGGTTTATTGGGCACAGTAGGCGGCGCCTTCCTCAATACCGCCATGGCAATGCTGCTTGCTGTCGGAATATCGATTCCGGTCGGGTTGATCATCTCGCGCCAGCAGAACAAAGGCGCGCTGCGTCTGTTGGAAATGGCCGAGGCATCAACCTCGGATGCGTTGCTGGCGAAAATGTACAGCGACGAGCGCGGCCTGCAGGCTCGCCTTGAAACAGCTTTCGAGAGCCAGGCATCCCGGCTCAAGACGTGCCTCACTCGCCTGCAGGACACCGCCGAGCAACTGACCGGTTTGGCTGGCAGGTCCGACGGCCTGGCCGCCGACAGTTCACGCGGGCTTGAACGCCAACGCGTCGAGACTGAGCAAGTGTCGGCCGCGGTGAATCAGATGTCGGCGACCACCCAAGAGGTCGCCAGTCATGTCCAGCGCACGGCTGACGCTACCCAGGAAGCCAACGTGCTGACCGGGCGCGGACGCGACGTGGCCCGTGACACCCGCCAGGCGATTCAGCGTCTCTCCGAGGTCGTGGGCGAAACCGGGCTGACGGTTGCGCAGCTGGCCAAGGACAGCAACGAAATCGGGACGGTGGTCGATGTCATCAAAGGCATTGCCGACCAGACCAACCTGCTGGCGTTGAACGCCGCCATCGAAGCCGCGCGCGCCGGAGACATGGGCAGGGGGTTCGCGGTGGTTGCCGATGAAGTGCGCCAGCTGGCACAGCGCACGACTGAGTCCACCACGCAGATTCATAGCCTGATTTCCAAGCTGCAGGTCTCCTCCAACAACGCCGTGAAAACCATGGAAAGCGGCCATCGACAAGCTGAGGAAGGCGTCGCCTGGGTGCTTGAGGCAGACAAAGCACTGATCGGCATCAGCGAAGCCGTGGCACACATCACCGACATGACCAGCCAGATTGCCGCGGCGACAGAAGAGCAAACCGCGGTGGCCGACGAAATCAGCCGCAATATCACCACTATCGCGAACCTGGCAGACCAGACTTCCGAACAGGCCAGGCACTCCGCGGAGTTGAGCAAGGAATTGACGCAAACAGCCATGACTCAGTACTCGTTGGTGGAGCGATTTAATCGCTAG	MRNNQPVTQREISLAPQQKLISTTDTRGVITYCNDAFVEISGFDKVDLIGAPQNIVRHPDVPPAVFAHMWAALKQGKPWMGIVKNRSKNGDHYWVNAYVTPVYEGSQVVGYESVRVKPTASQIRRAEALYKRIRLGKAAVPGVDRWYPFLLSWVPVLLMGLLGTVGGAFLNTAMAMLLAVGISIPVGLIISRQQNKGALRLLEMAEASTSDALLAKMYSDERGLQARLETAFESQASRLKTCLTRLQDTAEQLTGLAGRSDGLAADSSRGLERQRVETEQVSAAVNQMSATTQEVASHVQRTADATQEANVLTGRGRDVARDTRQAIQRLSEVVGETGLTVAQLAKDSNEIGTVVDVIKGIADQTNLLALNAAIEAARAGDMGRGFAVVADEVRQLAQRTTESTTQIHSLISKLQVSSNNAVKTMESGHRQAEEGVAWVLEADKALIGISEAVAHITDMTSQIAAATEEQTAVADEISRNITTIANLADQTSEQARHSAELSKELTQTAMTQYSLVERFNR	PGPT0015700_812	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	METHYL-ACCEPTING_CHEMOTAXIS_PROTEINS,PGPT0015700-aer-K03776	NA	NA
D1-35_02721	255	cim		Cloacin immunity protein	ATGGGCTTAAAGTTAAGGATGGACTGGTATGACCCGAAAACGGAGTGGGGTGAAGGTAAGGAATATACGGTAGATTTACGGGAAGATAAGTCAGCTATCGCCGCACTGGGTCTAGAGAACGAGCCAAACATTTATGACGGTGGCTTTGATGTGCTGGAAGAATGGATTCCGATTCTTCAACCCCTCTTCAGCCACCTGATCGTTCCCGAACAGTTTGATTACCAGATCTCATTTCGTTACCGAGCCGCTTGGTAA	MGLKLRMDWYDPKTEWGEGKEYTVDLREDKSAIAALGLENEPNIYDGGFDVLEEWIPILQPLFSHLIVPEQFDYQISFRYRAAW				NA	NA	NA	NA	NA
D1-35_02722	249			hypothetical protein	GTGCCTTATTACTCGATAACTGGTTTTTACCCGGATGAAAAAAATGACGACTCACTACAATTTGAGATTGATATAAAAGACATCGAACAAAAAGAAGCCTTGGCTCAGATGGCCGAAGCAAAACCATTCAGCAAAATTGGTCCAGGGGAGCAGGAAATTACGGAAGAGCAGCTCAAGAGAGTTGAAGCGATCCTGGGCAGGAAGCTCCCCGTGGGACTGGAATATTTTATTGGGGCGACAGCCGACTAG	MPYYSITGFYPDEKNDDSLQFEIDIKDIEQKEALAQMAEAKPFSKIGPGEQEITEEQLKRVEAILGRKLPVGLEYFIGATAD				NA	NA	NA	NA	NA
D1-35_02723	255	imm_1		Colicin-E3 immunity protein	ATGGGACTCAAACTGAGGCTCGAGTGGTATAGCAAACAAACCGAATCTTTCGAGGGGGAGGAGTACTCGGACGACTTCGGTGATGACGGTGCTGTCATCGACGCTTTGGGCATTCCTTTCGAGAATAATATAAATAACGGTGGATTTAATGTTCCCTTGGAATGGATAGAAATTCTTCGGCCCTATTTTCAACATCTTATTGATTGGGATCGTTATGACTATCAAGTAGCCTTCGATTATCGAGACAGCTGGTAA	MGLKLRLEWYSKQTESFEGEEYSDDFGDDGAVIDALGIPFENNINNGGFNVPLEWIEILRPYFQHLIDWDRYDYQVAFDYRDSW				NA	NA	NA	NA	NA
D1-35_02724	231			hypothetical protein	ATGAGGCACGTCATTGAGGTTTTCGACGCGGGAACTGAGGAGTTGCTGCAGAGCGTGGAGATTCCAAAGTCGTACTCGACTCAATTGAGCGAACTAATGGGCTGGACGCAACCTGAAGACCCGTACGATGGCTATGACCTCTCGTCGGAACAGGTAGAGGTATTAGAGAGGTGGACCAGTACCGCATTAAATGGGGATAACGTCATTATCCAAATTGTCTGCCTTGAGTAA	MRHVIEVFDAGTEELLQSVEIPKSYSTQLSELMGWTQPEDPYDGYDLSSEQVEVLERWTSTALNGDNVIIQIVCLE				NA	NA	NA	NA	NA
D1-35_02725	1113			hypothetical protein	ATGACCTCCAGCGAGGTGGCGGAGTACGAAGCACTCCAGCGTGGCCACAAAGCCATGCTTGCCCGACAGGCTGCTTACGAAAAACAACGTTGGGCCAAGGTTGAAAGAACGCCTCTCGTCATCACCGGGTCGGTGTTCGCCAAAAGCTGCGCGCTGCCCAACGGAATCATTGACTACAGCAACCCCAACGGCTTTGTTCCGCCGGACCTGATCAAGCAGTACGGCGATCTGATGTGGCTTGGCGCCAGGAGCCCCGACGCGTCGGGAACCCTTCCCCTGAAGCAGATTGGCTCAAGCGCGATACCCGCCGCAATGGGTAGGCTCGCACTGGGCGGTTCCGCAGTGTCAACCGCCGGAGCCATCGGCGGCACGGTCGGCGCCGCACTGTTGACCGGCATCGTCGCCTTGCTCTGGCCCTCCAGCCTCGGCGACAGCGCACTCTACAGCGAAGACCAGTTGCGCAATCTCAAACAGGCCCGCAGCCGCATGCGCCTGAGCATCGAGCAGCAGGCCGATGGCAGCCTCAAGGGCTATGGCTTCTACACCGGCCAGAACCGCGACTGGGAAATGGTCGACGTCATCCAGCTGACGCCGCGTGCCGACCAATACGTCGCCGACCTTGGCGACGGCATCGAACTGATCTGGACCCCAGCCATCGACCCCTCCGACACCCTCGGCATCCCGGCCTTGGAAGCCGCCCCTCAGACGCCACACATCTGGATTTATCCGCCGACGCCCGTGGCGGACAGCATCATCGTCAACCCGATCTATCCGCCGGAGTACAAAGATTTCATTCTGGTGTTTCCGGTGGATTCGGGGGTTCGGCCGGTTTATGTGGTTTTGAGTGTTCCGGGGGATCATAAGTATTACCCATCTCCACTGTCGCTTCCCGCCTTTGCAGACGCGAAGTCCGCCCCCTTGAAAACGTCTGTACGTGGCGGAGGTAAAAAACGTCGACGATGGAAGGATCGCGCGGGAAAAATCTATGAATGGGACTCTCAACATGGCGCGCTAGAAGTATATACAAAGCAAGGTAAGCACCTCGGCGAGTTCGATTTCGTAACGGGGGAGCAAACAAAACCTGCTGATCCATCTAGGAGGGTTGAAAAATGA	MTSSEVAEYEALQRGHKAMLARQAAYEKQRWAKVERTPLVITGSVFAKSCALPNGIIDYSNPNGFVPPDLIKQYGDLMWLGARSPDASGTLPLKQIGSSAIPAAMGRLALGGSAVSTAGAIGGTVGAALLTGIVALLWPSSLGDSALYSEDQLRNLKQARSRMRLSIEQQADGSLKGYGFYTGQNRDWEMVDVIQLTPRADQYVADLGDGIELIWTPAIDPSDTLGIPALEAAPQTPHIWIYPPTPVADSIIVNPIYPPEYKDFILVFPVDSGVRPVYVVLSVPGDHKYYPSPLSLPAFADAKSAPLKTSVRGGGKKRRRWKDRAGKIYEWDSQHGALEVYTKQGKHLGEFDFVTGEQTKPADPSRRVEK				NA	NA	NA	NA	NA
D1-35_02726	387			hypothetical protein	ATGCATCTGCGTTCAAGCTTGTTGTGCCTGTGCCTTTACAGCAGCCTTGGCCAGGCCGCTGTCGACTGTTCTGCCCTGACGGAAAAGCTCTCGGGAACGGTCCCTGAATTTCATCCGTCAGTGCAAGGCAAGGTCATTGGCACCGGGCGCCTGCATTTCCACGAAGCGCCGGATGGGGCTTGCGCCAACAAGAAGATTTTCGTGATACCCGGCGACTCCCTCACCGTTTACGCCAGTCTTGAAGACGAGTCCTGGCTGGAAGTGAATTACATCGCCAAGGATGGCGAGGACTACACCGGTTGGGTGAAGGCAGACCGGGTACAGATTGGCGAACCTTACGGAGCTCAACCGGACACCGATGACGCGCCAGAGGCTGATGCCCAATAA	MHLRSSLLCLCLYSSLGQAAVDCSALTEKLSGTVPEFHPSVQGKVIGTGRLHFHEAPDGACANKKIFVIPGDSLTVYASLEDESWLEVNYIAKDGEDYTGWVKADRVQIGEPYGAQPDTDDAPEADAQ				NA	NA	NA	NA	NA
D1-35_02727	933			hypothetical protein	TTGATTGGATATCGGTTCGAGCGCACCGCGCGGGGTGACTTGCACATCCACTCGCTCAACCGGGTGCAGAGCGTATTCGTGTTGTTTACCAGTGCGCTGGCCTTGATCTTTCCCGTGGGAGCCGTGCTGGCGATTGCCACTGCAGACTCGTCGCTGGTGGGCCTGGACCCACTGACCTTGCTGCTGATGGTGCTCGGGCTGCTGTTGGTTCCTGCCCTGGGCCTGGCGCTGCTGGTCTACACCGGTATCCGCGAAACCCTGCTGCTGTCGCGCGTCGACGCTGAAGGCAAGCGTCGCACCCGAAACTTTTTTGGACGCCGTGAGCGGGTGCGATCGGTGTTCAGGATCGACGCCGTCAAATACCTCGAACTTCGCCGCCACCCGGAGGCCGAGCCAGCCCGCACCCAGCTATGGCTGGTGCTGCGCGATGGCACCGAGCACCGCCTGACGAGCGACAATGTTCCGGTAGTGCCGGGAAGCAAACGCACTGACCTGTGGCTGCGTGAACTGGCCGACTACCTGCAAGTGCCAGTGCCCAGCGAGGTCATGATCGGTTCGACGGCCGTTGCGAAGGCAGCCTATCGGCCTGCTCCAACCCCGGCGAAGATCGCCAGGCAGCGCAAAGCAAAGGCGCCGACGCCTTCGGCTGAGACGACTGAGCAACTGGGCACCCCCGTCCGCGCCCTGCTCGCCCTGCTTGGCGCCTTCCTGGCTGTGTATGAGCTGACCCGCATCATCACGTTGGTGCCTTCGCTGTTTACCGGACGGCTGCGCATTGGCATCAGTCGCCCAACGACCTTCTACTGGGCCGAGGAGCCGATGACCTTTTCCTTTCACATGCTTATCGGCGTCGCCGAGCTGCTGGTCATCGGGGTCATCGCCTGGGGTTGTTTGCGCGTGGCGATCGAGGGGCGGATGAAGTCCGATCGTTGA	MIGYRFERTARGDLHIHSLNRVQSVFVLFTSALALIFPVGAVLAIATADSSLVGLDPLTLLLMVLGLLLVPALGLALLVYTGIRETLLLSRVDAEGKRRTRNFFGRRERVRSVFRIDAVKYLELRRHPEAEPARTQLWLVLRDGTEHRLTSDNVPVVPGSKRTDLWLRELADYLQVPVPSEVMIGSTAVAKAAYRPAPTPAKIARQRKAKAPTPSAETTEQLGTPVRALLALLGAFLAVYELTRIITLVPSLFTGRLRIGISRPTTFYWAEEPMTFSFHMLIGVAELLVIGVIAWGCLRVAIEGRMKSDR				NA	NA	NA	NA	NA
D1-35_02728	501			hypothetical protein	ATGGAAATATCGCCTCGCTTTGTCGTTCATGAATCAGAGCATTGGCTCATCAATCACCGCGTGGACAGTGCACTGCCCGGCTACCTGATGCTCAGCGCAAAACAGAGGACGAATGCCTTGGCATCGCTGTCGGCTGAAGCGCTGGCGGAGTTGGGTGTATTGCAAGCGCGAATCCAGCACGCCATCGAAACCTGCCTGCAACCAAGACGACTGTACATCGGCCGTTTTGGTCATGACGCTGGTTACTCCATCCACTTCCATTTCATTCCGGTTTATCACTGGGTCGAAGCGCTGTTCTGGAACGACGACAGGTACCGGCTGCTGCAGACTTTCGGCTCGATCGACAGCAATTTGTCTCAGACCGATGGTGCGGAATTGACGCTCTTTGTCTGGCGGGAATTTTGCGAGCGTCCTGATCCTCCGCCGATACAGGGGCCGTCTGTCGAGCAGGTCGTGGCGGTGTTACGGCGGGAATTCGGTTTTCGGCTTGTTGATGAATAG	MEISPRFVVHESEHWLINHRVDSALPGYLMLSAKQRTNALASLSAEALAELGVLQARIQHAIETCLQPRRLYIGRFGHDAGYSIHFHFIPVYHWVEALFWNDDRYRLLQTFGSIDSNLSQTDGAELTLFVWREFCERPDPPPIQGPSVEQVVAVLRREFGFRLVDE				NA	NA	NA	NA	NA
D1-35_02729	1056			hypothetical protein	TTGAACAATGCTTTTGCGGCTCTGTTTCTGGCTTGCCTGGCCACCTCCGTATTCGCTGACGAAAACCCTGTCGGCTTTCGCTCTTCGACAGTGTCGAATCCACAGGATGACCGGCCGCTGGAAATGGTCGTCTGGTATCCCGGAGCAACTGCCGCAACCGCGCAACTGATCGCCGATAACGCGGTATTTGTCGGCGCATCTGCCGTTCGTGACGCGCCGCCGGCTGCCGGTGAGCATCCCCTGGTGGTGCTTTCTCATGGATACAGGGGCAACTGGAGCAATCAGGTCTGGCTTGCCAGTGCCTTGGCCCGTAAGGGCTACATCGTCGCGGCCGTCAATCATCCTGGCACCACGACCCATGACCGCAGTCCGCAAGCGGCGGCGCAGTTATGGCAGCGGTCCGTTGATCTGCGCCGAGCCATCGATGAGGTCACGACTCAACCGGAAGAATTCGGCCAGGTTGCCAATAATCGCGTCGCAGTCGTGGGCCATTCACTCGGTGGCTGGACCGCCCTGGAAATGGCCGGTGCCCGTTTTGATCCGGACCGCTTCGCCGACGATTGCAAAACCCATCCGCAGCTAGCCAGCTGCACCGTCTACGGGCAGATGAATCCGGCGAGTAGTCCGGACTCGAAAGCCGCGCTGGCCGCCGACTGGCGCGACAAACGCGTCACGGCCGTGATCACTCTCGATCTGGGCCTGTCGCGAGGCCTGACCGATGAAAGCCTCTCCGCGCTGCCGGTGCCCGCCCTGGTGATTGCTGCCGGCGTGCCCTCGCGCGAACTTCCCGCCGAGTTGGAGTCTGCCGACCTCGCCAGGCGCCTGCCGCCGGTGTCCAGCCGTTATGTGGAAATCAGCGACGCCAGCCATTTCAGTTTCATGTCGATTTGCAAACCTGGCGCGCAGGCAATGCTCGAAGAAGAAGTGCCAGGCGATGGCATCATTTGCCGGGACGGCGAAAACGGGCGTGATCGTGGGGTGATTCAACAGGGGGTCGTATCGTTGATAGCGGATTTCCTGGCGGGAACGCCTGCGTCCAGTGGAGGCGGGTTGTAA	MNNAFAALFLACLATSVFADENPVGFRSSTVSNPQDDRPLEMVVWYPGATAATAQLIADNAVFVGASAVRDAPPAAGEHPLVVLSHGYRGNWSNQVWLASALARKGYIVAAVNHPGTTTHDRSPQAAAQLWQRSVDLRRAIDEVTTQPEEFGQVANNRVAVVGHSLGGWTALEMAGARFDPDRFADDCKTHPQLASCTVYGQMNPASSPDSKAALAADWRDKRVTAVITLDLGLSRGLTDESLSALPVPALVIAAGVPSRELPAELESADLARRLPPVSSRYVEISDASHFSFMSICKPGAQAMLEEEVPGDGIICRDGENGRDRGVIQQGVVSLIADFLAGTPASSGGGL				NA	NA	NA	NA	NA
D1-35_02730	555			hypothetical protein	ATGGAAAAACTGACTCGTCACCGTTGGATCGCGGCAGGCTTCGAGGCCCTCGACCAGGCAGGCCAGGCAGGCGTCTCGGCCGAAAGCCTGGCGCGTCGATTGAATGTGACCCGTGGCTCGTTCTATCACCATTTTCGCAATCGCGAAGACTTTGTCCGCGCTTTGCTGGCTGCCTGGGAAGAGGACTACACGGGGCGCATGCTTGCTTATGCGGGCCAGGGTCGGAGCGCGCGAGAGACGTTGCAGCGCTACCTGGATATCGCCGCGCAGAAACAACCTGGGCGGGAAGTGTCCATCCGTGCCTGGTCGCTGCATGATCCGTTGGTTGCCGAGTTCCAGCAGCGTGTCGACGCAAGACGATTGGCCTTTGCGATACAGGCGTGTCGTCGCTTGGCCCCGGCGCCCGGTCAGGCGGAGGTCATCGGGCAGATGGCCCATTTGTGCCTGATTGGCGGGCAGCAGGCCGGAATACGACGTGATGCGGCGCGCTTCAATGGTTTCGTGAGCCGGGCTTTTGCCTTGGTCGAGGGCGTTATTGCGCCATGGAGAGGCTGA	MEKLTRHRWIAAGFEALDQAGQAGVSAESLARRLNVTRGSFYHHFRNREDFVRALLAAWEEDYTGRMLAYAGQGRSARETLQRYLDIAAQKQPGREVSIRAWSLHDPLVAEFQQRVDARRLAFAIQACRRLAPAPGQAEVIGQMAHLCLIGGQQAGIRRDAARFNGFVSRAFALVEGVIAPWRG				NA	NA	NA	NA	NA
D1-35_02731	630			hypothetical protein	TTGAAGCAAATCGCCCTGATCGCTTTCGACCAGTTCACCGACATCGACCTGTTCCTGATGTGGGACATCTTAGGCCGCAATACGCAAGACTGGCACGTAAGAATTCTGGCCTCCAGCCCTGTCGTGACATCGGCGCACGGCTTGGCGGTTTCGGTGCACGGCCCGCTGTGCGAGGCCAATGGCGCGGACGCGGTGTTGTTCGTCAGTGGCAAACAAGGCATACCTGCCGCGCTTGCAGCTGCGGACTTCCTACCGTCGTTTGAACTCGATGCCCGACGCCAGCGAATCGGCTCGATCTGCGCCGGGGCCTTTATTCTTCAGCGGCTTGGGCTGCTACCCGACGGCCGGGCAACCACCCACCCGGAGGCTCGCTCAGGCCTGCTGGCCCTGGGAATCGAGCCCGTGGATCAGCCGCTGGTCTGCCACGGGAATGTCGCCACGGCAGGCGGATGCCTTGCCGCGCTTTACCTGGTGGGATGGCTGGTTGAATCCTGGTTCGATGTCGAGAAGCGCCGCGCAACCCTGCTCCCCGTCCTGCCGGCCGGGCAGCAAGCGCTCTACGATATCCTGATCGGGCTCAGCATCCGACAAGGCCAGATCCAGAGAATTGGGTCCAGGCCAGGCGCTTGA	MKQIALIAFDQFTDIDLFLMWDILGRNTQDWHVRILASSPVVTSAHGLAVSVHGPLCEANGADAVLFVSGKQGIPAALAAADFLPSFELDARRQRIGSICAGAFILQRLGLLPDGRATTHPEARSGLLALGIEPVDQPLVCHGNVATAGGCLAALYLVGWLVESWFDVEKRRATLLPVLPAGQQALYDILIGLSIRQGQIQRIGSRPGA				NA	NA	NA	NA	NA
D1-35_02732	426			hypothetical protein	ATGTCTGTAAATTCACCTACTGAACCGACCGCGAACGGATCGATGCTTGATCGCTGTATCCGCTTGTCACGCGCCTACACCTCAGCCGCGCGGCGGGTCGATGCCAAGCTTTCCGCCGTGCATGGCCTGAGCTTCAGCGACTTCATGATTCTTTACCACCTCAAGCATGCCCACAACTCCCGGCTTCGACGCGCTGATCTGGCCGATTGCATGGGCCTGACTGCGTCGGCGGTGACCAAGTCCCTGCTGTCGCTTGAAAAAATAGGCTTGGTTTCCCGACAAAGCGATCCGCGAGATGCGCGCGTGGGCTACGCCTGTCTGACCACGACTGGCGAACAGGTGTTTGCCGACGCGCAGGTTTCTGCGGAGTTCGCTTGCCAGGAGGTTTATGAGGCGATGGTGGGTGAGTGGAACAAGGCCGGTTGA	MSVNSPTEPTANGSMLDRCIRLSRAYTSAARRVDAKLSAVHGLSFSDFMILYHLKHAHNSRLRRADLADCMGLTASAVTKSLLSLEKIGLVSRQSDPRDARVGYACLTTTGEQVFADAQVSAEFACQEVYEAMVGEWNKAG				NA	NA	NA	NA	NA
D1-35_02733	750	puuD_1	COG2071	Gamma-glutamyl-gamma-aminobutyrate hydrolase PuuD	ATGTCTCGTCCACCCATGATCGGAATCATCGCCTGCTCAGGCAAAATCGGCCCACACACCGTCCAGCTCAGCAACGACAAATATGCCCAGGCCGTGGCCACCGCCGCCGACGCGTTGCCGGTCATCCTGCCGGTGTTTCCGGCGCTGCTCGATCCGGCCCGCATCATCGCCGGCCTGGACGGCCTGCTCTTCACCGGATCGCCGTCCAATATCGAACCCCACCACTACGACGGCCCGCCGAGCCCGCCGGGCACCGAGCACGACCCGGCCCGTGACAACCTCGCGCTGCCGCTCTGGCGCGCCGCCGTCGAAGCCGGCATGCCGGTGCTCGGCATCTGCCGCGGCTTCCAGGAAATGAACGTCGCCTTTGGCGGCTCGCTCCATCAACAACTCGATGGCCCAGGCGCCGAGCATGAACCGCCGAGCAATGAACCGGTCCAGGAACAGTACGCCCGCAACCACGCCTTGACGGTGCGGCCCGGTGGCGTGTTGGCGCGGCTGGGCCTCAAGGACGTGATCGAGGTCAACTCAGTCCACGGCCAGGGCGTCGCGCGGGTGGGGCAGGGCTTGCGCGTCGAGGCCGTGGCCGAGGATGGGTTGGTGGAGGGCCTTTCGGTGGAGGGCAGCCGGGCGTTTGCATTGGGGGTGCAATGGCATCCGGAGTGGGAGGTTATGGATAACGCGGATTATCGGACGATTTTTCGGGCGTTCGGAGAGGCATGTCGGGAGCGTGCGGAAAAAGACGCTTGA	MSRPPMIGIIACSGKIGPHTVQLSNDKYAQAVATAADALPVILPVFPALLDPARIIAGLDGLLFTGSPSNIEPHHYDGPPSPPGTEHDPARDNLALPLWRAAVEAGMPVLGICRGFQEMNVAFGGSLHQQLDGPGAEHEPPSNEPVQEQYARNHALTVRPGGVLARLGLKDVIEVNSVHGQGVARVGQGLRVEAVAEDGLVEGLSVEGSRAFALGVQWHPEWEVMDNADYRTIFRAFGEACRERAEKDA	PGPT0007640_56	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007640-puuD-K09473	NA	NA
D1-35_02734	1767			hypothetical protein	ATGCCCATACGATCCGCCGCCCTCGTAACGCTGTTCGCCCTGTCTGCCAGCACCCTTGCAGTGGCGCAGGAACCGCTACGCCTGGAAGGCCTGAAACGCTGCGGCGACTTGCTGGAAAACCAGCGCCAGGAATGGTGCCTGACCGCGCGGGGGCTGGGTGACGCAACACCGCAACTGAAACTGGGCGAGAAACTGATTCCGGCCGGCAGCGTTCAGCGTGACGGGAACAACCTCCGCCTGCGCCTGGACCGCGCCGACTACCAGAGCGGCCCGCTCTGGCTGGAGGACGGCCCGCGGGCCAGCAACGCCGCCTGGCTGACGTTACGCACCAGCCACGTGGTGGCCGCCGGGCCGAACGAAGTGGCGAAGAACATGGACGGCCTGACCACGTATGTGGACCTGGTGAGCGTGCTCATCGAGGAAAGTCACGACGGTCGCCAGGAGGCCGAACGTCTCGCCGCCAAATACGGCGCGAAGGTGGTCGGCAGCATCGCCCCGCTGAACGTTTATCAGCTGCGCCTGCCGGCCAAGGACCTGGTCGAGCGCGATGCGCTAGTGCTGCGTCTGGGCGGCGAGACCAGTGTCGATGCGGTGGTGATAGAGGAGTCCGCCGCCGAAGAGACCGAGCAGGCGCCCGCCCAGCCAGAAGAGCCGAAGAAGCCGGCCAAGGACTCGGATGAATGGGCGGCGAATCGCTTCCTCGATGCGGTGCACTATTACCAGCGGCGCATCCCCGGGCAGCAGGCGCCGATCCGACCGCAGCCGGTGCGCATCGGCCTGATCGAGCGCGACGTGGATTTCGACACGGCGGATTTCGCCGATTACCTCGGCGCCTGCTCAATGCCGCGAACCTGCGTCTATGCCCGCGATGCGGACAAGCCGGACAACCACGGCACGACGGTCGCCGGCATCCTCGCCGCGCGCTGGAACGATGGCGGCAACAGCGGCTTCCTGCGGGGCCTGGACAAGGCCAGCGGCGGCTTCGAGGTGATTGTCGAGCGCAATTCCGACGCCGGGATCACCGCCAACATCGCCGCCTCGGTGAACCTCGTCGAGGACGGCGTGCGGGTGCTCAACTGGAGCTGGGGCATTCATCGAGTTGGCGCGAAAAACGTCAAGGGTGACGAGGTCGATTCGTTGCTGCGCTCGGGCATTGCCATGAGCGGCTACGAGGAGTTGCTGGAGGAGTTTTTCCTGTGGCTGCGCAAGGAACATCCCGACGTGGTGGTGGTGAATTCCGCCGGCAACGGCTCGTCATACTCGGGCACCGATGAATACCGCCTGCCCTCCTCGTTCATCACCGAACAATTACTGGTGGTCGGCGGGCATCAGCGCAGCGAACGCGCCGGGGTTGCGGTCGATGATCCGGCCTACGCAGTCAAGCGCGACTCCTCGAACGTCGACATGCGCGTCGACATCACCGCCGCCGCGTGCACCCACGCCTCGACGGTCAAGGCCGGCGAGGACGGCGCGGTGCATTGCGGCACGTCCTACGCCACGCCCATGGTTACCGGCCTGCTCGCGGCGATGCTGTCGATCAATCCGCAGCTTCATCCCGAGCAACTGCGCATGCTTCTGCGCCGCAGCGCCATGACCATCGGCGATAATCACGACTTCGAACAAATGGACGGCGAAGACCTCACCGCGCCCATCCTGCCGTCAGAGCGCAACTACCAGCTCAACGACAAGGATGTCGGTCGCTCGGCGCGGCTGGACATGCAAAAGGCCCTGGATCTGTCGGTACAGAGTCGCGATCGGGTGCGTTGA	MPIRSAALVTLFALSASTLAVAQEPLRLEGLKRCGDLLENQRQEWCLTARGLGDATPQLKLGEKLIPAGSVQRDGNNLRLRLDRADYQSGPLWLEDGPRASNAAWLTLRTSHVVAAGPNEVAKNMDGLTTYVDLVSVLIEESHDGRQEAERLAAKYGAKVVGSIAPLNVYQLRLPAKDLVERDALVLRLGGETSVDAVVIEESAAEETEQAPAQPEEPKKPAKDSDEWAANRFLDAVHYYQRRIPGQQAPIRPQPVRIGLIERDVDFDTADFADYLGACSMPRTCVYARDADKPDNHGTTVAGILAARWNDGGNSGFLRGLDKASGGFEVIVERNSDAGITANIAASVNLVEDGVRVLNWSWGIHRVGAKNVKGDEVDSLLRSGIAMSGYEELLEEFFLWLRKEHPDVVVVNSAGNGSSYSGTDEYRLPSSFITEQLLVVGGHQRSERAGVAVDDPAYAVKRDSSNVDMRVDITAAACTHASTVKAGEDGAVHCGTSYATPMVTGLLAAMLSINPQLHPEQLRMLLRRSAMTIGDNHDFEQMDGEDLTAPILPSERNYQLNDKDVGRSARLDMQKALDLSVQSRDRVR				NA	NA	NA	NA	NA
D1-35_02735	927	dmlR_16		HTH-type transcriptional regulator DmlR	ATGAATCTTGATGTCTTGAATAACCAGCACAGCGACGAAATCGCCGCGTTCCTGGCCGTGGCCGCGCAGGGCTCATTCGTGGCGGCCGGCCGGCTGTTGCAACGGCACCCGACCATCATCTCGAAACGGCTCGCGGCGATGGAAAAGCGCCTGGGCGTGCGGCTGGTGGAGCGCTCCACCCGGCAGGTGCGGATTACCGAAGTCGGGGCCAAGCTGGAACAGCGCCTGCGCTCGGCCATCGAGCTGATGAATGAAGCTCAGGCGCAAGCGGCCGAGGGCGCCAGCGAGGTTCGCGGCACGTTGCGACTGGCATTGCCCGCCGCAATGGGCAGGCGTTGGCTCGGCCCGATGCTGCCGGGGTTTCTCGAGGCATATCCGCATGTTTCGATCATCGCGGACTACAGCGAACGCCTGGTCGACATCATCGATGAAGGTTTTGACGCGGCGATCCGGATTGGCGAACTGGATGACAACCGGCTGATCGCCAAGAAACTGAGCGATCACCGGCGCATCCTCTGCGCCTCACCGGCCTATCTCGAAAAACATGGCATGCCCCGGACGCCGCAGGACCTGGCCAGCCATAACTGCCTGCGCTTCAGCGGCCTGGCGTCTTTTCCTCAATGGCGGCTCCATCGTGGCAACGAACTGCAGACAGTCACGCCGAAAGGCAACCTCACCGCCAACGACAGTGAATCACTGCTGGCGGCGGCCTGCGCCGACGCCGGGATACTTGGCGCCGGCGATTGGTTGATGAGTCGTGAGATCGCCGCCGGCAGGCTCTTGCATGTACTCCCCGATTGGCACCTGGACACCGCCGGCGGGGTTTATCTGGTCAGGCCGTCGGCCAAGTTCCCCAGTGCCGTGGTGGTCGCTTTCAAGCAGTGGATCGAGGCGAGGTTCAGCCCGGCGCCGCCTTGGGGCCTGTGA	MNLDVLNNQHSDEIAAFLAVAAQGSFVAAGRLLQRHPTIISKRLAAMEKRLGVRLVERSTRQVRITEVGAKLEQRLRSAIELMNEAQAQAAEGASEVRGTLRLALPAAMGRRWLGPMLPGFLEAYPHVSIIADYSERLVDIIDEGFDAAIRIGELDDNRLIAKKLSDHRRILCASPAYLEKHGMPRTPQDLASHNCLRFSGLASFPQWRLHRGNELQTVTPKGNLTANDSESLLAAACADAGILGAGDWLMSREIAAGRLLHVLPDWHLDTAGGVYLVRPSAKFPSAVVVAFKQWIEARFSPAPPWGL				NA	NA	NA	NA	NA
D1-35_02736	981			2-haloacrylate reductase	ATGAACATGGCAACTGCGATCCGGTTCAACCAATTCGGCAGCCCCGATGTATTGACGCTGCAAGCAGCGCCCGAACAGTCGCCGGGGCCGGGCGAGGTCTGGCTCGAGCAAGAAGCGATCGGGGTGAATTTTCTCGACGTTACCCAGCGCAAGGGCGCCGTGCCGATTCCCTTGCCTTCCGGCCTCGGGCTTGAAGGTGCTGGGCGTGTGGCGGCCGTAGGTGCCGATGTCAGCAACGTAAAAGTCGGAGATCGCGTCGCCTACGCCACGGGCCCGATAGGCGCGTATGCGTCGGCCCGGCTTTATCCGGCGCAGCGGCTGGTCAGGATTCCCGATGCGCTGTCGTTCGATGATGCGGCGGCGCTGATGTTCAAGGGCATCACGGCGCAGTACCTGCTGAAAAGCACCTATCCCGTCGGGCCGGGCAGCACCCTTCTGCTTTACGGAGTGGCAGGCGGGCTGGGGGCGATCATGGTGCCGTGGGCCAAGCACTTGGGCGCGTTTGTGATCGGCGTGGTCTCCAGGCAAGCCAGCGTCGAAAAAGCCAAGGCATTGGGCTGCGATGAGGTCCTGGTGTTCGACGCCGACAGCCTGGCTTCGGATGTCGCACGTATCACCGGTGGGCAGAAAGTCGACGTCGTCTACGACCCGATCGGGCGGGTCTCTTTCCTGGCCTCCCTGGACAGCCTGCGACCCCGAGGCCTGCTAGTGTCGTTCGGCGCTTCATCGGGGGCGCCGGCAGCCGTGGAACTGGCGACACTCAATGCCAAGGGTTCGCTGTTCCTGACGCGTCCTTCATTGGCCGCGCATACCGCGACTGTCGATGAATACCAGGCGCGGGCCCAGGATGTCCTGGCCGCGATCGATTCGGCTGTCATCCAGCCACGAATCTGGGCAAGCTATGCGCTGGCTGACGCAGCATCGGCCCATGCCGATCTGGAGTCGGGGCGTTCATCGGGGGCGATCATCCTGAAACCATGA	MNMATAIRFNQFGSPDVLTLQAAPEQSPGPGEVWLEQEAIGVNFLDVTQRKGAVPIPLPSGLGLEGAGRVAAVGADVSNVKVGDRVAYATGPIGAYASARLYPAQRLVRIPDALSFDDAAALMFKGITAQYLLKSTYPVGPGSTLLLYGVAGGLGAIMVPWAKHLGAFVIGVVSRQASVEKAKALGCDEVLVFDADSLASDVARITGGQKVDVVYDPIGRVSFLASLDSLRPRGLLVSFGASSGAPAAVELATLNAKGSLFLTRPSLAAHTATVDEYQARAQDVLAAIDSAVIQPRIWASYALADAASAHADLESGRSSGAIILKP	PGPT0013255_7506	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
D1-35_02737	867	azoB		NAD(P)H azoreductase	ATGAGCATTCTCGTCATCGGCGCCACTGGCACCATCGGTTCACTCGTCACGCAAGGCCTAGCCGACGCGGGCGCCGAGGTCAAAGCCCTGGTGCGCCAACCCGGTAAACGGTCGTTCCCGGCCGGTGTCACGGAAGTTGTCGCGGACCTCACCGATGTCCCGTCGCTGCGCGCTGCGCTGTCGTCGGTACGTACGCTGTTCCTCCTCAACGCCGTGACGCCCGATGAGGTCACCCAAGCCCTGATCACCCTGAACCTCGCCCAAGAGGCAGGCATCGAGCGCGTCGTCTACCTCTCGGTGATCCATGCCGACCGGTTCACCAACGTCCCGCATTTCACCGGCAAGCACACGGTTGAACGCATGATCGAAAGCCACGGCATCGCCGCGACGATCCTGCGCCCGGCCTACTTCATGCAAAACGAACGCATGGTCCAGCAAACGATCCAGGACTACTCGGTGTACCCGATGCCGATCGGCTCGGCGGGCGTCTCGATGGTCGATGCGCGCGATATCGCCGATGTCGCTGTGGCCGAGTTGCTGCGCCGTGACAGGGCTTCGGCACCGCTGGAGCGGATCACCCTGGATCTGGTCGGCCCGCAAGCGCTGACCGGGGCGTCGGTGGCGAAGATCTGGAGCGCCGCGCTGGGGCGCGAGATTGCCTACGGCGGTGACGATGTGGCGGCCTTCGAAGCGCAGATGGCTTCGTTCGGTCCCGCCTGGTTGGCTTATGACATGCGCCTGATGATGGCCGGCATCCAGCAGTTCGGCATGACCAGCGAAGGCGCCATCGACCGGTTGCAGGCCATCCTCGGCCGTCCGCTGCGCAGCTATGAGGCGTTTGTCCGTGAGGCGGTTGCCGGAGAGTAG	MSILVIGATGTIGSLVTQGLADAGAEVKALVRQPGKRSFPAGVTEVVADLTDVPSLRAALSSVRTLFLLNAVTPDEVTQALITLNLAQEAGIERVVYLSVIHADRFTNVPHFTGKHTVERMIESHGIAATILRPAYFMQNERMVQQTIQDYSVYPMPIGSAGVSMVDARDIADVAVAELLRRDRASAPLERITLDLVGPQALTGASVAKIWSAALGREIAYGGDDVAAFEAQMASFGPAWLAYDMRLMMAGIQQFGMTSEGAIDRLQAILGRPLRSYEAFVREAVAGE				NA	NA	NA	NA	NA
D1-35_02738	876	dmlR_17		HTH-type transcriptional regulator DmlR	ATGAACCTGAATGCACTGATCGATTTCACACTCGTCGCCAGCAGCGAGGGATTGGGAAAGGCAAGCAGAGCAAGCGGCCGGTCCAAGGCGACCTTGTCGCGGCGCATCTCCGAGCTCGAAGAGCAATTGGGTGTGAGGCTGATCGAGCGCAGCGCGCGAGGCCTGAAGCTGACTGAAGCCGGCGAAACACTGCTGGCCCGGGCCGAGGGGCCGCTGGCCGAGGTGGCGGAGGCGTTGACGGCCGCGCGTGACGGAGGGTCGACGCCACGAGGACGCCTGCGTGTCGCCTCCCCGGTGCTGTTCTCGCAGTTGGCGATGGGTCGGATCGGTGCCGAGTTTTGTGCGGCCTACCCGCAAGTCACCCTCGAAGTGGTGGCGGAAGATCGGCTGGTGGACCTCGTCGAGGATCAATTCGACGTCGCCATCCGGATCAATCCGAGCCCGGACAACAGCCTGGTCGGGCGCTGCTTCGCCAAGGACCGGCTGGTGGTCGTGGCCGCTCCAGGCATACCCAGGCCAGAACCCGGCGCGATCCGCCCGGTTCCCGCCATCGTGATGCCGAGCTTCCAGCCCACCCACTGGACGCTCGATGGAGGGGAACTGGTGCTGGAGCCCATCCCCAATCTGCAGTTTTCCTCATTCCTGATGATCCGCGACGCCGCGATCGCCGGCGGTGGTGCTGCGCTCATTCCCCAATCGATCGCGTGGGACCAGCTGGCCCGCGGTGAGTTGGTCCAGTGGGGCACCGTGACCGGCGTCGAACCGCAACTCTGGGTCCTGCACACATCCAGGCGCCTGGCGGCGCCGAAGGTCCGCGCCTTCGTCGATTTCCTGTGCGCCAGATACCCGGACATGTCGTTGGTGCTCAAGGGATAG	MNLNALIDFTLVASSEGLGKASRASGRSKATLSRRISELEEQLGVRLIERSARGLKLTEAGETLLARAEGPLAEVAEALTAARDGGSTPRGRLRVASPVLFSQLAMGRIGAEFCAAYPQVTLEVVAEDRLVDLVEDQFDVAIRINPSPDNSLVGRCFAKDRLVVVAAPGIPRPEPGAIRPVPAIVMPSFQPTHWTLDGGELVLEPIPNLQFSSFLMIRDAAIAGGGAALIPQSIAWDQLARGELVQWGTVTGVEPQLWVLHTSRRLAAPKVRAFVDFLCARYPDMSLVLKG				NA	NA	NA	NA	NA
D1-35_02739	162			hypothetical protein	ATGAATCGCCGTAAAAAGATCAACCAGCTACTCAAGGCCAATGCAAAAAAGGCCAGTGCAAAGCTGGCGCCGAAGAGCAAGGACCGATACATCAGCAAAGCCGACCGACTGAAGCTGGCGGCTGAGGCCGATCCAGAGACGACCGTTTCCGCTGAAAGCTGA	MNRRKKINQLLKANAKKASAKLAPKSKDRYISKADRLKLAAEADPETTVSAES				NA	NA	NA	NA	NA
D1-35_02740	810			hypothetical protein	ATGATGACCAAGAACCCCATCGATCCACTGGCGCTTCAGCGCATCACCGCCGCCCACGGCACCCTTGAGGGTGCGTCGTACTTCGACGCGGAAGAAAGCCTCGTCCATGACGTGTTTCCTGATCGCATCGTTTTCCAGACCAACTACCTGGACCACAGCAGTTATGCAGTGGATGTCGTCGAAGGCGCGGTTCGGGTGCGCAAGACGCGGCTGGACAATTACCACCGGGGCCACAAGGCCCAAGTGATCGATGACGACATGGACGATGACGACTGGGCCGAACTTGGCAGTCTCTGGCAGCGTTTGAGCCTCGACCTCGACACCCAAGGCAACGGGCCGCCCGTGGATCTGGCCGATACGCTGGCCGACCTGTTCGATGGACTTTTCGACGAGGCGCAGGCGCAAGCGCTGATCGACAACATGCCGGCCCCTACCGGCGAGTGGGATTGGGCCTGGACGCAAGTGCAATCGGCGCTTTCCGAGGCCGGGCAGCTGGCTGAATTCGAATGGAAGGAGTGGTCGTCCTCAGGCGTCTACGCCATCAATGCCCTCGCCCCGCTAAAGCAACTGAGCATCGAAATCCCTGCTCCGGGCAGCAAGACCGTTGACGCCGTGAACCGCGCCGATGATTGGGAGCGCGCACTGCTGCAGTACTTCAACGCGCAGCTGGAACCCCACGATTTGAAACTGCTGGCCATCGGCACGCATTTCGATGAATACCAGGCATTTGCCTGCCTGCCCATGAACGGTCTGGGCCTGGTCAATGCGTTGGAAATCCTCGGCAGGCTGGGCATCGTCTATAAATACTAA	MMTKNPIDPLALQRITAAHGTLEGASYFDAEESLVHDVFPDRIVFQTNYLDHSSYAVDVVEGAVRVRKTRLDNYHRGHKAQVIDDDMDDDDWAELGSLWQRLSLDLDTQGNGPPVDLADTLADLFDGLFDEAQAQALIDNMPAPTGEWDWAWTQVQSALSEAGQLAEFEWKEWSSSGVYAINALAPLKQLSIEIPAPGSKTVDAVNRADDWERALLQYFNAQLEPHDLKLLAIGTHFDEYQAFACLPMNGLGLVNALEILGRLGIVYKY				NA	NA	NA	NA	NA
D1-35_02741	237			hypothetical protein	ATGAAAAATTGTGTTTACTGCGGAGCCCTTATTCTCGCTGATAACGGTGAGTGCAAACGCTGCTCCGAGGCGATGAGGCAGACAGCCGCCGAAATGCTCCCGCCGAGTTCCGGGACGCCGAGGTGGGTGAAAGTCGTCAAGTGGCTGTTTATCGGGTTGCTGGCAGCGGTGCTGATTGCCGCAGCGGTGATCGCCTGGGTGATCAAATCGTTGGGGCCGATGCCTTCGTTTGGGTGA	MKNCVYCGALILADNGECKRCSEAMRQTAAEMLPPSSGTPRWVKVVKWLFIGLLAAVLIAAAVIAWVIKSLGPMPSFG				NA	NA	NA	NA	NA
D1-35_02742	954	cpo_2		Non-heme chloroperoxidase	ATGAACACCTTCAACCGCACCCTGGCTGTCGCAACCCTGGCCCTGGCCACCCTCGGCGCCGAGGCGGCGACGCCTGTGCAGGCCGGTGCCAGTGCTTCCGCAATCGGCAGCGTGATGCAGTCCGCCAGCTACATCACCACCAAGGATGGCGTCCAGCTCTATTACAAGGATTGGGGCCCGCGTAACGGCCAGGTCGTCACCTTCAGCCACGGCTGGCCGCTGGACTCCGACAGCTGGGAAGGCCAGATGATGTTCCTCGCCTCCAAGGGCTACCGCGTGATTGCCCACGACCGTCGCGGTCATGGTCGCTCCAGCCAGCCGTGGGAAGGCAACGACATGGACCATTACGCCGACGACCTGGCGGCGGTCATCGAAGCGCTGGACCTGAAGGACGTGACCTTGATCGGCTTCTCGACGGGCGGCGGCGAAGTGGCGCGTTACATCGGTCGCCACGGCACCGGTCGAGTCAAGAAAGCCGTGCTGGTGTCCTCGGTGCCGCCGCTGATGCTCAAGACCGACACCAACCCCGGCGGCTTGCCAATCGAAGTCTTCGACGGCCTGCGCAAAGCGTCCCTGGAGAACCGTTCGCAGCTGTACCTGGACATCGCTTCCGGCCCGTTCTATGGCTACAACCGCAAGGGTGCCAAGCCATCCCAAGGCTTGATCCAGTCGTTCTGGGCGCAGGGCATGCAAGGCGGCAGCAAGAACACCTATGACTCGATCGCGGCGTTCTCGGCGACCGACTTTCGCGGCGACTTGAAAAAATTCGACGTGCCGACGCTGGTGATCCACGGTGACGACGACCAGATCGTGCCCATCGATGCCTCAGGCCGGGCTTCGGCGGCGCTGATCAAGGATGCTCGATTGATCGTCTACCCAGGCGCGCCGCACGGCTTGACCGAGACGCACAAGGATCGCCTGAACCAGGACCTGCTGACTTTCCTCAAGGAATAA	MNTFNRTLAVATLALATLGAEAATPVQAGASASAIGSVMQSASYITTKDGVQLYYKDWGPRNGQVVTFSHGWPLDSDSWEGQMMFLASKGYRVIAHDRRGHGRSSQPWEGNDMDHYADDLAAVIEALDLKDVTLIGFSTGGGEVARYIGRHGTGRVKKAVLVSSVPPLMLKTDTNPGGLPIEVFDGLRKASLENRSQLYLDIASGPFYGYNRKGAKPSQGLIQSFWAQGMQGGSKNTYDSIAAFSATDFRGDLKKFDVPTLVIHGDDDQIVPIDASGRASAALIKDARLIVYPGAPHGLTETHKDRLNQDLLTFLKE	PGPT0013125_294	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013125-cpo-K00433	NA	NA
D1-35_02743	408			hypothetical protein	ATGGACCTGGCCGAGCAATACCGCAATTACATCGTCTGCCTGAATGCCCGTCGCTGGCAGGAGCTGGGCGACTTTGTCGACGATAGCGTGCAATACAACGGCGAACCGGTGGGTTTGGCGGGCTATCGGGCGATGCTGGAAAACGACGTGAGGACCATTGTGGACTTGCGTTTTACTATCGACCTGCTGGTGGTCGAACCGCCGAACGTGGCGGCCCGGCTGCTGTTCGATTGCTCGCCGCGCGGCCGGTTTCTCGGGCTTGAGACTGATGGCCGGCGGATTCGCTTTTCCGAGAATGTGTTCTACACCTTCGATGGCGGCAAAATCGTTCGCGTGTGGTCGGTCATCGACAAGGCGGCGGTGGAAGCGGCGCTCCAACGCGAAAGCCCTTCCGGAGAAGGGCTTTGA	MDLAEQYRNYIVCLNARRWQELGDFVDDSVQYNGEPVGLAGYRAMLENDVRTIVDLRFTIDLLVVEPPNVAARLLFDCSPRGRFLGLETDGRRIRFSENVFYTFDGGKIVRVWSVIDKAAVEAALQRESPSGEGL				NA	NA	NA	NA	NA
D1-35_02744	393			hypothetical protein	ATGGACCGATTCACTGGCGGTTGCCTGTGCGGCAACGTGCGCATTGAAGCTTCAGGGCGCCCATACCGGGTTGGCCTGTGCCACTGCCTGGATTGCCGCAAGCACCATGGCGCGCTGTTTTTCGCCGCCGCCGTGTTCCCCCGGGACGCGGTGACCGTCAGCGGTGAAACCCGGGATTACGCCGGACGTTTTTTCTGCCCCCACTGCGGTTCGTCCGTCTTCGCCCGCAGCGGCGACGAGGTCGAAGTCAACCTGGGCACGCTGGATGCGCCCGACCAACTGATGCCCACCTACGAAAGCTGGACCGTGCGCCGCGAATCCTGGTTGCCGGCGTTTCCACTCTCACGGCGCTATGAACATGATCGCGAGGGCACGGGGCGGTTCGAGGGGTAG	MDRFTGGCLCGNVRIEASGRPYRVGLCHCLDCRKHHGALFFAAAVFPRDAVTVSGETRDYAGRFFCPHCGSSVFARSGDEVEVNLGTLDAPDQLMPTYESWTVRRESWLPAFPLSRRYEHDREGTGRFEG				NA	NA	NA	NA	NA
D1-35_02745	927	pgrR_3		HTH-type transcriptional regulator PgrR	ATGGATCGTTTCGATGCGATGCAGGCGTTCGTACGTGTCGTGGAGGCGGGCAGCTTCACCAAGGCCGCCGAGACCCTGCACATGAGCAAGACCACCGTGACCCAACTGGTGCAGCAGCTGGAGGCGCGGCTGCGCGTCAGGCTGCTCAACCGCACCACCCGCAAGGTCAATGTCACCGCGGACGGCGCGGTTTTCTACGAGCGGGCGATTCGCCTGCTGGCCGACCTGGACGACGCCGAAACCAGCTTGTCCACTGCCCAGTCGCTGCCCCGTGGCCGGCTGCGGGTGGACGTGCCGAGTCCGCTGGCCGCGATGATCCTGGTGCCAGCATTGCCGGGTTTCTATCAGCGCTATCCGGACATCCAGATCGACTTGGGCGTCAGCGATCGCATCATCGACATGCTCGACGAAAATGTCGATTGCGTGGTGCGCGGCGGTGAACTGAAAGACCAGTCACTGATCGCCCGGCGCGTCGGCGACCTGGCCCTGGGCGTGTTTGCGGCGCCGAGTTACCTGGCGCGCGAGGGCATCCCCCGGCATCCCCGGGAGCTGGAAGATTCCGCGCACCGCATCGTCGGTTTCCTCTGGGCGCGCACCGGCAAGGCCTTGCCTTATGCCATGCACAAGGATGACGAACACCTTCATATCAAGGGCCGCCATGCGCTCGCCGTCGACGATGGCAACGCTTATCTCGCAGCCGGCCTGGCGGGGCTGGGCGTGTTATGGCTGCCCCAGTACATGTCCCGCCCACACGAAGCGCAAGGCGCGCTGGTGCCGCTGTTCGAAGGCTGGCGCCTGGAGTCGATGCCGCTTTACGTGGCTTACCCGCCGAACCGGCACATCAGCGCCAAGCTGCGGGTATTCATCGACTGGGTGGTGGAGCTGATGGCGCAACATGCGCCTATTATTGATCGGCCTGTGTCATGA	MDRFDAMQAFVRVVEAGSFTKAAETLHMSKTTVTQLVQQLEARLRVRLLNRTTRKVNVTADGAVFYERAIRLLADLDDAETSLSTAQSLPRGRLRVDVPSPLAAMILVPALPGFYQRYPDIQIDLGVSDRIIDMLDENVDCVVRGGELKDQSLIARRVGDLALGVFAAPSYLAREGIPRHPRELEDSAHRIVGFLWARTGKALPYAMHKDDEHLHIKGRHALAVDDGNAYLAAGLAGLGVLWLPQYMSRPHEAQGALVPLFEGWRLESMPLYVAYPPNRHISAKLRVFIDWVVELMAQHAPIIDRPVS	PGPT0028940_432	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
D1-35_02746	405	yjgH	COG0251	RutC family protein YjgH	ATGACACAGCGCGACGTTGTTTTCCCACCCGGCCGCCAAGCGCTCTACGAGCGCAACCGTTACTCGCCGGCGATTCGTTCCAATGGTTTCCTGTTCGTCTCCGGGCAGGTCGGCAGCACCGGGGACGGTTCACCGGAGCCGCACCTGGAGGATCAGGTCCGGCGTGCGTTCAACAATCTGAAGGCGATCCTGGCGGCTGCCGATTGCAGCTTTGACGATGTGGTTGACGTGACGGTCTTCATGGTCGATCCGCAGTCGATATTCGAGCGAGTCTGGAGCGTCGTGCCGGAATTCTGGGGCAACGCGCCGCACCCGACGCTGACGGCGGTGGGCGTGACGTGGTTGTATGGTTTCCAGTTCGAGATCAAGGTGATTGCCCGGTTGCCGGAAACCACCGGGAGCTGA	MTQRDVVFPPGRQALYERNRYSPAIRSNGFLFVSGQVGSTGDGSPEPHLEDQVRRAFNNLKAILAAADCSFDDVVDVTVFMVDPQSIFERVWSVVPEFWGNAPHPTLTAVGVTWLYGFQFEIKVIARLPETTGS				NA	NA	NA	NA	NA
D1-35_02747	480			hypothetical protein	ATGAACAACAAGAACAGGATCTGTCTCTGGTATGACGGCACCGCTCAGGAAGCTGCGCAGTTCTATGCGGCTACCTTTCCCGACAGTGCGGTGAACGCCATCCACCACGCGCCCGGCGACTACCCGGCGGGCCAGCAAGGTGACGTGCTCACCGTGGATTTCACCGTGATCGGCATCCCCTGTATCGGCCTGAATGGCGGGGCGATGTTCAAGCACAACGAAGCGTTTTCTTTCCAGGTGGCCACCGATGACCAGGCCGAAACGGACCGCTTGTGGAATGCAATCATCGACAACGGCGGCCAGGCGAGCGCCTGCGGATGGTGCAAGGACAAGTGGGGCGTGTCGTGGCAGATCAGCCCGCGGGTGCTGATCGAAGCAGTCACCAGTTCCGACAAAGCCGCCGCCAGGCGCGCCTTCGAAGCCATGATGAACATGACCAGGATCGATATTGCGGCGATTGAGGCGGCGGTGAGGGGCTGA	MNNKNRICLWYDGTAQEAAQFYAATFPDSAVNAIHHAPGDYPAGQQGDVLTVDFTVIGIPCIGLNGGAMFKHNEAFSFQVATDDQAETDRLWNAIIDNGGQASACGWCKDKWGVSWQISPRVLIEAVTSSDKAAARRAFEAMMNMTRIDIAAIEAAVRG				NA	NA	NA	NA	NA
D1-35_02748	1302	mntH		Divalent metal cation transporter MntH	ATGTCGAGCATACCTTCCGTCGAAGGGCAGGCTGCAGCCCCCGCGCAAAGCCGCTTCGTACGCCTGTTGAAGCTTCTAGGCCCGGGCATCATCGCAGTACTTTCCTGGCTGGGCGCAGGCGACCTCATCACTTCTTCCGTGGCCGGCGCCAACTACGGCTACGCCATGATGTGGGTGCTGGCGGTGTCTCTGCTGCTGCGCTACCTGATCGTCAACATCATCGCGCGCTTCCAGCTTTGCAATAACCAGGGCATGACCATCCTGCAGGGCTACGCGCAACTCAATCCGTTTTTTGCCTGGTTCATGCTGGTGTATGCGCTGCTCATGGGGCACCTGATGAATGCCTACATGATCAAGGGTGCCGGTGAGGCCTTGGCGATGCTGCTCAAGACCGATTATCCGCTGCTCTGTTCGGTGGCGGTGGTGCTGGCGGTGTGGATGCTCGTCGGGCGCAATATCTATTCGATGATCGAAGGCGTGATGAAGGCGCTGCTGGCGATCATGACGCTGGCATTCCTGGCCCTGGCGGTGATGTCCGGCCCGGATGTCGCCGGTATCGTCAAAGGCACCATTGGCTTCAGCATTCCGCCGGATGAAGGTGTGCACGGTGCGCTGCTGGTGGCGGTCTCGGTGATCGGCGCGGTGGCCGGTTCCATCGCTAACTTCGTTCACCCCTACGTCATGCGCCAGAAAGGCTGGGTGGGTCCTGAGCACAAGCGCATCCAGCGCAACGACCTGCTGTTCGCGGTGTTCGTCGGGATCATCATCAACCTGGCGATCTGGATCGTCGGCGCGGAAATCCTGCGGCCCAACGGCATCGAAGTCAAAACCCTGGGCGACCTGGGCAAGGCCCTGGAAATCTTCTTCGGCCCGATTGGCTGGTATGTGTTCTTCATCGGTGTCTTTGCCACGCTGTTCGCCAGTATTTCCGGCAAGACCACGGCGTTCCCGATGCTCATCACCGACGCCTTCCAGCACGTGCGGCCCGAGCGTCGCGAGCGCTACGGCAAAGAGTTCCACCGTGACCCGATGCACAAGTGGTTCATGCTGTTCATCCTGGTGACGCCGCTGATCTGGTCCTTGCCCGGCATGCCGGACTTCGTGACCCTGACCATTGGTGTCAACGCCCTGAACATCATCGGCCTGCCGGTGATCTCCCTGGGCCTGTTGATCATGTCCAACCAGAAGTCGCTGCTGAGCAAGGAATACCGCAACAACCTGTTCGAGAATATCGCGCTGGTATTCGCCACTGGCCTGGCGTTGTGGGTCGCGTTCCAGCTGGGCGTCGATCTGTTTACCTGA	MSSIPSVEGQAAAPAQSRFVRLLKLLGPGIIAVLSWLGAGDLITSSVAGANYGYAMMWVLAVSLLLRYLIVNIIARFQLCNNQGMTILQGYAQLNPFFAWFMLVYALLMGHLMNAYMIKGAGEALAMLLKTDYPLLCSVAVVLAVWMLVGRNIYSMIEGVMKALLAIMTLAFLALAVMSGPDVAGIVKGTIGFSIPPDEGVHGALLVAVSVIGAVAGSIANFVHPYVMRQKGWVGPEHKRIQRNDLLFAVFVGIIINLAIWIVGAEILRPNGIEVKTLGDLGKALEIFFGPIGWYVFFIGVFATLFASISGKTTAFPMLITDAFQHVRPERRERYGKEFHRDPMHKWFMLFILVTPLIWSLPGMPDFVTLTIGVNALNIIGLPVISLGLLIMSNQKSLLSKEYRNNLFENIALVFATGLALWVAFQLGVDLFT				NA	NA	NA	NA	NA
D1-35_02749	240			hypothetical protein	ATGAATAGCCAGGCGCTGGTCCTGCATCGTCGAGTGAAGACACTCGACCAGGGTGCGTTGCATTGCCGCGAAGTCGAGTTGCGGCTCGCCGAGGATGGCCGGCATGTGCTGCTCAGCCGCTACGTCGAATGGTACGACCCCGAGCAAGCCGGCTTGTGCGCCACCCAGCATTATCGCGTGCCGCTGGCGAGCATGATTCGGTGGATGATCAATAACGGCGAACGAGGGGAGGGCCACTGA	MNSQALVLHRRVKTLDQGALHCREVELRLAEDGRHVLLSRYVEWYDPEQAGLCATQHYRVPLASMIRWMINNGERGEGH				NA	NA	NA	NA	NA
D1-35_02750	786	mlaA_2	COG2853	Intermembrane phospholipid transport system lipoprotein MlaA	ATGCCGATCAGCAAACCCGCTCCGCTGTTTCTTCGATCCACCGTCGTCGTTGCGCTGGCGGCGTTTGCCAGCGGTTGCAGCAGCACGCCGCCCGCGACACCGGGCAGCTGCGAGAATATGCCCTATGCCGTGCATGATCCGGCGGAACCGGTGAACCGCGGCATCTTCGCCTTCAACCGTACCGTGGACGACTATGCCCTGGCCCCCATCGCCCGTGGTTATCGCAAATTGCCTGAGATGTTCCAGAGCGGCGTGCACAACTTCGTCACCAACTTCGGCGAGCCCAAGGTCTTCATCAACGATTTGCTGCAAGGCAACGGCGAGCGCTCGGTCACCACCCTGGGCCGTTTCGTCATCAACACCACGGTGGGCATCGTCGGGCTGATCGACGTGTCGGGCAAGATGGGCATTGCGCGTCACGAATCCGATTTCGGCCAGACATTCGGCGTCTGGAATATCGCTCCGGGGCCGATCGTCGAGCTGCCACTGTTCGGCACTGGCAACCTGAGGGACGCGACCGGCAAGGTGGTGAGCTTCGCGGTGGACCCGTTCGGCAGCAACAGCGATACCGTCGAAACCCTGGGCACGATCAAGACCGTGGGCGGTGTCGTCGATGGCCGCGCCGAGGCGCTGCCGCTCACCGACAAATTGCAGACCCAGGCCGATTACTACGTGGCGCTGCGAGACGCGGTCGCCCAGCGGCGCGCCGATTTTGTCGCCGACGGGAAACTGGGAGCCGTCCAGGACAACCCGCAATGCCAGGAACAGGGTGCCGGGGATGAATAG	MPISKPAPLFLRSTVVVALAAFASGCSSTPPATPGSCENMPYAVHDPAEPVNRGIFAFNRTVDDYALAPIARGYRKLPEMFQSGVHNFVTNFGEPKVFINDLLQGNGERSVTTLGRFVINTTVGIVGLIDVSGKMGIARHESDFGQTFGVWNIAPGPIVELPLFGTGNLRDATGKVVSFAVDPFGSNSDTVETLGTIKTVGGVVDGRAEALPLTDKLQTQADYYVALRDAVAQRRADFVADGKLGAVQDNPQCQEQGAGDE	PGPT0024485_1003	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024485-mlaA|vacJ-K04754	NA	NA
D1-35_02751	720	ompR_4		Transcriptional regulatory protein OmpR	GTGACCCCTGTGAGCCACCTACTCCTGGTGGACGACGACCTCGAAGTCCTCGCCCTCCTGCGCAAATTCCTCGAACAACATGGCTACAGCGTCGAAGTGGCCGCCGACGGCGCGGCGCTGTGGCAGGCGGTCGAGCGGCGGATGCCCGACCTGATCATCCTCGACGTCATGCTGCCGGGCGACAACGGACTGGTGCTCTGCCAGCGGCTGCGGGCCGAACACCGGGTCGGGATCATCATGCTCACCGCCATGGGCGAACTGAGCGACCGCGTCGTCGGCCTGGAAATGGGCGCCGACGATTACCTGACCAAACCCTTCGACGCCCGCGAGCTGCTGGCCCGGGTCCGCGCCGTCCTGCGGCGTACCGGCGAAGCCAGGGGCAGCCTGGGCGATATCTCCCGACCCGTGCTGGAATTCGAGGGCTGGCAACTGGACGTCACCCGTCGCGAGTTGCGCTCCCCCGACAAGGTCATGATTCCGCTGTCCACCGGCGAGTTCGAACTGCTGCTGGTCTTCGCCGAACATCCGCGCCGCGTCCTCACCCGCCAGCAACTGCTGGACCTGGCCCGGGGCGAAACCTTCGACGCGTTCGACCGCAGCATCGACGTGCAGGTCAGCCGCCTGCGGCGCAAATTGGAGACCGACGTCACGGGGCCGTCGATGATCCGTACCATCCGCAACAGCGGCTACCTGTTCAGCCCTCACGTGGTGAAGCGATGA	MTPVSHLLLVDDDLEVLALLRKFLEQHGYSVEVAADGAALWQAVERRMPDLIILDVMLPGDNGLVLCQRLRAEHRVGIIMLTAMGELSDRVVGLEMGADDYLTKPFDARELLARVRAVLRRTGEARGSLGDISRPVLEFEGWQLDVTRRELRSPDKVMIPLSTGEFELLLVFAEHPRRVLTRQQLLDLARGETFDAFDRSIDVQVSRLRRKLETDVTGPSMIRTIRNSGYLFSPHVVKR	PGPT0004100_30	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
D1-35_02752	1350	sasA_13		Adaptive-response sensory-kinase SasA	ATGACCGCCAACCCCTCGAAGATGCCTCGCCCCAGGGACACCGTGGCGCGCTGGATTGCCCTGACCACCATGGTCTCGATGCTGACGCTGCTGGCCCTCAACGAACTGTTCAGCCTGGTGGCCGGTGCGTGGGCGCGCCCTCCCCTGATGGAAACCGGCCTGATGGACAAGGCTGCGGCGATCACGCGCATCATCGACGCGGCCGATCCCGGCCAACGGCACGCCATTGCCCGTATCGCCAGCGACCCCGGGATCAACGTACAGTGGCTGCAGCGCTATGAGGAGGCGCATCTGCCGGTGATCGGGGATCCGGAGTTCAGTGAAGGCTCGGCGTTCCTGCACCAGCAATTGAACAGGCCCGACGCCCGGATCGAGGCCTACGAGCCCAACGACTGGCCGGCCGCTGATGACCCGGGCAGACGCTACGCGGTGATCATCGAGCTGTCTGACCACACCTGGGTCATCTTCTCCGTGGGCTCGCGCAGCTGGGGGCTGGGGGAATGGCAGCGCAACCTGATCATCATCGCGTTGATCCTGCTGTCGACCTTCATCGTCGCCCTGATTGCCACGCGGCACCTGGCAACCCCGCTGGAGCGTTTCGCCGAGGGTGCCCGGCGCTTCGGCGTGGACTTCCGGGCGCCGCCGATCCCGGTCGTCGGCCCCTTCGAGATCCGCCAGGCGATCCTGGCGTTCAATGCCATGCAGGCTCAGCTCAAGCATTTCGTCCAGGACCGCACGCAAATGCTCGCGGCCATCTCTCATGACCTGCGGGCGCCGTTGACCCGCATGCGCCTGCGCGGCGAATTCATCGAGGATGCCGAACAGCAATCGCGGTTGTTCCGGGACGTCGACGAGATGCAGGCGATGGTCAACGCCGCGCTGGAATTCTTCCGCGACGAAGCGCGCCTCGAACACGCCACCGCTTTCGACCTGGCGGAGCTGCTGCACACCATCGTCGATGATTTCAGGGACGGCGGCATCGAAGTGTCTTTCGAGGGCGCCCAGCGGCTGGTCTACGTGGGCCGCCCCATCGGGATCAAGCGCGCGCTGACCAACCTGATCGACAACGCGGTCAAATACGCCAGCGAACCGGGTGTTCAACTCAAGACCTTCATCGATCGCATCGAAATCCGCATCCAGGATCGCGGCCCGGGCATTGCGCCCGAATACCATGAGCAGGTCTTCGCACCGTTCTTTCGCATCGAGGGTTCACGCAACAAAAATACCGGCGGCGTCGGCCTGGGCCTGTCGGCGGCTCGGGCGACGGTGCTGGAGCACGGCGGCACACTGACGCTCAGGAACCGCCGGGGCGGCGGCCTGGAGGTCAGGGTCTCGCTCCCGCTCAATTGA	MTANPSKMPRPRDTVARWIALTTMVSMLTLLALNELFSLVAGAWARPPLMETGLMDKAAAITRIIDAADPGQRHAIARIASDPGINVQWLQRYEEAHLPVIGDPEFSEGSAFLHQQLNRPDARIEAYEPNDWPAADDPGRRYAVIIELSDHTWVIFSVGSRSWGLGEWQRNLIIIALILLSTFIVALIATRHLATPLERFAEGARRFGVDFRAPPIPVVGPFEIRQAILAFNAMQAQLKHFVQDRTQMLAAISHDLRAPLTRMRLRGEFIEDAEQQSRLFRDVDEMQAMVNAALEFFRDEARLEHATAFDLAELLHTIVDDFRDGGIEVSFEGAQRLVYVGRPIGIKRALTNLIDNAVKYASEPGVQLKTFIDRIEIRIQDRGPGIAPEYHEQVFAPFFRIEGSRNKNTGGVGLGLSAARATVLEHGGTLTLRNRRGGGLEVRVSLPLN	PGPT0012975_1042	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OSMOLARITY_SIGNALLING,PGPT0012975-envZ-K07638	NA	NA
D1-35_02753	522	kefF_1	COG2249	Glutathione-regulated potassium-efflux system ancillary protein KefF	ATGATCCTGATCGTTTATGCCCATCCCTACCCCGACCAGTCGCGGGTCAACCAGCAGATGCTCAAGCGCGCCGGCGCCAATCCGGACGTGGTCATACGCTCGCTCTACGATCTCTACCCGGGTTTCGACATCGACGTCGAGGCGGAACAGCGCGCCGTCGAACAGGCACAGCTGGTCGTCCTGCAGCACCCGATGTACTGGTACAGCATGCCGCCTCTGCTCAAATTGTGGATCGACAAAGTCTTCACCCATGGCTGGGCGTACGGCAAAGGCGCCACGGCCCTGAACGGCAAAAGCCTGCTGTGGGCCGTCACCACGGGTGGCGAACACGATCATTTCCAGATGGGCGCCTACCCCGGCTTTGCCGTGCTGGCGCAGCCGCTCCAGGCCACGGCGCTCTACTGTCATATGCGCTGGCTGGAACCGCTGGTCGTGCATGGTGCGTTTGCCGGCGACGCCGAGGCCCAACGCGAGCAAATCGAACACTATGGCGAACGCCTGGCCGCCTGGAAGGAAGATTGA	MILIVYAHPYPDQSRVNQQMLKRAGANPDVVIRSLYDLYPGFDIDVEAEQRAVEQAQLVVLQHPMYWYSMPPLLKLWIDKVFTHGWAYGKGATALNGKSLLWAVTTGGEHDHFQMGAYPGFAVLAQPLQATALYCHMRWLEPLVVHGAFAGDAEAQREQIEHYGERLAAWKED	PGPT0013805_372	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013805-kefF-K11746	NA	NA
D1-35_02754	1827	kefC_2	COG0475	Glutathione-regulated potassium-efflux system protein KefC	ATGGAAACTCACAGCCTGATCGAAATGCTCATCTACCTGGCCTCGGCGACACTGATCGTACCGATTGCCGTCCGGTTGGGCCTGGGCCCGGTGCTCGGTTATCTGCTGGCCGGGTGCGTGATCGGCCCGTGGGGGCTGAAGCTTATAACCGACGTCAAGGCCATCCTGGAATTCGCCGAAATCGGCGTCGTGCTGATGCTGTTCATCATCGGCCTTGAGCTCGACCCCAAGCGCCTCTGGGCGCTGCGCCGGATGGTATTCGGTGGCGGCGCGCTGCAGATGCTCGCTTGCGGTGCCGCCATCGCAGCGTTTTGCGCGGCGCTCGGCCTGGGCTGGACGGCGGCGTTGCTGGTGGGCCTGACCCTGAGCCTTTCGTCCACGGCCATCGCCATGCAGGCCATGCGCGAACGCAACCTGAACGCTACCGCAGTGGGCCGCAGCAGTTTTGCCGTCCTGCTGTTCCAGGACATCGCGGCCATTCCTCTGGTGGCCATGATCCCGTTGCTCTCGGCCCATGGCGACACGCCGTCGGGCATGGCCCTGGCGTTATCGATCGTCAAGATCGTCGCCGCCATCAGCGTCGTCGTGCTGCTCGGGCGCTACGTGACACGGCCGCTGTTGCGCTTCGCCGCGCGCTCGGGCCTGCGTGAGATCTTCAGTGCCGTGGCGCTGTTCCTGGTATTCGGCTTCGGCTTTCTGCTGGAAGAAGCCGGCCTGTCGATGGCCATGGGCGCATTCCTCGCCGGCGTGTTGCTGGCGAGTTCCGAATACCGCCACGCCCTGGAAAGCGACATCGAACCGTTCAAGGGCTTGCTGCTGGGGCTGTTTTTCATCGGCGTCGGCATGTCGATCGACTTCGGCACGCTGATCGACGCACCGCTGAAAGTCATCACCCTGACCGTCGGGTTCATCCTGATCAAACTGCTGGTGATCAAGACCGTCAGCCGCTTCCTGAATGTCCCCGCCGGCCAGCGTTCCTGGCAGGCGGTATTGCTCGGCCAGGGCAGCGAGTTCGCCTTCGTGGTGTTCGGCGCCGCGACGTTGGCGGGCATCCTGACCGACCAGTGGGGCAAGAGCCTGACCCTGGCGGTGGCCCTGTCGATGTGCGTGACGCCGCTGCTCATTCTGCTGCTGGAGCGAATCGAGTCGGCCAGCAAGAAAGATCGCCAGGAATCCGACCTCGTCGACCAGCAGAACCCGCGGGTGATCATTGCCGGCTTCGGCCGTTTCGGACAGATCGCCGGACGTTTGCTGATGTCCTGCGGCGTCGAGGTAGTGGTTCTGGATCACGACCCCGACAACATCGAGACGCTGCGCAAATTCGGCGTGAAAGTGTTCTACGGCGACGCCACGCGCCTCGACCTGTTGCACGCGGCCGGCGCGGCACAGGCGGCGGTGCTGATCAATGCGATCGACGATCAGCAAGACAACCTGACGCTGACCCGGTTGGCCCAGGAGCACTTCCCCACGTTGAAACTGGTCGTCCGCGCGCGGGACATGGGCCACCTGATCAACCTGCGGCAGATGGGTGTCGAGGTTGCCGAGCGGGAAACCTTCGAAAGCGCGCTGGCGTTGGGTCGCCGGGCACTGGTGCAGATGGGTGTCGGCGCTTACGAGGCGCGCGAACGCGCCGATCAGTTCCGCCGCTTGAATCTGCAGATGCTCGAAGAAATCGTCGCCCAACCGGAAGATGACCTCACGTTCCGGCACGACGCCTACCGACGCGCCAACGCGTTGCTCACCGAGATGTTCAACGAAGACCGCGCCCGCCCCGTCGACAGCTGGCCGGAACACCATCGAAACGAGACGGATGAGGCGCGTGGCTAG	METHSLIEMLIYLASATLIVPIAVRLGLGPVLGYLLAGCVIGPWGLKLITDVKAILEFAEIGVVLMLFIIGLELDPKRLWALRRMVFGGGALQMLACGAAIAAFCAALGLGWTAALLVGLTLSLSSTAIAMQAMRERNLNATAVGRSSFAVLLFQDIAAIPLVAMIPLLSAHGDTPSGMALALSIVKIVAAISVVVLLGRYVTRPLLRFAARSGLREIFSAVALFLVFGFGFLLEEAGLSMAMGAFLAGVLLASSEYRHALESDIEPFKGLLLGLFFIGVGMSIDFGTLIDAPLKVITLTVGFILIKLLVIKTVSRFLNVPAGQRSWQAVLLGQGSEFAFVVFGAATLAGILTDQWGKSLTLAVALSMCVTPLLILLLERIESASKKDRQESDLVDQQNPRVIIAGFGRFGQIAGRLLMSCGVEVVVLDHDPDNIETLRKFGVKVFYGDATRLDLLHAAGAAQAAVLINAIDDQQDNLTLTRLAQEHFPTLKLVVRARDMGHLINLRQMGVEVAERETFESALALGRRALVQMGVGAYEARERADQFRRLNLQMLEEIVAQPEDDLTFRHDAYRRANALLTEMFNEDRARPVDSWPEHHRNETDEARG	PGPT0013800_328	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013800-kefC-K11745	NA	NA
D1-35_02755	1242	cypC		Fatty-acid peroxygenase	ATGGCAGACCCTTCTATTCCCGGCCACCGCTGGGCTGATTCGACCTTGGCTTTCTTGCGCGAGGGCTACCCGTTCATACGCAAGCGTTGCGTCGCCTATGGCAGTCCGGTTTTCCAGGCCCGACTGCTGGGACGGCGCACGCTGTGCCTCAGTGGGCTGGAAGCGGCGGAGCTGTTCTACGATGCGCGGCGCTTCGTCCGGACCCCCACGTCGACACCGGCGCCGCTGCGCAACATCCTGTTGGGCGCGGGCGGCGTCCAGGGTCTCGATGGCGCACCTCATGCGCGACGCAAGCAGCTGTTTCTCGACGTGCTGGACAAGGAAAGCGTAAACCGCCTGGTCGGCCGCTACGAGGCTCACTTGAGCGAAGCGGCGGCGAAGCTTGCGGCGAACCAGCCGATCGAATTCCTGCCGTGGATCGAGGCGCTGCTGTGTCGATCGGTCTGCGAGTGGGCCGGCGTGCCAATGATGAGTGATCGGCAAATGCGGCGGTTGACCCGTCGGCTCGCCTCGCTGATCGATGGCAACGGCCGCGTCGACTGGCGGATGCCGGCCGCCTGGATGCGGCGCAAGGCTTGCGAGGCCCAGGCGGCACGCTGGATAAAAAACTGTCGGCAAGACCCGGCGCCAGCATCGCTGCAGACCCCGCTGCAACAACTCGCATGGCATCGCGATGAGCACGGCCAGTTGCTCCCACCGCGGATAGCGGCAGTGGAGCTGCTGAATATCTTGCGTCCAGTGGTGGCGGTGGGGCGCTTTCTGTTGTTCGGGCTGATCGAGCTGGAACGCCGGCCGCAATGGCGCGCCAGCATTGCTCGCGATGACGCTGCGGCTTGGGCTTTTGCCGAGGAAACGCGGCGCTTTTACGCGTTCTTTCCGATGGTGGCGGCGTTTGTGCGCGAGAGTTTCGAGTGGCGAGGCTACCGCTTCGAAAAAGGCACTCGGGTGCTGCTCGATCTGTTTGGCTCCAACCGTGATCCGGCGCACTGGAAAACCCCGGAAAGCTTTGCGCCCGAACGTTTCGGCCAGTGCCCCATGAGAACCTCTGTCATCAGCCAGGGCGGCGGGGATTACACCTATCACCGCTGCCCGGGCGAGCCGCTGACGCTGGCCCTGATGCAGAAAACCTTCGAACATCTGTGCCGCCACGTGCAATGGCGGCTGGTGGTGAAAGAAGTCGATTTTCAACGCCTGCCCATGTTGCCCAGGGAGCCGGTGCTGATGTCAGTGGTGACCGGCTAG	MADPSIPGHRWADSTLAFLREGYPFIRKRCVAYGSPVFQARLLGRRTLCLSGLEAAELFYDARRFVRTPTSTPAPLRNILLGAGGVQGLDGAPHARRKQLFLDVLDKESVNRLVGRYEAHLSEAAAKLAANQPIEFLPWIEALLCRSVCEWAGVPMMSDRQMRRLTRRLASLIDGNGRVDWRMPAAWMRRKACEAQAARWIKNCRQDPAPASLQTPLQQLAWHRDEHGQLLPPRIAAVELLNILRPVVAVGRFLLFGLIELERRPQWRASIARDDAAAWAFAEETRRFYAFFPMVAAFVRESFEWRGYRFEKGTRVLLDLFGSNRDPAHWKTPESFAPERFGQCPMRTSVISQGGGDYTYHRCPGEPLTLALMQKTFEHLCRHVQWRLVVKEVDFQRLPMLPREPVLMSVVTG				NA	NA	NA	NA	NA
D1-35_02756	864	pdxI		Pyridoxine 4-dehydrogenase	ATGAGCAGGGCAGACAAGGCAGGGACTTTTTTACTGGGTGATCGTACGGTCAACCGCATGGGCTACGGCGCGATGCAACTGGCGGGGCCGCAGGTCTTCGGGCCGCCCAAGGATCCGGCGGCGGCCATCGCCGTGCTGCGCGAAGCCTTGGCGGCCGGAGTCAATCACATCGATACCGCCGATTTTTACGGGCCCCATGTCACCAACCAACTGATCCGCGAGGCGTTGCACCCTTACGCCGACGACCTGGTCATCGTGACCAAGGTCGGCGCGGTTCGTGGCGCCGATGCGTCATGGAACGCAGCCCAGAGCCCCGCCGAGCTGACCCGTGCGGTGCACGATAACCTGCGCAACCTCGACGTCGAGGTGTTGGACGTGGTCAATCTGCGGGTCATGGGCGATGTGCATGCGCCCGCTGAAGGATCGATTGAAGAGTCCTTCACAGCATTGGCCGAGCTGCAGCGCCAGGGCCTGATCCGCCATCTGGGCCTGAGCAACGTCACGGCGGCGCAAGTCAAGGAAGCCCAAGGCATCGCCAAGGTGGTCTGCGTGCAGAATCACTACAACCTGACCCACCGCGACGACGAACAACTCATCGCTGACCTGGGCCGCCAAGGTATCGCCTACGTGCCGTTTTTCCCGCTGGGTGGGTTTACGCCGCTGCAATCGGAAACGTTGTCGAACGTTGCCGCGCGCCTGGAGGCATCGCCGCTGTGTGTCGCGTTGGCGTGGCTGCTGCAACGTGCGCCCAACGTCCTGCTGATACCCGGCACCTCGTCGGTGGCGCACCTGCGGGAAAATATCTCGGCCAGTGAGCTGCAGATTCCGGCGCCTATGTTGGCTGAGCTTGACGCCATGGTTTAG	MSRADKAGTFLLGDRTVNRMGYGAMQLAGPQVFGPPKDPAAAIAVLREALAAGVNHIDTADFYGPHVTNQLIREALHPYADDLVIVTKVGAVRGADASWNAAQSPAELTRAVHDNLRNLDVEVLDVVNLRVMGDVHAPAEGSIEESFTALAELQRQGLIRHLGLSNVTAAQVKEAQGIAKVVCVQNHYNLTHRDDEQLIADLGRQGIAYVPFFPLGGFTPLQSETLSNVAARLEASPLCVALAWLLQRAPNVLLIPGTSSVAHLRENISASELQIPAPMLAELDAMV	PGPT0009140_1515	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009140-ydbC-K05275	NA	NA
D1-35_02757	915	pgrR_4		HTH-type transcriptional regulator PgrR	ATGGCGACGGACATTCAAGACTTGCTGGCCTTTGTGGCGGTGGTCAATGCGCGGGGATTTCGAGCAGGCGCCCGGCTCAGCGGCAAATCCGCCTCCAGCCTCAGTGACGCGGTACGCCGGATCGAAAGCCGACTCGGCGTGCGCCTGCTCAACCGCACCACCCGCAGCGTGGTGCCGACCGAGGCCGGCGCACGGTTGATGGAACGCATCGTGCCGGCCCTGGGCGAAGTCGAATCCGCGCTGGACGTGGTCAACGATTTTCGCGACCGCCCTTCCGGTACCCTCAGGTTGAACGTGCCGGTCAGCGCCGCCCGGCTGGTGCTACCGTCGATCATCGCGCCGTTCCTGAAAAGCCACCCCGACATCCGCCTCGAAGTGGTTACCGAAGAAAGCTTTGTCGACATGCTGGCGGCCGGGTGTGATGCGGGTATTCGCTACGACGAACGCCTCGAACAGGACATGATCGCGATCCCCATCGGCCCGCGCTTTCAACGCTTCGCGACCGCCGCCGCACCGGCGTACCTCGACGCCCGGGGCCGCCCCGAGCACCCACGGGACCTGCTGCAACACGCTTGCCTGGCCGGCAAGTTCCCCAGCGGCGCCTTGCCGCTGTGGGAGTATGAGCGTGACGGCGAAACCATCAGCGTCGAGCCGAACGGCCCGTTGCTGGTGCGCATTGGCGGCGCCATGGACCTGGCCGTCCAGGCCGCGGTGGATGGACTGGGGATCGTCCACCTGTTCGAGGACTGGCTGTGCCCCTACCTGGACAGCGGTGTCCTCGAACCGGTACTCGAACCCTGGTGGCAGCGCTTTACCGGACCGTTCCTCTACTACCCCGGCCGCCGCTACCTGCCCTCGCCGCTGCGGGCGTTTGTGGACTTCATCAATCAAAACCGCAGCAACCAAGACGCCTGA	MATDIQDLLAFVAVVNARGFRAGARLSGKSASSLSDAVRRIESRLGVRLLNRTTRSVVPTEAGARLMERIVPALGEVESALDVVNDFRDRPSGTLRLNVPVSAARLVLPSIIAPFLKSHPDIRLEVVTEESFVDMLAAGCDAGIRYDERLEQDMIAIPIGPRFQRFATAAAPAYLDARGRPEHPRDLLQHACLAGKFPSGALPLWEYERDGETISVEPNGPLLVRIGGAMDLAVQAAVDGLGIVHLFEDWLCPYLDSGVLEPVLEPWWQRFTGPFLYYPGRRYLPSPLRAFVDFINQNRSNQDA				NA	NA	NA	NA	NA
D1-35_02758	1767		COG1132	Putative multidrug export ATP-binding/permease protein	GTGAACAGCCATCAGTCCCATGGCGCGCCGTTGCCGAATACCGCCATCGCGTTTTTGTGGCGATACGTCACCCTCAGGCCGTGGCATTTCGCGACGTTGTTTGTGCTGATTGTCGGTGCCGCCAGTTGCGCCGTGGCGGTGCAGTTCGGCATGAAGCTGCTGGTCGACGCGATGGCCCAGGGCAGGGAGGCGGCCGGGCATGTGTGGCTGCCGTTCACCGTATTCATCGCGCTGATTGTGGTGGAAAACCTGTTCTGGCGTTCGGGCGGCTACCTGGGCTGCCGGACGGTGGTCGCCAGTTGCGCGGACTTGCGGATTGACCTGTTCAATCACCTGACCGGACACCCGATGCGCTATTTCTCCGAGCATTTCGCCGGAGCCCTGGCCAACCGGATCTCCTCGGCGGGCGCGGCAGCGGGTTCCATCTATGGTGGCCTGGCCTGGAAGATTATTCCCCCTTGCGTGGATTTCATCGGTGCGGTGGTGGTGCTGTTTACCGTGCGGCTGTCCATGGGAATCGCTTTGATCGGCGCAGTGGTTGTGGTGGCCTCGCTGATCACCGTGATGGGGCTGCGCGGCCGCAGTCGGCATATCGATTTCGCTTCCCAGGCCGCACGCGTCGGTGGCGAGTTGGTGGACCAGGTCTCCAACGTCTGGACGATCAAGGCATTCTCCGCCCGACACCGCGAGCGGCGCCGGCTCGAACAGGCGATCGGCGTCGAGGCCAAGGCCCAGCGCCGCAGCTGGATCTACCTGGAAAAAGCCCGGGTCTTGCACGACATCTGCTTGTCGATCATGGCCGGCGGCATGCTCGGCTGGTCGATCCTGTTGTGGCAGGGCGGGCAGATCACCCCGGGCGATGTGGTGATGGTCAGCGCGTTGTCGTTTCGCATCCTGCACGGCTCGCGCGACCTGGCGCTGGCTTTGGTGGATACCTCGCAGCAGATGGGCGTGATTGCCGAGACGTTGCGCATCATCGTCCAGCCACACGCACTCAGCGACACCCCGGCGGAACTGGAACCTGGGCGCGGCAATATCCGTTTCCTCGACGTCAGCTACAGCTATGCCGACGGGCGCGGCGCGATCAGGCATCTGTCCCTGGACATTCCGGCCGGCCAGAAAGTCGGCATCGTCGGGCCGTCGGGCGCGGGCAAGTCGACATTGGTCAGTCTGGTCCAGCGCCTGGACGATGTGCGCAGCGGGGTGATCCTGATCGATGGCCGCGACGTGCGCTCGGTCAGTCAGGACAGCCTGCGCAGCCAGATCGCCGTGGTGCCTCAGGAGCCGGCGCTGTTCAATCGGACCATCTACGAAAACATCGCCTATGGCCAGCCCGATGCCACCGAGGCACAAGTCATCGACGCGGCCCGCCATGCCTATTGCGAAGAATTTATCCGCGACCTGCCGGAAGGCTTCAACACCTTGGTGGGCGAGCGCGGCGTGATGCTCTCGGGCGGCCAACGCCAGCGCCTCGGGCTGGCGCGGGCGTTCCTCAAGAACGCACCGATCCTGATCCTCGACGAAGCCACCTCGGCACTGGATTCGGAATCCGAAGCCAAGGTGCAAATGGCCCTGGACGACCTGATGCGCGGTCGCACCGTGCTGGCAGTGGCGCACCGGCTGTCGACGGTCGCGCGGTTCGACCGGATCTTGGTCTTGCAGGGCGGAAGAATCATCGAAGACGGCTCACCCGATGAACTGCGCCAGCGTGAAGGGCCGTTCCAGACCCTGTGGCAGGCGCAGGGATTGGAATTGGGCAAGCGTTAG	MNSHQSHGAPLPNTAIAFLWRYVTLRPWHFATLFVLIVGAASCAVAVQFGMKLLVDAMAQGREAAGHVWLPFTVFIALIVVENLFWRSGGYLGCRTVVASCADLRIDLFNHLTGHPMRYFSEHFAGALANRISSAGAAAGSIYGGLAWKIIPPCVDFIGAVVVLFTVRLSMGIALIGAVVVVASLITVMGLRGRSRHIDFASQAARVGGELVDQVSNVWTIKAFSARHRERRRLEQAIGVEAKAQRRSWIYLEKARVLHDICLSIMAGGMLGWSILLWQGGQITPGDVVMVSALSFRILHGSRDLALALVDTSQQMGVIAETLRIIVQPHALSDTPAELEPGRGNIRFLDVSYSYADGRGAIRHLSLDIPAGQKVGIVGPSGAGKSTLVSLVQRLDDVRSGVILIDGRDVRSVSQDSLRSQIAVVPQEPALFNRTIYENIAYGQPDATEAQVIDAARHAYCEEFIRDLPEGFNTLVGERGVMLSGGQRQRLGLARAFLKNAPILILDEATSALDSESEAKVQMALDDLMRGRTVLAVAHRLSTVARFDRILVLQGGRIIEDGSPDELRQREGPFQTLWQAQGLELGKR				NA	NA	NA	NA	NA
D1-35_02759	1137			hypothetical protein	GTGCAGGAGAGGATCTTCAACAGTTTCGTGATGGCCGGCTACGAGTGTTCCACCCATCGCCGTGCCGATGGACGTCGGCTGGATATGCTCGCCGCGACTCGCCATGACCGCTGGGCCGAGCAGGATTACAGCCGGCTCGCCGAGCTGGGCATTCGCTGCGCCAGGGATGGCTTGCGTTGGCATCTGATCGAACAGCAGCCGGGTCGTTATGACTGGAGCAGTTTCCTGCCGATGCTGCGCGCCGCCCAGCGCGGCGATGTGCAAGTGGTGTGGGACCTGTGCCATTACGGCTACCCTGACGATCTGGACATCTGGCGGCCGGCCTTCGTCGAACGGTTTGCTCGCTTCGCCGGCGCCGTCGCGCGGTTGATGCGCGAGGAGGGGATCGAGACGGCGTTCTACTCGCCGATCAACGAGATATCTTTCTGGAGCTGGGCCGGCGGCGACGTCGGCTACTTCAACCCCACCGCCCGACAACGGGGCATGGAGCTCAAGCACCAGTTGGTGCGCGCGAGTATCGCGGCGATCGAGGCGATTCGCGAGGTGACTCCCGCCGCGCGATTCGTCCAGTGCGACCCGCTGATCAACGTGCGGTCCTTATCGCGGCGGGCCGAAGATATCGAGGCCGCCGAGGCGTATCGGTTATCCCAGTTCGAGGCGTGGGACCTGCTCACCGGCAGAAGCTGGCCGGGGTTGGGCGGGCGCGAGGAGTACCTGGATATTGTCGGCGTCAATTTCTATCCGCATAACCAGTGGTTCCTGCACGGCAATCGGATCGAGCCGGGCAGCGCGGATTATCGCCCGTTGGTGGGCATGCTCAGCGAAGTCCACCAGCGTTATCGAAGGCCGCTTCTGCTCTCTGAAACGGGCGCCGAAGACACCGCTCGGGTGCCCTGGCTGCACTACATCGGCGAGCAGTTGGCACTGGCGATGGAGCGCGGCATTCCGATAGCAGGCATGTGCTGGTACCCGTTTCTTGACTACCCGGGTTGGGACGATGATCGCTATTGTCCCACTGGCGTGTTTGGCTATGCCGACAGCGAAGGCAGCCGCGCGTCTTTCCATCCACTGACGCTGGCAATGAAGGCCCTGCAGGCGCGGTTTGCCTCGTCCGTGGCCACGGTGCAGATGCCGTGA	MQERIFNSFVMAGYECSTHRRADGRRLDMLAATRHDRWAEQDYSRLAELGIRCARDGLRWHLIEQQPGRYDWSSFLPMLRAAQRGDVQVVWDLCHYGYPDDLDIWRPAFVERFARFAGAVARLMREEGIETAFYSPINEISFWSWAGGDVGYFNPTARQRGMELKHQLVRASIAAIEAIREVTPAARFVQCDPLINVRSLSRRAEDIEAAEAYRLSQFEAWDLLTGRSWPGLGGREEYLDIVGVNFYPHNQWFLHGNRIEPGSADYRPLVGMLSEVHQRYRRPLLLSETGAEDTARVPWLHYIGEQLALAMERGIPIAGMCWYPFLDYPGWDDDRYCPTGVFGYADSEGSRASFHPLTLAMKALQARFASSVATVQMP	PGPT0026085_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PEL_POLYSACCHARIDE_METABOLISM	CE-EPS-PEL_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026085-pelF-K21011	NA	NA
D1-35_02760	1182	rfbD_2		UDP-galactopyranose mutase	ATGCCAACGATAACCCTCGATTCCCTTGATAACTCCCAGGGCGGCGCGCCGTACGACTACCTGATCGTCGGCGCCGGTTTCGCCGGCAGCGTGCTGGCCGAGCGGCTGGCCGAAGGGTTGGGCAAGCGCGTGCTGCTGGTCGATCGTCGCGATCACATCGGCGGCAATGCATACGACCACTTGGACGAGGCGGGCGTGCTGGTCCATCGCTACGGGCCGCACATCTTCCACACCAATGCCCAGCGCATTGTCGATTACCTGTCGCGGTTCACCGAATGGCGCCCGTACGAGCATCGAGTGCTGGCCCAGGTCGATGAGCACCGGGTGCCGATTCCCATCAACCTGACGACGCTCAATACGCTGTTCGGCTTGTCCATGGATGAAGCGCAGGCCGAGGCCTTCCTGGCGCAGCGGGCGGAGCCGGTCGAGTCGATCCGGACTTCGGAGGACGTGGTCATCAACCAGATCGGCCGCGAGCTGTATGAGAAATTCTTTCGTGGCTACACCCGCAAGCAGTGGGGGCTGGACCCTTCCCAGCTGGACAAGTCGGTGACCTCGCGGGTGCCGACACGGACCAACACCGATGATCGGTATTTCACTGACCAGTTCCAGATGATGCCGCTGCACGGCTACACACGGATGTTCGAGCGCATGCTCGCCCATCCGAACATCGATATCTTGCTGGCGACCGATTTCAAAGAGGTTCGCCAGCGCATCCCCTATCGGGAACTGGTCTATTGCGGGCCGATCGATGAGTACTTCGATTACTGCTTCGGCCATCTGCCGTATCGCTCGTTGCGCTTTCAGCATGAAACGCTGGATGCGCCGCAGTTCCAGCCGGTGGCAGTGGTCAACTATCCGGACGAGCGCGTGCCCTATACACGAATCACCGAGTACAAGCACCTCACCGGGCAGGAGCATCCGCGCACCAGCATCAGCTACGAGTTTCCCTGCGCCGATGGCGACCCTTACTACCCGGTTCCGCGCCCGGAAAACGCCGAGCTGTACAAACGCTACAAGGCCCTGGCCGACGAAACACCCGGGGTGACTTTTCTCGGTCGGCTCGGCACCTACAAGTACTACAACATGGATCAGGTGGTCGGTCAGGCGCTGGCGCTGTATCAGCGCATCGCCGAGGGCGAAGGGGTCGTGACGAGGGCTCACGAGGTCGAGCCGGGTTGA	MPTITLDSLDNSQGGAPYDYLIVGAGFAGSVLAERLAEGLGKRVLLVDRRDHIGGNAYDHLDEAGVLVHRYGPHIFHTNAQRIVDYLSRFTEWRPYEHRVLAQVDEHRVPIPINLTTLNTLFGLSMDEAQAEAFLAQRAEPVESIRTSEDVVINQIGRELYEKFFRGYTRKQWGLDPSQLDKSVTSRVPTRTNTDDRYFTDQFQMMPLHGYTRMFERMLAHPNIDILLATDFKEVRQRIPYRELVYCGPIDEYFDYCFGHLPYRSLRFQHETLDAPQFQPVAVVNYPDERVPYTRITEYKHLTGQEHPRTSISYEFPCADGDPYYPVPRPENAELYKRYKALADETPGVTFLGRLGTYKYYNMDQVVGQALALYQRIAEGEGVVTRAHEVEPG	PGPT0022675_400	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0022675-glf-K01854	NA	NA
D1-35_02761	1155			hypothetical protein	ATGAATCAACAAGAACATCTTCATCCCGATCACAGCGCCGCGCCCGCCGCGAGCTTGCGACCTACGCTGTTGTGCCTGTCGCACCTGCGCTGGGGCTTTGTCTATCAGCGGCCGCAACACGTGATGTCGCGATTGGCCAGGGACTACGACGTACTGTTTTTCGAAGAACCGATATTCGAAGGGCGGCAGTCCGCGCACCTGGAAAGCTATGCGGTGGCGGAGGGCGTGACGGTGCTGGTGCCCAGGCTCCCCGAGGGGCTGGATGAAGCCCAGGTGATCGCCACCCAGCGTGAATTGCTCGATGCCTGGCTGGCAGAGCACTGGCCGAGTGAGTTGATGCTCTGGTACCTCACGCCCATGAGCCAGGCCTTCACCGATCACCTGGAGGCCAATGTGGTGATTTTCGATTGCATGGACGAGCTCTCGGCCTTCAAGTTTGCGCCGCCCGCGTTGGTGGAGATGGAGCGGCGGCTGATGGCCAAGGCCGATGTGGTGTTCACCGGCGGATACAGCCTCTGGGAGGCCAAGCGCGAGCATCACGACAACGTCCACGCCATGCCCAGCAGCGTTGATATCACGCACTTTGCCGCGGCCAGGCAGCCGATTCCCGACCCGGCGGACCAGGCCGATATCGGTCATCCGCGCCTGGGTTTCTTTGGCGTCATCGATGAGCGTTTTGATATTGAGCTGGTACGTGAATTGGCGACGCAGCGGCCGGACTGGCACATCGTGTTGATCGGGCCGGTGGTGAAGATCGATCCGCAGACGTTGCCGCGCCTGGCGAATATTCACTACCTGGGCGCCAAGCAATATGAAGAGCTGCCGGCGTACCTGGCGGGTTGGGACGTGGCGTTGATGCCATTCGCGTTGAACGAATCCACTCGCTTCATCAGCCCCACCAAAACGCCCGAATACCTGGCGGGCGGATGCCCGGTGGTGTCCACGCCGATCCGCGATGTGGTCAATGGCTACGGTGAGAGTGGTGTGGTCGCGATTGCCGATTCGCCCCAGGGATTCATCGACGCGATCCAGGCCGCGCTCGACCTGCGGACCCAGCCAGGAGTGGTTGCGCAGTACGCCGACAAAGCGCTGGACGGCATGTCCTGGGACAAGACCTGCGCGCAGATGAAGGAGCAGATCGAATGCCAACGATAA	MNQQEHLHPDHSAAPAASLRPTLLCLSHLRWGFVYQRPQHVMSRLARDYDVLFFEEPIFEGRQSAHLESYAVAEGVTVLVPRLPEGLDEAQVIATQRELLDAWLAEHWPSELMLWYLTPMSQAFTDHLEANVVIFDCMDELSAFKFAPPALVEMERRLMAKADVVFTGGYSLWEAKREHHDNVHAMPSSVDITHFAAARQPIPDPADQADIGHPRLGFFGVIDERFDIELVRELATQRPDWHIVLIGPVVKIDPQTLPRLANIHYLGAKQYEELPAYLAGWDVALMPFALNESTRFISPTKTPEYLAGGCPVVSTPIRDVVNGYGESGVVAIADSPQGFIDAIQAALDLRTQPGVVAQYADKALDGMSWDKTCAQMKEQIECQR	PGPT0022675_30	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0022675-glf-K01854	NA	NA
D1-35_02762	1050	galE	COG1087	UDP-glucose 4-epimerase	ATGATGATTCTGGTGACAGGTGGTGCGGGTTATATCGGCGCCCATGTGGCGGTCGAATTGATGAACCAGGGCGACGAGGTGGTGATCCTCGACAACCTGTGCAACAGCTCCCGGGCAACCGTGCAGCGCATATCGGACGTGACGGGGCGGGAGCCGGTTTTTGTCCATGCCGACGTGAGAAGCCGTCGCGCACTGGACAAGGTCTTCAGGGAGTACCCCATCGAGGCCGTCGTCCACTGCGCCGGGCTCAAGGCTGTGGGTGAAAGCGTGCGTGAGCCGCTGAGGTATTTCGATACGAACGTCAGCGGCAGCGTGACGCTGTGCCAGGCGATGGCGCAAGCCGGCGTGTTCAACCTGGTGTTCAGTTCATCGGCGACGGTCTATGGCGATTGCGCCCAGATGCCCATCGCCGAAACCTGCCCGACCGGGCAGCCAACCAACCCGTACGGCCAGTCGAAACTGATGGCCGAACACGTCATGCGCAGCACCGCCGCCTCCGACGCCCGCTGGTCGATCGGCTTGCTGCGCTACTTCAACCCCATCGGCGCCCATTGTTCAGGCCTGCTGGGAGAGACGCCGACGCAGACCCCCAACAACCTTTTGCCGTACCTGTTGCAGGTGGCCAACGGCGAGCGCGAGGTGCTGCGGATTTTCGGCTCCGACTACCCGACGCCGGATGGCACCGGGATCAGGGATTATGTGCATGTGGTGGATCTGGCCGAGGGGCACTTGCAGGCTCTGGCATTCCTGCGCGAACAGACGGGTGTGCATGTCTGGAACCTGGGCACCGGGCGTGGTTATTCGGTGCTGGAGGTGGTCAGTGCTTTCGAGCGGGCGACCGGGGCAAAGGTGCCGCTGGCTTTTGAAGCGCGTCGTCCGGGGGACATTGCACGGTGCTGGGCGGATCCGGGCAAGGCAGCCGAGCAGTTGGGCTGGACTGCACATCATGGGCTTGAGCGCATGTTGGAGGATGCCTGGCGCTGGCAGCGCCTGAATTTTCCTCGGGTCGAGCCGCGGGAGGTGGTGTTGCGGAGTATTGAGCAAGGGTGA	MMILVTGGAGYIGAHVAVELMNQGDEVVILDNLCNSSRATVQRISDVTGREPVFVHADVRSRRALDKVFREYPIEAVVHCAGLKAVGESVREPLRYFDTNVSGSVTLCQAMAQAGVFNLVFSSSATVYGDCAQMPIAETCPTGQPTNPYGQSKLMAEHVMRSTAASDARWSIGLLRYFNPIGAHCSGLLGETPTQTPNNLLPYLLQVANGEREVLRIFGSDYPTPDGTGIRDYVHVVDLAEGHLQALAFLREQTGVHVWNLGTGRGYSVLEVVSAFERATGAKVPLAFEARRPGDIARCWADPGKAAEQLGWTAHHGLERMLEDAWRWQRLNFPRVEPREVVLRSIEQG	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
D1-35_02763	309			hypothetical protein	GTGGGTTTGGATTGGGGGCATATCCGTTTTTTTGGTGATGGCTGCTTATGGTTTCGCCCTTACGGCGAGTCACTTTCAAAAAGCGTGAAAGTAACCAAAGCGCTTCTGCCCCACCACTTGGCACCTCGCCTAGGCTCGGTGTGCCCTCACTCCGGCATTGCTCCGTGGGCCCGCCGCGAAGGGCCGTCCCTGGCCCAGCGCGGCTATCCCGGCATCCATGCCGGGATGCCCACTGCGCAATACCTGCGTTCGGCCGTCGTGGTTAACGGGGCCTCCGAGATCAACGTTTGCGGCGAGGCGGCCTTATAG	MGLDWGHIRFFGDGCLWFRPYGESLSKSVKVTKALLPHHLAPRLGSVCPHSGIAPWARREGPSLAQRGYPGIHAGMPTAQYLRSAVVVNGASEINVCGEAAL				NA	NA	NA	NA	NA
D1-35_02766	267			hypothetical protein	GTGAGTGAAACCGACCTTGAGATGGAATTGAAAGCCTGGCGGCTGTTGCTGGAAGACGATGCATATCGCCTGGACTTTCCCGAAGATTATTACGACACGTTGATCCGGCGCGCGGATGAATTGGTGTTGCATGAATTGATCAGTCTGGAGGATTGGCAATTGCTCAAGGACGCGGCGGACCAGGCTTACCAACTGACGGTTGAAATGCTGGCGCGTAATCAGCGCGATTGTCTGAGTGTGCAGGGGATGCGCTTGCCTCGAGCTTGA	MSETDLEMELKAWRLLLEDDAYRLDFPEDYYDTLIRRADELVLHELISLEDWQLLKDAADQAYQLTVEMLARNQRDCLSVQGMRLPRA				NA	NA	NA	NA	NA
D1-35_02767	726			hypothetical protein	ATGAGCGAACGCCAAGTCACCATCGGCATGAATCGTACCGGCGTCCAGATGTCTCCCGAAGACACCGCTCGCCAACTGGAAGCCACCCGCCTGTTTCCGGCGGATGTGCCGGGCGACGTGAGCGCCTACACGGCAGAACGCGAGCGCGCCATTCGCGAGGCCGACCTGATCGGCTCGGTACCGGCACCGGGTTCGGTCAAAGGCGTGGTCAAGACCGCACTGGACAAAACCATCGGCAAGGCGCCCGAAGTGCTGCTGGACAAGCTCGGCGAACGCCTGGCCTTCGAGCGCACCGGCGTGCGCCTGTATGAGGCGATGGTCGCCAAGGCCACAGCCGCGCCCGGGGCTGATCCGGCGTTGGTAGAGACCTTGCGGCAGATCCAGGCCGAGGAGCTCGAACACATGAACATCGTGCGCGAAGCCATCGAAACCCTTGGCGGCGACCCAACCGCGATGACGCCATGCGCGGACGTGGCGGGAGTCAAGGCGATGGGCGTGCTGCAGGTACTGACGGACCCACGCACCACCGTTTCCCAGTCGATGAGCGCGATCCTGACCATCGAGCTGGAAGACAACGCTGCCTGGGAGTTGCTGATCGAGCTGGCGAAGAAGGGCGGTCACCCGCTGATCGCCAAGCGCTTCGGCCATGCCCTGGAGCAGGAGGAAACGCACCTGGCCACGGTTCGCGACTTCATCAGGCAAGACCTGCTCGCGCAAGTGAGTTGA	MSERQVTIGMNRTGVQMSPEDTARQLEATRLFPADVPGDVSAYTAERERAIREADLIGSVPAPGSVKGVVKTALDKTIGKAPEVLLDKLGERLAFERTGVRLYEAMVAKATAAPGADPALVETLRQIQAEELEHMNIVREAIETLGGDPTAMTPCADVAGVKAMGVLQVLTDPRTTVSQSMSAILTIELEDNAAWELLIELAKKGGHPLIAKRFGHALEQEETHLATVRDFIRQDLLAQVS				NA	NA	NA	NA	NA
D1-35_02768	1176			hypothetical protein	ATGACCAAAATCGACAACCTGCTGGATAACAAAGGGACGCCGCTGGACAAGCAGACGTTTACCTGGCGTGACCTGGCCGGCAAACCCATCAGCAAACTGGATGACGATGCGTTCACGCGAGTGCGGGTGATCCTGATGAACGGCGTCGAATCCGACGCGCTGCGCCTCAAGCATTTCGGCGCGCGTTTCCACAAGGAATTGCAACTGCCCCTGGCCCAGGTAAGGCGCGCCGAGCAGCATCAGATGACCGCGATAAACTGGCTACTGTCGGCTGATCATTCGCCGCTTGAAACCACCGTGGCCTACGAACAGGTCGCCATCGAAGTGACTGCCGCCGTCGCCCAGAACGAGCCCGACCCTTATCAGGCGCAGACCTATCGTTTCGGCCTGCTGGAAGATTTCGACCACCTCTATCGTTACTCGGCCATGCTTGATCGATTGGAAGGCAAAGACGCCAACAACATCTTGCAAGGCTACACGGACATCGTGCCCGGCCGGCCCACTAGCGAGCACCACCGTGCCCCCGGCGATGACCTGCGCGACAACTACAAGAAGGAGAACGCCGCGCTGATCACCAAGATCCATGCGGCGCTGATCACGGGTGCGGAATACCAGACCCACGATTACTACATGAACATCGGTCCGCTGTTTGCCGACCCGGTGGCGCGCGCGTTGTATGCCGAAATCGCCTCGGTGGAAGAGCAGCATGTCACCCAATATGGCTCGTTGCAGGACCCCAGCGAAACCTTCATGGAGAAGTGGCTGGTGCATGAAGCGATGGAGGTCTACACCTACGCCAGTTGCGCCGAGCAGGAAGAAAACCCACGGATCAAGGCGATGTGGGAACGCTTCGTCGACTACGAGCTGGGGCACTTGAACCTGGCTTGCGAATTGTTCAAGAAGTACGAGCGACGCGACCCCGCCGAGGTGCTCAGCGGCCAGTTGCCGCGCATGATCGAGTTCAAGAGCCAGCGTGATTTCGTCCGTGAGACGCTGTCCCGGGAAGTGGATTTGCGAGCCCACGGCATCGACTACGTGCCCAAGGAACGCGAAGGCCACGCTTCCCTCGACTACCGCGCCCAGCTCAACAGCGAAGGCGTGCCTGCCAACATCGTCTCCGCCGGCTACACCTTCAAGCCCGGCACCGAACTCAACCCAGTGGGAGAACAGCAATGA	MTKIDNLLDNKGTPLDKQTFTWRDLAGKPISKLDDDAFTRVRVILMNGVESDALRLKHFGARFHKELQLPLAQVRRAEQHQMTAINWLLSADHSPLETTVAYEQVAIEVTAAVAQNEPDPYQAQTYRFGLLEDFDHLYRYSAMLDRLEGKDANNILQGYTDIVPGRPTSEHHRAPGDDLRDNYKKENAALITKIHAALITGAEYQTHDYYMNIGPLFADPVARALYAEIASVEEQHVTQYGSLQDPSETFMEKWLVHEAMEVYTYASCAEQEENPRIKAMWERFVDYELGHLNLACELFKKYERRDPAEVLSGQLPRMIEFKSQRDFVRETLSREVDLRAHGIDYVPKEREGHASLDYRAQLNSEGVPANIVSAGYTFKPGTELNPVGEQQ				NA	NA	NA	NA	NA
D1-35_02769	684	yedK_2	COG2135	SOS response-associated protein YedK	ATGTGTGAATGTTTCGTTCAGCCCGTTTCTTCCAAGGATTCCCTTGCGTTTTTTGCCCAGCGCGACCCCTTCGGTGCCAACCCATCAAGCTTGTCCGCCGACAGCCTTCACGCTGCGGCGGAGCCCGCGCTGCATGAGCGACAAAGCGTGATCAAGCCGAACATGCAGGTCAGCGCCATACGCAACCGTGGCGGGCGCCTGGAGTGCATCAAGGTGCGCTGGGGTTGGTCGCCCGTGTGGTCGATGGGCACGATGCCGCCGCTGACCCACCTGCCCTTGCACCTGGTGATGCGCTCCAAGGTGTTCGACCGGATCAAGCGCGACGGTCGCGTCCTGGTGGCGGTGGATGGCTGGTACGAAGCCGCCGCGGAGACTGGCGCGCACGCCCAGTCCAAGCGCCTGAGCTATACGACGTCGCGGCAATCCTCACCGATCTTCCTCGCCGCCCTGGCCCAGGCCAGTGAAACGCCCAACGGCTGTGACGGGCTGGCCCTGGTGACCTACGGCGACATGGTCAATCAACAGCAGCGACTGCTGGCCTTCACCGGCGAGAACGCCCTCGAATGGTTGCGCCCGGAGCTGGATTGGGAACAGGCCCGCGACATGGCCGCCCACGTAGCGGTCGCCGAACCGCAACTGGAGCACGTGCTGACCGCCAAGCGAATGGTCCAGGGCCGACGGTGA	MCECFVQPVSSKDSLAFFAQRDPFGANPSSLSADSLHAAAEPALHERQSVIKPNMQVSAIRNRGGRLECIKVRWGWSPVWSMGTMPPLTHLPLHLVMRSKVFDRIKRDGRVLVAVDGWYEAAAETGAHAQSKRLSYTTSRQSSPIFLAALAQASETPNGCDGLALVTYGDMVNQQQRLLAFTGENALEWLRPELDWEQARDMAAHVAVAEPQLEHVLTAKRMVQGRR				NA	NA	NA	NA	NA
D1-35_02770	381	rutC_1		Putative aminoacrylate peracid reductase RutC	ATGGCGAACCAAGACATCACGTTCACCCCCGACCCGGACGCAGACTCCATCTCCTCCGACGTCGCCGGTTTCGGCGGCTTGCTGGTTTCCACCCAGATCCCGACCCGCGCCGACGGCAGCCTGGAGCTGGGCGACATCACGGCGCAGAGCGAATGCACGTTGCAGGCGCTCAAGAGCGCCCTCGAACGCGCCGGCAGCTCCATGGACCGCGTGTTGCACTTGACCATCTACCTGACCGACATAGCCGATCGCGCGGCTTTCAATGAAGTCTACAAACGCTTCTTCGCCAAGCCCTGGCCGGTGCGCGCCGCGGTGGGCGTGGCGGCGCTGGCGGTGGAAGGCATGAAAGTGGAAGTGACGGCGATGGCGGCGAAGGGCTGA	MANQDITFTPDPDADSISSDVAGFGGLLVSTQIPTRADGSLELGDITAQSECTLQALKSALERAGSSMDRVLHLTIYLTDIADRAAFNEVYKRFFAKPWPVRAAVGVAALAVEGMKVEVTAMAAKG	PGPT0020030_2325	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
D1-35_02772	249			hypothetical protein	ATGTTCAAAGCAACCCCAAACCCGCCAAACACCGAACCCACCCAACTCTTCACCGTCATCAACGGCATCGACACCGAAGCCCTGCTCGCCAACCTCAGCGAAACCCTCGCCTCGGCCAATGCCATGGTCACCGACCTGGCCTTCGACCTGGACGGCTCGCGACGCCACATTGCCCTGGGCATCCAGCAACTGATCGAGCTGAGCGGGCTGCTGGCGAACCGCGCGCTGGATAACGTCGAAGCCCGCTAG	MFKATPNPPNTEPTQLFTVINGIDTEALLANLSETLASANAMVTDLAFDLDGSRRHIALGIQQLIELSGLLANRALDNVEAR				NA	NA	NA	NA	NA
D1-35_02773	1764	glcA_2	COG1620	Glycolate permease GlcA	ATGGTCTGGCAACAAGTCTACGATCCCTTCGGTAATGCGGTGCTGTCGACGCTCCTGGCGGCGGTTCCGGTGGTGGTGATGCTGGCGGCCCTGGCGTTCTTTCATGTCAAGGCGCACCTGGCGGCGTTGTACGCCCTGGCCTCGGCGTTGCTCATCGCGATTTTCGCCTTCGGCATGCCCGCCGACATGGCCGGTTCGGCGGCCCTTTATGGTGCGGCCAACGGCCTGCTGCCGATCGGCTGGATCGTGCTCAACATCATCTTCCTGCACCGGCTGACCACCGAGAACGGTTCGTTCAAGGTCCTGCAGGATTCCCTGGCGCGCATCACCGACGATCGGCGGCTGCAATTGCTGCTGATCGCCTTCTGTTTCGGTGCCTTCTTCGAGGGCGCGGCGGGCTTCGGCACGCCAGTGGCGGTGACCGGAGCGATCCTCATCGGGCTGGGCTTTTCGCCGCTCGCCGCCTCGGGCCTGGCGCTGATCGCCAACACTGCGCCAGTGGCGTTCGGCGCGCTGGGTACGCCGATCATCACGCTTGCCAAGGTCACCGGGCTGGATGAAATGGAGCTGTCGATGATGGTCGGCCGGCAGTTGCCGTTTTTCTCGGTGATCGTACCGTTCTGGCTGATCTGGGCGTTCGCCGGTTGGCGCAAGATGCTCGAAGTCTGGCCGGCGATCCTGGTGGCCGGCGTCAGCTTCGCCATCCCGCAGTTCTTGGTATCGAACTACCACGGCCCGATGCTGGTGGACGTGATTGCCGCGCTGATTTCCATGGCCTGCCTGACCGGTTTCCTCAAGGTCTGGAAACCGGCCACGGTGCATACCTCGGCGGCGTTGTCAGGCCGGCACGATGATTCGAAGATCGACCCCAGCGAGCAACAGACACCGGTGGCCAGCGGCGCCTTCGCCAGCGACAACCGCCCCGCCGTGCTGCGGGCGTGGATGCCGTGGATCATCCTCACGGTCTTCGTGTTTGCCTGGGGCACCCAGGGCTTCAAGAATCTGTTCGACACCCGCCCGGCCCTCGACCCGCAGACCCAATCGGCCAGGCTCGATCCCCAGGGCAAGCCAATGCGCGAGGCGAATCCGATCTTCTCGCCGCTGTTGACCTTCGGCACCATCCACCAGCAAATCGAAAAGGTCCCGCCGGTGGTGCCCCAGCCGAAAACCGAGGAAGCGGTCTACAAGTTCAACTGGTTTACCGCCACCGGCAGCGGCATCTTCCTGGCGGCCATTCTCGGCGGCTTGCTGATGGGCTATTCGATCCCGCAACTGGCGCGTCAATACCTGCGAACGCTGTGGGTGGTGCGCTATTCGCTGATCACCATTGTCGCCATGTTGGCGTTGGGCTTTCTTACGCGCTATTCGGGCCTGGACGCGACCATGGGCCTGGCGTTTGCCGCGACGGGCATCTTCTACCCGATGTTCGGCACGCTGCTGGGCTGGCTCGGCGTGGCGCTGACCGGTTCGGACACGGCGTCAAACGTGCTGTTCGGCGGTTTGCAACGGGTCACGGCAGAGCAGTTGGGAATCAGCCCGGTGTTGATGGCCGCCGCCAATAGTTCCGGCGGGGTGATGGGCAAGATGGTCGACGCCCAGTCGATCGTGGTCGCCTCCACCGCGACCCGCTGGTACGGCCACGAAGGGGAAATCCTCCGCTACGTGTTTTTCCACTCGGTGGTGCTGGCGATTCTGGTGGGCGGGCTGGTGACGTTGCAGGCGTATGTCGAGCCGTTCAGTCACATGGTGGTGGGAGGAAAGTAA	MVWQQVYDPFGNAVLSTLLAAVPVVVMLAALAFFHVKAHLAALYALASALLIAIFAFGMPADMAGSAALYGAANGLLPIGWIVLNIIFLHRLTTENGSFKVLQDSLARITDDRRLQLLLIAFCFGAFFEGAAGFGTPVAVTGAILIGLGFSPLAASGLALIANTAPVAFGALGTPIITLAKVTGLDEMELSMMVGRQLPFFSVIVPFWLIWAFAGWRKMLEVWPAILVAGVSFAIPQFLVSNYHGPMLVDVIAALISMACLTGFLKVWKPATVHTSAALSGRHDDSKIDPSEQQTPVASGAFASDNRPAVLRAWMPWIILTVFVFAWGTQGFKNLFDTRPALDPQTQSARLDPQGKPMREANPIFSPLLTFGTIHQQIEKVPPVVPQPKTEEAVYKFNWFTATGSGIFLAAILGGLLMGYSIPQLARQYLRTLWVVRYSLITIVAMLALGFLTRYSGLDATMGLAFAATGIFYPMFGTLLGWLGVALTGSDTASNVLFGGLQRVTAEQLGISPVLMAAANSSGGVMGKMVDAQSIVVASTATRWYGHEGEILRYVFFHSVVLAILVGGLVTLQAYVEPFSHMVVGGK	PGPT0001800_173	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_LACTATE_TRANSPORT,PGPT0001800-lctP-K03303	NA	NA
D1-35_02774	336			hypothetical protein	ATGAAACAATTCAGCAAAGTTGTCGCCTGCGCACTGTTCGGCCTGGTCCTGGCGGGTTGCACCGGCACCCCGATGAAAACCCAGCAATACGACAGCAGCCAATACACCGTGGTTGGCCACAGTGAAGCCAAGGCCACCGGCCTGTTGCTGTTCGGCGTGATCCCGATCCGCCAGAACAACCGTTTCGTGCGCGCCCAGACCGCCGCGATCAAGGCAAAGGGCGGCGACGCCATGATCAACACTCAAGTCCAGGAAAACTGGTTCTGGGCCTGGGTCCTGACCGGCTACACCACTTCGGTGTCCGGTGATGTGGTCAAGCTGAAGAACGTTCAGTAA	MKQFSKVVACALFGLVLAGCTGTPMKTQQYDSSQYTVVGHSEAKATGLLLFGVIPIRQNNRFVRAQTAAIKAKGGDAMINTQVQENWFWAWVLTGYTTSVSGDVVKLKNVQ				NA	NA	NA	NA	NA
D1-35_02775	657			hypothetical protein	ATGATTGACGTGACTGTCTGGAGCGTTACCCTGCCGGTGCAAACGCCCGCGCAGGTCGTGGCGACCAAAGCCATGCCGAGTCTGAACAACAAGTATTTCGACAATAACGGCCAGAGGATCATCTTCTGGGCGCCTGTCACCGGCTCCCATACCGGTAACAGCGATTACCCGCGTTCCGAATTGCGGGAAACCAGCAAAGACGGGAAACATCGCAACTGGCGCTACAACAGCGGCACCAACACTCTCAAGGGTGAATTGTCGGTGAACCAGGTGCCTTCGGAAGGCCGTGTGGTAGTGGCGCAGATTCACGCCAAGGAGGCGCCGACGCCGTTGTTGAAACTGGTTTACCGCTACGAAAAAGGCGTCGGCAATATCGACGTGGAATACCGCTTCAAGCCCAAGGACAAAAAAAGCCCGGTGATCATGACCGTGCCCAAGGTGCCGTTGAACAAATCGTTCTCGTACACGCTGCAAATGGACAAGCAAGGCCAACTGTCGGTGCTGATCGGCAGCAGTGGCAAACAGGTGAAACTGGACAAGTCCTGGCAAGGCTACGATTTCTACTTCAAGGCCGGCGTCTACACCTTGGATAACAAGGGCAGCACCAGTGAAGGCGGAAAAGTGACCTACACCAAACTGAGCGCCAGCCACAAGTGA	MIDVTVWSVTLPVQTPAQVVATKAMPSLNNKYFDNNGQRIIFWAPVTGSHTGNSDYPRSELRETSKDGKHRNWRYNSGTNTLKGELSVNQVPSEGRVVVAQIHAKEAPTPLLKLVYRYEKGVGNIDVEYRFKPKDKKSPVIMTVPKVPLNKSFSYTLQMDKQGQLSVLIGSSGKQVKLDKSWQGYDFYFKAGVYTLDNKGSTSEGGKVTYTKLSASHK	PGPT0019417_620	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019417-putative_alginate_lyase_2-NA	NA	NA
D1-35_02776	1233	yegT		Putative nucleoside transporter YegT	ATGACCACGATGAATGCACGCCTGAGCGTGATGATGTTCCTGCAGTTCTTTATCTGGGGCGGCTGGTTCGTCACCCTTGGCACGTTCCTGTCCACTACGCTGAGTGCCAGCGGCGGGCAGATCGGCATGGCCTTCGCCACCCAATCCTGGGGCGCGATCATCGCGCCGTTCGTCATCGGCCTGATTGCCGACCGCTACTTCAACGCCGAGCGCATCCTGGCGGTGCTGCACCTGGTGGGCGCGGTGTTGTTGTATCAGCTGTACTCGGCGGCGGATTTCAACGCGTTCTATCCGTACGTGCTGGCCTACATGGTGATCTACATGCCGACCCTGGCCCTGGTCAATTCCGTGGCATTCCGGCAGATGCGTGATCCGGCGCTGGAGTTCTCGCGTATCCGCGTCTGGGGCACGGTCGGCTGGATCGTCGCCGGCGTGGTGATCAGTTTTGTCTTCGCCTGGGACTCACGCGAGGCGATCTCGGCCGGCGGCCTGCGCAATACGTTCCTCATGGCGGCCATTGCCTCGCTGCTCCTTGGGCTCTACAGCTTCACGCTGCCAGGCACCGCGCCGCTCAAGGCGCAGGCGAGCGCTGGCGCCGTCAAGCAGTCGCTGGGGCTCGACGCGTTAGGCCTGTTAAAGGACCGCAGCTACCTGGTGTTCTTCATCGCCTCGATCCTGATCTGCATCCCGTTGGCGTTCTACTACCAGAACGCCAACCCGTTCCTGGCGGAAACCGGCATGACCAACCCGACGGCGAAAATGGCCATCGGGCAGGTGTCCGAAGTGCTGTTCATGCTGCTGTTGCCGCTGTTCATCCAGCGCTTCGGTATCAAGCTGGCGCTGTTGGTGGGCATGCTGGCGTGGGCGTTGCGCTACGTGCTGTTCGCCTACGGCGACAACGGCGGGCTGGCGTTCATGCTGTTCACCGGCATTGCGCTGCACGGCATCTGCTACGACTTCTTTTTTGTCTCGGGGCAGATCTACACGGACGCCAAGGCGCCCGCGCACCTGCGCAGCTCGGCCCAGGGGCTGATCACCCTGGCGACGTACGGAGTGGGCATGTTGATCGGGTTCTGGGTGGCGGGGCAGGTGACCGATCACTTTGTGGTGGAAGGCGGCCACGACTGGAAAAGCATCTGGCTGTTCCCGGCCGGTTTTGCCCTGGTGGTATTCGTCTGCTTCCTGCTGACCTTCAGCGGCCGACAAGCGGTCGTGGCGCCGTCCAAGGCTTGA	MTTMNARLSVMMFLQFFIWGGWFVTLGTFLSTTLSASGGQIGMAFATQSWGAIIAPFVIGLIADRYFNAERILAVLHLVGAVLLYQLYSAADFNAFYPYVLAYMVIYMPTLALVNSVAFRQMRDPALEFSRIRVWGTVGWIVAGVVISFVFAWDSREAISAGGLRNTFLMAAIASLLLGLYSFTLPGTAPLKAQASAGAVKQSLGLDALGLLKDRSYLVFFIASILICIPLAFYYQNANPFLAETGMTNPTAKMAIGQVSEVLFMLLLPLFIQRFGIKLALLVGMLAWALRYVLFAYGDNGGLAFMLFTGIALHGICYDFFFVSGQIYTDAKAPAHLRSSAQGLITLATYGVGMLIGFWVAGQVTDHFVVEGGHDWKSIWLFPAGFALVVFVCFLLTFSGRQAVVAPSKA				NA	NA	NA	NA	NA
D1-35_02777	1125	iolE_1		Inosose dehydratase	ATGGACCACGCTGAAAACCGGAGAATCGCAGTTGTGAGCACCCCCGACGAAACACCGAGCGGCCTGCGCGGGCCAGCGATTTTCCTGGCGCAGTTCATGTCCGATGAATCGCCGTTCGACACCCTGGCCGACATTGCTCGATGGGCCGCGTCGCAGGGCTACAAGGCGATTCAACTGCCGACCCTCGGCACGCGCTACATCGACCTGGCCCGGGCCGCCGAGAGCCAGGATTATTGCGATGAGCTCAAGGCCGTCTGCGCATCGGCCGGCGTCGAGATCAGCGAGTTGTCGACGCACCTGCAAGGGCAGTTGGTGGCGGTGCACCCGGCATTCGACGCGCTGTTCGACGACTTCGCCCCGGCCCACCTGCGCGGCCAGCCCGAGGCGCGCACCGAGTGGGCCATCGAGCAACTGAAACTCGCCGCCCGTGCCAGCCAACGCCTGGGCCTCAAGGCCCACGCGACGTTTTCCGGTGCGTTGCTGTGGCCTTATATGTACCCGTGGCCGCAACGTCCGTCCGGCCTGGTCGAGCAAGGGTTCGCCGAACTGGCCCGGCGCTGGTTGCCGATCCTCGACTGTTTCGACGCGGCCGGCGTCGACCTGTGCTACGAGATCCACCCCGGCGAAGACCTGCACGACGGCGCCTCGTTCGAGCGTTTCCTCGAAGCCGTCGATCACCATCCACGGGCGGCGATCCTCTACGACCCCAGCCACCTGTTGCTGCAACAGATGGACTACCTGGGCTTCATCGATCGCTACCACGACCGCATCCGCATGTTCCACGTCAAGGACGCCGAATTCCGCCCCGATGCCCGTTCCGGTGTCTACGGCGGCTACCAGGTTTGGGTTGATCGCCCCGGCCGGTTCCGTTCCCTGGGCGATGGGCAGATCGATTTCAAGGCGATCTTCAGCAAGCTGACCCAGTACGGCTTCGACGGCTGGGCGGTGCTGGAATGGGAATGCTGCCTGAAAGATTCGCAGCAGGGCGCGGCCGAAGGCGCGGCGTTCATCCAGCGGCACATGATCAGCAAGACCGCCAAGGCGTTCGATGATTTCGCCGGTGTCACGGCGGACGAAGCGTCCAATCGGCGGTTGCTGGGGTTGCCCCCGGTGCCAATGACATAA	MDHAENRRIAVVSTPDETPSGLRGPAIFLAQFMSDESPFDTLADIARWAASQGYKAIQLPTLGTRYIDLARAAESQDYCDELKAVCASAGVEISELSTHLQGQLVAVHPAFDALFDDFAPAHLRGQPEARTEWAIEQLKLAARASQRLGLKAHATFSGALLWPYMYPWPQRPSGLVEQGFAELARRWLPILDCFDAAGVDLCYEIHPGEDLHDGASFERFLEAVDHHPRAAILYDPSHLLLQQMDYLGFIDRYHDRIRMFHVKDAEFRPDARSGVYGGYQVWVDRPGRFRSLGDGQIDFKAIFSKLTQYGFDGWAVLEWECCLKDSQQGAAEGAAFIQRHMISKTAKAFDDFAGVTADEASNRRLLGLPPVPMT	PGPT0016785_21	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016785-mocC-K03335	NA	NA
D1-35_02778	1176			hypothetical protein	ATGAAACCTGTAGCACCAAAAATAAGAATGGGCTTCGTCGGCGGTGGGGAGGGCGCGTTCATCGGCCAGGCCCATCGTCAGGCCGCGGGCCTGGACGGTGGTTTCGAGCTGGTGTGCGGCGCGTTCAGCCGTGACCCGCAGAATAACCGGCAGACCGGAGAAGCCCTGGGGCTGGCCGCGTCCCGCTGTTATCACGACTGGCAGCAGATGCTCGACGCCGAGGCGCTGCTGCCTCTGGACCAGCGCATGGAACTGCTGGTGATCGTCACCCCCAACCATCTCCACGCGCCCATTGCCCGCCAGGCGCTGGCGGCGGGTTTCCATGTGTTCAGCGAAAAGCCCGCGGCACTGAACCTCAAGGAGTTGCTCGCGCTCAGGGACGTGCTGCAGGGCAGCCGTTGTCTCTACGGCCTGGCTCACACCTACCTGGGCTACCCGATGGTCTGGCAGGCCCGGGAGATGGTGCGTTCGGGCGTGATCGGCCAGGTGCGCAAAGTGCTCGTCGAATACCCTCAGGGCTGGCTCAGCCAGGACGTCGCCGCGCAAGGCAACAAACAGGCCGAATGGCGCGACGATCCGGCACAGTCCGGGCTGGGCGGCTGCATTGGTGACATTGGCACCCATGCTTTTTCCTTGGCGGAGTTCGTCGCCGACCAACCGATCCAACAGCTTTGCGCCACGCTGGGCACGCATGTCGCCGGTCGGCAACTGGACGACGACGTGGCGATGTTATTCCAGATGCAACGCGGCGCCAGCGGCGTGTTGCTGGCCAGCCAGGTCTGCACCGGCGAAGAGAACCCGCTGAAGATCCGCGTCTACGGCGACAAAGGCGCCCTGGAGTGGCGCCAGGAACAGCCGTCGAGCCTGATCCATCGCGCCCTCGATCAACCCCTGAGCATCCTGCGTAGCGGGGTTGGCCAGCCGTGGTTGTGCGAGGCCGCAACGCGCCGCATGCGTCTGCCCGCCGGGCATCCCGAGGGTTATCTGGAAGCGATGGCCAACCTCTACGGCGATTTCGCCCGGGCCATTCGCGAACGCGTCGAAGGCCCCGATGTGCCTGGCGTACCCGGCATCGAAATCGGCTTGCGCGGTATGGCGTTCATTGAGGCCGCCATCCTCAATCACCGTGGCGAGGCGAAATGGACCACGCTGAAAACCGGAGAATCGCAGTTGTGA	MKPVAPKIRMGFVGGGEGAFIGQAHRQAAGLDGGFELVCGAFSRDPQNNRQTGEALGLAASRCYHDWQQMLDAEALLPLDQRMELLVIVTPNHLHAPIARQALAAGFHVFSEKPAALNLKELLALRDVLQGSRCLYGLAHTYLGYPMVWQAREMVRSGVIGQVRKVLVEYPQGWLSQDVAAQGNKQAEWRDDPAQSGLGGCIGDIGTHAFSLAEFVADQPIQQLCATLGTHVAGRQLDDDVAMLFQMQRGASGVLLASQVCTGEENPLKIRVYGDKGALEWRQEQPSSLIHRALDQPLSILRSGVGQPWLCEAATRRMRLPAGHPEGYLEAMANLYGDFARAIRERVEGPDVPGVPGIEIGLRGMAFIEAAILNHRGEAKWTTLKTGESQL				NA	NA	NA	NA	NA
D1-35_02779	1011	cytR	COG1609	HTH-type transcriptional repressor CytR	TTGTCGAATATCCGTGAAGTGGCCCGGCTGGCCGGTGTTTCCGTGGCCACGGTGTCGAGGACGCTGAAGTCGCCTGAACGCGTGCTGCCGGAAACCCGCGACAAGGTCAACGCCGCGGTGGCACAGGCCGGTTATCGACCGAACCTGATGGCGGTGCAGTTCCGTTCCCGCCGTACCGGCAACCTGGTGATCCTGGTGCCGGCGATCGCCAACACCTTTTTCGCCCGGGTCATCAGCGGCGCCCAACAGGCGGCGCAAGCGGCCGGCTATCGACTGCTGCTGTGCGATACCCAGGGCCGCGAAGCCATCGAGCAGGAATTCGCCGCGCTGGTCTACGCCCACCAGGCCGACGGGGTGATTCAACTGCGCGCCAGCGACCCCTTTGTTTCATTGCCGCCCGGCGCCGACGCGTTGCCGCTGGTCAATGCGTGCGAAGTGGTCAAGGACGCGCCCTACCCGACCATCAGCCTGGACAACCGCAGCGCCGCCCGCGCCATGACCGAGCACCTTATCGGCCTCGGCCACCGACGCATCGGCATCATCAAGGGCCCTCGCAGCAGCCCGTTGACCCTCGATCGCGTCGCCGGCTATCAGGACGCCTTGCAAGACGCCGGCATCGCCATCGTCCCCGAGCTGATCTGCCACGGCGACTTCACCCTCAAGGCCGGCTTCGACGGCGCCAGCGCCATGCTCGCCCTGGCCGAGCGTCCCAGCGCGCTGTTCTGCGAGAACGATGAGATGGCCATCGGCGCGCTCAAGCGCATCAAGCAGACGGGCCTGCGGGTGCCCGAGGACATCTCCCTGGTGGGTTTTGACGACATCCCGTTCGCCGCCTATTGCGATCCGCCGCTGACCACCATTTCCCAGCCAGCTGAAACCTTTGGTCACAAAGCCGTAGAAATGCTCATCGCCCTGATCGAGAAAAGATCCATCGCCCAGCGGCACGTGCTCCTGCCGTTCGAGCTGACCGTACGCGGCAGCAGCGCAGCGCCAGGCTCCAGCATGGCCTGA	MSNIREVARLAGVSVATVSRTLKSPERVLPETRDKVNAAVAQAGYRPNLMAVQFRSRRTGNLVILVPAIANTFFARVISGAQQAAQAAGYRLLLCDTQGREAIEQEFAALVYAHQADGVIQLRASDPFVSLPPGADALPLVNACEVVKDAPYPTISLDNRSAARAMTEHLIGLGHRRIGIIKGPRSSPLTLDRVAGYQDALQDAGIAIVPELICHGDFTLKAGFDGASAMLALAERPSALFCENDEMAIGALKRIKQTGLRVPEDISLVGFDDIPFAAYCDPPLTTISQPAETFGHKAVEMLIALIEKRSIAQRHVLLPFELTVRGSSAAPGSSMA	PGPT0021075_1329	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
D1-35_02780	951			hypothetical protein	ATGCCAATCAGCAAACGCTTCATTTCCCTGGCCGCCACCGCAGCCGTGATGGTCACGACCACGGCCTATGCTGCGCCAGCGTACATCAACATTCTGACCGGAGGCACCAGCGGGGTGTATTACCCGATTGGCGTCGGGCTCTCGCAGATCTATAGCAGTGGCATCAAGGATTCCAAGACGTCGGTCCAGGCCACCAAGGCTTCGGTGGAAAACCTGAACCTGCTGCAAGCCGGACGCGGGGAGTTGGCGTTCGCCTTGGGCGACTCGGTGGCGGACGCCAAGAATGGGGTGGAAGACGCCGGCTTCAAGGCGCCCTTGACCAAGCTGCGGGCCATCGCTGGCGCCTACCCCAACTACATACAAATCGTCGCCAGCCAGGAATCAGGCATCAAGACCCTGGCCGATCTCAAGGGCAAGACCGTTTCGGTCGGCGCAGCGAAATCCGGCACCGAGCTCAACGCCCGGGCAATCTTCAAGGCCGCGGGCCTGACCTACAGCGATATGAAGGTGCAATACCTGCCATTCGCCGAGTCGGTGGATCTGATCAAGAACCGCCAGTTGGATGCCACGCTGCAATCTTCCGGCCTGGGCATGGCAGCGATTCGTGACCTGGCGTCGACCATGCCATTGAACTACGTATCGATTCCCACCGATGTCGTGGCAAAAATCGGTAACCCGGCCTATTTGAGCGCACAAATCCCGCCCAACACGTACGACGGACAAACTGACGCCGTGCCCACCGTCGCCATCACCAATATCCTGGTGACCCGCGAGGATGTGCCGGACGAAGTGGCCTATCAGATGACCAAGCTGCTCTTCGACAACCTCAATCGCCTGGGCACGTCCCATTCGGCGGCGAAAGACATTTCCCTGAAAAACGCCGCGAAGAACCTGCCGATAGCCCTGCACCCTGGCGCCGAACGCTACTACAAGGAAGTGGGCGCGCTGTAG	MPISKRFISLAATAAVMVTTTAYAAPAYINILTGGTSGVYYPIGVGLSQIYSSGIKDSKTSVQATKASVENLNLLQAGRGELAFALGDSVADAKNGVEDAGFKAPLTKLRAIAGAYPNYIQIVASQESGIKTLADLKGKTVSVGAAKSGTELNARAIFKAAGLTYSDMKVQYLPFAESVDLIKNRQLDATLQSSGLGMAAIRDLASTMPLNYVSIPTDVVAKIGNPAYLSAQIPPNTYDGQTDAVPTVAITNILVTREDVPDEVAYQMTKLLFDNLNRLGTSHSAAKDISLKNAAKNLPIALHPGAERYYKEVGAL				NA	NA	NA	NA	NA
D1-35_02781	2028			hypothetical protein	ATGAGTGAAGACCAGCACGGCATCGCCACGGACCCACGGGACTGGCCGAAGACGCTGTTCTATGTAGCGTTGCTGTTTTCCATATTCCAGATCGTCACCGCAGCCTTCTCCCCGGTATCGAGCATCGTGCTGCGGGCGGTGCATGTGGGCTTTTTGCTGTGGGTGGTGTTCTTGAGCTACCCGGCCCATGGCAAGCAACGGCCCTGGCAACCCCTGGCCTGGGCGTTGGGGCTGGCGGGGATGGCGACCGCGCTCTATCAGTGGGTGTTCGAGGCCGACCTGATCCAGCGCTCCGGCGACCTGACGAGCGCCGACATGGTCATCGGCATCGTCCTGATCGTGCTGGTATTCGAGGCGGCGCGGCGGGTGATGGGCATCGCCTTGCCGATCATCTGCGGCCTGTTCCTAGCCTATGGCCTGTTCGGCGAACACCTGCCGGGCGACCTGGCGCATCGCGGCTACGGCGTGGACCAGATCATCAACCAATTGGCGTTTGGCACCGAAGGGTTGTACGGCACGCCGACCTACGTATCGGCCACTTATATCTTCCTCTTCATCCTGTTCGGCGCTTTCCTGGAAAAGGCCGGCATGATCAAGCTGTTCACCGATTTTTCCATGGGCCTGTTCGGCCACAAACTCGGCGGCCCGGCGAAGGTGTCGGTGGTGTCATCGGCGCTGATGGGCACCATCACCGGCTCGGGCATCGCCAATGTGGTGACGACCGGCCAGTTCACTATTCCGCTGATGAAACGCTTTGGCTACAAGGCCGCGTTCGCCGGCGGCGTGGAAGCGACATCGAGCATGGGCAGCCAGATCATGCCGCCGGTCATGGGTGCGGTGGCGTTCATCATGGCCGAGACCATCAACGTGCCGTTCGTGGAAATCGCCAAGGCGGCCTTGATACCCGCCTGCCTGTATTTCGGCTCGGTGTTCTGGATGGTGCACCTGGAGGCCAAGCGTTCGAACCTCAGAGGTCTACCCAAGGATCAGTGCCCGAGTGCCTGGGGCGCGGTCAAGGAAAACTGGTATCTGCTGATTCCACTGGCAGTGCTGGTCTATCTGTTGTTTTCCGGGCGCACTCCGCTGTTCTCCGGCATGGTCGGGCTGGCATTGACCGCTATCGTGATTCTCGGGTCGGCGATCATCCTCAAAGTATCGAACTATGCCTTGCGCTGCGCATTCTGGATAGCACTGGGGATTCTCTGCGTCGGCTTCTTCCGGTTGGGTATCGGAATCGTGTTCGCGGTGATCGGCGTGCTGGTGGTGGCTTGCTGGTTCATGCAAGGCACACGGGAAACCCTGGTCATCTGCCTGCATGCATTGGTGGATGGTGCCCGGCACGCCGTTCCGGTGGGGATCGCCTGCGCCTTGGTCGGCACCATCATCGCCGTGGTTTCGCTGACGGGCGTGGCGTCCACTTTCGCCGGTTACATCCTGGCCATCGGCAAGGACAACCTGCTGCTGTCGCTGATCCTGACCATGCTTACCTGCCTGGTATTGGGCATGGGCATCCCGACCATCCCGAACTACATCATCACCAGCTCGATCGCCGCGCCAGCCCTGTTGGAACTGGGCGTGCCGCTGATCGTATCGCACATGTTCGTGTTCTATTTCGGCATCCTCGCCGACCTGACCCCTCCGGTGGCCCTGGCCTGTTTCGCCGCCGCGCCCATCGCCAGGGAGAGTGGCCTGAAGATCAGCTTCTGGGCCGTGCGCATCGCCCTCGCCGGCTTCGTCATTCCGTTCATGACGGTCTACAACCCGGCGCTGATGCTCCAGGGCGACAATCTCTGGATGACGGCGTACATGCTGATCAAGACCTTGCTCGCGGTCGGCCTGTGGGGCATGGCGTCTACCGGTTTCCTGCAACAGAAGATGCCGGTCTGGGAACGGCTGATGTGTTTTGCCGCCGGGGCATTGTTGGTGGTGGCGCTGCCGTTGACCGATGAAATCGGCTTTGTCCTGGGGGCGCTGTTGATCGGGCAGCATCTGTGGCGCGCACGTCGCGGCGGACAGGCCTTGGCGTGA	MSEDQHGIATDPRDWPKTLFYVALLFSIFQIVTAAFSPVSSIVLRAVHVGFLLWVVFLSYPAHGKQRPWQPLAWALGLAGMATALYQWVFEADLIQRSGDLTSADMVIGIVLIVLVFEAARRVMGIALPIICGLFLAYGLFGEHLPGDLAHRGYGVDQIINQLAFGTEGLYGTPTYVSATYIFLFILFGAFLEKAGMIKLFTDFSMGLFGHKLGGPAKVSVVSSALMGTITGSGIANVVTTGQFTIPLMKRFGYKAAFAGGVEATSSMGSQIMPPVMGAVAFIMAETINVPFVEIAKAALIPACLYFGSVFWMVHLEAKRSNLRGLPKDQCPSAWGAVKENWYLLIPLAVLVYLLFSGRTPLFSGMVGLALTAIVILGSAIILKVSNYALRCAFWIALGILCVGFFRLGIGIVFAVIGVLVVACWFMQGTRETLVICLHALVDGARHAVPVGIACALVGTIIAVVSLTGVASTFAGYILAIGKDNLLLSLILTMLTCLVLGMGIPTIPNYIITSSIAAPALLELGVPLIVSHMFVFYFGILADLTPPVALACFAAAPIARESGLKISFWAVRIALAGFVIPFMTVYNPALMLQGDNLWMTAYMLIKTLLAVGLWGMASTGFLQQKMPVWERLMCFAAGALLVVALPLTDEIGFVLGALLIGQHLWRARRGGQALA				NA	NA	NA	NA	NA
D1-35_02782	402			hypothetical protein	GTGATCGGCTTGTGCCTGGGCCTGTCCGGAGTGATCTGGGCGCAGCTTGAACTCAGCGAGTTCACCTTGGCGTGGGATCACACCATCGAGAAGATCCGTTGGGAGGAAGACTACCGTGTCACCGAAACGGGCCTGGTCCTGGGCGAAGCCAGGATCAAGGGCAACGGTGCCGGCATGGAGATTCCGGAAAACGCCCGGCTGGAACACGGCAGTTGGCACTACTATCGCCAACTGCCGCCGCTGCAACCCTTGAAGCTGGGCCGCACGCCCCAGGCCGGCGATTACCAACTGTGTCATGCCGGCCATTGCCAGCCGATGGCGCATTGGCTCGGCCCGCCCACCGTGGAACACCCCTCGGTAGAACTGTGGAGCTGCGAACGGCGCTCGATCATTCAGCGCTGA	MIGLCLGLSGVIWAQLELSEFTLAWDHTIEKIRWEEDYRVTETGLVLGEARIKGNGAGMEIPENARLEHGSWHYYRQLPPLQPLKLGRTPQAGDYQLCHAGHCQPMAHWLGPPTVEHPSVELWSCERRSIIQR				NA	NA	NA	NA	NA
D1-35_02783	618			hypothetical protein	ATGCAAACAACGGAATTACTCGAACGTGCCTTCCCCGGCAGAAGGGCCGAGCTCAAGCGCGATATCTTCAGCAAGGCCCTGGCGCTGTTCAACGAACAGGGCATCGAGGCGACCACCATTGAAATGATCCGCACCGAATGCCAGACCAGTGTCGGCGCGATCTACCACCACTTCGGCAACAAGGAAGGCCTGGTGGCGGCGCTGTTCTTCACCGCGCTGGACGACCAGGCGCACTTGCGCGAGCAATACCTGGCCGAGGCGACGACGGCCGAACAGGGCGTGCAAGCGTTGATCTTCAGCTATGTCGATTGGGTCGACAGCCAGCCGGAATGGGCGCGTTTCCAGTATCACGCGCGTTTTGCCGTGACCAAGGGACCGTTCAAGGACGAACTCGCCAGCCGCAACAGCACGCGCAACGGCCAGCTCTGGCAGTGGCTGAGCGCGGCGGAGCAGGGCGAGGCGCTCAAGCGTTATCCAGCCGAGTTGATGTTCTCGCTGATCATCGGCGCGTCGGAAAGTTATTGCCGTGCCTGGCTGGCGGGGCGCGTGCCGACCAGCCCGAAGGCCCATCGGGAATTACTGGCGCAGGCGGCGTGGCGGTCGATCAGCGCTGAATGA	MQTTELLERAFPGRRAELKRDIFSKALALFNEQGIEATTIEMIRTECQTSVGAIYHHFGNKEGLVAALFFTALDDQAHLREQYLAEATTAEQGVQALIFSYVDWVDSQPEWARFQYHARFAVTKGPFKDELASRNSTRNGQLWQWLSAAEQGEALKRYPAELMFSLIIGASESYCRAWLAGRVPTSPKAHRELLAQAAWRSISAE				NA	NA	NA	NA	NA
D1-35_02784	441			hypothetical protein	ATGAATCAGGTTCTCGGTATGTTCAACAGCGCAGGTCCCGATGCGTTCAGCAAAATGGCCTGTCAGATGGCACCTTACTTCTCCACTATCAATCCGCTGGTCACGGAGCTGCGCCAGGGCGCGGCGACTGTGCAGGTACCGTTTCGCAAGGAAATCACCAATCACCTGGGCACCGTGCATGCCATTGCCATGTGCAACGCCGCCGAGCTGGCCGCCGGGATGATGACCAACGTCTCGATTCCCGACGGCGCCCGGTGGATCCCCAAAGGCATGACCGTGGAATACCTGGCCAAGGCCAAGAGCGACGTGACGGCGGTGGCGAACGGCGATGAGGTGGACTGGCAGACCGAGGGCGACAAGATCGTGCCGGTGGATATTCATGACGTGGATGGCAAGAAGGTGTTCACGGCGCGGATCACCATGAATGTGAAGTTGGCTTGA	MNQVLGMFNSAGPDAFSKMACQMAPYFSTINPLVTELRQGAATVQVPFRKEITNHLGTVHAIAMCNAAELAAGMMTNVSIPDGARWIPKGMTVEYLAKAKSDVTAVANGDEVDWQTEGDKIVPVDIHDVDGKKVFTARITMNVKLA				NA	NA	NA	NA	NA
D1-35_02785	1089	gnl		Gluconolactonase	ATGGATGCTTCGCAACCTTCAGCCGCCGATCAGGCGCGCCGGACCTTCCTCAAGAAATCCCTGGTGGTCTCGGCCGCCGCCGTGACCCTTGGCAACCTGCCCGGCCTGACCCAGGCCGAACCGCTGAGCCAGCGTTATCCGGACCCTCTGGTCAATATCCTCGACCCCAGCTTCATGGACCTGCGCATCTTCAACGCCAGCGTGGAAAAACTCGCCAGCGGCCTGCGCTGGGCCGAAGGGCCGGTGTGGATCGGCGACGGTCGGTATCTGCTGGTCAGTGACATCCCCAACAACCGCATCGTGCGCTGGGACGAAGTCACCGGTGGGCTGTCGGTGTATCGGGAGAATTCGAACTTCTCCAACGGCATGTGCCGTGATCGCCAGGGACGGTTGCTGGTCTGTGAAGGCTCGACCACGTCGACCGAAGGGCGGCGTATCACCCGCACCGAACACAACGGCACGATCACCGTGCTGGCCGATCGTTTCGACGGCAAACCGTTGAACTCGCCCAACGACATCGTTTGCAAACGGGATGGCTCGATCTGGTTCACCGACCCGCCGTTCCAGACCGGCAACAACTACGAGGGGCACAAAGTCACCCCCGAGCAGCCGCACGCGGTGTACCGTATCGACGGTGAAACCGGGAAGCTCAGCCGGGTCATCGACGACCTGGCGGGGCCGAACGGCCTGTGCTTTTCCCCGGATGAAAAAACTCTCTACGTGGTCGAAGGCCGGGCCAAGCCCAACCGCCTGGTCTGGGCAATCACGGTCAAGGATGACGGCACCTTGGGCGAGCGCCGCAAGCATATCGAAGGCCTGGATTACGCCGCCATCGACGGCATCAAGTGCGATGAGAGCGGCAACCTCTGGTGCGGCTGGGGCGGCAACGGCGACCCCAAGGCCGACCTGGAAAAACTCGACGGTGTGCGGGTGTTCAACCCCGAGGGCAAGGCCATCGGGCATATCTCCCTGCCGGAACGCTGCCCCAACATCTGTTTCGGCGGCAGGGAGGGCAACCGGTTGTTCATGGCCGGCAGCCACTCGTTGTACTCATTGTTCGTGAACACCCGCGGGGCGACGTTTGCTTGA	MDASQPSAADQARRTFLKKSLVVSAAAVTLGNLPGLTQAEPLSQRYPDPLVNILDPSFMDLRIFNASVEKLASGLRWAEGPVWIGDGRYLLVSDIPNNRIVRWDEVTGGLSVYRENSNFSNGMCRDRQGRLLVCEGSTTSTEGRRITRTEHNGTITVLADRFDGKPLNSPNDIVCKRDGSIWFTDPPFQTGNNYEGHKVTPEQPHAVYRIDGETGKLSRVIDDLAGPNGLCFSPDEKTLYVVEGRAKPNRLVWAITVKDDGTLGERRKHIEGLDYAAIDGIKCDESGNLWCGWGGNGDPKADLEKLDGVRVFNPEGKAIGHISLPERCPNICFGGREGNRLFMAGSHSLYSLFVNTRGATFA	PGPT0001285_343	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION_D_GLUCONATE_BIOSYNTHESIS,PGPT0001285-gnl-K01053	NA	NA
D1-35_02786	1131	rcsC_12		Sensor histidine kinase RcsC	ATGCGCCTGGCTGATTTCATTGTCGACAACATCGAACCGATCCTCCAGGCGTGGGAAGACTTCGCCAGGACCATCACCCCGGCTTCCATCGGCATGGATGCGGTAGCGCTGCGCGACCATGCCGAGCAGATGCTGCGCACCATCGCCATTGATCTGCGCACCTCTCAGACCCCGGAGGAGCAGATCGCCAAGTCCCAGGGCGAAGCCCCGGCGGCGGAGGCCGAGACCGCGGCGGAAACCCACGCTGTCATTCGCCAGTCATCCGGTTTTACCGTGGAACAGATGGTCTCGGAGTACCGTGCGTTGCGCACCAGCGTGCTGGTGTTGTGGATGCCCCATGCCCAGCTGGACCAGGCGCAGGCGATGTCGGATGTGATCCGCTTCAATGAAGCCGTCGACCAGGCCCTGGCGGAATCGGTGGTCAGTTATTCCGGCGCGGTCGATGCGGCGCGCAATATCTTCCTCGGGATCCTGGGACATGATCTGCGCAGCCCGCTGGGGGCAATCCTGCTGAGTTCCGAAGTGCTCCTGCGCGCCGGCGATCTGCCGGCCAAGGCCACCAAGATTTCCTCGCGCATCTATACCAGCGTCAAACGGGCGAACAAGATTGTTGGCGACCTGCTGGACTTCACCCGTACCCAGCTGGGCGCAGGCATACCGGTACAGCGTTTCAACGGCGACCTGGTCGCGGCGTGCGAAGGCATGGTGGAAGAGGCGCGGGCCTATCATCCGGAAAGCAGCATCCTCTTCGAGCCCCACGGTCCGCTTGAAGGACTGTTCGATCCGGCGCGGATGGAACAGGTGTTTTCCAACCTGATCGGCAATGCCGTGCAACATGGCGCGGAGGGCGCGCCGATCACGGTATCGTTGAGCCGCGAAGGGGATGAAGCCGTCATCGCGATCAACAACCAGGGCAAGCCTATCGAGAAGGACGCCATCGCCAGCATCTTCAATCCCTTGATCCGGCAACTGCGCAGCGGCGACCTGCAATATGGCCCCACGGCCGGCCTGGGACTGGGCCTCTACATTGCCTCGGCGATCGTCGCGGCTCACCAGGGGACCATCGAAGTCCACTCGAAGGCGCGCGGAGGCACCACGTTCACCGTTCGGATCCCACTCCATCCCGAGTGA	MRLADFIVDNIEPILQAWEDFARTITPASIGMDAVALRDHAEQMLRTIAIDLRTSQTPEEQIAKSQGEAPAAEAETAAETHAVIRQSSGFTVEQMVSEYRALRTSVLVLWMPHAQLDQAQAMSDVIRFNEAVDQALAESVVSYSGAVDAARNIFLGILGHDLRSPLGAILLSSEVLLRAGDLPAKATKISSRIYTSVKRANKIVGDLLDFTRTQLGAGIPVQRFNGDLVAACEGMVEEARAYHPESSILFEPHGPLEGLFDPARMEQVFSNLIGNAVQHGAEGAPITVSLSREGDEAVIAINNQGKPIEKDAIASIFNPLIRQLRSGDLQYGPTAGLGLGLYIASAIVAAHQGTIEVHSKARGGTTFTVRIPLHPE				NA	NA	NA	NA	NA
D1-35_02787	963			hypothetical protein	ATGACCCGCCCCACCGTTGCCGCCGATGTTCCTATTCCTTTTTCCCGCCCTGTCGCTGTGCTCATCCTGCTTTGCATGGGCTGCGCTTTTGCCGGTAACCACGTCGCCGCGCGGGCGGCGTTCGATGACGGTGCCGGCGTGCTGCTGGCGATCCTGCTGCGCTCGGGCGGGACGTTGCTGGTGCTGGCGGCGATGGTCTTGTGGCAACGCCAGAGCCTGCGCCTGCCCGCCGGGGCCTGGCGCTGGCAGTTGGTGTTGGGCCTGTTGATCGGCGCCCAGAGCCTGTGCCTGTATTCGGCCGTGGCGCGGGTGCCGGTGGCGCTGGCGCTGTTGGTGGGTAACGTGTTCCCGATCCTGCTGGCGCTGCTGACCTGGGCCCTCGGCGGGCCGCGCCCCACTGCGCGTACGGCGATGTTGATGGGGATGATCCTGGTGGGCCTGGTGTTCGTACTGGAAGTGCCGGCGCGGTTATCGTCGCAGGCGGACGTCGGCCCGCAATGGCTGTTGGGGGTTGGCCTGGCATTCTGCGCCGCGTGCGTGTTCGCTTGCGCGTTGTGGATCACCGATCACAAGCTGTCCCAGGTGCGCGGCTCGGTGCGCAGCCTGCTGACGATTTTCATTGTGTTCAGCAGCGTCAACCTCGCGGGCCTGACCGGCGCCCTGCCCGGCGGCCTCGACCTGCCCGCCAGCAACACCGGCTGGCTCGCGCTCGCCACCCTGGTGGTGCTTTACGGCACCGGGTTCATCGTGTTGTTCATGTGCGTGCCACGCCTGGACATGCCACGCAACGCCCCGGTGATGAACATCGAACCGCTGGCGACCCTGCTGATCGGCTGGCTGGTGCTGGGCCAGATGCTCAACCCGGGCCAGGTGCTCGGCGGCGCGATCGTGGTGACGGGCATTGTGTTGCTGACCTGGCGCAAGGCTGAGCGGGTCAAGGCGCCGGTGGCTGCACGCAATTGA	MTRPTVAADVPIPFSRPVAVLILLCMGCAFAGNHVAARAAFDDGAGVLLAILLRSGGTLLVLAAMVLWQRQSLRLPAGAWRWQLVLGLLIGAQSLCLYSAVARVPVALALLVGNVFPILLALLTWALGGPRPTARTAMLMGMILVGLVFVLEVPARLSSQADVGPQWLLGVGLAFCAACVFACALWITDHKLSQVRGSVRSLLTIFIVFSSVNLAGLTGALPGGLDLPASNTGWLALATLVVLYGTGFIVLFMCVPRLDMPRNAPVMNIEPLATLLIGWLVLGQMLNPGQVLGGAIVVTGIVLLTWRKAERVKAPVAARN				NA	NA	NA	NA	NA
D1-35_02788	870			hypothetical protein	ATGCGCCACCTCGTTCGCTCTCGCCGTTTCGCTGCGCTGTGCCTCACGATCCTGTTTCCGTTGTTCCCCAGCCCGGCTCACGCCCGAGGCGAAGGACAACTGGTGAGTGCCATCAACGACTACCGCAGCCAGCCCCACCGCTGTGAATGGCAAACAATGCGTGCTGCCCAACCTTTGGTGTTGCGCTCCAGCCTGGCATTGCCCATCGGCTTCAGCGGTGGCTTGCGCGAAACCCTGAGCAGATCCGGCTATCAGGCCCGGTCAGTGCGCAGCATTCGCCTGACCGATGCGCGGGACGCCGAAGAAGCGTTCGAGAGACTGGCGGACGAGCATTGCGCAGCGCTGCTGGACGGCCAGTACGCCGACATTGGCGTCAATCGGGTCGGGGATGAATGGCGCGTGGTGCTCGCACAACCCATGGGCGGAACGCGGATCAGCGACACGCGCGACATCGGCGCGCCGGACAAAACGCTGCTGGCCCAGGTCAATGCCGCCAGGGCCAAGCCCCGCATGTGCGGGCGCCAGCGCTTTGCGGCGGCTCGGCCGCTGAGCTGGAACGCCGCGCTGGGAAGCGCTGCCCAGGGCCACAGTCGGTCGATGGCCCGCGGCAACTATTTTGCCCATCGCGACCCGGACGGTCGCTCCACATCCGAGCGGGCCAGGAGCGCCGGTTTTCGCGGACGCAAACTCGGCGAGAACATTGCCGCCGGACAACGTTCGCCAAGCCAGGCCATGCACGACTGGCTCGCCAGCCCCGGGCATTGCGCCAACCTGATGAACCCGATGTTCACCCAGGTCGGTGCGGCGTCGGCCAGTGACTCGCGCAGCGATGCCGGAGTGTATTGGACAATGGTGCTTGGCGCCCCGTGA	MRHLVRSRRFAALCLTILFPLFPSPAHARGEGQLVSAINDYRSQPHRCEWQTMRAAQPLVLRSSLALPIGFSGGLRETLSRSGYQARSVRSIRLTDARDAEEAFERLADEHCAALLDGQYADIGVNRVGDEWRVVLAQPMGGTRISDTRDIGAPDKTLLAQVNAARAKPRMCGRQRFAAARPLSWNAALGSAAQGHSRSMARGNYFAHRDPDGRSTSERARSAGFRGRKLGENIAAGQRSPSQAMHDWLASPGHCANLMNPMFTQVGAASASDSRSDAGVYWTMVLGAP				NA	NA	NA	NA	NA
D1-35_02789	633			hypothetical protein	ATGAAACGTTCAGAAGCACAGATCCTGCGTGAGTACGGCCCTTTTCCGGGCGTCGAGTGTGTCCACGGGGTAAGCCATGACGGTGAGCGCGTCTGGTTCGCCTCAGGCGAAAAGCTCCACGCACTTGATCCCGCCAGTGGCCAGACCGTGCATTCGCTCGACGTGCCGGCGAACGCTGGCACGGCGTTCGACGGTGAGCACCTGTTCCAGATTGCTGGCGACAGCATCCGCAAGATCGATCCACGCACCGGCGAGGTACTGGCGACAATTCCGGCGCCCAACAGCGGTGATGATTCAGGGTTGGCGTGGGCCGAAGGATCGCTCTGGGTCGGCCAGTACAAGGCGCGCAAAATTCTCCAGATCGACCCGGCCGACGGAAAAGTCCTGCGCACCATTAAATCCAATCGCTTCGTCACGGGCGTGACCTGGGTCGACGGAGAGCTTTGGCACGGGACGTGGGAAAACGATGAGAGTGACCTGCGGCGTATTGATCCGCAGACGGCACAAGTGCTGGAAAGCGTGACGATGCCGCCCGGGACCGGTGTGTCGGGGCTGGAATCCGACGGGGGCGAACGGTTTTTCTGTGGCGGCGGTGGCAGCGGGAAGGTGAGGGCGGTGCGTCGGCCGGCGTGA	MKRSEAQILREYGPFPGVECVHGVSHDGERVWFASGEKLHALDPASGQTVHSLDVPANAGTAFDGEHLFQIAGDSIRKIDPRTGEVLATIPAPNSGDDSGLAWAEGSLWVGQYKARKILQIDPADGKVLRTIKSNRFVTGVTWVDGELWHGTWENDESDLRRIDPQTAQVLESVTMPPGTGVSGLESDGGERFFCGGGGSGKVRAVRRPA				NA	NA	NA	NA	NA
D1-35_02790	1221			hypothetical protein	ATGGATTACGCGATCAGCATAGCAGCGCGAGCATTGGCGGCGGGCGATCCAGTGGCGGCGCTCAATCGCATCGCCTTGCGCACCGATGCCCCGGCCCTCGCGCTGCGCGGCATCGCCATGGCGCAGCTGGGGGACCTGGACAAAGCCAGGAGCCTGATGCGCCGGGCAAGTACCGCGTTCGGGCCCAAGGCGGCCGTGGCGCGGGCACGGTGTATCGTGGCGGAGGGCGAAATCGCCTTGGCTTCCCGTGACCTGGCGTGGCCCATGAAGCGCCTCGACGCCGCGCGGACGGTGCTCGAAGCCTGCGGCGACCGGGCGAACGTCGGGCATGCTCATGCGATTGAAATCCGCCGCCTGCTGTTGCTCGGTCGCCTTGGCGAGGCCGAGGGCAAGCTTGCTGATCTGAATCTTTGCAGCTTGCCTGTGGCGTCTCGAGCCGCTTGTGAACTGGTGGCGGCGGGGATCGCCATGCGGCGCCTGCAAGCGCAAACCGCCCACGCCGCTCTGGAAAGGGCCGGGCAGGCCGCACGGCAAACGGGCATCAGCGCGCTGAACGCCGAAATCGAAAGCGCCTGGCGCATGCTGAGCTCACCGGCGGCGCGTCTGATCGGCCGGAACGAAGAGCGCTTGCTGATTCTTGAAGAGGTACAGGTGCTGCTGGCCGGTGCGGCGCTGGTAGTAGATGCATGCCGGTATGGCGTCAGTAGCGCTGGCAGCCAGGTTTCCCTCGCCCGGCGCCCGGTGTTGTTCGCCCTGGCCCGCGGGCTGGCCCAAGCCTGGCCGGGCGATGCATCGAGGGAAGCGCTCATGGCCGAGGCCTTCGGCTTGAAACTGACGGATGAGTCCCACCGCGCCCGGCTGCGCGTCGAGATGGGGCGGTTGCGGGCGGAGCTGCGGTCATTGGCCGAGGTGAAGGCGACCCGGCGCGGTTTTATCCTTATTCCCAACCAGGCCGACGAGGTCGTGGTGCTGGCGCGCGTCATCGAAGAACCTCACGGCGCGGTGCTGGCGCTGCTTGCCGATGGCGAAACCTGGTCCAGTTCGGCCCTGGCGCTTGCCTTGGGCAACAGCCAGCGCAGCGTGCAGCGGGCCTTGGAAACCCTCGCCGCCTGCGGCAAGGCGCAAGCGTTCGGTCGTGCCAGGGCCCGGCGCTGGATGGCGCCAACGATGCCTGGATTCGCGACGGCATTGTTACTCACTGCGTTGCCAGTGGCTGGTTAG	MDYAISIAARALAAGDPVAALNRIALRTDAPALALRGIAMAQLGDLDKARSLMRRASTAFGPKAAVARARCIVAEGEIALASRDLAWPMKRLDAARTVLEACGDRANVGHAHAIEIRRLLLLGRLGEAEGKLADLNLCSLPVASRAACELVAAGIAMRRLQAQTAHAALERAGQAARQTGISALNAEIESAWRMLSSPAARLIGRNEERLLILEEVQVLLAGAALVVDACRYGVSSAGSQVSLARRPVLFALARGLAQAWPGDASREALMAEAFGLKLTDESHRARLRVEMGRLRAELRSLAEVKATRRGFILIPNQADEVVVLARVIEEPHGAVLALLADGETWSSSALALALGNSQRSVQRALETLAACGKAQAFGRARARRWMAPTMPGFATALLLTALPVAG				NA	NA	NA	NA	NA
D1-35_02791	534	rutB		Peroxyureidoacrylate/ureidoacrylate amidohydrolase RutB	ATGAGCAGCGCATTGCTGATTATCGACGTCCAGGCCGGGCTGTGCACGGGCGAAGAGGAATGCTTCGACAGCCCACGCCTGCTCGGCACCATCAATGACCTCAGTGCCAGGGCTCGGGCTGTCGGCTTGCCGGTGATCCTGGTCCAGCACGAAGAACTTGAGGGTTCGTTGGCTTATGGCAGTGCCGCCTGGCAATTGGCCGACGGCCTGCTCACCGCCGCGGATGACTTGCGCGTGCGCAAGACCACCGCGGACGCGTTCTACCAGACCGACCTGCTGGCGCTGTTGCAGGCCAGAAGCATCGATCGCGTGGTGATCTGCGGGCTGCAGACCGATCACTGCATCAATGCCACCGTGCGCCAGGCCCATGCCCTGGGGTACGAAGTGGTGTTGGCCGCCGATGCGCATTCGACGGTGGACAATGGCAGCCTGTCGGCCGAGCAGATCATTGCCGATCACAATCAGCGACTGGGGCGGCTGAGCAGCGCGGTGTCGCGCATTGATGTGGTACGGGCCGCCGGGATTCGCCTGTAG	MSSALLIIDVQAGLCTGEEECFDSPRLLGTINDLSARARAVGLPVILVQHEELEGSLAYGSAAWQLADGLLTAADDLRVRKTTADAFYQTDLLALLQARSIDRVVICGLQTDHCINATVRQAHALGYEVVLAADAHSTVDNGSLSAEQIIADHNQRLGRLSSAVSRIDVVRAAGIRL				NA	NA	NA	NA	NA
D1-35_02792	1728	ggt_1		Glutathione hydrolase proenzyme	ATGAAGTTCGAATCCCTGGCCCGGACCCTCATCGCCACTTCGCTCTCCCTTTGCTGCCTGACTGCCCACGCTGCGTCCCAGGCCCCGGTTGCCGCCGAGAACGGCATGGTCGTCACCGCCCAGCACCTGGCGACCCACGTCGGCGTCGATGTGCTCAAGAACGGGGGCAACGCGGTGGATGCGGCAGTCGCGGTGGGCTACGCCCTGGCGGTGGTCTACCCGGCGGCGGGCAACCTTGGCGGTGGCGGTTTCATGACGCTGCAGATGGCGGATGGCCGCAAGACATTCCTGGATTTCCGCGAAAAAGCGCCATTGGCCGCCACCGCCGACATGTACCTGGACAAGGACGGCAACGTCATTCCCGAGCTCAGCACCCGCGGCCACCTGGCGGTAGGCGTGCCCGGCACGGTGTCCGGCATGGAGCTAGCGCTGAAGAAATACGGCAGCAAGCCCCGGGAGGAACTGATCGCCCCGGCGATCAGGTTCGCCGAGGAGGGTTTTGTCCTCGAACAAGGTGATGTCGACCTGCTGGAGACCGCCACGGACGTGTTCAAAAAGGACATGCGCGATTCCGGCGCGATCTTCCTGCACAACGGCGAGCCGATGCAGGCCGGCCAGAAACTGGTGCAGAAAGACCTCGCCAGGACCCTGCGGGAAATTTCCGCCAAAGGCGCCGACGGCTTCTACAAAGGCTGGGTGGCCGACGCCCTGGTGACTTCCAGCCAGGCCAACAAGGGCATCATCACCCAGGCCGACCTGAACAAATACAAGACCCGCGAGCTGGCCCCGGTGGAATGCGACTACCGCGGTTATCACATCATTTCCGCACCACCGCCCAGTTCCGGTGGTGTGGTGCTGTGCCAGATCATGAATATCCTCGACGGGTATCCGATGAAAGACCTGGGCTTCCATTCGGCCCAGGGCATGCACTACCAGATCGAAGCCATGCGTCACGCCTACGTCGATCGCAACAGCTACCTGGGCGACCCGGACTTTGTGCAGAACCCCATCGACCATCTGCTGGACAAGAACTATGCGGCGAAACTGCGCGCCGCGATCGAGCCGCAAAAGGCCGGCGACTCGCACAAGATCAAACCCGGCGTGGCGCCTCACGAGGGCAGCAACACCACCCACTATTCGATCGTCGACCAATGGGGCAACGCCGTCTCTGTCACCTACACCCTCAACGACTGGTTCGGCGCCGGCGTGATGGCGAGCAAGACCGGGGTGATCCTCAACGATGAAATGGACGATTTCACCGCCAAGGTCGGCGTGCCCAACATGTACGGCCTGGTACAGGGCGAGGCCAACGCCATCGCACCGGGCAAGGCGCCGCTGTCGTCCATGAGCCCGACCATCGTCACCAAGGACGGCAAGACCGTGATGGTCGTCGGCACGCCGGGCGGCAGCCGCATCATTACCGCGACCCTGCTGACCATCCTCAACGTGATCGACTACGGCATGAACCTGCAGGAAGCGGTGGACGCACCGCGCTTCCACCAGCAGTGGATGCCGGAGGAGACCAACCTGGAAACCTTCGCCGCCAGCCCCGATACGCTCAAGCTGCTGGAAAGCTGGGGCCACAAGTTCGCCGGCCCGCAGGACCCCAACCACATCGCCGCGATCCTGGTGGGCGCGCCATCATTGGGTGGCAAGCCCGTGGGCAAGAATCGTTTCTACGGTGCCAACGATCCGCGTCGCAACACCGGGTTATCGTTGGGCTACTGA	MKFESLARTLIATSLSLCCLTAHAASQAPVAAENGMVVTAQHLATHVGVDVLKNGGNAVDAAVAVGYALAVVYPAAGNLGGGGFMTLQMADGRKTFLDFREKAPLAATADMYLDKDGNVIPELSTRGHLAVGVPGTVSGMELALKKYGSKPREELIAPAIRFAEEGFVLEQGDVDLLETATDVFKKDMRDSGAIFLHNGEPMQAGQKLVQKDLARTLREISAKGADGFYKGWVADALVTSSQANKGIITQADLNKYKTRELAPVECDYRGYHIISAPPPSSGGVVLCQIMNILDGYPMKDLGFHSAQGMHYQIEAMRHAYVDRNSYLGDPDFVQNPIDHLLDKNYAAKLRAAIEPQKAGDSHKIKPGVAPHEGSNTTHYSIVDQWGNAVSVTYTLNDWFGAGVMASKTGVILNDEMDDFTAKVGVPNMYGLVQGEANAIAPGKAPLSSMSPTIVTKDGKTVMVVGTPGGSRIITATLLTILNVIDYGMNLQEAVDAPRFHQQWMPEETNLETFAASPDTLKLLESWGHKFAGPQDPNHIAAILVGAPSLGGKPVGKNRFYGANDPRRNTGLSLGY	PGPT0002935_3194	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002935-ggt-K00681	NA	NA
D1-35_02793	432			Acetyltransferase	ATGACGTTAAGAATCGAGCGCACGGACGCTCCCACCGATGAACAACGCCAGGCCATCCTCGCGCCACTACGCGCCTATAACACGGCTCAGACCGGTGGAAGCGCGCCGGAACTGGTCGCCTGGCTGGTGCGCGACGAGCACGGCGAAATCGTCGGCGGACTCTACGGCCGAATATTTTTTCGTTGGCTCTATATCGAACTGCTGGTAGTGCCTGAACAGGCCCGGGGCCAAGGCACGGGTTCGCAGCTGATGCAGATGGCCGAACAGTTGGCCAGGGAAAAAGACTGCGTAGGTATCTGGCTCGACACCTTCGACTTCCAGGCGCCGGACTTCTATCGTCGGCATGGTTTCACCGAGTGCGGGCAGATCGACGACTACCCGCCGGGGCATCAGCGTTTCTTTTTCCAGAAACGCCTGCCGAACGCTGACTGA	MTLRIERTDAPTDEQRQAILAPLRAYNTAQTGGSAPELVAWLVRDEHGEIVGGLYGRIFFRWLYIELLVVPEQARGQGTGSQLMQMAEQLAREKDCVGIWLDTFDFQAPDFYRRHGFTECGQIDDYPPGHQRFFFQKRLPNAD				NA	NA	NA	NA	NA
D1-35_02794	1368	glmU_2		Bifunctional protein GlmU	ATGTCTCTCGAAATCGTTATTCTCGCGGCCGGTCAAGGCACCCGCATGCGCTCGGCGCTGCCCAAGGTGCTGCACCCGGTAGCCGGCAACTCCATGCTCGGCCATGTTATCCACAGCGCGCGGCAACTTGATCCACAGCGTATCCATGTGGTGATCGGTCACGGAGCCGATGCGGTACGTGAGCGCCTGGCGGCGGATGATCTGAATTTCGTGCTGCAGGACAAACAACTCGGTACAGGTCACGCCGTGGCCCAGGCCGTGCCATTCATCACCGCCGATACGGTGTTGATTCTCTACGGTGATGTGCCGCTGATCGAAGTCGATACGCTGCAACGCCTGCTCAAGCACGTCGCGCCGCGTCAATTGGGCCTGCTCACCGTCGAGCTGGATGATCCGACCGGCTACGGCCGCATCGTACGCAACGCCGACGGCCAGGTGACTGCCATCGTCGAGCAGAAAGACGCCAATGACGCCCAGCGCGCCATCACCGAAGGCAACACCGGGATTCTTGCCGTTCCCGCCGAGCGCCTGGGGGACTGGATGAGCCGCTTGTCCAACAACAACGCCCAAGGCGAGTACTACCTCACCGACGTGATCGCCATGGCCGTTGCCGATGGACTGGCGGTCGCCACCGAACAGCCCTTGGACGCGATGGAAGTGCAGGGCGCCAACGATCGCCGGCAACTGGCCGAACTCGAGCGCCATTACCAGCTGCGCACCGCCCGCCGCTTGATGGCCCAAGGCGTGACCCTGCGCGACCCGGCCCGTTTTGATGTCCGTGGTGAAGTCAGCGTCGGCCGCGACGTGGTCATCGACATCAACGTCATCCTCGAAGGCAAAGTCGTCATCGAAGACGACGTGGTCATTGGCCCGAACTGCGTCATCAAGGACAGTACCCTGCGCAAAGGCGTGGTAATCAAGGCCAACAGTCATCTCGAAGGCGCGGTGATGGGCGAGGGTAGCGACGCCGGCCCGTTTGCTCGCCTGCGCCCGGGCACGGTGCTGGAAGCCCGCGCTCATGTGGGTAACTTCGTGGAACTTAAAAACGCTCATATGGGCGAAGGTGCCAAGGCCGGGCACCTGACCTATTTGGGCGACGCCGAAATCGGCGCACGTACCAACATCGGTGCGGGGACCATCACCTGCAACTACGATGGCGCCAACAAGTGGAAAACCGTGTTGGGCGAGGATGTGTTCATCGGTTCGAACAACTCCCTGGTAGCACCTGTGGATATCTCCAACGGTGCGACCACGGCGGCCGGCTCGACTCTGACCCAGAATGTGGATAACGGCCAGCTGGCGGTGGGGCGTGCACGTCAGCGCAACATTGATGGCTGGAAGCGTCCTGAAAAGATTAAGAAGCCTTAA	MSLEIVILAAGQGTRMRSALPKVLHPVAGNSMLGHVIHSARQLDPQRIHVVIGHGADAVRERLAADDLNFVLQDKQLGTGHAVAQAVPFITADTVLILYGDVPLIEVDTLQRLLKHVAPRQLGLLTVELDDPTGYGRIVRNADGQVTAIVEQKDANDAQRAITEGNTGILAVPAERLGDWMSRLSNNNAQGEYYLTDVIAMAVADGLAVATEQPLDAMEVQGANDRRQLAELERHYQLRTARRLMAQGVTLRDPARFDVRGEVSVGRDVVIDINVILEGKVVIEDDVVIGPNCVIKDSTLRKGVVIKANSHLEGAVMGEGSDAGPFARLRPGTVLEARAHVGNFVELKNAHMGEGAKAGHLTYLGDAEIGARTNIGAGTITCNYDGANKWKTVLGEDVFIGSNNSLVAPVDISNGATTAAGSTLTQNVDNGQLAVGRARQRNIDGWKRPEKIKKP	PGPT0018955_2446	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GLUCOSAMINE_MODIFICATION,PGPT0018955-glmU-K04042	NA	NA
D1-35_02795	426	atpC	COG0355	ATP synthase epsilon chain	ATGGCTATGACAGTCCATTGCGATATCGTCAGTGCGGAAGGGGAAATCTTCTCCGGTCTGGTCGAGTTTGTGGTTGCGCACGGTGATCTGGGTGATCTTGGTATCACCATGGGCCACGCACCGCTGATCACCAGCTTGAAGCCAGGTCCGATTACTCTGACCAAGCAGGGCGGGGACAAGGAGGTGTTTTACATCTCCGGTGGTTTCCTCGAGGTTCAGCCGAACATGGTCAAGGTCCTTGCCGATACCGTGCAACGTGCTGCCGACCTGGACGAAGCCTCCGCTCAGGAAGCCGTCAAGGCTGCCGAGAAGGCCCTGAACGAAAAAGGCGCAGACTTCGATTACGGTTCTGCTGCTGCACGTCTGGCCGAGGCCGCAGCTCAGCTGCGCACCGTCCAGCAGATCCGCAAGAAGTTCGGCGGCTAA	MAMTVHCDIVSAEGEIFSGLVEFVVAHGDLGDLGITMGHAPLITSLKPGPITLTKQGGDKEVFYISGGFLEVQPNMVKVLADTVQRAADLDEASAQEAVKAAEKALNEKGADFDYGSAAARLAEAAAQLRTVQQIRKKFGG	PGPT0014295_639	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014295-atpC-K02114	NA	NA
D1-35_02796	1377	atpD	COG0055	ATP synthase subunit beta	ATGAGTAGCGGACGTATCGTTCAAATCATCGGCGCCGTTATCGACGTGGAATTCCCACGCGACAGCGTACCGAGCATCTACAACGCGCTGAAAGTACAAGGCGCGGAAACCACCCTGGAAGTTCAGCAGCAGCTGGGCGACGGCGTGGTTCGTACCATTGCGATGGGCTCCACCGAAGGCTTGAAGCGCGGTCTGGACGTTATCGACTCTGGCGCTGCCATCTCCGTACCGGTCGGTAAAGCGACCCTGGGCCGGATCATGGACGTACTGGGCAATCCGATCGACGAAGCTGGCCCGATCGATACCGACGAGCGCTGGGGCATTCACCGTCCTGCGCCATCCTTCGCTGAACAGGCAGGCGGCAACGACCTGCTGGAAACCGGCATCAAGGTTATTGACCTGGTTTGCCCGTTCGCCAAGGGCGGTAAAGTCGGTCTGTTCGGTGGTGCCGGTGTAGGCAAGACCGTAAACATGATGGAACTGATCCGTAACATCGCCATCGAGCACAGCGGTTATTCCGTGTTCGCCGGTGTGGGTGAGCGTACTCGTGAGGGTAACGACTTCTACCACGAGATGAAGGATTCCAACGTTCTGGACAAAGTAGCACTGGTCTACGGTCAGATGAACGAGCCGCCGGGAAACCGTCTGCGCGTAGCCTTGACCGGCCTGACCATGGCCGAGAAGTTCCGTGACGAAGGTAACGACGTTCTGCTGTTCGTCGACAACATCTACCGTTACACCCTGGCCGGTACTGAAGTATCCGCACTGCTGGGCCGTATGCCTTCGGCAGTAGGTTACCAGCCGACCCTGGCTGAAGAGATGGGCGTTCTGCAAGAACGTATCACTTCGACCAAGGAAGGTTCGATCACTTCGATCCAAGCGGTATACGTACCTGCGGATGACTTGACCGACCCGTCGCCAGCGACCACCTTCGCCCACTTGGACGCCACCGTCGTACTGTCCCGTGACATCGCTTCCCTGGGTATCTACCCAGCGGTCGATCCACTCGACTCGACTTCGCGCCAGCTGGACCCGAACGTGATCGGCCAGGAGCACTACGACACCGCTCGCGGCGTCCAGTACGTGCTGCAGCGCTACAAAGAGCTGAAGGACATCATTGCGATCCTGGGTATGGACGAGCTGTCGGAAACCGACAAGCAGTTGGTATCTCGCGCTCGTAAGATCCAGCGCTTCTTGTCGCAGCCGTTCTTCGTGGCTGAAGTCTTCACCGGTGCCTCGGGTAAATACGTTTCCCTGAAGGACACCATTGCTGGCTTCAAAGGCATCCTCAACGGTGACTACGACCACCTGCCAGAACAAGCGTTCTACATGGTCGGCGGCATCGAAGAAGCGATCGAGAAAGCCAAGAAACTGTAA	MSSGRIVQIIGAVIDVEFPRDSVPSIYNALKVQGAETTLEVQQQLGDGVVRTIAMGSTEGLKRGLDVIDSGAAISVPVGKATLGRIMDVLGNPIDEAGPIDTDERWGIHRPAPSFAEQAGGNDLLETGIKVIDLVCPFAKGGKVGLFGGAGVGKTVNMMELIRNIAIEHSGYSVFAGVGERTREGNDFYHEMKDSNVLDKVALVYGQMNEPPGNRLRVALTGLTMAEKFRDEGNDVLLFVDNIYRYTLAGTEVSALLGRMPSAVGYQPTLAEEMGVLQERITSTKEGSITSIQAVYVPADDLTDPSPATTFAHLDATVVLSRDIASLGIYPAVDPLDSTSRQLDPNVIGQEHYDTARGVQYVLQRYKELKDIIAILGMDELSETDKQLVSRARKIQRFLSQPFFVAEVFTGASGKYVSLKDTIAGFKGILNGDYDHLPEQAFYMVGGIEEAIEKAKKL	PGPT0014296_4543	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014296-atpD-K02112	NA	NA
D1-35_02797	861	atpG	COG0224	ATP synthase gamma chain	ATGGCAGGCGCAAAAGAGATTCGCAGTAAGATTGCGAGCATCAAAAGCACGCAAAAGATTACCAGCGCCATGGAAAAAGTGGCGGTCAGTAAAATGCGCAAGGCACAAATGCGCATGGCTGCTAGCCGTCCTTACGCGGAGCGCATCCGCCAGGTGATTGGTCATCTGGCCAACGCCAACCCGGAATATCGCCACCCGTTCATGATCGACCGCGCCGTCAAGCGCGTCGGTTACGTTGTGGTGAGCAGTGACCGTGGTCTGTGCGGTGGCTTGAACACCAACCTGTTCAAGGCCCTGGTCAAGGACATGGCGGTAAACCGCGAACAAGGCGTCGAGATCGATCTGTGCGTGATTGGTAGCAAGGGTGCGGCATTCTTCCGCAACTTCGGCGGTAACGTCGTCGCCGCTATCAGCCACCTGGGTGAAGAGCCGTCGATCAATGACCTGATCGGCAGCGTCAAGGTGATGCTGGATGCTTACCTGGAAGGCCGGATTGACCGCCTGTCCGTGGTATCCAACAAGTTCATCAATACCATGACGCAACAGCCAACCGTGGAGCAATTGATCCCACTGGTGGCGACCCCGGAACAGGAACTCAAGCACCACTGGGACTACCTCTACGAACCCGATGCCAAGGAGCTGCTTGACGGCTTGATGGTCCGCTACGTGGAGTCGCAGGTGTACCAGGCGGTGGTCGAGAACAACGCAGCTGAACAAGCGGCGCGGATGATCGCGATGAAAAACGCTACCGACAACGCCGGTGATTTGATCAGCGATTTGCAGCTGATCTACAACAAGGCGCGTCAGGCTGCGATCACCCAAGAGATCTCGGAAATCGTCGGCGGCGCTGCCGCGGTTTAA	MAGAKEIRSKIASIKSTQKITSAMEKVAVSKMRKAQMRMAASRPYAERIRQVIGHLANANPEYRHPFMIDRAVKRVGYVVVSSDRGLCGGLNTNLFKALVKDMAVNREQGVEIDLCVIGSKGAAFFRNFGGNVVAAISHLGEEPSINDLIGSVKVMLDAYLEGRIDRLSVVSNKFINTMTQQPTVEQLIPLVATPEQELKHHWDYLYEPDAKELLDGLMVRYVESQVYQAVVENNAAEQAARMIAMKNATDNAGDLISDLQLIYNKARQAAITQEISEIVGGAAAV	PGPT0014297_4304	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014297-atpG-K02115	NA	NA
D1-35_02798	1545	atpA		ATP synthase subunit alpha	ATGCAGCAACTCAATCCTTCCGAAATAAGTGAAATTATCAAGGGCCGCATCGACAAGCTCGATGTGACCTCCCAAGCCCGTAACGAAGGCACTGTCGTCAGCGTATCTGACGGCATCGTGCGGATTCACGGTCTGGCCGACGTCATGTACGGCGAGATGATCGAGTTTCCGGGCGGCGTCTACGGTATGGCCCTCAACCTGGAGCAAGACTCTGTAGGTGCCGTGGTATTGGGCGCTTACACGACGCTGGCTGAAGGCATGAGCGCCAAGTGCACCGGCCGCATCCTCGAGGTTCCAGTCGGTAAGGAACTGCTGGGTCGCGTAGTCGACGCACTGGGTAATCCTGTTGACGGCAAAGGTCCGCTGAACAACACCGAGACCGATGCGGTCGAGAAAGTTGCTCCAGGCGTGATCTGGCGTAAGTCGGTAGACCAGCCTGTACAGACTGGCTACAAGGCTGTCGATGCCATGATCCCTGTCGGCCGTGGCCAGCGTGAGCTGATCATCGGTGACCGTCAGATCGGTAAAACCGCTCTGGCGATCGACGCGATCATCAACCAGAAGAACAGCGGCATTTTCTGCGTCTACGTCGCCATCGGTCAGAAGCAATCGACCATCGCCAACGTGGTTCGCAAGCTGGAAGAAAACGGCGCCCTGGCCAACACGATCATCGTGGCGGCCAGTGCTTCGGAATCTCCTGCGCTGCAGTTCCTGGCTCCGTACTCCGGTTGCACCATGGGCGAGTACTTCCGCGACCGCGGTGAAGACGCGCTGATCGTTTATGACGATCTGTCCAAGCAAGCAGTGGCTTACCGCCAGATTTCCCTGCTGCTGCGCCGTCCACCAGGCCGTGAAGCCTACCCAGGCGACGTGTTCTATCTCCACTCCCGTCTGTTGGAGCGCGCATCCCGCGTCTCGGAAGACTACGTAGAGAAGTTCACCAACGGCGCAGTGACTGGCAAGACCGGTTCCCTGACCGCACTGCCGATCATCGAAACCCAGGCTGGCGACGTTTCCGCGTTCGTTCCGACCAACGTGATCTCCATCACCGACGGTCAGATCTTCCTGGAATCGGCCATGTTCAACTCGGGCATCCGTCCTGCTGTGAACGCCGGTGTTTCGGTATCCCGTGTGGGTGGTGCCGCTCAGACCAAGATTATCAAGAAGCTCTCCGGTGGTATCCGTACCGCTCTGGCTCAGTACCGTGAACTGGCAGCATTCGCCCAGTTCGCTTCTGACCTGGACGAAGCGACCCGTAAGCAACTTGAGCATGGTCAGCGCGTTACCGAGCTGATGAAGCAGAAGCAATACGCTCCTATGTCGATCGCTGACATGGCGTTGTCGCTGTATGCCGCTGAACGTGGGTTCCTGACTGACGTCGAAATCGCCAAGGTCGGCAGCTTTGAACAAGCGCTGATTGCTTACTTCAACCGAGATCACGCCGATTTGATGGCGAAGATCAACGTGAAGGGTGACTTCAATGACGAAATCGACGCTGGCATGAAAGCCGGCATCGAGAAGTTCAAGGCCACCCAAACCTGGTAA	MQQLNPSEISEIIKGRIDKLDVTSQARNEGTVVSVSDGIVRIHGLADVMYGEMIEFPGGVYGMALNLEQDSVGAVVLGAYTTLAEGMSAKCTGRILEVPVGKELLGRVVDALGNPVDGKGPLNNTETDAVEKVAPGVIWRKSVDQPVQTGYKAVDAMIPVGRGQRELIIGDRQIGKTALAIDAIINQKNSGIFCVYVAIGQKQSTIANVVRKLEENGALANTIIVAASASESPALQFLAPYSGCTMGEYFRDRGEDALIVYDDLSKQAVAYRQISLLLRRPPGREAYPGDVFYLHSRLLERASRVSEDYVEKFTNGAVTGKTGSLTALPIIETQAGDVSAFVPTNVISITDGQIFLESAMFNSGIRPAVNAGVSVSRVGGAAQTKIIKKLSGGIRTALAQYRELAAFAQFASDLDEATRKQLEHGQRVTELMKQKQYAPMSIADMALSLYAAERGFLTDVEIAKVGSFEQALIAYFNRDHADLMAKINVKGDFNDEIDAGMKAGIEKFKATQTW	PGPT0014298_1932	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014298-atpA-K02111	NA	NA
D1-35_02799	537	atpH_1	COG0712	ATP synthase subunit delta	ATGGCAGAACTGACCACGTTGGCCCGACCTTACGCTAAGGCGGCCTTCGAGCACGCTCAGGCCCACCAGCAACTGGCCAATTGGTCAGCCATGCTCGGCCTGGCAGCAGCGGTGTCGCAAGACGACACCATGCAGCGCGTGCTCAAGGCCCCGCGACTGACGAGCGCAGAAAAGGCCGCCACGTTCATTGACGTGTGCGGCGACAAGTTCGATGCCAAGGCACAGAATTTCATTCACGTTGTAGCCGAAAACGACCGTCTCCCGCTTCTGCCGGAGATCGCCGCTCTTTTCGACCTGTACAAGGCCGAGCAAGAGAAATCGGTAGACGTGGAAGTGACCAGTGCTTTTGCATTGAACCAAGAACAGCAAGACAAACTCGCCAAGGTTCTCAGTGCACGACTCAACCGGGAAGTGCGCCTGCAAGTCGAGGAAGACAAATCCCTGATAGGGGGCGTTGTCATCCGCGCCGGCGACCTGGTTATCGATGGCTCGATTCGCGGCAAAATCGCGAAACTTGCCGAAGCATTGAAATCTTGA	MAELTTLARPYAKAAFEHAQAHQQLANWSAMLGLAAAVSQDDTMQRVLKAPRLTSAEKAATFIDVCGDKFDAKAQNFIHVVAENDRLPLLPEIAALFDLYKAEQEKSVDVEVTSAFALNQEQQDKLAKVLSARLNREVRLQVEEDKSLIGGVVIRAGDLVIDGSIRGKIAKLAEALKS	PGPT0014299_3500	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014299-atpH-K02113	NA	NA
D1-35_02800	471	atpF	COG0711	ATP synthase subunit b	GTGAACATTAATGCGACCCTGATTGGCCAGTCCGTTGCGTTCCTGATTTTTGTACTGTTCTGCATGAAGTTCGTATGGCCTCCGGTCATTGCGGCATTGCACGAACGTCAAAAGAAGATCGCTGATGGTCTGGACGCTGCCAGCCGAGCAGCTCGCGACCTGGAGTTGGCCCATGAGAAAGTGGGTCAGCAACTGCGCGAAGCGAAAGCTCAGGCAGCTGAAATCATCGAGCAAGCCAAGAAACGCGGTACGCAGATTGTCGACGAAGCCCGTGAACAGGCTCGCGTCGAAGCTGACCGTGTGAAGGCTCAGGCTCAAGCCGAGATCGAACAGGAACTCAACAGTGTCAAAGACGCGCTGCGTGCCCAAGTGGGTGCCCTGGCCGTTGGCGGTGCTTCGAAGATCCTGGGTGCCACAATCGATCAAAACGCGCACGCAGAGCTGGTAAACAAACTGGCTGCTGAAATCTAA	MNINATLIGQSVAFLIFVLFCMKFVWPPVIAALHERQKKIADGLDAASRAARDLELAHEKVGQQLREAKAQAAEIIEQAKKRGTQIVDEAREQARVEADRVKAQAQAEIEQELNSVKDALRAQVGALAVGGASKILGATIDQNAHAELVNKLAAEI	PGPT0014301_5220	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014301-atpF-K02109	NA	NA
D1-35_02801	258	atpH_2		ATP synthase subunit c	ATGGAAACTGTAGTTGGTCTAACCGCTATCGCTGTTGCACTGTTGATCGGCCTGGGCGCACTGGGTACCGCAATTGGTTTCGGCCTGCTGGGCGGCAAATTCCTGGAAGGCGCTGCGCGTCAACCGGAAATGGTTCCAATGCTGCAAGTGAAGATGTTCATCGTTGCCGGTCTGCTCGACGCCGTAACCATGATCGGTGTTGGTATCGCTCTGTTCTTCACCTTTGCGAACCCGTTCGTTGGTCAGATCGCTGGCTGA	METVVGLTAIAVALLIGLGALGTAIGFGLLGGKFLEGAARQPEMVPMLQVKMFIVAGLLDAVTMIGVGIALFFTFANPFVGQIAG	PGPT0014302_988	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014302-atpE-K02110	NA	NA
D1-35_02802	870	atpB	COG0356	ATP synthase subunit a	ATGGCAGAGACAACCGCTTCGGGCTATATCCAGCACCACTTGCAGAACCTGACCTTCGGTCAGCTACCCAATGGCAGCTGGGGCTTTGCTCACACTGCAGCAGAAGCTAAAGAAATGGGCTTCTGGGCCTTCCACGTCGATACCCTCGGCTGGTCGGTCGCGTTGGGTCTGATCTTCGTTCTTCTTTTCCGCATGGCGGCAAAGAAAGCGACTTCCGGTCAGCCTGGTGCACTGCAGAACTTCGTTGAAGTACTGGTAGAATTCGTCGATGGCAGCGTGAAAGACAGCTTCCATGGCCGTAGCCCGGTGATCGCACCGCTGGCACTGACCATCTTCGTCTGGGTGTTCCTGATGAACGCCATCGACCTGGTACCGGTCGACTGGATTCCTCAACTGGCCATCCTGATCTCTGGCGATGCCCATATCCCGTTCCGCGCCGTGTCGACCACCGACCCGAACGCGACCCTGGGCATGGCGTTCTCGGTGTTCGCACTGATCATTTTCTACAGCATCAAGGTCAAGGGCATCGGCGGTTTCATCGGCGAACTGACCCTGCACCCGTTCGGCAGCAAGAACATCCTTGTTCAGGCACTGCTGATCCCGGTGAACTTCCTTCTGGAATTCGTGACCCTGATCGCCAAGCCAATCTCTCTGGCCCTGCGTCTGTTCGGCAACATGTATGCCGGCGAGCTGGTGTTCATCCTGATCGCTGTGATGTTCGGCAGCGGCCTGCTCTGGCTCAGCGGCCTGGGCGTGGTGCTGCAATGGGCGTGGGCAGTGTTCCACATCCTGATCATCACCTTGCAGGCGTTCATCTTCATGATGCTGACCATCGTCTACCTGTCGATGGCGCACGAAGAAAACCATTAA	MAETTASGYIQHHLQNLTFGQLPNGSWGFAHTAAEAKEMGFWAFHVDTLGWSVALGLIFVLLFRMAAKKATSGQPGALQNFVEVLVEFVDGSVKDSFHGRSPVIAPLALTIFVWVFLMNAIDLVPVDWIPQLAILISGDAHIPFRAVSTTDPNATLGMAFSVFALIIFYSIKVKGIGGFIGELTLHPFGSKNILVQALLIPVNFLLEFVTLIAKPISLALRLFGNMYAGELVFILIAVMFGSGLLWLSGLGVVLQWAWAVFHILIITLQAFIFMMLTIVYLSMAHEENH	PGPT0014303_769	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014303-atpB-K02108	NA	NA
D1-35_02803	408			hypothetical protein	ATGGAAACACGCACGCCAAACCGCTTGCCGTTCCATCGTCTGGCTGTTTTCCCGGTGTTATTGACCCAGTTCGTCGTTGTACTGATCGCCGCGTTGGCGCTCTGGCAATGGAAAGGAGTCGTCGCCGGATACTCGGGTCTTTGCGGAGGCCTGATAGCCTTGCTTCCCAATATTTACTTCGCTCACAGGGCATTTCGGTTTTCCGGCGCCCGAGCAGCCCAAGCCATCGTCCGGTCTTTTTATGCCGGCGAGGCGGGGAAACTGATTTTGACGGCAGTGCTGTTTGCACTGACGTTCGCAGGTGTGAAGCCATTGGCGCCGCTGGCTGTATTCGGCGTGTTCCTGCTGACCCAGATGGTCAGCTGGTTCGCTCCCCTGCTAATGAGAACAAGACTTTCGAGACCTTAG	METRTPNRLPFHRLAVFPVLLTQFVVVLIAALALWQWKGVVAGYSGLCGGLIALLPNIYFAHRAFRFSGARAAQAIVRSFYAGEAGKLILTAVLFALTFAGVKPLAPLAVFGVFLLTQMVSWFAPLLMRTRLSRP	PGPT0030480_748	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-ATP_SYNTHASE_ACITIVTY,PGPT0030480-atpI-K02116
D1-35_02804	873	parB	COG1475	putative chromosome-partitioning protein ParB	ATGGCCGTCAAGAAACGAGGTCTCGGACGTGGACTGGATGCGCTGCTCAGCGGTCCGACTGTCAGTTCGCTTGAAGAACAGGCAGTCCAGGTCGATCAGCGCGAATTGCAGCATTTGCCGCTGGACCTGATCCAGCGTGGCAAATACCAGCCGCGTCGGGACATGGACCCGCAAGCGCTGGAAGAACTGGCCCAGTCGATCAAGACCCAAGGCGTGATGCAGCCGATAGTGGTCCGGCCGATTGCCAATGGGCGGTTCGAGATCATCGCCGGCGAACGCCGCTGGCGCGCGAGCCAGCAAGCCGGCCAGGAAACCATCCCGGCGATGGTCCGCGACGTACCGGATGAAACCGCGATCGCCATGGCGCTGATCGAGAACATCCAGCGCGAGGACCTCAATCCGATCGAAGAAGCGGTGGCCTTGCAGCGCTTGCAGCAGGAGTTCCAGCTGACTCAGCAACAGGTCGCCGAAGCGGTGGGCAAGTCCCGGGTGACCGTGGCCAACCTGCTGCGTTTGATCGCCTTGCCGGAAGTCATCAAGACCATGCTGTCCCACGGCGACCTGGAGATGGGCCATGCCCGGGCTTTGCTCGGTTTGCCGGAAAATCAACAAGTTGAAGGGGCGCGACATGTTGTCGCACGCGGCCTGACCGTGCGCCAAACCGAGGCACTGGTTCGTCAATGGCTGAGCGGCAAACCCGCCCCTGTCGAAGCACCAAAACCCGATCCGGACATCGCTCGCCTGGAGCAGCGCCTGGCCGAGCGCCTGGGCTCTGCGGTGCAGATTCGCCACGGAAAGAAGGGCAAAGGGCAACTGGTGATCGGTTATAACTCCCTCGATGAGCTGCAAGGTGTTCTTGCGCACATCCGCTGA	MAVKKRGLGRGLDALLSGPTVSSLEEQAVQVDQRELQHLPLDLIQRGKYQPRRDMDPQALEELAQSIKTQGVMQPIVVRPIANGRFEIIAGERRWRASQQAGQETIPAMVRDVPDETAIAMALIENIQREDLNPIEEAVALQRLQQEFQLTQQQVAEAVGKSRVTVANLLRLIALPEVIKTMLSHGDLEMGHARALLGLPENQQVEGARHVVARGLTVRQTEALVRQWLSGKPAPVEAPKPDPDIARLEQRLAERLGSAVQIRHGKKGKGQLVIGYNSLDELQGVLAHIR	PGPT0014815_6843	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497	NA	NA
D1-35_02805	798	parA		Chromosome partitioning protein ParA	ATGGCTAAGGTATTCGCGATAGCGAACCAGAAAGGTGGTGTGGGCAAGACCACCACCTGCATCAACCTCGCAGCATCCCTGGTCGCGACCAAGCGCCGGGTGCTGTTGATCGATCTCGATCCACAGGGCAACGCCACCATGGGCAGCGGTGTGGATAAACATGGCCTGGAAAACTCCATCTACGATGTACTCATCGGTGAGTGCGACCTGGGCCAGGCCATGCATTTCTCCGAGCATGGTGGTTATCAACTGCTGCCGGCCAACCGTGACCTGACGGCGGCAGAAGTGGTGCTGCTGGAAATGCAGATGAAGGAGAGCCGCCTGCGCAGCGCGTTGGCGCCGGTTCGTGAAAATTACGACTACATCCTGATCGACTGCCCACCGTCACTGTCGATGCTGACCCTCAATGCGTTGGTTGCCGCCGATGGGGTGATTATCCCCATGCAGTGTGAATACTTCGCCCTCGAGGGGTTGAGCGACCTTGTGGATAACATCAAGCGTATCGCTGAGCTGTTGAATCCAGAGCTGAAAGTCGAAGGCCTGTTGCGCACGATGTACGACCCGCGCCTGAGCCTGATGAACGACGTGTCGGCCCAGCTCAAGGAGCATTTCGGCGAGCAGCTCTACGACACGGTGATTCCGCGGAACATCCGCCTGGCCGAAGCGCCGAGCTATGGCATGCCGGCCCTGGCCTATGACAAACAATCGCGTGGCGCGCTGGCCTACCTGGCCCTGGCGGGCGAGATGGTTCGCCGTCAACGCCGCCAGCCACGCATCGCTGCAGCCCAGCCAACTTAA	MAKVFAIANQKGGVGKTTTCINLAASLVATKRRVLLIDLDPQGNATMGSGVDKHGLENSIYDVLIGECDLGQAMHFSEHGGYQLLPANRDLTAAEVVLLEMQMKESRLRSALAPVRENYDYILIDCPPSLSMLTLNALVAADGVIIPMQCEYFALEGLSDLVDNIKRIAELLNPELKVEGLLRTMYDPRLSLMNDVSAQLKEHFGEQLYDTVIPRNIRLAEAPSYGMPALAYDKQSRGALAYLALAGEMVRRQRRQPRIAAAQPT				NA	NA	NA	NA	NA
D1-35_02806	645	rsmG	COG0357	Ribosomal RNA small subunit methyltransferase G	TTGAGTTCGATGGTCACCTCGCAACACGCTGAAGAATTATCCACAGGTGCCCGTCAGCTCGGCGTCAGCCTCACCGAAGCCCAGCACGCGCAGTTGCTGGGTTACCTGGCGTTGTTGATCAAATGGAACAAGGCCTACAACCTGACCGCCGTGCGCGATCCGGATGAAATGGTCTCGCGACACTTGCTCGACAGTCTCAGCGTGATGTCTTTCATCGAAGACGGTCGCTGGCTCGACGTCGGTAGCGGCGGTGGTATGCCTGGTATTCCGCTGGCGATCCTGTTTCCGGGTTCGCAAGTGACCTGTCTGGACAGCAACGGCAAGAAAACCCGCTTCCTGACCCAGGTCAAACTCGAACTGAAACTGGATAACCTGCAAGTTATCCACAGCCGCGTCGAAGCGTTCCAGCCTGCAGAGCCTTTCAACGGAATCATCTCCCGGGCCTTCAGCAGTATGGAGAACTTCAGCAACTGGACGCGCCACCTGGGCGACGGCGATACACGCTGGCTGGCAATGAAGGGCGTTCATCCGGCCGATGAGCTGGTAGCATTGCCGGCAGACTTCCACCTCGATAGCGAACACGCCTTGGCCGTACCCGGTTGCCAAGGTCAACGCCATCTGCTGATACTGCGCCGCACGGCATGA	MSSMVTSQHAEELSTGARQLGVSLTEAQHAQLLGYLALLIKWNKAYNLTAVRDPDEMVSRHLLDSLSVMSFIEDGRWLDVGSGGGMPGIPLAILFPGSQVTCLDSNGKKTRFLTQVKLELKLDNLQVIHSRVEAFQPAEPFNGIISRAFSSMENFSNWTRHLGDGDTRWLAMKGVHPADELVALPADFHLDSEHALAVPGCQGQRHLLILRRTA				NA	NA	NA	NA	NA
D1-35_02807	1899	mnmG	COG0445	tRNA uridine 5-carboxymethylaminomethyl modification enzyme MnmG	GTGGATTTCCCTTCCCGTTTTGAAGTGATCGTCATCGGCGGCGGTCATGCCGGTACCGAGGCAGCACTTGCATCAGCACGCATGGGGGCAAAAACCCTGTTGCTGACGCATAACGTGGAGACCCTCGGCGCCATGAGCTGCAACCCGGCCATTGGTGGCATCGGCAAAAGCCACCTGGTCAAGGAAATCGATGCCCTCGGCGGCGCGATGGCCATGGCCACTGACAAAGGTGGTATCCAGTTTCGCGTGTTGAACAGCCGCAAAGGTCCAGCGGTGCGTGCCACTCGCGCCCAGGCAGACCGAATCCTGTACAAGGCTGCTGTCCGCGAAATTCTGGAAAACCAGCCGAACCTGTGGATATTTCAGCAAGCAGCTGACGATCTGATTGTCGAGCAGGACCAGGTACGCGGTGTCATCACGCAAATGGGCCTGCGGTTCTTCGCCGATTCCGTGGTACTGACCACCGGTACCTTCCTCGGCGGACTTATCCACATCGGTTTGCAGAACTTTTCCGGCGGTCGCGCTGGTGACCCGCCCTCAATCGCCCTGGCTCAACGCCTGCGTGAATTGCCGCTGCGCGTTGGTCGGCTGAAAACCGGTACGCCACCGCGTATCGACGGCAAGTCCGTGGACTTCTCGGTCATGACCGAGCAGCCTGGCGATACGCCGATCCCGGTGATGTCGTTCATGGGCAACAAGGAACAGCATCCACGGCAAGTCAGTTGCTGGATCACCCACACCAATGCCCGCACCCACGAAATCATTGCAGCGAACCTCGATCGTTCGCCGATGTATTCCGCTGCCGGTGAAATCGAAGGTGTCGGCCCGCGCTATTGCCCGTCGATCGAAGACAAGATCCATCGCTTTGCCGACAAGGAAAGCCATCAGGTCTTCATCGAGCCCGAAGGCCTGACGACCCATGAGCTGTATCCGAACGGGATCTCCACCTCGCTGCCGTTCGATGTGCAGTTGCAGATCGTCCAATCGATCCGTGGCATGGAGAACGCTCACATCGTGCGTCCGGGTTATGCGATCGAGTACGACTACTTCGATCCGCGCGATCTGAAGTACAGCCTGGAAACCAAGGTTATCGGCGGTCTGTTCTTCGCCGGGCAGATCAACGGCACCACCGGTTACGAAGAGGCGGGTGCCCAAGGATTGTTGGCCGGAGCCAACGCGGCATTGCGCGCCCAGGGCAAAGACAGCTGGTGCCCGCGTCGCGATGAGGCGTATATCGGTGTGCTGGTGGACGACCTGATTACGCTGGGTACCCAGGAACCGTATCGGATGTTCACGTCCCGCGCCGAATATCGCCTGATCCTGCGTGAGGACAACGCCGACCTGCGCCTGACCGAGAAAGGTCGCGAGCTGGGGCTGGTGGATGACGTGCGTTGGGCTGCGTTCTGCAAGAAACGCGAGAGTATCGAGCTGGAAGAGCAGCGCCTGAAGAGCACCTGGGTTCGTCCCGGTACGGAGCAGGGCGATGCCATCGCGGCGAAATTCGGCACTCCGCTGACGCACGAATACAATCTGCTCAACCTGTTGAGCCGGCCGGAAATCGATTACGTCGGGCTGGTGGAGGTCACTGGCCAGGGCGCGGAAGATCCGCAGGTAGCCGAACAGGTCGAGATCAAGACCAAATACGCCGGTTACATCGATCGTCAACAGGACGAAATTGCCCGTCTGCGCGCCAGTGAAGACACCAGGCTGCCTGTGGATATCGACTACACGAACATTTCGGGTCTCTCGAAAGAAATCCAGAGCAAGCTCGGTGCAACGCGTCCCGAGACCCTCGGCCAGGCGTCGCGCATCCCCGGCGTGACCCCGGCGGCGATTTCGCTGTTGATGATTCATTTGAAAAAACGCGGCGCGGGCCGCCAGTTGGAGCAAAGCGCTTGA	MDFPSRFEVIVIGGGHAGTEAALASARMGAKTLLLTHNVETLGAMSCNPAIGGIGKSHLVKEIDALGGAMAMATDKGGIQFRVLNSRKGPAVRATRAQADRILYKAAVREILENQPNLWIFQQAADDLIVEQDQVRGVITQMGLRFFADSVVLTTGTFLGGLIHIGLQNFSGGRAGDPPSIALAQRLRELPLRVGRLKTGTPPRIDGKSVDFSVMTEQPGDTPIPVMSFMGNKEQHPRQVSCWITHTNARTHEIIAANLDRSPMYSAAGEIEGVGPRYCPSIEDKIHRFADKESHQVFIEPEGLTTHELYPNGISTSLPFDVQLQIVQSIRGMENAHIVRPGYAIEYDYFDPRDLKYSLETKVIGGLFFAGQINGTTGYEEAGAQGLLAGANAALRAQGKDSWCPRRDEAYIGVLVDDLITLGTQEPYRMFTSRAEYRLILREDNADLRLTEKGRELGLVDDVRWAAFCKKRESIELEEQRLKSTWVRPGTEQGDAIAAKFGTPLTHEYNLLNLLSRPEIDYVGLVEVTGQGAEDPQVAEQVEIKTKYAGYIDRQQDEIARLRASEDTRLPVDIDYTNISGLSKEIQSKLGATRPETLGQASRIPGVTPAAISLLMIHLKKRGAGRQLEQSA				NA	NA	NA	NA	NA
D1-35_02808	1371	mnmE	COG0486	tRNA modification GTPase MnmE	ATGAGCGCACCGCGTGAAACCATCGCCGCCGTCGCCACCGCCCAAGGTCGCGGCGGGGTCGGCATCGTCCGTATTTCGGGGCCTTTGGCTGGCGTTGCGGCCAAGGCTATCAGCGGCCGCGACCTGAAACCGCGCTTCGCTCACTACGGACCTTTTCTAGACGCTGACAAACATGTCCTCGATGAAGGCCTGGCCTTGTATTTCCCTGAGCCGAACTCATTCACCGGCGAGGATGTGCTGGAGCTGCAGGGGCATGGCGGCCCCATCGTCCTGGACATGCTGCTCCAGCGTTGCCTCGAGTTGGGTTGCCGCCTGGCCCGGCCGGGTGAGTTCAGCGAGCGGGCCTTTCTTAATGACAAACTCGACCTGGCCCAGGCCGAGGCGATCGCCGATCTGATCGAAGCCAGTTCTGCGCAGGCTGCACGCAATGCGTTACGGTCATTACAGGGCGCGTTTTCACAGCGTGTGCATAACCTTACCGAGCAACTGATCGGTCTGCGGATCTACGTAGAGGCGGCCATCGATTTCCCCGAGGAGGAAATCGATTTTCTCGCCGACGGCCACGTGTTGAGCATGCTCGACAAGGTGCGCGATGAATTATCCACAGTCTTGAGAGAGGCTGGGCAGGGGGCTTTGTTGCGCGACGGTATGACTGTGGTCATTGCCGGCCGCCCCAACGCTGGTAAGTCCAGCCTCTTGAACGCCCTGGCCGGGCGCGAGGCTGCCATCGTCACCGAGATTGCCGGCACCACCCGGGACATCCTGCGTGAACATATCCACATCGACGGCATGCCGCTGCACGTCGTGGACACCGCTGGCTTGCGCGATACCAATGACCAGGTCGAGAAAATCGGCGTGGAGCGGGCCCTCAAGGCTATTGGCGAGGCTGATCGCATATTGTTGGTGGTGGATGCCACTGCGCCGGAAGCAGGCGATCCTTTCGCTCTGTGGCCTGAATTCCTGGAGGTTCGTCCGGATCCGGCAAAAGTCACCTTGATTCGCAACAAGGCAGACCTGACGGGCGAAGCGATAGCCCTCGAAGTGAGCGACGATGGCCACGTCACTATCAGCCTGAGCGCGAAGGCGGCCGGTGAAGGCCTGGAATTACTGCGCGATCATCTCAAGGCCTGCATGGGCTACGAGCAGACATCGGAAAGCAGCTTCAGCGCTCGCCGCCGGCATCTTGAAGCGTTGCGTCACGCCAGCGCTGCCCTGGAGCACGGTCGTGCGCAGCTGACCCTGGCAGGCGCCGGTGAGTTGCTGGCCGAAGACCTGCGCCAAGCGCAGCATTCCCTGGGTGAAATCACCGGAGCCTTCAGTTCCGATGACTTGCTGGGGCGGATCTTCTCCAGCTTCTGCATCGGCAAATAA	MSAPRETIAAVATAQGRGGVGIVRISGPLAGVAAKAISGRDLKPRFAHYGPFLDADKHVLDEGLALYFPEPNSFTGEDVLELQGHGGPIVLDMLLQRCLELGCRLARPGEFSERAFLNDKLDLAQAEAIADLIEASSAQAARNALRSLQGAFSQRVHNLTEQLIGLRIYVEAAIDFPEEEIDFLADGHVLSMLDKVRDELSTVLREAGQGALLRDGMTVVIAGRPNAGKSSLLNALAGREAAIVTEIAGTTRDILREHIHIDGMPLHVVDTAGLRDTNDQVEKIGVERALKAIGEADRILLVVDATAPEAGDPFALWPEFLEVRPDPAKVTLIRNKADLTGEAIALEVSDDGHVTISLSAKAAGEGLELLRDHLKACMGYEQTSESSFSARRRHLEALRHASAALEHGRAQLTLAGAGELLAEDLRQAQHSLGEITGAFSSDDLLGRIFSSFCIGK				NA	NA	NA	NA	NA
D1-35_02809	1683	yidC		Membrane protein insertase YidC	ATGGATATCAAACGCACGATCCTGATCGTCGCCCTGGCAATCGTGTCCTATGTCATGGTCCTTAAATGGAACCAGGACTATGGCCAGGCTGCCCTGCCGACTCAGAATGTTGCAGCCAGCAATACCGCACCGAGTCTGCCGGATACAACAACTGGCAATAACACCGCCAGCAATGACGATGTCCCGCGCGCGGCAAGCGACACCAGCGCCCCAGCCGAAGCCCCTGTGGCGGCCAGCAAGGACCTGATTCAGATCAAGACGGATGTGCTCGAGCTGGCAATCGATCCACAAGGTGGTGATGTCGCTCAATTGAAGCTGCCGCTGTATCCGCGTCGCCAGGATCACCCGGAAATCCCGTTCCAGTTGTTCGACAACGGTAACGAGCGGACCTATCTGGCTCAAAGTGGCCTGATTGGTGCCAATGGCCCGGATGCCAATCCGGCCGGTCGTCCGGTTTATTCCGCCGAGAAGAAGGTCTATCAGCTGGCTGACGGCCAGGACCAACTGGTCGTCGACCTGAAGTTCAGCAAGGACGGCGTCAATTACATCAAGCGTTTCACCCTGAAACGCGGCCTGTATGACGTGACTGTTTCCTATCTGGTAGACAACCAGAGCGCTCAGCCCTGGTCGGGTGCGATGTTCGCGCAGTTGAAGCGCGACGCCAGTGATGATCCTTCGTCCAGCACCGCCACCGGTACCGCGACTTACCTGGGCGCTGCCCTGTGGACAAGTTCGGAGCCGTACAAAAAAGTGTCCATGAAGGACATGGACAAGGCTCAGCTGAAAGAAACCGTTCAGGGTGGCTGGGTTGCCTGGTTGCAACACTACTTCGTAACGGCATGGATTCCGCAGAAGGGCGAAAACAATGTCGTCCAGACGCGCAAGGACAGTAAAGGCAACTACATCGTCGGCTATACCGGCCCTGCATTGACTGCAGCGCCAGGTGCAAAAGTCGAGACCAGCGCCATTCTGTATGCCGGTCCGAAAAGCCAAGCCGTGCTGAAGCAGTTGTCCCCTGGCCTGGAATTGACCGTCGACTACGGTTTCCTGTGGTTCATTGCCCAGCCAATCTTCTGGTTGCTGCAACATATCCACAGCATCGTCGGCAACTGGGGCTGGTCGATCATCTTCCTCACCATGCTGATCAAGGGTATTTTCTTCCCATTGTCGGCGGCCAGCTACAAATCCATGGCGCGCATGCGTGCAGTGGCACCGAAACTGGCTGCCCTGAAAGAACAGCATGGCGATGACCGGCAGAAAATGTCCCAGGCCATGATGGAGCTGTACAAGAAAGAGAAGATCAACCCGCTGGGTGGTTGCTTGCCGATTCTTGTACAGATGCCGGTGTTCCTCGCGCTTTACTGGGTTCTGCTGGAAAGCGTGGAGATGCGCCAGGCACCGTTCATGCTGTGGATCACCGACCTGTCGATCAAGGATCCGTTCTTCATCCTGCCGATCATCATGGGCGCCACCATGTTCATCCAGCAGCAGCTGAACCCGACACCTCCGGACCCGATGCAGGCGAAGGTCATGAAAATGATGCCGATCATCTTCACCTTCTTCTTCCTGTGGTTCCCGGCCGGTCTTGTGCTGTACTGGGTTGTGAACAACGTGTTGTCCATCACTCAGCAGTGGTACATCACGCGTAAGATCGAAGCGGCCACGAAAAAAGCCGAGGCGTAA	MDIKRTILIVALAIVSYVMVLKWNQDYGQAALPTQNVAASNTAPSLPDTTTGNNTASNDDVPRAASDTSAPAEAPVAASKDLIQIKTDVLELAIDPQGGDVAQLKLPLYPRRQDHPEIPFQLFDNGNERTYLAQSGLIGANGPDANPAGRPVYSAEKKVYQLADGQDQLVVDLKFSKDGVNYIKRFTLKRGLYDVTVSYLVDNQSAQPWSGAMFAQLKRDASDDPSSSTATGTATYLGAALWTSSEPYKKVSMKDMDKAQLKETVQGGWVAWLQHYFVTAWIPQKGENNVVQTRKDSKGNYIVGYTGPALTAAPGAKVETSAILYAGPKSQAVLKQLSPGLELTVDYGFLWFIAQPIFWLLQHIHSIVGNWGWSIIFLTMLIKGIFFPLSAASYKSMARMRAVAPKLAALKEQHGDDRQKMSQAMMELYKKEKINPLGGCLPILVQMPVFLALYWVLLESVEMRQAPFMLWITDLSIKDPFFILPIIMGATMFIQQQLNPTPPDPMQAKVMKMMPIIFTFFFLWFPAGLVLYWVVNNVLSITQQWYITRKIEAATKKAEA	PGPT0024530_1728	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
D1-35_02810	471	rnpA		Ribonuclease P protein component	GTGCCGTCCTGTCGCGTCGTCGCGCCAAAGGTCGTGCGCGTCTGGCAGTTTGATAATCCGGCACTGGAGGTGAGTCAGGACTTCAGTCGGGAAAAGCGTCTGCTTACACCCCGGCATTTCAAGGCAGTCTTTGACTCCCCTACCGGCAAGGTTCCGGGGAAAAATCTCCTGCTCCTTGCGCGCAGCAACGATCTCGATCACCCCCGCCTTGGGCTGGTTATCGGGAAAAAGAGCGTCAAGCTCTCTGTTCAGCGCAATCGCCTCAAACGTCTGATGCGCGAATCGTTTCGCCTGAACCAGGATTCACTGGTCGGCTGGGACATTGTTATCGTCGCGCGCAAAGGTTTGGGTGACGTAGAAAACCCCGAATTGATTCAGCATTTCGGCAAGCTCTGGAAACGCCTGGCTCGTAACAAGCCAGCACCGGTAGCCAACACCGAGACTGTAGGGGTAGACAGCACCGATGCGTAA	MPSCRVVAPKVVRVWQFDNPALEVSQDFSREKRLLTPRHFKAVFDSPTGKVPGKNLLLLARSNDLDHPRLGLVIGKKSVKLSVQRNRLKRLMRESFRLNQDSLVGWDIVIVARKGLGDVENPELIQHFGKLWKRLARNKPAPVANTETVGVDSTDA				NA	NA	NA	NA	NA
D1-35_02811	1527	dnaA	COG0593	Chromosomal replication initiator protein DnaA	GTGTCAGTGGAACTTTGGCAGCAGTGCGTTGAGCTTTTGCGCGATGAGTTGCCTGCCCAACAATTCAACACTTGGATCCGTCCACTACAGGTCGAAGCCGAAGGCGACGAGTTGCGCGTCTATGCGCCGAACCGTTTCGTTCTCGACTGGGTCAACGAAAAGTACCTTGGCCGGGTCATGGAACTGCTCGATGAGCATGGCAATGGCATGGCGCCTGCGCTGTCCCTGTTAATAGGCAGCAAGCGCAGCTCGGCACCGCGCGCGGCACCCAATGCGCCGCTGGCCGCTGCTGCGTCACAGGCGCAACAGGCCACTACGCCACCGACCAACAACCATGCCGCACCGACGCCCGCGCCTGCCCCGGGCAAACGCAACGCTCAGAAGGTCGCCGAAGTCAGCGAGGAGCCCTCCCGGGACAGCTTCGACCCAATGGCCGGTGCGAGCTCCCAGCAGGCACCGGTGCGCGCTGAACAACGGACGGTCCAGGTCGAAGGTGCGCTCAAGCACACCAGCTACCTGAACCGGACCTTTACCTTCGAGAACTTCGTCGAAGGCAAGTCCAACCAACTGGCCCGGGCTGCAGCTTGGCAGGTGGCGGACAATCCCAAGCACGGCTACAACCCGCTCTTCCTTTATGGCGGCGTCGGCCTGGGTAAGACCCACCTGATGCACGCGGTGGGCAACCATCTATTAAAGAAGAATCCGAATGCCAAGGTCGTCTACCTGCATTCCGAGCGTTTCGTGGCTGACATGGTCAAGGCGTTGCAACTGAACGCCATCAACGAGTTCAAGCGTTTCTACCGTTCGGTGGACGCCTTGCTGATCGACGACATCCAATTTTTCGCTCGCAAGGAACGGTCTCAGGAAGAGTTTTTCCACACCTTCAACGCATTGCTTGAAGGTGGGCAGCAGGTCATTCTTACCAGCGACCGCTACCCGAAAGAGATCGAAGGCCTCGAAGAACGCCTCAAGTCACGTTTCGGTTGGGGCCTGACGGTGGCCGTAGAGCCGCCGGAACTGGAAACCCGCGTCGCGATCCTGATGAAGAAGGCCGACCAGGCCAAGGTCGAGCTGCCTCACGATGCAGCGTTCTTCATTGCCCAGCGTATTCGCTCGAACGTGCGTGAGCTGGAAGGTGCACTGAAGCGGGTGATTGCCCACTCTCACTTCATGGGTCGCGATATCACCATCGAGCTGATCCGCGAATCCTTGAAGGACTTGCTGGCGCTGCAGGACAAGCTTGTCTCTGTGGATAACATTCAGCGCACCGTTGCTGAATACTACAAAATCAAGATTTCCGATCTGCTTTCCAAACGCCGTTCGCGTTCGGTGGCACGACCGCGCCAGGTGGCCATGGCCTTGTCCAAGGAGCTGACCAACCACAGCCTGCCGGAAATCGGCGATGTGTTTGGCGGACGCGACCATACCACCGTGTTGCACGCCTGCCGCAAGATCAACGAACTTAAGGAATCCGACGCGGACATCCGCGAGGACTACAAGAACCTGCTGCGTACACTGACCACTTGA	MSVELWQQCVELLRDELPAQQFNTWIRPLQVEAEGDELRVYAPNRFVLDWVNEKYLGRVMELLDEHGNGMAPALSLLIGSKRSSAPRAAPNAPLAAAASQAQQATTPPTNNHAAPTPAPAPGKRNAQKVAEVSEEPSRDSFDPMAGASSQQAPVRAEQRTVQVEGALKHTSYLNRTFTFENFVEGKSNQLARAAAWQVADNPKHGYNPLFLYGGVGLGKTHLMHAVGNHLLKKNPNAKVVYLHSERFVADMVKALQLNAINEFKRFYRSVDALLIDDIQFFARKERSQEEFFHTFNALLEGGQQVILTSDRYPKEIEGLEERLKSRFGWGLTVAVEPPELETRVAILMKKADQAKVELPHDAAFFIAQRIRSNVRELEGALKRVIAHSHFMGRDITIELIRESLKDLLALQDKLVSVDNIQRTVAEYYKIKISDLLSKRRSRSVARPRQVAMALSKELTNHSLPEIGDVFGGRDHTTVLHACRKINELKESDADIREDYKNLLRTLTT	PGPT0014800_839	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0014800-dnaA-K02313	NA	NA
D1-35_02812	1104	dnaN	COG0592	Beta sliding clamp	ATGCATTTCACCATTCAACGCGAAGCCCTGTTGAAACCCCTGCAACTGGTCGCGGGCGTCGTCGAACGCCGCCAGACCTTGCCGGTACTTTCCAACGTGCTGCTGGTTGTCGAAGGCCAGCAATTGTCGCTGACCGGTACCGACCTGGAAGTCGAGCTGGTCGGTCGTGTCCAACTTGAAGAGCCGGCCGATCCGGGTTCCATCACCGTGCCGGCGCGCAAGCTGATGGACATCTGCAAGAGCCTGCCAAACGACGCGCTGATCGACATCAAGGTCGATGAGCAGAAGCTCGTGGTCAAGGCCGGTCGTAGCCGCTTCACCTTGTCGACCCTGCCAGCCAACGATTTCCCGACGGTGGAAGAAGGCCCGGGCTCGCTGACCTGCAGCCTGGAACAAAGCAAGCTGCGTCGCCTGATCGAGCGGACCAGTTTCGCCATGGCCCAGCAGGACGTGCGTTATTACCTCAACGGCATGCTGCTGGAGGTCTCGGCCGGCATCATCCGCGCCGTGGCCACTGATGGTCACCGCCTGGCGATGTGCTCCATGCAAGCCGATATCGGCCAGCCGGATCGTCACCAGGTCATCGTGCCGCGCAAAGGCATCCTGGAACTGGCGCGCCTGCTGACCGAGCCGGATGGCAACGTCAGCATCGTCCTGGGCCAGCATCACATTCGCGCGACCACCGGCGAGTTCACCTTCACTTCGAAACTGGTGGACGGCAAATTCCCTGACTACGAGCGCGTCCTGCCCAAAGGTGGCGACAAGCTGGTACTTGGCGATCGTCAGGCGCTGCGCGAAGCCTTCAGCCGCACCGCGATCCTGTCCAACGAGAAGTATCGCGGCATTCGTCTGCAACTGGCCAACGGTCAGCTGAAGATCCAGGCGAACAACCCGGAGCAGGAAGAAGCGGAAGAAGAAGTAGGCGTGGAGTACAACGGTAGCTCCCTGGAAATCGGCTTCAACGTCAGCTATCTGCTGGACGTATTGGGTGTGATGACCACCGAGCAGGTACGTCTGATCCTGTCCGACTCCAACAGCAGTGCACTGGTGCAGGAATCCGACAACGACGATTCGGCTTACGTTGTCATGCCGATGCGTCTGTAA	MHFTIQREALLKPLQLVAGVVERRQTLPVLSNVLLVVEGQQLSLTGTDLEVELVGRVQLEEPADPGSITVPARKLMDICKSLPNDALIDIKVDEQKLVVKAGRSRFTLSTLPANDFPTVEEGPGSLTCSLEQSKLRRLIERTSFAMAQQDVRYYLNGMLLEVSAGIIRAVATDGHRLAMCSMQADIGQPDRHQVIVPRKGILELARLLTEPDGNVSIVLGQHHIRATTGEFTFTSKLVDGKFPDYERVLPKGGDKLVLGDRQALREAFSRTAILSNEKYRGIRLQLANGQLKIQANNPEQEEAEEEVGVEYNGSSLEIGFNVSYLLDVLGVMTTEQVRLILSDSNSSALVQESDNDDSAYVVMPMRL				NA	NA	NA	NA	NA
D1-35_02813	1104	recF	COG1195	DNA replication and repair protein RecF	ATGTCCTTAAGTCGCGTCTCGGTCACCGCGGTGCGCAATCTGCACCCGGTGACCTTCTCCCCCTCCCCCCGCATCAATATCCTTTACGGCGCCAACGGCAGCGGCAAGACCAGCGTCCTCGAAGCCGTGCATCTGCTTGGGCTTGCCCGTTCGTTTCGCAGCACCCGCCTATTGCCGGTCATTCAGTACGACCAACTGGCATGCACGGTGTTTGGCCAGGTTGAACTGGCTGAAGGTGGTCACAGCGCATTGGGGATTTCACGGGACCGGCAGGGCGAGTTCCAGATTCGCATCGACGGGCAAAACGCCCGTAGCGCAGCACAACTGGCGGAAATCCTCCCGTTGCAGCTGATCAATCCGGACAGCTTTCGGTTGTTGGAAGGGGCGCCGAAGATTCGCCGGCAGTTTCTCGACTGGGGTGTGTTCCACGTGGAACCACGTTTCATGGCCACGTGGCAGCGCTTGCAGAAGGCGCTGCGCCAGCGAAACTCTTGGCTGCGACATGGTACACTTGACGCCGTTTCGCAGGCGGTTTGGGACAGAGAGCTGTGCCAAGCCAGCGCCGAAATCGATGAATACCGCCGCGCTTATATAAAAGCCTTGAAACCGGTCTTCGAACAGACCTTGAGCGAACTGGTTGAGCTTGAGGGACTGACGCTCAGCTATTACCGAGGCTGGGACAAGGACCGGGAGTTGAGCGCCGTGCTGGCTGGGTCACTGCAGCGTGATCAGCAGATGGGACATACCCAGGCCGGACCACAACGTGCTGACTTGCGTCTCAGACTGGGCGCGCACAATGCAGCGGACATATTGTCCCGCGGTCAGCAGAAGTTGGTGGTGTGCGCCTTGCGTATCGCCCAAGGTCATTTGGTCAGCCAGGCCCGTCGCGGTCAGTGTATTTATCTGGTGGATGACTTGCCGTCCGAACTGGACGAGACCCACCGCCGTGCGCTTTGCCGCTTGCTGGAAGACTTACGCTGCCAGGTGTTCATCACCTGTGTAGACCACGAATTATTGAGGGAAGGCTGGCAGACGGAAACGCCAGTCGCTCTGTTCCACGTGGAACAGGGCCGTATCACCCAGACCCACGACCATCGGGAGTGA	MSLSRVSVTAVRNLHPVTFSPSPRINILYGANGSGKTSVLEAVHLLGLARSFRSTRLLPVIQYDQLACTVFGQVELAEGGHSALGISRDRQGEFQIRIDGQNARSAAQLAEILPLQLINPDSFRLLEGAPKIRRQFLDWGVFHVEPRFMATWQRLQKALRQRNSWLRHGTLDAVSQAVWDRELCQASAEIDEYRRAYIKALKPVFEQTLSELVELEGLTLSYYRGWDKDRELSAVLAGSLQRDQQMGHTQAGPQRADLRLRLGAHNAADILSRGQQKLVVCALRIAQGHLVSQARRGQCIYLVDDLPSELDETHRRALCRLLEDLRCQVFITCVDHELLREGWQTETPVALFHVEQGRITQTHDHRE				NA	NA	NA	NA	NA
D1-35_02814	2418	gyrB	COG0187	DNA gyrase subunit B	TTGAGCGAAGAAAACACGTACGACTCAACGAGCATTAAAGTGCTTAAAGGCCTGGATGCCGTACGCAAACGTCCCGGTATGTACATTGGTGACACCGACGATGGCAGCGGTCTGCACCACATGGTGTTCGAGGTGGTCGACAACTCCATCGACGAAGCCCTTGCCGGTCATTGCGACGACATCAGCATCATTATCCACCCGGATGAGTCCATCACCGTTCGCGACAACGGCCGTGGCATCCCGGTAGACGTACACAAAGAAGAAGGCGTTTCCGCGGCTGAGGTCATCATGACCGTATTGCACGCCGGCGGTAAGTTCGACGACAACTCCTACAAAGTATCCGGCGGTCTGCACGGTGTAGGTGTGTCGGTTGTGAACGCGCTGTCCGAGAAGCTTGTTCTCACTGTTCGCCGCAGCGGCAAGATCTGGGAACAGACCTACGTCCACGGCGTGCCTCAAGCGCCGATGGCAATCGTTGGCGACAGTGAGTCCACGGGGACCCAGATTCACTTCAAGGCCTCCAGCGAAACCTTCAAGAACATCCACTTCAGCTGGGATATCCTGGCCAAGCGGATTCGTGAGCTGTCCTTCCTGAACTCCGGTGTCGGCATCGTCCTCAAGGACGAGCGCAGCGGCAAGGAAGAGCTGTTCAAGTACGAAGGCGGCCTGCGGGCATTCGTCGAGTACCTGAACACCAACAAGACCCCGGTCAACCAGGTGTTCCACTTCAACGTCCAGCGTGAAGACGGCATCGGCGTGGAAATCGCCCTGCAGTGGAACGACAGCTTCAACGAGAACCTGTTGTGCTTTACCAACAACATTCCGCAGCGCGATGGTGGTACTCACCTGGTGGGCTTCCGTTCAGCGCTGACGCGTAACCTGAACAACTACATCGAACAGGAAGGCCTGGCGAAGAAGCACAAGGTCGCCACCACCGGTGACGACGCCCGCGAAGGTCTGACCGCGATCATCTCGGTGAAGGTGCCGGATCCGAAGTTCAGTTCCCAGACCAAGGACAAGCTGGTGTCTTCCGAAGTGAAGACCGCCGTCGAACAGGAGATGGGCAAGTACTTCTCCGACTTCCTGCTCGAGAACCCGAACGAAGCCAAGCTGGTGGTCGGCAAGATGATCGACGCCGCCCGTGCCCGTGAAGCGGCGCGCAAGGCCCGCGAGATGACTCGCCGCAAAGGCGCGCTGGACATCGCCGGCCTGCCAGGAAAACTGGCCGACTGCCAGGAGAAGGACCCTGCCCTGTCCGAGCTGTACCTGGTGGAAGGTGACTCTGCTGGCGGTTCCGCCAAGCAGGGCCGCAACCGTCGTACCCAGGCGATCCTGCCGCTCAAAGGCAAGATCCTCAACGTCGAAAAGGCGCGCTTCGACAAGATGATCTCTTCCCAGGAGGTCGGTACGCTGATCACCGCGCTGGGCTGTGGCATCGGCCGCGAAGAGTACAACATCGACAAGCTGCGCTATCACAACATCATCATCATGACCGACGCCGACGTCGACGGTTCGCACATCCGCACCTTGCTGCTGACGTTCTTCTTCCGTCAGTTGCCGGAGCTGATCGAGCGCGGCTACATCTATATCGCCCAGCCGCCTTTGTACAAGGTCAAGAAAGGCAAGCAAGAGCAATACATCAAAGACGACGACGCCATGGAAGAGTACATGACGCAGTCGGCCCTGGAAGACGCGAGCCTGCACCTGAACGAAGATGCCCCAGGCATTTCCGGTGAAGCCCTTGAGCGCCTGGTGAATGACTTCCGCCTGGTGATGAAGACCCTCAAGCGCCTGTCGCGCCTGTACCCACAGGAACTGACCGAGCACTTCATCTACCTGCCGGCCGTCAGCCTCGAGCAGCTGTCCGACCACGCAGCGATGCAGGATTGGCTGGCCCAGTACGAAGTACGCCTGCGTACCGTGGAAAAATCCGGCCTGGTCTACAAAGCCAGCCTGCGTGAAGACCGTGAGCGTAACGTCTGGCTGCCGGAGGTTGAACTGATCTCCCACGGTCTGTCGAACTACGTCACCTTCAACCGCGACTTCTTCGGCAGCAACGACTACAAGACCGTCGTATCCCTCGGCGCGCAACTGAGCACGCTGTTGGACGAAGGTGCGTACATCCAGCGTGGTGAGCGCAAGAAAGCCGTGACCGAGTTCAAGGAAGCCCTTGAATGGCTGATGGCCGAAAGCACCAAGCGCCACACCATCCAGCGATACAAAGGGCTGGGTGAGATGAACCCGGATCAGCTGTGGGAAACCACCATGGATCCGGGCTCGCGCCGCATGCTGAAAGTCACCATCGAAGACGCCATTGGCGCGGACCAGATCTTCAACACCCTGATGGGTGATGCGGTCGAGCCCCGTCGTGACTTCATCGAGAGCAACGCGTTGGCGGTGTCCAACCTGGATTTCTGA	MSEENTYDSTSIKVLKGLDAVRKRPGMYIGDTDDGSGLHHMVFEVVDNSIDEALAGHCDDISIIIHPDESITVRDNGRGIPVDVHKEEGVSAAEVIMTVLHAGGKFDDNSYKVSGGLHGVGVSVVNALSEKLVLTVRRSGKIWEQTYVHGVPQAPMAIVGDSESTGTQIHFKASSETFKNIHFSWDILAKRIRELSFLNSGVGIVLKDERSGKEELFKYEGGLRAFVEYLNTNKTPVNQVFHFNVQREDGIGVEIALQWNDSFNENLLCFTNNIPQRDGGTHLVGFRSALTRNLNNYIEQEGLAKKHKVATTGDDAREGLTAIISVKVPDPKFSSQTKDKLVSSEVKTAVEQEMGKYFSDFLLENPNEAKLVVGKMIDAARAREAARKAREMTRRKGALDIAGLPGKLADCQEKDPALSELYLVEGDSAGGSAKQGRNRRTQAILPLKGKILNVEKARFDKMISSQEVGTLITALGCGIGREEYNIDKLRYHNIIIMTDADVDGSHIRTLLLTFFFRQLPELIERGYIYIAQPPLYKVKKGKQEQYIKDDDAMEEYMTQSALEDASLHLNEDAPGISGEALERLVNDFRLVMKTLKRLSRLYPQELTEHFIYLPAVSLEQLSDHAAMQDWLAQYEVRLRTVEKSGLVYKASLREDRERNVWLPEVELISHGLSNYVTFNRDFFGSNDYKTVVSLGAQLSTLLDEGAYIQRGERKKAVTEFKEALEWLMAESTKRHTIQRYKGLGEMNPDQLWETTMDPGSRRMLKVTIEDAIGADQIFNTLMGDAVEPRRDFIESNALAVSNLDF	PGPT0027710_1276	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
D1-35_02815	735			hypothetical protein	ATGCGTGTCGCCATACTGGACGATGAACCGGCGGAGTTGCGCCGGGTGGAACAGACACTGCAGCAAATTCCCGGCAGGGGAGAGCCCGCCTGGACACTGCACAGTTTCGAACGGGGTGAAGACCTGCTGCGACAACTGCGCAGGGAAACGTTTGACCTGTTGATCCTGGACTGGCAATTACCTGACATCAGTGGCTTGTCCTTGCTGCGCTGGACACGCGAGCACATGGATTCGCCACCCGCAGCCATCATGCTCACCAGCCGCGACGGCGAGCATGACATCGTCCAAGCGCTCAACGCCGGTGCCGATGACTATGTCAGCAAACCTTTCCGTCCCAACGAGCTCAAGGCCCGGGTCACCGCGGTGCTAAGGCGTCACAACCTGCAACGCACCCCGACCACTGAAGTGCTGGTGTTCAATGACCTCGAATTCGACGATGCCGAATTGACCGTCACCCGCGCCGGTATCCCCATCAGCCTGACTGAAAGGGAGTACCGCCTGGCCCGCTGCCTGTTCGCCAACCTGGGCCGGCCGCTGTCACGGGAATATTTTTATGAGCGCTTCTGGACCCATGAAGAAATGACGTCGTCGCGCCCGCTCGACACCCATATCTATCGCCTGCGCAACAAGCTCGGGCTAACCGCTGATCGCGGCTGGCAGTTGTTGACGATCTACGGTTATGGATATCGGTTGGAGAGTGTAGCGGCAGGCAGTGAGGCTTCGGTAGCCAGTTAG	MRVAILDDEPAELRRVEQTLQQIPGRGEPAWTLHSFERGEDLLRQLRRETFDLLILDWQLPDISGLSLLRWTREHMDSPPAAIMLTSRDGEHDIVQALNAGADDYVSKPFRPNELKARVTAVLRRHNLQRTPTTEVLVFNDLEFDDAELTVTRAGIPISLTEREYRLARCLFANLGRPLSREYFYERFWTHEEMTSSRPLDTHIYRLRNKLGLTADRGWQLLTIYGYGYRLESVAAGSEASVAS				NA	NA	NA	NA	NA
D1-35_02816	1518	walK		Sensor histidine kinase WalK	ATGAGCCATCCGCGTCGCCGTGAAAGCCGTGAACCGACCCAGGTGCAGCGATTGTTTCGACAATTGATGCGCGAAGGGTTGTGGATAAGCCTGGTGCTGCTCCCGCTGACCGCGCTGGTCTCGTTCAGCCTGCAATCGGCGCGCAACGGCCCAGCGGCTGCATTGTTGTCGGTGTGCCTGGTTGGCTGTGTAATGGGTTTGTTGCTGTTGCGTCCGCACTTCGCATTGGGAGCGACGTTGGGCGGGATGGGTCTGGCCCTGCTACTCAGCGCACTGCTGGGCGCGCAGTGTTGGGGGTGGTCGCCGGTGGCCAGCCTGTTGGGCATGCTGCTGGGTTATCTGATCTGGAACTGGCGGCGCCTGAGCGTGGTGCTGGCTTATTTCGGTTGGGAGCTGGCGCGCCTGGATGCTGAGCCCAAGGTCTTCCCGGAGCGCCGTCGAGCCTCCTACACCGGCAGTGATCGCTTGCAAGGCCAGATTATGGCCTTGGAACAAGCCATGAGCCGAACCCGGGACACGCGCCGATTTATTGCCGACGGCCTGGAGTACCTGCCGGTAGCAACGATGATCAGTGATCCACAGGGCAACCTGTTGCTGGGTAATCGCAAGGCTCGCGAGTTGTTCGGTCACGCTTTGGCGGGCAGTGATGTGCTGGAGGAATTGGCGCGGTTGGGTTATCCGGCATTGGTCCACTCCCCTGCACATCGCTTGTCCACGTTACCACTGGTTGAATTTCGCGATACCCGCGAGCGCAGCTTGCGACTGGAACGTGCCGCGCTGTTGCCGGTGGACGGTGATGTGCCCATTGGCTGGCTGCTCAGCCTGACTGATCTGAGCGCTGAACGGGAAGCCGAAGAGCAGCGCAGCGTCATGCTTCGTTTTCTCTCCCACGATCTGCGCGCGCCCCATTCGGCGATCCTGGCTCTGCTCGATGTGCAGCGGCATCAGGCCGGTGCCGACAAGCCGCTATTCGACCAGATCGAGCGCCAGGTGCGCCGCGCCCTGGAACTGACCGATGGGTTTGTGCAGTTGGCCAAGGCCGAGTCCGAGGCCTACCAGTTCCAACCGAGCCTGTTCGCCATGCTGGTGCTGGACGTGATCGACCAGGCATTGCCTGTTGCCCAGGCCAGGAGTATTCGGTTGGAACACCAACTCGACGATGAGGAAGCGCTGATCAGCGCTGATCAGCCCCTGCTGACCCGCGCCCTGTTCAACTTGTTGGAGAACGCCATCAAGTACAGTGCGCCCGACACGTGTATAGCGTTGCAGGTCCGTTGTGCCCAGGGCTGGTTGACGTGTGACGTCGTTGATCAGGGCAAAGGCATCGGCGCGCAGGAACTGCCGGATCTGTTCGTCCAGTACCGACGGTTTTCGTCGGCCCATGGCGTGGATGGCATCGGTTTGGGGCTGTCGATGGTCAAGGCGGTCGTGGACCGTCATGGTGGGCAAATCGATTGCCGTAGCGTGGTAGGCGAAGGCACTACGTTCAGCCTGCGCTTTCCGTTGTTGGAGGAATAA	MSHPRRRESREPTQVQRLFRQLMREGLWISLVLLPLTALVSFSLQSARNGPAAALLSVCLVGCVMGLLLLRPHFALGATLGGMGLALLLSALLGAQCWGWSPVASLLGMLLGYLIWNWRRLSVVLAYFGWELARLDAEPKVFPERRRASYTGSDRLQGQIMALEQAMSRTRDTRRFIADGLEYLPVATMISDPQGNLLLGNRKARELFGHALAGSDVLEELARLGYPALVHSPAHRLSTLPLVEFRDTRERSLRLERAALLPVDGDVPIGWLLSLTDLSAEREAEEQRSVMLRFLSHDLRAPHSAILALLDVQRHQAGADKPLFDQIERQVRRALELTDGFVQLAKAESEAYQFQPSLFAMLVLDVIDQALPVAQARSIRLEHQLDDEEALISADQPLLTRALFNLLENAIKYSAPDTCIALQVRCAQGWLTCDVVDQGKGIGAQELPDLFVQYRRFSSAHGVDGIGLGLSMVKAVVDRHGGQIDCRSVVGEGTTFSLRFPLLEE	PGPT0002705_1423	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
D1-35_02817	780			hypothetical protein	ATGTCGATATTGCAGGCCATCAGAAGCTTCCTCTTTTACCTGCTGCTGGGCACCAGTTCCTTGTTGTGGTGCACGTTGAGTTTTTTTGTCGCGCCGTTCATGTCGTTCAGGACGCGCTACCGCTTCATCAATGTTTACTGGTGCCGTTGCGCACTCTGGCTGAGCAAGGTGTTTCTGGGCATCCGCTACGAAGTGAAAGGTGCCGAGAATGTGCCTGAGCGCCCTTGTGTCATCCAGTCCAACCACCAGAGCACCTGGGAGACCTTCTTTCTCTCGGCTTATTTCGAACCGTTGAGCCAAGTGCTCAAGCGCGAGCTGCTGTTTGTACCGTTCTTCGGCTGGGCCATGGCGATGCTGCGCCCGATTGCCATCGACCGTGACAACCCGAAGGTTGCCCTCAAGCAGGTAGCGCAAAAAGGCGATGTGCTGCTCAAGGACAACGTTTGGGTACTAATCTTTCCCGAGGGCACCCGCGTACCTTACGGGACCATCGGCAAGTTTTCCCGCAGTGGCTCCGCATTGGCGGTAAACGCCGGCCTGCCAGTACTACCGATTGCACACAATGCGGGCAAATTCTGGCCCAAGGCCGGCTGGGTCAGAACGCCAGGCGTTATCACCGTGGTCATCGGCGCCCCCATGTATGCAGAGGGCAGTGGGCCGCGCGCGATTGCCGAGCTGAACGACCGTGTACAGGCTTGGAATGAACAGACGCAACGGGAATTGGGCTCGCTTCCTCCGGCCCCTGCTGCGCCGGCTGCGACGGACAAGTTGGCTGTATGA	MSILQAIRSFLFYLLLGTSSLLWCTLSFFVAPFMSFRTRYRFINVYWCRCALWLSKVFLGIRYEVKGAENVPERPCVIQSNHQSTWETFFLSAYFEPLSQVLKRELLFVPFFGWAMAMLRPIAIDRDNPKVALKQVAQKGDVLLKDNVWVLIFPEGTRVPYGTIGKFSRSGSALAVNAGLPVLPIAHNAGKFWPKAGWVRTPGVITVVIGAPMYAEGSGPRAIAELNDRVQAWNEQTQRELGSLPPAPAAPAATDKLAV	PGPT0024380_1389	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655	NA	NA
D1-35_02818	534	gmhB	COG0241	D-glycero-beta-D-manno-heptose-1,7-bisphosphate 7-phosphatase	TTGAAACTGCTGATTCTCGATCGGGACGGAGTGATCAATCACGACTCCGACGCCTACATCAAGTCGGTGGAGGAGTGGTTGCCGATTCCCGGTTCCATCGAGGCCGTCGCACAATTGAGCAAGGCCGGCTGGACGGTGGCGGTCGCCACCAACCAGTCGGGCATTGCCCGCGGTTACTACGAACTCGCCGTCCTCGACGCCATGCATGAACGCTTGCGTCAGCTGGTGGCCGGGCAGGGCGGTGACATCGGGCTGATCGTTTATTGCCCACATGGGCCGGACGAAGGCTGCGATTGCCGCAAGCCCAAGCCCGGCATGCTGAAAACCATCGCCGCTCACTATGACGTTGCGCTGTCGGGCGTGTGGTTTGTCGGCGACAGCCTCGGTGACCTGGAGGCGGCGAAGGCCGTCGATTGTCAGCCAGTTTTGGTCAAGACCGGAAAAGGCGAAAAGACCCTGGGCAAGACCCTACCGGTGGGCACCTTGATTTTTGACGACCTGGCGGCGGTTGCCGCTGAACTTATCCACAATTAG	MKLLILDRDGVINHDSDAYIKSVEEWLPIPGSIEAVAQLSKAGWTVAVATNQSGIARGYYELAVLDAMHERLRQLVAGQGGDIGLIVYCPHGPDEGCDCRKPKPGMLKTIAAHYDVALSGVWFVGDSLGDLEAAKAVDCQPVLVKTGKGEKTLGKTLPVGTLIFDDLAAVAAELIHN	PGPT0023035_1791	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-MANNO-HEPTOSE|-PHOSPHATE_MODIFICATION,PGPT0023035-gmhB|yaeD-K03273	NA	NA
D1-35_02819	2055	glyS	COG0751	Glycine--tRNA ligase beta subunit	ATGAGTGCTCAAGATTTTCTGGTTGAACTGGGCACCGAAGAACTGCCACCCAAAGCCCTGAACACCCTGGCCGATGCATTCCTGGCCGGCATCGAGAAAGGCCTGCAAGCCGCTGGCCTGAACTTCGAAACCAAGCATGTCTACGCCGCGCCGCGCCGCCTGGCCGTGCTGATCACCGCCCTGGCAACGCAACAGCCGGACCGCAGCATCAACCTCGACGGCCCGCCCGTGCAAGCCGCGTTCGATGCCGACGGCAACCCGACCCAGGCCGCCCTGGGCTTCGCCAAGAAGTGCGGCGTCGATCTGAGCGAAATCGACCAGAGCGGCCCGAAGCTGCGCTATAGCCAGAGCATCAAGGGCAAGCCGACCGCCAGCCTGTTGCCGACCATCGTCGAAGACTCCCTCAATGACTTGCCGATTCCCAAGCGCATGCGCTGGGCTGCGCGCAAGGAAGAGTTCGTGCGTCCGACCCAATGGCTGGTGATGCTGCTCGGTGACCAGGTCATCGATTGCACGATCCTCGCCCAAAAGGCCGGTCGTGATTCTCGCGGTCACCGTTTCCATCATCCGCAGAGCGTGCGTATCACGTCGCCGGCCAATTACCTGGCCGACCTTCGCGCTGCCTATGTATTGGCCGATTCCAACGAGCGCCGCGAGCTGATCAGCAAACGCACCGAAGAACTGGCGACCGCCCAGGAAGGTACGGCTATCGTGCCGGCCAACCTGCTGGACGAAGTGACCGCGCTGGTGGAATGGCCGGTGCCACTGGTGTGCTCGTTCGAGGAACGCTTCCTTGAAGTGCCCCAGGAAGCGCTGATCACCACCATGCAGGACAACCAGAAATATTTCTGCCTGCTGGACGCCGAAGGCAAGTTGCTGCCGCGCTTCATCACGGTGGCCAACATCGAAAGCAAGGACCCGCAGCAGATCATCGCCGGTAACGAAAAAGTCGTACGCCCGCGTCTGACCGATGCCGAGTTCTTCTTCAAGCAAGACAAGAAGCAGCCCCTGGAAAGCTTCAACGAGCGCCTGCGCAACGTGGTGTTCCAGGAAAAACTCGGCAGTGTCTACGACAAGGCCGAGCGCGTATCGAAACTGGCAGCATTCATCGCTCCACGCATCGGCGGCGATGCCCAGCGCGCTGCACGTGCCGGCATCCTGTCCAAGTGCGACCTGTCCACCGAGATGGTCGGTGAGTTCCCGGAGATGCAAGGTATCGCCGGTTACTACTACGCCCTCAACGACGGCGAGCCGCAGGATGTTGCCCTGGCGCTGAACGAACAGTACATGCCGCGTGGCGCCGGCGCTGAATTGCCGACCACCCTGACCGGTGCGGCCGTGGCGATCGCGGACAAGCTCGACACCCTGGTCGGCATCTTCGGTATCGGCATGCTGCCCACCGGCAGCAAGGACCCGTACGCACTGCGTCGCGCAGCGCTGGGCGTGCTGCGCATTCTCATCGACAAGCAGCTGGACCTGGACCTGAACGACGCCGTGGCCTTCGCCGTGAATGCGTTCGGCAGCAAGGTCAAGGCTGCCGGCCTGGCCGACGCGGTGCTGGAATTCATTTTCGACCGCCTGCGTGCGCGTTATGAAGACGAAGGTGTCGACGTCGCGACCTACCTGTCGGTGCGAGCCCTGAAACCGGGCTCTGCCCTGGACTTCGACCAACGCGTACAGGCAGTGCAGGCGTTCCGCAAACTGCCGGAAGCGGCAGCGCTGGCGGCGGTGAACAAGCGCGTGTCGAACCTGCTGAGCAAGGCCGAAGGCAACATTGCGGCCGTCGTTGAAGCCAAGTACTTCGACAACGCCAATGAGTTCTCCCTGTACTCGGCGATCCAGCAGGCGGACCAGGCAGTCCAGCCGATGGCAGCGGCGCGTCAGTACAGCGAAACCCTGGCGCGCCTGGCAGCATTGCGTGAACCGGTGGATGCGTTTTTCGAAGCGGTGATGGTCAATGCCGAAGACGCCAATGTGCGAGCCAACCGCTATGCGCTGCTGGCGCGTCTGCGTGGGTTGTTCCTCGGTGTTGCCGATATTTCGCTGCTGGGGTAA	MSAQDFLVELGTEELPPKALNTLADAFLAGIEKGLQAAGLNFETKHVYAAPRRLAVLITALATQQPDRSINLDGPPVQAAFDADGNPTQAALGFAKKCGVDLSEIDQSGPKLRYSQSIKGKPTASLLPTIVEDSLNDLPIPKRMRWAARKEEFVRPTQWLVMLLGDQVIDCTILAQKAGRDSRGHRFHHPQSVRITSPANYLADLRAAYVLADSNERRELISKRTEELATAQEGTAIVPANLLDEVTALVEWPVPLVCSFEERFLEVPQEALITTMQDNQKYFCLLDAEGKLLPRFITVANIESKDPQQIIAGNEKVVRPRLTDAEFFFKQDKKQPLESFNERLRNVVFQEKLGSVYDKAERVSKLAAFIAPRIGGDAQRAARAGILSKCDLSTEMVGEFPEMQGIAGYYYALNDGEPQDVALALNEQYMPRGAGAELPTTLTGAAVAIADKLDTLVGIFGIGMLPTGSKDPYALRRAALGVLRILIDKQLDLDLNDAVAFAVNAFGSKVKAAGLADAVLEFIFDRLRARYEDEGVDVATYLSVRALKPGSALDFDQRVQAVQAFRKLPEAAALAAVNKRVSNLLSKAEGNIAAVVEAKYFDNANEFSLYSAIQQADQAVQPMAAARQYSETLARLAALREPVDAFFEAVMVNAEDANVRANRYALLARLRGLFLGVADISLLG				NA	NA	NA	NA	NA
D1-35_02820	1020	glyQ	COG0752	Glycine--tRNA ligase alpha subunit	GTGCGCACGAACGAATCGGGTATACTCCCGCTCTTTAAATCGCAGCCCAAGAAACAGGTGAATTTCGTGAGCCAGCCTACGCCAGCCGTGCGTACCTTCCAAGACTTGATCCTCGCCCTCCAGCAATACTGGGCCGAGCAAGGTTGCGTGGTACTTCAGCCCTACGATATGGAAGTAGGCGCCGGCACTTTCCACACTGCCACGTTTCTGCGTGCCATCGGCCCGGAAACCTGGAACGCCGCTTATGTGCAACCAAGCCGCCGCCCGACTGACGGCCGCTACGGCGAAAACCCGAACCGCCTGCAGCATTACTATCAATTTCAGGTCGTGCTGAAGCCGAACCCGGAAAACTTCCAGGAGCTGTACCTGGGCTCCCTCAAACACGTGGGCCTCGACCCGCTGGTGCACGACATTCGTTTCGTCGAAGACAACTGGGAATCACCGACCCTGGGCGCCTGGGGCCTGGGCTGGGAAGTCTGGCTCAACGGCATGGAAGTGACCCAATTCACCTACTTCCAGCAAGCGGGCGGCATCGAATGCTACCCGGTGACTGGTGAGATCACCTACGGCCTGGAACGCCTGGCCATGTACCTGCAAGGCGTGGATTCGGTCTACGACCTGGTATGGGCCGACGGTCCGTTCGGCAAAGTGACGTATGGCGACGTGTTCCATCAGAACGAAGTGGAGCAATCGACCTACAACTTCGAACACGCCAACGTCGACAAGCTGTTCGAGTTGTTCGATTTCTATGAAAGCGAAGCCAAGCGCCTGATCGAACTGGACCAGCCGCTGCCGCTGCCGAGTTATGAAATGGTCTTGAAGGCATCTCATACCTTCAATCTGCTGGATGCACGCCGGGCGATTTCCGTGACCGCGCGCCAGCAATACATCCTGCGTGTGCGCACCCTGGCGCGTTCCGTCGCGCAAGCCTACCTGCTGGCCCGTGCCAAGCTGGGCTTCCCGATGGCGACCCCGGACCTGCGTGATGAAGTGTTGGCTAAGCTGGAGGCTGCACAATGA	MRTNESGILPLFKSQPKKQVNFVSQPTPAVRTFQDLILALQQYWAEQGCVVLQPYDMEVGAGTFHTATFLRAIGPETWNAAYVQPSRRPTDGRYGENPNRLQHYYQFQVVLKPNPENFQELYLGSLKHVGLDPLVHDIRFVEDNWESPTLGAWGLGWEVWLNGMEVTQFTYFQQAGGIECYPVTGEITYGLERLAMYLQGVDSVYDLVWADGPFGKVTYGDVFHQNEVEQSTYNFEHANVDKLFELFDFYESEAKRLIELDQPLPLPSYEMVLKASHTFNLLDARRAISVTARQQYILRVRTLARSVAQAYLLARAKLGFPMATPDLRDEVLAKLEAAQ				NA	NA	NA	NA	NA
D1-35_02821	558	tag	COG2818	DNA-3-methyladenine glycosylase 1	ATGCCACGCTGCTTTTGGTGTTCCGAAGATCCGTTGTACATGGCTTATCACGATCAGGAGTGGGGGACGCCGCTGCGCGATGCGCAGGGTTTGTTCGAGTTGCTTCTGCTCGAAGGGTTCCAGGCCGGTCTGTCCTGGATCACCGTTTTGCGCAAACGCGAACGTTACCGGGAAGTGCTCTACGGCTTCGATGTGCAGCGGGTGGCGCAGATGAGCGACGCTGAAATCGATGAACTGATGCTCGACCCCGGCATTATCCGCAACCGCCTCAAGCTCAAGGCGGCGCGGCGCAATGCCCAGGCCTGGCTGGCGCTGGAAGACCCGGTGGCATTTCTCTGGTCGTTCGTAGGCAACCAACCGATCATCAACCATTTCAAGGACCGCACCGAAGTGCCGGCCATCACCCCCGAGGCGCTGGCAATGAGCAAAGGCCTGAAAAAAGCCGGGTTCACCTTCGTCGGCCCAACCATCTGCTACGCCTTGATGCAGGCCTCGGGCATGGTCATGGACCACACCCAGGACTGCGACCGCTACGCCGAGTTGGTAAACGGTGGTTAG	MPRCFWCSEDPLYMAYHDQEWGTPLRDAQGLFELLLLEGFQAGLSWITVLRKRERYREVLYGFDVQRVAQMSDAEIDELMLDPGIIRNRLKLKAARRNAQAWLALEDPVAFLWSFVGNQPIINHFKDRTEVPAITPEALAMSKGLKKAGFTFVGPTICYALMQASGMVMDHTQDCDRYAELVNGG				NA	NA	NA	NA	NA
D1-35_02822	888	lpxP	COG1560	Lipid A biosynthesis palmitoleoyltransferase	GTGGATAAGTTGAAAGGCGCCTTGCTGGTCGGCGCTCTGCGGTTGTTTGCGCTGCTCCCTTGGCGAGCGGTGCAGGCGGTGGGCTCGGCCATTGGCTGGCTCATGTGGAAATTACCCAACCGTTCCCGCGACGTGGTGCGGATCAACCTCGCCAAGTGTTTCCCCGAGATGGACCCGGCCGAGCGCGAGCGCCTGGTAGGCCAGAGCCTCAAGGACATTGGCAAATCCCTGACCGAAAGCGCCTGTGCCTGGATCTGGCCGGCCCAGCGCTCCATCGAACTGGTGCGCGAAGTCGAAGGCCTGGAGGTGTTGAAAGAAGCGCTGGCCTCGGGCAAAGGCGTGGTCGGCATCACCAGCCACCTGGGCAATTGGGAAGTGCTCAATCACTTCTATTGCAGCCAGTGCAAACCGATCATCTTCTACCGCCCGCCCAAGCTCAAGGCGGTGGATGAGTTGCTGCAGAAGCAACGCGTGCAACTGGGCAACAAGGTCGCGGCGTCTACCAAGGAAGGCATCCTCAGCGTCATCAAGGAAGTGCGCAAGGGCGGCCAGGTGGGGATCCCCGCCGATCCGGAGCCGTCCGAATCCGCCGGCATCTTCGTGCCCTTCTTCGCCACCCAGGCCCTGACCAGCAAGTTCGTGCCGAACATGCTCGCCGGCGGCAAGGCGGTCGGCGTCTTCCTCCACGCCCTGCGCCTGCCGGACGGCTCCGGCTACAAAGTCATCCTCGAAGCCGCCCCGGACGAGATGTACAGCACCGACACCGAAACCGCCTGCGCCGCCATGAGCAAAGTGGTCGAGCGTTATGTACGGGCCTATCCGAGCCAGTACATGTGGAGCATGAAACGCTTCAAGAAACGCCCGCCGGGCGAGGCGCGGTGGTACTGA	MDKLKGALLVGALRLFALLPWRAVQAVGSAIGWLMWKLPNRSRDVVRINLAKCFPEMDPAERERLVGQSLKDIGKSLTESACAWIWPAQRSIELVREVEGLEVLKEALASGKGVVGITSHLGNWEVLNHFYCSQCKPIIFYRPPKLKAVDELLQKQRVQLGNKVAASTKEGILSVIKEVRKGGQVGIPADPEPSESAGIFVPFFATQALTSKFVPNMLAGGKAVGVFLHALRLPDGSGYKVILEAAPDEMYSTDTETACAAMSKVVERYVRAYPSQYMWSMKRFKKRPPGEARWY	PGPT0013315_2586	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0013315-lpxL|htrB-K02517	NA	NA
D1-35_02823	789	fabG_5		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAACATCGACTTCACCGGACGTAACGTATTGGTCACCGGTTCCACCAGCGGCATCGGTTTTGCGACCGCCAAAGGTTTTCTGGAAGCCGGTGCCCAGGTCGTCATCAACGGGCGCAGCGAAAGCAGCGTGGAGGACGCGTTGCAGCGCCTGGGCAATCTGGCTTCCAGGGCGACAGGCTTTGTTGGCGATCTCAGCAACGAACCTGGCTGCCAGGCGTTGATCGCCAGGCATCCAAGCTTCGATATTGTCATCAACAACCTGGGCATTTTCAAACAGGAAGACTTCTTCGAGACGCCGGACAGCGAATGGCAGCGTTTCTTCGAAACCAATGTGATGTCGGGTGTGCGTGTTTCCAGGGCCTACGCGCAGGGCATGGTCGAGCGTGGTTGGGGGCGGATCGTGTTTGTCTCGTCGGAGTCGGGCGTGAACATTCCGGCCGACATGATCCACTACGGCTTCACCAAGACCGCCCAGCTTTCAATCGCTCGCGGCCTGGCCAAACGCCTCGCGGGAACGGGCGTGACGGTGAACTCGGTATTGCCCGGGCCGACACTGTCCGAAGGCGTTGCCAAGATGCTCCAGGCGGACGTCGAGCGCAGCGGGGAAAGCCTGGAGAAGGTCGCGGCAGATTTCGTCAACGAGCACCGCAGCACCTCGATCATCCAGCGCGCGGCACGGGTAGAGGAAGTCGCCAACATGATTATCTACGCCAGCTCGGAACAGGCCTCGGCCACCACCGGAGCGGCGCTGCGAGTTGACGGCGGTGTGGTGGACAGCATCGTTTAG	MNIDFTGRNVLVTGSTSGIGFATAKGFLEAGAQVVINGRSESSVEDALQRLGNLASRATGFVGDLSNEPGCQALIARHPSFDIVINNLGIFKQEDFFETPDSEWQRFFETNVMSGVRVSRAYAQGMVERGWGRIVFVSSESGVNIPADMIHYGFTKTAQLSIARGLAKRLAGTGVTVNSVLPGPTLSEGVAKMLQADVERSGESLEKVAADFVNEHRSTSIIQRAARVEEVANMIIYASSEQASATTGAALRVDGGVVDSIV	PGPT0003180_3276	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
D1-35_02824	285			hypothetical protein	ATGAACACTTTCAGCAAAACACTCGTTGGCTCGCTTCTGGCACTGTCGCTCGGCAATGCGTTCGCGACTTCTTTTGTTCAACCTACATTCGCTGAGGGCGGTTCGGATCGCCTGATCGAAAAACGAATAGCCGAAGGTGGCTCCGATCGTCTTATCGAGAAACGCATAGCCGAAGGCGGCTCCGATCGTCTGATCGAGAAACGCGTAGCCGAAGGTGGCTCCGATCGTCTGATCGAGTTACGGGTAGCCGAAGTTGGCTCGGATCGCCTAGGCGAGAACGGCTAG	MNTFSKTLVGSLLALSLGNAFATSFVQPTFAEGGSDRLIEKRIAEGGSDRLIEKRIAEGGSDRLIEKRVAEGGSDRLIELRVAEVGSDRLGENG				NA	NA	NA	NA	NA
D1-35_02825	420	ohrB_2	COG1764	Organic hydroperoxide resistance protein OhrB	ATGAACGTTCTCTACACCGCAGTCGCAACCTCCACCGGTGGCCGTGATGGCCGTGCTGTTTCCAGCGACAAGATCCTCGACGTGAAACTGGCCACGCCAAAAGCCCTGGGCGGTGCCGGTGGTGAAGCCACCAATCCTGAGCAGTTGTTCGCAGCCGGCTACTCGGCCTGCTTCATCGGCGCGTTGAAATTTGTCGCCAGCCAAAGCAAACGCAGCATTCCGGCTGACGCCTCGATCACGGCACACGTCGGCATCGGCCAGATCCCTGGCGGTTTCGGTCTGGACATCGACCTGCACATCAGCCTGCCAGGTCTGGATCAAGCCGATGCTCAAGCGCTGGTCGACGCGGCTCACCAGGTTTGCCCGTACTCCAACGCGACCCGCGGCAACGTCGACGTCCGTTTGCACGTCGCCGTCTAA	MNVLYTAVATSTGGRDGRAVSSDKILDVKLATPKALGGAGGEATNPEQLFAAGYSACFIGALKFVASQSKRSIPADASITAHVGIGQIPGGFGLDIDLHISLPGLDQADAQALVDAAHQVCPYSNATRGNVDVRLHVAV	PGPT0013160_3583	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
D1-35_02826	1128			hypothetical protein	ATGGATGGCCCGAGATCTCGCAATGGCATGGACTTTTGCATAGCCGGACAAGTGCGCACTGACCGACTGCAGCAACTGTTTCGCCAATCCGTTTCCGCGGTGTTTGGTAGTTACCTCGCGGCCATCATGTTGTGTTGGCTGTGTTGGGATCGCTTTGAGCACAGCACGGTTGTGTGGTGGCTGGCCATATTAAGCGGATCGACGCTGCTGCGGATCGCGATGTTCGTTGCCTATTTTCGCAGCGACGAGGTTCAGCGCACGCCTCAACGCTGGGAGCGCAGATACTGGGTCTCGCTGGTGTTGTCCGCGAGCATCTGGGGCGGCGGCGCGCTTGTTTTGATGCCGCAAGATGATCTCCTCTCGCAAGCTCTCGTCATGCTTTTTACCGTGGGGATGACTGTCAGCGCGGTCTCCTGTTACTCCGCCTACCGGGACATGACACTGGTCTCCATTGGCCTTGTGCTGTTTCCGTGCACGGTCTGGCTGCTGTTCCAACCGTCGCCGATTCAAGTCGGCATGGCGCTTTCGATCCTGGTGTTCGCGGCATTTGCTGCCCGCGCCACCCACAAAATGTCCCAGGCACTGGAAACCGCTTTTCGACTCACCCGCGAGATGGAACAGGCGAACAGCATTTCAACCCGCGCCGCACAAACCGATGAACTGACCGGCCTGAAAAGTCGACGGGCTTTTTTCGAGCATGCCCAGCAGCTTTACGACGAATGCAGAACCAACCGGTTGGGGTTGTGCGCCGTCATGTTGGACATGGATCACTTCAAGCACATCAACGACACCTACGGCCATCAGGTCGGGGACCAGGTCCTACGCCAGATGGGCGTGGTCATCAGCTCGTCGTTTCGGGCCACGGATATACACGGTCGGCTCGGTGGGGAAGAGTTCGCCATTCTGCTTCCGGATACGTCCATTGACGTCGCTATAGAAATTGCAGAAGGACTTATCCAGAGTATCGCTGGCTTGATGATCGAGCCTGTCCATCGCATCACCGCCAGCCTTGGCGTGGCGTCGACGGAGGCGAATCACAAGGATCTGCATGGCTTGATGAATAACGCTGATAAGGCGCTGTATCGGGCGAAAGCGCTGGGGCGTAACCAGGTTGCCGTCGCTCACTAG	MDGPRSRNGMDFCIAGQVRTDRLQQLFRQSVSAVFGSYLAAIMLCWLCWDRFEHSTVVWWLAILSGSTLLRIAMFVAYFRSDEVQRTPQRWERRYWVSLVLSASIWGGGALVLMPQDDLLSQALVMLFTVGMTVSAVSCYSAYRDMTLVSIGLVLFPCTVWLLFQPSPIQVGMALSILVFAAFAARATHKMSQALETAFRLTREMEQANSISTRAAQTDELTGLKSRRAFFEHAQQLYDECRTNRLGLCAVMLDMDHFKHINDTYGHQVGDQVLRQMGVVISSSFRATDIHGRLGGEEFAILLPDTSIDVAIEIAEGLIQSIAGLMIEPVHRITASLGVASTEANHKDLHGLMNNADKALYRAKALGRNQVAVAH	PGPT0026005_108	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0026005-roeA-K21022	NA	NA
D1-35_02828	288			hypothetical protein	ATGTCGAAATCTACAACGAATCCGCCTGAGGCGGACCGCACCTCCTCGCCACCAGAACCGAAAGATGCTCTCCAATCCGCTCAACTCTTCACCGTCGTACAAGACACCGACAACGAATGCCTGCTCGCCAACCTCAGCGAAACCCTGGCTTCAGCCGACGCCATGGTCAGCAACCTCGCGTTCGATCTGGAAGGCTCACACCGCCACATCGCCCTCGGCGTCCAGCAACTGATCGAGCTGAGCTCATTACTGGCGAACCGAGTTCTGGACAACGTTGATCCAAGATAA	MSKSTTNPPEADRTSSPPEPKDALQSAQLFTVVQDTDNECLLANLSETLASADAMVSNLAFDLEGSHRHIALGVQQLIELSSLLANRVLDNVDPR				NA	NA	NA	NA	NA
D1-35_02829	375			hypothetical protein	GTGATCAAGTCTTTGTTGGTTGGGGCATTGCTGGCAATGGCATCAGCATCGGCGTCTGCGATGAGTTGCGATAACCCTAGAAACGCCTATGACAGAACCTATTGCGCGTCGCTGAAAATGGTTCAGTCGGACCAGGAAATCAACGAGCAATACAAGAAGACGATGAGTGCCCTGAACCCGGATCAAAAGAAGAAGGTGAAAGCCGCTCAGATCCAGTGGATCAAGATTCGTGACAACGCCTGTTCCAACGACGGCCTGCTCTACCTGGACTGTGCCAATGAGAAGACCGAGGCGCGTATCGTCATACTCAAGGCTGTCGAGCGCGAGTGCCGCGCTGCCGGTTGCGACGACGCCAAACTGTCGCAAGTCGAGTAA	MIKSLLVGALLAMASASASAMSCDNPRNAYDRTYCASLKMVQSDQEINEQYKKTMSALNPDQKKKVKAAQIQWIKIRDNACSNDGLLYLDCANEKTEARIVILKAVERECRAAGCDDAKLSQVE				NA	NA	NA	NA	NA
D1-35_02830	768	yfcA_1	COG0730	putative membrane transporter protein YfcA	ATGCAAATTGAATACGCCATGGGCGCGTTGGGATTTTTTGCTTTTTGCGGGGGGATGATCGATGCTGCTGTAGGGGGCGGAGGTTTGGTTCAGGTACCCGCTCTACTTCATGCATTACCTCAGCACTCGCTGAGCACAGTTTTTGGAACTAATAAGCTCGCTGTACTTGCAGGAAATGTTTCTTCTATATTTAGTTACGTTAAAAGAATAAAGATCGTCTGGAAGCTGATGCTTCCAACCATGCTCTCGGCTTTTTTATTTTCGTTTTTGGGTGCTTTTTCCGTCTCGCTCGTTCCGAAGGCGATCATGGAATATTTTGTGTTTTTTGTATTGGTGGTAATGGCTGTTTATACATTTGCAAAAAAGGATCTGGGGCTTGTTCACTCGGACGCTCAATGCGGATCCAAAGAAGTGCTCCTTGGGGTTTTTTTTGGCGGCATAATTGGATTTTATGACGGAGTTTTTGGACCCGGCAGTGGTAGTTTTTTGTTATTTGTTTTCGTTAAATATTTTGGCTACGATTTTCTGAATGCATCCGCTTCAGCAAAACTGGTTAATCTGGGAACGTTTAGCGCGGCGCTGCTATTTTTCATTCCTTCAGGTCATGTGCTGTGGGTAATTGGTGGACTGGTCGCGGTGTGTAATATGGCGGGTGCGCTGACAGGCACTTTTTTGGCTTTGCGCTATGGGAGTGGATTAATTCGTATCTTGTTTCTCTTTTTATTGGTTTTCCTTATTGGCCGAATGGGATTGTCCATATGGCTGTGA	MQIEYAMGALGFFAFCGGMIDAAVGGGGLVQVPALLHALPQHSLSTVFGTNKLAVLAGNVSSIFSYVKRIKIVWKLMLPTMLSAFLFSFLGAFSVSLVPKAIMEYFVFFVLVVMAVYTFAKKDLGLVHSDAQCGSKEVLLGVFFGGIIGFYDGVFGPGSGSFLLFVFVKYFGYDFLNASASAKLVNLGTFSAALLFFIPSGHVLWVIGGLVAVCNMAGALTGTFLALRYGSGLIRILFLFLLVFLIGRMGLSIWL				NA	NA	NA	NA	NA
D1-35_02831	771	metQ_1	COG1464	putative D-methionine-binding lipoprotein MetQ	ATGAAAAAACTACTGGTCGCCTTCGCTGCCGCCGCAGCGTTCTCCGCACACGCCGACACCCTGACCGTCGCGGCCACGCCGGTTCCTCACGCGGAAATCCTCGAGTTCGTCAAACCGGCATTGGCGAAGGAAGGCGTGGACCTCAAGGTCAAGGTCTTCACCGACTACGTCCAGCCCAACGTACAAGTCGCCGAAAAGCGCCTGGACGCCAACTTCTTCCAGCACCAGCCGTACCTGGATGAGTTCAACAAGGCCAAGGGCACGAATCTGGTGAGCGTAACCGGTGTGCACCTGGAACCCCTGGGCGCGTACTCCAGCAAGTACAAGGCACTTACAGAACTGCCAGGCGGCGCCAATGTCGTGATCCCGAACGATGCTACCAATGGCGGCCGTGCGCTGTTATTGCTGGCCAAAGCAGGGCTGATCAAGCTCAAGGACTCGAACAACATCCTGTCGACTACCAAAGACATCACCGAGAATTCGAAGGATCTGAAGTTCCGTGAGCTGGAAGCGGCAACCATTCCGCGCGTGCTGACTCAAGTGGATCTGGCATTGATCAATACCAACTATGCGTTGGAGGCCAAGCTTGACCCTTCCAAGGATGCGCTGGTGATCGAAGGCAACGACTCGCCTTATGTGAATATTCTGGTAGCCCGTCCGGACGACAAGGACAGCGAGGCCATGAAGAAGCTGGTTGCAGCGCTGCATACGCCGGAAGTTAAGGCGTTTATTCTGGAGAAATACAAAGGCGCGGTTTTACCGGCGTTTTGA	MKKLLVAFAAAAAFSAHADTLTVAATPVPHAEILEFVKPALAKEGVDLKVKVFTDYVQPNVQVAEKRLDANFFQHQPYLDEFNKAKGTNLVSVTGVHLEPLGAYSSKYKALTELPGGANVVIPNDATNGGRALLLLAKAGLIKLKDSNNILSTTKDITENSKDLKFRELEAATIPRVLTQVDLALINTNYALEAKLDPSKDALVIEGNDSPYVNILVARPDDKDSEAMKKLVAALHTPEVKAFILEKYKGAVLPAF	PGPT0020510_5710	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
D1-35_02832	663	metP	COG2011	Methionine import system permease protein MetP	ATGGAATTTTTTGCAAACATCGACTGGCTGGAAATCTGGCTGGCAACCGGCGACACCTTCCTGATGCTGTTCGGTTCGCTGCTGTTCACCGTACTGCTCGGCCTGCCGCTGGGCGTGTTGCTGTTTCTCTGCAGCCCGCGCCAATTGCTTGAAGCCCGGGGCCTCTACGCGCTGCTGTCGCTGATGGTGAACATCCTGCGTTCGCTGCCATTCATCATCCTGTTGATCGTGATGATCCCGTTCACGGTGTTGATCACCGGCACGTCGTTGGGCGTGGCCGGCGCGATCCCGCCACTGGTGGTCGGTGCGACGCCGTTCTTCGCCCGCTTGGTGGAAACCGCCCTGCGCGAAGTCGATCGCGGCATCATCGAAGCGACCCAGGCCATGGGCGCTACCACGCGACAGATCATCGTCAACGCATTGCTGCCGGAAGCCCGTCCGGGCATTTTCGCAGCGATTACGGTGACAGCGATTACTTTGGTGTCCTACACGGCCATGGCCGGTGTGGTCGGCGCTGGTGGCCTGGGCGACCTGGCGATCCGCTTCGGCTACCAGCGTTTCCAGACCGACGTGATGGTGGTCACGGTGGTGTTGCTGCTGGTGCTGGTCCAGGTCCTGCAAACCGTGGGCGACAAACTGGTTGTGCATTTCTCTAGAAAATAA	MEFFANIDWLEIWLATGDTFLMLFGSLLFTVLLGLPLGVLLFLCSPRQLLEARGLYALLSLMVNILRSLPFIILLIVMIPFTVLITGTSLGVAGAIPPLVVGATPFFARLVETALREVDRGIIEATQAMGATTRQIIVNALLPEARPGIFAAITVTAITLVSYTAMAGVVGAGGLGDLAIRFGYQRFQTDVMVVTVVLLLVLVQVLQTVGDKLVVHFSRK	PGPT0020515_1205	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072	NA	NA
D1-35_02833	1008	metN_1	COG1135	Methionine import ATP-binding protein MetN	GTGATCGAGTTTCAAAACGTCCATAAAACCTACCGGGTTGCCGGTAGGGATATCCCCGCGCTGCACCCGACCAGTCTGACCATCCAGAACGGTCAGGTCTTCGGCCTGATCGGTCATTCCGGTGCGGGAAAAAGTACCCTGCTGCGCCTGATCAATCGCCTGGAAGATTCCAGCGGCGGCAAGATCATCGTCGACGGCGAAGAAGTCACCGCCCTGGACGCCAACGGCCTGCGCCGTTTTCGCCAGCAGGTCGGGATGATTTTCCAGCACTTCAATCTGCTCGCGTCCAAGACCGTGGCCGACAACGTGGCCATGCCACTGACGCTGGCGGGCGAACTGTCCCGCAGCGATATCGACCGCCGCGTCGCCGAATTGCTGGCGCGGGTAGGGCTGTCCGACCACGCCCGCAAATACCCGGCGCAGTTGTCCGGCGGCCAGAAGCAGCGCGTCGGCATCGCCCGCGCCCTGGCAACCAAGCCGAAGATCCTGTTGTGCGACGAAGCCACCAGCGCGCTCGACCCACAGACCACCGCCTCGGTGCTGCAACTGCTGGCGGAGATCAACCGTGAGCTGAAGCTGACCATCGTGCTGATCACCCATGAAATGGATGTGATCCGGCGTGTCTGCGATGAGGTCGCGGTGATGGACGCCGGGGTGATCGTCGAGCAAGGCCCGGTGGCCGAGGTGTTCCTGCACCCCAAGCATCCGACCACCAAGCGTTTCGTCCAGGAAGACGAGCAGATCGACGAAAGCGAACAGCGCGACGACTTCGCTCACGTCCCAGGGCGCATCGTGCGTCTGACATTCCAGGGCGAAGCGACCTACGCGCCGTTACTTGGAACCGTCGCCCGCGAAACCGGTGTGGACTACAGCATCCTGGCCGGTCGTATCGACCGCATCAAAGACACCCCCTACGGGCAACTGACCCTCGCCATCACCGGCGGTGACATGGAAGCGGCCTTCGCCCGCTTCACCGCGGCCGATGTCCACATGGAGGTGCTGCGCTGA	MIEFQNVHKTYRVAGRDIPALHPTSLTIQNGQVFGLIGHSGAGKSTLLRLINRLEDSSGGKIIVDGEEVTALDANGLRRFRQQVGMIFQHFNLLASKTVADNVAMPLTLAGELSRSDIDRRVAELLARVGLSDHARKYPAQLSGGQKQRVGIARALATKPKILLCDEATSALDPQTTASVLQLLAEINRELKLTIVLITHEMDVIRRVCDEVAVMDAGVIVEQGPVAEVFLHPKHPTTKRFVQEDEQIDESEQRDDFAHVPGRIVRLTFQGEATYAPLLGTVARETGVDYSILAGRIDRIKDTPYGQLTLAITGGDMEAAFARFTAADVHMEVLR	PGPT0020520_3428	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
D1-35_02834	2136	katE	COG0753	Catalase HPII	ATGAGCACTAAAAAACCTGCCGCCCCCAGCCAGATGGCCGGGACCGACACGCTGGATCGCAGCAATACCAACGCCAAGCTGGAGAGCCTCGAGCAGTTTCGCTCCGATGCCACCGAACAGGCCTTGCGCACCAACCAGGGCGTGAAGATCGCCGATAACCAGAACACCCTCCGCGTCGGGCCGCGTGGGCCGTCGTTGCTGGAAGACTTCATCATGCGTGAGAAAATCACGCATTTTGACCATGAACGTATTCCCGAGCGCATCGTTCACGCCCGAGGGACCGGTGCCCATGGCTATTTTCAGGCCTACGAATCGCATGCGGCCTTGACCAAGGCCGGTTTCCTGCAGGACCCAGGTAAAAAGACGCCAGTGTTTGTACGTTTTTCCACCGTGCAGGGCCCACGGGGTTCCGGTGACACGGTGCGGGACGTGCGCGGCTTTGCAGTGAAATTCTTCACCGACGAAGGCAACTTCGATCTGGTGGGCAACAACATGCCGGTGTTCTTCATCCAGGATGCGGTGAAGTTTCCGGATTTCGTCCATGCGGTGAAACCCGAGCCCCATAACGAAATCCCCACCGGCGGATCGGCCCACGACACCTTCTGGGACTTTGTCTCGCTGGTACCGGAGTCGGCTCATATGGTGATCTGGGCGATGTCCGACCGGGCAATTCCGAAAAGCCTGCGCTCCATGCAGGGTTTCGGCGTGCACAGCTTCCGCATGATCAACGCCGAAGGCCGCAGCAGCTTCGTCAAGTTCCACTGGCGGCCCAAGGCCGGGACGTGTTCCCTGGTATGGGACGAAGCCCAGAAGCTCGCGGGCAAGGACACTGATTACCACCGTCGCGATCTCTGGGAGTCGATCGAGATGGGCGACTACCCCGAATGGGAATTTGGCGTACAGATCGTCGCCGAGGAGGACGAGCACAAGTTCGACTTCGACCTGCTCGACCCGACCAAGATCATCCCCGAAGAGCTGGTGCCCATCACGCCGCTGGGCAAGATGGTGTTGAACCGCAACCCGGACAACTTCTTCGCCGAAGTCGAGCAGGTTGCCTTCTGCCCCGGACATATCGTGCCGGGCATTGATTTCAGTAACGACCCGTTGCTGCAAGGCCGGCTGTTTTCCTACACCGATACGCAGATCAGCCGACTTGGTGGGCCGAACTTTCACGAGTTGCCGATCAACCGCGCCATCACCCCGGTGCACAACGGCCAGCGTGATGCCATGCACCGCACCACTATCGACAAGGGGCGCGCGTCCTACGAGCCGAACTCCATCGATGGCGGCTGGCCGAAGGAAACCCCGCCCGGTCCGCAGGATGGTGGTTTCGAAAGTTATCCGGAGCGCATCGACGCCCACAAGATCCGCCAGCGCAGCGATTCGTTCGGCGATCATTTCTCCCAGGCGCGGTTGTTCTACAAGAGCATGAGCCCCCACGAGCAAGAGCACATCATCGCGGCGTACAGCTTCGAACTGGGCAAAGTGGAACGCGAGTTCATCAGGGCGCGGCAGGTGAACGAGATTCTCGCCAACATCGATCTGGAACTGGCCGGGCGAGTTGCGAAGAACCTCGGCTTGCCGGCTCCCACTGCCGGTACGGTCGATGTTCCGACGCCTTCCCTGGAGCAGTCCCCGGCGTTGAGCCAGGCCAATCTGCTGTCCGGCGACATCAAGACCCGCAAGGTCGCGGTGTTGGTGGCCAATGGCGTCGAGGGGACAATCATTGATGCGCTCAAGCAGGCACTGGAAGCCGAAGGGGCCCACGCGAAAATCCTCGGCCCAACCTCCGCGCCGGTGACCACCGCTGCTGGGCAAACGCTGCCGGTGGATGCGTCCATGGAAGGCTTGCCGTCGATTGCCTTTGACGCGGTGTTCGTGCCGGGCGGGGTGGAGTCGATCAAGGCGCTGAGCGCCGATGGCGTGGCGTTGCATTACCTGTTGGAGGCCTACAAGCACCTGAAGGCCATCGCGCTGCATGGCGAAGCGCGACAGTTGCTGGTGTTGTTGAAGCTGGAGGCGGATGCGGGGCTGATTCCGGACGCTGATGCGGGCAAGTTCCAGGCGTTTTTTGACGCGATTGCCCAGCATCGGGTTTGGGCGCGGGAGCCTAAGGCCAAGGCTATTCCAGCCTGA	MSTKKPAAPSQMAGTDTLDRSNTNAKLESLEQFRSDATEQALRTNQGVKIADNQNTLRVGPRGPSLLEDFIMREKITHFDHERIPERIVHARGTGAHGYFQAYESHAALTKAGFLQDPGKKTPVFVRFSTVQGPRGSGDTVRDVRGFAVKFFTDEGNFDLVGNNMPVFFIQDAVKFPDFVHAVKPEPHNEIPTGGSAHDTFWDFVSLVPESAHMVIWAMSDRAIPKSLRSMQGFGVHSFRMINAEGRSSFVKFHWRPKAGTCSLVWDEAQKLAGKDTDYHRRDLWESIEMGDYPEWEFGVQIVAEEDEHKFDFDLLDPTKIIPEELVPITPLGKMVLNRNPDNFFAEVEQVAFCPGHIVPGIDFSNDPLLQGRLFSYTDTQISRLGGPNFHELPINRAITPVHNGQRDAMHRTTIDKGRASYEPNSIDGGWPKETPPGPQDGGFESYPERIDAHKIRQRSDSFGDHFSQARLFYKSMSPHEQEHIIAAYSFELGKVEREFIRARQVNEILANIDLELAGRVAKNLGLPAPTAGTVDVPTPSLEQSPALSQANLLSGDIKTRKVAVLVANGVEGTIIDALKQALEAEGAHAKILGPTSAPVTTAAGQTLPVDASMEGLPSIAFDAVFVPGGVESIKALSADGVALHYLLEAYKHLKAIALHGEARQLLVLLKLEADAGLIPDADAGKFQAFFDAIAQHRVWAREPKAKAIPA	PGPT0014380_852	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
D1-35_02835	714			hypothetical protein	ATGAAGCCGTTCGCCTCCCGTTATCTGCTCCTTGTCGCGTTTTCCCTGCTGCTGGGCGCCTGCCAGAGCACGCCGCCGACCGTCGAAACCCCGGACACCCGGGGCCCGGCCATCGCGCAGCTCGAACAGAGCCTGGCCAGCAATGAACTGGCCACCGCAGAAGGTCAGCTGGCCGCGTTGCAAGCCCAGACGCCTGAAGATCCGTCGCTGGAGCCTTACCAGCGGCAACTGGCCGAGGCGTACTTGCGCCGCAGCCAGATCGACCTGCAAAAGGGCGATGTAAACGCGGCCGCCACCGCCCTGAGCCGGGCTCGCGCGCTGATGCCAAAAGCGCCGGCACTTACCGGCGAAGTGAACAGTGCGATCGCCCAGGCCCGCAAGGCCGAGCTGGAAAAAGCCGAAGCCGCCCTCCAGGCCGCCGAAGCCAAGCCAGTTGCAAAGGTGATCGACCCGAGTGCGCAGAGCACCACGGTTGCGCTGAATATCGGCGATATCCAGAAAATGCGTCATCAATTGGACGCTATCGCCGCCGATGTGGTGAATTACCAGTGCGACGTCAGCATCCAGGCCCCGCGCACCGATGATTACCCTTGGTTGGCGACATTGCTGACCAAGCGGGTCAAGAAACTCGATCCCGGGTTTGATCTGAAACTGCAGAAGCAGATCTTGCGTAGCGTGCCGGCGCAAGTGGTTCTGACTCCGCGTAAGCTCTGA	MKPFASRYLLLVAFSLLLGACQSTPPTVETPDTRGPAIAQLEQSLASNELATAEGQLAALQAQTPEDPSLEPYQRQLAEAYLRRSQIDLQKGDVNAAATALSRARALMPKAPALTGEVNSAIAQARKAELEKAEAALQAAEAKPVAKVIDPSAQSTTVALNIGDIQKMRHQLDAIAADVVNYQCDVSIQAPRTDDYPWLATLLTKRVKKLDPGFDLKLQKQILRSVPAQVVLTPRKL				NA	NA	NA	NA	NA
D1-35_02836	789	znuB_2	COG1108	High-affinity zinc uptake system membrane protein ZnuB	ATGGCTGATTTTCTGTTGTACGCCCTGCTTGCAGGTTTGGCGCTGGCGCTGGTGGCCGGCCCCTTGGGCTCGTTCGTGGTCTGGCGGCGCATGGCCTATTTCGGCGACACCTTGTCCCACGCGGCGCTGCTCGGCGTGGCCATGGGGTTTCTGCTGGACGTCAGCCCCGCCATCGCGGTGACCGTGGGTTGCCTGCTGCTCGCAGTGGTGCTGGTGACCTTGCAACAGCGCCAGCCGCTGGCGTCCGACACCCTGCTGGGCATCCTGGCTCCCAGCACGCTGTCCCTCGGGCTGGTGGTGCTCAGCTTCATGCGCGACGTGCGGATCGATCTGATGGCCTATCTGTTCGGCGATCTGCTGGCGATCAGTCCGATGGACCTGGCCTGGATCCTCGGCGGTAGCGCGGCGGTATTGCTGTTGCTCGTGGCGCTGTGGCGTCCGTTGCTGGCGGTTACCGTCCATGAGGAACTGGCACGGGTCGAGGGCCTGCCCGTGGTGGGCCTGCGATTGGCGCTGATGCTGTTGATCGCAGTGGTGATTGCCGTGGCGATGAAGATCGTCGGTGTATTGCTGATTACTTCATTGCTGATCATTCCGGCGGCTGCGGCACAGCGTCACGCCCGCTCACCGGAGCAGATGGCCTTGGGCGCAAGCCTGCTGGGCATGCTCGCGGTGTGTGGCGGGCTGGCGTTGTCGTGGTTCAAGGACACTCCGGCCGGACCGTCGATCGTGGTCAGCGCGGCGGCGTTGTTTCTGCTGAGTTTTGTCCTGCCCCGTCGAGGGGTGTAG	MADFLLYALLAGLALALVAGPLGSFVVWRRMAYFGDTLSHAALLGVAMGFLLDVSPAIAVTVGCLLLAVVLVTLQQRQPLASDTLLGILAPSTLSLGLVVLSFMRDVRIDLMAYLFGDLLAISPMDLAWILGGSAAVLLLLVALWRPLLAVTVHEELARVEGLPVVGLRLALMLLIAVVIAVAMKIVGVLLITSLLIIPAAAAQRHARSPEQMALGASLLGMLAVCGGLALSWFKDTPAGPSIVVSAAALFLLSFVLPRRGV	PGPT0004225_2332	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004225-znuB-K09816	NA	NA
D1-35_02837	783	znuC	COG1121	Zinc import ATP-binding protein ZnuC	ATGAGCAACGCGTTGATCCGCCTCGAACAGGTGGCCGTGACGTTCGCCGGGCAGAGCGTGCTGGACAACATTCACCTGAGCGTCGAACCGGGGCAGATCGTCACCCTGATCGGCCCCAACGGCGCCGGCAAGACCACCCTCGTGCGCGCCGTGCTGGGCCTGCTCAAGCCGGACAGCGGCAGCGTCTGGCGCAAGCCCCGGCTGCGTGTCGGCTACATGCCGCAGAAACTCCACGTCGACCCGACCTTGCCGCTGTCCGTGCTGCGCTTTCTGCGCCTGGTGCCGGGCGTCGACCGCGAGCGAGCCTTGGCGGCGCTGAAGGAAGTCGGCGCCGAGCAAGTGATCGACAGCCCGGTGCAGAGTGTGTCCGGCGGCGAGATGCAGCGTGTATTGCTCGCTCGCGCCCTCTTGCGCGAGCCCGAGCTGCTGGTGCTCGACGAGCCCGTGCAAGGCGTCGATGTGGCGGGACAGGCCGAGCTTTACAGCTTGATCACCCGCCTGCGCGACCGCCACGGCTGCGGGGTATTGATGGTGTCGCACGACCTTCACCTGGTGATGAGCACCACCGACCAGGTGGTCTGTCTCAACCGTCACGTCTGCTGCTCCGGGCATCCCGAGCAAGTCAGTGGCGATCCGGCCTTTGTCGAATTGTTCGGAAAAAACGCACAAAGCCTGGCGATTTATCACCACCATCATGACCATTCCCATGACCTGCACGGTTCGGTGGTCAACGCTCCTTCTGCTTCCAATCATGTTCATGGAGACGGCTGCAAGCATGGCTGA	MSNALIRLEQVAVTFAGQSVLDNIHLSVEPGQIVTLIGPNGAGKTTLVRAVLGLLKPDSGSVWRKPRLRVGYMPQKLHVDPTLPLSVLRFLRLVPGVDRERALAALKEVGAEQVIDSPVQSVSGGEMQRVLLARALLREPELLVLDEPVQGVDVAGQAELYSLITRLRDRHGCGVLMVSHDLHLVMSTTDQVVCLNRHVCCSGHPEQVSGDPAFVELFGKNAQSLAIYHHHHDHSHDLHGSVVNAPSASNHVHGDGCKHG	PGPT0004230_795	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004230-znuC-K09817	NA	NA
D1-35_02838	483	zur	COG0735	Zinc uptake regulation protein	ATGCCCATTACCCCCCTTGCCAGTCGTCCCCATGATCACTCCCATTGCGTGCACAGCGCGCTGTCCGAGGCCGACGCCATTTGCGCGCGCCAGGGCCTGCGGCTGACCGCCTTGCGTCGGCGAGTGCTGGAGCTGGTCTGGCAAAGCCACAAGCCGCTGGGTGCCTACGACATCCTCGCGGTACTCAGCGAGCAGGACGGCCGCCGTGCCGCGCCGCCGACAGTCTACCGGGCGCTGGATTTCCTGCTGGAAAACGGCCTGGTACATCGCATTTCTTCGCTGAACGCCTTCGTTGGCTGCAACCATCCGGAGCACGCCCACCAAGGCCAGTTCCTGATCTGCCGCGAATGTCATGCGGCCATCGAGCTGGAACAGAAGTCCATCAGCGACGCGATCGTCGCCAGCGCCAAGGACGTCGGCTTCGTTGTCGACACCCAGACCGTCGAAGTGGTCGGCCTGTGCTCCGGTTGCCAGGGGGCCTGA	MPITPLASRPHDHSHCVHSALSEADAICARQGLRLTALRRRVLELVWQSHKPLGAYDILAVLSEQDGRRAAPPTVYRALDFLLENGLVHRISSLNAFVGCNHPEHAHQGQFLICRECHAAIELEQKSISDAIVASAKDVGFVVDTQTVEVVGLCSGCQGA	PGPT0003905_802	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003905-zur-K09823	NA	NA
D1-35_02839	933	znuA	COG4531	High-affinity zinc uptake system protein ZnuA	GTGTCCCGAATTTTTTCGCTCTTTGTCGCTTTTGTCGCAACATTTCTGCTGATTGGCCCGGCCCGGGCCGACGTCAAGGTGCTAACCAGCATCAAGCCGCTGCAACTGATTGCCGCCGCGGTGCAGGACGGCGTGGCCGTTCCGGAAGTGCTGTTGCCCCCTGGTGCCTCGCCTCACCACTATGCGCTGCGTCCATCCGACGTACGGAAGGTGCAATCGGTGGACCTGCTTTACTGGATCGGCCCAGACATGGAAGGTTTCCTGCCGCGTGTGTTGAATGGTCGTACGCAGCCTTCCGTCGCCGTGCAGGATCTGCCGGGGCTCAAGTTGCGTCATTTCGCCCAGGACAGCGCGTCCCACGAGGACGAGGACGAGAAGCATGCCGACGAACATGACCACGACCATCGTCCCGGCACCGTGGATGCCCACTTGTGGCTGTCGCCGCTGAACGCCCGGGTGATCGCCGCCAGAATGGCTGCCGACCTGAGCGCGGCGGATCCGGCGAACGCGGCCCGCTATGACAGCAACCTCAAGGCTTTCAACCAGCGCCTCGATGCATTGGACGTACGCCTCAAGGCGCGTCTGGCCGGGGTCGCAGGCAAGCCGTATTTTGTGTTCCACGAAGCGTTCGACTATTTCGAGGACAACTACGGCCTCAAGCATGCCGGGGTTTTCGCCGTGGCCGCCGAGGTCCAGCCCGGTGCCCAGCACGTGGCGGCGATGCGCACGCGCTTGCAGGCGGTGGGCAAGACCTGCGTTTTCAGCGAACCGCCGCTGCGTCCGCGCCTGGCCGAGACGCTGGTGGCCGGGCTGCCGGTGAAGCTGGCCGAACTGGATGCGCTGGGCGGCTACACCCCGGCAACGGCACAAGGGTATGAGCAATTGCTGGAAAAGTTGGGGAATGATCTGGCGGGGTGCCTGGAGTCGTTGTAA	MSRIFSLFVAFVATFLLIGPARADVKVLTSIKPLQLIAAAVQDGVAVPEVLLPPGASPHHYALRPSDVRKVQSVDLLYWIGPDMEGFLPRVLNGRTQPSVAVQDLPGLKLRHFAQDSASHEDEDEKHADEHDHDHRPGTVDAHLWLSPLNARVIAARMAADLSAADPANAARYDSNLKAFNQRLDALDVRLKARLAGVAGKPYFVFHEAFDYFEDNYGLKHAGVFAVAAEVQPGAQHVAAMRTRLQAVGKTCVFSEPPLRPRLAETLVAGLPVKLAELDALGGYTPATAQGYEQLLEKLGNDLAGCLESL	PGPT0004220_2127	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	ROOT_COLONIZATION-ZINK_TRANSPORT_LIPOPROTEIN,PGPT0004220-znuA-K09815	NA	NA
D1-35_02840	951	thrB	COG2334	Homoserine kinase	ATGTCTGTGTTCACGCCCCTGGCTCGGCCCGAGCTGGAAACCTTTCTTGCCCCTTACGGGCTCGGCCGCCTGCTTGATTTCCAGGGGATCGCCGCCGGCAGCGAAAACACCAATTTTTTCATCAGCCTGGAACAGGGCGAGTTCGTCCTGACGCTGGTCGAGCGCGGCCCGGTGCAGGAGATGCCGTTCTTCATCGAACTGCTGGACGTGCTGCACGGCGCCAATTTGCCGGTGCCTTACGCCTTGCGCACCACCGAGGGGGTCGCACTGAGGGAACTGGCCGGCAAACCGGCGCTGCTGCAACCGCGCCTGGCCGGCAAGCACGTCAAGCAGGCCAACGCCCAGCATTGCGCCCAGGTTGGTGAATTACTTGCGCACCTGCACCTGGCGACCCGCGACAACATGATCAAGCGCAAGACCGACCGTGGCCTGGACTGGATGCAGGAGGAGGGCGCCACGCTGTTGTCACACCTCGACGCCGATGCCCGTCAGTTGCTGGAGGCGGCACTGGACGAAATCACCGTGCAGAAAATCGGCATCCTCGCGCTGCCCCGCGCCAACATCCATGCCGACCTGTTCCGCGACAACGCGATGTTCGAAGGCACCCACCTGACCGGGTTGATCGACTTCTACAACGCCTGTTCCGGGCCGATGCTGTATGACGTCGCCATTGCACTGAATGACTGGTGTTCGGATGACGAAGGCATGCTCGATGGCCCGCGGGCGCGAGCGTTGCTTGGCGCTTATGCGGCGCTGCGGCCGTTCACATCCGCCGAGGCGCAACTATGGCCGACCATGCTGCGCGTGGCGTGCGTGCGGTTCTGGCTGTCGCGGCTGATTGCCGCCGAATCGTTCGCCGGGCAGGATGTGTTGATTCATGATCCGAAGGAATTTCAGCGGCGGCTGGCGCAGCGGCAGAAGGTCAGCACGCTGTTGCCGTTCGCCCTGTAA	MSVFTPLARPELETFLAPYGLGRLLDFQGIAAGSENTNFFISLEQGEFVLTLVERGPVQEMPFFIELLDVLHGANLPVPYALRTTEGVALRELAGKPALLQPRLAGKHVKQANAQHCAQVGELLAHLHLATRDNMIKRKTDRGLDWMQEEGATLLSHLDADARQLLEAALDEITVQKIGILALPRANIHADLFRDNAMFEGTHLTGLIDFYNACSGPMLYDVAIALNDWCSDDEGMLDGPRARALLGAYAALRPFTSAEAQLWPTMLRVACVRFWLSRLIAAESFAGQDVLIHDPKEFQRRLAQRQKVSTLLPFAL	PGPT0020285_1075	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020285-thrB2-K02204	NA	NA
D1-35_02841	288			hypothetical protein	ATGCGTACACTAAATCGCCTGTTACTGGCTGGCTTGTTTGCATTCACACCGTTGGCCGTCATGGCGGCGGATGACGCTCCTTCGGCGGACCCGGATGTCACCATCCGCACCGAAGGCGACAGAACCATTCAGGAATATCGGCAAAACGGCTTTTTGTATGCGATCAAGGTCACGCCCAAGAACGGCAAGCCTTATTTCCTGGTACGCGCCGACGGCACTGATGCAAATTTCATTCGTTCGGACCAGCCGGATATGCTGATCCCTTCGTGGAAAATTTTTGAGTGGTGA	MRTLNRLLLAGLFAFTPLAVMAADDAPSADPDVTIRTEGDRTIQEYRQNGFLYAIKVTPKNGKPYFLVRADGTDANFIRSDQPDMLIPSWKIFEW				NA	NA	NA	NA	NA
D1-35_02842	2769	polA	COG0258	DNA polymerase I	ATGAGCCAAGCCCCCCTCGTCCTGGTGGACGGTTCTTCTTATCTGTACCGCGCCTTTCACGCGCTGCCACCGCTGACCACGTCCAAAGGCCTGCCGACCGGTGCGGTAAAGGGCGTGCTGAACATGCTCAAGAGCCTGCGCAAGCAGTATCCGGACAGCCCGTTCGCGGTGGTCTTCGACGCGAAGGGTGGGACGTTTCGCGATGCGTTGTACGCCGAATACAAGGCCAATCGCCCGAGCATGCCCGACGACATGCGCGTGCAGATCGAGCCGCTGCACGCCAGCGTAAAGGCCCTGGGCTTCCCCTTGTTGTGCGTGGACAACGTCGAAGCCGACGACGTGATCGGCACCCTGGCCCGCAGCAGCGCCGCGGCCGACCGCCCGGTGGTGATTTCCACCGGCGACAAGGACATGGCGCAGCTGGTCGATGGGCACATTACCTTGGTCAACACGATGACCGGTAGCTCACTGGACGTGGCTGGCGTGAAGGAGAAGTTTGGCGTCGCTCCGGAGCAGATCATCGATTATCTGGCATTGATGGGCGATTCGTCCGACAACATCCCGGGCGTTCCGGGCATCGGGCCGAAGACCGCATCCGGCCTGCTGGTGGGCGTCAACGGTGGCCTGACCGAGCTGTATGCGCAACTGGACATCGTTGCCACGCTGCCGATTCGCGGTGCCAAGACCTTGGCCGCCAAGCTGGAAGAGCACAAGGAAATGGCGTTTCTTTCCTACGAGCTGGCGACAATCAAGACCGACGTCCCCCTGGATATCGGCCTCGACGACTTGCAGATGGGCACGCCGGATCACGAAAAGCTCGCCGAGCTGTACACCCTGCTGGAATTCAAGAGCTGGTTCGAAGAAAACCAGCGCGACGCCAAGCGTGCCGGGCAGGAAATCGTTGAAATCGCTGATGAGCCGGCGGCGGGCGTCGAGAAGCGGTATGACCTTATCCTCGACCAGGCGAGCTTCGACGCCTGGCTGGCCAAGCTTGAAAAGGCGCCGCTGTTTTCCCTGGTCACGCAAACCAACGGTGGCGACGCCCAGCACTCGCAACTGGTGGGGTTGTCATTCGCGGTTGCGCCGTTTGAAGCGGCTTACGTGCCGCTGACGCATTCCTACATGGGCGTGCCGGAGCAACTGGACCGCGACACCGTGCTCAAGGCGCTCAAGCCATTGCTGGAAAACCCGGACAAGCTCAAGGTCGGCCAGCATGCCAAATTTGAAATCAACATCCTGGCCAATTGCGCTATCGGTGGTGATCAGAACAACGGCATCCTGGTGCAGGGCATCGCTTTCGACACCATGCTTGAATCCTATGTGCTCGATTCCACGGCAACTCGTCACGACATGGACAGCCTGGCGCTGAAATACCTTGGGCAAAGCAAGACCGATATCCAGGATATTGCCGGCAAAGGCGTCAAGCAGCTGAGTTTCGATCAGATCTCCCTCGAACTTGCCGGCCCATACGCCGCTGAGGATGCTGACGTGACCTTCCGCCTGCACCAGGCCTTGCAGGAAAAACTCGCCGTCACGCCAAGCCTGGGCAAGGTGCTCAACGAGATCGAAATGCCGTTGATGCCGGTCCTGGCGCGTATCGAGCGCCAAGGGGCGTTGGTCGATGCCAACCTGCTGGGCGTCCAGAGTGTCGAGCTGGGCGAGAAGCTGGTTGCACTGGAGCGTGAGGCATTTGCCATCGCCGGTGAGGAATTCAACCTCGGCTCACCGAAGCAACTGGGCGTGATCCTTTACGAAAAACTCGGTTTGCCGGTGCTCAGCAAAACCGCCAAGGGCCAGGCATCGACTGCCGAAGCGGTGCTCGCCGAACTGGCCGAGCAGGATTATCCGCTGCCCAAGGTGCTGATGCAGTACCGCTCGCTGAGCAAGCTCAAGAGCACTTACACCGATCGCCTGCCGGAGCAGATCAACAGCCGCACCGGGCGCATTCATACGTCTTATCAACAGGCTGTGGCCGCCACCGGACGTCTTTCATCCATTGACCCGAACCTGCAGAACATCCCGATCCGCACCGCCGAAGGGCGGCGGATTCGCCAGGCATTCGTCGCGCCGAAAGGCTACAAGCTGCTGGCGGCGGACTACTCGCAGATCGAATTGCGGATCATGGCCCACCTGGCCAAGGACGCAGGGCTGCTCCATGCGTTTCGCAACGACCTGGACGTGCACCGCGCCACCGCTGCCGAGGTATTCGGGGTCGAGCTGGACGCCGTCAGCCATGACCAGCGCCGTAGCGCCAAGGCGATCAACTTCGGCTTGATCTATGGCATGAGCGCGTTCGGCCTCGCCAAGCAGATCGGCGTCGATCGCAAGCAGTCCCAGGCTTACATCGACCGCTACTTCGCGCGCTACCCGGGGGTACTGGAATACATGGAGCGCACCCGCGCCCAGGCCGCCGAGCAAGGCTTCGTCGAGACCATCTTCGGGCGCCGGTTGTATCTGCCGGACATCAATGCGAAAAACCCTGCCCTGCGCAAAGGCGCCGAGCGCACCGCGATCAACGCGCCGATGCAGGGTACGGCCGCCGACATCATCAAGAAAGCCATGGTGGCCGTCGATGGCTGGCTGGCGACGTCAGGGCTCGATGCGAAAGTCATCCTGCAGGTGCACGACGAATTGGTGCTGGAGGTTCGTGAGGACCTGGTCGACCAGGTGAGCGCGGAAATCCGCCAGCACATGAGCGCCGCCGCCACGTTGGACGTGCCGCTGCTGGTGGAGGTTGGCGTGGGCAATAACTGGGACGAGGCGCACTGA	MSQAPLVLVDGSSYLYRAFHALPPLTTSKGLPTGAVKGVLNMLKSLRKQYPDSPFAVVFDAKGGTFRDALYAEYKANRPSMPDDMRVQIEPLHASVKALGFPLLCVDNVEADDVIGTLARSSAAADRPVVISTGDKDMAQLVDGHITLVNTMTGSSLDVAGVKEKFGVAPEQIIDYLALMGDSSDNIPGVPGIGPKTASGLLVGVNGGLTELYAQLDIVATLPIRGAKTLAAKLEEHKEMAFLSYELATIKTDVPLDIGLDDLQMGTPDHEKLAELYTLLEFKSWFEENQRDAKRAGQEIVEIADEPAAGVEKRYDLILDQASFDAWLAKLEKAPLFSLVTQTNGGDAQHSQLVGLSFAVAPFEAAYVPLTHSYMGVPEQLDRDTVLKALKPLLENPDKLKVGQHAKFEINILANCAIGGDQNNGILVQGIAFDTMLESYVLDSTATRHDMDSLALKYLGQSKTDIQDIAGKGVKQLSFDQISLELAGPYAAEDADVTFRLHQALQEKLAVTPSLGKVLNEIEMPLMPVLARIERQGALVDANLLGVQSVELGEKLVALEREAFAIAGEEFNLGSPKQLGVILYEKLGLPVLSKTAKGQASTAEAVLAELAEQDYPLPKVLMQYRSLSKLKSTYTDRLPEQINSRTGRIHTSYQQAVAATGRLSSIDPNLQNIPIRTAEGRRIRQAFVAPKGYKLLAADYSQIELRIMAHLAKDAGLLHAFRNDLDVHRATAAEVFGVELDAVSHDQRRSAKAINFGLIYGMSAFGLAKQIGVDRKQSQAYIDRYFARYPGVLEYMERTRAQAAEQGFVETIFGRRLYLPDINAKNPALRKGAERTAINAPMQGTAADIIKKAMVAVDGWLATSGLDAKVILQVHDELVLEVREDLVDQVSAEIRQHMSAAATLDVPLLVEVGVGNNWDEAH				NA	NA	NA	NA	NA
D1-35_02844	642	engB	COG0218	putative GTP-binding protein EngB	ATGCAACTGAAAAACCCCATCCTCGGCCTGTGCCAACAGTCCACCTTCATGCTCAGCGCCGCCAAAGTCGATCAATGCCCTGACGACGAAGGCTTCGAAGTGGCCTTTGCCGGGCGTTCCAATGCCGGTAAATCCAGCGCGCTGAACACCCTGACCCATGCGAGCCTGGCACGCACCTCGAAAACCCCGGGCCGCACGCAACTCTTGAACTTCTTCAAGCTAGACGATGAACGCCGTTTGGTCGACCTGCCCGGTTATGGCTACGCCAAAGTGCCGATCCCGCTCAAGCAACATTGGCAGCGTCACCTGGAAGCCTACCTGGGCAGCCGCGAGAGTTTGAAAGGTCTGATCCTGATGATGGACATCCGCCATCCAATGACCGACTTCGACCTGCTGATGCTCGATTGGGCCGTTGCCAGCGGCATGCCGATGCACATCCTGTTGACCAAGGCCGACAAGCTCACCTACGGCGCAGCGAAAAACACCCTGCTCAAAGTGCAGTCGGAAATTCGCAAGGGCTGGGGCGACACGATCACCATCCAGCTGTTCTCCGCGCCCAAGCGCATGGGCCTTGAAGAGGCCTACACGGTGTTGGCGGACTGGATGGAATTAGCGGACAAGGGCAGCGAAGCGGCCGAGTAA	MQLKNPILGLCQQSTFMLSAAKVDQCPDDEGFEVAFAGRSNAGKSSALNTLTHASLARTSKTPGRTQLLNFFKLDDERRLVDLPGYGYAKVPIPLKQHWQRHLEAYLGSRESLKGLILMMDIRHPMTDFDLLMLDWAVASGMPMHILLTKADKLTYGAAKNTLLKVQSEIRKGWGDTITIQLFSAPKRMGLEEAYTVLADWMELADKGSEAAE	PGPT0003655_8	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003655-hemB-K01698	NA	NA
D1-35_02845	291			hypothetical protein	ATGACGAAATGGCTGCTAGCTGCCGGTGTCTTGATGCCGCTTTACAGCGCTCAGGCTACACAGGATCCGGAAGCTGTGTACAACCGTGTTTGTGGTGCCTGTCATTCCGGCCAACTACCCACGGCGCCCCGCAAGGGTGACCGCGAAGCCTGGACGCCGAGGTTGGCGAAAGGCATGGGGACGCTGGTGCAACACGTGACCCAGGGTTTCAAGGCGATGCCGCCGCGTGGTTTGTGCATGGACTGCAGTGCCGAGGATTACCAAGCCATCATCCAGTGGATGAGCGAGTAA	MTKWLLAAGVLMPLYSAQATQDPEAVYNRVCGACHSGQLPTAPRKGDREAWTPRLAKGMGTLVQHVTQGFKAMPPRGLCMDCSAEDYQAIIQWMSE				NA	NA	NA	NA	NA
D1-35_02846	612	cc4	COG2863	Cytochrome c4	ATGAACAAACTGATCGTGAGTCTGCTGTTGACCTTGGGGATATCCGGTGTAGCCCACGCCGCAGGCGATGCTGCCGCAGGCCAGGCGAAAGCCGCCGTGTGCGGAGCCTGCCACGGTCCGGATGGCAACAGCATGGCGCCCAACTTTCCGAAACTGGCCGGCCAGGGTGAGCGTTACCTGGTCAAGCAGTTGAAGGAAATCAAGGACGGCAAGCGTGTCGTGCTGGAAATGACCGGCCTGCTGAACAACCTGAGCGATCAAGACCTGGCGGACATCGCGGCCTACTTCGCCAGCCAGAAAGGCAGCGTCGGCGCCGCTGATCCAAAACTCGTGGCACGGGGTGAGGCGCTGTTCCGTGGCGGCAACCTGGCCAAGGGCCTGCCAGCCTGCACGGGCTGCCATTCGCCTGACGGCAAGGGCAACGCCGCCGCCGGCTTCCCGCATCTGGGTGGCCAGCACGCCCAGTACATCACCAAGCAGTTGACCGATTTCCGCAAGGAAGAAGGCGGTCGTGCCAACGACGGCGACGCGATGACCATGCGCACCATCGCCCGCAAGCTGAGCGACGAAGATATCGCGGCAGTCTCGAGCTACATCCAGGGCCTGCATTGA	MNKLIVSLLLTLGISGVAHAAGDAAAGQAKAAVCGACHGPDGNSMAPNFPKLAGQGERYLVKQLKEIKDGKRVVLEMTGLLNNLSDQDLADIAAYFASQKGSVGAADPKLVARGEALFRGGNLAKGLPACTGCHSPDGKGNAAAGFPHLGGQHAQYITKQLTDFRKEEGGRANDGDAMTMRTIARKLSDEDIAAVSSYIQGLH				NA	NA	NA	NA	NA
D1-35_02847	642	dsbA	COG0526	Thiol:disulfide interchange protein DsbA	ATGCGTAATCTGATCATCAGCGCCGCGCTCGTCGCCGCCAGCCTGTTCGGCGTGACTGCCCAAGCGGCTGAAAAGCCCGCTGCCCCTTATGTCGAATTGACCAACCCCGTTCCGGTGGCGGTGCCTGGCAAGATCGAGGTCGTGGAGCTGTTCTGGTACGGTTGCCCGCATTGCTATGCCTTTGAGCCGGTCATCAACCCATGGGTTGATAAGCTGCCTTCGGACGTGAATTTCGTGCGCATCCCAGCCATGTTCGGTGGCCCATGGGACGCCCACGGCCAGATGTTCCTGACTCTTGAAGCCATGGGCGTCGAGCATCAGGTTCACGCGGCGGTATTCAACGCGATTCAGAAAGAACACAAAAAACTGACCGACAAGAACGACATGGCCGACTTCCTCGCCACCCAAGGCGTCGACAAGGACAAGTTCCTGGCGACTTTCGACTCCTTCGCTATCAAAGGCCAGATCACCAAGGCCCGCGAATTGGCAAAGAAATACGAGATCACCGGCGTACCGACCATGGTCGTCAACGGCAAATACCGCTTTGACATCGGCTCCGCTGGCGGCGCGAACGAAGCGCTGCAACTGGCCGACCAGCTGATCGCCAAAGAGCGGGCGGCCACCAAGGCTGCTGCCAACTAA	MRNLIISAALVAASLFGVTAQAAEKPAAPYVELTNPVPVAVPGKIEVVELFWYGCPHCYAFEPVINPWVDKLPSDVNFVRIPAMFGGPWDAHGQMFLTLEAMGVEHQVHAAVFNAIQKEHKKLTDKNDMADFLATQGVDKDKFLATFDSFAIKGQITKARELAKKYEITGVPTMVVNGKYRFDIGSAGGANEALQLADQLIAKERAATKAAAN	PGPT0015115_715	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015115-dsbA-K03673	NA	NA
D1-35_02848	879			hypothetical protein	ATGGCCCGCTGGAGTACCGAACGCATCGTTGGCCTGCATGAACCGCGGGTCAACGAGCATCACGTCACGTCCACGGGCCTGCCCGCCGACAATCGCCTGCGGTTGCTCAGCTTCAACATCCAAGTGGGCATCAGCACCGAGCGCTACCGGCACTATCTGACCCGGGGCTGGCAACACCTGCTGCCCCACACCGGGCGAGCCGGCAACCTGCAGAAGATCGGCGACCTGCTGAAGGATTTCGACCTGGTCGCATTGCAGGAAGCCGACGGCGGCAGCCTGCGCTCCGGCTACGTCAATCAGGTCGAACACCTCGCCCAACTGGGCGCGTTTCCTTATTGGTACCAGCAACTCAATCGCAACCTCGGTCGTCTCGGCCAGCACAGCAATGGCGTGCTGAGTCGTCTGCGGCCCTGGGCGATCGAGGATCACCCGTTGCCGGGCCCCAAGGGGCGCGGAGCGATCCTGGCGCGTTTCGGCGAAGGTCCGGAGGCGCTGATAGTGGTGATGATGCACCTGGCTCTCGGGGCTCGGACCCGAACCATGCAACTGGCCTACATTCGTGAGTTGATTGGCGGCTACAAGCATCAAATCCTGATGGGCGACATGAATACCCATGCCAATGACCTGTTGCAGACCTCACCGCTGCGCGACCTTGGCCTGCTCGCCCCACAATTGGAAGCCACGTTTCCCAGCTGGCGCCCCCAGCGCTGCCTGGACCATATCCTGCTGAGCCCTACCTTGGCCCTCGAACGGTTCGAAGTGTTGGCCCAGCCCATTTCCGATCACCTGCCGGTAGCGGTCGAAATACGTTTGCCGGGTTCGCTCACGGCCGATGCATTTCCCGCGCTGAGTCCTACCCCTCGCGGATCCGATGAATGA	MARWSTERIVGLHEPRVNEHHVTSTGLPADNRLRLLSFNIQVGISTERYRHYLTRGWQHLLPHTGRAGNLQKIGDLLKDFDLVALQEADGGSLRSGYVNQVEHLAQLGAFPYWYQQLNRNLGRLGQHSNGVLSRLRPWAIEDHPLPGPKGRGAILARFGEGPEALIVVMMHLALGARTRTMQLAYIRELIGGYKHQILMGDMNTHANDLLQTSPLRDLGLLAPQLEATFPSWRPQRCLDHILLSPTLALERFEVLAQPISDHLPVAVEIRLPGSLTADAFPALSPTPRGSDE				NA	NA	NA	NA	NA
D1-35_02849	2049			hypothetical protein	ATGAGCGACGACGCCGAACGCTGGAGAGAGAAATACCTCAAGAGCATCGAGCAACAGGAAAAGCTCGAGCGTCGCTGGGACGCCCGGCTCGACCTGCTGCGTCGTGGCCTGGTGCGCAGCACCCTGGCCGCCGAAGGCACTGATCGCGCGGTAGACCAGTGCATGAAAGAGATGCGCGAAGTGGTGCGCACCGATGACATGGACGCCGCCCTCGCCGCCCTGCTGCCGCGCCTGGAAAAAGCCGTACTCGATTCCGAGCAGCGCCGCGAGACCCGGGTAGAACAGATGAGCGCCGCGCTGACCGCCCTGGTCGTCCAGTTGCAAAAGCTGCCGCTGCCGAAGGACGTCAGCCGGCCCTTGAAGAAATTTTCCAAGCAACTGGAGACCCGGGTTGGCCAGGCCCGGGAAATCCCGTTGCTGCTCAGCGAGCTGAGCAGCCTGCAGGGCAAGGCGCTGGGTGCGCTGGACGCGCCCGACGAGCCGAGCCGTCCGGGCCTGCTGCAACGATTGTTCGGCGGCCATGGCCATGAAGAGCCGCTACCGTCGCCCGAGCCTGCCCAACCCGGCGCTACGCCTGAGCCGAAGGCGGTTATTTCGGCTCCTACCGAGCCGACCGCCGAAGCGCCCTCCGCCGCACCTGAACCTGCGCCTGCACCTGAACTTCAACCTGAACCTGAACCTGAACCGCTGGTGGAGCACGCCCTCACACCGGATGCGTCGCCAGCGCCGGTTGAGTCCCATGCTCCGGTCGACGAGCCTGCCCCGGCGTCCGTGCCAGCATCGGTTGCCTCTGTTGCCCAGCCGACCGCCGAGCCGGCACCGATCGACCCTGAGCCCGCAGAACCGGTACCGGCGCTGGACAATCCCGACGAACTGACGCCGGGTGAACCGCCGCTCGACGAGGCACCGATCGCCCCTGCGGAACCCGCCGAACCTGTGGCGCCTGAGGCATCCGCTGACCCCGATGAGACCCACTACGCCCTGCCCGACTCCCCGGAACCGTCCTACAGTTCGGTCGCCAGGCATATCGAAGACACCTTGCTCGGCCTGCTGGGCGACCTGACGCTGCCCGAGCGCCACCGCCCGCAAGCCGAGGCCATGCGCGAGCGCCTGCGAAATGGCTTGAATTGGTACGAGTTACTGCCGATCCTCGACGATCTGGCGGTCCTCATGCTGGCGATCACTGACAGTGGCCAGCATGAATTCGAAGCGTATCTGCAGCGACTCAACGATCGACTGGAATCTTTCCAGAGCACGTTGCAGGCCGCCAGCGAGGACCACGCCGATAACCTGTCCGCCTCCAGGGAAATGAACAACCAGATTCGCGAGCAGGTGGACGGCTTGCAGAGCAGCGTGCAGCAAGCCGACGACCTGGAAGGCCTCAAGCAGGTATTGGAGAATCATCTCGAAGGCCTGATCGGCACGATGGATCAGCATCAGAAGCAGCGTGACCAGCGTGAGAAGGAAGTTTCAGCCCGTCTGAAGAGCCTCGCCGAGCGCGTTGCACTGATGGAACAGGACGCCCTGATTGTCCGGGAGAATCTGGAAGAGCAACGGCAAAAAGCGCTCATCGATCCGCTCACCGGGCTGCCCAACCGCGCGGCCTGGACCGAGCGTCTCGAACATGAGGTCGAGCAGTGGCAGCGGCACGGCAACAGTCTTTTGATCGCCATGCTCGACCTCGATCATTTCAAGCGGATCAACGACAACTACGGTCATCTGGCCGGTGACCGAGTGCTCAAGCTGATTGCCTCGGTACTCCGCAAGCGCGTGCGCGGCAGTGATTTCATCGCCCGTTTTGGTGGTGAGGAGTTTGTCCTGCTGGTGCCCGACACGTCGCTGGCCGCAGGCGCCAAGCTGGCCGAGGCCTTGCGCGCCGCCATCGAAGCCTGTCCGTTCCACTTCAAGGGCGAGCCGGTCACGGTCACGGTATCCATGGGCATGACGGCGTTCAAGCCGGGCGAGCACAGCGATCTGGTGTTGAAAAGAGCCGATCAGGCGCTATATCGGGCTAAAAGCGCGGGACGCAACCGCGTGGAGTTGGGCTAA	MSDDAERWREKYLKSIEQQEKLERRWDARLDLLRRGLVRSTLAAEGTDRAVDQCMKEMREVVRTDDMDAALAALLPRLEKAVLDSEQRRETRVEQMSAALTALVVQLQKLPLPKDVSRPLKKFSKQLETRVGQAREIPLLLSELSSLQGKALGALDAPDEPSRPGLLQRLFGGHGHEEPLPSPEPAQPGATPEPKAVISAPTEPTAEAPSAAPEPAPAPELQPEPEPEPLVEHALTPDASPAPVESHAPVDEPAPASVPASVASVAQPTAEPAPIDPEPAEPVPALDNPDELTPGEPPLDEAPIAPAEPAEPVAPEASADPDETHYALPDSPEPSYSSVARHIEDTLLGLLGDLTLPERHRPQAEAMRERLRNGLNWYELLPILDDLAVLMLAITDSGQHEFEAYLQRLNDRLESFQSTLQAASEDHADNLSASREMNNQIREQVDGLQSSVQQADDLEGLKQVLENHLEGLIGTMDQHQKQRDQREKEVSARLKSLAERVALMEQDALIVRENLEEQRQKALIDPLTGLPNRAAWTERLEHEVEQWQRHGNSLLIAMLDLDHFKRINDNYGHLAGDRVLKLIASVLRKRVRGSDFIARFGGEEFVLLVPDTSLAAGAKLAEALRAAIEACPFHFKGEPVTVTVSMGMTAFKPGEHSDLVLKRADQALYRAKSAGRNRVELG				NA	NA	NA	NA	NA
D1-35_02850	831	amiD	COG3023	N-acetylmuramoyl-L-alanine amidase AmiD	TTGGGCGATACGTTACACTGTTGCATTATTTTCTTCGGGCATGTCCTCGCCATGAAATTTTTCCCGATCATTCTTTCGTTGATTGCCCTGGCCGGATGCGCCAGCGGCCCTCGGCTCGATACCAGCCATCCTTCCGTCAACCACGACAGCCGCATCCAGTTTGTCGTGGTTCATTACACCTCCGCCTCCCTGGAGCGCTCCCTGGCCCTGCTGACCCATGGCGAAGTCAGCGCCCATTACCTGATCGGCGACGATAAGGACGCCACCATCTACCAACTGGTGGATGAAAGCCGGCGCGCCTGGCATGCCGGGGAAAGCGAATGGCAGGGCCGAACCTGGCTCAACTCCAGCTCCATCGGCATCGAAATCGTCAATCAGGGCTATGTCGACACGCCTGAAGGACGGCGCTGGTACCCCTACAGCGAAGCCCAGGTGCAATCGTTGATTGTTCTGCTCAAGGACATCACCCGCCGTAACGGGATCAACCCGGTCAATATCATTGGCCACAGCGACATTGCCCCCATGCGTAAGCTGGATCCCGGGCCGCTGTTTCCCTGGAAACGCCTGGCGCAAGCGGGCCTGGGTGTCTGGCCGGACGAAGGGGCTGTCGCGCGTCAGCAGACGGCTTATGCGGGACAACTGCCCAGCGCCAGCTGGTTCCAGGCGGAACTGGCCCGCCTTGGCTACCCGACGCCACGGACCGGTGAGTGGGACGTCGCCACCCATCAGGTATTGGCCGCCTTCCAGATGCGCTACCGGCCAAGCCGTTTCGACGGCGCGCCGGACGCCCAAAGTGCGGCAATTTTGCAGGTGCTTAACCAGACAAAATAA	MGDTLHCCIIFFGHVLAMKFFPIILSLIALAGCASGPRLDTSHPSVNHDSRIQFVVVHYTSASLERSLALLTHGEVSAHYLIGDDKDATIYQLVDESRRAWHAGESEWQGRTWLNSSSIGIEIVNQGYVDTPEGRRWYPYSEAQVQSLIVLLKDITRRNGINPVNIIGHSDIAPMRKLDPGPLFPWKRLAQAGLGVWPDEGAVARQQTAYAGQLPSASWFQAELARLGYPTPRTGEWDVATHQVLAAFQMRYRPSRFDGAPDAQSAAILQVLNQTK	PGPT0024155_631	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024155-amiD-K11066	NA	NA
D1-35_02851	1617	pdeB	COG4943	putative cyclic di-GMP phosphodiesterase PdeB	ATGATGACGGCTGCACGCGAAACCCTGCAGAGTTGGCTCCATCGCCCTATTCTTCTGGCGATGATGGCGGCTGCCCTGAGTACGGTGCTGCTGTTGGCCGGGAGCCTGTTTGTAGTGATGCAGCAGATCCAGCAGCGTGAAAGCGAGCAGATGAATGCCCAGGGCGAGCGTTTCCTGCAGCGGCTGGAACAGCTTTTCGGGCAGTTGCGCGAGAGTCTCGACGATTTGCAGGCGCAACCGCTGCGCGGCTGCAACGACGACATGATCGCCACGTTGCAGCAGGTGAGCTTCAGCTACCGCTTTGTCTATGAGGCGGCTTATCTCGATGCCAACGGTGTCTGCTCGAATCGACCGCGTCAGAGCGGTATGTCGTTGGTTCGTCCGCCCGATCTGCGCGGCCCGGCCTACAGCTACTGGCTCAACACCACCACCGAGCCCGACGAAAATCGCGCGGCGTTGATGTTGGGGCGCGGCAATTTTCGCGTCGCTACGTCCCGCGGGCACCTGACCGATGTGGTCGACTTGCCGCCCGGCAGCAGCCTGCTGGTGGTCCTGGACCATGGCGAGCGGGCGATTCCGGTGCTGGGCAGCGCGCAGCGTTGGCCTCCGACAGAGCCTTGGCCACTGAAAAGCCAACAGTCTCTGCAAGTGACCCAGACCCGGCTGATCTATCGGATGCCGACCGACAATCCGGAGTACCAATTGGTGCTCATTGCACCGCGCAACGGTCTGCGCATTCCGGCCAATGCCTGGTGGATGTTGCCCATCAGCCTGATGCTAGGGCTGGGGATCGGCTTCCAGGTCTTCCTGCTGGTGCGCCAGCGCCAGTCCATGGATGCCGAGTTGCACGGGGCTATCCGGCGGGGTGAGTTGCAGGTCTTGTACCAGCCGATCTTCGATCTGCACAGCCGCAACTGCGTCGGTGCCGAAGCGCTGCTGCGCTGGCGGCGGCCGGACGGCACGCTGACCAGTCCGGACCTGTTCATCCCGATGGCGGAAAATACCGGGCAGATACGCCAGATCACCGATTTCGTCCTGCAGCGGCTGTTCGACCAGTTGGGCCAGCTGTTACGGGCCAACCCGCACCTGTATATCTCGGTGAACCTGGCGGCGTGTGACGTGATGGTGCCTCGCATCGGCGAGGTGATTGCCCGCTTGTTGGCGCTGCATCGGGTGTCGGCGCGCCAGATAGCCTTTGAAGTGACCGAGCGCGGGCTGGTTGATGTGCTGGTTGCGAGGGATAATTTGCAATCGCTGCGCGATGTCGGGCATCAGGTGCTGATCGATGACTTCGGCACCGGCTATTGCAGCCTCGCCTATCTGCAAACGCTGCCGGTTGATTGCCTGAAAATCGACAAGGCCTTTATCGATGCGCTGGGTCATGACGCCGCCAGCAGTGGCGTGGCCCCGCACATCATCCGCATGGCCCACGCCCTGGAACTCAAGGTGATCGCCGAAGGCATCGAGCATGAGGCCCAGGCGTCCTACCTGAGCAGTGAAGGCGTGAAGTTCGGCCAGGGCTGGTTGTTCGCCCATGCGCTCAGCGCGGTGCAGCTTATCGAATTGATTACACGCGGGCGGCGCCTGCTTGGACGGCGCCTGGACGACGAAGCCTGA	MMTAARETLQSWLHRPILLAMMAAALSTVLLLAGSLFVVMQQIQQRESEQMNAQGERFLQRLEQLFGQLRESLDDLQAQPLRGCNDDMIATLQQVSFSYRFVYEAAYLDANGVCSNRPRQSGMSLVRPPDLRGPAYSYWLNTTTEPDENRAALMLGRGNFRVATSRGHLTDVVDLPPGSSLLVVLDHGERAIPVLGSAQRWPPTEPWPLKSQQSLQVTQTRLIYRMPTDNPEYQLVLIAPRNGLRIPANAWWMLPISLMLGLGIGFQVFLLVRQRQSMDAELHGAIRRGELQVLYQPIFDLHSRNCVGAEALLRWRRPDGTLTSPDLFIPMAENTGQIRQITDFVLQRLFDQLGQLLRANPHLYISVNLAACDVMVPRIGEVIARLLALHRVSARQIAFEVTERGLVDVLVARDNLQSLRDVGHQVLIDDFGTGYCSLAYLQTLPVDCLKIDKAFIDALGHDAASSGVAPHIIRMAHALELKVIAEGIEHEAQASYLSSEGVKFGQGWLFAHALSAVQLIELITRGRRLLGRRLDDEA				NA	NA	NA	NA	NA
D1-35_02852	1791	kinB	COG5000	Alginate biosynthesis sensor protein KinB	ATGAAACTGGCGATGAAGCTGCGCACACGGCTGTTTCTCAGTATCTCGGCACTGATTACCGTGGCGTTGCTGGGGCTGCTGCTCGGCCTGGTCAGCGTCATGCAGATGGCCAATACCCAGGAACAATCGGTGCGTGACAACTTCTTCCTGCTGGACCTGGGCCTCAAGCTGCGCCAGACACTCGGTGATCAATTAATGATCATGCTGGAGGAAAAGCCCGACCTGACAGTGCTGGAACAATCCAAACGGCAGTATTTCGAGTTGTTGGATGAAGGCATTGCCCATGAGGAGCAACTGGCTGAATCGACCACCAGCTTCAGTCGCGCGAAAGCCGACTACCTCAGTTTCCTCGAGGCCTTCGAGGCCTCTCGTCGGCAACCGACACAACTGACTGGCATCCAGGACCTGACGCAAAAATTCAACGTGCTGCGCGGAGGGTTGATCGAAGGCTACCGTCATGCCCTGAACAAGATCAGCGAAACGCAGGACCGCGCTCGCGCCCGGGCGTTGCTGATTTCCGGCCTGCTGGGGTTGGTGGGATTGGCTGTGCTGATCATCGGTTTCATTACCGCCCACGGCATCGCCCGACGTTTCGGTGCGCCGATCGAAGCCCTGGCCGCGGCGGCGGATGATATCGGCCAAGGCAATTTCGAAGTGACCTTGCCGGTTTCCTCGGCGGCTGAACTGAACCTGCTGACGCGTCGCTTCGGCATCATGGCCCAGGCATTACGGGAACATCAGGCCACCAATGTGGACGAATTGCTTGCCGGCCAGCAGCGCCTGCAAGCGGTCCTCGACAGCATCGACGACGGCTTGCTGATGATCGACCGCCAGGGCCGCCTGGAACACCTCAACCCGGTGGCCCAGCGTCAACTGGGCTGGGACGAGGAGCGCCTGGGCCAGGGTTTGGGCGAGGCCCTTGGACGCGTCGAGCTGGATGAAGAGCTGCAACTGGTACTGCGCGGTGGCACCCAGGAGCGCGCACCGGACGACTTGAGCATCGAAGTGGATGGAGAGTCCCGGGTGCTGACTTACAGCCTCACGCCCGTCATCCATACCCAGGGCCAGATTCTCGGCGCGGTGATGATCCTGCACGATGTCACTGAACAACGCGCCTTCGAACGGGTACGCAGCGAGTTTGTCTTGCGTGCGTCCCACGAGTTGCGCACACCGGTGACAGGCATGCACATGGCGTTCGGGCTACTGCAGGAACGCATGCACTTTCCCGAAGATTCACGCGAGGCGGACCTGCTCAACACCGTCAACGAAGAAATGCAGCGGCTGATGCAGCTGATCAACGACCTGCTGAATTTTTCTCGCTACCAGAATGGCCTGCAAAAGCTCACCCTGGCGCCTTGCTCCATCGAAGACCTGCTGGAAACGGCCAGGATGCGCTTTGCCAAGCAGGCGCAAGAGAAGGGCATCGAGCTGCTCGTGGAGATCCAGGGCCCCTTGCCGCGCCTGCACGCCGATGCCGCGCAACTGGACCGGGTCCTGGACAATCTGATCGACAACGCGATGCGCCACACCAACGGCGACGGCCAGATCCGCCTGCAGGCCCGGCGCCACGGCGAGCGGGTGATCATCAGCGTTGAAGATAATGGCGAGGGCATTGCCTACGGCCAGCAAGGACGGATCTTCGAACCCTTCGTCCAGGTCGGGCGCAAAAAGGGCGGCGCCGGCCTCGGTCTGGCGCTGTGCAAGGAAATCGTCCAGCTCCATGGCGGACGCATGGGCGTTTATTCCAGGCCAGGGCAGGGCACTCAGTTCTACATGGCCCTGACCGTCTGA	MKLAMKLRTRLFLSISALITVALLGLLLGLVSVMQMANTQEQSVRDNFFLLDLGLKLRQTLGDQLMIMLEEKPDLTVLEQSKRQYFELLDEGIAHEEQLAESTTSFSRAKADYLSFLEAFEASRRQPTQLTGIQDLTQKFNVLRGGLIEGYRHALNKISETQDRARARALLISGLLGLVGLAVLIIGFITAHGIARRFGAPIEALAAAADDIGQGNFEVTLPVSSAAELNLLTRRFGIMAQALREHQATNVDELLAGQQRLQAVLDSIDDGLLMIDRQGRLEHLNPVAQRQLGWDEERLGQGLGEALGRVELDEELQLVLRGGTQERAPDDLSIEVDGESRVLTYSLTPVIHTQGQILGAVMILHDVTEQRAFERVRSEFVLRASHELRTPVTGMHMAFGLLQERMHFPEDSREADLLNTVNEEMQRLMQLINDLLNFSRYQNGLQKLTLAPCSIEDLLETARMRFAKQAQEKGIELLVEIQGPLPRLHADAAQLDRVLDNLIDNAMRHTNGDGQIRLQARRHGERVIISVEDNGEGIAYGQQGRIFEPFVQVGRKKGGAGLGLALCKEIVQLHGGRMGVYSRPGQGTQFYMALTV	PGPT0026150_100	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_EXTERNAL_SIGNAL_SENSING,PGPT0026150-kinB-K11383	NA	NA
D1-35_02853	1347	algB	COG2204	Alginate biosynthesis transcriptional regulatory protein AlgB	ATGGAATCCGCCACTGAGCATCAAGGCCGCATTCTGCTGGTAGACGATGAGTCCGCCATCCTGCGTACCTTCCGTTATTGCCTGGAAGACGAAGGCTATACCGTCGCTACCGCCAACAGCGCAGCCCAGGCCGATGCCCTGCTGCAGCGCCAGGTGTTCGACCTGTGTTTTCTGGATCTGCGCCTGGGTGAGGACAATGGCCTCGATGTGTTGGCGCAGATGCGCATCCAGGCGCCATGGATGCGCGTCGTCATCGTTACCGCGCATTCCGCGGTGGACACCGCCGTCGACGCGATTCAGGCCGGTGCCGCCGATTATCTGGTCAAGCCGTGCAGCCCTGACCAACTGCGCCTGGCAACGGCCAAGCAGTTGGAAGTGCGCCAGCTGTCCGCCCGGCTCGAAGCCCTCGAAGGCGAGGTGCGCAAGCCCAAGGACGGACTCGACTCCCACAGCCCGGCAATGAAAGTGGTGCTGGAAACCGCCCGCCAGGTCGCCAGCACTGATGCCAACATCCTTATTCTTGGCGAGTCCGGCACTGGTAAAGGCGAGTTGGCGCGGGCCATTCATGGCTGGAGCAAACGCGCGAAAAAATCCTGCGTCACCATCAACTGCCCATCGCTGACCACCGAGCTGATGGAGAGCGAACTGTTCGGCCACAGCCGTGGCGCATTTACCGGCGCCAGCGAAAGTACCCTGGGGCGCGTCAACCAGGCCGATGGCGGGACGCTGTTTCTCGACGAGATCGGCGACTTTCCCCTCGCACTGCAGCCCAAGTTGCTGCGCTTCATTCAGGACAAGGAATACGAGCGAGTGGGTGACCCGGTCACTCGCCGTGCCGATGTGCGGATTCTCGCGGCGACCAACCTCAACCTCGAGGACATGGTCCGCGACGGGCGTTTTCGCGAGGACCTGCTGTATCGCCTGAACGTGATTACCCTGCACCTGCCGCCATTGCGCGAGCGGGCCGAAGATATCCTGACCCTTGCCGATCGCTTCCTGGCGCGCTTCGTCAAGGAATACGCACGCCCGGCCCGGGGTTTCAGCGATGAGGCCCGCGAAGCGCTGCTGGGCTATCGCTGGCCCGGTAACATCCGGGAACTGCGCAACGTGGTCGAGCGCGCCAGCATCATCTGCCCACAGGAAAAAGTCGAGATCAGCCATTTGGGCATGGCTGAACAACCGGTCAACAACGCCCCGCGGATCGGCGCGGCGCTGAGCCTCGACGAGTTGGAGAAAGCCCACATCGGCGCAGTGCTGGCCACCGCCGACACGCTGGACCAGGCGGCAAAGACCCTGGGTATCGACGCCTCCACGTTGTATCGCAAACGCAAGCAATACAACTTATGA	MESATEHQGRILLVDDESAILRTFRYCLEDEGYTVATANSAAQADALLQRQVFDLCFLDLRLGEDNGLDVLAQMRIQAPWMRVVIVTAHSAVDTAVDAIQAGAADYLVKPCSPDQLRLATAKQLEVRQLSARLEALEGEVRKPKDGLDSHSPAMKVVLETARQVASTDANILILGESGTGKGELARAIHGWSKRAKKSCVTINCPSLTTELMESELFGHSRGAFTGASESTLGRVNQADGGTLFLDEIGDFPLALQPKLLRFIQDKEYERVGDPVTRRADVRILAATNLNLEDMVRDGRFREDLLYRLNVITLHLPPLRERAEDILTLADRFLARFVKEYARPARGFSDEAREALLGYRWPGNIRELRNVVERASIICPQEKVEISHLGMAEQPVNNAPRIGAALSLDELEKAHIGAVLATADTLDQAAKTLGIDASTLYRKRKQYNL	PGPT0026155_100	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_EXTERNAL_SIGNAL_SENSING,PGPT0026155-algB-K11384	NA	NA
D1-35_02854	288			hypothetical protein	ATGAATCGTCAACGTGCCGCCCAATTTCGCATCAGCCCCCTGCATATCCAGCAGGGCCTGTGGGCTGTCGTCGCCCTGTTGATTACTCTCGTGGCGGGTCAGCAATTAATGCTCTGGCACGAAAGCCAACAGCCGGAAGCGCCGCTGGTATCGGTTCAACGAGCTCCCCAGACCCATTTCACTTCCGTCAGCAACCTCGCCGATGCAGCCGCTTCGATGCGCATGATGGAAGTTGACCAGGCGCAGACCGCCAACGACATGCCCCGTGAAGAACGCTGGGTCTTCTGA	MNRQRAAQFRISPLHIQQGLWAVVALLITLVAGQQLMLWHESQQPEAPLVSVQRAPQTHFTSVSNLADAAASMRMMEVDQAQTANDMPREERWVF				NA	NA	NA	NA	NA
D1-35_02855	165			hypothetical protein	ATGTTGAGCTGGGCAATTACCTTCCTGATCATTGCCATCATTGCTGCCGTACTGGGCTTCGGTGGCATCGCGGGCACCGCCACGGGCATCGCCAAGATTCTCTTTGTCGTGTTCCTGGTCATGTTCATCGCTTCGTTCTTCTTTGGCCGTCGCGGCCGAGGCTGA	MLSWAITFLIIAIIAAVLGFGGIAGTATGIAKILFVVFLVMFIASFFFGRRGRG				NA	NA	NA	NA	NA
D1-35_02856	465	ivy		Inhibitor of vertebrate lysozyme	ATGAATCGGTCATTAAAAGGACTGGCCGCCGCCCTGCTTCTGGGCGGCAGCGCCATGGCAATGGCTGCCAATGATGGACAGATGCGGGTCAACCAAGTGCTTCAGGCGGATCCGCAGTACCGTGAGACCTGGCAGCAAGTGGTCAAAAAGGAGGAGCGTCTGCCGGAGTGGGTCATGAACCTGACCGGTGTTTCCGAGCAGATGAACGCGGTCGAGGAGGACGGCGATAAATATCTGGTCGGACCCTTGTGCGAAACCCAGGATACCTGCCGCAGCAAGCGCCTGTTCGTTGCCTTCAGCTTCGACAAGGACGAGGCCTACGCATTGTTGGTAGAGGTCCCCGCCGGACTGCCGGCCGACAAGTCGCCAACCCGCCATGCGGACTACCGCTTTCTCGGCAACCCCGACGAAGGTATGCAGGAAATGTTGATGGAACAGCTCAAGAAAGATCCGAATTGGTACTGA	MNRSLKGLAAALLLGGSAMAMAANDGQMRVNQVLQADPQYRETWQQVVKKEERLPEWVMNLTGVSEQMNAVEEDGDKYLVGPLCETQDTCRSKRLFVAFSFDKDEAYALLVEVPAGLPADKSPTRHADYRFLGNPDEGMQEMLMEQLKKDPNWY				NA	NA	NA	NA	NA
D1-35_02858	1332	gltP	COG1301	Proton/glutamate-aspartate symporter	ATGAAGAAGGCACGACTAAGCCTCGCCTGGCAGATCCTCATCGGTCTGGTGCTCGGGATTGCAATCGGTGCGCTGCTCAACCACTTCAGTGCCGAGAAGGCCTGGTGGATCAGCAACGTGCTGCAACCGGCGGGCGATATCTTTATCCGTCTGATCAAGATGATCGTGATACCGATCGTGATCTCTTCGCTGATCGTCGGTATTGCTGGCGTGGGTGACGCCAAGAAACTGGGGCGCATCGGCTTCAAGACGATCATCTACTTCGAAATCGTCACCACCATCGCCATCGTCGTCGGCCTGTTGCTGGCCAACTTCTTCCAGCCGGGCAGTGGCATCGACATGAGCACCCTGGGCACGGTGGATATTTCCAAGTACCAGGCCACCGCCGCCGAAGTCCAGCATGAACATGCGTTCATCGAGACCATCCTCAACCTGATTCCGTCAAACATCTTCGCGGCGGTTGCCCGCGGCGAGATGCTGCCGATCATTTTCTTCTCCGTCCTGTTCGGCCTCGGTTTGTCGAGCTTGCAAGCGGATCTGCGCGACCCGCTGGTGAAGATGTTCCAGGGCGTGTCGGAGAGCATGTTCAAGGTCACTCACATGATCATGAATTACGCCCCGATAGGCGTGTTCGCGCTGATCGCGGTGACTGTCGCCAACTTCGGTTTCGCCTCTCTGCTGCCATTGGCGAAACTGGTGATCCTGGTTTATGTCGCCATCGCCTTCTTCGCTTTTGTGGTGCTGGGCCTGATCGCGCGCTTGTTCGGCTTTTCGGTGATCAAGCTGATGCGCATCTTCAAGGATGAGCTGGTGCTGGCTTATTCCACCGCCAGTTCCGAAACCGTGCTGCCGCGCGTGATCGAGAAGATGGAAGCGTACGGCGCGCCGAAAGCCATCTGCAGCTTCGTGGTTCCTACCGGTTACTCGTTCAACCTCGATGGCTCGACGTTGTACCAGAGCATCGCGGCGATTTTCATCGCGCAGTTGTATGGCATCGACCTGTCGATCAGCCAGCAGTTGCTGCTGGTGCTGACCCTGATGGTCACCTCCAAAGGCATCGCCGGCGTGCCGGGCGTCTCCTTCGTGGTTCTGCTGGCGACACTTGGCAGCGTGGGTATTCCGCTGGAAGGCCTGGCGTTCATTGCCGGTGTCGACCGCATCATGGACATGGCCCGTACCGCGCTGAACGTCATCGGCAACGCCTTGGCCGTGCTGGTCATCTCCCGCTGGGAGGGCATGTACGACGATGCCAAGGGCCAGCGCTACTGGAATTCCCTGCCGCACTGGCGCAGCAAGGAGCCGCTGCCGGCGGGGGAAACTTCCAGCCGTTGA	MKKARLSLAWQILIGLVLGIAIGALLNHFSAEKAWWISNVLQPAGDIFIRLIKMIVIPIVISSLIVGIAGVGDAKKLGRIGFKTIIYFEIVTTIAIVVGLLLANFFQPGSGIDMSTLGTVDISKYQATAAEVQHEHAFIETILNLIPSNIFAAVARGEMLPIIFFSVLFGLGLSSLQADLRDPLVKMFQGVSESMFKVTHMIMNYAPIGVFALIAVTVANFGFASLLPLAKLVILVYVAIAFFAFVVLGLIARLFGFSVIKLMRIFKDELVLAYSTASSETVLPRVIEKMEAYGAPKAICSFVVPTGYSFNLDGSTLYQSIAAIFIAQLYGIDLSISQQLLLVLTLMVTSKGIAGVPGVSFVVLLATLGSVGIPLEGLAFIAGVDRIMDMARTALNVIGNALAVLVISRWEGMYDDAKGQRYWNSLPHWRSKEPLPAGETSSR	PGPT0000805_194	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-GLUTAMATE_TRANSPORT,PGPT0000805-gltP|gltT-K11102	NA	NA
D1-35_02859	1230			hypothetical protein	ATGCTCAATGGCCTGTGGCTTGGCTTCTTTATCGTGGCAGCCGTGTCGGCGCTGGTGCAGTGGCTGGTCGGCGGCAACGCCGGCATTTTCGCGGCGATGGTGGAAAGCATTTTTGCCATGGCCAAGCTGTCGGTGGAGGTGATGGTCCTGCTGTTCGGCACCTTGACGCTGTGGCTGGGCTTCCTGCGCATCGCGGAAAAAGCCGGCATTGTCGATTGGCTGGCCAAAGCCCTCGGCCCGCTGTTCCTGCGCCTGATGCCGGAAGTCCCGGCTGGCCATCCGGCCATCGGCCTGATCACCCTCAACTTCGCGGCCAACGGCCTGGGGCTGGACAACGCGGCCACCCCGATCGGCTTGAAGGCCATGCGCGCCCTGCAAGACCTCAACCCCAGCCCGACCATCGCCAGCAACGCGCAGATCCTGTTCCTGGTGCTCAACGCATCGTCACTGACACTGCTGCCGGTAACGATTTTCATGTACCGCGCCCAGCAAGGCGCGCCGGACCCGACCCTGGTGTTCCTGCCGATCCTGCTCGCCACCAGCGCCTCGACCCTGGTGGGGCTGTTGTCCGTGGCGTTCATGCAACGGCTGCGCTTGTGGGATCCGGTGGTACTGGCCTATCTGATCCCGGGCGCGCTGGTGTTGGGTGGTTTCATGGCGTTGCTGGCGACGCTCTCGGCCACGGCGCTGGCGGGGCTCTCATCGATTCTCGGCAACTTGACGCTGTTTAGCCTGATCATCCTGTTCCTGGTGGTGGGTGCGCTGCGCAAGGTCAAAGTGTATGAAGCCTTTGTCGAAGGCGCCAAAGAGGGATTCGACGTCGCCAAGACGCTGCTGCCGTATCTGGTGGCGATGCTCTGCGCTGTCGGTGTGCTGCGGGCATCGGGGGCGCTGGATTTCGGCCTGGACGGTATCCGCCATCTGGTGCAGTGGGCCGGCCTGGACACGCGTTTTGTCGATGCCTTGCCCACCGCCATGGTCAAGCCGTTCTCCGGCAGCGCCGCCCGGGCGATGCTGATTGAAACCATGAAGACCTCCGGGGTGGACAGCTTCCCGGCCCTGGTGGCGGCAACTATTCAGGGCAGCACCGAAACCACGTTCTACGTGCTGGCGGTGTATTTCGGCGCCGTGGGCATCCAGCGAGCCCGCCACGCGGTGGGTTGCGCCCTGCTGGCCGAGCTGGCCGGGGTGATAGCGGCCATCGGAGTCTGCTACTGGTTCTTTGGCTGA	MLNGLWLGFFIVAAVSALVQWLVGGNAGIFAAMVESIFAMAKLSVEVMVLLFGTLTLWLGFLRIAEKAGIVDWLAKALGPLFLRLMPEVPAGHPAIGLITLNFAANGLGLDNAATPIGLKAMRALQDLNPSPTIASNAQILFLVLNASSLTLLPVTIFMYRAQQGAPDPTLVFLPILLATSASTLVGLLSVAFMQRLRLWDPVVLAYLIPGALVLGGFMALLATLSATALAGLSSILGNLTLFSLIILFLVVGALRKVKVYEAFVEGAKEGFDVAKTLLPYLVAMLCAVGVLRASGALDFGLDGIRHLVQWAGLDTRFVDALPTAMVKPFSGSAARAMLIETMKTSGVDSFPALVAATIQGSTETTFYVLAVYFGAVGIQRARHAVGCALLAELAGVIAAIGVCYWFFG				NA	NA	NA	NA	NA
D1-35_02860	1008			hypothetical protein	ATGCCGAACCTGACTCATTTAATCCAGCGCATCCTCGAACTGATGAAGCGCTATCCGGGGGTCATCGCGCTCGGCGGTTTCATTTCCGGGGTCGGCAGTTTCATGCTGGTGGATCGCCAGCAGGGTCTGGCGACCTGGATCGCGATCATGATGCTGGTGAGCTGGCTCTGGCTGATGTTGGAGAACAGCCTGACGCGGCTGTTCACGCGGATTTTCAAACGGGAAATACCCCAGCCGCTGCTGCGTTACGCCACGCAGATGATCCACCAGGAAAGCCTGTTCTTCGTCTTGCCGTTTTTTTTCATCACGACAACCTGGAACAGCAGCCAGCTGCTCTTTACCGGCTTGCTGGCGGCGTCGGCGCTGGTCTCGATCATCGATCCGCTGTACTACAAATGGCTGGCGCCCCGGCGTTGGGCGTTCCTGGCGTTGCACACGCTGACGCTGTTCGCCGCCCTGCTCACCGCGCTGCCGGTGATCCTGCACCTGACCACTGACCAGAGCTTCAAGCTGGCACTGGGCACCGCCATGCTGTTGTCGTTCCCGAGCCTGGCCTCGATCTTCCCGATCCGCACCGTGCGCAACGCCCTGGCGATTCTGTGCATCACCCTGGGCATCGGCGCCGCCGGCTGGGTGCTGCGCTCCTGGGTGCCACCCGCCACGCTCTGGATGACCGAAGTGGCAATCAGTACCCAGCTGGAAGACCGCACGCCTGGCGCCAGTCTCAAGGAAGTCAGCGCGGCCCAGATCCGTGGTAACGGCCTGTACGCCTACACCGCCATCAACGCACCGCGCGGGCTCGATGAGCGGATCTACCACGTCTGGCAGTTCAACGGCAAAGAGGTGGATCGCATCGCTCTGGACATCCATGGCGGACGCAAGGAAGGCTATCGCGCCTGGACCCACAAGCAGAACTTCCCGGACAACCCGACGGGAAAATGGCAAGTGCGGATACTCACCGAAAATGGCCAGATGATTGGTGTGTTGAGGTTCGAGGTGAAGGACTGA	MPNLTHLIQRILELMKRYPGVIALGGFISGVGSFMLVDRQQGLATWIAIMMLVSWLWLMLENSLTRLFTRIFKREIPQPLLRYATQMIHQESLFFVLPFFFITTTWNSSQLLFTGLLAASALVSIIDPLYYKWLAPRRWAFLALHTLTLFAALLTALPVILHLTTDQSFKLALGTAMLLSFPSLASIFPIRTVRNALAILCITLGIGAAGWVLRSWVPPATLWMTEVAISTQLEDRTPGASLKEVSAAQIRGNGLYAYTAINAPRGLDERIYHVWQFNGKEVDRIALDIHGGRKEGYRAWTHKQNFPDNPTGKWQVRILTENGQMIGVLRFEVKD				NA	NA	NA	NA	NA
D1-35_02861	1389			hypothetical protein	ATGCGTTGTCTGCTGCTCGCCTTGCTTTTGTTCGGCTCACTCCCCGCCATTGCCCAGGATCGCTTTCAGGTCGAAGGCTATACGTTGCCTAACGGCCTGCAATTGTTGCTCAAACCCGGCACCGAACGCGGGCACGTGGCGATTCGGCTGGTGGTCGGCGTGGGGCTCGACGATTTCAGCTGCGCCGACAAGGAGCTGCCGCATCTGCTCGAACATCTTCTGTTCAGTGGGGTCGACGACAGCGGCGAAGGTGGCCTGGAGGAACGCATGCAGGCCCTGGGCGGCGAGTGGAACGCCTTTACCAGCAATGCCGATACAACGTTTGTCATCGAGGCACCGGCGCGCAATCAGCGCAAGGTCCTCGACCTGTTGCTGGCGCTGCTGACCCGCACCCGCATCGACGAAAAAGCCCTGGAGGCGGCCAAACGGGTGGTCGAGCGCGAGGACGGCGGTCACTACACCCATCTGCAACGCTGGCTCGACCGACAGGACCTGGGCCATAAAGCCAGCAATCAATTGGCCGTGGAACTGGGCTTGCGGTGCGCGGAACGGGCCGAGGTTGGTCACCTTACCCTGGCCCGGGTCGAGCAGGTGCGCAAGGCCTGGTATGCCTCCAACAATATGACGCTGATCGTCGTCGGCGATCTCGACCGGTTATTGCCGGCCTACCTGGAACGCAGTTTCGGCGAGCTCGAACCGGTCGAGCCCAGCGTCCACGAGCCGCTGCCGCAGATCCGCTACAGCGCGGTCACCAAACGCAACCTGACTCGCGGCCTGGCCGGCGATGGCGCCAAGCTTCATTGGCTGTTCCCGGAACCGGTGCTGGAACAGCAGCACGACGAAACCTTCGACCTGCTCAAGGATTATCTGGACTGGGCGCTTTATCGCCAGTTGCGCCTGGCCAACGGCCTGTCCTACGGCCCCTGGGTGGAGCGGGAAGTCTTTGGCGGTGTCGGTTTTCTCAGCCTGAACGCAGACCTGGCGCGCGAAGACCTGCCGAAAGCCGAGCAGGTGCTGGAACAATTGCGCGGCACGCTGCTCAAGGACGGCCTGGACCCCGAGAGCTTCGTGCGGATCAAACGCGCCGCTATCGCCCATCAGTCCTGGGCGGTGCAAGGCAACAGCGCGCTGGCCGACTATTACTGGGGCGCCTTGGGCGACTATGAGGATGGCCGCTTCGCCAATCCGGCCGCCCGCTTGCAGGCCGTCAGCCTGGAGCAGGCCAACCAGGCCCTGCGCGAACTTCTCAAGGATCCGGGTTACCTGCGGATCGAGAAGCCGTTGCTTGGTGATGACGAACTCGTTTGGGTGTTGGCTGGGTTGGTGGTGTTGCTGCTGGTGGGAATTGGCTGGCGATGGAAGCGCAGGGCGCGACCGCAGCCAGACTGA	MRCLLLALLLFGSLPAIAQDRFQVEGYTLPNGLQLLLKPGTERGHVAIRLVVGVGLDDFSCADKELPHLLEHLLFSGVDDSGEGGLEERMQALGGEWNAFTSNADTTFVIEAPARNQRKVLDLLLALLTRTRIDEKALEAAKRVVEREDGGHYTHLQRWLDRQDLGHKASNQLAVELGLRCAERAEVGHLTLARVEQVRKAWYASNNMTLIVVGDLDRLLPAYLERSFGELEPVEPSVHEPLPQIRYSAVTKRNLTRGLAGDGAKLHWLFPEPVLEQQHDETFDLLKDYLDWALYRQLRLANGLSYGPWVEREVFGGVGFLSLNADLAREDLPKAEQVLEQLRGTLLKDGLDPESFVRIKRAAIAHQSWAVQGNSALADYYWGALGDYEDGRFANPAARLQAVSLEQANQALRELLKDPGYLRIEKPLLGDDELVWVLAGLVVLLLVGIGWRWKRRARPQPD				NA	NA	NA	NA	NA
D1-35_02862	1659			hypothetical protein	ATGCTGACCCTGCTGAATCTGCTCTCCGCCGTGGCCTTGCTGATCTGGGGCACGCACATCGTCCGTACCGGCATTCTGCGGGTCTATGGCTCGAACCTGCGTCACGTCATCAGCCAGAACATGTCCCGGCGCTGGTTGGCTTTCATCGCCGGGATCATGGTCACCGCCATGGTCCAGAGCAGCAACGCCACGGCCATGCTCGTCACCTCTTTTGTCGGCCAGGGCCTGATGTCGCTGACGCCCGCCCTGGCGACCATGCTTGGCGCCGACGTCGGCACCGCGCTGATGGCACGGGTGCTGACCCTCGACCTGTCGTGGCTGTCACCGTTGCTGATTTTCCTCGGGGTGATTTTTTTCCTGTCGCGCAAACAGACGCGCGTCGGGCAGATGGGCCGGGTCGCCATCGGCCTGGGCCTGATCATCCTGGCCCTGCAACTGATCGTCGAAGCCGCTGCGCCCATCACCCAGGCCCAGGGCGTGAAGGTGATTTTCGCCTCACTGACCGGCGATATCCTGCTCGATGCGCTGGTCGGCGCGCTGTTCGCCATGATTTCCTATTCCAGCCTCGCCGCCGTGCTGCTGACCGCGACACTGGCCGGCGCGGCGGTGATCAGTTTGCCAGTGGCTATCGGCCTGGTGATCGGCGCCAATATCGGCAGCGGCATCCTGGCGTTTCTCAGCACCAGCATGCAGAACGCCGCCGGACGCCAGGTGGCACTCGGCAGCCTGCTGTACAAGCTGATTGGCCTGTTGCTGATCATTCCGGTACTCGATCCGCTGGTGGGCTGGCTGGACAGCCTGGATTTCAGCCACCAGGAAACCGTCATCGGTTTTCATCTGCTCTACAACACCGTGCGTTGCCTGGTATTGCTGCCTAGCGTCGGGCCGATGGGCCGGCTCTGCGCGTGGCTGCTGCCGGAGCGCCCGGACACCAACGGCACGGCCAAGCCCCGGCACCTCGACCCCACCGCCCTGGCGACCCCGAGCCTGGCCCTGGCGAACGCGGCCCGGGAAACCTTGCGCATCGGCGACCTGATCGAAAACATGCTCGAAGCCATGCTCGGCGTACTGCGCGGCGAGCAGACGGCGATTACTCAGCAAGTGCGCGCCATGAGCGACGATGTCGAAGCACTGTGCAGCGCCATCAAGCTGTATATGGCGCAAATGCCCCGCGAGGACCTCAGCGAACAGGACAGCCGCCGCTGGGCGGAAATCATCGAGCTGGCGATCAATCTCAAGCTGGCCAGCGACCTCATCGAACGTATGCTGCGCAAGGTCCAGCAGCAGAAGACCTCGCAACGCCGGTCGTTTTCCGATGTGGGCCTGGAAGAACTGGCGGGGCTGCACAGTCATCTGCTGGCCAACCTGCGGCTGGGGTTGACGGTGTTCCTGAGTGCCGATCGGGAAAGCGCACGGCAGTTGCTGCGTGAGAAACGTCGCTTTCGCGCGCAGGAACGGCGGATGGCCCATGCCCATGTCAGCCGTCTGCAACGCAAGGTCGTGCAGAGCCTGGAGACCAGTTCCCTGCATCTTGAGCTGATCGCTGACATGCGGCGCCTGAATTCGCTGTTCTGCGGCAGCGCCTATGTGGTGCTGGAAACCTCGGAGATCGGCGCCCTTTCCGTCGATGAAATTTCCGACATCACCCATTCGCCGTGA	MLTLLNLLSAVALLIWGTHIVRTGILRVYGSNLRHVISQNMSRRWLAFIAGIMVTAMVQSSNATAMLVTSFVGQGLMSLTPALATMLGADVGTALMARVLTLDLSWLSPLLIFLGVIFFLSRKQTRVGQMGRVAIGLGLIILALQLIVEAAAPITQAQGVKVIFASLTGDILLDALVGALFAMISYSSLAAVLLTATLAGAAVISLPVAIGLVIGANIGSGILAFLSTSMQNAAGRQVALGSLLYKLIGLLLIIPVLDPLVGWLDSLDFSHQETVIGFHLLYNTVRCLVLLPSVGPMGRLCAWLLPERPDTNGTAKPRHLDPTALATPSLALANAARETLRIGDLIENMLEAMLGVLRGEQTAITQQVRAMSDDVEALCSAIKLYMAQMPREDLSEQDSRRWAEIIELAINLKLASDLIERMLRKVQQQKTSQRRSFSDVGLEELAGLHSHLLANLRLGLTVFLSADRESARQLLREKRRFRAQERRMAHAHVSRLQRKVVQSLETSSLHLELIADMRRLNSLFCGSAYVVLETSEIGALSVDEISDITHSP	PGPT0002650_1092	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0002650-yjbB-K03324	NA	NA
D1-35_02863	768			hypothetical protein	ATGGAATGGCTGACCAACCCGGAAATATGGGTTGCCTTCTTTACCCTGACCGCCCTGGAAATCGTCCTGGGTATCGATAACATCATCATGATCTCGATCCTGGTCAGCCGCATGCCCAAGCACATGCAGGCACGCACCCGGATCTTCGGCCTGGCGCTGGCGATGATCACGCGGATCCTGTTGTTGCTGTCCATCACCTGGGTGATGCGCCTGACCGCCGATCTGTTCGAAGTATTCGGCCAAGGCATCTCCGGCCGCGACCTGATCCTGTTCTTTGGTGGCCTGTTCCTGCTGTGGAAAAGCTCTCAGGAGATGTACCACGCGCTGGAAGGCGAAGAGGAAAACAGCGACGAGCCTTCGGTCAAGGGCGGCAACTTCATCTACACCATCATCCAGATCGCGATCATCGACATCGTGTTCTCCCTGGACTCGGTCATCACCGCGGTCGGCATGGTCTCCCATGTACCGGTCATGGTTGCCGCGATCATCGTCGCCGTACTGGTGATGATGCTGGCTTCGGGCACCATCAGCACGTTCATCGACAAGCACCCGTCGCTGAAGATGCTGGCGCTGTCGTTCCTGCTGGTGGTCGGTACCGTACTGATCGCCGAATCGTTCGATGTGCATGTGCCTAAAGGCTACGTCTATTTCGCCATGGCGTTCTCGCTGGCGGTGGAAGCGATCAATATCAAGATGCGTACCGCGATGGCACGCAAGCGCAAGCAGCAGGATCCGGTGAAACTGCGCAAGGATGTTCCGGGTCAGTAA	MEWLTNPEIWVAFFTLTALEIVLGIDNIIMISILVSRMPKHMQARTRIFGLALAMITRILLLLSITWVMRLTADLFEVFGQGISGRDLILFFGGLFLLWKSSQEMYHALEGEEENSDEPSVKGGNFIYTIIQIAIIDIVFSLDSVITAVGMVSHVPVMVAAIIVAVLVMMLASGTISTFIDKHPSLKMLALSFLLVVGTVLIAESFDVHVPKGYVYFAMAFSLAVEAINIKMRTAMARKRKQQDPVKLRKDVPGQ				NA	NA	NA	NA	NA
D1-35_02864	1308	citN_2	COG2851	Citrate transporter	ATGCTGACTTTCCTTGGCTTCGCCATGGTCATCACGTTCATGTTCCTGATCATGACCAAGCGCCTGTCTGCGCTGATCGCCCTGATCATTATTCCGATCCTGTTCGCGCTGTTCGGTGGCTTTGCGCCGAAGATCGGCCCGATGATGCTCGAAGGCATCACCAAGCTTGCCCCGACCGGGGTGATGCTGATGTTTGCGATTCTCTATTTCGCCCTGATGATCGACTCCGGCCTGTTCGACCCGGCCGTGCGCAAGATCCTCAAGATGGTCAAGGGCGACCCCCTGAAAGTTTCGGTCGGCACCGCCGTTCTGGCGCTCGTCGTTTCCCTCGATGGTGACGGCGCGACCACTTATATGATCTGCGTAGCCGCCATGCTGCCGCTCTACAGCCGTATCGGCATGAGCCCGCAGATCATGGCGGGCCTGATCATCCTCGCCGGCGGCGTGATGAACATGACCCCTTGGGGCGGGCCAACCGCTCGGGCGGCCAGTGCGCTGCATGTGGATCCGTCGGACATCTTCGTCCCGATGATCCCGGCGATGCTGGCCGGCGTCGTGGCGATCCTGGCGATTGCCTACATGTACGGCAAACGCGAGCGTGCGCGCCTGGGTGAGCTGCACCTGGCCGGTGACGACATGGACCACAGCGAAATCAGCGTCTCGCAGTTCCCGGACGCCCGCCGTCCGAAGCTGATCTGGTTCAACGGCGCGCTGACCCTGGCCCTGATGTGCACGCTGATTGCCGGCCTGTTGCCGTTGCCGGTGCTGTTCATGGTGGCCTTCAGTATCGCGATGATCGTCAACTATCCATGCCTGCAACAACAGAAAGACCGCGTCGCGGCTCACGCCGGCAGCGTGTTGGCGGTGGTCGGGCTGATCTTCGCGGCGGGTATCTTCACTGGCATTCTGTCGGGCACAGGTATGGTCGATGCCATGTCCAAGAGCCTGCTGGCAGTGATCCCGGACTTCCTCGGTCCTTACCTCGCGGTCATCACTGCGCTGGTGAGCATGCCGTTCACTTTCTTCATGTCGAACGATGCATTTTATTACGGGGTGTTACCAGTTTTGGCCGAAGCAGCCAGCCATTACGGCATCACTGGCGTCGAAATGGCCCGTGCCTCGATCGTCGGCCAGCCCGTTCACCTGCTGAGCCCGCTGGTTCCGTCGACTTATCTGCTGGTGGCCCTGGCCGGGATCGAATTCGGCGATCACCAACGCTTCACCTTGAAGTGGGCAGTACTGGTTTGCCTGTGCATAATGTTCGCCGCCTTGCTGATGGGGATTTTTCCGCTATTCAGCACTCTATAA	MLTFLGFAMVITFMFLIMTKRLSALIALIIIPILFALFGGFAPKIGPMMLEGITKLAPTGVMLMFAILYFALMIDSGLFDPAVRKILKMVKGDPLKVSVGTAVLALVVSLDGDGATTYMICVAAMLPLYSRIGMSPQIMAGLIILAGGVMNMTPWGGPTARAASALHVDPSDIFVPMIPAMLAGVVAILAIAYMYGKRERARLGELHLAGDDMDHSEISVSQFPDARRPKLIWFNGALTLALMCTLIAGLLPLPVLFMVAFSIAMIVNYPCLQQQKDRVAAHAGSVLAVVGLIFAAGIFTGILSGTGMVDAMSKSLLAVIPDFLGPYLAVITALVSMPFTFFMSNDAFYYGVLPVLAEAASHYGITGVEMARASIVGQPVHLLSPLVPSTYLLVALAGIEFGDHQRFTLKWAVLVCLCIMFAALLMGIFPLFSTL	PGPT0001500_725	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_CITRATE_TRANSPORT,PGPT0001500-TC_CITMHS|CitMHS_family|citN-K03300	NA	NA
D1-35_02865	339			hypothetical protein	ATGCAACGGATCAAGGGCTATCACGCCCATGTTTATTTCGACGCCGGCACCATCGATCAGGCGCGGGCCTTGTGTGAGCAAGCGGCGCAGCTGTTCCCGCTGAAGATGGGCCGGGTTCACCAACGGCCGGTCGGCCCGCACCCGGACTGGAGCTGCCAGCTGGCATTCGATCCGCAGTACATCGGCGTGGTCCTGCCGTGGTTGGCGCTCAATCGCAACGGGCTGGTGATATTCCTGCACCCGGACACTGGTGATGATCTGGCCGATCACACCGATCATGCGATCTGGATGGGCGCGGTACGACCGTTGAATCTTTCGGCGTTCGAATCAACAAGCTGA	MQRIKGYHAHVYFDAGTIDQARALCEQAAQLFPLKMGRVHQRPVGPHPDWSCQLAFDPQYIGVVLPWLALNRNGLVIFLHPDTGDDLADHTDHAIWMGAVRPLNLSAFESTS				NA	NA	NA	NA	NA
D1-35_02866	660			hypothetical protein	ATGAGAAACGCCGAAACCCCGGTCATCAAAGTGGTGCTCTATGGTGCCATGAGCAGCCTCGGAAGTGCGTTGATGGCTGAGCTGTTGCGACGCCAGCACGAAGTCATCGCCATCCTCGATGATCTTACGGCCTTGGCGCCACGCCCGGGCCTGCGGACCAAGACCGGCGACCTGTTCGACCCCGAACGGGTCAAGCAGAGCGTTGCCGGCGCCACTGCCGTGGTGTGCCTGTTGAACGCACCGGGGCTGCCAATGAACAGCGAGCAAGTAGAGCGCACGCTCATTCCCGGCCCGGTGGAGCAGGTCCTGGCCGTGGATGCGCTGATTGCAGGCATGCAGGCGGTCAATATCCCCCGGCTGTTCCTGGTGGGCGATTTCGCTGCCCTCGATGAGCAGGAAGCCGAAGATGACTTGCAGCGCCATGCCGCCGAGGAAATCCTCGACGCCCTGAAAAACAGCGCCTTGCAGTGGACCCTGGTCAACGCGCCCTACGCCGCGCCGGGCTTGAGCATCGAGCATTTCAGCCAGGTCAGCACCAGCCTGGAGTCCGGAATGGCCGAGTCCCTGGAGCGCCTCAATCGGGTGGCCGTGGGCATTGTCGATGAACTGCGCTCGAACCTGCATGTGGGCGAGCATGTGAGTTTTGTGCCCGCCCTCTAA	MRNAETPVIKVVLYGAMSSLGSALMAELLRRQHEVIAILDDLTALAPRPGLRTKTGDLFDPERVKQSVAGATAVVCLLNAPGLPMNSEQVERTLIPGPVEQVLAVDALIAGMQAVNIPRLFLVGDFAALDEQEAEDDLQRHAAEEILDALKNSALQWTLVNAPYAAPGLSIEHFSQVSTSLESGMAESLERLNRVAVGIVDELRSNLHVGEHVSFVPAL	PGPT0020900_113	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
D1-35_02867	951	gcvA_5		Glycine cleavage system transcriptional activator	ATGTATGACGCCTTGGGTGACCTGTCCCTGGATCTCTTCCGCGCCTTCGAATCAGCGGCTCGCCAGCAAAGTTTTACTGCGGCAGCGATTGAACTGGGCACGACCCAACCCGCCATCAGCCAACAGATCAAACGGCTGGAAGAGCAGCTCGGTACGCGCCTGTTTGATCGCATCTATCGCGGCATCGAATTGACCGAGGCCGGCGCGATCCTGTTCGAGCAGGTCCAGGCCGGCTTGCAGAGCATCGATGCGGGGCTGAACGCGATCACGGCCCAGCACCAGCATGAAGTGCTACAAGTCGCGACGGATTTCGCTTTCGCCGCCTATTGGCTGATGCCGCGACTGCATCGGTTCCACGCGGCAAATCCGCAGGTGGATGTGAGCCTGGTGACCAGCGAGCGCAACCACAACATGCTGCGCACCGATATCGATGTTGCGGTGCTATTTGGCGACGGTCGCTTCAAACAGGGCGAAAGTCGTTGGCTTTTCAGCGAAGAAGTCTTTCCTGTATGCAGCCCACTGCTGCTCAAGGACCGCCCCCAACCCCTGCCCGCCCACGCCCTCGCGGAATTCCCGCTGCTGCATTTGCGCGGCGGCAACAGCAGCGCCTGGTTCGACTGGAGCGGCGTTTTTCGTGAACTGGGCATCACCTCGCCACCGGCGCCGGGCCAACTGCGCTTCGACAACTACACCCTGCTCATCCAGGCGGCGATTGGCGGCCAAGGCGTCGCTATCGGTTGGCGGCACCTTGTGGATAACTTGCTGGCGCAAGGGTTGCTGTGCCGACCGATCGCCGAAACGGTGCTTTCCCGGTTGGGGTATTACGTGGTCTTGCCCCAACGCAAGCGCCGGGGTGTGCTGATCAAGCTGTTCGTGGATTGGCTGATGGAAGAACAGGCCAATAGTGCGGAGTCGCTTACAGGGTTGCCGCTGCCTTCGATTGCGGTTTGA	MYDALGDLSLDLFRAFESAARQQSFTAAAIELGTTQPAISQQIKRLEEQLGTRLFDRIYRGIELTEAGAILFEQVQAGLQSIDAGLNAITAQHQHEVLQVATDFAFAAYWLMPRLHRFHAANPQVDVSLVTSERNHNMLRTDIDVAVLFGDGRFKQGESRWLFSEEVFPVCSPLLLKDRPQPLPAHALAEFPLLHLRGGNSSAWFDWSGVFRELGITSPPAPGQLRFDNYTLLIQAAIGGQGVAIGWRHLVDNLLAQGLLCRPIAETVLSRLGYYVVLPQRKRRGVLIKLFVDWLMEEQANSAESLTGLPLPSIAV	PGPT0026360_3451	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
D1-35_02868	1527	betC	COG3119	Choline-sulfatase	ATGGAATGCCGCGAATACATGAAGCGCAAGAACATTCTTTTCATCATGGCCGATCAGATGGCCGCGCCAATGTTGCCGATCTACGGTCCGTCGCCCATCAAGCTGCCCAACCTGTCACGCCTGGCCGACCACGGCGTGGTATTCGATGCCGCGTACTGCAACAGCCCGCTCTGTGCGCCGTCACGCTTTACGCTGGTGAGCGGTCAGTTGCCGAGCAAGATCGGCGCCTATGACAACGCGGCGGATTTTCCGGCGGACGTTCCAACTTATGCCCATTACCTGCGCCGTCTCGGCTATCGCACGGCGCTGTCCGGCAAGATGCATTTTTGCGGGCCGGACCAATTGCACGGTTACGAAGAGCGCCTGACCAGCGACATTTATCCAGCGGACTACGGCTGGGCCGTGAACTGGGACGAGCCGGATGTGCGGCCAAGCTGGTATCACAACATGTCGTCGGTGCTGCAGGCCGGACCGTGCGTGCGCACCAATCAGCTGGATTTTGATGAAGAGGTGGTGTTCAAGGCCCAGCAGTACCTGTTCGACCACATCCGCGAGGACGGCGACCAGCCGTTTTGCCTCACCGTATCCATGACACACCCACACGATCCGTACACGATTCCCAAGACATTCTGGGATCTGTATGACGACAAGGACATCCCGCTGCCCTACACCCCGGATCAGACAGAGCTTGATCCACATTCCCAACGCCTGTTGAAAGTCTATGATCTGTGGGGCAAGCCGCTGCCTGTGGATAAGATCCGTGATGCTCGCCGCGCCTACTTCGGCGCGTGCAGCTACATCGACAGCAATGTCGGCAAGTTGCTGCAGACCTTGGAAGACACCGGGTTGCTCGACGACACCATCATCGTGTTCTCTGGCGATCATGGAGACATGCTCGGCGAAAAAGGCCTCTGGTACAAAATGCACTGGTTTGAAATGGCCGCTCGCGTGCCGCTGCTGATCAGCGCCCCAGGCCAGTTTGCCAGCGGCCGCGTCGGCGCGGCGGTGTCCACCGCCGACCTGCTGCCGACCCTGGTCGAACTGGCCGGCGGCACCCTGGAACCAGGCTTGCCGCTGGATGGGCGTTCGCTGGTTCCGCATCTGCAAGGGCAGGGCGGGCACGATGAAGTCTTCGGTGAATACATGGCCGAAGGCACCGTCAGCCCGTTGATGATGATCCGTCGCGGCCCGTGGAAATTCATCTACAGCGAAGATGACCCGTGCCTGTTGTTCGACCTGCGTAATGATCCTCAGGAGGTGGCGGATCTCAGTCAGTCGCCTGAGCATCAGGCGCTGTTCAACGATTTTCTCGCCGAAGCGCGGGCCAAATGGGATATTCCAGCCATTCACCAACAGGTGCTCGCCAGCCAGCGACGCCGTCGTTTCGTTGCCCAGGCGTTGACCCTGGGCAAACTCAAGAGCTGGGATCACCAGCCGCTGGTCGATGCCAGCCAGCAATACATGCGCAACCACATCGACCTCGACGATCTGGAGCGCAAGGCCCGTTATCCACAACCCTGCCAATAG	MECREYMKRKNILFIMADQMAAPMLPIYGPSPIKLPNLSRLADHGVVFDAAYCNSPLCAPSRFTLVSGQLPSKIGAYDNAADFPADVPTYAHYLRRLGYRTALSGKMHFCGPDQLHGYEERLTSDIYPADYGWAVNWDEPDVRPSWYHNMSSVLQAGPCVRTNQLDFDEEVVFKAQQYLFDHIREDGDQPFCLTVSMTHPHDPYTIPKTFWDLYDDKDIPLPYTPDQTELDPHSQRLLKVYDLWGKPLPVDKIRDARRAYFGACSYIDSNVGKLLQTLEDTGLLDDTIIVFSGDHGDMLGEKGLWYKMHWFEMAARVPLLISAPGQFASGRVGAAVSTADLLPTLVELAGGTLEPGLPLDGRSLVPHLQGQGGHDEVFGEYMAEGTVSPLMMIRRGPWKFIYSEDDPCLLFDLRNDPQEVADLSQSPEHQALFNDFLAEARAKWDIPAIHQQVLASQRRRRFVAQALTLGKLKSWDHQPLVDASQQYMRNHIDLDDLERKARYPQPCQ	PGPT0013620_255	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_CHOLINE-O-SULFATE|PHOSPHORYLCHOLINE_UTILIZATION,PGPT0013620-betC-K01133	NA	NA
D1-35_02869	921			hypothetical protein	ATGCAAAAGTTATCCACAGTACTGACCGCCGGGCTGTTGGCGTTGAGCAGTGTTTCGGCGTGGGCCGAGCAGAGTTGCGAGACCGTGAAGATGGCCGATCCGGGCTGGAGCGATATCGCCGCGACCAACGCCGTCGCCGGTTTCCTGCTTGAGGGCATGGGTTACAAGGCCAAGGTCGACACCTTGGCGGTACCGATCACGTTCGGTGGCCTGAAGGATGGCCAGGTTGATGTTTTCCTGGGTAACTGGATGCCGGCGCAGCAAGGGTTCTATGACAAGTTCGTCGCCAATGGCGATGTCACGCAGTTGGCGAAGAACCTGGACGGCACCGAATTCACCCTGGCGGTGCCGGACTACGTCTGGGATGCCGGTGTGCATAACTTCGCCGACCTGAACAAGTTCGCCGACAAGTTCGACAAGAAGATCTACGGCATCGGTTCCGGCGCCCCGGCCAACCTTTCGCTGAAAGAAATCATCAAGACCAACGATTTCGGCATGGGCGAATGGAAACTGGTGGAGTCCAGCGAGCAGGCAATGCTGGCGGAAGTCTCCCGGGCCGTGAAGAAGCAGAAATTCGTGACGTTCCTCGGCTGGACCCCACACCCGATGAACGTGCAACTGAAAATGCATTACCTCAAGGGCGGCGAGAAGTACTTTGGCGATACTGGCAGCGTTTATACGCTGACGCGCAAGGGTTATGCACAGGCCTGCCCGAACGTCGGGAAGCTGCTGACCAACCTGAGCTTCACCCAGGAAATGGAAAACAGCATCATGGCCGAAGTGGTGAACAAGAAGGTCAGCAACGCCGAAGCGGCCAAGGCCTGGATCAAGGCCAACCCGGCGGTGCTGGACAAATGGCTGGACGGCGTGAAGACCATGGATGGCAAGGACGCGTTGGCGGCGGTCAAGGCCAAACTCTAG	MQKLSTVLTAGLLALSSVSAWAEQSCETVKMADPGWSDIAATNAVAGFLLEGMGYKAKVDTLAVPITFGGLKDGQVDVFLGNWMPAQQGFYDKFVANGDVTQLAKNLDGTEFTLAVPDYVWDAGVHNFADLNKFADKFDKKIYGIGSGAPANLSLKEIIKTNDFGMGEWKLVESSEQAMLAEVSRAVKKQKFVTFLGWTPHPMNVQLKMHYLKGGEKYFGDTGSVYTLTRKGYAQACPNVGKLLTNLSFTQEMENSIMAEVVNKKVSNAEAAKAWIKANPAVLDKWLDGVKTMDGKDALAAVKAKL	PGPT0013640_2947	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
D1-35_02870	1569	dauA_1	COG0659	C4-dicarboxylic acid transporter DauA	ATGGCAATCCCCACGCGCCATTCGCTGTTTCCGTTCCTCAGTTGGCTGCCCCGGCAGACCCGCGCCAGCGTCGGCCGTGACCTGATCGTCGGCCTCAGCGGCGCGATTCTCGCGTTACCGCAGTCCATTGCCTACGCACTGATTGCCGGCCTGCCGCCGGAATACGGCTTGTACGCGGCAATCGTGCCGGTGCTGATCGCCTGCCTATGGGGGTCGTCCTGGCATTTGATCTGTGGTCCTACGGCGGCAATCTCCATTGTCCTCTACGCCACTGTCAGCCCATTGGCGGTGCCTGCCACCCAGGACTACATCACGCTCATCCTCTTGCTGACGGTGCTGGCAGGTATTTTCCAGTGGCTGCTCGGGCTGTTGCGTTTCGGTGCGCTGGTCAATTTCGTCTCCCACTCGGTGGTGCTGGGTTTCACCTTGGGCGCAGCGGTGGTTATTGCCCTCGGGCAATTGCCGAACCTGCTGGGCCTGGACCTGCCGAACGAAGCCACGGCATTGAAGAGTTTGCTTATGCTTGCCAGCCATATCGGGGCTGTGGATAAACCTTCGCTGCTGCTGGGTTTGGGGACGCTGGCGGTGGGGATCGTCCTCAAACGATTGCTGCCGCGCTGGCCAACCTTATTGATTACGCTGGCCCTTGGCAGCCTGTTGGTCTGGGCGTGGCCCGCGATGTTCGGGCATGTGGCGTTGGTCAGCGCCTTTGTCGGACGCCTGCCGCCGTTCACGCCGCTGTCGCTGGACCTTGAGTTGATCCTAAGGCTGCTGCCCGGTGCCGTTGCGGTGGGCATGCTCGGGCTGGTGACCAGCCTGTCCATCGCCCGCTCGTTGTCGGTCCGTTCCGGGCAACTGCTCGATGCGAATCAGGAAGTCAGGGCGCAGGGGCTTTCCAATATCGTCGGAGGATTTTTCGCCGGATCGCTGTCAGCCGGCTCCTTTACCCGTTCCGGTCTCAGCTATGAAGCGGGTGCCTGTTCGCCCCTGGCCGGAGTGTTTTCGGCGTTGTGGGTGGCGCTGTTCGCGGTTGCCGGCGCGACACTGATCGCGCACATTCCCATTCCCGCCATGGCCGGCAGTATTCTGCTGATCGCCTGGGGCCTGGTGGACCATCGGGGTATCCGGGCGCTGTACCGTGTGAGTCGTTCCGAATTCCTGGTGATGGGGCTCACCTGCCTGGCCACGCTGCTGCTTGAACTGCAAGCGGCTATCTACGCTGGCGTGTTGGCTTCGCTGTTTTTCTATCTCAAGCGCACTTCGCAACCGCGGGTGCAGCATTTCCGGGAAGGTGAGGCGGACGTCTTGCGGGTGGGCGGCTCGATCTTTTTCGGCGCCAGCCATTATTTGCAAGTGCGCCTGCAACGCATGCCCGCCCAGCAGGTGATCATCGACGCCCAGCAGATCAACTTCATCGATTACTCCGGCGTCGAAATGCTCCACCAGGAAGCCCGGCGCCTGCGCAGCCAGGGGCGCAGCCTGACTTTGCGTGGGGCAAGGCCGCCGGTGGTGGAGGAGTTGTTGAAGCTGGAAGGACCGGAGAAATGCCCGATCCTCTTCAGGGATTGA	MAIPTRHSLFPFLSWLPRQTRASVGRDLIVGLSGAILALPQSIAYALIAGLPPEYGLYAAIVPVLIACLWGSSWHLICGPTAAISIVLYATVSPLAVPATQDYITLILLLTVLAGIFQWLLGLLRFGALVNFVSHSVVLGFTLGAAVVIALGQLPNLLGLDLPNEATALKSLLMLASHIGAVDKPSLLLGLGTLAVGIVLKRLLPRWPTLLITLALGSLLVWAWPAMFGHVALVSAFVGRLPPFTPLSLDLELILRLLPGAVAVGMLGLVTSLSIARSLSVRSGQLLDANQEVRAQGLSNIVGGFFAGSLSAGSFTRSGLSYEAGACSPLAGVFSALWVALFAVAGATLIAHIPIPAMAGSILLIAWGLVDHRGIRALYRVSRSEFLVMGLTCLATLLLELQAAIYAGVLASLFFYLKRTSQPRVQHFREGEADVLRVGGSIFFGASHYLQVRLQRMPAQQVIIDAQQINFIDYSGVEMLHQEARRLRSQGRSLTLRGARPPVVEELLKLEGPEKCPILFRD	PGPT0003020_3868	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
D1-35_02871	831	aroE_1	COG0169	Shikimate dehydrogenase (NADP(+))	ATGGATCACTACGTTGTAATGGGTAACCCGATCGGCCACAGCAAGTCGCCGTTGATCCATCGCCTGTTCGCTGAGCAGACCGGGCAAGCGTTGGACTACACCACGCTGCTGGCGCCACTGGAGGACTTCGCCGCTTGCGCCCGGGAATTTTTCCGTGAGGGGCGTGGGGCAAATGTCACCGTGCCGTTCAAGGAGGACGCCTTTCGCCTGGCTGACAGCCTGACCGAACGGGCGCAACGGGCCGGGGCGGTCAACACCTTGAGCAAACAGGCCGACGGCCGCCTGCTGGGCGACAACACCGACGGCGCCGGGCTCGTTCGGGACCTGACCGTCAACGCCGGTTTCAGCCTCAAGGGCAAGCGCATCCTGCTGCTGGGCGCCGGCGGCGCGGTACGGGGCGCCTTGGAGCCGTTGCTGGCGGAAGCGCCGTCGTCGGTGATCATTGCCAATCGCACGGTGGAAAAAGCTGAATTGCTGGCTGAGCTGTTCGCCGACCTGGGTCCGGTCTCGGCCAGCGGTTTCGACTGGTTGCGCGAGCCGGTGGACCTGATCATCAATGCCACATCCGCCAGCCTGTCAGGCGAAGTACCGCCGATTGCCGGAAGTCTGATCGAGCCAGGCAAGACATTCTGCTACGACATGATGTATGGCAAGGAGCCGACGTCGTTCTGCCGCTGGGCCGAAGAACACGGCGCGGCGGTGGTGATGGATGGCCTGGGCATGCTCGCCGAACAGGCGGGCGAAGCGTTTTTCCTGTGGCGTGGCGTACGTCCGGACACCGCCCCGGTGCTGGCGGAGTTGCGCCGTCAACTCGCTGCGGTCAATCCCTGA	MDHYVVMGNPIGHSKSPLIHRLFAEQTGQALDYTTLLAPLEDFAACAREFFREGRGANVTVPFKEDAFRLADSLTERAQRAGAVNTLSKQADGRLLGDNTDGAGLVRDLTVNAGFSLKGKRILLLGAGGAVRGALEPLLAEAPSSVIIANRTVEKAELLAELFADLGPVSASGFDWLREPVDLIINATSASLSGEVPPIAGSLIEPGKTFCYDMMYGKEPTSFCRWAEEHGAAVVMDGLGMLAEQAGEAFFLWRGVRPDTAPVLAELRRQLAAVNP	PGPT0012890_4117	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
D1-35_02872	915	hemF	COG0408	Oxygen-dependent coproporphyrinogen-III oxidase	ATGACTACTCGCACCGAGGCCGTGAAAGCCTATCTGCTCGACCTGCAAGACCGCATCTGCGCCGCCCTGGAAACCGAGGACGGTGGCACTCGCTTCGTCGAGGACGCCTGGACCCGACCTGCCGGCGGTGGCGGGCGCACCCGAGTGATTGAAAACGGTACGGTCATCGAGAAGGGCGGCGTCAACTTTTCCCACGTCTTTGGCAGCGGTCTCCCACCCTCGGCCAGCGCCCACCGGCCGGAGCTGGCCGGGCGCGGCTTCGAGGCCCTGGGTGTGTCGCTGGTGATCCACCCGCACAATCCCCACGTGCCTACGTCCCACGCCAACGTACGCTTTTTCATCGCCGAAAAAGAAGGCGAAGAGCCGGTCTGGTGGTTTGGCGGCGGTTTCGACCTGACCCCTTACTACGGCGTGGAAGAAGATTGCGTGCATTGGCACCGCGTCGCCCAGCAAGCCTGCGAGCCCTTCGGCCCGGAGGTCTATTCGCGCTACAAGGCCTGGTGCGACAGCTATTTCCACATCAAGCATCGCAACGAACCGCGCGGCATCGGCGGTCTGTTTTTTGATGACCTGAACGAATGGGACTTCGATACCAGCTTCGCCTTCATGCGCGCCATCGGCGATGCCTACATCGATGCCTACCTGCCTATCGTGCGACGCCGCAAGCACGACCCGTTTACCGCCGCGCAACGACAATTCCAGGAGTTCCGCCGTGGGCGCTACGTGGAATTCAACCTGGTCTATGACCGTGGCACCCTGTTCGGCCTGCAATCGGGCGGGCGTACCGAGTCGATCCTGATGTCGCTGCCACCGCAGGTCCGCTGGAGCTACGACTGGAAAGCCGAGCCGGGCAGCGAAGAGGCGCGGCTGACCGATTATTTCCTGCAGGATCGCGATTGGCTGGCTACGGCCTGA	MTTRTEAVKAYLLDLQDRICAALETEDGGTRFVEDAWTRPAGGGGRTRVIENGTVIEKGGVNFSHVFGSGLPPSASAHRPELAGRGFEALGVSLVIHPHNPHVPTSHANVRFFIAEKEGEEPVWWFGGGFDLTPYYGVEEDCVHWHRVAQQACEPFGPEVYSRYKAWCDSYFHIKHRNEPRGIGGLFFDDLNEWDFDTSFAFMRAIGDAYIDAYLPIVRRRKHDPFTAAQRQFQEFRRGRYVEFNLVYDRGTLFGLQSGGRTESILMSLPPQVRWSYDWKAEPGSEEARLTDYFLQDRDWLATA	PGPT0003205_1676	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003205-hemF-K00228	NA	NA
D1-35_02873	978	qorA_1	COG0604	Quinone oxidoreductase 1	ATGGCCAAACGTATCCAGTTCAGCGCCCACGGCGGCCCGGACGTGCTTGAGTACGTCGAATACCAGCCGGCCGAGCCCGGTCCGCAGCAGGTTCGCGTCAGCAACAAGGCGATCGGCCTGAACTTCATCGACACCTATTATCGCAGCGGGCTTTACCCGCCACCGGCGCTGCCATCGGGACTCGGTGCTGAGGGTGCCGGCGTGGTCGAGGCCGTCGGCGCGGACGTCACGCGCTTCAAGGTCGGTGACCGCGTGGCCTATGGCAGCGGTCCGCTGGGGGCCTACAGCGATGTGCATGTGTTGCCCGAGGCCAATCTGGTCCACTTGCCCGAATCCATCAGTTTCGAACAGGCCGCCGGGGTGATGCTCAAGGGCCTGACCGTGCAATACCTGCTGCGCCAGTCCTACGAGCTCAAGGGCGGCGAAACCATCCTGTTCCATGCCGCCGCCGGTGGCGTGGGCTCGCTGGCCTGCCAATGGGCCAAGGCCCTGGGCGTGAAGCTGATCGGCACCGTCAGCTCAGCGGAAAAAGCCGCTATCGCAAAAGCCCACGGCGCCTGGGAAGTGATCGACTACAGCAAGGAAAACGTCGTACAGCGTGTACTGGAATTGACTGACGGCAAGAAGGTCCCGGTGGTGTACGACGGCGTCGGCAAGGACACCTGGCTGACCTCCCTGGATTGCACGGCTCCCCGTGGCCTGGTGGTGAGCTTCGGCAATGCCTCCGGCGCGGTGGAGGGCGTGAACCTGGGGATTCTCTCGGCCAAGGGCTCGCTGTACGTCACCCGCCCGACTCTGGCGACCTACGCCAACAACGCCGAAAACCTCCAACACATGGCCGATGAGCTATTCGCCATGATCGCCAGCGGCAAGCTTACCGTGGATATCAACCAGCGTTATCCGCTGGCGGAAGCGGCCAAGGCCCATACCGAGTTGTCGGCGCGGCGCACGACGGGGTCGACCATTCTGCTGCCCTGA	MAKRIQFSAHGGPDVLEYVEYQPAEPGPQQVRVSNKAIGLNFIDTYYRSGLYPPPALPSGLGAEGAGVVEAVGADVTRFKVGDRVAYGSGPLGAYSDVHVLPEANLVHLPESISFEQAAGVMLKGLTVQYLLRQSYELKGGETILFHAAAGGVGSLACQWAKALGVKLIGTVSSAEKAAIAKAHGAWEVIDYSKENVVQRVLELTDGKKVPVVYDGVGKDTWLTSLDCTAPRGLVVSFGNASGAVEGVNLGILSAKGSLYVTRPTLATYANNAENLQHMADELFAMIASGKLTVDINQRYPLAEAAKAHTELSARRTTGSTILLP	PGPT0013255_6221	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
D1-35_02874	558	tsaC	COG0009	Threonylcarbamoyl-AMP synthase	ATGGTCAACAGTTGGCGTGTGCAACAAGCCGCGCGAGAAATTCGCGCCGGGGCGGTGATTGCCTATCCAACCGAAGCGGTCTGGGGCCTGGGTTGCGACCCGTGGAACGAAGATGCGGTGGAGCGTCTGTTGGCGATCAAGTCCCGACTGCCCGACAAGGGCCTGATACTGGTGGCCGACAACATCCACCAGTTCGATTTCCTGTTCGAGGATTTCCCCGAGACCTGGATGGATCGCATGGCCAGCACTTGGCCTGGGCCGAACACCTGGCTGGTCCCGCACCAGAACCTGTTGCCGGAATGGATTACCGGCGTGCACGACACCGTCGCGCTACGGGTCAGCGATCATCCGATCGTGCGCGACCTGTGTTCGCTGGTCGGCCCGCTTGTCTCCACCTCGGCCAACCCCCAGGGGCGCCCGGCGGCACGCACGCGGATCCGCGTGGAGCAGTATTTCCGCGGGCAGATCGACCTGGTGCTCGGCGGCAACCTGGGCGGGCGTCGGAACCCGAGCGTGATCCGTGACCTGGCGACCGGCAAGGTGGTGCGGCCGGACTGA	MVNSWRVQQAAREIRAGAVIAYPTEAVWGLGCDPWNEDAVERLLAIKSRLPDKGLILVADNIHQFDFLFEDFPETWMDRMASTWPGPNTWLVPHQNLLPEWITGVHDTVALRVSDHPIVRDLCSLVGPLVSTSANPQGRPAARTRIRVEQYFRGQIDLVLGGNLGGRRNPSVIRDLATGKVVRPD				NA	NA	NA	NA	NA
D1-35_02875	1095			hypothetical protein	ATGCCATTGCCTGAATCCGCTTCGGTTCCGCCCGCGGAACTAGAGGCCCGTCTGCGCTTGCATCGCTTGCCGGAACTGGGACCCAAACGTTTCATGACCCTCATGGAAGCCTTCGGCTCGGCCTCCAAAGCCATCAGCGCCCCGCCCAGCGCATGGCGAGCGCTGGGGTTGCCGGCGCAGTGCGCCGAGGCCCGACGCGCGCCGGAAATACGTGATGGCGCGGCCCGTGCATTAGCCTGGCTAGAGGGTCCGGCCCACTGTCTATTGATGTGGGACCAGCCCGACTACCCGGCGTTGCTGGCGCAGATCTGCGACGCGCCGCCGCTTCTGTTCGTTGCCGGCGACACCTCGATTCTGGAGAAACCGCAATTGGCGATGGTCGGCAGTCGTCGCGCCTCGCGTCCCGGCATGGACACCGCGGCGGCATTTTCCCGGAGCCTGGCCGGAGCTGGATTTGTCATCACCAGCGGTCTGGCCTTGGGTATCGATGCGGCCGCGCATCAAGCTGCGCTGGATGTCGGCGGGCAGACAATCGGTGTGCTGGGCACGGGCCTGGAAAATTTTTATCCACAGCGCAATCGGCGGCTGGCGGAAGCGATGATCGCCCAGGGCAGCGCGGTGCTGTCGGAGTTCCCCCTGGACGCGCCACCCCACGCCAGCAACTTCCCGCGCCGCAATCGGATTATCAGCGGTTTGTCCCTTGGCGTGCTGGTGGTCGAGGCCAGCGTCGCCAGTGGCTCGCTGATCACCGCGCGCCTGGCGGCGGAACAGGGTCGTGAGGTGTATGCCATTCCGGGGTCGATTCACCATCCCGGCGCCCGGGGCTGCCATCAACTGATCCGTGACGGCGCGGCGCTGGTGGAAACCGTGGAGCACATCCTCGAAGCGCTACGCGGTTGGCAACGCTTACCCTTCGCCGCCGAACCTGTCCCCGTGACGCATCCGCTGTTGCGCCTGCTGCACGCCGCGCCGCAGACCAGCGAAGCACTGGCCGACGCCAGCGGCTGGGGCTTGTCCAAGGTCCTGGCGGCACTGACCGACCTGGAAATGGACGGAAGGGCTGCGTGCGAGTATGGACGCTGGTTTGCTCGCTAG	MPLPESASVPPAELEARLRLHRLPELGPKRFMTLMEAFGSASKAISAPPSAWRALGLPAQCAEARRAPEIRDGAARALAWLEGPAHCLLMWDQPDYPALLAQICDAPPLLFVAGDTSILEKPQLAMVGSRRASRPGMDTAAAFSRSLAGAGFVITSGLALGIDAAAHQAALDVGGQTIGVLGTGLENFYPQRNRRLAEAMIAQGSAVLSEFPLDAPPHASNFPRRNRIISGLSLGVLVVEASVASGSLITARLAAEQGREVYAIPGSIHHPGARGCHQLIRDGAALVETVEHILEALRGWQRLPFAAEPVPVTHPLLRLLHAAPQTSEALADASGWGLSKVLAALTDLEMDGRAACEYGRWFAR				NA	NA	NA	NA	NA
D1-35_02876	1026			hypothetical protein	ATGAGGAAATCACTACTCGCCCTGCTGCTCCTGGCCTCGGCCGGTATCGCGCACGGGCAAGTGCAACTTCGGGAAGGTTTTCCGCAGCAATACACAGTGGTTCCAGGGGATACGCTGTGGGACATTTCCGGTAAATACCTGCGCGAACCCTGGAAATGGCCCGAGCTGTGGCAGGCCAACCCGCAGATCGAAAACCCGCACCTGATCTACCCCGGCGACACCCTGTCGCTGATCTACGTCAACGGCCAGCCGCGGCTGACCCTCAATCGCGGGGCCTCGCGCGGCACCATCAAGCTGTCGCCGCGAATCCGCAGCTCGCCGGTGGCAGACGCCATTCCGAGCATCCCGCTCCAGGCCATCAACAGCTTCCTGCTGAGCAACCGCATCGTCGACACGGCGGAGGATTTCAACAAGGCGCCCTACGTCGTCGCAGGCGATGCCGAACGAGTGCTCAGCGGCACCGGCGACCGGATCTTCGCCCGCGGCACCTTCGATGCGAGCCAGTCGGCCTACGGCATCTTCCGCCAGGGCAAGGTCTACACCGACCCCGAGACCAAGGAATTTCTCGGGATCAACGCCGACGACATCGGCAGCGGCGAGATCGTCGCCACCGAAGGCGACGTCACCACCCTGGCCCTGCAGCGCACCACGCAGGAGGTGCGCCTCGGCGATCGGCTGTTCAGCGGTGAAGAACGCTCGATCAATTCGACCTTCATGCCCAGCGCGCCAAAATCGGACATCAACGGGTTGATCCTCGATGTGCCCCGGGGCGTGACCCAGATCGGCGCGATGGACGTGGTCACCCTGAACAAGGGGCGCCGTGACGGATTGGCCGAAGGCAACGTTCTGGCGGTCATGAAGACCGGTGAAACAGTGCGCGACCGCATCACCGGCGCCCCGGTGAAGATTCCCGACGAACGCGCCGGCCTGCTGATGGTGTTCCGCACCTACGACAAGCTCAGTTATGGCCTGGTGCTGTACGCCTCGCGCTCGCTGGCAATCCTCGACAAGGTGCGCAATCCGTAA	MRKSLLALLLLASAGIAHGQVQLREGFPQQYTVVPGDTLWDISGKYLREPWKWPELWQANPQIENPHLIYPGDTLSLIYVNGQPRLTLNRGASRGTIKLSPRIRSSPVADAIPSIPLQAINSFLLSNRIVDTAEDFNKAPYVVAGDAERVLSGTGDRIFARGTFDASQSAYGIFRQGKVYTDPETKEFLGINADDIGSGEIVATEGDVTTLALQRTTQEVRLGDRLFSGEERSINSTFMPSAPKSDINGLILDVPRGVTQIGAMDVVTLNKGRRDGLAEGNVLAVMKTGETVRDRITGAPVKIPDERAGLLMVFRTYDKLSYGLVLYASRSLAILDKVRNP				NA	NA	NA	NA	NA
D1-35_02877	507	def_2	COG0242	Peptide deformylase	ATGGCCATTTTGAACATTCTCGAATTTCCGGACCCGCGCCTGCGCACCATCGCCAAACCGGTGGCCGTAGTGGACGACGAAGTGCGCCAGTTGGTCGATGACATGTTTGAAACAATGTATGAGGCGCCCGGCATCGGCCTCGCCGCGACCCAGGTCAACGTGCACAAGCGCATCGTTGTAATGGACCTCTCCGAAGACCGCAGCGAGCCGCGGGTGTTCATCAACCCCGAGTTCGAAACCCTGACCGACGAGATGGAGCAGTACCAGGAAGGCTGCCTTTCGGTGCCGGGCTTCTACGAAAACGTCGACCGTCCGCAGAAGGTCAGGATCAAGGCCCTGGACCGCGACGGCAAGCCTTACGAGCTGATCGCCGAAGGCCTGCTGGCGGTGTGTATCCAGCACGAATGCGACCACCTCAACGGCAAGCTGTTCGTCGATTACCTGTCTAATCTCAAGCGTGACCGGATCAAGAAAAAACTGGAAAAGATTCATCGCCAGAACGCTTGA	MAILNILEFPDPRLRTIAKPVAVVDDEVRQLVDDMFETMYEAPGIGLAATQVNVHKRIVVMDLSEDRSEPRVFINPEFETLTDEMEQYQEGCLSVPGFYENVDRPQKVRIKALDRDGKPYELIAEGLLAVCIQHECDHLNGKLFVDYLSNLKRDRIKKKLEKIHRQNA	PGPT0008125_24	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
D1-35_02878	960	fmt	COG0223	Methionyl-tRNA formyltransferase	ATGACTGAGCCACTGCGCATCGTCTTTGCCGGCACCCCCGAATTTGCCGCTGAACACCTCAAGGCCCTGCTGGCCAGCCCTCATGAAATCGTCGCGGTCTATACCCAGCCGGATCGCCCTGCCGGTCGTGGACAGAAACTGATGCCCAGCCCGGTCAAGCAACTGGCTCTAGAGAATGGCCTGCAAGTGTTGCAGCCGCCGACTCTGCGCGATGCGCAAGCCCAGGCCGAACTGGCCGCGCTGAAGCCAGACTTGATGGTAGTGGTCGCCTACGGCTTGATCCTGCCGCAAGTGGTGCTGGATATCCCGCGTCTGGGCTGCATCAACAGCCACGCGTCGCTGTTGCCGCGCTGGCGCGGTGCGGCGCCGATCCAGCGCGCCGTGCAGGCCGGCGATGCCGAGAGCGGCGTGACCGTGATGCGCATGGAGGCCGGCCTGGACACGGGGCCGATGCTGCTCAAGGTGAGCACGCCTATCGGCGCTGAAGACACGGGTGGCAGCCTGCATGATCGCCTCGCGCTGATCGGCCCGCCGGCCGTGGTCGAGGCCATCGCGGGCCTGGCCGCCGGCACGCTGCAAGGCGAAGTGCAGGACGACAGCCTCGCCACCTACGCGCACAAATTGAACAAAGACGAAGCCCGCATCGACTGGAGCCGCCCGGCCGTGGAACTGGAACGCCTGGTGCGCGCCTTCAACCCTTGGCCGGTCTGCCACAGCACGTTGAACGGCGAAGCCGTGAAAGTCCTGGCCGCCAGCTGCGCCGAGGGGAAGGGCGCGCCGGGAGAAATCCTCGGCGCCAGCAAGGACGGCCTCATCGTCGCCTGTGGCGATCAGGCGCTGTGCCTGACCCGACTGCAATTGCCCGGCGGCAAGGCACTGGGCTTCAGCGATCTGTTCAATAGCCGCCGTGAGAAATTCGCCGTCGGCACTGTCCTCGGCCAAGCGGCGGACGCTTCATGA	MTEPLRIVFAGTPEFAAEHLKALLASPHEIVAVYTQPDRPAGRGQKLMPSPVKQLALENGLQVLQPPTLRDAQAQAELAALKPDLMVVVAYGLILPQVVLDIPRLGCINSHASLLPRWRGAAPIQRAVQAGDAESGVTVMRMEAGLDTGPMLLKVSTPIGAEDTGGSLHDRLALIGPPAVVEAIAGLAAGTLQGEVQDDSLATYAHKLNKDEARIDWSRPAVELERLVRAFNPWPVCHSTLNGEAVKVLAASCAEGKGAPGEILGASKDGLIVACGDQALCLTRLQLPGGKALGFSDLFNSRREKFAVGTVLGQAADAS	PGPT0008125_1550	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
D1-35_02879	1311	rsmB	COG0144	Ribosomal RNA small subunit methyltransferase B	ATGAATCCGCGTCTGGCCGCCGCCAAGGCACTGGCCGCCGTCCTCGGCGGCAAGGCTTCGCTCAACAGTTCCCTGCCGACTCAACTGGACAAGGTCGAAGACCGTGATCGCGGTTTCACCCAGGACCTGGCGTTCGGCACCGCCCGCTGGCAACCACGGTTGTCGACCCTGGCGGCCAAGCTGCTGCAGAAGCCGTTCAAGGCGGCCGATGCCGACGTCGAGGCGTTGCTGCTGGTGGGGCTCTACCAATTGCTCTACACCCGCGTTCCGGCCCACGCCGCCATCGGCGAAACCGTGGGTTGCGCCGACAAACTGAAAAAACCGTGGGCCAAGGCGCTGCTCAATGCCGTGCTGCGCCGCGCGCAACGGGAAAGCGAAACCCTGCTGGCGGAACTGGAGCATGACCCGGTGGTGCGCACTGCTCATCCGCGCTGGCTGCAGAAATCCCTGAAAGCCTTCTGGCCTGATCAGTGGGAAGCCATCTGCGCGGCCAACAATGCCCATCCGCCGATGATCCTGCGGGTCAATCGCCGTCATCACAGCCGTGATGCGTATCTGGCCTTGCTGGGTGAAGCCGGCATCCCGGCCGTCCCGTGCCAATACAGCCGCGACGGCATCATCCTGGAAACCCCGGGCGACGTCCGTGCCCTGCCAGGTTTCGCTGACGGCTGGATCAGCGTCCAGGACGAAGCGGCGCAGTTGGCCGCCGACCTGCTGGAACTGGCGCCGGGCCAACGGGTGCTGGACGCCTGCTGCGCGCCGGGCGGCAAGACCTGCCACATCCTTGAGGCCGAGCCGAAACTGGCCGGTGTGGTGGCGGTGGACCTGGAAGCCAAGCGCCTGGTGCGGGTGAAGGAAAACCTCGCGCGCCTGGGCCTGGATGCCGAGCTGTTCGCCGCCGATGGCCGCGACACCGCCGCCTGGTGGGACGGCAAGCCATTCCAGCGCATCCTGCTGGACGCGCCTTGCTCGGCCACTGGCGTCATCCGCCGTCATCCGGACATCAAGCTCACCCGTCAGGCGGACGACATCGCCCCATTGGCGCAACTGCAAGGGGAACTGCTCGACGCCCTGTGGCTGACCCTCGAAGTCGGCGGCATGCTGCTGTACGCCACATGCTCGACCTTGCCGACCGAGAACACCGAAGTGATCGAAGCATTCCTCGCCCGCACGCCGGGTGCACGGGAGTTGGACATCGCCACCCAGGCCGGTATCAAGCAGCCCCATGGCCGCCAGTTGCTGGCCCAGGAGGGCGGGCATGACGGGTTCTATTACGCCAAGTTGATCAAGATCGCCGCCGCACGCGGTTAA	MNPRLAAAKALAAVLGGKASLNSSLPTQLDKVEDRDRGFTQDLAFGTARWQPRLSTLAAKLLQKPFKAADADVEALLLVGLYQLLYTRVPAHAAIGETVGCADKLKKPWAKALLNAVLRRAQRESETLLAELEHDPVVRTAHPRWLQKSLKAFWPDQWEAICAANNAHPPMILRVNRRHHSRDAYLALLGEAGIPAVPCQYSRDGIILETPGDVRALPGFADGWISVQDEAAQLAADLLELAPGQRVLDACCAPGGKTCHILEAEPKLAGVVAVDLEAKRLVRVKENLARLGLDAELFAADGRDTAAWWDGKPFQRILLDAPCSATGVIRRHPDIKLTRQADDIAPLAQLQGELLDALWLTLEVGGMLLYATCSTLPTENTEVIEAFLARTPGARELDIATQAGIKQPHGRQLLAQEGGHDGFYYAKLIKIAAARG				NA	NA	NA	NA	NA
D1-35_02880	1374	trkA	COG0569	Trk system potassium uptake protein TrkA	ATGAAGATCATCATCCTCGGTGCAGGGCAAGTCGGCGGTTCGCTGGCGGAACATCTGGCCAGCGAGGCCAACGACATCACCGTGGTCGACACCGACGGCGAGCGCCTGCGCGACCTCGGCGACCGTCTCGACATCCGCACCGTGCAAGGGCGTGGCTCCTTGCCGACGGTGCTGCGCCAGGCCGGTGCCGACGACGCCGACATGCTGGTGGCCGTGACCAACAGCGACGAAACCAACATGGTCGCCTGCCAGGTCGCCCACACGCTGTTCCACACCCCGACCAAAATCGCCCGGGTGCGTGAAGCAGCCTACCTGACCCGCGCCGACCTGTTCGACAACGAAGCGATTCCGGTGGACGTGCTGATCAGCCCCGAGCAGGTGGTGACCAACTACATCAAGCGCCTGATCGAGCATCCCGGCGCGTTGCAGGTAATCGACTTCGCCGAGGGCAAGGCGCAACTGGTGGCGGTCAAGGCCTACTACGGCGGGCCGCTGGTGGGCCAGCAACTGCGTCAGTTGCGCGAACACATGCCGAATGTGGAGACCCGGGTCGCGGCGATTTTCCGCCGTGACCGACCGATCCTGCCCCAGGGCGACACGGTGATCGAAGCGGACGACGAGGTATTTTTCATCGCCGCCAAGGCGAATATTCGCGCAGTCATGAGCGAAATGCGCCGTCTCGACGAGAACTACAAACGCATCGTCATCGCCGGCGGCGGGCAGATCGGCGAACGTCTGGCCGAAGCCATCGAAAGCCGTTACCAAGTCAAGATCATCGAGATGAACCCGGCGCGCTGCCGCTACCTCTCGGACACCCTCGACAGCACCGTGGTGCTGCAAGGCAGTGCCTCGGACCGCGACCTGCTGCTGGAAGAAAACATCGCCGATGCCGACATCTTCCTCGCCCTGACCAACGACGACGAAGCCAACATCATGTCCTCGTTGCTGGCCAAACGCCTGGGTGCGAAGAAGGTCATGACCATCATCAACAACCCGGCCTACGTCGACCTGATCCAGGGCGGCGACATCGACATCGCCATCAGCCCGCAACTGGCAACCATCGGCACCTTGCTCGCCCACGTGCGCCGCGGCGACATCGTCAGCGTGCACTCCCTGCGCCGCGGCGCGGCAGAGGCCATCGAGGCGATCGCCCATGGCGATGCCAAGTCGAGCAAAGTGATCGGCAAAGCCATCCGCGACATCGGCCTGCCGCCCGGCACCACCATCGGCGCAATCATCCGCGACGAACAGGTGCTGATCGCCCACGACGTCACCACCATCCAGACCGGCGACCATGTAATCCTGTTCCTCGTGGACAAGAAGCACATCCGTGATGTCGAGAAGCTGTTCCATGTGGGGTTGAGTTTCTTCTGA	MKIIILGAGQVGGSLAEHLASEANDITVVDTDGERLRDLGDRLDIRTVQGRGSLPTVLRQAGADDADMLVAVTNSDETNMVACQVAHTLFHTPTKIARVREAAYLTRADLFDNEAIPVDVLISPEQVVTNYIKRLIEHPGALQVIDFAEGKAQLVAVKAYYGGPLVGQQLRQLREHMPNVETRVAAIFRRDRPILPQGDTVIEADDEVFFIAAKANIRAVMSEMRRLDENYKRIVIAGGGQIGERLAEAIESRYQVKIIEMNPARCRYLSDTLDSTVVLQGSASDRDLLLEENIADADIFLALTNDDEANIMSSLLAKRLGAKKVMTIINNPAYVDLIQGGDIDIAISPQLATIGTLLAHVRRGDIVSVHSLRRGAAEAIEAIAHGDAKSSKVIGKAIRDIGLPPGTTIGAIIRDEQVLIAHDVTTIQTGDHVILFLVDKKHIRDVEKLFHVGLSFF	PGPT0002710_1088	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499	NA	NA
D1-35_02881	312			hypothetical protein	ATGCTCGACTCCCTCGAAAAAATGCTCGCCAAGGGCGTGGACAACTCCCTACTCCGCTTCGGCCTCGGCAAAGGCTACCTCGACCTAGGCGAATTCCCCCGCGCCGCCGAACACCTCCAACGCTGCGTCGAATTCGACCCCAAGTATTCGGCGGCCTGGAAACTGCTGGGCAAGGCCCCCCAAGGCCAAGGCGATGCTGCTGCGGCCCGTCGGGCCTGGGAGCAAGGCCTGGAAGCCGCCCGGGCTCATGGTGACAAGCAGGCGGAGAAGGAAATGACCGTGTTCCTCAAGAAACTGAATCGCCATTCCTGA	MLDSLEKMLAKGVDNSLLRFGLGKGYLDLGEFPRAAEHLQRCVEFDPKYSAAWKLLGKAPQGQGDAAAARRAWEQGLEAARAHGDKQAEKEMTVFLKKLNRHS				NA	NA	NA	NA	NA
D1-35_02882	1083			hypothetical protein	ATGGACTTTGTAGAACGCTTGAGCGCAATGTCAGCGAAGGTTAATCAGCTAGCGTCGACGATACAAACCGAGGAAGCAACGAAGACTGCTTTTGTCATGCCGTTCATTCATACCGTGCTGGGCTACGATGTGTTCGACCCCTCTGAAGTCGTTCCTGAATATGTGTGCGATGTCGGCACTAAGAAAGGGGAAAAGATTGATTACGCGATCTTGAAGGGCGGCCAAATCCAGATATTGATCGAAACAAAAAAAATCGGCGAGCCGCTGAATATCAACCATGCGAGTCAGCTCTTTAGATATTTCCACGTCACTACTGCACGAATCTCCATCCTTACAAATGGCAGGTTCTATCGGTTTTACACTGATCTTGATGCCCCCAACAAAATGGATGAGAAGCCATTTTTAGAGATCGATCTGCTTAATATTGATGAACACGTCATTCCTGAGCTTCAAAAGCTTACGAAATCCGCTTTCGATGTTGATTCAATCATCAATGCCGCAGGCGAACTGAAGTACGTGGGAAACATAAAAAAGGAAATAGCTAAGCAGCTCACTCAGCCTGACGATGATTTCGTTCGTTTCTTCGCATCGCGAGTCTACGAAGGGGTTATCACCCAAAAAATTCGAGATCAGTTCACTCAGCTCACAAGGAAGGCCGCTTCCCAGTACCTCAGTGACCAAATAAACGACAGGTTGAAGTCAGCGATGAGCAAAGCCACGTTTCCTACGCTCGCTGAATCGGTCGTTGCTGAAAATCAGGCTGAAACCCAAGAAGAGCCTGAAGACCGCATTCTTACTACGATGGAGGAGCTGGAAGGTTTTCATATTATCAAGGCGATTGTCCGGACAGTCGTAGACGCAAAGCGCATAGCTAGCAGAGACACGCAGAGCTACTTCGGCATCCTCCTAGACGACAACAACCGAAAACCTATCGCAAGGCTTCACTTCAATCGTAGTCAAAAATATCTTGGGATTTTCGACAAGGATAAAGTCGAAACGCGCCATCCTATCAACTCGCTGGATGAGATCTATGAGTTTTCAGCCCCGCTGAAAGAGACGATCTCTTTTTACCAAGAAGCCTAG	MDFVERLSAMSAKVNQLASTIQTEEATKTAFVMPFIHTVLGYDVFDPSEVVPEYVCDVGTKKGEKIDYAILKGGQIQILIETKKIGEPLNINHASQLFRYFHVTTARISILTNGRFYRFYTDLDAPNKMDEKPFLEIDLLNIDEHVIPELQKLTKSAFDVDSIINAAGELKYVGNIKKEIAKQLTQPDDDFVRFFASRVYEGVITQKIRDQFTQLTRKAASQYLSDQINDRLKSAMSKATFPTLAESVVAENQAETQEEPEDRILTTMEELEGFHIIKAIVRTVVDAKRIASRDTQSYFGILLDDNNRKPIARLHFNRSQKYLGIFDKDKVETRHPINSLDEIYEFSAPLKETISFYQEA				NA	NA	NA	NA	NA
D1-35_02883	339			hypothetical protein	ATGTTCAAAGAAACTCCGAACCAGCCAGAGGCTGGTTCCACCTCTACCTCCGCAAAATCCAAAGCCAAGCAACAAGACGAAACCACCGAACCGAAACCGGAAGAATCTCAAGACGACCTCAAACCGGGGCAGCTATACACCGTCGTGGAAGGCCTCGATAACGAATGCCTGCTTGCCAACCTCAGCGAGACGTTGGCTTCGGCTGATGCGATGGTGAGTGATCTGGCGTTTGATCTGGATGGGACACGGCGTCATGTGGCGCTGGGGATTCAGCAGTTGATTGAGTTGAGTTCGTTGCTGGCGGATAGGGTTTTGGATAACGTGGAGCCGCGGCGGTAG	MFKETPNQPEAGSTSTSAKSKAKQQDETTEPKPEESQDDLKPGQLYTVVEGLDNECLLANLSETLASADAMVSDLAFDLDGTRRHVALGIQQLIELSSLLADRVLDNVEPRR				NA	NA	NA	NA	NA
D1-35_02885	660			hypothetical protein	ATGCGCACAGCCACCATCGAGTGCAGGCAATGCCCGACTGATGAGACTCATGCGACCGTATCCTTAACCGGGCTACTAAACCCGACCACTGATGGGCAGTGGCAGGACGACAATAGAACCCAGGAACAAGGCGCACAAGCCGGCGGATTCTGGCGTAGTTGTAGGCAAAGGCGCAAGGATGCGTGGCTTGATGGACGTTGTAGGCGGGGGCTGTATCGCGGGATCGTCTTCAACGTCTCGCAGATCACCCTCACCGACAGCGAACGTGGACGCTTGCGCGAGCTGCATTTTGGCGAGGCAAAACACGCTCACTATGTAGTCAACAGCAAGGTCGTCGAGGTATACGACAAGATGCAGGCCAGGGGCCTGCCTTGCGTGATGATGATCGGCATCTCCAGGCCGCTGACCCGACAACAGGGCGATGCCCTCAACGTCCAGCGCACCACGATCGCCACCCTTGCAGCCGCAGCCTTCGCTTCCGCCGCCAAGGCTGTGGCCCCTCCTTACGTGGCGGCATCCGTAGGGGCCGGTGTGCGCATGTATGCCAATGAAATCCTGCCCATCTACCATGCGGGCGACGTACTGGTCAGCATCGAGGCGCAGGTCAACGGCGGCATCGGCCCGCAACGCACCCTCTCGACATTGATCATCAAGGCCTGA	MRTATIECRQCPTDETHATVSLTGLLNPTTDGQWQDDNRTQEQGAQAGGFWRSCRQRRKDAWLDGRCRRGLYRGIVFNVSQITLTDSERGRLRELHFGEAKHAHYVVNSKVVEVYDKMQARGLPCVMMIGISRPLTRQQGDALNVQRTTIATLAAAAFASAAKAVAPPYVAASVGAGVRMYANEILPIYHAGDVLVSIEAQVNGGIGPQRTLSTLIIKA				NA	NA	NA	NA	NA
D1-35_02886	264			hypothetical protein	ATGTCCGAAATTACTCAATTGGTCATTGCCTTGGTGGTGTCCTTTCTTCTTGATCGATTCCTCAAGCCCTATCTGCTACGTAAGTGGCTAGGCGTGGTGTTGATGGCGGCGGGTGTGGTTGGCTGCTTTGTGGCAGGTCAGAACCGCTTGTTGGGGTTTGATCTGGGGTTGCTGTCGGTTTTTGCCGTGGTGATAGGGATGGGGTTGTTCATGAAGCGGCGGCGGTTTGAGGAGGTTGGTGTAGGGAAGAAAGGGGCTGATTGA	MSEITQLVIALVVSFLLDRFLKPYLLRKWLGVVLMAAGVVGCFVAGQNRLLGFDLGLLSVFAVVIGMGLFMKRRRFEEVGVGKKGAD				NA	NA	NA	NA	NA
D1-35_02887	921	syrM1		HTH-type transcriptional regulator SyrM 1	ATGGATACCAGACGCCTTGATCTCAATCTGCTGGTGACATTGGAGGCCCTTCTCATCGAGCAGAACGTGACTAGGGCAGCCGCCCGTCTGCATTTGAGCCAGCCAGCGGTCAGTGCACAATTGGGCCGCCTGCGCGATGTCTTCAACGACCCTCTTCTAATCCCCGCGCAGCGTGGAATGACCCCCACTGTCAAAGCTTTGGAGCTGCTGGTCCCGCTTCGCCAGGCACTTGACCAGGTAAGAGCCACCGTCACTACTCACCTGAACTTCGAGCCCGCGACGGCGAGCTTAACGGTATCCATCGCCTGCACGGATTACGTGCAAGCGGCCTTGATCAAACATCTCGTTGTCGCCATGCGACGCAAAGCGCCGGGTGTCCGTATCGCACTGCGCATCCTGGACGTACCACAACTGGAGCAGCAGATGACCCGCGGCGATGTGGACCTGGCCGTGATAAACATGAACGGCGCGCCGCCCACACTGCTCTCCCAACACCTCTATGACGAGAGTTACGTGCTGATCGGGCGCCGTGGGCATCCAAGCCTGCACGCCGACCTGACTGTGGATGAGTTCGCGCAACTGGAACATGTCGTGGTGTCACTACGCGGCGGAGGATTCTCTACCTCGGTGGATAACGCCTTGGTAGCGCGGGGGCAGCGGCGTAACGTAGTTTTGTCAGCATCGTCTTTCCTTCCAGTACCGGAGTTGGTCGCGGAGTCGGATTGTGTGGCCCTGGTTCCACGTCGTCTCGTAGAAGGTCGTGGCGAGCAACTGCTGTGCGTAGCCCCCCCATTGCCGGTGGAAGGTTTTGCGATTGGCATGTTCTGGCATGAGCGGTCTGACGGGCACGCCGGCTTCAGATGGGTGCGGGAGTTCATCGCTCTCGTAGCCGATTCTCGGGCATCTACGCTGACAGGGTAG	MDTRRLDLNLLVTLEALLIEQNVTRAAARLHLSQPAVSAQLGRLRDVFNDPLLIPAQRGMTPTVKALELLVPLRQALDQVRATVTTHLNFEPATASLTVSIACTDYVQAALIKHLVVAMRRKAPGVRIALRILDVPQLEQQMTRGDVDLAVINMNGAPPTLLSQHLYDESYVLIGRRGHPSLHADLTVDEFAQLEHVVVSLRGGGFSTSVDNALVARGQRRNVVLSASSFLPVPELVAESDCVALVPRRLVEGRGEQLLCVAPPLPVEGFAIGMFWHERSDGHAGFRWVREFIALVADSRASTLTG				NA	NA	NA	NA	NA
D1-35_02888	819	kefF_2		Glutathione-regulated potassium-efflux system ancillary protein KefF	ATGTCAAAAAAAATACTGATCATCTATGCCCATCCCGAGCCTTCGTCGCTGACGCGGCAGCTGGTGGATGTGTCTGTTGAATGCTTGACTGCGCAAGGGCACGAGGTCCTGCAATCCGATCTATACGCCATGGGCTGGAAAGCAACGTTCGACGAGCACGACTTTCCTGATCGGGCCAACCTTCAGCGGCTGTCGTTCGGCGCAGAGTCCGCTCACGCCTATCGTAATCGCAGCCAAAGCCCTGACGTGGCGGCTGAGCAAGACAAGGTTTTGGCGGCAGATACTGTCATCTTCCAGTTCCCACTTTGGTGGTACGGCATGCCCGCCATCATGAAGGGATGGATAGATCGCGTATGGGCAGCCGGACTCGCCCACGGCTACAAGGACGCTGGCAATGCCTACCGCTATGGTGACGGGGCCTTCAAGGGAAAGCGGGCCATGTTGTCAGTCGCTGTCGGCGGACCCGCAGAAGACTACTCGCCGCGCGGTATCAACGGACCACTTGAGCAATTGCTGTTCCCGATCACGCACGGCTCGCTCTACTTTCCCGGGTTCGATGTGCTGCCTACGTTCGCCATATACGGCACTGGCAACTTGACCGCCGCGGATGCAACCGCAGCCAAAGAGGTTTGGCGCACCCGTCTTGAGGGTTTGTTCACAGACGCGCCAATACCTTTCCGGCCTCAAAACGGTGGGGACTACACACCCCAACACGAGCTTAAACGGCATGTGGCCGTCGGCCAGACCGGCATAATGGCGCACATTGCTTGTAGCGAAACAGCACAGCCGCAGCCGCTTGAAACGCAGGGGGTGTTATGA	MSKKILIIYAHPEPSSLTRQLVDVSVECLTAQGHEVLQSDLYAMGWKATFDEHDFPDRANLQRLSFGAESAHAYRNRSQSPDVAAEQDKVLAADTVIFQFPLWWYGMPAIMKGWIDRVWAAGLAHGYKDAGNAYRYGDGAFKGKRAMLSVAVGGPAEDYSPRGINGPLEQLLFPITHGSLYFPGFDVLPTFAIYGTGNLTAADATAAKEVWRTRLEGLFTDAPIPFRPQNGGDYTPQHELKRHVAVGQTGIMAHIACSETAQPQPLETQGVL	PGPT0009455_195	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009455-kefF|nqo|ywrO-K00355	NA	NA
D1-35_02889	321			hypothetical protein	ATGAAAACTTTGGTGATTCTGACTCGCCGCGCTGATGGCAAGGCAGAGGACTTCAAGCGACTAGCGAAACCGGAGGTATTACACGTTTGGCAGGGCTTCGCACAGGGTGTTGTCCGCGCAGTACATGGACTGGCCGCCGGTCCCGGAGCAGCGTTTGAGCTGGAGTCCGCCACCTTTGAAGAGGCGCGTGAATACATTGAAGCGCTGCCTTACGTCAAAGAGGATCTGCTACACGTGCAGTACTGTGCGCTCAAGCCATTCTCTGACTACGAGAGACTCGGCGGTGAGCTTGACCAACTGCCCACCCAGCACATCCCATAA	MKTLVILTRRADGKAEDFKRLAKPEVLHVWQGFAQGVVRAVHGLAAGPGAAFELESATFEEAREYIEALPYVKEDLLHVQYCALKPFSDYERLGGELDQLPTQHIP				NA	NA	NA	NA	NA
D1-35_02890	741	ompR_5		Transcriptional regulatory protein OmpR	ATGGAACATGTCGATCACGTATTGATCGTGGATGATGATCGGGAAATCAGGGAGCTGGTCGGCAACTACCTGGTGAAGAATGGCCTGCGCACCACCGTGGTCGCGGATGGTCGCCAGATGCGGGCCTTTCTCGAAGCCAACCAGGTCGACCTGATCGTGCTCGACATCATGATGCCGGGGGACGACGGGCTGCTGCTGTGCCGCGAATTGCGCGCCGGCAAGCATAAGGCGACACCGGTGCTGATGCTGACGGCGCGCAGCGACGAGACCGATCGCATCATTGGCCTGGAAATGGGCGCCGACGACTATCTGGCCAAACCCTTCGCGGCCCGGGAACTGCTTGCGCGCATCAACGCGGTGCTGCGGCGCACTCGCATGCTGCCGCCGAACTTTGTCGTGACCGAAAGCGGCCGGATGCTCAAGTTCGGCCGCTGGCGCCTCGACACCACTGCCCGCCATCTGCTCGATGAAGACGACACGCTGGTCTCGCTGAGCGGCGCCGAGTACCGGCTGCTGCGGGTTTTTCTCGATCATCCGCAGCGGGTGTTGAGCCGCGACCAGTTGCTCAACCTGACGCAGGGCCGTGACGCGGACATCTTCGACCGTTCCATTGACCTGCTGGTCAGCCGCGTGCGCCAGCGCTTGTTGGATGACGCTCGCGAGCCGCTCTACTTGAAGACGGTGCGCAACGAAGGGTACGTCTTTACCTTTGCGGTGGAAATGCTTGAGGAGCAGGCATGA	MEHVDHVLIVDDDREIRELVGNYLVKNGLRTTVVADGRQMRAFLEANQVDLIVLDIMMPGDDGLLLCRELRAGKHKATPVLMLTARSDETDRIIGLEMGADDYLAKPFAARELLARINAVLRRTRMLPPNFVVTESGRMLKFGRWRLDTTARHLLDEDDTLVSLSGAEYRLLRVFLDHPQRVLSRDQLLNLTQGRDADIFDRSIDLLVSRVRQRLLDDAREPLYLKTVRNEGYVFTFAVEMLEEQA	PGPT0004100_30	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
D1-35_02891	1314	sasA_14		Adaptive-response sensory-kinase SasA	ATGAAACTCGCGTTGCAATGGCCCCGCACGCTGGCCTCGCGGCTGTGGCTGGTGTTCCTTGTCGGCTTGATACTGGCCCAGGCCCTGACATTCGCAGCCCAGTACTACGAACGTTACGAAAGCACCAAGACGGCGATGTTGGGCAATTTCGAGCACGACACGGCGACCTCCATCGCCATCCTCGAGCGTCTGCCGGCCGCCGAACGCCTGGAATGGACCAAACGTCTGCAGCGTCGCAACTATGACTATTTGCTGCGCGAACATGATCCCGGCATTCCGCTCACTTCGAACGATCTCGCGGCGACGGCGGCGCAATCCCTTCAAGTCTCGCTGGGCCGCAACTATGACCTGACCATTGTCGAGATCCCTGGTCCACGCCAGCATTTCCAAGCCCAGGTGCGATTGGCTGACGGCAGCCCGGTGACCATCGATGTGCGTCCCTCGGTCAGGCCGTTGTCGCCCTGGTTGCCCTTTGCCCTGGTCGGTCAGTTGCTGTTGATGATCGGCTGCACCTGGCTTGCCGTGCGGATCGCGATACGCCCGCTCAGTCGACTGGCCGAGGCGGTCGAGAACCTCGACCCGAATGCCCATCCCGTGCCGTTGGACGAAACCGGTCCACGGGAAGTGGCCTACGCCGCCCGGGCCTTCAACAGCATGCAGGCGCGCATTGCCGCTTACCTGAAAGAGCGCATGCATTTGCTTGCGGCGATTTCCCACGACTTGCAGACGCCCATCACGCGCATGAAGCTGCGCGCGGAGTTCATGGACGACTCGGTGGAGAAAGACAAACTGGGCAACGACCTGAACGAAATCGAGCACCTGGTGCGCGAGGGTGTCGCTTATGCGCGCAGTGTCCATGGTGCGACTGAGACCAGTTGCCGCATCAGCCTGGATTCTTTTCTCGACAGCCTGGTGTGCGACTACCAGGACACCGGCCGCGAGGTCAGCCTGCGCGGCCAGAACGGCGCGATCATCGAGACAAGGCCCCATGCGTTGCGGCGTATTCTGGTGAACCTGGTGGATAACGCGCTGAAGTACGCCGGCACCGCCGAGGTGGAAATCGGCGGCAATGCGAGCACCGGCGTTTCCATCAGTGTGCTTGACCGAGGGCCGGGCATTCCCGAGGAAATCCTGGCAGAGGTGGTGAAGCCGTTCTATCGGGTGGAAAGCTCTCGCAACCGCAGCTCTGGCGGCACCGGCCTGGGGCTTGCCATCGCTCAACAGTTGACCGTCGCGATTGGTGGCTCACTGAGCCTGCGCAACCGCGACGGCGGCGGTCTTTGCGTGACCCTCGACTTCGGCGTCGATCAGTAG	MKLALQWPRTLASRLWLVFLVGLILAQALTFAAQYYERYESTKTAMLGNFEHDTATSIAILERLPAAERLEWTKRLQRRNYDYLLREHDPGIPLTSNDLAATAAQSLQVSLGRNYDLTIVEIPGPRQHFQAQVRLADGSPVTIDVRPSVRPLSPWLPFALVGQLLLMIGCTWLAVRIAIRPLSRLAEAVENLDPNAHPVPLDETGPREVAYAARAFNSMQARIAAYLKERMHLLAAISHDLQTPITRMKLRAEFMDDSVEKDKLGNDLNEIEHLVREGVAYARSVHGATETSCRISLDSFLDSLVCDYQDTGREVSLRGQNGAIIETRPHALRRILVNLVDNALKYAGTAEVEIGGNASTGVSISVLDRGPGIPEEILAEVVKPFYRVESSRNRSSGGTGLGLAIAQQLTVAIGGSLSLRNRDGGGLCVTLDFGVDQ				NA	NA	NA	NA	NA
D1-35_02892	879	cpo_3		Non-heme chloroperoxidase	ATGAATACCCAGTCCCAACGCGCTCAAGCAGCCAACCCAGCCCAGGCCGGCAGCTATATCACCACCCAGGACGGCGTACAGCTGTATTACAAGGACTGGGGTCCGAAAGATGGGCCAGTCGTCACCTTCAGCCATGGCTGGCCGCTGAATTCGGATAGCTGGGAATCGCAGATGCTGTTCCTGGCGGACCAAGGCTATCGGGTAATCGCCCACGACCGCCGCGGCCATGGCCGTTCCAGCCAGTCGTGGGAAGGCAACGACATGGATCACTATGCCGATGACCTGGCCGCTGTGATCAACGCCCTGGACCTTAACGACGTGACCCTGGTGGGTTTCTCGACCGGTGGTGGCGAAATCACCCGCTACATCGGCCGCCACGGCACCGACCGGGTGAAGAAGGCCGCCCTGATCAGCGCCGTTCCGCCGATGATGCTCCAGACCGAAGACTACCCAGGCGGCTTGCCGATCGAGGTGTTCGACGGCCTGCGCAGGGCCTCGCTGGACAACCGCTCACAGCTGTATCGCGACATTGCGTCTGGGCCGTTCTTCGGCTTCAACCGCGACGGGGCGAAAGTCTCCCAAGGGCTGATCGATTCGTTCTGGGTGCAGGGCATGCAAGCGGGCCACAAAAACACCTATGACTGCATCGCAGCGTTCTCGGCGACAGACTTCCGCGCCGACCTGGCCAGGTTCGACGTGCCGACACTGATCGTGCATGGCGACGATGACCAGATCGTCCCGATTGACGCCTCCGCCCATGCCGCCGCCGAGCTGGTGCAGAACGCCGAGTTGATCGTCTATCCGGGTGCGCCGCACGGCCTGACCGACACCCACAAGGACCGCCTAAACCAGGATCTGTTGGACTTCCTGGCCAAGTGA	MNTQSQRAQAANPAQAGSYITTQDGVQLYYKDWGPKDGPVVTFSHGWPLNSDSWESQMLFLADQGYRVIAHDRRGHGRSSQSWEGNDMDHYADDLAAVINALDLNDVTLVGFSTGGGEITRYIGRHGTDRVKKAALISAVPPMMLQTEDYPGGLPIEVFDGLRRASLDNRSQLYRDIASGPFFGFNRDGAKVSQGLIDSFWVQGMQAGHKNTYDCIAAFSATDFRADLARFDVPTLIVHGDDDQIVPIDASAHAAAELVQNAELIVYPGAPHGLTDTHKDRLNQDLLDFLAK	PGPT0013125_318	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013125-cpo-K00433	NA	NA
D1-35_02893	807	menH_2		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGCTCACTATCAAATCGCTGTTGGCCGTCACCATCACCGCTGCGCTGGCACTCACATCCGTCCAAAGCGCAACCGCCGCGCAATCCGACGCCGCCAAGCCCACCATCGTGCTGGTGCATGGCGCATTCGCCGAATCGTCCAGCTGGAATGGCGTTGCCGCCCAGTTGCTGACCCAGGGTTTTTCGGTCGTTGCAGCGGCCAACCCGCTGCGCGGCTTGAAGCAGGACGCCGATTACGTCGCCGATATCGTCGAGCAAACCGCCGGCCCGGTGATCCTGGTGGGTCACTCCTACGGCGGCGCCGTGATCACTAACGCCGTGCACAACAACCCCAAGGTCAAGGCCCTTGTCTACGTCGCGGCCTTCGCGCCGGACAAAGGCGAAACCGCCATCGAACTGTCCGGTCGCTACCCTGGCGGCACCCTCGGCCCGACCTTGGCTGCTCCGGTGCAGTTGGACGACGGCAATAAGGATCTCTACATCCAGCAGGACAAATTCGGCCAGCAGTTTGCCGCCGACGTCGCAGCGGCTGATTCCGCCCTGATGGCCGCGACACAACGCCCAATCAGCGAGGCTGCATTGAAGGAAGCGTCTGGCGACCCGGCCTGGAAAAAACTGCCGTCCTGGTTCATCTACGGCTCGGCGGACAAGAACATCCCCGAGGCCGCCCTGAAGTTCATGGCCGAACGCGCGGGCTCGAAAAAGACCGTCACCGTTCAAGGGGCGTCCCATGTGGTGATGACGTCCAATCCGGAGAAAGTTGCGGAGCTGATCGTTGAGGCGGCGCAGGCCAGTTCCAGAGGGTGA	MLTIKSLLAVTITAALALTSVQSATAAQSDAAKPTIVLVHGAFAESSSWNGVAAQLLTQGFSVVAAANPLRGLKQDADYVADIVEQTAGPVILVGHSYGGAVITNAVHNNPKVKALVYVAAFAPDKGETAIELSGRYPGGTLGPTLAAPVQLDDGNKDLYIQQDKFGQQFAADVAAADSALMAATQRPISEAALKEASGDPAWKKLPSWFIYGSADKNIPEAALKFMAERAGSKKTVTVQGASHVVMTSNPEKVAELIVEAAQASSRG				NA	NA	NA	NA	NA
D1-35_02894	2193	fcuA_1		Ferrichrome receptor FcuA	ATGCTGTTCCCATCTCGCCTTACATTGCTCGCCGCGTGCTGCTCAGTCAGTTTTCTTGTCCAGGCCGCAGAACCTATTGAATTGGGAGTGACCGATGTTACTGCCGATGGGATCAAAGCCAATTCCAACACGCTGCCAGCGCCCTTTGCGGGCGGTCAGGTGGCGAGGGGAGGCCAGATGGGGGTGTTGGGAAATCAGGACAATATGGATGTCCCGTTCGTGATGACGAGTTACACCTCGCAGCTGATTGAAGATCAACAAGCCGAAGACGTCGGTGATGTGCTGCTCAATGATCCGTCGGTGCGTCAGTCCTATGGGTTTGGTAACCAGTCCCAAGTGTTTGTGATTCGAGGCTTGCCGCTTAGCGGCGACGACATTTCCTACAACGGGCTGTATGGCGTTTTACCGCGCCAGATTCTGTCGACGGATGCGATCGAGCGTGTCGAGGTGTTCAAGGGCCCCAACGCGTTTATCAACGGTGTCAGTCCGACGGGCTCGGGACTTGGCGGCGGCGTCAACTTGCAGCCCAAACGTGCGGAGGATGTCCCGACTCGTCGTTATACGCAGGACATCAGCACCGATGGCCGCGTTGGCGAGCATTTGGATATCGGGCAGCGATTCGGCGAGGATAACCGCTTTGGCGCCAGGTTGAACCTGAGCCAGCGCGAAGGTGAAACAGCGATCGACGACCAGGATCAGCGCACCAAGTTGTTCGTTGCGGGCTTGGACTATCGGGGTGATGACTTCCGCGTTTCCACCGACTTCGGCTATCAGAAACAGCGTATCAATGGACTGCGCAATTCGGTGAACATCGGCAACGCCACCCACATTCCCACGGCTCCGCACGCTAGCCACAATTATGGGCAGGACTGGACTTACTCCGAAACCGAAGACACCTTCGGCATGGTCCGTGGCGATTGGGATCTGAACGAAAACTGGACCGCCTACCTGGCTGGCGGTGTAAAACACACCCGAGAAACCGGGGTCTACGCCACACCGACATTGGTCGGCAATAACGGCGTAGCGACGATCGGTGGCTCGGAAATTCCGCACAACGAAGACAATACCTCGTTCAGTGGCGGGTTGAACGGGCGCTTTGACACGGGCCCTGTTTCCCATCAGGTGGCGATCGGCGGCTCGACGATCTGGACCGAGCAGGAAAACGCCTACACGTTCTATCGTCCTGTTACCGGCAACAGCAATCTCTACGACACCCCGAAGCTTCCCAAACCGACGGCGGTGTCCAGCACCGGCGGTGAAATGGGTGATCCCGGGGTGACTGGCAAAACCCGCAACCGTAGCCTGGCGATTTCCGACACGTTGGGCTTGTTCGATGACAAATTGCTGGTCACTTATGGTGTCCGTCGTCAGCAGTTGCGTGTCGAAAACTACAAGTACGATGGCACCACCTCAAACGGTGCCGCCAACGCAGCAAACGATGGCAGCCGTAGCTCGCTCTACGATGAAGCCGTTACCACGCCTGTCTACGGCATCGTCTACAAGCCTGTGGAAAGCGTGTCGCTCTACGCCAACCGAATCGAAGGCCTTGCAAAAGGGCCGGTGGCGTCCGGTACAGGCATCACCAACCTGGGCCAAGCCTTCCCTCCTGGCCGCACCAAACAGTTGGAAGCGGGCATCAAGCTGGACATGCAAACCTTCGGTGCCAACGTGGGGGTTTTCCGCATCGAGAAACCTTCCGATGGTTACGTCGACAACGCGCAGAACCTCTATGTGCGTGATGGTGAGCAGGTCAACAAGGGGCTGGAAATCAGCGTTTTCGGCGAGCCTATCGAAGGCCTCCGCTTGATGGCCGGCGGCACCCGCATGACGTCCGAACTCAAGAAAACCGCGGGTGGTCGCAACGATGGCAATCACCCCATTGGCGTGCCTACGTTCCAGCTCAATGCCAGCGTGGATTGGGATGTCCCGGGTATCGAAGGCGCCGCGCTCAGCGCCAGGATGCTGCGCACTGGCGGGCAATACGCGGATCAGGCCAACAACCTGAGCTTGCCCACCTGGAACCGTTTCGACGCTGGCGCACGTTATAAAATGAAGGTCGCGGAGAAAGACCTGACGTTGCGCGTCAATGTGGAAAACATTACCGACAAGAACTACTGGGCTTCGGCAAACGGCGGCTACCTCTCGCAGGGTGATCCGCGGTTGGTGAAGTTCTCGGGAACTATCGATTTCTAG	MLFPSRLTLLAACCSVSFLVQAAEPIELGVTDVTADGIKANSNTLPAPFAGGQVARGGQMGVLGNQDNMDVPFVMTSYTSQLIEDQQAEDVGDVLLNDPSVRQSYGFGNQSQVFVIRGLPLSGDDISYNGLYGVLPRQILSTDAIERVEVFKGPNAFINGVSPTGSGLGGGVNLQPKRAEDVPTRRYTQDISTDGRVGEHLDIGQRFGEDNRFGARLNLSQREGETAIDDQDQRTKLFVAGLDYRGDDFRVSTDFGYQKQRINGLRNSVNIGNATHIPTAPHASHNYGQDWTYSETEDTFGMVRGDWDLNENWTAYLAGGVKHTRETGVYATPTLVGNNGVATIGGSEIPHNEDNTSFSGGLNGRFDTGPVSHQVAIGGSTIWTEQENAYTFYRPVTGNSNLYDTPKLPKPTAVSSTGGEMGDPGVTGKTRNRSLAISDTLGLFDDKLLVTYGVRRQQLRVENYKYDGTTSNGAANAANDGSRSSLYDEAVTTPVYGIVYKPVESVSLYANRIEGLAKGPVASGTGITNLGQAFPPGRTKQLEAGIKLDMQTFGANVGVFRIEKPSDGYVDNAQNLYVRDGEQVNKGLEISVFGEPIEGLRLMAGGTRMTSELKKTAGGRNDGNHPIGVPTFQLNASVDWDVPGIEGAALSARMLRTGGQYADQANNLSLPTWNRFDAGARYKMKVAEKDLTLRVNVENITDKNYWASANGGYLSQGDPRLVKFSGTIDF	PGPT0003790_18213	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
D1-35_02895	885	oleB_2	COG0596	Cis-3-alkyl-4-alkyloxetan-2-one decarboxylase	ATGAATGCATACGCCAGCGGCTTTCTTGCCGCGCCGCATCAATTCATCAGTATCGAAGGGCTGCGTTTTGGTTATCGCGACTATGGAACAGGTCCGGTACTGCTGATGCTGCACGGCTGGCCACTTAATGGCGATACCTTTGCGCCGTTGGTCGATGCGCTTGCCTCAGGCTTTCGTTGCATTGTGCCGGATCTCCCTGGCGCAGGCATGACAGCCTGGTCAACAGAACATGATCTGAGCCCCGCCGGCCAGGCGCGTTTGCTCCAGGGTTTACTTGCGGCCTTGGGCATTGCGCAGGGCTATAGCCTGTTGGGTAATGACAGCGGCGGTATCGCCGCCCGCTACCTTGCACTTTGGGACGCCGGCCGCGTGGCCAAGTTGATTCTGCTCAATAGCGAAATACCTGGGCATCGCGCACCCAACCAGCGTCTGTACAAACAACTGGCGCGTTGGTTACCGGGATACGGCGCGCTTGCTCGCATCCAGCTAAGAAGTGCTGCCTATCTGTGTTCGAAGCGGGGGTTTGGCGGAACGCTCTACGATCACCAGCACTTGCTCGGCAGCTTTCATCGGCGCTTTATCGCGCCGCTGATCCAGTCCGCGCAGAGCATGGAGCAAGCCCGGTGCGCCTTTATCGCAGTGCTTGATTGGCCGCAGCTCGATGCCTTGAGCCGCCTTCATGGCCAGATCGAGGCACAGACCTTGCTGATCTGGGGGCGGCAGGACGATACCTTCCCTGAGCCGTATGCCATTGAGATGAGCCGGAGCTTTGCCAACCTTACCGGCTTTATCAGCATCGACAAGGCCAAGTTGTATGTTCATGAAGACCAACCAGAGCAGGTGATTCAACACCTCAAGGTCTTTCTGCTGGCAAAGCAGGAGTAG	MNAYASGFLAAPHQFISIEGLRFGYRDYGTGPVLLMLHGWPLNGDTFAPLVDALASGFRCIVPDLPGAGMTAWSTEHDLSPAGQARLLQGLLAALGIAQGYSLLGNDSGGIAARYLALWDAGRVAKLILLNSEIPGHRAPNQRLYKQLARWLPGYGALARIQLRSAAYLCSKRGFGGTLYDHQHLLGSFHRRFIAPLIQSAQSMEQARCAFIAVLDWPQLDALSRLHGQIEAQTLLIWGRQDDTFPEPYAIEMSRSFANLTGFISIDKAKLYVHEDQPEQVIQHLKVFLLAKQE				NA	NA	NA	NA	NA
D1-35_02896	774			hypothetical protein	GTGCAGAGTTTTTTGATCCTGGGCAATCAGCTCACCCTGTATGTCGGGCCGCTACCCGACATCAGCCTCCATCGACATAGCGCCAGCGCTCTATGCCTCGGGTTACAGGCGCCGATTCAGGCACGGGGCACCGACGCAAGCCCATGGCAGCGTTACGATCAGTTATTCGTGCCAGCAGGTGTCGCGCATGCTTTGGCGTTTGCCGGGCAACCTGTGGCGGTGTTGTTCTTTGAGAAACAGAGCCGCCTCTACCAGCAGTTGCTGCTGCGTTACAACCTATCTACCGAGCACTTGAGCGATCCCGGGCCGAGCGCTGGCAACTGGCTGACGGAACTCAAAGGGTTGACGGGCCGCGATGTGCAGGAAGGCGAAGCCCTTCTCGGGCAAATCGCCATGCGCTTGCTGCCCGATACGGGCGAGTCGAACCACGCAGACCCACGGGTACTCAAGGTGCTGGATGCGATGCAGGCGCAGCCCCAGCGCAATTTCACCACCCAGGAACTGTCGGCCCTCGTTTGTCTGTCGCCAAGCCGCCTTTCTGCACTGTTCAACCAGGCCATGGGGCTGCCGCTGAGGCGCTACCGGGTGTGGCTGCGTCTGCGCGCGCTGGTCAGTTTTGTCAGCCAGGGGCTATCGCTCACCGAAGCCGCGCAGATGGCGGGGTTCAGCGACTCAGCCCACTTCAGCAACAGTTGCCGCAAGCTACTGGGGGTCAAGCCGACCGACGTGCTTGCTGGCGATGATCTACGCATCCTCTTTTCCAATCGCCTGTGA	MQSFLILGNQLTLYVGPLPDISLHRHSASALCLGLQAPIQARGTDASPWQRYDQLFVPAGVAHALAFAGQPVAVLFFEKQSRLYQQLLLRYNLSTEHLSDPGPSAGNWLTELKGLTGRDVQEGEALLGQIAMRLLPDTGESNHADPRVLKVLDAMQAQPQRNFTTQELSALVCLSPSRLSALFNQAMGLPLRRYRVWLRLRALVSFVSQGLSLTEAAQMAGFSDSAHFSNSCRKLLGVKPTDVLAGDDLRILFSNRL				NA	NA	NA	NA	NA
D1-35_02897	636			hypothetical protein	ATGACCCGAACCCAGAAAACCGTCTTCATCCTCGTGGCCGTGATCGCACTGATTCTCGGCCTGACCATCAATAAAGTGCTGTCCGGCAAAGGCCAGGGCGACCCGACCGCACTGATTGACGCTGGCATCATCCTGCTGCCGCAAAGCCGCAACCTGCCGGACGTGAAAATGACCGACCAGGACGGCCAACCATTGACGATGAACGAGCTGAAAGACAAATGGAGCCTGCTGTTCTTCGGCTACACCTTCTGCCCGGACATCTGCCCGACCACCCTCGCCCAGCTGCGCCAGATCAAGAGCGAGCTGCCGCCCGAGGCGGTGGCCAAGTTGCAGATCGTGCTGGTGAGCGTCGACCCGAACCGCGACACGCCCAAGCAACTCAAGCAATACCTGGGTTACTTCGACCCGCAGTTCATCGGCCTGACCGCCGCCTCGGTACAAGACCTGCAAAAACTCGCCAACGCGGTAAGCATCCCGTTCATCCCGGCGGACACCAGCAAGCCCAACTACACCGTCGACCACAGCGGCAATCTCGCCGTCATCGGCCCGGACGGCACCCAACGCGGGTTTATTCGTGCGCCGTTGAATAATCAGAAGTTGGTGGCGCAGTTGCCGGAGATGCTGAAACACAAATAA	MTRTQKTVFILVAVIALILGLTINKVLSGKGQGDPTALIDAGIILLPQSRNLPDVKMTDQDGQPLTMNELKDKWSLLFFGYTFCPDICPTTLAQLRQIKSELPPEAVAKLQIVLVSVDPNRDTPKQLKQYLGYFDPQFIGLTAASVQDLQKLANAVSIPFIPADTSKPNYTVDHSGNLAVIGPDGTQRGFIRAPLNNQKLVAQLPEMLKHK				NA	NA	NA	NA	NA
D1-35_02898	900	ctaB	COG0109	Protoheme IX farnesyltransferase	ATGGCAACCCTGACCGGTACACGCCACAGCCAGGCGATCTGGCGCGATTACCTGGAGCTGACCAAACCCAAGGTGGTGGTATTGATGCTGATCACCTCGCTGGTCGGCATGTTCCTCGCGACCCGTGCCGGAGTGCCCTGGACGGTGCTGGTGTTCGGCAATCTGGGGATTGCGCTGTGCGCCGGTGGCGCGGCGGCGGTCAACCACGTGGTGGATCGGCGTATCGACGCAGTGATGGCGCGCACTCACAAGCGGCCATTGGCCGAGGGCCGGGTCTCGCCGGCCGCCGCGCTGACGTTCGCCCTGGCACTGGCGCTGGCCGGTCAGGCACTGCTGCTGGTGTTCACCAATCCGCTGACCGCCTGGCTGACCCTGGCCTCGCTGCTCGGCTACGCGGTGATCTACACCGGGTTTCTCAAGCGCGCCACACCTCAGAATATCGTCATTGGCGGCCTCGCCGGCGCGGCGCCACCGTTGCTGGGCTGGGTCGCGGCCACCGGTCACGTCAGCGCCGAACCGTTGCTGCTGGTGTTGATCATCTTCGCCTGGACCCCACCGCATTTCTGGGCCCTGGCGATCCATCGCAAGGAGGAATACGCCAAGGCTGATATCCCGATGCTGCCGGTGACCCACGGCGAGCACTACACCAAGATCCATATCCTGCTGTACACCCTGGTGCTGCTGGCGGTCAGCCTGATGCCGTTCGTGATCCAGATGAGCGGATTGCTGTACCTGGCGTGCGCGCTTGTACTGGGCGCCAGGTTCCTGCAATGGGCCGTGGTGCTGTACCGTGGCAGTCGGCCGCACGCGGCGATCAACACGTTCAAGTACTCTATCTGGTACTTGTTCCTGCTGTTCATCGCCCTGCTTGTAGATCACTACTTACTGTTGAGCCTATGA	MATLTGTRHSQAIWRDYLELTKPKVVVLMLITSLVGMFLATRAGVPWTVLVFGNLGIALCAGGAAAVNHVVDRRIDAVMARTHKRPLAEGRVSPAAALTFALALALAGQALLLVFTNPLTAWLTLASLLGYAVIYTGFLKRATPQNIVIGGLAGAAPPLLGWVAATGHVSAEPLLLVLIIFAWTPPHFWALAIHRKEEYAKADIPMLPVTHGEHYTKIHILLYTLVLLAVSLMPFVIQMSGLLYLACALVLGARFLQWAVVLYRGSRPHAAINTFKYSIWYLFLLFIALLVDHYLLLSL	PGPT0008520_3023	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
D1-35_02899	1080	ctaA		Heme A synthase	ATGGCCAAGCCTGGATTTCGCCTCGCGCTGTTTGCCACGTTGCTGGCATTGATTGTCGTACTGTTGGGCGCCTACACCCGCCTGACTCACGCCGGCCTCGGTTGCCCCGATTGGCCCGGTTGCTACGGTTTCATCAGCGTGCCCAAGGGCGAAGCCCAACTGGCCCATGCCGAGTTGCATTTTCCCGACACCCCGGTGGAAGCCCATAAAGGCTGGAACGAAATGGTCCATCGCTATTTCGCCGGTGCGTTGGCACTGATGATTGCCGCGCTGGCCGCCCGCGCCTGGACGAACCGCCGCCACCCCGGCCTGCCATTAAAACTGCCGCTGTTCCTGCTGGCGGTGGTGTTCGCCCAAGCGGCGTTCGGCATGTGGACCGTCACGCTCAAGCTCTGGCCGCAGGTGGTCACCGGGCATTTGCTGGGCGGGTTCGCGACGTTGAGCCTGCTGTTTTTGCTCACGTTGAGATTGTCCGGCGTGTTGCCGGCGCTGACCGTGCCCAAGCGCCTGCAACACTGGGCCACGGCTGGGCTGTTGCTGGTGATCGGCCAGATCGCCCTGGGCGGTTGGGTCAGCTCCAATTACGCCGCGGTGGCCTGTATCGACTTTCCTACCTGCCACGGCCAATGGATGCCGCCCGCCGATTTCGCCAATGGCTTCCACCTGACCCAGCACATCGGCCCGAATTACCTCGGTGGGCAACTGGACAGCGACGCCCGCACCGCCATCCATGTAACCCACCGCATCGGCGCCTTGCTGGTGACGGTGGTGCTGCTGGGGCTGGCCTGGCAGCTCAAGACTGTGGGCATGACCCGACTGGCGGGACTGGTCCTCGCCGCACTCGCAGCGCAAATTACCCTGGGTATAAGCAACGTCGTGTTTCATCTGCCGCTGCCGGTGGCGGTGGCCCATAACGCTGGGGGCGCCGCGCTGTTGCTGAGCCTGGTGCTGGTCAACTACCACGCCCGGACCAGCCTGGTCCGGGTACGGCATCAGGTCCCGCTGCGCTGGCGCTTCAATCCGCCTGAACACGGCGTCGGCCCCATCACGATCAAAGGAGAGATGCCATGGCAACCCTGA	MAKPGFRLALFATLLALIVVLLGAYTRLTHAGLGCPDWPGCYGFISVPKGEAQLAHAELHFPDTPVEAHKGWNEMVHRYFAGALALMIAALAARAWTNRRHPGLPLKLPLFLLAVVFAQAAFGMWTVTLKLWPQVVTGHLLGGFATLSLLFLLTLRLSGVLPALTVPKRLQHWATAGLLLVIGQIALGGWVSSNYAAVACIDFPTCHGQWMPPADFANGFHLTQHIGPNYLGGQLDSDARTAIHVTHRIGALLVTVVLLGLAWQLKTVGMTRLAGLVLAALAAQITLGISNVVFHLPLPVAVAHNAGGAALLLSLVLVNYHARTSLVRVRHQVPLRWRFNPPEHGVGPITIKGEMPWQP	PGPT0008525_1335	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008525-ctaA-K02259	NA	NA
D1-35_02900	594			hypothetical protein	ATGGGAAGCACCATGAATCCAACCAACATGTCTGACGCGCCCGACGCACGCAGCCGGCGCAAGGGACGCGTGCAATTGCTGTTGATTGTGCTGGGCGTGGTCGGCCCGATGATCCTCGCCACCGGCATGTACAAGTTCCAGTTCTGGGTTCCGGACAGTCGCAGCTATCACGGCGAGTTGATCGGCAACGGCCAGTCCCGCGCGGACATCGGCGTGCAGGCCGATGAGCAGCGCTGGCAGATCCTGGTAACGGCGCCGCAGGAGTGTTCGGTGGATTGCCGGCAATTGGTGTACCTGGCCCGGCAGGTGCAGATCGGCCTGGGCCGCGAGGCCGGCCGCGCCAGCCATGCCCTGGCGATAGCGCAACCGCTGGAGGCGGAATACGACGCCCAACTGCAGCGCGAATATCCGCAACTACAACGTTATCCGCTGGACCTGCCGGCCTATCAGAAAGGCGCCCAGGGCTCCGGCGGCGCCCAGTTGTGGATCATCGACCCCCACAGCAACCTGGTGCTGCGCTACGACGCCCGGGTCAAGGGCAAAGACCTGCTCAACGACCTGCGCCACCTGCTGAAATTGTCCAACATCGGATAA	MGSTMNPTNMSDAPDARSRRKGRVQLLLIVLGVVGPMILATGMYKFQFWVPDSRSYHGELIGNGQSRADIGVQADEQRWQILVTAPQECSVDCRQLVYLARQVQIGLGREAGRASHALAIAQPLEAEYDAQLQREYPQLQRYPLDLPAYQKGAQGSGGAQLWIIDPHSNLVLRYDARVKGKDLLNDLRHLLKLSNIG				NA	NA	NA	NA	NA
D1-35_02901	738			hypothetical protein	ATGAAAGGCTTCCGGCCGGGCCTCGTGCCGTCGCTGGTGGTGGCCGTGCTGGTGCCGGTGATGGTGTGCCTGGGGTTCTGGCAATTGAGCCGGGGCGAGCAGAAAAGCCTGCTCATGGACACCTACGCCGAGCGTCGCGTGGCCAAGCCGATGGACAGCGTGGAGCTTTCGCAAACAGCGGATCCGGCCTTTCGTCTCGTCAGCCTGCACGGCCAGTTCGACGCCGAACACAGCCTGCTGCTGGATAACCGCCAGCACGACGGCAAGGTCGGCGTCGAACTGCTGCAACCGTTCCTCGACCACGCCAGCGGGCTGTGGCTGCTGGTCAATCGCGGCTGGCTGCCCTGGCCTGATCGCCGTACTTCGCCAGTCTTCAGCACGCCGGAGCAACCCATCGACCTGCAAGCCTGGGTCTACGTCGCGCCCGGCGCCACGTTCCAACTGCACGCCGACCCGGCCAGCGCCCCGTGGCCGCGGCTGGTCACCGCTATCGAACCGCAGAAGCTCTGGGCCGAACTGGGCCGCGGCGGCTTCGCCTACGAATTGAGACAACAAAGCGGCCCTGGCGCCTACCGGACCGATTGGCCGGTGGTTGCCATGGGCCCGGAAAAACACCTTGGTTATGCCGTGCAGTGGTTCGCCATGGCGGCGGCGCTGTTCGGCCTTTTCCTTTATCTCGGATGGCACAACGCAGGGAGACACCATGGGAAGCACCATGAATCCAACCAACATGTCTGA	MKGFRPGLVPSLVVAVLVPVMVCLGFWQLSRGEQKSLLMDTYAERRVAKPMDSVELSQTADPAFRLVSLHGQFDAEHSLLLDNRQHDGKVGVELLQPFLDHASGLWLLVNRGWLPWPDRRTSPVFSTPEQPIDLQAWVYVAPGATFQLHADPASAPWPRLVTAIEPQKLWAELGRGGFAYELRQQSGPGAYRTDWPVVAMGPEKHLGYAVQWFAMAAALFGLFLYLGWHNAGRHHGKHHESNQHV				NA	NA	NA	NA	NA
D1-35_02902	204			hypothetical protein	ATGCTAAAAGCAGCCATCGTCCTGATGCTGATCGCCACGATTGCCAGCCTGTTCAGCGGCTTGTTTTTTCTGGTCAAGGACGACAGCAATTCCAATCGCCTGGTCATCGCCCTGGCGATTCGCGTCAGCCTGGCCGTCGTCACCGTCGGCTTGATCGCCTGGGGTTTCTTCAGCGGCCAGTTGGTGTCCCATGCTCCTTGGTAA	MLKAAIVLMLIATIASLFSGLFFLVKDDSNSNRLVIALAIRVSLAVVTVGLIAWGFFSGQLVSHAPW				NA	NA	NA	NA	NA
D1-35_02903	888	ctaE	COG1845	Cytochrome c oxidase subunit 3	ATGGCAACTCATGAGCACTATTACGTTCCGGCCCAGAGCAAATGGCCGATCATCGCCACGGTCGGGATGTTCGTCACGGTGTATGGCCTGGCGACCTGGTTCAACGACCTGAAAGCGGCGCGTCCGGATTCCCACGGCCCGCTGATCTTTTTCGTCGGTGGCCTGCTGCTGGCCTACATGCTGTTCGGCTGGTTTGGCGCGGTCATCAAGGAAAGCCGCGCCGGGCTATACAGTGCGCAGCTCGATCGCTCATTCCGCTGGGGCATGAGCTGGTTCATTTTTTCCGAGGTGATGTTCTTCGTCGCCTTCTTCGGCGCGCTGTTCTATGTGCGCGTGGTGTCGGCGCCCGGCTTGGCCGGCGAAGGCAGCAAGGGCCTGTCGGAAATGCTCTGGCCAAATTTCGAATACGTCTGGCCATTGCTGAACAACCCCGATCCGAAACTCTTTCCGGCGCCCAAGGACGTCATCAGCCCGTGGGGCTTGCCGCTGCTCAACACGATCCTGCTGGTCAGCTCCAGCGTCACCGTCACCATCGCCCACCATGCCCTGAAGAAAGGTCATCGCGGCGCGCTGAAAATCTGGCTGGCGATCACCGTGCTGCTGGGTTGCGCCTTCCTGGGTTTCCAGGCCGAGGAATACATCCACGCCTACAAGGAACTGGGCCTGACCCTGGGCTCGGGGATCTATGGCGCGACGTTCTTCATGCTCACCGGCTTCCACGGCGCCCACGTCACCATCGGCACGATCATTCTGTTCGTGATGCTGATGCGCATCATGCGCGGGCATTTCGACAACGAGCATCAGTTCGGCTTCGAGGCCGCGAGCTGGTATTGGCACTTCGTCGATGTGGTGTGGATCGGCTTGTTCTTCTTCGTCTACATACTTTGA	MATHEHYYVPAQSKWPIIATVGMFVTVYGLATWFNDLKAARPDSHGPLIFFVGGLLLAYMLFGWFGAVIKESRAGLYSAQLDRSFRWGMSWFIFSEVMFFVAFFGALFYVRVVSAPGLAGEGSKGLSEMLWPNFEYVWPLLNNPDPKLFPAPKDVISPWGLPLLNTILLVSSSVTVTIAHHALKKGHRGALKIWLAITVLLGCAFLGFQAEEYIHAYKELGLTLGSGIYGATFFMLTGFHGAHVTIGTIILFVMLMRIMRGHFDNEHQFGFEAASWYWHFVDVVWIGLFFFVYIL	PGPT0004035_312	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
D1-35_02904	552	ctaG	COG3175	Cytochrome c oxidase assembly protein CtaG	ATGGCTGACTCGATCTCGCTGAAAAAACTGGTCACCCGCCTGTTGCTGGTGGTGGTGGCCATGTTTGCCTTCGGGTTTGCCCTGGTGCCGATCTACGACGTGATGTGCAAGGCGTTCGGCATCAACGGCAAAACCGGCGGGCAGTACACGGGCGAGCAAACCGTTGATGAGTCGCGGCAGGTCCGGGTGCAGTTCTTGTCGACCAACTCGGTGGACATGGTCTGGGACTTCTACCCCAAGGGCGATCAATTGGTGGTCAAGCCAGGAGCGGTCAACGAGATGGTGTTCATTGCCCATAACCCCACCGATCGGCCGATGAGCGCCCAGGCGGTGCCGAGCATTTCGCCGAGCAACGCCGCGGCGTATTTCCACAAGACCGAATGTTTCTGTTTTACCCAGCAAGTGCTGCAACCCGGCGAACGCATCGAAATGCCCATGCGCTTCATCGTCGACCGGGACATGCCCAAGGAAGTGAAGCACCTGACGCTGTCCTACACGCTGTTCGATATCACCGCTCGTCATCCACCGGTGGCTGTAAACACTGACCGATAG	MADSISLKKLVTRLLLVVVAMFAFGFALVPIYDVMCKAFGINGKTGGQYTGEQTVDESRQVRVQFLSTNSVDMVWDFYPKGDQLVVKPGAVNEMVFIAHNPTDRPMSAQAVPSISPSNAAAYFHKTECFCFTQQVLQPGERIEMPMRFIVDRDMPKEVKHLTLSYTLFDITARHPPVAVNTDR				NA	NA	NA	NA	NA
D1-35_02905	1593	ctaD	COG0843	Cytochrome c oxidase subunit 1	ATGAGTGCTGTGATCGATGACCACGGTCATGCCGGCGCCGACCACGCCCACGGCCCCGCCAAGGGCCTGATGCGCTGGGTACTGACCACCAACCACAAGGACATCGGCACGCTGTACCTGTGGTTCGCGTTCTCCATGTTCCTGCTGGGCGGCTCGTTCGCCATGGTGATCCGCGCCGAGCTGTTCCAGCCCGGCCTGCAGATCGTGCAGCCGGAATTTTTCAACCAGATGACCACCATGCATGGCCTGGTGATGGTCTTCGGCGCGGTGATGCCGGCCTTCGTCGGCCTCGCCAACTGGATGGTCCCGCTGATGATCGGCGCGCCGGACATGGCCCTGCCGCGGATGAACAACTTCAGTTTCTGGCTGTTGCCGGCGGCGTTCCTGATGCTGGTCTCCACCCTGTTCACACCGGGCGGCGGGCCGAACTTCGGCTGGACCTTCTACGCGCCGCTGTCCACCACCTATGCGCCGGAAAGCGTGACGTTCTTCATCTTTGCCATCCACCTGATGGGCATCAGCTCGATCATGGGCGCGATCAACGTGGTCGCCACCATCCTCAACCTGCGCGCCCCCGGCATGACGCTGATGAAGATGCCGCTGTTCGTCTGGACCTGGCTGATCACCGCTTTCCTGCTGATTGCGGTGATGCCGGTGCTGGCCGGCTGCGTGACGATGATGCTGATGGACATCCACTTCGGCACCAGCTTCTTCAACGCCGCCGGTGGCGGTGACCCGGTGCTGTTCCAGCATGTGTTCTGGTTCTTCGGCCACCCTGAGGTGTACATCATGATCCTGCCGGCCTTCGGTGCCGTCAGCTCGATCATCCCGGCATTCTCGCGCAAGCCGCTGTTCGGCTACACCTCGATGGTCTACGCCACGGCGGCCATTGCCTTCCTCTCGTTCATCGTCTGGGCGCACCACATGTTCGTGGTCGGCATCCCGCTGGTGGGCGAACTGTTCTTCATGTACGCCACCCTGCTGATCGCCGTGCCCACCGGGGTGAAGGTGTTCAACTGGGCGAGCACCATGTGGCAAGGCTCGCTGACCTTCGAGACACCGATGCTGTTTGCCGTGGCGTTCGTGATCCTGTTTTCCATCGGCGGTTTCTCCGGGCTGATGCTGGCTATCGCGCCGGCGGACTTCCAGTACCAGGACACCTACTTCGTGGTCGCGCATTTCCACTACGTGCTGGTGCCGGGTGCGATCTTCGGGATTTTCGCCTCGGCCTACTACTGGCTGCCGAAATGGACCGGCCACATGTACGACGAAACCCTCGGCAAGCTGCACTTCTGGCTCTCGTTCATCGGCATGAACATGGCGTTCTTCCCGATGCACTTCGTCGGCCTGGCGGGCATGCCCCGGCGGATTCCCGACTACAACCTGCAGTTCGCCGATTTCAACATGGTCTCGTCCATCGGCGCGTTCATGTTCGGCACCACGCAGATTTTCTTCCTGTTCATCGTGATCAAGACCATCCGTGGCGGTGAGCCGGCACCGGCCAAGCCGTGGGATGGCGCCGAAGGGCTGGAATGGAGCGTGCCGTCGCCGGCGCCATATCACACCTTCACCACGCCGCCGGAAGTGAAATAG	MSAVIDDHGHAGADHAHGPAKGLMRWVLTTNHKDIGTLYLWFAFSMFLLGGSFAMVIRAELFQPGLQIVQPEFFNQMTTMHGLVMVFGAVMPAFVGLANWMVPLMIGAPDMALPRMNNFSFWLLPAAFLMLVSTLFTPGGGPNFGWTFYAPLSTTYAPESVTFFIFAIHLMGISSIMGAINVVATILNLRAPGMTLMKMPLFVWTWLITAFLLIAVMPVLAGCVTMMLMDIHFGTSFFNAAGGGDPVLFQHVFWFFGHPEVYIMILPAFGAVSSIIPAFSRKPLFGYTSMVYATAAIAFLSFIVWAHHMFVVGIPLVGELFFMYATLLIAVPTGVKVFNWASTMWQGSLTFETPMLFAVAFVILFSIGGFSGLMLAIAPADFQYQDTYFVVAHFHYVLVPGAIFGIFASAYYWLPKWTGHMYDETLGKLHFWLSFIGMNMAFFPMHFVGLAGMPRRIPDYNLQFADFNMVSSIGAFMFGTTQIFFLFIVIKTIRGGEPAPAKPWDGAEGLEWSVPSPAPYHTFTTPPEVK	PGPT0004025_3852	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
D1-35_02906	1128			hypothetical protein	ATGACGCGACATCCACACGTATGGATGGGCCTCCTGTTGTGGTCGATTTTCAGCCAGGCGCAAGCGGCCTGGACTGTGAATATGGCGCCTGGAGCGACACAGATCAGCAACGCAGTGTTCGACCTGCACATGACCATCTTCTGGATCTGTGTGGTCATTGGCATCATCGTCTTCGGCGCCATGTTCTGGTCGATGATGATGCACCGCCGCTCAACCGGGCAGAACGCCGCCCACTTCCACGAAAACACCCGCGTGGAAATCCTCTGGACCATCGTGCCCTTCCTGATACTGGTGGCCATGGCGGTTCCTGCCACCGCCACGCTGATCAAGATGTACGATTCCAGCGAGTCGGAGATCGACGTCCAGGTCACCGGCTACCAATGGAAGTGGCACTACAAATACCTGGGCCAGGACGTCGAGTTCTTCAGCAACCTGGCCACGCCTGCCGAACAGATCCACAACCAGAGCACCAAGGGCGAACACTACCTGCTTGAAGTCGACAAGCCGCTGGTGCTGCCGGTCGACGCCAAGGTGCGCTTCCTGGTGACCTCCGCCGACGTGATCCACTCGTGGTGGGTGCCGGCCTTCGCCGTCAAACGCGACGCCATTCCGGGGTTCGTCAACGAAGCCTGGACCCGCGTCGACAAGCCCGGCATTTATCGCGGCCAGTGCGCCGAGCTGTGCGGCAAGGACCATGGTTTCATGCCGATCGTGGTCGAGGTCAAGAGCAAGCCCGACTACGAAAAATGGCTGGGCGAACGCAAGGCCGAAGCCGCCCAGCTCAAAGAGCTGACCAGCAAGGAATGGACCCTGGAAGAACTGAAGGAACGCGGCGACAAGGTCTACCACACCACTTGCGTGGCCTGTCACCAGGCCGAAGGCCAGGGCCTGCCGCCGATGTTCCCGGCGCTCAAGGGTTCGAAAATCGCCACCGGGCCAATCAAGGATCACTTGAACATTGTCTTCCACGGCAAGCCCGGCACCTCCATGGCCGCGTTCGGCAAACAGCTATCGGAAGTCGATATCGCCGCGGTCGTGACCTATGAGCGTAACGCCTGGGGCAACAACAAGGGCGACATGGTTACGCCTAAAGAAGTGCTGGAACTCAAACAGGCAGAAAGCCAATGA	MTRHPHVWMGLLLWSIFSQAQAAWTVNMAPGATQISNAVFDLHMTIFWICVVIGIIVFGAMFWSMMMHRRSTGQNAAHFHENTRVEILWTIVPFLILVAMAVPATATLIKMYDSSESEIDVQVTGYQWKWHYKYLGQDVEFFSNLATPAEQIHNQSTKGEHYLLEVDKPLVLPVDAKVRFLVTSADVIHSWWVPAFAVKRDAIPGFVNEAWTRVDKPGIYRGQCAELCGKDHGFMPIVVEVKSKPDYEKWLGERKAEAAQLKELTSKEWTLEELKERGDKVYHTTCVACHQAEGQGLPPMFPALKGSKIATGPIKDHLNIVFHGKPGTSMAAFGKQLSEVDIAAVVTYERNAWGNNKGDMVTPKEVLELKQAESQ	PGPT0004030_785	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004030-foxB|coxB|ctaC-K02275	NA	NA
D1-35_02907	651			hypothetical protein	ATGAACACCGCCGCATTGCGCGAGCAGATCCAAAAAGCCCAACAGCACGAGGCCGAGACCGGCCTGCTGAGTCGTCAGCTGACGGCCCAGTTACCGACGCTGCACCCCGCCATTCAGCTCCCGGACGCGAACGCCAACGACGTTCTGGCGCGGTTTGTCGCAGCCTATATCAACGAAGTGCCTGACCTGCTGGATGCAGCCAATGACGTCGCCAGGGAGGCGGGTATCGAGTCGCAGATCAAGCCCGTACTGAAAATTGCCGAGCAGTATTTCCTCCAGCCTCCGACGATCATGGCCGGGCATGTCGGGCTCAACAGCCTGCTCGACGAAGCCTATCTGGCGCACCGGTTTGTCGAGGAGGTCAACGACCTGTACATCAAGCATTTCGGCCAGCCGCTGATCCCCTTGGACATGACGGTTGCCAATCTGATTGCCCATCAGTTGATCGGTGAGGAATTTGCCAACCAACTCGATGAGGTGGTGCATCACGCGTTCGACGAGATGCTCAACGACGAGACGTTTGCACTGGAGTCGGTGGAAACCTACCGCGAGAAGCTCAGCAGCCCGGAAACCGGCGCGGCCTGGAAGCGCTGGCCCTGCATGTCCCGCCGCTTGGGCGTGGGCCTGGAGCTGGATCAGCCGGCTGCTTGA	MNTAALREQIQKAQQHEAETGLLSRQLTAQLPTLHPAIQLPDANANDVLARFVAAYINEVPDLLDAANDVAREAGIESQIKPVLKIAEQYFLQPPTIMAGHVGLNSLLDEAYLAHRFVEEVNDLYIKHFGQPLIPLDMTVANLIAHQLIGEEFANQLDEVVHHAFDEMLNDETFALESVETYREKLSSPETGAAWKRWPCMSRRLGVGLELDQPAA				NA	NA	NA	NA	NA
D1-35_02908	1530			hypothetical protein	ATGCGTGCTGCTCAATTAAAAGCTGTTCTGCCACGGGAGCTCCTGGCTTCGGTGGTTGTATTCCTGGTGGCGCTGCCCTTGTGCATGGGCATTGCCATTGCATCGGGCCTGCCACCGGCGAAGGGGCTGATCACTGGTATCGTCGGTGGTCTGATCGTGGGCTTCCTGGCTGGCTCCAAGCTGCAAGTCAGCGGCCCGGCGGCCGGTTTGGCGGTGCTGGTCTTCGAACTGGTGCGCCAGCATGGCGTGGCAATGCTCGGGCCGATCCTTTTGTTGGCCGGGCTGCTGCAACTGCTGGCCGGGCGTTTTCGCCTCGGTTGCTGGTTCAGGGTCACCGCGCCTGCCGTGGTGTACGGCATGCTGGCCGGTATCGGTGTGCTGATCATCTTGTCCCAGGTCCATGTGATGCTTGACGCGGCGCCCAAGCCTTCCGGGCTGGATAACCTGGCGGCGTTCCCGGCGGCAGTGGCCCAGGCTTTACCTTCGTTCGGCTGGCAGGCCGGTTTGCTCGGCCTGTCGACGATCGCAGTGATGTGGCTGTGGGAAAAGTTTCGCCCCCATAGCCTGCGCTTCGTTCCTGGCGCCCTGCTCGGCGTGGGCCTGGCAACGGTTGCCAGCCTGCTGCTGGCGTTGCAGGTCAAGCGCGTGGAGGTCCCGGAAAACATGGCCGAAGCCATCGACTGGCTGCGCCCGGCGGATTTGCTGAACCTGGCCGACCCCTCCGTGTTGATCGCCGCGTTCGCGGTCGCTTTCATCGCCAGTGCGGAAACCTTGCTCTCGGCGGCTGCCGTCGATCGCATGCACAGCGGCGAGCGGGCGGATTTCGATCGGGAACTGTCCGCCCAAGGTGTCGGTAACATGCTTTGTGGCCTGCTCGGCGCCTTGCCAATGACCGGCGTGATCGTACGCAGTTCGGCCAACGTCCAGGCCGGCGCGACCACACGAATGTCAACGATCTTCCACGGCCTGTGGTTGTTGCTCTTCGTGCTGCTGCTGTCCAGCGTGCTGCAAAGCATCCCGGTGGCGAGCCTGGCGGGTGTGCTGGTCTACACCGGTTTCAAACTGGTGGATATCAAGGCGTTCCGTGGCCTGGGCCGTTATGGCCGGATGCCGATGTTCACCTACGCCGCGACGGCGCTGGCGATCATCTTCACCGACCTGCTGACCGGCGTGCTGATCGGTTTTGGCCTGACCCTGGTGAAACTGGCGTGGAAAGCCTCGCGCCTGAAGATCAGCCTGATCGACTTGCCCCAGGACGGCGAGATGGAACTGCGCTTGGTGGGTGCGGCGACCTTCCTCAAGGTTCCAGCCCTGACCCAGGTGCTGAACACCATTCCCGAAGGCGCAACGGTGCATGTGCCGCTCAACAACCTGAGCTATATCGACCATTCCTGCCTGGAATTGCTCGAAGAATGGAGCCGGGCGAATGCCAGCAAGGGTTCGAAGTTGTTGATCGAATCGCGCGGGCTCAAGCGCCGGTTGGAAGGACGCTTGCGCACGACCGTGGGGGTTGGCGCAACAGCTGGCTGA	MRAAQLKAVLPRELLASVVVFLVALPLCMGIAIASGLPPAKGLITGIVGGLIVGFLAGSKLQVSGPAAGLAVLVFELVRQHGVAMLGPILLLAGLLQLLAGRFRLGCWFRVTAPAVVYGMLAGIGVLIILSQVHVMLDAAPKPSGLDNLAAFPAAVAQALPSFGWQAGLLGLSTIAVMWLWEKFRPHSLRFVPGALLGVGLATVASLLLALQVKRVEVPENMAEAIDWLRPADLLNLADPSVLIAAFAVAFIASAETLLSAAAVDRMHSGERADFDRELSAQGVGNMLCGLLGALPMTGVIVRSSANVQAGATTRMSTIFHGLWLLLFVLLLSSVLQSIPVASLAGVLVYTGFKLVDIKAFRGLGRYGRMPMFTYAATALAIIFTDLLTGVLIGFGLTLVKLAWKASRLKISLIDLPQDGEMELRLVGAATFLKVPALTQVLNTIPEGATVHVPLNNLSYIDHSCLELLEEWSRANASKGSKLLIESRGLKRRLEGRLRTTVGVGATAG	PGPT0002415_395	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
D1-35_02909	732	cynT	COG0288	Carbonic anhydrase 1	ATGAGTGACAAGGATAAACAGCCGTTGGCTGCGTCGGCTTCAGCCCAACCCGAGGCGGAAACCGCCGATGCAGCGCTGCAGCACATTGTTGACGGCTTTTTGCATTTCCATCACGAGATCTTTCCCCAACAGGAAGAACTCTTCAAGAAACTCGCCACCGCCCAGAAACCCCGGGCGATGTTCATCACCTGCGCCGATTCGCGCATCGTGCCTGAGCTGATCACCCATAGCTCCCCAGGCGACCTGTTCGTGACCCGTAACGTCGGCAACGTCGTTCCACCGTACGGACAAATGAACGGCGGCGTTTCCACCGCCATTGAATACGCCGTGCTGGCCCTGGGTGTGCAACATATTATCGTTTGCGGCCATTCCGATTGCGGCGCCATGCGTGCGGTGCTCAACCCCGACACCCTGGAAAAAATGCCGACAGTCAAGGCCTGGCTGCGCCACGCCGAAGTCGCCAAGACCATGGTCCACGACAACTGCCCGTGCGGTGACGAAAAGCAGACCATGCCCGTCCTCACCGAAGAGAACGTGATCGCCCAGTTGCAGCATTTGCGAACGCACCCTTCGGTGGCCTCTCGCATGGCCAGCGGCCAGTTGTTCATCCATGGCTGGGTGTACAACATCGAGACCAGCGAGATCAAAGCCTTTGATGCGGACCAGGGTTGTTTCCTGCCGCTCGATGGCAGCCATCCGATACCGGTGGCGACGCCCAAAGCGCGCTTCTAA	MSDKDKQPLAASASAQPEAETADAALQHIVDGFLHFHHEIFPQQEELFKKLATAQKPRAMFITCADSRIVPELITHSSPGDLFVTRNVGNVVPPYGQMNGGVSTAIEYAVLALGVQHIIVCGHSDCGAMRAVLNPDTLEKMPTVKAWLRHAEVAKTMVHDNCPCGDEKQTMPVLTEENVIAQLQHLRTHPSVASRMASGQLFIHGWVYNIETSEIKAFDADQGCFLPLDGSHPIPVATPKARF	PGPT0002415_1757	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
D1-35_02910	1059			hypothetical protein	ATGTCCGTCTCACTTCCGCCCCGTGGCCGCGGCACCGCCACCAACCCGCACAACCGCTTCGCGCCGAGCCGTTCGGTGGCCGAGGACGATGGCTGGTATCAGGAAGTGCCGCCGACCCAGGGCACCGAGGTGCGCATCGAAACGGCCAAGACCATCATCACTCGAAACACCTCCACGGATATCCCTTTCGATCGTTCGATCAATCCTTATCGAGGCTGCGAACACGGCTGCATCTACTGCTATGCGCGCCCCAGCCATGCCTACTGGGACATGTCGCCCGGGCTGGATTTCGAAACCAGGCTGATCGCCAAGACCAACGCCGCCGATGTGCTGGAGGAGCAGTTGTCGCGGCGCGGCTATCAATGCGCGCCGATTGCCCTGGGTTCCAATACCGATCCCTACCAGCCGATCGAACGCGAACAGCGCATCACCCGGCGGATTCTCGAAGTGCTGCTGCGCTATCGGCACCCGGTGACGATTGTTACCAAGGGCTCGCTGATCCTGCGCGACCTCGACCTGCTGACCGAACTGGCAGAGCAACGCCTGGTACATGTGATGATCAGCCTCACCACGCTGGACGACGAACTCAAGCGCATCCTCGAACCCCGCGCGGCGGCGCCGAAGGCCCGGTTGCGGGCGATAAAGGTCATGCGCGAGGCGGGCATCAACGTCGGCGTGCTGTGCGCGCCGATGATCCCGATGATCAATGACAGCGAGATTGAAAGCCTGCTGGCCGAAGCCCACGCTGCCGGTGCACAGAATGCCGCCTACGTCATGTTGCGCCTGCCGCTGGAAGTGGCGCCGCTGTTCGAGGAGTGGTTGCAGGCGCACTACCCGCAGCGCGCCGCCCATGTGCTGAGCCTGGTGCGCCAGAGCCGCGGCGGCGAACTGTATGACAGCCGGTTTGGCGTGCGGATGCGCGGCGAAGGTCCGTTCGCCGACCTGCTGGCTCAGCGCTTCGCCAAGACGCTCAAGCGTTTGGGCCTGAACCGACGAGATGGTTACAATCTTGACTGCGATGCCTTCTGTCCGCCCGGCCGACAGATGTCGTTGATTTGA	MSVSLPPRGRGTATNPHNRFAPSRSVAEDDGWYQEVPPTQGTEVRIETAKTIITRNTSTDIPFDRSINPYRGCEHGCIYCYARPSHAYWDMSPGLDFETRLIAKTNAADVLEEQLSRRGYQCAPIALGSNTDPYQPIEREQRITRRILEVLLRYRHPVTIVTKGSLILRDLDLLTELAEQRLVHVMISLTTLDDELKRILEPRAAAPKARLRAIKVMREAGINVGVLCAPMIPMINDSEIESLLAEAHAAGAQNAAYVMLRLPLEVAPLFEEWLQAHYPQRAAHVLSLVRQSRGGELYDSRFGVRMRGEGPFADLLAQRFAKTLKRLGLNRRDGYNLDCDAFCPPGRQMSLI				NA	NA	NA	NA	NA
D1-35_02911	681			hypothetical protein	ATGCTCAAGCTCTGTTTGCGTTCCCTGCTTTGCCTGGCGTTGCTCGTCGCGCTGGTCGACTCCGCCGCCCAGGCCGCCACCGGCGCCGAGGCCAGGCCCGGCGAATGGGCCCAGCCCGTGGAAAAACGCTACGACCTCTACCAGATGTCGCCTACGCTCTATCGCAGTTCCTTGCCGGACGGCGGTGCCTTGCCCCTGTTGGCGAAACTCGATATCGGCACAGTCATCAATTTTCTGCCTGATTCGGACGCGAACTGGTTGTCCGCGCCTGACATCAAGCAAGTGCAGTTGCCCTATCGCACCAATCACGTCGACGACAGCGACGTTCTCAAGGCCCTGCGCGCCATCCAGGACGGGCAAGCCAGGGGGCCGGTGCTCATGCATTGCAAGCACGGCTCGGACCGTACCGGCTTGATGGCCGCCATGTACCGGGTGGTTGTGCAGGGCTGGAGCAAGGAAGACGCGTTGGAGGAAATGACCGAAGGCGGTTTCGGCGACAGCCATCACTTCAAGGACGGGGTTCGCTACATGATGCAAGCCGATGTCGAGAAGCTCCGTATTGCCTTGAGAGACGGCGATTGCAGTACCAGCGTCTTTGCGCTGTGCTCGTTGAAAGGCTGGGTCAATTCAACGACCACGGCGCGTCACCTCGATCCTCAGTCATTGGCTCCTTCACGCTGA	MLKLCLRSLLCLALLVALVDSAAQAATGAEARPGEWAQPVEKRYDLYQMSPTLYRSSLPDGGALPLLAKLDIGTVINFLPDSDANWLSAPDIKQVQLPYRTNHVDDSDVLKALRAIQDGQARGPVLMHCKHGSDRTGLMAAMYRVVVQGWSKEDALEEMTEGGFGDSHHFKDGVRYMMQADVEKLRIALRDGDCSTSVFALCSLKGWVNSTTTARHLDPQSLAPSR				NA	NA	NA	NA	NA
D1-35_02912	2013	prlC_1	COG0339	Oligopeptidase A	ATGCCAAACGCTGATAACCCGCTACTGCAGGACTACGACCTGCCGCCCTTTTCGCGCGTCCAGGCCGAACACTTTTCCCCGGCCCTCGACCAGATAATCGCCGAAAGCCGCATCAAAGTTGCCGCGATCATTGCCAGCCAGACACCCTTCCCAACCTGGGACGACCTCGTCTTGGCAATGGATGAAATCCACACGCGGCTTGAGGGTTTCGGCTACTTGCTAAACCGCCTGACCTCGACCCGGACAGGTGACGCCTGGAAGCAGTCCTCGCTCGATTGCGATGCACGGCTGCACGAATTTAAGGTCGGACTGGAACAAAACACCGAACTTTTTCAGCTCTACGAGCGCCTGGCGAACAGCGAAATAGCCGGAAATTTCGAACCGGCACGCAAGAGGGTCCTGGAAAAAAACCTGCGACAGTTTCGTGAAAACATGCCGATGACCACGGCGAGCGACCTGAGCCTGGTGCAAGTCCGTATTCGAAACGCCGAAGGTCTGTTTCTGGACCAGCTGGAGTCGGCCAACAAAGCCTGGGACATCCTCATTGACGATGAGGCCCTGCTCAGCGGCTTGCCGGTGGCGTTCAAACAGCACATGGCCCACCTGGCCCGCAAGGTCGACCGCACGGGATGGCTGCTGACCCTTGATGAAGAGTCGCATCGCATCGTCACCCACTATGCCGACAATCGCTCGTTACGCCAGCAGATCCACGTTGCGTATAACACCCGTGCGTCCGATCAAGGCCCGCAAGCCGGGCAATTCGACAATGGCAACGTCCTCAAGCAACTGCTGGACGACCGGCACGAGTATGCCAAGTTACTGGGCTACACGGATTACGCTCAATACGCGATCGCGTCGGAGCAGGCCGAGTCCACCGCAGAGGTCCTGGCTTTTCTGGACAATCAACTCCAGTCGCAGCAAAGCACCTTCCGCCTGGAGACCGATGAGCTCAAGGCCTTCGCCAGTGAACGAGGTCTCAGCGAGCCCGAACCTTGGGATTACTGGTACCTGGCGGAAAAAATTCGCCAGCGGGAGGCGGGCATCTCACAGCAGGCATTGAGTGCCTGGTTTCCATTGGAAGCGGTTTTTTCCAAGCTGCTGGTGATCGCGTCGAATCTATTCACCGTGAACTTCATCGAACGCAAGGATGTGGCCAGCTGGGATCCTGACGTACGTCTTTTTGAGGTCACGGAGAGCGGAACGAGCATTGGTTATATCTATTTCGATCCGTTCAAATCTGATGATCGAGAAGGTTTCTCCTACACCACGACCATTCGCGACCGTCAGATTACCGCCGAAGGCGTGCTCCGACGCCCGATCGCCGCACTGCATGGCTGGCTGCCACGGGGCACAGCGGCGAACCCGACCTTGCTCGACCATCTGCAGCTACGCATCCTTGTCCATGAATTCGGCCATTGCCTGCATCAGGTCTTGAGCCAGGCAGCCTATCGCGACCTATCGGCGATCAATAAGTCATCCCGCGATACGGTCGAATTCGCCGGATGTCTGCTGGAAAAATGGTGCTTCGCCAAGGATTTTCTGATCCGCGTATCGGCGCATCATCAAACCGGAGCAGCCTTGCCTGACGAGATGGCCGATCAGTTCATGAGGCTCATCAGCACTCAGGCCAGTTGGGAAACCGCCAACGAGTTGCGCAAGGCGCTGCTGGATTTCGAGTTGCATCGCACCCACGCCGATGGACGCAGCGTCCAGCAAGTCTTCCAGCAGGTCAGCGAAAAGACCCGCCACTTGCCGGTAATTGCCAATGCACGCCTGGCCAACGGGCTGGACCATATGGTGACGGGCTACGGCGCAAGAGTGTACGCCTACTCGTGGTCCAAGGCCCTGGCCGAGTCGGTTTTCCAGAGGTTCCAGCGCGACGGAATCTTTAAAGCGACGACCGGCAGGGCGCTTCGCGAACACATATTCGGGCCGGGCGACTCGCGGCCGTTATCCGAATCCATAAGCGCCTTCCTCAGCGCGACCAATCAGCGTGAAGGAGCCAATGACTGA	MPNADNPLLQDYDLPPFSRVQAEHFSPALDQIIAESRIKVAAIIASQTPFPTWDDLVLAMDEIHTRLEGFGYLLNRLTSTRTGDAWKQSSLDCDARLHEFKVGLEQNTELFQLYERLANSEIAGNFEPARKRVLEKNLRQFRENMPMTTASDLSLVQVRIRNAEGLFLDQLESANKAWDILIDDEALLSGLPVAFKQHMAHLARKVDRTGWLLTLDEESHRIVTHYADNRSLRQQIHVAYNTRASDQGPQAGQFDNGNVLKQLLDDRHEYAKLLGYTDYAQYAIASEQAESTAEVLAFLDNQLQSQQSTFRLETDELKAFASERGLSEPEPWDYWYLAEKIRQREAGISQQALSAWFPLEAVFSKLLVIASNLFTVNFIERKDVASWDPDVRLFEVTESGTSIGYIYFDPFKSDDREGFSYTTTIRDRQITAEGVLRRPIAALHGWLPRGTAANPTLLDHLQLRILVHEFGHCLHQVLSQAAYRDLSAINKSSRDTVEFAGCLLEKWCFAKDFLIRVSAHHQTGAALPDEMADQFMRLISTQASWETANELRKALLDFELHRTHADGRSVQQVFQQVSEKTRHLPVIANARLANGLDHMVTGYGARVYAYSWSKALAESVFQRFQRDGIFKATTGRALREHIFGPGDSRPLSESISAFLSATNQREGAND	PGPT0020985_1534	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020985-prlC-K01414	NA	NA
D1-35_02913	279			hypothetical protein	ATGAGTGAGGGGCCTGTGATTACCAAACGACGCTTCATCGCCGGGGCAGTCTGCCCGGCGTGCAGTGAACCGGACAAGTTGATGATGTGGAACGAAGACGGCGTGCCCCATCGCGAGTGCGTGGCTTGTGGTTATTCCGACACGCTCAACGAACAAGGCCTGTCGGTGCCCAAGGAATTGGGCACCCGGGTCAATACGTCCGCCTTGAAAGCACCGGACGCCAAGGTCCAGGCGGTGCAGTTCTTCCCCAACCCCAAGTTGAAGAAAAAAACCGACTGA	MSEGPVITKRRFIAGAVCPACSEPDKLMMWNEDGVPHRECVACGYSDTLNEQGLSVPKELGTRVNTSALKAPDAKVQAVQFFPNPKLKKKTD				NA	NA	NA	NA	NA
D1-35_02914	2052	prlC_2	COG0339	Oligopeptidase A	GTGAGCGTGAACAACCCTCTTTTGCAGCCCTACGACCTGCCGCCATTCTCGGCGATCCGTGCCGAGCACGTGCAACCGGCCATCGAGCAGATCCTGGCTGACAACCGCGCCGCCATCGCCGAGATCCTCAAGACGCAAGTCGAACAGCCCACCTGGGCCGGCCTGGTATTGGCAATGGATGAGCTCAATGATCGCCTGGGCGCGGCCTGGAGCCCGGTGAGCCATTTGAACGCGGTGCGCAACAGCCCCGAGTTGCGCGAAGCCTACGAGGCTTGCCTGCCGGCGCTGAGTGCCTATTCCACCGAGCTGGGCCAGAACCGCGAACTGTTCCAGGCGTTCGAAGCCCTGGCGAACAGCCCCGAGGCCGCCGGTTTCGACGTGGCCCAGAAAACCATCCTGGAACATTCGCTGCGCGACTTCCGCCTGTCGGGCATCGATCTGCCGCCCGAGCAGCAAAAGCGCTACGCCGAAGTGCAAAGCAAGCTGTCCGAACTCGGCAGCCGCTTTTCCAACCAGTTGCTCGACGCGACCCAGGCCTGGACCAAGCATGTCACCTCTGAGGCCGCCCTCGCCGGCCTGACCGACTCGGCCAAGGCGCAGATGGCCGCCGCGGCCCAGGCCAAAGGCTTCGACGGTTGGCTGATCAACCTGGAGTTTCCCAGCTACTACGCGGTGATGACCTACGCCGAAGACCGCACCTTGCGCGAAGAAGTCTACGCCGCCTACTGCACCCGTGCCTCGGACCAGGGCCCGAACGCCGGTCAGAACGATAACGGCCCGGTGATGGAGCAGATCCTCGACCTGCGCCAGGAACTGGCCCAGTTGCTGGGTTTCGCCAACTTCGCCGAATTGAGCCTGGCAACCAAGATGGCTGAATCCAGCGATCAGGTGCTCAGCTTCCTGCGCGACCTGGCCAAGCGCAGCAAACCGTTCGCCGCCCAGGATCTGGAACAATTGAAAGCCTTCGCCGCCGAACAGGGCTGCCCCGACCTGCAAAGCTGGGACAGCGGCTTTTATGGCGAAAAACTCCGCCAGCAACGTTACAGCGTCGCCCAGGAAGCCCTGCGCGCCTACTTCCCGATCGACAAGGTACTGAGCGGCCTGTTCGCCATCGTGCAACGCCTCTATGGCATCGAGATCGCGGAGCTGAAGGGTTTCGACGCCTGGCATCCGGACGTGCGCCTGTTCGAGATCAAGGAACACGGCCAGCACGTCGGGCGCTTCTTCTTCGATCTGTACGCCCGCCCCAACAAGCGTGGCGGCGCCTGGATGGATGGCGCCCGTGATCGTCGCCGCACCCTTGATGGCGCGCTGCAAAGCCCGGTCGCCAACCTGGTGTGCAACTTCACCCCGGCCGACAGTGGCAAGCCAGCGCTGCTGACCCACGATGAAGTGACCACGCTGTTCCACGAGTTCGGCCACGGCCTGCATCACCTGCTGACCCGCGTCGACCATGCCGGCGTGTCGGGCATCAACGGCGTGGCCTGGGACGCCGTGGAGCTGCCGAGCCAGTTCATGGAAAACTGGTGCTGGGAGCCTGAAGGCCTGGCGCTGATTTCCGGTCACTACGAAACCGGTGAGCCATTGCCCCAGGACCTGCTGGAAAAAATGCTCGCGGCGAAGAACTTCCAGTCCGGCCTGATGATGGTCCGCCAGTTGGAATTCTCGCTGTTCGACTTCGAACTGCACGCCACCCATGGCGATGGTCGTAGCGTACTGCAAGTGCTCGAAGGCGTACGCGACGAGGTGTCGGTGATGCGTCCGCCTGCCTATAACCGCTTCCCCAACAGCTTTGCGCATATTTTTGCCGGCGGTTACGCGGCGGGTTACTACAGCTACAAATGGGCGGAAGTGCTGTCGGCCGATGCGTTCTCCAGATTCGAAGAAGATGGCGTGCTCAACGCCGACACCGGTCGCGCCTTCCGCGAGGCGATCCTGGCGCGTGGCGGCTCCCAGGAGCCAATGGTGCTGTTCGTCGACTTCCGTGGCCGTGAGCCATCGATTGACGCACTCTTGCGCCATAGCGGCCTGAGCGAGGACGCGGCAGCATGA	MSVNNPLLQPYDLPPFSAIRAEHVQPAIEQILADNRAAIAEILKTQVEQPTWAGLVLAMDELNDRLGAAWSPVSHLNAVRNSPELREAYEACLPALSAYSTELGQNRELFQAFEALANSPEAAGFDVAQKTILEHSLRDFRLSGIDLPPEQQKRYAEVQSKLSELGSRFSNQLLDATQAWTKHVTSEAALAGLTDSAKAQMAAAAQAKGFDGWLINLEFPSYYAVMTYAEDRTLREEVYAAYCTRASDQGPNAGQNDNGPVMEQILDLRQELAQLLGFANFAELSLATKMAESSDQVLSFLRDLAKRSKPFAAQDLEQLKAFAAEQGCPDLQSWDSGFYGEKLRQQRYSVAQEALRAYFPIDKVLSGLFAIVQRLYGIEIAELKGFDAWHPDVRLFEIKEHGQHVGRFFFDLYARPNKRGGAWMDGARDRRRTLDGALQSPVANLVCNFTPADSGKPALLTHDEVTTLFHEFGHGLHHLLTRVDHAGVSGINGVAWDAVELPSQFMENWCWEPEGLALISGHYETGEPLPQDLLEKMLAAKNFQSGLMMVRQLEFSLFDFELHATHGDGRSVLQVLEGVRDEVSVMRPPAYNRFPNSFAHIFAGGYAAGYYSYKWAEVLSADAFSRFEEDGVLNADTGRAFREAILARGGSQEPMVLFVDFRGREPSIDALLRHSGLSEDAAA	PGPT0020985_921	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020985-prlC-K01414	NA	NA
D1-35_02915	546	yrdA_2	COG0663	Protein YrdA	GTGACCCTTCGAACGTACCAGAACCACAGCCCGCGGCTTGCCCGGGGCGCTTTTGTCGACAGCACCGCGGTGGTGATCGGCGACGTCGAGATCGGCGAAGACAGCTCCGTCTGGCCGCTGACAGTCATTCGCGGCGACATGCACCGCATCCGCATCGGCGCCCGTACCAGCGTCCAGGACGGCTGCGTGCTGCACATCACCCACGCCGGGCCGTTCAACCCCGATGGCTTCCCGTTGCTGATCGGCGACGACGTGACCATCGCCCATAAAGTCATGCTCCATGGCTGCTCGGTGGGCAGTCGGATCCTGATCGGCATGGGCAGCATTGTCATGGATGGCGCGGTGGTCGAAGACGACGTGATCATCGGCGCCGGTAGCCTCGTACCGCCGGGCAAGCGCCTGGAGAGCGGCTTTTTGTATGTGGGCAGCCCGGTGAAGCAGGTCCGGCCGCTGACGGACAAAGAGCGGGCCTTTTTCACCTACAGCGCGGCGAACTACGTGAAGCTCAAGGATTTGCATCTGGCTGAAGGCTACGACCAGCCTTGA	MTLRTYQNHSPRLARGAFVDSTAVVIGDVEIGEDSSVWPLTVIRGDMHRIRIGARTSVQDGCVLHITHAGPFNPDGFPLLIGDDVTIAHKVMLHGCSVGSRILIGMGSIVMDGAVVEDDVIIGAGSLVPPGKRLESGFLYVGSPVKQVRPLTDKERAFFTYSAANYVKLKDLHLAEGYDQP	PGPT0002425_585	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002425-GAMMACA_like-K01726	NA	NA
D1-35_02916	651		COG0546	5'-nucleotidase	ATGCACTACCAGACCATACTCTTCGACCTCGACGGCACGCTTACCGACCCGCGCGAGGGCATCACCCGTTCGATCCAGTTCGCCCTGGGCAAACTGGGCATCGACGAGCCCGACCTGACCCGTCTCGAACACTTCATCGGCCCACCGCTGTTGCAGGCCTTCATGCAGTTCTATGCCTTCGATGAAGCGAAAGCCTGGGACGCGGTGAATTTCTACCGCGAGCGCTTCAAGGTCACCGGCCTCTACGAAAACCGTGTCTTCGACGGTGTCGTGCCGCTGCTGGAAACGCTCGGTGGCCAAGGCCGACAGCTTTATATCGCCACGTCCAAGCCCTGGCTTTTCGCCCGGGAAATCGCCCGTCATTTCGATTTCGCCCGGCACTTCAAGGTGATCTACGGCAGCGAACTGGACGGTACCCGTACCAACAAGGTCGAGCTCATCGCCCACCTGATGGCCGAAGAAAGCCTCGACCCGGCCAGCACTCTGATGATCGGCGACCGCGAACATGACTTGATCGGCGCGCGCAGCAATGGTCTGGACGCGGCGGCGGTGGGGTACGGATTCGGCAGTTTCGAGGAGTTGAGTGCGCAGAACCCGGTACATCATTTCCAGACGCTGGAGGAGCTGCACCAGGCATTTTTGCGGGGCTGA	MHYQTILFDLDGTLTDPREGITRSIQFALGKLGIDEPDLTRLEHFIGPPLLQAFMQFYAFDEAKAWDAVNFYRERFKVTGLYENRVFDGVVPLLETLGGQGRQLYIATSKPWLFAREIARHFDFARHFKVIYGSELDGTRTNKVELIAHLMAEESLDPASTLMIGDREHDLIGARSNGLDAAAVGYGFGSFEELSAQNPVHHFQTLEELHQAFLRG	PGPT0001730_6065	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
D1-35_02917	210			hypothetical protein	ATGATTCAGCTGTCGCAAACGGAGCAGGTGATTTGGGATATGTATTTTGTCAGCGCCTTGCCGCAGGTGATGCAGCAGTTACCGGGCCGCCGTCCCGAGTTGATTGCGGAGAGCGCGGCCGAAGTCGCCGATGAAATGCTGGTGGAGCGCCGCGAGCGTCGCCCGGTGGCACAAAGGACTCTGCCGGTCAGGGACGCAACGATAAAATGA	MIQLSQTEQVIWDMYFVSALPQVMQQLPGRRPELIAESAAEVADEMLVERRERRPVAQRTLPVRDATIK				NA	NA	NA	NA	NA
D1-35_02918	435			hypothetical protein	ATGACTTACCGTTTGAATGAATTTCAGCTCCAGCTGCCGCCCAGCGAGTTGCTCGACGCCTCGATCAACATCCTCAAGTTCCCCGGACTAGGCACGTCCCTGATCGTCAGCCGCAGCCTGCTCGCCGAAGGAGAAACCCTGCAAAGCAACCTCGACGACCAGCTCAAGCGCCTGGAAAAGCAGGTCCAGGACCTGCGCTGCCAACCCGGCGCCACGTTGCGCGTGGGGGCTCGGCAGGAAGTCGAAGCCATCGAGCTACGCAGCCAGTTCAACAAGGGCAACGAAAAGGTCTTTCAGTATCAGCTCGCCCTGGTACTGCCGGGCACGCGCAAAATGCTCGCCCTGAGCTACGTCAAGGCCGAGAAGCTGGGCGACGCCGAAGCGGCGCATTGGGCGACGATCAAGGGGTCGCTGGTGTTTGACGCGCCGGAGTGA	MTYRLNEFQLQLPPSELLDASINILKFPGLGTSLIVSRSLLAEGETLQSNLDDQLKRLEKQVQDLRCQPGATLRVGARQEVEAIELRSQFNKGNEKVFQYQLALVLPGTRKMLALSYVKAEKLGDAEAAHWATIKGSLVFDAPE				NA	NA	NA	NA	NA
D1-35_02919	1932	vgrG1_2	COG3501	Actin cross-linking toxin VgrG1	ATGCTATTCAACCAAGCCTCCCGCCTGGCGAAAATCACCAGCCCCTTGGGACCCGAGGTGCTGCTGCTCAAGGACATGGGCGGCGGCGAAGAGTTGGGGCGGCTGTTCAACTATGAGTTGCAGCTGCACTCGCTGGACAACGCCATCGACCTCAATCAGGTGCTTGGCAAACCCATGTGCGTGAGCGTTCAGCTGGATGGCGGTGGCGAGCGGCACTTCCACGGCATCGTCGCGCGCTTCAGCCAGAACATCGACCAGGGCCAGTTTGCCAGTTACCAGGCCACGCTAAGGCCCTGGCTGTGGCTGCTGACGCGCACCTCCGACTGCCGGATTTTCCAGAACCTGACGGTTCCGCAGATCATCAAGCAGGTGTTCCGCGACCTGGGTTTCTCCGACTTCGAAGACGCCCTCAGCCGCCCGTATCGCGAGTGGGAGTACTGCGTCCAGTACCGTGAGACCAGCTTCGATTTCGTCAGCCGGCTGATGGAGCAGGAAGGCATCTACTACTTCTTCCGTCATGAACAGGGTCGCCATGTGCTGGTGCTGGCCGACGCCTACGGCGCCCATACCCAAGCGCCCGGCTACGCCTCGGTGCCGTATTACCCGAAGAACGAGCAGCAGCGTGAACGCGATCATATCCACGATTGGCACCTGGCCCAGGAAGTCCAACCGGGGTCGCTGGAGCTCAACGACTACGACTTCCAGCGCCCCAGCGCGCGCATCGACGTGCGTTCGGCCATGCCGCGCCCGCACACCGCAGGCGACTATCCGCTCTATGACTATCCCGGCACCTACGTGCAAAGCGAGGACGGCGAGCACTACGCCCGCACCCGCATCGAAGCCTTGCAGACCCTGCACGAGCAGGTCGAGCTGGCCGGCAATGCCCGAGGCTTGGGCTCGGGGCATTTGTTCAGCCTGACCGGTTTCAGCCGCCAGGACCAGAACCGCGAATACCTGATCGTCGGCGCGCGTTATTACCTTTCCCAGGAAAGTGGCGAGAGCGGCGTCGGCGCGCCCTCGGCGCAGTTCGAAAGCAGCCTGACCTGCATCGACGCCCAGCAAAGCTTCCGCCCGATGGCAATCACCCACCGCCCCATCGTCAAGGGGCCGCAGACCGCATTGGTGGTCGGGCCCAAGGGCGAGGAAATCTGGACCGACCAGTTCGGCCGGGTGAAGGTGCACTTCTATTGGGATCGCCACGATCAATCCAACGAAAACAGTTCGTGCTGGATTCGGGTGTCGCAAAGCTGGGCCGGAAAGAATTGGGGCTCGATGCAGATTCCGCGTATCGGCCAGGAAGTCATCGTCAGCTTCCTCGAAGGCGACCCGGATCGACCGATCATCACCGGCCGTGTCTACAACGCCGAGCAGACCGTGCCTTACGACCTGCCTGAGAAAGCCACCCAGAGCGGCATGAAAAGCCGTTCGAGCAAGGGTGGCACGCCGGCAAATTTCAATGAAATCCGCATGGAAGACAAGAAAGGCGCCGAGCAGCTTTACATCCATGCCGAGCGCAACCAGGACATCGTGGTCGAGGTGGATGAGAGCCATTCGGTCGGCCACGACCGCACCAAGAGCATCGGCCACGACGAAACGGTGATCATCGGCAACAACCGCCTGCGCATCGTCAAGCAGGAGGACATCCTGTCGGTGGGCCAGCGCAAGACCGACAGCATCAGCCAGAGCTACGTCATTGAAGTGGGCGAGAACCTGCGCCTGGTATGCGGCGAGAGCATCCTGGAGCTCAACGCCAGCGGCCAGATCAACCTGACCGGCGTGCAGATCAGCTTCTACGCCAGCGGCGATGCCGAGTTCAACACCGGCGGTGTGCTGCACCTGAACAACGGCGGCGGCCCCGGTGCCACGCCGGACGGCCAGGGCGTCAAGGCCAGCATCGATGCCAACGTCGCTGCCGCCTTTCCCAAAGGCTAA	MLFNQASRLAKITSPLGPEVLLLKDMGGGEELGRLFNYELQLHSLDNAIDLNQVLGKPMCVSVQLDGGGERHFHGIVARFSQNIDQGQFASYQATLRPWLWLLTRTSDCRIFQNLTVPQIIKQVFRDLGFSDFEDALSRPYREWEYCVQYRETSFDFVSRLMEQEGIYYFFRHEQGRHVLVLADAYGAHTQAPGYASVPYYPKNEQQRERDHIHDWHLAQEVQPGSLELNDYDFQRPSARIDVRSAMPRPHTAGDYPLYDYPGTYVQSEDGEHYARTRIEALQTLHEQVELAGNARGLGSGHLFSLTGFSRQDQNREYLIVGARYYLSQESGESGVGAPSAQFESSLTCIDAQQSFRPMAITHRPIVKGPQTALVVGPKGEEIWTDQFGRVKVHFYWDRHDQSNENSSCWIRVSQSWAGKNWGSMQIPRIGQEVIVSFLEGDPDRPIITGRVYNAEQTVPYDLPEKATQSGMKSRSSKGGTPANFNEIRMEDKKGAEQLYIHAERNQDIVVEVDESHSVGHDRTKSIGHDETVIIGNNRLRIVKQEDILSVGQRKTDSISQSYVIEVGENLRLVCGESILELNASGQINLTGVQISFYASGDAEFNTGGVLHLNNGGGPGATPDGQGVKASIDANVAAAFPKG	PGPT0030410_3839	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
D1-35_02920	435			hypothetical protein	GTGACCTCATACCGCATTCAAGAAGCCGATCTCGAAATCCCCGATACCTGGCAGGACCAGAGCATCAACATTTTCAAGCTGCCGGCAGTGGGACCCGCCAAAGAGGCCAGTTTCGTCATCAGCCGCGATGCCACCCAGGGTGACGTTCCCTTTGCCGAGTACGTGGACCGCCAACTCAAAAGCGCGGAGCAGCAATTGCCGGGCTTCAAGCTGGTTCAGCGCTGGGACACGGTGCTGCATGGACACACCACCACCTTGCTGGATTACACCTGGCAGCGCGAAGGACGCGACCTGATGCTGCGCCAGGTGTTCATCGAGCGTAAGCCGTCCGTGCTGATCACCACCTTGACCACCACACCCAACGACTTCGCCTATCACGAGCCGGCCTGGAAGCTGGCGATGCATTCGCTCAAGCCACAGCCTCCGATTGCCTGA	MTSYRIQEADLEIPDTWQDQSINIFKLPAVGPAKEASFVISRDATQGDVPFAEYVDRQLKSAEQQLPGFKLVQRWDTVLHGHTTTLLDYTWQREGRDLMLRQVFIERKPSVLITTLTTTPNDFAYHEPAWKLAMHSLKPQPPIA				NA	NA	NA	NA	NA
D1-35_02921	1212			hypothetical protein	ATGGATGCACAGGCAGCAGCACGTCTGGGTGATGAAATAGCCCACGGGTTCGGGTTGGCCGCTATGGTCGCCGGAGCCGTGGCCGGCGCCTTGATCGGCGCTGCGGTCGTTGCCGCGACGGTGGCCACGGGCGGTGTGGCGCTGGCGATCATGGCCGGCTCGATTGCCGCCGGCGGCTTGTCGATGTTCCAGATCGTCAAGGGCCTGTCCACCATATTCAACCTGCCCGAGCCGACCACGGGGGCGTTGATAATGGGCAGCTTCAACGTCTATATCAACGATCGAAATGCCATGCGGGCGGGCGAAGACATCGCCTCCTCCTGCACCGGCCTGCCGATGAACCATCCGATCTGGCCCTTTCCGGTGCTGATCGCCGAAGGCAGCGCCACGGTGTTCATCAACGGCAAACCAGCGGCGCGCCTGCACAGCAAAATGGTCTGCGGCGCCCACATCAAGACGGGCAGCCCGAACACTTTCATCGGCGGACCGACGGTGTCGGTGGCGTTTGTGCTCGACCTCGAAGGCTGGATGCACTCCGGGCTGGAAGTGTTGGGGTTGCTGGCTGCGGGCGGAGCCTTGTTACTTGCGGCTTTTGCCGGAGCTGCTGCTTTTTTCGGCGCCCTGGCCATCGGTGGTGCGTTGTATGCCGGTATGGAGCTGCTGGGAGATTTGGGTGATCGCCTCGGCCCCGGATATAGGGACCTGTTTCAAGGCGTGGCAGGAATGGCTCTGCTAGGTGCCGGGCCGAAGTTGGCACGTAAGCCCATGACTGCGGCCGAGCGGACGATCCTGGCGCGTCAGCGGCAAGAACAGATGCTCAAGGACAATCGGGGGTTCAACATTAGCCCGACGGCGTGGGACGCCTATCCGACGATTGGGCGGGCCGGTACTTTTGTTTCTGATAAGAAAGGCATCACCGACGTTATCGGGAACATCTCGGGGCGTTCCAAGATGACCATCAGTGGTAAAAAAGCAGCGGAGCTGGAACGCGCCTTTGGTTTGGAAAAAGATGCGCTTAAAGGCGGATTCAAAATCAGGCAGGTCGAGGATGTCGCAGGGCGCATGCCCAGAAGTCCGATGGAGGGGAACCAATATTTCCTGGGGCCAGGCAAACACTTGCCGGGTGGAGCTCCAGAAATGGTTGTCGAGTCGATTCCTACCAAGGATGCGGACGGTATTACCACTTTAACCGAGGTATTTGTCAGTGATTAA	MDAQAAARLGDEIAHGFGLAAMVAGAVAGALIGAAVVAATVATGGVALAIMAGSIAAGGLSMFQIVKGLSTIFNLPEPTTGALIMGSFNVYINDRNAMRAGEDIASSCTGLPMNHPIWPFPVLIAEGSATVFINGKPAARLHSKMVCGAHIKTGSPNTFIGGPTVSVAFVLDLEGWMHSGLEVLGLLAAGGALLLAAFAGAAAFFGALAIGGALYAGMELLGDLGDRLGPGYRDLFQGVAGMALLGAGPKLARKPMTAAERTILARQRQEQMLKDNRGFNISPTAWDAYPTIGRAGTFVSDKKGITDVIGNISGRSKMTISGKKAAELERAFGLEKDALKGGFKIRQVEDVAGRMPRSPMEGNQYFLGPGKHLPGGAPEMVVESIPTKDADGITTLTEVFVSD				NA	NA	NA	NA	NA
D1-35_02922	333			hypothetical protein	GTGATTAATGATGGGCTGAAGGCGTACGTGGAAAAAGCGGACGGCGATGTGATTCGTGTCCAGGTGATGGATAACACGTTGGATTCGTCCCTGCGTGCTATCGGATTTTCTAACGCGGCAGAGAAAGATATCTACGTTTTGCAGGTCGCGGACAACACCCAGAAGGCCAAGGTATTCGATGAGCTCCGTTCGTTGGGGGTGGCCTTTTCGGCGGGCAAGGAATGGTGTCCCTCCGAAGTGTTCGAGTATCTTCGTGACGAGCAATTGCTGAGCGGCAAGTACTTGCGAGTCGCGTGGACGCAGCCTGGGCAATATCTGCTTACGGACGCATGA	MINDGLKAYVEKADGDVIRVQVMDNTLDSSLRAIGFSNAAEKDIYVLQVADNTQKAKVFDELRSLGVAFSAGKEWCPSEVFEYLRDEQLLSGKYLRVAWTQPGQYLLTDA				NA	NA	NA	NA	NA
D1-35_02923	264			hypothetical protein	ATGAAGTTTCAAGATGCCCTGGTCTACCGTGAGCATGGATTCTGTGTGGGGACGGAACAGTGCTCGGGTCGATTCTATGTCTCCATACCGGTCAGCAATGGCATGGCTGACTACGAGGAGTACTACGAAATTAATCAGGCGACCTTTGAGCTATTCGAGCGTGACCCGGAAGCTGCGCTTCCTTTTGTGTCGCGTTGTAGAAAACGAGAGTTGGACGAGCTATTGATCATTCAACCGGGAACGAAGCGCGGCACAGCCATCTGA	MKFQDALVYREHGFCVGTEQCSGRFYVSIPVSNGMADYEEYYEINQATFELFERDPEAALPFVSRCRKRELDELLIIQPGTKRGTAI				NA	NA	NA	NA	NA
D1-35_02924	1941	vgrG1_3	COG3501	Actin cross-linking toxin VgrG1	ATGCTATTCAACCAAGCCTCCCGCCTGGCGAAAATCACCAGCCCCCTCGGGCCCGAGGTGCTGCTGCTCAAGGACATGGGCGGCGGCGAAGAGTTGGGGCGGCTGTTCAACTATGAGTTGCAGCTGCACTCGCTGGACAACGCCATCGACCTCAATCAGGTGCTTGGCAAACCCATGTGCGTGAGCGTTCAGCTGGATGGCGGTGGCGAGCGGCACTTCCACGGCATCGTCGCGCGCTTCAGCCAGAACATCGACCAGGGCCAGTTTGCCAGTTACCAGGCCACGCTAAGGCCCTGGCTGTGGCTGCTGACGCGCACCTCCGACTGCCGGATTTTCCAGAACCTGACGGTTCCGCAGATCATCAAGCAGGTGTTCCGCGACCTGGGTTTCTCCGACTTCGAAGACGCCCTCAGCCGCCCGTATCGCGAGTGGGAGTACTGCGTCCAGTACCGTGAGACCAGCTTCGATTTCGTCAGCCGGCTGATGGAGCAGGAAGGCATCTACTACTTCTTCCGTCATGAACAGGGTCGCCATGTGCTGGTGCTGGCCGACGCCTACGGCGCCCATACCCAAGCGCCCGGCTACGCCTCGGTGCCGTACTACCCGAAGAACGAGCAGCAGCGTGAACGCGATCATATTCATGATTGGCACCTGGCCCAGGAAGTCCAGCCGGGGTCGCTTGAGCTCAACGACTACGACTTCCAGCGTCCCAGCGCGCGCATCGATGTACGTTCGGCCATGCCGCGCCCGCACGCCGCTGGCGACTATCCGCTGTATGACTATCCCGGTACCTACGTGCAGAGCGAGGACGGCGAGCACTACGCCCGCACCCGCATCGAAGCCTTGCAGACGCTGCACGAGCAGGTCGAGCTGGCCGGCAATGCCCGAGGCTTGGGCTCGGGGCATTTGTTCAGCCTGACCGGCTTCAGCCGCCAGGACCAGAACCGCGAATACCTGATCGTCGGCGCGCGTTATTACCTCTCTCAGGAAAGCGGCGAGAGCGGCGTCGGTGCGCCTTCGGCGCAGTTCGAAAGCAGTCTGACCTGCATCGACGCCCAGCAAAGCTTCCGCCCGATGGCAATCACCCACCGCCCCATCGTCAAGGGGCCGCAGACAGCTTTGGTGGTCGGACCCAAGGGCGAGGAAATCTGGACCGACCAGTTCGGCCGGGTGAAGGTGCATTTTTATTGGGACCGTCACGATCAATCCAACGAAAACAGCTCGTGCTGGATTCGCGTGTCGCAGGCTTGGGCCGGAAAGAATTGGGGCTCGGTGCAGATCCCGCGCATCGGCCAGGAAGTCATCGTCAGTTTCCTTGAAGGGGATCCTGACAGGCCCATCGTCACCGGTCGTGTGTATAACGCCGAACAGACCGTCCCCTATGCGTTGCCCGCCAATGCCACCCAGAGCGGTACCAAGAGTCGTTCGAGCAAGGGCGGCACGCCGACGAATTTCAACGAAATCCGCATGGAAGATAAAAAGGGCGCCGAGCAACTTTACATCCACGCCGAGCGCAACCAGGACATCGCCGTGGAAGTGGATGAAAGCCACTGGGTGGGTCGCGATCGTCGCAAGAATATCGACCGCAACGAAACCGTACGCATTGGCGAAGACCGGCTGCGGGCCGTACAGCGCAACGACACGTTGCTCGTCGGCGGGGCCAAGAGCGACAGTATCGCGACCCAATACCTCATCGAGGCGGGTTCGCAGATTCGGCTGGTGTGTGGCAAAAGCGTGCTGGAGTTCAACGCCAGTGGCGAGATCAATATCTCCGGCACCGCGTTCAACCTCTACGCCAGTGGCAATGGCAACATCGACACCGGCGGCCGCCTTGACCTCAACTCCGGTGGCGCCAGCGCCGTGGACCCCAAGGGCAAGGGCATCAAGGGCGTGATCGAGGCGGCGGTGAAAGCGTTATTCCCGGCAAAGGCCAAGCAGTGA	MLFNQASRLAKITSPLGPEVLLLKDMGGGEELGRLFNYELQLHSLDNAIDLNQVLGKPMCVSVQLDGGGERHFHGIVARFSQNIDQGQFASYQATLRPWLWLLTRTSDCRIFQNLTVPQIIKQVFRDLGFSDFEDALSRPYREWEYCVQYRETSFDFVSRLMEQEGIYYFFRHEQGRHVLVLADAYGAHTQAPGYASVPYYPKNEQQRERDHIHDWHLAQEVQPGSLELNDYDFQRPSARIDVRSAMPRPHAAGDYPLYDYPGTYVQSEDGEHYARTRIEALQTLHEQVELAGNARGLGSGHLFSLTGFSRQDQNREYLIVGARYYLSQESGESGVGAPSAQFESSLTCIDAQQSFRPMAITHRPIVKGPQTALVVGPKGEEIWTDQFGRVKVHFYWDRHDQSNENSSCWIRVSQAWAGKNWGSVQIPRIGQEVIVSFLEGDPDRPIVTGRVYNAEQTVPYALPANATQSGTKSRSSKGGTPTNFNEIRMEDKKGAEQLYIHAERNQDIAVEVDESHWVGRDRRKNIDRNETVRIGEDRLRAVQRNDTLLVGGAKSDSIATQYLIEAGSQIRLVCGKSVLEFNASGEINISGTAFNLYASGNGNIDTGGRLDLNSGGASAVDPKGKGIKGVIEAAVKALFPAKAKQ	PGPT0030410_3786	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
D1-35_02925	2691	clpV1_1	COG0542	Protein ClpV1	ATGGGTGAAATCAGTCGCGCCGCGTTGTTCGGCAAACTCAACAGCGTGGCCTACAAAGCCATCGAAGCCGCCACCGTGTTCTGCAAGTTGCGCGGTAACCCTTATGTGGAACTGGCCCACTGGTTTCATCAATTGCTGCAACTGCAGGACTCGGACCTGCACCGCATCATCCGCCAGTTCAACATCGAGCCGGCACGCCTGGCCCGCGACCTGACCGAGGCGCTGGATCGCCTGCCACGGGGGTCGACCTCCATCACCGACCTGTCTTCCCACGTGGAAGAAGCCGTGGAACGCGGCTGGGTCTACGGCAGCCTGATGTTCGGCGAAAGCCAGGTGCGCACCGGTTACCTGGTGCTGGGCATCCTCAAGACGCCGAGCCTGCGTCATGCGCTGCTGGGCCTGTCGTCGGAGTTCGACAAGGTCAAGGTCGAAGCCCTGAGCGAACGGTTTGACGAATACGTCGGCGACTCGCCGGAAAACGCCCTGACCGCCAGCGACGGCTTCAACGCCGGCGCCGTGCCCGGCGAAGCCAGCGGCGCGATGGCCCCCAGCGCCATGGGCAAGCAGGAAGCGCTCAAGCGCTTCACCGTCGACCTCACCGAGCAGGCCCGCAGCGGCAAGCTCGACCCGATCGTCGGCCGTGACGAAGAGATCCGCCAACTGGTGGATATTCTCATGCGTCGTCGGCAGAACAACCCGATCCTCACCGGTGAAGCCGGCGTCGGCAAGACCGCCGTGGTCGAAGGTTTTGCCCTGCGCATCGTCGCCGGTGACGTGCCGCCTTCGCTCAAGGACGTGGAGCTGCGCAGCCTCGACGTTGGCCTGTTGCAGGCCGGCGCGAGCATGAAAGGTGAATTCGAGCAGCGCCTGCGTCAGGTCATCGAAGACGTCCAGGCCTCGCCGAAACCGATCATCCTGTTCATCGACGAAGCCCACACCCTGGTGGGTGCCGGTGGCGCCGCCGGTACCGGCGACGCGGCCAACCTGCTGAAGCCGGCCCTGGCGCGTGGCACCTTGCGCACCGTCGCCGCCACGACCTGGGCCGAGTACAAGAAGCACATCGAAAAGGACCCGGCCCTGACCCGGCGCTTCCAAGTGGTGCAAGTCGCCGAGCCGTCGGAAGACAAGGCCCTGCTGATGATGCGCGGCGTGGCCTCGACCATGGAAAAACACCATCAGGTGCAAATCCTCGACGAGGCCCTGGAGGCCTCGGTCAAGCTGTCTCACCGCTACATTCCCGCGCGCCAGTTGCCGGACAAGTCCGTGAGCCTGCTGGACACCGCCTGCGCCCGCGTTGCCATCAGCCTGCACGCCGTGCCGGCCGAAGTGGACGACAGCCGCCGGCGCATCGAAGCACTGGAAACCGAACTGCAGATCATCGCCCGTGAACATGCGATCGGCATCGCCATCGGCACCCGCCAGACCCAGACCGAAAGCCTGCTCGCCGCCGAGCGCGAACGCCTGGCCGAATTGGAAAGCCGTTGGGCCGAAGAGAAAACCCTGGTCGACGAATTGCTGGAAACTCGCGCTACCCTGCGCGAGCGCGTCGGCCTGGTGGACAGCGAGAACGGCAGCGAAGCTTCCGACAACGACAGCCATGCCCTGCGCGAGAAACTGGTGGACCTGCAACAGCGCCTGACCGCCCTGCAAGGCGAGACCCCGCTGATCCTGCCGACCGTGGATTACCAGGCCGTGGCCTCGGTGGTCGCCGACTGGACCGGAATCCCGGTGGGCCGCATGGCCCGCAACGAACTGGAGACCGTGCTCAACCTCGACCAGCACCTGAAAAAACGCATCATCGGCCAGGACCATGCCCTGCAGATGATCGCCAAGCGCATCCAGACCTCGCGCGCCGGCCTCGACAATCCGAGCAAGCCGATCGGCGTGTTCATGCTCGCCGGTACCTCCGGCGTGGGCAAGACCGAAACCGCCCTGGCCCTGGCCGAAGCCATGTACGGCGGTGAACAGAACGTCATCACCATCAACATGAGCGAGTTCCAGGAAGCCCACACCGTGTCCACCCTCAAGGGTGCGCCACCGGGTTATATCGGTTATGGCGAAGGCGGCGTGCTGACCGAAGCCGTGCGGCGCAAACCGTACAGCGTGGTGTTGCTGGACGAGGTGGAAAAAGCCCACCCGGACGTGCACGAGATCTTCTTCCAAGTGTTCGACAAAGGCGTGATGGAGGACGGCGAAGGCCGGGTGATCGACTTCAAGAACACCTTGATCCTGCTAACCACCAACGCCGGCACCGAGCTGATCGCCCAGGTCTGCAAGGACCCGCAGAACGTGCCCGAGCCGGAAGAAATCGCCAAGGCCCTGCGGCAGCCGCTGCTGGAAATATTCCCGCCGGCGCTGCTCGGCCGCCTGGTGACGATCCCCTACTATCCGCTCAGCGACGAGATGCTCAAGGCCATCACCCGCCTGCAACTCAACCGCATCAAGAAGCGCGTGGAGAGCACTCACAAAGTGGCCTTCGACTACGATGACGCGGTGATCGACCTGATCGTCTCGCGCTGCACCGAAACCGAAAGCGGCGGGCGCATGATCGACACCATCCTGACCAACAGCCTGCTGCCGGACATGAGCCGCGAGTTCCTGACTCGCATGCTCGAAGGCAAGGCCATGGCCGGCGTGCGAATCAGCGCCGTGGATAACGAACTGAAGTACGATTTCAGCGACGCGGCCTGA	MGEISRAALFGKLNSVAYKAIEAATVFCKLRGNPYVELAHWFHQLLQLQDSDLHRIIRQFNIEPARLARDLTEALDRLPRGSTSITDLSSHVEEAVERGWVYGSLMFGESQVRTGYLVLGILKTPSLRHALLGLSSEFDKVKVEALSERFDEYVGDSPENALTASDGFNAGAVPGEASGAMAPSAMGKQEALKRFTVDLTEQARSGKLDPIVGRDEEIRQLVDILMRRRQNNPILTGEAGVGKTAVVEGFALRIVAGDVPPSLKDVELRSLDVGLLQAGASMKGEFEQRLRQVIEDVQASPKPIILFIDEAHTLVGAGGAAGTGDAANLLKPALARGTLRTVAATTWAEYKKHIEKDPALTRRFQVVQVAEPSEDKALLMMRGVASTMEKHHQVQILDEALEASVKLSHRYIPARQLPDKSVSLLDTACARVAISLHAVPAEVDDSRRRIEALETELQIIAREHAIGIAIGTRQTQTESLLAAERERLAELESRWAEEKTLVDELLETRATLRERVGLVDSENGSEASDNDSHALREKLVDLQQRLTALQGETPLILPTVDYQAVASVVADWTGIPVGRMARNELETVLNLDQHLKKRIIGQDHALQMIAKRIQTSRAGLDNPSKPIGVFMLAGTSGVGKTETALALAEAMYGGEQNVITINMSEFQEAHTVSTLKGAPPGYIGYGEGGVLTEAVRRKPYSVVLLDEVEKAHPDVHEIFFQVFDKGVMEDGEGRVIDFKNTLILLTTNAGTELIAQVCKDPQNVPEPEEIAKALRQPLLEIFPPALLGRLVTIPYYPLSDEMLKAITRLQLNRIKKRVESTHKVAFDYDDAVIDLIVSRCTETESGGRMIDTILTNSLLPDMSREFLTRMLEGKAMAGVRISAVDNELKYDFSDAA	PGPT0025985_485	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025985-vasG|clpV-K11907	NA	NA
D1-35_02926	1053			hypothetical protein	ATGGAAAGCCAAGCCCGGACGTCGTCCGACCCTGTGAGTACCCTGGAAGCGATGCACCAGGAACCCTGGGAATACGACTTCTTCCAGGCGTTGCGGCGCATCGAATGCGAATCCCCCGAACTGCCGCGCCTGGGCCATTCCCTGCGCCTGGCCGATGATCCGCTGCGTCTCGGGCAACAGGCCGAGTGCACCTTCGCCCCGGCGACCCTGGCCTCGGTGCAACCGGGCGTCGACGGTGCGCCGGCGCGCCTGGAGCAGTTCTTCTTCGGCCTCGGCGGCCCCAACGGCCCAATGCCGTTGCACATCACCGAATACGTGCGCGAACGCCAACGCAACAATGGCGACAGCACCAGCAAACGCTTTCTCGACGTCTTCCATCATCGCCTGCTCAGCCTGTTCTACCGGGCCTGGGCCGAAGCACGGCCGACGGTCAGCCACGATCGCCCGGACGATGATTACTGGTCGGCGCGCCTGGCGGCACTCAGCGGCCGGGGCATGCCGAGCCTGCTCAACCAGGGGCTGATTCCCGATACGGCGAAGCTGCACTACAGCGGTCACCTGTCGGCGCAAACCCGCTACCCGGACGGTTTGAAAGCGATCCTCAGCGAGTACTTCGGCCTGCCGGTGGAAATCGAAGAATACGTCGGCCAATGGCTGGAACTGCCGGAGCGCAGCCGCGTTGGTGTCAGCGCCCATCAACTGGGCGTGGACTTCTGCCTGGGCCGCTACGTTTGGGATCGCCAGCACAAATTCCGCATTCGCCTGGGGCCGCTCAAGCTCGTCGACTACATGGGCATGCTGCCCGGCAGCCAACCGTTCAATGAGCTGGTGGCCTGGGTCGCCGAGTACCTGGGGCACGAACTGGACTGGGACCTGAACCTGGTCCTGGAGCAGCCCGAAGTGCCCGCACTACAACTCAATGGTCGTTTCCGCCTGGGTTTCAACACCTGGCTGGGACGCCCTGAAAAAGATGCCAACGATCTAATACTGGCCCGGCATTACGCCGAACAGGCCAACACCTCACAGACCTCAAGGAGCCATGAGCATGGGTGA	MESQARTSSDPVSTLEAMHQEPWEYDFFQALRRIECESPELPRLGHSLRLADDPLRLGQQAECTFAPATLASVQPGVDGAPARLEQFFFGLGGPNGPMPLHITEYVRERQRNNGDSTSKRFLDVFHHRLLSLFYRAWAEARPTVSHDRPDDDYWSARLAALSGRGMPSLLNQGLIPDTAKLHYSGHLSAQTRYPDGLKAILSEYFGLPVEIEEYVGQWLELPERSRVGVSAHQLGVDFCLGRYVWDRQHKFRIRLGPLKLVDYMGMLPGSQPFNELVAWVAEYLGHELDWDLNLVLEQPEVPALQLNGRFRLGFNTWLGRPEKDANDLILARHYAEQANTSQTSRSHEHG	PGPT0025940_741	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025940-impH|vasB-K11895	NA	NA
D1-35_02927	1860			hypothetical protein	ATGAATCCGCGCCTGCTGGAGCTGTACAACCAGGAGCTGCACCACGTGCGCGAAAGCGCGGCGGAGTTCGCCCAGGAATACCCGAAGATTGCCAGCCGGTTGTCGCTGGCCGGCATGGACTGCGCCGACCCTTACGTCGAGCGCCTGCTGGAAGGCTTCGCTTATTTGACGGCACGGGTGCAGCTCAAGCTCGACGCCGAATACCCGACGTTCACCCACAACCTGTTGGAAATCGCCTATCCGCATTACCTGGCACCGACGCCGTCGATGACCGTGGTGCAGATGCAGGCCGACCCGGACGAAGGTTCGCTGAGCAGCGGTTTCCCGCTGCCCCGTGACACCGTCCTGCGCGCTGCCCTGGGTCGCGAATCCCAGACCTGCTGCGAGTACCGCACCGCCCACGCGGTGACGTTGTGGCCGTTGCAGGTCAGCCAGGCCGAGTACTTCGGCAACCCGTCCGCGGTACTCGGGCGCCTGGCCGCCAGCGAACCGAAAGCCAAGGCCGGCCTGCGCCTGACCCTGCGCACCGGCGCCGAACTGCCATTCAACAGCCTGGCCCTGGACAATCTGCCGCTGTACTTGAGCGGCGCCGATGAACAGCCCTTCCGCCTCTACGAACAACTGCTGGGTAATGCCTGCGCGGTGTTCGCCCGCCAGCCCGGCGGCAACTGGGTCGAACGGTTGCCGCAGGATGCGTTGCGCGCGCAAGGCTTCGATGACGCCGAGGCCGCGCTGCCGGTGGTGTCGCGGGCGTTCCAGGGTTATCGCCTGTTGCAGGAATATTTCGCCCTGCCGCACCGCTTCCTGTTCGTCGATTTCACCCAGCTCGGCCGCGCGGTCAAGCGTTGCGACGGCCAGGAGCTTGAGCTGATCGTGCTGTTCGACCGCCACGATCCGAGCCTGGAAGGCAGCGTCGGCGCTGCGCAGTTCCTGCCGTTCTGCACACCGGCGATCAATCTGTTTCCCAAACGCCTGGACCGCATTCACTTGTCGGACCGGGTCAACGAACATCATGTGATTGCCGACCGCACCCGGCCGATGGATTTCGAAGTGCATTCGCTGACCGGGCTGGCCGGCCACGGCACCGGCCCGGAGCAGCCGTTCCTGCCCTTCTACGCCGTGCGCGATCCGTCCCGCTATGGCCGCGACAAGGCCTATTACACGGTGCGCCGCGAACCGCGCGTGCTGTCCAGCGATCAACGCCGCAACGGCCCGCGCTCGACCTATATCGGCAGCGAGACCTTCGTCAGCCTGGTGGACAGCCAGCAAACGCCTTATCGCCACGACCTGCGTCAATTGGGCGTAACCGCGCTGTGCACCAACCGTGACCTGCCGCTGTTCATGAGCGTGGGCAACGGCAAGACCGACTTCACCCTGGCCGACAGTGCGCCGGTTGGCGCGGTGCGCTGCGTCGCCGGGCCGAGTCGCCCACGGGCGAGCCATGCCCACGACGCCAAGGCCTGGCGGCTGATCAGCCAGCTGTCGCTGAACTACCTGTCCTTGAGCGAACAAGGCCAGGGCGCGGCCGCCCTGCGCGAACTGCTGCGCCTGTATGGCGACAGCAACGATGCGGCGCTGCAATTGCAGATCGAAGGCCTGCGCGAAGTCAGCAGCAAGGCCTGCACCCGGCGCCTGCCGATGCCCGGCCCGATCGTGTTTGGTCGCGGCCTGGAGATCACCCTGGAATTCGATGAAAACGCGTTTCGCGGCACCGGGGTGTTCCTGCTCGGCGCGGTGTTCGAACGCTTCCTGGCACGCTACGTGTCGATCAACAGTTTTACCGAGACGGTGATCCGTACCACCGAACGCGGCGAGATCATGCGATGGAAAGCCAAGCCCGGACGTCGTCCGACCCTGTGA	MNPRLLELYNQELHHVRESAAEFAQEYPKIASRLSLAGMDCADPYVERLLEGFAYLTARVQLKLDAEYPTFTHNLLEIAYPHYLAPTPSMTVVQMQADPDEGSLSSGFPLPRDTVLRAALGRESQTCCEYRTAHAVTLWPLQVSQAEYFGNPSAVLGRLAASEPKAKAGLRLTLRTGAELPFNSLALDNLPLYLSGADEQPFRLYEQLLGNACAVFARQPGGNWVERLPQDALRAQGFDDAEAALPVVSRAFQGYRLLQEYFALPHRFLFVDFTQLGRAVKRCDGQELELIVLFDRHDPSLEGSVGAAQFLPFCTPAINLFPKRLDRIHLSDRVNEHHVIADRTRPMDFEVHSLTGLAGHGTGPEQPFLPFYAVRDPSRYGRDKAYYTVRREPRVLSSDQRRNGPRSTYIGSETFVSLVDSQQTPYRHDLRQLGVTALCTNRDLPLFMSVGNGKTDFTLADSAPVGAVRCVAGPSRPRASHAHDAKAWRLISQLSLNYLSLSEQGQGAAALRELLRLYGDSNDAALQLQIEGLREVSSKACTRRLPMPGPIVFGRGLEITLEFDENAFRGTGVFLLGAVFERFLARYVSINSFTETVIRTTERGEIMRWKAKPGRRPTL	PGPT0025935_554	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025935-impG|vasA-K11896	NA	NA
D1-35_02928	513			hypothetical protein	TTGGTAACCGAAATCGCCACCCGCGATCGCCTGCAACCGTCCCTGCTGGACCGGCTGACCGACGACGATCCGAGCAACCCGAAGGAAAGCGCCGACAAGCGCGTGCTGTCCCTTACCCAATTAAAAGCCTCGGTGCTGCGTGACCTGGCGTGGCTGCTCAACACCACGTCATTGCTCGACGCCGATGCCACGGTGCACACCCCGGCGGGCACCTCGGTGGTGAATTTCGGGCTGCCGGCGCTAGCCGGCAACAGTGCCTCGAACATCGATGTGCCCGCGCTGGAAACCTTGATCCACCAGGCCATCGCCACCTTCGAGCCGCGTATCTTGCGCCACACCCTGCGCGTGCGCGCCCGAGCAACCGCCGAGATGAACCATAACGCCCTGAGCTTCGAGATCGAAGGCGATCTCTGGGCCCAGCCGGTGCCGCTGCGCCTGATGCTGCAGACCGACCTGGATCTGGAGACCGGCCACGTGCGCGTAGTCAACGCCGACCAGCGGAGACGCCCATGA	MVTEIATRDRLQPSLLDRLTDDDPSNPKESADKRVLSLTQLKASVLRDLAWLLNTTSLLDADATVHTPAGTSVVNFGLPALAGNSASNIDVPALETLIHQAIATFEPRILRHTLRVRARATAEMNHNALSFEIEGDLWAQPVPLRLMLQTDLDLETGHVRVVNADQRRRP	PGPT0025930_295	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025930-impF-K11897	NA	NA
D1-35_02929	450			hypothetical protein	ATGATCAAGGCCCATTGCGCGATATGGGTCGGCTGTCTGTTGACCAGCCTGACCGCCTGTGCCCAGCAGCAGTCGCCATCGGCGACTTCCTCCGCCCCGGTGGAGCATGTCGTCTCGATGGGTGGGCAAACGCTGACGCTGGAGAACGACCAGGCGCGCTGCGTGCTCCGCAAGCCCGACCAGACCCTGATGCCACTCGACTTGGCCTGGCCCTGCCAGTTCACGGTCGATCGACAAGGCAAACCCCATGTCGAAACCTTCAATAACGTGCCCATTGTCATCGTTGTCCATGTAGCGGCTGGTCCTCATAACAATCAGGAGTGTCGCTCCGAGTATCGCGCCATACGCCAGTTCAAAGGCCAACTCGAACCCTCGATCATCGCTCGCAACGCCAGTTGCATGCGCGGCACAGGTGACCAGAAGAATTACACGGGCCATTTCACTTGGTAA	MIKAHCAIWVGCLLTSLTACAQQQSPSATSSAPVEHVVSMGGQTLTLENDQARCVLRKPDQTLMPLDLAWPCQFTVDRQGKPHVETFNNVPIVIVVHVAAGPHNNQECRSEYRAIRQFKGQLEPSIIARNASCMRGTGDQKNYTGHFTW				NA	NA	NA	NA	NA
D1-35_02930	456			hypothetical protein	ATGGCCAAGCCTGCGTTTATCAATTTGTGGAAAGCCTATTCCGATTTGCTGGCCACCCATCCCGACGCGAAACCTTGCGACGGCCCTTGGGCAAATCAGTGCGCGATTCGCATGAGCATCACGCTCAATACCGAACTGACCATCAAGGTCAACAAGTCCACCTACACCGAACCCAAATGTGCCCATGGGCATGCGCGTGGGGCCGAGTCATTGGCAAATTGGTTGTGGAAACATCATCTGGGCCGCCCGACGATTCTCGGCGGAACCGCCGCGGACCGACGCAAACTGCAAGACAAGACGGGCCTGATTTTCTTCAAGGATTGTTTCCAGCAAGTGGGGGAAGCCTCGGAGGGTCGTACCGGCGATCATATCGACCTCTGGAACCGTGGCCTGACCCTCGGTTATGACGATCCGGCCTATCGATCCCGAGCGATCTGGTTCTGGGAGCTCGTATGA	MAKPAFINLWKAYSDLLATHPDAKPCDGPWANQCAIRMSITLNTELTIKVNKSTYTEPKCAHGHARGAESLANWLWKHHLGRPTILGGTAADRRKLQDKTGLIFFKDCFQQVGEASEGRTGDHIDLWNRGLTLGYDDPAYRSRAIWFWELV				NA	NA	NA	NA	NA
D1-35_02931	489	hcp1_1	COG3157	Protein hcp1	ATGGCTGTTGATATTTTCATCAAGATCGGCGACATCAAGGGCGAGTCCATGGACAAGGTCCACAAGGACGAGATCGACGTCCTGAACTGGAGCTGGGGCATGTCCCAGACCGGTAACATGCACGTCGGCAGTGGCGGTGGCGCGGGCAAGGTGAGCATCCAGGACCTGTCGCTGACCAAGTACGTCGACAAGGCTTCGCCGAACCTGATGATGCACTGCGCCAGCGGCAAGCACGTCGACAAGGTCAAGCTGACCGTGCGCAAGGCCGGCGGCGAAAGCCAGGTCGAGTACATGATCATCAACCTGGAAGAAGTACTGATCACTTCCCTGAGCACCGGCGGCTCGGGCGGCGATGATCGTCTGACCGAAAACGTCACCCTGAACTTCGCCAAGGTGCTGGTGGACTACCAGCCACAGAAAGCCGACGGCACCAAGGAAGGCGGTCCGGTCAAGTTCGGCTGGAACATCCGTCAGAACGTCAAGGTGTAA	MAVDIFIKIGDIKGESMDKVHKDEIDVLNWSWGMSQTGNMHVGSGGGAGKVSIQDLSLTKYVDKASPNLMMHCASGKHVDKVKLTVRKAGGESQVEYMIINLEEVLITSLSTGGSGGDDRLTENVTLNFAKVLVDYQPQKADGTKEGGPVKFGWNIRQNVKV	PGPT0025980_990	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0025980-hcp-K11903	NA	NA
D1-35_02932	1497			hypothetical protein	ATGAACGATTTGGTACGCGACAATCAGCCCCAGAACCTGGGCGCCACCGAAGAAACCAGCGAGTTCGCCTCGCTGCTGCTGCAAGAGTTCAAGCCCAAGACCGAACGCGCCCGCGAAGCCGTCGAGACCGCCGTGCGCACGCTGGCCGAACAGGCCCTGGCGCAGACCGACCTGGTGTCCAACGACGCCATCAAGTCGATCGAGTCGATCATCGCCGCGATCGACGCCAAGCTCACCGCCCAGGTCAATCAGGTCATCCACCACCCGGACTTCCAGCAACTGGAAAGCGCCTGGCGTGGCCTGCATTACCTGGTCAACAACACCGAGACCGATGAGCAGCTCAAGATCCGCGTGCTCAACATCTCCAAGACCGACCTGCACAAGACCCTGAAGAAATTCAAGGGCACCGCGTGGGACCAGAGCCCGCTCTTCAAGAAGATGTATGAAGAAGAATACGGCCAGTTCGGCGGCGAGCCTTACGGCTGCCTGGTCGGCGACTACTACTTCGACCAGTCGCCACCGGACGTGGAACTGCTGGGCGAGCTGTCGAAAGTCTGCGCCGCCATGCACGCGCCATTCATTGCCGCCGCCTCGCCGACGGTAATGGGCATGGGCTCGTGGCAGGAACTGTCGAACCCGCGCGACCTGACCAAGATCTTCACCACTCCGGAATACGCCGGCTGGCGTTCGCTGCGTGAATCGGAAGACTCGCGCTACATCGGCCTGACCATGCCGCGCTTCCTGGCGCGCCTGCCGTATGGCGCCAAGACCGATCCGGTGGAAGCCTTCGCCTTCGAAGAAAGCACCGACGGCGCCGACAGCTCCAAGTACACCTGGGCCAACGCCGCCTATGCGATGGCCGTGAACATCAACCGCTCGTTCAAACACTTCGGCTGGTGCTCGCGCATCCGCGGCGTGGAATCGGGCGGTGAAGTGGAAAACCTGCCGGCTCATACGTTCCCTACCGATGACGGTGGCGTGGACATGAAGTGCCCGACCGAAATCGCCATTTCGGACCGCCGTGAAGCGGAACTGGCGAAGAACGGTTTCATGCCGCTGCTGCACAAGAAGAACACCGACTTTGCCGCCTTCATCGGCGCCCAGTCGTTGCAGAAACCGGCCGAATACGACGACCCGGACGCCACCGCCAACGCCAACCTGGCCGCGCGCCTGCCGTACCTGTTCGCCACCTGCCGTTTCGCCCATTACCTGAAGTGCATCGTGCGCGACAAGATCGGCTCCTTCAAAGAGAAGGACGAGATGCAGCGCTGGTTGCAGGACTGGATCCTCAACTACGTCGACGGTGATCCGGCGCACTCCACCGAGACCACCAAGGCCCAGCATCCACTGGCTGCCGCCGAAGTGATCGTCGAAGAAGTCGAAGGCAACCCGGGGTACTACAACTCCAAGTTCTACCTGCGCCCGCACTATCAGCTCGAAGGGCTGACCGTGTCGTTGCGCCTGGTATCGAAACTGCCGTCGGCCAAGGGCGCGTAA	MNDLVRDNQPQNLGATEETSEFASLLLQEFKPKTERAREAVETAVRTLAEQALAQTDLVSNDAIKSIESIIAAIDAKLTAQVNQVIHHPDFQQLESAWRGLHYLVNNTETDEQLKIRVLNISKTDLHKTLKKFKGTAWDQSPLFKKMYEEEYGQFGGEPYGCLVGDYYFDQSPPDVELLGELSKVCAAMHAPFIAAASPTVMGMGSWQELSNPRDLTKIFTTPEYAGWRSLRESEDSRYIGLTMPRFLARLPYGAKTDPVEAFAFEESTDGADSSKYTWANAAYAMAVNINRSFKHFGWCSRIRGVESGGEVENLPAHTFPTDDGGVDMKCPTEIAISDRREAELAKNGFMPLLHKKNTDFAAFIGAQSLQKPAEYDDPDATANANLAARLPYLFATCRFAHYLKCIVRDKIGSFKEKDEMQRWLQDWILNYVDGDPAHSTETTKAQHPLAAAEVIVEEVEGNPGYYNSKFYLRPHYQLEGLTVSLRLVSKLPSAKGA	PGPT0025920_690	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025920-impC-K11900	NA	NA
D1-35_02933	516			hypothetical protein	GTGGCGAAGCAAAGTTCTCAGAAATTCATCGCGCGCAACCGCGCGCCTCGAGTGCAGATCGAGTACGACGTCGAGCTCTACGGCGCCGAGAAAAAGGTCCAGTTGCCCTTCGTCATGGGGGTAATGGCGGACCTGGCCGGCAAGCCCGCGGAGCCTCTGGCGCCGGTGGCCGATCGCAAGTTCCTCGAGATCGACGTCGACAACTTCGACTCGCGTCTCAAGGCCATGCAGCCTCGCGTGGCGTTCCATGTGCCTAACGAACTGACCGGCGAAGGCAACCTGAGCCTGGACCTGACGTTCGAAAGCATGGACGACTTCAGCCCTGCGGCCGTGGCCCGCAAGATCGATTCGCTGAACAAGCTGCTCGAAGCGCGCACTCAACTGGCCAACCTGCTGACCTACATGGACGGCAAGACCGGCGCCGAGGAAATCATCATGAAGGCGATCAAGGACCCAGCGCTGCTGCAGGCCCTTGCCAGCGCGCCAAAGCCCGCCGATGCAGAGCCCAAGGCTTAA	MAKQSSQKFIARNRAPRVQIEYDVELYGAEKKVQLPFVMGVMADLAGKPAEPLAPVADRKFLEIDVDNFDSRLKAMQPRVAFHVPNELTGEGNLSLDLTFESMDDFSPAAVARKIDSLNKLLEARTQLANLLTYMDGKTGAEEIIMKAIKDPALLQALASAPKPADAEPKA	PGPT0025915_592	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025915-impB-K11901	NA	NA
D1-35_02934	1026			hypothetical protein	GTGGATGTGCCTTTGCTGCTCGCCGCCGTTTCCGCGAATTCGCCTTGCGGTGAAGACCTGGAATATGACGCGGATTTCTTGCGCCTGGAACGCGACTCCCGAGGCCAGCCCGAGCGCAGCATGGGCGACTCGATTCTGCCTGCAGAACCCCCTGAATGGCGCAGCATCCAGCAGCAAAGCCTGGACCTGCTCGCGCGCAGCAAAGACCTGCGCATCACCCATTTCCTGCTGCAAAGCTCCCTGGCCCTGGAAGGCATTCCCGGCCTGGCCCGTGTATTGACGCTGATCAACGAGCTGCTCAAGCAATACTGGGCCGACCTGCACCCGCGCCTGGATGCCGATGATGACAACGACCCCACCGTGCGCATCAATGCCCTTGCCGGCCTGACGTCGGACGTCACCATCCGCCTGCTGCGCGAAAGCATCCTGGCTCGCTCGCGCACGTTCGGCAACGTCAGCCTGCGCGCCGCCGCCAACGCCAGCGGCTTGCAGAGTTTCCCCGATGAAAGCCTCGGCGCCGAACAACTCGCCGGCGCCCTGCTCGACAGCGATCCCGAGCAGCTGGAAGTCATTCGTGCCGCCCTGCTGGAAGCCCGTAGCGCCGCCGAATCCATCGAACAGCAAGTCAGCGACCAGGTCGGTTCCGCCCAGGGCGTGGACCTCGGCCCGCTGAAACAACCGCTGAAGATGGCCCTGCAGATTCTCGGTCAGTTCGCCCCGCAGAGCGGCGACAGTGCCCTTGTCGATCCCGTCGAAACCGACAACGCCGCGCCGGTTGAATACGCCAGCGCCCCCAGCACGCCGCGCAGTACCGTCGCCGGAGAAATCAACAACCGCGACGATGTCCTGCGCAGCCTGGACCGGATCCTGGCGTACTACACCCGTCATGAGCCCTCCAGCCCGCTGCCGGTGCTGTTGAACCGGGCGAAGAATCTGGTGCACGCCGATTTCGCGGCGATCGTACGCAACCTGATTCCCGACGGCATGAGTCAATTTGAAAACCTGCGCGGCCCGGAAAGCGAATAA	MDVPLLLAAVSANSPCGEDLEYDADFLRLERDSRGQPERSMGDSILPAEPPEWRSIQQQSLDLLARSKDLRITHFLLQSSLALEGIPGLARVLTLINELLKQYWADLHPRLDADDDNDPTVRINALAGLTSDVTIRLLRESILARSRTFGNVSLRAAANASGLQSFPDESLGAEQLAGALLDSDPEQLEVIRAALLEARSAAESIEQQVSDQVGSAQGVDLGPLKQPLKMALQILGQFAPQSGDSALVDPVETDNAAPVEYASAPSTPRSTVAGEINNRDDVLRSLDRILAYYTRHEPSSPLPVLLNRAKNLVHADFAAIVRNLIPDGMSQFENLRGPESE	PGPT0025910_734	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025910-impA-K11902	NA	NA
D1-35_02935	1443			hypothetical protein	ATGCCGCTGTGTTTGACTATCACTAGTTATCACAAGATTACCCCTGGACAGTGTTCTGAAAAGACCCTGAACCAAGGGGTGATGGCAATTGGCCGTAATTCCGATAATGACTGGGTATTGCCCGACCCGGAGCGCCTGGTTTCTGGGCAACATTGCGTTATCCAATACAAGGACGGGCGCTATTATCTGACCGATAACAGCACCAATGGCGTGGAGTTGGTCAAGGCCGGCATTCGCCTGCGCAAAGGCAACAGCGAGCCGCTGCAGGATGGCGAAGTCATTCGCATCGGTGATTACGAGATCCAGGCGCGCGTGGATTTCAGCCTGCCGGTCACCGACAGCAATCCGTTCGCCGAAGCGCCCAGCAGCTTCGAAGCCTTGATGGGGCGCCAGGGTGCCGCCGTGAATACGCCGGCGCCGATACCCGTGGCCACGCCTGCGCATTTCCAGGGTGTGTCGTCCATGGACACGCTGCCGGACCTGTTCGACTTCCTTGCTCCGAGCAGCGTCCCCCCAGCCACCCAGCCCGATCACGTTCCGGCCGAGCAACATGATTTCCGCCCGCCCACGCCGATTCCGCGCCCGAGTCCGCCGCCAGTGGTCCAACCGCTGCCAATGACGCCTGCTCCGGTTATCCCGGATGATTGGGACCTGTTCAGCGACACGCCTGCGCCGGTTGCGCCGATTCCCGTCGCGCCGCTGCCGGAGCCGGTTTCCGTGCCGCCATTGCCGGTGATCGAGCCCGTTCCCGCGCCGCCGATCCCGCAAGTCGTTGCGCCGATCGAGCCCGCGCCACCGCGCGAAGCGCCGGTCAGCCGCGTCGAGCCGACGGCTACCCCAACCGACACCTCTGGCCCCGACCTGCTGCAAGCGTTCCTGCGCGGCGCCGGGCTGGATCAGTTGCGCCTGGACAAAGTCCAGGCTGAGGCGCAGATGGAAAGCATCGGGCGCAGCTATCGATTGATGGTCGAGGGCCTGATCGATGTGCTGCGCGCCCGCAGCAGCCTCAAGGGTGAGTTCCGCATCCAGCAGACAATGATCCAACCGGTGGAAAACAACCCGCTCAAATTTGCCCCGAACGTCGACGAAGCCCTGCTGTTGCTGTTGCGCCACGGCAACCAGGCCTTCATGGCGCCGGACGTGGCGGTGCGCGACAGCTTTGACGATTTACGCGCGCATCAACTGGCGGTGATGGCCGGTGTGGAAGCGGCCATCAAGCATCTGCTGGCGCGTTTCGAGCCGGCCCAGCTGGAAGAGCGCATGGGCAAGCCCGGCGGGTTGTCGGGGATTTTCAGCGGGTCGCGCCAGGCCCAGTACTGGCAGCAATTCACCGAGCTCTACAGCAACATTTCCCGGGAGGCCCAGGAAGACTTCCAGGACCTGTTCGGTCGGGAGTTCAGCCGCGCCTACGAAGAACACAGCACGCGACAGCGACGTCGTTGA	MPLCLTITSYHKITPGQCSEKTLNQGVMAIGRNSDNDWVLPDPERLVSGQHCVIQYKDGRYYLTDNSTNGVELVKAGIRLRKGNSEPLQDGEVIRIGDYEIQARVDFSLPVTDSNPFAEAPSSFEALMGRQGAAVNTPAPIPVATPAHFQGVSSMDTLPDLFDFLAPSSVPPATQPDHVPAEQHDFRPPTPIPRPSPPPVVQPLPMTPAPVIPDDWDLFSDTPAPVAPIPVAPLPEPVSVPPLPVIEPVPAPPIPQVVAPIEPAPPREAPVSRVEPTATPTDTSGPDLLQAFLRGAGLDQLRLDKVQAEAQMESIGRSYRLMVEGLIDVLRARSSLKGEFRIQQTMIQPVENNPLKFAPNVDEALLLLLRHGNQAFMAPDVAVRDSFDDLRAHQLAVMAGVEAAIKHLLARFEPAQLEERMGKPGGLSGIFSGSRQAQYWQQFTELYSNISREAQEDFQDLFGREFSRAYEEHSTRQRRR	PGPT0030440_73	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0030440-fha1-K11913	NA	NA
D1-35_02936	507			hypothetical protein	ATGATTCCCAGGTTTTTACTCGCAGTCGCCACAGCACTTCTGCTGACGGCGTGCGCCAAGGATGCGGCCGCTCCCCAGCCCGAAGAGGCTGAAGCCGACACCGCCGCCGTCGAGTTGCACTTCCACGCCATCGCCGGGCTCAACCCCGGCGCCAGCGGCCAGCCGGCGCCGGTACGGGTGCGCATTTTCGAGTTGAAGAACGCCGCCACCTTCGCCCGCGCCGACTACTTCGCCCTGGCCGAACGGGCGCAGGCGACATTGGGGGCTGACCTGATCGACCAGGACGAAGTGCTGATCCAGCCGGACCAGCAACTGAGCCTGCAACGCGATCTCGACCCGGCCACCCGGCATATCGGAATCCTGGTGGGCTATCGCGAGCTGGACCAGTCGCTGTGGCGCACGGTGATGAATGTCCCGGCGCGCCAATACACCGAATACCAGATCAGCCTCGATGTGCGTGCCGTGCGCAGCGCCGTCGTCGTCCCCCCATCCAGCCCTGCCCAATAA	MIPRFLLAVATALLLTACAKDAAAPQPEEAEADTAAVELHFHAIAGLNPGASGQPAPVRVRIFELKNAATFARADYFALAERAQATLGADLIDQDEVLIQPDQQLSLQRDLDPATRHIGILVGYRELDQSLWRTVMNVPARQYTEYQISLDVRAVRSAVVVPPSSPAQ	PGPT0030425_794	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0030425-vasD|lip-K11906	NA	NA
D1-35_02937	1335			hypothetical protein	ATGTCCTGGAACAATCGCGTGGTCTGGTCGGAAGGCATGTTCATTGGAACGCAGCACTTCCAGCAGCATGACCGTTACCTGGAAAACCTCATCGATTCCCGCAGCCGTCCACTGTCGGCAGGCGCCTGGGGTTTTTCCGAATTGCTGACCGATCAGGGCCTGCTGGCCCAGGGCAAGCTGGCGATCATCTCGGCCAAGGGCCTGCTGCCCGACGGCACGCCGTTCAATATTCCCCAGGACGACGTTGCGCCGACGCCGCTGAACATTGACGACAACCTGCGTGACGGCCTGGTGTACCTGGCCCTGCCGCTCAAGCGCGCCGGCGCCCGCGACACCGTGGACGAAGGTGAGCCCTTGGGCGCTGCGCGCTACGTGAGCCAGGTCTGCGAAGTGCGTGATGACAATGCGCCGTTCGAAAACCGCGCACCGGTGGCCGTGGGTTCCCGGGCGCTGCGTTTGCTGACCGCCCAGGATGGCATCGGCGATTACGCCGCGATTGGCGTGGTGCGCATCAAGGAAAAACGCGCCGATCGCGCCCTGGTGCTGGATGAAAATTACATCCCGCCGCTGCTGGACGTAGCGGCTTCGAAGTCACTGGCAGCGTTCCGCAGTGAGCTGCTGGGCCTGCTGCACCAGCGCGGCGAAGCCCTGGCCGGGCGGGTCGTGGCCTCCGGCGCGGGTGGGGCCTCGGAGATTGCCGATTTCATGCTGCTGCAACTGGTCAACCGCGCGCAGCCGTTGATCCAGCACCTGAGTCAGCTGAGTCCGCTGCATCCCGAGCGTTTCTACAGCGAGCTGGTGAGCCTGGCCGGGGAGTTCTCGACCTTTACCGCATCCGGCCGCCGCCCGCAGGAATATCCGCAGTACCAGCACGATGACCTGGTGCTGAGTTTCACGCCGGTGATGCAAGCCTTGCGCGAGGCCCTGTCGATGCTCATCGACAGCAAGGCCACGCCGATTCCGATTGTCGAGAAAGCCTACGGCATCCATGTGGCGATGCTGGCCGACAAGACCCTGCTCGACAGCGCCAGTTTCATTCTCGTGGTGCGCGCCGACGTTCCCGCCGAAACCCTGCGCGGCCGCTTCGGCCAGCAGAGCAAAGTCGGCTCGGTGGAGCACATTCGCGACCTGGTCAACCTGCAACTGCCGGGCATTGGCCTGCTGCCGTTGCCGGTGGCGCCACGCCAACTTCCGTACCACGCCGGATCCACCTATTACGAGCTGGACCGGGGCAGCGATCACTGGCAACAGTTGAGCAACTCCGGCGGCTTTGCGTTCCACATCGCCGGCCAGTTCCCGGGGCTGAACCTGGCTTTCTGGGCGATCCGAGGATAA	MSWNNRVVWSEGMFIGTQHFQQHDRYLENLIDSRSRPLSAGAWGFSELLTDQGLLAQGKLAIISAKGLLPDGTPFNIPQDDVAPTPLNIDDNLRDGLVYLALPLKRAGARDTVDEGEPLGAARYVSQVCEVRDDNAPFENRAPVAVGSRALRLLTAQDGIGDYAAIGVVRIKEKRADRALVLDENYIPPLLDVAASKSLAAFRSELLGLLHQRGEALAGRVVASGAGGASEIADFMLLQLVNRAQPLIQHLSQLSPLHPERFYSELVSLAGEFSTFTASGRRPQEYPQYQHDDLVLSFTPVMQALREALSMLIDSKATPIPIVEKAYGIHVAMLADKTLLDSASFILVVRADVPAETLRGRFGQQSKVGSVEHIRDLVNLQLPGIGLLPLPVAPRQLPYHAGSTYYELDRGSDHWQQLSNSGGFAFHIAGQFPGLNLAFWAIRG	PGPT0025950_1237	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025950-impJ|vasE-K11893	NA	NA
D1-35_02938	1311			hypothetical protein	ATGAGCAACGACGATCGTACCCAGTTCATGCCGACCCCCGGTGGCCGTGGCGCGGACCCTTTCCGCCCGGACCCGGGGCGTCCGCAACCGGCACCCGCGACGGCGCCGCTGTCGATGCCGGCCGCGCCGCTGTTGACCGGCAAAGCCCAGGGCCTCAACCCGCTGGAGAGCGCCGCCGGCCCGCTGCTGGCCCTGCTGACGCGCTTGCGCAGCACCATCGCCCACCCGGCTCCGGCCAGCTTGCGCGCCCAATTGCTGGCCTACCTGCGCCAGTTCGAAGAGCGCGCCGAAGCCGCCGGCGTGGTGCGCAACGACGTCTTGCTGGCCCGCTACGCCTTGTGCACCGCGCTGGATGAGGCGGTGCTGAGCACGCCTTGGGGCGGCACCAGCGACTGGGGCAAGCAGAGCCTGTTGATCACTGTGCACAACGAAGCCTGGGGCGGCGAGAAAGTCTTCCAGCTGCTGGAGCACTGCCTGCAAAGCCCGCGCGAGCGTCTGTACCTGCTGGAGCTTTTGTACCTGTGCATGTGCCTGGGTTTCGAAGGGCGCTACCGGGTCATGAACGACGGCCGCAGCCAACTGGAAGCGCTGCGCGAACGCACCGCAGCGGTCATCCGCAGCGCCCGTGGCGACTACGAACGCGAGCTGTCGCCGCACTGGCGTGGGGTCACCGTGGCCCGCGATCGCCTGGCGCAGTTCATGCCGCCATGGATCGCCGTGGCCATTGGCATTGCCCTGTTGCTGGCGTTGCTGTTCGGCCTGCGCATGAAGCTGGCCGCCGATGCCGAGCCAGTGTTCAAGAACATTCATTTCCTCGGCGAAATTCCGGTGCAGACCATCGACCGTCCGGTGGTCCAGCCGAAAGTGATCGAACGTCCGCGCCTGGCCGGGTTCCTCGCCGATGAAATCAGGGCCGGCCGGATTGCTGTGGAAGATGCCGTCGACCGCTCGGTAGTGACCATCCGTGGCGATGAACTGTTCGCCTCCGGCAGCGCCAGCATCAAGGATGATTTCCAGCCGCTGATGCTGCGCATCGCCGATGCCGTGCGCAAGGTCAAGGGCCAGGTGCTGGTGACCGGCCACAGCGACAATCGCCCGATCGCGACCTTGCGGTTTCCGTCCAACTGGGCCTTGTCCGAAGCCCGGGCCAGGTCGGTGCTGGACATTCTTTCGGCCAAGACCGGCCAGCCCGAGCGCTTCAGCGCCGAAGGCCGCAGCGACACCGAGCCGTTGGCGTCCAACGCCACGACCGAGGGGCGGGCGCGCAATCGTCGGGTTGAAATCACAGTATTGGCGGAGGGGGTCGAGTGA	MSNDDRTQFMPTPGGRGADPFRPDPGRPQPAPATAPLSMPAAPLLTGKAQGLNPLESAAGPLLALLTRLRSTIAHPAPASLRAQLLAYLRQFEERAEAAGVVRNDVLLARYALCTALDEAVLSTPWGGTSDWGKQSLLITVHNEAWGGEKVFQLLEHCLQSPRERLYLLELLYLCMCLGFEGRYRVMNDGRSQLEALRERTAAVIRSARGDYERELSPHWRGVTVARDRLAQFMPPWIAVAIGIALLLALLFGLRMKLAADAEPVFKNIHFLGEIPVQTIDRPVVQPKVIERPRLAGFLADEIRAGRIAVEDAVDRSVVTIRGDELFASGSASIKDDFQPLMLRIADAVRKVKGQVLVTGHSDNRPIATLRFPSNWALSEARARSVLDILSAKTGQPERFSAEGRSDTEPLASNATTEGRARNRRVEITVLAEGVE	PGPT0025955_339	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025955-impK|ompA|vasF|dotU-K11892	NA	NA
D1-35_02939	3501			hypothetical protein	GTGAAGGCGTTTTTCAGTTTCATGACCCGTTGGGTCATCCCGTTGCTGGGGCTGATCGCCCTGAGCCTGATCATCTGGTTCGTCGGCCCGCTGCTCGATTGGCTGGTGCCTGAAGGGCGCCGTTGGGCGCTGATCATCCTGGTGTTTGCGGTATGGATCGCCTATCGCCTGTTCCGCATCATCCAGGCCCGCCGGCAGGCCGCCGAGGTCATGCGCAGCCTGGCCGCGCAGACTCCGCCGGACCCGACCAGCATCGCCACCGCCGAAGAGCTCGAAACCTTGCGCCAGCGCATGGACGAGGCCCTGGCCCTGCTCAAGAAAGCCAAGCTGGGCGGTGACGAGCGCCGTAACCTCTACGAGTTGCCGTGGTACGTGATCATCGGCCCACCGGGCTCGGGCAAGACCACCGCACTGGTCAACTCAGGGCTGCATTTCCCGCTGGCGGCGCAATTGGGCGCCGGCGCGGTGCGCGGTGTCGGTGGCACGCGCAACTGCGACTGGTGGTTTACCGACGAGGCGGTGTTGCTCGACACCGCCGGTCGCTACACCACCCAGGACAGCGATGCGACCGTCGATAAGGCCGCGTGGCTGGGCTTCCTCGGCCTGCTGAAAAAACAGCGGGCGCGACGCCCGATCGATGGCGCGTTTATCGCCATCAGCCTTTCGGACCTGCTGTTGGGCAGCGACGCCGAACGTGCCGCCCACGCGGCGGCAATCCGCCTGCGGATCCAGGAGTTGTACACGCAGCTGGGCGTGCGTTTCCCGGTGTACCTGATGCTCACCAAGCTCGACCTGGTGCCGGGGTTCATGGAGTACTTCGACAACCTGAGCAAGGAAGAGCGCGCCCAGGTCTGGGGCATGACTTTCACCCTGGACGATGGCAAGAGCAACGACAGCCCGCTGGCGCACCTGCAGAGTGAATTCGCCCTGCTCGAGCAGCGCCTCAACGACCGCCTCGTCGAGCGCCTGCAACAGGAGCGCGACCCGGCGCGACGCGACCTGATCTACGGCTTCCCGCAGCAGTTCGGTGCACTGAAGGATTGCCTGCAAAGTTTCCTCGACGGCGTGTTCAAACCCAATGCGTTCGAAGAGCGTGTGTTGCTGCGTGGCGTGTATTTCACCAGCGGCACCCAGGAAGGCAGCCCGATCGATCGCCTGATCGGCTCCATGGCCCAAAGCATGAACCTGGACCGCCAGCACCTGGCGCGCCAGACCGGTACCGGGCGCAGTTACTTCATCGAAAAACTCTTCAGCGCCGTGGCCTTCGCCGAGCGCGGGCTGGTGGGGGTGGACCCGAAAGTCGAGCGCCGGCGCAAGTGGATCGCTCGTGGCGTGCTGGCGTCTACCGTGCTGGTGGTGCTGGTGGTCGGCACGTTGTGGTGGGTCAGCTACCGCGCCAACCAGGCCTACATCGCCCAGGTCGACCAGAAGGTCGCGCCGCTGGGCCAGACCGTGCAGAACCTCAGCCCGGCCCAGCGCGACGTACTCGCGGTATTGCCGCTGCTCAACGCCGTGAAGCATCTGGCCGACGATGCTCCGGACTGGGCCGAAGGCCTGGGCCTGTATCAGGGCGACATGCTCGAAGCCGAGTCCGGTAGCGTCTATCGCAAACTGCTGATCGCGGTGTTTGCGCCGCGCCTGCTGACGCGCATCGAAGAGCAACTGCACGGCGGCGGCAACTCGGACTTCCTTTACGAGGGGCTGAAGGCCTACCTGATGCTCGCCGACAACGAGCATTACGACGCCGATTTCATCAAGGCCTGGATTGCGCTCGATTGGGACCGCAGCCTGCCGCGCGACCTGCCGGCCGAACAGCGTCAGGCTTTGACCGGGCACTTGCAGGCGCTGCTCGAGCGGCGTCCGCCGACCGCGCGCCTGGACCCACGCCTGATCGAGGACCTGCGCCGCCAGCTGCAACAACTGCCGGTGGCCCAGCGCGTCTACGACCGCATCAAACGGCAGAAGCTGCCCGACGGCATCCCCGACTTCCGCATCAACGAAGCCGCCGGGCGTGACGCCGCGCTGGTGTTCAGCCGCAAGAGCGGCAAGCCGTTGGGCGAGCCGCTGAGCGGCTTCTTCACGGTCAAGGGTTACCGTCAGGGCTTCTTGCTCTCCAGCCTGAGCCAGACCGGCACCCTGGCTGAAGAGCAATGGGTGCTGGGCTTTGAGCAGGCCGATCAGCAGAACGTCGCCAGCCTCGCCGCCGATGTGCGGCGCCTGTACTTCCAGGATTACCAGCGCCAGTGGGACGCATTGCTGGCCGACATCGACTTCGTGCCGATCACCAGCGTGGCCCAGGCCGCCGATGTGCTGCGGGTGCTTTCCGGCCCGACTTCGCCGCTGAAAAAGCTGCTGGTGGCGGTGGCAAAGGAAACCGACCTGCAACAGGACGAACGCCTGCTCGCCGCCCAAGGCGTACCGGCGGGCGACGGCGTGGACAAGCTCAAGGAGCGCCTCGGCAGCCTGCTCGGCCAGGAGCAGGCAACGCCAAACGCGCCGCAAACCAGCGATGACCCGATCACCGCGCACTTCGCCGAGCTCAACAGCATCGTCAGCAAGAGCGAAGGCGAACCGGCGGCCATCGACGGCCTGCTGTCCGACATGAACGCCCTGTATGTGCAGGTCAGCGCCATGGTCGGCGCCAGTGGCGACGCCTTGCTCGGCGAAGCGAAGAACCAGGCGTCGGCCGCCGCCACCCGCGTCAGCCTCAACGCCGAACGCCAGCCGCCGCTGGTGCAGGGTCTGGTCAAGTCGGTGGTCAACTCCACCACCAACACCATGATGGGCGGCGTGCGCAATCAGTTGAATGCTGCCTGGACCAGCGAAGTGGTGAATATCTATCGCCAATCCCTGGCCGGGCGTTATCCGATGTCCCCGGGCAGCGCGCGGGACGCGACCCTCGATGACTTCGGCCAGTTCTTCGGCGTCGGCGGGGTGATGGACAACTACTTCCGCAAGTACCTGCAACCCTACGTCGATACCTCGGCCCCGACCTGGCGTTGGCAGCCGGGCGCAGCGCAGAAGCTCGGCATCGCTCCGGGTGTGCTGCAAACCTTCCAGCGCGCGGCGACCATTCGCGATGCGTTCTTCCGTTCCGGCGGCACGCAGCCGATGGTGCGCTTCGAACTCAAGCCGGTGGCGATGGATTCGACCATCACCCAATTCCTGCTCGACCTCGACGGCCAGCAGTTGAGCTACGACCACGGCCCGAGCCGGCCGACCGCCATGCAATGGCCGAACCCGGGCAGCATCGGTGTGGTGCGCATCTCGATCATGCCGCCGTCGTCCAGCGGTCGTTCCGGCATCACCTTGGATGGGCCATGGGCCTGGTTCCGCTTGCTGGAGCAGTCGGACCTGACCGCCGGCAACTCGCCGGATCGCTTCAACCTGCGGCTGCGGGTCGATGGCGCCAGCGCCTCCTACGAGTTGCGGGCCAACAGCGCCTTCAACCCGTTCAAGAGCCGGGTACTCAGTGGCTTCAGCCTGCCGGAGCGGTTATGA	MKAFFSFMTRWVIPLLGLIALSLIIWFVGPLLDWLVPEGRRWALIILVFAVWIAYRLFRIIQARRQAAEVMRSLAAQTPPDPTSIATAEELETLRQRMDEALALLKKAKLGGDERRNLYELPWYVIIGPPGSGKTTALVNSGLHFPLAAQLGAGAVRGVGGTRNCDWWFTDEAVLLDTAGRYTTQDSDATVDKAAWLGFLGLLKKQRARRPIDGAFIAISLSDLLLGSDAERAAHAAAIRLRIQELYTQLGVRFPVYLMLTKLDLVPGFMEYFDNLSKEERAQVWGMTFTLDDGKSNDSPLAHLQSEFALLEQRLNDRLVERLQQERDPARRDLIYGFPQQFGALKDCLQSFLDGVFKPNAFEERVLLRGVYFTSGTQEGSPIDRLIGSMAQSMNLDRQHLARQTGTGRSYFIEKLFSAVAFAERGLVGVDPKVERRRKWIARGVLASTVLVVLVVGTLWWVSYRANQAYIAQVDQKVAPLGQTVQNLSPAQRDVLAVLPLLNAVKHLADDAPDWAEGLGLYQGDMLEAESGSVYRKLLIAVFAPRLLTRIEEQLHGGGNSDFLYEGLKAYLMLADNEHYDADFIKAWIALDWDRSLPRDLPAEQRQALTGHLQALLERRPPTARLDPRLIEDLRRQLQQLPVAQRVYDRIKRQKLPDGIPDFRINEAAGRDAALVFSRKSGKPLGEPLSGFFTVKGYRQGFLLSSLSQTGTLAEEQWVLGFEQADQQNVASLAADVRRLYFQDYQRQWDALLADIDFVPITSVAQAADVLRVLSGPTSPLKKLLVAVAKETDLQQDERLLAAQGVPAGDGVDKLKERLGSLLGQEQATPNAPQTSDDPITAHFAELNSIVSKSEGEPAAIDGLLSDMNALYVQVSAMVGASGDALLGEAKNQASAAATRVSLNAERQPPLVQGLVKSVVNSTTNTMMGGVRNQLNAAWTSEVVNIYRQSLAGRYPMSPGSARDATLDDFGQFFGVGGVMDNYFRKYLQPYVDTSAPTWRWQPGAAQKLGIAPGVLQTFQRAATIRDAFFRSGGTQPMVRFELKPVAMDSTITQFLLDLDGQQLSYDHGPSRPTAMQWPNPGSIGVVRISIMPPSSSGRSGITLDGPWAWFRLLEQSDLTAGNSPDRFNLRLRVDGASASYELRANSAFNPFKSRVLSGFSLPERL	PGPT0025960_1205	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025960-impL|vasK|icmF-K11891	NA	NA
D1-35_02940	654			hypothetical protein	ATGAGTACAGCGGGGTTCTATGGAAAGTTGGCCAGCCGTGGGGACTTCGTCAGCCGTGGCTTGCCGCAGAGTTTTATCGGCCCGTGGGACTCGTGGCTGGCGGCGGGTTTGCTCGCCAGCCAGGCCAGCCTCGGCGAGCGTTGGCTGGATGCCTATCTGGTCAGCCCGCTGTGGCGCTTCATGGTCGCGCCCGGCGTGTGCGGGCCGGACGCTGCGGTTGGCGTGGTGATGCCAAGCATTGACCGGGTCGGGCGGTATTTCCCGCTGACCGTTGCAGCGTTGCTCGACCCGGATGCCGACCCTGCCTCGGTGGTCGGCGGCGCGGACGACTGGTTCGAGCGGGTCGAGAACCTGCTGTTGAGCACACTGAACGTGGAGGCCAGTTTCGAAGCTTTCAACGCGGAGCTGGAAACCCTGGCTGGCCCGATGTACCTGCCGCGCACCCCGAGCAGTCGCTTCGCCAGCCTGCATCGCTTCGATGCCACCGATTCGCAGCGGCGAATGAGCGCCCTCGCCGAGTCGGCTTGCGAAGGCGTCAGCCTGTGGTGGGGCCAGGGTTCGGAGCGCATCGCGCCCGGTTTGATGCGGTGCCAGGGACTGCCGGCCGCCGCTGATTTTGCGCAATTTTTGCTCGGCCAAGAAGGTGTTGTGTAG	MSTAGFYGKLASRGDFVSRGLPQSFIGPWDSWLAAGLLASQASLGERWLDAYLVSPLWRFMVAPGVCGPDAAVGVVMPSIDRVGRYFPLTVAALLDPDADPASVVGGADDWFERVENLLLSTLNVEASFEAFNAELETLAGPMYLPRTPSSRFASLHRFDATDSQRRMSALAESACEGVSLWWGQGSERIAPGLMRCQGLPAAADFAQFLLGQEGVV	PGPT0025965_585	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025965-impM-K11890	NA	NA
D1-35_02941	732	prpC_2	COG0631	Protein phosphatase PrpC	ATGCGTCCAAGTGCTGGAAAAGCCTTCAAGTCTGCAAGCAAAAGCCATGTCGGCATGGTCCGCCAGGTCAACGAGGACGCCTGCCTGGACCTGCCGGAAAACGGTTTGTGGGTAGTCGCCGACGGCATGGGCGGGCACGCGGCGGGCGACTACGTCAGCAGCCTGATTGTCGACAGCCTGCGTAGCATTGCGGTGGGCCGCTCGCTGGACGAATACATCGCGGCGCTGCAAAGCGACCTGCTGCGGGTCAACGCCGCCGTGCGCGAAGAAACCGCCAACCGTGGCGTGACCATGATGGGCAGCACCGTGGTGGTGCTGGCCACGCGCGACCTGCGCGGCATGTGCCTGTGGGCCGGTGACAGCCGCTTGTACCGCTTGCGCGACGGCGTGCTGGAAGGCATCTCGCGCGACCACAGCTATGTCCAGGATCTGCAGGACAGCGGCTTGCTCAGCGAGGCCGAAGCCCGCGTGCATCCGCGGGCCAACATCGTCACCCGCGCCATCGGCGTCGAGGCGCAATTGAACCTGGCGATGACCGAGCTGCTGCTGGTGCCCGGCGACAGCTACCTGCTGTGCAGCGACGGCCTGACCAAGACCGTCGAGGACGAAGAAATCCGAGAAGTATTGAGCCACGACGAGCCCGGCGAAATCGCCAGCAGCCTGGTGTCCCTGGGTCTGATGCGCGGCGCGCCGGACAACATCACCGTGGTCGTTGTGAAGGTGCCGTCATGA	MRPSAGKAFKSASKSHVGMVRQVNEDACLDLPENGLWVVADGMGGHAAGDYVSSLIVDSLRSIAVGRSLDEYIAALQSDLLRVNAAVREETANRGVTMMGSTVVVLATRDLRGMCLWAGDSRLYRLRDGVLEGISRDHSYVQDLQDSGLLSEAEARVHPRANIVTRAIGVEAQLNLAMTELLLVPGDSYLLCSDGLTKTVEDEEIREVLSHDEPGEIASSLVSLGLMRGAPDNITVVVVKVPS	PGPT0002605_43	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_REGULATION,PGPT0002605-stp1|pppA-K11915	NA	NA
D1-35_02942	3087	pknD_2		Serine/threonine-protein kinase PknD	ATGAGCTTGCCCCTGAATATTGTCATCCCCGGCTACGACATCGATGGCGAGATCGGCGAAGGCGCGATGGCCAGCGTGTACCTGGCGACCCAGCGTTCGCTTGAGCGCAAGGTCGCGTTGAAAGTCATGGCCGCGGCGCTGGCGGCCGACCCGACTTTCTGCGAGCGTTTCTTGCGCGAGGGCAAGACCCTGGCGCGCCTGTCGCACCCGCACACCGTCACCATCCATGACATCGGCAATGTCGGTGAGCTGTACTACATGGCGATGGAATACCTGCCCAACGGCACGCTCAAGGAACGCATCGCCGCGGGCCTGACGCCGGAGCAGGGCCTGACCTACATCCGCCAGATCGCTTCGGCCCTGGGGTACGCCCACGGCCTGGGCCTGGTGCACCGTGACGTCAAGCCGGCCAACATCCTGTTTCGCGCCGATGGCACGGCGGTGCTGTCGGACTTCGGTATCGCCAAGTCCCTGGACGACCGCACCCAATTCACCCAAGCCGGTTTCGCGGTTGGCACACCGAGCTACATGAGCCCTGAGCAAGCCCGTGGGCAAGACATCGACGGCCGCGCCGACCTGTACGCCCTGGGCGTGGTGCTCTACGAGATCCTCGTCGGCAAGCTGCCGTATATCGGCAACGACGCGCTGTCCACGGCCCTGGCCCACCTGACCGAACCGCTGCCGGAGTTGCCGGTGCACCACGGTCGTTACCAGGAAGTGCTGCGCAAACTGCTGGCAAAGGATCCGGCGGAGCGTTTCCCGGATGCGACTGCGTTGCTGCGCGCGTTGGATAACTTGCCAGAGGAATCGTCGGAAGCGACGCTGATCCGGCCGTTGTCGTTTGAACTGCCTGCCGCGCCGCCTCCGGTGGATGACTTGGCCGGCCTGACGCCCGTGTCCATCGACATTCCCAGTGGCCCGGCTTACGCACAACCGCAGCCCAGGCCGATCCCGCCGCCGGTAAAACCGACGCCTCAGTCGACGGTGTCGGAGCAGCGCAAGCGGCCGGTGTTCGCCCTGGCCGCCGTTGCGGTCGCCGTGGCGCTGGCCTTGGGCGGCGCAGGTTATTGGTGGTTGGCCGGTGACAATGGCAAAAAAGTGAAGACGCCAGTGACTACGACCACCTCGGTCAAGCCACCGGAAGTGAAGCCACCGAAGGCCCCGGAAGTGCCAGCGGTCAAGCCCCCCATCGCCCCTCCGACTCAGCCCCCCGTGGCGACCGAGGCCGATGGCGGCCAGCGACCATTGCTGATGGCCGGCAAGAAAACCCTATTTCAGCGTGTGCTCAGCAAGCCGGGGGCGAAACTCGCCGACGCGCCGGGCGCCGCACCGGGCAAGTCGCTGCCGGCGTTCTCGGTGTTGTATGTGTATCAGCGCAAAGACGTGGAGGGCAGCGCCTGGGTGCGGGTCGGCGCGGCCACCGACGGGCGCAGCGACGGCTGGTTGCCCGCCGCCCAGGTCAGCGACTGGAAACAGAGCCTGGTGCTCAAGTTCACCGAACGCTCCGGCCGTGCGCCGGTAATGTTCCTGCGCCAGCCCGGCGAAGTGGAAAAGCTCCTGGCGAACCCTTCGGCCGCGAAAAATGCGTTGCTCAAGGCCCAGCAAAGCCCTCAGGACAACCAGCAAGTGCTGGCCCTGGAACCGGCCGCCAGCGCCGTACCGCAAAACCAGTTCTACCTGTTGCCGATCTTCGATTCGCGTGAAAGCTTCGACGACAACGGCCAGCCGGTGCAGTTGCTGAACGTTGCCTCCATTGACCCCGGCAACGCGCAAAAGGTCGCGACCAACACGCCGATCACCTCCGCCAATGCCGACGCGTTCCGTACCGCCGTGGTGCTGGTGGTGGACACCACCGTGTCCATGCAGCCCTATATCGATCAGGTCCGCGACGTGGTGCATCAGTTGCAGACCCGCATCGGCGAACGTGGCGAGTTGGACAGCGTCAGCTTCGGCATGGTCGGTTTCCGCAGCAGCATCAAGAAGACCCCGGGCCTGGAGTACACCGCCAAGACTCTGATCACGCTGGAGCAGGGCCGCGACCCGCAACGCTTCCTGGAGATGGCGCGGCAGGTCAAGGCGTCTACCGTGTCGAGCCATTCGTTCAACGAGGATGCGTTTGCCGGGGTCATGGAAGCCGTGGAAGGCGTGGACTGGTCCGGTTACGGCGGGCGCCTGATCCTGCTGGTGACCGATGCCGGTGCCCTGCGCAAGAACGACCCGTTTGCCGCGACGCAGATGAACGAGGCCGAAGTGCGCCAGGCCGCGTTGGGCAAGCAGATCAAGATCTACGCCTTGCACCTGCTCAGCGACGCCGGCAAGAAAACCCACGCCGGCGCCCAGACCCAGTACCGCACCCTGACGGCCGACGCCAATCCACAGATCGGCGACCTGTACATCCCGGTGCCGGGCGCCGACGTGCGCAAGTTCGGCGAGCGGGTCGACGAGATCGGTTCGGTGTTCGCCGATCTCGTGCACCAGGTGCGCAGCAACAAGCCGCAAAGCGTGCCGCTGCTCAGCGCCGCGCCAAGCCTGGCGGACAAATCGGCGGCGGTCGGTTACGCCATGCACATGGATTTCCTCGGCCGCAAAACCGCTAGCCAGGCGCCGCAACTGGTCAGCGCCTGGACCGCCGACCGCGACCTGACCAACCCGGCGCTGCCGGCGTTCCAGGTCTGCGTGATGCTGACCAAGCTGCAGCTCAACGACCTGCAGCAATCGCTGAAGCTGATCGTCGATGCGGCTCGCAAGACCCAAAGTTCGCCCAAGGATTTCTTCCAGGAAATCGCCAGTGCCAGCGCCTACATGAGCCGCGACCCGTCGGCCCTGCGCAAGGGCGGCAATCTCGCCACCGGCGGCATCCTCGGCGAGTACCTGGAAGGGCTGCCGTACCGCAGCAAATCGTTGAACATGACCCAGGACCTGTGGCTGTCCTTGAGCGTGGCCGAGCAGGAAGATTTCATCGACGAGCTGGAGTCGAAGATCCGTCTCTACGAAACCTTCCACAACGATCTCGCCAACTGGGTGCGTTTCGGCGATGCCGAGCCGGGCGATGCCTTGTACCGCGTTCCGTTGTCGACGCTGCCGTGA	MSLPLNIVIPGYDIDGEIGEGAMASVYLATQRSLERKVALKVMAAALAADPTFCERFLREGKTLARLSHPHTVTIHDIGNVGELYYMAMEYLPNGTLKERIAAGLTPEQGLTYIRQIASALGYAHGLGLVHRDVKPANILFRADGTAVLSDFGIAKSLDDRTQFTQAGFAVGTPSYMSPEQARGQDIDGRADLYALGVVLYEILVGKLPYIGNDALSTALAHLTEPLPELPVHHGRYQEVLRKLLAKDPAERFPDATALLRALDNLPEESSEATLIRPLSFELPAAPPPVDDLAGLTPVSIDIPSGPAYAQPQPRPIPPPVKPTPQSTVSEQRKRPVFALAAVAVAVALALGGAGYWWLAGDNGKKVKTPVTTTTSVKPPEVKPPKAPEVPAVKPPIAPPTQPPVATEADGGQRPLLMAGKKTLFQRVLSKPGAKLADAPGAAPGKSLPAFSVLYVYQRKDVEGSAWVRVGAATDGRSDGWLPAAQVSDWKQSLVLKFTERSGRAPVMFLRQPGEVEKLLANPSAAKNALLKAQQSPQDNQQVLALEPAASAVPQNQFYLLPIFDSRESFDDNGQPVQLLNVASIDPGNAQKVATNTPITSANADAFRTAVVLVVDTTVSMQPYIDQVRDVVHQLQTRIGERGELDSVSFGMVGFRSSIKKTPGLEYTAKTLITLEQGRDPQRFLEMARQVKASTVSSHSFNEDAFAGVMEAVEGVDWSGYGGRLILLVTDAGALRKNDPFAATQMNEAEVRQAALGKQIKIYALHLLSDAGKKTHAGAQTQYRTLTADANPQIGDLYIPVPGADVRKFGERVDEIGSVFADLVHQVRSNKPQSVPLLSAAPSLADKSAAVGYAMHMDFLGRKTASQAPQLVSAWTADRDLTNPALPAFQVCVMLTKLQLNDLQQSLKLIVDAARKTQSSPKDFFQEIASASAYMSRDPSALRKGGNLATGGILGEYLEGLPYRSKSLNMTQDLWLSLSVAEQEDFIDELESKIRLYETFHNDLANWVRFGDAEPGDALYRVPLSTLP	PGPT0025905_14	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_REGULATION,PGPT0025905-ppkA-K11912	NA	NA
D1-35_02943	717	lolD_3	COG1136	Lipoprotein-releasing system ATP-binding protein LolD	ATGCTGAACCTGAACGCCGTGCACAAAAGCCGGGGCTCCGGCAGCCAGCGCTACAGCCTGGTGATTCCACGGCTGCAACTGCGTGGCGGTGAACAGCTGGCGGTGGTCGGCCCCAGCGGCTGCGGCAAGAGCACCCTGCTGGACTTGCTCGCTCTGGTGCTGGCGCCGGATCAGGCCGGGCAATTCGATTTCACGCCCGCCAATACACCGCTGGACATCGCCAAACTGTGGCGTGCGTCGCAACAGGACACCTTGGCCGAGCTGCGCAGCCGTCACCTGGGCTATGTTCTGCAAACCGGAGGCCTGCTGGGCTTCCTGGACGTGCGCGGCAACATCGCGTTGTCGCGCAAATTGCTGGGCTTGAAGGATGACGGCAGCGTGACGCGCCTGGCTGGACAACTGGACATCGCCGATCAACTGGACAAGAAACCGACGGACCTGTCCGTGGGTCAGCGCCAGCGGGTCAGTTGCGCCCGCGCTTTGGCCCATGGCCCGCGCCTGCTATTGGCCGATGAGCCGACCGCCGCGCTGGACCCGTTGAACGCCGAGCGCGTCATGCAGTTGCTGGTGACCCAGGCCCGGGAGCAGGGGGTGTGCTGCGTCGTTGCCACCCATGACGAGGCGCTGGCCCGCGCCAGCGGCTTGCAGGTGCGGCGCATCAGCTGCCGTCGCGACACGGACGGCGGCGTCACCGCCACCCTTGGGGAGGCTTGCTGA	MLNLNAVHKSRGSGSQRYSLVIPRLQLRGGEQLAVVGPSGCGKSTLLDLLALVLAPDQAGQFDFTPANTPLDIAKLWRASQQDTLAELRSRHLGYVLQTGGLLGFLDVRGNIALSRKLLGLKDDGSVTRLAGQLDIADQLDKKPTDLSVGQRQRVSCARALAHGPRLLLADEPTAALDPLNAERVMQLLVTQAREQGVCCVVATHDEALARASGLQVRRISCRRDTDGGVTATLGEAC	PGPT0013345_7047	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
D1-35_02944	1197			hypothetical protein	ATGCGCGGCGCGCTGGTGGCTTCCCTGGCCTGGCAGGATTATCGCAACGACGCCTGGCTGTCGGCCTGTTCGGTGCTGGCGCTGGTCGCCGTGGTGGCGCCGTTGCTGGTGTTGTTCGGCCTGAAGTTCGGTCTGGTCAGCAGTCTGACCGAGCGCCTGGAACGTGACCCCGCGACCCGGGAAATCATCCCCCTCGGCGGTGGCCGTTTCAGCGCCGGATTCGTTGAACAACTGGGGCAGCGCAGCGACGTCGCCTTCGCCTTGCCGCGCACTCGGCAGATCGCAGCCACGGCGGACCTGAGCAATGAGGCTTCGGCGGTCACGGTCGAAATGATTCCCACGGCGCTGGGCGATCCGCTGTTCGACCAACTGCCGGTGCCGCAAGGCCTGGAGCAAGTGGTGCTCAGCCAGACCGCCGCGGAAAAACTCGGCGCCAGGTCTGGCGATTGGTTGCAGGCCAGTTTCGGCCGGCAGGTGGCTGGTCGCAGCGAGGCGCAGCGCACACGGGTGCAGGTGTTGCAGGTGCTGCCGTTGGAAGCCTTCGCCCGGGACGGTCTGTTCGCGCCACTGGCATTGCTCGAGGCGGCCGAGGATTACCGTGACGGCCGCGCCGTGCCCGCGTTCGGCTGGCCTGGCGATGCGCTGGGCGACGCTGGGCAGCGGGTTTATCCGGCGTTTCGTTTGTATGCCCGCAGCCTCGGCGATGTCGAGCCGCTGCGTCAGTACTTCGCCGGACAGAACCTGCTGGTGTCGACCCAGGCCCAGACCATCGCACAAGTGCAATCGTTGAGCCGCAACCTGTCGATCGTGTTCTGGATCATCGCCGGATTGGCGCTGGCCGGTGCATTCGCGGCGATTTTTGCCGGTGCCCTGGCGGCCGTCGAGCGCAAGCGCCGGGAGCTGTCGGTGTTGCGCCTGCTGGGTGTGTCCACGGCGGCGCTGTTGTTGTTCGTGGTCTTGCAGGCGCTCTACAGTGCCATGTTTGCGGCCCTGCTGAGTGTTGGCCTGTATGGCCTGGCGCAGTCGGGCCTGAATCATTTATTTGCGCAGATGCCCGGCGAATACGCCAGCCATCTGCTGGTGCGCCATTACACCTTGGCCCTGGTGGCCGTGCTCGGCGTCAGTGCCGTCGCGGCGGCCTGTGGCGGTTGGCGGGTGGCGCGCATCCAGGCGTGTGAAGGAATTCGCGATGTATAA	MRGALVASLAWQDYRNDAWLSACSVLALVAVVAPLLVLFGLKFGLVSSLTERLERDPATREIIPLGGGRFSAGFVEQLGQRSDVAFALPRTRQIAATADLSNEASAVTVEMIPTALGDPLFDQLPVPQGLEQVVLSQTAAEKLGARSGDWLQASFGRQVAGRSEAQRTRVQVLQVLPLEAFARDGLFAPLALLEAAEDYRDGRAVPAFGWPGDALGDAGQRVYPAFRLYARSLGDVEPLRQYFAGQNLLVSTQAQTIAQVQSLSRNLSIVFWIIAGLALAGAFAAIFAGALAAVERKRRELSVLRLLGVSTAALLLFVVLQALYSAMFAALLSVGLYGLAQSGLNHLFAQMPGEYASHLLVRHYTLALVAVLGVSAVAAACGGWRVARIQACEGIRDV	PGPT0013350_18897	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
D1-35_02945	1728			hypothetical protein	ATGTATAAATTATTGGGCGCCGCCGTGGCGCTGAGCCTGGCCGGTCTGGTCTGGGCTGATGAAGGCACGGATAAACTGGACAACCCCAAGCCATTGCCCGACGACGTCAGCCTGCCGCTGCCGTGCGAGGGGCAGATGGTGTTCCGCTACGTCTACATCCTCGCCCAGGGCACCCTGGACGACCGCGAGATCAGCCTCGGCTACCCGTTCAGCGAAGGCGAGGCGGGCTATCAACAGTCGTTCATTTCCGGCTACCGGCGCGACTTCATCAACGGCCAGTTCACCCTGAAGGATTTGCCCAAGGACTGGAACAAGACCATCACGCCGTTGATGCCCAAGACTGACGCCAAGACGCCGCTCAAGCCGATGCTGTACTTCATCGGCAAATACGAAGTGACCGCCCGCCAGTACGCCCAGGTCATGGCGCAGGCGCAATCGCTGGCCAGCGGCGAGCCGGCACCGGCCTGCGAGGCGCTGCTGGCCGAGTTGCCCCAGGGCATGGCCGGGCGCTTACCCAAGGTGAAGCTGTCGAAGTTCGAGGCCGAGCGCTTCTCGGCGGTGTACAGCGCCTGGCTGATGAAATACCACAAGGACCTGTTGCCGGTGAGCGGCCGCGGTACCTCCGCTGAAGACGGTGGGCTGGGCTTCGTGCGCCTGCCCACCGAGGTCGAATGGGAATTCGCCGCCCGTGGTGGACATGCCGTGAGCCGCCAGGACCTGGAAGGACGATTGTTTCCCCGACGCCTGGAAGGCAGCGAAAGCGACGGGCCGTTGGCCGATTGGGCGGTGTTCAACCAGGTCGCCGGCGGCACCGGCCAGGCGGCGCGACTGATGCCCATCGGCACCAAGCTGGCGAACCCGATCGGGTTGTTCGACGTGATGGGCAACGCCGCCGAGATGGTCCAGGAATCCTTCCAGCTTGTGCATGCCGGCCGCCGTCAGGGCGCCTATGGCGGTTTTGTGGTCAAGGGTGGCAACTACCTGGAAGGCGAGGGCACGTTGTTTACCGGCATGCGCCGCGAATACCCGTTGTTCGCCGCCGACGGCACCGAACAGAGCAACGAAACCACCGGCTTTCGCGTGGCGGTCGGGGCGCTGTCGGCGCCGCGCTCGCGCTACAAGGAATTGTTCGCCCAATGGCAGAAGGAAGGCCGGCTCGCGTCCCTCACCGATGCCATCGACGATGCCGAAGACCCGACCAAGCGCCTGGACAGCATTATCGCCGCCAGCGCCGACCCGCGACTGCAAGCCGAGCTGGGACTGGTCAATGAAGAGCTCAAGCGCAACGTCTCGCTCATCGCCCAGCAGCGCGAGGAAGCGGCGGGCAACCTGATCCAGTCTTCGGCCCTGGTGGCGGAGACCATCAACAACTACAACATTCGCCTGACCAACCTGCAAAACAGCCGGCAGGCGGCCCTGGACGCCAAGGACGAGGCCAGTGCCACGCTGTTCGCCACGGCCATCGACAACGGCCGCAGCGCGCTGGATGGCGCGGTGGCGATCTACATCGACAACCTGGCAACCGGCACGCGCTACACCGATGCCGTGATCCAGGCGCAGTTCCAGCGCATCAAGGAAGAGCTGGAGCGCAAACCGGTACTGGGCAAGAGCCTGGTGGCGCGTGCAACGTTATTCGTTCGTCATGTCGGGGATTATCGTCAGCAGAAACGAGCCGACCCGGCGGCGATATTGAAGGAATTGCTCGCATCGAGCGCTCAGCGGTCTTGA	MYKLLGAAVALSLAGLVWADEGTDKLDNPKPLPDDVSLPLPCEGQMVFRYVYILAQGTLDDREISLGYPFSEGEAGYQQSFISGYRRDFINGQFTLKDLPKDWNKTITPLMPKTDAKTPLKPMLYFIGKYEVTARQYAQVMAQAQSLASGEPAPACEALLAELPQGMAGRLPKVKLSKFEAERFSAVYSAWLMKYHKDLLPVSGRGTSAEDGGLGFVRLPTEVEWEFAARGGHAVSRQDLEGRLFPRRLEGSESDGPLADWAVFNQVAGGTGQAARLMPIGTKLANPIGLFDVMGNAAEMVQESFQLVHAGRRQGAYGGFVVKGGNYLEGEGTLFTGMRREYPLFAADGTEQSNETTGFRVAVGALSAPRSRYKELFAQWQKEGRLASLTDAIDDAEDPTKRLDSIIAASADPRLQAELGLVNEELKRNVSLIAQQREEAAGNLIQSSALVAETINNYNIRLTNLQNSRQAALDAKDEASATLFATAIDNGRSALDGAVAIYIDNLATGTRYTDAVIQAQFQRIKEELERKPVLGKSLVARATLFVRHVGDYRQQKRADPAAILKELLASSAQRS				NA	NA	NA	NA	NA
D1-35_02946	942			hypothetical protein	ATGCTTTTCTCCCGTAAACCTTTTGCTTCGGTTTCCAAGCGTCATTTGCTGATGGTCGCTGTTGGCTTCAGCACCGTACTGACCGGCTGCGCCACGTCGCCGACGTCCAAGGTCGCTTCGAGCACCAAGGTCGAGTACTACCCGAACTGCTACGAGCCGGTGCAGCACCTGCGCTCTACTGAAGGCAACATGACCAAGTCCGTGGTCACCGGCGCAGCCGTCGGCGCCGTCGGCGGTGCCTTGCTGGGCGCGCTGACCGCTGACAAGGAAGACCGTGGCCGCAACGCCGCCATCGGTGCCGCGGGCGGCGCCCTGGCCGGTGGCGCAGCCGGTTACTACACCGAGCGCCAGAAGCAGATCGCCGATGACAACATGCGCATCGCCTCCTACGCCGCCGATGTCAGCAAAAGTGCTTCGGACATCGACCGCAGCACCGCGTACGCCAAGGCTTCGCAACAGTGCTACCAGAACGCGTTCAGCAAACTGGTCGCCGACCGCAAGGCCAAGACCGTCAACGACACCGAAGGCCGCAAGCGCCTGGCGGAAATCGTTGCCGGCCTGAAAGAGTCCAACGACCTGATCGTCACCGTGAACGGCAAAGCCGCCGAAGACCTGAACAACTACACCCAGGCCTATGAAAAAGACCTGCAGCAAGTGGGTGTGCAGCGTACTGACGTGGTGACCGTGGCCACTGCTGATACCACGCAAGTTGTGGCGGCACAGACCAGCACCAAGAATAAAAAGAAAGTGACGCCGGCGAAGAAGAAAGAGCTGCCAACCGTGCCGAAAGAAGCGGTCGCCACCGAGAAGACCCTGCAGACCGCCAAGGCCAAGCAGGATGAAGGCAAGCAGGTCGCCAGCGCCGGCACCACCCAGGTCAACAGCATGTGCAAAAACCCGGACCTGGGCGATTGGGCACCGGTGCCTTGCCCGAATGTCTGA	MLFSRKPFASVSKRHLLMVAVGFSTVLTGCATSPTSKVASSTKVEYYPNCYEPVQHLRSTEGNMTKSVVTGAAVGAVGGALLGALTADKEDRGRNAAIGAAGGALAGGAAGYYTERQKQIADDNMRIASYAADVSKSASDIDRSTAYAKASQQCYQNAFSKLVADRKAKTVNDTEGRKRLAEIVAGLKESNDLIVTVNGKAAEDLNNYTQAYEKDLQQVGVQRTDVVTVATADTTQVVAAQTSTKNKKKVTPAKKKELPTVPKEAVATEKTLQTAKAKQDEGKQVASAGTTQVNSMCKNPDLGDWAPVPCPNV				NA	NA	NA	NA	NA
D1-35_02947	381			hypothetical protein	ATGAAATTTCGTTTGCTGCTGTGGATGCTCGGGTTGTTGATGGGCAAGGCCAGTCGTAACAATCCGGCGTTCCAGCAACAGTTGGCCGACCGGGAGTTGGTGTTCCAGTTGCAAACCCTGGACGGCAAGGTCGCCAGGCATTACACCGTGAAGAACCAGCGCATCACCAGCCACTCCGGTGCGTACCCGACACCGGCCTTCGCCATCGCCTTCAAGGATGCAGCCTATGGCTTCGCCACGATGCAGGCGAAGAACAAGCAGTTGGCATTCATGACCGGGATCCAGGACAAGTCGATCCAGATCAAAGGCAACCCGGCGCTGGTGATCTGGTTTCAGGGGCTGATGAAGTATTTGAAGCCGAGGAAACCGAAGAAGGTTTAG	MKFRLLLWMLGLLMGKASRNNPAFQQQLADRELVFQLQTLDGKVARHYTVKNQRITSHSGAYPTPAFAIAFKDAAYGFATMQAKNKQLAFMTGIQDKSIQIKGNPALVIWFQGLMKYLKPRKPKKV				NA	NA	NA	NA	NA
D1-35_02948	1398			hypothetical protein	ATGACCGAAGCTGCCCTCGTCCCCGAAACCCCGCACGCTCCGTCTGTTATTCGGCAGTTGCTCGAGAAATTGGGCATCGCCTTTGACGAAGTCATCGAGCGACCGGGCTTGAACCCCGCTCGTAAAGTGCAGGCCGTGCTGTTGCACGACGCTGTCGGCGCGCTCATGGTCCTGTTTCCGCAAAACCAGTTGCTGGACCTCAACCGGCTGGCCGAGCTCACCGGTCGTAAACTCACGGCTGTGCCGACCGAGCGCCTGGAACGCATGCTCGGCAAGCACAACCTGAGCCTGCTGCCCGGCCTGCCAGCGCTGACCAGCTCGCCGTGCCTGTATGAAGAAGGCCTGCTGCGCGAGCCGAAACTGTTGATCAATTCCGGCGAGCCGGGGCTGCTGCTGGAAGTCACCAGCGAAGCCTTCAAGACCATGCTCACCAAGGCCAGCGCCGCGACGTTCGGCGAGCCTTTGAGCAATATCACGCCAAACCTGGACCGCCCGGACGACGACCGCAAGGAAATCACCATGGCCGTGCAGGCCTTCACCGCGCGGCGTATCCAGCAACGCCTGGAAGAAACCATCGAGATTCCGCCGCTGGCCGAAACCGCGCAGAAGATCATCAAGTTGCGGGTCGATCCCGACGCGACCATCGATGACATCACCGGCGTGGTGGAAACCGACCCGGCCCTGGCCGCGCAAGTGGTGAGCTGGGCCGCGTCGCCGTACTACGCCTCGCCGGGCAAGATTCGTTCGGTGGAAGACGCGATTGTCCGGGTGCTGGGCTTCGACCTGGTGATCAACCTGGCGCTGGGCCTGGCCCTGGGCAAGACCCTGAGCCTGCCCAAGGACCACCCGCAACACACCACGCCTTATTGGCAGCAGTCGATCTACACCGCCGCCGTCATCGAAGGCCTGACCCGCGCCATGCCGCGCGCCCAGCGCCCCGAAGGCGGCCTGACCTACCTGTCGGGGCTGCTGCACAACTTCGGCTATCTGCTGCTTGCCCACGTGTTCCCGCCGCATTTCTCGCTGATCTGCCGGCATCTGGAGGTCAACCCGCACCTGTGCCACAGCTACGTGGAACAGCACTTGCTGGGCATCAGTCGCGAGCAGATTGGCGCCTGGCTGATGCGCTACTGGGACATGCCCGACGAACTGGCCACCGCCCTGCGCTTCCAGCACGACCCTCACTACGACGGTGAATACGCCGCCTACCCGAACCTGGTGTGCCTGGCCGTTCGCCTGCTGCGCTCGCGCAGCATCGGCTCGGGCCCGGACGAGGACATCCCGGACTCGCTGCTCGAACGCGTGGGGCTGACCCGGGAAAAGGCCAACGACGTGGTCAGCAAAGTGCTCGAAGCCGAAGTGTTGCTGCGGGAGCTGGCTTCGCAGTTCAGCCATTGA	MTEAALVPETPHAPSVIRQLLEKLGIAFDEVIERPGLNPARKVQAVLLHDAVGALMVLFPQNQLLDLNRLAELTGRKLTAVPTERLERMLGKHNLSLLPGLPALTSSPCLYEEGLLREPKLLINSGEPGLLLEVTSEAFKTMLTKASAATFGEPLSNITPNLDRPDDDRKEITMAVQAFTARRIQQRLEETIEIPPLAETAQKIIKLRVDPDATIDDITGVVETDPALAAQVVSWAASPYYASPGKIRSVEDAIVRVLGFDLVINLALGLALGKTLSLPKDHPQHTTPYWQQSIYTAAVIEGLTRAMPRAQRPEGGLTYLSGLLHNFGYLLLAHVFPPHFSLICRHLEVNPHLCHSYVEQHLLGISREQIGAWLMRYWDMPDELATALRFQHDPHYDGEYAAYPNLVCLAVRLLRSRSIGSGPDEDIPDSLLERVGLTREKANDVVSKVLEAEVLLRELASQFSH				NA	NA	NA	NA	NA
D1-35_02949	2076	recG	COG1200	ATP-dependent DNA helicase RecG	ATGACTGAGCTGTCGAAAGTGCCGGTCACGGCACTCAAGGGTGTCGGTGAAGCCATGGCCGAGAAACTCGCCAAGGTCGGCCTGGAAACCCTCCAGGACGTGCTGTTCCACCTGCCGCTGCGTTACCAGGATCGCACCCGCGTGGTGCCCATCGGCCATTTGCGACCCGGGCAGGATGCGGTGGTCGAAGGCACCGTCAGCGGCGCCGACGTGGTCATGGGCCGGCGGCGCAGCCTGGTGGTGCGCCTGCAGGACGGCACCGGTGGGCTCAGCCTGCGCTTCTACCATTTCAGCAACGCGCAAAAGGAAGGCCTCAAGCGGGGCACCCGCGTGCGCTGCTACGGCGAGGCGCGGCCCGGCGCGTCCGGGCTGGAAATCTACCACCCGGAATACCGCGCCATCACCGGCGATGAACCGCCGCCAGTGGCTGAAACCCTGACGCCGGTCTACCCCCTCACCGAAGGCCTGACCCAGCAGCGCTTGCGCCAGCTCTGCCAGCAGACCCTGACGATGCTCGGCCCCACCAGCCTGCCGGACTGGCTGCCCAAGGAACTGGCGCGGGACTATCAATTGGCGCCGTTGGCCGACGCGATTCGTTATCTGCACCACCCGCCCGCCGATGCCGACGTCGAAGAGCTCGCCCTTGGACATCACTGGGCCCAGCATCGCCTGGCGTTCGAAGAGCTCCTGACCCATCAACTGTCCCAGCAACGCCTGCGCGAAAGCCTGCGCTCGCTGCGCGCCCCGGCCATGCCCAAGGCGACAAAACTGCCAGCCCGCTACCTGGCCAATCTCGGTTTCACCCCCACCGGCGCCCAGCAACGGGTCGGCAATGAAATTGCCTACGACCTGAGCCAGCCCGAGCCGATGCTGCGGTTGATCCAGGGCGACGTCGGCGCCGGCAAGACCGTGGTCGCCGCTCTCGCCGCGCTGCAAGCGCTGGAGGCGGGTTATCAGGTGGCGTTGATGGCGCCGACCGAGATTCTCGCCGAACAGCACTTCATCACTTTCCAGCGCTGGCTCGAACCGCTGGGCATCGAAGTCGCCTGGCTGGCCGGCAAGCTCAAGGGCAAGAACCGCGTCGCCGCCCTGGCGCAGATCGCCGAGGGCGCGCCGATGGTGGTCGGCACGCACGCGCTGTTCCAGAACGAAGTGCAGTTCAAGAACCTGGCCTTGGTCATCATCGACGAACAACACCGCTTCGGCGTCCAGCAGCGCCTGGCCCTGCGGCAGAAAGGTGTCGGTGGCCGAATGTGCCCGCACCAGTTGATCATGACCGCCACACCAATTCCGCGGACCCTGGCGATGAGCGCCTACGCCGACCTCGACACCTCGATCCTCGACGAACTGCCGCCCGGCCGCACGCCGGTCAACACCGTGCTGGTCACCGACACCCGGCGGGTCGAAGTGATCGAGCGCGTGCGCAGCGCCTGCGCCGAAGGCCGGCAAGCCTATTGGGTGTGCACCTTGATCGAGGAATCGGAAGAGCTGACCTGCCAGGCGGCTGAAACCACCTTCGAGGACCTCACCGCCGCCCTTGGCGAACTGAAGGTCGGGCTGATCCACGGTCGCATGAAGCCTGCCGAGAAAGCCGCGGTCATGGCCGAATTCAAGGCCGGCGCCTTGCAATTGCTGGTTGCCACCACGGTGATCGAGGTCGGCGTCGACGTGCCCAACGCCAGCCTGATGATCATCGAGAACCCCGAGCGCCTGGGCCTGGCGCAGTTGCACCAGTTGCGTGGCCGGGTCGGCCGGGGCAGCGCGGCCAGCCATTGCGTGTTGCTGTACCACCCGCCGCTGTCACAGATCGGCCGCCAGCGGCTGGGCATCATGCGTGAAACCAATGACGGTTTCGTCATCGCCGAAAAAGACCTCGAACTGCGCGGCCCGGGTGAAATGCTCGGCACGCGCCAGACCGGTCTGCTTCAATTCAAGGTAGCCGACCTGATGCGCGACGCCGACCTGCTCCCTGCGGTCCGCGACGCCGCCCAGGCGTTGCTGGAGCGCTGGCCGGACCACGTCAGCCCGCTGTTGGATCGCTGGTTGCGCCACGGGCAGCAATACGGCCAAGTGTGA	MTELSKVPVTALKGVGEAMAEKLAKVGLETLQDVLFHLPLRYQDRTRVVPIGHLRPGQDAVVEGTVSGADVVMGRRRSLVVRLQDGTGGLSLRFYHFSNAQKEGLKRGTRVRCYGEARPGASGLEIYHPEYRAITGDEPPPVAETLTPVYPLTEGLTQQRLRQLCQQTLTMLGPTSLPDWLPKELARDYQLAPLADAIRYLHHPPADADVEELALGHHWAQHRLAFEELLTHQLSQQRLRESLRSLRAPAMPKATKLPARYLANLGFTPTGAQQRVGNEIAYDLSQPEPMLRLIQGDVGAGKTVVAALAALQALEAGYQVALMAPTEILAEQHFITFQRWLEPLGIEVAWLAGKLKGKNRVAALAQIAEGAPMVVGTHALFQNEVQFKNLALVIIDEQHRFGVQQRLALRQKGVGGRMCPHQLIMTATPIPRTLAMSAYADLDTSILDELPPGRTPVNTVLVTDTRRVEVIERVRSACAEGRQAYWVCTLIEESEELTCQAAETTFEDLTAALGELKVGLIHGRMKPAEKAAVMAEFKAGALQLLVATTVIEVGVDVPNASLMIIENPERLGLAQLHQLRGRVGRGSAASHCVLLYHPPLSQIGRQRLGIMRETNDGFVIAEKDLELRGPGEMLGTRQTGLLQFKVADLMRDADLLPAVRDAAQALLERWPDHVSPLLDRWLRHGQQYGQV				NA	NA	NA	NA	NA
D1-35_02950	921	oxyR		Hydrogen peroxide-inducible genes activator	ATGACCCTCACAGAATTACGCTACATCGTGACCCTCGCCCAAGAGCAGCACTTCGGCCATGCGGCCGAGCGTTGCCATGTCAGCCAGCCGACGCTGTCGGTGGGCGTGAAAAAGCTTGAAGACGAACTCGGTGTGCTTATTTTCGAGCGCAGCAAAAGCGCGGTGCGCCTGACGCCGGTCGGTGAAGGCATCGTCGCCCAGGCGCAAAAAGTCCTGGAACAGGCCCAGGGCATCCGCGAGCTGGCCCAGGCCGGCAAGAACCAGCTGACCGCCCCGCTGAAAGTCGGCGCGATCTACACCGTCGGCCCGTACCTGTTCCCGCACCTGATCCCGCAACTGCACCGGGTCGCCCCGCAGATGCCGTTGTACATCGAAGAAAACTTCACCCATGTGCTGCGCGACAAGCTGCGCAACGGTGAGCTGGACGCGATCATCATCGCCCTGCCGTTCAACGAAGCCGATGTCCTGACCCTGCCGCTCTACGACGAGCCGTTCTACGTCCTGATGCCGGCCCAACACCCGTGGACCCAGAAGAAAACCATCGACGCCGCCCTGCTCAATGACAAGAGCCTGCTGTTGCTCGGCGAAGGCCACTGCTTCCGCGACCAGGTGCTCGAAGCCTGCCCGACCCTGACCAAGGGCAGCGAAGGCGCCAAGCACACCACGGTGGAATCCAGCTCCCTGGAAACCATTCGCCACATGGTCGCCTCCGGCCTGGGCATTTCGATCCTGCCGCTGTCGGCGGTGGACAGCCATCATTATTCACCCGGCGTGATCGAAGTCCGTCCATTGACCGCGCCGGTGCCGTTCCGCACCGTTGCCATCGCCTGGCGCGCCAGCTTCCCGCGACCCAAGGCCATCGAGATCCTCGCCGATTCGATCCGCCTGTGTTCCGTGGCCAAGCCGCCCGCCGCCAAGTAA	MTLTELRYIVTLAQEQHFGHAAERCHVSQPTLSVGVKKLEDELGVLIFERSKSAVRLTPVGEGIVAQAQKVLEQAQGIRELAQAGKNQLTAPLKVGAIYTVGPYLFPHLIPQLHRVAPQMPLYIEENFTHVLRDKLRNGELDAIIIALPFNEADVLTLPLYDEPFYVLMPAQHPWTQKKTIDAALLNDKSLLLLGEGHCFRDQVLEACPTLTKGSEGAKHTTVESSSLETIRHMVASGLGISILPLSAVDSHHYSPGVIEVRPLTAPVPFRTVAIAWRASFPRPKAIEILADSIRLCSVAKPPAAK	PGPT0012965_1704	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0012965-oxyR-K04761	NA	NA
D1-35_02951	756			hypothetical protein	ATGATCACGACGCGCCAAAAGCTGACGCGTTACAGCGGTAGCCTGGCCGTGGTGCTGGGCGTGCATGCGCTTGCCATCGCACTGGCGCTGAACTGGACGACGCGTGCCCCCATCGAATTGCCACCCCAGGCGATGATGGTCGAACTGGCGCCGGTTCCAGCACCGCCACCGCCTGCACCGCCAAAAGTGGTCACGCCGCCGCAACCGCCCGAGCCGGTCGAAGAGCTGCCGCTGCCCAAACTGGCCGAAGCGCCTAAGGCGGAAATCGCCGTGCCCAAACCGGTCAAGCCCAAGCCAAAACCACAGCCGCCCAAGCCAAAGCCGGTGGAGAAAAAGCCGGAGCCGCCAAAGGAAACGCCGTCGGAGCAAAAGCCCGCCGACACTCAGCCGACCCAGGCACCGACCGAGAAGTCCGCGCAACCGGCCCCTGGTCCGTCGCCCGCACAGATGGCCGCCAAGGCCAGTTGGCAAGGTACGTTGCTGGCGCACCTGGGCAAATACAAGAAGTACCCGGCCAGCGCCCAGGCACGTGGCAAGGAAGGCATGAACCGCTTGCGGTTCGTGGTGGATGCCGAAGGCAACGTGGTGTCGTTCGAACTGGTGGGCAAGTCAGGCAACGCCGATCTGGACCGGGCCACCCTGGAAATGATCCGCCGCGCCCAACCGCTGCCCAAGCCACCGGCCGACCTGCTGAGCAACGGCACGGTCGAACTGACGGCACCGTTCCTGTACTCCATCGACAAGCGCCGGCGCTGA	MITTRQKLTRYSGSLAVVLGVHALAIALALNWTTRAPIELPPQAMMVELAPVPAPPPPAPPKVVTPPQPPEPVEELPLPKLAEAPKAEIAVPKPVKPKPKPQPPKPKPVEKKPEPPKETPSEQKPADTQPTQAPTEKSAQPAPGPSPAQMAAKASWQGTLLAHLGKYKKYPASAQARGKEGMNRLRFVVDAEGNVVSFELVGKSGNADLDRATLEMIRRAQPLPKPPADLLSNGTVELTAPFLYSIDKRRR	PGPT0003745_3634	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003745-tonB-K03832	NA	NA
D1-35_02952	429	exbD_2	COG0848	Biopolymer transport protein ExbD	ATGGGCCTGCATTTGAAAGAAGGCGCAGACGACGATCTGGCCGAGAACCACGAAATCAACGTCACGCCATTCATTGACGTGATGCTGGTGCTGTTGATCATCTTCATGGTGGCCGCCCCGCTCGCCACCGTGGACATCAAGGTTGACCTCCCCGCGTCGACGGCCAAGCCGTCGCCACGCCCGGAGAAACCGGTGTTCCTGAGCGTCAAGGCCGACCAGCGCCTGTTCCTCGGTGAAGAGGAAATCAAGGTCGACAGCCTCGGCGCGACCCTGGACGCCAGGACCCAGGGCAAGAAAGACACGACGATCTTCTTCCAGGCCGACAAAGGCGTGGACTACGGCGACCTGATGAGCGTGATGGACGCCCTTCGTGGCGCCGGCTACCTGAAGGTCGGTCTGGTCGGACTCGAGACGGCGCCGAAGAAATGA	MGLHLKEGADDDLAENHEINVTPFIDVMLVLLIIFMVAAPLATVDIKVDLPASTAKPSPRPEKPVFLSVKADQRLFLGEEEIKVDSLGATLDARTQGKKDTTIFFQADKGVDYGDLMSVMDALRGAGYLKVGLVGLETAPKK	PGPT0003755_1487	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003755-exbD-K03559	NA	NA
D1-35_02953	981	tolQ_3		Tol-Pal system protein TolQ	ATGACACGCTCTCTCTCCTCCGCTTCGCCAACCAATCGACCTCGCGCCTGGAGCGCTGTGGCAGCGTTGCTGTTCAGCCTGCTGCTGGCGCCTGCCGCCGCATTCGCCGATGCCCAGACGCCGGCCAGCACGTCCACCACGGCACCCGCTGCCACCCAGGCGCCGGCCGACACGACAGCACCTGTAGCCGCTCCCGCAGCCAGCGACCCGGCCCAGGCCGTCGAAGCCAGCGCAGCCGACGCGCCTCAAGTGCTTGAAGCCGACAACACCCTGGGCATGGCCCACGACCTGTCGCCCTGGGGCATGTACAAGAACGCCGACGTGGTCGTCAAAGCCGTGATGATCGGCCTGGCCATCGCCTCGATCATCACCTGGACCATCTGGATCGCCAAAGGCTTCGAGCTGCTGGGTGCCAAGCGCCGCTTGCGTGGCGAGATCGCCGCCCTGAAAAAAGCCGCCACCCTCAAGGAAGCCAGCACCACCGCCGGCAAGGAAGGCACCCTCGCCAACCTGCTGGTGCACGATGCGCTCGAAGAGATGCGCCTGTCGGCTAACAGCCGCGAGAAGGAAGGCATCAAGGAACGCGTGAGCTTCCGTCTCGAGCGCCTGGTCGCGGCCTGCGGTCGCAACATGAGCAGCGGCACCGGCGTACTCGCCACCATCGGTTCCACCGCGCCCTTCGTCGGCCTGTTCGGCACCGTGTGGGGGATCATGAACAGCTTCATCGGCATCGCCAAGACCCAGACCACCAACCTCGCCGTCGTTGCTCCCGGCATCGCCGAAGCCTTGCTGGCGACGGCTTTGGGCCTGGTCGCAGCGATCCCCGCCGTGGTCATCTATAACGTCTTCGCCCGCTCCATCGCCGGCTACAAGGCCCAGGTCTCCGACGCTTCGGCCGAAGTCCTGCTGCTGGTCAGTCGCGACCTCGACCACCTGCCGCCCGAGCGCAGCTCGCAACCGCACATGGTGAAAGTGGGGTAA	MTRSLSSASPTNRPRAWSAVAALLFSLLLAPAAAFADAQTPASTSTTAPAATQAPADTTAPVAAPAASDPAQAVEASAADAPQVLEADNTLGMAHDLSPWGMYKNADVVVKAVMIGLAIASIITWTIWIAKGFELLGAKRRLRGEIAALKKAATLKEASTTAGKEGTLANLLVHDALEEMRLSANSREKEGIKERVSFRLERLVAACGRNMSSGTGVLATIGSTAPFVGLFGTVWGIMNSFIGIAKTQTTNLAVVAPGIAEALLATALGLVAAIPAVVIYNVFARSIAGYKAQVSDASAEVLLLVSRDLDHLPPERSSQPHMVKVG	PGPT0003750_1040	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003750-exbB-K03561	NA	NA
D1-35_02954	858			hypothetical protein	ATGTCCGCGCCTTCTGTTCTAATTGCCGGCTGTGGTGATATCGGCGGCCGTTTGGCCAGCCAACTGGTGACCGAACATTGGCGGGTGCACGGCTTGCGGCGCACGGTTTCGAACCTGCCGGCCGGGGTCATCGGTGTCGGGGGCGACTTGTTCAACGAGCGATGCCCCACCGATTGGCCCAGCGGGCCATTGGACTACCTGGTCTACAGTGCTGCCGCCACCGACCATGACGAAGCGGGCTACCGCATGGCATACGTCGAAGGGTTGCAACATGTGTTGGGCTGGTTGAAGCAACATGGCCAGCAACCCAAGCGCTTGCTTTTTGTGTCCAGCAGCAGCGTCTATGGACAACAGAACGGCGAGTGGGTTGATGAAAGCTCACCTACCGAGGCGGGTGGTTATTCCGGGCGGGTCATGCTCGAAGCCGAGCAAGTGGCGCTGGGCAGTGGCATCCCGGCCAGTCGTGTACGCCTGACCGGCATCTACGGGCCGGGCCGGGAGTGGCTGCTCAGCCAGGTGCGCCAGGGTTATCGAGTGGTGACCGATCCGCCGCTGTACGGCAATCGCATCCACGCGGACGATGCCGCCGGCCTGCTGGCGTTCCTGCTCAAGGCCGACAATCAAGGCCAGGCGTTGAAGGACTGCTACATCGGCGTTGACGACGCTCCCGCGCCGTTGGCGGAAGTGGTGGGCTGGTTGCGCGAGTACATGGGCATCACCGAGTGGGCCGAGGCCGCCAGCGTGCGCCGCGCCGGCAGCAAGCGCTGCAGCAATGCCCGGGCGAAGGCCCTGGGCTGGACACCGCGTTATCCGAGTTTTCGCGAGGGGTATGCGGCGATCCTGGAAGGGCGTTGCTGA	MSAPSVLIAGCGDIGGRLASQLVTEHWRVHGLRRTVSNLPAGVIGVGGDLFNERCPTDWPSGPLDYLVYSAAATDHDEAGYRMAYVEGLQHVLGWLKQHGQQPKRLLFVSSSSVYGQQNGEWVDESSPTEAGGYSGRVMLEAEQVALGSGIPASRVRLTGIYGPGREWLLSQVRQGYRVVTDPPLYGNRIHADDAAGLLAFLLKADNQGQALKDCYIGVDDAPAPLAEVVGWLREYMGITEWAEAASVRRAGSKRCSNARAKALGWTPRYPSFREGYAAILEGRC				NA	NA	NA	NA	NA
D1-35_02955	741			hypothetical protein	ATGCGCAACGCGCTTGCTTTCTCGCTGCTCGCCCTGATTCTCGGCGGTTGCGCCAGCGACCCTGCCGACCGTGACATCAGCGGCACCTGGATCAACCAGGCCGCCATCGACGCTGCCGCCAAGGGCGGCCCGCTGCGCGAAGCGCTGCAAGGCTACGGCCCGAACCTGGAATGGGACGTCAACACCCGGGCCGGTCAGGCGCGCTACACCAACGGTTTTGAAAACGTCGAAGGCAAGCTGCTCGGCGAAGAAGACGGTGCCTGGAAAGTCGATTTTTATGGCAGCTCGGCCAGCGAACTGAAGCGCGACGGCGACCAACTGAGCCAGGCTTCCACCGAAAACGAACCGCAGCAGGTATTCGAGCGCGCCAAGGTGCAGGTCCCGGACGGCGCGCCCATCGGCGCCAGCTTCGAGCGGGCGCTGTATGGCGCCTACCTGGGCGGCACCTGGAACATCGCCGAAGGCCCCGGCCAAGGCGCCACGGTGCAATTCCAGCCCGATGGCCAGGTCAGCGGCCTGCCAGGGGCTGATCGCTACGCCTTGTGTCTCGCCGGCGACTGCGCCTCGATGAGCGGCGGCAACGACAACATCTGGCTGCAGCAGAACGGCCAGGGCAACACCTGGATTTTCGCGCGTAATGGCAAGAAGCTGGAGATCTTCCAGACCGTGAATGCGGCGCTGGCCGATGAGATGCCTTCGTTCACGCCAGGTGACCGGCGCTGGGTACTGGAGAAACAGTAA	MRNALAFSLLALILGGCASDPADRDISGTWINQAAIDAAAKGGPLREALQGYGPNLEWDVNTRAGQARYTNGFENVEGKLLGEEDGAWKVDFYGSSASELKRDGDQLSQASTENEPQQVFERAKVQVPDGAPIGASFERALYGAYLGGTWNIAEGPGQGATVQFQPDGQVSGLPGADRYALCLAGDCASMSGGNDNIWLQQNGQGNTWIFARNGKKLEIFQTVNAALADEMPSFTPGDRRWVLEKQ				NA	NA	NA	NA	NA
D1-35_02956	381	yabJ_2	COG0251	2-iminobutanoate/2-iminopropanoate deaminase	ATGACCAAGACCGTTATTTCCAGCGACAAGGCCCCGGCCGCCATCGGTACTTATTCCCAGGCGATCAAGGCGGGCAACACGGTGTACATGTCGGGCCAGATCCCGCTGGACCCGAAAACCATGGAGCTGGTCGAGGGCTTCGAAGCCCAGACCGTGCAGGTCTTCGAGAACCTGAAGGCCGTGGCCGAAGCTGCCGGCGGTTCGTTCAAGGACATCGTCAAGCTCAACATCTTCCTCACCGACCTGAGCCACTTCGCCAAGGTCAACGAGATCATGGGCAAGTATTTCGACCAGCCTTACCCTGCCCGCGCCGCCATTGGCGTGGCCGCCCTGCCGAAGGGTGCCCAGGTCGAGATGGACGCCATCCTGGTCATCGAGTAA	MTKTVISSDKAPAAIGTYSQAIKAGNTVYMSGQIPLDPKTMELVEGFEAQTVQVFENLKAVAEAAGGSFKDIVKLNIFLTDLSHFAKVNEIMGKYFDQPYPARAAIGVAALPKGAQVEMDAILVIE	PGPT0020030_3176	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020030-ridA|tdcF-K09022	NA	NA
D1-35_02957	2106	spoT	COG0317	Bifunctional (p)ppGpp synthase/hydrolase SpoT	ATGCCGAGCATAGACGCCCTCGCCGATCGCTTATCGGCCTACCTCGGCACGGACCAGGTCAACCTGGTCCGCCGAGCCTATTTCTACGCCGAACAAGCCCACGACGGCCAGCGCCGCCGCAGCGGCGAGGCGTACGTCACGCACCCGCTTGCGGTGGCGAATATTCTTGCCGACATGCACATGGACCATCAGAGCCTGATGGCGGCGATGCTGCATGACGTGATCGAAGACACCGGCATTGCCAAGGAAGCGCTGCAAGCGCAGTTCGGCGAAACCGTGGCCGAGCTGGTCGACGGGGTCAGCAAGCTGACCCAGATGAACTTCGAAACCAAGGCCGAGGCCCAGGCCGAGAACTTCCAGAAAATGGCCATGGCCATGGCGCGCGACATCCGGGTGATCCTGGTCAAGCTCGCCGACCGCTTGCACAACATGCGCACCCTGGAAGTGCTGTCCGGCGAAAAACGCCGGCGCATCGCCAAGGAAACCCTGGAAATCTATGCTCCCATCGCCAACCGACTGGGGATGCACGCGATCCGCATCGAGTTCGAGGACCTGGGTTTCAAGGCCATGCACCCGATGCGTTCGGCGCGGATCAACCAGGCCGTCAAGCGCGCCAGGGGCAATCGCAAGGAAATCGTCAACAAGATCGAAGAGTCGCTGAGCCACTGCCTGGCGATCGACGGCATCGAAGGCGAAGTCAGCGGGCGGCAGAAACACCTCTACGGCATCTACAAGAAAATGCGCGGCAAGCGCCGAGCCTTCAACGAGATCATGGACGTCTATGCGTTCCGGATCATCGTCGACAAGGTCGATACCTGCTACCGCGTGCTCGGTGCTGTGCATAATCTGTACAAACCATTGCCGGGGCGCTTCAAGGACTACATCGCGATCCCCAAGGCCAACGGCTACCAGTCGCTGCATACCACGCTGTTCGGCATGCATGGCGTACCGATCGAAATCCAGATCCGCACCCGTGAAATGGAAGAGATGGCCAACAACGGCATCGCCGCCCACTGGCTGTACAAATCCAGCGGCGATGAACAGCCCAAGAGCACTCACGCCCGCGCCCGTCAGTGGGTCAAGGGCGTGCTGGAAATGCAGCAGCGCGCCGGCAATTCCCTGGAATTCATCGAGAGCGTCAAGATCGACCTGTTCCCGGACGAGGTCTACGTCTTCACGCCGAAGGGCCGGATCATGGAGCTGCCCAAAGGCTCCACCGCGGTGGATTTCGCCTACGCCGTGCACACCGACGTCGGCAACAGCTGCATCGCCTGTCGCATCAATCGCCGCCTGGCCCCGTTGTCCGAACCGCTGCAAAGCGGCTCCACCGTGGAGATCGTCAGCGCCCCCGGCGCGCGGCCGAACCCGGCTTGGCTCAATTTCGTGGTCACCGGCAAGGCCCGCACGCACATCCGTCACGCGCTGAAGCTGCAACGTCGCTCCGAATCCATCAGCCTTGGCGAGCGCCTGCTGAACAAAGTGCTGAACGGTTTCGACAGCTCGCTGGACAAGATCCCGGCCGAGCGCGTGCAGGTCATGCTCAACGAGTACCGCCTCGAATTGATCGAAGACCTGCTCGAAGACATCGGCCTGGGCAATCGCATGGCCTATGTCGTCGCCCGCCGCCTGCTCGGCGAAGGCGAACAGTTGCCAAGCCCAGAGGGCCCGCTGGCGATTCGCGGTACCGAGGGCCTGGTGCTCAGCTACGCCAAGTGCTGCACGCCGATACCGGGCGACCCGATTGTCGGCCACCTGTCCGCCGGCAAGGGGATGGTGGTGCACCTGGACAACTGCCGCAACATCAGCGAAATCCGCCACAACCCGGAAAAATGCATCCAGCTTTCGTGGGCCAAGGATGTCACCGGCGAATTCAACGTCGAGCTGCGCGTCGAACTCGAACACCAGCGCGGCCTGATCGCCTTGCTGGCGAGCAGCGTCAACGCCGCCGACGGCAACATCGAGAAAATCAGCATGGACGAACGCGACGGCCGCATCAGCGTCGTCCAACTGGTGGTCAGCGTGCACGACCGTGTGCACCTGGCCCGCGTGATCAAGAAACTGCGCGCCCTGACCGGGGTCATTCGCATCACCCGCATGCGCGCATAG	MPSIDALADRLSAYLGTDQVNLVRRAYFYAEQAHDGQRRRSGEAYVTHPLAVANILADMHMDHQSLMAAMLHDVIEDTGIAKEALQAQFGETVAELVDGVSKLTQMNFETKAEAQAENFQKMAMAMARDIRVILVKLADRLHNMRTLEVLSGEKRRRIAKETLEIYAPIANRLGMHAIRIEFEDLGFKAMHPMRSARINQAVKRARGNRKEIVNKIEESLSHCLAIDGIEGEVSGRQKHLYGIYKKMRGKRRAFNEIMDVYAFRIIVDKVDTCYRVLGAVHNLYKPLPGRFKDYIAIPKANGYQSLHTTLFGMHGVPIEIQIRTREMEEMANNGIAAHWLYKSSGDEQPKSTHARARQWVKGVLEMQQRAGNSLEFIESVKIDLFPDEVYVFTPKGRIMELPKGSTAVDFAYAVHTDVGNSCIACRINRRLAPLSEPLQSGSTVEIVSAPGARPNPAWLNFVVTGKARTHIRHALKLQRRSESISLGERLLNKVLNGFDSSLDKIPAERVQVMLNEYRLELIEDLLEDIGLGNRMAYVVARRLLGEGEQLPSPEGPLAIRGTEGLVLSYAKCCTPIPGDPIVGHLSAGKGMVVHLDNCRNISEIRHNPEKCIQLSWAKDVTGEFNVELRVELEHQRGLIALLASSVNAADGNIEKISMDERDGRISVVQLVVSVHDRVHLARVIKKLRALTGVIRITRMRA	PGPT0014310_4366	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014310-spoT-K01139	NA	NA
D1-35_02958	264	rpoZ		DNA-directed RNA polymerase subunit omega	ATGGCCCGCGTAACCGTTGAAGACTGCCTAGAACACGTGGAAAACCGCTTTGAGCTGGTCATGCTCTCTACCAAGCGTGCCCGTCAACTGGCCACCGGTGGCAAAGAGCCGTTGGTCCAGTGGGAAAACGACAAGCCTACCGTGGTAGCGCTGCGTGAAATCGCCGAAGGCCTGATGAGCTACGAGTTCATCGCCAACGCTGAAATCGTTGAAGACGAACCGCTGTTCGCAGCGTTCGAGGACGAGTCCAACGAGGCGGTCTAA	MARVTVEDCLEHVENRFELVMLSTKRARQLATGGKEPLVQWENDKPTVVALREIAEGLMSYEFIANAEIVEDEPLFAAFEDESNEAV				NA	NA	NA	NA	NA
D1-35_02959	621	gmk	COG0194	Guanylate kinase	ATGACCCACAGCACTGGCACCCTCTACATCATTTCCGCGCCCTCCGGCGCCGGCAAGACCAGCCTGGTCAAGGCGTTGATCGACGCCGAGCCGCAAATTCGCGTCTCGGTCTCTCACACCACCCGCGCCATGCGTCCTGGTGAAGTGAACGGCGTGAACTATCACTTCGTCGACCGCGAAGAGTTCGTGCGGATGGCCGAGCACGGCGACTTCCTGGAGCGCGCCGAAGTCTTTGGCAATCTCTACGGCACCTCGCAAAGCGTCCTTCAGCAGACCTTGGACGAAGGCCACGACCTGATCTTGGAAATCGACTGGCAAGGCGCCGAGCAGGTGCGCAAATTGATGCCCCAGGCCCGCTCGATCTTCATCCTGCCGCCGAGCCAGCAGGCCTTGCGCCAGCGCCTGACCAACCGTGGCCAGGACAGCGACGAGATCATCGAAGGGCGGATGCGTGAAGCGGTCAGCGAAATGAGTCACTACGTTGACTACGATTACCTGATCATCAACGACGATTTCTCCCACGCGCTGGACGATCTGAAGGCAATTTTCCGCGCCAGCCAGCTCCAGCAGAAACGCCAGCAGCAACGTTTCGGTAAATTACTGGCCGAACTGCTGGGCTGA	MTHSTGTLYIISAPSGAGKTSLVKALIDAEPQIRVSVSHTTRAMRPGEVNGVNYHFVDREEFVRMAEHGDFLERAEVFGNLYGTSQSVLQQTLDEGHDLILEIDWQGAEQVRKLMPQARSIFILPPSQQALRQRLTNRGQDSDEIIEGRMREAVSEMSHYVDYDYLIINDDFSHALDDLKAIFRASQLQQKRQQQRFGKLLAELLG	PGPT0021475_2762	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021475-gmk-K00942	NA	NA
D1-35_02960	864			hypothetical protein	ATGGTGCACAGCATGACCGCCTTCGCCCGCGTCGAAAAGGCCGGCGCCCAAGGCACGCTGAGCTGGGAGCTGCGCTCGGTCAACAGCCGTTACCTGGAGCCGCACCTGCGCTTGCCCGAGTCCTTCCGCGACCTCGAAGGCGGCGTGCGTGAAGCGCTGCGCCAGGGCCTGTCCCGGGGCAAACTGGAATGCACCCTGCGGTTTACCGAAGAGAGCAGCGGCAAAACCTTGCAAGTGGACCGCGAGCGCGCCGCGCAATTGGTCGCCGCCGCCGAAACCGTCGCCAGCCTGATCAACAATCCCGCCGCCCTGAACCCGCTGGAAGTCCTGGCCTGGCCGGGCGTGCTGGTGGGTGACGCGAGCGACCCGCAGGCGCTGAACACCGAGGCCCTGGCATTGTTCAATCAAGGGCTGAACGAGCTCAAGGCCGGCCGCGAGCGCGAAGGCGCGGAACTGGCCCGACTGATCAACGAGCGCCTGACCTCCATCGAAGAGGACGTCGCCACCCTGCGCGAACTCGTTCCGCAGATGCTCGCCACGCAGCGCCAGAAAGTCCTCGACCGCTTCGCCGACATGAAGGCGGAGCTGGACCCGCAGCGCCTGGAACAGGAAATGGTCATGCTCGCCCAGAAGAGCGACGTGGCCGAAGAACTGGATCGCCTGAGCACCCACATCATTGAAGTCCGCCGGGTGCTCAAGTCCGGTGGCGCGGCCGGCCGCCGCCTCGACTTCCTGATGCAGGAGCTCAACCGCGAAGCCAATACACTGGGCTCCAAAGCCTTCGACCCGCGCAGCACCCAGGCGGCGGTCAACCTCAAGGTGTTGATCGAACAAATGCGCGAACAAGTGCAGAACATTGAGTAA	MVHSMTAFARVEKAGAQGTLSWELRSVNSRYLEPHLRLPESFRDLEGGVREALRQGLSRGKLECTLRFTEESSGKTLQVDRERAAQLVAAAETVASLINNPAALNPLEVLAWPGVLVGDASDPQALNTEALALFNQGLNELKAGREREGAELARLINERLTSIEEDVATLRELVPQMLATQRQKVLDRFADMKAELDPQRLEQEMVMLAQKSDVAEELDRLSTHIIEVRRVLKSGGAAGRRLDFLMQELNREANTLGSKAFDPRSTQAAVNLKVLIEQMREQVQNIE				NA	NA	NA	NA	NA
D1-35_02961	723	rph	COG0689	Ribonuclease PH	ATGAAACGTCCAAGTGGTCGCGCTGCCGATCAGCTTCGCTCGATCCGCATTACCCGCAACTACACCAAACACGCCGAGGGATCTGTACTGGTGGAGTTCGGTGATACCAAGGTCATCTGCACCGTCAGCGTCGAAAACGGCGTGCCTCGTTTCCTCAAGGGCCAGGGCCAGGGTTGGTTGACTGCCGAATACGGCATGCTGCCGCGGGCTACCGGCGAGCGGAACCAGCGCGAGGCCAGTCGTGGCAAGCAGGGCGGACGGACCCTGGAAATCCAGCGCCTGATCGGTCGTTCGCTGCGCGCCGCGCTGGACATGTCCAAGCTCGGCGATGTGACGCTGTATGTTGATTGCGACGTGATCCAGGCTGACGGCGGCACCCGCACCGCCTCCATCACCGGTGCCATGGTTGCGCTGGCCGATGCCTTGAAAGTGATCAAGAAGCGTGGCGGCCTCAAGGGCGGCGATCCGCTCAAGCAAATGATCGCCGCGGTGTCGGTGGGCATGTACCAGGGCGAGCCGGTGCTGGACCTGGATTACCTGGAGGACTCCGCTGCCGAGACCGACCTGAACGTGGTCATGACCAGTGCCGGCGGCTTCATCGAAGTCCAGGGCACCGCCGAGGGCGCGCCGTTCCAGCCGGAAGAATTGACCGCTATGCTGGAGCTGGCGAAGAAAGGCATGGGCGAAATCTTCGAATTGCAAAAGGCCGCGTTGGCCGACTGA	MKRPSGRAADQLRSIRITRNYTKHAEGSVLVEFGDTKVICTVSVENGVPRFLKGQGQGWLTAEYGMLPRATGERNQREASRGKQGGRTLEIQRLIGRSLRAALDMSKLGDVTLYVDCDVIQADGGTRTASITGAMVALADALKVIKKRGGLKGGDPLKQMIAAVSVGMYQGEPVLDLDYLEDSAAETDLNVVMTSAGGFIEVQGTAEGAPFQPEELTAMLELAKKGMGEIFELQKAALAD	PGPT0021590_9	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
D1-35_02962	369			hypothetical protein	ATGAGTGATGAGCAAGTCCTGTTGCCCCAGCCGAGCAGAGAAGCGCGGCAGTGGGCAATGTTTTGTCACCTGTCTGCACTATTGGGCATTTTCATTCCGTTCGGTTCGCTGATCGGGCCGCTGGTCATCTGGCAGCTCAAGCGTGAATCCGACCCGTTCATCGATGCCCAGGGCAAGGAAGCGCTGAACTTCCAGATCACTGTGGCGATCGCCGCGGCGATCAGCTTGTTGCTGATGATCGTGGTGATTGGTTTCTTCCTGTTTGGCCTGGTGGCGATCGGTGCGCTGGTGCTGACCATCATTGCTGGCGTGAAGGCCAATGAAGGGCAGCCGTATCGGTATCCATTTACCTGGCGGCTGGTCAAATAA	MSDEQVLLPQPSREARQWAMFCHLSALLGIFIPFGSLIGPLVIWQLKRESDPFIDAQGKEALNFQITVAIAAAISLLLMIVVIGFFLFGLVAIGALVLTIIAGVKANEGQPYRYPFTWRLVK				NA	NA	NA	NA	NA
D1-35_02963	780	exoA	COG0708	Exodeoxyribonuclease	ATGCGGATCATCAGTGTGAACGTCAATGGTATTCAGGCTGCAGTGGAGCGTGGTTTGCTCAGTTGGCTGCAAGCACAGAATGCCGACGTCATCTGCCTGCAGGACACCCGCGCCTCCGCCTTTGAACTGGACGATGCAGCCTTCCAACTGGACGGTTACTTCCTTTACGCCTGCGATGCCGAAGTCCCCGCCCAGGGTGGCGTGGCTTTGTACTCGCGGCTGCAACCGAAGGCTGTCATCAACGGTCTCGGTTTCGAGACGGCGGACCGCTACGGGCGCTACCTGCAAGCCGATTTCGACAAGGTCAGCATCGCGACCTTGCTGCTCCCTTCGGGGCAGAACGGCGATGAAGATTTGAATCAGAAATTCAAGTTGATGGACGACTTCGCCCGTTACCTTGATAAACAGCGGCGCAAACGTCGCGAGTACATTTATTGTGGCTCGCTGTACGTGGCGCAACAGAAGCTGGATATCAAGAACTGGCGCGACAGCCAGCAGTCGCCTGGCTTCCTGGCGCCGGAACGGGCCTGGATGGACGAGATCATCGGCAACATGGGTTATGTCGATGCCCTGCGCGAAGTCAGCCGCGAAGGCGACCAGTACAGCTGGTGGCCGGATAACGAGCAGGCCGAGATGCTCAACCTCGGCTGGCGCTTCGACTACCAGCTGCTGACGCCCGGGCTGCGCCGCTTCGTCCGCAGCGCCCGCCTGCCACGCCAGCCGCGGTTCTCGCAGCATGCGCCGCTGATCGTGGACTACGACTGGACGCTGACCATCTAG	MRIISVNVNGIQAAVERGLLSWLQAQNADVICLQDTRASAFELDDAAFQLDGYFLYACDAEVPAQGGVALYSRLQPKAVINGLGFETADRYGRYLQADFDKVSIATLLLPSGQNGDEDLNQKFKLMDDFARYLDKQRRKRREYIYCGSLYVAQQKLDIKNWRDSQQSPGFLAPERAWMDEIIGNMGYVDALREVSREGDQYSWWPDNEQAEMLNLGWRFDYQLLTPGLRRFVRSARLPRQPRFSQHAPLIVDYDWTLTI				NA	NA	NA	NA	NA
D1-35_02964	645	pyrE	COG0461	Orotate phosphoribosyltransferase	ATGCAGGCGTATCAGCGCGATTTCATTCGCTTTGCCATCGATCGCGGCGTTTTGCGCTTCGGTGAATTCACCCTCAAGTCCGGGCGCACCAGCCCGTACTTCTTCAACGCCGGCCTGTTCAACAGTGGAACCGCCCTGGCGCAGTTGGGCCGGTTCTATGCCGCCGCCATCGTTGAAAGCGGCATTCCGTTCGACGTGCTGTTCGGCCCGGCCTACAAGGGCATCCCATTGGCCGCCACTACCGCCGTCGCCCTGGCCGAGCACCATGGCCGTGACCTGCCCTGGTGCTTCAACCGCAAGGAAGCCAAGGCTCACGGTGAAGGCGGAAGCCTGGTCGGCGCGCCGTTGACCGGCGAAGTGCTGATCATCGATGACGTTATAACCGCCGGTACCGCCATTCGCGAGGTGATGCAGATCATCGCTTCCCAGGAAGGCGCCAAGGCTGCCGGCGTGCTGATCGCCCTGAACCGTCAGGAGCGCGGCAATGGTGAGCTGTCGGCGATCCAGGAAGTGGAGCGCGACTTCGGTATCCCGGTGATCAGCATTGTGTCGCTGAACCAGGTGCTGGAGTTCTTGGCCGATGATCCGCAGCTCAAGCAGCATTTGCCGGCAGTGGAAGCCTATCGGGCGCAGTTCGGCGTCTAA	MQAYQRDFIRFAIDRGVLRFGEFTLKSGRTSPYFFNAGLFNSGTALAQLGRFYAAAIVESGIPFDVLFGPAYKGIPLAATTAVALAEHHGRDLPWCFNRKEAKAHGEGGSLVGAPLTGEVLIIDDVITAGTAIREVMQIIASQEGAKAAGVLIALNRQERGNGELSAIQEVERDFGIPVISIVSLNQVLEFLADDPQLKQHLPAVEAYRAQFGV	PGPT0021200_1516	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021200-pyrE-K00762	NA	NA
D1-35_02965	906	argB	COG0548	Acetylglutamate kinase	ATGACCCTCGAACGCGAAGCCGCCGCCAACACCGCCAAGGTCCTGTCCGAAGCGTTGCCTTACATCCGACGCTACGTCGGCAAGACCCTGGTGATCAAGTACGGCGGCAACGCAATGGAAAGCGAGGAGCTCAAGACCGGCTTCGCCCGCGACATCGTGCTGATGAAGGCGGTGGGCATCAACCCGGTGGTGGTTCACGGCGGTGGTCCGCAAATCGGCGACCTGCTCAAGCGCCTGTCGATCGAAAGCCACTTCATCGACGGCATGCGCGTGACCGATGCGCAGACCATGGATGTGGTGGAGATGGTCCTCGGCGGCCAGGTGAACAAGGACATCGTCAATCTGATCAACCGCCACGGCGGCAGCGCCATCGGCCTGACCGGCAAGGACGCCGAACTGATCCGGGCGAAGAAACTCACCGTAACCCGCCAGACGCCGGAGATGACTCAGCCGGAAATCATCGACATCGGCCAGGTCGGCGAAGTGGTCGGCATCAACACCGATCTGCTAAACCTGCTGGTCAAGGGCGACTTCATTCCGGTCATCGCGCCGATCGGCGTGGGCGCCAATGGCGAGTCGTACAACATCAACGCCGACCTGGTGGCCGGCAAGGTTGCCGAAGCGCTGAAAGCCGAGAAGCTGATGCTGCTGACCAACATCGCCGGCCTGATGGACAAGACCGGCAAGGTCCTGACCGGGTTGTCGACCCAGCAAGTCGATGACTTGATCGCCGATGGCACCATCTACGGCGGCATGCTGCCGAAGATCCGTTGCGCGCTGGAAGCGGTCCAGGGCGGCGTTGGCAGCTCGCTGATCATCGACGGCCGCGTGCCGAATGCGATCCTCCTGGAGATCTTCACCGATACCGGCGTGGGTACGCTGATCAGCAATCGCAAGCGTCATTAA	MTLEREAAANTAKVLSEALPYIRRYVGKTLVIKYGGNAMESEELKTGFARDIVLMKAVGINPVVVHGGGPQIGDLLKRLSIESHFIDGMRVTDAQTMDVVEMVLGGQVNKDIVNLINRHGGSAIGLTGKDAELIRAKKLTVTRQTPEMTQPEIIDIGQVGEVVGINTDLLNLLVKGDFIPVIAPIGVGANGESYNINADLVAGKVAEALKAEKLMLLTNIAGLMDKTGKVLTGLSTQQVDDLIADGTIYGGMLPKIRCALEAVQGGVGSSLIIDGRVPNAILLEIFTDTGVGTLISNRKRH	PGPT0014249_1163	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014249-argB-K00930	NA	NA
D1-35_02966	1398	algC	COG1109	Phosphomannomutase/phosphoglucomutase	ATGAACACCCCAGCCGCAATCGCCCCGATCTTCCCTGACAGCATCTTCCGCGCCTACGACATCCGTGGCGTCGTGCCGGAAACCCTGACGGCTGAAACCGCCTACTGGATCGGCCGCGCCATCGGCTCCCAGAGCCTGGCCCAGGGCGAACCGAACGTGAATGTCGGCCGCGACGGTCGCTTGTCCGGCCCGGAGCTGGTCGAGCAGTTGATCAAAGGCGTTGCCGACAGCGGTTGCCACGTCAGCGACGTCGGCCTGGTGCCGACCCCGGCGCTTTATTACGCCGCCAATGTCCTGGCCGGCAAATCCGGCGTGATGCTCACCGGCAGCCACAACCCGTCGAACTACAACGGCTTCAAGATCGTCATCGCTGGCGACACCCTCGCCAACGAGCAGATCCAGGCCCTGCACACCCGCCTCAAGACCAATGACCTGAGCAGTGGCCAGGGCAGCGTGACCAAGGTCGACATCCTCCCGCGCTACAACGACGAAATCGTCAAGGACGTGAAACTGGCCCGCCGCCTGAAAGTAGTGGTCGATTGCGGCAACGGCGCGGCCGGGGTCATCGCCCCGCAACTGATCGAAGCGCTGAATTGCGAAGTCATCCCGCTGTTCTGTGACGTCGACGGCAACTTCCCCAACCATCACCCGGATCCGGGCAAGCTGGAAAATCTTCAGGATCTGATCGCCAAGGTCAAGGAAACCAACGCCGACCTGGGCCTGGCCTTCGACGGCGACGGCGACCGCGTGGGTGTGGTGACCAATACCGGCAGCGTGGTGTTTCCTGACCGTCTGCTGATGCTGTTCGCCAAGGACGTGGTGGCACGCAACCCCGACGCCGAGATCATCTTCGACGTGAAGTGCACCCGTCGCCTGGTGCCGCTGATCAAGGAATATGGCGGTCGTCCGCTCATGTGGAAAACCGGCCATTCGCTGATCAAGAAAAAAATGAAACAGAGCGGCGCCCTGCTGGCCGGCGAAATGAGCGGCCACATCTTCTTCAAGGAGCGCTGGTTCGGTTTCGATGACGGCATCTACAGCGCGGCACGCCTGCTGGAAATCCTCAGCAAGGAGAAATCCACCGCCGAAGAGCTGTTCGCGACCTTCCCGAACGATATTTCTACGCCGGAAATCAATATCCATGTGACCGAAGAGAGCAAATTCAGCATCATTGATGCACTGCACGACGCCCAGTGGGGCGAAGGCGCCGAACTGACCACCATCGACGGTGTGCGGGTCGACTACCCACAAGGCTGGGGCCTGGTTCGCGCCTCCAACACCACACCGGTGCTGGTGCTGCGTTTCGAGGCCGACAACGAGGCTGAACTGCAGCGCATCAAGGATGTGTTCCACAGCCAACTCAAGCGTGTTGCACCTGATCTCCAACTACCGTTCTGA	MNTPAAIAPIFPDSIFRAYDIRGVVPETLTAETAYWIGRAIGSQSLAQGEPNVNVGRDGRLSGPELVEQLIKGVADSGCHVSDVGLVPTPALYYAANVLAGKSGVMLTGSHNPSNYNGFKIVIAGDTLANEQIQALHTRLKTNDLSSGQGSVTKVDILPRYNDEIVKDVKLARRLKVVVDCGNGAAGVIAPQLIEALNCEVIPLFCDVDGNFPNHHPDPGKLENLQDLIAKVKETNADLGLAFDGDGDRVGVVTNTGSVVFPDRLLMLFAKDVVARNPDAEIIFDVKCTRRLVPLIKEYGGRPLMWKTGHSLIKKKMKQSGALLAGEMSGHIFFKERWFGFDDGIYSAARLLEILSKEKSTAEELFATFPNDISTPEINIHVTEESKFSIIDALHDAQWGEGAELTTIDGVRVDYPQGWGLVRASNTTPVLVLRFEADNEAELQRIKDVFHSQLKRVAPDLQLPF	PGPT0017725_648	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0017725-pmm_pgm-K15778	NA	NA
D1-35_02967	456	dut	COG0756	Deoxyuridine 5'-triphosphate nucleotidohydrolase	ATGCACGCTCTACAAGCCAAGATCCTCGACCCTCGCATCGGCAACGAATTCCCACTGCCGCAGTACGCCACGCCGGGCTCAGCCGGCCTCGATCTGCGGGCGATGCTCAAGCAGGACACGATCCTGGAACCGGGCCAGACCCTGCTGATTCCCACCGGCCTGTCGGTCTACATCGGCGATCCGGGCCTCGCCGCGCTGATTCTGCCGCGCTCGGGCCTGGGCCATAAGCACGGCATCGTGCTGGGCAACCTGGTGGGCCTGATCGACTCCGATTACCAGGGCGAACTGATGGTGTCCTGCTGGAATCGCGGCCAGACCGCTTTCAACATCGCCGTGGGCGAACGCATTGCCCAACTGGTGCTGGTGCCGGTGGTCCAGGCCCATTTCGAATTGGTCGAGGAATTCGACGAGAGCCAGCGCGGCGCCGGCGGTTTCGGTCACTCCGGTAGCCACTGA	MHALQAKILDPRIGNEFPLPQYATPGSAGLDLRAMLKQDTILEPGQTLLIPTGLSVYIGDPGLAALILPRSGLGHKHGIVLGNLVGLIDSDYQGELMVSCWNRGQTAFNIAVGERIAQLVLVPVVQAHFELVEEFDESQRGAGGFGHSGSH	PGPT0021355_2681	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021355-dut-K01520	NA	NA
D1-35_02968	1209	coaBC	COG0452	Coenzyme A biosynthesis bifunctional protein CoaBC	ATGCAGCGGCTGTATCGGAAACGCATCGTTCTGGGCGTCGGCGGCGGCATTGCCGCCTACAAGAGCGCCGAGCTGGTTCGCAGGCTTATCGACCAGGGCGCCGAAGTACGGGTCGTCATGACCCGCGGCGGCAGTGAGTTCATCACCCCGCTGACCATGCAAGCCTTGTCCGGGCACCCGGTCCACCTGGATCTGCTCGACCCGGCGGCCGAGGCCGCCATGGGTCATATCGAGCTGGCCAAATGGGCTGACCTGGTGCTGATCGCCCCGGCCACGGCCGACCTGATCGCCCGCCTGGCCCAAGGCATCGCCGACGACCTGCTGACCACCCTTGTACTCGCTACCGACGCCGTGGTCGCCGTGGCGCCGGCCATGAACCAGGCCATGTGGCGCGACCCCGCCACCCAGGCCAACCTGCAACTGCTCGAAAGCCGCGATCTGAAAGTTTTTGGCCCAGCCTCTGGCAGCCAGGCCTGCGGCGATGTCGGCATGGGCCGCATGCTCGAAGCCAACGACCTGGTTCAGTGCGCCGCCGACTGCTTCCAGCGCCAGGCGCTGACCGGCAAGCATGTGCTGATTACCGCCGGCCCGACCCAGGAAAACATCGACCCGGTGCGCTACATCACCAACCACAGCTCGGGGAAAATGGGCTTCGCCCTGGCCGAAGCCGCCGTCGAAGCGGGCGCGCGGGTGACGCTGATCACCGGGCCGGTGCACCTGCCGACCCCGGATCGAGTGACCCGCATCGACGTCGTCAGCGCCCGGGACATGCTTGCGGCCTGTGAGGCCTCGATCCCGTGCGACCTGTTCATCGCCTCGGCGGCGGTGGCGGACTACCGCCCCGAAGTCGTTGCCCCGCAAAAATTGAAGAAAGACCCTACAAGCGGCGACGGCCTGCTCCTGCAAATGGTACGCAACCCGGACATCCTGGCCACCATCGCCACCCGTCCCGACCGTCCATTCAGCGTCGGTTTTGCCGCCGAAACCGAACACCTCCTCGATTACGCCGCGCGCAAGCTCAAGGACAAGAATCTGGACCTGATCGTCGCCAACGACGTCGCCAACCCGAGCATCGGCTTCAACAGCGAAGAGAACGCCTGCAGCGTGATCGACCGCCAGTTGCACGCCACGCTTTTCGCCCAGACCAGCAAGGGCAAGATTGCCCGCCAACTGATCACTTTCATCGCCGAACGGCTGAACCAGGTTTAA	MQRLYRKRIVLGVGGGIAAYKSAELVRRLIDQGAEVRVVMTRGGSEFITPLTMQALSGHPVHLDLLDPAAEAAMGHIELAKWADLVLIAPATADLIARLAQGIADDLLTTLVLATDAVVAVAPAMNQAMWRDPATQANLQLLESRDLKVFGPASGSQACGDVGMGRMLEANDLVQCAADCFQRQALTGKHVLITAGPTQENIDPVRYITNHSSGKMGFALAEAAVEAGARVTLITGPVHLPTPDRVTRIDVVSARDMLAACEASIPCDLFIASAAVADYRPEVVAPQKLKKDPTSGDGLLLQMVRNPDILATIATRPDRPFSVGFAAETEHLLDYAARKLKDKNLDLIVANDVANPSIGFNSEENACSVIDRQLHATLFAQTSKGKIARQLITFIAERLNQV	PGPT0008815_2873	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
D1-35_02969	675			hypothetical protein	ATGAGTATTCGGGACTGGCCGGTGGCCGAGCGGCCACGGGAGAGATTGTTGGTGTCGGGGGCGGAGAGTCTTTCAGACGCCGAGCTGCTGGCGATATTTTTACGCACGGGTGTGTCGGGTAAAAGCGCGGTGGATCTGGCTCGACATCTGCTGTCCCAATTTGGCTGCCTGCGGGCGTTGCTTGAGGCTGATCAGCTCACGTTCAGCAGTCATATGGGGCTGGGTCCGGCGAAATTCGCTCAATTGCGCGCGGTGCTCGAAATGGGCCGGCGACACTTGGCGGCGCGGACTCGGCAGAATTCAATGCTGGAAGACCCGCAGGCCGTTCGTGACTATCTCAAGTCAATGCTGCGCCACGAACCTCACGAGGTTTTTGGTTGCCTGTTTCTCAACTCGCGGCATCAGGTGCTGGCGTTCGAAGCGCTTTTTCGTGGCTCCATCGCCTGCACCAGTGTCCACCCCCGGCAAGTGGTCAAGCGCGCCCTGGCCCACAACGCCGCTGCCGTGATCCTCTGCCACAACCACCCCTCCGGCAGCACCGAGCCCAGCCAGGCCGACCGAATGCTCACCGAGCGGCTCCAGGACGCGCTGGAGCTGATCGATGTGCGGGTGCTCGACCATTTTATCGTCGGCGATGGGGAGCCGTTGTCGATGGCGGAGTGTGGGTGGATGTAG	MSIRDWPVAERPRERLLVSGAESLSDAELLAIFLRTGVSGKSAVDLARHLLSQFGCLRALLEADQLTFSSHMGLGPAKFAQLRAVLEMGRRHLAARTRQNSMLEDPQAVRDYLKSMLRHEPHEVFGCLFLNSRHQVLAFEALFRGSIACTSVHPRQVVKRALAHNAAAVILCHNHPSGSTEPSQADRMLTERLQDALELIDVRVLDHFIVGDGEPLSMAECGWM				NA	NA	NA	NA	NA
D1-35_02970	1587	dppA_5	COG0747	Periplasmic dipeptide transport protein	ATGCGCCTCGCTGCCCTACCGCTGTTGCTCGCCCCTCTGCTACTCACTCCGCTGGCCCAGGCCGCCGCCCTGAGCGTGTGTACCGAGGCCAGCCCGGAAGGGTTCGATGTCGTCCAGTACAACTCCCTGACCACTACCAACGCTTCGGCCGACGTGCTGATGAACCGCCTGGTAGATTTCGACACCGCCAGCGGCAAGGTGGTGGCCAGCCTGGCCGAGAGCTGGGAAGTTTCGCCCGATGGCCTGAGTTATGTCTTCAAGTTGCGCCCCAAGGTCAGGTTTCACCACACCGACTACTTCACACCGCGTCGCGACCTGACGGCCGAAGACGTCAAGTTCAGCTTCGAGCGCATGCTGGACCCGGCCAACCCTTGGCACAAGGTCGCCCAGAGCGGCTTCCCCCACGCCCAATCCATGCAACTGCCGGCGCTGATTACAAAAATCGATGCCCTGGACCCGTTGACAGTGCGCTTCACCCTCGACCATGCCGATTCGACCTTCCTGGCGACGTTGAGCATGGGTTTCGCATCGATCTATTCGGCTGAATATGCCGACCAGTTGATGAAGGCCGGCAAGCCGGAGCAACTCAACAGCCAGCCCATCGGCACCGGCCCGTTCATTTTCAACCGGTTCCAGAAAGATGCCTCGATTCGCTACAAGGCCAACGGGGATTATTTCGGCGGCAAGCCCCAGGTGGACCCGCTGATCTTTGCCATCACGCCAGACGCCAACGTGCGCCTGCAGAAGTTGCGCCGAAATGAATGCCAGATCGCCCTGTCGCCCAAGCCGCTGGACGTGCAGGCCGCCCGGCAGGAGCCGACATTGAAGGTGGCGCAGACTGACGCGTTCATGACCGCTTTCCTGGCGATCAACAGCCAGCATCCGCCGCTGGACAAGCCGGAAGTCCGTCAGGCCATCAACCTGGCTTTTGACAAGCCCAGCTACCTCAAGACCGTTTTCGAAGGCACGGCCGAAGCGGCCAACGGCCCTTATCCGCCAAACACCTGGAGCTACGCGAAAAACCTGCCCGGCTATGCCCATGACCCGGCCAAGGCTCGGGAATTGCTGGCCAAGGCCGGTTTGAAGGAAGGCTTCAAGACTACTATCTGGACTCGCCCCTCCGGCAGCCTGCTCAATCCCAATCCGAGCCTCGGCGCGCAGCTGTTGCAATCGGACCTGGCGGGAATCGGCATCCAGGCGGAAATCCGCGTGATCGAATGGGGCGAGCTGATCCGCCGCGCCAAGGCCGGCGAGCACGACCTGCTGTTCATGGGCTGGGCCGGCGACAACGGTGACCCGGACAACTTCCTCACGCCGCAGTTTTCCTGCGCGGCGGTCAAGTCCGGGACCAATTTCGCTCGTTACTGCAACCCGGATCTGGACAAACTGATCAGTGCCGGCAAGACCACCAGCGAACAGGGCGTGCGCACCAAACTCTACGAACAGGCCCAGGCGCAGATCCAGCAGCAGGCCCTCTGGCTGCCCCTGGCGCACCCGACGGCATTCGCGCTGACCCGCAAGGATGTGCAGGGTTATACGGTCAGCCCGTTTGGGCGGCAGGATTATTCCAAGGTCAACCTCAAGTAA	MRLAALPLLLAPLLLTPLAQAAALSVCTEASPEGFDVVQYNSLTTTNASADVLMNRLVDFDTASGKVVASLAESWEVSPDGLSYVFKLRPKVRFHHTDYFTPRRDLTAEDVKFSFERMLDPANPWHKVAQSGFPHAQSMQLPALITKIDALDPLTVRFTLDHADSTFLATLSMGFASIYSAEYADQLMKAGKPEQLNSQPIGTGPFIFNRFQKDASIRYKANGDYFGGKPQVDPLIFAITPDANVRLQKLRRNECQIALSPKPLDVQAARQEPTLKVAQTDAFMTAFLAINSQHPPLDKPEVRQAINLAFDKPSYLKTVFEGTAEAANGPYPPNTWSYAKNLPGYAHDPAKARELLAKAGLKEGFKTTIWTRPSGSLLNPNPSLGAQLLQSDLAGIGIQAEIRVIEWGELIRRAKAGEHDLLFMGWAGDNGDPDNFLTPQFSCAAVKSGTNFARYCNPDLDKLISAGKTTSEQGVRTKLYEQAQAQIQQQALWLPLAHPTAFALTRKDVQGYTVSPFGRQDYSKVNLK	PGPT0004500_1554	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004500-dppA-K12368	NA	NA
D1-35_02971	234	rpmB	COG0227	50S ribosomal protein L28	ATGTCGAGAGTCTGTCAAGTTACCGGTAAGGGTCCGGTGACTGGGAATAACATTTCCCACGCAAACAACAAAACCCGTCGTCGTTTCCTGCCGAACCTGCAGCATCACCGCTTCTGGGTTGAAGAAGAGAAACGTTTTGTGCGTCTGCGCGTATCTGCCAAAGGCATGCGCATCATCGACAAGCGTGGCATCAGTGTCGTGCTGGCCGAACTTCGTCGCGATGGCAAGGTTTAA	MSRVCQVTGKGPVTGNNISHANNKTRRRFLPNLQHHRFWVEEEKRFVRLRVSAKGMRIIDKRGISVVLAELRRDGKV				NA	NA	NA	NA	NA
D1-35_02972	156	rpmG	COG0267	50S ribosomal protein L33	ATGCGTGAATTGATTCGTTTGATCTCGAGCGCCGGTACTGGTCACTTCTACACTACCGACAAGAACAAGCGTACTACCCCGGACAAAATCGAGATCAAGAAATATGATCCGGTTGTTCGCAAGCACGTGATCTACAAGGAAGGCAAAATCAAGTAA	MRELIRLISSAGTGHFYTTDKNKRTTPDKIEIKKYDPVVRKHVIYKEGKIK				NA	NA	NA	NA	NA
D1-35_02973	312			hypothetical protein	ATGGCCAAAAAAAAAGCTACTACACCGCGGATCGCAGCACTGGCTGCCCTGCTGACACTAAACATTGGAGCGCTTGAAGCAATTGCCAACGAGATCCACCCTTCAGGCGTATGCACGGCTAATTTTGCTTTCAACTCCCTGCTGCCGATGAAGGTAGACGCGCAATTTCTGCACGACATGCAAGCCTATTCGGGAGCCAAGATCGTACGCCATATACGCGCAGGCGAAGCCTACACCATGGACTATCGAGATGATCGGCTCTACGTCTTCAGCGACAAGGAAAACTTTTATACCGGTCACAAGTGTGGCTGA	MAKKKATTPRIAALAALLTLNIGALEAIANEIHPSGVCTANFAFNSLLPMKVDAQFLHDMQAYSGAKIVRHIRAGEAYTMDYRDDRLYVFSDKENFYTGHKCG				NA	NA	NA	NA	NA
D1-35_02974	363			hypothetical protein	ATGAGCATCCAGGACATCGTCGATTTCAGCCAGGCCAATACCACCGCCGACCGCTATCGACCGGACCCGGTCAAGGTACTTAAAGGTGATCCCGAGCAAGCGGTGTTCAATCATTACAGCAGTCCTTGCGGACAGATGAATGCGGGGGTGTGGGAAGGCGCGGTGGGCCAGTGGACGGTCAACTATACGGAGCACGAATACTGCGAAATCGTCCAAGGTGTTTCGGTGCTGCGGGACAATGAAGGGAATGCCAAGACACTTCGAGCGGGCGATCGTTTTGTAATTCCGGCCGGATTCCAAGGAACTTGGGAAGTGCTGGAAGCGTGCCGCAAGATTTATGTAGTGTTTGAGAAACAGGAATGA	MSIQDIVDFSQANTTADRYRPDPVKVLKGDPEQAVFNHYSSPCGQMNAGVWEGAVGQWTVNYTEHEYCEIVQGVSVLRDNEGNAKTLRAGDRFVIPAGFQGTWEVLEACRKIYVVFEKQE				NA	NA	NA	NA	NA
D1-35_02975	1494	puuC_2	COG1012	NADP/NAD-dependent aldehyde dehydrogenase PuuC	ATGACCACCCTGACTCGTGCCGACTGGGAACAGCGCGCCCGCGACCTGAAGATCGAAGGCCGCGCCTTCATCAATGGCGAATACACCGATGCAGTGTCCGGCGAGACCTTCGATTGCCTCAGCCCGGTCGACGGCCGCCTGTTGGGCAAGATCGCCAGTTGCGACGTGGCCGACGCCCAGCGCGCCGTCGAAAACGCCCGCGCGACATTCAGCTCTGGCGCCTGGTCGCGCCTGGCGCCGAGCAAGCGCAAAGCCACCATGATTCGTTTTGCCGGCCTGCTCAAGCAGCACGCCGAAGAGCTGGCCTTGCTGGAAACCCTGGACATGGGCAAGCCGATCAGCGACTCCCTGAATATTGACGTTCCAGGCGCGGCGCAGGCGCTGAGCTGGAGCGGTGAAGCCATCGACAAGCTCTACGATGAAGTGGCCGCCACCCCGCATGACCAATTGGGCCTGGTCACCCGGGAACCGGTCGGCGTGGTCGGTGCCATCGTTCCGTGGAACTTCCCGTTGATGATGGCCTGCTGGAAGCTCGGCCCGGCGTTGTCCACCGGCAACTCGGTAGTGCTCAAGCCGTCGGAAAAATCCCCGCTGACCGCCATTCGTATCGCCGCGCTGGCCATCGAGGCCGGCATCCCCAAAGGCGTGCTGAACGTGCTGCCAGGCTATGGCCACACGGTCGGCAAGGCCCTGGCCTTGCACATGGATGTCGATACGCTGGTGTTCACCGGTTCCACCAAGATCGCCAAGCAACTGATGATCTATTCCGGCGAGTCGAACATGAAGCGCGTCTGGCTGGAGGCGGGTGGCAAGAGCCCGAACATCGTATTTGCCGATGCTCCGGACCTGCAGGCCGCCGCCGAAGCCGCCGCCAGTGCCATCGCCTTCAACCAGGGCGAAGTCTGCACGGCGGGCTCGCGCCTGCTGGTGGAGCGTTCGATCAAGGACACGTTCCTGCCGCTGGTGATCGAGGCTCTCAAGGGCTGGAAACCTGGCAATCCACTGGATCCAGCGACCAATGTCGGTGCCCTGGTCGATACCCAGCAGATGAATACCGTGCTGTCTTACATCGAAGCCGGTCACAGCGACGGCGCCAAGCTGGTCGCGGGTGGCAAGCGGATTCTCCAGGAAACCGGCGGCACCTACGTCGAGCCGACGATTTTCGATGGCGTGAGCAACGCGATGAAAATCGCCCAGGAAGAAATCTTCGGGCCGGTGTTGTCGGTCATCGCCTTCGACAGTGCCGAAGAGGCCGTCCAGATCGCCAACGACACCCCGTACGGCTTGGCTGCGGCAGTGTGGACCAAGGACATCTCCAAGGCTCACCTGACCGCCAAGGCCTTGCGCGCCGGCAGCGTATGGGTCAACCAATATGACGGTGGCGACATGACCGCACCGTTCGGTGGCTTCAAGCAGTCGGGCAACGGCCGTGACAAGTCGCTGCATGCGTTCGACAAGTACACCGAACTGAAGGCGACCTGGATCAAGCTCTGA	MTTLTRADWEQRARDLKIEGRAFINGEYTDAVSGETFDCLSPVDGRLLGKIASCDVADAQRAVENARATFSSGAWSRLAPSKRKATMIRFAGLLKQHAEELALLETLDMGKPISDSLNIDVPGAAQALSWSGEAIDKLYDEVAATPHDQLGLVTREPVGVVGAIVPWNFPLMMACWKLGPALSTGNSVVLKPSEKSPLTAIRIAALAIEAGIPKGVLNVLPGYGHTVGKALALHMDVDTLVFTGSTKIAKQLMIYSGESNMKRVWLEAGGKSPNIVFADAPDLQAAAEAAASAIAFNQGEVCTAGSRLLVERSIKDTFLPLVIEALKGWKPGNPLDPATNVGALVDTQQMNTVLSYIEAGHSDGAKLVAGGKRILQETGGTYVEPTIFDGVSNAMKIAQEEIFGPVLSVIAFDSAEEAVQIANDTPYGLAAAVWTKDISKAHLTAKALRAGSVWVNQYDGGDMTAPFGGFKQSGNGRDKSLHAFDKYTELKATWIKL	PGPT0007645_214	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007645-puuC|kauB-K12254	NA	NA
D1-35_02976	1143	ycaD_2		putative MFS-type transporter YcaD	ATGCGTTGGGCGACCTATTTCGCCGTGTTGGCCTCTGTCCTGAGCGTCGGCCTTGCCCTCGGCGTAAGCATGCCCCTGGTGTCGCTGCGCCTGGAGGGCTGGGGTTATGGCTCGTTCGCCATTGGCGTCATGGCGGCGATGCCAGCCGTTGGCGTACTGGTCGGGGCCAAGGTTTCGAGCCGGCTGGCGGCGCATTTCGGTACGGCGGCGCTGATGCGCCTGTGCCTGTGGGGCGGGGCGGTGTCCATCGGGTTGTTGGCGCTGTTGCCCAGCTATCCGGTCTGGCTGCTCTTGCGGCTGTTGATCGGAGTCGTCCTGACATTGGTGTTCATTCTCGGCGAGAGCTGGATCAACCAGCTGGTCATCGAGCAATGGCGCGGGCGGTTGGTGGCGCTGTACGGGGCCAGCTATGCCTTGAGCCAATTGTCCGGCCCGCTGCTGCTCGGTGCGCTGGGGACCGATCATGACTACGGGTTCTGGGTGGGTGTCGGGCTGCTATTGATCGCCCCGTTGTTGTTGCTTGGCCGCAGCGGTGCGCCTGCCAGTGAGGCGGGCAGCGTTACCTTCGGCGATTTGTGGGAATTTTGCCGGGGCCTGCCGGCAATCGGTTGGGCGGTGTCGTTGTTCGCCGCATTCGAGGCGATGATCCTGACGCTGCTGCCGGTCTATTGCCTGCGCCAGGGCTTCAGTGCCGATATTGCGCTGGCGATGGTCAGCACGGTGGTGGTCGGCGACGCCCTGTTGCAGCTGCCCATTGGCGCCCTGGCCGATCGCCTGTCGCGCCGGTCGCTATTCACCGGCTGCGCGGTGGCACTGATGTTGTCCAGCCTCGCGGTGCCGCTGCTGATCGATACCTTGTTGATCTGGCCGCTGTGGGTGCTGTTTGGCGCCAGCGCGGGTGGGCTGTTTACCTTGTCGCTGATCCTGATCGGCGAGCGCTACCGCGATGATGCGCTGGTACGGGCCAACGCCCATGTTGCGCAGCTGTGGGGGATCGGTTGCCTGGTCGGGCCGCTGGTGGCGGGGGCGGGCAGCCAGTGGGTCAGCGGCCATGCGCTGCCGTTGTTCATGGCGGCGGGGGCGTTCGGCCTGGTCATTCTGTTGTTGCGCCAAGGGGCGTTCGGCGCGACACAAACCGCTTGA	MRWATYFAVLASVLSVGLALGVSMPLVSLRLEGWGYGSFAIGVMAAMPAVGVLVGAKVSSRLAAHFGTAALMRLCLWGGAVSIGLLALLPSYPVWLLLRLLIGVVLTLVFILGESWINQLVIEQWRGRLVALYGASYALSQLSGPLLLGALGTDHDYGFWVGVGLLLIAPLLLLGRSGAPASEAGSVTFGDLWEFCRGLPAIGWAVSLFAAFEAMILTLLPVYCLRQGFSADIALAMVSTVVVGDALLQLPIGALADRLSRRSLFTGCAVALMLSSLAVPLLIDTLLIWPLWVLFGASAGGLFTLSLILIGERYRDDALVRANAHVAQLWGIGCLVGPLVAGAGSQWVSGHALPLFMAAGAFGLVILLLRQGAFGATQTA				NA	NA	NA	NA	NA
D1-35_02977	1536	clsC	COG1502	Cardiolipin synthase C	ATGCTAGTCGCCTCGCTGTTGAGCGGCTGCGCCAGTCTTGATGTCACCCGCGAACCCTCCCAGGCGTTGCCGGCCTCCGACTCAGCGTTCGGCCGCTCGGTGGCGCAACAGGCCGCCCCGCACGAGGGCCGCTCAGGCTTTCGCCTGCTGTCCGACAGTACCGAAGCCTTCACCGCCCGGGCCGAGCTGATTCGCAACGCTCAAAGCAGCCTGGATTTGCAGTACTACATCGTTCATGACGGCATCAGCACGCGCATGCTGGTCGACGAACTGCTGAAGGCAGCGGACCGTGGGGTGCGCGTGCGGATCCTGCTTGACGACACCACCAGCGACGGCCAGGAGCAAGTCATCGCGACCCTGGCCGCGCACCCGAACATCCAGATTCGCCTGTTCAACCCGTTGCATCTTGGCCGCGCCACCGGCGTGACCCGCAGCCTGGGGCGCTTGTTCAATCTGTCGCTGCAACATCGTCGGATGCACAACAAGCTCTGGCTGGCGGACAACAGCATGGCCATCGTCGGCGGCCGCAATCTCGGCGACGAATATTTCGATGCCGAACCCAACCTTAACTTCACCGACATCGACCTGCTCAGCGTCGGCCCGGTGGCCGAGCAATTGGGGCACAGCTTCGACCAATACTGGAACAGCGCGCTGAGCAAACCGATCGAACAATTCCTTTCCCATCGACCAACTCCCAAGGACCTGGAGAACAGCCGCTTGCGCCTGCAAGCTTCGCTTGAGCAGACGCACAAGGAAAACCAGACGCTCTACCAGCAACTGACCGCCTACAAGACCCAGCCGCGCCTGGACATCTGGCGCGGACAGTTGATCTGGGCCTGGAACCAGGCGCTGTGGGATGCGCCTAGCAAGGTACTGGCCAAGGATGAGCCAGACCCTCGATTGCTGCTGACGACACAACTGGGGCCGGAGCTGACCGGCGTCAGCAAGGAACTGATCATGATCTCCGCCTACTTCGTGCCCGGACAGCCAGGGCTGGTGTACCTGACCAGCCGTGCCGATGCCGGTGTCTCCGTGAGCCTCTTGACCAATTCGCTGGAAGCCACCGATGTGCCGGCGGTGCACGGCGGCTACGCGCCGTATCGCAAGGCCTTGCTGCAGCATGGCGTACGGCTGTTCGAGTTGCGCCGCCAACCCGGCGACAGCGGCGGCAGCCCGCATCTGTTCTACAGCAAGTCTTATGGCGAATCGGACTCCAGCCTGCACAGCAAGGCGATCATCTTCGATCAACAGAAGTCGTTCATTGGCTCGTTCAATTTCGATCCTCGTTCAGTGCTTTGGAACACCGAGGTCGGCGTACTGGTAGACAGCCCGAAACTCGCCGGCCAGGTTCGGGAGCTGGCTTTGCAGGGCATGGCCCCGACCCTGAGTTATCAGGCCCGCCTGGAAGATGAAAGACTGGTCTGGACCACCGAGGACAACGGCAAGCTGCACGACCTGGATCGCGAACCGGGCAGCTGGTGGCGCCGCTTCAATGCCTGGTTCGCCACGACGATCGGGTTGGAGCGGATGCTTTAG	MLVASLLSGCASLDVTREPSQALPASDSAFGRSVAQQAAPHEGRSGFRLLSDSTEAFTARAELIRNAQSSLDLQYYIVHDGISTRMLVDELLKAADRGVRVRILLDDTTSDGQEQVIATLAAHPNIQIRLFNPLHLGRATGVTRSLGRLFNLSLQHRRMHNKLWLADNSMAIVGGRNLGDEYFDAEPNLNFTDIDLLSVGPVAEQLGHSFDQYWNSALSKPIEQFLSHRPTPKDLENSRLRLQASLEQTHKENQTLYQQLTAYKTQPRLDIWRGQLIWAWNQALWDAPSKVLAKDEPDPRLLLTTQLGPELTGVSKELIMISAYFVPGQPGLVYLTSRADAGVSVSLLTNSLEATDVPAVHGGYAPYRKALLQHGVRLFELRRQPGDSGGSPHLFYSKSYGESDSSLHSKAIIFDQQKSFIGSFNFDPRSVLWNTEVGVLVDSPKLAGQVRELALQGMAPTLSYQARLEDERLVWTTEDNGKLHDLDREPGSWWRRFNAWFATTIGLERML	PGPT0007730_493	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_GLYCEROPHOSPHOLIPID-CARDIOLIPIN_SYNTHASE_ACTIVITY,PGPT0007730-clsC|ymdC-K06132	NA	NA
D1-35_02978	1434	norG_4	COG1167	HTH-type transcriptional regulator NorG	ATGACTCTTTACGTGAACCTCGCCGAATTGCTCGGCACTCGCATCGAACAGGGCTTCTACCGCCCCGGCGACCGGCTGCCGTCGGTGCGTGCCTTGAGCACCGAACACGGGGTCAGCCTGAGTACCGTGCAGCAGGCCTATCGCGTCCTGGAAGACAGCGGACTGGCGATGCCGAAACCCAAGTCCGGCTATTTCGTCCCGGTCAGCCGCGAGCTGCCGGACCTGCCAGCGGTTGGCCGCCCGGCCCAGCGCCCGGTGGACATCTCCCAATGGGACCAGGTGCTGGAGCTGATACGCGCGGTGCCGCGCAAGGATGTCGTACAGTTGGGCCGCGGCATGCCGGATATCCATTCACCGACCATGAAACCGTTGCTGCGCAGCCTGGCGCAGATCAGCCGGCGCCAAGACATGCCCGGCCTGTACTACGACAATATCTACGGCAACCTCGAACTGCGTGAGCAGATCGCCCGGCTGTCCCTGGACTCGGGCTGCCAACTCGGCGCCAGCGACCTGATCGTCACCACCGGTTGCCACGAGGCGCTGTCGGTCAGCATCCGCGCCACCTGCGAGCAGGGCGACATCGTTGCGGTGGACTCCCCCAGCTTCCACGGTGCCATGCAGACGCTGAAGGGCCTGGGCATGAAGGCTTTGGAAATACCCACCGATCCGCTCACCGGCATCAGCCTGGAAGCGCTGGAACTGGCACTTGAGCAATGGCCGATCAAGGCCATACAGTTGACCCCCAGCTGCAACAACCCGCTGGGCTACATCATGCCGGAGGCCAACAAGCGCGCTTTGCTGACCCTGGCGCAGCGCTTCGATGTGGCGATTATCGAAGACGATGTGTATGGGGAACTGGCCTACACCTATCCGCGTCCTCGCACCATCAAGTCCTTCGACGACGATGGTCGCGTCCTGCTCTGCAGTTCTTTTTCCAAGACCCTTGCCCCTGGCCTTCGGGTCGGCTGGGTAGCGCCGGGGCGCTATCTGGAACGGGTGCTGCACATGAAATACATCAGCACCGGCTCGACCGCGCCGCAACCCCAGATAGCCATCGCGGAGTTTCTCAAAGGCGGGCACTTCGAACCACATTTGCGGCGGATGCGCAGCCAATACCAGCGCAATCGTGACGTGATGATTGATTGGGTCAGCCGTTATTTCCCGGTAGGTACCCGCGCCAGCCGTCCCCGCGGCAGCTTCATGCTGTGGGTCGAATTGCCCGAGGGCTTTGACACATTGAAGCTCAACCGGATGCTGCACGACCAAGGCGTGCAGATCGCCGTCGGCAGTATCTTTTCGGCCTCGGGCAAATATCGCAATTGCCTGCGCATGAACTACGCTGCCAAGCCAACGGCACAGATCGAGGATGCGGTGCGCAAGGTTGGTGCCGTGGCTATAGCGTTGTTGAACGAAACCCAGCGAGACACCGTCTGA	MTLYVNLAELLGTRIEQGFYRPGDRLPSVRALSTEHGVSLSTVQQAYRVLEDSGLAMPKPKSGYFVPVSRELPDLPAVGRPAQRPVDISQWDQVLELIRAVPRKDVVQLGRGMPDIHSPTMKPLLRSLAQISRRQDMPGLYYDNIYGNLELREQIARLSLDSGCQLGASDLIVTTGCHEALSVSIRATCEQGDIVAVDSPSFHGAMQTLKGLGMKALEIPTDPLTGISLEALELALEQWPIKAIQLTPSCNNPLGYIMPEANKRALLTLAQRFDVAIIEDDVYGELAYTYPRPRTIKSFDDDGRVLLCSSFSKTLAPGLRVGWVAPGRYLERVLHMKYISTGSTAPQPQIAIAEFLKGGHFEPHLRRMRSQYQRNRDVMIDWVSRYFPVGTRASRPRGSFMLWVELPEGFDTLKLNRMLHDQGVQIAVGSIFSASGKYRNCLRMNYAAKPTAQIEDAVRKVGAVAIALLNETQRDTV				NA	NA	NA	NA	NA
D1-35_02979	246			hypothetical protein	ATGAACGGCTTGAGCGATGTACGGCTGACGTTACACAGTCAGGAACTGGCGGCGGGGCAGGAAAAGGGGCTGCGTGATGCCATGCTGCGCAATGCCCCGTCCGGCTTGAGCCGCTGGGGCCTGTTCTGGCATCGTCTGCATACACGCAAGGCCTTGTTGGAGCTGACAACCGAACAGTTGCGCGATATCGGCCTGAGCCGGGAGCAGGCCCGGGCGGAAGGGTTGAAGCCGTTCTGGCGGCTTTGA	MNGLSDVRLTLHSQELAAGQEKGLRDAMLRNAPSGLSRWGLFWHRLHTRKALLELTTEQLRDIGLSREQARAEGLKPFWRL				NA	NA	NA	NA	NA
D1-35_02980	1314	puuB_3		Gamma-glutamylputrescine oxidoreductase	ATGAACGCCCGTGTTCAGCAACCTGTCCCGAGCCACGCGCACGCCGCCTCCTACTACGCCGCCAGCAGCCTGCCGCAGCCGGACCATCCGGTGCTGCAAGGCGAGTTGGTGGCGGATGTCTGCGTGGTGGGCGGCGGGTTCTCCGGGCTGAACACAGCCATCGAGCTGGCCGAGCGCGGCCTGAGTGTGGTGCTGCTTGAGGCTCATAAGATCGGTTGGGGCGCCAGCGGGCGGAACGGCGGCCAACTGATTCGCGGCGTGGGCCATGGTCTCGATCAGTTTGCGCCAATCGTGGGCACCGACGGCGTGCGTCAGATGAAATTGATGGGGCTCGAAGCGGTGGAAATCGTCCGCCAGCGGGTCGATCGTTTTCAGATTCCTTGCGACCTCACCTGGGGCTACTGCGACCTCGCCAACAAACCCGCCGATCTTCAGGGTTTCGCCGAGGATGCCGAAGAACTCCGCAGCCTGGGCTATCGCTACGAGACGCGACTGCTGCAAGCCGATGAAATGCACAGCGTGGTGGGCTCGGATCGCTATGTTGGTGGCCTGGTCGACATGGGCTCGGGCCACCTGCATCCGCTCAACCTGGCGTTGGGAGAGGCGGCCGCAGCGCAGCAACTGGGGGTCCGGCTGTTCGAACGATCGGCGGTGATACGCATCGACTACGGGCCACAGGTAAAAGTACACACCCAACAAGGCTCGGTCCGCGCCACGACACTGGTGCTGGGCTGCAATGCCTACCTCAACGGCCTGAACCAGGAGCTGAGCGGCAAAGTGCTGCCCGCTGGCAGCTATATCATTGCCACCGAACCGCTGAGCGAAGCGCAGGCAAACGCGCTGTTGCCACAGAACATGGCGGTCTGTGACCAGCGGGTGGCGCTGGATTACTACCGGCTTTCGGCGGATCGACGCTTGTTGTTTGGCGGGGCTTGTCACTATTCCGGCCGAGACCCGCAAGACATCGGCGCGTACATGCGGCCGAAAATGCTCAAGGTCTTCCCGCAACTGGCAGACGTGAAGATCGATTATCAATGGGGCGGGATGATCGGCATCGGCGCCAACCGCCTGCCGCAGCTCGGCCGGCTCAAGGATCAGCCCAACGTGTATTACGCCCAGGCCTATTCCGGTCATGGGGTGAATGCCACGCACCTGGCCGGCAAGTTGTTGGCCGAGGCTATCAGCGGCCAGCAGGGCGGTGGGTTCGACCTGTTTGCCAAGGTACCGCACATGACATTCCCGGGCGGCAAGCATTTGCGCTCGCCGCTGTTGGCGCTGGGGATGTTGTGGCACCGGTTGAAAGAATTGATCTGA	MNARVQQPVPSHAHAASYYAASSLPQPDHPVLQGELVADVCVVGGGFSGLNTAIELAERGLSVVLLEAHKIGWGASGRNGGQLIRGVGHGLDQFAPIVGTDGVRQMKLMGLEAVEIVRQRVDRFQIPCDLTWGYCDLANKPADLQGFAEDAEELRSLGYRYETRLLQADEMHSVVGSDRYVGGLVDMGSGHLHPLNLALGEAAAAQQLGVRLFERSAVIRIDYGPQVKVHTQQGSVRATTLVLGCNAYLNGLNQELSGKVLPAGSYIIATEPLSEAQANALLPQNMAVCDQRVALDYYRLSADRRLLFGGACHYSGRDPQDIGAYMRPKMLKVFPQLADVKIDYQWGGMIGIGANRLPQLGRLKDQPNVYYAQAYSGHGVNATHLAGKLLAEAISGQQGGGFDLFAKVPHMTFPGGKHLRSPLLALGMLWHRLKELI	PGPT0007637_416	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007637-puuB|ordL-K09471	NA	NA
D1-35_02981	363			hypothetical protein	ATGGCCTCGATGAGCTGCAACAGTCAAAAAATCCGCACGCTACGTCAGCAGATTCCTACGTTCGAGTGCGTACCGGGCTGTCATGACTGCTGTGGTCCGGTGACCACCTCGCCCGAAGAAATGGCTCGTTTGCCACGCAAGAGCCGCGCCGAACAGGACGCGGCCCTGGAGGCGCTCGATTGCGTGCACCTGGGGCCGAACGGTTGCACGGTCTACGATGAAAGGCCGCTGATCTGCCGGTTATTCGGCACCACCGCGACCTTGCCATGCCCTAATGGGCGGCGGCCGGTTGAGCTGATTCATCCGCGGGTCGAGAAGCAGATTCATGCATACATGGCCAGCACTCGGCAGGTGTTGGTCTAG	MASMSCNSQKIRTLRQQIPTFECVPGCHDCCGPVTTSPEEMARLPRKSRAEQDAALEALDCVHLGPNGCTVYDERPLICRLFGTTATLPCPNGRRPVELIHPRVEKQIHAYMASTRQVLV				NA	NA	NA	NA	NA
D1-35_02982	489	lrp_4	COG1522	Leucine-responsive regulatory protein	GTGCGTACCAATACCCAGACCAAACGCGAGCTGGACAAGATCGACCGCAACATCCTGCGCATCCTCCAGGCCGACGGGCGAATTTCTTTCACCGAGCTGGGGGAAAAGGTCGGGCTTTCCACCACGCCTTGCACCGAGCGGGTGCGACGGCTGGAGCGCGAGGGGATCATCATGGGCTACAACGCCCGGCTCAATCCGCAGCACTTGAAGGGCAGCCTGCTGGTGTTCGTCGAAATCAGCCTCGACTATAAATCCGGCGACACGTTCGAAGAGTTCCGACGTGCCGTGCTGAAGTTGCCTCACGTACTGGAATGCCACCTGGTGTCGGGGGATTTCGACTATCTGGTGAAGGCGCGAATTTCCGAGATGGCCTCGTACCGCAAGCTGCTGGGCGACATCCTGCTCAAGCTGCCCCACGTTCGTGAGTCCAAGAGCTACATCGTGATGGAGGAAGTGAAGGAGAGCCTGAACCTGCCGATTCCGGATTGA	MRTNTQTKRELDKIDRNILRILQADGRISFTELGEKVGLSTTPCTERVRRLEREGIIMGYNARLNPQHLKGSLLVFVEISLDYKSGDTFEEFRRAVLKLPHVLECHLVSGDFDYLVKARISEMASYRKLLGDILLKLPHVRESKSYIVMEEVKESLNLPIPD	PGPT0014049_198	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014049-doeX-K15782	NA	NA
D1-35_02983	1305	dadA1_1	COG0665	D-amino acid dehydrogenase 1	ATGCGCGTCTTGGTCTTGGGTAGCGGCGTCATCGGTACCGTCAGTGCTTACTATCTGGCACGTGCCGGGTTTGAAGTGGTGGTGGTCGACCGTCAGCCGGCGCCAGCCATGGAAACCAGCTTCGCCAACGCTGGCCAGGTATCGCCGGGCTACGCCTCGCCGTGGGCTGCGCCGGGTGTGCCACTCAAGGCCATCAAGTGGCTGCTGCAGCGTCACGCGCCGCTGGCAATCAAGGCCACCGCCGACATCGACCAGTACCTGTGGATGGCGCAGATGCTGCGCAACTGCACCGCCAGCCGCTACGCGATCAACAAGGAGCGCATGGTCCGCCTGTCCGAGTACAGCCGTGACTGCCTCGACGAATTGCGCGCCGAAACCGGCATTGCCTACGAAGGTCGCAGCCTGGGGACTACCCAATTGTTCCGCACCCAGGCCCAGCTCGATGGCGCGGCCAAGGACATCGCCGTGCTCAAGGAGTCGGGCGTGCCGTTTGAAGTGCTCGATCGCGAAGGCATCGCCCGGGTCGAACCGGCCCTGGCCAATGTCACCGACATCCTGGCCGGTGCGCTGCGCCTGCCCAATGACCAGACCGGCGATTGCCAGATGTTTACCACGCGCCTCGCGGAAATGGCCGTGAAGCTCGGCGTACAATTTCGCTTCGACCAGAACATCGAGCGCCTGGATTTTGCCGGGGATCGCATCAATGGTGTCTGGATCGACGGCAAGCTGGAAACCGCCGACCGTTATGTCCTGGCCCTGGGCAGCTATTCGCCGCAATTACTCAAGCCGCTGGGTATCCGCGCGCCGGTGTATCCACTCAAGGGCTATTCCCTGACCGTGCCGATCACCAATGCGGCGATGGCGCCGACCTCGACCATCCTCGACGAAACCTACAAGGTTGCGATCACCCGGTTCGACAACCGGATTCGCGTCGGCGGCATGGCGGAAATCGCCGGTTTTGACCTCTCGCTCAACCCGCGTCGGCGTGAAACCCTGGAGATGATCGTCAACGACCTTTATCCTCAGGGCGGCGACCTGGCCCAGGCCAGTTTCTGGACCGGCCTGCGCCCGACCACCCCGGACGGCACGCCGATAGTCGGCGCCACGCCGTTCAAGAATCTGTTCCTCAATACCGGCCACGGCACCCTCGGGTGGACCATGGCCTGTGGTTCCGGTCGCCTTCTGGCGGACCTGATGGCGAAGAAAAAGCCGCAGATCAGCGCCGAAGGCCTCGATATTTCCCGTTATGGCAGCAAACCTCAGGAGTCCGCTAAACATGGCAATCCAGCGCCAGCTCACCAATGA	MRVLVLGSGVIGTVSAYYLARAGFEVVVVDRQPAPAMETSFANAGQVSPGYASPWAAPGVPLKAIKWLLQRHAPLAIKATADIDQYLWMAQMLRNCTASRYAINKERMVRLSEYSRDCLDELRAETGIAYEGRSLGTTQLFRTQAQLDGAAKDIAVLKESGVPFEVLDREGIARVEPALANVTDILAGALRLPNDQTGDCQMFTTRLAEMAVKLGVQFRFDQNIERLDFAGDRINGVWIDGKLETADRYVLALGSYSPQLLKPLGIRAPVYPLKGYSLTVPITNAAMAPTSTILDETYKVAITRFDNRIRVGGMAEIAGFDLSLNPRRRETLEMIVNDLYPQGGDLAQASFWTGLRPTTPDGTPIVGATPFKNLFLNTGHGTLGWTMACGSGRLLADLMAKKKPQISAEGLDISRYGSKPQESAKHGNPAPAHQ	PGPT0020315_363	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
D1-35_02984	354			hypothetical protein	ATGGCAATCCAGCGCCAGCTCACCAATGACCGCATGAGTCAGGTCGTTGTGCACAACGGCACCGTTTACCTGGCCGGGCAGGTCGGCGACGACATGAGCGCCGGCATCGAGCAGCAGACCCGCGAGACCTTGGCAAATATCGAGCGTCTGCTGGACCTGGCCGGGACCGACAAGAGCCGCCTGCTGTCGGTGACGATCTACCTGAAGGACATCGACGCCCATTTTCAAGGCATGAATGCGGTGTGGGACAAATGGCTGCCCAAGGGCGTCGCCCCGGCCCGCGCCACTGTCGAGGCCAAGTTGTGCGAACCGCAGATCCTGGTCGAGCTGTCCGTGGTGGCCGCGCTGCCCTGA	MAIQRQLTNDRMSQVVVHNGTVYLAGQVGDDMSAGIEQQTRETLANIERLLDLAGTDKSRLLSVTIYLKDIDAHFQGMNAVWDKWLPKGVAPARATVEAKLCEPQILVELSVVAALP	PGPT0020030_24	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020030-ridA|tdcF-K09022	NA	NA
D1-35_02985	1074	alr		Alanine racemase	ATGCGTCCTGCCCGTGCCCTGATCGATCTCCAAGCCCTGCGTCATAACTACCAACTGGCCCGTGAAGTTACTGGGACCAAGGCCCTTGCAGTGATCAAGGCCGACGCCTACGGGCATGGCGCGGTGCGCTGCGCCGAGGCTTTGCAGGAGACGGCGGATGGGTTCGCCGTGGCCTGCATTGAAGAGGCCCTGGAACTGCGGGCCGGTGGTATACGTGGGCCGATCCTGTTGCTGGAAGGGTTCTTCGAGGCCGATGAGCTGGCATTGATCGTCGAGCACGACTTCTGGTGTGTCGTGCATGCGTTGTGGCAGCTAGAAGCGATAGAGCGCGCGACGCTGGGCAAGCCGATCACGGTCTGGCTCAAGCTCGACTCGGGCATGCATCGGGTCGGTTTGCATCCGGCCGATTATCAATCGGCCTATCGTCGCCTGCTGGCGAGTGGCAACGTGGCGAAAATCGTCCTGATGAGCCACTTCGCCCGCGCCGACGAGCTGCACGACCCGAGCAGCCTCCAACAATTGGCGGTATTCGAGCAGGCCCGCCAGGGCCTGGTGGCTGAGGTCAGCCTGCGCAACTCGCCCGCGGTGCTGGGTTGGCCGCAGATACCGAGCGACTGGGTGCGGCCGGGCATCATGCTGTACGGCGCGACACCCTTCGACGAAGCCAATGCCATGGCTTCGCGCCTGCAACCGGTGATGACCCTGGAGTCGAAGATCATCAGCGTGCGCGAGCTTCCCGCCGGCGAGCCGGTGGGCTACGGTGCCCGTTTCGTCACCGCCCAGCCGACCCGGGTCGGCGTGGTTGCCATGGGGTATGCCGACGGTTACCCGCGCCAGGCGCCCAACGGTACGCCAGTGCTGGTGGATGGCCAGCGCAGCCAACTGGTCGGGCGGGTCTCGATGGACATGCTGTGTGTCGACCTGAGCCATATTCCCCAGGCCGGGCTCGGCTCGACCGTCGAACTCTGGGGCAAGAGCATTCTCGCCAGCGATGTGGCGCAGGCCGCCGACACGATTCCTTACCAGATATTCTGCAACCTGCGACGTGTCCCACGGCTCTATTCCGGGACCTGA	MRPARALIDLQALRHNYQLAREVTGTKALAVIKADAYGHGAVRCAEALQETADGFAVACIEEALELRAGGIRGPILLLEGFFEADELALIVEHDFWCVVHALWQLEAIERATLGKPITVWLKLDSGMHRVGLHPADYQSAYRRLLASGNVAKIVLMSHFARADELHDPSSLQQLAVFEQARQGLVAEVSLRNSPAVLGWPQIPSDWVRPGIMLYGATPFDEANAMASRLQPVMTLESKIISVRELPAGEPVGYGARFVTAQPTRVGVVAMGYADGYPRQAPNGTPVLVDGQRSQLVGRVSMDMLCVDLSHIPQAGLGSTVELWGKSILASDVAQAADTIPYQIFCNLRRVPRLYSGT	PGPT0020040_4758	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020040-alr-K01775	NA	NA
D1-35_02986	549	puuR		HTH-type transcriptional regulator PuuR	TTGGACGTCGGTGAACGACTGCAATCCATTCGTAAACTCAAAGGCCTTTCCCAGCGTGAACTCGCCAAGCGCGCGGGCGTCACCAACAGCACTATTTCGATGATCGAGAAAAACAGCGTGAGCCCCTCGATCAGCTCGCTGCGCAAGGTCCTTGGCGGGATTCCCATGTCCATGGTCGAGTTTTTCTCCGAAGAGATCCTCCAGGAGAAACCGACCCAGATCGTCTATAAAGCCAACGAACTGATCGACATCTCCGACGGCGCCGTGACCATGAAACTGGTGGGCCGGGCGCATCCGAGCCGGGCGATTGCCTTCCTGAACGAAATCTATCCGCCTGGCGCCGACACCGGTGACGAAATGCTCACCCACGAGGGCGAGGAAACCGGGATCCTGGTGGAAGGGCGACTGGAACTGGTGGTGGGCGCAGAAACCTTCGTGCTCGAGGCCGGCGACAGCTACTATTTTGAAAGTACCAAGCCACATCGTTTCCGCAATCCGTTCGACGTGCCGGCGCGACTGATCAGCGCAGCCACTCCGGCGAATTTCTAG	MDVGERLQSIRKLKGLSQRELAKRAGVTNSTISMIEKNSVSPSISSLRKVLGGIPMSMVEFFSEEILQEKPTQIVYKANELIDISDGAVTMKLVGRAHPSRAIAFLNEIYPPGADTGDEMLTHEGEETGILVEGRLELVVGAETFVLEAGDSYYFESTKPHRFRNPFDVPARLISAATPANF	PGPT0019781_117	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0019781-puuR-K14056	NA	NA
D1-35_02987	279		COG3245	Cytochrome c5	ATGGAAGTGGCCACTGCAGCCGGCGGCGCAGGCGGTGCCAAGGCACCCAAAGACGTCATTGCCAAGCATTGCAACGCCTGCCACGGCACTGGCCTGCTGGGCGCTCCGAAAATCGGTGACAAGGCGGCCTGGAAAGAGCGCGCCGATCACCAGGGCGGCCTCGACGGCATCCTGGCCAAGGCTATTACTGGCGTAAACGCCATGCCGCCCAAAGGCACTTGCGCCGACTGCTCCGATGATGAGCTCAAGGGCGCCATCAAAGAGATGTCCGGCCTGTAA	MEVATAAGGAGGAKAPKDVIAKHCNACHGTGLLGAPKIGDKAAWKERADHQGGLDGILAKAITGVNAMPPKGTCADCSDDELKGAIKEMSGL	PGPT0004040_3	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004040-coxD|ctaF-K02277	NA	NA
D1-35_02988	1935			butyrate:acetyl-CoA coenzyme A-transferase	ATGGTGCAGTTGTGTTCAATCGAACAGGCAGTGGATGACGTGCTCGAGCGCTTGCCCGCGCATATCCACCTGGGCATGCCATTGGGGCTGGGCAAGCCCAACCTGTTCGCCAACGCGCTGTACCGGCGCATCGCCCAACTGCCCGAGCGGCAGCTGACTATCTACACGGCGTTGAGCCTGGGTCGACCGAGCCTGGGCGACGGTTTGCAGAAGCGTTTCCTCGAGCCCTTCGTCGAACGGGTCTTCGGCGACTATCCCGAACTCGATTACCTTGCCGATCTGCAGCGCGACAGCCTGCCGGCAAACATCCGCGTGCAGCAATTCTTCATGCAGCCCGGCAGCCTGCTGCACAGTGCAGCGGCGCAGCAGGACTACGTCAGCAGCAACTACAGCCACGCGGCGCGGGACATCAACGCGGCCGGCCTGAACCTGATTGCGCAATTGGTGGCGAGCGACCCGGAACATCCGGATCGCCTGAGCCTGAGCTGCAACCCGGACATCACCCTGGACCTGTTGCCGATGATTGCCAGGCGACGCGAGGCGGGCGAGACCATCCTCATGGTCGGGCAGGTCCACAGCGAATTGCCCTACATGCCCGGTGATGCGGAAATCGGCATTGACGCTTTCGACCTGCTGATCGACGAGAAGGACAGCCACACGCTGTTCTCCACGCCGAACATGCCGGTGGGGTTCCAGGACCATTTGATCGGCCTGCATGCCAGCACCCTGGTGCGTGACGGCGGTACGTTGCAGATCGGCATCGGCTCCATGGGCGATGCGTTGACGGCGGCGCTGTTGGCGCGCCAGGCCGATAACGCTGGTTACCAGGCGTTGTTGGCGGACCTGAATCTCAGCCAGTGGGCGCAGTTGATCGAGCGTGAAGGCGGGACCGAGCCGTTTGCCAAAGGGCTTTACGGTTGCAGCGAAATGTTCGTCAACGGTTTGCTGGTGCTTGCGGAGGCCGGGATTATCCGGCGCAAGGTCTATCCCGATGAGCCGACCCAGGAGCAGGCGAACGCCGGAACGCTCGACGAGGCGGCGCAACCCGACGGCATTTGCATCCATGGCGGGTTCTTCCTCGGCCCGGGCAGCTTCTACGAGCGTTTGCGCGAGTTGCCGCAGAGCCGGCGCTTCGAATTCAACATGACGCGCATCAGCTACATCAACGAGTTGTACGGCCAGGAACAACTCAAGCGCCTGCAGCGGCTTGATGCGCGTTTCATCAACACGGTGTTCACCATGACGTTGCTCGGTGCCGGGGTGGCTGACCAATTGGAAGACGGGCGGGTGCTCAGCGGTGTGGGTGGGCAATACAACTTTGTTGCCCAAGGGCATGCGCTGGAAGGGGCGCGCTCGATCCTGCTGCTGCGCAGTTGGCGCGAGTCAGGCGGCGTGGTCAGCTCCAATATCGTCTGGGAATACGGGCATTGCACGATTCCCCGGCACCTGCGGGACATCGTCGTGACCGAGTACGGCATTGCCGACCTGCGCGGCAAGACCGACGCGGCGGTGATCGAGGCATTGCTCAACATCAGCGATTCACGCTTTCAGCCGGGGCTGATCGAGCAGGCCCAGAGCTCCGGCAAATTGCCGAAGGATTTCCGTCTCGACCCACGTTTCGCCGACAACACGTCGGAGCGTTTGCAGGCGATCCAGGCGCGGCATCCCAATCTGTTCCCGGAATATCCGTTGGGCTGCGATTTCGATGGGCTGGAGCGGGATCTGCTGCGGGCGCTGAACTGGCTCAAGAGCAAGTTCAAGCTCACCGAGATCCTGGAGTTGGGCAAGGCCGCGCTGGATGCACCGGAGCCCTGGGAGTTTGCCGGGCATCTGGAACGGATGCAGCTGACGAGCCCGGAGGGGCTGAAGGAAGAGTTGGCCCAGCGGTTGCTGCTGGCGGGGCTGAAGGCGACCGTGCAACAAACAGCAACCTGA	MVQLCSIEQAVDDVLERLPAHIHLGMPLGLGKPNLFANALYRRIAQLPERQLTIYTALSLGRPSLGDGLQKRFLEPFVERVFGDYPELDYLADLQRDSLPANIRVQQFFMQPGSLLHSAAAQQDYVSSNYSHAARDINAAGLNLIAQLVASDPEHPDRLSLSCNPDITLDLLPMIARRREAGETILMVGQVHSELPYMPGDAEIGIDAFDLLIDEKDSHTLFSTPNMPVGFQDHLIGLHASTLVRDGGTLQIGIGSMGDALTAALLARQADNAGYQALLADLNLSQWAQLIEREGGTEPFAKGLYGCSEMFVNGLLVLAEAGIIRRKVYPDEPTQEQANAGTLDEAAQPDGICIHGGFFLGPGSFYERLRELPQSRRFEFNMTRISYINELYGQEQLKRLQRLDARFINTVFTMTLLGAGVADQLEDGRVLSGVGGQYNFVAQGHALEGARSILLLRSWRESGGVVSSNIVWEYGHCTIPRHLRDIVVTEYGIADLRGKTDAAVIEALLNISDSRFQPGLIEQAQSSGKLPKDFRLDPRFADNTSERLQAIQARHPNLFPEYPLGCDFDGLERDLLRALNWLKSKFKLTEILELGKAALDAPEPWEFAGHLERMQLTSPEGLKEELAQRLLLAGLKATVQQTAT				NA	NA	NA	NA	NA
D1-35_02989	573	xpt	COG0503	Xanthine phosphoribosyltransferase	ATGGAAGCCCTGCACCAGAAAATTCGTGAACAAGGCATCGTGCTTTCCGATCAGGTCCTGAAGGTTGATGCGTTCCTCAACCACCAGATCGACCCGCAGTTGATGAAGCTGATCGGCGACGAATTCGCCGCGCTGTTCAAGGATTCGGGCATCACCAAGATCGTCACCATCGAGGCCTCGGGCATCGCCCCGGCGATCATGACCGGGCTGAACCTTGGCGTGCCGGTGATCTTCGCGCGCAAACAGCAGTCGCTGACCCTGACGGAGAACCTGTTGTCCGCCACCGTGTATTCGTTCACCAAGAAGACCGAAAGCACCGTCGCCGTCAGCCCGCGCCACCTGACCAGCAGCGACCGAGTGCTGATCATCGATGACTTCCTGGCCAACGGCAAAGCCTCCCAGGCGCTGATTTCCATCATCAAGCAGGCCGGCGCTACCGTGGCCGGGCTGGGCATCGTGATCGAGAAATCCTTCCAGGGTGGCCGCGCTGAGCTGGATGCCCAGGGCTACCGCGTCGAGTCGTTGGCGCGGGTGAAATCGCTGGCGGGTGGGGTAGTGACGTTCATCGACTGA	MEALHQKIREQGIVLSDQVLKVDAFLNHQIDPQLMKLIGDEFAALFKDSGITKIVTIEASGIAPAIMTGLNLGVPVIFARKQQSLTLTENLLSATVYSFTKKTESTVAVSPRHLTSSDRVLIIDDFLANGKASQALISIIKQAGATVAGLGIVIEKSFQGGRAELDAQGYRVESLARVKSLAGGVVTFID	PGPT0007305_856	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007305-xpt-K03816	NA	NA
D1-35_02990	2049	rep_1	COG0210	ATP-dependent DNA helicase Rep	ATGCCGGCCCATTTCGCAAACGACTCCCTGAACCCTGTCATGTCCCGACTCAATCCCCGGCAGCAAGAAGCCGTGAACTATGTCGGCGGCCCTCTTTTGGTGCTCGCCGGTGCAGGCTCCGGCAAGACCAGCGTGATCACCCGCAAGATCGCGCACCTGATCCAGAATTGCGGCATCCGCGCCCAGTACATCGTCGCGATGACTTTCACCAACAAGGCCGCGCGGGAAATGAAGGAACGGGTCGGCGGTCTGTTGCGCGCCGGCGAAGGCCGTGGCCTGACGGTCTGTACGTTCCACAACCTGGGCCTGAACATCATTCGCAAGGAACACGCGCGACTTGGCTACAAGCCGGGCTTCTCGATTTTCGACGAGACCGACGTCAAGGCCTTGATGACCGACATCATGCAGAAGGAATACTCGGGCGACGACGGCGTCGACGAGATCAAGAACATGATCGGCGCCTGGAAAAACGACCTGATCCTGCCGCCCGAAGCCCTGGAGAACGCCCGCAACCCCAAGGAACAGACCGCCGCCATCGTCTACGCCCACTACCAGCGCACCCTCAAGGCCTTCAACGCGGTGGACTTCGACGACCTGATCCTGCTGCCGGTCAAGCTGTTCCAGGACCACGCCGACATCCTTGAGAAATGGCAGAACAAAGTCCGTTACCTATTGGTGGACGAATATCAGGACACCAACGCCAGCCAGTATCTGCTGGTGAAACTGCTGATCGGCAAACGCAACCAGTTCACCGTGGTCGGCGACGATGACCAGTCGATCTACGCCTGGCGCGGCGCGCGGCCGGAAAACCTGATGTTGCTCAAGGAAGACTACCCATCGCTCAAGGTGGTGATGCTGGAGCAGAACTATCGCTCCACCAGCCGCATCCTGCGCTGCGCCAACGTGCTGATCTCCAACAACCCCCACGAATTCGAAAAGCAGCTGTGGAGCGAAATGGGTCACGGTGACGAGATCCGTGTGATCCGTTGCCGCAACGAAGACGCCGAAGCCGAGCGCGTGGCCATGGAAATCCTCAGCCTGCACCTGCGCACCGACCGGCCCTACAGCGATTTTGCGATCCTCTATCGCGGCAACTACCAGGCCAAGCTGATCGAGCTGAAGTTGCAGCATCACCAGATCCCCTATCGTCTGTCGGGGGGCAACAGCTTCTTCGGACGCCAGGAAGTGAAGGACCTGATGGCCTACTTCCGCCTGATCGTGAACCCGGACGACGATAACGCCTTCTTGCGGGTGATCAACGTGCCACGCCGGGAAATCGGTTCGACCACCCTGGAAAAACTCGGCAACTACGCCACCGAGCGCAAGATCTCGATGTACGCCGCCACCGATGAAATCGGCTTGGGCGAACATCTGGACAGCCGCTTCACCGACCGCCTGGCGCGCTTCAAACGCTTCATGGACAAGGTCCGCGAGCAGTGTGCCGGCGAAGACCCGATCGCGGCGCTGCGCAGCATGGTCATGGACATCGACTATGAAAACTGGCTGCGCACCAACAGTTCCAGCGACAAGGCCGCCGACTACCGCATGGGCAACGTCTGGTTCCTGATCGAAGCGCTGAAAAACACTTTGGAAAAGGATGAAGACGGCGACATGACCGTCGAGGACGCCATCGGCAAGCTCGTTTTGCGGGATATGCTCGAGCGGCAGCAGGAAGAGGAAGAAGGCGCCGAAGGCGTCCAGATGATGACGCTGCACGCCTCCAAGGGCCTGGAATTTCCCTACGTGTTCATCATGGGCATGGAAGAGGAAATCCTCCCGCACCGCTCCAGCATCGAAGCCGACACCATTGAAGAAGAACGGCGCCTGGCCTACGTCGGGATTACCCGGGCGCGCCAGACGCTGGCCTTCACCTTCGCCGCCAAGCGCAAGCAGTACGGCGAAGTGATCGACTGCGCCCCGAGCCGTTTTCTCGATGAACTGCCGCCGGACGACTTGGCCTGGGAGGGCAATGACGACACGCCGACGGAAGTCAAAGCCGTTCGCGGCAACAGCGCCCTGGCGGATATACGCGCGATGTTGAAGCGCTAG	MPAHFANDSLNPVMSRLNPRQQEAVNYVGGPLLVLAGAGSGKTSVITRKIAHLIQNCGIRAQYIVAMTFTNKAAREMKERVGGLLRAGEGRGLTVCTFHNLGLNIIRKEHARLGYKPGFSIFDETDVKALMTDIMQKEYSGDDGVDEIKNMIGAWKNDLILPPEALENARNPKEQTAAIVYAHYQRTLKAFNAVDFDDLILLPVKLFQDHADILEKWQNKVRYLLVDEYQDTNASQYLLVKLLIGKRNQFTVVGDDDQSIYAWRGARPENLMLLKEDYPSLKVVMLEQNYRSTSRILRCANVLISNNPHEFEKQLWSEMGHGDEIRVIRCRNEDAEAERVAMEILSLHLRTDRPYSDFAILYRGNYQAKLIELKLQHHQIPYRLSGGNSFFGRQEVKDLMAYFRLIVNPDDDNAFLRVINVPRREIGSTTLEKLGNYATERKISMYAATDEIGLGEHLDSRFTDRLARFKRFMDKVREQCAGEDPIAALRSMVMDIDYENWLRTNSSSDKAADYRMGNVWFLIEALKNTLEKDEDGDMTVEDAIGKLVLRDMLERQQEEEEGAEGVQMMTLHASKGLEFPYVFIMGMEEEILPHRSSIEADTIEEERRLAYVGITRARQTLAFTFAAKRKQYGEVIDCAPSRFLDELPPDDLAWEGNDDTPTEVKAVRGNSALADIRAMLKR				NA	NA	NA	NA	NA
D1-35_02991	1671			hypothetical protein	TTGTCTACGCCTGTCGAACCCTTGCGTTTGCTCTTATTGGCCGAAACGCCTGAGTGGTCAGCGATATTGCGCGAGTGCCTGGCGCCCATGGGCCCCTCGGTCGTGTTGATCAGCGCCCCGAGCTGGGAGTCGGTCAGCAGCCTGTTCGAAGACAACCGCAATGCGGTCCTGTTGACTGTCGCTGCTTTGCAACCAGCGCCCGGTCGTTGCCGCCTGCCAACGGTGCTGTTGCTTGAGCACGAGCCGGCGACTCCCCCGGACGGCGTCAGCGACTGGCTGGTGCGTGACGTACTCGATGAGGCGACGCTGCGTCGTTGCCTTCGTCATGTGCGCGAGCGCGGGGTGCTGGAAAACACTCTGCAACGGCTCGCCGAGCAGGACCCGTTGACCGGCATCGCCAACCGCCAAGGCTTCCAGACCCTGCTGGCGGCACGCCTGGCTGAAAACGAAGGCCGTGGCCTGGCGCTCGGCCATCTGGATCTGGATAACTTTCGTCACGCCAACGACGCGCTCGGTCATCAGGCCGGCGACCGTCTGATCCTGCAGGTGGTCTCGCGGCTCAAGGGCGCGCTGGAAGTCGGTGATCAACTGGCGCGGCTGGGCAGCGACGAATTCGCCCTGCTGATCGATACCCGCCGCGCGCCCCAGCGGGCCGAGTGGATGGCTGAGCGCATCACCGAAGCCATGGCCGAACCCTACTGGGTCGATGGCGAAAGCCTGCTGATCGGCTGCAGCCTGGGGATCGCCCATGCTCGCGCCCAGGCCGGTGCCGACCCGCTGATGTGGCACGCGCATATCGCCATGCAGCAGGCCAAGAGCACGCAAGGCTGCACTTTTCATATCTTCAATGAGCGCATCAATCGCAACGCCCGCAGTCTCGCCGACCTGGAAAGCGAACTGCGCCGGGCGCTGCGTCGCGACGAACTGGAATTGCATTACCAGCCGCGGCTGAACCTTGCCGATGGCACCATCGTCGGCCTCGAAGCCCTGGTGCGCTGGCGTCACGGCGAGCGCGGGCTGTTGCCGCCGAGCGAATTCGTGCCACTGGCCGAGCAGAGCGGCCTGATCGTACCGTTGGGCTACTGGGTAATTTCCCGGGCGTTACGGGACATGCAGGCCTTGCGCGAGCGCGGGCTCGCGCCGCTGCATATGGCGATCAACCTGTCGTTCCGGCAATTCCAGGACAGTCAGCTGCTGCCGACCTTGAGTCGGTTGATCAGCGAACGGGGTGTCGAGGCCCAGTGGCTGGAGTTCGAACTCACCGAAACCGCCGTCATGCGTCGCAGCGAAATGGTCAAGCAGACCATGGATGCCTTGGGCCGCCTGGGCGTGCGGTTCTCCCTGGACGATTTCGGTACCGGATTTTCCTCCTTCGTGCACCTCAACAGCCTGCCCATCGCCCTGCTCAAGATCGACAAGAGTTTCGTTGGCGGCATGGAGCAGCGTGAAGAGAACCGCAAGCTGGTGCACGCGATGATCAACCTGGCCCATAACCTCAATCTTGAAGTCGTGGCCGAAGGCGTCGAGACCCGTGAACAGATGGATCTGCTGCGGGGTTTCGGTTGCGATCAGGTGCAGGGCTTCCTGATCAGCAAGCCGCTGCCGTTGGTGGAGTTGGTTGAATACCTGGCGTTTGAGGGTGGCCAGGCGACGCAGGAAATCGTGAGCTGA	MSTPVEPLRLLLLAETPEWSAILRECLAPMGPSVVLISAPSWESVSSLFEDNRNAVLLTVAALQPAPGRCRLPTVLLLEHEPATPPDGVSDWLVRDVLDEATLRRCLRHVRERGVLENTLQRLAEQDPLTGIANRQGFQTLLAARLAENEGRGLALGHLDLDNFRHANDALGHQAGDRLILQVVSRLKGALEVGDQLARLGSDEFALLIDTRRAPQRAEWMAERITEAMAEPYWVDGESLLIGCSLGIAHARAQAGADPLMWHAHIAMQQAKSTQGCTFHIFNERINRNARSLADLESELRRALRRDELELHYQPRLNLADGTIVGLEALVRWRHGERGLLPPSEFVPLAEQSGLIVPLGYWVISRALRDMQALRERGLAPLHMAINLSFRQFQDSQLLPTLSRLISERGVEAQWLEFELTETAVMRRSEMVKQTMDALGRLGVRFSLDDFGTGFSSFVHLNSLPIALLKIDKSFVGGMEQREENRKLVHAMINLAHNLNLEVVAEGVETREQMDLLRGFGCDQVQGFLISKPLPLVELVEYLAFEGGQATQEIVS	PGPT0026010_2783	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
D1-35_02992	1395	mdtK	COG0534	Multidrug resistance protein MdtK	ATGCGGCATCCGGTGCGTATCGAACTCTGGGCCATCCTGCGGCTGGCGGGGCCGTTGATTGCTTCGCAGTTGGCGCACATGCTGATGGTGCTGACCGACACCTTGATGATGGCGCGCCTGAGTCCCGAAGCCCTGGCCGGTGGTGGTCTGGGGGCGGCGAGTTACTCGTTCGTGTCGATTTTCTGCATCGGCGTGATCGCTGCCGTCGGTACGCTGGTTGCGATCCGCCAGGGCGCTGGCGATATTGAAGGCGCCACCCGGCTGACCCAGGCCGGGTTATGGCTGGCCTGGTTGATGGCGCTGGTGGCCGGGTTGCTGTTGTGGAACCTCAAGCCGGTGCTGCTGTTGTTCGGCCAGACTGAAACCAACGTCCTCGCCGCCGGCCAGTTCCTGCTGGTGCTGCCGTTCGCCCTGCCCGGCTACCTGAGTTTCATGGCCCTGCGTGGATTTACCAGCGCGATCGGCCGGGCCACTCCGGTCATGGTGATCAGCCTCGGCGGCACGGTGGCCAACTTCCTGCTCAACTACGCGCTCATCACCGGCATGTTCGGCTTGCCGAAGCTCGGCCTGATGGGGATCGGCCTGGTGACGGCGATTGTTGCCAACTGCATGGCCCTGGTGCTTGCCTGGCACATCCACCGGCACCCGGCCTACCGCGCCTATCCATTGCTTGAAGGCCTGTCGCGGCCCAATCGTCAATACCTCAAGGAACTGTGGCGCCTTGGCCTGCCGATTGGTGGTACCTACGCCGTGGAAGTCGGGCTGTTCGCGTTCGCCGCGCTGTGCATGGGCACCATGGGCAGCACGCCGTTGGCTGCGCACCAGATCGCTCTGCAAATCGTCTCGGTGGCATTCATGGTTCCAGCGGGCATGTCGTACGCGATCACCATGCGCATCGGCCAGCATTACGGCGCCGGGCAACTGCTCATGGCACGCCTGGCCGGACGGGTCGGGATCGGCTTTGGGGCAGCGGCGATGCTGGCCTTCGCCATGGTGTTCTGGCTGCTGCCCAATCAACTGATCGGTTTGTTCCTGGATCACAATGACCCGGCGTTCCGCCCGGTGATCGACCTGGCTGTGAGCCTGCTGGCCGTGGCGGCGTGGTTCGAGCTGTTCGACGGTACGCAAACCATTGCCATGGGCTGTATCCGAGGCCTGAAGGACGCCAAGACCACCTTCCTGGTAGGCCTGGGTTGCTACTGGCTGATTGGCGCGCCCGCTGCCTGGTGGATGGCCTTTCATTTGAACTGGGGGCCGACTGGTGTCTGGTGGGGCCTGGCCCTGGGGCTGGCGTGCGCGGCGGTGAGCCTGACGTGGGCATTCGAGTGGAAGATGAAGCGGATGATTCGCAGCGAGCCGGAGCAGCGGAATTTCGAAGCGATCCAGGCGAAGTGA	MRHPVRIELWAILRLAGPLIASQLAHMLMVLTDTLMMARLSPEALAGGGLGAASYSFVSIFCIGVIAAVGTLVAIRQGAGDIEGATRLTQAGLWLAWLMALVAGLLLWNLKPVLLLFGQTETNVLAAGQFLLVLPFALPGYLSFMALRGFTSAIGRATPVMVISLGGTVANFLLNYALITGMFGLPKLGLMGIGLVTAIVANCMALVLAWHIHRHPAYRAYPLLEGLSRPNRQYLKELWRLGLPIGGTYAVEVGLFAFAALCMGTMGSTPLAAHQIALQIVSVAFMVPAGMSYAITMRIGQHYGAGQLLMARLAGRVGIGFGAAAMLAFAMVFWLLPNQLIGLFLDHNDPAFRPVIDLAVSLLAVAAWFELFDGTQTIAMGCIRGLKDAKTTFLVGLGCYWLIGAPAAWWMAFHLNWGPTGVWWGLALGLACAAVSLTWAFEWKMKRMIRSEPEQRNFEAIQAK	PGPT0029115_6077	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
D1-35_02993	921	gcvA_6		Glycine cleavage system transcriptional activator	ATGTCTCGTCGCCTCCCTCCTCTTTATGCGTTGCGGGCATTCGAAGCGGCGGCGCGATACAGCTCGTTTACCCGGGCCGCTGAAGAACTGTCGATTACCCAGAGCGCGGTCAGCCGGCACATTCGCACGCTTGAGGAACACTTCGCCTGTCGGCTGTTTCAGCGCAGCGGCCGCAACCTGCAACTGACCGAGGCGGCACGCCTGCTGCTGCCGGGCGTGCGGGAGGGTTTCATGGCGCTGGAGCGTGCTTGCCATACCTTGCACGGCGAGGACGGAATTTTGCGCATGAAGGCTCCGTCGACCCTGACCATGCGTTGGTTGCTGGCGCGCCTGAGCCGCTTTCGGCATCTGCAACCCGGCAACGAAGTGCAATTGACCAGCGCCTGGATGGACGTCGACTCGGTGGACTTCAACACCGAGCCGTTCGACTGCGCGGTTCTGCTGGGCAACGGGCACTTTCCGGCGGACTGGGAGGCCAGTCTGCTGTTTCCCGAGGAGCTGATTCCGGTCGGCGCACCGACTCTGCTCAACGACCAACCCTGGGACGTGGCGCGGCTGGCCAGCGCGGAGCTGCTGCACCCCACGCCGGATCGCCGGGACTGGCGCAACTGGTTGCAGCGCATGGGGCTGGCGGACAAGGTCTCGCTCAAGGGCGGCCAGGTATTCGATACGCTGGAACTGGGCATGATCGCTGCGGCGCGGGGCTATGGTGTGTCCATGGGCGATTTGTTGATGGTCGCCGAGGACGTTGCCCAGGGACGCTTGAGTCTGCCGTGGCCTACGGCTGTTGCCAGCGGCGAGCACTATTACCTCGTCTGGCCGAAGACCCGGCCTGGAGGTGAACGTTTGCGCAGGCTCAGCGATTTTCTCCAGGGCGAGGTAAGCGCCATGCAACTGCCCGACGTGAAACGCCTGGCCTGA	MSRRLPPLYALRAFEAAARYSSFTRAAEELSITQSAVSRHIRTLEEHFACRLFQRSGRNLQLTEAARLLLPGVREGFMALERACHTLHGEDGILRMKAPSTLTMRWLLARLSRFRHLQPGNEVQLTSAWMDVDSVDFNTEPFDCAVLLGNGHFPADWEASLLFPEELIPVGAPTLLNDQPWDVARLASAELLHPTPDRRDWRNWLQRMGLADKVSLKGGQVFDTLELGMIAAARGYGVSMGDLLMVAEDVAQGRLSLPWPTAVASGEHYYLVWPKTRPGGERLRRLSDFLQGEVSAMQLPDVKRLA	PGPT0026360_2681	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
D1-35_02994	1977			hypothetical protein	ATGTCTCAACCCCGCGCCCGGATCGCCTCACAGCTAGGCCTTGCCCTTGCCGTGATACTGGCGGTCGTGATTTCCGGCAGTACCGTCTTCGCCTTGCGTTCACTGGACGCCGCCAACCTTTCCACTCGTGAGGAGCACCTGGCCAGCGAAGCGCGCCTGATGGCCGACCAGCTCAATACCTTCCACAGCACCTTGCGCGAGAGCACCCAGCGCTTGGCTGGCCTGTTCGAAAAGCGCTTCAGCGCGGGCCTGAGCGTGCATCCGGACCAGCCGGTGACAGTGGCGGGCGTGCAGACGCCAGGCTTGAGCCTGGGCAGCGAAGTGTTGAACAACAACTTCAAGGAAGTGGACGAGTTCAAGGCGATGACCGCCGGCGTAGCGACTATATTCGTGCGTAGCGGCGACGACTTCATCCGTGTCAGTACTTCGGTGAGCAAGCAGGACGGTACGCGGGCCATCGGCACCGTACTCGACCGCGCCGGCCCGGCGTACGGCCCGGTGATCAGCGGGCAGAGCTACATCGGCCGGGCCTTGCTCTTCGGTCGTTTCTACATGTCGCAATACACGCCCGTTCGCGACGGCAGCGGCAAGATCATTGCCGTGTTGTACGTAGGATTCGATTACACCGATGCGCAGAATGCGCAATTCGACAACCTCAAGCGCTTCCGCATCGGCCAGACCGGTTCCCTGGCGCTGTTGGACGAACAGAACAAATGGTTGGTACCGCCAGCGGGTGTGCAGGCGCTGGACAACGCCACCGCGGCTATCACCGGTCTGATCAAGAAGCCGGGCAAAGGTGCGTTCTGGGAAGACACCGCAGAAGAATTCTACAGCGTCGCCGTGCCGTTCGAGGGCGGGCCGTGGGCGGTGGTGGCGAGCATGCCGAAAACCGAAATCAACGCAGTAACCTGGAACGTCGGTACGCAACTGGCCATTGGCAGCCTGCTGGCAATGTTGCTGGCGGTCGGTGCTGCAGTGTGGCTGTTGCGTAGCAAACTGGCGCCCTTGGGCGACCTCGTACGTCAGGCCGAAGCGCTGGGCGCCGGCGACCTGAGCGTGCGTCTGAACGTATCCAGCCACGATGAAATTGGCCAACTGGCCCGTGCCTTCAACCAGATGAGCCAAGCCTTGTCGACCATGGTCGAGCATATCCGCAAGGCCTCGCAGGAGGTCAACAGTCGTGCCCAGGCGTTGTCCGGATTGTCCAGCGGTGCGTATGAAGGGATGGAGCAGCAGTCCGGCGAAATCACCAGCATGGCGGGCGCAGTGGAAGAGTTCAGCGCCACCTCGTTGAACATCGCCGATAACATGGGCAATACCGAGCGTCTGGCCCAGGACAACGCCCAGCAGACCCGCATCGGCCGTACCTCGATGGACGAAGCTTCGTCATCGCTGGAACAGATTGCTGGCGCGTTGAACAGCACGGCCACGGTCATCAACACCTTGGGTCAGCGCTCCCAGGAAATTGGCGGCATCGTCGGCGTGATCACCTCGATTGCCGAGCAAACCAACCTGCTGGCCTTGAACGCTGCCATCGAAGCCGCGCGCGCGGGTGAACAGGGCCGTGGTTTTGCCGTGGTGGCCGACGAGGTCCGTAGCCTGGCGTCGCGTACCCGCCAGGCCACTGACGAAATCTCTGGCATGATCAACAGCATCCAGCAGGAAACCGGCAATGCCATCAGTACGATGGAGAAGGGCAACCTGCTCATGCAGGAAGGCTTGTCGCGCAACGCCAATGTCGCCTCGGCCCTGGCGCGCATCGACGAGCAAAGCCGCTCGGCCGGCCAGCAGTTTGCAGCGATCACCACGGCCACCCAGGAGCAGAGCAGCACCGCGACCTTGCTCAGCAGCAACCTGCAAAGCATCGCGATGGCCAACAGCGAACAACGCGAAGTAGTTTCGAACCTGGCGATCACCGCCAAAGAACTGGAAAAACTGGCGCAGGACCTGCGCAAAGAGGTTGATCGGTTCCGCTGA	MSQPRARIASQLGLALAVILAVVISGSTVFALRSLDAANLSTREEHLASEARLMADQLNTFHSTLRESTQRLAGLFEKRFSAGLSVHPDQPVTVAGVQTPGLSLGSEVLNNNFKEVDEFKAMTAGVATIFVRSGDDFIRVSTSVSKQDGTRAIGTVLDRAGPAYGPVISGQSYIGRALLFGRFYMSQYTPVRDGSGKIIAVLYVGFDYTDAQNAQFDNLKRFRIGQTGSLALLDEQNKWLVPPAGVQALDNATAAITGLIKKPGKGAFWEDTAEEFYSVAVPFEGGPWAVVASMPKTEINAVTWNVGTQLAIGSLLAMLLAVGAAVWLLRSKLAPLGDLVRQAEALGAGDLSVRLNVSSHDEIGQLARAFNQMSQALSTMVEHIRKASQEVNSRAQALSGLSSGAYEGMEQQSGEITSMAGAVEEFSATSLNIADNMGNTERLAQDNAQQTRIGRTSMDEASSSLEQIAGALNSTATVINTLGQRSQEIGGIVGVITSIAEQTNLLALNAAIEAARAGEQGRGFAVVADEVRSLASRTRQATDEISGMINSIQQETGNAISTMEKGNLLMQEGLSRNANVASALARIDEQSRSAGQQFAAITTATQEQSSTATLLSSNLQSIAMANSEQREVVSNLAITAKELEKLAQDLRKEVDRFR	PGPT0015710_8044	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
D1-35_02995	1215			hypothetical protein	ATGACTCCGCTCAAACTCCTCGTTGCCCTCAGCGCCCTCGGTGCTGCCTCCCACGCCATGGCCTGGGATTATGTCCTGCTCGATACCGACAAGGCCGCACAGCCCTGGCAAATCACCAGTCAGCAGCTCGGTGTGAAGACCGACAAACCGTTTTCCGTGACGATGCGCACCCTGCACGGCGGTCGCCAGGAAGGCGTCAGCATCGTCGATATCGACAACGGCACGATGAAACTCTCGGTCGTCCCGACCCGCGGCATGAATGTGCTGCAGGCCTCGGTCGGCGATGTCCGTATGGGGTGGGATTCGCCGGTCAAGGAAGTGGTCAATCCGGCATTCATCGAGCTCAATGGCCGGGGCGGCTTGGGCTGGCTGGAAGGGTTCAACGAGCTGGTCACCCGCTGCGGCTACGAGTGGGTCGGTCATCCGGGCATGGACAATGGCGAGCTGCTGACTTTGCACGGCCGCGCGGCCAATATCCCGGCGAACAAAGTCACCCTGCACATCGATGAAAAACCGCCCTACGCGATTACCCTGCGAGGCGAGTTGAAGGAGCAGGCGTTCAAGAAAGTCGACTTTTCGGTGCAGACCGAACTGGTCACCGAACCCGGCAGCGTGACCTTCGCGCTCAGCGACACGCTGACCAACAATGGCGACTATCCGAAGGAATACCAGGCGCTCTATCACAGCAACTTCAGTACGCCGTTCCTGGAGCAGGATGCGCGCTTCGCAGCACCGGTCAAACAGGTGTCGCCGTTCAACGACAAGGCCAAGGGCGACCTGAAAGGCTGGCAAACCTATCGCGCCCCAACCAGGGACTACGACGAAACCGTCTACAACGTCGTGCCGTATGCCGACGCCAAGGGCGATACGCTGACCGTGTTGCACAACAAGGCCGGTAGCCTCGGCGTGTCGGTGGGCTTCAACACCGGGACGCTGCCGGTATTTTCCCTGTGGAAAAACACCGATACCCAAGGCCAGGGCTACGTGACCGGCCTGGAGCCGGGCACCAGTTTCTCCTACAACCGTCGATATCAGCGACCACTGGGCCTGGTGCCGACCATCGCGCCGAAAGAGCGTAAGCAGTTCCAGATCCATTACAGCCTGTTGGCGGACAAGGCTGCCGTAGACAAGGCGCTCAAGCGCATTGATGACATCCAGGGTGATCGGAAAACCGAGGTGCGCGATGCCCCGCTGGTGGACCTGAGCAAGCCGTAA	MTPLKLLVALSALGAASHAMAWDYVLLDTDKAAQPWQITSQQLGVKTDKPFSVTMRTLHGGRQEGVSIVDIDNGTMKLSVVPTRGMNVLQASVGDVRMGWDSPVKEVVNPAFIELNGRGGLGWLEGFNELVTRCGYEWVGHPGMDNGELLTLHGRAANIPANKVTLHIDEKPPYAITLRGELKEQAFKKVDFSVQTELVTEPGSVTFALSDTLTNNGDYPKEYQALYHSNFSTPFLEQDARFAAPVKQVSPFNDKAKGDLKGWQTYRAPTRDYDETVYNVVPYADAKGDTLTVLHNKAGSLGVSVGFNTGTLPVFSLWKNTDTQGQGYVTGLEPGTSFSYNRRYQRPLGLVPTIAPKERKQFQIHYSLLADKAAVDKALKRIDDIQGDRKTEVRDAPLVDLSKP				NA	NA	NA	NA	NA
D1-35_02996	1494	comM	COG0606	Competence protein ComM	ATGTCACTCGCCATCGTTCACAGCCGCGCCCAGGTCGGCGTCGAAGCACCCGCTGTCACCGTCGAAGTCCATCTGGCCAATGGCTTGCCGTCGCTGACCATGGTCGGCCTGCCGGAGGCGGCGGTGAAGGAAAGCAAGGATCGGGTGCGCAGTGCGATCATCAACTCGGGGCTCAGCTTTCCGGCACGGCGCATCACCCTGAACCTGGCGCCGGCGGACCTGCCCAAGGACGGCGGGCGGTTCGACCTGGCGATTGCCCTTGGCATCCTGTCGGCCAGCGTGCAGGTGCCGACGCTGATGCTGGACGACGTCGAATGCCTCGGCGAGCTGGCGTTGTCCGGGGCGGTACGACCGGTACGCGGGGTGTTGCCCGCGGCGCTGGCGGCACGCAAGGCTGGACGCATGCTCGTGGTGCCTTGGGCGAATGCCGAGGAGGCCTGCCTGGCGTCGGGACTGAAAGTGATCGCGGTGAATCACCTGCTCGAAGCGGTGGCGCATTTTAATGGCCATACCCCGGTCGAACCTTTTGTTTCCAACGGGCTGCTCTCGGCCAGCAAGCCCTACCCCGACCTCAGTGAAGTCCAGGGCCAGGCCGGGGCCAAGCGCGCGTTGCTGATCGCGGCAGCGGGAGCCCATAACCTGTTGTTCAGCGGCCCGCCTGGCACCGGCAAGACGTTGCTGGCGAGCCGCTTGCCGGGGTTACTGCCGCCCTTGGCCGAAAGCGAGGCCCTGGAAGTCGCGGCGATCCAGTCGGTCGCCAGTTGCGTGCCGTTGAGCCATTGGCCGCAGCGTCCGTTCCGTCAGCCGCATCATTCGGCGTCCGGCCCGGCGCTGGTGGGCGGTGGGTCCAAGCCGCAACCGGGAGAAATCACCCTTGCTCATCATGGCGTGCTGTTTCTGGATGAGTTGCCGGAATTCGACCGCAAGGTGTTGGAAGTGCTGAGAGAACCGTTGGAGTCGGGGCACATCGTGATATCCCGCGCCCGGGACCGGGTGCGCTTTCCGGCGCGCTTCCAGCTGGTGGCGGCGATGAATCCCTGCCCGTGTGGCTATCTCGGCGAGCCCAGCGGTCGTTGCTCCTGCACACCGGACATGGTGCAGCGTTACCGCAACAAACTGTCCGGCCCGCTGCTCGACCGGATCGACTTGCACCTGACCGTGGCCCGGGAAGCCACCGCACTGAACCCCAAGAGCGAACCGGGGGACGACACCGCCACCGCCGCCGAACGGGTGGCCGATGCCCGTGAACGCCAGCAAGCACGCCAAGGCTGTGCCAATGCGTTCCTGGATCTGCCGGGCCTGCGCCGGCACTGCAAACTGTCCACGACCGACGAAGCCTGGCTGGAAACCGCTTGCGAACGGCTGACCCTGTCGCTGCGAGCCGCCCATCGCCTGCTCAAGGTCGCCCGGACGTTGGCCGACCTTGAGCAAGCGGAGCGAATCAGCCGCGAACATCTGGCCGAAGCCCTGCAGTATCGCCCCGCCTCGGTTTGA	MSLAIVHSRAQVGVEAPAVTVEVHLANGLPSLTMVGLPEAAVKESKDRVRSAIINSGLSFPARRITLNLAPADLPKDGGRFDLAIALGILSASVQVPTLMLDDVECLGELALSGAVRPVRGVLPAALAARKAGRMLVVPWANAEEACLASGLKVIAVNHLLEAVAHFNGHTPVEPFVSNGLLSASKPYPDLSEVQGQAGAKRALLIAAAGAHNLLFSGPPGTGKTLLASRLPGLLPPLAESEALEVAAIQSVASCVPLSHWPQRPFRQPHHSASGPALVGGGSKPQPGEITLAHHGVLFLDELPEFDRKVLEVLREPLESGHIVISRARDRVRFPARFQLVAAMNPCPCGYLGEPSGRCSCTPDMVQRYRNKLSGPLLDRIDLHLTVAREATALNPKSEPGDDTATAAERVADARERQQARQGCANAFLDLPGLRRHCKLSTTDEAWLETACERLTLSLRAAHRLLKVARTLADLEQAERISREHLAEALQYRPASV				NA	NA	NA	NA	NA
D1-35_02997	1260	aaeA_4		p-hydroxybenzoic acid efflux pump subunit AaeA	ATGACTAACCCCATCACACTCAAGCCTGCATTGCTCTTTTTCGGATTGGGCGCGTTGATCATTATCGCGTTGCGCTGGCCGCCGGCGCCCGCAGGCACCCGCGCAACGACAAGCACAGCGCCTGACTGGGTGCATATCGAACCGCGATTGCTGGAAACCCGGCTGGGGCTGATCGGACGTATCCAGGCCGTCAACCAGGTTACCTTGACCGCCCCGTTTGATGGCTTGCTTGCCGAGGTGCGGGTACACGAAGGACAACGGGTCGAGAAAGGCCAGGTGCTGCTGACGCTGGACCCCGCGCAGTTGCAGATCCAGCTGCGCCAGGCCCAGGCGCAACTGCTCAAGGCACAGCGCGAGGCCCGCCGCTTGCAGCATTGGAGCAAAGGCTCCGAGGTCAGCAATGCCAGACGGGCTCTGAACAATGCCAGGCAGAGCCTGGCCGCCAGCGAAAGTAACCGGCGTGACACGCAAGCGTTGTTCGAACGTGGCATCGTCGCGAGGATGGAACTCGAAACGCTGGAGCAGCAGGTGCGCAGCGACCAGCAACAGCTCAGCGCGGCAATCGAGGAACTGGCCACGACACTGGCGTACGGCCAGGGCGAGGAACGCCATATCGCCGAGATGGAGCTGGCTAACGCGCAGGCGCATCACCAGGCTTTCGAAACGCTGCATGCCCGCCGAGAAGTGACGGCGCCAGTGAGCGGTTACGTCGTGCGACCTGTCATGCCGGGTGACGGCCAACCGGTAGCGGTGCAACCTGGCGTGGCCGTGAGCCGGGGCACGCCGTTGCTTGGCGTCATTGGCCTGGACCGTTTCCAAGCCCTTGCTCGCGTGGATGAAACCGACCTGTACCTGTTACGTGAAGGCATGCCAGTGCAAATCACGGGTGATGGATTCGCCGGTGAACTGAGCGGCCGCATACTGGCCATCGGAATCCAGAACGAGGCGGCTGACCAGCAGGACACAGGCGCGCGCTATAAGGTCCAGGTGTCAATTGATACGGCCGTCGCCGATTTCGACCCCCCGCTGCGGACCGGTATGAGCGCGCGTCTGGCAGTGATTCTGTACCGCGACGAACAGGGTATCGCCGTACCACCGCACGCCCTTCGCCGCGATGAGTCCGGTGCCACCTACGTGCTGTACCGGGCGACAGCACAAGCACGCCCCGAGCGCGTAATGGTCAGCCCACGCACAACCGTCGCGCAAGGAGTGGTCGTGCAGGGGCTTACGCCCGGGTTTGTCGAGGTGCCGGGTTCATGA	MTNPITLKPALLFFGLGALIIIALRWPPAPAGTRATTSTAPDWVHIEPRLLETRLGLIGRIQAVNQVTLTAPFDGLLAEVRVHEGQRVEKGQVLLTLDPAQLQIQLRQAQAQLLKAQREARRLQHWSKGSEVSNARRALNNARQSLAASESNRRDTQALFERGIVARMELETLEQQVRSDQQQLSAAIEELATTLAYGQGEERHIAEMELANAQAHHQAFETLHARREVTAPVSGYVVRPVMPGDGQPVAVQPGVAVSRGTPLLGVIGLDRFQALARVDETDLYLLREGMPVQITGDGFAGELSGRILAIGIQNEAADQQDTGARYKVQVSIDTAVADFDPPLRTGMSARLAVILYRDEQGIAVPPHALRRDESGATYVLYRATAQARPERVMVSPRTTVAQGVVVQGLTPGFVEVPGS				NA	NA	NA	NA	NA
D1-35_02998	1479			hypothetical protein	ATGATTAAAGCCTGGGCGGTCGCCTTGCTGCTGACGCCGCCCAGTGGGGCGGTGCTGGCAGATACAGCGCTGTCACCGTCACAGGCGACTCGGCCGGGCACTCCCTCCGCGGCTGTCGCCAGCGCCTCGCTCAATGCCTACGGCATCGAGCTGACCCTCAGCGATGCGATCTACCTGGGACTGCGCGACAACCGCGCCATTCGCAGCGCTTACCTGGAACGGATCGGCCAGAAATTCGCTTTGCGCGTGGCCGAGGACCGCTTCAGCCCCAAGCTGTTCGTGCGCGGCAGTTACCTGTCCAGCCATAACCAGCTCGATCGCTATCGGCAAGGTGAAATCGCACCGGTTTCAACCCTGCTCACCCCTTACGGCACGCGCGTCGGCCTGGGCTGGACCTGGCGCCAGACCGATGCCGACAGGGCGGGACTGACACGCAATGACGGCGCCAATATCACGATCATCCAGCCGCTGCTGCGCGGCGCCGGCCGCGATGTCGCCACCGCCCCAGTACAACTGGCGCGCCTGAGCGAGCAGGTCAACCGCCTGGCGCTGAAAGACCGGGTGGCGCAGACGATCACCCGGATCATTACCGCCTACCGCACGCTCCTGCAGGCTCAGGAACAGCTGAACATCTCCAGCAACGCCTTGGCGCGGGCGCACCAACTGCTCGGCGTCAACCGGGCGATGATCGACGCCGGGCGCATGGCCGCGTTCGAGATCGTCCAGACCGAGGCCGAAGTCGCCAACCAGGAGCTGAGCCACGAAGACGCCCGCAACCAACTGGAAAACACTCGCCTGGCATTGTTGCAACTGCTTGCGCTGGACCTCGACACTCCAATCATTGCCAGCGAGGCCATGCAAGCCGCGCCCCTCGACATCGACACTGCGCAGGCCGTGCGCCAGGCCGAAGCATTGCAACCGACCTACCTCATCCAACTGATCGCCGGCCAGCAGGCCCGGATAAACAGGGTCGTGGCACGCAACGAGCGCCTATGGGACGTATCGCTGGTCGGCGGCGGCGGTCAGGTCCGTGATCGCAACAATCTCCACGGCAGCACCCGAAGCTGGGAGAACTACGTGGGCGTGCAGGTGGAGATTCCGATCGGCGACCTGAGCGCCCGCCAGGCTGAAGTCCAGGCCCGGGTCGACGTGGAGAACCAGCAGGTCCGCACGCAAGAGGCTCATCAGGAACTGCAGCGTGGCGTGACCAACGCAGTACGCGACATCGGCGCGCGCTGGCGACAGTATCAAATCGCCCGGCGCGCCGAGGAGCTGTCCCAGCGAAAGCTGGACATCGAGCAAGAAAAACTCACCGTGGGGCGTTCGAGCAACTTTCAGGTTCTCAGCTTCGAAAATGACCTGCGCATGGCGCAGAGTGCCCGATTGGCCGCACTCATCAGTTACCTCAACGCCCAGGCGGAACTGGATCAGACCTTGGGCACCACCCTGCAAAGCTGGGACATCGCGTTGAATGACTAA	MIKAWAVALLLTPPSGAVLADTALSPSQATRPGTPSAAVASASLNAYGIELTLSDAIYLGLRDNRAIRSAYLERIGQKFALRVAEDRFSPKLFVRGSYLSSHNQLDRYRQGEIAPVSTLLTPYGTRVGLGWTWRQTDADRAGLTRNDGANITIIQPLLRGAGRDVATAPVQLARLSEQVNRLALKDRVAQTITRIITAYRTLLQAQEQLNISSNALARAHQLLGVNRAMIDAGRMAAFEIVQTEAEVANQELSHEDARNQLENTRLALLQLLALDLDTPIIASEAMQAAPLDIDTAQAVRQAEALQPTYLIQLIAGQQARINRVVARNERLWDVSLVGGGGQVRDRNNLHGSTRSWENYVGVQVEIPIGDLSARQAEVQARVDVENQQVRTQEAHQELQRGVTNAVRDIGARWRQYQIARRAEELSQRKLDIEQEKLTVGRSSNFQVLSFENDLRMAQSARLAALISYLNAQAELDQTLGTTLQSWDIALND	PGPT0003600_1251	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-AlgE-TYPE_MANNURONAN_C-5-EPIMERASE_TRANSPORT,PGPT0003600-tolC-K12340	NA	NA
D1-35_02999	1203	macB_2		Macrolide export ATP-binding/permease protein MacB	ATGACTGAGTCGACTCGCTACGGACCGTTGCCCTGGCAACTGCTGACCGAGGCCCTCGACAGCCTGCGCCGCCTGGGACGACGAGCCTTGCTGGCATTGCTGGGTATCGCGGTTGGCTGCGCGGCGGTAGTTGCGCTGCTGAACATTGGCCATAACGCCCAAGCCCGGAGCATGGAGGTATTCCAGGCGATGGGCAGCGACCTGCTGATCGCGGACGTGAAGCCGGCCTCGAACAAGGGAGTGCCGGGGCATGCCCCGACCAATCTCGATAACCAGGCCCTTCGCGAGGCGTTACCTGAGGTGCTGGCGGTCAGCGCCCTGAACTTGGCCTCAGTGCCGGCAAGCATGCATGGGCGACCGCTCAGCACCCTGCTGGCCGGGGTCGACCCGGAAATAGCCTCGGTGCTTGGCCTGCAGCCGGAGCAAGGACGATTCCTCAGCCGCTACGATGCCCAGAGCACCCATGCAGTGCTCGGCGCGACGTTGGCCGCTCAGCATGCCCCCGTCGCGCCGGGTGATACGTTGCAACTGGCCGGCTATCTGTTCCAGGTGGTCGGCGTACTCCACAGCCATGGTCAAAACCCCCTGCTGCCGCTGCCCATCGATGACAGCATCCTGGTGCCGATCGAGGGCATGCGCCGCCTCGTTTCCGCACCGCAAATCGGCACTGTGCTGGTGCGCAGCAACGAAGGCGCGGGCTCACAAACCCTAGCCCCGAAACTGCATGACTACCTGCTGACATCCTTGCCCGGTCGGGAGATCGACGTGCAGGTCCCGCAGCGGTTACTCGACGGTCTCGCCCAGCAATCGCAGTTGTTCTCCTGGTTGCTGGCAGGGTTGGGGGGAATTTCGCTCTTGGTCGGTGGCGTCGGCGTGATGAACATCATGTTGATGAACGTCGCCGAACGCCGCGGCGAAATCGGTGTGCGCATGGCACTGGGTGCTCGCCCGCGGGACATCGCCTGGCTGTTTCTGCTGGAGGCCATGGTGCTGACAGTCGCCGGAGCGTCCACCGGTGCTCTGCTCGGAGTGGCAACCGGCTGGTTGTTCGTCGTGCTGTCAGGCTGGATGGATTTCACGCTCTCGCCCCTTTCATTGCCGCTGGGCATGGGCGGTGCGCTGCTCACGGGGTTGCTCTTTGGCCTGAGCCCGGCGCTGTCCGCCGCGCGCCTGCAGCCCGTGCAGGCGCTGCGTGATGATTAA	MTESTRYGPLPWQLLTEALDSLRRLGRRALLALLGIAVGCAAVVALLNIGHNAQARSMEVFQAMGSDLLIADVKPASNKGVPGHAPTNLDNQALREALPEVLAVSALNLASVPASMHGRPLSTLLAGVDPEIASVLGLQPEQGRFLSRYDAQSTHAVLGATLAAQHAPVAPGDTLQLAGYLFQVVGVLHSHGQNPLLPLPIDDSILVPIEGMRRLVSAPQIGTVLVRSNEGAGSQTLAPKLHDYLLTSLPGREIDVQVPQRLLDGLAQQSQLFSWLLAGLGGISLLVGGVGVMNIMLMNVAERRGEIGVRMALGARPRDIAWLFLLEAMVLTVAGASTGALLGVATGWLFVVLSGWMDFTLSPLSLPLGMGGALLTGLLFGLSPALSAARLQPVQALRDD	PGPT0013350_16823	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
D1-35_03000	702	yknY	COG1136	putative ABC transporter ATP-binding protein YknY	ATGCCTGAAAATCCCGCTCCCGAGCTGATCCGCGTACAAGGCATGAGCCATATCCATGGCATCGACGCGACCGCACGCGCCACCCTGCGCGATGTGTCGCTGACCATCAATGCAGGACAGAGCTGCGCCATTATCGGCGCCTCGGGATCCGGCAAAAGTACCCTGCTCGGCTTGATCGGCCTGCTTGACCAACCTTCGACCGGGCAGGTCTACCTGGCTGGCCGCGACATGACCCAGGCAAGCGCTGATGCTCGCGCGATGATGCGCAACCGACACATCGGCTTCGTCTTTCAGAGCTTCAACCTGCTGCCACGCCTGGACGCCCTGGACAATGTCGCGCTGGCGCTGCTCTACCGCGGCATATCTCGCCAGGCTGCCCAGGCAGCCGCGCGGCGCCAGCTATTGCAGCTCGGTCTGGGCGAACGCCTGCATCATCGCCCGGCACAGTTGTCCGGAGGCCAACGCCAGCGCGTGGCCATCGCGCGAGCGCTGGTGGGAGAGCCGGCCTTGCTGCTGGCCGACGAGCCCACCGGCAACCTCGACAGCCAGACCGCCAGCGAGGTCATCGAACTGCTGCTGGCGCTCAATCGGGAGCGGGGCGTCACCTTGATAGTCGTCACCCACGACCCGGACATCGCCAAGCGCATGCAGCGCTGCCTGCGGATCAGCGAGGGCCGCCTGTGGGAAATGCCTCATGACTGA	MPENPAPELIRVQGMSHIHGIDATARATLRDVSLTINAGQSCAIIGASGSGKSTLLGLIGLLDQPSTGQVYLAGRDMTQASADARAMMRNRHIGFVFQSFNLLPRLDALDNVALALLYRGISRQAAQAAARRQLLQLGLGERLHHRPAQLSGGQRQRVAIARALVGEPALLLADEPTGNLDSQTASEVIELLLALNRERGVTLIVVTHDPDIAKRMQRCLRISEGRLWEMPHD	PGPT0013345_10034	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
D1-35_03001	780			hypothetical protein	ATGGATGGTATCAACGGCGCACGCCTGCACTACGCAACGAACCTGAAAGCCACCGCAAGCCCGCTAGAGCCGACCGACAAGGTCGGCGCCAGCCCGAGGAGCGAGGTGCAACCCGGCGCCTTGAGCGGCAATACCACCACCCGACTCTCGCCGATGGCACAGCTGCTCAGCGACGCAGCAGCACGCGCTGCGGAGCGGGACGCCAGCAATGATCGTGCAGGCTTGGCGGACATTGCCCGGCGAGCCACGCAAGATTTCTTCATCCCCTATGTCGCGAAAAACAAGGAAATCCGCGACGCCGAAGTGCCGCCCTCGGACGATCCGCAGCGCCTGGATCAGGCACAGCAGGCAACGAACTTCCTCAACAAGAAAGGCGGCAACCCGTTCGCGAACCTTTCCATCGAGCAACTGACGCTGATCATCTATGACGACAGCGGTGACTTTACTCACAATGAACGCAGAGTGGCATGGGAAACCTATAGCGACGCGCACGGCGCCTGGACCTTCACAGTCACCAATAAGCTGATGGACGAGGATAAAACCCCGGAAACCATCAGGGATGTTCTCAATTACTACAAAAGCCTGCCCCCCATTCAGGAGTCTCTGATGCTCGGCGATTACGAAGCCGACTTTACTCAACAGATCAAGAGCGCCGAATTGGCCAAAGCGCGGAGGTTAAGTGGCAGCGACGACGGAATGCCCCCATGGCAATCGTTGCTTGAGCTGATGCTGGCGCAGCAGCAGAAAGACAAACCCGAAACGCCCGCGACAGACGCCTGA	MDGINGARLHYATNLKATASPLEPTDKVGASPRSEVQPGALSGNTTTRLSPMAQLLSDAAARAAERDASNDRAGLADIARRATQDFFIPYVAKNKEIRDAEVPPSDDPQRLDQAQQATNFLNKKGGNPFANLSIEQLTLIIYDDSGDFTHNERRVAWETYSDAHGAWTFTVTNKLMDEDKTPETIRDVLNYYKSLPPIQESLMLGDYEADFTQQIKSAELAKARRLSGSDDGMPPWQSLLELMLAQQQKDKPETPATDA				NA	NA	NA	NA	NA
D1-35_03002	432			hypothetical protein	ATGCAATTGAAAAAACGCAGCGTCGCGGCTTTGGCCGTCTGCTCCCTGCTCGTCGCTGGTGCGGCGCAAGCAGGTCCAACGATACGGGTTACCGTCAAGAACCTTGGCAGCGCGACGGTCAAGTATTCGTTCCAGGGCAACAACGAAGCCCTCACCCACGCGAATGCGACACCCAAGCCTGCGGATACGATCAATCCGCAGCAAGCCATCACTTTCGAAGTGCGAGACCAGCGCAACCCTGCGATTGCCACTGCGGTCGTCCGCTATGGCGCCGACGGCAAAACTTGCGTGTTCAGCACCTTCTACATCAACCCCAAGCTGCCTAAATGGACCAAGGACGCGCAGGCTACCGGCCGAGTCCGCTGCAATGCGACGATTACCGCAATAAACGCGTCCGATCACTCGTGGAACATTGAGTTCACGATCCAGTAA	MQLKKRSVAALAVCSLLVAGAAQAGPTIRVTVKNLGSATVKYSFQGNNEALTHANATPKPADTINPQQAITFEVRDQRNPAIATAVVRYGADGKTCVFSTFYINPKLPKWTKDAQATGRVRCNATITAINASDHSWNIEFTIQ				NA	NA	NA	NA	NA
D1-35_03003	261	ubiK		Ubiquinone biosynthesis accessory factor UbiK	ATGCTTGCCCCCAAAGATCTCCTCGACGCCCTGAGCGGCCACGCCTCCCGCCTCTTGAGTGGCGACACCCCCCTGCCCAAAAGCGAAATCGAAAGCCAGTTCAAGGCTTTATTGCAAAGCGGGTTCAGCAAGCTGGACCTGGTCAGCCGGGAAGAATTCGACAGCCAGATGGTGGTGCTGGCCCGAACTCGGGCGCGGTTGGAGAGCCTGGAGGCGAAGGTGGCGGAGTTGGAGGCGAGGCTGAATCCACCTGCGGAATAA	MLAPKDLLDALSGHASRLLSGDTPLPKSEIESQFKALLQSGFSKLDLVSREEFDSQMVVLARTRARLESLEAKVAELEARLNPPAE				NA	NA	NA	NA	NA
D1-35_03004	339	glnK	COG0347	Nitrogen regulatory protein P-II 2	ATGAAGCTAGTCACTGCCATCATCAAGCCGTTCAAGTTGGACGACGTGCGCGAGTCGCTGTCCGAAATCGGCGTGCAGGGCATTACCGTCACTGAAGTCAAAGGCTTCGGTCGGCAGAAAGGTCACACCGAGCTGTACCGCGGCGCGGAATACGTGGTCGATTTCCTGCCCAAGGTGAAGATCGACGTTGCCATCGACGACAAGGATCTTGATCGGGTCATCGAGGCGATTACCAAGGCCGCCAACACCGGCAAGATTGGTGACGGAAAGATCTTTGTGGTCAATCTGGAACAGGCTATCCGCATCCGTACCGGCGAAACCGATACCGACGCTATCTAA	MKLVTAIIKPFKLDDVRESLSEIGVQGITVTEVKGFGRQKGHTELYRGAEYVVDFLPKVKIDVAIDDKDLDRVIEAITKAANTGKIGDGKIFVVNLEQAIRIRTGETDTDAI	PGPT0000675_31	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000675-glnK|glnZ-K04752	NA	NA
D1-35_03005	1335	amtB_2		Ammonia channel	ATGACTCTGCGTAAATTCGCAGGGCTAGGAGCCCTGTTGTCCTTCGTAATGCCTGGCCTGGCCATGGCAGAAGAAGCGGCAGCCCCAGTCCTCAATTCCGGCGACACCGCCTGGATGCTGACGGCCACGATTCTTGTTCTGTTCATGACCATTCCCGGCCTTGCGTTGTTCTACGGCGGCATGGTTCGGTCGAAAAACATTCTTTCCGTGATGATGCAGTGCTTCGCCATTACCGGTCTGATCAGCGTGTTGTGGGTCATCTATGGCTACAGCATCGCGTTCGACACTACCGGCATGGAGCAGGGCGTCGTCAACTTCAACTCCTTCGTCGGCGGCCTGGGCAAAGCGTTCCTGGCGGGCGTCACCCCGGCCAGCATCACCGGCCCGACGGCGTTGTTCCCTGAAGCAGTCTTCATTACCTTCCAGATGACCTTCGCGATCATCACCCCGGCCCTGATCGTCGGCGCGTTCGCCGAGCGGATGAAGTTCTCCGCCATGCTGATCTTCATGGGCGTGTGGTTCACCTTGGTGTATGCGCCGATTGCGCACATGGTCTGGTCCGGCAACGGCGGCCTGATGTGGGACTGGGGTGTACTGGACTTCGCCGGTGGCACCGTGGTGCACATCAACGCCGGTATCGCAGGCCTGGTGGCGTGCCTGGTGCTGGGCAAGCGCAAAGGCTTCCCGACCACGCCGATGGCACCGCACAACCTGGGTTACACCCTGATGGGCGCGGCCATGTTGTGGGTGGGCTGGTTCGGTTTCAACGCCGGTTCCGCCGTCGCGGCCAACGGCACCGCCGGCATGGCGATGCTGGTCACCCAGATCGCCACCGCAGCCGCCGCGCTGGGCTGGATGTTCGCCGAGTGGATCACCCACGGTAAGCCAAGCGCACTGGGCATCGCCTCGGGCGTCGTGGCCGGCCTGGTTGCAATCACCCCGGCGGCCGGCACCGTGGGCCCGATGGGCGCCCTGGTCATTGGTCTGGCGGCGGGCGTGGTGTGCTTCTTCTGCGCCACCACCCTCAAGCGCAAACTCGGCTATGACGACTCCCTGGACGCCTTTGGCGTGCATGGCATCGGCGGTATCCTCGGCGCCATCCTGACCGGTGTGTTCGCAGCACCAGCCCTGGGCGGCTTCGGCACCGTGACCGATATCGGTGCGCAAGTGTGGATTCAGTTCAAAGGCGTAGGCTTTACCGTGATCTACACGGCGGTTGTCACCTTCATCATCCTCAAGGTCCTCGACGCCGTCATGGGTCTGCGGGTTTCCGAGGAAGAAGAGGCCGTGGGCCTGGACCTGGCCCAGCACAACGAACGTGGTTACAACCTATAA	MTLRKFAGLGALLSFVMPGLAMAEEAAAPVLNSGDTAWMLTATILVLFMTIPGLALFYGGMVRSKNILSVMMQCFAITGLISVLWVIYGYSIAFDTTGMEQGVVNFNSFVGGLGKAFLAGVTPASITGPTALFPEAVFITFQMTFAIITPALIVGAFAERMKFSAMLIFMGVWFTLVYAPIAHMVWSGNGGLMWDWGVLDFAGGTVVHINAGIAGLVACLVLGKRKGFPTTPMAPHNLGYTLMGAAMLWVGWFGFNAGSAVAANGTAGMAMLVTQIATAAAALGWMFAEWITHGKPSALGIASGVVAGLVAITPAAGTVGPMGALVIGLAAGVVCFFCATTLKRKLGYDDSLDAFGVHGIGGILGAILTGVFAAPALGGFGTVTDIGAQVWIQFKGVGFTVIYTAVVTFIILKVLDAVMGLRVSEEEEAVGLDLAQHNERGYNL	PGPT0000840_4013	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320	NA	NA
D1-35_03006	426			hypothetical protein	ATGTGGCAACAGACGCTGATAACCCTGCGGGCAAGGCCCAGGGGCTTTCATCTGGTAACGGACGAGTTGCTCGCCGGCCTGCCTGAACTCAAGGCATGTCGTGTCGGTCTGTTGCATCTGTGGCTGCAGCACACCTCGGCCTCGCTGACCATCAACGAGAACGCCGATCCGGCGGTACGTCGAGACTTCGAACGATTTTTCAATCGGCTGATCCCACAAGGAACCGCCGACTATGAGCACAACGACGAAGGCCTGGACGACCTCCCGGCGCACTTCAAGGCCAGCGTGCTGGGATGTCAGCTCAGTCTTCCGGTGACGGCGGGACGGTTGGCGTTGGGCACCTGGCAAGGTGTTTATCTGGGCGAGCACCGTGATCATGGCGGTACTCGTAAAGTCCTCGCCACCTTGTACGGTGAAGGGGCATGA	MWQQTLITLRARPRGFHLVTDELLAGLPELKACRVGLLHLWLQHTSASLTINENADPAVRRDFERFFNRLIPQGTADYEHNDEGLDDLPAHFKASVLGCQLSLPVTAGRLALGTWQGVYLGEHRDHGGTRKVLATLYGEGA				NA	NA	NA	NA	NA
D1-35_03007	324	sutA		Transcriptional regulator SutA	ATGAGCGACGATGATCTGGAAAACGACGACCTCGAAGTAGGTGATGAAGACGAGGCCGAAGAAGGCCTGGAAGCGGCGGCTGAAGACGTCGCTGACGATGACGGTGCCGATGTTCCGGTCCCGACCGCCAAAGGCAAGGCCAAGGCGGCGGTATCGGTCGACGAGTTGCCGAGCGTAGAGGCCAAGAACAAGGAGCGTGATGCGCTCGCCAAGGCCATGGAGGAATTCCTGGCCCGAGGTGGCAAGGTGCAGGAAGTGGAGGCCAATGTGGTCGCCGATCCGCCCAAGAAGCCTGACAACAAGTACGGCAGCCGCCCGATCTGA	MSDDDLENDDLEVGDEDEAEEGLEAAAEDVADDDGADVPVPTAKGKAKAAVSVDELPSVEAKNKERDALAKAMEEFLARGGKVQEVEANVVADPPKKPDNKYGSRPI				NA	NA	NA	NA	NA
D1-35_03008	705	yigB	COG1011	5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YigB	ATGACCATCGAACTCATCACTTTCGACCTGGACGACACCCTGTGGGACACCGCCCCGGTGATCGCCAGCGCCGAAGCCGTATTACGTCAGTGGCTGACCGATAACGCACCGGACCTGGGCGATTTTCCGGTGGAGCGCTTGTGGGCAATCCGCACACAAGTGCTCAGCGAAGAGCCGGACCTCAAGCACCGCATCAGTGCCTTGCGCCGACGCGTGCTGTTCCGGGCACTGCAAGACGCCGGCTACGATCAATGGCGGGCTTCGGAGCTGGCAGACCAGGGATTCGAGGCCTTCCTGCATGCCCGACATCAACTGGAGGTCTTTCCCGAGGTGCAGCCGACCCTGGAATTGCTCGCCAATGATTACGCCCTTGGCGTCGTCACCAATGGCAACGCCGACGTGCGGCGCCTGGGGCTGGCGGATTACTTCAAGTTCGCCCTGTGCGCCGAGGACATCGGCATCGCCAAGCCCGACGCCCGGCTGTTCCACGAAGCCCTGCAACGCGGTGGCGCGACCGCGCAGACTGCCGTGCACATCGGCGATCACCCGGGCGACGACATCGCCGGCGCCCAACAGGCCGGCCTGCGCGCAGTGTGGTTCAACCCGACGGGCAAGGCGTGGGACGCCGACCATGCGCCGGATGCGGAAATCCGCAGCCTGACCGAACTGCCGGGGTTATTGGCAGGATGGCATAACCCGCGCTAA	MTIELITFDLDDTLWDTAPVIASAEAVLRQWLTDNAPDLGDFPVERLWAIRTQVLSEEPDLKHRISALRRRVLFRALQDAGYDQWRASELADQGFEAFLHARHQLEVFPEVQPTLELLANDYALGVVTNGNADVRRLGLADYFKFALCAEDIGIAKPDARLFHEALQRGGATAQTAVHIGDHPGDDIAGAQQAGLRAVWFNPTGKAWDADHAPDAEIRSLTELPGLLAGWHNPR	PGPT0008585_777	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008585-yigB-K20862	NA	NA
D1-35_03009	900	xerC_1	COG4973	Tyrosine recombinase XerC	ATGGAACGGCAACTGGACGCCTACTGCGAGCACCTGCGCAGTGAGCGCCAGGTGTCGCCCCACACCTTGTCGGCGTATCGCCGCGACCTCGAAAAGGTGCTGGGCTGGTGCCAGAAACAGAATATCGGCAGCTGGTCGGCGCTGGATATCCAGCGCCTGCGCAGCCTGATTGCCCGCCTGCATCAACAAGGGCAATCCTCCCGCAGCCTGGCGCGACTGTTGTCGGCGGTGCGCGGCTTGTACCAGTACCTCAATCGTGAAGGCCTTTGCGACCACGACCCGGCCACCGGCCTGGCACCGCCCAAGGGCGAGCGTCGGCTGCCCAAGACCCTCGACACCGACCGCGCCTTGCAATTGCTGGAGGGCGCCGTCGAGGATGACTTTCTCGCGCGGCGAGACCAGGCAATCCTCGAGCTGTTCTATTCCTCGGGCCTGCGGCTTTCAGAACTGACCGGGCTGAACCTGGAACAACTGGACCTCGCCGACGGCATGGTTCAGGTGCACGGCAAGGGCAGCAAGACCCGCCTGCTGCCTATCGGCCGCAAGGCCCGGGAAGCCTTGGACCTGTGGCTGCCGCTCCGGGCAATGGCCAACCCGGCCGATGAAGCAGTCTTCGTCAGCCAGCAAGGCCGGCGCCTCGGGCCGCGAGCGATACAATTGCGGGTCAAGGCTGCCGGTGAGCGCGAACTTGGGCAGAACCTGCATCCACACATGCTGCGACATTCGTTCGCCAGTCACCTGCTCGAATCGTCCCAGGACCTGCGCGCCGTCCAGGAGTTGCTCGGCCATTCGGACATCAAGACCACCCAGATCTATACCCATCTGGATTTCCAACACCTGGCGACGGTCTATGACAGTGCCCACCCCAGGGCCAAACGCATCAAGGGCGACGAATCATGA	MERQLDAYCEHLRSERQVSPHTLSAYRRDLEKVLGWCQKQNIGSWSALDIQRLRSLIARLHQQGQSSRSLARLLSAVRGLYQYLNREGLCDHDPATGLAPPKGERRLPKTLDTDRALQLLEGAVEDDFLARRDQAILELFYSSGLRLSELTGLNLEQLDLADGMVQVHGKGSKTRLLPIGRKAREALDLWLPLRAMANPADEAVFVSQQGRRLGPRAIQLRVKAAGERELGQNLHPHMLRHSFASHLLESSQDLRAVQELLGHSDIKTTQIYTHLDFQHLATVYDSAHPRAKRIKGDES	PGPT0021995_3490	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0021995-xerC-K03733	NA	NA
D1-35_03010	726			hypothetical protein	ATGACCGATAAGCCTCAGGTTCCAGCCCCGCAGCCCGACGAATCCCCGAGCCAGAACCCGGAAGCCGCAGCCGTGGCCGCTTACCTGGAGGCCCATCCGGACTTTTTCGTCGCGCATGAAGACCTGCTTTCGACGATGCGCATTCCCCACCGGCGCGGCGATACCGTGTCGCTGGTGGAGCACCAGATGAAGATCCTGCGCGAACGCAACATCGAAATGCGCCACCGTCTTTCGCACCTGATGGACGTGGCGCGCGACAACGACCGGCTCTTCGACAAGACCCGTCGCCTGATCCTCGCGTTGATGGACGCCAGCACCCTGGAAGACCTGGTGATGAGCGTCGAAGACAGCCTGCGCCAGGATTTCCAGGTGCCTTTTGTCAGCCTCATTCTGTTTGGCGACAACGCCATGCCGGTGGGGCGCTGGGTGACTCACGCCGAAGCGCAGACCGCCATCGGCGGCCTGCTCACGGAAAACAAAAGCGTCAGCGGTAGCCTGCGCGAACATGAGCTGGATTTCCTGTTCGGCGAAGAACAACGCAAGCAGATCGGCTCTACGGCCGTCGTCGCCATTGCCCACCAGGGCGTGCACGGCGTGCTGGCCATCGCCAGCCGCGATCCGCAGCACTACAAGAGCTCGGTCGGCACGTTGTTCCTGAGTTATATCGCCGAAGTCACCGGCCGCGTGCTGCCACGGGTTGCCGGTTCGCTGCGCTCGGTACGCTGA	MTDKPQVPAPQPDESPSQNPEAAAVAAYLEAHPDFFVAHEDLLSTMRIPHRRGDTVSLVEHQMKILRERNIEMRHRLSHLMDVARDNDRLFDKTRRLILALMDASTLEDLVMSVEDSLRQDFQVPFVSLILFGDNAMPVGRWVTHAEAQTAIGGLLTENKSVSGSLREHELDFLFGEEQRKQIGSTAVVAIAHQGVHGVLAIASRDPQHYKSSVGTLFLSYIAEVTGRVLPRVAGSLRSVR				NA	NA	NA	NA	NA
D1-35_03011	831	dapF_3	COG0253	Diaminopimelate epimerase	ATGCTGCTGCGTTTTACCAAGATGCACGGCCTGGGCAATGACTTCATGGTCCTCGACCTGGTCAGCCAGCACGCGCACATCCTGCCCAAGCATGCCAAGCAATGGGGCGACCGCCACACCGGCATCGGCTTCGACCAGTTGCTGATCGTCGAGGCGCCGAACAACCCGGACGTGGATTTCCGCTACCGGATCTTCAATGCCGACGGTTCCGAAGTGGAGCAATGCGGCAACGGTGCGCGCTGCTTCGCCCGCTTCGTGCTGGACAAGCGCCTGACTGCCAAACGGCAGATTCGCGTCGAGACCAAAAGCGGCATCATCGAACTGGATGTCCGCAGCGACGGCCAGATCGGCGTCAACATGGGCGCCCCACGCCTGGTTCCGGCGGACATTCCGTTCCAGGCACCGGCCCAGGCCCTGAGCTATACCGTCGACGTCGACGGTACGCCGGTGGAACTGGCGGCGGTGTCCATGGGCAACCCCCATGCCGTGCTGCGGGTGGATGATATAAACAGTGCGCCCGTGCACGAACTGGGGCCGAAGATCGAGCATCATTCGCGCTTCCCGGCCCGGGTGAACGTCGGCTTCCTGCAGGTCATAGACCGGCATCGTGCGCAACTGCGCGTCTGGGAACGCGGCGCCGGGGAAACCCAGGCGTGCGGCACCGGCGCCTGCGCCGCGGCCGTCGCCGCGATCAGCCAGGGGTGGATGGATTCGCCATTGCTGATCGACCTGCCTGGCGGGCGCCTGTCCATCGAATGGGCAGGCCCTGGCCAACCGGTGATGATGACCGGCCCGGCCGTACGCGTATACGAAGGACAAGTTCGTCTTTGA	MLLRFTKMHGLGNDFMVLDLVSQHAHILPKHAKQWGDRHTGIGFDQLLIVEAPNNPDVDFRYRIFNADGSEVEQCGNGARCFARFVLDKRLTAKRQIRVETKSGIIELDVRSDGQIGVNMGAPRLVPADIPFQAPAQALSYTVDVDGTPVELAAVSMGNPHAVLRVDDINSAPVHELGPKIEHHSRFPARVNVGFLQVIDRHRAQLRVWERGAGETQACGTGACAAAVAAISQGWMDSPLLIDLPGGRLSIEWAGPGQPVMMTGPAVRVYEGQVRL	PGPT0007230_3010	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007230-dapF-K01778	NA	NA
D1-35_03012	1248	lysA	COG0019	Diaminopimelate decarboxylase	ATGGACGCTTTTAACTACCGTGGCGGGGAGCTGTTCGCGGAAGGGGTTGCCCTGTCCGCGATAGCCGAACGTTTCGGCACGCCGACCTACGTCTATTCCCGTGCCCATATCGAAGCCCAGTACCGCACCTTCGCCGATGCCCTCGAAGGCATGCCGCACCTGGTGTGCTTCGCGGTAAAAGCCAACTCGAACCTGGGCGTGCTCAACGTCCTGGCGCGCCTTGGCGCCGGCTTCGACATCGTCTCCGGAGGCGAGCTGGAGCGTGTGCTGGCCGCGGGTGGCAGCGCCGACAAGATCGTTTTCTCCGGTGTCGGCAAGACCCGCGAAGACATGCGCCGCGCGCTGCAAGTCGGTGTGCATTGCTTCAACATCGAATCCACCGACGAGCTGGAGCGGTTGCAGGTCGTCGCCGCCGAGCTGGGCGTGCGCGCACCGGTTTCCTTGCGCGTGAACCCGGACGTCGACGCCGGCACCCACCCGTACATTTCCACTGGCCTCAAGGAAAACAAGTTCGGCATCGCCATTGCCGACGCCGAGGACGTGTACGTGCGCGCAGCCCAGCTGCCAAACCTGGAAGTGCTCGGCGTCGATTGCCACATCGGCTCGCAACTGACCACCCTCGAACCGTTCATCGACGCCCTCGACCGCCTGCTGGCGCTGGTCGATCGCCTCGGCGACTGCGGCATCTACCTGCGTCACATCGACCTGGGCGGCGGTGTCGGCGTGCGTTATCGCGACGAAGAACCGCCATTGGTGGCCGACTACATCAAGACCGTGCGCGAGCGCCTCGAAGGCCGCGACCTGGCATTGATGTTCGAGCCCGGTCGCTACATCGTCGCCAATGCCGGCGTGCTGCTGACCCAGATCGAGTACCTCAAGCACACCGAGCACAAGGATTTCGCCATCGTCGACGCGGCCATGAATGACCTGATCCGTCCGGCGCTGTACCAGGCCTGGATGGATGTCACCGCGGTGCGCCCACGCGATACCGCGGCCCGCGCCTACGACATCGTCGGGCCGATCTGCGAAACCGGCGACTTCCTGGCCAAGGGTCGGGAGCTGGCGCTGGAAGAAGGCGATCTGCTGGCCGTGCATTCGGCGGGTGCCTACGGGTTTGTCATGAGTTCCAACTACAACACCCGCGGCCGTTGCGCCGAGGTGCTGGTGGACGGTGATCAGGCATTCGAAGTGCGCCGCCGCGAGACGGTAGCCGAGCTGTTTGCCGGCGAAAGCCTGTTGCCGGAGTAA	MDAFNYRGGELFAEGVALSAIAERFGTPTYVYSRAHIEAQYRTFADALEGMPHLVCFAVKANSNLGVLNVLARLGAGFDIVSGGELERVLAAGGSADKIVFSGVGKTREDMRRALQVGVHCFNIESTDELERLQVVAAELGVRAPVSLRVNPDVDAGTHPYISTGLKENKFGIAIADAEDVYVRAAQLPNLEVLGVDCHIGSQLTTLEPFIDALDRLLALVDRLGDCGIYLRHIDLGGGVGVRYRDEEPPLVADYIKTVRERLEGRDLALMFEPGRYIVANAGVLLTQIEYLKHTEHKDFAIVDAAMNDLIRPALYQAWMDVTAVRPRDTAARAYDIVGPICETGDFLAKGRELALEEGDLLAVHSAGAYGFVMSSNYNTRGRCAEVLVDGDQAFEVRRRETVAELFAGESLLPE	PGPT0023875_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023875-mrcA-K05366	NA	NA
D1-35_03013	171			hypothetical protein	ATGAAGCGCCTGATCTCTTCCCTTGCTGCGCTCGTCGCGGTTGCCTGCCTTGTGACAGCCTGTGGTCAAAAAGGTCCGCTGTACCTGCCTGATGACAGCAAGTCCCCTGAAGAACAGGCCAAGTCGTCGCAATCCAAGTCACACGCGCACGACACCCACACCACTTACTAA	MKRLISSLAALVAVACLVTACGQKGPLYLPDDSKSPEEQAKSSQSKSHAHDTHTTY				NA	NA	NA	NA	NA
D1-35_03014	333	cyaY	COG1965	Iron-sulfur cluster assembly protein CyaY	ATGAGTTTGACTGAAGCCCGTTTCCACGACCTGGTCGATGCGACCCAGCAAACGCTGGAAGATATCTTCGACGAGAGCGACATGGATATCGACCTGGAAAGCTCCGCTGGTGTACTGACCGTCAAGTTCGAGAACGGTAGCCAGCTGATCTTCAGCCGCCAGGAACCGTTGCGGCAGTTGTGGCTGGCGGCGGTGTCCGGTGGTTTTCACTTCGACTATGACGAGGAAAGCGAGCGCTGGATGTGCGACAAGAGTGAAGAGCAGTTGGGCGAGATGCTCGAACGCATCGTCAAGCAGCAGGCGGACGCTGAGCTCGATTTCGAAGGACTGTGA	MSLTEARFHDLVDATQQTLEDIFDESDMDIDLESSAGVLTVKFENGSQLIFSRQEPLRQLWLAAVSGGFHFDYDEESERWMCDKSEEQLGEMLERIVKQQADAELDFEGL	PGPT0004050_174	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDATIVE_STRESS_RELATED_PROTEIN,PGPT0004050-cyaY-K06202	NA	NA
D1-35_03015	219			hypothetical protein	GTGAGCCAGCCAGCCCCGGCGCGGCCACCCAAGCCGCTCTACAGCAACGTCAGCCCCGCCGTTCCGTCGCCTTGCACCAGCGTGTGCAAGCTGGATGAGCAGAAGGTCTGCCTCGGCTGTTTCCGGCACGTGGAAGATATCCGCGAATGGCGCTCGGCGGATGATGAGCGCCGGCGGGTGATCTGTGCCGAGGCCGCCAAACGCAAGTCTTTGTCATGA	MSQPAPARPPKPLYSNVSPAVPSPCTSVCKLDEQKVCLGCFRHVEDIREWRSADDERRRVICAEAAKRKSLS	PGPT0013210_1247	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013210-ydhL-K06938	NA	NA
D1-35_03017	411	rnk	COG0782	Regulator of nucleoside diphosphate kinase	ATGACCGCACCTTCCATCACCCTGACTCGCTTGGACGTACAACGTCTGGAGCGCTTGATCGACAGCCTGGATGACACGCTTCCCGGTGTGATCGCGTTGCAAACCGAACTGGATCGCGCCGAGACACTGGTCGGCCACGATGAAGTGCCCGCCGATGTCGTGACCATGAATTCACGCGTGCACTGCCGCGAGGAAAGCAGCGGCAAGGATTACCATCTGACGCTGGTCTACCCGAAGGACGCCAACGCCGACCAGGGCCGGATTTCGATCCTGGCGCCGGTGGGCAGTGCCTTGCTGGGCTTGAAGGTGGGGCAGCACATCGACTGGCCGGCGCCGGGTGGCAAGACCTTGAAGCTGACGTTGCTGGAAGTCGAGTCCCAGCCGGCCAATGGCGGTGATTTCCCGTCCTGA	MTAPSITLTRLDVQRLERLIDSLDDTLPGVIALQTELDRAETLVGHDEVPADVVTMNSRVHCREESSGKDYHLTLVYPKDANADQGRISILAPVGSALLGLKVGQHIDWPAPGGKTLKLTLLEVESQPANGGDFPS				NA	NA	NA	NA	NA
D1-35_03018	2844	cyaA	COG3072	Adenylate cyclase	ATGACCCGCAATCACGAAATACGCCCCGATCTGGACCAGGGAATCGACCGCAAGGTCCTGAGCCAGTTGCGCGCGCGTTTCCTCAAGCTCAATTCCGGCCGCATGGAGCGCGCCCTGGAAGGGTTGTCGACCCGCCAGCAGGGCGTATTGACGCTGCTTCCGCTGTTCTTTCACGTCAACCATCCACTGCTGCCCGGCTACGTCTCCGGCAGCACGCCCGCCGGGTTGTCGAATTACGAGCCCGACGCCAATGTCCTCGCCGAGGCCCAGCGGCTGACCCGCTCGTTTTCGTATAAGCCGCGCCATGGCAGCAACCCTCCGCGGCCAATCCTCGGCCTGTTCCTGATGGGCAGCCTCGGCACACTCGCCCAGGCCGACCAGAGCGACATGGATGTGTGGGTGTGCCACGGCCCGGACTTGAGCGACGATGAACTCGCCGAGCTACGCAAGAAATGCCAGCTGCTGGAAATCTGGGCCGCCACCCAAGGCGCCGAGGCTCACTTTTTCCTCATCGACCCGGCGCGATTCGTCCGCGGCGAACGGGATAACCAGCTCAGCTCCGATGACTGCGGCACCACCCAGCATTATCTGTTGCTGGACGAGTTCTACCGCACCGCCATCTGGCTGGCCGGGCGCACGCCGATCTGGTGGCTGGTGCCGGTCTATGAAGAAGAGAATTATCAGCAATACACCCACACGCTGATCTCCAAGCGCTTCATCCGTGCCGACGAAACCCTCGACCTGGGGCATCTGGCTTACATCCCGCCGGGCGAATTCATCGGCGCCGGGCTCTGGCAGTTGTTCAAGGGCATCGAGTCACCCTACAAATCCGTGCTCAAGCTTTTGCTGACCGAGGTCTACGCCAGCGAACACCCGGACGTGCGCTGCCTGAGCCTGCGCTTCAAGCAGGCGGTGTTCGCCAATCGCCTGGACCTGGACGAGCTGGACCCGTACATGGTGGTTTACCGCCGTCTCGAGGAATACCTCAACGCCCGTGGCGAACCGGAACGCCTGGAGCTGATTCGCCGCGCGCTGTACCTGAAGGTCAATCGCAAGCTCACCGGCCATGCCCGCAGCAGCGGTTGGCAACGCAATCTGCTTGAGCGCCTGGCGCGGGATTGGGGCTGGGATCAACGCCAACTCGCGTTGCTCGACAGCCGCAGTCAATGGAAGGTCCGCCAGGTCAGCAATGAGCGGCGCGCACTGGTCAACGAGCTGACCTACAGCTATCGCTTCCTGACCCAGTTCGCCCGCACCGAAAAGACCGTCAGCCTGATCAACAAGCGCGACCTCAATGTCCTTGGCCGACGTCTGTATGCGGCCTTCGAGCGCAAGGCCGACAAGGTCGAGTTCATCAATCCCGGAATTGCCCCGGACCTGGCCGAAGACACCCTGACCCTGGTCCAGTCGCCGAACAAGAAAGAGCCGGGGCAGAACCAGTGGGGCTTGTACAACGGCAGCCTGAATGCCTTGGAATGGGAGAATTTCGCGCCGATCAAGCGCAGCCGCGAATTGCTCGAATTGCTCACCTGGAGCCACCGCAACGGGGTGATCGACAGCAGCACGCGCCTGGCGCTGCACCCCGGCGACAGCGACCTGAGCGAGTTCGAGCTGTTCAACCTGCTGGGCAGCCTGCAACAGTCCATCGCCCTGCCCCTGGCCACGGTTGATGAAGAACAGCTGCTGCATGCCAGCGTACCCAGCGAAGTGTTGATACTGGTGAACGTCGGCGTCGACCCGCTCAAGCATCACCGCGACTTGAACATCCTGATGACCACCGAGCGCACCGACTCCTTGAGCTACGCCGGTGTCCGCGAAAACCTGGTCTTGACCCTCGACCAGGTCACCCTCAACAGCTGGAATGAAGTGCTGGTCAACCGGTTCGACGGCGAGCACGCCTTGCTCGATTGCCTGCGCGACTACCTCAACGACTTGCCCCTTACGCAGCGTCAGCCACGCTTACAGGTGCGCTGTTTCTGCCACAACCGTGCGCAGTTCATCGCGCGACGGGTTGAAGAAGTCATCGAGACCGCCCAGACCTTGCTCCTGAGCAAACTCAACTACCGCTACCTGCTTCAGGTCCAGCAGCATTATCACGTGCTAGAGCTGGTGCCCGGCCAGGTCAACCATGTGGCGTTGAGCAGCCTGCCGGCGTTGATGGACTACCTGGGCGAAGAGTTGACGGCGTACAGCCCGCTGCATCTGGACGCGATGGCCATGGAAGAACACGACGCGGCCCTGATCCTGCCCATGGGCCAGCCCGAGTGCATCCAGGTGTTCTACCGGGTCTACGAGGACGAAGCGGAGCTGTATGTGCTCGATGAATTCAACGCGTTGTGGCAGCAGCGCCTGCCCTATCACGATGACCAAAGCCTGCTGGTGCCGCTGCAGCGCTTCCTGCAGTCGGTGCTGTATCGCCGCGACGCCTTGCTGCCGATGGACGCCACCCAGCCGCTGACCCTGGAAATCCTTTATTACCAGCTCCTGCCTTCGGGTAACGGGCGGGCCCGGCGGGTCGAATCACGGCAGGCGCCGCAGACGCCGGTCAACAAGCCCTTCTACGACGTGCAGGCGATCATCGGCAAAGCGGCGCACGGGCAAGTGCACGTCACCCTCTATTGCGATCAGCGGGAATTTTCGGAGCTGGAGCACGGCGACCAACTGTTTCATGTGGTCGCCAGGGAAATCGTCGGGCAGCGCCGCGACGCCGAACGCTATCGCTGCTATATCACCGACCTGGACCTCTCCGGCCTGGTCGGTGACGGTGCCTGCCCAAGCATTTTGTTCCTGCGCTACAAGGCCGACCTGGAGCGCGCACTGAACGAAGCATTGAATCAGGTCTGA	MTRNHEIRPDLDQGIDRKVLSQLRARFLKLNSGRMERALEGLSTRQQGVLTLLPLFFHVNHPLLPGYVSGSTPAGLSNYEPDANVLAEAQRLTRSFSYKPRHGSNPPRPILGLFLMGSLGTLAQADQSDMDVWVCHGPDLSDDELAELRKKCQLLEIWAATQGAEAHFFLIDPARFVRGERDNQLSSDDCGTTQHYLLLDEFYRTAIWLAGRTPIWWLVPVYEEENYQQYTHTLISKRFIRADETLDLGHLAYIPPGEFIGAGLWQLFKGIESPYKSVLKLLLTEVYASEHPDVRCLSLRFKQAVFANRLDLDELDPYMVVYRRLEEYLNARGEPERLELIRRALYLKVNRKLTGHARSSGWQRNLLERLARDWGWDQRQLALLDSRSQWKVRQVSNERRALVNELTYSYRFLTQFARTEKTVSLINKRDLNVLGRRLYAAFERKADKVEFINPGIAPDLAEDTLTLVQSPNKKEPGQNQWGLYNGSLNALEWENFAPIKRSRELLELLTWSHRNGVIDSSTRLALHPGDSDLSEFELFNLLGSLQQSIALPLATVDEEQLLHASVPSEVLILVNVGVDPLKHHRDLNILMTTERTDSLSYAGVRENLVLTLDQVTLNSWNEVLVNRFDGEHALLDCLRDYLNDLPLTQRQPRLQVRCFCHNRAQFIARRVEEVIETAQTLLLSKLNYRYLLQVQQHYHVLELVPGQVNHVALSSLPALMDYLGEELTAYSPLHLDAMAMEEHDAALILPMGQPECIQVFYRVYEDEAELYVLDEFNALWQQRLPYHDDQSLLVPLQRFLQSVLYRRDALLPMDATQPLTLEILYYQLLPSGNGRARRVESRQAPQTPVNKPFYDVQAIIGKAAHGQVHVTLYCDQREFSELEHGDQLFHVVAREIVGQRRDAERYRCYITDLDLSGLVGDGACPSILFLRYKADLERALNEALNQV	PGPT0015070_112	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-OTHER_BACTERIAL_DEFENSE_SYSTEMS	CE-BACTERIAL_FITNESS-BACTERIAL_TOXINS,PGPT0015070-cyaA-K05851	NA	NA
D1-35_03019	246			hypothetical protein	ATGTCGCTTACCCCTGAGCTGGTTGCCGAACTGGAAATCCTTGCACTCTTCAACCTGGACAGTTCCCAGGAAGGCCTGAAAATTCATCAGACCGCTGCCCCGAAAGCCATCGCCGCTGCCAAGCGCCTGTTTGAAAAAGACCTGATAGACCAACCCGATGGCGGTTATCTGACCAGCCTGGGGCGTGATGCCGCGCAAAATGTGCAAACTGTCCTGACGATACTCCGCGCCGAAGAAACCGCCTGA	MSLTPELVAELEILALFNLDSSQEGLKIHQTAAPKAIAAAKRLFEKDLIDQPDGGYLTSLGRDAAQNVQTVLTILRAEETA				NA	NA	NA	NA	NA
D1-35_03020	285			hypothetical protein	ATGAGCGAGCCAAGCGATATCGAACAGGACGAAGAAGAGTTCGTCGAATCCACGCTGATCCAGGCCATCGAGAACCAGATCGAAAGCGACAACCCGCCAGCGGCCAAGGCCACCTTCAACAAGTTGACCCTGGTCGGTTATGAGCGTGACGAAATCCTCAACCTGATGGCCCACGTGCTGGCGGTTGAAATCGACGCGATCCTGGAAGAAGACCGTCCGTTCAATACCGAGTGGTACGAAGCCGCCCTGCGCGCCTTGCCTGAGCTGCCGCCGGAAAAGAAATGA	MSEPSDIEQDEEEFVESTLIQAIENQIESDNPPAAKATFNKLTLVGYERDEILNLMAHVLAVEIDAILEEDRPFNTEWYEAALRALPELPPEKK				NA	NA	NA	NA	NA
D1-35_03021	660			Glutathione S-transferase	ATGCTCAAGCTTTATGGTTTTTCTGTCAGCAATTATTACAACATGGTCAAGCTGGCGCTGCTGGAGAAGGGGCTGCCCTTCGAAGAGGTCCAGTTCTTTGGCGCCCAAACCCCGGAAGCCCTGGCTATCAGCCCGCGCGGCAAGGTGCCGGTATTGAAGACCGAGCAGGGCTTTATCAACGAGACCAGCGTCATTCTGGAATATATCGAGCAAACCCAGCCGGGCAAGGCCCTGCTGCCCAACGACCCGTTCGAGCGCGCCCAGGTGCTGGCCTTGTGCCGGGAAATCGAGTTGTACATCGAGCTGCCGGGACGTGCCTGCTATCCCGAAGCGTTTTTTGGCATGGCGGTGCCCGAGGCGATCAAGGACAAGGCCAAGGGCGAGTTATTGCTCGGGTTTGCCTCGCTTGGCCGGCACGGAAAATTCTCGCCTTATGTGGCGGGTGACAGCCTGAGCATTGCCGACCTGTATTTCTACTACAGCCTTTCGCTGGCCTTGCCGGTGGGCAAGAAGGTTTTCGATATCGACTTGCTGGCAGAGATGCCGAAGGCCAGGGCCTTGATGGAGCTGCTCGGGCAGAATCCGCACGTACAGCGGATTGCGGCGGATCGAGAGGCGGAAATGCCGGCGTTCCTGGCGAAGATTGCTGCCAGGAAGTGA	MLKLYGFSVSNYYNMVKLALLEKGLPFEEVQFFGAQTPEALAISPRGKVPVLKTEQGFINETSVILEYIEQTQPGKALLPNDPFERAQVLALCREIELYIELPGRACYPEAFFGMAVPEAIKDKAKGELLLGFASLGRHGKFSPYVAGDSLSIADLYFYYSLSLALPVGKKVFDIDLLAEMPKARALMELLGQNPHVQRIAADREAEMPAFLAKIAARK	PGPT0013170_10929	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
D1-35_03022	1395	argH_1	COG0165	Argininosuccinate lyase	ATGAGCACTGACAAGACCAATCAGTCCTGGGGCGGCCGCTTCAGTGAACCCGTCGACGCCTTCGTCGCCCGCTTCACCGCCTCCGTCAACTTTGACCAGCGCCTGTATCGCCACGACATCATGGGCTCGATCGCCCACGCCACCATGCTGGCCAAGGTCGGCGTGCTGACCGATGCCGAGCGCGACAGCATCATCGATGGCCTGAAGACCATCCAGGGCGAGATCGAGGCCGGCCAGTTCGACTGGCGCGTGGACCTTGAAGACGTGCACATGAACATCGAAGCGCGCCTGACCGACCGCATCGGCGTGACCGGCAAGAAGCTGCACACCGGTCGCAGCCGTAACGACCAGGTCGCCACTGACATCCGCTTATGGCTGCGCGATGAAATCGACCTGATCCTGGCTGAAATCACCCGCCTGCAAAAAGGCCTGCTGGAACAGGCCGAGCGCGAGGCGGAGAGCATCATGCCGGGCTTCACGCACTTGCAAACCGCGCAACCTGTAACGTTTGGGCATCACATGCTCGCCTGGTTCGAGATGCTCAGCCGCGACTACGAGCGCCTGGTCGACTGCCGCAAACGCACCAATCGCATGCCCCTGGGCAGCGCCGCGCTGGCCGGCACGACCTATCCGATCGACCGTGAATATACCGCGCAACTGCTGGGCTTCGATGTGGTGGGCGGCAACTCGCTGGATAACGTTTCGGACCGCGACTTCGCCATCGAATTCTGCTCCGCCGCGAGCATCGCGATGATGCACCTGTCGCGCTTCTCCGAAGAGCTGGTGCTGTGGACCAGCGCGCAATTCCAGTTCATCGATCTGCCCGACCGCTTCTGCACCGGCAGCTCGATCATGCCGCAAAAGAAAAACCCCGACGTGCCGGAGCTGGTACGGGGCAAGAGCGGCCGGGTATTCGGCGCGCTGATGGGCCTGCTGACCCTGATGAAAGGCCAGCCACTGGCCTACAACAAGGACAACCAGGAAGACAAGGAGCCGCTGTTCGACGCCGCCGATACCTTGCGCGATTCGCTGCGAGCGTTCGCCGACATGATCCCAGCCATCAAGCCCAAGCATGCGGTCATGCGCGAAGCGGCCCTGCGCGGCTTCTCCACCGCTACCGACCTGGCCGATTACCTGGTCCGCCGTGGCCTGCCGTTCCGTGATTGCCATGAGATTGTCGGCCATGCCGTGAAGTACGGCGTCGACAACGGCAAGGACCTGGCGGAAATGAGCCTGGACGAACTGCGCCAGTTCAGCGACCAGATCGAGCAGGACGTGTTCGCGGTGTTGACACTGGAAGGCTCGGTCAATGCCCGTGATCATGTTGGCGGTACGGCGCCGGCGCAGGTAAAAGCAGCGGTCGTTCGTGGCCAGGCGCTTCTCGCCAGCCGCTAA	MSTDKTNQSWGGRFSEPVDAFVARFTASVNFDQRLYRHDIMGSIAHATMLAKVGVLTDAERDSIIDGLKTIQGEIEAGQFDWRVDLEDVHMNIEARLTDRIGVTGKKLHTGRSRNDQVATDIRLWLRDEIDLILAEITRLQKGLLEQAEREAESIMPGFTHLQTAQPVTFGHHMLAWFEMLSRDYERLVDCRKRTNRMPLGSAALAGTTYPIDREYTAQLLGFDVVGGNSLDNVSDRDFAIEFCSAASIAMMHLSRFSEELVLWTSAQFQFIDLPDRFCTGSSIMPQKKNPDVPELVRGKSGRVFGALMGLLTLMKGQPLAYNKDNQEDKEPLFDAADTLRDSLRAFADMIPAIKPKHAVMREAALRGFSTATDLADYLVRRGLPFRDCHEIVGHAVKYGVDNGKDLAEMSLDELRQFSDQIEQDVFAVLTLEGSVNARDHVGGTAPAQVKAAVVRGQALLASR	PGPT0014242_85	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014242-argHA-K14681	NA	NA
D1-35_03023	747	lytR	COG3279	Sensory transduction protein LytR	ATGAATGTCCTGATCGTTGACGACGAACCACTGGTCCGCGAGCGCCTGAGCCGAATGCTTGGCGAACTCGAGGGTTACAGTGTCCTGGAGCCGAGCGCCACCAATGGCGAAGAGGCGTTGGCCCTTATCGACAGCCACAAGCCGGATATCGTGCTGCTCGACATCCGCATGCCTGGCCTGGACGGGCTGCAGGTCGCGGCCAAGCTGTGCGAGCGCGAGTCGCCTCCCGCGGTGGTGTTCTGTACCACCCGGGACGATTTTCCTCCGGAGGTGTTGCAGGCCGGTGCCGTGGGCTATCTGATCAAACCGGTTTCCGTCGAGGCGCTGGAAGAAGCGTTGCGCAAGGCTGAGCGACCGAACCGCGTGCAACTGGCGGCGCTTACCCGCCCGGCCGCCGAGAGCGGCAGCGGCCCGCGCAGCCACATCAGCGCACGGACCCGAAAAGGTATCGAGCTGATTCCGTTGAACCAGGTGGTCTACTTCATTGCCGACCACAAATACGTGACCTTGCGCCACGAAAGCGGAGAAGTGCTACTGGACGAGCCGCTCAAGGCGCTGGAGGACGAGTTCGGCGAACGGTTCGTACGCATCCACCGCAACGCCTTGGTGGCTCGCGAGCGTATCGAGCGTTTGCAACGCACCCCCCTCGGGCACTTCCAGCTTTACCTCAAGGGGCTCAATGGCGACGCGCTGATCGTCAGCCGGCGGCATGTGGCGGGCGTGCGCAAGATGATGCAACAGCTTTAG	MNVLIVDDEPLVRERLSRMLGELEGYSVLEPSATNGEEALALIDSHKPDIVLLDIRMPGLDGLQVAAKLCERESPPAVVFCTTRDDFPPEVLQAGAVGYLIKPVSVEALEEALRKAERPNRVQLAALTRPAAESGSGPRSHISARTRKGIELIPLNQVVYFIADHKYVTLRHESGEVLLDEPLKALEDEFGERFVRIHRNALVARERIERLQRTPLGHFQLYLKGLNGDALIVSRRHVAGVRKMMQQL	PGPT0026145_228	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_EXTERNAL_SIGNAL_SENSING,PGPT0026145-algR-K08083	NA	NA
D1-35_03024	942	hemC	COG0181	Porphobilinogen deaminase	ATGTCCCCTCGCGAGATCCGCATCGCCACCCGTAAAAGCGCCTTGGCTCTCTGGCAGGCCAAGTACGTCAAAACCCGCCTGGAAGCGGCCCACCCTGGCCTGATCGTATCGCTGGTGCCGATGGTCAGTCGCGGTGACAAACTGCTCGATTCGCCACTGTCGAAGATTGGTGGCAAGGGCCTGTTCGTCAAGGAGCTGGAAACCGCCCTGCTGGACAACGAAGCCGACATCGCCGTGCATTCGATGAAAGATGTGCCCATGGACTTCCCGGAAGGCCTGGGCCTTTTTTGCATCTGCGAGCGGGAAGACCCGCGTGATGCGTTTGTCTCCAACAGCTTTTCCAGTCTTGAAGCATTGCCCCCGGGAAGTGTGGTCGGCACTTCCAGCCTGCGTCGCCAGGCGCAGTTGCTGGCGCGGCGTCCGGACCTGCAGATCCGCTTCCTGCGCGGCAACGTCAACACGCGCCTGGCCAAGCTCGATGCTGGCGAATACGACGCGATCATCCTCGCCGCCGCCGGCCTGATCCGGCTCGGGTTTGAAGATCGCATCACCTCGGCCATCAGCGTCGATGACAGCCTGCCGGCCGGTGGGCAGGGCGCGGTGGGCATCGAATGCCGTAGCGCCGACAGCGAAATCCATGCGCTGCTGGCGCCGCTGCACCACGACGACACCGCCACGCGGGTCTTCGCCGAGCGCGCCCTGAACAAGCATCTGAACGGCGGATGCCAAGTGCCGATTGCCTGCTACGCCGTGCTCGAAGGCGAGCAGGTCTGGCTGCGTGGCCTGGTGGGCGATCCCAGCGGCGGCCAACTGCTCAGCGCCCAGGCCCGAGCACCGCGCCGCGATGCCGAGGCGCTGGGCGTGCGGGTGGCCGAAGACCTGCTGAGCCAGGGCGCCGATGACATCCTCAAGAAAGTCTACGGCGAGGCTGGCCACGCGTGA	MSPREIRIATRKSALALWQAKYVKTRLEAAHPGLIVSLVPMVSRGDKLLDSPLSKIGGKGLFVKELETALLDNEADIAVHSMKDVPMDFPEGLGLFCICEREDPRDAFVSNSFSSLEALPPGSVVGTSSLRRQAQLLARRPDLQIRFLRGNVNTRLAKLDAGEYDAIILAAAGLIRLGFEDRITSAISVDDSLPAGGQGAVGIECRSADSEIHALLAPLHHDDTATRVFAERALNKHLNGGCQVPIACYAVLEGEQVWLRGLVGDPSGGQLLSAQARAPRRDAEALGVRVAEDLLSQGADDILKKVYGEAGHA	PGPT0003660_2431	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003660-hemC-K01749	NA	NA
D1-35_03025	1914			hypothetical protein	GTGACGGGCTGGCGGCTGCTGCTGACCCGGCCGACGGACGAATCGGCGGCCCTGGCGGCTGTGCTGGCGGATGCGGGGATCTACAGCAGCAGCCTGCCGCTGCTGGATATCGAGCCGGTCCCGGTGACCGAGTCCGGGCAGGCGATCCTCCGTGAATTGAATCAGTATTGCGCCGTGATCGTGGTCAGCAAGCCCGCCGCGCGCTTGTGCGTGGAGCTGCTGCGTCAGTATTGGCCGCAACCTCCGGTCTTGCCATGGTTCAGCGTGGGCGCCGCAACCGGACAGATTCTTGCCGATGCCGGCCTCAGCGTGTTTTATCCCGATAACGGCGACGACAGCGAAGCCTTGCTTGAGCTCGGGGCGTTGCGCCAGGTGCTCGACCGGCCCGATCCCCGTGTCTTGATCGTCCGTGGTGAGGGTGGGCGCGGATTGCTGGCAGAGCGTTTGCGCGAGCAAGGTGCTAGTGTCGACTATCTTGAGCTGTACCGGCGCGGCCTGCCGCAATACGCCGAGGGCGAACTGCCGGCCAGGGTCGAAGCGGAACGCTTGAACGCGCTGGTGGTCAGCAGTGGGCAGAGCTTCGAGCATCTGCGCCGGCTCGCCGGTGAAGCGTGGCCCGCCCTGGCGCGGCTGCCGTTGTTCGTTCCAAGCCCCAGGGTCGCCGACATGGCGCGTGCCGCCGGGGCCCGGACAGTTATTGATTGCCGTGGCGCCAGCGCCGCGGCTTTGCTGGCGGCATTACGGGAACAATCCGTGCCGTTTTCCAATGCAAAGGATGGATACGTGAGCGAAACAGCCTTGCCAAAAGATCAGGACCAGCCAGCGCTCGATGCGCCGCTTGAAACGGCGCCGCCGATAGCACCGCGTCGCGGCAACGGGCTGGCGATTGTCGCGTTGTTGTTGGGGGCTGCCGGCGTCGCCGTGGGTGGCTGGGGTGTATGGCAAGTGCGTCATCTGCAAGCCAGCACCCAGCAGCAATCCGCCCAGGTCCAGTCGCTCAATGACCAGGCCCAGGGCCTCAAGCTCAATGAGCAACGCCTGAGCGCGCGCCTGGAGCAATTGCCTCCGGCCGAAGAACTGGAGGAGCGCCGCCGCCAGGTTGCCCAGTTGCAAGGCGACCAGCAGCGTCTCAACCAGCGCCTGGAAACCGTGCTGGGTGCCAGCCGCAAGGACTGGCGCCTGGCCGAAGCCGAGCATTTGTTGCGCCTGGCCAGCCTGCGTCTTTCCGCCCTGCAGGACATCAGCAGTGCCCAGGCACTGGTACAGGGCGCCGATGAAATCCTGCGCGAGCAGAACGACCCGGGCTCATTCGCTGCCCGCGAACAATTGGCCAAGACCCTCGCTGCGCTGCGCAGCACCGAGCAGCCGGATCGCACCGGGCTGTTCCTGCAACTGGGTGCCTTGCGTGACCAGGTGCTGCAGTTGACCGAGCTCGCGCCCGAATACAAGGACCGTGGCGAGTCGCTGCTGGGGCTGACGAGCGACGGCGATGGTGCCAGTCGCTGGGCGCAGTGGTGGGACCGGATCTCGCGTTATATCCGCATCGATTTCAATGCCGATGAAAACGTCCGTCCACTCCTGGCCGGACAGAGCCTGGTCCAGGTGCGCCTGGCCTTGAGCCTGGCACTGGAGCAGGCGCAATGGGCCGCGCTCAATGGTCAGGCGGCGGTGTACACCCAGGCGCTGGCCGAGGCGCGTGACGTGCTCAGGAACAACTTCAACCAGGACAACCCGCAAAGCAAGATCATGCTCGAGCGGGTTGGCGAGTTGAGCAAGTTGCCCGTGACAGTGGTCACGCCGGACCTGACCGGCACCCTGAGCGCCGTCCAGGCCTACCTCGAGCGCCGCAACCTGAATGCTGAAGACTCGGTCAAACCGCTGCCCAAGGCGGGCGGGCAGGAGACCGCGCCATGA	MTGWRLLLTRPTDESAALAAVLADAGIYSSSLPLLDIEPVPVTESGQAILRELNQYCAVIVVSKPAARLCVELLRQYWPQPPVLPWFSVGAATGQILADAGLSVFYPDNGDDSEALLELGALRQVLDRPDPRVLIVRGEGGRGLLAERLREQGASVDYLELYRRGLPQYAEGELPARVEAERLNALVVSSGQSFEHLRRLAGEAWPALARLPLFVPSPRVADMARAAGARTVIDCRGASAAALLAALREQSVPFSNAKDGYVSETALPKDQDQPALDAPLETAPPIAPRRGNGLAIVALLLGAAGVAVGGWGVWQVRHLQASTQQQSAQVQSLNDQAQGLKLNEQRLSARLEQLPPAEELEERRRQVAQLQGDQQRLNQRLETVLGASRKDWRLAEAEHLLRLASLRLSALQDISSAQALVQGADEILREQNDPGSFAAREQLAKTLAALRSTEQPDRTGLFLQLGALRDQVLQLTELAPEYKDRGESLLGLTSDGDGASRWAQWWDRISRYIRIDFNADENVRPLLAGQSLVQVRLALSLALEQAQWAALNGQAAVYTQALAEARDVLRNNFNQDNPQSKIMLERVGELSKLPVTVVTPDLTGTLSAVQAYLERRNLNAEDSVKPLPKAGGQETAP	PGPT0003675_114	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003675-hemDX-K13543	NA	NA
D1-35_03026	1236	hemY	COG3071	Protein HemY	ATGAAGCGTCTCTACGTGATTCTGTTCGTGGTCATCGCGGCCGCAGCCTTGCTGGGCGTGGCGATTTCCGAGCATTCGGGTTACGTGCTGGTGGCGTACAAGAGCTTCCGCTACGAAGCCGGCCTGTGGGTCACCCTCGCACTGATCGCGGTGATCTGGCTGTTGTGGCGCGCAGTGTTTGCTCTGGTCGGGCTGGTAACCACGTCCACTGGCGTGGTCAACCCGTGGTCGCGACGCAACCGGAGTCGTCGCGTACAAGTTGCAATCGAACATGGCCAGTTGGACCTGGCCGAAGGCCGTTGGGCCAGCGCCCAGCGGCATCTTCACCGCGCCGCCGAAGCCGAGCGCCAGCCCTTGTTGTATTACCTCGGCGCCGCCCGCGCGGCCAATGAACAAGGCCTCTATGAGCAAAGCGACAGTCTGCTTGAGCGCGCTCTGGAGCGGCAGCCCCAGGCCGAGCTGGCCATCGCGCTGACTCACGCCCAGTTGCAGACGGACCGGGGTGACACCGACGGTGCGTTGAGCACGCTGCAAGCCATGCATGAACGCCATCCTCACAATGCCCAGACCCTGCGTCAGTTGCAGCGCTTGCACCAGCAGCGCGGTGATTGGTCGGCGGTGATCCGGCTGTTGCCGGAGCTGCGCAAGGACAAGGTCCTGCCGCCCGCCGAACTGGCTGAGCTGGAACGGCGGGCCTGGGGTGAAAACCTCACCTTGGCTGCCCATCGCGAAGCTGACGGAAGCGTCGGCTTGCAATCGCTCGATCGGGCCTGGCAACAGCTCACCTCAGCCCAACGCCAGGAACCGGCAATGGTGCTCGCCTATGCCGAGCAACTTCGTCAGCTGGGCGCCCAGGCGCAGGCTGAGGAGGTATTGCGGGTTGCGCTCAAGCGTCACTACGACAGCCACCTGGCGCGTTTGTACGGACTGGTTCGCGGCGCTGACCCGAGCCGCCAGTTGCAAGCGGCCGAGGGCTGGCTCAAGGAGCATCCGAATGACCCGAGCCTGCTCCTGACGCTGGGGCGTCTGTGCTTGCAAAACAGCTTGTGGGGCAAGGCGCGGGATTATCTCGAAAGCAGCCTGCGCATCCAGCGCAACCCTGAGGCTTGTGCCGAACTGGCCCGCTTGCTGGCGCAACTGGGCGATGCGGAGCGCAGCAACCAGTTATTTCAAGAGGGGCTGGGGCTGCTGGACGAGCGCTTGCTGGCGGCACCCTTGCCGGTTCCGAGCACTTGA	MKRLYVILFVVIAAAALLGVAISEHSGYVLVAYKSFRYEAGLWVTLALIAVIWLLWRAVFALVGLVTTSTGVVNPWSRRNRSRRVQVAIEHGQLDLAEGRWASAQRHLHRAAEAERQPLLYYLGAARAANEQGLYEQSDSLLERALERQPQAELAIALTHAQLQTDRGDTDGALSTLQAMHERHPHNAQTLRQLQRLHQQRGDWSAVIRLLPELRKDKVLPPAELAELERRAWGENLTLAAHREADGSVGLQSLDRAWQQLTSAQRQEPAMVLAYAEQLRQLGAQAQAEEVLRVALKRHYDSHLARLYGLVRGADPSRQLQAAEGWLKEHPNDPSLLLTLGRLCLQNSLWGKARDYLESSLRIQRNPEACAELARLLAQLGDAERSNQLFQEGLGLLDERLLAAPLPVPST				NA	NA	NA	NA	NA
D1-35_03027	555	dsbB_2		Disulfide bond formation protein B	ATGTCTTTGGCCAGCTCTCGCTCTCTGTTTCTCCTGGCTTCCATCGCCGCGGCTCTGGTTTTGGGGATCACGTTTTACCTGGAATATGCGGTCGGTCTGACCCCGTGCAGCCTGTGCATTTTGCAGCGGTTATGCCTGACGCTGTTCCTGATGACCTGTCTTGCCGCTTGCGTGCATGGCCCGGCTCTGAGAGGTAGCGTTGTGTATGCGGCGGTGGGCGTGGTCTTCGTCTCGGGAGGGCTGGCGCTGGCGTGGTATCACGTCCTTGCGCAGAGCGATTCGATCGAGCTGTTGCCCGACTGCCTCGCCAAGCTCAGGGGCGCCGATTTGTGGTGGCACGCCATGCATCGCGCGCTTGACGGAGCGATCGATTGCACGAGCGTCTCCTGGACGCTGTTTCGTCTGAGCATCCCTGAATGGAGCCTGCTGTTTTTTATCGCGCTCTTCATCTCGATGACTTATCTGCTGCTGCGCCTGGCCTGGAATGCCCTGGTGCCACCGCTCGGCGACGAGACGTCGCAGTTGGTCCGAAGGCTGGATCAAACACTTGTATGA	MSLASSRSLFLLASIAAALVLGITFYLEYAVGLTPCSLCILQRLCLTLFLMTCLAACVHGPALRGSVVYAAVGVVFVSGGLALAWYHVLAQSDSIELLPDCLAKLRGADLWWHAMHRALDGAIDCTSVSWTLFRLSIPEWSLLFFIALFISMTYLLLRLAWNALVPPLGDETSQLVRRLDQTLV				NA	NA	NA	NA	NA
D1-35_03028	459	rsd	COG3160	Regulator of sigma D	ATGCTCGAAAGTTGTCAGAATGCTCAGGAACGCTGGGGTGGGGTGCATCTGCTGATCGACCGCTGGTTGCAGGAGCGTCATGAACTGGTTCGAGCCTATGATGCTCTTGGCGACAAGCCTGAAGCACTGAGTGAAAGTCGCAAGCCTTTGCAGGAATTTTGCGGTGTGCTGGTGGACTATGTGTCGGCCGGTCATTTCGAGATCTACGAGCAACTGACGGGCGAGGCCAAGGCCTTCAATGACAAACGCGGCCTGGAACTGGCCGATACGATTTATCCGCGCATCGACGTCATCACCGAGAAGCTGTTGGCCTTCAATGACCTCTGTGATGAAGGTAAATGCGTAGCGGAAAAATTCAAGGAACTGGGCGGTTTGTTGCATGAGCGTTTCGAGCTGGAGGATTGCCTGATCGAGGTGCTGCACAACGCCCACAAGGAAGAGGCTACCGCCCAGGCTTGA	MLESCQNAQERWGGVHLLIDRWLQERHELVRAYDALGDKPEALSESRKPLQEFCGVLVDYVSAGHFEIYEQLTGEAKAFNDKRGLELADTIYPRIDVITEKLLAFNDLCDEGKCVAEKFKELGGLLHERFELEDCLIEVLHNAHKEEATAQA				NA	NA	NA	NA	NA
D1-35_03029	666	mip	COG0545	Outer membrane protein MIP	ATGTCGCGTCACCTTTTTTTATTTCTTTGCATGGTTTTCTCCCTGGCTCAGGCCGCTGAAAAATCCGACGCCAACGACGGTCGCGACCTGGCCTACAGCCTCGGCGCCAGCCTGGGCGAGCGCCTGCGTCAGGACGTGCCGGACCTGCAGATCCAGGCGCTGGTCGAAGGCTTGCAGCAGGCCTATCTGGGTAAACCGTTGGCCCTGGCAGATGAACGCATCGAACGGATCCTGGCCGAACATCAGGCGCAACTCCTGGCGCAGTCGTCCACGCCGCAAACGCAAATGGCGCTGAAGAGCGAGCGGAAATTTCTCGATGAGGAAAAAGGCCGGCCGGGCGTCCAGCAATTATCGGACGGCATCCTGCTGACCGAACTCAAGCCGGGCAGCGGCGCGAAGGCCGGCCCCCACGGCAAGGTCCAGGTGCGGTATGTCGGTCAATTGCCGGACGGCACCGTGTTCGATTCCAACCATCAGGCGCAGTGGTTCAATCTTGACAGCGTGATTGATGGGTGGCGCAGCGCACTGCCGCAGATGCCGGTGGGCGCGAAGTGGCGATTGGTGATTCCTTCGGCCCTGGCCTATGGCGCCGAAGGTGCCGGGGACCTGATTCCACCCTTCACGCCGCTGGTGTTCGAAATTGAATTGCTGGGCGCAACGACCTGA	MSRHLFLFLCMVFSLAQAAEKSDANDGRDLAYSLGASLGERLRQDVPDLQIQALVEGLQQAYLGKPLALADERIERILAEHQAQLLAQSSTPQTQMALKSERKFLDEEKGRPGVQQLSDGILLTELKPGSGAKAGPHGKVQVRYVGQLPDGTVFDSNHQAQWFNLDSVIDGWRSALPQMPVGAKWRLVIPSALAYGAEGAGDLIPPFTPLVFEIELLGATT				NA	NA	NA	NA	NA
D1-35_03030	1131			hypothetical protein	ATGTCGGCCACCAAGAAGCCTGTAAACACTCCGTTGCACTTGCTCCAACAATTGTCGGGCAGCTTGCTCGAGCATCTGGAAAATGCCTGCTCCCAAGCTCTGGCTGATGCTGAAAAACTGCTCGCCAAGCTGGAAAAACAACGCGGCAAGGCGCAGGAAAAACTGCACAAGTCGCGAACCAAGCTGCAAGACGCGGCAACCGCCGGCAAGGCCAAGGCACAAACCAAGGCCAAGGATGCCGTGAAGGAACTCGAAGACCTGCTCGATGCCTTGAAGGATCGTCAATCCGAAACCCGCGCCTACATCCTGCAACTCAAGCGTGATGCCCAGGAAAGCCTGAAGCTGGCCCAAGGTGTCGGTCGCGTTCAAGAAGCCGCCGGCAAGGCGCTGAGCCTTCGCGCGGCCAAGCCTGCCGCTGTATCGGCCAAGAAGCCAGCGGCTAAACCTGTCGCGGCAAAAACTGCGGCCAAGGCGCCCGTCAAGCCAGTCGCCAAAGTTGCCAGCAAGCCTGCTGCCAAACCTGCCGTGAAACCAGGCGCTGCCAGCGCTGCGAAACCTGTGGCGAAAAAACCGGCCGTGAAAGCAGCTGCCAAGCCTGCCGTCAAAGCTGCTGCTGCCAAGCCTGTTGCCGCCAAACCAGCCGCAAAAGTTGCCGCCAAGCCTGCCGCTAAAACCGCTGCTGCCAAACCCGCTGCGACGAAGACCGCCGCTGCCAAGCCTGCTGCGAAAGCGGCGGCCAAACCTGCTGCCGCGAAGCCGGCCGCCAAGGCTGCCGCTGCCAAACCCGCTGCCGCCAAGCCTGCTGTCAAATCGGCGGCCAAGCCGGTTGCTGCTGCCAAGGCTCCCGTCAAAGCACCTGTAAAGGCCGTGGCAAAACCCGCAGCAGCCAAACCAGCCGCCAAGCCGGCAACGGCCAAGCCGGCCGCTGCAAAACCTGCAGCCAAACCCGCTGCGAAGCCTGCCGTGAAAAAGCCTGCTGCTGCAAAACCGGTGACGGCTCCGGTTGCCAAGCCTGCCGCGCCAGCACCAGCGGCCGCAGTGACGCCTGCGCCAACGACCAGCACGCCGGCGCCAGCGGTGAACCCAAGCGTAACCACCGCGCCGAGTACTACTCCGCCCCGCGCTTCCTAA	MSATKKPVNTPLHLLQQLSGSLLEHLENACSQALADAEKLLAKLEKQRGKAQEKLHKSRTKLQDAATAGKAKAQTKAKDAVKELEDLLDALKDRQSETRAYILQLKRDAQESLKLAQGVGRVQEAAGKALSLRAAKPAAVSAKKPAAKPVAAKTAAKAPVKPVAKVASKPAAKPAVKPGAASAAKPVAKKPAVKAAAKPAVKAAAAKPVAAKPAAKVAAKPAAKTAAAKPAATKTAAAKPAAKAAAKPAAAKPAAKAAAAKPAAAKPAVKSAAKPVAAAKAPVKAPVKAVAKPAAAKPAAKPATAKPAAAKPAAKPAAKPAVKKPAAAKPVTAPVAKPAAPAPAAAVTPAPTTSTPAPAVNPSVTTAPSTTPPRAS				NA	NA	NA	NA	NA
D1-35_03031	465			hypothetical protein	ATGTCCTCTGATCTGTGGAGCTTTTCGATCAACCTTTATGCCAGGCCTGGCGTGGAAGCGGCGTGCCTGGCGTTGCAGGCAGAAGGCGCGAACGTCTGTCTGGTGCTTTGCGGGCTGTGGCTGGAACAACGCGGGGTAACCTGTGATGAGCAGAGGTTGCAGCAACTTAGGCACGTGGCCGGCCCCTGGGACGCAGCCGTCGTCCAGCCATTGCGGACGTTGCGCACACAATGGAAAGACCTCGCCCGCCAGGACGCCGGGCTGGGTAGCCTGCGCGAACAGATCAAGAAACTGGAGCTGGAGGCCGAACGACAATTGCTGGAGCGGCTGGAAGCCGCGGCAGGGGACTGGCCCAAGGGCCAGGATGAAGCGACAGCGCAGTGGCTGCAGAGGCTGGTGGCGAATGCCGGCCAAACCAACCGCGACGCGCTGCATCGGCTGCGCGTCGCGGCAGTCACCCCTTAG	MSSDLWSFSINLYARPGVEAACLALQAEGANVCLVLCGLWLEQRGVTCDEQRLQQLRHVAGPWDAAVVQPLRTLRTQWKDLARQDAGLGSLREQIKKLELEAERQLLERLEAAAGDWPKGQDEATAQWLQRLVANAGQTNRDALHRLRVAAVTP				NA	NA	NA	NA	NA
D1-35_03032	1911	yheS	COG0488	putative ABC transporter ATP-binding protein YheS	ATGATTCGACTTCAGAACCTGACTTTACAGCGTGGCCCGCAACGTCTGCTAGAAGACGCCGAGCTGACCCTGCACGCCGGCCACAAAGCTGGCCTCATCGGTGCCAACGGCGCCGGCAAATCGAGCCTGTTCGCTTTGCTGCGCGGCGAGTTGCACCCGGACTCCGGCGATTGCTTCCTGCCGGCGGATTGGCGCATCGCCCACATGCGTCAGGAGGTCGATACACTCGAGCGCCTGGCCGTGGATTATGTGCTCGATGGCGACCTGCGTCTGCGTGAGGTGCAGCGCGATCTCGCCGCGGCCGAAGCCGCCCATGACGGTGCCGCCCAGGCGCGCCTGCACTCGGAACTCGACAGTGCCGACGGCTACACTGCGGACGCCCGGGCACGTAAATTGTTGGCCGGCCTGGGCTTTACCAACGAACAGATGGATCGCCAGGTCGGCGACTTCTCAGGTGGCTGGCGGATGCGCCTGAACCTGGCGCAGGCCCTGATGTGCCCGTCGGACCTGTTGCTGCTCGACGAGCCGACCAACCACCTGGATCTGGACGCGATCATCTGGCTCGAAGAGTGGCTCAAGAGTTACCCCGGTACACTGCTGCTGATTTCCCACGACCGCGACTTCCTCGACGCCGTGGTGGATCACGTAGCCCATGTCGACCAGCGCAAGCTCACCTTGTACCGCGGCGGCTACAGTGCCTTCGAGCGTGCCCGTGCCGAACGTCTGGCCCAGCAACAGCAGGCCTACGAGAAGCAACAGGCGCAACGTGCGCACATGGAAAGCTACATTGCCCGCTTCAAGGCCCAGGCTACCAAGGCCCGCCAGGCCCAGAGCCGGATCAAGGCGCTGGAGCGGATGGAAGAACTGTCGGCGGCCCACGTCGACTCACCATTCGATTTTGTCTTCCGCGAATCGAGCAAGATCTCCAGTCCGCTGATCGACCTGTCCGACGCGCGCCTGGGCTACGGCGACAAGACCGTGCTGGAGAAGGTCAAGCTGCAACTGACCCCAGGCGCGCGGATCGGTCTGCTGGGGCCCAACGGTGCCGGTAAGTCGACCCTGATCAAGAACCTCTCTGGCGAGCTCCAGCCCTTGGCCGGACGCCTGACGCGCGGCGAAAACACGGTGGTCGGCTACTTCGCCCAGCATCAGTTGGACTCGCTCGATGCCAAGGCCAGCCCACTGTTGCATCTGCAACGCCTGGCGCCGACCGAACGTGAACAGACTCTGCGCGATTTTCTCGGTGGTTTCGACTTTCGCGGCGCGCGTATCGACGAGCCGGTGCTGAATTTCTCCGGTGGCGAGAAGGCGCGCCTGGCGCTGGCGTTGATCGCCTGGGACCGGCCGAACCTGTTGCTGCTCGACGAGCCGACCAACCACCTGGACCTGGAGATGCGCCTGGCCCTGACCATGGCCTTGCAAGAGTTCAGCGGCGCGGTGCTGGTGGTCTCCCACGACCGGCATTTGCTCAAGAGCACCACGGACAACTTCTTCCTGGTGGCCGACGGCAAGGTCGAGGAGTTCGATGGCGATCTCGAAGACTATGCGCGCTGGCTGGTGGAATATCGCCAGCGCAACGCACCGGTCAGCAGCACCCCGGTGAACCCGGACAAAACCGACAAGAAGGCCCAGCGCCAGGCCGCGGCAGCGTTGCGTCAGCAGTTGGCGCCGCACAAGCGCGAGGCCGACAAGCTCGAAGCCGAGTTGGGCAAACTGCATGAAAAGCTGCAGAAAATCGAAACCAGCCTTGGCGACAGCGGTCTCTACGAGGCAGCGCGCAAGGACGAGCTGCGTGATCTGCTGGCTGAACAGGCCAGGCTGAAAGTTCGAGAAGCGGAACTTGAGGAGGCGTGGATGCAAGCCCTGGAGTTGCTGGAAAACCTGCAAGCGGAGCTGGAGGCGTTGTCCTGA	MIRLQNLTLQRGPQRLLEDAELTLHAGHKAGLIGANGAGKSSLFALLRGELHPDSGDCFLPADWRIAHMRQEVDTLERLAVDYVLDGDLRLREVQRDLAAAEAAHDGAAQARLHSELDSADGYTADARARKLLAGLGFTNEQMDRQVGDFSGGWRMRLNLAQALMCPSDLLLLDEPTNHLDLDAIIWLEEWLKSYPGTLLLISHDRDFLDAVVDHVAHVDQRKLTLYRGGYSAFERARAERLAQQQQAYEKQQAQRAHMESYIARFKAQATKARQAQSRIKALERMEELSAAHVDSPFDFVFRESSKISSPLIDLSDARLGYGDKTVLEKVKLQLTPGARIGLLGPNGAGKSTLIKNLSGELQPLAGRLTRGENTVVGYFAQHQLDSLDAKASPLLHLQRLAPTEREQTLRDFLGGFDFRGARIDEPVLNFSGGEKARLALALIAWDRPNLLLLDEPTNHLDLEMRLALTMALQEFSGAVLVVSHDRHLLKSTTDNFFLVADGKVEEFDGDLEDYARWLVEYRQRNAPVSSTPVNPDKTDKKAQRQAAAALRQQLAPHKREADKLEAELGKLHEKLQKIETSLGDSGLYEAARKDELRDLLAEQARLKVREAELEEAWMQALELLENLQAELEALS				NA	NA	NA	NA	NA
D1-35_03033	582			hypothetical protein	ATGGAAGCGTTGTCCCTGCCTATACCCGTCATGTGGATCGAGCCGATCTGGCTCGGTGTGCAAATCCTGCTGATTCTGTTGGTCGGTTATGTTGCCCAGCGTGTCGTCGCGCGCTTCCTCACCGGGCTCGGTGAACGTTACCCACTGCCGCCCCAATTGGTGATCATCCTGCGCGGTGTGCTGCGCTGGCTGATCATGGGCAGCGCGGTACTGGTGGCGCTCGAACGCCTCGGCGTCTCGGCTACGGTGCTGTGGACCGCGCTGTCTGGGTTCGTTGCCGTTGCGGCGGTGGCGTTCTTCGCCATCTGGAGCGTGCTGTCGAACCTGCTCTGCGCCATTCTGATCTACACCGTCGGCCCGTTCCGACTGGGTGACGTGGTCGAGCTGGTCGAGGCCACCGACAAGCCTGGCATCAAGGGGCGGGTGGTGGCGATCAACCTGCTCTACACCACCTTGATCGAACCCGAGGAACTCGGTACCGGCAGCTCCATGGTGCAGGTGCCCAACAGTCTGTTCTTCCAGCGTTCGGTCCGGCGCTGGCGCGGCAGCGAAGCGTTTCCGGTCGGCGGTTTCGTCGAGTAG	MEALSLPIPVMWIEPIWLGVQILLILLVGYVAQRVVARFLTGLGERYPLPPQLVIILRGVLRWLIMGSAVLVALERLGVSATVLWTALSGFVAVAAVAFFAIWSVLSNLLCAILIYTVGPFRLGDVVELVEATDKPGIKGRVVAINLLYTTLIEPEELGTGSSMVQVPNSLFFQRSVRRWRGSEAFPVGGFVE				NA	NA	NA	NA	NA
D1-35_03034	633	rhtB_5	COG1280	Homoserine/homoserine lactone efflux protein	ATGTTGCTGGAAACGTGGCTGGCGTTCTTCGCCGCCTGCTGGGTCATCAGCCTTTCGCCGGGCGCCGGTGCCATTGCATCGATGTCCAGCGGTCTGCAATACGGTTTCTGGCGTGGCTACTGGAACGCCCTGGGCCTGCAATTGGGCCTGGCGTTGCAGATCGTGATTGTCGCCGCCGGTGTTGGCGCGATTCTCACCGCGTCAGCTACCGCCTTCTACGCAATCAAGTGGTTCGGCGTGGCGTACCTGGTCTATCTGGGCGTCAAGCAATGGCGGGCCATTCCCGCAGACCTTAGCGACGACGCGGCGGTGCGCCCCATCGGCAAACCCCTGGCCTTGGTGTTTCGCGGTTTCCTGGTGAACATCAGCAACCCCAAGGCGCTGGTATTCATGCTCGCGGTGCTGCCGCAGTTCATCGATCCTCATGCCCCGTTGGTCAAGCAATACCTGATCCTGGGCGTGACCATGATCTGCGTCGACCTCATTGTCATGGCCGGGTACACCGGGCTGGCATCCAAGGTCTTGCGCCTGTTGCGTACCCCGAAACAGCAACGGCGGATGAACCGGACCTTCGCCGGGCTGTTCATCGGCGCGGCAGGTCTGCTGGCGACGATTCGCAGGGCTGCGGTGTAA	MLLETWLAFFAACWVISLSPGAGAIASMSSGLQYGFWRGYWNALGLQLGLALQIVIVAAGVGAILTASATAFYAIKWFGVAYLVYLGVKQWRAIPADLSDDAAVRPIGKPLALVFRGFLVNISNPKALVFMLAVLPQFIDPHAPLVKQYLILGVTMICVDLIVMAGYTGLASKVLRLLRTPKQQRRMNRTFAGLFIGAAGLLATIRRAAV	PGPT0021036_300	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_RELATED_GENES	CE-QSR-PUTATIVE_TRANSPORTER,PGPT0021036-rhtB-K05834	NA	NA
D1-35_03035	744			hypothetical protein	ATGCGTACATGGATCGGCATCATGGCCCTGGCCTGCGCATTCAGTGCGCAGGCGGCCCCAAGAGTTGCAGTGACTGACCTGGCGTACCAGCAACGCGTGGAAGAATACATCCACACCGTTTCGGCCCAGAGCAACTTCCAGGCGAACCCGTACAGCGCCAGCGCGTCGTCGAGCTACGAAGAGATGGAAGCGACCAGCAGCTACATCGAGCAAGGCGAACTGCGCAAGTTCACTGGCGACATCAAGGGCGAGATCCTGCGCAGCGGTATGTTCCAGCTGGTGCAGGGCACGCCGCACACCGCATCGTCCACGGGCGATGTCTATGACGTGATCAAGCGAATCAAGGCCGGGCATTTCAAGGGCGCCGACTATGTGCTGTTCGGCACCGTGTCGGACATCGATTTCACTCGGGACATCAACGAGCTGGGCACTGCCGACAGCTACTCGGCGGTGCTTGCACTGTCGCTGGTGGCGGATTTCAGCCTGATCAACACCAAGACCTATGAAATCACCTCGGCCTTCACCGCCATGGGCGAGGGCCAGGACACCAAGCTGTTGAACCACCGGGACGTGCGTATCAGCCTCAATCGCCCACGGGTCGTGCGCGAAGTGTCCAAGGCGTTGGGTGAAGACGTGGCGCGGCAGTTGAGCGAGCAGCTCGGTGGCCCGAGCCATGAACAGCCTGGCGAGCCGGTGCAGCGCAATAACCTGCCGAGGGATACCGCGCCGGTAATCCTGCGCTGA	MRTWIGIMALACAFSAQAAPRVAVTDLAYQQRVEEYIHTVSAQSNFQANPYSASASSSYEEMEATSSYIEQGELRKFTGDIKGEILRSGMFQLVQGTPHTASSTGDVYDVIKRIKAGHFKGADYVLFGTVSDIDFTRDINELGTADSYSAVLALSLVADFSLINTKTYEITSAFTAMGEGQDTKLLNHRDVRISLNRPRVVREVSKALGEDVARQLSEQLGGPSHEQPGEPVQRNNLPRDTAPVILR				NA	NA	NA	NA	NA
D1-35_03036	588			hypothetical protein	ATGTTCCTACGCATCTCCTCCCTCGCCCTCGCCGCCCTGCTGGTCAGCGGCTGCGCCAACAACTCGCCGGTCCTGGGCAACAAGAACATCAGCTATGGCGACACCAAGGCCGTGGAAACCGTCACCAACGAGTTCGGCTCCACCGACTTGCAGATGATCGCCGAGTCGATGACCCGCTCCCTCGCCCAGTCCGGCATCCTGCAGGGCCGTCCGGTGGTGCAGGTCTACGACGTGAAGAACAAGACCAGCGAGTACATCGATACTCGCGAGATCACTACCAGCATCAAGACCCAACTGATGAAAACCGGCGCGGCACGCTTTGCCAGTGACAACAATGCCATGGACAGCCAGGTCGACCAGCTCAAGCTGCAGAACCAGAGCGGCCTGTACAAAAAAAGCACAGTGGCCAAGACCGGCAACATGATCGCCGCCAAGTACCGCATCGAGGGTTCCATCAGCTCGATCGTCAAGCGCAGCGAAGACTACAAGGACGTCTTCTACAAATTCAGCCTGCAACTGATCGATGTCGAAAGCGGTCTGGCCGAATGGATGGACGAGAAAGAAATCCGCAAGACCACGGAGCGTTAA	MFLRISSLALAALLVSGCANNSPVLGNKNISYGDTKAVETVTNEFGSTDLQMIAESMTRSLAQSGILQGRPVVQVYDVKNKTSEYIDTREITTSIKTQLMKTGAARFASDNNAMDSQVDQLKLQNQSGLYKKSTVAKTGNMIAAKYRIEGSISSIVKRSEDYKDVFYKFSLQLIDVESGLAEWMDEKEIRKTTER	PGPT0023869_598	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023869-lpoB|ycfM-K07337	NA	NA
D1-35_03037	372			hypothetical protein	ATGCGTTTAAAACTGATCGCCGTCGGCGCCCTGGCCTTGCTGGCCGGTTGCGCCACCCCACCACCACCGGAGCAGGGCACTGCCGCCAGCAAGGTCGTGGCGATGGGCAAGACAAAAAACATCGTGGTCGGCGCCATGCGCGTCGCCCGCGAAAACGGCTACATGACCGTCAACGTGCAGTTGAGCAACACCAGTTTCAATAACAAGACGATGTATTACCGCTTCGCCTGGCTGGGACCGGAAGGCTTCCCGATCGCCGAAGAGGAAAGCTGGAAAACCCTGACGCTGTATGGCGAACAGACCCGCTTCCTGCCGGCCATCGCACCGACGCCCAAGGCCGTGGACTTCCGTTTGGAAATCAATACCCCTTGA	MRLKLIAVGALALLAGCATPPPPEQGTAASKVVAMGKTKNIVVGAMRVARENGYMTVNVQLSNTSFNNKTMYYRFAWLGPEGFPIAEEESWKTLTLYGEQTRFLPAIAPTPKAVDFRLEINTP				NA	NA	NA	NA	NA
D1-35_03038	1395			hypothetical protein	ATGGCATCCCGTGCTCTTTTCTCGGTCGCCCTCGGCGCGATCACCTTGCTGTCCGGCTGCTCGGCGTTTCGCAACTACGACAGCGAACTGGCCCAGACCAATCAGCAACTGGCCTCGGGCAACGTCGACGCGGCATTGACCCTGCTGGAAAAAAACAACACCAGCAAAGACAAAGACCTGCTTTATTTCTTTGAAAAGGGTGAGCTGCTGCGTGCCAAGGGCGACCTGTCCGGCAGCCAGACCGCCTGGACCAGCGCCGACCAGCAAGTCGGGCAGTGGGAAGACGCCGTCAAGCTCGATACCGCCAAGTACGTTGCGCAGTTCGGCAGTTTCCTGGTCAACGACAAAGTCCGGCGCTATGAGGGTTATGACTATGAAAAGGTGATGCTCACCACTCAGATGGCGTTGAACCTGCTGGCGGTGAATGACTTCGACGGCGCACGGATGCAGATCAAGAAGACCCACGAGCGCGAAGCCGTGATCGCCGACCTGCGCGACAAGGAATACCTCAAGCGCGAGGAAGACGCCGAGAAACAGGGGGTCAAGACCGAATACAAGGACCTCAAGGGTTATCCGGTCGCCAGCCTTGACGCCCCTGAAGTGGTCAGCCTGAAAAACAGTTACCAGAGCGCGTTCAGCCATTACCTGGCAGGTTTCGTCTACGAAGCCCTGGGCGAGAAAGATCTGGCCGCGCCGGGTTATCGCAAGGCCGCCGAACTGCGTCCCAACACCCCGCTGCTGGAACAGGCGCTGCTCAACCTCGACAAGCCTGCCGCAAAGGACGACGACAGTGACGTCCTGATTGTGGTGCAGAGCGGCCTGGCGCCATCCCGTGACTCGATGCGAATCCCGCTGCCCTTGCCGATCAGCGGCAATGTGGTCATCACGCCACTGTCCTTCCCGCTGATCAAGCCGGACACCTCCACCGCGACCTTCGCCCAGATCGGCGTCGACGGCCGCCAGTTGGACCTGACCCAGCTCAACAGCACCACCGCCATGTCGCGCCGGGCCCTGCGCGACGACATGCCGGGGATCATCCTGCGCACGACCGTGCGGGCCATCACCCGTGGCGTCGCACAGAAACAGATCAACGAAACCAACCCGCTGGCCGGCCTGGCCGTGGGCATCACCTCGGCCGTGCTCGAAGGCGCCGACACCCGGACCTGGCGCACCTTGCCGGACTACACCCAAGTGGTGCGCCTGCGCCTGAAGAAGGGCGAACACCAGGTCACCCTGCCAAGCGCGGTAGGCGGCTCGGTGGTCAAGGTCAAGGTTGATCAGCGTTACCAGGTCATCAGCCTGCGGGCGGTGGGCAGCCAGGTCTTCGCCGGCGGCCTCGCGGCCCAGGTGATCCCGAGCGCCAACCCGACCGCCATCGCCCTCAAGCAACCTTAA	MASRALFSVALGAITLLSGCSAFRNYDSELAQTNQQLASGNVDAALTLLEKNNTSKDKDLLYFFEKGELLRAKGDLSGSQTAWTSADQQVGQWEDAVKLDTAKYVAQFGSFLVNDKVRRYEGYDYEKVMLTTQMALNLLAVNDFDGARMQIKKTHEREAVIADLRDKEYLKREEDAEKQGVKTEYKDLKGYPVASLDAPEVVSLKNSYQSAFSHYLAGFVYEALGEKDLAAPGYRKAAELRPNTPLLEQALLNLDKPAAKDDDSDVLIVVQSGLAPSRDSMRIPLPLPISGNVVITPLSFPLIKPDTSTATFAQIGVDGRQLDLTQLNSTTAMSRRALRDDMPGIILRTTVRAITRGVAQKQINETNPLAGLAVGITSAVLEGADTRTWRTLPDYTQVVRLRLKKGEHQVTLPSAVGGSVVKVKVDQRYQVISLRAVGSQVFAGGLAAQVIPSANPTAIALKQP				NA	NA	NA	NA	NA
D1-35_03039	1899			hypothetical protein	ATGACTGCCCCGTTTCGTTTTCTGGCCTGGATTGCGCTGCCGATGCTTGCGCTTTGCAGTGCCGATCTGCTGGCTGACACTGTTGAAGGCGCGCCACAGGCGCTGCACTTGCTGGATTACATCGGGGCGGATTACCCGGCGACCGTCGACGCGGGGAAGGTCATCGACGATGCCGAATATCGCGAGCAACTGGAATTCACTCAAGTGCTGGAAGGGCTGGTCGCCGCGCTGCCAGGCAAGCCGGAGAAAGCTGAGCTGACGCAAGGCATCGGTACGTTGCGCAGTGCGATCAGCCAGCGCCAGGACGGCGCTGACGTGGCCCGTCTGGCGCGGCAGCTGGGGGCCAGGCTGGCTGTAGCCTATGAGGTCAGCCAGGCGCCGGTGATCACCCCGGACCCGACGCGCGGGGCGCCGTTGTATGCCCAGAACTGCTCGGTGTGCCATGGTGACAGCGGTGCCGGCGACGGTCCGGCGGGTGTCGGCCTGGAGCCGCCGCCCTCGAACCTGCGCGACGGGCAGCGCCTGGATCGGCTGAGCCTCTACGCGATCTACAACACCCTGGGCATGGGCGTCGAAGGCACCGATATGCCGGCCTTCGCCGATCAGCTCGACGACCGTCAACGCTGGGACCTGGCGACCTACATCGCCAGCTTCAGCGCCGACCCGGCTGCGGCCAAGGGCCAGCAGGCCTTCAACCTTGCCGACCTGGCCCGCCAGACCCCGGCCGAAGTCCTCGCCGCCCAGGGGCCCACGGCAGCGGCGACGTTCCGCGCCCAGCGCGCCCAGCCACCGCAGGTGCAGCGCGGCCCGGCGCAGTTGCTTGACTACACCGCCGCTACCCTGGACAAGAGCATCGCGGCGTATCGCACAGGTGACCACGACCAGGCCTACGACTTGTCGGTGGCAGCGTACCTGGAAGGCTTCGAGCTGGTGGAAAGCTCACTGGACAATGTCGACGCCAACGTCCGTAAAGATACCGAGAAGGCCTTGATGGCCTACCGTCAGTCCTTGCAGGACGGTTTGCCGGTCGAGCAGGCCGAGCAACGCCTGGACGCGGCCAAGGCCAAGTTGAAAGAGTCCGCCGGCCTGCTCGGTGGCGATGGCTTGAGCTGGTCGCTGAGCTACATTTCGGGCTTGCTGATCCTGCTGCGCGAAGGCCTGGAGGCGATCCTGGTCCTGGCGGCGATCCTGGCGTTCTTGCGCAACACTGGCCAGCAGTCGGCGGTGCGCAGCGTCAACGTTGGCTGGGGCCTGGCGCTGCTGGCCGGCCTGGCGACCTGGGCGCTCGCCGCATACGTAATCGATGTCAGTGGCGCGCAGCGCGAATTGCTCGAAGGCGCGACGGCGTTGTTCGCCAGCGTGATGGTGCTGTGGTTGGGCGTGTGGATGCACGATCGGCGTCACGCGGCGGCCTGGCAGGATTACATCAAGAGCAGCCTGGTCGGCGGCGGAGGCCGTTTCGGTTTCGCGATCCTGGCATTTTTCTCGGTCTATCGAGAGCTGTTCGAGGTGATCCTGTTCTACGAAACCCTGTGGCTGCAGGCCGGCCCGGCCGGGCATGACGCGGTGTTGGCCGGTGGCGCGACGGCGCTGGTGCTGCTGGTGGGACTGGCCTGGGTGATCTTGCGCGGCTCGGCGAAATTGCCGCTGGCGCTGTTCTTCAGCATCAACGCCGGTTTGCTGTGTGCGTTGTCGGTGGTATTTGCCGGTCATGGCGTGAAGGCCTTGCAGGAAGCCGGAATCTTCGGCACGCGGCCGGTGGCGTTCTTCGAGTTCGACTGGCTGGGCATCCATGCCGATGCTTATTCCCTGGCGGCCCAGGCGGTAGCGATCATCGCGATCGTTGTGCTGTACGGGCGCAGTTGGGTGGCGGAGAAACGTCGGGTGCAGGTTTCCTGA	MTAPFRFLAWIALPMLALCSADLLADTVEGAPQALHLLDYIGADYPATVDAGKVIDDAEYREQLEFTQVLEGLVAALPGKPEKAELTQGIGTLRSAISQRQDGADVARLARQLGARLAVAYEVSQAPVITPDPTRGAPLYAQNCSVCHGDSGAGDGPAGVGLEPPPSNLRDGQRLDRLSLYAIYNTLGMGVEGTDMPAFADQLDDRQRWDLATYIASFSADPAAAKGQQAFNLADLARQTPAEVLAAQGPTAAATFRAQRAQPPQVQRGPAQLLDYTAATLDKSIAAYRTGDHDQAYDLSVAAYLEGFELVESSLDNVDANVRKDTEKALMAYRQSLQDGLPVEQAEQRLDAAKAKLKESAGLLGGDGLSWSLSYISGLLILLREGLEAILVLAAILAFLRNTGQQSAVRSVNVGWGLALLAGLATWALAAYVIDVSGAQRELLEGATALFASVMVLWLGVWMHDRRHAAAWQDYIKSSLVGGGGRFGFAILAFFSVYRELFEVILFYETLWLQAGPAGHDAVLAGGATALVLLVGLAWVILRGSAKLPLALFFSINAGLLCALSVVFAGHGVKALQEAGIFGTRPVAFFEFDWLGIHADAYSLAAQAVAIIAIVVLYGRSWVAEKRRVQVS	PGPT0003710_437	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003710-efeU|FTR|FTH1-K07243	NA	NA
D1-35_03040	456			hypothetical protein	ATGCGTGTATGGATCGACGCCGACGCCTGCCCCAAGGCCGCTAAGGAACTGGTGGTCAAGTTCGCCTTGAAGCGCCAGTTTGAAGTAGTACTGGTGGCCGGGCAGCCGCAGATCAAGCCGGGCCTGGCTCTGGTGAAGCTGATCGTGGTGCCCAGCGGGCCTGATGCGGCGGACGATTATCTGGTGGAGCATGCCGTCCCGGGTGAACTGGTGATCTGCAGCGACGTGCCGCTGGCCGACCGCCTGGTAAAGAAAGGCGTCGCAGCCCTTGACCCGAGGGGCAAGGAGTTCGACGCGCAGAACATGGGCGATCGACTGGCGGTGCGCAACCTGTTCACCGACTTGCGGGAACAGGGCCACATGGGCGGTGGCCCGGCGGCGTACAGCGAGCGGGACAAGCAGGGATTTGCCAATGCGCTGGATCGGATATTGACGCGGTTGTCTCGAATCTCCTGA	MRVWIDADACPKAAKELVVKFALKRQFEVVLVAGQPQIKPGLALVKLIVVPSGPDAADDYLVEHAVPGELVICSDVPLADRLVKKGVAALDPRGKEFDAQNMGDRLAVRNLFTDLREQGHMGGGPAAYSERDKQGFANALDRILTRLSRIS				NA	NA	NA	NA	NA
D1-35_03041	669	elbB	COG3155	Glyoxalase ElbB	ATGAGCAAAAAAGTTGCAGTGATCCTTTCCGGCTGTGGCGTGTACGACGGCGCAGAGATCCACGAAAGCGTGATCACTTTGCTGCGTCTCGACCAGCGCGGCGCGCAGGTCCAGTGTTTCGCCCCCAACATCGCCCAATTGCATGTCATCAATCACCTGACCGGTGAGGAAATGCCCGAGAGCCGCAACGTGTTGGTGGAATCGGCGCGCATCGCCCGGGGAAATGTGAAAGACCTGCGCGAAGCCAGGGCCGAGGACTTTGATGCGCTGATCGTGCCCGGCGGCTTCGGCTCGGCGAAAAACCTCTCCAACTTTGCCGTCGAAGGCGCCGGTTGCAGCGTCCAGCCGCAAGTCCTGGCGTTGACCGAAGCCTTCGCCGAGGCCGGCAAGCCGGTTGGGCTGATCTGCATCTCACCGGCCCTGGCGGCGAAAATCTACGGCCCTGGGGTGACCTGCACCATCGGCACGGACGCCGACACCGCCGCTGCCGTGACCAAGATGGGCGGGACTCATGAAGAGTGCCTGGTCACCGATATCGTCGAAGACACCGCGCGCAAGCTGGTCAGCACCCCCGCCTACATGCTGGCGCAGAACATCAGCGAAGCGGCTTCGGGGATCAACAAGCTGGTGGACCGGGTGCTGGAGCTGACGCACGAGAATGATGAGTGA	MSKKVAVILSGCGVYDGAEIHESVITLLRLDQRGAQVQCFAPNIAQLHVINHLTGEEMPESRNVLVESARIARGNVKDLREARAEDFDALIVPGGFGSAKNLSNFAVEGAGCSVQPQVLALTEAFAEAGKPVGLICISPALAAKIYGPGVTCTIGTDADTAAAVTKMGGTHEECLVTDIVEDTARKLVSTPAYMLAQNISEAASGINKLVDRVLELTHENDE				NA	NA	NA	NA	NA
D1-35_03042	1236			hypothetical protein	ATGAATTTCATCCTGTATGCCGTGCCGTTTTTCTTCGTGTTGATTGCCGTCGAGTTGCTGGCCGATCGCTGGCGTGGCGTGAGCCACTATCGCCTGGCGGACGCGATCAACAGCCTGAGCACCGGTGTGCTGTCGACCACGACGGGGTTGTTGACCAAGGGCGTGGGCCTGGTGACCTATGCCTTTGCCCTGGAGCATCTGGCGGTCTTTCAATGGCCGACCGACCAGGCCTGGACCTGGGCATTCGCCTTTGTGTTCTATGACTTCTGCTACTACTGGCTGCACCGCTTGGGCCACGAGCGCAACATCCTCTGGGCCGCCCATTCGGTGCACCACCAGAGCGAGGACTACAACCTCTCCACGGCGTTGCGCCAGACCAGCAGCGGTTTCCTGCTGAGCTGGATCTTCTACCTGCCGCTGGCGGTGCTGGGCGTGCCGCTGCTGGTGTTCGTCGGTGTCGCGGCGTTGAACCTGCTGTATCAGTTCTGGGTGCATACCCAGCACATCCCCAAGCTCGGCTGGCTGGAGTGGTGCTTCGTCACGCCATCCAATCATCGTGCCCACCATGCACAGAACCCTCTCTACATGGATCGCAACTACGGCGGCGTGTTCATTATTTGGGACCGTCTGTTTGGCACCTTCCAGGAAGAGGACGACAACGAGCCGGTCATTTTCGGCGTGACCACGCCACTGGCGAGCTGGAATCCGTTGTGGGCCAATCTGCAGTTCTATGCGCAACTGTGGGCCGATGCCCGGCGCGCCGAGCGCTGGTGGGACAAGCTGCGGATCTGGTTCATGCCCACCGGTTGGCGGCCAGCCGATGTGGCCGCCAGGTACCCGCTGAACAAGCCGGACCTGAGCCGGTTCCGCAAATTCGAAGTGCCCCTGGCCGGACGCCAGCAAGGGTACGTGGCGCTGCAGTTTTGCTTCTACATCGCCCTGGGCAGTTATTTGATGAACCTGGAAAACAGCCTGCCGGCCACTGCCCTGGTGTTGGGGTGGGGAGCGGTAGCGTTGGGTCTGTTCGTGTTGGGCGCGGCTCTGGAGAATCGCCCGTGGGCGCTGAGGCTTGAGGTTTTGCGCCTGGCTGCGAACCTGCCGCTGGTGTGGCTGGCGCCGCTGTCCGGGTTATGGCCGGCCAGCCCGGTGGCCTGGGTTGGCTTGCTCAGCTACAGCCTGATCAGTGGCATCGGCTTGTACTATTGCCGCAACCGTCTCACTCGCCTGGCGTCGTAG	MNFILYAVPFFFVLIAVELLADRWRGVSHYRLADAINSLSTGVLSTTTGLLTKGVGLVTYAFALEHLAVFQWPTDQAWTWAFAFVFYDFCYYWLHRLGHERNILWAAHSVHHQSEDYNLSTALRQTSSGFLLSWIFYLPLAVLGVPLLVFVGVAALNLLYQFWVHTQHIPKLGWLEWCFVTPSNHRAHHAQNPLYMDRNYGGVFIIWDRLFGTFQEEDDNEPVIFGVTTPLASWNPLWANLQFYAQLWADARRAERWWDKLRIWFMPTGWRPADVAARYPLNKPDLSRFRKFEVPLAGRQQGYVALQFCFYIALGSYLMNLENSLPATALVLGWGAVALGLFVLGAALENRPWALRLEVLRLAANLPLVWLAPLSGLWPASPVAWVGLLSYSLISGIGLYYCRNRLTRLAS				NA	NA	NA	NA	NA
D1-35_03043	624			hypothetical protein	ATGCTCCAACAATTTCTGCATGACTTCGGCTACTTGGCCCTGTTTATCGGCACGTTCTTCGAAGGCGAAACCATCCTCGTGCTCGCAGGCTTCCTGGCGTTCCGTGGCTACATGGACATCAACCTGGTGGTGGTCGTGGCATTTTGCGGCAGCTACGCGGGCGATCAGCTGTGGTACTTCCTGGGCCGCAAACATGGCCGCAAGCTCCTGGCGCGCAAGCCGCGCTGGCAGTTGATGGGGGATCGCGCGCTGGAGCACATCCGCCGCCATCCGGACATCTGGGTACTGAGCTTTCGCTTCGTCTACGGTTTGCGCACGGTGATGCCGGTGGCGATCGGCCTCTCTGGCTATCCACCGGGTCGCTACCTGCTGCTCAACGGTATCGGCGCGGCGATCTGGGCCACGGCCCTGGCGGCTGCCGCGTACCACTTTGGCGCGGTGCTCGAAGGCATGCTGGGCAGCATCAAGAAATACGAACTGTGGGTACTTGGCGCCCTGCTGGTTCTGGGCTTGGGCCTATGGCTGCGTCGACGCATCAAGAACGCACGGCTGGCCAGACAAGTCCTTGCGGCAGAACGTCTCGAACAAGCCAAGTCCGCCGAAACTACGACGCCAGGCGAGTGA	MLQQFLHDFGYLALFIGTFFEGETILVLAGFLAFRGYMDINLVVVVAFCGSYAGDQLWYFLGRKHGRKLLARKPRWQLMGDRALEHIRRHPDIWVLSFRFVYGLRTVMPVAIGLSGYPPGRYLLLNGIGAAIWATALAAAAYHFGAVLEGMLGSIKKYELWVLGALLVLGLGLWLRRRIKNARLARQVLAAERLEQAKSAETTTPGE				NA	NA	NA	NA	NA
D1-35_03044	1014	hemB_2	COG0113	Delta-aminolevulinic acid dehydratase	GTGAGCTTTACCCCCGCCAATCGTCTGTTCCCCGCCACCCGTCTGCGCCGCAACCGCCGTGATGAGTTCTCCCGTCGGCTGGTGCGTGAAAATGTGCTGACCACCAATGACCTGATCCTGCCGGTGTTCGTGCTGGACGGGGAGAACCGTCGTGAAGCGGTGGCGTCGATGCCGGGCGTGGAGCGCCTGACCATCGACTTGCTGCTCGAAGCGGCGGCCGAGTGGGTGGAACTGGGTATCCCGGCGCTGGCGCTGTTCCCGGTCACCCCGCCAGCGCTCAAATCGCTGGACGCCGCCGAAGCCTGGAACCCCGAGGGTATTGCCCAGCGCGCGACCCGTGCCCTGCGCGCGCGCTTCCCGGAGCTCGGTGTGATTACCGACGTGGCGCTGGATCCGTTCACCACCCACGGTCAGGACGGCATTCTCGACGAAGAAGGCTACGTGCAGAACGACATCACCGTCGATGCACTGGTCAGGCAAGCGTTGTCCCACGCCGAAGCGGGGGCCCAGGTCGTGGCGCCATCCGACATGATGGACGGTCGCATCCAGGCGATCCGCGAAGCCCTGGAAGTGGCCGGCCATGTCAACGTGCGCATCATGGCCTATTCGGCCAAGTACGCCAGCGCCTACTACGGTCCGTTCCGCGACGCGGTCGGCTCGGCCCTGAACCTGGGCAAGGCCAACAAGGCCTCCTATCAGATGGACCCGGCCAACACCCATGAAGCCTTGCACGAAGTGGCTGCCGACTTGTCAGAAGGCGCAGACATGGTCATGGTCAAGCCGGGGATGCCTTATCTCGACATTCTTTGCCGGGTAAAGGAAGAATTCAAAGTACCGACCTTTGTTTATCAGGTCAGCGGCGAGTATGCGATGCACATGGCCGCGATCCAGAACGGCTGGTTGAGCGAAGGGGTGATTCTCGAGTCCCTGACCGCTTTCAAACGTGCGGGTGCTGATGGCATCCTGACCTACTTTGCCGTGCGCGCCGCCCAATTGTTACGAGAGCAGAAATAG	MSFTPANRLFPATRLRRNRRDEFSRRLVRENVLTTNDLILPVFVLDGENRREAVASMPGVERLTIDLLLEAAAEWVELGIPALALFPVTPPALKSLDAAEAWNPEGIAQRATRALRARFPELGVITDVALDPFTTHGQDGILDEEGYVQNDITVDALVRQALSHAEAGAQVVAPSDMMDGRIQAIREALEVAGHVNVRIMAYSAKYASAYYGPFRDAVGSALNLGKANKASYQMDPANTHEALHEVAADLSEGADMVMVKPGMPYLDILCRVKEEFKVPTFVYQVSGEYAMHMAAIQNGWLSEGVILESLTAFKRAGADGILTYFAVRAAQLLREQK	PGPT0003655_1249	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003655-hemB-K01698	NA	NA
D1-35_03045	2217	ppk		Polyphosphate kinase	ATGAATACCGAAGGACTCACAGAAGTTGCCGTAAAAGACGCTCAGCCCGTGGTCGAGCAAGCCGCCGAAACGCCGCCGGAGCTGGAGTCGGCTCCAGCGGCCGTGCCCGAGCCGGCCCCTGCTCCGGCGATCGCGATCACCAACCTGGATGACAGCAGCCTGTACATCCACCGCGAGCTGTCGCAACTGCAATTCAACATCCGCGTGCTGGAGCAGGCACTGGATGAGTCCTATCCACTGCTGGAGCGGCTGAAGTTTTTGCTGATCTTTTCCAGCAACCTGGACGAGTTCTTCGAGATTCGCGTCGCCGGCCTGAAAAAACAGATCACCTTCGCCCGCGAGCAGGCCGGTGCCGATGGCTTGCAACCGCACCAGGCCCTGGCGCGCATCAGCGAGCTGGTACACGGCCACGTTGACCGCCAGTACGCGATCCTCAACGACATTCTGCTGCCGGAGCTGGAAAAACATCAGGTCCGCTTCATCCGTCGCCGCTACTGGACGACCAAGCTCAAGACTTGGGTACGCCGTTACTTCCGCGACGAGATCGCCCCGATCATTACCCCGATCGGCCTCGACCCGACGCACCCGTTTCCATTGCTGGTAAACAAGAGCCTGAACTTCATCGTCGAGCTGGAAGGCATCGATGCCTTTGGTCGCGATTCCGGCCTGGCGATCATTCCGGCGCCGCGCCTGCTGCCGCGCATCATCCGCGTGCCGGAAGATGTCGGCGGGCCAGGCGACAACTATGTGTTCCTGTCGTCAATGATCCACGCCCATGCCGATGACCTGTTCCAGGGCATGAAGGTCAAGGGCTGCTACCAGTTCCGCCTGACCCGTAACGCCGACCTGTCGGTGGACACCGAGGACGTCGAAGACCTGGCCCGCGCCCTGCGCGGCGAGCTGTTCTCCCGCCGTTACGGCGATGCGGTGCGCCTGGAAGTGGCTGACACCTGCCCGAAACATCTGTCCGACTACCTGCTCAAGCAGTTCAACCTGCACGAGACCGAGCTGTATCAGGTCAATGGTCCGGTGAACCTGACGCGGCTGTTCAGCATCACCGGCCTGGACAGCCATCCGGAGCTGCAATACTCGCCGTTTACGCCGCAGATTCCGAAACTGCTGCAAAACAGCGAGAACATTTTCAGTGTGGTCAGCAAGCAGGACATCCTCCTGCTGCACCCCTTCGAGTCGTTCACGCCGGTGGTCGACTTGCTGCGCCAGGCCGCCAAGGATCCCCACGTATTGGCGGTGCGCCAGACGTTGTATCGCAGCGGCGCCAACTCGGAGATCGTCGACGCCCTGGTGGACGCGGCGCGAAACGGCAAGGAAGTCACCGCGGTGATCGAATTGCGCGCGCGTTTCGACGAAGAATCCAACCTGCAACTGGCCAGCCGCCTGCAAGCGGCCGGCGCGGTGGTGATCTACGGCGTGGTTGGCTACAAGACCCACGCCAAGATGATGCTCATCCTGCGGCGCGAGGCCGGCGAGATTGTGCGCTACGCGCACTTGGGCACCGGCAACTATCACGCCGCCAACGCTCGGCTGTATACCGACTACAGCCTGCTGACCTCGGATGATGCGCTGTGCGAGGACGTCGGCAAGCTGTTCAGCCAACTGATCGGCATGGGCAAGACGCTGCGCATGAAAAAATTGCTGCATGCGCCGTTCACCCTGAAAAAGGGCATGCTCGACATGATCGCCCGGGAAACCCAGTTCGCCCTGGACGGCAAGCCCGCGCACATCATTGCCAAATTCAACTCGCTGACTGATCCGAAGATCATTCGCGCGCTATATAAGGCCAGCCAGTCGGGCGTGCGCATCGACCTGGTGGTACGCGGCATGTGCTGCCTGCGGCCGGGCATTCCGGGGGTGTCCCACAACATCCATGTGCGCTCGATCATCGGGCGCTTCCTGGAGCACACCCGGGTGTTCTATTTCCTCAATGGCGGCGAGGAGCAAATGTTCCTCTCCAGTGCCGACTGGATGGAGCGCAACCTCGACAAGCGTGTCGAGACCTGCTTCCCGGTGGAGGGCAAGAAGCTGATCCTGCGGGTCAAGAAGGAGCTGGAAAGCTACCTCACCGACAACACCCACAGTTGGAGTCTGCAGTCGGACGGTCGTTACATCCGCAACACACCGACCGGCAACCAGAACCCGCGCAGTGCCCAGGCGACCTTGCTGGATCGGCTTAGCAGCCCGGTGTTGGCGGTTCGTTAG	MNTEGLTEVAVKDAQPVVEQAAETPPELESAPAAVPEPAPAPAIAITNLDDSSLYIHRELSQLQFNIRVLEQALDESYPLLERLKFLLIFSSNLDEFFEIRVAGLKKQITFAREQAGADGLQPHQALARISELVHGHVDRQYAILNDILLPELEKHQVRFIRRRYWTTKLKTWVRRYFRDEIAPIITPIGLDPTHPFPLLVNKSLNFIVELEGIDAFGRDSGLAIIPAPRLLPRIIRVPEDVGGPGDNYVFLSSMIHAHADDLFQGMKVKGCYQFRLTRNADLSVDTEDVEDLARALRGELFSRRYGDAVRLEVADTCPKHLSDYLLKQFNLHETELYQVNGPVNLTRLFSITGLDSHPELQYSPFTPQIPKLLQNSENIFSVVSKQDILLLHPFESFTPVVDLLRQAAKDPHVLAVRQTLYRSGANSEIVDALVDAARNGKEVTAVIELRARFDEESNLQLASRLQAAGAVVIYGVVGYKTHAKMMLILRREAGEIVRYAHLGTGNYHAANARLYTDYSLLTSDDALCEDVGKLFSQLIGMGKTLRMKKLLHAPFTLKKGMLDMIARETQFALDGKPAHIIAKFNSLTDPKIIRALYKASQSGVRIDLVVRGMCCLRPGIPGVSHNIHVRSIIGRFLEHTRVFYFLNGGEEQMFLSSADWMERNLDKRVETCFPVEGKKLILRVKKELESYLTDNTHSWSLQSDGRYIRNTPTGNQNPRSAQATLLDRLSSPVLAVR	PGPT0002685_692	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002685-ppk-K00937	NA	NA
D1-35_03046	1503	ppx	COG0248	Exopolyphosphatase	ATGCCGCTATCCCAAGCCAAGAATCTGTCCCTGATCGCTGCCATAGACCTGGGCTCCAACAGCTTTCACATGGTCGTCGCCAAGGCCCAGAACGGGGAAATCCGCATTCTTGAGCGACTCGGCGAGAAGGTCCAGCTGGCCGCCGGTATCGACGAAGAACGTCAACTGAGCGAAGAATCCATCCAGCGCGGCCTCGACTGCCTCAAACGGTTTGCCCAACTGATCAACGGCATGCCCCTGGGCGCGGTGCGCATCGTCGGCACCAATGCCCTGCGCGAGGCGCGCAACCGCGGCGAATTCATCCGGCGCGCCGAAGAGATCCTCGGCCATCCGGTGGAAGTCATCTCCGGCCGTGAAGAGGCCCGCCTGATCTACCTGGGTGTTTCCCACACCCTGGCGGACACCCCGGGCAAGCGCCTGGTGGCGGACATCGGCGGCGGTAGTACCGAATTCATCATCGGCCAGCGCTTCGAACCACTGTTGCGCGAAAGCCTGCAGATGGGTTGCGTCAGCTTCACTCAGCGCTACTTCCGCGACGGCAAGATCACCCCGGCCCGCTACGCCCAGGCCTACACGGCGGCGCGCCTGGAAATCATGAGCATCGAGCACGCGCTGCACCGCCTGACCTGGGATGAAGCCATCGGCTCCTCGGGCACCATCCGCGCCATCGGCCTGGCGCTCAAGGCTGGCGGCCATGGCAGTGGCGAGGTCAACGCCGAAGGCCTGGCCTGGCTCAAGCGCAAAGTGTTCAAGCTGGGCGAATCGGACAAGATCGATTTCGAAGGCATCAAGCCTGATCGCCGGGCGATTTTCCCGGCGGGCCTGGCGATTCTCGAGGCGATTTTTGACGCCCTCGAACTGCAACGCATGGATCACTGCGAAGGTGCCCTGCGTGAGGGCGTGCTCTACGACCTCCTGGGGCGCCATCATCACGAAGACGTCCGCGAGCGCACCCTCGGCTCGCTCATGGAGCGTTACCACGTCGATCAGGAACAGGCGGCGCGGGTCGAGCGCAAGGCCCTCCACGCGTTCGACCAGGTGGCCGACGACTGGGACCTGAACGACGGTGTCTGGCGCGAACTGCTGGGCTGGGCCGCCAAAGTGCACGAAGTCGGCCTGGACATCGCCCACTACCATTACCACAAGCACGGCGCCTACCTGATCGAGCACTCGGACCTGGCGGGTTTCTCGCGCGAGGACCAGCAGATGCTTGCGCTACTGGTGCGTGGTCACCGGCGCAATATTCCCAAGGATAAATTCGCCGAGTTCGGCGATGACGGCATCAAGCTGATCCGCTTATGCGTGCTGTTGCGCTTCGCAATCCTCTTCCACCACATCCGCGGCACCCAGGAAATGCCCCAGGTAACCCTGCATGCCAATGGTGATCAACTGGATGTGATATTCCCGGACGGCTGGCTGGAAGAAAACCAATTGACCCAGGCCGACTTCGCCCAGGAAGCGGAATGGCTGACCCGGGTTGGGATTGTGTTGAATATTCACTGA	MPLSQAKNLSLIAAIDLGSNSFHMVVAKAQNGEIRILERLGEKVQLAAGIDEERQLSEESIQRGLDCLKRFAQLINGMPLGAVRIVGTNALREARNRGEFIRRAEEILGHPVEVISGREEARLIYLGVSHTLADTPGKRLVADIGGGSTEFIIGQRFEPLLRESLQMGCVSFTQRYFRDGKITPARYAQAYTAARLEIMSIEHALHRLTWDEAIGSSGTIRAIGLALKAGGHGSGEVNAEGLAWLKRKVFKLGESDKIDFEGIKPDRRAIFPAGLAILEAIFDALELQRMDHCEGALREGVLYDLLGRHHHEDVRERTLGSLMERYHVDQEQAARVERKALHAFDQVADDWDLNDGVWRELLGWAAKVHEVGLDIAHYHYHKHGAYLIEHSDLAGFSREDQQMLALLVRGHRRNIPKDKFAEFGDDGIKLIRLCVLLRFAILFHHIRGTQEMPQVTLHANGDQLDVIFPDGWLEENQLTQADFAQEAEWLTRVGIVLNIH	PGPT0002595_2161	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
D1-35_03047	735	glnQ_5		Glutamine transport ATP-binding protein GlnQ	ATGCCTCTGCTTAGAATTTCCGCCCTGCATAAGTACTACGGCGATCACCACGTGCTCAAAGGCATCGACCTGAGTGTCGAGGAAGGCCAGGTGGTAGCGATCATCGGCCGCAGCGGTTCGGGAAAATCCACCTTGCTGCGCACCCTGAACGGTCTCGAATCGATTAACGACGGCGTGATCGAAGTCGATGGCGAGTACCTCGACGCGGCACGCGCCGACTTGCGCAGCCTGCGCCAGAAAGTCGGGATGGTGTTCCAGCAATTCAATCTGTTCCCGCACCTGACGGTCGGCGAGAACGTGATGCTCGCGCCACAAGTCGTGCAAAAAGTGCCCAAGGCCAAGGCGGCCGAGCTGGCGCGGCAGATGCTGGAGCGGGTCGGGCTCGGCGAGAAATTCGATGCCTTCCCGGACCGTTTGTCCGGCGGCCAACAGCAACGGGTAGCGATTGCCCGAGCCCTGGCGATGTCGCCGAAGGTGCTGCTGTGCGATGAAATCACCTCGGCCCTGGACCCGGAGCTGGTCAATGAAGTGCTCAGCGTGGTGAGGCAATTGGCCAAGGAAGGCATGACGCTGATCATGGTCACCCATGAAATGCGCTTTGCCCGGGAGGTAGGGGACAAGCTGGTGTTCATGCACCAGGGCAAGGTGCATGAAGTGGGGGACCCGAAGGTACTGTTCGCCGATCCGCAGACGGCCGAGCTGGCAAACTTCATCGGGACGGTGGAGCCTGCCTGA	MPLLRISALHKYYGDHHVLKGIDLSVEEGQVVAIIGRSGSGKSTLLRTLNGLESINDGVIEVDGEYLDAARADLRSLRQKVGMVFQQFNLFPHLTVGENVMLAPQVVQKVPKAKAAELARQMLERVGLGEKFDAFPDRLSGGQQQRVAIARALAMSPKVLLCDEITSALDPELVNEVLSVVRQLAKEGMTLIMVTHEMRFAREVGDKLVFMHQGKVHEVGDPKVLFADPQTAELANFIGTVEPA	PGPT0020790_4523	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
D1-35_03048	651	yecS_2	COG0765	L-cystine transport system permease protein YecS	ATGAGCGATTTCACTTTCTGGGACGTGGTGCGCAACCTGCTCACCGGCCTGCAATGGACCCTGGCGCTGTCGCTGGTGGCGTTTATCGGCGGCGGTGTGATCGGCTTGCTGGTGATGGTGCTGCGCATCTCCAAACGCGCCCTGCCGCGTAATGTCGCCCGGACCTATATCGAGCTGTTCCAAGGCACGCCACTGTTGATGCAGTTGTTCCTGGTGTTCTTTGGCGTGGCCCTGGCCGGGGTGGAGATTTCCCCCTGGATGGCGGCGGCGATCGCCCTGACGCTGTTTACCAGCGCCTACCTGGCGGAGATCTGGCGCGGTTGCGTCGAGTCGATTTCCAACGGCCAATGGGAAGCGTCCGCGAGCCTGGCGCTCAACCCGCTGGAACAGTTGCGCTACGTGATCCTGCCCCAGGCGCTGCGGATTGCCGTGGCGCCGACCGTGGGCTTCTCCGTGCAGGTGGTCAAGGGCACGGCCGTGACGTCGATCATCGGCTTTACCGAACTGACCAAGACCGGCGGCATGCTCGCCAATGCCACGTTCGAGCCGTTCATGGTCTACGGCCTGGTGGCCCTCGGTTATTTCCTCCTTTGTTACCCCTTGTCCCTCAGCGCGCGCTACCTGGAAAGGAGACTGCATGCCTCTGCTTAG	MSDFTFWDVVRNLLTGLQWTLALSLVAFIGGGVIGLLVMVLRISKRALPRNVARTYIELFQGTPLLMQLFLVFFGVALAGVEISPWMAAAIALTLFTSAYLAEIWRGCVESISNGQWEASASLALNPLEQLRYVILPQALRIAVAPTVGFSVQVVKGTAVTSIIGFTELTKTGGMLANATFEPFMVYGLVALGYFLLCYPLSLSARYLERRLHASA	PGPT0020795_10707	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
D1-35_03049	669	yecS_3	COG0765	L-cystine transport system permease protein YecS	ATGGCTTATCAGTTCGATTTCCTGCCGGTGGTGCAAAACACCGAGCTGCTGTTGCGCGGCGCGCTGTTCACCCTTGAACTGACGGCCATCGGCGCTTTGCTCGGGGTCGGCCTGGGCATCGTCGGGGCGGTGGTTCGGGCGTGGAATATCCGTCCGTTCGCGGCGATCTTCGGCGTGTACGTGGAACTGATCCGCAACACGCCGTTCCTGGTCCAGTTGTTTTTCATCTTCTTCGGCTTGCCGTCCCTGGGCCTGCAGATTTCCGAGTGGCAGGCGGCGGTGCTGGCGATGGTGATCAACCTCGGCGCGTATTCCACCGAGATCATCCGGGCCGGCATCCAGGCTATCCCACGGGGGCAACTGGAAGCCGCCGCGGCACTCGCGATGAGCCGCTTCGAAGCGTTCCGCCACGTAGTCTTGCTGCCGGCACTGGGCAAGGTCTGGCCGGCGCTGAGCAGCCAGATCATCATCGTGATGCTCGGCTCCGCCGTCTGTTCGCAGATCGCCACCGAAGAGCTGAGCTTCGCCGCCAATTTCATTCAGTCGCGCAATTTCCGCGCGTTCGAAACCTACGCGCTGACGACGCTGATCTACCTGTGCATGGCGCTGTTGATCCGCCAGTTTCTCAACTGGGTCGGGCGTCGCTACATTGCCAGGAGCAGCCAATGA	MAYQFDFLPVVQNTELLLRGALFTLELTAIGALLGVGLGIVGAVVRAWNIRPFAAIFGVYVELIRNTPFLVQLFFIFFGLPSLGLQISEWQAAVLAMVINLGAYSTEIIRAGIQAIPRGQLEAAAALAMSRFEAFRHVVLLPALGKVWPALSSQIIIVMLGSAVCSQIATEELSFAANFIQSRNFRAFETYALTTLIYLCMALLIRQFLNWVGRRYIARSSQ	PGPT0020795_8055	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
D1-35_03050	786	artJ	COG0834	ABC transporter arginine-binding protein 1	ATGATCCAGCGTTGCAGCGTCCTGCTCACTGCCCTGTTTGCCAGCCTGATGCTTTGCCAATTGCCCGCCCACGCCGATGGCCTGGAAGACGTGGTCAAGCGCGGTACGCTCAAGGTTGCGGTGCCTCAGGATTTTCCACCGTTCGGCTCCGTGGGTCCGGACATGAAGCCACGCGGCCTGGACATCGATACGGCGAAACTGCTGGCCGACCAGCTCAAGGTCAAGCTTGAACTGACGCCCGTCAACAGCACCAACCGCATTCCATTCCTGACCACTGGCAAGGTCGACCTGGTGATTTCCAGCCTGGGCAAGAACCCTGAGCGTGAAAAAGTCATCGACTTCTCCAGCGCCTACGCGCCGTTCTACCTGGCCGTATTCGGCCCGCCTGATGCCGCCATCAACGGCCTGGACGACCTCAAGGGCAAGACCATCAGCGTCACCCGTGGCGCCATCGAAGACATCGAGCTGAGCAAGGTCGCCCCCGAAGGCACCACCATCAAGCGCTTCGAAGACAACAACTCGACCATCGCCGCCTACCTGGCCGGCCAGGTGGACCTGATCGCCAGTGGCAACGTGGTGATGGTGGCCATCAGCGAGCGCAACCCCAAGCGCGTTCCGGCGTTGAAAGTGAAACTCAAGGACTCGCCGGTGTACGTGGGCGTGAACAAGAACGAGCCGGCGCTGCTGGACAAGGTCAACCAGATCCTCGCTACGGCCAAGACCGACGGCAGCCTGGAGAAAAACGCCCAGACCTGGCTCAAGCAGCCGCTGCCGGCCGACCTCTGA	MIQRCSVLLTALFASLMLCQLPAHADGLEDVVKRGTLKVAVPQDFPPFGSVGPDMKPRGLDIDTAKLLADQLKVKLELTPVNSTNRIPFLTTGKVDLVISSLGKNPEREKVIDFSSAYAPFYLAVFGPPDAAINGLDDLKGKTISVTRGAIEDIELSKVAPEGTTIKRFEDNNSTIAAYLAGQVDLIASGNVVMVAISERNPKRVPALKVKLKDSPVYVGVNKNEPALLDKVNQILATAKTDGSLEKNAQTWLKQPLPADL	PGPT0020800_11692	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
D1-35_03051	708	nanR_1		HTH-type transcriptional repressor NanR	ATGAATTCCATTTCTCGTGCCGTTCCGGAAGTCGCCCTGCAAGGCATCCGCAAGCTGATCGCCGATCAAGGTTTCGGCCCGGGGGATGCGCTGCCGTCACAACGGGACCTGGCCTTGCAGCTGGGGGTGAGCCGGGCCTCACTGCGCGAGGCGCTTTCATCGCTCAGTGCCTTGGGCATGATTAGCGTGCAGCCAGGGAGGGGGGTATTCGTGCAATCGCCGGCGCAAGCCCCACGCAGCGAACCAACGCCGGGTTGGCCCTTCGCCGCGCAGGCCTCGCCGGTGGATATCTTTCAGTTGCGTTATGCCCTTGAGGGGTTCGCGGCCGGGTTGGCGGCCGTCACGTTGAGCGCCGATGAGCTCGATGCCCTGGATGACAACGTCGAGGCCATGCGCCGAGAGTTGAAAGCGGGGGATTTCGACGCGGCGGCGCGGCTCGATTTCGAGTTCCACCGGCGGATCCTGCTGGCCAGCGGCAACCAGGCGATGCTGGGCATTCTCACCGCCAGCGCCGATATCTTCCTGGAAAGCCAGAAACTACCGTTCATCAGGGCGGAGCGGGCGATGGAGACGTGGCAGGAACATCGCAAGATCCTTCGCGCCCTGGCCCGCCGGGCATCGGTTTCGGCGCAAAAAACCATGCAGGAACATGTACGTAATGCGGCGTTGCGTACCGGTATCTCGTTCATCGCACCGGCCGCTTCATGA	MNSISRAVPEVALQGIRKLIADQGFGPGDALPSQRDLALQLGVSRASLREALSSLSALGMISVQPGRGVFVQSPAQAPRSEPTPGWPFAAQASPVDIFQLRYALEGFAAGLAAVTLSADELDALDDNVEAMRRELKAGDFDAAARLDFEFHRRILLASGNQAMLGILTASADIFLESQKLPFIRAERAMETWQEHRKILRALARRASVSAQKTMQEHVRNAALRTGISFIAPAAS				NA	NA	NA	NA	NA
D1-35_03052	372	trxA	COG0526	Thioredoxin 1	ATGATGGGCCACGTTTTTTTGCTGATTACCCCGGAGATTTCCATGAGCAGCGATCTGATCAAACACGTTAGCGACGCTAGCTTCGAAGCTGACGTACTCAAGGCCGAAGGCGCAGTGCTGGTCGACTATTGGGCTGAGTGGTGCGGTCCTTGCAAAATGATCGCTCCGGTCCTGGACGAAATTGCCGAGACCTACAAGGGCAAACTGACCGTCGCCAAGCTGAACATCGACGAAAACCAGGAAACCCCGGCCAAGCACGGCGTGCGTGGTATCCCGACCCTGATGCTGTTCAAGAACGGCAACGTCGAGGCCACCAAGGTCGGCGCGCTGTCGAAGTCGCAACTGGCAGCTTTCCTCGACGCCAACATCTAA	MMGHVFLLITPEISMSSDLIKHVSDASFEADVLKAEGAVLVDYWAEWCGPCKMIAPVLDEIAETYKGKLTVAKLNIDENQETPAKHGVRGIPTLMLFKNGNVEATKVGALSKSQLAAFLDANI	PGPT0013055_3845	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
D1-35_03054	1260	rho	COG1158	Transcription termination factor Rho	ATGAATCTGACTGAACTCAAGCAAAAGCCGATTACCGAACTGCTCGAATTGGCCGAACAGATGGGCATAGAAAATATGGCCCGTTCGCGCAAGCAGGACGTGATTTTCTCCCTGCTCAAGAAGCACGCAAAAAGCGGCGAGGAAATCTCCGGTGATGGCGTGCTGGAGATTCTCCAGGACGGCTTCGGCTTCCTCCGCTCCGCGGACGCTTCCTACCTCGCCGGCCCGGACGATATCTACGTCTCGCCGAGCCAGATCCGTCGCTTCAACTTGCGCACCGGTGACACCATCGTTGGCAAGATCCGCCCTCCAAAGGAAGGCGAGCGTTACTTCGCGCTGCTCAAGGTCGATACGATCAACTTCGACCGTCCGGAAAACGCGAAGAACAAGATTCTCTTCGAGAACCTGACCCCGCTGTTCCCGACCGTGCGCATGAAGATGGAAGCCGGCAACGGTTCCACCGAAGACCTCACTGGTCGTGTCATCGACCTGTGCGCACCTATCGGCAAAGGCCAGCGCGGTCTGATCGTGGCGCCGCCGAAAGCGGGCAAGACGATCATGCTGCAGAACATCGCGGCCAACATCGCCCGTAACAATCCTGAAGTTCATCTGATCGTGCTGCTGATCGACGAGCGTCCGGAAGAAGTGACCGAGATGCAGCGCACCGTGCGCGGCGAAGTGGTCGCCTCGACGTTCGACGAGCCGCCGACCCGCCACGTGCAGGTTGCCGAAATGGTGATCGAGAAGGCCAAGCGCCTGGTCGAGCACAAGAAGGACGTGGTGATCCTGCTCGACTCCATCACCCGTCTGGCCCGTGCCTACAACACCGTGATCCCGAGCTCCGGCAAGGTATTGACCGGTGGTGTCGATGCCCACGCCCTGGAGAAGCCGAAGCGTTTCTTCGGTGCCGCACGGAACATCGAAGAAGGCGGCTCGCTGACCATCATCGCCACCGCGCTGGTTGAAACCGGCTCGAAGATGGACGAAGTGATCTACGAGGAGTTCAAGGGTACCGGCAACATGGAACTGCCCCTGGACCGTCGCATCGCCGAGAAACGTGTGTTCCCGGCCATCAACATCAACCGTTCCGGTACCCGTCGCGAAGAATTGCTGACGGCCGATGACGAGTTGCAGCGCATGTGGATCCTGCGCAAGCTGCTGCATCCGATGGATGAAGTGGCGGCCATCGAGTTCCTGGTCGACAAGCTGAAAACGACCAAGACCAACGATGAGTTCTTCCTGTCGATGAAGCGCAAGTAA	MNLTELKQKPITELLELAEQMGIENMARSRKQDVIFSLLKKHAKSGEEISGDGVLEILQDGFGFLRSADASYLAGPDDIYVSPSQIRRFNLRTGDTIVGKIRPPKEGERYFALLKVDTINFDRPENAKNKILFENLTPLFPTVRMKMEAGNGSTEDLTGRVIDLCAPIGKGQRGLIVAPPKAGKTIMLQNIAANIARNNPEVHLIVLLIDERPEEVTEMQRTVRGEVVASTFDEPPTRHVQVAEMVIEKAKRLVEHKKDVVILLDSITRLARAYNTVIPSSGKVLTGGVDAHALEKPKRFFGAARNIEEGGSLTIIATALVETGSKMDEVIYEEFKGTGNMELPLDRRIAEKRVFPAININRSGTRREELLTADDELQRMWILRKLLHPMDEVAAIEFLVDKLKTTKTNDEFFLSMKRK				NA	NA	NA	NA	NA
D1-35_03055	1467	ubiD	COG0043	3-octaprenyl-4-hydroxybenzoate carboxy-lyase	ATGCAGTATCGCGACTTGCGCGACTTTATCAGCGGTCTGGAACAGCGCGGCGAACTCAAGCGCATCCAGGTGCCGGTGTCCCCAGTGCTGGAGATGACCGAGGTCTGCGACCGCACCCTGCGGGCAAAGGGCCCGGCACTGCTGTTCGAAAATCCGACCGGCTATGACATCCCGGTGCTGGGCAATCTGTTCGGCACACCGGAGCGTGTAGCCCTGGGCATGGGGGCCGAAGCTGTCAGCGAACTGCGCGAGATCGGCAAGCTGCTCGCGTTCCTCAAGGAGCCGGAGCCGCCGAAGGGCCTGAAGGACGCCTGGTCGAAGCTGCCGATTTTCCGCAAGATCATTTCCATGGCGCCGAAAGTCGTCAAGGACGCGATCTGCCAGGAAGTGGTGATCGAGGGCGACGCTGTCGACCTCGCCATGCTGCCGGTGCAGACCTGTTGGCCGGGCGACGTGGGGCCGCTGATCACCTGGGGCCTGACCGTCACCAAAGGGCCGAACAAGGATCGCCAGAACCTCGGTATCTACCGCCAGCAGGTGATTGGCCGCAACAAGGTCATCATGCGCTGGCTGAGCCATCGGGGTGGCGCGCTGGATTATCGTGAGTGGTGCGAAAAACACCCTGGCCAGCCGTTCCCGGTTTCGGTGGCCCTGGGCGCGGATCCGGCGACTATCCTTGGCGCCGTCACGCCCGTGCCGGACAGCCTTTCCGAATATGCCTTTGCCGGCCTGCTGCGGGGCAACCGCACCGAGCTGGTGAAATGCCGTGGCAACGACCTGCAAGTGCCGGCCACCGCCGAGATCATTCTCGAAGGCGTGATCCACCCCGGCGAAATGGCCGATGAAGGTCCTTACGGCGACCACACCGGTTATTACAACGAGGTGGACAGCTTCCCGGTGTTCACCGTCGAGCGCATCACCCATCGGATCAAGCCGATCTACCACAGCACCTACACCGGACGTCCGCCCGATGAGCCGGCTATCCTCGGCGTGGCGCTGAACGAAGTGTTCGTGCCGATCCTGCAGAAGCAGTTCCCGGAGATCACTGACTTCTACCTGCCACCGGAAGGCTGCTCGTACCGCATGGCCGTGGTGACCATGAAGAAGTCATATCCGGGGCATGCCAAGCGGGTGATGTTGGGCGTCTGGTCGTTTTTACGACAATTCATGTACACCAAGTTCGTTATTGTCACTGATGACGATATCAACGCACGGGACTGGAACGACGTGATCTGGGCCATCACTACGCGCATGGACCCGAAGCGCGACACGGTGATGATCGAGAATACGCCGATCGACTACCTCGACTTCGCCTCGCCGGTGTCCGGCCTGGGGTCGAAGATGGGGCTCGATGCCACGCATAAATGGCCCGGTGAAACCACCCGTGAATGGGGCCGGGTTATCGTCAAGGATGAAGCCGTTACCCAACGGATCGATGCCATCTGGAATCAGTTAGGAATAGATTGA	MQYRDLRDFISGLEQRGELKRIQVPVSPVLEMTEVCDRTLRAKGPALLFENPTGYDIPVLGNLFGTPERVALGMGAEAVSELREIGKLLAFLKEPEPPKGLKDAWSKLPIFRKIISMAPKVVKDAICQEVVIEGDAVDLAMLPVQTCWPGDVGPLITWGLTVTKGPNKDRQNLGIYRQQVIGRNKVIMRWLSHRGGALDYREWCEKHPGQPFPVSVALGADPATILGAVTPVPDSLSEYAFAGLLRGNRTELVKCRGNDLQVPATAEIILEGVIHPGEMADEGPYGDHTGYYNEVDSFPVFTVERITHRIKPIYHSTYTGRPPDEPAILGVALNEVFVPILQKQFPEITDFYLPPEGCSYRMAVVTMKKSYPGHAKRVMLGVWSFLRQFMYTKFVIVTDDDINARDWNDVIWAITTRMDPKRDTVMIENTPIDYLDFASPVSGLGSKMGLDATHKWPGETTREWGRVIVKDEAVTQRIDAIWNQLGID	PGPT0009530_1764	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009530-ubiD-K03182	NA	NA
D1-35_03056	969	ascD		CDP-6-deoxy-L-threo-D-glycero-4-hexulose-3-dehydrase reductase	ATGCGTGTAACCTTGCAGCCGTCCGGCGCGGTGCTGGAGATACAGCCGGCGGAGCGGATTCTCGATGGCGCCCGGCGCCTGGGCTACGAATGTCCGCAGAGCTGCCGCAATGGCAATTGCCACGTCTGTGGCGCGCTGCTGGTGGAAGGTCGCGTGACGCAGGCCGGTGAGGTGCGTGATCACGGCGAGATCTTCACCTGCATTGCCGAGCCGCTGGAGGATTGCGTGGTGCTCTGGGATGGCGTGCTGGCGCCGGGTGAACTGCCGGTGCGCAACCTGGCGTGCCAGGTTACCGAATGCAGTGATGTCGGCGGCGATGTCTGGCGGGTGCGCCTGCGGGCGCCGGCGGGCAAGCCGCCGCGCTATCACGCTGGGCAATACTTGATGATCGAGCGCGAGAACGGCGAAAAATCGGCGTTCTCCCTGGCCTCGGCGCCGCATTCGGGGCGGGACCTGCAGCTACATGTACTGGCGCGCGAAAGCAGTGCGCTGGCGCTGCTGGAGCAACTGCGGCGCAATCCTACCGTGCGCATCGAAATGCCGTTCGGTGATACCCACTTGTCCGAGTTGCCGGATGGCCCGTTGGTGCTGATCGCCGCTGGAACCGGCATGGCGCAGATGCACAGCCTGATCGAGCACTGCCGGGCCGCCGGTTTCAAATACCCGGTGCATTTGTATTGGGGCGTGCGGCGGCCGGAGGATTTCTACGAAATCGAGCATTGGGATGAATGGAAAAAACTGCCGAACTTGTTCCTGCACAAAGTCGTCAGCGACTTGTGCGGCTGGGAAGGGCGCTGCGGGATGCTCCATGAAGCCGTGTGCGAAGACATCAGCGATCTTTCCAGCGTCCACGTCTACGCCAGCGGCTCACCAGCGATGATCTACGCCACGCTTGATGCGCTGGTGGAAGCCGGGATGGACGCTCATCAGATGCGTGCGGATGTGTTTGCGTACGCGCCGCGGGCTTGA	MRVTLQPSGAVLEIQPAERILDGARRLGYECPQSCRNGNCHVCGALLVEGRVTQAGEVRDHGEIFTCIAEPLEDCVVLWDGVLAPGELPVRNLACQVTECSDVGGDVWRVRLRAPAGKPPRYHAGQYLMIERENGEKSAFSLASAPHSGRDLQLHVLARESSALALLEQLRRNPTVRIEMPFGDTHLSELPDGPLVLIAAGTGMAQMHSLIEHCRAAGFKYPVHLYWGVRRPEDFYEIEHWDEWKKLPNLFLHKVVSDLCGWEGRCGMLHEAVCEDISDLSSVHVYASGSPAMIYATLDALVEAGMDAHQMRADVFAYAPRA	PGPT0022595_828	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PARATOSE|TRYLOSE|ABEQUOSE|ASCARYLOSE_MODIFICATION,PGPT0022595-ascD|ddhD|rfbI-K00523	NA	NA
D1-35_03057	669	chaC	COG3703	Glutathione-specific gamma-glutamylcyclotransferase	ATGACCGCTATCGAATCCGCCATCACCTGCGCGCTGTATCCGCCACGACTCGAGTTGGGGCCACAGCTGACCCGGGAACAACTGCTTGCGTCGATGCACTCGACCATGAGCCTGCACCAGGGCGGCCCAGTCTGGCTGTTCGCCTACGGCTCGTTGATCTGGCGGCCCGAATGCACGGCGGTGGAGCGTATGCGCGGGCGAGTGCACGGTTATCATCGCGGGTTGTATCTGTGGTCCCATGAACACCGTGGCACCCCGGAATTGCCAGGGCTGGTATTCGGGCTGGATCGCGGCGGCTCGTGCAGCGGTTTCGCCTACCGGTTGCCGGAAGAAAACCTGCAGGATTCGCTGTTGGCCCTGTGGCAACGCGAGATGCCCGTGCCGTCCTATCGGCCGCACTGGCTCAGCTGTCGGCTGGAAGATGGCAATCGGGTTCAGGCCTTGGGTTTTGTCCTGGAGCGACACCTGCCCAGCTATGCCGGCAATCTGCCGGATCATGTGCTGAGCCAGGTGTTCGAAAGCGCCTGCGGGCGGTATGGCACGACTCGCGATTATGTCGAGCAGACCATCCACGCCCTGCGCAGCCACGCCATGCCAGACCGTAATCTGGAGGCGCGGCTCAAGCGCTGCAAATCAGCGCTGGATCAGGCGATCGCGTCGCGGCTCTGA	MTAIESAITCALYPPRLELGPQLTREQLLASMHSTMSLHQGGPVWLFAYGSLIWRPECTAVERMRGRVHGYHRGLYLWSHEHRGTPELPGLVFGLDRGGSCSGFAYRLPEENLQDSLLALWQREMPVPSYRPHWLSCRLEDGNRVQALGFVLERHLPSYAGNLPDHVLSQVFESACGRYGTTRDYVEQTIHALRSHAMPDRNLEARLKRCKSALDQAIASRL				NA	NA	NA	NA	NA
D1-35_03058	1350	glpT	COG2271	Glycerol-3-phosphate transporter	ATGTTTGCTTTCTTTCGTCCCGCCGCACATCAGGCTCCATTGCCTGAAGAAAAAATAGACAGCACCTATCGGCGCCTTCGCTGGCAGATCTTCGCCGGCATTTTTATTGGTTATGCCGGTTACTACCTGCTGCGCAAAAATTTTACCCTGGCGTTTCCGGATCTGATCGCCCAAGGCTATACAAAGGGCCAGCTGGGGGTGGCGATATCGGCAATCGCGATCGCCTACGGTCTTTCCAAGTTCCTGATGGGCATCGTGTCCGACCGCTCCAACCCGCGTTATTTCCTGCCTTTTGGCCTGATAGTGTCAGCCGGAGTGATGTTCATTTTCGGTTTCGCACCGTGGGCAACCTCAAGCGTGACCATGATGTTCATCCTGTTGTTCATCAACGGCTGGGCGCAAGGCATGGGCTGGCCACCAAGCGGACGCACCATGGTGCACTGGTGGTCGCAGAAAGAACGCGGCGGTGTGGTTTCGGTATGGAACACCGCCCATAACGTCGGCGGCGGCTTGATCGGCCCGCTGGCAATACTTGGCATGGGCTGGTTCAACGACTGGCACAGCAAGTTCTACGTACCGGCAGCGGTGGCTTTGCTGGTCGCTGTATTTGCCTTCATCGTCATGCGCGATACGCCGCAATCGACAGGCTTGCCGCCCATCGAGAAATACAAAAACGATTACCCGGAAGGCTACGATGCCAGCCATGAAGAAGAATTCAGCGCCAGGGACATCTTCGTCAAATACGTGCTGCGCAACAAGATGCTCTGGTTCATCGCGCTGGCCAACGTTTTCGTCTACCTGTTGCGCTATGGCATTCTGGACTGGGCACCGACCTATCTCAAAGAGGTCAAGCACTTCGATTTCGACAAGACGTCCTGGGCTTACTTCCTGTACGAGTGGGCCGGCATTCCCGGCACGCTGCTATGCGGGTGGATGTCGGACAAGGTCTTCCGGGGCAACCGCGGCCTGACGGGCATGGTGTTCATGGCATTGGTGACCGTCGCAACAATCATCTACTGGCTGAATCCGCCGGGTAACCCGATGGTCGACATGATCTCGCTGTTCGCGATTGGCTTCCTGATCTATGGCCCGGTCATGCTGGTAGGTCTGCAGGCCCTGGAACTGGTGCCCAAGAAAGCAGCAGGTACAGCTGCCGGCTTCACCGGTCTGTTTGGTTATCTGGGTGGCTCAGTCGCAGCCAGCGCAATGATGGGCTACACGGTGGACTATTTCGGCTGGGATGGCGGCTTCATCCTGCTGGTCGGTGCCTGCCTGCTGGCCATGGCATTCCTCGCGCCAACCCTGCGGCACAAGCAGATCGCCAGTCAGAGCCGCGACGCGATCGCCTGA	MFAFFRPAAHQAPLPEEKIDSTYRRLRWQIFAGIFIGYAGYYLLRKNFTLAFPDLIAQGYTKGQLGVAISAIAIAYGLSKFLMGIVSDRSNPRYFLPFGLIVSAGVMFIFGFAPWATSSVTMMFILLFINGWAQGMGWPPSGRTMVHWWSQKERGGVVSVWNTAHNVGGGLIGPLAILGMGWFNDWHSKFYVPAAVALLVAVFAFIVMRDTPQSTGLPPIEKYKNDYPEGYDASHEEEFSARDIFVKYVLRNKMLWFIALANVFVYLLRYGILDWAPTYLKEVKHFDFDKTSWAYFLYEWAGIPGTLLCGWMSDKVFRGNRGLTGMVFMALVTVATIIYWLNPPGNPMVDMISLFAIGFLIYGPVMLVGLQALELVPKKAAGTAAGFTGLFGYLGGSVAASAMMGYTVDYFGWDGGFILLVGACLLAMAFLAPTLRHKQIASQSRDAIA	PGPT0016821_511	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_GLYCEROL_TRANSPORT,PGPT0016821-glpT-K02445	NA	NA
D1-35_03059	603			hypothetical protein	ATGAGGTGGTTTGCTGCGATGTTGTTATTGTGTCTGTCTGGGTCGAGCTGGGCGGAGGGAATGGTATTGGTGCCAGAGAACAACCCCAAGCCAGGATATCCGACAGCTCTGAGCCGGGCAGGGGTCATGGGAGCGGTCAGGGCCGGCTTCACGGTACACGCCGATGGTCGTGTCAATGAGGTCGCGATTCTGCACAGCGACCATCCGGAGTTTGCCGAGGCCGTTCGAGAAACGCTGATTGATTGGCGGTTCAAGCCCTGGACGGTTGATGACAAGCATCCCGCCCAAGTCAATGTCGTGGCACCGTTCGAATTTCGTCTGGACGACGCACCGATTGATACCAATAAATGGATCAAGACCTGGCGATGCTCGGTCATCACCTCCTATGCCAGCGATCTGCATGTGCAGGACCTGCTTCCCTTCCATTACACGCGCAGCTACCTGTCCAACGTATTTTTTGTCAAACAACTGCCCGAAGCCGAGCGCCTGGCAATGATCGCTCGATTCAACCGGCTGCTGCCCTCGATCCTGCAGCGCTGCGGAACGTTTCCTGCATCGCGATATGTGAAAATGTTGCCGGAGGAGATTCGTGCGTTGCTTTAG	MRWFAAMLLLCLSGSSWAEGMVLVPENNPKPGYPTALSRAGVMGAVRAGFTVHADGRVNEVAILHSDHPEFAEAVRETLIDWRFKPWTVDDKHPAQVNVVAPFEFRLDDAPIDTNKWIKTWRCSVITSYASDLHVQDLLPFHYTRSYLSNVFFVKQLPEAERLAMIARFNRLLPSILQRCGTFPASRYVKMLPEEIRALL	PGPT0003745_5967	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003745-tonB-K03832	NA	NA
D1-35_03060	276	imm_2		Colicin-E7 immunity protein	ATGATACTCAAAGAAAGAATCGAGGATTATACAGAAGCAGAGTTTCTATCATTCCTTCACGAATTTTTTGACGACAACAGCGAGCTTACCGGCGACCAGCTGGGTGAATATATCAGCAGACTTTCAAAGCATTTTGAGCAAATTACTGAGCACCCAGAAAAATCGGCACTTATTTTCTATCCTCAACAAGGTAGGGAAGATAGCCCGGAAGGAATCTTAAGTGAAGTTAAGAGATGGCGAAAACAAAACGGTAAACCCGGCTTCAAGCCCGAATGA	MILKERIEDYTEAEFLSFLHEFFDDNSELTGDQLGEYISRLSKHFEQITEHPEKSALIFYPQQGREDSPEGILSEVKRWRKQNGKPGFKPE				NA	NA	NA	NA	NA
D1-35_03061	2550			hypothetical protein	ATGGATAACGCGGATACATATTTGGGACCGCATATACAGCTAGGCCCAGGCTCATACGAAATACCGCCCATCCCGATAACAGGGCGAAGGTTACCGGACTTCAATACTGGAGGTTTTATAGCGTGGGGGCTGAACGATGGGCCTCATAGAGGGACCGGTAGAAGCTCAAAAAGACACAACGCGTCTATTCCCTACGCATGGGATGACATGTTGAGAGAACGGATAGCCAATAGTGAATCCATCGATGCAGAATATAGCAACACTTTTATAAAACTGACCGAAACCACCACACAAGAACTCGATCAGATAAAAAGATCCGCATTAGGTGATCGCCAGCTTTCGCCGTTTGAAAAAGTAATTACAGAACAGCAGGCGACGGCAAGAGCCCTTCAAGCCAAAGAGTCGGACTATCAAGCACGCACCACAAGCGCCTACTCGCTCTACGGCCAGAATCCATTTTTTCTAATGAAGGAATTGTCCTTCAAGAAAATAATGGACAGCCTACAGACCTCCCCACCGAATATTGCAGTCGCTTACGCCGCCATAGATGATGCGTACCGATCGGCGTTAGAGTTAAAGCGACTTTCCCTGCAAAAAGACATTCTCGCTGGACAATTGGAGCAGTCATCCCAGACAGCCGAGCAGTTCCTCACTGGCACCCAAGCTGAAAAAAACAACTCAACAACCACCCTTGATGCCAAGCTCAGGTTTATCAACCAAGAAAAAAACATCCATCTCCAACTTCTGCCTGAATTTCTGCTGAAGAAAGTTTCATCGCTGCTGGGGGTAACAACCGGCTTGCCCCTTTCTCAACTGTTAAGAAATCACAAGACAATCGTAACCCAAATCATCACAACCGAGCGGGCAGCTATCGCTGCCTATGCAAAAGCCAATCCGAACATCAAGCCGCCACTCAGCAAGCCCGAACTCGAAGCACTTAATAACTTGGTTGTTCTACAAGAAAAGACAAAGCTGGGAAAACGATGGCAGGACTACCATGCATCCCTTCTGCATTCAGAATCTGTTCGACATCTAACAAGAACAGTAAACACATTTGCCAGCCTGATAGACCGCGCTCAATCGGCCGAACGCGTGAAAGAACAGCTTCGTGTTGCAGCCGCGCAGAAAGAACAGGCACAAAAGCAAGCGCAAGCCCGAGCGATGGCGCAACAAGCTGAACAGGAACGGAAACAGAAAATTGCGTCCGCATTGGCGGGGCATTTCAACGAATTGCTCCGTCAGTTCAACCACGCCCAGCCCCAAGACGTCGACCAACAATTGACTTGGATGCGACAAAAACACCGGGAACTGGCCGCCGCGCATCAAGACGCAACCAAGGCTGCGCTTTCGGCGGGGGACCTTTCCGATTCATCAAGGAGTAGCTCTCGCGAGGCCTCGCTGCGTAAGGCACAAGCAGATATCGATGCAGTCTTTCGGTCGAAATACCGTATCGAAAATATTTCGCTACCCACCTTCAACGGTGCGATGACTTCGGCGCGACCGCTGATCACTGCTCCTGACGGTCTGATTGCCGGATATGAAGGCTCCCCTTTCTCCTTACAAGGCGCGATTGATCTACTTCAAAAAGCGAGAGTCGCCGTATCGGGAGGACCTCTGGCGGCACTCGGAGTAGCAGTGTCCTGCTCCACGCCAATTGCCAACGGTGAACTGCAGCGCAATCCGGTGGTGATCAGCATTCCTTTATCTCAAGTGGCGGAGGAACTCCAATTAATTTCAGGTGCTAGCGTGGCGCATCTACCGTTTCGGGTCGTGTCATCGATTAGAGGAGAACACAGCCAATTTTACCTTTCACCCACCGACAAAAACCTATCCGATAAAATCAGGATTAGAAACGTATCACTTGATCCGCAAACAAATCTCTACACATTCATAACAGAAGGAGCTCTTCCCCGAACGCTGACCTGGACGCCGAATGTCCCGCCAGGAAACAATCATCTGGGCTCAACCGAATCGCCTGCAACGCAGCCGGAGATCAGGATTCTTCCCGGGGCCAGGATTACTCAGATAGAAGGGAGAGCAGACGATCACCCAGCTTGTGATGACGCCGACATTGATGATTATGTGCTGGTTTTCCCGATGGAATCGGGGATCAAGCCAGTCTACGTCATGGCGAGTCGGACCGGGCCGCGATATGAACCGGGTACGGTGACTGGATCAGGTCAGGAGGTAGGAAGGAACTGGCTAGGGAGTACTGAGCAAGGCCTTGGTGCTCCCATACCTGGTGAGATAGCTAGTCTCCTTCGGGGCCAGGACTTCAGAGACTTTGGCAGCTTTCGAGAAGAATTTTGGAGGTCAGTAGCAAATGATGAAAAATTGGCAGTGCAGTTCAGTCGATCTAATTTAAGATTAATGCGTAACGGCGCTGCACCTTTTACTCGCCCTGACGACCACGTAGGAGAACGGAACAAATTCGAAATTCATCACATACAATCAATTTCCCAGGGTGGCGCAGTATACGACCTTGACAATCTAAGCATCACGACACCCAAAGAGCACATTGAGATCCACAAAAAAGGAACCAACCTATGA	MDNADTYLGPHIQLGPGSYEIPPIPITGRRLPDFNTGGFIAWGLNDGPHRGTGRSSKRHNASIPYAWDDMLRERIANSESIDAEYSNTFIKLTETTTQELDQIKRSALGDRQLSPFEKVITEQQATARALQAKESDYQARTTSAYSLYGQNPFFLMKELSFKKIMDSLQTSPPNIAVAYAAIDDAYRSALELKRLSLQKDILAGQLEQSSQTAEQFLTGTQAEKNNSTTTLDAKLRFINQEKNIHLQLLPEFLLKKVSSLLGVTTGLPLSQLLRNHKTIVTQIITTERAAIAAYAKANPNIKPPLSKPELEALNNLVVLQEKTKLGKRWQDYHASLLHSESVRHLTRTVNTFASLIDRAQSAERVKEQLRVAAAQKEQAQKQAQARAMAQQAEQERKQKIASALAGHFNELLRQFNHAQPQDVDQQLTWMRQKHRELAAAHQDATKAALSAGDLSDSSRSSSREASLRKAQADIDAVFRSKYRIENISLPTFNGAMTSARPLITAPDGLIAGYEGSPFSLQGAIDLLQKARVAVSGGPLAALGVAVSCSTPIANGELQRNPVVISIPLSQVAEELQLISGASVAHLPFRVVSSIRGEHSQFYLSPTDKNLSDKIRIRNVSLDPQTNLYTFITEGALPRTLTWTPNVPPGNNHLGSTESPATQPEIRILPGARITQIEGRADDHPACDDADIDDYVLVFPMESGIKPVYVMASRTGPRYEPGTVTGSGQEVGRNWLGSTEQGLGAPIPGEIASLLRGQDFRDFGSFREEFWRSVANDEKLAVQFSRSNLRLMRNGAAPFTRPDDHVGERNKFEIHHIQSISQGGAVYDLDNLSITTPKEHIEIHKKGTNL				NA	NA	NA	NA	NA
D1-35_03062	978	qorA_2	COG0604	Quinone oxidoreductase 1	ATGAAAGCCGTGCTGTGCAAAGAATTCGGCCCCGCCGAATCGCTGGTGCTGGAAGACGTCGCCAGCCCCGTCGTGAAGAAGAACGAAGTGCTGCTGGACGTGCACGCCGCCGGGGTGAATTTTCCTGATACGTTGATCATCGAAGGCAAATATCAATTCAAGCCGCCCTTCCCGTTTTCCCCCGGCGGCGAAGCAGCGGGCGTCGTCCGCGAGGTGGGAGAAAAGATCAGTCACCTGAAAGTCGGTGACCGGGTCATGGCGCTGACCGGCTGGGGCAGTTTCGCCGAACAGGTGGCAGTCCCGGGCTACAACGTGCTGCCCATTCCCGCCGCCATGGAATTCAACACCGCCGCCGCTTTCAGCATGACCTACGGCACCTCGATGCATGCCCTCAAGCAACGTGCCAACCTGCAACCGGGTGAAACCCTGCTGGTGCTCGGTGCCTCCGGCGGCGTCGGCCTGGCGGCGGTGGAAATCGGCAAGGCCATGGGCGCCCGGGTGATCGCCGCCGCCAGCAGCCCGGAAAAACTCGCGGTAGCCAAGGCCGCCGGCGCCGACGAACTGATCAACTACACCGAAACCAGCCTCAAGGATGAAATCAAGCGCCTCACCGACGGCCAGGGCGCCGACGTGATCTACGACCCGGTGGGCGGCGACCTGTTCGACCAGGCGGTCCGCGCCATCGCCTGGAACGGCCGGCTGCTGGTGGTCGGCTTCGCCAGCGGGCGCATTCCCGAGCTGCCGGTGAACCTGGCCTTGCTCAAGGGCGCTGCCGTGGTAGGCGTCTTCTGGGGCTCGTTCGCCCAACGCCAGCCGCAGGACAACGCCGCCAACTTCCAACAACTGTTTGGCTGGTTCGCCGAAGGCAAGTTGAAACCGTTGGTGTCGCAGGTCTATCCGTTGAGCAACGCCGCCCAGGCGATCAATGACCTGGGGCAGCGCAAGGCGGTGGGCAAGGTGGTTGTGCAGGTTCGCTGA	MKAVLCKEFGPAESLVLEDVASPVVKKNEVLLDVHAAGVNFPDTLIIEGKYQFKPPFPFSPGGEAAGVVREVGEKISHLKVGDRVMALTGWGSFAEQVAVPGYNVLPIPAAMEFNTAAAFSMTYGTSMHALKQRANLQPGETLLVLGASGGVGLAAVEIGKAMGARVIAAASSPEKLAVAKAAGADELINYTETSLKDEIKRLTDGQGADVIYDPVGGDLFDQAVRAIAWNGRLLVVGFASGRIPELPVNLALLKGAAVVGVFWGSFAQRQPQDNAANFQQLFGWFAEGKLKPLVSQVYPLSNAAQAINDLGQRKAVGKVVVQVR	PGPT0013255_6116	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
D1-35_03063	450			hypothetical protein	ATGCTGGGCCGCAAATCGGATGAGGAGTCGAATGTGAAAGCGTGGATCATGTTGATGCTGGCCCTGTCGTTGCCTGTGGCGGCGATGGCCGAAGAAGCCAAGGAAGCCAAAGAAGGCGAGGCGCCGAAGGTCAGTTACATCACGCTCAGCCCGCCATTCGTGGGCAACTATGGCCTGGACGGAACGACCAAGCTGAAGGTCTACAAGGCCGACGTTGCCCTGCGCGTGACCGGTGACGCCGCCGCTGCGGCGGTGAAGGCTAACGAGCCGTTGATTCGCAATCAGTTGGTGGCGCTGTTCGCCCAGCAGACGACCGAAACCATGAACAACCTTGAAGCCAAGGAAAAGCTGCGGCAGGAAGCGTTGAAGCAGACCCAGCAGGTGATGAACGACGAGACGGGCAAGCCGATGGTGGATGATCTGTTGTTCAACAACCTGATCATTCAGTAG	MLGRKSDEESNVKAWIMLMLALSLPVAAMAEEAKEAKEGEAPKVSYITLSPPFVGNYGLDGTTKLKVYKADVALRVTGDAAAAAVKANEPLIRNQLVALFAQQTTETMNNLEAKEKLRQEALKQTQQVMNDETGKPMVDDLLFNNLIIQ	PGPT0015525_2657	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015525-fliL-K02415	NA	NA
D1-35_03064	453			hypothetical protein	ATGGCCTACTGGCTGATGAAATCCGAGCCCGACGAATTGTCCATCCAGGGCCTGGAAAAGCTCGGCCAAGCGCGCTGGGATGGGGTTCGCAACTACCAGGCGCGCAATTTCCTGCGAGCCATGGCGGTAGGCGACTCATTTTTCTTCTATCACTCCAGCTGCCCGGAGCCAGGCATTGCCGGAATTGGCAAAATCATCAAGGCCGCCTATCCCGACCCAACGGCCCTGGAACCTGACAGTCATTACTTCGACGCCAAGGCCAGCCCGGAGAAAAACCCCTGGACCGCCCTCGACGTCGCCCATGTCGAGACATTCCCACGGGTGCTGAAGCTCGACTACCTCAAGCAGCAGGCCGCCCTGGCCGAAATGCCGCTGGTGCAAAAAGGCTCGCGACTGTCGGTGATGCCGGTGACAGCTGAGCAGTGGGCGGCGGTCATTGCCTTGAAATCCTGA	MAYWLMKSEPDELSIQGLEKLGQARWDGVRNYQARNFLRAMAVGDSFFFYHSSCPEPGIAGIGKIIKAAYPDPTALEPDSHYFDAKASPEKNPWTALDVAHVETFPRVLKLDYLKQQAALAEMPLVQKGSRLSVMPVTAEQWAAVIALKS				NA	NA	NA	NA	NA
D1-35_03065	147			hypothetical protein	ATGAAACGCAAACCGGATTTGTTGTGGGTCCTGGTCATTCTGTTCGGCCTGGGTGTCGTCACCACGGGTTATGCCCAGAGCTTATGGGCCAACAAAAATGATGCACCGATGGAAATCACCCAGCCCGCGCCCGCACTCAAGCGCTGA	MKRKPDLLWVLVILFGLGVVTTGYAQSLWANKNDAPMEITQPAPALKR				NA	NA	NA	NA	NA
D1-35_03066	606		COG0212	5-formyltetrahydrofolate cyclo-ligase	ATGACCGAACCTGCGTTGCCGACCCGCCCACAACTTCGCCGCCTGCTACGCCAGGCCCGTCGTGCCCTGACCCCGGCCCAGCAACGGCAAGCCGCCCACGGGCTATATCGGCAACTGGCACAGCATCCGCTGTTTCGCCGCGCAAGACACATCGCCCTCTACCTGCCCAACGACGGTGAAATCGACCCACGCCTGCTGCTGCGCGCCGCCCAACGTCGGGGCAAGGCGACTTATCTGCCAGTACTCAGTCCCTGGCCGCAGACCAGGATGGTGTTCCAGCGGATCCATCCCGGCGAAAAAATGCGCCCCAATCGTTTCCGCATCCCGGAACCAGGCAAGAATATCGCCCGGCAGCGCAAAGTCTGGACATTGGACCTGGTATTGCTGCCGTTGGTGGGGTTTGACGATGCCGGCGGACGCCTGGGCATGGGCGGCGGCTTCTATGACCGCAGCCTGGCGTATCTGTCGCGACGCAAACAATGGCGCAAGCCGACGTTGCTGGGCCTGGCCCATGAGTGTCAGAAGGTCGAACGATTGGCGCAGGCAAGCTGGGATGTACCGTTACAGGGAACGGTCAGTGACAGGCGATGGTATCTGGCGAGCTAG	MTEPALPTRPQLRRLLRQARRALTPAQQRQAAHGLYRQLAQHPLFRRARHIALYLPNDGEIDPRLLLRAAQRRGKATYLPVLSPWPQTRMVFQRIHPGEKMRPNRFRIPEPGKNIARQRKVWTLDLVLLPLVGFDDAGGRLGMGGGFYDRSLAYLSRRKQWRKPTLLGLAHECQKVERLAQASWDVPLQGTVSDRRWYLAS	PGPT0008170_2161	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
D1-35_03068	318	zapA	COG3027	Cell division protein ZapA	ATGAGTTCAAGCAATAGCGTTACCGTGCAGATCCTCGATAAAGAGTATTCGATCATCTGCCCCCAGGAAGAGCGCAGCAACCTGGTGAGCGCCGCCCGTTACCTGGATGGCAAGATGCGCGAGATCCGCAGCAGCGGCAAAGTCATCGGCGCCGATCGCATCGCCGTGATGGCCGCCTTGAACATTACCCACGACCTGCTCCACCGCCAGGATACGCCGGACGTACAGGTCAGCGGCTCGACCCGCGAACAGGTCCGCGACCTGCTCGATCGGGTGGATCTGGTACTGGCTACTGATCCGGACGTCAGCAAGGGCTGA	MSSSNSVTVQILDKEYSIICPQEERSNLVSAARYLDGKMREIRSSGKVIGADRIAVMAALNITHDLLHRQDTPDVQVSGSTREQVRDLLDRVDLVLATDPDVSKG				NA	NA	NA	NA	NA
D1-35_03069	210			hypothetical protein	ATGGAAGACACCGACCTGCAAGCGCTGATGGCCAGACTCGAGCTGCTAATTGACCGGGTCGAGCAACTTAAGAGCCAAAACGGACTCCTATTAGCTCAGGAAAAAACCTGGCGCGAGGAACGCGCGCACCTCATTGAAAAAAACGAAATCGCCCGGCGTAAGGTCGAATCGATGATTTCGCGCCTCAAGGCCCTGGAGCAAGACTCATGA	MEDTDLQALMARLELLIDRVEQLKSQNGLLLAQEKTWREERAHLIEKNEIARRKVESMISRLKALEQDS				NA	NA	NA	NA	NA
D1-35_03070	555			hypothetical protein	ATGCCCATTCAGAATTCTCCGTACCAAGCCTTTGCCACCCTGCTGAGCACCAGCGGCCACCCTGTCTCGCCCGCCGAACTGCATGGCCTGCTGCTCGGCCGCAGCTGTGCCGGCGCCGGTTTTGATGCTGACGGCTGGTTGGCCGACGCCGCCGAACTGCTTGAAGGCGAGCCGGCGGACAACGTGCGCAACGCGCTCATCGGCCTGCAGGAAATGGTCAAGGGTGAATTGACCAGTGACGACATGACCGTCGTCCTGCTGTTGCCCACCGATGACGCGCCGCTGGCTGAACGCGCCGCTGCGCTGGGTCAGTGGTGCCAGGGTTTCCTGGCAGGCTTCGGCCTGACCCGCCGCGAATATGCCTTGAGCGATGAAGCCAAGGAAGTGTTGCAAGACCTGGCGGCCATCTCCCAGGTGCAGGACGCCCTGGAAGAATCCGACGACGGCGAGAGCGACTACATGGAAGTGATGGAGTACCTGCGGGTCGCGCCGTTGCTGCTGTTTACCGAGACCAAAAAAACCGCTGAACCGGCTGCCAAGCCGTCCCTGCACTGA	MPIQNSPYQAFATLLSTSGHPVSPAELHGLLLGRSCAGAGFDADGWLADAAELLEGEPADNVRNALIGLQEMVKGELTSDDMTVVLLLPTDDAPLAERAAALGQWCQGFLAGFGLTRREYALSDEAKEVLQDLAAISQVQDALEESDDGESDYMEVMEYLRVAPLLLFTETKKTAEPAAKPSLH				NA	NA	NA	NA	NA
D1-35_03071	1335	pepP	COG0006	Xaa-Pro aminopeptidase	ATGATTCATATCCCGAAGTCGGAATACAGTCGTCGCCGCAAGGCCTTGATGGCGCAGATGGAACCCAACAGCATCGCAATCCTGCCCGCCGCCGCCGTTGCGATCCGCAACCGCGACGTCGAGCACGTCTATCGCCAGGACAGCGACTTCCAGTACCTCAGCGGCTTCCCCGAGCCGCAAGCGGTGCTGGTGCTGGTGCCCGGTCGCGCTCACGGCGAGTACATCCTGTTTTGCCGCGAGCGCAACGCCGAGCGTGAACTGTGGGATGGCTTGCGTGCTGGCCAGGAAGGGGCGATCCGGGACTACGGCGCCGACGACGCGTTTCCCATCACCGACATCGACGACATCCTGCCGGGCCTGATCGAAGGTCGCGATCGGGTCTATTCGGCCATGGGCAGCAACCCCGAATTCGACCGGCACCTGATGGAGTGGATCAACGTGATTCGCTCCAAGGCCCACCTTGGTGCCCAGCCGCCGAACGAATTTGTTGCCCTGGATCATCTGCTGCACGATATGCGCCTGTATAAATCGGCGGCGGAAGTGAAAGTGATGCGCGAAGCGGCGCGGATTTCCGCCCAGGCGCACATCCGCGCCATGCAAGCGGCACGCCCCGGGCTGTACGAATACAGCCTGGAGGCCGAGCTCGACTACGAATTTCGCAAGGGCGGCGCAAAGATGCCGGCCTACGGCTCCATCGTCGCGGCGGGGCGTAACAGTTGCATCCTGCATTACCAGCAGAACGACGCGCCGCTCAAGGATGGCGACCTGGTGCTGATCGACGCCGGTTGCGAAATCGACTGCTATGCCAGCGATATCACCCGTACCTGGCCGGTCAGCGGCAAGTTTTCGCCCGAGCAGAAGGCGATCTATGAGGTCGTGCTGGCGGCCCAGGAAGCGGCGTTCGCTGAGATTGGCCCGAACAAGCATTGGAACCAGGCCCATGAAGCTACGGTCCGGGTCATTACTGAGGGGCTGGTGCGTCTCGGGCTGCTGGACGGCGAGGTGGACCAGTTGATCGCCAGCGAAGCCTACCGGGCGTTCTACATGCACCGTGCCGGTCACTGGCTGGGCATGGACGTGCACGACGTCGGTGAATACCGGGTCGGTGGCGAATGGCGCGTGCTGGAGGTTGGCATGGCCTTGACCGTGGAGCCGGGCATCTATATTGCTCCGGACAATCGCAGCGTAGCGAAGAGATGGCGCGGCATTGGCGTGCGCATCGAGGATGACGTGGTAGTGACCAAGACCGGTTGTGAAATCCTGACCCGCGGCGTGCCGAAAACGGTCGCCGAGATCGAGGCCCTCATGGCCGCCGCACGGACTCAAGCGGCATGA	MIHIPKSEYSRRRKALMAQMEPNSIAILPAAAVAIRNRDVEHVYRQDSDFQYLSGFPEPQAVLVLVPGRAHGEYILFCRERNAERELWDGLRAGQEGAIRDYGADDAFPITDIDDILPGLIEGRDRVYSAMGSNPEFDRHLMEWINVIRSKAHLGAQPPNEFVALDHLLHDMRLYKSAAEVKVMREAARISAQAHIRAMQAARPGLYEYSLEAELDYEFRKGGAKMPAYGSIVAAGRNSCILHYQQNDAPLKDGDLVLIDAGCEIDCYASDITRTWPVSGKFSPEQKAIYEVVLAAQEAAFAEIGPNKHWNQAHEATVRVITEGLVRLGLLDGEVDQLIASEAYRAFYMHRAGHWLGMDVHDVGEYRVGGEWRVLEVGMALTVEPGIYIAPDNRSVAKRWRGIGVRIEDDVVVTKTGCEILTRGVPKTVAEIEALMAAARTQAA	PGPT0006770_4144	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
D1-35_03072	1188	ubiH	COG0654	2-octaprenyl-6-methoxyphenol hydroxylase	ATGAGCCGGGTCAACGTGGCGATCATAGGTGGCGGCCTGGTCGGCGCGAGCCTGGCGCTCGCCTTGCAGGCAGGCGCCAAGGCCAGGGGGTGGAAGATCATGCTGATCGAGCCGTTCGCCCCCGGCGACACTTGGCAGCCGAGCTATGACGCGCGCTCATCGGCGCTCTCCTTCGGTGCTCGACAAATTTATCAGCGCCTGGGCCTCTGGCAGGAAATTTCCCGCCGCGCAGAACCGATCAAACAGATTCATGTTTCCGACCGCGGACGGTTTTCCACCGCACGGTTGTCCGCCATGGAGGAGGGCGTGCCGGCCCTCGGCTACGTGGTGGAAAATGCCTGGCTCGGCCAATGCCTGTGGCAAGGGCTGGACAAGGACGTGGTCAGCTGGCGCTGCCCGGCGCAAGTCACCCGGATGGAGCCGCTAGTTGGTGGTTATCGTTTGACGCTGGATGACGAAACCACGCTGGAATGCGACCTCGCCGTACTGGCCGACGGTGGACGCTCCGGATTGCGTGAGCAGTTGGGCGTCGGTGTGCGCAATCGCCCTTACGACCAGAGCGCGTTGATTGCCAACCTCACCCCCAGCGAAGCCCACAACGGCGTGGCTTTCGAACGCTTTACCGATGACGGCCCGATGGCCTTGTTGCCGCTGCCGGAAAATCGTTGTGCGTTGGTCTGGACTCGCCAGGGCATGGATGCGCAACGGCTGGCAGCCCTCGACGAGCGTAGTTTTCTCAGTGAGCTGCAGAGTGTGTTCGGCTATCGCCTGGGCACGTTGAAACAGGTGGGTGCGCGACACCTTTATCCGCTGGCGCTGGTGGAAGCCGAAGAGCAGGTACGTCCGCACCTGGCGATCCTCGGCAATGCTGCCCATAGCCTGCATCCGATAGCGGGCCAGGGCTTCAACCTGTCCTTGCGTGATGCGCAGGCACTGGCCGATGCATTGCTCGGGAGCGACGGCACGCCCGGCGACTTCTCTGTATTGCAAGCCTATCGCGAGCGCCAGCGGATGGACCAGGCCCTGACCGTCGGCTTCTCCGACCAGGTCACGCGGCTGTTCAGCAGCGATCTGCCGCTGGTATCCGTGGGCCGCAATCTCGGCCTGCTGGGCCTTGACCTGCTGCCCCCGGCCAAGCGCTGGTTCGCTCGCCAGGCCATGGGATTGGGGACTCGCCCCGATGCTTGA	MSRVNVAIIGGGLVGASLALALQAGAKARGWKIMLIEPFAPGDTWQPSYDARSSALSFGARQIYQRLGLWQEISRRAEPIKQIHVSDRGRFSTARLSAMEEGVPALGYVVENAWLGQCLWQGLDKDVVSWRCPAQVTRMEPLVGGYRLTLDDETTLECDLAVLADGGRSGLREQLGVGVRNRPYDQSALIANLTPSEAHNGVAFERFTDDGPMALLPLPENRCALVWTRQGMDAQRLAALDERSFLSELQSVFGYRLGTLKQVGARHLYPLALVEAEEQVRPHLAILGNAAHSLHPIAGQGFNLSLRDAQALADALLGSDGTPGDFSVLQAYRERQRMDQALTVGFSDQVTRLFSSDLPLVSVGRNLGLLGLDLLPPAKRWFARQAMGLGTRPDA	PGPT0009550_1686	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009550-ubiH-K03185	NA	NA
D1-35_03073	1224	ubiI	COG0654	2-octaprenylphenol hydroxylase	ATGGAATTGCGCGCAGATCTGTTGATTGTCGGTGCCGGCATGGTCGGCAGCGCCCTGGCGCTTGCGTTGCAGGGCAGCGGCTTGCAGGTATTGTTGCTCGACGGCAGCCCGCTGAGCGTCAAGCCCTTTGATTCCCTGGCAGCGTTCGAACCCCGGGTCAGCGCCCTGTCGGCGGCCAGCCAGCGGATTCTCGATCGTCTGGGCGTCTGGGACGGTATCGTCGCCCGACGCACCAGTCCCTACACCGACATGCACGTCTGGGACGGTAGCGGCACGGGGCAGATTCATTTTTCCGCCGCCAGCCTGCATGCCGAAGTGCTTGGCCACATCGTCGAGAACCGCGTCGTTCAGGATGCCCTGCTGGACCGGTTGCATGACTGCGACCTGGGCCTGCTGGCCAATGCACGCCTGGAGCAGATGCGCCGCTCCGGCGACGACTGGCTGTTGACCCTGGCTGACGGGCGCACCTTGCGCGCGCCACTGGTGATTGCCGCCGACGGGGCGAACTCCGCCGTGCGCCGCCTGACGGGGGTCGCCACTCGCGAGTGGGACTACCTGCATCACGCGATCGTCACCAGCGTGCGCTGCGCCGGACCTCATCGCCAGACCGCATGGCAACGCTTCACCGACAATGGTCCGCTGGCCTTCCTGCCTCTGGCGCGCGACGGCCGGCAGGACTGGTGCTCGATCGTCTGGTCGACCACGCCTGGCGAAGCGCAGCGCTTGATGACACTGGATGACGGCGCTTTCTGCGCCGAACTGGAGCGGGCTTTCGAGGGCCGGCTAGGCGCGGTGCTCGGCGCCGATCCTCGCGTCTGCGTACCGCTGCGCCAACGCCACGCCAAGCGTTACGTGGCCGAAGGGCTGGCGCTGATCGGCGATGCGGCGCACACCATCCATCCCCTGGCCGGGCAGGGCGTCAACCTGGGTTTCCTGGATGCCGCGGTGTTGGCCGAGGTGCTGTTGCAGTCCTCAGGGCGTGGCGAGCGGTTGGCCGATCTCAAGGTGTTGAGCCGCTATGAGCGGCGGCGCATGCCCCATAACCTGGCGCTGATGGCGGCGATGGAAGGCTTCGAGCGGCTGTTCCAGGCCGATCCATTGCCGGTGCGCTGGTTGCGTAATACCGGTCTGAAGCTGGTAGACCGCATGCCGGAAGCCAAGGCGCTGTTCGTACGCGAGGCGTTGGGGCTGACCGGGGACTTGCCGGATCTGGCCAAGGTCTGA	MELRADLLIVGAGMVGSALALALQGSGLQVLLLDGSPLSVKPFDSLAAFEPRVSALSAASQRILDRLGVWDGIVARRTSPYTDMHVWDGSGTGQIHFSAASLHAEVLGHIVENRVVQDALLDRLHDCDLGLLANARLEQMRRSGDDWLLTLADGRTLRAPLVIAADGANSAVRRLTGVATREWDYLHHAIVTSVRCAGPHRQTAWQRFTDNGPLAFLPLARDGRQDWCSIVWSTTPGEAQRLMTLDDGAFCAELERAFEGRLGAVLGADPRVCVPLRQRHAKRYVAEGLALIGDAAHTIHPLAGQGVNLGFLDAAVLAEVLLQSSGRGERLADLKVLSRYERRRMPHNLALMAAMEGFERLFQADPLPVRWLRNTGLKLVDRMPEAKALFVREALGLTGDLPDLAKV	PGPT0009555_302	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009555-ubiI-K18800	NA	NA
D1-35_03074	1005		COG1840	putative binding protein component of ABC iron transporter	ATGTCGGCCACCAAACGCCTGCTGTCCGCCCTCGCACTGACCCTGATCGGCACTTCCGTCGCCCAGGCTGCCGATGAGGTGGTGGTCTATTCGTCGCGCATCGATGAGCTGATCAAACCGGTTTTCGATGCCTACACCAAGAAGACCGGCGTCGCGGTGAAGTTCATCACCGACAAGGAAGCGCCCCTGATGCAGCGGATCAAGGCCGAAGACAAAAATGCTACCGCCGACCTGCTGCTGACCGTCGACGCCGGCAACCTCTGGCAAGCCGAGCAGATGGGCATTCTGCAGCCGTTCACCTCGCCGGTAATCGATGCCAACATTCCCCCTCAATATCGTGCGTCGTCCCACGCCTGGACCGGCCTGAGCCTGCGTGCGCGGACCATTGCCTACTCGACTGACCGGGTCAAACCGGGTGAGCTGACTACTTACGAAGCGCTGGCCGGCAAGGAATGGGAAGGCCGCTTGTGCCTGCGGACCTCGAAAAAGGTCTACAACCAGTCGCTGACCGCGACCCTGATCGAAACCCATGGTGCTGAAAAAACCGAGGAGATCCTCAAAGGCTGGGTCAGGAACCTGTCCACCGACGTATTCTCCGACGACACCGCGCTGCTTGAGGCGATCAATGCCGGCCAGTGCGACGTCGGCATCGTCAACACCTATTACTACGGCCGCCTGCACCAGCAGAAGCCAGACTTGAAGGTCAAGCTGTTCTGGCCAAACAAGGCGGACCGTGGCGTGCACATCAACCTCTCGGGTATCGGCCTGACCAAGCACGCGCCGCACCCGGACGCCGCGAAAAAACTGGTGGAATGGATGACCACGCCTGAAGCGCAAAGCATCTTCGCCGACGTGAACCAGGAATTCCCGGCCAACCCGAAAGTCCAGCCGTCCAAGGAAGTCGCCGCCTGGGGCCAGTTCAAGGCCGATACGCTGCCGGTGGAAGTCGCGGGTAAACGCCAGGCCGAAGCCATTCGCCTGATGGATCGTGCCGGCTGGAACTGA	MSATKRLLSALALTLIGTSVAQAADEVVVYSSRIDELIKPVFDAYTKKTGVAVKFITDKEAPLMQRIKAEDKNATADLLLTVDAGNLWQAEQMGILQPFTSPVIDANIPPQYRASSHAWTGLSLRARTIAYSTDRVKPGELTTYEALAGKEWEGRLCLRTSKKVYNQSLTATLIETHGAEKTEEILKGWVRNLSTDVFSDDTALLEAINAGQCDVGIVNTYYYGRLHQQKPDLKVKLFWPNKADRGVHINLSGIGLTKHAPHPDAAKKLVEWMTTPEAQSIFADVNQEFPANPKVQPSKEVAAWGQFKADTLPVEVAGKRQAEAIRLMDRAGWN	PGPT0003725_4320	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
D1-35_03075	1623			hypothetical protein	TTGACCCACCCCGCCCAACGCCGCTGGTATCCCCTGGTCTTCGCCGTCGCTGCGCTGGTCCTGTTGCCGTTGAGCGTGCTGTTGCTGTCCTGGCAGAGCATCGACGCGCAGATCTGGTCCCACTTGTGGGAGACCCAGATGCCGCGCCTGCTGGGTAATACCCTGACGCTGATCCTGGGTGTGGGCGTCGGCGTGACGTTGTTCGGGGTCAGTCTGGCGTGGCTTACCAGCCTTTGCGAATTCCCCGGTCGGCGCTGGCTCGATTGGGCGTTGATGTTGCCGTTCGCGATTCCCGCCTATGTGCTGGCGTTTGTTTTCGTCGGCCTGCTGGATTTTGCCGGCCCGGTGCAGACCCTGATGCGCGAATGGCTCGGCAGCGGCTTGCGCCTGCCCCGGGTGCGGTCGACCGGTGGGGTTATCCTGGTGTTGGTGCTGGTGTTCTATCCGTATGTCTATCTGCTCGCGCGTAGCGCCTTCCTGGCCCAAGGCAAGGGATTGATGGAAGCGGCCCGGGTACTCGGCCATTCGCCCTGGCAGGCGTTCTGGCGGGTGGCACTGCCGATGGCCCGACCGGCCATTGGCGCGGGCGTGGCGCTGGCGCTGATGGAAACCCTGGCGGATTTCGGCGCGGTGTCGGTGTTCAACTTCGACACCTTTACCACCGCCATCTATAAAACCTGGTACGGCTTCTTCAGTCTTTCCAGCGCCGCCCAACTGGCCAGTCTCTTGCTGCTGGCGGTGATGGTGGTGCTCTACGGTGAACGCCGTGCCCGAGGAGCACAGCGGGCCAGCAACGAACGGCCCCGGGTCAAGGCGCTTTACCATTTGCGCGGTTTCAAGGCGGCGGCGGCCAGCAGCTGGTGCCTGTTGGTTTTCGCGTGCGCGTTCGTCATTCCGGTGCTGCAACTGGTGGTGTGGTTCTGGCAGCGCGGTCGGTTCGACCTGGACGAGCGTTATGCCGGGTTGATCATCCATACCCTCTATCTGGGCGGCCTGGCGGCCCTGGTCACCGTCTGCGTGGCTTTGCTGCTGGCGTTCGCCCGTCGCTTGGCGCCGACCCGCCCGATCCGCGCCGGTGTCGGCCTGGCGAACCTGGGTTATGCCTTGCCGGGTTCAGTGCTGGCGGTGTCGATCATGCTTGCGTTCAGCTATCTGGACCGTGAGTTGGTCATTCCGCTATCGACCCTGCTCGGCGGGGCGGGCAAACCGTTACTGTTGGGCAGTTTGTCGGCGTTGCTGCTGGCCTACCTGATACGTTTCCTGGCCGTGGCCTACGGTCCGCTGGAAAACAGCCTGGCGCGGATTCGTCCGTCATTGCCCGAGGCCGCACGAAGCCTTGGCGTCAGTGGGCCACGACTGTTTTTCAAAGTGTATCTGCCGTTGCTACTCCCTGGCACGTTGAGCGCGGCGTTGCTGGTGTTTGTCGATGTGCTCAAGGAAATGCCCGCCACCCTGCTGATGCGCCCGTTCGGCTGGGACACGCTGGCAGTGCGGGTCTTTGAGATGACCAGCGAGGGGGAGTGGGCACGGGCTGCATTGCCGGCGCTGACCCTGGTGCTGGTCGGGCTGTTGCCGGTCATCGGATTGATACGGCGCTCGGCTCATCGACGCGTTCTGAATTAA	MTHPAQRRWYPLVFAVAALVLLPLSVLLLSWQSIDAQIWSHLWETQMPRLLGNTLTLILGVGVGVTLFGVSLAWLTSLCEFPGRRWLDWALMLPFAIPAYVLAFVFVGLLDFAGPVQTLMREWLGSGLRLPRVRSTGGVILVLVLVFYPYVYLLARSAFLAQGKGLMEAARVLGHSPWQAFWRVALPMARPAIGAGVALALMETLADFGAVSVFNFDTFTTAIYKTWYGFFSLSSAAQLASLLLLAVMVVLYGERRARGAQRASNERPRVKALYHLRGFKAAAASSWCLLVFACAFVIPVLQLVVWFWQRGRFDLDERYAGLIIHTLYLGGLAALVTVCVALLLAFARRLAPTRPIRAGVGLANLGYALPGSVLAVSIMLAFSYLDRELVIPLSTLLGGAGKPLLLGSLSALLLAYLIRFLAVAYGPLENSLARIRPSLPEAARSLGVSGPRLFFKVYLPLLLPGTLSAALLVFVDVLKEMPATLLMRPFGWDTLAVRVFEMTSEGEWARAALPALTLVLVGLLPVIGLIRRSAHRRVLN	PGPT0003730_3715	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
D1-35_03076	1083	gcvT_2	COG0404	Aminomethyltransferase	ATGGGACAGCGTACGCCTCTGTATGACCTGCATCTCGCCCTTGGCGCGAAGATGGTCGATTTTGGCGGTTGGGATATGCCTTTGCACTACGGCTCGCAGGTCGAGGAACACCACCAGGTGCGCCGCGATTGCGGTGTGTTCGATGTGTCCCACATGACCGTGATCGACGTTGCCGGCCCCCAGGCCAAGGCCTGGCTGCAGCGCTTGCTGGCCAATGACGTCGATCGCCTCCAGGACACCGGCCGTGCGCTGTACAGCACGATGCTCAATGAGCGCGGTGGCATCGTCGATGACATGATCATCTACCGGGTCGAGTACGGTTACCGGCTGGTGTTCAATGCCTCGACCCGCGACCAGGACCTGGCCTGGATGCAGGCACAGCTCGGTGAATATGATGTGCAACTGCACGAGCGTCCCGAACTGGCGATGCTGGCCATCCAGGGGCCGCAGGCCCGGCACAAGATTGCCGAACTGGTCACGCAATCACGCGGCCAATTGATCCAGCAACTCAAGCCCTTCGAAGGTCGTGCCGACGGTGACTGGTTCATTGCCCGTACCGGCTACACCGGTGAAGATGGATTGGAAATCGTCCTGCCGGCCCATGAAGCCCCGAGCTTTTTCAACGATCTGGTGGGCGCTGGCATTCCTCCCATCGGCCTTGGAGCTCGCGATACCTTGCGCCTGGAGGCGGGCATGAATCTCTATGGCCAGGATATCCACCAGGATGTTTCGCCGCTGGCCTCCAACATGGCCTGGAGCATCGCCTGGGAACCTGCGAGTCGCCAGTTCATCGGCCGCTCGGCGCTGGAAGCCGAACTGGCGGCTGGCGTGCAGCACAAACTGGTCGGGCTGGTACTTGAGGAGCGCGGTGTTCTACGCGCTCATCAGGTGGTCCGCATCGCCAATGTTGGCGAAGGAGAGATCACCAGTGGTAGTTTTTCTCCTACGCTTAGCAAGTCGATCGCCCTGGCGCGTGTTCCGATGGCTACCGCCGACCGTGCCGAGGTGGAAATTCGTGGCAAGTGGTACCCGGTACGGGTGGTCAAGCCGACCTTCGTCCGCCATGGCAAAACCCTGATCTAA	MGQRTPLYDLHLALGAKMVDFGGWDMPLHYGSQVEEHHQVRRDCGVFDVSHMTVIDVAGPQAKAWLQRLLANDVDRLQDTGRALYSTMLNERGGIVDDMIIYRVEYGYRLVFNASTRDQDLAWMQAQLGEYDVQLHERPELAMLAIQGPQARHKIAELVTQSRGQLIQQLKPFEGRADGDWFIARTGYTGEDGLEIVLPAHEAPSFFNDLVGAGIPPIGLGARDTLRLEAGMNLYGQDIHQDVSPLASNMAWSIAWEPASRQFIGRSALEAELAAGVQHKLVGLVLEERGVLRAHQVVRIANVGEGEITSGSFSPTLSKSIALARVPMATADRAEVEIRGKWYPVRVVKPTFVRHGKTLI	PGPT0008130_4326	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008130-gcvT-K00605	NA	NA
D1-35_03077	384	gcvH_2	COG0509	Glycine cleavage system H protein	ATGAGTGATATCCCCGCCGAACTGCGTTTTGCCGAAAGCCACGAGTGGGCGCGCCTGGAAGCCGACGGTACCGTCACCGTGGGCATCAGCGACCATGCGCAGGAAGCTTTGGGCGATGTGGTGTTTGTCGAGCTGACCGAGGTCGGTAAGGTTTTTGCTGCTGGTGATCAGGCTGGCGTGGTGGAGTCGGTCAAGGCCGCTTCCGACATCTACGCCCCCATTGCCGGCGAAGTGATTGCGATCAATGAAGAGTTGGGCGGCTCGCCGGAGTTGCTGAACTCCGATCCGTACGGCGCCTGGATCTTCAAGCTCAAGCCAAGCGACAAGGCCGAGTTGGACAAGTTGCTCGATGCTGCCGGCTATAAGGCTGCTATCGGCGAGTAA	MSDIPAELRFAESHEWARLEADGTVTVGISDHAQEALGDVVFVELTEVGKVFAAGDQAGVVESVKAASDIYAPIAGEVIAINEELGGSPELLNSDPYGAWIFKLKPSDKAELDKLLDAAGYKAAIGE				NA	NA	NA	NA	NA
D1-35_03078	318			hypothetical protein	ATGCGTCTCAAACTTGCTGTCGCGACCCTGGCCTTGCTTTCTCTTCCTGTTGGCTCGGCAATGGCCGACACGTTTTGGCGTAACGTCATCTCATCCGGTGCGACCACCGGTTCTACCTACCTGACCTTCAAGGACAACAAGCTGATCGTCGCCGCCCAGGACGACGCCGGCAGCTTCGTCGCCAGTGACGGCGGCATCCGTGGCCCCTACCTGGAAGCCGCGATGCAGAAAGTCCGTGCCGACAACCCAGGCCTGCAAGCCACCGACATGGAACTGGCCAACGCGATCCTGGCGAAAAACGCCGTCGCCCAGGAGTGA	MRLKLAVATLALLSLPVGSAMADTFWRNVISSGATTGSTYLTFKDNKLIVAAQDDAGSFVASDGGIRGPYLEAAMQKVRADNPGLQATDMELANAILAKNAVAQE				NA	NA	NA	NA	NA
D1-35_03079	1785			hypothetical protein	ATGTCCACCAAACACGCCACTCAGGACCGCTGGCTGGACCTTAACGATCTGCTCCGCCAACTGGTCGCCCAGGGCCTCATCAGCCAGGATTCAGCCGAAACCGCGCTCAACGCCCGGCGCCGGCATAACGCCAACAGCCAGTTGCACCCGCTGGAGTTCATCGCCAACCAACACCTGGACGACCTCAGCCGACCCGGCAAGCGCCTGGACCTTGAGAACCTGACGCTGTGGCTGGCCCAGCAGGCCGACCAGCCCTACATGCGCATCGACCCGTTGAAGATCAACGTGGCGGCCGTTACGCCGCTGATGTCCTATGCCTTTGCGCAACGTCACAAGATTCTCGCAGTGGCGGTTGACCGTGACGCCGTCACCGTCGCCAGTGCCCAGCCTTACGTCAGCAGTTGGGAAGCCGACCTGACCCACGTGCTCAAGCTGCCGGTCAGGCGGGTGGTTGCCAACCCGGTGGATATCCAGCGCCTGAGCGTGGAATTCTATCGCCTGGCCAAATCCGTCAGCGGCGCTACCACCGTCGATCAGCAACCGAGCAACCTGACCAACTTCGAACAACTGCTCAACCTCGGCGCCAGCGACCAGGAGCCGGACGCCAACGACGCCCATATCGTCAACATCGTCGATTGGCTGTTCCAGTACGCCTTCCAGCAGCGGGCCAGCGATATCCACATCGAACCGCGCCGGGAGCAGGGCACCGTACGCTTTCGCATCGACGGGGTGCTGCACACCGTCTATCAGTTCCCGCCGCAGGTGACGATGGCGATCATCAGTCGCCTGAAAAGCCTGGGGCGCATGAACGTCGCGGAAAAGCGCAAGCCCCAGGATGGTCGCGTCAAGACCAAGACTCCCGACGGCAACGAAGTGGAGTTGCGCTTGTCGACCTTGCCGACCGCGTTCGGCGAAAAAATGGTGATGCGGATCTTCGATCCGGAAGTATTGCTCAAGGATTTCGACCAGCTGGGCTTCTCCGCCGACGACCTGCGTCGCTGGCAGGACATGACCCGCCAGCCCAACGGCATCATTCTGGTCACGGGCCCCACCGGGTCCGGCAAGACCACGACGCTCTACACGACGTTGAAAAAACTGGCGACGCCGGAAGTGAACCTCTGCACCATCGAGGATCCGATCGAGATGGTCGAGGCCTCGTTCAACCAGATGCAGGTCCAGCACAACATCGAGCTGTCTTTCGCGGCGGGCGTACGTGCGTTGATGCGGCAGGACCCGGACATCATCATGATCGGCGAGATCCGTGACCTGGAAACCGCCGAAATGGCAATCCAGGCAGCACTCACCGGACACCTCGTCCTCTCGACCCTGCACACCAACGACGCGCCGAGCGCCATCAGCCGCCTGCTGGAGCTCGGCGTGCCGCATTACCTGATCAAGGCCACAGTGCTCGGAGTCATGGCCCAGCGCCTGGTGCGTACGTTGTGTCCACATTGCAAGGCGCCCATCACCCTGGATGAAGACGACTGGCAAACCCTGACGAGGCCCTGGCAGGCCCCGCTGCCGACCAACGCCCAGCAGGCTGTCGGCTGCTCGGAATGCCGCGATACCGGCTATCGGGGGCGGGCCGGGGTGTACGAGATCATGCAGTTAAGCGACAGCGTCAAAGGCCTGATCCACCCAGACACGGACCTGCTCGCCGTGCGCCGCCAGGCCTTCAAGGAAGGCATGCGCAGCCTGCGGCTCTCGGGCGCGCAAAAGGTAGCGGCGGGCCTGACCACGGTCGAAGAAGTGCTGCGGGTGACGCCACAGAGTGAACAGAAGTAG	MSTKHATQDRWLDLNDLLRQLVAQGLISQDSAETALNARRRHNANSQLHPLEFIANQHLDDLSRPGKRLDLENLTLWLAQQADQPYMRIDPLKINVAAVTPLMSYAFAQRHKILAVAVDRDAVTVASAQPYVSSWEADLTHVLKLPVRRVVANPVDIQRLSVEFYRLAKSVSGATTVDQQPSNLTNFEQLLNLGASDQEPDANDAHIVNIVDWLFQYAFQQRASDIHIEPRREQGTVRFRIDGVLHTVYQFPPQVTMAIISRLKSLGRMNVAEKRKPQDGRVKTKTPDGNEVELRLSTLPTAFGEKMVMRIFDPEVLLKDFDQLGFSADDLRRWQDMTRQPNGIILVTGPTGSGKTTTLYTTLKKLATPEVNLCTIEDPIEMVEASFNQMQVQHNIELSFAAGVRALMRQDPDIIMIGEIRDLETAEMAIQAALTGHLVLSTLHTNDAPSAISRLLELGVPHYLIKATVLGVMAQRLVRTLCPHCKAPITLDEDDWQTLTRPWQAPLPTNAQQAVGCSECRDTGYRGRAGVYEIMQLSDSVKGLIHPDTDLLAVRRQAFKEGMRSLRLSGAQKVAAGLTTVEEVLRVTPQSEQK	PGPT0026430_334	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026430-gspE|epsE-K02454	NA	NA
D1-35_03080	339			hypothetical protein	ATGCATTCACTCGCAACCGTATCCACCGCCCCGACCCGCGCCGACGCCTGGCACGCCGCCAACGCCCATTGCCGCGTGCATTATCAGATGCAGGCCGAAGCCGAACCGGACGTGCTGTGTCGAGCGTTGAATCTGTTCGCCTTGCAGGGCCTGACGCCACAGCAGGTCCACGTCGAGCGTCAAGACGATCTGCTGATGCTGGACATTGTCCTGGATGGGCTGAGCTGGCACCGTGCCCAGGTCATTGCTGAAAAATTACGTAACCTGATCAGCATGTGCTCGGTGGACCTGCAGGACGCCGATATCACGCGGGCCGGACGGGTCCTGGCGGCCGGTTGA	MHSLATVSTAPTRADAWHAANAHCRVHYQMQAEAEPDVLCRALNLFALQGLTPQQVHVERQDDLLMLDIVLDGLSWHRAQVIAEKLRNLISMCSVDLQDADITRAGRVLAAG				NA	NA	NA	NA	NA
D1-35_03081	471	decR_2	COG1522	DNA-binding transcriptional activator DecR	ATGCAAAGTGAGCTGGATAGCTACGACCGCAGAATACTGGCGTTGCTGCAAGAGGATGCTTCGCTGTCCAGCGCGCAGATCGCCGAGCAGGTTGGCTTGTCCCAGTCGCCCTGTTGGCGTCGGATTCAGCGGATGAAGGAAGAGGGAATCATTCGGGGACAGGTGACGCTGCTGGACCGCAAGAAAATCGGCCTGAACACGCAGATCTTCGCCGAAATCAAGCTAAACGCCCACGGTCGCTCGAATTTCACCGAGTTCACCGAGGCGATCCGCGGATTTCCCGAAGTGCTGGAATGTTACGTGCTGATGGGGTCGGTGGATTTTCTGCTGCGCATCGTCACGGCGGACATCGAGGCGTATGAGCGATTCTTTTTCGAAAAGCTGTCGATGGTGCCGGGGATTCAGGAGGTGAACTCGATCGTGGCGTTGTCGGAGATCAAGTCGACGACGAGTTTGCCGGTGGTGCGCTAG	MQSELDSYDRRILALLQEDASLSSAQIAEQVGLSQSPCWRRIQRMKEEGIIRGQVTLLDRKKIGLNTQIFAEIKLNAHGRSNFTEFTEAIRGFPEVLECYVLMGSVDFLLRIVTADIEAYERFFFEKLSMVPGIQEVNSIVALSEIKSTTSLPVVR				NA	NA	NA	NA	NA
D1-35_03082	1368	ygiF	COG3025	Inorganic triphosphatase	ATGCAGAAAGAAACCGAAATCAAACTCCGCGTCAGCCGCGAGACCCTGGCAGCCTTGCGCGAGCATCCGCTGTTGAAAAAACGCAACAAGAGTGGCTGGGAACGCCACGAATTGATGAACCAGTACTTCGACACGCCGGAACGTGACCTCGCCCGGGCCAAGGTTGCCCTGCGCCTGCGCCGCGACGGCGAAGAAGTCATCCAGACCCTCAAGACCCGTGGCCAGAGCGTTGCCGGCCTGTCCGAGCGCAACGAATACGACTGGCACCTGCCCAAAGCCAAGCTCGACCTGAAGAAGCTCGACGGCGAATGCTGGCCCGAGGCACTGGCGGACCTGGACAAAAAAACCCTCAAGGCGATTTTCTCCACCGATTTCGTTCGCGAGCGCGCCGAAATTGCCTGGGGCCGCGGCAAAGCCAAGGTGGTCATCGAGGCCGCCCTGGACCTGGGCCACGTGGTGGTCGGCAAGCAGAAGGAAGAAATCTGCGAGCTGGAACTGGAACTGCGCGAAGGCGAACCCGCCGCCCTTCTGGAACTGGCCGCCGAACTGGCCGCGACCCTGCCCTTGATGCCTTGCGACATCAGCAAGGCTGAACGTGGCTATCGCCTGCATGATGCGAGCAGTTACGCCCTGAGCCTGCCGGCTCCGCAACTGACGGCCGAAACGCCGCTGGACGATGCTTTTGGCGCATTGAGCTGGCATTTGCTGGGCAGCAGCCAACGCCTGGCTGAACAATATCGTTTCAACGGCCACTGGCGCCTGTTGCAGGATTGGGTGGAAAACCTCGCCGAACTGCGCGCGTTGCTCAGCAGCCTCGGCCAGGCAGCGCCGCGCCAATCGACCCATGATCTGCGCGTCGCCCTGGATGCGCTGCTGGAGGACTGGCGTCCGCTGGTCCAGGCCGGCCTCGACGACGAAGACGTGCGCAAGGCGGCGCCGGAGCAATTCCTCGAAGAGCTGCAGGACCCGCGCTGGGGCCTCTTCTCTCTTGAAGCTTCGCGTTGGTTGCTCGCCCGCAGCTGGACCGCCGACCGCAACACCCGCGGCAATCGCCAAGGCGCGGCGCAACTGGGCAGCTGGCTGCCGCGCCTGCTCAGCGAAGAAGCTTCGTCGCTGCAACTGCAACGCTACCAGCAACAACCGGAAGACCTGGCCGAGCAACTGCCGCGCATCGAACGTATCCAGGCCTGGCTGCATCATGCCCGCCAGGTGCTGGAAATTCCTGAGATGGACCGGCTCTACGGCGAATTGAACAAGCTGGCGCAATTGGCCAACGAACCGATCACCGACGAGCTCTTGGATGCGCGCAAGCAGCAGGCGATTGCGGTTTACCAGAATCGGGCCTGGAAGACTTTGCTGCGCCTGTGA	MQKETEIKLRVSRETLAALREHPLLKKRNKSGWERHELMNQYFDTPERDLARAKVALRLRRDGEEVIQTLKTRGQSVAGLSERNEYDWHLPKAKLDLKKLDGECWPEALADLDKKTLKAIFSTDFVRERAEIAWGRGKAKVVIEAALDLGHVVVGKQKEEICELELELREGEPAALLELAAELAATLPLMPCDISKAERGYRLHDASSYALSLPAPQLTAETPLDDAFGALSWHLLGSSQRLAEQYRFNGHWRLLQDWVENLAELRALLSSLGQAAPRQSTHDLRVALDALLEDWRPLVQAGLDDEDVRKAAPEQFLEELQDPRWGLFSLEASRWLLARSWTADRNTRGNRQGAAQLGSWLPRLLSEEASSLQLQRYQQQPEDLAEQLPRIERIQAWLHHARQVLEIPEMDRLYGELNKLAQLANEPITDELLDARKQQAIAVYQNRAWKTLLRL				NA	NA	NA	NA	NA
D1-35_03083	1158	argE_1		Acetylornithine deacetylase	ATGCCTTTGCCGTCCATGAAAGATCAGTTCGCTGCCCTGATCGCCGCGCCTTCGGTCAGTTGTACCCAGCCCAAGCTGGACCAGTCCAACAGCGCCGTGATCGAGCTGCTGGCAGGCTGGCTGTCGGAACTGGGATTCTCCTGTGATATCCAGCAGGTCAGCCCCGGCAAGTTCAACCTCCTCGCCAGCTTCGGCACGGGGCCCGGCGGGCTGGTGCTGGCCGGGCACAGCGACACGGTGCCGTTCGATGGCGCGTTGTGGCAGACCGACCCGCTCAAGCTCACCGAGGTCGGCGGGCGCTGGGTGGGCCTGGGCAGTTGTGACATGAAAGGTTTTTTCGCCCTGGCCATCGAAGCGGTGCGGCCGTTGCTGGACCAGCCGTTCAAGCAGCCGTTGCTGATCCTCGCCACCTGCGATGAAGAAAGCTCCATGGCGGGCGCCCGTGCCCTGGCCGAGGCCGGGCGGCCGCTCGGACGCGCGGCGGTGATAGGCGAACCGACGGGGCTGAAGCCGATCCGCATGCACAAGGGCGTGATGATGGAGCGTATCGACATCCTCGGGCGCAGCGGCCATTCCTCCGACCCGAGCCTGGGCCGCAGCGCGCTCGAAGCGATGCACGACGCCATGGGCGAGCTGCGTGGCCTGCGCCTGCAATGGCAGCGTGAGTTCCGCAATCCACAGTTCACCGTGCCGCAGCCGACCCTGAATTTCGGTTGTATTCATGGCGGCGACAATCCCAACCGGATCTGCGGCCAATGCTCCATGGAGTTCGACCTGCGCCCACTGCCAGGCATGGATCCAGAGGTGCTGCGGGCGGCGATCCGGCAGAAGCTCGACCCCATCGCCGAACGCCATCAGGTGAAGATCGACTACGCACCGCTATTCCCCGAAGCGCCCCCGTTCGAGCAGGCCGAGGACGCCGAGCTGGTGCGGGTGGCCGAACGGCTCACCGGGCATCGTGCCGAAGCAGTGGCGTTCGGCACCGAAGCGCCTTATCTTCAGCGCCTCGGTTGCGAAACCGTGGTATTGGGGCCTGGCGATATCGCCTGCGCCCACCAGCCTGGCGAATACCTTGAAATGTCACGTTTGCAGCCTACCGTGCAGCTGTTGCGACAGTTGATCGGCCATTACTGCCTGACACCGGCCAGCGCCGGTTAA	MPLPSMKDQFAALIAAPSVSCTQPKLDQSNSAVIELLAGWLSELGFSCDIQQVSPGKFNLLASFGTGPGGLVLAGHSDTVPFDGALWQTDPLKLTEVGGRWVGLGSCDMKGFFALAIEAVRPLLDQPFKQPLLILATCDEESSMAGARALAEAGRPLGRAAVIGEPTGLKPIRMHKGVMMERIDILGRSGHSSDPSLGRSALEAMHDAMGELRGLRLQWQREFRNPQFTVPQPTLNFGCIHGGDNPNRICGQCSMEFDLRPLPGMDPEVLRAAIRQKLDPIAERHQVKIDYAPLFPEAPPFEQAEDAELVRVAERLTGHRAEAVAFGTEAPYLQRLGCETVVLGPGDIACAHQPGEYLEMSRLQPTVQLLRQLIGHYCLTPASAG	PGPT0014254_1868	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014254-argE-K01438	NA	NA
D1-35_03084	1299	argA	COG0548	Amino-acid acetyltransferase	ATGCCCGAATACGTCAATTGGCTTCGTCACGCTTCGCCCTATATCAACGCCCACCGCGATTGCACCTTCATCGTCATGCTGCCTGGCGACGGGGTGGAGCACCCCAACTTCGGCAACATCGTCCATGACCTGGTGTTGCTGCACAGCCTCGGCGTGCGGCTGGTGCTGGTGCATGGTTCGCGTCCGCAAATCGAGACCCGCCTCGCTGCCCGCGGCCTGACGCCGCACTATCACCATGGCATGCGCATCACCGATGCCGCGACCCTGGAGTGCGTAATCGACGCGGTCGGTCAGTTGCGCATTGCCATCGAGGCGCGCCTGTCGATGGACATGGCCTCCTCGCCGATGCAAGGCTCGCGGTTGCGCGTGGCCAGCGGCAACCTGGTCACCGCGCGGCCGATCGGCGTTCTCGAAGGCGTGGACTATCACCACACCGGGGAAGTGCGTCGGGTCGACCGCAAGGGCATCAACCGCCTGTTGGATGAGCGCTCGATCGTCCTGCTGTCGCCGTTGGGCTATTCACCGACCGGGGAAATTTTCAACCTGGCGTGTGAAGACGTTGCGACCCGGGCGGCCATCGATCTGGCCGCCGACAAACTCCTGTTGTTCGGCGCCGAGCAGGGCCTGATCGGCGAGGATGGGCGGCTGGTTCGCGAGCTGCGTCCGCAACAGGTCCCGGCTCATATGCAACGTCTGGGCAGCGATTATCAGGCCGAGCTGCTCGATGCGGCGGCGCAGGCCTGCCGGGGCGGCGTGGCGCGTAGCCACATCGTCAGCTATGCCGAGGACGGTGCGCTGCTGGCCGAACTGTTCACCCGCGATGGCAGCGGCACGCTCGTGGCCCAGGAACAATTCGAGGTGGTGCGCGAAGCCGCCATCGAGGATGTCGGCGGCTTGCTGGACCTGATCAGTCCTTTGGAGGAACAGGGCATTCTGGTACGGCGTTCCCGCGAGGTGCTGGAGCGCGAGATCGAGCAGTTCAGCGTGGTCGAGCGCGAAGGCATGATCATCGCGTGCGCGGCGCTGTACCAGATCGCCGATTCGGATGCCGGGGAACTCGCCTGCCTGGCGGTGAACCCGGAGTACCGCCACGGTGGCCGGGGCGATGAGCTGCTGGAGCGGATCGAAACCCGGGCCCGCGCCCAGGGCCTCAAGACTCTGTTCGTGCTGACGACCCGGACCGCCCACTGGTTCCGCGAGCGCGGCTTCGAGCCCAGCAGTGTCGATCGCCTGCCGGCGGCGCGGGCTTCGTTGTACAACTATCAGCGTAATTCGAAAATCTTCGAAAAATCGCTGTAA	MPEYVNWLRHASPYINAHRDCTFIVMLPGDGVEHPNFGNIVHDLVLLHSLGVRLVLVHGSRPQIETRLAARGLTPHYHHGMRITDAATLECVIDAVGQLRIAIEARLSMDMASSPMQGSRLRVASGNLVTARPIGVLEGVDYHHTGEVRRVDRKGINRLLDERSIVLLSPLGYSPTGEIFNLACEDVATRAAIDLAADKLLLFGAEQGLIGEDGRLVRELRPQQVPAHMQRLGSDYQAELLDAAAQACRGGVARSHIVSYAEDGALLAELFTRDGSGTLVAQEQFEVVREAAIEDVGGLLDLISPLEEQGILVRRSREVLEREIEQFSVVEREGMIIACAALYQIADSDAGELACLAVNPEYRHGGRGDELLERIETRARAQGLKTLFVLTTRTAHWFRERGFEPSSVDRLPAARASLYNYQRNSKIFEKSL	PGPT0014243_1249	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014243-argAB-K14682	NA	NA
D1-35_03085	1329	oprD_3		Porin D	ATGAAGAAGTCCACCTTGGCCCTGGCTGTGGCCGTTGGGGTAATGGCGCAGCAGGCAGGCGCCGCCGGTTTCATCGAGGACAGCAAGGCGTCCGTCAGTTCTCGCACCATGTACTTTGACAACGACAACCGTGAAGGCGCTGAAGACCAGCGTGAAGCGGCGACCGGCCTGAAGTTCGACTACAAGTCCGGCTTCACTCAAGGTGTCGTTGGTTTTGGTATCGACGCCCAGGCGATGGTTGGTCTTCACCTTGATGGTGGTAAAGGTCAGCGTCCAGACGCCAATAACTCCTTCTCGCCAAGTGACTCCGACGGGTCCGCGGAGCACAGCTGGAGCCGTGGGTCGGCCAACGTGAAGGCGCTTTTCTCCAAGACCGAGGCCCACCTGGGTGGTGCTCTGCAGCCTAACCTGCCGATCCTGGTCGCCAACGATGGCCGTCTGCTGCCGCAAACCTTCGAAGGTGGCACTATCACCTCCAAGGACCTGGACAACGTGACGTTCAACGCCGGTCAACTGGAGCGCGCCGTAGGCCGTGCCGGTACCAACAGTACTGGCTTGGCAGTGGCAGGTGGTACCGAAGACAGCAACCAGTTCCGTTACGCCGGTGCTGACTGGAAGGTCACCAAGGACCTGACCCTGCAGTACTACTACGCCAACCTGCAGGATTACTACAAGCAGCACTTCCTGGGTGCGGTACACGTTTTCCCGATCACCGAAGGCCAGTCGTTCAAGACTGACCTGCGTTACTTCGACAGCAGCTCGGATGGCCGTAACGGCGACCCAGGCTATCGCTTCAACAACAACGGCGGTTATGCCAAGAACCCGGGCGAGGTCGATAACAAGACCTGGAGCGCCATGTTCACCTACACCCTGGGTGGCAGCGCGTTCCTGTTGGGTCACCAGCAAGTTGGCGACGATGGTGGCTTCGTCTACATGAACCAGGGCAACCTGCTCAATGACAGCGGCCGCAACGAAGGCGCCGGTGGCTCGAGCTTCTACCTGTTCACCGACAGCATGATCCATCAGTTCGTTCGTGCGGGTGAGAACACCACCTTCGGTCAATACTCGTACGACTTCACCGGCCTGGGCGTTCCTGGCTTGAAGGCAGCGATTGCCTACCTGCACGGTGACGACATCAAGTCTGCTACCGGCGGAAGCGAAACTTCCGAGTGGGAACGCGACATGCGCCTGGACTACGTCGTCCAGCAAGGCCCGCTCAAGGGCTTCGGCACTACCCTGCGTCATGGCTCCTACCGTGGCAGCAGCACCGGTATCGCCGACCAGGATCAGACCCGCCTGATCTTCAACTACACTTACAACTTCATGTAA	MKKSTLALAVAVGVMAQQAGAAGFIEDSKASVSSRTMYFDNDNREGAEDQREAATGLKFDYKSGFTQGVVGFGIDAQAMVGLHLDGGKGQRPDANNSFSPSDSDGSAEHSWSRGSANVKALFSKTEAHLGGALQPNLPILVANDGRLLPQTFEGGTITSKDLDNVTFNAGQLERAVGRAGTNSTGLAVAGGTEDSNQFRYAGADWKVTKDLTLQYYYANLQDYYKQHFLGAVHVFPITEGQSFKTDLRYFDSSSDGRNGDPGYRFNNNGGYAKNPGEVDNKTWSAMFTYTLGGSAFLLGHQQVGDDGGFVYMNQGNLLNDSGRNEGAGGSSFYLFTDSMIHQFVRAGENTTFGQYSYDFTGLGVPGLKAAIAYLHGDDIKSATGGSETSEWERDMRLDYVVQQGPLKGFGTTLRHGSYRGSSTGIADQDQTRLIFNYTYNFM				NA	NA	NA	NA	NA
D1-35_03086	429			hypothetical protein	ATGGCCGATGATGTTTTGATCAACAAGGCAGCAAGTATCGAGCGTTGCGTCGCCAGGGTGCGGGAAGAATACGAGAAAGATCCCGCTACGTTTGCCACCGATTTCACTCGCCAGGACTCGGCAGTCCTGAACATTCAACGGGCGTGTGAAGCGGCACTGGACATGGGACAGCACTTGATTCGACGTGAGCGGCTGGGTGTTCCGCAAAGTGCTCGCGATACATTCGAGCTGCTTTTGCAAGGTGGCTGGCTGGAGGAAGGCCTGGTGAAAAACCTGAAGAATATGGTGGGCTTCAGGAACATCGCCGTGCATGACTATCAAGCTCTGCAACTGCCGATCATGATCGCAATCATTACCGGGCACTTGGACGATTTCCTCGGGTTCAGCGCGTACATCTTGCGCAAGGACGCGGCGCAGTCCAAGGGATAA	MADDVLINKAASIERCVARVREEYEKDPATFATDFTRQDSAVLNIQRACEAALDMGQHLIRRERLGVPQSARDTFELLLQGGWLEEGLVKNLKNMVGFRNIAVHDYQALQLPIMIAIITGHLDDFLGFSAYILRKDAAQSKG				NA	NA	NA	NA	NA
D1-35_03087	396			hypothetical protein	ATGAACACTCAAGCCTTGTTGTCTTATCTGCATCACCATCTCCCTGGGCTGCTGGCGGTTTACCTGTTCGGTAGTCATGCACAGGGCACCGCGGGACCTGATAGCGACGTCGATCTGGCGGTGCTCGTGTCCGGCGAGGTCGACCCTGTTTCGCTGTGGCAGCTCTCAGGAGATTTGGCCGATATCGCTGGCAGTCCCGTCGATCTGATCGATCTACGCGCGGCAACGACCGTCATGCAATACCAGATCGTGACCCGAGGTCAGCGGCTCTGGGCCAGAGACGTACAGGCGGGTTTGTATGAATGTTTCATTCTCAGCGAAAAAACCGCTCTGGATGAGGCTCGGGCAGGTTTGCTCAAGGATATTCAGGAAGAAGGCAGCGTGTATGGCCGATGA	MNTQALLSYLHHHLPGLLAVYLFGSHAQGTAGPDSDVDLAVLVSGEVDPVSLWQLSGDLADIAGSPVDLIDLRAATTVMQYQIVTRGQRLWARDVQAGLYECFILSEKTALDEARAGLLKDIQEEGSVYGR				NA	NA	NA	NA	NA
D1-35_03088	2190			hypothetical protein	TTGACCATTCGACAGCGTGACGACCAGCGGAGCACCGGTGACTGGAGCGTTCACCGAAGCGGTGTAAACCACAACGCCGCCTTCGCCAACCGTCGAAGTCGCGGTGAGCGAAACGGTGCTGGTGTCGAGGGTGTCGGTCACGTCCGTCACGACTGGTGCAGTGTTAGGCACCAGGTTTTCAAAGTTACCGCCAACGGCCGTGTCGATGCTGACTTCAACCTTGCCGGCATCCTTGTAGACATCGTCTTTCGGCGCGTCGACAGTTACGGTCCCAGTGGTAGCACCAGCCGCGATATTGATCACCGCGCCGTTGCTCAGGGTAATGGTGACAGGCGAGCCCGCTGCGTTGGTCAGGGTCGCGGTGTAAACAATCGAGCCGCCTTCGGCAACGGTGTCAGTCGCGGAAAGGGTCAGGCCGGTAGCATCAGCCGAATCAGTGATCGTAGTAACCGCAGGCGTAGTGCTCGGAACCAGATTCTCGAAGTTGCCGCCGGTTGCGCCGGTAATCGTAGTGCTGACAGTGCTGCCATTGTTGTAGACGTCGTTGGCCGGGGTATCGACAGCCACGGTACCGGTGGTCTGGCCGGCGGCGATAGTGATCACCGAGCCATTGCTCAACGTCACGGTCACCGGCGTCTGAGCAGGATTGGTCAGCGTCGCGGTGTAAATGATCTGACCGCCTTCGGTGATGGTTTCGCTGGCGCTGAGCGTCAGGCCAGTCGTATCAGCCGAATCAGTGATCGTAGTAACCGCAGGCGTCGTGCTCGGCACCAGGTTTTCGAAGTTGCCGCCGGTTGCTCCGGTGATCGTGGTGCTGACGGTACTGCCGTTGTTGTAGACGTCGTTGGCCGGGGTATCCACGGCAACGGTGCCGGTGGTCTGGCCAGCGGCAATGGTAATGACCGAGCCATTGCTCAACGTCACGGTCACCGGCGTCTGGGCCGGATTGGTCAACGTGGCGGTGTAGGTGATCTGGCCGCCTTCGGTGATGGTTTCGCTGGCGCTGAGCGTCAGGCCAGTCGTATCAGCCGAGTCAGAGATCGTGGTGACCGCAGGCGTAGTGCTGGGCACCAGATTCTCGAAGTTACCGCCGGTTGCGCCGGTAATCGTAGTGCTGACAGTGCTGCCATTGTTGTAGACGTCGTTAGCCTGGGTATCGACAGCCACGGTACCGGTGGTCTGGCCGGCGGCGATAGTGATCACCGAGCCATTGCTCAGCGTCACGGTCACCGGCGTCTGGGCCGGATTGGTCAACGTGGCGGTGTAGGTGATCTGGCCGCCTTCGGTGATGGTTTCGCTGGCGCTAAGCGTCAGGCCAGTGGCGTCAGCCGAATCAGTGATCGTAGTAACCGCAGGCGTGGTGCTCGGCACCAGATTTTCGAAGTTACCGCCAGTAGCGCCGGTAATCGTAGTGCTGACGGTGCTGCCGTTGTTATAGGCGTCGTTAGCCGGAGTATCGACAGCCACGGTACCGGTGGTCTGGCCAGCGGCAATCGTGATGACCGAGCCATTGCTCAATGTCACGGTCACCGGCGTCTGGGCCGGGTTGGTCAGCGTCGCGGTGTAGGTGATCTGGCCGCCTTCGGTGACAGTATTGCCGGCGCTCAGGGTGACGGTGGTGGTGTCGACGGTGTCGGTGATCTGCGTCACGGCTGGCGTGGTCGGCAGGGTCACGGCGATGCCGGTGCCGCCAGTGGTACCGGTGACGGTCACGCTGACTTGGCTGGGGTCGTTGTAGACCGTGTCGTTCGGTGCCAGGGGCACGTTGACGCTACCGGTCAGTTGCCCGGCCGGGATCACGATCACCGCGCCGTTGGACAGGGTTACGGTCAGGTTGGTTTGCGGCGCCTGGGTCACGGTCGCAGTGTAGACCAGCACGCCCCCGGCCTCGGTCAGGGTCGGGGTGGCGCTCAAGGTCATCGTCGCATTGAGCACGGCGTTGGCGGTGGTATCGGCGTTGTCGTCACCACCCAGGATGTTGTCATCGGTTGCTGCGGCCGCAGCGAGGCCTTCGGTCGGGAAGCCGATGGTGGGGTCGACGCTGCCGGCCGTGGCATCCAGCACGACGAAGCTATGACCGCCGCCCACGGCTCCGCCTGTACCGGCAGCGGTGGCGCCGGCCGCGGTGGCTTCCAGGGCGGTGGTCGGGTCGACACCGGCGGCGATGGCTTGCTGCAGCTCTTCTACTGA	MTIRQRDDQRSTGDWSVHRSGVNHNAAFANRRSRGERNGAGVEGVGHVRHDWCSVRHQVFKVTANGRVDADFNLAGILVDIVFRRVDSYGPSGSTSRDIDHRAVAQGNGDRRARCVGQGRGVNNRAAFGNGVSRGKGQAGSISRISDRSNRRRSARNQILEVAAGCAGNRSADSAAIVVDVVGRGIDSHGTGGLAGGDSDHRAIAQRHGHRRLSRIGQRRGVNDLTAFGDGFAGAERQASRISRISDRSNRRRRARHQVFEVAAGCSGDRGADGTAVVVDVVGRGIHGNGAGGLASGNGNDRAIAQRHGHRRLGRIGQRGGVGDLAAFGDGFAGAERQASRISRVRDRGDRRRSAGHQILEVTAGCAGNRSADSAAIVVDVVSLGIDSHGTGGLAGGDSDHRAIAQRHGHRRLGRIGQRGGVGDLAAFGDGFAGAKRQASGVSRISDRSNRRRGARHQIFEVTASSAGNRSADGAAVVIGVVSRSIDSHGTGGLASGNRDDRAIAQCHGHRRLGRVGQRRGVGDLAAFGDSIAGAQGDGGGVDGVGDLRHGWRGRQGHGDAGAASGTGDGHADLAGVVVDRVVRCQGHVDATGQLPGRDHDHRAVGQGYGQVGLRRLGHGRSVDQHAPGLGQGRGGAQGHRRIEHGVGGGIGVVVTTQDVVIGCCGRSEAFGREADGGVDAAGRGIQHDEAMTAAHGSACTGSGGAGRGGFQGGGRVDTGGDGLLQLFY				NA	NA	NA	NA	NA
D1-35_03089	249			hypothetical protein	TTGGGCAGTGGCCTGTTCGAGGTCGGTGGAAGAGTCCGGCGCGCTGGCGCTCCACTGGGTATCGCGGCCCAGGTCGAGCGTGCGGCCGTCAGCCAGTTCCAACGTGACGGCGCCGGCAGGGCCGGTGTCCAACTGGTCGCCTACGTTAAGGCGATCGCCTTCAATGAGTACGCGCCGAATGCCCTCGGGGGAAACGACGAAAACCTGACCAACAATGCTTTTGACAACGGCAATAACACTGCTCATTGA	MGSGLFEVGGRVRRAGAPLGIAAQVERAAVSQFQRDGAGRAGVQLVAYVKAIAFNEYAPNALGGNDENLTNNAFDNGNNTAH				NA	NA	NA	NA	NA
D1-35_03090	1350	bepC_2		Outer membrane efflux protein BepC	ATGCGTTCGCACCTGTTCAAGGCTTTACCCTTCGCCCTGGCCGCCAGTTTCGTACAAGCACAAACCTTGCCGCAGGCCATGCAACAAGCATTGGATGTTCATCCGGAAATTCAGGCAGGCGTGAACAGCCGCCTGGCGGCGGACTATCAGTTGAAGGCGGCCAAGGGCGGCTACCTGCCTAGAGTGGACCTCGCAGCCGGTTACGGCCGTGAAGGCACCGACAGCGTGACGACCCGTTCGGGCAGTAATAATCATTGGGAAACCCTGAACCGCAGCGAATCGAGCCTGCGTCTGTCGCAAATGGTTTTTGACGGTTTTGCGACGTCCAGCGAAGTCGGGCGTCAACAAGCCAACGTCAGTGCTCGCGCCTATTCCTTGCTTGATGCCTCCGAGCGCACCGGGCTGACCGTCGCCCAGGTGTACCTGGACGTACTGACCCGCCGTGAGTTCGTGCGCCTGGCCGAGGAAAACCTCAAGAGTCACGAGCGCATCTTCGATCAAATCAAGTTGCGCACGTCCCGGGGGGTAGGCAGCGGCGCCGACCTGGACCAGGCCGAGGCGCGCATGGCCCAGGCCCGCAACAACCTGATCACCGAGCAGACCAACCTGGCCGATGCCGAGACCAACTACCTCAGCGCCGTCGGACAATTGCCTGACCAACTGGAGCGCCCCGCCGACTTTCTGGCGTTGCTACCGGCCAACCTGACCGAAGCCCGTGCCCAGATGCTGGAAAACAGCCCGGTGCTGCGTTCGGCCGAAGCCGACATCGCCGCCGCCGAGAAGCAATACGAGGCCGCCAAGTCGAGCTTCTACCCTCGCTTCGACGCGGAACTGGGCCGCACCGCCGACAACGACCTGGACGGCCAGAACGGCCACAACAACGAATGGCAGGCCATGTTGCGCATGCGCTTCAACCTGTACGCCGGTGGTAGCAACAAGGCCGACCTGGAATCCAAGTCCTACCTGTCCAACCAGGCGCTGGATATCCGCAACAACGCGCTGCGCCAGTTGAATGAAGAGCTGGGCCTGGCCTGGAACGCCCTGAACAACGCCAACGCCCAGGTGCCGATCGCCCAGCAATACGTGGATCGCAGTGCCAACGTGCGCACCGCCTACCAGAAGCAATTCAGTCTCGGCGAGCGGACCCTGCTCGACTTGCTCGACAGCGAAAACGAGCTGTTCAGCGCCTCCCGCCGTCTGGCGGAAATCAAGAACGTGCAGCTGTTCAGCCAGTACCGGATCAAGGCGACCATGGGCCAGTTGCTGAAAAGCCAAGGCGTGGTCGCGCCGTTGGCATCCGTTGTGCAGAACGACGTGAAACCCAAGGTCCAGTTGCCTGGGATGAATTAA	MRSHLFKALPFALAASFVQAQTLPQAMQQALDVHPEIQAGVNSRLAADYQLKAAKGGYLPRVDLAAGYGREGTDSVTTRSGSNNHWETLNRSESSLRLSQMVFDGFATSSEVGRQQANVSARAYSLLDASERTGLTVAQVYLDVLTRREFVRLAEENLKSHERIFDQIKLRTSRGVGSGADLDQAEARMAQARNNLITEQTNLADAETNYLSAVGQLPDQLERPADFLALLPANLTEARAQMLENSPVLRSAEADIAAAEKQYEAAKSSFYPRFDAELGRTADNDLDGQNGHNNEWQAMLRMRFNLYAGGSNKADLESKSYLSNQALDIRNNALRQLNEELGLAWNALNNANAQVPIAQQYVDRSANVRTAYQKQFSLGERTLLDLLDSENELFSASRRLAEIKNVQLFSQYRIKATMGQLLKSQGVVAPLASVVQNDVKPKVQLPGMN	PGPT0022235_899	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ADHESIN_TRANSPORT,PGPT0022235-lapE-K12543	NA	NA
D1-35_03091	2157	ltxB	COG2274	Leukotoxin export ATP-binding protein LtxB	GTGGAATCAGAAGTCAGTCCAGTCGAACTAGTTCACGACCCGCGCACGCTGCACGATGACCCGCTGCTGGATGGTTTGCTGGCGCTCTGCATGCTGCACCAGAAACCTGCCAGCGCGGCGATGCTGACCACCGGCCTGCCGCTGCCCAAGCAACGCTTGAGCGTCGACTTATTGTCGCGCGCGGCGGCCCGTGCCGGTCTGCAAGGCCGGGTGCTGCAACGCAAGCTCGAACAGATCCCGGCCATCGCCATGCCGGCTCTGCTGCTGCTCAAAGAAGGCCGCAGCGCCGTGCTGCTGGGCTGGGCCGGTGACGACCAGGCGCGCTTGCTGCTTAGCGAAAGCGATGGCGGAGAGGTCACCGTCAGCCGCGAGCTGCTGGCCGATGACTACAGTGGCAAGGTTTTCTTCGCCCAGCCGCAGCATAAATTTGACGTCAACCACGGCACGCTGATCCCACGGGCGCGTTCCTGGTTTCGCGACACTCTCAAACGCTCCCGCTGGTTGTACGCCGATGCCATCGCGGCCAGCCTGCTGATCAATATCATCGCCATGGCCGCGCCGCTGTTCGTGATGAACGTCTACGACCGCGTGGTGCCGAACCAGGCCGAATCAACCCTGTGGGTACTGGCGGTCGGCATTACCGGCGCCTACATTTTCGACTTGATCCTGAAGATGCTGCGCAGCCTGTGCCTGGATCTGGCAGGCAAGAAAACCGACCTGATCATTTCTGCGACGCTGTTCGAGCGCATCGTCGGCATGGCGATGAAATATCGTCCGGCGCGGGTCGGCAGCTTTGCCCAGAACATCCACGAGTTCCAGAGCCTGCGGGACTTCCTCGCCTCGCTGACCCTGACCAGCCTGATCGACTTGCCGTTCACGCTGCTGATCTTCATGGTCATCGCGATCCTGGGCGGGCATCTGGTGTGGATTCCGGTGCTGGCGTTCCCGATCGCCTTGCTGATTGGCTATGCCTTGCAGAAGCCGTTGGTAGCGACCATGGAACGAACCATGGCCCTGGGCGCCGAGCGCCAGTCCAGCCTGATCGAAACCCTGGCCGGCCTGGATGCGGTGAAGGTCAACAACGCCGAAAGTGAACGGCAGTACCAATGGGAACAGACCATCGGCACCCTTAGCCGCCTCGAGCTGCGCGTGAAGATGCTGTCCGGCCTGGCGATGAACATCACCTTGCTGATCCAGCAACTGGCCGGGGTGATCATGATCGTCTTCGGCGTCTACCAGATCATCGCCGGCAACCTGAGCATGGGTGGGCTGATCGCCTGCTACATGCTCAGCGGCCGCGCACTGAGCCCATTGGCCTCGTTGTCGGGCCTGCTGACCCGCTACCAGCAAGCGCGGGTCACCATGACTTCCGTCGACCAGATGATGGAACTGCCCCAGGAACGCAATTTCGACGAGCGCCCGCTCAGCCGCAAGGTGTTGCAGGGCGCCATTGAATGTCGGCAATTGAATTTTACCTATCCGAACCAGCAGAACGCCGCGCTGAAGAACATCAACCTGGTGATCAAGCCGGGCGAAAAAATTGGCATCATCGGCCGCAGCGGCTCGGGCAAAAGCTCTCTGGCAAAACTCCTGGTGGGGCTTTACCAGCCGGATGACGGCGCGTTGCTGGTGGATGGCGTGGACATTCGCCAGATCGACGTCAGCGAGCTGCGCTACAACATCGGCTACGTGCCCCAGGACATCCAGCTGCTGTCCGGAACCCTGCGCGACAATCTCACTTCAGGTGCCCGCTACGTCGAGGATGAATTGGTGCTTCAGGCCGCGGAGCTGGCAGGCGTACACGAATTCGCCCGCCTGCATCCGCAAGGCTATGAGCTGCAAGTCGGTGAGCGCGGGCAGAACCTGTCCGGCGGCCAGCGCCAGAACGTCGCCCTGGCTCGCGCGTTGCTGCTCAATCCGCCGATCCTGCTCCTGGACGAACCTACCAGCGCGATGGACAACACCGGTGAAGAGCGCTTGAAACAGCGCCTGGCCGCCGTGGTGGAAAACAAGACCGTGCTGCTGGTGACGCACCGGGCATCCTTGCTGTCGCTGGTGGACCGCCTGCTGGTGATCGACCGCGGGCAGATTCTCGCCGACGGCCCGAAAGCCGCCGTCATGGAAGCGTTGAAGAAGGGGCAGATCAGTGTTGCTTAA	MESEVSPVELVHDPRTLHDDPLLDGLLALCMLHQKPASAAMLTTGLPLPKQRLSVDLLSRAAARAGLQGRVLQRKLEQIPAIAMPALLLLKEGRSAVLLGWAGDDQARLLLSESDGGEVTVSRELLADDYSGKVFFAQPQHKFDVNHGTLIPRARSWFRDTLKRSRWLYADAIAASLLINIIAMAAPLFVMNVYDRVVPNQAESTLWVLAVGITGAYIFDLILKMLRSLCLDLAGKKTDLIISATLFERIVGMAMKYRPARVGSFAQNIHEFQSLRDFLASLTLTSLIDLPFTLLIFMVIAILGGHLVWIPVLAFPIALLIGYALQKPLVATMERTMALGAERQSSLIETLAGLDAVKVNNAESERQYQWEQTIGTLSRLELRVKMLSGLAMNITLLIQQLAGVIMIVFGVYQIIAGNLSMGGLIACYMLSGRALSPLASLSGLLTRYQQARVTMTSVDQMMELPQERNFDERPLSRKVLQGAIECRQLNFTYPNQQNAALKNINLVIKPGEKIGIIGRSGSGKSSLAKLLVGLYQPDDGALLVDGVDIRQIDVSELRYNIGYVPQDIQLLSGTLRDNLTSGARYVEDELVLQAAELAGVHEFARLHPQGYELQVGERGQNLSGGQRQNVALARALLLNPPILLLDEPTSAMDNTGEERLKQRLAAVVENKTVLLVTHRASLLSLVDRLLVIDRGQILADGPKAAVMEALKKGQISVA	PGPT0022225_884	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ADHESIN_TRANSPORT,PGPT0022225-lapB-K12541	NA	NA
D1-35_03092	1368	prsE_3		Type I secretion system membrane fusion protein PrsE	GTGTTGCTTAAATCCGGTTTCAAGGGCGCTGTGGGCCGTTACTTCAAAGGTTCCGACTCGCTGCATGGCCAACCGCTGCCCGAAGTCAACAAGGCGCTGATCGAGGACGCCCCCCGCGTGGTGCGCCTGACGATCTGGGGCATCATCGGTTTTTTCGTGTTCCTGGGGCTGTGGGCCAACTTCGCCGAGATCGACGAAGTGACCAAGGGCGACGGCAAGGCGATTCCTTCGTCCAAGATTCAGAAAATCCAGAACCTGGAAGGCGGTATCGTCGCCGAGCTGTTCGTAAAGGAAGGGCAGATTGTCGACGCCGGTGCGTCGTTGATTCGCCTGGACGACACGCGGTTTGTCTCCAACGTCGGCGAAACCGAGGCGGATCGCCTGTCCATGCTGTTGCGGGTCGAGCGCCTGAGTGCCGAGGTCGATGACCGACCGCTGAATTTCCCGGCTGATGTACTCAAGGCCGTACCGGGTCAGGCTGCCAGCGAAGAATCGCTGTACATCAGCCGCCGCCAGCAGTTGCACGATGAAATCGGCGGCTTGCAGGAGCAGTTGATCCAGCGGCAGCAGGAATTGCGCGAGTTCGTCTCCAAGCAGTCGCAATACCGCTCCGGCCTGGCGCTGCAACGCCAGGAAATCAACATGTCCGAGCCGCTGGTGGCCCAGGGCGCGGTATCGCCGGTGGAAGTGCTGCGGCTCAAGCGCGCCGAGGTCGAGACCCGTGGGCAACTGGACGCGACGACGCTGGCGATTCCTCGCGCCGAGTCGGCGATCAAGGAAGTGCAGCGCAAGATCGACGAGACTCGTGGCAAGTTCCGCAGCGAGGCACTGACCCAGCTCAATGAGGCGCGCACCGACCTGAACAAGGCTCAAGCCACCGGCAAGGCCCTGGAGGACCGGGTGAGCCGTACCCTGGTGACATCGCCGGTGCGCGGCATCGTCAACAAACTGCTGGTCAACACCATCGGCGGGGTAATCCAGCCCGGTAGCGACCTGGTGGAAATCGTGCCGCTGGACGACACCATTCTGGTGGAGGCGAAGATCCGTCCCCAGGACATCGCCTTCCTGCACCCCGGCCAGGACGCCACGGTGAAATTCACCGCCTACGACTACACCATCTACGGCGGGATGAAAGCCAAGCTGGAACAGATCGGCGCCGACACCATCACTGATGAAGACAAGAAAACCACCTACTACATCATCAAGTTGCGCACCGAACGCAGCCACCTGGGCACGCCTGAAAAGCCCTTGCTGATCATCCCCGGGATGGTGGCGTCGGTGGATATCATCACCGGCAAGAAGACCGTGCTGAGCTACCTGCTCAAGCCCATCATCAAGGCCCGGGCCGAGGCGTTGCATGAGCGGTAG	MLLKSGFKGAVGRYFKGSDSLHGQPLPEVNKALIEDAPRVVRLTIWGIIGFFVFLGLWANFAEIDEVTKGDGKAIPSSKIQKIQNLEGGIVAELFVKEGQIVDAGASLIRLDDTRFVSNVGETEADRLSMLLRVERLSAEVDDRPLNFPADVLKAVPGQAASEESLYISRRQQLHDEIGGLQEQLIQRQQELREFVSKQSQYRSGLALQRQEINMSEPLVAQGAVSPVEVLRLKRAEVETRGQLDATTLAIPRAESAIKEVQRKIDETRGKFRSEALTQLNEARTDLNKAQATGKALEDRVSRTLVTSPVRGIVNKLLVNTIGGVIQPGSDLVEIVPLDDTILVEAKIRPQDIAFLHPGQDATVKFTAYDYTIYGGMKAKLEQIGADTITDEDKKTTYYIIKLRTERSHLGTPEKPLLIIPGMVASVDIITGKKTVLSYLLKPIIKARAEALHER	PGPT0022230_396	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ADHESIN_TRANSPORT,PGPT0022230-lapC-K12542	NA	NA
D1-35_03093	903	tauD_1	COG2175	Alpha-ketoglutarate-dependent taurine dioxygenase	ATGCCAGCCGTCTCTTTTTCTCCAGACTCAAATGCCGCGAACATCGCGCCGCAATCATTCGAAGTACGCCCATTCAGCGGTGCCGTAGGTGCCGAGATCGTCGGGCTGGACCTGTCGCGGCCGATCAACCATCAGGATTTCGCGCGCATCCACCGCGCTCACCTGGACTATCACGTCGTGGTGTTCCGCGATCAGCGCATCACTCCCGAGCAGCACATCGCTTTCAGCCGCCGTTTTGGCGTGCTGCAAATCCATGTGCTCAAGCAATTCCTGCTGGCCGGGCATCCGGAAATTCTCATCGTCTCCAACATCATCGAGAACGGCCAGTCCATCGGTCTGGGAGACGCCGGCAAGTTCTGGCATTCGGACCTTTCCTATAAGGAACTGCCGAGCCTCGGCTCGATGCTCCACGCCCAGGAGCTGCCGAGCGAGGGCGGCGACACGCTGTTCGCCGACATGCACAAGGCCTGGGACGGTTTGCCCGAAACACTGCGTAAAGCGATCGAGGGCCGTTCGGCGGCGCATTCTTACACCGCGCGTTACAGCGAGACCAAATTCGAAGGCAACTGGCGCCCGACGCTGACGCCTGAACAGTTGGCCCAGGTCGCCGAAGTCGTGCATCCGATCGTCCGCACCCACCCGGAAACCGGGCGCCAGGCGCTGTTCGTCAGCGAAGGCTTCACCACCCGCATCGTCGGCCTGCCGGAGGATGAAAGCAAAGCCATCCTGGCCGAGCTGTATGCCTACAGCGTGCTGCCCCAGAACATCTATCGCCATCAATGGCAGCCCCACGACCTGGTGTTCTGGGACAACCGCTCGCTGATCCACCTCGCCGCCGGATGCCCGAGCCATCTGCGCCGCAAGCTGTATCGCACCACTATCCAGGGCGACGCCCCTTTCTGA	MPAVSFSPDSNAANIAPQSFEVRPFSGAVGAEIVGLDLSRPINHQDFARIHRAHLDYHVVVFRDQRITPEQHIAFSRRFGVLQIHVLKQFLLAGHPEILIVSNIIENGQSIGLGDAGKFWHSDLSYKELPSLGSMLHAQELPSEGGDTLFADMHKAWDGLPETLRKAIEGRSAAHSYTARYSETKFEGNWRPTLTPEQLAQVAEVVHPIVRTHPETGRQALFVSEGFTTRIVGLPEDESKAILAELYAYSVLPQNIYRHQWQPHDLVFWDNRSLIHLAAGCPSHLRRKLYRTTIQGDAPF	PGPT0002940_405	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002940-tauD-K03119	NA	NA
D1-35_03094	1026			hypothetical protein	ATGTCCAAACGCATCGCTTTTGCACCGCTGGCTGCGGCTATCGGCCTGGGGTTCAGCTTGCTCGCTGGCAGCCTGGTCGCGCCGGCCAGCGCCCAGGCCGAGGGCGAGATTCGCATCGCCGAGCAGTTCGGCATCGTCTACCTGCTGCTGAACGTGGTCCGCGACCAGCAATTGATCGAGAAACACGGCAAGGAGGAGGGCATCGACATCAAGGTCGACTGGACCCAGCTGTCCGGCGGTGCGGCGGTCAACGATGCGTTGCTGTCAGGCTCCATCGACATTGCCGGGGCCGGCGTCGGCCCGTTACTGACGGTCTGGGATCGCACCCGTGGCAAGCAGAACGTCAAGGCCGTGGCCTCCCTGGGCAACTTTCCCTATTACCTGTTAAGCAACAACCCGAACGTCAAGACCATCGCCGACTTCACCGAGAAGGACCGCATCGCGGTGCCGGCGGTGGGCGTGTCGGTGCAGTCACGTTTCCTGCAGTACGCCGCCGCGAAGCAGTGGGGCGACAAGGAGTTCAATCGCCTCGACAAGTACACCCTGGCCGTCCCGCACCCGGACGCCACGGCCGCGTTGATTGCCGGCGGCACCGAGTTGACCGGGCACTTTTCCAACCCGCCGTTCCAGGACCAGGCCCTGCAAAACCCCAACGTTCATGTGGTGCTCAACTCCTATGACGTGCTCGGGCCGAATTCGCCCACGGTGCTGTTCGCCACCGAGAAATTCCGCGATGAAAACCCAAAAACCTACAAGGCCTTCGTCGAAGCGCTGACCGAAGCGGCCGAGTTCGCCCAGAAAGACAAAGGCGCGGCGGCGGACACCTACCTGCGCGTGAGCAAGGCCAAGATCGACCGGGCGACTCTGCTGAAGATCATCAAAAACCCGCAGATCGAATTTACCGTCACGCCAAAAAACACCTACCCGCTCGCCGAATTCCTCTACCGCGTCGGCGCCATCAAGAACAAGCCGGCCTCCTGGGAAGACTACTTCTTCCAGGACGCCAAACCGCTGCAGGGGAGCTGA	MSKRIAFAPLAAAIGLGFSLLAGSLVAPASAQAEGEIRIAEQFGIVYLLLNVVRDQQLIEKHGKEEGIDIKVDWTQLSGGAAVNDALLSGSIDIAGAGVGPLLTVWDRTRGKQNVKAVASLGNFPYYLLSNNPNVKTIADFTEKDRIAVPAVGVSVQSRFLQYAAAKQWGDKEFNRLDKYTLAVPHPDATAALIAGGTELTGHFSNPPFQDQALQNPNVHVVLNSYDVLGPNSPTVLFATEKFRDENPKTYKAFVEALTEAAEFAQKDKGAAADTYLRVSKAKIDRATLLKIIKNPQIEFTVTPKNTYPLAEFLYRVGAIKNKPASWEDYFFQDAKPLQGS	PGPT0001135_3781	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
D1-35_03095	861	cmpD_2		Bicarbonate transport ATP-binding protein CmpD	ATGAACGCGCCATTGCCAGGCCACGCGGCCAGCAACGCCACCCGCACCGACACCGCGCTGTTGTCGGTGGATAACGTCAGCCTGGAATACCGCACCCCGCAGCGTGTAGTCCGCGCCACCCATCAAGTGAGTTTCGAGGTCGATCCGGCGGACCGCTTTGTACTGCTCGGCCCGTCCGGGTGCGGCAAGTCCACGTTGCTCAAGGCCATTGGTGGTTTCATCACTCCGTGTGAAGGCGAGATCCGCCTGCAAGGCCAAATCGTCAGCGCGCCAGGGCCGGACCGGATTGTGGTGTTCCAGGAGTTCGATCAGCTGCCGCCGTGGAAAACCGTTAAGCAGAACGTGATGTTCGCGCTGCTGGCGTCGGGCACGCTCAAACGTCGCGAGGCCGAGGAGCGGGCGCTGCACTACCTCGATAAAGTCGGGCTGGCAGCGTTTGCCGATGCTTATCCGCATACCTTGTCTGGTGGGATGAAGGCACGCGTCGCGATTGCCCGGGCGCTGGCGATGCAACCGAAGATCCTGCTGATGGACGAGCCGTTTGCGGCGCTGGATGCGCTGACCCGCCGCAAGATGCAGGAGGAATTGCTGCTGCTCTGGGAGGAGGTGCGCTTCACGCTGTTGTTCGTTACCCATTCCATCGAAGAAGCGCTGGTCGTGGGCAATCGCATCCTGCTGCTGTCACCGCATCCGGGGCGGGTCCGGGCGGAAATCCACAGCCATCAATATGATCTGCACAGCCTTGGCGGCGTCGGGTTCCAGCACACGGCGCGGCGGATTCATTCGCTGCTGTTCGAACAAGGCCAGTCGCCGGACGCTGAACGCGAGCTGGGTTTTGCCGACATTCGTATCGCGTACTGA	MNAPLPGHAASNATRTDTALLSVDNVSLEYRTPQRVVRATHQVSFEVDPADRFVLLGPSGCGKSTLLKAIGGFITPCEGEIRLQGQIVSAPGPDRIVVFQEFDQLPPWKTVKQNVMFALLASGTLKRREAEERALHYLDKVGLAAFADAYPHTLSGGMKARVAIARALAMQPKILLMDEPFAALDALTRRKMQEELLLLWEEVRFTLLFVTHSIEEALVVGNRILLLSPHPGRVRAEIHSHQYDLHSLGGVGFQHTARRIHSLLFEQGQSPDAERELGFADIRIAY	PGPT0001140_1244	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
D1-35_03096	867			hypothetical protein	ATGAGCCAGTTATCGCCTGCGCGCGAAGAATACGAAGTCGATCTGCAACCGCTGACCCACGTGCCACTGGAGCGGGAATTGCCCCTGGGCCAGCGCCTTTGGCAGCAGGGGTGGTTGCGTAAATGTTTGATCCTGTTGGTGCTGGCGCTGGTATGGGAGGGCGTGGCGCGTTACCAGAACAACGACCTGTTGCTGCCGAGCTTTTTGCAGACTGCCAGCGCGCTGTATGACGGTTTGCTCAGTGGCGAGTTGCTGGGCAAGGTGTGGATTTCCCTGATGGTGCTGCTCAAGGGTTATTTGCTCGGCATCGTCCTGGCGTTTGGCTTGACCACCCTGGCGGTGTCGACGCAGTTGGGGCGTGACCTGCTCAGCACCCTGACGTCGATGTTCAACCCGTTGCCGGCCATCGCGCTGTTGCCGTTGGCGCTGCTGTGGTTCGGCCTGGGGCAGAACAGCCTGATTTTTGTATTGGTGCATTCGGTGCTGTGGGCGCTGGCATTGAACATGTATGCGGGGTTTCTCGGCGTGTCGGAAACGCTGCGCATGGCCGGGCGCAACTACGGGCTCAAGGGCCTGCGCTTTGTGCTGTTCATCCTGATTCCGGCGGCGCTGCCGTCGATCCTCGCCGGGCTGAAAATCGGCTGGGCCTTCGCCTGGCGCACGCTGATCGCCGCCGAACTGGTATTCGGCGCCACCAGCGGCAAGGGCGGCCTGGGCTGGTACATCTTCCAGAACCGCAACGAGCTGTACACCGACAAGGTCTTTGCCGGGCTGGCGGTGGTAATCCTCATCGGGCTGCTGGTAGAGAACCTGGTATTCGACAGCCTGGAACGGGTGACGGTGAAGCGTTGGGGGATGCAGCGTTGA	MSQLSPAREEYEVDLQPLTHVPLERELPLGQRLWQQGWLRKCLILLVLALVWEGVARYQNNDLLLPSFLQTASALYDGLLSGELLGKVWISLMVLLKGYLLGIVLAFGLTTLAVSTQLGRDLLSTLTSMFNPLPAIALLPLALLWFGLGQNSLIFVLVHSVLWALALNMYAGFLGVSETLRMAGRNYGLKGLRFVLFILIPAALPSILAGLKIGWAFAWRTLIAAELVFGATSGKGGLGWYIFQNRNELYTDKVFAGLAVVILIGLLVENLVFDSLERVTVKRWGMQR	PGPT0001145_2736	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
D1-35_03097	489			hypothetical protein	ATGCCAGTCCCTCCCAGCCCCCTTCGCAAAGCCCTGGTCGTTTGGCTGTACGCTGCGGCCCTGATGCATCTGCTCGCCGGTCTTACGCTGACCTGGGCCGGTCACTCCGGCTTGCTCGATGATTACCTGAACACCATCGAGCAGGCGTTCTGGGGGGCGGACATCGTGCCGGTTACCGTCCGCACGCAACAAGTCTGGTGGCTGGCGCTGTTCGGCGCCACGTTGCAAAGCTATGCGTTGTACATGCTCGCCCTGGTCCATCTCGGCGATCGCCTGAAAACTGCCATGCCCTGGGGCTGGCTGATCGTCGGCATTCTGCTCTGGGCGCCTCAGGACATGCTGGTTTCCGCCCAGGCGCGGGTCTGGTCGCACCTGTGGTTCGACAGCTTTGCATTACTTGTTTTACTGCCGCCGCTGTTCTGGCTTTATCGCCATGACCGCCGCCCCGCCCTGACCGACAACACATCGAGTGAGTCGAACCATGCCTGA	MPVPPSPLRKALVVWLYAAALMHLLAGLTLTWAGHSGLLDDYLNTIEQAFWGADIVPVTVRTQQVWWLALFGATLQSYALYMLALVHLGDRLKTAMPWGWLIVGILLWAPQDMLVSAQARVWSHLWFDSFALLVLLPPLFWLYRHDRRPALTDNTSSESNHA	PGPT0014730_187	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014730-yfhF-K07071	NA	NA
D1-35_03098	1443			hypothetical protein	ATGCCTGATTTTTCGTCGCTGGACTGGGCCATTGCCCTGCTGATTGCCCAGGCCATCCTCGGTGCGCTGGATACCCTGTATCACCATGAACTCACCGTTGCCTTGCCCTATCGCCACAGTGCGCGGCTGGAACTCTCCATCCACTCCCTGCGCTCGTGTTTCTACGGGATCCTGTTCCTGGGTATCGCGCATCTGGCCTTCGAAGGGACATGGGCGATCGTCATCGCGCTGCTGTTCGCCCTGGAGATCGGCCTGACGCTGTGGGATTTCGTGGTCGAGGACCGTAGCCGCAAACTGCCGCCCATCGAGCGCATCATGCACACCGTGCTGGCGGTCAACGGTGGGGCCTTCTTCGCGCTGTATGGCGTGCAACTGGCGCAGTGGGCGAGCCTGCCGACCGGCCTGAGCACGATCGACCTGGGCTGGCGCGGCTGGCTGCTGACGTTGTTTGCCATCGGCGTCACCGCCTCGGGCATTCGCGACGGCTTGGCCGCCTTGCGCATGCAGCGCCAGGGCAAGCCGGGCAACCCGTTTGCCGGTGGTGCCTACAAGCGCGTGCTGGTCACGGGAGGCACCGGGTTTATCGGCGAGACCCTGGTCAATCAGTTGCTCGATGCCGGGCACACGGTCACCGTGTTGGCCCGCGATCCATTGAGGGCGGCCTATCTGTTTGACGGCCGCGCCCGCTGCGTGCGTTCGCTGGGCAAGCTGGGCCATGACGAAACCTTCGATGTACTGATCAACCTGGCGGGCGCGCCGGTGGCCGGGCCGCGCTGGAGCCCGAGGCGCCAGGCGCAACTCATCGCCAGCCGGGTCGATACCACCGAAGCCTTGATGACATGGTTGAAGAACGCCCGGCACAAACCGGCGTTGTGGATTCAAGCGTCGGCCATCGGTTTTTATGGCGTGCGCGACGCCAGCGAAAGCCTCGATGAAAGCGCCAGCCAGGGCGATGGTTTCATGGCCGAACTCTGTTCGCGTTGGGAAGCCTCTGCGCGGCCCGCAACCGAGTTGGGCGTGCGACAGGTGGTGATGCGCCTGGGCGTGGTGTTCGGTCCGGGCGGTGCGTTGCTGCCGTTGCTGATTCCGTTTCGCTTGGGGTTCGGTGGGCGGATGGGCGATGGTCGGCAAATCATGAGTTGGGTGCACCGCGACGATGTGATCCAGGTGATCGCCCGTGCCTTCGAGGACGAAAGCCTGAGCGGCACCTACAACCTGGTAGCGCCGGAAACGGTCAGTCAGGCGCTGTTCGCCGAACGTGTCGGCAAGGCGCTCAAACGCCCTGTGTGGTTCCACATCCCGGCCGCGCCGGTGCGCGCCCTGGCTGGCGAGATGGCCCAGCTGTTTTTTGACGGCCAGCGCGTGGTGCCCGATCGTCTCGTTCAGGCCGGTTATACGTTCCGTTACCCCACACTTGACGCTGCCCTGCGCGACCTGGCCTGA	MPDFSSLDWAIALLIAQAILGALDTLYHHELTVALPYRHSARLELSIHSLRSCFYGILFLGIAHLAFEGTWAIVIALLFALEIGLTLWDFVVEDRSRKLPPIERIMHTVLAVNGGAFFALYGVQLAQWASLPTGLSTIDLGWRGWLLTLFAIGVTASGIRDGLAALRMQRQGKPGNPFAGGAYKRVLVTGGTGFIGETLVNQLLDAGHTVTVLARDPLRAAYLFDGRARCVRSLGKLGHDETFDVLINLAGAPVAGPRWSPRRQAQLIASRVDTTEALMTWLKNARHKPALWIQASAIGFYGVRDASESLDESASQGDGFMAELCSRWEASARPATELGVRQVVMRLGVVFGPGGALLPLLIPFRLGFGGRMGDGRQIMSWVHRDDVIQVIARAFEDESLSGTYNLVAPETVSQALFAERVGKALKRPVWFHIPAAPVRALAGEMAQLFFDGQRVVPDRLVQAGYTFRYPTLDAALRDLA	PGPT0014730_109	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014730-yfhF-K07071	NA	NA
D1-35_03099	2436			hypothetical protein	ATGAGCAAGCCGAGGATGTACCTGCTGGCCGGCAACGGTAGCGCTGCCGATTGGTGGGACGACGCGTTGCCGCACTTCAAACGCTACGACGTGGTGCCGCTGGAGCTGCCCGGTTTCGGCGACAACCCTCAGGCTCCTTGTGAAGACCTGGCGGCCTACGCACAGGCGTTGCTCGCGGCAACGGTAAAGGGCAGCGCGATCATGGCGGTCGGGGTGAACGCCTTGCTGGTGCTGCACGCCTTGCAACGCCGGCCCGGACACTTTTGCCGCAGCGTTTTGCTGGCGCCGGTGGGTGCGTTCTTGTGGCAGCGACGATTGCCGGCGCTGATGTCGCCGCTGCCGATTCGCAAGACCATCCACTGGCTGCTGGCGAACAAGCCAAGGCTGTTCGCCCACAAGTTCTCCCGCCAGCAATGGACGCCCGCGCAGTACCAGCGCATGGGCGCCGGCTATGCCCGCTGCCGGGCCTTTGTGCCGCATTGGGATCTGGTGCGCGCCGACACCGCGTTGCCGTTGCTGGAGTGGATCAGCGACCCGGTCGAACTGGTATGGGGCGATCAGGACAAGATGCTCGGCATCGCCCAGGCAGCGGCATGGTCAGCCATTCTCGCCCGCGCCGACTTGACCATCAGCTTGAAGCCCGGTTGGGGCCACTACCCGTGGATCGACTCACCAGCTGAATTCGCCGCCTGGCTGGAGTCCGGCGAGCGCGGGTTCGTCGCGCACACCAAAGGCGGCCGCTTGCGCCTGGCGGAGCTGGCCGGGCAGCCGGTGCCAGCGGCACTGTCACTCAACGATTGTCATGATCCACGCTTGCCAGGATTTTTGAGCAGCCAGCCGGATGCTGCCTGGGCCGTGCGTTCCTCCAGTTACGGGGAGGATCAGGCCGATGCGGCCAATGCGGGCTTGAGCACCACCTACTTGCGCGAGCCGACACACAATGTGCCGACACGCATTGCCGAGCTGAGCGCGGCGGGTGTCGAGGAAGTGGTGGTGCAGCGTTTCATCACGCCACGACTGTCCGGGATCGCCTTTGTGCGTCACCTTTCGGTTGAGCTGGAATGGGTCGAAGGCCATCTGGAGCCGTTGGCCGATGGCAAGGTGAGCCCTGAGCGAGCGATCATTTCCCGTCTCGGCGAGTCTTGGAACAGCGGCACATTCACGCCGGCCCATGGCCTGACCGCCGAAGCGCTGTGGCAGTTTCTCCAAGGCGTGCTGCGGGTCTTCCACTACGTGCCCGGCGATGTTGAATGGGCCTGGGACGGCACGCAACTCTGGTTGCTGCAATACCGGCCGATCAGCGACTACGGCTGGCGCCGTCACCTGACCGCCGCCAACATCGCCGAGATCCTGCCGCCACAACCCAGCGTTCTGGTGGAGTACGCCCAGCGTCGCGCGGCGGCAAGCATTCCGGCGATCATGGCGCGTTGGGATTCACGGATTTTGCAGGACAACGAGCCTTTCACCGCGGTGTTTGGCGGCGCCTCGTATATCAACAACGACCTGTTTCTCGCCCGGCTGGCCGACTGGGGCGTCAGCGCCAGCAGCTATGCCGGCGAGGTCGGTGGGGCAACGCCGCACTTGCCTTGGCGGCCGCTGCGCCTGCTGCGGTCGCTGCCGTTGTTTTTGCGCATGCAGCGTATCGCTCGCGGGCATCTGCTTACCTTGGAAAACGGTTTGCGCCGTTTCGACCGAGAGCTGCACGAACTGACCGGACAAGGCGCTGGCGGCCAGCAACTGGCCGACTGGTTTACTCGCTTCTACGTGTTCGTGGTGCAGGGCAACCTGTGCATCGCCAGCGCCTTGGCCAGCAGTGGCGGCGACTGGCTGGGACGACCGCCGACCGCCTATGACAATCTCGAACACAGCCCTCATCGCTTGCCTTGGGAAACCGATCCGGCAACGCCACGTCCGGCGCCAACGGAGCTGGCATTGCAACCCTTCCCGCAATGGCCGTTGGCGATTCGCCTGGCCCATGGCGCCGGCCTGCCAGGGCTGCGCGGTTACTATCTGCAGGTGCGCGAATGGTATCGCGACAACCTGATGCGGATCTTTTTCCGCCTGCACCACGCCATGCCGAGCGCCGACCGCGAGCATTGGTTCGCGCCGCACCGGGACATCCGCAGCCGCGACGGCAGCTTCTGGCAGGACGGCCGCGAAGGCACAGAGCAGGCGAGCGGATTCCTGATCTACCCGGGCCAGGCCCAGGGCATCCTCGGCGAGGACATCCTGCTGGAAGACACCCTGGACCCAGGCCGCCATGCTCACTATCAAGGCGCCCGCGCCGTGATCGCACGCATGGGCGGCCGCCTGTCCCATGGCTCGACGTTGTTGCGTGAACTGCGCAAACCTTCGGCGGTACTGCCTCAAGTAGACGTGGGATGGTTGGGGCGTGAGGTGGTGTATTGCGATGGGGAGTTGAGGCTGGTGGAGTAG	MSKPRMYLLAGNGSAADWWDDALPHFKRYDVVPLELPGFGDNPQAPCEDLAAYAQALLAATVKGSAIMAVGVNALLVLHALQRRPGHFCRSVLLAPVGAFLWQRRLPALMSPLPIRKTIHWLLANKPRLFAHKFSRQQWTPAQYQRMGAGYARCRAFVPHWDLVRADTALPLLEWISDPVELVWGDQDKMLGIAQAAAWSAILARADLTISLKPGWGHYPWIDSPAEFAAWLESGERGFVAHTKGGRLRLAELAGQPVPAALSLNDCHDPRLPGFLSSQPDAAWAVRSSSYGEDQADAANAGLSTTYLREPTHNVPTRIAELSAAGVEEVVVQRFITPRLSGIAFVRHLSVELEWVEGHLEPLADGKVSPERAIISRLGESWNSGTFTPAHGLTAEALWQFLQGVLRVFHYVPGDVEWAWDGTQLWLLQYRPISDYGWRRHLTAANIAEILPPQPSVLVEYAQRRAAASIPAIMARWDSRILQDNEPFTAVFGGASYINNDLFLARLADWGVSASSYAGEVGGATPHLPWRPLRLLRSLPLFLRMQRIARGHLLTLENGLRRFDRELHELTGQGAGGQQLADWFTRFYVFVVQGNLCIASALASSGGDWLGRPPTAYDNLEHSPHRLPWETDPATPRPAPTELALQPFPQWPLAIRLAHGAGLPGLRGYYLQVREWYRDNLMRIFFRLHHAMPSADREHWFAPHRDIRSRDGSFWQDGREGTEQASGFLIYPGQAQGILGEDILLEDTLDPGRHAHYQGARAVIARMGGRLSHGSTLLRELRKPSAVLPQVDVGWLGREVVYCDGELRLVE				NA	NA	NA	NA	NA
D1-35_03100	246			hypothetical protein	ATGGAATCCCCAGTCCATACGCTGCCCGCGTTATTCAAACAACTCGGTCTGCCCGACGACGCCGTCAGCATCGATCAGTTCATCGCCAGCCACTCGCCGCTCAAGCCCGAGCTGCACCTGTCCGATGCGTTCTTCTGGAGCGAGGGCCAGCGACAGTTGCTGCGCGTCGAAATCCTTGAAGATGCCGACTGGGCGTTGGTGGTAGATCAACTCGACGTGCTGTTGCGCAAGGGACGGAGCGAGTGA	MESPVHTLPALFKQLGLPDDAVSIDQFIASHSPLKPELHLSDAFFWSEGQRQLLRVEILEDADWALVVDQLDVLLRKGRSE				NA	NA	NA	NA	NA
D1-35_03101	582			hypothetical protein	ATGCGCAACGAATCGATTCGCTACCTGATTGTGCCGGGCTGGCAAGGATCGCCGGAAAATCATTGGCAAACCCACTGGCAGAACAGTCTGCCCAACAGTGCCCGGGTCGAGCAGGCTGACTGGCTGACGCCACGGCGTGAAGATTGGGTCGCCGCGCTGGCCGAAGCCATCGCCAGCGACAGCACGCCAGTGATCCTGATCGCCCATAGCCTGGGTTGCATCACCGTGGCCCATTGGGCCGCCACCGCGCCGGTGCCATTCCTGCGGCAGGTGCGTGGCGCGTTGCTGGTGGCGCCGGCGGATGTCGAGCGGCCCGCTTGTGCCCCGGCGCTACGCAACTTCGCGCCGATTCCCACGGACCTGTTGCCGTTTCCCAGCCAAGTGGTCAGTTCCGACAACGACGCGGCGGTCAGTGCCGCGCGCGCCATGGAGCTGGCGCGGAGTTGGGGGGCCGAGGCCGGGATCCTGGCCGGGGCGGGGCACATCAATGTGAAGTCCGGCCACCAGCGCTGGGAGCAGGGTTTCGCTTATCTCTATCGTTTGCAAAACCGCATGGAGCATCACGCCCTGCGTCGCGCCTGA	MRNESIRYLIVPGWQGSPENHWQTHWQNSLPNSARVEQADWLTPRREDWVAALAEAIASDSTPVILIAHSLGCITVAHWAATAPVPFLRQVRGALLVAPADVERPACAPALRNFAPIPTDLLPFPSQVVSSDNDAAVSAARAMELARSWGAEAGILAGAGHINVKSGHQRWEQGFAYLYRLQNRMEHHALRRA				NA	NA	NA	NA	NA
D1-35_03102	936	sfnR_1	COG1221	Sigma54-dependent transcriptional activator SfnR	ATGAGCCTGCATGAAACCTTCGGTCAGCCCTTGCTGACCTTTCCCGACTCGGAAAAAAGCCCCCTGAGCATCCGTGCCAAGGCACTGGTGTTCGTCGACCCGCGTTCGCGGCAGTTGCGCCAGGAATTGGAACAACTGGCGCCACGGGCGATTTCGGTGCTGATTCGCGGCGAAACCGGCACCGGCAAGGAGCTGCTGGCCCGGCATATCCATCGCGAGAGCAATCGCGGTGGGCTGTTTGTTTCGGTCAATTGCGGCGCTATCAGCCCGACCTACGCCGACGCCGAATTGTTCGGTTATTCCGCCGGCAGTTATAGCGGTTCGGCCAGCAGTCGGGCCGGGTGGTTCGGCTCGGCCAACGGCGGCACGCTCTACCTGGATGAGATCGGAGACCTGCCGCTGCCGATCCAGATCAAGTTGCTGGCGGCGCTGGAAAACCATGAGGTCACGCGTGTCGGCGCCCAACAACCGAGCCCGGTGGACGTGCGCCTGGTGGCGGCCACCAGCATTGATCTGGCGCAAGCGGTGGACGCCGGAAAATTTCATGACCGGCTTTATCACTATCTGAGCGAGGGGCAGCTCGAGTTACCCGCCTTGCGCGAAAGGGTGGGCGATATCCTTTCCCTGGCCGAATACTTCCTGGGCATCTACAGCCAGCGCCTTGGCCTGGCCGTGCCGCTGATCAGTGCAGCGGCGCAACGGGAGCTTGAACGCCACAGCTGGCCGGGCAACACCCGCGAGTTGGAGAACGTTATTCATTTTGCATTGCTGGTGAGTGCCGGCGATGAGATTTTGCCGGAGCATTTGAATTTGCCGTCCCAGCTTTCAGCCCTGGAACTGGTCGAACGGCAGGTGGAGCAGGTTATTGCACAGGGCTCGCAAGCTGAGCGCACCGCCCTCAAGGCGCTGCTCGATCGACTGGTCCAAACGCTATAG	MSLHETFGQPLLTFPDSEKSPLSIRAKALVFVDPRSRQLRQELEQLAPRAISVLIRGETGTGKELLARHIHRESNRGGLFVSVNCGAISPTYADAELFGYSAGSYSGSASSRAGWFGSANGGTLYLDEIGDLPLPIQIKLLAALENHEVTRVGAQQPSPVDVRLVAATSIDLAQAVDAGKFHDRLYHYLSEGQLELPALRERVGDILSLAEYFLGIYSQRLGLAVPLISAAAQRELERHSWPGNTRELENVIHFALLVSAGDEILPEHLNLPSQLSALELVERQVEQVIAQGSQAERTALKALLDRLVQTL	PGPT0030455_23	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_REGULATION,PGPT0030455-sfa3-K11917	NA	NA
D1-35_03103	783	metQ_2	COG1464	Methionine-binding lipoprotein MetQ	ATGAAAAAGGTTCTGTTGTTCACCGCATTGGCGGCAGCCCTGACCTCGGGCCTGGCCCAGGCGGCGGAAAAGCTGGTCGTGGCTGCCACACCGGTACCCCACGCTGAAATCCTCGAGCTGATCAAGCCGGCCCTGGCCCAAGAAGGCGTGGACCTGGAAATCAAGGTGTTCACCGACTACGTCCAACCCAACGTACAGGTTGACCAGAAGCGCCTTGACGCCAACTACTTCCAGACCCTGCCTTACCTCAAGAGCTTCAACGAAGGCAAAGGCACAAACCTGGTGACGGTGATCGGCGTCCACGTCGAACCGTTTGGCGGCTACTCGAAAAAAGTAAAAAGCCTGGCTGAGCTGAAAGACGGCGCGACCATCGCCATCCCTAACGAAGGCAGTAACAGCGGTCGTGCCCTGATCCTGTTGCAGAAAGCTGGCCTGATCAAACTCAAGGACCCGAAAAACGCCTTGGCAACGCCGAAAGACATCGCCGAGAACCCGAAGAACTTCAAGTTCAAGGAACTGGAATCGGCCATGCTGCCGCGTGTGCTGGATCAGGTCGACCTGGACATGATCAACACCAACTACGCCCTGGAAGCAGGTCTAAACCCGGCCAAGGATGCCTTGGTGATCGAGGGTTCGGATTCGCCTTACGTAAACTTCCTCGTGGCCCGTCCGGACAACAAGGACAGCCCGGCCATCCAGAAACTGGCCAAGGCGCTGACCAGCCCGGAAGTGAAGGCGTTCATCGAGAAGAAATACAGCGGCGCGGTGCTGCCGGCGTTCTGA	MKKVLLFTALAAALTSGLAQAAEKLVVAATPVPHAEILELIKPALAQEGVDLEIKVFTDYVQPNVQVDQKRLDANYFQTLPYLKSFNEGKGTNLVTVIGVHVEPFGGYSKKVKSLAELKDGATIAIPNEGSNSGRALILLQKAGLIKLKDPKNALATPKDIAENPKNFKFKELESAMLPRVLDQVDLDMINTNYALEAGLNPAKDALVIEGSDSPYVNFLVARPDNKDSPAIQKLAKALTSPEVKAFIEKKYSGAVLPAF	PGPT0020510_5340	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
D1-35_03104	666	glnP_3	COG0765	putative glutamine ABC transporter permease protein GlnP	ATGAACTTCGATTACGCTTTTATCCTCAGCACCCTCCCGGCGTTTCTCAAGGCCGTGGGCGTGACGCTGCAGGTGGGCCTTGTCGCCATCGTTACCTCGCTGCTGGTGGCGCTGTTGAACGCGACGATTCTGGTGTCGCGCACGCCTTACCTGCAACGCCTGGTCGGCCTGTATGTGGAGTTGGCGCGCAATACGCCGCTGCTGATCCAGTTGTTCTTCGTCTATTTCGCGTTGCCGGCGCTGGGTATCAAGATTTCGGGGTTTGCCGCAGCGATCATCACCATGACGTTCCTGGGCGGTGCCTACCTCACGGAAGTGCTGCGTGCGGGCGTGGACGCGGTGCCGCAGGCGCAATTGGAATCCGGTCGTTCCATTGGTCTGTCCCACGGGCAATTGCTGCGCTACGTGATTCTGCCGCAGGCCGGGATTCTCAGCCTGCCGTCGCTGTTCGCCAACTTCATTTTCCTGCTGAAGGAGACCACCGTGGTCTCGGCCGTGGCGGTGCCGGAGATTCTCTACACCACCAAAAGCTACATCGCGCTCTACTACAAGACTTACGAAATGCTCGCCGTGCTGACGTTGATCTGCGTGCTGTTGTTCTTGCCGCTGTCGCTGTTGCTCAGCCGTCTGGAAAGGAGGCTCCAGCATGGCCAGTTCGGGTCTTGA	MNFDYAFILSTLPAFLKAVGVTLQVGLVAIVTSLLVALLNATILVSRTPYLQRLVGLYVELARNTPLLIQLFFVYFALPALGIKISGFAAAIITMTFLGGAYLTEVLRAGVDAVPQAQLESGRSIGLSHGQLLRYVILPQAGILSLPSLFANFIFLLKETTVVSAVAVPEILYTTKSYIALYYKTYEMLAVLTLICVLLFLPLSLLLSRLERRLQHGQFGS	PGPT0020795_8373	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
D1-35_03105	660	glnP_4	COG0765	Glutamine transport system permease protein GlnP	ATGGCCAGTTCGGGTCTTGAGTTGTTGTGGGTGTCGTTGCCGCAACTGGGCAAAGGCGCCGTGCAGACCTTGTCGATTTCTTTCCTGGGCATCGCCTTCAGCACCGTCGGCGGCTTGCTTTACGGCGTGTTGCGTACGCTGGGCGTGAAGTGGCTGGACGCTGTTCTGCGGATCTACCTGGAGCTGTTCCGGGCGATCCCGGTGCTGGTCTGGTTGTACCTGCTGTTTTTCGGGCTGCCGATTTTTTTCGGCCTGAGTATTCCGAGCTTCTGGTGCGCGGTCCTGGTGTTGTCGCTGTGGGGTTCAAGCGAGGTCGGCGAGGTGGTGCGCGGCGCGCTGCATTCATTGCCGCGCGGCCAGCGTGAGGCGGGATTGTCGATTGGCCTGAACGGCGCGCAACTCTACGGTTACGTGCTGTTGCCGCAAGCCCTGAGGCGCATGACGCCGCCGACCATCAACGTCTACACGCGCATCATCAAGACCAGTTCCCTGGCGGTGCTGATCGGCGTGGTGGACGTGATCAAGGTCGGCCAGCAGATCATCGAGCGGACCTACGAATCGGTGCTGATCTACGGCGCATTGTTCCTGTTTTTCTTTTTCATCTGCTACCCGCTCTCGGCCGCCTCCCGCGTGCTGGAGCGGCGCTGGACGCAAGCATGA	MASSGLELLWVSLPQLGKGAVQTLSISFLGIAFSTVGGLLYGVLRTLGVKWLDAVLRIYLELFRAIPVLVWLYLLFFGLPIFFGLSIPSFWCAVLVLSLWGSSEVGEVVRGALHSLPRGQREAGLSIGLNGAQLYGYVLLPQALRRMTPPTINVYTRIIKTSSLAVLIGVVDVIKVGQQIIERTYESVLIYGALFLFFFFICYPLSAASRVLERRWTQA	PGPT0020795_9320	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
D1-35_03106	783	glnQ_6	COG1126	Glutamine transport ATP-binding protein GlnQ	ATGAGCGCATTGATCGAGTTCAAGGGTTTCAACAAGTTTTTCGGCGAACAGCAAGTACTGGACGGCATCGACCTGCAAGTGCAGGCCGGGGAAGTGATCGTCATTCTCGGCCCCAGCGGTTGCGGCAAAAGTACCCTGTTGCGGTGTCTCAACGGGCTGGAAGTGGCCCACAGCGGCAGCCTTGAATTGTCTGGTCGTGAGTTGCTGGACAAGGGCACCGATTGGCGCGAGATACGGCAACGGATCGGCATGGTGTTCCAGAGCTACCATCTGTTCCCGCACATGAGCGTGCTCGATAACCTGCTGCTCGGCCCTGTCAAAGTGCAAAAGCGTGACCGCGGTGAAGCGCGCGCCCAGGCCGAAGCCTTGTTGGCCCGTGTGGGCCTGTTGGACAAACGCGATGCTTTCCCACGCCAGCTCTCCGGCGGTCAGCAACAACGCATCGCCATCGTTCGCTCGCTGTGCATGAACCCTGAGGTCATGCTGTTCGATGAAGTTACCGCCGCCCTCGACCCGGAAATGGTCAAGGAAGTGCTGGAAGTCATCCAGGGCCTGGCCCGCGAAGGCATGACGCTATTGATCGTCACCCACGAAATGGCCTTCGCCCGCGCCGTGGCTGACCGCATCGTGTTCATGGATGCCGGGCGGATCCTTGAACAGAACCCTCCCGAGATTTTCTTTACGAACCCGCAAACCGCACGAGCGCAGCAGTTCCTGGAGAAGTTCTCCTACGTCGCCGCACTACCCCAATCGACTCTAACAAAGGAACTGCAACTGTCATGA	MSALIEFKGFNKFFGEQQVLDGIDLQVQAGEVIVILGPSGCGKSTLLRCLNGLEVAHSGSLELSGRELLDKGTDWREIRQRIGMVFQSYHLFPHMSVLDNLLLGPVKVQKRDRGEARAQAEALLARVGLLDKRDAFPRQLSGGQQQRIAIVRSLCMNPEVMLFDEVTAALDPEMVKEVLEVIQGLAREGMTLLIVTHEMAFARAVADRIVFMDAGRILEQNPPEIFFTNPQTARAQQFLEKFSYVAALPQSTLTKELQLS	PGPT0020790_1621	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
D1-35_03107	882	glnH	COG0834	ABC transporter glutamine-binding protein GlnH	ATGAAAACTGCCAAGTCGTCTCTGCTGCTATTGCCGCTGCTCGCTGGCCTCTTGCTCGCCGGCTGCAACAAAACCGAAGAGCCACCCAAGCCCAATGCCGCCAGCCAAGGCACCGCACCGGCCAGCTATCTGGAAAAGATCAAGGCGCGGGACAAGCTGATCGTCGGGGTCTTCACCGATAAGCCGCCGTTTGGCTTCGTCGATGAGGCGGGGCGTTATGTCGGCTTCGATACGGACATCGGCCGTCGATTTGCCAAGGACTTGCTCGGCGATGAGAACAAGGTCGAATTCGTTGCAGTCGAGCCGGCGAGCCGTATTCCGTTCCTGCAGAGTGACAAAGTCGACCTGATCCTGGCCAACATGACCGTGACCCCGGAGCGCAAGGAAGCGGTGGATTTCACCAATCCGAACCTGAAAGTGGCGGTGCAGGCGCTGGTGCCGCAAGCCAGCGAAGTGAAAACTCTAGATGACCTGGCGACCCGCACCACCATCGTCACCACCGGCACCACGGCGGATATCTGGCTGACCAGTAATCACCCGGACTGGAAGCTGCTCAAGTTCGAGAAAAACTCCGAATCCTTGCAGGCACTTGCCAACGGTCGAGGCGATGCGTATGCCCAGGACAATCTGGTGCTGTTCAGCTGGGCCAAGCAAAACCCCGGCTATCGCGTGCTGGAGCAGAAACTGGGTGCCGAAGCACCGATTGCCCCTGCGGTGAAGAAGGGCAATATCGAGCTGCGCGACTGGGTCAATGCGGAACTGGCGAAGCTGGGTGAAGAGAAATATTTGCTCAAGCTGTACGACCAGTACGTGCGCAAGGAACTGAGCGATGACACCAAACCTGAAAGCGTGATTGTCGAGGGTGGCAAGTGGCAGGGGTGA	MKTAKSSLLLLPLLAGLLLAGCNKTEEPPKPNAASQGTAPASYLEKIKARDKLIVGVFTDKPPFGFVDEAGRYVGFDTDIGRRFAKDLLGDENKVEFVAVEPASRIPFLQSDKVDLILANMTVTPERKEAVDFTNPNLKVAVQALVPQASEVKTLDDLATRTTIVTTGTTADIWLTSNHPDWKLLKFEKNSESLQALANGRGDAYAQDNLVLFSWAKQNPGYRVLEQKLGAEAPIAPAVKKGNIELRDWVNAELAKLGEEKYLLKLYDQYVRKELSDDTKPESVIVEGGKWQG	PGPT0020800_3680	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
D1-35_03108	1161			hypothetical protein	ATGCTCACGACCCTGGCGGTGGCCAACTACCGGTCCATCAACAAACTGGTCATCCCGCTGGGCAGGCTGAACCTGATCACCGGGCCCAACGGCAGTGGCAAATCGAATCTGTATCGCGCCCTGCGCCTGCTGGCGGAGACGGCGCAGGGTGGCGTGGTCAATGCTCTGGCCCGTGAAGGTGGGCTGGGCTCGACCTTCTGGGCCGGCCCGGAAGAAATAAGCCGTCGCATGCGTAACGGCGAGGTACCTGTGCAGGGCATCGTGCGTCAGGGCAGCATGCGCCTGCGCCTCGGATTTGCCGGGGAAAATTTCAGCTATTCGATCGCCCTGGGCCTGCCGGAACCCAGTCGTTCGGCGTTTTCATTGGACCCTGAAATCAAGCGCGAATGCATCTGGGCCGGACCGGTGTACAGGCCTGCCAGCTTGCTGGTGGACCGCAACGGGCCAATGATCCGCGCCCGTGAAAGCCGTTCGTGGGACGTATTGGCCCAACACACCCCGACCTTCGATAGCCTGTTCGATCAGGTCGGCAGCCTGCGCGCTTCGCCGGAGGTCTTGCAGATGCGCGAGTTCATCCGTCGCTGGCGCTTCTACGACCACTTTCGCAGCGATGCCGACGCCCCGGTGCGCCAGCCGCAACTGGGCACTCGCACCCCGGTGTTGCACCACGACGGACGCGACCTGGCTGCAGCGCTGCAAACGATTCTGGAGATAGGCGACTTCGAAGCCCTGCACGCCGCCATTGGCGATGCGTTTCCTGGCGCTCAACTGCACATCGACAAACTGCAGGGCGGGCGTTTCGCCATCGCCTTCCAGCAACACGGCCTGCTGCGACCGTTGTCGGCCGCCGAGCTGTCCGATGGAACCCTGCGCTACCTGCTGCTGGTAGCCGCCCTGCTCACGCCGCGCCCGCCCTCGCTGATGGTGCTCAACGAACCGGAAACCAGCCTGCACCCGGATCTGTTGCCGGCCTTGGCACGCTTGATCATCCGCGCTTCGGCCAACTGCCAGGTCTGGGTCGTGTCCCATGCCACACGCCTGATCGCCGCGCTGGAGCAGGATGAAAACTGCAATTGCATCGTGCTGGAAAAAGACTTGGGACAGACCGCAATCGTCGGACAGCGGATGCTGGATGAGCCGGCGTGGCATTGGCCTGAATAA	MLTTLAVANYRSINKLVIPLGRLNLITGPNGSGKSNLYRALRLLAETAQGGVVNALAREGGLGSTFWAGPEEISRRMRNGEVPVQGIVRQGSMRLRLGFAGENFSYSIALGLPEPSRSAFSLDPEIKRECIWAGPVYRPASLLVDRNGPMIRARESRSWDVLAQHTPTFDSLFDQVGSLRASPEVLQMREFIRRWRFYDHFRSDADAPVRQPQLGTRTPVLHHDGRDLAAALQTILEIGDFEALHAAIGDAFPGAQLHIDKLQGGRFAIAFQQHGLLRPLSAAELSDGTLRYLLLVAALLTPRPPSLMVLNEPETSLHPDLLPALARLIIRASANCQVWVVSHATRLIAALEQDENCNCIVLEKDLGQTAIVGQRMLDEPAWHWPE				NA	NA	NA	NA	NA
D1-35_03109	1104	mdtE		Multidrug resistance protein MdtE	ATGGCTGGTCCTGGAATCAAATTGATTGTTGGCTTGGGCGTGTGTGCGGTGTTGGCGGGGTGCGGTGACAAGAAGCCCGAGGAAAAAGCCTTGCCACGGGTTTTCGTGCAGCAGGCCATACCTTCCGAATACGCCGCCTCGGTGACGCTTACCGGCGATGTCCAGGCTCGCGTGCAGGCTGACCTGTCGTTTCGTGTCGGCGGCAAGATCATCGAGCGCAAAGTCGACGTCGGCGACCGAGTCTCGGCCCGGCAAGTGCTGGCCCGGCTCGATCCGCGGGACCTGCAGACCAACGTCGACTCCGCCGAGGCCCAGGTGGCCGCCGAACAGGCGCGGGTCAAGCAGAGTGCGGCGGCATTTGTGCGCCAGCAGAAGCTCTTGCCCAAGGGCTATACCAGCCAGAGCGAATACGACGCGGCCCAGGCGCAACTGCGCAGCAGCCAGAGCGCGCTGACGGCGGCCCAGGCACAACTGGCCAATGCCCGCGAACAGCTGAGCTACACCGCACTGATCGCCGAGGCGCCGGGCATCATCACGGCGCGCCAGGCCGAAGTGGGCCAAGTGGTCCAGGCCACGGAGCCGATCTTCAGCCTGGCCCGGGACGGTGAGCGCGACGCGGTGTTCAACATCTACGAGTCGCTGCTGAGCGAACCGCCATCGGCGCCGGACATTGTCATCAGCCTGCTCGACAACCCTGCCATCAAAACCACCGGTACGGTGCGCGAGATCACCCCGGCGGTGTCCGCCGAGACCGGCACCGTGCAGGTCAAGGTCACGCTCAACGACTTGCCCGAAGGCATGCGCCTGGGTTCGGTGGTCAGCGCCACCGCCAAATCCGCAGGAAAAACCGCCGTGGAACTGCCCTGGTCGGCACTGACCAAGAATCTCAGTGATCCGGCCGTGTGGCTGGTGGACGGCGAGGGCAAGGCGCAATTGCACAATGTCACCGTCAGCCGCTACCTGACCGGCAAGGTCATCGTCAGCGACGGGCTCAAGGGCGGCGAAAAAGTCATCATTGCCGGCGGGCAGTTGCTTCATCCGGGCATGCGCGTCGAGATCGCCGAAAACAACTATGAGAAAAACCCGCCAGGAGCCCAGCCATGA	MAGPGIKLIVGLGVCAVLAGCGDKKPEEKALPRVFVQQAIPSEYAASVTLTGDVQARVQADLSFRVGGKIIERKVDVGDRVSARQVLARLDPRDLQTNVDSAEAQVAAEQARVKQSAAAFVRQQKLLPKGYTSQSEYDAAQAQLRSSQSALTAAQAQLANAREQLSYTALIAEAPGIITARQAEVGQVVQATEPIFSLARDGERDAVFNIYESLLSEPPSAPDIVISLLDNPAIKTTGTVREITPAVSAETGTVQVKVTLNDLPEGMRLGSVVSATAKSAGKTAVELPWSALTKNLSDPAVWLVDGEGKAQLHNVTVSRYLTGKVIVSDGLKGGEKVIIAGGQLLHPGMRVEIAENNYEKNPPGAQP	PGPT0029130_140	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029130-triA-K21136	NA	NA
D1-35_03110	1065	mdtA_3		Multidrug resistance protein MdtA	ATGAAGCGCCTGTGGATGGTCGCGGCCGGCCTGCTGCTGGCCGCCTGCTCGAAAGAAGAAGCACCGCCGGAGCCGGTGCGGCCGGTGTTGTCCATTGAGGTCCGGGCCTTGGACCAGCAGGCCCTGGGACGCTTCGCCGGGAATATCCAGGCGCGCTACGAAACCAACGTGGGTTTTCGTGTGCCCGGGCGCATCGCCAGTCGCAACGTCGATGTCGGCGCGGAAGTGAAGAAGGGCGACCTGCTCGCAACCCTCGACCCCACCGACCAGCAGAACCAGTTGCGCGCCGCTCAGGGCGACCTGGCGCGGATCGAGGCGCAGTACATCAATGCCCAGGCCAATGCCCGTCGCCAGCAGCAATTATTCGACCGTGGCGTCGGCGCCCAGGCGCAACTGGACATCGCCCAGACCGACCTGAAGACCACCGCTGCCTCCCTGGAACAGGCCAAGGCCACGGTGGAACAGGCCCGCGACCAGCTCAACTACAGCGAACTGCGTACCGACCATGACGCGGTCGTCACCGCCTGGACGGCCGAGGCGGGGCAGGTGGTGACCGCCGGCCAGCAAGTAGTGACGCTGGCCCGCCCGGACGTCAAGGAAGCGGTGATCGACTTGCCCGCCGGGCTGGCCGAGCGCCTGCCCGAGGATGTGGTGTTCGAGGTCGCCGCGCAGCTCGACCCGGCGACCCACACCACGGCCATCGTGCGCGAGATCGAGCCTCAGGCGCAAAGCGCCACCCGTACCCGCCGCGCGCGCCTGACCCTGACCGATACACCGCCGGGCTTTCGCCTGGGCACCGCCATCAGCGTGACCCTGAGCTCGGCCATCGAACCGCGCATCGAGCTGCCGCTCAGCGCGTTGCAGGAAGTCGACGGCAAGGCGCGAATCTGGCTGATCGACCCGCAGAGCCAGACAGTCTCGCCACGAGAAGTACAGATTATCGAGCGATCGGCCGGATCGGTCCTGGTCGCCAACGGCATCAAGCCTGGCGACCGCGTGGTCAGCGCCGGGGTGAACAGTCTCCAGCCGGGGCAAAAAGTGAAACTCGACGAGGACGCACGATGA	MKRLWMVAAGLLLAACSKEEAPPEPVRPVLSIEVRALDQQALGRFAGNIQARYETNVGFRVPGRIASRNVDVGAEVKKGDLLATLDPTDQQNQLRAAQGDLARIEAQYINAQANARRQQQLFDRGVGAQAQLDIAQTDLKTTAASLEQAKATVEQARDQLNYSELRTDHDAVVTAWTAEAGQVVTAGQQVVTLARPDVKEAVIDLPAGLAERLPEDVVFEVAAQLDPATHTTAIVREIEPQAQSATRTRRARLTLTDTPPGFRLGTAISVTLSSAIEPRIELPLSALQEVDGKARIWLIDPQSQTVSPREVQIIERSAGSVLVANGIKPGDRVVSAGVNSLQPGQKVKLDEDAR	PGPT0029135_471	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029135-triB-K21137	NA	NA
D1-35_03111	3048	czcA_2		Cobalt-zinc-cadmium resistance protein CzcA	ATGAAAGGGCCTTTCAACTTATCCGAATGGGCCCTGCGGCATCAGTCTTTCGTGTGGTACCTGATGTTCGTCGCATTGCTGATGGGCGTGTTCTCGTACATGAACCTGGGCCGCGAAGAAGACCCGTCGTTCACCATCAAGACCATGGTCATCCAGACCCGCTGGCCCGGCGCGACCCAGGAAGAAACCCTCGACCAGGTCACCGACCGCATCGAGAAAAAACTCGAAGAGCTCGATTCCCTCGATTATGTGAAGAGTTACACCCGGCCGGGGGAGTCGACGGTGTTCGTGTATCTGCGCGATACCACCGGCGCCGAGGAAATCCCGCAGATCTGGTACCAGGTGCGCAAGAAGATCGACGACATTCGTGGCGATTTCCCTGAAGGCTTGCAAGGCCCAGGGTTCAACGATGAGTTCGGCGACGTGTACGGTTCGGTGTATGCCTTTACCGGCGACGGCCTGTCGATGCGTCAGTTGCGCGATTATGTCGAACAGGTGCGCGCCGAGATCCGCGACGTGCCCGGCCTGGGCAAGGTGGAAATGGTCGGCGAGCAGGACGAAGTGTTGTACCTGAATTTTTCCACGCGCAAACTCGCCGCACTGGGCATCGACCAGCGCCAGGTGGTGCAGAGCCTGCAGTCGCAGAACGCCGTGACCCCGGCAGGGGTGATCGACGCCGGGCCGGAGCGAATCTCCGTGCGCACGTCCGGCCAGTTCCAATCGGAAAAGGACCTGGCCAACGTCAACCTGCGACTCAACGATCGTTTCTATCGCCTCGCCGATATCGCCGACATTCGCCGTGGTTATGTCGACCCCGCCACGCCGATGTTCCGCTTCAACGGCACGCCGGCGATCGGTCTTGCCATTGCCATGAAGAAGGGCGGCAACATCCAGGAGTTCGGCAAGGCGCTGCATGCGCGCATGGACGAACTGACCGCGGACCTGCCGGTGGGGGTCGGCGTGCATACGGTGTCGGACCAGGCCGAAGTGGTGGAGGAAGCCGTTGGCGGCTTCACCAGCGCCTTGTTCGAGGCGGTGATCATCGTTCTGGTGGTCAGTTTCATCAGCCTCGGCATTCGCGCCGGGCTGGTGGTGGCCTGCTCGATCCCGCTGGTGCTGGCGATGGTGTTCGTGTTCATGGAATACAGCGGCATCACCATGCAGCGGATTTCCCTCGGTGCATTGATCATCGCCCTTGGTCTACTGGTGGACGATGCCATGATCACCGTGGAGATGATGGTCACGCGCCTGGAAAAAGGCGATTCCAAGGATCAGGCCGCGACGTTTGCCTATACCTCGACCGCCTTTCCGATGCTCACCGGGACCCTGGTGACCGTGGCCGGCTTCGTGCCCATCGGCCTGAACGCCAGTTCGGCTGGCGAATACACCTTCACGCTGTTCGCGGTGATTGCCGTGGCGATGCTGGTGTCCTGGATCGTCGCGGTGCTGTTCGCCCCGGTGATCGGCGTGCACATTCTCAGTCCCAACGTAAAGCCCCACAGCAACGAGCCGGGACGGGTCGGACGGGCCTTCAACGGTGGCCTGCTGTGGGCGATGCGCAATCGCTGGTGGGCAATCGGGATCACCGTGCTGCTGTTCGCGCTGGCGGTATTCTGCATGCGCTTCGTACAGAACCAGTTCTTCCCGTCCTCGGACCGCCCGGAGATCCTGGTGGACCTCAACCTGCCGCAGAACGCCTCGATGGACGAGACGCGCAAGGCGGTCGATCGCCTGGAGGCCACCCTCAAGGGCGACCCGGACATCGCGCGCTGGAGCACTTACATCGGCGAAGGCGCCATTCGCTTCTACCTGCCGCTGGACCAGCAACTGCAGAACCCGTACTACGCGCAACTGGTGATCGTCAGCAAGGATCTGGAGTCGCGTGCGGCCCTCAGCGAACGCCTGCAAAAGCGCCTGCGTGAAGATTTCGTCGGCATCGGCAGCTACGTGCAGGCGCTGGAAATGGGCCCGCCGGTCGGCCGGCCGATCCAGTACCGGGTCAGCGGCAAGGACATCGACCAGGTGCGCAAGCATGCCATCGAGCTTGCCACCGAACTGGACAAGAACTCGCACATTGGCGAGATCATCTACGACTGGAACGAGCCGGGCAAAGTACTGCGCATCGACATCGCCCAGGACAAGGCGCGGCAACTGGGATTGTCTTCGGATGACGTGGCCCGGCTGATGAACAGCATTGTCAGCGGCTCGCCGGTGACCCAGGTCAACGACGATATCTACCTGATCGACGTGGTGGGTCGCGCCGAAGACGCCGAGCGCGGTTCGCCGGAAACCTTGCAGAACCTGCAGATCGTCACACCGGGCGGGACCTCGATTCCGCTGCTGGCCTTTGCCACGGTGCGCTACGAACTGGAACAACCGCTGGTATGGCGTCGCGACCGCAAGCCGACCATCACCATCAAGGCTGCCGTGCGCGATGAAATCCAGCCGACGGACCTGGTGCGGCAACTGCAACCGGACATCGACAGGTTCGCCGCCAGATTGCCGGTAGGCTACAAGGTCGCCACCGGCGGCACGGTGGAGGAAAGCAGCAAGGCCCAGGGGCCGATCGCCAGCGTGGTGCCGCTGATGCTGTTCCTGATGGCGACGTTCCTGATGATCCAGTTGCACAGCGTGCAGAAGTTGTTCCTGGTGGCCAGTGTCGCGCCCCTGGGCTTGATCGGCGTGGTCCTGGCGCTGGTGCCGACGGGCACGCCCATGGGCTTTGTGGCGATCCTCGGGATCCTTGCGCTGATCGGCATCATCATCCGCAACTCGGTGATCCTGGTGACCCAGATCGACGAATACGAACGTGACGGCTATGAACCCTGGGATGCGGTGGTGGAAGCGACCGAGCACCGGCGCCGGCCGATCCTATTGACGGCGGCGGCGGCGAGCCTGGGGATGATCCCGATCGCCCGGGAAGTGTTCTGGGGCCCGATGGCCTACGCGATGATCGGCGGGATCATCGTCGCCACGCTGCTGACGCTGCTGTTCCTGCCAGCGCTGTATGTGGCCTGGTACAAGATCCGCGAGCCCAAGCGCGAGTGA	MKGPFNLSEWALRHQSFVWYLMFVALLMGVFSYMNLGREEDPSFTIKTMVIQTRWPGATQEETLDQVTDRIEKKLEELDSLDYVKSYTRPGESTVFVYLRDTTGAEEIPQIWYQVRKKIDDIRGDFPEGLQGPGFNDEFGDVYGSVYAFTGDGLSMRQLRDYVEQVRAEIRDVPGLGKVEMVGEQDEVLYLNFSTRKLAALGIDQRQVVQSLQSQNAVTPAGVIDAGPERISVRTSGQFQSEKDLANVNLRLNDRFYRLADIADIRRGYVDPATPMFRFNGTPAIGLAIAMKKGGNIQEFGKALHARMDELTADLPVGVGVHTVSDQAEVVEEAVGGFTSALFEAVIIVLVVSFISLGIRAGLVVACSIPLVLAMVFVFMEYSGITMQRISLGALIIALGLLVDDAMITVEMMVTRLEKGDSKDQAATFAYTSTAFPMLTGTLVTVAGFVPIGLNASSAGEYTFTLFAVIAVAMLVSWIVAVLFAPVIGVHILSPNVKPHSNEPGRVGRAFNGGLLWAMRNRWWAIGITVLLFALAVFCMRFVQNQFFPSSDRPEILVDLNLPQNASMDETRKAVDRLEATLKGDPDIARWSTYIGEGAIRFYLPLDQQLQNPYYAQLVIVSKDLESRAALSERLQKRLREDFVGIGSYVQALEMGPPVGRPIQYRVSGKDIDQVRKHAIELATELDKNSHIGEIIYDWNEPGKVLRIDIAQDKARQLGLSSDDVARLMNSIVSGSPVTQVNDDIYLIDVVGRAEDAERGSPETLQNLQIVTPGGTSIPLLAFATVRYELEQPLVWRRDRKPTITIKAAVRDEIQPTDLVRQLQPDIDRFAARLPVGYKVATGGTVEESSKAQGPIASVVPLMLFLMATFLMIQLHSVQKLFLVASVAPLGLIGVVLALVPTGTPMGFVAILGILALIGIIIRNSVILVTQIDEYERDGYEPWDAVVEATEHRRRPILLTAAAASLGMIPIAREVFWGPMAYAMIGGIIVATLLTLLFLPALYVAWYKIREPKRE	PGPT0029140_388	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
D1-35_03112	2220	cadA_1		Cadmium-transporting ATPase	ATGAACGATTCCATCCATACACCCCGACCCGCCCATGGCCATGAGCACGGGCACTCCTGCTGCTCATCCAAGGCAGCGCCGGCGGTAGTCACGCTCGACAAAACGCCGACGGACGGTGCGCGGCTGAGCAGTTTTCGCATCGAAGCCATGGACTGCCCCACCGAACAGACACTGATCCAGAACAAGCTCGGCAAACTTGAAGGCGTGCAGCGACTGGAATTCAACCTGATCAACCGTGTGCTGGGCGTAACCCATGACCTGCCCAGCGACACGCCGATCATCAAAGCCATCGAGTCCTTGGGAATGCAGGCGGAACCGTTGACGGCTGGCCAGGACAAACCGACTCACACCCCGCCCGCCCCAGCCAAACCATGGTGGCCGCTGGCGTTGTCCGGCGTCACGGCATTGGGCGCCGAGGTGATTCACTTCACCAACGCCGCGCCGAACTGGGTCGTCGCGTTGGTGGCGCTGGTGTCGATCCTCAGCGGTGGCCTCGCCACCTACAAGAAGGGCTGGATTGCCCTGAAGAACCTGAACCTGAACATCAACGCCCTGATGAGCATCGCCGTGACCGGCGCGGTGTTGATTGGCCAATGGCCGGAAGCGGCGATGGTGATGTTCCTGTTCACGGTGGCCGAACTGATCGAGGCCAAGTCCCTCGACCGCGCGCGCAACGCCATCAGCGGCCTGATGCAGATGGCGCCGGAACAGGCCACCGTGCAGCAGGCCGATGGCAGTTGGCAGGTCCAGGAAGTGAAGAGCGTCGCTCTTGGCGCGCGGGTGCGGGTTCGCCCCGGTGAACGCGTCGGGCTGGATGGCGATGTGGTCGCAGGCCGTTCGACCATCGACCAGGCGCCGATCACCGGGGAAAGCCTGCCGGTGGACAAGACCGTGGGCGACAAAGTGTTTGCCGGCACCATCAATCAGGCCGGCGAACTGGAATACGCCGTGACCGCCGCGGCCGATCAATCCACCCTGGCGCGGATTATCCATGCCGTGGAGCAGGCCCAGGGGGCCCGGGCACCGACTCAGCGCTTCGTTGACCGGTTCTCGACAATCTACACACCGGCGGTGTTTGCCCTGGCCTTGGCTGTGGCCGTCATCCCGCCGCTGTTCATGGGCGCAGTCTGGTTCGACTGGATCTATCGGGCGCTGGTCCTGCTGGTGGTCGCCTGCCCATGTGCACTGGTGATTTCCACCCCCGTGACCATCGTCAGCGGCCTGGCGGCAGCGGCGCGCAAAGGCATCCTGGTCAAGGGCGGCGTGTACCTGGAGGGCGGCCACAAGCTCGATTACCTGGCCTTGGACAAGACCGGCACGATCACCCACGGCAAACCGGTGCAGACCGATTACCTGGCACTCGACCCGAGCGTGGAAACCACCGCACCGGCCCTGGCCGCCAGCCTCGCGGCGCGGTCGGACCATCCGGTGTCCCGAGCGATTGCCCATGCGGCTGTGGATAAACAATCGGCGCAGCAGGTTGTGGATAACTTCGCGGCGCTTGCCGGGCGCGGCGTTCGCGGCGACATCGGCGACCAGACCTATCACTTGGGCAACCATCGCCTCGTGGAAGACCTGGGCCTGTGCTCTCCCGAGCTGGAAGCGAAACTCTTCGCCTTGGAAAAACAAGGCAAGTCCGTCGTGCTGCTGCTCGACAGCGCCAGGCCTCTGGCGCTGTTTGCCGTAGCCGATACCGTCAAGGACTCCAGCCGCGAAGCGATCCGGCAGTTGCATGACCTGGGCATCAAGACACTGATGCTGACCGGCGACAACGCCCACACCGCCGAGGCGATAGCCGCACAGGTGGGCATGGACCGAGCCCATGGCGACCTGTTGCCGGAAGACAAGCTGCAAATCATCGAGAAGCTCTACGCCGGCGGTCACCGGGTCGGCATGGTGGGCGACGGCATCAACGACGCCCCGGCCCTGGCCCGCTCGGAAATCGGCTTCGCCATGGCGGCGGCCGGCACCGACACCGCCATCGAGACCGCTGACGTAGCGCTGATGGACGACGACCTGCGCAAGATTCCCACCTTCATCCGGCTGTCGCGGCAGACGTCGAGCATCCTCAAGCAAAACATTGCCCTGGCGTTGGTGATCAAGGCGATTTTCCTTGCGGTGACCTTTGCCGGGTTCGCCACCATGTGGATGGCAGTATTTGCCGACATGGGGGTGAGCTTGCTGGTGGTGTTCAATGGGTTGCGGTTGTTGCGCAAGTAA	MNDSIHTPRPAHGHEHGHSCCSSKAAPAVVTLDKTPTDGARLSSFRIEAMDCPTEQTLIQNKLGKLEGVQRLEFNLINRVLGVTHDLPSDTPIIKAIESLGMQAEPLTAGQDKPTHTPPAPAKPWWPLALSGVTALGAEVIHFTNAAPNWVVALVALVSILSGGLATYKKGWIALKNLNLNINALMSIAVTGAVLIGQWPEAAMVMFLFTVAELIEAKSLDRARNAISGLMQMAPEQATVQQADGSWQVQEVKSVALGARVRVRPGERVGLDGDVVAGRSTIDQAPITGESLPVDKTVGDKVFAGTINQAGELEYAVTAAADQSTLARIIHAVEQAQGARAPTQRFVDRFSTIYTPAVFALALAVAVIPPLFMGAVWFDWIYRALVLLVVACPCALVISTPVTIVSGLAAAARKGILVKGGVYLEGGHKLDYLALDKTGTITHGKPVQTDYLALDPSVETTAPALAASLAARSDHPVSRAIAHAAVDKQSAQQVVDNFAALAGRGVRGDIGDQTYHLGNHRLVEDLGLCSPELEAKLFALEKQGKSVVLLLDSARPLALFAVADTVKDSSREAIRQLHDLGIKTLMLTGDNAHTAEAIAAQVGMDRAHGDLLPEDKLQIIEKLYAGGHRVGMVGDGINDAPALARSEIGFAMAAAGTDTAIETADVALMDDDLRKIPTFIRLSRQTSSILKQNIALALVIKAIFLAVTFAGFATMWMAVFADMGVSLLVVFNGLRLLRK	PGPT0004200_1721	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004200-zntA|cadA-K01534	NA	NA
D1-35_03113	447	merR1		Mercuric resistance operon regulatory protein	ATGAAGATTGGCGAACTGGCGAAAATCACCGACTGCCAGGTCGAGACCATCCGCTATTACGAACGGGAGGGTTTGCTGCCGGAACCGGCCCGCAGTGACGGCAATTATCGCGTCTACACCCAGGCCCATGCCGAGCGGCTGACATTCATCCGCAACTGCCGGACCCTGGACATGACCCTGGAGGAAATCCGCAGCCTGCTCGCCTTGCGCGACAGCCCCCAGGACCAATGCGAGAGCGTCAACGCACTGATCGACGAACACATCCACCACGTCAAGGCGCGCATCGACGGCCTGCAGGCCTTGCAGGCGCAACTGATCGACCTGCGCCATCGCTGTGGCGAAGGGCCGGATCTTGAGCAGTGCGGGATCTTGCAACGGTTGGAGGTGAGCGGGGCGGTGGCGCCGGAGGTGGAGCATTCACATGTGGGCAGGAGTCATGGGCATTGA	MKIGELAKITDCQVETIRYYEREGLLPEPARSDGNYRVYTQAHAERLTFIRNCRTLDMTLEEIRSLLALRDSPQDQCESVNALIDEHIHHVKARIDGLQALQAQLIDLRHRCGEGPDLEQCGILQRLEVSGAVAPEVEHSHVGRSHGH	PGPT0004288_5	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-LEAD_HOMEOSTASIS,PGPT0004288-pbrR-NA	NA	NA
D1-35_03114	972	thyA	COG0207	Thymidylate synthase	ATGAAGCAATATCTCGACCTGGTGGCTCACGTCATCAAGAACGGCACCAAGCAAGCCAACCGCACCGGCGTGAACACCATCAGTTTCCCTGGCGCGATGCTGCGCTATGACCTGAAGGAAGGCTTTCCCGCCATCACTACGCGCAAGATGGCCTTCAAGTCGGCGATCGGCGAGATGTGCGGTTTCTTGCGTGGCGTGAACAATGCCGCCGAGTTCCGGGCCCTGGGCTGCAAGGTCTGGGACCAGAACGCCAACGAAAATGCGCAATGGCTGGCCAACCCGTTCCGCCAGGGCGAAGACGACCTGGGCGAGATCTACGGCGTGCAATGGCGCAAGTGGCCGGCCTACAAGCAGATCCCGCTGAGCAACGCGGCCGCCATCGAGCAGACGCTGGCCCAGGGTTATCGGCAGATCGCCGAAGGCAAAGAAAACGGCCAGGCCTACGTGGTGCTGTACAAGGCCATCGATCAGGTTCGCCAGTGCGTCGACACCATCATCAAGGACCCGGGCAGCCGGCGCATCCTGTTCCACGGCTGGAACTGCGCCCAGCTCGATGAAATGGCCCTGCCACCGTGTCACCTGCTGTATCAGTTCCATCCGAATGTCGAGACCCGGGAAATCTCCCTGACCCTCTACATCCGCTCCAACGACCTGGGCCTGGGCACGCCGTTCAACCTCACCGAAGGCGCCGCGCTGCTAAGCCTGATTGGCCGCCTGACCGGTTATACGCCGCGCTGGTTCACCTATTTCATCGGCGATGCCCACGTCTACGAAAACCACTTGGACATGCTCAATGAACAGCTCACGCGCGAGCCGTTCCCGATGCCCCGACTGGTGATTTCCGAGCGCGTGCCGGAGTTCGCCAAGACCGGCGTATACCAGCCCGAGTGGCTGGAGCAGGTCGAACCGAGCGACTTCTCCCTCGAAGGCTACCAGCACCATGCGCCGATGACCGCGCCGATGGCGGTCTAA	MKQYLDLVAHVIKNGTKQANRTGVNTISFPGAMLRYDLKEGFPAITTRKMAFKSAIGEMCGFLRGVNNAAEFRALGCKVWDQNANENAQWLANPFRQGEDDLGEIYGVQWRKWPAYKQIPLSNAAAIEQTLAQGYRQIAEGKENGQAYVVLYKAIDQVRQCVDTIIKDPGSRRILFHGWNCAQLDEMALPPCHLLYQFHPNVETREISLTLYIRSNDLGLGTPFNLTEGAALLSLIGRLTGYTPRWFTYFIGDAHVYENHLDMLNEQLTREPFPMPRLVISERVPEFAKTGVYQPEWLEQVEPSDFSLEGYQHHAPMTAPMAV	PGPT0008145_512	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0008145-thyA-K00560	NA	NA
D1-35_03115	810	lgt	COG0682	Phosphatidylglycerol--prolipoprotein diacylglyceryl transferase	ATGCTGCCTTACCCGCAGATCGATCCGGTTGCCCTGGCCATCGGCCCGCTGAAAATCCACTGGTACGGTCTCATGTACCTGATCGGTATCGGTGGTGCCTGGTGGCTGGCCTCGCGCCGGCTCAACCGGTTTGACCCGACCTGGAACAAAGAGAAGCTCTCGGACCTGGTGTTCTGGCTGTCCATGGGCGTGATCGTTGGCGGGCGCCTGGGTTATGTACTGTTCTACGACCTGAGCGCCTACCTGGCCAACCCGACGCTGATCTTTGAAGTCTGGAAGGGCGGCATGTCGTTTCACGGGGGCTTCATCGGCGTGATGCTGGCGGCGCTGTGGTTCGGCAAGCGCAACAACAAGTCGTTCTTCGAACTGATGGACTTCGTCGCGCCGATGGTGCCGATCGGCCTGGGCGCCGGGCGCATCGGCAATTTCATCAACGCCGAGCTGTGGGGCAAGCCGACGGACGTGCCGTGGGCGATGGTCTTCCCGCCGTTCAGCGACCCGGCCCAATTGCCGCGCCACCCGTCGCAGCTGTACCAGTTCGCCCTGGAAGGCGTGGCACTGTTCCTGATTCTCTGGTTGTTCTCGCGCAAGCCGCGGCCGACCATGGCGGTATCGGGCATGTTTGCGCTGTTCTACGGGATCTTCCGTTTCATCGTCGAGTTCGTCCGCGTACCGGACGCCCAGCTCGGCTATCTGGCGTGGAACTGGCTGACCATGGGCCAGGTGCTGTGCCTGCCGATGATCATCGGTGGCCTGGCGCTGATCTGGCTCGCTTATAACCGTGCACCGGCTGCGGCGGCCAAGGTTTAA	MLPYPQIDPVALAIGPLKIHWYGLMYLIGIGGAWWLASRRLNRFDPTWNKEKLSDLVFWLSMGVIVGGRLGYVLFYDLSAYLANPTLIFEVWKGGMSFHGGFIGVMLAALWFGKRNNKSFFELMDFVAPMVPIGLGAGRIGNFINAELWGKPTDVPWAMVFPPFSDPAQLPRHPSQLYQFALEGVALFLILWLFSRKPRPTMAVSGMFALFYGIFRFIVEFVRVPDAQLGYLAWNWLTMGQVLCLPMIIGGLALIWLAYNRAPAAAAKV				NA	NA	NA	NA	NA
D1-35_03116	819			hypothetical protein	ATGCCGCTCTTGTTTGCGATGGTCGAGGCGACGCTGGTGGAATTTCTGCTTTATCTGCTGCTCGGCGCCTGTGCCGGTGTACTCGCCGGGCTATTCGGCGTCGGCGGCGGGATGATCATCGTCCCGGTGCTGGTGTTCAGTTTCACCTTGCAGGGTTTCGACCCGCAGGTGTTGACGCACCTGGCTGTCGGTACGTCCCTGGCATCGATCATCTTTACCTCGGTGAATGCCGTACGCGAGCATCACCGCAAAGGCGCGGTGCGCTGGCAGATCTTTACCTGGATGACCGTCGGGATCCTGATCGGTGCCGGTTTCGGCGCCATTACCGCCGAAGCGATCTCCGGCCCGCATCTGCAAAAAATCATCGGCGTATTCGCCATGCTCGTTGCCCTGCAACTGGCGCTGGATTTCAAGCCGAAGGCCAGCCGTACCGTGCCGGGCAAGGTCGGATTGGGCCTGGCCGGCACGGTTGTCGGCTGGGCCTCGGCGATTTTCGGTATCGGCGGCGGTTCGCTGACCGTGCCGTTCCTGACCTGGCGCAGCGTGCCGATGCAACAAGCGGTGGCGACTTCGTCGGCCTGCGGGCTGCCCATCGCCCTGGTCAGTGCGTTAAGTTTCATGATTCTGGGGTGGCAGGATCCATTGTTGCCGCCCCATAGTCTCGGTTTTGTATATTTGCCGGCACTGCTGGGCATCGCCCTGACGAGCATGATCTTCGCCCGTTTCGGCGCGCGACTGGCCCATCGCCTGTCGCCGCGCTTGCTCAAGCGGCTGTTCGCCGCTTTGTTGTTCAGTGTGGGCTTGAGTTTCCTGCTCTGA	MPLLFAMVEATLVEFLLYLLLGACAGVLAGLFGVGGGMIIVPVLVFSFTLQGFDPQVLTHLAVGTSLASIIFTSVNAVREHHRKGAVRWQIFTWMTVGILIGAGFGAITAEAISGPHLQKIIGVFAMLVALQLALDFKPKASRTVPGKVGLGLAGTVVGWASAIFGIGGGSLTVPFLTWRSVPMQQAVATSSACGLPIALVSALSFMILGWQDPLLPPHSLGFVYLPALLGIALTSMIFARFGARLAHRLSPRLLKRLFAALLFSVGLSFLL				NA	NA	NA	NA	NA
D1-35_03117	747			hypothetical protein	ATGTGCCTGATCGTATTTGCCTGGCGGCCCGGCCACGCCCAGCCGCTGATCGTGGCGGCTAACCGCGACGAGTTCTACGCGCGCCCGACGCTGCCACTGGCGCAGTGGCCTGACGCACCGCACGTGCATGCCGGTCGCGACCTGGAAGCGGGCGGCACCTGGCTCGGGGTCGGCACCGGGGGCCGCTTTGCCGCGCTGACCAACATCCGCGATCCTGGCCAGCTCCCGGCGTTCAAGTCTCGCGGCGAGCTGGTGGCGCGGTTCCTGACCGGGAATCTGTCGATCGTCGATTATCTGAGCGAAGTCGTGCCGCGCGCCGGCGAGTACGGTGGCTTCAACCTGCTGCTGGGCGATGGCGCCGAACTGTGGCACTACAACGCACGCGATACACGCCCGCAGTTGTTGGCCGAAGGGATCTACGGATTGTCCAACGCCGGGTTGAACACGCCCTGGCCGAAATTGCTCAAGGCCCGGACGGCGTTGAGTGAGGTGCTGCATGACCCGCAGCCCCAAGCGCTGCTGACGCTATTGAACGATCCGCAACCGGCCCCGGTGGCGGAGCTGCCGGACACCGGCGTGGGACTGTCCACGGAAATGCTGCTGTCGAGCGTGTTCATCGCCAGCCCGGCCTACGGGACGCGGGCGAGCACGGCGCTGATCGTTAATGCTGACGGGACGCGGCAGATGGTCGAGCGCAGTTTCGGGCCGCATGGGGGGCATTTGGGGGAGGTGGAGCTGCTCGTTTAA	MCLIVFAWRPGHAQPLIVAANRDEFYARPTLPLAQWPDAPHVHAGRDLEAGGTWLGVGTGGRFAALTNIRDPGQLPAFKSRGELVARFLTGNLSIVDYLSEVVPRAGEYGGFNLLLGDGAELWHYNARDTRPQLLAEGIYGLSNAGLNTPWPKLLKARTALSEVLHDPQPQALLTLLNDPQPAPVAELPDTGVGLSTEMLLSSVFIASPAYGTRASTALIVNADGTRQMVERSFGPHGGHLGEVELLV				NA	NA	NA	NA	NA
D1-35_03118	2280	ptsP	COG3605	Phosphoenolpyruvate-dependent phosphotransferase system	ATGCTCAATACGCTGCGCAAGATCGTCCAGGAAGTTAACTCCGCCAAGGATCTCAAGGCGGCGTTGGGGATTATTGTATTGCGCGTCAAAGAGGCCATGGGCAGCCAGGTCTGCTCGGTCTACCTGCTGGACCCCGAGACCAACCGTTTTGTGCTGATGGCGACCGAGGGTCTGAACAAGCGCTCCATCGGCAAGGTCAGCATGGCGCCCAACGAAGGCCTGGTCGGCCTGGTCGGTACCCGGGAAGAACCCCTGAACCTGGAAAACGCCGCCGATCACCCGCGGTATCGCTACTTTGCCGAGACCGGCGAAGAGCGCTACGCATCGTTCCTCGGCGCGCCGATCATTCACCACCGCCGCGTCGTCGGCGTGTTGGTCATCCAGCAAAAAGAGCGCCGCCAGTTCGACGAGGGCGAAGAAGCCTTCCTCGTGACCATGAGCGCGCAACTGGCCGGGGTTATCGCCCACGCCGAAGCGACCGGCTCGATCAGCGGCCTGGGCCGCCAGGGCAAGGGCATCCAGGAAGCCAAGTTCGTCGGCGTGCCGGGCTCACCGGGCGCGGCGGTGGGCACCGCGGTGGTCATGCTGCCACCCGCCGACCTCGACGTGGTGCCGGACAAGACTATCGCCGACATCAATGCCGAGCTGGGCTTGTTCAAGACCGCCATCGAAGGCGTGCGAGCCGACATGCGCGCCCTGTCCGCCAAGCTGGCGACGCAATTGCGGCCTGAAGAGCGCGCGCTGTTCGATGTCTACCTGATGATGCTTGACGATGCCTCCCTGGGCAGCGAAGTGACCACGGTCATCAAGACCGGCCAATGGGCCCAGGGCGCGTTGCGCCAGGTGGTGACCGACCACGTCAACCGTTTCGAACTGATGGACGACGCCTACCTGCGCGAGCGCGCCTCCGACGTCAAGGACCTCGGTCGCCGCCTGCTCGCCTACCTGCAGCAAGAGCGTCAGCAGACCCTGGTCTACCCCGACAACACCATCCTGGTGAGCGAAGAGCTGACCCCGGCGATGCTCGGCGAAGTGCCGGAAGGCAAGCTGGCGGGCCTGGTCTCGGTACTGGGCTCGGGCAACTCCCACGTGGCGATCCTGGCCCGGGCCATGGGCATTCCCACGGTCATGGGCCTGGTGGACCTGCCGTATTCCAAGGTCGACGGCATCCAGATGATCGTCGACGGCTACCACGGCGAGGTCTACACCAACCCCAGCGACGTGTTGCGCAAGCAGTTCGCCGATGTGGTGGAGGAAGAGAAGCAACTCTCCCTGGGCCTGGATGCCCTGCGCGACCTGCCGTGCATAACCCTCGATGGCCATCGCATGCCGCTGTGGGTCAACACCGGCCTGCTGGCCGATGTGGCCCGGGCGCAGAAGCGTGGCGCCGAGGGCGTGGGCCTGTACCGCACCGAAGTGCCGTTCATGATCAACCAGCGTTTCCCCAGCGAAAAGGAACAGCTGGCGATCTACCGCGAGCAATTGTCCGCGTTTCATCCGCAACCGGTGACCATGCGTAGCCTGGACATCGGCGGCGACAAATCGCTGTCCTACTTCCCGATCAAGGAAGACAACCCGTTCCTCGGCTGGCGCGGGATCCGCGTGACGCTCGACCATCCGGAAATCTTCCTGGTCCAGGCCCGCGCCATGCTCAAGGCCAGCGAAGGCCTGAACAATCTGCGCATCCTGTTGCCGATGATCTCTGGCACCCATGAGCTGGAAGAAGCCCTGCACCTGATCCACCGGGCCTGGGGCGAGGTGCGCGACGAAGGCACCGACGTACCCATGCCGCCGGTGGGCGTGATGATCGAGATTCCGGCAGCGGTGTACCAGACCAAGGAACTGGCGCGGCAGGTGGACTTCCTGTCGGTAGGCTCCAACGACCTGACCCAGTACCTGCTGGCCGTGGATCGCAACAACCCACGAGTGGCCGACCTCTACGACTACCTGCACCCGGCCGTGCTGCAAGCCTTGCAGAACGTCGTTCGCGACGCCCATGCCGAGGGCAAGCCGGTGAGCATCTGCGGCGAAATGGCTGGCGACCCGGCGGCGGCGGTGCTGCTGATGGCGATGGGCTTCGACAGCCTGTCGATGAACGCCACCAACCTGCCGAAAGTGAAATGGATGCTGCGCCAGATCAACCTCAGCAAGGCCCAGGAGCTGCTGGCGGAGCTGATGACCATCGACAATCCGCAGGTGATCCATAGCTCCTTGCAGTTGGCGCTGAAAAACCTCGGGCTGGCGCGGATGATCAACCCGGCTTCGAACAAGACCCTCTAG	MLNTLRKIVQEVNSAKDLKAALGIIVLRVKEAMGSQVCSVYLLDPETNRFVLMATEGLNKRSIGKVSMAPNEGLVGLVGTREEPLNLENAADHPRYRYFAETGEERYASFLGAPIIHHRRVVGVLVIQQKERRQFDEGEEAFLVTMSAQLAGVIAHAEATGSISGLGRQGKGIQEAKFVGVPGSPGAAVGTAVVMLPPADLDVVPDKTIADINAELGLFKTAIEGVRADMRALSAKLATQLRPEERALFDVYLMMLDDASLGSEVTTVIKTGQWAQGALRQVVTDHVNRFELMDDAYLRERASDVKDLGRRLLAYLQQERQQTLVYPDNTILVSEELTPAMLGEVPEGKLAGLVSVLGSGNSHVAILARAMGIPTVMGLVDLPYSKVDGIQMIVDGYHGEVYTNPSDVLRKQFADVVEEEKQLSLGLDALRDLPCITLDGHRMPLWVNTGLLADVARAQKRGAEGVGLYRTEVPFMINQRFPSEKEQLAIYREQLSAFHPQPVTMRSLDIGGDKSLSYFPIKEDNPFLGWRGIRVTLDHPEIFLVQARAMLKASEGLNNLRILLPMISGTHELEEALHLIHRAWGEVRDEGTDVPMPPVGVMIEIPAAVYQTKELARQVDFLSVGSNDLTQYLLAVDRNNPRVADLYDYLHPAVLQALQNVVRDAHAEGKPVSICGEMAGDPAAAVLLMAMGFDSLSMNATNLPKVKWMLRQINLSKAQELLAELMTIDNPQVIHSSLQLALKNLGLARMINPASNKTL	PGPT0002030_269	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0002030-ptsP-K08484	NA	NA
D1-35_03119	480	rppH_1	COG0494	RNA pyrophosphohydrolase	GTGATCGATCCCGATGGTTTCCGTCCCAATGTGGGGATCATTCTTACGAATGATGCCGGACAGGTGCTATGGGCTCGCCGTATCAATCAAGACGCCTGGCAGTTTCCACAGGGAGGGATCAACCCCCAGGAGACGCCGGAAGAGGCTTTGTACCGCGAGTTGAACGAAGAAGTGGGGCTGGAGCGAGAGGATGTCGAAATACTCGCCTGCACCCGAGGCTGGTTGCGTTATCGTTTGCCGCAACGCCTGGTCCGCACGCACAGCCAACCGCTGTGTATCGGCCAGAAGCAGAAATGGTTTCTCCTGCGCCTGATCTCCAACGAGCAGCGGGTGCGGATGGATTTGACCGGTAAACCGGAATTCGATGGCTGGCGCTGGGTCAGTTATTGGTATCCGTTGGGCCAGGTGGTGACATTCAAGCGCGAGGTGTATCGACGCGCTCTCAAAGAGCTTGCCCCGCGCCTGCTGACGCGCGACTGA	MIDPDGFRPNVGIILTNDAGQVLWARRINQDAWQFPQGGINPQETPEEALYRELNEEVGLEREDVEILACTRGWLRYRLPQRLVRTHSQPLCIGQKQKWFLLRLISNEQRVRMDLTGKPEFDGWRWVSYWYPLGQVVTFKREVYRRALKELAPRLLTRD				NA	NA	NA	NA	NA
D1-35_03120	657		COG0560	putative phosphatase	ATGCGGCTGGCTTTATTCGACTTGGACAACACGCTGCTGGGCGGCGACAGCGATCACGCCTGGGGCGATTACCTCTGCGAGCGCGGGTTTCTGGATGCCGTCACCTACAAGGCGCGCAACGATGAGTTTTACCAGGACTACCTGGCCGGCAAGCTGGACAACGCCGCGTACCTGAATTTCTGCCTGGAAATCCTCGGCCGTACCGAGATGGAGGTGCTGGCGCAGTGGCATCTCGAATACATGCGCGACTGCATCGAGCCGATCGTGCTGCCCCAAGCCATCGAGCTGCTGAAAAAACACCGTGATGCCGGCGACAAGCTGGTGATCATCACCGCCACCAACCGCTTCGTCACCGCGCCGATTGCCGAGCGTCTGGGCGTCGAAACCCTGATCGCCACCGAGTGCGAAATGATTGACGGTCGCTACAGTGGGCGCAGCACCGACATCCCCTGTTTCCGCGAGGGCAAGGTGACCCGGCTGAATCGCTGGCTGGAAGAAACCGGGTATTCGCTGGACGACAGCTACTTCTATAGCGACTCGATGAACGACTTGCCGCTGTTGGAAGCAGTGACGCACCCGGTGGCGGTGGATCCGGATTCGAACCTGCGGGCCGAGGCCGAGAAACGCGGCTGGCCGGTGATCAGCCTGCGCGATTGA	MRLALFDLDNTLLGGDSDHAWGDYLCERGFLDAVTYKARNDEFYQDYLAGKLDNAAYLNFCLEILGRTEMEVLAQWHLEYMRDCIEPIVLPQAIELLKKHRDAGDKLVIITATNRFVTAPIAERLGVETLIATECEMIDGRYSGRSTDIPCFREGKVTRLNRWLEETGYSLDDSYFYSDSMNDLPLLEAVTHPVAVDPDSNLRAEAEKRGWPVISLRD	PGPT0015285_14	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-INHIBITION_OF_SALICYLIC_ACID|JASMONIC_ACID	ADAPTION_TO_PIS_REGULATION_BY_Nod_FACTORS,PGPT0015285-nodU-K00612	NA	NA
D1-35_03121	468			hypothetical protein	ATGAGCATTTACGTGCTGCTGAAAACCCTGCACATCCTGTCCTCGACCATCCTCTTCGGCTTGGGCGCGGGGTCCGCCTACTACGCGCTGCGGGCCTGGCGCAGCGGCAAGCTTGAAGTCATTGCCGTCACCTTCAAGCATCTGGTCTTCGCCGATTGGGCGTTCACGGCCACCACCGCCGTGTTCCAGCCGCTGAGCGGCCTGGCCCTGATGCATGTGGCCGGCTGGCCACTGCAACAGAGCTGGTTGATGTGGAGCATCGGCCTTTATTGCCTGGCGGGCGCTTGCTGGCTGCCGGTGGTCTGGTTGCAGATCCGCGTGCACAAAATGGCCGAGCAAGCCTTGCAGGACGGCACGCCCATGCCGCTCAAGGCCAGCACCTACATGCGCTGGTGGTTTGCGCTGGGCTGGCCGGCGTTCCTCGCGTTCATGGTGATCTTCTACCTGATGGTGGCCAAGCCTGCGTGA	MSIYVLLKTLHILSSTILFGLGAGSAYYALRAWRSGKLEVIAVTFKHLVFADWAFTATTAVFQPLSGLALMHVAGWPLQQSWLMWSIGLYCLAGACWLPVVWLQIRVHKMAEQALQDGTPMPLKASTYMRWWFALGWPAFLAFMVIFYLMVAKPA				NA	NA	NA	NA	NA
D1-35_03122	1257			hypothetical protein	ATGAAGATCCTACTGGTGGGAGGCGGCGGTTTTATCGGGCGCCATCTGCTGCGAGCGTTGCACAGCGCTGGCCACTCGATCATCGCAACCAGCCGTGAACCTCAGGCGCCAGGTTGGCCTGGGGTTGAATGGCGGCAGCTGGATCTCGGTGTACTGGCAGGCGACCCTGAACACTTTGCCTTGCCCCTGGACGTCGAATTGCTGATCAACGCGGCCGGCCTGCTCAGCGTCGACACCGAGGCGCTGAGCCTGGTCCAGGATCGGGGCGCGCGAGCGTTGTTCGACCAGGCCGCGCGCCGCGGCGTCCGGATCCTGCAGATTTCCGCGCTGGGCGCGAGTGCCCAATCCGACGTGCCGTTCCTGGCGAGCAAAGGCTTGGCCGACGAATATCTTTGCACGCTGGACAGCGTATCGGTGGTGCTGCGGCCCTCGTTGGTGGTGGGACCAGGCGGCGCGAGCAGCTGCTGGATGGAAGGCCTTTCGCCGTGGCCGTTGATTCCCTTGCTGAATCTTCAAGCGCGCATCCAGCCCGTACATGTCGATGACCTGGTGGGCGCGGTGCTCGCCCTGCTGCGGCAATGGCCGAACGAGTCGGTGGTGTTGCCGCTGGTAGGACCGGAGCCGATGACGCTGGCCCGACTCATCGATCATCTGCGCGCCGCCCAAGGTTGGGCGCCGGCCCGCTACATCAAGGCCCCTGCGCTGTTGACTGAACCGGGTAGCCGGCTTGGGGATCGGTTCGGCTGGCGGGCATTGAACAGGCAAAGCCTGGCCTTGGCACAACGGGACAATCTGGCCGACCCCGCGGCACTCGCGTCAATCTGCGGGTATTACGCCGCCCCCGTACAAACCCGCTTGCAGGATTGGCCCAGCCCAGCCCAGAGCAGCCTCAGAGCGATCCGCCCGCTGATGCTCGCGGTACTGGCGATCATCTGGCTGGGTACCGCCATCGTCTGCCTCGGCCCCGGCTACGATTGGGGCTTGCGTATCATGGCCGAAGCCGGTGTCCACGGCGCCTGGGCGAAGCTTGCGGTAATCGCCGGCGCGCTGTGTGACGGCGCGCTGGGCGTGGGCATGCTATTCAAGCGCTGGCGCCGCCAGGCATTGCGGTTGCAGTTGGGATTGATGCTCGGCTACACGCTGTGCATCAGTTTTATCCTACCGCACTATTGGTTTGACCCTTATGCGGCTGTCGCCAAGAACCTGGTGCTGATAGTCGCGACTTTATGGCTGCTTTGGACTGAACCGCGCCGATGA	MKILLVGGGGFIGRHLLRALHSAGHSIIATSREPQAPGWPGVEWRQLDLGVLAGDPEHFALPLDVELLINAAGLLSVDTEALSLVQDRGARALFDQAARRGVRILQISALGASAQSDVPFLASKGLADEYLCTLDSVSVVLRPSLVVGPGGASSCWMEGLSPWPLIPLLNLQARIQPVHVDDLVGAVLALLRQWPNESVVLPLVGPEPMTLARLIDHLRAAQGWAPARYIKAPALLTEPGSRLGDRFGWRALNRQSLALAQRDNLADPAALASICGYYAAPVQTRLQDWPSPAQSSLRAIRPLMLAVLAIIWLGTAIVCLGPGYDWGLRIMAEAGVHGAWAKLAVIAGALCDGALGVGMLFKRWRRQALRLQLGLMLGYTLCISFILPHYWFDPYAAVAKNLVLIVATLWLLWTEPRR				NA	NA	NA	NA	NA
D1-35_03123	414			hypothetical protein	ATGGAAACTCTGCTGACCTTGAAAGTCCTGCACGTCGCGGCCACGGTCCTGCTGCTGGCATGCGGTGTAGTCCTTGCCGTCCTGGCCTGGCGTAAACGCAGCGAGGGACCGGCCAGCACGCTGCGGCGTCCCTGGCTGTTGGCCTGGTGCGTGATGCTGGTCTGCATGCTGAGCATGCCGTTCACCGGCTGGTGGCTGGTTCACCTGGTGGGCTGGCCGTTGGGGCAAAGCTGGCTGTTGGGCTCCAGCGTGATCTACACGGTGGCGACGCTCTGCGTTTTCTGGCTGCTGGCAAGGCTCAATCGTCTGCGCTTGGGCAGCGGCGGCAGCAGCAGGTTTACCCTGGCATTGGCGATCATCGGTGGCGTCGGCTTCCTGTCCATCGCCGCGCTGATGGGTGCCAAGCCGATTTAA	METLLTLKVLHVAATVLLLACGVVLAVLAWRKRSEGPASTLRRPWLLAWCVMLVCMLSMPFTGWWLVHLVGWPLGQSWLLGSSVIYTVATLCVFWLLARLNRLRLGSGGSSRFTLALAIIGGVGFLSIAALMGAKPI				NA	NA	NA	NA	NA
D1-35_03124	1515	ilvA_1	COG1171	L-threonine dehydratase biosynthetic IlvA	ATGCTCGAACAGTACGTCAAGAAGATCCTCACCTCGCGCGTTTATGACGTTGCCGTTGAAACCCCGCTGCAGACCGCCCGCCAGCTCTCCGAGCGGCTGGGCAATGACGTCTGGCTCAAGCGTGAAGACCTGCAGCCGGTGTTCTCGTTCAAGATTCGCGGGGCCTACAACAAGCTGACCCAACTCAGCGACGAAGAGCGCGCCCGTGGCGTAGTCACGGCCTCGGCCGGCAACCACGCCCAGGGCCTGGCGCTGGCAGCCAAGGTGCTGGGCGTCAAAGCCACCATCGTCATGCCCAAGACCACCCCGGAAATCAAGGTCGAAGGCGTACGCTCCCGCGGCGGCAAAGTGGTGTTGCATGGCGACTCGTTCCCCGAGGCGCTGGCGTATTCGCTGAAGCTGGTCGACGAAAAGGGCTACGTCTATATCCATCCCTATGACGACCCTCATACCATCGCCGGGCAGGGCACCGTGGCGATGGAGATCCTCCGCCAGCACCCCGGGCGCCTCGATGCGATATTCGTCCCGGTGGGCGGTGGCGGGCTGATTGCCGGCATCGCGGCCTACGTGAAATACCTGCGCCCCGAGATCCGGATCATTGGCGTCGAGCCGGATGACTCCAATTGCCTGCAAGCGGCCCTGGCCGCCGGTGAGCGCGTGGTATTGCCGACCGTCGGCCTGTTCGCCGACGGCGTGGCCGTGGCGCAGATCGGCCAGCACACCTTTGATATCTGCAAGCACTACGTGGATGAAGTGATCACCGTCAGCACCGACGAGATCTGCGCAGCTATAAAGGATATCTACGACGATACCCGCTCGATCACCGAGCCGGCCGGCGCCTTGGGCGTGGCCGGGATCAAGAAGTACGTCGAATCGCGGGGCATCAGCGGTCAGACCCTGGTGGCCATCGATTCCGGCGCCAACGTCAACTTCGATCGCCTGCGCCATGTGGCCGAACGCGCCGAGCTGGGCGAAGGGCGCGAGGCGATCATCGCCGTGACCATTCCCGAGCAGCCGGGCAGCTTCAAGGCCTTCTGCGAAGCCATCGGCAAACGCCAGATCACCGAATTCAACTACCGCTACAACACCGGCAGCGAAGCGCACATTTTCGTCGGCGTACAGACGCATCCGGAAAACGATCCGCGCAGCAAGTTGATCGCCAGCCTGACCGAGCAAGGCTTTCCGGTGCTGGACTTGACCGACAACGAGCTGGCCAAGCTGCACATCCGCCACATGGTCGGCGGACACGCCGCCCACGTCATCGACGAAGTGGTGCTGCGTTTCGAGTTCCCGGAGCGTCCGGGCGCGTTGTTCAACTTCCTCAACAAGCTGGGCGGGCGTTGGAATATCTCGATGTTCCACTACCGCAACCATGGCGCGGCGGATGGTCGCGTGGTCGCCGGGCTGCAAGTGCCTCACGATGAACGCCACCTGGTACCGGCCGCCCTGGAAGAAATCGGCTATCCGTATTGGGATGAAAGCGATAACCCGGCCTATCAGCTGTTTCTTGGTTGA	MLEQYVKKILTSRVYDVAVETPLQTARQLSERLGNDVWLKREDLQPVFSFKIRGAYNKLTQLSDEERARGVVTASAGNHAQGLALAAKVLGVKATIVMPKTTPEIKVEGVRSRGGKVVLHGDSFPEALAYSLKLVDEKGYVYIHPYDDPHTIAGQGTVAMEILRQHPGRLDAIFVPVGGGGLIAGIAAYVKYLRPEIRIIGVEPDDSNCLQAALAAGERVVLPTVGLFADGVAVAQIGQHTFDICKHYVDEVITVSTDEICAAIKDIYDDTRSITEPAGALGVAGIKKYVESRGISGQTLVAIDSGANVNFDRLRHVAERAELGEGREAIIAVTIPEQPGSFKAFCEAIGKRQITEFNYRYNTGSEAHIFVGVQTHPENDPRSKLIASLTEQGFPVLDLTDNELAKLHIRHMVGGHAAHVIDEVVLRFEFPERPGALFNFLNKLGGRWNISMFHYRNHGAADGRVVAGLQVPHDERHLVPAALEEIGYPYWDESDNPAYQLFLG	PGPT0001960_1819	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
D1-35_03125	675	rpiA	COG0120	Ribose-5-phosphate isomerase A	ATGACCCAGGATCAACTCAAACAGGCCGTGGCCCAGGCCGCCGTCGACCTCATCCTCCCGAAGCTGGATGACAAGAGCATCGTCGGGGTCGGCACCGGCTCGACCGCCAATTGCTTTATCGACGCGCTGGCGCAGCACAAGGGTGCGTTCGATGGCGCGGTCGCCAGCTCCGAAGCCACCGCCGCGCGCCTCAAGGGCCACGGGATCCCGGTGTACGAGCTCAACACCGTGAGCGACCTGGAGTTCTACATCGACGGCGCCGATGAAAGCGATGCGCACCTGAACCTGATCAAGGGCGGTGGCGCTGCATTGACCCGCGAGAAGATTGTCGCGGCAGTCGCCAAGACCTTCATCTGCATCGCCGACGCCAGCAAGCTGGTGCCGGTACTCGGCGCCTTCCCGCTGCCGGTGGAAGTTATCCCCATGGCCCGCAGCCACGTCGCCCGTCAGTTGGTGAAACTGGGCGGCGATCCGGTGTATCGCGAAGGTGTGCTGACCGACAACGGCAACATCATCCTGGATGTCCACAACCTGCAGATCACCAACCCGGTTGAGCTGGAAAGCCAGATCAACGCCATTGTCGGCGTGGTCACCAACGGCTTGTTCGCCGCGCGTCCGGCGGATGTGCTGTTGCTGGGGACTGCTGAAGGGGTGAAGACGCTGCGGGCTGAATAA	MTQDQLKQAVAQAAVDLILPKLDDKSIVGVGTGSTANCFIDALAQHKGAFDGAVASSEATAARLKGHGIPVYELNTVSDLEFYIDGADESDAHLNLIKGGGAALTREKIVAAVAKTFICIADASKLVPVLGAFPLPVEVIPMARSHVARQLVKLGGDPVYREGVLTDNGNIILDVHNLQITNPVELESQINAIVGVVTNGLFAARPADVLLLGTAEGVKTLRAE	PGPT0017390_2647	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
D1-35_03126	915	yjiK	COG3204	putative protein YjiK	ATGCGTCGACTTGTCCGTCCCAAGCCACTGTTCCTGCTGTTGCTGGCCATCGTGCTGATCGCCCTGATCGCGGCGGGCCAGTACCTGCGCCTGTTCGAACGAGCCTGGTTCAACATGAGCAGCCTGTGGCACCCCGTCAACGAGCAGGCAATCGCACTGGATCAGTACCAGGTCGCGCTTGAGGCGCAGGTGATCGAAGGGTTGGACGATGACGTTTCGGCGCTGACCTTCGATCCGATCCGCAAGACCCTGTTCACCGTGACCAACAAGAATCCCGAGCTGATCGAGCTGTCGCTGGACGGCAAGATCTTGCGGCGCATAGCCCTGGTCGGGTTTGGTGATTCGGAAGCGGTGGAATTCATCAGCGAGAATATCTATGTCATCACCGATGAGCGCCAACAACGGCTGATCAAGATCCATCTGGACGACGACACCCGGTTCCTGGACGCGGCCGAAGCCGAGCAGATCTCGCTCGGCGTGCACATGAGCAGCAACAAGGGTTTCGAAGGGCTGGCCTACGACTCCCTGGGCAAGCGGCTATTCGTGGCGAAGGAGCGCGACCCGATGCTGATCTACGAGGTCCACGGGTTTCCCCACCACAACCCGGAAAAATCCTATGCGGTGCACGTCGTCAACAATCCCAAGCGTGACGCCGGGCTCTTTGTGCGCGACCTTTCAAGCCTGCAATACGATGAGCGCAGCGGTCACCTGATGGCGCTGTCCGACGAGTCGCGGTTGATCATCGAGCTGGATATCAACGGCCGTCCGTTGAGCACGCTGTCGTTGAGCAAGGGCCGCAACGGCCTGCAGAAAACCGTCCCCCAGGCTGAAGGCCTGGCCATGGATGACGATGGCAACCTGTATGTGGTGAGTGAGCCGAATCTGTTTTACGTGTTCAAGAAGCAGCAGCCTTGA	MRRLVRPKPLFLLLLAIVLIALIAAGQYLRLFERAWFNMSSLWHPVNEQAIALDQYQVALEAQVIEGLDDDVSALTFDPIRKTLFTVTNKNPELIELSLDGKILRRIALVGFGDSEAVEFISENIYVITDERQQRLIKIHLDDDTRFLDAAEAEQISLGVHMSSNKGFEGLAYDSLGKRLFVAKERDPMLIYEVHGFPHHNPEKSYAVHVVNNPKRDAGLFVRDLSSLQYDERSGHLMALSDESRLIIELDINGRPLSTLSLSKGRNGLQKTVPQAEGLAMDDDGNLYVVSEPNLFYVFKKQQP				NA	NA	NA	NA	NA
D1-35_03127	933			hypothetical protein	ATGGCCAAGACCCAAGCACTGCCCACCCCCAAAGCATCCCGTCGCTCTCGCTTCGCCCTGCCCTGGTATGTCTGGCTGCTGATCGCGGGCGCCAGCGCTTATGGCCTGGCATTCGCCATGCATTGGGACGACCGGGGCCTGCTTTGGGTGTCGGAGCGCTTCCAGAGCCAGGCCGAGCGTCGGGAAAGCATCTGGCTGCCTGATTACCACGCTGTCATTGACGCCAAGGCGCTCCCGGGAATGGAAGACGACGAAGCGTCCGACCTGACCTATAGCCCACAGACCAAGACCCTGTTCGCGGTGATGGGCAAAAATCCGTTCCTGGTGGAGCTGAACCTGCAGGGTGACGTATTGCGCAAGATGCCGCTGGTGGGCTGGGGCAACCCTGAAGGCGTGGCTTTCATGGAAAACGGCCTGCTGGCCATCACCGATGAACGCAAGCACACGCTATCGATCGTCCAGGTCGACGCCAATACCCGCGAGCTGAACATCAAGGACTTCCCCCAATATGACCTGGGCACGTCGAAGAACCAGAACAAGGGCTTCGAAGCCATCGTCTGGGACCCGAAGAATCAGCAACTGATCCTTGGCGAAGAGCGCCCACCGGCATTGTTCACCTGGAAAAGCGACGGGAGCCAGTTGCTCAAGGGCGACAAGCAGATCCATGTCAGCAACGAACTCGACCTGCGCAACCTGTCCGCCCTGGCCGTAGACCCGCGCACCGGCCACACGCTGGTGCTATCGGCCGACTCCCATTTATTGCTGGAACTGGACGAAGCAGGCGATCAGGTCAGCTTCATGACCCTGCTCGGCGGCTTCAACGGCCTGAAGGACACGATCCCTCGCGCCGAAGGCGTCACTGTCGATGAAGCCGGCACTCTCTACATCGTCAGTGAACCGAACCTGTTCTACCGTTTCGAAAAACAGCACTGA	MAKTQALPTPKASRRSRFALPWYVWLLIAGASAYGLAFAMHWDDRGLLWVSERFQSQAERRESIWLPDYHAVIDAKALPGMEDDEASDLTYSPQTKTLFAVMGKNPFLVELNLQGDVLRKMPLVGWGNPEGVAFMENGLLAITDERKHTLSIVQVDANTRELNIKDFPQYDLGTSKNQNKGFEAIVWDPKNQQLILGEERPPALFTWKSDGSQLLKGDKQIHVSNELDLRNLSALAVDPRTGHTLVLSADSHLLLELDEAGDQVSFMTLLGGFNGLKDTIPRAEGVTVDEAGTLYIVSEPNLFYRFEKQH				NA	NA	NA	NA	NA
D1-35_03128	666	ycgM	COG0179	putative protein YcgM	ATGAGCTATCAGCACCAGTATGTCGACGGTACGCGTATTCATTTCCCGATCGGGAAAGTGGTGTGCATTGGCCGCAACTATGCCGAGCATGCAAAGGAACTGGATAATCCGGTGCCCACCGAGCCGTTGCTGTTCATCAAGCCAGGCAGCTGCGTGGTGCCGCTGGAAGGCGGTTTCAGCATTCCCACCGACCGCGGGTCGGTGCATTACGAGGCGGAAATCGCCGTGCTGATCGGCAAGCCGCTGTCCACCCGGCCCAGCGCTGAGGAAGTGCTGGACGCGATCTCCGGCTTCGCTCCGGCCCTGGACCTGACCCTGCGGGACAAGCAGGCCGAGCTCAAGGGCAAGGGGCTGCCCTGGGAAGTCGCCAAGTCTTTCGACGGCGCGGCGGTGATCGCCCCGTTCGTCTCGAAGGACACCTTCGCCGACCTGACCGACATCCCCGTTCGCCTGGTCATCAATGGCGAAGTGCGCCAGGACGGCAACAGCAGCCTGATGCTCAACCCCATCGTGCCGATGATCCAGTACATGGCCGGCTGTTTCTCGCTGCAAGCCGGCGACGTGATCCTGACCGGCACGCCGGCCGGCGTCGGGCCGTTGAACGTCGGTGACGAGCTGGTGCTGGAACTGCCGGGCGCGAGCCGCTTCGAGAGCAGTGTTCGTTAA	MSYQHQYVDGTRIHFPIGKVVCIGRNYAEHAKELDNPVPTEPLLFIKPGSCVVPLEGGFSIPTDRGSVHYEAEIAVLIGKPLSTRPSAEEVLDAISGFAPALDLTLRDKQAELKGKGLPWEVAKSFDGAAVIAPFVSKDTFADLTDIPVRLVINGEVRQDGNSSLMLNPIVPMIQYMAGCFSLQAGDVILTGTPAGVGPLNVGDELVLELPGASRFESSVR	PGPT0001625_435	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001625-ycgM-K01557	NA	NA
D1-35_03129	1419		COG0277	putative FAD-linked oxidoreductase	ATGAATTGTTCGAGAGTTCTGTCGATGACCAATCCTGCCGTGATAGATGAGCTGAAGACCCTGGTTGAGCCTGGCAAGGTCCTGACCGATGCCGACTCCCTGAATGCTTACGGCAAGGATTGGACCAAGCATTTCGCTCCGGCGCCGGTGGCCATCGTCTTTCCCAAGACCATCGAACAGGTCCAGGCCATCGTGCGCTGGGCCAATGCGCACAAGGTCGCGCTGGTCCCCTCGGGCGGACGTACCGGGCTGTCCGCCGCGGCCGTGGCGGCCAATGGCGAAGTCGTGGTGTCCTTCGACTACATGAACCAGATTCTCGACGTGAACCTGACCGACCGCACCGCCGTGTGCCAGCCGGGCGTGGTCACCGAACAACTGCAGAACAAGGCCGAGGAACATGGCCTGTACTACCCGGTGGATTTTGCTTCGGCCGGTTCCAGCCAGATTGGCGGCAATATCGGCACCAATGCCGGCGGGATCAAAGTCATTCGCTACGGCATGACGCGCAATTGGGTGGCGGGCATGAAAGTCGTCACCGGCAAGGGCGACGTGCTGGAGCTGAACAAGGACCTGATCAAGAACGCCACCGGCTACGATTTGCGCCAGCTGTTCATCGGCGCGGAGGGCACGCTTGGCTTCGTGGTCGAGGCCACCATGCGCCTGGATCGGGCACCGAAAAACCTCACCGCGATGGTGCTCGGCACGCCGGATTTCGATTCGATCATGCCGGTGCTGCATGCCTTCCAGGGCAAACTTGACCTGACCGCATTCGAATTTTTCTCAGACAAGGCCCTGGCCAAGGTCCTCGGTCGCGGCGACGTGCCGGCGCCGTTCGAGACCGACTGCCCGTTCTACGCCGTGCTGGAATTCGAGGCCACCACCGAAGAAGTCGCCAACCACGCGCTGGAAACCTTTGAGCACTGCGTCGAACAAGGCTGGGTGCTGGACGGCGTGATGAGCCAGAGCGAAACCCAGTTGCAGAACCTGTGGAAATTGCGCGAGTACATCTCCGAAACCATCTCGCACTGGACGCCGTACAAGAACGACATCTCGGTAACCGTCTCGAAGGTTCCGGCATTCTTGCGGGAAATCGATGCAATTGTCGGCGAACACTACCCGGACTTCGAAATCGTCTGGTTCGGCCACATCGGCGACGGCAACCTGCACCTGAACATCCTCAAGCCGGAAAACCTGAGCAAGGATGAGTTCTTCGCCAAGTGCGCGACGGTGAACAAATGGGTGTTCGAGACCGTCGAGAAGTACAACGGCTCGATTTCCGCCGAGCACGGCGTGGGCATGACCAAACGCGACTATCTGACCTACAGTCGCTCGCCGGTGGAGATCGAGTACATGAAAGCGGTAAAGGCAGTCTTCGACCCCAACGGCGTCATGAATCCGGGCAAGATCTTCGCGGTTTGA	MNCSRVLSMTNPAVIDELKTLVEPGKVLTDADSLNAYGKDWTKHFAPAPVAIVFPKTIEQVQAIVRWANAHKVALVPSGGRTGLSAAAVAANGEVVVSFDYMNQILDVNLTDRTAVCQPGVVTEQLQNKAEEHGLYYPVDFASAGSSQIGGNIGTNAGGIKVIRYGMTRNWVAGMKVVTGKGDVLELNKDLIKNATGYDLRQLFIGAEGTLGFVVEATMRLDRAPKNLTAMVLGTPDFDSIMPVLHAFQGKLDLTAFEFFSDKALAKVLGRGDVPAPFETDCPFYAVLEFEATTEEVANHALETFEHCVEQGWVLDGVMSQSETQLQNLWKLREYISETISHWTPYKNDISVTVSKVPAFLREIDAIVGEHYPDFEIVWFGHIGDGNLHLNILKPENLSKDEFFAKCATVNKWVFETVEKYNGSISAEHGVGMTKRDYLTYSRSPVEIEYMKAVKAVFDPNGVMNPGKIFAV				NA	NA	NA	NA	NA
D1-35_03130	1230	serA	COG0111	D-3-phosphoglycerate dehydrogenase	ATGAGCAAGACTTCTCTCGATAAGAGCAAGATCAAGTTCCTTCTTCTCGAAGGCGTCCACCAATCGGCTGTCGACGTCCTCAAGTCGGCGGGCTACACCAGCATCGAGTACATCACCAGCTCTCTGCCGGAAGCCCAGCTCAAGGAAAAGATCGCCGATGCTCACTTCATCGGTATTCGCTCCCGTACTCAACTGACCGAAGAGATCTTCGACCACGCCAAGAAGCTGGTCGCGGTCGGCTGCTTCTGCATCGGCACCAATCAGGTTGACCTCAACGCGGCCCGTGAGCGCGGTATCGCGGTGTTCAACGCGCCGTACTCCAACACCCGTTCCGTTGCCGAGCTGGTGCTGGCCGAGGCGATCCTGCTGCTGCGCGGCATCCCCGAGAAAAACGCTTCCTGCCACCGTGGCGGCTGGATCAAGAGCGCGGCCAACTCCTTCGAAATCCGGGGCAAGAAGCTGGGTATCGTCGGCTACGGCTCGATCGGCACCCAGTTGTCGGTACTCGCCGAGGGCCTTGGCATGCAGGTGTTCTTCTATGACACCGTGACCAAGCTGCCACTGGGCAACGCCACCCAGGTCAACGACCTGCACGAATTGTTGGGCATGTCCGACATCGTCACCCTGCACGTACCGGAAACCCCGGCCACCCAGTGGATGATCGGCGAGAAGGAAATCCGTGCCATCAAGAAAGGCGGGATCCTGATCAACGCCGCGCGTGGCACCGTGGTCAAGCTCGACGCCCTGGCCGAAGCGATCAAGGACAAGCACCTGATCGGCGCTGCCATCGACGTGTTCCCGGTAGAGCCGCGCTCCAACGACGACATCTTCGAGAGCCCGCTGCGTGGCCTGGACAACGTGATCCTGACACCGCACATCGGCGGGTCCACCGCTGAAGCCCAGGCCAACATCGGTCTGGAAGTGGCGGAGAAACTGGTCAAGTACAGCGACAACGGTACTTCGGTATCGTCGGTGAACTTCCCAGAAGTGGCCTTGCCCGCTCACCCTGGCAAGCACCGCCTGCTGCACATCCACGAGAACATCCCGGGTGTGATGAGCGAGATCAACAAGGTCTTCGCGGAAAACGGCATCAACATTTCCGGCCAGTTCCTGCAGACCAACGAGAAGGTCGGCTACGTCGTGATCGACGTCGATGCCGAATACTCGGACCTGGCGCAGGAGAAGCTGCAGCACATCAACGGCACCATTCGTTGCCGCGTGTTGTTCTAA	MSKTSLDKSKIKFLLLEGVHQSAVDVLKSAGYTSIEYITSSLPEAQLKEKIADAHFIGIRSRTQLTEEIFDHAKKLVAVGCFCIGTNQVDLNAARERGIAVFNAPYSNTRSVAELVLAEAILLLRGIPEKNASCHRGGWIKSAANSFEIRGKKLGIVGYGSIGTQLSVLAEGLGMQVFFYDTVTKLPLGNATQVNDLHELLGMSDIVTLHVPETPATQWMIGEKEIRAIKKGGILINAARGTVVKLDALAEAIKDKHLIGAAIDVFPVEPRSNDDIFESPLRGLDNVILTPHIGGSTAEAQANIGLEVAEKLVKYSDNGTSVSSVNFPEVALPAHPGKHRLLHIHENIPGVMSEINKVFAENGINISGQFLQTNEKVGYVVIDVDAEYSDLAQEKLQHINGTIRCRVLF	PGPT0009155_3878	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
D1-35_03131	426			hypothetical protein	ATGAAAAGCTTTATGTCTCGTGCCGCGTTGGCTGGCCTGTTGTTGGGCACCTCGATGCTGGCAACAGCGGCGACCCCGGCCCCCAAGGGTGCAGAAGTGTTCATCGTTTCCCCGGAAGATGGCGCCACCGTCAGCCAGGAATTCAAGGTCAAGTTCGGCGTCAAGGATATCGCCCTGGCTCCGGCGGGCGATGTGACCAAGAACACTGGCCATCACCATTTGCTGATCGATGTGGACGACGTGCCGAAGGAAGGCGCGCCGATTCCGACCGACGCCCACCACATGCACTTCGGCAAGGCACAAACCGAGGCCACCATCAAACTGGCCCCGGGCAAGCACACCTTGCAATTGATCCTGGGCGACAGCGGCCATATGCCGTTCGACCCGTCTATCGTGTCCGAGAAAATCACAGTGAATGTGAAGTAA	MKSFMSRAALAGLLLGTSMLATAATPAPKGAEVFIVSPEDGATVSQEFKVKFGVKDIALAPAGDVTKNTGHHHLLIDVDDVPKEGAPIPTDAHHMHFGKAQTEATIKLAPGKHTLQLILGDSGHMPFDPSIVSEKITVNVK				NA	NA	NA	NA	NA
D1-35_03132	567	mltF_3		Membrane-bound lytic murein transglycosylase F	ATGCGTTTCCTGCCTGGCCTGATCTGCCTGCTACCCCTTTTGAGCCCTTTGGCCCATGCCGAATTGATCGACGATATCAACGACCGGGGCGAGTTGCGCATCGCTCTTGAGGCCAACGCGGCGCCCTTCAACTTCAAGGAAGACGGCAAACTCACCGGCTTCGAAGTGGAGCTGGGCGAAATGCTCGCGAGCGAGCTCGATGTACGGGCCGATTTCGTTGTCACCGATGCCGAGGATTTGTTGGCCGGTGTGGAAACCGGCAAATACGACGTCGCCATCAATCACATAGCACTGACCCCGGAACTGGCGGATCGTTTCGATACCAGTACCCCCTACAGCCAACCCGATGCGCAGTTGCTGGCGAGCAAGGACGAGTCGCAACGTCCGCTGGTCATGGCGCAGTCGTTCCAGGCGCAGGAAAAGAAAGGCCCGCCGCCCAGCCTGGTGATTCCGTTCCAGAAGGACAACCCGGCGTTCAAGGCCAGCCTGGACAATGCCCTGGCGCGGATCAAGGAGGATGGGCGGCTGGAGCAGTTGTCGCAGAAGTGGTTGAAACAGCCGGAGTGA	MRFLPGLICLLPLLSPLAHAELIDDINDRGELRIALEANAAPFNFKEDGKLTGFEVELGEMLASELDVRADFVVTDAEDLLAGVETGKYDVAINHIALTPELADRFDTSTPYSQPDAQLLASKDESQRPLVMAQSFQAQEKKGPPPSLVIPFQKDNPAFKASLDNALARIKEDGRLEQLSQKWLKQPE	PGPT0015635_1748	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
D1-35_03133	630			hypothetical protein	ATGAAACACACTGCCGAAGACCTGCACGTCATCACCGCCACGACCCTGGGTCATTACAACGCCGTGGCCGAGAATTTTCGCGAAGGCACCCGCGATCATGATGTCAGCCAGAACATCGATGCGTTGCTGCGCCACATCCGGGGCCAGGCGCCGTTTCATATTCTCGACTTCGGCTGCGGTCCGGGGCGGGATTTGCGTACGTTTACCGGCATGGGCCATGTCGCGGTCGGCCTGGACGGTTCCGAAGAATTCGCCCGGATGGCCCGCCAGGACAGCGGGTGCGAGGTGTGGCAACAGGACTTCCTGAAACTCGACCTGCCGGATGGACGCTTTGATGGGATTTTTGCCAACGCGGTGCTGTTTCATATTCCAGTCCAGGAACTGCCCCGCGTGCTCAGGCAACTGCACGCCACGCTAAAGGCTGGAGGCGTCCTGTTCAGTTCCAATCCACGGGGCGAAAACCAGGAAGGCTGGAACGGCCAGCGCTTCGGCGCCTACCACGACCTCGACGCCTGGCGCAGGCTGCTGGGCGCGGCAGGTTTTGTGGAGCTGGAGCATTATTACCGGCCAGCGGGGCTGCCACGGGAACAGCAGCCTTGGTTGGCGAGCGTGTGGCGTAAACCTGCTTAG	MKHTAEDLHVITATTLGHYNAVAENFREGTRDHDVSQNIDALLRHIRGQAPFHILDFGCGPGRDLRTFTGMGHVAVGLDGSEEFARMARQDSGCEVWQQDFLKLDLPDGRFDGIFANAVLFHIPVQELPRVLRQLHATLKAGGVLFSSNPRGENQEGWNGQRFGAYHDLDAWRRLLGAAGFVELEHYYRPAGLPREQQPWLASVWRKPA				NA	NA	NA	NA	NA
D1-35_03134	645	metI	COG2011	D-methionine transport system permease protein MetI	ATGTGGCTTGATCGCTTATTGCAGGGCTTCATCGACACGTTCCTGATGGTCGGTGTGTCGTCATTGATCGCGTTGCTGGCGGGCATTCCGCTGGCGGTTATCCTGGTCACCAGCGGCAAGGGCGGCATTTACGAGGCGCCGGCGCTGAACCGTGCCTTGGGCGCGTTCGTGAACCTGTTTCGCTCGATCCCGTTCCTGATCCTGATGGTGGCGCTGATTCCGTTCACCCGGCTGATTGTCGGCACGACCTACGGCGTGTGGGCTGCGGTGGTGCCGCTGACCATCGCCGCGACGCCGTTTTTTGCCCGCATCGCCGAAGTCAGCCTGCGGGAAGTCGACCACGGCCTGATCGAAGCGGCCCAGGCCATGGGTTGCCGGCGCTGGCATATCGTCTGGCACGTATTGCTGCCCGAGGCGCTGCCAGGCATCGTCGGCGGCTTTACCATCACTTTGGTGACCATGATCAATTCCTCGGCCATGGCCGGGGCGATCGGCGCCGGTGGCCTGGGTGACATCGCCTACCGTTACGGCTACCAGCGGTTCGACAGCCAGATCATGCTCACGGTGATCGTGCTGCTGGTGGCGCTGGTCGCGGTGATCCAGTTGGGGGGCGATCGTCTGGCGCGCGGCCTGAACAAACGCTGA	MWLDRLLQGFIDTFLMVGVSSLIALLAGIPLAVILVTSGKGGIYEAPALNRALGAFVNLFRSIPFLILMVALIPFTRLIVGTTYGVWAAVVPLTIAATPFFARIAEVSLREVDHGLIEAAQAMGCRRWHIVWHVLLPEALPGIVGGFTITLVTMINSSAMAGAIGAGGLGDIAYRYGYQRFDSQIMLTVIVLLVALVAVIQLGGDRLARGLNKR	PGPT0020515_3795	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072	NA	NA
D1-35_03135	1125	metN_2	COG1135	Methionine import ATP-binding protein MetN	ATGAATGCCGTCAACGCTTTGCTTGAACAGCAAACGCCCACGCGCCGAAGCGCCGAAAGCACCGAGCTGCACCCACAGCTCAACCGGGCCCACGTGCGTTTTGTCGGCCTGGGCAAAACCTACCTGGGCGCCCAAGGGCCGGTGAACGCGCTGCACGGCATCGACCTGGCGATCCAGCGCGGCGAGGTGTTCGGCATCATCGGCCGCAGCGGCGCCGGCAAGTCATCACTGATTCGCACCATCAACCGCCTCGAGCAACCCACCAGCGGTCGGGTGCTGATCGATCAGGTGGACATCGGCGAGTTCGATGAGGATCGCCTGGTCGAGCTGCGCCGGCGCATCGGCATGATCTTCCAGCATTTCAACCTGATGTCGGCCAAGACCGTCTGGCAGAACGTCGAGCTGCCGTTGAAAGTCGCCGGGGTGCCCAAGGAGCAACGCCAGCGCAAGGTCCGCGAGCTGCTCGAACTGGTGGGTCTGGATGGCAAGCACAAAGCCTATCCGGCACAACTCTCAGGCGGGCAGAAGCAGCGGGTCGGCATCGCCCGGGCGCTGGTCCACGACCCGCAGATCCTGCTGTGTGACGAGGCCACTTCGGCGCTGGATCCGGAGACCACTCAGTCGATCCTCCGCCTGCTGCGGGAGATCAACCAGCGGCTGGGCCTGACGATCGTGCTGATTACCCACGAGATGGCGGTGATCCGCGAAGTCTGCGACCGGGTAGTGGTGCTGGAACAAGGGCGGATCGTTGAGCAGGGGCCGGTCTGGGAAGTCTTCGGCAACCCGCAACATGAGGTCAGCCGGACGCTGCTGGCGCCGTTGCAGCACGCGCTGCCTGAAGAACTGCAGAACCGTTTGCAGCCGCAACCGGCCTCGGCGGACGCCGCCACGGTGCTGCGCCTGCAATTCACCGGTACCGCCCGCGACGAACCGGACCTCGCGGCCCTGTTCGGCGCCCTCGGTGGCCGGGTGCGACTGTTGCACGGCGGCATCGAACGGATCCAGGGACATGGGCTGGGACAATTACTGCTGGCCGTGAGCGGCTCCTCACTGGGCGCCGAGGAGTTGCGTCAGCGGGCAGGTGCATGGGCGCAACAGGTGGAGGTGCTGGGTTATGTGGCTTGA	MNAVNALLEQQTPTRRSAESTELHPQLNRAHVRFVGLGKTYLGAQGPVNALHGIDLAIQRGEVFGIIGRSGAGKSSLIRTINRLEQPTSGRVLIDQVDIGEFDEDRLVELRRRIGMIFQHFNLMSAKTVWQNVELPLKVAGVPKEQRQRKVRELLELVGLDGKHKAYPAQLSGGQKQRVGIARALVHDPQILLCDEATSALDPETTQSILRLLREINQRLGLTIVLITHEMAVIREVCDRVVVLEQGRIVEQGPVWEVFGNPQHEVSRTLLAPLQHALPEELQNRLQPQPASADAATVLRLQFTGTARDEPDLAALFGALGGRVRLLHGGIERIQGHGLGQLLLAVSGSSLGAEELRQRAGAWAQQVEVLGYVA	PGPT0020520_249	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
D1-35_03136	810	metQ_3	COG1464	D-methionine-binding lipoprotein MetQ	ATGACCAAGCAACTCCTGACCCTGCCAGTCAAAGCACTGGCCCTGGCCCTCGGCCTGTTCAGCTCAGCGCTGTTCGCCGCCGACGCCCCTTTGAAAATCGGCACCACCGCCGCCTTCGCCATTCCTCTGGAGGTCGCTGTCGAAGAGGCCGGCAAACAAGGCTTGAAGGTCGAGCTGGTGGAATTCAGTGACTGGATCGCGCCTAACGTCAGCCTCGCTTCGGGTGACATTGACGTGAATTATTTCCAGCACATTCCCTTCCTGGAAAACGCCAAGGCCGCCGCTGGGTTCGACCTGGTGCCGTTCGCGCCGGGCATCATCAACAACGTTGGCCTCTACTCGAAAAAATACAAAAGCTTCGACGAGCTGCCCGAAGGCGCGAGCGTCGCCATTGCCAACGACCCGATCAACAGCGGTCGCGGCTTGCAACTGCTGGCCAAGGCCGGGCTGATCCAGCTCAAGCCGGGCGTCGGCTACAAGGCCACCGAAGACGACATTGTCGCCAACCCGAAGAAGATCAAGATCCTGCAGGTCGAAGCCGTGCAACTGGTGCGCGCCTATGAAGACGCCGATCTGGTGCAGGGCTACCCGGCCTATATCCGCCTGGCGAATACCTTCGACGCGACGTCCGCGTTGCTGTTCGACGGCCTCGATCACAAGGAATACGTCATCCAGTTCGTGATCCAGCCCAAGAGCAAAAGCGACCCGCGGCTGATCAAGTTCGTCGATATCTATCAGCACTCCCCGGCCGTGCGCGCAGCCTTGGACAAGGCCCATGGCAAGCTCTATCAAGCCGGCTGGGAAAGCTGA	MTKQLLTLPVKALALALGLFSSALFAADAPLKIGTTAAFAIPLEVAVEEAGKQGLKVELVEFSDWIAPNVSLASGDIDVNYFQHIPFLENAKAAAGFDLVPFAPGIINNVGLYSKKYKSFDELPEGASVAIANDPINSGRGLQLLAKAGLIQLKPGVGYKATEDDIVANPKKIKILQVEAVQLVRAYEDADLVQGYPAYIRLANTFDATSALLFDGLDHKEYVIQFVIQPKSKSDPRLIKFVDIYQHSPAVRAALDKAHGKLYQAGWES	PGPT0020510_4237	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
D1-35_03137	1359	dmoA_2		Dimethyl-sulfide monooxygenase	ATGGCCCTCGGCAAGAAAAAAATCCTCCTCAACGCGTTCAACATGAACTGCATCGGCCATATCAACCACGGCTTGTGGACGCACCCGCAGGACATCTCGACCCAGTACAACACGCTCGAATACTGGACCGGTCTGGCCCAGCTGCTGGAGCGCGGTCTGTTCGACGGGTTGTTCATTGCCGATATCGTCGGGGTATATGACGTTTACCAGCAATCGGTGGAGGTCACGCTGAAAGAGTCGATCCAGCTGCCGGTCAACGACCCATTGCTGCTGGTCTCGGCAATGGCTGCCGTCACCCGCAACCTCGGCTTCGGCCTCACCGCCAACCTCACCTATGAGCCGCCGTACCTGTTCGCCCGACGCATGAGCACGCTGGATCACCTGAGCCGTGGCCGGGTTGGCTGGAACATTGTCACCGGTTACCTGGACAGCGCCGCGAAAGCCATGGGCCTTGGCGCGCAGGTCGAGCACGACCGCCGTTATGACCAGGCCGACGAGTACCTGGAGGTGCTCTATAAACTCTGGGAGGGCAGCTGGGAAGACGACGCGGTGCTCAACGATCGCCAGCAACGGATCTACGCCCAGCCAGAAAAAGTGCACAAGGTCAGGCACCAGGGCGAGTTTTATCAGGTCGAGGGTTATCACCTCTGCGAGCCATCGCCCCAACGCACACCGGTGCTGTTCCAGGCCGGCAGCTCCGAGCGCGGCCTGCTGTTCGCCGGGCGCCATGCCGAGTGCGTGTTCATCAGCGGCCAGAACAAGCCGGCGACCAGGGCCCAGGTGGACAAGGTCCGCGCCAGCGCCGTCGCGGCCGGACGCAATGCCGAGGACATCAAGGTGTTCATGGGCCTGAACGTGATTGTCGGCGAGACCGAAGCAGCGGCCTGGGCCAAGCATGCCGAGTACCTGGGGTATGCCAGCGCCGAGGCCGGCGTGGCGCATTTCTCCGCGTCGACGGGCATCGATTTTTCCGAGTACGAACTGGACGAACCGATCCAGTACGTGAAGAGCAACGCCATCCAGTCCGCGACCAAGACCTTGCAGAACAACGACTGGACCCGACGCAAGCTTCTGGAGCAACACGCCTTGGGCGGTCGCTACATCACCGTTGTCGGCTCGCCCGAACAGGTCGCCGACGAGCTGGAATCGTGGATCGCCGAGACCGGCCTCGACGGCTTCAACCTGACCCGCATCGTCACGCCACAAAGCTACGTGGATTTCATCGACCTGGTGATTCCCGAGCTGCAGCGCCGCGGGTCGTACAAGACCGAATACGGCGGGGGGACGTTGCGGGAGAAGCTGTTTCACGCGCAAGCGAGACTACCCGGCCAACACACTGGCTCGAACTACCGGCGATGA	MALGKKKILLNAFNMNCIGHINHGLWTHPQDISTQYNTLEYWTGLAQLLERGLFDGLFIADIVGVYDVYQQSVEVTLKESIQLPVNDPLLLVSAMAAVTRNLGFGLTANLTYEPPYLFARRMSTLDHLSRGRVGWNIVTGYLDSAAKAMGLGAQVEHDRRYDQADEYLEVLYKLWEGSWEDDAVLNDRQQRIYAQPEKVHKVRHQGEFYQVEGYHLCEPSPQRTPVLFQAGSSERGLLFAGRHAECVFISGQNKPATRAQVDKVRASAVAAGRNAEDIKVFMGLNVIVGETEAAAWAKHAEYLGYASAEAGVAHFSASTGIDFSEYELDEPIQYVKSNAIQSATKTLQNNDWTRRKLLEQHALGGRYITVVGSPEQVADELESWIAETGLDGFNLTRIVTPQSYVDFIDLVIPELQRRGSYKTEYGGGTLREKLFHAQARLPGQHTGSNYRR	PGPT0003040_11	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
D1-35_03138	1194	sfnC		putative FMNH2-dependent monooxygenase SfnC	ATGACGCTTTCCCAACACGTCGCGGTGATCACCAGCGATGAACAAGCCCTCATCGTCGCCAGCGACCTGGCCGATGACTTCAAGCGCGACAGCGCCCTGCGCGATCGCGAACGGCGCCTGCCGCACCCGGAGCTGGAAGCCTTCACCCGCTCCGGCCTGTGGGGCATCAGCGTGCCCAAGGCCTACGGCGGCGCCGGCGTTTCCAACGTCACGCTGGCGAAGGTCGTGGCGCTGATCGCCCAGGCCGATGGCTCGCTCGGGCAAATCCCCCAGAACCATTACTACGCCCTGGAAGTGCTGCGGGTAAACGGTAGCGAAGCCCAGAAGCAACGGCTGTATGCCGAAGTGCTGGGCGGTCAGCGGTTCGGCAACGCCCTGGCGGAGCTGGGAACCAGGACTGCTCACGAGCGCACCACCCAACTGCTTCGCGATGGCGACGGGTACCGCATCAACGGCCGCAAGTTTTACGCCACCGGGGCGATCTATGCCCAGCGCATCCCTACTTCGGTGGTGGACGAGAACGGCGTGCAGCAGTTGGCGTTCGTTCCGCGCAGCAGCCAGGGCCTGACGGTTATCGACGACTGGAGCGGTTTCGGCCAGCGCACCACGGGCAGCGGCTCGGTAGTGTTCGAAGCCGTGCATGTCGCCGCCGAAGACGTCGTGCCGTTCCAGAGCGCCTTCGAACGCCCTACTCCGGTGGGCCCGTTGGCGCAGATTCTCCATGCCGCCATCGACACTGGCATTGCCCGCGCCGCCTATGAAGATGCGTTGCATTTTGTCCGCAGCAAAACCCGGCCGTGGATCGACGCCATCAGCGATGTCGCCACCCAGGATCCGCATACGCTCAAGAGCTTCGGTCACCTGGGCGTACGCCTGCACGCCGCCGAAGCCTTGCTGGAGCGCGCCGGCGAATTCCTCGACCGCGCCCAGGCCGACAGCAACGCCGAAACGGTGGCGGCGGCCTCGATTGCCGTGGCCGAAGCCCGGGCCATCAGCACCGAAATCTCCCTGGCCGCCGGCAGCACGCTGTTCGAACTGGCCGGCAGCCAGGCGACCCTGGCCGAACATGGCCTGGATCGTCACTGGCGCAACGCCCGGGTGCATACGCTGCATGACCCGGTGCGCTGGAAATATCACGCGGTCGGCAATTTCTACCTCAACGACGAAAAACCACCGTTGCGAGGGACCATCTGA	MTLSQHVAVITSDEQALIVASDLADDFKRDSALRDRERRLPHPELEAFTRSGLWGISVPKAYGGAGVSNVTLAKVVALIAQADGSLGQIPQNHYYALEVLRVNGSEAQKQRLYAEVLGGQRFGNALAELGTRTAHERTTQLLRDGDGYRINGRKFYATGAIYAQRIPTSVVDENGVQQLAFVPRSSQGLTVIDDWSGFGQRTTGSGSVVFEAVHVAAEDVVPFQSAFERPTPVGPLAQILHAAIDTGIARAAYEDALHFVRSKTRPWIDAISDVATQDPHTLKSFGHLGVRLHAAEALLERAGEFLDRAQADSNAETVAAASIAVAEARAISTEISLAAGSTLFELAGSQATLAEHGLDRHWRNARVHTLHDPVRWKYHAVGNFYLNDEKPPLRGTI				NA	NA	NA	NA	NA
D1-35_03139	1242	soxC_2		Dibenzothiophene desulfurization enzyme C	ATGTCCGATCTGGCGCAAGCAAAGGTCCATAGCGACCTGGATGTCGCTCCATTGTTATTGCCGGCACAGGTGCTGCGCACCGATGCCGAGGCAATCAAGGCCGCGCATGAACTCGCACAGGCTGCTCGCCAGCAGGCCGCACGCCGCGATCAGCAGCGCAAGCTGCCCTGGGCTGAAATCGAGCAATTCACCCGCAGCGGGCTTGGCAGCATTGCCGTTCCTCGTGGGTACGGCGGGCCGCAAGTCTCTTCAGTTACCATCGCCGAAGTGTTCGCGATCATTTCCGCAGCCGATCCGGCCCTCGGGCAGATTCCGCAGAACCAGTTCGGCGTGCTCCAGCTGATTCTCGCCACGGGCACCGAACGGCAAAAGAAAATTCTCCTCCAGAGCGTGCTCGAAGGCTGGCGCATCGGCAACGCCGGGCCGGAGCGCGGCACCCGCAACACCCTGGCCCTCAAGACGCGGATCACCGCCGATGGCGATGGCTTCGTCATCAATGGACAGAAGTTCTACTCCACCGGCGCCCTGTTCGCCCACTGGGTCGCCGTGAAGGCATTGAATGACGAAGGTCGCCAGGTGCTGGCGTTCGTCCGGCGCGGCACCCCGGGCCTGCGCATCGTCGACGACTGGTCGGGCTTCGGCCAGCGCACCACGGCCAGCGGCACCGTGCTGCTGAACAATGTGCGGGTCGACGCCGAACTGGTCCTGGACAACTGGCGCATCAACGAAGCGCCAAACGTGCAAGGCGCCTTCTCGCAGCTGATCCAGGCGGCGATTGACCTGGGCATCGCCCGCGGCGCTATCGATGACGCTATCGCCTTCGTTCGCGAACGCGCCCGGCCATGGATCGATGCCAAGGTCGAGCGGGCCAGCGACGATCTGTACGTGATCGCCGACGTCGGCAAGCTGAAAATCGAACTGCATGCCGCCGAGGCTCTGTTGCGCAAGGCGGGGCATGTACTGGACCAGGTCAACGCCGCGCCGATCACGGCACAGTCCGCCGCCCGCGCTTCGATAGCCGTCGCCGAAGCCAAGGTGCTGACCACCGAAATCGCCCTGCAAGCCAGCGAAAAACTCTTCGAGCTGGCCGGCAGCCGCGCCACCCTTGCCGAGTTCAACCTCGACCGCCACTGGCGCAACGCGCGGGTCCACACCCTGCACGACCCGGTGCGCTGGAAATACCACGCAATCGGCGACTACCACCTGAACGGGACCTTGCCCGCCCGACATTCCTGGATCTGA	MSDLAQAKVHSDLDVAPLLLPAQVLRTDAEAIKAAHELAQAARQQAARRDQQRKLPWAEIEQFTRSGLGSIAVPRGYGGPQVSSVTIAEVFAIISAADPALGQIPQNQFGVLQLILATGTERQKKILLQSVLEGWRIGNAGPERGTRNTLALKTRITADGDGFVINGQKFYSTGALFAHWVAVKALNDEGRQVLAFVRRGTPGLRIVDDWSGFGQRTTASGTVLLNNVRVDAELVLDNWRINEAPNVQGAFSQLIQAAIDLGIARGAIDDAIAFVRERARPWIDAKVERASDDLYVIADVGKLKIELHAAEALLRKAGHVLDQVNAAPITAQSAARASIAVAEAKVLTTEIALQASEKLFELAGSRATLAEFNLDRHWRNARVHTLHDPVRWKYHAIGDYHLNGTLPARHSWI				NA	NA	NA	NA	NA
D1-35_03140	750			hypothetical protein	ATGACATGTACGTCACCGATCCTCGAACTGGCCGCGCCCGCGCTGGCCAATACCCTGCCTACCGGTATCAACATCACCAGTGCCGCTCGGCTGGAAGTGCTCATCACACCTTATTCCGGCATGGACGCGGGCGATCTGGTCGAACTGTTCTGGGATAACTGCTACGTCGGCTCCCGCCAGGTATCCGAGGCGGATACCCATGGCGGCATCACGTTGCGGATACCGGAAAGCTTCGTCGTCAACGGGACGTCATGCATCCATTATCGCGTCATGCGGGTCGGGCGTGGGCCGGCGCTGTCAGCCCCGCAACGGGTGCAAGTCAAACTCGACTGCCCCGGAGGTCGGCCCTCGACCTTGATCGGCGATGAAAACCAGAGCCTGGCACCGGTGCGTATCCCCCAGGCCATCCGTCGCCAAGGCGTCAATCCGAATCAGATCAAGCGTGGCGTACCGCTGACCATCGAGCCCTACCTGAACATGGCCGCCGACGATGCGATCACCGTGCGCTGGGGCGACGTACGCATGGACCTGCCTCGGATCAAACCTTGCGAGGTGGGCCAGCCGATCCATGTCTGGGTGCCACCGGAAATAATCACCGAAGCCGGCGAAGACCTGCGCCTGGAAGTGACCTATTGCATCCTTGATCGTGTAGGCAACACCTCCCATTGGGCACCGCCACGGACATTGAAGATCGGTTGCGCGAATGCGAATCTGAAGAGGCCCGTCCAAAACCTCGTTTATGGCCGTTGA	MTCTSPILELAAPALANTLPTGINITSAARLEVLITPYSGMDAGDLVELFWDNCYVGSRQVSEADTHGGITLRIPESFVVNGTSCIHYRVMRVGRGPALSAPQRVQVKLDCPGGRPSTLIGDENQSLAPVRIPQAIRRQGVNPNQIKRGVPLTIEPYLNMAADDAITVRWGDVRMDLPRIKPCEVGQPIHVWVPPEIITEAGEDLRLEVTYCILDRVGNTSHWAPPRTLKIGCANANLKRPVQNLVYGR				NA	NA	NA	NA	NA
D1-35_03141	759	tcyC	COG1126	L-cystine import ATP-binding protein TcyC	ATGATTGTCGTGGAAAAACTGACAAAGCAGTTCAAGGGTCAGGTAGTGCTCAACGGCATCGACCTGAAGATCGAGGAAGGCGAAGTGGTAGCGATCATCGGCCCCAGCGGCTCGGGCAAGACCACCTTCCTGCGCTGCCTGAACTTCCTCGAAGAACCCAGCAGTGGCCGGATCAAGGTCGGCGACATCGAGATCGATGGCAGCCGCCCGCTGAACCAGCAACAGGGCCTGGTCAGGCGTTTGCGTCAGCAGGTAGGGTTCGTATTCCAGAATTTCAACCTGTTTCCCCATCGCACCGCATTGGAAAATGTCACCGAAGGTCCCCAGGTGGTGAAAAAAATTCCCCGTGCCGAAGCCGAAGCCCTGGGCCGCAAGCTCCTGGCCAAGGTCGGGCTGGCCGGCAAGGAGGACGCCTACCCACGGCGCCTGTCCGGCGGCCAGCAGCAGCGCGTGGCAATTGCCCGGGCGCTCGCGATGGAGCCGGCGGTGATCCTGTTCGACGAGCCGACCTCGGCACTCGACCCCGAGCTGGTGGGCGAAGTACTGGCGACCATTCGCGGCCTGGCCGAAGAAAAACGCACCATGGTGATCGTCACCCATGAAATGGGCTTCGCCCGGGACGTGGCCAATCGCGTGGTGTTCTTCGATAAAGGTGTGATCGTCGAGCAAGGGGAAGCCAAGGCTTTGTTCGCGGCCCCTAAAGAAGAGCGTACTCGACAATTCCTCAGCAAGTTCCTCTCCGCACACGCCGCGCAATAA	MIVVEKLTKQFKGQVVLNGIDLKIEEGEVVAIIGPSGSGKTTFLRCLNFLEEPSSGRIKVGDIEIDGSRPLNQQQGLVRRLRQQVGFVFQNFNLFPHRTALENVTEGPQVVKKIPRAEAEALGRKLLAKVGLAGKEDAYPRRLSGGQQQRVAIARALAMEPAVILFDEPTSALDPELVGEVLATIRGLAEEKRTMVIVTHEMGFARDVANRVVFFDKGVIVEQGEAKALFAAPKEERTRQFLSKFLSAHAAQ	PGPT0020720_317	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
D1-35_03142	666	yecS_4	COG0765	L-cystine transport system permease protein YecS	ATGGAAGCAGCTCTTCAACTCGCGCTGGACTCCACGCCCTTTTTGCTCAAGGGCGCGTATTACACGGTCATCCTCAGCCTGGGCGGCATGTTCTTCGGCTTGCTGCTCGGGTTTGGCCTGGCGCTGATGCGTTTGTCGCGCTTCAAACCGGTGAACTGGATCGCCCGCATCTACGTGTCGTTCTTTCGCGGCACGCCGTTGCTGGTGCAGTTGTTCGTGATCTATTACGGCTTGCCGCAACTGGGCATCGAGCTGGACCCACTGCCGGCGGCACTGATCGGTTTTTCGCTGAACATGGCGGCCTACGCCTGCGAAATCCTGCGGGCCGCGATCAGCTCCATCGAACGCGGCCAGTGGGAAGCGGCGGCCAGTATCGGCATGACCCGCGCGCAGACCCTGCGTCGGGCCATCCTGCCGCAAGCCGCACGCACAGCCCTGCCACCGTTGGGCAACAGCTTCATCTCCCTGGTCAAGGACACTGCATTGGCGGCGACCATCCAGGTACCGGAGCTGTTCCGCCAAGCGCAGCTGATCACCGCCAGAACCTTCGAAATCTTCACCATGTACCTTGCCGCCGCGCTGATCTATTGGGTTCTTGCCACCGTGCTTTCGCACTTGCAGAACGTCTTGGAAGCCCGGGTCAATCGGCATGACCAGGAGTCCTGA	MEAALQLALDSTPFLLKGAYYTVILSLGGMFFGLLLGFGLALMRLSRFKPVNWIARIYVSFFRGTPLLVQLFVIYYGLPQLGIELDPLPAALIGFSLNMAAYACEILRAAISSIERGQWEAAASIGMTRAQTLRRAILPQAARTALPPLGNSFISLVKDTALAATIQVPELFRQAQLITARTFEIFTMYLAAALIYWVLATVLSHLQNVLEARVNRHDQES	PGPT0020715_1113	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
D1-35_03143	801	fliY_1	COG0834	L-cystine-binding protein FliY	ATGAATTTTTCCGCATTACGTCGCAACCTGCTGGTGGGTTCGCTGGGCCTGGCATTGAGCGCCGGGCTGATGGGGCAAGCGGTTGCCGGTGAGCAGCTGCAAAAAATCAAGGACGCTGGTGAGATCAAGATCGGCCTGGAAGGCACTTATCCACCGTTCAGTTTTGTTGATGACAGCGGCAAACTGACTGGCTTCGAAGTGGAATTTTCCGAAGCCCTGGCCAAGGAACTGGGGGTCAAGGTCAAGCTGCAGACGACCCCATGGGCCGGTATCCTCGCCGCCCTGGAATCCAAGCGTCTTGACGCCGTGGTGAACCAGGTGACCATCTCCGAAGAGCGCAAGAAAAAGTACGACTTCTCCGAGCCGTACACTGTTTCCGGGATCCAGGCGCTGGTACTGAGCAAAAAAGCCGACGAACTGAACATCAAGAAGGCCGCTGACCTGGACGGCAAAAAAGTCGGCGTGGGCCTGGGCACCAACTATGAGCAGTGGGTCAAGGCAGAAGTACCGGGCGCCCAGGTCAAGACCTACGACGATGATCCAACCAAGTTCCAGGACCTGCGTGTCGGCCGCATCGATACCATTCTGATTGACCGCCTGGCCGCGCTGGAATACGCCAAGAAAGCCAAGGACACCACCGTCACCAGCGAAGCCTTTTCTCGCCAGGAGTCTGGCATTGCCCTGCGCAAAGGCGAGCCCGAGCTGCTGGCAGCCGTGAACAAAGCCATCGAAAAACTGCGCGCCGACGGCACGCTGAAAAAGCTCTCGGAAAAATACTTCAGCGCTGACGTCACTCAATAA	MNFSALRRNLLVGSLGLALSAGLMGQAVAGEQLQKIKDAGEIKIGLEGTYPPFSFVDDSGKLTGFEVEFSEALAKELGVKVKLQTTPWAGILAALESKRLDAVVNQVTISEERKKKYDFSEPYTVSGIQALVLSKKADELNIKKAADLDGKKVGVGLGTNYEQWVKAEVPGAQVKTYDDDPTKFQDLRVGRIDTILIDRLAALEYAKKAKDTTVTSEAFSRQESGIALRKGEPELLAAVNKAIEKLRADGTLKKLSEKYFSADVTQ	PGPT0015635_855	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
D1-35_03144	1068	dcyD	COG2515	D-cysteine desulfhydrase	ATGCCGGTTGCCCGTGAATACTCAGCTGCCTATAGTCCGGATATCGCTTACAGCCAGTACGGACTCATGATCAAAGAACAGTTGTCTCGCTTCCATCGTCTCGACCTGCTCAGCCATCCGACGCCTCTGGAAAAACTCGACCGTCTCTCCGCCTGGCTCGGTCGCGACATCTACGTCAAGCGCGACGACCTGACGCCTCTGGCACTGGGCGGCAACAAGTTGCGCAAGCTTGAATACCTTGCCGCCGACGCCCTGGCCCAAGGCGCCGACACGCTCGTCACAGCCGGCGCGATCCAGTCCAACCATGTCCGTCAGACCGCTGCCCTGGCCGCGAAGCTGGGCCTGGGTTGTGTGGCGTTGCTGGAAAACCCCATCGGCACCGAGGAAAGCAATTACCTGGGCAACGGTAATCGGCTGTTGCTGGAGCTGTTCGACGCCAAGGTCGAACTTGTCGAAAACCTGGACAACGCAGACGAACAGTTGCAGGCCCTTGCCGGCCGCCTGCGTAGCAACGGGAAAAAACCTTACCTGGTGCCGATTGGCGGGTCGAATGCCCTGGGCGCCTTGGGCTATGTGCGCGCGGGCCTGGAGTTGGCCGAACAGATCAAGGACACCGGGCTTGAATTCGCCGCCGTGGTGCTGGCCTCGGGCAGTGCCGGCACGCATGGCGGCCTGGCGCTGGCACTGAGCGAAACCCTGCCGGACCTTCCCGTGATTGGCGTGACGGTTTCACGCAGCGAGGAAGACCAGTTTCCGAAAGTCCAGGGGCTCGCCGAACGTACGGCGCAGTTGCTGGACATGGCCCTGCCGCCGGCCTTCAAGGTGAACCTGTGGGACGAGTACTTCGCCCCCCGCTACGGCGAGCCCAACGCCGGTACGCTGGCGGCGGTCAAGTTGCTGGCGAGCCAGGAAGGCCTGCTGCTCGATCCGGTCTATACCGGCAAGGCCATGGCCGGGCTGCTCGACGGCATCGGTCGCGACCGCTTTGAAAACGGCCCGATCATTTTCCTGCATACCGGCGGTGCACCGGCGCTGTTTGCCTATGACTCGGTGTTCCAGGCTCGGTAA	MPVAREYSAAYSPDIAYSQYGLMIKEQLSRFHRLDLLSHPTPLEKLDRLSAWLGRDIYVKRDDLTPLALGGNKLRKLEYLAADALAQGADTLVTAGAIQSNHVRQTAALAAKLGLGCVALLENPIGTEESNYLGNGNRLLLELFDAKVELVENLDNADEQLQALAGRLRSNGKKPYLVPIGGSNALGALGYVRAGLELAEQIKDTGLEFAAVVLASGSAGTHGGLALALSETLPDLPVIGVTVSRSEEDQFPKVQGLAERTAQLLDMALPPAFKVNLWDEYFAPRYGEPNAGTLAAVKLLASQEGLLLDPVYTGKAMAGLLDGIGRDRFENGPIIFLHTGGAPALFAYDSVFQAR	PGPT0002000_236	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0002000-cuyA-K17950	NA	NA
D1-35_03145	2001	betT2	COG1292	Osmo-dependent choline transporter BetT2	ATGAGTACTTCGTCCCTCCCATCCAGCGGCCTGGTCCGCATGAATCCGCCGGTGTTTTATTTCGCCGCGACCTTCATCCTGCTGTTCGGCCTGGTCGTCATTGCCGTGCCGGAGCAGGCCGGCGCCTGGTTGCTGGCCGCGCAGAACTGGGCGGCCAATACGGTCGGCTGGTATTACATGCTGGCGATGACCCTGTATCTGGTCTTCGTGGTGGTCACCGCCTTGTCCGGCTACGGCAAGATCAAGCTCGGTGCCGACCACGACGAGCCCGAGTTCAGCTACCTGTCCTGGGCCGGCATGTTGTTTGCCGCCGGGATCAGCATCACCCTGTTTTTCTTCTGCGTTTCCGAGCCCCTGACCCATCTGGTCCAGCCGCCCCAAGGCGAAGCCGGCACCGCCGATGCGGCGCGCCAGGCGATGCAGATCCTATTCCTGCACTGGGGTTTGCACGGCTGGGGTGTGTTCGCTTTCGTTGGCATGGCCCTGGCGTACTTCGCCTACCGGCATAACCTGCCGCTGGCCTTGCGGTCGGCGTTGTACCCGCTGGTCGGCAAGCGCATCAATGGCCCGATCGGTTATGCGGTGGACGGTTTCGGCATCATCGCGACCGTGTTCGGCCTTGGCGCGGATATGGGCTTTGGCGTGCTGCACCTCAATTCCGGTCTGGATTACCTCTTCGGCATCGCTCACACCCAGTGGATCCAGGTCGGGCTGATCGTGCTGATGATGGGCGCGGCAATCATTGTTGCCGTGGCTGGCGTCGACAAGGGCGTGCGCGTCATGTCCGATATCAACATGCTGCTGGCCTGCGCGCTGTTGCTGTTTGTGCTGTTCGCCGGACCGACCCAGCATCTGCTCAATACGCTTATCCAGAATCTCGGCGATTACCTCGGCGCCCTGCCGATGAAGAGTTTCGACCTGTATGCCTACAACGAGCCCAGCGACTGGCTGGGCGGTTGGACAGTGTTCTATTGGGCATGGTGGATCGCGTGGTCACCGTTCGTGGGGCTGTTTATCGCACGGATATCCCGTGGCCGGACGATCCGTGAATTCGTGTTCGGCGTGCTGCTGATCCCCTTGGGTTTCACCCTGGCGTGGATGTCGATTTTCGGTAACAGCGCCATCGATCAGGTCCTGAACCATGGCATGAGCGCCCTGGGCATGTCGGCCCTGGACAACCCGTCGATGAGCCTTTACCTGCTGCTGGAAACCTACCCGTGGAGCAAGACGGTAATTGCGGTCACGGTGTTCATCAGCTTCGTGTTTTTTGTCACGTCCGCCGACTCCGGCACCGTGGTGCTGTCGACATTATCGGCCAAGGGCGGCAGCCCCGATGAGGACGGGCCGAAATGGCTGCGGGTGTTCTGGGGCGCGATGACTGCCCTGGTGACCAGTGCCTTGCTGTTCTCCGGCAGCATCGATGCCTTGAAGTCGGCGGTGGTGCTGACGTCCTTGCCGTTCTCGCTGATTCTGCTGCTGATGATGTGGGGCCTGCACAAGGCGTTCTACCTTGAGTCGCAGAAGCAGATCGCGCAGTTGCATTCCCTCGCGCCGGTGTCGGGCTCCCGGCGGGGCACTGGCGGTTGGCGTCAGCGCTTGAGCCAGGCGGTGCATTTTCCTTCCCGCGACGAGGTGTATCGCTTCCTCGATACCACGGTGCGCCCGGCCATCGAGGAGGTGAAGGCGGTATTCGCCGAAAAGGGCCTGACGGTGGTGACCCAGCCAGACCCGGCCAACGACAGCGTCAGCCTGGAAATCGGCCACGGCGAACAGCATCCGTTCATCTACCAGGTGCAGATGCGGGGTTACTTCACGCCGTCCTTCGCCCGGGGTGGCATGGGCTCCAAACAGATCAACAATCGTCGCTACTACCGCGCCGAAGTACACCTGAGCGAGGGCAGCCAGGACTACGACCTGGTGGGGTATTCCAAGGAGCAGGTCATCAACGACATCCTCGACCAGTACGAGCGGCACATGCAGTTTCTGCATCTGGTGCGCTGA	MSTSSLPSSGLVRMNPPVFYFAATFILLFGLVVIAVPEQAGAWLLAAQNWAANTVGWYYMLAMTLYLVFVVVTALSGYGKIKLGADHDEPEFSYLSWAGMLFAAGISITLFFFCVSEPLTHLVQPPQGEAGTADAARQAMQILFLHWGLHGWGVFAFVGMALAYFAYRHNLPLALRSALYPLVGKRINGPIGYAVDGFGIIATVFGLGADMGFGVLHLNSGLDYLFGIAHTQWIQVGLIVLMMGAAIIVAVAGVDKGVRVMSDINMLLACALLLFVLFAGPTQHLLNTLIQNLGDYLGALPMKSFDLYAYNEPSDWLGGWTVFYWAWWIAWSPFVGLFIARISRGRTIREFVFGVLLIPLGFTLAWMSIFGNSAIDQVLNHGMSALGMSALDNPSMSLYLLLETYPWSKTVIAVTVFISFVFFVTSADSGTVVLSTLSAKGGSPDEDGPKWLRVFWGAMTALVTSALLFSGSIDALKSAVVLTSLPFSLILLLMMWGLHKAFYLESQKQIAQLHSLAPVSGSRRGTGGWRQRLSQAVHFPSRDEVYRFLDTTVRPAIEEVKAVFAEKGLTVVTQPDPANDSVSLEIGHGEQHPFIYQVQMRGYFTPSFARGGMGSKQINNRRYYRAEVHLSEGSQDYDLVGYSKEQVINDILDQYERHMQFLHLVR	PGPT0013600_893	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
D1-35_03146	741	fabG_6		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGACTGCTCAAAACGCCAAAGTCGCCATCGTCACCGGTGCCTCCCGTGGGATCGGCGCGCAGATAGCCAGGCAATTGGCGAGCGACGGGTTTGCCGTCGCCATCAACTTCGCCAGCAGCGCCACCGAGGCCTCGCAGTTGGCGGTACAGTTGCGTCAGGCCGGGCACCCGGCCATAGCGGTGAAGGCCGACGTGTCGGTTGCCGCCGACGTCAGCCGGATGTTCGATGAAGTCGAAGCGCAACTGGGTAGGGTCGATGTGTTGATCAACAACGCCGGCATCCTCCAGGTGATGCCGTTGGCGCAGCACAGCGACGAGCTGTTCGATCGCACGTTCGCCATCAACACCCGTGGCACCTTCAACACCTTGCGCGAGGCCGCGACCCGGCTGAACGATGGCGGCCGCATCGTGAATTTTTCCAGCAGTACCGTGGGCATGAACCTGCCGGGCTACTCGGTGTACATCGCCAGCAAGGCCGCGGTGGAATCCCTGACCCAAGTATTTGCCAAGGAACTGCGCGGTCGCCAGATCACCGTCAACGCCGTGGCCCCGGGGCCGGTCGCCACCGAGCTGTTCATGCAGGGCAAAAGCGAAGAGCAGGTTCAGCACTATGCCAGGATGCCGCCCTTGGAACGCCTCGGCCAGCCGGAAGACATCGCCAGCATCGTGTCATTCCTGGTAAGCCCGGCCGCTGGTTGGGTGAACGGCCAGATCCTGCGGGCTAACGGAGGGCTGGTCTGA	MTAQNAKVAIVTGASRGIGAQIARQLASDGFAVAINFASSATEASQLAVQLRQAGHPAIAVKADVSVAADVSRMFDEVEAQLGRVDVLINNAGILQVMPLAQHSDELFDRTFAINTRGTFNTLREAATRLNDGGRIVNFSSSTVGMNLPGYSVYIASKAAVESLTQVFAKELRGRQITVNAVAPGPVATELFMQGKSEEQVQHYARMPPLERLGQPEDIASIVSFLVSPAAGWVNGQILRANGGLV	PGPT0003180_16718	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
D1-35_03147	891	pgrR_5		HTH-type transcriptional regulator PgrR	ATGGATCAGGTCAAGGCGATGAAGGTGTTTGTCCGTATCTACGAGCGCAGCAGCTTCACCCTGGCTGCCGAAGACCTGAACATGCCCCGGGCCACGCTGACCCACACGCTCAATCAATTCGAAGCCTGGCTGGGTGTCCGTCTGCTGGAGCGCAGCACACGCAGGGTGCGTCCGACCCTCGATGGCGAGGCCTACTACCCACGTTGCGTGCAATTGCTGGCGGAACTTGAAGAAGCCGAGCTGGCGTTTCGCGGCGTGGCGCCCAAAGGCAAGTTGAGGGTAGACCTGCATGGAACCCAGGCGCGGTATTTCGTGATCCCCGCGTTGCCGCAATTCATGGCCCGCTACCCGGATATCGAATTGTTCATCAGTGAAGCGGACCGCTTCGTCGACTTGATCGCCGAGGGCGTCGATTGCGTCGTGCGCTCCGGTACGTTGGCGGATTCGTCGTTGATTGGCCGGCGTGTCGCCAATCTTCGCCAGATCACCTGTGCCAGCCCGGCTTACCTGCGCCAGTACGGTGAACCGAAAAGCCTGGAGGATCTCAAGCAGCACAAGGCGGTGAACTACGTCTCGCGCACCACCGCCAAGCTTTATCCATTCGAATTCATGGTCGACGGCGAACTCAAGGAGGTTTCGATCGGGGGCACGTTGTCGGTGTCCGGGGCAGAAATCTATGCGGCGTCGGCGATCGCCGGCATGGGCCTGATCCAATGCCCGTATTACCGAATGGAGGAGCCGATCCGCCAAGGCCTGATCCGCGAAGTGCTCGTCGCGACACCTCCGCCGTCCATGCCGGTGTCGGTGGTTTATCCACACAACCGACACATGTCACCACGAGTACGGGTGTTTGTGGATTGGGTGGCGGAGGTGTTTGCGCAGGCGCGCTAG	MDQVKAMKVFVRIYERSSFTLAAEDLNMPRATLTHTLNQFEAWLGVRLLERSTRRVRPTLDGEAYYPRCVQLLAELEEAELAFRGVAPKGKLRVDLHGTQARYFVIPALPQFMARYPDIELFISEADRFVDLIAEGVDCVVRSGTLADSSLIGRRVANLRQITCASPAYLRQYGEPKSLEDLKQHKAVNYVSRTTAKLYPFEFMVDGELKEVSIGGTLSVSGAEIYAASAIAGMGLIQCPYYRMEEPIRQGLIREVLVATPPPSMPVSVVYPHNRHMSPRVRVFVDWVAEVFAQAR	PGPT0028940_942	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
D1-35_03148	1038	gpr	COG0667	L-glyceraldehyde 3-phosphate reductase	ATGACCTACACCGCTGCGCAAAACCGCTACGAATCCATCCCTTACCGCCGCGTTGGGCGCAGCGGGCTGGTACTGCCGGCCCTGTCACTCGGCTTGTGGCACAACTTCGGCGACAGCACGCCGATCGACACTCAGCGGGCCTTGTTGCGCACGGCATTCGACCTGGGTATCAACCACTTCGACCTGGCCAACAACTACGGCCCGCCCTACGGCAGTGCCGAAATCAATTTCGGCCGGTTGCTGCGGGAAGATTTCCAGCAATACCGTGATGAACTGATCATCTCCAGCAAGGCCGGCTGGGACATGTGGCCAGGCCCTTATGGCCAGGGCGGCGGTTCGCGCAAATACGTGCTGGCCAGCCTTGACCAGAGCCTTCAGCGCCTCGGTCTGGATTACGTGGACATCTTCTACTCCCACCGTTTCGATCCCGACACGCCACTGGAAGAAACCGCCAGCGCCCTGGCCACCGCCGTGCAGCAGGGCAAGGCCCTGTACATTGGCATTTCTTCCTATTCGGGCGTGAAGACCCGGGAAATGGCGGCGCTGCTTCAGGAATGGAAAGTGCCGCTGTTGATCCATCAGCCGGCCTACAACCTGCTCAACCGTTGGGTCGAGAAGGACTTGCTGGACGCCACCGAGGAACTGGGCACCGGCGTGATCGCCTTCACGCCGCTGGCGCAGGGCCTGCTGACCGACAAATACCTCAAGGGCATTCCCGCCGATGCGCGGGTCAATCGCCCGGGCGGCGGTTCGTTGCAGGCCTCGCATCTGTCAGATGAAAACATCGCCCACGTACGCGCCCTCAACGAGATCGCCCAGCGTCGCGGCCAGAGCCTGGCGCAAATGGCCCTGGCCTGGACATTGCGCGATCCGCGGGTCACCTCGGCCCTGATCGGCGCCAGCCGACCGGAGCAGATCGTCGAGAACATCGGGGCGCTGCAAAATCTCGAGTTCAGCGCCGAAGAACTGGCCGAGATCGACCGGTTTGCCCAAGAGGGCGGGATCAACCTGTGGGAGAAGCCTTCGACGGCTGAGTAA	MTYTAAQNRYESIPYRRVGRSGLVLPALSLGLWHNFGDSTPIDTQRALLRTAFDLGINHFDLANNYGPPYGSAEINFGRLLREDFQQYRDELIISSKAGWDMWPGPYGQGGGSRKYVLASLDQSLQRLGLDYVDIFYSHRFDPDTPLEETASALATAVQQGKALYIGISSYSGVKTREMAALLQEWKVPLLIHQPAYNLLNRWVEKDLLDATEELGTGVIAFTPLAQGLLTDKYLKGIPADARVNRPGGGSLQASHLSDENIAHVRALNEIAQRRGQSLAQMALAWTLRDPRVTSALIGASRPEQIVENIGALQNLEFSAEELAEIDRFAQEGGINLWEKPSTAE	PGPT0008285_529	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-HYDROXYACETONE_VOLATILE_BIOSYNTHESIS,PGPT0008285-yghZ-K19265	NA	NA
D1-35_03149	843	tauD_2	COG2175	Alpha-ketoglutarate-dependent taurine dioxygenase	ATGAGCCGTCCGACCGTTACCCCTCTGAGCGTTGCCCTCGGCGCGCAGATCAGCGGGATCGATATCAGCCAGCCACTGGCCCCGGAAGACCGTGACACCATCGAGCAGGCACTGCTCGAATATCAGGTGCTGTTCTTCCGCGACCAGCCGATCGAACCCGCACAACAGGCCCGTTTCGCCGCGTACTTTGGCGACCTGCACATTCACCCGATCTACCCCAACGTGCCGGAGCAGCCCGAAGTGCTGGTGCTCGACACCGCCGTCACCGATGTGCGCGACAACGCGGTGTGGCACACCGACGTGACCTTCCTGCCGACCCCGGCCATGGGCGCGGTACTCAGCGCCAAGCTGCTGCCGGCATTCGGCGGCGATACGTTGTGGGCCAGCGGCATCGCGGCCTACGAAGCCTTGTCGGCACCGTTGAAAAGCCTGTTGGAGGGCCTGACGGCGACCCACGACTTTACCCGTTCGTTCCCGCTGGAACGTTTTGGCAACACGGCGGAAGATCGGCTACGTTGGGAAGAAGCACGGCGCAAGAATCCACCGCTGTCGCATCCGGTGATTCGCACTCATCCGGTGAGCGGCCGCCGCGCACTGTTCGTCAACGAAGGCTTCACTACGCGCATCAACGAGCTGTCGGAAACCGAAAGCGAGGCGATCCTGAAACTGCTGTTTGCCCACGCGACGCGTCCGGAGTTCACCGTGCGCTGGCGCTGGCAGGCCAACGACGTGGCATTCTGGGATAACCGCGTGACCCAGCATTTCGCCGTGGACGACTACCGCCCCAACCGGCGGGTGATGCACCGGGCGACGGTGTTGGGGGATGTGCCGTTCTTCAGGTGA	MSRPTVTPLSVALGAQISGIDISQPLAPEDRDTIEQALLEYQVLFFRDQPIEPAQQARFAAYFGDLHIHPIYPNVPEQPEVLVLDTAVTDVRDNAVWHTDVTFLPTPAMGAVLSAKLLPAFGGDTLWASGIAAYEALSAPLKSLLEGLTATHDFTRSFPLERFGNTAEDRLRWEEARRKNPPLSHPVIRTHPVSGRRALFVNEGFTTRINELSETESEAILKLLFAHATRPEFTVRWRWQANDVAFWDNRVTQHFAVDDYRPNRRVMHRATVLGDVPFFR	PGPT0002940_1272	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002940-tauD-K03119	NA	NA
D1-35_03150	840	ssuC_2	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGAGCAGCTATGAAATTCCAGCCGTGGCCAACGACGCCGTGGCCGCCCGCCCGCCAGTCCTCGCGCGCCGTACCCTGAGCACGCGATGGATCAGCGGCCTGACGCTGGTGGCGCTGCTGTTGCTCTGGTGGGCCGTTACCGCCAGCGGCCTGATCGAACCGCTCTTCCTGCCGCCGCCCTCCGCCGTGCTGCAAAAAGGCTGGCTGCTGGCTACCAGCGGCTACATGGATTCCACGCTCTGGCAGCACCTCGGCGCAAGCCTCGGGCGGATTGGCCTGGGCCTGCTGTTCGCGGTGTTGACGGCGGTGCCGGTGGGTATCGCCATCGGTGCCAACCGTATTGCCCGCGGCGTACTCGATCCGCTGATCGAGTTCTACCGACCGATTCCACCCCTGGCTTACCTGCCGCTGATCGTGATCTGGTGCGGCATCGGTGAGCTGTCGAAAGTCCTGCTGATCTACCTGGCGATTTTCGCCCCGATCGCCATCTCCACTGCAACCGGGGTGCGCACCGTCGACCCGGCGAAACTGCGCGCTGCCCAATCGCTTGGGGCCACGCGGGCGCAACTGATTCGCCATGTGATCGTACCCAGCGCCCTGCCCGACATCCTCACCGGTATCCGCATCGGCCTGGGCGTGGGCTGGTCGACGCTGGTCGCCGCCGAACTGATCGCGGCCACCAGCGGCCTGGGGTTCATGGTGCAGTCGGCAGCGCAGTTCCTGGTCACCGATGTCGTGGTGCTGGGAATCCTGGTGATTGCGCTGATCGCCTTCGCCATGGAAATGGGCCTGCGCGCCCTGCAACGCAAACTGGTGCCGTGGCACGGCCAGGCCCACTGA	MSSYEIPAVANDAVAARPPVLARRTLSTRWISGLTLVALLLLWWAVTASGLIEPLFLPPPSAVLQKGWLLATSGYMDSTLWQHLGASLGRIGLGLLFAVLTAVPVGIAIGANRIARGVLDPLIEFYRPIPPLAYLPLIVIWCGIGELSKVLLIYLAIFAPIAISTATGVRTVDPAKLRAAQSLGATRAQLIRHVIVPSALPDILTGIRIGLGVGWSTLVAAELIAATSGLGFMVQSAAQFLVTDVVVLGILVIALIAFAMEMGLRALQRKLVPWHGQAH	PGPT0002950_413	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TAURINE_TRANSPORT,PGPT0002950-tauB-K15552	NA	NA
D1-35_03151	795	tauB	COG4525	Taurine import ATP-binding protein TauB	ATGGCCTTGCTACAGCTGGAGCGCATCAGCGCACAGTACCCCGGCGCAACGAAACCGGTACTGGCGGATATTTCGTTGACCTTGGGCCCGCAGCAGTTGCTGGTTGCCCTCGGCCCCTCCGGCAGCGGCAAGACTTCGCTGCTCAACCTGATTGCCGGGTTTGTGGAACCCAGCGCCGGACAGATCACCCTGGACGGCATTCCCGTCAAGGGCCCGGGTGCCGAGCGCGGCGTAGTGTTCCAGGACGATGCGCTGTTGCCCTGGCAAGACGTGTTGGCAAACGTCGGGTTCGGCCTGGAACTGGCGGGAGTTGCCAGGGAGAAGCGCGAGGCTCGCGCTCGGGAAATGCTCGCCCTGGTGGACCTGGCCGGTTTCGAAAAGCGCCGTGTCTGGCAGCTGTCGGGCGGTCAGAAGCAACGCGTCGGGCTGGCCCGCGCGCTGGCGGCCGATCCACGGGTATTGCTGATGGACGAACCTTTCGGCGCCCTGGACGCGTTCACCCGTGAACAGATGCAGGAACTGCTGCTGCAAGTCTGGCAACGTACCGCCAAACCGGTGTTCCTGATTACCCATGACATTGAAGAGGCGGTATTCCTTGCCACCGACCTGATCCTGCTGGCCCCCGATCCGGGCCAGATCGTCGAGCGCCTGAGCCTGGATTTCGGGCGTCGCTACGGCGCGGGGGAAGCGGCGCGGTCGATCAAGTCCGACCCGCGCTTCATCGAAACCCGCGAGCATGTGCTGGCGAAAGTGTTCTCCCAACGCAGCGCCACTCGGCAACAGGAGCGCGCATGA	MALLQLERISAQYPGATKPVLADISLTLGPQQLLVALGPSGSGKTSLLNLIAGFVEPSAGQITLDGIPVKGPGAERGVVFQDDALLPWQDVLANVGFGLELAGVAREKREARAREMLALVDLAGFEKRRVWQLSGGQKQRVGLARALAADPRVLLMDEPFGALDAFTREQMQELLLQVWQRTAKPVFLITHDIEEAVFLATDLILLAPDPGQIVERLSLDFGRRYGAGEAARSIKSDPRFIETREHVLAKVFSQRSATRQQERA	PGPT0002955_295	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TAURINE_TRANSPORT,PGPT0002955-tauC-K10831	NA	NA
D1-35_03152	978	tauA	COG4521	Taurine-binding periplasmic protein	ATGTCTTTGCGTTTCCCCCTTCGCCTTCTCGCGGCCGCCTCCCTGGCCGCGGCGAGCCTTTTCGCCCAGGCGGCCGACCTGACCGTGGCCTATCAGACCACCGTCGACCCGGCCAAAGTCGCCCAGGCCGACGGAGCTTATGAGAAAGCCACCCAGGCCAAGATCAACTGGCGAAAATTCGACAACGGTGCCGATATCATCGCCGCCATCGCTTCGGGCGATGTGCAGATCGGCTACCTGGGTTCCAGCCCGCTGACCGCCGCCATCACCCGCAAGGTTCCGGTGGAAACCTTCCTCATCGCCACCCAGATCGGCGCCGCCGAAGCCTTGGTCGCCCGTGATGGCTCCGGCATCAAGACCCCGCAGGACCTGATCGGCAAGAAAATCGCCGTGCCGTTTGTTTCCACCGGTCATTACAGCCTGCTCGCCGCGCTGAAACACTGGAACATCGACCCGTCGAAAGTCACCGTGCTCAACCTCGCGCCACCGGCCATCATCGCCGCCTGGAAGCGCGGCGACATCGACGCCACCTACGTCTGGGACCCGGCCCTGGGCGTTGCCAAGGAAAACGGCAAGGTGCTGATCACCTCCGCCGAACTGGCCCAGTTCGGCGCGCCAACCTTCGACGCCTGGATCGTGCGCAAGGATTTTGCCCAGAAGCATCCCGAGATCGTCACGGCTTTCGCCAAGGTCACCCTGGACGCCTACGCCCAGTACCGCAAGGACCCGCAAGCCTGGCTGGCCGACGCATCGAACATCGACAAGCTGGTGAAACTCTCCGGCGCCAAGGCCAGCGACATTCCATTGCTGTTGCAAGGCAACGTATTCCCGTTGGTCGCCGACCAGGTGGTCAGCCTCGGTGCCCCAACCACCCAGGCCATCACCAACACCGCCGCGTTCCTCAAGGAGCAAGGCAAGGTTGAAGCCGTGCTGCCGGACTACGCGCCATACGTCAGCGCCAAATACATCACCCGCTGA	MSLRFPLRLLAAASLAAASLFAQAADLTVAYQTTVDPAKVAQADGAYEKATQAKINWRKFDNGADIIAAIASGDVQIGYLGSSPLTAAITRKVPVETFLIATQIGAAEALVARDGSGIKTPQDLIGKKIAVPFVSTGHYSLLAALKHWNIDPSKVTVLNLAPPAIIAAWKRGDIDATYVWDPALGVAKENGKVLITSAELAQFGAPTFDAWIVRKDFAQKHPEIVTAFAKVTLDAYAQYRKDPQAWLADASNIDKLVKLSGAKASDIPLLLQGNVFPLVADQVVSLGAPTTQAITNTAAFLKEQGKVEAVLPDYAPYVSAKYITR	PGPT0002945_707	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TAURINE_TRANSPORT,PGPT0002945-tauA-K15551	NA	NA
D1-35_03153	1584	gshA	COG2918	Glutamate--cysteine ligase	TTGAGCGACCTTTTAAACCGCCGCCTGGCCCTGCTCGGCGAGCGCGCCAACCTCTCCCTGCTCGAGCAGTGCCTGCACGGTATCGAACGTGAATGCCTGCGCGTCACGGGCGACGGGCGCCTGGCGCAGACCCCGCATCCCGAATCCCTGGGCTCGGCGCTGACCAACGAACAGATCACTACTGACTATTCCGAGTCGCTGCTTGAGTTCATCACCCCGGCCCTGGCCAACCCGGCCGACACCCTGCACAGCCTCGACAGGATCCACCGGTTTGTCTACAGCAAGCTCGGCGACGAGTACCTGTGGAGCCCTTCGATGCCGTGTCCGCTGCCGGCCGAGGAAGACATACCGATCGCCTACTACGGCACCTCGAATATCGGTCGACTCAAGTATGTCTACCGCAAGGGCCTGGCCCTGCGCTACGGCAAGACCATGCAATGCATCGCCGGGATCCACTACAACTTTTCCCTCCCGGAAAAGCTCTGGCCCCTGCTGCGCCAGGACGAAGCCAGCGACGTGAGCGACCGCGACTTCCAGTCCTCGGCCTACATCGCGCTGATCCGTAATTTCCGCCGCTACAGCTGGTTGCTGATGTACCTGTTCGGCGCCTCGCCGGCCCTGGATGTCGGTTTCCTGCGCGGCCGTCCGCACCAGTTGGAACAACTGGACCCGGACACCTTGTACCTGCCCTACGCCACCAGCCTGCGCATGAGCGACCTGGGTTACCAGAGCAACGCCCAAGCCGGCCTGACACCTTGCTATAACGACCTGGCGAGCTACACCGACAGCCTGCGCAAAGCCGTCGCAACGCCCTATGCGCCTTATGTCGAAGTCGGTACTCACCAGAACGGCGAATGGGTGCAGCTCAATACCAACATTCTGCAGATCGAAAACGAGTACTACTCCAACATCCGCCCCAAGCGCGTGACCTACACCGGCGAGCGGCCGATCCAGGCGCTGATGGCCCGAGGGATCCAGTACGTCGAAGTGCGCTGCCTGGACATCAACCCGTTCCTGCCGATGGGCATCGACCTGACCGAGTCGCGCTTCCTCGATGCGTTCCTGCTGTACTGCGGCCTCAACGACAGCCCGCAACTGGAAAACAACGAGTGCAGCAACGCCACGAGCAACTTCCTGACCGTGGTCAAGGAAGGCCGCAAGCCTGGCCTGCAATTGCAGCGCCAGGGTCAATCGGTGGACATGCAAACCTGGGCCATGGAATTGCTGGAAAAGATTGCTCCGCTGGCCGCCCTGCTTGACCAGAGCCAAGGCGGTGATGCCCATCGCCAGGCTCTCGACGCGCAACAGGCAAAAGTCCGCGACCCGTCGCTGACGCCGTCCGCCAAGGTCTTGGCCGCCATGGCCGAGCACCAGGAAAGCTTCGCCCAGTTCTCCCTGCGCCAGAGCAAGGCCCACGCCAAGTTCTTCCGCGCCGAACCGTTGTCGACCGAAGAGCAAGTCGCGTTCGAAGAAACCGCTCGCCAGTCCTTGGTCCAGCAAACCGAGCTGGAGCGGAACGAGGTGGGGGATTTCGACGTGTTCGTGGGTTCGTATCAGGCGAGCATTCTGGCGATCAGTAACTGA	MSDLLNRRLALLGERANLSLLEQCLHGIERECLRVTGDGRLAQTPHPESLGSALTNEQITTDYSESLLEFITPALANPADTLHSLDRIHRFVYSKLGDEYLWSPSMPCPLPAEEDIPIAYYGTSNIGRLKYVYRKGLALRYGKTMQCIAGIHYNFSLPEKLWPLLRQDEASDVSDRDFQSSAYIALIRNFRRYSWLLMYLFGASPALDVGFLRGRPHQLEQLDPDTLYLPYATSLRMSDLGYQSNAQAGLTPCYNDLASYTDSLRKAVATPYAPYVEVGTHQNGEWVQLNTNILQIENEYYSNIRPKRVTYTGERPIQALMARGIQYVEVRCLDINPFLPMGIDLTESRFLDAFLLYCGLNDSPQLENNECSNATSNFLTVVKEGRKPGLQLQRQGQSVDMQTWAMELLEKIAPLAALLDQSQGGDAHRQALDAQQAKVRDPSLTPSAKVLAAMAEHQESFAQFSLRQSKAHAKFFRAEPLSTEEQVAFEETARQSLVQQTELERNEVGDFDVFVGSYQASILAISN	PGPT0013035_755	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013035-gshA|ybdK-K01919	NA	NA
D1-35_03154	384	menI		1,4-dihydroxy-2-naphthoyl-CoA hydrolase	ATGGAGGCGCCGGCCGGGTTGGTGGAGAGCGCGTTTTTCAAGCTGCTCGGCTGCCGTCTGCAGAGCCTCGGGGACGGGGTGGCGCAAGTCGCCCTGGGTCTGGAGCCGGCGTTGCGCAACCGCGGTGGCAAGCTGCACGGCGGGGCGCTGTTCAGCCTGGTGGACATTGCCATGGGGCTGGCCTGCTCCAGCGTCCATGGCTTCGACCAGCAGAGCGCAACCATCGAGTGCAAGATCAACTACATTCGCGCCGTGTCCGACGGCGAAGTGCTGTGCACCGCCCGGGTCATCCACCCGGGCCGGCGCACGCTGGTGGTCGAGGCCGAGGTGATGCAGGGCGACAAGCTGGTCGCAAAAGCGCAAGGCACGTTCGCTGTCCTATAG	MEAPAGLVESAFFKLLGCRLQSLGDGVAQVALGLEPALRNRGGKLHGGALFSLVDIAMGLACSSVHGFDQQSATIECKINYIRAVSDGEVLCTARVIHPGRRTLVVEAEVMQGDKLVAKAQGTFAVL	PGPT0006080_1078	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006080-paaI-K02614	NA	NA
D1-35_03155	2325	yhgF	COG2183	Protein YhgF	ATGGACAGCATCAACAGCCGCATCGCCGAGGAACTCGGCGTACGCCCGCAACAGGTCGAAGCGGCCGTCGCGCTACTCGATGAAGGCTCCACGGTGCCTTTCATCGCCCGTTACCGGAAGGAAGTGACCGGCAGCCTCGATGACACCCAGCTGCGTCATCTGGAAGAGCGCCTGCGCTACCTGCGAGAACTCGACGAGCGGCGCATCAGCATCCTGGCGAGCATCCAGGAGCAGGGCAAGCTGACCCCGCAACTGGAACGCGACATCAAGCTGGCCGATACCAAGACCCGCCTGGAAGACTTGTACCTGCCCTACAAGCAGAAACGCCGCACCAAGGGCCAGATTGCCCTGGAAGCCGGCCTCGGCGAACTGGCCGACGGCTTGTTCAACGACCCCACGTTGGCGCCGGAAGCCGAAGCCGCGCGTTTCGTCGATGCCGAAAAAGGCGTGGCGGACAGCAAGGCTGCGCTGGAAGGCGCCAAGTACATCCTCATGGAGCGCTTCGCCGAAGACGCGAACCTGCTGGAAAAACTGCGCAACTACCTCAAGCAGGAGGCGATCCTGAGTGCTCGCGTCATCGCCGGCAAAGAAGAGGAAGGCGCCAAGTTCCGCGATTACTTCGAACACGACGAGCCCCTCAAGAGCGTACCGTCGCACCGGGCGCTGGCGATTTTCCGCGGTCGCAACGAAGGCATCCTCAGCTCATCGCTGAAAGTCGGCGAAGAATTGCCCGGCACCATGCACCCGTGCGAAGGCATGATCGGCCAGCAGTTCGGCATCCAGAACCAGAACCGCGCCGCCGACAAGTGGCTGGCCGAAGTGGTGCGCTGGACCTGGAAGGTCAAGCTCTACACCCACCTGGAAACCGACCTGCTGGGCGAACTGCGCGACAACGCCGAGACCGAGGCGATCAACGTGTTCGCCCACAACCTGCACGACCTGCTGCTGGCCGCACCGGCCGGGCCGCGTGCCACGCTGGGCCTGGACCCGGGCCTGCGCACTGGCTGCAAGGTGGCCGTGGTCGATTCCACCGGCAAGCTGCTGGACCACGCCACGGTCTACCCGCATGTGCCGCATAACAAGTGGGACCAGACCATCGCTATCCTTGCCGCCCTGTGCGCCAAGCACTCGGTCGACCTGATCGCCATCGGCAACGGCACCGCCAGCCGTGAGACCGACAAGTTGGCCGCCGAGCTGATCAAGAAATACCCGGCCATGAAAATGACCAAGGTCATGGTCTCCGAGGCCGGCGCTTCGGTTTATTCGGCGTCGGAACTGGCCTCGAAGGAATTCCCGGACCTGGACGTGTCGATCCGTGGCGCGGTGTCCATCGCCCGTCGCCTGCAGGACCCACTGGCGGAACTGGTGAAGATCGACCCGAAATCCATCGGTGTCGGCCAGTACCAGCATGACGTGTCGCAATTGAAGCTGGCCCGTGGCCTGGACGCCGTGGTGGAGGATTGCGTGAACGCCGTGGGCGTGGACGTAAACACCGCTTCGGTAGCATTGCTGGCGCGCATCTCCGGCCTGAACGCCACGCTGGCGCAGAACATCGTCACCCACCGCGACGAACACGGCGCGTTCAAGACCCGCGCCGCGTTGAAAAAAGTCCCGCGCCTGGGTGAAAAAACCTTCGAACAGGCCGCCGGCTTCCTGCGCGTCATGAATGGTGACAACCCGCTCGACTCCTCGGCAGTTCACCCGGAAGCCTATCCACTGGTGCAACGCATCGCCGCCCAGACCGACCGCGACATTCGCTCGCTGATCGGCGACGCGGCGTTTCTCAAGCGCCTGGACCCGAAGAAATTCACTGACGAAACCTTCGGCCTGCCCACCGTGACTGACATCCTCCAAGAGCTGGAGAAACCGGGCCGCGACCCACGTCCGGAATTCAAGACCGCTGAATTCCAGGAAGGCGTCGAAGACCTCAAGGACCTGCAACCGGGCATGATCCTCGAAGGCGTGGTGACCAACGTCACCAACTTCGGCGCGTTCGTCGACATCGGCGTGCACCAGGACGGCCTGGTGCATATTTCGGCCTTGTCGGAGAAATTCATCAAGGACCCGCGCGAAGCCGTGAAGGCCGGTGATGTGGTGAAAGTAAAGGTCATGGAAGTCGACATCCCGCGTAAACGCGTGGGCCTGTCGATGCGCATGAGCGACACGCCGGGCGAGAAAATCGACGGCGCCCGCGGTGCCCGTCCAGGCGCCGCGCCACGCCAGTCGCAGAACACCGCGCCGCGCAAGGAAACTGCCACCGCGGCCCCGGCGAATAACGCCATGGCCTCGCTGTTCGCCAACGCCAAGCAGCTGAAGAAACGCTGA	MDSINSRIAEELGVRPQQVEAAVALLDEGSTVPFIARYRKEVTGSLDDTQLRHLEERLRYLRELDERRISILASIQEQGKLTPQLERDIKLADTKTRLEDLYLPYKQKRRTKGQIALEAGLGELADGLFNDPTLAPEAEAARFVDAEKGVADSKAALEGAKYILMERFAEDANLLEKLRNYLKQEAILSARVIAGKEEEGAKFRDYFEHDEPLKSVPSHRALAIFRGRNEGILSSSLKVGEELPGTMHPCEGMIGQQFGIQNQNRAADKWLAEVVRWTWKVKLYTHLETDLLGELRDNAETEAINVFAHNLHDLLLAAPAGPRATLGLDPGLRTGCKVAVVDSTGKLLDHATVYPHVPHNKWDQTIAILAALCAKHSVDLIAIGNGTASRETDKLAAELIKKYPAMKMTKVMVSEAGASVYSASELASKEFPDLDVSIRGAVSIARRLQDPLAELVKIDPKSIGVGQYQHDVSQLKLARGLDAVVEDCVNAVGVDVNTASVALLARISGLNATLAQNIVTHRDEHGAFKTRAALKKVPRLGEKTFEQAAGFLRVMNGDNPLDSSAVHPEAYPLVQRIAAQTDRDIRSLIGDAAFLKRLDPKKFTDETFGLPTVTDILQELEKPGRDPRPEFKTAEFQEGVEDLKDLQPGMILEGVVTNVTNFGAFVDIGVHQDGLVHISALSEKFIKDPREAVKAGDVVKVKVMEVDIPRKRVGLSMRMSDTPGEKIDGARGARPGAAPRQSQNTAPRKETATAAPANNAMASLFANAKQLKKR				NA	NA	NA	NA	NA
D1-35_03156	741	ompR_6		Transcriptional regulatory protein OmpR	ATGAGCAGCACCGCACAAACTGCTGAAGGCGAAAAAATTCTGATTGTTGACGACGATCCGGGGCTGAGCAGCCTGCTGGAGCGCTTTTTCGTCAGCAAGGGCTATCGCGCCCGCACCGTACCGAACACCGAGCAAATGGACCGGCTGCTGGCCCGTGAGGTTTTCAACCTCGTGGTCCTCGACCTGATGCTGCCTGGCGAGGACGGCTTGACGGCCTGTCGCCGCCTGCGGGGCGCCAACAACCAGATCCCGATCATCATGCTCACCGCCAAGGGCGACGAACTGAGCCGTATCAAAGGCCTGGAGTTGGGCGCCGACGATTACCTGGCGAAGCCGTTCAACCCGGATGAGCTGATGGCCCGGGTCAAGGCTGTCCTGCGTCGCCAGTCGGCGCCGGTGCCGGGCGCACCGGGCAGCGAAGACGAGAGCGTGACCTTCGGCGACTATGAACTGTCGCTGGCCACCCGCGAGCTCAAGCGCGGCGATGAGATCCATATGCTCACCACTGGCGAGTTCGCCGTGCTCAAGGCCCTGGTGATGAACGCCCGCCAGCCGCTGACCCGGGACAAGCTGATGAACCTGGCCCGTGGCCGCGAATGGGATGCGCTGGAGCGCTCCATCGACGTGCAGATTTCCCGTTTGCGCCGGATGATCGAACCCGATCCTTCCAAGCCGCGTTATATCCAGACGGTCTGGGGCGTTGGCTACGTGTTCGTGCCGGATGGCGCTGCCGGCAAGTGA	MSSTAQTAEGEKILIVDDDPGLSSLLERFFVSKGYRARTVPNTEQMDRLLAREVFNLVVLDLMLPGEDGLTACRRLRGANNQIPIIMLTAKGDELSRIKGLELGADDYLAKPFNPDELMARVKAVLRRQSAPVPGAPGSEDESVTFGDYELSLATRELKRGDEIHMLTTGEFAVLKALVMNARQPLTRDKLMNLARGREWDALERSIDVQISRLRRMIEPDPSKPRYIQTVWGVGYVFVPDGAAGK	PGPT0012985_279	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OSMOLARITY_SIGNALLING,PGPT0012985-ompR-K07659	NA	NA
D1-35_03157	1314	envZ		Osmolarity sensor protein EnvZ	ATGAAGACCCCCGTCTGGTTCCCCCAGAGCTTTTTCTCCCGCACCCTCTGGCTGGTGCTGATCGTCGTGCTGTTTTCCAAGGCGCTGACGCTGGTTTACCTGCTGATGAACGAAGACGTGCTGGTGGACCGCCAATACAGTCACGGCGTTGCCTTGACTCTGCGCGCCTATTGGGCAGCGGACGAAACCAATCGAGTCAAAATCGCCGAGGCGGCAACTTTGATCCGGGTGGTCGGCGCCGGTGTGCCTGAAGGTGAGCAGCATTGGCCATACAGCGAGATCTACCAGCGGCAGATGCAGGCCGAACTGGGCGCCGATACCGAAGTGCGGCTGCGCATGCATTCGCCGCCGGCCTTGTGGGTGCGTGCCCCGAGCCTTGGCGATGGGTGGCTGAAGGTTCCGCTGTACCCCCATCCGCTGCGCGGCCAGAAAATCTGGAACGTGCTGGGCTGGTTCCTGGCGATCGGCCTGTTGTCGACGGCTTCGGCGTGGATTTTCGTCAGCCAGCTCAACCAGCCGCTCAAGCGCCTGGTCTATGCAGCCCGGCAACTGGGCCAGGGCCGCAGCGTGCGGTTGCCCGTCAGCGATACGCCCAGCGAGATGACCGAGGTGTACCGCGCCTTCAACCAGATGGCCGAAGATGTCGAGCAGGCCGGACGCGAACGTGAGCTGATGCTCGCCGGCGTCTCCCATGACCTGCGCACGCCGCTGACGCGATTGCGGCTGTCGCTGGAACTGATGGGCGAGCACACCGACCTGACCGACGAAATGGTCCGCGATATCGAAGACATGGACGCGATTCTCGATCAGTTCCTGGCGTTCATTCGCGACGGCCGTGACGAATCGGTAGAGGAGGTGGACCTCAGCGAGCTGGTACGGGAGGTGGCTGCGCCCTACAACCAGAACGAAGAGAAGGTCCACTTGCGCCTGGAGCCCATCCAGCCGTTTCCGCTACGTCGCGTGTCGATGAAGCGCCTGTTGAACAACCTGATCGGTAACGCCCTCAACCATGCCGGCACGGGCGTTGAAGTCGCCGCCTATGTTTCCGGCGACACCAGTGCGCCTTATGTCGTCCTGAGCGTCATGGACCGCGGCGCCGGCATTGACCCAGCGGAGCTGGAAGCCATTTTCAACCCGTTCACCCGCGGTGATCGGGCTCGGGGAGGGAAGGGCACCGGGCTGGGCCTGGCCATCGTCAAGCGCATCGCCTCGATGCATGGCGGCAACGTCGAACTGCGCAATCGAGCTGGCGGCGGGCTGGAGGCTCGGGTGCGGTTGCCGTTGGGCTTGATGCTGCCGCGGGATGCTGTGTAG	MKTPVWFPQSFFSRTLWLVLIVVLFSKALTLVYLLMNEDVLVDRQYSHGVALTLRAYWAADETNRVKIAEAATLIRVVGAGVPEGEQHWPYSEIYQRQMQAELGADTEVRLRMHSPPALWVRAPSLGDGWLKVPLYPHPLRGQKIWNVLGWFLAIGLLSTASAWIFVSQLNQPLKRLVYAARQLGQGRSVRLPVSDTPSEMTEVYRAFNQMAEDVEQAGRERELMLAGVSHDLRTPLTRLRLSLELMGEHTDLTDEMVRDIEDMDAILDQFLAFIRDGRDESVEEVDLSELVREVAAPYNQNEEKVHLRLEPIQPFPLRRVSMKRLLNNLIGNALNHAGTGVEVAAYVSGDTSAPYVVLSVMDRGAGIDPAELEAIFNPFTRGDRARGGKGTGLGLAIVKRIASMHGGNVELRNRAGGGLEARVRLPLGLMLPRDAV	PGPT0012975_1346	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OSMOLARITY_SIGNALLING,PGPT0012975-envZ-K07638	NA	NA
D1-35_03158	906	rimK	COG0189	Ribosomal protein S6--L-glutamate ligase	ATGAAGATCGCTGTGCTGTCGCGCAATCCGCGCCTGTATTCCACTCGTCGCCTGGTTGAAGCAGGGACGGAACGTGGCCATGAAATGGTGGTGATCGATACCCTGCGCGCCTACATGAACATCGCCAGCCACAAGCCGCAGATCCACTACCGCGGCAAACCGCTGGAAGGGTTTGATGCGGTGATCCCGCGTATCGGCGCATCGGTGACTTTTTATGGCTGCGCAGTGCTGCGCCAGTTCGAAATGATGGGAGTGTTCCCGCTCAATGAGTCTGTCGCTATCGCTCGCTCCCGGGACAAGCTGCGCTCATTGCAATTGCTCTCCCGACGCGGCATCGGCTTGCCGGTAACCGGGTTCGCCCACTCTCCCGATGACATTCCCGACCTGATCGCGATGGTCAACGGCGCGCCGCTGGTGATCAAGGTGCTTGAGGGCACCCAGGGGATCGGTGTCGTGCTGTGCGAGACCGCAACCGCGGCGGAATCGGTGATCGAGGCGTTCATGGGCCTCAAGCAGAACATCATGGTCCAGGAATACATCAAGGAAGCCGGTGGCGCGGACATTCGTTGCTTCGTGGTCGGCGATAAAGTGATCGCCTCGATGAAACGCCAGGCCAAACCCGGTGAGTTTCGCTCCAACCTGCATCGCGGCGGCAGCGCGAGCCTGATCAAAATCACCCCGGAAGAACGCATGACAGCCCTGCGCGCGGCCAAGGTCATGGGATTGGCGGTGGCCGGCGTGGATATCCTGCGCTCCAATCACGGACCGCTGGTGATGGAGGTCAATTCTTCGCCAGGCCTGGAAGGAATCGAGACCACCACCAGCAAGAACGTGGCGGGGATCATCATCGAACACCTGGAAAAAAATGGCGGGCCGAACATGACCCGGACCAAGGGCAAGGGTTGA	MKIAVLSRNPRLYSTRRLVEAGTERGHEMVVIDTLRAYMNIASHKPQIHYRGKPLEGFDAVIPRIGASVTFYGCAVLRQFEMMGVFPLNESVAIARSRDKLRSLQLLSRRGIGLPVTGFAHSPDDIPDLIAMVNGAPLVIKVLEGTQGIGVVLCETATAAESVIEAFMGLKQNIMVQEYIKEAGGADIRCFVVGDKVIASMKRQAKPGEFRSNLHRGGSASLIKITPEERMTALRAAKVMGLAVAGVDILRSNHGPLVMEVNSSPGLEGIETTTSKNVAGIIIEHLEKNGGPNMTRTKGKG				NA	NA	NA	NA	NA
D1-35_03159	483			hypothetical protein	TTGAAGACTTTTGACCATCTGACCGTCGTCGGTCTGCGCGAATGGGTGGCGCTCCCGGATCTGGGAGTCGCAGGCCTGCGGGCAAAAATCGACACCGGCGCCAGCACCTCCAGCCTGCACGCCACCGATATCGAGCCATTCGAGCGCGACGGCGAGAAGTGGGTGCGTTTCACCGCACACCTGGGGACGGTGGTGCAACTGCGCCACCGCCGCTGCGAAGCCCCGCTGGTGGCGCGCAAGACCATCAAGAGCTCCAACGGCCACGCCCAGGTCCGCTACGTGATCAGCACCACGCTGGCGCTGGGTGATCGGTTCTGGCGGGTGGAGTTCACCCTGGCCTGTCGTAAATCCATGCGGTATCGCCTGTTGTTGGGTTCCAAAGCCTTGATCGACGGCCAGCTGGTCGTCAATCCAGGCATCAAATACGTTCAAGACAAACCGGTATTTCCGGTGTCCACTACCTCTGCCACAGGTGTTGCATGA	MKTFDHLTVVGLREWVALPDLGVAGLRAKIDTGASTSSLHATDIEPFERDGEKWVRFTAHLGTVVQLRHRRCEAPLVARKTIKSSNGHAQVRYVISTTLALGDRFWRVEFTLACRKSMRYRLLLGSKALIDGQLVVNPGIKYVQDKPVFPVSTTSATGVA				NA	NA	NA	NA	NA
D1-35_03160	405	hslR	COG1188	Heat shock protein 15	GTGGCACAAAAAAGCGAAGAGGACGACAAGGTCCGTCTCGATAAATGGTTGTGGGCAGCGCGATTCTATAAGACCCGTGCCCTGGCCAAGGCCGCCATCGAAAGCGGCAAGGTTCACCATCGCGGTGAACGTTGCAAGCCTGGCAAAGAGCCACGTATCGGCGACGAATACGTCATTCGCGCCGGGTTCGATGAAAAAACCGTGGTGGTCGAAGCCCTGTCGATTGTGCGGCGCGGCGCGCCAGAAGCACAGACACTCTATCGCGAGACCGACGCCAGCATCGCCAAGCGCGAAGCTGCGGCCGCACAACGCAAGGCCGGGGCCCTGGGCGTCAGCACCGATGGCAAGCCGAGCAAGAAGCAGCGTCGCGACCTGTTCAAGTTTCATGGCAGCAATAGTGAATAA	MAQKSEEDDKVRLDKWLWAARFYKTRALAKAAIESGKVHHRGERCKPGKEPRIGDEYVIRAGFDEKTVVVEALSIVRRGAPEAQTLYRETDASIAKREAAAAQRKAGALGVSTDGKPSKKQRRDLFKFHGSNSE	PGPT0014620_879	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014620-hslR|yrfH-K04762	NA	NA
D1-35_03161	903	hslO	COG1281	33 kDa chaperonin	ATGACTGATTTACCGGATACCGACTACACCCAGCGTTTCATCTTCGATGACAGCGACGCCCGTGGCGAGATGGTGGCGTTGGAGCGTAGCTATGCCGAAGTCCTTGCCAAGCACCCCTATCCGGAGCCGGTCGCGCAACTGCTAGGCGAACTGATGGCGGCGGCGGCATTGCTGGTGGGCACCCTGAAGTTCGATGGCTTGCTGATTCTCCAGGCGCGCTCCGACGGTCCGGTCCCCTTGCTGATGATCGAATGCTCCAGCGAGCGCGAGATTCGTGGCCTGGCCCGGTACCACGCCGAGCAGATCGGCGCCGACGCGACGCTGGCCGACATGATGCCCAACGGCGTGCTGGCCCTGACGGTCGATCCTAGTCATGGCCAGCGTTATCAGGGCATTGTCGATCTTGACGGCGCGACGCTGGCCGAATGCTTCACCAATTACTTCGTCATGTCCCAGCAGACCAACACCCGCTTCTGGCTGTACGCCGACGGGCGGCGCGCCCGTGGCCTGCTGTTGCAACAATTGCCCGCCGATCGCATTCGCGATTCGGAAGAGCGTGACGCCAGCTGGCAGCACGTCACCGCTCTGGCCAGCACCTTGAGCGCCGACGAGTTGCTGGGCCTGGACAACGAAACCATTCTGCATCGTCTCTACCACGAAGAGCAGGTGCGCCTGTTCGAGGGTCAGCCGTTGCGCTTCCAATGCAGTTGCTCCCGTGAACGATCCGGCAATGCGCTGGTCAGTCTGGGTCTGGAAGATGCGCAGCAACTGGTGATCGAGCATGGCGGCGCCATCGAGGTCGATTGCCAGTTTTGCAATGAGCGCTACCTGTTCGACGCGGCGGACATCGCACAATTGTTCGCCGGTGCGGGTGTCGACACACCGTCAGATACTCGTCACTAA	MTDLPDTDYTQRFIFDDSDARGEMVALERSYAEVLAKHPYPEPVAQLLGELMAAAALLVGTLKFDGLLILQARSDGPVPLLMIECSSEREIRGLARYHAEQIGADATLADMMPNGVLALTVDPSHGQRYQGIVDLDGATLAECFTNYFVMSQQTNTRFWLYADGRRARGLLLQQLPADRIRDSEERDASWQHVTALASTLSADELLGLDNETILHRLYHEEQVRLFEGQPLRFQCSCSRERSGNALVSLGLEDAQQLVIEHGGAIEVDCQFCNERYLFDAADIAQLFAGAGVDTPSDTRH	PGPT0014645_1090	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014645-hsp33|hslO-K04083	NA	NA
D1-35_03162	1545	pckA	COG1866	Phosphoenolpyruvate carboxykinase (ATP)	ATGACGCAAGCCAATAACGCCGTGTATACCGATCTGAGTGTCGATGATCTGGTCAAAGAAGCCCTGAATCGCGGTGAAGGCGAGCTTGCCGATACTGGCGCGCTGGTTGTTCGTACCGGTCATCGTACCGGTCGCTCGCCAGTCGACCGTTTCATCGTGGAAGAGCCGACCACCCAGGACGCCATCGCCTGGGGCCCGATCAACCGCAAGTTCCCGGCCGACAAGTTCGATGCCCTGTGGAGCCGCGTCGAGGCCTATCTGGGTGAGCGCGAGCGTTTTGTTTCCCACGTGCATGTAGGTTCCGATCCTGCGCACTACCTGCCGGTCAAGATGACCACCGAGACGGCCTGGCACAACCTGTTCGGTCGTTGCCTGTTCATCAATCCCGAGCAGTACAACGCCGGCGGCAAGGACGAGTGGCAGATCCTCAACGCGCCGAACTTCGTCTGCGAGCCTGAGCGCGACGGCACCAATTCCGACGGCACCGTAATCATCAACTTTGCTGCCAAGAAAGTGCTGATCGCTGGCATGCGCTACGCCGGCGAAATGAAAAAAGCCCTGTTCTCCGTGCAGAACTTCTTGCTCCCAGCGGTCGACGTGCTGCCGATGCACTGCGCCGCCAACATGGGCGAAGAAGGCGACGTGACCTTGTTCTTCGGTCTGTCGGGCACTGGCAAGACCACCCTGTCCGCCGACGAAAGCCGTTACCTGATCGGTGACGACGAGCACGGCTGGGGCGTGGGTGTGGTCTTCAACATCGAAGGCGGCTGCTACGCCAAGTGCATCGACCTGTCCGAGAAGAACGAGCCGGTCATCTGGAAAGCCATCCAGCACGGCGCCGTCCTGGAAAACGTGGTCCTGGACCCGGTCACCAAGAAAGCCGACTACGCCGACGACAGCCTGACCCAGAACAGCCGCGCCGCCTATCCGCGCGAGCTGATCGAAAAACGCGCGCCGAAAAACCTCGGTGGCGAGCCAAACGCCGTGATCTTCCTGACCTGCGACCTGACCGGCGTGCTGCCACCGGTGTCGATCCTCAGCGAAGAACAAGCCGCCTACCACTTCCTGTCCGGCTACACCGCACTGGTGGGTTCGACCGAAATGGGCTCGGGCAGCGGCATCAAGTCGACCTTCTCCACCTGCTTCGGCGCGCCGTTCTTCCCACGTCCGGCCGGTGAATATGCAGAGCTGCTGATCAAGCGTATCCGTGGTTTCGGCTCCAAGGTCTACCTGGTCAACACCGGCTGGACCGGCGGCGGCTACGGCGTCGGCAAGCGCTTCAACATCCCGACCACCCGTGCGGTGATCGCGGCGATCCAGAGCGGCGCGCTGATCGATGCTGAAACCGAACACCTGGATATCATCAACCTGGACGTGCCGCTGGCTGTCCCAGGCGTCGAAACCGGCCTGCTGAACCCGCGCAATACCTGGGCCGACAAGGCTGCCTACGACGAAGCCGCCAAGGCACTGGCCGGTCTGTTCATCGAGAACTTCAAGAAGTTCGACGTGAGCGATGCAATCAAGGCGGCGGGTCCGCAACTGTAA	MTQANNAVYTDLSVDDLVKEALNRGEGELADTGALVVRTGHRTGRSPVDRFIVEEPTTQDAIAWGPINRKFPADKFDALWSRVEAYLGERERFVSHVHVGSDPAHYLPVKMTTETAWHNLFGRCLFINPEQYNAGGKDEWQILNAPNFVCEPERDGTNSDGTVIINFAAKKVLIAGMRYAGEMKKALFSVQNFLLPAVDVLPMHCAANMGEEGDVTLFFGLSGTGKTTLSADESRYLIGDDEHGWGVGVVFNIEGGCYAKCIDLSEKNEPVIWKAIQHGAVLENVVLDPVTKKADYADDSLTQNSRAAYPRELIEKRAPKNLGGEPNAVIFLTCDLTGVLPPVSILSEEQAAYHFLSGYTALVGSTEMGSGSGIKSTFSTCFGAPFFPRPAGEYAELLIKRIRGFGSKVYLVNTGWTGGGYGVGKRFNIPTTRAVIAAIQSGALIDAETEHLDIINLDVPLAVPGVETGLLNPRNTWADKAAYDEAAKALAGLFIENFKKFDVSDAIKAAGPQL	PGPT0001405_2646	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
D1-35_03163	354			hypothetical protein	ATGCATTTCGCCCCAGACTTTCCCGACGATCTCGCCATGCGTCAGCTCATGGAATTACTCCACGAAGAACTCGGCCTGCCGGAACGCAAGACCATTCGCCTGGACACTGCGATCAATTTCGATCTGGGCTGCGATGGCGCGGATGCCCGGCACCTGATGGAAGCGCTGGAGGAGCGGTTCGTCATCGACCTTGTCGACTACGACGCCTATCGTTACTTCCAACCGGAAGGCTTTGATGTGTTTCAAAAGCGCAGGGCCAAGGGCCGGGGAGACAAGCTGCCGCTGACCATCGGCATGCTTTACAAAGCGATCAAGGCGCAACGATGGGATACGCAAGAAGTGGAGAAAAAATAG	MHFAPDFPDDLAMRQLMELLHEELGLPERKTIRLDTAINFDLGCDGADARHLMEALEERFVIDLVDYDAYRYFQPEGFDVFQKRRAKGRGDKLPLTIGMLYKAIKAQRWDTQEVEKK				NA	NA	NA	NA	NA
D1-35_03164	1227	fadJ_3	COG1024	Fatty acid oxidation complex subunit alpha	ATGAGCCAGACATCCTTTGATATCCAGCGCGCCGCGGTGGTCGGGGCGGGCACCATGGGGCGAGGCATCGTGATGTGCCTGGCCAATGCCGGCGTTACGGTGCAGTGGGTCGACAATAATCCGCAAATGCTTGAGCAGGCGCTGGCGGCGGTGGTCGACACCTATGCCCACAACGTGCGCCAGGGACGCATTGACCAAGGTGAAGCCGATGCGCGCATCGCCCGAATAGCTCGGGCGGACGACTACGCGGCAATCCGTAACGTGGATCTGGTCATCGAAGCGGTCTACGAGAACCTTGAACTCAAGCAGAAGATCTTTCGCGAGCTGGACGGCATGCTCAAGCCCGAGGCAATCCTGGCAAGCAACACCTCGGCGCTGGACATCGATGCGATTGCCGCCGCCACGCGCAGGCCGACCCAGGTGCTGGGCCTGCATTTCTTCAGCCCGGCGCACATCATGAAATTGCTCGAAATCGTTCGTGGCGCGCAAACCTCCAGACCGGCGCTGGATGCCGCCCTGGCGCTGGGCAAACGCATGGGCAAGGTGAGCGTGGTTTCGGGCAATTGCCACGGGTTTATCGGCAACCGGATGCTTCATCCCTATGTGCTGGAGGCGCGCAAGATGCTGCTGGAGGGAGCGTTTCCCCATCAGGTCGATGCCGCGCTGCAAGGTTTCGGCTTCGCCATGGGGCCGTTCCGCATGTATGACGTGGTTGGGATCGACCTGGAGTGGCGCGCGCGCGAGTTGGCGGGTAAAGGTCAGGATGCGCCCGAAGTGCAAGTGGACAACCGCCTGTGCGAGATGGGGCGGTTCGGCCAGAAGAGTGGTAACGGGTACTACCACTATGAGCCGGGCAGCCGCCAGGCTGAGCAGGATGTGGAGGTCGATGCGCTGGTGCTGCGGGTCAGTGAGGAGCTGGGGTTTCAGCGCCGCGAAATAGCTGCCGAGGAGATTCTGGAGCGCTGCTTGCTGGCATTGGTCAATGAAGGTGCGAAGATCCTCCAGGAGGGCATTGCCGAGTCTTCCCGCGACATCGACCTGGTTTATCTCAATGGCTATGGCTTCCCGGCGGACAAGGGCGGTCCGATGGCCTGGGCGGATCAGCAGGGCCTCGAAGACATCCACGCACGGTTGCTGGAGCTCGAGACGAAGCAGGGGGACCAATGGAAGCCTGCCCGTCTGATTGGCGAGCTGGCTGCGCAAGGCAAGAGCTTCTCGCAGCGATAG	MSQTSFDIQRAAVVGAGTMGRGIVMCLANAGVTVQWVDNNPQMLEQALAAVVDTYAHNVRQGRIDQGEADARIARIARADDYAAIRNVDLVIEAVYENLELKQKIFRELDGMLKPEAILASNTSALDIDAIAAATRRPTQVLGLHFFSPAHIMKLLEIVRGAQTSRPALDAALALGKRMGKVSVVSGNCHGFIGNRMLHPYVLEARKMLLEGAFPHQVDAALQGFGFAMGPFRMYDVVGIDLEWRARELAGKGQDAPEVQVDNRLCEMGRFGQKSGNGYYHYEPGSRQAEQDVEVDALVLRVSEELGFQRREIAAEEILERCLLALVNEGAKILQEGIAESSRDIDLVYLNGYGFPADKGGPMAWADQQGLEDIHARLLELETKQGDQWKPARLIGELAAQGKSFSQR	PGPT0008395_2374	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008395-fadN-K07516	NA	NA
D1-35_03165	420			hypothetical protein	ATGCCCCAACGCGCCGAGTATCTGCATTTCCAGCCAGTGACTACACGCTGGCATGACAACGATGTGTACGGTCACGTCAATAACGTCACCTACTACAGCTTTTTCGATACAGCGGTAAATACCTATCTGATCGAGACCGGCGGCCTGGATATCCATGACGGGGAGGTGGTGGGCTTCGTCGTGAGTTCAGCCTGCGATTATTTTGCCTCGATCGCTTTCCCGGACCGGATCGAAATCGGCCTGCGAGTCGGGAAGCTGGGCAATAGTTCGGTGCAATATGAGCTGGCGGTGTTCAAGGCGGGCGAGGACGAGGCCTGCGCGGCGGGGCGTTTCGTGCATGTATTCGTGGACCGGGCGTCGAATCGGCCAGTGGCGATTCCGGATCAGCTACGCGGGGCGTTGGAGCGGTTGGTGGCCTGA	MPQRAEYLHFQPVTTRWHDNDVYGHVNNVTYYSFFDTAVNTYLIETGGLDIHDGEVVGFVVSSACDYFASIAFPDRIEIGLRVGKLGNSSVQYELAVFKAGEDEACAAGRFVHVFVDRASNRPVAIPDQLRGALERLVA	PGPT0001850_6134	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
D1-35_03166	483			hypothetical protein	ATGAAGTTCTCCTCCATTCTCTTGTTGTCCCTTGGCCTGATCAGTGGCGTCGCATCTGCCGGCGGTACCGCCGAAGCAGGTGTAGGCGGCGCATTGGGCGGGGTTTTGGGTTCGGTCGTCGGCCAGTCCCTGGGCGGCAACACCGGTTCCACTATCGGCGCGGCCCTGGGCGGCGCAGGTGGCAGTGCGGTCGGTGCCGATAAACGCAGCCGCGGCGAAGCGGCCATCGGCGGCGCGCTGGGCGCAGCCGGCGGCAACGTGGTTGGCCGCAGCGTGGGCGGCAGCACGGGTAGCCTGATCGGTGCCGCAGCGGGCGGTGGCGCCGGTGGCGCATTGGGTAACTACATGGGCAAGGACGACGATGACGACCGTTATGAAGGTCGCCGTGGTGATCGCCGCTACTACCGTGACGGCCACCCGGGTCGCGGCCATGCCTACGGCCATCGCAAGCATAAGCACAAACATCGCTATCACGACGATTGA	MKFSSILLLSLGLISGVASAGGTAEAGVGGALGGVLGSVVGQSLGGNTGSTIGAALGGAGGSAVGADKRSRGEAAIGGALGAAGGNVVGRSVGGSTGSLIGAAAGGGAGGALGNYMGKDDDDDRYEGRRGDRRYYRDGHPGRGHAYGHRKHKHKHRYHDD				NA	NA	NA	NA	NA
D1-35_03168	2349	ydeP	COG0243	Protein YdeP	GTGAGCAATCATCAACAAGCCAACCAGAAACCCGCACCGCGCTACAAGCCTTACAAGGGCCCGGCCGGCGGTTGGGGCGCGCTGATCAGCGTCGCCCAGGCCTGGCTGACCAGCGATAACGCGCTGAAAAACATTCGCATGATGCTCAAGACCAACCAGAACGGCGGTTTCGACTGCCCTGGCTGCGCCTGGGGTGACTCGCCGGAAAGCGGCATGGTCAAGTTCTGCGAGAACGGCGCCAAGGCGGTGAACTGGGAAGCGACCAAGCGTCGTGTCGACGCGGCTTTTTTCGCCAAGCACAGCGTGACGTCGTTGCTGGAGCAGAGCGACTACTGGCTCGAATACCAGGGCCGCCTGACGGAGCCTATGAGCTACGACGCGCAAACCGACCGCTACAAGCCCATCAGTTGGGAAGCCGCGTTCGCTATGATCGGCAAACACTTGCAAGGGCTTTCCAGCCCGAGCCAGGCCGAATTCTATACCTCGGGTCGCGCGAGCAACGAAGCGGCATATCTATACCAGCTATTCGTGCGCGCCTATGGCACCAACAATTTCCCCGACTGCTCGAACATGTGCCATGAGGCCAGCGGCGTGGCCCTGTCCCAAAGTGTCGGGGTGGGCAAGGGCACGGTAACCTTTGACGACTTCGAGCATGCCGACGCGATTTTCGTCTGGGGCCAGAACCCCGGCACCAACCACCCGCGGATGCTCGAACCGCTGCGCGAAGCAGTGAAGCGCGGCGCCCAAGTGGTGTGTATCAACCCGCTGAAAGAGCGTGGCCTGGAGCGCTTCCAACATCCGCAACACCCGCTGGAAATGCTCACCAACGGCGACAAACCCACCAACACCGCGTATTTCCGCCCAGCTCTGGGCGGCGACATGGCCGTGCTGCGGGGCATGGCGAAGTTCCTGCTGCAATGGGAACGTGACGCGCAGAACAGCGGCGCCCCTGCGGTATTCGATCATGCGTTCCTCAACGAGCACAGCGCCAACGTCCTGGATTACCTGGCGGTGGTCGACGACACCCCTTGGGAGCAGATCGCCGAGCAATCCGGGTTGACGCTCGCCGAAATCGAACAAGCGGCGCGCATGTACGCCAAGGCCAAGAACGTGATCATGTGCTGGGCGATGGGTATCACCCAGCACCGCCATTCAGTGGCGACGATCCAGGAAATCGCCAACCTGATGATGCTGCGCGGCAACATTGGCAAGCCAGGCGCCGGCCTGTGCCCGGTGCGTGGCCACAGTAACGTGCAGGGCGACCGGACCATGGGAATCAACGAGCGCCCGCCCGTTGCATTCCTCGACGCTCTGGAACGGCGCTTCCAGTTCAAGGTACCGCGTGAAAACGGCCACAACGTGGTCGAGGCGATCCACGCCATGGCCGAGGGTCGGGCCAAGGTGTTCATCGCCCTGGGCGGCAACTTCGCCCAGGCTACGCCAGACAGCCACCGGACCTTCCAGGCGCTGGGCAATTGCGACCTGACGGTACAGATCAGCACCAAGCTCAACCGCAGCCACCTGGCCCATGGCAAGGAAGCGTTGATCCTGCCATGCCTGGGCCGGACTGACATCGACCTGCAAGCCGATGGCCCGCAGGCGGTGACGGTGGAGGACTCCTTCAGCATGGTCCACGCTTCGAACGGCCAACTGCAGCCACTGTCGGACCAGATGCGCTCCGAGCCGTGGATCATTGCCGGCATCGCCGCCGCCACCCTGGGCAGCCGCCCGGTGGATTGGAACTGGCTGGTGGCCGATTACAGCCGCATCCGCGACCTGATCGCCGAGACCATCCCTGGCTTCAAGGACTTCAACGAAAAACTCAAGAACCCCGGCGGCTTCTACCTGGGTAACAGCGCGGGGGCACGTCGCTGGAACACGCCTTCGGGCCGCGCCAACTTCAAGCCCAACCTGTTGCCGACCGACCTGATCCACGAACGCACCCGGGCTACAGGCCAATTGCCGGACCTGATCCTGCAATCCATGCGCTCGCATGACCAGTACAACACCACGATCTATGGCCTCGATGATCGCTATCGTGGCGTGAAGGGCCAACGTGACGTGTTGTTCGTCAACGAAGCGGACATCATCCGCCTGGGCTTCAAGCCAGGGCAGAAGGCAGACATCGTCTCGCTCTGGGATGACGGCCGCGAGCGCCGGGTCAAGGGCTTTACCCTGTTGGCCTTTGATATCCCGGCCGGACAGGCTGCCGCCTATTACCCTGAAGTGAACCCGCTGGTGCCGCTGGAAAGCACCGGCGACGGCAGCCACACCCCGACCTCGAAGTTCGTGGCTATCCGCCTGGAAGCCGCAAGCGAGAACGGGTTGATCATGGCCAAGTCGGCCTGA	MSNHQQANQKPAPRYKPYKGPAGGWGALISVAQAWLTSDNALKNIRMMLKTNQNGGFDCPGCAWGDSPESGMVKFCENGAKAVNWEATKRRVDAAFFAKHSVTSLLEQSDYWLEYQGRLTEPMSYDAQTDRYKPISWEAAFAMIGKHLQGLSSPSQAEFYTSGRASNEAAYLYQLFVRAYGTNNFPDCSNMCHEASGVALSQSVGVGKGTVTFDDFEHADAIFVWGQNPGTNHPRMLEPLREAVKRGAQVVCINPLKERGLERFQHPQHPLEMLTNGDKPTNTAYFRPALGGDMAVLRGMAKFLLQWERDAQNSGAPAVFDHAFLNEHSANVLDYLAVVDDTPWEQIAEQSGLTLAEIEQAARMYAKAKNVIMCWAMGITQHRHSVATIQEIANLMMLRGNIGKPGAGLCPVRGHSNVQGDRTMGINERPPVAFLDALERRFQFKVPRENGHNVVEAIHAMAEGRAKVFIALGGNFAQATPDSHRTFQALGNCDLTVQISTKLNRSHLAHGKEALILPCLGRTDIDLQADGPQAVTVEDSFSMVHASNGQLQPLSDQMRSEPWIIAGIAAATLGSRPVDWNWLVADYSRIRDLIAETIPGFKDFNEKLKNPGGFYLGNSAGARRWNTPSGRANFKPNLLPTDLIHERTRATGQLPDLILQSMRSHDQYNTTIYGLDDRYRGVKGQRDVLFVNEADIIRLGFKPGQKADIVSLWDDGRERRVKGFTLLAFDIPAGQAAAYYPEVNPLVPLESTGDGSHTPTSKFVAIRLEAASENGLIMAKSA	PGPT0019635_3094	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019635-fdoG|fdhF|fdwA-K00123	NA	NA
D1-35_03169	840	fdhD	COG1526	Sulfur carrier protein FdhD	ATGAACGACAAGCCTCCGGTCTGTCCTGCGCCTGCCTTGGAAGCCTCCAAGCCAGCCGCCAGCCAGAGCTATCGCTACTGCAACCTGGACCACTCGCAATCGGACAGCGCCGCGCTGGCCGAGGAAGTGGCGTTGGCGATTGCCTATAACGGCATCAGCCAAGCGGTAATGCTGGTCACGCCCACTGACCTGGAAGATTTTATCGTCGGCTTCAGCCTCGGCAGCGGCATCATCGAAGACCCGGCGGATATCTACGACCTGCAACTGAGCGGAGCCGGTTCCGCGCAATATGCCCAGGTCACCATTGCCAACCGCGCCTTCTGGAACCTCAAGCAACAACGCCGGCAACTGGCCGGCACCAGCGGTTGCGGGCTGTGCGGGGTCGAGGCGGTGGAACAGGCGCTGCCCAACCTCAAGACGCTGCCGGGCGCACCGCTGCCACCGGCGCAATGGCTTGACGGCCTGCGCCAGCGCATCGGCCAGTTCCAACCCCTGGGCCAGCACTGCGGTGCGGTACACGCGGCGCTGTTCATGAATGACCAGGGTGAACTGCTGCTGGGCCGCGAAGACATCGGTCGCCACAACGCCCTCGACAAATTGATCGGTGCGCTGATCCGGCAGCAGATCCCGATAGCCGGGGGCCTGGCGATCGTCACCAGCCGCTGCAGCCTCGAATTGATTCAAAAAGTATTGCGTGCGGGCATCCAGACGCTGGTCAGCCTGTCGTCGCCCACGGGCCTCGCCGTGCAGTGGGCTCGCCAACACAACCTCAACCTCATCCACCTGCCGCAAAAAAGTGCGCCGCGGGTCTACAGCCCTGCGATGGAGAATCAAGCGTGA	MNDKPPVCPAPALEASKPAASQSYRYCNLDHSQSDSAALAEEVALAIAYNGISQAVMLVTPTDLEDFIVGFSLGSGIIEDPADIYDLQLSGAGSAQYAQVTIANRAFWNLKQQRRQLAGTSGCGLCGVEAVEQALPNLKTLPGAPLPPAQWLDGLRQRIGQFQPLGQHCGAVHAALFMNDQGELLLGREDIGRHNALDKLIGALIRQQIPIAGGLAIVTSRCSLELIQKVLRAGIQTLVSLSSPTGLAVQWARQHNLNLIHLPQKSAPRVYSPAMENQA	PGPT0019920_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_PHENYLACETATE_DEGRADATION,PGPT0019920-padA-K18360	NA	NA
D1-35_03170	885	cynR_2		HTH-type transcriptional regulator CynR	ATGGACATCAAGCAGCTGAAATTTCTTATCGCGCTCGAAGAAACCCGCCACTTCGGCCAGGCTGCCGCCCGCTGTCACATCACCCAGCCCACCTTGTCGATGCGCCTGCGCAGCCTGGAGGAAGAGCTGGGTTTGCCACTGGTCAATCGCGGCCAGCGCTTCGAGGGTTTTACCGCACCGGGCGAGCGGGTGCTGGCCTGGGCGCGCACGGTGTTGGCGGCCTATGACGGACTACAAGCTGAAGCGGCGGCCTGTCGCGGCAACCTGGTGGGCACGCTGCGCCTGGGCGTGGTTCCGCTGTCGGATTTCGACCCGCTGGCGATGATGCAGCGCCTGCACACCGACCATCCCAGCCTGCGGTTCGAATTGTCGTCCCTGAGCTCCGAACGCATTCTCGAACAATTGGCGAACAACCGGATCGACCTGGGCATCTCTTACCTGGAACGTCTGGACAACGAGCGTTTCGAAGCCCTGCCCTTCGCCCATACCCGCATGGGCCTGCTATACGACCAACGGTTTTTCTTTTTTGGCGAAGAACCGCTGAGCTGGGAAGCGCTGGTGGAGCTGCCCCTGGGCATGCTCACCAGCGGCATGCATTTTCGCCAATCCATCGACCATCACTTCCACAGCCGGGGGCTGACACCCCAACCGCTGCTGCAAACCGACGCGGTGCACCAATTGTTACAAGCTGTGCACGGCGGACTGTGTTGCGCCGTAGTACCGCTGGAAAGCGGGCTGAAGCTCACCGAAGACCTGCGAATCCAGCCCATCAACAGCGCCCAGACGCTGGTCCCGCTGGGGCTGATCATGCGGCGCGGTGCCCCACGCTCGGCATTGGCGGAGGCTTGTTTCGCCCTTTATCAGCAATCAGTAACCATTCCTTGA	MDIKQLKFLIALEETRHFGQAAARCHITQPTLSMRLRSLEEELGLPLVNRGQRFEGFTAPGERVLAWARTVLAAYDGLQAEAAACRGNLVGTLRLGVVPLSDFDPLAMMQRLHTDHPSLRFELSSLSSERILEQLANNRIDLGISYLERLDNERFEALPFAHTRMGLLYDQRFFFFGEEPLSWEALVELPLGMLTSGMHFRQSIDHHFHSRGLTPQPLLQTDAVHQLLQAVHGGLCCAVVPLESGLKLTEDLRIQPINSAQTLVPLGLIMRRGAPRSALAEACFALYQQSVTIP				NA	NA	NA	NA	NA
D1-35_03171	450	kbp	COG1652	Potassium binding protein Kbp	ATGAGCCTTTTCAGTTTCTTGAAAGATGCCGGTGAAAAAATCCTCGATGCGCTGACGCCCGACAAGGCAGAAGCCAACAGCGAAGCGTTGACCAAGCATGTACAGGAGGCCCTGACAGGGATCGATACTTCAAAGATTCAGGTCAAGGTCGAAGGTGAGAAAGTCATCGCCACGGGTGAAGCCGCAACTCAGGAAGAGAAGGAAAAGATTCTCCTGGCGCTGGGCAACGTGGCCGGTATCAGCGGTGTCGATGACCAGATCACCGTGACCGGCCCGGTCGCGACGCAGGCCAAATTCGTCACCGTGGAGAAAGGCGACACCTTGAGCGCCATTTCCAAGCGGGTTTACGGCGACCCGAACAAGTACAACAAGATTTTCGAAGCCAACAAGCCGATGCTCAAGCACCCGGACAAGATCTACCCAGGGCAGTCACTGCGTATCCCTGAATAG	MSLFSFLKDAGEKILDALTPDKAEANSEALTKHVQEALTGIDTSKIQVKVEGEKVIATGEAATQEEKEKILLALGNVAGISGVDDQITVTGPVATQAKFVTVEKGDTLSAISKRVYGDPNKYNKIFEANKPMLKHPDKIYPGQSLRIPE				NA	NA	NA	NA	NA
D1-35_03172	663	yrfG	COG1011	GMP/IMP nucleotidase YrfG	ATGGCGTTGTTGCCCTGGCACGAGATCGATACGGTTCTGCTGGACATGGACGGCACCCTGCTGGACCTGCATTACGACAATCACTTCTGGCTGGAGCACCTGCCCCAGCGCTATGCCGAACTGCATGGCGTCAGCCGGGCCATGGCGGAGATGGAACTACAGCCGCTGTTCGAGCGCAACGCCGGCCAGTTGCAGTGGTACTGCCTGGATTTCTGGAGTGCCGAGCTGAAGCTGCCGGTGCGCGAACTGAAGCTGGAAACCGCCCACCTGATCGCCCTGCGCCCGGACGCGGATACGTTTCTGGCAGCCATCCAGCAGGCCGGCAAACGGGTCGTGATGATCACCAATGCCCACCGCGACTCGTTGTCCCTGAAGCTGGAACGCATCGAACTGGCTCCGTATTTCGAGCGTCTGATCAGCTCCCACGACTACGGTTTTCCCAAGGAAAGCCCGCAATTCTGGGACGCACTGCAAGCCGACCTGGACTTCGACCCGGCCCGCAGCCTGTTCATCGACGATACCCTGCCGGTATTGCGCAGCGCCCGGGATTTTGGCATCGCACATTTGCTGGCGGTCAGCGAGCCGGACAGTCGCAAGGGGCCGAAGGATACGGGGGAGTTCGATGCCGTCAGAGATTATCGGGATTTGATTGCCGGGCTTTGA	MALLPWHEIDTVLLDMDGTLLDLHYDNHFWLEHLPQRYAELHGVSRAMAEMELQPLFERNAGQLQWYCLDFWSAELKLPVRELKLETAHLIALRPDADTFLAAIQQAGKRVVMITNAHRDSLSLKLERIELAPYFERLISSHDYGFPKESPQFWDALQADLDFDPARSLFIDDTLPVLRSARDFGIAHLLAVSEPDSRKGPKDTGEFDAVRDYRDLIAGL	PGPT0013415_525	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013415-yrfG-K20881	NA	NA
D1-35_03173	567	nudE	COG0494	ADP compounds hydrolase NudE	ATGCGCCAGACACCCACCATACTCGACCGACGGATCGTCGCCACCAGCCGCCTGTTTTGCGTGGAAGAACTGAAACTGCGTTTTTCCAACGGTGTGGAACGCACCTACGAACGCCTGGCGGGCAAGGGCGCAGGTTACGGTGCGGTGATGATCGTGGCGATGCTCGACGCCGACCATGCGGTGCTGGTGGAAGAGTATTGCGGCGGTACCGAGGCCTACGAATGGTCCCTGCCCAAGGGCCTGATCGAGCCGGGTGAAGATGTGCTGGCGGCGGCCGAGCGCGAACTCAAGGAGGAAGCCGGTTTTGGCGCCCGTCAACTGGAACACCTGACTGAGTTGTCACTGTCTCCCGGCTACATGAGCCAGAAGATCCAGGTGGTGCTGGCGACCGATCTGTACGAAGAGCGTCTGGAAGGCGACGAACCCGAGCCAATGCGTGTGGACAAGGTCAACCTGGGCGAGCTGTCGGCCCTGGCGCAGAACCCTCAATTCACCGAGGGCCGGGCGTTGGCGGCGTTGTACCTGGCCCGCGATCTGCTGACTCAGCGCGGAGCCTACCTGCCATGA	MRQTPTILDRRIVATSRLFCVEELKLRFSNGVERTYERLAGKGAGYGAVMIVAMLDADHAVLVEEYCGGTEAYEWSLPKGLIEPGEDVLAAAERELKEEAGFGARQLEHLTELSLSPGYMSQKIQVVLATDLYEERLEGDEPEPMRVDKVNLGELSALAQNPQFTEGRALAALYLARDLLTQRGAYLP	PGPT0021615_140	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021615-nudE-K08312	NA	NA
D1-35_03174	828	cysQ	COG1218	3'(2'),5'-bisphosphate nucleotidase CysQ	ATGAATTTTCCGCATCCCCTGATGGCCCCGGTTATCGAGCTGGCGCTCACGGCTGGCGACGCGATCCTGCCCTTCTGGCGGGCCGATGTGGAGGTCGTGCGCAAGGCCGACGAATCGCCGGTGACCGCCGCGGACATGGCAGCTCACCATGTGATCGTGGCCGGGCTCAAAGCCCTGGCGCCGGATATCCCGATCCTTTCCGAAGAGGATGCCGATATTGCGCAAAGCGTCCGCGCCGGCTGGCAACGCTGGTGGCTGGTGGATCCGCTGGACGGCACCAAGGAATTCATTTCCGGCAGCGAGGAATTTACCGTCAATATCGCCCTGATCGAGGACGGACGAGTGGTGTTCGGTGTGGTGTCGATGCCCACCAACGGTCGTTATTATGCCGGCGGTGCGGGCCTGGGTGCCTGGCGCGGCGACAGGGATGCCGAGCCTGGGGCCATTGCGGTGCGTAACGTCCTGGCGCCCGGTGAAGCCTTTACGGTGGTCGCGAGCCGCCGTCATACCAGCCCGGAGCAGGAACGCCTGTTGGCCGGTTTGAGCGAAAGCCTCGGGGCGCTGCAATTGACCAATATCGGCAGTTCACTGAAGTTCTGCCTGTTGGCTGAAGGTGCGGCGGATTGCTACCCACGTCTGGCGCCGACGTCGCAATGGGACACCGCCGCCGCTCAGGGCGTGCTGGAGGGCGCGGGTGGCGAGGTACTCGACCTGCAGGGCCAGCCGTTCTGCTATCCGGCACGCGAGTCGTTATTGAATACGTCTTTCCTGGCGCTTCCGGCGAAAGCGCCGTGGCGTGGGAAGTTGCTGGAGCTGGCTCGTTCTTGA	MNFPHPLMAPVIELALTAGDAILPFWRADVEVVRKADESPVTAADMAAHHVIVAGLKALAPDIPILSEEDADIAQSVRAGWQRWWLVDPLDGTKEFISGSEEFTVNIALIEDGRVVFGVVSMPTNGRYYAGGAGLGAWRGDRDAEPGAIAVRNVLAPGEAFTVVASRRHTSPEQERLLAGLSESLGALQLTNIGSSLKFCLLAEGAADCYPRLAPTSQWDTAAAQGVLEGAGGEVLDLQGQPFCYPARESLLNTSFLALPAKAPWRGKLLELARS	PGPT0002975_1476	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002975-cysQ-K01082	NA	NA
D1-35_03175	456			hypothetical protein	ATGAACCGCGACAGCCACTACCTGGAAACGATCCTGCACCGGGACATCCCGCTGACGCAGGACATGGGCCTGAAGGTGCTCGGCTGGCAAGCTCGGCAGCTACGCTTGTTCCTGCCGATCGCAGCCAACGTCAACCACAAGAGCACCATGTTCGGCGGCAGCCTGTATTGCGGCGCCGTGCTCGGTGGCTGGGGCTGGCTGCACCTGGCGCTGCGCGAGGAAGGCATCGAAGACGGGCACATCGTGATCCAGGAAGGGCAGATCAGTTATCCGCTACCGGTTACCCGCGACGCGACCGTCATCTGTGAGGCGCCTGATAAAAAGACCTGGACGCGTTTCCTGGCCACTTATCGTCGCTACGGACGGGCAAGGCTGGCCTTGCAGACGCAGGTGGTGAATGTGGATAGCGAGGACGTGGCGGTGCGGTTTGAAGGGCAGTACGTTTTGCACCGTTGA	MNRDSHYLETILHRDIPLTQDMGLKVLGWQARQLRLFLPIAANVNHKSTMFGGSLYCGAVLGGWGWLHLALREEGIEDGHIVIQEGQISYPLPVTRDATVICEAPDKKTWTRFLATYRRYGRARLALQTQVVNVDSEDVAVRFEGQYVLHR				NA	NA	NA	NA	NA
D1-35_03176	1389	dctD_3		C4-dicarboxylate transport transcriptional regulatory protein DctD	ATGACCATCGATAACCAGATTGAGGTGGTGCTGATCGACGACGATCCCCACCTGCGTCAGGCCTTGAGCCAGACCCTCGACCTGGCCGGCCTGAAGATCCTGCCCCTGGGCGAGGCCAATGGCCTGGCCGGGCAATTGCCGCGAGACTGGCCCGGCGTGGTTGTCAGCGACATTCGCATGCCCGGCATGGACGGCCTTGAACTACTGAACCAGCTGCACGCCCAGGATCCGGACCTACCGGTCCTGTTGATCACCGGCCACGGCGATGTACCGCTGGCGGTCCAGGCAATGCGCGCCGGGGCCTATGACTTCCTGGAGAAGCCCTTCGCCAGCGATCATCTGCTCGACAGCGTTCGCCGAGCCCTGGCCTTGCGTCGCCTGGTCCTGGACAACCGCAGCCTGCGCCTGGCCCTTAGTGACCGGCATGAACTCAGCGCCCGCCTGGTTGGCCAATCGGCGCCCATGCTGCGCCTGCGCGAGCAGATCGGCGCCTTGGCGGCGACCCGCGCCGACGTGTTGATCCTCGGTGAAACCGGGGCCGGCAAGGAAGTGGTCGCCCGCGCACTGCACGACCTCTCAAGCCGGCGCAACGGGCCCTTCGTGGCGATCAACGCCGGCGCCCTGGCTGAGTCAGTGGTGGAAAGCGAACTGTTCGGCCACGAGCCCGGCGCCTTCACCGGCGCGCAAAAACGCCGTATCGGCAAGTTCGAATTCGCCAATGGCGGCACATTGTTCCTCGATGAAATCGAAAGCATGAGCCTGGACGTACAGGTCAAACTGCTGCGCCTGCTGCAAGAACGCGTAGTGGAACGGCTGGGGGGCAACCAGCAGATCCCGCTGGATATCCGCGTCATCGCCGCCACCAAGGAAGACCTGCGCCAGGCCGCCGACCAGGGCCGTTTTCGCGCCGACCTGTATTACCGCCTGAACGTCGCGCCGCTGCGCATTCCACCGTTGCGCGAACGCGGCGAAGATGTGCTGATGCTGTTCCAGCACTTTGCCAACGAAGCCAGCACCCGCCATGGCCTGCCGCCGCACGAACTGCAGCCGCCCCACCGGGCGCTGCTGTTACGCCACAGTTGGCCGGGTAACGTGCGCGAATTGCAGAACGCCGCCGAACGTTTTGCCCTGGGCCTGGAACTGGCACTGGACAACAGCGCGCCGGACAGCGGCCCCGCTGCGGTGGATGTGATCAGCGGCGGCCTGAGCGAGCAGGTGGAGAACTTTGAAAAAACCCTGATCGCCGCCGAACTGGCCCGTTCCCACAGCTCCGTACGCAGTCTCGCCGAAGCCCTGGGCATTCCGCGCAAGACGCTGCACGACAAGTTGCGCAAACACGGGCTGAACTTCGGCGACAGCAGCCATGGCCCGACCGAAGAGTCGGATTGA	MTIDNQIEVVLIDDDPHLRQALSQTLDLAGLKILPLGEANGLAGQLPRDWPGVVVSDIRMPGMDGLELLNQLHAQDPDLPVLLITGHGDVPLAVQAMRAGAYDFLEKPFASDHLLDSVRRALALRRLVLDNRSLRLALSDRHELSARLVGQSAPMLRLREQIGALAATRADVLILGETGAGKEVVARALHDLSSRRNGPFVAINAGALAESVVESELFGHEPGAFTGAQKRRIGKFEFANGGTLFLDEIESMSLDVQVKLLRLLQERVVERLGGNQQIPLDIRVIAATKEDLRQAADQGRFRADLYYRLNVAPLRIPPLRERGEDVLMLFQHFANEASTRHGLPPHELQPPHRALLLRHSWPGNVRELQNAAERFALGLELALDNSAPDSGPAAVDVISGGLSEQVENFEKTLIAAELARSHSSVRSLAEALGIPRKTLHDKLRKHGLNFGDSSHGPTEESD	PGPT0017310_78	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017310-dctD-K10126	NA	NA
D1-35_03177	1815	dctB_3		C4-dicarboxylate transport sensor protein DctB	ATGCTCATGAATTCCACTCTCCCCCGCAGACCCCGTTGGCGCAGCCTGGCACTGCTGGCCCTGTGCCTGGCGCCGTTGCTGTGGCCGCTGGAGCACCTGGCGGAGCGTTACTACCGCAGCGAGCTGGCCGGGCAGAATCGCCAGACGCTTGATCTCTACGTCGCCAACCTGTTGGGCACCCTGCACCGCTATGAAGTGCTGCCGCAGATTCTTGGCGAGCTGCCGCCCCTGCGCGCAGTCCTGTCTGCGCCGGATGATGGCGTTACCCAGGGCAATGCCAATCGATTACTGAAGAACATCAGCGCCCAGACTGGCGCTGAAGTCATGTACTTGATGGACGCCACTGGCAAGACCCTGGCGGCATCGAACTGGGACAAGCACGACAGTTTCGTCGGGCGCAATTTTGCTTTCCGCCCTTACTACATCGAAGCCATGGCCGGGCGTCTTGGACGCTTCTTCGGCCTGGGCACCACGTCGGGCAAACGCGGTTACTTCTTTGCCGCCGCCGTACGTGATCGCGAAAAAGTCATTGGCGTACTGGTGGTCAAGGTCGACCTGGACCACACCGAAAGCCTGTGGGGCAAGCCCCCTGAGCAATTGCTGGTGACCGACCATAATGGCGTGGTCATTCTGACTTCACGCCAGGAATGGCGGTTTCGCGCAACCCGCCCTTTGAGCACCGAAGAGAGCAAGGCAATCAGCGCGGTCCAACCCTACCCGACCCGCGATCCGAAGCCGCTTCATCTGGACGCCAATGCCTGGCTGACCCAGACCCAGGTCATCGAAGAGACTGGCTGGAACGTGAGCATCCTGGCCCCGCGAACGCTGATCGATCGTCCGGTGCGCACGGTGGTGGTCATTGGTGGCTCGGCGTTGCTGGTCTTGATGTTGCTGCTCGGGTTGATGATGCAGCGCCGGCGCCATTACCTGGAACGGATCGCCTTCGAAGCCAAGGCCCGGCATGAGCTGGAAGGTCGGGTGGCGGAACGCACCAGTGACCTGGAAGGCCTCAACCGGCGCCTGCGCCAGGAAGTGCTGGAGCGCGAGCAGGCCCAGCAGGAGCTGGTCCGCGCCCAGGACGACCTGGTGCAGGCCGGCAAACTGTCGGCCCTGGGCACCATGTCGGCGAGCATCAGCCATGAACTCAACCAGCCGCTGGCGGCCATTCGAAGCTACGCGGAAAACGCCGAGATCCTGCTCGATCACCAACGCACCGACGACGCCCGGGGCAACCTCAAGCTGATCAGCGAACTGACCGGGCGCATGGCCTCGATCATCGCCCATTTGCGCGCTTTTGCCCGCCGCGACCGCCACGCGCCGGAAAGCGTCGCCCTGCAACCGGCGTTGGACGATGCCTTGGCGCTGCTCGCCAAACGTCGGCGCAGCATGGAAGTGGAACTGATCCGTGACCTGCCGGCCGCCACCTTGTGGGTCGAGGCCGGCGAAACACGCTTGCGCCAGGTGCTGGGCAACCTGCTGGCAAACGCCCTTGATGCCCTGACCGAAAAGGGCCCGCCGCGCAGACTCTGGCTCAGTGCCCAGGCAACGGAAACCGGCGTCAACCTGTACATACGCGATAACGGCCCGGGGTTCTGCATGGAAGCCCTGGGCCGGGCCGGCGAGCCTTTTTATACCACCAAGACCCGCACCCAAGGCCTTGGCTTGGGGCTGGCGATCTGCGACACCCTGATGCGCGCCTTCGGCGGCGAGCTGTTGTTCGCCAATCACAAGGAAGGCGGCGCCCTGATTACCCTGAAGCTGCGCGCGGGCGCGCCCGGGGTGAGCCTGCAACCGTCCGAGGACCGTAGTGTATGA	MLMNSTLPRRPRWRSLALLALCLAPLLWPLEHLAERYYRSELAGQNRQTLDLYVANLLGTLHRYEVLPQILGELPPLRAVLSAPDDGVTQGNANRLLKNISAQTGAEVMYLMDATGKTLAASNWDKHDSFVGRNFAFRPYYIEAMAGRLGRFFGLGTTSGKRGYFFAAAVRDREKVIGVLVVKVDLDHTESLWGKPPEQLLVTDHNGVVILTSRQEWRFRATRPLSTEESKAISAVQPYPTRDPKPLHLDANAWLTQTQVIEETGWNVSILAPRTLIDRPVRTVVVIGGSALLVLMLLLGLMMQRRRHYLERIAFEAKARHELEGRVAERTSDLEGLNRRLRQEVLEREQAQQELVRAQDDLVQAGKLSALGTMSASISHELNQPLAAIRSYAENAEILLDHQRTDDARGNLKLISELTGRMASIIAHLRAFARRDRHAPESVALQPALDDALALLAKRRRSMEVELIRDLPAATLWVEAGETRLRQVLGNLLANALDALTEKGPPRRLWLSAQATETGVNLYIRDNGPGFCMEALGRAGEPFYTTKTRTQGLGLGLAICDTLMRAFGGELLFANHKEGGALITLKLRAGAPGVSLQPSEDRSV	PGPT0017305_754	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017305-dctB-K10125	NA	NA
D1-35_03178	549	rfbC_2	COG1898	dTDP-4-dehydrorhamnose 3,5-epimerase	ATGAATGTAATCGCCACCGACCTGCCCGGTGTCCTGATCATCGAACCCAAGGTATTTGGTGACGAGCGCGGTTTTTTTTATGAAAGCTTCAACGCGAAGGCATTCAAGGACGCGACCGGCATCGACACTCAATTCGTGCAGGACAATCATTCCCGCTCGCAGAAAGGCGTGTTGCGTGGCCTGCATTATCAATTGCAGAACACCCAGGGCAAACTCGTGCGCGTCACCGCCGGTGAAGTGCTCGACGTGGCCGTGGACATCCGCCGCAGTTCGCCGAATTTCGGCAAATGGGTTGCGGTACGCCTCAGCGCCGACAATCATCGTCAACTCTGGGTGCCACCAGGGTTCGCCCACGGCTTTGTGGTCCTGAGTGAATTCGCGGAATTCCTCTACAAGACCACAAACTACTACGACCCGACATCCGAACGCAGCCTGCTGTGGAACGACCCTGCGCTAGACATCGACTGGCAGTTGGGGGATATCCAGCCGCAACTGTCCGGCAAGGACCTGGCGGCTTCGACCCTGGAGCATGCGGACGTCTTCGCCTGA	MNVIATDLPGVLIIEPKVFGDERGFFYESFNAKAFKDATGIDTQFVQDNHSRSQKGVLRGLHYQLQNTQGKLVRVTAGEVLDVAVDIRRSSPNFGKWVAVRLSADNHRQLWVPPGFAHGFVVLSEFAEFLYKTTNYYDPTSERSLLWNDPALDIDWQLGDIQPQLSGKDLAASTLEHADVFA	PGPT0014300_3411	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PUTATIVE_TRYLOSE_DERIVATES_MODIFICATION,PGPT0014300-rfbC|rmlC-K01790	NA	NA
D1-35_03179	2913	argD_2		Acetylornithine/succinyldiaminopimelate aminotransferase	ATGCCACTCGCCACGTTGGTTCACCGTGCCAGTTTGCCAAGCCCACAGATCAGCGCCGAACAGGCACTGGTACTGCTGCGCTCGAATTACGGACTCAGCGGTGACCTGCGACCCCTTGGCAGTCATCAGGACCTCAACTACCGCGTCGACAGCGAGCGCGGGCGGTTCGTGCTGAAAATCTGCCATGGCGACTACGCCGTCCAGGAGCTCCAGGCCCAACATGCCGCGCTCAAGCAGTTGGCCGGGCACGGCGCGGTGAAGGTGCCGCGGGTGATCGAGGCCGCCAATGGCCAGGACCTGCTGACGCTAGATGTCCACGGGCAAGCGATACACATGCGCCTGCTCGAATACATCGACGGCCAGTCCCTCACCCAACTCAAACACCTCACGCCTGATCTGGTGACTGGGCTGGGCCGCCTGTGCGCCGACATGGACCTGGCCCTGGCCACGTTCGACCACCCGGGCCTGGAGCGAACCCTGCAATGGGACGCGCGCCACGCGCCAGCCTTGATCGAACACCTGTTGCCTGTCATCGACGATGACCAACGGCGTCAGTTGATCGCCGACGTCGCACAGCAGGCCGAACGGCGCTTGCAGCCGCTCAAGGCCAGCCTGCCTATGCAGGCGATCCACATGGACATCACCGATGACAACGTGGTCTGGCAACGCGATGCGCAGCGCCAATGGCAACTGCAGGGCGTCATCGATTTCGGCGACCTGATCCGCACCTGGCGTGTCAGCGATCTGTCGGTCACCTGCGCGGCGCTGTTGCATCATGCCGATGCAGATCCGTTTTTCGTCCTTCCGGCGATCAAGGCCTATCACGCGGTCAATCCGTTGCAGCGTGAAGAGCTCCAGGCGCTTTGGCCGTTGATCGTGGCCCGCGCCGCTGTGCTGGTACTTAGCGGAGAGCAACAGGTCGCTGTCGACCCGGATAACCAATATGCTCGCGACAACCTCAGGCATGAATGGGAGATCTTCAACGTCGCCCATTCCGTGCCGCTTGAGTTGATGGAAGCGGCGATCCTTGCCGCCGTGGGCCATAGCCTGCCGCCCTTTGCCAACGAGGGTTTCGCACCGCTGTTGCCGACTTTGGTGGGACGTGATTTCGCCCTGATCGACCTGGGTGTGCTCAGCCCGCATTTCGAGGCGGGCAATTGGGAGCAGCCGGGGATCGATCAGCGCCTGCTGAGCGAAGCCGCCGCCGTGCATGGATTGGCGGCCAGCCGTTACGGGCAGTATCGGTTGTCCCGCACCCGGCCGGACAGTGCCGAAGAGCCCGATACTTATCCGCTCCATGTGGAACTGCACATTCCTCACGGTACGCCGCTGGAGTCGCCCTTCGCCGGGGTGTTGCACAGGGATGCTGACGGCTTGCTGCGGCTCGATGGCCCGCAATTGAGCGTGCGTTTGTGGGGCGTTTCCTCGTCGCTGCAGCCCGGGGCCGCGCTGGCAAAGGGTCAGGTAGTGGGCGACGTGGCTGGGCCATTGCTGGTCCAGCTGTGCCGGGGCGCGCATCTGGCCCCGCCATTGTTCTGCACACCGTCCCGGGCGCAGGCCTGGCAAGCGCTCTGCCCATCACCCGCGGTGCTGTTGGGGCTGGCTTGCGATGCCGAGCCGGAAATCGATCCGCAGGCGCTGCTGGCCCGTCGCGATGCCAGTTTTGCCCGTTCGCAGAAGCACTACTACGTCGACCCGCCGCGCATCGAGCGTGGCTGGCGCAACCATCTGATCGACATGCAGGGCCGCTCGTACCTCGACATGCTCAACAATGTCGCGGTGCTGGGCCATGGCCATCCGCGCATGGCGGCGGTCGCGGCCAGACAGTGGTCGCTGCTTAATACCAACTCGCGTTTTCACTACGCGGCGATCGCCGAGTTTTCCGAACGCCTGCTGGCACTGGCGCCGTCGAACATGGACCGGGTGTTCCTGGTCAACAGCGGCACCGAAGCCAACGACCTGGCGATCCGCCTGGCCTGGGCCTACAGCGGCGGGCGCGACATGCTCAGCGTGCTGGAGGCCTATCACGGCTGGTCGGTGGCGGCCGATGCGGTCTCGACGTCCATTGCCGACAATCCCCAGGCCCTTAGCAGCCGTCCGGACTGGGTGCACCCGGTGACGGCGCCGAACACCTATCGTGGTGAATTCCGCGGTGTCGACAGTGCGCCGGACTACGTGCGCAGCGTCGAGCACAACCTGGCAAAAATCGCTGAACAGAAACGTCAGCTCGCCGGCTTCATCTGCGAGCCGGTATATGGCAATGCCGGCGGCATCGCGCTGCCACCGGGGTACCTGAAACAGGTCTACGCCTTGGTGCGCGAGCGCGGTGGTGTCTGTATCGCCGACGAGGTGCAAGTCGGCTACGGGCGCATGGGCGAGTTTTTCTGGGGCTTCGAGGAGCAAGGCGTGGTGCCGGACATCATCACCATGGCCAAGGGCATGGGCAACGGTCAGCCGTTGGGGGCCGTCATCACCCGCCGGGAAATCGCCGAGGCGCTGGAAGCCGAGGGATATTTTTTCTCTTCCGCCGGCGGCAGCCCGGTCAGTTGCCAGATCGGCATGGCCGTGCTGGACGTCATGGAGGAAGAAAACCTGTGGGAAAACGCCCGGGTCGTTGGCGGACATTTCAAGGCCCGCCTGGAAGCGCTGATCGACCAGTATCCATTGGTCGGAGCGGTGCATGGCTCCGGGTTCTACCTGGGCGTGGAGCTGATCCGCAATCGCGACACCCTCGAACCGGCCACCGAGGAAACCACCGCGCTGTGCAATCGCCTGCGGGAGTTGGGCATCTTCATGCAGCCGACTGGTGATTACCTGAACATCCTCAAGATCAAGCCACCGATGGTCACCAGTCGCCAGAGCGTGGACTTCTTCGTCGACATGCTGGCAAAAGCCCTGGAGGAGGGGGTGTAG	MPLATLVHRASLPSPQISAEQALVLLRSNYGLSGDLRPLGSHQDLNYRVDSERGRFVLKICHGDYAVQELQAQHAALKQLAGHGAVKVPRVIEAANGQDLLTLDVHGQAIHMRLLEYIDGQSLTQLKHLTPDLVTGLGRLCADMDLALATFDHPGLERTLQWDARHAPALIEHLLPVIDDDQRRQLIADVAQQAERRLQPLKASLPMQAIHMDITDDNVVWQRDAQRQWQLQGVIDFGDLIRTWRVSDLSVTCAALLHHADADPFFVLPAIKAYHAVNPLQREELQALWPLIVARAAVLVLSGEQQVAVDPDNQYARDNLRHEWEIFNVAHSVPLELMEAAILAAVGHSLPPFANEGFAPLLPTLVGRDFALIDLGVLSPHFEAGNWEQPGIDQRLLSEAAAVHGLAASRYGQYRLSRTRPDSAEEPDTYPLHVELHIPHGTPLESPFAGVLHRDADGLLRLDGPQLSVRLWGVSSSLQPGAALAKGQVVGDVAGPLLVQLCRGAHLAPPLFCTPSRAQAWQALCPSPAVLLGLACDAEPEIDPQALLARRDASFARSQKHYYVDPPRIERGWRNHLIDMQGRSYLDMLNNVAVLGHGHPRMAAVAARQWSLLNTNSRFHYAAIAEFSERLLALAPSNMDRVFLVNSGTEANDLAIRLAWAYSGGRDMLSVLEAYHGWSVAADAVSTSIADNPQALSSRPDWVHPVTAPNTYRGEFRGVDSAPDYVRSVEHNLAKIAEQKRQLAGFICEPVYGNAGGIALPPGYLKQVYALVRERGGVCIADEVQVGYGRMGEFFWGFEEQGVVPDIITMAKGMGNGQPLGAVITRREIAEALEAEGYFFSSAGGSPVSCQIGMAVLDVMEEENLWENARVVGGHFKARLEALIDQYPLVGAVHGSGFYLGVELIRNRDTLEPATEETTALCNRLRELGIFMQPTGDYLNILKIKPPMVTSRQSVDFFVDMLAKALEEGV				NA	NA	NA	NA	NA
D1-35_03180	879			N-carbamoyl-D-amino acid hydrolase	ATGAGTCGTATCGTTACCGTAGCCGCCACGCAAATGGCCTGTTCCTGGGATCTCGAAGCCAACATCGAGACCGCTGAAAAGCTGGTCCGCCAGGCCGCTGCCCAAGGCGCGCAGGTCATCCTTATCCAGGAATTGTTCGAGACGCCGTACTTCTGCCAGAAGCCGAACCCGGATTATTTGCAGTTGGCGACTCCGGTCGACGAGAACGTCGCCATCAAGCACTTCCAGAAAATCGCCGAAGAACTGCAGGTCGTGCTGCCGATCAGTTTTTTTGAACGGGCCGGGCGTGCGCGTTTCAATAGCATTGCGATCATCGACGCCGACGGTCGCAACCTGGGCATCTACCGCAAGAGCCACATCCCGGACGGTCCTGGCTACCATGAGAAGTATTATTTCAACCCTGGCGATACCGGCTTCAAGGTGTGGAATACCCGCTATGCGAAAATCGGCGTAGGCATCTGCTGGGACCAATGGTTTCCGGAGTGCGCCCGCAGCATGGCGTTGCAAGGTGCGGAAATTCTGTTTTACCCGACCGCCATCGGCAGCGAACCGCACGACAAGACTATTTCATCGCGCGATCATTGGCAGCGTGTACAACAGGGCCATGCCGGCGCCAACCTGATGCCGCTGGTCGCCAGCAATCGCATCGGCAACGAAGAGCAGGATGGCTATGACATCACGTTCTACGGCTCCTCGTTCATCGCCAATCAGTTCGGTGAAAAAGTCCAGGAATTGAACGAGACCGAAGAAGGCGTGCTGGTACACAGCTTCGACCTCGACGAACTGGAACACATTCGCAGTGCCTGGGGCACTTTCCGTGATCGGCGCCCGAACCTGTACGGCGTGATCAAAACTCTCGACGGCTCACTGGAGTCCTGA	MSRIVTVAATQMACSWDLEANIETAEKLVRQAAAQGAQVILIQELFETPYFCQKPNPDYLQLATPVDENVAIKHFQKIAEELQVVLPISFFERAGRARFNSIAIIDADGRNLGIYRKSHIPDGPGYHEKYYFNPGDTGFKVWNTRYAKIGVGICWDQWFPECARSMALQGAEILFYPTAIGSEPHDKTISSRDHWQRVQQGHAGANLMPLVASNRIGNEEQDGYDITFYGSSFIANQFGEKVQELNETEEGVLVHSFDLDELEHIRSAWGTFRDRRPNLYGVIKTLDGSLES	PGPT0008885_627	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_DEGRADATION,PGPT0008885-UPB1_like|pydC-K01431	NA	NA
D1-35_03181	1107	aguA	COG2957	Agmatine deiminase	ATGACAACTTTGCACAGCACTCCGCGCGCGGACGGTTTTTACATGCCTGCCGAGTGGGCGCCCCAGACTCAGGTCTGGATGATCTGGCCCGAGCGCCCGGATAACTGGCGCCTGGGCGGCAAGCCCGCGCAGGCCGCTCATGTGGCGGTTGCCAAGGCCATCGCCCGTTTCGAGCCGGTTACCGTGGCGGTATCCACCGCCCAATACGAAAACGCTCGGGCGCGGCTCGATGTGCCGAATATCCGCCTGGTGGAAATGTCCAGCGACGACGCCTGGGTCCGGGACACAGGCCCGACGTTCGTGATCAACAACAACGGCGAAGTGCGCGGTGTCGATTGGGACTTCAATTCCTGGGGCGGCTTCGAGGGTGGCTTGTATTCCCCATGGAACCGGGACTCGCTGGTGGCCGGCAAGATTCTCGAAATCGAGCGCAGCCCGCGCTACCGCACCGAGGGCTTCGTCCTCGAAGGTGGTTCGATCCATGTCGATGGCGAAGGCACGTTGATCACCACCGAGGAATGCCTGCTCAACCACAATCGCAACCCGCACCTGAACCGCCAGGAAATCGAGGCGGTGCTCAGTGCCCAATTGGCGGTGGACAAGATCATCTGGCTGCCCGATGGCCTGTTCAATGACGAAACCGACGGCCACGTGGATAACTTCTGCTGCTACGTGCGCCCTGGTGAAGTGCTGCTGGCCTGGACCGACGACCCGCAGGACCCGAACTACGCCCGCTGCCACGCGGCGATGGATGTGCTGCAAAACAGCACCGACGCCAAGGGCCGCTCGTTCACGGTGCATAAAATGCCGATTCCCGGGCCGCTGTATGCCACCGAAGAAGAATGCGCCGGGGTGGACGTGGTACACGGCTCACAGGAGCGCAAACCTGGCGAGCGTCTGGCCGGCTCTTATGTGAACTTCCTGATCGTCAATGGCGGCATCATCGCCCCGAGTTTCGACGATCCACTGGACAGCACGGCCAGGCAAATCCTGCAGGACCTGTTTCCCCAGCACGAAGTCATCATGGTGCCTGGGCGAGAGCTGTTACTGGGGGGCGGAAATATCCATTGTCTTACCCAACAGCAACCTGCCGCGCACACAAAATGA	MTTLHSTPRADGFYMPAEWAPQTQVWMIWPERPDNWRLGGKPAQAAHVAVAKAIARFEPVTVAVSTAQYENARARLDVPNIRLVEMSSDDAWVRDTGPTFVINNNGEVRGVDWDFNSWGGFEGGLYSPWNRDSLVAGKILEIERSPRYRTEGFVLEGGSIHVDGEGTLITTEECLLNHNRNPHLNRQEIEAVLSAQLAVDKIIWLPDGLFNDETDGHVDNFCCYVRPGEVLLAWTDDPQDPNYARCHAAMDVLQNSTDAKGRSFTVHKMPIPGPLYATEEECAGVDVVHGSQERKPGERLAGSYVNFLIVNGGIIAPSFDDPLDSTARQILQDLFPQHEVIMVPGRELLLGGGNIHCLTQQQPAAHTK				NA	NA	NA	NA	NA
D1-35_03182	201			hypothetical protein	ATGAATATGATAAGCGAGCGCACATGCCATCCCTTGGCCGTAAATGGTGAGTCGCTTCAAGCGTTGGCGCAGTGGTTGAAGTCCAATGGCACGCGTCAGATCAGAGAACCTGATCCGCGCCGGATGATCATCGAGCGCTACCCCGTTGGCCTGTTCAGCGAGGCGGAGCTGGAAGCGTTGTGGGATGTCATGCAGGGATAG	MNMISERTCHPLAVNGESLQALAQWLKSNGTRQIREPDPRRMIIERYPVGLFSEAELEALWDVMQG				NA	NA	NA	NA	NA
D1-35_03183	1287	oprD_4		Porin D	ATGTTGAACAAACGCTTTACGTTGCTAGCACTGGGGATTTTGAGCACAACACACGCCATGGCCAGCGATCAGTCCGAGTCCAATGGGTTCGTCGAAGACAGCAGCCTGAAAGTCCTGTTGCGCAACGCCTACATCAACCGCGACTACAAGGACGGCAACAAGGACAAGGCCGAATGGGGCCAGGCCGCCATCGGTACGTTCTCGTCCGGCTTCACCCAAGGCACCGTGGGCGTAGGCGTGGATGCGTTCGGCTTGTATGCACTGCGTCTGGACGGCGGCAAGGGGCGCACCGGTGCACAAGGCATCGATTTCTTCAAGAAAGGCGACAGCGGCAACGCGGCCGATGATCTCTCCAAATTCGGCGCCGCGGTGAAATTCCGTGTCTCCAACACAGTGCTGGCCTACGGCGACCAGATGCCGGCCCTGCCAGTTTTGAACTACGATAATTCGCGCCTGCTGCCAGAAAGCTACACCGGCACGCTGATCACCTCCAAGGAGATCAAAGGGCTCGAATTGAACGCCGGCCGCTTCACCGCCGAGTCCCGTAAAAGCGCTGAAGGCCGTGACAGCGGTGGCTTGAAATCGATCAACGTACTCGGCGGCAGCTACCAGTTCACCGAGCAATTCAAGGCTTCGCTCTACGCATCGGATGTCGAGGACGTATTGAAGAAGCAATACGTGAACGCCAATTACGTGTTCCCGTTGGCCAAGGACCAATCCCTCACCTTGGACTTCAACGGCTATCGCACCAAGCTGGACGACAGCTATGTTCGCGAAAACGGCGTCACTGGTGACGACAACAAAATCTGGAGCCTGGCGGCAACTTTCGCCACCGGCCCGCACAGCTTCACGCTCGCCCACCAGCGCAGCACCGGCGACAGCAACCTGGGCTACGCCTACGGCGGCTATCAACGTGATCAGAATCGTGTCGGCGACGGTGGTAACACCATCTATCTGGCTAACTCCTACTGGTCCGACTTCAACGCCGAAGACGAACGCAGTTGGCAGCTGGGCTACGGCCTGGACTTCACCACGTTCGGTGTACCGGGCCTGACCTACAACGTGGCCTATGTGCGGGGCGACAACATCACCACCTCCACCAGTGAAGGCGGCACCGAGCGCGAGATCTTCAACCAGTTCAAATACGTGGTCCAGAGCGGCCCGGCCAAGGACCTGAGCGTACGCTTGCGCAGCTCGGTCCTGCGCGTGTCGCAGAAATCCAGTGAGTACAACGTCAGCGGTAATGAGCTGCGGGTGTTTGTGGATTATCCGATTAACGTTTTTTGA	MLNKRFTLLALGILSTTHAMASDQSESNGFVEDSSLKVLLRNAYINRDYKDGNKDKAEWGQAAIGTFSSGFTQGTVGVGVDAFGLYALRLDGGKGRTGAQGIDFFKKGDSGNAADDLSKFGAAVKFRVSNTVLAYGDQMPALPVLNYDNSRLLPESYTGTLITSKEIKGLELNAGRFTAESRKSAEGRDSGGLKSINVLGGSYQFTEQFKASLYASDVEDVLKKQYVNANYVFPLAKDQSLTLDFNGYRTKLDDSYVRENGVTGDDNKIWSLAATFATGPHSFTLAHQRSTGDSNLGYAYGGYQRDQNRVGDGGNTIYLANSYWSDFNAEDERSWQLGYGLDFTTFGVPGLTYNVAYVRGDNITTSTSEGGTEREIFNQFKYVVQSGPAKDLSVRLRSSVLRVSQKSSEYNVSGNELRVFVDYPINVF	PGPT0028135_220	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028135-oprD-K18093	NA	NA
D1-35_03184	747			hypothetical protein	ATGGCGCCATCGGCGTTCACGCCCCTCGACCCCAGGACATGGCTGGCGCAACAGCCGTTGCAGGAAAACGAACACCTGTACCTGATCATCAGCGCGGCGAGCGAAGCCGATGCGCTGCAAGCCCTTCGCACTTCAGTTCTCGCTCATCCATTGCTGCCCATCTGGAGCGACACCCCCTACGCCGCCTGGCAAGCGGTGATGCCCTATGTCACCCAGCTCGAACCCGACTCGGCGTTCCTGCCATGGATCGCTGAAAACGAGACCCTCGATTGGGGCTGGCTGGCCGTATCCCGCTGCGAACCCGGCGAGGTACTGGCGCATCTGCGCAGCTTGACGCAAGTGCGGATGCCGGACGGGAACCCGGTGTTTTTCCGGTTCTGGGATGGGCGGTTCATTTATCCGCTGCTTGAAAAGCTCGGCGCGGCGGCCGGGCAGGTGTTGCCGACGTTCGATCGATACCTGATAAACGGCAAGGCCTTGGAGATCGGTTCAAGAAAAGTTCCGGCTGTCAGGGACTGGCCATGGTGGGACATTCCACAGGAGGTGCTCGACATGTTGCCGGACGAGAACGGGTCCATGCACGTCGGCCTTCTGCTGCAATGGCTGGAAGAAGAGCATCCAGGTGTTCACGCCGCTTGGTCAGAAAACAATCTGAAGCAGAAAATTTCCCGTTTCGTCAGCCGGGTGGATGCTTCGCAAAACCTGCGCGATGCGCTGCTCGAGGACCTTATCCTGGAACAAGGCTGA	MAPSAFTPLDPRTWLAQQPLQENEHLYLIISAASEADALQALRTSVLAHPLLPIWSDTPYAAWQAVMPYVTQLEPDSAFLPWIAENETLDWGWLAVSRCEPGEVLAHLRSLTQVRMPDGNPVFFRFWDGRFIYPLLEKLGAAAGQVLPTFDRYLINGKALEIGSRKVPAVRDWPWWDIPQEVLDMLPDENGSMHVGLLLQWLEEEHPGVHAAWSENNLKQKISRFVSRVDASQNLRDALLEDLILEQG				NA	NA	NA	NA	NA
D1-35_03185	747			hypothetical protein	ATGATCGTTCTGAACAGGGAAGTGGGCGAAGCGCTAAGGCGTGACAAATACGTCAACGTCCGCGGTGGTGACTTCAATCTCTACGGTCATTTCGGCGACTTTGTCCGGCTGACCAAAAGCTGGGAAAACATGGAGCCCGACAGCTATTACGGTCAGGCCGAGTCCGGCATGCGTTTCCGTCGCTATAGCGATTTCGAATACAGCCCAGCAACCCGTGAGCTCAAGCAACTCGAGCACCGGGCCTATGTCCAGTCCAAGGCCAACAACAGCTATGTCGGCGGGCTGGAGCGGCACTTCCAGGATTTCTCCAACGAAGTGATCAATTCGCCGGTCATGCGCAGCCTGATCGACACGGACTTCGAGGTGTACAAGAACGTCCTCCCGCAGGAATTGCACGATGAGATCTGGCAGTGCCAGATCCACCAGATCCGTATCGAGATCAAGCCGGGCAAGCAATTGGAAATCACCCCCGAGGGCATCCATTGCGATGGGTATCCGTTCAGCGGCGTGCACTTCTGGGGCCGCAACAATGTGGCGGGCGCTGAAAGCCGTCTCTACAGTCCCCAGGAAGAGCAACTGGCGGCGACCACCTACGAGGACATCCTCGACACGACGTTCTTCCTTGATCGCGACATGCGCCATTACGTGACCCCTGCCCGCAACACCCATAGCCATGAAATGGCTTTCAGGCAGATTCTGGCGATTTCCTTTTCGCGGCCCGGGACCGCTTTCGACATTGTTCGCTGA	MIVLNREVGEALRRDKYVNVRGGDFNLYGHFGDFVRLTKSWENMEPDSYYGQAESGMRFRRYSDFEYSPATRELKQLEHRAYVQSKANNSYVGGLERHFQDFSNEVINSPVMRSLIDTDFEVYKNVLPQELHDEIWQCQIHQIRIEIKPGKQLEITPEGIHCDGYPFSGVHFWGRNNVAGAESRLYSPQEEQLAATTYEDILDTTFFLDRDMRHYVTPARNTHSHEMAFRQILAISFSRPGTAFDIVR				NA	NA	NA	NA	NA
D1-35_03186	438			hypothetical protein	ATGGATGAGTCGGCGCAGCAGGTCCTGCTGCGCCGGGCCATGGTCAGGGACGCCGAACGACTGGAGCAGTTTTTTCGCGGTTTTGCCGAAGTGTCATTCTGCGAATGGCAGGATGCCCGGTTCCTGCGTGGGGTGTTGCTGCAGGAAACCACCACAGCCTACCTGGCCTTCGATGCGACGGGTGACGTCGTCGGCGCGGTCATCGGCGGTATGCTTGGCACTCGCGGCACCATCAATCACCTGGCCGTCAGCCCAAGGCATCGCACTCAAGGCCTGGGCCAGCGGCTGGTAGAGGCGGCATCGGCCGACATGAAGCGGGTTGGCGTGCTGCGCATGTTTCTGTTCGTCGACGAAGCCAATCTGGCCGGCAAGCGTTTCTGGGCGGCCCAAGGGTTCTGCGAACCCCGGGGTGAAATCACTTTCGAGAGGGATTTATGA	MDESAQQVLLRRAMVRDAERLEQFFRGFAEVSFCEWQDARFLRGVLLQETTTAYLAFDATGDVVGAVIGGMLGTRGTINHLAVSPRHRTQGLGQRLVEAASADMKRVGVLRMFLFVDEANLAGKRFWAAQGFCEPRGEITFERDL				NA	NA	NA	NA	NA
D1-35_03187	714	ygaZ	COG1296	Inner membrane protein YgaZ	ATGAACAAGACTTCCAGCCAGCCGCTGGCGGTCGAACCACAAGCCTCGCGAACCTTTGCTGAAGCCAGTCCGGTGGTAGCGGGTTATTTCACGGTTTCGTTTGTGTTCGGTCTGATGGCGGTCAACGCCGGCTTGCCTTTGTGGCTGCCAGTTGCGATGTGCCTGTTCGTGTACGCGGGAGCTTCACAATTCGCCGCGCTGGCATTGATTTCCAGCGGGGCCTCCTTGACCACCATCGTGCTGACGACATTCCTGATCAATGCCCGTCACATGCTGATGTCTGTCTATATGGCCAAGGCTTTGCGAGCACTGGGGCTTAGCCGCTTCGAGCGCTGGTGCTACGCGTCGGGGCTCACCGATGAGTCGTTCGCTTTCCACAGCGTCAAGCTCGGCAGCGGGGCGCCGGTAAGCGTGCGCTACCTGATCGGTTTCAACCTCTTCTGCCACACGTCTTGGGTGCTGGGCGGTTTGCTGGGGGCTGTCTGTGCCCAATACGCCGCGCACCTGATCAAGTATCAGCTCGATTACGCCCTGACCGCGATGATGCTCTATGTGCTGGTTTCGCTGTGCAACACCCGTAACAAACTGATCGCGGCGCTGGCGGCCGTGGCCTGCATGGGCGCGCTGAGCCTGCTGGGCAGTTCGCCGTTCAACGTATTCATTGCCACGTTTTTTGGCTGCGGGGTGGGCGTATGCCTGACCAAACGTTCCTGA	MNKTSSQPLAVEPQASRTFAEASPVVAGYFTVSFVFGLMAVNAGLPLWLPVAMCLFVYAGASQFAALALISSGASLTTIVLTTFLINARHMLMSVYMAKALRALGLSRFERWCYASGLTDESFAFHSVKLGSGAPVSVRYLIGFNLFCHTSWVLGGLLGAVCAQYAAHLIKYQLDYALTAMMLYVLVSLCNTRNKLIAALAAVACMGALSLLGSSPFNVFIATFFGCGVGVCLTKRS				NA	NA	NA	NA	NA
D1-35_03188	318			hypothetical protein	ATGCCTGACCAAACGTTCCTGATCCTGGTTGTGGTCCTGATGATGGCCGTGACCTTCCTGCCCCGGGCCTTGCCGCTGCAGGTCAACACCGAAAACTGGCCACCCTTCGTTGCCCGTGCACTGGAATACCTGCCGGTGGCGATCGTCGCTGCGATCACCCTGACGCCGTTGTTGATCAAGGACCAGCAGATACAGCTCGACCGTCCAGAGTTCTACGCCGCGATTCCGACCCTGCTATGTGCGTATTTCAGCCGCAACCTGTTTCTCAGTGTGGCGGTGGGCACGGCGGCGTATATCGCGCTCGGTTCGTTCCTGTAG	MPDQTFLILVVVLMMAVTFLPRALPLQVNTENWPPFVARALEYLPVAIVAAITLTPLLIKDQQIQLDRPEFYAAIPTLLCAYFSRNLFLSVAVGTAAYIALGSFL				NA	NA	NA	NA	NA
D1-35_03189	924	hdfR_5		HTH-type transcriptional regulator HdfR	ATGGATAGCAGAACCTTACGCAACCTCATGCGCATCGTGCAGACCGGCTCGTTGTCGGCTGCGGCGGAGCAGTCGTGCCTGACGGTGCAGGCATTGGCGGCACAATTGAACAAGGTCGAAGAACAATTCGGGTTTCGGTTGTTCCGCCGCTCGAACAAAGGCCTCGCATTGACCAGCCAGGGCTCGGAACTGACGCCCTTCATGGATCAGGTCCTGGCGGCCACCCGGCAGCTGGAGGAAAAAGTCGCGGCGCTCAAGACGCCCAGGCGACGTACCCTCAAGGTAGCGCTCAACACGACGCTGCCGGCGGAATTCAATCGACGGATGATCGAACGCCTGATCGCCGTTTTCCCCCAGTATCAGCTGGAGTTCAGCTACGCCGAATCGATGGAGAACCTGAGCAAGCTCAAGAACGAGCATTTTGACCTGGCGATCCTGGTCGGACAGCCGAGCGGATTTACCAGCATCGCGATGCCGGATGTCCAGGTACGCGTGGTCGGCGCTCATTGTGGCGAAGAAGATGATTCCCTGGGCCTGCTGGGTGACCGGTTCCAAGTGCGTCCGGCCGAGGAATGCCCTTATTCGCGCAGTTTCCTGCGCTTCCTCGATGCCGGTCTCGGTGAATACGGGCCAAGCCAGCGAATGGTCTATTCCTGCAGCGAAACCCTGACGCTGTCGTTGATTACCCAGCTCGACGGTTTGGGCCTTGTCTCCCGGGACGCGGCGCTGCGCAACGGCTTGGCTATCTTCCCGGATTTCGAGGACTTCCTGGAGGTACGCCTGGCGGTAAACAACCCTGAGCTTTCGGACCAGGCGCTGCATGATGTGGTGGACCTGACGCTACAGGAACGAACCGAGCGCGATATACGCCGCCGTGCCCACCGCCACACTGAGAAACAGGTTGCGGCTGAAATACGCACATAG	MDSRTLRNLMRIVQTGSLSAAAEQSCLTVQALAAQLNKVEEQFGFRLFRRSNKGLALTSQGSELTPFMDQVLAATRQLEEKVAALKTPRRRTLKVALNTTLPAEFNRRMIERLIAVFPQYQLEFSYAESMENLSKLKNEHFDLAILVGQPSGFTSIAMPDVQVRVVGAHCGEEDDSLGLLGDRFQVRPAEECPYSRSFLRFLDAGLGEYGPSQRMVYSCSETLTLSLITQLDGLGLVSRDAALRNGLAIFPDFEDFLEVRLAVNNPELSDQALHDVVDLTLQERTERDIRRRAHRHTEKQVAAEIRT				NA	NA	NA	NA	NA
D1-35_03190	411			hypothetical protein	ATGGCGACTTCCTCCATCACGCTCAACGCACAGCAACAATTGGATTCCCCGGACGCGGGTCGAATCGCGTTGAAGTTCTTCTTCAATCTCATGGAGTTGTGGGGCTGCAGCGTCGAGCAGCAGCGCACGCTGTTGGGCAAGGTAGGGAACACGACTTTCTACAAGTACAAACAATTACCCGACAACGTAAGACTGCCGCGCGATACCCTCGAGCGAATCTCCTACCTCATGGGTATTCATAAAGCCCTGAGCATCATCTTCAGTAACAGCCGGGACCGCGTGTATCAATGGGTCAGCAGTCCCAATAACGCGGCGCCATTCAACGGCCAGTCGGCGCTTTCCTACATGCTGACCGGGCGAGTGGTGGACATCGCCGATGTGCGGCGATACCTCGACGGAGTGCGCGGCTGA	MATSSITLNAQQQLDSPDAGRIALKFFFNLMELWGCSVEQQRTLLGKVGNTTFYKYKQLPDNVRLPRDTLERISYLMGIHKALSIIFSNSRDRVYQWVSSPNNAAPFNGQSALSYMLTGRVVDIADVRRYLDGVRG				NA	NA	NA	NA	NA
D1-35_03191	678			hypothetical protein	ATGACGCCACCACTGGCGGACCCGCAATGGAAACGGGCCTATCGGATCGTCAACAGCAGCTTTCCGCCGATCACGCTGTTCGAAGACGTGCTTGATCCCGAAGACCTGCCCACCGCCTACGCCCTCGAAGCGCTGACCAATGACCGGCTCATGGAAGAGGCCGGCGTGCTGTCCCGGGTACGCCCCGAAGACCGGGTTTCCGGCCCGGGCTCCTCGCCGGTGATGGCGGCATTCACTCACATTGGCAAGCGCAGCCGCTTCAGCGACGGCACGTTCGGCGTCTACTACGCTGCCAGCAGCCAGGAAGCCGCGATTGCCGAGACCTGCTACCACCAGGCACGCTTCCTTGGCGCGACCAACGAGCCGGACCTGGAGTTGACCATGCGCACCTACGTCAACAAGATCGTCAAACCCCTGCACGACATCCGCCACGATTATCCCCATCTGCATAACCCGGACCCTGACGCCTACGGCCCGTCCCAGGTATTTGCCCGGGAGCTGCGTGAAACCTTGTCGTGGGGCCTGCTGTACAACAGCGTCCGCTTGCCCGGTCATGAATGCGTGGCCGCGTTTCGCCCGCCGGCGGTGTCGATTCCGGTGCAGGGCAAGCATATTCGTTACGTGTGGAGTGCGCAGAAACGGGAGATTTCGTTTGTATTCGAGGTGAGTCAGGTGTGA	MTPPLADPQWKRAYRIVNSSFPPITLFEDVLDPEDLPTAYALEALTNDRLMEEAGVLSRVRPEDRVSGPGSSPVMAAFTHIGKRSRFSDGTFGVYYAASSQEAAIAETCYHQARFLGATNEPDLELTMRTYVNKIVKPLHDIRHDYPHLHNPDPDAYGPSQVFARELRETLSWGLLYNSVRLPGHECVAAFRPPAVSIPVQGKHIRYVWSAQKREISFVFEVSQV				NA	NA	NA	NA	NA
D1-35_03192	1608			hypothetical protein	ATGAAAATCCGCACCAAGGTTGTAGGTTCGGGGTTGGTCAGCCTGTTTTTTGCGCTGTTGCTGGGCGGTATCGGGCTGTGGGGCTACCGCGCCATGACCGACGCCTTGGCGCAGAACGAGACCAGTATCTCGGCGATGCGCAAGCACATGGAGGCGGACATGATGCACGACGCCATTCGTGGCGATGTGTTGGCTGCCTTGCTGGTTGCACCGGGAGATGCCGAGGGCGCGAAGGAAGTCACCGAGGCGTTCGATGAGCATTCGCAGCGGATGCGCAAGGTTATCGCGGAGAACGCCGAGGCTCGGTTGCCGGGTACGATTTCCCAGACCATTGCCGAGCTGAAGCCTCAGGCCGAGGCGTATATCGCCTCGGCGAAGCAAGTGATTGGCAAGGCATTGAGCGGGGCTCAGGATGGCCGGGCGTTGCGTACCGAATTTGATAAAGCGTTTTCGGCGCTGGAAGAGCGTAACGAAGCGGTCAGTGAATTGATCGAGAGCCAGGCGCAGGTTTCTCGCGAACATCAGGACCACAGCATCCATACCTCGGAACGCTGGTTGATCATCACGTTGCTGGCCACCTGCGTGGCGCTTGCATTGCTGTCGTGGAGCCTGCTCAAGGCAGTGCTCACGCCGCTGAACAAGATCATTCTCAATACCCAGGCGATTTCTCAAGGCGATTTGCAGCGCTCGATGGGCCCTCATGGCGATGATGAGCTGGGCCAGTTACAGGCGGTGATCGAACAGATGCAGGCCAACTTGCGGCAGATGATCGCGACGATCCGTAGCCAGAGCGACGAGTTGCATGGCACGTCCCGCAATCTGGGCGATACGGCGCGGCAGATTGTGTCCAGCGCCGACCAGCAAGCTCAGAGCGCTACCAGCATGGCGGCGAGCATGGAGCAGATGATGGCGAACATCAGCCAGATCCATCAGCATGCCGACAGCGCGCGGACGATTTCGGCGCAGTCCGAACAACTGGCGAGCAGCGGTGGGCAGGTGATTCTGGGGGTGGTGGAAGGCATGAACCGGATCGCCGAGGTGGTCAACCAGTCTTCCAGCAAGATCACCGCCCTGGACGCGTCCTCCGAGGATATCCATTCGATCATCCAAGTGATCAAGAGCATCGCCGAACAGACCAATCTGCTGGCCCTCAACGCCGCCATCGAGGCCGCCCGTGCTGGCGAGGCGGGCCGCGGTTTTGCGGTGGTGGCCGATGAGGTGCGCAACCTGGCGGCGCGCACCACTCAGTCCACCCAGGAGATCACCGCGATGATCGAGCGCATCCAGTCCAGCGCCCGGGATGCGGTGGCGAACATGCAGGCCTGCGTCAGCCGCGTGGACGAAGGCGTCAACCTGGCCCAGCAGGCCGGCGTGTCGATCAGCGAAATCCGCACGGGCGCACGGCATGCCGCCGAAGTGGTGGAGGAAATCTCCCAGACCATTGCCGAACAATCAAAAGCCAGTGACGAAATGGCCCAGCGGGTAGAAGCAATAGCCGAGCAGTCTCGGGAAAACACCCGCTCGATTCACGATCTGACAAAAACGGCTGACCATCTGAACGATGCCGCGGGCTCGATGCAGGCTTCGGTGCAGCAGTTCAAGATTTGA	MKIRTKVVGSGLVSLFFALLLGGIGLWGYRAMTDALAQNETSISAMRKHMEADMMHDAIRGDVLAALLVAPGDAEGAKEVTEAFDEHSQRMRKVIAENAEARLPGTISQTIAELKPQAEAYIASAKQVIGKALSGAQDGRALRTEFDKAFSALEERNEAVSELIESQAQVSREHQDHSIHTSERWLIITLLATCVALALLSWSLLKAVLTPLNKIILNTQAISQGDLQRSMGPHGDDELGQLQAVIEQMQANLRQMIATIRSQSDELHGTSRNLGDTARQIVSSADQQAQSATSMAASMEQMMANISQIHQHADSARTISAQSEQLASSGGQVILGVVEGMNRIAEVVNQSSSKITALDASSEDIHSIIQVIKSIAEQTNLLALNAAIEAARAGEAGRGFAVVADEVRNLAARTTQSTQEITAMIERIQSSARDAVANMQACVSRVDEGVNLAQQAGVSISEIRTGARHAAEVVEEISQTIAEQSKASDEMAQRVEAIAEQSRENTRSIHDLTKTADHLNDAAGSMQASVQQFKI	PGPT0015710_22424	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
D1-35_03193	216			hypothetical protein	ATGACCAATCCCAAAGACTTCAAAACCCCAGGCCTAACCCCCTTCTCCTACCACTCCGACCGCCCCCTGTTCCGCGTCAACAGCGGCATCCCCATCGGCGAAGCCCTCTCCCACGCCTCGATCTTCTCCACATCGCCATGCGCCTGGCCGATGACGCGGCGATGGTTCGGGGTACGGATCGTTATGCCTGGGCGTCGTGTTATTTGCAGGAGATGA	MTNPKDFKTPGLTPFSYHSDRPLFRVNSGIPIGEALSHASIFSTSPCAWPMTRRWFGVRIVMPGRRVICRR				NA	NA	NA	NA	NA
D1-35_03195	831			hypothetical protein	ATGAAGAAAAGGACAGCGGTGTTGGTTGACGGCGGATTTTTCTTCGAGCGCGTGAGATTTTTCGCGAGGAAATATTTCCGGCGAGATCTTGTCCTGACCGCTGAGCACCTGAGCAGCATCGTTCATCAGATGGTGAAAAACCACATCGAGGATCGAAGGGCGCTTCCTCGGGAGCTGTACCGGGTGTACTACTACGACTGCCCGCCCAACGATAAGCAAGTCCGCTATCCCATCACCCCTGATGGACACCGCACCCCTGGTAACATGAATTTCAAGGAGCACCCGCCGTACAAGGTTCGCGGGGAGCTTCACAATCGCCTGAAAAAAAGTCGTAAAACAGCGCTTCGGCTTGGCGAGCTGTCGAAGAGCGGTAGGTGGCGCCTGAACGACCATTCCCTTGATGATTTGCTTCGGGGAGAAAAGACATGGGACCAGCTTACAAACGCTGACTTTCACTATGACGTAGATCAGAAAGCCGTCGACATCAAGCTGGGCATGGATATCACCACCCTCGCTCTTAACAAGCTGGCTGACGTCATAGTCTTGGTAGCAGGCGACTCTGATTTCGTGCCAGCAGCGAAGCTTGCTCGGACAAACGGCATCGATTTTGTGCTTGATCCAATGTGGGCCGCAACTGCGGCAAGTTTAAGTGAGCATGTGGATGGACTGCGATCATATGACGTGGTTCGGATGATCAGTAGCGTCACAAGAGAGCCAGTCACCAATGTTCCTCTGTGGTGGCGGCAGCCAGAAGCAGCCGGTGATGCCGGGGAGGCTCCTGATAACATAGATCCACCAGCCGACAATGACGAGCCTGGCGTACCTGAGTAA	MKKRTAVLVDGGFFFERVRFFARKYFRRDLVLTAEHLSSIVHQMVKNHIEDRRALPRELYRVYYYDCPPNDKQVRYPITPDGHRTPGNMNFKEHPPYKVRGELHNRLKKSRKTALRLGELSKSGRWRLNDHSLDDLLRGEKTWDQLTNADFHYDVDQKAVDIKLGMDITTLALNKLADVIVLVAGDSDFVPAAKLARTNGIDFVLDPMWAATAASLSEHVDGLRSYDVVRMISSVTREPVTNVPLWWRQPEAAGDAGEAPDNIDPPADNDEPGVPE				NA	NA	NA	NA	NA
D1-35_03196	642			hypothetical protein	ATGGACCTACACAGCGAATTCGAAAAGAGCAAATACTTCCACCATGCCCGTATCGACCGGCGCGCGGCCGATGCCTTGGTAGGGTTGGCCGCAGGGATTACGGCGGACGGTGACGTGAACACCACCGAAGCGATTTTCTTGAAGCAATGGTTGGAAAACAATCTCGCGCATCTCAATGATCCGGTAATCAATCTACTTTATTCACGTTTGGCGTCCATGCTTCAAGACGATGCGCTGGACCCGGACGAGTCTCTTGAGCTGCTTAACATCCTGCGTGGTTTTTCTGGAGCGAGTATTGAGCCTTCGCAGGTTGGCAGAGCTGTTGCGGTTGCCCCTACGGATCTTCCGTTCAATTTACCTGCCCCTGATTTGCTGTGGGATGGCCGAATGTTTGTATTTACAGGCGTAATGGCCTTCGGGCCGCGCAAGGATTGTCAGGCGTTGGTCGAGGAGCGGGGTGGTTTGATAGGGGGCGGCGTGAGCAAGAAAGTGCATTATCTGGTCGTCGGTAGCGTGGGTAATGAACAATGGCGCCACAGTACCTACGGAACGAAAATCATGAAGGCAGTGGAGCTGCGGGAGGCGGGTGCTTCGATTGCTATTGTGGGTGAGGATCACTGGCAGAGAATGCTGTTTGGTTGA	MDLHSEFEKSKYFHHARIDRRAADALVGLAAGITADGDVNTTEAIFLKQWLENNLAHLNDPVINLLYSRLASMLQDDALDPDESLELLNILRGFSGASIEPSQVGRAVAVAPTDLPFNLPAPDLLWDGRMFVFTGVMAFGPRKDCQALVEERGGLIGGGVSKKVHYLVVGSVGNEQWRHSTYGTKIMKAVELREAGASIAIVGEDHWQRMLFG				NA	NA	NA	NA	NA
D1-35_03198	1254			hypothetical protein	ATGCCTGCCAAGGGCGCTGAGAGCGAGGTGCTGACGGGCGAAACATTACTCGCCCGTTTCATGGCTCTGGATGCTTTTCTCACAGAGCACCAGGCGCTATGGAAGCCCCGCCCTTTCACTCATCTGCAGCTACCTTGGGAAACTTCCCACCCCGAACTGGCCCAATGGCTACGCCAGCGTTCGCTGCAAGCGGCGGAAAACGACCATCATCAGCCGTGGTTGATTGAAGACGCGCCCGCGCCGTTCCCGGAACTGGCCGCTATCGCCCGCGCATTGAGCACGGTCGCCGAGCTGCCCGCCAGCCTGCTGAAAGCGCCAACTCATCGCCTCAACGTCGACGTGCCCGGGCGCAAATGGCAGCAGATCGAAGCCTTCGCCAGCCGCCTGACCTTCACCACCAAACCGACCCACTGGCTCGACTGGTGCGCCGGCAAAGGCCACCTTGGCCGACGGTTACTGCACGACGATCAGCACCTGACCTGCCTGGAATACGACCCCTTGCTGGTCGCCGCCGGCCAGCACCTGAGCCAGCGCCACAACCTGCCGGCCATGCACTTGCAGCAAGATGTATTGGCGCCGGATGCGGCCCAGGCGATCCAACCGGGACACACCCCGGTAGCCCTCCACGCCTGCGGCGACCTGCATGTTCGGCTCATGCACCTGGCGAGTGCCGCCGGCTGCGCACAAATGGCTATCGCACCGTGCTGCTACAACCGCATCAGCACGGCGCAGTATCGACCGCTGTCCGATGCGGCCAGCCAATCCAGCCTGCAACTGTCGCTGGACGACCTCGGCCTGCCACTGAGCGAAACCGTCACCGCCGGCTCGCGCGTCCGACGGCAACGGGACAAATCCATGGCCCGACGCCTGGCCTTCGACCTGCTGCAAAGGCAAATCCGCCGCAGCAACGACTACCTGCCCACGCCGTCATTACCCGGCGCCTGGCTGGAAAAACCGTTCGCCCACTACTGCACCGACCTGGCGGCCCTGAAGAATTTATCCATAGTTCGTTCCCCCGATTGGGACCAACTGGAGGCTGCGGGTTATCAGCGCCTGGCCGAGGTGCGCAACCTGGAACTGGTGCGAGGCCTTTTCCGACGGCCGTTGGAGCTTTGGCTGGTGCTGGACCGGGCACTTTTCCTCAGCCAAAAGGGTTACGAAGTGCGCCTTGGTATCTTCTGCGAAGCACCTCTTACGCCAAGAAATCTATTACTGCTGGCAGAGCGTCAGCCACACGCGACAGCCTGTGGATAA	MPAKGAESEVLTGETLLARFMALDAFLTEHQALWKPRPFTHLQLPWETSHPELAQWLRQRSLQAAENDHHQPWLIEDAPAPFPELAAIARALSTVAELPASLLKAPTHRLNVDVPGRKWQQIEAFASRLTFTTKPTHWLDWCAGKGHLGRRLLHDDQHLTCLEYDPLLVAAGQHLSQRHNLPAMHLQQDVLAPDAAQAIQPGHTPVALHACGDLHVRLMHLASAAGCAQMAIAPCCYNRISTAQYRPLSDAASQSSLQLSLDDLGLPLSETVTAGSRVRRQRDKSMARRLAFDLLQRQIRRSNDYLPTPSLPGAWLEKPFAHYCTDLAALKNLSIVRSPDWDQLEAAGYQRLAEVRNLELVRGLFRRPLELWLVLDRALFLSQKGYEVRLGIFCEAPLTPRNLLLLAERQPHATACG				NA	NA	NA	NA	NA
D1-35_03199	690	occM_2		Octopine transport system permease protein OccM	ATGAACTGGGAAGTCATCATCAAGTGGCTGCCGAAACTGGCCCAGGGCGCAACGTTGACCCTGGAGCTGGTGGCCATCGCCGTGATCGCCGGCCTGTTGCTGGCGATTCCGCTGGGCATCGCCCGTTCATCGCGCCTGTGGTACGTGCGGGCGTTGCCCTACGCCTACATCTTCTTTTTCCGCGGCACTCCGCTGCTGGTTCAGCTGTTCCTGGTGTATTACGGCCTGGCGCAGTTCGACGCCGTGCGCAGCAGCGCCCTATGGCCTTATCTGCGGGACCCGTTCTGGTGCGCCACCGCCACCATGACCCTGCACACCGCCGCCTACATCGCCGAGATCCTGCGCGGCGCGATCCAGGCCATTCCCCGTGGCGAAATTGAAGCCGCGCGGGCCCTGGGCATGTCTCGCCCCAAGGCGCTGCTGTACATCATGCTGCCCCGCGCCGCGCGCATCGGACTGCCGGCCTACAGCAACGAAGTGATCCTGATGCTCAAGGCCAGTGCCCTGGCGAGCACCGTGACCCTGCTGGAACTCACCGGCATGGCCCGTACGATCATCGCCCGGACCTACCTGCCGGTAGAGATCTTCTTCGCGGCCGGCATGTTCTACCTGCTGATGTCCTTCGTCCTGGTACAAGGCTTCAAGCAACTGGAACGCTGGTTGCGCGTCGATGCCTGCCAAGGGCGCTGA	MNWEVIIKWLPKLAQGATLTLELVAIAVIAGLLLAIPLGIARSSRLWYVRALPYAYIFFFRGTPLLVQLFLVYYGLAQFDAVRSSALWPYLRDPFWCATATMTLHTAAYIAEILRGAIQAIPRGEIEAARALGMSRPKALLYIMLPRAARIGLPAYSNEVILMLKASALASTVTLLELTGMARTIIARTYLPVEIFFAAGMFYLLMSFVLVQGFKQLERWLRVDACQGR	PGPT0020540_108	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020540-PA5155-K23057	NA	NA
D1-35_03200	696	artQ_1	COG4215	Arginine ABC transporter permease protein ArtQ	ATGATGATCGATCTCTACGGATTCGGCCCGGCGCTAGCCGCCGGCGCGCTGATGACCGTCCAGTTGGCCCTTTCTGCCTTATGCCTGGGGCTGGTACTCGGCCTGCTCGGTGCCCTGGCCAAGACCTCGTCATACAGGCCGTTGCAATGGCTTGGTGGCACTTATTCAACGCTGGTTCGCGGCATTCCGGAATTGCTCTGGGTGCTGTTGATCTATTTCGGCACCGTTAACCTGATGCGCGCCTTGGGTGAGTACTTCGGCAATCCCGACCTTGCTCTCAACGCCTTCGCCGCCGGCGTCATCGCACTCGGCCTGTGCTTTGGCGCCTACGCTACTGAAGTGTTTCGCGGCGCAATCCTGGCGATCCCCAAGGGTCACCGTGAAGCCGGCGTCGCTTTGGGCCTGTCGAAATGGCGGATCTTTACCCGATTGATCATGCCGCAAATGTGGCGCATCGCCCTGCCCGGCCTGGGCAACCTGTTCATGATCCTGATGAAGGACACCGCGCTGGTCTCGGTGATCGGCCTGGAAGAAATCATGCGACACGCGCAAATCGGCGTAACCATTTCCAAACAGCCGTTCACCTTCTATATGGTCGCCGCGCTCATGTACCTGGGGCTGACAGTACTCGCCATGATCGGCATGCACCTGCTTGAACGACGCGCGGCCCGTGGTTTCGCCAGGAGCACGCAATGA	MMIDLYGFGPALAAGALMTVQLALSALCLGLVLGLLGALAKTSSYRPLQWLGGTYSTLVRGIPELLWVLLIYFGTVNLMRALGEYFGNPDLALNAFAAGVIALGLCFGAYATEVFRGAILAIPKGHREAGVALGLSKWRIFTRLIMPQMWRIALPGLGNLFMILMKDTALVSVIGLEEIMRHAQIGVTISKQPFTFYMVAALMYLGLTVLAMIGMHLLERRAARGFARSTQ	PGPT0020535_89	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020535-PA5154-K23056	NA	NA
D1-35_03201	753	argT_4	COG0834	Lysine/arginine/ornithine-binding periplasmic protein	ATGCAGACCTACAGGAAAATACTCTTGGCCGCTGCGGCCAGCCTGGTCCTTTCGGCCAACGCCATGGCGGACGGCAAACTGAAAATGGGCATCGAAGCAGCCTACCCTCCGTTCAATAACAAGGACGCCAGCGGCCAGGTCGTGGGTTTCGACAAAGACATCGGCGACGCCCTGTGCGCCAAGATGAAAGTCGAGTGCGAAGTGGTCACTTCCGACTGGGACGGGATCATTCCGGCCTTGATGGCGAAGAAGTTCGATTTCCTGATTTCTTCGCTTTCGATCAATGAAGAGCGCAAGCAAGCGGTGGATTTCACCGACCCGTACTACACCAACAAACTGCAATTCATCGCGCCGAAAAACGTCGATTTCAAAATCGATAAAGAGTCTCTTCAGGGTAAGGTCATCGGGACACAGCGCTCCACGCTCGCTGGCACTTGGATGGAAGACAACATGGAAGGTGTCGAAGTGAAACTGTATGACACCCAGGAAAACGCCTACCTGGACCTCACCTCCGGTCGTCTCGACGGAATCCTGGCAGACAAATACGCGAACTACGACTGGCTGAAAACCGACGCTGGCCGGGCTTACGAATTCAAAGGTGACGCGGTGGTAGAGGGCGACAAAATCGCCATCGCCGTGCGCAAGGGTGACAATGAATTGCGCAACAAGCTGAACGCCGCATTAAAAGAGATCGTTGCCGACGGCACCTATAAAAAGATCAACGACAAGTACTTCCCGTTCAGCATCTATTGA	MQTYRKILLAAAASLVLSANAMADGKLKMGIEAAYPPFNNKDASGQVVGFDKDIGDALCAKMKVECEVVTSDWDGIIPALMAKKFDFLISSLSINEERKQAVDFTDPYYTNKLQFIAPKNVDFKIDKESLQGKVIGTQRSTLAGTWMEDNMEGVEVKLYDTQENAYLDLTSGRLDGILADKYANYDWLKTDAGRAYEFKGDAVVEGDKIAIAVRKGDNELRNKLNAALKEIVADGTYKKINDKYFPFSIY	PGPT0020530_157	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020530-PA5153-K23055	NA	NA
D1-35_03202	774	occP		Octopine permease ATP-binding protein P	ATGGCCCAGGCCACGCCCGCGCTTGAAATCCGCAACCTGCACAAACGCTACGGCCAGCTGGAGGTGCTCAAGGGCGTCTCGCTGACCGCTCGCGACGGCGACGTGATCTCGATCCTCGGCTCTTCCGGATCCGGCAAGTCCACGTTCCTGCGTTGTATCAACCTGCTGGAGAACCCCAACCAGGGCCAGATCCTGGTGGCTGGCGAAGAGCTCAAGCTCAAGGCGGCGAAAAACGGCGAACTGGTAGCCGCCGACGGCAAACAGATCAACCGCATACGCAGCGAGATCGGTTTTGTCTTCCAGAACTTCAACCTCTGGCCGCACATGAGCGTACTCGACAACATCATCGAGGCTCCGCGCCGGGTGCTCGGCCAGAGCAAGGCCGAAGCCGTCGAAGTCGCCGAAGCCTTGCTGGCCAAGGTCGGTATCGCCGACAAGCGCCACGCCTACCCGGCCGAACTGTCCGGCGGCCAGCAGCAACGCGCCGCCATTGCCCGTACGCTGGCGATGCAGCCCAAGGTGATTCTGTTCGACGAACCCACCTCTGCCCTTGACCCGGAAATGGTCCAGGAAGTACTTAGTGTGATCCGCGCCCTGGCCGAGGAAGGCCGCACCATGCTGCTGGTTACCCACGAAATGGGCTTTGCCCGCCAGGTTTCCAGCGAAGTGGTATTTCTTCATCAGGGCCTGGTCGAAGAACAAGGAACGCCACAGCAGGTTTTCGAAAGCCCGCTTTCGGCGCGCTGCAAACAATTCATGTCCAGCAACCGCTAA	MAQATPALEIRNLHKRYGQLEVLKGVSLTARDGDVISILGSSGSGKSTFLRCINLLENPNQGQILVAGEELKLKAAKNGELVAADGKQINRIRSEIGFVFQNFNLWPHMSVLDNIIEAPRRVLGQSKAEAVEVAEALLAKVGIADKRHAYPAELSGGQQQRAAIARTLAMQPKVILFDEPTSALDPEMVQEVLSVIRALAEEGRTMLLVTHEMGFARQVSSEVVFLHQGLVEEQGTPQQVFESPLSARCKQFMSSNR	PGPT0020545_92	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020545-PA5152-K23058	NA	NA
D1-35_03203	450			hypothetical protein	ATGAGATCCCTACAATGTTCTTTGTTGCCTTTCGTTACCATCGCCATTCTGCTATTCCCTCTCGCCCTCAACGCCACCAACCTCGCGCCCATCGACAACACAGGCGTCCAGATCCAACCCATGCAGCAGAACGGCATTACTTATCTGTCCGGCGGCATCGGCGAAGACGAAGCCCGGGCCATCGGGCAGGCCCAGGGTTACAACCTGCACATGACTTTTGCGATCGGCCCGGAGAACAAATACGTTCCGGATGTGGACGTGACTGTGCAGAACTCATCAGGACAAACATTACTGACGCTCAGCGATGCGGGCCCGCTGGTATATGTGCAATTGCCGCCGGGCAAGTACAGCGTGGTGGCGACGCGCAACGGGGAGGAGCGCCGCGACACCGCCGATGTGGGCAGCGGAGCCGCGCGCAAGCTGGTATTCCACTGGAACAGCGGCGAGTAG	MRSLQCSLLPFVTIAILLFPLALNATNLAPIDNTGVQIQPMQQNGITYLSGGIGEDEARAIGQAQGYNLHMTFAIGPENKYVPDVDVTVQNSSGQTLLTLSDAGPLVYVQLPPGKYSVVATRNGEERRDTADVGSGAARKLVFHWNSGE				NA	NA	NA	NA	NA
D1-35_03204	447			hypothetical protein	ATGGCCTCACTGAACAAGCAGCAGAAACGCGCCAAGCGTGCCAAAGACAAAGCCAAGCAGATCCGCATGACCGGGCGTAAATCCATCCCGATGTATGGCGATCCGGCCCATGCAACCGCCCAGCCACCGGTTTACGTACAGGAGTTGTTCGTCAAGCTGCGCGACGCCGAGGCCGTCAGCCGCAGCGAAATGCTCGACACATTGCTGGCAAACGTCAGCGAAATGATCATCGAGCGCCCAGGCCTGCTGGATCTGAAGAACGCCGAAAACGAGAGCATGGCCGCCACCAACCTGGCTGCCGACATGCTGGTGGACTACCGCATGTGGGTCGACGACATGGACCGCGAGGCGGCCCAGCGCTGGCTCAGCACGCCGGAGTTCATCAAGGACTTCAGCGAGGCGCTGGACCGTTATCGCCAGTCTATGGAAGAGCCCGTCGGCGAATAA	MASLNKQQKRAKRAKDKAKQIRMTGRKSIPMYGDPAHATAQPPVYVQELFVKLRDAEAVSRSEMLDTLLANVSEMIIERPGLLDLKNAENESMAATNLAADMLVDYRMWVDDMDREAAQRWLSTPEFIKDFSEALDRYRQSMEEPVGE				NA	NA	NA	NA	NA
D1-35_03205	2235	cph1		Phytochrome-like protein cph1	ATGACCCCGGAAAACCAGGAAGCCTTCGAAGAACTGCTGGCTAATTGCGCAGACGAACCGATTCGCTTCCCCGGCGCCATCCAGCCTCATGGCGTGCTGCTGATGCTGTCCGAGCCAGACTTCGTAATCCGTCAGGTCAGCGCCAACGTCTTGCAATTGATGGGACAGGATCCCTACAGATTGCTGGACCAGACGCTTGATGCACTGGTGGGACTGGAGCAGGCAGAAGCCATCCTCATTGCCTGCCACGCGCCCCCGGAAAGCGACAACGTGCCCGTAGCCATTGTCGTGAACCAGCAGCGTTTTGACGCCTTGGTGCATCGCCATCAGGGCGCCCTGATCATCGAGCTGGAACAACACCTGAGCGACTATCGCCCCGAAGGCGTCAGCGGCGAGGCCAACCTGGGCCGTATGCTCCAGCGCCTGCAAAGCGCAAAAGATCTTCAAGCCCTGTACGAAATCAGCGTGCGGGAAATCCAGGCCATGACCGGCTACGACCGCGTGCTGATCTATCGTTTTGAGGAAGAAGGCCACGGGCAGGTCATCGCCGAAGCCAGCGCGCCATCGATGGAGCTTTACAAGGGGCTGTTTTTCCCAGCCTCGGATATTCCCGAGCAGGCCCGTGAGCTGTATCGCACCAACTGGTTGCGCATCATCCCCAACGCCGACTACACGCCGATACCCCTGGTGCCCGAGCTGCGCCCCGATACCCAAGCGCCGCTGGATCTGAGTTTTTCGACGCTGCGCAGCGTCTCGCCGATTCACCGTCAATACATGAAGAACATGGGCGTGCTGTCGTCGATGAGCATCTCGTTGATGAAAGGCGAGCAACTGTGGGGCTTGATCAGCTGCGGCAATCGCCAGCCGCTGCTCGTGCCCCATGAAATGCGCATGGCCTGCCAGACCATCGGCCAGATCCTGTCACTGCAGATCAGCGCCATGGAAACCCTTGAACTGACTCGGCAACGGGACGCCAAGCTGGAGGACCTACAGGCGCTTGCCGCCGCCATGGCCGAATCCAGCGAAAACGTCTTCGATGGCCTGTGCCGCGAGCCACAACGCCTGATGGACCTCACCGGGGCCAGCGGCGTTGCGATCTTCGAGGACAACAAACTGCATCGCCACGGTCAGTGCCCCGAACCGGAGCAAATCCGCGAATTGCACAAGTGGATATTGGCAACAGGTCAGCCGGTCTTCTCTCACCATAACCTGGGCAGCGTTTTCGCCCCGGCCAAGGCTTTTCAGGATGTAGCGAGCGGGGTGCTGGCGATTCATCTGCCCAAGCCTGTGGAAAATGGCGTGCTGTGGTTCCGTCCCGAAGTGAAGCAAACCATCAATTGGAGCGGTGACCCGCAAAAACCCCTCGACCTGGAAGACAGCGAGACCGGATTACGCCTGCGGCCGCGCACCTCGTTTGAAATCTGGAAAGTCGAGATGGACGGTATCAGCGCCAAGTGGAGCCATGGCGACTTGTTCGCCGCCAACGACCTGCGCCGCTCGGCCCTGGAAAATGATCTGGCCCGACAGGTACGCAAGGAGCGCCAGGCGGTGCAAGCACGCGATGAACTGGTGGCGGTCGTGTCCCATGATTTGCGCAACCCGATGACGGTCATTTCCATGCTCTGCGGCATGATGCAAAAGGCCTTCAGCTCCGACGGCTCACACAGCTCGAAGCGAATTGCCTCGGCCATCGACACCATGCAACAAGCCGCCAGTCGCATGAATGCACTGCTGGAAGATCTGCTCGACACCTCGCGCATCGACGCCGGGCGCTACACCATCAACCCTCAGCCGATGGACGTCAGCCAGATCTTCGAAGACGCCTGTTCGCTACTGACGCCGCTGGCCTCCGCCAAGGCAATCAATATTTCTTTCCATGCCGAGCCCAACCTCAAGATCAACGCAGATCCCGAGCGGCTGTTCCAGGTGCTGTCCAACCTGATCGGCAATGCCATCAAATTCACGCCGCAGCAAGGGACCGTGGGCATCAGCGCGATGTCGGTGGGCGATGAGATCGTGTTCAGCGTCCGCGATACCGGTGAAGGCATCGCCCCCGAGCAGTTGCCGCATGTTTTTGACCGCTACTGGACGACCAAGGAAGGCAACCCGAATGGCACCGGACTTGGGCTGTATATATCCAAGGGGATTGTCCAGGCTCATGGCGGTAAACTGCACGCCGAAAGCCAGCCAGGCCAGGGCAGTGAATTCCGCTTTACCGTGCCGAAAATCGACTGA	MTPENQEAFEELLANCADEPIRFPGAIQPHGVLLMLSEPDFVIRQVSANVLQLMGQDPYRLLDQTLDALVGLEQAEAILIACHAPPESDNVPVAIVVNQQRFDALVHRHQGALIIELEQHLSDYRPEGVSGEANLGRMLQRLQSAKDLQALYEISVREIQAMTGYDRVLIYRFEEEGHGQVIAEASAPSMELYKGLFFPASDIPEQARELYRTNWLRIIPNADYTPIPLVPELRPDTQAPLDLSFSTLRSVSPIHRQYMKNMGVLSSMSISLMKGEQLWGLISCGNRQPLLVPHEMRMACQTIGQILSLQISAMETLELTRQRDAKLEDLQALAAAMAESSENVFDGLCREPQRLMDLTGASGVAIFEDNKLHRHGQCPEPEQIRELHKWILATGQPVFSHHNLGSVFAPAKAFQDVASGVLAIHLPKPVENGVLWFRPEVKQTINWSGDPQKPLDLEDSETGLRLRPRTSFEIWKVEMDGISAKWSHGDLFAANDLRRSALENDLARQVRKERQAVQARDELVAVVSHDLRNPMTVISMLCGMMQKAFSSDGSHSSKRIASAIDTMQQAASRMNALLEDLLDTSRIDAGRYTINPQPMDVSQIFEDACSLLTPLASAKAINISFHAEPNLKINADPERLFQVLSNLIGNAIKFTPQQGTVGISAMSVGDEIVFSVRDTGEGIAPEQLPHVFDRYWTTKEGNPNGTGLGLYISKGIVQAHGGKLHAESQPGQGSEFRFTVPKID				NA	NA	NA	NA	NA
D1-35_03206	606			hypothetical protein	ATGTCACCGGCCGCAACCCACCCCTCTTTGATCCAGGCATTGCGGACTGAAACCGCCGAGTTGCATGTCGCCTTGGAAAAACGCCTGCCGTTTTTTTCGGAACGGCTGAACCTGGACCTATACCGGCGCCTGATGGCGGCCTATTACGGTTTTTACCAGCCTTTGGAACAACGGCTTCAGGTATTGGCATTGATTCCGTCCGGGCTGGACCAATCCCTGCGCATCAAGCTTCCGGTATTGCGGACCGATCTCACGGCGCTGGGCATGGATGCAGCCGCTATCGAAGCGCTGCCCGTTTGCCAGCAACTGCCGCAGATCAACTCCCGCGCGGCCGCCCTCGGGGTTTCCTACGTGCTGGAAGGAGCGACCCTCGGCGGACAGATTCTGCGACGCAGGGTGGCGGAGCAGCTTGGCCTGGATGCCTCCAGCGGCGCTGCCTTTCTCAACGTGTATGGTGAACTCACCGGCCGCCGCTGGAAGGATTTCCTCCAATACCTGGACGACAGGAACCTTGGCGAACCCCAGACGCTCGAAGTCACACGCGCCGCCAGGTCGACGTTTACTCATTTTGAACACTGGCTGGACAGCCAAAAGGTACTGCTATGA	MSPAATHPSLIQALRTETAELHVALEKRLPFFSERLNLDLYRRLMAAYYGFYQPLEQRLQVLALIPSGLDQSLRIKLPVLRTDLTALGMDAAAIEALPVCQQLPQINSRAAALGVSYVLEGATLGGQILRRRVAEQLGLDASSGAAFLNVYGELTGRRWKDFLQYLDDRNLGEPQTLEVTRAARSTFTHFEHWLDSQKVLL				NA	NA	NA	NA	NA
D1-35_03207	609			hypothetical protein	ATGAAGCCGATACTGCCCCAAGACGATCCACAGCTCGCGCCCTTGATCAACGAACTAGGCGAGCTGATTCGCCAGGCACGCCAGAAAGTGTTGCGTGCCGTTGACACTCTCCAGGTACAGACCTGCTGGCAGATCGGCCGGCACATCATCGAGTTCGAGCAAGGAGGCGTCGAACGCGCGGCTTATGGCGCAAGGTTGCTAGCGTCCTTGGCGAAGGTGCTGACGGGGCGGTTTGGGAAAGGGTTTGATGAACGTAACCTGCGGCATATGCGGGATTTTTATCTGAAGTTTTCAATTTGGAACGCAGTGCGTACCGAATTGAGCTGGACCCATTACCGCACGCTTCTGCGGGTAGTACACGACAACACTCGACATTGGTACATGAACGAAGCCGCCACCCAGAACTGGTCCACCCGCGCCTTGGAGCGCCAGATCGGCACGTTCTATTACGAACGCCTCCTGGCAAGCCGCGATCGACCTGCGGTAGAGCAGGAAGCAAGCGCAAGGCGCTGGATTGCGAACGGGCGCGGCTTGAGGAGTCCCCCCCGGACGCAGCGACCTGAAGAAATGAAGCCGTTATCGAAACGCATACTCAAAAAACCCATGTAG	MKPILPQDDPQLAPLINELGELIRQARQKVLRAVDTLQVQTCWQIGRHIIEFEQGGVERAAYGARLLASLAKVLTGRFGKGFDERNLRHMRDFYLKFSIWNAVRTELSWTHYRTLLRVVHDNTRHWYMNEAATQNWSTRALERQIGTFYYERLLASRDRPAVEQEASARRWIANGRGLRSPPRTQRPEEMKPLSKRILKKPM				NA	NA	NA	NA	NA
D1-35_03208	408			hypothetical protein	ATGCCATCGGCGAACAAACAGCAAAAACGCAGCCAGCGTGCCAAGGAGAAAGCCAAGAAGAATCGCATTCAGCGTGCCGCTGCGCCGAACGACTTCCTGGACCCGAACGACGAGCGCATCGACCTGGAAACCGTGGACCTGTCTGACCTGTTCCGCATCATGAGCGCCGCCGAGAAGGTCAGTCAGAAAGCCATGTGCGAAGCGTTCTTGGGCCATCCACTGCTGGCGCTCGTGCTAGAACAGGAAGGCGAGGAAGAAGCGACCGACTTCATCATTACCGCCTTGATCGAATACCGTCGCCTGACCACGGGCGTCGATGAGCAGACTGCCCTGGATTGGGTGGAAAGCAAGCAGTTCCAGGCTGATTATGTCGCCGCATCCCAGGCGCTGACGCAAGGCCAAGGCTGA	MPSANKQQKRSQRAKEKAKKNRIQRAAAPNDFLDPNDERIDLETVDLSDLFRIMSAAEKVSQKAMCEAFLGHPLLALVLEQEGEEEATDFIITALIEYRRLTTGVDEQTALDWVESKQFQADYVAASQALTQGQG				NA	NA	NA	NA	NA
D1-35_03209	330			hypothetical protein	ATGGATATCACCGGCATCCCCTTCGGCACTACCGACTGGTCCACCATCGAACCCACCGAACACAAAGGCATTACCGGAACCGCTTACTGGCGCACGCAGCATTTCGGCAGCGTTCGGGTACGGATGGTGGAATATACGGCCGGCTACCTGGCCGACCATTGGTGCACCAAGGGCCATATCCTGCTCTGTCTCAAAGGCGAGCTGAACACCGAGCTCGAAGACGGCCGGCAATTCCTGCTCAAGCCCGGCATGAGCTACCAGGTGGCCGACCAGGCCGAGCCTCATCGCTCCTCCACTCCATCCGGGGCGACGCTGTTCGTGGTGGATTGA	MDITGIPFGTTDWSTIEPTEHKGITGTAYWRTQHFGSVRVRMVEYTAGYLADHWCTKGHILLCLKGELNTELEDGRQFLLKPGMSYQVADQAEPHRSSTPSGATLFVVD				NA	NA	NA	NA	NA
D1-35_03211	273		COG2924	putative Fe(2+)-trafficking protein	ATGACCCGCACCATCATGTGCCGCAAGTACAAAGAACAGCTGGAAGGCCTGGAGCGCGCACCGTTTCCCGGTGCCAAGGGCCAGGACATCTACGACAACGTATCAGCCAAGGCCTGGGGCGACTGGCAAAAACACCAGACGCTGCTGATCAACGAAAAACGCCTGAACATGATGAATGCCGAAGATCGCAAATATCTTCAAGGGGAGATGGACAAGTTCTTTTCCGGCGAAGAATACGCCAAGGCCGAGGGCTACGTGCCGCCCTCCGAATAA	MTRTIMCRKYKEQLEGLERAPFPGAKGQDIYDNVSAKAWGDWQKHQTLLINEKRLNMMNAEDRKYLQGEMDKFFSGEEYAKAEGYVPPSE				NA	NA	NA	NA	NA
D1-35_03212	1068	mutY	COG1194	Adenine DNA glycosylase	ATGACATCCGAGCAATTTTCCAGCGCCGTATTGGATTGGTTCGACCGCCACGGGCGTCATGACCTGCCCTGGCAGCAAGACATCTCCCCGTATCGGGTATGGGTCTCGGAGATCATGCTCCAGCAGACCCAGGTCAGCACCGTGCTCAATTACTTCGACCGGTTCATGGCCGCCCTGCCTACCGTCCAGGCCCTTGCCGCCGCGCCGGAGGATGAAGTGCTGCACCTGTGGACCGGGTTGGGCTACTACACCCGCGCTCGTAATCTGCAGAAAACCGCGAAAATCGTCGTCGAGCAATATGGCGGCGAATTTCCCCGGCATGTGGAGAAGCTCACCGAACTGCCGGGAATCGGCCTATCCACCGCTGGCGCGATTGCCAGCATCAGCATGGGCCTGCGGGCGCCGATTCTCGATGGAAACGTCAAGCGGGTGCTGGCGCGCTTTACTGCCCAGGAAGGCTACCCAGGCGAGCCAAAGGTTGCGAAACAGCTCTGGGCCACCGCCGAACGCTTTACCCCTCAGGATCGGGTCAACGCCTACACCCAGGCGATGATGGACCTGGGCGCCACGCTCTGTACCCGCAGCAGACCCAGTTGCCTGCTCTGCCCGCTGGAAAAAGGCTGCGAGGCCCACATGCTGGGCCTGGAAACCCGCTATCCGATTCCCAAGCCGCGCAAGGAAGTGCCCAAGAAACGCACCTTGATGCCGATGCTGGCTAACCGCGAAGGCGCCATCTTGCTTTACCGCCGCCCATCCACCGGTTTGTGGGGCGGTCTGTGGAGCCTGCCGGAACTCGACGACCTCGACGACCTGCAACACCTGGCCCTGCAACATTCGCTGGAGCTGGGTCAGCAACAGGCAATGCCAAGCCTGGTACACACCTTCAGCCACTTCCAGTTGGCAATCGAACCCTGGCTGGTCCGGGTCCGCGAAACCGGCCATCACGTGGCCGAGGCCGACTGGCTCTGGTATAACCTCGCCACCCCGCCGCGCCTGGGCCTCGCCGCCCCGGTCAAGACATTGCTCGAACGCGCGGCCGCTGTATTGAACGCAGGAGAGTTGCAATGA	MTSEQFSSAVLDWFDRHGRHDLPWQQDISPYRVWVSEIMLQQTQVSTVLNYFDRFMAALPTVQALAAAPEDEVLHLWTGLGYYTRARNLQKTAKIVVEQYGGEFPRHVEKLTELPGIGLSTAGAIASISMGLRAPILDGNVKRVLARFTAQEGYPGEPKVAKQLWATAERFTPQDRVNAYTQAMMDLGATLCTRSRPSCLLCPLEKGCEAHMLGLETRYPIPKPRKEVPKKRTLMPMLANREGAILLYRRPSTGLWGGLWSLPELDDLDDLQHLALQHSLELGQQQAMPSLVHTFSHFQLAIEPWLVRVRETGHHVAEADWLWYNLATPPRLGLAAPVKTLLERAAAVLNAGELQ				NA	NA	NA	NA	NA
D1-35_03213	2226			hypothetical protein	ATGAAAGCGTTCGGCAAAATCCTGGGTCTGGTACTTCTCGGGCTGTTGCTGATCATTGTGGCCCTGGGCTTTGCCCTGACCCACCTCTTCGATCCCAACGACTATAAGGAAGAGATCCGCCAGATAGCCCGCGACAAGGCCCACATCGAGCTGACCCTCAATGGCGATATCGGCTGGAGCCTGTTTCCATGGCTGGGTCTTGAATTGCACGAAGCCAGCGTTGCGACCCTGGCCAATCCGACCCAACCCTTTGCCGACCTGCAGATGCTTGGGCTTTCAGTCCGGGTGATGCCGCTTTTGCGCCGTGAAGTGCAAATGAGTGACGTACGGGTCGAAGGCCTGAACCTGCGGCTCAACCGCGACAAGAACGGTCATGGCAACTGGGAAGACATCGGCAAGGCGCCCGCCTCCACGACCGCTACGAAGGCGCCGGCGCCAACCGAACAGCCCGCCCCGCCGGCCAACGCTCCGACAGAGAAACCGGCCCAACCCACTCGCCTGGACATCGACAGCCTGACCGTGAACAACGCCCGGGTCGAATACAGCGACGAGCAGACCGGCAAGCTGTTTACCGCTGAAAGCATCCAGTTGAGCACCGGCCCGATCCACGATTCCACCAATATCCCGGTGACCCTCACGGCTTTCCTGTCCAGCAACCAGCCGGCTGTTCGGGTGCGCACCGAGGTGACTGGCGAGCTGCGCTTCGAACGCGCACTGCAACGCTACAAATTCGAAGACCTGAAGCTGTCCGGTGAAGCCACCGGCGATCCGTTGCAAGGCAAGACCGTGAGCTTTGCGGCGCAAGGGCAACTGTTCCTCGACAGGGCAGCCAACGTTGCCGAATGGACCGGTATCAAGCTTTCCTTGAACCAGCTTCGCGCCTTGGGCGAGCTGAAGGTCAACGATCTCGACAAAACGCCGCAGCTGAATGGCGGCGTGTCGATTGCGTCATTCGACCTGGCCAGCTTCATCGATAGCATCGGCCAGAAACTGCCGGCGATGGCCGATGGCAGCCTGAGCAAGGTCGAGCTGGCGAGCCGCATTGCAGCCACACCGACCAGCGTCGAGCTCAACGACATCAACCTGAAAATCGATGAGAGCAATTTCAGTGGTCGCATCGCCGTGGAAGATATTGCCAAGCAGTCGCTGCGTGCCCAGCTCAAGGCCGACACCTTCAATGTTGATCGCTACCTGCCGCCAAAGTCCGCCGAAGCCAACAGCGCCAAGGCTGCCCGCGAGGCCGAAGTCAGCAACACCGAGGCCAGCGCCATGGCCGGTGCCGGCAGCTCACCGCTACCAAGCGCCCCGACCCAAGGCGCGTGGAGCAATGATCGATTGTTCCCGGTGGAGCGCCTGAGCAAGCTCGATATCGATGCCGACCTGAGCTTCGGCCAACTGACCCTCGACAAGCTGCCCATCCAGAATGCCGCGCTGAAGGCCACCGGGCTCGGCGGCCTGTTGACGCTGGAAAACCTGCGGGGCGATTTGTATAACGGCAACTTCGAAGCCAAGGGCACGCTGGACGTGCGCCAGCCCACGCCGCAGTTGAGCCTGCAAACCCGCATCAACCGGGTGCCGGCCGACAAGATCATCGAAAGCCAGGGCAAAAATCCGCCCGTCAAGGGCCTGGTGACGCTCAACAGCGCCGTCACCGCCAGCGGCAACAGCCAGAAGGCCCTGATCGACAGCCTGAACGGCAATGCCGGGTTCGTCATCAATGACGGCGTGCTGCTCAATGCCAACCTCGAACAGCAGCTGTGCAAAGGCATCGCCACGCTGAACCGCAAGAGTCTCAGCGGTGAACCGCGCGGCAAGGACACACCGTTCCAGCAACTCGACGGCAGCCTTACCTTCCACAATGGCGTGGCCAGCAACCCGGACTTGAAAGTGCGCATCCCCGGCATGACGGTCAATGGCAACGGTGACATCGACCTGCGTGTATTGGGCATGGACTACCGCGTCGGCGTCATCGTTGAAGGCGACAAGAGCGACATGCCCGACCCGGCCTGCCAGGTCAACGAGCGTTATGTCGATGTCGAGTGGCCGTTACGCTGCCGAGGCCCGCTGGAGCTGGGCGCGAAAGCCTGCCGCCTGGACAACGACGGGCTGGGCAAGGTTGCCGCGAAACTGGCCGGCGACCGCCTCGGCGACAAGATCGACGAGAAGCTCGGCGACAAGGTCAGCCCCGAGCTCAAAGACGCGCTCAAGGGGCTGTTCAAGCGATGA	MKAFGKILGLVLLGLLLIIVALGFALTHLFDPNDYKEEIRQIARDKAHIELTLNGDIGWSLFPWLGLELHEASVATLANPTQPFADLQMLGLSVRVMPLLRREVQMSDVRVEGLNLRLNRDKNGHGNWEDIGKAPASTTATKAPAPTEQPAPPANAPTEKPAQPTRLDIDSLTVNNARVEYSDEQTGKLFTAESIQLSTGPIHDSTNIPVTLTAFLSSNQPAVRVRTEVTGELRFERALQRYKFEDLKLSGEATGDPLQGKTVSFAAQGQLFLDRAANVAEWTGIKLSLNQLRALGELKVNDLDKTPQLNGGVSIASFDLASFIDSIGQKLPAMADGSLSKVELASRIAATPTSVELNDINLKIDESNFSGRIAVEDIAKQSLRAQLKADTFNVDRYLPPKSAEANSAKAAREAEVSNTEASAMAGAGSSPLPSAPTQGAWSNDRLFPVERLSKLDIDADLSFGQLTLDKLPIQNAALKATGLGGLLTLENLRGDLYNGNFEAKGTLDVRQPTPQLSLQTRINRVPADKIIESQGKNPPVKGLVTLNSAVTASGNSQKALIDSLNGNAGFVINDGVLLNANLEQQLCKGIATLNRKSLSGEPRGKDTPFQQLDGSLTFHNGVASNPDLKVRIPGMTVNGNGDIDLRVLGMDYRVGVIVEGDKSDMPDPACQVNERYVDVEWPLRCRGPLELGAKACRLDNDGLGKVAAKLAGDRLGDKIDEKLGDKVSPELKDALKGLFKR				NA	NA	NA	NA	NA
D1-35_03214	399	panZ		PanD regulatory factor	ATGCCCATCGTTGTCGAGCGTTTGAATGAAGCCACTCATCAGGATCTTCAGGACCTGCAGAAAATCTACCAGGACGCCCCGGCCTGGCTGTTCGAGCCGTTCAGCGATGCCGGGCAGTTGATCAACAGGTGCCTGACGGAAGGTACGCTGATTGCGGCACGGTTCAACGACCGGCTGCTCGGCGCCGCACGCCTGCAACGGCACCAGGACGCTTGGTACTTGTCTCACCTGTGCGTAAGAAAGGTTACCCGCCGCCGTGGCGTAGCTGAGCGCCTGGTGAGCGAGGCACGGAGGATGGCTCGAGAAGATGACGCCAGGCTTCGGCTCGAGGCACCGGCCGGGCATCTGGAGGTGCAGGCCTTGGCGGCAAAGCTGAAGTTGTCTCTCGATATTTGCTGA	MPIVVERLNEATHQDLQDLQKIYQDAPAWLFEPFSDAGQLINRCLTEGTLIAARFNDRLLGAARLQRHQDAWYLSHLCVRKVTRRRGVAERLVSEARRMAREDDARLRLEAPAGHLEVQALAAKLKLSLDIC				NA	NA	NA	NA	NA
D1-35_03215	1662			hypothetical protein	ATGAGCACGAGCATTACGGCGGACGGCGTTGCCGACCAGCCTGCGTTCCTCTCCAAGGAACGCATTATCGCCAAGCCCGGCTTCAACCGCTGGCTGGTGCCACCGGCCGCGCTGGCCATTCACCTGTGCATCGGCATGGCCTACGGCTTTTCGGTGTTCTGGTTGCCGCTGTCCAAGGCCATGGGCATCACTAAGCCGGTAGCCTGCGCGCCGGACATGAGCTTCATCTCGCAAGTCTTTTCGTCCCAATGTGACTGGCCGATCTCGATGCTCGGCTGGATCTACACCCTGTTCTTCATTTTCCTGGGTTGCTCGGCAGCCATCTGGGGCGGCTGGCTGGAACATGCCGGTCCGCGCAAGGCTGGCGTGGTATCGGCCCTGTGCTGGTGCGGTGGCCTGCTGATTTCGGCGCTGGGTATCTATACCCATCAGATCTGGCTGATGTGGGTCGGCTCCGGTGTCATCGGTGGTATCGGCCTGGGCCTGGGCTATATCTCCCCGGTCTCGACGCTGATCAAGTGGTTCCCGGACAAGCGCGGCATGGCGACCGGCATGGCGATCATGGGCTTCGGTGGTGGCGCGATGGTGGGTGCCCCGTTGGCTGCAGCGCTGATGAGCCATTTCGCTACGCCAACCGACGTGGGCGTATGGCAGAGCTTCCTGGTGATGGCCGCGATCTACTTCGTGTTCATGATCGGTGGCGCCCTGTCGTATCGCGTTCCGCCGACCGGCTGGAAGCCTGAGGGCTGGAACCCTGCACCGAAAAAAGCCGCGAACGCAATGATCACCCATCGCCACGTTCACGTGAACGTTGCCTGGAAAACCCCGCAGTTCCGTCTGGTCTGGCTGGTGCTGTGCCTGAACGTATCCGCCGGTATCGGCATCCTGGGCATGGCTTCGCCACTGCTGCAGGAAGTGTTCGGCGGCAAATTGCTCGGAAACGACCTGCCGTTCGGTCAGCTGGACGCCGCGCAACTGGGCCAGATCGCTGCCATTGCAGCCGGTTTCACCGGTCTGCTGAGCCTGTTCAACATCGGTGGCCGGTTCTTCTGGGCCTCCTTCTCGGACTACCTGGGTCGCAAAAACACCTACTTCGTGTTCTTTGCCCTGGGCGTGGCCTTGTATGCTCTGATCCCGAGCCTGGGCCACCTGGGCAGCGTCGCGCTGTTCGTGGCGGCGTTCTGCATCATCCTGTCGATGTACGGCGGCGGTTTCGCCACCGTGCCGGCCTACCTGGCGGACCTGTTCGGTACGCAAATGGTCGGTGCGATCCACGGTCGCCTGTTGACCGCCTGGGCGGCAGCCGGCGTACTGGGTCCGGTACTGGTGAACTACTTGCGTGAATATCAACTGAGCATCGGCGTTGAACGCGCCGCGGCCTATGACATCACCCTGTACATCCTCGCCGGCCTGCTGGTGCTGGGCTTCCTGTGCAACCTGATGGTTCGCCCGGTCGCCGACAAGTACTTCATGACCGACGCCGAACTGGCCGCAGAGCAAGCGCTGGGCCACGACAAGGGCGCCGACAGCACCACTTCCCTGGAGTGGAAAGCCGCACCGGGCACCAAGCCCCTGGCGATCGCCGCCTGGCTGGTGGTGGGCATTCCGCTGGCGTGGGGTGTGTGGGTGACCCTGCAGAAGACGGCGGTGTTGTTCCGCTAA	MSTSITADGVADQPAFLSKERIIAKPGFNRWLVPPAALAIHLCIGMAYGFSVFWLPLSKAMGITKPVACAPDMSFISQVFSSQCDWPISMLGWIYTLFFIFLGCSAAIWGGWLEHAGPRKAGVVSALCWCGGLLISALGIYTHQIWLMWVGSGVIGGIGLGLGYISPVSTLIKWFPDKRGMATGMAIMGFGGGAMVGAPLAAALMSHFATPTDVGVWQSFLVMAAIYFVFMIGGALSYRVPPTGWKPEGWNPAPKKAANAMITHRHVHVNVAWKTPQFRLVWLVLCLNVSAGIGILGMASPLLQEVFGGKLLGNDLPFGQLDAAQLGQIAAIAAGFTGLLSLFNIGGRFFWASFSDYLGRKNTYFVFFALGVALYALIPSLGHLGSVALFVAAFCIILSMYGGGFATVPAYLADLFGTQMVGAIHGRLLTAWAAAGVLGPVLVNYLREYQLSIGVERAAAYDITLYILAGLLVLGFLCNLMVRPVADKYFMTDAELAAEQALGHDKGADSTTSLEWKAAPGTKPLAIAAWLVVGIPLAWGVWVTLQKTAVLFR	PGPT0017235_863	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OXALATE_TRANSPORT,PGPT0017235-oxlT-K08177	NA	NA
D1-35_03216	594	hisB	COG0131	Histidine biosynthesis bifunctional protein HisB	ATGGCCGAACGTAAGGCGTCTGTCGAGCGCGACACTCTGGAAACCCAGATCAAAGCCTCGATCAACCTGGATGGCACCGGAAAGGCCCGGTTTGATATCGGCGTGCCTTTTCTTGAGCACATGCTCGACCAGATCGCCCGTCACGGGCTGATCGACCTGGACATCGTCAGCAAGGGCGACCTGCATATCGACGACCATCACACCGTCGAAGATGTCGGTATCACGCTGGGCCAGGCTTTCACCAAAGCCATCGGCGACAAGAAGGGCATCCGTCGCTACGGCCATGCCTACGTGCCGCTCGATGAAGCGCTGTCGCGCGTGGTCATCGACTTCTCGGGCCGCCCTGGCCTGCAGATGCATGTGCCGTACACCCGCGCCACCGTCGGCGGCTTCGACGTCGACCTGTTCCAAGAGTTCTTCCAGGGCTTCGTCAATCACGCCAACGTGACCCTGCACATCGACAACCTGCGTGGGCACAACACCCATCACCAGATCGAAACCGTGTTCAAGGCGTTCGGCCGCGCGCTGCGCATGGCTGTCGAGCTCGATGACCGCATGGCCGGCCAGATGCCTTCCACCAAAGGCGTCCTGTAA	MAERKASVERDTLETQIKASINLDGTGKARFDIGVPFLEHMLDQIARHGLIDLDIVSKGDLHIDDHHTVEDVGITLGQAFTKAIGDKKGIRRYGHAYVPLDEALSRVVIDFSGRPGLQMHVPYTRATVGGFDVDLFQEFFQGFVNHANVTLHIDNLRGHNTHHQIETVFKAFGRALRMAVELDDRMAGQMPSTKGVL	PGPT0020305_19	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
D1-35_03217	639	hisH	COG0118	Imidazole glycerol phosphate synthase subunit HisH	ATGCAGACGGTTGCGGTTATCGATTACGGCATGGGCAACCTGCACTCGGTGGCCAAGGCCCTCGAGCACGTAGGCGCCGGCAAGGTATTGATCACCAGCGATGCCGACGTGATTCGCGAAGCCGACCGGGTGGTGTTTCCCGGTGTCGGCGCGATTCGCGACTGCATGGCCGAGATTCGGCGCCTGGGCTTCGACAAGCTGGTGCACGAAGTCAGCCAGGATCGCCCGTTCCTCGGCATCTGCGTGGGCATGCAGGCTTTGCTCGATCGCAGTGAAGAGAACGACGGGGTCGATTGCATCTCGCTGTTCCCGGGCCAGGTCAAGTTCTTTGGCAAGGACCTGCATGAAGACAGCGAGCACTTGAAAGTGCCGCACATGGGCTGGAACGAAGTGCGGCAAACAGTGGACCACCCGCTGTGGCACGATATTCCGGACCTCGCGCGTTTCTACTTCGTGCACAGCTACTACATCGCCGCCGGCAATGCCCGGCAGGTGGTGGGCAGCGGTCACTATGGTGTCGATTTCGCCGCGGCCCTGGCCGATGGCTCGCGCTTCGCCGTGCAGTTTCACCCGGAGAAGAGCCATACCCATGGCCTGCAACTGCTGCAGAACTTCGCGGCGTGGGACGGGCGCTGGTAA	MQTVAVIDYGMGNLHSVAKALEHVGAGKVLITSDADVIREADRVVFPGVGAIRDCMAEIRRLGFDKLVHEVSQDRPFLGICVGMQALLDRSEENDGVDCISLFPGQVKFFGKDLHEDSEHLKVPHMGWNEVRQTVDHPLWHDIPDLARFYFVHSYYIAAGNARQVVGSGHYGVDFAAALADGSRFAVQFHPEKSHTHGLQLLQNFAAWDGRW				NA	NA	NA	NA	NA
D1-35_03218	255			hypothetical protein	ATGGCCCGCAAGAAACCGCCGATCCTCACCCTCACGCCTGAGCAGGAAAGTGAGGCGAACCGCAAGATCCAGCGGTTCATGGAGGAGCGTTTCGAGCTGGACCTTGGCTCGTTCGAAGCGGCGGAAATTCTTGATCTGTTTACCCGCGAAATTGCTCCGCACTATTACAACAGGGCGATTTTCGATGTGCAGGCGCACCTTAAGGAAAGGTTCGAAAGCATCGAAAGCGACTTGTGGGCGCTCGAGAAAAACTGA	MARKKPPILTLTPEQESEANRKIQRFMEERFELDLGSFEAAEILDLFTREIAPHYYNRAIFDVQAHLKERFESIESDLWALEKN				NA	NA	NA	NA	NA
D1-35_03219	738	hisA	COG0106	1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino] imidazole-4-carboxamide isomerase	ATGCTGATTATCCCCGCTATCGATCTCAAGGACGGCGCTTGTGTCCGTCTGCGCCAGGGCCGCATGGAAGACTCCACGGTGTTTTCCGACGACCCGGTGAGCATGGCCGCCAAGTGGGTGGAGGGCGGTTGCCGTCGCCTGCATCTGGTTGACCTGAACGGTGCCTTCGAAGGCCAGCCGGTCAACGGTGAAGTGGTCACGGCCATCGCCAAGCGGTACCCGAACCTGCCGATCCAGATCGGCGGCGGCATTCGTTCGCTGGAGACCATCGAGCACTACGTCAAGGCCGGCGTGAGCTACGTGATCATCGGCACCAAGGCCGTCAAGGAACCCGAGTTCGTCGCCGAAGCCTGCCGTGCCTTCCCGGGCAAGGTCATCGTTGGCCTCGACGCCAAGGACGGGTTTGTCGCCACCGACGGCTGGGCTGAAGTGAGTACCGTGCAAGTGATCGACCTGGCCAAGCGTTTCGAAGCCGACGGCGTGTCCGCCATCGTCTACACCGACATTGCCAAGGACGGCATGATGCAGGGCTGCAACGTTCCGTTCACCGCTGCCCTGGCCGCCGCCACGAAGATCCCGGTGATCGCCTCCGGCGGCATCCACAACCTGGGCGACATCAAGGCACTGCTCGACGCCAGGGCGCCGGGCATCATCGGTGCGATCACCGGTCGCGCGATCTATGAAGGTACCCTGGACGTCGCCGAGGCCCAGGCCTTCTGCGATTCCTATAAAGGCTGA	MLIIPAIDLKDGACVRLRQGRMEDSTVFSDDPVSMAAKWVEGGCRRLHLVDLNGAFEGQPVNGEVVTAIAKRYPNLPIQIGGGIRSLETIEHYVKAGVSYVIIGTKAVKEPEFVAEACRAFPGKVIVGLDAKDGFVATDGWAEVSTVQVIDLAKRFEADGVSAIVYTDIAKDGMMQGCNVPFTAALAAATKIPVIASGGIHNLGDIKALLDARAPGIIGAITGRAIYEGTLDVAEAQAFCDSYKG				NA	NA	NA	NA	NA
D1-35_03220	771	hisF	COG0107	Imidazole glycerol phosphate synthase subunit HisF	ATGGCGCTGGCCAAACGCATCATCCCTTGCCTGGACGTGGATAACGGCCGGGTGGTCAAGGGCGTCAAGTTCGAGAACATCCGTGACGCTGGCGACCCGGTGGAAATCGCCCGTCGTTATGACGAGCAGGGTGCGGACGAGATTACTTTCCTGGATATCACGGCCAGCGTCGACGGCCGCGATACCACGCTGCACACCGTCGAGCGCATGGCCAGCCAGGTGTTCATCCCGCTGACCGTGGGCGGTGGCGTGCGCAGCGTGCAGGACATCCGCAACCTGCTCAATGCCGGCGCGGACAAGGTGTCCATCAACACCGCGGCGGTGTTCAACCCGGAATTCGTCGGCGAGGCGGCCGAGCATTTCGGCTCGCAGTGCATCGTCGTGGCGATCGACGCGAAGAAGGTCTCCGGCCCGGGCGAAACCCCGCGCTGGGAAATCTTCACCCATGGCGGGCGCAAGCCAACCGGGCTGGACGCCGTTGAATGGGCCAAGAAGATGGAAGGCCTGGGCGCCGGAGAAATCCTGCTGACCAGCATGGACCAGGACGGCATGAAGAATGGCTTCGATCTCGGCGTCACCCGTGCCATCAGCGATGCCTTGGGCATTCCGGTGATCGCTTCCGGCGGCGTTGGCAACCTGCAGCACTTGGCCGATGGCATTCTGGAAGGCCACGCCAGCGCGGTATTGGCGGCGAGCATTTTCCACTTTGGCGAATACACCGTGCCGGAAGCCAAGGCCTACATGGCCCAGCGCGGTATCTGCGTCAGATAA	MALAKRIIPCLDVDNGRVVKGVKFENIRDAGDPVEIARRYDEQGADEITFLDITASVDGRDTTLHTVERMASQVFIPLTVGGGVRSVQDIRNLLNAGADKVSINTAAVFNPEFVGEAAEHFGSQCIVVAIDAKKVSGPGETPRWEIFTHGGRKPTGLDAVEWAKKMEGLGAGEILLTSMDQDGMKNGFDLGVTRAISDALGIPVIASGGVGNLQHLADGILEGHASAVLAASIFHFGEYTVPEAKAYMAQRGICVR	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
D1-35_03221	1107			hypothetical protein	ATGGCAATCATTGAACTGGACGTCAGCCTGCAAACCTTGCTCAAGGATGGGATACAGCCATTGGGCCTGGCCACCGAGCGTCCCGTCGACGGGACGGATGTCCTGATCGTAGGCGCGCCAGTCCACGATCAGAACACGCTGCGGCTGGCTGCCTGTACCTTGCAACCTGCCCAGGAGATCGTGGAGGGCCGCTGGGTCTGGCGTAACACGCTGATGACCCGCTGCAAGGATATGAAAGGTGGTGGCTCCGGCAGCCCGCTACTGGAGCGCCGTACCAATAAGATCATCGGCGTGATAGGCACTGGCAACCTGACCATCCAAGCCCACCCCTGCGAGCAGCACGCTCCTTGCACTCCGGTTGGCGACAGCTATAAAGCGATACCGGACGATGTTTATGGGAATCCTACGGATTTTCTCAGCCGCTGCTTTGTAGAGGGCCTCTTCGTTCAAGACGTGAATTCGTCTTGCCCGCTGTATCCGGTCTTTTCCGTCAGCGCCGCAGCGGACAGCCCGCAAAGATACATAAGAATTGGGAAAAAAGACGACGGCACTGCAGAGATCCCGACCTGGAACTACCACTTCACAATCAACACGCCGTTCTATCGTCATAAGACCGTTCGAACCGCAATGGATTGCGAAAGGCCGCAAGACTACAGCGGAGTAACAAGTGCGCGGGACGCTTTCATAAACACCGGGATAGGCGACCAGGTGGGCATGTACTTCCTGTGCATCGTGGGTGTCGACTCCGCTGATCAACGCCCCTCAGAGGGGCTCATAAACAACGTGTTGTCCCTTCCGGTCGAAATTCTCGACAACGCTCCAACAGCTCAGCCTGAGTTGAGTTTCACTGCAGGCGTGCAACTGTCGACAGCTGCGAATGAACTGCCACATCGAACCTACGCCTACAAGTTCGGCCCGACAGAGTCGACTGACTGTTCAGACAAAACCGATTACAGCAACATCGAATACATAGACGCATGGCTGGACAATTCGGATCTGCCTGGAAAGCTCTGCACCATTGCCTATGACATATCCAGACAAGCATCCGAGCCAAGAATGGACATCCTGAACCCTACCCCGCTCAAGGATATCCAGGACTCGCCCTGA	MAIIELDVSLQTLLKDGIQPLGLATERPVDGTDVLIVGAPVHDQNTLRLAACTLQPAQEIVEGRWVWRNTLMTRCKDMKGGGSGSPLLERRTNKIIGVIGTGNLTIQAHPCEQHAPCTPVGDSYKAIPDDVYGNPTDFLSRCFVEGLFVQDVNSSCPLYPVFSVSAAADSPQRYIRIGKKDDGTAEIPTWNYHFTINTPFYRHKTVRTAMDCERPQDYSGVTSARDAFINTGIGDQVGMYFLCIVGVDSADQRPSEGLINNVLSLPVEILDNAPTAQPELSFTAGVQLSTAANELPHRTYAYKFGPTESTDCSDKTDYSNIEYIDAWLDNSDLPGKLCTIAYDISRQASEPRMDILNPTPLKDIQDSP				NA	NA	NA	NA	NA
D1-35_03222	354			hypothetical protein	ATGAAAACGATCTACTTGTTACTGGGCGGTCTGTTTTGCCTGTCTGGCGCACTGAGCGTTGCACATGGCAAAGACTATGGCGAAGGGGTTCAGAACTTCGCCGACTCAAAAATCCTGAACAACAAAGATGGCTCACATGACCATTGGCAGGGTATTGGACGCTTCTCTACGATGAACGGGAATTGTACTGCGACACTTCTCGATACCCATGACCCTTCCGGGACAACGCCCACGCCCGCCTACGTGTTGACCTCGGGACATTGCACCGAGCTGACCAACGCAAACATCGTGACCAACAAGCCAATCCTCGGCGTCATGCAGTTCAACTATTCGCCGATACCGCCCCCTACCTGA	MKTIYLLLGGLFCLSGALSVAHGKDYGEGVQNFADSKILNNKDGSHDHWQGIGRFSTMNGNCTATLLDTHDPSGTTPTPAYVLTSGHCTELTNANIVTNKPILGVMQFNYSPIPPPT				NA	NA	NA	NA	NA
D1-35_03223	708			hypothetical protein	ATGAGCGGGGCGCAGGCCGGGGACGGCCGCGATGCTGGCCTGGTATTGCTGACGGAGAACTTTCCGCCCTACAACATGGCGAAGAACGGCAAGAACTTCGCCCAAGACGAAAACATCCATGGCATTGCGGTGGACATCGTCCGCGAGATATTCAAACGCGCCGATATTTCCTACAGCCTGACGCTGCGTTTTCCCTGGGAACGAATCTACAAGCTTGCCTTGGAAAAACCCGGTTATGGGGTGTTTGTAACGGCTCGGCTGCCTGAGCGCGAAAAGCTCTTCAAATGGGTTGGCCCCATCGGCCCGGACGATTGGATCATGCTCGCCAAGGCCGACAGCAAGATTGCCCTCGACTCGTTGGAGCAGGCGCGTCAGTACAGGATTGGCGCCTACAAGGGCGATGCAATTGCCGAAACATTGGCCAAACAGGGGCTCAAACCCATTGTCGTGTTGCGCGATCAGGACAACGCCAGAAAACTCGTCAATGGCCAGATAGACCTATGGGCTACCGGCGACCCGGCAGGGCGTTATCTGGCGCGTCAGGAGGGAGTGAGCGATCTCAAGACCGTACTGCGATTCAACAGTGCCGAGCTCTACCTGGCCTTGAACAAGGACGTGCCGGACGAGGTGGTGAGCCGCCTGCAAAAGGCTCTGGATGAGCTGCGCAAGGAAGGCGAAGTGGACGCGATCATGGCGCGCTATCTCTGA	MSGAQAGDGRDAGLVLLTENFPPYNMAKNGKNFAQDENIHGIAVDIVREIFKRADISYSLTLRFPWERIYKLALEKPGYGVFVTARLPEREKLFKWVGPIGPDDWIMLAKADSKIALDSLEQARQYRIGAYKGDAIAETLAKQGLKPIVVLRDQDNARKLVNGQIDLWATGDPAGRYLARQEGVSDLKTVLRFNSAELYLALNKDVPDEVVSRLQKALDELRKEGEVDAIMARYL	PGPT0020800_15019	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
D1-35_03224	780			hypothetical protein	ATGGGCCAGCGTTTCATTTTCGTCCTGTTGTGCCTGCTGGCGGGAGCCGTTAACGCGGCTCCCGCCACAGCTTCCCCGCCGCAGAAGGCTTACCTGAGCCTGATCATCGATGACCTGGGGCAGAATCTGCCCCGGGATCGCCGTGTACTGGCCCTGTCCGGTCCGGTCACCGCGGCAGTCATGCCCGACACGCCCCACGCCGCCGAAATCGCCCGCGAGGCTCATCGCGCCGGCAAACTCGTCATGCTGCACATGCCCATGGACCCGGCCACCGGGCCGTTCGCCTGGCATCCGGAATTATCCATCGAAGAATTGGGCAAGCGCCTGGACGCCGCGTTTGCCGCGGTGCCCTACACCAGCGGTATCAACAACCACATGGGCAGCCGCATGACCGCGCAACCCCAGGCGATGGCATGGCTGATGGCGAATCTGCAACAGCGTCACAAGTTTTTCGTCGACAGCCGCACCAGCGCGCAGACGGTCGCGGCTGCCGAAGCACAAAAGATCGGCCTCGCCAGCGTGTCGCGGGATGTATTTCTTGATGACGAGCGCACCGAAGCGGCTATCGCCGGCCAGCTTCAGGTCGCCATCAATCTGGCTCGGCGGCAGGGCTCGGCCGTGATGATCGGCCATCCCTATCCGCAGACCCTCGCCGTGCTCGAGCGCGAACTGCCCAAGCTCAAGGCCCAGGGCATCGAGTGGATCGACATCAAGTCGATGATCAGCCTGCGCAGCAACCGAGCGATGGCCGGGCACGGGAAGGATGGGGTTTATCGTTAG	MGQRFIFVLLCLLAGAVNAAPATASPPQKAYLSLIIDDLGQNLPRDRRVLALSGPVTAAVMPDTPHAAEIAREAHRAGKLVMLHMPMDPATGPFAWHPELSIEELGKRLDAAFAAVPYTSGINNHMGSRMTAQPQAMAWLMANLQQRHKFFVDSRTSAQTVAAAEAQKIGLASVSRDVFLDDERTEAAIAGQLQVAINLARRQGSAVMIGHPYPQTLAVLERELPKLKAQGIEWIDIKSMISLRSNRAMAGHGKDGVYR				NA	NA	NA	NA	NA
D1-35_03225	1317	ctpB	COG0793	Carboxy-terminal processing protease CtpB	ATGCTGCATTTGTCCCGCCTCACCTCGCTGGCCCTGACGATCGCCCTCGTGATCGGCGCGCCCCTGGCTTTCGCCGCGCAACCCGCGCCGGCGTCGACCGCCGCTACGGCCGCCACCACCAAGGCCCCGCTGCCGTTGGATGAACTGCGCACCTTTGCCGAAGTCATGGACCGGATCAAAGCCGCGTACGTGGAACCGGTGGACGACAAGATGCTGCTGGAAAACGCCATCAAAGGCATGCTCAGCAACCTTGACCCGCATTCGGCCTACCTGGGCCCTGAGGATTTTGCCGAGTTGCAGGAAAGCACCAGCGGCGAATTCGGCGGCCTGGGCATCGAGGTCGGCAGCGAAGACGGTTTCGTCAAAGTGGTCTCGCCGATCGACGATACGCCCGCCTCCAAGGCTGGCATCCAGGCTGGCGACTTCATCGTCAAGATCAACGGCCAACCGACCCGTGGCCAGAGCATGACCGAAGCCGTGGACAAGATGCGCGGCAAGATCGGCGAAAAAATCACCCTGACCCTGGTGCGCGACGGCGGTACGCCATTCGACGTGACGCTGACCCGGGCGGTCATCCAGGTCAAGAGCGTGAAGAGCCAACTGCTGGAGTCCGGCTACGGCTACATCCGCATCACCCAGTTCCAGGTCAAGACCGGCGAAGAAGTCGCCAAGGCCCTGGCCAAGATGCGCAAGGACAACGGCAAGAAGCTCAACGGCCTGGTCCTGGACTTGCGCAACAACCCCGGCGGCGTCCTGCAATCGGCTGTGGAAGTGGTGGACCATTTCATCACCAAGGGCCTGATCGTCTACACCAAGGGCCGCATCGCCAATTCCGAGCTGCGCTTCTCGGCCACCGGCAACGACCTCAGCGAAGCCGTGCCACTGGTCGTGCTGATCAATGGCGGCAGCGCGTCGGCGTCGGAAATCGTCGCCGGTGCTCTGCAAGACCAGAAACGTGGCGTTGTCATGGGCACCACCAGTTTCGGCAAGGGCTCGGTGCAGACCGTGTTGCCGCTGAACAACGACCGCGCCCTGAAAATCACCACCGCGCTGTACTTCACGCCCAACGGCCGCTCCATCCAGGCCCAGGGCATTGTCCCGGACATCGAGGTGCGCAAGGCCAAGATCACCAGCGAGGCGGACAGCGAGTACTTCAAGGAAGCCGACCTGCAAGGTCACTTGGGCAATGGCAACGGCGGCGCGGACAAACCGACCGGTTCCGGCGCCAAGGCCAAGCCGATGCCGCAGGATGACGACTATCAGTTGGCCCAGGCCTTGAGCCTGCTCAAAGGGTTGAACATCACGTCCGGCCGCTGA	MLHLSRLTSLALTIALVIGAPLAFAAQPAPASTAATAATTKAPLPLDELRTFAEVMDRIKAAYVEPVDDKMLLENAIKGMLSNLDPHSAYLGPEDFAELQESTSGEFGGLGIEVGSEDGFVKVVSPIDDTPASKAGIQAGDFIVKINGQPTRGQSMTEAVDKMRGKIGEKITLTLVRDGGTPFDVTLTRAVIQVKSVKSQLLESGYGYIRITQFQVKTGEEVAKALAKMRKDNGKKLNGLVLDLRNNPGGVLQSAVEVVDHFITKGLIVYTKGRIANSELRFSATGNDLSEAVPLVVLINGGSASASEIVAGALQDQKRGVVMGTTSFGKGSVQTVLPLNNDRALKITTALYFTPNGRSIQAQGIVPDIEVRKAKITSEADSEYFKEADLQGHLGNGNGGADKPTGSGAKAKPMPQDDDYQLAQALSLLKGLNITSGR	PGPT0015095_5722	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015095-prc|ctpA-K03797	NA	NA
D1-35_03226	1293	envC	COG4942	Murein hydrolase activator EnvC	ATGCTCCGCGTCCTGATAGCCCTTGCTCTGACCTGCCTGCTCCAACCGGCCTTCGCGGACGAGCGCGCGCAAACCCAACAACAGTTGGAAGCCACGCGCCAGGACATCGCCGAGCTGAAGAAGCTGCTGAACAAGTTGCAGGAAGAAAAATCCAGCGTGCAGAAAGACCTGCGCGGCACCGAAACCGAGATGGGCAAGCTGGAGAAGCAGGTCGACGCCCTGCAGAAAGAGCTGAAGAAAAGCGAATCCGAGTTGCAACGCCTCGATGGAGAGAAAAAAAAACTCCAGAGCGCGCGCACTGAACAGCAAAAGCTGATCGCCATCCAGGCTCGGGCGGCCTACCAGAACGGTCGCCAGGAATACCTCAAATTGCTGCTCAACCAGCAGAATCCCGAGAAATTCGCCCGCACCCTCACCTATTACGACTACCTGAGCCAGGCCCGCCTGGAGCAGCTCAAGAGCTTCAATGAAACCCTGCGCCAGCTGGCCAATGTCGAGAAAGACATCGAGCTGCAGCAAGCCCAGTTGCTCGTGCAGAAAAGCAGCCTCGACACCCAGCGTGAAGAACTCGAGAAGGTTCGCAAGGAGCGCCAGGTGGCCCTGGCCAAGCTCAATGACGACGTGAAGGCTCGCGACAGCAAGCTCAAGGCCCGCGAACAGGACCAGGCCGAACTGGCAAATGTCTTGAAAACCATCGAGGAAACCCTGGCTCGCCAGGCTCGGGAGGCGGAAGAAGCGCGGCAGAAAGCGCTGATCGCCCAGCAGGAAGCCGAAAAAAAGCGTTTGCGTGAAGCCCAGGCCGACGCCGATGCCGGCGAAGCCCCGCGCAAGCCGGCCAAATCCAGCCCCGGCGCAGTGGTTTCCAGCGATGGCGAAACCTTCGGCGGCGCTTTTGCTTCAGCCCGGGGCAAACTTCCATGGCCGGTCAATGGTCGATTACTTGCACGCTTCGGTGAAACCCGTGGCGACGACACCCGCACCAAGTGGGACGGCGTGATGATCAGCGCTTCCGCCGGCAGCCAGGTGCACGCTGTACATGGCGGGCGCGTGGTGTTTGCCGACTGGCTGCGCGGTGCCGGCCTGCTGGTGATCCTCGATCACGGCAACGGATACCTGAGCCTTTACGGCCATAACCAGACGCTGCTCAAATCGGCGGGTGATGTGGTCAAGGCCGGCGAGTCCATCTCCACGGTCGGCAACAGTGGCGGGCAGGACACGCCAGCACTGTATTTTGCTATTCGCCAGCAGGGTCGCCCCAGTGACCCGGCACAATGGTGTCGTGCGCAAGGATAA	MLRVLIALALTCLLQPAFADERAQTQQQLEATRQDIAELKKLLNKLQEEKSSVQKDLRGTETEMGKLEKQVDALQKELKKSESELQRLDGEKKKLQSARTEQQKLIAIQARAAYQNGRQEYLKLLLNQQNPEKFARTLTYYDYLSQARLEQLKSFNETLRQLANVEKDIELQQAQLLVQKSSLDTQREELEKVRKERQVALAKLNDDVKARDSKLKAREQDQAELANVLKTIEETLARQAREAEEARQKALIAQQEAEKKRLREAQADADAGEAPRKPAKSSPGAVVSSDGETFGGAFASARGKLPWPVNGRLLARFGETRGDDTRTKWDGVMISASAGSQVHAVHGGRVVFADWLRGAGLLVILDHGNGYLSLYGHNQTLLKSAGDVVKAGESISTVGNSGGQDTPALYFAIRQQGRPSDPAQWCRAQG	PGPT0023855_799	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN-ENDOPEPTIDASE_ACTIVITY|LIPOPROTEIN,PGPT0023855-envC-K22719	NA	NA
D1-35_03227	1530	gpmI	COG0696	2,3-bisphosphoglycerate-independent phosphoglycerate mutase	ATGACTACCACGCCTAAACCTTTGGTCCTGATGATTCTGGACGGCTTCGGTCACAGTGACAGCCACGAATCCAACGCCGTCTACGCGGCCAGGAAGCCTGTGCTGGATCGCCTGTGGGCCACCGTGCCGAACGGCTTGATCTCCGGCAGCGGCATGGACGTCGGCCTGCCCGACGGGCAGATGGGCAACTCCGAAGTCGGCCACATGAACCTCGGCGCCGGCCGCGTGGTGTATCAGGACTTCACCCGCGTGACCAAATCGATCCGCGACGGCGAGTTTTTCGAAAACCCGACCATTTGCGCCGCCGTGGATAAAGCCGTGGCCGCCGGCAAGGCCGTGCACTTCATGGGCCTGCTGTCCGACGGTGGCGTGCACAGCCATCAGGACCACCTGATCGCCATGGCCGAGTTGGCCGCCAGGCGCGGCGCTGAAAACATCTACCTTCACGCCTTCCTGGATGGCCGTGACACGCCGCCGAAGAGCGCCGAATCGTCGATCAAATTGCTGGATGACACGTTCAAGACCCTCGGCAAGGGCCGGATCGCCAGCCTGATCGGCCGTTACTTCGCCATGGACCGTGACAACCGCTGGGACCGCGTCGCCCAGGCCTACAACCTGATCGTCGACGGCAATGCGGAATTCCACGCCGCCACCGCGCAAGAAGGCCTGCAAGCTGCCTACGAACGTGGTGAAAGCGACGAGTTCGTCAAGGCCACAACCATCGGCGAGCCGGTAAAAGTCGAAGACGGCGACGCCGTGGTGTTCATGAACTTCCGCGCCGACCGTGCCCGCGAACTGACTCGCGTATTCGTCGAAGAAGATTTCAAGGAATTCGAGCGCGCCCGCCAGCCGAAGCTGGCCGGTTTCGTGATGCTGACCCAATACGCCGCCAGCATTCCCGCGCCATCGGCCTTCGCCGCCGGCAGCCTGGAAAACGTGCTGGGTGACTACCTGGCGAAAAACGGCAAGACCCAGCTGCGCATCGCGGAAACCGAGAAGTACGCCCATGTGACGTTCTTCTTCTCCGGCGGCCGCGAAGAGCCCTTCCCGGGCGAAGAGCGCATCCTGATCCCGTCGCCGAAGGTCGCCACCTACGATCTGCAACCGGAAATGAGCGCGCCGGAAGTGACCGACCGCATCGTCGACGCCATCGAGAACCAGCGTTACGACGTGATCGTGGTCAACTACGCCAACGGTGACATGGTCGGTCACAGCGGCGTGTTCGACGCAGCGGTCAAGGCGGTGGAATGCCTGGACACCTGCGTCGGTCGCATCGTCGAGGCGCTGGAAAAAGTCGGCGGCGAAGCGCTGATCACCGCCGACCACGGCAACGTCGAGCAAATGTCCGACGAATCCACCGGCCAGGCCCACACGGCCCACACCACTGAGCCGGTGCCATTCATTTATGTCGGCAAGCGTGACTTCAAGGTCCGCGACGGCGGCGTATTGGCCGACGTCGCACCGACCATGCTGATGCTGCTGGGCATGGAACAGCCGGCGGAGATGACCGGGACTTCGATCCTGGTCTGA	MTTTPKPLVLMILDGFGHSDSHESNAVYAARKPVLDRLWATVPNGLISGSGMDVGLPDGQMGNSEVGHMNLGAGRVVYQDFTRVTKSIRDGEFFENPTICAAVDKAVAAGKAVHFMGLLSDGGVHSHQDHLIAMAELAARRGAENIYLHAFLDGRDTPPKSAESSIKLLDDTFKTLGKGRIASLIGRYFAMDRDNRWDRVAQAYNLIVDGNAEFHAATAQEGLQAAYERGESDEFVKATTIGEPVKVEDGDAVVFMNFRADRARELTRVFVEEDFKEFERARQPKLAGFVMLTQYAASIPAPSAFAAGSLENVLGDYLAKNGKTQLRIAETEKYAHVTFFFSGGREEPFPGEERILIPSPKVATYDLQPEMSAPEVTDRIVDAIENQRYDVIVVNYANGDMVGHSGVFDAAVKAVECLDTCVGRIVEALEKVGGEALITADHGNVEQMSDESTGQAHTAHTTEPVPFIYVGKRDFKVRDGGVLADVAPTMLMLLGMEQPAEMTGTSILV	PGPT0018040_2253	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
D1-35_03228	414	yibN	COG0607	putative protein YibN	ATGGTTGCTCACCTGATTGAATTTGCCACTAACCACTACATTCTCGTCGGTATCTTCGTCGTACTGCTGGCGTTGCTGGTTGCCCACACGATGCAGGGCGGCGGACGCAGCCTGAGCACCGGTGAGCTGACCGCGCTGGTCAACAAGGACGCCGGCGTAGTGGTCGACATCCGTCCGACCAAGGATTACGCCGCCGGTCACATCGTCGGCGCGCTGAACATTCCTCAGGACAAACTGATCGCTCGTGTGGCCGAACTGGAAAAACACAAGGCCAAGACGCTGATCCTGGTCGACGCCCAAGGCCAGCAGGCCGGTACCCTTGCCCGCGAACTGATGAAGTCCGGCTTCACCGCCGCCAAACTGTCTGGTGGCGTTGCGAGCTGGAAAGCCGACAATCTGCCCCTGGTGAAGTGA	MVAHLIEFATNHYILVGIFVVLLALLVAHTMQGGGRSLSTGELTALVNKDAGVVVDIRPTKDYAAGHIVGALNIPQDKLIARVAELEKHKAKTLILVDAQGQQAGTLARELMKSGFTAAKLSGGVASWKADNLPLVK				NA	NA	NA	NA	NA
D1-35_03229	198	grxC	COG0695	Glutaredoxin 3	ATGCTGCTCAAGAACAAGGGCGTAGCCTTCGAAGAGATCAAGGTCGACGGCAAGCCGCAACTGCGCGCCGAAATGACCCAGAAGGCCCGGCGTACCTCCGTGCCGCAGATCTGGATCGGCGACACCCACGTGGGCGGTTGCGACGACCTGTTCGCCCTGGAGCGCGCCGGCGAGCTCGACGCGCTGCTCAAGGCCTGA	MLLKNKGVAFEEIKVDGKPQLRAEMTQKARRTSVPQIWIGDTHVGGCDDLFALERAGELDALLKA	PGPT0013201_4310	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CHAPERONES,PGPT0013201-grxC-K03676	NA	NA
D1-35_03230	483	secB	COG1952	Protein-export protein SecB	ATGACTGACCAACAGAACACAGCTGCCACTGAAGAAGAAGCCGCACCGCAATTCTCCTTGCAGCGCATTTACGTTCGCGACCTGTCCTTCGAAGCCCCGAAAAGCCCGGCGATCTTTCGCCAGCAGTGGGAGCCGAGTGTGGCCCTGGACCTGAATACCCGCCAGAAAGCCCTGGAAGAAGATTTCCACGAAGTGGTGCTGACCCTGTCGGTGACCGTGAAGAATGGCGACGAAGTCGCGTTCATCGCCGAAGTCCAGCAGGCCGGTATCTTCCTGATCAAGAATCTCGATGCCGCTTCGATGAGCCACACCCTGGGCGCGTTCTGCCCGAACATTCTGTTCCCGTACGCCCGCGAAACACTGGACAGCCTGGTGACCCGTGGCTCGTTCCCGGCCCTGATGCTGGCCCCGGTGAACTTCGATGCCCTGTACGCGCAAGAGCTGCAGCGCATGCAACAGGAAGGTGGCGCGACCGTCCAGTAA	MTDQQNTAATEEEAAPQFSLQRIYVRDLSFEAPKSPAIFRQQWEPSVALDLNTRQKALEEDFHEVVLTLSVTVKNGDEVAFIAEVQQAGIFLIKNLDAASMSHTLGAFCPNILFPYARETLDSLVTRGSFPALMLAPVNFDALYAQELQRMQQEGGATVQ	PGPT0025745_939	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025745-secB-K03071	NA	NA
D1-35_03231	456	trmL	COG0219	tRNA (cytidine(34)-2'-O)-methyltransferase	ATGTTTCACGTCATCCTTTTTCAACCGGAAATACCACCCAATACCGGCAACGTCATCAGGCTGTGCGCCAACAGCGGCTGCCACCTGCACCTGATCGAACCGCTGGGCTTCGAAATGGACGACAAGCGCCTGCGCCGCGCCGGCCTCGACTACCACGAGTATGCCACCTTGCAGCGGCACGCCGACTTGGCCAGTTGCCTGGAAAGCCTGGGGCATCCGCGCCTGTTCGCCTTCACCACCAAGGGCTCACGGCCGTTTCATGACGCCAGCTTCGTCGCCGGCGATGCATTCCTGTTCGGCCCGGAAAGCCGTGGCCTGCCGGCCGAAGTGCTCGACGCACTACCGGCGGACCAACGCTTGCGCTTGCCGATGCGTGAAGGCTGCCGCAGCCTGAACCTGTCCAACACCGTGGCGGTGGCGGTTTATGAGGCGTGGCGGCAGAACGGCTTTCAGTAG	MFHVILFQPEIPPNTGNVIRLCANSGCHLHLIEPLGFEMDDKRLRRAGLDYHEYATLQRHADLASCLESLGHPRLFAFTTKGSRPFHDASFVAGDAFLFGPESRGLPAEVLDALPADQRLRLPMREGCRSLNLSNTVAVAVYEAWRQNGFQ	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
D1-35_03232	363			hypothetical protein	ATGGGCTCTCTGGCGATCGTCGGCATGATGGTCGGGCTGATGATCGGCCGCCTGACAACGCCCGATCCGAGCGAGCTGCAACAGGTCGAGGTCACCCAGGGAGGGCTGGTGGCCTGGTTCAACAACGAACCGGAGCTCCATGGGGAAATCATCGACGGCACTGTGGCGCTGTTGTTTCAGGCGCAAGGTCGGCCGCAGAAAGGCCAGCTCAAGCTCAACGGCAAGAACGTGAACTGGCGGGTGCGGTTGAGTGACAAGGGGCTGTTGCTGACTTTGGTGGCGGCGCGTCCGTTGCGAGGGGAGTGGACCGGCAGCGAGGTCGATGACCGCTGGCGGCTGGAGATCCGTCTCCAGGAGCAATAA	MGSLAIVGMMVGLMIGRLTTPDPSELQQVEVTQGGLVAWFNNEPELHGEIIDGTVALLFQAQGRPQKGQLKLNGKNVNWRVRLSDKGLLLTLVAARPLRGEWTGSEVDDRWRLEIRLQEQ				NA	NA	NA	NA	NA
D1-35_03234	1437	glnG	COG2204	DNA-binding transcriptional regulator NtrC	ATGAGCCGTAGTGAAACCGTGTGGATCGTCGATGACGACCGTTCTATCCGCTGGGTCCTGGAAAAAGCCTTGCAACAGGAAGGCATGACCACCCAGAGCTTCGACAGCGCCGACGGGGTGATGAGCCGCCTGGCCCGTCAGCAGCCGGACGTCATCATTTCCGATATCCGCATGCCCGGCGCCAGTGGCCTGGACTTGCTGGCGCGGATTCGCGAGCAACATCCGCGGCTGCCAGTGATCATCATGACCGCTCATTCCGACCTGGACAGCGCCGTGGCGTCTTACCAGGGCGGTGCGTTCGAATACCTGCCCAAGCCGTTCGACGTCGACGAAGCCGTGTCCCTGGTCAAGCGCGCCAATCAGCACGCCCAGGAGCAACAAGGCCTGGAAGAAGTCCCGGCCCTGGCCCGCACCCCGGAAATCATCGGTGAAGCGCCGGCGATGCAGGAAGTGTTTCGCGCCATCGGTCGACTGAGCCATTCCAACATCACCGTGCTGATCAACGGTGAATCGGGTACCGGCAAGGAATTGGTTGCCCACGCCCTGCACCGCCACAGCCCGCGTGCGGCGTCGCCGTTCATTGCGCTGAACATGGCGGCGATTCCCAAGGACCTGATGGAGTCCGAGCTGTTCGGCCATGAAAAGGGCGCGTTCACCGGCGCGGCCAACTTGCGCCGGGGCCGCTTCGAACAAGCCGATGGCGGTACGTTGTTCCTGGATGAAATCGGCGACATGCCGGCTGACACCCAGACCCGACTGCTGCGGGTACTGGCCGACGGCGAGTTCTATCGAGTCGGCGGGCATACGCCGGTCAAGGTCGATGTCCGGATCATCGCCGCGACCCACCAGAACCTGGAAACCCTGGTCCACGCCGGCAAGTTCCGCGAAGACCTGTTCCATCGCCTGAACGTGATCCGCATCCACATCCCGCGCCTGGCGGACCGTCGCGAGGACATCCCGACCCTGGCCCGGCACTTCCTCGGCCGTGCGGCCCAGGAGCTGGCGGTGGAGCCCAAGCTGCTCAAGAGCGAGACCGAGGAATACCTCAAGAACCTGCCGTGGCCCGGCAACGTGCGCCAGCTGGAGAACACCTGCCGCTGGATCACGGTGATGGCGTCGGGTCGCGAAGTGCATATCAGCGACTTGCCACCGGAACTGTTGAGCCTGCCACAGGATTCGGCGCCGGTGACCAACTGGGAACAGGCCTTGCGCCAATGGGCCGACCAGGCCCTGGCCCGCGGTCAATCGAGCCTGCTCGACAGCGCCGTCCCGGCCTTCGAGCGCATCATGATCGAAACCGCCCTCAAGCACACCGCCGGCCGCCGCCGCGACGCCGCCGTGCTGCTGGGCTGGGGCCGCAATACCTTGACTCGCAAGATCAAGGAATTGGGGATGAAGGTTGATGGTGGGGATGATGATGAAGGGGATGAGGGCTGA	MSRSETVWIVDDDRSIRWVLEKALQQEGMTTQSFDSADGVMSRLARQQPDVIISDIRMPGASGLDLLARIREQHPRLPVIIMTAHSDLDSAVASYQGGAFEYLPKPFDVDEAVSLVKRANQHAQEQQGLEEVPALARTPEIIGEAPAMQEVFRAIGRLSHSNITVLINGESGTGKELVAHALHRHSPRAASPFIALNMAAIPKDLMESELFGHEKGAFTGAANLRRGRFEQADGGTLFLDEIGDMPADTQTRLLRVLADGEFYRVGGHTPVKVDVRIIAATHQNLETLVHAGKFREDLFHRLNVIRIHIPRLADRREDIPTLARHFLGRAAQELAVEPKLLKSETEEYLKNLPWPGNVRQLENTCRWITVMASGREVHISDLPPELLSLPQDSAPVTNWEQALRQWADQALARGQSSLLDSAVPAFERIMIETALKHTAGRRRDAAVLLGWGRNTLTRKIKELGMKVDGGDDDEGDEG	PGPT0000685_821	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000685-ntrC|glnG-K07712	NA	NA
D1-35_03235	1086	glnL	COG3852	Sensory histidine kinase/phosphatase NtrB	ATGACCATTAGCGACGCACTACACCGTTTGCTGCTCGACAATCTCACCACCGCGACCATCCTGCTCGACGCCGAACTGCGTCTGGAGTACATGAACCCGGCGGCAGAGATGCTCCTGGCCGTCAGCGGCCAGCGCAGCCATGGGCAGTTCATCAGCGAACTGTTTACCGAATCCGCCGAAGCGCTGAATTCCCTGCGCCAGGCCGTCGAACAGGCTCACCCGTTCACCAAGCGCGAAGCGATGCTCACCGCCCTGACCGGCCAGACCCTGACGGTCGACTACGCGGTAACGCCGATCCTCAACAACAATGCCACCCTCCTGCTTCTGGAAGTCCATCCCCGTGATCGCCTGCTGCGCATCACCAAGGAGGAGGCGCAATTGTCCAAGCAGGAAACCAGCAAGATGCTGGTGCGCGGCCTGGCCCATGAGATCAAGAATCCGTTGGGTGGCATTCGTGGCGCGGCGCAGTTGCTCGCCCGGGAACTGCCAGAAGAAAGCCTCAAGGACTACACCAACGTCATCATCGAAGAAGCCGACCGCCTGCGAAACCTGGTGGATCGCATGCTCGGCTCGAACAAGCTGCCCTCACTGGCGCTGTGTAACGTTCACGAAGTACTGGAGCGCGTCAGCAGCCTGGTGGAGGCGGAGAGCCAGGGCTGCATCACCTTGGTGCGCGACTACGACCCGAGCATTCCCGACGTCCTGATCGACCGCGAGCAGATGATTCAGGCGGTGCTGAACATCGTGCGCAACGCCATGCAGGCCATCAGCAGCCAGAGCGAGCTGCGCATGGGTCGCATCAGCCTGCGCACCCGCGCCATGCGCCAGTTCACCATCGGTCATGTGCGCCATCGCCTGGTGACCAAGATCGAAATCATCGACAACGGCCCGGGCATCCCTGCGGAACTGCAGGAAACCATCTTCTTTCCCATGGTCAGCGGCCGTCCGGACGGTACCGGGCTGGGCCTGTCCATCACCCAGAACATCATCAGTCAGCATCAGGGCTTGATCGAATGTGAGAGCCACCCCGGCCACACCACTTTCTCGATCTTCCTGCCACTGGAACAAGGAGCCACATCGACATGA	MTISDALHRLLLDNLTTATILLDAELRLEYMNPAAEMLLAVSGQRSHGQFISELFTESAEALNSLRQAVEQAHPFTKREAMLTALTGQTLTVDYAVTPILNNNATLLLLEVHPRDRLLRITKEEAQLSKQETSKMLVRGLAHEIKNPLGGIRGAAQLLARELPEESLKDYTNVIIEEADRLRNLVDRMLGSNKLPSLALCNVHEVLERVSSLVEAESQGCITLVRDYDPSIPDVLIDREQMIQAVLNIVRNAMQAISSQSELRMGRISLRTRAMRQFTIGHVRHRLVTKIEIIDNGPGIPAELQETIFFPMVSGRPDGTGLGLSITQNIISQHQGLIECESHPGHTTFSIFLPLEQGATST	PGPT0000680_688	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000680-ntrB|glnL-K07708	NA	NA
D1-35_03236	627			hypothetical protein	ATGATCCGCTGGCTGCTCGCCCTCGGCCTGCTGCTGGTGGCGCTACCGAGCCTGGCGCAGGTCTACACCTACATCGACGCCCAGGGCAATCGCGTCTTCACCGACCAGCCACGCCCCGGCAACGCGAAGAAAGTGCCGCTACCGCCCGGCAACCGGATGCCGGCCACGCCCTCCGGGAATACGCCGACGACGACCGCCGAAAAGCCACCCGCCGAGCCCTTGTTCCGATACGAGATGCTCCGGCTGCTGATCCCCGAGCCAGATGCGACGATACGCAGTACCGCGGGGGAACTGATCGTCACCGCCACCAGTGAGCCCGGTTTGCAGAAAGGTCACCGCTACCGTCTGCTGCTGGACGGCAAGCCCACTGGCGAGCCGGGACCCAGCCCAGTGTTTGCGCTGAAGAATATTGATCGCGGCACGCATCACCTGGCAGTGGAGATCCTCGACGAGCAAGCGCGAATCGTCGAGCGCACCGCCAACCAGCCCTTCCACATGCAGCGCATGTCCCTGGCGCAAAAGCGCCGCGTCAAACCCTGTGCTATCGCCGACTACGGCCAACGCCCCGAATGCCCCCTGGCGGACAAGCCCGAGGAGGAAAAAAGCAGCATCCTGCCCTTCTTCTAA	MIRWLLALGLLLVALPSLAQVYTYIDAQGNRVFTDQPRPGNAKKVPLPPGNRMPATPSGNTPTTTAEKPPAEPLFRYEMLRLLIPEPDATIRSTAGELIVTATSEPGLQKGHRYRLLLDGKPTGEPGPSPVFALKNIDRGTHHLAVEILDEQARIVERTANQPFHMQRMSLAQKRRVKPCAIADYGQRPECPLADKPEEEKSSILPFF				NA	NA	NA	NA	NA
D1-35_03237	519			hypothetical protein	ATGGGTCGTGTTTTCTCAATCATCCTCTTATCGCTGTTGGCATTGCCTGCTACCGCGCAGATCTACAAATACACCGACGCCGACGGCAACACCGCCTACAGCAATCAGCCGCCCGACGGCGTACCAGCCCAGGCCGTGGAATTGCCGCCGCTCAACAGCGTCGAGTCCCAGACACCGGCCAGCCGCGAAGCACCTGCGGCCGCGCAAAGCAGCGACGCGCCGCGTAACGCCTATGACATCCTGGAACTGACCGACATCCCCACCGAAGAAGCCCTGCGCGCCAATAACGGCACCTTCACCGTTGGCGTCCGGGCGCAGCCGCGCCTGCAAGGCCCGCATCTGTTCAGGCTATTGCTGGACGGCCAGCCGTACGGGCAGCCGAGTAACGTGCCGCGCCTGCAACTGGTGAACATCGACCGCGGCGAACACAGCCTGGCAGTCCAGGTCATCAACGGGGAACGTCTCGTGCAACAAAGCGAAACCGTTACCTTCACTGTCCAGCGGATTCACCTTCCATGA	MGRVFSIILLSLLALPATAQIYKYTDADGNTAYSNQPPDGVPAQAVELPPLNSVESQTPASREAPAAAQSSDAPRNAYDILELTDIPTEEALRANNGTFTVGVRAQPRLQGPHLFRLLLDGQPYGQPSNVPRLQLVNIDRGEHSLAVQVINGERLVQQSETVTFTVQRIHLP				NA	NA	NA	NA	NA
D1-35_03238	558			hypothetical protein	ATGACTCCGCGCCTCAAGCTCTGCCTTGCCCTGTCCGCCGCACTGCTGGCCACCAGCGCCGAAGCGGGCAACGCCCCCGAAGCCCTTACTCCGCTGCTGAACGCCATCGGTGAACGCCTGGCCATTGCCGATCAGGTGGCGTTGAGCAAATGGGACAGCGGCAAACCGGTGGAGGATCGCCAGCGCGAGCGTGAAGTCATCGCCGCCGCCGTCGCCCAGGCGCCGGCCTACAAACTGACCGGTGAAACCGTGGAAGCGTTTTTCGCCGCCCAGATTGAAGCCAACAAACTGGTGCAATACATCAACCTGTCCGACTGGGCCCTCGACGGCAAGGCCCCGGACCTGCCACGCCCGGACCTGGTGGGCGAGATCCGCCCCAAACTCGATCGACTGCAGAAACGTCTGTTGCAACAACTGGCCGACTTCGCCCCCTACCGCACCGACCCGCAGTGCCCGCAATGGCTGGCCCGCGCCACCCACCACAACAAACAACACCCAATACACAGGCTTGCCTTGATCCGAGCAACCGGCGGACTGTGTATCTCCCCGAAATCCTGA	MTPRLKLCLALSAALLATSAEAGNAPEALTPLLNAIGERLAIADQVALSKWDSGKPVEDRQREREVIAAAVAQAPAYKLTGETVEAFFAAQIEANKLVQYINLSDWALDGKAPDLPRPDLVGEIRPKLDRLQKRLLQQLADFAPYRTDPQCPQWLARATHHNKQHPIHRLALIRATGGLCISPKS				NA	NA	NA	NA	NA
D1-35_03239	1407	glnA		Glutamine synthetase	ATGTCGAAGTCGGTTCAACTCATCAAAGATCATGACGTCAAGTGGATTGATCTGCGCTTCACTGACACCAAGGGCACTCAACATCACGTGACCATGCCGGCCCGTGATGCGCTGGACGACGAATTCTTTGAAATCGGCAAGATGTTCGACGGTTCCTCCATCTCCGGCTGGAAAGGCATCGAAGCCTCCGACATGATCCTGATGCCGGACGACGAAACCGCGGTCCTCGATCCGTTCACCGAAGAGCCGACCCTGATCCTGGTTTGCGACATCATCGAACCTTCGACCATGCAAGGCTATGACCGCGACCCACGCGCCATCGCCCACCGCGCCGAGGAATACCTGAAGTCCACCGGTATCGGCGACACCGCTTTCTTCGGTCCTGAGCCTGAATTCTTCATCTTCGACTCGGTCAAGTTCAAATCCGACATCTCCGGTTCCATGTTCAAGATCTTCTCCGAACAGGGTTCGTGGATGTCCGACCAGGACGTGGAAGGCGGCAACAAAGGCCACCGTCCAGGCGTCAAAGGCGGCTACTTCCCGGTTCCGCCGTTCGATTTCGACCACGAAATCCGTACTTCCATGTGCAACGCGCTGGAAGAAATGGGCCAGACCGTCGAAGTTCACCACCACGAAGTGGCAACTGCCGGCCAGAACGAAATCGGCGTGAAGTTCAACACGCTGGTCAAGAAGGCTGACGAAGTCCAGACCCTGAAGTACTGCGTGCACAACGTTGCCGACGCCTACGGCCGCACCGCGACCTTCATGCCGAAGCCTCTGTACGGCGACAACGGTTCGGGCATGCACGTGCACATGTCGATCTCCAAGGACGGCAAGAACACCTTCGCTGGCGAAGGTTATGCCGGTCTGTCGGACACCGCCCTGTACTTCATCGGCGGCATCATCAAGCACGGTAAGGCCCTGAACGGCTTCACCAACCCGTCGACCAACTCCTACAAGCGTCTGGTTCCAGGCTTCGAAGCACCGGTCATGCTGGCCTACTCGGCTCGCAACCGTTCCGCCTCGATCCGTATTCCTTATGTGAACAGCCCTAAAGCCCGTCGTATCGAAGCGCGCTTCCCGGATCCGGCTGCCAACCCGTACCTGGCCTTCGCAGCACTGATGATGGCCGGCCTGGACGGTATCCAGAACAAGATCCACCCCGGCGATGCCGCCGACAAGAACCTGTATGACCTGCCGCCTGAAGAGGCCAAGGAAATCCCACAGGTTTGCGGTAGCCTGAAAGAAGCCTTGGAAGAGCTGGACAAGGGCCGTGCGTTCCTGACCAAGGGCGGCGTATTCAGCGACGACTTCATCGACGCTTACATCGCGCTGAAAAGCGAAGAAGAGATCAAGGTTCGCACCTTCGTACACCCACTGGAATATGAGCTGTACTACAGCTGCTGA	MSKSVQLIKDHDVKWIDLRFTDTKGTQHHVTMPARDALDDEFFEIGKMFDGSSISGWKGIEASDMILMPDDETAVLDPFTEEPTLILVCDIIEPSTMQGYDRDPRAIAHRAEEYLKSTGIGDTAFFGPEPEFFIFDSVKFKSDISGSMFKIFSEQGSWMSDQDVEGGNKGHRPGVKGGYFPVPPFDFDHEIRTSMCNALEEMGQTVEVHHHEVATAGQNEIGVKFNTLVKKADEVQTLKYCVHNVADAYGRTATFMPKPLYGDNGSGMHVHMSISKDGKNTFAGEGYAGLSDTALYFIGGIIKHGKALNGFTNPSTNSYKRLVPGFEAPVMLAYSARNRSASIRIPYVNSPKARRIEARFPDPAANPYLAFAALMMAGLDGIQNKIHPGDAADKNLYDLPPEEAKEIPQVCGSLKEALEELDKGRAFLTKGGVFSDDFIDAYIALKSEEEIKVRTFVHPLEYELYYSC	PGPT0000645_4402	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
D1-35_03240	1455	thiI	COG0301	tRNA sulfurtransferase	ATGAAACTAATCGTAAAAGTCTTCCCCGAGATCACCATCAAGAGCCGCCCGGTACGGATGCGTTTCATCCGCCAGCTGGCCAAGAACATCCGTGCCGTGCTCCGTGACCTGGACCCGGCCGTGGTGGTGAACGGCGTGTGGGACAACCTCGAACTGGAAACCCGCGTCAGCGAACCCAAGGCTTTGAAGGAAATGACCGAGCGCCTGAGCTGCATGCCGGGCATCGCCCATTTCCTCCAGGTCGACGAATATCCGCTGGGGGACTTCGACGATATCCTCGCCAAGTGCATGCTCCATTATGGTGACGCCTTGGCCGGCAAGATCTTCTCGGTACGCTGCAAGCGCGCCGGCAAGCATCCGTTCAGCTCGATGGACGTCGAACGTTATGTCGGCAGCCAGTTGCGCCGGCAGTGCGGCGCGGCCGGTATTTCCCTGAAAGACCCTGAAGTTGAAGTGCGCATCGAGATTCGCGACCAGCGGTTGTTCGTGATCCACAGCCAGCACGACAGCATCGGCGGTTATCCGCTGGGTTCGCTGGAGCAGACGCTGGTATTGATGTCCGGTGGTTTCGACTCCACCGTCGCCGCCTACCAGATCATGCGTCGCGGCTTGATGAGCCATTTCTGCTTCTTCAACCTCGGCGGGCGCGCCCACGAACTGGGCGTCATGGAAGTGGCGCACTTCATCTGGAAGAAGTACGGCAGCTCCCAGCGCGTGTTATTTGTGAGCGTGCCGTTCGAGGAAGTCCTGGGCGAGATTCTCGGCAAAGTCGATAACAGTCATATGGGCGTCATTTTGAAGCGTATGATGTTGCGTGCCGCGACGAGCATCGCCGACCGCCTGCACATCGACGCGCTGGTCACCGGCGAGGCGATTTCCCAGGTTTCGAGCCAGACGCTGCCGAACCTGTCGGTGATCGACTGCGTGACCGAGAAACTCGTGCTGCGGCCACTGATCGCCAGCCACAAGCAGGACATCATCGACACGGCCACGGAGATCGGCACCGCCGATTTTGCCCGGCACATGCCGGAGTACTGCGGGGTCATCTCGGTCAATCCGAAGACGGCGGCCAAGCGCGGGCGCGTGGAGCACGAGGAGAAAGAATTCGACATGGCGGTACTCGAACGCGCAATCGAGAACGCCAGGCTGGTGCCGATCGATCGGGTCATCGACGAATTGGGCCAGGACATTCAGATTGAAGAAGTCGGCGAAGCGCTGGCCGGTCAGATCATCATCGACATCCGTCACCCGGACGATGCTGAAGACGACCCGCTGAGCGTCGCCGGCGTCGAGGTACAAACGATGCCGTTCTATGCAGTGAACGCGCGTTTCAAGGAACTGGACCCTACTCGCCAGTACCTGCTGTATTGCGACAAAGGCGTGATGAGTCGCCTGCATGCCCATCATTTGCTCAGTGAGGGGCATGCCAATGTGCGCGTTTATCGACCGAGCTAA	MKLIVKVFPEITIKSRPVRMRFIRQLAKNIRAVLRDLDPAVVVNGVWDNLELETRVSEPKALKEMTERLSCMPGIAHFLQVDEYPLGDFDDILAKCMLHYGDALAGKIFSVRCKRAGKHPFSSMDVERYVGSQLRRQCGAAGISLKDPEVEVRIEIRDQRLFVIHSQHDSIGGYPLGSLEQTLVLMSGGFDSTVAAYQIMRRGLMSHFCFFNLGGRAHELGVMEVAHFIWKKYGSSQRVLFVSVPFEEVLGEILGKVDNSHMGVILKRMMLRAATSIADRLHIDALVTGEAISQVSSQTLPNLSVIDCVTEKLVLRPLIASHKQDIIDTATEIGTADFARHMPEYCGVISVNPKTAAKRGRVEHEEKEFDMAVLERAIENARLVPIDRVIDELGQDIQIEEVGEALAGQIIIDIRHPDDAEDDPLSVAGVEVQTMPFYAVNARFKELDPTRQYLLYCDKGVMSRLHAHHLLSEGHANVRVYRPS	PGPT0008940_288	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
D1-35_03241	1821	typA	COG1217	GTP-binding protein TypA/BipA	GTGATCGAAAATCTACGCAACATCGCCATCATTGCTCACGTTGACCATGGTAAGACCACCCTGGTAGACAAACTCTTGCGTCAATCCGGCACCCTGGAGCGCAACGAGCTCAACGACGAGCGCGTGATGGACTCCAACGACCAGGAAAAAGAGCGCGGTATTACCATCCTGGCGAAAAACACCGCCATCAACTGGAACGGCTACCACATCAACATCGTGGATACCCCGGGCCACGCCGACTTCGGTGGTGAAGTCGAGCGCGTGATGTCGATGGTCGACTCCGTGCTGCTGCTGGTCGACGCCCAGGACGGCCCTATGCCGCAAACCCGTTTCGTGACCAAGAAGGCCTTCGAAGCCGGCCTGCGTCCGATCGTGTGCATCAACAAGGTTGACCGTCCAGGCGCGCGTCCGGACTGGGTTCTGGACCAGATCTTCGACCTGTTCGACAACCTGGGCGCCACCGAAGAACAGCTGGACTTCAAAGTCGTCTACGCCTCGGCCCTGAACGGTATTGCCGGTCTGGACCACACCGAAATGGCTGACGACATGACCCCGCTGTACCAGTCGATCGTCGACAACGTACCCGCGCCGAAAGTCGACCGTGACGGCCCGTTCCAGATGCAGATCTCGGCACTGGACTACAACAGCTTCCTGGGTGTGATCGGTGTTGGCCGTATCGCCCGTGGTCGCGTCAAGCCGAACACTCCGGTCGTGGCTATCGGTGCCGACGGCAAGAAGCGCAACGGTCGTATCCTGAAGCTGATGGGTCACCACGGTCTGCACCGTGTAGACGTTGAAGAAGCAGCTGCCGGCGACATCGTCTGCATCAGCGGCATGGACTCGCTGTTCATCTCCGACACCCTGTGCCACCCGGACACCGTTGAAGCGATGAAGCCGTTGACCGTCGACGAGCCAACCGTTTCCATGACCTTCCAGGTAAACGACTCGCCATTCTGCGGTAAAGAAGGCAAGTTCGTGACTTCCCGTAACATCAAGGAACGTCTGGACAAAGAGCTGCTGTACAACGTTGCACTGCGCGTTGAAGAAGGCGACTCGGCTGACAAGTTCAAGGTCTCGGGCCGTGGCGAACTGCACCTCTCGGTTCTGATCGAAACCATGCGTCGCGAAGGCTTCGAAATGGCTGTAGGCCGTCCGGAAGTGATCATCCGTCTGGTTGACGGCGTGAAGCACGAACCGTTCGAAAACGTCACCATCGACCTGCCGGAAGAATCCCAGGGCAAGGTGATGGAAGAGATGGGCCTGCGTAAGGGCGACCTGACCAACATGGTGCCGGATGGCAAGGGCCGTGTACGTCTGGAATACAACATCCCTGCTCGTGGTCTGATCGGTTTCCGTAACCAGTTCCTGACCCTGACCAACGGTGCTGGCATCCTGACTTCGATCTTCGACCGTTACGACGTGATGAAGTCCGGCGACATGTCCGGCCGTCAGAACGGCGTTCTGGTTTCGGTTGAAACCGGCAAGGCGCTGACCTACTCCCTGGAAACCCTCCAGGCGCGTGGCAAGCTGTTCGTTGAACATGGCCAGGAAATCTACGGCGGCCAGATCGTTGGTCTGAACAGCCGTGACAACGACCTGGGCGTGAACCCTACCAAGGGCAAGAAGCTCGACAACATGCGTGCTTCGGGTAAAGACGAAACCATCGCCCTGGTACCACCTGTTCGCTTCACCCTGGAACAGGCTCTGGAATTCATCCAGGACGACGAGCTGTGTGAAGTGACGCCTAAGTCGATCCGCCTGCGCAAGAAGATCCTGGACGAAAGCGAGCGTACCCGCGCCGCCAAGAAAGCCAAGAACTGA	MIENLRNIAIIAHVDHGKTTLVDKLLRQSGTLERNELNDERVMDSNDQEKERGITILAKNTAINWNGYHINIVDTPGHADFGGEVERVMSMVDSVLLLVDAQDGPMPQTRFVTKKAFEAGLRPIVCINKVDRPGARPDWVLDQIFDLFDNLGATEEQLDFKVVYASALNGIAGLDHTEMADDMTPLYQSIVDNVPAPKVDRDGPFQMQISALDYNSFLGVIGVGRIARGRVKPNTPVVAIGADGKKRNGRILKLMGHHGLHRVDVEEAAAGDIVCISGMDSLFISDTLCHPDTVEAMKPLTVDEPTVSMTFQVNDSPFCGKEGKFVTSRNIKERLDKELLYNVALRVEEGDSADKFKVSGRGELHLSVLIETMRREGFEMAVGRPEVIIRLVDGVKHEPFENVTIDLPEESQGKVMEEMGLRKGDLTNMVPDGKGRVRLEYNIPARGLIGFRNQFLTLTNGAGILTSIFDRYDVMKSGDMSGRQNGVLVSVETGKALTYSLETLQARGKLFVEHGQEIYGGQIVGLNSRDNDLGVNPTKGKKLDNMRASGKDETIALVPPVRFTLEQALEFIQDDELCEVTPKSIRLRKKILDESERTRAAKKAKN	PGPT0023720_3341	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023720-typA|bipA-K06207	NA	NA
D1-35_03242	438			hypothetical protein	ATGATGAAGCCCAACCTGATCGCCGCCGCGGAGATCGACCGACTCGATACCTGGGCGAAGTATTCCGCCCCGATGTGCGGTTCCTGCGTGTCGAGCTGTTGCACGCTGCCGGTGGAGGTCAAGATCAAGGACCTGATCCGTATCGGCATCGTCGATGAGTTCGAGCTGGGCGACCCGCCGAAAAACATCGCCAAGCGCCTGCAAAAGGAAGGGATCGTCGAGCGCTACAACCAGAAATCGGAAATCTTCACGCTCCAGCGCATGAGCAACAACGATTGCCTGTATCTGGATCGCAAGAGCCGGCTGTGCACCATTTACGAAAAGCGCCCGGACACCTGCCGCAATCATCCACGGGTCGGGCCACGGCCGGGGTATTGCGCCTACAAGCCCAAGGAAGTGGAGCGCGAGCGTAATCCGCGGACGTTGGATCGATTTTGA	MMKPNLIAAAEIDRLDTWAKYSAPMCGSCVSSCCTLPVEVKIKDLIRIGIVDEFELGDPPKNIAKRLQKEGIVERYNQKSEIFTLQRMSNNDCLYLDRKSRLCTIYEKRPDTCRNHPRVGPRPGYCAYKPKEVERERNPRTLDRF				NA	NA	NA	NA	NA
D1-35_03243	2451	malP	COG0058	Maltodextrin phosphorylase	ATGACTCAAGAACCACTTGTTCGCGAAGCCGAGGTTGCGGCTTTTCGCGACGCCGTGTTGACCAAACTCACTTATGCCGTCGGCAAGGACCCCGATCATGCGTTTGATCACGATTGGTTCGAAGCCATCGCCCTCGCTGCCCGCGACCATATGGTCGAACACTGGATGGACCATACGCGGCAGATCTACCGAAAGGGCCAGAAGCGCGTCTACTACCTCTCCCTGGAGTTTCTCATCGGCCGGCTGCTGTACGACAGCCTGAGCAACCTCGGCTTGCTGGACACCGCCCGCGAGGCCTTGACCGAGCTGGGCGTGGACCTTGAGCGCATCCGTCTGCTGGAGCCCGACGCGGCCTTGGGCAACGGCGGTCTCGGCCGTCTGGCGGCGTGCTTCATGGAAAGCATGTCGACCCTCGGAATCGCCGGCCATGGTTATGGCATTCGTTACGAACACGGCCTGTTCCGCCAGGCGATTGTCGACGGCTGGCAACAGGAGCAGACCGAACACTGGCTGGACTTCGGCAACCCATGGGAATTCGAGCGGCCGGAAGTCGTCTACCCGATCGGCTTTGGCGGCAGCGTCGAGACTGTCACCGACGAAACCGGCAAGACCCGGCAGGTCTGGTCCCCGGCCGAAACCGTGCGGGCGATTGCCTATGACACGCCGGTCGTCGGCTGGCGCGGTGCCAGCGTCAATACCTTGCGCCTGTGGCGTGCCCGAGCCGTGGAAGACCTGCACCTGGAGCGCTTCAACGCTGGCGACCACCTCGGCGCCGTAGCGGAAGTGGCCCGCGCCGAGAGTATTTCCCGCGTGCTGTACCCGGCCGACAGCACCGAAGCCGGCCAGGAACTGCGCCTGCGCCAGGAATATTTCTTCGTCGCCGCCTCGCTGCAGGATTTGCTGCGCCGCCATCGCAACATGCACACCTCGGTACTGACCTTGGGCGATCACGCGGCGATCCAGCTCAACGACACCCACCCGTCGATTGCCGTGGCCGAGCTGATGCGCCAATTGGTGGACGTCTACGACGTGGCGTGGGACGCGGCCTGGCAGATCACCCAGGACACGCTCTCCTACACCAACCACACGCTGCTGCCAGAAGCATTGGAAACCTGGCCGGTGGGGCTGATGGAGCGCATGTTGCCGCGGCACATGCAGATCATCTACCTGATCAACGCCCAGCATATCGATTCGCTGCGGGCCAAGGGCGTGCACGATTTCGACGTGTTGCGCTCGGTGTCGCTGATCGAAGAAGACAACGGTCGCCGGGTGCGCATGGGTAACCTCGCGTTCCTCGGTTCCCACAGCGTCAACGGCGTGTCCGGACTGCACACGCAACTGATGCGCAGCACCGTATTCTCTGAGCTGCACAAACTTTACCCGGACCGGATCAACAACAAGACCAACGGCATCACTTTCCGCCGCTGGCTGTTCCAGGCCAACGCCGAACTGACCTCAATGATGGTCGACGCCCTCGGCCCGAGCGTGCTCGACAACCCCGAGGAGCGGCTGATCGAACTGGAGCCGTTTGCCGACAAACCGGCGTTCCGCAAGCAATTCGCCGAGCAGCGCCTGCACAGCAAGAAAGCCCTGGCCTACCTGATTCACGAGCGGCTGGGCATTGCCGTCAACCCGGCGGCGATGTTCGACGTGCAGGTCAAGCGGATCCACGAGTACAAACGCCAGTTGCTCAACCTGATGCACACCGTGGCGCTGTACCAGGCGATCCGCGCCGAGCCGGAGGTGGATTGGGTGCCGCGGGTGAAGATCTTCGCCGGCAAGGCCGCCGCCAGTTATCACCAGGCCAAGCTGATTATCAAGCTGACCAACGACATCGCCCGGGTGGTCAACAACGACCCGACCGTGCGCGGCTTGCTCAAAGTGGTGTTCCTGCCCAACTACAACGTCAGCCTGGCCGAAAGCATCATCCCGGCGGCGGACCTCTCGGAGCAGATTTCCACGGCCGGTTTCGAGGCCTCGGGTACCAGCAACATGAAGTTCGGCCTCAACGGCGCGCTGACCATCGGCACCATGGACGGCGCCAACGTGGAAATGCATGACCGCGTCGGTGGCGAGCACATGTTCATCTTCGGCCTGACCGCCGAGCAGGTGGAAGCGCGCAAGCGCAACGGCGAATTCAGTGCCGCGCCGGACATCGCCGCATCCCATCGCCTCAACGATGTGCTGCAAGCGATTCGTGGCGGGGTGTTCTCGCCTGACGATCCGATGCGCTACACCGGGTTGGTGGACTCGCTGGTGGATTACGACCGCTTCCTGGTCTGTGCCGATTTCGACGCCTACTGGAACGCCCAGGCCAAAGTCGAGGAGAGGTGGCACGATCCCAAGCAATGGTGGCGCTCGGCGGTGCTCAACACCGCGCGCATGGGCTGGTTCTCCTCGGACCGGACCATTCGTGAATACGCCACCGATATCTGGAAGGCCCTGGACTGA	MTQEPLVREAEVAAFRDAVLTKLTYAVGKDPDHAFDHDWFEAIALAARDHMVEHWMDHTRQIYRKGQKRVYYLSLEFLIGRLLYDSLSNLGLLDTAREALTELGVDLERIRLLEPDAALGNGGLGRLAACFMESMSTLGIAGHGYGIRYEHGLFRQAIVDGWQQEQTEHWLDFGNPWEFERPEVVYPIGFGGSVETVTDETGKTRQVWSPAETVRAIAYDTPVVGWRGASVNTLRLWRARAVEDLHLERFNAGDHLGAVAEVARAESISRVLYPADSTEAGQELRLRQEYFFVAASLQDLLRRHRNMHTSVLTLGDHAAIQLNDTHPSIAVAELMRQLVDVYDVAWDAAWQITQDTLSYTNHTLLPEALETWPVGLMERMLPRHMQIIYLINAQHIDSLRAKGVHDFDVLRSVSLIEEDNGRRVRMGNLAFLGSHSVNGVSGLHTQLMRSTVFSELHKLYPDRINNKTNGITFRRWLFQANAELTSMMVDALGPSVLDNPEERLIELEPFADKPAFRKQFAEQRLHSKKALAYLIHERLGIAVNPAAMFDVQVKRIHEYKRQLLNLMHTVALYQAIRAEPEVDWVPRVKIFAGKAAASYHQAKLIIKLTNDIARVVNNDPTVRGLLKVVFLPNYNVSLAESIIPAADLSEQISTAGFEASGTSNMKFGLNGALTIGTMDGANVEMHDRVGGEHMFIFGLTAEQVEARKRNGEFSAAPDIAASHRLNDVLQAIRGGVFSPDDPMRYTGLVDSLVDYDRFLVCADFDAYWNAQAKVEERWHDPKQWWRSAVLNTARMGWFSSDRTIREYATDIWKALD	PGPT0018545_3070	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
D1-35_03244	3624			hypothetical protein	ATGCAATGGATTTTGACACTGTTGGGCCTGGCACTCGGCTGGGTGGTGGAAGAGTCGTTTGCCGACGCGCTGATCGGTGCGCTGGTGGGGCTTGGCATCGCCCAGTCGTTTCGACTGGGACGCCTGGGTATCCAGGCCGCCAAGCAACAGATCCTGCTCCAAGATGCCCAGCGCAGCTTGCTCACGCTGGAAGCGCGTCTGGCGGTGCTCGAACGCGGCAACGTGGCCGAACCGAGTGAACCGGCTACAGCGCCGGAAATCGTCGTTGCCCAAGCGGCGAAGCCCGAGGCGCGCACCGAGCCGGAGCTCATCTGGCAGCTGCCACCAGAACTCGAACCAATCCCCGCGATGGCCACCCAGGCCAGCCAGCCGTTGCCCGATGACGTTTGGAAACCCGCGCCCGAAACATCCAGTCGGCGCGCAACCCGCGACTTCGAACCTCTGCCCCTGGAACCGAGGACTACCGAGCCGACGGCCCCTCGCGGTCCGAATCTGATCGATCGTGCCTGGACGGGCGCGCGCAACTGGCTGTTCGGCGGCAACACCGTGCTGCGGGTCGGCGTGGTGCTGTTGTTCCTCGGCCTGGCCTTCCTGCTGCGCTACGCCACTGAAGGCATGGTAGTGCCGATCGAGTTGCGTTACGCCGGCGTCGCGGCCAGTGCCTTGGGCCTGTTGGGCCTGGGCTGGTGGTTGCGCCACCGCAACAGCAACTATGCGTTGATGTTGCAGGGGACGGGGATCGCGGTGCTGTACCTGACCGTGTTCGCCGCCATGCGCCTGCACCCGCTGCTCGATTCCAAGGCTGCCCTGGGCCTGTTGGTTGCAGTCACGGTGTTTTCCGCGATCCTGGCCGTTACCCAGAATGCCCTGGGGCTGGCGGCAGCTGCCGCACTGGGCGGCTTCGCCGCGCCGATCCTGACCTCCACCGGCAGCGGCAACCATGTCGCGCTGTTCAGCTATTTCATCCTGCTCAATACCGGCATCTTCGCGATTGCCTGGTTCCGCGCCTGGCGCCTGCTCAACCTGATCGGCTTCGTCGGCACTTTCGGCATCGGTTTCGCCTGGGGCCTGCGTTCCTATACGCCGGAGCTGCTCTGGAGCACTGAGCCGTTCCTCATCGTGTTCTTCCTGATGTACCTGGCGATAGGCTTGTTGTTCACCCGGCGCAAGCTGCTGGAAATGAGCGATGCGCCTGAAGATGACAGCCGTCAGGCGCTGCTGCGCTGGTCGGCGCGCAAGGGCGACTATGTGGACGGCAGCATGCTGTTCGGTCCGCCGCTGGTGGGCTTCGGCTTGCAGTTCGCGTTGGTGCAGCATCTGGAATTCGCCGCCGCCTTCAGCGCCCTGGCCCTGGGCATGATCTACATGGGGCTGGCCCGCGTATTGATGGGCGGGCGCGCTGTATTGCTGGCCGAAACTTGCCTCGCCCTGGGCGTGATTTTCACCAGCCTGGCGATTCCCCTTGGCCTCGACGCCCGTTGGACTGCCGCAGCGTGGGCGGTGGAAGGCGCCGGGATCTTCTGGCTCGGCCTGCGTCAGCAGCGACCTTTTGCGCGAATCTTTGCCCTGTTGCTGCAATTGGGGTCGGCGCTGGCCTTCGTCAGCGAACTGCATGGCGGCGAAGGCAGCCTGCTGGAAGGCTCATGGCTGGGCGCGTTGATGCTCGGTGGCGCCTTGCTGTTCAGCTTCTATCAATTGCGCAAGGCCGAGCCCGGGCACGCCGCCAGTTGGGAGCTTCGCGGGCAACCCGTGCTGGCGGTGCTGGGGCTGAGCTTCCTTTATCTGCTGGCGCCACTGTTCTTCTTTACCCAGGGCACCGCCATCGCCTGGGCGCTGGCCGGGCTGGTGACGCTGTTTGTCGGCCTGCGCCTGCAATCACGCAGCTTCCTGTTTACCGCTTTCGCCGTGCAACTGCTCGGCGGTGCGCTGTTCCTGCTGCGTCTGCAAGGCGCCGAAGGCGATTCGGCGGCGGTGTTCAACGCTGGTTGGAGCGGTCTGCTCAGCGCCTCGTTGATCGGCCTGGCATTGATCGGCGGTATGTTGCTGGCGGCGCGCGACGACATGGTGCGCAACGATGTGCGCTTGCTGCGCGGCTTGTCGGTGGTGTTGCTGGCCGGGTTGGTGTTGATCAATCTTGCGGTGCTGTTCGTGTTGCCCTGGCAAACGGCGAGCGGCGTGTGGGCGGCCAGCGGTCTGTTGATCATCTGGCTGAGCCTGTACCTGAAGCAGCGCGTGAGCTTTGTCTTTGGCCTGCTGCTGCAAGTGATTGGCGGTGCGGCTTTCCTGATGGCAGGGCCGGCGCTGCTGGGCTCGCTTGATGCCGAGGATCTGCGTCCCTTGGCCCACAGCGGATTCTGGACACCGCTGGTGCTGGGGCTGGCTGCGCTGGTGGGCGCATGGCGTCTGCAAAAGGCGCACGCGGCGCGGGAACTCGATGCCTTGAGTTTGCAGCGCCTGTCCGAGCTGCTGCTGATCTGGGGTGCCGGTTGGTGGGCGCTGGCGTGGGGCAGCGAAGTGCTGCGCTTTGCCCCGCAAAACCTGCAAGGCAGTTTGTTGTTGATTGTCGCGGCCGCCAGTGTGGCGGTGTGGACCGTTGCGGCGCTGCGCTTGAAGTGGGCTGCAATGGGATTGCTGTGCACCTTGTTGATTCCAGCAGCAGGCTGTGTGCTGGTGGCGATCGGGCACAGCCGTTATCACCCGGCGGCGGATTTCGGCTGGCTGGCCTGGCTGGCGGTATTTGCCGTGCATTTCCTGTCGCTCAAGCGCCTGGCCACGAAGCTGCCGGCCCAGGCGCGCAGCACCGCCCATGTGCTCGGTTGCTGGTTGTTGATGGTGGTGCTGATGCTGGAGTTGCGTTACGGCCTGCTGTTGCTGTCCGAGCAGTACAATGCCTGGCGGTGGTTGGCGTGGGCGATCCTGCCGGGCCTCTACCTGGTGCTGATGGCCACGCCGCGTACCTTGCCGTGGCCGGTGTCGGCCCAACCGCGCGAATACCGCGTCTACGCGGCGGCGCCCATGGCACTGTTGATGCTCGGTTGGTTCTGGCTGACAAACACGTTCAGTGATGGCAACTCGGAGCCGCTGCCTTATGTGCCGTTGCTCAACCCCTTGGAACTGGGTCTGCTGTTCGCCTTGTTCGGTATCTATGTGTGGGCCCGCAACGCCGTGGAGCAAACGACGAACCGCTGGAGTCGGATCGGACAGGTCGCTCAGTTGATCGCCGGCGTGTCGCTGTTCGCGTTCTTCACCGCCTTGGTGATGCGCACTGCGCACCAGTGGATGGATGTGCCGTTCGAGCTGGATGCATTGCTTGAATCGATGTTCGTGCAGGCCGGGTTGTCCATTGTCTGGACCCTGATCGCCCTGGGCCTGATGATTGGCGGACACCTGCGGCATCGTCGCGAGGTGTGGCTGATCGGCGCGGCGTTGATTGCGGTGGTCGTGGCCAAGCTGTTCTTTGTCGAATTGAGTAACCGTGGTGGTCTGGCGCGGATCGTGTCGTTTATCGGCGTGGGCGTGTTGCTGCTGGTGGTCGGCTACTTTGCGCCGCTGCCGCCCAAACGCCCGGAGCCGGCCGTGGATGCCGAGCCGCCGATGCCTGTCAGTGAGGGAGTGTCATCTTGA	MQWILTLLGLALGWVVEESFADALIGALVGLGIAQSFRLGRLGIQAAKQQILLQDAQRSLLTLEARLAVLERGNVAEPSEPATAPEIVVAQAAKPEARTEPELIWQLPPELEPIPAMATQASQPLPDDVWKPAPETSSRRATRDFEPLPLEPRTTEPTAPRGPNLIDRAWTGARNWLFGGNTVLRVGVVLLFLGLAFLLRYATEGMVVPIELRYAGVAASALGLLGLGWWLRHRNSNYALMLQGTGIAVLYLTVFAAMRLHPLLDSKAALGLLVAVTVFSAILAVTQNALGLAAAAALGGFAAPILTSTGSGNHVALFSYFILLNTGIFAIAWFRAWRLLNLIGFVGTFGIGFAWGLRSYTPELLWSTEPFLIVFFLMYLAIGLLFTRRKLLEMSDAPEDDSRQALLRWSARKGDYVDGSMLFGPPLVGFGLQFALVQHLEFAAAFSALALGMIYMGLARVLMGGRAVLLAETCLALGVIFTSLAIPLGLDARWTAAAWAVEGAGIFWLGLRQQRPFARIFALLLQLGSALAFVSELHGGEGSLLEGSWLGALMLGGALLFSFYQLRKAEPGHAASWELRGQPVLAVLGLSFLYLLAPLFFFTQGTAIAWALAGLVTLFVGLRLQSRSFLFTAFAVQLLGGALFLLRLQGAEGDSAAVFNAGWSGLLSASLIGLALIGGMLLAARDDMVRNDVRLLRGLSVVLLAGLVLINLAVLFVLPWQTASGVWAASGLLIIWLSLYLKQRVSFVFGLLLQVIGGAAFLMAGPALLGSLDAEDLRPLAHSGFWTPLVLGLAALVGAWRLQKAHAARELDALSLQRLSELLLIWGAGWWALAWGSEVLRFAPQNLQGSLLLIVAAASVAVWTVAALRLKWAAMGLLCTLLIPAAGCVLVAIGHSRYHPAADFGWLAWLAVFAVHFLSLKRLATKLPAQARSTAHVLGCWLLMVVLMLELRYGLLLLSEQYNAWRWLAWAILPGLYLVLMATPRTLPWPVSAQPREYRVYAAAPMALLMLGWFWLTNTFSDGNSEPLPYVPLLNPLELGLLFALFGIYVWARNAVEQTTNRWSRIGQVAQLIAGVSLFAFFTALVMRTAHQWMDVPFELDALLESMFVQAGLSIVWTLIALGLMIGGHLRHRREVWLIGAALIAVVVAKLFFVELSNRGGLARIVSFIGVGVLLLVVGYFAPLPPKRPEPAVDAEPPMPVSEGVSS				NA	NA	NA	NA	NA
D1-35_03245	1371			hypothetical protein	TTGAGTCGCAAGTTGAGTCGAATCGGGCTGGGCGTGGTGGGGTTGTGGGTGGCCATGTCGGCCGCGGCACAGGAACAACCGCAAGACTTCGCCCATCAGGTGCCGTTGGCCTTGAGCGGCGAGGGGCCGTGGTATCGCCTGGCGTTGCCGCTGGACGTGCAGTTGCAGGCGCGCCAGACCGACCTGAGCGATTTGCGGGTCTTCAACGCGGCGGGCCAGGCCCAGGCCTACGCATTGGTTCGCGAGTCGGCGCAGAGCCGGGAAAGTCGCACGCTCACCGATGTGAAATGGTTCCCGCTGTACAACGCCGCCGATGACAGCGAGCGTGCGCCCAGCGTGCGTGTGCAATCGAACGCCAACGGCACGCTGGTGGAAGTCCAGCCGTCCAGTCGGCTCGAGGCGGGCGAGGAAGAGTTGCGCGGCTGGTTGCTGGACGCCAGCGCGATCAAGGCGCCGTTACAGCAATTGATCCTCGACTGGACCAGCGAGCGCGATGGCTTCCAGCGCTTCACCATCGAAGCCAGCGACGACTTGCAGCACTGGCAGTCGTGGGGCGAAGGCCAGATCGCCCGGCTGACGTTTGCCGATGAGCGGGTCGAGCAGCATGAGGTGAGCTTGCCGGGGCAGTCGGCGCGCTACTTGCGACTGCTGTGGGATTCGCCGTCCTCGGCGCCGGTGCTGACCTCGGCCCAGCTGCAAAGCGCCAGCCGCGAAAGCCTGCCACTGCCGTTGGTCTGGTCGCAGCCGCTGGCTGGTGGCACGACCAAGGCCGGCGAATACACCTGGCAGTTACCCATGGGGTTGAACGTCGAACAGGTGCAGATCGAGTTGAGCCAGGCCAACACCCTGGCGCCGGCGACCCTGGCCGGTCGCCGCGAAAGCAGCCAACCCTGGCAGCCGATGGGCAGCGGTCTGCTCTATCGCCTGACCCAGAATGGCCAGGACGTGTTGCAAAACCAGCTGCAACTGTCCGGCCAGACCGTTCAACAACTGAAGCTGACGGTGGACGAGCGCGGCGGCGGTCTGGGCGCCGAGGCCCCGGCCCTGCGCTTTGCCGTGCGTCCGACCCAGGTGGTGTTCCTGGCGCGCGGCGAGGGCCCCTGGCGCCTGGCGCTGGGCAGTGCGACAGTCAAGGCGGCCAGCCTGCCATTGACCACGCTGGTGCCCGACTACAAACCTTCGCGGCTGGCGACGTTGGGTACGGCGACGGTGAACGGCACGGCCACGGCGACCCCGAGAGTCGAAACCACGCCTGCGCCCGTCGAGACCAATTGGAAAAAAATCGGCTTGTGGGCGGTGTTGCTGCTGAGTGTGCTGTTCCTCGCAGCAATGGCGTTCAGCCTGTTGCGCAAGCCACCGGTCAAGAACTGA	MSRKLSRIGLGVVGLWVAMSAAAQEQPQDFAHQVPLALSGEGPWYRLALPLDVQLQARQTDLSDLRVFNAAGQAQAYALVRESAQSRESRTLTDVKWFPLYNAADDSERAPSVRVQSNANGTLVEVQPSSRLEAGEEELRGWLLDASAIKAPLQQLILDWTSERDGFQRFTIEASDDLQHWQSWGEGQIARLTFADERVEQHEVSLPGQSARYLRLLWDSPSSAPVLTSAQLQSASRESLPLPLVWSQPLAGGTTKAGEYTWQLPMGLNVEQVQIELSQANTLAPATLAGRRESSQPWQPMGSGLLYRLTQNGQDVLQNQLQLSGQTVQQLKLTVDERGGGLGAEAPALRFAVRPTQVVFLARGEGPWRLALGSATVKAASLPLTTLVPDYKPSRLATLGTATVNGTATATPRVETTPAPVETNWKKIGLWAVLLLSVLFLAAMAFSLLRKPPVKN				NA	NA	NA	NA	NA
D1-35_03246	1011	fbp_2	COG0158	Fructose-1,6-bisphosphatase class 1	ATGTCCCGCGTTACCTTGAGTCGCTATTTGATTGAGCAGACCCGCAGCAACAATACCCCTGCCGATCTGCGCTTTTTGATCGAAGTGGTGGCGCGTGCGTGCAAGGAAATCAGCCACGCCGTCTCCAAGGGCGCGCTGGGTGGTGTCCTTGGCAGCATGGGCACCGAGAACGTGCAGGGCGAAGTGCAGAAGAAGCTCGACGTACTGTCCAACGAAATCCTGCTCGAAGCCAACGAGTGGGGCGGTCACCTGGCCGGCATGGCGTCCGAGGAAATGGACAATGCCTACCAGATCCCGGGCAAGTATCCCAAGGGCGCCTACCTGCTGGTGTTCGACCCGTTGGACGGCTCGTCGAACATCGACATCAACGCGCCGGTTGGCACCATCTTCTCGGTACTGCGTTGCCCGAACGAGTACCTGAGCCAGAACGAAGCGCTGAACGAAAAGGCCTTCCTGCAGCCAGGCACCGAACAGGTCGCCGCCGGCTATGCCATCTACGGGCCTCAGACCATGCTGGTACTGACCCTGGGCGACGGCGTGAAAGGCTTCACCCTGGATCGCGAGATGGGCAGTTTTGTCCTGACCCACGAAGACATCACCATTCCTGAGACCACTCAGGAGTTCGCCATCAACATGTCCAACCAGCGTCACTGGGAAGCCCCGGTACAACGCTACGTCAGCGAGTTGCTGGCCGGCGAAGAAGGCCCGCTGAAGAAGAACTACAACATGCGCTGGGTCGCCGCGATGGTTGCCGATGTGCACCGCATCCTGACCCGTGGTGGCCTGTTCATGTACCCACGCGACAGCCGCGAGCCGTCCAAGCCGGGCAAGCTGCGCCTGATGTACGAAGCCAACCCGATGTCGTTCCTGGTGGAGCAGGCCGGTGGCGCTTCCACCGATGGCCACCAACGCATTCTCGACATCCAGCCTGAAGGCCTGCACCAGCGCGTGGCCGTGTTCCTCGGCTCGAAGGAAGAAGTGGCGCGCGCCACGGCCTACCATAAGGAATAA	MSRVTLSRYLIEQTRSNNTPADLRFLIEVVARACKEISHAVSKGALGGVLGSMGTENVQGEVQKKLDVLSNEILLEANEWGGHLAGMASEEMDNAYQIPGKYPKGAYLLVFDPLDGSSNIDINAPVGTIFSVLRCPNEYLSQNEALNEKAFLQPGTEQVAAGYAIYGPQTMLVLTLGDGVKGFTLDREMGSFVLTHEDITIPETTQEFAINMSNQRHWEAPVQRYVSELLAGEEGPLKKNYNMRWVAAMVADVHRILTRGGLFMYPRDSREPSKPGKLRLMYEANPMSFLVEQAGGASTDGHQRILDIQPEGLHQRVAVFLGSKEEVARATAYHKE	PGPT0017665_1788	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017665-fbp|cbbFC-K03841	NA	NA
D1-35_03247	597			hypothetical protein	ATGGCCGAGCCCTGGCAGCCGTTGCTCGATTGGTGGTTCGGTTCAGCCGAATCACCCGATGACATCGCGGCTGACAAGGGCAAGCTGTGGTTCGGCAAAGGCCATGATCGCCAGGCGCAAGAGCGCTTCGGTGATCAGGTCGAGCAGGCACTGGCTGGCGGATTGACCGATTGGGCGCAACGCCCGGAAGGTTGGCTGGCCCTGGTGCTGTTACTCGATCAACTTCCGCGGATGATCTTTCGCGACACCCCCAGAAGCTTTTCCGGCGACCTGCGTGCCCAAGCGCTGGTAGCACAGGGACTGGCGGCGGGTTTCGACCGGCAACTCAAGCCTGTCCAGCGCGTATTCATTTATCTGGTACTCGAACACTGCGAAAACCTCGCCGTACAGAACGAAGCCGTGTCGCGGTTCATCGAGTTGGTTCGAGAACAGCCCGAGGCGCAGCGTGCGGTGTTTGAGGACAACCTGGATTATGCCGAACGGCATCAGAAGATCATTGCGCGGTTTGGCCGCTTCCCTCATCGCAATGCGGTGCTTGGGCGTGAGTCCACGGCTGAGGAAGTGGAGTTCTTGAGCAGGCCTGGGTCCAGGTTCTAG	MAEPWQPLLDWWFGSAESPDDIAADKGKLWFGKGHDRQAQERFGDQVEQALAGGLTDWAQRPEGWLALVLLLDQLPRMIFRDTPRSFSGDLRAQALVAQGLAAGFDRQLKPVQRVFIYLVLEHCENLAVQNEAVSRFIELVREQPEAQRAVFEDNLDYAERHQKIIARFGRFPHRNAVLGRESTAEEVEFLSRPGSRF				NA	NA	NA	NA	NA
D1-35_03248	333			hypothetical protein	ATGAGGTTGAAGATCGTCATTCTTCAGTCAGCCGAAACAGATCTTAAAGAGCTTCGCGCCTATCTCATCGGTCGGTTTTCTTTCCATACATGGCAAAGCACTTACGCCAGCCTGAAGACGGCGATCCGTCATTTGGAGACCTTGCCTTACGCAGGATCGATTCCAGAAGAAATCGAAAGGCTCAATCTCGGTCAGTACCGGCAGATATTGTCAGGGATGAACCGAATCATTTATGAGGTGCGGGGCCAAACGATCTATATCCATATCATCGCCGATAACCGCAAGAGCTTGCCGACCCTGCTAATGCAGCGATTGCTTCGAAGCAGTCCTTAA	MRLKIVILQSAETDLKELRAYLIGRFSFHTWQSTYASLKTAIRHLETLPYAGSIPEEIERLNLGQYRQILSGMNRIIYEVRGQTIYIHIIADNRKSLPTLLMQRLLRSSP	PGPT0027550_358	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-ParE-ParD|paaAR_TOXIN-ANTITOXIN_SYSTEM,PGPT0027550-toxin_parE1_3_4-K19092	NA	NA
D1-35_03249	273			hypothetical protein	ATGAAACTCTCATCACAAATCAAACCCATCAGCTATTTGAAGAGCCATACCGCCGAAATCGTCAAGAGCATCACAGAGAGCAGAGAGCCGTTGATCATCACCCAAAACGGTGAAGCCAAGCTCGTGGTCATGGATGTAAAAAGTTTTGAAGAACAAGAAGACACCATGGCGTTGCTAAAGCTGCTGGCGATGGGCAACCAAGAAATTGAAAACGGTAAATTCAGGGAAATAGAAGAAGTCTTCGGCGAGCTGGATAAGGCGGACGACCAATGA	MKLSSQIKPISYLKSHTAEIVKSITESREPLIITQNGEAKLVVMDVKSFEEQEDTMALLKLLAMGNQEIENGKFREIEEVFGELDKADDQ				NA	NA	NA	NA	NA
D1-35_03250	1944	pctC	COG0840	Methyl-accepting chemotaxis protein PctC	ATGGCAAATTGGCAGCCCTTCCTGACCCGTCCCTACGCGGTAGCGTTCTTAATGACCAGAAACATGAAATTCAGCCACAAAATCCTGCTGGCTGCCGCCCTTGTGGTGGCCGTCGCATTCGCCTGTTTCATCCTGTTCAACGACTATCGTCAACGACAAAGTCTCAACACCAGCACCGAGACGTCCATGCAGGAACTCGGCAACCTGACCAGTCGCAATATCCAGACATGGGTCGAAGGCCGAATCCAATTGCTGCAATCGCTGGCCCAACAAATCGCCATCGACGGAAACAGTGCCGAAAGCCTGAAACGCGCCGTGGGCCTGCCGGCCTACACCGGTAATTTCCAGCTCAGCTATTTCGGCGGTACCGACGGTGTGATGTTCTCGATACCGGCCGGTAATCGTGCCGCCGACTATGACCCGCGCGCCCGTGGCTGGTACAAGGCTGCCAATAGCGCCCAGCAGACCATCGTCACCGAGCCCTACATCGCGGCCTCGTCGGGCAAGCTGGTGATCACCGTTGCCACGCCGGTACAGCGTCAGAACCAGATGATCGGCGTGGCTGGCGCGGACATCGACCTGTCGAGCGTCAGCGCCATCATCAACTCGCTGAACTTCGGCGGCCATGGCCATGCGTTCATCGTCAGCGCCGACGGCAAGATCCTGATCCACCCTGACAGCAAGCGTGTCCTCAAGACGCTTGCCGAGGCCTACCCCAACGGCGCACCGCAAATCGGCCCGGGCCTGAAGGAAGTCGAGCTCGACGGCAAGACTCAATTCATCTCCTTTACCCAGGTCAACGGCGTGCCCGGAGCCAACTGGTACGTGGCGCTGGTACTCGATAAAGACACCGCCCTGGCGATGCTCAGCGAATTTCGCACCTCGGCGCTGATCGCCATGATCATCGCCGTGGTGTTCATCATCGCCCTCCTGGGCATGCTGATCCGGGTGCTGATGCAACCACTGCTGACCATGGGCCGCGCCATGCACGATATCGCCGAAGGCGAAGGCGACCTGACTCGGCGCCTGACCATTCATGGCCAGGACGAATTCGGTGCGCTGGGTACCTCGTTCAACCGCTTCGTCGAGCGTATCCATACTTCGATCCGCGAAGTGGCTTCGGCGACCGGCCAGGTCAACGAAGTCGCCCTGCGGGTGGTCAGCGCGTCCAACTCCTCGATGTACAACTCCGACCAGCAGGCCTCGCGGACCAGCAGCGTGGCCGCGGCCATCAACCAGCTCGGCGCCGCCGCCCAGGAGATCGCCCAGAACGCCGCCCTCGCCTCGCAGCATTCCAGTGAAGCCCGCAACCTGGCCGAAGACGGTCAGCAAGTGGTGGATAAAACCATCACCGCCATGCAGCAGCTGTCGGCCAAGATCAGCGATTCGTGCGGCAACATCGAAACCCTGAACAGCAACACAGTGAACATCGGCCAGATCCTGGAAGTGATCACCAGCATTTCCCAGCAGACCAACCTGCTGGCCCTGAACGCCGCCATCGAAGCCGCCCGCGCCGGTGAAGCCGGTCGCGGTTTCGCGGTGGTTGCCGATGAAGTGCGCAACCTGGCCCACCGTACCCAGGATTCGGCGCAGCAAGTGCAGAAGATGATCGAAGAGTTGCAGGTCGGCGCGCGGGAAGCGGTGCTGACCATGACCGACAGCCAGCGCCAGAGCGAAAGCAGCGTTGGCATCGCCAACCAGGCGGGCGAACGCCTGGGCAGCGTGACCCAGCGCATCGGCGAAATCGACGGCATGAACCAGTCCGTGGCGACCGCCACCGAAGAACAGACCGCCGTGGTGGAATCGATCAACGTCGACATCAACGAGATCAACACGCTAAACCAGGAAGGCGTGGAAAACCTGCAGGCCACCTTGCGGGCCTGTTCCGACCTGGAACAGCAGGCGGCGCGGTTGAAGCAATTGGTGGGTAGTTTCCGGATCTAG	MANWQPFLTRPYAVAFLMTRNMKFSHKILLAAALVVAVAFACFILFNDYRQRQSLNTSTETSMQELGNLTSRNIQTWVEGRIQLLQSLAQQIAIDGNSAESLKRAVGLPAYTGNFQLSYFGGTDGVMFSIPAGNRAADYDPRARGWYKAANSAQQTIVTEPYIAASSGKLVITVATPVQRQNQMIGVAGADIDLSSVSAIINSLNFGGHGHAFIVSADGKILIHPDSKRVLKTLAEAYPNGAPQIGPGLKEVELDGKTQFISFTQVNGVPGANWYVALVLDKDTALAMLSEFRTSALIAMIIAVVFIIALLGMLIRVLMQPLLTMGRAMHDIAEGEGDLTRRLTIHGQDEFGALGTSFNRFVERIHTSIREVASATGQVNEVALRVVSASNSSMYNSDQQASRTSSVAAAINQLGAAAQEIAQNAALASQHSSEARNLAEDGQQVVDKTITAMQQLSAKISDSCGNIETLNSNTVNIGQILEVITSISQQTNLLALNAAIEAARAGEAGRGFAVVADEVRNLAHRTQDSAQQVQKMIEELQVGAREAVLTMTDSQRQSESSVGIANQAGERLGSVTQRIGEIDGMNQSVATATEEQTAVVESINVDINEINTLNQEGVENLQATLRACSDLEQQAARLKQLVGSFRI	PGPT0015710_11098	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
D1-35_03251	255			hypothetical protein	ATGTCGCTGCGATCCATCGCCCTGCTGTTTGTGTGCGTCGTCTTGACCGCATGCAGCAAGGTCAACCAGGAAAACTATTCGAAGCTGTCGGCTGGCATGCCCAAGGCCGAAGTCGAAACGTTACTGGGGAAACCGACTGATTGTTCGGGCGCGCTCGGTATGTCCAGCTGCACCTGGGGCGACCAGAAAAGCTTTATCAGCGTGCAGTATGCCGGTGACAAAGTGTTGATGTTTTCCGGCCAAGGCCTGAAGTAA	MSLRSIALLFVCVVLTACSKVNQENYSKLSAGMPKAEVETLLGKPTDCSGALGMSSCTWGDQKSFISVQYAGDKVLMFSGQGLK				NA	NA	NA	NA	NA
D1-35_03252	570	blc	COG3040	Outer membrane lipoprotein Blc	ATGATGCGGTTAGTTTTTGTGCTTCTGGCTGGCCTGGTATTGGCCGGCTGTGCCTCTTCTGGCGTAGACCCGTTGGCGCCCAAGACAGTCAACAGCGTCAATCTAAAGCGGTACCAAGGGACCTGGTACGAACTGGCCCGCCTGCCGATGTACTTCCAGCGCAACTGCGCGCAGTCCGAAGCGCATTACACCCTCAAGCCTGACGGCAACATGGACGTATTCAACCGCTGCCTGACTTCCGACTGGAAATGGGAAGAGGCCAGGGGCACGGCTTACCCGCAAGTGCCGGGTAAAACCGACAAGCTCTGGGTCGAATTCGATACCTGGTTCTCGCGGATCCTGCCGGGCGTGGCAAAAGGGGAATATTGGGTGTTGTACGTCAGCGACGACTACAAGACCGCCATCGTCGGCGACCCGAGCCGGCGCTACATGTGGTTGCTGTCCCGCACGCCGACGGTGAGGGTGGATGTACGTGAAGAACTGCTGAGCAAGGCCCGCCAGCAGGGCTATGACACGACGCGGTTGGTCTGGCGCGCATCGGACCGGCAGATGGCGAAGACTTCGGACTGA	MMRLVFVLLAGLVLAGCASSGVDPLAPKTVNSVNLKRYQGTWYELARLPMYFQRNCAQSEAHYTLKPDGNMDVFNRCLTSDWKWEEARGTAYPQVPGKTDKLWVEFDTWFSRILPGVAKGEYWVLYVSDDYKTAIVGDPSRRYMWLLSRTPTVRVDVREELLSKARQQGYDTTRLVWRASDRQMAKTSD	PGPT0012970_1079	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012970-blc-K03098	NA	NA
D1-35_03253	1365		COG0402	8-oxoguanine deaminase	ATGTCCGCCTTCTTTGCCGAACGCGCGCTGCTGCCTAGTGGATGGGCCAATGATGTACGTCTTGAGGTCGATGCCAACGGTATCCTGACCCACATCCAGGCCGACGCCCACGCAGACGGCGCCGAACGACTGGACGGCCCGCTCTTGCCAGGCATGCCGAACCTGCATTCCCATGCTTTCCAGCGGGCCATGGCCGGACTGGCGGAGGTGGCCGGCAACCCCAACGACAGCTTCTGGACATGGCGTGACCTGATGTACCGCCTCGTCGGGAAAATCAGCCCCGGGCAACTCGGCATTATCGCCCGCCAGCTGTACATCGAAATGCTCAAGGCCGGCTACACCTCGGTCGCCGAGTTCCATTACGTGCATCATGACCTCGACGGCGCGCCCTACGCTGACCCGGCCGAACTGGCGCTGCGCATCAGCCACGCCGCCAGCGCCGCCGGCATCGGCCTGACGTTGCTGCCGGTGCTCTACAGCCATTCCGGCTTCGGCGGCCAGGCGCCCAACGAGGGGCAGCGCCGGTTCATCAACAGCACCGAAAACTACCTGAAGCTTCAGGAGCGCTTGCAACCTGTCCTGGCCGGGCAAGCCAATCAGGCGCTGGGCTTGTGTTTCCACTCCTTGCGCGCCGTGACGCCCGGACAGATCAAGGACGTACTGGCCGCCAGCGATCCGCATTGCCCGGTGCACATCCACATCGCCGAACAGCAAAAGGAAGTCGACGATTGCCTGAGCTGGAGTGGCGCGCGGCCGCTGGAGTGGCTGTACGAAAATACCGAAGTCGACCAGCGCTGGTGCCTGGTTCACGCAACGCACGCCAACCCCCAGGAAGTCAGCCTCATGGCCAGGAGCCGGGCGATTGCCGGGTTGTGCCTGACCACTGAAGCCAATCTTGGCGACGGGATTTTCCCGGCCGTGGACTTCCTCGCCCAAGGTGGGCGGATGGGCATCGGTTCCGACAGCCATGTGTCGTTGAGTGTGGTGGAAGAGTTGCGTTGGCTGGAATACGGCCAGCGTTTGCGAGACCAGCGGCGCAACCGTTTGTATCGAACGGATCAACCGATGGTCGGGCGCACGCTGTATGACGCCGCGCTGGACGGCGGCGCCCAGGCGCTGGGACAACCCATCGGTGCTTTCACAGTAGGCAAGCGCGCCGATTGGCTGGTGCTTGATGGCAACGATCCGTACCTGGCCACGGCCAACGGCGACGGTATCCTCAATCGTTGGCTGTTCGCCGGTGGCGATCGCCAGGTGCGGGATGTGATGGTGGGTGGCAAGTGGGTGGTGCGCGATGGGCGCCATGCCGGCGAAGAGGAAAGCGCACGGGCGTTCACCCAGGTGTTGCGCGAGCTGCTGGGCTGA	MSAFFAERALLPSGWANDVRLEVDANGILTHIQADAHADGAERLDGPLLPGMPNLHSHAFQRAMAGLAEVAGNPNDSFWTWRDLMYRLVGKISPGQLGIIARQLYIEMLKAGYTSVAEFHYVHHDLDGAPYADPAELALRISHAASAAGIGLTLLPVLYSHSGFGGQAPNEGQRRFINSTENYLKLQERLQPVLAGQANQALGLCFHSLRAVTPGQIKDVLAASDPHCPVHIHIAEQQKEVDDCLSWSGARPLEWLYENTEVDQRWCLVHATHANPQEVSLMARSRAIAGLCLTTEANLGDGIFPAVDFLAQGGRMGIGSDSHVSLSVVEELRWLEYGQRLRDQRRNRLYRTDQPMVGRTLYDAALDGGAQALGQPIGAFTVGKRADWLVLDGNDPYLATANGDGILNRWLFAGGDRQVRDVMVGGKWVVRDGRHAGEEESARAFTQVLRELLG	PGPT0020245_520	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020245-hutF-K05603	NA	NA
D1-35_03254	750	nagR_3	COG2188	HTH-type transcriptional repressor NagR	GTGCCGACTCCGCCTGCCAAACCGCCGCTGGCCGCAACCATGGGTGACAGTCCGGCGCCCTTGTACGCCCGCGTCAAACAGATGATCACCCAGCAGATCGACAGTGGAAACTGGCCGCCGCACTACCGCGTGCCGTCGGAAAGCGAACTGGTCAGTCAGTTGGGCTTCAGCCGCATGACCATCAACCGTGCCCTGCGGGAAATGACCGCCGATGGCCTGTTGGTGCGCATGCAGGGTGTCGGCACGTTCGTCGCCGAGCCCAAGAGCCAGTCCGCGTTGTTCGAAGTACACAACATCGCCGATGAAATCGCCTCCCGGGGTCATCGCCATACCTGCAAGGTCATTACCCTGGAAGAGGAGGCCGCCGGCTCCGAACGTGCCCTGGCCCTGGATATGCGCGAAGGCCAGAAGGTCTTTCACTCGCTGATCGTGCATTTCGAGAACGACATTCCCGTGCAGATCGAGGACCGTTTCGTCAATGCGCTCGTGGCGCCCGACTACCTCAAGCAGGACTTCACCCAGCAAACGCCTTACGCCTACCTGAACCAGGTCGCGCCGCTGACCGAGGGGGAGCATGTGGTCGAGGCGATCCTGGCCGAGCCGAGCGAATGCAAGCTGTTGCAGATCGAGCGGGGCGAGCCGTGCCTGCTGATTCGCCGTCGCACCTGGTCCGGGCGCCAGCCGGTGACCGCCGCGCGCCTGATCCATCCGGGCTCCCGCCATAGCCTGGAAGGACGCTTTCACAAATGA	MPTPPAKPPLAATMGDSPAPLYARVKQMITQQIDSGNWPPHYRVPSESELVSQLGFSRMTINRALREMTADGLLVRMQGVGTFVAEPKSQSALFEVHNIADEIASRGHRHTCKVITLEEEAAGSERALALDMREGQKVFHSLIVHFENDIPVQIEDRFVNALVAPDYLKQDFTQQTPYAYLNQVAPLTEGEHVVEAILAEPSECKLLQIERGEPCLLIRRRTWSGRQPVTAARLIHPGSRHSLEGRFHK				NA	NA	NA	NA	NA
D1-35_03255	570	ves		Protein Ves	ATGAGCCAGCTGAAGGTTTTACGCGCCGCCGACTACCCACGCATGCCGTGGAAAAACGGCGGTGGCAGCACCGAAGAAATCACCCGCGATGCAGGCACCGGCCTGGAAGGTTTCGGTTGGCGCCTGTCGATCGCCGATATCGCTGAGTCGGGCGGTTTTTCCACCTTCGCCGGTTATGAACGGGTCATCAGTGTCTTGCAGGGTGACGGCATGACGCTGTATGTCGATGGCCAGGCCACGCGGGCATTGCATCCGCTGGACCCGTTTGCGTTCAGCGGCGAAAGCCATGTGCACTGCACCTTGCTGGGCGGGTCGATCCGCGATTTCAACCTGATCTATGCGCCGCAGCGTTACCGCGCGCGGTTGCAGTGGATGGGTGGGCAGCAGCATTTTCTCAGCGAGGCGGGGACGGTGTTGGTGTTCAGCGCGGCGCCGACGCTGAGGGTCAATATTGACGAGGCGGTCCAGACGCTGGGGCTTTATGACTGCCTGCAACTGAGCGGCAACACCGGGCTGCTGGAGATCACCACCCACGGCCAATGCTGCGTGATCGAGCTGACGGCCCACTAA	MSQLKVLRAADYPRMPWKNGGGSTEEITRDAGTGLEGFGWRLSIADIAESGGFSTFAGYERVISVLQGDGMTLYVDGQATRALHPLDPFAFSGESHVHCTLLGGSIRDFNLIYAPQRYRARLQWMGGQQHFLSEAGTVLVFSAAPTLRVNIDEAVQTLGLYDCLQLSGNTGLLEITTHGQCCVIELTAH	PGPT0020255_851	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MAINTENANCE	CE-BACTERIAL_FITNESS-HISTIDINE_REPLETION_RELATED_FITNESS,PGPT0020255-hutD|ves-K09975	NA	NA
D1-35_03256	1689	hutU	COG2987	Urocanate hydratase	GTGACCGACGCTACCCGCAAACCTGAAAAATACCGTGACGTTGAAATCCGCGCGCCTCGCGGTAACACGCTGACCGCCAAGAGCTGGCTGACTGAAGCGCCGCTGCGGATGTTGATGAACAACCTCGACCCGGAAGTGGCGGAGAACCCCAAGGAGCTGGTGGTCTACGGTGGCATCGGTCGCGCGGCGCGCAACTGGGAGTGCTACGACAAGATTGTCGAAAGCCTGACCAACCTGAATGACGACGAAACCCTGCTGGTGCAATCCGGCAAGCCGGTGGGCGTATTCAAGACCCACAGCAACGCTCCTCGCGTACTGATCGCCAACTCCAACCTGGTGCCGCACTGGGCCAGTTGGGAGCATTTCAACGAACTCGACGCCAAGGGCCTGGCCATGTACGGCCAGATGACCGCCGGCAGCTGGATCTACATCGGCAGCCAGGGCATCGTCCAAGGCACTTATGAAACCTTCGTCGAGGCTGGTCGCCAGCATTACGATTCCAACCTCAAGGGCCGTTGGGTCCTGACCGCCGGCCTGGGTGGCATGGGCGGCGCGCAACCCTTGGCCGCGACCCTGGCCGGTGCGTGCTCGCTGAACATCGAATGCCAGCAGGTCAGCATCGATTTCCGTCTGAAAACCCGTTACGTCGACGAGCAAGCCAAAGACCTCGACGACGCCTTGGCGCGCATCGAGAAATACACCGCCGAAGGCAAGGCGATTTCCATCGCGCTGTGTGGGAACGCCGCCGAAATTCTCCCGGAAATGGTTCGCCGTGGTGTGCGTCCGGACATGGTCACCGACCAGACCAGCGCCCACGACCCGCTCAATGGTTACCTGCCGGCCGGCTGGACCTGGGACGAATACCGCGCCCGCGCCAAGACCGAACCTGCTGCCGTGGTGAAGGCCGCCAAGCAATCGATGGCCGTGCACGTCAAAGCCATGCTGGCCTTCCAGAAAATGGGCGTACCGACTTTCGACTACGGTAACAATATCCGCCAGATGGCCCAGGAAGAGGGCGTCGAGAATGCCTTCGACTTCCCGGGCTTCGTTCCGGCGTATATCCGTCCGCTGTTTTGCCGTGGCATCGGCCCGTTCCGCTGGGCCGCGCTGTCGGGCGACCCGCAGGACATCTACAAGACCGACGCCAAGGTCAAGGAGCTGATCGCCGACGACGCTCACCTGCACAACTGGCTGGACATGGCCCGCGAGCGCATCAGCTTCCAAGGCTTGCCGGCACGTATCTGCTGGGTTGGCCTGGGCCAGCGCGCCAAGTTGGGCCTGGCCTTCAACGAGATGGTGCGCAGCGGTGAGTTGTCGGCGCCGATCGTGATCGGCCGCGACCACCTGGACTCCGGCTCCGTCGCCAGCCCGAACCGTGAAACCGAATCCATGCAGGACGGCTCCGACGCCGTTTCCGACTGGCCGCTGCTCAATGCCTTGCTCAACACCGCCAGTGGCGCGACTTGGGTGTCGCTGCACCACGGTGGTGGCGTCGGCATGGGTTTCTCCCAGCACTCGGGCATGGTGATCGTCTGCGACGGCACCGACGAAGCGGCCGAGCGTATCGCCCGGGTACTGCATAACGACCCGGGCACTGGCGTCATGCGTCATGCCGATGCGGGTTACCAGATTGCCATTGATTGTGCGAAGGAGCAGGGGCTGAACCTACCGATGATCACCGGCAAGTAA	MTDATRKPEKYRDVEIRAPRGNTLTAKSWLTEAPLRMLMNNLDPEVAENPKELVVYGGIGRAARNWECYDKIVESLTNLNDDETLLVQSGKPVGVFKTHSNAPRVLIANSNLVPHWASWEHFNELDAKGLAMYGQMTAGSWIYIGSQGIVQGTYETFVEAGRQHYDSNLKGRWVLTAGLGGMGGAQPLAATLAGACSLNIECQQVSIDFRLKTRYVDEQAKDLDDALARIEKYTAEGKAISIALCGNAAEILPEMVRRGVRPDMVTDQTSAHDPLNGYLPAGWTWDEYRARAKTEPAAVVKAAKQSMAVHVKAMLAFQKMGVPTFDYGNNIRQMAQEEGVENAFDFPGFVPAYIRPLFCRGIGPFRWAALSGDPQDIYKTDAKVKELIADDAHLHNWLDMARERISFQGLPARICWVGLGQRAKLGLAFNEMVRSGELSAPIVIGRDHLDSGSVASPNRETESMQDGSDAVSDWPLLNALLNTASGATWVSLHHGGGVGMGFSQHSGMVIVCDGTDEAAERIARVLHNDPGTGVMRHADAGYQIAIDCAKEQGLNLPMITGK	PGPT0020250_1089	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020250-hutU-K01712	NA	NA
D1-35_03257	1467			hypothetical protein	ATGGCTGTCACCAGCACACGCGATAGCAGCAAGCCGTTGATCGAGAAACGATCGATCGACTACATCCCGGAGGCGGAGCGACACGGTCGGTTGTTGAGCCAGTTCACCCTCTGGATGGGGGCCAACCTGCAGATCACGGCAATTGTCACCGGCGCGTTGGCGGTGGTGCTTGGCGGTGATGTGTTCTGGTCGTTGATCGGTCTGCTGATCGGCCAGGTGCTCGGCGGTGGCGTCATGGCCTTGCATGCCGCGCAAGGGCCCAAGCTGGGCCTGCCGCAGATGATCTCCAGCCGGGTGCAGTTCGGTGTGTATGGCGCGGCCATCCCGATCGTGCTGGTGTGCCTGATGTACCTGGGTTTCACCGCCACGGGAACCGTGCTTTCCGGCCAGGCGCTGGGCCAGTTGTTTGGCGTCAGTGACAGTCTCGGCATCCTTATTTTCGCCAGTGTCATCGTGCTGGTGACGGTGCTCGGTTACCGGGTGATCCACTTCATTGGCCGGGTCGCCAGCGTCATTGGTGTGATTGCCTTTGTCTACCTGTTCGCTCGCCTGATCAGCCAGACGGACGTTGGCGCGCTCTTGCAAATTCGCCATTTCAGCTGGAGCAGTTTCCTGCTGGCGGTGTCGCTCGCGGCCTCCTGGCAGATCGCCTTCGGCCCCTACGTGGCTGACTACTCGCGGTACCTGCCGAGCAAGACGTCTTCGGTGAAAACCTTTTTCGCCGCCGGCGCGGGTTCCGTCATCGGCGCGCAGGTAGCGATGATCCTCGGCGTGTTTGCCGCCGCTTCGGCCAACGGGCAGTTCGCCGGTCACGAAGTGGCCTACATCGTAGGCCTGGGAGGTACCGGCGCCACCGCTGCGCTGCTGTACTTCAGCATCGCCTTTGGCAAGGTCACCATCTCCACGCTGAACTCCTACGGCAGCTTCATGTGCATCGCGACGATCATCAGCGGTTTCCGCGGGCACCTGAGCGTAACGCGCTTGCAGCGTCTGGTCTTCGTGCTGGTCATCGTCGGCGCCGCGACCCTGATCGCGCTGCTCGGCCAGCACTCGTTCCTCGGTGCGTTCAAGTCTTTCATCTTGTTCTTGCTCGCATTCTTCACGCCGTGGAGCGCGATCAACCTGGTGGACTACTACTGCATCACGCGCGAGCGCTATGACGTGCCGGCACTGAACGACCCGAACGGTCGCTACGGTCGTTGGAACGCCCTCGGCATCAGCGTCTACGTCTTCGGTGTATTGGTTCAGTTGCCGTTCATCGCCACCAAGTTCTATACCGGCCCGTTGGTGAAAGCCATGGGTGGCGTGGATATCTCGTGGATCATCGGTCTGGTGGTCCCGGCGGCGTTGTATTACCTCATCGCCAGAAAGTGGCACAGCGCAGTACCCGATCAATTGATCCTGCCGGTCGAGCAGGACGCGGTTGACGCACAACCGAGCAGGGCGGGCCGCATCCAAGCGGTCTGA	MAVTSTRDSSKPLIEKRSIDYIPEAERHGRLLSQFTLWMGANLQITAIVTGALAVVLGGDVFWSLIGLLIGQVLGGGVMALHAAQGPKLGLPQMISSRVQFGVYGAAIPIVLVCLMYLGFTATGTVLSGQALGQLFGVSDSLGILIFASVIVLVTVLGYRVIHFIGRVASVIGVIAFVYLFARLISQTDVGALLQIRHFSWSSFLLAVSLAASWQIAFGPYVADYSRYLPSKTSSVKTFFAAGAGSVIGAQVAMILGVFAAASANGQFAGHEVAYIVGLGGTGATAALLYFSIAFGKVTISTLNSYGSFMCIATIISGFRGHLSVTRLQRLVFVLVIVGAATLIALLGQHSFLGAFKSFILFLLAFFTPWSAINLVDYYCITRERYDVPALNDPNGRYGRWNALGISVYVFGVLVQLPFIATKFYTGPLVKAMGGVDISWIIGLVVPAALYYLIARKWHSAVPDQLILPVEQDAVDAQPSRAGRIQAV	PGPT0009075_1894	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
D1-35_03258	969			hypothetical protein	ATGAAATCGAACAAGACCCTGCTGACCACATTGCTTGCCATGGGCCTGCTGGCCAGCGCCGGCGCCACGCAAGCGGCCGGCTGGTGCGAGTCGGGCAAACCGGTGAAGTTCGCCGGCCTGAACTGGGAAAGCGGCATGCTGCTGACCGACGTGATGCAAGTCGTGCTGGAAAAAGGCTACGGCTGCAAGACCGACAGTCTGCCAGGCAACTCCATCACCATGGAGAACGCCCTGAGCAGCAACGACATCCAGGTGTTCGCCGAAGAGTGGGTCGGCCGCAGTGAGGTGTGGAACAAGGCCGAGAAGGCCGGCAAGGTGGTGGGCGTCGGTGCCCCGGTGGTCGGCGCGATCGAAGGCTGGTACGTGCCGCGCTACGTGATCGAAGGTGATGCCAAGCGCAAGCTCGAAGCCAAGGCCCCGGGCCTGAAGAATATCGCCGACCTGGGCCAATACGCCGCCGTGTTCAAGGATCAGGAGGAACCGTCCAAGGGCCGCTTCTACAACTGCCCGGCCGGTTGGACCTGCGAGCTGGACAACAGCGAAATGCTGAAAAGCTACGGCCTGGAAAAAACCTACACCAACTTCCGCCCAGGCACCGGCCCGGCGCTGGATGCGGCAGTGCTGTCGAGCTACAAGCGTGGCGAGCCGATCCTGTTCTACTACTGGTCGCCGACGCCACTGATGGGCCAGGTCGACCTGGTGAAGCTCGAAGAAAAACCGGGCGTGGATAAAAGCGTGAGCATCAAGGTCGGCCTGTCCAAGACCTTCCACGACGAGGCTCCGGAACTGGTGGCGGTGCTGGAAAAGGTCAACCTGCCGATCGACATCCTGAACCAGAACCTCGGGCGCATGGCCAAAGAGCGGATCGAGTCGCCGAAACTGGCGAAGATCTTCCTGAAGGAACATCCTGAAGTCTGGCATGCCTGGGTCAGCGAAGACGCTGCCAAGAAAATCGACGCGGCTCTGTAG	MKSNKTLLTTLLAMGLLASAGATQAAGWCESGKPVKFAGLNWESGMLLTDVMQVVLEKGYGCKTDSLPGNSITMENALSSNDIQVFAEEWVGRSEVWNKAEKAGKVVGVGAPVVGAIEGWYVPRYVIEGDAKRKLEAKAPGLKNIADLGQYAAVFKDQEEPSKGRFYNCPAGWTCELDNSEMLKSYGLEKTYTNFRPGTGPALDAAVLSSYKRGEPILFYYWSPTPLMGQVDLVKLEEKPGVDKSVSIKVGLSKTFHDEAPELVAVLEKVNLPIDILNQNLGRMAKERIESPKLAKIFLKEHPEVWHAWVSEDAAKKIDAAL	PGPT0013640_1629	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
D1-35_03259	852	opuAB_2	COG4176	Glycine betaine transport system permease protein OpuAB	ATGTTTCCCGAAAGCTTTACCTTCTCCATCGCCGACTGGGTCAACGGTTGGGTCGACTCCCTGGTGACCAACTATGGCGATGTGTTCCGGCATATCTCCGACACGTTGCTGTGGGCCATCGTCAACCTTGAAGGGCTGCTGCGCATGGCCCCCTGGTGGCTGATGCTGGCGATCGTCGGTGGCGTTGCCTGGCATGCTACCCGCAAGGTCGTGGCGACGGCGGTGATCGTCGGCCTGTTGTTCCTGGTGGGCGCGGTGGGCCTGTGGGACAAACTGATGCAGACCCTCGCGTTGATGCTGGTAGCGACGCTGATTTCGGTGCTGATCGGGATTCCGCTGGGCATTCTCTCGGCGCGCAGCAATCGCCTGCGTTCGGTGCTGATGCCCCTGCTGGACATCATGCAGACCATGCCAAGCTTCGTGTACCTGATTCCGGTGTTGATGCTGTTTGGCCTGGGCAAGGTCCCGGCGATCTTCGCCACGGTGATCTACGCCGCGCCGCCCTTGATCCGCCTGACCGACCTGGGCATCCGCCAGGTCGACGGCGAAGTCATGGAAGCCATCAACGCCTTTGGCGCCAACCGCTGGCAGCAGCTGTTCGGCGTGCAACTGCCCCTGGCCCTGCCGAGCATCATGGCCGGGATCAACCAGACCACCATGATGGCCCTGTCGATGGTGGTCATCGCCTCGATGATCGGCGCCCGTGGCCTGGGTGAGGACGTACTGGTCGGCATCCAGACCCTCAACGTCGGGCGCGGCCTCGAAGCCGGGCTCGCCATCGTGATTCTCGCCGTGGTCATCGACCGCATTACCCAGGCCTATGGTCGCCCTCGGCATGAGGTGAGCAAATGA	MFPESFTFSIADWVNGWVDSLVTNYGDVFRHISDTLLWAIVNLEGLLRMAPWWLMLAIVGGVAWHATRKVVATAVIVGLLFLVGAVGLWDKLMQTLALMLVATLISVLIGIPLGILSARSNRLRSVLMPLLDIMQTMPSFVYLIPVLMLFGLGKVPAIFATVIYAAPPLIRLTDLGIRQVDGEVMEAINAFGANRWQQLFGVQLPLALPSIMAGINQTTMMALSMVVIASMIGARGLGEDVLVGIQTLNVGRGLEAGLAIVILAVVIDRITQAYGRPRHEVSK	PGPT0013635_1863	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
D1-35_03260	831	opuAA_2	COG4175	Glycine betaine transport ATP-binding protein OpuAA	ATGAGCAACGCAGCCGTCAGCAAGATCGAAGTCAGGAACGTCTTCAAGATTTTCGGCAACCGGTCCAAGGAGGCCCTGGAGCTGATCCGCCAGAACAGGACCAAGGACCAGGTGCTGGCCGAAACCGGCTGCGTGGTCGGCGTGAACGACCTGTCGCTGAGCATCGGTACCGGTGAGATTTTCGTGATCATGGGCCTGTCCGGTTCCGGCAAGTCCACTTTGGTTCGCCACTTCAACCGGTTGATCGACCCTACCAGCGGCGCGATCCTGGTGGACGGCGAAGACATCCTGCAACTGGACATGGATGCCCTGCGTGAATTTCGTCGACGCAAGATCAGCATGGTGTTCCAGAGCTTTGGCCTGCTGCCCCACAAGAGCGTGCTGGACAACGTCGCCTACGGCTTGAAAGTGCGTGGCGAAAGCAAGCAGGTCTGCGCCGAACGGGCGTTGCACTGGGTCAGCACCGTGGGCCTGAAGGGCTACGAGAACAAATACCCGCACCAGCTCTCCGGTGGCATGCGCCAGCGCGTCGGCCTGGCCCGGGCGTTGGCGGCGGATACCGACATCATCCTGATGGACGAGGCGTTCAGCGCCCTCGATCCGCTGATCCGGGCGGAAATGCAGGACCAGTTGCTGGAACTGCAAAAGACTCTGCACAAGACCATCGTCTTCATCACCCACGACCTCGACGAGGCCGTACGCATCGGCAACCGCATCGCGATTCTCAAGGACGGCAAGCTGATCCAGGTCGGCACGCCACGGGAGATCCTGCACTCGCCGGCGGATGAGTATGTCGATCGGTTTGTGCAGCGCAGGGCGGCGGTGGTTTGA	MSNAAVSKIEVRNVFKIFGNRSKEALELIRQNRTKDQVLAETGCVVGVNDLSLSIGTGEIFVIMGLSGSGKSTLVRHFNRLIDPTSGAILVDGEDILQLDMDALREFRRRKISMVFQSFGLLPHKSVLDNVAYGLKVRGESKQVCAERALHWVSTVGLKGYENKYPHQLSGGMRQRVGLARALAADTDIILMDEAFSALDPLIRAEMQDQLLELQKTLHKTIVFITHDLDEAVRIGNRIAILKDGKLIQVGTPREILHSPADEYVDRFVQRRAAVV	PGPT0013630_2510	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
D1-35_03261	1524	hutH_1	COG2986	Histidine ammonia-lyase	ATGTCCCAGGCTGAAAAAATCATCATCGCCGACGCCCCGCTGCGCTGGCAGGACGTGGTCGCCGTCGCCCGCTTTGGCGCTGTGCTGGAGCTATCGGCCCAGGCCTGGGCGCGCATCGACAATGCCCAGGCCATCGTCCAGCGCATCGTCGAAAGCGGTGAACGGGCCTATGGCGTCAACACCGGGCTGGGCGCCTTGTGCAATGTCTCGCTCAAGGACGAACAGCTCAGCCAATTGTCGCGCAACACCTTGCTCAGCCATGCCTGTGGCGTCGGCCCGGCGCTGTCCGATGAGCAGACCCGGGCGATCCTCTGCGCGGCCATTCTCAACTACAGCCAAGGCAAATCCGGCATCCATCGCCGGGTGGTCGAGGCGTTGCTGGCGCTGCTCAATCGCGGCATCACGCCGCAAGTGCCGTCCCAGGGTTCGGTGGGTTACCTGACCCACATGGCCCACATCAGCATCGCGCTGCTGGGCGTCGGCGAGGTCAGCTATCGCGGGCAGGTCGTCTCGGCGCAGCAGGCGCTGGCCGCAGAAGGTCTGCAACCGGTGCAGTTGGGGGCCAAGGACGGTTTGTGCCTGGTCAACGGCACGCCGTGCATGACCGGCCTCAGTTGCCTGGCCCTGGCCGATGCGACGCGCCTGGTGCAGTGGGCCGATGTGATCGGTGCCATGAGCTTCGAGGCTCAGCGCGGGCAGATCGCCGCGTTCGATGCCGAGATCATTGCGCTCAAGCCGCACCCCGGCATGCAGCAGGTGGGCAGTAACTTGCGGGCGCTGCTCGATGGCAGCGAAGTCATCGCTTCGAGCCTGGGCATCCGCACCCAGGACGCCTTGAGCATCCGCTCGATTCCGCAAGTGCATGGCGCCGCTCGTGATCAGTTGGAGCATGCCCGGCAACAGATCGAAACCGAACTCAACGCCGCTACCGACAACCCGCTGCTGCTGGGTACGCCGGACAATTTCCGGGTCGTGTCCCAGGCCAACCCTCATGGCCAGTCGGTGGCGCTGGCGGCTGACCTGTTGGCGATCGCCATGGCGGAAATCGGCTCCATCGCCGAGCGTCGCCTCGACCGTTTGATCAACCCGCACGTCAGTGGGCTGCCGGCCTTCCTGGTGGCCAATCCCGGGGTGAATTCAGGGATGATGATCGTGCAATACGTCGCCGCGTCGCTGTGCGCGGAGAACAAGCAACTGGCGCAACCGGCGGTGCTCGACAATTTCGTCACCTCCGGGTTGCAGGAAGACCATTTGAGCATGGGCACCAACGCGGCCCTGAAGCTGCACCGGGCGCTGGAAAACTGTACGCAGATCCTCGCCATCGAATACCTGCTGGCGGCCCAGGCCTTTGAGTTTCTCAAGGCGCAGCGTTTTGGCGCTGGCACCAACACCGCCTGGAAGCTGCTGCGCGAGCGCGTCCCGGCCTACGACCAGGATCGCTGGCTGGCGCCGGACATCGCCAGCGCCGCCGGGCTGCTCAGGGATCCGAACGTGCTGCACCACGTTATACCGAATTTGAATTGA	MSQAEKIIIADAPLRWQDVVAVARFGAVLELSAQAWARIDNAQAIVQRIVESGERAYGVNTGLGALCNVSLKDEQLSQLSRNTLLSHACGVGPALSDEQTRAILCAAILNYSQGKSGIHRRVVEALLALLNRGITPQVPSQGSVGYLTHMAHISIALLGVGEVSYRGQVVSAQQALAAEGLQPVQLGAKDGLCLVNGTPCMTGLSCLALADATRLVQWADVIGAMSFEAQRGQIAAFDAEIIALKPHPGMQQVGSNLRALLDGSEVIASSLGIRTQDALSIRSIPQVHGAARDQLEHARQQIETELNAATDNPLLLGTPDNFRVVSQANPHGQSVALAADLLAIAMAEIGSIAERRLDRLINPHVSGLPAFLVANPGVNSGMMIVQYVAASLCAENKQLAQPAVLDNFVTSGLQEDHLSMGTNAALKLHRALENCTQILAIEYLLAAQAFEFLKAQRFGAGTNTAWKLLRERVPAYDQDRWLAPDIASAAGLLRDPNVLHHVIPNLN	PGPT0020230_2809	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020230-hutH-K01745	NA	NA
D1-35_03262	1533	hutH_2	COG2986	Histidine ammonia-lyase	ATGACTGCCTTGAACCTGATTCCCGGCCAATTGAGCCTGGCTCAATTGCGTGACATCTATCAGCAACCGGTGACGCTCAGCCTCGACGCCAGCGCATCGGCGCAGATCGAAGCCAGCGTTGCCTGCGTGGAGCAGATCCTCGCCGAGAATCGCACCGCCTACGGCATCAACACCGGTTTCGGCCTGTTGGCCTCGACCCGTATCGCCAGCGAAGACCTAGAAAACCTGCAGCGCTCCCTGGTGCTGTCGCATGCCGCTGGCGTCGGCGAGCCGATCAGTGATGCGCTGGTGCGGTTGATCATGGTGCTCAAGGTCAACAGCCTGAGCCGGGGTTTCTCCGGCATTCGTCGGCAGGTGATCGATGCGCTGATCGCACTGATCAACGCCGAGGTCTACCCGCACATTCCGCTGAAAGGTTCGGTGGGCGCATCCGGTGACCTGGCGCCTCTGGCCCACATGTCGCTGGTGCTGCTGGGCGAAGGCAAGGCCCGTTACAAAGGCGAATGGCTGCCGGCTGTCGACGCCCTGAAAGTCGCCGGCCTCGCGCCGCTGACCCTGGCGGCCAAGGAAGGTCTGGCGTTGCTCAATGGCACCCAGGTTTCCACCGCGTTTGCCTTGCGCGGCCTGTTCGAAGGCGAAGACCTGTTTGCCGCTGCCCTGGCCCTGGGCAGCCTCACGGTGGAAGCGGTGCTTGGCTCGCGCTCGCCATTCGATGCGCGCATCCATGCCGCTCGCGGCCAGAAAGGCCAGATCGATGCCGCCGCGGCCTATCGCGACCTGTTGGGCGAGCGCAGTGAAGTGTCGGATTCGCACCAGAACTGCGACAAGGTCCAGGACCCGTACTCCCTGCGTTGCCAGCCGCAAGTGATGGGCGCCTGCCTGACCCAGTTCCGCCAGGCCGCCGAGGTGCTGGTGATCGAAGCCAACGCGGTGTCGGATAACCCGCTGGTGTTCGCCGCCGAGGGCGACGTGATCTCCGGCGGTAACTTCCACGCCGAACCGGTGGCGATGGCCGCCGATAACATGGCCCTGGCGATCGCCGAGATTGGCTCCCTGAGCGAGCGGCGCATTTCGTTGATGATGGACAAGCACATGTCGCAGCTGCCGCCGTTCCTGGTGGCCAATGGCGGGGTCAACTCCGGCTTCATGATCGCCCAGGTTACCGCTGCGGCCTTGGCCAGTGAAAACAAGGCGCTGTCCCATCCTCATTCGGTGGACAGCCTGCCGACCTCGGCGAACCAGGAAGACCACGTCTCCATGGCCCCGGCCGCCGGCAAGCGCTTGTGGGAAATGGCCGAGAACACCCGCGGGATTCTCGCGGTGGAATGGCTGGCGGCGTGCCAGGGGCTGGATTTGCGCGGTGGTTTGAAAACCTCGGCCAAACTGGAACAGGCCCGGGCGTTGCTGCGTGCAGAGGTGCCTTTTTATGAGAAGGACCGCTTCTTTGCGCCGGACATCAACGCGGCCAGTGAGCTGTTGGCGAGTCGGTGTCTGAACGAGCTGGTCACGGCGCAGTTGTTGCCGAGCCTGTAA	MTALNLIPGQLSLAQLRDIYQQPVTLSLDASASAQIEASVACVEQILAENRTAYGINTGFGLLASTRIASEDLENLQRSLVLSHAAGVGEPISDALVRLIMVLKVNSLSRGFSGIRRQVIDALIALINAEVYPHIPLKGSVGASGDLAPLAHMSLVLLGEGKARYKGEWLPAVDALKVAGLAPLTLAAKEGLALLNGTQVSTAFALRGLFEGEDLFAAALALGSLTVEAVLGSRSPFDARIHAARGQKGQIDAAAAYRDLLGERSEVSDSHQNCDKVQDPYSLRCQPQVMGACLTQFRQAAEVLVIEANAVSDNPLVFAAEGDVISGGNFHAEPVAMAADNMALAIAEIGSLSERRISLMMDKHMSQLPPFLVANGGVNSGFMIAQVTAAALASENKALSHPHSVDSLPTSANQEDHVSMAPAAGKRLWEMAENTRGILAVEWLAACQGLDLRGGLKTSAKLEQARALLRAEVPFYEKDRFFAPDINAASELLASRCLNELVTAQLLPSL	PGPT0020230_2420	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020230-hutH-K01745	NA	NA
D1-35_03263	1203	hutI	COG1228	Imidazolonepropionase	ATGAAAACCCTCTGGCAAAACTGCCACGCCGCCACCATGGCCCAGGGCGTCTACTCGATTATCGAAGACGCCGCCATTGTCACCCAAGGCGAGCACATCCAATGGATCGGCCCCCGTGCCGAATTGCCGGTGGGCGACTACCCGGCAGTCAACGACCTGAAGGGCGCCTGGGTCACCCCGGGCCTGATCGATTGCCACACCCACGCGGTGTTCGGCGGCAACCGCAGCGGTGAATTCGAACAGCGCCTGCAAGGCGTCAGCTACGCCGACATCGCCGCGGCCGGCGGTGGCATCGCCAGCACCGTGCGCGCCACCCGCGCCGCCAGCGAGGACGAGCTGTTCGCCAGCGCCGCGAAACGCCTGAAAAGCCTGATGCGCGACGGCGTGACCACGGTGGAAGTCAAGTCCGGCTACGGCCTCGACCTGCCCAGCGAACGCAAGATGTTGCGGGTCATCCGCCGCCTCGGCGCCGAACTGCCGGTCAGTGTGCGCAGCACCTGCCTGGCGGCCCACGCCTTGCCGCCGGAATACAAGGACCGCGCCGACGACTACATCGAACACATCTGCGCCGAAATGCTCCCGGCGTTGGCCGCCGAGGGGCTGGTGGACGCGGTGGATGCGTTCTGCGAGTACCTGGCGTTTTCTCCAGAGCAGGTCGAACGGGTGTTCTTGACCGCGCAGCGATTGGACCTGCCGGTAAAGCTGCACGCCGAGCAACTGTCGTCGTTGCATGGTTCCAGCCTGGCGGCGCGGTATCAGGCGCTGTCGGCCGATCACCTGGAATTCATGACCGAGGATGACGCCAAGGCCATGGCCGAGTCGGGCACCGTAGCGGTGCTGCTGCCGGGGGCATTTTATTTCCTGCGAGAAACCCAGTTGCCGCCCATGGATGCCCTGCGCAAGCACGGCGTGAAAATCGCCGTCGCCAGTGACCTCAACCCCGGCACCTCGCCCGCGCTGTCGTTGCGCCTGATGTTGAACATGGCCTGCACCTGCCTGCGCCTGACCCCGGAAGAAGCACTGGCGGGAGCAACGATTCATGCCGCCCAGGCCCTGGGCATGGCTCAGACCCACGGCTCGCTGGAAGCCGGCAAGGTGGCGGATTTTGTCGCCTGGCACATCGATCGCCCGGCCGATCTGTCGTACTGGCTCGGCGGCGATCTGGAAAAACGCGTCGTGCGCCACGGCGTGGAAATCGATTGA	MKTLWQNCHAATMAQGVYSIIEDAAIVTQGEHIQWIGPRAELPVGDYPAVNDLKGAWVTPGLIDCHTHAVFGGNRSGEFEQRLQGVSYADIAAAGGGIASTVRATRAASEDELFASAAKRLKSLMRDGVTTVEVKSGYGLDLPSERKMLRVIRRLGAELPVSVRSTCLAAHALPPEYKDRADDYIEHICAEMLPALAAEGLVDAVDAFCEYLAFSPEQVERVFLTAQRLDLPVKLHAEQLSSLHGSSLAARYQALSADHLEFMTEDDAKAMAESGTVAVLLPGAFYFLRETQLPPMDALRKHGVKIAVASDLNPGTSPALSLRLMLNMACTCLRLTPEEALAGATIHAAQALGMAQTHGSLEAGKVADFVAWHIDRPADLSYWLGGDLEKRVVRHGVEID	PGPT0020235_2286	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020235-hutI-K01468	NA	NA
D1-35_03264	804			hypothetical protein	GTGGAGAAGGTCCTGAATTTCAAGCAAGGGCGCGTGCCGCTGTTGATCAGCATGCCTCACGCCGGCCTGCGCCTGACGCCGGCGGTAGAGGCCGGGTTGATCCCCGAGGCCCAGAGCCTGCCGGACACCGATTGGCATATCCCCCGGCTGTATGATTTCGCCGAAGAGCTGGGCGCCAGCACCCTGGCGGCCGAATATTCCCGGTTCGTCGTCGACCTGAACCGTCCTTCTGATGACAAACCGATGTACGTCGGAGCCACCACTGGCCTGTACCCGGCGACGCTGTTCGATGGCGTGCCGTTGTTTCGCGAAGGCCTGGCGCCGTCCGCCGAGGAGCGGGCCACGTACCTGCAGCAGATCTGGATGCCCTACCATCAGGCCCTGCAACAGGAACTGGCGCGGCTCAAGGCCGAGTTCGGCTATGCCTTGCTGTTCGATGCCCACTCGATCCGTTCGGTGATCCCGCACCTGTTCGACGGCAAGCTGCCGGACTTCAATCTCGGCACGTTCAACGGCGCCAGTTGCGACCCGGCCCTGGCCAGCCAGCTCGAAGCCATTTGCGCCCGCCACGACCAGTTCACCCATGTGCTCAACGGACGCTTCAAGGGCGGACACATCACCCGGCACTACGGCAACCCGGCCGAGGACATTCACGCGGTGCAACTGGAACTGTGCCAGAGCACCTACATGGAAGAGTTCGAGCCGTTCAACTATCGCCCGGACCTGGCGGCGCCGACCCAGGTGGTACTCAGGGAGTTGCTGGAAGGTTTCCTGGCGTGGGGGCGGCAGGCTTACCAGGAATAG	MEKVLNFKQGRVPLLISMPHAGLRLTPAVEAGLIPEAQSLPDTDWHIPRLYDFAEELGASTLAAEYSRFVVDLNRPSDDKPMYVGATTGLYPATLFDGVPLFREGLAPSAEERATYLQQIWMPYHQALQQELARLKAEFGYALLFDAHSIRSVIPHLFDGKLPDFNLGTFNGASCDPALASQLEAICARHDQFTHVLNGRFKGGHITRHYGNPAEDIHAVQLELCQSTYMEEFEPFNYRPDLAAPTQVVLRELLEGFLAWGRQAYQE				NA	NA	NA	NA	NA
D1-35_03265	948			hypothetical protein	ATGAAAAGACCGTTCAAACGCTGTCTGTCGATCCTCTGCGGTACCGTCCTGTTGAGCTCCGGCGCGATGGCCGTCGAGGCAACGTCCTGCCAGACCGTGCGCATGGGCGTGGTCAACTGGACCGACGTGATCGCCACCAGTGGCATGGCTGACGTGCTGCTCACTGGCCTGGGCTACGAAAGCAAGCAGACCAGCGCCGTGCAGCAGATCATCTTCGCCGGCATCCGCGACAAGCGGCTCGACATTTTCCTCGGCTACTGGAAACCGGCGATGGACAAGAACATCGCCCCGTTCCTGGCGGCCAATCAAGTGAAAGTACTGGACAAACCAAGCCTGGCCGACGCCCAGGCGACCCTGGCCGTTCCCGACTACGTGGCGGCGGCGGGGCTCAAGACCTTCGCCGACATCGCCCGGTTCAAGGACCAGTTGGGGGCGAAAATCTACGGCATCGAGCCGGGCAGCGGCGCCAATACCACCATCAAGACCATGATCGAGACCAACCACTTCGGTCTCAAGGATTTCAAGCTGATCGAGTCCGGCGAGGCCGGGATGCTGGCGGCGGTGCAGCGGGCAGTCAATCGCAAGGAATTCGTGGTCTTTGTCGGCTGGACCCCACACCCGATGAACATCAACATGAACATCGCTTACCTGACCGGCAGCGAAGATGTCTATGGCCCCAACGAAGGCGCCGCGACGGTCTCCATCGTCACCGCGCCGGACTACGCACAGCGGTGTCCGAACGTGCAGCGGCTGCTGGAGAACCTCACGTTTACCGCCGCCCAGGAGAGCCAGTTGATGGTGCCGATCATGGAACGCAAGATGCCCCAGGACGTCGCGCGGCAATGGTTGCGCGAGCACCCGGAGGACCTGCAGCGCTGGCTCGCCGGCGTGACCAGCTTCGATGGCAAGGATGGCATCGCGGCGGTGCAGGCCAGTCTCAAGAACTGA	MKRPFKRCLSILCGTVLLSSGAMAVEATSCQTVRMGVVNWTDVIATSGMADVLLTGLGYESKQTSAVQQIIFAGIRDKRLDIFLGYWKPAMDKNIAPFLAANQVKVLDKPSLADAQATLAVPDYVAAAGLKTFADIARFKDQLGAKIYGIEPGSGANTTIKTMIETNHFGLKDFKLIESGEAGMLAAVQRAVNRKEFVVFVGWTPHPMNINMNIAYLTGSEDVYGPNEGAATVSIVTAPDYAQRCPNVQRLLENLTFTAAQESQLMVPIMERKMPQDVARQWLREHPEDLQRWLAGVTSFDGKDGIAAVQASLKN	PGPT0013640_2293	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
D1-35_03266	912	nlhH_2	COG0657	Carboxylesterase NlhH	ATGGCCTACCCACTCTCCCAGGCAATGTCCGCCTTCATCGACAAGACCCTGAGCTTCACCAGCCCGGATGACAGCCTCGCCGGCTCGCGCCAGGCTTACAGCCGGATGTGCCGGGCATTCACCCCGCCGCGCCCATCAACGCTTGCGGTCGAGGATCTGCACCTGGCTGGCGTGGCTGTCCGGGCCTATCACCTGCGTACTTCGCCGCCGCTCGCCGGGTGGCCGTGCATTCTTTACCTGCACGGTGGCGGTTGGGTGGTAGGGGACCTGGATTCCCATGATTTCATTTGCATGGAACTGGCCGCGGCCCTCGGCGTGCTGGTGGTGGCGGTGGATTACCGGCTTGCCCCCGAGCATCCGTTTCCCGCCGGGTTCGAAGATTGCCTTACTGTGTGGCGCCACCTGGGGGACCTGCCGTTTGCCATCAACCCTCGGCGCCGGGCCGTGGTGGGCGACAGCGCCGGCGGCAACCTCGCCGCTGCGGTGTGCCTGGCCTTGCGCGATGCAGGGCAGCCTCTGCCCCGGTCCCAGGTGCTGATCTACCCGGCGCTTGGTGGTCCCGAGCATTTACCGTCGCGCACCGAATGTTTCGACGCGCCGCTCTTGAGCCGCTGTGACCTGCAACGCTATGACGCGTGGTACCTGCGTGGCACCCAGCCCTCAGCCTACGCCGCGCCATTGCTCGCCGATGATTTCAGCGGCCTGCCCGCGACGCTGGTTGCCGTGGCGCAATGGGATCCGCTGCGCGACGACGGCGTCCTCTATAACGAGCGCCTGAGCGCCGCAGGGGTAGCCTCTGAGTTGTACAACGGCGAGGGTCTGGTCCACGGTTGCCTGCGCGCGCGGAGCCAGGTGCCGGAGGTCGATCAGCTATATCGCAGGCTACTGGCCTACCTGGCCGACACGCTTTGA	MAYPLSQAMSAFIDKTLSFTSPDDSLAGSRQAYSRMCRAFTPPRPSTLAVEDLHLAGVAVRAYHLRTSPPLAGWPCILYLHGGGWVVGDLDSHDFICMELAAALGVLVVAVDYRLAPEHPFPAGFEDCLTVWRHLGDLPFAINPRRRAVVGDSAGGNLAAAVCLALRDAGQPLPRSQVLIYPALGGPEHLPSRTECFDAPLLSRCDLQRYDAWYLRGTQPSAYAAPLLADDFSGLPATLVAVAQWDPLRDDGVLYNERLSAAGVASELYNGEGLVHGCLRARSQVPEVDQLYRRLLAYLADTL				NA	NA	NA	NA	NA
D1-35_03267	972	pip_2		Proline iminopeptidase	ATGCAGACTTTGTACCCGCAGATCAAACCCCATGCCCGGCACGATCTGGCTGTCGATGACACCCACACGCTCTATGTCGATGAAAGCGGCTCGCCGGAAGGCCTGCCTGTCGTGTTCATCCACGGTGGCCCGGGGGCGGGTTGCGATGCGCAAAGCCGTCGCTACTTCGATCCGAATCTGTACCGCATCGTTACGTTCGACCAGCGCGGCTGCGGCCGTTCCACGCCTCACGCGAGTCTGGAAAACAACACCACCTGGGACCTCGTCGAAGACCTGGAGCGCATCCGCAAGCACCTGGGCATCGAAAAGTGGGTGCTGTTCGGCGGCTCCTGGGGCTCGACCCTGGCCCTGGCCTACGCCCAGACTCATCCGGAACGGGTACATGGTCTGATCTTGCGCGGGATCTTTCTCTGCCGTCCGCAGGAAATCGAGTGGTTCTACCAGGCCGGGGCCAGTCGTCTGTTTCCCGACTACTGGCAGGACTACATCGCACCGATCCCCCTGGATGAACGCGATGACCTGCTCAGCGCTTTCCACAAACGCTTGATCGGCAACGACCAGATCGCCCAGATGCACGCGGCCAAGGCCTGGTCCACCTGGGAGGGGCGCACCGCGACCCTGCGCCCGAACCCGTTGGTGGTCGATCGTTTCTCCGAGCCGCAGCGAGCGCTGTCGATCGCCCGGATCGAATGCCACTACTTCACCAACAACGCCTTTCTCGAACCCAATCAGTTGATTCGCGACATGGGCAAGATCGCCCATTTGCCGGGCGTCATCGTGCATGGTCGCTACGACGTGATCTGCCCGTTGGACAATGCCTGGGAGCTGCACCAGAACTGGCCCAACAGCGAGCTGCAGGTGATCCGTGACGCCGGCCATGCCGCTTCGGAACCAGGGATTACCGACGCGTTGGTGCGCGCCGCCGCGCAAATGGCCCGCCGCCTGCTCGACCTGCCCCCCGAAGAAGCATGA	MQTLYPQIKPHARHDLAVDDTHTLYVDESGSPEGLPVVFIHGGPGAGCDAQSRRYFDPNLYRIVTFDQRGCGRSTPHASLENNTTWDLVEDLERIRKHLGIEKWVLFGGSWGSTLALAYAQTHPERVHGLILRGIFLCRPQEIEWFYQAGASRLFPDYWQDYIAPIPLDERDDLLSAFHKRLIGNDQIAQMHAAKAWSTWEGRTATLRPNPLVVDRFSEPQRALSIARIECHYFTNNAFLEPNQLIRDMGKIAHLPGVIVHGRYDVICPLDNAWELHQNWPNSELQVIRDAGHAASEPGITDALVRAAAQMARRLLDLPPEEA				NA	NA	NA	NA	NA
D1-35_03268	438	dtd	COG1490	D-aminoacyl-tRNA deacylase	ATGAAGGGGTTGCTGCAGCGGGTTCGCGGCGCCCGGGTCGAAGTCGCGGGCGAGATCGTCGGTGCGGTGGACCATGGCTTGCTGGTGCTGGTAGCCGTCGAGCCTGGGGATACCCGGGCCAGTGCCGACAAACTCCTGCACAAGCTGCTTAACTATCGGGTGTTCAGCGACACCGACGGCAAGATGAACCTGTCCCTGGCGGACGTCGCGGGTGGTTTGCTGCTGGTCTCGCAGTTCACCTTGGCGGCGGACACCAAAAGCGGTCTGCGCCCGAGCTTTTCAACCGCCGCGCCGCCCGCCCTTGGCGAAGAATTGTTCAACTATCTCCTGACCCAGGCGAAACAGGTGCATGGCACCGTGGCATCAGGTAGATTCGGCGCCGACATGCAAGTGCATCTGGTCAATGATGGCCCGGTAACCTTTCTGTTACAGGTCTGA	MKGLLQRVRGARVEVAGEIVGAVDHGLLVLVAVEPGDTRASADKLLHKLLNYRVFSDTDGKMNLSLADVAGGLLLVSQFTLAADTKSGLRPSFSTAAPPALGEELFNYLLTQAKQVHGTVASGRFGADMQVHLVNDGPVTFLLQV				NA	NA	NA	NA	NA
D1-35_03269	1773	mdoG	COG3131	Glucans biosynthesis protein G	GTGATTGTTAGTCCCTGTAATGCACCAAAAATGACTGCCAAACGGTTTAGAAACGCTCTGGTAGCGGGCTCGGCCCTGCTGTGCCTGTTTGGCGCGGGCCAACTGTGGGCATTCAGCCTGGATGATGTATCGGCGAAGGCACAAGAACTGGCCGGGCAGAAATTCGAAGCCCCGCGCAGCAACCTGCCGAACGAATTCCGCGAAATGAAATTCGCCGATTATCAGAAAATCCGTTTCCGCACCGAAAAAGCTGAATGGGCCGACCAGAAGACGCCGTTCCGGCTGTCCTTCTATCACCAGGGCATGCATTTCGACACACCGGTGAAGATCAACGAAATCACCGCGACCACCGTCGATGAGATCAAATACGACCCGACACGCTTCGATTTCGGTGATGTGAAGTTCGATCCGAAGGCCACCGAACAATTGGGCTACGCGGGTTTCCGCGTGTTGTACCCGATCAACAAAGCTGACAAGCAAGACGAAATCATGACCATGCTCGGCGCCAGCTACTTCCGCGTCATCGGCAAGGGCCAGGTTTATGGCTTGTCCGCTCGCGGCATGGCGATCGATACCGCATTGCCATCGGGTGAAGAGTTCCCGCGTTTTCGTGAGTTCTGGATCCAGCGTCCGAAGCCGACCGACAAGCACCTGGTGATCTTCGCCTTGCTCGATTCGCCACGGGCTACCGGCGCTTATCGCCTGACCGTGCGCCCGGGCACCGACACCGTCGTTGACGTCAAATCGCGTGTTTTCCTGCGTGATCGCGTCAACAAGCTGGGCATCGCCCCGTTGACCAGCATGTTCCTGTTCGGCGCGAATCAGCCGTCCAAGGTCCTGAACTACCGTCGCGAGCTCCACGACTCCAGCGGCCTGTCCATCCATGCCGGCAACGGCGAGTGGATCTGGCGTCCGCTGAACAACCCGAAACACCTGGCGGTGAGCAACTTCTCGGTAGAAAACCCGCGTGGTTTCGGCCTGCTGCAACGTGGTCGTGACTTCAGCCACTACGAAGACCTGGACGACCGCTACGAAAAACGTCCAAGCGCCTGGATCGAACCGAAAGGCGACTGGGGCAAGGGTACCGTAGACCTCGTCGAGATCCCGACCGCCGACGAAACCAACGACAACATCGTTGCGTTCTGGAGCCCGGAAAAACTGCCTGAGCCAGGCCAGCCACTGGACTTCGCCTATCGCCTGCACTGGACACTTGATGAAGCCAGCCTGCACTCGCCAGACAGCGCCTGGGTCAAGCAGACCCTGCGTTCCACGGGTGACGTGAAGCAGTCCAACCTGATTCGCCAGCCGGATGGCAGCGTGGCCTACCTGGTCGATTTCGAAGGCCCGTCCCTGCAAGCCCTGCCTGAAGACGCCGAGGTGCGTAGCCAGGTGAGCGTGGGTGACAACGGCGAAATCGTCGAGAACAGCGTGCGCTACAACCCTGAAACCAAGGGCTGGCGCCTGACGTTGCGCCTGAAGATCAAGGATCCGGGCAAGGCGACCGAGATGCGTGCCGCTTTGGTCCGGCCGCTGGTTCCTGTAGAGCTGCCGGCTACCTCGCATTCCGTGACCACGCTGGCCAAGGCCGACAAGGTCGCCAAGCAGCAGAGCGAGAAAGAGAAAGCCAACGAACAGGCCGGCGAGCAGCAGGAAGCCAAGGCCGTCAAGGCGTCCACCGCCGCCGCCGAGCCGACCCCAACCCCGCAGGAACCGGAGCAGACTGAGCAAGTCCTGACCGAGACCTGGAGCTATCAGTTGCCTGCCGATGAGTAA	MIVSPCNAPKMTAKRFRNALVAGSALLCLFGAGQLWAFSLDDVSAKAQELAGQKFEAPRSNLPNEFREMKFADYQKIRFRTEKAEWADQKTPFRLSFYHQGMHFDTPVKINEITATTVDEIKYDPTRFDFGDVKFDPKATEQLGYAGFRVLYPINKADKQDEIMTMLGASYFRVIGKGQVYGLSARGMAIDTALPSGEEFPRFREFWIQRPKPTDKHLVIFALLDSPRATGAYRLTVRPGTDTVVDVKSRVFLRDRVNKLGIAPLTSMFLFGANQPSKVLNYRRELHDSSGLSIHAGNGEWIWRPLNNPKHLAVSNFSVENPRGFGLLQRGRDFSHYEDLDDRYEKRPSAWIEPKGDWGKGTVDLVEIPTADETNDNIVAFWSPEKLPEPGQPLDFAYRLHWTLDEASLHSPDSAWVKQTLRSTGDVKQSNLIRQPDGSVAYLVDFEGPSLQALPEDAEVRSQVSVGDNGEIVENSVRYNPETKGWRLTLRLKIKDPGKATEMRAALVRPLVPVELPATSHSVTTLAKADKVAKQQSEKEKANEQAGEQQEAKAVKASTAAAEPTPTPQEPEQTEQVLTETWSYQLPADE	PGPT0013325_41	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0013325-mdoG-K03670	NA	NA
D1-35_03270	2571	opgH	COG2943	Glucans biosynthesis glucosyltransferase H	ATGAGTAATACTTCCGTACAGCCAGTGTCTCTGAGCGAGTATCTGGCCCATTTGCCGATGACCGACGAGCAGCGCGCCGAACTGGCGGGCTGCAAGTCCTTCAGCGAATTGCATGAACGCCTGGCTTCGTCGACGTTCGATGCGCCCGACGAGGCTGCCCAAGCCTCGGTGGGCCGTCGCCTGGCGCTCAGCACTGCCGAGGAACTCGAGGACGCCGAAATGCTGGCCCTCGATTCCAGTGGCCGTGTATGCCTGAAGGCTACTCCGCCGATTCGCCGGACCAAGGTCGTGCCGGAGCCATGGCGCACCAATATCCTGGTACGCGCCTGGCGCCGCCTGACCGGTCGCACCAACCCGCCGAAGCCGCCCAAGGACGAGCGCGTCTTGCCGCATGCGCGCTGGCGTACCGTGGGTTCGATCCGCCGCTACATCCTGTTGATCCTGATGCTCGGCCAGACCATCGTGGCCGGCTGGTACATGAAAGGAATCATGCCGTACCAGGGCTGGTCGCTGGTGGACCTGGATGAAGTGCTGCATCAGCCGCTGCTGCAGACGGCCACGCAAGTGCTGCCATACGCGCTGCAAACCAGCATCCTGATCCTGTTCGGGATCCTGTTCTGCTGGGTCTCGGCCGGTTTCTGGACCGCGCTGATGGGATTCCTCGAACTGCTCACCGGGCATGACAAGTACCGCATTTCCGGTGCCAGTGCCGGTAACGAGCCGATTCCCAAGGATGCCCGCACCGCCCTGGTGATGCCGATCTGTAACGAGGACGTGCCACGGGTATTCGCCGGTCTGCGCGCCACGTTCGAGTCGGTTGCGGCCACGGGTGACCTGGACCGCTTCGACTTCTTCGTGCTCAGCGACAGTAACGAAACCGACATCTGCGTCGCCGAGCAGCAGGCCTGGCTGGATGTCTGCCGTGAAACCGGGGGCTTTGGCAAGATCTTCTATCGCCGCCGCCGTCGCCGCGTGAAACGCAAGAGCGGCAACCTCGACGACTTCTGCCGTCGCTGGGGCAGCGACTACAAGTACATGGTCGTGCTCGACGCCGACAGCGTCATGAGCGGCGAATGCCTGACCAGCCTGGTGCGCCTGATGGAAGCCACGCCGGACGCTGGCATCATCCAGACCGCGCCACGTGCCTCGGGCATGGACACGCTGTATGCGCGCATGCAGCAGTTCGCCACACGGGTCTACGGTCCGCTGTTCACCGCCGGCCTGCACTTCTGGCAGTTGGGCGAGTCGCACTACTGGGGCCACAACGCGATCATCCGCATGAAGCCGTTTATCGACCACTGCGCCCTGGCGCCGTTGCCCGGTAAAGGTGCCTTCTCCGGTGCGATCCTCTCCCACGACTTTGTCGAAGCCGCGCTGATGCGCCGTGCCGGCTGGGGCGTGTGGATTGCCTATGACCTGCCGGGCAGCTACGAAGAGCTGCCACCGAACCTGCTGGACGAACTCAAGCGTGACCGTCGCTGGTGCCACGGCAACCTGATGAACTTCCGGCTGTTCCTGGTCAAGGGCATGCACCCGGTGCACCGTGCGGTGTTCCTGACCGGCGTGATGTCCTACCTGTCGGCACCGCTGTGGTTCTTCTTCCTGGTGCTGTCCACCGCGCTGCTGGCGGTGAACACGCTGATGGAGCCGCAGTACTTCCTCGAGCCGCGCCAGTTGTATCCGCTGTGGCCACAATGGCATCCGGAAAAAGCCATCGCGCTGTTCTCGACCACCATCGTGCTGCTGTTCCTGCCCAAGCTATTGAGCATCGTGCTGATCTGGGCGAAAGGCGCGAAGGAGTTCGGCGGCAAGTTCAAGGTCACGATGTCGATGCTGCTGGAAATGCTGTTCTCCATGCTGCTGGCGCCGGTGCGCATGATCTTCCACACCCGTTTCGTGCTGGCCGCCTTCCTGGGCTGGGCCGCGACCTGGAACTCGCCCAAGCGTGACGATGACTCCACGCCTTGGAGCGAAGCCATCAAGCGCCACGGCCCGCAGACCCTGCTGGGCTTCTTCTGGGCCTTGCTGGTGATCTGGCTGAACCCGAGCTTCCTGTGGTGGCTCGTGCCGATTGTCGGCTCGCTGATGTTGTCGATCCCGGTTTCGGTGATCTCCAGCCGCGTGGGCCTGGGCTTGAAGTCCCGTGATGAAAGCCTGTTCCTGATTCCCGAGGAATACGCGCCGCCACAGGAACTGCTGTCGACTGACCAGTACACCCATGAAAACCGTTGGCACGCGCTGAACGACGGCTTCATCCGGGCGGTGGTCGATCCGCGACAGAACGCCCTGGCGTACGCATTGGCTACCTCCCGTCACGGCAAGGCCGAGCCGATCGAATGGCTGCGCGTCGAGCGCGTCCGTCATGCCTTGAAGGTAGGCCCGGCCGGGCTCAACAACGCCGAGCGATTGGCGCTGCTGAGCGATCCGGTGGCGCTGTCCCGTCTGCATGAGCAGGTCTGGAGCGAGGCGCATCCCGAGTGGCTGGCGGCGTGGCGTGAATCGGTCAAGGCCGATCCGCATGCACCGTTGCTGCCGCTTCAACCGGTGGGCGCACAGCCTCAACTGGCCTGA	MSNTSVQPVSLSEYLAHLPMTDEQRAELAGCKSFSELHERLASSTFDAPDEAAQASVGRRLALSTAEELEDAEMLALDSSGRVCLKATPPIRRTKVVPEPWRTNILVRAWRRLTGRTNPPKPPKDERVLPHARWRTVGSIRRYILLILMLGQTIVAGWYMKGIMPYQGWSLVDLDEVLHQPLLQTATQVLPYALQTSILILFGILFCWVSAGFWTALMGFLELLTGHDKYRISGASAGNEPIPKDARTALVMPICNEDVPRVFAGLRATFESVAATGDLDRFDFFVLSDSNETDICVAEQQAWLDVCRETGGFGKIFYRRRRRRVKRKSGNLDDFCRRWGSDYKYMVVLDADSVMSGECLTSLVRLMEATPDAGIIQTAPRASGMDTLYARMQQFATRVYGPLFTAGLHFWQLGESHYWGHNAIIRMKPFIDHCALAPLPGKGAFSGAILSHDFVEAALMRRAGWGVWIAYDLPGSYEELPPNLLDELKRDRRWCHGNLMNFRLFLVKGMHPVHRAVFLTGVMSYLSAPLWFFFLVLSTALLAVNTLMEPQYFLEPRQLYPLWPQWHPEKAIALFSTTIVLLFLPKLLSIVLIWAKGAKEFGGKFKVTMSMLLEMLFSMLLAPVRMIFHTRFVLAAFLGWAATWNSPKRDDDSTPWSEAIKRHGPQTLLGFFWALLVIWLNPSFLWWLVPIVGSLMLSIPVSVISSRVGLGLKSRDESLFLIPEEYAPPQELLSTDQYTHENRWHALNDGFIRAVVDPRQNALAYALATSRHGKAEPIEWLRVERVRHALKVGPAGLNNAERLALLSDPVALSRLHEQVWSEAHPEWLAAWRESVKADPHAPLLPLQPVGAQPQLA	PGPT0013320_133	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013320-mdoH-K03669	NA	NA
D1-35_03273	168			hypothetical protein	ATGCCGAGCCTAGGCGAGGCACCGAGTGGTGGGGCAAAAGCGTTTTGCTTACTTTTGCGCTTCTCAAAAGTGAGCCGCCGTAAGGGCGGAACCCTAAGTGGCCGTTACCGCAGCAACGGATATATCCACAAATCCGAAGTGAGCTGCCCGAAGGGCATCAAACCCTGA	MPSLGEAPSGGAKAFCLLLRFSKVSRRKGGTLSGRYRSNGYIHKSEVSCPKGIKP				NA	NA	NA	NA	NA
D1-35_03274	1917	mcpQ_2	COG0840	Methyl-accepting chemotaxis protein McpQ	ATGTTCCGGTGGCTTGCCCAGGGTCTGGGAAACGTAAGCGTTAATCGCAAACTTGGCTTCGGCTTCGGCCTGGTGCTGTTCCTCACCCTGATGATCGCGTTCACCGGCTGGTCCGGCCTGGGCAATGTCATCAGCCGGGGCGACAAGCTGGGGTTCATTGCCAGCCTGAACGACCTGAGCAAGGACCTTGACCTCGCCAGCATCGACTACAACACCACGCGCGGCGAAAAAGGCCCGCAACAGGTCAACGACCTGCTCGGCAAGCTCGAGGCCGGGTTGAAGACAGCTCGCGAGATGATCGAACAGCCTGACGACGTGGCGTTGATCGACAAGCAACTGGCCGCCGTTGCCGAATACAAAAGCGCCTTCGCCCAGATGACCAGCGCCACCGTCAGCCGCGAAGATGCCCGCGGCAAGCTGGGCGCCAGTGCCGATAGCACCGTAGCCCGCGTCGCCGAAGTGGAGAAAGCGCTGCTGCAGGGCGGCGACATCACCCAGTTCAACAGCGTGGTGACCTTAAGCAAGGCGATCCAACAGGCACGCTATCAGGTTCGCGGTTACACCTACAGCGGCAAAAGCGAGGCCCAACAGCCGGCCATCGATGCAATTACCGATGTCCTGAAACTGCTGGCCCGCTTGCCAGCCCAGTTGCCTGAGGAACACGCCGACAGGCTCCAGCAGGCCAGCGACTCGATGAACATCTACCGGGCGGCAGTCAGCCAGTTCCGTGACTCCCAACTTGATAACGGTGCCGCTCTGCAGCGTATGAGCGAGCAAGGCCAGGTCCTGATCGACTCCAGCCAGAAGCTCACCGCGTCCCAGACGGCCGTGCGCGACCACGACACCGCCCAGGCCAAGGCCGTTCTGATCGCAGCCGCCGCGCTGGCGCTGCTGTTCGGTGTGATCGCCGCCTTGCTCATCACTCGGCAGATCGTCGGCCCGCTGGATGAGACCCTGAAGGTGGCAGAACGCGTCGCCGCGGGCGATCTTACCCACAACCTGACGTCCGAACGCCGCGACGAACTCGGTCAATTGCAACGCGCCATGCAACGCATGACCGTTGGCTTGCGGCAGTTGATCGGCGGCATCGGTGAAGGCGTTACCCAGATCGCCAGCGCTGCTGAACAGCTCTCGGCCGTGACCGAGCAGACCAGCGCCGGGGTCAATAGCCAAAAGATCGAGACCGACCAGGTCGCCACTGCCATGCACGAAATGACCGCCACCGTGCAGGAAGTGGCGCGCAACGCCGAGGAAGCCTCCGAGGCCGCCGTCGCCGCCGATCAACAGGCCCGCGAAGGTGACAAGGTCGTCGGCGAAGCCATCGCCCAGATCGAGCGCCTGGCGCGAGAAGTGGGCAACTCTACCGCCGCCATGGGCGATCTGAAGCGCGAAAGCGACAAGATCGGCAGCGTCCTGGACGTGATCAAGTCGGTGGCCCAGCAAACCAACCTGCTGGCCCTCAACGCGGCCATCGAGGCAGCCCGAGCCGGTGAAGCCGGGCGCGGCTTCGCCGTGGTGGCCGACGAAGTTCGCAGCCTGGCCCAGCGCACCCAGAAGTCCACCGAGGAAATCGAAGAACTGATCGTCGGCCTGCAAGCGGGTACCGAACAGGTCGCGACCATCATGGACAACAGCCGCAGCCTGACCGACAGCAGCGTCGAACTGACCCGCCGCGCCGGTGGCTCGCTGGAAAACATCACTCGCACGGTGTCGGCGATCCAGTCGATGAACCAGCAGATCGCAGCGGCGGCAGAGCAGCAGAGTGCGGTGGCCGAGGAGATCAACCGTAGCGTGCTGAATGTGCGGGATGTGTCAGAGCAGACGGCGTCGTCCAGTGAGGAAACGGCTGCCTCCAGTGCCGAACTGGCGCGGTTGGGGGTTCATTTGCAGACATTGGTGGGGCGGTTCAGGGTTTGA	MFRWLAQGLGNVSVNRKLGFGFGLVLFLTLMIAFTGWSGLGNVISRGDKLGFIASLNDLSKDLDLASIDYNTTRGEKGPQQVNDLLGKLEAGLKTAREMIEQPDDVALIDKQLAAVAEYKSAFAQMTSATVSREDARGKLGASADSTVARVAEVEKALLQGGDITQFNSVVTLSKAIQQARYQVRGYTYSGKSEAQQPAIDAITDVLKLLARLPAQLPEEHADRLQQASDSMNIYRAAVSQFRDSQLDNGAALQRMSEQGQVLIDSSQKLTASQTAVRDHDTAQAKAVLIAAAALALLFGVIAALLITRQIVGPLDETLKVAERVAAGDLTHNLTSERRDELGQLQRAMQRMTVGLRQLIGGIGEGVTQIASAAEQLSAVTEQTSAGVNSQKIETDQVATAMHEMTATVQEVARNAEEASEAAVAADQQAREGDKVVGEAIAQIERLAREVGNSTAAMGDLKRESDKIGSVLDVIKSVAQQTNLLALNAAIEAARAGEAGRGFAVVADEVRSLAQRTQKSTEEIEELIVGLQAGTEQVATIMDNSRSLTDSSVELTRRAGGSLENITRTVSAIQSMNQQIAAAAEQQSAVAEEINRSVLNVRDVSEQTASSSEETAASSAELARLGVHLQTLVGRFRV	PGPT0015710_10315	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
D1-35_03275	708			hypothetical protein	GTGAACCTGCTGCTGCTTGAAGAGGCCGATTTCATCGAGCCGGACCGCGTCATCCTGAGCGATCGGCGCCTGACACACATGCAGGAAGTCCACCGCAGCGCCGTCGGCGACAGCCTGCGGGTCGGCCGTATCGGTGGCCTGATGGGCACGGCCCAGGTGTTGCGCCTGGAGGCTCGCGAAGCCGAACTGCAAGTGACCCTCGACCAGCCGCCGCCGGCCAAGTTGCCGCTGACCCTGGTGCTGGCATTGCCGCGTCCGAAGATGCTCCGGCGGGTATTCCAGACCGTCGCCACCATGGGCGTGCCGCGCGTGGTGCTGGTGAACAGTTATCGTGTGGAAAAGAGCTTTTGGCAGACGCCCTTCCTGGAGCCGGAGGCGATTCGCGAGCAACTTATTCTTGGTCTGGAGCAGGCTCGGGACAGCGTGCTGCCGGAAATCATCATTGAAAAACGCTTCAAGCCCTTCGTCGAAGATCGCCTGCCCGCCATCGTTGAAGGCACCCTCGGGCTGGTCGGCCACCCTGGCAACCACCCGCCCTGCCCGCGCGCGCTGACTGAACCGGTGACCTTGGCCATCGGCCCGGAAGGCGGCTGGATCCCCTACGAAATCGACCTGCTGGGCAAGGCCGGCCTGCAACCGGTGCAGCTCGGCGAACGGATCCTGCGGGTCGAGACCGCCGTCACGGCCCTGCTTGCACGGCTGTTCTAA	MNLLLLEEADFIEPDRVILSDRRLTHMQEVHRSAVGDSLRVGRIGGLMGTAQVLRLEAREAELQVTLDQPPPAKLPLTLVLALPRPKMLRRVFQTVATMGVPRVVLVNSYRVEKSFWQTPFLEPEAIREQLILGLEQARDSVLPEIIIEKRFKPFVEDRLPAIVEGTLGLVGHPGNHPPCPRALTEPVTLAIGPEGGWIPYEIDLLGKAGLQPVQLGERILRVETAVTALLARLF				NA	NA	NA	NA	NA
D1-35_03276	798	tatC	COG0805	Sec-independent protein translocase protein TatC	ATGAGCGATATCCCTGAAAACGACCAGCCGATGCCGCTGGTATCGCACCTCACCGAGTTGCGCACCCGCCTGCTGCGCTGCGTCGCGGCGGTGTTCATCATCTTTGCCGGGCTGTTTGCCTTCACCCAGCAGATCTACACCTTCGTCTCCACGCCGCTGCGCGAGTACCTGCCGGTAGGCGCAACGATGATCGCCACCGATGTCTCGTCGCCGTTCCTGACGCCGTTGAAACTGACGATGATGGTCTCGCTGTTCCTGGCGATCCCGGTGATCCTGCATCAGATCTGGGGCTTCATCGCTCCGGGCCTGTACAAGCATGAAAAACGCATCGCCGTGCCGCTGCTGGTGTCGAGCATCCTGCTGTTCTACACCGGCATGGCCTTCGCCTACTTCTTCGTATTCCCGCTGATCTTCAAGTTCTTCGCCGCCGCCACCCCGGCAGGCGTGGAAATGATGACCGACATTACCAGCTACCTGGATTTCGTCATGACGCTGTTCTTCGCCTTTGGCGTGGCGTTCGAGATTCCCGTGGCGGTGGTATTGCTGGTGTGGATCGGCGTGGTCGACGTCGCCTACCTGAAGAAGATCCGTCCGTACGTGATCATCGGTTGCTTCGTGGTCGGCATGATCCTCACGCCGCCGGATATTTTCTCCCAGACCTTGCTGGCCGTGCCGATGTGGCTGCTGTTCGAGATCGGCATCCTGTTCGGCGGCCTGGTGCGCAAGCGCCGCGAAGAAGAACCCGAGGACCAGCCGGTCGACGACCACAACGACCAGCCGCCAGCGACCCAAGCGTGA	MSDIPENDQPMPLVSHLTELRTRLLRCVAAVFIIFAGLFAFTQQIYTFVSTPLREYLPVGATMIATDVSSPFLTPLKLTMMVSLFLAIPVILHQIWGFIAPGLYKHEKRIAVPLLVSSILLFYTGMAFAYFFVFPLIFKFFAAATPAGVEMMTDITSYLDFVMTLFFAFGVAFEIPVAVVLLVWIGVVDVAYLKKIRPYVIIGCFVVGMILTPPDIFSQTLLAVPMWLLFEIGILFGGLVRKRREEEPEDQPVDDHNDQPPATQA	PGPT0029295_2093	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
D1-35_03277	423	tatB		Sec-independent protein translocase protein TatB	ATGTTTGGGATCAGCTTCACTGAACTGCTGCTCGTCGGCCTCGTCGCCCTGTTGGTACTGGGGCCCGAACGCCTGCCGGGCGCTGCGCGCACCGCCGGTCTGTGGATCGGGCGCCTGAAGCGCAGCTTCAATGCGATCAAACAGGAAGTTGAACGTGAAATCGGTGCCGACGACATCCGTCGGCAACTGCACAACGAACACATCCTGTCCCTGGAACAGGAAGCACGGAAGATCTTCTCGCCGACCCAGCAGGAGCCGACGCCGGTCCAGCCCGTGGCCGAGCCGACGATTGCTCCCCAGGTCCCGGCGGTCGAATCTGCGCCAGTGGTGATTGAACCGGCCAAACCGGTTGATCCGGTTGATCCGGTTACTGCGACGCCCCCGACTCCCAACGACTCCACTCTGCCGCCGCGAGCCCCATGA	MFGISFTELLLVGLVALLVLGPERLPGAARTAGLWIGRLKRSFNAIKQEVEREIGADDIRRQLHNEHILSLEQEARKIFSPTQQEPTPVQPVAEPTIAPQVPAVESAPVVIEPAKPVDPVDPVTATPPTPNDSTLPPRAP	PGPT0014360_1911	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PATHWAY	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PROTEINS,PGPT0014360-tatB-K03117	NA	NA
D1-35_03278	288	tatA		Sec-independent protein translocase protein TatA	ATGGGTATTTTTGACTGGAAACACTGGGTCGTCATTCTGGTGGTCGTGGTGCTGGTGTTCGGCACCAAGAAACTGAAAAACCTCGGCACTGATGTCGGTGAGTCGATCAAGGGCTTTCGCAAGGCCATGAACGATGACGAGAAACCGGCCGACCCACAGGCCAATCCGTCGCAACCGGTACAACCGGCCCAACCGGTACACCCACAGGCCACGCAGCCGGTGAATGCGCCGAACACCATCGACGTGCAGGCCCAGAAAGTCGAAGAGCCAATCCGCAAAGACTCGTGA	MGIFDWKHWVVILVVVVLVFGTKKLKNLGTDVGESIKGFRKAMNDDEKPADPQANPSQPVQPAQPVHPQATQPVNAPNTIDVQAQKVEEPIRKDS	PGPT0029290_978	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
D1-35_03279	333	hisE	COG0140	Phosphoribosyl-ATP pyrophosphatase	ATGAGTGACACCCTGACCCGCCTGGCCCAGGTGCTGGAAGAGCGCAAGGGCGCCGCGGCCGACAGCTCCTATGTCGCCAGCCTGTATCACAAGGGTTTGAACAAGATTCTGGAAAAGGTCGGCGAAGAGTCGGTCGAAACCATCATTGCCGCCAAGGACGCTGCCATCAGCGGCGACTGCAGCGACGTGATCTACGAGACCGCCGACCTGTGGTTCCACAGCCTCGTCATGCTCGCCCAACTGGGGCAGCATCCGCAGGCCGTACTGGATGAACTGGACCGTCGCTTCGGTCTGTCCGGGCACGTCGAGAAAGCCTCGCGCCCGTCCGCCTGA	MSDTLTRLAQVLEERKGAAADSSYVASLYHKGLNKILEKVGEESVETIIAAKDAAISGDCSDVIYETADLWFHSLVMLAQLGQHPQAVLDELDRRFGLSGHVEKASRPSA				NA	NA	NA	NA	NA
D1-35_03280	399	hisI		Phosphoribosyl-AMP cyclohydrolase	ATGAAAAACTGGCAGGACGAGATCAAATGGGACGCCGACGGCCTGGTGCCGGCGATCGCCCAGGATCACAAGACCGGGCGTGTGCTGATGATGGCCTGGATGAACCGCGAGGCGCTGGCCCTGACCGCCGCCGAGAATCGCGCCATCTATTGGTCACGTTCCCGTGGCAAGCTGTGGCGCAAGGGTGAAGAGTCCGGGCACGTGCAGCACCTGCACGAGATGCGCCTGGATTGCGACGGCGACGTCATTATCCTGATGGTCGAACAGGTCGGTGAAATCGCCTGCCATACCGGCCGTCAAAGCTGCTTCTACCGTGTCTTCGAGAACGGCGACTGGAAAACCGTCGACCCGGTACTCAAGGACCCGCACGCCATCTATTCAGGACACAACCATGAGTGA	MKNWQDEIKWDADGLVPAIAQDHKTGRVLMMAWMNREALALTAAENRAIYWSRSRGKLWRKGEESGHVQHLHEMRLDCDGDVIILMVEQVGEIACHTGRQSCFYRVFENGDWKTVDPVLKDPHAIYSGHNHE	PGPT0007985_540	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0007985-ribA-K01497	NA	NA
D1-35_03281	1605	ubiB	COG0661	putative protein kinase UbiB	ATGAAGCTGCTTGCCGTCCGCCGTCTGTTGCGCATCCAGCGCGTCGTGATCCGCTACCGCCTCGATGACCTGCTGTTCGCCCTGCCGCTGCCCTGGTTTCTCCTGGCACTGCGCTTTGTGCTGCCGTGGCGCTGGTTCCCCCGTCGAACGCTGGACTTGAGCCGCGGCGCACGCCTGCGCCTGGCCTTGCAGGACCTGGGGCCGATCTTCATCAAGTTCGGGCAGATCCTCTCGACCCGTCGCGACCTGTTGCCCGAAGACATCGCCGATGAGCTGATGCTGCTGCAGGATCGCGTGCCGCCCTTCGACTCGAAACTGTCGGTAGCGCTGATCGAGGCGCAGTTGGGCAAGAAGATCAGCGAAGTCTTCAGCCGTTTCGATGTCGAGCCGCTGGCTTCGGCGTCGGTCGCCCAGGTCCACGCCGCCCAGCTCAAGACGGGTGAAGAAGTGGTGGTCAAGGTGATCCGCCCGGGCCTCAAGCCGATCATTGCCCAGGACCTGGCCTGGCTGTTCATCCTTGCCCGCGCCGCCGAGCGGATGTCAGCCGATGCACGCCTGCTGCACCCGGTGGACGTGGTCCAGGACTATGAAAAAACCATCTTCGATGAGCTCGACCTGCTGCGCGAGGCCGCCAACGCCAGCCAGCTGCGGCGCAATTTCGAGGGCTCGCCGCTGCTGTACGTGCCGCAAGTCTATTGGGACTGGTGCCGGCCGAAAGTGCTGGTGATGGAGCGTATCTACGGGATCCAGGTGACCGACCTGGCAACCCTCGCCGACCAGCGCACCGACATGAAACTGCTTGCCGAGCGCGGCGTGGAGATTTTCTTCACCCAGGTGTTTCGCGACAGCTTCTTCCACGCCGACATGCACCCGGGCAACATCTTCGTCAGCACCGTGCAACCGTGGAGCCCGCAGTACATCGCCATCGATTGCGGCATCGTCGGCAGCCTCACCCCCGAGGACCAGGATTACCTGGCGCGCAACCTGTTCGCCTTCTTCAAGCGTGACTACCGCCGCGTCGCGCAGTTGCACATCGATTCGGGCTGGGTGCCGGCCGAGACCAAGCTCAACGAATTCGAAGCGGCGATCCGCACCGTGTGCGAACCGATCTTCGAAAAACCGTTAAAAGATATTTCATTCGGCCAGGTGCTGATGCGCCTGTTCCAGACTGCGCGCCGCTTCAACATGGAGGTCCAGCCGCAGTTGGTGTTGCTGCAAAAAACCCTGTTGAACATCGAAGGCCTCGGCCGCCAGCTGTACCCGGACCTGGATTTGTGGAACACCGCCCAGCCCTTCCTTGAACGCTGGATGCGCGAACGCGTCAGCCCGAAGACCTTGCTGGGCAACGTCCAGAGCCAGTTCGAGCAGATTCCGCACCTAGCCAACATGACCCGCGATCTGCTCGAACGCATGTCCCAGCCCCATGCCCATGATCCTGCTCCACCCTGGAAACAGCGGCGCGACGATTGGTTCCTGCGCCTGCTTGGCGCGGCCCACCTGGGTGGCGGCGCCGTGCTGGCCGCCGGTGGCCCGTTGAGCGAACTGGGCCATTGGCCCGCCGGGATCATGGTGGCCGTCGGTTTGTATCTGGTCGTTCGTCGATAG	MKLLAVRRLLRIQRVVIRYRLDDLLFALPLPWFLLALRFVLPWRWFPRRTLDLSRGARLRLALQDLGPIFIKFGQILSTRRDLLPEDIADELMLLQDRVPPFDSKLSVALIEAQLGKKISEVFSRFDVEPLASASVAQVHAAQLKTGEEVVVKVIRPGLKPIIAQDLAWLFILARAAERMSADARLLHPVDVVQDYEKTIFDELDLLREAANASQLRRNFEGSPLLYVPQVYWDWCRPKVLVMERIYGIQVTDLATLADQRTDMKLLAERGVEIFFTQVFRDSFFHADMHPGNIFVSTVQPWSPQYIAIDCGIVGSLTPEDQDYLARNLFAFFKRDYRRVAQLHIDSGWVPAETKLNEFEAAIRTVCEPIFEKPLKDISFGQVLMRLFQTARRFNMEVQPQLVLLQKTLLNIEGLGRQLYPDLDLWNTAQPFLERWMRERVSPKTLLGNVQSQFEQIPHLANMTRDLLERMSQPHAHDPAPPWKQRRDDWFLRLLGAAHLGGGAVLAAGGPLSELGHWPAGIMVAVGLYLVVRR	PGPT0009520_2101	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009520-ubiB|aarF-K03688	NA	NA
D1-35_03282	618	ubiJ	COG3165	Ubiquinone biosynthesis accessory factor UbiJ	ATGCTGCTCACCGGGCTGCTCGCCAGTGTCGAACTCGGTATCAACCGGGTCCTGCGCCTGGACAGCACGGCGCCGATGCGCCTGGCACACTTGAGCGGCAAGGTGATTGCCGTCGACTGCCGCAGCCCCGCGTTGCAGCTGTTCATCCTGCCCAGCGACGAAGGCCTGATGCTCGCCGCCCACTGGGAGGCCGAGGCCGACTGCACGCTGCGCGCGCCGGCATCGAGCCTGCTGGAGTTGGCGCTGAGCAAGAACAAGACGGCGGTGCTGCACAGCCCCGACGTCGAGCTCGACGGCGACAGCGGCGTGCTGCTGGAACTGGCGGCGATTCTCCAGGACCTGGAACTGGACTGGGAATACGAAGTGTCCCGCTGGATCGGTCCGGTCGCCACCCAATTGCTCAGTGGCCATCTGCGCAGCCGCTCCCGCTGGTACCGCCAGGGCTTCGCCAGCCTGGGACAGAATCTGAGTGAATACCTGGCCGAGGAATCGCGTACGCTCGTAGGCCAACGCGAAGCCCAGGCCCGTTTTGCCGAACTGGACCAGATCAAGCTCGATCTGGAACGTCTCGAGGCGCGTTTCGAGCGCCTTTCCCGATCCCTTGAACCCAAGCGATAA	MLLTGLLASVELGINRVLRLDSTAPMRLAHLSGKVIAVDCRSPALQLFILPSDEGLMLAAHWEAEADCTLRAPASSLLELALSKNKTAVLHSPDVELDGDSGVLLELAAILQDLELDWEYEVSRWIGPVATQLLSGHLRSRSRWYRQGFASLGQNLSEYLAEESRTLVGQREAQARFAELDQIKLDLERLEARFERLSRSLEPKR	PGPT0009560_697	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009560-ubiJ|yigP-K03690	NA	NA
D1-35_03283	771	ubiE	COG2226	Ubiquinone/menaquinone biosynthesis C-methyltransferase UbiE	ATGACTGATCAGCGCAAAGGCAGCGATGCCGAACCCACCACACACTTCGGCTTCAAGAACGTGCCGGAAAGCCAGAAAGCGGAGAAAGTCGCCGAGGTTTTCCACTCGGTGGCCGCCAAGTACGACTTGATGAACGACCTGCTCTCGGGCGGCATGCATCGCCTCTGGAAGCGTTTCGCGATCGAGTTGTCGGGCGTGCGCAGCGGCAACCGCGTGCTGGACATTGCCGGCGGCACCGGTGACCTGACCAAGAAGTTCTCCCACATCGTCGGCCCCACCGGCCATGTGGTGCTCGCCGATATCAACGAATCCATGCTCAAGGTCGGTCGTGACCGCCTGCTCGACCTGGGCGTGGCCGGCAACGTCGAGTTCGTCCAGGCCGACGCCGAGAAGCTGCCGTTCCCCGACAACCATTTCGACTGCGTGACCATCGCCTTCGGCCTGCGCAACGTCACCCACAAGGAAGATGCCCTGCGCTCGATGTTGCGCGTGCTCAAGCCCGGTGGCCGGCTGTTGGTGCTGGAGTTTTCCAAGCCGACCAACGCGTTGATGTCCAAGGCTTATGACGCCTACTCGTTCGCCTTCATGCCGTTGATGGGCAAGCTGATCACCAACGACGCGGAAAGTTATCGTTACCTGGCCGAATCGATCCGCATGCACCCCGACCAGGAAACGTTGAAGTCGATGATGGTCGAAGCCGGTTTCGATCGGGTGACCTACCACAACATGACTTCCGGCATCGTCGCCCTGCACCGCGGTATCAAGCCCTGA	MTDQRKGSDAEPTTHFGFKNVPESQKAEKVAEVFHSVAAKYDLMNDLLSGGMHRLWKRFAIELSGVRSGNRVLDIAGGTGDLTKKFSHIVGPTGHVVLADINESMLKVGRDRLLDLGVAGNVEFVQADAEKLPFPDNHFDCVTIAFGLRNVTHKEDALRSMLRVLKPGGRLLVLEFSKPTNALMSKAYDAYSFAFMPLMGKLITNDAESYRYLAESIRMHPDQETLKSMMVEAGFDRVTYHNMTSGIVALHRGIKP	PGPT0009535_645	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009535-ubiE-K03183	NA	NA
D1-35_03284	276			hypothetical protein	ATGGCCCGTATTACTGTTGAGCGTGCCCATGACCTGGGCAAGGAAGCGGCCCGCGAAAAGGCCGACAAGCTGGCCCGGAAACTGTCCGACAGCTACGGCCTGGAGCCCAAGTGGGAGGGCGACACGCTGAAGCTCAAGCGTTCCGGGGTCAAGGGTGAAGTGCATGTGGGCGAGGATTCGATCCGCGTCGAAGTGGAGCTGGGCATGTTGATGTCGGCCATGAGCGGGACAATCAAGACGGAAATCGAAAAGGCGCTGGACAAGGCGTTGGCTTGA	MARITVERAHDLGKEAAREKADKLARKLSDSYGLEPKWEGDTLKLKRSGVKGEVHVGEDSIRVEVELGMLMSAMSGTIKTEIEKALDKALA				NA	NA	NA	NA	NA
D1-35_03285	423			hypothetical protein	ATGGCCAAAGTTATTCTGAAGAAAAAAACCGACGTTGATTCTTCCACGCTGGGCGACGTGAAAACGTACGCGCGCAAGATCTGGCTGGCGGGCCTGGGCGCCTATATCAAGGTCGGTCAGGAGGGCGGCGACTACTTCAAGGAGCTGGTCAAGGCCGGTGAAGTTGTTGAAACCAAAGGCAAAAAGAACATTGCTGGGAAACTTGAAGCGGCGAACAGCGAACTGATCGAAGCCAAGACCGACGTCAACACTTTCAAGGCCCGCGTTGAAGTTCAACTCGACAAAGTAGAGAAGGTATTCGACGCGCGTGTTGCAAGTGCCTTGAATCGTATCGGCATTCCGTCTAAACATGACGTTGAGACACTCTCTGCTAAGCTCGATGAGCTGACGGCATTGCTCGAACGTGTCGCGCGTAAACATTAA	MAKVILKKKTDVDSSTLGDVKTYARKIWLAGLGAYIKVGQEGGDYFKELVKAGEVVETKGKKNIAGKLEAANSELIEAKTDVNTFKARVEVQLDKVEKVFDARVASALNRIGIPSKHDVETLSAKLDELTALLERVARKH				NA	NA	NA	NA	NA
D1-35_03286	900			hypothetical protein	ATGGCTGGCAAGAAAATCACCGAAAAAGAAGGCAGCTCGTGGACCGGGAAAATTGAAAAGTACTCCCGCAAAATCTGGCTTGCTGGTTTAGGCGTGTACTCGAAGATCGACACTGACGGCAGCAAACTCTTCGAGTCCCTGGTCAAGGACGGCGAGAAGGCCGAAAAACTCACCAAGACGGCGGTCGGCAAACAAGTCGATGCCGCCAAGGATTCTGCCGAGTCCACCAAGTCGCGCATGGGCGGCGTGAAGGATCGTGCACTGGGCAAGTGGGATGAGCTGGAAGGGGCTTTCGACAAGCGTCTGAACAGTGCAATTTCCCGCTTGGGCGTGCCGAGCCGCAATGAAGTCAAGGAACTGCACAGCAAGGTAGACACCCTGACCAGGCAGATCGAAAAACTCACCGGGGCCAAGGTCACGCCGGTCGCGACCAAGCCTGCTGCAACCAGGACGGCGGCGGCCAAGCCTGCAGCGAAGACGGCAGCCAAGCCACTGGTCAAGGCGGCGAAATCCGTCGCCAAGCCTGCGGCCAAAGCAGCGGCCAAGCCAGTAGCCAAAACCGCAGCGGCCAAGCCTGCAGCCAAGGCGGCGGCCAAACCCGTCGCGGCAAAAACTGCAGCCAAACCTGCCGCCAAGCCAGCGGCCAAGACGGCGGCGGCTAAACCAGCTGCGGCCAAACCGGCTGCCAAGCCAGCGGCAAAAGCCGCAGCAAAACCGGCCGCGGCGAAAAAGCCCGCAGTGAAAAAACCGGCCGCGCCAAAAGCAGCCGCACCCAAGGCGCCGGCCACGGCCGCCAAACCGGCCACCCCGACGAGCACGGCAAACTCTGCCTCGGCTCCGACCCCGGTAGCTACTCCGACTCCAGCGCCGGTTCCGTCGACGCCTACCAGCCAGTCCTGA	MAGKKITEKEGSSWTGKIEKYSRKIWLAGLGVYSKIDTDGSKLFESLVKDGEKAEKLTKTAVGKQVDAAKDSAESTKSRMGGVKDRALGKWDELEGAFDKRLNSAISRLGVPSRNEVKELHSKVDTLTRQIEKLTGAKVTPVATKPAATRTAAAKPAAKTAAKPLVKAAKSVAKPAAKAAAKPVAKTAAAKPAAKAAAKPVAAKTAAKPAAKPAAKTAAAKPAAAKPAAKPAAKAAAKPAAAKKPAVKKPAAPKAAAPKAPATAAKPATPTSTANSASAPTPVATPTPAPVPSTPTSQS				NA	NA	NA	NA	NA
D1-35_03287	621			hypothetical protein	ATGAAAACCCGCGACCGAATCCTCGAGTGTGCCCTGCAATTATTCAACGAGAAGGGCGAGCCGAATGTTTCCACCCTCGAAGTCGCCAACGAGATGGGCATCAGCCCCGGCAACCTCTACTACCACTTCCATGGCAAGGAACCGCTGATACTCGGATTGTTCGAGCGATTCCAGGCCGAGCTTGCACCGCTGCTGGATCCGCCCGCCGATGCGCAACTGGCGCCGGAGGACTACTGGTTGTTCCTGCATTTGATCGTCGAGCGCCTGGCCCAATACCGGTTCCTGTTCCAGGACTTGTCAAACCTGGCGGGGCGCCTGCCGAAACTGGCCAAGGGTATCCGCCAGTTGCTCAACGCGTTGAAACGGACCCTGGCCTCTTTGCTGGCGCAGCTCAAGGCCCAGGACCTGCTGGTGAGCGACACCCAGGCACTCGGGCAACTGGTGGAGCAGATCACCATGACGTTGCTGTTTTCGCTGGATTATCAGCGGATCCTTGATCGCGAGGGCGAGGTTCGCCTGGTGGTCTATCAGATCATGATGCTGGTGGCGCCGCACTTGCCGCCAGCGATAAAGGTCGCGACCGAGCAGATGGCTTTGCGGTATCTGGAGGAGCACGAATAA	MKTRDRILECALQLFNEKGEPNVSTLEVANEMGISPGNLYYHFHGKEPLILGLFERFQAELAPLLDPPADAQLAPEDYWLFLHLIVERLAQYRFLFQDLSNLAGRLPKLAKGIRQLLNALKRTLASLLAQLKAQDLLVSDTQALGQLVEQITMTLLFSLDYQRILDREGEVRLVVYQIMMLVAPHLPPAIKVATEQMALRYLEEHE				NA	NA	NA	NA	NA
D1-35_03288	1683	phaC_1	COG3243	Poly(3-hydroxyalkanoate) polymerase subunit PhaC	ATGCGCGACAAACCGGCGAAGGGTTCCATGCCCGCCCCTGCCAGCTTCATCAACGCACAGAGTGCGGTCACCGGCCTGCGCGGCAGGGACCTGCTGTCGACCCTGCGCAACGTTGCCGCCCATGGCCTGCGCAACCCGGTCCACAGTGCCCGACATGCGTTGAGGCTCGGCGGCCAGCTGGGGCGCGTCCTGCTGGGGGACACCCTGCACCCGACCAACCCCGACGACAAACGCTTCGCCGACCCCACCTGGCAGCTCAACCCGTTCTACCGCCGCAGCCTGCAGGCCTACCTGAGCTGGCAGAAGGAAGTCCGCCAGTGGATCGATGAGGGCGGCATGAGCCCGGATGATCAGGCCCGTGCGCATTTCGCCTTCTCCCTGCTCAACGACGCGGTATCGCCGTCCAATACCCTGCTCAACCCGCTGGCGATCAAGGAGCTGTTCAATTCCGGAGGCAGCAGCCTGATTCGCGGGATCAGCCATCTGGTCGACGACCTGCTGCACAACGACGGCTTGCCCCGGCAAGTCACGCCACACGCCTTTGAAGTCGGCAAGACCCTGGCGAGTACGCCCGGCGCAGTGGTGTTTCGCAACGAGCTGCTGGAACTGATCCAGTACAAGCCTATGAGCGAAAAGCAATACGCCACGCCGCTGCTGATCGTGCCGCCGCAGATCAACAAGTTCTACATCTTCGACCTGAGCCCTTCCAACAGCTTCGTCCAGTACGCTCTGAAAAACGGCTTGCAGGTGTTCATCATCAGTTGGCGCAACCCGGACGTGCGCCATCGGGAATGGGGCCTGTCCAGTTATGTCGAGGCGACGGAAGAGGCCATGAACGTCTGCCGGACGATCACCGGCGCCCGCGAAGTCAACCTGATGGGCGCCTGCGCCGGTGGCATGACCATCGCCGCCCTGCAGGGCCATCTGCAAGCCAAGCGCCAACTGCGCCGGGTGGCCAGCGCCACCTACCTGGTGAGCTTGCTGGACAGCGAGATCGAGAGCCCGGCCACGCTGTTCATCGACGAACAGACCCTCGAAGCCGCCAAACGCCGCTCCTATCAGAAAGGCATTCTCGATGGCCGCGACATGGCTCGGGTCTTCGCCTGGATGCGGCCCAACGACTTGATCTGGACCTACTTCGTCAACAACTACCTGCTGGGCAAGGAGCCGCCGGCATTCGATATTCTCTACTGGAACAACGACTGCACGCGGCTTCCGGCGGCCTATCACGGCGACCTGCTGGATTTTTTCAAACACAACCCGCTGACACGGCCGGGCGCCCTGGAGGTGTGCGGCACGCCTATCGACTTGCAGAAAGTCACCGTGGACAGCTTCAGCGTGGCCGGCATCAACGACCACATCACGCCGTGGGATGCGGTGTACCGTTCGACGTTGCTGCTGGGCGGCGAACGACGTTTCGTGCTGTCCAACAGCGGACACGTCCAGAGCATCCTCAACCCGCCAGGCAACCCCAAGGCCAACTACATCGAGAATCCGAAACTGAGCAGCGACCCGCGCGCCTGGTACTACGACGCCAAGCACATCGAGGGCAGTTGGTGGACCCAATGGCTGGGCTGGATCCAGGAGCGCTCCGGCGCCCAGCACGAAACGCAGATGACGCTGGGCAACGCGAAATACCCGGCCCTGGAAGCGGCACCCGGGAATTACGTACGGGTACGCTGA	MRDKPAKGSMPAPASFINAQSAVTGLRGRDLLSTLRNVAAHGLRNPVHSARHALRLGGQLGRVLLGDTLHPTNPDDKRFADPTWQLNPFYRRSLQAYLSWQKEVRQWIDEGGMSPDDQARAHFAFSLLNDAVSPSNTLLNPLAIKELFNSGGSSLIRGISHLVDDLLHNDGLPRQVTPHAFEVGKTLASTPGAVVFRNELLELIQYKPMSEKQYATPLLIVPPQINKFYIFDLSPSNSFVQYALKNGLQVFIISWRNPDVRHREWGLSSYVEATEEAMNVCRTITGAREVNLMGACAGGMTIAALQGHLQAKRQLRRVASATYLVSLLDSEIESPATLFIDEQTLEAAKRRSYQKGILDGRDMARVFAWMRPNDLIWTYFVNNYLLGKEPPAFDILYWNNDCTRLPAAYHGDLLDFFKHNPLTRPGALEVCGTPIDLQKVTVDSFSVAGINDHITPWDAVYRSTLLLGGERRFVLSNSGHVQSILNPPGNPKANYIENPKLSSDPRAWYYDAKHIEGSWWTQWLGWIQERSGAQHETQMTLGNAKYPALEAAPGNYVRVR	PGPT0014740_1555	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-POLYHYDROXYBUTYRATE_PRODUCTION,PGPT0014740-phbC|phaC-K03821	NA	NA
D1-35_03289	858	catD_2	COG0596	3-oxoadipate enol-lactonase 2	ATGCCGCAACCGTACATTTTCCGTACCGTCGACCTGGATGGCCAGACCTTGCGCACCGCGGTACGTCCCGGCAAGCCTCACTTGACGCCGCTGCTGATTTTCAACGGCATCGGCGCCAACCTGGAGCTGGTCTTCCCGTTCATCGAGGCCCTGGACCCGGACCTGGAAGTGATCGCCTTCGATGTGCCCGGGGTCGGCGGTTCGTCGACGCCGAGCCGGCCGTATCGTTTTCCGGGCCTGGCCAAGCTTACCGCGCGGATGCTCGATTACCTCGACTATGGGCAGGTCAACGTGATCGGTGTGTCCTGGGGCGGCGCCCTGGCCCAGCAGTTCGCCCATGATTATCCGGAGCGCTGCAAGAAGCTGGTGCTCGCCGCCACGGCCGCCGGCGCGGTGATGGTGCCGGGCAAGCCGAAGGTGCTGTGGATGATGGCCAGTCCCCGACGCTACGTGCAGCCGTCCCATGTGATGCGCATCGCGCCGCTGATCTACGGCGGCTCGTTCCGCCGCGACCCAAGCCTGGCGGCTCGTCACGCGGCCAAGGTACGTTCGGCGGGCAAGCTCGGTTATTACTGGCAACTGTTCGCGGGCCTCGGCTGGACCAGCATCCATTGGCTGCACAAGATCCACCAGCCGACCTTGATCCTGGCCGGGGATGACGACCCGCTGATCCCCCTGATCAACATGCGCATGCTGGCCTGGCGCATCCCCAATTCGCAGTTGCACATCATCGATGACGGCCACCTGTTCCTGATCACCCGGGCCGAGGCCGTGGCGCCGATCATCATGAAATTCCTCGAGGAAGAACGGCAGCGCGCGGTCATGCACCCGCATCCCGCGCCGCTGGGTGGCGGCTGA	MPQPYIFRTVDLDGQTLRTAVRPGKPHLTPLLIFNGIGANLELVFPFIEALDPDLEVIAFDVPGVGGSSTPSRPYRFPGLAKLTARMLDYLDYGQVNVIGVSWGGALAQQFAHDYPERCKKLVLAATAAGAVMVPGKPKVLWMMASPRRYVQPSHVMRIAPLIYGGSFRRDPSLAARHAAKVRSAGKLGYYWQLFAGLGWTSIHWLHKIHQPTLILAGDDDPLIPLINMRMLAWRIPNSQLHIIDDGHLFLITRAEAVAPIIMKFLEEERQRAVMHPHPAPLGGG				NA	NA	NA	NA	NA
D1-35_03290	1680	phaC_2	COG3243	Poly(3-hydroxyalkanoate) polymerase subunit PhaC	ATGAGCAACAAGAACAACGATGAGTTGAAGTACCAAGCTTCGGAAAACACCCTGGGCTTGAATCCCGTCGTCGGCTTGCGCAGGAAAGACCTGCTGGCCTCTGCCCGGATGGTGCTGACCCAGACCATCAAACAACCGCTGCACAGCGTCAAGCACGTCGCCCATTTCGGCGCTGAATTGAGGAAAGTCCTGTTCGGCAAATCCGAGTTGCAGCCCGCCAGTGATGACCGTCGTTTCAACGACCCGGCGTGGAGCCAGAACCCGCTCTACAGACGTTATCTGCAAACCTATCTGGCGTGGCGCAAGGAGCTGCACGCCTGGATCGACGACAGCAGCCTCTCGCCCCAGGACATCAGCCGTGGGCACTTCGTGATCAACCTGATGACCGAAGCCATGGCCCCGACCAACTCGGCGGCCAACCCGGCGGCGGTCAAGCGCTTCTTCGAAACCGGCGGCAAGAGCCTGCTCGATGGCCTGTCCCACCTGGCCAAGGACCTGGTGCACAACGGCGGAATGCCGAGCCAGGTGGACATGGGTGCGTTCGAAGTCGGCAAGAGCCTGGGCGTGACCGAAGGCGCGGTAGTCTTTCGCAATGACGTGCTGGAGCTGATCCAGTACCGCCCCATCACCGAGCAGGTCCATGAGCGACCATTGCTGGTGGTGCCGCCGCAAATCAACAAGTTCTACGTATTCGACCTGAGCCCGGACAAGAGCCTGGCGCGCTTCTGCCTGCGCAGCAACGTGCAGACTTTCATCATCAGTTGGCGCAACCCCACCAAGGCGCAGCGCGAGTGGGGCCTGTCGACGTACATCGAAGCGCTCAAGGAAGCGGTGGATGTGGTCACGGCCATCACCGGCAGCAAGGACGTGAACATGCTGGGCGCCTGCTCGGGCGGCATCACCTGCACCGCCCTGCTCGGCCATTACGCCGCGCTGGGGGAGAAAAAGGTCAATGCCCTGACCCTGCTGGTGAGTGTGTTGGACACCACCCTGGACACCGACGTGGCGCTGTTCGTCGACGAGCAGACCCTGGAAACGGCCAAGCGCCATTCCTACCAGGCCGGCGTCCTTGAAGGCCGCGACATGGCCAAGGTGTTCGCCTGGATGCGGCCCAATGACCTGATCTGGAACTACTGGGTGAACAATTACCTGCTGGGCAACGAGCCGCCGGTGTTCGACATCCTGTTCTGGAACAACGACACCACGCGACTCCCGGCGGCGTTCCATGGCGACCTCATCGAGATGTTCAAGAACAACCCGCTGATCCGCCCCAACGCACTGGAAGTGTGCGGCACGCCGATCGACCTCAAGCAGGTCAGCGCCGATATCTTTTCCCTGGCCGGCACCAACGACCACATCACGCCGTGGAAGTCCTGCTACAAATCGGCGCAGCTGTTCGGCGGCAAGGTTGAATTCGTGCTGTCGAGCAGCGGTCACATCCAGAGCATTCTCAACCCGCCGGGCAATCCAAAGTCCCGCTACATGACCAGCGAAGACATGCCGGCCAAGGCCGAGGACTGGATGGAAAACTCCACCAAGCACACCGACTCGTGGTGGCTGCACTGGCAAGCCTGGCAGGCCGAACGCTCGGGCAAGCTGAAGAAGGCCCCCACCGTGCTGGGCAACAAGACGTATGTGGCCGGGGAAGCGGCGCCGGGCACTTATGTGCATGAGCGGTAA	MSNKNNDELKYQASENTLGLNPVVGLRRKDLLASARMVLTQTIKQPLHSVKHVAHFGAELRKVLFGKSELQPASDDRRFNDPAWSQNPLYRRYLQTYLAWRKELHAWIDDSSLSPQDISRGHFVINLMTEAMAPTNSAANPAAVKRFFETGGKSLLDGLSHLAKDLVHNGGMPSQVDMGAFEVGKSLGVTEGAVVFRNDVLELIQYRPITEQVHERPLLVVPPQINKFYVFDLSPDKSLARFCLRSNVQTFIISWRNPTKAQREWGLSTYIEALKEAVDVVTAITGSKDVNMLGACSGGITCTALLGHYAALGEKKVNALTLLVSVLDTTLDTDVALFVDEQTLETAKRHSYQAGVLEGRDMAKVFAWMRPNDLIWNYWVNNYLLGNEPPVFDILFWNNDTTRLPAAFHGDLIEMFKNNPLIRPNALEVCGTPIDLKQVSADIFSLAGTNDHITPWKSCYKSAQLFGGKVEFVLSSSGHIQSILNPPGNPKSRYMTSEDMPAKAEDWMENSTKHTDSWWLHWQAWQAERSGKLKKAPTVLGNKTYVAGEAAPGTYVHER	PGPT0014740_1701	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-POLYHYDROXYBUTYRATE_PRODUCTION,PGPT0014740-phbC|phaC-K03821	NA	NA
D1-35_03291	378			hypothetical protein	ATGACCAGACTCCCCACCGCCATCAACCTGCACAAAGCCTCCAAGACCCTGACGCTCAGATACGCGCCGGACGAGGAGTATCACCTGCCCGCGGAATTCCTGCGGGTGCACTCGCCTTCGGCCGAGGTCCAGGGCCACGGCAAACCTATCCTGCAATACGGCAAGCTCGGCGTCGGCCTGACCAAGGTCGAACCGGCCGGCCAATACGCACTGAAACTGACCTTCGACGATGGCCATGACAGCGGATTGTTCACCTGGGACTATCTGTACCAGCTGGCGGTGCGCCAGGAAGACCTGTGGAACGATTATCTCGCCGAACTCAAGGCGGCCGGAAAAACCCGCGACCCGAATGCGTCCGTCGTCAAGCTGATGCTCTAG	MTRLPTAINLHKASKTLTLRYAPDEEYHLPAEFLRVHSPSAEVQGHGKPILQYGKLGVGLTKVEPAGQYALKLTFDDGHDSGLFTWDYLYQLAVRQEDLWNDYLAELKAAGKTRDPNASVVKLML				NA	NA	NA	NA	NA
D1-35_03292	1338	hslU	COG1220	ATP-dependent protease ATPase subunit HslU	ATGTCCATGACTCCCCGCGAAATCGTCCACGAACTCAATCGCCACATCATCGGCCAGGACGATGCCAAGCGCGCCGTCGCCATCGCCTTGCGTAACCGCTGGCGCCGGATGCAACTGCCGGAAGAACTGCGCGTCGAAGTGACCCCCAAGAACATCCTGATGATCGGCCCGACCGGTGTCGGCAAGACCGAGATCGCCCGGCGCCTGGCCAAGCTCGCCAACGCGCCATTCATCAAGGTCGAAGCCACCAAGTTCACCGAAGTCGGCTACGTGGGCCGCGATGTCGAGTCGATCATTCGTGACCTGGCCGATGCGGCGATCAAGCTGCTGCGCGAACAGGAAATCACCAAGGTTCGCCATCGCGCCGAAGACGCCGCGGAGGAGCGCATTCTCGATGCCCTGCTGCCACCGGCGCGCATGGGCTTCAACGCCGACGCCGCCACGACCCAGGACTCCAACACCCGCCAGCTGTTCCGCAAACGCCTGCGCGAAGGCCAGCTGGACGACAAGGAGATCGAGATCGAGGTGGCCGAAATGGCCGGCGTCGACATTTCCGCGCCGCCAGGCATGGAAGAAATGACCAACCAGTTGCAGAGCCTGTTCGCCAACATGGGCAAGGGCAAGAAGAAAAGCCGCAAGCTCAAGGTCAAGGAAGCGCTGAAGCTGGTGCGCGATGAAGAAGCCAGTCGCCTGGTCAACGAAGAGGAGCTGAAGGCCAAGGCCCTGGAAGCGGTCGAGCAGCACGGCATCGTGTTCATCGACGAAATCGACAAGGTCGCCAAGCGCGGCAATGTCGGCGGCGCCGACGTTTCCCGCGAAGGCGTGCAACGCGACCTGCTGCCGTTGATCGAAGGCTGCACGGTGAACACCAAGCTGGGCATGGTCAAGACCGACCACATCCTGTTCATCGCCTCCGGTGCGTTCCACCTGAGCAAGCCGAGCGACCTGGTGCCTGAGCTGCAAGGCCGCTTGCCAATCCGGGTCGAACTCAAGGCGCTGTCGCCGGAAGACTTCGAGCGCATCCTGAGCGAGCCCCATGCATCGCTGACCGAACAATACTGCGCGCTGCTCAAGACCGAAGGCCTGAACATCGAGTTCGCACCAGAAGGCATCAAGCGTCTGGCGCAGATCGCCTGGCAGGTCAACGAGAAGACCGAGAACATCGGTGCCCGGCGCCTGCACACGCTGCTTGAACGCCTGCTTGAGGAAGTCTCGTTCAGCGCCGGCGACCTGGCCAGCGCCCACAACGAAGCGCCGATCATCATCGACGCCGAATACGTCAACAGCCACCTCGGCGAGCTGGCGCAGAACGAAGACCTGTCGCGGTATATCCTGTAG	MSMTPREIVHELNRHIIGQDDAKRAVAIALRNRWRRMQLPEELRVEVTPKNILMIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEVGYVGRDVESIIRDLADAAIKLLREQEITKVRHRAEDAAEERILDALLPPARMGFNADAATTQDSNTRQLFRKRLREGQLDDKEIEIEVAEMAGVDISAPPGMEEMTNQLQSLFANMGKGKKKSRKLKVKEALKLVRDEEASRLVNEEELKAKALEAVEQHGIVFIDEIDKVAKRGNVGGADVSREGVQRDLLPLIEGCTVNTKLGMVKTDHILFIASGAFHLSKPSDLVPELQGRLPIRVELKALSPEDFERILSEPHASLTEQYCALLKTEGLNIEFAPEGIKRLAQIAWQVNEKTENIGARRLHTLLERLLEEVSFSAGDLASAHNEAPIIIDAEYVNSHLGELAQNEDLSRYIL				NA	NA	NA	NA	NA
D1-35_03293	531	hslV	COG5405	ATP-dependent protease subunit HslV	TTGACCACCATCGTTTCAGTCCGCCGTCACGGCAAAGTCGTCATGGGCGGCGACGGCCAGGTTTCATTGGGCAACACCGTGATGAAAGGCAACGCGAAGAAAGTCCGCCGCCTGTATCACGGCCAGGTCATCGCCGGTTTCGCCGGGGCCACCGCCGACGCCTTCACCCTGTTCGAGCGTTTCGAAGGGCAACTTGAAAAACATCAGGGTCACTTGGTCCGTGCAGCCGTCGAGCTGGCCAAGGAATGGCGCACCGACCGCTCCCTGAGCCGCCTCGAAGCCATGCTTGCGGTGGCCAACAAGGATGCTTCCTTGATCATTACCGGCAACGGCGACGTGGTTGAACCGGAAGACGGCCTGATCGCCATGGGTTCCGGTGGCGCCTACGCCCAGGCTGCCGCCAGCGCCCTGCTGAAAAAGACCGACCTTTCGGCTCGCGAGATCGTCGAGACTGCCCTGGGCATCGCCGGCGACATCTGCGTCTTCACCAACCACACCCAGACCATTGAGGAGCAGGACCTCGCGGAGTAA	MTTIVSVRRHGKVVMGGDGQVSLGNTVMKGNAKKVRRLYHGQVIAGFAGATADAFTLFERFEGQLEKHQGHLVRAAVELAKEWRTDRSLSRLEAMLAVANKDASLIITGNGDVVEPEDGLIAMGSGGAYAQAAASALLKKTDLSAREIVETALGIAGDICVFTNHTQTIEEQDLAE				NA	NA	NA	NA	NA
D1-35_03294	696	ftsN_2		Cell division protein FtsN	TTGGCCGCCAAGAAAAAACCTGCACCCAAACGCGGCGCCAGTCGTTACCAGCCTCCGGCCAAACAGCCGATTCCGGGCTGGTTGTGGATGGCGATCGGCCTGACTGTCGGCGCATTCATCGTATTCCTGATGAAGCTGGAACCGGGCCAGGGCGATGACGTCAAGCGTGTTCGGCAAGAGCAGCAGAAAGCCACGCGGATCGCCGAGGCCAACAAGACCCCGCCGAGCCCGACACAACCGGTGAAGCCGAAATACGACTTCTACACCTTGCTCCCGGAATCGGAGGTCATCGTGCCGCCCGATGCGGTGCCGGAGAAGACCCTGCCGACGCCGCAGGTGCCGACCACGCCAGTGACCCCAGCCGAAGCGGCGAAGATCGACACCGCCCGCGCCCAGGCCGCCCTGGCCGGCATTACGCCGCCACCGGCCCCGCCGGTGCAGAAGGCCGCGCCGGTGACAAAATTCTTCCTGCAGGCCGGCTCGTTCCGCAAGGAAGCCGACGCCGACAAGGTCCGGGCGCAGATCATTCTGCTGGGCCAGTCGGTGTCGGTGGAGTCCGGAACGGTGAAGGACGAAACCTGGTATCGCGTACTGGTCGGACCGTTCAGCAACCGCGAAGAACTGACCAAGGCCCAGAAACAACTGGCTGGCAGCGGTTTCAGCAACCTGTTGTTACAACAACGTCAAAGCCGCTAG	MAAKKKPAPKRGASRYQPPAKQPIPGWLWMAIGLTVGAFIVFLMKLEPGQGDDVKRVRQEQQKATRIAEANKTPPSPTQPVKPKYDFYTLLPESEVIVPPDAVPEKTLPTPQVPTTPVTPAEAAKIDTARAQAALAGITPPPAPPVQKAAPVTKFFLQAGSFRKEADADKVRAQIILLGQSVSVESGTVKDETWYRVLVGPFSNREELTKAQKQLAGSGFSNLLLQQRQSR				NA	NA	NA	NA	NA
D1-35_03295	1737	argS		Arginine--tRNA ligase	ATGAAAGACACCATTCGCCAGCTTATCCAGCAAGCCATCACCCAACTCGTCACTGAAGGTGTGCTGCCAGAAGGCCTGTCGCCGGCGATTCAGGTCGAGAACACCCGCGACAAGACCCACGGTGACTTTGCCAGCAACATCGCGATGATGCTCGCCAAACCGGCCGGCATGAAACCTCGCGACCTGGCGGAAAAGATCATCGCCGCATTGCCGGCCGACGAAAACGTCACCAAGGCCGAAATTGCCGGCCCCGGGTTCATCAACTTCTTCCAGAATACCCAGGCGCTGGCCTCGCGGCTGGACGCGGCCCTGGCCGACGAGCGCCTCGGCGTACGCAAGGCCGGCCCGTTGCAGCGCACCGTGGTCGACCTGTCGGCCCCCAACCTCGCCAAGGAAATGCACGTCGGCCACCTGCGCTCGACCATCATTGGCGATGGCGTGGCGCGCGTCCTGGAGTTTCTCGGTGACACGGTGATCCGCCAGAACCACGTCGGCGACTGGGGCACCCAGTTCGGCATGCTGATGGCCTACCTGCAGGAAAACCCGATCACCAGCGACGAGCTCTCGGACCTGGAAAACTTCTACCGCGCCGCCAAGCAACGCTTCGACGAGTCGCCCGAGTTCGCCGACCGCGCCCGTGGCCTGGTGGTCAAGCTGCAGGCTGGCGATGCCGAGTGCCTGGCGCTGTGGACAAAGTTCAAGGACATCTCGCTGTCCCACTGCCAGAAGATATACGAGCTGCTGAACGTCAAGCTGAGCATGGCCGACGTAATGGGCGAAAGCGCCTACAACGACGACCTGATCAACGTGGTCAACGACCTCCGGGCCAAAGGCATGCTGGTGGAAAGCAACGGCGCCCAGTGCGTGTTCCTCGACCAGTTCAAGACCGCCGATGGCGAGCCGCTGCCGGTGATCATCGTCAAGGCTGACGGTGGCTACCTCTACGCCACCACTGACCTGGCGGCCGTGCGTTATCGCAACGGCGTGCTGAAGGCCGATCGGGTCCTGTATTTCGTCGACCAGCGCCAGGCCCTGCACTTCCAGCAGGTGTTCGAAGTGGCCCGTCTGGCCGGTTTCGTGACCCATCCGATGGAAATGGAACACATGGGGTTCGGCACCATGAACGGCGCCGATGGTCGCCCGTTCAAGACCCGCGATGGCGGCACGGTGAAGCTGATCGACCTGCTGACCGAAGCCCAGGACCGTGCGTACACTCTGGTCAAGGGCAAGAACCCGGAGCTGGCCGAAGACGAACTGCGCAAGATCGCCAAGGTGGTCGGCATCGACGCGGTGAAATATGCCGACCTGTCGAAGCACCGCGCCAGCGACTACAGCTTCAACTTCGACCTGATGCTCAACTTCGAAGGCAACACCGCTCCGTACCTGCTGTACGCCTACACCCGTGTGGCGGGCGTGTTCCGCAAGCTCGGCAAGGGCTTCGACGAAATCGAGGGCCAGATCGTCCTCGAAGCCGCCCATGAACAGGAGCTGGCGGCCAGGCTGGCGCAGTTCGGCGAAGTCCTGAACAACGTGGCCGACAAGGGCACGCCGCACACCTTGTGCGCCTACCTGTACGACGTCGCCGGGCTGTTTTCCAGCTTCTACGAGAACTGCCCGATGCTCAACGCCGAGACCCCGGCACAAATGCAGAGCCGCCTGCGCCTCGCCGCGCTGACCGGGCGCACGCTCAAGCAAGGCCTGGAACTGCTGGGCCTGGAAACGCTGGAGCGCATGTAA	MKDTIRQLIQQAITQLVTEGVLPEGLSPAIQVENTRDKTHGDFASNIAMMLAKPAGMKPRDLAEKIIAALPADENVTKAEIAGPGFINFFQNTQALASRLDAALADERLGVRKAGPLQRTVVDLSAPNLAKEMHVGHLRSTIIGDGVARVLEFLGDTVIRQNHVGDWGTQFGMLMAYLQENPITSDELSDLENFYRAAKQRFDESPEFADRARGLVVKLQAGDAECLALWTKFKDISLSHCQKIYELLNVKLSMADVMGESAYNDDLINVVNDLRAKGMLVESNGAQCVFLDQFKTADGEPLPVIIVKADGGYLYATTDLAAVRYRNGVLKADRVLYFVDQRQALHFQQVFEVARLAGFVTHPMEMEHMGFGTMNGADGRPFKTRDGGTVKLIDLLTEAQDRAYTLVKGKNPELAEDELRKIAKVVGIDAVKYADLSKHRASDYSFNFDLMLNFEGNTAPYLLYAYTRVAGVFRKLGKGFDEIEGQIVLEAAHEQELAARLAQFGEVLNNVADKGTPHTLCAYLYDVAGLFSSFYENCPMLNAETPAQMQSRLRLAALTGRTLKQGLELLGLETLERM				NA	NA	NA	NA	NA
D1-35_03296	2220	priA	COG1198	Primosomal protein N'	GTGCCCGACGCCATCCTGCGCCTCGCCCTGCCATCGCCCCTGCGACGTCTGTTCGACTACCGTGCCCCAGCCGGGGTAACACGCGCCCAGTTGCAGCCGGGCATGCGCCTGCGGGTGCCGTTCGGCCGGCGGGAAATGATCGGGATCCTGGTGGAAGTCACCGATCACAGCGAAGTGCCGGTCGACAAGCTCAAACCGGCCCTGGCGCTGCTCGACGCCACGCCACCGCTGCCCGCGGCGCTGTTCAAGCTGTGCCTGTGGACCGCACAGTATTATCAGCACAGCCTGGGCGACACCTTGAGCTGGGCGTTACCGGTGCTGTTGCGCCAGGGCGAACCGGCCGAGGCACGCCAGGAGCGATTCTGGTCGGTGACGCCGGGCGCTTCGCTGGATGACCCGCGCATCGCCCGCGCACCGCGCCAACGCGAGGCCCTGGCGACCCTGGCCCAGCATCCCCATGGGGTAGCGCACCAGCTGTTGAGCAAGTTGATGCTCAGCAAGGACAGCCTTGACCTGCTGCTGGCCAAGAATCTCGTCCAGGTAGAAGTCCGCCGGCACGCCCCCGACGCGCGCCACGAACACTGGCTGGCCCAGCCGGAACTGCCGCTCAACGCCGAACAGCGGACCGCTTGCGAGGCGATTCGCGCGGGTTTCGACAGTTATCACGCCTTTCTGCTGGCGGGAGTCACCGGCAGCGGCAAGACCGAGGTCTACCTGCAACTGATCCGTCAGACCCTCGAAGCCGGCAAGCAGGCTTTGGTGCTGATTCCGGAAATCAACCTGGGCCCGCAGACCCTGGCGCGCTTCGAGCAGCGCTTCAATGCGCGCATCGCCCTGGTGCATTCGGCGGTCAACGACCGCGAGCGCCTGGAAGCCTGGCTCGCCGCGCGCGACGGCGAGGCCGACATCATCATCGGCACCCGCTCGGCGCTGTTCACGCCGATGAAAAACCCCGGCTTGATCATCATCGATGAAGAACACGACGGCTCCTATAAACAGCAGGAAGGCCTGCGCTACCACGCCCGTGACCTGGCGCTGGTGCGGGCTCGCCAGGAAAACATCCCGATCGTGCTCGGCTCGGCCACGCCCTCCCTGGAAAGCCTGCACAACGCCTACACCGGCCGCTATGGCCTGCTGCGCCTCAACGAACGGGCCGGCGGCGCCAAGCAGCCGCGCTTCCTGCGCCTGGATGTGAAAAGCCGCCCGCTGGACAGCGGCATTTCCGGACCGATGCAGCAAGCCATCGGCCAGACCCTTGCCGCTGGGCAGCAGGTGCTGGTGTTTCTCAACCGCCGGGGGTTCGCCCCGACCCTGCTGTGCCATGACTGCGGCTGGATGTCCGGCTGCGAACGCTGCGACGCGCGGATGACCGTGCATCAGCGCTACGGCGAACTGCGCTGTCACCATTGCGGACACTCCGAGCCGGTACCGAGGCACTGCCCGCAATGCGGGAAAGTGGACCTGCGTCCGGTAGGCGCCGGCACCGAGCGCGCCGAGGAGCGGCTGGGCATCCTGTTTCCTGATTACCCGGTGCTGCGGGTGGATCGCGACAGCACCTCGCGCAAGGATGCGATGAATCAGCTGTTCGCCACGATCCAGAAGGGCCAGCCGTGCATCCTGGTGGGCACGCAGATGCTCGCCAAGGGGCATCACTTCCCGCGCGTGACGCTGGTATCGATCCTGGATGCCGACGGTGGGTTGTTTTCCGGTGACTTCCGCGCGAGCGAGCGCATGGCGCAGCTGATCGTCCAGGTCGCAGGTCGCGCCGGACGGGCCGAGGAGCCGGGCAAAGTGATTATCCAGACCCACCTGGCCGACCACCCGCTGCTGATCCAACTGACCGAGCAGGGCTACTTCGCCTTCGCCGAGCAGGCCTTGAGCGAACGTCGCGCCGCCGGGCTGCCGCCGTTCGCCCATCTGGCGCTGCTGCGGGCCGAGGCCCACAAGCCAGGACAGGCCGAAGGCTTCCTGGACGAAGCGTGCAGCGAGGCCGAGCGCCTGCTGGCGGAACAGAGCCTCAGCGGGATCGAACTATTGGGCCCGGTGCCGGCTCCGATGGAACGGCGGGCGGGACGTTATCGCGCACAGCTTTTATTACAGGCCAATGCCCGCGCACCGCTGCATCGGTTGCTGAGCGCCTGGTTGCTGGTACTGGAACAACTGCCCAGCGGGCGGTCGGTGCGCTGGTCGCTGGATGTGGATCCGGTGGATTTGTATTAA	MPDAILRLALPSPLRRLFDYRAPAGVTRAQLQPGMRLRVPFGRREMIGILVEVTDHSEVPVDKLKPALALLDATPPLPAALFKLCLWTAQYYQHSLGDTLSWALPVLLRQGEPAEARQERFWSVTPGASLDDPRIARAPRQREALATLAQHPHGVAHQLLSKLMLSKDSLDLLLAKNLVQVEVRRHAPDARHEHWLAQPELPLNAEQRTACEAIRAGFDSYHAFLLAGVTGSGKTEVYLQLIRQTLEAGKQALVLIPEINLGPQTLARFEQRFNARIALVHSAVNDRERLEAWLAARDGEADIIIGTRSALFTPMKNPGLIIIDEEHDGSYKQQEGLRYHARDLALVRARQENIPIVLGSATPSLESLHNAYTGRYGLLRLNERAGGAKQPRFLRLDVKSRPLDSGISGPMQQAIGQTLAAGQQVLVFLNRRGFAPTLLCHDCGWMSGCERCDARMTVHQRYGELRCHHCGHSEPVPRHCPQCGKVDLRPVGAGTERAEERLGILFPDYPVLRVDRDSTSRKDAMNQLFATIQKGQPCILVGTQMLAKGHHFPRVTLVSILDADGGLFSGDFRASERMAQLIVQVAGRAGRAEEPGKVIIQTHLADHPLLIQLTEQGYFAFAEQALSERRAAGLPPFAHLALLRAEAHKPGQAEGFLDEACSEAERLLAEQSLSGIELLGPVPAPMERRAGRYRAQLLLQANARAPLHRLLSAWLLVLEQLPSGRSVRWSLDVDPVDLY				NA	NA	NA	NA	NA
D1-35_03297	225	rpmE	COG0254	50S ribosomal protein L31	ATGAAAACCGATATCCATCCGGACTACCCAGTTGTGGCCGTAACCTGCAGCTGCGGCAACAAGTTCGAAACGCGTTCGACCTACGGCAAAGCCCTGGCGATCGACGTTTGCAATGAATGCCACCCGTTCTACACCGGTAAGCAAAAGACTCTGGATACCGGCGGCCGTGTTCAGAAGTTCGCCGATCGTTTCGGTGCTTTCGGCAAAGTTACTCCAAAAGCCTGA	MKTDIHPDYPVVAVTCSCGNKFETRSTYGKALAIDVCNECHPFYTGKQKTLDTGGRVQKFADRFGAFGKVTPKA	PGPT0014325_2973	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014325-rpmEB-K02909	NA	NA
D1-35_03298	822			hypothetical protein	TTGGAAAGTCGTTCCGGCTATTCCAGGCTGATGAAAAAGGCGTCCCTAGCGGGCGCCTTTTTTGTGTCTGCGATTTGGCTCTGTGGTGCCCAGGCGGCGTGCCCGTTCCCGGATGGACTGCCCGACGTGGCCGTGCAACGGGTGGTCGATGGCGACACCTTGTACCTCAGCGACGGTCGTCGCATCCGCATGATCGGTCTCAACAGTCCGGAACTGGGAAAGCGCGGGCGTGCGGACGAGCCGTTTGCCGTGGCGGCGCGCCAGCGGCTCGAGGCACTGGTGGCTGCCAGCGCCGGTCGGGTCAGGGTGTCGCCTGGCAAGGACGACCGGGACGACTACGGGCGCACGCTGGCCCATGTCTATGACCAGCAGGGTCGGAACCTGGAAGAGCAATTGATTGCCGAGGGGCTGGGTTACCTGGTTGCGGTTGCGCCGAATGTCGATCTGGTCGAATGCCAGCAGGCGGCGGAGCGCAAGGCGCGGCAAGCCGGCCTGGGGCTATGGAAGAAGTCACCCGTCGTGCGCGCGGAGCAGATCAAGGCCCCCGGTTTTGCGCTGGTCAGCGGCCGCGTAGACAGTGTGCAACGCAATCGCGGCGGGATCTGGATCGAGCTGCAAGGCTCGGTTGTCCTGCATATTGCGGCCAATCTGCAGCGAAGCTTTGACGCTTCGATGCTCAAGGGCCTGGAAGGCCGGACCATCGAGGCCCGTGGTTGGGTTGTCGATCGCTCTCGACGCGGTGCGGCCAGGCCCGGGCAGGCGCGGTGGATGTTGCCTCTGACTGATCCGGCAATGTTGCAGGCAGTGCTCAGGCAGAAATAA	MESRSGYSRLMKKASLAGAFFVSAIWLCGAQAACPFPDGLPDVAVQRVVDGDTLYLSDGRRIRMIGLNSPELGKRGRADEPFAVAARQRLEALVAASAGRVRVSPGKDDRDDYGRTLAHVYDQQGRNLEEQLIAEGLGYLVAVAPNVDLVECQQAAERKARQAGLGLWKKSPVVRAEQIKAPGFALVSGRVDSVQRNRGGIWIELQGSVVLHIAANLQRSFDASMLKGLEGRTIEARGWVVDRSRRGAARPGQARWMLPLTDPAMLQAVLRQK				NA	NA	NA	NA	NA
D1-35_03299	1269	maeB	COG0281	NADP-dependent malic enzyme	ATGTCTGATCTGAAAACTGCCGCTCTCGAATATCACGCTAATCCTCGTCCAGGAAAGCTGAGTGTCGAGCTCACCAAGGCCACCGCCACTGCCCGCGACCTGTCGCTGGCCTACAGCCCCGGCGTAGCCGAGCCAGTACGCGAAATCGCTCGCGACCCTGAGCTGGCCTACAAATACACCGGCAAGGGCAACCTGGTTGCAGTCATTTCCGATGGCACCGCGATTCTCGGCCTGGGTAACCTCGGCCCACTGGCCTCCAAGCCGGTCATGGAAGGCAAGGGCGTGCTGTTCAAGCGCTTCGCCGGTATCGACGTGTTCGACATCGAAGTCGATTCCGAAAGCCCGCAGGCCTTCATCGACACCGTCAAGCGCATCTCCATCACCTTCGGCGGCATCAACCTGGAAGACATCAAGGCACCTGAGTGCTTCGAGATCGAGCGCGCCCTGATCGAACAGTGCGACATTCCGGTTTTCCACGATGACCAGCACGGCACCGCGATCGTGACCGCAGCCGGCATGATCAATGCCCTGGAAATCGCCGGCAAGACCCTGCCGGAAGCCAAGATCGTCTGCCTGGGCGCGGGTGCCGCGGCCATCTCCTGCATGAAGTTGCTGGTGAGCATGGGCGCCAGGATTGAAAACATCTTCATGGTTGACCGTACCGGCGTGATCCACTCCGGCCGTGACGACCTGAACCAGTACAAGGCCGTGTTTGCCCACGCGACCGACAAGCGCTCCCTGGCGGATGCGCTGGACGGTGCAGACGTGTTCGTCGGCCTGTCGGGTCCGAACCTGCTGAGCCCGGAAAACCTGCTGCGCATGGCGCCGAACCCGATCGTGTTCGCCTGCTCGAACCCGGACCCGGAAATCTCCCCGGAACTGGCTCACGCCACCCGCAGCGACGTGATCATGGCCACCGGCCGTTCGGACTATCCGAACCAGGTCAACAACGTCCTGGGCTTCCCGTTCATCTTCCGTGGTGCCCTGGACGTTCGCGCCAAGCGCATCAACGAAGAAATGAAAGTCGCCGCCGCCAACGCCCTGCGCGAACTGGCCAAGCTGCCGGTGCCTCAGGATGTGTGTGACGCCTATGGCGGCATCAAGCTGGAATTCGGTCGTGAGTACATCATTCCGAAGCCAATGGATGCGCGCCTGATCACCCTGATCTCCGACGCCGTGGCCAAGGCCGCGATCGAGACTGGCGTGGCCACCCTGCCGTATCCGAAGAACTACCCGCTCAAGAGCGTGGATGACGTGTTCAACGGCTAA	MSDLKTAALEYHANPRPGKLSVELTKATATARDLSLAYSPGVAEPVREIARDPELAYKYTGKGNLVAVISDGTAILGLGNLGPLASKPVMEGKGVLFKRFAGIDVFDIEVDSESPQAFIDTVKRISITFGGINLEDIKAPECFEIERALIEQCDIPVFHDDQHGTAIVTAAGMINALEIAGKTLPEAKIVCLGAGAAAISCMKLLVSMGARIENIFMVDRTGVIHSGRDDLNQYKAVFAHATDKRSLADALDGADVFVGLSGPNLLSPENLLRMAPNPIVFACSNPDPEISPELAHATRSDVIMATGRSDYPNQVNNVLGFPFIFRGALDVRAKRINEEMKVAAANALRELAKLPVPQDVCDAYGGIKLEFGREYIIPKPMDARLITLISDAVAKAAIETGVATLPYPKNYPLKSVDDVFNG	PGPT0001685_4073	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001685-maeB-K00029	NA	NA
D1-35_03300	2448	mrcA	COG5009	Penicillin-binding protein 1A	TTGATTCGTCTGCTGAAATTTTTCGGATGGTCCATCGTCGCGGTTTTCTGCGGACTGCTCCTGGGTCTGAGTGGTGCCTTTCTTTACCTTAGTCCGGGATTGCCGTCCGTGGAGGCGCTGAGAAGTATTCAGTTGCAGATTCCTCTGCGGGTCTACAGCAGCGACAATAAATTGATCGCCGAATTTGGCGAAATGCGCCGCACGCCGATCCGTTTCGCCGACATTCCGCCCAATTTCATCAATGCGTTACTAAGTGCTGAAGACGACAACTTCGCCAACCACTATGGCGTTGATCCGGGCAGCCTGATGCGCGCCGCCAGCCAACTGGTCAAGAGCGGCCACATCCAGTCCGGCGGCAGCACCATCACCATGCAGGTCGCCAAGAATTTCTTCCTGACCAGCGAACGCAGCTTCTCGCGCAAGACCACCGAGATCCTCCTGGCCCTGCAGATCGAGCGGCAACTGACCAAGGATGAAATCCTCGAGCTGTACGTGAACAAGATCTACCTGGGCAACCGCGCCTATGGCATCGAGGCGGCGGCGCAGGTGTATTACGGCAAGTCGATCCGCGACGTGAGCCTGGCGCAGATGGCAATGATCGCCGGCCTGCCCAAGGCACCGTCACGTTTCAACCCGCTGGCCAACCCGGCACGCAGCAAGGAGCGTCGCGACTGGATCCTGGGGCGCATGTACAAGCTCGGCAAGATCAGCGAAGCCGACTACACCGCCGCGATCAACGAGCCCTTGAACGCCAGCTATCACGTACCGACTCCGGAAGTGAACGCCCCGTACATCGCCGAAATGGCCCGGGCCGAGATGGTCGGGCGCTATGGCAGCGACGCCTATACCGAAGGTTTCCGGGTCACCACCACGGTGCCGAGCAACCTGCAGGAAATGGCCAATACCGCGCTCCATGAAGGCCTGATGACCTACGACCAGCGCCACGGCTACCGTGGGCCGGAATCGCGCCTGCCAGGCAAGACCAAGGAAGCCTGGGCCCTGGAGCTGACCAAGCAGCGCACCATCAGCAGCCTGGAGCCGGCGATCGTCACTCAGGTGGACAAGGACGGCATCAAGGTCCTGACCCGCAATGGCGAGTCCGAAGAGCACGTGGCCTGGGACACCATGAAATGGGCCCGTCCGTTCCTCAATACCAACAGCATGGGCGCCAACCCGCGGCAGCCGTCGGACGTCGCTCAGGTCGGCGACCTGATCCGCGTACAGCGCCAGCCGGACAACTCCCTAAAGTTCAGTCAGATACCTGCCGCCCAAGGCGCGCTGGTGTCGCTGGACCCGCAGAATGGCGCGATCCGCTCGCTGGTGGGTGGTTTCGCCTTCGAGCAGAGCAATTACAACCGCGCCTTGCAGGCCAAGCGTCAACCGGGCTCGAGCTTCAAGCCGTTCGTCTACAGCGCTGCGCTGGATAACGGCTACACCGCCGCCAGCCTGGTCAACGATGCGCCGATCGTGTTTGTCGACGAGTACCTCGACAAGGTCTGGCGACCGAAGAACGACACCAATACCTTCCTCGGCCCGATTCGCCTGCGCGAAGCGCTGTACAAGTCCCGCAACCTTGTCTCGATCCGCCTGCTGCAGGCGCTGGGCGTGGACCGCACCATCGACTACATCAGCAAGTTCGGCTTCAACAAGCAGGACCTGCCGCGCAACCTGTCCCTGGCACTGGGCACCGCGACGCTGACGCCAATGGAAATCGCCACGGGTTGGAGCACCTTTGCCAACGGCGGCTACAAGATCACTCCGTACATCATCGACAGGATTGAAAGCCGCAACGGCGAAACGCTGTTTGTCGCCAACCCGCCACGAGTACCGACAGGCGAGCAGGCCAGCGACGGCGTCGCCGCCCCCGCCGCCGAGACCCTCACAGTCAAAGCAACTGGCGGCGAAGCCACCACCGCCCCTGGCGTACCGCAAGCGCCGGCAATCGCCGAACGCATCGTTGACGGCCGTACCACCTACATCCTCAACAGCATGCTGCAGGATGTGATCAAGCTCGGCACCGGCCGGCGCGCCCTGGCACTGGGTCGCACCGACCTGGCCGGCAAGACCGGTACCACCAACGAATCGAAGGATGCATGGTTCTCGGGCTACAACGGAGATTACGTGACCACCGTCTGGACCGGCTTCGACCAGCCCGAGAGCCTGGGTCGTCGCGAATTCGGCGGTACCGTGGCGCTGCCGATCTGGATGACCTACATGGGCGCCGCCCTCAAGGACCGGCCACCCCACACCCAGCCGGAACCGGAAGGCATCCTCAGCCTGCGGGTCGACCCGGCCAGCGGTCGCGCCGCCACCCCAGGCACGCCTGGCGCGTACTTCGAGCTGTTCAAGAGCGAAGACACGCCGCCGTCGGTCAATGAGCTGGGCAACGGTGTAGCGCCGGGCAGCCCGCTGCCGGCGGATGAGGCAGCGCCGATCGATCTGTTCTGA	MIRLLKFFGWSIVAVFCGLLLGLSGAFLYLSPGLPSVEALRSIQLQIPLRVYSSDNKLIAEFGEMRRTPIRFADIPPNFINALLSAEDDNFANHYGVDPGSLMRAASQLVKSGHIQSGGSTITMQVAKNFFLTSERSFSRKTTEILLALQIERQLTKDEILELYVNKIYLGNRAYGIEAAAQVYYGKSIRDVSLAQMAMIAGLPKAPSRFNPLANPARSKERRDWILGRMYKLGKISEADYTAAINEPLNASYHVPTPEVNAPYIAEMARAEMVGRYGSDAYTEGFRVTTTVPSNLQEMANTALHEGLMTYDQRHGYRGPESRLPGKTKEAWALELTKQRTISSLEPAIVTQVDKDGIKVLTRNGESEEHVAWDTMKWARPFLNTNSMGANPRQPSDVAQVGDLIRVQRQPDNSLKFSQIPAAQGALVSLDPQNGAIRSLVGGFAFEQSNYNRALQAKRQPGSSFKPFVYSAALDNGYTAASLVNDAPIVFVDEYLDKVWRPKNDTNTFLGPIRLREALYKSRNLVSIRLLQALGVDRTIDYISKFGFNKQDLPRNLSLALGTATLTPMEIATGWSTFANGGYKITPYIIDRIESRNGETLFVANPPRVPTGEQASDGVAAPAAETLTVKATGGEATTAPGVPQAPAIAERIVDGRTTYILNSMLQDVIKLGTGRRALALGRTDLAGKTGTTNESKDAWFSGYNGDYVTTVWTGFDQPESLGRREFGGTVALPIWMTYMGAALKDRPPHTQPEPEGILSLRVDPASGRAATPGTPGAYFELFKSEDTPPSVNELGNGVAPGSPLPADEAAPIDLF	PGPT0023875_2366	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023875-mrcA-K05366	NA	NA
D1-35_03301	1065	ftsA_2		Cell division protein FtsA	GTGCTACGACTCTTCAATAAAAAAGCCCACACACTTCTGGGGATCGACATCAGCTCGACGTCGGTGAAGCTGCTCGAATTGAGCCGTCAGGGCGATCGTCTGCGTGTCGAGTCCTACGCTGTCGAGCCGTTGCCAGCCAATGCCGTGGTGGAAAAGAACATCGCCGAGCTGGAAGGAGTGGGCCAGGCGCTTTCACGAGTGCTGGCCAAGGCCAGGACACCCTTGCGCAACGTGGCGGTGGCCGTGGCGGGGTCGGCGGTTATCACCAAGACCATCGAGATGGACGCCGGGCTGTCCGATGACGACATGGAGAACCAGCTCAAGATCGAGGCCGACCAGTACATTCCTTATCCACTGGACGAAGTGGCGATCGATTTCGAGGTGGCCGGCGTATCGCCTCGCAGCGCCGAGCGTGTCGAGGTGCTGCTGGCGGCTTGTCGCAAAGAGAATGTCGAGGTGCGCGAGGCGGCGCTGGCGCTTGCCGGGCTGACGGCCCGGGTGGTCGATGTGGAAGCGTACGCGCTGGAGCGTGCGTTCGGCCTGCTCGCCACTCAGCTGGCGGCATCCCAGGAGCGCCTGACCGTGGCGGTGATCGACATCGGAGCCACGATGACCACGCTCAGCGTGTTGCACAACGGGCGCATCATTTATACCCGCGAGCAGTTGTTCGGTGGGCGCCAGCTTACCGAGGAAATCCAGCGCCGTTATGGCCTGACGCCGGAGCAGGCCGGCGTGGCAAAAAAGCAGGGCGGCCTGCCGGACGACTATCTCGGCGAAGTGCTGCAACCGTTTCGCGAAGCGCTGGTGCAGCAAGTGTCGCGTTCCCTGCAGTTTTTCTTCGCTTCAGGTCAGTACAGCGCAGTGGACCACATCCTGCTGGCGGGAGGCACGGCCTCGGTCGCGGGCCTCGACCGTTTGATCGAGCAGCGCCTGGGCACACCTACCCAGGTGGCCAACCCGTTTACCAACATGGCCTTGAGCAGCAAGGTCAATGCCGGTGCCCTGGCCAGTGATGCGCCAGCCCTGATGATTGCCTGCGGGCTGGCCCTCAGGAGTTTCGACTGA	MLRLFNKKAHTLLGIDISSTSVKLLELSRQGDRLRVESYAVEPLPANAVVEKNIAELEGVGQALSRVLAKARTPLRNVAVAVAGSAVITKTIEMDAGLSDDDMENQLKIEADQYIPYPLDEVAIDFEVAGVSPRSAERVEVLLAACRKENVEVREAALALAGLTARVVDVEAYALERAFGLLATQLAASQERLTVAVIDIGATMTTLSVLHNGRIIYTREQLFGGRQLTEEIQRRYGLTPEQAGVAKKQGGLPDDYLGEVLQPFREALVQQVSRSLQFFFASGQYSAVDHILLAGGTASVAGLDRLIEQRLGTPTQVANPFTNMALSSKVNAGALASDAPALMIACGLALRSFD	PGPT0015945_800	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015945-pilM-K02662	NA	NA
D1-35_03302	567			hypothetical protein	ATGGCTCGGATCAACCTGCTTCCCTGGCGCGAAGAACTGCGCGAAGAGCGGCGCAAGCGCTTTTTGCTGGCATTGGTGGGGGCGCTGGTCGGTGCGGTGGGGCTGACGCTGCTGGCGGCACAGTACCTGAGCAACGAGATTGACTACCAAATGGCGCGCAACGCCCATCTGACCGGGGAAATCGCCGTGCTGGACGAGCGCATCAAGCAGATCAGCGAGCTGAAGGCTCGGCGTCAGCAACTGTTGGAGCGCATGCGGATCATCCAGGACTTGCAGGGCAACCGGCCGGTCAGTGCGCGCATTTTCGATCAACTGGCGCGGACCCTGCCGGATGGGGTGTTTTTCACTGAAGTGAAAATGGAAGAGGGCACGCTCTCCATCAAAGGGGCCGCGGCGTCAAACAACCGGGTCTCGGACCTGATGCGCAACCTCGACTCGTCGGAGCTGTTCGATGCGCCCAGCCTGACGGAGGTCAAGGCCACCACGGCGGGCCAGCTCGACCAGGCCAATGTCTTCCAGCTGACGGTTCGCCAGACCCGTCCGGCCGATGCGGAGGACGCCCAATGA	MARINLLPWREELREERRKRFLLALVGALVGAVGLTLLAAQYLSNEIDYQMARNAHLTGEIAVLDERIKQISELKARRQQLLERMRIIQDLQGNRPVSARIFDQLARTLPDGVFFTEVKMEEGTLSIKGAAASNNRVSDLMRNLDSSELFDAPSLTEVKATTAGQLDQANVFQLTVRQTRPADAEDAQ	PGPT0015940_1013	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015940-pilN-K02663	NA	NA
D1-35_03303	624			hypothetical protein	ATGAAGCCGGCAGAGTGGTTCGACGCGCTGCGCAAGATCGATCTCAGTGACCTGGACACCAACAATGTCGGTTCATGGCCGACGCCGGTCAAGTGGCTGGCCGGCATCATGCTAGTGATCCTGGTGCTCGGCCTGGGCTACAACTTTGCCCTCAGTGACCTGGAAAACCAGCTGCAGCAGGTCCGTGAGGAGGAGAACACCCTCAAGGCGCAATTCGCCGGCAAGGCGCACATGGCGGCGAACCTGGAGCGCTATACCGAGCAGATGAAGCAGATGGAAACTTCCTTTGGCGTGCTGTTGCGCCAATTGCCCAGTGACACTGAAGTGCCGGGCCTGCTGGAGGACATCACCCGCACCGGCCTGGGCAGCGGCCTGGAGTTCGAGGAGATCAAGTTGCTGCCGGAGGTCACCCAGCCGTTCTACATCGAGTTGCCGATCCAGATCACTGTGACCGGCGGCTACCATGACCTGGCGACCTTCGTCAGCGGCGTAGCCGGGTTGCCCCGGATCGTCACCCTGCACGATTTCGAGATCGCGCCGATGGAGCCGGAGGCGGGGACGAAGCTGCGCATGAACATCCAGGCCAAGACCTACCGGTACAACGAGCAGGAGGCGCAGCCATGA	MKPAEWFDALRKIDLSDLDTNNVGSWPTPVKWLAGIMLVILVLGLGYNFALSDLENQLQQVREEENTLKAQFAGKAHMAANLERYTEQMKQMETSFGVLLRQLPSDTEVPGLLEDITRTGLGSGLEFEEIKLLPEVTQPFYIELPIQITVTGGYHDLATFVSGVAGLPRIVTLHDFEIAPMEPEAGTKLRMNIQAKTYRYNEQEAQP	PGPT0015955_795	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015955-pilO-K02664	NA	NA
D1-35_03304	546			hypothetical protein	ATGACGCCGGTCTGCCGCCTGGGTCTGCTGGTCGGGCTGGTTGCGCTGGCCGGGTGCAACAACGACAACGGTTTCAGTGACCTGGATGCCTACATGAACGAGATGCGCCTGCGCCCGCCCGGCAAGATCGAGCCAATGCCGACCTTCAGGCCTCACGAAACCTTTACCTACAGCGCGGCCAACTTGCGCAGCCCTTTTTCCCGGCAGGTTCCAGTCGATCAGGCTGGTCGACAGCAGGGCTCGCGCAACGTCCGCCCCGACCCGAACCGAGTCAAGCAATACCTGGAAGGCTTCAACATCGAGCAATTCGAGATGGTCGGTACGATCTCCAATGCCAGCGGCTCTTTTGCGCTGTTGCGTGGCGCTGGTGGGGTACACCGGCTGAAGGTCGGAGATTACCTGGGGCGTAACGACGGGCGGATCATCGCTATCAGCGCCACCCAGGTTGAAGTGGTCGAAATCGTTCCCGATGGCCAGGGCGCCTGGCTGGAGCGGCCGCGGACCATTCCCTTGAAAGAGCACTCAATAGTGGAACTCCAACAATGA	MTPVCRLGLLVGLVALAGCNNDNGFSDLDAYMNEMRLRPPGKIEPMPTFRPHETFTYSAANLRSPFSRQVPVDQAGRQQGSRNVRPDPNRVKQYLEGFNIEQFEMVGTISNASGSFALLRGAGGVHRLKVGDYLGRNDGRIIAISATQVEVVEIVPDGQGAWLERPRTIPLKEHSIVELQQ	PGPT0015950_581	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015950-pilP-K02665	NA	NA
D1-35_03305	2073	pilQ		Type IV pilus biogenesis and competence protein PilQ	ATGAACAGGATTTTTTCAGCCCTCGGTATTTCGCTATGGATAGCGTTGTTGTCGCCGGTGGTTCATGGCGCCAGCCTGAAAGCGCTGGATGTCGCGGCGTTACCGGGGGACCGGATCGAGTTGAAGCTGACTTTCGACGGGCCGCCGCCCAAGCCCCGTGGTTATACCACCGAGCAACCGGCCCGCATCGCGCTGGATCTGCAGGGGGTGACCAGCCAACTGGCCAGCAAGAGCCGCGACCTGGGCAGTGGCAATGCCCGCAGCGCCACCGTGGTCGAGGCGGGGGATCGTACCCGGTTGATCATCGGCCTTACGCAACTGGCGCCCTATGACACGCGGGTGGAGGGCAACAATCTGTTCGTGGTGGTTGGCAAGGGCGCGACATCGAGAAGCCCGGCCCAACCCGCTCGCCCGGCGACCACCGTCCCTGTGTCTGCCAGGGCTCGCGCCCCGGCGGGCAAAGCCATTCGCGGGGTGGATTTCCAGCGCGGGACCCAGGGTGAAGGCAATGTGGTGATCGATTTGTCCGATCCGTCCATCGCCCCGGACATCCAGGAGCGCGAAGGCAAGATCATCCTCGATTTCGCCAGGACCCAGTTGCCCGAGCCGCTGAGGGTGCGCCTGGACGTCAAGGATTTCGCCACCCCGGTGCAGTTCATCAACGCCAGCGCCGCCTCCGATCGCGCCACCATCAGCATCGAGCCCAGCGGAACCTTCGATTACTCGACCTACCAGACCGACAACAAGCTGACCGTCAGTGTCCGGCCGATGACCGTCGAGGACCTGCAAAAACGCGATACCGATCGAGCCGCCTATAACGGCGAAAAACTGTCCCTGAACTTCCAGGACATCGAGGTGCGTTCGGTACTGCAGCTGATTGCCGATTTCACCAACCTCAACCTGGTGGCCAGCGATACGGTGCAGGGCGGTATCACCCTGCGGTTGCAGAACGTGCCGTGGGATCAGGCGCTGGACCTGGTGCTCAAGACCAAGGGGCTCGACAAGCGCAAAGTAGGTAACGTGCTGCTGGTGGCACCGGCTGACGAGATCGCCGCCCGCGAACGCCAGGAGCTGGAATCGCAAAAGCAGATTGCCGACCTCGCCCCGTTGCGCCGCGAACTGCTGCAGGTCAACTACGCGAAGGCGGCGGACATCGCCAAGCTCTTCCAGTCGGTGACCAGTGCCGAGGCCAAGGCCGATGAGCGCGGCACGATCACGGTCGACGAGCGGACCAACAACATCATCGCCTACCAGACCCAGGACCGGCTCGACGAACTGCGCCGGATCGTGGCGCAGCTGGATATCCCGGTGCGCCAGGTGATGATCGAGGCGCGTATCGTCGAGGCCAACGTCGACTACGACAAAAGCCTGGGCGTGCGCTGGGGGGGCTCGATACAGAACAAGGGCAACTGGAACTCTTCCGGGGTGACCACCGGTGATTCCACCACCATTGGTACGCCGGGCAGCACCAGCACCAACCAGCCATTCGTCGACCTCGGCGCCTCTGGCAATACCTCGGGGATCGGTATCGCGTTCATCACCGACAACGTCCTGCTCGACCTTGAGCTGACGGCCATGGAGAAAACCGGCAACGGTGAAATCGTCTCACAGCCCAAGGTGGTGACCTCCGACAAGGAGACGGCAAAAATCCTCAAGGGCACGGAGATTCCCTACCAGGAGGCCAGCTCCAGCGGCGCCACCTCGGTGTCGTTCAAGGAGGCCTCGTTGTCGCTTGAGGTCACGCCGCAGATAACCCCGGACAACCGCATCATCATGGAGGTCAAGGTCACCAAGGATGAGCCGGACTACCTGAACAAGGTCCAGGATGTACCGCCGATCAAGAAAAACGAGGTCAACGCCAAGGTGCTGGTCAACGACGGCGAGACCATTGTGATTGGGGGCGTTTTCTCAAATACTCAGAGCAAGGTTGTAGATAAGGTGCCATTTCTTGGCGATGTGCCGTATCTTGGCCGCCTTTTCCGGCGTGATGTGGTTTCGGAGAAAAAATCCGAGCTGCTGGTATTTCTCACTCCGCGTATCATGAACAACCAGGCGATTGCTGTGAGTCGTTGA	MNRIFSALGISLWIALLSPVVHGASLKALDVAALPGDRIELKLTFDGPPPKPRGYTTEQPARIALDLQGVTSQLASKSRDLGSGNARSATVVEAGDRTRLIIGLTQLAPYDTRVEGNNLFVVVGKGATSRSPAQPARPATTVPVSARARAPAGKAIRGVDFQRGTQGEGNVVIDLSDPSIAPDIQEREGKIILDFARTQLPEPLRVRLDVKDFATPVQFINASAASDRATISIEPSGTFDYSTYQTDNKLTVSVRPMTVEDLQKRDTDRAAYNGEKLSLNFQDIEVRSVLQLIADFTNLNLVASDTVQGGITLRLQNVPWDQALDLVLKTKGLDKRKVGNVLLVAPADEIAARERQELESQKQIADLAPLRRELLQVNYAKAADIAKLFQSVTSAEAKADERGTITVDERTNNIIAYQTQDRLDELRRIVAQLDIPVRQVMIEARIVEANVDYDKSLGVRWGGSIQNKGNWNSSGVTTGDSTTIGTPGSTSTNQPFVDLGASGNTSGIGIAFITDNVLLDLELTAMEKTGNGEIVSQPKVVTSDKETAKILKGTEIPYQEASSSGATSVSFKEASLSLEVTPQITPDNRIIMEVKVTKDEPDYLNKVQDVPPIKKNEVNAKVLVNDGETIVIGGVFSNTQSKVVDKVPFLGDVPYLGRLFRRDVVSEKKSELLVFLTPRIMNNQAIAVSR	PGPT0015965_716	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015965-pilQ-K02666	NA	NA
D1-35_03306	492	aroK	COG0703	Shikimate kinase 1	ATGGGGGCTGGAAAAAGCACCATCGGTCGTTTGCTGGCCAAAGAGCTGCGCCTGCCATTCAAAGATTCCGACAAGGAAATTGAATTGCGCACGGGCGCCAATATCCCATGGATCTTCGATAAGGAAGGCGAACCGGGCTTTCGCGACCGCGAGCAGGCGATGATTGCCGAGCTGTGCGGTTTCGAAGGCGTGGTGCTGGCGACCGGTGGCGGCGCGGTCATGCGCGAGGCCAATCGTCGGGCGCTGCATGCCGGCGGACGGGTGGTCTACCTGCACGCTTCAGTCGAACAGCAGGTGGGTCGCACCGCCCGTGATCGCAACCGGCCGCTGTTGCGCACCGCCGACCCGGCCAAGACGCTGCGGGACCTGCTCGAATTGCGTGATCCGCTGTATCGGGAAATCGCCGACCTGGTCATCGAAACCGATGAACGGCCGCCACGGATGGTGGTGCTGGAAATTCTCGATCGCCTTCAGCAACTGCCACCCCGTTAA	MGAGKSTIGRLLAKELRLPFKDSDKEIELRTGANIPWIFDKEGEPGFRDREQAMIAELCGFEGVVLATGGGAVMREANRRALHAGGRVVYLHASVEQQVGRTARDRNRPLLRTADPAKTLRDLLELRDPLYREIADLVIETDERPPRMVVLEILDRLQQLPPR	PGPT0012900_3624	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
D1-35_03307	1101	aroB	COG0337	3-dehydroquinate synthase	ATGCAGACACTTAAGGTCGACCTGGGCGAGCGCAGCTACCCGATTCATATTGGCGAAGGCTTGCTCGACCAGCCCGAACTGCTGGCGCCGCATATCGCCGGACGGCAAGTCGCGATCATCACCAACGAAACCGTCGCTCCTTTGTACCTGGAACGCCTGACTCGCAGCCTGTCGGCTTTTTCCGTCATTTCCGTCGTACTGCCCGACGGTGAAGCGTTCAAGAACTGGGAAACCCTGCAATTGATCTTCGACGGTCTGCTGACTGCACGTCATGATCGTCGCACCACGGTGATCGCCCTGGGCGGCGGCGTGATCGGCGACATGGCCGGGTTCGCTGCGGCGTGCTATCAACGCGGTGTGGATTTCATCCAGATTCCTACCACGCTGCTATCGCAGGTCGATTCGTCCGTGGGCGGAAAGACCGGCATCAACCATCCGCTGGGCAAGAACATGGTGGGCGCGTTCTATCAGCCCAACGTGGTGCTCATCGACACCGCCTCCCTCAAGACGTTGCCGGCCCGTGAACTGTCCGCAGGCCTGGCTGAAGTGATCAAGTACGGGCTGATCTGCGACGAGCCGTTCCTCGGCTGGCTCGAAGAAAACGTCGACCGCCTGCGTGCGCTGGATCAACAGGCCCTGACTTACGCGATCGAGCGCTCTTGCGCAGCCAAGGCTGCCGTCGTCGGCGCCGATGAGCGCGAATCGGGTGTGCGGGCCACGCTCAACCTCGGCCATACCTTCGGTCATGCCATCGAAACCCATATGGGCTATGGCGTCTGGCTGCACGGTGAGGCCGTTGCCGCAGGGACGGTCATGGCCCTGGAAATGTCCGCGCGCCTGGGTTGGATCAGCCAGCAGGAGCGCGATCGTGGTATTCGCCTGTTTCAACGTGCCGGGTTGCCGGTGGTTCCGCCGGAAGAAATGACCGAGGCGGATTTTCTTGAACACATGGCAATCGACAAAAAAGTGATCGACGGTCGTCTGCGTCTGGTGCTGCTGCGCCGCATGGGCGAAGCGGTAGTGACCGACGATTATCCGAAAGAGGTTCTACAGGCCACGCTGGGAGCGGATTACCGCGCCCTGGCTCAGCTTAAAGGTTAA	MQTLKVDLGERSYPIHIGEGLLDQPELLAPHIAGRQVAIITNETVAPLYLERLTRSLSAFSVISVVLPDGEAFKNWETLQLIFDGLLTARHDRRTTVIALGGGVIGDMAGFAAACYQRGVDFIQIPTTLLSQVDSSVGGKTGINHPLGKNMVGAFYQPNVVLIDTASLKTLPARELSAGLAEVIKYGLICDEPFLGWLEENVDRLRALDQQALTYAIERSCAAKAAVVGADERESGVRATLNLGHTFGHAIETHMGYGVWLHGEAVAAGTVMALEMSARLGWISQQERDRGIRLFQRAGLPVVPPEEMTEADFLEHMAIDKKVIDGRLRLVLLRRMGEAVVTDDYPKEVLQATLGADYRALAQLKG	PGPT0012865_1678	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
D1-35_03308	1587	damX		Cell division protein DamX	ATGACTAGTCTGCATGCCGACGAGGCGTTCCTCGGCCATTTCCAATTGAGTCATGACCCTTTCGCTCCACGGGTCCCGGGCTTCAAGTTTTTCCCTGCTCAACGCAAGCCAGTGCTGGGCCAGTTGCACCATCTGGCCCGCTACAGCCAATTGCTGCTGGTGGTCACCGGCCCCCAGGGCAGTGGCAAGACCTTGCTGCGCCAGGCCCTGGTGGCCAGTACCAACAAGCAGTCGGTGCAAAGCGTGGTGGTATCGGCCCGTGGTGCGGGTGATGCCGCGGGTGTGCTGCGCCAGGTGGCCCAGGCTCTGAATGTCGCCCAGGCGGAAATCGGCGCGATTCTCGACCAGATCGTACAATTGGCGCTCACCGGACAGGAAGTCTACCTGCTGGTGGACGATGCCGAACAACTCGACGAATCGGCCCTGGAGGCACTGCTGGCCCTGGCTGCCGGCGCGCCGGAAGGCCGTCCTCATGTGTTCCTGTTCGGTGAGTCGTCACTGATCGCCGAGCTGGACCAGTTGGAGCTCGAGGAAGAGCGTTTCCACGTTATCGAACTCGCGCCCTACACCGAGGAAGAAACCCGTGAATACCTGGCCCAGCGGCTGGAGGGGGCTGGCCGGGGTATCGAACTTTTCACCGCGGATCAGATCTCTGAGATTCACGAAAGCTCGGACGGCTGGCCTGGCAACATCAACCAGGTGGCCCGAGATGCTCTGATCGAAATCATGATCGCCAGCCGCTCAGCGGTGAAGCGTCCAAGTATGGGGTTCAACATGCCGAAGAAACACGTATTGGCGATTTCCGCCGTTGTCGTGGTTGCGGTGGCCGCCGCCTGGCTGATGCCAGGTCGCAACAAGGCACCGACCACCGGCGCACCTGCCAACGAACAGGCACAGCTGCCTCTCGGCCAGGGCACTCCGCAAGCCAACGGCGGTGCGCCGGCGGTGGAGTTCGCCGGCAATACCCAGCCGATGCCGCTGCCGCTGGTCGGCCAGTCGCAACCGGTCATGCGCGGTCCTCTGGCAGAAGCCGCGGGGGGCATCACCGAAGGCGACGATGGCGCGCCGCCGCCGATCGATGACAGCAGCGACGTACCGCCAACCGTGACCACCACCGCACCACCTGCGGGCGTGCCGGCCGGTCCGACACCGACGCCGACACCTGCCCCGGCTGCCAAACCGACCCCTGCGCCTACCCAGGTCGCCACCGCCAAGCCGGCCCCGACCCCGGCCGCCCCAGCGGCCAAGCCAGCACCGGCGCCTGCGGCCAAGCCTGCCGCCACCCCGGCCAAAGCCACGGGCGGTAGCTGGTACGCAGGTCAGGCACCGGGCAACTACGTGGTGCAGATCCTCGGCACCAGCTCCGAAGCCACTGCGCAGAACTTCGTCAAGGAGCAGGGCGGCGAGTACCGTTATTTCAAGAAAGTGCTCAACGGCAAGCCGCTTTATGTCATCACCTACGGCAGCTTTGCCAATCGTGACGCAGCCGTTTCCGCCATCAAGGCCTTGCCAGCGAAGGTTCAGGCTGGTAAACCTTGGCCTCGCACTGTCGCCAGCGTCCAACAGGAACTGGCAGCAACTCGCTGA	MTSLHADEAFLGHFQLSHDPFAPRVPGFKFFPAQRKPVLGQLHHLARYSQLLLVVTGPQGSGKTLLRQALVASTNKQSVQSVVVSARGAGDAAGVLRQVAQALNVAQAEIGAILDQIVQLALTGQEVYLLVDDAEQLDESALEALLALAAGAPEGRPHVFLFGESSLIAELDQLELEEERFHVIELAPYTEEETREYLAQRLEGAGRGIELFTADQISEIHESSDGWPGNINQVARDALIEIMIASRSAVKRPSMGFNMPKKHVLAISAVVVVAVAAAWLMPGRNKAPTTGAPANEQAQLPLGQGTPQANGGAPAVEFAGNTQPMPLPLVGQSQPVMRGPLAEAAGGITEGDDGAPPPIDDSSDVPPTVTTTAPPAGVPAGPTPTPTPAPAAKPTPAPTQVATAKPAPTPAAPAAKPAPAPAAKPAATPAKATGGSWYAGQAPGNYVVQILGTSSEATAQNFVKEQGGEYRYFKKVLNGKPLYVITYGSFANRDAAVSAIKALPAKVQAGKPWPRTVASVQQELAATR				NA	NA	NA	NA	NA
D1-35_03309	4449	gltB	COG0067	Glutamate synthase [NADPH] large chain	ATGAAAGCAGGTCTGTACCAACCAGATGAATTCAAGGATAACTGCGGTTTCGGCCTGATAGCCCATATGCAGGGCGAGCCCAGTCATACCCTTTTGCAAACGGCCATTGAGGCCCTGACCTGCATGACCCACCGTGGTGGGATCAACGCCGACGGGAAGACCGGCGACGGCTGTGGCTTGCTGATTCAAAAGCCTGACGAGTTCCTGCGTGCCATCGCCCAGGAAACGTTTGGCGTGACCCTGCCCAAGCAATACGCCGTGGGCATGGTGTTTTTCAACCAGGACCCGGTAAAGGCACAAGCCGCTCGCGAGAACATGAACCGCGAGATCCTCGCCGCCGGCCTGCAACTGGTCGGCTGGCGCCAAGTGCCGATCGACACCAGCGTCCTCGGCCGCCTGGCCCTTGAGCGCCTGCCGTTGATCGAGCAAGTGTTCATTGCCGGTGAAGGTTTGAGCGACCAGGAAATGTCGATCAAGCTGTTCAGCTCCCGTCGTCGTTCGTCCGTGGCCAACGCCGCTGATACCGACCACTACATCTGCAGCTTTTCCCACAAGACCATCATTTACAAAGGCCTGATGATGCCGGCGGACCTCACCGCCTTTTATCCGGACCTGAGCGATGAGTGCCTGAAAACCGCGATCTGCGTATTCCACCAGCGCTTCTCCACCAACACCCTGCCGAAATGGCCGCTGGCCCAGCCCTTCCGTTTCCTCGCGCACAACGGCGAGATCAACACCATCACCGGCAACCGCAACTGGGCCCTGGCCCGTCGCACCAAGTTCGCCAATGACCTGATGCCGGACCTCGAAGAGCTCGGCCCGCTGGTCAACCGTGTGGGCTCTGACTCCTCGAGCATGGACAACATGCTCGAACTGATGGTGACCGGCGGCATCGACCTGTTCCGTGGCGTGCGCATGCTTGTTCCGCCAGCCTGGCAGAACGTCGAAACCATGGACCCGGACCTCCGTGCCTTCTACGAATACAACTCCATGCACATGGAGCCGTGGGACGGCCCGGCCGGTATCGTCATGACCGACGGTCGCTACGCGGTGTGCCTGCTCGACCGTAACGGTCTGCGTCCGGCGCGCTGGGTCACCACCACCAATGGTTTCATCACCCTGGCGTCGGAAATCGGCGTGTGGAACTACCAGCCCGAAGACGTCATCGCCAAAGGCCGCGTGGGCCCTGGGCAGATTTTCGCCGTGGACACCGAGACCGGGCAGATCCTCGACACCGACGCGATCGACAACCGTCTCAAGTCCCGTCATCCGTACAAGCAATGGCTGCGCAAGAATGCCTTGCGCATCCAGGCGACCATGGAAGACAACGACCACGGCTCGGCTTTCTACGACGTCGACCAGCTCAAGCAGTACATGAAGATGTACCAGGTGACGTTCGAAGAGCGTGACCAGGTGTTGCGTCCGCTGGGCGAGCAGGGCTACGAAGCGGTCGGCTCCATGGGCGATGACACGCCGATGGCCGTGCTGTCCCAGCGCGTGCGCACGCCATATGACTATTTCCGCCAGCAGTTCGCCCAGGTAACCAACCCGCCGATCGACCCGCTGCGCGAAGCGATCGTGATGTCCCTGGAAATCTGCCTCGGTGCCGAGCGCAACATTTTCCAGGAGTCGCCGGAACACGCTTCGCGGGTGATCCTCAGCTCGCCGGTCATTTCTCCGGCCAAGTGGCGCTCGCTGACCAACCTTGATCGTCCCGGCTTCGAACGCCAGGTCATCGACCTGAACTACGACGAAAGCGTCGGCCTGGAAGCGGCGATCCGCAACGTTGCCGATCAGGCCGAAGAAGCCGCGCGTGCCGGACGTACCCAGATCGTTCTGACCGACCGTCATATCGCGCCCGGCAAGCTGCCGATCCACGCCTCGCTGGCCACCGGCGCGGTGCACCATCGCCTGACCGAAAAAGGCCTGCGCTGCGATTCCAACATCCTCGTGGAAACCGCCACGGCTCGCGACCCGCATCACTTTGCGGTGCTGATCGGCTTTGGCGCCTCGGCGGTGTACCCGTTCCTCGCCTACGAAGTGCTGGGCGACCTGATCCGTACCGGTGAAGTGCTGGGCGACCTCTACGAGGTGTTCAAGAACTACCGCAAAGGCATCACCAAGGGGCTGCTCAAGATCCTCTCGAAGATGGGTATCTCGACTATCGCCTCGTACCGTGGCGCGCAGTTGTTCGAGGCCATCGGTCTGTCCGAAGAAGTCTGCGAGCTGAGCTTCCGTGGTGTCCCGAGTCGCATCAAGGGCACCCGTTTCGTCGACATCGAAGCCGAGCAGAAAGCCCTGGCCGCCGAAGCCTGGAGCCCGCGCAAGCCGATCCAGCAGGGCGGTCTGCTGAAGTTCGTCCACGGTGGCGAATACCACGCCTACAACCCGGACGTGGTCAACACCCTGCAAGCCGCCGTGCAACAGGGCGACTACGGCAAGTTCAAGGAGTACACGGCGCTGGTGGATAACCGCCCGGTGTCGATGATCCGCGACCTGCTCAAGGTCAAGACCCTCGACACGCCGCTGGATATCAGCGAAGTGGAGCCGCTGGAGTCGGTACTCAAGCGTTTCGACTCCGCCGGCATCTCCTTGGGCGCCTTGTCTCCGGAAGCCCACGAAGCCCTGGCCGAAGCCATGAACCGCCTCGGTGCGCGTTCAAACTCCGGCGAAGGCGGCGAAGACCCGGCGCGCTACGGCACCATCAAGAGTTCGAAAATCAAGCAGGTGGCCACCGGCCGCTTCGGTGTGACCCCGGAATACCTGGTCAACGCTGAAGTGCTGCAGATCAAGGTTGCCCAGGGCGCCAAGCCCGGCGAAGGCGGCCAGTTGCCTGGCGGCAAGGTCAACGGCCTGATCGCCAAGCTGCGCTACGCGGTGCCCGGCGTGACGCTGATTTCGCCGCCGCCGCACCACGACATCTACTCGATCGAAGACTTATCGCAACTGATCTTCGACCTCAAGCAGGTGAACCCGAAGGCCCTGGTCTCGGTGAAGCTGGTGGCGGAAGCCGGCGTCGGCACGATTGCCGCCGGCGTGGCGAAAGCCTATGCCGACCTGATCACCATCTCCGGCTACGACGGCGGCACCGGTGCCTCGCCGCTGACCTCGATCAAGTACGCTGGCGCGCCGTGGGAACTGGGCCTGGCCGAAACCCACCAGACCCTGCGCGGCAACGACCTGCGCGGCAAGGTGCGGGTGCAGACCGACGGGGGCCTGAAGACCGGCCTCGACGTGATCAAGGCCGCCATTCTCGGTGCCGAGAGCTTCGGCTTCGGTACCGCGCCGATGATCGCGCTGGGCTGCAAATACCTGCGCATCTGCCATCTGAACAACTGCGCCACCGGCGTGGCGACCCAGAACGAGAAGTTGCGCAAGGATCACTACATCGGCACCGTCGACATGGTGGTGAACTTCTTCACCTACGTGGCCGAAGAGACCCGTGAGTGGCTGGCCAAGCTGGGCGTGCGCTCGCTGGAAGAGCTGATCGGCCGCACCGATCTGCTCGAGGTGCTCGAAGGCCAGACCGCCAAGCAGCATCACCTGGACCTGACCCCGTTGCTGGGCAGCGACCTGATCCCGGCGGACAAGCCACAATTCTGCCAGGTCGATCGCAACCCGCCGTTCGACAAGGGCGAGCTGGCCGAGAAGATGGTCGACATGGCCGCTTCGGCGATCAATGACCTGAGCGGTGCTCAGTTCGAGCTGAATATCTGCAACTGCGACCGCTCCATCGGCGCGCGGATTTCCGGCGAGATCGCCCGCAAGCACGGCAACCAGGGCATGGCTCACGCGCCGATCACGTTCCGCTTCAAGGGCACGGCCGGGCAAAGCTTCGGCGTCTGGAACGCAGGCGGCCTGAACATGTACCTGGAAGGTGACGCGAACGACTACGTGGGCAAGGGCATGACCGGCGGCAAACTGGTCATCGTTCCGCCCAAGGGCAGTGTCTACCGGACCCAGGACAGTGCGATCATCGGCAACACCTGCCTCTACGGCGCCACGGGCGGCAAGCTGTTCGCCGCCGGCACCGCGGGTGAGCGTTTCGCCGTACGTAACTCCGGCGCCCACACCGTGGTGGAAGGCACCGGCGATCACTGCTGCGAGTACATGACCGGTGGTTTCGTCTGCGTACTGGGCAAGACCGGTTACAACTTCGGCTCAGGCATGACCGGCGGTTTCGCCTATGTGCTCGACCAGGACAACAGCTTCGTCGACCGGGTCAACCACGAACTGGTGGAAATCCAGCGGATCAGCGGCGAGGCGATGGAAGCCTACCGCAGCCACCTGCAACGCGTGCTGAACGAATACGTCGAGGAAACCGACAGTGAGTGGGGTCGTGAACTCGCCGAGAACCTCGATGACTACGTACGTCGTTTCTGGCTGGTCAAGCCGAAAGCGGCCAACCTGAAGTCGTTGCTTTCCAGCACCCGTGCCAACCCGCAGTGA	MKAGLYQPDEFKDNCGFGLIAHMQGEPSHTLLQTAIEALTCMTHRGGINADGKTGDGCGLLIQKPDEFLRAIAQETFGVTLPKQYAVGMVFFNQDPVKAQAARENMNREILAAGLQLVGWRQVPIDTSVLGRLALERLPLIEQVFIAGEGLSDQEMSIKLFSSRRRSSVANAADTDHYICSFSHKTIIYKGLMMPADLTAFYPDLSDECLKTAICVFHQRFSTNTLPKWPLAQPFRFLAHNGEINTITGNRNWALARRTKFANDLMPDLEELGPLVNRVGSDSSSMDNMLELMVTGGIDLFRGVRMLVPPAWQNVETMDPDLRAFYEYNSMHMEPWDGPAGIVMTDGRYAVCLLDRNGLRPARWVTTTNGFITLASEIGVWNYQPEDVIAKGRVGPGQIFAVDTETGQILDTDAIDNRLKSRHPYKQWLRKNALRIQATMEDNDHGSAFYDVDQLKQYMKMYQVTFEERDQVLRPLGEQGYEAVGSMGDDTPMAVLSQRVRTPYDYFRQQFAQVTNPPIDPLREAIVMSLEICLGAERNIFQESPEHASRVILSSPVISPAKWRSLTNLDRPGFERQVIDLNYDESVGLEAAIRNVADQAEEAARAGRTQIVLTDRHIAPGKLPIHASLATGAVHHRLTEKGLRCDSNILVETATARDPHHFAVLIGFGASAVYPFLAYEVLGDLIRTGEVLGDLYEVFKNYRKGITKGLLKILSKMGISTIASYRGAQLFEAIGLSEEVCELSFRGVPSRIKGTRFVDIEAEQKALAAEAWSPRKPIQQGGLLKFVHGGEYHAYNPDVVNTLQAAVQQGDYGKFKEYTALVDNRPVSMIRDLLKVKTLDTPLDISEVEPLESVLKRFDSAGISLGALSPEAHEALAEAMNRLGARSNSGEGGEDPARYGTIKSSKIKQVATGRFGVTPEYLVNAEVLQIKVAQGAKPGEGGQLPGGKVNGLIAKLRYAVPGVTLISPPPHHDIYSIEDLSQLIFDLKQVNPKALVSVKLVAEAGVGTIAAGVAKAYADLITISGYDGGTGASPLTSIKYAGAPWELGLAETHQTLRGNDLRGKVRVQTDGGLKTGLDVIKAAILGAESFGFGTAPMIALGCKYLRICHLNNCATGVATQNEKLRKDHYIGTVDMVVNFFTYVAEETREWLAKLGVRSLEELIGRTDLLEVLEGQTAKQHHLDLTPLLGSDLIPADKPQFCQVDRNPPFDKGELAEKMVDMAASAINDLSGAQFELNICNCDRSIGARISGEIARKHGNQGMAHAPITFRFKGTAGQSFGVWNAGGLNMYLEGDANDYVGKGMTGGKLVIVPPKGSVYRTQDSAIIGNTCLYGATGGKLFAAGTAGERFAVRNSGAHTVVEGTGDHCCEYMTGGFVCVLGKTGYNFGSGMTGGFAYVLDQDNSFVDRVNHELVEIQRISGEAMEAYRSHLQRVLNEYVEETDSEWGRELAENLDDYVRRFWLVKPKAANLKSLLSSTRANPQ	PGPT0000635_3401	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000635-gltB-K00265	NA	NA
D1-35_03310	1419	gltD	COG0493	Glutamate synthase [NADPH] small chain	ATGGCTGAACGTCTGAATAACGACTTCCAGTTCATCGATGTCGGGCGCAAGGATCCGAAGAAGAAACTGTTGCGTCAACGCAAGAAAGAGTTCGTGGAAATCTACGAGCCCTTCAAACCCCAGCAGTCGGCCGACCAGGCTCACCGTTGCCTGGGCTGCGGTAACCCGTACTGCGAATGGAAGTGCCCGGTGCACAACTTCATTCCCAACTGGCTGAAGCTGGTGGCCGAGGGCAACATCCTCCAGGCCGCCGAACTGTCCCACCAGACCAACACCTTGCCGGAAGTCTGCGGCCGGGTGTGCCCGCAGGATCGCCTGTGCGAGGGTGCCTGCACCCTCAACGACGGTTTTGGCGCGGTGACCATCGGTTCGGTGGAGAAGTACATCACCGACACCGCATTCGCCATGGGCTGGCGCCCGGACATGTCCAAGGTCAAGCCGACCGGCAAGCGTGTCGCGATCATCGGCGCCGGTCCGGCGGGCCTGGGCTGTGCCGACGTATTGGTGCGCGGTGGCGTGACCCCGGTGGTGTTCGACAAGAACCCGGAAATCGGTGGCCTGCTGACCTTCGGCATTCCCGAGTTCAAGCTGGAAAAGAGCGTGTTGAGCAATCGTCGCGAAGTGTTCACCGGCATGGGTATCGAGTTCCGCCTGAACACCGAGGTGGGCAAGGACGTCACCATGGAGCAACTGCTTGAGGAATACGACGCGGTCTTCATGGGCATGGGCACCTACACCTACATGAAGGGCGGCTTTGCCGGCGAGGACCTGCCAGGCGTCTACGACGCGCTGGACTTCCTGATCGCCAACGTCAACCGCAACCTGGGCTTTGAAAAGTCGCCGGAAGATTTCGTCGACATGAAAGGCAAGAAAGTCGTGGTACTCGGTGGTGGCGACACGGCGATGGACTGCAACCGCACCTCGATTCGCCAGGGCGCCAAGTCGGTGACCTGCGCCTATCGTCGTGACGAAGCAAACATGCCGGGCTCGCGCAAAGAGGTGAAGAACGCCAAGGAAGAGGGCGTGAAATTCCTCTACAACCGCCAGCCGATTGCGATTGTCGGGGAAGACAAGGTCGAAGGCGTGAAGGTAGTCGAGACCCGTCTTGGCGAACCGGATGCCCGTGGCCGCCGCAGCCCCGAGCCGATCCCCGGTTCCGAAGAGATCATCCCGGCCGACGCCGTGGTCATCGCCTTCGGCTTTCGTCCAAGCCCGGCGCCGTGGTTCGAGCAGTTCAGCATCCAGACCGACAGCCAGGGCCGCGTCGTTGCCCCGGAACAAGGCCAGTACAAGCACCAGACCAGCAATCCGAAGATCTTCGCCGGTGGCGACATGGTCCGCGGTTCGGACCTGGTGGTGACGGCGATCTTCGAAGGCCGCAATGCGGCGGAAGGGATTCTGGATTACTTGCAGGTCTGA	MAERLNNDFQFIDVGRKDPKKKLLRQRKKEFVEIYEPFKPQQSADQAHRCLGCGNPYCEWKCPVHNFIPNWLKLVAEGNILQAAELSHQTNTLPEVCGRVCPQDRLCEGACTLNDGFGAVTIGSVEKYITDTAFAMGWRPDMSKVKPTGKRVAIIGAGPAGLGCADVLVRGGVTPVVFDKNPEIGGLLTFGIPEFKLEKSVLSNRREVFTGMGIEFRLNTEVGKDVTMEQLLEEYDAVFMGMGTYTYMKGGFAGEDLPGVYDALDFLIANVNRNLGFEKSPEDFVDMKGKKVVVLGGGDTAMDCNRTSIRQGAKSVTCAYRRDEANMPGSRKEVKNAKEEGVKFLYNRQPIAIVGEDKVEGVKVVETRLGEPDARGRRSPEPIPGSEEIIPADAVVIAFGFRPSPAPWFEQFSIQTDSQGRVVAPEQGQYKHQTSNPKIFAGGDMVRGSDLVVTAIFEGRNAAEGILDYLQV	PGPT0000640_3460	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000640-gltD-K00266	NA	NA
D1-35_03311	1068	hemE	COG0407	Uroporphyrinogen decarboxylase	ATGACTGCCCTGAAGAACGACCGTTTCCTTCGCGCCCTGCTCAAGCAACCTGTAGACGTCACCCCGGTGTGGATGATGCGCCAGGCCGGTCGCTATCTGCCGGAGTACCGCGCCAGTCGCGCCAAGGCCGGCGACTTCATGAGCCTGTGCATGAACCCGCAGTTCGCCTGTGAGGTCACGATGCAGCCGCTGGACCGCTACCCGCAGCTGGACGCGGCGATCCTGTTCTCCGACATCCTCACCATCCCTGACGCCATGGGCCAGGGCTTGTACTTCGAGACTGGTGAAGGCCCGCGCTTCAGGAAAGTCGTCAGCAGCCTGGCCGACATCGAGGCGTTGCCGATTCCCGATCCGCAGAAAGACCTCGGCTATGTCATGGACGCCGTCAGCACCATTCGCCGCGAACTGAACGGCCGCGTCCCGTTGATCGGTTTCTCTGGCAGCCCGTGGACGCTTGCGACCTACATGGTCGAAGGCGGCTCGTCGAAAGACTTCCGCAAGACCAAGGCGATGCTCTACGACAATCCCCAGGCCATGCATTTGCTGCTGGACAAGCTGGCGCAGTCGGTCACGTCCTATCTCAACGGCCAGATCATGGCCGGTGCGCAAGCGGTGCAGATCTTCGACACCTGGGGCGGCAACCTGTCGGCGGCGGCGTACCAGGAGTTTTCCCTGGCCTACATGCGCAAGATCGTCAGCGGTCTGATTCGCGAACACGAAGGTCGCAAAGTCCCGGTGATCCTGTTCACCAAGAACGGCGGGTTGTGGCTGGAAAGCATCGCCGATGCCGGCGCGGACGCCCTGGGCCTGGACTGGACCTGTGACATCGGCAATGCCCGCGAGCGCGTCGGTAACAGAGTCGCGCTGCAAGGCAACATGGATCCGACCGTGCTGTATGCCAAGCCAGAAGCCATCCGTGCCGAAGTCGGGCGCATCCTCGCCAGTTATGGCAAGGGCAGCGGGCACGTGTTCAATCTCGGTCATGGGATCACCCCGGAAGTCGACCCGGAACACGCTGGGGCTTTCCTGCGGGCGGTGCATGAGTTGTCGGCGCAATATCACGGGTAA	MTALKNDRFLRALLKQPVDVTPVWMMRQAGRYLPEYRASRAKAGDFMSLCMNPQFACEVTMQPLDRYPQLDAAILFSDILTIPDAMGQGLYFETGEGPRFRKVVSSLADIEALPIPDPQKDLGYVMDAVSTIRRELNGRVPLIGFSGSPWTLATYMVEGGSSKDFRKTKAMLYDNPQAMHLLLDKLAQSVTSYLNGQIMAGAQAVQIFDTWGGNLSAAAYQEFSLAYMRKIVSGLIREHEGRKVPVILFTKNGGLWLESIADAGADALGLDWTCDIGNARERVGNRVALQGNMDPTVLYAKPEAIRAEVGRILASYGKGSGHVFNLGHGITPEVDPEHAGAFLRAVHELSAQYHG	PGPT0008465_1890	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008465-hemE-K01599	NA	NA
D1-35_03312	615			hypothetical protein	ATGAAAACCAGAACATTAAAGGGAAGCACGATCCCTGGATTTGATTCTTCGTTGCCCTTGTTTCCCGAATGCCTGCAGAAAAGCCCTTCGAGCTATTCCAAGCCGCGGATACTGCTGCACTGGATATCGGCCTTCATTATTCTATGGACGCTGGCATCCGGTTTTTATGTGGCCTATGTTCCGGTGCCCGTTTCGATCAAACAGTGGGTTGGATCGCTTAATGTTTCACTGACAACGGTATTGATTCCGTTGTTTGCCTGGCGACTCTGGTTGTTTTTCTCCAACCTTGAAATCCGGGCTGCGGCATCGTCCATCAATAAAAGCCTGGCGCTGGCGGTACATGCAGTGATCTATTTGGTCACCAGTGTCGTGCTGGCCACCGGCGTGCTGATGATGACAACGCCGATCAGCCTGTTCGGGCTCATCCAGATCCCCCAGCCGCTGGATGACGAGCGACTGAACGACTTGGCGTTGACCCTCCACATTCTGTCCTGCCTGGCGCTGGCGCTGCTCGTCGCATTGCATATTTGCGCAGTGGTCTGGCATGAGTCTTCTGGCCGCAGGGTGCTACGGCGGATGACATTCAAGAAATCTGTAGGCGTGCTCATTCAGTGA	MKTRTLKGSTIPGFDSSLPLFPECLQKSPSSYSKPRILLHWISAFIILWTLASGFYVAYVPVPVSIKQWVGSLNVSLTTVLIPLFAWRLWLFFSNLEIRAAASSINKSLALAVHAVIYLVTSVVLATGVLMMTTPISLFGLIQIPQPLDDERLNDLALTLHILSCLALALLVALHICAVVWHESSGRRVLRRMTFKKSVGVLIQ	PGPT0013195_501	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0013195-cybB-K12262	NA	NA
D1-35_03313	1278	ynfM		Inner membrane transport protein YnfM	GTGAAAACCGCTGTCGCTCCACTGGCCCATGAAATCCCGCCGCGTCCTCAGGATGATGCCGCTGCCGAGCTCAAGGACATCTATATCGAAAAAGGCACGCCGTTGTTCATGCGTACGGTGTTGGCCTTGTTCTGCGGCGGTTTTGCAACCTTCGCGCTGTTGTACTGCGTGCAACCGATGATGCCGCTGCTGTCGGCGGAGTTTTCCATCAACGCCGCCCAGAGCAGCTTGATCCTGTCGGTGGCGACCGGCCTGCTTGCCGTCGGCCTGTTGGTCACCGGTCCGATTTCCGACCGCATCGGCCGCAAATCAGTGATGGTCGCCGCGCTGTTCGCAGCGGCGCTGTGCACGATCGCCAGTGCGATGATGCCCACCTGGCAAGGCGTGCTGGTCTTGCGCGCCCTGGTGGGGTTGTCGTTAAGCGGATTGGCGGCGGTGGCGATGACCTACCTGAGCGAAGAAATCCATCCCAGGCACATCGGCCTGGCAATGGGGCTGTACATCGCCGGCAACGCCATCGGCGGCATGTGCGGGCGGCTGATCACCGGCGTATTGATCGACTTTGTCAGCTGGCATACCGCGATGCTGGTGATCGGTGGCCTGGCCCTGGTTGCGGCGGCGGTGTTCTGGCGGATCCTTCCCGAATCGCGCAACTTCCGCCCACGCTCGTTGCATCCACGCAGCCTGCTGGACGGTTTCACCCTGCACTTTCGCGACGCCGGGCTACCCCTGCTGTTTCTTGAAGCCTTCGTACTGATGGGGGCGTTCGTCACGCTGTTCAACTACATCGGCTACCGCCTGCTGGCCGCGCCTTACCATATGGACCAGGCATTTGTCGGGTTGCTGTCGGTCGTGTACCTGTCCGGCATCTACAGTTCGGCCAAGGTCGGGGCAATGGCTGACAAGCTCGGCCGGCGGAAAATGCTCTGGGCGACCATCGCGTTGATGCTGGCGGGCCTGCTGTTGACGCTGTTTACGCCGCTCTGGCTGGTGATCATCGGCATGCTGGTGTTCACCTTCGGTTTCTTCGGCGCGCACTCGGTGGCCAGCAGCTGGATCGGCCGCCGCGCCCTGAAGGCCAAGGGCCAGGCTTCGTCGTTGTACTTGTTCAGCTATTACGCCGGCTCGAGCATTGCCGGTACGGCGGGCGGGGTCGCGTGGCACCTGGGGGGATGGAACGGAACCGGGTTGTTCATCGGCGCACTGCTCTTGGTGGCATTGCTGGTAGCCGTGAAACTGGCGAAGCTGCCGCCGCTCCCCGGCAACGTCCAGGGCTAG	MKTAVAPLAHEIPPRPQDDAAAELKDIYIEKGTPLFMRTVLALFCGGFATFALLYCVQPMMPLLSAEFSINAAQSSLILSVATGLLAVGLLVTGPISDRIGRKSVMVAALFAAALCTIASAMMPTWQGVLVLRALVGLSLSGLAAVAMTYLSEEIHPRHIGLAMGLYIAGNAIGGMCGRLITGVLIDFVSWHTAMLVIGGLALVAAAVFWRILPESRNFRPRSLHPRSLLDGFTLHFRDAGLPLLFLEAFVLMGAFVTLFNYIGYRLLAAPYHMDQAFVGLLSVVYLSGIYSSAKVGAMADKLGRRKMLWATIALMLAGLLLTLFTPLWLVIIGMLVFTFGFFGAHSVASSWIGRRALKAKGQASSLYLFSYYAGSSIAGTAGGVAWHLGGWNGTGLFIGALLLVALLVAVKLAKLPPLPGNVQG	PGPT0017201_331	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
D1-35_03314	894	benM		HTH-type transcriptional regulator BenM	ATGGAACTGCGTCACTTGCGTTACTTCATCGCGGTCGCCGAAGAGCTGCACTTCGGCCGCGCCGCCTTGGTGCTTGGGATCTCCCAGCCGCCACTGAGCCAACAGATCCAGGCGCTGGAGCAAGAGATTGGTGCACGCCTGTTCGAGCGCACCAACCGTCGCGTCGAACTGAGCGAGGCCGGACGGCTGTTTCTCGAAGAGGCGCGCCGGGTCCTGGCCCAGGTCGACAAGGCTGCCGACGTAGCCCGCCGCGCCCAGTTGGGGGAATTGGGCGAGCTGAAAATCGGCTTCACCTCCTCAGCCCCCTTCAATTCCACCATTCCCCAGGCGATTTTCACCTTTCGCCAGCGCTTTCCCGCAGTCCACCTGAACCTGCGGGAAATGAGCAGCACCCAAGTGGCCGATGCGTTGCTCGACGAGGCCATCGACGTGGGCATCATGCGTCCGCTGCCGCTTCCCGACGCCTTGAGCGAAATCGAACTCAGCCGCGAACCCTTGGTGGCTGTGCTCAGCTCCAAGCACCCGTTAGCCCAGGGCAGTGACGAAGGCCTGTTTCTCGCTTCGCTGGCCGAGGAACCGTTCGTGTTTTTCCCCCGCAGCTACGGCAGCGGTCTCTACGCCCAATTGTTGACGCTGGCCCGCGACGCCGGTTTCAGCCCGCACTTCGCCCAGGAAGCGGGCGAAGCCATGACCATCATCGGCCTGGTGGCGGCGGGGCTGGGCGTCTCGGTCTTGCCGGCGTCATACCAGCGCATGCGTATCGACGGCGTGGTCTACCGGTCATTGCTCGACCCGGCGGCGGTCTCGGCGGTGTGGCTGGTCCAGCGCAAGGACCAGCGTTCGCCGATGGCGAAGGCGTTTGTGGCGCTGTTGACAAGCAATCCCTTGAGTTGA	MELRHLRYFIAVAEELHFGRAALVLGISQPPLSQQIQALEQEIGARLFERTNRRVELSEAGRLFLEEARRVLAQVDKAADVARRAQLGELGELKIGFTSSAPFNSTIPQAIFTFRQRFPAVHLNLREMSSTQVADALLDEAIDVGIMRPLPLPDALSEIELSREPLVAVLSSKHPLAQGSDEGLFLASLAEEPFVFFPRSYGSGLYAQLLTLARDAGFSPHFAQEAGEAMTIIGLVAAGLGVSVLPASYQRMRIDGVVYRSLLDPAAVSAVWLVQRKDQRSPMAKAFVALLTSNPLS				NA	NA	NA	NA	NA
D1-35_03315	444			hypothetical protein	ATGTTCAAGCAGTTGACCTTTACCGCCTTGCTGGCAGTTGCCACGCTGACCACAGGGTGTGCTTCGGTAAAAATGGCGGATGATTCCCAAGACGCGCGGGCGAAAACCTTTCAGACTTCCCCTGACAAAGCGAACATCTACGTTTATCGCAACGAGAGCATGGGCGCCGGGGTAAAAATGCCCGTAACGCTCAACGGCAAGGCTGTCGGGCAGACTGTTGCCAAGTCGTACTTGATGCTGTCGGTGCCGGCTGGTCAACAGACCCTGGTTTCGTCTGCGGAAAATGACTCAGAGCTCAAGCTCAGCACCGAACCAGGCAAGAATTATTTCGTCTGGCAGGAAGTGAAAGTGGGTTTCATCAAGGCTCGTAACAACCTGCAGGTTGTTGATGACAAAACCGGTCGCGCCGGGGTGTCTGAAAGCAAGCTGATCCAAGCCGAGTAG	MFKQLTFTALLAVATLTTGCASVKMADDSQDARAKTFQTSPDKANIYVYRNESMGAGVKMPVTLNGKAVGQTVAKSYLMLSVPAGQQTLVSSAENDSELKLSTEPGKNYFVWQEVKVGFIKARNNLQVVDDKTGRAGVSESKLIQAE				NA	NA	NA	NA	NA
D1-35_03316	1227	fabF_3	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGAAGCGCGTCGTCGTCACCGGCATGGCCGGCATCACCTCCCTGGGCAGCGATTGGGAGACTATCGCGACCCACTTCGCCGCCAACCGCAGCGGCATCCGGCGCATGCACGAGTGGGACCGCTTCAGCGAATTGAACACCCGCCTGGCCGGGCCCGTGGACGACTTTCAGGTCCCGGCCCACTGGACCCGCAAGCAACTGCGCAGCATGGGCCGGGTTTCCCGCCTGGCGGTGGGCTCGGCGGAACAAGCCCTGGCCGACGCCGGACTGTTGGACGACCCGTCGATCAAGGATGGACGCATGGGTGTGTCGTGCGGCTCCTCCACGGGAAGCACCGATGAGATCAAGGCCTTCGGCAACATGCTGCTCAACAGCGTCGCCGAAGGTTTGAACGCCAACTCCTACGTGCGGATGATGCCGCACACCACGGCGGCCAATATCAGCATCTTCTTCGGGCTGACCGGGCGCCTGATTCCCACTTCCAGCGCCTGCACCAGCGGCAGCCATGGCATCGGCTATGCCTACGAGGCGATCAAGTTCGGCCGCCTGCCGTTGATGCTCGCCGGCGGCGCCGAGGAACTGTGCCCGACCGAAGCAATGGTCTTCGATGCGCTCTACGCCACCAGCCTGAAAAACGATGCCCCACAAACCAGCCCGCGACCCTACGACAAGGGCCGCGATGGCCTGGTGATCGGCGAGGGCGCCGGCATGCTGGTCCTCGAAGAACTTGAACACGCGCTGGCCCGTGGCGCGCGGATCCACGCCGAGATCGTCGGCTTCGGCAGCAATGCCGACGGCCAACACGCCACCCGCCCCGAATTGAGCACCATGCGCCGCGCCATGGAACTGGCCCTGGAAGACGCTGGCCTGGAGCCGTCCGCCATTGGCTACGTCAACGGCCACGGCACCGCCACCGAGCAGGGCGACATTGCCGAAACCCTGGCCACCAGCAGCCTGTTTGGCGAACACATGCCCATCAGTTCGCAGAAAAGCTTCCTCGGCCACACCCTGGGCGCCTGCGGTGCCCTGGAATCCTGGTTCAGCATCGAAATGCTGAACCGTGACCGCTACGTGCACACCTTCAACCTCGACGAAGTCGACCCCGAATGCGGCCGTCTCGATTACCTGCGCAACGAGTTTCGCAGCATGAGCAACGAGTACGTGATGAACAACAACTTCGCCTTCGGCGGGGTCAACACCTCGCTGATTTTTCGGCGCTGGCGTTGA	MKRVVVTGMAGITSLGSDWETIATHFAANRSGIRRMHEWDRFSELNTRLAGPVDDFQVPAHWTRKQLRSMGRVSRLAVGSAEQALADAGLLDDPSIKDGRMGVSCGSSTGSTDEIKAFGNMLLNSVAEGLNANSYVRMMPHTTAANISIFFGLTGRLIPTSSACTSGSHGIGYAYEAIKFGRLPLMLAGGAEELCPTEAMVFDALYATSLKNDAPQTSPRPYDKGRDGLVIGEGAGMLVLEELEHALARGARIHAEIVGFGSNADGQHATRPELSTMRRAMELALEDAGLEPSAIGYVNGHGTATEQGDIAETLATSSLFGEHMPISSQKSFLGHTLGACGALESWFSIEMLNRDRYVHTFNLDEVDPECGRLDYLRNEFRSMSNEYVMNNNFAFGGVNTSLIFRRWR	PGPT0008360_7159	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
D1-35_03317	729	fabG_7		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGACTGAATCCGTACTGGTCACCGGCTCCAGCCGTGGCATCGGCCGCGCCATCGCCCTGCGCCTGGCCCAGGCCGGCCACGACATCGTCTTGCACTGCCGCAGCGGTCGCGCCGAGGCCGAAGCCGTCCAGGCGCAAATCCAGGCCTTGGGCCGCAATGCCCGGGTGCTGCAATTCGACGTCTCCGACCGCGCCGCCTGCAAGACCATCCTTGAGGCCGACGTGGAAACCCATGGCGCCTATTACGGCGTGGTGCTCAACGCCGGCCTGACCCGCGACGGCGCGTTCCCCGCCCTGAGCGAGGACGATTGGGACAGTGTGATGCGCACCAACCTCGACGGTTTCTACAACGTGCTCCACCCGGTGATGATGCCGATGATTCGCCGTCGCGCCGCCGGACGAATCGTTTGCATCACGTCGGTGTCCGGCCTGATCGGCAACCGTGGCCAGGTCAACTACAGCGCCTCGAAGGCGGGCCTGATCGGCGCGGCCAAGGCGTTGGCAATCGAGCTGGGCAAGCGCAAGATCACCGTCAACTGCGTCGCGCCGGGGTTGATCGACACCGCCATGCTCGATGAAAACGTCCCCGTGGAAGAACTGATGAAAATGATCCCCGCCCAGCGCATGGGCACGCCTGAAGAAGTGGCCAGCGCGGTGAATTTCCTGATGTCCGCCGAAGCCGGCTACATCACCCGGCAAGTCCTGGCCGTCAATGGAGGCCTGTGCTGA	MTESVLVTGSSRGIGRAIALRLAQAGHDIVLHCRSGRAEAEAVQAQIQALGRNARVLQFDVSDRAACKTILEADVETHGAYYGVVLNAGLTRDGAFPALSEDDWDSVMRTNLDGFYNVLHPVMMPMIRRRAAGRIVCITSVSGLIGNRGQVNYSASKAGLIGAAKALAIELGKRKITVNCVAPGLIDTAMLDENVPVEELMKMIPAQRMGTPEEVASAVNFLMSAEAGYITRQVLAVNGGLC	PGPT0003180_20079	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
D1-35_03318	468			hypothetical protein	ATGATTGACTGGCCGCTCGCCGAACTGCTGCCGCACGCCGGCGACATGATTCTCATCGACCGGATCCTGTCCTTTGATGACGAGCAGATCCACACCCTCGCTACCGTCAGGCCCGGCGGTCTGTTCAACCGCGACGACGGCGCGCTGCCGGCCTGGGTCGGCATCGAGCTGATGGCCCAGAGCGTCGCGGCGTTTGCCGGTTGCCACGCACGCCAACGCGGCGATGCCGTGGAGCTGGGCTTTTTGCTCGGAACCCGCAAGTTCGAATGCAACGTCGAATATTTCCCTCTCGGCACCGAGCTGACCTTGCACGGCATCCGATCGCTGGAAGACGACAACGGCATGGGTGTGTTCGAATGCCACATCCGCGCGCCCGGTATCCATGCCAGCGCACGGTTGAATGTGTTCCGCCCGCCCCATGCCGCCCAGTACCTCAATGAACCGTCCGCAACAGGAAACCAGCCATGA	MIDWPLAELLPHAGDMILIDRILSFDDEQIHTLATVRPGGLFNRDDGALPAWVGIELMAQSVAAFAGCHARQRGDAVELGFLLGTRKFECNVEYFPLGTELTLHGIRSLEDDNGMGVFECHIRAPGIHASARLNVFRPPHAAQYLNEPSATGNQP	PGPT0013310_18	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0013310-fabB-K00647	NA	NA
D1-35_03319	1197			hypothetical protein	ATGACCGCTTATTTGAACGCCTTGGGCGTGATTTGCGCCCTGGGTCGAGGCAAACAAAACGTTGCCCGCAACCTGTTTGCCGGCGACTGCTCAGGCGTGCGCGTCGAAGCCGGCTGGGTAGCCGAACGGGCATTGCCGGTGGCTTGCGTAACCGGAGAGCTCGCCGCTATCCCTGAATCCATGGCGGCGCAACGCAGCCGCAACAATCAGCTGCTGCTCGAAGCAGGGTTGCAGATTCGTCCCGAGATCGATCAGGCCATCCAGGCTTACGGTCGTGCGCGCATCGGCATCGTGCTGGGGACCAGCACTTCGGGCATCGACGAGGCCAGCCAGGGCATTGCCCACTATCTGCGCGAGCAACGATTCCCCGAAGGTTACGACTACCAGCAGCAGGAACTCAGCGCGCCCGCCAACTTTCTCTCCGACTGGCTTGGCCTGAGCGGCCCGTCCTACGTGATATCGACCGCTTGCACCTCCAGCGCTCGGGCCCTGATGAGCGCTCGCCGCCTGCTCGACCTGGGATTGTGCGACGCGGTGCTTTGCGGTGGTGTGGACAGCTTGTGCAAGCTGACCCTCAATGGCTTTTCTGCGCTGGAAGCGGTCTCGAGCGAGCGCTGCAATCCGTTCTCGGTGAACCGCAGCGGCATCAACATCGGCGAAGCGGCGGTGCTGTTTCTCATGAGCAGGACCCCGTCCGCCGGGCACTCGATTGCCCTGCTCGGCGACGGCGCCAGTTCCGATGCGCACCACATCTCTGCGCCGGAACCCAGCGGCCGGGGTGCCCGCCAGGCGATGGAAAAAGCCTTGCGCTGCGCGGGCCTTAACGCCAGCCAGATCGACTACCTGAACCTGCATGGCACCGCCACGCAACATAACGACGCCATGGAAAGCCACGCGGTGGCCGGCCTGTTCCCGGCGGGCGTGTCCTGCTCGTCGACCAAGCCGCTGACCGGCCACACCCTCGGCGCGGCGGGCGCATTGGAGGCTGCGTTCTGCTGGTTGGCCCTGTCCGGTGGAAATACCGCACAGGCCCTGCCGCCGCACGTCTGGGACGGCCAGGCCGACCCCGAGTTGCCGGCATTGGACTGGGTAACGTCCGACACCCGCTTGCCCCCGAACCTGCCCCGTCGCCTGATGAGCAACTCGTTTGCTTTCGGCGGCAACAACGTCAGCCTGATTATCGGAGACGCGCAATGA	MTAYLNALGVICALGRGKQNVARNLFAGDCSGVRVEAGWVAERALPVACVTGELAAIPESMAAQRSRNNQLLLEAGLQIRPEIDQAIQAYGRARIGIVLGTSTSGIDEASQGIAHYLREQRFPEGYDYQQQELSAPANFLSDWLGLSGPSYVISTACTSSARALMSARRLLDLGLCDAVLCGGVDSLCKLTLNGFSALEAVSSERCNPFSVNRSGINIGEAAVLFLMSRTPSAGHSIALLGDGASSDAHHISAPEPSGRGARQAMEKALRCAGLNASQIDYLNLHGTATQHNDAMESHAVAGLFPAGVSCSSTKPLTGHTLGAAGALEAAFCWLALSGGNTAQALPPHVWDGQADPELPALDWVTSDTRLPPNLPRRLMSNSFAFGGNNVSLIIGDAQ	PGPT0013310_1924	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0013310-fabB-K00647	NA	NA
D1-35_03320	483			hypothetical protein	ATGATCCGTGGTCTGCTTGCAGGTTTACTCTTGCTGCTCAGCGCCTGCGCCAGCCAGGCACCACTGCCTGAGCGCATGCCGACCCTGGCGCTGCCGCTGCAATTGCACGTCGAACGGCAACTGGACGGCCAGCGCCAGGATTGGCTGCTGGTGATTCAGCGCGAAAGCGCCGGCATCCGCTGGTCGATGATGGATCCGCTGGGCATTCCCGTCGCTCGCCAGCGCCTGGTCGACAGCCAATGGCAAGCCGACGGCCTGCTGCCGCCCAATGCCGAAGCCCGGGAATTGTTCGCCGCCCTGCTGTTTGCCCTGACCCCCGAGGCGGAACTGGCCGGCCGTTACCCGACCGCCCGGCAGCAAGACGCTCGACGAACGCTCGATACCCGCTGGCAGGTGCGCTACACACAACCGCTGGACTTTCAATTGAGCCTGCCGCAGGGGCCGCATTACCGCATTACACCGTTGAGCGAGAGCGCACGATGA	MIRGLLAGLLLLLSACASQAPLPERMPTLALPLQLHVERQLDGQRQDWLLVIQRESAGIRWSMMDPLGIPVARQRLVDSQWQADGLLPPNAEARELFAALLFALTPEAELAGRYPTARQQDARRTLDTRWQVRYTQPLDFQLSLPQGPHYRITPLSESAR				NA	NA	NA	NA	NA
D1-35_03321	729	COQ5		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGAGCTACCTGAGCGACAACTACGTCGAAGAAACCCGCTTCGGTTTCTGGTTCCTGCGCAGCCACACCTGGCAGCACCATGTGCTGCGCGTGGCCATCGACGATCTGCGCAGCCTGTTCAGCTCCTCGCCGCCGGCCAATCCGGTGCTGCTGGATGCCGGTTGCGGCCAGGGCAAGTCGTTCCGGTATCTGCGCCAGGTGTTCGCGCCGCAACGCCTGATTGGCGTCGACGCCGACCCTCATAGCCTGAACCTCAGCGCCGAGGAAGCGGCTCGCCAGGGCATGGCCGTGGAGCTGATCGGCAGCGACTGCGCGACATTGGCGGTGCCCGATGCCAGCGTCGATTTGCTGTTCTGCCACCAGACCTTCCATCACCTGGTGGAACAGGAAAAAGCCCTCGCCGAGTTCTATCGCGTGCTCAAGCCCGGCGGCTACCTGCTGTTTGCCGAATCCACCAAGGCCTACATCGATACCTGGGTGATCCGCTGGCTGTTCCGCCACCCGATGCAGGTGCAGAAAAGCGCCGCGCAATACCTGGCGATGATCGCCAATCAAGGGTTCCGCTTCGAAGACTGCAACGTCTCCTATCCGTACCTGTGGTGGAGCCGCGCCAGGGACTTCGGCCTGCTGGAACGCTGGGGCCTGCGCCGGCCCAGGCCGTTTGGCGAGCGCGAGGAAACCCTGGTCAATGTGGTGGCCCGCAAGCCGCTCGAAGGGGTCGCCGGATGA	MSYLSDNYVEETRFGFWFLRSHTWQHHVLRVAIDDLRSLFSSSPPANPVLLDAGCGQGKSFRYLRQVFAPQRLIGVDADPHSLNLSAEEAARQGMAVELIGSDCATLAVPDASVDLLFCHQTFHHLVEQEKALAEFYRVLKPGGYLLFAESTKAYIDTWVIRWLFRHPMQVQKSAAQYLAMIANQGFRFEDCNVSYPYLWWSRARDFGLLERWGLRRPRPFGEREETLVNVVARKPLEGVAG				NA	NA	NA	NA	NA
D1-35_03322	1248	kmo		Kynurenine 3-monooxygenase	GTGCCAACAGTTGAAATGGAACGTCGACAGGTCGTCATCATCGGCGCAGGCCCTTCCGGCGCCATCGCCGCCGCACTGCTCAAGCGCAAGGGCCACGATGTGCTGGTCATCGAGCGCCAGCATTTCCCACGGTTCTCCATTGGCGAAAGCCTGCTGTCCCATTGCCTGGATTTCGTCGAGGAAGCCGGCATGCTCGAGGCGGTCAACGCCGCCGGGTTCCAGCGCAAGAATGGCGCGGCATTCGCCTGGGGCGAGCGCTACAGCGCCTTCGATTTCGGCGATACCTTCAGCGAAGGCAAGCCGACCACGTTCCAGGTCCAGCGCGCCGACTTCGACAAGTTGCTGGCCGATCAGGCGGCGCTGCAAGGCGTGGAAATCCGCTACGGCCAGGCCATCGCCAGCGCCGATTTCAGCCTGGGCAAACCGCAACTGGGCGTGCAGCGCGAAGACGGCAGCGAGTACCGCGTCGAGGCAGACTTCGTCCTTGACGCCAGCGGCTACGGCCGGGTCCTGCCGCGCCTGCTGGACCTTGAGGCGCCGTCGAACTTCCCGCCGCGCCAGGCGGTGTTCACCCACATCGAAGACCGCATCGACAACCCGGCATTCGATCGGGAGAAAATCCTCATCACCACGCATCCGACCCAGCGCGACGTGTGGTTCTGGACCATTCCGTTCAGCGGCGGTCGTTGCTCGGTCGGCGTGGTCGCCGCGGCGGAGCATTTCGAAGGCCGCACCGACGACCTCGATGCCTGCCTGCGCGGCTTCATCAACGAAACCCCAAGCCTGGCCAGCGTACTGGGCAATGCCGTGTGGGACACGCCGGCACGGACCATCGGCGGCTACTCGGCCAACGTCAAGACCCTGCACGGCCCTGGCTTCGCCCTGCTGGGCAACGCCGCGGAATTCCTCGACCCGGTGTTTTCTTCCGGCGTGACCATCGCCATGCGCTCGGCAAGCATGGCCGCCGGCGTGCTGCATCGCCAGCTGCAAGGTGAACAGGTGGATTGGCAGAGCGAGTTCGCCGAACCGCTCAAGCGCGGCGTCGATACCTTCCGCTGCTACGTCGAGGGCTGGTACGCCGGTACTTTCCAGGATGTGATTTTCTACAGCGAAGGCTCCGCCGACATTCGCCGGATGATCAGCGCGATCCTCGCCGGCTATGCCTGGGACCAGCGCAACCCGTTCGTCAGCGAACCCAAGCGGCGCTTGCGCATGCTTTCGGAAATCTGCGCGAGCCCGGCGCCATGA	MPTVEMERRQVVIIGAGPSGAIAAALLKRKGHDVLVIERQHFPRFSIGESLLSHCLDFVEEAGMLEAVNAAGFQRKNGAAFAWGERYSAFDFGDTFSEGKPTTFQVQRADFDKLLADQAALQGVEIRYGQAIASADFSLGKPQLGVQREDGSEYRVEADFVLDASGYGRVLPRLLDLEAPSNFPPRQAVFTHIEDRIDNPAFDREKILITTHPTQRDVWFWTIPFSGGRCSVGVVAAAEHFEGRTDDLDACLRGFINETPSLASVLGNAVWDTPARTIGGYSANVKTLHGPGFALLGNAAEFLDPVFSSGVTIAMRSASMAAGVLHRQLQGEQVDWQSEFAEPLKRGVDTFRCYVEGWYAGTFQDVIFYSEGSADIRRMISAILAGYAWDQRNPFVSEPKRRLRMLSEICASPAP				NA	NA	NA	NA	NA
D1-35_03323	1158			hypothetical protein	ATGATGACCCTGCTGTTCTGGTTGATGGCCCTGGCGCTGTTTGCCGTGGCGACGATTGTCGGGCGGCGCTGCGGGCTGATCCCGATTGTCAGCCAGTTGCTGCTGGCGACGTTCGGCCTGCCCTTGCTGATGTATTTCTGGATCGAACCGGGCTGGCACCTCAGCGGTGCGCAACTGGTCTCGCCGGTGTGGTTGAAGAACCTCTACAGCCTGGCGTTCGCCCTCTTGTTGGGGCATATCCTCAGCGATGTGATCGACCTGCGCCTCGACCGCCAGAGCGTGAAGATCGCCCTGCCGAGCTTTGGCGTGCCGTTTGCCTGCGGCCTGGCGACCGCGTTCTGGCTGCTGCCGCCGCAACCGTGGATCAGCTCGCTGGCGGTGGGGCTGCTGTTCGCGATCACGGCGATACCCGTGCTGTATCTGTATCTGCGCCACATCGGCTACCCGCCCGACGCGACCCGCCGCCTGGTGCAGACCGCGATCCTGATCGACCTGATCTGCTGGAGCCTGTTCGCCCTCGCCCAGGGCAGCCTGCACCTGGCCAGCCTGCTGCTGCCGCTGGCCGCCGCCGGCGTGCCGTTGCTGCTGCGACTGGCGGGCCTGCGCCAACCCTTGCTGCACAGTGGCCTGTTCTTTGTTCTGCTGGTGGTGGCCGAGCATTACCGGCTCAACGCGCTGATCACCGGTATCGGCTATCTGCTGTGCATGGCGGCGCTCAAAGTGCCGCTGGTATTGCCGCTCGGCGCGGAGTGGATGCACAGGTTGCAGACCTACCTGGCCATCCCCTTGATCCTGACGTTCGGCATTGTGCAGATCAATGTGCACAGCGCCCTGGCCAGCCTCGGCTGGGTCCAGCTGGCGGCGTTGCTGCTGTTGCCGATTGCCAGCAAACTGCTGGGCAACTGGCTGGGGCTGGGTTGGGCCGGAGCCTCGTTCGTCGGTGCCAGCCGCTTTCGGGAAAGCATCCTGCTGAATATTCGCGGCTTGAGTGAAATCGTCTTTCTCAATCTGCTGCTGCAACAGCAACTCATCAGCCCGGCGCTGTACTTCGCGCTGATGCTGATGGGGTTGTTCGCCACATTGCTGCCGGCCCTGGCCGGCTTTCACCGTATTCCCTCGATTGCCGTCCCGGCGAGGAGACCCAGTGCCAACAGTTGA	MMTLLFWLMALALFAVATIVGRRCGLIPIVSQLLLATFGLPLLMYFWIEPGWHLSGAQLVSPVWLKNLYSLAFALLLGHILSDVIDLRLDRQSVKIALPSFGVPFACGLATAFWLLPPQPWISSLAVGLLFAITAIPVLYLYLRHIGYPPDATRRLVQTAILIDLICWSLFALAQGSLHLASLLLPLAAAGVPLLLRLAGLRQPLLHSGLFFVLLVVAEHYRLNALITGIGYLLCMAALKVPLVLPLGAEWMHRLQTYLAIPLILTFGIVQINVHSALASLGWVQLAALLLLPIASKLLGNWLGLGWAGASFVGASRFRESILLNIRGLSEIVFLNLLLQQQLISPALYFALMLMGLFATLLPALAGFHRIPSIAVPARRPSANS				NA	NA	NA	NA	NA
D1-35_03324	2340			hypothetical protein	ATGACTTTGCCGAGTGAACGCAGGCTGCCGCGGCTGTTCCTGGTCCTGCTGCTGGCGGTGCTCGCACTCGCCGGTTGGCAATGGCGCAACGGTGCGCCGCTGTCGGCCAATCTCATGGAACTGGTTCCGGGCACGTCCCCGGACGCCTTGGAACTTGTCGCTGAACAGCGCATGCAGGAACCGCTCAATCGCGAGGTTCTGGTGCTGGTCGGCCACGCCGATCGCCAGCAGGCCATCGCCCTGGCGCAAGCCCTCGGCGAGCAATGGCAGGCCAGCGGGCTGTTCGACAAGGTCCAATGGACGCTCCAGGCCGACTTGCCGGCGCTTCGCTCGCAGTTGCTGGATGGCCGCTTGGCGATGCTCTCGGCAGTCGACCGGCAACAGTTGATCGAGCAGCCCCAGGCGTTTATCCAGCAGCGGGTACAGGCCCTGTTCGACCCGTTCAGCGGCTTCAGCCTGGTGCCCAGCCAGGACGACTGGCTCGGCCTGACCGGGCGCATCCAGAACAGCCAGCCACAACGCGGCGCCATACAACTGGACGTGGGCAGCGGCGCGCTGGTCGCCGAAGCCGACGGCAAGCATTGGGTAATGCTGCGGGCGCGTACCCAGGGTAACGCCTTTGACATGCACCTGCCGCTGCAAGTCGCCGATCTGCTGCAACGCAGCCGTGATCAAGCCAGCCAGGCCCAGGGCCAATTGTTGGCGGCCAGCGGCCTGTTGTATGCCGCCAGTGGCCAGCGACAGGCTTCGCGCGAGATCACCTGGGTCGGCGGCGGCGCGACGGTCGGCATCCTGGTACTGCTGTTGCTGGCGTTCCGACGCTTTGCCGTGTGGCTGGCGTTCGTGCCGGTGCTGGTCGGCATATTGTTCGGCGCGGTGGCGTGCGTGGCGCTGTTCGGGCGCATGCATGTGATGACCCTGGTCCTGGGTTCGAGCCTGATTGGCGTGGCGGTGGATTACCCGCTGCACTACCTGTCCAAAAGCTGGAGCCTCAAGCCGTGGCGCAGCTGGCCGGCCCTGCGCCTGACCCTGCCGGGCCTGAGCCTGAGCCTGGCAACCACTTGCATCGGCTATCTGGCGCTGGCCTGGACGCCCTTCCCGGCCCTGACCCAGATTGCTATCTTCTCTGCCGCCGGCCTGGTCGGTGCCTATCTGTCGGCGGTCTGCCTGTTGCCGGCCCTGCTCAAGCACGCCGACCTGCGCCCAGCGCAATGGCCGCTACGCCTCTGCCATAACCTGCTCAGGTGCCGCGAAATGTTGCTGGCGCGGGTGCGCACGCCGATTCTGCTGGCCTTGTTGCTGGCCTTCTGTGGTGGCGGACTCTGGCAACTGACCAGCAAGAACGACATCCGCCAGTGGATCGGCACGCCCCAGCACCTGACCGACGAAGCCCGCGATGTCGCGCGCATCACCGGTTTCCAGCCGACCAGCCAGTTCTTCCTGATCCGTGCCGATGATCAAGCGCAGTTGCTCGAACGCCAGACCGCCCTCAACGAGCGGCTCGACCAGTTGATCGGCCTGGAAAAACTCCAGGGCTACCTGTCCCTCAATCAACTGGTCAGCCCACCCGCCGAACAGGAAAAACTCCGCGCGGCCCTGGCGCGGTTGCCGGCGTTCTGGCAACCGCTGCTGGACCTGGGCGTGCCGCTCGCCGCGCTGCAAGCGGAGTTGAAGCAGTTGCAGGCCTTGCCAACCGCCGACATCGATGCCGCATTGAGCGGGCCGCTGGCCGAACCCTACCGCATGCTCTGGCTCGGCCCGACAGGCCAAGGCGTGGCGGCGGTGGTCAGCCTGCAAGGCTTGAACGATGCCGCGTTGCTCCGCGTGCAGGCGGTGGATCTGCCCGGCGTGCAATTAGTGGATCGCCTCGGCGACCTCAACCGCGTCTTCGCCGCCACGCAGGTCAGCGCCGCCGAACTCAAGCTGGCGTCCTGCGTGCTGATCGTGCTGGTGCTGATCTGGCCGTTCGGCGTCGGCGGGGCCCTACGCGTCGTCGCCCTGCCGCTCCTGGCCGCGCTGTGCAGCCTGGCGAGCCTCGGCTGGCTGGGGCAACCGTTGACGCTGTTCAGTCTGTTCGGCCTGTTGCTGGTGACGGCCATCGGGGTCGACTACGCCATCCTCATGCGTGAACAGATCGGTGGGGCCGCCGTGAGCCTGCTGGGCACGCTGCTGGCGGCGACCACCACCTGGCTGTCGTTCGGCCTGCTGGCGTTGTCCAGCACGCCGGCCGTGAGCAATTTCGGCCTCGCGGTGAGCCTGGGGCTGGCGTTCAGCTTCTTGCTGGCGCCGTGGGCCGGGCAGCAGGCCCATGCGAATGCCGCTACGGAGCCGGTGCAATGA	MTLPSERRLPRLFLVLLLAVLALAGWQWRNGAPLSANLMELVPGTSPDALELVAEQRMQEPLNREVLVLVGHADRQQAIALAQALGEQWQASGLFDKVQWTLQADLPALRSQLLDGRLAMLSAVDRQQLIEQPQAFIQQRVQALFDPFSGFSLVPSQDDWLGLTGRIQNSQPQRGAIQLDVGSGALVAEADGKHWVMLRARTQGNAFDMHLPLQVADLLQRSRDQASQAQGQLLAASGLLYAASGQRQASREITWVGGGATVGILVLLLLAFRRFAVWLAFVPVLVGILFGAVACVALFGRMHVMTLVLGSSLIGVAVDYPLHYLSKSWSLKPWRSWPALRLTLPGLSLSLATTCIGYLALAWTPFPALTQIAIFSAAGLVGAYLSAVCLLPALLKHADLRPAQWPLRLCHNLLRCREMLLARVRTPILLALLLAFCGGGLWQLTSKNDIRQWIGTPQHLTDEARDVARITGFQPTSQFFLIRADDQAQLLERQTALNERLDQLIGLEKLQGYLSLNQLVSPPAEQEKLRAALARLPAFWQPLLDLGVPLAALQAELKQLQALPTADIDAALSGPLAEPYRMLWLGPTGQGVAAVVSLQGLNDAALLRVQAVDLPGVQLVDRLGDLNRVFAATQVSAAELKLASCVLIVLVLIWPFGVGGALRVVALPLLAALCSLASLGWLGQPLTLFSLFGLLLVTAIGVDYAILMREQIGGAAVSLLGTLLAATTTWLSFGLLALSSTPAVSNFGLAVSLGLAFSFLLAPWAGQQAHANAATEPVQ				NA	NA	NA	NA	NA
D1-35_03325	594			hypothetical protein	ATGAAACGCCTGTTCATCTGGCTGCTGCTGTGTGGCTTGGCGCCGCTGGCCCAGGCGTTCGACCTGCAGCAATTGAGCGAGCAACTGGCCCGCCCGGAGGTGATCCACGGCCAGTTCATCCAGGAAAAACATCTGCGCGCCCTGCCCCAGCCGCTGATCAGCAAGGGCCGTTTCGTGCTGGCGAAAAACCACGGCCTGCTGTGGCTGCTGCAAACGCCGCTGCAACAGGACTACCGCATCACGGCCAAAGGTATCGCCCGGCGCGATGGCAACGCCTGGCAGATGCTGCCGAACAAGAGCGCCGGCGCCGAGCAGAACCGCCTGTTCCTGGCGGTATTGCAGGGCGACAGCAGCGGCTTGCAGCGGGATTTCGAGCTGAGCCTGTCGGGCCAGCCACAGCAGTGGAAACTCACCCTGACTCCACGCTCGGTATTGCTCAAACAAGTCTTCAAGCAGATCAATATCGACGGCGGCGAACTGGTCCAGCGCATCGAACTGCTGGAAACCCAGGGTGACAGCACCGTACTGCGGATGCAGGACGCTACCGGCGCGCAACCGTTGAGCGAAGCGGAGCAACATGACTTTGCCGAGTGA	MKRLFIWLLLCGLAPLAQAFDLQQLSEQLARPEVIHGQFIQEKHLRALPQPLISKGRFVLAKNHGLLWLLQTPLQQDYRITAKGIARRDGNAWQMLPNKSAGAEQNRLFLAVLQGDSSGLQRDFELSLSGQPQQWKLTLTPRSVLLKQVFKQINIDGGELVQRIELLETQGDSTVLRMQDATGAQPLSEAEQHDFAE				NA	NA	NA	NA	NA
D1-35_03326	426			hypothetical protein	ATGCGTAGCCAGGGCGCTCTGCACGTTGACACCCGGATCGTGGTGCCGTTTTTCGACGTCGACTCCATGAACGTGGTCTGGCACGGCCACTACGTCAAATATCTCGAAGTGGCCCGCTGCGCCTTGCTCGACCTGATCGGCCACAACTACAACGACATGCTCGAATCCGGCCATGCCTGGCCGATCATTGACTTGCAGTTACGCTATGTGCGCAGCGCCGTGTTCGGCCAGGCCCTGACCGTGCGCGCCAGCCTGGTGGAGTGGGAAAACCGGCTGAAGATCAATTACCTGATCAGCGACGCCGCCACCGGCGAACGCCTGACCCGGGCGAGTTCGGTGCAGGTGGCCGTGGACATGGCCAGCCGTGAAATGCTGCTGGCCTCGCCTCGGGTATTTGTCGAAGCCGTCGAGAGGAAACTGTCATGA	MRSQGALHVDTRIVVPFFDVDSMNVVWHGHYVKYLEVARCALLDLIGHNYNDMLESGHAWPIIDLQLRYVRSAVFGQALTVRASLVEWENRLKINYLISDAATGERLTRASSVQVAVDMASREMLLASPRVFVEAVERKLS	PGPT0001850_5417	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
D1-35_03327	1545	cmdF		Tyrosine 2,3-aminomutase	ATGACCAAGCCCATTCCTGAGCCGGTAACTTTCGGCGAACACGCCTTGCGCATCGAAGACGTGCTGGCCCTGGCCAACCGTCAGGCGCCGACGCAATTGCAGGCGGACCCGGCGTTCCGCCAGCGCATTGCCAAGGGTGCGCAATTCCTCGACTCGTTGCTGGACAAGGAAGGCGTCATCTATGGCGTGACCACCGGCTACGGTGACTCTTGCGTGGTGGCCGTGCCGTTGCACCATGTCGAAGCCTTGCCGCGGCACTTGTACACCTTCCACGGCTGCGGGCTGGGCAAGCTCCTCGATGCCCAGGCTACCCGCGCCGTGCTGGCCGCGCGGTTGCAGTCGCTGTGCCACGGCGTGTCAGGGGTGCGAGTGGAGCTGCTGGAACGGCTCCAGGCCTTCCTCGAACACGACATCCTGCCGTTGATTCCGGAAGAAGGCTCGGTGGGCGCCAGTGGCGACCTGACGCCGCTGTCCTACGTCGCCGCCACGCTGTCTGGTGAACGGGAGGTCATGTTCCGTGGCGAGCGCCGGCTGGCCGCCGACGTGCACCGCGAACTGGGCTGGACGCCGCTGGTGCTGCGACCCAAGGAAGCCCTGGCGCTGATGAACGGCACCGCAGTGATGACCGGCCTGGCCTGCCTGGCCTTCGCCCGCGCCGATTACCTGTTGCAACTGGCGACCCGGATCACCGCGCTGAATGTCGTCGCCCTGCAAGGCAACCCGGAGCACTTCGACGAGCGCCTGTTCGCCGCCAAGCCACACCCGGGCCAGATGCAGGTCGCCGCGTGGCTGCGCAAGGACCTGGCCATCGACGCGCCGACCGCGCCGCTGCATCGCCTGCAGGATCGCTACTCCCTGCGCTGCGCCCCTCACGTACTAGGGGTGTTGGCGGACAGCCTGGGCTGGCTGCGTTCGTTCATCGAAACCGAGCTCAACAGCGCCAACGACAACCCGATCATCGACGCCGAAGCCGAGCGTGTGCTGCATGGCGGGCATTTCTACGGCGGGCACATCGCCTTTGCCATGGACAGTCTGAAAAACCTGGTGGCCAACGTCGCCGACCTGCTCGACCGCCAGCTCGCACTGTTGGTGGACGAGCGCTACAACCATGGCCTGCCGAGCAACCTGTCCGGCGCCAGCGCCGAGCGGGCGATGCTCAACCATGGCTTCAAGGCCGTGCAGATCGGCACCAGCGCCTGGACCGCCGAAGCCTTGAAGAACACCATGCCTGCCAGCGTGTTCTCGCGCTCCACCGAATGCCACAACCAGGACAAGGTCAGCATGGGCACCATCGCCGCCCGGGACGCGATCCGTGTGCTGGAGCTGACCGAACAGGTGGCCGCCGCGACCTTGCTGGCGGCCAACCAAGGCGTGTGGCTGCGCAGCCGTGTCGACGACGCGCGACCATTGCCGCCAGCGCTGGCCGCCATGCACCGGCAACTGTCCGAAGACTTCCCGCCGGTGATCGAAGATCGCGCCCTGGAAGGCGAATTGCGCCTGTGCCTGCAACGCATCGCCGAGCAACACTGGAGGCTGCATGCGTAG	MTKPIPEPVTFGEHALRIEDVLALANRQAPTQLQADPAFRQRIAKGAQFLDSLLDKEGVIYGVTTGYGDSCVVAVPLHHVEALPRHLYTFHGCGLGKLLDAQATRAVLAARLQSLCHGVSGVRVELLERLQAFLEHDILPLIPEEGSVGASGDLTPLSYVAATLSGEREVMFRGERRLAADVHRELGWTPLVLRPKEALALMNGTAVMTGLACLAFARADYLLQLATRITALNVVALQGNPEHFDERLFAAKPHPGQMQVAAWLRKDLAIDAPTAPLHRLQDRYSLRCAPHVLGVLADSLGWLRSFIETELNSANDNPIIDAEAERVLHGGHFYGGHIAFAMDSLKNLVANVADLLDRQLALLVDERYNHGLPSNLSGASAERAMLNHGFKAVQIGTSAWTAEALKNTMPASVFSRSTECHNQDKVSMGTIAARDAIRVLELTEQVAAATLLAANQGVWLRSRVDDARPLPPALAAMHRQLSEDFPPVIEDRALEGELRLCLQRIAEQHWRLHA	PGPT0020230_1534	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020230-hutH-K01745	NA	NA
D1-35_03328	939			hypothetical protein	ATGAGCACAGACAAACAGCACTGGGCGGACCGCCAGGAGCGCGGCAGTTTCTGGCTGATGAAACTCACCGCGTTGGCTGCGAAGGTTCTTGGCCGAAGGCTTCTCACGCCGGTGCTGTACGGCATCGTCCTGTATTTCTTTGTTTTCGGCCGCAGCGCCCGGCAAGCGGCGTGGCAGTACCAGCAACGGCTCGCCGACTGGAGCCGTCAGCCCGAGTTGCGCCCAACGCATCGGCGAGTGTTCGGACAGTTCATGGCTTTTGCCGATTCGCTGCTGGATAAACTCGACGTCTGGAACGGCAAGCTGAGCATCGACCAGATCGAAATCGTCGACCCGGCGCTGCTGCGCAATCACCTGCGCGACAGCCGCGGGCAAATGCTGGTGGGCGCGCACCTGGGCAATCTGGAAATGTGCCGGGCCCTGGCCGAACTGGGCGAGAAGGTCACCATGAACGTGCTGGTGCACACCAAGCACGCCGAGCAGTTCAATCGTTTGCTCGGCGAGGCCGGCGCCACGCACCTGCGGTTGATCCAGGTCAGCGAGCTGGACCCGCTGATCATGTTGCAACTGAGCGAACGCCTGGAGCGCGGCGAATGGTTGGCGATCGCCGGCGACCGCGTGCCGCTGCATGGCGGGCGCAGCGTGACGGTGGATTTCATGGGGCACCCGGCCGCCTTCCCGCAAGGGCCCTGGCTGCTGGCCGGCCTGTTGAAATGCCCGGTCAACCTGCTGATGTGCCTCAAGCACGAGGGACGTTATCGCGTCACCCTCGAACCGTTCGCCGATGCCGTGGTTTGGAAACGCAACGAGCGCGAACAGGTGATCGCCCATTGGGCCGGCCTGTACGCCGGCCGCCTGGCGCAGTATTGCCTCCAGGCGCCACAACAGTGGTTCAACTTTTACCCTTTCTGGAAGACCGATGACCAAGCCCATTCCTGA	MSTDKQHWADRQERGSFWLMKLTALAAKVLGRRLLTPVLYGIVLYFFVFGRSARQAAWQYQQRLADWSRQPELRPTHRRVFGQFMAFADSLLDKLDVWNGKLSIDQIEIVDPALLRNHLRDSRGQMLVGAHLGNLEMCRALAELGEKVTMNVLVHTKHAEQFNRLLGEAGATHLRLIQVSELDPLIMLQLSERLERGEWLAIAGDRVPLHGGRSVTVDFMGHPAAFPQGPWLLAGLLKCPVNLLMCLKHEGRYRVTLEPFADAVVWKRNEREQVIAHWAGLYAGRLAQYCLQAPQQWFNFYPFWKTDDQAHS				NA	NA	NA	NA	NA
D1-35_03329	735			hypothetical protein	ATGCATAACCCCTGCGCCGTCATCCCGGTCTACAACCACGAAACCGCCATCGCGACGGTGGTCCAGACGTTGCTTGGCAACGGTTTGCCCTGCGTGCTGGTGGACGATGCCAGCAGCCCGGCCTGCGCGGCTGTGCTGGAGCAACTGGCCGGGCATGAGCGGGTTCACCTGGTCCGGCTGGCAGTGAACCAGGGTAAAGGCGGCGCGGTGATGACCGGCCTGCGGGAGGCTTCGCGCCTGGGCTTCAGCCACGCCTTGCAGGTCGACGCCGATGGGCAACACGACCTTGGTGACGTGCGCACCTTCATCGAGAAATCCCGCGCCCACCCGGACGCGCTGATCTGCGGCTATCCGCTGTACGACGCCAGCGTGCCGAAGGGCCGTCTGTACGCGCGCTACCTGACTCACGTGATGGTCTGGATCAACAGCCTGTCGCTGCAGATCCGCGATTCGATGTGCGGCTTCCGGGTCTATCCGCTGGCCCCCACCCTGGCACTGATCGACTCGGCGAACATCGGCAAGCGCATGGACTTCGATTCGGACATCCTGGTGCGCCTGTCCTGGCGCAACCAGCCGATGCACTGGTTGCGCACCCGCGTGCATTACCCTTTGGACGGGGTTTCGCATTTTCGCCTGTTCCACGACAACGTGCTGATTTCACGCATGCACACTCGGTTGTTCTTCGGCATGCTGGTGCGCTTGCCGGCGATTCTCTGGCGGCGGTGGCGAGCATGA	MHNPCAVIPVYNHETAIATVVQTLLGNGLPCVLVDDASSPACAAVLEQLAGHERVHLVRLAVNQGKGGAVMTGLREASRLGFSHALQVDADGQHDLGDVRTFIEKSRAHPDALICGYPLYDASVPKGRLYARYLTHVMVWINSLSLQIRDSMCGFRVYPLAPTLALIDSANIGKRMDFDSDILVRLSWRNQPMHWLRTRVHYPLDGVSHFRLFHDNVLISRMHTRLFFGMLVRLPAILWRRWRA	PGPT0023090_13	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023090-ppgS-K22907	NA	NA
D1-35_03330	1683	acs_2		Acetyl-coenzyme A synthetase	ATGAATTGGATAACACTTGAGCAGATGCTGCTCAAGGCCCAGCCGGACCGTGTTGTTGCAGTCGCCCCGGCATTAAACCACTCGCAACTGCGCGACGACGCGCTCTGCCTGGCCGCTAGCCTGCAAGCCCGGGACATCCGGCGCGTGGCCGTGCATTTCGAAGATGCCGCCGACCTCGCGGTGGCCCTGCTCGGCGCCTGGCGCGCCGGGGCGCAGGTGCTGCTGCCCGCCGACCTGCAAGCGCAAACCCGCCAGCGCTGGTCGGCCGACGTCGACTTGTGGCTGACCGACCTGCCCGTAGACGCCCGGCCCGACGAGATCCGCCAGGCGCCGCTGGAGGCTGCCGAACTGGACCTCGATCAGTGCTGGTTGACCCTGTGCACCTCCGGCTCCAGTGGCGAGCCCAAGCGCATCGAGAAAACCCTGCGCCAGCTGAGCAATGAAGTCCAGGCGCTGGAGCAATTGTGGGGCGCCGACCTCGGTCCGCAGGCCTGCATGATCGGCAGCGTCGCCACCCAGCATATCTACGGTCTGCTGTTCCGGGTGCTGTGGCCGTTATGCGCCGGACGCACCTTTGTGCGCCGGCAGTTGGCTTTCCCGGAAGACCTTCAGCGCGCCAGTCGCGAGCATCCGGCATTTGCCTGGGTCGCCAGCCCGGCGCTGCTCAAGCGCATGGGCGACAATCTCGATTGGCCGGCCTTGAGCAGCGTACGTCGGGTGTTCTCCTCCGGCGGCGCACTGCCGGCCGAAGCAGCCCGCAGCCTTCAGCAACGCCTGGGACAATGGCCAACGGAAGTGTTCGGCAGCTCGGAAACCGGCGGTATCGCCTGGCGTCAGGGCGGCGACCTCTGGCAACCCTTTGCCGGCGTCGAACTGGGCCAGGACAGTGACGGCGCCCTGCTGATTGCTTCGCCTTATCTCCCAAGCGGCCATGTCGAGCACAGCGCCGACGCGGCGCGTATCACCGAGGACGGGCGCTTCGAATTGCTCGGCCGCCTGGATCGCATCGTCAAGCTTGAAGAAAAACGTATCTCGTTGCCAATGCTGGAGCAGGCGCTGACGGCCCACGACTGGGTCAGCGAAGCACGGCTGGGGGTGGTCCAGGAAAATCGTGCTTCTCTCGGCGCACTGCTGGTGCTCAGCGAAACCGGCCTGCATGCCTTGCGCAACCTGGGCCGACGAGCCATGACCGAGGCCCTGCGCCAGCACCTGAGCGGACATTGCGAAACCCTGGCCCTGCCGCGACGCTGGCGCTGGCTGCGGCAACTGCCGTTCAACGGCCAGGGCAAACTGGCCCAGGCCGAGGTCGAAGCTTTGCTGATGGCGCCACGTCCGAAGGCGCCTGAAGTGCTCGACCAAGGCGAGACCGACGGCGAATGGAACCTGCGTCTGGCCGTGCCGCCAGACTTGGCGTACTTCAGCGGTCACTTCCCCACCGCGCCGGTCCTGCCCGGCGTGGTGCAGGTGGACTGGGCCTTGAACCTGGGCCGCCAACTGATGGAGTTGCCGCCGCGGTTCGTCGGCATGGAAGTGCTCAAATTCCAGCAACTGGTGCGCCCCGGCGATGAAATCCAGCTACACCTGCGCTTCGATCGCGAGCGCGGCAAGTTGTATTTTACCTATCGCAATGACACCGCGGCGTGCTCCAGTGGGCGGATTGTGTTGGGGCCAACCAATGATTAA	MNWITLEQMLLKAQPDRVVAVAPALNHSQLRDDALCLAASLQARDIRRVAVHFEDAADLAVALLGAWRAGAQVLLPADLQAQTRQRWSADVDLWLTDLPVDARPDEIRQAPLEAAELDLDQCWLTLCTSGSSGEPKRIEKTLRQLSNEVQALEQLWGADLGPQACMIGSVATQHIYGLLFRVLWPLCAGRTFVRRQLAFPEDLQRASREHPAFAWVASPALLKRMGDNLDWPALSSVRRVFSSGGALPAEAARSLQQRLGQWPTEVFGSSETGGIAWRQGGDLWQPFAGVELGQDSDGALLIASPYLPSGHVEHSADAARITEDGRFELLGRLDRIVKLEEKRISLPMLEQALTAHDWVSEARLGVVQENRASLGALLVLSETGLHALRNLGRRAMTEALRQHLSGHCETLALPRRWRWLRQLPFNGQGKLAQAEVEALLMAPRPKAPEVLDQGETDGEWNLRLAVPPDLAYFSGHFPTAPVLPGVVQVDWALNLGRQLMELPPRFVGMEVLKFQQLVRPGDEIQLHLRFDRERGKLYFTYRNDTAACSSGRIVLGPTND				NA	NA	NA	NA	NA
D1-35_03331	546			hypothetical protein	ATGAGCCGGCTGATTGGCCTCGGCCTGCTGCTGGCGGGCCTGCTGTACCCCTTCGCGGTGTATTTCGGCATGGAGCACTTTGCTCCATGGCAGTTCGGGCTGTTATTAGGTGGCCTGTGGCTGGCCCGGGCGTTACTCGGCAAAGGCAACCCCGGCAGTCGCTGGATGGCGGCCTCGGCGATTACCTTTTGTGTATTGCTCGCGGTGTTCGACAGCCCGCTCCTGCTGCGCTGGTATCCGGTGCTGATCAGCGCGTTCATGCTCGGGCTGTTCACCCTGAGCCTGAAATATGGCCCGCCGATGGTTGAACGCCTGGCCCGCCTGCGGGAACCGCAATTGCCGGCCAGGGCGGTGATCTATACCCGCCAGGTGACAGTGGCCTGGAGTGTGTTTTTCCTGTGTAACGGTGTGCTCGCTGCGGTCCTGACGCTTTGGGCGCCGCTGAGCTGGTGGATGTTGTACACCGGCCTGATTTCCTACGGACTGATGGGCCTGATGTTTGCCATTGAATGGCTCATACGACAACGGGTAAGAGGCCGCCCATGA	MSRLIGLGLLLAGLLYPFAVYFGMEHFAPWQFGLLLGGLWLARALLGKGNPGSRWMAASAITFCVLLAVFDSPLLLRWYPVLISAFMLGLFTLSLKYGPPMVERLARLREPQLPARAVIYTRQVTVAWSVFFLCNGVLAAVLTLWAPLSWWMLYTGLISYGLMGLMFAIEWLIRQRVRGRP				NA	NA	NA	NA	NA
D1-35_03332	255	acpP_2	COG0236	Acyl carrier protein	ATGCAAACTCGCGACGACATTTTCAACATTCTGCGTGCTGCACTGGTCGAGCTCTTCGAGCTGGACCCCGATCACGTGACGCTGGAAGCCAACCTCTACCAGGATCTGGAAATCGACAGCATCGATGCGGTCGACCTGATCGACCACATCAAGCGCCAGACCGGCAAGAAGATTGCCGCCGAAGAATTCAAGTCGGTGCGCACCGTCAACGACGTGGTGGAGGCGGTCTATCGACTGGTCCAACCGGCCGCATGA	MQTRDDIFNILRAALVELFELDPDHVTLEANLYQDLEIDSIDAVDLIDHIKRQTGKKIAAEEFKSVRTVNDVVEAVYRLVQPAA	PGPT0011375_2940	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
D1-35_03333	258	acpP_3		Acyl carrier protein	ATGAGCGATCTGCACCGTGACATCAAACAGCTGATCATCGACGCCCTTGGCCTGGAAGACATCGCCGTCGAGGACATCGGCGACGACCAGACCCTGTTCGGCGAAGGCCTGGGCCTGGATTCGGTGGATGCCCTGGAGCTCGGCCTGGCGATTCAGAAGCAGTACGGCATCAAGATCGACGCCGACGCCAAGGACACCCGTAACCATTTCAGCAATGTGGCAAGCCTTGCGGCCTTCGTCACTGCAAAACGCCCCTGA	MSDLHRDIKQLIIDALGLEDIAVEDIGDDQTLFGEGLGLDSVDALELGLAIQKQYGIKIDADAKDTRNHFSNVASLAAFVTAKRP	PGPT0011375_2524	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
D1-35_03334	810			hypothetical protein	ATGGACCTGGCAACGCAACCGGTGACCGGTAAACATCGCGACGCCTACTACTGGCGCCTGCTCGCAACTGCTGCAAGCTTCGCCCTCTTCGGGCTGGGCGGGCTGTGCCTGCGATTGGTGGTGTTCCCGTTGCTCAGTGCGTTACCCGGCGATCCCACGGCCCATCGGCAACGGGCCCGCCGCACGGTTGGACGTCTGTTCTGGTTCTTCATCCGGTTCATGGCCCGTACCGGCGTGCTCACCTATCGAATCGACGGCGCGGAGAAACTCGGCCGGCCCGGGCAGATGATCATCGCCAACCACCCTTCGCTGATCGACGTGGTGTTCCTGATCGGGCTGGTGCGCGACGCCAACTGCGTGGTCAAGCAGAGTCTCTGGACCAACCCCTTCACCCGTGGCCCGCTGCGCTCGACGCAATACATCAGCAACGATGGCAGCATGGACATGCTCGATGCAGCCAGTGACGCGCTGCAAGACGGCCAGTGCCTGATCGTCTTTCCCGAAGGTACGCGCACCCAGCCAGGCCAGGCCCCGGCCTTTCATCGCGGGGCCGCGGCCATCGCCCTGCGGGGCGCGAAGATCCTCACACCCGTGACGATCAAGGTCAGCCCCACCACCCTGACCAAGGCCGAACCCTGGTACCGCATCCCCCAGCGGCGCGTGCACTTCAGTTTTCGCGTGGGGGCCGATATAGATCCACAAGCCTTCACCGCGCTTGGCCCCCCGCCGCAGGCTTCGCGCCGGCTCAACGATTTTCTGCATCACTATTACATCAAGGAGCTCGCCGAAGATGAGCGATCTGCACCGTGA	MDLATQPVTGKHRDAYYWRLLATAASFALFGLGGLCLRLVVFPLLSALPGDPTAHRQRARRTVGRLFWFFIRFMARTGVLTYRIDGAEKLGRPGQMIIANHPSLIDVVFLIGLVRDANCVVKQSLWTNPFTRGPLRSTQYISNDGSMDMLDAASDALQDGQCLIVFPEGTRTQPGQAPAFHRGAAAIALRGAKILTPVTIKVSPTTLTKAEPWYRIPQRRVHFSFRVGADIDPQAFTALGPPPQASRRLNDFLHHYYIKELAEDERSAP				NA	NA	NA	NA	NA
D1-35_03335	720			hypothetical protein	GTGATCAATTTCAACATCGCCCAATGGCGCGCATGGGCCCCTGGGCTCGAAAGCGTGGACGATTGGCAGGCATGGAGCCGACAACCGGCCGTGCCGCCCATCAGCGATGCCGCCCCTGACGTGTCCTTCCTGCCCGCCATGCAGCGCCGCCGACTCAGCCGCCTGGCGCGCATGGCGTTCAGCGTCGCCTGGCCACTGGCCGAAGGTCGGCCGGACCTGCCGTTGGTCTTTATTTCCCGTCACGGCGAAACCCCGCGCACATTTGAGATTCTCAAGGACCTGGCAGCCGATCAGCCCTTGTCGCCGACACAGTTCAGCCTGTCGGTGCATAACGCCGTCATCGGCCTGTGGTCGATCATGCGCGGCGAAACCAGCGAGATGACCGCCCTCGCCGCTACCGGCGACGGCCTGGAGCACGGCATGCTGGAGGCCGCCGCACTGTTGAACGAGGGTGCGCCGGCGGTACTGCTGGTGATCACTGAAGAGCAACCACCGCAGGTGTACGCGCCGTGGGTCAACGACGTGCCGTTTCCCTACGCGCTGGGGCTCCTGCTGACTTCGGGCGATGACTGGCAACTTGAATTATCCAGCCCGTCGGCACCGATGCCCGGCAGCGACTGGCCCCATGCCCTGGATCTGCTGCGTAAGCTGCTGGAAAACGACACCACCTGCCAACATGCCTGGAAGAATCGTCTATGGACCTGGCAACGCAACCGGTGA	MINFNIAQWRAWAPGLESVDDWQAWSRQPAVPPISDAAPDVSFLPAMQRRRLSRLARMAFSVAWPLAEGRPDLPLVFISRHGETPRTFEILKDLAADQPLSPTQFSLSVHNAVIGLWSIMRGETSEMTALAATGDGLEHGMLEAAALLNEGAPAVLLVITEEQPPQVYAPWVNDVPFPYALGLLLTSGDDWQLELSSPSAPMPGSDWPHALDLLRKLLENDTTCQHAWKNRLWTWQRNR				NA	NA	NA	NA	NA
D1-35_03336	774	soj_2	COG1192	Sporulation initiation inhibitor protein Soj	ATGCGGCGTGTGGTGTTCAATCAGAAAGGTGGCGTGGGCAAGTCCAGCATCGCCTGCAATCTGGCGGCGGTCAGCGCCAGCGAGGGTTATCGCACGCTGTTGGTGGACCTGGATGCCCAGGCCAACTCCACTCAATACCTGACTGGCCTGACCGGCGATGACATTCCCATGGGGATCGCCGACTTCTTCAAGCAGACCCTGTCGTCGGGGCCCTTCTCGAAGAAGAACAAGGTCGATATCTACGAGACGCCGTTTGACAACCTGCATGTCATCACCGCCACGGCAGAGCTGACGGATCTGCAGCCCAAGCTTGAGGCGAAACACAAGATCAACAAGCTGCGCAAGCTGCTCGAAGAGCTCGACGAGGACTACGACCGGATCTACCTGGATACTCCGCCAGCCCTCAACTTCTATGCGGTTTCAGCGCTGATCGCGGCTGATCGGGTACTGATTCCTTTCGATTGCGACAGCTTCTCTCGCCAGGCGCTGTATGGCCTGATGGCGGAAATCGAAGAGCTGAAGGACGACCATAACGAAGGCCTGGAAGTCGAAGGCATCGTCGTCAACCAGTTCCAGGCCCGCGCCAGCCTGCCGCAGCAGATCCTCGACGAATTGATTGCCGAAGGCCTGCCGGTGTTACCGGTGTACCTGAGCAGTTCGGTGCGCATGCGTGAGTCGCACCAGGCGAGCCTGCCGCTGATCCACCTGGACCCGCGGCATAAGCTGACCCAGCAGTTTGTGGAGTTGCATAATCTGCTGGAAAACGCCGACTGA	MRRVVFNQKGGVGKSSIACNLAAVSASEGYRTLLVDLDAQANSTQYLTGLTGDDIPMGIADFFKQTLSSGPFSKKNKVDIYETPFDNLHVITATAELTDLQPKLEAKHKINKLRKLLEELDEDYDRIYLDTPPALNFYAVSALIAADRVLIPFDCDSFSRQALYGLMAEIEELKDDHNEGLEVEGIVVNQFQARASLPQQILDELIAEGLPVLPVYLSSSVRMRESHQASLPLIHLDPRHKLTQQFVELHNLLENAD				NA	NA	NA	NA	NA
D1-35_03337	423	trxC	COG0526	Thioredoxin 2	ATGCTGATCCCCTGCCCTCATTGCAACGGCCTCAATCGCATCCCCGCCGAACGCCTGGGCGACCAGCCCAAGTGCGGACGTTGCAAGGCCCAGGTGTTATTGAGCGAACCGTTCGAACTCAAGCAAGGCGACTACGCCAGCCAGATCAAGGGCGACCTGCCGCTGTTGGTGGATGTCTGGGCAGACTGGTGCGGTCCGTGCAAGTCCTTCGCGCCGGTCTTCGAACAGGCCGCCGCGCAGCTGGCGGGTAAATGCCGACTGGCCAAGCTCGACAGCGAGGCCAACCAACAACTGTCGGCCCAGCTGGGGATTCGCTCGATTCCCAGCCTGATTCTGTTCAAGGATGGCCGGGAGGTTGCCCGGCAGAGCGGGGCGTTTCCTTTGCCGCAGCTGATGAATTGGTTGCGCGGCCAGGGGATCTGA	MLIPCPHCNGLNRIPAERLGDQPKCGRCKAQVLLSEPFELKQGDYASQIKGDLPLLVDVWADWCGPCKSFAPVFEQAAAQLAGKCRLAKLDSEANQQLSAQLGIRSIPSLILFKDGREVARQSGAFPLPQLMNWLRGQGI	PGPT0013061_936	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013061-trxC-K03672	NA	NA
D1-35_03338	627	ycaC_3	COG1335	putative hydrolase YcaC	ATGACTACTTCCTACAACCGTCTCGACAAAGATAACGCCGCCGTTCTGCTGGTGGACCACCAGGCTGGCCTGCTGTCGCTGGTGCGCGACATCGACCCGGACCGTTTCAAGAACAACGTGCTGGCCCTGGCTGACCTGGCCAAGTACTTCCAACTGCCGACCATCCTCACCACCAGCTTCGAAACCGGCCCCAACGGCCCGCTGATGCCAGAACTCAAGACGCTGTTCCCGGACGCGCCTTACATTGCTCGTCCTGGCCAGATCAACGCCTGGGACAACGAAGATTTCGTCAAGGCGATCAAGGCCACCGGCAAGAAGCAATTGATCATCGCCGGTGTCGTGACTGAAGTCTGCGTAGCCTTCCCGGCCCTGTCGGCCCTGGCCGAAGGTTTCGAGGTGTTCGTAGTGACCGATGCGTCCGGTACGTTCAACGAACTGACCCGCCAATCGGCGTGGGACCGCATGTCCTCCTCGGGCGCGCAATTGATGACGTGGTTCGGCCTGGCCTGCGAACTGCACCGCGACTGGCGCAACGATGTGGAAGGTCTGGCGACCCTGTTCTCCAACCACATCCCGGACTATCGCAACCTCATGACCAGCTACAACACGCTGACCAACGCGAAGTAA	MTTSYNRLDKDNAAVLLVDHQAGLLSLVRDIDPDRFKNNVLALADLAKYFQLPTILTTSFETGPNGPLMPELKTLFPDAPYIARPGQINAWDNEDFVKAIKATGKKQLIIAGVVTEVCVAFPALSALAEGFEVFVVTDASGTFNELTRQSAWDRMSSSGAQLMTWFGLACELHRDWRNDVEGLATLFSNHIPDYRNLMTSYNTLTNAK				NA	NA	NA	NA	NA
D1-35_03339	270			hypothetical protein	ATGAGCAATCCTCAAGACCCAACCCTTCCCCAGACGCTGGACAACCCCAACGACGACGGCTTCGTGCTTGGCACCGCCGGCCGCGACGAAGACCCGAACGCCGCCACGGCCTATGCGACCGATGACCGCCATGATCGCGATGAGCTGACCCCGGAAGACGCCCGCGGCATGCCGGGGTATCCCGACGAAAAAAAACCGGCGGAATCGGCGGCGGAAGAAGCGGAATCTGGCATCGAGACGCCTGAGCAGGGGAACGATAAGGCGGGGTGA	MSNPQDPTLPQTLDNPNDDGFVLGTAGRDEDPNAATAYATDDRHDRDELTPEDARGMPGYPDEKKPAESAAEEAESGIETPEQGNDKAG				NA	NA	NA	NA	NA
D1-35_03340	279			hypothetical protein	GTGGTCTATATCGCGATCACATCGCTCCCAATGTGGGAGCGAGCCTGCTCGCGAATACTCTCTCTCCCTGACAATCTGAAGCCGTGGCGAGGGAGCTTGCTCCCGCTCGGCGGCGTAGCCGTCGTGGTTTACCTGGACGACTGCGTCGGTCTTTCAGGACTGCTTCGCAGCCCAGCGGGAGCAAGCTCCCTCGCCACGGGGGCCATGTGTCTGGCAGGTCGTTACGACGAGCAGCTGATCTCCAGGTGCTTGCCCCATTCCGGCGGCCTTTCGGCGTAG	MVYIAITSLPMWERACSRILSLPDNLKPWRGSLLPLGGVAVVVYLDDCVGLSGLLRSPAGASSLATGAMCLAGRYDEQLISRCLPHSGGLSA				NA	NA	NA	NA	NA
D1-35_03341	1464	selO	COG0397	Protein adenylyltransferase SelO	ATGAAAACACTGGAAACGCTGACTTTCGATAACCGCTTCGCCCGCCTGGGCGACGGTTTCTCGGCCCACGTGCTGCCGGAGCCCATCGACAATCCGCGCCTGGTGGTTGCCAGCCCGGCCGCGATGGCGCTGCTTGACCTGGATCCGGCCGAAGCACAGACGCCACTGTTTGCCGAAATTTTCGGCGGCCACAAACTCTGGGCCGAAACCGAGCCTCGGGCCATGGTGTATTCCGGGCATCAGTTCGGCCACTACAACCCGCAATTGGGCGATGGCCGCGGGTTGCTGCTGGGCGAGGTGTACAACGAGGCCGGCGAGCATTGGGACCTGCACCTCAAGGGCGCCGGCCAGACACCGTTTTCGCGGATGGGCGATGGCCGGGCGGTACTGCGCTCCTCGATCCGCGAATTCCTCGCCTCCGAAGCCCTGCATGCGTTGGGCATCCCGACCACGCGCGCGCTGTGTGTGATCGGCTCCGACACCCCGGTATGGCGCGAAAAGCAAGAGCGCGCCGCCATGGTGCTGCGCCTGGCGCCGAGTCATGTGCGCTTCGGGCATTTCGAATACTTCTACTACACCAAGAAACCGGAGTTGCACGCAGCCCTGGCCGAGCACGTGCTGAACCTGCATTTCCCTGAGTGCCGGGAGCAACCGGAACCGTACCTGGCGATGTATCGGGAGATTGTCGAACGCAACGCCGAGTTGATTGCCAAATGGCAGGCCTACGGCTTCTGTCACGGGGTGATGAATACCGACAACATGTCGATATTGGGTATCACCTTCGACTTCGGCCCTTTCGCCTTCCTCGACGACTTCGACGCCAACTTCATCTGCAACCACTCCGACGACCAGGGCCGCTATTCATTCAGCAACCAGGTGCCCATCGGCCAGTGGAACCTCAGCGCCCTCGCCCAGGCCCTGACCCCCTTCATCAGCGTCGACGCCCTGCGCGAGACCCTGGGTCTGTATCTGCCGCTGTACCAGGCCCATTACCTGGACCTGATGCGTCGCCGCCTCGGCCTGACCCGCGCCGAGGACGATGACCAGAAACTGGTGGAGCGCCTGCTGCAACTGATGCAGAACAGCGGCGTCGACTACAGCCTGTTTTTCCGTCGCCTGGGCGAACAGGCGCCCGAACAGGCCGTCGCCCGCTTGCGCGATGACTTTGTCGATCTCAAGGGTTTCGATGCCTGGGGCGAGCTTTACCTCGCTCGGGTCAATCGCGAGGGCGTTGTCGATCAAGCCCAGCGCAGAGCCCGCATGCACGCGGTCAATCCGTTGTATGTATTGCGCAACTACCTGGCGCAGAAAGCCATCGACGCCGCCGAATCAGGCGACTACGAAGAAGTCCGCCGCCTCCACGGCGTACTGTCCCGTCCGTTCGAAGAACAACCGGGCATGGACAGCTACGCCGAAAGGCCGCCGGAATGGGGCAAGCACCTGGAGATCAGCTGCTCGTCGTAA	MKTLETLTFDNRFARLGDGFSAHVLPEPIDNPRLVVASPAAMALLDLDPAEAQTPLFAEIFGGHKLWAETEPRAMVYSGHQFGHYNPQLGDGRGLLLGEVYNEAGEHWDLHLKGAGQTPFSRMGDGRAVLRSSIREFLASEALHALGIPTTRALCVIGSDTPVWREKQERAAMVLRLAPSHVRFGHFEYFYYTKKPELHAALAEHVLNLHFPECREQPEPYLAMYREIVERNAELIAKWQAYGFCHGVMNTDNMSILGITFDFGPFAFLDDFDANFICNHSDDQGRYSFSNQVPIGQWNLSALAQALTPFISVDALRETLGLYLPLYQAHYLDLMRRRLGLTRAEDDDQKLVERLLQLMQNSGVDYSLFFRRLGEQAPEQAVARLRDDFVDLKGFDAWGELYLARVNREGVVDQAQRRARMHAVNPLYVLRNYLAQKAIDAAESGDYEEVRRLHGVLSRPFEEQPGMDSYAERPPEWGKHLEISCSS				NA	NA	NA	NA	NA
D1-35_03342	3363	mscK	COG3264	Mechanosensitive channel MscK	ATGCCTACCCTGCGCTCCTTTTTCGCCATTGCCCTGCTCGGCCTGGGTCTTTCCATCTGCACGGTGCACGCCGCCGAACCGCCTACCAGCGCCTCGGTCCAGGCCAGCCTGGACAAGATCGCCGACCGCAAACTGCCGGAGGCCGACCAGAAAGCCTTGCAGGCCGTGTTGCAGAACACCCTGACCCAGCTCAGCAACAAGGCCGACTACGAACAGAAGCTGCAAGCCCTCAAGCAGCAACTGGCCAACGCCCCCAAGCAGAACATCGAAAACCAGCGCGAGCTGGCGCGGCTCAAGGGCACCAATGTGGTGCCGGTGGCGCAGCGCTACGCCAACCTGCCCATCCCTCAGCTCGAACAGATGCTGACGGAGCGCTCCACCCAGCAGAGCGACCTGCAAAAGGCCCTGGCCGACGCCAACAGCCTGGTGATCACCGCCCAGACCCGCCCCGAGCGCGCCCAGGCGGAAATCTCCGCCAGCCAGACCCGCATCCAGCAGATCAACACCATCCTCAAGGCCGGCCGCGACGCCGGCAAGGCCCTCAGCGCCGAACAGCGCGACCAGCTCAACGCTGAACTGGCGGCCCTCAATGCGCTGATTCCATTGCGCCGCCAGGAGCTGGCCGGCAACAGCCAACTGCAAGACCTGGGCAACAGCCAGCATGATTTGCTGTCGGAAAAGATCGACCGCATGGAGCGAGAGATCCAGGATCTGCAGAACCTGATCAACCAGAAGCGCCTGGCCCAGTCCCAGGAAACGGTGACCCAGCAATCCATCGAAGCGCAGAAGGCCGGCGGCAGCAGCCTGCTGGCGACCGAAAGTTCGGCCAACCTGAAGCTCTCCGATTACCTGCTCAAAAGCACCGATCGGCTCAACGAGGTCACCCAGCAGAACCTGCAAACCAAGCAGTTGCTCGATAGCGTCACCCAGACCGACGCCGCTCTGGATGAGCAGATCAGCGTGCTCAAGGGCAGCCTGCTGCTCTCCAAGATTCTCTACAAGCAGCGCCAGACCCTGCCACACCTGAAACTGGACCAGAACCTCGCCGACCAGATCGCCGACATCCGCCTGTACCAGTTCGAGGTCAGCCAGCAACGCGAGCTGCTGAACAATCCAAGCGCTTATGTCGACAGCCTGCTGGCGTCCCAGCCGTCGGAGCAGGTCACGCCGCAACTGCGCAAGACGCTGCTGGAGCTGGCCCTGACCCGGGTCGACCTGTTGGAACGGCTGAACCGTGAGTTGAGCGCGGTGCTCAACGAATCCATCACCTTGCAGCTCAACCAGAAGCAACTGCTCAGTACCGCCCAGAACCTGCGGGCAACGCTTGAAGAACAGATGTTCTGGATTCCCAGCAACAAACCGCTGGATTTCGAATGGATGCGTGGCGTGCCGGCCCGCCTGGAGAAGCAGGTCGACTCACTGCCCTGGGCGTCGAGCCTCAGTGAGCTGGCCGACGGCCTGACCCAGCGGCCGCTGCTGTTCCTGCCCCTGGCACTGCTGATCGGTGCGCTGCTGTGGCGACGCAAGAATCTTTATGCGCGCTTGAACAAGGTTCACCAGGATGTCGGCCACTTCAAGCGCGACAGCCAGTGGCACACGCCCCAGGCGATCCTGATCAACATCCTGCTGGCGATGCCGGTGGCTCTGGCACTGGCGCTGTGCGGCTATGCCTTGCAGATCGACGCCCGCGGGCAGAACACCAACCTCGGCGCCGCGCTGCTGCAGATCGGCCAAGCCTGGCTGGTGTTCTATACCGCCTATCGAATCCTCTCTCCCGGAGGCGTCGCCGAGCTGCATTTCCGCTGGGAAAAACCCCAGGTGGAATTCCTCCAGGCCTGGATCCGTCGACTTGGCCTGGTGGTGCTGGCCCTGGTGGCGGTGGTTGCCGTGGCGGAGTTGCAGCCGTCGGCCCTGGCCGATGACGTACTCGGCATGCCGGTGGTGTTGACCTGCTACGCCTCGATGGCCTGGCTGCTCAGCCGACTGCTGCTCAGCAGCCCGACGCACACCAACGCCTCGCTGTTTCGCAAGGCCGTCGGCGTACTGTTCACCGCGCTGCCGATCGCATTGTTCGTCGCTGTCTGCTTCGGCTACTACTACACCGCGTTGAAACTCAGCGATCGCTTGATCAATACCCTGTACCTGCTGATGTTCTGGCTGGTAATCGAAGCCACCTTCGTGCGCGGCCTGTCGGTCGCGGCCCGGCGACTGGCCTACCAGCGCGCCCTGGCCAAGCGCCAGGCGGCCAAGGAGGTCGGCGACGGTGAAACGGTGGTCGAGGAGCCGACCCTGGACATCGAGAAGGTCAACGAACAGTCCCTGCGCCTGATCCGCCTGGCCCTGCTGGGCGGTTTCATGGCCGCGCTGTACTGGGTCTGGTCGGACCTGATCAGCGTGTTCTCCTACCTGGACAACATCACCCTCTACGAATACACCAGCGGCACCGGCGTGAACATGAGCATGGTGCCCATCAGCATCGGCGACATGCTTGGCGCGCTGATCATCATCGGTATCACTTTCGCCCTGGCGCGCAACCTGCCGGGCCTGCTGGAAGTGTTCGTGCTGTCGAAGCTGAACCTGGCCCAGGGCAGCGCCTACGCCACCACCACGCTGCTGTCCTACGTCATCGCCGGCGTCGGCTTTGTCACCACGTTGTCCACACTCGGCGTGAGCTGGGACAAGCTGCAATGGCTGGTGGCCGCGCTGTCGGTGGGCCTGGGCTTCGGCATGCAGGAGATCTTCGCCAACTTCATCTCCGGCATCATGATCCTGTTCGAGCGCCCGGTGCGGATCGGCGACACCATCACCATCGGCAACCTGTCGGGCACGGTCAGCAAGATCCGCATTCGCGCGACCACCATCACCGACTTCGATCGCAAGGACATCATCGTCCCGAACAAGACCTTCATCACCGGGCAATTGATCAACTGGTCGCTGACCGACACCGTGACCCGGGTGACCCTGAAACTCGGCGTGGACTACGGATCGGACCTGGATCGGGTTCGCGAGCTGCTGCTCAAGGCTGCCCGCGACAACCCGCGCGTGCTGAAAGAGCCGGAGCCGATCGTGTACTTCCTGAACTTCGGTGAAAGCACCCTGGACCACGAGTTGCGCATGCATGTGCGCGACCTCGGCGACCGCAACCCGGTGCTGGACGAGATCAACCGGTTCATCAACCGGGAATTCAAGAAGGAACATATCAACATCTCGTTCCGTCAGATGGAGATCTACCTGAAGAACCTGCAAGGCCAGGAATACAAGCTGGTGCCCGCCGAGCCCGACCACAAGACCCTCGGGCCCGTGCCCTCGGCCGTAGCCAGCATCAAGCCCATTCCGGAGCCACCGCAACAGACACTCGACTGA	MPTLRSFFAIALLGLGLSICTVHAAEPPTSASVQASLDKIADRKLPEADQKALQAVLQNTLTQLSNKADYEQKLQALKQQLANAPKQNIENQRELARLKGTNVVPVAQRYANLPIPQLEQMLTERSTQQSDLQKALADANSLVITAQTRPERAQAEISASQTRIQQINTILKAGRDAGKALSAEQRDQLNAELAALNALIPLRRQELAGNSQLQDLGNSQHDLLSEKIDRMEREIQDLQNLINQKRLAQSQETVTQQSIEAQKAGGSSLLATESSANLKLSDYLLKSTDRLNEVTQQNLQTKQLLDSVTQTDAALDEQISVLKGSLLLSKILYKQRQTLPHLKLDQNLADQIADIRLYQFEVSQQRELLNNPSAYVDSLLASQPSEQVTPQLRKTLLELALTRVDLLERLNRELSAVLNESITLQLNQKQLLSTAQNLRATLEEQMFWIPSNKPLDFEWMRGVPARLEKQVDSLPWASSLSELADGLTQRPLLFLPLALLIGALLWRRKNLYARLNKVHQDVGHFKRDSQWHTPQAILINILLAMPVALALALCGYALQIDARGQNTNLGAALLQIGQAWLVFYTAYRILSPGGVAELHFRWEKPQVEFLQAWIRRLGLVVLALVAVVAVAELQPSALADDVLGMPVVLTCYASMAWLLSRLLLSSPTHTNASLFRKAVGVLFTALPIALFVAVCFGYYYTALKLSDRLINTLYLLMFWLVIEATFVRGLSVAARRLAYQRALAKRQAAKEVGDGETVVEEPTLDIEKVNEQSLRLIRLALLGGFMAALYWVWSDLISVFSYLDNITLYEYTSGTGVNMSMVPISIGDMLGALIIIGITFALARNLPGLLEVFVLSKLNLAQGSAYATTTLLSYVIAGVGFVTTLSTLGVSWDKLQWLVAALSVGLGFGMQEIFANFISGIMILFERPVRIGDTITIGNLSGTVSKIRIRATTITDFDRKDIIVPNKTFITGQLINWSLTDTVTRVTLKLGVDYGSDLDRVRELLLKAARDNPRVLKEPEPIVYFLNFGESTLDHELRMHVRDLGDRNPVLDEINRFINREFKKEHINISFRQMEIYLKNLQGQEYKLVPAEPDHKTLGPVPSAVASIKPIPEPPQQTLD	PGPT0013825_260	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013825-mscK|kefA|aefA-K05802	NA	NA
D1-35_03343	1743	nhaP2	COG3263	K(+)/H(+) antiporter NhaP2	TTGACTGCGACGACCATCAACAGCCTGTTCTTGATCGGCGCGTTGCTGGTGAGTGCGAGCATTCTGGTCAGTTCTCTTTCGTCGCGCCTGGGCATCCCGATCCTGGTGATCATCCTCGCCGTGGGCATGGTCGCCGGCGTGGACGGTGCCGGTATTCTTTTTGACAACTACGCCACGGCCTACCTGGTCGGCAACCTCGCGCTGGCGGTGATTCTGCTCGACGGCGGCTTGCGCACGCGGGTCTCAAGCTTTCGCGTGGCATTGTGGCCGGCGTTGTCGCTGGCCACCGTCGGCGTGCTGATCACCACCGGGCTGACCGGCCTGGCAGCGGCGTGGCTATTCGACCTGAACCTGATCCAGGGCCTGCTGATCGGTGCGATCGTCGGCTCCACCGACGCTGCGGCGGTGTTTTCGCTGTTGGGCGGCAAAGGCCTCAACGAACGGGTCAGCGCCACTCTGGAAATCGAGTCCGGCAGCAACGACCCGATGGCGGTGTTCCTCACCGTCACCCTGATCGGCATGCTCGCCAGCGGCGAAACCGGCCTGCAGTGGAGCCTGTTGGGGCACCTGGTGCGCGAGTTCGGTATCGGCGCCGTGATCGGCCTGGGTGGCGGCTGGCTGATGCTGCAACTGGTCAACCGCATCAACCTCGCCAACGGCCTCTACCCGATCCTGGTGATCAGCGGCGGCCTGGCCGTGTTTGCCCTGACCAACGCCCTGCATGGCAGCGGCTTCCTGGCCGTGTACCTGTGCGGACTGGCGATCGGCAACCGCCCGATACGCAGTCGCCACGGCATCCTGCATATGCTCGATGGCATGGCCTGGCTGGCGCAGATCGGCATGTTCCTGGTGTTGGGCCTGCTGGTCACGCCCCATGACCTGCTGCCGATCGCCCTCCCCGCCCTGGGCCTGGCCCTGTGGATGATCCTGTTCGCGCGCCCGCTGTCGGTCATGGTCGGGCTGCTGCCGTTCAAGGCTTTCCACGGTCGCGAGAAGGTGTTCATTTCCTGGGTCGGCCTGCGTGGCGCGGTACCGATCATCCTCGCGGTGTTCCCGCTGATGGCCGGTTTGCCTCACGCACAGCTCTATTTCAACCTGGCATTCTTTATCGTGCTGGTGTCGCTGCTGGTGCAAGGCACGAGCCTGCCGTGGGTCGCCAAGCTTCTGCACGTGACCGTCCCGCCAGAACCTCTGCCGATTTCCCGGGCAGCGCTGGAGGTTCACGTCACCAGCGAGTGGGAGCTGTTCATCTATCGCCTCGGTGCGGAAAAGTGGTGCATCGGCTCGCCGCTTCGGGATCTGAAAATGCCTGACGGAACCCGTATTGCGGCCTTGTTTCGTGGCCAGCAACTACTCCATCCGTCGGGTAGTACGGTCCTGGAAGTCGGTGATCTGCTGTGTGTAATCGGCCATGAACACGACCTGCCAGCCCTGGGAAAACTGTTCAGCCAGGCGCCGCAACGGGGCCTCGATCTGCGCTTTTTCGGCGACTTCGTACTCGAAGGAGACGCCCAGCTGGCCGCGGTCGCGGCGCTGTACGGGCTGCAACTCGACGGCATCGATCCGGACATGTCCCTGGGCCGCTTCATTGCCCAGAAAGTCGGGGGGGCTCCGGTGGTCGGCGACCAGGTGGAGTGGAACAGTACCCTATGGACGGTCGCGGCCATGGACGGGAACAAGATCGGCAAAGTGGGCGTCAGATTCCCCGAAGGAAGTCGCCCGGGCCCCGGCTTGTTCCTCTAA	MTATTINSLFLIGALLVSASILVSSLSSRLGIPILVIILAVGMVAGVDGAGILFDNYATAYLVGNLALAVILLDGGLRTRVSSFRVALWPALSLATVGVLITTGLTGLAAAWLFDLNLIQGLLIGAIVGSTDAAAVFSLLGGKGLNERVSATLEIESGSNDPMAVFLTVTLIGMLASGETGLQWSLLGHLVREFGIGAVIGLGGGWLMLQLVNRINLANGLYPILVISGGLAVFALTNALHGSGFLAVYLCGLAIGNRPIRSRHGILHMLDGMAWLAQIGMFLVLGLLVTPHDLLPIALPALGLALWMILFARPLSVMVGLLPFKAFHGREKVFISWVGLRGAVPIILAVFPLMAGLPHAQLYFNLAFFIVLVSLLVQGTSLPWVAKLLHVTVPPEPLPISRAALEVHVTSEWELFIYRLGAEKWCIGSPLRDLKMPDGTRIAALFRGQQLLHPSGSTVLEVGDLLCVIGHEHDLPALGKLFSQAPQRGLDLRFFGDFVLEGDAQLAAVAALYGLQLDGIDPDMSLGRFIAQKVGGAPVVGDQVEWNSTLWTVAAMDGNKIGKVGVRFPEGSRPGPGLFL	PGPT0013860_275	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013860-cvrA|nhaP2-K11105	NA	NA
D1-35_03344	1611			hypothetical protein	ATGAACATCGCGCCGCGGGCGTTCCTGGGGTTTGCCCTGATCGGCGCCCTGATGCTGGCCCTGGGCGTATTTGCCTTGAGCCAGATGAGCAAGATCCGCGTCTCGGGCGAAACCATCGTCCAGAACAGCGTCCCGAGCATCAAGGCCCTCGACGAGTTCACCCAGCTCACCCTGCGCCTTCGCGTCCTGTCCTATCGCCTGCTGACCAACCGTGAACCGGACGTCCAGCAGAAAACCTATGAGCTGTTCGAACAACGCAATCAGCAGATCCGCGAGGCGCAGACCGCATACGAAAAGCTCATCAGCGCCCCGGATGAACGCGCCGCTTATGAGCAATACGTACAGTTGCTGAATCAGTACCGCCAGCTCGAAGAGCGGATGAAGACCCTGTCGCGCAACAACCAGCTCGATCAATTGCAAGCGCTGCTCAACACTGAATTGCTGAGCAACTCCGACGCGATCAACGCGGCGGTCACCCGTTTGATGGAAATCAACAATCGCCAAGCCGAAATGCTCAACCAGGGTGCTGCCCAACAGTACTCAACGGCTTTCACCTGGGTCGTCACCTTGCTGGTCGTCGCCACCGGCCTGACCCTGCTGTTCGCCTGGCTGTTGACCAACAGCATCACCAAGCCAATCGCCAACGCGCTGGATGCCGCCGAAGAAATTGCCAAGGGCAACCTGACCCGGCCGATCGTCGTGGATGGCAGCGACGAAGCCGGCCGCCTGTTGCGAGCAATGGCGACCATGCAGGAGAAATTGCGCGACACTCTGCAGCGGATCTCCGGCTCGGCCACCCAACTGGCCTCCGCCGCCGAAGAGCTCAACAGCGTCACCGACGAAAGTGCCCGTGGCCTGACCCAGCAGAACAACGAAATCGAGCAGGCCGCCACGGCGGTCAACGAGATGACCAGCGCCGTGGAAGAAGTCGCCCGCAACGCAGTCAGCACTTCCGAAGCGTCGAAGAACGCCACCACTTCGGCGGGTGACGGTCGTGACCTGGTGCAAGAGACCGTCAGCGCCATCGAACGCATGAGCGCCGACGTGCAGAGCACCGCGACGCTGATCGGCAACCTCGCCGATGAGTCCCGCGATATCGGCAAAGTGCTCGATGTGATCCGTGGCCTGGCCGACCAGACCAACCTGCTGGCACTGAACGCCGCCATTGAAGCGGCCCGTGCCGGTGAAGCCGGTCGTGGTTTTGCGGTGGTAGCCGATGAAGTACGCGCCCTCGCCCACCGCACCCAACAGTCGACCAGCGAGATCGAGCGCATGATCGGCAGCATCCAGAGCGGCACCGAACAGGCCGTGGACTCGATGCGCAACAGCACCGAACGCGCCGAGTCGACGCTGAACATCGCCCGCGGGGCCGGGATGTCCCTGGACACCATCAACACCGCCATCGTCGAGATCAACGAACGCAACCTGGTGATCGCCAGCGCCGCCGAGGAACAGGCTCAGGTGGCCCGCGAAGTCGACCGCAACCTGGTGAACATCCGCGACCTGTCGGTGCAATCGGCCACCGGCGCCAACCAGACCACCGCCGCCAGCGCCGAACTGTCGCGCCTGGCCGTAGACCTGAACAGCATGGTCGGGCGGTTCAGCCTCTGA	MNIAPRAFLGFALIGALMLALGVFALSQMSKIRVSGETIVQNSVPSIKALDEFTQLTLRLRVLSYRLLTNREPDVQQKTYELFEQRNQQIREAQTAYEKLISAPDERAAYEQYVQLLNQYRQLEERMKTLSRNNQLDQLQALLNTELLSNSDAINAAVTRLMEINNRQAEMLNQGAAQQYSTAFTWVVTLLVVATGLTLLFAWLLTNSITKPIANALDAAEEIAKGNLTRPIVVDGSDEAGRLLRAMATMQEKLRDTLQRISGSATQLASAAEELNSVTDESARGLTQQNNEIEQAATAVNEMTSAVEEVARNAVSTSEASKNATTSAGDGRDLVQETVSAIERMSADVQSTATLIGNLADESRDIGKVLDVIRGLADQTNLLALNAAIEAARAGEAGRGFAVVADEVRALAHRTQQSTSEIERMIGSIQSGTEQAVDSMRNSTERAESTLNIARGAGMSLDTINTAIVEINERNLVIASAAEEQAQVAREVDRNLVNIRDLSVQSATGANQTTAASAELSRLAVDLNSMVGRFSL	PGPT0015710_21325	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
D1-35_03345	231			hypothetical protein	ATGTTGGAAACATCCCTCAGCCAGCTGGAGCAACTGGTCAACGACCTGGTGCAACAGAACCGCCACCTGACCGGCCTGAATGAAAGCCTGAGCGCCGAACTGGCCAAGGCCAAGGATGAAAACGAAAGCCTTCAGCTGAACCTGATGGAACAGGAAGAATTGCACGGCACCACCGCCGCACGGATCCAGGCCCTGATCGAGCGCGCCAGCACCGCAACGGTCGGCGCATGA	MLETSLSQLEQLVNDLVQQNRHLTGLNESLSAELAKAKDENESLQLNLMEQEELHGTTAARIQALIERASTATVGA				NA	NA	NA	NA	NA
D1-35_03346	303			hypothetical protein	ATGAAGCAGGGTGCCGATGGGGTGACGGTCGTCTCGATTCTCGGAGAGGAATACTCGATCAAGGCGCCTGCCGGGCAGGAGCAGGCGCTGCTGGACGCCGCTTCGATGCTCAAGGCGGCCCTGGCCGATACCAAGCGTAAATTCCCGACGTTGATCGGCGACCGGCTGCTGGTGCTGGCGGCCATGAACCTGTGTTCGCAACAGATTGAAATGCAAAAGCAGCACCGCGCGGAGCTCGACCGCTACGAGGAGCAGGTCAGCGCCACGGTCGAGGTTATTTCCAAGACGATCCAGCAGGCTTGA	MKQGADGVTVVSILGEEYSIKAPAGQEQALLDAASMLKAALADTKRKFPTLIGDRLLVLAAMNLCSQQIEMQKQHRAELDRYEEQVSATVEVISKTIQQA				NA	NA	NA	NA	NA
D1-35_03347	1803	dmdC_1	COG1960	3-methylmercaptopropionyl-CoA dehydrogenase	ATGTCCGAGACGCTGCTCAGTTCCCGCAATCTGGCTTTCGAGCTGTATGAAGTCCTTGATGCCGAAGGCCTGACCCAGCGCGAACGGTTTGCCGAGCACAATCGCGAAACCTTCGACGCGGCCATCGGTACGGCCCGCAGCATCGCCGAAAAATACTTCGCGCCGCACAACCGCAAGAACGACGAAAACGAACCGCGCTATGCAGATGGCCAGGCCATCCTGATCCCGGAAGTGAAACCCGCGGTGGATGCGTTCCTGGAGGCGGGCTTTCTCAACGCCGCCCGCAGCTTCGACGCCGGCGGCATGCAACTGCCGACGCTGCTGTCCCAGGCGTGCTTCGCGCATTTCCAGTCGGCCAATGCTGCTTCGACTTCTTACCCGTTCCTGACCATGGGCGCGGCGAACCTGATCGAAAGCTTTGGTAGCGATGAGCAGAAACAACGCTTCCTGCAACCGATGATCGACGGCCGTTTCTTTGGCACCATGGCCCTGACCGAACCACACGCGGGTTCTTCGCTGGCGGATATTCGTACGCGCGCGGAACCGGCGTCCGACGGCACTTATCGACTCAAGGGCAACAAGATCTTCATTTCCGGTGGCGACCATCCGCTGTCGGAAAACATCGTGCACATGGTCCTGGCCAAACTGCCGGACGCGCCGCCGGGCGTGAAGGGCATCTCGCTGTTTATCGTGCCCAAGTTCCTGGTCAACGAAGATGGCAGCCTGGGCAAGCGCAACGACGTACTGCTGGCCGGGCTGTTTCACAAGATGGGCTGGCGCGGCACTACGTCTACGGCGCTGAACTTCGGTGATAACGGTGAGTGTGTCGGTTACCTCGTCGGCAAACCGCACCATGGCCTGAGCTACATGTTCCAGATGATGAACGAGGCGCGGATCGGCGTCGGCATGGGCGCCGTCATGCTGGGCTACGCCGGTTACCTGTATTCCCTTGAATACGCCCGCGAGCGCCCGCAGGGACGAGTGCCCGACAGCAAGGATCCAGGCACCGCGCCCGTACCGATCATCCAGCACGCCGACGTACGCCGCATGCTGTTGACCCAGAAAGCCTACGTGGAAGGTTCGTTCGACCTGGGCCTGTACGCGGCGCGGCTGTTCGACGACACCACTACGCTTGAGAGCGAAGCCGAGCGCCGCCGCGCCCATGAGTTGCTGGACCTGCTGACGCCTATCGTCAAATCATGGCCATCGGAGTTCTGCCTGAAGGCCAACGAATTGGCGATCCAGATTCTCGGCGGCCATGGTTACACCCGTGAATATCCGGTGGAGCAGTATTACCGCGACAACCGCCTGAACCCGATCCATGAAGGCACCCATGGCATCCAGTCCCTGGACTTGCTCGGACGCAAACTGGCACAGAACGGCGGGGCCGGTCTCAAGCAACTGATCCGTCTGGTGGCCGATACCAGCGAGCGCGCCCAGGCGTACGATTCGTTGACGCCCCTGCGCCAGCCGCTGGAAGCCCTGGTGGCGCGCCTGCAATCGGTCACCCTCGGGCTGCTGACGGACCTGGCCCAGGGCAAGGTCAACAGCAGCCTGGCCAATTCGGCGCTGTACCTGAAAGTGTTTGGCCATATGGTGATTGGCTGGCGCTGGCTGGAACAGGCGATTCGTGCCGAGGAAGGGTTGGCCAGGGGCAATGCGGCGGATGTGGATTTCTACAGGGGCAAGCTGCAAGCGGCGCGCTACTTCCTGACCTGGGAAGTGCCAGGCTGTCATCACGAGCTGGCGATTCTCGAGGCGCGGGATGATACGTGCCTGGGGATGCGGGATGAGTGGTTTTGA	MSETLLSSRNLAFELYEVLDAEGLTQRERFAEHNRETFDAAIGTARSIAEKYFAPHNRKNDENEPRYADGQAILIPEVKPAVDAFLEAGFLNAARSFDAGGMQLPTLLSQACFAHFQSANAASTSYPFLTMGAANLIESFGSDEQKQRFLQPMIDGRFFGTMALTEPHAGSSLADIRTRAEPASDGTYRLKGNKIFISGGDHPLSENIVHMVLAKLPDAPPGVKGISLFIVPKFLVNEDGSLGKRNDVLLAGLFHKMGWRGTTSTALNFGDNGECVGYLVGKPHHGLSYMFQMMNEARIGVGMGAVMLGYAGYLYSLEYARERPQGRVPDSKDPGTAPVPIIQHADVRRMLLTQKAYVEGSFDLGLYAARLFDDTTTLESEAERRRAHELLDLLTPIVKSWPSEFCLKANELAIQILGGHGYTREYPVEQYYRDNRLNPIHEGTHGIQSLDLLGRKLAQNGGAGLKQLIRLVADTSERAQAYDSLTPLRQPLEALVARLQSVTLGLLTDLAQGKVNSSLANSALYLKVFGHMVIGWRWLEQAIRAEEGLARGNAADVDFYRGKLQAARYFLTWEVPGCHHELAILEARDDTCLGMRDEWF	PGPT0002285_15	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
D1-35_03348	3954	putA	COG0506	Bifunctional protein PutA	ATGGCTACCACCACCCTTGGGGTCAAACTCGACGACCCGACCCGCGAACGCCTGAAGGCGGCCGCAACCTCGATTGATCGCACGCCGCACTGGCTGATCAAGCAGGCAATTTTCAATTACCTGGAAAAACTCGAGGGTGGTGCAACCCTGACCGAGCTGAACGGTTCGACCCGCGCCGACAGCGATGATGCCGGTGAAGTCCAGCCCGATCACGCTCACCAGTGCTTCCTGGAGTTCGCCGAAAGCATTCTGCCGCAATCGGTCCTGCGCGCCTCCATTACCGCCGCCTACCGCCGCCCTGAGCCGGAAGTGGTGCCGATGCTGATCGAGCAGGCCCGACTGCCGGCCGAAATGGCCGAAGCCACCAACAAGCTCGCGGCGTCGATCGCGGAAAAACTGCGCAACCAGAAGAGCGCCGGCGGGCGTGCCGGTATTGTCCAGGGCTTGCTGCAGGAATTTTCCCTGTCGTCCCAGGAAGGCGTGGCGCTGATGTGCCTCGCCGAAGCACTGCTGCGCATCCCGGACAAAGGCACCCGCGACGCACTGATTCGCGACAAGATCAGCACGGGCAACTGGCAGCCGCACCTGGGCAACAGCCCGTCGCTGTTCGTCAACGCCGCCACCTGGGGCCTGCTGCTGACCGGCAAGTTGGTCGCCACTCATAATGAAGCCGGCCTGACTTCGTCGCTGAGCCGCATCATTGGCAAGAGCGGCGAGCCGATGATCCGCAAGGGCGTCGACATGGCCATGCGCCTGATGGGCGAGCAGTTCGTCACCGGCGAAACCATCGCCGAAGCCCTGGCCAACGCCAGCAAATTCGAAGCCAAGGGCTTCCGTTATTCCTACGACATGCTCGGTGAAGCCGCGCTCACCGAACATGACGCCCAGAAGTACCTGGCCTCGTACGAACAAGCCATCCATTCGATCGGCAAAGCCTCTCACGGCCGTGGGATTTACGAAGGCCCGGGCATTTCCATCAAGCTTTCGGCCCTGCACCCGCGTTACAGCCGCGCCCAGTACGAACGCGTCATGGACGAACTGTACCCGCGCCTGCTGTCGCTGACCCTGCTCGCCAAGCAATACGACATCGGCCTGAACATCGACGCCGAAGAGGCCGACCGCCTCGAACTGTCCCTGGACCTGCTCGAGCGCCTGTGCTTCGAGCCGCAGCTGACCGGCTGGAACGGCATCGGCTTTGTGATCCAGGCCTACCAGAAGCGTTGCCCGTACGTCATCGACTATGTGATCGACCTCGCTCGTCGCAGCCGTCACCGCCTGATGATCCGCCTGGTGAAAGGCGCCTACTGGGACAGCGAGATCAAGCGCGCCCAGGTCGAAGGCCTGGAAGGCTATCCGGTCTACACCCGCAAGGTGTACACCGACGTTTCCTACATCGCCTGCGCCCGCAAGCTGCTGTCGGTGCCGGAAGTCATCTATCCGCAATTCGCCACGCACAACGCCCACACTTTGTCGGCGATTTACCACATCGCCGGTCAGAACTATTACCCGGGGCAGTATGAGTTCCAGTGCCTGCACGGCATGGGCGAACCGCTGTACGAACAGGTTGTAGGCAAGGTTTCCGAAGGCAAGCTGAACCGTCCGTGCCGTGTGTACGCGCCTGTCGGCACCCACGAAACGCTGCTGGCCTACCTGGTGCGGCGCTTGCTGGAAAACGGCGCGAACACTTCGTTCGTCAACCGCATCGCCGACCAGTCGATTTCCATCCAGGAGCTGGTGGCCGATCCAGTGGCGAGCATCGAGCAGATGGCAACGCTGGAAGGCGGTTTCGGCCTGCCGCACCCGCGTATTCCGTTGCCACGCGATTTGTACGGCAGCGAGCGCGCCAACTCCAGCGGCATCGACCTGGCCAACGAACATCGCCTGGCCTCGTTGTCCTGCGCCCTGCTGGCCACCGCCCACAACGACTGGAAAGCCGCGCCGATGCTCGGCTGCGCCGCCAGTGAAGAAACCCCGGCACCGGTGCTGAACCCGGCCGATCATCGTGACGTGGTGGGCCACGTGCAGGAGGCTACCGTCGCCGATGTCGACAACGCCATCCAGTGCGCCCTCAACGCCGCGCCGATCTGGCAAGCCACGCCACCGGCCGAACGCGCCGCGATCCTGGAGCGCGCCGCCGACCTGATGGAAGGCGAGATCCAGCCGCTGATGGGCCTGCTGGCCCGCGAAGCCGGCAAGACCTTCGCCAACGCCATCGCCGAGGTACGCGAGGCCGTGGACTTCCTGCGCTACTACGCGGTGCAGGCGCGCAACGATTTCACCAACGATGCCCACCGTCCATTGGGCCCGGTGGTCTGCATCAGCCCATGGAACTTCCCGCTGGCGATTTTCAGCGGCCAGGTCGCCGCCGCACTGGCCGCCGGCAACCCGGTACTGGCCAAGCCCGCCGAGCAGACGCCTCTGGTGGCTGCCCAGGCAGTGCGCCTGATGCTTGAAGCCGGCATTCCGGAAGGCGTCCTGCAATTGCTGCCGGGCCGTGGCGAAACCGTTGGTGCACGCCTGGTGGGTGACGATCGGGTAAAAGGCGTGATGTTCACCGGTTCAACCGAAGTCGCGCGCCTGCTGCAACGCAATATCGCCGGACGCCTGGACAACCAGGGCCGGCCGATCCCGCTGATCGCCGAAACCGGCGGCCAGAACGCGATGATCGTCGACTCTTCGGCCCTGACCGAACAAGTGGTCATCGACGTGGTGTCCTCGGCTTTCGACAGCGCCGGCCAGCGTTGCTCGGCCCTGCGTGTTCTGTGCCTGCAGGAAGATTCCGCCGACCGCGTCATCGAAATGCTCAAGGGCGCCATGGCCGAATCGCGCCTCGGCAACCCCGAGCGCCTGTCGGTGGACATCGGCCCGGTGATCGACGCCGAAGCCAAGGCCGGTATCGAGAAACACATCCAGGCCATGCGCGACAAAGGTCGCACCGTGTATCAGATGGCAATCGCCGACAGCGACGAGTGCAAGCGCGGCACCTTCGTGATGCCGACCCTGATCGAGCTGGAAAGCTTCGACGAGCTGCAACGCGAGATCTTCGGCCCGGTGCTGCACGTGGTGCGCTACAAGCGCAAGGAACTGGACCAGTTGATCGGTCAGATCAACGCCTCCGGCTACGGCCTGACCCTGGGTGTGCACACGCGTATCGATGAAACCATCGCCAAGGTGATCGACAACGTCCATGCCGGTAACGTCTATGTAAACCGCAACATCGTCGGTGCCGTGGTCGGCGTGCAGCCGTTCGGCGGCGAAGGCCTGTCGGGCACCGGTCCGAAGGCCGGCGGCCCGCTGTACCTGTACCGCTTGTTGTCGACTCGTCCTACCGATGCGATCCAGCAGTCCTTCGTACGGGGCGATGCCCTGTCGGCACCGGACCTGCGCTTGCGCGACGCCATGAGCAAACCGCTGACCGCCCTGCAAGCCTGGGCCGACAGCCACAAGCTCGCCGAACTGAGCGCCCTGTGCGTGCAGTTCGCCGCCCAGTCGCAAAGCGGCATCACCCGCCAGCTGACCGGCCCGACCGGCGAACGCAACAGCTACGCCATCCTGCCCCGCGAGCACGTGTTGTGCCTGGCGGACGTGGAAGGCGACCTGCTGACGCAGCTGGCGGCCGTATTCGCCGTGGGCGGCTCGGCCGTGTGGCCGGAAACCGACACCAGCAAGGCGTTGTTCGCACGCTTGCCGAAGGACATTCAAGCGCGTATCCAGCGGGTTGCCGATTGGACCAAGGACGACGTGCTGTTCGACGCAGTCCTGCACCACGGCGACTCTGACCAGTTGCGCGGCGTGTGCCAGCAAGTGGCCAAGCGCGCCGGGGCGATCGTCGGGGTGCATGGCTTGTCCCAGGGCGAAACCAATATCGCCCTGGAACGCCTGGTGATCGAACGCGCGCTGAGCGTCAACACCGCCGCGGCGGGTGGTAACGCCAGTCTGATGACGATCGGTTAA	MATTTLGVKLDDPTRERLKAAATSIDRTPHWLIKQAIFNYLEKLEGGATLTELNGSTRADSDDAGEVQPDHAHQCFLEFAESILPQSVLRASITAAYRRPEPEVVPMLIEQARLPAEMAEATNKLAASIAEKLRNQKSAGGRAGIVQGLLQEFSLSSQEGVALMCLAEALLRIPDKGTRDALIRDKISTGNWQPHLGNSPSLFVNAATWGLLLTGKLVATHNEAGLTSSLSRIIGKSGEPMIRKGVDMAMRLMGEQFVTGETIAEALANASKFEAKGFRYSYDMLGEAALTEHDAQKYLASYEQAIHSIGKASHGRGIYEGPGISIKLSALHPRYSRAQYERVMDELYPRLLSLTLLAKQYDIGLNIDAEEADRLELSLDLLERLCFEPQLTGWNGIGFVIQAYQKRCPYVIDYVIDLARRSRHRLMIRLVKGAYWDSEIKRAQVEGLEGYPVYTRKVYTDVSYIACARKLLSVPEVIYPQFATHNAHTLSAIYHIAGQNYYPGQYEFQCLHGMGEPLYEQVVGKVSEGKLNRPCRVYAPVGTHETLLAYLVRRLLENGANTSFVNRIADQSISIQELVADPVASIEQMATLEGGFGLPHPRIPLPRDLYGSERANSSGIDLANEHRLASLSCALLATAHNDWKAAPMLGCAASEETPAPVLNPADHRDVVGHVQEATVADVDNAIQCALNAAPIWQATPPAERAAILERAADLMEGEIQPLMGLLAREAGKTFANAIAEVREAVDFLRYYAVQARNDFTNDAHRPLGPVVCISPWNFPLAIFSGQVAAALAAGNPVLAKPAEQTPLVAAQAVRLMLEAGIPEGVLQLLPGRGETVGARLVGDDRVKGVMFTGSTEVARLLQRNIAGRLDNQGRPIPLIAETGGQNAMIVDSSALTEQVVIDVVSSAFDSAGQRCSALRVLCLQEDSADRVIEMLKGAMAESRLGNPERLSVDIGPVIDAEAKAGIEKHIQAMRDKGRTVYQMAIADSDECKRGTFVMPTLIELESFDELQREIFGPVLHVVRYKRKELDQLIGQINASGYGLTLGVHTRIDETIAKVIDNVHAGNVYVNRNIVGAVVGVQPFGGEGLSGTGPKAGGPLYLYRLLSTRPTDAIQQSFVRGDALSAPDLRLRDAMSKPLTALQAWADSHKLAELSALCVQFAAQSQSGITRQLTGPTGERNSYAILPREHVLCLADVEGDLLTQLAAVFAVGGSAVWPETDTSKALFARLPKDIQARIQRVADWTKDDVLFDAVLHHGDSDQLRGVCQQVAKRAGAIVGVHGLSQGETNIALERLVIERALSVNTAAAGGNASLMTIG	PGPT0020210_394	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020210-putA-K13821	NA	NA
D1-35_03349	1485	putP	COG0591	Sodium/proline symporter	ATGAGTTTCAGCAATCCTACCCTGATCACCTTCGTGATCTATATCGCAGCCATGGTCCTGATCGGCCTGATGGCTTATCGCTCCACCAACAACCTTTCCGATTACATCCTGGGCGGTCGCAGCCTGGGCAGTGTCGTGACGGCGCTCTCTGCCGGTGCCTCCGACATGAGCGGCTGGCTGTTGATGGGTTTGCCCGGCGCCATCTATATGTCCGGCCTGTCGGAAAGCTGGATCGCCATCGGCCTGATCATCGGTGCCTACCTGAACTGGCTGTTCGTGGCCGGGCGCCTGCGGGTGCAGACCGAGCACAACGGTGACGCGCTGACGCTGCCGGACTACTTCGCCAGCCGTTTCGAAGACAAGAGCGGTTTGCTGCGGATCATCTCCGCCGTCGTGATCCTGGTGTTCTTCACCATCTACTGCGCTTCCGGCATTGTTGCCGGTGCCCGTCTGTTCGAAAGCACTTTCGGCATGTCCTACGAGACCGCGCTGTGGGCCGGTGCCGCCGCGACCATCGCCTACACCTTCATCGGTGGTTTCCTGGCCGTGAGCTGGACCGATACCGTGCAGGCCACGCTGATGATCTTCGCGTTGATCCTCACGCCGATCATCGTGCTGCTGGCCACCGGCGGCGTCGATACCACGTTCCTGGCCATCGAAGCGAAAGACCCTACGTCGTTCGACATGCTGAAAAACACCACCTTCATCGGCATCATCTCGCTGATGGGCTGGGGCCTGGGCTACTTCGGCCAGCCGCATATCCTGGCGCGCTTCATGGCGGCAGATTCGGTCAAGTCGATTGCCAAGGCGCGTCGTATTTCCATGGCCTGGATGATCCTGTGCCTGGGCGGCACCGTTGCCGTCGGTTTCTTTGGTATCGCCTACTTCTCGGCGCACCCTGAAGTGGCCGGTCCGGTAACCGAAAACCCTGAGCGTGTGTTCATCGAACTGGCGAAACTGCTGTTCAATCCATGGGTTGCCGGTGTCCTGCTGTCGGCCATCCTGGCGGCGGTCATGAGCACCTTGAGCTGCCAACTGCTGGTATGCTCCAGTTCCTTGACCGAAGACTTCTACAAGACGTTCCTGCGCAAGAGCGCTTCCCAGCTGGAACTGGTCTGGGTCGGTCGTTTCATGGTGCTGCTGGTAGCGGTCATCGCCATCGCCCTGGCCGCCAACCCGGAAAACCGCGTGCTGGGCCTGGTGAGCTACGCCTGGGCCGGTTTCGGTGCGGCATTCGGTCCTGTGGTACTGATTTCGGTGATCTGGAAAGACATGACCCGTAACGGCGCGCTGGCCGGGATCCTGGTGGGTGCGATCACCGTAATCGTCTGGAAGCATTTCGAGCTGCTGGGCCTTTACGAAATCATCCCTGGCTTCATCTTTGCCAGCCTGGCGATCTACCTGGTCAGCAAGATGGGTTCGCCAACCGCCGGCATGCTGCAGCGCTTCGAAGCGGCCGAGAAGGATTTCCGCTTGAATCAATAA	MSFSNPTLITFVIYIAAMVLIGLMAYRSTNNLSDYILGGRSLGSVVTALSAGASDMSGWLLMGLPGAIYMSGLSESWIAIGLIIGAYLNWLFVAGRLRVQTEHNGDALTLPDYFASRFEDKSGLLRIISAVVILVFFTIYCASGIVAGARLFESTFGMSYETALWAGAAATIAYTFIGGFLAVSWTDTVQATLMIFALILTPIIVLLATGGVDTTFLAIEAKDPTSFDMLKNTTFIGIISLMGWGLGYFGQPHILARFMAADSVKSIAKARRISMAWMILCLGGTVAVGFFGIAYFSAHPEVAGPVTENPERVFIELAKLLFNPWVAGVLLSAILAAVMSTLSCQLLVCSSSLTEDFYKTFLRKSASQLELVWVGRFMVLLVAVIAIALAANPENRVLGLVSYAWAGFGAAFGPVVLISVIWKDMTRNGALAGILVGAITVIVWKHFELLGLYEIIPGFIFASLAIYLVSKMGSPTAGMLQRFEAAEKDFRLNQ	PGPT0013970_1151	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
D1-35_03350	2028	vgrG1_4		Actin cross-linking toxin VgrG1	ATGTTCGCGCCTGCCAACTCGCCACGTTTTACGCTGACATTCGACAGCGGCCCGAATGAATTGCAGGTCCTTGAGTTCAAGGGCACGGAAGCCGTCAGCCAGCCCTATCGCTTTGATCTGGAACTGGTCAGCGAGCGGCCCGACCTGGTGCTTGAAGATCTATTGCATCGTCAGGCTTATCTGCGCTTCGGCCACCAAGGTGGCGGGATACACGGCCAGGTCTATAGCGTCGCCCAAGGCGATTCGGGCGAGCGGCTGAGCCGTTATCAAATCAGCCTGGTGCCTCGCCTGGCTTACTTGCGCCATCGCATCAACCAGCGGATTTTCCAGCACCTGAGCGTGCCGGAAATCATCGCCCACGTATTGAAGGACCACGGTATTCTCGCCGATGCCTGCCAGTTCACTGGTCTCGGCGGACGATACCCCGAGCGTGAATATTGCGTGCAGTACCACGAAAGCGATCTGGTTTTTATCGAGCGGATTTGCGCCGAAGTCGGCATCCATTATCACTTCCGACACAGCCCTGACGGCCACCTGCTGATATTTGGCGACGACCAGACGGTGTTCCCGCGCTTGCCCGAGTCCACTGTGTATCTGCCCGGCAGCGGCATGGCTGCCGCCGAGCCGGCCATCAAGCGCCTGGCGGTGCGGCTGCAGACCCACACCAACGCCGTGATGTTGCGCGACTACGATTTTCGCAAGCCGGGCCTCTCGTTGCAGGCGGACATCGACAATCAGCAACTTCCCGTTCTGGAGAGTTATCACTACCCCGGCCAGTTCACCGACCGCGACGATGGCCAGCATCTGGCCCAGCATGCTCTCGAGCGGCAGGCGGGTGATGGGTGCCTGGCGGAGGGCGGCAGCGATGACAGCGCCTTTGCCAGCGGACATTTCATGTGTATCAAGGAGCATCCCCGGGCGCAATGGAACGACCTCTGGTTGCTGACGCAGGTTGACCACCATGGCCGCCAGCCGCAGGTGCTGGAAGAAAACGCCTCTGTCGGCGCGGATGAGTTCCAGGGCTACCGAAATAGCTTCCTCGCGACGCCGTGTGAAGTGTTCTTTCGTCCGCCGTTGCAACACAGGAAGCCGTCCGTCAACGGCTACCAGCCCGCGGTGGTGACCGGCCCGGCGGACAGCGAAATACATTGCGACGCGTTCGGGCGGGTCAAGGTGCAACTGGTCTGGGATCGCGACGGTAAGCGTGACGAGCATTCCGGTTGCTGGCTGAGGGTGGCGAGCGGCTGGGCACACGATCACTACGGCGGCGTGATGATTCCCCGGGTCGGCATGGAAGTGCTGGTGGGGTTCATGGAGGGCGACGTGGACAAGCCGCTGGTGGTGGGCTGTCTGCCGAACGGCGCCAACCCGGTACCGCTGGACCTGCCGGCGGACAAGACCCGCAGCATATTGCGCAGCCAGAGCAGCCCCGGTGGCGGTGGCTACAACGAGTTGCGCATCGAGGACCGCAAGGGTGCCGAGGAAATCTACCTGAGGGCCCAGCGCAACTGGACCCAGCACGTGTTGCACGACCAGCGCGTGCAGGTCGATCACGAGCGCAGCATCGTGGTCGCAGGCTTGTCGCGGCATGAACTGCAGAACGGCGAGCAGCGCATCACCGCAGGTCGGCGTCAGGTCGAGGTCCGCCAGGACGATCACCTGCTGGTCACGGGCGATCGGCATATCCGCGTGGCCAACCAGGCCATCAGCGCCGTGGGGGGCTTTCATGTCAGTGCCGGCCGGCAGGTCGTGCTGGAGGGTGGCGCCAGCGCGACCATCCAGGCCGGTGGGCACTGGATCAACATCGGTCCGGGCGGAATCTTCAGCAGCGTGCCGATCCAGGTCGGTGGCGCGCCGATGGCAGTCATGGGGGCCGAAGCCATTGCGCCCGGCGCGGCGGGAAAACTCGCCGCCGCGCCGGCCTCAGCCCTTAGCCATGCGCAGATCCTCAGCCTGAAAAGCCCCGCGCCGTTCTGCGAGGAATGCGAGCGCTGCAAGGAGGGCGCCTGTGATCTGTTGGCGTATTGA	MFAPANSPRFTLTFDSGPNELQVLEFKGTEAVSQPYRFDLELVSERPDLVLEDLLHRQAYLRFGHQGGGIHGQVYSVAQGDSGERLSRYQISLVPRLAYLRHRINQRIFQHLSVPEIIAHVLKDHGILADACQFTGLGGRYPEREYCVQYHESDLVFIERICAEVGIHYHFRHSPDGHLLIFGDDQTVFPRLPESTVYLPGSGMAAAEPAIKRLAVRLQTHTNAVMLRDYDFRKPGLSLQADIDNQQLPVLESYHYPGQFTDRDDGQHLAQHALERQAGDGCLAEGGSDDSAFASGHFMCIKEHPRAQWNDLWLLTQVDHHGRQPQVLEENASVGADEFQGYRNSFLATPCEVFFRPPLQHRKPSVNGYQPAVVTGPADSEIHCDAFGRVKVQLVWDRDGKRDEHSGCWLRVASGWAHDHYGGVMIPRVGMEVLVGFMEGDVDKPLVVGCLPNGANPVPLDLPADKTRSILRSQSSPGGGGYNELRIEDRKGAEEIYLRAQRNWTQHVLHDQRVQVDHERSIVVAGLSRHELQNGEQRITAGRRQVEVRQDDHLLVTGDRHIRVANQAISAVGGFHVSAGRQVVLEGGASATIQAGGHWINIGPGGIFSSVPIQVGGAPMAVMGAEAIAPGAAGKLAAAPASALSHAQILSLKSPAPFCEECERCKEGACDLLAY	PGPT0030410_3194	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
D1-35_03351	840	rlmJ	COG2961	Ribosomal RNA large subunit methyltransferase J	ATGAATTATCGCCATGCCTTCCACGCCGGCAATCACGCCGATGTGTTCAAACACCTGACCTTGACCCGCCTCATTGCCCTGATGTCGCGCAAGGAGCAGCCCTTTGCCTACCTCGATACCCACGCGGGCATCGGGCTGTACGACTTGCAGGGTGACCAGGCCAATCGCACCGGCGAATACCTGGAAGGCATCGCGCGGTTGTGGGGCCAGGATGACCTGCCGCCGCTGACCGCCGAGTACATGAAGGTGCTGCACGAGATGAACCCGGACGGCCAGTTGCGTTATTACCCGGGCTCACCGGAGCTGGCGCGGCGCCTGACCCGGGCGCAGGATCGGGTGCTGCTCAACGAGAAACATCCCGAAGACGGTGTACTGCTCAAGGACAACATGAAGGGTGACCGTCGCGTGGCGGTGCACCTGGGCGAAGGCTGGCATGTGCCGCGGGCTCTGCTGCCGGTGAGCGAGAAGCGCGGGCTGATGCTCATCGATCCGCCGTTCGAGCAGCTCGACGAGATGCAGCGCTGCGCCGCTTCGCTCAAGGAAGCCATCGGCCGGATGCGCCAGACGGTTGCGGCGATCTGGTACCCGGTGAAGGACCAGCGCATGTTGCGTCGCTTCTATCAGGACCTGGCCGGCACCGGCGCGCCGAAGCTGTTGCGGGTGGAATTGCTGGTGCATCCGCTGGCCACGCCGAACAGCCTGAACGGCTCCGGCCTGGCCATCGCCAATCCGCCTTGGGGGCTTGAGGAAGAATTGCGGGAATTGCTGCCCTGGTTATCCAGGAAGCTCGGGCAGACCCAGGGTGGTTGGCAGATGGATTGGTTGATTGCTGAAAGCTGA	MNYRHAFHAGNHADVFKHLTLTRLIALMSRKEQPFAYLDTHAGIGLYDLQGDQANRTGEYLEGIARLWGQDDLPPLTAEYMKVLHEMNPDGQLRYYPGSPELARRLTRAQDRVLLNEKHPEDGVLLKDNMKGDRRVAVHLGEGWHVPRALLPVSEKRGLMLIDPPFEQLDEMQRCAASLKEAIGRMRQTVAAIWYPVKDQRMLRRFYQDLAGTGAPKLLRVELLVHPLATPNSLNGSGLAIANPPWGLEEELRELLPWLSRKLGQTQGGWQMDWLIAES				NA	NA	NA	NA	NA
D1-35_03353	648	msrA	COG0225	Peptide methionine sulfoxide reductase MsrA	ATGGTCTTGCGCTCGGAAATCCTGGTGAACAAAAACGTGCTTCCTACTCAAGAACAAGCTCTGCCTGGCCGTGAAACCCCGATGACCGTGCCGGAAAAACACTTCGTCCATGACGCGCCGCTGCTGGGCCCGTTTGCCATGGACGTGGACTTCGCGATCTTTGGCCTGGGTTGCTTCTGGGGTGCGGAGCGCAAGTTCTGGCAACGTGAAGGCGTGGTCAGCACGGCGGTGGGTTACGCGGGCGGCTTTACGCCAAACCCGACTTACGAAGAGGTCTGCTCGGGCCTGACCGGCCACAGCGAAGTGGTGCTGGTGGTCTACGAGCCGGAGAAAGTCAGCTACAACGAACTGCTGGCGATGTTCTGGGAACTGCACAACCCGACCCAGGGCATGCGCCAGGGCAACGACATCGGCACCCAGTACCGCTCGGTGGTCTACTGCACCACGCCCGAGCAGCTGGAAGCGGCGAAAAAGAGCAAGGAACTATTCCAGGCTGAACTGACCAAGGCCGGGCTGGGAGAAATCACCACCGAAATCGACGAAGCGCCGACCTTCTACTTTGCCGAGGCGTATCACCAGCAATACCTGGCGAAGAACCCTGAAGGTTATTGCGGGATTGGCGGTACGGGCGTGACTTGCCCGATCTGA	MVLRSEILVNKNVLPTQEQALPGRETPMTVPEKHFVHDAPLLGPFAMDVDFAIFGLGCFWGAERKFWQREGVVSTAVGYAGGFTPNPTYEEVCSGLTGHSEVVLVVYEPEKVSYNELLAMFWELHNPTQGMRQGNDIGTQYRSVVYCTTPEQLEAAKKSKELFQAELTKAGLGEITTEIDEAPTFYFAEAYHQQYLAKNPEGYCGIGGTGVTCPI	PGPT0013065_2269	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013065-msrA-K07304	NA	NA
D1-35_03354	2694			hypothetical protein	ATGAAAAGCCAACCCGATGCCGCCAGCCGTATGGCGGCCGAGGTAGTGACGCAGTTACCGGTGCCCTCGCGGCTCGGTATGCTGCGTTTCGAACGGCTGAATGAAGCAAGCTGGGCGCTACTGTTTCTCGATCCCAACTGCGAACGTTACTTTGGCCTGCCGGCCGTCGAGCTGTGCTCGCTGGTGAGCTCACCCTACGCCAGCCTCATGGAGCCGGAAGCACGCTATCAGCTGCACGACGCGATCCAGCAGCAGTTGACCCAGGCCCCTCATTACCAGATCCGCTACACGCTGCACACCGCCAGGGGACCGTTGAACCTCCTGGAAACGGGTGAAACCTACAAACAGCACAACCGCCATTTGCTGCGCGGCTATCTGCTGGTGGTGGACAGCCTGCTGCCGACCGAGCCCTCCGTGCCGGCGCTCGATCTGGAAACCCAGAACTCGCGCCTGCAGATCGCCCTGGAACTGAACCAGCGCGCCCAGCAGGAGCAGCTCCAGCACCTTGACCGGGTGCGCGCCCAACAAGACCTGATTCTGCTGCTGACCCGCCAGCGCTATAGCGCCAACAATTCGTTGCAGGAAGCCGCCGAGCTGATTACCCGTAGCGCCTGCGATATCTACCAGATCGACAGCGCCAGCATCTGGAATCTGGAGGACGGCAAACTGCTGCCGATCTCGGCCTATAACCGCGCCTCCCAGGGATATTTCCTTCCAGGGGTAATCAACGCCAGCGACTTCCCAACCTACATGGAAGCGTTGCAGACCTGCCGCGCCATTGATGCCCACAATGCGATGCGCGACCCGCGCACCCGCGAGATGGCCGAGAACCTGCGCATCCGCGACGTCAACGCAATTCTCGACGCCAGTATCCGTATCGACGGCCAGGTGGTAGGCGTCCTGTGCCTGGAGCAAGTGGGCGCCACCCGCGCCTGGCAATCGGATGAAATCGCCTTTGCCGGCGAACTGGCGGACCAGTTCGCCCAGGTCATCAACAACCACAACCGGCGCACCGCCACCAGCGCCCTGCACTTGTTCCAGCGCGCGGTGGAACAGAGCGCCAACGCGTTCCTGCTGGTCAACTGCGACGGCGTGGTGGAATACGTCAACCCGAGCTTCACCGCCATCACTCAGTACACCACTGAAGAAGTCCACGGTCAGCGCCTGTCCGAGCTGCCGGCTCTGGAGAATCTCAGCGAACTGCTCTTCGACGCACCGTCGGCCCTGGCCCAGAGCAACAGCTGGCAGGGCGAATTCAAGAGCCGACGCAAAAACCTCGAGCCCTACTGGGGCCAGCTGTCGATTTCCAAGGTCTATGGCGACAACCGCGAACTGACCCACTACATCGGCATCTACGAAGACATCACCCAGACCAAACTGGCGCAGCAGCGCATCGAACGCCTGGCCTACACCGACAACCTGACCAACCTGGGCAACCGCCCGGCGTTCATTCGCAATCTCGATGAACGCTTCGCCCGGGACAGTGACTCGCCCATCAGCCTGTTGCTGGTGGACATCGACAACTTCAAGCGCATCAACGACAGCCTCGGCCACCAGACCGGCGACAAGCTGCTGATCAGCCTGGCCCGACGCCTGCGCAACAGCCTGAGCCCAAGCGGCAGCCTGGCGCGGTTCGCCAGTAACGAGTTCGCCGTACTGCTGGATGACACCGGCCTGGAAGCCGGCCAGCAGATCGCCAGCCAATTGCTGATGACGCTCGACAAGCCGATGTTCGTCGATAACCAGTTGATCAGCGTGACCGGTTCGGTCGGCCTGGCCTGCGCACCGTTGCATGGGCGTGACCCGCAGACGCTGATGCGCAACGCCGGCCTTGCCCTGCACAAGGCCAAGGCCAACGGCAAGCATCAGGTCCAGGTGTTCACCGAGGCGCTGAACGCCGAGGCCAGCTACAAGCTGTTCGTGGAAAACAACCTGCGCCGCGCCCTGACCCAGAATGAACTGGACGTTTTCTACCAGCCCAAGCTGTGCCTGCGCAGCGGTCGCCTGCTGGGCATGGAGGCGCTGCTGCGCTGGAACCACCCGGAAAAAGGCATGATCCGTCCGGACCAGTTCATCAGCGTGGCCGAGGAAACCGGCCTGATCATCCCCATCGGCAAATGGATCGCCCGCCAGGCTTGCCGCATGAGCAAGCAATTGACCGCAGCCGGCCTGGGCAACCTGCAGGTGGCGATCAACCTGTCGCCCAAGCAGTTCTCCGACCCGGACCTGGTGGCCTCGATCGCCAGCATCCTCAAGGAAGAGCAACTGCCCGCCCGCTTGCTGGAACTGGAGCTGACCGAAGGCTTGCTGCTCGAAGCCACCGAAGACACGCACCTGCAACTCGACCAGCTCAAGCGCCTGGGCCTGACCCTGGCCATGGACGATTTCGGTACCGGTTATTCATCCCTGAGCTATCTGAAGAAATTCCCGATCGACATCATCAAGATCGATCGCAGCTTCATCCATGAAATCCCGGACAACCAGGACGACATGGAAATCACCTCCGCCGTGATCGCCATGGCCCACAACCTGAAACTCAAGGTCGTCGCCGAAGGCATCGAGACCGCCCAGCAGCTGGCGTTCCTGCGTCGCCACCGCTGCGACGTCGGCCAGGGCTACCTGTTCGACCGGCCGATTCCCGGTGCAGAGCTTGTCGAGAAGCTCAAGCGCTACCCGCGCGGCCCTCTTGTCTGA	MKSQPDAASRMAAEVVTQLPVPSRLGMLRFERLNEASWALLFLDPNCERYFGLPAVELCSLVSSPYASLMEPEARYQLHDAIQQQLTQAPHYQIRYTLHTARGPLNLLETGETYKQHNRHLLRGYLLVVDSLLPTEPSVPALDLETQNSRLQIALELNQRAQQEQLQHLDRVRAQQDLILLLTRQRYSANNSLQEAAELITRSACDIYQIDSASIWNLEDGKLLPISAYNRASQGYFLPGVINASDFPTYMEALQTCRAIDAHNAMRDPRTREMAENLRIRDVNAILDASIRIDGQVVGVLCLEQVGATRAWQSDEIAFAGELADQFAQVINNHNRRTATSALHLFQRAVEQSANAFLLVNCDGVVEYVNPSFTAITQYTTEEVHGQRLSELPALENLSELLFDAPSALAQSNSWQGEFKSRRKNLEPYWGQLSISKVYGDNRELTHYIGIYEDITQTKLAQQRIERLAYTDNLTNLGNRPAFIRNLDERFARDSDSPISLLLVDIDNFKRINDSLGHQTGDKLLISLARRLRNSLSPSGSLARFASNEFAVLLDDTGLEAGQQIASQLLMTLDKPMFVDNQLISVTGSVGLACAPLHGRDPQTLMRNAGLALHKAKANGKHQVQVFTEALNAEASYKLFVENNLRRALTQNELDVFYQPKLCLRSGRLLGMEALLRWNHPEKGMIRPDQFISVAEETGLIIPIGKWIARQACRMSKQLTAAGLGNLQVAINLSPKQFSDPDLVASIASILKEEQLPARLLELELTEGLLLEATEDTHLQLDQLKRLGLTLAMDDFGTGYSSLSYLKKFPIDIIKIDRSFIHEIPDNQDDMEITSAVIAMAHNLKLKVVAEGIETAQQLAFLRRHRCDVGQGYLFDRPIPGAELVEKLKRYPRGPLV	PGPT0023624_777	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
D1-35_03355	1392			hypothetical protein	ATGTTCAAACCTACCGTCGGCCCCATCGTCGGCCACACCACGACCCACCATGCGCGGATATTCCTGCGCGGCGACCACGCCAGCAACAGGGTCTTCGCCGGGATTCGCCACAGGCGCCAAGGTGACACCGGCTGGTCGCAAGGCCAATTCGTGCAATTGAAGGCTTACCGCGACATGACCGCTGTCATCGTGCTCAAGGGTCTTCGCGCCGATACCGCCTACGAATACCAGGCGGGCTGGTTCAGCCCCATGCGCCCGACCCATACCGCGGCGACCGTGGGTCAACTGCTATTGCCATGGCCAGGGGAGGTTTACCACTTGCGCACGCCGTCCGGCACCGACAACGCTACTCGCAGTTATATCCTAGGCTCCTGTCGCTATTTGCAGATCGTCGGCGACATGCCGTTGCTGCCCGGGCTCGGTGATCGGATCTTCGCGAGCATCAACCGCCTCGTGAAACAGGCTGATCCGCCGATCAGTGCCGTATTGATGACCGGTGACCAGGTCTACCTCGATGACCTGAACAGGGTCGCCCCGGACCGCAGCGCCCGGGACATTCTGTTCAAGTACCGCTCGGCCTTCTCCCAGCCGCACATCAGGCGCTTGATGTCCAGCGTACCGACCTACATGATCCTCGATGACCATGAAATAGAGGACAACTGGCCCGCCAATAAAGAACCGGACGATGAGCGTCTATACGCCAACGCCCTGGATGCCTACGCGCTGTATCAGGCCAGCCATGGCCCGGCTGGCGAAGACCTGGACGACGCAAGCCCAGGCCGACCGCCGCGACGATACTGGTACCTGTTCGCTCACGGCGATATCCAATGGTTCGTCACCGACAGCCGGACCCGACGCAACCTGTCGGCGGCTGACCGGCGCATCCTTGATCAAGAACAGGAGCAGGCGCTGCTCGAATGGCTCATCGGCAGCACTGCCCGGGTCAAGCTTGTCGTAACCAGCGTCATGTTCTATCCCGATCGCAAACTGGATGACGGAGACGCCTGGCAAGCCTTCCCGAACCAACGCCTGCGCCTGATCGAAGCCATCCGCACGCACCGGATCAAAAACGTGATTTTTGTGTCCGGCGACGTGCACGGCTCCCTGACCAGCCGCCTGGTTCATAACCAGGATCCTGATTTCGCAGTCCACACCATCGTTTCCTCGCCGCTGTGCAACAGCCTGCTGCTGCCCTACGCCACAGCCTCGAGTTTCATCATCGGCGAGCCCATGGCCAAGGCAGCGGGCGGCGAGTATCGATATGAACTGACCAGCAAGGTCATCAGCCAGGACAATTTCGCTCAGCTGCGAGTAACGACCCAGAGCATTCAAGTGACCTTTCATGACCGTGACGGCGGCCCCTTGGAGGTCGTCGATATACCGTTGCGCTGA	MFKPTVGPIVGHTTTHHARIFLRGDHASNRVFAGIRHRRQGDTGWSQGQFVQLKAYRDMTAVIVLKGLRADTAYEYQAGWFSPMRPTHTAATVGQLLLPWPGEVYHLRTPSGTDNATRSYILGSCRYLQIVGDMPLLPGLGDRIFASINRLVKQADPPISAVLMTGDQVYLDDLNRVAPDRSARDILFKYRSAFSQPHIRRLMSSVPTYMILDDHEIEDNWPANKEPDDERLYANALDAYALYQASHGPAGEDLDDASPGRPPRRYWYLFAHGDIQWFVTDSRTRRNLSAADRRILDQEQEQALLEWLIGSTARVKLVVTSVMFYPDRKLDDGDAWQAFPNQRLRLIEAIRTHRIKNVIFVSGDVHGSLTSRLVHNQDPDFAVHTIVSSPLCNSLLLPYATASSFIIGEPMAKAAGGEYRYELTSKVISQDNFAQLRVTTQSIQVTFHDRDGGPLEVVDIPLR	PGPT0002575_2385	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0002575-phoD-K01113	NA	NA
D1-35_03356	1647	aceF	COG0508	Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	GTGAGCGAACTCATTCGCGTACCTGACATCGGCAGCGGTGAAGGTGAAGTAATTGAACTGTTTGTGAAGGTCGGCGACCGCATCGAAGCCGACCAGAGCATCCTGACGCTTGAATCGGACAAGGCCAGCATGGAAGTGCCCGCGCCGAAGGCCGGTGTCATCAAGAGCCTGAAAGTGAAGCTGGGCGATCGCCTGAAAGAGGGCGACGAGCTGTTGGAACTGGAAGTCGAAGGCGCCGCTGCGGCACCTGAAGCGCCAGCGCCCGCTGCGGCCCCGGCGGCGGCTGAAAAGCCTGCCGCCGCACCGGCTGCAGAAGCCGCTCCGGCGGCTGCGGCTGCACCTGCGGCGGCCTCTGTCCAGGACATTCATGTCCCGGACATCGGTTCGTCGGGCAAGGCCAAGATCATCGAAGTACTGGTCAAGGCCGGCGACACCGTCGAAGCCGACCAGTCGCTGATCACCCTGGAATCCGACAAGGCCAGCATGGAGATCCCTTCGCCGGCTGCCGGCGTGGTGGAAAGCGTCGAGGTCAAGCTGGACGACGAAGTCGGCACCGGTGACTTGATCCTGAAGCTGAAAGTAGCCGGTGCCTCGGCACCTGCCGTGCCAGCCCCGGCTGCTGCGCCTGCTGCCAAGGCTGAGTCGGCCCCGGCTCCGGCTCCAGCCGCCGCGCCTGCCGCCAAGGCCGAAGCGGCTCCTGCCCCTGTCGCCGCTGCGCCTGCGCCAAGCGGTGCCAAGGTGCACGCCGGCCCAGCCGTGCGTCAGCTGGCCCGTGAGTTCGGCGTCGAGCTGTCGGCCGTCGGTCCAAGCGGTCCTCACGGCCGCGTGCTGAAGGAAGACGTGCAGGCCTACGTCAAGGCCATGATGCAGAAGGCCAAGAACGCACCGGCCGAAGGCGCCACTGGCGGCGCGGGTATCCCGCCGATTCCGGCGGTGGACTTCAGCCGCTTCGGTGAAACCGAAGAAGTCGCGATGACCCGCCTGATGCAGATCGGCGCGTCGAGCCTGCATCGCAGCTGGCTGAACATTCCACACGTGACTCAGTTCGACCAGGCTGACATCACCGAACTGGAAGCCTTCCGCGTCGCACAGAAAGCCGTGGCCGAAAAGGCCGGCGTGAAGCTGACCGTGTTGCCGCTGCTGCTCAAGGCTTGCGCGCACCTGCTCAAGGAATTGCCGGACTTCAACAGCTCCCTGGCCCCAAGCGGCAAGGCTGTGATCCGCAAGAAGTACGTGCACATCGGCTTTGCCGTCGACACCCCGGAAGGCCTGCTGGTACCGGTCATCCGTAACGTCGACCAGAAGAGCCTGCTGCAACTGGCTGGCGAAGCCGCTGCCCTGGCCGAAAAAGCCCGGAACAAGAAGCTCACCGCCGACGACATGCAGGGCGCCTGCTTCACCATCTCCAGCCTCGGTCACATTGGCGGCACCGGCTTCACGCCGATCGTCAACGCGCCGGAAGTGGCGATCCTGGGTGTCTCCAAGGCCACCATCCAGCCAGTCTGGGACGGTAAAGCCTTCCAGCCCAAGCTGATGCTGCCGCTGTCGCTGTCCTACGATCACCGTGTGATCAATGGTGCGGCCGCTGCACGCTTCACCAAGCGCTTGAGCGACCTGCTGGGCGACATCCGCACCATCCTGCTGTGA	MSELIRVPDIGSGEGEVIELFVKVGDRIEADQSILTLESDKASMEVPAPKAGVIKSLKVKLGDRLKEGDELLELEVEGAAAAPEAPAPAAAPAAAEKPAAAPAAEAAPAAAAAPAAASVQDIHVPDIGSSGKAKIIEVLVKAGDTVEADQSLITLESDKASMEIPSPAAGVVESVEVKLDDEVGTGDLILKLKVAGASAPAVPAPAAAPAAKAESAPAPAPAAAPAAKAEAAPAPVAAAPAPSGAKVHAGPAVRQLAREFGVELSAVGPSGPHGRVLKEDVQAYVKAMMQKAKNAPAEGATGGAGIPPIPAVDFSRFGETEEVAMTRLMQIGASSLHRSWLNIPHVTQFDQADITELEAFRVAQKAVAEKAGVKLTVLPLLLKACAHLLKELPDFNSSLAPSGKAVIRKKYVHIGFAVDTPEGLLVPVIRNVDQKSLLQLAGEAAALAEKARNKKLTADDMQGACFTISSLGHIGGTGFTPIVNAPEVAILGVSKATIQPVWDGKAFQPKLMLPLSLSYDHRVINGAAAARFTKRLSDLLGDIRTILL	PGPT0001390_2387	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
D1-35_03357	2646	aceE_2	COG2609	Pyruvate dehydrogenase E1 component	ATGCAAGACCTCGATCCCGTCGAAACCCAGGAATGGCTGGACGCCCTGGAATCGGTTCTCGACAAAGAAGGCGAAGACCGTGCTCATTACCTGATGACCCGTATGGGCGAACTCGCAACCCGCAGCGGTTCGCAACTGCCCTACGCCATCACCACGCCGTACCGCAACACAATCCCCGTCACCCACGAAGCACGCATGCCTGGCGACCTGTTCATGGAACGCCGCATTCGCTCGCTGGTGCGTTGGAACGCGTTGGCCATGGTCGTGCGGACCAACCTGAAAGATTCTGACCTGGGCGGTCACATCTCCAGCTTCGCCTCCAGCGCGACGCTGTATGACATCGGCTTCAACTACTTCTTCCAGGCCCCGACCGACGAACACGGCGGCGACCTGATCTACTTCCAGGGTCACGCATCGCCAGGCGTCTACGCCCGTGCGTTCATGGAAGGCCGCATCACCGAAGACCAGATGAACAATTTCCGCCAGGAAGTGGACGGCAACGGCCTGTCCTCGTACCCACACCCTTGGCTGATGCCCGATTTCTGGCAGTTCCCGACCGTATCCATGGGCCTGGGCCCGATCCAGGCCATCTACCAGGCACGCTTCATGAAGTACCTGGAAGCCCGTGGCTTCATCCCGGCCGGCAAGCAGAAAGTCTGGTGCTTCATGGGTGACGGCGAGTGCGACGAGCCGGAATCCCTGGGCGCAATCTCCCTGGCCGGCCGCGAGAAGCTCGACAACCTGATCTTCGTCATCAACTGCAACCTGCAGCGCCTCGACGGCCCGGTTCGCGGCAACGCCAAGATCATCCAGGAACTCGAAGGCGTGTTCCGTGGCGCCCAGTGGAACGTCAACAAAGTCATCTGGGGCCGTTTCTGGGACCCACTGCTGGCCAAGGACGTCGACGGCATCCTGCAACGTCGCATGGACGAAGTCATCGACGGCGAGTACCAGAACTACAAGGCCAAGGACGGCGCGTTCGTCCGCGAGCACTTCTTCAACTCGCCTGAACTCAAGGCGATGGTCGCCGACCTGTCCGACGACGAGATCTGGAAGCTCAACCGTGGCGGCCATGACCCGTACAAGGTCTATGCGGCTTACCACCAGGCGGTCAACCACAAAGAGCAGCCGACCGTCATCCTGGCCAAGACCATCAAGGGTTATGGCACCGGTGCCGGCGAAGCGAAGAACACCGCGCACAACACCAAGAAGGTCGATGTCGACAGCCTGAAGCTGTTCCGCGATCGCTTCGACATTCCGGTCAAGGACAGCGAGCTGGAAAACCTGCCGTTCTTCAAGCCGGAAGAAGGCAGCGCCGAGGCCCGTTACCTGGCCGAGCGGCGCGCCGCCCTGGGTGGTTTCGTGCCGCAGCGCCGCGCCAAGAGCTTCAGTATCCCGACCCCACCACTGGAAACCCTCAAGGCGATCCTGGACGGCTCGGGCGACCGTGAAATCTCCACCACCATGGCCTTCGTGCGGATCCTCGCGCAACTGGTCAAGGACAAGGAGATTGGCCAGCGCATCGTTCCGATCATCCCGGACGAAGCCCGTACCTTCGGTATGGAAGGCATGTTCCGCCAGCTGGGCATCTACTCGTCCGTCGGCCAGCTCTACGAGCCAGTCGATAAAGACCAGGTGATGTTCTACCGCGAGGACAAGAAGGGCCAGATCCTCGAAGAAGGCATCAACGAAGCGGGCGCCATGAGCTCGTTCATTGCCGCCGGTACTTCGTACTCCAGCCACAACCAGCCGATGCTGCCGTTCTACATCTTCTATTCGATGTTCGGCTTCCAGCGTATCGGCGACCTGGCCTGGGCCGCTGGCGACAGCCGTACCCGTGGCTTCCTGATCGGCGGTACCGCCGGCCGGACCACGCTGAACGGCGAAGGCCTGCAGCACGAAGATGGCCACAGCCACATGCTGGCCGGGACCATCCCGAACTGCCGCACCTATGATCCGACCTACGGCTACGAGCTGGCGGTGATCATCCAGGACGGCATGAAAAAGATGATCGAAGAGCAACAGGACGTCTTCTACTACATCACCGTGATGAACGAGTCCTACCAGCAGCCAGCCATGCCGGCCGGCGTCGAGGCAGGTATCGTCAAGGGTATGTACCTGCTCGAGGAAGACACCCGCGAAGCGGCGCACCACGTCCAGCTGATGGGCTCCGGCACCATCCTGCGCGAAGTGCGTGAAGCGGCGAAGATCCTGCGCGAAGAATTCAACGTCGGCGCCGACGTCTGGAGCGTCACCAGCTTCAACGAATTGCGTCGCGACGGCCTCGCTGTAGAGCGCAGCAACCGCCTGCACCCTGGCCAGAAGCCGAAACTGAGCTACGTCGAAGAATGCCTGAACGGTCGCAAAGGGCCGGTCATCGCCTCTACCGACTACATGAAGCTGTTCGCCGAGCAGATCCGCCAGTGGGTTCCTTCCAAGGAGTTCAAGGTGCTGGGCACCGACGGTTTCGGCCGTAGCGACAGCCGCAAGAAGCTGCGTCACTTCTTCGAAGTCGACCGTAAGTTCGTTGTGTTGGCAGCCCTGGAAGCACTGGCTGACCGCGGCGATATCGAACCCAAGGTGGTGGCCGAGGCCATCGTCAAGTTCGGCATCGATCCGGAAAAACGCAACCCACTGGACTGCTGA	MQDLDPVETQEWLDALESVLDKEGEDRAHYLMTRMGELATRSGSQLPYAITTPYRNTIPVTHEARMPGDLFMERRIRSLVRWNALAMVVRTNLKDSDLGGHISSFASSATLYDIGFNYFFQAPTDEHGGDLIYFQGHASPGVYARAFMEGRITEDQMNNFRQEVDGNGLSSYPHPWLMPDFWQFPTVSMGLGPIQAIYQARFMKYLEARGFIPAGKQKVWCFMGDGECDEPESLGAISLAGREKLDNLIFVINCNLQRLDGPVRGNAKIIQELEGVFRGAQWNVNKVIWGRFWDPLLAKDVDGILQRRMDEVIDGEYQNYKAKDGAFVREHFFNSPELKAMVADLSDDEIWKLNRGGHDPYKVYAAYHQAVNHKEQPTVILAKTIKGYGTGAGEAKNTAHNTKKVDVDSLKLFRDRFDIPVKDSELENLPFFKPEEGSAEARYLAERRAALGGFVPQRRAKSFSIPTPPLETLKAILDGSGDREISTTMAFVRILAQLVKDKEIGQRIVPIIPDEARTFGMEGMFRQLGIYSSVGQLYEPVDKDQVMFYREDKKGQILEEGINEAGAMSSFIAAGTSYSSHNQPMLPFYIFYSMFGFQRIGDLAWAAGDSRTRGFLIGGTAGRTTLNGEGLQHEDGHSHMLAGTIPNCRTYDPTYGYELAVIIQDGMKKMIEEQQDVFYYITVMNESYQQPAMPAGVEAGIVKGMYLLEEDTREAAHHVQLMGSGTILREVREAAKILREEFNVGADVWSVTSFNELRRDGLAVERSNRLHPGQKPKLSYVEECLNGRKGPVIASTDYMKLFAEQIRQWVPSKEFKVLGTDGFGRSDSRKKLRHFFEVDRKFVVLAALEALADRGDIEPKVVAEAIVKFGIDPEKRNPLDC	PGPT0001385_2616	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001385-aceE-K00163	NA	NA
D1-35_03358	2940	glnE	COG1391	Bifunctional glutamine synthetase adenylyltransferase/adenylyl-removing enzyme	ATGAGCCTGCCCTCGCTTGCCGAAATTCCGGCAATTCTCCAGTCATTGGTCAGTCGCGCCGAGCAGTCGTTCCGCGCGGCGGTCGCTTCGCTGGACGACGATCACGGGCTGTCCGCCTGGACGCCGCAGCGTTGGGCCGAGTTCAACCGCGTCGCCGCTGCCAGTGACTTTGTCATCGAACAAAGTGTACGGGATCCTGCGATGCTGCTGGAACTGGTGCGCAGCGGTGAGCTGGACCGCAGCCTGGCGGCGGGTGAAATGTGCGGGCAGATCGCCGCTGCCGTACGAGCCGCCGAGAGCGAGGATGAACTGGGTCGCGTACTGCGTCGCCAGCGCACCCGTCAGCAAGTACGGATCATCTGGCGCGACCTGACCCGCCAGGCCGATCTGGTACAGACCTGCCGTGATCTCTCGGACATGGCCGACACCTGCATCGATCAGGCGTATCAGTGGTTGTACCAGCGCCTGAGCCAGCAATTCGGCACCCCCACCGGCCGGCGCAGTGGCGAGCCGCAGCAGATGGTCATCCTGGGCATGGGCAAGCTGGGAGCGGTGGAACTGAACCTGTCGTCGGACATCGACCTGATCTTTGCCTACCCCGAAGGCGGCGAAACCGTTGGCGCGAAGCGGCCGCTGGATAACCAGGAGTTTTTCATCCGCGTCGGCCAGCGGCTGATCAAGGCCCTCGACCCGATGACCGTCGACGGGTTCGTGTTCCGCGTCGACATGCGCTTGCGCCCCTACGGCTCGGCCGGTGCCCTGGTATTGAGCTTCAATGCCCTGGAACAGTATTACCAGGATCAGGGGCGCGACTGGGAACGCTACGCCATGATCAAGGCGCGGGTGGTGGCCGGCGACCAGGTGGCCGGCGCGCAATTGCTCGACATGCTGCGCCCGTTCGTCTATCGCCGTTACCTGGATTTCTCTGCCATCGAAGCGCTGCGCACCATGAAGCAGCTGATCCAGCAGGAGGTGCGGCGCAAAGGCATGGCCGACAACATCAAGCTGGGCTCGGGCGGCATTCGCGAGGTGGAGTTCATTGCCCAGGCGTTCCAGCTGATCCATGGCGGTCGTGACCTGAGCTTGCAGCAACGGCCGTTGTTGAAGGTGTTGGGTACCCTGGAAGGCCAGGGCTATCTGCCGGCCAAGGTCATCGATGAATTGCGCCAGGGGTATGAATTCCTGCGATACACCGAGCACGCGATCCAGGCCATTGCCGATCGCCAGACCCAGATGCTGCCGGATAACCCGCAAGACCAGGCGCGCATTGCGTTCATGCTGGGCTTCGTCGATTGGGCGGCGTTCCACGAGCAGTTGATGTACTGGCGCGGTCGGGTGGCGTGGCATTTTGGCCAGGTCATCGCTGACCCGGATGAGGACGAGGGCGGCGAAGGCGAAGTGGTGGTTGGCGGCGAATGGTTGCCATTGTGGGAAGACAGTCAGGACGAGGAGGCGGCGTGTCGTCAGTTGGAGGAGGCCGGTTTTGCCGATGCACCCAAAGCGCTCAAGGCCCTCGCTGTCCTGCGTGCCAGCCCGCAGCTGCGCGCCATGCAGCGCCTGGGGCGCGAGCGCCTGGACGCGTTCATTCCGCGCCTGCTCGCCCAGGCGGTGGAACATGCCGACCCGGACCTGGTGCTCGAACGGGTATTGCCGCTGGTAGAGGCCGTCGCCCGCCGTTCGGCCTATCTGGTGCTGTTGACCGAGAACCCCGGCGCCCTGCGGCGTTTGTTGACGCTGTGCGCGGCGAGTCCGTGGATCGCCGAGCAGATCACCCGGTTCCCGCTGTTGCTCGATGAATTGCTCAATGAAGGCCGTTTGTTCAAGCCGCCCCTGGCGCCTGAGCTCGCGGCGGAGTTGCGTGAGCGTCTGACACGGATTCCCGAGGACGATCTTGAGCAGCAGATGGAAGCCTTGCGGCATTTCAAACTGGCGCACCGCTTGCGGGTGGCCGCCTCGGAAATCGCCGGCAGCCTGCCGCTGATGAAAGTCAGCGATTACCTGACCTGGCTGGCCGAAGCGATTCTCGAACAGGTGCTGGCCCTGGCCTGGCGCCAGACGACGGCCAAGCATGGGGTGCCACTGCGCACCGACGGCAGCCTGTGTGATCCGGGCTTCATTATTGTCGGTTATGGAAAAGTCGGGGGGCTGGAACTGGGGCATGGTTCCGACCTGGATCTGGTGTTTATCCACGACGGTGACCCGCAGGCCGAAACCGACGGTCCGAAACCCATCGATGGCGCACAGTTTTTCACCCGGCTTGGTCAGCGAATCATTCATTTGCTGACGGCCCAGACCAACTCTGGGCAGCTGTATGAGGTGGACATGCGCCTGCGACCTTCCGGGGCGTCGGGCTTGCTGGTCAGTTCTCTGGGGGCGTTTGCCCGTTACCAGGAAAACGAAGCCTGGACCTGGGAGCATCAGGCGCTGGTACGTGCCCGGGTGCTGGTGGGCAGCCAGGATGTGGGCCAGGCGTTCGAAAAAGTCCGCGTTCAGGTACTGGGACGCTCGCGTGACTTGCCGACTTTGCGCCAGGAGGTCAGCGAGATGCGCGCCAAGATGCGCGATAATCTCGGCAGCAAGGCCACCGCTGCCGGAACCGCGCCAAATGCCTTCGAAGCCACGGCACCCTTCGACCTCAAGCAGGACGCCGGAGGTATCGTCGATATTGAATTTATGGTGCAATACGCGGCCCTGGCGTGGTCCGAGGAACATCCATCGCTGGTCCGCTATACCGACAACATCCGCATCCTGGACGGGTTGCAGGAGGTCGGGTTGCTGCCCGCCGAGGACGCCACGCTGTTGCGCGAAGCCTACAAGGCCTACCGCTCAGCCGCCCACCGCCAGGCTCTGCAGAAAGACGCCGGGGTGATCGCAGGCGATCAGTTCGTCGAGGAGCGTCGACAGGTGATGCGAATCTGGCGGGAGTTGGGGCTCAGCTGA	MSLPSLAEIPAILQSLVSRAEQSFRAAVASLDDDHGLSAWTPQRWAEFNRVAAASDFVIEQSVRDPAMLLELVRSGELDRSLAAGEMCGQIAAAVRAAESEDELGRVLRRQRTRQQVRIIWRDLTRQADLVQTCRDLSDMADTCIDQAYQWLYQRLSQQFGTPTGRRSGEPQQMVILGMGKLGAVELNLSSDIDLIFAYPEGGETVGAKRPLDNQEFFIRVGQRLIKALDPMTVDGFVFRVDMRLRPYGSAGALVLSFNALEQYYQDQGRDWERYAMIKARVVAGDQVAGAQLLDMLRPFVYRRYLDFSAIEALRTMKQLIQQEVRRKGMADNIKLGSGGIREVEFIAQAFQLIHGGRDLSLQQRPLLKVLGTLEGQGYLPAKVIDELRQGYEFLRYTEHAIQAIADRQTQMLPDNPQDQARIAFMLGFVDWAAFHEQLMYWRGRVAWHFGQVIADPDEDEGGEGEVVVGGEWLPLWEDSQDEEAACRQLEEAGFADAPKALKALAVLRASPQLRAMQRLGRERLDAFIPRLLAQAVEHADPDLVLERVLPLVEAVARRSAYLVLLTENPGALRRLLTLCAASPWIAEQITRFPLLLDELLNEGRLFKPPLAPELAAELRERLTRIPEDDLEQQMEALRHFKLAHRLRVAASEIAGSLPLMKVSDYLTWLAEAILEQVLALAWRQTTAKHGVPLRTDGSLCDPGFIIVGYGKVGGLELGHGSDLDLVFIHDGDPQAETDGPKPIDGAQFFTRLGQRIIHLLTAQTNSGQLYEVDMRLRPSGASGLLVSSLGAFARYQENEAWTWEHQALVRARVLVGSQDVGQAFEKVRVQVLGRSRDLPTLRQEVSEMRAKMRDNLGSKATAAGTAPNAFEATAPFDLKQDAGGIVDIEFMVQYAALAWSEEHPSLVRYTDNIRILDGLQEVGLLPAEDATLLREAYKAYRSAAHRQALQKDAGVIAGDQFVEERRQVMRIWRELGLS	PGPT0000655_1041	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000655-glnE-K00982	NA	NA
D1-35_03359	714	rspR_1	COG1802	HTH-type transcriptional repressor RspR	ATGAGCAAGCCCGGCCAAACGGTGCTGGTTGCGTTGCGTCGGATGATCGCCTCCGGCGAGCTGGCGGCCGGCGAGCGGCTGATGGAAATTCCCACGGCGCAGTTGTTCGGCGTCTCGCGGATGCCGGTGCGCATGGCGTTTCGCACCCTGGAGCAGGAAGGGCTGCTGGTGCGTTTTGGCGGGCGGGGTTTCCAGGTGCGCTCGGTCAGCGCCGAGGAGATTGCCGGGGCGGTGGAAGTGCGTGGGGTGCTGGAGGGCCTGGCTGCCCGGCAAGCCGCCGAACGCGGTTTGTCCGAGGAGGCTCGCCGGGCGCTTGAGCAGTGCCTGGTCGATGGCGACGAACTGTTCGCCAAAGGTTATGTGACCGAAGAGGACCTGGAGGTCTATCACGACCTCAACATGCGTTTTCACCAGGTAATCGTCGAGGGCAGCCACAACCCGGCCATCGCCGACGCCCTGGCGCGCAACGATCACCTGCCGTTCGCCTCGGTCACGGCCCTGGCGGTCGACCGCCAGAACATGGCCGGCGAATACCGGCGCTTCAACTATGCCCACATGCAGCATCATTCGGTGTTCGACGCGCTGGTCAATCGCCAGGGCGCCCGGGCCGAGGCGATCATGCGCGAGCACGCCAACGCGACCCTGCGCTACGCCGAGGTGTTTGGCTCGACGCTGGCGGATGAGCGGATGAAGGTAATCCTTAGAACTGAATGA	MSKPGQTVLVALRRMIASGELAAGERLMEIPTAQLFGVSRMPVRMAFRTLEQEGLLVRFGGRGFQVRSVSAEEIAGAVEVRGVLEGLAARQAAERGLSEEARRALEQCLVDGDELFAKGYVTEEDLEVYHDLNMRFHQVIVEGSHNPAIADALARNDHLPFASVTALAVDRQNMAGEYRRFNYAHMQHHSVFDALVNRQGARAEAIMREHANATLRYAEVFGSTLADERMKVILRTE				NA	NA	NA	NA	NA
D1-35_03360	1872	menE		2-succinylbenzoate--CoA ligase	GTGAGTTCCGAGTTCAGATCATCCTCCCGGCCCGAACCTGCGCGCTATCGCCAGGTGTCGATCGGGCATCCAGCCGTTGAAGTGAAGGAAGAGCAGGGCATCCTGCAGATGCGCTCCCTGGAGCCCTTGGCGCCGTTGCCGTCGCGCCTGCTCGATCGCCTGGTGCACTGGGCCCGGGTGCGACCGGACCAGACGTTCATTGCCGCTCGCGAAAACCAAGGCGATTGGCGTCACGTCAGCTATGCGGAAATGCTCGACAGCGTGCGGGCCATTGCCCAAGGCCTGCTTCGTTATGGCCTGTCGGCCGAAAAACCCCTGGCGCTGCTCTCGGGTAACGACATCGAGCATTTGCAAATGGCCTTGGGCGCGATGTACGCCGGGATTCCCTATTGCCCGGTGTCGCCGGCCTATTCGTTGCTGTCCCAGGATTTCGCCAAGTTGCGGCACGTCTGCGACCTGTTGCAGCCGGGGCTGATATTTGTCAGCGAGGCCGCGCCGTTCGAGCGCGCGATCAATGCGGTATTGCCTATGGATATCCCCCTGGTCAGCGTGCGCGGAGAAATACCCGGCCGCGCCAGGACAAGCTTCGCCAGCCTGCTGGCGCAGCCGGGCGGCAGCGAGGCCGAGCGGGCTTTCACCGCCACCGGCCCGGACAGCATCGCCAAGTTCCTGTTCACCTCCGGCTCCACCAAGCTGCCGAAGGCGGTGATCACCACCCAACGCATGCTTTGCGCCAACCAGCAGATGCTCTTGCAGACCTTCCCGGTGTTTGGCGAGGAACCACCAGTGCTGGTGGATTGGCTGCCCTGGAACCATACGTTTGGTGGCAGCCATAACGTCGGCATCGTGCTGTACAACGGCGGCACCTTCTATCTGGACGATGGCAAGCCCACCGTCCAGGGCTTCGCCGAAACCTTGCGCAATCTCAAGGACATTTCCCCAACCGCTTACCTGACCGTGCCCAAGGGCTGGGAGGAATTGGTCAGCGCGCTGGAACAGGACGCCGAACTGCGCGAGCGCTTTTTCAAGCGCATCAGCCTGTTCTTCTTCGCCGCGGCGGGGCTTTCGCAGAGCACCTGGGATCGCCTCGACAAGGTGGCCGAGCAGCATTGCGGCGAGCGCATCCGCATGATGGCCGGCCTGGGCATGACCGAAGCGTCGCCGTCCTGCACCTTCACCACCGGGCCGCTGTCCATGGCCGGCTACATCGGCTTGCCGGCGCCAGGTTGCGAAGTGCGGATGGTGCCGGTGGACGGCAAGTTCGAAGGGCGCTTTCGCGGGCCACACATCATGCCCGGCTACTGGCGGTCGCCGCAGCAGACCGCCGAGGTGTTCGACGAGGCCGGTTTCTATTGTTCGGGCGACGCCATCAAGCTGGCCGATGCCGCCAACCCGCAGTTGGGGCTGATGTTCGACGGGCGCATCGCCGAAGACTTCAAATTGTCCTCCGGCGTGTTCGTCAGCGTCGGGCCGTTGCGCAACCGCGCGGTGCTGGAGGGCACGCCGTACGTCCAGGACCTGGTGGTGACGGCGCCGGACCGCCCGCACCTGGGCGCGCTGGTATTCCCGCGCCTGCATGACTGCCGGCGCCTCTCGGGCCTGGCGCAGGACGCCAGCGACGCCGAGGTCCTGGCCAGCCCGCCGGTGCGCCAGTGGTTTGCCGACTGGTTGCAGCGCCTGAACCGCGAAGCCAACGGCAACGCCAGTCGTGTGGAGTGGATCGCACTGCTCGACGAACCCGCTTCCATCGACCGTGGCGAAATCACCGACAAGGGCTCGATCAACCAGCGCGCCGTGTTGCAATGGCGCGCGGCGAAGGTCGAGGCGCTGTATCGGGGAGAAGACCCAACGGTCCTGCGCGCTGGCAATTAA	MSSEFRSSSRPEPARYRQVSIGHPAVEVKEEQGILQMRSLEPLAPLPSRLLDRLVHWARVRPDQTFIAARENQGDWRHVSYAEMLDSVRAIAQGLLRYGLSAEKPLALLSGNDIEHLQMALGAMYAGIPYCPVSPAYSLLSQDFAKLRHVCDLLQPGLIFVSEAAPFERAINAVLPMDIPLVSVRGEIPGRARTSFASLLAQPGGSEAERAFTATGPDSIAKFLFTSGSTKLPKAVITTQRMLCANQQMLLQTFPVFGEEPPVLVDWLPWNHTFGGSHNVGIVLYNGGTFYLDDGKPTVQGFAETLRNLKDISPTAYLTVPKGWEELVSALEQDAELRERFFKRISLFFFAAAGLSQSTWDRLDKVAEQHCGERIRMMAGLGMTEASPSCTFTTGPLSMAGYIGLPAPGCEVRMVPVDGKFEGRFRGPHIMPGYWRSPQQTAEVFDEAGFYCSGDAIKLADAANPQLGLMFDGRIAEDFKLSSGVFVSVGPLRNRAVLEGTPYVQDLVVTAPDRPHLGALVFPRLHDCRRLSGLAQDASDAEVLASPPVRQWFADWLQRLNREANGNASRVEWIALLDEPASIDRGEITDKGSINQRAVLQWRAAKVEALYRGEDPTVLRAGN	PGPT0019895_153	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0019895-fcs-K12508	NA	NA
D1-35_03361	1449	vdh		Vanillin dehydrogenase	ATGCTGGACGTGCCCCTGTTGATTGGCGGCCAGTCGTGCCCGGCCCGCGATGGCCGGACCTTCGAGCGCTGCAACCCGGTGACCGGTGAAGTGGTGTCCCGCGTGGCCGCCGCCACGCTGGAAGATGCCGACGCCGCCGTGGCCGCCGCACACGCTGCCTTCCCGGCCTGGGCCGCGCTGGCGCCCAACGAGCGTCGCACCCGTCTGTTGCGCGCGGCCGAGCAGTTGCAGGCGCGCAGCGGCGAATTTATTGCCGCCGCTGGCGAAACCGGCGCCATGGCCAACTGGTACGGCTTCAATGTGCATCTGGCTGCAAACATGCTCCGCGAAGCCGCCTCCATGACCACGCAAATCAATGGCGAAGTCATCCCTTCGGACGTGCCCGGCAGTTTCGCCATGGCCTTGCGTCAGCCGTGTGGCGTGGTGTTGGGCATCGCGCCGTGGAACGCCCCGGTCATTCTCGCCACCCGCGCAATCGCCATGCCCCTGGCGTGCGGCAACACTGTGGTACTCAAGGCCTCGGAAGTCAGCCCGGCCGTGCACCACCTGATCGGCCAGGTGCTGCAGGACGCCGGTCTGGGCGATGGCGTGGTCAATGTCATCTGCAATGCGCCCACGGATGCGCCGGCCATTGTCGAGCGCCTGATCGCCAACCCGGCGGTACGGCGGGTCAACTTCACGGGCTCGACCCACGTCGGCCGCATCGTCGGCGAACTGTCGGCGCGTCATCTCAAGCCGGCATTGCTGGAGCTGGGCGGCAAGGCACCGCTGCTGGTGCTCGATGACGCCGATCTTGACGCAGCGGTGCAGGCGGCGGCGTTTGGGGCCTACTTCAACCAGGGCCAGATCTGCATGTCCACCGAGCGCCTGATCGTAGACGCGAGCGTGGCCGATGCCTTTGTCGCCCGACTGACCGCGAAGATTGCGACCCTGCGCGCCGGCGATCCTGCCGCGGGTGATTCGGTGCTGGGCTCGCTGGTGGACACCAGCGCCGGACTGCGCATCAAAGGCCTGATCGACGATGCCCTGGCCAAAGGCGCCAGACTAGTCGCCGGCGGCCAACTGGACGGCAGCATCCTCCAACCGACCTTGCTCGACGGGGTCACCCCGGACATGCGCCTGTACCACGAAGAGTCCTTCGGACCGGTGGCGGTGTTGCTGCGCGGCGACGGTGACGAAGCGTTGCTGCGCCTGGCCAACGATTCCGAGTTCGGCCTGTCGGCGGCGATCTTCAGCCGCGATACCAGCCGCGCCCTGGCGCTGGCCCAACGAATCGAATCCGGCATCTGCCACATCAATGGCCCGACCGTGCACGACGAGGCGCAAATGCCCTTCGGCGGGGTCAAGTCCAGCGGCTACGGCAGCTTTGGCGGCAAGGCCGCCATCGAGCATTTCACCCAGTTGCGCTGGGTGACGATGCAGAACGGCCCACGGCATTACCCGATCTGA	MLDVPLLIGGQSCPARDGRTFERCNPVTGEVVSRVAAATLEDADAAVAAAHAAFPAWAALAPNERRTRLLRAAEQLQARSGEFIAAAGETGAMANWYGFNVHLAANMLREAASMTTQINGEVIPSDVPGSFAMALRQPCGVVLGIAPWNAPVILATRAIAMPLACGNTVVLKASEVSPAVHHLIGQVLQDAGLGDGVVNVICNAPTDAPAIVERLIANPAVRRVNFTGSTHVGRIVGELSARHLKPALLELGGKAPLLVLDDADLDAAVQAAAFGAYFNQGQICMSTERLIVDASVADAFVARLTAKIATLRAGDPAAGDSVLGSLVDTSAGLRIKGLIDDALAKGARLVAGGQLDGSILQPTLLDGVTPDMRLYHEESFGPVAVLLRGDGDEALLRLANDSEFGLSAAIFSRDTSRALALAQRIESGICHINGPTVHDEAQMPFGGVKSSGYGSFGGKAAIEHFTQLRWVTMQNGPRHYPI	PGPT0005525_231	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_VANILLIN|VANILLATE_DEGRADATION,PGPT0005525-vdh-K21802	NA	NA
D1-35_03362	831			Hydroxycinnamoyl-CoA hydratase-lyase	ATGAGCAATTACGAAGGTCGCTGGACAACGGTCAAGGTCGACATCGAGGAAGGCATCGCCTGGGTAACCCTCAATCGCCCGGAAAAACGCAACGCCATGAGCCCGACCCTCAACCGCGAGATGATCGATGTGCTGGAGACCCTGGAACAGGATCCCGCCGCTGGCGTGCTGGTGCTGACCGGTGCGGGGGAGGCCTGGACCGCCGGCATGGACCTCAAGGAATATTTCCGCGAAGTGGATGCCGGGCCGGAAATCCTCCAGGAAAAAATCCGTCGCGAAGCCTCGCAATGGCAATGGAAACTGCTGCGCATGTACGCCAAGCCGACCATTGCCATGGTCAACGGCTGGTGCTTCGGCGGCGGCTTCAGCCCGCTGGTGGCGTGCGACCTGGCGATCTGCGCCGACGAAGCCACCTTCGGCCTTTCGGAAATCAACTGGGGCATCCCGCCCGGCAACCTCGTGAGCAAAGCCATGGCCGATACCGTGGGCCATCGCCAATCCCTGTACTACATCATGACCGGCAAGACCTTCGGCGGGAAAAAAGCCGCGGAGATGGGCCTGGTCAATGAAAGCGTACCCCTGGCACAGCTGCGTGAGGTCACCGTGGAGCTGGCGCGCAACCTGCTGGAGAAAAACCCGGTGGTGCTGCGCGCGGCCAAGCATGGTTTCAAGCGTTGCCGCGAGCTGACCTGGGAGCAGAACGAGGACTACCTCTACGCCAAGCTGGACCAGTCGCGCCTGCTCGACACCGAGGGCGGCCGCGAGCAGGGCATGAAGCAGTTCCTGGACGACAAGAGCATCAAGCCGGGCCTGCAAACCTACAAACGCTGA	MSNYEGRWTTVKVDIEEGIAWVTLNRPEKRNAMSPTLNREMIDVLETLEQDPAAGVLVLTGAGEAWTAGMDLKEYFREVDAGPEILQEKIRREASQWQWKLLRMYAKPTIAMVNGWCFGGGFSPLVACDLAICADEATFGLSEINWGIPPGNLVSKAMADTVGHRQSLYYIMTGKTFGGKKAAEMGLVNESVPLAQLREVTVELARNLLEKNPVVLRAAKHGFKRCRELTWEQNEDYLYAKLDQSRLLDTEGGREQGMKQFLDDKSIKPGLQTYKR	PGPT0019905_108	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_HYDROXYCINNAMIC_ACID_RESISTANCE	ADAPTION_TO_PIS-HCA_DEGRADATION-VANILLIN_INTERMEDIEATE,PGPT0019905-ferB-K18383	NA	NA
D1-35_03363	489	slyA_2		Transcriptional regulator SlyA	ATGGCCAAGTCTTCCAAGCTTGCCGAAGCCGCCGCGGCGCCCCTGGCCGACGGTACCGACACGCAGGCGCCGCTGGATTCCGCGCTGGATGACCTGATCGGTTACGCCTTGCGTCGCGCGCAGTTGAAACTGTTCCAGAACCTGATCAGCCGTCTCGCGGTCCACGACTTGCGACCGGCCCAGTTCTCGGCCCTGGCGATCATCGACCAGAACCCCGGCCTGATGCAGGCCGATCTGGCCAAGGCGCTGGCCATCGAGCCACCGCAAGTGGTGCCCTTGTTGAACAAACTGGAAAGCCGCGCCCTGGCCGTACGGGTGCGCTGCAAGCCGGACAAGCGCTCCTACGGGATTTTCCTGAGCAAGACCGGCGAAACCCTGCTCAAGGAGCTCAAGCAGATCGCCGCCCAGAGCGACCTGGACTCCACCGCCGCCCTCAATGGTGCCGAGCGCGAGGAACTGCTGCGGTTGCTGAAGAAGGTTTATCAGTAA	MAKSSKLAEAAAAPLADGTDTQAPLDSALDDLIGYALRRAQLKLFQNLISRLAVHDLRPAQFSALAIIDQNPGLMQADLAKALAIEPPQVVPLLNKLESRALAVRVRCKPDKRSYGIFLSKTGETLLKELKQIAAQSDLDSTAALNGAEREELLRLLKKVYQ				NA	NA	NA	NA	NA
D1-35_03364	1308	nicP_3		Porin-like protein NicP	ATGCCAGATATCATCCGGAACGCCCAGGCGGCGATCCCTGTTTCACCGCTCGTTCACTGGTTGGCCGGAACCGGGCTGAGTCTTCTTTGCAGCGTGGCGCTGGCCGAAGGTTTCATCGACGACAGCCACGGCACGTTGACCCTGCGAAATTACTACATGGATCGCGATTACAAGGACGACGGCGCCAAGACTGCGGCCCGGGAGTGGGCCCAAGGCGTGTTCATGAACGTCGAGTCGGGCTTTACCCCCGGTACGCTCGGATTTGGCCTGGATGTACGGGGGCTGCTGGGCATCAAGCTCGACTCCTCGCCGGACCGCAGCGGCACTGAACTGTTGCCGGTGTCGAGCAGCGACAAGCGCGCGGCGGATGAATACTCGCGGCTGGGCGTGACCGGCAAGTTGCGTTTCGGGCAAACCACGGTAAAGACCGGCGATGTCTCGATTTTCCTGCCGTTTGCCTTCGCCAGTCCGTCGCGGCTATTGCCGCAGACCTTTCGCGGGACAACCCTGAGCTCCAAGGACGTCGACGGATTGGCGCTGAACACCGGTTACATCGATCGCATCGCCCGGCGCGATTCTACCGATTACCAGCCGATGAGCATCGCCTCGCCCAATCGTCGTTTCAACGGCGCGGCGACCTCGTCTCACATGGCGTACGTGGGAGGCGATTATCAGGTCAACAAGGATCTCGGCCTGCGCATCTACCACGCCGAAGTTGCCGATCTGTACCAGCAGAATACCTTCGCCTTGCTGCATAACCTGCCATTGGGTGATGGAGTGCTGACCACCGATCTACGGAGTTTTTTCAGCAGCGAGGAGGGTGCCGCCAAGGCTGGCAAGGTGGATAACCGCAACGTCTCGGCGCTGGTCGGTTATCGCCTGGGCGGGCATCGCGTCAGCCTGGGCTACATGCATTCGAGCGGCGATACGGCAACACCGTACGTGTCGGGCACCGAGCTGATGGGTTTGAGCGAAATGACCATGAGTTCGGACTTTCTCAATGCCAAGGAGCGCACCTGGCAAGCGATCCACGATTATGACTTCGCCGCCGTTGGCGTGCCTGGCTTGCGGACCCGGTTGCGTTACGTGCGTGGCGACCATATCGAGCTGGCGGCCCTTAATGCCGAGGATCGCAAGGAGCGTGAGTTCCAGATGGAGTTGGGTTATGTGATCCAGAGCGGCCCGCTGAAAAACGTCGGCCTGCTGGCGCGCAAGTCGATCTACCGAAACGACTTTCCGGGAACGGCGGCGTTTCGCGATGAAAACCAGACCCGGTTCCTGGTGACGTACAGCGTGCCGATCTGGTGA	MPDIIRNAQAAIPVSPLVHWLAGTGLSLLCSVALAEGFIDDSHGTLTLRNYYMDRDYKDDGAKTAAREWAQGVFMNVESGFTPGTLGFGLDVRGLLGIKLDSSPDRSGTELLPVSSSDKRAADEYSRLGVTGKLRFGQTTVKTGDVSIFLPFAFASPSRLLPQTFRGTTLSSKDVDGLALNTGYIDRIARRDSTDYQPMSIASPNRRFNGAATSSHMAYVGGDYQVNKDLGLRIYHAEVADLYQQNTFALLHNLPLGDGVLTTDLRSFFSSEEGAAKAGKVDNRNVSALVGYRLGGHRVSLGYMHSSGDTATPYVSGTELMGLSEMTMSSDFLNAKERTWQAIHDYDFAAVGVPGLRTRLRYVRGDHIELAALNAEDRKEREFQMELGYVIQSGPLKNVGLLARKSIYRNDFPGTAAFRDENQTRFLVTYSVPIW				NA	NA	NA	NA	NA
D1-35_03365	1227	mhpT		3-(3-hydroxy-phenyl)propionate transporter	ATGAACCATCCGCCGCGTCGTGCGACGTTGACCATTGCCCTGTGTTTCATCGTCGCGCTGATCGAAGGCTTTGATCTTCAATCGGCCGGCACCGCCGCTGCCGGCTTGCGACAGACCTTCGCCCTGGACCCGAAGATGATGGGCTGGGTCTTCAGCGCGGGGATCATCGGCCTGCTGCCAGGTGCGTTTTTCGGCGGCTGGATTGCCGATCGCATCGGCCGCAAGAAAATCCTGATTGCCGCTGTCCTGCTGTTCGGCGTGTTTTCCCTCGGCACCGCGTTTGTCGAGCAATTCTCCAGCCTGCTGCTGGTGCGCTTCATGACCGGCCTGGGACTGGGCGCCGCCCTGCCCAACCTCATCGCCCTGTGCGCTGAAGCCGTGGGCGAACAACGCCGTGGTACCGCCATCAGTGTCATGTACGCCGGGGTTCCGCTGGGTGGCGCGCTGGCGGCAGTGGTCGCCATGACCTTTGGCGAGCACTGGCAGATGACGTTCTTCATCGGTGGCCTGGCGCCCTTGCTGGTGGTGCCGTTGATGCTGCTGTGGCTGCCGGAGTCCAGTGCTTTCAAGCAGATACGACACGTCGCGGGCGAGGTCCGTGGTTCGACCGGTCAGGCGCTGTTCGGCGAAGGCCGGGGGCTGACAACGCTGGGCCTCTGGTTGAGTTATTTCTTCACCCTGACGGTGATGTACATGCTGCTCAACTGGCTGCCTTCTTTGCTGGTGGAACAAGGTTTCAGCAAACCCCAGGCCGGCCTGGTGCAGATGCTGTTCAACATCGGCGGGGCCCTGGGATCGTTGATCGGTGGTTTGTTGCTGGACCGTTTCAACGCCGTCAAGGTAGTGCTGTTTGTCTATGCCGGCCTGCTGAGCGCCCTGGCCGGGGTCGGTTTGTCGGTGGGCATCATGCCGATGGGCATCGCCGGGTTTGCCGCCGGGCTGTTTGTCATGGCGGCGCAACTGGTGCTTTATGCCTCGGCGCCGCCCTCCTACCCTACGGCGGTGCGCGCAACCGGCGTCGGCGCAGCCGTTGCCATCGGGCGCCTGGGCTCGGTGGCCGGGCCTTTGGCCGCCGGCCAGATCCTCGCGGCTGGCGGCGGGACCACTGCGGTACTGCTGGCGACTTCCCCTGGATTGGTGGTGGCGACGTTGGCCATCCTCAGCGTGATCCGCCGTTCGGCCGGGCCACGGTTGGGCACGGCAGAGCCGGTGGCGCAGAAATCCTGA	MNHPPRRATLTIALCFIVALIEGFDLQSAGTAAAGLRQTFALDPKMMGWVFSAGIIGLLPGAFFGGWIADRIGRKKILIAAVLLFGVFSLGTAFVEQFSSLLLVRFMTGLGLGAALPNLIALCAEAVGEQRRGTAISVMYAGVPLGGALAAVVAMTFGEHWQMTFFIGGLAPLLVVPLMLLWLPESSAFKQIRHVAGEVRGSTGQALFGEGRGLTTLGLWLSYFFTLTVMYMLLNWLPSLLVEQGFSKPQAGLVQMLFNIGGALGSLIGGLLLDRFNAVKVVLFVYAGLLSALAGVGLSVGIMPMGIAGFAAGLFVMAAQLVLYASAPPSYPTAVRATGVGAAVAIGRLGSVAGPLAAGQILAAGGGTTAVLLATSPGLVVATLAILSVIRRSAGPRLGTAEPVAQKS				NA	NA	NA	NA	NA
D1-35_03366	2421			hypothetical protein	TTGAAAGACGACAGAATCCAAACCGTGATCGGCCGCCAGGAAGACTTCGACCGGACGTCGGGCAATTTCGCCGAGCGGGCGATTTTCAACCATCGACCGCTGGTAATCCTGCTGTGCCTGCTGGTGACCCTGGTGCTGGGCTGGCAAGCCACGCGCATCGGTATCAATGCCAGTTACGAGAAGACCATTCCCACCGGGCATCCCTACGTCGCCAACTTCCTGGAGAATCGCAGTGAGTTGAGTGGCCTGGGCAATTCGCTGCGCATCGCCGTGGAGGTCAGGCAGGGCAGTATTTTCACCAAGGACTATCTCGATACTCTGGCCAGGCTCAATGATGAGCTCTATCTGCTACCGGGCGTCGACCGCCCCTATATGAAATCGTTATGGACCCCGACCACGCGCTGGACCGCCGTGACGGAGGAGGGGCTCGATGGCGGCACGGTGATCCCTGACGATTACGATGGCTCGGCCAGCAGCATCGAACAGGTGCGCACCAACGTCGGCCGTTCCGGTGAAGTCGGCCAGTTGATCGCCGGCAACTACAAGTCCAGTGTGATCTTCGTGCCGCTGCTGGAGATCAACCCGCAGACGGGCAAGGCGCTGGACTATGGTGAGTTTTCCCGGCAACTGGAGGCGTTGCGAGACAAGTACCAGACCGACGACCTGCGGATCCATATCACCGGCTTTACCAAGATCGTCGGCGACCTGATCGAGGGAATGACCCAGGTCCTGCTGTTTTTCGTGGTGGCGGTACTGGTGACGGTGATGGTGCTGTTCGGCTACACCCGTTGTGCGCGCAGCACCCTGGTGGTGGTGACCTGTTCGCTGGCCGCCGTGCTTTGGCAACTGGGGCTGCTGGCACTGCTCGGTTACGAGCTGGACCCATACTCGGCACTGGTGCCGTTCCTGGTGTTCGCCATCGGCATGAGCCACGGCGCGCAGAAGATGAACGGCATCATGCAGGACATCGGTCGGGGCACCCACCGGGTGGTTGCCGCGCGTTATACCTTCCGCCGGCTGTTCGCCGCCGGCATCACCGCCTTGCTCTGTGATGCGGTGGGCTTTGCGGTGTTGCTGCTGATCAACATCCGGGTGATCCAGGACCTGGCGGTCACCGCCAGCCTCGGGGTGGCGGTGCTGATCTTCACCAACCTGATCCTCTTGCCGATCCTGCTCAGCTACATCGGCGTCAGCCCGGCAGCGGCGCAACGCAGCCTGAGCGCGGAAACCACCGAACAGCAAGCGCAGATCAAACATCCGCTGTGGCGCGTGCTCGATCTGTTCACCCAGCGGCGCTGGGCCATTGGCGCCATGCTGGCTGGCTTGTTGTTGGCCGCGTCTGGTTTTGCCGTGAGCCTGCACCTGAAGATCGGCGACCTGGACCCCGGCGCTCCGGAACTGCGTGCCGACTCTCGTTACAACCGCGATGCGCTGTTCATGACGCAAAACTATGCGGCCAGCTCGGACATCTTCGTGGTCATGATCAAGACCCCGGAGGATCAGTGCACCCGTTACGCCAGCCTGTCCGCGGTCGACGCGCTGGCCTGGCAACTGGAGCAATTGCCCGGCGTGGAATCGACCACCTCGATGGCGGCGCTGAGCAAGATCGCCACGGCCGGGTATAACGAGGGCAATTTCAAATGGTATGAACTGATACCCAACGACGGCGCGCTGGGCGCCGTGCAAACCCGCGCGCCACGAGAGCTGTTCAACCAGGGCTGCTCGATGCTGTCGCTGTACGTCTACCTGGCCGATCACAAGGCTGACACCTTGAACCGCGTGGTGGAGGCCAGCGAGCAGTTCATCGCCGGACATCAGCTGCCAGAGGTCAAGTTCATGCTGGCAGCCGGCAGTGCGGGGATTGAAGCGGCGACCAATATCGTCGTGAAGAAATCCATGCGCGAGATGCTCTTCTGGGTCTACGGCGCGGTCAGCCTGTTATGCCTGCTGACGTTCCGCAGCTGGCGCGCCACCCTCTGCGCGATGCTGCCGCTGATGCTCACCTCGATTCTGTGCGAGGCGCTGATGGTGGGGCTGGGCATGGGCGTGAAAGTCGCGACGCTGCCGGTCATCGCCCTGGGCGTGGGCATCGGCGTCGATTACGCGCTCTATGTGCTCAGCGTGATCCTGGCGCGCATGCGTGCCGGCGACACCCTCGCCCAGGCGTACTACCAGGCGCTGTTGTTCACCGGCAAAGTGGTATTGCTGACGGGCATGACATTGGCGGTGGCGGTGTCGACCTGGGCTTTTTCACCGATCAAGTTCCAGGCCGACATGGGGATCTTGCTGGCCTTCATGTTCCTGGTGAACATGCTTGGCGCCCTGATCCTGCTGCCGGCCCTGGCATGGTGGCTGTTGCCGCGGAAGGTGTTTGAAAAGAAGCCTGAACTGAGCCGGCGGGAGCGCTGGGTGAGGGGCTGA	MKDDRIQTVIGRQEDFDRTSGNFAERAIFNHRPLVILLCLLVTLVLGWQATRIGINASYEKTIPTGHPYVANFLENRSELSGLGNSLRIAVEVRQGSIFTKDYLDTLARLNDELYLLPGVDRPYMKSLWTPTTRWTAVTEEGLDGGTVIPDDYDGSASSIEQVRTNVGRSGEVGQLIAGNYKSSVIFVPLLEINPQTGKALDYGEFSRQLEALRDKYQTDDLRIHITGFTKIVGDLIEGMTQVLLFFVVAVLVTVMVLFGYTRCARSTLVVVTCSLAAVLWQLGLLALLGYELDPYSALVPFLVFAIGMSHGAQKMNGIMQDIGRGTHRVVAARYTFRRLFAAGITALLCDAVGFAVLLLINIRVIQDLAVTASLGVAVLIFTNLILLPILLSYIGVSPAAAQRSLSAETTEQQAQIKHPLWRVLDLFTQRRWAIGAMLAGLLLAASGFAVSLHLKIGDLDPGAPELRADSRYNRDALFMTQNYAASSDIFVVMIKTPEDQCTRYASLSAVDALAWQLEQLPGVESTTSMAALSKIATAGYNEGNFKWYELIPNDGALGAVQTRAPRELFNQGCSMLSLYVYLADHKADTLNRVVEASEQFIAGHQLPEVKFMLAAGSAGIEAATNIVVKKSMREMLFWVYGAVSLLCLLTFRSWRATLCAMLPLMLTSILCEALMVGLGMGVKVATLPVIALGVGIGVDYALYVLSVILARMRAGDTLAQAYYQALLFTGKVVLLTGMTLAVAVSTWAFSPIKFQADMGILLAFMFLVNMLGALILLPALAWWLLPRKVFEKKPELSRRERWVRG				NA	NA	NA	NA	NA
D1-35_03367	1104	hcf136_1		Ycf48-like protein	ATGAACGTTGAAAAAATCTTCGCGAGCCGCGGTCCGCTATGGGCGGTTTGTGTCCTGGTGTGCTGCCTGTGGGCGAGCGTGCCTTGGGTCGCGCACGCCACGACCTTGGCCGTACTGCAGCAACCGGCGCTGCCCACGGCCAAGGCGCCACGCGCGGTATTGCTCGGGCTGGCCCGGGCCGGTGAGCGCCTGGTGGCGGTCGGTGAGCGCGGGATCGTGCTGCTTTCCGACGATGCCGGAATGAATTGGCGCCAGGCCAAGGTGCCGGTCAGCGTCAGCCTGACGGCGGTGCAATTTGTCGATGCCGAACAGGGCTGGGCGGTCGGTCATCTGGGCGTGGTACTGCACACCCGGGACGGCGGCGAAACCTGGGAAAAGCAACTCGATGGCGAGCGTGCGATCGCCCTCGCGATGCAGGTTGCAGAGCGCGATGCCGATGAGCCCGGCGGTGCCAGCCAGTTGACGCAGGCTCGGCATATGCTCGCCGACGGGCCGGATAAACCGCTCCTTGACCTGTATTTCGTTGATCGCCTGCACGGCTACGTCGTGGGGGCGTACAACCAGATCTACCGTACCGACGACGGCGGGCGTAGCTGGCAACCGTGGATGCGTCATGTCGACAACCCGCAGGGCTTGAACCTGTATGGCGTCCGCGGCGTGGGCAAGGACCTGCTGCTGGTGGGAGAGCGCGGCCTGCTGTTGCGTTCGAGCGATGGCGGACAGTCGTTCCACGCCTTGAAGTCACCGTATGAAGGCAGTTTTTTCGGCCTGCTTGGCACCCGCGACGGGGCCTTGATTGCCTACGGTCTGCGTGGCAATGCCTGGTGGTCGGACGATCGAGGCAACAGTTGGCGACGCCTTGAGACCGCTATCGAGTCGACGCTGGCGGCGGCGCTTGAGCTGCGCGACGGCAGCCTGTTGTTGGCCAGCCAGGGCGGTGAGTTTTTATTCAGCCATGACCAAGGCCGCAGCTTTGACAAGCGTCAGAGCCGCAGCGGTGGCACGGTTGCCGCCGTGCAACAGGCGGTCGATGGCAGCCTCGCCAGCGTCGGTTTGAGCGGCGTGGCCGCCGACCAGGATCCGCGAGGCTCCAGTAAACCTTGA	MNVEKIFASRGPLWAVCVLVCCLWASVPWVAHATTLAVLQQPALPTAKAPRAVLLGLARAGERLVAVGERGIVLLSDDAGMNWRQAKVPVSVSLTAVQFVDAEQGWAVGHLGVVLHTRDGGETWEKQLDGERAIALAMQVAERDADEPGGASQLTQARHMLADGPDKPLLDLYFVDRLHGYVVGAYNQIYRTDDGGRSWQPWMRHVDNPQGLNLYGVRGVGKDLLLVGERGLLLRSSDGGQSFHALKSPYEGSFFGLLGTRDGALIAYGLRGNAWWSDDRGNSWRRLETAIESTLAAALELRDGSLLLASQGGEFLFSHDQGRSFDKRQSRSGGTVAAVQQAVDGSLASVGLSGVAADQDPRGSSKP				NA	NA	NA	NA	NA
D1-35_03368	1362			putative protein	ATGCAGAACCCAGCATTCCTGAACACCTGCGTCCTCGCCCTTGCCCTGGCCGGCATGAGCCTGGCGCAGGCGGCGGTATCGCCTGAGCAGGCCGCGCGCTTGAAAACCGATCTGACCCCCTTCGGTGGTGAGCGCGCCGGCAACGCCGATGGCAGCATCCCGGCCTGGCAGGGCGGTTATACCCAGGTCGCGCCCGGCTACAAAGCGGGTGACAAGCGCCCTGATCCATTTGCCGGCGACAAACCGCTGTACTCGATCAAGGCGTCGAACATGACGCAGTACGCCGGCCAACTGGCCGAGGGCACCCAGCTGCTGCTGAAGAAATATCCGGACTATCGCCTGGATGTGTACCCGACTCATCGCTCGGCCGCCGCGCCGCAATGGGTGTACGACAACACCAGCAAGAATGCCACGCGCGCCGCACTGGACGTGGACAGCGAAAAAGTCTCCAACGCCTATGGCGGCATCCCGTTCCCGATCCCTGAGAACGGTGCGCAGGTGCTGTGGAACTATCGGTTGTCCTGGCAGGGCGGCGACACCATCAGCTCGCCGTTCGATACCTGGCTGATGACCGCCGGTGGCAAGAAAGTCCAGGCGACCCGGGCCCAGTACACCTATCAGTTTCCCTACTACGTCGAAGGCGGCAGCCTGGAAAACTATTCGGGCAAGTACCTGCTGGGCAAGCTGTTCACCGAATTGCCGTCGTCCAAGGCCGGCGAGGGCCTGATGACCCATTGGGACCTGGACCCGGCCAATCGTGCGGCCTGGCAGTACCTGGTCGGTCAACGCCGGGTTCGTCGTGCACCGAACATTGCCTACGACACACCGGACTTCGTCACCTCCGGCGTCGGCCTGTTCGATGAGGCGTTCATGCTGTTCGGGCCCACCGATCGTTATGACCTCAAGCTGGTGGGCAAAAAAGAACTGATCGTCCCCTACAACAATAACCGCGCCGCGCTGGCCAAGAGCGACGAGCTGGTCAAGGTCGGTTTCCTCAATCCTGACCTGGTGCGCTGGGAGAAACATCGGGTCTGGGTCGTCGAGGCCACGCTCAAGTCCGGCAAGCGCCATGTCGTGCCGCGTCGCACCTACTACGTCGACGAAGACTCCTGGCAGATCCTGATGGCCGACGGTTATGACGCCCAGGGCAAGCTCGGTCGGCAGATGTATTCGCTGACGCTGCTGGCACCGGACCTGCCGGCCTTGACCGCACAGGTCATGTGGGGCAGCTACAACCTCGACACCGGGGCCTACTTCCTCAATTCGTCGAGCAACGACCTGACAGTCCAATACCAGAAGGTCGCGAAGCCTTCAGCGTCCTATTTCACGCCGGATGCCATGGCCAACGAAAACATGCGTTGA	MQNPAFLNTCVLALALAGMSLAQAAVSPEQAARLKTDLTPFGGERAGNADGSIPAWQGGYTQVAPGYKAGDKRPDPFAGDKPLYSIKASNMTQYAGQLAEGTQLLLKKYPDYRLDVYPTHRSAAAPQWVYDNTSKNATRAALDVDSEKVSNAYGGIPFPIPENGAQVLWNYRLSWQGGDTISSPFDTWLMTAGGKKVQATRAQYTYQFPYYVEGGSLENYSGKYLLGKLFTELPSSKAGEGLMTHWDLDPANRAAWQYLVGQRRVRRAPNIAYDTPDFVTSGVGLFDEAFMLFGPTDRYDLKLVGKKELIVPYNNNRAALAKSDELVKVGFLNPDLVRWEKHRVWVVEATLKSGKRHVVPRRTYYVDEDSWQILMADGYDAQGKLGRQMYSLTLLAPDLPALTAQVMWGSYNLDTGAYFLNSSSNDLTVQYQKVAKPSASYFTPDAMANENMR				NA	NA	NA	NA	NA
D1-35_03369	1650			hypothetical protein	ATGGATAACCTCAAAGACAGCTTTGGTTTCAAGCATTGCGCGCTATTCCTGGCGCTTTGCAGCAGCGGTGTGATGGGCGAGAGGGCCGAGGCCATGCAAATGGACCTGGGTGACTCCGACTGGAAACTGCGCTGGGACAACACCATCAAGTACAGCCAGGCCTGGCGCCTGCACGGACAGGACAGCCGTCTGGTCAACGCGCCGACCGCCAATGGCCTGTACCCCTCGATCCAGAGCCAGGGCGACAAGAACTTCAGTCGCGGCCTGGTCTCCAACCGTCTCGACCTGTTTTCCGAAATGGACCTCAGCCGGCAAAACTACGGGCTGCGGGTCAGCGGCGCGGCCTGGTACGACGATATCTACAACCAGGACACCGACAGCAGCGAGCAGCCACATTTCCTCAGCGAAACCCGCGAGCTGCATGGACGCGACGCTGAGATTCTCGATGCCTTCGTGTTCCTGCGCGGAGACCTCGGGGATGACTCCCAAGGCGTGGCGCGTCTTGGACGCCACAGCCTGATCTACGGCGAAAGCCTGTTCTACGGCGGCAACGGCATTGCCAATGCCCAGGGGCCGACCGATGTGGTCAAGTTGCTCAGCGTGCCGGGAACACAGTTCAAGGAGATCCTGCGGCCGGTCAATCAGATTTCCGGGCAGTTGCAGATCAACCCGCAGCTGTCGGTGGGCGCCTACTATCAGTTCGAGTGGGAACGTTCCAACCTGCCCGGCGCCGGCAGCTACCTGAGCGATGCCGACGCCATCGGTTACGGCAGCGGCCCGCTGCGTGAGGTATTCGGCAACGACACGGTGAACGGCGGCGACCTGAAACCGCGCAATTCGGGGCAGGGCGGTATGCAGATCCGCTTCAAGCCGGCCGGCACAGAGCTGGAGCTGGGTTTCTACGCGGCCCAGTATCACGACAAGGCGCCGATCGGGTTGTATGCCTACCTGGACGGTCCGGCGGCTGCGGCCAGCGGACTGCCGATCCTCGGCTCCTATCGCCAGGTCTACGCCGAAGACATCAAGACCGCCGGCGTCAGCTTTTCTACCGCTTACGGTCCGTTCAACTTTGCCGGTGAATCGTCGGTGCGCTGGAACGCGCCGCTGGTGAGCAACCTGCAAGTAGTGACCCCCGGCATGCAGGCCGATGGTGGCGACGATGCGCTGTTCGCCCGGGGCAAGACCGCGCACGTCAATCTGTCGGCGATCTACCTGCTGTCGCCCACCGCTTTCTGGGACGGCGGCTCGGCCCTGGCCGAGCTGGCCTGGAACCGCACCCTGAGCGTGACCGAGAACGCTGCCGCGCTGGATTCCAATACCACCCGGGATGCCACGGCGTTGCGAGTATTGATGGAACCGGCGTACTTCCAGATCGTCGACGGGATCGACCTCACCGTGCCGGTCGGCATGGGGATCGTGCTTGATGGACGCTCATCGGCGGTGAACAAATCCGGCTTCGGCAATACCCATTCCGGCGACTGGAGCGTCGGCCTCAAAGCCACCTACCTGCAGCGCTGGGATGTCGGCCTCAATTACGTGAACTTCTTCGGCGCACCCAAGGCCGGGCTGCGCGAGGACGGCAATTTCAGTTACGGCCAGTCGTTGGCCGACCGCGACTTCGTCTCGCTCTATGTGAAAACCTCATTCTAA	MDNLKDSFGFKHCALFLALCSSGVMGERAEAMQMDLGDSDWKLRWDNTIKYSQAWRLHGQDSRLVNAPTANGLYPSIQSQGDKNFSRGLVSNRLDLFSEMDLSRQNYGLRVSGAAWYDDIYNQDTDSSEQPHFLSETRELHGRDAEILDAFVFLRGDLGDDSQGVARLGRHSLIYGESLFYGGNGIANAQGPTDVVKLLSVPGTQFKEILRPVNQISGQLQINPQLSVGAYYQFEWERSNLPGAGSYLSDADAIGYGSGPLREVFGNDTVNGGDLKPRNSGQGGMQIRFKPAGTELELGFYAAQYHDKAPIGLYAYLDGPAAAASGLPILGSYRQVYAEDIKTAGVSFSTAYGPFNFAGESSVRWNAPLVSNLQVVTPGMQADGGDDALFARGKTAHVNLSAIYLLSPTAFWDGGSALAELAWNRTLSVTENAAALDSNTTRDATALRVLMEPAYFQIVDGIDLTVPVGMGIVLDGRSSAVNKSGFGNTHSGDWSVGLKATYLQRWDVGLNYVNFFGAPKAGLREDGNFSYGQSLADRDFVSLYVKTSF				NA	NA	NA	NA	NA
D1-35_03370	768	calA		Coniferyl-alcohol dehydrogenase	ATGAAACTCGACAACAAGATTGTACTGGTAACCGGCGTCTCGTCGGGCATCGGTGCCGCCACGGCGAGCCTGCTGCGTGCCCACGGCGCCGAGGTAATCGGCGTGGACCTCAAGGCGCCGCACCAGACCCTGGACGGTTTTGTACAGGGGGACCTGAGCAGCGCCGAGAACATCGACCGCCTGCTGCCGCAGCTACCCGCACGGTTCGATAGCCTGTGCAATATTGCCGGGGTGCCGGGCACCGCCAGTCCGCAACTGCTGGCGCGGGTCAACTATCTCGGATTGCGCCACTTCAGCCAGGCGTTGCTGCCACGCATCAACGCGGGCGGCAGCATCGTCAATATCGCCTCGATCCTTGGCGCCGAATGGCCGCTACGCGTAGAGCAGCACAAGGCGCTGGCGCGCAGCGAAGGGTTTGCCGCCGGGCAAGCCTGGCTGGCTGACCACCCGGTGCCGGACCAGACCTGCTACCAGTATTTCAAGGAAGCCTTGATCGTCTGGACCTACCTGCAGGCCCAACCCTGGTACCTGGAGCATTCGGTGCGCATGAACTGTGTCGCGCCGGGGCCGGTCTTCACGCCCATCCTCGACGACTTCGTGAGCATGCTCGGCGAGGCTCGGACCCAGGCCGATGCCCATCGCATGAAGCGTCCCGCCTACGCCGATGAGGTAGCGGCGGTGATCGCCTTCCTGTGTGCCGACGAGTCGCGCTGGATCAACGGCGTCAACCTGCCCGTCGATGGTGGATTGGCCTCCACCTACGTTTGA	MKLDNKIVLVTGVSSGIGAATASLLRAHGAEVIGVDLKAPHQTLDGFVQGDLSSAENIDRLLPQLPARFDSLCNIAGVPGTASPQLLARVNYLGLRHFSQALLPRINAGGSIVNIASILGAEWPLRVEQHKALARSEGFAAGQAWLADHPVPDQTCYQYFKEALIVWTYLQAQPWYLEHSVRMNCVAPGPVFTPILDDFVSMLGEARTQADAHRMKRPAYADEVAAVIAFLCADESRWINGVNLPVDGGLASTYV				NA	NA	NA	NA	NA
D1-35_03371	1473	xylC		Benzaldehyde dehydrogenase [NAD(+)]	ATGTCTGCATCCGAAAACCACCTGCTAGCCCAGGTGATCGCGTCCGAATGTGTCTTCAACGGGAATTGGGTGCCTGCCTCGGGCCCGTTGCTGACTATCATCGAGCCGGCCACCGGTGAGGCGCTGATGCGCAGTGCTTCGGCCGATGCTGCCGATATCGCCAAGGCCAGTCGCGATGCGGCCCTGGCGCAACCGGCCTGGGCCGCCCTCGGTCCACGGGAACGGGCGGCAATCTTTCGCAAGGCGGCTGACGTCGCCGAACGCTCCTTCGCGGAACTGGCGCTGTACGTCGCACGGGAAACCGGCGCGGCATTGTTCAAGGGCCAACACGAGGTGCGCGAGGCGATCGTGCTGTTGCATCAGGCCGCCGGCATGCTGTCTCAGGCTCATGGCGTGGTGCTGCCCAGCGAGGCGGGGCGCCTGTCTTATGCGCGGCGCTTGCCCCATGGTGTGATCGGAGTGATCTCGCCGTTCAACTTCCCGCTGGTGTTGTCGATGCGCTCCGTGGCGCCGGCCCTGGCGGCGGGCAATGCGGTGGTGCTCAAGCCGGATCCGCAGACGCCGGTCAGTGGCGGTTTTCTGATCGCCCGTCTCTTCGAAGCCGCGGGCCTGCCCAAGGGCTTGTTGCAGGTATTGCCTGGTGCGGCCGACGCCGGGGAAGCGCTGTGCCGTGATCCCAACGTCAAGATGATCGCCTTCACCGGTTCCACCGGCGCCGGTCGCAAGGTGGCCGAAGTGGCCGGGCGCAACCTCAAGAAAGTCGCGCTGGAGCTGGGCGGCAAAAACCCCTTGATTGTCCTCGAAGACGCCGACCTGGACCTCGCGGCCCGCAATGCGGCCTGGGGCGCCTGGTTGCATCAGGGGCAGATCTGCATGGCCACCGGGTTGATCCTCGCCCATGAGTCGATTGCTCAGGCCCTCATTCAGAAACTGGTGGATAAAGCCCAGGCGTTGACGGTCGGCAACGCCGCCCGCGAGGAAGCCGCGCTCGGACCGTTGATCAACCAACGCCAGTTGCAGCGCGTGCACGACATCGTCAATGACAGCGTGCGCGCGGGGGCGAGGCTGGAAACCGGCGGTAACTACGACCGTTTGTTTTATCAACCGACCGTGCTCAGCGGCGTGAAGCCGGGCATGCGTGCCTTCGAGGATGAAGTCTTCGGTCCGGTGGCGAGCGTGGTCAGTTTTGCCAGCGACGAGGAAGCCATCGAGTTGGCCAATCGCAGCGAGTACGGCCTGTCGGCGGCGGTCATTTCACCCTCGGTGGGCCGGGCCATGGCGATTGGCGAGCGATTGCAGTGCGGCATGCTGCACATCAATGACCAGACTGTCGCCGACGAGTGCATCAACCCGTTCGGTGGGCGCGGCGCTTCGGGCAATGGCGGCAGCGTCGGCGGCCCGGCGGACTGGGACGAGTACACCCAGTGGCAGTGGGTCACGGTCAAGGACAAGGCGCCTGTCTATCCGTTCTGA	MSASENHLLAQVIASECVFNGNWVPASGPLLTIIEPATGEALMRSASADAADIAKASRDAALAQPAWAALGPRERAAIFRKAADVAERSFAELALYVARETGAALFKGQHEVREAIVLLHQAAGMLSQAHGVVLPSEAGRLSYARRLPHGVIGVISPFNFPLVLSMRSVAPALAAGNAVVLKPDPQTPVSGGFLIARLFEAAGLPKGLLQVLPGAADAGEALCRDPNVKMIAFTGSTGAGRKVAEVAGRNLKKVALELGGKNPLIVLEDADLDLAARNAAWGAWLHQGQICMATGLILAHESIAQALIQKLVDKAQALTVGNAAREEAALGPLINQRQLQRVHDIVNDSVRAGARLETGGNYDRLFYQPTVLSGVKPGMRAFEDEVFGPVASVVSFASDEEAIELANRSEYGLSAAVISPSVGRAMAIGERLQCGMLHINDQTVADECINPFGGRGASGNGGSVGGPADWDEYTQWQWVTVKDKAPVYPF	PGPT0005405_77	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_BENZALDEHYDE_DEGRADATION,PGPT0005405-xylC-K00141	NA	NA
D1-35_03372	1773	mopR		Phenol regulator MopR	ATGAATAATCCCCACTGTCCGCTGCCGGAGCGGATCGCTGCCGAGCCTTTTCGTCCACGCGGCGATAGCAAGGAACTGAGCGACAGCAGCTCGCCAACCCCGGCAGAACTGACCAACTGCCTGTTTTTCTCCCCCGATGACGGGCGTATCTGGCTCAACGACCAACGCATGTTGTTGCTGCACAGTTCGTCCTTCGGCGCGTTGCGTCGGGAAATCATCGAGCGCCAGGGACTGGAGCAGGCCCGAGGCATGCTCACCCGCACCGGCTATTGCTCCGGCGCCCGGGACGCCCGGCTGATTCGTGAACGCTGGCCCCACGCCGACGCAGCCGCGGTGTTTCGCGCAGGCACGCACCTGCATACCCTCGAAGGCATGACCAAGGTCGAGCCGCTGCATTTCAAGTTCGATGCGGAATCGGGGTTCTACGAGGGGGAATTTCTCTGGCACCACTCCTGCGAAGCCGACGAACATATCGCCGCCTATGGCACCGGGCAGGATCCGGTGTGCTGGACCGAGCTGGGGTACGCGATCGGCTTCGTCAGCGGGTTGTTCGGGCAACTGGTGGTCTTTCGCGAAGTGGAATGCCGGGGCATGGGGCATGAACGCTGTCGTGTCGTCGGCAAGACCGCTGAGCAATGGGGCGATATCGAGCGCGACCTGAGCTACCTCAATGCCTCACAGCCGGCGGCGCCTTTGCCGTCCGGCGCCAGGCCCGACCCAATGGCAGCCAGTGATCCGCTGCCTGACAGCGAACAACCGCTGATTGGCGCCAGTGCGGCGTTCAACGCGGCGACGCTGGCTCTGCAACGGGTCGCCTTGACACCGGCCACCGTGCTGGTCACCGGCGAGTCTGGCGTGGGCAAGGAAATGTTCGCCCGTCAGTTGCACCAACTGAGCCGGCGCCGCCAGGGGCCGTTCATCGCCCTCAACTGCGCGGCGATACCGGACAACCTGATCGAAGCCGAGCTGTTCGGCGTAGAGCGCGGTGCCTATACCGGCGCCACCCATTCACGCCCCGGCCGTTTCGAGCGGGCCGATGGCGGTACGTTGTTCCTCGATGAAATCACCTGCCTGAGCCTGGCCGGCCAAGGCAAGCTTTTGCGCGCGTTGCAGGAGCGCGAAATCGAGCGGGTCGGTGGCGGCCATGCCATCAAGGTCGACGTGCGAGTGGTCGCGGCGACCAACCTCGATCTGCGCAAAGCCGTGGCGCAAGGCGAGTTTCGCGAAGACCTGTTCTACCGGCTCAACGTCTACCCCATCGCCCTCCCGCCCTTGCGCGATCGCCGCGATGACATACCGTTGCTGATCAATGCCTTTCTCAAGCGCTTCTGCCTGGAATACGGTCGTACACCGGTGGGCCTGACCATGCGCGCCTTGAAGATGCTGCTGCGCTACGACTTCCCAGGCAACGTGCGGGAACTGCAGAACCTCATCGAGCGCGGCTTGATTGCCAGTGAAGAAGGCCAGGCCATTGATCTGGTGCATCTGTTTCGCGACGAGCGATTGCCGGCGGATGCGTATTCGGTGGACGGCAATGGCGGGCTCACGTCATTGGCGCCGGCCGCGAGCGACGCCACGGCGAAGGCGCCGTTGTTGCCGTCCCTGAGCCAATGGGACGCGGACTTCTCCATCGATGGCCTGGAGTCGCGCCTGATCAACGAAGCCCTGCAACTGAACAGCGGCAACCTGGCGGCGGCAGCCAGGTCACTGGGCTTGAGCCGGGCGCAGTTTGCCTACCGGTTGAAGAAACATCAACGCGGTAATCCAGACTGA	MNNPHCPLPERIAAEPFRPRGDSKELSDSSSPTPAELTNCLFFSPDDGRIWLNDQRMLLLHSSSFGALRREIIERQGLEQARGMLTRTGYCSGARDARLIRERWPHADAAAVFRAGTHLHTLEGMTKVEPLHFKFDAESGFYEGEFLWHHSCEADEHIAAYGTGQDPVCWTELGYAIGFVSGLFGQLVVFREVECRGMGHERCRVVGKTAEQWGDIERDLSYLNASQPAAPLPSGARPDPMAASDPLPDSEQPLIGASAAFNAATLALQRVALTPATVLVTGESGVGKEMFARQLHQLSRRRQGPFIALNCAAIPDNLIEAELFGVERGAYTGATHSRPGRFERADGGTLFLDEITCLSLAGQGKLLRALQEREIERVGGGHAIKVDVRVVAATNLDLRKAVAQGEFREDLFYRLNVYPIALPPLRDRRDDIPLLINAFLKRFCLEYGRTPVGLTMRALKMLLRYDFPGNVRELQNLIERGLIASEEGQAIDLVHLFRDERLPADAYSVDGNGGLTSLAPAASDATAKAPLLPSLSQWDADFSIDGLESRLINEALQLNSGNLAAAARSLGLSRAQFAYRLKKHQRGNPD	PGPT0004315_43	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004315-zraR|hydG-K07713	NA	NA
D1-35_03373	636			hypothetical protein	ATGTTGAGCATTGTCGAGCAGGCAGCCAGTGAAGCGTTGCGCCAGCGAATGGAGGCGGCCGGTTGCGCTTTCGAATTCCTGGCGCTTGCTCCCGAGGCGGATGTAATCGTCGATCAGTCGCTGCACCGCCAGGCCGTGGACCGACTGTTCCAGCACATCGAGGCACAATGGCTTGAACGAGATCGCCAACTGCGCCTTGATCCGCGCTATGCCGATATCGCCCCACCGAGCATGCACTGGGACCTGACCAAGGCCATTCCCAAGGCGCTGGGTCAGGATCAGGTCATTCGCCTCATGCGCGCGGGAAAGACTGAACGCAACCCGCAAGCCTATGCCTTGTACGACGCGTTTTGCGAGCCGCCCTACAGCACCCGCTTCAACAACGACACGCCCCAGGCGCTGTTCAAAGAGTGGCTCGATTTGCTGGGGCTTGTGCCGGATAGCGGCGTGGTGGTGCTGGACTGGGTCGACAACTTCAACTTCAACGGATTGGCCAGCGACGAGCCCGATCCCGCCCGGGATCCCTGGAGCGACTATTTCGATGATGGCCTGGAGTGGTGGGGGGTGTGGTGCCTGAGCATCTGGAATCCCGAGCGCCGGACCCTGGGTGTGCTGACGGCGAGCACGACGGATTAA	MLSIVEQAASEALRQRMEAAGCAFEFLALAPEADVIVDQSLHRQAVDRLFQHIEAQWLERDRQLRLDPRYADIAPPSMHWDLTKAIPKALGQDQVIRLMRAGKTERNPQAYALYDAFCEPPYSTRFNNDTPQALFKEWLDLLGLVPDSGVVVLDWVDNFNFNGLASDEPDPARDPWSDYFDDGLEWWGVWCLSIWNPERRTLGVLTASTTD				NA	NA	NA	NA	NA
D1-35_03374	1290	rtcB	COG1690	RNA-splicing ligase RtcB	ATGCCCAGTGTCGAAATTGAGCCGGCAATCAAGCGCGGCTCGTCATTGAACAGAACCGCGACCATGCACCAGAAAACCTACGAATTGCTGGAAGTCGCCAACGGCAAGCCCATCAAACTCTGGACCCAGGGCGTGCCGGTGGAGGCCGAAGCCCGCCAGCAACTGATGAACACGGCGAAAATGCCATTCATTTTCAAACACCTGGCAGTGATGCCCGATGTGCACCTGGGCAAGGGCTCGACCATCGGCAGTGTCATCCCCACCGTAGGCGCGATCATTCCGGCGGCGGTGGGGGTGGATATTGGTTGCGGCATGATCGCCGCGCGCACTTCGCTCGATGCCGCCGATTTGCCGGACAGCCTCCAGGCCCTGCGCAGCGCTATCGAAAAAGCCGTGCCCCATGGGCGCAGCCTCAGCCATGGCGGACGCGACAAGGGCGCCTGGAGCAATGTCCCACGCGAGGCTGACCAGGCGTGGGTCGCGCTGGCCGCGCGCTTCAAGGCGATTACCGACAAATACCCGAAGCTGGCCCGGACCAACAACCGTCAGCATCTGGGTACGCTGGGCAGCGGTAATCATTTCATTGAAGTGTGCCTGGATGAGGCCAACCGGGTCTGGTTCATGTTGCACAGCGGCTCCCGGGGTGTGGGCAATGCCATCGGCAATCTGTTCATCCAGTTGGCCCAGGCCGACATGCGCCAGCACCTCGCCAATCTGCCGGACCGTGACCTGGCCTACTTCGAGGAGGGCAGCCGGCATTTCGACGATTATGTCGAAGCGGTGGGCTGGGCCCAGGATTTCGCCCGGCAGAATCGGGCCTTGATGATGGACGCGGTGATACGCGCCGCCCGGCAGGTCATCGGCAAACCGTTCGAAGTGGCGCTGGAAGCGGTGAATTGTCATCACAACTATGTGCAGAAAGAGCGACACTTCGGACACGACGTACTGGTGACGCGCAAGGGCGCGGTGTCGGCCAGGAAAGGCGAGTTGGGTATCATCCCCGGTTCGATGGGCGCCAGGAGCTTTATCGTGCGCGGCCTGGGCAACGAGCAATCGTTTTGTTCGTGTAGCCACGGTGCCGGCCGGGTCATGAGCCGGACCGAGGCGAAAAGGCGTTTCAGCGTCGAGGATCAGGTCCGCGCGACCGCCCATGTGGAATGCCGGAAAGACGCTGCGGTGATTGATGAAATTCCGATGGCATACAAAGACATAGACAAGGTAATGCATGCACAACGTGAACTTGTGGAAGTGCTGCATACGCTGCGTCAGGTCGTGTGCGTGAAAGGTTAG	MPSVEIEPAIKRGSSLNRTATMHQKTYELLEVANGKPIKLWTQGVPVEAEARQQLMNTAKMPFIFKHLAVMPDVHLGKGSTIGSVIPTVGAIIPAAVGVDIGCGMIAARTSLDAADLPDSLQALRSAIEKAVPHGRSLSHGGRDKGAWSNVPREADQAWVALAARFKAITDKYPKLARTNNRQHLGTLGSGNHFIEVCLDEANRVWFMLHSGSRGVGNAIGNLFIQLAQADMRQHLANLPDRDLAYFEEGSRHFDDYVEAVGWAQDFARQNRALMMDAVIRAARQVIGKPFEVALEAVNCHHNYVQKERHFGHDVLVTRKGAVSARKGELGIIPGSMGARSFIVRGLGNEQSFCSCSHGAGRVMSRTEAKRRFSVEDQVRATAHVECRKDAAVIDEIPMAYKDIDKVMHAQRELVEVLHTLRQVVCVKG				NA	NA	NA	NA	NA
D1-35_03375	852			hypothetical protein	ATGCGTGCGATTTTTTCCGTCATGCGTCTTGCCGCGCTGTCGCTGGGGCTGACGTTCGCCGTCAGTGCGGTAGCCACCGAAGAGACGAAACTGGTCGAGTCCATCAACCTCTACCGCAGCCAGTCCCAGAGCTGCGCCGGCCAGGCGTCCCTGGAGCTGCCGCCGCTGGCGATGGACTCGCGGTTGATCCTGTCGGCCAATGGCATCGGCGATCTGCAACAGGCGTTGGCCCGGGCGGCCTATCCGATGGTCAACGTGCAAGCGATCAGCCTGTCCGGGCCGCGCGACGCGCAAGCGGCGATGAAGGCCGTGCAGGAAAGTTTCTGCCAGGTCGTGCTGGACCCGCAGTTCATCGACGTCGGTGTCAGCCGACTGGACCGCGAATGGCGCATCGTGCTGGCTCGCCCGCTGTTGTCGGCACGACTGGGCGATTGGCAAGCCGAAGGCCAGAAACTGCTCAAACTCATCAACAGCGCCCGCGCGCAACCGCGCCGCTGCGGCACCGAGGCCTACAGCGCGACCACTCCGCTGGCCTGGAACGCCACCCTGGCCCTGGCGGCGGTGAATCACACGCGCGCCATGGCCAACAACAACTTCTTCGACCACAAGGACCGCGATGGCCGCACGCCCGGCGACCGCGCCGAACTGGCCGGCTATCTGGGCCAGGCCATCGGCGAAAACATCGCCGCTGGGCAAGACACGGCTTTGAAAGTGGTGGACGGCTGGTTGGCCAGCCCCGGGCATTGCGCCAACCTGATGAACCCGCAGTTTCGCGAACTGGGAGCCGGGTATGCGGTGGACCCGAAAAGTGATGCGGGGATCTACTGGACGGCGATGTTCGGTATTCAATGA	MRAIFSVMRLAALSLGLTFAVSAVATEETKLVESINLYRSQSQSCAGQASLELPPLAMDSRLILSANGIGDLQQALARAAYPMVNVQAISLSGPRDAQAAMKAVQESFCQVVLDPQFIDVGVSRLDREWRIVLARPLLSARLGDWQAEGQKLLKLINSARAQPRRCGTEAYSATTPLAWNATLALAAVNHTRAMANNNFFDHKDRDGRTPGDRAELAGYLGQAIGENIAAGQDTALKVVDGWLASPGHCANLMNPQFRELGAGYAVDPKSDAGIYWTAMFGIQ				NA	NA	NA	NA	NA
D1-35_03376	891	cynR_3		HTH-type transcriptional regulator CynR	ATGAACGTTTCTTTCCGACAGCTTCGAGCCTTCATCCTCATCGCCGAGACTTCAAGCTTCACCCGCACCGCGGAACAGTTGCATCTGTCGCAACCGGCGCTGAGCTACAGCATCCGCAAACTGGAAGAGAGCATGGGGTTGCAGTTGCTTGCGCGTAATACCCGCAGCGTCGAGTTGACGCCAGCCGGCGAGCATTTCCTGCCCCAGGCCAGGCGCATGCTGCGGGACATGGACGATGCCGTGCGCGATGCTCGCGACACCTTGAGCCTGAGTCGCGGCACGCTTCGGCTCGCGGCGTTGCCCACGGCTGCCGCGTCGTTTCTGCCGATCGCCATGGCTGCTTTCCAGCGTGAAAACCCCGGTGTGACGGTGAGCCTGCTGGATGGCCGCGCCGGAGAGATCCTCGGCTGGGTACAGCGCGGCGAGGTAGACGCCGGCATCAGTTCGCTGCCTGACGACCTGGCTGGACTGAGCTTCGAGCGCCTGCTGGATGACAATCTGGTACTGCTGAGCCACAAGCCCTCGCAGGGTGGCGGCCAGGATGAGTGGACGCAGCAGCCCTACATTGCCCTGACGCCTGACACGAGCATCCGGCCTTTGGCTGACGCGGCGCTGCGCTATTTGAACGTGGATGCAGTCCCAGCCTGGGAGGTGGCGCATATGAGCACGGCCACGGCGCTGGTACGGGAGGGGCTGGGATTTTCTTTATTGCCGGCCAGTTGCACGGCGGTGTTCAACATCGGCGAACAGTGCGCTGTAACCCCAATCGATCAGCCGGCCAAGCGTTCGATCGGGCTGTTGCAGCGCAAGCCGGTGGCACAATCGCCGTCGTTGAGCCAGTTCATGGGACATGTGCGGCGGGTTTTGCGGGGGGGTGAGGCGGGCGCTTGA	MNVSFRQLRAFILIAETSSFTRTAEQLHLSQPALSYSIRKLEESMGLQLLARNTRSVELTPAGEHFLPQARRMLRDMDDAVRDARDTLSLSRGTLRLAALPTAAASFLPIAMAAFQRENPGVTVSLLDGRAGEILGWVQRGEVDAGISSLPDDLAGLSFERLLDDNLVLLSHKPSQGGGQDEWTQQPYIALTPDTSIRPLADAALRYLNVDAVPAWEVAHMSTATALVREGLGFSLLPASCTAVFNIGEQCAVTPIDQPAKRSIGLLQRKPVAQSPSLSQFMGHVRRVLRGGEAGA	PGPT0021950_568	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021950-dhcR-K17737	NA	NA
D1-35_03377	1350			hypothetical protein	ATGACAAAAACAATTCTCGTCGGGTGTGGCGCAGGTTTTGCCAATGATCGGCCCGACGCCGCGCTACGCCTGGCCCAGGACATGGCGCAACGCAGCGGCCAGCGCTACATAATGCTGGAGCTGCTGGCTGAACGGACCCTCGCCGAGGCGCAATTGCGCAAGCGCCTCGATCCACGGTCGGGCTACTCCGCGCGCCTGTTCGACTTCCTCGAACCCATGCTGGACATTTGCATCGAAGCCGGCATTGCGATCATCACCAACGGCGGCGCAGCCAACCCCAGGGCCGCCGCGCAACGGTTGCGCGACGAATTGGCCGGCCGTTTCCCGGCGCTGAAAATCGCCTGCGTACTGGGCGACGACCTGCTCGAAGAAACGCCTCCGCGCTATGAACGATGGCTGTCGTCGAGTGCCGATGAACAGCCTGTTTCGGTGAACGTCTACACCGGGGCCGACGGCATCGTCCAGGCACTGGCCGAGGGCGCTGGCATCGTGCTGTGTGGCCGGGTTGCGGATCCGTCCCTGGCGGTAGGCGCGATCCGCCATGGGTTGGGTTGGAAGGCCGACGATTGGCAAAAAATGGCCGTCGCGACCGCCGCCGGACACCTGCTGGAATGCTGCGCCCAGGTCACTGGCGGCTATTTCGCCCATCCCGGAATGAAGGACATCCCGGATCCGGCCAACCTCGGCTGCCCGATCGCCGAAATTCACCAGGACGGCCGCTTGATCATCGGCAAGACGCGCAACAGCGGCGGACGAGTCAGCGAGCAGACCGTCAAGGAGCAATTGCTTTACGAAGTCCATGACCCGCGACGTTATCTGACGCCGGACGTCGTGCTGGATCTGGGCGCGGCCCACGTACAGGACCTGGGGAACGACCGGGTGGAAGTCACTGGCGTGATCGGCCATCCGCGCCCCGACACCCTCAAGGGCCTGGCGGGTATGCGCGGACTCTGGTTCGGCGAGGCCGAGATTTCCTATGCAGGCCCCGGTGCCGTGGCGCGTGCCGCCCTGGCGCGCGACATCCTGCTGCAGCGTTTCGATCGTCTGGCGCCAGGTGTACAGCCCTGGATCGACCTGTCGGGAGTCGCCAGCCTGTTCAACGACCAGGGTGGCCGTTATCTGCAAAAACACCTGGTCCAGGCGCCTTTGCTGGAGGACGTGCGGGTGCGTATCGGCCTGACCCATACCGACCGATCGCTGCTCGAAACCCTCCTGGCAGAAGTCGAGTCGCTCTACACCAACGGACCGGCTGGCGGCGGTGGCGTCCGGCGCCACCTCGCAGAAGCCGTTACCACCCGCAGCTTCCTGCTGCCGCGTGATGAAATCCATACAGCCCTGGAGTGGTACTGA	MTKTILVGCGAGFANDRPDAALRLAQDMAQRSGQRYIMLELLAERTLAEAQLRKRLDPRSGYSARLFDFLEPMLDICIEAGIAIITNGGAANPRAAAQRLRDELAGRFPALKIACVLGDDLLEETPPRYERWLSSSADEQPVSVNVYTGADGIVQALAEGAGIVLCGRVADPSLAVGAIRHGLGWKADDWQKMAVATAAGHLLECCAQVTGGYFAHPGMKDIPDPANLGCPIAEIHQDGRLIIGKTRNSGGRVSEQTVKEQLLYEVHDPRRYLTPDVVLDLGAAHVQDLGNDRVEVTGVIGHPRPDTLKGLAGMRGLWFGEAEISYAGPGAVARAALARDILLQRFDRLAPGVQPWIDLSGVASLFNDQGGRYLQKHLVQAPLLEDVRVRIGLTHTDRSLLETLLAEVESLYTNGPAGGGGVRRHLAEAVTTRSFLLPRDEIHTALEWY				NA	NA	NA	NA	NA
D1-35_03378	324			hypothetical protein	ATGAGCCTGGTCACCCTAGCCGACTTCGCCCACGCCCGTGCCGGCGACAAAGGCAATATCCTCAGCATCGCGGTATTTCCCCACGACCCGGCCCATTATCCCTGGCTGCTTCGGGTGCTGAGCTGCGAGCGCGTCGCCGAGCAGTTCGCGACGCGCCAGCCCTCCAGGGTGCATCGCTATGAACTGCCGAACCTGAAGGCGTTGAACTTCGTGCTCGAGGACGCCCTGGAAGGCGGCGTGAATCGAAGCTGCGGTCTCGACCGCCATGGAAAAAGCCTGAGCTACCTGCTCCTGGCCTTGCGCCTGCCGGGACCGGAAGACTGA	MSLVTLADFAHARAGDKGNILSIAVFPHDPAHYPWLLRVLSCERVAEQFATRQPSRVHRYELPNLKALNFVLEDALEGGVNRSCGLDRHGKSLSYLLLALRLPGPED				NA	NA	NA	NA	NA
D1-35_03379	1308	citN_3	COG2851	Citrate transporter	ATGATTACAACCCTGGGTTTCCTGATGATGCTTGCCATTATCGGGCTGATATTGCTGCGCCGGATCAGTCCGGTGGTGGCGTTCACCACCCTTCCCGTGGTCGTCTGCCTGCTCGCCGGCTTCAATCTCGCGCAGATCGGCGAGTTCATCAAGGCCGGCCTGGTCACCGTCGCGCCGACCGCCGCGCTGTTTCTGTTTGCCATCCTGTTCTTCGGCATCATGCGCGACCGTGGCTTGTTCGATCCGCTGGTCAACCTGTTGATCCGCAGCACGGGCGGCAAGCCCCTGGCGGTGGCGCTGGTTACCGTTCTGGTGACTTCAGTGGTGCATCTGGATGGCGTCGGCGCCGCGACGTTCCTGTTGACGATCCCGGCACTGCTGCCCTTGTACAAGCGCCTGAACATGAGCCCGACGATGCTGTTGTGCCTGGTGGGGACCACGGCCGGGGTCATCAACATGGTGCCCTGGGGCGGGACGACTGCGCGGGCCGCTGCCGTGTCGGGGCTCGATGCCACCGAGCTGTGGCTGGGGTTGCTGCCGGTGCAGATGGTGGGCCTGGTGTGCATGCTCGGGGTGGCGACGATACTGGGGTCGCGCGCCCAGCGGCGCCAACCGATGTCGCTGGGTGCGGCCGCGACGCGTGACATGGACGACCTGCAAATGCAAAGCCGCGAATTCAGTCTCTCTCCCCGGCAGCTGCGCTACTGGCTGAATGTGGCCCTGACCGGCGGCATTCTGCTGTGCCTGTTCACCGGTATCTTTCCGCTGTACGCCTGTTTCATGGTCGGATTGGGCATCGCCCTGCCCTTGAACTTCCCATCCCTCGACGCCCAGGCCGAACGCCTCAAGGCCCATGCGTCCGATGCGTTACAGATGGTTCTGGTGATGATGGCCGCCGCCGTGCTGCTGGGCGTGCTCTCCGGAGCGAAGATGTCAGACGGCATGGCCTTGGCGCTGATCGACATCCTGCCCGCCGGTGCTGCCCAATACCTGCATGTGATTGTCGGGTTCTTCGGCGTCCCCCTTGGAATGATCTTCTCGCCGGACGCCTACTATTTCGCCCTGCTGCCGGTGATCAAGGACGTCGCCATCGCCGCTGGCGTTCCTCTCGAAGCGGTGGCCCGGGCCATGCTGATCGGTGAGAACACCGGCTTCTCCATCAGCCCGGTGGTACCCAGCGTGTATCTGGCCCTGGCACTGTCCGGCGTAGAGTTGCGCAAGCACATGGCCTATACGTTTTTCTGGGCCTGGGGCGTCAGCCTGGTAATGCTCGCCTTTGCCGTGGCAACCGGGGCTGTACAAGTCTGA	MITTLGFLMMLAIIGLILLRRISPVVAFTTLPVVVCLLAGFNLAQIGEFIKAGLVTVAPTAALFLFAILFFGIMRDRGLFDPLVNLLIRSTGGKPLAVALVTVLVTSVVHLDGVGAATFLLTIPALLPLYKRLNMSPTMLLCLVGTTAGVINMVPWGGTTARAAAVSGLDATELWLGLLPVQMVGLVCMLGVATILGSRAQRRQPMSLGAAATRDMDDLQMQSREFSLSPRQLRYWLNVALTGGILLCLFTGIFPLYACFMVGLGIALPLNFPSLDAQAERLKAHASDALQMVLVMMAAAVLLGVLSGAKMSDGMALALIDILPAGAAQYLHVIVGFFGVPLGMIFSPDAYYFALLPVIKDVAIAAGVPLEAVARAMLIGENTGFSISPVVPSVYLALALSGVELRKHMAYTFFWAWGVSLVMLAFAVATGAVQV	PGPT0001500_720	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_CITRATE_TRANSPORT,PGPT0001500-TC_CITMHS|CitMHS_family|citN-K03300	NA	NA
D1-35_03380	900			hypothetical protein	ATGGAATACGACGTCATCATTACAGGCGGCAGCTATGCCGGTATGTCCGCGGGTTTGCAACTGGCCCGCGCCCGGCGCAAGGTGCTGGTGATCGACGCGGGCGAGCGTCGCAACCGCTTCGCCGCGACATCCCATGGTTTTCTCGGGCAGGACGGTCGTGCCCCAGGCGATATAGCCGGCGACGCCCATGTTCAGCTCATGGCGTACCCGACGGTTGAATGGGTTCGCGACACCGCGACCCAAGCCAGCAGGGATGCCGAAGCTTTTATTGTCGAGACCGCAAACGGCCTGCGTTACCGTTCTCGCCGGCTGTTGCTGGCCACAGGCGTGATTGATGACTTGCCCGACGTGCACGGGCTGACTGAGCGCTGGGGCAAAAGCGTTTTCCATTGCCCGTATTGCCACGGCTACGAGTTGAACCAAGGGCCGATCGGCGTTCTCGCAACCTCGCCGATGTCACTGCACCACGCCCAGATGCTGCCCGACTGGGGGCCGACGACGTTCTTCACCAATGGCGTGCTGGCGCTTGATCCGGAGCAACAAGCGAGCCTCGATCAGCGTGGCGTCACCGTGGTGACCGAGCGAGTGGCGCGTATCGAAGGCGAGCGGGCCGACGTGGTACTGGCCAACGGTCGGGTGGTCGCCATCGACGGCCTGTTCGTCTTGCCGCGTACGCGGGTTGCCAGTCCACTCGCGGCAGCCCTGGGCTGCGCGTTTGAAGAGGGTCCGCTTGGCGCGTTCATCCAAAGCGACGCGATGACCCGGGAATCCAGCGTGCCGGGCATATTTGCCTGCGGCGATGCGGCCATGCCGTTCGGCTCGGTCGCGCTGGCCGTTGGCGATGGGGTGAGGGCGGGCTCCGGGGTGCATCGGTCGCTGATCTTCCAAGCCCACCCTTGA	MEYDVIITGGSYAGMSAGLQLARARRKVLVIDAGERRNRFAATSHGFLGQDGRAPGDIAGDAHVQLMAYPTVEWVRDTATQASRDAEAFIVETANGLRYRSRRLLLATGVIDDLPDVHGLTERWGKSVFHCPYCHGYELNQGPIGVLATSPMSLHHAQMLPDWGPTTFFTNGVLALDPEQQASLDQRGVTVVTERVARIEGERADVVLANGRVVAIDGLFVLPRTRVASPLAAALGCAFEEGPLGAFIQSDAMTRESSVPGIFACGDAAMPFGSVALAVGDGVRAGSGVHRSLIFQAHP				NA	NA	NA	NA	NA
D1-35_03381	468	ywnA	COG1959	Putative HTH-type transcriptional regulator YwnA	ATGGAATCTGTCAGTCCGATGAGAAACGACACACGCCTGTCCCGCATGCTCCATGTATTGATCCACATGGACCGCCACCAGCAATCCGCCACCTCCGACACCCTCGCGCAGATGCTCGGCACCAACCCGGTGGTCGTGCGCCGGACCATGGCATTGCTCAAGGAACAGGGTTACGTCACATCGGAAAAGGGCCATCGCGGGGGTTGGGCCCTGGCCAAGCCGCTCTCGGAGATGACGCTGCTGGATATTCATCAAGCGTTGGGCAGCACATCGATCTTTGCGCTTGGCCTGTCGACCGACCACCCGCAATGCCTGGTGGAACAAGCGGTGAACGCGGCGCTGACGGACGCCTTCGACGAGGCCCAGGCGTTGCTGCTCAAGCGTCTGGGCAGCATAACCCTGGCGCAGTTGGCCGAGGATTTTGATGCGCGGTTTCGGGGCGCCCACGAGGTCGAGCCTCACCACTGA	MESVSPMRNDTRLSRMLHVLIHMDRHQQSATSDTLAQMLGTNPVVVRRTMALLKEQGYVTSEKGHRGGWALAKPLSEMTLLDIHQALGSTSIFALGLSTDHPQCLVEQAVNAALTDAFDEAQALLLKRLGSITLAQLAEDFDARFRGAHEVEPHH				NA	NA	NA	NA	NA
D1-35_03382	1644	mqo_1	COG0579	Malate:quinone oxidoreductase	ATGTTGAAGAAAACACATACGGCGCTGCTGGGCCTGGCGATGGCGATGGGTCTTGCGACCACGCACGCCGCCGAGCCGAAAAAAGTGGATGTCTTGCTCATTGGCGGCGGCATCATGAGTTCGACCCTCGGCGTCTGGCTCAATGAGCTGGAGCCGGGCTGGACCATGGAAATGGTCGAGCGCCTGGACGGTGTTGCCGAAGAGAGCTCCAATGGCTGGAACAACGCCGGTACCGGGCACTCCGCCCTGGCCGAGTTGAACTACACGCCGGAAGACAAGAACGGCAAGGTCGACATCTCCAAGGCTATCGAAATCAACGAAGCCTTCCAGATTTCCCGTCAGTTCTGGTCCTGGCAGGTCAAGAACGGCGTGCTGAAGAACCCGCGCTCGTTCATCAACTCCACCCCGCACATGAGTTTCCTGTGGGGTGACGAGAACATCGCATTCCTGAAGAAGCGCTACGACGCTCTCCAGGCCAGCCCGCTGTTCGCCGGCATGCAGTATTCCGAAGACCCTGCGCAGATCAGCAAGTGGGTTCCGCTGATGATGCAAGGGCGTGACCCGAGCCAGAAAGTCGCGGCCACCTGGAGCCCGCTGGGTACTGACGTGAACTTCGGCGAAATCACCCGCCAGTTCGCTGCTCACCTGCAAACCAGGCCGAACTTCTCGCTCAAGCTGTCCAGCGAAGTGGAAAACATCACTCGCAACGAGGATGGCTCCTGGCGCGTTTCGTACAAGAACCTGAAAGACGGTACCGAAACCGAGACCGACGCCAAGTTCGTGTTCATCGGTGCCGGTGGCGGCGCGCTGCACCTGCTGCAGATGTCGGACATTCCGGAAGCTCGTGAATACGCCGGTTTCCCAGTGGGCGGTTCGTTCCTGGTAACCGAAAACCCGACCGTCGCCCAGATGCACCTGGCCAAGGCGTACGGCAAGGCTTCGGTTGGCGCGCCACCGATGTCGGTTCCGCACCTGGACACCCGCGTACTCGACGGCAAGCGCGTGATCCTGTTTGGCCCATTCGCCACGTTCTCCACCAAGTTCCTGAAGAACGGTTCGTACTTCGACCTGCTGACCAGCACCACGACCCACAACGTGTGGCCGATGACCAAGGTCGGTATCGAACAGTACCCACTGGTTGAATACCTTGCCGGCCAACTGATGCTGTCGGATGAGGACCGCTTCAACGCGCTGAAGGAATACTTCCCGGACGCCAAGCAGGAAGACTGGCGCCTGTGGCAAGCCGGCCAGCGCGTGCAGATCATCAAGCGTGACGAAGAGAAGGGCGGCGTGCTGAAACTCGGTACCGAAGTCGTCGCTTCCCAGGACGGCAGCATCGCCGGTCTGCTGGGTGCCTCGCCAGGCGCCTCGACCGCTGCACCGATCATGCTGAGCGTGCTTGAGAAGGTCTTCAAGGACAAGGTAGCCACCCCGGCCTGGCAGGAAAAACTGCGTCAGATCGTACCGAGCTACGGCACCAAGCTGAACGACAATCCTGAGCGCGTCGCACAGGAATGGGCCTACACCAGCGAAGTCCTGCAACTGGACCCGCCACCGGCTGTCGGCAAGCCAGGCACCGCGGTAGCACCGGCCCAACCGGCTGCTCCTCGCGAGGCCAACCCAGCGGCCGACATGGCGCTGTAA	MLKKTHTALLGLAMAMGLATTHAAEPKKVDVLLIGGGIMSSTLGVWLNELEPGWTMEMVERLDGVAEESSNGWNNAGTGHSALAELNYTPEDKNGKVDISKAIEINEAFQISRQFWSWQVKNGVLKNPRSFINSTPHMSFLWGDENIAFLKKRYDALQASPLFAGMQYSEDPAQISKWVPLMMQGRDPSQKVAATWSPLGTDVNFGEITRQFAAHLQTRPNFSLKLSSEVENITRNEDGSWRVSYKNLKDGTETETDAKFVFIGAGGGALHLLQMSDIPEAREYAGFPVGGSFLVTENPTVAQMHLAKAYGKASVGAPPMSVPHLDTRVLDGKRVILFGPFATFSTKFLKNGSYFDLLTSTTTHNVWPMTKVGIEQYPLVEYLAGQLMLSDEDRFNALKEYFPDAKQEDWRLWQAGQRVQIIKRDEEKGGVLKLGTEVVASQDGSIAGLLGASPGASTAAPIMLSVLEKVFKDKVATPAWQEKLRQIVPSYGTKLNDNPERVAQEWAYTSEVLQLDPPPAVGKPGTAVAPAQPAAPREANPAADMAL	PGPT0001440_355	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
D1-35_03383	1278			hypothetical protein	ATGTTATCCCCTTTCTTTTGGCAGGAATTCTCATTCCTGATCCTGCAAAGCCCCCGACTCCTGAGTATCGCCATGAGCCTATCCCCAAGCGCGACAAGCCCGTCCGCTGTCATCGCTCCAACCCTCGCTTCCAGTACCGCAACAACCGCGACGCGCCTGCTCGCCATCGATGCCTTGCGGGGTTTTGTCATGTTGCTGATGCTGGTCGACCATGTCCGCGAAACGTTCCTGCTGCACCGCCAGGTCACTGACCCGATCGATGCATTGAGCGTGACCCCGGACCTGTTTTTCACTCGTTTGCTCAGCACGCTCTGTGCGCCAGTGTTCATCTTCCTTACCGGTTTGTCGGCCTGGCTCTACAGCCAGAAACACACCGCCAGCGAGACTTCGGTGTTCCTGCTCAAGCGTGGTCTGTTCCTGGTGTTCCTGGAGCTCACGTTCGTCTGTTTCGCCTGGAACGCCGAGTTTCCGCCGAAGACTTTGTGGCTGCAGGTCATCTGGTGCATCGGCATCTGCATGATCGCCCTGGCGGCGTTGCTGCACTTCAAACGCAGCTGGCTGATCGTGCTGGGCGCTGCCATCGTTGCCGGGCATAACCTGTTGGACGGTGTGGTGCTGGGGCCGGACTCGCCGTTTTTCGTGCCCTGGTCGATTCTTCATCAGCGGTCGTTCATCGAGATCACCGAGTTCACCCGGGCACGCACCACCTACCCGGTGTTGCCATGGATCGGCGTGATCCTTCTGGGTTGGGCGATCGGGCCATGGTTCGGCAAGGACATCGAAGCGCCCACGCGAGTGCGGCGCCTGCTCAAGGTCGGCATCGGCCTGCTGGTGGCGTTCGTGTTTATCCGTTATCTCAACGTCTACGGTGACAAACCCTGGGTCCAGACCGGGGATGCACTGCGCACCTTCATGAGTTTCATGAGCGCGACGAAGTACCCGCCGTCGCTGATGTTCCTGATGCCGACGCTGGCGGTGGGCCTGATCCTGCTGGCGCTTTTCGAAAAAGCTCAGGCGAAGGGCAGCATCGCGATTCTGGCCATCTATGGCGGCGCGCCGATGTTTTTCTACCTGCTGCACCTGTACGTGCTGAAGGCCATGTACCTGCTGGCGGTGTTTATCTGGGGCACCAATCAGGGCGCTTATTTTGGCTTCGAGCACTTGCCGATGGTCTGGTTGTGGAGCGTGTTGTTGAGTGTCGTCCTGTTTTTTCCAACGCGTTGGTACGCAGCGTTGAAACAACGTCGGCGTGACATCGCGATCCTCAAGTACCTCTGA	MLSPFFWQEFSFLILQSPRLLSIAMSLSPSATSPSAVIAPTLASSTATTATRLLAIDALRGFVMLLMLVDHVRETFLLHRQVTDPIDALSVTPDLFFTRLLSTLCAPVFIFLTGLSAWLYSQKHTASETSVFLLKRGLFLVFLELTFVCFAWNAEFPPKTLWLQVIWCIGICMIALAALLHFKRSWLIVLGAAIVAGHNLLDGVVLGPDSPFFVPWSILHQRSFIEITEFTRARTTYPVLPWIGVILLGWAIGPWFGKDIEAPTRVRRLLKVGIGLLVAFVFIRYLNVYGDKPWVQTGDALRTFMSFMSATKYPPSLMFLMPTLAVGLILLALFEKAQAKGSIAILAIYGGAPMFFYLLHLYVLKAMYLLAVFIWGTNQGAYFGFEHLPMVWLWSVLLSVVLFFPTRWYAALKQRRRDIAILKYL				NA	NA	NA	NA	NA
D1-35_03384	1371	luxQ		Autoinducer 2 sensor kinase/phosphatase LuxQ	ATGGCGAAGCCCTCTGACGAACAGCAAAAGGCCCTCGCCGGGCTGCTGGGATTGGGCAATCATTCGACGCGCAAGAGCCATTACCCGGAGCTGGCGGCGCGTCTCGCCGAACTGGAACAGGCCCGCCAGCATCTGCAGCAACTCAACGACCAACTGGAGCAACGGGTGGCGGAGCGCACCGATGCGTTGCTGGAGGCCAACCACAACCTGCAACAGCAGATCGCCCAGCGCGAGTTGGTCGAGCAACAGCTGCGCGATGCCCGGGACGCCGCCCAGGCCGCGAACCGCAGCAAGGACAAATACCTGGCCGCCGCCAGCCACGATCTGCTGCAACCGCTCAACGCCGCGCGGTTGCTGATTGCCACATTGCGTGAACGCCAGATGCCAGCCGCCGAGCATCTACTGGTGGAACGCACGCACCAAGCGCTCGAAGGCGCCGAGGACCTGCTCACCGACCTGCTGGATATTTCCCGGCTCGACCAGGCCGCCGTCAAACCCGACCCGGCGTCGTATCGGCTGGATGAGCTGCTCGCGCCGTTGGTGTCGGAATTCCAATCGGTGGCCGGCGCCGCGGGCCTGGAATTGCGCGTGCGATTCGCCGATGAAGCGGTGCTGACCGACCTGCGGTTGATGACCCGCATCCTGCGCAATCTGCTGAGCAACGCCTGTCGCTACACCGACCAGGGCGGCATCCTCCTGGCGGCGCGGCGCCGGGGAGGGCGCTTGAGCCTGGAGGTCTGGGACACGGGCAGAGGCATTGCCGCCGATTGTCTGGAATCGATTTTCCTCGAGTTCAACCAACTGGATGTCGGCCGCGCGGCGGACCGCAAGGGCGTCGGCCTGGGGCTGGCGATCGTCGAGCGTATCGCTCATATCCTCGGCTACCGGGTGCGGGTGCGTTCGCGGCCGGGACGCGGCTCGGTGTTCAGCATCGAGGTGCCATTGTCTGCCGAAAAGCCACTGCCCCTGACCCACGCGCCTGCTCAGGCCGTCGCCGGAAACCCGTTGCCTGGGCGCCGGTTACTGGTCATCGACAATGAGCTGAGCATTTTGCAGAGCATGGCGGCACTGCTCGGGCAGTGGGGGTGCGAAGTGCTGACCGCCACCGACGAAGCGGGCGCCTTCGATGTGCTGCAAGGCCGCGCACCGGAGCTGATCCTGGCGGATTTTCACCTCGACCATGGGGTGGTCGGCTGCGAGGTGGTCAAGCACCTGCGCGAACATTTCCAGCAAGCGATCCCCGCTGTGATCATCACCGCCGACCGCAGCGACCAGTGCCGCCGTGCCTTGCGCAAGCTGAATGCGCCGCTGCTAAACAAACCGGTAAAGCCGGGCAAGTTGCGGGCGGTGTTGAGCCAGTTGCTGGGGTAG	MAKPSDEQQKALAGLLGLGNHSTRKSHYPELAARLAELEQARQHLQQLNDQLEQRVAERTDALLEANHNLQQQIAQRELVEQQLRDARDAAQAANRSKDKYLAAASHDLLQPLNAARLLIATLRERQMPAAEHLLVERTHQALEGAEDLLTDLLDISRLDQAAVKPDPASYRLDELLAPLVSEFQSVAGAAGLELRVRFADEAVLTDLRLMTRILRNLLSNACRYTDQGGILLAARRRGGRLSLEVWDTGRGIAADCLESIFLEFNQLDVGRAADRKGVGLGLAIVERIAHILGYRVRVRSRPGRGSVFSIEVPLSAEKPLPLTHAPAQAVAGNPLPGRRLLVIDNELSILQSMAALLGQWGCEVLTATDEAGAFDVLQGRAPELILADFHLDHGVVGCEVVKHLREHFQQAIPAVIITADRSDQCRRALRKLNAPLLNKPVKPGKLRAVLSQLLG	PGPT0025850_595	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_REGULATORS	CE-QSR-QUORUM_SENSING_REGULATED_FLS,PGPT0025850-PA1979-K20975	NA	NA
D1-35_03385	1176	dhaT	COG1454	1,3-propanediol dehydrogenase	ATGAGCCCCCCTGAAAAAATGAGCCTCAGCCCGCTGCGCAAGTTCGTTTCTCCTGAAATCATGTTCGGTGCCGGCTGCCGGCACAATGTCGGCAACTACGCCAAGACCTTCGGCGCCCGCAAGGTGCTGGTGGTCACTGACCCCGGGGTCATCGCCGCCGGTTGGGTCGGTGATGTCGAAGCCAGCCTGCAAGCCCTGGGCATCGATTACTGCATCTACAGCGACGTTTCGCCCAACCCGCGGGTCGAGGAAGTCATGCTCGGCGCCGAGACGTACCGTGAAAACCACTGTGACGTGATCGTCGCGGTAGGTGGTGGCAGCCCGATGGACTGCGGCAAGGCGATCGGCATCGTCGTCGCCCACGGTCGCAGCATCCTCGAATTCGAAGGCGTCGACACCCTGCAGGTACCCAGCCCGCCGCTGATCCTGATCCCGACCACGGCCGGTACCTCGGCCGATGTGTCGCAGTTCGTGATCATCTCGAACCAGCAGGAGCGCATGAAGTTTTCCATCGTCAGCAAGGCGGCGGTGCCGGATGTGTCGTTGATCGATCCGGAGACGACCTTGAGCATGGACCCGTTCCTCTCGGCCTGTACCGGTATCGACGCGCTGGTGCATGCCATCGAGGCGTTCGTCTCCACCGGCCACGGGCCGTTGACCGATCCTCATGCGCTGGAGGCGATGCGCCTGATCAACACCCACCTGGTACAGATGATCGCCAACCCGGCCGACGTCGCCCTGCGCGAGAAAATCATGCTCGGCAGCATGCAGGCCGGGCTGGCGTTTTCCAACGCGATCCTCGGCGCGGTGCACGCCATGTCCCACAGCCTCGGTGGCTTCCTCGACCTGCCCCATGGCTTGTGCAACGCGGTGCTGGTGGAGCATGTGGTGGCGTTCAACTACAACTCGGCGCCGGAGCGTTTCAAGGTGATTGCCGAAACCCTGGGCATCGATTGTCGCGGGCTCAACCATCGACAGATCCGCACGCGGCTGGTGGAACACCTGATTGCCCTCAAGCACACCATCGGTTTCCACGAAACCCTCGGCTTGCATGGGGTGAGTACCTCGGATATCCCGTTCCTGTCGCAACACGCCATGCATGACCCGTGCATCCTTACCAATCCACGCGAGTCGAGCCAGCGGGATGTCGAGGTCGTCTATGGCGAAGCCCTCTGA	MSPPEKMSLSPLRKFVSPEIMFGAGCRHNVGNYAKTFGARKVLVVTDPGVIAAGWVGDVEASLQALGIDYCIYSDVSPNPRVEEVMLGAETYRENHCDVIVAVGGGSPMDCGKAIGIVVAHGRSILEFEGVDTLQVPSPPLILIPTTAGTSADVSQFVIISNQQERMKFSIVSKAAVPDVSLIDPETTLSMDPFLSACTGIDALVHAIEAFVSTGHGPLTDPHALEAMRLINTHLVQMIANPADVALREKIMLGSMQAGLAFSNAILGAVHAMSHSLGGFLDLPHGLCNAVLVEHVVAFNYNSAPERFKVIAETLGIDCRGLNHRQIRTRLVEHLIALKHTIGFHETLGLHGVSTSDIPFLSQHAMHDPCILTNPRESSQRDVEVVYGEAL	PGPT0006370_246	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006370-yiaY-K13954	NA	NA
D1-35_03386	1521	adh_1	COG1012	Aldehyde dehydrogenase	ATGATTTACGCACAACCCGGAACCCCAGGCGCCGTCGTTTCCTTCAAGCCGCGCTATGGCAATTTCATCGGCGGCGAATTCGTTCCGCCGGTCCACGCTGAGTACTTCACCAACACGTCGCCGGTCAACGGCGAAGTCATCGGCGAGTTTCCGCGCTCCAGCGCCGCCGACATCGACAAGGCCCTGGACGCCGCCCATGCCGCTGCCGACGCCTGGGGCAAAACCTCGGTCCAGGATCGCTCCCTGGTGCTGTTGAAAATCGCCGACCGTATCGAGCAGAACCTGGAGCTCCTTGCCGTGAGCGAGACCTGGGACAACGGCAAGGCCGTGCGCGAAACCCTCAATGCCGACGTACCGCTTGCGGCTGACCATTTCCGTTATTTCGCCGGCTGCATCCGCGCCCAGGAGGGCGGGGCCGCCGAAATCAACGAACTGACCACGGCCTACCATTTTCATGAACCGCTGGGCGTGGTCGGGCAAATCATCCCGTGGAACTTCCCGTTGTTGATGGCCGCCTGGAAACTCGCCCCGGCCCTGGCCGCCGGCAACTGCATCGTGCTCAAGCCGGCGGAGCAGACGCCGCTGTCGATCACCGTGTTCGCCGAGCTGATCGCCGACCTGCTGCCAGCCGGCGTCCTGAACATCGTCCACGGCTTCGGCCGCGAAGCCGGTGAAGCCCTGGCCACCAGCAAGCGCATCGCCAAGATCGCCTTCACCGGTTCCACCCCGGTCGGCTCGCACATCATGAAATGCGCCGCCGAAAACATCATCCCGTCCACCGTGGAACTGGGCGGCAAGTCGCCGAACATCTTCTTCGACGACATCATGCAGGCCGAACCGGCGTTCATCGAAAAAGCTGCCGAAGGCCTGGTGCTGGCGTTCTTCAACCAGGGTGAAGTCTGCACCTGCCCATCCCGGGCGCTGGTCCAGGAGTCGATCTATGACGAATTCATGCAAGTGGTGCTGAAGAAGATCCAGCAGATCAAGCGCGGCAACCCGCTGGACACCGAGACCATGGTCGGCGCCCAGGCGTCCGAGCAGCAGTACGACAAGATCCTTTCGTACCTGGACATCGCCCGGGAAGAGGGCGCCGAATTGCTCACCGGCGGCGCGGCGGAACGCCTTGAAGGCGACCTGTCGAGCGGCTATTACATCCAGCCGACCCTGCTCAAGGGCCACAACAAGATGCGCGTGTTCCAGGAAGAAATCTTCGGGCCGGTGGTGGGCGTGACCACCTTCAAGGACGAAGCCGAAGCCCTGGCCATCGCCAACGACACCGAGTTCGGCCTCGGCGCCGGCCTCTGGACCCGCGACATCAACCGCGCCTACCGCATGGGCCGGGCAATCAAGGCCGGACGCGTCTGGACCAACTGCTACCACCTGTACCCGGCGCATGCCGCGTTTGGTGGCTACAAGAAGTCCGGCGTCGGGCGTGAGACGCACAAGATGATGCTCGACCATTATCAGCAGACCAAGAACCTGCTGGTGAGCTATGACGTCAATCCGTTGGGGTTCTTCTGA	MIYAQPGTPGAVVSFKPRYGNFIGGEFVPPVHAEYFTNTSPVNGEVIGEFPRSSAADIDKALDAAHAAADAWGKTSVQDRSLVLLKIADRIEQNLELLAVSETWDNGKAVRETLNADVPLAADHFRYFAGCIRAQEGGAAEINELTTAYHFHEPLGVVGQIIPWNFPLLMAAWKLAPALAAGNCIVLKPAEQTPLSITVFAELIADLLPAGVLNIVHGFGREAGEALATSKRIAKIAFTGSTPVGSHIMKCAAENIIPSTVELGGKSPNIFFDDIMQAEPAFIEKAAEGLVLAFFNQGEVCTCPSRALVQESIYDEFMQVVLKKIQQIKRGNPLDTETMVGAQASEQQYDKILSYLDIAREEGAELLTGGAAERLEGDLSSGYYIQPTLLKGHNKMRVFQEEIFGPVVGVTTFKDEAEALAIANDTEFGLGAGLWTRDINRAYRMGRAIKAGRVWTNCYHLYPAHAAFGGYKKSGVGRETHKMMLDHYQQTKNLLVSYDVNPLGFF	PGPT0007176_929	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007176-aldB-K00138	NA	NA
D1-35_03387	1776	qedA_1		Quinoprotein alcohol dehydrogenase (cytochrome c)	ATGACTCATCCCGCACGTCGCCAATCCTTCGCCGTGAGCCTGCTGCTCAGTGCCATGCTGCTGTCCGGCTCGGCCTTGGCCGCCGTGACCGACCAGGAAATTCTCCAGGACCCGAAAAACCCGCAGCAAATCGTGACCAACGGCCTCGGTGTGCAGGGCCAGCGCTATAGCCCGCTCGACACCCTCAACGTGAACAACGTCAAGGACCTGCGGCCGGTCTGGGCGTTTTCCTTCGGCGGCGAAAAGCAGCGCGGCCAGCAGGCCCAGCCGATGATCAAGGACGGGGTGATGTACCTCACCGGCTCCTATTCACGGGTGTTCGCGGTGGACGCACGCACCGGCAAGAAACTCTGGCAATACGATGCGCGCCTGCCCGATGACATCCGTCCCTGCTGCGACGTGATCAACCGTGGCGTGGCGCTGTATGGCGACCTGGTGTTCTTCGGCACGCTGGACGCCAAGCTGGTGGCCTTGAACAAGGACACCGGCAAGGTGGTGTGGAGCAAAAAAGTCGCTGACCACAAGGAAGGTTATTCCATCAGCGCCGCGCCCATGGTCGTCAATGGCAAGCTCATCACCGGCGTGGCGGGCGGCGAGTTTGGCGTGGTCGGGCAGATCAGCGCCTTCGACCCGAAAAACGGCGAACTGCTCTGGACCCGGCCGACCGTGGAAGGCCACATGGGCTACGTCTACAAGGACGGCAAGGCCGTGGAGAATGGTATCTCCGGCGGCGAGGCCGGCAAGACCTGGCCCGGCGATCTGTGGAAAACCGGCGGTGCCGCGCCTTGGCTGGGCGGTTACTACGATCCGGAAACCAACCTCCTATTGTTCGGTACCGGCAACCCGGCACCGTGGAACTCCCACCTGCGCCCTGGCGACAACCTCTATTCCTCGTCGCGCCTGGCGCTGAACCCGGACGACGGCACCATCAAGTGGCACTTCCAGAGCACGCCACACGACGGTTGGGACTACGACGGCGTCAATGAACTGATCTCGTTCAACTACAAGGACGGTGGCAAGGACATCAAGGCGGCAGCGACGGCCGATCGTAACGGTTTCTTCTACGTGCTCGACCGCACCAATGGCAAGTTCATCCGTGGTTTCCCGTTCGTCGACAAGATCACCTGGGCCTCCGGCCTGGACAAGGACGGGCGCCCGATCTACGTAGACACCAGCCGGCCGGGCGCACCGGGCAGCGAAGCCAAGGGCAGTTCGGTGTTCGTCGCCCCGGCGTTCCTCGGCGCGAAGAACTGGATGCCGATGGCCTATAACCAGGACACCGGTCTGTTCTACGTGCCGTCCAACGAGTGGGGCATGGACATCTGGAACGAGGGCATCGCCTACAAGAAAGGCGCGGCGTTCCTCGGGGCCGGGTTCACCATCAAGCCACTGAACGAGGATTACATCGGCGTGCTGCGGGCCATCGACCCGAAGACCGGCAAGGAAGTCTGGCGCCACAAGAACTTCGCGCCGCTGTGGGGCGGGGTGCTGACCACCAAGGGCAACCTGGTATTCACCGGTACGCCTGAAGGTTTCCTGCAAGCCTTCAACGCGAAGACCGGGGAAAAAGTCTGGGAGTTCCAGACCGGTTCCGGCGTGCTCGGCTCGCCGATTACCTGGGAGATGGACGGCGAGCAATACGTCTCGGTGGTCTCCGGCTGGGGCGGCGCGGTACCGCTGTGGGGCGGCGAGGTGGCCAAGCGCGTGAAGGACTTCAACCAGGGCGGCATGCTCTGGACGTTCAAGTTGCCGAAAGAGCTGGTGGCCAAGCGCTGA	MTHPARRQSFAVSLLLSAMLLSGSALAAVTDQEILQDPKNPQQIVTNGLGVQGQRYSPLDTLNVNNVKDLRPVWAFSFGGEKQRGQQAQPMIKDGVMYLTGSYSRVFAVDARTGKKLWQYDARLPDDIRPCCDVINRGVALYGDLVFFGTLDAKLVALNKDTGKVVWSKKVADHKEGYSISAAPMVVNGKLITGVAGGEFGVVGQISAFDPKNGELLWTRPTVEGHMGYVYKDGKAVENGISGGEAGKTWPGDLWKTGGAAPWLGGYYDPETNLLLFGTGNPAPWNSHLRPGDNLYSSSRLALNPDDGTIKWHFQSTPHDGWDYDGVNELISFNYKDGGKDIKAAATADRNGFFYVLDRTNGKFIRGFPFVDKITWASGLDKDGRPIYVDTSRPGAPGSEAKGSSVFVAPAFLGAKNWMPMAYNQDTGLFYVPSNEWGMDIWNEGIAYKKGAAFLGAGFTIKPLNEDYIGVLRAIDPKTGKEVWRHKNFAPLWGGVLTTKGNLVFTGTPEGFLQAFNAKTGEKVWEFQTGSGVLGSPITWEMDGEQYVSVVSGWGGAVPLWGGEVAKRVKDFNQGGMLWTFKLPKELVAKR	PGPT0006870_208	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUBSTRATE_UTILIZATION-OTHERS	PLANT_DERIVED_ALCOHOL_DEHYDROGENASE-CYTOCHROME_C,PGPT0006870-exaA-K00114	NA	NA
D1-35_03388	936	gloB_1		Hydroxyacylglutathione hydrolase	ATGCGCTGGTTGTTGCTGATCTGTCTTGGGCTGTGCCTGCCGGCCTGGTCCGCCACCGAGTATTCGCTCAAGCCACGGCAGATCGCCGAGGGCACGTGGCTGCTGGAAGGCAGCACGGATAATTTTGCCAAGGCCAACGGCGGCAATATCGTCAATACCGCGTTCATCGTCACCGAGGCCGGCGTGGTGGTCATCGACACCGGACCGTCAAAGCGCTACGGCGAGGCGCTGCGCCAGGCCATCGCCGCAACGACTGACAAGCCGGTGGCTCAGGTGCTGCTGACTCATCATCACCCTGACCATGTATTGGGCAACCAGGCCTTCAGCGATGTGCCCATCGGGGCGCTGCCCGGCACCACCGATCTGCTGCGACAGCAGGGCGACGCGATGGCGGAAAACATGTACCGGCTGGTGGGCGACTGGATGCGCGGCACCGAGGTGGTGCTGCCGACGCAGGCGTTGAGCCCCGGCACGCTGCAGGTGGGTGAGCATTCGTTGCGCTTGCTGGCGCTGGCCGGGCATACCGGGGCGGATCTGGCGATCCTTGATGAAACCACGGGCGTGCTGTTCGCCGGCGACCTGGTGTTTTATGAGCGAGCGCTGACTACCCCGAACAGCCCCGGCCTGGAGGTATGGCTCAAGGATCTGGACACCTTGCAGGGCCTGCCATGGAAGCAGATCGTGCCGGGTCATGGTCCGGTGACGGCGGATGCCCGGCCATTCGCGCAGATGCGCGACTACCTCGGCTGGCTCGACCAACTGATGCGCGACGGCGCGGCCCGGGGCGACGACATGGCCGAGATGATCCGCAGCCCCATCCCCGAGCGCTTCGCCGCGATCAGCCTGAGCCGGTATGAGTTGATTCGCAGCGTCAGCCATCTATACCCGCGTTATGAGCGGGCGGGGATGAGGCGGGTGGACACAAAGCCCCAGTAA	MRWLLLICLGLCLPAWSATEYSLKPRQIAEGTWLLEGSTDNFAKANGGNIVNTAFIVTEAGVVVIDTGPSKRYGEALRQAIAATTDKPVAQVLLTHHHPDHVLGNQAFSDVPIGALPGTTDLLRQQGDAMAENMYRLVGDWMRGTEVVLPTQALSPGTLQVGEHSLRLLALAGHTGADLAILDETTGVLFAGDLVFYERALTTPNSPGLEVWLKDLDTLQGLPWKQIVPGHGPVTADARPFAQMRDYLGWLDQLMRDGAARGDDMAEMIRSPIPERFAAISLSRYELIRSVSHLYPRYERAGMRRVDTKPQ				NA	NA	NA	NA	NA
D1-35_03389	756			hypothetical protein	ATGAACTGGCGAGCGTGGGGCCTGCTGTGGTGTTGCCTGCCGTTGATGGCGAGCGCGATCGAGCCGGGAAAGGACCCGGTGCCTTCCGTGATGTGGGCTTTCTATCACAAGCAACTGCTGGCGGACGCGCCGTTCGTGTTCGACGAGCGAGTCCGGCTGCTGGCGCCACCGTTTGCCGAAGACGCGCGCCAGGTGCCGCTGGAAATCGATGCCCGCGCCTTTACCGGTGACGTCGTGCGTATATTGGCCTGGGCCGAATTGAACCCGCTGCCGAAGATTGTCGACTTCCAGCCCACGGAACGGGTGCTGCCCTGGCTGTCGATCCGTATTCGCATCGAGCAAGCCAGTCCATTGCGTGCGGCAGTGCAGACCCGCGACGGGCTGTGGCACGTCGGTTCGACGCTGATCGACGCGGCGGGTGGCGGCTGCACCGCGCCCAGCGTCGTGCGCACCCAACCGGGTTGGGAGAAGCACTTGGGCGAAGTGCTGGGCGGTCGCTACCCGCGGGGCGATTCGAGTCGCCTGCGTCTGCAGGTTGCCCACCCCATGGACAACGGCCTGGTCAGCGGCATCCCGGAGTTTTTCATCAACCAGGCTCGGCTGCTGGATGCCGACGGCAAGCTGTTGGCGCGCCTGGAGCTGTTTCCGGCGGTCAGCGAAAACCCCTCCCTGGGCTTCGACATCCAGGGCCCGGGACAGACCCGCCTGTTGCTGCGCGACACCAGCGGCAACGAGTTCGAAGCGGCCATTCCCTGA	MNWRAWGLLWCCLPLMASAIEPGKDPVPSVMWAFYHKQLLADAPFVFDERVRLLAPPFAEDARQVPLEIDARAFTGDVVRILAWAELNPLPKIVDFQPTERVLPWLSIRIRIEQASPLRAAVQTRDGLWHVGSTLIDAAGGGCTAPSVVRTQPGWEKHLGEVLGGRYPRGDSSRLRLQVAHPMDNGLVSGIPEFFINQARLLDADGKLLARLELFPAVSENPSLGFDIQGPGQTRLLLRDTSGNEFEAAIP	PGPT0002355_319	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-SULFURIC_ACID_BIOSYNTHESIS,PGPT0002355-soxY-K17226	NA	NA
D1-35_03390	876			hypothetical protein	ATGCGCCTGTTCGCGTGGGTGATGTGCAGCCTGCTGTTGTGTGGCCAGGCGGTGCAGGCGCAGGTGCGCAGCTATGACCAGATGATTGCCGCCGGTGAATTGAAGGTCGCGGTCTACATGGACTTCGCTCCCTACAGCTTTGAAGACCAGGGCCAGCCGCGGGGCGTTGACGTGGAGCTGGCGCAGGCCCTGGCCAAGGCGCTGGGCGTACGGCTGAAATTGCTCTGGGCACCGCCCGGCGAAAAGCTCGACGACGACTTGCGCGACTACATCTGGCGCAGCAGTCCGCTGCACGATCGACAACTGGCCGATCTGATGATGCGAGTGCCTTATGACCATGACTATGTACAAAGGCGCAACGACGTTGGCGAGCTGGAGAACGCCCAGGTCGTGATGTTCGGTCCGTATCAGCAGGAATGCTGGCAAGTGGCGTACGACCGGCGTCGACTGGCCTCGGTGGGCAGCGTTGCGGTGTTCCAGCAACACCCCATTGGCGTTGAAGTCGACAGCGTGCCGTCGTTCTACCTGACGTCCGTGTTCAACGGCATGCTCAGTGCCAAGACCCGCCATTACCCCAGCGTTGCCAAGGCCTTCGGCGCCATGCAGGCCGGGGAGGTCGATGCGGTCATGGCGATGCGCGGGGAAATCGACTGGCAGGTGCACCGGGCGGCTGATCCGCAATTGGCCCTGGCGGAGAACGCTTATCCGAACATGGGCAAGCAGCGCTGGGAAATCGGCATGGCCGTGCACGAAAGCAACCGGCAACTGGCCTATGCGGTGGAGGAAGCCTTGGAAGCGTTGATCCGCGACGGCAGCCTCAAGGCCGTGTATGCCCGCTATGGCCTGCGCTACGAAGTGCCGGACATGTATCAATAG	MRLFAWVMCSLLLCGQAVQAQVRSYDQMIAAGELKVAVYMDFAPYSFEDQGQPRGVDVELAQALAKALGVRLKLLWAPPGEKLDDDLRDYIWRSSPLHDRQLADLMMRVPYDHDYVQRRNDVGELENAQVVMFGPYQQECWQVAYDRRRLASVGSVAVFQQHPIGVEVDSVPSFYLTSVFNGMLSAKTRHYPSVAKAFGAMQAGEVDAVMAMRGEIDWQVHRAADPQLALAENAYPNMGKQRWEIGMAVHESNRQLAYAVEEALEALIRDGSLKAVYARYGLRYEVPDMYQ	PGPT0020800_3928	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
D1-35_03391	462			hypothetical protein	ATGACAACAAAACGCAACGCCATCATCGCTAGCGCATTGCTGATAGGGCTGACTGGCGCAGGCTCGGCATGGGCCCATGGCAACGTAGTGCCCCAGGCAGTGGAAACCCAAGGGCTGACGCCGATCAAGGACACCAACCTGCCGTTGGATGCCGACGGCTGGGCGGCACAGAACCCGTATCGCAATTCTCCCGAACGCGAAAAAGCCGTGGAGATCGGTGCCTCGGCCTACAACCAGAACTGCGCGGCCTGCCATGGCCTTGAGGCCAAGTCCGGCGGTATCGCCCCGGACTTGCGCATGCTCGACGCCGCCGAGGCTGGCGATGAATGGTTTGTCGAACGCGTGCGCCATGGCGCGGTGCGCGATGGCCGGGTGTATATGCCCAAAATGGCCGATTACCTGAGCCAGGAAGCGCTGTGGGCGGTGCGTACCTACCTGGACAGCGTGCACGTCGAGGAGTGA	MTTKRNAIIASALLIGLTGAGSAWAHGNVVPQAVETQGLTPIKDTNLPLDADGWAAQNPYRNSPEREKAVEIGASAYNQNCAACHGLEAKSGGIAPDLRMLDAAEAGDEWFVERVRHGAVRDGRVYMPKMADYLSQEALWAVRTYLDSVHVEE				NA	NA	NA	NA	NA
D1-35_03392	1857	qedA_2		Quinoprotein alcohol dehydrogenase (cytochrome c)	ATGACAATAAAAACGCTACCTGCCCTCTCCTCCCTGAGCGTTGCCTTGCTGCTCGCCGGCGGCCTGTCCCTGGGTCCGCAGGCGCACGCCGCCGTCACCTGGGAAGACATTGCCAACGATCACCTGACGACGAAGGACGTGCTGCAATACGGCATGGGCACCAACGCCCAGCGCTGGAGTCCGCTGGCCCAGGTCAACGACAAGAACGTGTTCAAGCTCACCCCGGCCTGGTCCTACTCGTTCGGTGACGAAAAACAACGCGGCCAGGAATCCCAGGCGATCGTCAGCGACGGCGTGGTGTATGTCACCGGATCCTACTCCCGGGTGTTCGCCCTCGACGCCCGGACCGGCAGACGCCTGTGGACCTACAACCACCGCCTGCCGGACAACATCCGGCCGTGCTGCGATGTGGTGAACCGTGGCGCGGCCATTTATGGCGACAAGATCTACTTCGGGACTCTGGACGCACGGGTGGTTGCCCTGGACAAGAACACCGGCAAGGTGGTCTGGAACAAGAAATTCGGCGACCACGCCGGCGGCTACACCATGACCGGCGCCCCAGTGCTGATCAAAGACAAGGCCAGCGGCAAGGTCCTGCTGATCCACGGCAGCTCCGGCGACGAGTTCGGTGTCGTCGGGCAACTGTTCGCCCGCGACCCGGACACCGGTGAAGAAGTCTGGATGCGGCCGTTTGTCGAAGGCCACATGGGCCGCCTCAACGGCAAGGACAGCACGCCGACCGGCGACGTCAAGGCGCCCTCCTGGCCTGACGACAAAACCACCGAGACCGGCAAGGTCGAGGCCTGGAGCCACGGTGGCGGCGCGCCTTGGCAGAGCGCCAGTTTCGACCCCGAGACCAACACCATCATCGTTGGCGCGGGCAACCCCGGCCCCTGGAACACCTGGGCGCGCACCGCCAAGGACGGCAACCCGCATGACTATGACAGTCTCTACACCTCGGGCCAGGTGGGAGTCGATCCAAGCACTGGCGAAGTGAAGTGGTTCTACCAGCACACGCCCAATGACGCCTGGGATTTCTCCGGCAACAACGAGCTGGTGCTGTTCGACTACAAGGACAAGGACGGCAAGCAGGTGAAGGCCACCGCCCACGCCGACCGCAACGGTTTTTTCTACGTGGTGGATCGCAACAACGGCAAGCTGCAGAACGCTTTCCCCTTCGTCGACAACATCACCTGGGCCAGCCACATCGACCTGAAGACCGGGCGGCCCGTGGAAAACCCCGGCCAACGTCCGGCCAAGCCGTTGCCAGGCGAAACCAAGGGTAAACCGGTGGAGGTTTCGCCGCCGTTCCTGGGTGGGAAAAACTGGAACCCCATGGCGTACAGCCAGGACACCGGGCTGTTCTATGTGCCGGGCAACCAGTGGAAGGAGGAGTACTGGACCGAGGAGGTCAGCTACAAAAAAGGCTCGGCCTACCTGGGCATGGGTTTTCGCATCAAGCGCATGTACGACGATCACGTCGGCAGCCTCCGGGCGATGAACCCCACCACTGGCAAGGTGGTGTGGGAACACAAGGAGCCGCTGCCGTTGTGGGCCGGTGTGCTGGCGACCAAGGGCAACCTGGTGTTCACCGGCACCGGTGACGGCTTCTTCAAGGCCTTCGACGCGAAAACCGGCGAGGAGCTGTGGAAGTTCCAGACCGGCAGCGGCATCGTCTCCCCGCCCATCACCTGGGAACAGGACGGCGAGCAGTACATCGGCGTGACCGTCGGTTATGGCGGCGCCGTGCCGTTGTGGGGCGGCGACATGGCCGAACTGACCAAACCGGTGGCCCAGGGCGGGTCGTTCTGGGTGTTCAAGATTCCGAGTTGGGATAAAGCAACGGCGCAGAAATAA	MTIKTLPALSSLSVALLLAGGLSLGPQAHAAVTWEDIANDHLTTKDVLQYGMGTNAQRWSPLAQVNDKNVFKLTPAWSYSFGDEKQRGQESQAIVSDGVVYVTGSYSRVFALDARTGRRLWTYNHRLPDNIRPCCDVVNRGAAIYGDKIYFGTLDARVVALDKNTGKVVWNKKFGDHAGGYTMTGAPVLIKDKASGKVLLIHGSSGDEFGVVGQLFARDPDTGEEVWMRPFVEGHMGRLNGKDSTPTGDVKAPSWPDDKTTETGKVEAWSHGGGAPWQSASFDPETNTIIVGAGNPGPWNTWARTAKDGNPHDYDSLYTSGQVGVDPSTGEVKWFYQHTPNDAWDFSGNNELVLFDYKDKDGKQVKATAHADRNGFFYVVDRNNGKLQNAFPFVDNITWASHIDLKTGRPVENPGQRPAKPLPGETKGKPVEVSPPFLGGKNWNPMAYSQDTGLFYVPGNQWKEEYWTEEVSYKKGSAYLGMGFRIKRMYDDHVGSLRAMNPTTGKVVWEHKEPLPLWAGVLATKGNLVFTGTGDGFFKAFDAKTGEELWKFQTGSGIVSPPITWEQDGEQYIGVTVGYGGAVPLWGGDMAELTKPVAQGGSFWVFKIPSWDKATAQK	PGPT0006870_100	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUBSTRATE_UTILIZATION-OTHERS	PLANT_DERIVED_ALCOHOL_DEHYDROGENASE-CYTOCHROME_C,PGPT0006870-exaA-K00114	NA	NA
D1-35_03393	639	pipB2	COG1357	Secreted effector protein PipB2	ATGAAACCACTGCCCTCGCTGCTTCTGCTCCTCGCCGCCGGTGCCAACGCCGACGACACCCCACTGACCATCAACGGCTGCCTCATCGCCGAATCCAGTCAATGCCCCGGCGCCAACCTGCGGGGCGCCAACCTGGCGAGCCAGGACCTGCGCAAGATGAATCTCGCCGGTGCCGACTTGCGCGAGGCCGACCTGCGTCATGCGCGGCTGGACCTGGCCAACCTTGAGAAGGCGCAGCTCCAGGGCGCCAACCTGAACCGTGCCAGCCTGCAACAGAGCAACCTGCGCCTGGCGGATTTCAGCGGCGCCACGCTCAAGGCAATCCAGGGCTGGGGGCTGTTCGCCCAGGGCGCGCAATTCCAGCGGGCCGACTTGAGCGGTGCCTACCTTCAATTCGCCCGTTTGTCCGGGGCTCGCCTGCACGAGGCCAACCTGCAAGCCGTCGACCTGGAGATGGCCTGGCTGAGCAAGGCCGACCTCAAGGGCGCCGACCTGCGCGATGCCAACCTGCAAGAGGTCAAGCTCGCTGAAAGCAACCTGGAACAGGCCAACCTGAGTGGCTCGCGCCAGCATTACGGGAATTTCCAGGATGCGAATATGCAGGACTGCATCGGCTGCCCCACAAGTTGGGATCACTGA	MKPLPSLLLLLAAGANADDTPLTINGCLIAESSQCPGANLRGANLASQDLRKMNLAGADLREADLRHARLDLANLEKAQLQGANLNRASLQQSNLRLADFSGATLKAIQGWGLFAQGAQFQRADLSGAYLQFARLSGARLHEANLQAVDLEMAWLSKADLKGADLRDANLQEVKLAESNLEQANLSGSRQHYGNFQDANMQDCIGCPTSWDH				NA	NA	NA	NA	NA
D1-35_03394	639	exaE		Transcriptional activator protein ExaE	ATGAGCATCTTGTTGGTGGACGATCACGCTGTGGTTCGGCAAGGTTACGCCAGCCTGTTGCGAGCGTTGATGCCGGAACTGCTGGTGCGCGAAGCGGCCTCGGGCGAAGAAGCGTTGAGCCAGGTGCAGGAACAGGTGCCGAACCTGGTGATCATGGACTTCGGCCTGCCGGGCATCAGCGGCCTGGAAACCACCCGCCGCCTGCGTCAACGCTTGCCGCAACTGCGCGTGCTGTTTTTCAGCATGCACGACGAACTGCCATTGGTGCGCCAGGCGCTGGACGCCGGCGCCGCGGGTTACCTGACCAAAAATTCGGCACCGCAAATATTGTTGGAGGCGGTGCGCCGGGTGCTGGCCGGCCATGCCTATATCGAGCAGACCCTGGCGACCCAACTGGCCTGCGCCAGCACGCGGCCCGATGCGGACCCGCGCCTGCAATCGATGACCCAACGCGAACTGGAGATCTTCGTCATGCTCGCCAGGGGCACCCCGGCGCGGACCATCGCCGAACAGCTGTGCATCAGCGCCAAGACCGTGTCCAACCATCTGACGCTGCTCAAGAGCAAACTGCAGGTCAGCTCCCATGCCGAACTGGTCCACCTGGGAATCGATATGGGTGTGGTGCGGGTGGCTGGGTGA	MSILLVDDHAVVRQGYASLLRALMPELLVREAASGEEALSQVQEQVPNLVIMDFGLPGISGLETTRRLRQRLPQLRVLFFSMHDELPLVRQALDAGAAGYLTKNSAPQILLEAVRRVLAGHAYIEQTLATQLACASTRPDADPRLQSMTQRELEIFVMLARGTPARTIAEQLCISAKTVSNHLTLLKSKLQVSSHAELVHLGIDMGVVRVAG	PGPT0012935_1088	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-VarA|VarS_SIGNALLING_SYSTEM,PGPT0012935-gacA|uvrY|varA-K07689	NA	NA
D1-35_03395	1257			hypothetical protein	ATGTCCGCCCTCTGGCGAATCAACCTCTGGGTCACGGTGTTCTTTGCCCTGGTCGCCGTGGCCTGCGCAACGCTGCTGCTGCACCAGGCCACCGCCGATGTGCAGCGCGAACTGCAATCGGCCGAGTCGGTGGTGCATTACCTGCGCGAAACCGCCGAGCGAGACCCGACCAGCCTGCAATCGCGCCTTACCGGCAGCCTGCGTCACGTGCGGGTGCATTGGCTGGCGCCTGGGGAGAACGCCCCGGCGAACGATCCCGGGTTGCAGGCCTGGCTGGGTCGCCAACTGTTGGCCGACGGCCCGGTTGCGCAGATGGTGGTCCTGCAGGACGGGCGTCGGGCCTGGATCGCTGTCGACCCACGGGATGAAATCGACGAGATCCTCGATTCCCTGGCGCAACTGTTCGGCGTCTGCCTGATGGCACTCTTCGTCAGTTTGCTGGTGATTCGCTGGGCGGTGCGCCGGGGCGTGCGTTTGCTGGATGAATTGCTCCACGCGATGCGCCAGGTGTCCGCCGGGGACTTGCAGGTCAGCCTGCGCACCGAAGGCGTTTCGGAAGCCCAGCAGTTGGCAGAGCATTTCAATCGGATGACCGCCGCGCTGGCCCAGACCCGCGCGGACAACGCCCAGCTGACCCGGGCACTGCTGGCAGTGCAGGAACAGGAGCGCACGCGCTTGTCGCAGACGCTGCACGATGACCTTGGCCAATACGTGGCCGGTATTCGCGCACGGGCCTGTCTGCTGCGCCTGGTCATCCATCAGCCGCCAGCCTTGGAGCAAACGGCAAACGAACTGGAAGAACACTGCGATCACCTGCAAAAAGGCTTTCGCGCGTTGGTCCACGACTTGTATCCGGTGGTGTTGCAGCACCTGCCGTTGTGCGAGGCAATCGGGCTGCTCGCGAGGCAGTGGCAGGACAGACACGGGATCGCCTGTCAGTTGCGAGTCGATGGAGCGTCGCTGTCGATATCCGGGCCTGACAAGGCCCACCTCTATCGCCTGTTGCAGGAAGCACTGACCAACATCGCCCGGCACGCCAACGCCAGTCAGGTACGGATTCGCTTGCAGCACCGCAGCGGCCGCCTGCGCCTGCTGGTGCGCGATAACGGACGTGGCGCGCAGCAACCGGCCCGGGCGGGTGTCGGCCTGCATTCGATGGCCGAACGGGCCCGCAGCCTTGGTGGTGAGCTGCGCATCATCAGCCAGCCCGGCGCCGGGTGGGCGCTGGCCTTGAATATTCCCCTGGAGGTTTCATGA	MSALWRINLWVTVFFALVAVACATLLLHQATADVQRELQSAESVVHYLRETAERDPTSLQSRLTGSLRHVRVHWLAPGENAPANDPGLQAWLGRQLLADGPVAQMVVLQDGRRAWIAVDPRDEIDEILDSLAQLFGVCLMALFVSLLVIRWAVRRGVRLLDELLHAMRQVSAGDLQVSLRTEGVSEAQQLAEHFNRMTAALAQTRADNAQLTRALLAVQEQERTRLSQTLHDDLGQYVAGIRARACLLRLVIHQPPALEQTANELEEHCDHLQKGFRALVHDLYPVVLQHLPLCEAIGLLARQWQDRHGIACQLRVDGASLSISGPDKAHLYRLLQEALTNIARHANASQVRIRLQHRSGRLRLLVRDNGRGAQQPARAGVGLHSMAERARSLGGELRIISQPGAGWALALNIPLEVS	PGPT0017175_805	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_HEXOSE_PHOSPHATE_UPTAKE_SENSING,PGPT0017175-uhpB-K07675	NA	NA
D1-35_03396	258			hypothetical protein	GTGCGGATACTCAAGACGCTGCTGTTGCCGTTGTTGCTGATCCTGAGCCTGATCGGGGTTGACAGGCATAAGACCATCCCTGTGGGAGCGAGCTTGCTCGCGATAGCGGTGGTTCAGCCGACCTTGATGTTGGATGCGCCGCCGTCATCGCGAGCAAGCTCGCTCCCACAGGATGTCGGTGTCCCACAGGATGTCGGTGTCCCACAGAGGGCCGGTGTCCCACACGGGGCCGGTGTAGACAAAGGATCGGGGCGCTAG	MRILKTLLLPLLLILSLIGVDRHKTIPVGASLLAIAVVQPTLMLDAPPSSRASSLPQDVGVPQDVGVPQRAGVPHGAGVDKGSGR				NA	NA	NA	NA	NA
D1-35_03397	1167			hypothetical protein	ATGCGCCGGCTCGCACGTTTTGCCCTGGTTTATCTGCTGGCTACGACCACCGCTCAGGCCGGCGATGCCGTGGCGTTGCAAGTGCGCATCGGCTACCTGGGTTATCGCCCCGATCCCGGCCCGCTGCTGTCCAATGTGATTGCCGAACCCACCGATGCCGGGCTGCGCGGCGCCGAGCTGGCGATTGTCGACAGCAACAGCACCGGACGTTTTCTCAAGCACGACTACCGCCTCGAAAGCGCCAGCGTAGACAGCCCCGAAGCGCTGCTCCAGGCCGCCCGCGCCCAGCACGATCGGGGCCTGCGGCTGTTCGTGGTGAATGCACCCGCTACCAGCCTGCGCCAGCTCAGCGCCGCCCTGCCCGACAGCCTGCTGTTCAACGCCGGCAGCCCCGACGACAGCCTGCGCACCAGCGACTGCCTGGGCAATGTGCTGCACACCCTGCCTGATCGGGCGACACTCGCCGATGCGCTGATCCAGTTCAGCGTTGTGCGCAAATGGCAGCGCGCCTTGCTGATCGTCGGCCAGACACCCGCAGACCAGGCCTACGCCGCCGCACTGCGCCGGGCCATGAAGCGTTTCGGCATGAAGATCGTCGCCGAGAAACCCTGGCAGTTCGACAACGACCAGCGCCGCAGTGCCCAGGCCGACATGCCGCTGTTCACCCAGACCGCCGAATACGACGTGGTGCTGGTGGCCGACGAACGCGGCGATTTTGGCGAGTACGTGCCCTACCAGACCTGGTACCCGCGCCCCGTGGCCGGCACCCAGGGACTGACCCCGACCGGCTGGCACAAGACCGTCGAGACCTACGGTGCGGCGCAGTTGCAAAAACGCTTCGAAGCCTTGGCCGGACGCTGGATGAACGACCGCGACTTCGCCGCCTGGATCGCCGTGCGCAGCATCGCCGCCGCCGTCGGCAAGCTGCGTCAGGATGACCCGTTCGCCATCCGCCAACTGGCCCTCGGCGACCAACTGCCGCTCGACGGTTTCAAAGGCCGCAAGCTCAGCTATCGCCCCTGGAACGGCCAATTGCGCCAACCCATTGCGCTGGTCCAGCCACGCGCCCTGGTCAGTACCTCCCCCCAGGACGGGTTCCTGCACCCCAGCAACGAAATGGACAGCCTGGGCTACGACCAGCCCGAAGTCAGCTGCCGCTACCCCTGA	MRRLARFALVYLLATTTAQAGDAVALQVRIGYLGYRPDPGPLLSNVIAEPTDAGLRGAELAIVDSNSTGRFLKHDYRLESASVDSPEALLQAARAQHDRGLRLFVVNAPATSLRQLSAALPDSLLFNAGSPDDSLRTSDCLGNVLHTLPDRATLADALIQFSVVRKWQRALLIVGQTPADQAYAAALRRAMKRFGMKIVAEKPWQFDNDQRRSAQADMPLFTQTAEYDVVLVADERGDFGEYVPYQTWYPRPVAGTQGLTPTGWHKTVETYGAAQLQKRFEALAGRWMNDRDFAAWIAVRSIAAAVGKLRQDDPFAIRQLALGDQLPLDGFKGRKLSYRPWNGQLRQPIALVQPRALVSTSPQDGFLHPSNEMDSLGYDQPEVSCRYP				NA	NA	NA	NA	NA
D1-35_03398	975			Hydrazine synthase subunit beta	ATGCGCCGCTCCCTGCTTTGCCAGATCCTCGCCTTCGGCGCTGCGTTGATCGCGGCGGGCCCTGCCGTCGCCGCCATCGCCTGGGTCTCCAACGAGAAAGACAACAGCCTGAGCCTGATCGATATGCACAGCCTGGAAGTCGTCGACACCCTGCCGGTGGGCCAGCGCCCTCGGGGTCTGCTGCTGTCCCATGACAATCGCCTGCTGTACATCTGCGCCAGCGATTCGGATCGCGTCCAGGTGATGGACGTTGCCACCCGCAAGATCATCAAGGAGTTGCCCTCCGGCAAGGACCCGGAACAGTTCGCTCTGCACCCCAACGATCGCTGGCTCTATGTCTCCAACGAAGACGATGCCCTGGTCACGGTGATCGACACCCAGACCTCCGAAGTACTCGGCCAGATCGCTGTGGGCGTCGAGCCCGAAGGCATGGCCGTCAGTCCCGATGGCAAGTGGGCGGTCAACACCAGCGAGACCACCAATATGCTGCACTGGATCGACACCAGCACCCAGACATTGGCCGACAACACCCTGGTGGACCAGCGGCCGCGCTTCGTCGAATTCAACCGCGACGGTACGCAGCTCTGGGCCTCGGCCGAGATCGGCGGCACCTTGAGCATTCTCGACGTCGCCACCCGCCAGGTACTCAAGACCCTGACCTTCCAGATCAAGGGCGTGCACCCGGACAAGGTCCAACCGGTGGGCATCAAGCTCAGCGCCGACGGCAAGCTGGCATTCGTCGCCCTGGGCCCGGCCAACCATGTCGCGGTGATCGACGCGCAAACCTTCGAAGTGCTGGATTACCTGCTGGTGGGTCGACGGGTCTGGCAGTTGGCATTCACCCCGGACCAGAAGCAACTGCTGGCAACCAATGGCGTCAGCGGCGATGTCTCGGTGATCGACGTGCAGAGCCGCAAGGTGCTCAAGTCGGTGAAGGTCGGACGTTATCCGTGGGGCGTGGTGGTCACGCCATGA	MRRSLLCQILAFGAALIAAGPAVAAIAWVSNEKDNSLSLIDMHSLEVVDTLPVGQRPRGLLLSHDNRLLYICASDSDRVQVMDVATRKIIKELPSGKDPEQFALHPNDRWLYVSNEDDALVTVIDTQTSEVLGQIAVGVEPEGMAVSPDGKWAVNTSETTNMLHWIDTSTQTLADNTLVDQRPRFVEFNRDGTQLWASAEIGGTLSILDVATRQVLKTLTFQIKGVHPDKVQPVGIKLSADGKLAFVALGPANHVAVIDAQTFEVLDYLLVGRRVWQLAFTPDQKQLLATNGVSGDVSVIDVQSRKVLKSVKVGRYPWGVVVTP				NA	NA	NA	NA	NA
D1-35_03399	732	lnrL	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGAACGCCTTGGAGGTCAGAGACCTGAGCTTTGCCTACGGCGCGCGCGAAGCCCTGCGCCAGATCAGTTTCAGCCTGCCCGCCGGACGCTTCGCCGCGCTGCTCGGGCCCAATGGTGCCGGCAAGTCGACGCTGATTGCCTTGCTGACGCGCCTGTACGACGTGCAACGCGGCGAGATCCGGGTCGGCGGCCACTCGTTGCAGGGCGCGCCACGCCAGGCCTTGCGCCAGTTGGGGGTGGTGTTCCAGCAAAGCACCCTGGACCTGGACCTGAGCGTCGAACAGAACCTGCGTTATCACCTCGCGCTGCACGGCTTTGCCCGGCGCCAGGCCGACGTCCGGATTGAGCTCGAACTGGCTCGCCAGCACCTGACCGAACGGCGTCACGAGCGGGTGCGCAACCTCAACGGCGGGCATCGGCGCCGGGTGGAAATTGCCCGCGCGCTGCTGCACGAGCCGCGCCTGTTATTGCTCGATGAGCCGAGTGTCGGCCTCGATCCGGCCAGCCGTCAGGCCCTTGGAGAGCATATCCGCCAACTGTGCCGCGAACAGGGCATCAGCGTGCTCTGGACCACGCACCTGCTGGACGAAGTGCAGCCCTTTGACGACTTGCTGATCGTGCATCAGGGGCGGCTGGTCGCCAGCGGTCGCGCCGAGGCGGTGAGCCTGGAACATGGCGGCAGCCTCGGCTCGGCCTTCGATCGATTGACCACCCCGGGAGTGGCCGCATGA	MNALEVRDLSFAYGAREALRQISFSLPAGRFAALLGPNGAGKSTLIALLTRLYDVQRGEIRVGGHSLQGAPRQALRQLGVVFQQSTLDLDLSVEQNLRYHLALHGFARRQADVRIELELARQHLTERRHERVRNLNGGHRRRVEIARALLHEPRLLLLDEPSVGLDPASRQALGEHIRQLCREQGISVLWTTHLLDEVQPFDDLLIVHQGRLVASGRAEAVSLEHGGSLGSAFDRLTTPGVAA	PGPT0006725_24796	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-35_03400	792			hypothetical protein	ATGAATGCGTATTGGCAATGTTTCAGCGGCATCGTGATGCGCGAATGGCTGCGCTTCGTGTTGCAACGCACGCGGTTGCTCAGTGCCCTGGTACGGCCGTTGTTATGGCTGCTGGTGTTCGCCGCCGGCTTCCGGGCCGCCCTGGGCATTGCGATCATTGCGCCCTACGACACCTACATTCCTTATGAGGTGTACATCGTGCCGGGGCTGGCCTGCATGATCCTGCTGTTCAACGGCATGCAGGGCTCACTGTCGATGGTCTATGACCGGGAAATGGGCAGCATGCGCGTACTGCTCACCAGCCCCCTGCCCCGGGCCTTCCTGTTGGCGAGCAAGTTGCTCGCGACTTCGCTGATCTCGCTGATGCAGGTCTATGCCTTTCTCGCCATCGCCTGGTTGTATGGCGTCCAGCCTCCAGCCACGGGCTTGCTGCTGGCGCTTCCGGCGTTGCTGCTGGTGGCCTTGATGCTCAGTGCCCTCGGCTTGTTGCTGTCCAATGCGATCCGCCAGTTGGAGAACTTCGCCGGGGTGATGAACTTCGTCATCTTCCCGATGTTTTTCCTGTCTTCGGCGCTGTACCCGCTGTGGAAAATGCTCGAGGCCAGTCCGTGGTTGTACTGGCTGTGCGCGGTGAACCCGTTCACCCACGGCGTGGAGCTGGTGCGCTTCGCCCTGTATGGGCAATTCAACCTGCTGGCGATGGCCATGTGCGTGGGTCTGAGCCTGGTGTTTGCGTTGCTGGCGGTGTGGACGTTCAATCCGCAGCATGCGGCATTGCGCAAGGCGAGTTGA	MNAYWQCFSGIVMREWLRFVLQRTRLLSALVRPLLWLLVFAAGFRAALGIAIIAPYDTYIPYEVYIVPGLACMILLFNGMQGSLSMVYDREMGSMRVLLTSPLPRAFLLASKLLATSLISLMQVYAFLAIAWLYGVQPPATGLLLALPALLLVALMLSALGLLLSNAIRQLENFAGVMNFVIFPMFFLSSALYPLWKMLEASPWLYWLCAVNPFTHGVELVRFALYGQFNLLAMAMCVGLSLVFALLAVWTFNPQHAALRKAS	PGPT0006730_15822	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-35_03401	534			hypothetical protein	ATGCCCCGTTTGCTCGCGATCGTCTTGCTGGGCCTGTCGCTGAATGTCGCGCAGGCCGACACCTCGCTGTTTTCCCCGCAGGGCTTTCGCATCACTCAATACCGCAGCCCGACGCCCGCCTCCGCAGACAGCGCGCAAACCGTCGACACCGAAGCCTTGCAGCGCCTGCTAAAGCAAACGCCCGCGCCAGTGCTGATCGACGTCTACCGCCGGCCCTGGGTCCAGGGCCGGTTCATCGACACCGAACCCCATGCCAACCTGCCCGGCAGCTTGTGGCTGGCCAACACCGGCGACGGCGAACTGGACGCGACCTGGCAGGACTACTTCACGTTTTACCTGCGCAAAGCCACCGCCGGCCAGGCCGATCAACCGCTGGTCTTTTACTGCCGCTCCGATTGCTGGTTGAGCTGGAACGCGGTAAAACGCGCCGCCGCCTTGGGCTATAAACATCTGTATTGGTACCGCGACGGCCTGGATGCCTGGGAGGCGGCCAACCTGCCCCTGCAAGCGGCCCGCCCCGAACCCTTGCCCTGA	MPRLLAIVLLGLSLNVAQADTSLFSPQGFRITQYRSPTPASADSAQTVDTEALQRLLKQTPAPVLIDVYRRPWVQGRFIDTEPHANLPGSLWLANTGDGELDATWQDYFTFYLRKATAGQADQPLVFYCRSDCWLSWNAVKRAAALGYKHLYWYRDGLDAWEAANLPLQAARPEPLP				NA	NA	NA	NA	NA
D1-35_03402	666	degU_2	COG2197	Transcriptional regulatory protein DegU	ATGTATAAAATCCTGATAGCCGACGATCACCCACTGTTTCGCGAAGCCATCCACAACGTCATCAGCGACGGTTTCGCCGGGAGCGAGGTGATGGAAACCGCTGACCTGGACAGCGCCCTGGCGCTGACTCGCGAACACGATGACCTCGACCTGATCCTGCTCGACCTGAACATGCCCGGCATGCACGGCCTCAATGGCCTGATCAACTTGCGCAACGAGGCACCGACTATCCCGGTGGTGATCGTGTCCGCCGAGCAGGACAAGCAGATCGTCCTGCAGGCCATCACCTATGGCGCGGTGGGTTTTATCACCAAGTCGTCGCCGCGCGCGCAGATGACCGACGCCATCGAGCAGATCCTCAATGGCAACGTGTACCTGCCGCCAGACATCATCCGCACCCAGAAGAGCCCGACGGGCCGGCGCCTGAACGAGACCCCGGCGTTCCCGCCGGAACTGCTCCAGGCCTTGACCCGCAAGCAATTGCTGGTGCTCGAACGCATGACCAAAGGCGAGTCGAACAAGCAGATCGCCTACACGCTGGACATCGCCGAAACCACGGTCAAGGCCCACGTCTCGGCGATCCTGCGCAAGCTCAACGTGCATAACCGGGTGCAGGCGATTCTCAGTGCGGGGGATATCGATTTCGGGGCTTACCTGCGGCGCTAA	MYKILIADDHPLFREAIHNVISDGFAGSEVMETADLDSALALTREHDDLDLILLDLNMPGMHGLNGLINLRNEAPTIPVVIVSAEQDKQIVLQAITYGAVGFITKSSPRAQMTDAIEQILNGNVYLPPDIIRTQKSPTGRRLNETPAFPPELLQALTRKQLLVLERMTKGESNKQIAYTLDIAETTVKAHVSAILRKLNVHNRVQAILSAGDIDFGAYLRR				NA	NA	NA	NA	NA
D1-35_03403	2604	rcsC_13		Sensor histidine kinase RcsC	TTGCCCGTCATCGCGTCCCCGGTCATCGCTGAACTGCAGGCACAGATCGCCGCCCTGCAACACGACAACCACAAGCTGCGGCGCATAAACGCGGCGCTGATCGAGCGGGTCGAATCCGGCGTGACCCGTGGCAGCGACCCGTACGCAGCGTTCCAGCATTCGGTGGTGCTGGCCGAACAGGTCCGCGAGCGCACCGACGCCTTGAACCAGGCGATGGCCGAGCTCAAGGCCGGCAACCATCTTCTGGGCGAAGCCCGGCTGCGGGCGGAAACCGCCCATCGCCATCTGATCGATGCGATCGAGAGCATTTCCGATGCGTTCGTGCTGTTCGACGAACAGCAACGCATCGTCCTCTTCAACAGCCGTTTCAAGGCGTTCTGGGCTCACAGCCGGGTGCGGATCATCGCGGGGATGCGCCTTGGCGAGGTCAAGCGCCTGATGACCGCCAATGGCCTGTTCAGCGAAGAAACCCGCGGCCAGCCCGATGAGCCGGTGTTGTACCGATTACAGAACGGCCGCTGGCTGCAGGTCAGTGAACGGCCGACCCAGGAAGGCGGGCGGGTCTTCCTGTTTACCGATATCACTGACGTCAAACTCAGCGAAACCGTACGCCGTGAGCAAGCCATCGCGCAGAAATCCCACTTGCTGCAGCGCGCGGTGGACAACCTGTCCCAGGGCGTAGCGATGGTCAATGCCCAGGGCATATTGGAATTGTGGAACCGGCGCTTCCTGGAACTCAGCGGCCTGGCGCCGGTGGCGGCTCATCGGCCATTCATCGAGGTGATCGCCGACAGTGAGCTGCAACTGCTTACGCCGGCCAGTCGCGACGGCAATGGGCGGTTGATCCAGGAGTGCGAACAGCGCCTGTCCGATGGCCGGGTCCTGGAGATCCGAACTCATCCGCTGCCGACCGGCGGCTACGTCAATACCTTCACTGACATTACCGAGCGCTACCAGCATGCCGAGGCACTGAGCGAAAGCGAGCGCTGGATCCGCTTGATCACAGATCACGTACCGGCACTGATCGCCTACCTCAACGCCGACCTGGTCTACGAATTCACCAACAAGGTCTATGAGCAGTGGTATTGCTGGCCGCGGGGCGTGATGCTCGGCCAAAGCCTGCGCGAAGCCCACAGCGAGCAGCATTACCAGCGCCTGGAAGCCTACGTGGCCCGAGCGTTGGCCGGGGAGAGCGTGACCTTCGAATTCGCCGAGACCAACATCAACAACCAGGAGCGCTACATGCTGCGCTCCTACGTGCCCAATCGGCTGGCCAACGGCGAGGTGGTGGGCATCTTCGTGCTGATCCGCGACATCACCGAACGTCGCCGCACCGCCGAGGCCCTGCATCAGGCCTACCAGAATCTGGAGCAGCGCGTGCAGGAGCGCACGGCCGAGCTGACCACGCTCAACGACCAGTTGCTACGCGAGATCGACGAACGCAGCCGGGTCGAGCTGCGCCTGCGCGAAGCCAAGCGCGAGGCCGAGCGGGCCAACCTGTCGAAAACCAAATTTCTCGCCGCGGTCAGCCATGACCTGCTGCAACCGTTGAACGCGGCGCGGCTGTTCACCAGCGCCTTGCTCGAACGCCGCGAACCGGTGGCGAACGCGCAACTGGTGCGCAACGTCAGCAATTCGCTGCAGGACGTGGAAAACCTGTTGGGCACCCTGGTCGATATTTCCAAGCTGGATGCCGGGGTGATCAAGGCCGATGTGGCGCCGTTCGCCCTCAGTGAGCTGCTCGACACCCTGGCCGCCGAATACCTTCAGGTTGCGCGTAGCGAGGGCCTGGCGTTGCGCTTCGTGCCTTGTTCGGTGCTGGTGCGCAGCGACATTCAGTTGCTGGCGCGGATCCTGCGCAACCTGTTGAGCAACGCCATTCGCTACACCCCCAGCGGGCGGGTGGTCCTGGGTTGCCGGCGTCACGGTAACCGTGTCTCGATCGAAGTCTGGGATTCCGGTATCGGCATTGCCCAGGATCGGCTGGAGGAAATCTTCCAGGAATTCAAGCGTGGGGACGTCCAGCGCCCTGACCAGGATCGCGGACTCGGCCTGGGATTGGCGATCGTCGAGAAGATCGCCGGGATTCTCGGGCATCCGATCAAGGTCCGCTCCTGGCCGGGCCAGGGCTCGGTGTTCGCCATCGAGGTGCCGCTCAGCGCTACCGCACCCAAGCCGCTGGCGTGCCTGGATATGAGCGAGCCGATGCTCGAACGCCTGCGTGGCGCGCGGGTCTGGGTGCTGGACAACGACGCGGCGATCTGTGCCGGCATGCGCACCTTGCTCGAAGGTTGGGGCTGCCGCGTGGTGACTGCACTGTCGGAACAGGACCTGGCACGCCAGGTGGACAATTACCGCGCCGAGGCGGATTTGCTGATTGCCGACTATCACCTGGACCACGATCAGAATGGCATGGACGCGGTGGCCCGGATCAACGCCTGCCGCACCTCACCGATCCCGGCCATGATGATCACGGCCAACTACAGCAACGAACTCAAGCAGCAGATCCGCGAGCGCGGGCACACGCTGATGCACAAGCCGGTGCGGCCGATGAAGCTGAAGATTGCGATGAGTCATTTGTTGGGCCAAACCCAGGTTCGGTGA	MPVIASPVIAELQAQIAALQHDNHKLRRINAALIERVESGVTRGSDPYAAFQHSVVLAEQVRERTDALNQAMAELKAGNHLLGEARLRAETAHRHLIDAIESISDAFVLFDEQQRIVLFNSRFKAFWAHSRVRIIAGMRLGEVKRLMTANGLFSEETRGQPDEPVLYRLQNGRWLQVSERPTQEGGRVFLFTDITDVKLSETVRREQAIAQKSHLLQRAVDNLSQGVAMVNAQGILELWNRRFLELSGLAPVAAHRPFIEVIADSELQLLTPASRDGNGRLIQECEQRLSDGRVLEIRTHPLPTGGYVNTFTDITERYQHAEALSESERWIRLITDHVPALIAYLNADLVYEFTNKVYEQWYCWPRGVMLGQSLREAHSEQHYQRLEAYVARALAGESVTFEFAETNINNQERYMLRSYVPNRLANGEVVGIFVLIRDITERRRTAEALHQAYQNLEQRVQERTAELTTLNDQLLREIDERSRVELRLREAKREAERANLSKTKFLAAVSHDLLQPLNAARLFTSALLERREPVANAQLVRNVSNSLQDVENLLGTLVDISKLDAGVIKADVAPFALSELLDTLAAEYLQVARSEGLALRFVPCSVLVRSDIQLLARILRNLLSNAIRYTPSGRVVLGCRRHGNRVSIEVWDSGIGIAQDRLEEIFQEFKRGDVQRPDQDRGLGLGLAIVEKIAGILGHPIKVRSWPGQGSVFAIEVPLSATAPKPLACLDMSEPMLERLRGARVWVLDNDAAICAGMRTLLEGWGCRVVTALSEQDLARQVDNYRAEADLLIADYHLDHDQNGMDAVARINACRTSPIPAMMITANYSNELKQQIRERGHTLMHKPVRPMKLKIAMSHLLGQTQVR	PGPT0025850_87	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_REGULATORS	CE-QSR-QUORUM_SENSING_REGULATED_FLS,PGPT0025850-PA1979-K20975	NA	NA
D1-35_03404	1164			hypothetical protein	ATGCAGCAGGCCCAGAGCGAAGGTGTGGTCAGCGCCATGTCCCAGGCAACGGACGTCGAGCAAGTGGCCCAGGAATTGGCGCGACAGCTGTTGCATCCGTACCTGGGTTTCGTGCTGTTTTTCTGTTCCGCCGAATACAACTTGCCGGCCCTGGGCCAGGCGCTGTCACGCAGTTTCGGCGGGATTCGCCTGGTCGGTTGCACCAGCGCCGGGGAAATCACCCCGCAGGGCTACGGTCGCAACTGCGTGACGGCGGTGGGGTTCGATCATCGGCATTTTTCCATTGCCGCCGAGCTGATCGGCGAGATGGAGCACTTCAGCCTGATCGACGCCCAGCAGATGGTCGAGCGACTGGCCGGTGGCTGTCGCAGCAACGTCCTGGCGCCGATCAAGGGCCACAGTTTTGCCTTGACCTTGCTCGACGGCCTGTCCAGTCGCGAGGAAATGGTACTGGCCGCGTTGAGCGCAGCCTTGGGCGACATCCCGCATTTCGGTGGCTCGGCCGGCGATGACAATTACCTGACCCACACCCACGTCTACTTTGAAGGCCAGTTCCACAGCGGCGCCGCCGTGGTGGTGCTGATCAATACCTGGCTGGAGTTCGAGGTGTTCACCACCCATCACATCCTGCCTCGCCAGGAGAAGCTGGTGGTGACCGGCGCCGACAGCGCCTCGCGACGGGTCTACGAACTCAATGCCGAACCCGCCGCCGAAGAATACGCCCGGCATATCGGTGTGCCGGTCAGCGCGCTGGATTACCGGATATTTGCCGCCCACCCACTGGCCGTGCGCATCAACGATCAGTACTACGTGCGGGCGATCCAGCAGGTCCACTCGGACCTGAGCCTGACTTTTTATTGCGCCGTAGAGAACGGCATCGTGCTCACGGCCATGCGCCCGGGGCCTCTGCTGCATAACCTGCAAGCGCTGTTTGACGGCTTGCAGGAGCGCCTGGGTGACCTGTTGTTGACCATCGGCTGCGACTGCTTCCTCAGGCGCCTTGAGCTGGAAGACAGCGCTGGCCTGGAGCAGATCGGCCAGTTCCTGCGCGAACAACGGGTGATGGGGTTCAACACCTATGGAGAACAGTTCAATGGCATGCACATCAACCAGACCTTCACCGGAGTTGCCATTGCCCGTCATCGCGTCCCCGGTCATCGCTGA	MQQAQSEGVVSAMSQATDVEQVAQELARQLLHPYLGFVLFFCSAEYNLPALGQALSRSFGGIRLVGCTSAGEITPQGYGRNCVTAVGFDHRHFSIAAELIGEMEHFSLIDAQQMVERLAGGCRSNVLAPIKGHSFALTLLDGLSSREEMVLAALSAALGDIPHFGGSAGDDNYLTHTHVYFEGQFHSGAAVVVLINTWLEFEVFTTHHILPRQEKLVVTGADSASRRVYELNAEPAAEEYARHIGVPVSALDYRIFAAHPLAVRINDQYYVRAIQQVHSDLSLTFYCAVENGIVLTAMRPGPLLHNLQALFDGLQERLGDLLLTIGCDCFLRRLELEDSAGLEQIGQFLREQRVMGFNTYGEQFNGMHINQTFTGVAIARHRVPGHR				NA	NA	NA	NA	NA
D1-35_03405	1185			hypothetical protein	ATGCACAACAATAAGAATACCTGCCTGCGTTTTTTGCCTGCGGTCATCGCCGGCCTGTCGAGCCTGGGCCTGACGCCTTGGGCGCAAGCCGAAATCATGCTGTACGACAAGGACCAGACCACTTTCTCCACCGATGGCTACATCAACGCCTTCTACGTCAACAGCGACGTGGACCGGGCGGGGGAGCAGTTCGACCGGCGCCAGTCGCGGGTCAAGATGGGCTTTTTGCCCAACTACCTGGGATTCAACATGGGCAAGCAGGTCGATGACCTCAAACTCGGCGCCCGCGCCTCGTTCTGGGTGACCATCAATGACAGCGAAACCAACGGCACCGACACCGCCATCGACGTGCGGCAGTTCTACGGCACCGTCGCCAATCCGGAGTGGGGCGAGGTGCTGATCGGCAAGGACTTCGGCCTGTTCGCCCGCTCCAACATCTTGCTTGATGAGTTGCTGGCCGGTTACGGCCAGGTCAGCGACACCCTCGGCCTGGTGGATGGCGGCGGGGTGTCGTTCGGCAATATCGGCAGCGGCTACCCATACCCGTTCCCGACTTCGCAGATCACCTATCGCACTCCGGTGATGGACGGGTTGCGTGTGGCGGTGGGCATCATGGACCCGGTGGACACCAACGACAGCAGCGCCACCGGCAAGGCCTACCAGGAAAACCCGCGTACCGAGAGCGAGGTCACCTATCAGTTCGATCTCGGCGGGGCGAAAATCTACAGCTGGCTGAACGGCAGCTACCAGACCTCGGATAACACCGATACCAATGTCGAATCGGTCACCTCCAAAGGCCTGGGTTATGGCGTGCAAGCGAAGATGGGCGGGCTCTCGCTCACCGGCTCCGGGTTCCAGGCCAAGGGCATCAACCCGTTTTTCACCAATAACGCCGGCGAGGCCACGCTGCGCAACGTCGATAGCAAGGGATATCTGCTGCAGGGTTCCTACAAGCTCGGCAAGAATCGCCTGGCGCTGTCCTACGGCAAGACCGAGGACGACGGCAACGGAGTGGTCGGCAGTGGCGCCGACTACGAGACTCGCGGTGTCGCGCTGTTTCATGACATCAACGACAACCTCAAGCTCGTCGCCGAATACAACCAGTTCGAAATCAACGGCCACGACACCAGCGCACAGAACGAAGACACCGACACCTTCGCGGTGGGGGCCGTGCTGACCTGGTAA	MHNNKNTCLRFLPAVIAGLSSLGLTPWAQAEIMLYDKDQTTFSTDGYINAFYVNSDVDRAGEQFDRRQSRVKMGFLPNYLGFNMGKQVDDLKLGARASFWVTINDSETNGTDTAIDVRQFYGTVANPEWGEVLIGKDFGLFARSNILLDELLAGYGQVSDTLGLVDGGGVSFGNIGSGYPYPFPTSQITYRTPVMDGLRVAVGIMDPVDTNDSSATGKAYQENPRTESEVTYQFDLGGAKIYSWLNGSYQTSDNTDTNVESVTSKGLGYGVQAKMGGLSLTGSGFQAKGINPFFTNNAGEATLRNVDSKGYLLQGSYKLGKNRLALSYGKTEDDGNGVVGSGADYETRGVALFHDINDNLKLVAEYNQFEINGHDTSAQNEDTDTFAVGAVLTW				NA	NA	NA	NA	NA
D1-35_03406	1275	gudD_2	COG4948	Glucarate dehydratase	ATGAAGATCAAACGCGTTACCGTGACCCCCATCGCTTTTCGCGATCCACCTTTGCTCAACGCCAGCGGCATTCATGAGCCGTTCGCGCTGCGCTCGATCATCGAGATCGAAAGCGACAACGGTTACATCGGCCTCGGCGAGAGTTACGGCGATGCGCCGGCCCTGGCGATCCAGCAGCAGGTACAGAGCCAGTTGATTGGCCTCGATCCGTTCAGTCTCAACCAGTTGCGCGCTATCGTCCAGGCCACCGTGGCTGCCCACAAACCGGCGAGCGTCGCCGGGGCGGAACTGGCGCCGGGCTCCCATGCGAGCAAGGCGGTGAGCAATGCCTATTCCGCTTTCGAAGTCGCTTGCCTGGACTTGCAGGCGCATTACCTGAATGTGCCGCTGGTGGATTTGCTGGGCGGTGCGATCCGCGACGAAGTGCCGTTCAGCGCCTACCTGTTTTTCAAATACGCCGAGCATATCGATTCACCGTATCCCGCGGACAGTTGGGGCGAAGCGCTGAATGAGCAGCAGATCGTCGCCCAGGCCCGACGGATGATCGACGAGTACGGTTTCAAGAGCATCAAGCTCAAGGCCGGGGCATTGGAGCCGGAGCATGAAGTGGCCTGCATCAAGGCCTTGAAACAGGCTTTTCCTGGCTTGCCGCTGCGCATCGATCCCAATGGCAACTGGTCGCTGGAGACCTCTATCCGCATGGCCGAGCTGCTCGGTGATGACCTGCAATATTACGAAGACCCCACGCCCGGGCTCGAAGGGATGGCCGCGCTGCACAAGCGCACGGGATTGCCGCTGGCGACGAATATGGTGGTCACCGACTTCGACGAATTCCGCCGCAGCGTGGCGCAGGACAGCGTGCAGATTGTCCTGGCTGACCACCATTACTGGGGCGGGCTGCGCGATACCCAGATGCTCGCGAAGATGTGCGAGACCTTTGGTCTGGGCGTGTCGATGCACTCCAACTCGCACCTGGGCATCAGCCTCATGGCCATGGCCCACGTGGCGGCTTCGGTGCCGAACCTGGACTACGCCTGCGATACCCATTACCCCTGGCAGGAACCGGATGAAGAAGTGATCAAGGGCGGCAAGCTGGCATTTGTCGACGGTTGCGTGAAGATCACCCGGGCGCCGGGCCTTGGCCTGGAGCTGGACCGCGATCAACTGGGCAAGCTGCATGAGCAGTTCCTCAGTTGCGGCATTCGCCAGCGCGACGATGTGCGGCAGATGCGGCGCTACCGGCCGGACTGGACCACGGTCAAACCGCGGTTCTAA	MKIKRVTVTPIAFRDPPLLNASGIHEPFALRSIIEIESDNGYIGLGESYGDAPALAIQQQVQSQLIGLDPFSLNQLRAIVQATVAAHKPASVAGAELAPGSHASKAVSNAYSAFEVACLDLQAHYLNVPLVDLLGGAIRDEVPFSAYLFFKYAEHIDSPYPADSWGEALNEQQIVAQARRMIDEYGFKSIKLKAGALEPEHEVACIKALKQAFPGLPLRIDPNGNWSLETSIRMAELLGDDLQYYEDPTPGLEGMAALHKRTGLPLATNMVVTDFDEFRRSVAQDSVQIVLADHHYWGGLRDTQMLAKMCETFGLGVSMHSNSHLGISLMAMAHVAASVPNLDYACDTHYPWQEPDEEVIKGGKLAFVDGCVKITRAPGLGLELDRDQLGKLHEQFLSCGIRQRDDVRQMRRYRPDWTTVKPRF	PGPT0018180_898	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018180-gudD-K01706	NA	NA
D1-35_03407	1386	abaQ_1		Quinolone resistance transporter	TTGAATCACGTATCGGACTCGACCCTGGCCACCGCCGCGGCCAAGGTCAAACGTCACGTCCTGCCGTTGGTGGTGGTGATGTTCATCGTCAACTACATCGACCGCGTCAACATCGGCTTCGTCCGCAGCCATCTGGAAACCGACCTGGGCATTGGCGCAGCAGCCTATGGCCTCGGTGCCGGGCTGTTCTTCATCGGCTACGCGCTGTTCGAGGTGCCGTCCAACATGCTCTTGCAGCGCTACGGCGCCCGGGCCTGGCTGACGCGCATCATGTTCACCTGGGGCGCGGCGGCCATGGCCATGGCGTTCGTGCGTGGCGAAACCAGTTTTTATGTGTTGCGCTTCATTCTGGGCGCGGCGGAGGCGGGCTTCTTCCCCGGCATCATCTATTACTTCACCCAATGGTTGCCGTCCAACGAGCGCGGCAAGGCGATGGCGATCTTCCTCAGCGGTTCGGCGATCGCCTCGGTGATTTCCGGCCCGGTATCCGGCGCCTTGCTGCACATCAGCGGGCTGGGCCTGCATGGCTGGCAATGGATGTTCCTGATCGAAGGGGGCGCGTCCATCGTGCTGTGCGGGTTTGTCTGGTTCTGGCTGCAATCGCACCCCAGCCAGGCCAAATGGCTGACCGCTGAAGAAAAAACCGTGTTGATCGCCGCCATCGCCGAAGAGCAGCGGGCGCGGGAAGCCGCCCAGGTCATCAAGCCTTCAATGTTCAAATTGCTCGCCGACCGGCAGATCGCGCTGTTCTGCTTCATCTATTTTTCCATCGCCCTGACCATTTATGGCGCCACGTTCTGGCTGCCGAGCATGATCAAGAAAATGGGCAACCTGGGGGATTTCCAGGTCGGCTTGCTCAACTCGATTCCGTGGATCATCTCCATCGTCGCGATGTACGGCTTCGCTGCCCTGGCCGGCAAGTGGAAGTTCCAGCAGGCCTGGGTCGCGGTGACGCTGGTGATCGCCGCGTTCGGCATGTTCATGTCCACCACCGGCGGGCCGATCTTCGCCTTCGTCGCCATCTGTTTCGCGGCCATCGGCTTCAAGGCCGCCTCGGCGCTGTTCTGGCCGATCCCCCAAGGCTATCTCGACGCCCGCATCGCGGCGGCCGTGATTGCCTTGATCAATTCCATCGGCAACCTCGGCGGCTTCGTCGCCCCGACGGCCTTCGGATTCCTGGAGCAGACCACCGGTTCCATCGAAGGCGGCCTGTATGGGTTGGCGATCACCTCGCTGGTTGCCGCCGTGGTGATCTTTTTCGCCCGGACCCAACCGGGGCGCGGCAAACCTGACGCGCTGTCCGGCCAGCCTGAACACTCGGTCGAAGCTGACCTGCTGAACAAATCTCAAGCCCTGAAACCTGGCCCATCGGGAGCCGCTGCATGA	MNHVSDSTLATAAAKVKRHVLPLVVVMFIVNYIDRVNIGFVRSHLETDLGIGAAAYGLGAGLFFIGYALFEVPSNMLLQRYGARAWLTRIMFTWGAAAMAMAFVRGETSFYVLRFILGAAEAGFFPGIIYYFTQWLPSNERGKAMAIFLSGSAIASVISGPVSGALLHISGLGLHGWQWMFLIEGGASIVLCGFVWFWLQSHPSQAKWLTAEEKTVLIAAIAEEQRAREAAQVIKPSMFKLLADRQIALFCFIYFSIALTIYGATFWLPSMIKKMGNLGDFQVGLLNSIPWIISIVAMYGFAALAGKWKFQQAWVAVTLVIAAFGMFMSTTGGPIFAFVAICFAAIGFKAASALFWPIPQGYLDARIAAAVIALINSIGNLGGFVAPTAFGFLEQTTGSIEGGLYGLAITSLVAAVVIFFARTQPGRGKPDALSGQPEHSVEADLLNKSQALKPGPSGAAA	PGPT0002325_422	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-ORGANIC_ACID_METABOLISM	P-SOLUBILISATION-TARTARIC_ACID_TRANSPORT,PGPT0002325-ttuB-K13021	NA	NA
D1-35_03408	897	hcaR_1		Hca operon transcriptional activator HcaR	ATGTTTGAACTGGCCCAACTGCGCTGCTTCACCACAGTGGCAACCGAACTGAATTTCCGCAGGGCCGCCGAACGCCTGAACATGACCCAGCCGCCCCTGAGTCGACAGATCCAGTTGCTGGAGCATCACCTCGGCGTCGAGCTGTTTACCCGCAGCACCCGCAGCGTCGCCCTCACCGCAGCCGGCCGGGCATTTTTCATCGAAGCGCAGAACCTGCTGCAACAGGCGCAACAAGCCGCCGAGGCCGCCAAGCGTTTTGCCCAGGGCGACATCGGCTCGGTCACCATCAGCTTCGTCGGCAGCGCGGTGTATGAATTCCTGCCCAAAGTCATTGCCGAGGCGCGGCTCAAACAGCCACAGGTCAAGATCGTCCTCGCGGAGATGAACACCTACCAGCAGCACGAAGCCTTGCGCGCCCGGCGCATCGACCTCGGCATCGTTCGTTCGCCGTTGCTGGAAACCGGCTACGCGACCGAATGCCTGGTACGCGAGCCGTTCGTCCTGGCCGTGCCGGCCGGCCATCCGCTGGCCAGCGCCGAGTCTGTCAGCGTGCAGGATCTGGACGGGCAACCGTTCCTCATGTACTCCCACTCCGCCTACCCGCCCTTCAACGAACTGCTCACCGGCATGCTGCGCTCGGCCCGCGTCGCCCCGCAGTTCGTGCAATGGCTCGGTTCATCGCTGACCATCCTGGCACTGGTCAACGCCGGCATGGGCGTGGCGCTGGTGCCCCGGTGCGCGACCAGCGTGGTGTTCAAGCAAGTGGTGTTTCGCGAGATCGACCTGGGCGAAGGCGTGCAAAGCGAACTGCATCTGGTGTGGCGGGAGGATAACGACAATCCGGCGTTCACGATGCTGTTGGAGGGGATTCGCGGGGCGGTTCGGGAGGGGTTGTAA	MFELAQLRCFTTVATELNFRRAAERLNMTQPPLSRQIQLLEHHLGVELFTRSTRSVALTAAGRAFFIEAQNLLQQAQQAAEAAKRFAQGDIGSVTISFVGSAVYEFLPKVIAEARLKQPQVKIVLAEMNTYQQHEALRARRIDLGIVRSPLLETGYATECLVREPFVLAVPAGHPLASAESVSVQDLDGQPFLMYSHSAYPPFNELLTGMLRSARVAPQFVQWLGSSLTILALVNAGMGVALVPRCATSVVFKQVVFREIDLGEGVQSELHLVWREDNDNPAFTMLLEGIRGAVREGL				NA	NA	NA	NA	NA
D1-35_03409	432			hypothetical protein	ATGAAAAAAGCGCTATCGGTCATCGGTTTCCTGTGCCTGTTCAGCGGCTACGCCGCAGCCGCCCCCGCCTCGGCTGAAAAAGAGGTTGCCGAAGCGGTCGACCACCTGACCCAGGCCATGCTGCACAAGGACATTCCCCAGCTTCAGGCGCTCGCCGCCGAGAACCTGACTTACGGCCATTCCAGCGGCAACATCCAGGACAAGAAAGCCTTCATCGCCGACATCGAAACCGGCAAAAGCGCGTTCAAGACCCTGGAGATGAAGAATCAGAAAATCACCCTGTCAGGCGATGTGGCCCTGGTGCGCAATCATTTTTCCGCGCAAGCACTCAAGGGCACCGAAGTGATCCCGACGGAAATCGAGAACTTCCAGATCTGGCAGAAGCAGAATGGGAAGTGGCTGCTGATCGGGCGTCAGGCGTTTCGGTTCTGA	MKKALSVIGFLCLFSGYAAAAPASAEKEVAEAVDHLTQAMLHKDIPQLQALAAENLTYGHSSGNIQDKKAFIADIETGKSAFKTLEMKNQKITLSGDVALVRNHFSAQALKGTEVIPTEIENFQIWQKQNGKWLLIGRQAFRF				NA	NA	NA	NA	NA
D1-35_03410	924	pgrR_6		HTH-type transcriptional regulator PgrR	ATGAAGCGGCATTTCGAAGATTTGCAATTGGGCAGCATCGAATTGTTCTGCCTGGCGGCCGAGGCGGGCAGCTTCACGGCGGCCGCCCAGGTGGCCGGGGTGACTCCGGCGGCGGTGAGCCGGTCAATCTTTCGCCTGGAGGAGCGCCTGGGTTCGCGGCTGTTCGTGCGTACCACTCGAAGCATCCGGCTGACCGATGCCGGCCGGACCTTTTTTGAGCAATGTCGCCAGGCGTTGACGCAACTGGTCGAGGCGCAACAGGAAGTGATGGGCGCGCAAACGGTGCCGTCCGGGCAACTGCGCATCAGCGTGCCCACGACTTACGGTCATCATCGCATCCTGCCGCTGCTGCCGGCATTTCGCGCGTTGTACCCGCAGGTCAGCGTGGATGTCCACCTGAGCAACCGCAACATTGACTTCGTTGCCGAAGGTTATGACCTGGCGATACGGGTACGCGCCCAGCCGGATTCTTCGATGATCGCCCGGTTGCTGGAGGACGCCGGGTTGGTGGTGGTTGCGTCCCCGGAGTACCTGCAACGGGCCGGCACGCCGCTCACCCTGGAAGACCTCGACTTACACGAATGCATCCAGTTCGAACTGCCCAGCAGCGGACGGCGTATCTCCTGGCTGTTCAATGTCGAGGGCAAGGAGAAGGAGGTGTTCGGGCAGGGCGGGTATTGCTGTTCCGATGATGTGCTGGGCGGCGTAACGCTGGCCAGGCATGGCGCGGGATTGTTCCAGACCTACAGATTCATCGTGGAAAAGGAATTGGCGAACGGGCAACTGGTGGAGGTGCTGGCGCCGTTCGCGGGACGCTCGCGCCCGTTCACCTTGCTGTACCCCCACGGCCGTTACGTGCCGCAGCGAGTGCGGGCGTTTGTGGATTTTCTGTTGGGGTATCGGCAGCAATGGGCCGAGGGCTGA	MKRHFEDLQLGSIELFCLAAEAGSFTAAAQVAGVTPAAVSRSIFRLEERLGSRLFVRTTRSIRLTDAGRTFFEQCRQALTQLVEAQQEVMGAQTVPSGQLRISVPTTYGHHRILPLLPAFRALYPQVSVDVHLSNRNIDFVAEGYDLAIRVRAQPDSSMIARLLEDAGLVVVASPEYLQRAGTPLTLEDLDLHECIQFELPSSGRRISWLFNVEGKEKEVFGQGGYCCSDDVLGGVTLARHGAGLFQTYRFIVEKELANGQLVEVLAPFAGRSRPFTLLYPHGRYVPQRVRAFVDFLLGYRQQWAEG				NA	NA	NA	NA	NA
D1-35_03411	207		COG1942	putative tautomerase	ATGCCTTTCGTCAATGTTCGTATCACCCGCGACGGCGTTACCCGCGAGCAGAAAGCCCAGGTCATCAGCGAAATCACCGAGACCCTGCAGCGCGTGCTGGGCAAGGACCCGCACCTGACCCATATCGTGATCGAGGAAGTCGACACGGATAACTGGGGTTACGCGGGCATGACGACAACCGAGTATCGAAGCAAGCCCAAGGAATGA	MPFVNVRITRDGVTREQKAQVISEITETLQRVLGKDPHLTHIVIEEVDTDNWGYAGMTTTEYRSKPKE	PGPT0005210_1362	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005210-praC|xylH-K01821	NA	NA
D1-35_03412	735	baiA		3-alpha-hydroxycholanate dehydrogenase (NADP(+))	ATGAGCAATCGGAAAACCGTCATCATCACCGGCGCGTCCAGCGGTATCGGCCTTGGCCTGGTCAAGGCGTTCCTCGCTCGCGGCTACAACGTGGTGGGCAATGCCCGCTCGCAATCGGGCCTGGATGACGCGGCCGGCCAGCTCGGTCACCCGGCGAGCTTCATCGGCGTGGCCGGTGACATTGCCGCCCCGGCAACCTCTACCGCCCTCATCGGCAAAGCCATCGAAGTCTTCGGCGCGGTGGACGGGCTGGTGAACAACGCCGGGTTCTTCCTGCCCAAACCCTTCATCGAATACAGCCCCCAAGACCTCGAATCGCTGTTGGACACCAACCTCAAGGGGCTCGTCTACGCCAGCCAGGCTGCTGCCGCACACATGATCAGCCGCCGCCAGGGTTTCATCATCAACATCTCCGCCTCGGTGGCCCTGCAACCGAACATCCAGGTGCCGGCAGCGCTGCCGGTGCTGATCAAGGGCGGTGTCAACCAGATGACCCGTGCCCTGGCGCTCGAACTGTCGCCACACAACATCAAGGTCAACGCGGTAGCGCCTGGCATCATCGACACGCCGATGCATGACCCGGCCAATCGTGACTTCCTCAACAACCTGGCCCCGGCCGGGCGGGTAGGCACCATCGACGAGATTGCCGAAGCGGTCCTGTACCTGGCGGGTGCCGATTTCACCACTGGCGCGATCCTGCCGGTGGACGGTGGGATGAGCACCGGCAAGTGGTAA	MSNRKTVIITGASSGIGLGLVKAFLARGYNVVGNARSQSGLDDAAGQLGHPASFIGVAGDIAAPATSTALIGKAIEVFGAVDGLVNNAGFFLPKPFIEYSPQDLESLLDTNLKGLVYASQAAAAHMISRRQGFIINISASVALQPNIQVPAALPVLIKGGVNQMTRALALELSPHNIKVNAVAPGIIDTPMHDPANRDFLNNLAPAGRVGTIDEIAEAVLYLAGADFTTGAILPVDGGMSTGKW				NA	NA	NA	NA	NA
D1-35_03413	2142	cntO_2		Metal-pseudopaline receptor CntO	ATGCGTCGGATACTCGTTTCTCTGTGTGTGCTTCAGGCTTATTCCATTTCCACCTGGGCAGAAGAACCCGGCACGACGGACTGGGCGCCTTTGGAGCTGCAAGCCACCGATATCGTCGGCACCTCGGACTTCGAGACCGCGCAGGGGCCGGTGAAGGGCTACCACGCGACCCGTTCGGCCAGTGCCACGCGTACCGACACCGCGATTCATGAAACCCCACAATCGATCTCCGTCGTATCCCGCGATGTGGTGGAGGACCTCAGCGCCACGCGTCTTCAGGATGCCCTCGATTACGCCGGTGGCGTCGGCAGGGCCAACAACTTCGGCGGCCAGGGCCTGACCACCTTTACGGTGCGCGGCTTTACCACGGGCGAGTTCTACCGCAACGGTTTTCCGATCAACCGCGGCTATCCGAACATGCCGGATGCCAACACCATCGAGCGGCTGGAGGTACTGCGCGGCCCGGCGACGATGCTGTATGGCCGTGGCGACCCGGGTGGCACGTTCAATATCGTATCCAAGCAACCGCTGGCCGAGCGCACGGTGACCCTGGGCAGCCAGGTCACTGACCAGGGCATGCGTCGCGGCACCCTGGATGCGTCGGGGCCGCTGGATGAAGAAGGGCGTCTGGCTTATCGCCTGAACGTGATCGGCGAGGGCGGCGATACGTTTCGCGATCACGTCGAGACCGAGCGTTATGGCCTCGCCCCGGTGGTCACCTGGCAGGTCAACGACACCACGCGCCTGACGTTCGAAGGCGATTTCATGCGCAACAACCATCCGCTGGACCGTGGCTTGACCCATTATCCCGGCCAGCGCGGCACGGCGTCCCGCGATACCTTCTTCGGTGAGAAAGACGCCGGCAAGCTGCACAACGACAACAGCATGCTGCAGGTGCGTTTCGAGCACATGCTCAACGACGACTGGACCCTCGCCGGCGGCACCCAGTGGCTCGACGGCACGTTGCAGGGCAACGCCGTCGAAGCCAACGGCATCGGCGCCGATGGGCAGACCCTGGGGCGCAACTTCAACTATCGCAAACTGGAATGGACCGACCGCGATACCCAGCTCAATCTCACCGGGCATTTCTCCACCGGCGGGTTCGAGCACACGCTGTTGACCGGTGTCGAGTATGAAGACTACGACTATAAGTCGATCATCCAGCGCTCTGCTGCCGGTGCCGGTGCGTATCCGATCGACATCTTCGATCCGGTGTATGGGCAGCCGCGCCCGGCGTTGACCCGCACGCCCACCAATGACCAGGAAAACCTCAAGACCTTCGGCTTTTTCATCCAGGACCAAGTGGCGCTGACCGAGCGTCTCAAGGTGCTGGCCGGTGCGCGTTTCGAGCGGTTCGAGCATGAGTACGAAACCTTCGTTCCCCAGGCGCGTCCCGGCAGCCGCAACTGGGACGTCACCGACAACGCCGTCACCCCACGCCTGGGCGTGATCTATGACCTGACCGACACGGTCGCCGTCTATGCCAACACCGCCCGTTCGTTCAAACCCAATAACGGCGCCAGCCGCGAAGGGGGCGGGTTCAAGCCGGAGGAAGGCAAGTCTTACGAAATGGGCGTCAAATGGGAGGCGCTGGATCGTCAGTTGAGCGTCGATGCAGCGATATACCAGATCGAAAAACGCAACGTGCTGACACCCGATCCGCTGGATTCGACCTTCAGCGTGGCGGCCGGCGAGGTGCGCAGCCGTGGTTTCGACCTGAACGTGGCGGGCAACCTGACGCCGGAGTGGCGCGTGATTGGCGGCTACGCCTATGTGGATGCCGAAGTGACCAAGGACGTCAACATCCCCACGGGTACGCGCTTGCTCAACGTGCCGAAGAACTCCTTCAGCCTGTTGAACGTCTACGAGTTCCAGGACGGCGGCCTCAAGGGACTGGGCCTTGGCCTGGGCGCCAGGTACGTCGACGAGCGGGCCGGCAACACCGCGGCCACCACCTTCACCATGGACGATTACACGGTGGTTGACCTGCTCGGCTACTACAAGGTCAACGAGCGCATTCGCCTCAACCTCGACCTCAAGAACCTGTTCGATGCGGATTACGAGGAGGGCGCGTTTGGTGGTGTGTACGCCTATCCGGGCGCGCCGCGCACCGTGCAGGCAGGTATTTCCTACACGCTGTAG	MRRILVSLCVLQAYSISTWAEEPGTTDWAPLELQATDIVGTSDFETAQGPVKGYHATRSASATRTDTAIHETPQSISVVSRDVVEDLSATRLQDALDYAGGVGRANNFGGQGLTTFTVRGFTTGEFYRNGFPINRGYPNMPDANTIERLEVLRGPATMLYGRGDPGGTFNIVSKQPLAERTVTLGSQVTDQGMRRGTLDASGPLDEEGRLAYRLNVIGEGGDTFRDHVETERYGLAPVVTWQVNDTTRLTFEGDFMRNNHPLDRGLTHYPGQRGTASRDTFFGEKDAGKLHNDNSMLQVRFEHMLNDDWTLAGGTQWLDGTLQGNAVEANGIGADGQTLGRNFNYRKLEWTDRDTQLNLTGHFSTGGFEHTLLTGVEYEDYDYKSIIQRSAAGAGAYPIDIFDPVYGQPRPALTRTPTNDQENLKTFGFFIQDQVALTERLKVLAGARFERFEHEYETFVPQARPGSRNWDVTDNAVTPRLGVIYDLTDTVAVYANTARSFKPNNGASREGGGFKPEEGKSYEMGVKWEALDRQLSVDAAIYQIEKRNVLTPDPLDSTFSVAAGEVRSRGFDLNVAGNLTPEWRVIGGYAYVDAEVTKDVNIPTGTRLLNVPKNSFSLLNVYEFQDGGLKGLGLGLGARYVDERAGNTAATTFTMDDYTVVDLLGYYKVNERIRLNLDLKNLFDADYEEGAFGGVYAYPGAPRTVQAGISYTL	PGPT0003790_21226	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
D1-35_03414	1413	hisC_5		Histidinol-phosphate aminotransferase	ATGGACCTGAACATCAATCGCAACGCTACGGGGTCCCTGGTCCGGCAACTCGTCGCCAGCGTCAGCGACTGGATAAACGCCCACGGCATTCGCCCTGGCGCCCGCATGCCTTCGATCCGCCAACTGGCGGCGGAAAATGGCTTGAGCCTGTCGAGCGTGATCAAGGCCTACGACCAACTGGTCGCCAGCGGTGTACTGGAATCCCGGCATGGGTCAGGGTTTTTCGTGGCGCAACGCCGCCCCGAGGCGTTGGCCCCGGAAGCCGAGGAGGCTATTGCCTGGAAACTGTTCGATAATCCATCGACCCAACTCAAGCTGGGGTGCGGCTGGCTGCCGGACGCCTGGCGCGACGACAGCGATCTGGGCCAGGCGATCCGCCAGGTGGTGCGCTGCGACAGTCACGCGTTGTTCAACTACAGCACCCCGCTGGGTTCCGCTCCTCTGCGCCTGCAGATCCAGAAGCGCCTGGGCCTGATCGATATTTACGTCGATCAGGCGCAAATCATCACGACCCAGGGCGCCAGTCATGGCCTCGACCTGCTGGTGCGCACATTGCTCAAACCCGGCGACCTGGTACTGGTGGAAAGCCCCGGTTACTACAACCTGTTCAACCTGCTGAAGCTGCACGGGGTCAAGACTCTGGCAGTTCCGAGGACCGCGCAGGGCCCGGACGTTGCGAGCCTGGAGCGCTTGCTCGGCGCGCATGAACCGAAGTACTTCTTCGTCAACAGCATGTACCAGAACCCCACCGGCACCAGCCTGGCGCCGAGCGTTGCCTATCGCCTGCTGCAACTGGCGACGCTGCATGACTTCCGCATTATCGAGGACGACATCTACGCCGACTTCCAGAACGGTCCGACCTCACGCCTGGCTTCCCTCGACGCCCTGGACCGGGTGATCTACCTGGCGAGTTTTTCCAAGACCTTGTCCAGTTCATTACGCGTCGGCTACGTAGTGGCCCAGCCGGAAATCATCAACCGCCTGGCTGAAATCAAGATGGTGACCGGCATCGGCTGTTCATTGCTGGCGGAGAACGTCGTGGCGACGCTGTTGGCCAACGGCGCTTATCGCAAGTTGATCCAGCGCTTGCGCCTGCGTTTGAACAAGCAGATGGCAAGCACGTTGCGCCAGCTTGAACCGGCCCTTTGGGAAGTGTTTGCCGAGCCCTCGGGTGGCCTGTTCATCTGGGCGCGACCCCGGCATGTGCCGGCGGCGCGCGTGCAAACGATCGCCGAGCAATTGCAGGTGCAGTTGTCCCAAGGGGCGACGTTCTTGCCGAACGGGGAGGCCAGTGACTGGTTGCGCCTGAACGTGGCATATACCCAGGATGCTCGTGCCCAGGCTTTTTTCCGCGAGATTGAACAGGAATCGACTGTTGGAACGGCAGTGCTAATGGGAATAGATGTCAAATAG	MDLNINRNATGSLVRQLVASVSDWINAHGIRPGARMPSIRQLAAENGLSLSSVIKAYDQLVASGVLESRHGSGFFVAQRRPEALAPEAEEAIAWKLFDNPSTQLKLGCGWLPDAWRDDSDLGQAIRQVVRCDSHALFNYSTPLGSAPLRLQIQKRLGLIDIYVDQAQIITTQGASHGLDLLVRTLLKPGDLVLVESPGYYNLFNLLKLHGVKTLAVPRTAQGPDVASLERLLGAHEPKYFFVNSMYQNPTGTSLAPSVAYRLLQLATLHDFRIIEDDIYADFQNGPTSRLASLDALDRVIYLASFSKTLSSSLRVGYVVAQPEIINRLAEIKMVTGIGCSLLAENVVATLLANGAYRKLIQRLRLRLNKQMASTLRQLEPALWEVFAEPSGGLFIWARPRHVPAARVQTIAEQLQVQLSQGATFLPNGEASDWLRLNVAYTQDARAQAFFREIEQESTVGTAVLMGIDVK				NA	NA	NA	NA	NA
D1-35_03415	1167			hypothetical protein	TTGAACGCATCGCAACGACACTCATGGGGCCTGGCATTCGGATTGTGCCTGATCACCCTGGCGGTCAATCTCCAGGCGCCGCTATACACCACCTATGCGCAGCTTTCCGGCTACGGAGCCGGCGCCACGGCGGTGGCGTTCTCCGGTTATGTGCTGGGGGTGTTGCCGGTGCTGCTGGCCTTCGGCGGCTTGGCCGACCGGGTGGGCCGCAAACCGTTGATCATCGCGGCGCTTGCCCTGTCGATGCTGGCGACGCTGGTCACCGTGTTCTGGCCCAACCTGATCGCTCTGGGTGTGGCGCGCCTGATGATGGGGGTCGGGACCGGGCTGGCCTCGGCGACCGCGACCGCCTATATGACGGAACTGCTGGCAACCGCCGACAGCCGTTCACCGGCCAACCGGGTCACGGCCAGCACCTCCCTGGGTTTTGGCCTGGGCGCGGCGCTGACCAGCCTGTTTCTTTTCGCCTGTCCCAGCGTTACCCCTGGCAGTTTCTGGCTGCAGTTGGTGCTGGCTGGCCTGGCGCTGATCGTCGTCTGGCGGCTGCCCGACCCCGCGGTGCGAATCGAGCAGGCACCGCTGCTGCGCCTGCCGCTGTTTCCCGCCGGGAGCCTGCCCTACAGCTTTTCCATGCTGCTGGCCTGGGCCACTTCCGGGCTGGTGATCGCGATCCTGCCATCGGTGCTCGCCAGCCACGATTTGCAGCGTTGGTCGGGATTGTCGACGTTTACTGTCATCAGCTGCGGGCTGCTCTTCCAGCCTTGGGTGCGGCGCATGCAACCCGCCAGAGCTACCGGCTTGGGCCTGTTGGTCTTGCCGTTGAGCTATGCATTGCTCGCCTGGGGCGCGAGCATCGGTTCCCTGGTCGCGGTGCTGTTCGGGGCCCTCGGCGCCAGCAGTGCGTGCTACGGCTTTTTGTACCTCGGCGGGTTGTCGGCCGTGACCGCCATGGCCGGTGCGCAGAAAGCCCGGGTCAGCGCCGGTTTTTTCCTGTTCGCCTACATCGGGTTCAGCATCCCGGTGGTGGTGACCGGGTTGCTGGCCGATCGTTTCGGCGCTGACATGGCGCTGCTGGTGTTCGGCCTGGCACTGCTGGCGGGCGCAGCGGTCACCGGTTTGCTGATCGTTCGCAGCGAAGCTTTCATCGCCCAGCCATCCCATGGCTGA	MNASQRHSWGLAFGLCLITLAVNLQAPLYTTYAQLSGYGAGATAVAFSGYVLGVLPVLLAFGGLADRVGRKPLIIAALALSMLATLVTVFWPNLIALGVARLMMGVGTGLASATATAYMTELLATADSRSPANRVTASTSLGFGLGAALTSLFLFACPSVTPGSFWLQLVLAGLALIVVWRLPDPAVRIEQAPLLRLPLFPAGSLPYSFSMLLAWATSGLVIAILPSVLASHDLQRWSGLSTFTVISCGLLFQPWVRRMQPARATGLGLLVLPLSYALLAWGASIGSLVAVLFGALGASSACYGFLYLGGLSAVTAMAGAQKARVSAGFFLFAYIGFSIPVVVTGLLADRFGADMALLVFGLALLAGAAVTGLLIVRSEAFIAQPSHG				NA	NA	NA	NA	NA
D1-35_03416	672	rspR_2	COG1802	HTH-type transcriptional repressor RspR	GTGACATTATCCAAGTTCAACCTGCCCGACCTGGGCAATACCCCTTCCACCTCGGAAATCATCACCCGTCACCTGCGCGATGCCATTGTGGCCGGGCATTTCGCCGAAGACGAGCCGATTCGCCAGGACGACATCGCCCGGCAGTTCAATGTCAGCAAGATCCCCGTGCGCGAGGCGCTCAAGCGCCTGGAGGCCGAAGGCCTGGTGATGTTCCAGCGCAACCGCGGGGCGATGGTCACGCGGATTTCCGAAGCGGAACTGGCGCAGATGTTCGAGGTGCGGATGCTGCTCGAAGACAAGGTCCTGCGCCTGGCCATTCCCAACATGACCGAAGCGACCTTTGCCCGCGCCGACAGCATCTGTCGCGAGTTCATCGGCGAAGATGACGTCGGCCGCTGGGCCGAGCTCAACTGGCAACTGCACGCCTGCCTTTACGAACCGGCGCAACGGCCGTTCATGGTCGGGCTGATCCGCTCGGTCCACGACAAGCTGGAACGTTATCTGCGCATGCAGATGAGCCTGTCGGCGGGCAAGGAGCGCGCCGACCACGAGCACCGGGAAATTCTCGACGCCTGCCGGGCCGGTGATGTCGAACGCGCGGTGAAGCTGCTGGACGAACACATCGCCGGAGTCTGCCAGACACTGTTCGAATTCCTGCCGTCGAGCCGATGA	MTLSKFNLPDLGNTPSTSEIITRHLRDAIVAGHFAEDEPIRQDDIARQFNVSKIPVREALKRLEAEGLVMFQRNRGAMVTRISEAELAQMFEVRMLLEDKVLRLAIPNMTEATFARADSICREFIGEDDVGRWAELNWQLHACLYEPAQRPFMVGLIRSVHDKLERYLRMQMSLSAGKERADHEHREILDACRAGDVERAVKLLDEHIAGVCQTLFEFLPSSR				NA	NA	NA	NA	NA
D1-35_03417	933		COG3938	4-hydroxyproline 2-epimerase	ATGAAACGCATCACTGTGATCGACTCCCACACCGGCGGCGAACCGACCCGATTGGTCACCGCCGGTTTCCCTGACCTGGGCCAGGGCAGCATGGCCGAGCGCAGGCAGCGCCTGGCCGAACAGCACGATGCCTGGCGCACCGCGTGCGTGCTGGAACCCAGGGGCAGCGATGTGCTGGTGGGCGCCCTGCTGTGTGAACCGGTGGACCCGACGGCCTGTGCCGGAGTGATCTTTTTCAACAACAGCGGCTACCTGGGCATGTGCGGCCACGGCACTATCGGCCTGGTGGTGTCATTGGCGCACCTGGGCCGGATCGGCCCCGGCGTGCATAACATCGAGACGCCGGTGGGCACGGTGCAGGCCACTCTGCACGAAGATCGTTCGGTCAGCGTGCGCAACGTGCCGGCCTACCGTTATCGCCAGGCGTTGCGCCTGGAAGTGCCCGGCATCGGTCCGGTGGTGGGCGACGTGGCCTGGGGCGGCAATTGGTTTTTCCTGATCGCCGACCACGGCCAGCGGGTGGCGGGCGACAATCTCGATGCCTTGACCGCCTACACGTTCGCGGTCCAGCAGGCTCTTGAACAGCAGGGCTTTCGGGGCGAGGACGGCGGGCTGATCGATCACATCGAACTGTTCGCCGATGATCCCGATGCCGACAGTCGCAACTTCGTGCTCTGCCCCGGCAAGGCCTATGACCGCTCCCCTTGCGGCACCGGCACTAGCGCCAAACTGGCGTGCCTGGCCGCCGACGGCGAGTTGCAACCGGGACAGATCTGGCGTCAGGCCAGTGTCATCGGCAGTGAATTCGAAGGCTCGTACGAGCGTTCAGGTGAGCGCATCGTCCCGACCATCCGCGGCCGCGCCTACATCAGCGCGGAAACTACGTTGATCATCGATCCGGACGACCCGTTCGCCTGGGGCATTCGCCCGTGA	MKRITVIDSHTGGEPTRLVTAGFPDLGQGSMAERRQRLAEQHDAWRTACVLEPRGSDVLVGALLCEPVDPTACAGVIFFNNSGYLGMCGHGTIGLVVSLAHLGRIGPGVHNIETPVGTVQATLHEDRSVSVRNVPAYRYRQALRLEVPGIGPVVGDVAWGGNWFFLIADHGQRVAGDNLDALTAYTFAVQQALEQQGFRGEDGGLIDHIELFADDPDADSRNFVLCPGKAYDRSPCGTGTSAKLACLAADGELQPGQIWRQASVIGSEFEGSYERSGERIVPTIRGRAYISAETTLIIDPDDPFAWGIRP	PGPT0014235_627	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014235-lphA-K12658	NA	NA
D1-35_03418	1116	mnmC_2		tRNA 5-methylaminomethyl-2-thiouridine biosynthesis bifunctional protein MnmC	GTGAGCGAGGGTCCTGTCGCCGATGTCATCGTCATTGGCGCCGGCATCATCGGCGCGGCCTGTGCCCGGAGCTTGGCCCTGCGTGGCTTGCGGGTGCTGGTGCTCGACGCCGGCTGGCACGGCGCCACGGCGGCCGGCATGGGGCATCTGCTGGTCCTCGACGACAACCCGGCGGAGCTGGCCCTGAGCCAATATTCCCTGCGGCGATGGCGCGAGTTGGCCCCCGCCTTGCCTGGGGGCTGCTCCTGGCGCAATAACGGCACGCTGTGGCTGGCCGCCAACGCCGAAGAGATGGCCGTGGCCCACGACAAGTACCTGAACCTGATGGCCCACGGCGAAGCCTGCGAACTGCTTGGCCAGGCCGCTTTGCAGCAACGCGAACCGGAACTGCGGACGGGACTGGAAGGCGGGCTGCTGATCAAGGGCGACGGCATTCTCTATGCGCCCGCCGCCGCCCGCTGGATGCTCGATCACGACAACATTCGCCAGCAGCGTGCCGAGGTCAGCGAAGTGGACGGCCACCGCGTGCGTCTCACCGGGGGTCACTGGCTGAGCGCCGAAGCGGTGGTGCTCGCCAACGGCATCCAGGCCACCGACTTGTGCCCGGAGCTGCCGATCGAACCCAAGAAAGGCCACCTGTTGATTACCGATCGCTACCCCGCCACTGTCACCCACACCCTGGTCGAACTGGGTTATGTCACCAGCGCCCACAACGCCAGCGGGCCATCGGTGGCCTGTAACATCCAGCCGCGCCCGACCGGACAACTGTTCATTGGCGCCTCTCGGCAATTTGGCAACATCGATCCGCAGGTCGAGGGCTGGATGCTGGCGAAAATGCTCAAGCGCGCCGTCGATTACATGCCTGGCCTGGCGCATCTCAACGGCATCCGCGCCTGGACCGGTTTTCGCGCGGCGAGCCCCGACGGCCTGCCGCTGGTGGGCCAGCATCCGCAACGCAAGGGCTTGTGGCTGGCGGTGGGTCACGAAGGACTCGGCGTCACCACCGCGCCGGCGACGGCCGACCTGCTGGTCGCGCAACTGTTCAACGAAACCGCGCCGCTGGCCGCACAACCTTATCTGCCGCAACGTTTCCTGGGAGAACCTGCCCATGCCTGA	MSEGPVADVIVIGAGIIGAACARSLALRGLRVLVLDAGWHGATAAGMGHLLVLDDNPAELALSQYSLRRWRELAPALPGGCSWRNNGTLWLAANAEEMAVAHDKYLNLMAHGEACELLGQAALQQREPELRTGLEGGLLIKGDGILYAPAAARWMLDHDNIRQQRAEVSEVDGHRVRLTGGHWLSAEAVVLANGIQATDLCPELPIEPKKGHLLITDRYPATVTHTLVELGYVTSAHNASGPSVACNIQPRPTGQLFIGASRQFGNIDPQVEGWMLAKMLKRAVDYMPGLAHLNGIRAWTGFRAASPDGLPLVGQHPQRKGLWLAVGHEGLGVTTAPATADLLVAQLFNETAPLAAQPYLPQRFLGEPAHA	PGPT0020390_479	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020390-lhpB2-K21061	NA	NA
D1-35_03419	237			hypothetical protein	ATGCCTGAACTCTGCATTGATGGACGCAAACTCTCGATCGCTGAAGGCACCACCGTCGCCGCGGCTTTGGCCTTGGGCTCCGATGGCTGCAGCCGAACCTCGGTGACTGGCCAGCGACGCGCGCCCTTGTGCGGCATGGGCATCTGCCAGGAATGCCGGGTGCTCATCGACAGTCGTCGGCGCCTGGCCTGTCAGACGCTGTGCCGTGATGGCATGCGAGTGGACACCCGGGCATGA	MPELCIDGRKLSIAEGTTVAAALALGSDGCSRTSVTGQRRAPLCGMGICQECRVLIDSRRRLACQTLCRDGMRVDTRA	PGPT0020400_341	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020400-lhpD-K22550	NA	NA
D1-35_03420	1257	hcnB_2		Hydrogen cyanide synthase subunit HcnB	ATGAATCAATCCACTGACATTCTGATCATCGGTGCCGGCCCTGCCGGAATGGCGGCGGCGCTGGCGGCGTCCAGCAGCGGCGCGCGCATTGTGCTGCTCGACGACAACCCGGTCCCCGGCGGACAGATCTGGCGCGACGGCCCCCAGGCCAACCTGCCCAAGCAGGCACGGCGCTTGCGGGAACGTGTGCGCGCTTGCACCAATGTGTCCTGGCGCATGGGCGCCCGAGTGATCGCCAGCGCCGCCGATAAAACCCTGCTGGTAGAAGACGCCGAGCAGGGTTGGCTGATCGCTTATGACCGCTTGATCCTGTGCACCGGAGCCCGTGAACTGCTGCTGCCCTTCCCTGGCTGGACGCTGCCCGGTGTCACCGGCGCCGGCGGCCTGCAGGCGTTGATCAAGGGCGGCCTGCCGGTGCGTGGCGAACGTTTGGTGGTCGCCGGCAGCGGGCCGCTGCTACTTGCCAGTGCGGCCACGGCGAAACATCACGGGGCGCAACTGCTGCGAATCGCCGAGCAAGCCAACCGCGCCGCCGTGGCGGGTTTCGCCGCGAGCTTGCCGCGCTGGCCGGGCAAATTGTTGCAGGCGTTCAGCCTGTTTGATGCGCACTACCGCACCGGCACCCATGTGTTGGAGGCATTGGGGAAGGACAGACTCGAAGGCGTGCGGCTGCTGCAACACGGCAAAACCGTTGAACTGGCCTGCGACCGGTTGGCCTGTGGCTTCGGCCTTATTCCCAATACCCAGCTGGGCCAGGCTTTAGGCTGTGGCCTCGATGGACAAGCGCTTGCGGTCGATGCCCGGCAAGCCACCACTCGCGTTGATCATTACGCCGCAGGTGAATGCACCGGTTTCGGCGGCAGCGAACTGGCCCTGGTGGAAGGCGCCATCGCTGGCCACGCCGCTGTCGGCGATACCCCGGCCGCCGAGCGTCTGTGGCCTGGTCGTGCACGCTGGCAAGGTTTTGCCCGGGCCTTGAATACTGCCTTTGCCCTTGATGCCCATTTGAAGAACCTGCCCCAACGCGACACCTTGGTCTGCCGTTGTGAAGACGTGGCCTATGGTGAGCTGAGCGATTTTGAGAACTGGCGTGAGGCAAAACTGGCGAGTCGTTGCGGCATGGGGGCGTGTCAGGGCCGGGTCTGTGGCGCGGCGCTGGAGCATCTGCTTGGCTGGACGCCGCCTGCTCCTCGCCCGCCTTTCAGTCCGGCGCGGATTGAAACGTTGCTGAGGTTGGAGGATCTCCCGTTCAATTGA	MNQSTDILIIGAGPAGMAAALAASSSGARIVLLDDNPVPGGQIWRDGPQANLPKQARRLRERVRACTNVSWRMGARVIASAADKTLLVEDAEQGWLIAYDRLILCTGARELLLPFPGWTLPGVTGAGGLQALIKGGLPVRGERLVVAGSGPLLLASAATAKHHGAQLLRIAEQANRAAVAGFAASLPRWPGKLLQAFSLFDAHYRTGTHVLEALGKDRLEGVRLLQHGKTVELACDRLACGFGLIPNTQLGQALGCGLDGQALAVDARQATTRVDHYAAGECTGFGGSELALVEGAIAGHAAVGDTPAAERLWPGRARWQGFARALNTAFALDAHLKNLPQRDTLVCRCEDVAYGELSDFENWREAKLASRCGMGACQGRVCGAALEHLLGWTPPAPRPPFSPARIETLLRLEDLPFN	PGPT0020395_394	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020395-lhpC-K22549	NA	NA
D1-35_03421	231			hypothetical protein	GTGGATTATCTGGGATGGGTCCAATGGCCCGCGATGGCGGTAACGGTATTGGCCGCGTGGCTGATCGGCTCACGCCAACCCCGCCGGCGGGTCGCTGGGTTCAGTTGTTTTATCGTCAGTAACATTCTCTGGGTCGTGTGGGGTCTGCACACCGATGCCTATGCGCTGATCGTCCTGCAGTTCTGCCTGTGTGCGATGAACCTGCGGGGCTTCAAGAAAAATACCCAGTAG	MDYLGWVQWPAMAVTVLAAWLIGSRQPRRRVAGFSCFIVSNILWVVWGLHTDAYALIVLQFCLCAMNLRGFKKNTQ				NA	NA	NA	NA	NA
D1-35_03422	1935	rcsC_14		Sensor histidine kinase RcsC	ATGCTTGAGAACAACCCAAAGACTACCCGCATCAACGAAGAACAGCGCTTTCGGCTGCTTATCGATGCCGTGGTCGACTACGCCATTTACATGACCGACCCGTCCGGCATCATCACCAGCTGGAACTCTGGCGCTCGACGCTTCAAGGGCTACGAGGAATCCGAGATCCTCGGCCTGCACTTTTCCCGGTTCTACACCGATCAGGACCGTGCCGCCGGGCTGCCGCAACTGGCCCTCGATACGGCCGTGCGCGAGGGGCGTTTCGAAGGCGAAGGCTGGCGGGTGCGCAAGGACGGCACGCTGTTCTGGTCCCATGTGGTCATCGACCCGATCATCGACAGCCAGAGCGGCGAACTGCTCGGTTTCGCCAAGATCACCCGGGACCTGACCGATCGCAAGATGGCCGAGGAAACCCTCAAGCAGAGCGAGCAACAGTTCCGCCTGCTGGTGCAAAGCGTCACCGACTACGCCATCTACATGCTTGATCCGGACGGGCAGGTGACCAACTGGAACCAAGGTGCGCAGCGGATCAAGGGCTACCTGCCGGCCCAAGCGATCGGCCAGCACTTCTCGATGTTCTACACTCCCGAAGACCGGGAGGCCGGGGAGCCGCAGCGGGCCCTGAGCATCGCCGCCAGCGTCGGCCGTTTTGAAAAGAAGGGTTGGCGCGTGCGCAGGGATGGCACGCGCTTCATGGCTCATGTGGTTATCGATGCGATTCGCAGCGATACCGGCACACTCCTCGGATTTGCCAAGATCACCCGCGACATTACCGATGCCACGCAGGCGCAACAGGCCTTGGAGCAGGCTCGCGAGGCACTGTTTCAAGCGCAGAAACTGCAAGCGATCGGCCAGCTCACCGGCGGCATCGCCCACGATTTCAACAATCTGCTGACAGTGATCCTCGGCAATCTGGAAATCATGCGCAAGCGCATGCCCAGCGAACCAAAACTCACCCAACTGCTGGACAACGCCGTCCAGGGGGCGCTTCGCGGTGTTTCCTTGACCCAGCGCATGCTGGCGTTCGCCCGTCGGCAGAAGCTCAGCTCCGAACCAGTGGAGCTGGCGACGCTGGTGCAAGGCATCAGCGGCCTGCTGCAAAGCTCGATGGGCCCGTCGATTCATATCCAGACCCGATTTGCCGAGGCGTTGTCGCCGGTGCTGGCCGACGTCAACCAGCTCGAACTGGCGATCCTCAACCTGGCGACCAATGCCCGGGATGCCATGCCCCAGGGCGGCAGGATCTTGATCGAGGCGCAGGAGCGGCTGGGTAGCCAGGCCGGTGGTCCAGGAAGGCCGTTGGGCAACGAGCGATACATTTGCCTGTCGCTCAACGACGAAGGCGATGGCATGGACGAGATGACGCTGGCCTCGGCCGTGGATCCTTTTTTCACTACCAAGGGCGTGGGCAAGGGCACCGGCCTGGGATTGTCCATGGTGCATGGTCTGGCCGAGCAACTGGGCGGACGACTGATCCTCAAGAGCGAAAAAGGCGTAGGTACCACCGCCGAGCTGTGGTTGCCGGTGGCTGATGAGTCGACCACGGACAAGCCGCCCGCAGTAGAGACAGCTACGCCACCTGTCCACGCGCTGCTGGTATTGGTGGTCGACGATGACAGCCTGGTGATGACCAGCACCCGCTTGCTGATCGAAGACCTGGGCCACCGGGTGCTTTGCGCTTTGTCGGGCCCCCAGGCGCTGGAGTTGTATGAGCGCAACCCGGATATCGACCTGGTGATCACCGACATGGCCATGCCCCAGATGGACGGTGCGCAGTTGGCGAAACTGCTGCGCGACCGTCAGCCGACGCTGCCGATCATCCTGGCGACTGGCTACGCCGAGCGCCTGGAAGGCTTCGCCACGCAGTTGCCACGGCTGACCAAGCCGTTCAAGCAGATTGATCTGGTGCAGGTGATTGGGCAGACGATGAAATAA	MLENNPKTTRINEEQRFRLLIDAVVDYAIYMTDPSGIITSWNSGARRFKGYEESEILGLHFSRFYTDQDRAAGLPQLALDTAVREGRFEGEGWRVRKDGTLFWSHVVIDPIIDSQSGELLGFAKITRDLTDRKMAEETLKQSEQQFRLLVQSVTDYAIYMLDPDGQVTNWNQGAQRIKGYLPAQAIGQHFSMFYTPEDREAGEPQRALSIAASVGRFEKKGWRVRRDGTRFMAHVVIDAIRSDTGTLLGFAKITRDITDATQAQQALEQAREALFQAQKLQAIGQLTGGIAHDFNNLLTVILGNLEIMRKRMPSEPKLTQLLDNAVQGALRGVSLTQRMLAFARRQKLSSEPVELATLVQGISGLLQSSMGPSIHIQTRFAEALSPVLADVNQLELAILNLATNARDAMPQGGRILIEAQERLGSQAGGPGRPLGNERYICLSLNDEGDGMDEMTLASAVDPFFTTKGVGKGTGLGLSMVHGLAEQLGGRLILKSEKGVGTTAELWLPVADESTTDKPPAVETATPPVHALLVLVVDDDSLVMTSTRLLIEDLGHRVLCALSGPQALELYERNPDIDLVITDMAMPQMDGAQLAKLLRDRQPTLPIILATGYAERLEGFATQLPRLTKPFKQIDLVQVIGQTMK				NA	NA	NA	NA	NA
D1-35_03423	2388	dinG_3		3'-5' exonuclease DinG	GTGACCGAGATGCCGGGCTACAGCATTGCCGTGCGGGCGTTATGCGAGTTCACCGCGAAGGTCGGCGATCTCGACTTGCGTTTCACGCCGTCACCCACCGCCCTGGAAGGTATCGTCGGCCACCGTACCGTGGCATCGCGGCGCCAGGAGGGCTATCAGGCCGAAGTCAGCCTGGAAGGCGTCTACCAGACCTTGAAGGTCAAGGGGCGGGCCGACGGCTACGACCCGGCCCGCAATCGCCTGGAGGAAGTGAAGACCTATCGGGGCGACCTGAGCAAGCAACCGGACAACCACCGCCAGTTGCATTGGGCCCAGGCGAAAATCTATGGCTGGCTGCTGTGCGACAAGTTGCAGTTGCCGCGCATTGACGTTGCCTTGGTCTATTTCGACATCGTCAGTGAAAAGGAGACCTGCCTGACCCAAAGCTGCGTAGCCTCGCAGCTCCAGGCGTTCTTCGAGCAGCAGTGCGCACGGTTCCTGGCGTGGGCCGAACAGGAAATGCGCCATCGCCAGGCGCGTAACCTGGGCGCCCAGGCGCTGACGTTTCCCCACGCCGGCTTTCGGCCGGGGCAACGTCACCTGGCTGAATCGGTGTTCAAGGCGGTCAGCACCGGGCGCTGCCTGATGGCCCAGGCGCCCACCGGCATCGGCAAGACCGTCGGCACCTTGTTTCCCATGCTCAAGGCCTTGGCGCCGCAGCGTCTGGACAAGGTGTTCTTTCTCACGGCAAAAACCCCCGGACGCAGGCTGGCCCTGGATGCGGCCCGGCTGATCACCAACAACGCCCCGGCGATGCCGCTGCGGGTATTGGAAATGATCGCGCGGGACAAGGCTTGCGAGCATCCGGACAAAGCCTGCCACGGCGAATCATGCCCGCTGGCCCGGGGGTTTTATGATCGCCTGCCGCAGGCCCGGGCAGCGGCGAGCCAGGTCACGCTGCTCGACCAGGCGGCGTTGCGCGACATCGCCCTGAGCCACGAAGTCTGTCCGTACTACCTGAGCCAGGAAATGGCCCGTTGGGCCGACGTGGTGGTGGCGGACTACAACTACTACTTCGATTTCAGCGCCTTGCTCTTCGGCCTCGCCCAGGCCAATGGCTGGACCGTTGCGACCCTGGTGGACGAAGCCCACAACCTGGTGGAGCGAGGGCGCCAGATGTACAGCGCGAGCCTGGACCAGCTTGCGCTGGCGACGGTGCTGAAAACGGCGCCGGAGCCTTTGAAGAAAGCGTTGCGCAAGGTCAGCCGTCAGTGGAACGCCTTGCACGAGCCGCAAATTGCCGCCTACCAGGCGTATGAAAAACCACCGGAGAAACTGCTTCAGGCACTGGGAACGTGCACCAGCGCCATCGGCGATTACCTCAATGACCATCCCCAAGGGCTGGACAGTCAGCTGCAAGCGTTTTATTTCGATGCGTTGCAGTTCGGTCGCGTGGCGGAGGCATTTGATGAGCATTTCCTGTTCGATATTCACAAGCGCGAATCCAGCCGCCAGCGCAGCCTGTCGACGCTGTGCCTGCGCAACGTGGTGCCGGCCGGTTTCCTGCGACCCAGGTTCACGGCGTCGCGCAGCAGCGTACTGTTCTCCGCGACGCTGAGCCCGCGGCGCTATTACGCCGATTTGCTGGGGACACCCGCGGACACGGTGTGGATCGATGTCGAGTCGCCGTTCCAGGCCGAACAGCTGGATGTCCAGGTGGTCAGCCGGATCTCCACCCGCTTCGCCCATCGCCAGGGCTCCCTTGAACCGATCGTCGCGCTGATGGCTCGCCAGTTCGCCGAGCGTCCCGGCAACTACCTGGCGTTCTTCAGCAGCTTCGATTACTTGCAACAGGTGGCCGGATTGTTGGCCGAGCGACATCCGCACATTGCGACCTGGACGCAATCGCGCGGCATGGGCGAGGCGCCGCGGCAGGCGTTCCTCGAACGCTTCATGGAGCACAGCCAGGGCATTGGCTTCGCGGTGCTGGGCGGCGCGTTCGGCGAGGGCATCGACCTGCCAGGCTCGCGGCTGATCGGAGCGTTCATCGCCACCCTCGGGCTGGCGCAGTTCAACCCGGTCAATGAACAGATCAAGCAGCGCATGGCGACGATCTTTGGCGACGGCTATGACTACACCTACCTGTATCCCGGCCTGCAAAAAGTCGTGCAGGCCGCTGGCCGGGTCATCCGAACCCAGCAGGATCGCGGAGTGGTGATGCTGATCGACGACCGCTTTGGCGAGGCCAAGGTGCAGCGATTATTGCCGCAGTGGTGGACCGTCAGGCAGGAACGAGATACTCCAGCTGTGGGAGCGAGCCTGCTCGCGAAGGCGTCGGACCATCTTGCACCTTCGCAGGCTGGCTCAACCGCTTCGCGAGCAGGCTCGCTCCCACAAGGGTCTGCATAG	MTEMPGYSIAVRALCEFTAKVGDLDLRFTPSPTALEGIVGHRTVASRRQEGYQAEVSLEGVYQTLKVKGRADGYDPARNRLEEVKTYRGDLSKQPDNHRQLHWAQAKIYGWLLCDKLQLPRIDVALVYFDIVSEKETCLTQSCVASQLQAFFEQQCARFLAWAEQEMRHRQARNLGAQALTFPHAGFRPGQRHLAESVFKAVSTGRCLMAQAPTGIGKTVGTLFPMLKALAPQRLDKVFFLTAKTPGRRLALDAARLITNNAPAMPLRVLEMIARDKACEHPDKACHGESCPLARGFYDRLPQARAAASQVTLLDQAALRDIALSHEVCPYYLSQEMARWADVVVADYNYYFDFSALLFGLAQANGWTVATLVDEAHNLVERGRQMYSASLDQLALATVLKTAPEPLKKALRKVSRQWNALHEPQIAAYQAYEKPPEKLLQALGTCTSAIGDYLNDHPQGLDSQLQAFYFDALQFGRVAEAFDEHFLFDIHKRESSRQRSLSTLCLRNVVPAGFLRPRFTASRSSVLFSATLSPRRYYADLLGTPADTVWIDVESPFQAEQLDVQVVSRISTRFAHRQGSLEPIVALMARQFAERPGNYLAFFSSFDYLQQVAGLLAERHPHIATWTQSRGMGEAPRQAFLERFMEHSQGIGFAVLGGAFGEGIDLPGSRLIGAFIATLGLAQFNPVNEQIKQRMATIFGDGYDYTYLYPGLQKVVQAAGRVIRTQQDRGVVMLIDDRFGEAKVQRLLPQWWTVRQERDTPAVGASLLAKASDHLAPSQAGSTASRAGSLPQGSA				NA	NA	NA	NA	NA
D1-35_03424	1653	fan1		Fanconi-associated nuclease 1	GTGACAGCCAATCCCCTTGACGACCCCTTTTATTACCTGAACAACTTCCAGCGGGTCCTCGCCTGGTTGACGCAACGCTATGCCGACGTATTGAGTGTCGAAGAGCAGCGGTTTATCGATGATTTCATCGCTTTGCCGCGTCCGGCCCAAGGCTTGCTGGTGCGGATGGTGATGCGCAAGGGCCTGCACTTTCGTCACACCAAACTGCGCTACGCGGAAATTGGCGATATCGCCGACGCCGTGGCGCCGTTGTTGGCGCTGGGCTGGGTCGAAGAGCAGGCGTGCCTGAGCCTTGTCGAACTGTTCGAGGTGCTGCTCAAGCCGGAAGTACTTCTGTGCCTGGGGCATCTGATCGAGCAACCCAAGGCACGCAAATCCGAATGGCTGCAGGCGCTGAGTAATCAGGACGGCCAGCCGCAGCCGTTTCGCGCCTGGTGCCCGCAGCTCGAAGAGCGGCTGTACAGCCTCACGGTGATGGGGCTGTGCGACCGTTTGCGGTTGATGTTCTTCGGCAATCTCTATCAGGACTGGTCGGAGTTCGTGCTGGCGGACCTGGGTATCTTTGTCTATGAAGCCGTTGAGTTCAGCGCCGAGTCCCGGGGGCTGCGCAGCCGTGAGGACATCGATGCCTGTGTCTTCCTGCATGAATGCCAGCAACGCTTCGACGCCGGCGAACCGCTCGAACCGATCATCGCCCGGGTCAATGCCCTGGAGCTGGGCAATCCCTGGCTTGAGCGGCGCCGGGGCAAGCTGTTGTTCCAGCTCGGCCAGCATTGCGAACGCATCGGTGATTTTGCCCAGGCCCTGAGTCTTTATCGCGGTTGTACCTACCCCGGCGCGCGACTGCGAATGATCCGCGTGCTGGAGCGCATCGGCGAATATGCCCTGGCCCTCGAACTGGCTGAAGCCGCGGCCCAGTCGCCCCAAAGCGCTGCCGAGCGCCAGGCCTTGCTCCGGATCGTGCCCCGGCTGCGGCGCAAACTCGGCGGCCCGCCGGTGGCCCGCGCCGTGGCCAGGGAGGTGGAGCGACTGGACTTGCATCTGCCGCGTGTCGACCCGACGTTGTCGGTGGAATATTACGTCCAGGCTCATCTGCATGACGAAGCCGCCCCGGTGCATTACGTCGAAAACAGCCTGGTCAATTCGCTGTTCGGCCTGTTGTGCTGGCCGGCGATTTTCGCGCCGCTGCCGGGGGCTTTTTTCCACCCGTTCCAGCGCGGGCCGGTGGACCTGCTGAACGAAGATTTCCATGACCGTCGCGCCGAACTGTTCGCGGCCTGTTTCGCCGAGCTGGACGACGGGCGCTATCGGCAGACCATCCGTCAACGTTACGCGGAAAAATGGGGCGTGCAGTCACCGTTCGTGTTCTGGGGCGCACTGTCCGAAGACCTGCTGGACCAGGCGCTTGACTGTCTGCCGGCCGAACACCTCAAGCACTGGTTCGCCCGTCTGCTGCTGGACATCAAGGCCAACCGCGCCGGCATGCCCGACCTGATCCAGTTCTGGCCGCAGCACAAGACCTACCGCATGATCGAAGTCAAAGGCCCCGGCGATCGCCTGCAGGATAACCAGCTGCGCTGGCTGGAGTTCTGCCACGAACACCGGATGCCCGTCGCCGTCTGTTATGTGCAATGGGCGGAGCAGGGCGCGTGA	MTANPLDDPFYYLNNFQRVLAWLTQRYADVLSVEEQRFIDDFIALPRPAQGLLVRMVMRKGLHFRHTKLRYAEIGDIADAVAPLLALGWVEEQACLSLVELFEVLLKPEVLLCLGHLIEQPKARKSEWLQALSNQDGQPQPFRAWCPQLEERLYSLTVMGLCDRLRLMFFGNLYQDWSEFVLADLGIFVYEAVEFSAESRGLRSREDIDACVFLHECQQRFDAGEPLEPIIARVNALELGNPWLERRRGKLLFQLGQHCERIGDFAQALSLYRGCTYPGARLRMIRVLERIGEYALALELAEAAAQSPQSAAERQALLRIVPRLRRKLGGPPVARAVAREVERLDLHLPRVDPTLSVEYYVQAHLHDEAAPVHYVENSLVNSLFGLLCWPAIFAPLPGAFFHPFQRGPVDLLNEDFHDRRAELFAACFAELDDGRYRQTIRQRYAEKWGVQSPFVFWGALSEDLLDQALDCLPAEHLKHWFARLLLDIKANRAGMPDLIQFWPQHKTYRMIEVKGPGDRLQDNQLRWLEFCHEHRMPVAVCYVQWAEQGA				NA	NA	NA	NA	NA
D1-35_03425	225			hypothetical protein	ATGAACATCAGGTTTCTCGGCCTGCCCTTGGTCGTCACCGCGCTGCTGGCGCTGGCCGGCTGCGCCTCGCCGACCGTGGTGACCTTGCAGAACGGTACCCAGTATTTGACCGAGGACACGCCGAACACCCGCACCGCCGATGGCTTCTACGAATTCGAAGACATTTCTGGCCGCAAAGTCCGGGTCCGCGCCGATGAAGTGGCGACGATTCGCAAGGAAGACTGA	MNIRFLGLPLVVTALLALAGCASPTVVTLQNGTQYLTEDTPNTRTADGFYEFEDISGRKVRVRADEVATIRKED				NA	NA	NA	NA	NA
D1-35_03426	921	nodD2_3		Nodulation protein D 2	ATGTCCGCACCCGATTTGAATTTGCTCCTCACCCTGGATGTGCTGCTGTCCGAAGGCAGCGTGGCTGGTGCGGCGCGGCGGCTGCGCCTCAGTCCTTCGGCCATGAGCCGGGCATTGGCGCGGTTGCGCCAAGTCACTGGCGACCCGTTGCTGGTGCGGGCCGGGCGGGGTTTGGTGCCGACTCCGCGCGCGTTGGCGTTGCGCGAGCAGGTCAGTCAACTGGTCCAGGACGCCCAGGCCGCGCTGCGCCCGGAGCAGGCGCCGGATCTGCGTCGAGTGAACCGAACCTTCACGCTGCGTACCCGGCAAGGCTTCGTGGAGAACTTCGCGCTGGAGCTGATTGCCCGAGTCAGCGAACAGGCGCCAGGGGTTCGGCTGTGTTTCGTCGACAAGGCCGATAAGGACAGCGCCGCGCTGCGCGAGGGCAGTGTGGATCTGGAAACCGCCGTGGTGGATGAGCGCACCCGTCCGGAGTTGCGCACGCAGGCGTTGTTTCGAGACCGCCTCATCGGCGTGGTTCGCCCGGGGCATCCGCTGAGCCAGATCGAGGTGAGCGCTGCCGATTATGCGATGGGCGCGCACATCGGCGTGTCCCTGCACGACCTCGATCATGGACCGATGGATCAGGCGTTGGGGGCATTGGGTCTGTCCCGTGAAATCATCACCAGCGTCCCGGGGTTTTCCGCTGCGCTGGGGCTCGCCCGGTCCAGCGACCTCATCGCCAGCGTGCCGGAGCGCTACACCACCCGCTTGCGCGCCGGCATGCACAGTTTTGCGCTGCCGTTTGCGCTGCCCGGGTTCACTATCGCGATGCTCTGGCACCCGCGTATGGATGCCGATCCGGTGCATCGCTGGTTAAGAGGTTGCATGAGAGAGGTTTGCGCGGATCAATACGCGCGCAAAAAACCCGGGGGGCAATAA	MSAPDLNLLLTLDVLLSEGSVAGAARRLRLSPSAMSRALARLRQVTGDPLLVRAGRGLVPTPRALALREQVSQLVQDAQAALRPEQAPDLRRVNRTFTLRTRQGFVENFALELIARVSEQAPGVRLCFVDKADKDSAALREGSVDLETAVVDERTRPELRTQALFRDRLIGVVRPGHPLSQIEVSAADYAMGAHIGVSLHDLDHGPMDQALGALGLSREIITSVPGFSAALGLARSSDLIASVPERYTTRLRAGMHSFALPFALPGFTIAMLWHPRMDADPVHRWLRGCMREVCADQYARKKPGGQ				NA	NA	NA	NA	NA
D1-35_03427	1443	ribZ		Riboflavin transporter RibZ	ATGAAACCCGTTACTGCAGATCACCTGTCAACAAATGCCGACAATCCACCGCAGCACAGGGCACATGGGGCCCTGGCCAGCCTTGCACTGGCAACGCTGCTCGCATCCCTGGGCGCCAGCGTCGCCAGCGTCGGCCTGCCGGTGCTGGCCCAGGCATTCGATGCGTCCTTCCAACTGGTCCAGTGGGTGGTCCTCGCCTATCTGCTGGCGATCACCACGCTGATCGTCAGCCTCGGACGCTTGGGCGACCTGGTCGGGCGCCGCAAGCTGCTGCTGGCGGGCATCGCACTGTTCACGCTGGCTTCGGCCCTGTGTGGCCTGGCGCCGTCGTTGTGGCTGCTGATCGCTGCCAGGGCCCTGCAAGGCGTGGGCGCGGCCATCATGATGACGTTGACCCTGGCCCTCGTCGGCGAAACGGTGGACAAAGCCAGGACCGGCAGCGCCATGGGCCTGCTCGCCACGCTGTCAGCGGTCGGCACCGCCCTCGGGCCGTCCCTTGGCGGCATATTGATCAGCGGGTTCGGCTGGCAGGCGTTGTTTCTGGTCAACGTTCCTCTCGGGTTACTGACGCTGTTGCTGGCCTGGCGTTTTTTGCCTGCCGGATACCCGGCGCAAAAGACCGGGCGCGTGGGTTTCGATGGGCTGGGCACGCTCCTGCTGGCTTTCACACTGGGCGCTTATGCCCTGGCCATGACACTCGGACGTGGGAGCTTTGGCGCACTGAATTTCGGCCTGTTGCTGGCGGCGGTCCTGAGCGGCGGATGGTTCGTCCGGACGCAGAAACGACTCGCGTCGCCGCTGATCCCGCTGCCGATGTTCCGCGACCGCCTGCTCGTCTCGAGCCTGGCTACAAGCGCGCTGGTAGCCGCGATCATGATGGCGACCCTGCTGGTTGGCCCGTTCTATCTCGCCATCGCCCTCGGGTTGCCTCCGACAACGGTGGGACTGGTGTTGGCGGCAGGGCCGTGTGTCGCCGCCCTCGCCGGCATGCCCGCTGGGCGGCTGGCGGACCGTTTCGGCGTGCGCCTCATGCGTCTTGTCGGGCTGACGACCCTGATGTTCGGCTGTCTGCTGCTGTCGCTGGTTCCTCCCGCCTTGGGCATAGCCGGTTATGCCGCGGCCATTGTAGTCACGACACTTGGCTATGCGATGTTCCAGACGGCCAACAATACATCGGTCATGGCCGAGCTCCCCGCCCATCAGCGGGGGGCCATTGCCGGCTTGCTCAACTTGTCGCGCAACCTGGGATTCCTTACTGGCGCATCGGTGCTCGGTGCAGTTTTCGCCAGCACTTTGCCGACGAACGGTATCGGCGCTACAACGCCCGGGACTGCGGCCCACGGCTTGCACGTCACCTTCGCCATTGCCCTCGCAATAGCGGGCCTGGCACTGCTGATTGCGCTGAAATACCGCGATCCAGAGCCGTCGTCCCAACGGCAATAA	MKPVTADHLSTNADNPPQHRAHGALASLALATLLASLGASVASVGLPVLAQAFDASFQLVQWVVLAYLLAITTLIVSLGRLGDLVGRRKLLLAGIALFTLASALCGLAPSLWLLIAARALQGVGAAIMMTLTLALVGETVDKARTGSAMGLLATLSAVGTALGPSLGGILISGFGWQALFLVNVPLGLLTLLLAWRFLPAGYPAQKTGRVGFDGLGTLLLAFTLGAYALAMTLGRGSFGALNFGLLLAAVLSGGWFVRTQKRLASPLIPLPMFRDRLLVSSLATSALVAAIMMATLLVGPFYLAIALGLPPTTVGLVLAAGPCVAALAGMPAGRLADRFGVRLMRLVGLTTLMFGCLLLSLVPPALGIAGYAAAIVVTTLGYAMFQTANNTSVMAELPAHQRGAIAGLLNLSRNLGFLTGASVLGAVFASTLPTNGIGATTPGTAAHGLHVTFAIALAIAGLALLIALKYRDPEPSSQRQ				NA	NA	NA	NA	NA
D1-35_03428	279			hypothetical protein	ATGAATAAAGGATCTTTCAGCAAGGTTACGTTCCCCAACGCCTGCCAATTGATGCGCTGGCATTTCCATCCCATGGGCTTCGAGGCCAGCATGGATGCGCCGGGCAGCATGGTTGCGCGGTTGTTCGACCGTGCCAGCGGCGAAACCATGATCGCGATTGCAGGCATCCCCTGCGCCACCGTGATGAACGCGCCCGATGTGGAGCGGATCATCGAAGCGGTGGAAGCCGAGCTTGAAGCCTTCGTACCGCCGGTTGGCTTGCGACGATTCGCTTCCTGA	MNKGSFSKVTFPNACQLMRWHFHPMGFEASMDAPGSMVARLFDRASGETMIAIAGIPCATVMNAPDVERIIEAVEAELEAFVPPVGLRRFAS				NA	NA	NA	NA	NA
D1-35_03429	2469	rep_2		ATP-dependent DNA helicase Rep	GTGTCGCAACACACTCCCGATCTTCCTCCCGAACTCCTGCCACTGGCCCAGATGCCCTGGCTCAAGCGCCTGGCTGCGCGATTTTTTGGTCATGGCCTGACGCGCCTGCGCGCCCAGCATCGGGCGTCCTGGTTGCATGGCCAGGCCGATGGCTTTCGTAGCGGGCACACCGCGGGTTTTGATTATGGTTTCAAGGAAGGCAAAGCCGAAGGCCTGGAAGAGGGGCGTCAGGTCCTGCTGATCAGGGATTCGCGCAGCACCGAGCATCCGGGGCCTAAAGTCGACGATCTGTTGTTCGATGACTGGCGCCTGCCGCTTACCGCCGAACTGAAGAAGCGCATCAAGGCCGACGTCGCGCGCCTACTACCGGCGCATGCGCAACCCAGCAGTGCGCAGTGGAAGATGATTTTCAGCGATACCCCGGCGACGTCGGTCGTCGCGGGAGCAGGCGCAGGCAAGTCCACAACGCTGGTACTGCGCATCGTGCTGCTCTGTCATTACCTGGGGTTCGAGCTGGATTCGATGACCGTGGTCACGTTTACTCGCGAATCGCGCAAGGATTTCATGCAGAAGCTCATCGACATGTTTGCGCTTTGGGGGCATGCGATCAGCCTGGCGCAGGCACGCGAGCTGGTGCGCACGTTCCACTCGCGAATCCTGCCCATGGTGCGCAGCCTGCCTGGATTCGAACGGCTCCAGGCCTTCGAGGCGCTGAGCCTTCGCGCCGGGCCAAGTGACGATGGCGCCTTGGCCAGCCCATTCGACTTGCGCATCAACGAGGTCCAGCGCCAGCACCTCAACGCCTGTTATCACAGCCTCTACAAGCGTGACGAGCGTTTCCGCGAGCTGATCAAGCCGCTTTCCCGGCACGCCTTGCAGCTCAAGACGCTGGAGCGCGATCACCCGGATGTGCAGAAGCGGATAGCCGTGACTGAACTGGCGGCCCAGCGCGACGAAGCACTGTGCGACGCGATCGAGGATCTCTGGTTCAAGGCGGGCGCCTGGCCAATCAAGGGGATCGAGCCGAAACGCCAGGCCTTTGAAGTCAATGGTTCCAGGTTTCATTCCCACGGTTACGTTCCGTCGCTGGACGCCTGGGTAATGCTGGGTTTCGATCCACGTGAAGATTCTCGGCTCAGCCGGCCCGGCGCCAAGCTGAGCCTGCGCGCGGAATGGGCTGTAAAGCGGACCCTGTTTCAAGCTTTCTGCCGTAAACCTTTGATATGGCTAGATAGTTATGAGGAGTCCAGGCGCGTATTGGCCTCGTTGGCCGGGGATGCCAGTGCCGGTCCGGGGTTCGATTACAAGGTCAAGGGAGAGCTGGGCTCCGCCCCTTTGCTGGACTGTTTTGTCGCAGCGGCAGGGTTCATCGAGAATCTCGCCCTGGATGTCCCTGATGCCGTGGGCCAGATGAGTTTCTCCCATGACGATCCCGATCGGTATTTCTTCGAAGCGTTGAGCCGCTTCTGGCGCGCTTTCGAGGATCATCTGCTCGACCAGTCGCCGCCGGTCATGACCTACAACCGCATGTTTGCGCTGTTCAGCGAGCATTCAGAGGAAAACCTCAAGCTGCTCGACGACGCGCTGTTGCGGCCGATGGCCCACTTGATGATCGACGAGTTCCAGGATGTTTCGCCGCAGATCGTCTCCTGGATCCGAGCGAGCCTGCGCGAAGTGCGCAGGCGCGGTGCCGCGCTGCATGTGGGGCGCGCCGCCCAGCGTTCTTCGCTGTTGTGCGTGGGTGACGACTGGCAATCGATCTATGGCTGGCGGGGCAGTTCGCCAAGTTTCTTCATGGCCTTCAACAAGCAATTCCCGTCCCCGGCCAGCATGCGGGTGATGCTCACCGAAAACTACCGCAGCCATCAATACATCATCGACGCCGCCGAGCATGTCGTGCGCGCGGCGGCGGCCATGCCTGGCAAAAAAGCCAAGGCCAGCGGCGTGTCACGAACGCCAAGTCCGGTCAATGTGCTGGATCGGGATGACGAAGGGTTGGCGCGGCGGCTTGATGAGCATTACCGGAAGGGTGATTCGATCTTGATGCTGTATCGAAGAAGTAGCGACAAGTCATTGTTGGAAAAGCATATTCAGCCAATAGTTAATGTTGATTCTAGCTTGCCGGTGCCAATGAGGCGCTTCAGGCAAATGACTTATCACAGCGCGAAAGGCCTTGAGGCGGATGCGGTATTCCTGCTGGGTGACTGCCAGCATCTGACCAGTTCGCCGTACAAGAACCAGGTCTACCGGATGGCCGGGCTGGGCCAGGACGGCGACACCGAACCGTACGACACGGCGCAAAAAGATGAAATTCTGCGCTTGGCATACGTGGGGATCACGCGGGCGGTGCAGCATTGCTACTGGTATGTGGACGGCCAGGACAGTCAAGCCGCCAACGCGCCCAGAGCCTCGGACCGTGTCGCGGCGGGCAAGCCATTCTTTGTCGATCATCGCCGTGCGCGCGGCTGA	MSQHTPDLPPELLPLAQMPWLKRLAARFFGHGLTRLRAQHRASWLHGQADGFRSGHTAGFDYGFKEGKAEGLEEGRQVLLIRDSRSTEHPGPKVDDLLFDDWRLPLTAELKKRIKADVARLLPAHAQPSSAQWKMIFSDTPATSVVAGAGAGKSTTLVLRIVLLCHYLGFELDSMTVVTFTRESRKDFMQKLIDMFALWGHAISLAQARELVRTFHSRILPMVRSLPGFERLQAFEALSLRAGPSDDGALASPFDLRINEVQRQHLNACYHSLYKRDERFRELIKPLSRHALQLKTLERDHPDVQKRIAVTELAAQRDEALCDAIEDLWFKAGAWPIKGIEPKRQAFEVNGSRFHSHGYVPSLDAWVMLGFDPREDSRLSRPGAKLSLRAEWAVKRTLFQAFCRKPLIWLDSYEESRRVLASLAGDASAGPGFDYKVKGELGSAPLLDCFVAAAGFIENLALDVPDAVGQMSFSHDDPDRYFFEALSRFWRAFEDHLLDQSPPVMTYNRMFALFSEHSEENLKLLDDALLRPMAHLMIDEFQDVSPQIVSWIRASLREVRRRGAALHVGRAAQRSSLLCVGDDWQSIYGWRGSSPSFFMAFNKQFPSPASMRVMLTENYRSHQYIIDAAEHVVRAAAAMPGKKAKASGVSRTPSPVNVLDRDDEGLARRLDEHYRKGDSILMLYRRSSDKSLLEKHIQPIVNVDSSLPVPMRRFRQMTYHSAKGLEADAVFLLGDCQHLTSSPYKNQVYRMAGLGQDGDTEPYDTAQKDEILRLAYVGITRAVQHCYWYVDGQDSQAANAPRASDRVAAGKPFFVDHRRARG				NA	NA	NA	NA	NA
D1-35_03430	1647	pgm	COG0033	Phosphoglucomutase	ATGACAGTCAGTCCATTTGCGGGCAAGCCGGCGCCGGCAGAGTTGTTGATCGATATCCCGCGACTGGTGACGGCGTATTACACCGGCCGGCCCGACGCCTCGATTGCGACCCAGCGCGTCGCGTTCGGCACTTCCGGGCACCGTGGCAGTTCGTTCGATCTGGGGTTTAACGAATGGCACGTACTGGCCATCAGTCAGGCGATCTGCCTGTACCGTGAAGCCCAGGGCATCGACGGACCGCTGTTTGTCGGTATCGACACTCATGCACTGTCGACTCCGGCGGGAGCCAGCGCGTTGGAAGTGCTGGCCGCCAATGGCGTGACCGTGATGATCGCCGAGGGTGACGAGTACACCCCGACGCCAGCGATTTCCCACGCCATCCTGTGCTACAACCGTGGCCGTACCACTGGGCTGGCTGACGGCATCGTCATTACGCCGTCGCACAATCCGCCGCAAAGTGGCGGCTACAAATACAACCCCACCAATGGCGGTCCGGCCGATACCCATATCACCAAATGGATTGAAGCCAAGGCCAACGAGCTGCTGGCCAACCAGTTGGTTGGCGTCAAGCGCATCAGCTACGAACAGGCGCTCAAGGCCGACACCACTCACCGTCACGATTACCTCAATACCTACGTGGCAGACCTCGGCAACGTCATCGATTTCGATGCGATCCGTGGTGCAGGGCTGCGCCTGGGCGTAGACCCGCTGGGCGGCGCTGGCGTGCGCTACTGGCCCGCCATCGCCGAGCACTATCGACTGGACCTGGAAGTGGTCAACACCCAGGTGGATTCCACCTTCCGCTTCATGACGGTCGATTGGGACGGGCAGATCCGCATGGACCCGTCCTCCAGCCACGCCATGCAAGGGTTGATCGGTTTGAAGGAGCGCTTCGACGTGGCCTTCGCCTGCGACCCGGATCATGACCGCCACGGCATCGTGACGCCGAGTGGCGGCTTGCTGGCGCCGAACAATTACCTGGCGGTCTCCATCGATTACCTGTTCCAGAATCGGCCGCAATGGCGTGCCGATGCGGCGGTCGGCAAGACCGTGGTCAGCAGCGGCTTGATCGACCGCGTGGCCAAGCGCCTGGGCCGCCGCCTCTATGAGGTGCCGGTGGGCTTCAAGTGGTTCGCCGACGGCCTGTTCGATGGTTCCCTTGGCTTTGGCGGAGAAGAAAGCGCCGGTGCCTCGTTCCTGCGCAAGGATGGCGGCGTATGGAGCACCGACAAGGATGGGCTGATCCCAGCCTTGTTGGCCGCTGAAATGACGGCTCGCACCGATCGCGACCCGAGCCAGGCCTATCGCGCCCTGACGGATGAGCTGGGCGAGCCGTTCTCGGTACGTGTCGATGCCAAGGCCAGCCCGCAGCAGAAAGCGCTGCTGAGCAAGCTGTCGCCGGATCAGGTCCAGTCCACTGAGCTGGCGGGCGAAACGATCCAGAGCATCCTCAGCCACGCCCCGGGTAACGACCAGGCCATCGGCGGCCTGAAAGTCATGACCGAAAATGGCTGGTTTGCCGCGCGTCCGTCCGGCACCGAGGACATCTACAAAATCTACGCCGAAAGCTTTATTGGCGACGAGCACCTGAAACAGCTGGTGGTCGAGGCCCAGGCGCTCGTGGATGGCGCAATTTCCGGGCAGTGA	MTVSPFAGKPAPAELLIDIPRLVTAYYTGRPDASIATQRVAFGTSGHRGSSFDLGFNEWHVLAISQAICLYREAQGIDGPLFVGIDTHALSTPAGASALEVLAANGVTVMIAEGDEYTPTPAISHAILCYNRGRTTGLADGIVITPSHNPPQSGGYKYNPTNGGPADTHITKWIEAKANELLANQLVGVKRISYEQALKADTTHRHDYLNTYVADLGNVIDFDAIRGAGLRLGVDPLGGAGVRYWPAIAEHYRLDLEVVNTQVDSTFRFMTVDWDGQIRMDPSSSHAMQGLIGLKERFDVAFACDPDHDRHGIVTPSGGLLAPNNYLAVSIDYLFQNRPQWRADAAVGKTVVSSGLIDRVAKRLGRRLYEVPVGFKWFADGLFDGSLGFGGEESAGASFLRKDGGVWSTDKDGLIPALLAAEMTARTDRDPSQAYRALTDELGEPFSVRVDAKASPQQKALLSKLSPDQVQSTELAGETIQSILSHAPGNDQAIGGLKVMTENGWFAARPSGTEDIYKIYAESFIGDEHLKQLVVEAQALVDGAISGQ	PGPT0017710_3015	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017710-pgm-K01835	NA	NA
D1-35_03431	1398	norG_5	COG1167	HTH-type transcriptional regulator NorG	ATGAAGGGCCACCGTGAAACAGACTTCACCTACCAGGCGGTTTATCGGTACCTGACGAACCTGATCAATGAGCTGGGCGCTGATGCTCGGGTGCGTCTGCCGTCATTGCGGCAGTTGGCCGAGCGCCTCAATGTCTCCATATCCACCATCCAGTACGCTTACTCCCTGCTGGAAAAGGAAGGGCGGGTCTATTCGATTGCCAAGTCCGGATACTACGCATTGCCGATGGTCAGCGTGTCCACTCTTGGCGATGGCGATGATTTGCTGGAGACCCTGTACGTCAACGCGCGTCGCCCAGGCATGCTGGTGCTCAGCGGTGATGAACCGGCTTCGTTGCAGCCGCTCGACAGTCCGCTTCTGTTGCTTGAACGCGAGCTCCTGCGCCAGTACCCCCGCGCTTCACAACATCCCCTGCAGCCCTGGGGAGAGCAGGAGTTGCGAACCGCACTGGCGGCACGCTACACCTCTTCACCGTCGCGATGCTGGAGTGCCGATGACGTCTATATCGGCGCTGACTTGCGCGGCGTTCTGGAAATCCTGATAGCGGTGCTGGCACTCAAGGGCAACACGGTGCTCGTGGAGTCGCCCTGCGAATGGACCGTCCTGCGTTTGTTGCAAGCGGCCGATATCCGCGTCATCGAGCTGCCCTTGCTGGACGAGGGGGAAATCGATATTGAACAGTTGGAGCGGTTGCTGGCGAATGAAACGGTATGCCTGATGATGGTGTCTTCGGTGTTGAGCATGCCCAGGAGCAGGTTGAAAAGTGCAGCCGACCGGCGAGCACTGGCGCGTCTGCTGGAACAGTACGGCACATGGGTACTGGAGAACGACAGCCATACGGAGCTGGTATTCGAGCCCGGCTCGTTGCCTTTTCGAGAGTGGCTCGACCCGGACCGGCTGATCGTGTATTCCACCTTCGAGACAACCATAGGGCCCGAGGCGCCCTACGGTTATGTGCTGTCGCGCCAGCTGACGCTGATGTTGCAGCGTCATTTCCTGTTGCGCGCATTTCGTCTTTCGCCGATTCGCCAGAAAGCGATTGCGCGTTTATACAACAATGGCCGGATCGACCAGCATCTACTGGTATTGCGACGCCTGCTACGCGAAAGCGCCACGTCGGCGACGCAACTGTTGCGCGAGCGAGTCGGAGACTGCCTGCAATGGGAGGAGCCCGAGGGCGGCGCAACAATCTGGGTACGCTCTTCACGCCAGGTCGATCTGCGGCGGGTTTTCCAACGGCTGCTCGCCCGGCGAATCGTCATCGCGCCGGGAGAGCTGTTCAGCACCCAAGGACGATATGACCAGCATTTTCGGTTGGCTCATGCTCTCGACGGCGTGGGCGGCCGGGAAGCGGCCTTCTGCGCACTGGCCGAGGCCCTGAGGCTCGAACAATCCTGA	MKGHRETDFTYQAVYRYLTNLINELGADARVRLPSLRQLAERLNVSISTIQYAYSLLEKEGRVYSIAKSGYYALPMVSVSTLGDGDDLLETLYVNARRPGMLVLSGDEPASLQPLDSPLLLLERELLRQYPRASQHPLQPWGEQELRTALAARYTSSPSRCWSADDVYIGADLRGVLEILIAVLALKGNTVLVESPCEWTVLRLLQAADIRVIELPLLDEGEIDIEQLERLLANETVCLMMVSSVLSMPRSRLKSAADRRALARLLEQYGTWVLENDSHTELVFEPGSLPFREWLDPDRLIVYSTFETTIGPEAPYGYVLSRQLTLMLQRHFLLRAFRLSPIRQKAIARLYNNGRIDQHLLVLRRLLRESATSATQLLRERVGDCLQWEEPEGGATIWVRSSRQVDLRRVFQRLLARRIVIAPGELFSTQGRYDQHFRLAHALDGVGGREAAFCALAEALRLEQS				NA	NA	NA	NA	NA
D1-35_03432	1485			hypothetical protein	ATGAGTGCAATTCATCAACAGGCAATGACTTACGTATATCAACAGGTATTGCAACGCTTGTTGGAATTTTATTCCCGTGCGGAACGGACCGCACTGCAGCTTCTGGTCCAGCGATTGATCGTCGCCGCTGGCGGTATTGAACGAATTGGCACCTATCGGGTGCTGGTGGCCCAGAATGGCAGTCGGGAGGGGTTCTATGCGCTGACGGCCCTGCGCGCCGCGCAGTTGAGCATTGCTGGCCGGCATCCGACGACTTTCGACCTGCGCGTCGCCACGCCACGCCTGGGCGAGATGACCCAGGCCACCCTGGAGAATATCCACTGTTGCTACAGCGCTCTGTTTCTCTACGACGACCCACGGGTAGAGCTGCTGATGGCGGACAATCGAGAGGTGGTGCCGTTTGATCGCTCCAAGCCGTTATCGGCGCAAGGGCGCGAGGCCAATCGCACTGACATGCTGATGCTTGGGCACCTGCGTTCCTCCGACAGCCTCCTGGGCGTGGGCGACGAAGGCTACCTGGCGATGGCGGAGTTCTACAAGAACATGGCTCGCTGGGATGCGGGCGTGGATTCATGGGTCAGTTGCGACACGCCACGCCAGCAAAAGCAGTTCCTGTCCGGGTTGCGCCGGGCGACCCGCAAGATCGGTCTGGTGTTTGAGCCCGTGGGTGGATTCGACGGCCTGTTTGCCCAATTCGATTTCCTGGGCAGTGACCTGTTCCGGCGTTTTTATGGCCAGGAGCACCTGGGTGTCTGGCAACCCGAAGGGCGGCTGGAGGCCTGCCGGCAAGTCGGGCACATCCGTATCGATGATCTGATCACCGAGCGGCTGGAAGAAAGCAACTGGGCGTTGTTCAGCGAATTCCTCGGCGTCAGCTCCGATGAGCTGGTTGCGCCATCGCTTGAGCATGAATACCTGAGTCCGTACCTCTCGGCCCACCTATGTGGCTTGCAGGCCTGTCATCAGCAGGAGCGCGGCTATGCGGCTGGCTACACCGATTACGTGCAACGCATGATCATGGTCATGCACCGCAAGCGTATGCCGGAGCCCGTCTGCCAGCAGGTCCAGGGGCTGTTGGGTGCACCGTCGGAGATTCCCGAGCGTCGAGCCGTGATCGCCCTGGAAACGGAAAAAAATCTGAATCTGAACGAAACGCAACTGGTCTGCATGCTGTTTGCGCCCTTCGTTGAAAAGGGCGCCGGCCTGGAGCATTTCCTGCGGTGCTGTCATCCCGGCATGCTGGTGGGCATGCCCGACCTGCACAGGGCGTTGCGGGGCGGCCCGGTCACGGATCAGGTGGCGCATTGGATGGTTGATGTCAGTGGCCTGCCCGTTGCAATGCTGTGCAAGTTGTACCGGGCCCGAATCACCACGCCGGAGCCGGAAATCATCCGGGCGGACCCGCAAACGGCCATGGAGGGCGCTGATACGGACCAGGGCGGGCAGGGCGCCGATGGTCCCGGCGAACGTGCAGCGCGGCGCTGA	MSAIHQQAMTYVYQQVLQRLLEFYSRAERTALQLLVQRLIVAAGGIERIGTYRVLVAQNGSREGFYALTALRAAQLSIAGRHPTTFDLRVATPRLGEMTQATLENIHCCYSALFLYDDPRVELLMADNREVVPFDRSKPLSAQGREANRTDMLMLGHLRSSDSLLGVGDEGYLAMAEFYKNMARWDAGVDSWVSCDTPRQQKQFLSGLRRATRKIGLVFEPVGGFDGLFAQFDFLGSDLFRRFYGQEHLGVWQPEGRLEACRQVGHIRIDDLITERLEESNWALFSEFLGVSSDELVAPSLEHEYLSPYLSAHLCGLQACHQQERGYAAGYTDYVQRMIMVMHRKRMPEPVCQQVQGLLGAPSEIPERRAVIALETEKNLNLNETQLVCMLFAPFVEKGAGLEHFLRCCHPGMLVGMPDLHRALRGGPVTDQVAHWMVDVSGLPVAMLCKLYRARITTPEPEIIRADPQTAMEGADTDQGGQGADGPGERAARR				NA	NA	NA	NA	NA
D1-35_03433	1026	tdh		L-threonine 3-dehydrogenase	ATGTCCCGCACGATCCGTTTTCACAAGTTTGGTGGTGCCGAGGTGCTCAAATGCGAAGAGCATGCGGCGGCTCTTCCTGCGCCAGGAGAAGTGCAGGTCCGCGTCGAAGCGATCGGCATCAGTTGGTACGACACCCTGTGGCGCCAGAACCTGGCATCGTCCCAGGCGCGCCTGCCTTCAGGCCTTGGCCATGAAATGGCCGGCGTGGTGACAGCCGTCGGCGACGGGGTCGATGACTTGGCCGTAGGCGACAAAGTCGCCAGCTTCCCCGCCGAGAGCCCGAACGATTATCCGGTGTACGGTGAGGTCATCGTCCTGCCGCGCACCGCTTTGACCCGCTATCCCGACGTGCTCAGCCCGATCGAGGCCGCGGTCCATTACACGCCGCTGCTGATCGCCTATTTCGCCTACATGGACCTGGCAAGGGTCAAGCCCGGGCAGTTTGCGCTGGTGACCGATGCCAGCCATTGCGCCGGTCCTTCCTTCGTGCAACTTGGCAAGGCGTTGGGCGTGCGGGTGATCGCCGCCACCAAGACGGCTGAAGAGCGTGAATACCTGCTGTCGCTGGGCGCCGAAAAAGTCATCGTCACCGAAGAGCAGGACTTGTTGATGCAAATCAACAAGCTCACCGACAGCCGTGGCGTCGATGTGGTGTTCGACGGCTTGGGCGGGCCGCAGATGTCGCTGCTCGGCGATGTCCTGGCGCCCCGTGGCAGCCTGGTGCTGTATGGCTTGCAGGGCGGCAACCAGACACCGTTTCCAGCCTGCGCGGCGTTCCAGAAGAACATCCAGTTCTTTGTCCACTGCATCGGCAATTTCACCGGCAAGCCGGAGCTGGGCATTCTCCAGGACCAGGTCGCGTTGCAACGGGCGTTGCGTGATATCAACCAGTTGACCGCCGACCGTGTCCTGTTGCCCCTCAAGACTCGGGTGTTCCCGTTCTCCGAGTTCGTCGAGGCCCATCGGTACATGGGCGAATGTCCTTGCCGTGAACGCGTTGCCCTCCAGGTAGTCGACCCCGCCTGA	MSRTIRFHKFGGAEVLKCEEHAAALPAPGEVQVRVEAIGISWYDTLWRQNLASSQARLPSGLGHEMAGVVTAVGDGVDDLAVGDKVASFPAESPNDYPVYGEVIVLPRTALTRYPDVLSPIEAAVHYTPLLIAYFAYMDLARVKPGQFALVTDASHCAGPSFVQLGKALGVRVIAATKTAEEREYLLSLGAEKVIVTEEQDLLMQINKLTDSRGVDVVFDGLGGPQMSLLGDVLAPRGSLVLYGLQGGNQTPFPACAAFQKNIQFFVHCIGNFTGKPELGILQDQVALQRALRDINQLTADRVLLPLKTRVFPFSEFVEAHRYMGECPCRERVALQVVDPA				NA	NA	NA	NA	NA
D1-35_03434	915	nodD2_4		Nodulation protein D 2	ATGAATCGTAATGACCTGCGTCGTGTCGACCTGAACCTGTTGATCGTGTTCGAAACATTGATGCATGAGCGCAGTGTGACCCGCGCCGCCGAGAAATTGTTCCTCGGCCAACCGGCCATCAGCGCCGCGCTGTCGCGCCTGCGCAGCCTGTTCGACGATCCGCTGTTCGTGCGCACCGGGCGCAGCATGGAGCCCACCGCGCGGGCGGTGGAAATCTTCGCCCTGCTCTCTCCGGCCCTGGATTCGATTTCCACGGCGGTCAGCCGGGCGGCGGAATTCGATCCTGCCACCAGCACCTCGGTCTTTCGCATCGGCCTGTCGGATGACGCCGAGTTCGCCCTGCTGCCGATGCTGCTCAAGCGCCTGCGGGCCGAAGCGCCAGGCATCGTGCTGGTGGTGCGCCGGGTCAATTACATCCTGATGCCGGGCTTGCTGGCCTCCGGCGAAATCTCCATCGGCGTCAGCTACACCGACGACCTGCCGGCCAACGCCAAGCGCAAGGTCTTGCGCCGCAGCTCGCCGAAAGTGCTGCGCGCCGACACCGCGCCGGGACGTCTGACGCTGGACGAATTCTGCGCCCGCCCCCATGCGTTGGTGTCCTTTGCCGGCGACTTGAGCGGGTTCATTGATGAAGAGTTGGAAAAGCTCGACCGCAAGCGCCATGTGGTATTGGCCGTACCGCAGTTCAACGGCCTGAGCACGCTGCTGTCGGGCACCGACATCATCGCCACCGTGCCCGACTACACCGCCGAAGCACTGACCGCCGCCGGCGGCGTGCGCGCTGAAGACCCACCGATCCCCGTGCGCAGCTTCGAACTGCACATGGCCTGGCGCGGCTCCCAGGACAACGACCCGGGCGAACGCTGGTTGAGATCGCGGATTCAGATGTTTTTTGGGGACCCTGAGAGTCTTTAG	MNRNDLRRVDLNLLIVFETLMHERSVTRAAEKLFLGQPAISAALSRLRSLFDDPLFVRTGRSMEPTARAVEIFALLSPALDSISTAVSRAAEFDPATSTSVFRIGLSDDAEFALLPMLLKRLRAEAPGIVLVVRRVNYILMPGLLASGEISIGVSYTDDLPANAKRKVLRRSSPKVLRADTAPGRLTLDEFCARPHALVSFAGDLSGFIDEELEKLDRKRHVVLAVPQFNGLSTLLSGTDIIATVPDYTAEALTAAGGVRAEDPPIPVRSFELHMAWRGSQDNDPGERWLRSRIQMFFGDPESL	PGPT0028130_494	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexEF-OprN,PGPT0028130-mexT-K18297	NA	NA
D1-35_03435	273			hypothetical protein	GTGCTCACCCCTCACCAGGAACAGGTTATCCATGACTTGGTGCAGTCCGGCCGTTATCAGAATGCCAGCGAAGTGATGCGAGAAGGTTTACGTTTATTGGAGCAGCGTGTCGCCGAAGACAGCGCCAAAATCGAGGCCCTGCGTCAGGCGACCTCAATCGGCATCATGGATCTTGAGCACGGGCGCTTTACTCAGGTGACCGAAGGGGATCTGGAGCACTACCTCGAGGGCTTGAGCCTGGAGGCAGCCCTCCCCACGCGCGAGAAACACTGA	MLTPHQEQVIHDLVQSGRYQNASEVMREGLRLLEQRVAEDSAKIEALRQATSIGIMDLEHGRFTQVTEGDLEHYLEGLSLEAALPTREKH	PGPT0027540_170	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-ParE-ParD|paaAR_TOXIN-ANTITOXIN_SYSTEM,PGPT0027540-antitoxin_parD1_3_4-K07746	NA	NA
D1-35_03436	357			hypothetical protein	ATGCCGCAGTTTCGGATTTCCAACCCGGCGCGCGCCGACATTGTCGACATTCTCAGGCTCTCGCAGACGCAGTTCGGCGATCAAGCTCGTCAGCGCTACCAAGCGCTGATCCCCGCGGCGCTGCAAGCGCTTGCCGACACGCCTTATCGCATCGGCAGCCACGACCGCGATGAGCTTGCACCGGGCCTTCGCAGCTATCACCTCATCTATTCACGCCTGCAGGCCAAACAAACCCATGGAACGGTCAAAAGCCCACGCCATATCGTGTTCTATCGTGTGGCAAACGACGACGTGATCGAGGTCGTCAGGCTCCTTCATGACGCCATGGAAGTGCCGTTGCACTTGCCTAACGATTGA	MPQFRISNPARADIVDILRLSQTQFGDQARQRYQALIPAALQALADTPYRIGSHDRDELAPGLRSYHLIYSRLQAKQTHGTVKSPRHIVFYRVANDDVIEVVRLLHDAMEVPLHLPND	PGPT0027550_121	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-ParE-ParD|paaAR_TOXIN-ANTITOXIN_SYSTEM,PGPT0027550-toxin_parE1_3_4-K19092	NA	NA
D1-35_03437	555			hypothetical protein	ATGTCGAAGCATTTGCTGTTGGGCTGGACCCGTTCCTTGTGCGTGCTTGCTGCCTTGAGCGGCGCGGCCACCCTGGCAGTTGCTGCCTCGCCTGAAAAAACCGCTACGACGGCATCGGATACGCAAGCGGTGTCCCTGGCAGGCGGCAAGCTGAAGTTCGTGCTGAACGGCGTCGAGGCCCGTACCTTGAACAGCGACAACGGCGGCACGATGTACTTCGATCCGAAAAGCGAGCGGGCCATCATCGTTACCGAAGGTCCGGCGCCGACTGCGGGCACCACCCAGGACGCTGCGTTTCGCCTTGCCGTGGATACCGTGAAGGAAAAGCAGCAGGCCGCGTCAGCCAACTTTCGCATGACTGGCGAGAAGACCATTCAGGTGAACGGCCTGAAGATGTACCGCCTGGACGGCACCGACGATTTCAACGGCCTGAAACTACTGATGGCCTCGTTGATGACGATGAACGATCAGAACATCACTATCATCGAAGTGATGTCCAGCGTAAACGACCCGTCCGGCCACACCGCTGCGTTGGAGAATATTCTGGGCAAGTAA	MSKHLLLGWTRSLCVLAALSGAATLAVAASPEKTATTASDTQAVSLAGGKLKFVLNGVEARTLNSDNGGTMYFDPKSERAIIVTEGPAPTAGTTQDAAFRLAVDTVKEKQQAASANFRMTGEKTIQVNGLKMYRLDGTDDFNGLKLLMASLMTMNDQNITIIEVMSSVNDPSGHTAALENILGK				NA	NA	NA	NA	NA
D1-35_03438	114			hypothetical protein	GTGGCCAATGTCTTCCAGGATTTCCCGGCGATACGACCCCGTGAAATGACGGGCGAATGGGTCCTCCTCGGCAGGCGGATCAACCGCATCAGCGCCACCCTCCAGAACCAATGA	MANVFQDFPAIRPREMTGEWVLLGRRINRISATLQNQ				NA	NA	NA	NA	NA
D1-35_03439	528	dhmA_1		Haloalkane dehalogenase	ATGAAAACCGTTAAAGCCGGTGTTCTGGAAATCGCCTATCTGGAGGTCGGTCCGGTCGACGGGGCCCCCGTCGTGTTGCTCCACGGCTTCCCCTATGACGTGCATGCCTACGAAGAAGTCGCCAGGATCCTGGCTTCAGCTGGAAAGCGATGCTTGACGCCTTACCTTCGTGGCTACGGCCCCACCCGATTTCTGGATGAGCAGACAATGCGCTCTGGAGAGCAGGCGGCAATAGGAGCCGACCTGTTGGCTTTTCTCGACGCACTGAAAATCGAAAAAGCTGTACTTGCGGGTTATGACTGGGGCGGAAGAGCGGCTTGCATCGTCGCCGCGCTATGGCCGGAAAGGGTAAGCGGTTTGGTCAGCTGTGGTGGCTACAGTATTCAGAATATCGCTGAAGCGCACCAGCCTGTTTCTCCCGAGGCTGAGCACCTGCTCTGGTATCAGTACTATCTTCACGGTAGCCGTGGTCGCGCTGGATTGACCTCGAACAGAAAGGATTTCTGCCGCTTGTTATGGCGCATGTGA	MKTVKAGVLEIAYLEVGPVDGAPVVLLHGFPYDVHAYEEVARILASAGKRCLTPYLRGYGPTRFLDEQTMRSGEQAAIGADLLAFLDALKIEKAVLAGYDWGGRAACIVAALWPERVSGLVSCGGYSIQNIAEAHQPVSPEAEHLLWYQYYLHGSRGRAGLTSNRKDFCRLLWRM				NA	NA	NA	NA	NA
D1-35_03440	969	rhaR_2		HTH-type transcriptional activator RhaR	ATGAAAAACCACAACATCAGCCATTTCCGCGATATTCATGTTCACGCCGCTACCGTCCAGGAGTGGAACCAGGATTACAACCAACTGACCGCCGGCTCGGCCGAGAGCTCGCTCATACAGCTGAGCACCGCGCGCTGCCACGTATTCCGCGAGAAGATCAACCAGCGTGTCGTGCAGCACGGCGTCGCGCCCCGGGGCAAGATGTGTTTCGCCGTGCCCATCACGGTTCCGGGTTCGATCCGGATGCAAGGGCGGGAGGTCGACGACAGCAGCCTGTTCTTCCTGCACGGGGGCGAGGAGTTCATGTTCCATATGCCGATGGGCATGGAGCTGCTGGCCATTACCTTCGAGCGCGAATGGTTCGAGCAGGCGCTGGCACAAACCACCTCGGCAAAGGAAATCGGTCAATTGCTGCGGCAGCCGGTCATCAGGCTGCCCACTCAACGTTATGCCGACGCCCGCCGTCGCATGCTGGCGGCATTCTCCCTGGCTGTCTCAAGCGAAGAGCTCGACCCGACGCAAGATCGCGAGCTGGCGCTGGAACAGGCCATGCTCGGCGAGTTGCTGCAACTGATGACCGATCCGGCCTGCGACAAGCAGCAGCGCACGCCAAGCTCGACGCGCAGTTACATTGTCGAAAAATGCCACCGTCTGGCGACCGCGGAACTGAACAACGTGCCCAGCGTGGACGACCTCTGCCAGCGCCTCCAGGTGAGCCGGCGTACCGTGCAGAACAGCTTCCGCTCGGTTGCCGAGACCACGCCAATCAACTATCTGCGCTCCGTCAGGCTCAACGGTGTGCGCCGGACCTTGATGTCTACCCGGGCGTCCCATCTGTCGATCGGCGACGCCGCCGCCCAATGGGGTTTTTATCACCTCAGCCATTTTGCCGCGGAGTATCAGGAGCTGTTCGCGGAATTGCCCTCCCATACTGCCCGCGCCGCCATTCCCGATTGCGCCCATGCCTGA	MKNHNISHFRDIHVHAATVQEWNQDYNQLTAGSAESSLIQLSTARCHVFREKINQRVVQHGVAPRGKMCFAVPITVPGSIRMQGREVDDSSLFFLHGGEEFMFHMPMGMELLAITFEREWFEQALAQTTSAKEIGQLLRQPVIRLPTQRYADARRRMLAAFSLAVSSEELDPTQDRELALEQAMLGELLQLMTDPACDKQQRTPSSTRSYIVEKCHRLATAELNNVPSVDDLCQRLQVSRRTVQNSFRSVAETTPINYLRSVRLNGVRRTLMSTRASHLSIGDAAAQWGFYHLSHFAAEYQELFAELPSHTARAAIPDCAHA	PGPT0000623_369	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ETHANOLAMINE_USAGE	N-AQUISITION-ETHANOLAMINE_DEGRADATION,PGPT0000623-eutR|yfeG-K04033	NA	NA
D1-35_03441	1374		COG0160	Isoleucine 2-epimerase	ATGAGTGAAGCCAAACTTGAATCCCTGCATTTTGCGGATGCCCCGCGGATCACCTCCGCCATTCCCGGCCCCCGGACCATCGAGGCCCTGGCGTTATCGGCGCGTACCGAGTCGATGGCGCGCGGCGGCGGACGCATGCCCGTGGCCATGGACCGGGCTTTTGGCGCGACCTTCAAGGACCCCGATGGCAACACCTATATCGACCTGTCCGCCGGCGTGGGCGTCAGCAGCGTAGGCCGCTGCCATCCGAAGGTGGTGCAAGCGATCCGTGAACAGTCCGAAGTGCTGATGCACGCCCTGGAAGTGAACAGTACCCGGCGCACCGAACTGGCGGCGAAGATTGCCGAAATCGCTCCCGACGGCTTGCGCGGCGATTGCATAACGTTCTTCACGCAAAGCGGCAGCGACGCGCTGGAAGCCGCGGTCAAGTTCGCCAAGCGCATTACCGGGCGGCATCAGATCATCGCTTTCCACGGTGGCTACCACGGCGTCTGGAACGCCTCGGGCGCGCTGACCACTGGCACGGCCTACCGCAAGGGCTACGGTGCCCAGATGGGCGGAGTCATTCATGCGCCCTACCCTTACGCCTATCGTTTTCCCTTCGACACCACGCACAAAAGCGCCGAGCAGATCGCCGGCGAATACGTGGATTACTTGCTGAACACCCCTTACACAGCGGCCGATGACGTGGCCGCGGTGATCGTCGAACCGGTCCAGGGCGAAGGCGGCTACGTGCCCCCGTCGCCAGAGTTCCTGCAATTGTTGCGCAAGGCCTGCGACCGCAGTGGCGCGTTGCTGATCGTCGATGAAGTGCAGTCCGGCGCGGGACGCACCGGCAAGATGTGGGCGGTCGAACATTCAGGCGTGAAGCCCGACATGCTCACCTTCGGCAAGGGCATCGGCAGCGACCTGCCGATGGCGGGCCTGATCATGCGCTCGGACCTGGCGGCGGCGATTCCTGACGGCTCGGTGCCCAATACCTTTGCCGCCAACTCACTCTCGGCGGCAGTGGCGCTGACCAATATCAGCATCCTCCAGGACCCCGAGCTCGACCTGCTCAACCGCGCCCACACGCTCGGGCTGGAAGCACAGGAACGCATCCGCGGTTTCGACAGCCCGTTCATCGGCGAGGTGCGCGGTCGCGGCCTGATGATCGGCATCGAGCTGGTCGAGGACCCGGTCACCAAGGCGCCGCTGGCGCCGGCCAGGATCGGCCAACTGATGGGCTACCTGCTGAACCACGGCGTACTGATGATTCCCTGCGGTCGCTACAGCAACGTGATGCGGGTGATGCCTTCGCTGACGATCCCACGCTCGATGTTCTTCAAGGCCCTGGACATTTTTGGCGACGCCCTGGCCACCCTCAAGGCATGA	MSEAKLESLHFADAPRITSAIPGPRTIEALALSARTESMARGGGRMPVAMDRAFGATFKDPDGNTYIDLSAGVGVSSVGRCHPKVVQAIREQSEVLMHALEVNSTRRTELAAKIAEIAPDGLRGDCITFFTQSGSDALEAAVKFAKRITGRHQIIAFHGGYHGVWNASGALTTGTAYRKGYGAQMGGVIHAPYPYAYRFPFDTTHKSAEQIAGEYVDYLLNTPYTAADDVAAVIVEPVQGEGGYVPPSPEFLQLLRKACDRSGALLIVDEVQSGAGRTGKMWAVEHSGVKPDMLTFGKGIGSDLPMAGLIMRSDLAAAIPDGSVPNTFAANSLSAAVALTNISILQDPELDLLNRAHTLGLEAQERIRGFDSPFIGEVRGRGLMIGIELVEDPVTKAPLAPARIGQLMGYLLNHGVLMIPCGRYSNVMRVMPSLTIPRSMFFKALDIFGDALATLKA	PGPT0007140_180	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007140-puuE-K00823	NA	NA
D1-35_03442	1455	puuC_3	COG1012	NADP/NAD-dependent aldehyde dehydrogenase PuuC	ATGACCCAGCACTTCAAGCACTTCATCGAAGGCGCGGCCGTCGAAGCCTCCGACGGCCGCCGCATCCCCCTCGTCGACCCCGTGACGGAACAGGCCTACGGCAGCTCAGCACGCGGCACCGCCAAGGACGTCGACCGTGCGGTGAACGCTGCACTCGACCAACTCGAGCGTGGCGCCTGGAGTCGGCTTGACGGCGCCCAGCGCGCGCGACTGCTGTCTAAACTGGCTGACCTGGTCGAGCGCGACACCGAACAGCTCGCCGACCTCGACGCCAATGCCATCGGCCGCTCCCCCCTCGAACCGCGCCGGATGGACATCCCCAACGCCGTTGCGAACCTGCGCGCCGCCGCCGGCTGGGCCAATCAGCTGGAGGGCCGGACCATCCCCTCCGGCGGCTATTTCGGCACCAGGACCCTGTCGTATACGGTGCGCGAACCGGTGGGCGTGGTCGGCGCCATCGTGCCCTGGAACTCACCGCTGATGATCACCGTCTGGAAGCTTGCCGCGTTACTCGCGGCAGGCTGCACGGTGGTCATCAAGCCTTCGGAAGAAACCCCGCAATCGGCCCTCCATCTGGCGGCGCTGGCCCAGGAAGCGGGCTTCCCCGACGGGGTGATCAACGTGGTCACCGGTTACGGCGATGAAGTTGGCCGTGCCCTGTGCGAACACCCGCACGTCGCCAAGATCAGCTTCACCGGCAGCCCCGAAGCGGGTCGCGAAATCCAGCGCACCGCCGGTGTGCTGTTCAAGCGCGTCGCCCTGGAGCTGGGCGGCAAGAGTCCGCAGATTGTCTTCGACGACGCACCCTTCGACGATGCGCTGCACGGCTGTTCGCTCGGCCTGTTCGTCAACCAGGGACAGATCTGCGCGGCCGGCTCGCGCATCCTGGTCCAGCGCGGCATCGCCGAGCGCTTCGCCGCGGCGCTTGCCGATGCGGCACGAGCGGTCAAGGTCGGTGATCCTCGGCAAGCTGGCATACAGATGGGCCCCGTGGCCAAAAAGGCCCAGTTCGAGCGCGTCAACCGGTACATCCAACTGGGCATCGAGCAAGGTGCCACGCTGTTGGCTGGCGGCGTATCGACGCCCGAAAGGGGCTGGTTTGTCCAACCGACCATCTTTGCCAATGCACGCAATGACATGGCGATCGCCCGGGACGAGATCTTCGGCCCGGTCGGCACCGTGATCACTTTCGACAGCGAAGACGAGGCTCTTGCCTTGGCCAACGATTCGGCCTACGGCCTGGCGGCGACGGTCTGGACCAACGACCTTGCAAAAGCGCATCGCGTGGCTGGCGCGGTGAAGGCCGGCGCCGTGGGCGTCAACTGCTGGAGCCCGCTGGACGCCAACCTGCCTTGGGGCGGGGTGAAAGCCAGCGGCATTGGCCGTGAGGGCGGATTTTCCGGCGCGTTGGCCTACACCGAAGAAAAAGTCATCACCGTATTGCTGCCCACCTGA	MTQHFKHFIEGAAVEASDGRRIPLVDPVTEQAYGSSARGTAKDVDRAVNAALDQLERGAWSRLDGAQRARLLSKLADLVERDTEQLADLDANAIGRSPLEPRRMDIPNAVANLRAAAGWANQLEGRTIPSGGYFGTRTLSYTVREPVGVVGAIVPWNSPLMITVWKLAALLAAGCTVVIKPSEETPQSALHLAALAQEAGFPDGVINVVTGYGDEVGRALCEHPHVAKISFTGSPEAGREIQRTAGVLFKRVALELGGKSPQIVFDDAPFDDALHGCSLGLFVNQGQICAAGSRILVQRGIAERFAAALADAARAVKVGDPRQAGIQMGPVAKKAQFERVNRYIQLGIEQGATLLAGGVSTPERGWFVQPTIFANARNDMAIARDEIFGPVGTVITFDSEDEALALANDSAYGLAATVWTNDLAKAHRVAGAVKAGAVGVNCWSPLDANLPWGGVKASGIGREGGFSGALAYTEEKVITVLLPT	PGPT0006035_781	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_LIGNIN_DEGRADATION|LIGNINASES	PLANT_LIGNIN_DEGRADATION-DEHYDROGENASE_ACTIVITY,PGPT0006035-feaB-K00146	NA	NA
D1-35_03443	564	yceJ_2	COG3038	Cytochrome b561	ATGAATCCGGCAAATCAAACCCCTGTTGATCGGTATCCTACATCCCTGCGACTCCTGCATTGGACGCGCGCCGTGCTCATCGCAGGCCTGCTCTGGGCAGGCTGGCACATGACCGGGCTGGATGACGAAGTGGCGAGCAAATACGAGCTTTATTATCCGTGGCACAAATCGTTCGGGGTGTTGGCATTCTTGCTGGTCCTGGTCCAGATCGTCTTGCGCGTGCGAACCCCCAGGCTGCCGCAGCCGCCGGAATCATTGGCGCGCTATGAACGGGTTTCGTCAAGACTTGCGCACCGTACCTTGTATGCGCTGCTGGTGATCGTGCCGTTGATGGGCTATTCGATGTCGAGCACCTACACGATGAGCGACGGGGTGTTCTTCTTTGGCGTGAACCTCCCGGAGCTCCTTGGCAAAAATGACGATTGGTTCGTTGTCTTCCAGTGGCTGCACAAGGTGCTCGCCTACACGCTGCTCGGCCTGATCCTGCTGCACGTTGCCGGCGCGCTCAAACACCGGTTCCTCGACCGCGATCCCCGAAGCGACGTGCTGCGCCGCATGCTCTGA	MNPANQTPVDRYPTSLRLLHWTRAVLIAGLLWAGWHMTGLDDEVASKYELYYPWHKSFGVLAFLLVLVQIVLRVRTPRLPQPPESLARYERVSSRLAHRTLYALLVIVPLMGYSMSSTYTMSDGVFFFGVNLPELLGKNDDWFVVFQWLHKVLAYTLLGLILLHVAGALKHRFLDRDPRSDVLRRML				NA	NA	NA	NA	NA
D1-35_03444	987	acuI	COG0604	Acrylyl-CoA reductase AcuI	ATGACCTTCAAAGCGCTGATTTGCACCAAAACCGCTGACGTGATTTCCACCAGCCTGGTCGACTTCAAGGATGAGGACCTGATGGCCGGCGACGTCACCGTCGCGATCGAGTACTCCACCGTCAATTACAAGGACGCCTTGGCGCTTAGCGGTCGCACACCAGTGATCCGCCAATTTCCGCTGATTCCCGGCATCGACTTTGCCGGCGTTGTCGAAAGCTCAAGTCATGCCGCTTTCCAGGCTGGCGATCGGGTGCTGCTCAACGGCTGGGGGCTGAGCCAGACCCACCACGGCGGCTTTGCCCAGAAGGCGCGCGTGAGCGGCGACTGGCTGGTGAAGGTTCCGGAGGTTTTTTCGACCCGCCAGGCCATGGCCATCGGCACCGCCGGCTATACCGCGATGCTTAGTGTGTTGGCCCTGGAGCACGGTGGCCTGACGCCTGAGCGTGGCGACGTTCTGGTGACCGGCGCCAACGGCGGCGCGGGCTCGGTTGCAATCGCACTGTTGTCGGGCCTGGGCTATCGGGTGATTGCCTCGACCGGCCGCCCGGAAGAAGCCGATTATCTGCGCGATCTAGGCGCCTTCGAGATCATCGATCGCCACACCTTGTCCGAGCCGGGTGCTCCGGTTGCCAAGGAGCGTTGGGCCGGCGTCATCGATTCGGTCGGTAGCCATACCTTGGTCAACGCCTTGGCACAGACTCGATATCGTGGCGTTGTCGCCGCTTTCGGCCTGGCCCAGGGGGCGGATCTGCCCGGCTCGGTGCTGCCCTTCATCCTGCGCAACGTGACCCTCGCCGGTATCGACTCGGTGAACGCTCCGCAAGACGTCCGCCTGCAGGCATGGGCGCGACTGGCCCGGGATCTCGACGTGAACAAGCTCGCCCGGACCACGCAGGTCGTCGGCCTGGCGCAGGTTCCGCAGGTCGCCGCTCAGGTGCTGGAAGGAAAGGTACGCGGGCGTACGGTCGTTGATGTGAACGCATAA	MTFKALICTKTADVISTSLVDFKDEDLMAGDVTVAIEYSTVNYKDALALSGRTPVIRQFPLIPGIDFAGVVESSSHAAFQAGDRVLLNGWGLSQTHHGGFAQKARVSGDWLVKVPEVFSTRQAMAIGTAGYTAMLSVLALEHGGLTPERGDVLVTGANGGAGSVAIALLSGLGYRVIASTGRPEEADYLRDLGAFEIIDRHTLSEPGAPVAKERWAGVIDSVGSHTLVNALAQTRYRGVVAAFGLAQGADLPGSVLPFILRNVTLAGIDSVNAPQDVRLQAWARLARDLDVNKLARTTQVVGLAQVPQVAAQVLEGKVRGRTVVDVNA	PGPT0002275_1173	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0002275-acuI|yhdH-K19745	NA	NA
D1-35_03445	813	hcaB_2		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGACCACCATTAAACCCGTAGCGTTGGTGACCGGCGCTTCGTCCGGCATCGGGGAGGCCATTGCGAACCGACTCGCGGCGGCTGGCTACTCCGTATATGGCACTAGCCGGCGAGGTACACCGGCGCTTCATCAGGCATTTTCGATGCTGGCGCTGGACGTGACCGACGACGCCAGCGTCCACGCAGCTGTCGCCGAGCTGCTGCGCCGGGAAGGGCGTATCGATTTGCTGGTCAACAATGCCGGCTTCGGGCTTGCTCCGGCCGCGGCGGAAGAAAGCTCGATCGAGCAGGCCAAGGCCGTCTTCGATACCAATTTTCTCGGTGTCGTGCGCATGACCCGCGCCGTTGTGCCCCACATGCGACGTCAGGGCAGCGGTCGAATCATCAACATCGGCTCCATTCTTGGTGTCGTATCCGTACCTTATGTGGCGCTCTACGTGGCCAGCAAACATGCGGTGGATGGCTATTCCCAAGCGCTGGACCACGAGTTGCGTACCCATGGCATCCGGGTGGTCGTCATCGAGCCCGGCTATACGCGCACGGCATTCGAAAGCAACAGCCTGCAGGCCGACGCCAAGCTGGACGTGTATGAGGACATTCGGGTTAAGGTAACGAAGGTCGTCAACCAGGCAATGGCGACCGCCGAGGGCCCCGACGTGGTGGCTGACGTGGTGCTCAAGGCTGCTCGCGCCGAGCGGCCGAAGCTGCGTTACACCGCCGGCAAGACAGCCGCGCAGTTGCAGTTCATGCGTCGCTTCGCGCCGGCTGGCGTGCTGGACACGGGCATCCGCAAGGCCCTGCAGCTCGCGTGA	MTTIKPVALVTGASSGIGEAIANRLAAAGYSVYGTSRRGTPALHQAFSMLALDVTDDASVHAAVAELLRREGRIDLLVNNAGFGLAPAAAEESSIEQAKAVFDTNFLGVVRMTRAVVPHMRRQGSGRIINIGSILGVVSVPYVALYVASKHAVDGYSQALDHELRTHGIRVVVIEPGYTRTAFESNSLQADAKLDVYEDIRVKVTKVVNQAMATAEGPDVVADVVLKAARAERPKLRYTAGKTAAQLQFMRRFAPAGVLDTGIRKALQLA				NA	NA	NA	NA	NA
D1-35_03446	612			hypothetical protein	GTGGGCGGTATCGACACCCTGATCGGTGGCACCGGCAGCGACACCTACGTGGTGGACGATCTTGAGGACATCATCAGTGAAACCAGCACCCTGGCCAGTGAGGTCGACACCGTGCGCTCGTCGGTGGACTGGAGCCTGGGGGCGAACCTGGAAAACCTCACGCTCACCGGGGCCGCGGCCGTCAATGCTACTGGCAATGACCTGAGCAACGTGCTGATCGGCAACGCAGGCAACAACGTGCTGGATGGCGGGGCGGGCAACGATAGCGTTGATGGCGGAGCCGGCGCTGATGTCCTCATCGGCGGAGATGGCGCTGACCGTTTTGTTTTCAGCGTGCTGAATGAGCTGGGCATAGGTAGCACTCGCGACAGTATCTTCGACTTCAACAGTCTTCAGGGCGACAAGATTGACCTGTCGAAACTGGATGCCAGTCTCCTGACGCCGCTGAACGATACGTTCAGCTTTATCGACTCGGCTGATTTTACCGGGGCCGGGCAATTACGCTTCGTCGACCACGTGCTTTATGGCAACGTCAATGGCGACCTGAACGCGGATTTCGAGATTCAGTTGCTAGGCGTCAATTCCTTGAGCTCGAACGATCTGCTGGCTTGA	MGGIDTLIGGTGSDTYVVDDLEDIISETSTLASEVDTVRSSVDWSLGANLENLTLTGAAAVNATGNDLSNVLIGNAGNNVLDGGAGNDSVDGGAGADVLIGGDGADRFVFSVLNELGIGSTRDSIFDFNSLQGDKIDLSKLDASLLTPLNDTFSFIDSADFTGAGQLRFVDHVLYGNVNGDLNADFEIQLLGVNSLSSNDLLA	PGPT0027825_32	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0027825-prtC-K01406	NA	NA
D1-35_03447	1341	tolC_1	COG1538	Outer membrane protein TolC	ATGAGATCTCTGATCATCCTGTGCGCGATCCTCGCGCCGCTCGGCGCCCTTGCGGACAGCGTGCCAACGTCTTCCCACGTGGATCTGTGGCAATTGCATCAGGAAGCGCAGGGCGCCGATCCACGCGTTCTGCGAGCACAGGCCTTGATTCGCAGCGGGAAGGGCAACGAGCGCGCCGCGTTCGGCCAACTGCTGCCGCAGCTCAACGCCAGCGGTAGCGTCAATCGCAGCCGGCGTGACGATGATGTCAGCCGCATCCAGTACAACGGCAAGCGCATGGCCGTGGTGCTCAACCAAGTGATCTACGATCCGCAGGTCTGGCGCAGCTACCGCAAATATGTGGAGCTGGCCCGGCAGAGTGAATACGAATCCGACGACACCCAGGTGCAGGCCAGTATCGATTTGTCTGAACGCTACTTTGCCGTTCTCGCGGCCGAGGATGAACTGTCCCTGGTGCGCAGTGAACTGGACGCAACCGAGCGCAACCTCAAGCGAATAAATGCCTTGTATGCGCGCCAGATGGCGATGGTAACCGACAGGCTTGATCTCGAGGCCCGCGTGGATGCGCTCAAGGCAGACGAGATCGAAGCCAGCAACAAGGTTGCGATCAGTCGTGAGGCTATTTCCGAGCTGGTGGGGCGTGATGTCCATGAGCCGTTCAAGCGCATCGCAGAGAATCCTGCCTTCAGCCTGCCGGCGCAAGCACAGGACTATTGGGTGCATGCAGCGCTCGATAGCAACCCGGCACTGCATGCCCGCGAACACAGTATCCTTGCAGCCGAGGCGGCTGTTGGTGAAGCCAGGGCCGGTCATCTGCCCAGGCTGGGCCTGAATCTCACGGCGCAACGTAGTGACATCGGCTACGAAGGTGCCTTGACTCCCCGCACGGATAACCTGGTCGCTTCCCTTGATTTGCAAGTGCCTCTCTACAGTGGCGGCTCCACCCGCGCGCGGGTGTCCAGTTCGGAAAGCGACAAGGAGGTCGCCCAGCAGGAATTGGAGGCCTTGCGCCGCCAGGTCATCAAGGAAACTCGCACTGCCTATCTGGGCATGACGGCCGAACTCAGCCGTATCAAGGCGACCCGACGCGCCCTGGAGTCCGCGGAAAAGTCCAGAATAGCTACCGAGAAAGCCTTCAACTACGGCGTCAAGCATGCCGTGGACGTGCTGGATAGTATCCAGGAAGAGTTTCGTGCACGACGCGATTTCTATCAGTCCCAATACCGCTTCGTGACCAGTCTGCTCGTGCTGCATCGCTGGAGTGGAAGATTGGCAGACGAGGATATCCGCAAGGCCAACGACTGGCTGGTTGCGCCTTGGTCAGACCGTTCGGCACAATAA	MRSLIILCAILAPLGALADSVPTSSHVDLWQLHQEAQGADPRVLRAQALIRSGKGNERAAFGQLLPQLNASGSVNRSRRDDDVSRIQYNGKRMAVVLNQVIYDPQVWRSYRKYVELARQSEYESDDTQVQASIDLSERYFAVLAAEDELSLVRSELDATERNLKRINALYARQMAMVTDRLDLEARVDALKADEIEASNKVAISREAISELVGRDVHEPFKRIAENPAFSLPAQAQDYWVHAALDSNPALHAREHSILAAEAAVGEARAGHLPRLGLNLTAQRSDIGYEGALTPRTDNLVASLDLQVPLYSGGSTRARVSSSESDKEVAQQELEALRRQVIKETRTAYLGMTAELSRIKATRRALESAEKSRIATEKAFNYGVKHAVDVLDSIQEEFRARRDFYQSQYRFVTSLLVLHRWSGRLADEDIRKANDWLVAPWSDRSAQ	PGPT0003600_4172	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-AlgE-TYPE_MANNURONAN_C-5-EPIMERASE_TRANSPORT,PGPT0003600-tolC-K12340	NA	NA
D1-35_03448	1332	prsE_4		Type I secretion system membrane fusion protein PrsE	ATGGGCAGCGTTATGCAAAACAGTAAGCAGTTTTCCGTTGATGTGGCCGGGTTGGCCATAGATGACAGGCCGGTACGGCGCATCGGTTACTCCTTGCTGCTGGTCACCTTTGGCCTGTTTGGCGGCTGGGCGGCCCTGGCGCCGCTGGACAGCGCAGCCCTCGCGCCGGGTGTGGTCACGGTAAAAAGCTATCGCAAGACTGTGCAGCATCTTGAAGGCGGCATCGTGCGCGAGCTACGTGTGCGTGAGGGTGACCTGGTGAAAGCGGGCGATGTGCTGCTGGTGCTTGACAATACCCAGGCCCGTTCGGAGATGGAGGCGATGCGCAGCCAATTGATTGCTGCGCTCGAACTCGAAGCCCGACTGGTGGCGGAGCGTGACGCGTTGCCGGAGCCGCTGGCCGTGTCCACCCTCGACCCCGCCGACCCGCGCGTTCACGAAGCCCGCGACAGTGAAGCGCGGATCTTCCAGGCCCGAAGGACCTCGCTGCAGGGCGAAATTGCCTTGCAGGAGAAGTCCATCGGCCAGATCGAAGAGCAGATTCGAGGCTATAAGGCCATCGTCGCCAGCAAGCAAGCGCTGGCCACGTCTTATGAAGAAGAGATTGTCGACCTGCGTGCATTGTTGGCCGAAGGCTACGTGGATAAACAACGTCTGCGCGAGCAGGAGCGCAGCCTGTCGCGCTTGCAGGCCGAAATAGCCGAAAGCCAGTCGGAGAGCGCACGAGCGCGCGTCCATGCGGACGAAGCGCAACTGAAGATTCTCCAGCTGAAAAAAACCTTCGCCAGTGAAGTGGCAGGTTTGCTGGGTGAAGCGCGAAGCAAGGTCTACGAGTTGCGCGAACGACTGGCCACCTTGCAGGATCGCGACCAGCGCACCGACATCCTCGCCCCGGAGTCAGGCCGGGTCATAGGGATGACCGTGCACACCCTGGGCGCCGTGGTCAGCCCTGGGACCGCCCTGTTGGACATTGTCCCGGCCAATGAAGAGCTGATTGTCGAGGCGCAGGTTTCGACCGTGGACATCGACCGTATCGCGCCGGGCAGGCTGGCGGACATTCGCTTCAGCGCGTTCAAGAGCAGCACCACGCCTGTCATCGAAGGGCAACTGGTGCAGATATCGGCGGATCGTCTGGTCAACCAGGACACCGGCACGGCTTATTACCTGGCGCGTGTAGCGTTGACCGACAAGGGACGCCAGGCGCTGGGCGAACGTGCCCTGGTGCCGGGGATGCCGGTCGAAGTGCTGATCAACACAGGGGCGCGGACGTTGTTGGAGTACCTGATGCAGCCTGCCAGCAATGCTTTCGCCCGTTCGATGATCGAGGATTGA	MGSVMQNSKQFSVDVAGLAIDDRPVRRIGYSLLLVTFGLFGGWAALAPLDSAALAPGVVTVKSYRKTVQHLEGGIVRELRVREGDLVKAGDVLLVLDNTQARSEMEAMRSQLIAALELEARLVAERDALPEPLAVSTLDPADPRVHEARDSEARIFQARRTSLQGEIALQEKSIGQIEEQIRGYKAIVASKQALATSYEEEIVDLRALLAEGYVDKQRLREQERSLSRLQAEIAESQSESARARVHADEAQLKILQLKKTFASEVAGLLGEARSKVYELRERLATLQDRDQRTDILAPESGRVIGMTVHTLGAVVSPGTALLDIVPANEELIVEAQVSTVDIDRIAPGRLADIRFSAFKSSTTPVIEGQLVQISADRLVNQDTGTAYYLARVALTDKGRQALGERALVPGMPVEVLINTGARTLLEYLMQPASNAFARSMIED	PGPT0029390_633	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-HEMOPHORE|METALLOPROTEASE_TRANSPORT,PGPT0029390-hasE|prtE-K12537	NA	NA
D1-35_03449	1749	prsD_2		Type I secretion system ATP-binding protein PrsD	ATGTCAGCCCACACCCGGACCGAGTTGGAAGGCGCGCTTGCCGCATGCAAGGGCAGCTTTCTTTCCGTGGCCTTTTTCAGTTTTTTCGTCAATTTGCTGATGTTGGTCCCCTCGTTCTACATGTTGCAGGTGTATGACCGCGCGGTAGCCAGCGCCAGCCTGTCCACCCTGTTGATGCTGACGCTGATCATGTTGCTGTTGATGAGCACGATGGGCGGCCTGGAATGGGTTCGTTCGCGGATCATGGTACGAATCAGCACGCGCCTCGACACGCTGCTGGGGCAGCGTCTGTTCGACGCCAGTTTCAGGCAGGCACTCAATACCAGCGGCATGGACGCCACAGCACAGCCATTGAGCGACCTGAACGCGTTGCGCCAGTTCCTGACCGGCAACGGTCTCTTTGCGTTTTTCGATACGCCATGGATTCCAATCTATCTGGCCGTCATGTTCATCTTCCATCCCTGGTACGGTTGGATGGGGTTGTTGAGCGCGGTCCTGCTGGGGGCGCTGGCCTTCGTCAACGAAAAGCTCACGCAAGTGCCGCTGCAGGATGCCAATCGCGAGCAGATGGCCGCCACCGCTTTTACCAACAAAAGCTTGCGCAATGCCGAGGTGGTCGAGTCGATGGGCATGCTTGCCAGCCTTCGCGAACACTGGAGCAGGCGGGTCCATACAGTGTTATCCCTGCAAAGCCTGGCCAGCGACCGCGCCACGACCGTTGCGGCGATATCCAGGACGTTCCGCCAGATTGTGCAATCGCTGGTGTTGGGCCTGGGCGCTTACTTGACAATCAATCATGAAATCACGCCCGGACTGATGATCGCCGGCTCCATTTTGCTGGGCCGCGCGCTGGCCCCCATCGACCAGTTGATTGGTGTGTGGAAAAACTTCCTGGGCGCACGCTCGCAATACGCACGACTGCATGAGTTGCTGGCCAGGCACGCCGCGGATCCGGAGCGCATGTCACTGCCTGCGCCGGAGGGCGCGGTCCGCGTCGAGGGCCTTTCGGTCGGTTCTCCGGGCAGTCGTAAACCGATTATCCGTGGCCTGGACTTCAACGTAGCTCCTGGAGAAGCAGTGGGCATCATTGGCCCCAGTGGGGCAGGCAAATCGACGCTGGCCAGGGCGTTGCTGGGAATCTGGCCAAGTCTGACCGGCACCGTGCGCCTGGACGGCGCGGACATCAGCCAATGGCGCCGGGAGGAGCTGGGTGCGTATATCGGTTACTTGCCGCAGGACATCGAACTGTTCGAAGGCACCATCAGCCAGAACATTTCGCGTTTCGGCCCGATGGACGCTTCTGCGGTGGTCGCCGCCGCACGCATGGCCGGGGTGCATGAGATGGTGCTGCAATTGCCCGATGGCTACGACACGCTGATTGGTGCCAACGGCGGTGGACTGTCCGGCGGGCAGCGCCAGCGTGTCGGGCTGGCCCGCGCCTTGTACGGCGAACCGCGCCTGGTAGTGCTCGATGAACCGAATTCCAACCTGGACGACGCCGGAGAAAAAATGCTCGCCGAGGCGCTGCGAAAGCTCAGGCAGAGCCGGGCCACGGTGTTTGTCATTACCCATCGATCCGGGATATTGGCCCAGGTGGATAAATTACTGGTTCTCAACCATGGCGAAAGGAGCCTGTTCGGGCCTCGCGACAGTGTCATGGCGCGGCTGCAGGGCGCTACGCCTGCGGCTCGCCAGGCTGGAGCCATTGAGCCGCAGGATGCGGATGGGCAGCGTTATGCAAAACAGTAA	MSAHTRTELEGALAACKGSFLSVAFFSFFVNLLMLVPSFYMLQVYDRAVASASLSTLLMLTLIMLLLMSTMGGLEWVRSRIMVRISTRLDTLLGQRLFDASFRQALNTSGMDATAQPLSDLNALRQFLTGNGLFAFFDTPWIPIYLAVMFIFHPWYGWMGLLSAVLLGALAFVNEKLTQVPLQDANREQMAATAFTNKSLRNAEVVESMGMLASLREHWSRRVHTVLSLQSLASDRATTVAAISRTFRQIVQSLVLGLGAYLTINHEITPGLMIAGSILLGRALAPIDQLIGVWKNFLGARSQYARLHELLARHAADPERMSLPAPEGAVRVEGLSVGSPGSRKPIIRGLDFNVAPGEAVGIIGPSGAGKSTLARALLGIWPSLTGTVRLDGADISQWRREELGAYIGYLPQDIELFEGTISQNISRFGPMDASAVVAAARMAGVHEMVLQLPDGYDTLIGANGGGLSGGQRQRVGLARALYGEPRLVVLDEPNSNLDDAGEKMLAEALRKLRQSRATVFVITHRSGILAQVDKLLVLNHGERSLFGPRDSVMARLQGATPAARQAGAIEPQDADGQRYAKQ	PGPT0029385_1097	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-HEMOPHORE|METALLOPROTEASE_TRANSPORT,PGPT0029385-hasD|prtD|-K12536	NA	NA
D1-35_03450	765			hypothetical protein	ATGAGCCGGATCCCACGCGTATTGAATGGTCGTCCCAAGGCACTCTGGCGGCTCTGCTTTTCGCTTTTGTCATTGGTTATCCTTCATGCGCACGGTGAGCCACAAGTCATCGAGCTGCACATCCCGGACGCACCGCCGCTGACGTTCATCAACGACCCCAGGGGGTACGGCATCGTCGGTGACGTCGCGGTGCAGGCGATTACCCGGGCCGGGTATACGCCAAAGATCCACCTGCTGCCTTGGGCAAGGGCACAAAAACATGTCAGCGAAGAACACGACTACCTGATAGCTCCCTTGTCGCGCATTCCTGTGCGCGAGGATCGCTTCAGCTGGATCGCTTCGATCATGCCCATGGAGCGCGCCTTCTTCAGCCTCGACCGGCAGGTCACCAGTTTCGCCCAGGCGAAAGCAACCTACCGCAAGATCGGCGTCGGCCTGGGCAGTGCACAGGAGGACATCCTGCGCGCCGAAGGCTTCAGCGACGAACAGATCTACCCGCTGGCCATCGGTGACAACCCTGCCCAGATGCTGCTGATGGGACGTATCGATGCCTGGTTCAACGGTGTTCCGGAGAGTCGCTATATCTGGCCGAAGGTGTCCAGGCGCAAACTGCTGATGAGCCCGGTTGGCAGCAGCGCCGACCTCTATCTGGCGTGTTCCAGGCGCTGCTCCGAAAAAATCGTCGAAGACTTGCGTGGGGCCGTCGAGGCGCTGCGCAAGGACGGCACGATCAAGCGGATACGTGAGGTATATCTGCCTGACTGA	MSRIPRVLNGRPKALWRLCFSLLSLVILHAHGEPQVIELHIPDAPPLTFINDPRGYGIVGDVAVQAITRAGYTPKIHLLPWARAQKHVSEEHDYLIAPLSRIPVREDRFSWIASIMPMERAFFSLDRQVTSFAQAKATYRKIGVGLGSAQEDILRAEGFSDEQIYPLAIGDNPAQMLLMGRIDAWFNGVPESRYIWPKVSRRKLLMSPVGSSADLYLACSRRCSEKIVEDLRGAVEALRKDGTIKRIREVYLPD	PGPT0020800_13592	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
D1-35_03451	1254	bepF		Efflux pump periplasmic linker BepF	ATGGAACATTCACTTTCTAAATTGCGCTTTCCCCTGGCACTGTTGGCAGTGCTGGTGATCAGCGCGTGCGGCAAGACCCCCGACACGGCAGCTTCGATGCCGGCGGCCAAAGTCAGTGTGGCCAAGGTACTGGAGCAACCCGTCAACGAATGGGACGAGTTCACCGGGCGCCTCGAAGCGCCGGAAACCGTCGAGATCCGCCCGCGGGTTTCCGGGCAGATCGATGAAGTGGCCTTCACCGAAGGCGCGCTGGTCAAGAAAGGCGACCTGCTGTTCCAGATCGACCCGCGCCCGTTCCAGGCTGAAGTGCGTCGTCTCGAAGCCCAACTGGCCCAGGCTCGCGCCACCGCGACCCGCAGCGAGAACGAGGCCCAGCGCGGCGAACGCCTGCGCTTGAGCAATGCGATTTCCGCCGAACTGGCGGATTCGCGCACCACCGCAGCCCAGGAAGCCCGCGCCGCCGTGGCCGGCATCCAGGCGCAACTGGACCTGGCCAAGCTGAACCTCAGCTTCACCCGGGTCACCTCGCCCATCAACGGCCGTGTCAGCCGGGCGGAAATCACCGCCGGCAACCTGGTGACCGCCGACGTCACGCCGCTGACCAGCGTGGTCTCCACCGACAAGGTCTACGCCTATTTCGACGCCGACGAGCGCGTCTTCCTCAAGTACACCCAACTCGCCCGCCAGGGCCAGCGCGGCCAGGCCACGCCGGTCTACATGGGCCTGTCCAACGAGGAAGGCAACCCGCACCTGGGCCAGATGAACTTCGTCGACAACCAGGTCAACCCGCAGACCGGCACCATCCGTGGCCGCGCGGTGTTCGACAACAAGGACGGCGCCTACACCCCTGGCCTGTACGCCCGACTGAAACTGGTGGGCAGCGGCACCTACTCCGCCGTACTGATCAACGACGAAGCCGTCGGCACCGACCTGGGCAAGAAATTCGTGCTGGTGATGGACGCCGACAACAAGCCGGCGTACCGCGCCGTCGAGCTGGGGCCGAAGATCGAAGGCCTGCGTATCGTGCGCAACGGCCTGAGCAAGGACGACACCATTATCGTCAAGGGACTGCAACGGGCCCGTCCGGGTTCGCCGGTCACGCCTGAAACCGTGCCGATGGCCAGCGAGCAGACACTCGCCGCCCTGGCACAACAACGTAAAGCGCTCGAAGCCAGCAATCTGCCCCAGGTCGCGCCCAACAAGGCAGCGTCCGGCTCCGCAGGCAAACTGGCTTCTGCGTCCCCACGCGGCTAA	MEHSLSKLRFPLALLAVLVISACGKTPDTAASMPAAKVSVAKVLEQPVNEWDEFTGRLEAPETVEIRPRVSGQIDEVAFTEGALVKKGDLLFQIDPRPFQAEVRRLEAQLAQARATATRSENEAQRGERLRLSNAISAELADSRTTAAQEARAAVAGIQAQLDLAKLNLSFTRVTSPINGRVSRAEITAGNLVTADVTPLTSVVSTDKVYAYFDADERVFLKYTQLARQGQRGQATPVYMGLSNEEGNPHLGQMNFVDNQVNPQTGTIRGRAVFDNKDGAYTPGLYARLKLVGSGTYSAVLINDEAVGTDLGKKFVLVMDADNKPAYRAVELGPKIEGLRIVRNGLSKDDTIIVKGLQRARPGSPVTPETVPMASEQTLAALAQQRKALEASNLPQVAPNKAASGSAGKLASASPRG	PGPT0028870_52	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexEF-OprN,PGPT0028870-mexE-K18298	NA	NA
D1-35_03452	3180	oqxB27		multidrug efflux RND transporter permease subunit OqxB27	ATGAAATTTTCCCAGTTCTTCATTTCGCGGCCGATCTTCGCAGCGGTGCTCTCGCTGCTGATCCTGATCGCCGGTGCGATCTCGCTGTTCCAGCTGCCGATCAGCGAATACCCCGAAGTCGTGCCGCCGACCGTGGTCGTGCGCGCCAACTTCCCCGGTGCCAACCCCAAGGTCATCGGTGAAACCGTAGCCGCGCCTTTGGAACAAGCCATCACCGGTGTCGAGAACATGCTCTACATGTCCTCGCAGTCCACCGCCGACGGCAAGATCACCCTGACCATCACCTTCGCCCTGGGCACCGACCTGGACAACGCCCAAGTGCAGGTACAGAACCGCGTCACCCGCACCGAGCCCAAGTTGCCGGAGGAAGTGACCCGGATCGGCATCACGGTGGACAAGGCGTCGCCCGACCTGACGATGGTCGTGCACTTGACCTCGCCGGACAAACGCTACGACATGCTTTATCTGTCCAACTACGCCTTGCTCAACATCAAGGATGAGCTGGCGCGCCTCGGCGGCGTCGGTGATGTGCAGTTGTTCGGCATGGGCGACTATTCGCTGCGGGTCTGGCTGGATCCGAACAAGACTGCGTCGCGCAACCTGACCGCTACCGACGTTGTCACGGCGATCCGCGAGCAGAACCGCCAGGTTGCCGCCGGTGCCCTGGGCGCGCCTCCAGCGCCGAATGCCCAGGCGTTCCAACTCTCGGTCAACACCCAGGGGCGCCTGGTCAGCGAGGAAGAGTTCGAGAACATCATCATCCGTTCCGGCGCCAATGGTGAAATCACTCGCCTGAAAGACATCGCACGGGTGGAGCTGGGCTCCAGCCAATACGCCCTGCGTTCGCTGCTCGACAACCAGCCGGCGGTGGCGATCCCGATCTTCCAGCGCCCGGGTTCCAATGCCATCCAGATTTCCAACGATGTGCGCGAGAAAATGGATGAGCTGAAAAAAGGCTTCCCGGCCGGCATGGACTACAGCATCGTCTATGACCCGACGATCTTCGTGCGCGGCTCCATCGAAGCGGTGGTGCATACCCTGTTCGAAGCGCTGATCCTCGTGGTGCTGGTGGTGATCCTGTTCCTGCAGACCTGGCGCGCCTCGATCATCCCGCTGGTGGCAGTGCCGGTGTCGCTGATCGGTACATTCGCGGTCATGCACCTGTTCGGCTTCTCACTCAATGCGCTGTCGCTGTTCGGGCTGGTACTGGCCATCGGTATCGTCGTGGATGACGCCATCGTGGTGGTGGAGAACGTCGAACGAAACATCGGCCTCGGGCTCACGCCGGTGGAAGCCACCAAGCGCGCCATGGGCGAAGTGACCGGGCCGATCATCGCCACGGCACTCGTACTGTGTGCGGTATTCGTTCCCGCCGCCTTCATCAGCGGCTTGACCGGGCAGTTCTACAAACAGTTTGCCTTGACCATTGCCATCTCGACGGTGATCTCGGCGTTCAACTCGCTGACCCTGTCGCCAGCCCTGGCCGCGGTATTGCTCAAGAGCCATGACGCGCCCAAGGACCGTTTCTCGCGGCTCCTCGACAAGATCTTCGGCGGCTGGCTGTTCCGTCCGTTCAACCGCTTCTTCGACCGCGCCAGCCACGGTTACGTGGGCACCGTCGGCCGCGTGATCCGCAGCAGCGGCATTGCCCTGATCGTTTACGCTGGCTTGATGGTGCTGACCTTCTTCGGTTTCTCCAACACGCCAACCGGTTTCGTGCCTGGCCAGGACAAGCAATACCTGGTGGCCTTCGCGCAACTGCCCGACGCCGCGAGCCTGGACCGCACCGAAGACGTGATCAAGCGCATGTCCGAAATGGCCCTCAAGCAGCCGGGCGTTGAAAGCGCGGTGGCCTTCCCGGGCCTGTCGATCAACGGCTTCACCAACAGCCCGAACGCCGGCATCGTCTTCGTGACCCTCAAGCCTTTTGATGAGCGCAAGGACGCGAGTATGTCGGCCGGTGCCATCGCTGGTGCGTTGAACGGCCAGTATTCGGAGATCCAGGAAGCCTACATGGCGATCTTCCCGCCGCCGCCGGTACAGGGCCTGGGCACGATCGGTGGTTTCCGCCTGCAAATCGAAGACCGGGGCAACCTGGGCTACGACGAGCTGTACAAAGAAACGATGAACATCATCACCAAGAGCCACAACGTGCCGGAACTGGCCGGGTTGTTCACCAGCTACACGGTGAACGTGCCTCAGGTCGATGCCGCCATCGATCGTGAAAAAGCCAAGACCCACGGCGTAGCCGTCAGCGACATCTTCGACACCCTGCAGATCTACCTGGGTTCGCTGTATGCCAACGACTTCAACCGCTTCGGCCGTACCTACCAGGTCAACGTCCAGGCCGAGCAACAGTTCCGCCTCGAGTCGGACCAGATCGGCCAGCTCAAGGTGCGCAACAACCGTGGCGAGATGATCCCGCTGGCGACCTTCATCAAGGTCAGCGACACCTCGGGGCCGGACCGCGTGATGCACTACAACGGCTTCATCACCGCTGAAATCAACGGTGCCGCCGCCCCGGGCTACAGCTCCGGCCAGGCTGAAAAAGCCATCGAGAAACTGCTCAAGGACGAATTGCCCAACGGCATGACGTACGAGTGGACCGACCTGACGTACCAGCAGATTCTTTCGGGCAACACCGCGTTGTTCGTGTTCCCGCTCTGCGTATTGCTGGCGTTCCTGGTGCTCGCGGCCCAATACGAAAGCTGGAGCCTGCCTCTGGCGGTGATCCTGATCGTACCGATGACGCTGCTGTCGGCGATTACCGGGGTGATTCTCTCCGGTGGCGACAACAACATCTTCACCCAGATCGGCTTGATCGTACTGGTCGGACTGGCCTGCAAGAACGCGATTCTGATCGTCGAGTTCGCCAAGGATAAACAGCTCGAAGGCATGACCCCGCTGGCTGCGGTACTGGAAGCTTGCCGCCTGCGTCTGCGGCCGATCCTGATGACCTCCTTCGCCTTCATCATGGGCGTGGTGCCCCTGGTGCTCTCCAGCGGCGCCGGTGCGGAAATGCGCCACGCCATGGGTGTCGCGGTGTTCTCGGGCATGCTTGGGGTGACCTTCTTCGGCCTGCTGCTGACCCCGGTGTTCTACGTATTGATCCGTAACTTCGTCGAGCGCAGCGAGGCCCGCAAAGCGGCCCGGGCCTTGAAACTGGAGGCGCAACAATGA	MKFSQFFISRPIFAAVLSLLILIAGAISLFQLPISEYPEVVPPTVVVRANFPGANPKVIGETVAAPLEQAITGVENMLYMSSQSTADGKITLTITFALGTDLDNAQVQVQNRVTRTEPKLPEEVTRIGITVDKASPDLTMVVHLTSPDKRYDMLYLSNYALLNIKDELARLGGVGDVQLFGMGDYSLRVWLDPNKTASRNLTATDVVTAIREQNRQVAAGALGAPPAPNAQAFQLSVNTQGRLVSEEEFENIIIRSGANGEITRLKDIARVELGSSQYALRSLLDNQPAVAIPIFQRPGSNAIQISNDVREKMDELKKGFPAGMDYSIVYDPTIFVRGSIEAVVHTLFEALILVVLVVILFLQTWRASIIPLVAVPVSLIGTFAVMHLFGFSLNALSLFGLVLAIGIVVDDAIVVVENVERNIGLGLTPVEATKRAMGEVTGPIIATALVLCAVFVPAAFISGLTGQFYKQFALTIAISTVISAFNSLTLSPALAAVLLKSHDAPKDRFSRLLDKIFGGWLFRPFNRFFDRASHGYVGTVGRVIRSSGIALIVYAGLMVLTFFGFSNTPTGFVPGQDKQYLVAFAQLPDAASLDRTEDVIKRMSEMALKQPGVESAVAFPGLSINGFTNSPNAGIVFVTLKPFDERKDASMSAGAIAGALNGQYSEIQEAYMAIFPPPPVQGLGTIGGFRLQIEDRGNLGYDELYKETMNIITKSHNVPELAGLFTSYTVNVPQVDAAIDREKAKTHGVAVSDIFDTLQIYLGSLYANDFNRFGRTYQVNVQAEQQFRLESDQIGQLKVRNNRGEMIPLATFIKVSDTSGPDRVMHYNGFITAEINGAAAPGYSSGQAEKAIEKLLKDELPNGMTYEWTDLTYQQILSGNTALFVFPLCVLLAFLVLAAQYESWSLPLAVILIVPMTLLSAITGVILSGGDNNIFTQIGLIVLVGLACKNAILIVEFAKDKQLEGMTPLAAVLEACRLRLRPILMTSFAFIMGVVPLVLSSGAGAEMRHAMGVAVFSGMLGVTFFGLLLTPVFYVLIRNFVERSEARKAARALKLEAQQ	PGPT0028875_193	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexEF-OprN,PGPT0028875-mexF-K18299	NA	NA
D1-35_03453	1425	ttgI_2		Toluene efflux pump outer membrane protein TtgI	ATGAGTTTGAAAGCGTTCCTGCCGAGCTTGCTGGTCCTGGCGTTAAGCGCCTGCGCCGTGGGCCCGGACTACCAGGCACCGAAAACGGAGGCGGCCAACATCACCGCCGCCACCGACGGCGCCGCCGGCCAGAAGAACTTCGACCGCGCGCGGTTCGAAGGTATCTGGTGGCAGCAGTTCGACGACCCGACCCTCAACGCGTTGGTGACTCGCTCCCTGGACGGCAACCGCGAGTTGCGCGTGGCCTTCGCCCGCCTGCGGGCCGCCCGGGCGATTCGCGACGACGCCAGCAATGATGCAATGCCGACCATCACCAGCCGCGCCAGCAGCGAACTGGGCAAAGGCCAGAACCCGATGGGGCAGACCGACGACCGGGTCAACTCCGAGCGTTATGACCTGGGCCTGGACATGGCCTGGGAACTGGACCTGTTCGGCCGCATCCAGCGCAACCTGGAAGCGACCGATGCCGACCAGCAGGCCGCCGAGGCCGATCTCTATCAGTTGCAGGTGAGCATGATCGCCGAACTCGTGGATGCCTACGGCCAGCTGCGCGGCGCCCAACTGCGTGAAAAAATCGCCCTGGCCAACCTGCAGAACCAGCAGGAGTCACGCAAGATCACCGAAAGCCTGCGTGATGCCGGCGTCGGCGATCAGCTCGACGTGGTGCGTGCCGATGCGCGCCTGGCCGCGGTGGAAGCCAGCGTGCCGCAACTGCAAGCCGAACAGGCGCGCCAGCGCAACCGCATCGCGACATTGCTGGGCGAGCGTCCGGACAAGCTGAGCGTGGACCTGAGCCCTAAACAGCTGCCGGCGATTGCCAAGGCCCTGCCGATTGGCGACCCCGGGCAACTGCTGCAACGCCGTCCGGATGTCCTGAGTGCCGAGCGTCAACTGGCAGCTGCCACGGCGCGCATCGGCGTGGCCAAGGCCGACCTGTTCCCAAGGGTCAGCCTCAGCGGCTTCCTCGGCTTCACCGCCGGGCGTGGCTCGCAGATCGGTTCCTCGGCGGCCAATGCCTGGGCGCTGGGTCCAAGCATTACCTGGGCCGCGTTCGACCTGGGCAGTGTGCGAGCGCGCTTGCGCGGTGCCAGCGCCGAGGCTGATGGCGCCCTGGCGAACTATGAACAGCAGGTGCTGCTGGCCCTGGAAGAGTCGGAAAACGCCTTCAGCGATTACGGCAAACGCCAACAGCGGCTGATCTCGCTGATCCGCCAGAGCGAATCGAGCCGCGCGGCCGCCGACCTGGCCGAGATTCGCTACCGTGAAGGCACCGAGGACTTCCTCGTGCTGCTCGACGCCCAGCGTGAACGCCTCGCTGCCGAGGACAGCCAGGCCCAGGCCGAAGTGGACCTGTATCGCGGCATCGTCGCGATCTACAAGGCCCTGGGCGGCGGCTGGCAACCGGAAACCGTCGCCAGCAACTGA	MSLKAFLPSLLVLALSACAVGPDYQAPKTEAANITAATDGAAGQKNFDRARFEGIWWQQFDDPTLNALVTRSLDGNRELRVAFARLRAARAIRDDASNDAMPTITSRASSELGKGQNPMGQTDDRVNSERYDLGLDMAWELDLFGRIQRNLEATDADQQAAEADLYQLQVSMIAELVDAYGQLRGAQLREKIALANLQNQQESRKITESLRDAGVGDQLDVVRADARLAAVEASVPQLQAEQARQRNRIATLLGERPDKLSVDLSPKQLPAIAKALPIGDPGQLLQRRPDVLSAERQLAAATARIGVAKADLFPRVSLSGFLGFTAGRGSQIGSSAANAWALGPSITWAAFDLGSVRARLRGASAEADGALANYEQQVLLALEESENAFSDYGKRQQRLISLIRQSESSRAAADLAEIRYREGTEDFLVLLDAQRERLAAEDSQAQAEVDLYRGIVAIYKALGGGWQPETVASN	PGPT0028880_290	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexEF-OprN,PGPT0028880-oprN-K18300	NA	NA
D1-35_03454	1056	bepA_2		Beta-barrel assembly-enhancing protease	ATGTCCTCGTCTCGCCGCTATCTGCTCCTCAGCCTCGCCGTCGTCCTGGTCATCGGTCTCGTCGCGATATGGCTACGCAGCACCACGCCGCAAATCCCCGAAGCAATCAAGCGTGGTTACAGTGAGGCCCTGGACAACGCCCGCAACGGCCAGCCCGGCGCGGCGCGGATGCTTTACCAGCAACTCGGACGCCCGGACCTCTCGCCCAAGCGCCGCGTACGCTTGCACGCCGAGCTGCCCAACTACCCGAGCCCCCAGGCACTGAAACTGGCACAAGCGGACTTGCAGAGCGAATCGCCGCAGGTGCGCCGCGCGGCCATCGACAGCATCGTCGGGCTGGTACCGAACGCCCAGCGCAGCCTGTTGCTCGGCCCACTCCTGGACGATAACGAGCCGGACGTCCGGTTCGCCGCGGTGAATGCCTTGCTGGGGCTTTCGCCGGATGAACTGGGCCTGTACTTCGGCGCGATGCAGATCGCCGCCGACACCTGGAAGCAAGTGCTCAACGACGCTCCACCCACCACCGAGTCCCTGTATCAGCTTGCCCGGCTGTACCTGCATAACGCTGATCTGGAAAAAGCCCAGCAGGCGCTGGAGCAGGCCCTGCGCCTGCAGCCGGACAACCTGCCGGCGCTGGTCATGCAGGTCGATGTGCTGGACCGACAAGGCCAGGCCGAAGCTGCACGACAACTGCTCGCCCGGCAGTTGCAGACCCAGCCGGCATCGGCTTATCTGCAACATGCGCTGGGCATGTGGCTGCTCCAGCACGGGCAGACCGAATACGCCGTGCTTGGCCTGGCCAAGGCGGTGGAGCTTGAGCCTGAGAACCGGCACTACCGCTATGACCTGGCGACCACTTTGCATGCCGAGCAGGAGGTGGAAGCCGCGCAGAAACAGCTCCAGGAAATTGTCCAGCGCTACCCTGCCGACCGCAAGGCGCGGGTATTGCTGATCAATTATTGGAAGGAGACCGGTCAGTTGCAGCATGTCCAGGTTTTATTGGCCCAACTGGAACAACTGAACCCCGACGACCCGGCGATACAACAAGGCCTGTAG	MSSSRRYLLLSLAVVLVIGLVAIWLRSTTPQIPEAIKRGYSEALDNARNGQPGAARMLYQQLGRPDLSPKRRVRLHAELPNYPSPQALKLAQADLQSESPQVRRAAIDSIVGLVPNAQRSLLLGPLLDDNEPDVRFAAVNALLGLSPDELGLYFGAMQIAADTWKQVLNDAPPTTESLYQLARLYLHNADLEKAQQALEQALRLQPDNLPALVMQVDVLDRQGQAEAARQLLARQLQTQPASAYLQHALGMWLLQHGQTEYAVLGLAKAVELEPENRHYRYDLATTLHAEQEVEAAQKQLQEIVQRYPADRKARVLLINYWKETGQLQHVQVLLAQLEQLNPDDPAIQQGL				NA	NA	NA	NA	NA
D1-35_03455	1503	kaiC_2		Circadian clock protein kinase KaiC	TTGATTACATCTAACGAGTCGATCAGCGCAAAAGCCGCCACCGGGATCGAAGGGCTGGACGATGTCCTTTCCGGTGGTTTGTCCCTGGGTCACGTGTTTCTCCTGGAGGGAGAGCCGGGTACCGGTAAAACCACGGTCGCGTTGCATTTCCTGATGGCCGGCGCCAAGGCCGGCGAACGCTCGTTGTATATCACGCTGTCGGAAACCGAGCGTGAATTGCGTCAGGGCGCGGCCTCCCATGGATGGACGCTCGATGAGAGCATCCACATCTTCGAGCTGACCCCGCCCGAGAGCCTGCTCAACGCCGATCAGCAGCAGAGCCTGCTGTATTCCTCCGACCTGGAACTGGGGGAAGCGACCCGGCAGATCTTCGAAGTGGTGGAGCGCATCAAGCCGACCCGGGTCGTGCTGGACAGTCTTTCGGAGATTCGCCTGCTGGCGCAGAGCTCTCTGCGCTACCGTCGGCAGATCCTCGCGATCAAACACTACTTCGTGCGTTATGACGCCACGGTCCTGCTCCTGGATGACCTGACCACTGAATCCCTGGACAAGACCGTGCACAGCGTGGCCCACGGCGTCATTCGCCTCGAGGAACTGACCCCCAACTACGGTGCCGAACGGCGCCGGCTGCGGGTGGTCAAGTATCGCGGGCAGAAATACCGTGGCGGTTACCACGATTTCACCATCATGAGCGACGGCCTGCACGTCTTCCCTCGCCTGGTGGCCGCCGAGCATCGCGGCCAGTACCTGCGTCAGCAGCTGTCCAGCGGCATCGGCGAAATGGACGCCCTGTTGGGCGGTGGCATCGAGACCGGCTCCAGCACGCTGATTCTCGGTCCGGCCGGTACCGGCAAATCGCTGATCTCGTTGATCTTTGCTGCAGCTGCCGTACGCCGCGGAGAAAAAGCCGCGCTGTTCATCTTCGACGAAGAGCTGGGGCTGCTGTTCGAGCGCATGAAAAACATCGGCATCGATCTGCACGAATTGCAAAAAACCGGCAATCTGCTGATCGAGCAGGTCGATGCCGCGGAGCTGTCTCCGGGTGAGTTTTCCCATCGTGTGCGGCGTTGCGTCAGTGACGGCAATATCAAGACCGTGGTGATCGACAGCATCAACGGCTACCAGGCCGCCATGCCGGAAGAAAACGCCCTGGTCTTGCATATGCATGAGCTGTTGCTCTACCTCAACCGCAAAGGCGCGGCGACCTTCATGACCGTCGCGCAACACGGGCTGGTGGGCGACATGCAGGCGCCAGTGGACATTACCTACCTCGCCGACACCGTCATCCTGCTGCGTTACTTCGAAGCGCTGGGCAAGGTTCGCCGGGCGGTTTCCGTTATCAAGAAGCGCACCGGCGCCCATGAGTCGACTATCCGTGAATATCGCATCAGCAAGCTGGGCATGACCATCGGCCAACCGCTGGAAGCGTTCCAGGGCGTGTTGCGTGGCGTACCGACCTATATGGGTGCGGACAACCCATTGCTTGAGGATGGCACTCCGTGA	MITSNESISAKAATGIEGLDDVLSGGLSLGHVFLLEGEPGTGKTTVALHFLMAGAKAGERSLYITLSETERELRQGAASHGWTLDESIHIFELTPPESLLNADQQQSLLYSSDLELGEATRQIFEVVERIKPTRVVLDSLSEIRLLAQSSLRYRRQILAIKHYFVRYDATVLLLDDLTTESLDKTVHSVAHGVIRLEELTPNYGAERRRLRVVKYRGQKYRGGYHDFTIMSDGLHVFPRLVAAEHRGQYLRQQLSSGIGEMDALLGGGIETGSSTLILGPAGTGKSLISLIFAAAAVRRGEKAALFIFDEELGLLFERMKNIGIDLHELQKTGNLLIEQVDAAELSPGEFSHRVRRCVSDGNIKTVVIDSINGYQAAMPEENALVLHMHELLLYLNRKGAATFMTVAQHGLVGDMQAPVDITYLADTVILLRYFEALGKVRRAVSVIKKRTGAHESTIREYRISKLGMTIGQPLEAFQGVLRGVPTYMGADNPLLEDGTP	PGPT0030523_530	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENVIRONMENTAL_RYTHMICS_SIGNALLING	PUTATIVE-CLOCK-ASSOCIATED_HISTIDINE_KINASE,PGPT0030523-kaiC-K08482
D1-35_03456	1671	rcsC_15		Sensor histidine kinase RcsC	GTGACGTCGGCCGAGCCACTGTCCGAGCGGGCGCTGATTCTCGCGCCGCTCGGACGGGACAGCCAGATTGCCCTGATGATTCTCAAGGAAGCCGGTTTCAACGGCCTCGTTTGCAGTCATCTGGGCCATTTATGCGAAGAATTGGGGCAAGGCGCAGGCCTTTTGGTGATTTCATCGGAAGCCCTGGTCGGGCCGGATCTGGAGACCCTGTTCCAGCACATCGAACAGCAGCCGGCCTGGTCCGACTTGCCGATTGTCCTGCTGACTCATCACGGTGGCCCGGAGCAGAACCCGGTGGCACGCATCGGCGTGCAGCTGGGCAACGTGACGTTCCTGGAGCGTCCGTTCCATCCGGTGACGCTCGTCAGCCTGGTGACCACCGCGTTGCGCGGACGCCGCAGGCAATACGAAGCGCGGGACCGGCTGATCGACCTGAGCAACAGCGAGCTGCGCCTGCAAACGACCCTCGAAACCCTGGAACAACAGGTCGAGGAGCGCACCGCCCAGCTGCGTCATAACGAAGAAGCCCTGCGCCAGTCGCAGAAAATGGAAGCAGTCGGCCAATTGACCGGCGGCATCGCCCATGACTTCAACAACATGCTCACCGGCATCATCGGCAGCCTCGAACTGCTGCGCCGACGCCTGGCGCGCGGCCGCACCGAAGACCTGGACAGCCTGATCGACCTGGGCGTGACCTCGGCCAACCGCGCGGCAGGCCTGACGCATCGGCTGCTGGCCTTTTCCCGGCGGCAATCGCTGGACTCCAAGGCTGTGCAAATGAACACGCTCGTATTATCCATGGGCGAGTTGCTGCAGCGCAGCCTCAACGAGAGTATCCGCCTGGAGATGCAACTGGACGAGCAGCTCTGGATCGCCGAAGCCGACCCCAATCAACTGGAAAGCGCCCTGCTCAACCTGGTACTCAACGCCCGCGATGCCATGCCCGGTGGCGGCAAACTGCTGGTGCAGACGTTCAATCGTTACCTGGACACCGGCTTCACCGACGCCTACACCAACCTGGAGCCCGGGGACTACGTGGTGTTAAGCGTGCAGGATAGCGGATGCGGCATGCCGGAATCGGTGATGCACCGTGCGTTCGATCCTTTCTTCACGACCAAGCCGATCGGCCAGGGCACCGGCCTGGGTCTTTCGATGATCTATGGCTTCAGCAAGCAGTCCCGTGGCCACGTGACCATCGACAGCGAGGTCGACAAAGGCACCACCGTAAACCTTTATCTGCCGCGCTTTGTGGGCGAGGAGATACACGAACCGGCCGTCGCCACCCAGCAGGCGCCTTATGCGCAGGATGGCGAAACCGTGCTCATCGTCGAAGATGATGCGGCGGTGCGGGTGTTGGTCAGCGCAGTGCTGAGCGAGTTGGGCTACGCCTTCGTCGAGGCCGGAGACGCAAACGCGGCGATGCCGATCCTGCAATCGAACCAGCGCATCGACCTGTTGATCAGCGATGTGGGCCTGCCCGGCATGAATGGGCGGCAACTGGCCGAAATCGGCCGGCAGATCCGCCCCGATCTGAAAGTGCTGTTCATCACCGGTTACGCCGAACACGCGGCGGTGCGCGGTGGTTTCCTCGACCCAGGCATGCAGATGATCACCAAGCCGTTCACGTTTGATCTGTTGACGGCGAAGGTGCGGGAGATGATCAAGGTTTGA	MTSAEPLSERALILAPLGRDSQIALMILKEAGFNGLVCSHLGHLCEELGQGAGLLVISSEALVGPDLETLFQHIEQQPAWSDLPIVLLTHHGGPEQNPVARIGVQLGNVTFLERPFHPVTLVSLVTTALRGRRRQYEARDRLIDLSNSELRLQTTLETLEQQVEERTAQLRHNEEALRQSQKMEAVGQLTGGIAHDFNNMLTGIIGSLELLRRRLARGRTEDLDSLIDLGVTSANRAAGLTHRLLAFSRRQSLDSKAVQMNTLVLSMGELLQRSLNESIRLEMQLDEQLWIAEADPNQLESALLNLVLNARDAMPGGGKLLVQTFNRYLDTGFTDAYTNLEPGDYVVLSVQDSGCGMPESVMHRAFDPFFTTKPIGQGTGLGLSMIYGFSKQSRGHVTIDSEVDKGTTVNLYLPRFVGEEIHEPAVATQQAPYAQDGETVLIVEDDAAVRVLVSAVLSELGYAFVEAGDANAAMPILQSNQRIDLLISDVGLPGMNGRQLAEIGRQIRPDLKVLFITGYAEHAAVRGGFLDPGMQMITKPFTFDLLTAKVREMIKV				NA	NA	NA	NA	NA
D1-35_03458	378	cpdR_1		Response regulator receiver protein CpdR	ATGAGTGAAGATGCGCAAGACGTTGTACTGATTGTCGAGGATGATCCGTCGATCCTGATGGTGCTGTCGGCCTACCTGTCTGGCGAAGGGTACCGGGTGCTCCAGGCTGAAAACGGCGAGCAGGCGTTCGAGATTCTGGCGAGCAAGCCTCACCTGGACATGATGATTACCGACTTCCGTCTGCCGGGGGGGATTTCCGGGGTGCAGATCGCTGAGCCTGCGGTGAGGTTGCGTCCGGACCTGAAGGTCATCTTTATCAGTGGGTATGCTCAGGAAGTGCGCGAGACCGATAGCCCCATCACGCGCAAGGCGCCGATTCTGGACAAGCCGTTTGATCTGGATGTGTTGCAGAAGATCATGCAGGGGATGTTGTCGTAG	MSEDAQDVVLIVEDDPSILMVLSAYLSGEGYRVLQAENGEQAFEILASKPHLDMMITDFRLPGGISGVQIAEPAVRLRPDLKVIFISGYAQEVRETDSPITRKAPILDKPFDLDVLQKIMQGMLS				NA	NA	NA	NA	NA
D1-35_03459	1275	rcsC_16		Sensor histidine kinase RcsC	ATGAACCACATGCCAAGAGATATTCAAGCCAAACTGCTGATCGTCGACGATCTGCCTGAGAATCTGTTGGCCCTGGAAGCGCTGATCAAGCGCGAAGACCGCGAGGTCTTCAAGGCCTTGTCGGCGGATGAAGCGCTCTCGCTGCTTTTGCAACACGACTTTGCCCTGGCAATCATTGATGTGCAGATGCCGGGCATGAACGGATTCGAACTGGCCGAGCTGATGCGCGGCACGGAAAAGACCCGCAGCATCCCGATCATTTTTGTCAGCGCCGCCGGCCGCGAGCGCAACTATGCATTCACCGGCTATGAAAGCGGCGCGGTGGATTTCCTGCACAAGCCGCTGGACACCCACGCGGTCAAAAGCAAGGTCAGCGTGTTCGTCGAGCTCTATCGCCAGCGCAAGGCGATGAAGGAACAGGTGCTCGCTCTCGAGCAGAGTCGCCGGGAGCAGGAGCAATTGCTCCAGCAGTTGCAAGCCACCCGTGGCGAGCTCGAGCAGGCGGTGCGCATGCGGGATGATTTCATGTCGATCGTCGCCCATGAGGTTCGTACGCCGCTTAACGGCCTGATCCTGGAAACGCAGTTGCGCAAGATGCACTTGGCGCGCGACAACGCCTCGGCGTTCACCCTGGACAAGATCAAGGCGATGGTTGAACGCGATGAGCGCCAGATCAAGAGCCTGATCCGCTTGATCGAGGACATGCTGGACGTGTCCCGGATTCGCACCGGGAAGTTGTCCATCCGTCCGACCCGCTTCAACCTGACGGCGCTGGTGGAGAACCTGCTGCGCAACTTCCAGCCGCAGATCGCCGCTGCCGAATGCTCGGTGAATTGTACCGCCGAGCCTATGGTGGAAGGGCACTGGGATGAGTTTCGCATCGAGCAGGTGGTCTCGAACCTGCTGACCAATGCGTTGCGTTATGGCAGCAAGAGCCCGATCGAAGTGCGCGTCTACCAGACGCCCGACCACGCCTGCATCGAAGTGCAGGATCACGGTATCGGCATCAGCGAAGAGAACCAGAAACGCATCTTCCAGCAGTTCGAGCGGGTATCGTCCAAGGCCGCCACCGCTGGCCTGGGGCTGGGCTTGTTCATCTCCGAGCAGATTGTCACCGCCCATGGCGGTATCATCACGGTCAATAGCCGCCTCAACGAAGGGGCGTTGTTTCGCGTTTGTCTGCCTTTTCAGAAAACTGGCGAACGGACGCAACCTCTGAGTGGCCCCAAGGTCGTATCAGCAGCTATTGATCCAACAAAGGCTTCTCATGAGTGA	MNHMPRDIQAKLLIVDDLPENLLALEALIKREDREVFKALSADEALSLLLQHDFALAIIDVQMPGMNGFELAELMRGTEKTRSIPIIFVSAAGRERNYAFTGYESGAVDFLHKPLDTHAVKSKVSVFVELYRQRKAMKEQVLALEQSRREQEQLLQQLQATRGELEQAVRMRDDFMSIVAHEVRTPLNGLILETQLRKMHLARDNASAFTLDKIKAMVERDERQIKSLIRLIEDMLDVSRIRTGKLSIRPTRFNLTALVENLLRNFQPQIAAAECSVNCTAEPMVEGHWDEFRIEQVVSNLLTNALRYGSKSPIEVRVYQTPDHACIEVQDHGIGISEENQKRIFQQFERVSSKAATAGLGLGLFISEQIVTAHGGIITVNSRLNEGALFRVCLPFQKTGERTQPLSGPKVVSAAIDPTKASHE				NA	NA	NA	NA	NA
D1-35_03460	588	cheB_4	COG2201	Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGAGCCCAATGACGGACAGATCCAGGCCCCTGATCGAGGCCATCGTAGTCGGCGCTTCCGCCGGAGGCGTCGAGGCGCTGCTCAACATCTTCACGCCTCTGCGCAAGGGCTTCAGCCTGCCTGTCCTCGTGGTGCTGCATTTGCCCGACGAACGTAACAGCCAGTTGGCCCAGGTGTTTCGTCATCGCCTGGCGATACCCGTCGAAGAAGTCCAGGACAAGCAGGACATACGCCCGGGCACGTTGTATGTCGCAACACCCGGTTATCACCTGTCGATCGAGGCTGATCGCAGCCTGTCACTGAGCCTTGAAGCGCCGGTGCACCATTCGCGGCCATCGATCGACGTGTTGTTCGAGTCGGCCGCCGATGTCTATGGTCCTCGTCTGCTGGCAGTGGTCCTGACTGGTGCCAACAGTGACGGCGCCAGGGGGCTGGCCAGGGTGAAAGAGCTGGGCGGCATCACCGTCGTCCAGGACCCGAGGGAGGCACAGGTTTCCACCATGCCCGAAGCGGCGCTTACGTTGCATGAGCCCGACCATATCCTAACTTTACAGGGCATCGGCCAGTTGCTGGCCGGGCTGGAATGA	MSPMTDRSRPLIEAIVVGASAGGVEALLNIFTPLRKGFSLPVLVVLHLPDERNSQLAQVFRHRLAIPVEEVQDKQDIRPGTLYVATPGYHLSIEADRSLSLSLEAPVHHSRPSIDVLFESAADVYGPRLLAVVLTGANSDGARGLARVKELGGITVVQDPREAQVSTMPEAALTLHEPDHILTLQGIGQLLAGLE	PGPT0015650_4164	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015650-cheB|chpB|wspF-K03412	NA	NA
D1-35_03461	816	cheR_2		Chemotaxis protein methyltransferase	GTGGAACGAAACACTGACATCGAACTTCGTTTGTTGATCGAAGCGATCTATTTGAAGTACAGCTACGACTTTCGTGACTATTCCGGCGCCTCCATCAAGCGCCGGGTCCTGCATGCGTTGAATCAGTTCGAATGCAAGACCATCTCGGCCTTGCAAGAGCGCGTACTTCACGACCCGAGCGCGTTCATGCAATTGCTCCAACTGCTGACGATTCCGGTCAGCGAGATGTTTCGCGACCCTGCGCACTTCCTGGCCATTCGCGAGGAAGTGGTGCCGCTGCTCAAGACCTATCCTTCGATCAAGATCTGGATCGCCGGCTGCAGCACCGGTGAAGAGGTCTACTCGATGGCGATCCTGCTGCACGAAGAAGGGCTGTTGGACCGCACCTTGATCTACGCCACGGACATCAATCCCCGTTCACTGGAGAAAGCCAAGCAAGGCATTTTTTCCCTAGAGAATGTCCGGGCCTACACCCAGAATTACCAGCTCGCCGGAGGCCGGCGTTCGTTTGCCGACTACTACACGGCCGCCTACGATTACGCCATGTTCGACAAAACCCTGCGTCAGAACGTGACCTTTGCCGATCACAGCCTGGCGACGGACAGTGTGTTTTCCGAAACTCAATTGATTTCCTGTCGTAACGTATTGATTTATTTTAATAAAAAGCTGCAAGATCGCGCATTTGGATTGTTTCATGAGTCCCTCTGCCATCGTGGTTTCCTGGTGTTGGGCAGTAAGGAAACACTGGATTTTTCGGCTTTCGGCAAGCAGTTCGAGCCGTTGGTCAAACAGGAACGGATCTATCGCAAGTTATGA	MERNTDIELRLLIEAIYLKYSYDFRDYSGASIKRRVLHALNQFECKTISALQERVLHDPSAFMQLLQLLTIPVSEMFRDPAHFLAIREEVVPLLKTYPSIKIWIAGCSTGEEVYSMAILLHEEGLLDRTLIYATDINPRSLEKAKQGIFSLENVRAYTQNYQLAGGRRSFADYYTAAYDYAMFDKTLRQNVTFADHSLATDSVFSETQLISCRNVLIYFNKKLQDRAFGLFHESLCHRGFLVLGSKETLDFSAFGKQFEPLVKQERIYRKL	PGPT0015670_3604	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015670-cheR|pilK-K00575	NA	NA
D1-35_03462	3471	rcsC_17		Sensor histidine kinase RcsC	ATGACTCCTTCGTCTTCGGTCGACGAACAAAGTTTTCGCAAGCTCCTGAGCCGCAATATCAGCCTGCCGCTGGGCATGGGTGCACTCAGCGCGGTGTTTTTCATCGTGTTGATCACTTATCTGCTGTCGGTGATCCAGTGGGTCGGGCACACCGATCGCGTCATCAACAATGCCAATGAAGCGCTGAAGCTGAGCGTCGATCTGGAAACCGGCATGCGCGGTTACCTGCTGAGCGGCGACGAGCATTTCCTCGACCCTTACGAGGTGGCCAAGCCGCGCATCGCCGTGGCCCTGGATACATTGTTGGAACTGACAGCCGACAATCCCGTCCAGACCGATCGCCTGCGTAAGGTCCAGGCACTGCAGACGGAATGGGCCAACTATGCCCAGAGCATGATCGACCTGCAGCGCAGCAGCGGTGATTACCGCGGCGCGGTGAAGAAGGGGCGTGGCAAACGGTTGACGGACGAGATCCGCACGACCTTCGAAGACATCGTCGAAACCGAGCAGCAGTTGCGCGCCGAGCGCAACGAGCAGGTGCGTACCACCACGCTCTGGAGCATTGCCCTGTATTTGCTCTTCGTCGCAGCCATCAGCGGGTTGCTGGCCTACGTGGGGCGGCGCGATCTGTTGGCCCTGTCGAGCAACTACAGCGCGAGCCTGAAAGTCCAGCAGGAAAGCGCCCTGCATCTGGAAAAGCAGGCGTGGCTGCGCAACGGCCAGACTCAACTGGCCGAGCAGGTGCTCGGCCAACTGACGCTGAATCTTTTGGGGCGCAACATCCTGCAGTTCTGCGCCCAGTACCTGGGCAGCGTTGTTGCCGCACTGTATGCGCGGGAAGAAAACGGCGTGCTCAAGCGCATCGCCACCTATGGCATGTCCCGGGAAGACGACGAACAGCACCAGATGGTCATGGACGGCGAAGGCATCGTCGGGCAGGCCGTGCGCCAAGGGCGGCTCATCCGTCTGGATGACGTGCCACGCGATTACCTCAAGGTCAGCTCAGGGCTGGGCCAAGGGTTGCCCAATTGCGTGATGGTGGTGCCGACCCGTGACGACGACCGCATCAATGGTGTCATCGAGTTGGGCTTCCTGCGCCCCCTGGCCGGGCGGGACATCGAGTTGCTGGAACTGGTTGCCGGCAATATCGGCACCTCCATCGAGGCGGCCCGTTACCGTCAACGTCTGCAGGAAGTACTGGCCGAAACCCAGCAGCTCAACGAAGAGTTGCAGGTGCAGCAGGAAGAACTCAAGACGGCCAACGAAGAACTCGAGGAACAGTCGCGCATTCTCAAGGAATCCCAGGCCCACCTGGAAGCCCAGCAGCAGGAGCTGGAGCAGACCAACGAGCAATTGGCCGAGCAGCGCGACGCCATGGACCAGAAGAACAGCGAGTTGAACCTGGCCCAGATCCAATTGCAGGAGCGCGCCGAAGAGCTGCAGCGTTCGAGCAAGTACAAGTCCGAATTTCTCGCCAATATGTCCCATGAGCTGCGCACGCCGCTCAACAGTTCGTTGATCCTGTCCAAGCTGCTGGCGGAGAACCCGCAGAGGAACCTCAGCGACGAACAGGTCAAGTTTGCCGAGTCGATCTACTCCGCGGGCAATGACTTGCTGAACCTGATCAACGACATCCTGGACATTTCCAAGGTCGAGGCCGGAAAACTCGAGGTGCGCCCGGAAAACACCAGCGTGCCTCGCCTGGTCGAAGGGCTGCGGGACATGTTCAAGCCGCTGGCGGCGGACAAGGGCCTGAGTTTCGAGGTGCAGTTGCAGCCTGACGCGCCGTCGATGCTGTATACCGATCGCCAGCGCCTTGAGCAGGTGCTCAAGAACCTTTTGTCCAACGCGGTGAAGTTCACCGAGCAGGGCTCCGTCTGCCTGACCATCACCGGCCAGCCCGGCTCGGGTATCGCGTTCATGGTGCGCGACTCGGGGATCGGCATCGCCGCCGACCAGCAGCAGAGTATTTTCGAGGCGTTCCGCCAGGCCGACGGCACCACCAATCGGCGTTACGGCGGCACCGGCCTGGGGCTGTCGATTTCCCGCGACCTGGCGACGTTGCTCGGCGGCTCGATCTCGGTCTCCAGCGAGCCGGGGCAGGGCAGTGTGTTCACGCTGGTGATGCCTGGGCGTTATGTCGAGCCAGGGGAGGCGCCTGTCGAACCGATGGCGTTCACCCCGACGACCACTGCCCCGGCCCATGTGCCGGCTCCGACACTGGTCGCCGAGGTGGAAACCCCTGTCCCGCAATTTGCCGATGACCGGGACAAGGCGCCTTTCGCTACCCGTTGCATTCTGGTTATCGAAGACGAACCGAAGTTTGCCCGGATCCTGTTCGATCTGGCCCATGAACTGGGCTATCAGTGCCTGGTCGCCCATGGCGCTGACGAAGGCTTTGACCTGGCCTTGCAACTGAGCCCGGACGCGATCCTGCTGGACATGCGTTTGCCGGACCATTCCGGGCTGACCGTGTTGCAGCGGCTCAAGGAGCAGGCCCAGACCCGGCACATCCCGGTGCACGTCATTTCCGTCGAGGACCGCGTCGAAGCGGCGATGCACATGGGCGCGATCGGTTATGCCGTCAAACCGACGACCCGAGAAGAGCTCAAGGACGTTTTCGCGCGCCTGGAAGCCAAGCTGACCCAGAAGGTCAAGCGCGTGCTGCTGGTGGAAGACGATGACTTGCAGCGCGACAGCATTACCCGGCTGATCGGCGACGATGACATCGAGATCACCGCGGTCGGCCTGGCCCAGCAGGCCCTGGACCTGCTGCGCACGCATGTCTATGACTGCATGATCATCGACCTCAAGCTGCCGGATATGCTCGGCAATGACTTGCTCAAGCGTATGTCCAGCGAAGAGATCTGCTCGTTTCCGCCAGTGATCGTCTACACCGGACGCAACCTGACCCGTGATGAAGAAGCCGAACTGCGCAAATACTCGCGCTCGATCATCATCAAGGGCGCGCGCTCGCCGGAACGCTTGCTGGACGAAGTCACACTCTTTCTGCACAAAGTCGAATCGCGGTTGTCCCATGAACGACAGCGGATGCTGCAGACCGCCCGCAGCCGCGACAAGGTTTTCGAAGGCCGCAAGGTGCTGCTGGTGGACGACGATGTGCGCAACATTTTCGCCCTGACCAGCGCCCTGGAGGCGAAAGGCGCCGTCGTGGTCATCGGCCGTAACGGTTACGAAGCGATCGAACGCCTGAACGAAGTCGAGGATATCGATCTGGTGCTGATGGACGTGATGATGCCCGAGATGGACGGCTTTGAAGCCACCGCGCTGATCCGCAAGGACCCGCGCTGGCGCAAGTTGCCGATCATCGCCGTGACCGCCAAGGCCATGAAGGATGACCAGGAGCGTTGCCTGGCGGCGGGCTCCAACGATTACCTGGCCAAGCCGATCGACCTGGATCGCCTGTTCTCACTGATTCGCGTGTGGTTGCCGAATATGGAAAGAATCTAG	MTPSSSVDEQSFRKLLSRNISLPLGMGALSAVFFIVLITYLLSVIQWVGHTDRVINNANEALKLSVDLETGMRGYLLSGDEHFLDPYEVAKPRIAVALDTLLELTADNPVQTDRLRKVQALQTEWANYAQSMIDLQRSSGDYRGAVKKGRGKRLTDEIRTTFEDIVETEQQLRAERNEQVRTTTLWSIALYLLFVAAISGLLAYVGRRDLLALSSNYSASLKVQQESALHLEKQAWLRNGQTQLAEQVLGQLTLNLLGRNILQFCAQYLGSVVAALYAREENGVLKRIATYGMSREDDEQHQMVMDGEGIVGQAVRQGRLIRLDDVPRDYLKVSSGLGQGLPNCVMVVPTRDDDRINGVIELGFLRPLAGRDIELLELVAGNIGTSIEAARYRQRLQEVLAETQQLNEELQVQQEELKTANEELEEQSRILKESQAHLEAQQQELEQTNEQLAEQRDAMDQKNSELNLAQIQLQERAEELQRSSKYKSEFLANMSHELRTPLNSSLILSKLLAENPQRNLSDEQVKFAESIYSAGNDLLNLINDILDISKVEAGKLEVRPENTSVPRLVEGLRDMFKPLAADKGLSFEVQLQPDAPSMLYTDRQRLEQVLKNLLSNAVKFTEQGSVCLTITGQPGSGIAFMVRDSGIGIAADQQQSIFEAFRQADGTTNRRYGGTGLGLSISRDLATLLGGSISVSSEPGQGSVFTLVMPGRYVEPGEAPVEPMAFTPTTTAPAHVPAPTLVAEVETPVPQFADDRDKAPFATRCILVIEDEPKFARILFDLAHELGYQCLVAHGADEGFDLALQLSPDAILLDMRLPDHSGLTVLQRLKEQAQTRHIPVHVISVEDRVEAAMHMGAIGYAVKPTTREELKDVFARLEAKLTQKVKRVLLVEDDDLQRDSITRLIGDDDIEITAVGLAQQALDLLRTHVYDCMIIDLKLPDMLGNDLLKRMSSEEICSFPPVIVYTGRNLTRDEEAELRKYSRSIIIKGARSPERLLDEVTLFLHKVESRLSHERQRMLQTARSRDKVFEGRKVLLVDDDVRNIFALTSALEAKGAVVVIGRNGYEAIERLNEVEDIDLVLMDVMMPEMDGFEATALIRKDPRWRKLPIIAVTAKAMKDDQERCLAAGSNDYLAKPIDLDRLFSLIRVWLPNMERI				NA	NA	NA	NA	NA
D1-35_03463	372	cpdR_2		Response regulator receiver protein CpdR	ATGTCCGTCCCCGCTTCTGACACCCCCTCCACCATCCTGGTAGTCGAAGACGACAACATCGTGCGCATGTTGATTGTCGATGTCCTGGAAGAACTGGAATACAAGGTTTTGGAAGCTGACGGCTGCGAGCAGGCACTTGAGTTTCTGAACGATGACGCTCAGCCCATCGCTCTGATGATGACGGACGTCGGCCTGCCGGTCATGGACGGCCGCGAACTGGCGAAACGGGCCCAACTGGCCAGGCCAGGGCTGCCGATCCTGTTCGCCAGCGGTTATGCCGAAAGCATCGATGTGCCCGAAGGCATGAACGTGATCGGCAAACCCTTCTCCATCGACCAACTGCGCGACAAGGTCAAAAAGATTCTTTCTTGA	MSVPASDTPSTILVVEDDNIVRMLIVDVLEELEYKVLEADGCEQALEFLNDDAQPIALMMTDVGLPVMDGRELAKRAQLARPGLPILFASGYAESIDVPEGMNVIGKPFSIDQLRDKVKKILS	PGPT0003915_1827	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-POLYMYXIN_RESISTANCE,PGPT0003915-pmrA-K07666	NA	NA
D1-35_03464	1293			hypothetical protein	ATGTCTCATCCCACCGCCACCAAAGTCCTGGTGATCGGCTATGTCTGGCCCGAGCCACGCTCATCGGCGGCCGGTGGGCATGTCATGCAGTTATTGGAGGCTTTTCTCGGGCAAGGCTGGGACATCACTTTCAGCAGCCCCGCCAGGCCCGGGGAAAACCGCGCCGACCTGATCGCCCTGGGCATCCGCGAGGTACCGATCGAGCTCAATAGCAGCAGTTTTGACGCATTCATCAGCGAACTCGCGCCCGATGTCGTCCTGTTCGACCAGTACATGATGGAAGAGCAGTTTGGCTGGCGAGTCGAGAAGCACTGCCCCGACGCCCTGCGCGTGCTGGAAACTTCCGATCTGCAGAGCCTGCGCCACGCGCGGCATCAGCGCTTGAAGGATCGCTTGAAAGCCGATGAAACCTGTGAGGATTTCAGCGACCTGTTCGCCCCCGCCCTGCGCGAAGAATTCGAGCTGATGGCCGACACCGACCTGGCCAAGCGCGAGATTGCCGCTCTGTATCGATGCGATCTGAACCTGATGGTGTCCGAAGTCGAGATCGAACTGTTGGTGGAGCACTTCAAGGTGCCCCGTGAGCTGTTGCTCTGGTGCCCATTGATGCTCGACCTGCCTGAGCAAGCCTTCGTGCCTTTCGAAGAACGGGCGCACTTCCTCAGCATCGGCAATTTCCGCCATGCACCGAACTGGGACGCCGTACTCTGGATGAAAAATGCCGTGTGGCCGCTGATTCGCCAGCGACTGCCCGGTGCACAGCTGCACCTGTATGGCGCCTATACCCCGCCCAAGGCCGCAGCGCTGCATAACCCGGCCCAAGGCTTCCACATCATGAACTGGGCAGAGGATGCCTTGCAGGTCATGTCCGCGGCGCGCATCTGCCTGGCCCCCCTGCGTTTCGGCGCCGGTATCAAGGGCAAACTGATCGAAGCCATGCTCTGCGGCACGCCGAGCGTCACCACGCCCATCGGTGCCGAAGCCATGCACGCCGGCATGCCCTGGCCCGGTGTCATCGCGCAGAGCGCCGAGGATATTGCTAGCGCCGCCGTACAGTTGTATAGCGATCAGGCACGCTGGGCCGATGCCCAGGACGCCGGGCTGGCTTTGCTGGCGGCGCGCTTTCGCCGGCGGGTGCACGGCCCGGCGCTGATCGACAGCATCAATGCCTGTCGTGCCGATCTGGCGCGCCGACGCCGGGACAACTTCACCGGCAGCATGCTGCGCCATCACCAGCACAAGAGCACCCAGTACATGTCCCAGTGGATCGAAGAGAAGAACCGCAACAGCTGA	MSHPTATKVLVIGYVWPEPRSSAAGGHVMQLLEAFLGQGWDITFSSPARPGENRADLIALGIREVPIELNSSSFDAFISELAPDVVLFDQYMMEEQFGWRVEKHCPDALRVLETSDLQSLRHARHQRLKDRLKADETCEDFSDLFAPALREEFELMADTDLAKREIAALYRCDLNLMVSEVEIELLVEHFKVPRELLLWCPLMLDLPEQAFVPFEERAHFLSIGNFRHAPNWDAVLWMKNAVWPLIRQRLPGAQLHLYGAYTPPKAAALHNPAQGFHIMNWAEDALQVMSAARICLAPLRFGAGIKGKLIEAMLCGTPSVTTPIGAEAMHAGMPWPGVIAQSAEDIASAAVQLYSDQARWADAQDAGLALLAARFRRRVHGPALIDSINACRADLARRRRDNFTGSMLRHHQHKSTQYMSQWIEEKNRNS				NA	NA	NA	NA	NA
D1-35_03465	906	rhaS_8		HTH-type transcriptional activator RhaS	ATGACCCGAACAGCCAGAGTCACCGACCCTTCCTACGAGTTGATGGACGACCACAACGGGCTGTCCATCATCTATCGCCAGCACGGCTTTCCTTGCCCGCTGGTGCGCTGGCATTTCCACAAGGAATACGAGCTGCACCTGATCGTCGCCAGTTCGGGCAAAGTCTTCATCGGCGACTACATCGGCAATTTTTCTCCGCAGTCGCTGTTCCTTACCGGCCCCAACCTGCCCCACAACTGGATCAGCCAGGTGGCCGAGGACGAAGTGGTGCCCAAGCGCGACATGCTGGTGAACTTCACCGATGAACTGTTTGAAAGCGGCAACCAGGTGTTCGCCGAGCTCAAGACCCTCGCACCGCTGCTGGAGCGTGCCCAGCACGGCATCGAATTTCGCTGCAAGCGCACCATCCGCCAGGCCATGACGTTGATGCAACGCATCGCCGACGCCCAGGGCATGAGCCGGCTGGGCTACTTTTTTATCCTCATGGAGCTGCTGGCGGCCTGCGACGACTTCCAGCTGCTTTCGGGCGCCACCACACCACACGCGGCGGACGAGCACAGCATCGACCGCACCAACCGCGCGGTGGATTACATCTTTGCCCATTACGCCCGGGAGTTGCCCCTGGAAGAAGTCGCCGAGCATCTGGGCATGAAACCCACCTATTTCAGCCGGGTTTTCAAGCAAGCCACGGGGCGTTGCTTCATCGAATTCGTCAATCGCCTGCGCATCAGCAAATCTTGCGAGCTACTGGCCGATGGCGACAAACCAGTGACCGATGTGTGCTTCGAGTCGGGCTTCAACAATATTTCCAACTTCAACCGACGCTTCCAGCAACTCAAGGGCATGACCCCGTCGCACTACCGGCGGCTGGCGGTGCAGCGGTTGACCGAGCAGAACCAGGCCTGA	MTRTARVTDPSYELMDDHNGLSIIYRQHGFPCPLVRWHFHKEYELHLIVASSGKVFIGDYIGNFSPQSLFLTGPNLPHNWISQVAEDEVVPKRDMLVNFTDELFESGNQVFAELKTLAPLLERAQHGIEFRCKRTIRQAMTLMQRIADAQGMSRLGYFFILMELLAACDDFQLLSGATTPHAADEHSIDRTNRAVDYIFAHYARELPLEEVAEHLGMKPTYFSRVFKQATGRCFIEFVNRLRISKSCELLADGDKPVTDVCFESGFNNISNFNRRFQQLKGMTPSHYRRLAVQRLTEQNQA				NA	NA	NA	NA	NA
D1-35_03466	1311			hypothetical protein	ATGAAACCTTCGGTAAAAGCTCTGCTTGTCTCCACCTGCATGACCCTCAGCAGCGTCAGTTTCGGCGCGCAAACCCTGACCATTGCCACCGTCAACAACAGCGACATGATCCGCATGCAAAAGCTTTCGAAGACTTTCGAGGCCGAGCACCCGGACATCACGCTGAACTGGGTGGTGCTCGAAGAAAACGTCCTGCGCCAGCGCCTGACCACGGACATCGCCACCCAGGGTGGACAGTTCGACGTGCTGACCATTGGCATGTACGAAGCCGCACTGTGGGGAGCCAAGGGCTGGCTGGAGCCGATGAAGGACCTGCCGGCGTCCTACGACCTGGAAGACGTCTTCCCTTCCGTGCGCGATGGCTTGTCGGTCAAGGGCTCGTTGTACGCCCTGCCGTTCTATGCCGAAAGCTCGATCACCTATTACCGCACGGACCTGTTCAAGAACGCCGGGCTGAGCATGCCTGAGCACCCGACCTGGACCCAGATCGGTGAATTCGCGCAAAAGCTCACCGACAAGTCCAAGGAACAGTATGGCCTGTGCCTGCGGGGCAAGGCCGGTTGGGGCGAGAACATGGCGCTGATCACGACCCTGGCCAACGGTTTTGGCGCGCGCTGGTTCGATGAGAAGTGGCAGCCGGAGTTCAATGGGCCTGAGTGGAAGGATGCCCTGAACTTCTACGTCGACAACATGAAGAAATCCGGCCCGCCGGGCGCGTCCAGCAACGGCTTCAACGAGAACCTGGCCCTGTTCAACAGCGGCAAGTGCGCGATGTGGGTCGATGCCAGCGTCGCCGGTTCGTTCGTGACCGACAAAACCCAGAGCAAGGTGGCCGATCACGTCGGGTTCACCTTCGCCCCCCACGAAAAAACCGACAAGGGCACTTCGTGGATGTACTCCTGGTCGCTGGCCATCCCGACCAGTTCCAAAGCCAAGGACGCGGCCAAGGTCTTCACCACTTGGGCAACGTCCAAGGAATACGGCCAACTGGTCGCCAAGACCGACGGCATTGCCAACGTACCGCCAGGCACCCGCGCCTCGACCTACAGCGACGAGTACATGAAGGCCGCGCCGTTTGCCAAGGTGACGCTGGAGTCGTTGAAAGTCGCCGACCCGAAAGCACCGACGGTCAAGCCCGTGCCTTACATCGGCATTCAGTTGGTGACCATTCCTGAATTCCAGGCCATCGGCACCCAGGTCGGCAAGTTCTTCTCCGGCGCGCTGACCGGCCAGCAGAGCGTGGACCAGGCATTGACCGCCGCGCAGTCCACCACCGAGCGCGAGATGAAACGCGCCGGGTATCCAAAGTAA	MKPSVKALLVSTCMTLSSVSFGAQTLTIATVNNSDMIRMQKLSKTFEAEHPDITLNWVVLEENVLRQRLTTDIATQGGQFDVLTIGMYEAALWGAKGWLEPMKDLPASYDLEDVFPSVRDGLSVKGSLYALPFYAESSITYYRTDLFKNAGLSMPEHPTWTQIGEFAQKLTDKSKEQYGLCLRGKAGWGENMALITTLANGFGARWFDEKWQPEFNGPEWKDALNFYVDNMKKSGPPGASSNGFNENLALFNSGKCAMWVDASVAGSFVTDKTQSKVADHVGFTFAPHEKTDKGTSWMYSWSLAIPTSSKAKDAAKVFTTWATSKEYGQLVAKTDGIANVPPGTRASTYSDEYMKAAPFAKVTLESLKVADPKAPTVKPVPYIGIQLVTIPEFQAIGTQVGKFFSGALTGQQSVDQALTAAQSTTEREMKRAGYPK	PGPT0016380_590	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNITOL|SORBITOL_TRANSPORT,PGPT0016380-smoE|mtlE-K10227	NA	NA
D1-35_03467	936	ugpA	COG1175	sn-glycerol-3-phosphate transport system permease protein UgpA	ATGAATAGCTCAACGACAACCGCCAAAGCCCCCATCGTGATTGCTCCGCCGCCAGCCCGCAAGATCCGCCTGGCCAACCCCGGCTGGTTCCTGGTCAGCCCGTCGGTCGCCTTGTTACTGCTGTGGATGATCGTGCCGCTGGGCATGACCGTCTATTTCTCGATGATCCGTTACAACCTGCTCTATCCTGGTGAAAACGAATTCGTCGGGCTGGAGAACTTCACTTATTTCCTGACCGATTCGGGCTTCATGCCCGGCGCCACCAATACCCTGCTGCTGGTGGGCAGCGTGCTGCTGATCAGCATCGTGCTCGGCGTGTTGATCAGCGCGTTGCTGGAGGCCAGCGAATTTTTCGGTCGCGGCATCGTGCGGGTGTTGCTGATCTCGCCGTTTTTCATCATGCCCACCGTCGGTGCGCTGATCTGGAAGAACCTGATCTTCCATCCAGTCTCCGGCATCCTCGCCTCGGTGTGGAAGCTCTTCGGTGCGCAGCCGGTGGACTGGCTGGCGCATTACCCGTTGCTCTCGATCATCATCATCGTGTCGTGGCAATGGCTGCCCTTCGCGATCCTGATCCTGATGACCGCCATGCAGTCCCTCGACCAGGAACAGAAAGAAGCCGCGCGCCTGGACGGTGCCGGACCGATCGCGATTTTCTGGCACCTGACCCTGCCACACCTGGCGCGTCCGATTGCCGTGGTGCTGATGATCGAGACGATTTTCCTGCTGTCGGTGTTCGCCGAGATCTTCACCACTACCAACGGTGGCCCTGGCTACGCCTCCACCAACCTCGCCTACCTGATCTACAACCAGGCGCTGGTGCAGTTCGACGTCGGCATGGCGTCAGCCGGTGGCCTGATCGCCGTGGTGATCGCCAACATCGCCGCCATCATCCTGGTCCGGATGATCGGCAAAAACCTCACCGACAAGCATTGA	MNSSTTTAKAPIVIAPPPARKIRLANPGWFLVSPSVALLLLWMIVPLGMTVYFSMIRYNLLYPGENEFVGLENFTYFLTDSGFMPGATNTLLLVGSVLLISIVLGVLISALLEASEFFGRGIVRVLLISPFFIMPTVGALIWKNLIFHPVSGILASVWKLFGAQPVDWLAHYPLLSIIIIVSWQWLPFAILILMTAMQSLDQEQKEAARLDGAGPIAIFWHLTLPHLARPIAVVLMIETIFLLSVFAEIFTTTNGGPGYASTNLAYLIYNQALVQFDVGMASAGGLIAVVIANIAAIILVRMIGKNLTDKH	PGPT0016385_267	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNITOL|SORBITOL_TRANSPORT,PGPT0016385-smoF|mtlF-K10228	NA	NA
D1-35_03468	831			hypothetical protein	ATGACTCTTCAACAATCCCGTCGCCTGCAAAGCCTGTTGCTGGGCACGTTGGCCTGGGCCATCGCGATCCTGATCTTCTTTCCGATCTTCTGGATGGTGCTGACCAGCTTCAAGACTGAAATCGACGCCTTCGCCACGCCGCCGCAGTTCATCTTCGCGCCGACGCTGGAGAACTACCTGCACATCAACGAGCGCAGCAACTACTTCAGCTTCGCCTGGAACTCGGTGGTGATTTCCTTCAGCGCCACCGCCCTGTGCCTGCTGATCGCGGTGCCGGCGGCGTACTCCATGGCGTTCTACGAAACCCAGCGCACCAAAGGCACGCTGCTGTGGATGCTCTCCACCAAAATGCTGCCGCCGGTGGGCGTGCTGATGCCGATCTATCTGCTGGCCAAGCAGTTCGGCCTGCTGGACACGCGCCTCGCGCTGATCATCATCTACACCCTGATCAACCTGCCCATCGTGGTCTGGATGATTTACACCTACTTCAAGGACATCCCGCGCGACATCCTTGAAGCCGCGCGCCTGGACGGTGCCACCCTGTGGCAGGAAATGGTCCGCGTGCTGCTGCCGATCGCCAAGGGCGGCCTGGCGTCAACGGTGCTGCTGTCGCTGATCCTGTGCTGGAACGAGGCGTTCTGGTCGCTCAACCTCACCTCATCCAAAGCCGCGCCGCTGACAGCACTGATCGCCTCGTATTCCAGCCCCGAGGGCCTGTTCTGGGCCAAGTTGTCCGCCGTCTCGACCCTGGCCTGCGCGCCGATCCTGATTTTCGGCTGGATCAGCCAGAAACAGCTGGTGCGCGGTTTGTCCTTCGGCGCGGTGAAGTAA	MTLQQSRRLQSLLLGTLAWAIAILIFFPIFWMVLTSFKTEIDAFATPPQFIFAPTLENYLHINERSNYFSFAWNSVVISFSATALCLLIAVPAAYSMAFYETQRTKGTLLWMLSTKMLPPVGVLMPIYLLAKQFGLLDTRLALIIIYTLINLPIVVWMIYTYFKDIPRDILEAARLDGATLWQEMVRVLLPIAKGGLASTVLLSLILCWNEAFWSLNLTSSKAAPLTALIASYSSPEGLFWAKLSAVSTLACAPILIFGWISQKQLVRGLSFGAVK	PGPT0016390_515	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNITOL|SORBITOL_TRANSPORT,PGPT0016390-smoG|mtlG-K10229	NA	NA
D1-35_03469	1104	malK	COG3839	Maltose/maltodextrin import ATP-binding protein MalK	ATGGCCAACCTGAAAATCAAGAATCTGCAAAAAGGCTTCGAAGGCTTTTCCATCATCAAGGGCATCGACCTTGAAGTGAACGACCGCGAATTCGTGGTCTTCGTCGGCCCTTCGGGCTGCGGCAAGTCCACGCTGCTGCGGCTGATCGCCGGCCTGGAAGAAGTCAGCGACGGCACCATCGAGCTGGACGGCCGTGACATCACCGAAGTCAGCCCGGCCAAGCGCGACCTGGCGATGGTGTTCCAGACCTATGCCCTGTACCCGCACATGAGCGTGCGCAAGAACATGTCCTTCGCCCTCGACCTCGCCGGTGTGCCCAAGACCGAGGTGGAAAAAAAAGTCAACGAAGCGGCGCGCATCCTCGAACTGGGGCCGATGCTGGAGCGCAAGCCCAAGCAGCTGTCCGGCGGCCAGCGCCAGCGCGTGGCGATCGGCCGGGCCATCGTGCGCAACCCGAAAATCTTCCTGTTCGACGAGCCCTTGTCGAACCTCGACGCCGCCCTGCGCGTGCAGATGCGCCTGGAACTGGCGCGCCTGCATAAAGAGTTGCAGGCAACCATGATCTACGTGACCCACGACCAGGTCGAAGCCATGACCCTGGCCGACAAGGTGGTGGTGCTCAACGGCGGTCGCATCGAGCAGGTCGGCTCGCCGCTGGAGCTGTATCACCAGCCGGCCAACCTGTTCGTCGCCGGGTTCCTCGGCACGCCGAAGATGGGTTTTCTCAAGGGCAAGGTCACCGGCCTGGACGGCCAGGGTTGTGAAGTGCTGCTGGACGCCGGCACCCGTATCAGCCTGCCGCGCAGCGGTGCCAACCTGAGCGTCGGCGGCGCGGTAACCCTGGGGATTCGTCCGGAACACCTGAACCTGGCGCAACCGGGTGATTGCGCGCTGCGGGTCACCGCCGATGTCAGCGAACGCCTGGGCAGCGACACCTTCTGCCATGTCGTCACCGCCTCCGGCGAAGCCCTGACCATGCGCGTGCGGGGTGACCTGGCGAGCCGTTTCGGCGAGCAACTGGAGCTGCACCTGGACGCCGAACACTGCCACTTATTCGATGCCGAAGGCGTTGCGGTTTCCCGCGCGCTGCGCGCTGCCGCCTGA	MANLKIKNLQKGFEGFSIIKGIDLEVNDREFVVFVGPSGCGKSTLLRLIAGLEEVSDGTIELDGRDITEVSPAKRDLAMVFQTYALYPHMSVRKNMSFALDLAGVPKTEVEKKVNEAARILELGPMLERKPKQLSGGQRQRVAIGRAIVRNPKIFLFDEPLSNLDAALRVQMRLELARLHKELQATMIYVTHDQVEAMTLADKVVVLNGGRIEQVGSPLELYHQPANLFVAGFLGTPKMGFLKGKVTGLDGQGCEVLLDAGTRISLPRSGANLSVGGAVTLGIRPEHLNLAQPGDCALRVTADVSERLGSDTFCHVVTASGEALTMRVRGDLASRFGEQLELHLDAEHCHLFDAEGVAVSRALRAAA	PGPT0014160_1033	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0014160-malK|mtlK|thuK-K10111	NA	NA
D1-35_03470	1482	por_1	COG0246	Polyol:NADP oxidoreductase	ATGAAACTCAACCGACAGAACCTGCACAACCTCAACGCCGAGGTCGCCCTGCCCGCTTACAACCTGGGCGACCGCCGCCAGGGCATCGCCCACATCGGCGTCGGCGGTTTCCACCGTGCGCACCAGGCGTATTACACCGATGCGTTGATGAACACCGGCGAAGGCCTCGACTGGGCTATCTGCGGCGTAGGCCTGCGGGCCGAAGATCGCCGGGCCCGGGATGATCTGGCTGGCCAGGACTACCTGTTCACCCTGTATGAACTGGGCGATACCGATGACACCGAAGTCCGGGTCATCGGCGCGATCGCCGACATGCTGTTGGCCGAGGATGGCGCCCAGGCGTTGATCGACAAACTGGCCGACCCGCAGATCCGCATCGTCTCGCTGACGATCACCGAGGGTGGTTATTGCATTGACGACAGCAACGGCGAATTCATGGCCCATCTGCCGCAGATCCAGCACGACCTGGCCCGTCCGGACGAACCGCAGACCGTGTTCGGCTTCCTCTGCGCCGCCCTAGCCAAACGCCGCGCCGCCGGGACGCCGGCGTTCACCCTGATGTCCTGCGATAACCTGCCCCACAACGGCGCCGTCACGCGCAAGGCGCTGCTGGCGTTTGCCGCATTGCGAGACCCCGAACTGAGACAATGGATCGAGCAGAACGTGAGCTTCCCCAACGCCATGGTCGATCGCATTACCCCGATGACCAGCAGCGCCCACCGCTTGCAGCTGCACGACGAGCATGGCATCGACGACGCTTGGCCAGTGGTGTGCGAACCCTTTGTGCAATGGGTGCTGGAGGACAAATTCGTCAATGGTCGCCCGGCCTGGGAGAAGGTCGGTGTGCAGTTCACCGATGACGTTTCGCCCTATGAAGAGATGAAGATCAAGCTGCTCAACGGCAGCCATCTCGCGTTGACGTACCTGGGTTTCCTCAAGGGGTATCGTTTCGTCCACGAAACCATGAACGACCCGTTGTTCGTGCGTTACATCCGCGCCTACATGGACCTGGACGTGACGCCACAACTGGCGCCCGTGCCGGGCATCGACCTGACGGAATACAAGGACACCCTGGTGGAGCGCTTCTCCAACCAGGCCATCGCCGACCAGTTGGAACGGGTGTGTTCGGATGGCTCGTCGAAATTTCCCAAATTCACCGTGCCGACCATCAACCGCCTGATCGCCGACGGCGGCCAGACCCGCCGCGCGGCGCTGGTGGTGGCGGCCTGGGCTGTTTACCTCAAAGGGGTAGATGAAAATGGCACGACCTATTCGATCCCCGATCCACGCGCGGCGTTCTGCCAGGCGCTGGTGGCTGACGACGCGCTGGTGACCCAGAGAATGCTTGCAGTGGAAGAAATTTTTGGCACGGCCATCCCCCGTTCGCCCGAGTTCGTGGCAGCATTCGAATGGTGCTGCAACAGCTTGCGCGAGCAAGGGGTGACCAAGACGCTTGAGCGGGTGCTGGCTGATCAAGGCTAG	MKLNRQNLHNLNAEVALPAYNLGDRRQGIAHIGVGGFHRAHQAYYTDALMNTGEGLDWAICGVGLRAEDRRARDDLAGQDYLFTLYELGDTDDTEVRVIGAIADMLLAEDGAQALIDKLADPQIRIVSLTITEGGYCIDDSNGEFMAHLPQIQHDLARPDEPQTVFGFLCAALAKRRAAGTPAFTLMSCDNLPHNGAVTRKALLAFAALRDPELRQWIEQNVSFPNAMVDRITPMTSSAHRLQLHDEHGIDDAWPVVCEPFVQWVLEDKFVNGRPAWEKVGVQFTDDVSPYEEMKIKLLNGSHLALTYLGFLKGYRFVHETMNDPLFVRYIRAYMDLDVTPQLAPVPGIDLTEYKDTLVERFSNQAIADQLERVCSDGSSKFPKFTVPTINRLIADGGQTRRAALVVAAWAVYLKGVDENGTTYSIPDPRAAFCQALVADDALVTQRMLAVEEIFGTAIPRSPEFVAAFEWCCNSLREQGVTKTLERVLADQG	PGPT0018400_337	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_MANNITOL_DEGRADATION,PGPT0018400-mtlK-K00045	NA	NA
D1-35_03471	1488	xylB	COG1070	Xylulose kinase	ATGGCAAACCAACAACTGTTCCTGGGCATTGACTGCGGCACCCAAGGCACCAAGGCGCTGATCCTCGATTCGATCAGCGGCCAGGTACTTGGCCAGGGCGCCGCCGCCCACGACATGATCAGCGGTGCCAACGGCCGCCGGGAACAAGACACCCGGCAATGGCTCGACGCGTTCACCCAGGCCACTCGCCAAGCGCTGGCGGATGCAAAGGTCGATGGCCAGTCGATTCTCGGCATCGGCGTCTCCGGCCAGCAGCACGGCCTGGTATTGCTCGATGACCAGGGCCAGGTCCTGCGCCCGGCAAAACTGTGGTGCGATACCGAGACGACCGCGGAAAACGATCGTCTCCTGGCGCATCTCGGCGGTGAAGAAGGCAGCCTGGAACGCCTCGGCGTGGTGATTGCGCCGGGCTACACGGTGTCCAAACTGCTCTGGACCCGAGAACAGCACCCGCAGGTTTTCGAGCGGACCGCCAGCATCCTGCTGCCCCATGACTTCCTCAATTACTGGCTTACCGGGCGCCATTGCAGCGAGTACGGCGATGCCTCGGGCACCGGCTACTTCAACGTCCGTACCCGCCAATGGGATCGCGCGCTGCTGCGCCATATCGACCCTAGCGGCCGGCTGGAATCGGCCTTGCCCGAGCTGATCGAGGCCCATCAGCCAGTCGGCAGGATCCTGCCCGAGATCGCCGCACACCTGGGCCTCAACCCCGACGCGGTGGTCGCCAGTGGCGGCGGCGACAACATGATGGGCGCCATCGGCACCGGCAACATCCAGCCCGGCGTGATCACCATGAGCCTTGGTTCCTCCGGCACGGTGTATGCGTATGCCGCCGAGCCCGTGGTCAGCCCGCAAGCATCCGTGGCGACGTTCTGTTCGTCGAGCGGCGGCTGGCTGCCGTTGATCTGCACCATGAACCTGACCAACGCCACCGGAGCGCTGCGCGAGCTGCTGGAACTGGACATCAATACGTTCAATACCCTCGTGACCCAGGCGCCGATCGGTGCCGAGGGCGTGTGCATGCTGCCGTTCCTCAATGGCGAACGCGTCCCCGCCCTGCCCCATGCCACCGGCAGCCTGCTGGGCCTGACGACCACCAACCTGACCCGGGCCAACCTCTGCCGCGCGGTGGTCGAAGGCACGACCTTCGGCCTGCGCTATGGCCTCGACCTGCTCCGTGCCAACGGGCTCAAGGCCCAGAGCATTCGCCTGATCGGCGGCGGCTCGAAGAGCCCGGTCTGGCGACAGATCGTCGCCGACATCATGGACACTACCGTCATTTGCACCGAACAGAGTGAAGCCGCTGCCCTGGGCGGGGCGATCCAGGCGGCGTGGTGTCATGGCGCCGGGCAAACATCCCTGGCCGACCTGTGCGAGCGCTGCGTCAAACTCGACCCGGCCAGCGAAACCCGGCCCGTCGCCGCGCACGTCGCGGCGTCACAACAAGCCTACGAACGTTACCGGCAGCACGTCGCAACCCTTTGA	MANQQLFLGIDCGTQGTKALILDSISGQVLGQGAAAHDMISGANGRREQDTRQWLDAFTQATRQALADAKVDGQSILGIGVSGQQHGLVLLDDQGQVLRPAKLWCDTETTAENDRLLAHLGGEEGSLERLGVVIAPGYTVSKLLWTREQHPQVFERTASILLPHDFLNYWLTGRHCSEYGDASGTGYFNVRTRQWDRALLRHIDPSGRLESALPELIEAHQPVGRILPEIAAHLGLNPDAVVASGGGDNMMGAIGTGNIQPGVITMSLGSSGTVYAYAAEPVVSPQASVATFCSSSGGWLPLICTMNLTNATGALRELLELDINTFNTLVTQAPIGAEGVCMLPFLNGERVPALPHATGSLLGLTTTNLTRANLCRAVVEGTTFGLRYGLDLLRANGLKAQSIRLIGGGSKSPVWRQIVADIMDTTVICTEQSEAAALGGAIQAAWCHGAGQTSLADLCERCVKLDPASETRPVAAHVAASQQAYERYRQHVATL	PGPT0017535_738	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
D1-35_03472	939	scrK	COG0524	Fructokinase	ATGTATCTGGTATGTGGTGAAGCGCTGTTTGATTTTTTCAGCGCAAACGAAGCGCAGACTCCGGCTTCGCAAGTGAACTTCAAGGCGCTCGCCGGTGGTTCACCGTTCAACGTGGCGGTGGGTTTGCGTCGACTGGGGATCGAGTCGGCACTATTCACCGGGCTGTCCACCGACTATCTGGGCCGGCGCTTGAAACAGGTGCTCGTGGACGAAGGCGTCAGCATTCAATTTGCCCAGGACTTCGAGGCCCCCACCACCCTGGCCATGGTCGCTGTCGGCGCCAACGGCTCGCCCCACTACAGCTTCCGTGGCGAAGGCTGCGCAGACCGGCAATTGCGCGCGGAGCATTTGCCGACGCTGGGCCCGCAAGTGCGCGGCCTGCATGTGGGTTCGTTCTCCTTGGTGGTGCAACCGGTGGGCGATACGCTGCTGGCACTGGTACAACGCGAAAGCGGCCGACGCCTGATCAGCCTCGACCCGAACGTGCGGCTCAATCCGCAGCCAGACATCGGGTTGTGGCGTTCACGGATCGCGACGCTGGTGGAATATGCCGACCTGATCAAGGTCAGCGATGAAGACCTGAGCCTGCTCTATCCTGACCGGGACCCACATGAAGTGATTGGGGGCTGGCTGGAGCACCGCTGTCAGTTGGCCTTCCTCACCCGTGGCGGCCAGGGCGCAACGGTGTTCAGCCGTCAGCATGGCGTATGGTCGCTTCCCGCCTGCCCGGTCCAGATCGCCGATACGGTGGGCGCGGGCGACACGTTCCAGGCTGCGCTGATCGCTTGGCTGACCGAACAGCAGTTGGATGATGTGCAGGGTTTGCATTCGCTGAGCGCGGAGCAGATCGGGGAGATGCTGCATTTCGCCATGCGCGCCGCGGCACTTACGTGCGGCAAAGTCGGGCCAGACCTGCCCTATCGGCAGCAATTGGTCTAG	MYLVCGEALFDFFSANEAQTPASQVNFKALAGGSPFNVAVGLRRLGIESALFTGLSTDYLGRRLKQVLVDEGVSIQFAQDFEAPTTLAMVAVGANGSPHYSFRGEGCADRQLRAEHLPTLGPQVRGLHVGSFSLVVQPVGDTLLALVQRESGRRLISLDPNVRLNPQPDIGLWRSRIATLVEYADLIKVSDEDLSLLYPDRDPHEVIGGWLEHRCQLAFLTRGGQGATVFSRQHGVWSLPACPVQIADTVGAGDTFQAALIAWLTEQQLDDVQGLHSLSAEQIGEMLHFAMRAAALTCGKVGPDLPYRQQLV	PGPT0017625_2226	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
D1-35_03473	285			hypothetical protein	ATGTTTTTATCTGCCCTCGAAATGCGAAACATCATTGAAAGCAGCCTGCTGCCCAAACGCTCGCAATGCACCTTGTCACCTGATCTGTCCATGACCGTTAAAATCTACGACGACCACCAGACCGACCGCGTGGCCCTGGTCAAGAGCGATATTGACGCCACCAAGCTCACCGGCTGCCGCGCCATCAACGATCTGATTGCGGAACTGCGTACCGAACTCGACCGTGGCCAGGGTCACGGCCACGGGAACTATTTCCACCAGCAACACCGGATGAGCGGGCGTTAA	MFLSALEMRNIIESSLLPKRSQCTLSPDLSMTVKIYDDHQTDRVALVKSDIDATKLTGCRAINDLIAELRTELDRGQGHGHGNYFHQQHRMSGR				NA	NA	NA	NA	NA
D1-35_03474	1008	ilvA_2	COG1171	L-threonine dehydratase biosynthetic IlvA	ATGACCCCAACCAGCCCCGAGCAGACGCTGCTGGAGCACTACGTCAAGAAGATCCTTGCCGCTGCGGTGTACGAACTGGCGGTGCCCACGCCGCTGCAAGCGGCTGCGGCGCTGTCCCAGGCCTTGGGCAATCGGATTCTGCTCAAGCGCGAGGACCTGCAACCGACGTTCTCGTTCAAGATCCGCGGCGCTTATAACAAGCTCGTGCAACTGACCCCCGAGCAACGCAGCCGTGGCGTGATCACCGCATCGGCGGGCAACCACGCCCAAGGCGTGGCGCTGGCGGCTCAAGCGTTGGGTATCTCGGCGTGCATCGTCATGCCGCGCACGACGCCCCAACTGAAAGTACTGGGCGTGCGCAGTCGCGGGGCCGAAGCGTTGCTGCATGGTGAGAGTTTTCCATTCGCCCTGGAATTCGCCCTGGACCTGGCTCGGCAGACCGGGCGGGAATTCGTCTCGCCGTTCGATGACCCGCAAGTCATCGCCGGGCAGGGAACCGTCGCGATGGAGATCCTGCGCCAGCATCCAGGTCAACTGGATGCCATCTTTGTTCCGGTCGGCGGTGGCGGCTTGATTGCCGGGGTGGCGGCTTACGTCAAATACCTGCGTCCGGAGGTGCGCATCATTGGCGTCGAGTCGGAACACTCCGCATGCCTCCAGGCCGCACTGGCAGCAGGGGAGCGGGTGACGCTAGCGAGCGTCGGCACGTTCGCCGACGGCGTGGCCGTCGCGCAGATCGGCGCCCATGGCTTCGATATCTGTCGTTTCTGTGTCGATGAAGTGATCACCGTCAGCAACGACCAGCTCTGCGCCGCGATCCGGGATATCTATGACGACACCCGCTCGATCACCGAGCCATCCGGCGCCCTGGCGGTGGCGGGGATCAAGCGCTACGTGACGGACAGCGGAGCGCAGGGCCAGACACTGGTGGCGATCAACTCTGGCGCAAACATCAACTTCGACAGCTTGGGCCACGTGGCAGAGCGCGCGGCAATGGCTGCGTCTTGA	MTPTSPEQTLLEHYVKKILAAAVYELAVPTPLQAAAALSQALGNRILLKREDLQPTFSFKIRGAYNKLVQLTPEQRSRGVITASAGNHAQGVALAAQALGISACIVMPRTTPQLKVLGVRSRGAEALLHGESFPFALEFALDLARQTGREFVSPFDDPQVIAGQGTVAMEILRQHPGQLDAIFVPVGGGGLIAGVAAYVKYLRPEVRIIGVESEHSACLQAALAAGERVTLASVGTFADGVAVAQIGAHGFDICRFCVDEVITVSNDQLCAAIRDIYDDTRSITEPSGALAVAGIKRYVTDSGAQGQTLVAINSGANINFDSLGHVAERAAMAAS	PGPT0001960_5302	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
D1-35_03476	1152	yliI	COG2133	Aldose sugar dehydrogenase YliI	ATGTTGCGTAAAACATTCCTGGCAACACTTTGCGCCAGCGCTGTCCTGGCCCTTTCAGCGCCGGCCTCTGCCGCGCCAGTCCAGCAATTCAAGGCCGAGGACGGCACCGTCGAAGTCACCACGGTCACCCGGGGGCTGGAGCGGCCCTGGTCCGTGGCGTTCCTGCCGGAGCAGCAGGGCATGCTGGTCACGGAGCGTCCCGGTAACCTGCGATGGGTGAAGGCCGACGGGAAATTGTCTGCGCCGTTGAGCGGTGTTCCCGAGGTCTGGGCCAAGGGGCAGGGTGGTTTGCTGGATGTTGTGCTGTCTCCGGACTTCAAACAGGATCGCACCGTCTACCTGTCGTATGCCGAGGCGGGCGAGGATGGCAAGGCCGGCACGGCGGTGGGCCGTGGGCAGTTGTCCAGCGACATGACGCGCCTGGACAACTTCGATGTAATTTTCCGCCAGCAACCCAAGCTCTCGACGGGCAACCATTTCGGTTCGCGCCTGGTATTCGACCGGGACGGCTATCTGTTCATCACCCTGGGCGAAAACAACGACCGTCCGACCGCACAGGACCTGGACAAGCTGCAAGGCAAGATCGTGCGGATCTATCCCGACGGCAAGGTGCCGGACGACAACCCTTTCGTGGGGCAGAAAAACGTCCGTCCCGAGATCTGGTCCTACGGCTTGCGCAATCCCCAAGGCGCCGCGCTCAATCCGTGGAATGGCACGCTATGGGAGAGTGAGCATGGCCCCAAGGGCGGTGACGAGCTGAACATCATCGAGCGCGGCAAGAACTATGGCTGGCCGTTGGCGACTCATGGCGACAACTATTCCGGCGCGCCGATTCCCGAGGCCCAAGGCAAGACCGCGAAGGGTACCGTCGGTCCCCATCACGTCTGGCAGGTATCGCCAGGGCTCAGCGGCATGGCGTTCTACGACAATGACCGGTTTAAGGCCTGGCAACGCAACGCGTTTGTCGGGGCGCTGGTTTCCAGGGACCTGATTCGCCTGGAGTTCGACGGCGACAAGGTTGTCCATGAAGAACGCTTGCTTGGCGAGCTCAAGGAGCGGATCCGCGATGTTCGCCAGGGGCCGGATGGTTTCCTCTATGTGCTGACGGACGACGATGACGGTGCGCTGTACAAGGTCGGGCTGAAGCAATAG	MLRKTFLATLCASAVLALSAPASAAPVQQFKAEDGTVEVTTVTRGLERPWSVAFLPEQQGMLVTERPGNLRWVKADGKLSAPLSGVPEVWAKGQGGLLDVVLSPDFKQDRTVYLSYAEAGEDGKAGTAVGRGQLSSDMTRLDNFDVIFRQQPKLSTGNHFGSRLVFDRDGYLFITLGENNDRPTAQDLDKLQGKIVRIYPDGKVPDDNPFVGQKNVRPEIWSYGLRNPQGAALNPWNGTLWESEHGPKGGDELNIIERGKNYGWPLATHGDNYSGAPIPEAQGKTAKGTVGPHHVWQVSPGLSGMAFYDNDRFKAWQRNAFVGALVSRDLIRLEFDGDKVVHEERLLGELKERIRDVRQGPDGFLYVLTDDDDGALYKVGLKQ	PGPT0017700_1229	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_ALDOSE_DEGRADATION,PGPT0017700-yliI-K21430	NA	NA
D1-35_03477	342			hypothetical protein	ATGAACAGACTGATACTCGCCACCCTGGTGCTGCTGACGGCAGCCACTGCCCAGGCGGCTACGCCCGGCGCCGATCCAGTACTCGTGGCGCAGAACCTGCCGGGCAACAACAATCCCTACAACAGTCCGATTCGCCGGGCCAACCCGAACAGCATGCAGGGCACCCAGCCCAACGTGCCAGGCATACGGAACAACCCGACGGTTCCGGTTCCCCGACCGCCGACCCTGGAGAATGGCGGCATCGGCAACGGCTACCCGCGTTCCGGACCGCCATCGGGGTCGCCACGCCCCACCATCGAGTCGCCGACGCCTCCCCGGCACACCAATAATGGCAATCGTTGA	MNRLILATLVLLTAATAQAATPGADPVLVAQNLPGNNNPYNSPIRRANPNSMQGTQPNVPGIRNNPTVPVPRPPTLENGGIGNGYPRSGPPSGSPRPTIESPTPPRHTNNGNR				NA	NA	NA	NA	NA
D1-35_03478	891	ku	COG1273	Non-homologous end joining protein Ku	ATGGCACGGGCTATCTGGAAAGGCGCAATCAGTTTCGGGCTGGTCCACATTCCCGTGGCCCTGGTGTCAGCCACCGCGTCCCAGGGCGTGGATTTCGACTGGCTGGACAAACGCAGCATGGACCCGGTGGGCTACAAGCGGGTCAACAAGGTTACCGGCAAGGAGGTGACCAAGGACGACATCGTCAAAGGCGTGGAATACCAGAAAGGCCAATACGTGCTGATCAGCGAAGAGGAGATTCGCGCCGCCCACCCCAAGTCCACCCAGACCATCGACATCTTTTCCTTCGTCGACAGCGAGAAGATCCCGCTGCAGAACATCGAAAAGCCGTATTTCCTCGCACCTGATAAACGTGGTGGCAAAGTCTACGCCCTGCTGCGCGAAACCCTGCTCAAGACCAACAAAGTCGCGCTGGCGAATGTGGTGATGCATACCCGCCAGCACCTGGCGGCGCTGATGCCCCTGGAATCGGCCCTGGTGCTGGTGCTGCTGCGCTGGCCCGCCGAAGTCCGCGAACTCGACGTCCTGGAACTGGGCGACGAAGTCACCAACCCGACGCTGGCGAAGGGCGAACTGGACATGGCCAAACGGCTCGTAGAAGACATGAGTGGCGACTGGGAACCCCAGGAGTATCGCGACAGTTTCCAGGAAAAGATCATGGAACTGGTGGAGAAAAAAGCCACCGAAGGCCGGCTCGAAGCGGTGGAAACCGACCCCGGCGAAGAACAGCGCAAAACCGCCGACGTTATCGACCTCACCGAACTGCTCAAGCGCAGCCTCGGCGGCAAGGGCAAGACGGCGGAAAAGCCTGCCGAAAAGCCTGCGGCAAAATCGACCAAGACGCGCAAATCCGCTCCTGCTAAAAAAGCCACCAAGGCCTCCCGGGGCTAA	MARAIWKGAISFGLVHIPVALVSATASQGVDFDWLDKRSMDPVGYKRVNKVTGKEVTKDDIVKGVEYQKGQYVLISEEEIRAAHPKSTQTIDIFSFVDSEKIPLQNIEKPYFLAPDKRGGKVYALLRETLLKTNKVALANVVMHTRQHLAALMPLESALVLVLLRWPAEVRELDVLELGDEVTNPTLAKGELDMAKRLVEDMSGDWEPQEYRDSFQEKIMELVEKKATEGRLEAVETDPGEEQRKTADVIDLTELLKRSLGGKGKTAEKPAEKPAAKSTKTRKSAPAKKATKASRG				NA	NA	NA	NA	NA
D1-35_03479	1989	ligD_1	COG1793	Multifunctional non-homologous end joining protein LigD	ATGGCCAAGGCCGAGAGTGAATATGCCCGCCTGTCCGCCGTGGAGGCGGATGAACCAACGACTCGTAGCCGCACCCGCCGGAATGCGCAGACCGACACGGGGCGAATCCCCGAACGTCTGTCGCCGCAGCTGGCGACACCGGTGGAGCAACCGCCGGCCGGTGAGTGGCGCTATGAAGTGCAGTTTCATGGCTACCGGTTGATGACGCGCATCCAGAACGGCGAGGTCCGGCTGTTCAATCGCCACCATGCGGACTGGACCGATCGCCTCACGCTGCACGCCGACGCCCTGGCCCAGTTGAATCTGGGCGACAGCTGGCTCGACGGCGAACTGGTGCTGCTCGATGAGACCGGGCATTCCGACTTCCCTGCCCTGCGCCAGGCCTTCGAGATCGGCCGCAGCGTCGACATGCTGTATTTCCTTTTCGACGCACCGTTTCTCAATGGCGTCGACCTGCGCGACAAACCGGTTGAAGAACGCCGCGCAGCCTTGAAAAATGCGCTCAAGAGCAACTCCAGCAAGCGCCTGCGGTTCTCCGAGGCGTTTTCCGCCAGCCAGCATGACATCTTCGAAAGCGCCAGCGCCCTGTCACTGGACAGCGTGGTTGGCAAGCGTCTGGGCAGCCCTTATGCCTCGGGACGGAACGCCGATTGGGTCAAACTCAGATGTCGGCTGCGCCAATGCTTCGTCATCGTCGGGTTCACCCGCCCGCAAGGCACGCGCAACGGCTTCGGCGCACTGTTGCTAGCGGTCAACGGGCCGTCGGGGCTGGTCTATGCCGGCCGGGTCGGCACGGGCTTCAGCCAATCCCAACTCAAACAACTGCATGAACAGCTATGTGCCTTGGAACGTGAAACGTCGCCACTCGACCAGCTGCTCAAAGGCGCACCGGCGCGCGGCGTGCATTGGGTCGAGCCGACGCAGGTCTGCGAAATCGAATTTGCCGAATGGACCCGCGACGGGCTGGTGCGTCAGGCGGTGTTCCTCGATCTGCCCGGCGACCGGCAGGTCAGTCGGGTGACGCGTGAACAACCCATGCCCATCAAAGCCACGCCCGCCAAGCCCAAACGCCGCGGCAAGGCCGACACCGCGAAAGTCGACGGCGTGGTCATCACCCACCCGGACCGCGTCGTCGACAGCGTCAGCGGTGTGCAGAAAGCCGAACTGGCCCAGTATTACCTGGACATCGCCCCCTGGATCCTGCCGCATCTCAAGTTGCGGCCGGTCTCCCTTGTACGGGCGCCGGAAGGGATTGGCGAGGAGCTGTTTTTTCAGAAACACGCCGATCGCCTGGAAATCCCCCATATCAGGCAACTCGATCCGGCGCTGGACCCGGGCCATGCGGCTTTGATGGAAATCGACAGCATCCATGCCCTGGTCGGCGCGGCGCAGATGGGCGCGGTGGAACTGCACACCTGGACGGCGACCCATGACCGGATCGAGACGCCCGATCTGTTTGTGCTGGACCTGGACCCGGATCCGTCGTTGCCCTGGAACGCCATGCTCGACGCGACGCGCATGACCCTGTCAGTACTCGACGAACTGGGTTTGCAGGGGTTTCTCAAGACCAGCGGCGGCAAAGGCATGCACGTCATCGTGCCACTGGCGCGAAGCGAGGGGTGGGACGTCACCAAGGCCTTTGCCAAGGCCATATCGCAGTTCCTGACCCGGCAGATGCCGCAACGAATCACCGCGACCATGGGCCCGAAAAACCGCGTGGGCAAGGTCTTTATCGACTACCTGCGCAACGCCCGTGGTGCCAGTACCGTCGCCGCTTATTCGGTGCGTGCCCGGCCGGGCCTGCCGGTTTCGGTACCGATCGCCCGGGACGAACTCGCCGGCCTGCGCAACGCGCAGCAATGGGATATCCATACCGCGCTGGAACGGGCCAAGGGCCTGGGCGCCGATCCGTGGGAAGGCTACAACCATCGCCAACGGATCACGGCGAAGATGTGGGAACAGTTGGAGGCTGAGAAACCGGGCGGCTGA	MAKAESEYARLSAVEADEPTTRSRTRRNAQTDTGRIPERLSPQLATPVEQPPAGEWRYEVQFHGYRLMTRIQNGEVRLFNRHHADWTDRLTLHADALAQLNLGDSWLDGELVLLDETGHSDFPALRQAFEIGRSVDMLYFLFDAPFLNGVDLRDKPVEERRAALKNALKSNSSKRLRFSEAFSASQHDIFESASALSLDSVVGKRLGSPYASGRNADWVKLRCRLRQCFVIVGFTRPQGTRNGFGALLLAVNGPSGLVYAGRVGTGFSQSQLKQLHEQLCALERETSPLDQLLKGAPARGVHWVEPTQVCEIEFAEWTRDGLVRQAVFLDLPGDRQVSRVTREQPMPIKATPAKPKRRGKADTAKVDGVVITHPDRVVDSVSGVQKAELAQYYLDIAPWILPHLKLRPVSLVRAPEGIGEELFFQKHADRLEIPHIRQLDPALDPGHAALMEIDSIHALVGAAQMGAVELHTWTATHDRIETPDLFVLDLDPDPSLPWNAMLDATRMTLSVLDELGLQGFLKTSGGKGMHVIVPLARSEGWDVTKAFAKAISQFLTRQMPQRITATMGPKNRVGKVFIDYLRNARGASTVAAYSVRARPGLPVSVPIARDELAGLRNAQQWDIHTALERAKGLGADPWEGYNHRQRITAKMWEQLEAEKPGG	PGPT0014910_1149	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971	NA	NA
D1-35_03480	900			hypothetical protein	GTGAAGCTCATTATTGTCGCAATCTACGTACTTTCCATTGGCTATGTGCACCTGCGCGGGCGCGTGCGGCATAAATTCGGGCGCCAGTTGAGCGATCACTCATCCTTCCTTGCGCCGATCAATTGCCTGCTCTACCTGTGTTCGAAACTGCCCAACAGGCCTTTCCTGAGCCCGGCCCAGTTTCCTGACCTGAGCCCCTTGCAGGCCCATTGGGAAGAGATCCGCGCCGAAGGCCAGAGCCTGCTGCAAGCGGGGGAGATCAAGCGCTCCGATCAATATGACGACGTGGGCTTCAACTCGTTTTTCAAGACTGGCTGGAAGCGCTTCTACCTGAAGTGGTATGGCGACAGCCATCCCTCGGCGATGAAGCTGTGCCCGCGCACCACCGAACTGGTGCAGAGCATCGGCTCGATCAAGGCCGCGATGTTCGCCGAGCTGCCGCCGGGTTCGAAGCTGGTGCGTCATCGCGATCCGTATGCCGGGTCTTATCGCTACCACTTGGGGCTGCAGACACCCAACGACGCCGGCTGCTACATCAATGTCGACGGTGAGGCTTATCACTGGCGCGACGGCGAGGCGGTGGTGTTCGACGAAACATTCATTCATTACGCCGAGAACACCACGTCGCAGAACCGCATCATCCTGTTCTGCGACGTGGAGCGGCCGATGAGATTTCGTTGGGCCACCGCCTTCAATCGCTGGTTCAGTCGTACCGTGATGGCCGCCGCTGGCGCGCCGAATGACGCCGGGGACCGGACCGGTGGCCTGAACCGGGCGTTTTCCCGGCTGTACAAGATCCGCCTGCAAGGCAAAGCGCTGAAAAAGCGCAATCGCAAGCTGTATTACCTGCAGAAATGGGCGTTCTTTGGCGGCCTGCTGGCGATCTTCATCTGGATCTGA	MKLIIVAIYVLSIGYVHLRGRVRHKFGRQLSDHSSFLAPINCLLYLCSKLPNRPFLSPAQFPDLSPLQAHWEEIRAEGQSLLQAGEIKRSDQYDDVGFNSFFKTGWKRFYLKWYGDSHPSAMKLCPRTTELVQSIGSIKAAMFAELPPGSKLVRHRDPYAGSYRYHLGLQTPNDAGCYINVDGEAYHWRDGEAVVFDETFIHYAENTTSQNRIILFCDVERPMRFRWATAFNRWFSRTVMAAAGAPNDAGDRTGGLNRAFSRLYKIRLQGKALKKRNRKLYYLQKWAFFGGLLAIFIWI	PGPT0022350_471	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022350-lpxO-K12979	NA	NA
D1-35_03481	1566	ybiT	COG0488	putative ABC transporter ATP-binding protein YbiT	ATGCAGTTCGGCGCCAAGCCACTGTTCGAAAACGTCTCTGTCAAATTTGGCGCGGGTAACCGCTACGGCCTGATCGGCGCCAACGGTTGCGGCAAGTCGACCTTCATGAAAATCCTCGGCGGCGACCTCGAGCCGTCCGGCGGCCAGGTGATGCTCGAGCCGAACGTGCGCCTGGGTAAACTTCGCCAGGATCAGTTCGCCTACGAAGAATTCACCGTGATCGACACCGTGATCATGGGTCACGAAGAGCTGTGGAAGGTCAAGGCCGAGCGCGACCGCATTTATTCGCTGCCGGAAATGACCGAAGAAGACGGCATGGCCGTGGCTGAGCTGGAAACCGAATTTGCCGAGATGGACGGCTACACCGCCGAATCTCGCGCCGGTGAACTGCTGTTGGGCCTGGGGATTGGCATCGAGCAGCATTTCGGTCCGATGAGCGAAGTGTCGCCAGGCTGGAAACTGCGTGTGCTGCTGGCCCAGGCGCTGTTCTCCGACCCGGAAGTGCTGCTGCTTGACGAGCCGACCAACCACCTGGATATCAACACCATCCGCTGGCTGGAAAACGTACTGACCCAGCGTTCGAGCCTGATGATCATCATCTCCCACGACCGTCACTTCCTGAACAGTGTCTGCACCCACATGGCGGACCTGGACTACGGCGAGCTGCGTCTGTTCCCGGGCAACTACGACGAGTACATGACCGTGGCGACCCAGTCCCGCGAGCAGCTGCTGTCGGACAACGCCAAGAAGAAAGCACAGATTTCCGAACTGCAGTCATTTGTCAGCCGTTTCTCGGCCAACGCCTCGAAAGCCAAGCAGGCCACCTCCCGCGCCAAGCAGATCGACAAGATCCAGCTGGCCGAGGTCAAGCCATCGAGCCGCGTCAGTCCGTTCATCCGTTTCGAGCAGACCAAGAAGCTGCACCGCCAGGCGGTCATCGTCGAACGCATGGCCAAGGGCTTCGACGGCAAGCCGCTGTTCAAGGATTTCAGCTTCACCGTCGAAGCCGGTGAGCGCGTGGCGATCATTGGCCCGAACGGCATCGGCAAGACCACCTTGCTGCGCACCCTGGTCAATGAACTGGAACCGGATGCCGGTACCGTGAAATGGACCGACGCCGCGGAACTGGGCTACTACGCCCAGGACCACGCCCATGACTTCGAGGATGACGTCAACCTGTTCGACTGGATGGGCCAGTGGACCCAGGGTGGCGAGCAGCTGGTTCGTGGCACCTTGGGCCGCATGCTGTTTTCCAACGACGAGATCCTCAAGTCGGTCAAGGTCATCTCCGGTGGTGAACAAGGCCGCATGCTGTTCGGCAAGCTGATCCTGCAAAAGCCGAACGTGCTGGTGATGGACGAACCGACCAACCACCTGGACATGGAATCCATCGAAGCGCTGAACCTGGCGCTGGAAAACTATCCGGGCACGTTGATCTTCGTCAGCCACGACCGTGAGTTCGTGTCGTCCCTGGCAACCCGCATCATCGAGCTCAGCGCCGACGGCGTGGTCGACTTCAGCGGCACCTATGACGACTACCTGCGCAGCCAGGGCGTGTTGTTCTAA	MQFGAKPLFENVSVKFGAGNRYGLIGANGCGKSTFMKILGGDLEPSGGQVMLEPNVRLGKLRQDQFAYEEFTVIDTVIMGHEELWKVKAERDRIYSLPEMTEEDGMAVAELETEFAEMDGYTAESRAGELLLGLGIGIEQHFGPMSEVSPGWKLRVLLAQALFSDPEVLLLDEPTNHLDINTIRWLENVLTQRSSLMIIISHDRHFLNSVCTHMADLDYGELRLFPGNYDEYMTVATQSREQLLSDNAKKKAQISELQSFVSRFSANASKAKQATSRAKQIDKIQLAEVKPSSRVSPFIRFEQTKKLHRQAVIVERMAKGFDGKPLFKDFSFTVEAGERVAIIGPNGIGKTTLLRTLVNELEPDAGTVKWTDAAELGYYAQDHAHDFEDDVNLFDWMGQWTQGGEQLVRGTLGRMLFSNDEILKSVKVISGGEQGRMLFGKLILQKPNVLVMDEPTNHLDMESIEALNLALENYPGTLIFVSHDREFVSSLATRIIELSADGVVDFSGTYDDYLRSQGVLF				NA	NA	NA	NA	NA
D1-35_03482	1194	yhhS_2		putative MFS-type transporter YhhS	ATGCCAACGCCCCAGCCCGCATCCAGTTCCCTGTCGATCACCTTGCAGATCGTCTCCATCGTTTTTTATACCTTCATCGCTTTCCTCTGCATCGGCCTGCCGATTGCCGTGTTGCCTGGGTATGTCCATGAGCAACTGGGCTTCAGCGCAGTGGTGGCCGGGCTGACCATTGGCTCGCAGTATCTGGCGACCTTGCTCAGCCGGCCCATGGCCGGGCGACTGTCGGACAATGTCGGCACCAAGCGGGCGATCGTCTACGGCCTGGTGGGCATCCTGCTCAGTGGCGTGCTGACGCTGTTGTCGACGCTGCTGCAAAGCTTTCCGTTGCCCAGCCTGTTGATCCTGATTGCCGGGCGTTTGCTGCTCGGGGTCGCCCAAGGCCTGATCGGCGTCGGTACCATCAGCTGGTGCATGGGACAGGTCGGCGTGGAGCACACTGCCCGTTCGATCTCCTGGAACGGCATCGCTTCCTATGGCGCCATCGCCATCGGCGCACCGCTGGGCGTGGTCATGGTCGGCGGCCTGGGCTTCGCCAGCCTGGGCATCGCCTTGTCGTTATTGGCCGGCGGCGCATTGCTGCTGATTCGCAACAAACCCTCGGTGCCGGTCGTTCGCGGCGAGCGCCTGCCCTTCTGGGCCGTGTTCGGACGCATTGCACCGTTCGGGACAAGCCTGTGCCTGGCCTCGATCGGCTATGGCACGCTGACCACCTTCATCACCCTGTTCTACCTCAGCCGAGGCTGGACCGGCGCCGCCTGGTGCCTGACCGTTTTCGGCATCTGCTTCATCCTGTCACGGTTGCTGTTCATCTCCAGCATTGCCCGTTTCGGTGGCTTCAACTCGGCCATTGTCTGCATGAGCATCGAGACCCTGGGCCTGGTGCTGCTGTGGCTGGCGCCTACCACCGCATTCGCCTTGGTCGGCGCGGGGCTGGCGGGCTTCGGGTTGTCGCTGGTGTACCCGGCGCTGGGCGTGGAGGCCATCAAGCAGGTGCCCAACAGCAGCCGCGGCGCCGGCTTGAGTGCCTATGCGGTGTTCTTTGACCTGGCACTGGCGATTGCCGGACCGCTGATGGGCGCGGTGGCATTGAACCTGGGCTACTCGTCGATATTTTTCTTCGCCGCCTTGCTGTCGATCATCGGCCTGGGCCTGACGCTCGTGTTGCGTCGGCGAGCCGAAAGCCCGCATCACTGA	MPTPQPASSSLSITLQIVSIVFYTFIAFLCIGLPIAVLPGYVHEQLGFSAVVAGLTIGSQYLATLLSRPMAGRLSDNVGTKRAIVYGLVGILLSGVLTLLSTLLQSFPLPSLLILIAGRLLLGVAQGLIGVGTISWCMGQVGVEHTARSISWNGIASYGAIAIGAPLGVVMVGGLGFASLGIALSLLAGGALLLIRNKPSVPVVRGERLPFWAVFGRIAPFGTSLCLASIGYGTLTTFITLFYLSRGWTGAAWCLTVFGICFILSRLLFISSIARFGGFNSAIVCMSIETLGLVLLWLAPTTAFALVGAGLAGFGLSLVYPALGVEAIKQVPNSSRGAGLSAYAVFFDLALAIAGPLMGAVALNLGYSSIFFFAALLSIIGLGLTLVLRRRAESPHH				NA	NA	NA	NA	NA
D1-35_03483	1095			hypothetical protein	ATGGCCGGAGCGGCGAGCGACGTGGCTCCTGGTGGGTGGGTGAAGGTGGACTATTCGATGATGCGTCTTGGTGCGCTGCTGCTGCTTTGCTGGGTGAGCGGTCTCGGTTCGGTGCAGGCCGCGCCGGCGCCACATCCGCATTGGAGCGCGGGCTTTCATGAGCTGGATTTTCCTGATCCGCTGGACCACCAGCCGATGCATGCCATCGCGTTTTACCCCTCCACCGCGAAGGAGCAATCCAGTCTGTTGGGCGGCTACCAGATCGATGCGGCGGCGGATGCACAGATCGCCATCGGGCGGTTTCCGCTGCTGATGCTGTCCCATGGCAATACCGGCACGCCGCTGGCCCTGCATGATCTGGCCACGTCGCTGGCCCGCAAGGGCTTCGTCGTGGTGGCGGTGATTCATCCCGGCGATAACGCCCAGGATCACAGCCGGCTCGGTACGCTGAGTAACTTGTACGGGCGGCCGATCCAGATCTCCGAAGCCATCACCGCGACGCTGAACGACCCGATGCTGGCGCCCTTCGTCAACGCCGGGCAGGTCGGCGTGATCGGCTATTCGGCCGGTGGCGAAACCGCGCTGATCCTGTCTGGCGCCACGCCGGACCTCAATCGCCTGCGCCGTTATTGCCAGGAGCGACCGGATGACCGTGACGCCTGCAATACCCAGGGAGAACTGATTGCCGACCGCGATGACCTGTATCCGGTGGCCGATCCCAGGGTCCGCGCGCTGTTGCTGATGGCGCCGTTGAGTTTGAAGTTCGGTCGGCACACGTTGGCCGATGTCCATGTGCCGGTGCTGCTCTATAGCGGCGACGGCGACAAACTGGTGGCTTTCGACAAGAACGCCGCGGCCCTGGCGCGCAAGCTGCCTACCGCGCCGGATTTCAAGACGTTGGCCGGGGCCGGGCACTTTGTTTTCATGGCGCCCTGTACGGACGAGCAGATCGCGGCGATGCCAGCGCTGTGCACCGATGCCGACGGCGTTGATCGCAAGGACATTCACCGCACGATGATCACCGAAGCCAGTCGCTTCTTCAGCCAGGCACTGGGAAAGCCGACCCGTGCGGGCCTGCGGACTGCCGATCAGTGA	MAGAASDVAPGGWVKVDYSMMRLGALLLLCWVSGLGSVQAAPAPHPHWSAGFHELDFPDPLDHQPMHAIAFYPSTAKEQSSLLGGYQIDAAADAQIAIGRFPLLMLSHGNTGTPLALHDLATSLARKGFVVVAVIHPGDNAQDHSRLGTLSNLYGRPIQISEAITATLNDPMLAPFVNAGQVGVIGYSAGGETALILSGATPDLNRLRRYCQERPDDRDACNTQGELIADRDDLYPVADPRVRALLLMAPLSLKFGRHTLADVHVPVLLYSGDGDKLVAFDKNAAALARKLPTAPDFKTLAGAGHFVFMAPCTDEQIAAMPALCTDADGVDRKDIHRTMITEASRFFSQALGKPTRAGLRTADQ				NA	NA	NA	NA	NA
D1-35_03484	609	azoR1_1	COG1182	FMN-dependent NADH-azoreductase 1	ATGAAACTGTTGCACATCGATTCGAGCATCCTCGGCGACAACTCCGCTTCGCGCCAACTGAGCCGTGAACTGGTGCAAGCCTGGAAAGCCGCCGAGCCAGCTATCAACGTCACCTATCGTGACCTGGCCGCTGACGCCATCAGCCACTTTTCCGCGCAGACCCTGGTCGCTGTCGGCACCAGCGCCGAATTGCGCGATGCCGCTCAACAGCACGAAGCTGACCTCAGCGCGTCGACCCTGGCCGAGTTCCTCGCCGCCGACGCGGTGGTGATCGCAGCACCGATGTACAACTTCAGCATCCCGACCCAACTCAAGGCCTGGATCGACCGTATCGCCGTGGCCGGCCAGACCTTCCGCTACACCGAAGCCGGCCCGGAAGGCCTGTGTGGCGACAAGAAGCTGGTCATCGTTTCCACCTCGGGCGGCCTGCACGCCGGTCAACCGAGCAGCGTGGGGCATGAACAATACCTGAGGTTGATGTTCGGTTTTCTCGGCATCACCGACATCGAATTTGTTCGCGCAGAAGGCCTGGCTTACGGTGACGACATGCGCACCAAGGCCATCAGCGAGGCCAAGCTGCAGATCAGCCAGCAGTTCGCCGCTGCGTAA	MKLLHIDSSILGDNSASRQLSRELVQAWKAAEPAINVTYRDLAADAISHFSAQTLVAVGTSAELRDAAQQHEADLSASTLAEFLAADAVVIAAPMYNFSIPTQLKAWIDRIAVAGQTFRYTEAGPEGLCGDKKLVIVSTSGGLHAGQPSSVGHEQYLRLMFGFLGITDIEFVRAEGLAYGDDMRTKAISEAKLQISQQFAAA	PGPT0006790_2083	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
D1-35_03485	909	dmlR_18		HTH-type transcriptional regulator DmlR	ATGCAAGACCTTAATGACCTGTATTACTTTGCCAAGGTGGTTGAAGCCGGTGGCTTCGCGGCCGCCGGGCGCTTGCTGGGCATCCCCAAGTCACGCTTGTCACGGCGAATCGCCGAGCTCGAAGAGCGCCTTGACGCCCGTCTGCTGCAACGCACCACCCGCCAGTTGAAGCTGACCGCCGTGGGTGAACGTTACCTGCGTCATTGCCAGGCCATGTTGCTGGAAGCGGAGATGGCCGACGAAGCGGTGGCGAGCATGTCCAGCGAGCCCCGTGGGCGTTTGCGGGTGTCGAGCCCGGTGGGCCTGGCGCACCAGTTCCTGCCGCTGATCATCGAAAGCTTCCTGGCGAAATACCCCCAGGTGCAGTTGGAAATGATCCTGCTCAACCGGCGCGTGGATCTGATCAGCGAGGGCATCGACGTGGCGTTGCGCGTCCGTGACCTGGGCGACGAAGACCCGCTGCTGATGACCCGGCGCTTGCGCCAGGCCCGCCTGACCCTGGTTGCCAGCCCGGTGCTCATTGAAGGGCGGCGGATCGAAACTCCGGACGACCTCAGGCAATTGCCGGTGCTGGGAGCGCTGGAGGCGGACCGTCTGGTGCATGTGCGCTTGCTCAGTACCGCAGGGCAAAGCGTCGAGCTGGCCCTGGAGGCGCGCCTGGGCATCGACGACTTTATCGTGCGGCGCGCCTGCACCCTCACGGGGCTGGGCTTTACCCTGTTGCCGAGCATGTATTGCGAAGAAGAACTGCGCGACGGTCGACTGGTGGAGCTGTTGCCTGGATGGTCATCACCGGATGGCTGGCTCCAGGCGGTCTATCCTCACCGGCGCGGCATGCTGCCGGCGGTGCGCGCGTGGATCGATCATCTGGTGGAAGCTTTTGCACAATGTGGAGACAGGACGATATGA	MQDLNDLYYFAKVVEAGGFAAAGRLLGIPKSRLSRRIAELEERLDARLLQRTTRQLKLTAVGERYLRHCQAMLLEAEMADEAVASMSSEPRGRLRVSSPVGLAHQFLPLIIESFLAKYPQVQLEMILLNRRVDLISEGIDVALRVRDLGDEDPLLMTRRLRQARLTLVASPVLIEGRRIETPDDLRQLPVLGALEADRLVHVRLLSTAGQSVELALEARLGIDDFIVRRACTLTGLGFTLLPSMYCEEELRDGRLVELLPGWSSPDGWLQAVYPHRRGMLPAVRAWIDHLVEAFAQCGDRTI				NA	NA	NA	NA	NA
D1-35_03486	351			hypothetical protein	ATGAGCTTGAGCGAAGAGGACGTCGCGCAATTCTGCCTGGGCTTGCCGGGCGCCCGGGAAGACTATAAATGGGGCGGCGTGCGGGTATTTTCGATCGCCGGCAACAAGATGTTCGCCCTGCAGAACCTGCGGGGGGATTCGTTGGCGTTCAAGGTCGACAAGGACCTGTTTCTCGGCCATTGCGACCGCCCCGGCATTCATCCGGCGCCGTACCTGGCCAGGGCCCAATGGATCATCATGCAAGTCCCCTACCCGCTGGGCGATGAGGAGCTGCGCAGTCTGTTGCGACGTTCCCATCAGTTGGTGGTCAGCAAGTTGCCCAAGCGCACGCAGGTTGGGTTGTTGCTGTAG	MSLSEEDVAQFCLGLPGAREDYKWGGVRVFSIAGNKMFALQNLRGDSLAFKVDKDLFLGHCDRPGIHPAPYLARAQWIIMQVPYPLGDEELRSLLRRSHQLVVSKLPKRTQVGLLL				NA	NA	NA	NA	NA
D1-35_03487	378			hypothetical protein	GTGCAGAACCTGCGCCTCAAGTTGACGGTATTTGCGATTCTGTGCGCGTTGCCGCTTTTTGGCTCGCTGCTGCTCGGATTGCGGGGCGAGTCGTGGGTGCCCATGACGGCGTACGGAGTCGTCAGTGCCGTGGCGTTCCTGCTTTACTGGAGCGACAAGCGCAAGGCACGCGCCGATGCCTGGCGCACGCCGGAGAACGTTCTGCACGCGGTCGAACTCGCCGGTGGCTGGCCGGGTGCATTGCTGGCCCAGCAGGTGTTTCGCCACAAGACCCGCAAAGTGTCGTTTCAAGTGGTGTTCTGGTTCATCGTGGTGTTGCACCAGGGATTCTGGATCGACCAGTTGTTCCTGGGCGGCCATCTGTTGGCGTTGTTCTGA	MQNLRLKLTVFAILCALPLFGSLLLGLRGESWVPMTAYGVVSAVAFLLYWSDKRKARADAWRTPENVLHAVELAGGWPGALLAQQVFRHKTRKVSFQVVFWFIVVLHQGFWIDQLFLGGHLLALF				NA	NA	NA	NA	NA
D1-35_03488	831	uppP	COG1968	Undecaprenyl-diphosphatase	ATGGATTTGTGGACGGCCTTTTCGGCATTGATTCTCGGCGTGGTAGAAGGGCTGACGGAGTTCCTGCCGATTTCCAGTACGGGGCACCAGATCGTCGTCGCCGACTTGCTCGAATTCGGTGGGGAGCGCTCGATGGCGTTCAACATCATCATCCAGCTCGGTGCGATCCTGGCGGTGGTCTGGGAGTTTCGGCGCAAGATCTTCCACGTGGTGCTGGGCCTGCCGACCCAGCCCGGCGCTCGCCGCTTTACCGCCAACCTGCTGATCGCGTTTTTCCCTGCGGTGATACTGGGCGTACTGCTGGCCGACTGGATCCACCATTACCTGTTCAACCCGATCACGGTCGCCACCGCGCTGGTATTGGGAGGTCTGGTGATGCTCTGGGCCGAGAGGCGCCAGCACACGGTGCACGCCGAAACCGTGGATGACATGACCTGGAAGGATGCGCTGAAAGTCGGCCTGGCCCAGTGCATCGCGATGATTCCCGGCACCTCTCGCTCCGGTGCGACCATCATTGGCGGCCTGCTGTTCGGCCTGTCGCGCAAGACCGCCACCGAATTCTCGTTCTTCCTGGCCATGCCAACCATGGTCGGCGCGGCGGTCTACTCGGGTTATAAATACCGCGAGCTGTTTGTCCCGGCGGATTTCCCGGTGTTTGCCATCGGTTTCATCACCGCGTTCATCTTCGCCATGATCGCGGTCAAGGGCCTGCTGCGCTTCATCGCCAGCCACAGTTATGCGGTGTTCGCCTGGTACCGGATTGCGTTCGGCCTGTTGATCCTGGCGACCTGGCAATTCGGCTGGGTCGACTGGACGGCTGCCCGGCCTTGA	MDLWTAFSALILGVVEGLTEFLPISSTGHQIVVADLLEFGGERSMAFNIIIQLGAILAVVWEFRRKIFHVVLGLPTQPGARRFTANLLIAFFPAVILGVLLADWIHHYLFNPITVATALVLGGLVMLWAERRQHTVHAETVDDMTWKDALKVGLAQCIAMIPGTSRSGATIIGGLLFGLSRKTATEFSFFLAMPTMVGAAVYSGYKYRELFVPADFPVFAIGFITAFIFAMIAVKGLLRFIASHSYAVFAWYRIAFGLLILATWQFGWVDWTAARP	PGPT0024165_2189	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153	NA	NA
D1-35_03489	1635	mcpP_2	COG0840	Methyl-accepting chemotaxis protein McpP	ATGAATAGCTTGCGCAGTGTATCGATCAGCCGACGCCTGTGGCTCATCCTGGTCGTGGCCATCGTGATGTTGTTCACGCTGGGCGCGTTCATGCTAAAGCAGATCCACATCGATCTGTATCAGGCCAAGGTGCAGAAAACCCAACATGTAGTGCAGACCGCCAGCGGCGTACTGAGCTATTACCATGGCCTGGAGACCGCCGGTACCCTGACGCGCGAGGCGGCGCAGAAGCAGGCGCTCAGCGCGGTGCGCGGCCTGCGTTATGACCACAATGACTACTTCTGGATCAATGACCTGGCGCCGGTCATGGTCATGCACCCGACCAACCCGAAACTTGAAGGGCAGAACCTTTCGGCCATCCGCGATCCGAACGGTTTTGCCCTGTTCAACGAAATGGTCGCCATCGCCAAGGCCAAGGGCGCCGGCATGGTCGATTACCTTTGGCCCAAGCCGGGCGCCGAGGCACCGGTGGGGAAAACGTCCTATGTGAAGCTGTTCGAGCCTTGGGGCTGGATCATCGGTTCGGGCGTGTACGTGGATGATGTACAGGCGGAATTCCAGTCCCAGTTGATCAAGGCTTCCTTGATCGGCTTGGCGATCACCTTGTTCATGGGCCTGCTGTTGACCCTGATCGTACGCAGCATCGTCCGGCCCTTGCAGGAGACAGTCAATGCCATGGCCAACATCGCCAGCGGCGAGAGTGACCTGACCCGCACCCTCGATACCCATGGCCAGGACGAAGTCACGCAATTGGCCAGGCACTTCAATGCCTTCACCGCCAAGCTGCGCCAGGTGGTGGGTCAGTTGCAGGTCTCAGCCAGCGAGTTGGGGCAATCGTCCAGCGACCTGGGCAACGACGCCGCCCAGGCCCAGCAGCGCAGCCAGCAACAATCGCAACAGATGGAGCTGGTGGCGACCGCCATCAACGAAGTGACTTATGGCGTGCAGGATGTAGCGAAGAATGCCGAACACGCCGCCAGCGAAATGCGCGACGCCGAATCCCAGGCCCAGCAGGGCCAGGTGAACATCGACGGCAGCCTGCAACAGATCGACCGGCTCTCCCAGACCATCGACCAGGCCGTGGAAGTGATCCGCACCCTGGCCAGTGAAAGCACCCAGATCGGCAGTGTGCTGGAAGTGATCCGTTCGATTGCCGAGCAGACCAACCTGCTGGCGCTCAACGCCGCCATTGAAGCCGCCCGCGCCGGCGAGCAAGGTCGCGGTTTTGCCGTTGTGGCCGACGAGGTGCGCCTGCTGGCCCAGCGCACGCAGAAGTCCACCGCTGAAATCCAGGCGATGATCGAACGCCTGCAAAATCATTCCGAAGCCGCTGTGAAAGTCATCAGCGACAGCAGCCGTGCTTCGCAGCTGACCATCGAGCAGGCCGGACTGGCCGGCGCCAGCCTCAATGCCATCGGCCAGGCCCTGCGCAATCTCAACAGCCTGAACGCCTCCATCGCCAGCGCCACCCTGCAACAGGCGCATGTGGTGGAAGACATCAACCAGAACGTCACCCAGGCCGCCGGCCTGTCCCACAGCACCGCCATGGCCGCGGAACAGTCCAGCGTGGCAAGCGCCCGCCTCAAAGGCCTGAGCGAACAACTGAACGGCCTGCTCAAGCAATTTCGGGTCTGA	MNSLRSVSISRRLWLILVVAIVMLFTLGAFMLKQIHIDLYQAKVQKTQHVVQTASGVLSYYHGLETAGTLTREAAQKQALSAVRGLRYDHNDYFWINDLAPVMVMHPTNPKLEGQNLSAIRDPNGFALFNEMVAIAKAKGAGMVDYLWPKPGAEAPVGKTSYVKLFEPWGWIIGSGVYVDDVQAEFQSQLIKASLIGLAITLFMGLLLTLIVRSIVRPLQETVNAMANIASGESDLTRTLDTHGQDEVTQLARHFNAFTAKLRQVVGQLQVSASELGQSSSDLGNDAAQAQQRSQQQSQQMELVATAINEVTYGVQDVAKNAEHAASEMRDAESQAQQGQVNIDGSLQQIDRLSQTIDQAVEVIRTLASESTQIGSVLEVIRSIAEQTNLLALNAAIEAARAGEQGRGFAVVADEVRLLAQRTQKSTAEIQAMIERLQNHSEAAVKVISDSSRASQLTIEQAGLAGASLNAIGQALRNLNSLNASIASATLQQAHVVEDINQNVTQAAGLSHSTAMAAEQSSVASARLKGLSEQLNGLLKQFRV	PGPT0015710_20210	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
D1-35_03490	564	pnuC	COG3201	Nicotinamide riboside transporter PnuC	ATGTCCGGGCTTGAACTGTTTGCCGCAGCCCTCGGCGTGATCGCTGTCTGGTTGACCGTCAAGCAGAATCCCTGGTGCTGGCCGATCGGCCTGGTCATGGTGCTGCTGTACAGCTGGTTCTTCTTCGACGTGAAGTTGTACTCCGACATGCTCTTGCAGATGGTCTACGCCGTCCTGCAACTGTATGGCTGGTGGCAGTGGACCCGCGCCGGACACAATCACCATGGTCGGCAGGTGACGTATCTGGGTACGCCGTCAGTGCTGCTCAGCCTCGCCCTCGGTGCGACGGGCAGTCTGATGCTCGGGGCGGCCATGGCGCATTGGACCGACGCCGCCCAACCCTGGCTCGACGCGGCGCTGACCGGTTTCAGCCTGGTGGCTCAGTGGTGGATGGCGCAAAAGCGTGTGCAGTGTTGGCCGCTGTGGATCGTCCTGGATGTGATTTTCGTCGGCCTGTTCATCTACAAGGGTCTGTACCTGACCGCCGCGCTTTATGCGCTGTTCACTCTGCTGGCGGTGCAAGGCTGGCGGGAATGGCGCGCCGACCCGGCCCTGCGCACATGA	MSGLELFAAALGVIAVWLTVKQNPWCWPIGLVMVLLYSWFFFDVKLYSDMLLQMVYAVLQLYGWWQWTRAGHNHHGRQVTYLGTPSVLLSLALGATGSLMLGAAMAHWTDAAQPWLDAALTGFSLVAQWWMAQKRVQCWPLWIVLDVIFVGLFIYKGLYLTAALYALFTLLAVQGWREWRADPALRT				NA	NA	NA	NA	NA
D1-35_03491	525			hypothetical protein	ATGAAAGTAGTGGTACTGACCGGCCCGGAATCCAGCGGCAAAAGCTGGCTGGCCGGGCAACTGCAGGCGCATTTCGGTGGTTTGCGGGTGGACGAATACGTGCGCCACTTCATGGAGCAAACCCAGCGTGATACCTGCCTGGCCGACATCACCGATATCGCCACCGGGCAACTCGCCTGGGAAGACGCGGCTCGTGCCCGGCAGCCGGCGCTGCTGATCCTCGATACCCATCTGTTGAGCAATATCCTCTGGAGCCAGACCCTGTTCGGTGATTGCCCGGATTGGCTCGAACCCGTCTTGCTGGCGCGCCATTACGATTTGCATCTGCTGCTCAGCCCCGAGCAGGTCGAATGGGTCGGCGACGGTTTGCGCTGCCAGCCGGAGCTGGCAGAACGGGTGAGGTTTTTCGAGACCATCAGGGACTGGCTGGTTCGCCACCAACAACCGTTCCTGTTGATTGAAGGCGACTGGGAGCAACGGCGCGAGCAAGTGTTCGCGGCCATTGCGCGGCTCCTTCAGGCCTGA	MKVVVLTGPESSGKSWLAGQLQAHFGGLRVDEYVRHFMEQTQRDTCLADITDIATGQLAWEDAARARQPALLILDTHLLSNILWSQTLFGDCPDWLEPVLLARHYDLHLLLSPEQVEWVGDGLRCQPELAERVRFFETIRDWLVRHQQPFLLIEGDWEQRREQVFAAIARLLQA				NA	NA	NA	NA	NA
D1-35_03492	450			hypothetical protein	ATGGGGACTTCCAACAGAAATCTGACCTGTCTGTTGTTGATCGGCTGCGCCGTCGGTGCGACGACGCTCAGCCTGCCGGCCCAGGCCGAGGGTAACGGTGTCATCGTACTCGACCGTGACGTGCAACCGGTTCATTTCGGTCGCAATGGCGGCAAAGACCCCTACCCGACCACCGTCAATGCCAATCCGTCCGTCCGGATCAACCAGGCGACCGCCAGTACCGAGCTCAGCGACGGCGAATTTGCCGGTGTCGCCAGCGGCTCGACAATCCGCAACACCACCACTGCGAACACCGGCGTGCAGGGCGTCAATGTCGTGACCAACCCCAACGGCATGCCGGGCATGAGTGCCGGCCACGGTGGCGGCAGCGGTGGCGCCATCTCGGGCACCATCAACCGCTCGCTGAGTTCCGGCCTGGCCCCTCTGGGTCGGTTGGCGGGAGGCCAGTGA	MGTSNRNLTCLLLIGCAVGATTLSLPAQAEGNGVIVLDRDVQPVHFGRNGGKDPYPTTVNANPSVRINQATASTELSDGEFAGVASGSTIRNTTTANTGVQGVNVVTNPNGMPGMSAGHGGGSGGAISGTINRSLSSGLAPLGRLAGGQ				NA	NA	NA	NA	NA
D1-35_03493	579			hypothetical protein	ATGAATCCAACCTGGCTCATGGTTGCCCTGCTCGGCAGCTCCACCGTGCTCGCCGCCCCGGGCGTGGCGGTGGTCAACCAGGCCGACCTGGAAAATTCCGGCGGTCGTTACACCGGTAATTTCAACGTCAACCAGGCGGCCGGCGACCAGACCCAGCAGACCAACACCCGCGCCATCGCCATCGGCACCGATGCCCACGCAAGCACCGTCGTGCACCAGCGCCTCGATACGCCGGCCAAGCCGTCGATGAACGCGAGCGCGCGTATCGGCGGCAACTCTTTCACCAACGGCAACGGCGTGCTGGGCGTCAACCAGTCCGCCGGGGCCAACAACCAGATGGCCAATGTCATGCGAGTGGGCATCAGTGCCCACCCGCAGAGCATGGACGACAGTGCCCTTTCCCAACAGAACGTGGCGCTGGTACCGAACTCGGGAGCAACTGACACCCCAACCGGCAGTCGCCAGGTCGCCACCAGCGACCAGGCCTTCACCGGCAGCCGAGGGGTGATCCAGGTGAACCAGAGTGCCGGGGTGGGGAACCGCATGGCCAACACCCTGAGCATCCGGGTCGCAGACTGA	MNPTWLMVALLGSSTVLAAPGVAVVNQADLENSGGRYTGNFNVNQAAGDQTQQTNTRAIAIGTDAHASTVVHQRLDTPAKPSMNASARIGGNSFTNGNGVLGVNQSAGANNQMANVMRVGISAHPQSMDDSALSQQNVALVPNSGATDTPTGSRQVATSDQAFTGSRGVIQVNQSAGVGNRMANTLSIRVAD				NA	NA	NA	NA	NA
D1-35_03494	972			hypothetical protein	ATGAAACCTACAATGGCGCTCAAACCATTGGTTTTCGCTCTCGCCGCTGTCATGGCAATGGCTGCGCAGGCCGGCGGAAACGGTAACGGGCACGGCAACGGTCATGGCAACCACGGCCCTCAAGGGCCAACGCTGGATCAGTTGCTGTCCATCAGCGCCGGCGCAGGGGCCACGGTGCTGGACGAGCAGAACAGCGATGGCAACGTGGTGACCAACCAGGCCACCCGCAACACCGCTGAAGCCACTGATTCGCTCAACGGCAGCAACGGCAACATGGGCGCCAACATCGCCGCCGGCGACGGCAACCAGCAAGACAATGCCGCCGCCCTGGCCACCGCCGACGAGAGCTTCATCTTCGGCGCGGCTGTCGCAGCGTCCAGCGCCACACAAGTCAATAACAACAACTATGTGAAGAACAACTCGACGCAGAACAACGCCTCGCTCACCAGCGCGGGCAACAACGGCTCCGGCAACATCGGCATCAACGTGACCGCCGGCAACTTCAACCAGCAGAAAAACAACCTGGCCATCGCCGTATCGGGCGGCCGCGTCGCCCAGGCTTCCGCCGCGGCCGACCAGTCGTCCACCGGCCTTGTCGTCGACAACAAAGGCGTGCGGACCTACAAGACCGACACCCTCACCAGCACCTCCGAGGCTTCCGGCACCTTCAAGGCCAAAGGCACCGGTACCGTCGAGGATGACGGCGGCTGGGGCAACAAGGGCGGCTACGGTGGTGGTCACGATGACGACAAGTTCAAGTTCTCCGCCGTGGGCACTTTCGAACTGGCCGGCAGCAATACCCAACAGGTGCTGACTCGCGACGGCTGGAAAAATCCGGTCTACAACAACGCCACCATGACCAACTCCATGAACGGCTTCTCCGGTAACGGCGGCGCCAACGTGTCGGCGGGCGTAGGCAACCAGCAAAGCAACTCGCTGTCGATTGCTGCCGGCTGCAAGGCTTGCATGTAA	MKPTMALKPLVFALAAVMAMAAQAGGNGNGHGNGHGNHGPQGPTLDQLLSISAGAGATVLDEQNSDGNVVTNQATRNTAEATDSLNGSNGNMGANIAAGDGNQQDNAAALATADESFIFGAAVAASSATQVNNNNYVKNNSTQNNASLTSAGNNGSGNIGINVTAGNFNQQKNNLAIAVSGGRVAQASAAADQSSTGLVVDNKGVRTYKTDTLTSTSEASGTFKAKGTGTVEDDGGWGNKGGYGGGHDDDKFKFSAVGTFELAGSNTQQVLTRDGWKNPVYNNATMTNSMNGFSGNGGANVSAGVGNQQSNSLSIAAGCKACM				NA	NA	NA	NA	NA
D1-35_03495	681			hypothetical protein	ATGCGTGCGACTGCCCTTTGCCTGTTGGTTTTGCTTGCCGGCTTGACCGAAGCCGCGCAGATGCCGGTCGCCGCCCTGCCTGGCGGCATGCTGGTCTACAAACCCGTGCAAAGCGTACGCGAGCGCAAGTTCAGCGACATCGTCGAGCAGAAGACCGATTTCAGTTGTGGCGCCGCGGCGCTGGCCACTGTGTTGCGCCAGGCCTATTGGCTGGACGTCGACGAAGAGCATGTCATCAAGGGCATGCTGGTCAATGCCGACCAGGATCTGGTCCGCACCCAGGGTTTCTCCATGCTGGACATGAAGCGCTACGTGGAAACCATCGGCATGCGCGCCCGCGGCTATCGGATACCACCGGAAAAACTCGCCGCGGTGACGATCCCGGTCGTGGTCCTGATGGAAATTCGCGGCTACAAGCACTTCGTGGTGCTGCAGCGGGCGGACAAGCGATGGGTGTATATCGCCGACCCGGTGCTTGGTCACAAACGCTACGCCCATGACGAATTCGTAAAAGGCTGGAACGGCATTGTCTTCGCCATCGTCGGCCCCGGCTATGACAAGACCAACGCCTTGCGCAGCCCTCCGCAACCTCTGACAGCGCGCAACAAGCTGGACGGTTTTAATCCGGTCAAGGACGCGGAACTGATGGATTTCGGCTTCATCCAGAGCGACTTTTTCTAA	MRATALCLLVLLAGLTEAAQMPVAALPGGMLVYKPVQSVRERKFSDIVEQKTDFSCGAAALATVLRQAYWLDVDEEHVIKGMLVNADQDLVRTQGFSMLDMKRYVETIGMRARGYRIPPEKLAAVTIPVVVLMEIRGYKHFVVLQRADKRWVYIADPVLGHKRYAHDEFVKGWNGIVFAIVGPGYDKTNALRSPPQPLTARNKLDGFNPVKDAELMDFGFIQSDFF				NA	NA	NA	NA	NA
D1-35_03496	747			hypothetical protein	ATGAAACGCTCATACTGGCTCACGCTGGCCTGCCTGGCCGCAACGACGTCGGGTCTTGCCCACGCCGGTTTCAAACCGATCGAAGTCCAGGACCAGGAGCTCGCCGAGCTGCGCGGTCGCTACGTCATGCCCGGACGAGTCATCAGTTTTGGCATCGTCATGAGCAGCACCTGGCGCAACGCCAGTGGCGACCTGATCGGCGCTTCCAGTTCCATGCAGATTCAGGCTGCAACGGTCAAACCGCAGTTCTACGTCTCCACGATCAAGCAGACCGGCAACGGCAGCGCCCCGGAACAGGGTGGCGGCACGATCACCGGCGGCGCCGGTCTCGGCTCGGGCCAGGGCGTAACCCAGAGCGTGCGCGCCGCGGGCGATGGCAACAGCGCGTACAACAATGTCAGCATCAACGTGAAAGAAAGCAGCCAGGCACCTGCCCTGGCGCCCGCCCAAGGCCAATTGCTCGACAAGGGCCAGACCATCAGCGGCAGCAACGCCGCCGGCAGCGTGGCGGTCACCGCCACCGGCAGCGGCATGCAGATGGCAATCCAGGCCAACCACAACCAGGGCAGCACCCTGCAACAGGTGGCCCAGGGCGGCTTGCTGCAAAACACCCGCCTGCTGGGCAACGGCAACCTGGTCAACAACATGACCCAGCTCAACGTGGTGCTGAACAGCAACGGCCCCAGCGCCGGGGCATTGGACTGCAACCTGACGCAGCTGCGCGGCCTTCGAAACCTTGGATATTGA	MKRSYWLTLACLAATTSGLAHAGFKPIEVQDQELAELRGRYVMPGRVISFGIVMSSTWRNASGDLIGASSSMQIQAATVKPQFYVSTIKQTGNGSAPEQGGGTITGGAGLGSGQGVTQSVRAAGDGNSAYNNVSINVKESSQAPALAPAQGQLLDKGQTISGSNAAGSVAVTATGSGMQMAIQANHNQGSTLQQVAQGGLLQNTRLLGNGNLVNNMTQLNVVLNSNGPSAGALDCNLTQLRGLRNLGY				NA	NA	NA	NA	NA
D1-35_03497	1284			hypothetical protein	ATGTATCGATCCGTATCGTTGCGCGCTGTGATGTGTTTAAGCACGATGTTTCCGGCGACCGTGCTGCAAGCGGCACCCGACGCGGACATCGAGGCCCTGAAGCAAGAACTTCTCGAGCTCAAGCAACGCTACGAGGTCCAGCAAAAAGCCCTGGCGGTACTCGAACAACGAGTCCGCCAGGTCGAGGATCAACCCGCCGCCCCGCCGCCCAAGCGCCTGGCCAAATCTCCCGCCGACATGAAAGGCAACCAAGGCGTGGCCGGCAGCGGCGCGGCAACGGCGGGTGGCAGTGGTTACGGGCAATCTTTGGCCGACGACTCGCAACCGGCCCAGAGCGTCTCCAACCTGTATGACGAAGCCAGCGGCTTTTTCGGCGGCGGCAAATTCAGCTTCGAAACCGGCGTGACCTACTCGCGCTACGACACCCGGCAACTGATTCTCAACGGCTTCCTGGCCCTGGATTCGATTTTCCTTGGCAACATCAACCTGGACCGGATCAAGGCGGACACCTGGACCCTGGACCTTACCGGTCGCTACAACTTCGACAATCGCTGGCAGTTCGACCTCAACGTGCCGGTGATCTACCGCGAGTCCACCTACCAGTCCGGTGGCGCCAACCAGGGCGCGGCCGGCGTCACCAGCGAAGAAACGGTGACCCGCGACCCCACCATCGGCGACGTCAATTTCGGCATTGCGTACAAGTTCATGGATGAATCGGTCAACAGCCCGGACGCGGTGGTGACTCTGCGCGTCAAGGCACCCACCGGCAAGGATCCGTTCGGCATCAAGCTGCGCCGGTCCCAGGCCAACACCAACCTGTTCGTGCCGGAAGACCTGCCCACCGGTAACGGCGTGTGGTCGATCACGCCCGGGATATCCCTGGTCAAGACCTTCGACCCGGCAGTACTGTTCGGCAGCCTGTCCTACACCCACAACTTCGAAGAGTCGTTCGACGACATCAGTTCCACCGTCAACCAGGAAGTGCCAGGCAAGGTGCGCATCGGCGACAGCTTCCAGATCGGCGCGGGCATCGCCTTTGCCCTGAACGAGAAGATGAGCATGTCGTTCTCGGTCTCGGACCTGATCCAGAAGAAAAGCAAGCTCAAGCAGGACGGCGGGGACTGGGAATCGGTGGTCTCCAGCGACGCCAACGCCGGTTACTTCAACATCGGCATGACGGTGGCCGCCAGCGACAACCTGACCATCGTGCCCAACCTGTCCATCGGGCTGACCGACGATGCGCCGGATTTCACCTTCAGCCTGAAATTGCCGTATTACTTCTAA	MYRSVSLRAVMCLSTMFPATVLQAAPDADIEALKQELLELKQRYEVQQKALAVLEQRVRQVEDQPAAPPPKRLAKSPADMKGNQGVAGSGAATAGGSGYGQSLADDSQPAQSVSNLYDEASGFFGGGKFSFETGVTYSRYDTRQLILNGFLALDSIFLGNINLDRIKADTWTLDLTGRYNFDNRWQFDLNVPVIYRESTYQSGGANQGAAGVTSEETVTRDPTIGDVNFGIAYKFMDESVNSPDAVVTLRVKAPTGKDPFGIKLRRSQANTNLFVPEDLPTGNGVWSITPGISLVKTFDPAVLFGSLSYTHNFEESFDDISSTVNQEVPGKVRIGDSFQIGAGIAFALNEKMSMSFSVSDLIQKKSKLKQDGGDWESVVSSDANAGYFNIGMTVAASDNLTIVPNLSIGLTDDAPDFTFSLKLPYYF				NA	NA	NA	NA	NA
D1-35_03498	1326	atoC_2	COG2204	Regulatory protein AtoC	GTGATTGAAACCAGTGCGTTGCGTCGTCTGCTCGTGGTCGATCCTTGCGATGATTGCTATCGCCTGTTACCGGGCCTGCGCGACATCGGTTGGGACGTCGACAGCTGCTCCCTGGAACACGCCAGCGACCGGACGTGTGACGTCGGCTTGTTGCGCCTGCAGCCCTTTCACCTGGAGCGTCCCGAGGCCGTCAAGGAATTGATTCGCCGCAGCGGCGCCGAGTGGATCGCCGTGCTCAGTCAGGAAGTGTTGCGCCTGCAAAACGTCGGCGATTTTGTCTGCGAATGGTTTTTTGACTTCCATACCTTGCCGTTCGATGTCTCCCGCGTCCAGGTGACATTGGGCCGGGCGTTCGGCATGGCGCGGTTGAGGGGGCGGGGCGCGGTTCACATCAATCAGCCTGAACATGAGCTGCTGGGCGACAGCAAGCCGATTCGCGAACTGCGCAAATTATTGGGCAAGCTGGCCCCCGCCGAGTCGCCGGTATTGATTCGTGGTGAAAGCGGCACGGGCAAGGAGCTGGTCGCGCGCACCCTGCATTGCCAATCGCACCGGCGTAACAAGCCGTTCATTGCCATAAATTGTGGCGCGATCCCCGAGCACCTGATCCAGTCCGAGCTGTTCGGCCACGAGAAGGGCGCTTTCACCGGCGCTCATCAACGCAAGATCGGACGGATCGAAGCCGCTCATGGCGGCACGTTGTTTCTCGATGAGATCGGCGATCTGCCGTTGGAGCTGCAGGCCAACCTGCTGCGTTTTTTGCAGGAAAAGCACATCGAGCGTGTAGGCGGCAGCCAACCGATTGCCGTCGATGTGAGGGTGCTGGCGGCGACGCATGTCGATCTGGAGGCGGCCATCGAGCATCGGCGTTTTCGTGAGGACCTGTATTACCGCCTCAACGTCTTGCAGGTGGTCATGGCACCGCTGCGCGAACGCCATGGCGACCTGTCGATGCTGGCCAGCCACTTTGCCCATTTCTACAGCCACGAAACCGGTCGCCGGCCGCGCAGTTTCAGCGAGGACGCGCTGGTGGCGATGGGCATGCACGACTGGCCCGGCAATGTGCGGGAGCTGGCCAACCGCGTCCGTCGCGGCCTGGTGCTGGCCGAAGGACGGCAGATCGAGGCTCGCGACCTTGGCCTTGTCGGCCAGCAGGGCGTCGCCGCACCGATGGGTACTCTGGAAGACTACAAGACCCGCGCCGAGCGCCAGGCGTTGAGCGATGTGCTCAACCGCCACAGCGATAACCTCAGCGTGGCGGCCCGCGTGCTGGGCGTGTCGCGGCCGACGTTCTATCGGTTGTTGCACAAGCATCAGATTCGTTAG	MIETSALRRLLVVDPCDDCYRLLPGLRDIGWDVDSCSLEHASDRTCDVGLLRLQPFHLERPEAVKELIRRSGAEWIAVLSQEVLRLQNVGDFVCEWFFDFHTLPFDVSRVQVTLGRAFGMARLRGRGAVHINQPEHELLGDSKPIRELRKLLGKLAPAESPVLIRGESGTGKELVARTLHCQSHRRNKPFIAINCGAIPEHLIQSELFGHEKGAFTGAHQRKIGRIEAAHGGTLFLDEIGDLPLELQANLLRFLQEKHIERVGGSQPIAVDVRVLAATHVDLEAAIEHRRFREDLYYRLNVLQVVMAPLRERHGDLSMLASHFAHFYSHETGRRPRSFSEDALVAMGMHDWPGNVRELANRVRRGLVLAEGRQIEARDLGLVGQQGVAAPMGTLEDYKTRAERQALSDVLNRHSDNLSVAARVLGVSRPTFYRLLHKHQIR	PGPT0004315_972	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004315-zraR|hydG-K07713	NA	NA
D1-35_03499	267			hypothetical protein	ATGAACGCCCCGCTCCGTATCAACGAAGCTCTTTTGATTGCCGACCGCGCATTCCGTCCTTTCCAATGCGTGGCCTGGGCCCCACAAGACGGTAACGGCGAACTCAGCCTGACCGTCATCGACCGCACCAACACCCACATCGGCCGGACCCAGATCCCCAGCAGTGCCTATACGGACCCAGCGCAACTTGCCGACCTGTTGAAGCAGGCCCGTGCCGAGTTGAGCCAGGAAGGTTACAAGCTGCAATCGTGGTCGATGCCTGAATAA	MNAPLRINEALLIADRAFRPFQCVAWAPQDGNGELSLTVIDRTNTHIGRTQIPSSAYTDPAQLADLLKQARAELSQEGYKLQSWSMPE				NA	NA	NA	NA	NA
D1-35_03500	1503	nhaB	COG3067	Na(+)/H(+) antiporter NhaB	ATGTCCGGCCCAATGGCTCAAGCGTTCGCGCACAACTTTCTGGGGCATTCTCCGCGCTGGTACAAGGCGTGCATCATCACCTTCCTGATTCTCAACGCCGTGGTGCTGTTCACACTCGGCCCGGTCGTTACCGGCTGGCTGTTGGTTGTGGAGTTCATCTTCACCCTCGCCATGGCGCTGAAATGCTACCCGCTGATGCCGGGCGGACTGTTGATGATCGAAGCCCTGGCCATGGGCATGACCACGCCCAAGGCCCTGTATGACGAACTGCTTCACAACTTCCCGGTCATCCTGCTGCTGATGTTCATGGTGGCGGGCATCTATTTCATGAAGGACCTGCTGCTGTTTCTGTTCTCGCGCCTGCTGTTGGGCGTGCGCTCCAAGGCGCTGCTTTCCTTGATGTTCTGCTTTCTTTCGGCATTCCTGTCAGCGTTTCTCGATGCACTGACGGTCACCGCGGTGATCATCAGTGCCGCCGTCGGGTTCTATTCGGTGTATCACCGCGTTGCGTCCGGCAATGACCCGCGCCAGGACAGCAGCGTTGATGAAGACCATGACCTGCCTTCCCTGCACCATGAAGACCTGGACCAGTTCCGCGCGTTCCTGCGCAGCCTGCTGATGCATGGCGCCGTGGGCACCGCGTTGGGTGGTGTCTGTACTTTGGTGGGCGAACCGCAGAACCTGCTGATCGGCCATGAGATGGGTTGGCATTTCGCGGAATTCTTCCTCAAGGTCGCGCCGGTGTCGCTGCCGGTTCTGGTAGCCGGACTGGTGACCTGCGTGGCGCTGGAGAAGCTGCGCTGGTTCGGCTATGGCACGCTGCTGCCGGAGAATGTGCGAGCGGTTCTGGCCGATTACGCCGAACAGGACAATCTCGATCGCACCGCACGCCAACGCGCGGCACTCATCGTCCAGGGTCTCGCGGCGCTGCTCCTGATCGTCGCCCTGGCCCTGCACATTGCCGAGGTCGGCCTGATCGGCCTGGCAGTGATCGTCCTGATCACCGCCTTTACCGGAATCACTGACGAGCACCGACTCGGCAGCGCATTCAAGGACGCCATGCCGTTCACTGCGCTGCTGGTGGTGTTCTTTGCGGTGGTCGCGGTCATTCATGACCAGCAGCTGTTTACACCGCTGATCCAATGGGTCCTGGCCCTGCCGGCCGATCAGCAGCCCGGCATGCTGTTCATCGCCAATGGCCTGTTGTCAGCCATCAGCGACAACGTCTTCGTCGCCACCATCTATATCACCGAAGTGAAACAGGCCTTTGTTGCCGGCCACATGAGCCGCGAGCAGTTCGAGACCCTGGCGGTCGCCATCAACACCGGCACCAACCTGCCCAGCGTCGCCACGCCCAACGGCCAGGCAGCGTTCCTGTTTCTGCTGACGTCGGCGATCGCTCCGCTGATCCGCTTGTCCTACGGTCGGATGGTCTGGATGGCCGTGCCGTATACGGTGGTGATGGGCGGCCTTGGCTGGTATGCGGTGACTTACTGGCTGTAA	MSGPMAQAFAHNFLGHSPRWYKACIITFLILNAVVLFTLGPVVTGWLLVVEFIFTLAMALKCYPLMPGGLLMIEALAMGMTTPKALYDELLHNFPVILLLMFMVAGIYFMKDLLLFLFSRLLLGVRSKALLSLMFCFLSAFLSAFLDALTVTAVIISAAVGFYSVYHRVASGNDPRQDSSVDEDHDLPSLHHEDLDQFRAFLRSLLMHGAVGTALGGVCTLVGEPQNLLIGHEMGWHFAEFFLKVAPVSLPVLVAGLVTCVALEKLRWFGYGTLLPENVRAVLADYAEQDNLDRTARQRAALIVQGLAALLLIVALALHIAEVGLIGLAVIVLITAFTGITDEHRLGSAFKDAMPFTALLVVFFAVVAVIHDQQLFTPLIQWVLALPADQQPGMLFIANGLLSAISDNVFVATIYITEVKQAFVAGHMSREQFETLAVAINTGTNLPSVATPNGQAAFLFLLTSAIAPLIRLSYGRMVWMAVPYTVVMGGLGWYAVTYWL	PGPT0013940_506	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013940-nhaB-K03314	NA	NA
D1-35_03501	822	yidA	COG0561	Sugar phosphatase YidA	ATGACTGATCAGTTGAAACGTCCTATCCGCTTCCTGCTCAGTGACATGGACGGCACTTTGTTGCTTCCTGACCACAGCCTCAACCAGCGCACCATCGAAGCCGTCCGCTCCTTGCGTGAGGCCGGCGTGCTGTTCAGTCTCGCTACCGGGCGTCCGCCCCGGGCGATGTTGCAGCAGATCGAAGCCCTTGGTGTCGACCTGCCCACGGCGGCGTTCAACGGCGGTACGCTGGTGCACCCCGATGGCAGTTTTCTCGCGGTTCATTACTTGCCGCCTGAAGCGGCGTTGAGCACCCTGGCCCTGTACGCCGACCAACCGGGTATCGAGGTCTGGGTGTTCGCCGATGGCGAGTGGCTGGTGCGCGATGCCCATGGGCCAATGGTGCCGGTTGAAACCCGTGGCCTGGGTTATCCGCCCTTGGAGGTAGAAAGCTTCGAGCCTTACCTTGAACGCATCGACAAGATCGTTGCGACCAGCGCCAATACCGATCTGCTGGTCGAACTGGAGGCTCGCTTGCATCCGCTGCTCAAGGGCCAGGCCCAGGTGTCGCGTTCGCAACCGATCTACCTGGACGTGACGGCGATGAAGGCGAACAAAGGGGAGGCGCTGTCAACGCTGGCGGACTACCTCGGCGTGCCGCTGGAGCAGACCGCCGCCATGGGGGACGGTGGCAACGACCCGGCGATGTTCCATCGCGCGGGGCTGTCGATTGCCATGGGGCAGGCGGAAGAGGCGATCAAGCGTCAGGCTGACGTGATCACCGCCGCCAATACCGAGGACGGCGCGGCGCTGGCGATCGAGCGATACATCCTGCCGCGCTAG	MTDQLKRPIRFLLSDMDGTLLLPDHSLNQRTIEAVRSLREAGVLFSLATGRPPRAMLQQIEALGVDLPTAAFNGGTLVHPDGSFLAVHYLPPEAALSTLALYADQPGIEVWVFADGEWLVRDAHGPMVPVETRGLGYPPLEVESFEPYLERIDKIVATSANTDLLVELEARLHPLLKGQAQVSRSQPIYLDVTAMKANKGEALSTLADYLGVPLEQTAAMGDGGNDPAMFHRAGLSIAMGQAEEAIKRQADVITAANTEDGAALAIERYILPR	PGPT0017727_232	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017727-yidA-NA	NA	NA
D1-35_03502	1521	zwf_2	COG0364	Glucose-6-phosphate 1-dehydrogenase	ATGACCTCGATCGGCAGGAAATCCAAGGCTGAACCGGCACCACCGAGCACGTTGTTCCTGTTCGGTGCTCATGGAGACCTGGTCAAGCGTTTGCTCATGCCGGCGCTCTACCACCTGAGTCGTGACGGGTTGTTGGGGGATGGCCTGCAGATCATTGGTGTCGACCACAACGCTATCAGCGATGTGGATTTTGCAAAAAAACTCGAGGATTTCATCCGTAACGAAGCGGCGAGCAAGGGAGGCGACCCCGACCAGGCGCTCGATCCGGTGCTTTGGGCCAGCCTGGCCCGGGGCATCAGTTACGTCCAGGGTGATTTTCTCGATGACAGTACCTACGAAGCGCTGGCGGCGAAGATCGCCGCCAGCGGCACCGGCAATGCGGTCTTCTACCTGGCGACCGCGCCACGCTTTTTCAGTGAAGTGGTCCGCCGCCTTGGCGCGGCGGGGCTGCTTCAAGAGCAGGATGACGCCTTCCGGCGCGTGGTGATCGAGAAGCCGTTCGGCTCCGACCTGCAAACCGCCGAGGCGCTCAACGCCTGCCTGCTCAAGGTAATGAGTGAAAAGCAGATCTACCGGATCGACCACTACCTGGGCAAGGAAACGGTGCAGAACATTCTCGTCAGCCGTTTCTCCAACAGCCTGTTCGAGGCGTTCTGGAACAATCACTACATCGACCACGTGCAGATTACCGCCGCCGAGACCGTCGGCGTGGAAACCCGTGGCAGCTTTTATGAACATACCGGTGCCCTGCGGGACATGGTGCCCAATCACCTGTTCCAGTTGCTGGCGATGGTTGCGATGGAGCCGCCGGCCGCGTTCGGCGCCGACGCGGTGCGAGGCGAAAAGGCCAAGGTGGTGGGCGCAATCCGGCCCTGGTCGGTCGAGCAGGCGCGGGCCAACTCGGTGCGCGGCCAGTACACGGCGGGTGAGATCAACGGCAACCCTGTCAGCGGTTACCGCGAGGAAACCAACGTCGCGCCCGACAGCAGCACCGAAACCTACGTTGCGCTCAAGGTCATGATCGATAACTGGCGGTGGGTAGGCGTGCCGTTCTATCTGCGCACCGGCAAGCGCATGAGCGTGCGCGACACGGAAATCGTCATTTGCTTCAAGCCGGCACCGTATGCGCAGTTTCGTGACACCGAGGTCGACGAACTGCAACCTACGTACCTGAGAATCCAGATTCAGCCCAACGAAGGCATGTGGTTCGACCTGCTGGCCAAGCGGCCCGGGCCGGCACTCGACATGGCGAATATCGAGTTGGGCTTTGCCTACAAGGACTTCTTTGAAATGCAGCCATCAACGGGTTACGAGACCCTGATCTATGATTGCCTGACGGGCGACCAGACGCTGTTCCAGCGCGCCGACAACATTGAAAACGGCTGGCGCGCGGTGCAACCCTTCCTCGATGCCTGGCGCGAGGATGCAAGCGTTCAGCCTTACCAGGCTGGCGAGGATGGCCCAGCGGCGGCACAAGATCTGTTGACTCGCGATGATCGCGTCTGGCATGGCCTCGGATGA	MTSIGRKSKAEPAPPSTLFLFGAHGDLVKRLLMPALYHLSRDGLLGDGLQIIGVDHNAISDVDFAKKLEDFIRNEAASKGGDPDQALDPVLWASLARGISYVQGDFLDDSTYEALAAKIAASGTGNAVFYLATAPRFFSEVVRRLGAAGLLQEQDDAFRRVVIEKPFGSDLQTAEALNACLLKVMSEKQIYRIDHYLGKETVQNILVSRFSNSLFEAFWNNHYIDHVQITAAETVGVETRGSFYEHTGALRDMVPNHLFQLLAMVAMEPPAAFGADAVRGEKAKVVGAIRPWSVEQARANSVRGQYTAGEINGNPVSGYREETNVAPDSSTETYVALKVMIDNWRWVGVPFYLRTGKRMSVRDTEIVICFKPAPYAQFRDTEVDELQPTYLRIQIQPNEGMWFDLLAKRPGPALDMANIELGFAYKDFFEMQPSTGYETLIYDCLTGDQTLFQRADNIENGWRAVQPFLDAWREDASVQPYQAGEDGPAAAQDLLTRDDRVWHGLG	PGPT0017380_2181	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036	NA	NA
D1-35_03503	981		COG1023	6-phosphogluconate dehydrogenase, NAD(+)-dependent, decarboxylating	ATGCAACTCGGGATCATTGGACTGGGCCGCATGGGCGGCAATATTGCGCGGCGCCTGATGCTCAATGGGCACACCACCGTCGTCTATGACCGCAATGCCGCTTTTGTCGAAAACCTGAGCCAGGAAGGCGCGACGGGCGTCGCGGACCTGCCGGCGCTGGTCGCCGGCCTGGAGAAGCCTCGGGCTGTCTGGGTCATGCTGCCGGCCGGCGCACCCACCGAAGACACCATCAACGTGCTCAGCGACCTGCTCGAGCCGGGGGACGTCATCATTGATGGCGGCAACACGTACTACAAGGACGACATCCGGCGCGCCCAGGCGCTGTCGGAAAAAGGCTTGAACTACATCGACGTCGGTACCTCCGGCGGCGTCTGGGGGCTTGAGCGCGGCTATTGCATGATGATCGGCGGTGACGCTGAAGTCGTGCGGCGCCTGGACCCGTTGTTCGAAAGCCTCGCGCCGGGCATCGGCGATATCCCGCGTACCCGTGACCGCAAGTCTGACGACGACCGCGCCGAGCGTGGCTACATCCATGCGGGCCCGGCCGGTTCCGGTCATTTCGTCAAGATGATCCACAACGGCATCGAATACGGAATGATGCAGGCCTTCGCCGAGGGCTTCGACATCCTCAAGACCAAATCCAGCGAAAGCCTGCCACCGGAGCAGCGTTTCGACCTCAACCTGGCCGATATCGCCGAGGTCTGGCGGCGTGGCAGCGTGGTTTCGTCCTGGCTGCTGGACCTGACCGCTGATGCATTGGCCAGCGATCCGAAGCTCGATGGCTTCTCCGGCGAGGTCGCCGACAGCGGGGAAGGCCGTTGGACCATCGAAGCGGCCATCGAGCAAGCGGTGCCGGTACCGGTGCTGTCCAGTTCGCTGTTCGCCCGTTTCCGTTCCCGCCAGCAAGCCACCTATGGCGACAAGATGCTCTCGGCCATGCGCTTCGGCTTTGGCGGCCATGTGGAGACGCCGAAAAAATGA	MQLGIIGLGRMGGNIARRLMLNGHTTVVYDRNAAFVENLSQEGATGVADLPALVAGLEKPRAVWVMLPAGAPTEDTINVLSDLLEPGDVIIDGGNTYYKDDIRRAQALSEKGLNYIDVGTSGGVWGLERGYCMMIGGDAEVVRRLDPLFESLAPGIGDIPRTRDRKSDDDRAERGYIHAGPAGSGHFVKMIHNGIEYGMMQAFAEGFDILKTKSSESLPPEQRFDLNLADIAEVWRRGSVVSSWLLDLTADALASDPKLDGFSGEVADSGEGRWTIEAAIEQAVPVPVLSSSLFARFRSRQQATYGDKMLSAMRFGFGGHVETPKK	PGPT0017385_3934	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
D1-35_03504	174			hypothetical protein	ATGGGCCCTGTCGTTACCGCACGTCCTCCACAAACCCTTTATGTGACCATTCGTCGCGACGAATTACGCCTGCTGAAGGAAGAGCGTGATCTGCTGCTTGATGAAGTGACGCAGTTGCGCATGCAGTTGCAACACGCACAGCTCTCACACCAGGGCCAGGCTTTGGCTCGCTGA	MGPVVTARPPQTLYVTIRRDELRLLKEERDLLLDEVTQLRMQLQHAQLSHQGQALAR				NA	NA	NA	NA	NA
D1-35_03505	1740	eptC	COG2194	Phosphoethanolamine transferase EptC	ATGAGTGTGTTCAAACGCAGCAAAACGACTGCGAAAGGTTTCGATTGGGCCGGGTTCGGCTGGCTGTTTCTGTTCTTCTGGTATTTTTCCGGCATCACCCAACTGCTGATCCTGTCGAGCGGCACCGCCGGGTTCGCCGGGTTTCGCCAGGCCTTCGTGATGAGTGCGTTGTGGTTGGCACCGCTGCTGCTCTTCCCTGCCCGCACCCGCCTGCTCGCCGCGATCATCGGGATCGTGCTCTGGGCTTGCTCGATGGCCAGCCTGGGCTATTTCTTCATCTACCAGCAGGAATTTTCCCAAAGCGTCATCTTCATCATGTTCGAGTCGAACGTGTCCGAAGCTGGCGAATACATGACCCAGTATTTCGCCTGGTGGATGGTGCCGGCGTTCCTGGCGCATACCCTGGTCGGTTACTTCCTCTGGACGCGCCTGCGCCCGGTCTACCTGCCACGCAGCCAGGCCTGGGCGGCAGCGCTGGTCATCATGGTGGCCGTGGTCGGCTACCCGCTGACCAAGCAGACCCTGCGCACTGGCAGCCTGGCCAAGGGCTTCGAGAAGTTCGAGAGCCGCGTCGAGCCGGCGGTGCCCTGGCAGATGCTGGTAGCGTACCGCCGCTACACCGAACAGCTGGAAAACATGCAGGGCATGCTCCACAGCACCAGCAAGATTGCGCCCCTGCGCAACCTTCAGGACACCATGGCCAACGAGCCGGCCACCCTGGTGCTGGTCATCGGCGAATCGACCAACCGCCAGCGCATGAGCCTGTACGGCTATCCGAGAGAAACCACGCCAGAACTGGACAAGCTCAAGGACCAGCTCTCGGTCTTTGACAATGTCATTACCCCGCGCCCCTATACCATCGAGGCCCTGCAGCAGGTACTGACGTTCGCCGACGAGGAGAACCCGGACCTTTATCTCAGCACGCCATCGCTGGTGAGCATGATGAAACAGGCCGGCTACAAGACGTTCTGGATCACCAACCAGCAGACCATGACCAAGCGCAACACCATGCTCACGACGTTTTCGCAACAGGCCGATGAGCAGGTCTACCTGAACAACAACCGCAACCAGAACGCCGCGCAGTACGACGGCGACGTGATCGAGCCGTTCAACAAGGCCTTGGCCGACACCGCGCCGCGCAAGCTGATCGTGGTGCACCTGCTCGGCACCCACATGAGTTATCAGTACCGGTATCCACCGACCTTCAACAAATTCACCGACCGCCAGGGCGTGCCTGCCGGGGTGCGTGACGATCAGGTGCCGACCTACAACAGTTACGACAACGCGGTGCTGTACAACGACTTCGTGGTGTCCAGCCTGATCAAGGACTACGCCAAGAGCGACCCCAACGGCTTCCTGCTGTATCTGTCGGACCACGGCGAAGACGTCTTCGATTCACCGGGCCATGGCACCCTGGGCCGCAACGAGGCCAAGCCGACAGCGCCGATGTACACCATCCCGTTCATGGCGTGGGCTTCGCCGAAGTGGCGCGAAACCCATGACTGGAATTTCGCTGGCGACCTGTCGCGGCCCTACAGCAGCTCGCACCTGATTCACACCTGGGCGGACATGGCGGGCTTGAGCTTTGATGAGCTCGATCGCAGCAAGAGCCTGGTCAGCGATGACTTCAAGTCGCGGCCGCTGTTGATCGGCAACCCCTACCAGGACCAGCGCAAGGGGCTGATCGATTTCAGCCTGATGCAGCCCAAGGGCCCCGCGGGCCAGGTCGTACAAAAGTAG	MSVFKRSKTTAKGFDWAGFGWLFLFFWYFSGITQLLILSSGTAGFAGFRQAFVMSALWLAPLLLFPARTRLLAAIIGIVLWACSMASLGYFFIYQQEFSQSVIFIMFESNVSEAGEYMTQYFAWWMVPAFLAHTLVGYFLWTRLRPVYLPRSQAWAAALVIMVAVVGYPLTKQTLRTGSLAKGFEKFESRVEPAVPWQMLVAYRRYTEQLENMQGMLHSTSKIAPLRNLQDTMANEPATLVLVIGESTNRQRMSLYGYPRETTPELDKLKDQLSVFDNVITPRPYTIEALQQVLTFADEENPDLYLSTPSLVSMMKQAGYKTFWITNQQTMTKRNTMLTTFSQQADEQVYLNNNRNQNAAQYDGDVIEPFNKALADTAPRKLIVVHLLGTHMSYQYRYPPTFNKFTDRQGVPAGVRDDQVPTYNSYDNAVLYNDFVVSSLIKDYAKSDPNGFLLYLSDHGEDVFDSPGHGTLGRNEAKPTAPMYTIPFMAWASPKWRETHDWNFAGDLSRPYSSSHLIHTWADMAGLSFDELDRSKSLVSDDFKSRPLLIGNPYQDQRKGLIDFSLMQPKGPAGQVVQK	PGPT0022455_124	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022455-eptC-K19353	NA	NA
D1-35_03506	495			hypothetical protein	ATGGAAGAAGCCAAGGATATCCTTGTACTGCAAGCCAGCTACACCAACCCGGTCCACGCTGAAGCGATCTGCCATGTGCTCAACGGTTATGCCGAGGATCCGATGGGCGGTGGGCATTCGCTGCCGGCCGAGGTGTTGGCCCATCTGCCTGAAGAGCTGGCCAAGCGTTCCCACGCTTTCAGTGTGCTGGCGTTCGTCAATGGCGAGCCGGCGGGGTTGGTCAACTGTTTCGAGGGGTTTTCGACCTTCGCTTGCCGGCCTTTGGTGAATGTCCACGATGTAGCCGTAATGCCGGCGTTTCGTGGGCTTGGCCTGAGCCAGAAGATGCTGCAGAAAGTCGAAGACATCGCCCGCCAGCGCGGGTGCTGCAAGATCACCCTGGAAGTGCTGGAAGGCAACGCCGTGGCCCAGGCCAGTTATGCCAAGTTCGGCTTTGCCGCCGGCATGTTCGACCCGGCCCACGGGCGCATGCTGTTCTGGATCAAGCCCCTCTAG	MEEAKDILVLQASYTNPVHAEAICHVLNGYAEDPMGGGHSLPAEVLAHLPEELAKRSHAFSVLAFVNGEPAGLVNCFEGFSTFACRPLVNVHDVAVMPAFRGLGLSQKMLQKVEDIARQRGCCKITLEVLEGNAVAQASYAKFGFAAGMFDPAHGRMLFWIKPL				NA	NA	NA	NA	NA
D1-35_03507	1122	zapE_2	COG1485	Cell division protein ZapE	ATGACTTTCACTTCCCCCTTGAGCGCCTGGCAGCATGCCATCGAACACCACGGCTTCGTCCAGGACGAAGCCCAGGAGCTGGCAATCATGGCATTGGAGCAGTGCCATCAGGCGCTGCACGAAGGCCGCAAGGCAATCAAGGGTGTTTACCTGTGGGGACCGGTCGGGCGGGGCAAGACGTGGCTCATGGATCGCTTTTATGAAAGCCTCGAGGTTCCGGCCCGTCGCCAGCATTTCCATCATTTCATGGCCTGGGTGCATCAGCGCTCGTTCCAGCTCACCGGCACGCCAGATCCGTTGCAGGCCCTGGCTCGAGAGCTGAGCCGAGAGGTGCGGGTGTTGTGCTTCGACGAGTTGTTCGTGACCGACATCGGCGATGCGATCATCCTCGGCCGCCTGTTCCAGGTGATGTTCGAGCTGGGCATGGTGGTGGTCAGCACGTCCAACCTGCCGCCGGATGAGCTGTACGCCAGCGGTCACAACCGTGAGCGCTTCCTGCCGACCATAACGGCCATCAAGCAGTACATGCAGGTCGTGCCGGTGAATGGCTGGCAGGATCATCGCCAGCACCCGGGCGCCTTGCAGCAGCGTTATTGGCTGCGTGACCCGGCCCAGCCTGATCCGTTGGCGGAGGTTTTCGCCCAGTTGAGCGCCGGGCAGAAAACCCGCAACCAGGCGCTCGAGGTCGGCCATCGCCAGATCGTTCCGGTCCAGGCCAGCGATACAGTGCTGTGGAGCCGTTACCCCGATCTTTGCGAGCAACCATTCTCGGCGCTTGATTTCATGGCGCTGTGTGATCGTTTCAAGGCCATTCTTCTCAGTGACGTACCCTGCCTGAGCGCCGAACAACGCGAAGGGCGTATTGCCCGAGGCACCGAAGACGGGGTCGAGCGGGTCGAGGCCGGTGATCGCGAGCTGCCGCAGCTGTCGATTCATGACGACGGCGTACGGCGTTTCATTGCTTTGGTCGACGAATGTTATGACCGCAAAGTGCCGTTGTACCTGTCGGCCCAGGTGCCGATGGACCAGTTGTACACGCAGGGCTATCTGCAATTCCCGTTTCGCCGTACTCTCAGTCGCCTTCAGGAAATGCAACTGCAACGTTTTGGTCAGCCCGCCTGA	MTFTSPLSAWQHAIEHHGFVQDEAQELAIMALEQCHQALHEGRKAIKGVYLWGPVGRGKTWLMDRFYESLEVPARRQHFHHFMAWVHQRSFQLTGTPDPLQALARELSREVRVLCFDELFVTDIGDAIILGRLFQVMFELGMVVVSTSNLPPDELYASGHNRERFLPTITAIKQYMQVVPVNGWQDHRQHPGALQQRYWLRDPAQPDPLAEVFAQLSAGQKTRNQALEVGHRQIVPVQASDTVLWSRYPDLCEQPFSALDFMALCDRFKAILLSDVPCLSAEQREGRIARGTEDGVERVEAGDRELPQLSIHDDGVRRFIALVDECYDRKVPLYLSAQVPMDQLYTQGYLQFPFRRTLSRLQEMQLQRFGQPA				NA	NA	NA	NA	NA
D1-35_03508	342			hypothetical protein	ATGTCCAATCCCGTCTCTTCCCTGGCCCCGGCCATCGCCGGCTACATCGCTGCCGCGAATGCTCGCGACAGCTCGGCGGTGACGCGTTTCTTCGCCGAGGATGCCAATGTGTTCGATGAAGGCAACCACCGGGTCGGCACCCAGGCCATCGCCCAGTGGATGGAAGATACCGCGCGCCGTTACCAACCGCGGGTCGAAGTCCTCAACGTGCAGCAACGCACCGGAAAGGTGCTGGTCCATAACCTGATCTCCGGAACCTTTCCCGGCAGTCCACTGGAGTTGCGCTACACCTTCCGGCTCGATGAGCAGGGGAAGATCAGTCGGCTGGATATTTCCGCCTGA	MSNPVSSLAPAIAGYIAAANARDSSAVTRFFAEDANVFDEGNHRVGTQAIAQWMEDTARRYQPRVEVLNVQQRTGKVLVHNLISGTFPGSPLELRYTFRLDEQGKISRLDISA				NA	NA	NA	NA	NA
D1-35_03509	717			hypothetical protein	GTGTCGCGAACCACTCGGCTGCTGACCTTGTTGCAAGTCTTGCGGGGCAAGCGCTGCCCGGTTACCGCCGCGACGCTGGCGGCCGAGCTGAAGGTGTCCGAGCGCACGCTTTATCGCGATATAGCCGAACTGACTGCCCTGGGCGCGCCGATCCAGGGCGAGGCGGGCATAGGTTATGTGCTGCGCAGCGGCCTGTTCCTTCCGCCGCTGATGTTCACCGCCGATGAAATCGAGGCCATCGTGCTGGGCTTGCGCTACGTCGACCAGCGTGGCGATGAGGTTCTGGGCAAGGCCGCCGCCGACGCTTTGGCAAAGGTCGAGGCGGTGTTGGCCCCTGGTTTGCGCGATGCCTTGCACAACCCCACGGTATTGCCCGGCCCACCGGGTTACGGTTATCCGCAGAACGCCGTCGAGCTGAATGTCTACCGCCAGGCCATTCGCACTCAAGCCAAATTGCACATCGATTACGCCGACGTCAACAAGACCCCCAGCCAGCGGTTGATCTGGCCGCTGGCCCTGGGCTTTTTCAATGAGGCGCGGGTGGTGGTGGCCTGGTGCGAACTACGCGGTGCCTATCGGACGTTTCGTACCGACCGGATTGCCTCAGCCAGCGTCCAGGGCGAGCGCTACCCCGGCAGGCGCAGCGACTTGCTGCGAGCCTGGTTGGCGCTGATGAATCTCGATGAGGCGGGGCGTTTTACTCCTGACAAAAACTGA	MSRTTRLLTLLQVLRGKRCPVTAATLAAELKVSERTLYRDIAELTALGAPIQGEAGIGYVLRSGLFLPPLMFTADEIEAIVLGLRYVDQRGDEVLGKAAADALAKVEAVLAPGLRDALHNPTVLPGPPGYGYPQNAVELNVYRQAIRTQAKLHIDYADVNKTPSQRLIWPLALGFFNEARVVVAWCELRGAYRTFRTDRIASASVQGERYPGRRSDLLRAWLALMNLDEAGRFTPDKN				NA	NA	NA	NA	NA
D1-35_03510	516			hypothetical protein	ATGAGTTATGGTACCTACACGTTTCTAACGCGAGAGAGCATTTCCATGCGCAGAATCTTCCGTTTGCCCCTCATCCTGATACTGCTCAGCCTGAGCGCCTGCGCCCTCTTCCCGCACCGCGACCCGCTGAATATCAACGTGGTCGGTATCGAGCCACTGCCCAGCGAGGGTCTGGAGATGCGCTTCGCGGTGAAACTGCGCTTGCAGAACCCGAACGAAACCGCCATCGACTACAGCGGTGCGGCATTGGATCTGCAAGTCAACGGCCGCACGTTGGCGACCGGCGTCAGTGACCAGAGCGGCTCGATCCCACGCTTTTCCGAAGGAATCCTGAGCATACCGGTGAGCATCTCGGCGTTTTCAGTGATCCGCCAGACCCTGGGCCTGAGCCAGACCCAGAGCCTGGACAACCTGCCCTACGTGCTCAAGGGCAAACTCGCCGGCGGCTTGTTCGGCACCCTGCGCTTCGTCGATCGCGGAACCCTTGATCTACCGAATTCCGCAGCCGCCTGGTGA	MSYGTYTFLTRESISMRRIFRLPLILILLSLSACALFPHRDPLNINVVGIEPLPSEGLEMRFAVKLRLQNPNETAIDYSGAALDLQVNGRTLATGVSDQSGSIPRFSEGILSIPVSISAFSVIRQTLGLSQTQSLDNLPYVLKGKLAGGLFGTLRFVDRGTLDLPNSAAAW				NA	NA	NA	NA	NA
D1-35_03511	420			hypothetical protein	ATGAACAGTTTAAAAACGGGCGTGATCATCAGTACTGTACTGGCATCATTGGGCGCAAGCGTTTATGCTCAAGCGGCGTCCGACAGCAAATGTTACGTTGTGTATTCGTCAAAGTATAAAGAACCGGCAAAAATTACGCCTGTGGTAAAAAAACCGGTGGAAAAAGGAGTGGTGGGCAAGGAGTACATATTAGATGCCAGTAGCTCTATTACACCGAGTGGGAAGAAAGGGTACAAGTGGGCCGTGGGCACAGGGGGGTACGAGTTCGCTGGGCCAACCGATCAAGCAACAGTCAAAATCAAGTCAGACAGAAAAGAAGGGGTGGATGCGGTTTACAGTCTTACAGTAAGCGACCCAGACTGCCCAGATTCACCGGCAGGCACGCTGGGCGCGGAGGTATTTACGATTGAGAAAGGATAA	MNSLKTGVIISTVLASLGASVYAQAASDSKCYVVYSSKYKEPAKITPVVKKPVEKGVVGKEYILDASSSITPSGKKGYKWAVGTGGYEFAGPTDQATVKIKSDRKEGVDAVYSLTVSDPDCPDSPAGTLGAEVFTIEKG				NA	NA	NA	NA	NA
D1-35_03512	924		COG0388	Nitrilase	ATGCCCAAATCCATTGTGGCTGCCTTGCAGATCGGCTCGCTGCCAGGCGGCAAAGGCGAAACCCTCGCGCAGATTCTTTCCTACGAAGACGCTATTCGTGAGGCCGGTGCACGCCTGGTGGTCATGCCCGAGGCGCTGTTGGGCGGCTATCCCAAGGGCGAGACATTTGGCACCCAGCTCGGCTATCGGCTACCGGAAGGGCGCGAAGCGTTTGCCCGCTACTTTGCCAACGCCATCGACGTGCCCGGTGCGGAAACCGAGGCGCTGGCGGGTCTTTCGGCGCGAACCGGGGCAAGCCTGGTGTTGGGCGTCATCGAGCGCGCCGGCAATACGCTGTACTGCACCGCGCTGTACTTTGAACCGGACGCCGGCCTGGTCGCCAGGCATCGCAAACTGATGCCCACCGGCACTGAGCGGCTGATCTGGGGCAAGGGTGACGGTTCGACGTTACCGGTGATCGACAGCCAGGTTGGGCGCGTGGGCGCGGCGGTGTGCTGGGAAAACATGATGCCGCTGCTGCGCACCGCGATGTATGCCAAGGGCGTGGACGTCTGGTGCGCGCCGACGGTGGATGAGCGGGAAATGTGGCAGGTGAGCATGCGGCATATCGCTCATGAAGGGCGTTGCTTCGTGGTCAGTGCCTGCCAGGTCCAGGCCTCGCCGGCAGAGCTGGGTATCGAGGTGGCGAACTGGCCGGCGGAGCGGCCGTTGATCGCGGGCGGCAGCGTGATTGTCGGACCCATGGGCGACGTGCTGGCCGGGCCGTTGAGGGGCTCCGTCGGATTGCTGACTGCTGAAATCGATACCGATGAGCTGGTGCGGGCGCGTTACGACTATGACGTGGTCGGGCACTACGCCCGGCCCGATGTATTCGAGCTGGTGGTGGATGAGCGCGCCAGGCCGGGTGTGCGGTTTACTGCATGA	MPKSIVAALQIGSLPGGKGETLAQILSYEDAIREAGARLVVMPEALLGGYPKGETFGTQLGYRLPEGREAFARYFANAIDVPGAETEALAGLSARTGASLVLGVIERAGNTLYCTALYFEPDAGLVARHRKLMPTGTERLIWGKGDGSTLPVIDSQVGRVGAAVCWENMMPLLRTAMYAKGVDVWCAPTVDEREMWQVSMRHIAHEGRCFVVSACQVQASPAELGIEVANWPAERPLIAGGSVIVGPMGDVLAGPLRGSVGLLTAEIDTDELVRARYDYDVVGHYARPDVFELVVDERARPGVRFTA	PGPT0000835_1099	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRP-DEPENDENT_PATHWAY_3,PGPT0000835-nitA|nitB|nitR|nit1-K01501	NA	NA
D1-35_03513	909	nodD2_5		Nodulation protein D 2	ATGAAGCACATGAATATCGCCGATGTAGACCTGAACCTGCTGAAGACCTTCGAAGCCCTGCACGACGAATCCAGTGCAAGCCGCGCCGCCCTGCGCCTGGGCGTCACTCAATCGGCCATCAGCGCGGCGCTGCGCAGGCTGCGAAGCGTGTACGACGATCAGTTGTTCGTGCGCACCGGCCGCGGCCTGGCGCCGACATTGCGGGCCAACCAACTGAAACCGGTGATCAGCGAAGCGTTGGACAAATGCCGCCAGAGCCTGGCGATGATCGATCCGGGCGCCAGCCACTACGAGGGCCGCTCAGTCATCGTCGGGCTGTCGGATGATTTTGAAATTGCCTATGGCCGGCGATTGATCGAGGAAGTTGCGCGAAGAGCGCCGGGCCTGCGCTTGATCTTTCGCCAGACCCACAGCCAGATCGTCGGTCGCGCCTTGATGGAGCGCAGCCTGGACGTGGCGATTACAGCGGGAGGATTTACCGAGCGGCTGCTCAGTCGCCAAGTCCTCGGCGAAGGCGGCTACGCCTGCCTGGTGGACCCTGCCAGCCTGACGGAGGACCAGCAGGGCCTGAGCCTGGAAGCGTTCGTGGCGCGCGAGCATCTGCTGGTTTCATCGGGCGGTTTCATCGGCATCACTGATGAAGGACTGGCCGCACTCGACCTGCGCCGACGGGTGAGCGCCTCGACCACTCACTTCGCCGCGCTGCCGTTCCTGCTCAAGGGCAGCCAGGCCGTGGCGACCATTCCGGACCATGCCGCCACGGCCATTGCGGCGCTCAGCGGCCTGTCGCTGTTGCCCTGCCCGCTGGCGTTGCCGCGCTACCCGATCGAGCTAGGGTGGCGGACCCATGCGCAGCGGGATCCGGCCGTGGAGAAAGTGCGCGAGGCCATTGTCGCGACCTTCAACTGA	MKHMNIADVDLNLLKTFEALHDESSASRAALRLGVTQSAISAALRRLRSVYDDQLFVRTGRGLAPTLRANQLKPVISEALDKCRQSLAMIDPGASHYEGRSVIVGLSDDFEIAYGRRLIEEVARRAPGLRLIFRQTHSQIVGRALMERSLDVAITAGGFTERLLSRQVLGEGGYACLVDPASLTEDQQGLSLEAFVAREHLLVSSGGFIGITDEGLAALDLRRRVSASTTHFAALPFLLKGSQAVATIPDHAATAIAALSGLSLLPCPLALPRYPIELGWRTHAQRDPAVEKVREAIVATFN	PGPT0028130_537	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexEF-OprN,PGPT0028130-mexT-K18297	NA	NA
D1-35_03514	255			hypothetical protein	ATGAGTTTCAATCTGGCTGACAAGCCCCTGGCCGAGCGTGCGGCGCTGGAAGATGAAAAATCCCGACTTTTCGAGCTGTGGCAAAACAATCTGGGCAAGGCCAAGGGTGACGCTGCGCGGTTGTTTGGCGAACGCTCCAAGCGCAAGGGCAAATGGGCCGAGTGGGTGCGCGCCGAGCTGGACGGCATGTCGCCTCCGGAGTACGCCAATATGGTGCGCAGTGAGGTCAATCGACTGATGGCCGCGAACAAATAA	MSFNLADKPLAERAALEDEKSRLFELWQNNLGKAKGDAARLFGERSKRKGKWAEWVRAELDGMSPPEYANMVRSEVNRLMAANK				NA	NA	NA	NA	NA
D1-35_03515	318			hypothetical protein	ATGGCTCGCACAAGCGCCGCGCAAGCGAACGGAGAGCAAATCAAGGATCAAGCCTTCAGCGAACTGAAAGCATTGATTGAAGAGTCGGAGAAGCTGCTCAAGAGCGGTGCCGCCCTGGTTGGCGAGGACGCGGAGAACCTGCGCGAGCAGATTTCACAGAAACTGCGCCAAGCCCTGGATTCGGTCGCCAGCGCACGGGAGCGCACGCGCCCGATGGTTGATGCCACGCAAGCCTATATCGGCGGCCATCCCTGGCAGACCGTAGCGATTTCCGCGGGTTTCGGGCTCGTGGTGGGCTTGTTGCTGGGACGCCGTTAA	MARTSAAQANGEQIKDQAFSELKALIEESEKLLKSGAALVGEDAENLREQISQKLRQALDSVASARERTRPMVDATQAYIGGHPWQTVAISAGFGLVVGLLLGRR				NA	NA	NA	NA	NA
D1-35_03516	1032	dpkA	COG2055	Delta(1)-pyrroline-2-carboxylate/Delta(1)-piperideine-2-carboxylate reductase	ATGCCCGCGCTACCCGATCCTGCCGGTCCTTGCACATTGTCCTATGAAGCGTTGGTGAGTTTGCTGGAGCAGATTTTCCTGCGCCATGGCACCTCGATCGATGTCGCCCGCACCCTGGCCGAGAACTGCGCCGGCGCCGAACGCGATGGCGCCCACAGCCATGGGGTGTTTCGCATGCCCGGGTATGTTTCGACGTTGAACAGCGGCTGGGTCAACGGCCAGGCCGTGCCGATCGTCGAGGATGTTGCGTCCGGGTTCGTCCGGGTCGATGCCTGCAACGGCTTTGCCCAGCCCGCCCTGGCCGCCGCCCGCCCATTGCTGGTGGACAAGGCTCGCAGCGCCGGTATCGCGGTGCTGGCGATACGCAACTCTCACCACTTCGCCGCGCTGTGGCCGGATGTCGAGCCGTTCGCCTATGAAGGCCTGGTGGCCTTGAGCGTGGTCAACAGCATGACCTGTGTGGTGCCCCATGGCGCGGATCGGCCATTGTTCGGTACCAATCCCATTGCTTTCGCCGCCCCACGCAACGGCGGCGAGCCGATTGTTTTCGACCTCGCTACCAGCGCCATCGCCCATGGTGACGTGCAGATTGCCGCGCGCAAAGGTGAGCGATTGCCTCCCGGCATGGGGGTGGACAGTCTCGGTCAGCCGACCTGTGATCCGAAGGCGATTCTGGAGGGCGGCGCGCTACTGCCGTTTGGCGGTCACAAAGGGTCGGCCTTGTCGATGATGGTGGAACTGCTGGCGGCCGCGCTGACGGGGGGCAACTTTTCGTTCGAGTTCGACTGGCACAACCATCCCGGAGCCAAGACTCCCTGGACCGGACAGTTGTTGATCGTGATCGATCCGAGCAAGGCCGCCGGCCAGGATTTCGCTTCACGCAGCGAAGAATTGGTCAGGCAGATGCACGGTGTCGGATTGCGTCGGTTGCCAGGGGATCGCCGACACCGTGAGCGCAGCAAGTCCATCGAACAGGGGATTGTGCTGGACGAGCAGACGCTGGGCCAACTGCGCGAGTTGGCGGGGCTATAG	MPALPDPAGPCTLSYEALVSLLEQIFLRHGTSIDVARTLAENCAGAERDGAHSHGVFRMPGYVSTLNSGWVNGQAVPIVEDVASGFVRVDACNGFAQPALAAARPLLVDKARSAGIAVLAIRNSHHFAALWPDVEPFAYEGLVALSVVNSMTCVVPHGADRPLFGTNPIAFAAPRNGGEPIVFDLATSAIAHGDVQIAARKGERLPPGMGVDSLGQPTCDPKAILEGGALLPFGGHKGSALSMMVELLAAALTGGNFSFEFDWHNHPGAKTPWTGQLLIVIDPSKAAGQDFASRSEELVRQMHGVGLRRLPGDRRHRERSKSIEQGIVLDEQTLGQLRELAGL	PGPT0001796_158	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_AQUIRED_RESISTANCE|SAR	SAR-CONDITIONING_COMPOUNDS	SAR-PIPECOLATE_BIOSYNTHESIS,PGPT0001796-dpkA|lhpD-K13609	NA	NA
D1-35_03517	4800			hypothetical protein	ATGACTAGTGCAAACCCGCCCCTGCTATTTCCTGAAATATTCAAAGCCCGGCGCCTGAATGAATTGACCGCGCCCCACGGGTTGACCCAGGCAGATCTTGACTGGCTGCATCACGCTGCCCTGCCCAACTACACGCAACGCGGCGAGCAGTCACCCGCAATGACGATCGAAACAATTACCCTGGATGTCCAGGGCAAACCCTTGATCCCGCTCGCCGGTTGCCTGGTGCTCAGCGCGCAGGGCGATCACCCTGCGTTCCTCTATACACCGTACGGCGGCATCGCAAAGTTCGATAGCCCGGAGACCCTCGAGCACAGGCTTGATGAAATGCTGGCGACACCGCTGGAACGGGATGAGCTGTTTTGCCTCCTTTCGCTCTCCCAGCGCAACGAACTCTATGGCGCATCCTTTCAGAAAACCCGCCGAACAGTCTACGGAGATCCGCTCGAGACACGATTGGCATCGATCAGCAATGCCCAGGAACTCAACGCCCAGGCAATGGTGCATGAGTTGCTCCAAGTTCCGTCGTTGGCAGCGATGCTTGACCAGGTATTGCAGGAGCTGTTGGACAACTTCGATCATAAGCAGGCACGCGTCTCGCTCAGTCTCATCAAGGGCGCGGACGTCCCGTTACAGCAGTGGACCCGGAACATGCCACTGAGTGATGCAGTGCTGATCTACTTCCATCATCAAGGCTGGCCTGACGGATACGAGGCGGCTTTCACTCACCCCTCCACCGAGGAATCGCCCGCAAACGCCTTGCACTGGCAGACCATGGTAAAGCTCACCGCAAGGAATCTGGTGCGCCACCTCACTGATCGCCTCGAGGCCTACTGGGACGCTGCGAGTCCCCTGAACATTTCACGGCGACAGTTTCTGTCCCGTGTCATCGACGACAAGCTACGGTCAGCGATCGTTATCGAAGGCGAAAAAGGCCAACTGACAGAAGCACAAAGCAGCGAGCTGCATCGTCTGTTCCGGCCATCTCGCCACGACGAGAGGCTGATGTTCATCGAAACGATTCGCCTCTGGGAACATGAAACCCATAGCGTCGAACTGGCGGGCTCGTTGATGATCAGCGCGAATGGGCACTACCTTTACACCCCTGGCAAAGGCATTCAGCAAGTTGACCATCATCTGGGCTTCAGGGATACGTTGCTGGGCCCGCCCACCGCGGCCCCGCAAATGGACGCCCTTTATAGACTGCTGAGCCTTGAGGAACGCAACCGTCTTCTGCGCTTCGACGCTCCGCAGGTCTCCGGCAAGGAGGTGAGCTTGCCCGTAGCCGAGTCCCTGGGCCAGGCGATCATTGCCAAACAGCTGGACAATATTCATTTCGCACTGGAAATGTCCCGCCAGGGCGAGGTCGATATCCATGCGCTGCTGGACAAGGCGCTCGATATACGCACCCTGATCGACAACGGCCTGCTCGACCAGAAGGTCGACGGACACTGGGGCGCGCGCGCTGCGTTTTATGGAAACCTGCGCCCCTCCAATTTCATCGCCGATGTGCTGCACAGAAAGCTCAAGACCTATGACAGTGTGCAAAAAGCTTTCGATAGCGAGTTCACTGAGTTACCCCATTCAAGCGAATCGGAGCTCCTCGACAGCGAGCTGAGGAAGCTGCTTCCCAAGCTATGCAGCACTTTTTCCCTGGGCATCCGGGAGGAGGCTGAGCTGCGGCAGCTCAACGGGACGCTGTCGACCGACGCCCACAAGCTCATCAACAGCGTGTTTGCCTTCGACGCAAACTACCCCGACCGCGAACAACGCCCCAGCGTCAAAGGTTTCCGCCCGGACGTATATTCGCTGAAGTTGACCTGCACAACGGAAGGCGCCACGACCGCCGTTTCTCCAGCCAGTTGCTTCCTGCTGACCGAGCGTGGCGGGCTGGATACGCCTTTTTCCGGCATGGCAATCCTGTGGCTCCCCACATGCGGACTCAAGGTTTTTCCGTCCGTCGCCCTTGCCAGCCAACAGTTGAATCAATACCTGTCCAACGCCCGGTCGCGTTTCGATGTGCTGACCAATCTCACGCCCGCGCAACGGAATCCCCATGCCCGCTACCAGCTCGAGGCATTTGAACTGATCGAAGGCAATGTGCTGATGAATCGGATGACTTCGTTCAGCGAACACTTTGCGGCCGAACACGCGTATTTGCGTGCATTACAGATAGGTGACTGGCGACTGACCGAACCGGCAATGCTCGAAAGCCTGAAAGCACTGTTGGACAAGGGCGCCGCTACCAACCTGCCAGTTGCCGAGCGCATCGCCCATGCCTACCGGTTCCAGCAAAAGCTTCCCGCCTGGTTGGGTGCCGCCTCGCTCGAGGACCAACGACAGCACATCGAACTGCTTGAACAATATCGAAACAGCGTAACCGAGGACAAAGACTACCTGGACGGCATAGAACCTCTACGTAACTACGTCGACAGAACCTTGAAGGCGCTGTTGGAAACACGTTTTCCCGATACGGGCCTTGACCCTGCCACACTGCTGATTTCGCCCCATCTTGCGCTGGCAGGCCCGGCAAGCAGCCTGACCGATTTCGCCCTGAATCATCTCGACAGTCGCCAGCGACCCGGCTTCACGATTTCGTCGATGCTCTCGCAAAAACTACCCAACCACTTGAACGAAGCCGCTCTCAGGCAAATGTTGCTGTCGTTGGGTACGTCAACCCGCTACAGGGCGCATGTGCTGGACAAGCTGTCCGACAGCGCAGAGGGCATAGAGCAAAGGAAAAGTCGATTTTATCAACAACTACCCTGGCAACTGCTGCAACACGCCCACGCCAGATATTTGCAACAGAATCTCTCTCCGTTTGCCTTCAGCTTGATCAGCCAAGTGTTCGATATGCCGGACAGCATCGCCCGGCTGGAAGCAGACGGGGCCGAGGCAATCATCCGCCCGATGGAACTGATCAAGACGCAAGGCGCCGAAGCCGTCAAGGCTACCGGGCTCTATCTGATCGGGTCGAGTGTCGATGCAAAAGCCCCGCATATCCTGTATTCCCCTTACCACGAAGGGAATGTTTTCACCGAGTTCGAGAACGAAACGAAGGTCATCGCTGCAGTCAATGCGCCAGGGGTGCTTCAGGACATGCTGATTCACCGGCTCCCCGAAAGCCAGCAAGCCACGTTCCGAAATCTGTTCGCGTCCACGGCAGGAAAACTCTCGGAGATAACCCTGGCTTCGAACCCGATTGCCAACCTGCTCGGTACGTTGTTCAACGACAACACCTCATTACTGGCAGGCATGCTGAAAACCCACACCGATGGCACGCGCCAGTTCGACTGGCAAACCGTGGTGCATTTGTTCAGTACCGGCATCAAGGCCCTTGGCCGGGAACTGCCTGGCAAACTGGCGTTGATCGAGACTCTCAAAGATGCCTATGAGGATTTCAAGGCGTCTTCCGAGGATTTCCAGCAGGGCAATTGGGGGGCAGGCTTGCATGATTTCATCTGTGGCGCAGCGGAAATGGTCTCCCTGGGCTGGCTCAATCGGGACGATACCTTCGGCCTGCTCGATCCGGTGGGTCCCGCCGCCCTGCCTCGCCCCGCGGTAAAAGCATCTCACTGGCAGCACCTGACCAGCGCAGCGCGTACAGACCTGCAGCCATTCGAAGCCCTCAAGGTCAGCCTGGCCGACCTCAAGAAACACCCGTTCGATGGAACCTACGAAGCCCTGGCGTCCGGCAAGCACTACGCACCGGTGTTCGGCAAAGTCTTTCAGGTAGCAAAAGCTGCCCATGACTGGCGCATCACCCATGGCCACGCCGAGGGGCCAGTGCTCAAGCGCTCGTCTGAGTCCGGGCAGTGGTTGATCGATCCAGACTCGCGGCACATTCGCTACGGAAAAGTGATGTCAACCTTGACTGATATGCATAGCGACTTCAACGCGAAGGAAGTCATCAATATTGAAGCACGGGGTATGAAGCAGATACGCCGGATGTCCCCCTCCCGCGCGAACATGATCGAGCAAGCCCTGGAAACGGCACGGCATTACTCCCGCAACGCGCTGCAAAATCTTGAGCAGGTCAAAGGCGGCATGCCTGCCGGGTCCCGACTGGACACCTTCCTGACGACTTTTCTCGGCGTCAGGGTGATCGACGCGCGCCTTGTAGAAAAAATACACACCGCCATCGCCCCGATCTGCCAGACGCTGGCGGATCCGTTGTGGCTTCATAAAAACGGCAGTCGCATCGTTATCGGCATCGCCAAAAGCGCCAACTATGATGCGAGTGCCTTCGTATTCGAGGCCGGCAAGGGCGGCAGGATTTATCTCACCCAAGAGTTTTTCGCCATGGTGCCGCATTGGTACAACAGTGCCGTGCCCGATACATTCAATGTCGACGCGCACGCCCAAGGCTCAACCTTCATTCATGAACTGTCCCATCTGCTGTGCGACACACTGGATATCGTCTACCTGGGCGCCTACTTACCATTCCACGACCTCATTTCAACAGTGACTCAACTGGCACAAAAAAAAGCCGATGAACAAAAGGACCTGCAACTCAACGGTTTTTCGTGGACCACGCCGCGCGCTCGCCTGTTCACGGATTGGGACCGTGCAACCCACTCGTTCAAGAGCCTCGACCTCCTGCCCAAGCACAAAGATACCGTCAGAAAAATCCTGCAAATCACCAGCAGTGCAAATCTGGAGCAAGCCCGCGACGCATTTCTGGACCTGAACTCAGCGGATCGACGGATCGACGTCATGTTTAAAAATGCCGACTCTATAGCGCTGCTCATTTGTGAGCTGGGGCGACAATTGGATCCGCCTCCGGTGGCTACGCCATAG	MTSANPPLLFPEIFKARRLNELTAPHGLTQADLDWLHHAALPNYTQRGEQSPAMTIETITLDVQGKPLIPLAGCLVLSAQGDHPAFLYTPYGGIAKFDSPETLEHRLDEMLATPLERDELFCLLSLSQRNELYGASFQKTRRTVYGDPLETRLASISNAQELNAQAMVHELLQVPSLAAMLDQVLQELLDNFDHKQARVSLSLIKGADVPLQQWTRNMPLSDAVLIYFHHQGWPDGYEAAFTHPSTEESPANALHWQTMVKLTARNLVRHLTDRLEAYWDAASPLNISRRQFLSRVIDDKLRSAIVIEGEKGQLTEAQSSELHRLFRPSRHDERLMFIETIRLWEHETHSVELAGSLMISANGHYLYTPGKGIQQVDHHLGFRDTLLGPPTAAPQMDALYRLLSLEERNRLLRFDAPQVSGKEVSLPVAESLGQAIIAKQLDNIHFALEMSRQGEVDIHALLDKALDIRTLIDNGLLDQKVDGHWGARAAFYGNLRPSNFIADVLHRKLKTYDSVQKAFDSEFTELPHSSESELLDSELRKLLPKLCSTFSLGIREEAELRQLNGTLSTDAHKLINSVFAFDANYPDREQRPSVKGFRPDVYSLKLTCTTEGATTAVSPASCFLLTERGGLDTPFSGMAILWLPTCGLKVFPSVALASQQLNQYLSNARSRFDVLTNLTPAQRNPHARYQLEAFELIEGNVLMNRMTSFSEHFAAEHAYLRALQIGDWRLTEPAMLESLKALLDKGAATNLPVAERIAHAYRFQQKLPAWLGAASLEDQRQHIELLEQYRNSVTEDKDYLDGIEPLRNYVDRTLKALLETRFPDTGLDPATLLISPHLALAGPASSLTDFALNHLDSRQRPGFTISSMLSQKLPNHLNEAALRQMLLSLGTSTRYRAHVLDKLSDSAEGIEQRKSRFYQQLPWQLLQHAHARYLQQNLSPFAFSLISQVFDMPDSIARLEADGAEAIIRPMELIKTQGAEAVKATGLYLIGSSVDAKAPHILYSPYHEGNVFTEFENETKVIAAVNAPGVLQDMLIHRLPESQQATFRNLFASTAGKLSEITLASNPIANLLGTLFNDNTSLLAGMLKTHTDGTRQFDWQTVVHLFSTGIKALGRELPGKLALIETLKDAYEDFKASSEDFQQGNWGAGLHDFICGAAEMVSLGWLNRDDTFGLLDPVGPAALPRPAVKASHWQHLTSAARTDLQPFEALKVSLADLKKHPFDGTYEALASGKHYAPVFGKVFQVAKAAHDWRITHGHAEGPVLKRSSESGQWLIDPDSRHIRYGKVMSTLTDMHSDFNAKEVINIEARGMKQIRRMSPSRANMIEQALETARHYSRNALQNLEQVKGGMPAGSRLDTFLTTFLGVRVIDARLVEKIHTAIAPICQTLADPLWLHKNGSRIVIGIAKSANYDASAFVFEAGKGGRIYLTQEFFAMVPHWYNSAVPDTFNVDAHAQGSTFIHELSHLLCDTLDIVYLGAYLPFHDLISTVTQLAQKKADEQKDLQLNGFSWTTPRARLFTDWDRATHSFKSLDLLPKHKDTVRKILQITSSANLEQARDAFLDLNSADRRIDVMFKNADSIALLICELGRQLDPPPVATP				NA	NA	NA	NA	NA
D1-35_03518	1002			hypothetical protein	ATGACCGAACGAATACTCTCGGAAGCCGAATACGACGCCATCAGCGATGCGGCCGCGCATTGGTGCATGCGTTTGCACGCTGATGACTGCACCGATGCCGACCGATTGGCGTTCAAGCAATGGCATGACGCCGACCCTCTGCACGCTTTCGAATACCAGGCCATGCTGGAAATCTGGGGCGTGGCCGAGCATCTGCCGCGTGTCGAATCCGCGCCGACCCTGCCAGCCCGGCGGCCACGGCCGCGCTGGAGCCGTCTGGCTGTCGCCGCCGCGGTGATCGCGCTGGGCTTGCCCTTGGCCGCGATTACCGGTTGGAACATGGGGTGGCTACCTGACTCGTACCAGCGCCTGGAAGCCGGCGCGAGCGTACGTCATGTCACGCTGGGCGATGGCAGCCAGGTGGAGCTCAACCTTGGCAGCGAACTGGTGTTCGCCAACTACAAGCATGAGCGTCGGGTCACGCTGAAAAAAGGCGAGGCGTTCTTCGATGTCAGTCACGACACCCGGCATCCTTTCGTCGTTCGGGCGGGCCAGGGCCAGGTGCGTGTGACAGGCACCCGTTTCAACGTGTGGATGTATCAGGACCAGGTTCGGGTCACATTGGTGGAAGGCTCGGTATGGGTGACCAGCAACATGAACGCCACTGCGGGCGGCTCGCAACTGTCACCGGGAATGCAGGCAAGCTACAAGGCGGGCGACTACCAGCCGCAGGTACGCGAGATCGAACCCGGCGACAGCTCCCTGGCCTGGCGCAACGGCAAGCTGGTGCTGAATGACCTGGCCCTTTCCGACGCACTGCCATTGATCAATCGCTACCTCGAACGTCCCGTCATGCTGGCCGACCATGCTACCGGCACCCTGCGTGTCGGCGGCATCTACAACCTCAACGAAGTGAAGAACCTCGTGCCCTCGCTGCCCAAGGTCCTGCCGATCTATCTGACCCAGAACCAGGACGGCAACCTGGTCCTCAATTCCATCGGTCATCATCCGGCCAAACATTAA	MTERILSEAEYDAISDAAAHWCMRLHADDCTDADRLAFKQWHDADPLHAFEYQAMLEIWGVAEHLPRVESAPTLPARRPRPRWSRLAVAAAVIALGLPLAAITGWNMGWLPDSYQRLEAGASVRHVTLGDGSQVELNLGSELVFANYKHERRVTLKKGEAFFDVSHDTRHPFVVRAGQGQVRVTGTRFNVWMYQDQVRVTLVEGSVWVTSNMNATAGGSQLSPGMQASYKAGDYQPQVREIEPGDSSLAWRNGKLVLNDLALSDALPLINRYLERPVMLADHATGTLRVGGIYNLNEVKNLVPSLPKVLPIYLTQNQDGNLVLNSIGHHPAKH	PGPT0003910_3179	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003910-prhR|fecR-K07165	NA	NA
D1-35_03519	2355	pvdQ	COG2366	Acyl-homoserine lactone acylase PvdQ	GTGAGAATGTCCGGGCAGTTATCGAGGTTTTGCCTTGCGGGTGCGTTGCTGGGGATGGCCCTGGGTGTCAGTACCGTTGTCAGCGCGCGAGGAGAGGTGGAGCAGGCCACCGCCGAGATTCGCCGCACCAGTTTTGGCGTGCCGCACATACGCGCCCAGGATGAGCGTGGATTGGGCTACGGCATCGGGTACGCGTATGCGCAGGATAATCTTTGCCTGCTGGCCAATGAGATCGTGACGGTCAACGGCCAGCGCTCGCGTTACTTCGGCCCCGAACAGGTCACCCTGGAGCAGCGGTCCAACCGGGCCAGCGACCTGTTCTTCAGCTGGCTCAACACGCCTCAGGCCGTATCCGGTTTCTGGCAGGCCCAGACGCCCCAGGTGCAGCAACTGGTCGAAGGCTACGTGGCCGGTTACAACCGCGCACTGGCCGAGCGCAAGGCACAGGGCTTGCCCGCACAGTGCGCCAGCGAATGGGTGCGGCCAATCACGGCGCTGGACCTGGTCAAGCTGACCCGGCGCCTGTTGGTGGAAGGTGGCGTCGGCCAGTTCGCCGAGGCCGTGGCGGGCGCGCAGCCGCCCAAGGCGACCACACAGGCCGACACCTCGATGTCCGGCTTCGAGGTCGCCGCGACCCGCCAGCAGCGCTTCGCCCTCGACCGCGGCAGCAACGCCGTGGCAATCGGCAGCGAACGTTCGTTCAACGGTCGCGGCATGTTACTCGCCAATCCCCATTTCCCCTGGGTGGGCGGCATGCGCTTTTATCAGATGCACCTGACCATTCCCGGCAAGCTGGATGTCATGGGCGCCGCGTTGCCCGGCTTGCCGATGATCAATATCGGTTTCAGCCAGCACCTGGCCTGGACCCATACCGTCGACACCTCCAAGCATTTCACCCTGTACCGCTTGCAGCTCGACCCGAAGGACCCGACCCGCTATCTGCTGGACGGCAAGTCAGTGCCGATGAGCCAACAGGTGGTCACGGTGGACGTCAAGCAGGCCGGCGGGCAGGTCAAGCCGGTTTCGCGGGTGGTGTACGGCTCGCAATTCGGGCCGGTTGTGCAATGGCCTGGCAAGCTGGACTGGGACAACCGCTTCGCCTACAGCCTGCGGGACGCGAACCTGGAGAACGATCGCGTGCTGGCGCAGTGGTACGCCATGAATCAGGCCGTCACGCTCAAGGATCTGCAGGCGTCGGTCCAGCGGATCCACGGAATTCCCTGGGTCAATACTCTGGCGGTGGACGACCAGGGACAAAGTCTCTACATGAACGTTTCGGTGGTGCCCAACGTTGACGCGGCCAAGCTGGCGCGGTGCAGTGATCCGAGGGCCGGGCTGAAACTGATCGTGCTGGATGGCTCGCGCAGCGAATGCAACTGGAGCGTGGACCCCAAGGCCGCGCAAAAGGGCATCTATGCCGCCGACAAACTGCCGCAGTTGTCGCGTCGTGATTACGTGCAGAACTCCAACGATTCGGCCTGGATGGTCAATCCCGCTCAGCCCTTGTCCGGTTATTCGCCACTGATCAGCCAGCAGGACCAACCGCTGGGGTTGCGCGCACGTTTCGCGCTGGATCGACTGGGCCAGTTTGGCAAAGACGGGCCGGTGCAAGTGGATGAGTTGCAGCGCATGGTCATGGACGACCAGGTTTACCTGGCGGAACAGTTGATGCCGGACCTGCTGGCCTTCTGCGCCGGGGACCTGAAGGCTGATGCCGCCGCTCTGACTGAAGTATGCACCCGCCTGAAGGCCTGGGATCGCACGGCGAGCCTGGACAGCGGCGTCGGCTTCGTGCATTTCCAGCAGATCATGAAAACGCTGCAAGCCGTGCCTGATACCTGGCGCGTCGCGTTCGATCCGAACGATCCGCAACACACTCCGCGGGGCCTGGCAATCGAGCGGCCTGCGGTGGCCGAGGCGCTGCGCCAGGCCATGCTGGCTTCACGGGAGTCGGTGAAATCGGCGGGGCTGTCAGCGGACAGCCGCTGGCGGGACGTCCAGGTTGCCAGCCAGGGCGGTCGGCAGACGCCGATCCACGGCGGCCCGGCGGAGCTGGGAATCTATAACGCGATCCAGAGTGTGCCGGGGGCGAACGGCAAGCGGGAAGTGGTCAGCGGCACCAGCTATCTGCAAGTGGTGACATTCGATGGCAGCGGCCCGCAGGCCCAGGGACTGCTGGCGTTTTCCATTTCCAGTGACCCGGCCTCGCCTTACTCGGCGGACCAGACCCAGGCATTCTCGAAGCGGCAGTGGAGCACGCTGCCCTTTACCGAGCAGCAGATCAAGGCCGATCCGAACTACCAGGCCAAGGTCATCCGCGAGCGTGATGAGGCGGGCAGGGTCGCGACGCAGTAA	MRMSGQLSRFCLAGALLGMALGVSTVVSARGEVEQATAEIRRTSFGVPHIRAQDERGLGYGIGYAYAQDNLCLLANEIVTVNGQRSRYFGPEQVTLEQRSNRASDLFFSWLNTPQAVSGFWQAQTPQVQQLVEGYVAGYNRALAERKAQGLPAQCASEWVRPITALDLVKLTRRLLVEGGVGQFAEAVAGAQPPKATTQADTSMSGFEVAATRQQRFALDRGSNAVAIGSERSFNGRGMLLANPHFPWVGGMRFYQMHLTIPGKLDVMGAALPGLPMINIGFSQHLAWTHTVDTSKHFTLYRLQLDPKDPTRYLLDGKSVPMSQQVVTVDVKQAGGQVKPVSRVVYGSQFGPVVQWPGKLDWDNRFAYSLRDANLENDRVLAQWYAMNQAVTLKDLQASVQRIHGIPWVNTLAVDDQGQSLYMNVSVVPNVDAAKLARCSDPRAGLKLIVLDGSRSECNWSVDPKAAQKGIYAADKLPQLSRRDYVQNSNDSAWMVNPAQPLSGYSPLISQQDQPLGLRARFALDRLGQFGKDGPVQVDELQRMVMDDQVYLAEQLMPDLLAFCAGDLKADAAALTEVCTRLKAWDRTASLDSGVGFVHFQQIMKTLQAVPDTWRVAFDPNDPQHTPRGLAIERPAVAEALRQAMLASRESVKSAGLSADSRWRDVQVASQGGRQTPIHGGPAELGIYNAIQSVPGANGKREVVSGTSYLQVVTFDGSGPQAQGLLAFSISSDPASPYSADQTQAFSKRQWSTLPFTEQQIKADPNYQAKVIRERDEAGRVATQ	PGPT0003395_398	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_QUENCHING	CE-QUORUM_QUENCHING-AHL-DEGRADATION,PGPT0003395-pvdQ-K07116	NA	NA
D1-35_03520	381			hypothetical protein	ATGCATAACGCACCGATGCCCATGGAGGGCAAGCCAGGATCGGCACGTGTGTCAATGAGCACCACCAATAACGTTTTCGCCAAGCCAACGGAACGCGGCGGCAATGAACACATCAGGCGTCTGCTCAAGAGTTACGGGCTGCGAACGAGCCTGATCCGCCTCAAGGTGATCGATGCGCTGCTCAAGGCCGCCGAAGAGAATCGGCAACTGGGGGTGCGGGGCGTGCATAGCCAGTTGCTGGGGCTGGACATTCCGTTGTCCTTCCTCAGTGTACGCGAGGTGCTCAAGCGCCTGTGCAGCGAGGGGGTCGTCAGCCTCCATCCGGATAAAAGCTACAGCTTGCACCCGAGTGCGGTGGCCGTGCTCAACGCCAAGCAGTAG	MHNAPMPMEGKPGSARVSMSTTNNVFAKPTERGGNEHIRRLLKSYGLRTSLIRLKVIDALLKAAEENRQLGVRGVHSQLLGLDIPLSFLSVREVLKRLCSEGVVSLHPDKSYSLHPSAVAVLNAKQ				NA	NA	NA	NA	NA
D1-35_03521	189			hypothetical protein	ATGACTCATTCGCAACGTTTGAAATACTCGATCCTGGTGGTCCTCGTTGTCCTGGCAATCATGCTCGGGCTGTCATGGATGCAAGGTAAAGGCATGATCAGCGAGCAGCTGTTTCAATACATTGCTATTGCCGTGGCGGTCATCGTGGTGGTGATCAACGGGGTGATGAGGCGCAAGGTCAAGCCTTGA	MTHSQRLKYSILVVLVVLAIMLGLSWMQGKGMISEQLFQYIAIAVAVIVVVINGVMRRKVKP				NA	NA	NA	NA	NA
D1-35_03522	1995			hypothetical protein	ATGCCCGCATTCCGCACCATTCAAGCCCGCTATACGCTGTTCCTGGTTCTGTTCATCCTGGTGCTGTCCATCCTGACGGTGGTCGGTATCAGCTATCTGGTCGCGCCAAAGCTGCGCCAGACCGAGGAACAAGTAGCGCTGAACCGCATCGAAGAGGTCGCGGAACAGATCCAGGGCGAGCTGAACAAGGTGCAGGCGCAGCAGCGGAGCATCACCCAGACCATCCCGCTGCTCGACAGCGACGCCATCGACAAGGTATTGCCTGGCCTGGTGGATCAATACGGCGAATTGAAGGTGTTCGGCGGCGGGATCTGGCCACTGCCCAACCAGCGCGCCGAGGGTCGCAGCAAGTTCAGCACGTTCTGGCACCGCGACGCATCCGGCAAACTGGCGGTCAACACCTTCTGGAACAGCGACGCTGCGCCGAACTATTTCGAACAACCGTGGCACAAGGGCGGCATGGCCACCCCTCCCGGCAAATGCGCCTGGGCCGCCGCCTACAAGGACGACGCCAGCGCCGAGCCACGGACCAACTGCGCCATGGCGATCCAGAAGAACGGCGCGCCTTACGGCGTTTCCACCATTGACGTGACCCTGGGCTTTTTCAACGATTTGATCGCGCGCAAGGAAGCGGAACTGAGCGCCGAGATGCTGATCGTCGAAGCCGACGGCAAGATCATCAGCAACAGCTCGCGTATCAGCGGGCCGATCGTGCTGAAGAACATCAGCGAGCTGGCGGCTACCTCGCCGTTCGCCGCTCAGGTCAAGGCAGGCCTGGCCAACCGTGACCAGCCGTTGCAACGGCTCGAGTTCGACAACAAGGGTGAGGCCAGCACGTTTTTCATGCGCCCCATCGAAGGCTCCCCATGGTTCCTCGCCACTGCCCTGCCGACCCGCCTGATCACCGCCCAGCGTGACGACGTGTTGAGCACGCTGAGCCTGCTGCAGATTCCGCTGGTGATCCTGTTGGTGCTGATGCAGTTGTACGCCATCCGCCAACTGACCCACCGCATGAAGGTCCTCAAAGGCAATATCGACGCGCTGTCCACTGGCGATGCCGACCTGACCCGACGCATCACCATCCGTGCCGAAGACGAACTGGGCGCCATTGGCCATTCGGTCAACCGGTTCATCGCCTATCTGCAAGACATGATCGGCGAAGTCACCCAGGCCACCGGCGCCATGGCCTCGGGCCTGGACAGCCTGCAGCGGAGTTCGGCCCATACCAGCGAAATCCTGATGCGCCACGCCTCGGAAACCGACCAGACCGTGACAGCCATCACCGAGATGAGCTCCACCGCTGAAAGCGTGGCGCAAAACGCCGCCGAAACGGCAGCGTTCACCCAGCGCGCCAATGAGCATGCCGATCGTTCGCGGGTCGTGGTCGGTGAAGCGTCCAACAGCGTCGTGGCGCTGATCGATGAGGTCGCCAGCGCCACGCGCAAAGTCGAAGACATGCAGCAGGACGCGCAACGCATCACCGAAATTCTCGGCGTGATCGGCGCCATCGCCGGGCAGACCAACCTGTTGGCCCTCAATGCCGCCATCGAAGCGGCCCGGGCCGGCGAGCAGGGCCGTGGCTTCGCGGTGGTCGCCGACGAAGTCCGCGCCCTCGCCGCCCGCACCCAGGCCAGCACCTCGGAAATCAATGAAATGCTGACCCGCCTGACCCAGGGCGTGACCTCGTCGGTCGCCGCCATGGAAAACACCCAGGCCAGTTGCCAATCGGCGGCCGACGCCACGTCCCGGGTCAACTCGGGCCTGGATGAAATGGCCGGCTCCGTCAGCCAGATCAACAGCCTGAGCACCCAGATCGCCACCGCCGCCGAACAGCAGAGCGCAGTGACCGAGGAAATCAACCGCAGCATGGTGCAGATCCGCCATATGGTCGAGGAACTGGTGGAAAGCGGCCTGGCCAGCCAGAACAACACCCGCCAGCTGCTGGAAGCCAACAGCCGGGTGAATGCGATCATGGGGCGGTTCAAGGTTCGCTAA	MPAFRTIQARYTLFLVLFILVLSILTVVGISYLVAPKLRQTEEQVALNRIEEVAEQIQGELNKVQAQQRSITQTIPLLDSDAIDKVLPGLVDQYGELKVFGGGIWPLPNQRAEGRSKFSTFWHRDASGKLAVNTFWNSDAAPNYFEQPWHKGGMATPPGKCAWAAAYKDDASAEPRTNCAMAIQKNGAPYGVSTIDVTLGFFNDLIARKEAELSAEMLIVEADGKIISNSSRISGPIVLKNISELAATSPFAAQVKAGLANRDQPLQRLEFDNKGEASTFFMRPIEGSPWFLATALPTRLITAQRDDVLSTLSLLQIPLVILLVLMQLYAIRQLTHRMKVLKGNIDALSTGDADLTRRITIRAEDELGAIGHSVNRFIAYLQDMIGEVTQATGAMASGLDSLQRSSAHTSEILMRHASETDQTVTAITEMSSTAESVAQNAAETAAFTQRANEHADRSRVVVGEASNSVVALIDEVASATRKVEDMQQDAQRITEILGVIGAIAGQTNLLALNAAIEAARAGEQGRGFAVVADEVRALAARTQASTSEINEMLTRLTQGVTSSVAAMENTQASCQSAADATSRVNSGLDEMAGSVSQINSLSTQIATAAEQQSAVTEEINRSMVQIRHMVEELVESGLASQNNTRQLLEANSRVNAIMGRFKVR	PGPT0015710_6988	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
D1-35_03523	447			hypothetical protein	ATGGCCCATCCCCTGCATCTGCTCGCCTTGAGTACCTTGCTCATTTCCGCCCTGGCCCAGGCCGCCGAACCGGCGACCATCGATGTGCACCGCGATGCCAATTGCGGTTGCTGCAAGAAGTGGATATCCCACTTGCAGGAGAACGGTTTCAAGGTCAACGACCATGTCGAGGCCGACATGAGCGCGGTCAAGCAACGCCTTGGCGTCGCGCCCAACCTGCGTTCCTGCCACACCGCCGAAATCAACGGCAAATTCGTCGAAGGCCACGTTCCGGCCGAGCAGGTGCTGGCATTGAGCATACGCGACGACCTGCTTGGCGTAGCCGCGCCCGGCATGCCGATGGGCTCGCCGGGCATGGAGATGGACGGCATGAGCGATGCCTACCAAGTGATCGGGCTGAAAAAAGACGGGACGCAAACCGTGGTGGCGGACTATCCGGCCCATTGA	MAHPLHLLALSTLLISALAQAAEPATIDVHRDANCGCCKKWISHLQENGFKVNDHVEADMSAVKQRLGVAPNLRSCHTAEINGKFVEGHVPAEQVLALSIRDDLLGVAAPGMPMGSPGMEMDGMSDAYQVIGLKKDGTQTVVADYPAH				NA	NA	NA	NA	NA
D1-35_03524	435	yqaA	COG1238	Inner membrane protein YqaA	ATGGGCGAAGCGTATATCGGGCTGTTCTTTGCAGCGTTTGGCGCGGCGACCCTGCTGCCGTTGCAATCCGAGGCGCTGCTGGTGGGCCTGCTACTCAGCGAACGTTACGCGATCTGGCTGCTGCTGGCAGCTGCAACCCTCGGCAACGTCCTCGGTTCGCTGGTGAACTGGTGGCTGGGCACACGCCTGGAACAGTTCAAGGATCGCCGCTGGTTTCCGGTCAGCCCGTCCCTTCTGGACAAGGCCCGTCGGCACTACCAGCGCTATGGCTACTGGTCGCTGTTGCTCAGTTGGCTGCCCATCATCGGCGATCCGCTGACATTGGTCGCCGGCGTGATGGGTGAGCCCTGGCGGCGCTTCCTGTTGATCGTGACGCTCGCCAAAGGCCTGCGTTATGGCGTGCTCACCTGGGCGACCCTCGGCTGGATGGGTTGA	MGEAYIGLFFAAFGAATLLPLQSEALLVGLLLSERYAIWLLLAAATLGNVLGSLVNWWLGTRLEQFKDRRWFPVSPSLLDKARRHYQRYGYWSLLLSWLPIIGDPLTLVAGVMGEPWRRFLLIVTLAKGLRYGVLTWATLGWMG				NA	NA	NA	NA	NA
D1-35_03525	1032	dhmA_2		Haloalkane dehalogenase	ATGTCGCGTTTGACCGCCCGCTGGCTGCCCAGCCTGTTCCTCACCGCTGCCTTGCCAATGCTCGCCCAGGCCGCGAACCCACCTGAAGGCCCGGCCTATGGCCCGCAGCTTGAGGGTTTCGAGTACCCCTATACGCTCAAGCATTTTGCCTTGCAGTCCCAGGGCAAATCGCTGCAGATGGGCTATATGGACGTGCCCGCCCAAGGCAAGGCCAACGGCCGGACGGTGGTGCTGATGCATGGCAAGAATTTCTGCGCCGCCACCTGGGGCGATTCGATCAAGGCGCTCAGTGACGCCGGTTACCGGGTCATCGCCCCGGACCAGATCGGTTTTTGCACGTCGAGCAAGCCGGACCATTACCAGTACAGCTTCCAGCAGTTGGCGATCAACACCCAGGCCCTGCTCAAGGCTCTCGGCGTACAGAAGGCCATCGTGCTGGGCCACTCCACCGGTGGCATGCTTGCCACCCGCTATGCCTTGCAGTTCCCCGACCAGGTCGAACGCCTGGCGATGGTCAACCCCATCGGCCTCGAGGACTGGAAAGCCCTTGGCGTGCCTTACCGCACCGTGGACCAATGGTACGAGCGCGAGCTGAAACTCAACGCCGAGGGCATTCGCAACTACGAGCGCAACACCTATTACGGCGGACGCTGGAAACCGGAGTTCGAGCGTTGGGTCGACATGCTTGCCGGCTTGAACAAGGGCCCGGGACATACACAAGTGGCGTGGAATTCGGCGCTGATCTACGACATGATCTTCACCCAGCCGGTCTATTACGAGTTCAAGGACCTGAAGGTCCCCACGCTGCTGTTGATCGGGACGTCCGACACCACCGCCATCGGCAGTGACATTGCCCCGCCGGCCGTGAAAGCCCGGCTGGGCCGTTACGAGGTGCTAGGCAAACAGGTCGCCGGACTGATCCCGCAGTCGACCCTGGTGGAATTCCCCAACCTGGGGCACGCGCCGCAAATGGAAGAGCCGGCGCGGTTCCACCAGGCGCTGCTCGGCTGGCTGGACAAACCCATTCCCTGA	MSRLTARWLPSLFLTAALPMLAQAANPPEGPAYGPQLEGFEYPYTLKHFALQSQGKSLQMGYMDVPAQGKANGRTVVLMHGKNFCAATWGDSIKALSDAGYRVIAPDQIGFCTSSKPDHYQYSFQQLAINTQALLKALGVQKAIVLGHSTGGMLATRYALQFPDQVERLAMVNPIGLEDWKALGVPYRTVDQWYERELKLNAEGIRNYERNTYYGGRWKPEFERWVDMLAGLNKGPGHTQVAWNSALIYDMIFTQPVYYEFKDLKVPTLLLIGTSDTTAIGSDIAPPAVKARLGRYEVLGKQVAGLIPQSTLVEFPNLGHAPQMEEPARFHQALLGWLDKPIP	PGPT0024360_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_LYSOPHOSPHOLIPASE_ACTIVITY,PGPT0024360-PLB-K13333	NA	NA
D1-35_03526	963	hprA	COG1052	Glycerate dehydrogenase	ATGGCGGTGCAAATAGCAGTCATCGACGATTGGCAAGACGTCGCCAGGGACGTGGTGGACTGGTCGGTGCTCGATAGCATTGGTGAAGTGACCTTCCTGCACGATTACCCCGCCGACCGCGACACCCTCGCCGAGCGCCTGCAACGCTTCGACGTCATCTGCGTGATGCGCGAGCGCACCCGCTTCGACGAAGAACTGCTGCGCCGCCTGCCCAACCTGCAGCTGTTGCTGACCGGCGGCATGCGCAACGCCGCCCTTGACCTCAAGGCTGCCACGACACTGGGCATCCAGGTCTGCGGCACCGAGAGCTACAAGCACGCTGCGCCGGAACTGACCTGGGCGCTGATCATGGCCCTGAGCCGCAATCTTGTACCGGAAGCCAACGCCCTGCGCGCTGGGCTGTGGCAACAGGGCCTGGGCGGTGATTTGCACGGCAAGACCCTGGCGATCCTGGGCCTGGGCAGCATCGGCACGCGCGTTGCGCAGTTCGGCCAGGTGTTCGGCATGCGTGTGATCGCCTGGAGCGAAAACCTGACCGCCGAGCGAGCCGCCGCAGCCGGCGTGCAATACGTGAGCAAACAAGCGCTGTTCGAGCAGGCTGATATCCTCTCGATCCATCTGGTGCTCAGCGAGCGCAGCCGGGGCCTGGTGGACGCCCAGGCCCTGGGCTGGATGAAACCCGAGGCGCTGCTGGTCAATACCGCGCGCGGGCCGATTGTCGACGAGGCGGCCCTCATTGACGCACTCCGGCACAAACGCCTGGCAGGCGCCGCGCTGGACGTATTCGCCGAGGAACCGTTGCCGCCCGAGCACCCGTTCCGAACCCTCGACAACGTGTTGGCCACACCTCACGTGGGTTATGTGAGCCGGCAGAATTATCAGCAGTTCTACGGCCAGATGATCGAGGACCTGCAGGCCTGGGCGGCTGGCAAGCCGATCCGGGTGCTGACCGCGGCTGGTTGA	MAVQIAVIDDWQDVARDVVDWSVLDSIGEVTFLHDYPADRDTLAERLQRFDVICVMRERTRFDEELLRRLPNLQLLLTGGMRNAALDLKAATTLGIQVCGTESYKHAAPELTWALIMALSRNLVPEANALRAGLWQQGLGGDLHGKTLAILGLGSIGTRVAQFGQVFGMRVIAWSENLTAERAAAAGVQYVSKQALFEQADILSIHLVLSERSRGLVDAQALGWMKPEALLVNTARGPIVDEAALIDALRHKRLAGAALDVFAEEPLPPEHPFRTLDNVLATPHVGYVSRQNYQQFYGQMIEDLQAWAAGKPIRVLTAAG	PGPT0019780_1351	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
D1-35_03527	1572	glgA	COG0297	Glycogen synthase	ATGATCAGTGCTGCCTTGGAACCACAGCAAGTCCGCTCTCAATTACCGCCGGCGGCTGAATCGCCGACGGCACCGGTGCTGGCCACCGGAGGCAAGGCACTGCTCCCTGTCGTTCGACAGAACCCCAACCGCAAGAAGATCCTGTTCGTGACCTCGGAAATCGCCGACCTGGTCAAGACCGGTGGCCTGGGCGACGTTTCTTCCGCCCTGCCCCGGGCCATGGCCGGCCTGCATGATGTCCGGGTGCTGATCCCCGGGTATCCGCAAGTCATGAACAGCGGCAATCCGATCCATATCATCGGCGAACTGGGCGGCCACGCAGCGCTGCCGCCGTGCAAGATCGGCCGCATGGACATGGCCGACGGTCTGGTGATCTACGTCCTGATCTGTCCCGAACTGTATGCCCGCGAAGGCTCGCCCTACGGCGCCAACAATGGCCGCGACTGGCCGGACAACCACATCCGCTTCGCCCGCCTGGGCCTGGCCGCAGCCGACATCGCCGCCAACCTGGCGCAGATCCACTGGTGCCCCGACCTGGTCCATGCCCACGACTGGCCGGCCGGCCTGGCCCCCGCCTATATGCACTGGCGCGGCCAACGTACCCCGACCCTGTTCACCATCCACAACCTGGCGTACCAGGGCGTGGTCAGCCTGGCTTCCTGCCCGGAGCTGGGCATCCCGGAGCACGCGCTGCAACAGGAAGGCATGGAGTTCTACGGCAAGCTGTCGTTCCTCAAGGCCGGCATGGCCTATTCCAGCCACATCACCACGGTCAGCGCTACCTACGCCCAGGAAATCACCACCCCGGCGTTCGGCTGCGGGCTTGACGGGTTCCTCGCCGCCAAAACCCAACAAGGCCTGCTCAGCGGGATCCCCAACGGCATTGACGAGAGCTGGGATTCGGCGACCGACTCACATCTCCAGCGCCAGTTCTCCATAGGGGACTGGGAAGGCAAGGCTGCCAACGCCGCCCACGTCCGTGACCTGTTCGGCCTGGACCATACCAGTGGCCCGCTGTTCGCCGTGGTATCGCGCCTGGTGTATCAGAAAGGCCTGGACCTGACCGAGGCCGTCGCCGAATTCATCGTCGAGTCCGGCGGGCAGATCGCGATCATTGGCCGCGGCGAACCGGAAGAAGAACAGGCCATGCGTGAACTGGCGCTGCGCTTCCCCGGCAAGATCGGCGTGCGCATCGGCTTCAACGAAACCGATGCCCGGCGGATGTTCGCTGGCAGCGATTTTCTGCTGATGCCATCGCGCTACGAGCCGTGCGGCTTGAGCCAGATGTACGCCCAGCGCTTCGGCTCGCTGCCGGTGGCGCGCAATACCGGCGGCCTGGCGGACACCATCGAGGATGGCATCACCGGGTTCCTGTTCGACGAATCCACCGTGGAAAGCTACAAGCAGGCCCTGAGCCGGGCTTTCAAGGTATTCGAGTTTCCCGAGCTGCTCAATGCCATGCGTTGCCGGGCGATGTCGGCCCCCTTCAATTGGTCCAAGGCCGTAGAGCCCTATGCCGAACTTTATGAACAACTGGTAGCTAAATCGCTGGGAAAATCGGCCAGACAATGA	MISAALEPQQVRSQLPPAAESPTAPVLATGGKALLPVVRQNPNRKKILFVTSEIADLVKTGGLGDVSSALPRAMAGLHDVRVLIPGYPQVMNSGNPIHIIGELGGHAALPPCKIGRMDMADGLVIYVLICPELYAREGSPYGANNGRDWPDNHIRFARLGLAAADIAANLAQIHWCPDLVHAHDWPAGLAPAYMHWRGQRTPTLFTIHNLAYQGVVSLASCPELGIPEHALQQEGMEFYGKLSFLKAGMAYSSHITTVSATYAQEITTPAFGCGLDGFLAAKTQQGLLSGIPNGIDESWDSATDSHLQRQFSIGDWEGKAANAAHVRDLFGLDHTSGPLFAVVSRLVYQKGLDLTEAVAEFIVESGGQIAIIGRGEPEEEQAMRELALRFPGKIGVRIGFNETDARRMFAGSDFLLMPSRYEPCGLSQMYAQRFGSLPVARNTGGLADTIEDGITGFLFDESTVESYKQALSRAFKVFEFPELLNAMRCRAMSAPFNWSKAVEPYAELYEQLVAKSLGKSARQ	PGPT0025880_950	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
D1-35_03528	1803	glgB_2		1,4-alpha-glucan branching enzyme GlgB	ATGCCGTCAAGGACGCCTGAAACCTGGACCCACGGCGCGGTCTTGCTCGATTCCGAGCACACCCGCTTCGCGCTATGGGCCCCGGATGCCTTTTACGTCAGTGTCGAACTCGACACTGGAGAATCCATACCGATGCTGCCCCAGGCCAACGGCTGGTTCATGATCCAGGCCCGTTGCCCCGCTGGCACTCGTTACCGCTTCAACATCGATGGCGAGCTGGAGGTGCCCGATCCAGCCTCCCGCGCCCAGGACGGTGATATCGATCGCCACAGCGTGGTGGTCGACCCCCACGCCTACCAATGGCGACACACCAACTGGTCCGGTCGCCCCTGGTACGACGCCGTCATTTACGAACTGCATGTTGGCGCCCTCGGTGGTTTCGAAGGCGTCGAGCAGCAACTGGCACGCCTGGCCGGGCTTGGCGTGACCGCCATCGAACTGATGCCCCTGGCGCAGTTTCCCGGCGATCGCAACTGGGGCTACGACGGTGTATTGCCCTACGCTCCCCAGGCCTCCTATGGCACGCCGGACCAGCTCAAGCATCTGATCGACAGCGCCCATGGCCATGGCTTGGCGGTCATTATCGACGTGGTCTATAACCACTTCGGCCCCGATGGCAACTACCTGCACCGCTACGCCAAGGGCTTCTTTCGCGAAGACAAGCACACACCCTGGGGCGCGGCGATCGACTTCCGGCGCCGCGAGGTCCGCGACTTCTTCATCGAAAACGCCCTGATGTGGTTGCTCGAATACCGTTTCGACGGCCTGCGCCTGGACGCCGTGCATGCGATCGAAGACCCGGACTTCCTCCAGGAGCTCGCCACCACGGTGCGCCAACAGGTCGACCCGACGCGCTACGTCTGGTTGACCGTCGAGAACGAACACAACCAGGCCAGCCTGCTGGAGCACGGCTACGACGCCCAGTGGAACGATGATGGGCACAATGCCTTGCACGTGCTGCTGACCGGCGAGACCGATGCCTATTACGCCGACTATGCCGAGCAGACCACGGAAAAGCTCGCGCGCTGCCTGAGCCAGGGGTTCGTGTTCCAGGGCCATACCAACCGCCACGGTGAATCCCGCGGCGAGCCCAGCGGCCACCTGCCGCCGAGCGCATTCGTATTGTTACTGCAAAACCACGACCAGATCGGCAACCGGGCCTTGGGCGAGCGCCTGCACCAGCTGGCCCCGCCACAGGCGCTGCAAGCCGCGACCGCCTTGTTGCTGCTTTCACCGATGATCCCGCTGATGTTCATGGGCGATGAAGTGGTCGCCGAACAACCGTTCCTGTTTTTCACCAGCCACCATGGCGAACTGGCGGAGTTGGTGCGCGAAGGTCGACGCAACGAGTTCAAGGCCTTTGCAGCTTTTGCCGACCCCGAGAAACGCGAGCGGATTCCCGACCCGAACGCGGCCGGCACGTTCGACGCTTCACGGCCCAACCTGGAAGCCCATCAACCGGAACAACTGGCCTGCGAAACCCTGTATCGCCAGTTATTGAAGATCCGCCGTGAGGAAATCGTCCCGCGCCTCCCCGCCGCCCATGCCCTGGGCGCGGATGTGCTGGGCCATGGCGCCGTCAGCGCGCGCTGGCAGATGGGCGACGGCAGCGTGTTGCGCATCGACCTGAACCTCAGCGACAAACCGGTCGAACACAGCGCACCGCAAGATGCGCAGATTCTTTTCGAACATCCACCGCAGGCCATGGGTCTGTTGCAACAAGGGGTGCTCACGCCCCACAGCGCGCTGGTCAGTCTGACGCAAGCGACAACCTTGCCCAATATCACTGGAGAGCGCCTATGA	MPSRTPETWTHGAVLLDSEHTRFALWAPDAFYVSVELDTGESIPMLPQANGWFMIQARCPAGTRYRFNIDGELEVPDPASRAQDGDIDRHSVVVDPHAYQWRHTNWSGRPWYDAVIYELHVGALGGFEGVEQQLARLAGLGVTAIELMPLAQFPGDRNWGYDGVLPYAPQASYGTPDQLKHLIDSAHGHGLAVIIDVVYNHFGPDGNYLHRYAKGFFREDKHTPWGAAIDFRRREVRDFFIENALMWLLEYRFDGLRLDAVHAIEDPDFLQELATTVRQQVDPTRYVWLTVENEHNQASLLEHGYDAQWNDDGHNALHVLLTGETDAYYADYAEQTTEKLARCLSQGFVFQGHTNRHGESRGEPSGHLPPSAFVLLLQNHDQIGNRALGERLHQLAPPQALQAATALLLLSPMIPLMFMGDEVVAEQPFLFFTSHHGELAELVREGRRNEFKAFAAFADPEKRERIPDPNAAGTFDASRPNLEAHQPEQLACETLYRQLLKIRREEIVPRLPAAHALGADVLGHGAVSARWQMGDGSVLRIDLNLSDKPVEHSAPQDAQILFEHPPQAMGLLQQGVLTPHSALVSLTQATTLPNITGERL	PGPT0014130_572	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0014130-treZ|glgZ-K01236	NA	NA
D1-35_03529	2079	malQ	COG1640	4-alpha-glucanotransferase	ATGAGCGATGCGCAACTGGAAATCCTCGCTGGCCGAGCGGGCCTGGCGGTGGACTGGATCGATGCCAATGGCCGTGCCCAGAAAGTTACACCCGCGGTGTTGCGCTCGGTCCTCACCGGCCTGGGGCATCCCGCCGGCACTGCCCAGGAAATCGACGCCAGCCTGTTGCAGTTGCAGGAAGACCAACAGAACCACCGCCTGCCGCCGCTGCTTACCGCAAACGCAGGCGTGAATGTCGACCTGAGCCGCTATTTCGAACCCGCGACCCCGTGCGAGATCCAGCTTGAAGATGGCGCGACGCTGAATCTGAAACTTGACGCCGACGCGACGCTGCCGGGGATCGTCCCGGTGGGCTATCAGCAGGTCAGCATCCAGGGCCAGCATTTCACCCTGGCGGTGGCGCCCACCCGTTGCTACAGCGTGGCGGATGCGGTGGACGACCCGACCCCCAGGGTCTGGGGCCTGAGCGCGCAACTTTATTCCCTGCGCCGCCCCGGCGATGGCGGCTTCGGCGACACCCAGGCCCTGGAAGAACTGGCCCGGGTGGCCGGCGAACGTGGTGCCGACGCCCTGGCCATCAGCCCGATGCATGCGATGTTCAGCAGCGATACCGGGCGCTACAGCCCATATTCGCCCTCCAGCCGGCTTTTTCTCAACAGCCTGTACGCCGCACCAGGCACCATCCTTGGCGAGCGTGCGTTGCGCACGGCCATCGACGCCACCGGCTTGACCAACCAGTTGCGCAGCCTCGAAGAGCAGCCGCTGATCGACTGGCCGGTGGCTGCCGAAGCCAAGCAGCGAGTTCTTCGCGCGCTGTACGACGGCTTCAGCCAGGGCGAACATCCGCTGCATGAGGATTTCAGCAGTTTCCGCCACAGCAGCGGCGAGGCCCTGGAAAACCATTGCCGCTTCGAAGCCCTCCAGGCCGATCGCGCCGCTCGGGGCGAAAGCCTCGACTGGCGCCAGTGGCCGAAAGAATGGCGCGATCCGCGCAGCGCCGCGCTGGCCCGTTTCGCCGAAGAGAACGCAGATGAAATCGGCTTCTACGCCTTCTGCCAATGGTTGATTGCCCGCTGCCTGGAGCGCGCCCAGAGCGCGGCGAAGTCCAGTGGCATGGGCATCGGCCTGATCGCCGATCTCGCCGTGGGCGCTGACGGCGCCGGCAGTCAGGCCTGGAGCCGCCAGGATGAATTGCTCGCCTCGCTCACCGTCGGCGCACCGCCGGACATTCTCAACCGCTCCGGACAGGGCTGGGGTATCTCGGCGTTCTCGCCAGAGGGGCTGGTACGCAACGGTTTCCGCGCGTTCATAGAAATGTTGCGGGCTAATTTCGCCCACGCCGGCGGCTTGCGCATTGACCACATCATGGGTCTGCAACGATTGTGGGTGATCCCCAACGACGCCCCGCCCACCGATGGCGCCTACCTCTATTACCCGATCGATGATCTGCTGCGGCTGCTGGCCCTGGAATCCCATCGCCACCGGGCCATCGTGCTCGGCGAGGACCTTGGCACCGTGCCCGAAGGCCTGCGGGAAAAACTCGCGGCCCGCGCCATCCTCGGCATGCGTGTGCTGTTGTTCGAACAGGACAATACCCACTTCAAGCCGATCCTCGATTGGCCGGATGACGCCCTGGCCACCACCAGTACCCATGACCTGCCAACCCTGAACGGTTGGTGGCACGGTCACGACATCGACTGGAACGCCCGGCTGGACCTGATCGACTCCCACACCGAGATGGACTGGCGCCGGCACCGCCAACGCGAGCGTGACGGGTTACGCAATGCATTGAACCAGGACCCGCAGAATTTTCGCGAAGAACACCGCGAAACCGACCAGGTGCTGGACGCCAGCGTGCGCTTCCTCGGCCATACCCGCGCGCCGCTGGTGCTGTTGCCCCTGGAAGATGCCCTGGGTATCGACGAACAGGCCAACCTGCCCGGCACCACCGACACCCACCCCAACTGGCGGCGGCGCCTGGCTTTGGAAAGCCGCGCGCTGCTGGATGACCCGGACGCCGCACGGCGTCTGGAAATACTCGCCTGCGCGAGACTTCAGGCGAACGAGCGTGACCGATGA	MSDAQLEILAGRAGLAVDWIDANGRAQKVTPAVLRSVLTGLGHPAGTAQEIDASLLQLQEDQQNHRLPPLLTANAGVNVDLSRYFEPATPCEIQLEDGATLNLKLDADATLPGIVPVGYQQVSIQGQHFTLAVAPTRCYSVADAVDDPTPRVWGLSAQLYSLRRPGDGGFGDTQALEELARVAGERGADALAISPMHAMFSSDTGRYSPYSPSSRLFLNSLYAAPGTILGERALRTAIDATGLTNQLRSLEEQPLIDWPVAAEAKQRVLRALYDGFSQGEHPLHEDFSSFRHSSGEALENHCRFEALQADRAARGESLDWRQWPKEWRDPRSAALARFAEENADEIGFYAFCQWLIARCLERAQSAAKSSGMGIGLIADLAVGADGAGSQAWSRQDELLASLTVGAPPDILNRSGQGWGISAFSPEGLVRNGFRAFIEMLRANFAHAGGLRIDHIMGLQRLWVIPNDAPPTDGAYLYYPIDDLLRLLALESHRHRAIVLGEDLGTVPEGLREKLAARAILGMRVLLFEQDNTHFKPILDWPDDALATTSTHDLPTLNGWWHGHDIDWNARLDLIDSHTEMDWRRHRQRERDGLRNALNQDPQNFREEHRETDQVLDASVRFLGHTRAPLVLLPLEDALGIDEQANLPGTTDTHPNWRRRLALESRALLDDPDAARRLEILACARLQANERDR	PGPT0018570_1482	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018570-malQ-K00705	NA	NA
D1-35_03530	2787	treY		Maltooligosyl trehalose synthase	ATGAACCAGACACTGACCCAACCGCTGCAGGCCACCTTGCGCCTGCAATTTCATAAAGGCTTCACCCTCGACGATGCGGTAGCGCAAGTGCCCTATTTCGCAGCGCTGGGCATCAGCCACATCTATGCGTCTCCCCTGCTCAAGGCACGGGCCGGGTCCATGCACGGCTACGACGTGGTCGACCCGACCCAGGTCAACCCGGAGCTGGGCGGAGAGGCTGCGCTCAAGCGCCTGGTCGCCACCTTGCGCGAGCACCGGATGGGCCTGATTCTCGACATCGTGTCCAACCACATGGCCGTTGGCGGCAACGACAACCCCTGGTGGCTGGACCTGCTGGAGTGGGGACGCTTGAGCCCTTATGGCGAATTCTTCGACATCCAGTGGCATTCCCCCGACCCGCTGATGGAAGGCCAGTTGCTGCTGCCATTCCTGGGCAGCGACTACGGTGTGGCGTTGCAGGAAGGCACCTTGAAACTGCGTTTTGATTCCGCGCAAGGCAGCTTCCATGTCGAGCATTACGAGCACCGCTTCCCCATCTGCCCGATGCAATACGGTGAGCTGCTCAAGCCTGCGGACGCTCTGGAGCCCGAGCAGATCGACGCGCTCAAGGCGCTGGCCGAGCGTTTCACCACGCTGAACTACCAGACCGACGCCCACTCCCTCGCCCGCCCGCTCCAGCAAGAGCTGCGCGATCTGGCCACGCAAACGAGCATCCTCAGCGCCATTGAGGACACCCTGCGCGGCTACGATTCCACCGAGCCCGCGGGTTTCGAGCGCCTGCACCAACTGCTCGAGCGCCAGAGCTACCGGCTCGCCAGCTGGCGCACGGCGGCGGACGATATCAACTGGCGACGCTTCTTTGATGTCAACGAACTGGGCGGCCTGCGGGTCGAGCGGCCGGCGGTGTTCGAGGCGACCCACGCCAAGATCTTCGAGCTGATCGCCTCGGGGCTGGTGGACGGCCTGCGGATCGACCACATCGACGGCCTGGCCGATCCTCGCGGTTACTGCCGCAAGCTGCGCCGTCGCGTCGACTCGCTCTCGCCCTCGCGGCACCTGCCGATTTTTGTCGAGAAAATCCTCGGCGACGGCGAAACCCTGCGCCGCGACTGGAACATCGATGGCAGCACCGGTTACGAGTTCATGAACCAGATTTCGCTGTTGCAACACGACCCGGCCGGCGCCGAGCCCCTCGCCGAGTTCTGGAGCCGGCACAGCGAGCGCCCGGCGCACTTCATCGAAGAGGCCCGCCTGGCCCGCCAGCAGATTCTCAACGGCTCTCTTGCCGGAGATTTCGAAAGCGTCGCACAGGCCCTGTTGCAAGTCGCCCGGGACGACGTGATGACCCGCGATCTGACCTTGGGCGCGATTCGTCGGGCGTTGCAGGAGTTGATCGTGCATTTCCCGGTGTATCGCACGTACATCAACCCGCTGGGACGCTCCGCCGAGGACGAGGTGTTTTTCCAGAAAGCCCTGGAAGGCGCCCGGCAAACCCTGAGCGAAGCCGATTGGCCGGTGCTCGACTGCCTGGCCGACTGGCTCGGTGGCATGCCATGGCGCAAGCGGCCTCGCGGCAGTGAGCGCAAACGCCTGCGCCACGCCTGCGTGCGCTTCCAGCAACTGACCTCGCCGGCAGCGGCCAAGGCTGTCGAGGACACCGCACTGTATCGCTCGGCGGTACTGCTTTCGCGCAATGACGTGGGCTACAACACCGAGCGCTTCAGTGCCCCGGCCGAGGAATTCCATGAAGCGTGCCGGGAACGGCTCGAACACTTTCCCGACAACCTCGTCACCACCGCGACCCACGACCACAAGCGCGGCGAAGACACCCGAGCCCGGCTGGCAGTGATCAGCGAACGCCCGGACTGGTACACTGCGTGCGTGGAGCAATGGCGCATCCTCTCGCCGTCGCTGCACAGCGACCCAGCAGCCCCATCGGCCGGTGATGAACTGATCCTTTACCAGGCCCTGCTCGGCAGCTGGCCGCTGGACCTCGACCTGCAGGACCCCAAAGCCTTGGCCGAATACAGCGAACGCCTGTGGCAATGGCAACGCAAGGCCCTGCGCGAAGCCAAGCTGCAAAGCAGCTGGGCGGCGGTCAACGATGCCTATGAGCAAGCCACCCAGATGTTCCTTGAGCGGTTGCTGCTGTGCGACGAGGGCCTGCCGTTGCGCAGCGCCATCGCCGAGGCGGTCCAGGCCATCGCTCCGGCGGGCGCCCTCAACAGTCTGGCGCAAACCTTGCTGCGCATGACCGTACCCGGCGTCCCGGACCTCTACCAGGGCAACGAATTCTGGGATTTCAGTCTGGTGGATCCGGATAACCGTCGCCCGGTGGATTTTAATGCTCGCCGTGAGGCGGTACAGGGCGACAGCTCACCGGCGACGCTGGTACGCGACTGGCGCGACGGTCGGGTCAAGCAGGCACTGATAGCGCGGACGCTGGCCTTGCGCGCCGAATACCCGCAGCTGTTTCGCCAAGGCAGCTATCAACCGCTGCCGGTGCTTGGCGAACACGCCGGGCGGGTGCTGGCGTTCATGCGCGAATACCAGCAGCAGCGGGCGATCGTGGTGGTCCCGGTGCACGCCGCCCGCCTGCTGGAAAACGGTGCCTTGCCCCACGTGGCTGCATCGGACTGGGGCGATACCCGGGTGTCGTTACCGTTCGCCGCCGAGGATGGAAAACTGAAGGGACTTTTTGCAAGCGCAGCAGTCACACCCCAAAGGGAGCTGATGGTCAGCGCCGCGCTGGGGGATTTCCCGGTCAATGTCTTTATTGAATCTTGA	MNQTLTQPLQATLRLQFHKGFTLDDAVAQVPYFAALGISHIYASPLLKARAGSMHGYDVVDPTQVNPELGGEAALKRLVATLREHRMGLILDIVSNHMAVGGNDNPWWLDLLEWGRLSPYGEFFDIQWHSPDPLMEGQLLLPFLGSDYGVALQEGTLKLRFDSAQGSFHVEHYEHRFPICPMQYGELLKPADALEPEQIDALKALAERFTTLNYQTDAHSLARPLQQELRDLATQTSILSAIEDTLRGYDSTEPAGFERLHQLLERQSYRLASWRTAADDINWRRFFDVNELGGLRVERPAVFEATHAKIFELIASGLVDGLRIDHIDGLADPRGYCRKLRRRVDSLSPSRHLPIFVEKILGDGETLRRDWNIDGSTGYEFMNQISLLQHDPAGAEPLAEFWSRHSERPAHFIEEARLARQQILNGSLAGDFESVAQALLQVARDDVMTRDLTLGAIRRALQELIVHFPVYRTYINPLGRSAEDEVFFQKALEGARQTLSEADWPVLDCLADWLGGMPWRKRPRGSERKRLRHACVRFQQLTSPAAAKAVEDTALYRSAVLLSRNDVGYNTERFSAPAEEFHEACRERLEHFPDNLVTTATHDHKRGEDTRARLAVISERPDWYTACVEQWRILSPSLHSDPAAPSAGDELILYQALLGSWPLDLDLQDPKALAEYSERLWQWQRKALREAKLQSSWAAVNDAYEQATQMFLERLLLCDEGLPLRSAIAEAVQAIAPAGALNSLAQTLLRMTVPGVPDLYQGNEFWDFSLVDPDNRRPVDFNARREAVQGDSSPATLVRDWRDGRVKQALIARTLALRAEYPQLFRQGSYQPLPVLGEHAGRVLAFMREYQQQRAIVVVPVHAARLLENGALPHVAASDWGDTRVSLPFAAEDGKLKGLFASAAVTPQRELMVSAALGDFPVNVFIES	PGPT0014125_414	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014125-treY|glgY-K06044	NA	NA
D1-35_03531	354			hypothetical protein	ATGAGTACCGACGATAAACGCATTCGTGAATTTGCCTATCAGATCTGGGAGTCCGAGGGTAAGCCCGCCGGGCAGGAAAAACGTCACTGGGAAATGGCGCGCAAACTGGCTGAAGCCGAGGCACTGGCGCCTAGCAAGCCGCCGAAAGCAGCGAGCAAGACCGCCGCCAGCAAGACCGACGGCACCAAGCCGGCACCCGCCAAGAGCGCTGCGACCAAGACCGCTGCGAAGAACACCACACCCAAGGCCAAGCCTGCGGCCAAACCCTCCGCGGCGACTGCCGCAGTGGTCCCGCCCGCCGACAAGGCGGCCGCGAAGAAGCCACGAGCGGTGCGCAAACCACCGGCGGTCTGA	MSTDDKRIREFAYQIWESEGKPAGQEKRHWEMARKLAEAEALAPSKPPKAASKTAASKTDGTKPAPAKSAATKTAAKNTTPKAKPAAKPSAATAAVVPPADKAAAKKPRAVRKPPAV				NA	NA	NA	NA	NA
D1-35_03532	2160	glgX	COG1523	Glycogen operon protein GlgX	ATGACCCGTCCAAAAAACACCACGCCGCCGCCGGTTATCGAGGCCTCGCGGATTCGTGAAGGGCTGCCGTTTCCGCTTGGCGCGACCTGGGATGGCCTGGGGGTCAATTTTGCGTTGTTCTCAGCCAACGCCACCAAGGTCGAACTGTGTATTTTTGATGACACCGGCGAAGTCGAACTCGAACGCATCGAGTTGCCGGAGTACACCGACGAGATTTACCACGGCTATCTGCCCGATGCCCATCCGGGGCTGATCTACGGCTATCGTGTCTATGGCCCTTACGATCCGGAGAATGGCCACCGCTTCAACCCCAACAAGCTGCTCATCGATCCCTACGCGAAACAGCTGGTGGGAGAACTGAAATGGTCCGAGGCCTTGTTCGGCTACACCATCGGTCACCCCGACGGCGACCTCAGTTTCGATGAACGCGACAGCGCCCCTTTTGTGCCCAAGTGCAAGGTCATCGACCCGGCCCACACCTGGGGCAACGACCATCGCGTCAGCGTGCCGTGGGACAAGACCATCCTCTACGAGACCCATGTGCGCGGCATCACCATGCGCCATCCCGCGGTGCCTGAGAACCTGCGTGGCACCTTCGGCGGCCTGATGGTCGACGATGTACTCGAACATATCCGCAAGCTGGGCGTGTCTTCGGTCGAACTGATGCCCATCCATGCCTTTGTCAACGACCAGCACCTGCTGCACAAAGGCATGACCAATTACTGGGGCTACAACAGCATCGCCTTTTTCGCCCCTGACCCGCGTTACCTGGCCAGCGGCAAGATCGCCGAGTTCAAGGAAATGGTCGCGCACATGCACGAGGCCAATCTTGAAGTGATTCTCGACGTGGTCTACAACCACACCGCCGAGGGCAACGAACAGGGCCCGACCCTGTCCATGCGCGGGATCGACAATGCCTCGTACTACCGGCTCATGCCCGACGACAAGCGCTATTACATCAACGACTCGGGCACCGGCAACACCCTCGACCTGAGCCACCCGTGTGTGCTGCAGATGGTAACCGACTCCCTGCGCTACTGGGCCACGGAAATGCACGTCGATGGCTTCCGCTTCGACCTGGCGACGATCCTGGGTCGCTACCATGACGGTTTCGATGAACGCCACAGCTTCCTCGTCGCCTGTCGCCAGGATCCGGTGCTGCGCCAGGTGAAACTGATCGCCGAACCTTGGGATTGCGGGCCTGGAGGTTACCAGGTCGGAGGGTTCCCACCGGGCTGGGTCGAATGGAACGACAAGTTCCGCGATACCGTGCGCGCCTTCTGGAAAGGCGACGACGGCCAACTCGCCGACTTCGCCAGCCGCATGACCGCTTCGGGCGAAATGTTCAACCAGCGCGGTCGCCGCCCTTATGCCTCGGTGAACTTCGTCACCGCCCACGACGGTTTTACCTTGCACGACCTGGTGTCGTACAACGACAAACACAACGAAGCCAACGACGAAAACAACCAGGACGGCAGCAACAACAACCTGTCCTGGAACCATGGCGTCGAAGGTCCGACGGATGATCCCGAGATCAACGCGCTGCGCCACCGGCAGATGCGTAACTTCTTCGCAACGCTGTTGCTCGCCCAAGGCACGCCGATGATCGTCGCGGGCGACGAGTTCGCCCGCACCCAGCATGGCAACAACAATGCCTACTGCCAGGACAGCGAGATCGGCTGGGTCAACTGGGACCTGAGCGAGGATGGCGCGGCGCTGCTCAAGTTCGTCAAGCGTCTGATCAAGCTGCGTCTGACTTATCCGATCCTGCGGCGCGGACGCTTCCTGGTGGGCAATTACAACGAGGACATCGGCGTCAAGGATGTCACCTGGTTGGCCCCGGATGGCAACGAGATGACCATTGAACACTGGCAGGACGGCCAGAACCGCTGCCTGGGCATGCTGATGGACGGGCGCGCCCAGGAAACCGGTATCCGCCGCAAGGGGGCCGACGCAACCTTGTTGCTGGTCGTCAACGCACACCATGACATCGTCAACTTCCGCTTGCCGGAAGTGCCGGAAGGCAGTTTCTGGACGTGCATGGTGGACACCAACCAGCCGACGGTGCGCGGTCAGGAGCGCTTCGATTTTGATGCCGAATACTCCGTGACCGGCCGCTCGTTGCTGTTGTTCGAGCTGCAACGCGACGAAGAGGAATAA	MTRPKNTTPPPVIEASRIREGLPFPLGATWDGLGVNFALFSANATKVELCIFDDTGEVELERIELPEYTDEIYHGYLPDAHPGLIYGYRVYGPYDPENGHRFNPNKLLIDPYAKQLVGELKWSEALFGYTIGHPDGDLSFDERDSAPFVPKCKVIDPAHTWGNDHRVSVPWDKTILYETHVRGITMRHPAVPENLRGTFGGLMVDDVLEHIRKLGVSSVELMPIHAFVNDQHLLHKGMTNYWGYNSIAFFAPDPRYLASGKIAEFKEMVAHMHEANLEVILDVVYNHTAEGNEQGPTLSMRGIDNASYYRLMPDDKRYYINDSGTGNTLDLSHPCVLQMVTDSLRYWATEMHVDGFRFDLATILGRYHDGFDERHSFLVACRQDPVLRQVKLIAEPWDCGPGGYQVGGFPPGWVEWNDKFRDTVRAFWKGDDGQLADFASRMTASGEMFNQRGRRPYASVNFVTAHDGFTLHDLVSYNDKHNEANDENNQDGSNNNLSWNHGVEGPTDDPEINALRHRQMRNFFATLLLAQGTPMIVAGDEFARTQHGNNNAYCQDSEIGWVNWDLSEDGAALLKFVKRLIKLRLTYPILRRGRFLVGNYNEDIGVKDVTWLAPDGNEMTIEHWQDGQNRCLGMLMDGRAQETGIRRKGADATLLLVVNAHHDIVNFRLPEVPEGSFWTCMVDTNQPTVRGQERFDFDAEYSVTGRSLLLFELQRDEEE	PGPT0019225_1349	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ISOAMYLASE,PGPT0019225-ISA|treX-K01214	NA	NA
D1-35_03533	765			hypothetical protein	ATGAAACCCGCCTCCCGCTTGCAAGGCCGGCAGCATCCCCAGATATGGAACAGCGCGCCGCAACTGGCCGACATTCCCATCATCAGCACCCAGACACTCATATCCGCCGGCTCCCGCGCGGTCATCCTTGCCCCGCACCCGGGCGACGAGGTCGGTGCCTGCGGGGGACTGCTCCAGTTGTTGAGCAACCTGGACCATCCCATGCTACTGATCTCCGTCACCGACGGCAGCCTCGGCCACCCGGGTTCGCCATTATGGAACGATGAGCGGCTGCGCACGTTCCGCCCCCACCCCCAGGAAAGCGTCGACGCCCTGCATCGCCTGGGTGTGCCGCCCAACGGCCTGCAATGGGTGCGCGGCGGCTTCCCGGAAAAGAGCCTGGCCGAGCACGAGGAGCCACTGGCCGCGTTCATCGGTCATCATCTTCGCCCCGGTGACGTGGTATTCAGCACCTGGCGCCAGGACGGCGACAGCGATCACGACACTGTCGGACGCGCAGGAGCCCTGGCAGCCGAAGTTATCGGTGCGGTGTTCAATGAACTGCCGGTATGGGCGTGGCATTGGCCCCTCCGCGAACAGAAGAGGATCCCCTGGCATCGGGCTCGCAAACTGCGTCTGGATGTCTGGACCACCGCCCGCAAGCGCCACGCCATGCATGCTTACTCCAGCCAGCTCAACGGTGAACCGGCCAGCGGTATCGCACCGCTGGTACCGCGGGTGATTCTCGACCGCATGGGCATGCCGTACGAAATCGTTTTCATCTGA	MKPASRLQGRQHPQIWNSAPQLADIPIISTQTLISAGSRAVILAPHPGDEVGACGGLLQLLSNLDHPMLLISVTDGSLGHPGSPLWNDERLRTFRPHPQESVDALHRLGVPPNGLQWVRGGFPEKSLAEHEEPLAAFIGHHLRPGDVVFSTWRQDGDSDHDTVGRAGALAAEVIGAVFNELPVWAWHWPLREQKRIPWHRARKLRLDVWTTARKRHAMHAYSSQLNGEPASGIAPLVPRVILDRMGMPYEIVFI				NA	NA	NA	NA	NA
D1-35_03534	291			hypothetical protein	TTGGGGTTCCGCCCTTACGGCGGGTCACTTTTGGAAAGAGCGCCAAAAGTAACCAAAAACGCTCTGCCCCACCACTCGGCACCTCGCCTGGGCTCGGTGTGCCCTCACTCCGGCATTGCTCCGTGGGCCCGCCGCGAAGGGCCGTCCCTGGCCCAGCGCGGCTATCCCGGCATCCATGCCGGGATGCCCACTGCGCAATGCCTGCGTTCGGCCAGCGTGGTTAACGGGGCGTCCCAGATCAAGGTCAAGATCAAGATCAAGATCAAGATCAAGATCAAGATCAAGGTCTAA	MGFRPYGGSLLERAPKVTKNALPHHSAPRLGSVCPHSGIAPWARREGPSLAQRGYPGIHAGMPTAQCLRSASVVNGASQIKVKIKIKIKIKIKIKV				NA	NA	NA	NA	NA
D1-35_03536	801			hypothetical protein	GTGACTGGCGATTCCAACTGGCAGGCCGAGCAACCCGCGGCGGGGGATGCATCTGCGGCGGTTCATCGGCTGCGGGTCCTGACGGTCAATACGCATAAGGGGTTTACCGCCCTCAACCGCCGCTTCATCCTGCCCGAATTGCGCGAAGCGGTACGCAGCACGGGGGCCGACCTGGTATTTCTCCAGGAAGTGCTGGGTGAACACGACCGCCACGCGTCACGCTATGACAATTGGCCCCAGACCTCGCAGTACGAGTTCCTCGCCGACAGCATGTGGAGCGATTTCGCCTATGGCCGGAACGCGGTCTACCCCGACGGCCACCATGGCAATGCCCTGCTCTCGAAATATCCAATCCGCCAGTTCCGCAATCTCGACGTGTCCATCACCGGCCCGGAGCGGCGCGGGTTGCTGCACTGTGTACTGGACGTGCCAGGGCACGCCGAAGTCCATGGGATCTGCGTTCACTTGAGCCTGCTCGAAAGCCATCGCCAACTGCAGCTTCAATTGCTCTGCAAGCTACTCGATTCGCTGCCCGAAAACGCGCCCGTCATCATTGCGGGGGATTTCAATGACTGGCAGCTGCGCGGCAACACCACCCTCGCCGGCCGCCGCTACCTGCACGAAGCCTTCGAACACCACCATGGCCGCCCAGCCAGGACCTATCCGGCGCGTTTTCCCCTGCTGCGCCTGGACCGCATCTATCTGCGCAACGCCACCAGCCATGCTCCGCAGATTCTCGGCAACCGACCTTGGACACACCTGAGCGACCATTTGCCGCTGTCGGTGGAGGTGCACCTGTAG	MTGDSNWQAEQPAAGDASAAVHRLRVLTVNTHKGFTALNRRFILPELREAVRSTGADLVFLQEVLGEHDRHASRYDNWPQTSQYEFLADSMWSDFAYGRNAVYPDGHHGNALLSKYPIRQFRNLDVSITGPERRGLLHCVLDVPGHAEVHGICVHLSLLESHRQLQLQLLCKLLDSLPENAPVIIAGDFNDWQLRGNTTLAGRRYLHEAFEHHHGRPARTYPARFPLLRLDRIYLRNATSHAPQILGNRPWTHLSDHLPLSVEVHL				NA	NA	NA	NA	NA
D1-35_03537	2424			hypothetical protein	ATGAACTTGCGCAATCATGGCGTCAACCGGCTGTTCAATGCCTTGTGGCTGACTACACCGCTGTTGCTGGACGCATCGCCCGCCATGGCGGCATGCACCCTGACGCCGACGGCAGGCAATGACAGCTATGTCTGCGACAGCGGCACCAGCCCTGGATTGAGCGACCTGTCGGGAGATAACCGCCTGACGATGCCGGCCCATGGCAGCGGTGTGATCCAGGGAGACGTCACCTTCGGCGCCGGAGCCGATTACGTCGAGATCAATCCCGACGGCATCGTGGCAGGCGACGTACGACAAGGCTCGGGCACCGATGATTTTGTCATGCGCGGCGGCAGCATCCAGTCACTGGCCCAGGGCGATGGGCTCGATACGTTCCTGATGACCGGCGGCACCATCGTCGGCGCGTTCGAAGACGGAGACCAGGCGACAATGACCGGCGGCACCATCGGCCGGGTCGACATGAAACTCGACGATAATATTTTCGACATGTCAGGTGGGCAGATTCTTGGCAATCTGGTGACCGGCTTTGGTCGGGATACCATTATCGTTAGCGCGGGACGCATCGGCGGAAACGTCAGTGTCAGTGGCGGTGACGACCGTATTGCCGTGAGCGGGGGCGAGATCGTCGGCGAGGTTCGAGCCAGTTTCGGTAATGACCAGTTGCAGTGGAGCGGCGGCCTCATCCGTTCCGCCATCCTGATGGGCGAAGGCAACGACACGGCGCTGTTGAGCAACCTGGATAAAACCCTGCTCGCCACCACACCCAGCCTGGATGGGGGGTTGGGCCAGGACACACTGGCTTTTGTGGCCAGCACGACCGGCGATGGCGCCCGTTACCTCAACTGGGAATCGGTCAGCCTCACCCAAGGCTCCCGCCTGGACTTGGGCGACACGCTGGTCTTGGGCGACGGTATCACCGGCACCGGCACGCTGAACATCGACGCAAGCAGCCTGTTGACGGCCAGCCAGGGCAGCATTCGCCCGTTCACTGCTGGCCAGATGGCGACGCTTGAAAATGCCGGAACCATCGACCTCGGCGCAGGCAACACCCACACCAGCGACACCCTTACCGTACAAGGCAACTACGTGGGCAATGGCGGCCAGTTGCGCCTGCAAACGCTGCTCGGTGCAGACGACTCGCCGAGCGACAAGCTGATAGTCAACGCCGGCACGCTCGGCGGCAGCACGGCCATCACCATCACGAACATCGGCGGTGCAGGTGCCTTGACTGCCCGCGACGGCATCGAGCTGGTCCAGGCTCAGGGCGGCGCCGTCAGCGACAGCGGGGCTTTTTCACTGGCGCGTTCGGTGTCGGCCGGCGCGTTTGATTACCGTTTGTTCAAGGGCGGCGTGACCGGTAATGAAAACAGCTGGTATCTGCGCTCGACCGTGGTCGCCGGTCCGATCGCCGTGGCCAGCCCCACGCTGCCGGCCTTGCCCGTCGCCGTGCCGGGCGCAGCGCCCATTGCGCTGTACCGTCCGGAAGTACCCGTCTGGTCGGCGTTGCCTCCCGTCGCCGCCCAACTGACCCTGATGGCCCTGGGCACGTTCCATGATCGCCAGGGCGACCAACGCCTGCTGACGGAAACCGGCGCCTTCGGGGCCGGTTGGGGCCGAGTCTACGGCAAGGACCTCGATCAGACTTGGGCCGGCACGGTGACACCGAGGTTCGACGGCTCCATCAAGGGCTTCCAGGTGGGCAACGACCTTTACAGCGCGCCGGTCTTCGACGGCCAGACCCAGCGCATCGGTTTTTTCGTTGGCCATAGCGAATTGAACGGCAACGTCGACGGCTACAACCTGGGGTTCGAAGGGCGGCGCGCCGGCAAGGTTGAACTCGACGGCGACAGTTATGGCTTGTACTGGACGCTGACCGCTCCCTCCGGTGGTTACATCGACACGGTGGTCATGGGCACCCGGCTGAATGGGGACAACCGCTCCGAGCGCGGCCTCAAGCTGGATAATCGCGGGCATGCGCTGACCCTTTCGGCGGAAGCTGGCTACCCATTTGCCGTGGGCAGTGGCTGGGTCGTCGAGCCACAGGCACAGATCATCCATCAGAAGATCTCCCTGGACACCCAGGATGATGGGATTTCCAGAGTCGAATTCGATTCCGACAGCGCCTGGACCGGCCGGCTCGGTGCCCGTCTCAAGGGTCGCTACCTGATCAGCGACACGCCGGTGGAGCCGTACCTGCGGGCCAATGTCTGGCACACGTTCTCTGGCACCGACACGGTGACATTCGACGACGCCCAACGGATCGAGACCCAACAACGCAGCTCAACCGCCGACCTGGGCGCGGGCGTCATCGTCAGCCTTGCGCCTGCGGTCAGCGCCTATGCCGGAGTGGACTACGGCAATAACCTCGACAGCAACCAGCAACGCAGCGTGGCCGGAAATGTCGGTGTGCGAATCAGTTGGTGA	MNLRNHGVNRLFNALWLTTPLLLDASPAMAACTLTPTAGNDSYVCDSGTSPGLSDLSGDNRLTMPAHGSGVIQGDVTFGAGADYVEINPDGIVAGDVRQGSGTDDFVMRGGSIQSLAQGDGLDTFLMTGGTIVGAFEDGDQATMTGGTIGRVDMKLDDNIFDMSGGQILGNLVTGFGRDTIIVSAGRIGGNVSVSGGDDRIAVSGGEIVGEVRASFGNDQLQWSGGLIRSAILMGEGNDTALLSNLDKTLLATTPSLDGGLGQDTLAFVASTTGDGARYLNWESVSLTQGSRLDLGDTLVLGDGITGTGTLNIDASSLLTASQGSIRPFTAGQMATLENAGTIDLGAGNTHTSDTLTVQGNYVGNGGQLRLQTLLGADDSPSDKLIVNAGTLGGSTAITITNIGGAGALTARDGIELVQAQGGAVSDSGAFSLARSVSAGAFDYRLFKGGVTGNENSWYLRSTVVAGPIAVASPTLPALPVAVPGAAPIALYRPEVPVWSALPPVAAQLTLMALGTFHDRQGDQRLLTETGAFGAGWGRVYGKDLDQTWAGTVTPRFDGSIKGFQVGNDLYSAPVFDGQTQRIGFFVGHSELNGNVDGYNLGFEGRRAGKVELDGDSYGLYWTLTAPSGGYIDTVVMGTRLNGDNRSERGLKLDNRGHALTLSAEAGYPFAVGSGWVVEPQAQIIHQKISLDTQDDGISRVEFDSDSAWTGRLGARLKGRYLISDTPVEPYLRANVWHTFSGTDTVTFDDAQRIETQQRSSTADLGAGVIVSLAPAVSAYAGVDYGNNLDSNQQRSVAGNVGVRISW	PGPT0030335_601	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5a_AUTOTRANSPORTER_SECRETION,PGPT0030335-aidA_I|misL-K12678	NA	NA
D1-35_03538	903			hypothetical protein	ATGAAAACGTCCCAGCGCCCCCAAGCCCTTCAAGCTACCCTCTGCACCGTCTCCACTTCGTTATTGCTGTGCTCCTCCATGGAGCTCCAGGCCGAGCCCGCCGGGCGGCCGGCTTCCCTTTGGTATGACCGAATGCCAGCCGACGGCCAGACGGACAACGACGCCGTAACGGGCAGGAGCCCCGCCCTGCTTACCCTGCGAAACGACAGCGGTCACACCCAACGGATGGGTTTGATCAGCGCTTTTCACCAGATCACTTCCAACCATGGCGGACTGCTGGTTACACCGGCCATGAGCGATCCCGGCAAGGATGCGCTGAACCTGCAGGGCCCCAGCCTCGGCGCCTACTGGAGCCTGACCGGTCCGGCAGGCTGGCACCTGGATTTGAGCGCGAGCGGCGGACGCGTCAATGGTTACAGCCTGACCGAACAAGGCCAGCGCCAGGCCACCGAGGGCAACGCCGTCACGCTGTCGGTCGAGGGCGGATTTCCCATCGGCATCAGCGATAACTGGATCGTCGAACCCCAGGCCCAACTGATCAACCAGCGCATCACACTCGACACACCGAATGCCGGCAATGGCAACAACAACAAACTCAACAGCTGGAGCGGCCGCGTCGGCGCCCAACTCAGAGGTACGTACCAGGTCAACGGCCTGGGCGTGGAGCCTTACGTGCGCACGAACCTGTGGCACACGGTCCTGAGCGCCGACACCCTGAGCCTGGACAAGGTCGAAAAAATCAGCAGCAGCCGCAAGGCTTCTACCGTTGAGGTGGGCCTGGGGCTGGTGGCCCGGGTTACGCCGGTGGTAAGCCTTTATGTCAGCGCTGACTACAGCAGCGACGTCGACGACAACGACCTCAATGGCGTCATTGCCAGCCTCGGCGTGCGGATGCGCTGGTAA	MKTSQRPQALQATLCTVSTSLLLCSSMELQAEPAGRPASLWYDRMPADGQTDNDAVTGRSPALLTLRNDSGHTQRMGLISAFHQITSNHGGLLVTPAMSDPGKDALNLQGPSLGAYWSLTGPAGWHLDLSASGGRVNGYSLTEQGQRQATEGNAVTLSVEGGFPIGISDNWIVEPQAQLINQRITLDTPNAGNGNNNKLNSWSGRVGAQLRGTYQVNGLGVEPYVRTNLWHTVLSADTLSLDKVEKISSSRKASTVEVGLGLVARVTPVVSLYVSADYSSDVDDNDLNGVIASLGVRMRW				NA	NA	NA	NA	NA
D1-35_03539	1626	gapN	COG1012	NADP-dependent glyceraldehyde-3-phosphate dehydrogenase	ATGACCACAGCCAACTTCCTCGCCAATCTGTTCCCCGGTGCCGCCGACATCCCGCCAGCCTACCGCCTCGAAGGCCAGGTGGAGCAGCGCGAATACCTGGTCGATGGCGTCCTGAAGACCTGGCAGGGTCCGCTCGCCACGGTGCGCAGCCCGGTATACCTGGCCGGCGCCGATGGCGATGAACAGGTCATTCTCGGCAGCACGCCACTGCTGGATGCCGAGACCGCCCTCACGGCCCTTGACGCTGCCGTCCGGGCCTATGATCGCGGCCAGGGCCAATGGCCAACCATGCGCGTCGCTGAACGCATCCGTCATGTCGAGACTTTTTTGGCGCGGATGCGCGAGCAGCGTGAGGCGGTGGTCAAGCTGCTGATGTGGGAGATCGGCAAGAACCTCAAGGATTCCCAGAAGGAATTCGACCGCACCTGCGACTACATCGTCGATACCATCAATGCCCTCAAGGAACTGGACCGTCGATCCAGCCGCTTCGAGCTGGAACAGGACACCCTCGGACAGATCCGTCGCGTGCCATTGGGCGTGGCCCTGTGCATGGGCCCTTATAACTATCCGCTGAACGAAACCTTCACCACGCTGATTCCGGCGCTGATCATGGGCAACACGGTGGTGTTCAAGCCGGCCAAGCTCGGCGTACTGCTGGTACGGCCGCTGCTGGAAGCCTTTCGCGACAGCTTCCCCGCCGGCGTGATCAACGTGATCTACGGCAGCGGCCGGGAAACCGTCAGCGCCCTGATGGCCAGCGGCAAGATCGACATATTCGCCTTCATCGGCACCAACAAGGCCGCCAGCGACCTGAAGAAACTCCATCCGCGCCCGCATCGCCTGCGTGCCGCGCTGGGGCTGGACGCGAAGAATCCTGGCCTGGTGCTGCCCGACGTCGACCTGGACAATGCCGTCAGCGAGGCGCTGACCGGTTCGCTGTCTTTCAACGGCCAACGCTGCACCGCGTTGAAGATCCTCTTCGTCCACGAAGACATCGCTCCGGCGTTCATCGAGAAATTCAACGCAAAGCTTGCTGCGCTGAAACCCGGCATGCCATGGGAAGACGGCGTCGCACTGACGCCATTGCCCGAAGCGGGCAAGGTCGATTACCTGCATTCGCTGGTAGCCGATGCGATCGCCAAGGGTGCCGGCGTCATGAACCAGCACGGCGGCGAATCCCGGGCTTCGTTTTTCTACCCGGCGGTACTCTATCCAGTAAATACCGCCATGCGGGTCTATCACGAAGAACAGTTCGGCCCGGTCGTGCCCATCGTGCCGTACCGCGACGTCAATACCGTGATCGATTACGTCCTCGAGTCCGACTTTGGCCAGCAACTGAGCATTTTCGGCACCCACCCGGCCGAAGTCGGCAGGCTGGTGGACACCTTCGCCAATCAGGTCGGACGCATCAATATCAACGCCCAATGCCAGCGTGGCCCGGACACCTTCCCGTTCAATGGCCGGAAAAACTCCGCCGAGGGCACATTGTCGGTTCACGACGCACTGCGGACCTTTTCGATCCGCACACTGGTTGCGACCAAGTTCCAGGACAGCAACAAGGCGCTGATCAGCGACATCATTCGTGAGCGGGATTCGAACTTCCTGACCACCGATTACATCTTCTGA	MTTANFLANLFPGAADIPPAYRLEGQVEQREYLVDGVLKTWQGPLATVRSPVYLAGADGDEQVILGSTPLLDAETALTALDAAVRAYDRGQGQWPTMRVAERIRHVETFLARMREQREAVVKLLMWEIGKNLKDSQKEFDRTCDYIVDTINALKELDRRSSRFELEQDTLGQIRRVPLGVALCMGPYNYPLNETFTTLIPALIMGNTVVFKPAKLGVLLVRPLLEAFRDSFPAGVINVIYGSGRETVSALMASGKIDIFAFIGTNKAASDLKKLHPRPHRLRAALGLDAKNPGLVLPDVDLDNAVSEALTGSLSFNGQRCTALKILFVHEDIAPAFIEKFNAKLAALKPGMPWEDGVALTPLPEAGKVDYLHSLVADAIAKGAGVMNQHGGESRASFFYPAVLYPVNTAMRVYHEEQFGPVVPIVPYRDVNTVIDYVLESDFGQQLSIFGTHPAEVGRLVDTFANQVGRININAQCQRGPDTFPFNGRKNSAEGTLSVHDALRTFSIRTLVATKFQDSNKALISDIIRERDSNFLTTDYIF	PGPT0018005_136	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
D1-35_03540	894			hypothetical protein	ATGGACAAGACCCTACGCCGCGGTTCGCTCGAAATGACCGCCGCCATGCTGATTTCCGGAACCATCGGCTGGTTCGTGCTGGTGTCCGGCCTGCCGGTGCTGGATGTGGTGTTTTGGCGCTGCGTGTTTGGCGCCGGCACGTTGTTGCTGATCTGCGCCGGTTTCGGTTTCCTGCGCCGGGATATCCTGACTCGCACGACCTTCCTGCTGGCGGTGCTCAGTGGTGTTGCGATCGTCGGTAACTGGGTGTTGTTGTTCGCTTCATACTCCCGCGCTTCGATCGCCATCGGCACCGCGGTGTACAACGTCCAGCCCTTCATGCTGGTGGGGCTGGCCGCGCTGTTCCTGGGAGAGAAGATCACTGCGCAGAAGCTGTTCTGGCTGGCGGTGTCGTTTCTCGGGATGCTGGCCATCGTCAGCGCCCACGGCGAGCAGGGGCAGGGAGGCGAGGATTATCTGGTGGGTATCGCCCTGGCGCTGGGGGCGGCATTCCTGTACGCCGTTGCGGCGTTGATCATCAAGCGCCTGACCGGCACGCCGCCGCACTTGATCGCCTTGATCCAGGTCGCCACCGGCATCCTCTTGTTGGCACCATGGGCGAATTTCTCGGCCTTGCCGCAGCAACCCGAGGCCTGGGCCAGCCTGCTGACGCTCGGCATGATTCATACCGGCGTGATGTACGTACTGCTGTACAGCGCGATCCAACGCTTGCCGACTGCCGTGACGGGCGCTCTATCCTTTATTTACCCGATCGCGGCGATCCTGGTTGACTGGTTTGCCTTCGGCCATCGCCTCGAGCCGCTGCAATGGCTGGGTGTGGCGGCGATCCTGCTGGCGGCTGCAGGCATGCAACAGGGCTGGGGCATCAAGTCGCGCCGCCCAGCCCTGAGCTGA	MDKTLRRGSLEMTAAMLISGTIGWFVLVSGLPVLDVVFWRCVFGAGTLLLICAGFGFLRRDILTRTTFLLAVLSGVAIVGNWVLLFASYSRASIAIGTAVYNVQPFMLVGLAALFLGEKITAQKLFWLAVSFLGMLAIVSAHGEQGQGGEDYLVGIALALGAAFLYAVAALIIKRLTGTPPHLIALIQVATGILLLAPWANFSALPQQPEAWASLLTLGMIHTGVMYVLLYSAIQRLPTAVTGALSFIYPIAAILVDWFAFGHRLEPLQWLGVAAILLAAAGMQQGWGIKSRRPALS				NA	NA	NA	NA	NA
D1-35_03541	438	lrpC	COG1522	HTH-type transcriptional regulator LrpC	ATGACTGACGACATCGACCAGATCCTCATCAGCGCCTTGATGGAAGACTCACGACGTTCCCTGAAGGCCCTGGCGAGCCTGAGCGGCCTTTCATCCCCCAGCGTTGCCGAACGCCTGCGCCGGCTGGAGGAACGTGGCGTGCTCAAGGGCTACACCGTCGAGGTCGATCCGAAGTGCTTTGGTTATCAACTTCAGGCCATCGTGCGCATCCGTCCGTTACCGGGGCAGTTGCAGGAAGTGGAGCGGCAGATCCAGGCCATCGGCGAATTCACCGAATGTGACAAGGTGACTGGGGAAGACTGTTTCATTGCGCGACTGCACGTGCGCTCGATGGAGCAGTTGGATGTGCTGCTGGACAAGTTGAATGTGCTTGCCGAAACCAATACGGCGATCGTCAAGAAGACACCGGTCAAGCGGCGTTTGCCGCCGATGGAGTGA	MTDDIDQILISALMEDSRRSLKALASLSGLSSPSVAERLRRLEERGVLKGYTVEVDPKCFGYQLQAIVRIRPLPGQLQEVERQIQAIGEFTECDKVTGEDCFIARLHVRSMEQLDVLLDKLNVLAETNTAIVKKTPVKRRLPPME				NA	NA	NA	NA	NA
D1-35_03542	672	yccA	COG0670	Modulator of FtsH protease YccA	ATGCGCGAACAGGATTACGCAGTGAACAACAGCGTGCAGGCTGAGCAGCTAGAGGTTAGCCGCGTCCTGCGCAACACTTATGGCCTGCTGGCACTCACGCTCGCTTTCAGCGGTGTGATGGCCTTCGTCGCACAACAGATGCGTGTCGGCTACCCGAACATCTTTGTCGTGCTGATCGGTTTCTACGGCCTTTTCTTCCTCACCAACAAGCTCCGCGATTCGGCCTGGGGCCTGGTTTCTGCCTTCGCCCTGACCGGTTTCATGGGCTTTTTGCTCGGCCCGATCCTCAACCGCTACCTGGGCATGCAGGGCGGCGCCGAAGTGGTCAGCTCGGCTTTCGCCATGACGGCGTTGGTGTTCGGTGGCCTGTCGGCCTACGTGCTGATCTCGCGTAAGGACATGAGCTTCCTGAGCGGTTTCATCACCGCCGGTTTCTTCGTGTTGCTGGGTGCGGTAGTGGCCAGCTTCTTCTTCCAGATCAGCGGCCTGCAACTGGCGATCAGCGCCGGCTTCGTGCTGTTCTCGTCGGTCTGCATCCTCTACCAGACCAGCGCCATCATCCATGGCGGCGAGCGCAACTACATCATGGCGACCGTCAGCCTGTATGTATCGATCTACAACCTGTTCGTCAGCCTGCTGCAACTGTTCGGGTTGATGAGCCGCGACGACTGA	MREQDYAVNNSVQAEQLEVSRVLRNTYGLLALTLAFSGVMAFVAQQMRVGYPNIFVVLIGFYGLFFLTNKLRDSAWGLVSAFALTGFMGFLLGPILNRYLGMQGGAEVVSSAFAMTALVFGGLSAYVLISRKDMSFLSGFITAGFFVLLGAVVASFFFQISGLQLAISAGFVLFSSVCILYQTSAIIHGGERNYIMATVSLYVSIYNLFVSLLQLFGLMSRDD				NA	NA	NA	NA	NA
D1-35_03544	891			hypothetical protein	ATGCCATCCCCTACCCCACTCAAGGAAAGTAAAGTGACCAGCAAAACCATCGGTTCGATCGTCGCGGCAATTATCGGCGTGGTCCTGTTATGCGTGTTCTTTGGCAGCTGGTACACGGTGGATGAAACCGAGCGTGGCGTGCTTTTGCGCAACGGCGCCCTGGTTGGGGTGGTTGAGCCGGGCCTGTCGTTCAAGACGCCTTTCATCGAGTCGGTCCGCCTGATCAGCACACAGAGCCAGGTGACGTCCTATGACGACCTGCAGGCGTACAGCAAGGACCAGCAATCAGCCGAGCTCAAGGTGTCCGTGTCCTGGCATATCGCGCCTTCCGATGTAGCGAAGGTCTATACCCAGTTCAAGGACCTGGAAGGCATTCGCGACCGGATGATCAGCCGCCAGGTGCCGACTCAGGTGGAAAACGTGTTCGGCAAGTTCAACGCCGTCGCCGCCGTGCAGAACCGCGTGCAACTGGTCAATGATATTTCGGCGGCGATCAAGGCAACTATCACCGGGCCGGTGATCATCGACAGCGTCCAGGTTGAAAACATCGATTTCAGCGACGCCTACGAAAAAGCCATCGAAGCGCGCATGGCCGCTGAAGTGCAGGTCAAGACTCGTGAGCAGCAGCTCGCCACCGAGCAGGTGCAGGCTCAGATTCGGGTGACCCAGGCCCAGGCGGAAGCCGATTCGCAAGTTGCCCAGGCCAAGGCCGACGCGCTGGCCACCGAGCTGCGCGGCAAGGCTGAAGCCGAGGCGATCAAGGCGCGCGCCCAGGCGCTGGCCAGCAACCAGAACCTGGTTGAGCTGACCAAGGCCGAGCGTTGGAACGGCGAGCTGCCCACCACCATGCTGCCCAACACCGCGCTGCCCTTCATCGATCTCAACAAGTAA	MPSPTPLKESKVTSKTIGSIVAAIIGVVLLCVFFGSWYTVDETERGVLLRNGALVGVVEPGLSFKTPFIESVRLISTQSQVTSYDDLQAYSKDQQSAELKVSVSWHIAPSDVAKVYTQFKDLEGIRDRMISRQVPTQVENVFGKFNAVAAVQNRVQLVNDISAAIKATITGPVIIDSVQVENIDFSDAYEKAIEARMAAEVQVKTREQQLATEQVQAQIRVTQAQAEADSQVAQAKADALATELRGKAEAEAIKARAQALASNQNLVELTKAERWNGELPTTMLPNTALPFIDLNK				NA	NA	NA	NA	NA
D1-35_03545	1827	sasA_15		Adaptive-response sensory-kinase SasA	GTGTACCCAGGCCAAAGCAGCTCGACGAAACACCCCGTCTCCCTTATCAAGAAATACAAATGGCCCGCCCTGTTGGCCACTGCGCTGGTTGTGTTTTCAGCCCTGATATTCTTCCTGATCAAGTCCTACACGGGCGACACCGCGACCTTCTTCGAGTCACGCGACTTCATCCGTCAGCTCAAACAAGCCGACGCCAACTGGAACGTGAAGATTCTCAGGAAAAAAATAGGCGTCAGCAACAACCTGTCACTCGCTCCGCCAGCCGACGCGCATAGCCGATGGGAGCAATTGGAGCAACTGAACAGTTCCGGTCCACTGGCTGCACTTTGGGCGTCGAGACGCAACGGTTACATGGACGCGGTCAGGAACAAGACCCTGTTGGTGGAACAGTTCGAGCAGCACAATGCCAATCTGCGCGCCTCCCTGGATGCACTTCCGACGGTAGAGGATGAAATTCAGACGCTGCTGCAACAGATGAAGGATGACGGAGAAATCGCTCGGCTGACGGCAGCCTCCAGCGTTCTCGACCTGGCGCTGACCACACTGGAATACGCGCTTTATGTCACCTCGGACAAAGCCAGCGAACTGCAAGAACAGCTAAGCGAACTCGAACATCGGATCGACCAGTTGCCCTCGTCCTATCGGCCGGCTTTCACCTCACTGACCCGGCACGTCAAGACCGTCATCCAGGAACAGCCAGTAGTCAACGATCTGCTGGATCGCATCAGCGTCATCCCCGTCGCCCAGGAACTGGACAGCATCAACGAGCTGCTCAACGAAACGCAGCGCAGGACGGCCGCGATCGATCGCAAATATCATATGTACCTGGCCGTCTGCGCCAGTCTGATGGCGCTCTTGATGATCTACCTCGCCGTACGGCTGGTGCGCAGTTCTTCGCTCATCAACCAGATCAACCATGAGCTGCAAACGTCCAACGACAAGCTGGAGCAACGCGTGGAGGAGCGTACGCGCGAGTTGAAGGAGGCCGAGCGTGAGCTGGTGGACGCCGCGCGCATGGCAGGCATGGCCGAGATCGCCACGAACGTGTTACACAATGTTGGCAATGTCCTCAACAGCGTCAACATCTCAGCGGAGCTGGTGACGCGCAAGTTGAAGAACAGCAAGACGCAAGGGCTGGGCAAAGCGGTAAGGATGATGAATGAACATGCCACGGACCTGGGTCAGTTCATCACCGAGGATGAAAAAGGCAAGTTGTTGCCCCGGTATTTCAATGAACTGGTGGATTCCATCGCCACCGAACAGGGGTTGCTGATTGAAGAACTCGCGCAACTGACCAAAAGCATCGACCACATCAAGGAGATCGTCACGACTCAGCAGACCTATGCCGGGGCTGCGCGGCTGATCGAGCCGCTGAATGTGGCCGACCTGTTCGAAGATGCATTGCGCATGAATTCGGGGGCGCTCAGCCGACACCAGGTCACCGTGATCAAGGATTATCAGGACATTCCGATGATCATGGGCGACAAGCATCGCCTGCTGCTGATCCTGATCAATCTGATCAGCAATGCCAAGGCCGCCATGTCCAACGTCGAGCCGCCAAGGGAAATGACCCTGGGGGTCCGCATCGTCGATCAGACAACGCTCTGCGTCAGCGTCAGGGATCGTGGCGAAGGGATCGCGCCTGAAAATCAGGCGAGGATCTTCAACCACGGATTCACCACCCGCAAGGATGGCCACGGTTTTGGCCTGCACAGCTGTGCCCTGGCGGCGGTGGAGATGAACGGTCGCCTGCAGGTTCAAAGCGACGGACCGGGGCAAGGCGCCCTGTTCACTTTGGAAATCCCGTTGGAACTGGCATTTTCCTGA	MYPGQSSSTKHPVSLIKKYKWPALLATALVVFSALIFFLIKSYTGDTATFFESRDFIRQLKQADANWNVKILRKKIGVSNNLSLAPPADAHSRWEQLEQLNSSGPLAALWASRRNGYMDAVRNKTLLVEQFEQHNANLRASLDALPTVEDEIQTLLQQMKDDGEIARLTAASSVLDLALTTLEYALYVTSDKASELQEQLSELEHRIDQLPSSYRPAFTSLTRHVKTVIQEQPVVNDLLDRISVIPVAQELDSINELLNETQRRTAAIDRKYHMYLAVCASLMALLMIYLAVRLVRSSSLINQINHELQTSNDKLEQRVEERTRELKEAERELVDAARMAGMAEIATNVLHNVGNVLNSVNISAELVTRKLKNSKTQGLGKAVRMMNEHATDLGQFITEDEKGKLLPRYFNELVDSIATEQGLLIEELAQLTKSIDHIKEIVTTQQTYAGAARLIEPLNVADLFEDALRMNSGALSRHQVTVIKDYQDIPMIMGDKHRLLLILINLISNAKAAMSNVEPPREMTLGVRIVDQTTLCVSVRDRGEGIAPENQARIFNHGFTTRKDGHGFGLHSCALAAVEMNGRLQVQSDGPGQGALFTLEIPLELAFS				NA	NA	NA	NA	NA
D1-35_03546	192			hypothetical protein	ATGAGTACTGCGATGCTGACCAAAATGCACATCAACGGCTATGACGTGCTCAGCGTGAACAGCGGGCCCTGGAGGGTCTGCACCCAGGCGGACCGGTTGGGTTCCTTTGCTTCGCGCGAAGAGGCGTTGGCCTATGCCGCCGCGTTGCCCGCCCGGAAACGCCGCAGCGCTGCGTCCGCGAACGTCAGGTAA	MSTAMLTKMHINGYDVLSVNSGPWRVCTQADRLGSFASREEALAYAAALPARKRRSAASANVR				NA	NA	NA	NA	NA
D1-35_03547	900			hypothetical protein	ATGAATAAGATCGCCAAGGCACTGCTTGTGGTGCTGCTTGCCAACGGCCTGTCGGGATGTATCGGCCCGCCCATCGAGCTGACCGCGCAAACCGAGCAACGCTTGCGCGTCCAGCCGCCGATCCGTTTCCTCCTGACATTCGATGACGGTCCCAGCGCCTCATCCTTCTGGAACCCGAGCCTGGACGTGCTCGACGCCCTTGCGGACAACCCGGTGCAGCCGGGAATCAAGGCGCTGTTTTTTGTCCAGACGCGAGCGCCACGGGCCGGTGGCAGCGACATCGGTCGCTCGGTGCTGCAGCGTGAGCAGCGCGAGGGGCATGTCCTGGGTTTTCACACGGCCACCCATTGGCACACCAACCATCGATCCCTCGATCCCGATGAGCTGGAGCTGTCGCTTACCCACGGTGCAGCCGACATCGCCGCGGTTACCGGGGCACCGCCGACCCTGGTCCGGCCGCCATTCTGGAGCTATGACCAGCGCACCTTCGCCGCCTACCAACGGCATGGCATGCATGTTTTGCTGACTGACCTGAGCGCCAACGATGGCAAGGTCTGGGGCATTACCCTGAGTCCTCGCCGGCGGATAAACCTGCTACGCCAGCTCTCGGAGGTGCGTGAGCGCATCGCCGCCGGGCAGTTGCCTGCGGTGGATGGAGTGATTCCGGTGGTAGTGACCTTCCACGACCTCAACCGCTATACCGCCCGTCATGCGCGGGAGTATCTGCAGATCCTGATCGACAGCGCCCAGGCCACCGGATTGAAGACCTACGCGAAACCTTTCTATGACGATCGTCAGGCGCTGGAGCGCGCAGCGATGGCCCGGACCCTGAAGGACGCCACCCAGCCGGTGCGCCTGCCCGGTCTGTGGGATTGGTTATGGAAGCGCGATCCTGACTGA	MNKIAKALLVVLLANGLSGCIGPPIELTAQTEQRLRVQPPIRFLLTFDDGPSASSFWNPSLDVLDALADNPVQPGIKALFFVQTRAPRAGGSDIGRSVLQREQREGHVLGFHTATHWHTNHRSLDPDELELSLTHGAADIAAVTGAPPTLVRPPFWSYDQRTFAAYQRHGMHVLLTDLSANDGKVWGITLSPRRRINLLRQLSEVRERIAAGQLPAVDGVIPVVVTFHDLNRYTARHAREYLQILIDSAQATGLKTYAKPFYDDRQALERAAMARTLKDATQPVRLPGLWDWLWKRDPD	PGPT0018645_3627	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
D1-35_03548	255			hypothetical protein	ATGGGCGGTCCATCGCTTTACATCATCGACTACGTGCTCCATGGCGAGCCCAAGTCTTTCATCATTCGTGCAGAAGTGATGAATAACTCCGAAGCTTGGCACTGGGCCAGTTGCGATGCGGGTGTCGGACGTATACCCAAATTCGGCAGGGAAAAAGTCAAGCGGGTCTCCAAACCCATGGCGGAAAAATATGGCATTACCGATGTGCGCTGGCGAGCTTCCGTCGCGCCGTCCTGGGTCAGGGAGTCAGGCTGA	MGGPSLYIIDYVLHGEPKSFIIRAEVMNNSEAWHWASCDAGVGRIPKFGREKVKRVSKPMAEKYGITDVRWRASVAPSWVRESG				NA	NA	NA	NA	NA
D1-35_03549	231			hypothetical protein	ATGTCTGAAAAAGAGTCCATCACCACCCTGTTGACCTTACTGGAATCGCGCCAGGCGCGGCTGACAGCCGCCTGCAAGGAAATTGCCGACTGGGTCGACCACCAGGGCGGGCACCCCGCCGCCGTACGAATCCGCGACCGACTCAATGATATCGAGAAGGACGCCCCCACGATCCAGAGCGCGCTGTCCTCATTGAAGCCCGCGGAACCGCCGCTGCCCAAGTTCCGTTAG	MSEKESITTLLTLLESRQARLTAACKEIADWVDHQGGHPAAVRIRDRLNDIEKDAPTIQSALSSLKPAEPPLPKFR				NA	NA	NA	NA	NA
D1-35_03550	426			hypothetical protein	ATGAATGCCAAGGTCCTGCTTCTGATTGCCTGTGCCAGCCCTGCGACTGCCCTGGCGCAAGGTTGTGACGTCATCACCCGGTCCCAGAGCCAAGCGGTGCCGGAAATCGAAACCCGCAGTTGCTATGAGTACAAGGGTGTTCCTGCCGAAGCCATCGGCTGGTCGTGCAGTAACGAAAGCAAGGGCACGCTCAGCACCGAGAAGAAACCCGTCGAACGCTGCGCCGAGGGTTATGTAGCCACCTGCCAGGCGAGGCTGACCCAGGAGGCCCTGGCCAACCCCCGTTCCACCAGCAAGGACCGCAGTGGCAGCTCGGCGAATCTTCCAGACAATGCCCAGGTCACCCGGTACTACTACGGCGCAGAACAGCTTCAGCAAGCGAAAAAGGACTGCGAAACCACCGGCGGCCAATGGAAAAACCGTTGA	MNAKVLLLIACASPATALAQGCDVITRSQSQAVPEIETRSCYEYKGVPAEAIGWSCSNESKGTLSTEKKPVERCAEGYVATCQARLTQEALANPRSTSKDRSGSSANLPDNAQVTRYYYGAEQLQQAKKDCETTGGQWKNR				NA	NA	NA	NA	NA
D1-35_03551	228			hypothetical protein	ATGTCTGAACTAGCCAGTTATTTCTGGATCGCGGTTGCGGTAATCGTGTTGCTGTTGGATCTGTGGGCGATCGTCAGCGTCTTTCGCAGCGACAAATCGGCCGGGACCAAGGCAGGCTGGGCATTGCTGCTGGTCATCCTGCCGGTGCTGGGCTTGATTATCTGGGGTGTGGCCGGGCCGCGAGGCATGAAGAATCCGCCTTCGTCGCCCGAGCACAGCAAGGGCTGA	MSELASYFWIAVAVIVLLLDLWAIVSVFRSDKSAGTKAGWALLLVILPVLGLIIWGVAGPRGMKNPPSSPEHSKG				NA	NA	NA	NA	NA
D1-35_03552	186			hypothetical protein	ATGACCACCGTTGAAGACTTCAAAATCAAATCCCACGAACTTTTAGTCGAGCTCGACACAGCGACCTCAGAAATGATGGCGCTGATCTGTGTCCATCAAATGTCCGGGACTGCCTGGGATGAGGCCGTCCGACGCCAACATGAGGCCTATGAGCAATGGGTCGCCTATCTGAATGAACGCGCGTAG	MTTVEDFKIKSHELLVELDTATSEMMALICVHQMSGTAWDEAVRRQHEAYEQWVAYLNERA				NA	NA	NA	NA	NA
D1-35_03553	363	rppH_2		RNA pyrophosphohydrolase	ATGAAAATTCGAGCGACCGTCATCTGTGAAGAGGACCGCCACATCCTCCTGGTTCGTAAGCCCAAGAGCCGCTGGGCCTTGCCTGGCGGCACCGTCGAGCGTGGCGAGACGCATGCCGATGCTGCCTTGAGAGAACTGGCGGAAGAAACCGGACTGAGCGCCGAAAACCTGCTCTACCTGATGCGGGTCAGCGATGGCGACACCGAACATCACGTCTTTGAGGCTTCGGTCAACGACTCGAAGGACGCCAGGCCGCAGAATGAAATCAGCGACTGCCTGTGGCATCCCTTGGATGCCCTCGCCCAATTGCAGATGAAAAAGGGCATGCGGGAAATACTCGAGGCGTTTCGGCGCAGGTTGTAA	MKIRATVICEEDRHILLVRKPKSRWALPGGTVERGETHADAALRELAEETGLSAENLLYLMRVSDGDTEHHVFEASVNDSKDARPQNEISDCLWHPLDALAQLQMKKGMREILEAFRRRL				NA	NA	NA	NA	NA
D1-35_03554	216			hypothetical protein	ATGGTAATCGACAATAACGGTCCGGAAGCGCCATACCCGGGACCCGATGAAAATACGCCGGAGACGGGCGAAGGTCATGATTCCGGTCTTGATCAAGCTGAGTCTGAACCAAAGCAGGGCACTGGCGAGAGGCCGGAAGACTGGAATCCGCCGCCGGGAAATCCCGGTTCCGACCAGGACGCCCAGACGAATCGTGAGAATGGCGGCGCGAAGTAG	MVIDNNGPEAPYPGPDENTPETGEGHDSGLDQAESEPKQGTGERPEDWNPPPGNPGSDQDAQTNRENGGAK				NA	NA	NA	NA	NA
D1-35_03555	381			hypothetical protein	ATGGACCCGTATGAAATAGAAGACACCAGCGACTGGCTGGGCACCCCAACCCCCCTGGAAATGTACAAGCACTCCTGCCTCATGCTCGAGAACGAGGTGCAGGAACTCACGACCCAGTTGCGCAAAGCCCGTCAGGACATTTTCGGCTTGATCGAAATGCACGGTGCAGAAGCCAAAGAGTCCGCCAGGCTGCGGGCTGAGCTGAAGCGGGCAAGGGAGCGATGGAATTCAGAGCATCTTTTATATGGCGAACTCAAGAACAAGTCGGACTTCGACTATATGGCAAGATCCGCGCTGATCGCCGACCTGTACCGGCGACTGAAGGTCTACGAGGGTGACAGCCTCCCCGAGTACATCATCACCAACAACCAGCCAAAGTAG	MDPYEIEDTSDWLGTPTPLEMYKHSCLMLENEVQELTTQLRKARQDIFGLIEMHGAEAKESARLRAELKRARERWNSEHLLYGELKNKSDFDYMARSALIADLYRRLKVYEGDSLPEYIITNNQPK				NA	NA	NA	NA	NA
D1-35_03556	129			hypothetical protein	ATGTGCGGACGACTCTCGCAGTACACCGGCATCCACGACTTCGTGGCTGTGTTGAGCATGCCTACCGCACTGGTCAACACCGTTGGTGACCAGCCCTTGGATCGGTACAACGGCGCACCGGCGCAGTAG	MCGRLSQYTGIHDFVAVLSMPTALVNTVGDQPLDRYNGAPAQ				NA	NA	NA	NA	NA
D1-35_03557	558	yedK_3	COG2135	SOS response-associated protein YedK	TTGCTCCATCAGGAAGACGACACGCTGCATACTGACCTGGTGCGATGGGGATGGCGGCCATACTGGGCCAAAGACAGGGCCGCACCGATCAATGCCCGGGTAGAGAAAGTGGCCCACGGACCGTTCTATCGCCCGATCTGGCCGAACCGCGCCATCACGCCGATCAACAACTGGTTCGAGTGGGTCGACGAAGGTGGGCCGAAGAAGCAGCCCTACCTGATCCGCCGGCGGGACCAGGCACCGATCCTTTGCGCATCGATCGGCCAGTTCCCCACCGGTGGCCGTGAGCGTGGCGAGCATGACGGCTTCGTCATCATCACCGCCGACAGCGCGGGCGGGATGGTCGACATCCACGACCGCCGGCCCGCGGTGCTGACGCCTGAGCTTGCCCGGGAATGGCTGGACCCGGCCACGCCAAAAGAACGCGCCGAGCAAATGGTCCTGCACCAGGGCGAGCCGGCAGAGGCCTTCGAGTGGTTCAAGGTGGATCGCGCCGTCGGCAATGTGCGCAACCAGGGCCCGGACCTCATCAGGCCTATCGCTGGCTCACTTCTCTGA	MLHQEDDTLHTDLVRWGWRPYWAKDRAAPINARVEKVAHGPFYRPIWPNRAITPINNWFEWVDEGGPKKQPYLIRRRDQAPILCASIGQFPTGGRERGEHDGFVIITADSAGGMVDIHDRRPAVLTPELAREWLDPATPKERAEQMVLHQGEPAEAFEWFKVDRAVGNVRNQGPDLIRPIAGSLL				NA	NA	NA	NA	NA
D1-35_03558	534			hypothetical protein	ATGCCTGTTTACGCTAAATATTTACCCGCTTTTTTTGTGGGTAGCATTATAGCGAACTTTAGCAGGAGTGTAGCCGTTGGCCCTGTAGCTGCTTATTCGGCGTTGCTGGTAATGCTAGTTTCAGACATGCTGTTGGGGTATAAGACAGACTCGTCAATTATGCTCCAGACCGTATGTGCGGGCGCTTTGATTCTGAGCATTGGACGCTCTGATTCTATGCAATGGCTTAATCGCTCGGTTTTATCATTCCTTGGCAAGATATCCTTTTCGTTTTATTTAATGCACTTGGTTGGAATGATTCTGACTAGGCAACTTTGCGTTAAGCTTGGAATACCGCTTGGTCAGATGTCGATGATTGAAAACGCAATAGTCTACGCGGCGATCTCTGTACCCCTAACCATCGTTATATCGGTTGTCTCCTATCAATTTGTGGAGCTCCCCATGAATAAAGTTGGCGGATCTACAGCCGCATCCTTAAGGAAAGTTTTTACCCAGGGCGCTCTGTCTGGCGCCCCTAGAACATCAGAGAAGTGA	MPVYAKYLPAFFVGSIIANFSRSVAVGPVAAYSALLVMLVSDMLLGYKTDSSIMLQTVCAGALILSIGRSDSMQWLNRSVLSFLGKISFSFYLMHLVGMILTRQLCVKLGIPLGQMSMIENAIVYAAISVPLTIVISVVSYQFVELPMNKVGGSTAASLRKVFTQGALSGAPRTSEK				NA	NA	NA	NA	NA
D1-35_03559	339			hypothetical protein	GTGGGCTGCGTGATCCGCAACCGTGTGAACGATGGAAAGGAAAAGTCCTGGTGGGGCGAGGGGTACGCCGGCGTGTGCCTGAAGCCGTACCAGTTCAGCTGCTGGAACCAGAACGACTGGAACTATCCGTACCTGAGCGGGACCAAGCCAATTCCGCCGGCGCAGTTCGCCCAGGCGCTGCGGGCGGCCGATCTGGTGATCTCCGGCGCCCAGCCGGACATCACTCGCGGCGCGACCCACTACTACGCGACCACGATGCCGAAGCCCCCGGCCTGGTCCAAGGATGCGACCCAGACCTTCCGCCTGGGCAATCATATCTTTTTCAAGGACGTGCCGTAA	MGCVIRNRVNDGKEKSWWGEGYAGVCLKPYQFSCWNQNDWNYPYLSGTKPIPPAQFAQALRAADLVISGAQPDITRGATHYYATTMPKPPAWSKDATQTFRLGNHIFFKDVP				NA	NA	NA	NA	NA
D1-35_03562	840			hypothetical protein	ATGACTGAACGCCCACAACTGGTGGCGAGCCGGGCTCCGGTGCCCACGCCTTCGCATCCCAATCTCGGCAAGCCGGAGCGCCTGATGTCGCTGGCGGCCGGTTCATTGTTGATTGCCAACGGCCTGCGCCAAGGCGGCCTCAAGGGCTGGCCGCAGGTATTGCTTGGCGCGTGTGCTGCCTGGCGTGCCTATTCCGGCACGTGCCGGGTCAAGCGGGCGCTGACTCATAGTCCGTTCGAGCAGACCTTCGAACAGGATCGTGACTGGGGCGGCAGCAAGGTGATTTCCCGCAGCATCACGGTCGGCAAGCCCAGGGAGGAAGTGTTCGCGTTCTGTCGCGACCCGGCCAATCTGGGTGCGCTGATGCCTTGGATCGACGCCATCGAGCAGACCGGCGAACGCACTTATCGCTGGGTCGCCCATGGCCCGATGGACAAGACGTTGCACTGCGACCTCGAACAGTGCGAGCCCAAGGAAGACCGCAAGCTGCACTGGATCGCCGGGCCGGACACACGATTCAAGCACGATATCCAGATGCATTTCAGCGATGCTCCGGGCGGGCGCGGTACGCAGATCAAGGTCATTGTCGCTTGCCAGACGCCGCTCGGCGCGGCTGGCTACGCGCTGGCGGCGGCGATTTCCCGGTTCTCGGACAAAGCCTTGTTGAACGTGCTGCGCAGTATCAAGCAGCAGCTTGAAACCGGAGAAGTCAGCACCAACAGGATGCGCCCGGAGCAGACGCAGGACTTCCTCTTCGTGCACCCCGCCAACAGCGCGACCCAGGCACCCGCCAATGACTCATCCACTGACAAGCCCGAACTCAACGGAGGAACCGTCTGA	MTERPQLVASRAPVPTPSHPNLGKPERLMSLAAGSLLIANGLRQGGLKGWPQVLLGACAAWRAYSGTCRVKRALTHSPFEQTFEQDRDWGGSKVISRSITVGKPREEVFAFCRDPANLGALMPWIDAIEQTGERTYRWVAHGPMDKTLHCDLEQCEPKEDRKLHWIAGPDTRFKHDIQMHFSDAPGGRGTQIKVIVACQTPLGAAGYALAAAISRFSDKALLNVLRSIKQQLETGEVSTNRMRPEQTQDFLFVHPANSATQAPANDSSTDKPELNGGTV				NA	NA	NA	NA	NA
D1-35_03563	1173		COG1063	putative zinc-binding alcohol dehydrogenase	ATGCGCGCATTGACTTGGCAAGGCCCCAACAAGCTTCAGGTCGAGACGGTCGACGACCCGTCCATCCTCAACCCTCGTGACGCCATCGTACGGGTGATCCTGTCCTCGGTGTGCGGCTCGGATCTGCACCTGCTGGGCGGTTACGTGCCGACCATGCAGGCCGGTGACATCATTGGCCACGAATTCATGGGCGAGGTGGTGGAGACCGGCTCGGCCGTCACGCAATTCAAAAAGGGCGACCGGGTTGTCACGGTGTCGATTGTCGGCTGTGGAGAATGCGAGCACTGCCAGCGCTCGGACTTTTCCTGCTGTGACAATTCCAATCCGAACCCTACGGCGACAGACATTGCCTACGGCCAACCGGCGTGCGGCATCATCGGCTACAGCCATGCCTTCGGCGGTTATTCCGGCAGTCATGCGACCTATATCCGCGTGCCCTACGCCGACGTCAATCTGTTCAGCATTCCCGAAGGCGTCAGCGATGAGCAGGCAGTGTTTGTCTCCGACGCAGTGCCCACCGGCTATTTCGCCGCCGACAACGCCGACATTCAGCGCGGCGATACGGTAGCGGTCTGGGGCTGCGGCGGGGTCGGGCTGATGGCAATCACCAGTGCCTACCTGCTGGGCGCCGAACGGGTGATCGCCATCGACCGTTTTGCCGATCGCTTGCGCCTGGCCGAGGAAAAAGCCGGGGCCATCGCCCTCAACTACGAGACCACCGATGTGCATGCCGCCTTGCTGGAGCTGACCGGCGGCCGTGGGCCGGATCGCTGCATCGATTGCGTCGGCATGGAGGCCCACGGCACCGAAGTCGATTATTTCTACGACAAGACCAAGCAGATGCTGCGCCTGCACACCGAGCGCGGAACCGTGCTGCGCCAGTCGATCCGCGCCTGCCGCAAAGGCGGGACGGTGTCGGTGGTCGGGGTCTATGGCGGCTTGCTGGACAAATTCCCGATGGGCGCGATCGTCAATAAATCCCTGACCCTGCGTTCCGGCCAGCAACCGGGGCAGCGCTACGTGAAGCGCTTGTTCGAACACATTCAGAACGGTGAGCTGGACCCCTCCTACCTGCTGACCCATCCCATGGGGCTTGAGCAGTCGGTGGACGGCTATGCGATGTTCAAGGAAAAACGCCAGGATTGTCTGCGGGCGGTATTTCGGCCGGAGTGA	MRALTWQGPNKLQVETVDDPSILNPRDAIVRVILSSVCGSDLHLLGGYVPTMQAGDIIGHEFMGEVVETGSAVTQFKKGDRVVTVSIVGCGECEHCQRSDFSCCDNSNPNPTATDIAYGQPACGIIGYSHAFGGYSGSHATYIRVPYADVNLFSIPEGVSDEQAVFVSDAVPTGYFAADNADIQRGDTVAVWGCGGVGLMAITSAYLLGAERVIAIDRFADRLRLAEEKAGAIALNYETTDVHAALLELTGGRGPDRCIDCVGMEAHGTEVDYFYDKTKQMLRLHTERGTVLRQSIRACRKGGTVSVVGVYGGLLDKFPMGAIVNKSLTLRSGQQPGQRYVKRLFEHIQNGELDPSYLLTHPMGLEQSVDGYAMFKEKRQDCLRAVFRPE	PGPT0006355_361	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006355-frmA|ADH5|adhC-K00121	NA	NA
D1-35_03564	1224	tetA		Tetracycline resistance protein, class C	ATGCCCCATATAGGTCTCCCCCAGGCTTCCAGTGTGCGCCTGCTCGTCTTCCTGCTGTTCTCCATCCAGCTGGTTTCCATGGGCGCGATGGAAATGAGCGGGCCGTTCTGGCCTGTGCATTTGCGCCAGCTGACCAGCAACGACGCGCTGTTCAGCTTTGCCAGCACGGCGGTGTACGTCGGCCCGATGCTGGGCATCATCCTGACCAGTGCCTTCTGGGGCCGGATCGGTGATCGTTACGGTCACAAGCTGATGATGATCCGCGCGCTGGCGGGGCTCTCGTTGACCCAGCTCGGGCTGGCATTGAGCAGCGATATCTGGGTAATCCTGCTCCTGCGTTTCCTGCAAGGCGCCTTCGCCGGTTATATCGCCCCGGCCCAGGCCTATGGGGTGAGCATCGAGGCACCGTCGCGGCGGGCCAGGCTGTTTGCGATCCTGCAGATTTCCACCAACGTCGGTTCGTTGCTCGGGGCGGTGGTCGGCGGGCTGATTCTCGATCATGCGACGTTTTTCTGGATCAACATCGTCGCCTCGGGCCTCTGCGCCGCATGTACCGTCGTCGCGGCGCTGGCGTTGCCCAACGTGGCGCCAGTAAAAAAAGCACCGCTGGCAGGCAAGCCTCCCCTGCCGCCCAGGCTGTTCGACCCGGCGATCAATTGGCTGCTGGGCATCATGGGCCTCCTGCTGCTGGCGCGAATGCTGCCGCAGACTTCGTTTTCCTTGTACGTGGGGGCGACCTTCGAGGTCAGCAATGCCATGGTCGGGCTTTGCTACGGCTTGCTAGCCCTGGGCTTCATTCTTTGTGCGACGTCCTGGTCGCGCTACTTCGAACGGCGCAACCCGGCGCAAACGCTGCAGGCCATGGCGAGCATTGTCATCGGCCTGGTCATCGTCACCGCCGTGGCCGGCCTGACGCGCCAGCCGGTCGTCTTCGCCCTCGCCTATTTCCTCTGGGGCCTGCTGTTGGGCGCAACCACGCCGGTGCTGACGGCGCTCATCTCCCGAAGCGTCGACAACAGTCGCCAGGGCCAGGTGCTGGGGTTGGCCCAGGGCGTTTCACAGACGGCATCGATCATTGGCATCTCCCTTGGCGCATTGCTCAGCCAGGTGTATGGCCTGAAGCACATTTTTCTTTATGTCTGCCTCGCCTACGCAATCGCACTGGTGCCGTTGATGCTGCTGCGCCACAAACCACTCGGAATGGCCGACAGGGCTGGCGAATAG	MPHIGLPQASSVRLLVFLLFSIQLVSMGAMEMSGPFWPVHLRQLTSNDALFSFASTAVYVGPMLGIILTSAFWGRIGDRYGHKLMMIRALAGLSLTQLGLALSSDIWVILLLRFLQGAFAGYIAPAQAYGVSIEAPSRRARLFAILQISTNVGSLLGAVVGGLILDHATFFWINIVASGLCAACTVVAALALPNVAPVKKAPLAGKPPLPPRLFDPAINWLLGIMGLLLLARMLPQTSFSLYVGATFEVSNAMVGLCYGLLALGFILCATSWSRYFERRNPAQTLQAMASIVIGLVIVTAVAGLTRQPVVFALAYFLWGLLLGATTPVLTALISRSVDNSRQGQVLGLAQGVSQTASIIGISLGALLSQVYGLKHIFLYVCLAYAIALVPLMLLRHKPLGMADRAGE	PGPT0029185_314	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
D1-35_03565	516	fecI_6	COG1595	putative RNA polymerase sigma factor FecI	ATGAGCGATCCAGGGTCAGCGGTCAACGATTGTCACCTGCGCACCGTCGCAGACCTCTACAGCGGACACCATGGCTGGTTGTACGCCAGGCTTTATCGAAAACTGGGCAATGCGCTGGACGCCGCCGACCTGGCCCATGACACGTTCATTCGCATCCTCGCCTCGAAGGTGGCGGTGATCGAGGAACCGCGTGCGTACCTGAGCTGCGTCGCCGGGGGCATCCTGGTCAACTGGTTCCAGCGCAAGGCACTCGAACGCGCCTACCTCCAGGCACTGGCGACATTACCCGAGCCCGAGGCGCCCTCGCCCGAACGACGCTTGCTGGTGCTCGAGACGCTGCATGAAATCGACGCCATGCTCGACACCCTGCCGCCCCTGGTAAAGCGTGCGTTCCTGCTGTCGCAGATCCATGGCCTGAAATATGACGACATCGCCACGCAACTCGGCGTTTCGCTGATCACCGTCAAGCGCTACATGAAACAGGCTTTCCTGCACTGCCTGATGCTGGTGGACTGA	MSDPGSAVNDCHLRTVADLYSGHHGWLYARLYRKLGNALDAADLAHDTFIRILASKVAVIEEPRAYLSCVAGGILVNWFQRKALERAYLQALATLPEPEAPSPERRLLVLETLHEIDAMLDTLPPLVKRAFLLSQIHGLKYDDIATQLGVSLITVKRYMKQAFLHCLMLVD	PGPT0003900_298	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003900-prhI|fecI-K23514	NA	NA
D1-35_03566	966	fecR_4	COG3712	Protein FecR	ATGCCCGCCCATGACCGCCACGCCCTCGACCCGGCCATTCTCAACGAAGCCGCCGATTGGCTGATGCGCCTGAGCGAAGGCAGCGTCAACGACGCCGAACGCCTGGAGTGGGAACGCTGGCGTACCAGCAGCCCGGCCCACCGCCAGGCCTGGGCGCGGGCCGAACTGCTGCTGAGCAAGCTGCAAGGCTTGCCGCCCGCGCTGGCGATGCCGGCGCTGGACCGCCCGAGCAATCCGGCGCGGCGTGCCGCCATGGGCAAGCTGGCCGCCCTGCTCGCCCTGGCGCCATTGGCCTGGGGCAGCTGGAAGCTCAACGACTGGCAACAGTGGACCGCCGATTACCGCGCTCCGGTGGGCGAGCGGCGCGACCTGACCCTGACCGACGGCACCCGCCTGACGTTGAACACCGACACCGCAATCGATGTATTTTTCGACGAACACCAGCGCCTGCTGCTGTTGCGCCGAGGCGAAATACTGGTCCAGACCGCAGCGGACCCAGCAGCGCTCGCCCGGCCGTTCCGGGTGCAGACCGACGAAGGCCGGATGCAGGCGCTCGGGACGCGCTTCAGCGTTCGCGAAGACACCGGCCATACTCGCCTCGTCGTGCTGGAAGGCGCGGTGCGCATCGAGGTCAAGGGCATCGGCGAGCAAGTGGTCGGGGCTGGCCAGAGCAGCGGTTTTACCGCCCGGGGCATCGACGCCCTGAAACCTGCCGACAAGTCGGTGCTGGCCTGGACCCAGGGCATGCTGATGGCCGACAACATGCGCCTGGCGGATTTCGTCAACGAACTGAGCCGTTATCGCAACGGCGTCCTGCGTTGCGACCCGGCGATCGCCAACCTGCGGATATCCGGCGCCTTTCCCCTGAACGACAGCCGGCAGACCCTGAACATGCTCGCCCGAACCTACCCCATCCGGGTCACATCCCGCCTGGGCGATTACTGGGTCATGCTGGCGCCGGCTTGA	MPAHDRHALDPAILNEAADWLMRLSEGSVNDAERLEWERWRTSSPAHRQAWARAELLLSKLQGLPPALAMPALDRPSNPARRAAMGKLAALLALAPLAWGSWKLNDWQQWTADYRAPVGERRDLTLTDGTRLTLNTDTAIDVFFDEHQRLLLLRRGEILVQTAADPAALARPFRVQTDEGRMQALGTRFSVREDTGHTRLVVLEGAVRIEVKGIGEQVVGAGQSSGFTARGIDALKPADKSVLAWTQGMLMADNMRLADFVNELSRYRNGVLRCDPAIANLRISGAFPLNDSRQTLNMLARTYPIRVTSRLGDYWVMLAPA	PGPT0003910_4936	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003910-prhR|fecR-K07165	NA	NA
D1-35_03567	2436	fatA		Ferric-anguibactin receptor FatA	ATGCCCGTTGCCCGCCCCCTGCGTTCGGATCGCAAGCTGAATCTGGCGATTCGCAGTGCCATGCTCAGCGTTGCACTTTCCACCTTGAGCCCGTGCACCTGGGCGGCACCGGGCGCGCCGCTGGACAACGTTGCCAGCCAGTCCTACAACATACAGCCAGGTCCCTTGGGTGCCACGTTATCGGCGTTCGCCGTGCAGGCCGGCATCGCATTATCGTTTGAACCCTCCCTGACCCAAGGCTTGAACAGCCCGGGCCTTTCAGGGCAGTTCACCGCGCGTGAAGCGTTTACCCGATTGCTGGCCGGCAGCGGCCTGGAACTGGTCGCCCGCGACGATGGCAGCTACACCCTGGAAAAATCCGCCGGCGACGGGGGGCTGGCCCTGGCGCCAACCACCATCAATGCCGCCGAGGTGCGCCCCGGGGATTTGCCGCCGACCTACAGCGGTGGCCAGGTGGCCCGTGGCGGCCGGGTTGGCCTGCTGGGTAACAAGGACCTGATGGACACGCCATTCAGCGTCAGCAACTACACCTCGACCCTGATGAAGGACCAGCAGGCCGTGACCGCCGCCGACGTGCTGGAGCGCGACTCCTCGGTGCGCTCCACCGGCCAGACCGGCGGCATCGTCGATTCGTTCTTCATTCGCGGTTTCCCGGTGGGCGAAGGCAACCTGGGTGAGCTGGCGTTCGACGGCGTGTACGGCGTGGCGCCGAACTACCGGGTGTTCACTGAATATGCCGAGCGCATCGAGGTCATCAAGGGCCCGGCTGCGCTGCTGTACGGCATGTCGCCCAACAGCGGCGTCGGTGGCGTGATCAACATCGTGCCCAAGCGCTCGCTGGACCAGGACCTGACTCGCGTTACCGCCAGCTACGCCATGGACACCCAGGCAGGCGGGCATGTCGACATCAGCCGCCGCTTCGGCGAGGAACGCCGCTTCGGTGTGCGCGTCAACGGCAGCCTGCAGGGTGGCGACACCGCGATCGACAAGCAGTCCCGGGATGTCGGCATCGGTGCGATCTCCCTGGATTACCAGGGCGACCGGTTCAGGACCAGCCTGGACCTGATCAGCCAGGAAGAACAGTGGGACGCACCCTCCCGGCCGTTTGCCATCGCCAGCGGTGTCGAGGTGCCTTCGGCGGCCAACGGGCGCAGCAACGTGACCCAGGAATGGGGCTGGTCCGAAACCCGCGACAAGTCGGCGCTGCTCAGTGGTGAATATGACCTGAGCGACAACCTGACGGTATTCGGCCACGCCGGGGGCGGCAAGTCCGATGTGGCACGACTGTCGGACCAGACCCCGACGATCCTCAACAGCGCCGGTGACACCCGCTCGGTACCGGGCTACTACAAGTTCGAGGTGGAGCGTTACACCGTCGATGCCGGTGCCCGTGCCCGCTTCGAAACCGGTCCGGTCAGCCACAGCGCCACCTTGCAGGCCAGCCGCTATCGCGATGAATTGCGCCGAGGAATCAATTCCGGCGCCCCGGTCTTTTCGAATATCTATCACCCGGTGGCGCGCGACAAACCGTCCATCGCATCGCCCGATGTGGCGAAGGTCTCCGATACCGAACTGTCCGGCGTGGCCCTGGCCGATACCTTGTCGATCCTCGATGAACGGGTCCAGGTAACGCTTGGCCTGCGCAAGCAGAGCATTGAATCAAACAACTACAACACCCTCGGGAATGTCACCAGCGCCTATGACGAAAGCGAAACCACGCCTTTGTTCGGCGCGGTGGTCAAGCCCTGGGAACATGTGTCGTTCTACTACAACTACATCGAAGGCCTGAGCAAGGGCGACACTGCGCCGGCCACTGCGAGCAACTCGGGCGAAATCTTCAAGCCCTACATCTCTCGCCAGCAGGAGGTCGGGGTCAAGGTCGACTACGGCACGTTCACCTCGACCCTGGCGCTGTTCCAGATCAAGAAGCCCGCCGGCGAATTGACCAACGGCACGGCCGGTGGCGTGTATTCGGTCCAGGGCGAGCAGCGCAACCGCGGCATCGAACTGAACATGTTCGGCGAACTGCGCGAGGGCACGCGTCTGCTCGGTGGCGTCACCTTGCTCGACGGCGAACTCACCAAAAGCGGGACCGCCGCCAATCGCGGCAACAAACCGGTGGGCGTGCCCGAAGTGCAGGCCAACCTCTGGGCCGAATGGGACACCCCCTGGGTCCAGGGCCTGACGTTGACCAGTGGAGCGATCTACACCGGCAGCCAATACGTCAACCAGGCCAATACCCAAGAGCTCGATCCGTGGACACGCTTTGATGCCGGCGCCCGCTACAGCACGGTACTCGATGGCCGGCCGACCACGCTGCGCGCCACGGTGCAGAACGTGTTCGACCGCGAATACTGGTCCGGCGTGGCCTCCTACGGCGCGTTCTCCCAAGGCGCGCCACGCACCCTGTTGCTTTCAGCGACGGTCGACTTCTGA	MPVARPLRSDRKLNLAIRSAMLSVALSTLSPCTWAAPGAPLDNVASQSYNIQPGPLGATLSAFAVQAGIALSFEPSLTQGLNSPGLSGQFTAREAFTRLLAGSGLELVARDDGSYTLEKSAGDGGLALAPTTINAAEVRPGDLPPTYSGGQVARGGRVGLLGNKDLMDTPFSVSNYTSTLMKDQQAVTAADVLERDSSVRSTGQTGGIVDSFFIRGFPVGEGNLGELAFDGVYGVAPNYRVFTEYAERIEVIKGPAALLYGMSPNSGVGGVINIVPKRSLDQDLTRVTASYAMDTQAGGHVDISRRFGEERRFGVRVNGSLQGGDTAIDKQSRDVGIGAISLDYQGDRFRTSLDLISQEEQWDAPSRPFAIASGVEVPSAANGRSNVTQEWGWSETRDKSALLSGEYDLSDNLTVFGHAGGGKSDVARLSDQTPTILNSAGDTRSVPGYYKFEVERYTVDAGARARFETGPVSHSATLQASRYRDELRRGINSGAPVFSNIYHPVARDKPSIASPDVAKVSDTELSGVALADTLSILDERVQVTLGLRKQSIESNNYNTLGNVTSAYDESETTPLFGAVVKPWEHVSFYYNYIEGLSKGDTAPATASNSGEIFKPYISRQQEVGVKVDYGTFTSTLALFQIKKPAGELTNGTAGGVYSVQGEQRNRGIELNMFGELREGTRLLGGVTLLDGELTKSGTAANRGNKPVGVPEVQANLWAEWDTPWVQGLTLTSGAIYTGSQYVNQANTQELDPWTRFDAGARYSTVLDGRPTTLRATVQNVFDREYWSGVASYGAFSQGAPRTLLLSATVDF	PGPT0003790_9341	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
D1-35_03568	1173			hypothetical protein	ATGCAGATTCAATCTCTGACGCGCTCATCGCTCATCGCCTGGCTGCTGGGTGCTACCGCCCTGCTGCTGAGCGGCCTGGTGTTTTCAGACACCTTGCCCGCCACCAGAACCACCGTCACCGACTTGCTCGGCCGCCAGGTCCAGGTGCGCATTCCGGTGCAACGGGTGATCCTCGGCGAAGGTCGCCAGTTGTACCTCGTCGCGGCACTCGACACCGACAACCCGATCCGCCGCATCGTCGGTTGGCGCAAGGACCTGATCCAGTCCGACCCGGACACCTACGGCGCCTACCTGCGGCGGTATCCGGCAATTGCCCGGATTCCGACCTTCGGCGGTTTCGAAGACGGCACCTTCGACATCGAGCAAGCGATCAGCCAGCAACCGGACGTGATCGTCCTCAACATCGAGGCCCAGCACGCCACCGAAGACGCGCGCCACATCGAGAAACTCGATGCGCTGGGCATTCCGGTGGTCTACGTCGACTTTCGCAACAACCCGATGCAGAACACCGAACCGACCATGCGCCTGTTTGGCCAGCTGTTCGGCGAAGAGGCACGCGCCGAGGCGTTCATCGCCTTTCGCAACCAGCAGATCCGTCGCGTCACCGATGTGATCCAGGCCCGCCAGCCGCCCCGCCCGAAAGTGTTCATCGAACGCATCGGTGGCTACACCGACGATTGCTGCCTGAGTTTCGGCAACGAAAATTTCGGCCGTTTCGTCGAGCTGGCCGGGGGCCGCAACATTGCCAGCGCAATCATTCCCAACACCTTTGGCCAGTTGAACGCGGAACAGGTGATCGTCGCCAACCCGGAACAGGTGGTGGTCACCAGCGCCAACTGGGAGGCCTTTGCGCCGGGCGGGCACTGGGTCGGTGTCGGGCCCGGCGCCGATCTGGCCGAGGCGCGGCGCAAATTGCAGTGGTACACCGCCCGCCCGGCCTATGCCGGGATCAAGGCTCAGCAAACCCAGGGCTTTCATGCCATCTGGCACCAGTTCTACAACAGCCCGTACCAGTTCATCGCCATCCAGCAACTGGCCAAGTGGTTCCATCCGGAGCTGTTCACCGACCTGGACCCCGACGCGACGTTTCGCGAGTTCCACCAGCGCTTCTTGCCTGTGCCCTATGAGCCAGGCTATTTCGTCAGCCTCAAGCCCGCGCAGGCCCAACCATGA	MQIQSLTRSSLIAWLLGATALLLSGLVFSDTLPATRTTVTDLLGRQVQVRIPVQRVILGEGRQLYLVAALDTDNPIRRIVGWRKDLIQSDPDTYGAYLRRYPAIARIPTFGGFEDGTFDIEQAISQQPDVIVLNIEAQHATEDARHIEKLDALGIPVVYVDFRNNPMQNTEPTMRLFGQLFGEEARAEAFIAFRNQQIRRVTDVIQARQPPRPKVFIERIGGYTDDCCLSFGNENFGRFVELAGGRNIASAIIPNTFGQLNAEQVIVANPEQVVVTSANWEAFAPGGHWVGVGPGADLAEARRKLQWYTARPAYAGIKAQQTQGFHAIWHQFYNSPYQFIAIQQLAKWFHPELFTDLDPDATFREFHQRFLPVPYEPGYFVSLKPAQAQP	PGPT0003765_536	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
D1-35_03569	1059	hmuU_1	COG0609	Hemin transport system permease protein HmuU	ATGAATGGCCGTATCGAGGGTATCGCCCTGGGCACGATTTACCGCGAGCAGGTCTGGCGCAAACGCTTGATCCTGATCGGCCTGGCCCTGTTGCTGCTGTTCAGCGTGCTGCTCGACCTGGCCCTCGGCCCGGCCAGCTACAGCCTGGATGAAGTCCTGGGCGCGCTGTTCTCTCCGGATGCCGCGGCGCCGCAAGTGCGGGTGGTGATGTGGGATATCCGCCTGCCGGTGGCGCTGATGGCCGTGGCCGTGGGCGCCGCGTTGTCCCTGGCCGGCGCGCAGATGCAGACCATCCTCAACAACCCGCTGGCGAGCCCATTCACCTTGGGCATCTCGGCGGCAGCCAGTTTCGGCGCGGCCCTGGGCTTGGCATTCGGCGTGGCCCTGGTGCCGGTGATCGCCCAATACATGGTGCCGCTCAATGCCTTTATCATGGCGATGCTCTCGGCGCTGCTGATTCATGTCCTGAGCCTGCGCCGGGGCATGACCAGCGAAACCATCGTGCTGCTCGGTATCGCCCTGGTCTTCACCTTCAATGCGCTGTTGGCGCTGGTGCAGTTCTTCGCCACCGAGCAGGCCGTGGCCGCCGTGGTGTTCTGGACCATGGGCAGCCTGACCAAGGCCACCTGGCCGAAACTCGGCGTGATCTGCCTGGTAATCCTCGTCACCTTGCCGATTTTTGCCCGCCGCGCCTGGGCCATGACCGCCCTGCGCCTGGGGGATGAAAAAGCCGCGAGTTTCGGCATCAACGTGCGCAAGTTGCGCTTGCAGACGCTGATCATGGTCAGCCTGCTGGCCGCGTTTCCAGTGGCGTTTGTCGGCACCATCGGCTTCATCGGCCTGGTGGGGCCGCACATCGCCAGGATGCTGATCGGCGAGGACCAGCGTTTCTTCCTGCCGGCCTCACTGCTGACCGGCGCGCTGATCCTGTCGGCCAGTTCGGTGGTGAGCAAGACCCTGATACCCGGGGCGATCTTCCCGATCGGCGTGGTCACGTCGCTGATCGGCGTGCCGTTCTTCATTTCTCTCATTCTGGGCGGCAGGAAACAGTCATGGTGA	MNGRIEGIALGTIYREQVWRKRLILIGLALLLLFSVLLDLALGPASYSLDEVLGALFSPDAAAPQVRVVMWDIRLPVALMAVAVGAALSLAGAQMQTILNNPLASPFTLGISAAASFGAALGLAFGVALVPVIAQYMVPLNAFIMAMLSALLIHVLSLRRGMTSETIVLLGIALVFTFNALLALVQFFATEQAVAAVVFWTMGSLTKATWPKLGVICLVILVTLPIFARRAWAMTALRLGDEKAASFGINVRKLRLQTLIMVSLLAAFPVAFVGTIGFIGLVGPHIARMLIGEDQRFFLPASLLTGALILSASSVVSKTLIPGAIFPIGVVTSLIGVPFFISLILGGRKQSW	PGPT0003770_2611	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
D1-35_03570	756	fepC_1	COG1120	Ferric enterobactin transport ATP-binding protein FepC	ATGGTGACGATCGAGCTGCAAGGTGTCGGCGCTCGTTATGGTCGTCGGTCGATACTGGACGGGATCACTACGCCGCTGCTCACGGGTGGCGAGGTGGTGGCGGTGGTGGGGCCCAACGCGGCCGGAAAATCGACCCTGTTCAAACGCATCGCCGGCCTCATCGACGGCCCCGGCCATGTTCGCCTGGAAGGCTCGCGCAGGGGCCAGCAGGGCATTTGCTACATGCCGCAGAACCTCAACGCCAACGCCCGGCTGACGGTCTACGAATCGGTGCTGCTCGCGCGCAAACAGCAGGCGCCCGGCTGGACAGTGCAAGCTGATGAGCTGGAAGTGGTGGACCGCATCCTCGCGTCCCTGGGCATCAGTGATTTGTCGTTTCGCAACCTCGGTGAACTGAGCGGTGGGCAACAGCAACTGGTGTCCATCGCCCAGACGCTGGTGCGCGAGCCCGAAGTCCTGTTGATGGACGAACCCACCAGCGCCCTGGACATGCACCGCCAGGTCCAGGTCCTGAGCTTCATGCGCGCCCTCGCCCGCCAACACTCGATCATCGTGTTCATTGCCATTCACGACCTGAACCAGGCGTTGCGCTTTGCCGACCAGGTGCTGGTCATCGCCGAGGGCACCCTGCAAGGCTGCGGTCGAAGTGAAGAAGTGATCACCGAGCAGATGCTGCGCAACGTGTACCGGGTCCAGGCCCGGATCGAACGCTGTTCAAGGGATGAGCGGCACATCATCGTGGACGACGTGGTTTGA	MVTIELQGVGARYGRRSILDGITTPLLTGGEVVAVVGPNAAGKSTLFKRIAGLIDGPGHVRLEGSRRGQQGICYMPQNLNANARLTVYESVLLARKQQAPGWTVQADELEVVDRILASLGISDLSFRNLGELSGGQQQLVSIAQTLVREPEVLLMDEPTSALDMHRQVQVLSFMRALARQHSIIVFIAIHDLNQALRFADQVLVIAEGTLQGCGRSEEVITEQMLRNVYRVQARIERCSRDERHIIVDDVV	PGPT0003760_8379	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
D1-35_03571	780	yfcA_2	COG0730	putative membrane transporter protein YfcA	ATGCCTTTTGAACTCAGCGTCGACCTTTCTACCCTCGCTATCCTTGCCGTCGTCGCGTTCATCGCCGGCTTCATCGACGCCATCGCTGGCGGCGGTGGGCTGCTGACCACGCCGGCGTTGCTGACCGCCGGCCTGCCACCGCACCTGGTGCTGGGCACCAACAAGCTCAGCTCGACCTTCGGCTCAGCCACGGCCAGTTTTACCTTTTACAAGCGCAAGCTGTTTCACCCACGGCAATGGACCCACGCCCTCGTCGGCACGCTGGTCGGTGCCTTGGTCGGCGCCGTCGTTGCTCATTACCTGCCCGCCGAGTGGCTGAACAAGATGCTGCCGGTGATTGTCTTTGCCTGTGGCCTGTACCTGTTGTTCGGCGGCACGCCCAAGGCGCCGCTGGACAGCAATGCGCCGATCAAGAAGACGTGGCAGTCATCCCAGGGTTTCACCTTGGGTTTCTACGACGGCGTGGCCGGCCCGGGCACCGGTGCGTTCTGGACCGTCAGCAGCCTGCTGCTCTACCCCATCGACCTGGTCAAGGCCAGCGGCGTGGCCCGCAGCATGAACTTCGTCAGCAACATCGCGGCGCTGTCGGTGTTCATCTTTTCGGGCCAGGTGGATTGGATCATCGGCCTGAGCATGGGCCTGTCGGTGATGGTCGGCGCGTTCTTCGGCGCGCGCACCGCCATCAGCGGCGGCGCGAAGTTCATCCGCCCGGTATTCATCACCGTGGTGCTGGGCCTGACCGTGCGCCTAGCCTGGCAGCACTGGTTCAGCGTGGCCTAG	MPFELSVDLSTLAILAVVAFIAGFIDAIAGGGGLLTTPALLTAGLPPHLVLGTNKLSSTFGSATASFTFYKRKLFHPRQWTHALVGTLVGALVGAVVAHYLPAEWLNKMLPVIVFACGLYLLFGGTPKAPLDSNAPIKKTWQSSQGFTLGFYDGVAGPGTGAFWTVSSLLLYPIDLVKASGVARSMNFVSNIAALSVFIFSGQVDWIIGLSMGLSVMVGAFFGARTAISGGAKFIRPVFITVVLGLTVRLAWQHWFSVA				NA	NA	NA	NA	NA
D1-35_03572	831	nudC_2		NADH pyrophosphatase	ATGATTTCACGCTGGACCACCGCAGTACTCGACACCGACCTCGCGGGCGGCTGGGCCGTGGCCCGCAGCCCGGAGGGCTTTCTCTACGACGACAACGGCGCGTTGTTTCCCCGCGAGTGGCTCAAGCGCCAGGATGTGTCGATTCTCGCCGAGCACGGCATTGGCCATCTTGACGGCGAGCCGGTCTACCTGCTGGAACTGCATAGCTCGCTGGAGATTCCCGGCTGCAACTGGAAAGGCCTGCGGGCCTTCATGCTCGAGGACGACCACACGCTGTTCAAGGTGCTGGGTTATGCGGCGCAGATCGGCACCTGGGCTCGCGAACATCGCTTTTGTGGCAGTTGCGGCCAGCGCATGATCCAGGTGCCGCGAGAGCGGGCGATGTACTGTGAGGCATGCGATCTGCGGCATTACCCGCGAATCTCGCCGAGCATGATCGTGCTGATTACCCGTGGCGATGAGGTCTTGCTGGCCCGTTCGCCCCGGTTTGTCACCGGTGTCTACAGCACCCTGGCCGGGTTTGCCGAGCCGGGCGAGTCGGCCGAGGATTGCCTGGTCCGGGAGGTGCGCGAGGAGGTCAGCATCGAGGTGAAGAACATCCAGTACGTGGGCAGCCAGTGCTGGCCGTTTCCCCATTCGATGATGCTGGGTTTTCATGCCGAGTATGCCGGCGGTGAGATCGTGCCCCAGGAAGACGAGATCGAGGACGCCCAATGGTTCAGCGTCCATGACCTGCCGCCGTTGCCGGCCTCGCGCTCCATCGCCCGCTACCTGATCGACCTGTATGTCGCCCGCCGTCTAGGCCACGCTGAACCAGTGCTGCCAGGCTAG	MISRWTTAVLDTDLAGGWAVARSPEGFLYDDNGALFPREWLKRQDVSILAEHGIGHLDGEPVYLLELHSSLEIPGCNWKGLRAFMLEDDHTLFKVLGYAAQIGTWAREHRFCGSCGQRMIQVPRERAMYCEACDLRHYPRISPSMIVLITRGDEVLLARSPRFVTGVYSTLAGFAEPGESAEDCLVREVREEVSIEVKNIQYVGSQCWPFPHSMMLGFHAEYAGGEIVPQEDEIEDAQWFSVHDLPPLPASRSIARYLIDLYVARRLGHAEPVLPG	PGPT0013440_1971	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013440-nudC-K03426	NA	NA
D1-35_03573	813	crt	COG1024	Short-chain-enoyl-CoA hydratase	ATGTCGCAATACCAAGCGTTCCACGTCGAACTTGCAGACAAAATCGCCCATGTGCAGATCAATCGCCCCGACAAGATCAATGCCATGAACGCCGCGTTCTGGAGCGAGATCATCGAGATCTTCCAGTGGATCGACGATACCGACGAAGTGCGGGTGGTGGTCCTGAGCGGTGCCGGCAAGCATTTTTCGTCGGGTATCGATCTGATGATGCTGGCCGGCGTGGCGAACGAACTGGGCAAGGACGTCGGCCGCAACGCCCGTGTGCTGCGGCGCAAGATCCTCGAACTGCAAGCCTCGTTCAACGCCGTGGACAATTGCCGCAAACCGGTTCTCGCGGCGATCCAGGGGTATTGCCTGGGCGGTGCCATCGACCTGATTTCTGCCTGCGACATGCGCTACGCGGCCGAGGATGCGCAATTCTCCATCAAGGAAATCGACATCGGCATGGCGGCCGATGTTGGCACATTGCAACGCTTGCCCCGGATCATCGGGGACGGCATGCTGCGTGAACTCGCTTATACGGGGCGCACCTTTGGTGCCGACGAAGCGCGCAGCATTGGTCTGGTCAATCGTGTCTACAGCGATACCGCCAGCCTGCTTGACGGAGTGATGGGCATCGCCCGGGAAATCGCCGCCAAGTCGCCGATCGCCATAGCCGGCACCAAGGAAATGATTGGCTACATGCGTGATCACGGCATCGACGACGGGCTGGAATACGTCGCTACGTGGAATGCCGCCATGCTGCAATCGAATGACCTGCGCGTGGCCATGGCCGCCCATATGAGCAAACAGAAACCCGAATTTCTGGATTGA	MSQYQAFHVELADKIAHVQINRPDKINAMNAAFWSEIIEIFQWIDDTDEVRVVVLSGAGKHFSSGIDLMMLAGVANELGKDVGRNARVLRRKILELQASFNAVDNCRKPVLAAIQGYCLGGAIDLISACDMRYAAEDAQFSIKEIDIGMAADVGTLQRLPRIIGDGMLRELAYTGRTFGADEARSIGLVNRVYSDTASLLDGVMGIAREIAAKSPIAIAGTKEMIGYMRDHGIDDGLEYVATWNAAMLQSNDLRVAMAAHMSKQKPEFLD	PGPT0001860_2901	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
D1-35_03574	1491	cusC	COG1538	Cation efflux system protein CusC	ATGACCGACCGTTCGCTTTTCAACCTTGCCGCACCGCTGGCAGCCGCCCGTGGCTCGCGGGTATTGAGCCTGGCGCTGTGCGTGGCGCTGCTCAGCGCTTGCGCGATCGGCCCGGATTACCAGCGCCCGGCGGCCGCTGCGCCGGTGCAGTACAAGGAAGCCCAAGGGTGGCGCCAGGCCAACCCCAGCGACGCCTTGGCCCGGGGCGCCTGGTGGGAGCTGTACAGCGACGCCCGGCTGAATGAGCTGGTGGCAAAGCTCAACGCATCCAACCAGACCGTGGCCCAGGCCGAAGCCCAGTATCGTCAGGCCCAGGCGTTGGCGCGCAGTGCGCGGGGAGCTTTTTTCCCAACGGTCGACCTTACCGTCGGCAAGAACCGCTCCAGCCAAGGCACCGGCAGCAGCAGTTCGAGCCTGAGCAGTTCTTCCAGCGGCATTCGCGACACCTACAGCGCCCAGGCCGGGGTGAGTTGGGAAGCGGATGTCTGGGGCAAGTTGCGCCGCACCCTGGAAGCCGATGAAGCCAGCGCGCAAGCCAGCTTTGCCGACCTGGCGGCGATGCGCCTGAGCCAACAATCGGAACTGGTGCAGAACTACTTGCAGTTACGGGTCATCGACCAACAGAAGCGCTTGTTGCAGACCACGGTCGATAACTATCAGCGCTCATTAAAAATGACCGAAAACCAGTACCGCGCCGGGGTGTCGGGCAAGGACGCGGTGGCCCAGGCGCAGAACCAGCTCAAGACCACCCAGGGCGACCTGATCGACCTGATCTGGCAGCGGGCGCAGTTCGAAAATGCCATCGCCGTGCTGATCGGCCTGCCTCCCGCCGAATTCAGCCTGGCCGAAACCGAGGACGTCCCGGCGCTGCCGCAGGTCCCGGTGGCGGTACCCTCGCAGTTGCTTGAGCGGCGTCCGGACATCGCTTCAGCGGAACGCTCGGTGATGGCCGCCAACGCCAACATTGGCGTGGCGAAGGCGGCCTATTATCCGGACCTGACCCTGAGCCTGAGTGGCGGCTACAGCAGCAGTACCTACGATAACTGGATAAGTGTGCCGAACCGCTTCTGGTCGGTCGGGCCACAGCTGGCGATGACGCTGTTCGACGGCGGCCAGCGCTCGGCGGAAGTCGACCGCAGCGTCGCGGCGTACGACCAGACCGTGGCGACCTATCGGCAGACCGTGCTCGACGGTTTTCGTGAAGTCGAGAACTACATGATCCAGCTCAAGGTGCTCGAAGACGAAGCCCGCGTGCGCCAGGAAGCACTCGACGCCGCCCGCGAGTCCCTGCGCCTGACCCAGAACCAGTACCGGGCCGGCTTGATCGGCTATCTCGACGTGGTAACCGTCCAGGCCACCGCCCTGAGCAACGAACGCAGCATGCTGAGCCTGCAACAGAGCCGGTTGATCGCCAGCGTGCAACTGATCGCGGCGCTGGGCGGCGGGTGGGATGGGCAGTTGCAGGCGAGCGAACAGCCAGCAGCGGACTGA	MTDRSLFNLAAPLAAARGSRVLSLALCVALLSACAIGPDYQRPAAAAPVQYKEAQGWRQANPSDALARGAWWELYSDARLNELVAKLNASNQTVAQAEAQYRQAQALARSARGAFFPTVDLTVGKNRSSQGTGSSSSSLSSSSSGIRDTYSAQAGVSWEADVWGKLRRTLEADEASAQASFADLAAMRLSQQSELVQNYLQLRVIDQQKRLLQTTVDNYQRSLKMTENQYRAGVSGKDAVAQAQNQLKTTQGDLIDLIWQRAQFENAIAVLIGLPPAEFSLAETEDVPALPQVPVAVPSQLLERRPDIASAERSVMAANANIGVAKAAYYPDLTLSLSGGYSSSTYDNWISVPNRFWSVGPQLAMTLFDGGQRSAEVDRSVAAYDQTVATYRQTVLDGFREVENYMIQLKVLEDEARVRQEALDAARESLRLTQNQYRAGLIGYLDVVTVQATALSNERSMLSLQQSRLIASVQLIAALGGGWDGQLQASEQPAAD	PGPT0028955_368	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028955-oprC|opcM-K18903	NA	NA
D1-35_03575	3105	mdtC_1	COG0841	Multidrug resistance protein MdtC	ATGAACCTCTCCGGCCCCTTCATCCGCCGCCCGGTAGCAACCATGCTGCTGAGCTTCGCCATCATGCTGCTCGGCGGTGTGTGCTTTGGCTTGCTGCCGGTGTCGCCGCTGCCGCAGATGGATTTCCCGGTGATCGTGGTCCAGGCCAACCTGCCGGGGGCGAGTCCCGAGGTGATGGCTTCCACCGTGGCGACGCCGCTGGAGCGTTCCTTCGGCGCGATCGCCGGGGTCAACACCATGAGCAGTCGGTCCAGCCAGGGTTCGACCCGGGTGATCCTGCAATTCGACCTGGACCGCGACATCAACGGCGCGGCGCGGGAGGTGCAGGCGGCCATCAACGCCTCGCGCAACCTGCTGCCCAGCGGGATGCGCAGCATGCCGACCTACAAGAAGGTCAATCCGTCCCAGGCGCCGATCATGGTGCTGTCGCTGACCTCGGATGTGCTGGAGAAAGGCCAGCTCTACGACCTGGCCTCGACGATTCTGTCCCAGAGCCTGTCCCAGGTGTCGGGCGTGGGCGAGGTGCAGATCGGCGGCAGTTCGCTGCCGGCGGTGCGCATCGAACTGGAGCCGCAATTGCTCAATCAGTACGGCGTGGCGCTGGACGACGTGCGAACGGCGATTGCCAACAGCAACGTGCGCCGGCCCAAGGGTTCGGTCGAGGACGACCAGCGGATGTGGCAAGTCCAGGCCAACGACCAGCTGGAAAAGGCCAAGGATTACGAAACACTGATCATCCGCTATCAGGATGGCTCGGTATTGCGGCTCAAGGACGTGGCCAAGGTCAGCGACGGCGTCGAGGATCGCTACAACAGCGGTTTCTTCAATGACGATGCCGCCGTGTTGCTGGTGATCAATCGCCAGGCCGGCGCCAACATCATCGAGACCGTCAACGAGATCAAGGCCCAGTTGCCGGCCTTGCAGGCCGTGTTGCCCGCCAGCGTCAAGCTGAACCTGGCGATGGATCGCTCGCCGGTGATCAAGGCGACCCTGCACGAAGCGGAAATGACCTTGCTGATCGCCGTCGCCCTGGTGGTACTGGTGGTGTTCCTGTTTCTCGGCAATTTCCGCGCTTCGCTGATCCCGACCCTGGCGGTGCCGGTGTCGCTGGTGGGCACGTTCGCGGTGATGTATCTGTACGGTTTCTCGCTCAACAACTTGTCGCTGATGGCGTTGATCCTCGCCACCGGGCTGGTGGTGGACGATGCCATCGTGGTGCTGGAAAACATCTCCCGGCACATCGATGAGGGCGTGCCGCCGCTGAAGGCCGCGTATATGGGGGCCGAGGAGGTGGGCTTCACGCTGCTGTCGATGAACGCCTCGCTGGTGGCGGTGTTCCTGTCGATCCTGTTCATGGGCGGGATCGTCGAGAGCCTGTTCCGGGAGTTTTCCATCACCCTGGCGGCGGCCATCGTCGTCTCGCTTATCGTATCCCTGACGCTTACGCCGATGCTCTGCGCGCGCTGGCTCAAACCTCACGTGCCAGGGCAGGAGAACCGCTTGCAGCGTTGGAGCCAGGGCGCCAACGAAAGAATGGTCCGTGGCTATGCGCGCACGCTGGACTGGGTACTGCGCCATCGGCGCCTGACCTTGCTCAGCCTGCTGGTGACCATCGGCGTGAACATCGCGTTGTACGTGGTGGTGCCGAAAACCTTCATGCCCCAGCAGGACACCGGCCAGTTGATCGGCTTCGTGCGCGGTGACGACGGGCTGTCGTTCAACGTGATGCAACCGAAGATGGAGATCTTCCGTCGCGCGGTGCTCAAGGACGAGGCCGTACAGAGCGTGGCCGGTTTTATCGGCGGCAACAACGGCACCAACAATGCCTTCATGCTGGTGCGCCTCAAGCCGATCAACGAGCGCCGGATTTCCGCGCAGAAAGTCATCGAGCGCCTGCGCAAGGAAATGCCCAAGGTGCCCGGCGGCCAGTTGATGCTGATGGCCGACCAGGACCTGCAGTTCGGTGGCGGCCGCGAGCAGACCACCTCGCAATATTCCTACATTCTGCAGAGCGCCGACCTGGCGTCGCTGCGCGAGTGGTACCCCAAGGTCGTCGCGGCGTTCCGCGCCTTGCCGGAGCTTACCGCCATCGATGCCCGTGACGGTGGCGGCGCACAGCAGGTAACCCTGATTGTGGATCGCGACCAGGCCAAGCGCCTGGGCATCGACATGGACATGGTCACATCGGTGTTGAACAACGCCTACAGCCAGCGGCAGATATCAACCATCTACGACAGCCTCAACCAGTACCAGGTGGTCATGGAGGTCAACCCCAAATACGCCCAGGACCCCAACACCCTCGAACAGGTCCAGGTGATTACCGCCGATGGCGCACGGGTCCCGCTGTCCGCGATTGCCCATTACGAGAACAGCCTGGAAGACGACCGGGTCAGCCATGAAGGCCAGTTCGCTTCCGAGGGCATCTCCTTCGATATGGCCGAAGGCGTGACCGTGGAGCAGGGCACGGCCGCCATCGAACGGGCGATCGCCAAGCTGGGAATGCCCGAAGACGTCATCGCGAAAATGGCCGGGACCGCCGACGCTTTCGCCGCCACCCAGAAAAGCCAGCCGTTCATGGTGCTCGGGGCGCTGCTGGCGGTGTATCTGGTCCTGGGCGTGCTGTATGAAAGCTACATCCACCCGTTGACCATCCTGTCCACGTTGCCTTCGGCCGGCGTTGGCGCGTTGCTGTCGATCTACGTTTTGGGCAGCGAGTTCAGCCTGATCTCGCTGCTGGGGCTGTTCCTGCTGATTGGTGTGGTGAAGAAAAACGCGATCCTGATGATCGACCTCGCGCTGCAACTGGAGCGCGCCGGCCAGACGCCGTTGGAGTCGATCCGCAGTGCTTGCCTGTTGCGCTTGCGGCCGATCCTGATGACGACGGTGGCGGCGATCCTCGGTGCCTTGCCGCTGTTGCTCGGCGGTGCCGAAGGTTCGGAGATGCGCCAGCCGCTGGGCCTGACCATCATCGGCGGCCTGGTGTTCAGCCAGGTCCTGACGCTCTACACCACGCCGGTGGTTTACCTTTATCTCGATAACCTGCGCCACCGCTTCAACCGCTGGCGTGGGGTGCGCACCGATGCTGCCCTGGAAACTCCGCTATGA	MNLSGPFIRRPVATMLLSFAIMLLGGVCFGLLPVSPLPQMDFPVIVVQANLPGASPEVMASTVATPLERSFGAIAGVNTMSSRSSQGSTRVILQFDLDRDINGAAREVQAAINASRNLLPSGMRSMPTYKKVNPSQAPIMVLSLTSDVLEKGQLYDLASTILSQSLSQVSGVGEVQIGGSSLPAVRIELEPQLLNQYGVALDDVRTAIANSNVRRPKGSVEDDQRMWQVQANDQLEKAKDYETLIIRYQDGSVLRLKDVAKVSDGVEDRYNSGFFNDDAAVLLVINRQAGANIIETVNEIKAQLPALQAVLPASVKLNLAMDRSPVIKATLHEAEMTLLIAVALVVLVVFLFLGNFRASLIPTLAVPVSLVGTFAVMYLYGFSLNNLSLMALILATGLVVDDAIVVLENISRHIDEGVPPLKAAYMGAEEVGFTLLSMNASLVAVFLSILFMGGIVESLFREFSITLAAAIVVSLIVSLTLTPMLCARWLKPHVPGQENRLQRWSQGANERMVRGYARTLDWVLRHRRLTLLSLLVTIGVNIALYVVVPKTFMPQQDTGQLIGFVRGDDGLSFNVMQPKMEIFRRAVLKDEAVQSVAGFIGGNNGTNNAFMLVRLKPINERRISAQKVIERLRKEMPKVPGGQLMLMADQDLQFGGGREQTTSQYSYILQSADLASLREWYPKVVAAFRALPELTAIDARDGGGAQQVTLIVDRDQAKRLGIDMDMVTSVLNNAYSQRQISTIYDSLNQYQVVMEVNPKYAQDPNTLEQVQVITADGARVPLSAIAHYENSLEDDRVSHEGQFASEGISFDMAEGVTVEQGTAAIERAIAKLGMPEDVIAKMAGTADAFAATQKSQPFMVLGALLAVYLVLGVLYESYIHPLTILSTLPSAGVGALLSIYVLGSEFSLISLLGLFLLIGVVKKNAILMIDLALQLERAGQTPLESIRSACLLRLRPILMTTVAAILGALPLLLGGAEGSEMRQPLGLTIIGGLVFSQVLTLYTTPVVYLYLDNLRHRFNRWRGVRTDAALETPL	PGPT0003595_629	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003595-mdtC-K07789	NA	NA
D1-35_03576	3096	mdtB_2	COG0841	Multidrug resistance protein MdtB	ATGAATCTCTCGCGGCTGTTCATCCTTCGCCCGGTCGCCACCACGTTGAGCATGCTGGCGATTGTCCTGGCCGGCCTGATTGCCTATCGGCTGCTGCCGGTGTCGGCACTGCCCCAGGTCGACTACCCGACCATCCGCGTGATGACGCTGTACCCGGGCGCCAGTCCCGACGTCATGACCAGCGCCGTGACCGCGCCCCTGGAGCGGCAGTTCGGGCAGATGCCGGGCCTCACCCAAATGGCTTCCACCAGTTCCGGTGGTGCGTCGGTGATCACCCTGCGTTTCAATCTGGACATCAACATGGATGTCGCCGAGCAGCAGGTGCAGGCCGCGATCAACGCCGCGACCAATCTGTTGCCAACCGATCTGCCGGCGCCGCCGGTGTACAACAAGGTCAACCCGGCGGACACCCCGGTGCTGACGCTGGCGATCACCTCCAAGACCATGCTGCTGCCCAAGCTCAATGACCTGGTGGACACGCGAATGGCGCAGAAGATCGCCCAGATCAGCGGCGTCGGCATGGTGACCATCGCCGGCGGCCAGCGCCAGGCCGTGCGGATCAAGGTCAACCCGGAGGCACTTGCGGCCGCCGGGCTGAACCTGGCCGATGTGCGGACCCTGATCGGTGCTTCCAACGTCAACCAGCCCAAGGGCAACTTCGACGGCCCGACGCGGGTCTCGATGCTCGACGCCAACGATCAGCTGACCTCGCCCAAGGACTACGCCGAACTGATCCTGGCCTACGCCAACGGCGCGCCATTGCGGCTCAAGGACGTGGCACAGATCGTCGACGGCGCGGAGAACGAACGCCTCGCCGCCTGGGCCAACGAAAACCAGGCCGTGCTACTGAACATCCAGCGCCAGCCCGGGGCCAACGTCATCGAGGTGGTGGACCGGATCAAGGCGCTGCTGCCGAGCATCACCGATAACCTGCCGGCTGGCCTCGACGTTACCGTGCTGACCGACCGCACCCAGACCATCCGCGCCTCCGTCACCGATGTGCAGCATGAACTGCTGATCGCCATTGCCCTGGTGGTGATGGTGACGTTCCTGTTCCTGCGGCGGGTCAGCGCCACGATCATTCCGTCGGTGGCCGTGCCGTTGTCGTTGATCGGTACATTCGGCGTGATGTACCTGGCCGGGTTTTCCGTCAACAACCTGACCCTGATGGCCCTGACCATCGCCACCGGTTTTGTGGTGGACGATGCCATCGTCATGCTGGAGAACATTGCGCGCTTCATCGAGGAGGGCGACAGCCCGATGCAAGCCGCGCTCAAGGGCGCCAGGCAGATCGGTTTCACCCTGATTTCCCTGACGCTGTCGTTGATCGCGGTGCTGATCCCGCTGTTGTTCATGGCGGACGTGGTCGGCCGATTGTTCCGCGAGTTCGCCATCACCCTGGCAGTGGCGATCCTGATTTCTTTGGTGGTGTCCCTGACCCTGACGCCGATGATGTGCGCCCGCTTGCTCAAGCGCGAGCCCAAGGAACAGGAGCAGGGCCGTTTCTACCGGGCCAGCGGTGCCTGGATCGACTGGTTGATCGCCGCCTACGGGCGCAAGTTGCAATGGGTGCTCAAGCATCAGCCGCTGACCCTGCTGGTGGCGGTGGGCAGCCTGGTGCTGACGGTGGTGTTGTACCTGGCCGTGCCCAAGGGCTTTTTCCCGGTGCAGGACACGGGCGTGATCCAGGGCATTTCCGAAGCGCCGCAGTCGATTTCCTTCGCCGCCATGAGCGAGCGCCAGCAGCAGCTGGCCAAGGTCATCCTCGCCGACCCGGCGGTGCAGAGCCTGTCCTCTTACATCGGTGTCGACGGCGACAACGCCACGCTCAATAGCGGACGCCTGCTGATCAACCTCAAGCCCCACAGCGAGCGGGACGACAGCGCCAGCGAGATCATCACCCGCTTGCAACCGCAGCTCGACCGGCTGGTCGGCATTCGCCTGTTCATGCAGCCGGTGCAGGACCTGACCATCGAAGACCGGGTCAGCCGCACCCAGTACCAGTTCAGCCTGTCATCGCCGGACGCCGAGTTGCTCAGCCTGTGGAGCGGTCGTCTGGTCGAGGCCCTGGCCCAACAGCCGGAACTGACCGACGTCGCCAGTGACCTGCAGGACAAAGGCTTGCAGGTCTACCTGGTCATCGATCGCGACGCCGCCTCGCGCCTGGGCGTGTCGGTGTCGAACATCACCGATGCGCTGTACGACGCTTTCGGCCAGCGACAGATCTCCACCATCTATACCCAGGCCAGCCAGTACCGTGTGGTGCTTCAGGCCCAGGCCGGGGAAAATCTCGGGCCGCAGGCGCTGGACCAGATCCACGTCAAGACCACTGACGGCGGCCAGGTCCGATTGTCGAGCCTGGCCCGTGTCGAAGAGCGTCAGGCGCAACTGGCAATCGCCCACATCGGCCAGTTCCCGGCGGTGATGATGTCGTTCAACCTGGCGCCGGGCGTGGCCCTCGGGCACGCGGTGGAGGTGATCGAAAAGGTCCAGCAGGATATCGGCATGCCAGTGGGCGTGCAGACCGAGTTCCAGGGCGCGGCGCAGGCGTTCCAGGCATCGTTGTCGAGCACTTTGCTGCTGGTCCTGGCTGCGGTGGTGACCATGTATATCGTGCTGGGGGTCTTGTACGAAAGTTACATCCATCCGATCACCATCCTGTCCACCTTGCCCTCGGCGGCTATCGGCGCGTTGCTGGCGTTGATCCTCACCGGCAATGACCTGGGCATGATCGCGATCATCGGCATCATCCTGCTGATCGGTATCGTCAAGAAAAACGCGATCATGATGATCGACTTCGCCCTGGACGCCGAACGCAACCAGGGCCTGGCTCCGCAGACGGCCATCTACCAGGCCGCGTTGCTGCGCTTTCGGCCAATCCTTATGACCACGCTGGCGGCGCTGTTTGGCGCGGTGCCCCTGATGCTCGCCACCGGCTCCGGCGCCGAGTTGCGCCAGCCGTTGGGCCTGGTGATGGTGGGCGGGTTGCTGGTGAGCCAGGTGTTGACCTTGTTCACCACCCCGGTGATCTACCTGTACTTCGATCGTCTGGGCCGTCGGTTTGCCCGGCCTGAGGAGAAAGAGGTGCGGGTATGA	MNLSRLFILRPVATTLSMLAIVLAGLIAYRLLPVSALPQVDYPTIRVMTLYPGASPDVMTSAVTAPLERQFGQMPGLTQMASTSSGGASVITLRFNLDINMDVAEQQVQAAINAATNLLPTDLPAPPVYNKVNPADTPVLTLAITSKTMLLPKLNDLVDTRMAQKIAQISGVGMVTIAGGQRQAVRIKVNPEALAAAGLNLADVRTLIGASNVNQPKGNFDGPTRVSMLDANDQLTSPKDYAELILAYANGAPLRLKDVAQIVDGAENERLAAWANENQAVLLNIQRQPGANVIEVVDRIKALLPSITDNLPAGLDVTVLTDRTQTIRASVTDVQHELLIAIALVVMVTFLFLRRVSATIIPSVAVPLSLIGTFGVMYLAGFSVNNLTLMALTIATGFVVDDAIVMLENIARFIEEGDSPMQAALKGARQIGFTLISLTLSLIAVLIPLLFMADVVGRLFREFAITLAVAILISLVVSLTLTPMMCARLLKREPKEQEQGRFYRASGAWIDWLIAAYGRKLQWVLKHQPLTLLVAVGSLVLTVVLYLAVPKGFFPVQDTGVIQGISEAPQSISFAAMSERQQQLAKVILADPAVQSLSSYIGVDGDNATLNSGRLLINLKPHSERDDSASEIITRLQPQLDRLVGIRLFMQPVQDLTIEDRVSRTQYQFSLSSPDAELLSLWSGRLVEALAQQPELTDVASDLQDKGLQVYLVIDRDAASRLGVSVSNITDALYDAFGQRQISTIYTQASQYRVVLQAQAGENLGPQALDQIHVKTTDGGQVRLSSLARVEERQAQLAIAHIGQFPAVMMSFNLAPGVALGHAVEVIEKVQQDIGMPVGVQTEFQGAAQAFQASLSSTLLLVLAAVVTMYIVLGVLYESYIHPITILSTLPSAAIGALLALILTGNDLGMIAIIGIILLIGIVKKNAIMMIDFALDAERNQGLAPQTAIYQAALLRFRPILMTTLAALFGAVPLMLATGSGAELRQPLGLVMVGGLLVSQVLTLFTTPVIYLYFDRLGRRFARPEEKEVRV	PGPT0003590_994	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003590-mdtB-K07788	NA	NA
D1-35_03577	1317	mdtA_4		Multidrug resistance protein MdtA	ATGGTTGACCACTCCATGCAATCCTCTGTTTCCCGCAAATCCCGTCGCTGGCTGTTCGGCCTGTTTGTCGTACTGGTCATCGCGCTGCTGGCCTGGAAGTTCTGGCCCGCCAGTACCGACCCGAAAAACGGCGCAGAGCAGAAAGCCGCGGCTGGACACGCGGGACGCTCGGGTGGCATGCGGCCGGGGTTTGGCGGGGCTACGGGGCCGATTCCGGTTCGGGTGGCGCCAGCGGTCACCGGGGATTTCCCCCTGTATTACAAGGCGCTGGGCACGGTCACCGCGCTCAATACGATCAATGTTCGCAGCCGGGTCGGCGGCGAGTTGGTGAAGATCGCCTTTGAAGAAGGGCAGATGGTCAAGGCCGGCGACCTGCTGGCGGAAATCGACCCACGTCCTTACCAGAATGCCTTGCTCCAGGCCGAAGGCACACTGCTGCAAAACCAGGCCCAACTGAAAAATGCCCAGGTCGACCTGGAACGCTATCGCGGCCTGTACGCCGAAGACAGTATCGCCAAGCAGACCCTCGATACCGCCGCTGCGCTGGTGGGCCAGTACCAGGGGACGGTCAAGACCAACCAGGCGGCGGTCAACGACGCCAAGCTCAACCTGGAATTCACCAGGATCCGCGCGCCGATCAGCGGCCGCGTAGGTTTGCGTCAACTGGACATCGGCAACCTGGTGGCCGCCAACGACACCACGGCCCTGGCCGTCATCACCCAGACCCAGCCCATCAGCGTCGTGTTCACCCTGCCGGAAAACAACCTCGAAACCGTGCTCGCCCGCTATCGCAGCGGAGCGAAACTACCGGTCGAGGCCTGGGACCGTGGCGATGTGAAACTCCAGGCCAGCGGTGTTCTGCAAAGCCTGGACAACCAGATCGACATCACCACCGGCACCTTGAAATTCAAGGCGCGCTACGAAAACCGCGACCAGTCGCTGTTTCCCAACCAGTTCGTCAACGTGCGCTTGCTGGCCGACACCCTCAAGGGCGTGGTCCTGGCGCCGACCGCAGCCATCCAGTTCGGCACCAACGGCACCTTCGTCTACGCCCTTGATGGCGACAGGAAAGTCACCATCAGGAAGCTCAAGATCGGTGCCAGCGATGGCGAAAAAACCATTGTCACCGAGGGCCTGGCCGCCGGCGACAGGGTGGTGCTCGAAGGCACCGACCGCTTGAAGGAGGGCAGCGAGGTGGAAGTGGTCAACGACAGCCAGGAGGTGCCGACCACGCCGACCGAACACCTGCAAGGCAAGACGGCCGCGGCCCCGACTGAGCCGACCGCGGCCGACAAGGCGAAAAAGGGCGGCGCATGA	MVDHSMQSSVSRKSRRWLFGLFVVLVIALLAWKFWPASTDPKNGAEQKAAAGHAGRSGGMRPGFGGATGPIPVRVAPAVTGDFPLYYKALGTVTALNTINVRSRVGGELVKIAFEEGQMVKAGDLLAEIDPRPYQNALLQAEGTLLQNQAQLKNAQVDLERYRGLYAEDSIAKQTLDTAAALVGQYQGTVKTNQAAVNDAKLNLEFTRIRAPISGRVGLRQLDIGNLVAANDTTALAVITQTQPISVVFTLPENNLETVLARYRSGAKLPVEAWDRGDVKLQASGVLQSLDNQIDITTGTLKFKARYENRDQSLFPNQFVNVRLLADTLKGVVLAPTAAIQFGTNGTFVYALDGDRKVTIRKLKIGASDGEKTIVTEGLAAGDRVVLEGTDRLKEGSEVEVVNDSQEVPTTPTEHLQGKTAAAPTEPTAADKAKKGGA	PGPT0003585_397	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003585-mdtA-K07799	NA	NA
D1-35_03578	552	tpx	COG2077	Thiol peroxidase	ATGGTTAACTCCGGCCTCACCATTTTCAAACCTGTCAGAAGGAATCCGTTCATGGCTCAAGTCACTCTCAAAGGCAACCCTGTCCAAGTCAACGGCCAGTTGCCCCAAGCCGGTTCCAAGGCGCCAGCCTTTTCCCTGGTTGCCGGCAATCTGTCGGACGTTTCCCTGAAGGATTTCGCCGGCAAGCGCAAAGTGCTGAACATTTTCCCAAGCGTCGACACGCCGACCTGCGCCACTTCCGTGCGCAAGTTCAACGCCCAGGCCAACGACCTGAACAACACCGTAGTGCTGTGCATCTCCGCCGACCTGCCGTTCGCCCAGGCCCGTTTCTGTGGTGCCGAAGGCCTGGAAAACGTGCAGAACCTGTCGACCCTGCGCGGAGCCGAGTTCATTGAGAACTACGGCGTTGCCATTGCCGACGGCCCGCTCAAAGGCCTGACCGCCCGTGCCGTGGTGGTGCTGGATGAAAACGACACCGTGCTGCACAGCGAGCTGGTCAAGGAAATCGCCGAAGAGCCGAACTACGACGCGGCGCTGGCTGTCCTGAAGTAA	MVNSGLTIFKPVRRNPFMAQVTLKGNPVQVNGQLPQAGSKAPAFSLVAGNLSDVSLKDFAGKRKVLNIFPSVDTPTCATSVRKFNAQANDLNNTVVLCISADLPFAQARFCGAEGLENVQNLSTLRGAEFIENYGVAIADGPLKGLTARAVVVLDENDTVLHSELVKEIAEEPNYDAALAVLK	PGPT0013105_1199	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013105-tpx-K11065	NA	NA
D1-35_03579	672			hypothetical protein	ATGAAGTTCGCCTCCATGATCGGCACCGTTTGCATCGCCTCGCTCGCGCTCGCGGGCTGCTCCAGCAAAGTCACCCAGCCGGACGAGTATTCCGGGTTCCTGGGGGACTACAGCCGGCTCAAGGAAGAAAAATCGCCGTCGGGGGCCGAGGTGATGCGCTGGGTCGATCCGAAGATCGATCTGGCGAAGTATTCCCGCATCTATATCGAACCGACCCAGCTGTACCCCAAGCCGCAAGCGACGGTGAAAATCCCGTCGGCAACATTGGCCGGCATCACCAGCTACTACGACCAGGCGCTCAAGCGTGAAGCCGGCAAGTCCCTGCCGCTGGCGACCAGCCCTGGCCCGGGTGTCCTGGTGGTGCGGGCGGCGATCACCGCGGTCAGCAGCAAGACCGAGGGCCTGAAACCCTACGAAGTGATTCCGATCGCCCTGGTGGCCGCCGCGGTCAGTACCGCCAGCGGCATTCGTGACCAGGAAACCACCCTGGGCACCGAAGCGGTGTTTCTCGACGGTGGCAATAATGCGGTAATCGCCCAGGTGGTGCGCAAGGGCACGGGTAAACCGTTGTCGAACGAGTCCCAGGTCATGAAGCCCGATGATGTCAAAGGAGTCATCGATGGCTGGGCGGCGGATCTGCATCAGTCATATTTGCAGCTCAAGGCTAAATAG	MKFASMIGTVCIASLALAGCSSKVTQPDEYSGFLGDYSRLKEEKSPSGAEVMRWVDPKIDLAKYSRIYIEPTQLYPKPQATVKIPSATLAGITSYYDQALKREAGKSLPLATSPGPGVLVVRAAITAVSSKTEGLKPYEVIPIALVAAAVSTASGIRDQETTLGTEAVFLDGGNNAVIAQVVRKGTGKPLSNESQVMKPDDVKGVIDGWAADLHQSYLQLKAK	PGPT0004500_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004500-dppA-K12368	NA	NA
D1-35_03580	495			hypothetical protein	ATGGACGATGTACAGCAATTGGGCGAAATGCTCCGTCACTACGCCGACAGCGAAGCGCACAAGAAGCAGCAGCACCAGGCCCACTCGGCAGTATGGGCTGAGCGGATCGAGGCGTTGTACGGGCAGATCGAGCAATGGTTGGCGCCGGTCCTGGCGCCGAACCTGCTGGAGTTGAGCCGTGGCGCGTATGTCGCCCATGGGCCGAGTGTTCCTGCCGAGACGTCGACTTTCAAGACGGAAAAACTGACGTTGTCCATTACCGGTAAACCGGTTGAGTTTGTGCCGGATGTGATGGGCGCGGGCGGGTTGATTTCCTTGTCGATCATCGGCCTGACCGCCACTCGCCACGGCAGCATTTCCCTGGTTTGCCAGCCGCCATCAACGCAGTGGCAATGGCGCAGGACCAACGGGCTGAAAGATCCGGACACCTACGTCTTCGATGCAAATTTCCTCGCTCAGCAGTTGCAGAGTCTTATACCGCGCGAGCGAAGCTGA	MDDVQQLGEMLRHYADSEAHKKQQHQAHSAVWAERIEALYGQIEQWLAPVLAPNLLELSRGAYVAHGPSVPAETSTFKTEKLTLSITGKPVEFVPDVMGAGGLISLSIIGLTATRHGSISLVCQPPSTQWQWRRTNGLKDPDTYVFDANFLAQQLQSLIPRERS				NA	NA	NA	NA	NA
D1-35_03581	798		COG1305	putative protein	ATGAAATTGTCCATTCGCCACGACACGACCTACAGCTATGCCGACGAAGTCTGCACCAGCATCCAGTTCCTGCGCCTGACGCCCAAGGACAGCCCGCGCCAGCGCATTCTGCAATGGCACCTGGAGTTGCCACGCCTGGTGCGCAGCCAGCTCGATCCTTACGGCAACATCCTGCATGTCATGACCATGGACGAGCCGCATGGGGCTCTGGTACTGACCGCTTACGGTGAAGTACAGATCGACCAGACCGTGGAGATGGAGCCTGACAGCCAGTCACCGCTGCCGTTCCTGCGCACCAGCCGTCTCAGCCAGGCTGATGAGAGCCTCAGCGCTTTCGCCGTGGCCCGGTGCGGGGCACGGCGTGATCGTTCGGCGCTGGCCGACTTGATGAATGGCCTTGCCGATCGCATGGCCTACCTTCCCGGCACTACCGCGGTCAGCAGCACGGCGGCCGAGGCGTTTGCCGGCGGTGCCGGCGTCTGCCAGGACCACGCCCATGCATTCGTGGCGTGTGCCCGCAGCCTGGGCGTGCCGGCGCGCTATGTGTCCGGCTACCTGTGCACCGAAGACGAAAACCACCTGGCGAGCCATGCCTGGGCTGAAGCCTGGCTGGGGGATGGCTGGTACAGTTTCGACGTAACCAATCGCCTGACCCGTCCCGATCGCCACCTGAAACTGGCGATCGGCCTGGACTATCTCGACGCCTGCCCGGTGCGCGGCATGCGCCGGGGCGGCGGGGCGGAGCAGATGCACGCGCGGGTGCAGGTGAGCTCGATGGTGCAGGTGCAGCATCAGTAA	MKLSIRHDTTYSYADEVCTSIQFLRLTPKDSPRQRILQWHLELPRLVRSQLDPYGNILHVMTMDEPHGALVLTAYGEVQIDQTVEMEPDSQSPLPFLRTSRLSQADESLSAFAVARCGARRDRSALADLMNGLADRMAYLPGTTAVSSTAAEAFAGGAGVCQDHAHAFVACARSLGVPARYVSGYLCTEDENHLASHAWAEAWLGDGWYSFDVTNRLTRPDRHLKLAIGLDYLDACPVRGMRRGGGAEQMHARVQVSSMVQVQHQ				NA	NA	NA	NA	NA
D1-35_03582	951			hypothetical protein	ATGCTTTCAAGAACCGCTTCGGACCTCTATTGGATGTCCCGCTACCTGGAGCGCGCCGAGAACCTGGCGCGCATGCTCGAAGTCAGTTATTCGCTGTCGTTGATGCCCCAGGCCGGGCGCAGCGACGGGCATGCCGAGCTGGCGATGTCGCTGTTGGCGGCCGGTACGCTGGACGATTACAACGCCCGTTATGACGCGCTCAACAGCGAGCGCATGCTGCATTTCTTTGCTCTGGATGAAGCCAACCCCGGCAGTATCTATAGCTGCCTGCGTGCCGCGCGCACCAATGCCCACGCCGTGCGCGGACGCATCACCGCCGACATGTGGGAAAACATCAACGCGACCTGGCTGGAGATGCGCAACATCGCCAGTAACGGCCTGGGCCGCTACGGCATCAGCCATTTCTGCGAATGGGTCAAGGAGCGTTCGCACCTGTTCCGCGGCGCGACGTCGGGCACGATCATGCGCAACGACGCCTACAGTTTCATTCGCCTGGGAACCTTCATCGAGCGCGCGGACAACACCTTGCGCCTGCTGGACGCGCGCTACGAGATGTTCGGCGAGGAGTCGGAGGAGGTCAGCGACAACTCGGCGCGCGGCTATTACCAATGGAGTGCCTTGTTGCGGGCGCTGTCTTCGTTCGAGGCGTTCAACGAGATCTACCGTAACGCTCCCAACGCCGAGCAGGTCTCGGAGATGTTGCTGCTGCGGGCCGACGTGCCGCGCTCGCTGCATGCGTGCATCGAAGAACTGGACCATATCCTCGCCAGCCTGCCTGGCAACAACGGTCGTCCGGCCCAGCGCCTGGCCGCGGAATTGAATGCGCGCCTGCGTTATTCCGGCATCGACGAGATCCTCGCGTCGGGCCTGCATCAATGGCTGACCGAACTCATCGGCCAGATCCGCCACCTGGGCCAGACCGTCCACGATGCCTACCTGGAGGTGGTATGA	MLSRTASDLYWMSRYLERAENLARMLEVSYSLSLMPQAGRSDGHAELAMSLLAAGTLDDYNARYDALNSERMLHFFALDEANPGSIYSCLRAARTNAHAVRGRITADMWENINATWLEMRNIASNGLGRYGISHFCEWVKERSHLFRGATSGTIMRNDAYSFIRLGTFIERADNTLRLLDARYEMFGEESEEVSDNSARGYYQWSALLRALSSFEAFNEIYRNAPNAEQVSEMLLLRADVPRSLHACIEELDHILASLPGNNGRPAQRLAAELNARLRYSGIDEILASGLHQWLTELIGQIRHLGQTVHDAYLEVV				NA	NA	NA	NA	NA
D1-35_03583	1410		COG2308	putative protein	ATGCCCCACGCTTTTTTCAATGAAATGTATGACGCACAGGGTGACTGCCGCCCGCATTACCAAGCCTTCTCGCGCTGGCTGGCGGATACGCCGCTGGAGCTGTTGGAGCAACGCCGCCGCGAAGCCGACCTGCTGTTTCATCGCGCGGGCATCACGTTCACCCTCTACGGCGACGAGCAGGGCACCGAGCGCCTGATCCCCTTCGACATCATCCCCCGCAGCATCAAGGCCAGCGAATGGCAGACGGTCGAGCGTGGCTGCATCCAGCGGGTCCAGGCCCTGAACATGTTCCTGGCCGATATCTACCACGGGCAACGCATCCTCAAGGAAGGCATCATCCCGGCCGAGCAAGTGCTGGCCAACGAGGGCTACCAGATCGCAATGCAGGGCCTGGACCTGCATCGTGGCATCTACGCGCACATTGCCGGTGTCGACCTGGTTCGCGACGGCGACGGCAGCTACTACGTGCTGGAGGACAACCTGCGCACGCCCAGCGGCGTGAGCTACATGCTCGAAGACCGCAAGATGATGATGCGCCTGTTCCCCGAGTTGTTCGCCGCCCAGCGCGTGGCGCCCATCGACCACTATCCGAACCTGCTGCTCGATACCCTCAAAAGCTCAAGTCCACTCGACAACCCTACCGCCGTGGTGCTGACCCCAGGGCGTTTCAACAGTGCCTATTTCGAACATGCGTTCCTGGCCCGGGAAATGGGCGTGGAGCTGGTAGAGGGCGCCGACCTGTTCGTGCGTGACGACCACGTCTATATGCGCACCACCGCCGGCCCCCAGCAGGTGGATGTGATTTACCGTCGCCTTGACGACGCCTACCTCGATCCGCTGTCGTTCAATCCCGATTCGATGCTCGGCGTGCCCGGGCTGGTCGCGGTCTATCGTTCCGGCAACGTGGTGCTGGCAAACGCCGTCGGCACTGGCGTGGCGGACGACAAGTCGATCTACCCCTATGTCGACGAGATGATCCGCTTCTACCTCACCGAAGAGCCGATCCTGAAGAACGTGCCCACCTGGCAGTGCCGCAAACCCCAGGACCTGTCCCATGTGCTGGCGAACCTGCCGGACCTGGTAGTCAAGGAAACCCAGGGCTCCGGCGGCTACGGCATGCTGGTGGGGCCGGCCGCCACCGCAGCGGAAATCGAGGATTTCCGTGCCCGTCTCAAGGCCCGGCCGGAGGCGTACATCGCCCAGCCGACCTTGAGCCTGTCCACGTGCCCGACTTTTGTCGAAAGCGGCATCGCCCCGCGCCACATCGACCTGCGTCCCTTCGTGCTGTCCGGCAAGGAAACCCGCCTGGTGCCCGGCGGCCTGACCCGCGTGGCGCTGCGCGAAGGCTCGCTGGTGGTGAACTCGTCCCAGGGTGGCGGCACCAAGGACACTTGGGTAGTGGAGGACTAA	MPHAFFNEMYDAQGDCRPHYQAFSRWLADTPLELLEQRRREADLLFHRAGITFTLYGDEQGTERLIPFDIIPRSIKASEWQTVERGCIQRVQALNMFLADIYHGQRILKEGIIPAEQVLANEGYQIAMQGLDLHRGIYAHIAGVDLVRDGDGSYYVLEDNLRTPSGVSYMLEDRKMMMRLFPELFAAQRVAPIDHYPNLLLDTLKSSSPLDNPTAVVLTPGRFNSAYFEHAFLAREMGVELVEGADLFVRDDHVYMRTTAGPQQVDVIYRRLDDAYLDPLSFNPDSMLGVPGLVAVYRSGNVVLANAVGTGVADDKSIYPYVDEMIRFYLTEEPILKNVPTWQCRKPQDLSHVLANLPDLVVKETQGSGGYGMLVGPAATAAEIEDFRARLKARPEAYIAQPTLSLSTCPTFVESGIAPRHIDLRPFVLSGKETRLVPGGLTRVALREGSLVVNSSQGGGTKDTWVVED	PGPT0026300_18	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048	NA	NA
D1-35_03584	591			hypothetical protein	ATGAGTTTCGAAATTCGCAAGATCGTCAGCTATGTCGAAGAAACCTTCATCGAAGGAGGCAAGGTCACCGACAAGCCGGTGACCATGGTCGGGCTGGCGGTGGTCATGAAGAACCCTTGGCTGGGCCGTGGTTTTGTCGAAGACCTGAAACCCGAGATCCGCGCCAATTGCTCCGATCTCGGCGCGCTGATGGTCGAGCGCCTGGTGGGCATCATCGGCGGTGCGCAAAAGATCGAAGCCTATGGCAAGGCCGCGGTCGTCGGTGCCGACGGCGAGATCGAGCACGCCTCCGCCGTGATCCATACCCTGCGTTTCGGCAACCATTACCGCGAGGCGGTCAAGGCCAAGAGCTACCTGAGCTTCACCAACAAGCGCGGCGGCCCCGGCACCTCGATCCAGATCCCGATGATGCACAAGGACGACGAAGGCCTGCGCTCGCACTACATCACCCTGGAAATGCAGATCGAAGACGCTCCACGCGCCGACGAAATCGTCGTGGTGCTGGGCTGCGCCGATGGCGGGCGCCTGCATCCACGCATCGGCAATCGTTACATCGACCTGGAAGAGCTGGCCGCCGAACAGGCCCAGTGA	MSFEIRKIVSYVEETFIEGGKVTDKPVTMVGLAVVMKNPWLGRGFVEDLKPEIRANCSDLGALMVERLVGIIGGAQKIEAYGKAAVVGADGEIEHASAVIHTLRFGNHYREAVKAKSYLSFTNKRGGPGTSIQIPMMHKDDEGLRSHYITLEMQIEDAPRADEIVVVLGCADGGRLHPRIGNRYIDLEELAAEQAQ				NA	NA	NA	NA	NA
D1-35_03585	834	tgnD_2		(E)-2-((N-methylformamido)methylene)succinate hydrolase	ATGATTTGGCTCACCGCTGAACTCACCCCGGCCGGCACCAGTTACCTGGCAACCGGCCAAGGCCAGCCCGTGGTCCTGATCCACGGCGTGGGCCTGAACAAAGAAATGTGGGGCGGCCAGGTCGTTGGCCTGGCCACGAAGTACCGCGTCATCGCCTACGACATGCTCGGCCATGGCGCCAGCCCGCGCCCTGCCACCGGCACTGGCCTGCTCGGGTACGCCGATCAGCTGCTCGAATTGCTGGACCACTTGCAACTGCCCCAGGCCAGCGTGATCGGCTTTTCCATGGGCGGCCTGGTGGCACGCGCCTTCGCCTTGCATTACCCGCAGCGCCTGCAAGGCCTGGTGGTGCTCAACAGCGTATTCAACCGCAGCGCCGAACAACGCGCGGGGGTCATCGCCCGCACCGCCCAGGCCGCCGAGCATGGCCCGGACGCCAACGCCGAAGCCGCGCTGTCGCGCTGGTTCAGCCGCGAATACCAAGCGGCCAATCCGGCGCAGATCGCCGCGCTGCGCCAGACCCTGGCGCAGAACGATCCCCAGGGTTACCTGACCACCTATGAGCTGTTCGCCACCCAGGACATGTACCGCGCCGACGACCTGGGCAGCATCCAGGCGCCGACGTTGATTGCCACCGGCGAACTGGACCCCGGCTCGACCCCGGAAATGGCCCGGCAACTGGCCGAGCGGATTCCCGGCGCCACGGTTGCCGTGCTCGCCGAGCAACGGCATATGATGCCGGTAGAGTCGCCGCGCCTGGTCAACCAGTTGCTGCTGGAATTCCTCGACACGGCCAATACCCGAAAAAATCCAATAAAGGGAATCGTTGCATGA	MIWLTAELTPAGTSYLATGQGQPVVLIHGVGLNKEMWGGQVVGLATKYRVIAYDMLGHGASPRPATGTGLLGYADQLLELLDHLQLPQASVIGFSMGGLVARAFALHYPQRLQGLVVLNSVFNRSAEQRAGVIARTAQAAEHGPDANAEAALSRWFSREYQAANPAQIAALRQTLAQNDPQGYLTTYELFATQDMYRADDLGSIQAPTLIATGELDPGSTPEMARQLAERIPGATVAVLAEQRHMMPVESPRLVNQLLLEFLDTANTRKNPIKGIVA	PGPT0000920_136	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0000920-tgnD-K23465	NA	NA
D1-35_03586	1482	tgnC	COG1012	(Z)-2-((N-methylformamido)methylene)-5-hydroxybutyrolactone dehydrogenase	ATGACACTTGCACGCTTTTCGATGTGCATCGGCGGTGAATGGGTCGATGCGCTGTCCGGCAAGACCTTCGAGAGCCTGAACCCGGCGCTGGCCGAGCCCTGGGCCGAGCTGCCCGATGCCGACGAAGCCGATGTCGATCGCGCCGTACAAGCCGCACAAACGGCTTTTGACAGCCCGGCCTGGCGCGGACTGACCGCCACTGCTCGGGGCAAACTGCTGCGCCGTCTCGGTGACCTGATCGCCGAAAACAAGGAAAAGCTGGCCCAGCTCGAAAGCCGCGACAACGGCAAGCTGATCCGTGAAACCCGTGGCCAGGTCGGCTACCTGCCGGAGTTTTTCCACTACACCGCAGGCCTCGCCGACAAGCTCGAAGGCGGCACCTTGCCCCTCGACAAGCCGGACCTGTTCGCCTACACCGTGCACGAAGCCATGGGTGTGGTCGCGGCGATCATCCCCTGGAACAGCCCGCTGTACCTGACCGCGATCAAGCTCGCCCCGGCGCTGGCGGCCGGCAACACCATCGTGATCAAGCCGTCCGAGCACGCCTCGGCGACGATCCTGGAACTCGCCCGCCTGGCCTTGGAGGCTGGGATTCCGCCGGGCGTGGTCAACGTGATTACCGGCTATGGCCCCAGCACCGGCGCCGCCCTCACCCGCCATCCGCTGGTGCGCAAGATCGCCTTCACCGGTGGTGCCGCCACGGCCCGGCATGTGGTGCGCAGCAGCGCCGAGAACTTCGCCAAGCTGTCACTGGAGCTGGGCGGCAAATCGCCCAACATCATCTTTGCCGACGCCGACCTCGACAGCGCCATCAACGGTGCGATTGCCGGGATCTACGCCGCCTCCGGCCAGAGCTGCGTGTCCGGATCGCGACTGCTGGTGCAGGATGAAATCTACGACGAGTTCGTCTCGCGCCTGGTGGAGCGCGCCCAGCGCATTCGCATCGGCAGCCCCCAGGAAGACGCCAGCGAGATGGGCCCCATGGCCACCGCGCAGCAACTGGCCGTGGTCGAAGGCCTGGTGGCCGATGCCATCGCCGAAGGCGCACGCCTGCGTACCGGCGGCAAGCGCCCGCAGAACCTTGGCGCCGGCTGGTTCTACGAGCCGACCCTGTTCGAGTGCGATCGCAATTCGATGAAAATCATGCAGGAAGAAGTCTTCGGCCCGGTGGCCTCGGTCATTCGTTTCAAGGACGAAGCCGAAGCCCTGGCGATCGCCAACGACTCGCAGTTCGGCCTCGCCGCCGGCATCTGGACCCGTGACCTGGGCCGCGCCCATCGCCTGGCCCGGGACGTGCGATCCGGGATCATCTGGGTCAACACCTACCGCGCGGTCTCGGCCATGGCGCCGATCGGCGGGTTCAAGAACAGTGGCTACGGACGCGAAAGCGGCATCGATTCAGTGCTGGCCTATACCGAGCTGAAAACGGTGTGGATCAACCTTTCCCAGGCACCCATGCCTGACCCGTTCGTGATGCGCTAG	MTLARFSMCIGGEWVDALSGKTFESLNPALAEPWAELPDADEADVDRAVQAAQTAFDSPAWRGLTATARGKLLRRLGDLIAENKEKLAQLESRDNGKLIRETRGQVGYLPEFFHYTAGLADKLEGGTLPLDKPDLFAYTVHEAMGVVAAIIPWNSPLYLTAIKLAPALAAGNTIVIKPSEHASATILELARLALEAGIPPGVVNVITGYGPSTGAALTRHPLVRKIAFTGGAATARHVVRSSAENFAKLSLELGGKSPNIIFADADLDSAINGAIAGIYAASGQSCVSGSRLLVQDEIYDEFVSRLVERAQRIRIGSPQEDASEMGPMATAQQLAVVEGLVADAIAEGARLRTGGKRPQNLGAGWFYEPTLFECDRNSMKIMQEEVFGPVASVIRFKDEAEALAIANDSQFGLAAGIWTRDLGRAHRLARDVRSGIIWVNTYRAVSAMAPIGGFKNSGYGRESGIDSVLAYTELKTVWINLSQAPMPDPFVMR	PGPT0000915_166	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0000915-tgnC-K23463	NA	NA
D1-35_03587	486	hsaB_1	COG1853	Flavin-dependent monooxygenase, reductase subunit HsaB	ATGATCGAACCCGGCATCTACAAAGAAGTCATGAGCTCCTTCCCGTCCGGCGTCACGGTGGTCACCACCCTGGACCCGGAGGGCAATATCGTCGGCATCACCGCCAGCGCTTTCAGCGCCTTGTCCATCGACCCGGCGCTGGTACTGTTCTGTCCCAACTATGCCTCCGATACGTACCCGATCCTGCGCGACAGCAAGCAGTTCGCGATCCACTTGCTGTCCGCCGACCAGACCGCCGAAGCCTACGCCTTCGCCGGCAAAGGCAAGGACAAGGCCAAAGGCATCGACTGGCACCTGAGCGACCTGGGCAATCCGTTGCTGGGTAAAGCCACGGCGATCATCGAGTGCGAGCTGTGGCGCGAATACGACGGTGGCGATCACGCGATCATCGTCGGCGCGGTGAAGAACCTGATCCTGCCCGCGCAACCGGTCACGCCGATGATCTACCACAAAGGCAAGCTGGGCCCGCTGCCCGTGCTCGCTTGA	MIEPGIYKEVMSSFPSGVTVVTTLDPEGNIVGITASAFSALSIDPALVLFCPNYASDTYPILRDSKQFAIHLLSADQTAEAYAFAGKGKDKAKGIDWHLSDLGNPLLGKATAIIECELWREYDGGDHAIIVGAVKNLILPAQPVTPMIYHKGKLGPLPVLA	PGPT0006700_591	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STEROID|DERIVATE_DEGRADATION	XENOBIOTIC_ADROSTENEDIONE_DEGRADATION,PGPT0006700-hsaB-K16048	NA	NA
D1-35_03588	405			hypothetical protein	ATGAGCAACGAAAAATACCAGCAAGGCCTGAAGATCCGCACCCAGGTACTGGGCCAGGACTACGTCAACCGCGCCATCGAGAACGCCGACGATTTCACCCGGCCGCTGCAGGAAATGGTCACGGAATATTGCTGGGGCCATGTCTGGGGCCGCGAGGGTTTGTCGCTCAAGGAGCGCAGCATGATCAACCTGGCGATGATCTCGGCGCTCAATCGCCCGCACGAACTCAAGCTGCATGTGCGCGGCGCCTTGCGTAACGGACTGAGTCGTGAGCAAATACGCGAAATTCTGCTTCAGGTCGGCATTTATTGCGGCGTCCCCGCTGCCGTAGACAGTTTCCGGCTTGCCCGCGAAGCCTTCGCCGAAGCCGACGCCGAGGCCTCCAGTCAACCCTCGGCTGTTTGA	MSNEKYQQGLKIRTQVLGQDYVNRAIENADDFTRPLQEMVTEYCWGHVWGREGLSLKERSMINLAMISALNRPHELKLHVRGALRNGLSREQIREILLQVGIYCGVPAAVDSFRLAREAFAEADAEASSQPSAV	PGPT0005005_2427	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
D1-35_03589	753	nanR_2		HTH-type transcriptional repressor NanR	ATGAAACGCCTGCCACTCGACGACAGCTTCAAGGTCAATCGCAACCCCGTTACCCTGCGCGAAATCGTGCTGGATAAACTGCGAAGCGCCATCATGAACTTCCAGCTGCTGCCGGGCGATCGCCTGGTTGAACGCGACCTGTGCGACCGCCTGGGCGTGAGCCGTACGTCGGTGCGTGAAGCCCTGCGTCACCTCGAATCCGAAGGCCTGGTGGAGTTCGCCGATGCCAAGGGTCCACGGGTGGCGATCATCACCCTGGCCGACGCCGGTGATATCTATGAGCTGCGGTGCGTGCTCGAAGGCTTGATCGTCCAGTTGTTCACCCTGCGGGCCAAGGCCAAGGACATCAAGGCGCTGGAAAAAGCCCTCGAGGAAAACCGCAAGGCCCTCAAGGACGGCGAGCTGCAGCAGGTGCTGGATTCGGTCCAGGGTTTCTACGACGTACTGCTTGAAGGTTCCGGCAATCACGTTGCCGCCACCCAGTTGCGCCAGTTGCAGGCGCGCATCAGCTACCTGCGGGCGACGTCGGTGTCCCAGGAAAACCGCCGTGGCAGCAGCAACCAGGAAATGGAACGCATGGTCGAGGCGATCAAGAGTGGCGATCCGCTGGTGGCCCACCAGGCCTGCGTCGATCACGTACGCGCCGCCGCCAAGGTCGCGCTGGAATACCTCAAGCGCCAGCAGGAAGAGACCGGCAACATCCCGGAAATCACCGCGCCCATCGCGTTGAAAGAACCTCGCATAGGACGCTGA	MKRLPLDDSFKVNRNPVTLREIVLDKLRSAIMNFQLLPGDRLVERDLCDRLGVSRTSVREALRHLESEGLVEFADAKGPRVAIITLADAGDIYELRCVLEGLIVQLFTLRAKAKDIKALEKALEENRKALKDGELQQVLDSVQGFYDVLLEGSGNHVAATQLRQLQARISYLRATSVSQENRRGSSNQEMERMVEAIKSGDPLVAHQACVDHVRAAAKVALEYLKRQQEETGNIPEITAPIALKEPRIGR	PGPT0000900_32	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0000900-tgnR-K23466	NA	NA
D1-35_03590	564	nudC_3		NADH pyrophosphatase	ATGTTCAGCCCGAGCTTTTGTCCAAAGTGTGGCGGCACTGACTTGAGCCAGCGCCTGCCAGCGGGCGATACCCATGAGCGGCTGATGTGCGGCGGCTGCGGCTACATCCACTACGTGAACCCGAAGATCATCGCCGGCTGCATCATCGAACAGGACGGCAAATACCTGCTGTGCCAACGCGCCATCCCGCCGCGCCCCGGCACCTGGACACTGCCGGCCGGCTTCATGGAAGGCAACGAGACCACCGAGCAGGCGGCCCTGCGTGAAGTCTGGGAAGAGACCGGCGTGCGCGCCGAAATCATCTCGCCCTACTCGATTTTCAGCGTGCCGAAAATCAGCGAGGTGTACATCATCTTCCGCGCCATCGCGCTGGAGATCACCGGCGAGTTCGGCGCGGAAACCCTCGCCTGCCAATTCTTCGCTGCCGAAGACATCCCATGGGACAGCATCTATTACCCGGCCATCCGGCAGATCCTCGAACGTTACATCGAGGAACGCCAGGCCGGGGTCTACGGCATCTACATGGGCAACGACGACAGCGGCAAGATTCACTTCATCCGCTGA	MFSPSFCPKCGGTDLSQRLPAGDTHERLMCGGCGYIHYVNPKIIAGCIIEQDGKYLLCQRAIPPRPGTWTLPAGFMEGNETTEQAALREVWEETGVRAEIISPYSIFSVPKISEVYIIFRAIALEITGEFGAETLACQFFAAEDIPWDSIYYPAIRQILERYIEERQAGVYGIYMGNDDSGKIHFIR	PGPT0008680_127	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008680-NUDT23-K18453	NA	NA
D1-35_03591	294			hypothetical protein	ATGAAGGCGTACTGGATTGCTCATGTGGATGTCACCGACCCCGATCAATACAGCCAATACACCCAGCGCGCGCCAGCGGCGTTTGCCTTGTATGGCGCACGGATGCTCGCCCGGGGCGGACGCAGCAAAGCGATGGAAGGCAGGGCCACGCCGCAGCGCAGCGTGGTAATCGAATTCGATTCCTACGAACAGGCGCTGGCCTGCTATCACTGCGAGGAGTATCAGCAGGCGAAGAAGCACCGTGAAGGTGTGGCGCGGGCCGAGGTGATCATCGTCGAGGGCGTGGCGCCCTGA	MKAYWIAHVDVTDPDQYSQYTQRAPAAFALYGARMLARGGRSKAMEGRATPQRSVVIEFDSYEQALACYHCEEYQQAKKHREGVARAEVIIVEGVAP				NA	NA	NA	NA	NA
D1-35_03592	1110	ribBA_1	COG0108	Riboflavin biosynthesis protein RibBA	ATGGCCTTTAACAGCATTGAGGAAATCATCGAAGACTACCGCCTGGGCAAGATGGTGTTGCTGGTGGATGACGAAGATCGGGAAAACGAAGGCGACTTGCTGCTCGCCGCCGATTGTTGCAATGCCCAGGCGATCAGCTTCATGGCCCGCGAAGCACGCGGGCTGATCTGCCTGACCCTGACCGATGAGCACTGCCAACGCCTGGGCCTCGAACAGATGGTGCCAAGCAACGGCAGTGTGTTCAGCACCGCTTTCACGGTGTCCATCGAGGCCGCCACGGGCGTGACCACCGGTATCTCCGCCGCTGACCGGGCGCGCACCGTCGCCGCCGCTGTTGCTCCTGATGCGGGGCCGACGGACATTGTGCAACCGGGGCATATCTTCCCGCTGCGGGCCAAGGAAGGCGGCGTACTGACCCGCGCCGGGCATACCGAAGCCGGATGCGACCTGGCGCGCCTGGCAGGCTTCACGCCGGCATCGGTGATTGTCGAAGTCATGAACGATGACGGCACCATGGCGCGCCGCCCGGACCTGGAAATTTTCGCCCGCAAGCACGGGATCAGGATCGGCACCATCGCCGACCTGATCCACTACCGCCTGAGCACCGAGCACACCGTGGTGCGCATCGGTGAGCGGGAACTGCCGACGGTGCACGGTATCTTCCGCTTGTTCACCTTTGAAGATCGCATCGAAGGCGGCGTGCACATGGCGATGGTCATGGGCGACATCCGCCGGGAAGAACCGACACTGGTGCGCGTGCATGTGATCGACCCGCTGCGCGACCTGGTGGGTGCCGAGTACAACGGCCCGTCCAACTGGACGTTGTGGGCGGCGCTGCAACGGGTCGCCGAGGAAGGTCGTGGCGTGGTGGTGGTGCTGGCCAACCACGAGTCATCCCAGGCGTTGCTCGAGCGTGTGCCGCAACTGACCCAGCCGCCACGGCAATTCAGCCGTTCCCAATCGCGCATCTATTCTGAGGTGGGGACTGGCGCGCAGATTCTGCAGGACCTGGGTGTCGGCAAGCTGCGGCATTTGGGGCCACCGCTCAAGTATGCCGGGTTGACCGGGTACGACCTGGAGGTAGTGGAGAGCATTCCTTTTACCGGGTAG	MAFNSIEEIIEDYRLGKMVLLVDDEDRENEGDLLLAADCCNAQAISFMAREARGLICLTLTDEHCQRLGLEQMVPSNGSVFSTAFTVSIEAATGVTTGISAADRARTVAAAVAPDAGPTDIVQPGHIFPLRAKEGGVLTRAGHTEAGCDLARLAGFTPASVIVEVMNDDGTMARRPDLEIFARKHGIRIGTIADLIHYRLSTEHTVVRIGERELPTVHGIFRLFTFEDRIEGGVHMAMVMGDIRREEPTLVRVHVIDPLRDLVGAEYNGPSNWTLWAALQRVAEEGRGVVVVLANHESSQALLERVPQLTQPPRQFSRSQSRIYSEVGTGAQILQDLGVGKLRHLGPPLKYAGLTGYDLEVVESIPFTG	PGPT0007990_3695	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
D1-35_03593	1026			hypothetical protein	ATGGTGTTGAAGAAAAGTGCAGCCGCAATTCTTTTTGCCGGCCTGCTGAGTGTCACCAGCCAGGCGACGATAGCCGCTGAAAGCGTCAACTTCGTCAGTTGGGGCGGCAGCACCCAGGACGCGCAGAAGCAGGCCTGGGCCGATCCATTCAGCAAGGCCAGCGGCATCACCGTGGTCCAGGATGGCCCGACCGACTACGGCAAACTCAAGGCCATGGTCGAAAGCGGCAACGTGCAATGGGACGTGGTCGACGTCGAGGCAGACTTCGCCTTGCGCGCCGCCGCCGAAGGCCTGCTCGAACCCCTCGATTTTTCGGTCATCCAACGCGACAAGATCGACCCGCGTTTCGTCTCCGACCACGGTGTCGGCTCGTTCTATTTCTCCTTCGTACTCGGCTACAACGAAGGCAAGCTCGGTTCGGGCAAGCCAACGGATTGGTCCGCGCTGTTCGACACCAAGACCTACCCCGGCAAGCGCGCCCTCTACAAATGGCCAAGCCCTGGCGTGCTGGAACTGGCCCTGCTGGCCGATGGCGTGGCGCAGGACAAGCTCTATCCGCTGGACCTGGACCGCGCCTTCAAGAAACTCGACACCATCAAGAAAGACATCGTCTGGTGGGGCGGCGGCGCCCAGTCCCAGCAATTGCTGGCGTCCGGCGAGGCCAGCATCGGCCAGTTCTGGAACGGTCGGATCTATGCCTTGCAACAGGACGGCGCGCCCGTCGGCGTGAGCTGGAAGCAGAATCTGGTCATGGCCGACATCCTGGTTATCCCGAAAGGTGCGAAAAACAAGGCCGCCGCCATGAAGTTCCTGGCCAACGCCAGCAGCGCCAAGGGTCAGGCAGACTTCTCCAACCTGACCGCCTACGCCCCCGTCAACGTTGACAGCATCGCGCGCCTGGATTCGGTGCTCGCCCCCAACCTGCCGACCGCCTACGCCAAGGATCAGATCACGCTGGATTTTGCGTACTGGGCCAAGAACGGTCAGGACATCGCGACACGGTGGAATGAATGGCTGGTCAAATGA	MVLKKSAAAILFAGLLSVTSQATIAAESVNFVSWGGSTQDAQKQAWADPFSKASGITVVQDGPTDYGKLKAMVESGNVQWDVVDVEADFALRAAAEGLLEPLDFSVIQRDKIDPRFVSDHGVGSFYFSFVLGYNEGKLGSGKPTDWSALFDTKTYPGKRALYKWPSPGVLELALLADGVAQDKLYPLDLDRAFKKLDTIKKDIVWWGGGAQSQQLLASGEASIGQFWNGRIYALQQDGAPVGVSWKQNLVMADILVIPKGAKNKAAAMKFLANASSAKGQADFSNLTAYAPVNVDSIARLDSVLAPNLPTAYAKDQITLDFAYWAKNGQDIATRWNEWLVK	PGPT0007855_4571	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
D1-35_03594	924			hypothetical protein	ATGAAAATGGCGGCAGCGGCAACCCCTCGCACCGGGGGCGCCGTCGGCGCTGCCGGTCCGGCCGTGGCGCGCAAGCAGACGCCGTCGTTGATGCAGCGCTGGCGCGGCGCCGGCAACCTGATTCCTGCGCTGCTGTTCCTCGGCCTGTTCTTCCTGGCGCCACTGATCGGCCTGCTGCTGCGCGGCGTGCTGGAACCCGTGCCGGGCCTGGGCAACTACGAGCAGCTGTTCGCCAATTCGGCTTACGCCCGGGTGTTGTTCAACACCTTCTCGGTGGCCGGGCTGGTGACGTTGTTCAGCCTGCTGCTGGGCTTCCCGCTGGCCTGGGCCATCACCCTGGTGCCCCGTGGCTGGGGCCGCTGGATGTTGAACATCGTGCTGCTGTCGATGTGGACCAGCCTGCTGGCCCGCACCTATTCCTGGCTGGTGCTGTTGCAGGCCTCGGGCGTTGTGAACAAGGCATTGATGGCCCTGGGCATCATCGACCAGCCGCTGGAGATGGTGCACAACCTCACCGGCGTGGTGATCGGCATGAGCTACATCATGATCCCGTTTATCGTCCTGCCGCTGCAGGCGACCATGCAAGCCATCGACCCGATGATCCTGCAGGCCGGTTCCATCTGCGGCGCCAGCCCCTGGACCAACTTCTTCCGGGTGTTCCTGCCGCTGTGCCGGCCGGGGCTGTTCTCCGGCGGGCTGATGGTCTTCGTCATGTCCCTCGGTTACTACGTGACCCCGGCCCTGCTGGGCGGCGCGCAGAACATGATGCTGCCGGAATTCATCATCCAGCAGGTGCAGTCGTTCCTCAACTGGGGCCTGGCCAGTGCCGGTGCTGCCTTGTTGGTGGCGATCACCCTGGTGTTGTTCTACTTCTATCTGAAGCTCCAGCCGGAATCCCCGGTGGGCGCCAGCAACGCGAGGTAA	MKMAAAATPRTGGAVGAAGPAVARKQTPSLMQRWRGAGNLIPALLFLGLFFLAPLIGLLLRGVLEPVPGLGNYEQLFANSAYARVLFNTFSVAGLVTLFSLLLGFPLAWAITLVPRGWGRWMLNIVLLSMWTSLLARTYSWLVLLQASGVVNKALMALGIIDQPLEMVHNLTGVVIGMSYIMIPFIVLPLQATMQAIDPMILQAGSICGASPWTNFFRVFLPLCRPGLFSGGLMVFVMSLGYYVTPALLGGAQNMMLPEFIIQQVQSFLNWGLASAGAALLVAITLVLFYFYLKLQPESPVGASNAR	PGPT0007850_1385	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
D1-35_03595	810			hypothetical protein	ATGCTCCTGACTCCCAATGCCATGAGCCGACGCATGCGGTTCGGCCTGTATTTCACCACCGGGCTGATCGCGCTGTTCCTGCTGCTGCCCATCGTGTTCATCGTGCTGCTGTCGTTCGGCTCGTCGCAGTGGCTGGTATTTCCGCCGCCGGGCTGGACCTTCAAATGGTACGGCCAGTTCTTCTCCAACCCGGACTGGATGAGCGCCGCGCTGACCAGCCTCAAGGTCGCGGTGCTGACCACCGTCTGCGCCGTGGCCCTGGGCCTGCCTACCGCGTTTGCTCTGGTGCGCGGGCGCTTCCCCGGCCGGGAAATGCTCTACGGCTTGTTCACCCTGCCGATGATCGTGCCGCTGGTGATCATCGCCGTGGCGGTCTACGCGCTGTTCCTGAAACTCGGCTACACCGGGACGATGTTTGCCTTCGTGGTCAGCCATGTGATCGTCGCGCTGCCGTTCACCATCATCTCGATCATCAACTCGCTCAAACTGTTTGACCAATCCATCGAGGACGCAGCGGTGATCTGCGGCGCCTCGCGCCTGCAAGCGGTGTTCAAGGTGACGTTCCCGGCGATTCGCCCGGGCATGGTCGCCGGCGCCTTGTTCGCATTCCTGGTGTCGTGGGACGAGGTGGTGCTGAGCGTGATGATGGCCAGCCCGACCCTGCAGACCTTGCCGGTAAAAATGTGGACCACTTTGCGCCAGGACCTGACGCCTGTGATCGCCGTCGCTTCGACGCTGCTGATCGGTCTCTCGGTGCTGGTAATGGTGATCGCCGCCGCCCTGCGCCGGCGCAACGAAATCAGCGCTTGA	MLLTPNAMSRRMRFGLYFTTGLIALFLLLPIVFIVLLSFGSSQWLVFPPPGWTFKWYGQFFSNPDWMSAALTSLKVAVLTTVCAVALGLPTAFALVRGRFPGREMLYGLFTLPMIVPLVIIAVAVYALFLKLGYTGTMFAFVVSHVIVALPFTIISIINSLKLFDQSIEDAAVICGASRLQAVFKVTFPAIRPGMVAGALFAFLVSWDEVVLSVMMASPTLQTLPVKMWTTLRQDLTPVIAVASTLLIGLSVLVMVIAAALRRRNEISA	PGPT0007845_2595	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
D1-35_03596	1152	btuD_7		Vitamin B12 import ATP-binding protein BtuD	ATGAGTGCCGTCAAAGACCCCGCACAGCAGAACAACAAGACCCTGGTCAGCCTGCGCAACCTGAACAAGCACTACGGCGACTTTGCCGCCGTGGACAATATATCCCTGGAGATCCAGGACGGTGAATTCCTGACCTTCCTCGGCTCCAGCGGCTCGGGCAAGAGCACCACCCTGTCGATGCTGGCCGGTTTCGAAACCCCCAGCAGCGGCGAGATCCTGGTGGATGGCAAATCCCTGGTCAACGTGCCGCCGCACAAGCGCGACATCGGCATGGTGTTCCAGCGCTATTCGTTGTTCCCTCATCTGTCGGTGCGCGACAACATCGCCTTCCCGCTGGCGATCCGCAAACTGGCCAGCGCCGAGCGCGAGCGCCGGGTCGATGCCATGCTCAAGCTGGTGCAATTGGGAGAGTTCGCCCATCGGCGCCCTTCGCAACTGTCCGGCGGACAACAACAGCGCGTGGCAATTGCCCGGGCGCTGGTCTATGAACCGCGCATCCTGCTGATGGACGAACCTCTCGGCGCGCTGGACAAAAAGCTGCGCGAAGATTTGCAGGACGAACTGCGCCAGTTGCACCGCCGGCTGGGCATCACCATCGTCTACGTCACGCACGACCAAGAAGAAGCCATGCGCCTGTCCCAGCGCATCGCGATCTTCAGCCACGGCAAGATCGTCGGCCTGGGCAGTGGCTACGACCTCTACCAGAATCCACCGAATGCCTTTGTCGCCTCGTTCCTGGGCAACTCCAACTTCCTCAAGCTCAAGGCCCAGGGCAATGCCGCGGCGACCTTCGAAGGCCAGTCACTGTCGATCCGCCTGACCACCGGCCTGCAAACCGACCAGGACGTGCTGCTGATGGTCCGCCCGGAAAAAGCCCTGGCCCTGAGTGTCGAGCAGGCGACCCAGGACACCCTGCCCGCCGGCTGGAACGAAGTCTCGGCCAAGGTCGTGGAGGTGCTTTTTCTTGGCGAAAGCCAGACCTGCAGCGTGGTGACGTCCGGCGGCACTCACATGACCGTCAAGGCACTGTCCGCCGCCGGCATGCCGCTCAAGGCCGGCGACCCGGTGCGGGTGCGCTGGGCCGCCGCCGATGCCTGCGTCTACACCCAATGGGCCGAGAGCGACCTGAACAAGGCCGCCGGCGCCCACTGA	MSAVKDPAQQNNKTLVSLRNLNKHYGDFAAVDNISLEIQDGEFLTFLGSSGSGKSTTLSMLAGFETPSSGEILVDGKSLVNVPPHKRDIGMVFQRYSLFPHLSVRDNIAFPLAIRKLASAERERRVDAMLKLVQLGEFAHRRPSQLSGGQQQRVAIARALVYEPRILLMDEPLGALDKKLREDLQDELRQLHRRLGITIVYVTHDQEEAMRLSQRIAIFSHGKIVGLGSGYDLYQNPPNAFVASFLGNSNFLKLKAQGNAAATFEGQSLSIRLTTGLQTDQDVLLMVRPEKALALSVEQATQDTLPAGWNEVSAKVVEVLFLGESQTCSVVTSGGTHMTVKALSAAGMPLKAGDPVRVRWAAADACVYTQWAESDLNKAAGAH	PGPT0007860_200	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
D1-35_03597	486	hsaB_2	COG1853	Flavin-dependent monooxygenase, reductase subunit HsaB	ATGATCGATGCCAACCTCTACAAACAAGTCATGGGTTCGTTCCCGTCCGGGGTGACGGTGATCACCACGCTGGACGATGACGGACAAATCGTCGGGTTGACCGCCAGCGCCTTCAGTTCATTGTCGATGGACCCGGCCCTGGTGCTGTTCTGCCCCAACTACAGCTCCGATTCCTACCCGCTGCTGATCCGGAACAAACGCTTCGCCATCCACGTGCTTTCCGGCGGCCAGCAGAACGAAGCCTACGCGTTCGCCCGCAAAGGCAAGGACAAGGCCCAGGGCATCGAATGGACCTTGAGCGAGCTGGGCAATCCGTTGTTGAGCAACGCCACCGCCATCATCGAATGCGAACTGTGGCGTGAATACGAGGGTGGCGACCACGCCATCATGGTCGGCGCCGTGAAGAACCTGATCGTGCCGCAACACACACCGGGGCCGCTGGTTTATTGCCACGGCAAGATGGGCGCCCTGCCCGTCCTCGCCTGA	MIDANLYKQVMGSFPSGVTVITTLDDDGQIVGLTASAFSSLSMDPALVLFCPNYSSDSYPLLIRNKRFAIHVLSGGQQNEAYAFARKGKDKAQGIEWTLSELGNPLLSNATAIIECELWREYEGGDHAIMVGAVKNLIVPQHTPGPLVYCHGKMGALPVLA	PGPT0006700_578	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STEROID|DERIVATE_DEGRADATION	XENOBIOTIC_ADROSTENEDIONE_DEGRADATION,PGPT0006700-hsaB-K16048	NA	NA
D1-35_03598	1044	tgnB	COG2141	Flavin-dependent trigonelline monooxygenase, oxygenase component	ATGAAATTTTCCCTGTTCGTACACATGGAGCGCTGGGACGAAAGCGTCAGCCATCGCCAGTTGTTCGAAGACCTCAGCGAGCTGACGCTGATGGCCGAAGCCGGCGGTTTCAGTACCGTGTGGATCGGCGAACACCACGCCATGGAATACACCATTTCGCCAAGCCCGATGCCGCTGCTGGCGTACCTGGCCGGCAAGACCACGACCATTCACCTCGGCGCCGGCACCATCATCGCGCCGTTCTGGCACCCGCTGCGAGTGGCTGGCGAATGCGCGTTGCTCGACGTTATCAGCAACGGCCGCATGGAAGTCGGGCTGGCCCGGGGTGCCTATCAGGTGGAATTCGACCGCATGGCCGGCGGCATGCCTGCCTCCTCCGGCGGCCAGGCATTGCGGGAAATGGTCCCGGTGGTGCGCGCCCTGTGGCAAGGCGACTACGCCCACGACGGCGAGATCTGGAAATTCCCCACTTCCACCTGCGTGCCCAAGCCCATCCGCAAGCCTCATCCGCCGATGTGGATCGCCGCCCGCGACCCTGACTCGCACAACTTCGCCGTCGCCAATGGCTGCAACGTGATGGTCACGCCTTTGATGAAAGGCGATGAAGAAGTCCAAGACCTGAAGAACAAATTCCAGGCCGCCCTGGACAACAATCCCGACGTGCCACGTCCGCAATTGATGGTGCTGCGCCACACCCATGTGCACGCCGAGGACGATCCCGAGGGCTGGAAGATCGGTGCCCAGGCAATCTCGAAGTTCTATCGCACCTTCGATGCCTGGTTCGGCAACAAGCAGGTGCCGGTCAACGGTTTCCTGGCGCCAAGCCCGGAAGAAAAATTCGCCGAGCGCCCGGAGTTTCAGCTGGAGAACATCCGCAAGAACACCATGATCGGCACGCCGCAAGAGATCATCGAACGGATCAAGTACTACCAGGAACTGGGCGTGGACGAGTTCAGCTTCTGGTGCGACAACAGCTTGCCGCATGCCGAGAAGAAAAAATCCCTGGAGTTGTTCATCCAACAGGTGGTTCCAGCGTTTCGCTGA	MKFSLFVHMERWDESVSHRQLFEDLSELTLMAEAGGFSTVWIGEHHAMEYTISPSPMPLLAYLAGKTTTIHLGAGTIIAPFWHPLRVAGECALLDVISNGRMEVGLARGAYQVEFDRMAGGMPASSGGQALREMVPVVRALWQGDYAHDGEIWKFPTSTCVPKPIRKPHPPMWIAARDPDSHNFAVANGCNVMVTPLMKGDEEVQDLKNKFQAALDNNPDVPRPQLMVLRHTHVHAEDDPEGWKIGAQAISKFYRTFDAWFGNKQVPVNGFLAPSPEEKFAERPEFQLENIRKNTMIGTPQEIIERIKYYQELGVDEFSFWCDNSLPHAEKKKSLELFIQQVVPAFR	PGPT0000910_77	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0000910-tgnB-K23464	NA	NA
D1-35_03599	2124	cntO_3		Metal-pseudopaline receptor CntO	TTGAATCGTTCCACCCCCCTCGCTTACCGCAATGCCCTCGTCAAATGTGTTTTACCTGCGCTGTCCTGCTGTTTCATGGCAAGCCCCTTGAAGGCCCAGGACACCCTTGAACTGCCCACCACGGATGTGCAAGGCAGTCGGATCATTCAGGACGAAGGCTACACGGCGACGCAAGCCAGCACGGCGAGCAAGAGCGATGTACCGATCAAGGAAGAGGCGCAGTCGATCAACGTGGTGACCCAGCAGACCCTGGCGGACTACCAGGTGCGCTCGCTGAACGACGCGATGAAGTTCGTCAGCGGCGTCAGCCAGGGCAACACCCTGGGGGGCTCCCGGGACTCGCTGGTCAAGCGCGGTTTTGGCACCAACGATGACGGTTCGATCCTGCGCGATGGTGTGCGTTCGAACCTGGGCCATAACTTCAGCGCCACCACTGAGCGAGTCGAAGTGCTCAAGGGCCCGGCCTCTATGTTGTACGGCGCGCTGGAACCGGGTGGCCTGATCAACGTCATCAGCAAGAAGCCCGAATACACCCAGAGCACCACATTGAGCGGTTCCGCCTACAGCGAGGGCGGCGGCACCATGGCCCTGGACACCACCGGGCCGTTGGGCGACACCGGGTTGGCCTATCGCCTGATCGCCGAACGCGGCCATGAGGATTACTGGCGCAACTACGGCGTCAACGAGAGCACGCTGGTGGCGCCATCGCTGGCCTGGACCGGTGAGCGTGCTTCGTTGAACCTGAGTTATGAGTACAACGAATATTCCAACCCGTTTGACCGTGGCACGGTGTTCAAGAATGGGCATCCGGCCGACATCGACTATGACAAGCGCCTGGACGAGCCTTGGGCCAAGAGCATCGGGATCCGCGAGACGGCCACCGCGCGGTTCGAGTACGAGTTGAGCGAGGCGTGGAAAACCCGGGTGACCTACGGCTGGAACAATGACCGCTACAGTCTTGCGATTGCCCAGCCCAACTCGCTGGTCGGCAATACTCTGCGGCGAGCCGCCAACGGCGCTCACTACGATGATGAAACCCGTTACGCCAGTTGGGATTTCATCGGCAAGCAGGAGCTGTTCGGCCAGCGCCATGACCTGCTGGTCGGTGCCGATAATCAGGTGTCTGACCAGTACCGTGGCAAGACCTACCGCGGGCCAGTGCGGGGCGGCTTCGATATCACGGCGCCGGTGTACGGAGGTTTGGCGCAGCCCAGCGTCATCAACCCCGCCCAGAGCAACCTGAGTAACCAGCTGACGTCCAGCTCGGTGTACCTGAAGGACAACTGGCACTTGGATGATCGCTGGATTCTGGTCTTTGGTGGTCGTTATCAACACTACGATCAGTTCAGCAAGCAAGGGTCGATCACGAGCGTGCCGGTTCGCGACGACAACGGCGATGCCTTCGTGCCGTTCCTGGGCCTGGTCTACAAGGCCACCGAGGACCTGTCGCTGTATGGCAACTACAGTCGTTCGTTCAAGCCCAACGATACCGTGGATGACAACCTCAGCACCTTCAAGCCGGAAGAGGGCCGCAGCTACGAAATCGGGGCCAAGTACGATCCGCTGCCGGGGCTGAATATTAATCTAGCGTTGTTCGATATCGTCAAGAAGAACGTCGTCACTACCACCCTGGTCGGCGGGCAGAACATCGCCGAAGCCGCCGGCAAGGTCGGCTCCCAAGGCCTTGAGCTGGACATCACCGGACGTTTGGCCGAGCGGTGGGACTTGATCGGCACCTACGCCTACACCCACACCGAAATACTGGATGATCCAAGAAACGAAGGTCACCGTCTGGCCGATGCTCCCAAGCACACCGCCAGCCTGTACCTCAGCCACCATCTGAACGTGCCGGCCGAATTCGGCGCCTGGCACGCCGGGGCCGGAGCGCGGTATGTCGGTGAACGCGCCGCCAACAACGCCAACGATTTCTGGCTCAGCAGCTACACCGTCGCCGACGCGTTCCTGCGCTGGGAGTCGCCGGTGTTCGGACAAAAGACCTCGTTGCAGTTGAACGTCGACAACCTCTTCGACAAGCAGTACTACCCGTCGTCTACCGGGAGCCAGTTGCAGGTCAACGTCGGCGAGCCGCGTACTGCCAGATTGAGCGCCAGCGTGACGTTCTGA	MNRSTPLAYRNALVKCVLPALSCCFMASPLKAQDTLELPTTDVQGSRIIQDEGYTATQASTASKSDVPIKEEAQSINVVTQQTLADYQVRSLNDAMKFVSGVSQGNTLGGSRDSLVKRGFGTNDDGSILRDGVRSNLGHNFSATTERVEVLKGPASMLYGALEPGGLINVISKKPEYTQSTTLSGSAYSEGGGTMALDTTGPLGDTGLAYRLIAERGHEDYWRNYGVNESTLVAPSLAWTGERASLNLSYEYNEYSNPFDRGTVFKNGHPADIDYDKRLDEPWAKSIGIRETATARFEYELSEAWKTRVTYGWNNDRYSLAIAQPNSLVGNTLRRAANGAHYDDETRYASWDFIGKQELFGQRHDLLVGADNQVSDQYRGKTYRGPVRGGFDITAPVYGGLAQPSVINPAQSNLSNQLTSSSVYLKDNWHLDDRWILVFGGRYQHYDQFSKQGSITSVPVRDDNGDAFVPFLGLVYKATEDLSLYGNYSRSFKPNDTVDDNLSTFKPEEGRSYEIGAKYDPLPGLNINLALFDIVKKNVVTTTLVGGQNIAEAAGKVGSQGLELDITGRLAERWDLIGTYAYTHTEILDDPRNEGHRLADAPKHTASLYLSHHLNVPAEFGAWHAGAGARYVGERAANNANDFWLSSYTVADAFLRWESPVFGQKTSLQLNVDNLFDKQYYPSSTGSQLQVNVGEPRTARLSASVTF	PGPT0003790_22244	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
D1-35_03600	1797			hypothetical protein	ATGCAGACGTTAAAGGCCTTGTACGAGTCTATCGAGATGCAATTCTTCGATACCCTCACCAAAAAGCTTTCAAGCCTTTTCCTGCTGGTCGTCGTCAGTGGCCTGCTGTACTGGGTCGCCGTCAGTGCCCGGGCCGATATTCTCGTGCAGTTGCGCACGGCCCAACTGGACGCCGCGCTGCTGGGCCAGATCGAAGATCGCCTCGACAGCCTCACCCATGCCCTGCTCTTCGGCGCGCTCCTGACGTTCGGCATGATCAGCTTCATGGTCTGGTATTTCCGCCACCTCATCGTGCGCCCCGTCACTGTGATGACCAAGGCGCTGGAAGAGATCGCCAACGGCGAAGGCGATTTGTCCAAGGACTTGCCGCTGGTCACCCATGACGAGATCCGCACGCTGGCCGCCACCTGCAACCGCTTCCTGGCCAAGCAGCGCGAGATCATCAGCAACGTCCAGGCCTTGACGGTGCACATTGCCGTGGAGTCGGCCCGTTCATTGAAGAACATCAGCGACTCCAGCGACAGCGCGACCCACCAGGCGCGCTTCGCCAAGGAAGTGATGGACCAGAGCAACACCGCCGTGGGCCGTATCGAAGAAGTCTCGCGCCAGACCCAGGGCATCTCCAGCACCACCGCGCAGAACCTGAACATGGCCCGCGATTCCTATGCCGAGTTGCTGGAAGTGACCGGCAACATCAGCGAGATCTCCAGCAGCCTGGGTGAATTCGCCACGCTGGTGGACGCGCTGAACCAGCGTTCGTCGAGCATCAAATCCATCGTCGGGCTGATCCAGCAGATTTCCGCCCAGACCAACCTGCTGGCACTCAACGCCGCCATCGAAGCGGCGCGCGCCGGGGAAAGTGGCCGTGGCTTCGCCGTGGTCGCCGATGAAGTGCGCACCCTGGCGCAAAACGTCAGCCGGGCTACCGACGATATTTCGCGCAACATCGACGCGATGCTCCAGGAGGTCAGCTCCACCCACGAGCAGACCACCCAGATCAGCCACAGCGCCCGGGAAACCCAGAAGGTAGTGGAACGCGCCTCTGGCCATTTCGAGAGCATGATCGTCGACTTCGAGTCCACCAACGGCAAACTGGCGGATATCGCCGACCACATCCAGCAGTTCGCCGACTCCAACACCGGTATCAACGAACGCGTCACCCAGATCCATGCCGACAGCCAGTCGATCGACCAGCGCATGCAGCAGTCGGCGACCGCCACCCGCGATCTGTCCGGTGTTGCCGAGAAGGTCCAGACGCTGCTGGGCCGCTTCGTGCTCGGCCACGGCAAGCTGGACGCGGCCATCACCCGCGCCAGCGAATGCCGCGACACGCTGCAGGTTCAGCTGCAGGCGCTACAGGAACAAGGCGTCAACCTGTTCGACCAGAATTACCAGCTGATCCCGGGTACCGATCCCAAGCAATACATGGCCAGCTACACCGAACGCTTCGCCCGGGTCTGCCAGGAAGAATGCGACAAGCTGACCCGCAGCACGCCGGGCGGCAAGGTCTCGTTCATCGTCGATACGAAGGGCTATTGCCCGGTCAACAACAGCTGGGTGTCCAAGCAACCCACTGGCGACCGCGCGGTCGACCTGCCGGTGTGCCGCAACAAGCGGATCTTCAACGACCCTATCGGCCTGCGTGCGGCGGGCAACGTCCAGCGCTTCCTGCTCCAGACCTACCTGCGCGACACCGGGGAAATCATGACCGAGATCGACGTACCGTTCTTCTTCGGCGGCCGTCACTGGGGCAACCTGCGGGTGGGGTTTGATGCGGCGGTGTTGCTGGCTGACTGA	MQTLKALYESIEMQFFDTLTKKLSSLFLLVVVSGLLYWVAVSARADILVQLRTAQLDAALLGQIEDRLDSLTHALLFGALLTFGMISFMVWYFRHLIVRPVTVMTKALEEIANGEGDLSKDLPLVTHDEIRTLAATCNRFLAKQREIISNVQALTVHIAVESARSLKNISDSSDSATHQARFAKEVMDQSNTAVGRIEEVSRQTQGISSTTAQNLNMARDSYAELLEVTGNISEISSSLGEFATLVDALNQRSSSIKSIVGLIQQISAQTNLLALNAAIEAARAGESGRGFAVVADEVRTLAQNVSRATDDISRNIDAMLQEVSSTHEQTTQISHSARETQKVVERASGHFESMIVDFESTNGKLADIADHIQQFADSNTGINERVTQIHADSQSIDQRMQQSATATRDLSGVAEKVQTLLGRFVLGHGKLDAAITRASECRDTLQVQLQALQEQGVNLFDQNYQLIPGTDPKQYMASYTERFARVCQEECDKLTRSTPGGKVSFIVDTKGYCPVNNSWVSKQPTGDRAVDLPVCRNKRIFNDPIGLRAAGNVQRFLLQTYLRDTGEIMTEIDVPFFFGGRHWGNLRVGFDAAVLLAD	PGPT0015710_13404	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
D1-35_03601	639		COG0450	Peroxiredoxin	ATGAGCCTCAGACTTGGCGACATCGCCCCCGATTTCGAACAGGATTCCAGCGCCGGCAAGATTCGCTTCCATGAATGGCTCGGTGATAGCTGGGGTGTGTTGTTCTCCCATCCAGCGGATTTCACCCCGGTGTGCACCACCGAACTGGGCCTTACCGCCAAGCTCAAGGATGAATTCGCCAAGCGCGGCGTCAAGGCCATTGCCCTTTCGGTAGACCCGGTGGACTCGCATCACAAGTGGATCGAGGACATCAACGAAACCCAGAATGCCGTGGTCAATTTTCCGATCCTGGCCGACGCCGACCGCAAGGTATCCGACCTCTACGACCTGATTCACCCCAACGCCAGCGACACGTTGACCGTGCGTTCCTTGTTCGTGATTGACCCGAACAAGAAGATCCGCCTGACCATCACCTACCCGGCGAGCACCGGGCGCAACTTCAATGAAATCCTGCGGGTGATCGATTCCTTGCAGCTGACCGACAACTACAAGGTCGCCACGCCGGCGAACTGGCAGGATGGCGATGAAGTGGTGATCGTGCCGTCGCTCAAGGATGAGGAGGAACTCAAGCAGCGCTTTCCCAAAGGCTATCGCGCCGTCAAACCATACCTGCGCCTGACGCCGCAGCCCAATCGCTGA	MSLRLGDIAPDFEQDSSAGKIRFHEWLGDSWGVLFSHPADFTPVCTTELGLTAKLKDEFAKRGVKAIALSVDPVDSHHKWIEDINETQNAVVNFPILADADRKVSDLYDLIHPNASDTLTVRSLFVIDPNKKIRLTITYPASTGRNFNEILRVIDSLQLTDNYKVATPANWQDGDEVVIVPSLKDEEELKQRFPKGYRAVKPYLRLTPQPNR	PGPT0007245_2	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007245-hflX-K03665	NA	NA
D1-35_03602	594	ssuE	COG0431	FMN reductase (NADPH)	ATGTTGGTTGTCTCGCTCGGCGGCAGTCCCAGCCAGCGCTCCCGATCAGGAGTGCTGCTGGAGCGCTCGCAACGTTGGTTGCAGCAGCAAGGTGTGGAAGTGGTGAGCTATCAGGTGCGTGATTTTCCCGCCGAAGATCTGCTCCATGCCCGCTTCGATAGCCCCAAGGTACTGGACCTGCTGGCCCAGATCGAAAACGCCGACGGCCTGGTGATCGCTACGCCTGTCTACAAGGCGTCTTTCTCCGGCGCGTTGAAAACGGTACTGGACCTGCTGCCCGAACGCGCGCTGGCCCATAAGGTAGTGTTGCCCATGGCGACAGGCGGCAGCATCGCCCACATGCTGGCGGTGGACTACGCCCTGAAGCCGGTGTTGTCGGCACTCAAGGCCCAGGAAATGCTGCATGGGATTTTCGCCGAGGACAACCAGATCGCTTACGGCGAAGGCAGCGCCCAGGCGCAATTGGCGCCGGCCCTGCAGCAGCGTCTGGACGAGGCGCTTGAACAGTTCTACAGCGCCATGGCCCGGCGGCCCAAGCCGCTGGATCCCAGCGTATTGAACGAACGTCTGTTGAGTGCTCGCTGGAGCATCTGA	MLVVSLGGSPSQRSRSGVLLERSQRWLQQQGVEVVSYQVRDFPAEDLLHARFDSPKVLDLLAQIENADGLVIATPVYKASFSGALKTVLDLLPERALAHKVVLPMATGGSIAHMLAVDYALKPVLSALKAQEMLHGIFAEDNQIAYGEGSAQAQLAPALQQRLDEALEQFYSAMARRPKPLDPSVLNERLLSARWSI	PGPT0003045_740	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
D1-35_03603	966	ssuA		Putative aliphatic sulfonates-binding protein	ATGCGCACTGTCATTTTGCGTCGCGGGCTGGTCGCTCTGTTTGCTGCGGCTGTGTCCTTCGGCGCCATCACCCAGGCTCAGGCCGAAACCTTGCGGATCGGCTATCAGAAGTACGGCACTCTGGTGCTGCTCAAGGCCAAGGGCACCTTGGAAAAACGCCTCGCCGCCCAAGGCGTCGACGTGCAATGGACCGAATTTCCCGGCGGCCCGCAGCTGCTGGAAGGCCTGAACGTCGGCTCGATCGATTTTGGCGTGACTGGCGAAACCCCTCCGGTGTTTGCCCAAGCGGCAGGCGCGGATTTGCTTTATGTCGCCTACGAGCCACCGGCGCCGAACAGCGAGGCAATCCTGGTGCCCAAGGGCTCGCCGATCCAGTCGGTGCAGGAGCTCAAGGGCAAAAAAGTCGCGCTGAACAAAGGCTCTAACGTCCACTACCTGCTGGTACGCGCGCTGGAAGATGCCGGCCTCGAATATTCCGACATCCAGACGGTTTTCCTGCCGCCGGCGGATGCCCGTGCCGCGTTCGAACGCGGCAGCGTGGACGCCTGGGTAATCTGGGACCCGTACCAGGCAGCCGCCGAACAACAGTTGCAGGCACGCACCCTGCGTGACGGCAAGGGCATCGTCGACAACCACCAGTTCTATCTGGCGACCAAACCTTACGCGCAAAAAAATCCCCAGGTCATCACGACGCTAGTGGAAGAGGTGCGTGCGGTAGGGGAGTGGTCCAAGGCCAACCCTGAAGACGTGACCCGGCAGGTCTCGCCGCTGCTAGGCCTGCCGGCGGACATCACCCTGACGTCGGTGAAACGCCAAGGCTATGGGGCTCTGTTCCTGACGCCGGAGGTGGTCGCGGCGCAGCAGAAAATCGCCGACAGCTTCTATCAGCTCAAATTGATTCCCAAGCCCTTGAGCATCAAGGACGTGATCTGGACGCCGCCGGCGGCCGTTGCGAACGCGCAGTAA	MRTVILRRGLVALFAAAVSFGAITQAQAETLRIGYQKYGTLVLLKAKGTLEKRLAAQGVDVQWTEFPGGPQLLEGLNVGSIDFGVTGETPPVFAQAAGADLLYVAYEPPAPNSEAILVPKGSPIQSVQELKGKKVALNKGSNVHYLLVRALEDAGLEYSDIQTVFLPPADARAAFERGSVDAWVIWDPYQAAAEQQLQARTLRDGKGIVDNHQFYLATKPYAQKNPQVITTLVEEVRAVGEWSKANPEDVTRQVSPLLGLPADITLTSVKRQGYGALFLTPEVVAAQQKIADSFYQLKLIPKPLSIKDVIWTPPAAVANAQ	PGPT0003025_2485	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003025-ssuA-K15553	NA	NA
D1-35_03604	1149	ssuD	COG2141	Alkanesulfonate monooxygenase	ATGAGCCTCAATATTTTCTGGTTCCTGCCCACCCACGGCGACGGCCATTACCTTGGCACCGCTGAAGGCGCCCGCGCCGTCGATCATGGTTACCTGCAACAGGTTGCCCAGGCTGCCGATCGGCTGGGTTTCGGCGGGGTGTTGATTCCTACCGGGCGTTCCTGCGAAGACTCCTGGCTGGTAGCCGCTTCGTTGATTCCGGTGACCCAGCGCCTGAAGTTCCTGGTTGCCCTGCGCCCCGGGATCATTTCCCCGACGGTGGCGGCGCGTCAGGCCGCGACGCTGGATCGGCTGTCCGGCGGGCGGGCGCTGTTCAACCTGGTGACGGGTGGCGATCCGGACGAGCTGGCCGGTGACGGGCTGTTTCTGGACCACGAGCAACGCTACCAGGCATCGGTGGAATTCACCCGGATCTGGCGTCGGGTGCTAGAGGGCGAGACGGTCGATTACGACGGTGAACACATCAGTGTGAAGGGCGCCAAGCTGCTCTATCCGCCGATCCAGCAACCGCGTCCGGCATTGTATTTCGGCGGCTCGTCGGAAGCTGCCCAGGATCTCGCCGCCGAGCAGGTGGAAATGGTTTTGACCTGGGGCGAACCGCCCGCCGCCGTCGCGGAAAAAATTGCCCAGGTGCGGGCCAAGGCCGAGAAGCTTGGGCGCACCGTGCGTTTCGGCATTCGCCTGCATGTGATCGTGCGGGAAACCAACGCCGAAGCCTGGCAAGCCGCCGACCGGCTGATCTCCCACCTGGACGACGAAACCATCGCTCGCGCCCAGGCGTCCCTGGCGCGTTTCGACTCGGTGGGTCAGCAACGCATGGCCGCGTTGCACGGCGGTCGGCGCGACAAGCTGGAAGTCAGCCCCAACCTCTGGGCCGGTGTCGGCCTGGTGCGCGGCGGTGCCGGAACGGCGCTGGTGGGCGATGGCCCGACCGTGGCTGAGCGGGTCAAGGAATACGCCGACCTGGGCATCGACACGTTCATTTTCTCGGGTTATCCACACTTGGAAGAATCCTATCGGGTGGCGGAACTGTTGTTCCCGCACCTCGATGTGGAGCGCCCGGAACTGCCGAAAAGCCAGGGCTATGTGAGCCCGTTCGGTGAAATGGTCGCCAACGATATCCTGCCCAAAGCTGCTTCGCAGAGCTGA	MSLNIFWFLPTHGDGHYLGTAEGARAVDHGYLQQVAQAADRLGFGGVLIPTGRSCEDSWLVAASLIPVTQRLKFLVALRPGIISPTVAARQAATLDRLSGGRALFNLVTGGDPDELAGDGLFLDHEQRYQASVEFTRIWRRVLEGETVDYDGEHISVKGAKLLYPPIQQPRPALYFGGSSEAAQDLAAEQVEMVLTWGEPPAAVAEKIAQVRAKAEKLGRTVRFGIRLHVIVRETNAEAWQAADRLISHLDDETIARAQASLARFDSVGQQRMAALHGGRRDKLEVSPNLWAGVGLVRGGAGTALVGDGPTVAERVKEYADLGIDTFIFSGYPHLEESYRVAELLFPHLDVERPELPKSQGYVSPFGEMVANDILPKAASQS	PGPT0003040_937	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
D1-35_03605	783	ssuC_3	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGAAAAAACTTATCCACAACCTCGCGCCGTGGGCGGTGCCCCTGCTGTTGTTGGCGGTGTGGCAATTGTCGGTATCGGCCGGCTGGTTATCCACGCGGATCCTGCCGGCGCCGGTGGCGGTGATCGAGGCCGGAGTGAACCTGGTGCGCAGCGGTGAAATCTGGACGCACCTGGCTATCAGCGGTTGGCGCGCGGCGGTCGGCTTCCTGATTGGCGGCGGCATCGGCCTGGCCCTGGGCTTTATCACCGGCCTGTCGAAGTGGGGCGAACGGCTGTTGGACAGCTCCGTGCAGATGGTGCGTAACGTGCCTCACCTGGCGCTGATTCCACTGGTGATCCTCTGGTTCGGTATCGACGAGTCGGCGAAGATTTTCCTGGTGGCGCTGGGCACGCTGTTTCCGATCTACCTCAACACCTACCACGGGATTCGCAATGTCGACCCGGCGCTGGTGGAGATGTCCCGCAGCTACGGTTTATCCGGCTTCAGCCTGTTTCGCCAGGTGATCCTGCCGGGCGCCTTGCCTTCGATCCTGGTGGGCGTGCGTTTTGCCCTGGGTTTCATGTGGTTGACGCTGATCGTCGCGGAAACCATCTCGGCCAGCTCCGGTATCGGTTATCTGGCGATGAATGCCCGGGAATTCCTGCAGACCGACGTGGTGGTGCTGGCGATTCTGCTGTACGCCGTGCTCGGCAAGCTGGCCGACCTTGCTGCCCGCGGGCTTGAACGCGTCTGGCTGCGCTGGCATCCGGCCTATCAGGTGAACAAGGGAGGTGTCGCATGA	MKKLIHNLAPWAVPLLLLAVWQLSVSAGWLSTRILPAPVAVIEAGVNLVRSGEIWTHLAISGWRAAVGFLIGGGIGLALGFITGLSKWGERLLDSSVQMVRNVPHLALIPLVILWFGIDESAKIFLVALGTLFPIYLNTYHGIRNVDPALVEMSRSYGLSGFSLFRQVILPGALPSILVGVRFALGFMWLTLIVAETISASSGIGYLAMNAREFLQTDVVVLAILLYAVLGKLADLAARGLERVWLRWHPAYQVNKGGVA	PGPT0003030_1923	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003030-ssuB-K15554	NA	NA
D1-35_03606	807	ssuB	COG1116	Aliphatic sulfonates import ATP-binding protein SsuB	ATGACCGCCCAACAACCGCCGCGCCTGCTGCGAGGTATCCCGCTGGCGGTGCGCAATCTGCAGAAGACCTTTGGTTCGCGCCAGGTATTGCGTGACATCGACTTGCATATCCCGGCCGGGCAGTTCGTCGCCGTGGTTGGCCGCAGCGGCTGCGGCAAAAGTACCTTGTTGCGCTTGCTGGCCGGCCTCGATCAGCCGTCGGGCGGGCAATTGTTGGCCGGTTCGGCATCGCTGAGCGCTGCACGGGAAGACACACGTCTGATGTTTCAGGAGGCGCGTTTGCTGCCCTGGAAAAAGGTCATCGACAACGTCGGCCTCGGACTCAAGGGCGACTGGCGACCACAAGCGTTGCAGGCGCTGGATGCCGTGGGCCTGGCCGATCGTGCACACGAGTGGCCGGCGGCATTGTCCGGCGGACAGAAACAGCGGGTGGCCCTGGCCCGGGCGCTGATTCATCAACCGCGCCTGCTGTTGCTGGACGAACCTCTGGGCGCGCTCGATGCGCTGACCCGGATCGAAATGCAGCAACTGATCGAGCGTCTCTGGCAGCAACACGGCTTCACCGTGCTGTTGGTGACCCACGACGTCAGCGAAGCGGTGGCGATCGCCGACCGGGTGATCCTGATCGAAGACGGCCAGATCGGCCTCGACCTGGCCATCGACTTGCCGCGCCCGCGTGCCCGCGGTTCGCATCGGCTGGCGAGCCTGGAAACCGAAGTCCTCAACCGCGTGCTGTCCTTGCCCGGCCAACCGCCGGAATCCGAACCCGTTTCACCCTTGCCCACGCAACTGCGTTGGGCGCAATAA	MTAQQPPRLLRGIPLAVRNLQKTFGSRQVLRDIDLHIPAGQFVAVVGRSGCGKSTLLRLLAGLDQPSGGQLLAGSASLSAAREDTRLMFQEARLLPWKKVIDNVGLGLKGDWRPQALQALDAVGLADRAHEWPAALSGGQKQRVALARALIHQPRLLLLDEPLGALDALTRIEMQQLIERLWQQHGFTVLLVTHDVSEAVAIADRVILIEDGQIGLDLAIDLPRPRARGSHRLASLETEVLNRVLSLPGQPPESEPVSPLPTQLRWAQ	PGPT0003035_673	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003035-ssuC-K15555	NA	NA
D1-35_03607	216			hypothetical protein	ATGACTATCAAAGCCATCAACGTACGCAACCAGTTCAAAGGCACCATCAAGGAAATCGTCGAAGGCGACGTGCTGTCGGAAATCGACGTGCAGACCGCCTCGGGCATCGTTACCTCGGTCATCACCACCCGCTCGGTCAAGGAGCTGGAACTGGCGATTGGCAGCGAAGTGATTGCCTTCGTCAAATCCACCGAGGTGTCTATCGCCAAGTTGTGA	MTIKAINVRNQFKGTIKEIVEGDVLSEIDVQTASGIVTSVITTRSVKELELAIGSEVIAFVKSTEVSIAKL				NA	NA	NA	NA	NA
D1-35_03608	633			hypothetical protein	ATGACACGCACCGCCACCCCTCGCAAACCCCGCGCCCGCAGCCAGGCCCGGATCGACTCGATCCTCGATGCCGCCCGCACGCTGCTCGCCGCCGAAGGCGTGGCCAGCCTGTCGATCTACAGCGTCGCCGAGCGCGCCGGGATCCCGCCCTCCTCCGTCTATCACTTCTTCGCCAGCGTCCCGGCCCTGCTCGAAGCCCTGACCGCCGACGTCCATGCAGCCTTTCGTGCCTGCCTTCAAACACCGATCGATCATGCAGCGCTGAACCATTGGCACGATCTGTCGCGGCTGGTGGAGCAACGGATGCTGGTGATCTACAGCGAGGACGCCGCCGCTCGCCAACTGATCCTGGCCCAGCATGGCCTGACTGAAGTCACCCAGGCCGACCGCCAGCATGACCTGGAACTGAGCGAGCTGATGCACACCGTCTTTGCCCGCCATTTCCAACTGCCGCCCTTGCCTGCCGATGTCGACGTGTTCGCCTTGGCCATGGAACTGGGCGACCGCGTCTACGCCCGCTCGGTACACCAGCACGGCCAGATAACCCCGCGCATGGCCGAGGAAGGCATGCGTGTGTTCGATGCGTACCTGGGGCTCTATCTCCCTCCGTTTCTGCCCAAGCGCTCTGATTGA	MTRTATPRKPRARSQARIDSILDAARTLLAAEGVASLSIYSVAERAGIPPSSVYHFFASVPALLEALTADVHAAFRACLQTPIDHAALNHWHDLSRLVEQRMLVIYSEDAAARQLILAQHGLTEVTQADRQHDLELSELMHTVFARHFQLPPLPADVDVFALAMELGDRVYARSVHQHGQITPRMAEEGMRVFDAYLGLYLPPFLPKRSD				NA	NA	NA	NA	NA
D1-35_03609	1377	puuA_2	COG0174	Gamma-glutamylputrescine synthetase PuuA	ATGTCGGTACCCCCGCGTGCCGTTCAGCTTAACGAAGCGAACGCGTTCCTTAAGGAACATCCTGAGGTTCTGTACGTTGACCTTCTGATTGCGGATATGAATGGTGTGGTGCGCGGCAAGCGCATCGAACGCACCAGCCTCCACAAGGTTTACGAGAAAGGCATCAACCTGCCGGCCTCTCTATTTGCCCTGGATATCAATGGCTCGACGGTGGAAAGCACCGGCCTGGGCCTGGACATCGGCGATGCCGACCGCATCTGCTATCCAATCCCCGGCACTCTAAGCAACGAACCCTGGCAGAAGCGCCCCACCGCGCAACTGCTGATGACCATGCACGAGCTTGAAGGCGATCCGTTCTTCGCCGACCCTCGCGAAGTCCTGCGCCAGGTCGTGACCAAGTTCGATGAACTGGGCCTGACCATCTGCGCGGCATTCGAGCTGGAGTTCTACCTGATCGACCAGGAGAACGTGAATGGCCGTCCACAACCGCCCCGCTCGCCAATCTCTGGCAAACGCCCGCACTCGACACAGGTCTACCTGATCGATGACCTCGACGAATACGTCGATTGCCTCCAGGACATCCTGGAAGGGGCCAAGGAGCAAGGCATTCCCGCCGACGCCATCGTCAAGGAAAGTGCCCCGGCGCAGTTCGAAGTGAACCTGCACCACGTGGCCGACCCGATCAAGGCTTGTGACTACGCGGTACTGCTCAAGCGGCTGATCAAGAACATCGCCTACGACCATGAAATGGACACCACCTTCATGGCCAAGCCGTATCCAGGCCAGGCGGGCAACGGTCTGCACGTCCATATCTCGATCCTGGACAAAGAAGGCAAGAATATCTTTGCCAGCGAGGATCCCGAGCAGAACGCCGCGCTGCGTCACGCGATCGGCGGTGTGCTCGAGACCCTGCCCGCGCAGATGGCGTTCCTCTGCCCGAACGTCAACTCCTACCGTCGTTTCGGCGCACAGTTCTACGTGCCGAACTCGCCGACCTGGGGCCTGGACAACCGCACCGTGGCCTTGCGCGTGCCGACCGGCTCCGCCGATGCCGTACGCCTGGAACACCGTGTCGCCGGCGCCGATGCCAACCCGTACCTGTTGATGGCGGCGGTCCTGGCGGGCGTGCACCATGGCCTGACCAACAAGATCGAGCCCGGCGCGCCCGTCGAAGGCAACAGCTACGAGCAGAACGAGCAAAGCCTGCCGAACAACTTGCGCGATGCCCTGCGCGAACTGGACGACAGCGAAGTCATGGCCAAGTACATCGATCCCAAGTACATCGATATCTTCGTGGCCTGCAAGGAAAGCGAGCTGGAAGAGTTTGAACACTCCATCTCCGACCTTGAGTACAACTGGTACCTGCATACCGTTTAA	MSVPPRAVQLNEANAFLKEHPEVLYVDLLIADMNGVVRGKRIERTSLHKVYEKGINLPASLFALDINGSTVESTGLGLDIGDADRICYPIPGTLSNEPWQKRPTAQLLMTMHELEGDPFFADPREVLRQVVTKFDELGLTICAAFELEFYLIDQENVNGRPQPPRSPISGKRPHSTQVYLIDDLDEYVDCLQDILEGAKEQGIPADAIVKESAPAQFEVNLHHVADPIKACDYAVLLKRLIKNIAYDHEMDTTFMAKPYPGQAGNGLHVHISILDKEGKNIFASEDPEQNAALRHAIGGVLETLPAQMAFLCPNVNSYRRFGAQFYVPNSPTWGLDNRTVALRVPTGSADAVRLEHRVAGADANPYLLMAAVLAGVHHGLTNKIEPGAPVEGNSYEQNEQSLPNNLRDALRELDDSEVMAKYIDPKYIDIFVACKESELEEFEHSISDLEYNWYLHTV	PGPT0000645_5086	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
D1-35_03611	777	puuD_2	COG2071	Gamma-glutamyl-gamma-aminobutyrate hydrolase PuuD	ATGTCTCGCCTGCCGTTAATCGGCATCACCACCTGCTCCAGGCAGATCGGTCTGCATGCGTATCACACCACTGGCGACAAATATGCGCGGGCTGTCGCAACGGCCGCCAAGGGCTTGCCGGTGCTGATCCCGTCCCTGGCGGATCTGTTCTCCCCGTCCGATATTCTGGACGCCCTGGACGGTATTCTTTTTACCGGCTCCCCTTCCAATGTAGAACCTTTTCACTACCAGGGCCCGGCCAGCGCGCCAGGCACCGCTCATGATCCTGCACGGGACGCCATTACCCTGCCGCTGATCCGCGCAGCGGTCGACGCGGGCGTTCCGGTGCTGGGCATCTGTCGCGGTTTCCAGGAAATGAACGTTGCCTTTGGCGGTAGCCTGCATCAGAAAGTTCATGAAGTCGGAACCTTCATCGATCATCGTGAAGACGACACCCAGCCGGTAGAGGTCCAATATGGTCCTGCCCATGCCGTGCATGTCCAGCCTGGCGGTATCCTCGCGTCTTTGGGGCTGCCGCCGCAGGTCGAGGTCAACTCGATCCACAGCCAGGGCATCGAGCGCCTGGCCTCGGGGCTGCGGGCCGAAGCGCTGGCGCCGGATGGCTTGATCGAAGCCGTCTCGGTGGTACAAGGCAAGGCTTTTGCTTTAGGAGTGCAATGGCACCCTGAATGGGCGGTAGGCTCCAACCCGCACTACCTTGCGATTTTCCAGGCATTTGGCGATGCCTGCCGAGCAAGGGCAACACAACGCGACGCCGATGCGTCAAACAACGCCTGA	MSRLPLIGITTCSRQIGLHAYHTTGDKYARAVATAAKGLPVLIPSLADLFSPSDILDALDGILFTGSPSNVEPFHYQGPASAPGTAHDPARDAITLPLIRAAVDAGVPVLGICRGFQEMNVAFGGSLHQKVHEVGTFIDHREDDTQPVEVQYGPAHAVHVQPGGILASLGLPPQVEVNSIHSQGIERLASGLRAEALAPDGLIEAVSVVQGKAFALGVQWHPEWAVGSNPHYLAIFQAFGDACRARATQRDADASNNA	PGPT0007640_56	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007640-puuD-K09473	NA	NA
D1-35_03612	1359	puuA_3	COG0174	Gamma-glutamylputrescine synthetase PuuA	ATGAGTAACAACCTCGACCAGCTCACCGATTGGTTGAAAGACCACAAGATCACAGAAGTCGAATGCATGATTGGCGACCTGACCGGCATTACCCGGGGCAAGATCTCGCCGACCAACAAGTTCATCGCCGAAAAAGGCATGCGCCTGCCCGAGAGCGTTCTGCTCCAGACCGTAACGGGCGACTATGTCGAAGACGACATCTATTACGAACTGCTCGACCCCGCCGACATCGACATGATCTGCCGCCCGGACGAAAACGCAGTCTTCCTGGTGCCCTGGGCCATCGAGCCCACCGCCCAGGTGATCCACGATTCCTACGACAAGCAAGGCAACCCCATCGAGCTGTCGCCGCGCAACGTGCTCAAGAAGGTGCTCAAGCTCTACGCCGACAAGGGCTGGCAGCCGATTGTCGCGCCGGAGATGGAGTTCTACCTGACCAAGCGCAGCGACGACCCGGACTTTCCGCTGCAACCGCCTATCGGCCGTTCCGGTCGCCCGGAAACCGGTCGCCAGTCTTTCTCGATCGAAGCGGCGAACGAATTCGACCCGTTGTTCGAGGACGTCTATGACTGGTGCGAATTGCAGGAACTGGACCTCGATACCCTGATTCACGAAGACGGCACCGCGCAGATGGAAATCAACTTCCGTCATGGCGATGCACTGTCGCTGGCCGACCAGATCCTGGTGTTCAAGCGCACCATGCGCGAGGCGGCGCTCAAGCACGATGTGGCCGCCACCTTCATGGCCAAACCGATGACCGGCGAGCCGGGCAGTGCGATGCACTTGCACCAGAGCATCATCGACAAGGAAACCGGCAAGAACGTCTTCTCCAACGAAGACGGGACCATGAGCGAGCTGTTCCTGCACCACATCGGTGGCCTGCAGAGATTCATCCCCGAGCTGCTGCCGCTGTTCGCCCCCAACGTCAATTCGTTCCGCCGCTTCCTGCCCGACACCTCGGCGCCGGTGAACGTCGAATGGGGCGAAGAAAACCGCACCGTGGGCTTGCGGGTTCCGGACGCCGGGCCGCAGAACCGTCGCGTGGAAAATCGCTTGCCGGGCGCCGACGCCAACCCGTACCTGGCGATTGCCGCCAGCCTGTTGTGCGGCTACATCGGCATGGTCGAGGGCATCGATCCGAGCGCGCCAGTGGTCGGCCGTGGTTATGAGCGCCGGAACCTGCGTTTGCCGCTGACCATCGAAGATGCCCTGGAGCGCATGGAAAACAGCTCCACCATCGAGAAGTACCTGGGCAAGAAATTCATCACGGGCTACGTCGCGGTCAAGCGGGCCGAGCATGAAAACTTCAAGCGCGTCATCAGTTCGTGGGAGCGGGAATTCCTGCTCTTTGCCGTCTGA	MSNNLDQLTDWLKDHKITEVECMIGDLTGITRGKISPTNKFIAEKGMRLPESVLLQTVTGDYVEDDIYYELLDPADIDMICRPDENAVFLVPWAIEPTAQVIHDSYDKQGNPIELSPRNVLKKVLKLYADKGWQPIVAPEMEFYLTKRSDDPDFPLQPPIGRSGRPETGRQSFSIEAANEFDPLFEDVYDWCELQELDLDTLIHEDGTAQMEINFRHGDALSLADQILVFKRTMREAALKHDVAATFMAKPMTGEPGSAMHLHQSIIDKETGKNVFSNEDGTMSELFLHHIGGLQRFIPELLPLFAPNVNSFRRFLPDTSAPVNVEWGEENRTVGLRVPDAGPQNRRVENRLPGADANPYLAIAASLLCGYIGMVEGIDPSAPVVGRGYERRNLRLPLTIEDALERMENSSTIEKYLGKKFITGYVAVKRAEHENFKRVISSWEREFLLFAV	PGPT0000645_6284	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
D1-35_03613	1365	spuC_2	COG0161	Putrescine--pyruvate aminotransferase	ATGACCCGCAACAATCCGCAAACCCGTGAATGGCAGGCCCTGAGCAGCGATCATCATCTGGCACCGTTCAGCGACTTCAAACAGCTCAAAGAGAAAGGCCCGCGCATCATCACCCACGCCAAGGGCGTGTACCTCTGGGACAGTGAAGGCAACAAGATCCTCGACGGCATGGCCGGCCTCTGGTGCGTGGCGGTCGGCTACGGCCGCGATGAGCTGGCGGACGCCGCCAGCCAACAGATGCGCGAGCTCCCGTACTACAACCTGTTCTTCCAGACCGCCCACCCGCCGGTGCTGGAACTGTCGAAGGCCATCGCCGACATCGCCCCGGAAGGCATGAACCACGTGTTCTTCACCGGCTCCGGCTCCGAAGGCAACGACACCATGCTGCGTATGGTCCGCCACTACTGGGCGATCAAAGGGCAGCCGAACAAGAAAGTCATCATCAGTCGCAAGAACGGTTATCACGGTTCGACCGTGGCTGGCGCGAGCCTGGGTGGCATGACCTACATGCATGAGCAGGGCGACCTGCCGATCCCGGGTATTGTCCACATCGCCCAACCCTACTGGTTTGGCGAAGGCGGCGACATGAGCCCCGAAGAGTTCGGCATCTGGGCCGCCAATCAGCTGGAAGAAAAGATCCTCGAGATCGGCGTCGACAACGTCGGTGCGTTCATTGCCGAGCCGATCCAGGGCGCCGGCGGCGTGATCGTGCCGCCGGACAGCTACTGGCCGCGCATGAAGGAAATCCTCGCCAAATACGACATCCTGTTCGTGGCCGACGAGGTCATCTGCGGTTTTGGCCGCACGGGTGAGTGGTTCGGTACCGATCATTACGGGTTGAAACCGCACATGATGACTATCGCCAAGGGCCTTACCTCGGGTTACATCCCCATGGGCGGCCTGATCGTGCGCGACGATGTGGTCGCGGTGCTCAACGAAGGCGGTGACTTCAACCACGGCTTCACCTACTCCGGTCACCCGGTGGCCGCTGCGGTGGCCCTGGAAAATATCCGTATCCTGCGCGAAGAAAAGATCATCGAGCGCGTCCACAGCGAAACGGCACCGTATTTGCAGCAGCGCCTGCGGGAACTGAACGACCATCCGCTGGTGGGTGAAGTGCGCGGCGTCGGTTTGCTGGGGGCGATCGAACTGGTCCAGGACAAGGCCACGCGCAAACGCTACGAAGGCAAGGGCGTGGGCATGATCTGCCGGCAGTTCTGCTTCGATAACGGGCTGATCATGCGCGCAGTGGGCGACACCATGATCATTGCGCCGCCGCTGGTGATCAGCAAGGCCGAGATCGACGAATTGGTGGCCAAGGCGCGGCAATGCCTGGACCTGACGCTCGGTGCGCTGCAAGGCTGA	MTRNNPQTREWQALSSDHHLAPFSDFKQLKEKGPRIITHAKGVYLWDSEGNKILDGMAGLWCVAVGYGRDELADAASQQMRELPYYNLFFQTAHPPVLELSKAIADIAPEGMNHVFFTGSGSEGNDTMLRMVRHYWAIKGQPNKKVIISRKNGYHGSTVAGASLGGMTYMHEQGDLPIPGIVHIAQPYWFGEGGDMSPEEFGIWAANQLEEKILEIGVDNVGAFIAEPIQGAGGVIVPPDSYWPRMKEILAKYDILFVADEVICGFGRTGEWFGTDHYGLKPHMMTIAKGLTSGYIPMGGLIVRDDVVAVLNEGGDFNHGFTYSGHPVAAAVALENIRILREEKIIERVHSETAPYLQQRLRELNDHPLVGEVRGVGLLGAIELVQDKATRKRYEGKGVGMICRQFCFDNGLIMRAVGDTMIIAPPLVISKAEIDELVAKARQCLDLTLGALQG	PGPT0007865_721	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007865-spuC-K12256	NA	NA
D1-35_03614	1128	spuD_1	COG0687	Putrescine-binding periplasmic protein SpuD	ATGAAGGCAATAGGCATGAAGACATTAGGTATGAAGATAGCTGGCAAGACCCTCCTCGCCATGTCCCTGGCGGGCGTGATGGCGGGCGCCGCCCAGGCGGACGACAAAGTGCTGCACGTCTACAACTGGTCGGACTACATTGCGCCGGACACGGTCGCCAAGTTCGAGAAGGAGACAGGGATCAAGGTCGTCTACGACGTCTTCGACAGCAACGAGACCTTGGAGGCCAAGCTGCTGGCGGGCAAATCCGGCTATGACGTCGTCGTGCCGTCGAACAACTTCCTCGCCAAGCAGATCAAGGCCGGTGTCTATCAGGAGCTGGACAAGTCCAAGCTGCCGAACTGGAAAAACCTCGACACCGACCTGCTCAAGGCCGTCGGCGATGCCAGCGACCAGGGCAACAAACACGCCTTCCCGTACATGTGGGGCACCATCGGCATCGGTTACAACCCGGAAAAGGTCAAGGCCGCATTGGGCATCGACAAGATCGATTCCTGGGACACCCTGCTCAAGCCCGAGAACATCGCCAAGCTCAAGAGCTGCGGGGTGAGCTTCCTCGATTCGCCGACCGAAATGATTCCGGTGGCCCTGCATTACCTCGGCTACCCGACCGACAGCCAGGACAAGAAGCAACTGGCCGAGGCCGAAGCGTTGTTCCTCAAGCTGCGTCCATCGATCGGCTACTTCCACTCCTCCAAGTACATCTCGGACCTGGCCAACGGCAACATCTGCGTGGCCGTGGGTTACTCGGGTGATATCGAGCAATCCAAGAGCCGTGCTGCCGAAGCTGGCGGCAAGGTGAAAGTGGCCTACACCATTCCGAAGGAAGGTGCCGGTTCGTTCTACGACATGGTCGCCATTCCCAAGGATGCCAAAAACGTCGAAGGCGCCTACAAGTGGATGAACTTCATCATGCAGCCGGAAATCATGGCGGAGATCACCGACAACGTGCGCTTCCCTAACGGCAACAAGGCCGCCACCCCACTGGTGGACAAGGAAATTTCCGGTGACCCGAGCATTTATCCATCGGACGAAGTTAAGGCCAAGCTCTACGCGATTGCCGACCAGCCGGCCGCGACCCAGCGGATCCTGACCCGCAGCTGGACCAAGATCAAATCCGGTAAATAA	MKAIGMKTLGMKIAGKTLLAMSLAGVMAGAAQADDKVLHVYNWSDYIAPDTVAKFEKETGIKVVYDVFDSNETLEAKLLAGKSGYDVVVPSNNFLAKQIKAGVYQELDKSKLPNWKNLDTDLLKAVGDASDQGNKHAFPYMWGTIGIGYNPEKVKAALGIDKIDSWDTLLKPENIAKLKSCGVSFLDSPTEMIPVALHYLGYPTDSQDKKQLAEAEALFLKLRPSIGYFHSSKYISDLANGNICVAVGYSGDIEQSKSRAAEAGGKVKVAYTIPKEGAGSFYDMVAIPKDAKNVEGAYKWMNFIMQPEIMAEITDNVRFPNGNKAATPLVDKEISGDPSIYPSDEVKAKLYAIADQPAATQRILTRSWTKIKSGK	PGPT0007805_1157	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007805-potF-K11073	NA	NA
D1-35_03615	1098	spuE	COG0687	Spermidine-binding periplasmic protein SpuE	GTGCCTGTCTTTTCTTTGTTACGCAACGCTTTGCTGGTCGGTGCCGGCCTGACGCTCGCCGTCGGTGTCCAGGCCGCCTCCACCGTGCATATTTATAACTGGTCGGACTACATCGGCGAGACCACCCTGGCGGACTTCGAGAAAGCCACCGGGATCAAGCCGGTCTACGACGTGTTCGATTCCAACGAAACCCTGGAAGGCAAGTTGCTGGCCGGTCGTACCGGTTACGACGTGGTTGTGCCGTCCAACCACTTCCTGGGCAAGCAGATCAAGGCTGGTGCGTTCCAGAAACTCGACAAGGCGCAATTGCCCAACTACGCCAACCTCGACCCCGTGCTGCTCAAGCGCCTGGAGAAAAACGACCCGGGCAACCAATATGCCGTGCCTTACCTGTGGGGCACCAACGGCATCGGCTACAACGTCGAGAAGGTCAAGGCGGTATTGGGCGTCGAGAAAATCGACTCGTGGGCCATGCTGTTCGAACCGGAAAATATCAAGAAGCTCTCCAGCTGCGGCGTTTCGTTCCTCGACTCGGGCGACGAAATGATTCCGGCCATGCTCAACTACCTGGGCCTGGACCCCAACAGCCAGAACCCCGAAGACTACAAGAAGGCCGAGGCCCAGCTCCTCAAGATCCGGCCTTACGTCACCTACTTCAATTCCTCCAAGTACATCTCCGATCTGGCCAACGGCGAGATCTGCGTGGCCGCCGGTTTCTCCGGGGACATTTTCCAGGCCCGCGAACGTGCCAGCGAGGCCGGCAAGGGCGTCGATATCGCCTACGTGATTCCCAAGGAAGGCGGCAACCTCTGGTTCGACATGCTGGCGATCCCGCGCGACGCCAGCAACGCCAAGCAGGCCCATGCGTTCATCAACTACCTGCTCAAGCCTGAGGTCATCGCCCAGGTGAGCGACGTCGTTGGTTACGCCAACCCGAACCCGAAGGCTGGCGAACTGATGAGCCAGGACGTACGCACCGACGAAGCGGTCTACCCACCGCAAGCGGTCGTCGACAAGCTCTACGTCAATTCCGAGTTGCCGCCCAAGATCCAACGACTCATGACCCGCAGCTGGACTAAGGTCAAGTCGGGTAAATAG	MPVFSLLRNALLVGAGLTLAVGVQAASTVHIYNWSDYIGETTLADFEKATGIKPVYDVFDSNETLEGKLLAGRTGYDVVVPSNHFLGKQIKAGAFQKLDKAQLPNYANLDPVLLKRLEKNDPGNQYAVPYLWGTNGIGYNVEKVKAVLGVEKIDSWAMLFEPENIKKLSSCGVSFLDSGDEMIPAMLNYLGLDPNSQNPEDYKKAEAQLLKIRPYVTYFNSSKYISDLANGEICVAAGFSGDIFQARERASEAGKGVDIAYVIPKEGGNLWFDMLAIPRDASNAKQAHAFINYLLKPEVIAQVSDVVGYANPNPKAGELMSQDVRTDEAVYPPQAVVDKLYVNSELPPKIQRLMTRSWTKVKSGK	PGPT0007805_1116	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007805-potF-K11073	NA	NA
D1-35_03616	1143	potA_3	COG3842	Spermidine/putrescine import ATP-binding protein PotA	ATGGCAGTTGCCTCCGGCGCCTATAAGAAAGCCCTCGAGGGCGACCAGACACCCAAGCAGGTGCTGGTCAAGATCGACCGGGTCACGAAGAAGTTCGACGAGACGATTGCCGTGGACGATGTGTCCCTGGAAATCAAGAAAGGCGAGATCTTCGCCTTGCTCGGCGGTTCGGGATCAGGCAAATCCACCTTGCTGCGCATGCTGGCAGGTTTCGAGCGGCCCACGGAGGGGCGGATCTTCCTCGATGGCGTGGACATCACCGACATGCCGCCCTACGAGCGGCCGATCAACATGATGTTCCAGTCCTACGCCTTGTTCCCCCACATGACGGTGGCGCAGAACATCGCCTTCGGCCTGCAACAGGACAAGATCCCGAAAGCCGAGGTCGATGCCCGCGTGGCCGAGATGCTCAAGCTCGTGCAGATGAGCCAGTACGCCAAGCGCAAGCCGCACCAGCTCTCCGGCGGCCAGCGCCAGCGTGTCGCCCTGGCCCGTTCGCTGGCCAAGCGGCCGAAGCTGCTGCTGCTCGATGAGCCGATGGGCGCCCTGGACAAGAAGCTGCGCTCGCAGATGCAGCTTGAGCTGGTGGAGATCATCGAGCGGGTCGGCGTGACCTGTGTAATGGTGACCCATGACCAGGAAGAGGCCATGACCATGGCCGAGCGCATCGCGATCATGCACCTGGGCTGGATTGCCCAGATCGGCAGCCCGATCGACATCTACGAAACCCCGACCAGCCGCCTGGTCTGCGAATTCATCGGCAACGTCAACATCTTCGAGACCGAAGTGGTGGACGACGCCGAGGGCCACGCGGTGCTGACCTGCAAGGACCTTGATCGCAATATCTACGTCGGCCACGGCATCAGCACTTCGGTGCAGGACAAGTCCGTGACCTACGCCATTCGCCCGGAGAAGCTGCTGGTCACCTCCGAGCAGCCAACCTGCGAGCACAACTGGTCCAGCGGCAAGGTCCATGACATTGCCTACCTGGGCGGCCACTCGGTGTTCTACGTCGAATTGCCAAGCGGCAAGCTGGTGCAGTCGTTCGTCGCCAACGCCGAGCGGCGCGGCCAGCGCCCGACCTGGGGCGACCAGGTGTTCGTCTGGTGGGAAGACGACAGCGGCGTGGTGCTTCGCTCATGA	MAVASGAYKKALEGDQTPKQVLVKIDRVTKKFDETIAVDDVSLEIKKGEIFALLGGSGSGKSTLLRMLAGFERPTEGRIFLDGVDITDMPPYERPINMMFQSYALFPHMTVAQNIAFGLQQDKIPKAEVDARVAEMLKLVQMSQYAKRKPHQLSGGQRQRVALARSLAKRPKLLLLDEPMGALDKKLRSQMQLELVEIIERVGVTCVMVTHDQEEAMTMAERIAIMHLGWIAQIGSPIDIYETPTSRLVCEFIGNVNIFETEVVDDAEGHAVLTCKDLDRNIYVGHGISTSVQDKSVTYAIRPEKLLVTSEQPTCEHNWSSGKVHDIAYLGGHSVFYVELPSGKLVQSFVANAERRGQRPTWGDQVFVWWEDDSGVVLRS	PGPT0007810_490	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007810-potG-K11076	NA	NA
D1-35_03617	921	potH	COG1176	Putrescine transport system permease protein PotH	ATGAACATGCGCAAGCTCAAACGCCGACTCGCTCGAATAACGCCCGGTGGCCGTCAGCTGGTCATTGGGGTGCCCTTCATCTGGCTGTTCCTGTTCTTCATGCTGCCGTTCTTCATCGTCCTGAAGATCAGCTTCGCCGAAGCCGACGTGGCCATCCCGCCGTACACCGAGATCTACAGCTACGTTGACCAGAAGCTGCAAGTGCTGCTCAACCTCGCCAACTACGCGATGCTCAGCGAGGACGAACTGTACATCGCCGCCTATCTCGGCTCGCTGAAGATGGCCCTGATCAGCACCGTGCTGTGCCTGCTGATCGGCTACCCGATGGCCTACGGCATCGCCAACGCCCGCAAAGAGATGCAGACGGTGCTGGTATTGCTGATCATGATGCCGACCTGGACCGCGATCCTGATCCGCGTCTACGCGTGGATGGGCATCCTCAGCAACAACGGCCTGCTCAATGGCTTCCTGATGAGCATGGGCTGGATCAGCGAGCCCTTGCAGATCCTCAACACCAACCTGGCGGTCTATATCGGCGTGGTTTATTCCTACCTGCCGTTCATGATCCTGCCGCTGTACGCCAACCTGGTCAAACACGACCCGAGCCTGTTGGAAGCCGCGTCCGACCTGGGTTCGAGCACGTTCAACAGCTTCTGGAAAATCACCGTGCCGCTGTCCAAGAACGGCATCGTCGCAGGCTGCATGCTGGTGTTCATCCCGGTAGTGGGTGAGTTCGTGATCCCGGAACTGCTGGGCGGTCCGGAAACCTTGATGATCGGCAAGGTGCTGTGGCAGGAGTTCTTCAATAACCGTGACTGGCCGGTGGCATCCGCCCTGGCGGTAGTGATGCTGGCGATCCTGATCGTGCCCATCATCCTGTTCAACAGCAGTCAGGCCAAGGAAATGGAGGGCAAGGAATGA	MNMRKLKRRLARITPGGRQLVIGVPFIWLFLFFMLPFFIVLKISFAEADVAIPPYTEIYSYVDQKLQVLLNLANYAMLSEDELYIAAYLGSLKMALISTVLCLLIGYPMAYGIANARKEMQTVLVLLIMMPTWTAILIRVYAWMGILSNNGLLNGFLMSMGWISEPLQILNTNLAVYIGVVYSYLPFMILPLYANLVKHDPSLLEAASDLGSSTFNSFWKITVPLSKNGIVAGCMLVFIPVVGEFVIPELLGGPETLMIGKVLWQEFFNNRDWPVASALAVVMLAILIVPIILFNSSQAKEMEGKE	PGPT0007820_562	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007820-potH-K11075	NA	NA
D1-35_03618	888	ydcV_3		Inner membrane ABC transporter permease protein YdcV	ATGAAGCGCTTCAGTTTTTCAAGCCTGATGCTGGTGTTGGGGCTGTTGTTCATCTATGCGCCAATGCTGATCCTGGTGATCTTTTCGTTCAACGCCTCGAAACTGGTGACGGTGTGGGGCGGTTGGTCGGTCAAGTGGTACGTCGGCCTGCTGGACAACTCGCAACTGATGGGCTCGGTGGTGCGTTCGCTGGAGATCGCCTGCTACACCGCGATCGCCGCGGTGGCGCTGGGTACGCTGGCGGCCTTCGTGTTGACCCGCATCACCCACTTCAAGGGCCGCACGTTGTTCGGCGGCCTGGTCACCGCGCCGTTGGTGATGCCGGAAGTGATCACCGGCCTGTCGCTGTTGCTGTTGTTCGTGGCGATGGCGCAGATGATCGGCTGGCCACAGGAGCGTGGCATCGTCACGATCTGGATCGCCCATACGACGTTCTGCGCGGCCTATGTGGCGGTGGTGGTCTCGGCGCGCTTGCGTGAGCTGGACCTGTCCATCGAAGAGGCAGCCATGGACCTCGGTGCGCGGCCGTGGAAGGTGTTCTTTTTGATCACCATCCCGATGATCGCGCCATCGCTGGCGGCGGGCGCGATGATGTCGTTCGCTTTGTCCCTCGACGACCTGGTGCTGGCAAGCTTCGTCTCCGGTCCTGGCTCGACGACGTTGCCAATGGAAGTCTTCTCGGCGGTACGCCTGGGGGTCAAGCCGGAAATCAACGCGGTGGCGAGCCTGATCCTGCTGGCGGTGTCGCTGGTGACCTTCCTGGTCTGGTACTTCAGCCGCCGCGCCGAAGAAAACCGCAAGCGAGCGATCCAGCAAGCCATCGAGGAAAGCGCCGCCGATTCCTGGAAACAACCGCAGGTGCGCCGGCCCGAGACCACTTCGGCCTGA	MKRFSFSSLMLVLGLLFIYAPMLILVIFSFNASKLVTVWGGWSVKWYVGLLDNSQLMGSVVRSLEIACYTAIAAVALGTLAAFVLTRITHFKGRTLFGGLVTAPLVMPEVITGLSLLLLFVAMAQMIGWPQERGIVTIWIAHTTFCAAYVAVVVSARLRELDLSIEEAAMDLGARPWKVFFLITIPMIAPSLAAGAMMSFALSLDDLVLASFVSGPGSTTLPMEVFSAVRLGVKPEINAVASLILLAVSLVTFLVWYFSRRAEENRKRAIQQAIEESAADSWKQPQVRRPETTSA	PGPT0007815_130	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007815-potI-K11074	NA	NA
D1-35_03619	639			hypothetical protein	ATGAGCAGCATCGCCGGCATCCGGATTCCCGACAGCGCCCTCGCCCGGGCCACCACCGAATATATCCGCGACATCGAATCAGACCTGCTTTATCACCATTCCCGCCGGGTGTTCCTGTTCGGCGCCTTGAGTGGCGAGCGCCGCCAATTGGCCTACGATCCGCAGCTGCTGTACGTCGGCGCGATGTTCCACGACCTCGGCCTGGTGGAAGGCTATCGCAGTGATGACGAGCGTTTCGAGGTGGACGGGGCAAACGCTGCCGCAGCATTTCTCAAACCCTACGGGCTGAGCGATGACGACATCGAACAGGTGTGGCTGTCGATTGCCCTGCACACCACCCCAGGCGTGCCGAAACACCTGCGCCCGACCGTCGCCCTGGTGACCGCCGGGGTGGAAATGGACGTGCTCGGCATGGACTACGCCGCGTTCCCCGCCGCACAGCGCGACGCCGTGGTGCATGCGCACCCGCGTGGAGAAGGTTTCAAGGAGTGCATCATCTGCGCCTTCGCCGACGGCTTGCGGCATCGTCCGCAGACCACTTTTGGCAACGTGAAGACCGATGTGCTGGTGGATCAGGAACCGGGGTTCAAGCCGATGAACTTCATCGAGGTGATTCGCACGTCGCCCTGGGTTTCGTAG	MSSIAGIRIPDSALARATTEYIRDIESDLLYHHSRRVFLFGALSGERRQLAYDPQLLYVGAMFHDLGLVEGYRSDDERFEVDGANAAAAFLKPYGLSDDDIEQVWLSIALHTTPGVPKHLRPTVALVTAGVEMDVLGMDYAAFPAAQRDAVVHAHPRGEGFKECIICAFADGLRHRPQTTFGNVKTDVLVDQEPGFKPMNFIEVIRTSPWVS				NA	NA	NA	NA	NA
D1-35_03620	966	cdhR_9	COG4977	HTH-type transcriptional regulator CdhR	ATGGAAAAGACCGTCGCCATCGTGGTATTCACAGGCGCCCAGTCTCTGGACATCAGCGGCCCCATGGATGTGTTCTGCGAAGCCAATCGCTTTCTCGCCGCGCATGATCACTATCGCTTGGAAGTGATCGGTATCGAGCCCGGCGCAATGTCCTGCTCCAACGGAATGTCCCTCAACCCGCACCGACATTTCAGCGAAGCGTCAGGCGCGTATGACCTGTTGCTGGTCGCGGGCGGTCCGCAGTTGCCATTTATGGAATTTGGCCCGGCGTTCAATGCCTGGTTGCACGACGCCTGCGCCCGTGCGCGACGCTTCGGTTCGATTTGCAACGGCGCGTTCATGCTGGCTCGGGCCGGCTTGCTCGAAGGGCGGACTGTCACGACCCATTGGGGCGATGCATCGGCATTGACGCGGATGTGTCCCTCGACCCGGGTCGAAGCCGATCGGCTGTACGTGCAGGACGGCGCGCTCTACACCTCGGCGGGTGTCACGGCGGGGATTGATCTGTCGCTGTTCCTGCTGGCGCAAGACCATGGGCCGGACGTGGCGCTGAATGTCGCCAAGCGGCTGGTGGTGTTCACCCAGCGCTCGGGCGGGCAGTCGCAGTTCAGTCCGTTCCTCGTACCGCACGCCGAGCCTGCCTCCGCGGTGGCTCAGGTTCAGTCATACGTGATGGCCAACCTCAACGGTGACCTGGGCATTGCCGACCTCGCCAACGCCGCGAACATGAGCCAACGCAACTTCTCCAGGGTGTTCACCCGGGAAGCGAAGGTCACGCCGGCGGAGTTCGTCGAGCAGGCCCGGGTAGACGCGGCGCGGGTAATGCTGGAAAGCACCCGGGCGCCGCTCAAGACCGTGGCGTACCAATGCGGCTTTCGCGACGCCCAGCACATGCGCAGCGTATTCAATCGCAGGCTGGGCGTGACACCGCAGCAGTTCAGGCTGAATTTTGCCGCGCTGGTTTGA	MEKTVAIVVFTGAQSLDISGPMDVFCEANRFLAAHDHYRLEVIGIEPGAMSCSNGMSLNPHRHFSEASGAYDLLLVAGGPQLPFMEFGPAFNAWLHDACARARRFGSICNGAFMLARAGLLEGRTVTTHWGDASALTRMCPSTRVEADRLYVQDGALYTSAGVTAGIDLSLFLLAQDHGPDVALNVAKRLVVFTQRSGGQSQFSPFLVPHAEPASAVAQVQSYVMANLNGDLGIADLANAANMSQRNFSRVFTREAKVTPAEFVEQARVDAARVMLESTRAPLKTVAYQCGFRDAQHMRSVFNRRLGVTPQQFRLNFAALV				NA	NA	NA	NA	NA
D1-35_03621	342			hypothetical protein	ATGTTCATTAACTGGTCCGAGCTGCTGCCCACCATCAAGAGCGCCTTTGGCGCCCTGGGAAAAAGCAATCCAAAAATGGTCAAGGCCTACATGGCCCTGGATGAAGCGGCGGCCGAGAACAACGTGCTCGATGCCAAGACCCGCGAGCTGATTTCCATCGCCGTGGCGATCACCACTCGCTGTGACGGTTGCATCGGCGTGCACACCGATGCCGCCATCAAGGCCGGCGCCACTCGCGAAGAAATCGCCGCGACCCTGGCGACGGCGGTCTCGCTGAACGCCGGCGCGGCTTACATTTATTCGCTGCGGGCGCTGGAGGCCCATGACGCGCTGAAGAAGTGA	MFINWSELLPTIKSAFGALGKSNPKMVKAYMALDEAAAENNVLDAKTRELISIAVAITTRCDGCIGVHTDAAIKAGATREEIAATLATAVSLNAGAAYIYSLRALEAHDALKK				NA	NA	NA	NA	NA
D1-35_03622	2409	quiP_2	COG2366	Acyl-homoserine lactone acylase QuiP	ATGAAACGCCTGCTCGTCGCTTTCCTGTCACTGGTTGTCACCGCCATCATCGTCGCGGGCGGCTACCTCTACAGCAAGCAGCCCACGCGCCAGGGCACCGTGCAGTTGCAGGGCCTGCAAGGCTCGGTGACGGTGCGCTACGACGAACGTGGGGTGCCGCATATCCGCGCCGAGAACGAAACCGACCTGTACCGCGCCCTCGGTTATGTCCACGCCCAGGATCGACTGTTCCAGATGGAATTGATGCGCCGACTCGCCCGTGGCGAGCTGGCCGAGATCCTCGGGCCGAAGCTGCTCGACACCGACAAGCTGATGCGCAGCCTGCGCATCCGCGAACGCGCTGCCAGCCATGTCGCCGAGCAGGATCGGCAGTCGCCGGCGTGGATCGCGACGCAGGCTTATCTGGACGGCATCAATACCTACCAGCAAACCCATACGCGGCCGCTGGAGTTCGATGTGCTGGGCATTCCCAAGCGGCCCTTCACCGCTGAAGACACCGCCAGCATCATCGGCTACATGGCGTACAGCTTCGCCGCCGCCTTTCGCACCGAACCGCTGTTGACTTACGTGCGTGACAAACTCGGTGCCGAGTACGTGAATATCTTCGACCTCGATTGGCAGCCTCAGGGCGTCCTGCAAAAAGATCCCGCAAGCGGTCCGTCCCTGACCAGCATTGACTGGAAAGACCTCAATGCCCTGGCGCGCCTGAGCGAACAGGCCCTGGCCGAAAATGGCCTGCCGCAGTTCGAAGGCAGCAACGCCTGGGCGGTTTCCGGCAGCCGCACGCACAGCGGCAAGCCCTTGCTGGCGGGTGACCCGCACATCCGTTTTTCCGCGCCGTCGGTGTGGTACGAGGCGCATTTGTCGGCGCCGGGTTTCGAGCTCTACGGCCAATACCAGGCGCTGGTGCCCTTTGCGACGCTGGGCATGAACAAGGATTTCGGCTGGAGCATTACCATGTTCCAGAACGACGACCTGGACCTGATCGCCGAGAAGACCAACCCGGACAACCCCGAACAGGTCTGGTATCGCGACCAATGGGTGGACATGACCCGCAGCGAACAGCAGATCGCCGTCAAAGGCCAGGCACCCGTGACCCTGGTGCTGCGCCAGTCGCCCCATGGCCCGATCGTCAACGATGCCCTCGGCGCCAATGCCGGCAAGACGCCGATCGCCATGTGGTGGGGGTTCCTGGAAACCCGCAACCCGATCCTCGAAGCCTTCTACCAGCTCAACCGCGCCGACACCCTCGCCAAGGCTCGCGGCGCGTCGGCCGGGATCCACGCGCCGGGCCTGAATGTGGTCTGGGCCAACGCCAAGGGCGATATCGGCTGGTGGGCCGCGGCGCAGTTGCCCAAGCGCCCGGAGGGTGTGAAGCCCGGTTTCATTCTCGATGGCGGTAGCGCTGAAGCGGAAAAACCGGGCTTCCAGCCTTTCACCAGCAATCCCCAGGAAGAGAACCCGGCCAGGGGCTACGTTCTCTCGGCAAATTTCCAGCCGGTGCCGGCCAGCGGGATCGAGATTCCCGGTTACTACAACCTTGCCGACCGGGGCCAGGAGCTGGATCGGCAGTTGAGCGAGAAACAGGCCAAATGGGATATCCAGACCACCCAGAAGCTGCAACTGGGCACCACCACCGCCTATGGCCCGCGCCTGCTTGCGCCGCTGTTGCCGATACTGCGCGAAGCGGTCAGCGACCCGCAGGAGCGCAAGTGGCTTGAACAACTGGCTGGATGGAAGGGCGACTACCCGCTGGACTCCACCAGCGCCACGCTGTTCAACCAGTTCCTGTTCGAGCTGGCCGACGCCGCCCTGGGCGATGAACTGGGCGACGGCTTTTTCGAAACGGCATTGTCGACCCGGGTGATCGACGCCGCGCTGCCACGCCTGGCCGCCGCAAAAGACTCGCCATGGTGGGACGACCGCTCGACATTGGGCACCGAAACCCGTACCGATACGGTGATCAAGGCCTGGAACAAAAGCCTGGTGCACCTGAAAGCCACCTTGGGCGAGGACGCCAGCCAATGGCAATGGGGCAAGGCCCACACCCTGACCCACGGGCATCCGTTGGGCCAACAGAAACCGCTGGACCGGGTCTTCAATGTCGGCCCGTTCGCCGCCCCCGGTACCCATGAAGTACCCAACAACCTCTCGGCCAGGATCGGCCCGGCGCCCTGGCCGGTGACCTACGGCCCCTCCACTCGACGCATCATCGACTTCGCCGACCCGACCCACAGCGTCACCATCAATCCGGTCGGCCAGAGCGGCGTGCCGTTCGACAAGCATTATGAAGACCAGGCCGAAGCCTACATCGAAGGGCTGTATCACCAGGCGCACCTGGCGGAGGAGGAAGTCACGGCCAACACCCGCGGCACCTTCAAACTGTTGCCCGCCAGGGCGCAGCCCTGA	MKRLLVAFLSLVVTAIIVAGGYLYSKQPTRQGTVQLQGLQGSVTVRYDERGVPHIRAENETDLYRALGYVHAQDRLFQMELMRRLARGELAEILGPKLLDTDKLMRSLRIRERAASHVAEQDRQSPAWIATQAYLDGINTYQQTHTRPLEFDVLGIPKRPFTAEDTASIIGYMAYSFAAAFRTEPLLTYVRDKLGAEYVNIFDLDWQPQGVLQKDPASGPSLTSIDWKDLNALARLSEQALAENGLPQFEGSNAWAVSGSRTHSGKPLLAGDPHIRFSAPSVWYEAHLSAPGFELYGQYQALVPFATLGMNKDFGWSITMFQNDDLDLIAEKTNPDNPEQVWYRDQWVDMTRSEQQIAVKGQAPVTLVLRQSPHGPIVNDALGANAGKTPIAMWWGFLETRNPILEAFYQLNRADTLAKARGASAGIHAPGLNVVWANAKGDIGWWAAAQLPKRPEGVKPGFILDGGSAEAEKPGFQPFTSNPQEENPARGYVLSANFQPVPASGIEIPGYYNLADRGQELDRQLSEKQAKWDIQTTQKLQLGTTTAYGPRLLAPLLPILREAVSDPQERKWLEQLAGWKGDYPLDSTSATLFNQFLFELADAALGDELGDGFFETALSTRVIDAALPRLAAAKDSPWWDDRSTLGTETRTDTVIKAWNKSLVHLKATLGEDASQWQWGKAHTLTHGHPLGQQKPLDRVFNVGPFAAPGTHEVPNNLSARIGPAPWPVTYGPSTRRIIDFADPTHSVTINPVGQSGVPFDKHYEDQAEAYIEGLYHQAHLAEEEVTANTRGTFKLLPARAQP	PGPT0028075_1007	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
D1-35_03623	588			hypothetical protein	ATGCGCCCGTCCCACCGCACGACCTTGCTTGCCAGGCTCCTCGCCCTGACGTGCGCCGTCATCCTTTGGTTCGCCTACGACTGGTTCCAGGGGCGTTTCCTCCGGGCGTTCAGTCAACACACGGCGGTGTTTTCCGGCGACCCGCTGCGCCTGCCCACCGACCTCGCTGGCCCGGGCGCAATCCGCCTGGTGCATTTCTGGGATCCGGCCTGCCCTTGCAACGTCGGTAATCAGCAGCACCTCTCCGAGCTGATCGACAAATATGCACCGCAAGGCGTCGAGTTCTTCGCCGTACAAAAGACCGGCAGCCAAGGCCACTTGCCCAGCACTCTGAGCGGTCTCAAACCCCTGACGGCGTTGCCAGGCTCGGCACAGATTCCCGCCAGCCCCGCCGTGGCGATCTGGGACCGCAGCGGCAAGCTGGCGTACTTCGGGCCGTACAGCGAAGGACTGACTTGCAACTCGAGCAATAGCTTTATCGAGCCGATTCTTGAGGCGCTGAGCGTCGGCCGGGCGGTGGATGCGACGCACACCTTGGCGGTGGGTTGTTATTGCCCGTGGGGCCAGGACACATCAAGCAAGGAATAA	MRPSHRTTLLARLLALTCAVILWFAYDWFQGRFLRAFSQHTAVFSGDPLRLPTDLAGPGAIRLVHFWDPACPCNVGNQQHLSELIDKYAPQGVEFFAVQKTGSQGHLPSTLSGLKPLTALPGSAQIPASPAVAIWDRSGKLAYFGPYSEGLTCNSSNSFIEPILEALSVGRAVDATHTLAVGCYCPWGQDTSSKE				NA	NA	NA	NA	NA
D1-35_03624	948			hypothetical protein	ATGCCCGCCTCCTTCGACCCCGATCACCTGCGCGCCAGCCTGCAACCCCTGGCGCAGTGGCAACCGCTGTCTGCGCAAGCGCAGGCCTACCAGCAATTCTATGGGCTGGACTTTCCGGCGCGCACCTTGCGCAGGGGCCTGGGACGTTTCGACATTGCCGGGTATGAACTGGTCGGCCAGGTCTGGTGGCCGGAAAAAGCCGTGGGGACGCTGTTCCTCTTTCACGGTTATTACGACCATATGGGGCTGTACCGGCATTTGGTCGAGTGGGCGCTGGATCAGCAATGGGTGGTGATCAGCTGTGACTTGCCGGGCCACGGCCTGTCCAGTGGCGAACGCGCCAGCATCGGCGATTTCGCCGAATACCAGGCGACCTTGCGCGGCTTGCTGGCCGAAGCCGAGACCCTGGACCTGCCGCAACCCTGGCACCTGTGCGGCCAGAGTACCGGCGGCGCGATCGTGGTGGACCATGTGCTGCACCACGGCGCGGACAGCCCGGCCCAGGGCCAGGTCATCCTGTTGTCGCCCTTGGTTCGGCCACGGGCCTGGGGCTGGTCGCGCCTCAGTTATTACTTGCTCAAACCTTTTGTGAGCGGCATCGCCCGGCGCTTCAGCGAGAACTCCAGCGACCCGGGTTTCCTGCCGTTCCTGCAGGCCGATCCGCTGCAACCGCTGCGCCTGCCCACTGCGTGGGTCGGGGCGCTGGCGCAATGGATCCGGCGTATCGAGGCGGCGCCGAGCAGCTCGCGGCAACCCTTGATCGTGCAAGGGCAGGCGGACATGACCGTGGATTGGCGGCATAACCTGCAAGTATTGCGCGGCAAGTTCGATCGGCCGCAGGTATTGATGTTGCCCGAGGGGCGGCATCACCTGGCGAACGAGACCTTGGCGATACGGCAGGAGATGTTTGGGTTTTTGAGCAAACGGATGGGCCGGATTCGGCGGTAA	MPASFDPDHLRASLQPLAQWQPLSAQAQAYQQFYGLDFPARTLRRGLGRFDIAGYELVGQVWWPEKAVGTLFLFHGYYDHMGLYRHLVEWALDQQWVVISCDLPGHGLSSGERASIGDFAEYQATLRGLLAEAETLDLPQPWHLCGQSTGGAIVVDHVLHHGADSPAQGQVILLSPLVRPRAWGWSRLSYYLLKPFVSGIARRFSENSSDPGFLPFLQADPLQPLRLPTAWVGALAQWIRRIEAAPSSSRQPLIVQGQADMTVDWRHNLQVLRGKFDRPQVLMLPEGRHHLANETLAIRQEMFGFLSKRMGRIRR				NA	NA	NA	NA	NA
D1-35_03625	744			hypothetical protein	ATGCGCCGTTTGCTTTTCTCACTGTTGATGTTCTGCGTATTGCCCGCCTGGGCAGACAGCTATGACCAGTTGTACAAGGTCGCCGGCTGGCCGGAACAGCGGGCGCATTTCAATGATGCCTTGAGCGCCGCGCAGCAGCGCTACCAGAACAGCTTGCCGCCGGCGGTCTTCCAGGCGCTGGTGAACAACAGCAACCAGCGTTTCGCGCCCCAGGCAATGGACCAGCGGGCCGAGGCGCAACTGCGCAGCAATCTTGCCGACCCGAACCCGGCCCTGGCTTTTTTCCAGTCGCCACTGGGCCGCAAAGTCGTCGCCGCCGAACTGCTCGCCACCCGCCGCGACCAACTGGCGAAGAACGCCAAGGGCCTGCCGAAGATGCAAGCCAGCGACAATCGCCTGCTGATCATCGGCCACCTGGCCCAGGCCCTGCCTGCCCGCGAAGCCGGCGCCGAAGTCAGCCTGGCGATTGCCGGCGTGGCAGCCGACAGCTTGAGCTCGATGATTCCCGGCCTGCTCGGCGGCGGCCAGGCCCAGGGCATGCTCAACGGTCAGCGCCAGCGCCTGATGGATCAGATCGGCGCGGACCTGAACAACACGCTGCTATACGTCTACCGCGACCTGACGGATACCGAACTGGAAGAATTCGCCACGTTTGCCGAGTCGGCCGAGGGCCAGGCTTATTATCAGGCGGCATTGGCGGCGATCCGGGCGGGGTTGGCGGTGGGGCAGAATCTGGGGCAGTAA	MRRLLFSLLMFCVLPAWADSYDQLYKVAGWPEQRAHFNDALSAAQQRYQNSLPPAVFQALVNNSNQRFAPQAMDQRAEAQLRSNLADPNPALAFFQSPLGRKVVAAELLATRRDQLAKNAKGLPKMQASDNRLLIIGHLAQALPAREAGAEVSLAIAGVAADSLSSMIPGLLGGGQAQGMLNGQRQRLMDQIGADLNNTLLYVYRDLTDTELEEFATFAESAEGQAYYQAALAAIRAGLAVGQNLGQ				NA	NA	NA	NA	NA
D1-35_03626	633			hypothetical protein	ATGCGCGCCATGCGAATACCTTCTGATCATCCGTTGCTGTTACGTATCGTCGACGACCTGGCCGAGCGCGGGTGGTCGCAGCAGAACATCTTCTTGCCGGATGCGCTCACCCGCGCGCTGGCGGCCGAATGTCGCCAGCGCGCCGCCGAAGGCGAACTGGCTCCAGCCGCGGTGGGGCGTGGGCCGTTTTCGGAAATTCGCGAAGGGGTTCGTGGCGATCGCATCCAATGGATCGAGCCCGGCCAGGTCGACGCCTGTGATCGTTACCTGGGGCTGATGGACAGCCTCCGCGAGGCCTTGAATCGGGGGCTGTTCCTGGGCCTGGAGGATTTTGAAAGTCATTTCGCCCTGTACCCGCCGGGTGCGTTCTACCTCAAGCACGTAGACCGTTTCCGCGATGATGACCGGCGCATGGTCTCGGCGGTGCTCTACCTCAATGACGCCTGGCTGCCGGAGCACGGCGGCCAGTTGCGCATGTACCTGGATGAAGGCGTGGAGCATGACGTGGTGCCCACGGGCGGCTGCCTGGTGGTGTTTCTGTCGGGGGATATACCCCATGAAGTCCTGCCGGCCACGCGTGATCGGCTGTCCTTGACCGGTTGGTTCCGGCGCCGTGGCAACGAGTTGTTCTGA	MRAMRIPSDHPLLLRIVDDLAERGWSQQNIFLPDALTRALAAECRQRAAEGELAPAAVGRGPFSEIREGVRGDRIQWIEPGQVDACDRYLGLMDSLREALNRGLFLGLEDFESHFALYPPGAFYLKHVDRFRDDDRRMVSAVLYLNDAWLPEHGGQLRMYLDEGVEHDVVPTGGCLVVFLSGDIPHEVLPATRDRLSLTGWFRRRGNELF				NA	NA	NA	NA	NA
D1-35_03627	492			hypothetical protein	ATGCAAAAGATCCTTGTCAGCCGCTGCCTGCTCGGCCATCGCGTGCGCTACGACGGTGGCGCACGCGGGCCGTTCGACCTGCTCCAGCATTGGCTCGACGAAGGTCGGCTCGTACCGCTGTGCCCGGAAGTCGCCGGCGGCCTGCCCACGCCTCGGCCGGCGGCGGAGATTCCAGGCGGCCAGGGCGCGCGAGTGCTCGATGGCAACGCGGCGGTGATCACCACCGAGGGCGAGGACGTGAGCGCGCAGTTTCTATCCGGTGCGTATCAAGCGCTGGCGTTGGCGCGCGAGCACGGCATCCGCATCGCCGTGCTCAAGGCCAACAGCCCCTCGTGTGGCAACCTGCTGACGTATGACGGCACGTTCAGCGGGGTCAAGATTCGAGGTGAAGGCGTGACGGCGGCATTGCTCAAGCGCAATGGGGTTCGGGTGTTCAGCGAGCTGGAACTGGCTGAAGCGGCGTTGGCGCTCAAGGCATTGACCGCAGAATAG	MQKILVSRCLLGHRVRYDGGARGPFDLLQHWLDEGRLVPLCPEVAGGLPTPRPAAEIPGGQGARVLDGNAAVITTEGEDVSAQFLSGAYQALALAREHGIRIAVLKANSPSCGNLLTYDGTFSGVKIRGEGVTAALLKRNGVRVFSELELAEAALALKALTAE	PGPT0013380_7	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013380-punA-K03783	NA	NA
D1-35_03628	1374			hypothetical protein	ATGACTGAATCCATTAAGCCATTGAAGCTCGCCGTGGTCGGGCACACCAACGTCGGCAAGACCTCCCTGCTGCGTACCCTGACCCGGGATGTCGGCTTCGGCGAAGTGTCCCACCGCCCGAGCACCACCCGTCACGTCGAAGGCGCGCGCCTGTCGGTGGACGGCGAGGCGCTGCTGGAGTTGTACGACACGCCTGGGCTGGAAGACGCCATCGCCCTGCTCGATTATCTCGAACGCCTCGAGCGTCCCGGTGAACGCCTGGATGGCCCGGCACGCCTGGCCCGTTTCCTCGAAGGCAGCGAGGCGCGACAACGCTTCGAGCAAGAAGCCAAGGTGCTGCGGCAGTTGCTCGCCAGCGACGCCGGGCTTTATGTGATCGATGCCCGCGAACCGGTGTTGGCCAAGTACCGCGATGAACTGGAAGTCCTCGCCAGTTGCGGCAAACCGCTGCTGCCGGTGCTCAATTTCGTCAGCAGCGCCCAGCACCGTGAAGCCGACTGGCGCGAAGCCCTGGCGCGGCTGGGCCTGCATGCATTGGTCCGTTTCGACAGCGTCGCCCCGCCCGAGGACGGCGAGCGACGTCTGTATGAAAGCCTGGCGTTGCTGCTGGAAAGCGCTCGCGGGCAATTGGAGCGGCTGATCGCTGACCAACAGGCCCAGCGTCTGGCGCGCCAGCAGAGCGCCAGACGGCTGATTGCCGAATTGCTGATCGATTGCGCCGCTTGCCGGCGCAGCGTCGCCAGCGATGCCGAACTGGAACGCCAGGCCATCAGCGAACTGCGCAACGCGGTGCGTCAGCGCGAACAGCGTTGTGTCGAGGCCCTGCTCAAGCTCTACGCTTTCCGCCCTCAGGATGCAGCGGCCAGCGATCTTCCCTTGCTGGATGGCCGTTGGGGTGATGACCTGTTCAACCCCGACACACTCAAGCAATTGGGCGTACGGGTCGGTGGCGGCATTGCGGCCGGGGCGGCGGCCGGAGCCGGTGTCGACCTGCTGGTGGGTGGCCTGACCCTGGGCGCCGCCGCCCTCGCCGGGGCGATTGCCGGCGGCGCGCTGCAAACGGCCCGCAACTATGGCGACCGGTTGATCGGCAAGCTCAAGGGCCAACGTGAACTGAGCGTCGATGACAACGTGCTGCGCCTGTTGGCCCTGCGCCAACGGCAACTGCTGCAAGCCATCGACCAGCGTGGCCATGCGGCGATGGAGAGCATCCATATCGCCACGCCTCAGGACAAGACCTGGCGCGAAGGCAAGCTGCCTGAAGCACTGGGCAAGGCCAGGGCGTATCCGCAGTGGTCGTCGTTGAATCCCCAGCCACGACTGAGCCAGGCCGAACGACAGGAACAGATCGAGCTGTTGGCTGAACAGCTCTAG	MTESIKPLKLAVVGHTNVGKTSLLRTLTRDVGFGEVSHRPSTTRHVEGARLSVDGEALLELYDTPGLEDAIALLDYLERLERPGERLDGPARLARFLEGSEARQRFEQEAKVLRQLLASDAGLYVIDAREPVLAKYRDELEVLASCGKPLLPVLNFVSSAQHREADWREALARLGLHALVRFDSVAPPEDGERRLYESLALLLESARGQLERLIADQQAQRLARQQSARRLIAELLIDCAACRRSVASDAELERQAISELRNAVRQREQRCVEALLKLYAFRPQDAAASDLPLLDGRWGDDLFNPDTLKQLGVRVGGGIAAGAAAGAGVDLLVGGLTLGAAALAGAIAGGALQTARNYGDRLIGKLKGQRELSVDDNVLRLLALRQRQLLQAIDQRGHAAMESIHIATPQDKTWREGKLPEALGKARAYPQWSSLNPQPRLSQAERQEQIELLAEQL				NA	NA	NA	NA	NA
D1-35_03629	1368			putative membrane protein	GTGACTGAACTGCAAAACCTCTGGTTGACCGAGACGATACGCCTGCGCGAAGAACATGCCGGCCCGCTCGAAGACCAGGAAGCCAATCGCCTGGCCCGCGCGGCCGGCGGCGATCTGTCCACGCGCATCCGTCATCGCGCCCACTGGCTGGCCGAGCGCGATGGCCTCGTCCAGGCCCTGCGCCACTGGCTGCAAGGCGCACGGCTGGCACTGGTCGCATTGGCCGTGCTCGCCGTGGCCAGCGGCGCCGGCCTGGGCTTTGCCGCCCTCGGCGATGGACGCGCGCCGGTCAACGTATTCTGGGCCCTCGGCAGTCTGTTGGGGCTGAACCTGATCCTGCTGGTCGGCTGGGCTCTGGGCCTGCTGTTGGCCGGTGAGCAAGGCGCCACGCTCGGCCGCCTGTGGCTGTGGCTCAGCGAAAAACTCGCCCGCGACGCCAAGGCCGCGCAACTCGCGCCGGCCCTGCTGCTGTTGCTGCAACGGCACAAGCTCAACCGCTGGGCCCTCGGTGTGCTGGTCAATGGCTTGTGGTTGCTGGCGATGCTCAGCGCGCTGGTCATCGTTTTGTTGCTGATGGCGACCCGGCGCTATGGCTTCGTATGGGAAACCACCATTCTCGGTGGCGAGACCTTCGTCGCCATGACTCAGGCCCTCGGTGCGTTGCCCGCCCTGCTGGGCTTCAGCGTGCCGAGCGTCGAGATGATCCGCGCCAGCGGCGACGCCGCGCTGGACATCGAAAGCGCCCGCCAGGCCTGGGCTGCCTGGTTGGTGGGCGTGCTGCTGGTCTACGGCGTGCTGCCGCGCCTGAGTCTTGCGCTGTTGTGCCTGTGGCGTTGGCGCCGTGGCCGCGCCAGCCTGCGCCTGGACTTGAACCTGCCCGGCTACGCTCAGCTGCGTGAGCGATTGATGCCAAGCAGCGAACGCCTGGGCGTCAATGACGCCGCGCCCGCACAATTGCATCACGTCGAAAGCGCCGTGGGCGCCATGAAAAGCGACGGCGCGCTGCTGGTGGCGATCGAGCTGGATGAACGTCCCTGGCCGCCGAAGCTGCCGGGCACCGTGAAAAGCGCGGGCATCCTCGACAGCCGCGAATCGCGCCACAAATTGCTTGAACAACTTTCGCGCTTCCCGCCCGCGCGACTGGCGATTGCCTGCGATCCCCGGCGCTCGCCAGACCGTGGCAGCCTGGCATTGATCGCCGAACTGGCTCGCAGCGCCAGCGCCACCCGCGTCTGGCTGTTGCAGGCACCGCCCGGCGAAGCACTGGATGCCGAGCGCCTGGGTGACTGGCACAGCGCGTTGCAGCAGCTGCAATTGCCGTTCGCCGACTGCGCGCCGTTGAACTGGCTGGAGACGGGCCATGACTGA	MTELQNLWLTETIRLREEHAGPLEDQEANRLARAAGGDLSTRIRHRAHWLAERDGLVQALRHWLQGARLALVALAVLAVASGAGLGFAALGDGRAPVNVFWALGSLLGLNLILLVGWALGLLLAGEQGATLGRLWLWLSEKLARDAKAAQLAPALLLLLQRHKLNRWALGVLVNGLWLLAMLSALVIVLLLMATRRYGFVWETTILGGETFVAMTQALGALPALLGFSVPSVEMIRASGDAALDIESARQAWAAWLVGVLLVYGVLPRLSLALLCLWRWRRGRASLRLDLNLPGYAQLRERLMPSSERLGVNDAAPAQLHHVESAVGAMKSDGALLVAIELDERPWPPKLPGTVKSAGILDSRESRHKLLEQLSRFPPARLAIACDPRRSPDRGSLALIAELARSASATRVWLLQAPPGEALDAERLGDWHSALQQLQLPFADCAPLNWLETGHD				NA	NA	NA	NA	NA
D1-35_03630	513			IS1595 family transposase ISSsu9	ATGAAAAAAACTCTTCCCTTAAGCCTGATCGCAGCCCTCGGTGAAAACCGTGTGATCGGCATCGACAACAGCATGCCCTGGCACTTGCCGGGGGACTTCAAATACTTCAAGGCCACCACCCTGGGCAAGCCGATCATCATGGGGCGCAAGACCTGGGACTCCCTCGGTCGGCCGCTGCCGGGACGCTTGAACATTGTCGTCAGCCGCCAGCCGGGCCTGGTGCTGGAAGGCGCGGAAGTCTTTTCTTCGCTGGAGGCCGCAGTGGAACGGGCCGAAGCCTGGGCGTTGGAACAGGGCGTTGACGAGCTGATGCTGATCGGTGGCGCCCAGCTCTACGCGCAGGCACTGGAGCAGGCGGATCGGTTGTACCTGACCCGCGTGGCGCTGAGCCCGGAAGGGGATGCGTGGTTTCCGGAGTTTGCTTCGAGCCGGTGGAAACTTGTGTCGAACCAGCTGAACCCGGCTGAAGGGGACAAGCCGGCGTACAGTTTTGAGGTGTGGGAGAAGCTTTAG	MKKTLPLSLIAALGENRVIGIDNSMPWHLPGDFKYFKATTLGKPIIMGRKTWDSLGRPLPGRLNIVVSRQPGLVLEGAEVFSSLEAAVERAEAWALEQGVDELMLIGGAQLYAQALEQADRLYLTRVALSPEGDAWFPEFASSRWKLVSNQLNPAEGDKPAYSFEVWEKL	PGPT0007945_1362	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007945-folA-K00287	NA	NA
D1-35_03631	1392	tcyP	COG1823	L-cystine uptake protein TcyP	ATGAATCTACCGCTGATCTTCAATCTGTTGGTGTTCATCGCCTTGCTGTACGGCTTGGCGCAAACCCGTCACAGCACTTGGAGCCTGGCCAAAAAAGTGCTGCTGGCGCTGGTCCTGGGCGTGGTGTTCGGTATCGCGCTGCACACGATCTACGGCGCAGGCGACCCGGTGCTCAAAGCCTCGATCGGCTGGTTCGACCTGGTGGGCAACGGCTACGTGCAGTTGCTGCAGATGATCGTGATCCCGCTGGTCTTTGCTTCGATCCTCAGCGCCGTGGCCCGCCTGCACAACGCCTCGTCCTTGGGCAAGATCAGCTTCCTGACCATCGGCACGCTGCTGTTCACTACCGCCATCGCCGCCCTGATCGGTATCGGCCTGACCAACCTGTTCGGCCTCACTGCCGAAGGCCTGGTGGCCGGAACCCAGGAGCAGGCACGGCTGCAAGTGATCCAGAGCGATTACGCCGGCAAGGTCGCCAACCTGAATATCCCGCAACTGCTGCTTTCGTTCATTCCGCAGAACCCCTTCGCCGACCTGGCCAGGGCCAAGCCGACGTCGATTATCAGCGTGGTGATCTTCGCGGCGTTCCTCGGTGTGGCGGCGTTGCAATTGCTCAAGGATGACGCAGAGAAAGGCCAGAAAGTGATCAACGCCATCGACACCCTGCAAAGCTGGGTGACGCGCCTGGTGCGCCTGGTGATGAAGCTGACCCCATATGGCGTACTGGCGCTGATGACAAAAGTGGTGGCTGGCTCCAACCTGCAGGACATCATCAAGCTCGGCAGCTTCGTGGTGGTGTCGTACCTGGGGCTGGGGCTGATGTTCGTGGTCCACGGCCTGCTGGTGTCCGCTGCCGGGATCAATCCGTTGCGCTTCTTCCGCAAGATCTGGCCGGTGCTGACCTTCGCTTTCACCAGCCGCTCCAGCGCGGCGACCATCCCCCTGAGTATCGAAGCCCAGACCAGCCGCCTCGGCATTCCCCGGGCGATCGCCAGCTTCAGCGCATCGTTTGGCGCCACCATCGGCCAGAACGGTTGCGCCGGGCTGTATCCGGCGATGCTGGCGGTCATGGTCGCGCCTACGGTGGGGATCAATCCGCTGGACCCGGTGTGGATCGCGACGCTGGTAGCCATTGTGACCTTGAGTTCAGCGGGCGTGGCCGGTGTCGGCGGTGGCGCAACGTTCGCCGCGTTGATCGTGCTGCCGGCCATGGGCTTGCCGGTCTCGCTGGTGGCGCTGCTGATTTCGGTCGAGCCATTGATCGACATGGGCCGTACCGCGTTGAACGTCAGTGGCTCGATCACCGCCGGGGCGATTACCAGCCAGGTGATGCAGCAGACGGACAAGGCCTTGCTCGATGCCGAGGAGCATGGGGAGTTGGTGCACGCTTGA	MNLPLIFNLLVFIALLYGLAQTRHSTWSLAKKVLLALVLGVVFGIALHTIYGAGDPVLKASIGWFDLVGNGYVQLLQMIVIPLVFASILSAVARLHNASSLGKISFLTIGTLLFTTAIAALIGIGLTNLFGLTAEGLVAGTQEQARLQVIQSDYAGKVANLNIPQLLLSFIPQNPFADLARAKPTSIISVVIFAAFLGVAALQLLKDDAEKGQKVINAIDTLQSWVTRLVRLVMKLTPYGVLALMTKVVAGSNLQDIIKLGSFVVVSYLGLGLMFVVHGLLVSAAGINPLRFFRKIWPVLTFAFTSRSSAATIPLSIEAQTSRLGIPRAIASFSASFGATIGQNGCAGLYPAMLAVMVAPTVGINPLDPVWIATLVAIVTLSSAGVAGVGGGATFAALIVLPAMGLPVSLVALLISVEPLIDMGRTALNVSGSITAGAITSQVMQQTDKALLDAEEHGELVHA				NA	NA	NA	NA	NA
D1-35_03632	1056			hypothetical protein	ATGAAGCTCATACCTCGCTTGCTCGCTGTCGCTATAGGCCTGGGCCTCGCCGGCCAGGCGCTCGCCACTGACCTCAAGCATTGGCCCGCGGAACAGGCCAAGGCGCTGGAAGCGATGATCGCGGCCAACGCCAACAAAGGTAACTACGCGGTGTTCGACATGGACAACACCAGCTACCGCTACGATCTCGAAGAATCGTTGCTGCCGTTCATGGAGAACAAGGGGCTCATCACCCGGGAAAGCCTGGACCCGTCCTTGAAGCTGATGCCATTCAAGGACACCGCCGACCACAAGGAAAGCCTGTTCAGTTATTACTATCGACTCTGCGAAGTGGACGACATGGTCTGCTACCCGTGGGTGGCCCAGGTGTTTTCCGGCTTCACTCTCAAGGAGCTGAAGGGCTACGTCGATGAGCTGATGGCTTCCGGCAAACCGGTACCGACCACGTATTACGATGGCGACAAAGTGGTCCAGTACAACGTCAACCCACCGAAGATATTCACCGGGCAGGCCGAGCTGTACAACAAGCTGATGGAGAACGGCATCGAGGTCTATGTCATGACCGCCGCTTCCGAAGAGCTGGTGCGCATGGTTGCCTCCGACCCGAAGTATGGCTACAACCTCAAGCCGCAGAACGTCATTGGCGTAACCACGCTGCTCAAGGACCGCAAGACCGGCGAACTGACCACCGCCCGCAAGCAAATCACCAACGGTAAATATGACGAAAAGGCCAATCTTGGCCTGGAGTACACACCGTACCTGTGGACGCCGGCGACCTGGATGGCCGGCAAGCACGCGGCGATCCTGACCTACATCGACGAATGGAAAAAACCGGTGCTGGTGGCTGGTGACACGCCGAGCAGCGACGGCTACATGCTGTTCCATGACGTAGACGTGGCCAAGGGCGGCATCCACTTGTGGGTCAATCGCAAGGATAAATACATGACCCAGATAAACGGCATGATGGCCAAGCACGCGGCCGCTCAGGCCAAGGAAGGACTGCCCGTGACAGCGGACAAGAATTGGGTGATCGTCAAGCCGGAAGATATCCAGTAA	MKLIPRLLAVAIGLGLAGQALATDLKHWPAEQAKALEAMIAANANKGNYAVFDMDNTSYRYDLEESLLPFMENKGLITRESLDPSLKLMPFKDTADHKESLFSYYYRLCEVDDMVCYPWVAQVFSGFTLKELKGYVDELMASGKPVPTTYYDGDKVVQYNVNPPKIFTGQAELYNKLMENGIEVYVMTAASEELVRMVASDPKYGYNLKPQNVIGVTTLLKDRKTGELTTARKQITNGKYDEKANLGLEYTPYLWTPATWMAGKHAAILTYIDEWKKPVLVAGDTPSSDGYMLFHDVDVAKGGIHLWVNRKDKYMTQINGMMAKHAAAQAKEGLPVTADKNWVIVKPEDIQ				NA	NA	NA	NA	NA
D1-35_03633	1842	ilvD	COG0129	Dihydroxy-acid dehydratase	ATGCCTGATTACCGTTCGAAAACATCCACCCATGGCCGCAACATGGCCGGCGCCCGTGCCCTGTGGCGCGCCACGGGGATGAAGGATGACGACTTCAAGAAGCCGATCATCGCCATTGCCAACTCCTTCACGCAATTCGTACCAGGCCATGTTCACCTCAAGGACCTGGGCCAACTGGTTGCACGGGAAATCGAACGCGCCGGCGGGGTTGCCAAGGAATTCAACACCATCGCCGTGGACGACGGCATCGCCATGGGTCACGACGGCATGCTGTATTCGCTGCCCAGCCGCGAGATCATCGCCGACTCGGTCGAATACATGGTCAATGCCCACTGCGCCGACGCCATCGTGTGCATTTCCAACTGCGACAAGATCACCCCCGGCATGCTCATGGCCGCCCTGCGCCTGAACATCCCGGTGATCTTCGTATCGGGTGGCCCGATGGAAGCCGGCAAGACCAAGCTCGCCAGCCATGGCCTGGACCTGGTGGACGCCATGGTGATCGCCGCCGACTCCAGCGCATCCGACGAGAAAGTCGCCGAGTACGAGCGCAGCGCCTGCCCGACCTGCGGTTCTTGCTCCGGCATGTTCACCGCCAACTCGATGAACTGCCTGACCGAGGCCCTGGGCCTGGCGTTGCCTGGCAACGGTTCGACCCTGGCCACCCACAGCGACCGCGAACAGCTGTTCCTGCAGGCCGGCCGGACCATCGTCGAGCTGTGCAAGCGCTACTACGGCGAAAACGACGAGTCGGTGTTGCCGCGCAACGTCGCCAACTTCAAGGCGTTCGAGAACGCCATGACCCTCGACATCGCCATGGGCGGCTCGACCAACACCATCCTGCACCTGCTGGCCGCGGCCCAGGAAGCCGAGATCGATTTCGACCTGCGCGACATCGACCGCCTCTCCCGCCACGTGCCGCAACTGTGCAAGGTCGCGCCGAACATCCAGAAGTACCACATGGAAGACGTGCACCGCGCCGGGGGGATCTTCAGCATCCTCGGTTCGCTGGCCCGCGGCGGCCTGCTGCACACCGACCTGCCAACCGTACACAGCAAGACCATGGCCGAGGCCATCGCCAAGTGGGACGTCACCCAGACCAGCGACGAAGCCGTGCATCACTTCTTCAAGGCCGGCCCGGCGGGCATCCCGACACAAACCGCGTTCAGCCAGTCGACCCGTTGGGAAACCCTGGACGACGACCGTGAGAACGGCTGCATCCGCAGCGTCGAGCACGCCTACTCCAAGGAAGGCGGCCTGGCCGTGCTGTACGGCAACATTGCCCTGGACGGCTGCGTGGTGAAGACCGCCGGCGTCGACGAATCGATCCATGTGTTCGAAGGCAACGCGAAGATTTTCGAAAGCCAGGACAGCGCCGTGCGCGGGATTCTCGCCGACGAGGTGAAAGCCGGCGACATCGTGATCATTCGTTACGAAGGTCCGAAGGGCGGCCCGGGTATGCAGGAAATGCTCTACCCGACTTCCTACCTGAAATCCAAGGGCCTGGGCAAAGCCTGTGCGCTGCTGACCGACGGCCGTTTCTCCGGCGGCACGTCGGGCCTGTCCATCGGCCACGCTTCGCCGGAAGCAGCGGCTGGCGGTGCCATCGGCCTGGTGCGCGATGGCGACAAGGTGCTGATCGACATTCCGAACCGTTCGATCAATCTGTTGATCAGCGATGAGGAACTGGCTGCACGCCGCGTCGAACAGGACAGCAAAGGCTGGAAGCCGGTGGAAGTGCGTCCGCGCAAAGTCACCACCGCCCTCAAGGCCTACGCCCTGCTCGCCACCAGTGCCGACAAGGGCGCGGTGCGCGACAAGGCGATGCTTGACGGGTTGTAA	MPDYRSKTSTHGRNMAGARALWRATGMKDDDFKKPIIAIANSFTQFVPGHVHLKDLGQLVAREIERAGGVAKEFNTIAVDDGIAMGHDGMLYSLPSREIIADSVEYMVNAHCADAIVCISNCDKITPGMLMAALRLNIPVIFVSGGPMEAGKTKLASHGLDLVDAMVIAADSSASDEKVAEYERSACPTCGSCSGMFTANSMNCLTEALGLALPGNGSTLATHSDREQLFLQAGRTIVELCKRYYGENDESVLPRNVANFKAFENAMTLDIAMGGSTNTILHLLAAAQEAEIDFDLRDIDRLSRHVPQLCKVAPNIQKYHMEDVHRAGGIFSILGSLARGGLLHTDLPTVHSKTMAEAIAKWDVTQTSDEAVHHFFKAGPAGIPTQTAFSQSTRWETLDDDRENGCIRSVEHAYSKEGGLAVLYGNIALDGCVVKTAGVDESIHVFEGNAKIFESQDSAVRGILADEVKAGDIVIIRYEGPKGGPGMQEMLYPTSYLKSKGLGKACALLTDGRFSGGTSGLSIGHASPEAAAGGAIGLVRDGDKVLIDIPNRSINLLISDEELAARRVEQDSKGWKPVEVRPRKVTTALKAYALLATSADKGAVRDKAMLDGL	PGPT0001875_1679	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
D1-35_03634	1206	ydhC_2		Inner membrane transport protein YdhC	ATGGCTGACACCATAATCCTTCCACACGCCCGCAAAGCCGCTACCGTCGGTTTGCTGCTGACGCTGACCTTGCTTGGAGTGTTTCCAATAGATGTGGTACTTCCCTCATTCCCTGCACTGTCCGAGCATTTTCAAAGTCCCTCATCCGATATTGCCCTGTCCGTTAGCCTGTTCGCGGTGGGCATCGCTCTTTCGCAACTGCTGATCGGCCCGCTTTCCGATGTCATGGGGCGGAAAAACCTGCTGCTGATCGGGATCGCCATTTCAGCGGTGGGAGCAACGGGTTGCGTGCTCGTCGACAGCTACTGGTCCTTTCTGTTCTTCCGTGTCATCCAGGCCTTGGGATGCGGTTGTTTCGTCCTGTCCCAAGCGCTGATCCAGGACCTGTTCACCGGCCAGGAACAGCAGCGGCTGCGAATTTTGCTGGTCACCTGCGGCGGTATTTTCATTTCCTTTTCGCCCCTGGCGGGCACTGGGCTGCAAAGCTGGATGGGTTGGCGAGGCAGTTTCCTGGTGTTCACTGCACTGTCGATTGGGGTGTTCGCAAGCGTCTGTCGTTTACTTGAGCACTCTCGGGTCGACGGTCATCCCAGGCGTTTCAACTTCGTCGCATCCTATCGAAAGGTCTTCGGTGACTTCAGCTTCCTGGCCTATTGGTTGATTTCGGCGCTGGCTTTTTCCTGCCATTTTTCATTCATCGTCATTTCACCGCTGATCCTGATAGACCAGTTGCACTTATCACCCGAGGCTTTTTCGCTCGTACTGCTGGGCTATGGGCTGGCCTACATTGGCGGCGGCCTCATCGCGACCATGCTGAGTAACCGGATCGACCCGCAGACGCAAATCATGACGGGGCTGGGCCTGATCCTCGCCGCTGGCCTTCTGATGCTGGGGCTCGCCAACCAGCTGGGCTTGTCGGTGACCACTCTGTTGCTACCCATGATCGTATGCACCGCCGGAACGACCATCGCCCGGGCGGCAGCCAACAACCAAGCCATGACGCTGTTTCCGGGACAGGCCGGCACGTCCGCCTCGGCCGGTAGCGTACTGGTGTTCATCGTCGGCGGGCTGACCAGTGCCGTGATCAGCCTCACCCCGCTGGACTTGCAAGTCGCCCTGGCCCTGTGTCTGGTGTTGCTCAGCCTGCTCGGGCTGACGCTCAATGCCTTGGTCCGGCAACGTGACGGGGGGCTGTTGCCCGGCTGA	MADTIILPHARKAATVGLLLTLTLLGVFPIDVVLPSFPALSEHFQSPSSDIALSVSLFAVGIALSQLLIGPLSDVMGRKNLLLIGIAISAVGATGCVLVDSYWSFLFFRVIQALGCGCFVLSQALIQDLFTGQEQQRLRILLVTCGGIFISFSPLAGTGLQSWMGWRGSFLVFTALSIGVFASVCRLLEHSRVDGHPRRFNFVASYRKVFGDFSFLAYWLISALAFSCHFSFIVISPLILIDQLHLSPEAFSLVLLGYGLAYIGGGLIATMLSNRIDPQTQIMTGLGLILAAGLLMLGLANQLGLSVTTLLLPMIVCTAGTTIARAAANNQAMTLFPGQAGTSASAGSVLVFIVGGLTSAVISLTPLDLQVALALCLVLLSLLGLTLNALVRQRDGGLLPG	PGPT0029005_3159	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
D1-35_03635	954			hypothetical protein	ATGACTGGCTCAACCTTTACCCAAACGCCTTGCTACACCTTGGGCGACTGGAATAACAAGGCAACGGTGCGAGTGCGCAAGGACGACTACCGCCTTCCCGAGGATCTGGAGCAACAACTGTTGAGCAAAGGCTGGTTCCCACCAACTTTCATCCCCTATATTCAACACCCACTTATCCAGGCATCTGGACGTTCCGTCGCTCAACGTCTTGAGGCCAATCACTTGGTGTATTTTTTAGACTACACCACGCTGCTGGAGCACCGCATCGTCAATCGTTCTGTGGAGACTATCGCTCATGGCGAACTTGCCGTGACGATTCCGAACATGATGAAAACTGCCGCGCTGCAGCTCTATACCGACGAAGGCTATCACGCACTGTTCTCCCATGAAGTAGCGGAACAGGTCGCGGCCATATATGACATCGACGATCGCCAAACGCCGAGACGCATTGACCGGCTGTTAGGCATGATCGACACCATCAGTCCGGCGGATCGCCCACTTGCGTGGTTCCTGATGGGATTCGTCTCGGAAACAATAATCGCCAAAGAACTACTAGCCATCACATGCGATAGCCTGGTTTCCACGGTGTACCAAATGCTCAGGAATCATCTCGAGGACGAGGCACGCCACAGTCGCTACTTTGGCGAGGTGTTCCAGTTTTTTTGGACAGCCCTGGCCCCGACACAACACGATCAGGCCGCAAGGATGCTGCTGGAGATCATCGAGCTTTATTTCGAGCCAGACGTGCCCTGGCTGATGCGCAGCCTCGCCAGCGTAGGCTTCGACGAGCAGTCATCCTTTCAGATCATCGCCGACTTCCTACAACCGGACGCCCACTCCCAACGCCTTCGCTCCGGTGCGGTATCAACGTTCGCGGCCATGAAGAAGGCGCGCTTCTTTGACAACGAACACCACCGGCAGCTTTTCTCCCAAGCGGGGCTTATCGATGGCTGA	MTGSTFTQTPCYTLGDWNNKATVRVRKDDYRLPEDLEQQLLSKGWFPPTFIPYIQHPLIQASGRSVAQRLEANHLVYFLDYTTLLEHRIVNRSVETIAHGELAVTIPNMMKTAALQLYTDEGYHALFSHEVAEQVAAIYDIDDRQTPRRIDRLLGMIDTISPADRPLAWFLMGFVSETIIAKELLAITCDSLVSTVYQMLRNHLEDEARHSRYFGEVFQFFWTALAPTQHDQAARMLLEIIELYFEPDVPWLMRSLASVGFDEQSSFQIIADFLQPDAHSQRLRSGAVSTFAAMKKARFFDNEHHRQLFSQAGLIDG				NA	NA	NA	NA	NA
D1-35_03636	1083			hypothetical protein	ATGCATATAAATCCTTATCTATTTATACTTGCGCACCCGCCACGCCAGATTATCTGGAACTATGAACATCACACTCAACATGAACTTGATCTTAGTTATTCAACGCGCCTAGCTCAACTCATCAGCGACCCCACCCTATTCGACAATCTCAACCCCATTGATGTCGATTTTTTGAACGCAGAGATATTAACAACAGAACCCAGGAAGCCTATAGATTGGAAATGGGATCCACTGTCTAAGATATTCCATATCGGCACAAAAAATATTCCTTGCGAAGCTGTTCCTCAAGATGTGCATGAATGGGCAGCGATTTATCTTGAACATTGCAACGAGGTTCTCTCGTCGCCGGCACCTTCAGCCAGGACAAAACCGGACTTGGACGAGCTAATTTTCCTTGCACCCTGCTCTTGGCCGGACCTGCAGGACGTTTCGCTGACGCAGACGCTTATTGGCCGCCGCACGTCTCGCTCATTCAGCGAAGAATCCATTTCGCTTAAGCAGGTCAGCACCCTGCTTTATCTGACCCTGGGTTATCTGAGCGAACGTCATTTCGTTCAGGGCGCTGCCCAACCCGAAGCCTTAGGCGCGCGACGCAGCAGCCCTTCTGGGGGAGGCCTGAATGCCTGCGAAGGCTATCTTTACGTTCGCAACGTCGGGGGGCTACAGAGCGGTGTCTACAGTTATTACCCGGATGAGCATGCCTTGGGCCTGATCGGGCCTCTACCAACTGAACCTTTGGGCCTGTTGTTAGGCGGACAACATTTCATCAATACGCTGCCATTCGGGCTATTCCTAACCTCCCGCTTCGACAAACTCTGGTGGAAGTACGAACACTCCCGCACCTATCGAATGGCCTTCATAGAGGCAGGGCACGTGTCGCAGGTTTTTCTGATGGTCGCGACTGGTTTAGGGCTAGATACGTGGCTGACTGGAGCGCTAACCGACTGCAAAGTGGAACAACTGCTGGGTCTTAAAGAAAGCCCCGAACAACCTTTATTTTTTGTCGGTTGCGGCCAAGGCGATGGGCAAGTGCACTGCGAAGTGTTGAGGATATTGGCCAATGACCAGGACATGGTTTCATGA	MHINPYLFILAHPPRQIIWNYEHHTQHELDLSYSTRLAQLISDPTLFDNLNPIDVDFLNAEILTTEPRKPIDWKWDPLSKIFHIGTKNIPCEAVPQDVHEWAAIYLEHCNEVLSSPAPSARTKPDLDELIFLAPCSWPDLQDVSLTQTLIGRRTSRSFSEESISLKQVSTLLYLTLGYLSERHFVQGAAQPEALGARRSSPSGGGLNACEGYLYVRNVGGLQSGVYSYYPDEHALGLIGPLPTEPLGLLLGGQHFINTLPFGLFLTSRFDKLWWKYEHSRTYRMAFIEAGHVSQVFLMVATGLGLDTWLTGALTDCKVEQLLGLKESPEQPLFFVGCGQGDGQVHCEVLRILANDQDMVS				NA	NA	NA	NA	NA
D1-35_03637	1197	rlmI_1	COG1092	Ribosomal RNA large subunit methyltransferase I	ATGTCCCTGCCCAGCCTGCGCCTCAAAGCCAACGCCGACCGTCGCCTGCGCGCCGGCCACCTGTGGGTCTACAGTAACGAAATCGATGTGGCCGCCACCCCGCTGCACGGCTTCAAGGCCGGTGACCAGGCGGTCCTCGAAGCCGCCGGCGGCAAGCCGCTGGGCATCGTTGCGATGAGCCCGAACAACCTGATCTGCGCACGCCTGCTGTCCCGCGACGTGAAGCTGGCGCTGGACAAATCCCTGTTGGTGCATCGCCTCAACGTGGCGTTGTCCCTGCGCGAGCGGCTGTTCGACAAGCCGTTCTATCGCCTGGTCTACGGTGATTCCGACCTGCTGCCGGGCCTGGTGGTCGACCGTTTCGGCGACATCCTGGTGGTGCAGATCGCCTCCGCCACCATGGAAGCCCACAAAGACGACGTGATCGCCGCCCTCACCCAGGTGCTCAAGCCTAGCGGCATCCTGTTCAAAAATGATTCCGCGGCACGCGACGCCGAAGGACTGGAGCGCTACGTCGAAACCGTGTTCGGCCTCGTCCCGGAATGGGTCGCCCTGGAAGAGAACGGCGTGAAATTCGAAGCGCCGGTCATGCAAGGCCAGAAAACCGGCTGGTTCTACGACCACCGCATGAACCGTGCGCGCCTGGCACCCTACGCCAAGGGCAAGCGCGTTCTGGACCTGTTCAGCTACATCGGCGGCTGGGGCGTGCAAGCCGCGGCGTTCGGTGCCAGTGAAGTATTCTGCGTCGACGCCTCGGCCTTCGCCCTCGACGGCGTCGAGCGCAACGCCGCGCTGAACGGCGTCGCCGAGAAGCTGACCTGCATTGAAGGTGACGTATTCGAAGCCTTGAAGGAACTCAAGGCCAGCGAAGAGCGTTTCGACGTGATCGTTGCCGACCCGCCGGCCTTCATCAAGCGCAAGAAAGACCTGAAGAACGGCGAAGGCGCCTACCGCCGCCTCAACGAACAGGCCATGCGCCTGCTCAGCAAGGACGGCATCCTGGTCAGTGCGTCATGCTCGATGCACCTGCCCGAAGACGATCTGCAGAACATCCTGCTGACCAGCGCCCGTCACCTGGACCGCAACATCCAACTGCTCGAACGCGGCGGCCAGGGCCCCGATCACCCGGTCCACCCGGCGATCGCCGAGACGCGCTACATCAAGAGCATCACCTGCCGCTTGCTGCCTAATAGCTGA	MSLPSLRLKANADRRLRAGHLWVYSNEIDVAATPLHGFKAGDQAVLEAAGGKPLGIVAMSPNNLICARLLSRDVKLALDKSLLVHRLNVALSLRERLFDKPFYRLVYGDSDLLPGLVVDRFGDILVVQIASATMEAHKDDVIAALTQVLKPSGILFKNDSAARDAEGLERYVETVFGLVPEWVALEENGVKFEAPVMQGQKTGWFYDHRMNRARLAPYAKGKRVLDLFSYIGGWGVQAAAFGASEVFCVDASAFALDGVERNAALNGVAEKLTCIEGDVFEALKELKASEERFDVIVADPPAFIKRKKDLKNGEGAYRRLNEQAMRLLSKDGILVSASCSMHLPEDDLQNILLTSARHLDRNIQLLERGGQGPDHPVHPAIAETRYIKSITCRLLPNS				NA	NA	NA	NA	NA
D1-35_03638	540	yraA	COG0693	Putative cysteine protease YraA	ATGCCCGCTAATCTGAACAACAAGCGTGTCGCCATTCTGGTCACCGACGGTTTTGAACAGGCCGAACTGACCGGTCCCAAAGAGGCGCTGGAACAGGCCGGGGCCAAGGTCGACATCATTTCCGCCAGCGACGGCCAGGTCAAAGGCTGGAACCATGACAAGCCGGCCGACGACTTCAAGGTGGACCTGACTTTCAAGGCGGCGAATGTCGATCAGTACGAAGCGGTGCTGCTGCCCGGCGGCGTGCAGAATTCAGACACCATCCGCATCGACCCCGACGCGCAGAACCTGGTCAAGGGCTTCGAGGCGGCTGGCAAGCCTATCGCGGTGATTTGCCATGGCGGCTGGTTGCTGGTGTCCAGCGGCCTGGTCAAAGGCAAGACCATGACCAGCTACAAGACGCTCAAGGATGACCTGGTCAATGCCGGCGCGAACTGGGTCGACCAGGAAGTCGTCCGGGATGGCACCTGGATCAGCAGCCGCCAGCCAGATGATATTCCCGCGTTCAACCGTGAACTGATCAACTCGCTGTCGGCCTGA	MPANLNNKRVAILVTDGFEQAELTGPKEALEQAGAKVDIISASDGQVKGWNHDKPADDFKVDLTFKAANVDQYEAVLLPGGVQNSDTIRIDPDAQNLVKGFEAAGKPIAVICHGGWLLVSSGLVKGKTMTSYKTLKDDLVNAGANWVDQEVVRDGTWISSRQPDDIPAFNRELINSLSA	PGPT0015010_2593	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
D1-35_03639	870			hypothetical protein	ATGTCCAAAGAACTTTCCGCCGAACAGATCCAACAGTCCCTGCAGGGCATCAGTGTGCCGCCCCAGCCGCAAATCATGGTGGATTTGCAGATGGAGCAGTACATGCCCGACCCGGACCTGGAAACCATTGCCAAGCTGATTTCCCAGGATCCGGGCCTTTCGGGTGCCTTGCTCAAGATCGTCAATTCGCCGTACTACGGCTTGAGCAACAAGATCACTTCGATCCAGCGCGCAGTGAACCTGCTGGGCAGCCGGTCGATCATCAACCTGATCAACGCGCAGTCGATCAAAGGCGAATTGCACGACGATGCCATCGTCACCTTGAACCGCTTCTGGGACACCGCCCAGGACGTGGCCATGACCTGCCTGACGCTGGCCAAGCGCGTCGGCCTGCAGAACGGCGACGAAGCCTATGCCCTGGGTTTGTTCCATGACTGCGGCGTGCCGCTGATGCTCAAGCAGTTCCCCACCTACATGGGCGTGCTGGAGGAGGCCTATGCCAATGCCAGCGCCGAGATCCGGGTGGTGGACACCGAAAACCGCGTGTTCAACACCAACCATGCGGTGGTCGGTTACTACACCTCCAAGTCCTGGCGCCTGCCGGACCACGTCAGCCAGGCCATCGCCAATCACCACAACGCCCTGGCGATTTTCAGCGATGAATCTTCGCGCAATAACAGTCAGTTGAAAAACCTGTTGGCGATCCTGAAGATGTCCGAGAACATCTGTGCTTCCCATCGCGTGCTGGGCAACCAGGCTGAGGATCACGAGTGGAATTGCGTCGGGCCACTGGTGCTCGATTACATCGGTCTGCCGGAGTACGACTTCGAGACCCAGAAACAGGAAATCCGCGACCTGGCCTCTCGTTGA	MSKELSAEQIQQSLQGISVPPQPQIMVDLQMEQYMPDPDLETIAKLISQDPGLSGALLKIVNSPYYGLSNKITSIQRAVNLLGSRSIINLINAQSIKGELHDDAIVTLNRFWDTAQDVAMTCLTLAKRVGLQNGDEAYALGLFHDCGVPLMLKQFPTYMGVLEEAYANASAEIRVVDTENRVFNTNHAVVGYYTSKSWRLPDHVSQAIANHHNALAIFSDESSRNNSQLKNLLAILKMSENICASHRVLGNQAEDHEWNCVGPLVLDYIGLPEYDFETQKQEIRDLASR				NA	NA	NA	NA	NA
D1-35_03640	813	mutM	COG0266	Formamidopyrimidine-DNA glycosylase	ATGCCAGAACTGCCGGAAGTCGAAACCACCCGCCGCGGGATCGCGCCACACCTCGAAGGGCAACGGGTCAGCCGCGTCGTCGTGCGTGACCGCCGCTTGCGCTGGCCGATTCCCGAAGACCTCGATGTGCGTCTTTCGGGGCAACGCATCGTGCAGGTGGAACGTCGGGCCAAATATTTGTTGATCAATGCCGAGGTTGGCACGCTGATCAGCCACCTGGGCATGTCCGGCAACCTGCGGCTGGTCGAGATCGGCATGCCCGCCCTCAAGCATGAACATGTCGACATCGAACTGGAGTCCGGGCTGGCCTTGCGCTACACCGATCCGCGTCGCTTCGGGGCGATGCTCTGGAGCCTTGACCCGCTCAATCACGAGTTGCTGATTCGCCTCGGGCCGGAACCGCTGACTGACCTGTTCGACGGCGAACGGCTGTTCCAGCTTTCCCGTGGGCGCTCGATGGCGGTCAAGCCGTTCATCATGGACAACGCGGTCGTGGTGGGCGTGGGCAATATCTATGCGACCGAAGCGCTGTTCGCCGCCGGGATCGACCCACGGCGCGCCGCCGGAAGCATTTCTCGGGCGCGCTATCTGAAACTGGCGATCGAGATCAAGCGCATCCTTGCCCATGCCATCGAACGCGGTGGAACCACGCTGCGGGATTTCATCGGTGGAGACGGCCAGCCCGGTTATTTCCAGCAGGAGCTGTTCGTGTACGGTCGGGGTGGGGAGTTGTGCAAGATCTGTGGCACGGGGCTGCGGGAAATCCGCCTGGGCCAGCGCGCCAGCGTCTGGTGTCCGCGCTGCCAGAGGTGA	MPELPEVETTRRGIAPHLEGQRVSRVVVRDRRLRWPIPEDLDVRLSGQRIVQVERRAKYLLINAEVGTLISHLGMSGNLRLVEIGMPALKHEHVDIELESGLALRYTDPRRFGAMLWSLDPLNHELLIRLGPEPLTDLFDGERLFQLSRGRSMAVKPFIMDNAVVVGVGNIYATEALFAAGIDPRRAAGSISRARYLKLAIEIKRILAHAIERGGTTLRDFIGGDGQPGYFQQELFVYGRGGELCKICGTGLREIRLGQRASVWCPRCQR	PGPT0021790_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021790-ECHS1-K07511	NA	NA
D1-35_03641	321			hypothetical protein	ATGACTCTGCTTCGAACTTTCCTCCTGGCACTCTCGCTGAGTGTCGGCTTGCCTGCCTTGGCGAACACCGAAAGCGGTGACCCGCGCTACACCATCCAGAATCCACCCGCGTACGCCATGCTCGGCGACTTGCTCATTGCTCGTCCGTTGCTGCTCGCCGCCACCGTGATCGGTGCCGGGGCGTTTGTCGTGTCGTTGCCCTTTACGGCGCTGGGTGGCGGGGTTGGCGATGCGGGGAAGGCGTTGGTGGTCGACCCGGCGAAAGCGACGTTTGTGCGGTGCCTGGGGTGTGTTGGGGAGGGGTTTGAGCGGCAGGAGTGA	MTLLRTFLLALSLSVGLPALANTESGDPRYTIQNPPAYAMLGDLLIARPLLLAATVIGAGAFVVSLPFTALGGGVGDAGKALVVDPAKATFVRCLGCVGEGFERQE				NA	NA	NA	NA	NA
D1-35_03642	252	fdx_2	COG1145	Ferredoxin	ATGTCCCTGATCATCACCGACGACTGCATCAATTGCGACGTCTGCGAACCCGAGTGCCCGAACGCCGCCATTTCCCAGGGCGAAGAGATCTATGTCATTGACCCGAACCTGTGCACCCAGTGCGTCGGGCACTATGACGAGCCTCAATGCCAGCAGGTATGCCCGGTGGATTGCATCCCGCTGGACGAGGCTCATCCGGAGACTGAGGAACAGTTGATGGCGAAATATCGCAAAATCACTGGCAAGGAATGA	MSLIITDDCINCDVCEPECPNAAISQGEEIYVIDPNLCTQCVGHYDEPQCQQVCPVDCIPLDEAHPETEEQLMAKYRKITGKE	PGPT0003976_164	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACTERIOFERRITIN-ASSOCIATED_FERREDOXIN,PGPT0003976-yfhL-NA	NA	NA
D1-35_03643	480	coaD	COG0669	Phosphopantetheine adenylyltransferase	ATGAACCGAGTGTTGTACCCAGGTACCTTCGACCCCATTACCAAGGGCCATGGCGATCTGGTCGAACGCGCCTCGCGCCTGTTCGACCATGTGATCATTGCCGTCGCCGCCAGCCCGAAGAAAAACCCGCTGTTCCCGCTGGAGCAACGTGTGGAGCTGGCCCGTGAGGTCACCAAGCACCTGCCGAACGTGGAAGTGGTCGGCTTCTCGACGCTGCTGGCGCATTTCGCCAAGGAAAAGAACGCCAATGTGTTCCTGCGCGGCCTGCGTGCGGTCTCGGATTTCGAATACGAGTTCCAGCTGGCCAACATGAACCGCCAGTTGGCCCCGGACGTCGAGAGTCTCTTCCTGACGCCATCGGAGCGTTACTCCTTCATCTCGTCGACCCTGGTGCGGGAAATTGCGGCCTTGGGCGGCGATATCACCAAGTTCGTCCACCCGGCCGTGGCCGACGCGCTGACCCTGCGCTTCAAGAAGTAA	MNRVLYPGTFDPITKGHGDLVERASRLFDHVIIAVAASPKKNPLFPLEQRVELAREVTKHLPNVEVVGFSTLLAHFAKEKNANVFLRGLRAVSDFEYEFQLANMNRQLAPDVESLFLTPSERYSFISSTLVREIAALGGDITKFVHPAVADALTLRFKK	PGPT0008825_3471	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
D1-35_03644	1596		COG2303	putative GMC-type oxidoreductase	ATGCCCGTACCCGATCCGTTCCGCGAAGGCCTGGCCCGTGGCTGGACCACCTACAACGGCGCGCAACTGACCCAGGACCTCACGCTGGAAGCCGACGTGGCGATCATCGGCAGCGGCGCCGGCGGTGGCACCACGGCGGAAATTCTCAGTGCCGCCGGCTACAAGGTATTGCTCATTGAGGAAGGCCCGCTCAAGACCAGCCAGGACTTCAAGCTGCTTGAGGATCAGGCTTACACCAGCCTGTATCAGGAAGGTCTCGGGCGAATGAGCAAGGACGGCGCCATCACCATTCTCCAGGGCCGGGCCGTGGGGGGCACCACGTTGATCAACTGGACCTCGAGCTTTCGTACGCCTGACCAGACTCTCGAACACTGGGCGACCGAGCATGCCGTCCGGGGCCACGGCCCCGCCGAGATGGCGCCCTGGTTCGAACGCATGGAGCAGCGCCTGGGGGTGGCGCCATGGCTGATTCCGCCCAATGCCAACAACGACGTCATTCGCAAGGGCTGCGAGCAATTGGGCTACAGCTGGCATGTGATCCCGCGCAACGTGCGCGGCTGCTGGAACCTGGGCTATTGCGGGATGGGCTGCCCGACCAATGCCAAGCAGTCGATGCTGGTCACCACCATACCCGCCACGCTGGACCAGGGCGGCGCCCTGCTCTATCTGGCGCGGGCCGAACGCCTGATCATCAGCAACGATGCGGTAGTGGAATTGCAATGCCAGGCCATGGACGAACGCTGCGTGGCGTCGACCGGACGGCGCATCAGGGTCAAGGCGCGGCATTACGTGCTGGCCGGTGGCGGCATCAACAGCCCCGCCCTGCTGCTGCGCTCCGACGCGCCGGATCCGCATCGATGCCTGGGCAAGCGCACCTTCCTGCACTTGGTGAACATGTCAGCCGGACTGTTCGATGAAGTCATCAACCCTTTTTATGGGGCTCCACAGTCGATTTATTCAGATCATTTCCAATGGCAGGATGGCGTCACCGGCAAAATGTCCTACAAGCTGGAAGTCCCGCCTTTGCACCCGGCCCTCGCCGCCACGCTGTTGGGCGGCTTTGGTGCGCAGAACGCAGCGCACATGGCAAAGTTGCCCCACACTCACGCCATGCTGGCGCTACTGCGCGACGGCTTTCACCCGGACAGCCCCGGCGGTACCGTGGAATTGCGCAGCGACGGCACGCCTGTGCTCGACTATCAGGTCTCCCCCTACACTTGGGACGGTTTGCGCCGGGCATTTCACAGCATGGCCGAGATCCAGTTCGCCGCAGGGGCCAGGTCGGTCATGCCGATGCACAGCGATGCCCGGCACGTGAAAACCCTGGCCGAGGCCCGGGCGCTGATCGACGGGCTGGACCTGGCCCTTTTCCGCACCCGCCTGGGCAGCGCTCATGTCATGGGGGGTTGCGCCATGGGCGAAGAGCCGAAACAGGCGGTGACCGACAGCCTCGGCCGCCACCACCAACTGCGTAATCTTTCCATCCACGACGGCTCGCTGTTCCCCACCAGCATCGGCGCCAACCCGCAACTGTCGGTGTACGGCCTGACTGCCAAACTGGCGACCCTGCTGGCCGAACGTCTGCAAAACACATGA	MPVPDPFREGLARGWTTYNGAQLTQDLTLEADVAIIGSGAGGGTTAEILSAAGYKVLLIEEGPLKTSQDFKLLEDQAYTSLYQEGLGRMSKDGAITILQGRAVGGTTLINWTSSFRTPDQTLEHWATEHAVRGHGPAEMAPWFERMEQRLGVAPWLIPPNANNDVIRKGCEQLGYSWHVIPRNVRGCWNLGYCGMGCPTNAKQSMLVTTIPATLDQGGALLYLARAERLIISNDAVVELQCQAMDERCVASTGRRIRVKARHYVLAGGGINSPALLLRSDAPDPHRCLGKRTFLHLVNMSAGLFDEVINPFYGAPQSIYSDHFQWQDGVTGKMSYKLEVPPLHPALAATLLGGFGAQNAAHMAKLPHTHAMLALLRDGFHPDSPGGTVELRSDGTPVLDYQVSPYTWDGLRRAFHSMAEIQFAAGARSVMPMHSDARHVKTLAEARALIDGLDLALFRTRLGSAHVMGGCAMGEEPKQAVTDSLGRHHQLRNLSIHDGSLFPTSIGANPQLSVYGLTAKLATLLAERLQNT	PGPT0013615_4094	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013615-betA|CHDH-K00108	NA	NA
D1-35_03645	546			hypothetical protein	ATGAGCCCAAACCTGACCGATACGCCCGCCCTGACACGGCGTGGTTTGCTGCAACTGAGCCTTGGCGCCAGTGTTTTCCTCGCCACCGTCGGCCTGGGCGCCAGCCTCAGCGGCTGTTCGTCCAGCCAACCGGCGGACGGCCTGAAGGCCCTGCGCGACAGCGACCTGGCATTTCTACGCGCCGTCATTCCGGTGATGCTCGACGGCGCAGTGACGGCAGGAACGATCCAGGCCGCCACCGATGCCACGCTGCAAAGCCTGGATCGCGGCCTGGCGCACTTGTCTGCGGCGATGCTCAAGCTCACGCATCAACTGTTCGACGTGCTCACGTTGGGTGTGACCCGCGGGCCGCTGACCGGAATCTGGGGCGGGTGGGAAAACGCCAGCGCCGATGACATCCAACAATTCCTGACACGCTGGGAAAACAGCTCGCTGAGCTTGTTGCGCCAAGGCCACAGCTCTTTGCTGCAAATGGTGATGATGGCCTGGTACAGCCGGCCCGAGGCCTGGGCGCACTGCGGGTATCCGGGCCCGCCAACCGTCTGA	MSPNLTDTPALTRRGLLQLSLGASVFLATVGLGASLSGCSSSQPADGLKALRDSDLAFLRAVIPVMLDGAVTAGTIQAATDATLQSLDRGLAHLSAAMLKLTHQLFDVLTLGVTRGPLTGIWGGWENASADDIQQFLTRWENSSLSLLRQGHSSLLQMVMMAWYSRPEAWAHCGYPGPPTV				NA	NA	NA	NA	NA
D1-35_03646	1431	calB		Coniferyl aldehyde dehydrogenase	ATGCCAGCCGACGTTGCTTACCTGCACCAGTCTCAACAGCAGCTGGATGAAATTCGGACGATCTTCGAGGCCCAGCGCCGTGCTTTCGCCGCTCATCCCATGCCAACGGCCGAGCAGCGCCGGCAGTGGCTCAAGGCATTGCGCGAACTGTTGAGCAATGAACGGCAAGCCCTGATCGACGCGATCAGCCAGGACTTCAGTCACCGCAGCGCCGACGAAACCCTGCTGGCCGAGCTGATGCCGAGCCTGCACGGCATCCATTACGCCAGCCGCAACCTCAAGGGCTGGATGAAACCTTCCCGGCGCAAGGTCGGCATGGCCTTCCAACCGGCATCGGCCAAGGTGGTCTACCAGCCATTGGGCGTGGTCGGGGTCATCGTGCCGTGGAATTACCCCCTCTTCCTGGCCGTGGGCCCATTGGTCGGCGCCTTGTCAGCGGGCAACCGGGTCATGCTCAAGCTCAGCGAGGCGACCCCGGCCACCGGGTTGCTGCTCAAGCGACTGTTCGCCCGTATCTTTCCCCAGGACCTGGTGTCGGTGGTGCTGGGCGAGGCTGACGTTGGCATTGCATTCTCCAGGTTGCCGTTCGATCACCTGTTGTTCACCGGCGCCACCAGCATCGGCAAGCATGTGATGCGTGCCGCCGCGGAAAACCTCACCCCCGTCACCCTTGAGCTGGGTGGCAAATCACCCGCCATCGTGTCCGACGACGTACCGCTCAAGGACGCCGCCGAACGCATAGCCTTCGGCAAGACCCTGAATGCCGGGCAGACCTGCGTCGCGCCGGATTACGTGCTGGTACCGCAGAGCCGCGTCGGAGCGTTCGTCGAGGCGTATCGCGAAGCGGTCCGCAGGTTTTATCCGACGCTGGCGGACAACCCGGACTACACCGCCATCATCAACGATCGCCAACTGGCGCGGCTCAACGGCTACATCGGCGACGCCACCAGCAAAGGCGCGCTGCTGATCGAGCTGTTCGACCAGGGCCAGGGACGCCGCATGGCCCACAGCCTGTTGCTCAATGTCACGGATGACATGACGGTGATGCAGGATGAGATCTTCGGCCCACTGCTGCCCATCGTGCCGTATGAAGGCCTGGACCAGGCTTTTGCCTACATCAATCGGCGGCCTCGTCCGCTGGCGCTCTACTACTTCGGCTACAACAAGGCCGAACAGCAGCGAGTACTCAATGAAACCCATTCCGGCGGCGTCTGCCTGAACGACACGCTGCTGCATGTGGCCCAGGACGACATGCCGTTCGGCGGCATTGGCGCCTCGGGGATGGGCCACTATCACGGTCACGAGGGATTCCTGACCTTCAGCAAGGCCAAGGGCGTCCTGATCAAGCAGCGCTTCAACGCCGCCAGACTGATTTATCCGCCCTATGGCAAGCCTTTGCAGAAGCTGATCCAGAAGCTGTTCATCCGCTAA	MPADVAYLHQSQQQLDEIRTIFEAQRRAFAAHPMPTAEQRRQWLKALRELLSNERQALIDAISQDFSHRSADETLLAELMPSLHGIHYASRNLKGWMKPSRRKVGMAFQPASAKVVYQPLGVVGVIVPWNYPLFLAVGPLVGALSAGNRVMLKLSEATPATGLLLKRLFARIFPQDLVSVVLGEADVGIAFSRLPFDHLLFTGATSIGKHVMRAAAENLTPVTLELGGKSPAIVSDDVPLKDAAERIAFGKTLNAGQTCVAPDYVLVPQSRVGAFVEAYREAVRRFYPTLADNPDYTAIINDRQLARLNGYIGDATSKGALLIELFDQGQGRRMAHSLLLNVTDDMTVMQDEIFGPLLPIVPYEGLDQAFAYINRRPRPLALYYFGYNKAEQQRVLNETHSGGVCLNDTLLHVAQDDMPFGGIGASGMGHYHGHEGFLTFSKAKGVLIKQRFNAARLIYPPYGKPLQKLIQKLFIR	PGPT0019970_641	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_LIGNIN_DEGRADATION|LIGNINASES	PLANT_LIGNIN_DEGRADATION-DEHYDROGENASE_ACTIVITY,PGPT0019970-calB-K00154	NA	NA
D1-35_03647	672			hypothetical protein	ATGGCCCCACGAATAAAAACCAGCGAGCGCATCGTGCAGAACAGCCTGGAGTTGTTCAACCGGCAGGGTGAGCGCAGTGTCAGCACCAATCACATTGCCGCCCACATGGACATGTCCCCGGGCAATCTCTATTACCACTTCCCCAACAAGCAGGCGATCATCGCCGTGCTGTTCAGCGAATACGAAAACCTGGTGGACAGCTTCCTGCGGCCACCCCAGGGGCGGGCCGCCACGGTGGACGACAAGCGCTTCTACCTGCAGGAGCTGCTCTCGGCGATGTGGCGCTACCGGTTCCTGCACCGGGACCTGGAGCACCTGCTTGACAGCGACCCGGAACTGGCGGCTCGCTACCGACGCTTTTCCCAACGCTGCCTGATCCATGGCACGGCTATCTACGAAGGCTTCGTCGACGCCGGTATCCTGGCGATGGACCGTGTCCAGATCGAGTCCCTGACCCTCAATGCCTGGATTGTCCTCACGTCCTGGGTCCGGTTCCTCTGCACCACGCGCGAAAACTCCAACCACCTGAGCGAACAGGCGATCAAGCGCGGGGTGTATCAGGTGCTGGTGCTCGAGGCGGGGTTTGTGACCGGGCAGGCCCGCGAAGCGGTAGATGCCCTGTTCAAAGAATTTTATGTCCCGCTGGCCCAGACCCTGGAGGAAGGGCAGTAG	MAPRIKTSERIVQNSLELFNRQGERSVSTNHIAAHMDMSPGNLYYHFPNKQAIIAVLFSEYENLVDSFLRPPQGRAATVDDKRFYLQELLSAMWRYRFLHRDLEHLLDSDPELAARYRRFSQRCLIHGTAIYEGFVDAGILAMDRVQIESLTLNAWIVLTSWVRFLCTTRENSNHLSEQAIKRGVYQVLVLEAGFVTGQAREAVDALFKEFYVPLAQTLEEGQ				NA	NA	NA	NA	NA
D1-35_03648	855	sseB	COG2897	Putative thiosulfate sulfurtransferase SseB	ATGCCCATCGCGCAACTCATCAGCCCTCAGGCCCTGGAACAGCGGAGATCACAGCCCGGGCTGGTGATCCTCGATTGTCGTTTTGCCCTGGAGGACCCGGACTATGGCCAGCGCAGTTACGCCGAGGGCCATATCGCCGGCGCGTCGTTCGCCGACCTTGAACGGGATCTGAGCGGACCGGTCATCAAGGGCGTCACCGGACGTCATCCGCTGCCGGAGCCCGAGGCGCTGGTTGAGCGTCTCCGGGCCTGGGGGGTCAACAATGACAGCGAGGTCGTGCTGTATGACGACGGCCCCGGCGCCTATGCCGCCCGGGCCTGGTGGCTGCTGGCCTGGTTGGGCAAACGCGATGGCGTGCATATTCTCGACGGCGGGCTCAAGGCCTGGCATGCGGCCGGCCTGCCCCTGAGCCTGGATCCGCCGCAGGCTGCTCGCGGGACTTTCAGCGGCGCGCCGGACGCGAGCTTGCTGCTCAGTGCGCAGGCGTTGCAGCAACGCCTCGGTGATGCGGACATGACCCTGCTGGATGCCAGGGCGCTGCCGCGTTTCAAGGGCGAAGTCGAACCGATCGACCCGGTGGCGGGGCATATCCCGGGCGCATCATGCGCAGCATTCACCGACAACCTGGGGACCGATGGACGCTTCTTGCCGGCCGATCAACTCAAGCTGCGTTTCGCTGAAAAACTGGGCGAGCGTCCGCCCACCGAGCTGGTGGCCTACTGTGGCTCCGGCGTGACGGCGTGCCATAACCTGTTTGCCTTGTGCCTGGCGGGCTATCCGCTGGGACGGTTGTATGCCGGCTCGTGGAGCGAGTGGATCAATGATCCCCAGCGGGGCGTGGCGAAGGGCGAATAG	MPIAQLISPQALEQRRSQPGLVILDCRFALEDPDYGQRSYAEGHIAGASFADLERDLSGPVIKGVTGRHPLPEPEALVERLRAWGVNNDSEVVLYDDGPGAYAARAWWLLAWLGKRDGVHILDGGLKAWHAAGLPLSLDPPQAARGTFSGAPDASLLLSAQALQQRLGDADMTLLDARALPRFKGEVEPIDPVAGHIPGASCAAFTDNLGTDGRFLPADQLKLRFAEKLGERPPTELVAYCGSGVTACHNLFALCLAGYPLGRLYAGSWSEWINDPQRGVAKGE	PGPT0002045_3095	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0002045-sseA-K01011	NA	NA
D1-35_03649	1005			hypothetical protein	ATGATCGTGTCCTGCGCACCTGAACGCTTCATACCCGCCCCGGGCCTTGGCAATCCGCACCTGCAGACCTTGTGGGGCCCATTGTGGCGTAAAACCGTTCACATCGATCGCGAACGTGAGCGCCTCTGGCTGGACGATGGTGATTTCCTCGACCTTGACTGGCATGGCCCGCATAGCGCCGAAGCACCGCTGGTGCTGGTGCTTCATGGGCTGACCGGTTCCTCCAACTCACCCTACGTTGCCGGCCTGCAACGCGCGCTCAATGCTCAAGGCTGGGCCAGCGTCGCCCTGAACTGGCGTGGTTGCTCGGGCGAGCCGAACCTGCTGGCTCGCAGTTATCATTCCGGCGCCAGCGAAGATCTCGCCGCGGCTATCGCCCATCTGCGGGCCCGACGCCCCTTGGCGCCGCTGTTTGCGGTGGGCTATTCGCTGGGCGGGAATGTGCTGCTCAAGCATTTGGGGGAAGCCGGCAACCACAGCCAGTTGCAGGGCGCAGTTGCGGTCTCGGTACCGTTTCGCCTGGACCAGTGCGCCGACCGCATCGGACAGGGCTTTTCCAGGTTCTATCAGGCGCACTTCATGCGGGAAATGGTCGCCTACGTGCGCAACAAGCAACGCCAGTTCCAGCATGACGGACGCGACGAAGGGCTCGCGGCCCTGGCAGCCCTGGGCTCGCTGGACAACATGCGCACCTTCTGGGATTTCGACGGCCGGGTGACAGCGCCGCTGCACGGCTTTTCCGACGCAGCGGATTACTACCGGCGCGCGTCCAGCCGCTATTTCATGGCGGGAATCAGTACACCGACGCTGGTCATCCAGGCCGCCGACGACCCATTTGTATTCCCCCACAGCCTGCCCGAACCCGGCGAGTTATCGGCCTGGACCCACCTGGAACTGCACATGCGGGGCGGGCATGTGGGATTTGTCGACGGAACCCTGCGCCGCCCGGGCTATTACCTGGAACGCCGGATTCCCTGCTGGCTGGCCAGCCTGGCACAAGGCTGA	MIVSCAPERFIPAPGLGNPHLQTLWGPLWRKTVHIDRERERLWLDDGDFLDLDWHGPHSAEAPLVLVLHGLTGSSNSPYVAGLQRALNAQGWASVALNWRGCSGEPNLLARSYHSGASEDLAAAIAHLRARRPLAPLFAVGYSLGGNVLLKHLGEAGNHSQLQGAVAVSVPFRLDQCADRIGQGFSRFYQAHFMREMVAYVRNKQRQFQHDGRDEGLAALAALGSLDNMRTFWDFDGRVTAPLHGFSDAADYYRRASSRYFMAGISTPTLVIQAADDPFVFPHSLPEPGELSAWTHLELHMRGGHVGFVDGTLRRPGYYLERRIPCWLASLAQG				NA	NA	NA	NA	NA
D1-35_03650	612	rsmD	COG0742	Ribosomal RNA small subunit methyltransferase D	ATGGCCCGTCCATCCAATTCCAGCAAGAAACCCGCGCACAACGGGGTTAACCAGTTGCGCATCATCGGCGGTGAGTGGCGCAGCCGGCGCTTGAGCTTCCCCGATGCCCCGGGCCTGCGGCCGACGCCGGACCGGGTGCGCGAAACCCTGTTCAACTGGCTCGCGCCGTATGTGGCGGGTGCCCGGGTGCTCGACCCGTTCGCCGGCAGTGGCGCGCTGTTTCTCGAGGCCTTGTCCCGTGGCGCCGCCATGGGCCAGGCGCTGGACGCCAGCAGCCTGGCGGTCTCGAGCCTGAAAGAACACCTGGGCACGCTGCGTTGCACCGTCGGCCAGGTGCAGACGGCGGATGCGCTGCGCTATCTCGACAGCCAGCCCGCGACACCTTTCGACCTGGTGTTCCTCGACCCGCCGTTCAACCAGAACCTGTTGCCGGCCGTCTGCGCGTTGCTTGAGGAACGGCAATGGCTGGCCGACGATGCCTGGGTCTACACTGAAAGCGAGACCGCCCCTTCGACCCTGGGCTTGCCGGCCAATTGGCGCCTGCATCGCGAGCAGAAATCCGGGCGGGTGTATTACGCATTGTGGCAACGTACGGCAGAGGCCGTTGGCTGA	MARPSNSSKKPAHNGVNQLRIIGGEWRSRRLSFPDAPGLRPTPDRVRETLFNWLAPYVAGARVLDPFAGSGALFLEALSRGAAMGQALDASSLAVSSLKEHLGTLRCTVGQVQTADALRYLDSQPATPFDLVFLDPPFNQNLLPAVCALLEERQWLADDAWVYTESETAPSTLGLPANWRLHREQKSGRVYYALWQRTAEAVG				NA	NA	NA	NA	NA
D1-35_03651	1491			hypothetical protein	ATGAGTGAGCGCAAATCACCGCGCCTGGTGCTGATCGGCCTGGTATTGATCGCCGTGGTCGGCGCGCTGGCCTTTTACCTGTCGCCATCGACCAGCTCCAACGCCAGCCAGGCGCTGGACAAGGCCAAGTCCGGCAACAAGCTGCAATCGCTGGCTGAACTGGACGGCAAGGCGCCCAGCCATCGCCAGCTCGACGTGCAGACCTGGAAAACCGCCGACGGCGCCAAGGTGCTGTTCGTCGAAGCTCGCGAATTACCGATGTTCGACCTGCGCCTGACCTTCGCCGCCGGCAGCAGCCAGGACGGCGACGCACCGGGCCTGGCGCAGTTGACCAACGCCATGCTCAACGAAGGCGTGGCGGGCAAGGACGTCAGTGCCATTGCCGAAGGCTTTGAAAGCCTCGGCGCCGATTTTGGCAACGGCGCCTTCCGGGACATGGCCGTGGCTTCGCTGCGCAGTCTCAGCGCTGCCGACAAGCGCGAGCCGGCGCTGAAGCTGTTTGCCGAAGTTGTCGGCCAGCCGACCTTCCCCGCCGACTCCTTCGCGCGCATCAAGAACCAGATGCTCGCCGGTTTCGAGTACCAGAAGCAGAACCCCGGCAAACTGGCGGGCCTGGAACTGATGAAGCGCCTGTACGGCGACCATCCGTATGCGCACTCCAGCGACGGCACGGCACAGAGCATCCCGCCGATTACCCTGGCCCAGGCCCGGGCCTTTCATGCCAAGGCCTATGCCGCCGGCAACGCGGTGATCGCCCTGGTGGGGGACCTGTCCCGTGCCGAGGCCGAAGCCATTGCCAACCAGATATCCGCCGCACTGCCCAAGGGCCAGGCCCTGGCGAAAACGCCGCCACCGGTGGAGCCGAAAGCGAGCGTCCACCATATCGAGTTCCCGTCCAAGCAGACCAACCTGATGCTCGCGCAACTGGGCGTCGACCGCGACGATCCGGACTATGCCGCCGTGTCCATGGGCAACCAGATCCTCGGCGGCGGTGGCTTCGGCACGCGGCTGATGACCGAGGTCCGAGAAAAACGCGGCCTGACCTATGGCGTCTATTCCGGCTTCACGGCGATGCAGGCTCGCGGCCCGTTCATGATCAGTCTGCAGACCCGTGCCGAGATGAGCGAAGGCACGTTGAAGCTGGTACAGGATGTGTTCGCCGATTATCTCAAGAACGGCCCGACCCAGAAGGAGCTCGACGACGCCAAGCGCGAGCTGGCCGGCAGCTTCCCGCTGTCGACCGCGAGCAACGCCGACATCGTCGGTCAGCTCGGCGCCATGGGCTTTTATGACTTGCCGCTGAGCTACCTGGAGGACTTCATGCGCCAGTCCCAGGCGCTGACGGTCGAGCAAGTCAGGACCGCGCTGAACAAACACCTGAGCACGGACAAGATGGTCATCGTCACCGCTGGCCCGACCGTGCCGCAAAAGCCGTTGCCGGCCCCCACTGACAAACCTGCCGAGCAGCCGCTCGGGGTTCCGGAGCATTAA	MSERKSPRLVLIGLVLIAVVGALAFYLSPSTSSNASQALDKAKSGNKLQSLAELDGKAPSHRQLDVQTWKTADGAKVLFVEARELPMFDLRLTFAAGSSQDGDAPGLAQLTNAMLNEGVAGKDVSAIAEGFESLGADFGNGAFRDMAVASLRSLSAADKREPALKLFAEVVGQPTFPADSFARIKNQMLAGFEYQKQNPGKLAGLELMKRLYGDHPYAHSSDGTAQSIPPITLAQARAFHAKAYAAGNAVIALVGDLSRAEAEAIANQISAALPKGQALAKTPPPVEPKASVHHIEFPSKQTNLMLAQLGVDRDDPDYAAVSMGNQILGGGGFGTRLMTEVREKRGLTYGVYSGFTAMQARGPFMISLQTRAEMSEGTLKLVQDVFADYLKNGPTQKELDDAKRELAGSFPLSTASNADIVGQLGAMGFYDLPLSYLEDFMRQSQALTVEQVRTALNKHLSTDKMVIVTAGPTVPQKPLPAPTDKPAEQPLGVPEH	PGPT0001280_2752	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001280-pqqL|yddC-K07263	NA	NA
D1-35_03652	1356		COG0612	putative zinc protease	ATGAATGCTCTTGCCCGCCGCGCCGCTGGCCTGCTGCTCAGCACAGTTTGTCTGCCCTTTTCCGCCCTTGCTGCCGACCCGCAACCTACCCATGAATTTACCCTCGACAACGGTTTGAAGGTCGTCGTGCGCGAGGATCACCGGGCTCCGGTGGTCGTCTCCCAGGTCTGGTACAAGGTGGGCTCCAGCTATGAAACGCCGGGCCAGACCGGCCTGTCCCACGCCCTGGAACACATGATGTTCAAGGGCAGCGAAAAAGTCGGTCCCGGCGAAGCGTCGTTGATCCTGCGCGACCTTGGCGCCGAGGAGAACGCGTTCACCAGCGATGACTTCACCGCCTATTACCAGGTACTGGCCCGGGATCGCCTGGGCGTGGCCTTCGAGCTTGAAGCCGATCGCATGGCCAGCCTGCGCTTGCCGCCGGAGGAGTTCAGCCGCGAGATCGAGGTCATCAAGGAAGAGCGCCGCATGCGCACCGATGACAAGCCCATGTCCAAGGCCTACGAGCGATTCAAGGCCATGGCGTACCCGGCCAGCGGCTACCACACGCCGACCATCGGCTGGATGGCCGACCTGGACCGGATGAAGGTCGAGGAGCTGCGCCACTGGTACGAATCCTGGTATGCACCGAACAATGCGACCCTGGTAGTGGTTGGCGACGTGACACCAGACGAGGTCAAGACCCTGGCCCAGCGCTATTTCGGCCCGATTGCCCGGCGCGCCGTGCCGGCGGCGAAAATCCCGCTGGAGCTGGCCGAACCCGGTGAGCGCAAGATCACCCTGCATGTACAGACCCAACTGCCGAGCGTCATGCTGGCGTTCAACGTGCCGAGCATCGCCACGGCCACCGACAAAGTCCCGGTCAACGCCTTGCGGCTGATTTCCGCGCTGCTGGACGGCGGTTACAGCGGCCGGATCCCGGCCCAGCTGGAGCGCGGCGAAGAATTGGTGTCCGGCGGCTCGTCGAACTACGACGCCTACACCCGTGGCGATACCCTGTTCACCCTGTCGGCGACACCCAACACGCAGAAAAACAAGACCCTCGCCGAGGCCGAAGCCGGGCTGTGGCGCTTGCTCGAACAACTGAAGACCACCGCCCCCACCGCCGAGGAACTGGAGCGCGTCCGCGCCCAGGTGATCGCCGGCCTGGTGTATGAGCGCGACTCCATCACCAGCCAGGCCACCGCCATCGGCCAGCTGGAAACGGTCGGCCTGTCCTGGAAGCTGATGGACACCGAGCTGGCCGAACTGCAAAGCGTGACCCCGCAGGATATCCAGAAGGCAGCCCAGTTGTATTTCACCCGCTCGCGCCTGAGCGTCGCGCACATCCTGCCCGAGGAGAAAGCTCATGAGTGA	MNALARRAAGLLLSTVCLPFSALAADPQPTHEFTLDNGLKVVVREDHRAPVVVSQVWYKVGSSYETPGQTGLSHALEHMMFKGSEKVGPGEASLILRDLGAEENAFTSDDFTAYYQVLARDRLGVAFELEADRMASLRLPPEEFSREIEVIKEERRMRTDDKPMSKAYERFKAMAYPASGYHTPTIGWMADLDRMKVEELRHWYESWYAPNNATLVVVGDVTPDEVKTLAQRYFGPIARRAVPAAKIPLELAEPGERKITLHVQTQLPSVMLAFNVPSIATATDKVPVNALRLISALLDGGYSGRIPAQLERGEELVSGGSSNYDAYTRGDTLFTLSATPNTQKNKTLAEAEAGLWRLLEQLKTTAPTAEELERVRAQVIAGLVYERDSITSQATAIGQLETVGLSWKLMDTELAELQSVTPQDIQKAAQLYFTRSRLSVAHILPEEKAHE	PGPT0001280_4172	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001280-pqqL|yddC-K07263	NA	NA
D1-35_03653	1434	ftsY	COG0552	Signal recognition particle receptor FtsY	ATGTTTGGTTCCAACGACGACAAGAAGACCCCAGCTGCGGCTGGCGAGAAAAAAGGCCTGTTCGGATGGCTGCGCAAGAAGCCGCAGGAAACCGTCGTCGAGCAGCCGCAACTGCCGCCAGAGCCGGCCGCCGAGACTGTGGCCGAGACCGCGGTAGAAGAGACTGCGCCGATCGTCCTGCCGATTGCCGAACCGGTGCTGCAGCCGGTCGAGCCTGAGGTTACCGCCGAGCCGGTTGCCGAGCAGCCACTGACCCCGCCCGCCGGGCAAACTCCCTGGCTGACCTTGCCTGTGGCCGAAGAACCGGTCGGGCTGGTCGACGATGAGCAGGCTGCGCATGTCACCCCACCGATTCCGGCATCGACGCAACCGGTCGAGGCGCCCATTGCCGAGACACCGGTTGTCGCTGCGCCTGCCACCCCCGAGCCCGCCCCTGAGCCCGAGGCTGTAACAGCTGAGGTTCCGGCTCTGGTCGAGCCGCCGCGCAGCGCCGAAGAAAACAAAGTCGGCTTCTTCGCCCGCCTCAAGCAGGGCCTGTCCAAGACCAGCGCCAGCATTGGCGAAGGCATGGCCAGCCTGTTCCTCGGCAAGAAGGTCATCGATGACGAATTGCTCGAAGACATCGAGACCCGCCTGCTGACCGCAGATGTCGGCGTCGAGGCCACTTCCGTCATCATCCAGAGCCTGACCCAGAAGGTCGCCCGCAAGCAGCTCACCGATGCCGACGCGTTGTACAAATCCCTGCAAGGCGAACTGACCAGCCTGCTCAAACCGGTGGAAAAGCCGCTGGTGATTGCTTCGCAGAACAAGCCGTTCGTGATCCTGGTCGTCGGCGTCAACGGCGCCGGCAAGACCACCACCATCGGCAAACTGGCGAAGAAGCTTCAGCTCGAAGGCAAAAAAGTCATGCTCGCCGCTGGCGACACCTTCCGCGCCGCCGCGGTAGAACAGTTGCAGGTGTGGGGTGAGCGCAACAAGATCCCGGTCATTGCCCAGCACACGGGTGCGGACTCCGCCTCGGTGATTTTCGACGCCGTGCAGGCCGCCAAGGCCCGTGGCATCGACGTGTTGATCGCCGACACGGCCGGTCGCCTGCACACCAAAGACAACCTGATGGAAGAATTGAAGAAGGTCCGCCGGGTCATCGGCAAGCTCGACGCCGAGGCGCCTCACGAGGTGCTGCTGGTGCTGGATGCTGGCACCGGCCAGAACGCCATCAACCAGGCCAAACAGTTCAACCAGACCGTCGAACTGACCGGGCTGGCCCTGACCAAGCTGGACGGCACCGCCAAGGGCGGGGTGATCTTCGCCCTGGCCAAGCAATTCGGCTTGCCGATTCGTTACATCGGCGTGGGCGAAGGCATCGACGACTTGCGCACCTTTGAAGCCGAGCCTTTTGTCCAGGCACTGTTTGCCGAGCGGGAGCATTCATGA	MFGSNDDKKTPAAAGEKKGLFGWLRKKPQETVVEQPQLPPEPAAETVAETAVEETAPIVLPIAEPVLQPVEPEVTAEPVAEQPLTPPAGQTPWLTLPVAEEPVGLVDDEQAAHVTPPIPASTQPVEAPIAETPVVAAPATPEPAPEPEAVTAEVPALVEPPRSAEENKVGFFARLKQGLSKTSASIGEGMASLFLGKKVIDDELLEDIETRLLTADVGVEATSVIIQSLTQKVARKQLTDADALYKSLQGELTSLLKPVEKPLVIASQNKPFVILVVGVNGAGKTTTIGKLAKKLQLEGKKVMLAAGDTFRAAAVEQLQVWGERNKIPVIAQHTGADSASVIFDAVQAAKARGIDVLIADTAGRLHTKDNLMEELKKVRRVIGKLDAEAPHEVLLVLDAGTGQNAINQAKQFNQTVELTGLALTKLDGTAKGGVIFALAKQFGLPIRYIGVGEGIDDLRTFEAEPFVQALFAEREHS	PGPT0025740_1162	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025740-ftsY-K03110	NA	NA
D1-35_03654	672	ftsE	COG2884	Cell division ATP-binding protein FtsE	ATGATTCGTTTCGAACAGGTCGGTAAACGCTATCCGAACGGTCACGTCGGCCTGCATGAGCTGAGCTTTCGGGTCCGTCGGGGCGAGTTTCTGTTTGTCACCGGCCATTCCGGCGCCGGTAAAAGTACCTTGCTGCGCCTGCTGCTGGCGATGGAACGGCCCACCACCGGCAAGCTGCTGCTGGCCGGCCAGGACCTGAGCACCATCAGCAATGCCCAGATTCCCTACCTGCGACGGCAGATCGGTGTGGTGTTCCAGAACCACCAATTGCTGTTCGATCGCACAGTGTTCAACAACGTGGCGCTGCCGTTGCAGATCCTCGGGCTGTCCAAGGCCGAGATCAACAAGCGCGTGGACTCGGCACTGGAGCGTGTAGCGCTGTCGGACAAGACCGACCTGTATCCGGGCGACCTGTCCACCGGCCAGCAACAGCGTGTCGGTATCGCCCGCGCGATCGTCCACCGCCCGGCCTTGCTGCTGGCGGATGAACCCACCGGTAACCTCGACCCGCGACTGGCGGCGGAAATCATGGGCGTATTCGAAGATATCAACCGTTTGGGCACCAGCGTGCTGATCGCCAGTCACGACCTGGCGCTGATCGCACGTATGCGTCATCGCATGCTCACCTTGCAGCGCGGTCGACTGATCGGCGACGGGGAGGCGGGTGTATGA	MIRFEQVGKRYPNGHVGLHELSFRVRRGEFLFVTGHSGAGKSTLLRLLLAMERPTTGKLLLAGQDLSTISNAQIPYLRRQIGVVFQNHQLLFDRTVFNNVALPLQILGLSKAEINKRVDSALERVALSDKTDLYPGDLSTGQQQRVGIARAIVHRPALLLADEPTGNLDPRLAAEIMGVFEDINRLGTSVLIASHDLALIARMRHRMLTLQRGRLIGDGEAGV	PGPT0020520_444	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
D1-35_03655	1023	ftsX	COG2177	Cell division protein FtsX	ATGAGCGCAACCCGTAGTCCGAAAGTGGCCGAGCGCGTGGCTCCCAAGGCCTCCGACCCGCAGCCGCAGAAAAAGAAACGCGACGATGACGACGGCCCGGATTTCGCCACGCTGCTGCACGCCTGGATCGAAAGCCATCGCGCCAGCCTGGTCGACAGCCTGCGGCGCCTGGGCAAGCAGCCCATCGGCAGCTTCTTTACCTGCATGGTGATGGCCGTGGCCCTGAGCCTGCCCATGGGCCTGTCATTACTGCTTAATAATGTCGAGCGCCTGGGCGGCTCCTGGCAGCGCGCGGCGCAGATTTCTCTTTATCTGCAACTGGACGCGACACCAGGCGAAGGCCAGGCGTTGCGTGAGCAGATCAAGGCCATGCCGGGCGTAGCCGACGCCGAATACGTCGGGCGCGAGCAGGCGCTCGAAGAGTTCCAGCAGCAGTCCGGCCTGGGCGAGGCCCTCAAGGAACTCCCGGAAAACCCGCTGCCGGGCGTGGTGCTGGTGACTCCGAACGAGGTCGACAAGCCCACCCTTGAAGCATTAAGACAAAGACTTTCGGAACTGCCCAAGGTACAACAGGCCCAACTTGATCTAGTCTGGGTCGAGCGTCTTGCGGCGATACTCAAGCTCGGCGACCGGTTTGTCTTTGGTCTGACGGTGCTTCTGGTTTCTGCATTACTTTTGGTGATAGGCAATACCATTCGTCTTCATATTGAAAACCGCCGCACAGAGATAGAAGTGATTAAACTCGTCGGCGGTACGGACAGTTATGTTCGCAGGCCCTTCCTCTACATGGGGGCGCTGTATGGCTTCGGTGCCGGGATCCTGTCCTGGGGGGTATTGGCGTTCGGCCTGGATTGGCTGAACGATGCGGTAGTGGGATTGGCCGGTTTGTACGGCAGTGATTTTTCACTGGCCGGTGTGCCAGTCGCCGACGGCGTGTCGCTCTTGCTTGGCGCGGTGCTGTTGGGTTATATCGGTGCATGGATTGCGGTAGCACGCCACCTGCGTGAGCTTGCTCCAAAATAG	MSATRSPKVAERVAPKASDPQPQKKKRDDDDGPDFATLLHAWIESHRASLVDSLRRLGKQPIGSFFTCMVMAVALSLPMGLSLLLNNVERLGGSWQRAAQISLYLQLDATPGEGQALREQIKAMPGVADAEYVGREQALEEFQQQSGLGEALKELPENPLPGVVLVTPNEVDKPTLEALRQRLSELPKVQQAQLDLVWVERLAAILKLGDRFVFGLTVLLVSALLLVIGNTIRLHIENRRTEIEVIKLVGGTDSYVRRPFLYMGALYGFGAGILSWGVLAFGLDWLNDAVVGLAGLYGSDFSLAGVPVADGVSLLLGAVLLGYIGAWIAVARHLRELAPK				NA	NA	NA	NA	NA
D1-35_03656	855	rpoH	COG0568	RNA polymerase sigma factor RpoH	ATGACCACTTCTTTGCAACCTGCTTATGCTCTAGTCCCGGGTGCGAACCTTGAGGCCTATGTGCACACGGTGAACAGCATTCCATTGCTGACGCCCGAGCAGGAGCGTGAACTGGCCGAGAGTCTCTATTATGAGCAGGATCTTGAGGCGGCTCGGCAGATGGTGCTCGCCCACCTGCGTTTTGTCGTACATATCGCCCGCAGCTATTCCGGCTACGGGCTGGCCCAGGCCGACCTGATCCAGGAAGGCAACGTCGGCCTGATGAAGGCGGTCAAGCGGTTCAACCCTGAAATGGGCGTGCGGCTGGTATCGTTCGCCGTGCACTGGATCAAGGCGGAAATCCACGAGTTCATCCTGCGCAACTGGCGCATTGTGAAAGTCGCGACCACCAAGGCCCAGCGCAAGCTGTTCTTCAACCTGCGCAGCCAGAAGAAACGTCTGGCCTGGCTGAACAACGAAGAAGTCAATCGCGTGGCTGAAAGCCTGGGCGTAGAGCCTCGGGAAGTGCGCGAGATGGAAAGCCGCCTGACCGGCCATGACATGGCCTTCGACCCGGCCGCCGAGGCCGACGACGACAGCGCTTTCCAATCGCCGGCCAACTACCTGGAAGACCACCGGTACGACCCGGCGCGTCAACTGGAAGACGCTGATTGGAGCGACAACTCCAACACCAACCTGCACGAAGCGCTGGAAGTGCTGGACGCGCGCAGCCGTGACATTCTTTATCAGCGCTGGCTGGCTGAAGAGAAGGCCACGCTGCACGACCTGGCGCAGAAGTACAACGTGTCGGCCGAGCGAATTCGCCAGCTTGAGAAAAGTGCGATGAACAAGCTCAAGGTGTCGATCGCGGCTTGA	MTTSLQPAYALVPGANLEAYVHTVNSIPLLTPEQERELAESLYYEQDLEAARQMVLAHLRFVVHIARSYSGYGLAQADLIQEGNVGLMKAVKRFNPEMGVRLVSFAVHWIKAEIHEFILRNWRIVKVATTKAQRKLFFNLRSQKKRLAWLNNEEVNRVAESLGVEPREVREMESRLTGHDMAFDPAAEADDDSAFQSPANYLEDHRYDPARQLEDADWSDNSNTNLHEALEVLDARSRDILYQRWLAEEKATLHDLAQKYNVSAERIRQLEKSAMNKLKVSIAA				NA	NA	NA	NA	NA
D1-35_03657	723	mtgA	COG0744	Biosynthetic peptidoglycan transglycosylase	ATGCTGCGTACATTGTTTCGACGATTCGTTAAAGCCCTGCTCTGGTTCGCCGTCGGCAGCGTTGCGCTGGTGCTGCTGTTTCGCGTGGTACCGCCACCGTTCACCGCGCTGATGATCGAGCGCAAGGTCGAATCCTGGTTCGGCGGCGAGCCGATCGACCTGCAGCGCGACTGGCAGCCCTGGGACCAGATCTCCAATAACCTTAAAATCGCGGTGATTGCCGGCGAGGATCAGAAGTTTCCCGAGCACTGGGGCTTTGACATCGGCGCGATCCAGGCGGCGTTTGCCCATAACGGGCGCGGCGGCTCGATTCGCGGCGCCAGTACCCTCAGCCAGCAAGTCTCCAAGAACCTGTTTCTGTGGTCGGGCCGCAGCTGGCTGCGCAAAGGGCTGGAGGCGTGGTTCACCGCGCTGATCGAAGTGTTCTGGCCCAAGCAACGGATTCTCGAGGTGTACCTCAACAGTGTCGAGTGGGACGACGGCGTGTTCGGGGCTGAAGCGGCCGCGCGGCATCATTTTCGTGTAAGCGCCGGGGCCTTGTCCCGGCAACAGGCCAGCCTGCTGGCGGCGGTACTGCCCAACCCGCGGGTCTGGAGTGCTAGCCGGCCGAGCCCCTACATATTGCGACGCGCCAGCTGGATCCGGCAGCAGATGAGCCAGTTGGGCGGTGATGGTTATCTGCTGGAGCTTGACCGCGCGCGCCGCGCGCCGTGGGCTCGGTAG	MLRTLFRRFVKALLWFAVGSVALVLLFRVVPPPFTALMIERKVESWFGGEPIDLQRDWQPWDQISNNLKIAVIAGEDQKFPEHWGFDIGAIQAAFAHNGRGGSIRGASTLSQQVSKNLFLWSGRSWLRKGLEAWFTALIEVFWPKQRILEVYLNSVEWDDGVFGAEAAARHHFRVSAGALSRQQASLLAAVLPNPRVWSASRPSPYILRRASWIRQQMSQLGGDGYLLELDRARRAPWAR	PGPT0024110_953	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024110-mtgA-K03814	NA	NA
D1-35_03658	372			hypothetical protein	ATGTTGCGTAGCTTTCTGATGCTGGCGGCTTTTTTCGGTTTCACCGGCGTAGCGCTGGGAGCATTCGCCGCCCATGGTCTGAAAAGCCGTCTGAGCGCCGATTACCTGGCGATTTTCCACACTGGCGTCACCTACCAACTGGTGCACACCCTGGCGCTGTTCGGCGTCGCATTGCTGGCCACGCACATTCCCGGGCGTATCGTCACCTGGGCCGGTATTTCCTTTGTCATCGGTATCCTGTTGTTCTCTGGCAGCCTGTATCTGTTGACGCTTACGGGCATCAGCAAGCTGGGCATCATCACGCCGTTCGGTGGTGTGGCGTTTCTGCTGGGTTGGCTTTTCCTCGGTCTTGCCGCCTGGCGTCTGGCCTGA	MLRSFLMLAAFFGFTGVALGAFAAHGLKSRLSADYLAIFHTGVTYQLVHTLALFGVALLATHIPGRIVTWAGISFVIGILLFSGSLYLLTLTGISKLGIITPFGGVAFLLGWLFLGLAAWRLA				NA	NA	NA	NA	NA
D1-35_03659	1983			hypothetical protein	GTGCCCAGCGTCCATACAATGCCAAACATCCCCGCTATCGATGGCCTGCGCGCCGTCGCTGTCCTGAGCGTGATCATTTTCCATGCCGATTTCCTGAAACTGCCCGGAGGTTTCACCGGGGTCGACATGTTCTTCGTCATCTCGGGCTACGTCATCAGCCAATCGTTATACACCCGCTCCGACATGAGCTTTTCGGCTTACCTGGCGGACTTCTACCGGCGACGCTTCCTGCGCATCGTCCCGGCCCTGCTGGTGGTTCTGGTGGCGTGCGCCCTGGTCTCGGCGATGTTCGTACCCCAGGCCTGGCTCAGTGCGCAGAATGATCAAACCGGACTGGCGGCCTACTTCGGCCTGAGCAACTTCACGCTGGCGTGGAACACCGACACCTACTTCTCGCCGGCCGCCCAGCTCAATCCCTATACCCACACCTGGACGCTGGCCGTCGAAGAGCAGTTCTACCTGGTTTTTCCCCTGGTCTACTTCGTCTGGCTGCGTTTTCGCCAACGACACAGTCTCGCCTGGGCCTTGCTGCCCTTGCTCGCGCTGGCCTCGCTGGCATTCAGCGTGGTGCAGACAGAGCAAAGCCCTCTCGAAGCGTTTTACCTGTTACCCAGCCGATTCTGGGAACTGGCATCCGGGGCGGTCCTCTTTCAACTGGTGGCCACAGGACGCTTGCAACTGACCTCTGCGGCGACGCCTGCCGTGCTGTTCGCTGGGCTCGCCCTGGTGTCAGGCGGGTTGATTTTCGCCGACGCGAAACACTTTCCGTTTCCCTGGGCCGTGCTGACCGTCGCTGGCACCCTGCTGGCCCTGGCGGCCGTAGTACAGAAAACCAATACCCCCTCGCTGCTGCGTCTTTTGCAATCGAAACCCGCGACCTATGTCGGTCGGTTGTCCTACTCGCTTTACCTTTGGCATTGGCCGGTGCTGGTGTTCCTGCGCTGGACCATTGGCCTTGAGCAACTCGCCATACAGCTGGCCTATCCAGTAATCGTCGCGGCACTCGCTGCCGCCTCCTATCACTGGGTCGAGACACCGCTGCGCACCGGCCGGTCGCTTTTTCAACGCCGCGCCTGGATCACCATTGCCTCATGCCTGGCGGCGCTCGGCCTGTCCTGGTCAGGTGCTCGCTGGATGAGTGAAAATCCTGAGGTACTGTCGCTGAGCCAGACCAGCGACACCTATACCTGGTTTTCCAGGAAATTACCGCAAGGACCGGCCAGCGAGCCGATCAGCGACCCATCGCTGCAAGGCCGCCAACTGTTCGTGTTCGGCGATTCGCACGCGGCGGCATACCGCACCCTGCTGAGCCTCGTCTCGCGACAGCTGGGTATCAGCGTTGTGGAATACGAGCGCGGCGGCTGCGCGGTGGTCAGCCTCATGGCACCCGACCCACAAGGCGCCTGCACCCGAGCCAGGAATGAAGCCCTGCGTGACATCGAAGCGCGGGCAAAACCCGGCGATATCGTTTTCCTCGCCTCCCTGCGGATGCCGGAACTGGCAGGGCGCGACTGGGTACGTGGCGATGAAAGCGTGCTAAGCGAGGCCCTCGCCGAACTGTCCCCAGAGCAGGTCGACGGAGCCCGCCGCAGCGCAGAAGCAACGCTGAAGCGGCTGATGAATGCCGAGGTGCGGGTACTGATCGATGCCCCCATGCCGCTGTTCAAGTCGCCAGCCTACCGCTGCTCGGACTGGTTCAACCGGATGAATCCGATCTGCGCGCCTGGTTTCACCGTCGAGCGGGATCAGATCGAGCAGCTGCGAGCGCCACAAATGGCTTTGCTGAAGCATTTAACCCTTGAGTATCCGCTGCTTCGCGTCTGGGATCCGCTGCCGCTGCTGTGCCCAGGCTCCACTTGCTCGGCTTACGACGACGGTCAACCACTTTTCCGCGACGGCGATCACCTTAGCGGATACGGTAACCGCCTCCTCGCGCCATCGTTCATCCAGGTCCTGCTCAATGGCTGGAGGCGCGCGACGTGA	MPSVHTMPNIPAIDGLRAVAVLSVIIFHADFLKLPGGFTGVDMFFVISGYVISQSLYTRSDMSFSAYLADFYRRRFLRIVPALLVVLVACALVSAMFVPQAWLSAQNDQTGLAAYFGLSNFTLAWNTDTYFSPAAQLNPYTHTWTLAVEEQFYLVFPLVYFVWLRFRQRHSLAWALLPLLALASLAFSVVQTEQSPLEAFYLLPSRFWELASGAVLFQLVATGRLQLTSAATPAVLFAGLALVSGGLIFADAKHFPFPWAVLTVAGTLLALAAVVQKTNTPSLLRLLQSKPATYVGRLSYSLYLWHWPVLVFLRWTIGLEQLAIQLAYPVIVAALAAASYHWVETPLRTGRSLFQRRAWITIASCLAALGLSWSGARWMSENPEVLSLSQTSDTYTWFSRKLPQGPASEPISDPSLQGRQLFVFGDSHAAAYRTLLSLVSRQLGISVVEYERGGCAVVSLMAPDPQGACTRARNEALRDIEARAKPGDIVFLASLRMPELAGRDWVRGDESVLSEALAELSPEQVDGARRSAEATLKRLMNAEVRVLIDAPMPLFKSPAYRCSDWFNRMNPICAPGFTVERDQIEQLRAPQMALLKHLTLEYPLLRVWDPLPLLCPGSTCSAYDDGQPLFRDGDHLSGYGNRLLAPSFIQVLLNGWRRAT				NA	NA	NA	NA	NA
D1-35_03660	201			hypothetical protein	ATGCGCATTCAGTTGAACGGCGAACCCCTTGAACTGCCCGACGGCGAAACCGTCGCGGCCCTGCTGACCCGTCTGGAACTCACCGGACGCCGCGTCGCGGTGGAGCTCAACCTGGATATCGTCCCGCGCAGCCAGCACGCCGACACCATGTTGAACGACGGCGACAGTGTCGAAGTGGTCCACGCCATCGGCGGCGGTTAG	MRIQLNGEPLELPDGETVAALLTRLELTGRRVAVELNLDIVPRSQHADTMLNDGDSVEVVHAIGGG	PGPT0008970_498	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
D1-35_03661	795	thiG	COG2022	Thiazole synthase	ATGAGCATCGTTCGTAGCGACAAGCCCTTCGTCCTGGCCGGTCGTACTTACCAGTCGCGTCTGCTGGTAGGCACCGGCAAGTACCGCGACATGGAAGAGACCCGCCAGGCCATTGAAGCTTCGGGTGCCGAGATTGTGACCGTCGCCGTGCGTCGGACCAACATTGGCCAGAATCCGGGCGAACCGAACCTGCTGGATATCCTGCCGCCGGATCGCTACACCATCCTGCCGAACACCGCCGGTTGCTTCGACGCCATCGAGGCTGTGCGCACCTGCCGCCTGGCCCGTGAGCTGCTCGACGGTCACAACCTGGTGAAGCTGGAAGTGCTGGCGGACCAGAAAACCCTGTTCCCCAACGTGATCGAAACCCTCAAGGCCGCAGAAACCCTGGTCAAGGAAGGTTTCGACGTGATGGTCTACACCAGCGATGACCCGATCATAGCTCGTCAGCTGGCGGAAATCGGCTGCATCGCGGTCATGCCGCTGGCCGGGCTGATCGGCACGGGCCTGGGGATCTGCAACCCGTACAACCTGCAGATCATCCTTGAAGAAGCGAAGATCCCGGTGCTGGTGGATGCCGGTGTCGGCACCGCCTCCGATGCCACCATCGCCATGGAACTGGGTTGTGAAGCGGTGCTGATGAACTCCGCCATCGCCCACGCCCAGCAGCCGGTCCTGATGGCCGAAGCCATGAAACACGCCATCGTTGCCGGTCGCCTGGCCTACCTGGCCGGGCGCATGCCGAAAAAACTCTATGCCAGCGCATCCTCGCCGCTGGATGGTCTGATCAAGTAA	MSIVRSDKPFVLAGRTYQSRLLVGTGKYRDMEETRQAIEASGAEIVTVAVRRTNIGQNPGEPNLLDILPPDRYTILPNTAGCFDAIEAVRTCRLARELLDGHNLVKLEVLADQKTLFPNVIETLKAAETLVKEGFDVMVYTSDDPIIARQLAEIGCIAVMPLAGLIGTGLGICNPYNLQIILEEAKIPVLVDAGVGTASDATIAMELGCEAVLMNSAIAHAQQPVLMAEAMKHAIVAGRLAYLAGRMPKKLYASASSPLDGLIK	PGPT0008965_1029	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008965-thiG-K03149	NA	NA
D1-35_03662	726	trmB	COG0220	tRNA (guanine-N(7)-)-methyltransferase	ATGACTGAATCGAACGACACGCCGGTCCTCCCGGAAGAAGGCGAAGAGCGCCAGCACCGCCGCATCAAGAGTTTCGTGATGCGCGCCGGGCGCATGACTGAAGGCCAGCAACGCGGCCTGGAGCAGGGTGCGCCGTTGTATGTTCTGCCGCTGGCCGACGCGCCGGTGGACTTCGACCAGGTGTTCGGCCGCTCGGCGCCACGCTCGCTGGAAATCGGCTTCGGCATGGGCCATTCGCTGCTGGAAATGGCCGCGGCCGCGCCGGACCAGGATTTCATCGGCGTGGAAGTGCACCGTCCGGGTGTCGGTGCGTTGCTCAACGGCGTACTGACTCAAGGTCTGACCAACCTGCGGGTCTACGATTGCGACGCCATCGAAGTGCTCAACCGCTGCGTGGCCGACAACAGTCTCGACCGGCTGATGCTGTTTTTCCCGGACCCGTGGCACAAGAGTCGCCACCACAAGCGCCGGATCGTCCAGGCATCGTTCGCTGAACTGGTGCGCAGCAAGTTGAAGGTCGGCGGTGTGCTGCACATGGCCACCGACTGGGAGCCGTACGCCGAATACATGCTGGAAGTGATGAGCGTCGCGCCGGGCTACCGCAACCTGGCCGAAGATGGCCGCTACGTCCCGCGTCCGGCGGAACGGCCGATTACCAAGTTCGAACGCCGTGGCGAACGGCTCGGGCATGGGGTCTGGGATTTGAAGTTCGAGAAGTTGGCGTAA	MTESNDTPVLPEEGEERQHRRIKSFVMRAGRMTEGQQRGLEQGAPLYVLPLADAPVDFDQVFGRSAPRSLEIGFGMGHSLLEMAAAAPDQDFIGVEVHRPGVGALLNGVLTQGLTNLRVYDCDAIEVLNRCVADNSLDRLMLFFPDPWHKSRHHKRRIVQASFAELVRSKLKVGGVLHMATDWEPYAEYMLEVMSVAPGYRNLAEDGRYVPRPAERPITKFERRGERLGHGVWDLKFEKLA				NA	NA	NA	NA	NA
D1-35_03663	324			hypothetical protein	ATGGATCTGGTACTCGACCTGCTCGCCACCGTGTCCCGCTGGAGCCGCAGCAACCTGTCGGAAATCTCCCTGGCACTGGTAGGCTGCCTGCTGGTGTTGTTTGGCGCTGACATCAAGGGCTGGGTCGAACAACGCCTGGGCAGCATCGCCGGCGCCTTGCGCGTCCCGCTGATCGCCCTGCTGTGCATGATCGGCAGCGGCGCCGCGCTGATCTACGCCACGCCGTGGATCGTCCGGGGCTTGAGCCAGTTCAACAACTACAGCCTCGCGCCGGTGTTGCTGGTGGTTTTGGTGCTGATCGGCGTCGTGGCGGATCGGCGCTGA	MDLVLDLLATVSRWSRSNLSEISLALVGCLLVLFGADIKGWVEQRLGSIAGALRVPLIALLCMIGSGAALIYATPWIVRGLSQFNNYSLAPVLLVVLVLIGVVADRR				NA	NA	NA	NA	NA
D1-35_03664	1200	hemW	COG0635	Heme chaperone HemW	ATGATCGACGACGCTCCCGCACCGCTGATTCATGGCGGTGTACAAACACCCCGGGCGCCGCTACCGGAGCTGCCGCCCCTGGCGCTGTATATCCACATCCCGTGGTGCGTGCGCAAATGCCCGTATTGCGATTTCAACTCCCACACCGCCAGCCCGCAGTTGCCGGAAGAGGAGTATGTCGACGCTCTGCTGGCCGACCTCGACCAGGATCTGCACGCGGTTCATGGTCGGCCGTTGAGCTCGATCTTTTTTGGTGGCGGTACCCCGAGCTTGTTCAGCGCCCGGGCCCTGGGCCGATTGCTCAAGGGTGTCGAGGCGCGGATAGCGTTCGCCCACGACATTGAAATCACCCTGGAAGCCAACCCCGGCACGTTCGAGCAGGAAAAATTCATCGCCTACCGAGCGTTGGGCATCAATCGCCTGTCCATCGGTATCCAGAGCTTCCAACAGGCCAAGCTTGAGGCCCTGGGGCGGATCCATAACGGTGACGAGGCGGTGCGCGCCGCCGGTATGGCTCGCCAGGCCGGCTTCGACAACTTCAACCTGGACCTGATGCATGGGCTGCCCGACCAGTCTCTCGACGACGCTTTGAGCGACCTGCGCCAGGCCATCGCCTTGAAGCCAACCCACCTGTCCTGGTACCAACTGACGCTGGAGCCGAACACGGTGTTCTGGAACCAGCCGCCGACCTTGCCGGAAGACGATACGCTGTGGGACATCCAGGAAGCCGGGCAAGCGCTGCTCGCCGAGCATGGCTACGCCCAGTACGAAGTCTCGGCCTATGCCCTGCCCGGCCGGGCGGCGCGACATAATCTCAATTATTGGAGCTTCGGCGACTTCATCGGTATCGGTGCCGGTGCCCACGGCAAGCTCAGCCATCCGGACGGACGCATAGTACGCACCTGGAAGACCCGCTTGCCGAAGGATTACCTCAACCCGGCCAAGCGCTTCCTGGCCGGGGAAAAGAGCCTCGCCAACGAAGAGCTGCCTTTCGAGTTCCTGATGAACGCGCTGCGCCTCACCGAAGGCGTACCGTCGCGGCTGTATCCGCAGCGCACCGGGCTGACCCTGGAAAGCCTGGCCGAAGGCCGGCGCGAAGCCGAACAAAGCGGGTTGTTGCAGGTCGAACCGTCACGTCTGGCGGCGACCGAGCGCGGACAGCTGTTTCTCAACGACCTGCTGCAAAAATTTCTGAGCTGA	MIDDAPAPLIHGGVQTPRAPLPELPPLALYIHIPWCVRKCPYCDFNSHTASPQLPEEEYVDALLADLDQDLHAVHGRPLSSIFFGGGTPSLFSARALGRLLKGVEARIAFAHDIEITLEANPGTFEQEKFIAYRALGINRLSIGIQSFQQAKLEALGRIHNGDEAVRAAGMARQAGFDNFNLDLMHGLPDQSLDDALSDLRQAIALKPTHLSWYQLTLEPNTVFWNQPPTLPEDDTLWDIQEAGQALLAEHGYAQYEVSAYALPGRAARHNLNYWSFGDFIGIGAGAHGKLSHPDGRIVRTWKTRLPKDYLNPAKRFLAGEKSLANEELPFEFLMNALRLTEGVPSRLYPQRTGLTLESLAEGRREAEQSGLLQVEPSRLAATERGQLFLNDLLQKFLS	PGPT0003200_2983	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003200-hemN|hemZ-K02495	NA	NA
D1-35_03665	597	rdgB	COG0127	dITP/XTP pyrophosphatase	ATGATGAACCTCACCCAACTCGTGCTGGCCAGCCACAACGCCGGCAAACTCAAGGAACTCCAGGCCATGCTCGGCGGATCGGTGCAACTGCGCTCGATCGGGGAATTCAGCCAGGTCGAGCCGGAAGAAACCGGCCTGTCATTCGTCGAGAATGCCATCCTCAAGGCCCGCAATGCCGCGCGTATTTCCGGGCTGCCGGCGCTGGCCGATGACTCCGGTCTGGCGGTTGATTTCCTCGGCGGCGCACCGGGCATCTACTCGGCCCGTTACGCCGATGGCAAAGGTGATGCGGCAAACAACGCCAAGCTGCTTGAAGCCCTCAAGGATGTGCCCGAGGCCGAACGCGGCGCACAGTTCGTTTGTGTGCTGGCCCTGGTGCGCCACGCCGACGACCCGTTGCCGATCCTCTGCGAAGGCTTGTGGCACGGGCGCATCCTTACCGAGGCCAGCGGCGAGCACGGCTTTGGCTATGACCCATTGTTCTGGGTACCCGAACGCAACTGTTCCAGCGCCGAGCTGGGGCCGGTGGAGAAAAATCAACTGAGCCACCGCGCCCGCGCCATGGCCCTGCTGCGTCAACGCCTGGGCCTGCAATGA	MMNLTQLVLASHNAGKLKELQAMLGGSVQLRSIGEFSQVEPEETGLSFVENAILKARNAARISGLPALADDSGLAVDFLGGAPGIYSARYADGKGDAANNAKLLEALKDVPEAERGAQFVCVLALVRHADDPLPILCEGLWHGRILTEASGEHGFGYDPLFWVPERNCSSAELGPVEKNQLSHRARAMALLRQRLGLQ	PGPT0021590_4205	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
D1-35_03666	435			hypothetical protein	ATGAAACGTCTAGCGTTGTTCTTAATCACCACCTGCCTGAGCGTGGGCGCCATGGCTGCCGACGTCATCAAGGCCGAGCGCAAGGAAGTGTTCGGTGACGTGACCGTGCACTACAACACGTTCAATTCCACCTTCCTGACACCCGACATCGCCAAGGCCGCCGAGCTGATCCGCAGCAAGAACCAGGGCGTGATCAATGTCTCGGTGCTCAAGGGTGGCAAGCCACTGATCGCCCAGGTCAGCGGCACGGTGAAGGACCTGACCAGCAAGACAGTCACCCTCACCTTCCGCCAGGTTACCGAACCAGGCGCGATCTATTACATTGCCCAGTATCCAGTGGACCAGCAGGAAACCCGGACTTTCGAGATCAAGGTGCAGACCGGCGACAAGATCAACACCATCAACTTCAACCAGGAACTGTTCCCGGGCCAATGA	MKRLALFLITTCLSVGAMAADVIKAERKEVFGDVTVHYNTFNSTFLTPDIAKAAELIRSKNQGVINVSVLKGGKPLIAQVSGTVKDLTSKTVTLTFRQVTEPGAIYYIAQYPVDQQETRTFEIKVQTGDKINTINFNQELFPGQ				NA	NA	NA	NA	NA
D1-35_03667	621	metXA	COG0500	Bifunctional methionine biosynthesis protein MetXA/MetW	ATGAGAGCCGATCTGGACATCATCCAGGAATGGATCCCCGCCGGCAGCCGCGTGCTCGACCTGGGCTGCGGCAACGGCGAACTGCTGACCTGGCTGCGCGACAACAAACAAGTCACCGGCTACGGGCTGGAAAACGACCCGGACAACATCGCCGAGTGCGTGGCCAAGGGCATCAATGTCATCGAGCAGGACCTGGACAAGGGCCTGGGCAACTTCGCCAGCAACAGCTTCGACATCGTGGTCATGACCCAGGCCCTGCAAGCCGTGCATTACCCGGACAAGATTCTCGACGAAATGCTCCGTGTCGGCCGCCAGTGCATCATCACCTTCCCCAATTTCGGCCATTGGCGCTGCCGCTGGTACCTGGCGAGCAAGGGGCGGATGCCGGTCTCGGAATTCCTGCCGTACACCTGGTACAACACGCCGAACATCCATTTCTGCACCTTCGAGGATTTCGAAGAACTGTGCCGCGAACGCAAGGCCAAGGTCATCGATCGCCTGGCGGTGGACCAGCAGCACCGCCACGGGTGGGCCAGCAAGCTATGGCCTAATCTCTTAGGTGAAATAGGCATCTATCGGGTCAGCAGCCCGGGCCTCGCCGACCACAAGGTCGCGGTATAA	MRADLDIIQEWIPAGSRVLDLGCGNGELLTWLRDNKQVTGYGLENDPDNIAECVAKGINVIEQDLDKGLGNFASNSFDIVVMTQALQAVHYPDKILDEMLRVGRQCIITFPNFGHWRCRWYLASKGRMPVSEFLPYTWYNTPNIHFCTFEDFEELCRERKAKVIDRLAVDQQHRHGWASKLWPNLLGEIGIYRVSSPGLADHKVAV				NA	NA	NA	NA	NA
D1-35_03668	1140	metXS	COG2021	Homoserine O-succinyltransferase	ATGCCAGCTGCCTTTCCCCCCGATTCCGTTGGTCTGGTGACGCCGCAAATGGCGCATTTCAGCGAGCCCCTGGCCCTGGCCTGCGGTCGTTCGTTGCCAGCCTATGACCTGATCTACGAAACCTATGGCACCCTCAATGCCACGGCGAGCAATGCCGTGCTGATCTGCCACGCCCTGTCGGGGCACCACCACGCCGCCGGCTACCACAGCGTCGACGATCGCAAGCCTGGCTGGTGGGACAGTTGCATCGGCCCCGGCAAGCCCATCGACACGAACAAGTTCTTCGTGGTCAGCCTGAACAACCTCGGTGGTTGCAACGGCTCCACCGGTCCCAGCAGCATCAACCCGGACACCGGTAAGCCGTTCGGCGCCGATTTCCCGGTGCTGACCGTGGAAGACTGGGTCCACAGCCAGGCACGCCTGGCCGACCGCCTCGGTATCGCACAATGGGCGGCGGTGATCGGCGGCAGCCTCGGCGGCATGCAGGCGCTGCAATGGACCATCACCTACCCGGACCGCGTGCGCCACTGCCTGGCGATCGCCTCGGCGCCCAAGCTGTCGGCCCAGAACATCGCGTTCAACGAAGTGGCGCGCCAGGCGATCCTCACCGACCCCGAATTCCACGGCGGTTCGTTCCAGGAGCACGGCGTGATTCCCAAGCGCGGGCTGATGCTGGCGCGGATGGTCGGTCACATCACCTACCTGTCCGACGATTCCATGGGCGAAAAATTCGGCCGTGGGCTCAAGAGCGAGAAGCTCAACTACGATTTCCACAGCGTCGAGTTCCAGGTGGAAAGCTACCTGCGCTACCAGGGCGAGGAGTTTTCCGGGCGCTTCGACGCCAACACCTACCTGCTGATGACCAAGGCTTTAGACTACTTCGATCCGGCGGCGAACTTCGACGATAACCTGGCGAAAACCTTCGCCAACGCCACCGCCAGGTTCTGCGTGATGTCGTTCACCACCGACTGGCGTTTCTCCCCGGCCCGCTCCCGGGAACTGGTGGACGCGCTGATGGCCGCGCGCAAGGACGTCTGCTACCTGGAAATCGACGCGCCCCAGGGCCACGACGCCTTTCTGATTCCGATCCCGCGCTACCTGCAGGCGTTCGGCAACTACATGAACCGTATTACGCTGTGA	MPAAFPPDSVGLVTPQMAHFSEPLALACGRSLPAYDLIYETYGTLNATASNAVLICHALSGHHHAAGYHSVDDRKPGWWDSCIGPGKPIDTNKFFVVSLNNLGGCNGSTGPSSINPDTGKPFGADFPVLTVEDWVHSQARLADRLGIAQWAAVIGGSLGGMQALQWTITYPDRVRHCLAIASAPKLSAQNIAFNEVARQAILTDPEFHGGSFQEHGVIPKRGLMLARMVGHITYLSDDSMGEKFGRGLKSEKLNYDFHSVEFQVESYLRYQGEEFSGRFDANTYLLMTKALDYFDPAANFDDNLAKTFANATARFCVMSFTTDWRFSPARSRELVDALMAARKDVCYLEIDAPQGHDAFLIPIPRYLQAFGNYMNRITL				NA	NA	NA	NA	NA
D1-35_03669	591			hypothetical protein	ATGATTGGATTGAACACTGCAGCGGTCTACGTCCTGCAAACCCTCGGCAGCCTGTACCTGCTGATCGTGCTGATGCGCTTCGTGCTGCAACTGGTGCGCGCCAACTTCTACAACCCGCTGTGCCAGTTCGTCGTCAAGGCGACCCAACCGCTGCTCAAGCCCCTGCGCCGGATCATCCCGAGCCTGTTCGGCCTGGACATGTCGTCGCTGGTGCTGGCGATCCTCGTGCAACTGGCGCTGATGGCCCTGACTCTGCTGCTGACCTACGGCACCACCGGCAACCCGCTGCAATTGCTGATCTGGTCGCTCATTGGCGTCGCCGCGCTGTTTTTGAACATCTTCTTCTTTGCCATGATCATCAGTGTGATCCTGTCCTGGGTCGCGCCGGGCAGCCACAACCCGGGCGCCGAGCTGGTGAACCAGATCTGCGAGCCGGCCCTGGCGCCGTTCCGCCGCATCGTGCCGAACCTCGGCGGCCTGGATATCTCGCCGATCCTGGCGTTCATGGTGATCAAGCTGATCGACATGCTGGTGATCAACAACCTGGCGGCGATGACCATGATGCCGGAGATCTTGCGGGTGTTAATCTGA	MIGLNTAAVYVLQTLGSLYLLIVLMRFVLQLVRANFYNPLCQFVVKATQPLLKPLRRIIPSLFGLDMSSLVLAILVQLALMALTLLLTYGTTGNPLQLLIWSLIGVAALFLNIFFFAMIISVILSWVAPGSHNPGAELVNQICEPALAPFRRIVPNLGGLDISPILAFMVIKLIDMLVINNLAAMTMMPEILRVLI	PGPT0013730_248	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
D1-35_03670	819	proC_2	COG0345	Pyrroline-5-carboxylate reductase	ATGAGTAACACGCGTATTGCCTTCATCGGCGCCGGCAACATGGCCGCCAGCCTGATCGGCGGCCTGCGGGCCAAGGGCCTGGACGCATCCATGATCCGCGCCAGCGATCCGGGTGAAGAGACCCGCAAGCGGGTGAGCGCCGAGCACGGCGTCGAAACCTTCGCCGACAACGCCCAGGCCATCGAGGGTGTGGACGTCATCGTGCTGGCCGTCAAGCCGCAAGCAATGAAGTCCGTGTGCGAGGCACTTCGGCCGCACCTCAAGCCTCATCAATTGGTGGTGTCGATCGCCGCCGGCATTACCTGCGCCAGCATGAATAACTGGCTCGGCGCCCAGCCGATCGTGCGCTGCATGCCCAACACCCCGGCACTGCTGCGCCAGGGCGTCAGCGGCCTGTTCGCCACCGCACAGGTGAGCGCCGAACAACGCCAGCAGGCTGAACAGTTGCTGTCAGCCGTGGGCCTGGCGCTGTGGCTGGACACCGAGCAGCAACTGGACGCGGTCACCGCTGTCTCCGGCTCGGGCCCGGCGTATTTTTTCCTGCTGATCGAAGCCATGACCGCCGCCGGAGAAAAACTCGGTCTGAGCCGCGAGATCGCTGCCCAACTGACCTTGCAGACTGCTCTCGGCGCCGCTCACATGGCGGTGTCCAGCGATGTCGATGCAGCGGAATTGCGTCGCCGCGTGACCTCGCCGGCCGGCACCACCGAAGCGGCCATCAAATCATTCCAGGCCGGGGGCTTCGAAGCCCTGGTGGAAAAAGCACTCGGCGCCGCCGCGCACCGCTCGGCCGAAATGGCCGAACAACTGGGCCAATAA	MSNTRIAFIGAGNMAASLIGGLRAKGLDASMIRASDPGEETRKRVSAEHGVETFADNAQAIEGVDVIVLAVKPQAMKSVCEALRPHLKPHQLVVSIAAGITCASMNNWLGAQPIVRCMPNTPALLRQGVSGLFATAQVSAEQRQQAEQLLSAVGLALWLDTEQQLDAVTAVSGSGPAYFFLLIEAMTAAGEKLGLSREIAAQLTLQTALGAAHMAVSSDVDAAELRRRVTSPAGTTEAAIKSFQAGGFEALVEKALGAAAHRSAEMAEQLGQ	PGPT0014225_2914	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286	NA	NA
D1-35_03671	693	yggS	COG0325	Pyridoxal phosphate homeostasis protein	ATGACCACCATAGCAGACAACATTGCTCAGGTTAGATCGCGCATCCATGCCGCGGAGCAGGCCGCCCAGCGCCCAGGACACAGCGTCCAGCTGCTGGCGGTGAGCAAGACCAAGCCGGCCCAGGCCCTGCGCGAAGCCCATGCCGCAGGCCTGCGGGATTTCGGCGAGAACTACCTGCAGGAAGCGCTGGGCAAGCAGGCCGAACTGACCGACCTGCCCTTGATCTGGCACTTCATCGGCCCCATTCAATCGAACAAGACGCGTGCTATCGCCGAACATTTCGACTGGGTGCACTCCGTGGATCGCCTGAAAATTGCCCAACGCCTGTCCGAGCAGCGCCCGGCCGACCTGCCGCCGCTGAACATCTGCATCCAGGTCAACGTCAGCGGTGAAGCCAGCAAGTCCGGCTGCACGCCAGCGGACCTGCCCGCCCTCGCCAATGCCATCAGCACGCTGCCTCATCTCAAGTTGCGTGGGTTGATGGCGATTCCCGAACCAACCGACGATCGCGCCGAACAGGATGCAGCTTTCGCCAAGGTTCAACAGCTGCAAGCCAGCCTGGACCTGCCGCTGGACACGTTGTCCATGGGCATGAGCCATGACCTTGAATCCGCCATTGCCCAAGGCGCCACCTGGGTGCGCATCGGCACAGCGCTGTTTGGGGCGCGTGACTACGGCCAAGCGCCCATCTGA	MTTIADNIAQVRSRIHAAEQAAQRPGHSVQLLAVSKTKPAQALREAHAAGLRDFGENYLQEALGKQAELTDLPLIWHFIGPIQSNKTRAIAEHFDWVHSVDRLKIAQRLSEQRPADLPPLNICIQVNVSGEASKSGCTPADLPALANAISTLPHLKLRGLMAIPEPTDDRAEQDAAFAKVQQLQASLDLPLDTLSMGMSHDLESAIAQGATWVRIGTALFGARDYGQAPI				NA	NA	NA	NA	NA
D1-35_03672	1035	pilT_2	COG2805	Twitching mobility protein	ATGGATATCACTGAATTGCTGGCGTTCAGCGCCAAACAGGGGGCGTCGGACCTGCACCTGTCCGCCGGGCTGCCGCCGATGATCCGCGTGGACGGCGATGTACGGCGGATCAACCTGCCGGCGCTGGACCACAAGCAGGTTCATGAACTGATCTACGACATCATGAACGACCGCCAACGAGTGGATTACGAGAAGTTTCTGGAAACCGATTTTTCCTTCGATGTACCCGGCGTGGCGCGATTTCGAGTCAATGCCTTCAACCAGAATCGGGGCGCGGGGGCAGTGTTCCGGACTATTCCCTCAAAAGTCCTGACCATGGAAGACCTGGGGATGGGCGAGGTGTTTCGCAAGATCACCGAGGTTCCTCGCGGGCTGGTGTTGGTAACCGGGCCGACCGGCTCGGGCAAGTCGACCACCCTGGCGGCCATGATCGACTATCTGAACAGCCACAAGCACCATCACATCCTCACCATCGAAGACCCCATCGAATTCGTGCATGAACCGCGCAAGTGTCTGATCAACCAGCGTGAGGTGCATCGCGATACCCAGGGTTTCTCCACGGCGCTGCGTTCGGCCCTGCGGGAGGACCCGGACGTGATCCTGGTGGGGGAGATGCGCGACCTGGAGACCATCCGGCTGGCGCTGACCGCCGCCGAAACCGGGCACTTGGTGTTTGGCACCCTGCACACCACGTCGGCGGCCAAGACCATTGACCGGGTAGTGGACGTGTTTCCTGGCGACGAGAAGTCGATGGTCCGCTCGATGCTGTCGGAGTCGCTTCAGGCGGTGATTTCCCAGACGCTGGTCAAGAAGATTGGCGGCGGCCGCATCGCGGCGCACGAGATCATGCTGGGCACTTCGGCGATCCGCAACCTGATCCGCGAAGACAAGATCGCGCAGATGTATTCATCGATCCAGACCGGCGGCTCGCTGGGGATGCAGACGCTGGACATGTGCCTGAAGGATCTGGTGAGCAAGGGCCTGATCAGCCGCGAGCACGCGCGAGAGCGGGCGCGTACGCCGGATAATTTTTAG	MDITELLAFSAKQGASDLHLSAGLPPMIRVDGDVRRINLPALDHKQVHELIYDIMNDRQRVDYEKFLETDFSFDVPGVARFRVNAFNQNRGAGAVFRTIPSKVLTMEDLGMGEVFRKITEVPRGLVLVTGPTGSGKSTTLAAMIDYLNSHKHHHILTIEDPIEFVHEPRKCLINQREVHRDTQGFSTALRSALREDPDVILVGEMRDLETIRLALTAAETGHLVFGTLHTTSAAKTIDRVVDVFPGDEKSMVRSMLSESLQAVISQTLVKKIGGGRIAAHEIMLGTSAIRNLIREDKIAQMYSSIQTGGSLGMQTLDMCLKDLVSKGLISREHARERARTPDNF	PGPT0015875_2214	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015875-pilT-K02669	NA	NA
D1-35_03673	612			hypothetical protein	ATGCGTCCATTTTTCAAGACATGGCTGACCATTTGCCTATTATTGCCACTGGCCGCCCACGCCACCAATCGTGAGCAACGTCTTCCGAACATCAACGGCTATACGCCCAAATCCCACGTTTCTGCTCCATCGAGCAAAAACAGGCAAAGCGTCCAGCGTGTAAGTAACGCTCACAGCCGGCTGGTGCCGCCCATGGCGACCAAGACGACCAGCAATGTGCTGAGCCGCGCCGTGAATGTACTGGGCACACCTTACCGTTGGGGCGGCAGCAGCCCAAGTAAAGGTTTCGATTGCAGTGGTCTGGTGAAATACGCGTTCAATGACGCCACGTTCGACCTGCCGCGTACCTCCAATGCGATGGCTGCCGGCCATGGCGAGAAAGTCGAGCGCAAGGACCTCAAGCCCGGCGACCTGATTTTCTTCAAGCTCAAGAGCCGTCGGGTCAACCACGTAGCCATCTACCTGGGCAACGACCGCTTCATCCACGCCCCGCGCCGAGGCAAGTCGGTGACCATCGACACCCTGAACAAGCCGTACTGGAACACCCATTACGTGGTTGCCAAGCGCGTGCTGCCGAAAGAGCCGGGGGCGATGCGCGTGGTTCAGCGCTAA	MRPFFKTWLTICLLLPLAAHATNREQRLPNINGYTPKSHVSAPSSKNRQSVQRVSNAHSRLVPPMATKTTSNVLSRAVNVLGTPYRWGGSSPSKGFDCSGLVKYAFNDATFDLPRTSNAMAAGHGEKVERKDLKPGDLIFFKLKSRRVNHVAIYLGNDRFIHAPRRGKSVTIDTLNKPYWNTHYVVAKRVLPKEPGAMRVVQR	PGPT0023830_379	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_DD-ENDOPEPTIDASE_ACTIVITY,PGPT0023830-mepH-K19303	NA	NA
D1-35_03674	429			hypothetical protein	ATGAACAGCTATCAACAGGGCGCAATCCGCGATACCCACAGCAAAGTCATCGGGTATCTGTTGTGGATTCTCGGTTTTACCGGCGCTCACCGTTTCTATTACGGCAAGCCGGTCACCGGCACGATCTGGTTCTTCACCTTCGGGCTGCTGGGTATCGGTTGGTTGATCGACCTGTTCCTGATTCCGGCCATGGACCGCGAAGCCGACCTGCGCTTCACCCCGGGGCCGATCGAGTACAGCGTGGCGTGGATTCTGCTGACGTTTCTCGGGGTGCTTGGCGTGCATCGCATGTATCAAGGCAAGTGGCTCAGCGGGATCATCTACCTGCTGACTGGCGGGGTGTTTTTTCTGGGGGTGCTGTATGACTTCTGGACGCTAAACGATCAGGTGTCGATTCGTAATGCGCAGAAGCGTGGGGCTTTCCAGTAA	MNSYQQGAIRDTHSKVIGYLLWILGFTGAHRFYYGKPVTGTIWFFTFGLLGIGWLIDLFLIPAMDREADLRFTPGPIEYSVAWILLTFLGVLGVHRMYQGKWLSGIIYLLTGGVFFLGVLYDFWTLNDQVSIRNAQKRGAFQ				NA	NA	NA	NA	NA
D1-35_03675	1272	pyrC'	COG0044	Dihydroorotase-like protein	GTGAAGCTCAGCATTCTCGGCGCACGCGTGATCGATCCGGCCAGCGGCCTGGATCAAGTGACTGACATTCATATCGATGCCTGCAAGATCGTCGCGCTCGGCGCCGCACCGACAGGCTTTGTGGCGGCCGAGGTCCTTGACGCCCAAGGCCTGGTGGCCGCGCCCGGCCTGGTGGACCTGAACGTTGCCCTGCGCGAGCCGGGCTACAGCCGCAAAGGCAGCATCGTCAGCGAAACCCGCGCCGCCGCCGCTGGTGGCGTGACCAGCCTGTGCTGCCCGCCGCAAACCAAGCCGGTGCTGGACACCTCGGCCGTGGCCGAGCTGATCCTCGACCGCGCCCGCGAGGCCGGCAACACCAAGGTCTTCCCGATTGGCGCACTGAGCAAAGGCCTGGAAGGCGAACAACTGGCCGAACTCATCGCCCTGCGTGATGCCGGTTGCGTGGCGTTCGGCAACGGCCTCAACAGTTTCCGCAATACCCGGACCCTGTGCCGCGCCCTCGAATACGCGGCGACTTTCGGCCTGACGGTGATCTTCAACTCCCAGGACCATGACCTGGCCGAAGGTGGCCTGGCCCATGAAGGCCCGACCGCCAGTTTCCTCGGCTTGCCGGGCATCCCGGAAACCGCCGAGACCGTGGCCCTGGCCCGGGACCTGCTGTTGGTCGAGCAGAGCGGTGTACGCGCGCATTTCAGCCAACTGACCAGTGCCCGTGGCGCCGCGCTGATAGCCCAGGCCCAGGCCCGAGGCTTGCCGGTGACCGCCGATGTGGCGCTGTATCAGCTGATCCTGACCGACGAAGCGCTGATCGATTTCAACAGCGTCTATCACGTCCAGCCGCCGCTGCGCACACGCGCCGACCGCGACGGCTTGCGCGAGGCGGTGCAGTCCGGGGTGATCTCGGCCATTTCCAGCCATCACCAACCCCACGAGCGCGATGCCAAGCTGGCACCGTTCGGCGCCACCGAGCCGGGCATCAGCAGCGTTGAACTGCTGCTGCCGCTGGCCTTGACGCTGGTGGAAGACGGTTTGCTGGACCTGCCGACTCTGCTCGCACGCCTGAGCGCCGGCCCGGCCCAGGCGCTGCAGCTGCCAGCCGGGAAACTGGCGGTGGGCGCGCCGGCGGACCTGGTGCTGTTCGACCCGGCCGCCTCCACCGTGGCCGGCGAAGCCTGGCGTTCCAAGGGTGACAACTGCCCATTCCTCGGCCACAGCCTGCCGGGCGTGGTGCGCTACACCTTGATGGATGGGCGGATTACCCACCAGGCCTGA	MKLSILGARVIDPASGLDQVTDIHIDACKIVALGAAPTGFVAAEVLDAQGLVAAPGLVDLNVALREPGYSRKGSIVSETRAAAAGGVTSLCCPPQTKPVLDTSAVAELILDRAREAGNTKVFPIGALSKGLEGEQLAELIALRDAGCVAFGNGLNSFRNTRTLCRALEYAATFGLTVIFNSQDHDLAEGGLAHEGPTASFLGLPGIPETAETVALARDLLLVEQSGVRAHFSQLTSARGAALIAQAQARGLPVTADVALYQLILTDEALIDFNSVYHVQPPLRTRADRDGLREAVQSGVISAISSHHQPHERDAKLAPFGATEPGISSVELLLPLALTLVEDGLLDLPTLLARLSAGPAQALQLPAGKLAVGAPADLVLFDPAASTVAGEAWRSKGDNCPFLGHSLPGVVRYTLMDGRITHQA	PGPT0021145_4114	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465	NA	NA
D1-35_03676	1005	pyrB		Aspartate carbamoyltransferase	ATGACGCCTCTCGAAACCAAGCGCCCGCTGCAGCTCAACGATCAGGGCCAGCTGCGGCACTTCCTGTCCCTCGACGGCCTGCGCCGCGAGCTGCTGACAGAAATCCTCGACACCGCCGACTCGTTCCTCGAAGTCGGCGCCCGGGCGGTGAAAAAAGTCCCGTTGCTGCGCGGCAAGACCGTGTGCAACGTGTTCTTCGAAAACTCCACCCGCACCCGCACCACCTTCGAACTGGCGGCCCAGCGGCTGTCGGCGGACGTGATCACCCTGAACGTGTCGACATCCTCGGCGAGCAAGGGCGAAACCCTGCTCGACACGCTGCGCAACCTCGAAGCCATGGCCGCCGACATGTTCGTCGTGCGCCACGGCGACTCCGGCGCGGCGCATTTCATTGCCGAGCACGTGTGCCCGCAAGTGGCGATCATCAACGGTGGCGACGGCCGTCACGCTCATCCGACCCAGGGCATGCTGGACATGTTGACCATCCGTCGGCACAAAGGCAGCTTCGAGAACCTGTCGGTGGCCATCGTCGGCGACATCCTGCACTCGCGGGTGGCCCGCTCGAACATGCTCGCGCTCAAGACCCTCGGCTGTCCGGACATCCGCGTGATCGCGCCGAAAACCCTGCTGCCCATCGGCGTCGAGCAATACGGCGTGAAGGTCTACACCGACATGACCGAAGGCCTGAAGGATGTGGACGTGGTGATCATGCTGCGCCTGCAACGCGAACGCATGACCGGCGGCCTGCTGCCCAGCGAAGGCGAGTTCTACCGCCTGTTCGGCCTGACCACCGCGCGCCTGGCCGGCGCCAAGCCGGACGCCATCGTCATGCACCCGGGGCCGATCAATCGCGGCGTGGAGATCGAGTCGGCGGTGGCCGACGGGCCGCACTCGGTGATCCTCAACCAGGTGACCTACGGCATCGCCATCCGCATGGCCGTGCTGTCCATGGCCATGAGCGGGCAAACGGCCCAGCGCCAATTCGACCAGGAGAACGCCCAGTGA	MTPLETKRPLQLNDQGQLRHFLSLDGLRRELLTEILDTADSFLEVGARAVKKVPLLRGKTVCNVFFENSTRTRTTFELAAQRLSADVITLNVSTSSASKGETLLDTLRNLEAMAADMFVVRHGDSGAAHFIAEHVCPQVAIINGGDGRHAHPTQGMLDMLTIRRHKGSFENLSVAIVGDILHSRVARSNMLALKTLGCPDIRVIAPKTLLPIGVEQYGVKVYTDMTEGLKDVDVVIMLRLQRERMTGGLLPSEGEFYRLFGLTTARLAGAKPDAIVMHPGPINRGVEIESAVADGPHSVILNQVTYGIAIRMAVLSMAMSGQTAQRQFDQENAQ	PGPT0021160_893	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021160-pyrB-K00609	NA	NA
D1-35_03677	507	pyrR		Bifunctional protein PyrR	ATGAGCCTGCCCAATCCTGCCGAACTGATCAGCCAGATGGCGATCCGTCTCACGGCGCACCTGGAACAACGTGGCATCAGCGAACCGCGCTACATCGGCATTCGCACCGGCGGCGTCTGGGTTGCCCAGGCCTTGCTCGATGAACTGGGCAGCGACTCGCCGCTGGGCACCCTGGACGTGTCCTTCTACCGCGACGACTTCAGCCAGAACGGCCTGCACCCGCAAGTGCGCCCTTCGGCGCTGCCGTTCGAGATCGAAGGCCAGCACCTGGTGCTGATCGACGACGTGCTGATGAGCGGGCGGACCATCCGCGCTGCCATGAATGAGTTGTTCGACTACGGTCGCCCGGCCAGCGTTACGCTGGTCTGCCTGCTCGACCTGGACGCCGCCGAACTGCCGATCCGCCCTAACGTGGTCGGCGCGACGCTGGCGCTGGCGGCCCATGAACGGGTCAAGCTTTCCGGCCCGGCGCCGCTGCAACTCGAACTGCAAGACCTCGCCCTTTAA	MSLPNPAELISQMAIRLTAHLEQRGISEPRYIGIRTGGVWVAQALLDELGSDSPLGTLDVSFYRDDFSQNGLHPQVRPSALPFEIEGQHLVLIDDVLMSGRTIRAAMNELFDYGRPASVTLVCLLDLDAAELPIRPNVVGATLALAAHERVKLSGPAPLQLELQDLAL	PGPT0021245_2461	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021245-pyrR-K02825	NA	NA
D1-35_03678	438	yqgF	COG0816	Putative pre-16S rRNA nuclease	ATGGCCCTGCGCCTGCTGCTGGGCTTTGATTACGGCACCAAACAGATCGGCGTCGCGGTCGGCCAGGTCATTACCGGCCAGGCCCGCGAGCTGTGCACATTAAAAGCGCAGAACGGCGTTCCGGACTGGAACCAGGTCGAAGCGCTGATCAAGGAATGGAAACCCGACGCCGTGGTGGTCGGCCTGCCATTGAACATGGACGGCACGCCCAGCGACATGTGCCTGCGTGCGGAAAAATTCGCTCGCCGGCTCAATGGCCGCTTTAACCTGCCCTTCTATACCCATGACGAGCGCCTGACCACCTTCGAGGCCAAGGGCGAGCGGCTGATGCGCGGCGGGCAGAAAGGCAGTTACCGCGACAATCCGGTGGACGCCATCGCCGCCGCCCTGCTGCTGCAAGGCTGGCTTGATGCCAACGCCGCCCTGTTCGAAACCTGA	MALRLLLGFDYGTKQIGVAVGQVITGQARELCTLKAQNGVPDWNQVEALIKEWKPDAVVVGLPLNMDGTPSDMCLRAEKFARRLNGRFNLPFYTHDERLTTFEAKGERLMRGGQKGSYRDNPVDAIAAALLLQGWLDANAALFET				NA	NA	NA	NA	NA
D1-35_03679	570			hypothetical protein	ATGAAAAACGTCAGCCCCACCTACCTCAAGCATCACTTCCTGATTGCCATGCCGCACATGGCCGATCCAAACTTTGCCCATACCTTGACCTACATCGTCGAGCACACGGCCAATGGGGCCATGGGATTGGTGGTAAACCGCCCGCAGGAGCTGAACCTGGCGGATATCCTTGAGCAGCTGCGTCCCGAGGTCGAGCCGCCACTCCTGTGCCAGCATGTGCCGATTTTCATCGGCGGGCCGGTGCAGACCGATCGCGGTTTCGTACTCCATCCGTCGGGTCCCAAATTCCAGGCCACCGTTGATCTGAACGGCGTGTCGCTGTCCACTTCCCAGGACGTGCTGTTTGCCATCGCCGACGGCGTCGGTCCGGAAAAAAGCCTGATCGCCCTGGGCTATGCCGGTTGGGAACCCGGACAGCTGGAAGCCGAGCTGGCCGACAACGCCTGGCTGACGTGCCCGTTCGATGCCGACATCCTGTTCAACACCAGCAGCGAGTTGCGCCTGGAAGCGGCGGCCAGCCGATTGGGCGTGAACCTGGGCCTGCTTACCAGCCAGGCGGGACACGCCTGA	MKNVSPTYLKHHFLIAMPHMADPNFAHTLTYIVEHTANGAMGLVVNRPQELNLADILEQLRPEVEPPLLCQHVPIFIGGPVQTDRGFVLHPSGPKFQATVDLNGVSLSTSQDVLFAIADGVGPEKSLIALGYAGWEPGQLEAELADNAWLTCPFDADILFNTSSELRLEAAASRLGVNLGLLTSQAGHA	PGPT0026120_1291	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026120-algH-K07735	NA	NA
D1-35_03680	936			hypothetical protein	ATGCCCGGCCTGAAAAAACGTGATGCTGGTTTCCTTGTCATGACACTCCCGTCCGATCTGCCCCAAGAGCTCGCCCATCGTGGCGTGCGCCCGGCTGATCGCCTCGGTTTTACGCTGTTCCTGGCGGCACTGATCCACCTGGCGGTGCTGCTGGGCGTCGGGTTTGCCACGGTCGAACCCAAGCAGATCAGCCAGACCCTGGAGATCACCCTGGCGACCTTCAAGAGCGAAACCAAGCCTCAGAAGGCCGATTTCCTTGCTCAGGAAAACCAGCAGGGCAGCGGCACCCTGGAAAAGAAAGCGATTCCCAAGACGACCGAAATCGCGCCGTTCCAGGACAACAAGGTCCAGAAGATCACCCCACCGCCGGCCGCCAAGCCGGAAGTTCAGGAAGCCGCGCCCAAGGCCGCCGTGACCACTACCGCGCCGAAGCCGAAAAAGGCCCCGGTCAAGGAAGAGGTCAAGCCCGATCCCAAGCCCAAGGCGCCGGAACCGACCTTCGACAGCTCCCAGCTGTCCAGCGACATCGCCAGCCTGGAGGCCGAACTGGCCCAGGAACAGCAGTTGTACGCCAAGCGCCCGCGCATCCACCGCCTGAGCGCCGCGTCGACCATGCGCGACAAGGGCGCCTGGTACAAGGACGAATGGCGCAAGAAGGTCGAGCGTATCGGCAACCTGAACTACCCCGAGGAAGCCCGGCGCAAACAGATCTACGGCAATTTGCGGCTGATGGTTTCGATCAATCGTGACGGCTCGCTGTATGAAGTGCTGGTGCTTGAGTCCTCCGGCCAGCCGCTGCTGGACCAGGCCGCCCAGCGGATCGTGCGCCTGGCCGCGCCGTTCGCGCCGTTCACCGGGGACCTGTCGGACATCGACCGCCTGGAAATCATCCGCACCTGGAAATTTGCCCGGGGTGATCGGCTGTCCAGTAACTGA	MPGLKKRDAGFLVMTLPSDLPQELAHRGVRPADRLGFTLFLAALIHLAVLLGVGFATVEPKQISQTLEITLATFKSETKPQKADFLAQENQQGSGTLEKKAIPKTTEIAPFQDNKVQKITPPPAAKPEVQEAAPKAAVTTTAPKPKKAPVKEEVKPDPKPKAPEPTFDSSQLSSDIASLEAELAQEQQLYAKRPRIHRLSAASTMRDKGAWYKDEWRKKVERIGNLNYPEEARRKQIYGNLRLMVSINRDGSLYEVLVLESSGQPLLDQAAQRIVRLAAPFAPFTGDLSDIDRLEIIRTWKFARGDRLSSN	PGPT0003745_813	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003745-tonB-K03832	NA	NA
D1-35_03681	954	gshB	COG0189	Glutathione synthetase	ATGAGCGTACGCGTCGGCATTGTCATGGACCCAATCGCCAGCATTTCCTATAAGAAGGATAGCTCGCTGGCCATGCTGCTGGCCGCTCAGAAGCGCGGCTGGGAGCTGTTCTACATGGAACAGCGCGACCTTTACCAGGCCGAGGGCCAGGCGCGCGCGCGAATGAAGCCGCTGAAGGTCTTCGCCAACCCTGAGAAGTGGTTCGAACTGGGCGCGGAAAGCGACGCGCTGCTGAGCGACCTGGACGTGATCCTGATGCGCAAGGATCCGCCGTTCGACATGGAGTTCGTTTACTCCACCTACCTGCTGGAGCAGGCCGAAAGCGCCGGTGTGCTGGTGGTCAACAAGCCGCAGAGCCTGCGCGACTGCAACGAGAAGCTGTTCGCCACGCTGTTCCCGCAGTGCACGCCGCCCACCATCGTCAGCCGTCGTCCGGACGTGCTGCGCGAATTCGCCGATCACCACGGCGACGTGATCCTCAAGCCGCTGGACGGCATGGGCGGCTCGTCGATCTTCCGTCACACCGCCGGCCATCCGAACCTGTCGGTGATCCTCGAAACCCTGACCTTGCATGGCAAGCAACAGATCATGATCCAGGGTTACCTGCCGGCCATCGTCGACGGCGACAAGCGCATCCTGATGATCGACGGCGAGCCGGTGGACTATTGCCTGGCGCGCATCCCGGCGGCCGGTGAAACCCGTGGCAACCTGGCGGCTGGCGGCCGTGGCGAAGCCCGCCCGCTGACCGACAAGGACCGCTGGATCGCCGCCCAGGTCGGCCCGACGCTACGCGAGAAAGGCCTGCTGTTCGTCGGCCTGGACGTGATCGGCGAGCACCTGACGGAGATCAACGTCACCAGCCCGACCTGCATCCGCGAGATCGACAATGCCTTTGGCACCGACATCGGCGGGATGCTGATGGATGCCATCGATCAGAAGCTCAAGGCGCGTTGA	MSVRVGIVMDPIASISYKKDSSLAMLLAAQKRGWELFYMEQRDLYQAEGQARARMKPLKVFANPEKWFELGAESDALLSDLDVILMRKDPPFDMEFVYSTYLLEQAESAGVLVVNKPQSLRDCNEKLFATLFPQCTPPTIVSRRPDVLREFADHHGDVILKPLDGMGGSSIFRHTAGHPNLSVILETLTLHGKQQIMIQGYLPAIVDGDKRILMIDGEPVDYCLARIPAAGETRGNLAAGGRGEARPLTDKDRWIAAQVGPTLREKGLLFVGLDVIGEHLTEINVTSPTCIREIDNAFGTDIGGMLMDAIDQKLKAR	PGPT0013040_1058	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013040-gshB-K01920	NA	NA
D1-35_03682	429	walR_2	COG0745	Transcriptional regulatory protein WalR	ATGGCAGAGCATCTCACGCAGCAGCAACCCAGCGCCTTGAAGGTCATGGTCATCGACGACTCGAAGACCATCCGCCGCACCGCCGAGACCTTGCTGCGCAACGTTGGCTGCGAGGTCATCACGGCGGTCGATGGTTTCGACGCCATGGCCAAGATCGTCGACCACCATCCGGGCATTATCTTTGTCGACATCATGATGCCGCGCCTGGACGGTTACCAGACCTGTGCCCTGATCAAGAACAACAGCGCCTTCAAGGCGACGCCGGTGATCATGCTGTCGTCCCGCGACGGTCTGTTCGACAAGGCCAAGGGGCGCATCGTCGGCTCCGATCAGTTTCTGACCAAGCCTTTCAGCAAGGAAGAATTGCTGGGCGCGATACAGGCCCATGTCCCGGGTTTTGCCGCTGTCCAGCCGCACCAGGCACATTAA	MAEHLTQQQPSALKVMVIDDSKTIRRTAETLLRNVGCEVITAVDGFDAMAKIVDHHPGIIFVDIMMPRLDGYQTCALIKNNSAFKATPVIMLSSRDGLFDKAKGRIVGSDQFLTKPFSKEELLGAIQAHVPGFAAVQPHQAH	PGPT0015835_119	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015835-pilG-K02657	NA	NA
D1-35_03683	366	pleD		Response regulator PleD	ATGGCACGAGTTCTGATCGTCGATGATTCGCCGACTGAAATGTACAAATTGACCGGCATGCTGGAAAAGCACGGCCATCAGGTCTTGAAAGCCGAGAATGGCGCCGACGGCGTGGCCCTGGCCCGCCAGGAAAAGCCCGACGCGGTGCTGATGGACATCGTCATGCCCGGCCTCAATGGGTTCCAGGCCACGCGCCAGCTGACCAAGGACCCGGACACGGGGCATATCCCGGTCATCATCATCACCACCAAGGACCAGGAAACCGACAAGGTCTGGGGGACCCGCCAAGGGGCGAAGGACTACCTGACCAAACCGGTGGACGAAGAAACCCTGATCGCGACCTTGAACAAAGTACTGGCGGGTTGA	MARVLIVDDSPTEMYKLTGMLEKHGHQVLKAENGADGVALARQEKPDAVLMDIVMPGLNGFQATRQLTKDPDTGHIPVIIITTKDQETDKVWGTRQGAKDYLTKPVDEETLIATLNKVLAG	PGPT0015840_238	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015840-pilH-K02658	NA	NA
D1-35_03684	540			hypothetical protein	ATGAGCCACTCCCTGACCGCATTCGAACTGTTGCTTCAGATCGATCGGCGCTGTCGGCTGCTGGGCGCGGACCTGCCGTCCCAGCCAACCCATCGCGACAGTTGGAGCGGGATCGGCTTTCGCCTCGGCGAGCATTGGTACGTGGCGCCCATGGGCGAGGTCAGCGAAGTGCTGCACGAGCCGCGCTACACGTCGTTGCCCGGGGTCAAGCCATGGGTTCGCGGAGTGGCTAACCTGCGCGGACGTTTATTGCCGCTGATGGACCTGTGCGGTTTTTTCGGTCATGAGCTGTCCAGTGTGCGCAAGCAGCGGCGGGTGCTGGTGGTCGATAACGAAGAAGTCTTCGCCGGCTTGCTGGTGGACGAAGTCCTCGGGCTGCAGCATTTCGCCCAGGGCAGCCTGGAACCGGTTTTGCCTGGCTACCTCGATGGCCCGGAATCGGCCTTCGTCCAGGGCCGTTTTCCTGGCGATCGGCAGTGGCAGGTGTTCAGCCCTTTTGCCGTGACGCGTTCGCCAGGGTTCATGAATGTGGCGGTTTAA	MSHSLTAFELLLQIDRRCRLLGADLPSQPTHRDSWSGIGFRLGEHWYVAPMGEVSEVLHEPRYTSLPGVKPWVRGVANLRGRLLPLMDLCGFFGHELSSVRKQRRVLVVDNEEVFAGLLVDEVLGLQHFAQGSLEPVLPGYLDGPESAFVQGRFPGDRQWQVFSPFAVTRSPGFMNVAV	PGPT0015845_190	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015845-pilI-K02659	NA	NA
D1-35_03685	2061			hypothetical protein	ATGATCAAAGCAAAAACAGGCAAGCCTCTGGAAGCGTCGCGCAGTCGGTCGCAGATCATCGTGCTGTTCGTCGCGCTGATTGTCTTCATCATGCTGTTGTTCGCCAACTTCGCGTACCTCAACACCCAGTCCACCTATGACAAACAGTACATCGGCCACGCCGGTGAGCTGCGGGTGCTGTCCCAGCGCATTGCCAAGAACGCCACCGAAGCCGCGGCCGGCAAGGCCGCCGCGTTCAAGTTGCTGAGTGATGCGCGCAACGATTTCGCCCAGCGCTGGGGATACCTGAAGCAGGGTGACCCGGTGACCGGCCTGCCCCCGGCGCCCGCCACCCTGCGCCCGCAGATGCGCGCGGTACAGCTGGACTGGGAGCGCCTGCTGAAGAACACCGATGCGATTCTTTCCAGTGAGCAGACCGTCCTGTCGCTGCACCAGGTGGCGGCAACCCTCGCCGAAACCGTGCCGCAACTGCAGGTCGAATACGAAAAAGTTGTCGAAATCCTCTTGCAGCGAGGCGCCCCGGCCTCACAGGTGGCCATGGCCCAGCGCCAGTCACTGCTGGCCGAGCGTATTCTCGGCGCGGTGAATACCGTATTGGCCGGCGACGAGAACGCCAGCCAGGCTGCCGACACCTTCGGCCGTGACGCCGCGCGTTTTGGCCAGGTGCTCAATGGCATGCTGCAAGGCGACCCGACCTTGAAGATCCCCCAGGTCCAGGATCGTGACGCCCGGGCGCGCCTGACGGAAATCAGCGAGCTGTTCGAATTCGTCTCGGGGTCGGTGGACGAAATCCTCGAGACCTCCCCGGAGCTGTTCAAGGTCCGCGAGTCGGCGGGCAACATCTTCAACCTGTCGCAGACCCTGCTCGACGAAGCCTCTCACCTGGCCACAGCTTTCGAGAACCTGGCCGGCGGTCGTTCCGTCAACAGCATCGGCGGGTATGTGCTGGGCCTGCTGGCACTGATGTCGATCATCCTCATCGGCCTGGTGATGGTGCGTGAAACCAACCGCCAATTGCGCGAAACCGCGGAAAAGAACGAGCGCAACCAGAACGCGATCATGCGCCTGCTGGACGAAATCGAAGACCTGGCCGATGGCGACCTGACCGTTACCGCCTCGGTTACCGAGGACTTCACCGGGACCATCGCCGATTCCATCAACTATTCGGTGGACCAATTGCGCGATCTGGTGGCGACCATCAACCTCACGGCCGGCCAGGTGGCCGCCGCCGTGCAGGAAACCCAGGCCACGGCCATGCACCTGGCCCAGGCGTCGGAACACCAGGCCCAGCAAATTTCCGAAGCTTCGACTTCAATCAATGAAATGGCCCAGTCCATCGACCAGGTATCGGCCAATGCGGCCGAGTCGTCGGCGGTGGCCGAGCGCTCCGTGGAAATCGCCAACAAGGGCAACGAGGTGGTGCACAACACCATTCATGGCATGGACAACATTCGCGAGCAGATCCAGGACACCGCCAAGCGCATCAAGCGCCTCGGTGAGTCGTCACAGGAAATCGGCGACATTGTCAGCCTGATCGATGACATCGCCGACCAGACCAACATCCTTGCGCTCAACGCGGCGATCCAGGCGTCCATGGCGGGCGATGCCGGTCGGGGTTTTGCGGTGGTGGCCGACGAAGTGCAGCGCTTGGCCGAGCGCTCCTCGGCGGCCACCCGGCAGATCGAGACGCTGGTGCGGGCGATCCAGGCCGACACCAACGAAGCGGTGATCTCCATGGAGCAGACCACCACCGAGGTGGTGCGCGGTGCCCGACTGGCCCAGGATGCCGGCGTCGCCCTGGAAGAAATCGAGGGCGTTTCCAAGACCCTGGCGGCGCTGATCCAGAGCATCTCCAACGCGGCGCAGCAACAGACCACCTCGGCGGGACAGATTTCGCTGACCATGAACGTGATCCAGCAGATCACCAGCCAGACCTCGTCCGGCTCAACCGCCACGGCCGAGAGTATCGGCAACCTGGCGAAAATGGCCAGCCAGCTGCGCCGCTCGGTGTCCGGGTTCACCTTGCCCGCGGCACCTGTGGCGGACGAGGATAAGGTGTGA	MIKAKTGKPLEASRSRSQIIVLFVALIVFIMLLFANFAYLNTQSTYDKQYIGHAGELRVLSQRIAKNATEAAAGKAAAFKLLSDARNDFAQRWGYLKQGDPVTGLPPAPATLRPQMRAVQLDWERLLKNTDAILSSEQTVLSLHQVAATLAETVPQLQVEYEKVVEILLQRGAPASQVAMAQRQSLLAERILGAVNTVLAGDENASQAADTFGRDAARFGQVLNGMLQGDPTLKIPQVQDRDARARLTEISELFEFVSGSVDEILETSPELFKVRESAGNIFNLSQTLLDEASHLATAFENLAGGRSVNSIGGYVLGLLALMSIILIGLVMVRETNRQLRETAEKNERNQNAIMRLLDEIEDLADGDLTVTASVTEDFTGTIADSINYSVDQLRDLVATINLTAGQVAAAVQETQATAMHLAQASEHQAQQISEASTSINEMAQSIDQVSANAAESSAVAERSVEIANKGNEVVHNTIHGMDNIREQIQDTAKRIKRLGESSQEIGDIVSLIDDIADQTNILALNAAIQASMAGDAGRGFAVVADEVQRLAERSSAATRQIETLVRAIQADTNEAVISMEQTTTEVVRGARLAQDAGVALEEIEGVSKTLAALIQSISNAAQQQTTSAGQISLTMNVIQQITSQTSSGSTATAESIGNLAKMASQLRRSVSGFTLPAAPVADEDKV	PGPT0015850_440	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015850-pilJ-K02660	NA	NA
D1-35_03686	5922	rcsC_18		Sensor histidine kinase RcsC	ATGGGTGATCGGCACGACTACGTGGCCCTGGAATGGGTCAAGGGCGAGATTGCCGAAACGCTGAAGCAGGCCCACCTGGCCCTCAATCGCCTGGTGGACGACCCCCAGGCGTCGGATGCGCTTGCCCAATGCCTGGCCTGCATTCACCAGGTCCATGGCGGCCTGCAGATGATCGAATTCTACGGCGCGGCGTTGCTGGCCGAGGAAATGGAGCAACTGTGCAGCGCGCTGCAGGACAACCGCATCGCCCACCGCGAGGAGGCGATCAGCCTGTTGCGCCAGGCCCTGGGCCAGTTGCCGGTCTACCTAGAACGGGTGCAGGGTGCTCGTCGCGACCTGCCGCTGGCGGTGCTGCCCTTGCTCAACGATCTGCGCAGTGCGCGGGGCGAGAGCCTGTTGTCGGAGACCAGCCTGTTCAGCCCGGAACTGCCCGATATCGCGCCGCTGGACGAGGACGCCTTGAAGCGGCTCGCGCCGGCGGACCTGCCGAGCACCTTGCGCAAATTGCGCCAGACCCTGCAGGTGGCCCTGGTGGGCCTGTTGCGCGAGCAGGACGACGCGACTCACCTCGGTTACCTGGCCAAAGTCTTTCAGCGCCTTGAAGCGCTTTGCGCCGCAGCGCCGCTCAATGCGTTGTGGCAGGTCGCTTCGGCGTTGGTCGAAGGCATGCGCGAGGGGCGTATCGCCAACAGCCCGGCGCTGCGTAGCCTGTTCAAGGATGCTGACAAGGAACTCAAGCGCTTGCTGGAGCAAGGCATGCCGGGCATCAACCAAGCGGCCCCGCCACACCTGCTCAAGAGTCTGTTGTTCTATATTGCCAAGGCCGAACATCCCAGCGGGCAGATGCAGATCATGAAAGAACGCTACTCACTGGACGACGCGCTGCCCGACAGCGCTATGGTCGATGAAGAACGCGCGCGCCTGGCCGGGCCCGACCGCGATGCCATGCGCTCGGTGCTGGCAGCGCTCTGCGAGGAGCTGGTGCGGGTCAAGGAACGCCTGGACCTGTTCGTGCGCAGCGACCGCCAGCATGCCTCGGAGCTGGACAGCCTGCTGGCGCCCCTGCGGCAGATTGCCGACACCCTGGCGGTGCTGGGTTTCGGCCAGCCGCGCAAGGTCATCATCGATCAACTGGCCGTCGTACTGAGCCTCGCCCAGGGCCAGCGCGAGCCTGATGACGCGACGCTCATGGACGTTGCCGGAGCCTTGCTGTACGTCGAGGCAACCCTGGCCGGAATGGTCGGCACCGTCGAGCCTGAAAGCCGCGAAGACAATCGCCTGCCGACGACCGACCTGACCCAGATCCATCAGATCGTCATCAAGGAAGCCCATACCTGCCTGCAACAGGCCAAGGACATGATCGTCGACTACATCGACGCACACTGGAACAGCGCCCAGCTTGAGCCATTGCCGGCGCTGCTGACCCAGGTCCGCGGGGCGCTGGCGATGATTCCCCTGAGCCGCGCCGCCCGCCTGGTGGAGGCTTGCAACGATTTCATCCGTGAACACCTGCTGCTCGACCCAGCCCAGCCGGGGTGGGAAGCACTCGATCACCTGGCCGATGTGATTACCGGCCTGGAATATTACCTGGAGCGTTTGAGCGAAGACCCGTTGATGCCCGCCGAGAATCTGCTCGACGGCGTCGAGCGGAGCCTGGGCGCCCTCGGCTACTTTCCCGACGAAGCCCGCGTGCCCTTGCTCGATGACCGGCTGAGCCCGAACGAGGCCCAGGTCATGCAGGATTTGCAGGAACTGGACGACCCACAGACCGTGCAATCCCTCGCTGATGTTCTGGCCAGCCCGGTCTCGGCGGTCAACCCGCCGGCCAAAGGCATGCCCGGTAGCCTGCTGCCGCCGCCCGTGGATGAGCATCCGGTGGACGACGAGCTGCGGGAGGTCTTCCTCGAGGAAACCGACGAGGTGCTCGATGTCCTGCGCGAATACCTGCCGCGCTGGGCTGCGCAGCCCGACGACCAAGGCGCGCTCACTGAGCTGCGCCGGGCCTTCCATACCCTCAAGGGCAGCGGCCGGATGGTTCGGGCACTGGTGCTGGGTGAGTTGGCCTGGGCGGTGGAAAACCTGCTCAACCGCGTGCTGGAGCGCAGCGTCGAGCCGGGCGCTTCGGTTCGGCAATTGCTTGAGGACGCGGTGCGATTGCTGCCGGAACTGGTCGCTGAATTCGCTGCCCAGCGCCAATGCCAGCGCGACGACGTCGACCGTCTGGCTGCTCGCGCCCATGCCTTGGCCAAGGGTGGCGATGAGGAAGATGACGACCAGCAGGACGTGGCCGCTCTCGATCCCTTGCTGCTGAAAATCTTCGATAACGAAGCCCAGGGGCATCTGGCCGCGCTTGATCGATTCCTCGACCAGGCCGCCGAACATCTGCCATTGCAGGCCAGCGACGAGCTGCAAAGGGCCTTGCACACGCTCAAGGGCAGTGCATCGATGGCCGGTGTGCTGCCGATCGCCGAACTGGCCGGGGCGATGGATGAGATGGCCCGGGAATACAAGGCGCACCTGATCGCTTTCGACCTGGAGGAGATCGAGTTGCTGCTGGAGGCTGAAGGGTTGCTGCGCCGCGGTCTGCGCCAGCTGCATAACGAGCCGCTGGCAGCGATTCCCGGCGCCGCGGACCTGATCCAGCGAACCCAGGCACTGTCCGTCGAACGCCTGCAAACGGCTCTCAACACGCCGGACCAGGGCGTGCGAACCAAGCGCGACCCGCAATTGATCAACAATTTTCTCGCCCAGGGCATGGATATCCTGCTGGACGCGGAGAACCTGCTGCGGCGCTGGCAGCAACACTCCGGCGAGGGCCAGGAGCTGAGCGCGCTGCTCGATGAGTTGACCACCCTTGGCGAAGGCGCGCATCTGGCCGACCTGCACCCGGTGGACGAGCTCTGCGAAGCCTTGCTGGACCTGTATGGCGCCGTCGAGGAAAGCAGCCTGGCGGTCAGCGACAGGTTTTTCCATGAGGCGCAGCTTGCTCACGAAGCGTTGATCGACATGCTCGACGAATTGGCTGCCGGCCAGCACGTGCGTGCGCAACCTGCCCGGGTGCAGGCGCTGCGCAGCCTGCTCCAGGAAGGCCTCGACCCGACGGCCACGGGACTGATCCGCAGTGACGGCAGCCGCACGTTGAGCATCCGCGAGCTGGGTCATGCGACGGCTGAGATGGAGCGCAGTTCGCCGGCGGCTGTTTCGGTGGATGACGATATCGCCGCGATCTTTCTCGAAGAGGCCCAGGATATTCTCGAAAGCGCCGCACAGGCCTTGCGGCGCTGGCTCGCCGACCCGGAGAACGGCGCGCCGCTGTCCTCGCTGCAGCGTGACTTGCACACCCTCAAGGGCGGCGCACGCATGGCGGATGTGCGGCCGGTGAGCGACCTGGCCGGGGAGCTCGAAACCCTATACGAAGGGCTGGTGGATCGCCGCTACAGTTACAGCGAGGAGCTGGCGCAACTGCTCAACAGCAGTCACGAACGCCTCGATCTGTTGCTCGGGCAACTGCAGCAAGGCCAACCGCTGGGCGATCCCGTGGCGTTGATTGACGCCATTCATCGTTTCCGCCAGGACAAGCCGAACGCCATCGAGGTGGCGGGGCATCGGCAAAATGACACGGCGGGCCATGATCCGGAGTTGCTGGAAATCTTTCTAGAGGAAGGTTTCGATATCCTCGACAGTTCCGGGGCGGCGTTGCAACGCTGGCAGGAAGAGCCGTCGAACCGTCAGGCGGTGGAAACCCTGCTGCGCGATCTGCACACCCTCAAGGGTGGCGCGCGGATGGTGGAGATCGGGCCCATCGGCGATCTTGCCCACGAACTGGAGAACCTTTACGAAGGGCTGTCGGCGGGCCTGTTACAACCGAGCCCGGCGCTTTTTGCCTTGCTGCAAGGCAGCCATGACCGGCTGGCCCACATGCTCGATGCCGTCCGTGCCGGGCAGCCGTGCCCGCCGGCCGACCGGCTGATCGCGCAGATCCAGGCGGTCAATCATCCGCAGGACAGCGAGGCGCCCCAGATCGTTACGCCGGTCGAGCCGGCACCGGCCCAGGTCGCGCCGCCGATGCGAGCCGAGCCCGCCGCGCCGGGCGATGGCGCGGACATGGTCAAGGTCTCCGCCGAACTGCTCGACGATCTGGTCAACCTGGCCGGGGAAACTTCGATTTTCCGTGGGCGCATCGAGCAACAGGTCAACGATGCGCGCATCGCCCTGAACGAGATGGAAACGACCATCGAGCGCATGCGCGATCAACTGCGACGCCTGGATACCGAAACCCAGGGGCGGATTCTCAGCCGCCAGCAGGTGGACGCCGAACGACTGGGCTACGAAGAATTCGACCCACTGGAAATGGACCGCCATTCCCAGTTGCAACAATTATCCCGAGCGTTGTTCGAGTCCGCCTCGGACCTGCTTGACCTCAAGGAAACGCTAGACCGCAGCAACCACGACGCCGAAAACCTGCTGCAACAGCAGGGGCGCATCAACACCGAGCTCCAGGAAGGCCTGATGCGTACGCGCATGGTGCCGTTCGAGCGCATGCTGCCGCGCCTCAAGCGCATCGTCCGGCAGGTGGCGCAGGAGCTGGGCAAGGACGTCGAGTTCGTGGTCGACAATGCCGAGGGCGAGATGGACCGCAACGTGCTCGAACGCATGGCGGCGCCTTTGGAACATATGTTGCGCAATGCCGTTGATCATGGCCTGGAGCCCGCCGATGTGCGCATCGCAGCCGGCAAACCGGCGCGGGGACGCATCAGCCTGGATCTGTCCCGCGAAGGCGGCGACATCATTTTCGACATCCGTGACGACGGCGCCGGGGTGCCATTGGACGCGGTGCGGCGCAAGGCGATAAAGCGTGGGCTGCTGGCGCCCGACAGCGATATCAGCGACCGCGACGTGCTGCAGTTCATCCTGCAGCCAGGTTTTTCCACGGCGGAAAAAATCACCCAGATCTCCGGGCGCGGCGTTGGCATGGACGTGGTCCACGAAGAAGTGCGACAGCTGGGCGGCAGCATGGTCATCGATTCGACGCCGGGCAAGGGCGTGCATTTTCGTATCCGGCTGCCATTCACCGTGGCGGTCAACCGGGCGCTGATGGTGCAGTGTCACGAAGATCAATACGCCATCCCGCTCAACACCATCGAGAGCATCGTCCGGGTATTGCCCGCCGAACTGGATGGCTATTACCAGCTCGATCCGCCGACCTACACCTACGCCGGGCAACGTTATGAGTTGTGCTACCTGGGCGAGTTGCTGAAAACCGGCGCCCGCCCGAAATTGCTCGGCCAGAGCCAGCCATTACCGGTGCTGCTGGTGCAATGCAACGAACGACACGTCGCCGTGCAGGTAGACGCCACCGCCGGCACCCGGGAAATCGTGGTCAAGAGCCTCGGCCCGCAATTCTCGGCGGTCCAGGGCTTGTCCGGGGCAACGATCCTGGGGGACGGCCGGGTGGTGCTGATTCTCGACCTGCTCGCGCCGATCCGCGCCTTGCCCAACCAGGCGGCGCGCCGTCCGGCCGTGGTGCAAGGCGAGGGCGAGCAGCAGCGGCCTTTGCTGGTGCTGGTGGTGGACGATTCGGTAACAGTGCGCAAGGTCACCAGTCGTCTGCTGGAACGCCACGGCATGCATGTGCTCACCGCCAAGGACGGCGTGGACGCCATGGCATTGCTGGCCGAACATTCGCCGGACCTGATGCTGCTGGACATCGAGATGCCCCGCATGGATGGTTTCGAAGTGGCGACGCAAGTGCGCAACGACCCGCGCCTGGCGCATCTGCCGATCATCATGATCACCTCCCGCACCGGCCAGAAACACCGCGACCGCGCCATGGCCGTCGGCGTCAACGACTACCTGGGCAAGCCGTACCAGGAGTCGGTGCTGCTCGACAGCATCGCCCACTGGAGCAAGACCCATGCATGA	MGDRHDYVALEWVKGEIAETLKQAHLALNRLVDDPQASDALAQCLACIHQVHGGLQMIEFYGAALLAEEMEQLCSALQDNRIAHREEAISLLRQALGQLPVYLERVQGARRDLPLAVLPLLNDLRSARGESLLSETSLFSPELPDIAPLDEDALKRLAPADLPSTLRKLRQTLQVALVGLLREQDDATHLGYLAKVFQRLEALCAAAPLNALWQVASALVEGMREGRIANSPALRSLFKDADKELKRLLEQGMPGINQAAPPHLLKSLLFYIAKAEHPSGQMQIMKERYSLDDALPDSAMVDEERARLAGPDRDAMRSVLAALCEELVRVKERLDLFVRSDRQHASELDSLLAPLRQIADTLAVLGFGQPRKVIIDQLAVVLSLAQGQREPDDATLMDVAGALLYVEATLAGMVGTVEPESREDNRLPTTDLTQIHQIVIKEAHTCLQQAKDMIVDYIDAHWNSAQLEPLPALLTQVRGALAMIPLSRAARLVEACNDFIREHLLLDPAQPGWEALDHLADVITGLEYYLERLSEDPLMPAENLLDGVERSLGALGYFPDEARVPLLDDRLSPNEAQVMQDLQELDDPQTVQSLADVLASPVSAVNPPAKGMPGSLLPPPVDEHPVDDELREVFLEETDEVLDVLREYLPRWAAQPDDQGALTELRRAFHTLKGSGRMVRALVLGELAWAVENLLNRVLERSVEPGASVRQLLEDAVRLLPELVAEFAAQRQCQRDDVDRLAARAHALAKGGDEEDDDQQDVAALDPLLLKIFDNEAQGHLAALDRFLDQAAEHLPLQASDELQRALHTLKGSASMAGVLPIAELAGAMDEMAREYKAHLIAFDLEEIELLLEAEGLLRRGLRQLHNEPLAAIPGAADLIQRTQALSVERLQTALNTPDQGVRTKRDPQLINNFLAQGMDILLDAENLLRRWQQHSGEGQELSALLDELTTLGEGAHLADLHPVDELCEALLDLYGAVEESSLAVSDRFFHEAQLAHEALIDMLDELAAGQHVRAQPARVQALRSLLQEGLDPTATGLIRSDGSRTLSIRELGHATAEMERSSPAAVSVDDDIAAIFLEEAQDILESAAQALRRWLADPENGAPLSSLQRDLHTLKGGARMADVRPVSDLAGELETLYEGLVDRRYSYSEELAQLLNSSHERLDLLLGQLQQGQPLGDPVALIDAIHRFRQDKPNAIEVAGHRQNDTAGHDPELLEIFLEEGFDILDSSGAALQRWQEEPSNRQAVETLLRDLHTLKGGARMVEIGPIGDLAHELENLYEGLSAGLLQPSPALFALLQGSHDRLAHMLDAVRAGQPCPPADRLIAQIQAVNHPQDSEAPQIVTPVEPAPAQVAPPMRAEPAAPGDGADMVKVSAELLDDLVNLAGETSIFRGRIEQQVNDARIALNEMETTIERMRDQLRRLDTETQGRILSRQQVDAERLGYEEFDPLEMDRHSQLQQLSRALFESASDLLDLKETLDRSNHDAENLLQQQGRINTELQEGLMRTRMVPFERMLPRLKRIVRQVAQELGKDVEFVVDNAEGEMDRNVLERMAAPLEHMLRNAVDHGLEPADVRIAAGKPARGRISLDLSREGGDIIFDIRDDGAGVPLDAVRRKAIKRGLLAPDSDISDRDVLQFILQPGFSTAEKITQISGRGVGMDVVHEEVRQLGGSMVIDSTPGKGVHFRIRLPFTVAVNRALMVQCHEDQYAIPLNTIESIVRVLPAELDGYYQLDPPTYTYAGQRYELCYLGELLKTGARPKLLGQSQPLPVLLVQCNERHVAVQVDATAGTREIVVKSLGPQFSAVQGLSGATILGDGRVVLILDLLAPIRALPNQAARRPAVVQGEGEQQRPLLVLVVDDSVTVRKVTSRLLERHGMHVLTAKDGVDAMALLAEHSPDLMLLDIEMPRMDGFEVATQVRNDPRLAHLPIIMITSRTGQKHRDRAMAVGVNDYLGKPYQESVLLDSIAHWSKTHA	PGPT0015785_292	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0015785-chpA-K06596	NA	NA
D1-35_03687	474			hypothetical protein	ATGCATGAGCACCGCACCAGCCATCTCACAGGTTTGTTGCTGCCGCTTGCCGACCGGCATCTGATCCTGCCGAACGTGGCCGTGGCCGAGTTGATCGACTACCAGAGCAGCGTGTTCGATCTGGACACCCCGCCCTGGTTCCTGGGCTGGGTAAGCTGGCGCGAACGGCAGATCCCGCTGCTGAGCTTCGAGTCAGCCTGCGGCCAGAAGACCGTGATCGGCGAGCGCGCTCGCATCGTCGTGCTCAATGCCCTGGGCGGCCGCCCGGAACTGCGTTTCATCGCGCTGCTGGTCCAAGGCATCCCGCGCTCCTGCAAGCTCGACACCCAGTTGAGCTACGTCGACGTGCCGCTGTGCGGATTGGAGCAGGCGGCCGTGCAAGTGGGCGAGCATGTGGCGAAAGTGCCGGATCTGCTGGCGTTGGAAGAGTTGGTGGTTGCGGCGGGGTTGGTAAGAGTTGAGTCAGCCAACTGA	MHEHRTSHLTGLLLPLADRHLILPNVAVAELIDYQSSVFDLDTPPWFLGWVSWRERQIPLLSFESACGQKTVIGERARIVVLNALGGRPELRFIALLVQGIPRSCKLDTQLSYVDVPLCGLEQAAVQVGEHVAKVPDLLALEELVVAAGLVRVESAN	PGPT0015795_148	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0015795-chpC-K06598	NA	NA
D1-35_03688	1671	madA		Acetyl-S-ACP:malonate ACP transferase	ATGACAACAACAATATCCCCCGACTCGCGATGGACGCGGCGGCGCAGCGAAAAGCAGCGGCGCCTGGCGTTGGTGAAGGGGCTTGCCGACGGTGTGGTGCTGCCCACCGACAAGATCGTCGCGGCGCTGGAGGCGTTGATCCTGCCCGGCGACCGTGTGGTGCTGGAGGGCAATAACCAGAAGCAGGCGGACTTCCTGTCCCGCTCTCTGGCGAAAGTCGACCCTTCGAAGCTGCATGACCTGCACATGATCATGCCCAGCGTCGGTCGTTCCGAGCACTTGGACCTGTTCGAACGCGGCATCGCCCGCAAGCTCGATTTCTCGTTCGCCGGCACGCAGAGCCTGCGCATCAGCCAGTTGCTGGAAGACGGCCTGCTGGAAATCGGCGCGATCCACACCTACATCGAGCTCTACGCCCGGCTGGTGGTCGACTTGATTCCCAACGTGGTGCTTTCGGCCGGTTTCATGGCCGACCGCGCCGGTAATATCTATACCGGTCCCAGCACCGAAGACACCCCGGCGCTGATCGAACCGGCGGCGTTCAGCGACGGTATCGTCATTGTTCAGGTCAATCAGTTGGTGGACGACGTCAGCGACCTGCCCCGCGTAGACATTCCAGCATCCTGGGTCGACTTCGTGGTGGTGGCCGACAAGCCGTTCTACATCGAGCCGCTGTTTACCCGCGACCCGCGCCACATCAAGCCCGTGCATGTCTTGATGGCAATGATGGCGATTCGCGGGATCTACGAAAAACACAACGTCCAGTCGCTCAACCACGGCATCGGTTTCAACACCGCCGCCATCGAATTGATCCTGCCGACCTACGGCGAAGCACTTGGACTGAAGGGCAAAATCTGCCGCAACTGGGCGCTCAATCCGCACCCGACGCTGATCCCGGCCATCGAAAGTGGCTGGGTCGAGAGCGTGCATTGCTTCGGCACCGAACTGGGCATGGAAAACTACATCGCCGCCCGGCCTGACGTGTTTTTTACCGGGCACGACGGTTCGCTGCGTTCCAATCGAATGGTTTGCCAACTGGCCGGGCAGTACGCGGTGGACCTGTTCATTGGCGCCACATTGCAGGTGGACGGCGACGGCCATTCCTCCACCGTGACCCGTGGCCGACTGGCCGGTTTCGGCGGCGCGCCGAACATGGGCCACGACCCGCGCGGTCGCCGTCACGGGACGCCGGCCTGGCTCGACATGCGCCACGGCGACGGCGAGGCGCCGCTGCTCGAACGCGGCAAGAAACTGGTGGTGCAGATGGTCGAAACGTTCCAGGAGGGCGGCAAACCGACCTTCGTCGACACCCTCGACGCGGTGGACGTGGCGAAGAAAGCCGGCATGCCCCTGGCGCCGATCATGATCTACGGCGACGACGTTACCCATCTGCTGACCGAAGAAGGCATCGCCTACCTGTACAAGGCCCGCTCCCTGGAAGAACGCCAGGCAATGATCGCCGCCGTGGCCGGGGTCACTGCCATCGGCCTGCGCCATGACCCGAAAGACACCGCGCGCATGCGTCGCGAAGGGCTGATCGCCTTGCCCGAAGACCTCGGAATCCGCCGCACCGACGCCACCCGCGAGTTGCTCGCGGCCAAGAGCGTGGCCGATCTGGTGGAATGGTCCGGTGGCCTCTACAACCCGCCCGCCAAGTTCAGGAGCTGGTAA	MTTTISPDSRWTRRRSEKQRRLALVKGLADGVVLPTDKIVAALEALILPGDRVVLEGNNQKQADFLSRSLAKVDPSKLHDLHMIMPSVGRSEHLDLFERGIARKLDFSFAGTQSLRISQLLEDGLLEIGAIHTYIELYARLVVDLIPNVVLSAGFMADRAGNIYTGPSTEDTPALIEPAAFSDGIVIVQVNQLVDDVSDLPRVDIPASWVDFVVVADKPFYIEPLFTRDPRHIKPVHVLMAMMAIRGIYEKHNVQSLNHGIGFNTAAIELILPTYGEALGLKGKICRNWALNPHPTLIPAIESGWVESVHCFGTELGMENYIAARPDVFFTGHDGSLRSNRMVCQLAGQYAVDLFIGATLQVDGDGHSSTVTRGRLAGFGGAPNMGHDPRGRRHGTPAWLDMRHGDGEAPLLERGKKLVVQMVETFQEGGKPTFVDTLDAVDVAKKAGMPLAPIMIYGDDVTHLLTEEGIAYLYKARSLEERQAMIAAVAGVTAIGLRHDPKDTARMRREGLIALPEDLGIRRTDATRELLAAKSVADLVEWSGGLYNPPAKFRSW	PGPT0019600_95	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019600-mdcA-K13929	NA	NA
D1-35_03689	876	citG	COG1767	2-(5''-triphosphoribosyl)-3'-dephosphocoenzyme-A synthase	ATGCGCGCCCTTAATCTGCAACCCAAGACCTTATCCCTGGCTGAGCGTTTGGCCGACCTGGCAGTGGACGCGTTGATCGATGAAGCCGACCTCTCGCCCAAACCGGCCTTGGTGGACCGTCGCGGCAGCGGCGCCCACACCGATCTGCACCTGGGCCTGATGCACGCTTCGGCGTTGTCGTTGTGGCCGGCATTCAAGGAAATGGCCGAGGCCGCGTTCGACTGTGGCGAGATCGGCTTGCCACTGCGTGAAGCCCTGGGGCGCATCGGCCGGGAAGGTGAAGCCGCGATGCTCACCACCACGGGCGGTGTGAATACTCACCGGGGCGCGATCTGGGCTTTGGGCCTGTTGGTCGCTGCGGCGGCGCTGGAACCTGAGTCCAGTGGCGCTGGCGCCGTCACATTGCGTGCCGCCCGCCTGGCCTTGCTCAACGACCGTCATGCGCCTCAACCCTTGAGCCACGGTGCCCAAGTGGCCCAGCGCTACGGCGCCCGCGGTGCCCGGGAGGAAGCGCAACTGGCATTTCCGGCGGTGACAACCCTGGGCCTGCCGCAACTCAAGCGCAGCCGCGCGGCCGGCGTCGGCGAACAGAACGCCCGCCTTGACGCCTTGCTGGCAATCATGACCCGCCTGGCCGACACCTGCGTGCTCTATCGCGCCGGCGAAGCGGGTTTGCAGGCGATGCAACAGGGCGCCAGGGCGGTGCTCGACGCCGGCGGCAGTGCGAGCCTGGGCGGTCGTCGCCAGCTGCACGTGCTGGACCAACAACTGATTGCCTTGAACGCCTCGCCCGGCGGCGCCGCCGACCTGCTCGCCGCCTGCCTGTTTCTCGACCGTATCGAGCGCAGTGATGGCCTCTTTCCAGGAGTGTGCTGA	MRALNLQPKTLSLAERLADLAVDALIDEADLSPKPALVDRRGSGAHTDLHLGLMHASALSLWPAFKEMAEAAFDCGEIGLPLREALGRIGREGEAAMLTTTGGVNTHRGAIWALGLLVAAAALEPESSGAGAVTLRAARLALLNDRHAPQPLSHGAQVAQRYGARGAREEAQLAFPAVTTLGLPQLKRSRAAGVGEQNARLDALLAIMTRLADTCVLYRAGEAGLQAMQQGARAVLDAGGSASLGGRRQLHVLDQQLIALNASPGGAADLLAACLFLDRIERSDGLFPGVC	PGPT0019605_228	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019605-mdcB-K13930	NA	NA
D1-35_03690	300	mdcC		Malonate decarboxylase acyl carrier protein	ATGCAAACCTTATCCTTTGAATTCACCGCCGGGCAGCCGCCACGGGGCCGGGCGCTGGTCGGCTGCGTCGGCTCGGGCGATCTCGAAGTACTGATCGAACCCGGGCTGGCGGGCAAGCTGACCATCCAGGTGCAGACCTCGGTCAATGGCAGCGAGCAACGCTGGCAACACTTGTTCGCGCGCATGTTCGACGGCCAGACGCCTCCCGCGATGGCCATTGAAATCCACGATTTCGGCGCCACCCCCGGCGTGGTGCGTCTGCGCCTTGAACAAGGCTTCGAGGAGATCGGCCATGACTGA	MQTLSFEFTAGQPPRGRALVGCVGSGDLEVLIEPGLAGKLTIQVQTSVNGSEQRWQHLFARMFDGQTPPAMAIEIHDFGATPGVVRLRLEQGFEEIGHD	PGPT0019610_344	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019610-mdcC-K13931	NA	NA
D1-35_03691	852	madC		Malonyl-S-ACP:biotin-protein carboxyltransferase MADC	ATGACTGACAGCGCTGCGTTGCTCAACAAGCACAGTTTCGTCGAGCTCGGTGCCCGGCAACGGGCCAAGGCCTTGCTCGATGACGGTACGTTCCGCGAACTGCTCGACCCCTTCCAGCGAATCATGTCGCCGTGGTTGCTGCGTCAGGGCGTGGTCCCGCAAAGCGACGATGGCGTAGTGATCGCCAAGGGCGAGCTCGACGGTTTGCCGGTGGTCATCGCCGCCATTGAAGGCGCGTTCCAGGGCGGCAGCCTCGGTGAAGTCGGCGGGGCAAAGATCGCCGGTGCCCTGGAGCTGGCGGCCGAGGACAATCGCAAAGGCATCCCGACCCGGGCCGTGTTGCTGCTGGAGACCGGCGGCGTGCGTTTACAGGAAGCCAACCTCGGGCTCGCGGCAATTGCCGAGATCCATTCGGCGATTATCGACCTGCGCCAATACCAGCCGGTGGTTGGCGTAGTCGCTGGCAGCGTCGGCTGTTTCGGCGGCATGTCCATCGCCGCCGGGCTGTGCAGTTATTTGCTGGTGACGCAGGAAGCGCGGCTGGGGCTGAACGGTCCGCAGGTGATCGAGCAGGAAGCCGGCATCGATGAGTACGACTCCCGCGACCGTCCGTTCATCTGGAGCCTGACCGGTGGCGAACAACGTTTCGCGACCGGGCTGGTGGACCGCTACGTCGCCGATGACGTGGCGCAGATTCGTCGTCAGGTCAGCGAACTGTTGCATCTGGGTGTGCCCACTGAACACCGCAGTGGCCAAGCCAGACTGTTCCTCCAGCGCCTGTCGCGCCTGGACACCGAGGTGCAAATCGAACCGGCAGCGGTTCGCCAGTTGTTTCAGGGAGAACGTCCATGA	MTDSAALLNKHSFVELGARQRAKALLDDGTFRELLDPFQRIMSPWLLRQGVVPQSDDGVVIAKGELDGLPVVIAAIEGAFQGGSLGEVGGAKIAGALELAAEDNRKGIPTRAVLLLETGGVRLQEANLGLAAIAEIHSAIIDLRQYQPVVGVVAGSVGCFGGMSIAAGLCSYLLVTQEARLGLNGPQVIEQEAGIDEYDSRDRPFIWSLTGGEQRFATGLVDRYVADDVAQIRRQVSELLHLGVPTEHRSGQARLFLQRLSRLDTEVQIEPAAVRQLFQGERP	PGPT0019615_365	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019615-mdcD-K13932	NA	NA
D1-35_03692	804			hypothetical protein	ATGAATACGTATTCATTGAGGGGCCTGCGCTGGTTCGAGGCCTTGAGCGGTGGCGTCAAACCGTTGGAAGGCTTGCCCGCTTCGCTGAAAGTGGCCGATGTCCAACTCGGCGAACAAACCGCGCGTCTGTTGGCTGTCGTGGCCGATCCCGCCAACCGTTTCCCTCGGGCGCGCAATGGCGAAGTCGGTTTGCTCGAAGGCTGGGGCCTGGCCAAAGCCGTGGACGACGCCATCGCGGCCGATCGCAACGCGGCCAGCAAACGTGTGCTGATCGCCATCGTCGATGTGCCGAGCCAGGCCTACGGTCGGCGTGAAGAAGCGCTGGGCATTCATCAGGCTTTGGCCGGCGCGGCGGACAGTTATGCCCGGGCCCGACTGGCCGGGCATCCAGTGATCGGCTTGCTGGTGGGCAAGGCGATGTCCGGTGCGTTCCTCGCCCACGGCTACCAGGCCAACCGGTTGATCGCCTTGCGCGACCCGGGCGTGATGGTCCATGCGATGGGCAAGGCTTCGGCAGCGCGGGTCACCCTGCGCAGCGTCGAGGAACTCGAAGCCCTGGCCGCCAGCGTGCCGCCGATGGCCTACGACATTGACAGTTTTGCCAGTCTTGGACTGCTCTGGGAGACCTTGTCGGTCGAACAGATCGAGCAGCCGACGGCGGCGGATCTGGCGCGGGTGAGCGACTGCTTGCTCCAGGCGATCAACGACGTGGCGGGCACGCCTCGGGATCTCAGCGGTCGCCTGGGCGCTGTTCACCGGGCGGCGTCCAGCCACGTTCGGCAATTGTTGAGGGCGCAATGGTGA	MNTYSLRGLRWFEALSGGVKPLEGLPASLKVADVQLGEQTARLLAVVADPANRFPRARNGEVGLLEGWGLAKAVDDAIAADRNAASKRVLIAIVDVPSQAYGRREEALGIHQALAGAADSYARARLAGHPVIGLLVGKAMSGAFLAHGYQANRLIALRDPGVMVHAMGKASAARVTLRSVEELEALAASVPPMAYDIDSFASLGLLWETLSVEQIEQPTAADLARVSDCLLQAINDVAGTPRDLSGRLGAVHRAASSHVRQLLRAQW	PGPT0019620_150	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019620-mdcE-K13933	NA	NA
D1-35_03693	624	mdcG		Phosphoribosyl-dephospho-CoA transferase	ATGGTGAGCACGCTCCTGGCCCATGACCTGCTCTGGGGGATGACTGCTTTGCAGTTGCCTGCGGATGCGCCGGGCTGGGCTGTCGAGTCGCTCGACCTCGGGCAACCGGTCGTGGTGCGCCGGGCGCTGTCCTCGCCTGGACACATCGCCGTGGGCTTGCGCGGTCGCTCTCGCGAACAGCGCTACGCCGCATCAATGCCGGTGGCGGCGATCCAGCGTCGGGTGCGCCCGGAGGACCTCTGCCATGTTCAATCCCCGCGCGACCTCCCGGCCTTGCAAGCGCTGGCCGAGTTGCGCCCGCTGCTCGACGCCAGTGGCTGGGCCTGGGGCGTCAGCGGCAGCGCCGGGTTTGAGCTTGCCACGGGCATCGAGGCGCTGCATGAGCGCAGCGACCTGGACTTGATCCTGCGGACGCCGCATCGCCTGGATCGCCGCCAGGCCAGGAACCTGCTGGCGCAGCTGGACGCCTCGGTCTGCGCCGTGGACCTGCAGTTGCAGACGCCCTGCGGCGCCGTCGCCCTGCGCGAGTGGGCGGGTTCGTCGCGTCGGGTCTTGCTCAAGGATGATATCCAGGCACGATTGGTCAGCGATCCATGGCAGCCATCGTGGGAGCAGGTCGCGTGA	MVSTLLAHDLLWGMTALQLPADAPGWAVESLDLGQPVVVRRALSSPGHIAVGLRGRSREQRYAASMPVAAIQRRVRPEDLCHVQSPRDLPALQALAELRPLLDASGWAWGVSGSAGFELATGIEALHERSDLDLILRTPHRLDRRQARNLLAQLDASVCAVDLQLQTPCGAVALREWAGSSRRVLLKDDIQARLVSDPWQPSWEQVA	PGPT0019625_347	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019625-mdcG-K13934	NA	NA
D1-35_03694	921	fabD_2	COG0331	Malonyl CoA-acyl carrier protein transacylase	GTGAGCAGCCTCCTGGTTTTCCCCGGCCAGGGTGCACAGCGCGTGGGCATGCTCCATGGCTTGGCGCCGCAGATTCTGGACGAGGCGAGTGACGTGCTCGGGGAGGATGTCTTGCAGCTCGACACTGCCCAGGCGCTGCGATCGACTCGCGCCGTGCAGCTGTGCCTGTTGATCGCCGGTGTGGCCGCTTCCCGTCGATTGCTGGAACAGGCCCCCGCGCCGGATTACGTGGCGGGACTGTCCATCGGCGCGTACCCGGCGGCGGTCGTGGCCGAGGCGCTGGGGTTTGAGGACGCGTTGCGGCTGGTCAGTCTGCGCGGCGAACTGATGCAGCAGGCGTATCCGCAAGGCTACGGCATGACGGCAATCATCGGCCTGGACCTCGCGGCCGTGGAAACCTTGCTCGCCCAGGTGCACAGCGCAACAACGCCGGTGTACCTGGCCAACATCAACGCCGATAACCAGGTAGTCATCGCCGGCAGTGATGAAGCCATGGGCTACGTCGCCGAACGGGCTCGCAACCAAGGTGCCGGCAAGGCCTGCCGGTTGGCGGTCAGCGTACCGTCCCACTGCCCGCTGCTGGAGGCTCCGGCGCGGACGTTGGCCCAGGCCTTTGCCGAAGTACCCTTGAAAACTCCGGCGCTGGGCTATCTCAGCGGCAGTCGCGCCCGACCGGTGATAAAGGCCGACGCGCTGCGCGACGACCTGGCCTTCAACATGTGCCGCGTCGTCGACTGGCGCGGCACGGTGCAAGGCGCCTACGAGCGTGGCGTGCGTCTGCAGATCGAGTTGCCGCCCGGCGCGGTGTTGACCGGGCTGGCGCGCCGGGTGTTCGAGCAGGGCACCGTCATGGCTTATGACGGCGCGCGGCTCGACACCCTGCAAGCGCTGTTGCAAGAGGAGGGAAGCCGCCGACCCTAG	MSSLLVFPGQGAQRVGMLHGLAPQILDEASDVLGEDVLQLDTAQALRSTRAVQLCLLIAGVAASRRLLEQAPAPDYVAGLSIGAYPAAVVAEALGFEDALRLVSLRGELMQQAYPQGYGMTAIIGLDLAAVETLLAQVHSATTPVYLANINADNQVVIAGSDEAMGYVAERARNQGAGKACRLAVSVPSHCPLLEAPARTLAQAFAEVPLKTPALGYLSGSRARPVIKADALRDDLAFNMCRVVDWRGTVQGAYERGVRLQIELPPGAVLTGLARRVFEQGTVMAYDGARLDTLQALLQEEGSRRP	PGPT0019630_175	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019630-mdcH-K13935	NA	NA
D1-35_03695	393			hypothetical protein	ATGATTATCTATGGTGTGGCGTTTCTGGCTTTTTGTACCCTGGTGGGCATTTTCATCGGTGAGCTGCTGGGCAAACTGATTGGCGTACCGGCCAACGTTGGCGGCGTCGGCATTGCAATGCTGTTGCTGATCGGCCTGGGCAGCTACCTGAACAAACGCGGCTTGTTCAAGGGCAAGTCCGAAGCTGGCGTGGAGTTCTGGAGCGCCATCTACATTCCGATCGTGGTGGCGATGGCGGCGCAGCAAAACGTCTATGGCGCACTGAAAGGCGGGCCGATGGCGATCCTCGCCGGGACCCTTGCGGTGGTGATTGCCTTTGCGTTGGTGCCGGTGCTGGTACGCATCGGCAACAAAGACCCTCAGGCCGATGTTTCCGTCAAGACGGTCGGGTGA	MIIYGVAFLAFCTLVGIFIGELLGKLIGVPANVGGVGIAMLLLIGLGSYLNKRGLFKGKSEAGVEFWSAIYIPIVVAMAAQQNVYGALKGGPMAILAGTLAVVIAFALVPVLVRIGNKDPQADVSVKTVG				NA	NA	NA	NA	NA
D1-35_03696	765			hypothetical protein	ATGTACGAATCCATGATGAAAGTCATCACCGGCTACGGTCTGATCAGCGGGTTTGCCATTGTCGGCATCACCATGTGGGTGTCCTACTGGATCAGCAATACCTTCACCAAAGGCCGCCTGCATGGTTCGGCCATCGCGATCCTGCTGGGGCTGGTGCTCTCGTATATCGGCGGTGCAATGACCGGGGGGCAAAAAGGTGTGGTGGACATTCCACTGCTTTCCGGGATTGGTTTGCTGGGCGGCGCCATGCTGCGGGATTTCGCCATTGTCGCCACGGCGTTCGGCGTGAGTGTCGAGGAGCTCAAGCGCGCCGGTTTCGTCGGGGTGCTGGCGTTGTTCGTTGGAGTCGGCACCTCGTTCATTGCCGGCGTCGGCGTGGCGATGGCCTTCGGTTATACCGATGTGGTGAGCCTGACCACGATCGGTGCCGGAGCGGTCACCTATATCGTCGGGCCGGTGACCGGGGCGGCCATCGGAGCCAGTTCCGAGGTGATGGCATTGTCGATTGCCGCCGGGTTGATCAAGGCGATCCTGGTCATGGTGGCGACGCCGTTCGTGGCGCCATTCATCGGTCTCAACAACCCACGTAGCGCGGTGATCTTTGGTGGGCTGATGGGCACCTCCAGCGGCGTTGCCGGCGGCCTGGCGGCGACGGATCCCAAGCTCGTTCCGTATGGTTGCCTGACGGCGGCGTTCTATACCGCCCTTGGCTGCTTGCTCGGGCCTTCGCTGTTGTTCCTGATCATGCGGGGACTGATGGGGTAG	MYESMMKVITGYGLISGFAIVGITMWVSYWISNTFTKGRLHGSAIAILLGLVLSYIGGAMTGGQKGVVDIPLLSGIGLLGGAMLRDFAIVATAFGVSVEELKRAGFVGVLALFVGVGTSFIAGVGVAMAFGYTDVVSLTTIGAGAVTYIVGPVTGAAIGASSEVMALSIAAGLIKAILVMVATPFVAPFIGLNNPRSAVIFGGLMGTSSGVAGGLAATDPKLVPYGCLTAAFYTALGCLLGPSLLFLIMRGLMG				NA	NA	NA	NA	NA
D1-35_03697	915	gltC_3		HTH-type transcriptional regulator GltC	ATGCTCATCGACGAAGAATTGACCCTGAAGAAACTCGAGGTGTTCCTGGCGTTCATGCGCACCGGCAACCTGGCGCGGGCGGCGGTCGAGTTGCAGACCAGCAATGTCAGCGTGCATCGGGCCATTCACTCGCTGGAGAGCGCGTTGCGCTGTCCGTTGTTCAAGCACGAAGGCCGCAATCTCACGCCGCTGGAAAGCGCCTATGTGCTGGAGGAGCGTGCGCAGAAGCTGATTCAGGACGTGGTCGAAAGCGTACGCCTGACCCGCGAGGCGGCCGGCTTTTCCGCCGAGCGTTTCAAGCTGGGATCCTTGTATTCACTGACCGTCAAGACCGTGCCGCAACTGATCATGGGCCTGAAGATCCGCCGCAGCGAGCTCAACATCGATCTGATCATGGGCTCCAACATCGACCTGTTGTACAAGCTCAAGAACATGGAGGTCGATGCGATCCTGGTGTCGCTGGACGACAGCGTCAACGACCCGGATTGCGAGCAGATCGCGCTGTTTTCCGATGACATTTTCCTCGCCACGCCCGCCGACTCGCCCTTCGCCCAACGCAGCGAAGTCGACTTGGCCGAGGTCCGCGACGAGACCTTCATCACCCTGACCCAGGGCTTCGCCACGCATCAGGACGGTGTACGGGTGTTCAAGCAGGCGGGGTTCGAGCCGAAAGTGGCGATGCAGGTCAACGACATCTTCACCCTGCTGAGCATGGTCAGCTCCGGGGTGGGCTACGCCTTGCTGCCAGGCCGGATTGCGGCGGTGTATGAAAACCGGGTGAAGCTGATCCCGTTGCAGGAAAAGTACCGGTTGCAGCAGCACATCGGCGTGGTGTTCCTCAAGGCCAAGGAGCGCGATCCGAACTTGCTGGCGCTGCTGGCGGAATGCCGGATGTACGCCAATCGCCAGGCTTGA	MLIDEELTLKKLEVFLAFMRTGNLARAAVELQTSNVSVHRAIHSLESALRCPLFKHEGRNLTPLESAYVLEERAQKLIQDVVESVRLTREAAGFSAERFKLGSLYSLTVKTVPQLIMGLKIRRSELNIDLIMGSNIDLLYKLKNMEVDAILVSLDDSVNDPDCEQIALFSDDIFLATPADSPFAQRSEVDLAEVRDETFITLTQGFATHQDGVRVFKQAGFEPKVAMQVNDIFTLLSMVSSGVGYALLPGRIAAVYENRVKLIPLQEKYRLQQHIGVVFLKAKERDPNLLALLAECRMYANRQA	PGPT0001715_186	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0001715-mdcR-K13928	NA	NA
D1-35_03698	618			hypothetical protein	ATGTATCACGGGGAACGGCTCAACGCCTGGACGCACCTGGTGGGCGCGGTCGCCGCGTTTATCGGTGCGGTGTGGCTGCTGGTGATTGCCGGGATGGCCGGCGATCCGTGGAAGATCGTCAGCGTGGCGATCTACGGGTTCACCTTGCTGGTGCTCTACAGCGCATCGACGGTTTATCACAGCGTGCGCGGGCGCAAGAAAGAGATCATGCAGAAGGTCGATCACTTTTCGATCTATCTGCTGATTGCCGGCAGCTACACGCCGTTCTGCCTGGTAACGCTGCGCGGGCCGTGGGGCTGGACGTTGTTCGGGATCGTCTGGGGGCTGGCGGTGATCGGTATCCTGCAGGAAATCAAGCCGCGTTCCGAAGCGCGGATCCTCTCGATCGTCATCTATGCGGTGATGGGCTGGATCGTTCTGGTGGCGGTCAAACCGCTACTGGCGGCGCTGGGCAGCGCCGGGTTTGCCTGGCTGGCCTCGGGAGGCGTGCTGTATACCGTCGGCATCATCTTCTTCGCGCTCGACCATCGCCTGCGCCACGCCCATGGCATCTGGCACCTTTTTGTCATCGCCGGCAGCCTTTTGCATTTCGTGGCGATTCTGTTCTACGTGCTTTGA	MYHGERLNAWTHLVGAVAAFIGAVWLLVIAGMAGDPWKIVSVAIYGFTLLVLYSASTVYHSVRGRKKEIMQKVDHFSIYLLIAGSYTPFCLVTLRGPWGWTLFGIVWGLAVIGILQEIKPRSEARILSIVIYAVMGWIVLVAVKPLLAALGSAGFAWLASGGVLYTVGIIFFALDHRLRHAHGIWHLFVIAGSLLHFVAILFYVL				NA	NA	NA	NA	NA
D1-35_03699	924			hypothetical protein	ATGCGCCTTCGTCATATCGAGATTTTCCAGGCGATTCGCCAGACCGGCTCCATCAGCGGCGCCGCCCAGTTGCTGCACGTTTCCCAGCCGGCGGTGACCAAGGTGCTGCAGCATGCCGAGCAGCAATTGGGGTTTGCGTTGTTCCTGCGGGTGCGCGGCAAGTTGCAGGCCACGCCCGAAGCGCTGGAGCTGGAACGCGAGGTCGACAAGGTCAGCGAAAGCCTGCAAGGCGTGCGGCGCCTGGCCCAAAGCCTGCGCCGCGAGCCGGGGCACAGCTTGCGAATCGGCGCCACACCGGCCTTGGCCCTGTCGCTGCTGCCCACGGCTATCCACCAATGGACCCGACGCTACCCGGACATCGTCTGCGAATTGTCGAGCGCCCACAGCCGCGAACTGACGCAAAACCTGCTGATGCGCGAGATCGATGTAGCCCTGAGCTTGCAATTGCCCGATCACCCAGGCCTCAAGGCCGAGCCCCTCGCCAGCGGCGTATTGGTAGCCCTGGCACCGAGCGGTCACTGGCCCGAAGCGGTAATCGGCACGCCTATGCCGTTGCAGGAGCTGGCCGGCGCGCCGTTGATCGGCTTGTCCAGCACCGACCCGCTGTCCGCCAGGCTGGATGGCTACCTCAAGTCAGTGGAGCCGCCGCCCCGAGTTAGCATTGCCGTGCAGACGTATTCACTGGCCCGGGCCATGGTCGAATCCGGCGCAGGGCTGGCGGTCATCGACCCGTTTACCGCCTTGGGGGCTTCACGCGCCCGTACGGCTATCCGGCCATTGTCGCCACCGTTGCCCATTGCCTTGTACGCCGTAACCCGCGCCAATGAAGCCCCCCCCCACACCGTGGGGGCCTTGCTGGAAATTGTCGCCAGCCAGGCCCAGGCGCAACTTGATCGCCTGTTTGCGACCGCTCAAAGCACGTAG	MRLRHIEIFQAIRQTGSISGAAQLLHVSQPAVTKVLQHAEQQLGFALFLRVRGKLQATPEALELEREVDKVSESLQGVRRLAQSLRREPGHSLRIGATPALALSLLPTAIHQWTRRYPDIVCELSSAHSRELTQNLLMREIDVALSLQLPDHPGLKAEPLASGVLVALAPSGHWPEAVIGTPMPLQELAGAPLIGLSSTDPLSARLDGYLKSVEPPPRVSIAVQTYSLARAMVESGAGLAVIDPFTALGASRARTAIRPLSPPLPIALYAVTRANEAPPHTVGALLEIVASQAQAQLDRLFATAQST				NA	NA	NA	NA	NA
D1-35_03700	1242	dadA1_2	COG0665	D-amino acid dehydrogenase 1	ATGGCTCAGCGGGTATGCATCATTGGCGGCGGCGTGGTCGGCCTGGCGACGGCTTACGCGCTGGTCCGCGATGGGATCGACGTCACGCTGGTGGAGGCGCGCGATGCATTGGGCAGCGAGACCAGCTTCGCCAACGGCGGCCAATTATCCTATCGCTACGTCACGCCGCTAGCCGACGCCGGGGTGCCGTGGCAGGCCTTGGGCTGGATGTTGCGCGGCGATTCGCCGCTCAAGCTGCGTCCGCGCCTGGACCCGGCCCAGTGGCGCTGGATGGCAGCGTTCATCGCCGCATGCCGGACTTCGGTCAACCGGCGCAACGGCGCCCATCTGTTGCGCCTGGCGCTGTTGAGCCAGACGACGCTGCGGATCTGGCGCGAAGAGGATCATCTCGATGGCTTCGAGTGGCGGCGCAACGGCAAGCTGGTGACGTTTCGCAGTGCCAGCCATTTTGCGCATGCCCGGCAACGTGTGGCCGACGCTGTTCATCAGCAGGTACTGGGCCCGAACGAATGCACGACGCTGGAACCTGCGCTGGCCGGCGTGCCGTTCGTGGGCGGCATCTACACACCTGATGAGGAAGTCGCCGATTGCCATGGCTTCTGCCTGCAACTCGCGGCGCGGCTGCGCGCTTCGGGGCGCTGCGAATTCCTCTTGGGGCGCGCGGTGACCGCTATCGAGCATGCCGACGGCGCGGTGCACGCCATCAACCTGGGCGAGCAGCGTGTGGAGGTCGAGCACCTGGTAATCGCCGCCGGCCACCGCAGCGTTGCGCTGGCATTGCCAGGCGTGCGGATGCCGCTGTATCCGCTCAAGGGCTACAGCCTGACGGTGCCGATCGACGCCCGGCATCGGGCGCCGGAACTGAGCATCACCGACTACGACCGCAAGGTCGTCTACGCGCGCATCGGTGAGCAGCTGCGGGTGGCGGCCATGGTCGACATCGTCGGCTTCGACCCGGCGCCGGATCCCAGACGCCTGGCTCTGATTCGGCGCCAGGCCATGGAAACATTTCCCATGGCCGGTGATTACGATCGCGCTGTGGAATGGGCGGGCATGCGCCCGGCGACGCCTAGCGGCGTGCCACTGATCGGCGCCAGCCCTTATCGCAACCTGTGGCTCAACCTCGGCCATGGTGCCTTGGGTTTTACCCTGGCCTGCGGCAGCGGTCGCTTGCTCAGTGAAATGATCCGCCAACGCACACCTTCCATCGACCTGCAGGGCCTCACGCCCCGCGCCGCCTGA	MAQRVCIIGGGVVGLATAYALVRDGIDVTLVEARDALGSETSFANGGQLSYRYVTPLADAGVPWQALGWMLRGDSPLKLRPRLDPAQWRWMAAFIAACRTSVNRRNGAHLLRLALLSQTTLRIWREEDHLDGFEWRRNGKLVTFRSASHFAHARQRVADAVHQQVLGPNECTTLEPALAGVPFVGGIYTPDEEVADCHGFCLQLAARLRASGRCEFLLGRAVTAIEHADGAVHAINLGEQRVEVEHLVIAAGHRSVALALPGVRMPLYPLKGYSLTVPIDARHRAPELSITDYDRKVVYARIGEQLRVAAMVDIVGFDPAPDPRRLALIRRQAMETFPMAGDYDRAVEWAGMRPATPSGVPLIGASPYRNLWLNLGHGALGFTLACGSGRLLSEMIRQRTPSIDLQGLTPRAA	PGPT0020315_3115	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
D1-35_03701	903	gltI_2	COG0834	Glutamate/aspartate import solute-binding protein	ATGCAAAAAATCACGTTGATCGGCTGTACCTTGAGCCTGCTGCTCGGCGCCCAGGCTTTTGCCAATGAAGCGCCTCCGGCCGGCACGCTGGAAAAGATCGCCAGCAACAAAAGCATCACGCTGGGCTATCGTGACGCCTCGGTGCCGTTTTCCTATGTCGGGGACAACAGCGGCAAACCGATGGGGTATTCGGTGGAGCTGGCGGGCAAGATCGTCGAGCGCATCAAGCAGCAACTGGCGCTGCCGCAACTGAGCGTGAAGTACAACCTGGTGACTTCCCAGACACGAATCCCGCTGGTGCAGAACGGCACCGTGGATCTGGAATGCGGCTCCACCGGCGTGACCGCCGAGCGGCAGAAGCAGGTGGCGTTTTCCTACGGGTTCATTTACGTGAAGGGCCAGTTGCTCACGGCCAGGGACAGCGGCATCCGGAGTTTCGCCGACCTGCGTGGCAAGAATGTGGTGACCACCGCCGGCACGACCAACGAGCGGTTCCTGAAGAGCTACAACCAGGACAACAAAGTCGACATGTTCGTCATCAGTGCCAAGGACCATGGCGAAGCCTTCCAGATGCTCGAGACCGGCCGGGCGGCGGCGTTCTACATGGACGATGCGCTGCTCTACGGCGAACGGGCCAAGGCGCGCGATCCGCATAAATGGGTGGTGGTCGGAGAAGAGCAGTCGCGGGAAATCTACAGCTGCATGGTGCGCAAGGACGATCCGCAATTCCTGGCGCTGGTCAACGCGACCCTGGCGGACTTGTACAAGTCAGGGGAAATCAATGCCATCTACGATCGCTGGTTCCAGAAGCCGATCCCGCCCAAGGGCCTGAATCTGGAATTTCCGATGACCAGCGAGTTGAAGGCGATCATCGCCAGGCCGACCAGCGAGCCGGTGCAGTAG	MQKITLIGCTLSLLLGAQAFANEAPPAGTLEKIASNKSITLGYRDASVPFSYVGDNSGKPMGYSVELAGKIVERIKQQLALPQLSVKYNLVTSQTRIPLVQNGTVDLECGSTGVTAERQKQVAFSYGFIYVKGQLLTARDSGIRSFADLRGKNVVTTAGTTNERFLKSYNQDNKVDMFVISAKDHGEAFQMLETGRAAAFYMDDALLYGERAKARDPHKWVVVGEEQSREIYSCMVRKDDPQFLALVNATLADLYKSGEINAIYDRWFQKPIPPKGLNLEFPMTSELKAIIARPTSEPVQ	PGPT0000750_535	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000750-gltI|aatJ-K10001	NA	NA
D1-35_03702	720	rsmE	COG1385	Ribosomal RNA small subunit methyltransferase E	ATGAGACTCTCCCGCTTCTTCATCGACACGCCCCTGAGCCTCGGCGATCACGAGCTGCCCGAAGCCCAGGCCCACTACATCGGCCGGGTGCTGCGCATGGCCGAGGGCGACGCGGTGCAAGTATTCGACGGCTCCGGACAGGAGTTTCGCGGCACCCTGGCCGAGGTCGGCAAAAAGCGCGTGCGCGTGCAGCTCGACGAGCAATTTGCCGGACAGGCCGAGTCGCCCTTGCGCATTCATCTCGGTCAGGGCCTGTCCCGGGGCGAGCGCATGGACTGGGCGATCCAGAAGGCCACGGAACTGGGCGTCAGCGAGATCACCCCGATATTCACCGAGCGCTGTGAAGTGCGCCTCAAGGACGAACGCGCCGACAAGCGTCTGCTGCACTGGCGCCAGGTGGCGATCAGCGCTTGCGAGCAATGCGGGCGTTCCAGTGTGCCGGTGATCCATCCTCCGCTGCTGCTGGTCGACTGGTTGAAACAGACCGACGCCGAGCTGAAACTGGTCCTGCACCCGGTCGCCGAACCGCTGGTCAGTCATGCCAGGCCGTCGACCCTGGCGTTCCTGATCGGCCCCGAGGGCGGGTTGTCGGATGCTGAAGTCGAACAGGCCAGGACCGCCGACTACCACGCCGCCCGCCTCGGTCCCCGCGTGCTGCGTACCGAAACCGCGCCGGTGGTGGCGCTGGCGGTGGCGCAGCAGTTGTGGGGGGATTTCTAA	MRLSRFFIDTPLSLGDHELPEAQAHYIGRVLRMAEGDAVQVFDGSGQEFRGTLAEVGKKRVRVQLDEQFAGQAESPLRIHLGQGLSRGERMDWAIQKATELGVSEITPIFTERCEVRLKDERADKRLLHWRQVAISACEQCGRSSVPVIHPPLLLVDWLKQTDAELKLVLHPVAEPLVSHARPSTLAFLIGPEGGLSDAEVEQARTADYHAARLGPRVLRTETAPVVALAVAQQLWGDF				NA	NA	NA	NA	NA
D1-35_03703	1407	bioA		Adenosylmethionine-8-amino-7-oxononanoate aminotransferase	ATGGGCCTGAATAACCAGTGGATGCAGCGCGATCTTGCCGTGCTATGGCACCCCTGCACCCAGATGAAAGATCACGAACAGCTGCCGCTGATTCCTATCCGGCGCGGCGAAGGCGTGTGGCTTGAGGACTTCGAAGGCAAGCGCTACCTCGATGCGGTGAGTTCCTGGTGGGTCAATGTGTTCGGCCACGCCAACCCGCGCATCAACCAGCGCATCAAGGATCAGGTCGATCAGCTTGAGCATGTGATCCTCGCCGGTTTCAGCCACCAGCCGGTGATCGAGTTGTCCGAACGCCTGGTGAAGATGACGCCCGAAGGCCTGACCCGGTGCTTCTATGCCGATAACGGCTCGTCCTGCATCGAAGTGGCGATGAAGATGAGCTTTCATTACTGGATCAATCGCGGCCGGCCCGACAAGAAACGCTTCGTTACCCTGAGCAACAGCTACCACGGCGAAACCATCGCGGCGATGTCGGTGGGCGATGTACCGCTGTTCACCGAAACCTACAAGGCGTTGTTGCTGGACACGCTCAAGGTGCCGAGCCCCGACTGCTACCACCGCCCCGAAGGCATGGGCTGGGAAGAACATTCGCGAAACATGTTCGCGGCCATGGAGCAAACCCTGGCCGAGCACCACGACACGGTGGCGGCGGTGATCGTCGAACCGCTGATCCAGGGCGCCGGCGGCATGCGCATGTACCACCCGGTGTACCTGAAGCTATTGCGTGAAGCCTGCGACCGCTATGGCGTGCACCTGATCCACGACGAAATCGCGGTCGGCTTCGGCCGCACCGGGACGATGTTTGCCTGCGAACAGGCCGGTATCACGCCAGACTTCCTTTGCCTGTCCAAAGCCCTGACCGGCGGCTACCTGCCGCTGGCGGCGTGCGTGACCACCGATGAGGTCTACAGCGCGTTCTACGACGACTACCCGACCCTGCGCGCCTTCCTGCATTCCCACAGCTACACGGGCAATCCGCTGGCTTGCGCGGCGGCGCTGGCGACCCTGGATATTTTCGAAGACGACAATGTCATCGAAACCAACAAGGCCCTGGCCCAGCGCATGGCCAGCGCCACCGCCCACCTGGTCGACCACCCGAACGTGGCCGAAGTGCGCCAGACCGGCATGGTCCTGGCCATCGAGATGGTCAAGGACAAGGCGAGCAAAACCGCGTACCCATGGCAGGAGCGGCGCGGCCTGACGGTCTTCCAGCATGCCCTGGAGCGCGGCGCCCTGCTGCGGCCGCTGGGCAGCGTTGTATATTTCCTGCCGCCGTATGTCATTACGCCGGAGCAGATCGATTTTCTGGCGGAAGTTGCCAGCGAAGGGATCGATATCGCCACCCGGGACAAGGTCAGCGTGGCGGTGCCGAAGGATTTCCACCCGGGGTATCGCGATCCGGGCTGA	MGLNNQWMQRDLAVLWHPCTQMKDHEQLPLIPIRRGEGVWLEDFEGKRYLDAVSSWWVNVFGHANPRINQRIKDQVDQLEHVILAGFSHQPVIELSERLVKMTPEGLTRCFYADNGSSCIEVAMKMSFHYWINRGRPDKKRFVTLSNSYHGETIAAMSVGDVPLFTETYKALLLDTLKVPSPDCYHRPEGMGWEEHSRNMFAAMEQTLAEHHDTVAAVIVEPLIQGAGGMRMYHPVYLKLLREACDRYGVHLIHDEIAVGFGRTGTMFACEQAGITPDFLCLSKALTGGYLPLAACVTTDEVYSAFYDDYPTLRAFLHSHSYTGNPLACAAALATLDIFEDDNVIETNKALAQRMASATAHLVDHPNVAEVRQTGMVLAIEMVKDKASKTAYPWQERRGLTVFQHALERGALLRPLGSVVYFLPPYVITPEQIDFLAEVASEGIDIATRDKVSVAVPKDFHPGYRDPG	PGPT0022100_202	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022100-bioA-K00833	NA	NA
D1-35_03704	1761	mnmC_3		tRNA 5-methylaminomethyl-2-thiouridine biosynthesis bifunctional protein MnmC	ATGTCTGCTGGTTGGCTGCGCGCCTGTGCGCTGGTGATGATAGGGCTGTTCAGCGTTTCGGCGCTGGCCAAGGACAAACAACCGACGGCCATCGTCATCGGCGGCGGGCTGGCCGGGCTCACGGCGGCCTACGAGTTACAGAACAAGGGCTGGGCCGTGACCCTGCTGGAAGCCAAACCGAGCCTGGGCGGCCGTTCGGGCATGGCCACCAGCGAGTGGATCGGCAACGATAAGGTCCAGCCGGTACTGAACAAGTACGTTTCGACCTTCAAACTGAGCACCACGCCGGCGCCGGAATTCGTGCGCACCCCCAGCTATCTGATCGACGGCACCTATTTTACTGCCACCGACCTGGCGACCAAGCAGCCAGCCACGGCCGAGGCGCTCAAGCGCTACGAAACCACCCTGGATGATCTGGCCCGTTCCATCGACGACCCACTGAACCCGACGGCTACCAGTACGTTACACGCGCTCGACCAGATCACCGTGTCCAACTGGCTGGACCGCTTGCAATTGCCGGCGACCGCCCGACAGTTGGTCAACCAGGAAATCCGCACGCGCTATGACGAGCCGTCGCGCCTGTCGTTGCTGTATTTCGCCCAGCAGAACCGCGTCTATCGCGGCGTGTCCGACCGTGACCTGCGCGCCTCGCGCCTGCTCGGTGGCAGCCCGGTATTGGCCCAGGCGTTCGTCAAGCAACTGAAAACCATCAAGACGAGCTCGCCGGTGTCGGCCATTTCCCAGGACAAGGACGGCGTCACCGTCAAGGTCGGCAGCGTCGGTTACCAGGCCGACTATGTTGTACTGGCCGTGCCCTTGCGAGCATTGAACAAGATTCAGCTGACCCCGGCCCTGGATGCCCAGCACCTGGGTGCGATCAAAGGCACCAACTACGGCTGGCGCGACCAGATCATGCTCAAGTTCAAGACCCCGGTCTGGGACAGCAAGGCACGCATGTCGGGCGAGATCTACAGCAACGCTGGCCTGGGCATGATGTGGATCGAGCCGGCCATGAAGGGTGGCGCCAACGTTGTCATCAACCTGTCCGGCGACAACGCACGGGTGATGCAGGCCTTCGGCGACAAGCAGATGGTCGACCAGGTGTTGATCCGCCTCCACGCGTTTTATCCACAGGCGCGCGGTGCATTCACCGGTTATGAAATCCGCCGCTACAGCACCGACCCTGCCATGGGCGGCGCGTACCTGGCGTTTGGTCCGGGCCAGATCAGCAAGTACTGGCGCCTGTGGGAAAAACCATTGCAGCGCGTCGCCTTTGCCGGCGAACACACCGACGCGCTGTACCCAGGCACCCTGGAAGGCGCACTGCGCAGCGGCCAGCGCGCCGCCAGCCAGGTTGAAGACCTGGCGGCGGGCAAGTCGTTCGAACCACCGAAGGTCGCCCCGGCCGCAGCAGCTGCCGCCGGAGCGGTGGCGGCGAAGAAAGGCAACTTCTTCAGCAACCTGTTCGGCGGCTCGGATGACGACAAGAAGCCGGAGCCGGCCAAGGCTCCCGAGCCGGTAGCACCGCCTCCAGCGCCGGCACCGGCCCCCGTCCCAGCCCCTGCGCCGGTGGAACCACCCGCGCCGGCGCCAGCGAAGACCGAGCCAGCCAAGAAAGCCACGGCCAAGCCAGCGGCGAAGAAGCCGGCGGCCAAGGCCCCGGCTAAAAAGGCCCCGGCCAAGGCACCAGTGAAAAAGGCTGAGCCAGTGAAGAAACCCGCCGCCAAACCGGCGGCAACTACTGAGACGAAGGCTCAGTAA	MSAGWLRACALVMIGLFSVSALAKDKQPTAIVIGGGLAGLTAAYELQNKGWAVTLLEAKPSLGGRSGMATSEWIGNDKVQPVLNKYVSTFKLSTTPAPEFVRTPSYLIDGTYFTATDLATKQPATAEALKRYETTLDDLARSIDDPLNPTATSTLHALDQITVSNWLDRLQLPATARQLVNQEIRTRYDEPSRLSLLYFAQQNRVYRGVSDRDLRASRLLGGSPVLAQAFVKQLKTIKTSSPVSAISQDKDGVTVKVGSVGYQADYVVLAVPLRALNKIQLTPALDAQHLGAIKGTNYGWRDQIMLKFKTPVWDSKARMSGEIYSNAGLGMMWIEPAMKGGANVVINLSGDNARVMQAFGDKQMVDQVLIRLHAFYPQARGAFTGYEIRRYSTDPAMGGAYLAFGPGQISKYWRLWEKPLQRVAFAGEHTDALYPGTLEGALRSGQRAASQVEDLAAGKSFEPPKVAPAAAAAAGAVAAKKGNFFSNLFGGSDDDKKPEPAKAPEPVAPPPAPAPAPVPAPAPVEPPAPAPAKTEPAKKATAKPAAKKPAAKAPAKKAPAKAPVKKAEPVKKPAAKPAATTETKAQ	PGPT0007641_160	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007641-aofH-K00274	NA	NA
D1-35_03705	162			hypothetical protein	ATGAAAATACTGATGGCAATGCTCGTATCGGTTTCGCTGTACGGGTGTGTGTATGGTGAATGTCGGGATCCCCTGATGATCCCGATGGTTCCGGAACGGGACCCTCAGTTGGCGTACAAATGCACCTTCGACCCATACCACCCCAAATGCTCAGTGAATTGA	MKILMAMLVSVSLYGCVYGECRDPLMIPMVPERDPQLAYKCTFDPYHPKCSVN				NA	NA	NA	NA	NA
D1-35_03706	552	yceJ_3	COG3038	Cytochrome b561	ATGCAGCTACGCAACTCTTCTTCTCGCTATGGCTGGGTCAGCATCGTTTCGCACTGGGCCGTTGCCTTGGCGGTGTATGGGCTGTTCGCGCTGGGCCTGTGGATGGTCGGGCTGGATTATTACAGCACCTGGCGCAAAGACGCGCCGGACATCCATAAGAGCATCGGCCTGGTGCTGTTGGCGGTGATGGTGCTGCGAGTGATCTGGCGTTTCGTCAGCCCGCCGCCACCGACCCTGGAGACCTATGGCCGCCTTACACGCGTCGGCGCCAGGATTGGCCATAGTGCACTGTATCTCGGGCTGTTCGCCGTGATGATCGCCGGTTACCTGATTTCCACCGCAGACGGTGTCGGGATCTCGGTGTTTGGTTTGTTTGAAGTACCCGCGCTGGTGTCCGGACTGCCCGATCAGGCAGACGTCGCCGGCCAGATCCACTTCTACCTGGCATGGGCGCTGGTAATTTTTTCCGGCCTCCATGCGTTGGCAGCATTGAAGCACCACTTTATCAACCGTGACGCGACCCTCAAGCGCATGCTGGGGCGCCAAGCCTGA	MQLRNSSSRYGWVSIVSHWAVALAVYGLFALGLWMVGLDYYSTWRKDAPDIHKSIGLVLLAVMVLRVIWRFVSPPPPTLETYGRLTRVGARIGHSALYLGLFAVMIAGYLISTADGVGISVFGLFEVPALVSGLPDQADVAGQIHFYLAWALVIFSGLHALAALKHHFINRDATLKRMLGRQA				NA	NA	NA	NA	NA
D1-35_03707	615	yceI	COG2353	Protein YceI	ATGTTCAACCTCGACTCCAAAGGAATAGAAAGCATGTTGAAAAAGACGCTCGCCGCCCTGGCAATCGGTTCCGCCCTGCTGTCCGCCGGCCAGGCCATGGCCGCAGACTACGTGGTCGACAAGGAAGGCCAGCATGCCTTCGTCGACTTCAAGATCAGCCACCTGGGCTACAGCTACATCACCGGTACCTTCAAGGACATCGACGGCAAGTTCAGCTTCGACGCCGCCAAGCCTGAAGCCAGCAAGATCGAATTCAACGTCAACACCGCCAGCGTGTTCACCAACCACGCCGAACGTGACAAGCACATCGCCAGCGCTGACTTCCTGAACGCCAGCAAATTCGGCAAGGCCACCTTCGTGTCCACCAGTGTCAAGTCCACCGGCGCAAACACCGCCGATGTGACCGGTGACCTGACCCTGCTGGGCGTGACCAAGCCGGTCGTGGTCAAGGCAACCTTCCTGGGCGAAGGCAAGGACCCATGGGGTGGCTACCGTGCCGGCTTCGAAGGCACTACCACGATCAAGCGTTCCGACTTCGGCAAGCAGAAAGACCTGGGTCCGAAATCCGACGTGGTCGAGCTGTACGTGACGTTTGAAGGTGTTCAGCAGAAGTAA	MFNLDSKGIESMLKKTLAALAIGSALLSAGQAMAADYVVDKEGQHAFVDFKISHLGYSYITGTFKDIDGKFSFDAAKPEASKIEFNVNTASVFTNHAERDKHIASADFLNASKFGKATFVSTSVKSTGANTADVTGDLTLLGVTKPVVVKATFLGEGKDPWGGYRAGFEGTTTIKRSDFGKQKDLGPKSDVVELYVTFEGVQQK				NA	NA	NA	NA	NA
D1-35_03708	1875	rhlE_2		ATP-dependent RNA helicase RhlE	ATGTCCTTTGCTTCCCTCGGTCTCTCCGAGGCTTTAGTCGGCGCCATCGAAGCCGCCGGCTACACCCAGCCTACCCCGGTGCAACAGCGGGCCATCCCCGCCGTGTTGCAAGGTCGCGACCTGATGGTCGCCGCACAGACAGGTACTGGTAAAACCGGCGGTTTCGCCCTTCCGATCCTGGAGCGGCTGTTCCCCAACGGTCATCCGGACAAATCCCAGCGTCACGGCCCGCGCCAACCCCGCGTGCTGGTCCTGACCCCAACCCGCGAACTGGCGGCCCAGGTCCACGAGAGCTTCAAGGTCTACGCGCGTGACCTGAAGTTCGTCAGCGCCTGCATCTTCGGCGGCGTCGGCATGAACCCGCAGGTCCAGGCCATGGCCCGTGGCGTCGATGTCCTGGTGGCCTGCCCCGGCCGCCTGCTGGACCTGGCCGGCCAGGGCAGCGTCGACTTGTCCCACGTGGAAATCCTCGTGCTGGACGAAGCCGACCGCATGCTCGACATGGGTTTTGTCCATGACGTTAAAAAAGTGCTGGCCCGCCTGCCAGCCAAGCGCCAGAACCTGCTGTTCTCGGCGACGTTCTCCAAGGACATCACTGACCTTGCCGGCAAGCTGCTGCACAACCCGGAACGCATCGAAGTCACGCCGCCGAACACCACGGTCGAGCGCATCGAGCAACGCGTGTTCCGCCTGCCGGCCAGCCACAAGCGTGCCCTGCTGGCCCACCTGATCACCACGGGCGCCTGGGAACAGGTCCTGGTCTTCACCCGCACCAAGCACGGCGCCAATCGCCTGGCCGAATACCTGGACAAGCACGGCCTGCCAGCTGTGGCGATCCACGGCAACAAGAGCCAGAACGCCCGCACCAAGGCCCTGGCCGACTTCAAGGCCGGCGAAGTGCGCATCCTCGTAGCCACCGACATCGCCGCCCGTGGCCTCGATATCGACCAGTTGCCTCACGTGGTCAACTTCGAGCTGCCGAACGTCGATGAAGATTACGTCCACCGTATCGGCCGTACCGGCCGGGCCGGTCGTTCGGGCGAGGCGATTTCCCTGGTCGCGCCGGATGAAGAGAAGTTGCTCAAAAGCATCGAGCGCATGACCAAGCAGAAAATCCCTGACGGCGACCTGATGGGCTTTGATGCCAGCACCATCGAGGCCGAGAAGCCTGAAGTGCGTGAGCGTCCGGATGTGCGCAATCCGCGTAATCCTCGTGGCCCGCGTGGCGACGGCCCGAATGGCGGCGGTGGTGGCGGCGGTCGTAAGGACAAAGGCAAGGACAAGGGCAAGGAAAAATCGGCCAGCAACAGCAACGGTCGCGGCGAACGCCCAGCCCGCGAGCAGAAGCCCCGCGAAGGCACTCCGGCCCGTGAGCAGCAACGCCCTGCCCCGCGCGCCGCGGCCGCCGACCGCGCCCCGGACGAATTCCTCGACGACGATGTCGATAACTTCGGTAACCGCGTGGACTACGTGCCGCAGCAGAAACCGGCCCAGGGTCGCGGTCGCCGTCCGGGCGCCCCGGCAACAGGCGCTGGTGCCGGCGCCCCCCGCGGTGGCCAGCCACAGGGTCGCCAGAACGGACCGCGCAACAGCAACGGCTCGTCCACCGGCACTCCGCCAGGCAAGCGCAGCGGTCCGCGTAATGGCGCCCCACGTGACGGCCAGGCCCGCCGCGAAGAGTCCCGTCCACGCCGCCCGGCACGTGACGATGACCAACCTCGTCAGGAACCTGCCGTGCAGAACCCGCGTGGCAACCAGCCGAAAATCATGCACAAGGAATCGAAGGTTGATCGTTTCCCGACGCCTGAACAGCTGGACCAATTGCCAAGCCGTCCACGTGGCGAAAAGCCGGCCTTGCTGACGCGCAATCGCTGA	MSFASLGLSEALVGAIEAAGYTQPTPVQQRAIPAVLQGRDLMVAAQTGTGKTGGFALPILERLFPNGHPDKSQRHGPRQPRVLVLTPTRELAAQVHESFKVYARDLKFVSACIFGGVGMNPQVQAMARGVDVLVACPGRLLDLAGQGSVDLSHVEILVLDEADRMLDMGFVHDVKKVLARLPAKRQNLLFSATFSKDITDLAGKLLHNPERIEVTPPNTTVERIEQRVFRLPASHKRALLAHLITTGAWEQVLVFTRTKHGANRLAEYLDKHGLPAVAIHGNKSQNARTKALADFKAGEVRILVATDIAARGLDIDQLPHVVNFELPNVDEDYVHRIGRTGRAGRSGEAISLVAPDEEKLLKSIERMTKQKIPDGDLMGFDASTIEAEKPEVRERPDVRNPRNPRGPRGDGPNGGGGGGGRKDKGKDKGKEKSASNSNGRGERPAREQKPREGTPAREQQRPAPRAAAADRAPDEFLDDDVDNFGNRVDYVPQQKPAQGRGRRPGAPATGAGAGAPRGGQPQGRQNGPRNSNGSSTGTPPGKRSGPRNGAPRDGQARREESRPRRPARDDDQPRQEPAVQNPRGNQPKIMHKESKVDRFPTPEQLDQLPSRPRGEKPALLTRNR	PGPT0013740_103	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
D1-35_03709	777			hypothetical protein	ATGCCCGTCTTTACCCAACTCCTGACCGTCCTGTTACTCCTGTGCCTGAGCGTTTGCGCCCGGGCCGAGAAGCTGCGCATCGTCACCGAACCCTGGGCGCCCTACGTCTATGAGGAGAACGGCAGGGCCCTGGGCCTGGACTATGAAACCACCGCCATCGTGTTCAAGCGCCTGGGCGTTGATGTCGAATGGCAGTTCCTGCCTTGGAAGCGTTGCCTGGCGATGCTGGAACAGGGGCTGGCAGACGGTGCACTGGATATCTTTCGCAGCGAGGAGCGCGACTCCCTGCTGCTCTACCCGAGCGAACCGCTGTCGGACGTCGAGTTCGTGATGTTCTACGCCAACGCCCGGCCCCATCCGTTTCGCACGCTCGACGAGCTCGAAGGACTGACCGTCGGCACGTCTCCGGGTTATCTGTACAGCCAGGCGTTCAGGGAATCGACCCGGTTCAAGCGGGAAACCGCGCCCACCCATGAAGCCAATTTCGGCAAGTTGCAGTTGGGCCGGATCGACCTGCTCATCACCGACCGCCGAGTGGGCCGGCATGTGCTCAAGGCGCTGCAACTGGGTGACCAGATCAGCGAAAATCCCACGGTCGTGAGCCGTCAAAGCCAATACCTGGCGGTACGGCGCAGCGCCGGCATGGATTTGCTGGTGCAGCGCTTCGGTGCTGAACTCAAGCGTTTCAAGCGCGAACCGGCCTATGCCGAGCTGAGCGCCCGCTATGGTGCAGACCCGGCCGGCAAGGCGGCACCGCAAGACCCGGTACCCCACTGA	MPVFTQLLTVLLLLCLSVCARAEKLRIVTEPWAPYVYEENGRALGLDYETTAIVFKRLGVDVEWQFLPWKRCLAMLEQGLADGALDIFRSEERDSLLLYPSEPLSDVEFVMFYANARPHPFRTLDELEGLTVGTSPGYLYSQAFRESTRFKRETAPTHEANFGKLQLGRIDLLITDRRVGRHVLKALQLGDQISENPTVVSRQSQYLAVRRSAGMDLLVQRFGAELKRFKREPAYAELSARYGADPAGKAAPQDPVPH	PGPT0020800_11498	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
D1-35_03710	846	metF	COG0685	5,10-methylenetetrahydrofolate reductase	ATGTCCCAAGAACGTCGCTACAGCTTCGAGTTCTTCCCGACGAAGACCGATGCTGGGCATGAAAAACTGATTGCCACTGCCCGACAGCTGGCAGGCTACAAACCTGATTTTTTCTCCTGCACCTATGGCGCCGGCGGTTCGACCCGTGACCGCACGATGAATACCGTGCTGCAGCTTGAAAGCGAAGTCAAAGTCCCGGCCGCTCCGCACCTGTCCTGCGTGGGCGATAGCAAGGATGACCTGCGTAGCCTGCTGACCCAGTACAAGGCCGCCGGCATCAAGCGTATCGTCGCCCTGCGCGGTGACCTGCCCTCGGGCATGGGCATGGCCAGCGGTGAACTGCGGCACGCCAACGAGCTCGTCGAGTTCATCCGCCAGGAGACCGGCGAGCACTTTCATATTGAAATCGCCGCGTATCCGGAGATGCATCCGCAAGCACGCAATTTCGAAGACGACCTGAGCAATTTCGTGCGCAAGGCCAACGCCGGCGCCAACAGCGCGATTACCCAGTATTTCTTCAACGCCGACAGCTACTTCTACTTCGTCGAGCGTGTGCGCAAGTTGGGTGTCGACATTCCGGTGGTACCGGGCATCATGCCGATCACCAACTACAGCAAACTGGCGCGTTTTTCCGACGCCTGCGGCGCGGAAATCCCGCGCTGGATCCGCAAGCAACTGGAAGCCTACGGCGATGACACGGCCAGCATCCAACGCTTCGGCGAGGAGGTCATCACGCACATGTGTGAACGACTGTTGCAAGGTGGCGCGCCGGGCCTGCACTTCTACACGTTGAACCAGGCCGAGCCGAGCCTCGCTGTGTGGAACAACCTCAAGCTGCCGCGCTAG	MSQERRYSFEFFPTKTDAGHEKLIATARQLAGYKPDFFSCTYGAGGSTRDRTMNTVLQLESEVKVPAAPHLSCVGDSKDDLRSLLTQYKAAGIKRIVALRGDLPSGMGMASGELRHANELVEFIRQETGEHFHIEIAAYPEMHPQARNFEDDLSNFVRKANAGANSAITQYFFNADSYFYFVERVRKLGVDIPVVPGIMPITNYSKLARFSDACGAEIPRWIRKQLEAYGDDTASIQRFGEEVITHMCERLLQGGAPGLHFYTLNQAEPSLAVWNNLKLPR	PGPT0008160_3558	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008160-metF-K00297	NA	NA
D1-35_03711	1410	ahcY	COG0499	Adenosylhomocysteinase	ATGAGCGCTGTTATCACGCCTGCAGCTTTTACCGACTACAAAGTCGCTGACATGTCCCTGGCTGCCTGGGGCCGTCGCGAAATCATCATCGCCGAATCCGAAATGCCAGCCCTGATGGGCCTGCGCCGCAAATACTCTGGCGAACAGCCATTGAAGGGCGCAAAAATCCTCGGCTGCATCCACATGACCATCCAGACCGCCGTGCTGATCGAAACCCTGGTTGCCCTGGGTGCCGAAGTGCGCTGGTCGTCCTGCAACATTTTCTCGACCCAGGACCAGGCCGCTGCCGCGATCGCCGCTGCCGGCATCCCGGTTTTTGCCTGGAAAGGCGAGACCGAGCAAGAGTACGAATGGTGCCTGGAGCAGACCATCCTCAAGGATGGCCAGCCATGGGACACCAACATGATTCTTGACGACGGCGGCGACCTGACCGAGCTGCTGCACAAGAAATACCCGGCCGTGCTGGACAAGGTCCACGGCGTGACCGAAGAAACCACCACCGGCGTCCACCGCCTGCTGGACATGCTGGCCAAGGGCGAGCTGAAGATTCCGGCCATCAACGTCAACGACTCGGTGACCAAGAGCAAGAACGACAACAAGTACGGTTGCCGTCACAGCCTCAACGACGCCATCAAGCGCGGCACCGACCACTTGCTGTCCGGCAAGCAGGCGCTGGTGATCGGCTACGGTGACGTGGGCAAGGGTTCGGCCCAGTCCCTGCGTCAGGAAGGCATGATCGTCAAGGTGTCCGAAGTCGATCCGATCTGCGCCATGCAAGCCTGCATGGACGGTTTCGAACTGGTATCGCCGTTCATCGACGGCAACAACGACGGCACCGAAGCCAGCGTCGACAAGGCACTGCTGGGCAAGATCGACCTGATCGTGACCACCACCGGCAACGTCAACGTCTGCGACGCCAACATGCTCAAGGCCCTGAAAAAGCGCGCCGTGGTCTGCAACATCGGTCACTTCGACAATGAAATCGACACCGCTTTCATGCGCAAGAACTGGGCATGGGAAGAAGTGAAGCCACAGGTGCACAAGGTTCACCGCACCGGTACCGGCAGCTTCGACCCGCAGAACGATGACTACCTGATCCTGCTGGCCGAAGGCCGCCTGGTGAACCTGGGCAACGCCACCGGTCACCCAAGCCGCATCATGGACGGTTCGTTCGCCAACCAGGTCCTGGCCCAGATCTTCCTGTTCGGCCAGAAATACGCCGACCTGCCACCGGCGCAGAAAGCCGAGCGCCTGACCGTTGAAGTATTGCCGAAGAAACTCGACGAAGAAGTGGCCCTGGAAATGGTCCGCGGTTTCGGCGGCGTGGTCACCAAGCTGACCAAGCAACAGGCTGACTACATCGGCGTGACCGTCGAAGGCCCGTTCAAGCCGCACGCCTACCGCTACTGA	MSAVITPAAFTDYKVADMSLAAWGRREIIIAESEMPALMGLRRKYSGEQPLKGAKILGCIHMTIQTAVLIETLVALGAEVRWSSCNIFSTQDQAAAAIAAAGIPVFAWKGETEQEYEWCLEQTILKDGQPWDTNMILDDGGDLTELLHKKYPAVLDKVHGVTEETTTGVHRLLDMLAKGELKIPAINVNDSVTKSKNDNKYGCRHSLNDAIKRGTDHLLSGKQALVIGYGDVGKGSAQSLRQEGMIVKVSEVDPICAMQACMDGFELVSPFIDGNNDGTEASVDKALLGKIDLIVTTTGNVNVCDANMLKALKKRAVVCNIGHFDNEIDTAFMRKNWAWEEVKPQVHKVHRTGTGSFDPQNDDYLILLAEGRLVNLGNATGHPSRIMDGSFANQVLAQIFLFGQKYADLPPAQKAERLTVEVLPKKLDEEVALEMVRGFGGVVTKLTKQQADYIGVTVEGPFKPHAYRY				NA	NA	NA	NA	NA
D1-35_03713	402			hypothetical protein	ATGAATTTCCACACCCGCAAATGGGTCAAGCCCGAAGACCTCAACCCCAACGGCACGCTGTTCGGTGGCAGCCTGCTGCGCTGGATCGACGAAGAAGCGGCGATCTATGCCATCGTCCAGCTCGGTAACCAGCGTGTGGTCACCAAATACATCTCCGAAATCAACTTTGTCAGCGCCTCGCGCCAGGGCGACATCATCGAACTGGGTATCACCGCCACCGAGTTCGGCCGCACGTCCATCACCCTGACGTGCGAGGTGCGCAACAAGATCACTCGCAAGAGCATCCTGACGGTGGAAAAGATGGTATTCGTCAACCTCGGTGAAGACGGCTTGCCCGCGCCCCATGGCCGGACCGAGATCAAGTACGTCAAGGATCAGTTCAAGGACGATACCGTCGAATAG	MNFHTRKWVKPEDLNPNGTLFGGSLLRWIDEEAAIYAIVQLGNQRVVTKYISEINFVSASRQGDIIELGITATEFGRTSITLTCEVRNKITRKSILTVEKMVFVNLGEDGLPAPHGRTEIKYVKDQFKDDTVE	PGPT0001830_10	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001830-yciA-K10806	NA	NA
D1-35_03714	885	yfdC	COG2116	Inner membrane protein YfdC	ATGGACACTCATAAAGACGGCAAGACCCCTGACCTCTCGGCAGAGGAGCAGCACGAGGTCGACCGCAACCAGCCGCCACGGGCGGCGGTATTGCATGAAATCATTCGCACCCAGGGTGATCAGGAGCTGGAGCGCAGTGTCGCCGCCCTGTGGTGGTCGGCCCTGGCGGCCGGTTTGACGATGGGCTTGTCGCTGATGGCGATGGGGCTGCTCAACTCCCGGTTGCCGGACCATGAAGGCTTCAAGGTCATCGCCAGTTTTGGCTACTGCGCCGGCTTCCTGGCCGTGATCCTCGCGCGGCAGCAGTTGTTCACCGAAAACACCCTGACGGCGGTGCTGCCGATCATGAGCAAACCCACGCTGGGCAATTTCGGCCGGTTGTTCCGGTTATGGGGCGTGGTGCTGGTGGGCAACCTGTGCGGCACCTTGCTGGTGGCCTATGTGATGCTGCACCTGCCGATCTTTGACCGGCGCACCGACCTGGCCTTTCTGGACATTGGCCGCAAGGTGATGGAGAACGACGCCGGCCAGATGTTCGCCAAAGGCATCATTTCCGGCTGGATGATCGCAACCATGGTGTGGATGATCCCCTCCATGGAGAACGCCAAGATGTGGATCATTGTCCTCATCACCTACCTCATGGCGCTCGGGGATTTCACCCACATCGTCGTGGGATCGGCCGAGGTGTCTTACCTGGTGTTTGCCGGGCAGCTGTCGTGGGAGGACTTCTGGACGGTGTTCGCCGCGCCGACCCTGGCGGGAAACATCATCGGCGGCAGCTTCATCTTTGCGCTGATCAGCCACGCCCAGGTGCGCAGCGAAACCAATACGCCCCTCAGTCGGCAAGGTCTGCCGCCGCGCCGACGTGACGTTGCCGATAAATGA	MDTHKDGKTPDLSAEEQHEVDRNQPPRAAVLHEIIRTQGDQELERSVAALWWSALAAGLTMGLSLMAMGLLNSRLPDHEGFKVIASFGYCAGFLAVILARQQLFTENTLTAVLPIMSKPTLGNFGRLFRLWGVVLVGNLCGTLLVAYVMLHLPIFDRRTDLAFLDIGRKVMENDAGQMFAKGIISGWMIATMVWMIPSMENAKMWIIVLITYLMALGDFTHIVVGSAEVSYLVFAGQLSWEDFWTVFAAPTLAGNIIGGSFIFALISHAQVRSETNTPLSRQGLPPRRRDVADK	PGPT0000590_420	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_FORMATE_TRANSPORT,PGPT0000590-yfdC-K21990	NA	NA
D1-35_03715	1170	ydhP_3	COG2814	Inner membrane transport protein YdhP	ATGCCACTCGCCTTGCTTGCTTTGGCCGTCGCCGCTTTCGGCATCGGCACGACTGAATTCGTCATCATGGGGCTGTTGCCTGATGTCGCCCGTGACCTGGCCGTGAGCATTCCCCACGCCGGGCTGCTGATTACCGGCTATGCGCTGGGGGTGGTATTCGGCGCACCGATCCTGGCGATCGGCACCGCGAACATGCCGCGCAAGGCCACGCTGCTGGGCATGACGCTGATGTTCATTCTCGGCAACGTGCTCTGCGCCCTCGCGCCGAACTACGTCACGCTGATGGCTGCCCGAGTCATCACCGCGCTCTGTCACGGGGCATTTTTTGGCATCGGGTCGGTGGTGGCCGCCGGGCTGGTAGCACCGAACAAACGGGCCCAGGCGATTGCAATGATGTTCACCGGCCTGACCCTGGCGAATGTGCTGGGCGTGCCGCTGGGCACGGCCTTGGGTCAATACGCCGGCTGGCGATCGACGTTCTGGGCGGTAGCGGTCATCGGCATGATTGCAGCCATCGCCCAATGGGTGTGGCTGCCCAAGGAAATTCCCATGGACAAGGCCAACCTCGCCAGTGAGTTCAAGGTGCTGGGCAAGGCCAATGTGCTGCTGGCGCTGGGCATGAGCGTGCTGGCTTCGACCAGCCTGTTCAGCGTGTTCACTTACATCGCACCGATCCTGCAGGACATCACTGGCGTGAGTCCCCACGGCATCACCGTCATGCTGTTGTTATTCGGCGTGGGCCTGACGGCGGGGAGTTTCCTGGGCGGACGCCTGGCTGACCGGCGCTTGCTGCCGTCCCTTGTGGGCATGGCGCTGGCCGTGGTGCTGGTGCTCGCCGCGTTCAGCCAGACCAGCCAATCGGTGATTCCGGCGGCGATCACCCTGGTGTTGTGGGGCGTCTTTGCGTTCGCCCTGTGCCCGATCCTGCAATTGCTGATCATCGATCAGGCCCACGAAGCCCCCAACCTGGGCTCGACCCTGAACCAGAGCGCCTTCAACCTGGGCAACGCGGCCGGCGCCTGGATCGGCGGCCTGGTGGTCGCCAGCGGCGCCGACCTCGCCGATTTGCCGTGGACCGGCGCCCTGGTCGGCGGGCTCACCGTACTGACCGCGCTTTACTTCATTTATCGGCAACGTCACGTCGGCGCGGCGGCAGACCTTGCCGACTGA	MPLALLALAVAAFGIGTTEFVIMGLLPDVARDLAVSIPHAGLLITGYALGVVFGAPILAIGTANMPRKATLLGMTLMFILGNVLCALAPNYVTLMAARVITALCHGAFFGIGSVVAAGLVAPNKRAQAIAMMFTGLTLANVLGVPLGTALGQYAGWRSTFWAVAVIGMIAAIAQWVWLPKEIPMDKANLASEFKVLGKANVLLALGMSVLASTSLFSVFTYIAPILQDITGVSPHGITVMLLLFGVGLTAGSFLGGRLADRRLLPSLVGMALAVVLVLAAFSQTSQSVIPAAITLVLWGVFAFALCPILQLLIIDQAHEAPNLGSTLNQSAFNLGNAAGAWIGGLVVASGADLADLPWTGALVGGLTVLTALYFIYRQRHVGAAADLAD	PGPT0028991_3377	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
D1-35_03716	384			hypothetical protein	ATGACGGTAGCCCTGTGGTGCGTTTTGATTGCTTTTATCCTGCCTTACCTGTGTATCGGCATCGCCAAGGCCGGCGGCAGATACAGATTGCAAGATAACCACGACCCCCGGGATTTTCTCGACTCGCTCGAAGGCGCTCCCCGCCGTGCCTACGCCGCGCAATTGAACAGCTTTGAAATCGCCCCGTTTTTTGCCGCCGCCGTGATCGTCGCGCATCTGGCCGGCAATGCCGAGCTGGTCACCATCAATGTGCTGGCGGTGCTATTCATCACCAGCCGCCTGCTCTACGTCATTTGCTACCTGGCGGACTGGGCGATCCTGCGTTCGCTGGTGTGGTTCGTGGGGGTAGGGTTGGTACTGAGTTTCTTCTTTGTTTCGGTCTGA	MTVALWCVLIAFILPYLCIGIAKAGGRYRLQDNHDPRDFLDSLEGAPRRAYAAQLNSFEIAPFFAAAVIVAHLAGNAELVTINVLAVLFITSRLLYVICYLADWAILRSLVWFVGVGLVLSFFFVSV				NA	NA	NA	NA	NA
D1-35_03717	1188	mltA	COG2821	Membrane-bound lytic murein transglycosylase A	ATGAACAGCCGCTTCAAGTCCTGGCGCACGGGCCTGGCGTTGACCTTACCGCTGATTGCACTGCTGGCCGGCTGCAACCGCGGCGAAAAGGTCGAAGAGCCTCAGACTCATGCCCTCGCCACCTACGTCAGCGCGCCCTGGGAGGCACTGCCGTCGGTAGCCGATGAAGACCTGCTGGCCGGCTTCGGCGCCTGGCGCAGCGCCTGCACCCGCCTCAAGGCCGATGCGGCCTGGGGGCCGACCTGCGCGGCGGCGGCCAATGTGCCGCAAACCGCCGCGGCGGTACGCAGCTTCCTGAAACAGAACCTCGACGTCTATGGCCTGCGCTCGGGCGACAACAGCCCCAACGGCCTGATTACCGGCTACTACGAGCCGGTCTATCCCGGCAGCCTCATGCAGACCGCCACGGCGAATATCCCGGTCTACGGTGTGCCTGAGGACATGATCGTCGTGGCGCTGGACAGCCTCTACCCGGAGCTCAAGGGCAAGCGCCTGCGCGGGCGTCTCGAAGGCCGCGTGCTGAAACCCTACGACGACGCCAGCACCATCGAGGCCAACGGCGTGAAGGCGCCGGTCATCGCCTGGCTCACCGACCCGATGAACCTGCAATTCCTGCAGATCCAGGGTTCGGGACGCATCCGGCTCGATGACGGCCGCCAGTTGCGCATCGGTTATGCCGACCAGAATGGCCACCCCTACCGGCCCATCGGCCGCTGGCTGGTGGAACAGGGCGAGCTGAAAAAAGAAGACGTGACCATGGGCACCATCAGTGCCTGGGCCAAGGCCCATCCGGAGCGGATCCCCGAGTTGCTGGGCAGCAACCCCAGCTATGTATTTTTCAACCGCAACCCCGACAGCAACGAAGGCCCGCGAGGCTCGTTGAATGTACCGCTTACCGCCGGCTACAGCGTGGCGGTGGATCGCAAGGTGATTCCGTTGGGCAGCCTGCTGTGGCTGTCGACGACTCGCCCCGATGGCAGCGCCCTGAACCGTCCCGTCGCCGCCCAGGACACGGGGGGTGCGATCTCTGGCGAAGTTCGGGCGGATCTGTTCTGGGGCACCGGGGACGCGGCCGGGCAACTGGCCGGGGACATGAAACAGCAAGGTCAGATCTGGATGTTGTGGCCCAAGGGCATGGCGCTGCCACAAGTGCCACAGGTGGCGAATGCGGTCAGCGCCAATCCTTGA	MNSRFKSWRTGLALTLPLIALLAGCNRGEKVEEPQTHALATYVSAPWEALPSVADEDLLAGFGAWRSACTRLKADAAWGPTCAAAANVPQTAAAVRSFLKQNLDVYGLRSGDNSPNGLITGYYEPVYPGSLMQTATANIPVYGVPEDMIVVALDSLYPELKGKRLRGRLEGRVLKPYDDASTIEANGVKAPVIAWLTDPMNLQFLQIQGSGRIRLDDGRQLRIGYADQNGHPYRPIGRWLVEQGELKKEDVTMGTISAWAKAHPERIPELLGSNPSYVFFNRNPDSNEGPRGSLNVPLTAGYSVAVDRKVIPLGSLLWLSTTRPDGSALNRPVAAQDTGGAISGEVRADLFWGTGDAAGQLAGDMKQQGQIWMLWPKGMALPQVPQVANAVSANP	PGPT0023780_664	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023780-mltA-K08304	NA	NA
D1-35_03718	540			hypothetical protein	ATGCGCCTGGCACCCGTATTGTTGATAGGGCCATTGGTGTTTTCCGACGACCCGGGGATACTAGCGGTCGTTTTCTGTCCAGAGGCCAAAATGTTTGTAAGACGATTTTCCATGGCAGTGCTGGCCTGCCTGATGCTGTCCGCCTGTGGTGGTGTCGATCCCAACTCACCATTGGGCCAGCGCAAGACGATTTTCAAGCAGATGCTCAAGACCAACGAAGAGTTGGGTGGCATGTTGCGTGGTCGTGTTCCGTTCGATGGCCCGCGTTTCGCCGAAGGCGCGGTGCAACTGGATCAACTTTCCCATGAGCCGTGGAAACATTTTCCGCAGGTGCGTGAGCAGGATCACACCAGTGCCCGGGACGAAGTCTGGCAGAAGCAGGCGCGTTTCCAGGAACTGGCCCGCAGTCTCGAAGCGGCCACCGCCGAGTTGGTGACCGCCAGTCGGGTCCAGCCCTACCGGGCCAGTAACCTGGGGCCGGCGGTGCAGAAGGTCGAGGATGCGTGCAGTGCCTGTCATAAGGAATTCCGGGACTATTGA	MRLAPVLLIGPLVFSDDPGILAVVFCPEAKMFVRRFSMAVLACLMLSACGGVDPNSPLGQRKTIFKQMLKTNEELGGMLRGRVPFDGPRFAEGAVQLDQLSHEPWKHFPQVREQDHTSARDEVWQKQARFQELARSLEAATAELVTASRVQPYRASNLGPAVQKVEDACSACHKEFRDY				NA	NA	NA	NA	NA
D1-35_03719	396	yqjC		Protein YqjC	ATGAATTTCCTGTACCCCGTTGCCCTGCTGGCCTTATGCGGTGCCATGGCCACCCCCTTGATGGCGGATGAACAGAGCCCGGAACTGACCGGTTGTGCAGCCAAGCGCCAAGGCATCATCAACCAGATCGAACTGGCCAGGTCCCGAGGCAATCAGGACCAGCAGGCCGGGCTGGAAACAGCCCTGGCCGAAGTCACCACCCACTGCACCGATGCTTCCCTGCGCAAGGAGCGTGAAAACAAGGTGCTGGAGGCCAAGCATGAAGTCAGTCGCCGTCAGGCCGATTTGGAAAAGGCCATGAAAAAAGGCGATGCGGAGAAAATCAACAAGCGCAAGGACAAGCTGGCGGTGTCCCGCAAGGAGCTGCAGGAAGCGGTGGACGAGTTGGATAAATAA	MNFLYPVALLALCGAMATPLMADEQSPELTGCAAKRQGIINQIELARSRGNQDQQAGLETALAEVTTHCTDASLRKERENKVLEAKHEVSRRQADLEKAMKKGDAEKINKRKDKLAVSRKELQEAVDELDK				NA	NA	NA	NA	NA
D1-35_03720	1671	ligB	COG0272	DNA ligase B	ATGCTGTCGTTATTGCGCGCACTTGTATGCTTTTTACTGGCCATGCCCGTCATCGCGGCCCCCTGCCCGAGCGGGCCAACCGAACGCGCCCAGGCACAGGTCGACGTCCTCCAGCAACAGATTGACGCATGGGATGACGCCTATCACCGCCTCGGCCGCTCCCTGGTGGCCGATGAGCTTTACGATCAGTCCCGGGCGCAACTGGAACATTGGCGCAACTGCCTTGGCCTCGGGTCGCCAGGCACGCCCTTGCGCTCCGCTGGCGGGAAAGTCCCCCACCCGATCGCTCATACCGGCCTGGATAAACTCAAGGACGCCGATGCCGTGCGCATCTGGTTGAACGGTCGCGACGACGTCTGGGCCCAGCCGAAAGTCGATGGCGTAGCGGTTACCCTGGTTTATCGCGGTGGACACCTGCACCAGGCGATCAGCCGCGGCGATGGCATCCAGGGACATGACTGGACCAACACTGCACGCAAGGTCCGCGATATTCCCCAACGGTTGCGCCTACCTGCGGACCTGCTCGTCCAGGGCGAGCTCTACTGGCGGCTCGACGATCACGTACAGGCCGTCAGCGGCAGCCTTAACGCTCGATCAATCGTGGCGGGGCTGATGGCCCGCAAGAACCTGAGCGCGGACCAGGCGTCTGGCATCGGCCTGTTCGTGTGGGAGTGGCCGGAAGGGCCGGCGACCCTGCCGGAACGGATTGCCGCGCTGAACGAACTGGGTTTCGCCAATGCGACCGCTTATAGCCAGCCCATCCAGGCATTGGCCGATGCGCAACACTGGCGCAACCACTGGTACCGCACGCCGCTGCCGTTCGCCAGCGACGGGGTCGTCTTGCGCCAGAGTCGACGCCCGCCCGCCGACCGCTGGCAAGCCCGGGCGCCCTCCTGGAGCGTGGCCTGGAAATACCCACACGCCCAGGCGCTGGCCAAGGTGCGCGATGTGCGTTTCAAGATCGGCCGCACCGGGCGTATTACGCCAGTGCTGGAGCTTGCGCCGGTGATGCTCGACGACCGCCAGATTCGCCGGGTAAGCGTCAGCTCACTCAGGCGCTGGGAAGGCATGGATATCCGCCCCGGCGACCAGGTCGCCATCAGCCTGGCCGGGTTGACTATTCCGCGGCTCGACAGTGTCGTGCTGCGCAGTGTCGAGCGCCGGAGCCTCGACATCCCCGCCGCTGCCGATCATCACTTCTTGAGCTGCTGGCAACCGACGCCTGGCTGTGAAAGCCAGTTCCTCGCGCGCCTGAACTGGCTCAGCGGCAAGCACGGGCTCGCCCTGCCCCATGTTGGCCCCGGCACCTGGGAGCAACTGCTGGCCGCCGGCCAGCTGGACGGATTGCTGGATTGGTTGACCCTTGATGCCGCCGAGCTTGCTAACATTGCCGGTTTCGGCGAACGCAACAGCGCACGTCTGCTCGCCAGCCTGGACAGCGCCCGGCAGCGCCCCTTCTGTCAATGGCTCAAGGCGCTTGGCGTACCGCCCACCGGAGGGGCAAGGCTCGAGGAGCGCTGGAAGGTCCTGGCTGAACGCGACACTGAACAATGGCAAGCCGAAACGGGTATCGGGCCGGGACGCGCCGCGCAACTGAGCGCTTTCTTTCGCGACCCGCAGGTACTGGCCTTGAGTGAAACATTACGCACCGCAGGGGTCGATGGCTTCTAG	MLSLLRALVCFLLAMPVIAAPCPSGPTERAQAQVDVLQQQIDAWDDAYHRLGRSLVADELYDQSRAQLEHWRNCLGLGSPGTPLRSAGGKVPHPIAHTGLDKLKDADAVRIWLNGRDDVWAQPKVDGVAVTLVYRGGHLHQAISRGDGIQGHDWTNTARKVRDIPQRLRLPADLLVQGELYWRLDDHVQAVSGSLNARSIVAGLMARKNLSADQASGIGLFVWEWPEGPATLPERIAALNELGFANATAYSQPIQALADAQHWRNHWYRTPLPFASDGVVLRQSRRPPADRWQARAPSWSVAWKYPHAQALAKVRDVRFKIGRTGRITPVLELAPVMLDDRQIRRVSVSSLRRWEGMDIRPGDQVAISLAGLTIPRLDSVVLRSVERRSLDIPAAADHHFLSCWQPTPGCESQFLARLNWLSGKHGLALPHVGPGTWEQLLAAGQLDGLLDWLTLDAAELANIAGFGERNSARLLASLDSARQRPFCQWLKALGVPPTGGARLEERWKVLAERDTEQWQAETGIGPGRAAQLSAFFRDPQVLALSETLRTAGVDGF				NA	NA	NA	NA	NA
D1-35_03721	621	rhtB_6	COG1280	Homoserine/homoserine lactone efflux protein	ATGGACCTGACCACGCTCGCGGTCTTTATCCCGGCCTGCTTTGCGCTGAACATGGCGCCGGGCCCGAACAACCTGCTGTCGATCAGCAACGCCTCGCGTTATGGTTTCGTTCGCGCCTGCAGCGGTGGCATCGGCCGCCTGCTGGCGTTTGCGATCATGATCGCCTTGGCGGCGGTGGGGCTGACGGCGGTGTTGCATACCTCGGAGCTGCTGTTCCTGGGCATCAAGCTCGTCGGTGCCGGTTATCTTTTTTATCTCGCTGTGCAGTTGTGGCGTGCGCAACCTGAGACCGCCGGCGAGGCAGAGGCCAGTTCGATGAGCATGGCCAGCCTGGCGCGCCAGGAATTCCTCGTGGCGATCGGCAATCCGAAGGCAATCCTGCTTTTTACCGCTTTCCTGCCACAGTTCGTTGACCGCGCGGGCACCGTCACCCAGCAGTTCGCGGTGCTGGGTGGGCTGTTCCTGGCATTGGAATGCGTTGCCATTGGCTTGTATTGCTACATGGGTATTTATGCCCGGCGGCTGTTCGCCCGGCCGAGTGGCAAGCGGTTGTTCAACCGGATGTGCGCGGGGTTACTGGCGAGCGCGGCTTCGTTTTTGTTGGTGGCGCGGCGGACTTGA	MDLTTLAVFIPACFALNMAPGPNNLLSISNASRYGFVRACSGGIGRLLAFAIMIALAAVGLTAVLHTSELLFLGIKLVGAGYLFYLAVQLWRAQPETAGEAEASSMSMASLARQEFLVAIGNPKAILLFTAFLPQFVDRAGTVTQQFAVLGGLFLALECVAIGLYCYMGIYARRLFARPSGKRLFNRMCAGLLASAASFLLVARRT	PGPT0021036_932	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_RELATED_GENES	CE-QSR-PUTATIVE_TRANSPORTER,PGPT0021036-rhtB-K05834	NA	NA
D1-35_03722	1191	metK	COG0192	S-adenosylmethionine synthase	ATGAGCGAATACTCCCTTTTCACCTCCGAGTCCGTGTCTGAAGGGCATCCGGACAAAATCGCCGACCAGATTTCTGATGCGGTGCTGGACGCCATCATTGCTGAAGACAAGTTCGCCCGCGTGGCGTGCGAGACTCTGGTGAAAACGGGCGTGGCGATCATCGCCGGCGAAGTCACCACCTCGGCCTGGGTCGACCTGGAGCAGATCGTTCGCGACGTGATCCTGGGCATCGGCTACAACAGCTCCGACGTCGGCTTCGACGGCGCGACCTGCGGCGTGATGAACATCATCGGCAAGCAGTCCCCGGACATCAACCAGGGCGTTGACCGCGCCAAGCCGGAAGACCAGGGCGCCGGTGACCAGGGCCTGATGTTCGGCTACGCCAGCAACGAAACCGACGTACTGATGCCGGCACCGATCACCTTTTCGCACCAACTGGTCCAGCGCCAGGCTGAAGCGCGCAAATCCGGCCTGCTGCCTTGGCTGCGCCCGGACGCCAAGTCCCAGGTGACCTGCCGTTACGAAGGTGGCAAGGTGGTTGGCATCGACGCGGTCGTGCTGTCGACCCAGCACAACCCCGAAGTGTCCTACAAAGACCTGCGCGAAGGCGTGATGGAGCTGATCGTCAAGCACGTGCTGCCTGCCGAACTGCTGTCCAAGGATACCCAGTTCCACATCAACCCGACCGGCCAGTTCATCATCGGTGGCCCGGTGGGTGACTGTGGCCTGACCGGTCGCAAGATCATCGTCGACAGCTACGGCGGCATGGCCCGTCATGGCGGCGGCGCGTTCTCTGGCAAGGACCCGTCCAAGGTTGACCGCTCGGCCGCCTACGCCGGTCGTTATGTGGCCAAGAACATCGTTGCCGCCGGCCTGGCCGAGCGCTGCGAGATCCAGGTGTCCTACGCCATCGGCGTCGCCCAGCCTACGTCGATTTCGCTGAACACCTTCGGCACCGGCAAGATTGGCGATGACAAGATCATCCAATTGGTCCGTGAAGTGTTCGACCTGCGTCCGTACGCGATCACCACCATGCTTGATCTGCTGCACCCGATGTACCAGGACACCGCAGCCTACGGCCACTTCGGCCGCACGCCGCAGACCAAGACGGTGGGTGACGATACCTTCACCACCTTCACCTGGGAAAAAACCGACCGCGCCGACGCCCTGCGCGCCGCTGCCGGCCTGTAA	MSEYSLFTSESVSEGHPDKIADQISDAVLDAIIAEDKFARVACETLVKTGVAIIAGEVTTSAWVDLEQIVRDVILGIGYNSSDVGFDGATCGVMNIIGKQSPDINQGVDRAKPEDQGAGDQGLMFGYASNETDVLMPAPITFSHQLVQRQAEARKSGLLPWLRPDAKSQVTCRYEGGKVVGIDAVVLSTQHNPEVSYKDLREGVMELIVKHVLPAELLSKDTQFHINPTGQFIIGGPVGDCGLTGRKIIVDSYGGMARHGGGAFSGKDPSKVDRSAAYAGRYVAKNIVAAGLAERCEIQVSYAIGVAQPTSISLNTFGTGKIGDDKIIQLVREVFDLRPYAITTMLDLLHPMYQDTAAYGHFGRTPQTKTVGDDTFTTFTWEKTDRADALRAAAGL	PGPT0020000_3272	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
D1-35_03723	996	COQ3_1		Ubiquinone biosynthesis O-methyltransferase, mitochondrial	ATGAATTTACGCGTGCCTTCCATTCGCCATGACGATTGCGATGAGCTGGCGGCCCTTTGCAAGGCCGGCGGCGATCCGCTGCGGCTCAATGTATTGCGCGCCCTGGCCAACGACTCGTTCGGCGTTCTGGAACTGGCGCAGATCTTCGGCATCGGCCAGTCCGGCATGAGCCACCATTTGAAGGTGCTGGCCCAGGCCGACCTGGTGGCGACGCGCCGTGAAGGCAACGCGATTTTCTACCGCCGCGCCCTGCCCCACACCGAACTGCTGGGCGGCAAGCTGCACGCAGCGCTGCTTGAAGAGGTGGACGAACTGGACTTGCCGCTGGACGTGCAAGCTCGCATCGCCCAGGTACACGGGCAACGAGCCGCCGCCAGCCAGGATTTTTTCGCCCGGGTGGCGGAGAAATTTCGCGCCCAGCAGGACCTGATCGCAGGACTGCCGCAATACCGTGACAGCGTCGTGGCGCTGCTCGACAAGCTGAGCTTCGAGCCCACCGCCACAGCGATGGAAGTCGGCCCCGGCGACGGTGCATTCCTGCCGGAACTGGCGCGGCGCTTCAGCCAGGTGACCGCGCTGGACAACAGCCCGGCGATGCTCGAACTGGCCCGCCAGGTGTGCGAACGTGAGTCCCTGGCTAATGTCCGCCTGCAACTGGCCGATGCCCTCAACGGTGTGAGCCTGCAGGTCGACTGTGTTGTATTGAACATGGTGCTTCACCATTTTGCCGCGCCGGCCGATGCACTCAAGCACATGGCCAACCTGCTGCAACCGGGCGGTAGTCTGTTGGTGACAGAGTTATGCAGCCACAACCAGAGTTGGGCCAAGGAGGCCTGCGGTGATCTCTGGCTGGGGTTTGAACAGGACGATCTGGCCCGTTGGGCCACCGCTGCGGGCCTCGTGCCCGGGGAAAGCCTCTATGTAGGCTTACGTAATGGTTTCCAGATCCAGGTTCGCCATTTTCAGCGACCGGCTGGCGACACTCACCATCGGTAA	MNLRVPSIRHDDCDELAALCKAGGDPLRLNVLRALANDSFGVLELAQIFGIGQSGMSHHLKVLAQADLVATRREGNAIFYRRALPHTELLGGKLHAALLEEVDELDLPLDVQARIAQVHGQRAAASQDFFARVAEKFRAQQDLIAGLPQYRDSVVALLDKLSFEPTATAMEVGPGDGAFLPELARRFSQVTALDNSPAMLELARQVCERESLANVRLQLADALNGVSLQVDCVVLNMVLHHFAAPADALKHMANLLQPGGSLLVTELCSHNQSWAKEACGDLWLGFEQDDLARWATAAGLVPGESLYVGLRNGFQIQVRHFQRPAGDTHHR				NA	NA	NA	NA	NA
D1-35_03724	1998	tktA	COG0021	Transketolase 1	ATGCCCAGCCGTCGTGAGCGTGCCAATGCCATTCGTGCCCTCAGCATGGATGCCGTGCAGAAAGCCAACAGCGGCCATCCCGGTGCCCCCATGGGTATGGCGGATATCGCCGAGGTGCTTTGGCGCGACTACCTCAAGCACAACCCGAGCAACCCATCGTTTGCCGACCGCGACCGCTTCGTGCTGTCCAACGGCCACGGCTCGATGTTGATCTACTCGCTGCTGCACCTGACCGGCTATGACCTGTCGATCGATGACCTGAAGAACTTCCGCCAGCTGCACAGCCGCACCCCGGGCCACCCGGAATACGGCTACACCCCAGGCGTTGAAACCACCACCGGTCCGTTGGGCCAGGGCCTGGCCAACGCCGTGGGCTTCGCTTTGGCGGAAAAAGTCCTGGCGGCGCAGTTCAACCGTCCGGGCCACGACATCGTCGATCACCACACCTACGTGTTCCTGGGTGATGGCTGCATGATGGAAGGCATTTCCCACGAAGTCGCTTCCCTGGCCGGTACCCTGGGCCTGGACAAGCTGATCGCCTTCTACGATGACAACGGCATTTCCATCGACGGTGAAGTCGAAGGCTGGTTCACCGACGACACCCCCAAGCGCTTCGAAGCCTACAACTGGCTGGTGATCCGCAACGTCGACGGTCACGACCCGGAAGAAATCAAGATCGCCATCGAGACTGCGCGCAAGAGCGCCCAGCCGACACTGATCTGCTGCAAGACCACCATCGGTTTCGGTTCGCCGAACAAGCAGGGCAAGGAAGACTGCCACGGCGCGCCACTGGGTGCCGAGGAAATCGCCCTGACCCGCGCCGCGCTGAAGTGGGAACACGGCCCGTTCGAAATCCCGGCCGACATTTATGCCGAGTGGGACGCCAAGGAAAAAGGCCGCGCGGCCGAAGCCGAGTGGGACCAGCGTTTTGCCGCCTACTCCGCCGAATTCCCTGAGCTGGCCAACGAACTGGTACGTCGCCTCAGCGGCGAGTTGCCGGCCGATTTCGCCGAGAAGGCGTCTGCCTACATCGCCGAAGTCGCGGCCAAGGGCGAAACCATCGCCAGCCGCAAGGCCAGCCAGAACACCCTGAACGCCTTCGGCCCTCTGCTGCCAGAGCTGCTGGGCGGTTCGGCCGACCTGGCCGGTTCCAACCTGACCCTGTGGAAAGGCTGCAAGGGCGTAACCGCCGAAGACGCCAGCGGCAACTACATGTACTACGGCGTTCGTGAGTTCGGCATGAGCGCGATCATGAACGGCGTTGCCCTGCACGGTGGCCTGGTGCCTTACGGCGCGACCTTCCTGATGTTCATGGAATACGCCCGCAACGCTGTGCGCATGTCGGCGCTGATGAAAAAACGCATCCTGTACGTGTTCACCCACGACTCCATCGGCCTGGGCGAAGACGGCCCGACTCACCAGCCGATCGAGCAACTGGCGAGCCTGCGCTGCACGCCGAACCTGGACACCTGGCGCCCATGCGACGCCGTGGAGTCTGCTGTGGCCTGGAAACACGCCATCGAGCGCAACGACGGCCCATCGGCGCTGATCTTCTCGCGCCAGAACCTGCAGCACCAGGAACGCGACGCCGGCCAGATCGGCGACATCAGCCGTGGCGGCTACGTGCTCAAGGACTGCATCGGCGAGCCTGAGCTGATCCTGATCGCCACCGGTTCGGAAGTCGGCCTGGCCGTCCAGGCCTTCGACAAGCTGACCGGGCAGGGCCGCAACGTGCGCGTGGTCTCCATGCCTTGCACCAGCGTGTTCGACGCCCAGGATGCCGGCTACAAGCAAGCGGTGTTGCCGTTGCAGGTCAGCGCGCGGATTGCCATCGAAGCCGCTCACGCCGATTACTGGTACAAGTACGTGGGCCTGGAAGGCCGCGTGATCGGCATGACCACCTACGGTGAGTCGGCGCCTGCGTCGGCGCTGTTCGAGGAGTTCGGCTTCACCCTGGAGAACATCCTGGGGCAGGCTGAAGAGCTGCTGGAAGACTGA	MPSRRERANAIRALSMDAVQKANSGHPGAPMGMADIAEVLWRDYLKHNPSNPSFADRDRFVLSNGHGSMLIYSLLHLTGYDLSIDDLKNFRQLHSRTPGHPEYGYTPGVETTTGPLGQGLANAVGFALAEKVLAAQFNRPGHDIVDHHTYVFLGDGCMMEGISHEVASLAGTLGLDKLIAFYDDNGISIDGEVEGWFTDDTPKRFEAYNWLVIRNVDGHDPEEIKIAIETARKSAQPTLICCKTTIGFGSPNKQGKEDCHGAPLGAEEIALTRAALKWEHGPFEIPADIYAEWDAKEKGRAAEAEWDQRFAAYSAEFPELANELVRRLSGELPADFAEKASAYIAEVAAKGETIASRKASQNTLNAFGPLLPELLGGSADLAGSNLTLWKGCKGVTAEDASGNYMYYGVREFGMSAIMNGVALHGGLVPYGATFLMFMEYARNAVRMSALMKKRILYVFTHDSIGLGEDGPTHQPIEQLASLRCTPNLDTWRPCDAVESAVAWKHAIERNDGPSALIFSRQNLQHQERDAGQIGDISRGGYVLKDCIGEPELILIATGSEVGLAVQAFDKLTGQGRNVRVVSMPCTSVFDAQDAGYKQAVLPLQVSARIAIEAAHADYWYKYVGLEGRVIGMTTYGESAPASALFEEFGFTLENILGQAEELLED	PGPT0011200_3494	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
D1-35_03725	1056	epd	COG0057	D-erythrose-4-phosphate dehydrogenase	ATGCCCCAACCGCGTCCCTACAAAGTTGCACTCAACGGCTACGGCCGTATTGGTCGTTGCGTCTTGCGTGCGTTGTTCGAGCGAGGGGCAAAGGCCGGGTTCGAGATTGTGGCCATCAACGATCTGGCTGACATGGCCAGCATCGAATACCTGACACGCTTTGACTCCACCCACGGCCGGTTTCCCGGCGAAGTGCGGGTCGAGGGCGATTGTCTGCACATTAATGGCGACTGCGTGAAGGTCCTGCGCAGCGCCACGCCCGAAGGCATCGATTGGGCGTCCCTGAACGTCGATCTGGTGCTTGAGTGCTCCGGCGCCTATAACACCCGTGACGATGGCCAGCGGTTCATCGCTGCCGGCGCGCCACGGGTGCTGTTCTCCCAGCCGATGGCCAGCGAGGCCGACGTTGACGCCACCATCGTCTACGGTGTGAACCAGGACTGCCTGACTGGCGAAGAGCTGCTGGTGTCCAACGCGTCCTGCACCACCAACTGCGGCGTGCCGCTGTTGCGCCTGCTGGACCAGGCTATCGGCCTGGAATACGTGTCGATCACCACCATCCACTCGGCGATGAATGATCAGCCGGTGATCGACGCCTATCACCACGAGGATTTGCGCCGAACCCGTTCGGCCTTCCAGTCGGTGATTCCGGTGTCCACTGGTCTGGCGCGCGGCATTGAACGGCTGCTGCCGGAACTTGCCGGGCGAATTCAGGCCAAAGCCGTGCGGGTGCCGACGGTCAACGTGTCCTGCCTCGACATCACGATGCAGACCGTGAGCGATACCGACGCCATCGAGGTCAACCGGATCCTGCGCGAAGCCGCCACCAGCGGCCCGCTCAAAGGCCTTCTGGCCTATACCGAGTTGCCTCACGCCAGTTGTGATTTCAACCACGACCCACATTCGGCCATCGTCGATGCCAGCCAGACCCGCGTTTCCGGGCCCAGGCTTGTGAACATCCTGGCCTGGTTCGACAACGAATGGGGTTTTGCCAATCGTATGCTGGACGTTGCCGAGCATTACCTGCAAACCGCTTCCAATAAACCTGCTCTCTAA	MPQPRPYKVALNGYGRIGRCVLRALFERGAKAGFEIVAINDLADMASIEYLTRFDSTHGRFPGEVRVEGDCLHINGDCVKVLRSATPEGIDWASLNVDLVLECSGAYNTRDDGQRFIAAGAPRVLFSQPMASEADVDATIVYGVNQDCLTGEELLVSNASCTTNCGVPLLRLLDQAIGLEYVSITTIHSAMNDQPVIDAYHHEDLRRTRSAFQSVIPVSTGLARGIERLLPELAGRIQAKAVRVPTVNVSCLDITMQTVSDTDAIEVNRILREAATSGPLKGLLAYTELPHASCDFNHDPHSAIVDASQTRVSGPRLVNILAWFDNEWGFANRMLDVAEHYLQTASNKPAL	PGPT0009145_89	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009145-epd-K03472	NA	NA
D1-35_03726	1164	pgk	COG0126	Phosphoglycerate kinase	ATGACCGTGTTGAAGATGTCCGACCTCGATCTGCAAGGTAAGCGCGTACTGATTCGCGAAGACCTCAACGTCCCCGTCAAGGACGGTGTTGTCACCAGCGACGCGCGCATCCTGGCCTCGCTGCCGACCATCAAGCTGGCCTTGGAAAAAGGCGCGGCGGTGATGGTCTGCTCGCACCTGGGCCGTCCGACCGAAGGTGAATTCTCGGCCGAGAACAGCCTCAAGCCGGTGGCGGATTACCTGAGCAAGGCCCTGGGCCGCGACGTGCCGTTGATCGCCGATTACCTGGGCGGCGTCGACGTCAAGGCTGGCGATGTCGTGCTGTTCGAAAACGTGCGCTTCAACAAGGGCGAGAAAAAGAACGCCGATGAGCTGGCCCAGCAATACGCCGCCCTGTGCGACGTGTTCGTGATGGACGCCTTCGGCACCGCGCACCGCGCCGAGGGCTCGACCCACGGCGTGGCCAAGTTCGCCAAAGTCGCCGCCGCTGGTCCGTTGCTGGCGGCCGAGCTGGACGCGCTGGGCAAGGCCCTGGGCTCGCCAGCCCAGCCGATGGCCGCCATCGTTGCCGGCTCCAAGGTTTCGACCAAACTGGATGTGCTCAACAGCCTGAGCCAGGTCTGCAACCAGTTGATCGTCGGTGGCGGCATCGCCAACACCTTCCTCGCCGCCGCCGGTCACCCGGTAGGCAAATCCTTGTACGAGCCGGATCTGCTGGACACGGCCCGTGAAATCGCCGCCAAGGTCAGCGTACCGTTGCCCGTGGACGTGGTGGTTGCCAAGGAATTCGCCGAAAGCGCCACCGCCACCGTCAAGCTGATCGACGATGTGGCCGAGGACGACATGATCCTCGATATCGGCCCGCAAACCGCGGCGAACTTCGCCGAACTGCTGAAATCCTCCCAGACTATCCTGTGGAACGGTCCGGTCGGTGTGTTCGAGTTCGACCAGTTTGGCAACGGCACCAAGGTGCTGGCCCAGGCGATCGCCGAGAGCACTGCGTTTTCCATCGCGGGTGGTGGCGACACCCTGGCTGCCATCGATAAATATGGCGTAGCCGAGCAGATCTCCTACATTTCTACCGGTGGTGGCGCGTTCCTCGAATTCGTCGAGGGCAAAGTGCTTCCTGCCGTGGAAGTCCTGGAAAGCCGGGCCAAGGCCTGA	MTVLKMSDLDLQGKRVLIREDLNVPVKDGVVTSDARILASLPTIKLALEKGAAVMVCSHLGRPTEGEFSAENSLKPVADYLSKALGRDVPLIADYLGGVDVKAGDVVLFENVRFNKGEKKNADELAQQYAALCDVFVMDAFGTAHRAEGSTHGVAKFAKVAAAGPLLAAELDALGKALGSPAQPMAAIVAGSKVSTKLDVLNSLSQVCNQLIVGGGIANTFLAAAGHPVGKSLYEPDLLDTAREIAAKVSVPLPVDVVVAKEFAESATATVKLIDDVAEDDMILDIGPQTAANFAELLKSSQTILWNGPVGVFEFDQFGNGTKVLAQAIAESTAFSIAGGGDTLAAIDKYGVAEQISYISTGGGAFLEFVEGKVLPAVEVLESRAKA	PGPT0018015_5731	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
D1-35_03727	225			hypothetical protein	ATGGTCAAGACGTTCATGTCGCTGATGGCCGCGACGCTGTTGGTGGCTTGCTCGAGCAGCCCGCAAGCCACCGCGCCGGATACGGCGGCGCCAGTGCCTGAGCAAGGCTGTTATCAGGCTGACTGGCAGGCCGAGACCAACCCGGTACTGAACAAGCGTTCCGGGCCGGACGGCCTGGATAAATACGAGACGCAGGCGCCGGTCAAGGAACATGGTTGCCCTTGA	MVKTFMSLMAATLLVACSSSPQATAPDTAAPVPEQGCYQADWQAETNPVLNKRSGPDGLDKYETQAPVKEHGCP				NA	NA	NA	NA	NA
D1-35_03728	336			hypothetical protein	ATGAAAGGCTTTATCGCCGTCGTGGCGTTGGCATTGTTGGCCGGTTGCTCGCAACTGGGTTTTTTGCAGTCGTCCGAGCCTGCTGCAGAGGGCTGGACGAGTTGGACATGTGACAGCGAGGCCAAGGTGCTCTGGCGTTATGCCGATGCAGCGCGCAAGGAAGTCGATGTCCGGCTGGGCGGCGCTGACAAGGTTTATCGCCTCAAGCTCGAGCCCGGCGCCGAAGGTTCGCTGTACAGCGATGACATGCTGGCGTTGCACATCAAGGGCGAGGAAGGCCTGGCGTATTGGGTCGCCACCAATGATCTGATTGGGCGGGGCTGCAAGGCCGATTGA	MKGFIAVVALALLAGCSQLGFLQSSEPAAEGWTSWTCDSEAKVLWRYADAARKEVDVRLGGADKVYRLKLEPGAEGSLYSDDMLALHIKGEEGLAYWVATNDLIGRGCKAD				NA	NA	NA	NA	NA
D1-35_03729	1065	cbbA		Fructose-bisphosphate aldolase	ATGGCACTTATCAGCATGCGTCAGATGCTGGACCACGCAGCCGAGTTCGGCTACGGCGTCCCAGCCTTTAACGTCAACAACCTTGAGCAGATGCGCGCCATCATGGAAGCCGCTGACAAGACTGACTCCCCGGTGATCGTCCAGGCTTCGGCCGGCGCTCGCAAATACGCCGGCGCGCCGTTCCTGCGTCACCTGATCCTGGCGGCAATCGAAGAATTCCCGCACATCCCGGTGTGCATGCACCAGGACCACGGCACCAGCCCTGACGTCTGCCAGCGCTCCATCCAACTGGGCTTCAGCTCGGTCATGATGGACGGCTCCCTGGGCGAAGACGGCAAGACCCCGACCGACTACGAATACAACGTCCGTGTCACCCAGCAAACCGTCGCCATGGCCCACGCCTGCGGCGTCTCGGTGGAAGGTGAGCTGGGTTGCCTGGGCTCGCTGGAAACCGGCATGGCCGGTGAGGAAGATGGCATCGGCGCCGAAGGCGTGCTGGATCACAGCCAGATGCTGACCGACCCGGAAGAAGCCGCCGACTTCGTCAAGAAAACCCAGGTCGACGCCCTGGCGATCGCCATTGGCACCAGCCACGGCGCCTACAAGTTCACCAAGCCGCCTACCGGCGACGTGCTGGCCATCGACCGCATCAAGGAAATCCACAAGCGCATCCCCAACACTCACTTGGTGATGCACGGTTCTTCCTCGGTACCGCAGGAGTGGCTGGCGATCATCAACCAGTACGGTGGCGACATCAAGGAAACCTACGGTGTGCCGGTCGAGGAAATCGTCGAAGGCATCAAGTACGGCGTGCGCAAGGTCAACATCGACACTGACCTGCGCCTGGCTTCCACCGGTGCCATGCGTCGTCTGATGGCGACCAATCCTAGCGAGTTTGATCCGCGTAAATTCTTCGGTGCGACCGTGACGGCGATGCGTGATGTGTGTATTGCGCGTTATGAGGCGTTTGGTACGGCGGGTAATGCGTCGAAGATCAAGCCGATCTCGCTGGAAGCCATGTATCAGCGGTATTTGAAGGGTGAGTTGAACGCTAAGGTCAACTAA	MALISMRQMLDHAAEFGYGVPAFNVNNLEQMRAIMEAADKTDSPVIVQASAGARKYAGAPFLRHLILAAIEEFPHIPVCMHQDHGTSPDVCQRSIQLGFSSVMMDGSLGEDGKTPTDYEYNVRVTQQTVAMAHACGVSVEGELGCLGSLETGMAGEEDGIGAEGVLDHSQMLTDPEEAADFVKKTQVDALAIAIGTSHGAYKFTKPPTGDVLAIDRIKEIHKRIPNTHLVMHGSSSVPQEWLAIINQYGGDIKETYGVPVEEIVEGIKYGVRKVNIDTDLRLASTGAMRRLMATNPSEFDPRKFFGATVTAMRDVCIARYEAFGTAGNASKIKPISLEAMYQRYLKGELNAKVN	PGPT0017615_1420	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
D1-35_03731	279			hypothetical protein	ATGCGTAGCACTCAACAATTCAGCATCACCCTGCCCAACCAAATGGCCGACCTAGTGAAAGCCAAGGTGGCCGCTGGCGAGTACGCCACTGAAAGTGAAGTCATTCGCGATGGTCTGCGCGCGCTACTGGCTCGTGATCGTGCTTTGGAAAACTGGCTTATAGGCCAGGTAGCTCCTGCTTACGATGCCTTAAAAGCTGATCCGTCGCGAGCACTAAGCGCTGATGATGTGCGCTCCCGATTGGCTGCAGAGCACCAGAACCTCACTGCAGAATCCTGA	MRSTQQFSITLPNQMADLVKAKVAAGEYATESEVIRDGLRALLARDRALENWLIGQVAPAYDALKADPSRALSADDVRSRLAAEHQNLTAES	PGPT0027540_350	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-ParE-ParD|paaAR_TOXIN-ANTITOXIN_SYSTEM,PGPT0027540-antitoxin_parD1_3_4-K07746	NA	NA
D1-35_03732	315			hypothetical protein	ATGGTCTATACCCTCAAGTTTGCACCGGAAGCCCTTGAGCAATTAGCTGCGCTCTATCGCTACATTGCCGCAGCGGCTTCGACGGAAATTGCCCATAGGTATACCGACGCTATCGTGACCTACTGTGAAGACCTTCGGACATTCCCGCACAGAGGGAACCAGAGGGACGATATACGCCCGGGGTTGCGTATAACAAACTACCGCAAACGAACTGTGATCGCCTTTACCGTTGAACCCGAACAGGTTTTCATTTTGGGCGTTTTTTACGGCGGACAGGACTTCAAGGTCGCTTTGCAGATCGAACAGGAAGATTGA	MVYTLKFAPEALEQLAALYRYIAAAASTEIAHRYTDAIVTYCEDLRTFPHRGNQRDDIRPGLRITNYRKRTVIAFTVEPEQVFILGVFYGGQDFKVALQIEQED	PGPT0027550_507	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-ParE-ParD|paaAR_TOXIN-ANTITOXIN_SYSTEM,PGPT0027550-toxin_parE1_3_4-K19092	NA	NA
D1-35_03734	285			hypothetical protein	ATGAAAACCGAACAATTGCTTGGCCGCTTTACCCCACTCACCCCAATCGCCACCACCCAACCTATCCTGTTCATCGACAGCACCGCGCCACTGACCGAGCTTCACGCCTGCGCCAGCGAACGCTTGCATGCCACTCTTGATTACCTGACGCTCATGGCCTGCACCACCCTGCGCGATTCGGCTGCCGGGGATCTCAATACCCTCACTAATTTCGCCCGGATTCTGGTTCAGGATGTGGCCGATGTGTTCGGTGTCATTGAGCAACGTGGGCTCGAAGAGCACTGA	MKTEQLLGRFTPLTPIATTQPILFIDSTAPLTELHACASERLHATLDYLTLMACTTLRDSAAGDLNTLTNFARILVQDVADVFGVIEQRGLEEH				NA	NA	NA	NA	NA
D1-35_03736	669	alyA_1		Alginate lyase	ATGGTCGATCTAGCAACCTGGAACCTGAGCATCCCCGAAGGCAGCCCGCCGAAAACCATCGAAACCCCTCGACTGGTGGATGGATTCAGGGACAAGTACTTCAACTCCGAAGGCAGCACGGTGTATTTCTGGTCGCCGGTGACCGGCACCAAGACCGAAAACGCGATCTACCCACGCAGCGAACTACGTGAGACCTACCGAGACGGCACCCTGCGCAACTGGCTTTACCCAGAGGCCGATAATCAATTGCGCGCAACGCTGGTGGTCAATCAGGTTCCCAGCAGCGGCAAAATCGTGATTGGTCAGATCCATGCCAAGGACAGCAACAAACCGATGGTGAAGCTGGAATACCAATTCAAGGACGCCACCAACACCGGCAACATCGTCGCCAAGGTGCGCATGCGCCCCGATGACAGCAAAAGCCGGGTCATCACGGTAGCGACAGGCGTGAAGCTTGACCGGGCCTTTTCTTATCGGATCCACCTGGATCGCACCGGCGACCTGGGCATCACCGCCGCCGGTAATAGCTGGTACACCACGGTCGGCGCCGCCTGGCGGGTCAAGCCGTTGTATTTCAAGGCCGGGGTGTATGTGCAGGACAACAGTGGCTATACCAGCGAAGGTGGCAAGGTGACGTTCAGCAAATTGGACATCGATCACAACACCTGA	MVDLATWNLSIPEGSPPKTIETPRLVDGFRDKYFNSEGSTVYFWSPVTGTKTENAIYPRSELRETYRDGTLRNWLYPEADNQLRATLVVNQVPSSGKIVIGQIHAKDSNKPMVKLEYQFKDATNTGNIVAKVRMRPDDSKSRVITVATGVKLDRAFSYRIHLDRTGDLGITAAGNSWYTTVGAAWRVKPLYFKAGVYVQDNSGYTSEGGKVTFSKLDIDHNT	PGPT0019417_602	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019417-putative_alginate_lyase_2-NA	NA	NA
D1-35_03737	669	alyA_2		Alginate lyase	ATGATCGATCTCGCAACCTGGAACCTGAGCATTCCTGAAGGCGCACCACCGGCGACCATCCAGACTTCGCAACTGGTACAAGGCTTCAAGAACCAGTATTTCAACTCGGAAACCGGCACCGTGTTTTTCTGGGTCCCCGTCACGGGCGCCACGACGGCCAACGCCATTTACCCTCGCAGCGAGCTGCGCGAAACCAACAGCGACGGCACGTTGCGCAATTGGTTGTACCCGGCTGCGGATAACAAGCTGGCCGCCACGTTGACCGTCGGCCAGGTGCCCAGCACCGGCAAGCTGGTGATTGGCCAGATCCATACCAAGGACAGCACCAGCCCCATGGTGAAGCTGGAATACCAGTACAAAACCTACAGCTCCACCGGCAACATCGTCGCCAAGGTGCGCATGCGTCCCGACGACGCCACGGGCCAGGTCATCACCATCGCCACCGGCATCAAGCTCAACCAGCCGTTCTCGTACCTGATCCACCTCAACCGTGCAGGCCTCTTGACCATCAACGGCGCCGGCTATCAGTGGAGTGCCACCGTCAGCAACACCTGGAGCACCAAACCGTTGTACTTCAAGGCAGGCGTCTACGTGCAGGACAACGCTGGTTACGCCACCGAAGGCGCAAAAGCCACGTTCAGCCTGCTGGATATCGATCACAACCTCTAA	MIDLATWNLSIPEGAPPATIQTSQLVQGFKNQYFNSETGTVFFWVPVTGATTANAIYPRSELRETNSDGTLRNWLYPAADNKLAATLTVGQVPSTGKLVIGQIHTKDSTSPMVKLEYQYKTYSSTGNIVAKVRMRPDDATGQVITIATGIKLNQPFSYLIHLNRAGLLTINGAGYQWSATVSNTWSTKPLYFKAGVYVQDNAGYATEGAKATFSLLDIDHNL	PGPT0019417_611	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019417-putative_alginate_lyase_2-NA	NA	NA
D1-35_03738	2124	rcsC_19		Sensor histidine kinase RcsC	ATGGAATGCGCGCAACCCCCGTTTGGCGAAGACAGCTCCGTCCTTTTGATTGTTGATGACTACCCTGAAAACCTGCTCAGCATGCGAGCGTTGTTGCAGCGTCAGGATTGGCAGGTCATGACCGCGTCCTCGGGTGTCGAGGCCCTCAACCTGCTACTCGAACATGACATCGACCTGGTGCTGCTGGATGTGCAGATGCCGGACATGGATGGCTTCGAAGTAGCGCGTCTGATGCGTGGCAGCCAGCGCACGCGGCTCACGCCGATCATCTTCCTGACCGCCAACGAGCAGTCCCAGGACGCGGTGATCAAGGGTTACGCCAGCGGCGCGGTGGATTACCTGTTCAAGCCATTCGACCCGCAGATTCTCAAGCCCAAGGTCCACGCGTTGCTCGAGCACCAGCGCAATCGCCGGGCCTTGCAGCGTTTGAGCCAGGACCTGGAGGCAGCCAGGGCCTTTAATGCCTCGGTGCTGGATAACGCCGCCGAAGGCATCCTGGTGGTGGATGAAGGCGGTTTCATCCGTTTTGCCAACCCTTCGACGTGCCGCTTGCTCAACGCCACTGCGGACCGATTGCAAGGGATGCCCTTCCTGGATTTCCTGCAGAAACCCCATATTCCCGAGTGGATCGATTCGGATATCCATGCCGCCTATCGACGTGGCGAAACCTGGCGCTTGCACGACGCCGTGCTGCGCACCGCGCCCGGCCAGCAAGTGTCGGTGGCCTTGTCCTGTGCCCCCCTGCCTTCTGAACAAAAGGCCATGGTGGTGACGCTTCAGGACATGTCGGTGGTTCGTCATCTGCACCAGCAGCTGGAGTTCCAGGCCGTCACTGATCCCCTGACCGGTTTGCTCAACCGCAGGGGGTTCTATCAGACCGCCGAAAACCTGCTGATGCGCAGCGAACGGCTGGAAAGCAACTGGGTGCTGTTGTACCTGGACCTCGATGGCTTCAAACGGGTCAATGACTCGCTGGGCCACGATGCCGGCGACCGGGTGTTGCGCTGGGTGTCGGAACAGTTGAAGGCCTGCCTGCGCCCGTTCGATATCCTCGCGCGGCTCGGCGGCGATGAGTTCACGGCGCTGCTGGATCTTGAGGTGCCCGAGCAGGCGGCAAAGATTGCCGAGAAACTCATCGAGCGCGTCTCGGTCTGCCAGCAGATCGAAGGCATGGACGTGGCGCTGGGCGCCAGTATCGGCATCGCCACGTACCCGGACTGCGGCTCCAACCTCGACGGGTTGCTTCGCGCGTCCGACATCGCCATGTACGAGGCCAAGCGCGCCGGCCGCCAGCAGTATCGTTTCTACGATCACGAAATGAACGGCCGAGCCCGTTCACGGCTGATGCTTGAGGAAAGCGTACGTTCGGCCATCGAAAACCGCGACTTCAATATGGTCTATCAACCACAGGTCAGCATCCTCGACGGACGGACCCGAGGGTTCGAGGCGCTGCTGCGCTGGCAGCATCCCAGCGTCGGGGACGTACCGCCGGGCTTGTTCCTGCCGTTGCTGGAGGAAGCTCGGTTGATCAGTCGGCTGGGCAGCTGGATTTACCATCGCAGTGCGTCCCAGCGCAAAGTATGGGAGCGGATGTTTCCCGACGACCTGGTGTTGGGCGTGAGCCTGAGCAGTACCCAGTTCGGCATGCCCAACCTGGTGACCGAGTTGCGCCAGGTCCTGGATCGCCATGCGTTGAAGCCGCGGCAGCTGGAGGTCGAGATCACCGAAGACGCGCTGATGCGCAACCCCGACGAAACCCATAAGCAATTGCGCCTGCTGCGCCACCTGGGCGTGCGGGTGGCGCTGGACGACTTCGGTTCGGGGCCTTGCTCGCTGGCGCATCTGCGCGATCTCGAACTCGATACGCTCAAGCTTGATCGGCACTTGATCGCCCGCTTGCCGGACTCGCCCAGGGACGCTGCGCTGGCCGCCTCGGTGATCGACCTGTGCAAGCAATTGGGCTTGCGAGTGATCGCCGAGGGGGTCGAGACGCCGCAGCAGTATCACTGGCTCAAGGCCCATGGCTGTGAATATGTGCAAGGCTTCCTCGTGGCGCGGCCCTTGATGGCCGAGGACACAGATGCCTTCGCGCGACCATTCGACTGGAGCGCGGTGCCGGCCTGA	MECAQPPFGEDSSVLLIVDDYPENLLSMRALLQRQDWQVMTASSGVEALNLLLEHDIDLVLLDVQMPDMDGFEVARLMRGSQRTRLTPIIFLTANEQSQDAVIKGYASGAVDYLFKPFDPQILKPKVHALLEHQRNRRALQRLSQDLEAARAFNASVLDNAAEGILVVDEGGFIRFANPSTCRLLNATADRLQGMPFLDFLQKPHIPEWIDSDIHAAYRRGETWRLHDAVLRTAPGQQVSVALSCAPLPSEQKAMVVTLQDMSVVRHLHQQLEFQAVTDPLTGLLNRRGFYQTAENLLMRSERLESNWVLLYLDLDGFKRVNDSLGHDAGDRVLRWVSEQLKACLRPFDILARLGGDEFTALLDLEVPEQAAKIAEKLIERVSVCQQIEGMDVALGASIGIATYPDCGSNLDGLLRASDIAMYEAKRAGRQQYRFYDHEMNGRARSRLMLEESVRSAIENRDFNMVYQPQVSILDGRTRGFEALLRWQHPSVGDVPPGLFLPLLEEARLISRLGSWIYHRSASQRKVWERMFPDDLVLGVSLSSTQFGMPNLVTELRQVLDRHALKPRQLEVEITEDALMRNPDETHKQLRLLRHLGVRVALDDFGSGPCSLAHLRDLELDTLKLDRHLIARLPDSPRDAALAASVIDLCKQLGLRVIAEGVETPQQYHWLKAHGCEYVQGFLVARPLMAEDTDAFARPFDWSAVPA	PGPT0023624_2342	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
D1-35_03739	504	ygjP	COG1451	UTP pyrophosphatase	ATGACCGTGCTCAAATACCTCCAGGCGTACCCCGCCGCGCTGCAAGCCCAGGTGCAGCAACTGATTGCCGAGGATCGACTGGGCGATTACCTGCAACAACGTTATCCCGGCCGCCATCCGATCCAGAGCGACAAGGCGTTGTACGGCTATGCGCTGGATCTCAAGCAGCGCTACCTGCGTAACGCGCCGGCCATCGACAAAGTGCTGTTCGACAACCGCCTCGACCTGACCCATCGCGCGCTTGGGCTGCATACGGCGGTGTCGCGGGTACAGGGCGGCAAGCTCAAGGCCAAGAAAGAAATCCGCATTGCTTCTTTGTTCAAGGACGCAGCGCCCCAGTTTCTGGAAATGATCGTGGTGCACGAGTTGGCCCACTTCAAGGAATCGGACCACAACAAGGCTTTCTACCAGCTGTGCGAGCACATGCTGCCGGGCTATCACCAGCTGGAATTCGACCTGCGGGTGTACCTGACCTGGCGGGACCTGCAACAAGACAAGGGATGA	MTVLKYLQAYPAALQAQVQQLIAEDRLGDYLQQRYPGRHPIQSDKALYGYALDLKQRYLRNAPAIDKVLFDNRLDLTHRALGLHTAVSRVQGGKLKAKKEIRIASLFKDAAPQFLEMIVVHELAHFKESDHNKAFYQLCEHMLPGYHQLEFDLRVYLTWRDLQQDKG				NA	NA	NA	NA	NA
D1-35_03740	297			hypothetical protein	ATGGACGTCAGCAAGACCAAGAGCAGCTTCTATCGTCGACTGTACGTGGCTTACCTGATCGACAGCGGCCTGGCCAGCAACATTCCCGCGCTCACCGAAGCTACCGGCATGCCTCGGCGCACCGCCCAGGATACCGTCGTGGCGCTGGCGGACCTGGACATCCTCTGTGAATTCGAGCAGCAGGAGGGCGCGCGCAACCATGCCGGGCGGTATCGGATTCGCGATTGGGGGGCGATTGATCGGCGGTGGATCGAGCAGAATCTGCAGCGGATCAAGGCGGTGTTGGAGTATCCCTGA	MDVSKTKSSFYRRLYVAYLIDSGLASNIPALTEATGMPRRTAQDTVVALADLDILCEFEQQEGARNHAGRYRIRDWGAIDRRWIEQNLQRIKAVLEYP				NA	NA	NA	NA	NA
D1-35_03741	453	elaA	COG2153	Protein ElaA	ATGGATATCGACTGGGTCTGCAAACATCACACTGACCTGAGCAAGGAACAGCTATACGCCATCCTGAAACTGCGCGCCGAGGTCTTCGTCGTCGAACAGAACTGTGCCTACCCGGACGTCGACGGACTGGACCTGGAAGGCGACACCTGCCATCTGATGGCCTGGCAGGACAACCACCTGGTCGCTTACCTTCGTTTGCTCGATCCGCATTCGCGAAACAGCGATGTGGTGATCGGCCGCGTGGTCATCGCCACCGAGGCGCGAGGGCAAGGGCTGGGGCATACACTGATGGAACAAGCCTTGAAGCAGGCCGAAAAGCACTGGCCCGGCGTGTCGATCTCATTGTCGGCCCAGGCGCATCTGCAGGGGTATTACGGGCGATACGGGTTTGAAGTGGTGGGCGTGGAATATCTCGAGGATGGGATTCCGCACATCGGGATGCATCGGCCCTGA	MDIDWVCKHHTDLSKEQLYAILKLRAEVFVVEQNCAYPDVDGLDLEGDTCHLMAWQDNHLVAYLRLLDPHSRNSDVVIGRVVIATEARGQGLGHTLMEQALKQAEKHWPGVSISLSAQAHLQGYYGRYGFEVVGVEYLEDGIPHIGMHRP				NA	NA	NA	NA	NA
D1-35_03742	738			hypothetical protein	ATGCCGCGATTGCATCGAGCTCTTGCTTTGGTCGGGTTGCTGTTGCTGAGCCACAACGCCTGTGCGCAGAAACTGCGTCTGGTCGCCGATGCCTGGCCACCCTTTACCGACTCGACGCTGGTCAATGGCGGCCTTGCGACCGATATCGTCACCACCGCCCTGGCGCGCGCCGGTTATGCCAGTGATTTCGAGCAGGTGCCCTGGGCCCGGGCGATGCTGGGGATCAGCGAAGGGCGGTATGACGTGCTGATCAATGCCTGGTACGCCGAGGAACGCACCCATGTAGGCCAGTTCTCGGCCGAGTACCTGCTCAACCGCGTGCGGTTTATCAAGCGCAAGGACTCGCCCATCGACTTCGACAACCTGCAGCAGTTGTATGCCTATCCCATCGCCGTGGTTCGTGGCTACGCCTATTCCAAGGCGTTCGATGAGGACGAGAAGATGCAGAAAATCCCTGTGCATAATTTTGCGATGGCCGTGCGCATGCTCGCCGCCGACCGAGTGAAGCTGACGCTGGAAGACGAATACGTCGCCCGTTATTACCTGGCCCGCGAATCCGCCAAGGTGCGCAATGCCGTGGAGTTTCTACCCAAGCCGTTGAGTGAAAACAGCCTGCATATCCTGGTCAGCCTGAAGAATCCCGAGCATGAGCAGATCGTCGCCGGGTTTGATCGGGAGATTGCGGCGATGAAGGCGGATGGGAGTTATCAGAAGTTATTGAAGGCGCATGGGATGTAG	MPRLHRALALVGLLLLSHNACAQKLRLVADAWPPFTDSTLVNGGLATDIVTTALARAGYASDFEQVPWARAMLGISEGRYDVLINAWYAEERTHVGQFSAEYLLNRVRFIKRKDSPIDFDNLQQLYAYPIAVVRGYAYSKAFDEDEKMQKIPVHNFAMAVRMLAADRVKLTLEDEYVARYYLARESAKVRNAVEFLPKPLSENSLHILVSLKNPEHEQIVAGFDREIAAMKADGSYQKLLKAHGM	PGPT0020800_15680	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
D1-35_03743	2184	yccS	COG1289	Inner membrane protein YccS	ATGTCATCGACCTCGTTCAGCCAGTCTCTGCGTCGCCTTTGGGCGTTGGATAAATTCAGCTATAGCGTGCGGGTGTTTATTGCCCTGACCGGCAGCATGGTGCTGTGTTGGTACCTGGATAAGATGGCGCTGCTGATTCCGCTGTTCCTCGGCATCATCGCCAGCGCATTGGCCGAGACCGACGACAGCTGGCAAGGCCGTCTCAACGCGCTGGCCGTGACGCTGGTGTGCTTCAGCATCGCCGCGCTGTCGGTGGAGTTGCTATTTCCCTACCCCATCCTGTTCATCGTCGCCCTGGCCCTGGCGGCCTTCGGTCTGACCATGCTCGGCGCCCTGGGCGAGCGCTATGGCGCGATTGCCTCGGCTACCCTGATTCTTTCGGTCTACACCATGATCGGCGTGGACCAGCGCGGCGGTGCGATCACGGACTTCTGGCATGAGCCGGTGTTGCTGGTGGCCGGCGCCGCCTGGTATGGCCTGCTCTCGGTGTTGTGGCACGCGCTGTTTTCCAACCAGCCGGTGCAGCAGAGCCTGGCGCGCCTGTTCCGCGAACTGGGGCGCTACCTGAAACTCAAGTCATCGCTGCTGGAGCCGATCCGTCAGCTGGATATCGAGGCCCGACGCCTGGAGCTGGCCCAGCAGAATGGCCGGGTGGTGGCGGCGCTCAACAGCGCGAAGGAAATCATCCTGCACCGCGTCGGCAATGGCCGGCCGGGCTCGAAAGTCAGCCGCTACCTGAAGCTGTACTTCCTTGCCCAGGACATCCATGAACGCGCCAGCTCCTCGCACTATCCCTATAACGCCCTGGCCGAGGCGTTCTTTCACAGCGACGTACTGTTCCGCTGCCAGCGCCTGCTGCGCCAGCAAGGCAAGGCTTGCCTGGCACTGGCCGAGTCCATCCAGTTGCGCCAGCCGTTCGTCTACGACGACAGCTTCGCCGAAGCCCTGAACGATTTGCATGCTTCCCTGGAGCACCTGCGCATCCAGAGCAACCCGGCCTGGCGCGGCCTGTTGCGCTCGCTGCGGGCGTTGTCGGTCAACCTCGGCACCATGGACCGCCTGCTCAGCGACGCGAGCAACCCCGACGCCCTCGCCGACGCCACTGACAGCAGCCTGCTGGACCGCTCGCCACGCAACCTCAAGGACGTCTGGGTCCGCCTGCGCACGCAGCTCACGCCGACGTCGCTGCTGTTCCGTCATGCCCTGCGCCTGCCCCTGGCGCTGAGCGTGGGCTACGCGATGGTGCACCTGATCCACCCCTCCCAGGGCTACTGGATCATCCTCACCACACTGTTCGTCTGCCAGCCCAACTACGGCGCCACGCGGCGCAAGCTCGGCCAGCGGATCATCGGCACCGCCATCGGCCTGACGGTGGCCTGGGCGCTGTTCGACCTGTTTCCCAATCCGCTGGTGCAGTCGTGCTTCGCCATTGCCGCCGGGGTGGTGTTCTTTACCAACCGCACCACCCGCTACACCCTGGCGACTGCCGCGATCACCGTCATGGTGCTGTTCTGCTTCAATCAGGTCGGCGACGGCTACGGGCTGCTGCTGCCACGGCTGTTCGATACCTTGCTCGGCAGCCTGATCGCCGGGCTGGCGGTGTTCCTGTTCCTGCCAGACTGGCAGGGCCGGCGACTGAACAAGGTGCTGGCCAACACGCTGACCTGCAACAGCATCTACCTGCGCCAGATCATGCAGCAATACGCCGCGGGCAAAAGCGACGACCTGGCCTATCGCCTGGCCCGGCGCAACGCCCATAACGCCGACGCGGCGCTGTCCACGACGCTGGCGAACATGCTGATGGAGCCGGGCCATTTCCGTAAGGAGGCCGACGTAGGGTTCCGCTTCCTGGTGCTGTCCCACACCCTGCTCAGTTACTTGTCGGGGCTCGGGGCCCACCGGGGCACCGAACTGCCGACTGAGGTGCGCGAGCAGCTGATCGACGGCGCCGGAGCAAGGCTGGCGACCAGCATCGATGAAATTGCCCAGGGCCTGGCGAGCAAACAGCCGATCGCGATCCAGAGCGACGACGAAGAAGCCCTCGCCAGCGAGCTTGAGCTGATGCCCGATGAAATCGACGAAGGCCAGCGGCTGGTGCAGACGCAACTGGCGTTGATCTGCCGGCAGTTGGGGCCGTTGCGGACGCTGGCGGCGCACCTGATCAAGGACACCAGTGAGGCTTGA	MSSTSFSQSLRRLWALDKFSYSVRVFIALTGSMVLCWYLDKMALLIPLFLGIIASALAETDDSWQGRLNALAVTLVCFSIAALSVELLFPYPILFIVALALAAFGLTMLGALGERYGAIASATLILSVYTMIGVDQRGGAITDFWHEPVLLVAGAAWYGLLSVLWHALFSNQPVQQSLARLFRELGRYLKLKSSLLEPIRQLDIEARRLELAQQNGRVVAALNSAKEIILHRVGNGRPGSKVSRYLKLYFLAQDIHERASSSHYPYNALAEAFFHSDVLFRCQRLLRQQGKACLALAESIQLRQPFVYDDSFAEALNDLHASLEHLRIQSNPAWRGLLRSLRALSVNLGTMDRLLSDASNPDALADATDSSLLDRSPRNLKDVWVRLRTQLTPTSLLFRHALRLPLALSVGYAMVHLIHPSQGYWIILTTLFVCQPNYGATRRKLGQRIIGTAIGLTVAWALFDLFPNPLVQSCFAIAAGVVFFTNRTTRYTLATAAITVMVLFCFNQVGDGYGLLLPRLFDTLLGSLIAGLAVFLFLPDWQGRRLNKVLANTLTCNSIYLRQIMQQYAAGKSDDLAYRLARRNAHNADAALSTTLANMLMEPGHFRKEADVGFRFLVLSHTLLSYLSGLGAHRGTELPTEVREQLIDGAGARLATSIDEIAQGLASKQPIAIQSDDEEALASELELMPDEIDEGQRLVQTQLALICRQLGPLRTLAAHLIKDTSEA				NA	NA	NA	NA	NA
D1-35_03744	1179		COG2081	putative protein	TTGCGCTCTACCGAAGTCGTGATCATTGGCGCTGGCGCCGCGGGGTTGATGTGCGCGCTGACCGCCGCCGGGCGCGGGCGGCAGGTGATGTTGCTGGACCACGCCAACAAGGCCGGCAAGAAAATCCTCATGTCGGGCGGTGGACGCTGTAACTTCACCAACATGTACACCGAACCGGGCAACTTCCTCTCGCAGAACCCGCACTTCTGCAAGTCGGCCCTGGCCCGCTATACCCAATGGGATTTCATCGCGTTGGTGGCCAAGCACGGCGTGCCCTATCACGAGAAAAAACTCGGCCAGTTGTTCTGCGATAACAAATCCAGCGACATCCTCGGCCTGCTGCTGGATGAGTGCGACCAGGCCGGCGTCGACCTGCACCTGGACACCTCGATCGAGCAGATCGAGAAGACCGCCGACGGCTACCTGCTGCAAACCAAACTCGGGCCCATCGCTTGCCAATCCCTGGTGATCGCCACGGGCGGGCTGTCGATCCCGACCCTGGGCGCGACTGGCTTCGGCTATCAGGTGGCCAGGCAATTCGGCCACCAGCTGCTGCCGACCCGGGCAGGGCTGGTGCCGTTCACCATCACCGATCAGTTAAAGAGCCTGTGCACCGAACTGTCGGGCACGTCGGTGGACTGTCTGGTGAGCTGCAACGAGCAGAGCTTTCGCGAGAACATCCTGTTCACCCATCGCGGCTTGAGCGGCCCGGCGATCTTGCAGATCTCGTCGTTCTGGGAGCCGGGCGACACGGTGCAGATCAACCTGCTGCCCGACCACGACGTGCCGCAGTGGCTGCAACAGCAACAGGCCGAACGCCCGAACAGCGAACTCAAGACCCTGTTGGGCGAGTTGTTCACCAAGAAAATGGCCAACCTGCTGGCCGACACCTGGTTCGTCTCCAAGCCGATGAAGCAATACACTCACGCGGAACTCGCGGACATCGCCGAGAAGCTGGCGAGCTGGAACATCGTCCCCGCCGGCACCGAAGGCTACCGCACCGCCGAAGTGACCCTGGGCGGCGTCGACACTCGGGAAGTTTCTTCCAAGACCATGGAGTCGCTGAAGAGCCCGGGGCTGTATTTCATTGGCGAAGTGCTCGACGTCACCGGTCACCTGGGCGGCTTCAACTTCCAATGGGCGTGGGCTTCGGGGTATGCGGCGGCGCAGTACGTCTGA	MRSTEVVIIGAGAAGLMCALTAAGRGRQVMLLDHANKAGKKILMSGGGRCNFTNMYTEPGNFLSQNPHFCKSALARYTQWDFIALVAKHGVPYHEKKLGQLFCDNKSSDILGLLLDECDQAGVDLHLDTSIEQIEKTADGYLLQTKLGPIACQSLVIATGGLSIPTLGATGFGYQVARQFGHQLLPTRAGLVPFTITDQLKSLCTELSGTSVDCLVSCNEQSFRENILFTHRGLSGPAILQISSFWEPGDTVQINLLPDHDVPQWLQQQQAERPNSELKTLLGELFTKKMANLLADTWFVSKPMKQYTHAELADIAEKLASWNIVPAGTEGYRTAEVTLGGVDTREVSSKTMESLKSPGLYFIGEVLDVTGHLGGFNFQWAWASGYAAAQYV				NA	NA	NA	NA	NA
D1-35_03745	1386	dbpA	COG0513	ATP-dependent RNA helicase DbpA	GTGACCACCATTGCCACCGCTTTTAATACTTTGCCGCTGTCCGCCGCCATGCTGGCTAACCTCGAATCACTCGGTTATGCCCAGATGACGCCGATCCAGGCGCAAAGCTTGCCGGTGATCCTCAAGGGCATGGACCTGATCGCACAGGCCAAGACCGGCAGCGGCAAGACCGCGGCCTTTGGCATCGGCCTGCTGAACCCGATCAACCCGCGCTTCTTTGGCTGTCAGGCCCTGGTGATGTGCCCGACCCGTGAGCTGGCCGACCAAGTCGCCAAGGAAATCCGCCGCCTCGCCCGCGCCGAAGACAACATCAAGGTCCTGACCCTGTGCGGCGGCGTGTCCTTCGGCCCGCAGATCGCCTCCCTCGAACACGGTGCCCACATCATCGTCGGCACGCCGGGACGCATCCAGCAGCACCTGCGCAAGGGTTCGCTGGTGCTCGACGGCCTCAACACGCTGATCCTCGACGAAGCCGACCGCATGCTCGACATGGGCTTCTATGACGCCATCGAAGACATCATCCAGCAGACCCCGGAACGCCGCCAGACGCTGCTGTTTTCGGCCACCTACCCGGTGGGCATCAAGCAACTGTCGTCGAAGTTCATGCGCAATCCGCAGCAGGTCAAGGCCGAGGCGCTGCACTCCGACGCCCAGATCGAGCAGCGCTTCTACGAGATCTCTCCCGAGGAGCGCATGGACGCGGTGGTCAAGGTGCTGGCGCATTTCCGCCCGGCCTCCTGCGTGGCGTTCTGCTTCACCAAGCAGCAGGTCCAGGAAACCGTCGATCACCTGACGTCCAAGGGCATCTCCGCCGTCGGCCTGCACGGTGACCTGGAGCAGCGCGACCGCGACCAGGTCCTGGCGATGTTCGCCAACCGCAGCACCTCGGTATTGGTCGCCACCGACGTGGCGGCCCGTGGCCTGGATATCGATGCGCTGGACATGGTGATCAACGTCGAGCTGGCCCGGGACTCGGAGATTCATATCCACCGCGTCGGCCGCACCGGGCGCGCCGGGGAGAAAGGCATCGCTATCAGCCTGGTGGCGCCGTCCGAAGCCCATCGCGCCCAGGCCATCGAGCAACTGCAGAAGTCGCCGTTGAGCTGGGACCAGTTGGACAACCTCAAGCCCCAGGGCGGCGGTCCGCTGCTGCCGGCCATGAGCACCCTATGCATCGGTGCCGGACGCAAGGACAAGGTGCGCCCCGGCGACATCCTCGGCGCCCTGACCGGCGAGGCCGGCATCCCTGGCGCCCAGGTGGGCAAGATCGCGATTTTCGATTTCCAGGCCTATGTGGCAGTGGAGCGCGGTATCGCCAAACAGGCCTTGCAGCGCCTGAACGATGGCAAGATCAAGGGACGCTCGTTGCGGGTGCGGATCCTGTAA	MTTIATAFNTLPLSAAMLANLESLGYAQMTPIQAQSLPVILKGMDLIAQAKTGSGKTAAFGIGLLNPINPRFFGCQALVMCPTRELADQVAKEIRRLARAEDNIKVLTLCGGVSFGPQIASLEHGAHIIVGTPGRIQQHLRKGSLVLDGLNTLILDEADRMLDMGFYDAIEDIIQQTPERRQTLLFSATYPVGIKQLSSKFMRNPQQVKAEALHSDAQIEQRFYEISPEERMDAVVKVLAHFRPASCVAFCFTKQQVQETVDHLTSKGISAVGLHGDLEQRDRDQVLAMFANRSTSVLVATDVAARGLDIDALDMVINVELARDSEIHIHRVGRTGRAGEKGIAISLVAPSEAHRAQAIEQLQKSPLSWDQLDNLKPQGGGPLLPAMSTLCIGAGRKDKVRPGDILGALTGEAGIPGAQVGKIAIFDFQAYVAVERGIAKQALQRLNDGKIKGRSLRVRIL	PGPT0013740_2932	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
D1-35_03746	1428	hsrA		putative transport protein HsrA	ATGCCCAACCGCGCCCCGCTCGACGCCGTCACCGCCCGCTGGCTTCCGTGGGTCGTGGCAATCGCTTTCTTCATGCAGTCCCTGGACGGGACCATCCTCAACACTGCCCTGCCTGCCATGGCCAGCGACCTGGCGGAGAACCCGCTGCGCATGCAAGGCGTGATCATCGCCTACATGCTCACGGTGGCCCTGCTGATCCCGGCCTCGGGCTGGATCGCCGACCGCTTTGGCACCAAAAAGATTTTCTTCGGCGCGATCCTGCTGTTCAGCTTCGGCTCGTTGCTGTGCGCGTTGTCCAATTCGTTGAGCATGCTGATCGGCGCCCGGGTCGTCCAGGGCCTGGGTGGCGCGCTGATGCTGCCGGTGGGCAGGCTGGTAGTTCTACGGGCGTACCCGCGTTCGGAGCTGGTGAGGATCATGGGTTTCATCACCATCCCCGGCCTGCTCGGCCCGCTGATCGGCCCGACCATGGGTGGCTGGATGGTCGAGTACCTGACGTGGCACTGGATTTTCATCATCAACCTGCCGGTGGGGGTAATCGGCTGCTATGCCGTCTGGAAATTCATTCCGGACCTGCGCGGCAGCGAGCGCACGCGGTTCGATGGGCTGGGGTTCCTGCTGTTTGGCGCGGCGATGGTCTTGATCACCATTGCCATGGAAGGCCTGGGTGAACTGCATCTTCCGCACCTGCGCGTGATGTTGCTGCTGTTCGGCGGCATGGCCTGCCTCGCGGCCTATTGGTTGCGGGCCGGACACGTGGAAAATGCGCTGTTCCCGCCGTCGCTGTTCAAGACCCGGACCTTTGCCGTGGGCATCCTCGGCAACCTGTTCGCGCGCCTGGGCAGCGGCGCGTTGCCGTTCCTGGTGCCGTTGCTGTTGCAAGTGGCGCTGGGCTATTCGCCGTCCCAGGCGGGCATGAGCATGCTGCCCCTGGCGGCGGCGGCGATGGTCGCCAAATCGGTCGCCCGGCCGTTGATCGAACGCTTCGGCTATCGCATCGTCCTTACCGCCAATACCCTGGCCCTGGGCGTGATGCTGGCGAGCATGGGCCTGGTCACCGAACACACGCCGTACTGGCTGCTGCTGGCGCATCTGGCGGTGCTGGGGGCGATCAATTCGCTGCAATTCACCGCGATGAACACCGTGACCCTGATCGACCTGGACGACGCCAGCGCCAGCAGCGGCAACAGCTTGCTGTCGGTGGTCGCGCAACTGTCCCTGAGCCTCGGCGTGGCCTGCGCCGGCGCGCTCCTCGGCGGCTTTACCGCCCAGGTCGGCAATGACGGCGTGGACACGGTGCTGGGCGCGTTCCAGTTGACCTTCGTGACCGTGGGCATCATGGCGATGCTGGCGGCGACGATTTTTTCCCAGCTGTCCAAGCAGGACGGACGGCGGGTGAAGCGGCCGGATGAGCATATCGAGCATTAG	MPNRAPLDAVTARWLPWVVAIAFFMQSLDGTILNTALPAMASDLAENPLRMQGVIIAYMLTVALLIPASGWIADRFGTKKIFFGAILLFSFGSLLCALSNSLSMLIGARVVQGLGGALMLPVGRLVVLRAYPRSELVRIMGFITIPGLLGPLIGPTMGGWMVEYLTWHWIFIINLPVGVIGCYAVWKFIPDLRGSERTRFDGLGFLLFGAAMVLITIAMEGLGELHLPHLRVMLLLFGGMACLAAYWLRAGHVENALFPPSLFKTRTFAVGILGNLFARLGSGALPFLVPLLLQVALGYSPSQAGMSMLPLAAAAMVAKSVARPLIERFGYRIVLTANTLALGVMLASMGLVTEHTPYWLLLAHLAVLGAINSLQFTAMNTVTLIDLDDASASSGNSLLSVVAQLSLSLGVACAGALLGGFTAQVGNDGVDTVLGAFQLTFVTVGIMAMLAATIFSQLSKQDGRRVKRPDEHIEH	PGPT0029180_230	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029180-mdtD-K18326	NA	NA
D1-35_03747	1338			hypothetical protein	ATGAGCACCGTCACTAATGAGGCCGGGGCGTTCAAGGCGTTGGTCGATTGGCTGCGCAATGCGTTGCGCGAACCCGAACAGTTCACCCTCGGCTATGCCGCCGAGTCTTCGGCTTTCGTGCGCTTCAACCACGGCAAGGTTCGCCAGGCCGGGCAGGTCCAACAGGCCAATATCAACCTCAAGCTGATCAACGACGGCCGCCATGCCGACTTGCAGATCACCTTGTCCGGCGACACCGAGACCGATCTGCAACGCCTGGGCGAAGGCCTGCAACAGCTGCGCGAGACGTTGCCGTTGCTGCCCGCCGATCCCTACTTGATGCTCAACCACAACCACTGGCAGAGCAACAATGTGCAGGATCACCCATTGCCCGAGACGGAGCAGGCGGTCGGCGAAATCACCCGGGCCGCAGAAGGCCTGGACCTGGTGGGGTTCTATGCGGCCGGGCCGATCAGCCGGGGCTTCGCCAGTTCCTCGGGTGCCTTCGGCTGGCATCAGGCCAACAGTTTCAATTTCGACTTCAGCTTGTTCCATGAGAACGGTCAGGCCGTGAAGGCCAGTTATGCAGGCCACGCCTGGAGCAGCGAAGGGTTCGCCCAACGTTTCGAACAGGCACGCGAACAGCTGCAATTCCTCGGCCGACCACTGCGTACGCTGCCGCCCGGTGAATACCGCGCCTACCTGGCGCCAGCCGCGCTGGAAGAAATCATGGGCATGCTCAGTTGGGGCGGGTTCTCGGCCCGTGCAATCGCCAGCAAGCAAAGCCCGCTGCAGAAGTTCTACGCCGGCGAAGCCCACTTCAGCCCCAACGTGTGGTTGACGGAGCAGGTCAGCGGCTCCCTGAGCCCGGCATTTTCCGACGAAGGTTATCCTCGCGATGACCTCGGGCTGATTGCCAAGGGCACGGCCAACGCACGGCTGGTCAATTCCCGCAGCGCCGCCGAATACGGTCTTACCGCCAACGGCGCCAGCAGCTATGAATACCCTACCGCGCTGGAAATGAAAGAGGGTCATCTGGCGCTAAGGCACGTTCTCGAAGAACTCGGCACCGGCTTGTACATCAGCAACCTCTGGTACCTGAACTACTCGGACCAACCGGCGGCGCGCCTGACCGGCATGACCCGTTTCGCCACGTTCTGGGTCGAGGATGGCCAGATCCAGGCACCGGTGAGCACCATGCGTTTCGACGACAGCGTCTACAGCCTGCTCGGCTCGCAACTCGAAGGCCTGACGCGGGAGCGGGAACTTCTGCTTTCGGCCAGTACCTACAGCCAGCGGGCCACGGCTTCGATGCTGCTGCCGGGGGCGTTGGTGAAGAGGCTCACGCTGACGCTATAA	MSTVTNEAGAFKALVDWLRNALREPEQFTLGYAAESSAFVRFNHGKVRQAGQVQQANINLKLINDGRHADLQITLSGDTETDLQRLGEGLQQLRETLPLLPADPYLMLNHNHWQSNNVQDHPLPETEQAVGEITRAAEGLDLVGFYAAGPISRGFASSSGAFGWHQANSFNFDFSLFHENGQAVKASYAGHAWSSEGFAQRFEQAREQLQFLGRPLRTLPPGEYRAYLAPAALEEIMGMLSWGGFSARAIASKQSPLQKFYAGEAHFSPNVWLTEQVSGSLSPAFSDEGYPRDDLGLIAKGTANARLVNSRSAAEYGLTANGASSYEYPTALEMKEGHLALRHVLEELGTGLYISNLWYLNYSDQPAARLTGMTRFATFWVEDGQIQAPVSTMRFDDSVYSLLGSQLEGLTRERELLLSASTYSQRATASMLLPGALVKRLTLTL				NA	NA	NA	NA	NA
D1-35_03748	1443			hypothetical protein	ATGTTCGATTTCCATCCCCAGCTCAAGCAGCGGTTTGCTGCATTGCGCACGGGCGCTGAATTCTTTTCCCTGCGTTACGTCCGAGAGTCCGGTCAGCACCTGTCGGTGCGCAAGAATGTCGCCGAGCCGCCCAGCCTGAGCCGCGACGAAGGTGCGATGCTCACCGTGCGGGTCAATGGCGTCGAAGCCTATGCGGCCACCAACGATTTGTCCCAGGCCGGCCTGCAAGCGGCGCTCGAACGCGCCGAGCAACAGGCCCGCCGGCTCAAGCCCCACGCTTTGCTCGACTTGCGCGAGCAGCCGGTCTCCAGCGACCGCGCCGATTATTTCTCACCGCACTTCGACCAGGCGTTCCCTCCACTGAGCGATTGCTACCAACTGCTCGGCGACGAATCGGCAGCGGTGCCAACGGACGAGCGCCTGGTGAACTGGCAGGCCAGCATCGGCCTGACCCAGGTCGAACAGATCTACCTCAACAGCGCCGGCGCCGAACTGCGCCAGGCCCAGCGCTTCATCTACCCGGCCCTGGACGTCACCGCCTTCGACGGGCACGACAGCCAGACGCGCACCCTGGGCCGCGAGAACTTCGGTCAGCAGGGCGGCTTCGATGTGATCAACCGCTGCGGCCTGATCGGTGCCGGGCCGAAGATCGCCGACCAAGCCCTGCAATTGCTGATGGCGCCAAACACCCCGCAAGGCCCACGCGACCTGTTGCTGATGCCCGACCAGATGATGCTGCAGATTCACGAATCCATCGGTCACCCGCTGGAACTGGACCGCATCCTCGGCGACGAGCGCAATTACGCCGGCACCAGTTTCGTCAAGACCAGCGATTTCGGACACCTGCAATACGGCTCCAACCTGCTGAACGTGACGTTCGACCCGGACATCCCGGAAGAACTGGCCAGCTACAGCCATGACGACGACGGCAGCGCTGCCAGCAAACAGTTCCTGATCCGCGAAGGCTTGCTGTTGCGCCCACTGGGCGGTGCGCTGTCGCAGTTCCGCGCCGGCCTCGACGGGGTCGCCAACAGCCGCGCCTGCAGTTGGAATCGTCCGCCCATCGACCGCATGGCAAACCTGAACATCGAGCCCGGCGACCAATCCCTGGAGCAACTGATCCAAGGCATCGAGCACGGCGTGCTGATGCGCACCAACCGCTCCTGGTCCATCGATGACGCCCGTAACAAATTCCAGTTTGGCTGCGAATGGGGCCAGTTGATCGAAGACGGCGAGCTCAAGGGCGTGGTGAAAAATCCGAACTACCGGGGCATTTCCGCGCAGTTCTGGAAAAGCTTGAGGGCCGTGGGCGACGCCAGCACTTCCCAGGTCCTCGGCACGCCGAACTGTGGCAAGGGTGAACCGAACCAGGTCATCCGCGTCGGCCATGCTTCGCCGGCCTGCGTGTTCAGCAACGTTGACGTATTTGGGGGAGATGCCTGA	MFDFHPQLKQRFAALRTGAEFFSLRYVRESGQHLSVRKNVAEPPSLSRDEGAMLTVRVNGVEAYAATNDLSQAGLQAALERAEQQARRLKPHALLDLREQPVSSDRADYFSPHFDQAFPPLSDCYQLLGDESAAVPTDERLVNWQASIGLTQVEQIYLNSAGAELRQAQRFIYPALDVTAFDGHDSQTRTLGRENFGQQGGFDVINRCGLIGAGPKIADQALQLLMAPNTPQGPRDLLLMPDQMMLQIHESIGHPLELDRILGDERNYAGTSFVKTSDFGHLQYGSNLLNVTFDPDIPEELASYSHDDDGSAASKQFLIREGLLLRPLGGALSQFRAGLDGVANSRACSWNRPPIDRMANLNIEPGDQSLEQLIQGIEHGVLMRTNRSWSIDDARNKFQFGCEWGQLIEDGELKGVVKNPNYRGISAQFWKSLRAVGDASTSQVLGTPNCGKGEPNQVIRVGHASPACVFSNVDVFGGDA				NA	NA	NA	NA	NA
D1-35_03749	1704	betA	COG2303	Oxygen-dependent choline dehydrogenase	ATGTCCCAAGAATTCGATTACATCATCATCGGTGCCGGCTCGGCCGGTAACACCCTGGCCACCCGCCTGACCGAAGACGAAGGCGTCACCGTGCTGCTGCTCGAAGCCGGCGGCCCGGACTATCGCCTGGACTTCCGCACGCAAATGCCCGCCGCCCTGGCGTTCCCGCTGCAAGGCCGGCGCTACAACTGGGCCTACGAGACCGACCCGGAGCCGCACATGAACGGCCGCCGCATGGAGTGCGGTCGCGGCAAGGGCCTGGGCGGTTCTTCGCTGATCAACGGCATGTGCTACATCCGCGGCAACGCCCTGGACTATGACAACTGGGCCAAGCTGCCAGGCCTGGAAGACTGGACCTACCTCGACTGCCTGCCGTATTTCCGTAAAGCCGAAACCCGCGACATCGGCCCGAACGACTACCACGGCGGCGACGGTCCGGTCAGCGTGACCACGCCCAAGCCCGGCAACAACCCGTTGTTCCACGCCATGGTCGAAGCCGGCGTGCAAGCCGGTTATCCACGTACCGAAGACCTCAACGGCTACCAGCAGGAAGGCTTCGGTCCGATGGATCGCACCGTGACGCCCAATGGCCGTCGCGCCAGTACCGCGCGCGGTTACCTGGACATCGCCAAGAAGCGCTCCACCCTGACCATCGTCACCCACGCCCTGACCGACAAGATCCTGTTCGAAGGCAAGCGTGCGGTCGGCGTGCGTTACCTGGTGGGCGCCGCTGAAGAGCGCGTCGAAGCGCGGGCCCGCAAGGAAGTGCTGCTGTGCTCCGGCGCCATCGCTTCGCCGCAGATCCTGCAACGCTCCGGCGTCGGTCCGGCAAAACTGCTCGAAAGCCTCGACATCCCGGTGGTCCACGACCTGCCGGGCGTTGGTGAAAACCTCCAGGACCACCTGGAGCTGTACCTGCAATACGCTTGCACCCAGCCGGTTTCGCTGTACCCGTCGCTGCTCTGGTACAACCAGCCGGCCATCGGTGCCGAGTGGCTATTCAACGGCACCGGCATCGGCGCCAGCAACCAGTTCGAGGCCGGCGGTTTCATCCGCACCCGCCCGGACTTCGAATGGCCGAACATCCAGTACCACTTCCTGCCGGTGGCGATCAATTACAACGGCAGTAATGGCGTGAAGGAACACGGCTTCCAGGCGCACATGGGCTCCATGCGTTCGCCGAGCCGTGGCCGTATCCAGGCCAAGTCCAAGGACCCGCGCCAGCACCCGAGCATCCTTTTCAACTACATGGCCACCGAACAGGACTGGCAGGAATTTCGCGATGGTATCCGCCTGACGCGCGAGATCATGCAACAGCCGGCGCTCGACCCGTTCCGCGGCCGCGAGATCAGCCCGGGCATCGAGGTGCAGACCGACGAGCAACTGGACCAGTTCATCCGCGAGCACGCCGAAACCGCGTTCCACCCGTCCTGCTCGTGCAAGATGGGCACCGACGACATGGCGGTGGTCGATGACGAAGGCCGTGTGCATGGCATGCAAGGCCTGCGGGTAGTCGATGCCTCGATCATGCCGATCATCACCACCGGCAACCTGAACGCGCCGACGATCATGATGGCCGAGAAAATCGCCGACAGGATCCGCGGCCGCAAGCCCCTGCCGCGCAGTACCGCGCCGTACTATGTGGCCGGCGATGCGCCGGTGCGTGGCAAGCCTCTGCGTGAAGTGGCGACTGCCGCCCAGTAA	MSQEFDYIIIGAGSAGNTLATRLTEDEGVTVLLLEAGGPDYRLDFRTQMPAALAFPLQGRRYNWAYETDPEPHMNGRRMECGRGKGLGGSSLINGMCYIRGNALDYDNWAKLPGLEDWTYLDCLPYFRKAETRDIGPNDYHGGDGPVSVTTPKPGNNPLFHAMVEAGVQAGYPRTEDLNGYQQEGFGPMDRTVTPNGRRASTARGYLDIAKKRSTLTIVTHALTDKILFEGKRAVGVRYLVGAAEERVEARARKEVLLCSGAIASPQILQRSGVGPAKLLESLDIPVVHDLPGVGENLQDHLELYLQYACTQPVSLYPSLLWYNQPAIGAEWLFNGTGIGASNQFEAGGFIRTRPDFEWPNIQYHFLPVAINYNGSNGVKEHGFQAHMGSMRSPSRGRIQAKSKDPRQHPSILFNYMATEQDWQEFRDGIRLTREIMQQPALDPFRGREISPGIEVQTDEQLDQFIREHAETAFHPSCSCKMGTDDMAVVDDEGRVHGMQGLRVVDASIMPIITTGNLNAPTIMMAEKIADRIRGRKPLPRSTAPYYVAGDAPVRGKPLREVATAAQ	PGPT0013615_1342	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013615-betA|CHDH-K00108	NA	NA
D1-35_03750	1473	betB_1	COG1012	NAD/NADP-dependent betaine aldehyde dehydrogenase	ATGGCCCGTTTCGAACTGCAAAAACTCTACATCGATGGCGCGTACAGCGATGCCAGCGGCGACGCCACTTTCGAAGCCATCAACCCGGCCAACGGTGAAGTACTCGCCCTGGTGCAGCGCGCGACGTTCGAGGACGTCGAGCGCGCCGTGGTCAGCGCCGAAAAGGGCCAGAAAATCTGGGCCGCGATGACCGCCATGCAGCGCTCGCGCATCCTGCGCCGCGCCGTCGACATCCTGCGCGAACGCAACGATGAACTGGCCGCCTTGGAAACCCTGGACACCGGCAAATCCTTCTCCGAAACCAAATACGTCGACATCGTCACTGGTGCCGACGTGCTGGAATATTACGCCGGCCTGGTGCCCGCCATCGAAGGCGAGCAGGTTCCGCTGCGCAGCACTTCGTTCATCTATACCCGTCGCGAGCCCCTGGGCGTGGTCGCTGGTATCGGCGCGTGGAACTACCCGATCCAGATTGCCTTGTGGAAGTCCGCCCCGGCCCTGGCAGCCGGCAACGCGATGATCTTCAAGCCCAGCGAAGTGACCTCGCTGACCACCCTGAAACTGGCCGAGATCTACACCGAGGCCGGTGTTCCAGCGGGCGTGTTCAACGTGCTGACCGGCAGTGGCCGGGAAGTCGGCACCTGGCTGACCGAGCACCCGCGCATCGAGAAAATCTCCTTCACCGGCGGCACCGACACCGGCAAGAAAGTCATGGCCAGCGCTTCGAGTTCTTCGCTCAAGGACGTGACCATGGAGCTGGGCGGTAAGTCGCCGCTGATCATCTTCGACGACGCCGACCTGGATCGCGCCGCCGACACCGCGATGATGGCCAACTTCTACAGCTCCGGCCAGGTCTGCACCAACGGCACCCGCGTGTTCGTGCCGAGCCATCTGAAGGCAGCGTTCGAAGCCAAGATCGCCGAACGCGTGGCGCGCATCCGCATCGGCAATCCGGAAGACGAAAACACCAACTTCGGCCCGCTGGTGAGCTTCGCCCACATGGAAAGCGTGCTGGGCTACATCGAGAAGGGCAAGGCCGAGGGCGCGCGCCTGTTGTGTGGCGGCGGTCGCCTGACCGAGGGCGATCTGGCCAAGGGCGCATTCGTCGCACCGACCGTATTCACCGATTGCACCGATGACATGACCATCGTGCGTGAAGAAATCTTCGGCCCGGTGATGAGCATCCTCACCTACGACACCGAAGAAGAAGTGATCCGCCGCGCCAACGATACTGACTTCGGCCTGGCCGCCGGCGTCGTGACCCGCGACCTGAACCGCGCCCACCGCGTGATCCATCAGCTCGAAGCAGGCATCTGCTGGATCAACGCCTGGGGCGAGTCCGCGGCGGAAATGCCGGTCGGTGGCTACAAGCAATCGGGCGTGGGCCGCGAGAACGGCATCAGCTCGCTGACCAACTACACGCGCATCAAATCGGTACAGGTCGAAATGGGCGATTACACGTCGGTGTTCTAA	MARFELQKLYIDGAYSDASGDATFEAINPANGEVLALVQRATFEDVERAVVSAEKGQKIWAAMTAMQRSRILRRAVDILRERNDELAALETLDTGKSFSETKYVDIVTGADVLEYYAGLVPAIEGEQVPLRSTSFIYTRREPLGVVAGIGAWNYPIQIALWKSAPALAAGNAMIFKPSEVTSLTTLKLAEIYTEAGVPAGVFNVLTGSGREVGTWLTEHPRIEKISFTGGTDTGKKVMASASSSSLKDVTMELGGKSPLIIFDDADLDRAADTAMMANFYSSGQVCTNGTRVFVPSHLKAAFEAKIAERVARIRIGNPEDENTNFGPLVSFAHMESVLGYIEKGKAEGARLLCGGGRLTEGDLAKGAFVAPTVFTDCTDDMTIVREEIFGPVMSILTYDTEEEVIRRANDTDFGLAAGVVTRDLNRAHRVIHQLEAGICWINAWGESAAEMPVGGYKQSGVGRENGISSLTNYTRIKSVQVEMGDYTSVF	PGPT0007165_1424	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0007165-betB_homologous-K00130	NA	NA
D1-35_03751	621	betI	COG1309	HTH-type transcriptional regulator BetI	ATGCCCAAGGTCGGTATGCAACCCATCCGCCGCCAGCAGTTGATCGAAGCCACTTTGCAGGCTGTCGACCAGGTCGGAATGGGGGACGCCAGCATTGCGCTGATCGCCCGTTTGGCCGGCGTTTCGAACGGCATCATCAGTCACTACTTTCAGGACAAGAATGGCCTGATCGCGGCCACGGCCCAGTACCTGATGAGTGTCTTGAGCGAGAACGTCACCGCGCGGCGTCAAGCGCTGACGGATCCAAGCCCGCGAGCTCACCTGAAGGTGATCATCGAAGGCAATTTCGACGCCAGCCAGGTCAACGGGCCGGCAATGAAAACCTGGCTGGCCTTCTGGGCCACCAGCATGCATCACCCGTCATTGCACAGGTTGCAGCGGATCAACGATCACCGTCTGTATTCCAACCTGTGTTGCCAGTTCCGCCGCGTCTTGCCCGTTGACCAGGCACGCAGCGCGGCACGGGGCCTGGCCGCTCTGATTGACGGTTTGTGGCTGCGCGGGGCGCTGTCGGGAGACGCGTTCGATACCGCCCAGGCACACCAGATCGCTTACGAATACATGGATTTCCAACTGGCCAAGGCAGGAGCGCCAGAGCACACAGAACCGCTCGACTCCTGA	MPKVGMQPIRRQQLIEATLQAVDQVGMGDASIALIARLAGVSNGIISHYFQDKNGLIAATAQYLMSVLSENVTARRQALTDPSPRAHLKVIIEGNFDASQVNGPAMKTWLAFWATSMHHPSLHRLQRINDHRLYSNLCCQFRRVLPVDQARSAARGLAALIDGLWLRGALSGDAFDTAQAHQIAYEYMDFQLAKAGAPEHTEPLDS	PGPT0013625_303	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013625-betI-K02167	NA	NA
D1-35_03752	1593	betT1	COG1292	Osmo-independent choline transporter BetT1	ATGAGTTCTGCCTTGCTAATAAAGACCCCGCCGCAGAAGGTGACGGTCAACGGTTGGGTGTTCTACACCTCCACCGCGCTGATTCTGTTGTTGACGGCCACCCTGATCATCGCCCCGCAGGAGGCCGGCCGGTTGCTCGGCATTGCCCAGGCGTGGCTATCGCGCAGCTTCGGCTGGTACTACATGGTGGTCATCGCCGCTTACCTGGTCTTTGTGGTCGGCCTGGCGTTTTCTTCCTATGGCAAGCTCAAGCTGGGCAGCAAGGACGACACGCCGGACTTCAGTTATGGCGCCTGGGCCGGGATGCTGTTTTCCTCGGGCATCGGCATTTCGCTGTTGTACTTTGGCGCATCCGAGCCACTGGACCATTTTTTCAACCCGCCCGAAGGCGTCGCCGGTAGCAACCAGGCTGCGCGCCAGGCGGTGCAGCTGACGTTTTTGCATTGGGGCCTGCACGGCTGGGCGATCTACGCCCTTGTGGGCCTGGCCGTGGCCTATTTCGCCTACCGGCACAACCAGCCGCTGGCGCTGCGTTCGGCCTTGTATCCGCTGATGGGCGAACGCTGGGTCAAGGGCGCGGCCGGTCATGCGGTGGATGGCTTCGGCATGTTCGTGACGTTGCTGGGGCTGGTGACCAACCTGGGGATCGGTTCGCTGCAAGTCGCCTCCGGGCTGGAAAACCTGTTTGGCATGGAGCACAGCAACACCAACCTGCTGATCGTGATCATCGTGATGAGCAGCGTGGCGACCATCGCCGCCGTATCCGGCGTGGAGAACGGCATCCGCCGGCTATCCAACCTGAACATCGTGCTGTTCAGCGGTTTGCTGATCTTCGTCTTGCTGTGCGGGCCCACGCTGCACTTGCTCAATGGCTTCGTGCAGAACATTGGCGACTACCTCAACGGCGTTGTGCTCAAGACGTTCGACCTGTACGTGTATGCGGACGACAACGCCAAGTCGGGCCGCTGGATGGGCCTGTGGACGCTGTTCTACTGGGCCTGGTGGATTTCCTGGGCGCCATTTGTCGGCATGTTCATCGCGCGGATTTCCCGTGGCCGCACCGTGCGCGAGCTGGTGGCCGGTGTGCTCCTGATTCCCCTGGGCTTTACCTTGGCCTGGCTGTCGATTTTCGGTAATTCGGCGCTGGATCTGGTGATGAACCACGGTGCGGTGGAGCTGGGCAAGACCGCACTGACGCAGCCGTCGATGTCGATCTATCAGCTGTTGGAATATTACCCGGCGTCGAAAGTGGTGATCGGCGTGTCGATCTTTGTCGGTTTTGTGCTGTTCCTGACTCCGGCGGACTCCGGCGCGGTGATGATGGCCAATCTCTCGTGCACGGGCGGCAATGTCGATGAAGATGCCCCCCACTGGTTGCGGATCTTCTGGTCGGTGGTGATCACGCTGGTGACCATCGGCCTGTTGTTTGCCGGTAACTTCGAGGCGATGCAAACCATGGTCGTGCTGGCCGGGCTGCCGTTCTCGGTGGTGCTGGTATTCTTCATGTTCGGCCTGCACAAGGCCATGCGCGAGGATGTGCGGGTTGAGCAGGAGCGGGCGGAGTTGGCGGGGGTGGGGCGGGTCTATAACTGA	MSSALLIKTPPQKVTVNGWVFYTSTALILLLTATLIIAPQEAGRLLGIAQAWLSRSFGWYYMVVIAAYLVFVVGLAFSSYGKLKLGSKDDTPDFSYGAWAGMLFSSGIGISLLYFGASEPLDHFFNPPEGVAGSNQAARQAVQLTFLHWGLHGWAIYALVGLAVAYFAYRHNQPLALRSALYPLMGERWVKGAAGHAVDGFGMFVTLLGLVTNLGIGSLQVASGLENLFGMEHSNTNLLIVIIVMSSVATIAAVSGVENGIRRLSNLNIVLFSGLLIFVLLCGPTLHLLNGFVQNIGDYLNGVVLKTFDLYVYADDNAKSGRWMGLWTLFYWAWWISWAPFVGMFIARISRGRTVRELVAGVLLIPLGFTLAWLSIFGNSALDLVMNHGAVELGKTALTQPSMSIYQLLEYYPASKVVIGVSIFVGFVLFLTPADSGAVMMANLSCTGGNVDEDAPHWLRIFWSVVITLVTIGLLFAGNFEAMQTMVVLAGLPFSVVLVFFMFGLHKAMREDVRVEQERAELAGVGRVYN				NA	NA	NA	NA	NA
D1-35_03753	1179	btuD_8		Vitamin B12 import ATP-binding protein BtuD	ATGAGCATAATCCGCTTCGAAGAGGTCGACGTGATCTTCTCCAAAGATCCACGCGAAGCCCTCAAGCTGCTCGACAAGGGCATGACCCGCAACGAAATCCTGAAGCAGACCGGGCAGATCGTCGGCGTGGAAAAGGCCAGCCTGGATGTCGAAAAAGGCGAGATCTGCGTACTGATGGGCCTCTCCGGCTCCGGCAAGTCGAGCCTGTTGCGCTGCATCAACGGTTTGAACACAGTGAGTCGCGGCAAACTGTTCGTCGAACACGAAGGCCGTCAGATCGACATCGCCTCCTGCACCCCCGCCGAGTTGAAGATGATGCGCACCAAGCGCATCGCCATGGTCTTCCAGAAATTTGCCCTGATGCCCTGGCTGACAGTGCGCGAGAACATCAGCTTCGGCCTGGAAATGCAGGGCCGCCCGGAGAAGGAACGCAAGAAGCTGGTGGATGAAAAGCTGGAGCTGGTGGGCCTGACCCAGTGGCGCAACAAGAAGCCCGACGAGCTGTCCGGCGGCATGCAACAACGGGTCGGCCTGGCCCGCGCCCTGGCGATGGACGCCGATATCCTGCTCATGGACGAACCCTTCTCGGCCCTCGACCCGCTGATCCGCCAAGGCCTGCAGGACGAACTGCTGGAGCTGCAGCGCAAGCTGAGCAAGACCATCGTATTCGTCAGCCATGACCTCGACGAGGCCCTGAAACTGGGCAGCCGCATCGCGATCATGAAAGACGGCCGCATCATCCAGTACAGCAAGCCGGAACAGATCGTGCTGAACCCGGCGGATGACTATGTGCGCACCTTTGTCGCCCATACCAACCCGCTCAACGTGCTCTGCGGCCGCAGCCTGATGCGCACCCTGGACAACTGCAAGCGCATCAACGGTTCCGTGTGCCTGGACCCGGGCGGCGATTCCTGGCTCGACCTGGCCGAAGGCAACACCATCAAGGGCGCCCGCCAGAACGGCGCCGCGCTGGACTTGCAAAACTGGGCACCGGGCCAGGCCGTCGAGGGCCTCGGCCGCCGTCCGACTCTGGTGGACTCCAGCATCGGCATGCGCGACGCCTTGCAGATCCGCTACCAGACCGGCAACAAGCTGGTGCTCCACGATAACCAGAAGGTCGTCGGGATCCTCGGCGACAGCGAGCTGTACCACGCGCTGCTAGGCAAGAACCTGGGCTGA	MSIIRFEEVDVIFSKDPREALKLLDKGMTRNEILKQTGQIVGVEKASLDVEKGEICVLMGLSGSGKSSLLRCINGLNTVSRGKLFVEHEGRQIDIASCTPAELKMMRTKRIAMVFQKFALMPWLTVRENISFGLEMQGRPEKERKKLVDEKLELVGLTQWRNKKPDELSGGMQQRVGLARALAMDADILLMDEPFSALDPLIRQGLQDELLELQRKLSKTIVFVSHDLDEALKLGSRIAIMKDGRIIQYSKPEQIVLNPADDYVRTFVAHTNPLNVLCGRSLMRTLDNCKRINGSVCLDPGGDSWLDLAEGNTIKGARQNGAALDLQNWAPGQAVEGLGRRPTLVDSSIGMRDALQIRYQTGNKLVLHDNQKVVGILGDSELYHALLGKNLG	PGPT0013630_1422	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
D1-35_03754	846	opuAB_3	COG4176	Glycine betaine transport system permease protein OpuAB	ATGCTTATTGATCAGAAAATACCCTTGGGCCAGTACATCGCGGGCTTTGTCGAATGGTTGACGCAAAACGGCGCCAACACTTTCGATGCCATTGCGATGTTTCTGGAAACGATGATTCACGGCGTGACGTTTGCGCTGACCTGGTTCAATCCCCTGGCCCTGATCGGCCTCATTGCCCTGCTGGCGCATTTTATCCAGCGCAAATGGGGCCTGACCGTTTTTGTCATCGCCTCGTTCCTGCTGATCCTCAACCTGGGTTACTGGCAGGAAACCATGGAAACCCTCGCCCAGGTGCTGTTCGCGACCCTGGTCTGCGTGCTGATCGGCGTGCCGCTGGGCATTGTTGCCGCGCACAAGCCGATGTTCTACACCATGATGCGTCCGGTGCTCGATCTGATGCAGACCGTACCGACCTTCGTTTACCTCATTCCTACCCTGACCCTCTTCGGTCTGGGTGTGGTCCCGGGCCTGATCTCCACGGTGGTGTTCGCCATTGCCGCGCCCATCCGCCTGACCTACCTGGGCATCCGCGACGTTCCGGACGAACTGATGGACGCCGGCAAAGCCTTCGGCTGCTCCCGTCGCCAACTCCTCTCACGCATTGAATTGCCCCATGCCATGCCGAGCATCGCCGCCGGCATTACCCAATGCATCATGCTGTCGCTGTCGATGGTGGTCATTGCGGCGCTGGTCGGTGCCGACGGCCTGGGCAAACCCGTGGTCAACGCACTGAACACCGCCGATATCGCCCTGGGCTTCGAAGCCGGCCTGGCGATCGTATTGCTGGCGATCATGCTCGACCGAATCTGCAAACAACCCGACGCCAAAGTAGGGGGTGACGCATGA	MLIDQKIPLGQYIAGFVEWLTQNGANTFDAIAMFLETMIHGVTFALTWFNPLALIGLIALLAHFIQRKWGLTVFVIASFLLILNLGYWQETMETLAQVLFATLVCVLIGVPLGIVAAHKPMFYTMMRPVLDLMQTVPTFVYLIPTLTLFGLGVVPGLISTVVFAIAAPIRLTYLGIRDVPDELMDAGKAFGCSRRQLLSRIELPHAMPSIAAGITQCIMLSLSMVVIAALVGADGLGKPVVNALNTADIALGFEAGLAIVLLAIMLDRICKQPDAKVGGDA	PGPT0013635_2240	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
D1-35_03755	948			hypothetical protein	ATGAAAGGTTCCAAGCCGTTGTTGTTGGCCGCCATGCTGAGTCTTCCGATGCTGGCCAACGCTGCAGAGCCCGCTCAGTGCAGCACCGTCAACTTCTCCGATGTCGGCTGGACGGACATCACCGTTACCACCGCTACCACCAGCGTCGTGCTCGACGCCCTCGGCTACAAGACCAAGACCACCATGATCTCCGTACCAGTGACCTACAAATCCCTGGCCGACGGCAAGAACATGGACGTTTTCCTCGGCAACTGGATGCCGACCATGGAAAACGACATCAAGGCCTACCGCGAAGCCGGCACCGTGGAAACCGTGCGCGCCAACCTGGAGAACGCCAAGTACACCCTGGCCGTCCCCGAAGAGCTGTATGAAAAGGGTCTGAAGGATTTCGCCGACATCGCCAAGTTCAAGAAGGAACTGGACGGCAAGATCTACGGCATCGAACCGGGCAACGACGGCAACCGCTTGATCCAGAGCATGATCGACAAGAACGCCTTCGGTCTCAAGGACGCTGGCTTCAAGGTCGTCGAATCCAGCGAAGCCGGCATGCTGTCGCAGGTCGATCGCGCCCAGCGTCGTAACACCGCCGTGGTGTTCCTGGGCTGGGAACCGCACCCGATGAACACCCGCTTCAAGATGAAATACCTCACCGGTGGCGATGAATTCTTCGGTCCGAACTTCGGCCAGGCAACCATCTACACCAACACGCGCAAGGGCTACGCCCAGGAATGCGGCAACGTCGGCCAACTGCTGAAAAACCTGGTCTTCACCCTCGACATGGAAAGCACGCTGATGGGCAACGTGCTGGACGACAAGATGAAGCCTGAAGCCGCCGCCAAGGCCTGGCTGAAGAAAAACCCACAGGTGCTCGACACCTGGCTCGCCGGCGTCACCACCATTGACGGTAAACCTGGCCTGGAGGCCGTGAAAGCCAAGCTCGCGCAGTAA	MKGSKPLLLAAMLSLPMLANAAEPAQCSTVNFSDVGWTDITVTTATTSVVLDALGYKTKTTMISVPVTYKSLADGKNMDVFLGNWMPTMENDIKAYREAGTVETVRANLENAKYTLAVPEELYEKGLKDFADIAKFKKELDGKIYGIEPGNDGNRLIQSMIDKNAFGLKDAGFKVVESSEAGMLSQVDRAQRRNTAVVFLGWEPHPMNTRFKMKYLTGGDEFFGPNFGQATIYTNTRKGYAQECGNVGQLLKNLVFTLDMESTLMGNVLDDKMKPEAAAKAWLKKNPQVLDTWLAGVTTIDGKPGLEAVKAKLAQ	PGPT0013640_2114	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
D1-35_03756	1377	sdaB_2	COG1760	L-serine dehydratase 2	ATGGCAATCAGCGTGTTCGACCTGTTCAAGATCGGTATCGGCCCGTCCAGTTCCCATACCGTGGGCCCCATGCGCGCCGCGGCGCTGTTCGTTGAAGCGCTGCGGGCGAAGGCGCTGCTGCACGATGTGCGCCGGGTCGAGGTGCAGTTGTACGGTTCGCTGTCGGCGACCGGCATCGGCCATGGCAGCGACAACGCCACGATCATGGGGCTGATGGGCGAATGGCCTGACGCGATCGACCCGTCGCAGATCGGCACGCGCATCGAACTGCTGCGCGAAACCGGGACCTTATTGCTGGATGGGCGTCTGCCGGTGCCTTTTGTATGGCCGCGCGACATGCGCCTGATCGACGAGAACCTGCCGTTCCACCCTAACGCGATGACCTTGATTGCTGAAGGCGCCAGCGGCGAATTGCACCGCGACACCTACTATTCCATCGGCGGAGGTTTTGTTGTTGACCAGGCCCAGGCTTCCAGCGGCGTGGTGGACCTGGACAGTACCGAACTGCCGTACGATTTTTCCAGCGCCGAAGAACTCCTGGCCCTGTGCCGCACCCACAACCTGCGGGTGGCCGAGTTGATGATGGCGAATGAAAAGGTCTGGCGCTCCGAGGAAGAGATCCGCAGCGGCCTGATGAAACTCTGGCGGGCCATGCAGGATTGTGTTGAGCAAGGCCTCAAGCACGAAGGCATCCTGCCCGGCGGCCTGAACGTGCGGCGGCGGGCGGCCAAGTTGCATCGCAGCCTGCAGGAACTGAACAAACCGAACGTGATCGGCTCGACCTTGAGTGCCATGGAATGGGTCAACCTGTTCGCCCTGGCGGTCAACGAGGAAAATGCCGCCGGCGGGCGCATGGTCACGGCGCCGACCAATGGCGCGGCGGGGATCATTCCGGCGGTGCTGCACTACTTCATGAAATTCAGCGAAGCGGTGACCGACGCCAACGTGGTGGATTATTTCCTCAGCGCAGCGGCGGTGGGGATTTTGTGCAAGAAGAACGCTTCGATCTCCGGCGCCGAAGTCGGCTGCCAGGGCGAAGTCGGCTCGGCCTGCGCCATGGCGGCGGCGGGCCTGGCGGAAATCCTCGGGGCCACGCCGGAGCAATTGTGCAACGCCGCGGAAATCGGCCTGGAGCACAACCTTGGCCTGACGTGCGACCCGGTCGGCGGCCTGGTCCAGGTGCCCTGCATCGAGCGCAACGCGATTGCCGCGGTGAAAGCCATCAACGCCGCCCAAATGGCCCTGCGCGGCGACGGCCAGCACTTCATCTCCCTCGACCGGGTGATCCGCACCATGCGTGACACCGGCGCCGACATGCATGACAAATATAAAGAGACATCGCGGGGCGGGTTGGCGGTGAGTGCGGTGGAGTGTTGA	MAISVFDLFKIGIGPSSSHTVGPMRAAALFVEALRAKALLHDVRRVEVQLYGSLSATGIGHGSDNATIMGLMGEWPDAIDPSQIGTRIELLRETGTLLLDGRLPVPFVWPRDMRLIDENLPFHPNAMTLIAEGASGELHRDTYYSIGGGFVVDQAQASSGVVDLDSTELPYDFSSAEELLALCRTHNLRVAELMMANEKVWRSEEEIRSGLMKLWRAMQDCVEQGLKHEGILPGGLNVRRRAAKLHRSLQELNKPNVIGSTLSAMEWVNLFALAVNEENAAGGRMVTAPTNGAAGIIPAVLHYFMKFSEAVTDANVVDYFLSAAAVGILCKKNASISGAEVGCQGEVGSACAMAAAGLAEILGATPEQLCNAAEIGLEHNLGLTCDPVGGLVQVPCIERNAIAAVKAINAAQMALRGDGQHFISLDRVIRTMRDTGADMHDKYKETSRGGLAVSAVEC	PGPT0001975_1923	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
D1-35_03757	1104	cdhR_10	COG4977	HTH-type transcriptional regulator CdhR	ATGACGACGTCCAACTCTGGGGCTCAACCCCAGAACCGTGCGCCTCAATCCATCGGCTTTTTGCTGCTGGACAATTTCACGCTGATTTCCCTGGCGTCCGCGGTGGAACCGCTACGCATGGCCAACCAGCTGTCCGGTCGCGAGTTGTATCGCTGGACCACCCTGACCGTCGATGGCGGGCAGGTCTGGGCCAGTGACGGTCTGCAGATCACGCCTGACGCCTCCATGCACAAAGCGCCGGCCCTCGACACCGTCATCGTCTGCGGCGGCATCGGCATCCAGCGCACCGTTACTCGTGAGCATGTCTCCTGGCTGCAAAGCCAGGCCCGGCAGTCCCGTCGCCTCGGCGCGGTCTGCACCGGCAGTTGGGCCCTGGCCTGTGCCGGCCTGCTGGACGGTTTCGATTGCAGCGTGCACTGGGAATGCCTGGCAGCCATGCAGGAAGCCTTCCCGCGGGTGTCGATGAGCACGCGGCTGTTCACCCTCGACCGCAATCGCTTCACCAGTTCCGGCGGCACCGCGCCACTGGATATGATGCTGCACTTGATCAGCCGCGATCACGGTCGCGAACTGTCGGCAGCAATCTCGGAAATGTTTGTCTATGAGCGCATCCGCAACGAGCAGGATCACCAGCGCGTGCCGCTCAAGCATATGCTCGGCACCAACCAGCCGAAGTTGCAGGAAATCGTCGCACTGATGGAGGCCAACCTCGAAGAGCCGATCGACCTGGACGAGCTGGCGGTGTATGTCGCCGTGTCCCGACGTCAGCTCGAGCGCCTGTTCCAGAAATACCTGCACTGTTCGCCGTCGCGCTACTACCTCAAGCTGCGGCTGATCCGCGCGCGGCAGCTGCTCAAGCAGACGCCGATGTCGATCATCGAAGTGGCCTCGGTGTGCGGCTTCGTCTCCACCCCGCACTTCTCCAAGTGCTACCGCGAATACTTCGGCATTCCACCGCGCGACGAGCGCGTCGGTTCCAACACTACGCAGCAGGTAGCGATGATGCCGTTGCCGCAGGCCCTGGTGCTGTCGCCATTGTCCGGCCCGCTGTCGGCCTTGAGCCAGGCGCGCAACGAGTCGACGTTTGCCAGTGTGAGGCTCTAA	MTTSNSGAQPQNRAPQSIGFLLLDNFTLISLASAVEPLRMANQLSGRELYRWTTLTVDGGQVWASDGLQITPDASMHKAPALDTVIVCGGIGIQRTVTREHVSWLQSQARQSRRLGAVCTGSWALACAGLLDGFDCSVHWECLAAMQEAFPRVSMSTRLFTLDRNRFTSSGGTAPLDMMLHLISRDHGRELSAAISEMFVYERIRNEQDHQRVPLKHMLGTNQPKLQEIVALMEANLEEPIDLDELAVYVAVSRRQLERLFQKYLHCSPSRYYLKLRLIRARQLLKQTPMSIIEVASVCGFVSTPHFSKCYREYFGIPPRDERVGSNTTQQVAMMPLPQALVLSPLSGPLSALSQARNESTFASVRL	PGPT0021945_104	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021945-cdhR-K17736	NA	NA
D1-35_03758	264			hypothetical protein	ATGATGTACGCCGATTTGATCGACCAGGAAGACCTGCTGGGCCAGCTCAAGGCCCTGGGGCTGCCGATACCCAGCGGTGCGACCGCCGAGCAGGCCTGTGAATGCGCGGTGCGCGGCCTGGACCGGGCGCGCGCCAATGAACTGCGGCGCATGGTCAAGGACATGTACACCAGCAGCGCGACCATCCTGCCGGCGGTGCGTCAGGCGATCGACCAGCAACTGTTGCCAGCGTTGGCGCAATACCAGCAAAACCATAGCGCCTGA	MMYADLIDQEDLLGQLKALGLPIPSGATAEQACECAVRGLDRARANELRRMVKDMYTSSATILPAVRQAIDQQLLPALAQYQQNHSA				NA	NA	NA	NA	NA
D1-35_03759	1164			Gamma-butyrobetaine dioxygenase	ATGAACATCGCCGCCGCTATTGCCGACTTCCGACGCTACCCTCTTGTCCAGGCATTGAGCGCTGTAACACCCTTGGGCGACCGGGTCCACGTCACGTGGGCCGACGGCCGGATCAGCCCGTTTCACCATCAATGGCTGCGGGACAACTGCCCCTGCGCGCAGTGTGTCTACAGCGTCACCCGCGAGCAGGTCCTGGAGATCGTCGACGTCCCGGAAGACCTGACGCCCGGCGCAATCGACATCGACGGCGCGGGCTGCCTACACGTGGTTTGGCAGGACGGCCATCAGAGCCTTTTCGACCCGGGTTGGTTGCGCGCCCATGCCTATGACGATCAATCCAGGGCCGAGCGACTGGCGGGCAGACCACAACGCCAACTATGGCAGCACGATCTGTCACTGCCAGTGTTCGAATACCAGGCCCTGATGGAGGACGCCGACACCTTGCTGAAATGGCTACTGGCAGTACGCGACATCGGCCTGACCCAGGTACGGGGCGTCCCCACCGAACCCGGCTCGCTGAAACTGATTGCCCAGCGCATTTCCTTTATCCGCGAAAGCAATTTCGGCGTGCTGTTCAACGTGCAGTCCAAGGCCGATGCCGACAGCAACGCCTATACCGCCTTCAATCTGCCGCTGCACAGCGACCTGCCAACACGGGAACTGCAGCCGGGTTTGCAGTTCCTGCATTGCCTGGTGAACGACGCCGACGGTGGCGAGAGCATCTTCGTCGACGGTTTCGCCATCGCCCAGGCGCTGCGCCGGGAAGACGCCGAAGCCTTCGACGCGCTGTGCCAGATCCCGGTGGAGTTTCGCAACAAGGATCGCCACAGCGACTACCGCTGCCTGGCGCCGATCATCGCCCTGGATACGCTGGGGCAGGTCTCGGAGATCCGCATGGCGAATTTCTTGCGCGGACCGTTCGATACGTCGGTGGAGCAGATGCCCAGGCTCTATCAAGCCTATCGCCGCTTCATTGCCCTGACCCGCGAGCCTCGGTTTCGCCTGGTACAGAGGCTTGAACCCGGCCAGCTCTGGTGCTTCGACAACCGTCGCACCCTCCACGCGCGCAATGCGTTCGACCCAGCCTCCGGGGCGCGACACTTCCAGGGGTGTTATGTCGATCGGGATGAATTGCTGTCGCGGATTCTGGTGTTGCAGCGTTAG	MNIAAAIADFRRYPLVQALSAVTPLGDRVHVTWADGRISPFHHQWLRDNCPCAQCVYSVTREQVLEIVDVPEDLTPGAIDIDGAGCLHVVWQDGHQSLFDPGWLRAHAYDDQSRAERLAGRPQRQLWQHDLSLPVFEYQALMEDADTLLKWLLAVRDIGLTQVRGVPTEPGSLKLIAQRISFIRESNFGVLFNVQSKADADSNAYTAFNLPLHSDLPTRELQPGLQFLHCLVNDADGGESIFVDGFAIAQALRREDAEAFDALCQIPVEFRNKDRHSDYRCLAPIIALDTLGQVSEIRMANFLRGPFDTSVEQMPRLYQAYRRFIALTREPRFRLVQRLEPGQLWCFDNRRTLHARNAFDPASGARHFQGCYVDRDELLSRILVLQR	PGPT0013696_407	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0013696-BBOX1_like-K00471	NA	NA
D1-35_03760	477	lcdH_1		L-carnitine dehydrogenase	ATGCCCGCTCTTACCACCTACCAAACCCCCATCCTCCCGGAATGGGTCGACTACAACGGTCACTTGCGCGATGCCTTCTACCTGCTGATCTTCAGCTACGCGACCGACGCGCTGATGGACCAACTCGGCCTGGACAGCCAGAACCGCGAAGCCAGCGGCCATTCGCTATTCACCCTTGAACTGCACCTGAACTACCTCCACGAAGTGAAGCTCGGGGCCGAGGTAGAGGTGCACACACAACTCATCGGCCACGACACCAAACGCCTGCACCTCTACCACAGCCTGCACCTGGTGGGCGGAGACAAAGAGCTGGCCGGCAATGAGCAGATGCTGCTGCACGTCGACCTGGCCGGCCCGCGCTCAGCGCCTTTCACCGAGCAGACCCTGGGCCGACTCAAAGCCCTGATCGACGAACAATCCGACCTGCCGGCTCCGACCTGCATTGGCCGCGTCATCGCCTTGCCGCCCGCCCGATAA	MPALTTYQTPILPEWVDYNGHLRDAFYLLIFSYATDALMDQLGLDSQNREASGHSLFTLELHLNYLHEVKLGAEVEVHTQLIGHDTKRLHLYHSLHLVGGDKELAGNEQMLLHVDLAGPRSAPFTEQTLGRLKALIDEQSDLPAPTCIGRVIALPPAR	PGPT0001850_1387	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
D1-35_03761	966	lcdH_2	COG1250	L-carnitine dehydrogenase	ATGAGCTTCATCACCAACATCAGAACCTTCGCCGCCCTGGGCAGCGGCGTCATCGGCAGCGGTTGGATCAGCCGCGCCCTGGCCCACGGCCTGGACGTGGTCGCCTGGGACCCGGCGCCGGGTGCCGAAGCGGCCTTGCGCAAACGCGTCGCCAACGCCTGGGGCGCCTTGGAAAAACACGGCCTGGCCCCCGGCGCATCGCAGGATCGCTTGCGCTTTGTTGCGACCGTCGAGGAATGCGTACGCGAGGCCGATTTCATTCAGGAAAGCGCTCCCGAGCGGCTGGAGCTCAAGCTTGAGCTGCACGCCCAGATCAGCGCCGCCGCCAAGCCGGATGCGCTGATCGGCTCGAGCACCTCGGGGCTTTTGCCGAGCGAGTTCTATGCAAACTCCACTCATCCGGAGCGCTGCGTGGTCGGGCATCCATTCAACCCGGTCTACCTGCTGCCCCTGGTGGAAGTGGTCGGTGGCAAGCACACCGCGCCTGAAGCCGTACAAGCGGCGATGGAGGTCTACGAATCCCTTGGCATGCGCCCGCTGCACGTGCGCAAGGAAGTCCCCGGTTTCATCGCCGATCGCCTGCTCGAAGCGCTGTGGCGCGAGGCCCTGCACCTGGTCAACGACGGCGTGGCGACCACCGGCGAAATCGACGATGCCATTCGTTTTGGCGCCGGCCTGCGCTGGTCGTTCATGGGCACTTTCCTGACCTACACCCTGGCCGGCGGCGATGCCGGGATGCGCCATTTCATGGCCCAGTTCGGCCCGGCGCTGCAATTGCCGTGGACCTACCTGCCGGCGCCGGAGCTGACCGAGAAACTGATCGACGATGTGGTGGAAGGGACGAGCGAGCAACTGGGGCGCCACAGCATTTCGGCGCTGGAGCGCTATCGTGATGATTGCCTGATGGCGGTGCTGGAGGCGGTGAAGGCCACCAAGGAAAAGCATGGAATGGCCTTCGCCGAGTAA	MSFITNIRTFAALGSGVIGSGWISRALAHGLDVVAWDPAPGAEAALRKRVANAWGALEKHGLAPGASQDRLRFVATVEECVREADFIQESAPERLELKLELHAQISAAAKPDALIGSSTSGLLPSEFYANSTHPERCVVGHPFNPVYLLPLVEVVGGKHTAPEAVQAAMEVYESLGMRPLHVRKEVPGFIADRLLEALWREALHLVNDGVATTGEIDDAIRFGAGLRWSFMGTFLTYTLAGGDAGMRHFMAQFGPALQLPWTYLPAPELTEKLIDDVVEGTSEQLGRHSISALERYRDDCLMAVLEAVKATKEKHGMAFAE	PGPT0021955_341	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021955-lcdH|cdhA-K17735	NA	NA
D1-35_03762	888	kce	COG3246	3-keto-5-aminohexanoate cleavage enzyme	ATGAACCACGACGTCATCATCACCTGCGCACTCACCGGTGCTGGCGACACGACCGCCAGGAGCCCGCACGTGCCGGTCACCCCGAAACAGATCGCCGCTGCGGCCGTCGAAGCGGCCAAGGCCGGCGCCACCGTGGTCCACTGCCATGTGCGCGACCCACAGACCGGCAAATTCAGCCGCGACGTGGCGCTGTACCGCGAAGTGATGGAGCGCATCCGCGAGGCCGACGTCGACATCATCGTCAATCTCACCGCCGGCATGGGCGGCGACCTGGAAATCGGTAGCGGCGAAAAACCCATGGAGTTCGGCCCCAACACCGATCTGGTGGGCCCACTGACCCGCCTGGCCCACGTCGAGGAGCTGTTGCCGGAAATCTGCACGCTGGATTGCGGCACCCTTAACTTCGGCGACGGCGACACCATTTACGTCTCCACCCCGGCGCAACTGCGGGCCGGCGCCAAGCGCATCACCGAGCTGGGGGTCAAGGCCGAGCTGGAGATCTTCGACACCGGGCACCTGTGGTTCGCCAAGCAGATGATCAAGGAAGGCCTGTTGGACAACCCCTTGTTCCAGCTCTGCCTGGGTATCCCGTGGGGCGCGCCGGCGGATACCACCACCATGAAGGCCATGGTCGACAACCTGCCCGCCGACGCGGTGTGGGCCGGCTTCGGTATCGGCCGCATGCAAATGCCGATGGCGGCACAGGCCGTTTTGCTGGGCGGCAACGTGCGGGTCGGGCTGGAAGACAACCTCTGGCTGGACAAAGGCGTACTCGCCACCAATGGACAACTGGTGGAGCGTGCCGGCGAAATCCTCAGCCGCCTCGGCGCGCGCGTGCTTACGCCGGCTGAGGGCCGCAAGAAAATGGGCCTGACCCAGCGCGGCTAA	MNHDVIITCALTGAGDTTARSPHVPVTPKQIAAAAVEAAKAGATVVHCHVRDPQTGKFSRDVALYREVMERIREADVDIIVNLTAGMGGDLEIGSGEKPMEFGPNTDLVGPLTRLAHVEELLPEICTLDCGTLNFGDGDTIYVSTPAQLRAGAKRITELGVKAELEIFDTGHLWFAKQMIKEGLLDNPLFQLCLGIPWGAPADTTTMKAMVDNLPADAVWAGFGIGRMQMPMAAQAVLLGGNVRVGLEDNLWLDKGVLATNGQLVERAGEILSRLGARVLTPAEGRKKMGLTQRG	PGPT0021956_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021956-cdhC-NA	NA	NA
D1-35_03763	945			hypothetical protein	ATGAAACACCTGATCAGCTACTGCGTTCTTGCAATCAGCGCCACGTCTCTCCTGAACCAGACAGCCCTCGCAGCCGAACCCGCTGCCTGCCAGAACGTGCGCCTGGGCGTGGTCAACTGGACCGACGTCATTGCCACCAGCGCCTTGACCCAAGTGATGCTCGATGGCCTCGGTTACAAGACCAAGCAGACCAGCGCCTCCCAGCAGATCATTTTCGCCGGCATCCGCGACCAGCGCCTGGACCTGTTCCTGGGCTACTGGAACCCGCTGATGACCCAGACCATCACCCCGTTCGTCGAGGCGAAGCAGGTCAAGGTGCTGGAGCAGCCGAGCCTGAAGGACGCCCGCGCCACCCTGGCCGTACCCACTTACCTGGCCGACAAGGGCCTGAAGACCTTCGCTGATATCGCCAAATTCGAAAAAGAGCTGGCCGGCAAGATCTACGGCATCGAGCCCGGTTCCGGTGCCAACACTCAGATCAAAGCGATGATCGCCAAGAACCAGTTTGGCCTGGGCAAGTTCCAGCTGGTCGAGTCCAGCGAGGCCGGCATGCTCGCGGCGGTAGACCGCGCCGTGCGGCGCAAGGAAGCCGTGGTGTTCTTCGGCTGGGCGCCGCACCCGATGAACGTCAACGTGCAGATGACCTATCTCACCGGCAGCGAAGACGCCCTCGGCCCGAATGAAGGCATGGCCAGCGTCTGGACCGTCACCGCGCCGGACTACGCCGAGCAATGCCCGAACGTCAGCCGCCTGCTGAGCAACCTGACCTTCAGCGCCGAAGACGAGAGCCGGATGATGCAGCCGCTGCTCGACCACAAGGACCCACTGGAGTCCGCCCGGCAATGGCTGAAGGACCACCCGCAAGACAAGCAGCGCTGGCTCGAAGGCGTGACCACTTTCGACGGCAAGCCGGCCATCGACAACCTGAAACTGACCAGCAACTGA	MKHLISYCVLAISATSLLNQTALAAEPAACQNVRLGVVNWTDVIATSALTQVMLDGLGYKTKQTSASQQIIFAGIRDQRLDLFLGYWNPLMTQTITPFVEAKQVKVLEQPSLKDARATLAVPTYLADKGLKTFADIAKFEKELAGKIYGIEPGSGANTQIKAMIAKNQFGLGKFQLVESSEAGMLAAVDRAVRRKEAVVFFGWAPHPMNVNVQMTYLTGSEDALGPNEGMASVWTVTAPDYAEQCPNVSRLLSNLTFSAEDESRMMQPLLDHKDPLESARQWLKDHPQDKQRWLEGVTTFDGKPAIDNLKLTSN	PGPT0013640_2453	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
D1-35_03764	960	cdhR_11	COG4977	HTH-type transcriptional regulator CdhR	ATGTCCCAGGATTTTTATTTCTTGTTGATGCCGGGTTTCTCGGCCATCGGTTTCATCTCGGCCATCGAGCCCTTGCGGGTCGCCAACCGTTTTCGCGGCGAGCTGTACCGCTGGCATGTACTGAGCGCCGATGGCGGTGCGGTGCTGGCGAGCAACGGCATGTCGGTCAACGCCGACGCCGCGCTGGAGCCGCTGAAGAAGGGTGCGACGCTGTGGGTCGTGGCGGGTTTCGAACCGTTGAAATTTGCCAGCCCGGCGTTGGAGCGCTGGTTGCATCGACTGGACAATGAAGGTGTCATCCTTGGCGGTATCGACACCGGCAGCGTGGTCCTGGCCGAGGCGGGGCTACTGGATGGCCACCGGGTGACGCTGCACTGGGAGGCGATCGAGGCGTTCAAGGAATCTTATCCACAGCTCGGCGTGACCCAGGAACTGTTCGAGATTGACCGCCGTCGCATCACTTGCGCCGGCGGCACCGCCTCCATCGACCTGATGCTCGACCTGATCGGCCAGGCCCACGGCCCGGAGCTGGCGATCCAGGTCAGCGAGCAATTCGTGCTCGGTCGCATTCGTCCGCGCAAGGATCACCAGCGCATGGAAATCGCCACGCGCTATGGCATCCGCAACAAGAAGCTGGTGCAGGTCATCGGCGAGATGGAGACCCATAGCGAACCGCCCTTGAGCACCCTGGCCCTGGCCGAGTCGATCAACGTGACGCGGCGTCAGCTGGAGCGCTTGTTCCGGCTGCACCTGAACGACACCCCGAGCAACTTCTACCTGCGCCTGCGCCTGGAAAAGGCCCGGCAACTGCTGCGTCAGACCGACATGAGCGTGCTGGAGGTGAGCATCGCCTGCGGGTTCGAGTCGCCGTCGTACTTCACCCGCAGCTATCGGGCACGGTTTGCCCGGTGTCCACGGGAGGATCGGCGACGGCAGGGGGATGAGCGGGAGGTGGTTTGA	MSQDFYFLLMPGFSAIGFISAIEPLRVANRFRGELYRWHVLSADGGAVLASNGMSVNADAALEPLKKGATLWVVAGFEPLKFASPALERWLHRLDNEGVILGGIDTGSVVLAEAGLLDGHRVTLHWEAIEAFKESYPQLGVTQELFEIDRRRITCAGGTASIDLMLDLIGQAHGPELAIQVSEQFVLGRIRPRKDHQRMEIATRYGIRNKKLVQVIGEMETHSEPPLSTLALAESINVTRRQLERLFRLHLNDTPSNFYLRLRLEKARQLLRQTDMSVLEVSIACGFESPSYFTRSYRARFARCPREDRRRQGDEREVV	PGPT0021945_164	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021945-cdhR-K17736	NA	NA
D1-35_03765	417			hypothetical protein	ATGATCATCTGCGGCATCGAAATCAAAGGCAGCGAAGCGATCATCGCCGTTGCTTCGCTGGACCAGCAGGCGTTGAGCCACGTCGCGCTCAGTACCAAGAAAATCGCCCTTGACGACGATGACGAAGCCGCCAACGTCAAGGCCTTTGCCGCGCAGGTTCGGGCGTTCGTGACGGACAACGGCATCGAACGCATCGCCATCAAGAAGCGCAGCAAGAAAGGCGAATTCGCCGGTGGGCCGACCACCTTCAAGATCGAGGGCATTTTCCAGTTGCTGGAAGGTTGCGAGGTGATGCTGCTGTCGCCGCAGACCATCAACGCGCAGAGCAAGAAACACGACTTCGTCCTGCCGGCGACGCTGAACAAGTATCAGCATGAGGCGTACAAGGCAGCCTGCTCGGCACTGATGAAGAAATAG	MIICGIEIKGSEAIIAVASLDQQALSHVALSTKKIALDDDDEAANVKAFAAQVRAFVTDNGIERIAIKKRSKKGEFAGGPTTFKIEGIFQLLEGCEVMLLSPQTINAQSKKHDFVLPATLNKYQHEAYKAACSALMKK				NA	NA	NA	NA	NA
D1-35_03766	324			hypothetical protein	ATGAACGTACCTACTGACATTCAGATCATCAACGACGCAGACGGAAATCCGGCCTTTGTGGTCATTCCGTATGCGCAATACGTTGCGCAGAAATTGGAACCCGATCTGATTCCTCATGAAGTCGTTAGCCGTATCGTCGACGGCGCCACGCCCATACGCGCCTGGCGCGAGCATTTGAACCTGACCCAAGACGAAGTTGCCAAGCGTCTCGGTATTTCCCAACCGGCGTTTGCCCAGCAAGAATCTGTGGCCAAACCTCGCCGAGCTACACGAGAAAAAATTGCCTCTGCCTTTGGCATCCATGCTGATCAACTGGAGCTATAG	MNVPTDIQIINDADGNPAFVVIPYAQYVAQKLEPDLIPHEVVSRIVDGATPIRAWREHLNLTQDEVAKRLGISQPAFAQQESVAKPRRATREKIASAFGIHADQLEL				NA	NA	NA	NA	NA
D1-35_03767	402			hypothetical protein	ATGAAATCGATTTTCTTCGCCCTGGCACTGATCAGCACCGTCGCCCACGCGACCGAAGACACCGAACCCAACCCCTGCGACGAAGTTGAAAACGACGTCCAGACCCTGGCCTGTTCGGCCTACGGCAAAGCCGCCGCCGAACAACTGCTCAACGAAAACCTGCAAAGCCTCAACGAACGCCTGCAAACCCGCTACGCCAGCGACAAGGCCCAGCTCAACGACATCACCGCCAAGATCAAGGCCGCCCAGCAACTGTGGCAAAAGCAGCGCGAAGCCGACTGCGCGATCGCCGCCTTCCCGGCCAAACCTGGCAGCGACGCCTACAAAATCGCCGAAAACGACTGCATGGCCCAGGTGAGCGATGACCGGTCGGAGTTTTTGGAGTCGATTGGACAGGAATAA	MKSIFFALALISTVAHATEDTEPNPCDEVENDVQTLACSAYGKAAAEQLLNENLQSLNERLQTRYASDKAQLNDITAKIKAAQQLWQKQREADCAIAAFPAKPGSDAYKIAENDCMAQVSDDRSEFLESIGQE				NA	NA	NA	NA	NA
D1-35_03768	978			hypothetical protein	ATGAGCCCAGCCGAATTGCACGCCGACAGCATCGTTATCGACGGGCTGATCATTGCCAAGTGGAACCGTGACCTGTTCGAAGACATGCGCAAGGGCGGCCTGACCGCAGCCAACTGCACCGTGTCGGTGTGGGAAGGTTTCCAGGCCACCATCAACAACATCGTCGCCAGCCAGAAACTGATCCGCGAAAACAGCGACCTGGTGATCCCGGTGAAGACCACCGCCGACATCCGTCGTGCCAAGGAGCAGGGCAAGACCGGCATCATCTTCGGCTTCCAGAACGCCCATGCCTTCGAGGACCAGCTCGGCTATGTCGAGATCTTCAAGCAGCTGGGCGTCGGCGTGGTGCAGATGTGCTACAACACCCAGAACCTGGTGGGCACCGGCTGCTACGAGCGCGACGGCGGCCTGTCGGGCTTCGGTCGTGAAATCGTCGCCGAGATGAACCGCGTCGGCATCATGTGCGACCTGTCCCACGTTGGTTCCAAGACTTCCGAAGAAGTCATTCTCGAATCGAAGAAGCCGGTCTGCTACTCCCACTGCCTGCCGTCCGGTCTGAAAGAGCACCCACGCAACAAGTCTGACGAGGAACTGAAGTTCATCGCCGACCACGGCGGTTTCGTCGGCGTGACCATGTTCGCGCCGTTCCTGGCCAAGGGCATCGATTCGACCATCGACGACTACGCCGAAGCCATTGAATACACCATGAACATCGTCGGCGAAGACGCCATCGGCATCGGCACTGACTTCACCCAGGGCCATGGCCAGGATTTCTTCGAGATGCTGACCCACGACAAGGGCTATGCCCGTCGTCTGACCAGCTTTGGCAAGATCATCAACCCCCTGGGCATCCGCACCGTGGGCGAGTTCCCGAACCTCACCGAGACGCTGCTCAAGCGCGGTCACCCGGAGCGGGTGGTGCGCAAGATCATGGGCGAGAACTGGGTGAACGTTCTCAAGGACGTCTGGGGCGAATAA	MSPAELHADSIVIDGLIIAKWNRDLFEDMRKGGLTAANCTVSVWEGFQATINNIVASQKLIRENSDLVIPVKTTADIRRAKEQGKTGIIFGFQNAHAFEDQLGYVEIFKQLGVGVVQMCYNTQNLVGTGCYERDGGLSGFGREIVAEMNRVGIMCDLSHVGSKTSEEVILESKKPVCYSHCLPSGLKEHPRNKSDEELKFIADHGGFVGVTMFAPFLAKGIDSTIDDYAEAIEYTMNIVGEDAIGIGTDFTQGHGQDFFEMLTHDKGYARRLTSFGKIINPLGIRTVGEFPNLTETLLKRGHPERVVRKIMGENWVNVLKDVWGE	PGPT0020950_3009	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
D1-35_03769	531			hypothetical protein	ATGGCCAAGATCGCCCCGCAACTGCCAATCGAAGTCGACAGCGAAACCGGTGTCTGGACCTCCGACGCCCTGCCGATGCTATACGTGCCGCGGCACTTCTTCGTCAACAACCACATGGGTATCGAGGAAGTGCTGGGCGCCGATGCCTACGCCGAAATCCTCTACAAGGCCGGCTACAAATCCGCCTGGCACTGGTGCGAAAAAGAAGCCGAATGTCACGGCCTGGAAGGCGTCGCGGTGTTCGAGCATTACATGAAGCGCTTGTCCCAGCGTGGCTGGGGCCTGTTCAAGATCCAGGACATCGACCTGGATAAAGGCACCGCTAGCGTCAAGCTCGAGCATTCAGCGTTCGTCTACGTGTACGGCAAGGTCGGGCGCAAGGTCGACTATATGTTCACCGGCTGGTTCGCCGGCGCCATGGATCAGATTCTCGCCGCTCGCGGCAGCCAGATCCGCACCGTGGCCGAGCAGGTCTACGGCGGTTCCGAAGAAGGCCACGACGACGGCCTGTTCATCGTCAAGCCGTTGTAA	MAKIAPQLPIEVDSETGVWTSDALPMLYVPRHFFVNNHMGIEEVLGADAYAEILYKAGYKSAWHWCEKEAECHGLEGVAVFEHYMKRLSQRGWGLFKIQDIDLDKGTASVKLEHSAFVYVYGKVGRKVDYMFTGWFAGAMDQILAARGSQIRTVAEQVYGGSEEGHDDGLFIVKPL				NA	NA	NA	NA	NA
D1-35_03770	2061	stcD_2		putative N-methylproline demethylase	ATGGCTTTTGAAGCAATGTTCCAGCCGATCCAGATCGGCAAGCTGACCATCCGCAACCGCGTGCTCAGCACCGCGCACGCCGAGGTCTACGCCACCGACGGCGGCATGACCACCGACCGCTATGTGAAATATTACGAAGAGAAGGCCAAGGGCGGCATCGGCCTGGCAATCTGCGGCGGCTCGTCCGTGGTTGCCATCGACAGCCCGCAGGAATGGTGGAGTTCGGTGAACCTGTCCACCGACCGCATCATCCCGCACTTCCAGAACCTGGCCGACGCCATGCACAAGCATGGCGCCAAGATCATGATCCAGATTACCCATATGGGTCGTCGCTCGCGCTGGGACGGTTTCAACTGGCCGACCCTGATGTCGCCGTCCGGCGTGCGTGAGCCGGTGCATCGTGCGACCTGCAAGACCATCGAGCCGGAAGAAATCTGGCGGGTGATCGGCAACTACGCCCAGGCCGCGCGCCGGGCCAAGGCCGGTGGCCTGGACGGCGTCGAGCTGTCCGCCGTGCACCAGCACATGATCGACCAGTTCTGGAGCCCGCGGGTCAACAAGCGGACCGACGAGTGGGGCGGCACTTTTGAGGGGCGCATGAAGTTCGGCCTGGAAGTGTTGAAGGCCGTGCGCGCCGAAGTGGGTGACGATTTCTGCGTGGGCATGCGCCTGTGCGGCGACGAATTCCACCCGGACGGCTTGTCCCACGAGGACATGAAGCAGATCGCCAAGTACTACGACGACACCGGCATGCTCGATTTCATCGGTGTGGTGGGCTCGGGTTGCGACACCCACAACACCTTGGCCAACGTCATCCCGAACATGAGTTATCCACCGGAGCCGTTCCTGCACCTGGCCGCCGGTATCAAGGAGGTGGTCAAGGTTCCGGTGCTGCATGCGCAGAACATCAAGGACCCGAACCAGGCCACGCGGATCCTCGAGGGCGGCTACGTCGATATGGTCGGCATGACCCGCGCCCACATCGCCGACCCGCACCTGATCGCCAAGATCAAGATGGGCCAGATCGACCAGATCAAGCAGTGCGTCGGCGCCAACTACTGCATCGACCGCCAGTACCAGGGCCTGGACGTGCTGTGTATCCAGAACGCCGCGACCTCCCGTGAATACATGGGCGTGCCGCACATCATCGAGAAATCCACTGGGCCGAAACGCAAAGTCGTGGTGGTCGGTGCCGGCCCGGCCGGGATGGAAGCGGCGCGCGTGGCCGCCGAGCGTGGGCACGACGTGACGCTGTTCGAGAAGAAAGAGTTCATCGGCGGACAGATCACCACCGCCTCGAAAGCCCCGCAACGGGACCAGATCGCCGGTATCACCCGCTGGTTCCAGCTGGAGCTGGCGCGGTTGAAAGTCGACCTGCGCCTGGGCGTGGCGGCGGATGCGCCAACCATCATGGACTTGCGTCCGGACGTGGTGGTGCTGGCCGTCGGTGGCCACCCGAACGTCGAGCAGAACGAGCACTGGGGCGCCGCCGAAGGGTTGGTGGTCAGCAGCTGGGACGTACTCGACGGCAAGGTTGCACCGGGCAAGAACGTGCTGGTCTACGACACCATCTGCGAGTTCACCGGCATGTCGGTGGCCGACTTCCTCGCCGACAAGGGCAGCCAGGTCGAGATCGTCACCGACGATATCAAGCCAGGCGTGGCCATTGGCGGGACGTCGTTCCCGACCTATTACCGCAGCATGTACCCCAAGGAAGTGATCATGACCGGGGACATGATGCTGGAGAAGGTCTACCGCGAAGGCGACAAGCTGGTAGCGGTGCTGGAGAACGAATATACCGGCGCCAAGGAAGAGCGCGTGGTGGACCAGGTGGTGGTGGAGAACGGCGTGCGGCCGGACGAAGAAATCTACTACGCGCTGAAGGAGGGTTCGCGCAACAAGGGCCAGATCGACGTCGAAGCACTGTTCGCGATCAAGCCGCAACCGTGCCTTGAGCAGAGTGGCGATGGCTACCTGCTGTTCCGCATCGGCGACTGCGTGGCCCAGCGTAATACCCACGCGGCCATCTACGACGCCCTGCGGCTGTGCAAGGATTTCTAA	MAFEAMFQPIQIGKLTIRNRVLSTAHAEVYATDGGMTTDRYVKYYEEKAKGGIGLAICGGSSVVAIDSPQEWWSSVNLSTDRIIPHFQNLADAMHKHGAKIMIQITHMGRRSRWDGFNWPTLMSPSGVREPVHRATCKTIEPEEIWRVIGNYAQAARRAKAGGLDGVELSAVHQHMIDQFWSPRVNKRTDEWGGTFEGRMKFGLEVLKAVRAEVGDDFCVGMRLCGDEFHPDGLSHEDMKQIAKYYDDTGMLDFIGVVGSGCDTHNTLANVIPNMSYPPEPFLHLAAGIKEVVKVPVLHAQNIKDPNQATRILEGGYVDMVGMTRAHIADPHLIAKIKMGQIDQIKQCVGANYCIDRQYQGLDVLCIQNAATSREYMGVPHIIEKSTGPKRKVVVVGAGPAGMEAARVAAERGHDVTLFEKKEFIGGQITTASKAPQRDQIAGITRWFQLELARLKVDLRLGVAADAPTIMDLRPDVVVLAVGGHPNVEQNEHWGAAEGLVVSSWDVLDGKVAPGKNVLVYDTICEFTGMSVADFLADKGSQVEIVTDDIKPGVAIGGTSFPTYYRSMYPKEVIMTGDMMLEKVYREGDKLVAVLENEYTGAKEERVVDQVVVENGVRPDEEIYYALKEGSRNKGQIDVEALFAIKPQPCLEQSGDGYLLFRIGDCVAQRNTHAAIYDALRLCKDF	PGPT0021970_155	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_STACHYDRINE_USAGE	PLANT_DERIVED_STACHYDRINE_DEGRADATION,PGPT0021970-hpbA-K22551	NA	NA
D1-35_03771	1950	fadF	COG0247	putative iron-sulfur-binding oxidoreductase FadF	ATGTTGAACACCCTTCTTCCAATCCTGCTGTTCGCAGCCCTGGGCCTCGCGGTCCTCGGTGCCTTGCGGCGGGTGAACATGTGGCGCCGGGGCCGACCGTCGAAAGTCGACCTGATCGGTGGCATCTTCGCCATGCCCAAGCGCTACATGGTGGACTTGCACCACGTGGTGGCGCGGGACAAATACATCGCCAATACCCACGTCGCCACGGCGGGCGGGTTTGTCCTGGCGGCGGTGCTGGCGATCCTGGTGCACGGTTTCGGCCTGCAGAGCCGTATCCTCGGCTATGCCTTGCTGTTCGCCACATTGCTGATGTTCAGCGGTGCGATCTTCATGGCCCTGCGTCGTCGCAATCCACCTTCGCGGCTGTCGAAGGGCCCCTGGATGCGCCTGCCGAAAAGCCTGTTCGCGTTTTCCATCAGCTTCTTCCTGGTGACCTTGCCGGTGGCCGGGATTCTGCCGGCGGACTTCGGTGGCTGGTTGCTGGTGGCGCTGTTGGGGCTGGGCGTGCTCTGGGGCGTCTCGGAGATGTTCTTCGGCATGACCTGGGGCGGGCCGATGAAGCACGCCTTCGCCGGTGCCCTGCACCTGGCCTGGCACCGCCGTGCAGAACGTTTTGGTGGCGGCCGTTCCACCGGCCTCAAGCCGCTGGACCTGAACGACCCAGCCGCACCGCTGGGTGTGGAGAAACCCAAGGATTTCACCTGGAACCAGTTGCTCGGCTTCGACGCCTGCGTACAGTGCGGCAAGTGCGAAGCGGCCTGCCCGGCGTTCGCCGCCGGCCAGCCGCTGAACCCGAAAAAGCTCATCCAGGACATGGTCGTCGGCCTGGCCGGCGGCACCGATGCGAAGTTCGCCGGCAGTCCTTACCCAGGCAAACCCGTTGGCGAGCACGGCGGTAATCCACACCAGCCGATCGTCAACGGTCTGGTGGACGCCGAGACCCTGTGGTCCTGCACCACTTGCCGGGCGTGTGTCGAGGAGTGCCCGATGATGATCGAGCACGTCGACGCCATCGTCGACATGCGCCGGCACCTGACCCTGGAAAAAGGCGCCACGCCGAACAAGGGCGCCGAGGTGCTGGAAAACCTCATCGCCACCGACAACCCTGGCGGCTTCGCCCCGGGCGGGCGGATGAACTGGGCGGCGGACTTGAACCTTAATCTGCTCAGCGAGAAGAAATCCACCGACGTGCTGTTCTGGGTCGGCGACGGTGCCTTCGACATGCGCAACCAGCGCACCTTGCGCGCCTTCGTCAAAGTCCTCAAGGCGGCGAAGATCGACTTCGCCGTGCTCGGCCTCGAAGAACGCGACAGCGGCGACGTGGCCCGGCGCCTCGGTGATGAAGCGACGTTCCAGCTGTTGGCCAAGCGCAACATCCAGACCCTGGCCAAATACCGCTTCAACCGCATCGTCACCTGCGACCCCCACAGCTTCCACGTGCTGAAAAACGAGTACGGCGCCTTCGATGGCAACTACCTGGTGCAGCACCACAGCACCTATATGGCGGAAATCATCGACGCCGGCGCGCTGAACCTCGGCCAGCACAAGGGCGACAGCGTGACTTATCACGACCCCTGCTACCTGGGCCGCTACAACGGCGAATACGAGGCACCGCGCCAGGTGCTGCGTGCGCTGGGCATCGAGGTCAAGGAGATGCAGCGCTCCGGTTTCCGTTCCCGTTGCTGCGGCGGCGGTGGCGGTGCGCCGATCACCGACATTCCGGGCAAGCAGCGTATTCCTGACATGCGCATGGAAGACATCCGCGAAACCGGCGCCGAACTGGTGGCCGTGGGTTGTCCACAGTGCACCGCGATGCTGGAAGGCGTGGTCGAACCACGACCAATGATCAAGGACATTGCCGAACTGGTGGCCGATGCGCTGCTCGAGGATACGACCCCGAGCAAGCCCGTGGCTCCGGCCAAACGTGAACCTGCGGAGGTGCATTGA	MLNTLLPILLFAALGLAVLGALRRVNMWRRGRPSKVDLIGGIFAMPKRYMVDLHHVVARDKYIANTHVATAGGFVLAAVLAILVHGFGLQSRILGYALLFATLLMFSGAIFMALRRRNPPSRLSKGPWMRLPKSLFAFSISFFLVTLPVAGILPADFGGWLLVALLGLGVLWGVSEMFFGMTWGGPMKHAFAGALHLAWHRRAERFGGGRSTGLKPLDLNDPAAPLGVEKPKDFTWNQLLGFDACVQCGKCEAACPAFAAGQPLNPKKLIQDMVVGLAGGTDAKFAGSPYPGKPVGEHGGNPHQPIVNGLVDAETLWSCTTCRACVEECPMMIEHVDAIVDMRRHLTLEKGATPNKGAEVLENLIATDNPGGFAPGGRMNWAADLNLNLLSEKKSTDVLFWVGDGAFDMRNQRTLRAFVKVLKAAKIDFAVLGLEERDSGDVARRLGDEATFQLLAKRNIQTLAKYRFNRIVTCDPHSFHVLKNEYGAFDGNYLVQHHSTYMAEIIDAGALNLGQHKGDSVTYHDPCYLGRYNGEYEAPRQVLRALGIEVKEMQRSGFRSRCCGGGGGAPITDIPGKQRIPDMRMEDIRETGAELVAVGCPQCTAMLEGVVEPRPMIKDIAELVADALLEDTTPSKPVAPAKREPAEVH				NA	NA	NA	NA	NA
D1-35_03772	1221	fixB		Protein FixB	ATGACCGACATCATCCGCCGCGACCCTCGCGCCGAGTGGATCGCCCGTAACCGGCTGCACCCGCTGCACGCGGCCATGCAACCGGTGCAGCACAGCTGGATGGGCCCTAACGGCGTCATTCGCAAGAACGTCCATGGGGTCGGCTTCATCGGCCCCAACGGCATCAAGCGCATCGACCGCAGCGGCGCCCAGCAGGGCGGCGCGACCAAGCGCACCGCGGCCACCGAAGTGCAGCTACCGCTGCATCAGGTGCCGCAACCGGCGTTTTACATCAGTGTGGTCCCGGACATGGTCGGTGGCCGTCTCAGCAGTCACGACCGCGACCTGTTGGGCCTTGCCCATCAATTGGCGGGCGCGGACGGCGCGGTCCTGGCGGTGGTCTTCGGCGAGCATAAAGAGAATGCCTTCGCCACGGCGGGCGTGGACCGCTTGCTGGTGCTTGAGGGCGAGGAATTCAGCGGTTATGCACCGGAACAACGGGTCCAAGGCCTGCGGGCTGTGGATAACCAGTTCAGCCCACGCCATTGGCTGTTGCCTGACAGCCGCAGCGGTGGCGGTGAACTGGGTCGGCGCTTCGCCGCGGCTTTGGGCGAACGCCCGGCCACTCGTGTCTGGCAGGTCAAGGGCGAAGAGTGCATCGGCCGTGCCGGTGCGGGTCTGCAAGACCTGGCTCGGCCGTTGGCGCGACTGATCCTGGCAGCGGCTGAATGCGCCGAGCCGGTTAGCGAGACCCGCCACGAGGTCTTGCCGGTGGAGTTATCCACAAGCGTGGCGCGCAGCTTGTCGCGGATCGAGGATCTTGGTGCGGTGGCGGTGGATCCGGGCGCGATCCCGATGGCCGAGGCCGAGTTCATTTTCTCCGGCGGCAACGGCGTCAAGGACTGGGAGCTTTTCCACAGGACAGCGGCGGCCTTGGGCGCAACCGAAGGTGCTTCGCGGGTGGCGGTGGACGACGGTTACATGGCTCGCGATCGCCAGGTTGGCGCCAGCGGCACCTGGGTCACCGCACGGGTCTACGTGGCCGTGGGGATTTCCGGGGCGATCCAGCACCTGCAAGGCATCGGTGCCTGCGACAAGGTGGTGGCGATCAACCTTGATCCGGGCTGCGACATGATCAAGCGCGCGGACTTGTCGGTGATCGGCGACAGCGCGGCGATTCTCCAGGCCCTGATCGCGGCGGTAGAGGCTTACCGCAACGAAGCCAGGCGTGATGCGGCTTAA	MTDIIRRDPRAEWIARNRLHPLHAAMQPVQHSWMGPNGVIRKNVHGVGFIGPNGIKRIDRSGAQQGGATKRTAATEVQLPLHQVPQPAFYISVVPDMVGGRLSSHDRDLLGLAHQLAGADGAVLAVVFGEHKENAFATAGVDRLLVLEGEEFSGYAPEQRVQGLRAVDNQFSPRHWLLPDSRSGGGELGRRFAAALGERPATRVWQVKGEECIGRAGAGLQDLARPLARLILAAAECAEPVSETRHEVLPVELSTSVARSLSRIEDLGAVAVDPGAIPMAEAEFIFSGGNGVKDWELFHRTAAALGATEGASRVAVDDGYMARDRQVGASGTWVTARVYVAVGISGAIQHLQGIGACDKVVAINLDPGCDMIKRADLSVIGDSAAILQALIAAVEAYRNEARRDAA	PGPT0001040_263	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522	NA	NA
D1-35_03773	771			hypothetical protein	ATGAGTACCCAAGTGATCAGCCTCGTCTCCATCGGCGCCCACCCGACCTCTGGTCGGCCCCGGCGCGCCGAACAGGACGCCCGCGCCGTGGAGCTGGGCCTGCAACTGGCCGGCAATGAACTGCAAGTGCTGCATGCCGGCGACGTGGCCGAACCGGCACTGCGCGCCTACCTGGGCATGGGCCTGGATGAGCTTCACGTGTTGGATAATCCAGAGGGCGCCGATGCGTTGCCGGCGTTGACCGAATATCTGCGAGACGCTGGCGCCCAAGTGGTGCTCACCGGCAGCCAGGCGGAAACCGGTGAAGGCTCGGGCATGCTGCCGTTTCTGTTGGCGGAAAACCTCGGTTGGCCGTTGGTGGTGGGATTGGCCCAGGTCGAATCCATCGACAACGGCGTGGCCCTGGTGCTGCAAGCCTTGCCCCGCGGCCAGCGCCGTCGGCTCAAGGTGCGCCTGCCGTTTCTGGCCACTGTGGATAACGCCGCGCCCAAACCACGGCAGAGCGCCTATGGCCCGGCGCGGCGTGGAGCGTTGCAGGCGGAAGAAGTCGAAGTGGTCGACGACAGCCTGCTGGCGGTGGCAACCCTGCAACCGGCCAAGCCACGGCCCAAGCGCCTGAAGGTCATCAAGGCCAAGAGCGGCGCCGACCGCATGAAAGCCGCCACGGCCAAGGCCAGCGGCGGAGGTGGGCAGGTGCTCAAGGGTGTCACTCCGGAGGCGGGGGCCGAGGCGATTTTGAAGCTGCTGGTGGAGGAAGGGGTAGTTCGCTAG	MSTQVISLVSIGAHPTSGRPRRAEQDARAVELGLQLAGNELQVLHAGDVAEPALRAYLGMGLDELHVLDNPEGADALPALTEYLRDAGAQVVLTGSQAETGEGSGMLPFLLAENLGWPLVVGLAQVESIDNGVALVLQALPRGQRRRLKVRLPFLATVDNAAPKPRQSAYGPARRGALQAEEVEVVDDSLLAVATLQPAKPRPKRLKVIKAKSGADRMKAATAKASGGGGQVLKGVTPEAGAEAILKLLVEEGVVR	PGPT0001035_2268	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001035-fixA|etfB-K03521	NA	NA
D1-35_03774	3453			hypothetical protein	ATGACACGGATATCGACCCCCATCAGTGAAATCAAGGAACACTACGACGTGATCGTCATCGGTTCCGGCTACGGCGGCGGCATTGCTGCGTCGCGCCTGTCCCGGGCCGGGCGCAAGGTCTGCCTGCTGGAACGTGGCCGGGAAATCCAGCCGGGCGAATACCCCAATACGTTGCTCGCTGCCACCGAGGAGTTGCAGGTGCACGACCCCGACGGCCACATCGGTTCGCGCACCGGGCTGTTCGACCTGCACGTCAACGCCCAGCAGAACGTGGTGGTCGGGTGTGGCCTGGGCGGCACGTCACTGATCAACGCCAACGTCGCCCTGGAAGCAGAGCCCGGCGTGTTCGAGGACCCGCGCTGGCCGCTGGCGATGCGCGAGCACCGCGACACATTGCTCCAGGACGGCTACGCGCGGGCTCGGGAAATGCTCAAGCCCAACCCGTATCCGGCGTCCTCGCCGAACCTGCCCAAGCTCGACGCCCATAAGAAGTCCGCTGATTACCTCAAGCAGGGCGCGCATTTCTACAAGCCGCCGATCAACGTGACTTTCGACAAGTTGCCGAACAACCTCAACCACGTCGGCGTCGAGCAGTTGCCGTGCAATGGCTGTGGCGACTGCGTCTCGGGCTGTAACAACAAGGCCAAGAACACCACGCTGATGAATTATCTGCCGGACGCCTGGAACCATGGCACGGAGATTTTCTGCCAGGCTGAGGTGCGGCACCTGGAGCGCGATGGTGACGGCTGGATCGTGCATTTCCAGTACCTGGACGGTGGTCGCGAAATGTTCTCGGCGCCAACGCTGTTCGTGCGCGCCGATATCGTGGTGGTGTCCGCCGGCACCCTGGGCTCCACCGAGATCATGTTGCGCTCGCGAGACAAGGGCCTGCCGATGTCTGCCCAGTTGGGCGAGAACATGAGTGGCAACGGTGACATCCTCGGCTTCGGCCACAACTGCGACCAGGTCATCAACGGCATCGGTTTTGGCGCTCATTCGGCCAAGGAGCTGGAGCCGGTGGGGCCGTGTATCACCTCGGTGATCGACATGCGCACCGAAGGCGACTGGCGCAGCCGCATGGTTATCGAAGAAGGCTCGATCCCCGGCGCCCTCGGCCGGGCCATGGTGCCGAGCATGGCGGCGTTCGCCGAGATGATCGGCGTGCCCACCGACACCGGCTTCGGTGCCGCCCTAAGGTACAAGGGGCGCGAAGCCGAAAGCTTCCTGCGCGGACCGTACTACGGCGCGCTGCATAACATGCAGACCTACCTGATCATGAGTCATGACAACGGCAAGGGCCGCATGGTCCTCGATAACAAGGACCAGCTGCGCATCGACTGGTCCGGTGTCGGCGAGCAGGAAAACGTCACCCTCGGCAACGAGCGTCTGCACCAGAGCACCAAGGCCTTGGGCGGGATCTGGGTCGAAAACCCGATCTGGACCAAGCTGCTCAAGCACAGCATTGTCTCGGTCCATCCCCTGGGCGGTTGCGTGATGGGCGAGGACGCCGCCCAGGGCGTGGTCAATCACAAGGGGCAGGTGTTCAGTGGCGCCAGCGGCACCGACGTCTACCCAGGCCTGTACGTGACGGACGGCTCGGTGATCCCGACGTCCCTGGCGGTCAATCCGCTGCTGACCATTTCAGCGGTGAGTGAACGCAACATGGGCCTGCTGGCCGCCGATCGCGGTTGGCTGATCGACTACACGCTGCCGTCGGCCCCGCGCAAACCGGTGGCGGCGCCGACCCTCGGCGTGCAGTTCACCGAAACCATGAAGGGCTATTTCTCCAGCGCCTTCACCCAACCCCAGGGCACCGACCTGCCGCTTTACGAGGAAGCTGCCAAGCGCGGCAAGGCTGACAACTCGCCCATCGAATTCACGCTGACCATCACTGCTGCCGACCTTGATCGTTTGATCAAGGAGCCGGAGCACGCTGCGACCCTGGTGGGTACCCTCGACGCCCCCCTGCTGTCGGCGAAGCCGTTGGTCGCCAGCAACGGCGTGTTCAACCTGTTCGAGCAGTATCAGGATCAGGTCGGCGTGCGGCACATGAACTACGACATGAAACTGACCGCCGAAGACGGCAGCGACTATTTCTTCAGTGCGTTCAAGACTGTGCCGGAGGACAACGGCGTGCTGAACATCTGGCACGACACCAGCACCCTCTACGTCACGCTCTATCGCGGGCCGGACAAGAGCGGCGCGGTGCTCGGCGCGGGGATGATGCACATCCTGCCGGCGGATTTCGCCAAGCAGATGACCACCATGAAAGTGCTCAACGCTCGCAACGAGCGTGAGCGGGTGGAGGCGCTTGCGCGATTCGGCAAGTTTTTCGCCGGCATCCTGTGGGAGAGCTACGGCGGGGTGTTCGCCGGCGATGTCTACTTCAATCCGGACGCGCCGTCGCGCTTGAAACGGCCGCTGGATGCACCGGCCCCGGTGGTGCATTTCTTCCAGACCGAAGACCACGTCGAGCTGCGCCTGACGCGCTACCAGGCAGGCAGCAAGGGCCCGGTGATGCTGGTCCATGGCCTGGGCGTGGGCTCGAATATCTTTTCCACCGACACCATCCACACCAACCTGCTGGAGTACCTGTGCAAGCACGAGTACGACGTCTGGCTGCTGGATTTGCGGGTGAGTATCCTGCTGCCGGCCAGCAAAAACGAATGGAACGGCGATCAGGTGGCCCAATACGACTTCAAGGCCGCTATCGGGCAGATCCAGCAGGCGACCTCGGCTCGTGACGTGCAATGCGTAGTGCATTGCTACGGCGCGACGACGTTCTTCATGTCGATGCTGGCGGGCTTGCAGGGCGTGCGCTCGGTGGTCTGCTCGCAGATCGCCGCCGACACGGTGGTCGCCACCGCCACCGGATTGAAGGCCGGTTTGCATTTGCCGGGGATGCTCGATGCCATCGGCATCAAGTCCATGACGGCCTATGCCGACACCAAGGAAAGCTGGTTCAACAAACTCTACGACAAGGCCCTCAACGGCTACGCCCGGATCGAGGCCCAGGGCTACTGCACCAATCCGGTCTGCCACCGCATCACGTTCATGTATGCGTCGCTGTACCGCCACGACACCCTCAATGAAACCCTGCACGACAACCTGCATGAATTGTTCGGCGAGTCGAACATCCAGACCTTCGAGCATCTGGCGCTGATCGTGCGCAAGGGGCACCTGGTGGACTTCAAGGGCAACGACGTCTACATGCCGCATTTCGATCGGTTGAAGTTGCCGATCTGCTTCATCAGCGGCGCCGACAACCAGTGCTACTTGCCGCAGAGCACCCTCAAGACCTACGAACGGTTATGCGAGATGCACGGCCCGCAGTTGTTCAGCCGTCATGAGGTCCCCGGCTACGGCCACATCGACTGCATGTTCGGCAAGGACGCGGTGGTGGATGTGTATCCGATCATCCTCGGGCACCTGGAGAAGACGGCGCTTGGCTGA	MTRISTPISEIKEHYDVIVIGSGYGGGIAASRLSRAGRKVCLLERGREIQPGEYPNTLLAATEELQVHDPDGHIGSRTGLFDLHVNAQQNVVVGCGLGGTSLINANVALEAEPGVFEDPRWPLAMREHRDTLLQDGYARAREMLKPNPYPASSPNLPKLDAHKKSADYLKQGAHFYKPPINVTFDKLPNNLNHVGVEQLPCNGCGDCVSGCNNKAKNTTLMNYLPDAWNHGTEIFCQAEVRHLERDGDGWIVHFQYLDGGREMFSAPTLFVRADIVVVSAGTLGSTEIMLRSRDKGLPMSAQLGENMSGNGDILGFGHNCDQVINGIGFGAHSAKELEPVGPCITSVIDMRTEGDWRSRMVIEEGSIPGALGRAMVPSMAAFAEMIGVPTDTGFGAALRYKGREAESFLRGPYYGALHNMQTYLIMSHDNGKGRMVLDNKDQLRIDWSGVGEQENVTLGNERLHQSTKALGGIWVENPIWTKLLKHSIVSVHPLGGCVMGEDAAQGVVNHKGQVFSGASGTDVYPGLYVTDGSVIPTSLAVNPLLTISAVSERNMGLLAADRGWLIDYTLPSAPRKPVAAPTLGVQFTETMKGYFSSAFTQPQGTDLPLYEEAAKRGKADNSPIEFTLTITAADLDRLIKEPEHAATLVGTLDAPLLSAKPLVASNGVFNLFEQYQDQVGVRHMNYDMKLTAEDGSDYFFSAFKTVPEDNGVLNIWHDTSTLYVTLYRGPDKSGAVLGAGMMHILPADFAKQMTTMKVLNARNERERVEALARFGKFFAGILWESYGGVFAGDVYFNPDAPSRLKRPLDAPAPVVHFFQTEDHVELRLTRYQAGSKGPVMLVHGLGVGSNIFSTDTIHTNLLEYLCKHEYDVWLLDLRVSILLPASKNEWNGDQVAQYDFKAAIGQIQQATSARDVQCVVHCYGATTFFMSMLAGLQGVRSVVCSQIAADTVVATATGLKAGLHLPGMLDAIGIKSMTAYADTKESWFNKLYDKALNGYARIEAQGYCTNPVCHRITFMYASLYRHDTLNETLHDNLHELFGESNIQTFEHLALIVRKGHLVDFKGNDVYMPHFDRLKLPICFISGADNQCYLPQSTLKTYERLCEMHGPQLFSRHEVPGYGHIDCMFGKDAVVDVYPIILGHLEKTALG	PGPT0006645_39	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STEROID|DERIVATE_DEGRADATION	XENOBIOTIC_CHOLESTEROL_DEGRADATION_,PGPT0006645-choD-K03333	NA	NA
D1-35_03775	1869			hypothetical protein	ATGAACACTTGTATCCGCTGGTTCCAACGCATCATCTGGATCGGAATTGTCATGAACATGGTCTTCGCGATCCCGGCGTTGTTCGCGCCGGCGTTGCTGACCTCCATGCTTGGCCTGCCGCCGGTGCTGTCCGATCCCTGGCTGGAAAACGCCGGCATGTTGCTGGTGGGGATCAGCCTGTTCTACATGCCCTCGGGGTTCAACGCGCCGCGTTTCGTGGTGCATTCTTGGTTATGCGTGCTGTCGCGTCTGGTGGCGGTGGTGTTCTGGATCTACCTGATCAACACCAACAACCAGGGCCAACTGTTCGTGCCGATGTTGATGGGCGACCTGAGCATGTTCCTGATCCTGGGCGTGCTGTTGTATTTAGGCAGCCCGGCGGCCAATCGTCCGCTGGCCTTGCTCCGGGCCGGCTGGCGCGAATGGCTTCAAGGCTGGGCACATCGCTGGCAAAGCCATGGCTTCAAGGTAGGCGCGCTGATTGTGCTGCTGGTGCTTGGCTTCATCGGCTACCAGACCTGGTATCAGATGATCCGCGAGGTGCCGCAGCCGGACTTCGCCTCCGACGAAGACCATTACAAATACGCCGCCATCGGCCTGGGTATCGAGGCGCGGATTCCCTACTACTTGTTCGCCGTGCTGCCACAGATGTGCCCGGAAAAACTGCCCAAGCCAGGCGGTTATGAGGTGTTCGGCTTCCTCTATGAAAACGGCAACGACCTGCCCATCGGCATGGCCAAGCGGCAGCTCGGTTACCCCACGGTGGAGCCCAACTGCGCGCTGTGCCACACCGGTTCCTACCGGGCCAATGCCACTGACGTAGCGGTGCCGGTCGCCGCCGCGCCGGCCAATACCCTGCAATTGCAAGCCTTCCAGTGGTTCGCCTACGAGTGTGCCAGCGATCCGAAATTCACCCCGGACGCGGTGATGGCGGCGATCAACGGCAAGTTCCAGCTGGGCTTCTTCGAAAAGCTCTATAACCGCTACCTGATCATTCCGATGGCCAAGAGTGCGCTGCTCAAGCAGAAACAGGCGTACGCCTGGCAGAAGCTGCGTCCGGCCCAGGGACCGGGGCGGACCGACACGTTCAACCCGACCAAGATGGTGGTCTTCGGCTTCCCGGATGACTCGACCATCGGCACCGTGGACTTGCCGCAGGTGTGGAACCAGAAACCCCGCGAGTCCATGTACCTGCACTGGGACGGCAATAACAACAAGATCCACGAACGCAACTACGCCGCCGCCATGGCCGTGGGCGCGACGCCGGAATCGGTGCTGCCGCCGAGCTTCAACCGGGTGACCAACTGGTTGCTGGGCCACAAGCCACCGGCCTGGCCGTTCGCCCTGGATCAGGCGAAAGTCGCCCAGGGCAAACCGATCTGGGAGCAGAACTGTGCCGGTTGCCACGACTTCGGCCGCAGCGACACCGGCCAGGTCACCACCAACATCGACCAGTTGGGCACCGATCCCCATCGGCTGAATTCCTTCACCACCGGGCTGGTGGCGGCGTTCCATGGTTTCAAGAAACCGCCGTTCGACTTTGGCGCCTACCGCAAGACCCAGAGCTACAGCAACACGCCCACCGACGGCATCTGGCTGCGCGCGCCGTACCTGCATAACGGTTCGGTGCCGACCTTGTGGGATTTGCTGCAAACACCCGAGCAGCGCCCGCAGGCGTTCTACACCGGCTCCGACATCTACGACCCGCAGAAGGTTGGTTTCATCACCAGTGGCGCGCAGATGAAGGCGTCGGCTGATTTCAAGTACGACACTCGGCTCGAAGGCAACCACAACGGCGGCCACCTGTACGGCACGCAGCTGTCGGATGTCGAAAAGCGGGCTTTGATCGAATTCATGAAGACCCTGTAG	MNTCIRWFQRIIWIGIVMNMVFAIPALFAPALLTSMLGLPPVLSDPWLENAGMLLVGISLFYMPSGFNAPRFVVHSWLCVLSRLVAVVFWIYLINTNNQGQLFVPMLMGDLSMFLILGVLLYLGSPAANRPLALLRAGWREWLQGWAHRWQSHGFKVGALIVLLVLGFIGYQTWYQMIREVPQPDFASDEDHYKYAAIGLGIEARIPYYLFAVLPQMCPEKLPKPGGYEVFGFLYENGNDLPIGMAKRQLGYPTVEPNCALCHTGSYRANATDVAVPVAAAPANTLQLQAFQWFAYECASDPKFTPDAVMAAINGKFQLGFFEKLYNRYLIIPMAKSALLKQKQAYAWQKLRPAQGPGRTDTFNPTKMVVFGFPDDSTIGTVDLPQVWNQKPRESMYLHWDGNNNKIHERNYAAAMAVGATPESVLPPSFNRVTNWLLGHKPPAWPFALDQAKVAQGKPIWEQNCAGCHDFGRSDTGQVTTNIDQLGTDPHRLNSFTTGLVAAFHGFKKPPFDFGAYRKTQSYSNTPTDGIWLRAPYLHNGSVPTLWDLLQTPEQRPQAFYTGSDIYDPQKVGFITSGAQMKASADFKYDTRLEGNHNGGHLYGTQLSDVEKRALIEFMKTL				NA	NA	NA	NA	NA
D1-35_03776	1245			hypothetical protein	ATGTCATTACTGCACCATTGGGAACATGAGTTCGACAAGGTCAAGGTCCGTCTGCACGGGTTGGTCACGCGGCTGGAAATGTCCTGGAAAAAACTCGTCAACGACCTGGAGCCCGAGGAGTTCCAGGCCATCGTCAAGCTGCTCGAGCGTGGCCACGCTCAAGCCCGGCATGTCATTGATCATGGTGATTTGCCCGACGATGAACCGGCCGTGCCGTGGGAACTGGCCCACGGCCTGTCGATTCTGAAAATCGGCAACGCCACGCCTTTGCCGCAAAAGGAAGAGGAACTGCCAACCCGAGTGCTCAAGGATGGCACCTTGCTCGGTTGCCGAAAATGGGAGCTGCTGGACCTGTTGTGGAGCGAGGCGCTGCTCAAGTGGATCGAGAACCTGCGTCACCACGCACCGTTCGCGACCACCCCGGCGCTGGTGAAAATGGATAATGACGTGGTGCTGGCCATTGCCGGCGACTGGGGCACCGGCCCGTTCGACAGTCACGCACCCGCCGTGGCCGTCGCCAACCAGATGCAACTGGCCCAGGCCGATTTCACCATCCACTTGGGCGACGTGTATTACGCCGGCACCCATTCCCAGGAAGACGTCGACATGGCCGGCTGGCCCCAGGGCAGGCACGGCTCGTTCACGCTCAATTCCAATCATGAAATGTACAGCGGCGCCCACGGTTATTTCCGGGAGTTGGCCAAGCGCTTTCCGGTGCAGCAGGGCACCAGCTATTTCGCCCTGTACAACGATGACTGGCTGGTGGTTGGCCTGGACAGCGCCTACGCCTCGGACGCGATGAACCTGTACATGGACGGCACCCTCAACACCCAGCAGATCGAGTGGATGAAAAGCCTGCCCAAGGGCAAGAAACTGATGGTGCTCAGTCATCACCAGGGTTTTGATATTTCCGGACACCACAAGACCGCGCTCTACCAACCGGTGTGCGACGCCTTGGGGCGTGAGCCGGATTACTGGTATTGGGGCCATCTGCACAACGGCATCTGCTACGCGCCGCAAGGCGGGCTGCAGGCGCGTTGCGTCGGGCACGGAGCGATTCCCTACGGCACCACCAGCGAGTTGAACGGGCATCCTCGGGTGTTGTGGTCGGAAACACAATTGGCGGGGGACGAGGCGTATCCGGAGCGGGTGTTGAACGGGTATGTGAAGGTGCGGCTGGCGGGGGAGGAGATTGTCGAGACGTTTTATGGGGAGGATGGGTCGGTGCGTTGGTCTTCAAGATAA	MSLLHHWEHEFDKVKVRLHGLVTRLEMSWKKLVNDLEPEEFQAIVKLLERGHAQARHVIDHGDLPDDEPAVPWELAHGLSILKIGNATPLPQKEEELPTRVLKDGTLLGCRKWELLDLLWSEALLKWIENLRHHAPFATTPALVKMDNDVVLAIAGDWGTGPFDSHAPAVAVANQMQLAQADFTIHLGDVYYAGTHSQEDVDMAGWPQGRHGSFTLNSNHEMYSGAHGYFRELAKRFPVQQGTSYFALYNDDWLVVGLDSAYASDAMNLYMDGTLNTQQIEWMKSLPKGKKLMVLSHHQGFDISGHHKTALYQPVCDALGREPDYWYWGHLHNGICYAPQGGLQARCVGHGAIPYGTTSELNGHPRVLWSETQLAGDEAYPERVLNGYVKVRLAGEEIVETFYGEDGSVRWSSR				NA	NA	NA	NA	NA
D1-35_03777	1296			Carnitine monooxygenase oxygenase subunit	ATGGACGTCACCACTACCCTGAGCCTGGGCGATCCGCTGGAACCCGCACGCAAGGCCACCGCGCAAATGCTGCAAGAGCGCGAGCGGACCTTTTCGCTGCCGCAGCCGTTCTACTCCGATGAGCGCCTGTTTGATATCGACATGCAGGAAATCTTTCAGAAAGAATGGTTGATCGCCGGCATGACCTGCGAAATCCCGGCCAAGGGCAACTACCTGACGCTGCAGGTCGGCAAGAACCCGATCATCGTGATTCGCGGCGCCGAAGGCGTGGTGCATGCGTTCCATAACGTCTGCCGCCACCGTGGCTCGCGGTTGTGCACCAGCGACAAGGGCAAGGTCGCCAAGCTGGTCTGCCATTACCACCAATGGACCTACGAACTGGACGGTCGCCTGCTGTTCGCCGGCACCGAGATGGGCGCCGACTTCGACATGAAGCAGTACGGCCTCAAGCCGGTGAACGTGAAGACCGCCGGCGGCTACATCTTCATCAGCCTGGCCGAGAACCCGCCGGCCATCGATGATTTCCTGTCGACCCTGAACCACTACATGGAACCCTACGACATGGAAAACACCAAGGTGGCGGTGCAAACCACCTTGATGGAAAAGGCCAACTGGAAACTGGTGCTGGAAAACAACCGCGAGTGCTACCACTGCAACGCCTCGCACCCCGAACTGCTCAAGACCCTGCTGGAATGGGACGACGTCACCGATCCGCGAGCCGACCAGGCGTTCAAGGACCACGTGGCCGCTTCCGCCGCCGCCTGGGATGCCGAGAAGATCCCTTACGCCCACGCCAGCTTCGGCCTGCGCAACCGCATCGTGCGCATGCCGCTGCTCAAGGGCACCGTGTCGATGACGATGGACGGCAAGCAGGGCTGCGCCAAACTGATGGGCCGCATCAAGAACCCGGACCTGGGCTCGATGCGCATCCTTCATCTGCCGCACTCATGGAACCACTGCATGGGCGACCACATCATCGTCTTCACGGTGTGGCCGATCAGCGCCCAGGAAACCATGGTCACCACCAAATGGCTGGTGCACAAGGACGCGGTCGAAGGCGTGGACTATGACGTAGAGCGCATGCGCCAGGTCTGGGACGCCACCAACGACCAGGACCGTCGCCTGGCCGAAGAAAACCAGCGCGGCATCAACTCCACCGCCTACCAGCCGGGCCCGTACTCGAAAACCTACGAATTCGGCGTGGTTAACTTCGTCGACTGGTACAGCGAGCGCATGCTGAACAACCTCGGGGCCGAGCCGGCGCCGTACCTCAAGGGTGTTCCGGTCCAGGGCTAA	MDVTTTLSLGDPLEPARKATAQMLQERERTFSLPQPFYSDERLFDIDMQEIFQKEWLIAGMTCEIPAKGNYLTLQVGKNPIIVIRGAEGVVHAFHNVCRHRGSRLCTSDKGKVAKLVCHYHQWTYELDGRLLFAGTEMGADFDMKQYGLKPVNVKTAGGYIFISLAENPPAIDDFLSTLNHYMEPYDMENTKVAVQTTLMEKANWKLVLENNRECYHCNASHPELLKTLLEWDDVTDPRADQAFKDHVAASAAAWDAEKIPYAHASFGLRNRIVRMPLLKGTVSMTMDGKQGCAKLMGRIKNPDLGSMRILHLPHSWNHCMGDHIIVFTVWPISAQETMVTTKWLVHKDAVEGVDYDVERMRQVWDATNDQDRRLAEENQRGINSTAYQPGPYSKTYEFGVVNFVDWYSERMLNNLGAEPAPYLKGVPVQG	PGPT0013680_92	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013680-gbcA-K00479	NA	NA
D1-35_03778	1101	hcr	COG1018	NADH oxidoreductase HCR	ATGTCCAACAATTTCCTGAACCCGGTCACCACCCAGACCTGGGCCAATGGCCGACATATCGTTCGTTGCGTCAAAGTCATCCAGGAAACCTGGGATGTGCGCACCTTTTGCTTCATGGCCGACCAGCCGATCATGTTCTTTTTCAAGCCCGGGCAGTTCGTCACCCTGGAGTTGGAAATCGAAGGCCAGCCGATCATGCGCTCCTACACGATCTCCAGTTCGCCGTCGGTGCCCTACAGCTTCTCGGTGACCATCAAGCGCGTGCCGGGGGGCAAGGTTTCCAACTGGCTGCACGACACGCTGCACGAAGGCCAGGAACTGGCGGTGCACGGGCCGGTGGGGTTGTTCAATGCCATGGATTTCCCGAGCCCGAAGGTCCTGTACCTCAGCGGTGGCGTCGGAATCACGCCATGCATGTCCATGGCCCGCTGGTTCTACGACACCAACGCCAACGTCGACATGACCTTCGTCCACAGCGCCCGCTCGCCCAAGGACATCATCTACCACCGCGAGCTGGAGCACATGGCGTCGCGGATCGATAACTTCAGCTTGCACCTGATTTGCGAAAAGCATGGTTTGGGCGAGCCGTGGGCCGGGTATCGTGGCTACCTGAATCACAAGATGCTGGAACTGATGGTGCCGGATTTCCTTGAGCGCGAAGTGTTCTGCTGCGGCCCGACGCCGTACATGAGCGCGGTCAAGCGTCTGCTGGAAGCGGCCGGCTACGACATGAAGCGCTACCACGAGGAATCCTTCGGCGCCACGCCACCGGAAGCCCGCGCCGACGCGGTGGAGCAGGCCGAACAGGCGGCGGATGCGCCTGAAGTCGACCAGGCGGACCTGCATCAGGTGGAATTCGTCGCGTCGGGCAAGAGCATCGGCGTAGCACCGGGCGAAACCGTCCACGCGGCAGCAGCCAAGCTCGGCCTGATGATTCCCAAGGCGTGCGGCATGGGCATCTGCGGCACTTGCAAGGTTATGAAGCTCGGCGGCGAAGTTGAAATGGAACACAACGGCGGCATCACCGAGGACGACGAGGCCGAGGGTTACATCCTGTCGTGCTGCAGCGTGCCGAAGGGGGATGTGCGGATCGAGTTTTAA	MSNNFLNPVTTQTWANGRHIVRCVKVIQETWDVRTFCFMADQPIMFFFKPGQFVTLELEIEGQPIMRSYTISSSPSVPYSFSVTIKRVPGGKVSNWLHDTLHEGQELAVHGPVGLFNAMDFPSPKVLYLSGGVGITPCMSMARWFYDTNANVDMTFVHSARSPKDIIYHRELEHMASRIDNFSLHLICEKHGLGEPWAGYRGYLNHKMLELMVPDFLEREVFCCGPTPYMSAVKRLLEAAGYDMKRYHEESFGATPPEARADAVEQAEQAADAPEVDQADLHQVEFVASGKSIGVAPGETVHAAAAKLGLMIPKACGMGICGTCKVMKLGGEVEMEHNGGITEDDEAEGYILSCCSVPKGDVRIEF	PGPT0013685_368	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013685-gbcB-K21832	NA	NA
D1-35_03779	1041	ltaE_2		Low specificity L-threonine aldolase	ATGACCGACAAGAGCCAACAATTCGCCAGCGACAATTATTCCGGTATTTGCCCCGAAGCCTGGGCGGCCATGGAAGAAGCCAACCAGGGCCACCAGCGCGCCTATGGCGACGATGAATGGACCCACCGCGCGGCGGATGATTTCCGTGCCCTGTTCGAAACCGACTGCGAAGTGTTCTTCGCGTTCAACGGCACTGCGGCCAACTCCCTGGCCCTGTCGTCGCTGTGCCAGAGTTACCACAGCGTGATCTGCTCGGAAACCGCCCACGTCGAAACCGACGAATGCGGCGCGCCGGAGTTCTTCTCCAACGGCTCCAAGCTCTTGGTGGCGCGCACCGAAAACGGCAAGCTGACCCCCGAGTCGATCCGCGAGATCGCCCTCAAGCGCCAGGACATCCATTATCCCAAGCCGCGCGTGGTGACCCTGACCCAGGCCACGGAAGTCGGCAGCGTCTATACCCCGGAAGAAATCCGCGCCATCAGCGTTACCTGCAAGGAACTGGGGCTGAACCTGCACATGGACGGCGCGCGCTTCTCCAACGCCTGCGCCTTCCTCGGCTGCACCCCGGCCGACCTGACCTGGAAGGCCGGCGTCGACGTGCTGTGCTTCGGCGGCACGAAAAACGGCATGGCGGTGGGCGAAGCGATCCTCTTCTTCAACCACGACCTGGCGGAAGATTTCGACTATCGCTGCAAACAGGCCGGCCAGTTGGCCTCGAAGATGCGCTTCCTCTCCGCCCCCTGGGTCGGCCTGCTGCAGAACGACGCCTGGCTCAAGCATGCCCGCCACGCCAACCGTTGCGCGCAATTGCTGGCGCAACTGGTCAGCGACATTCCTGGCGTCGAACTGATGTTCCCGGTCCAGGCCAACGGCGTGTTCCTGCAACTCTCGGAACCGGCCATCGCAGCACTGACCGCCCGGGGCTGGCGCTTCTACACCTTCATCGGCAAAGGCGGCGCACGGTTCATGTGCTCGTGGGATACCGAAGAAGCGCGAGTGCGGGAGTTGGCGGCGGATATTCGGGAAGTGATGGCGGGCTAG	MTDKSQQFASDNYSGICPEAWAAMEEANQGHQRAYGDDEWTHRAADDFRALFETDCEVFFAFNGTAANSLALSSLCQSYHSVICSETAHVETDECGAPEFFSNGSKLLVARTENGKLTPESIREIALKRQDIHYPKPRVVTLTQATEVGSVYTPEEIRAISVTCKELGLNLHMDGARFSNACAFLGCTPADLTWKAGVDVLCFGGTKNGMAVGEAILFFNHDLAEDFDYRCKQAGQLASKMRFLSAPWVGLLQNDAWLKHARHANRCAQLLAQLVSDIPGVELMFPVQANGVFLQLSEPAIAALTARGWRFYTFIGKGGARFMCSWDTEEARVRELAADIREVMAG	PGPT0020465_1946	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020465-ltaE-K01620	NA	NA
D1-35_03780	705			hypothetical protein	ATGAGTCAGCGCGACGCTGCGCTGGACCTGCTCAAGTGGCTGGCACTGTTGTCGATGGTCCTCGATCATCTGCGATATGTCGGTTTTTCCGCCGATTGGCTCTATGTGCCGGGGCGCTTGGCGTTTCCCTGGTTCTGCCTGGCGATGGCGGCCAACCTCTCACGCAACGGCGCCAGCTCGCTTCCGTGGCGTTATCTGGGCTGGCTGTTGCTGTTCAGCGCCATCAGTGAAATCCCCTACCGCTTGTTCGTTCCCAACCCCACGACATTGAACGTGATGCCGACGCTGGTGCTGGGATTGTTGCTGGCGCGCTGTTGGCAAACCCCCACCTTGCAGGCGCGATGCCTGGCGGTGGCGGCGCTGCTGCTGGCGGCGCTGTGTTCGTCACAGTTGATGTTCGGGTTCTACGGCGTGCTGCTGCCGTTGGCGATGTTGCTGGTGCATCGCCGGCCTTGGTATTTCGCGTTGCTACCGGGAATGGTCTGCGTGGCGGCCAATCAATGGCGGGTGTTGTATGGCGCGGCATGGCTGGGCGACACGGTGGCGCTCTGGGGGCTGGTGGCTTGTCTGATCGCGCCATGGCTTGGGCTGATGCTGTTGCGCCACGCGGGCTCTTTCCGTCCACCGGCAATGCGGCGCTGGGCATACACGCTGTACCCCGCCCATTTTCTTTTGTTGCTCGCGGTTCGCAACTGGGTGGCTTGA	MSQRDAALDLLKWLALLSMVLDHLRYVGFSADWLYVPGRLAFPWFCLAMAANLSRNGASSLPWRYLGWLLLFSAISEIPYRLFVPNPTTLNVMPTLVLGLLLARCWQTPTLQARCLAVAALLLAALCSSQLMFGFYGVLLPLAMLLVHRRPWYFALLPGMVCVAANQWRVLYGAAWLGDTVALWGLVACLIAPWLGLMLLRHAGSFRPPAMRRWAYTLYPAHFLLLLAVRNWVA				NA	NA	NA	NA	NA
D1-35_03781	1254	glyA_1	COG0112	Serine hydroxymethyltransferase	ATGTTCAGCAAGCAAGACCAGATCCAGGGTTACGACGATGCACTGCTGGCGGCGATGAATGCCGAGGAGCAACGCCAGGAAGATCACATCGAACTGATCGCGTCGGAGAACTACACCAGCAAGCGCGTGATGCAGGCCCAGGGCAGCGGCCTGACCAACAAGTACGCCGAAGGTTACCCGGGCAAGCGCTACTACGGTGGCTGCGAGCACGTCGACAAGGTCGAAGCCCTGGCCATCGAGCGCGCCAAACAACTGTTCGGCGCCGATTACGCCAACGTCCAGCCGCATTCCGGTTCGTCGGCCAACAGCGCCGTGTACCTGGCCTTGCTGCAAGCCGGCGACACCATCCTGGGCATGAGCCTGGCCCACGGCGGTCACTTGACCCACGGTGCCAAGGTGTCGTCCTCGGGCAAGCTGTACAACGCGGTGCAATACGGAATCGACACCGCTACGGGCCTGATCGACTACGACGAAGTCGAGCGCCTGGCGGTCGAGTGCAAGCCGAAGATGATCGTGGCCGGTTTTTCTGCCTATTCCAAGACCCTGGATTTCCCACGCTTTCGCCAGATCGCCGACAAGGTCGGTGCGCTGCTGTTCGTCGACATGGCCCACGTCGCCGGCCTGGTTGCCGCCGGCCTGTACCCGAACCCGCTGCCGTACGCCGACGTGGTCACCACCACTACCCACAAGACCCTGCGCGGCCCACGCGGCGGCCTGATCCTGGCCAAGGCCAACGAAGAGATCGAGAAAAAGCTCAACGCCGCCGTATTCCCCGGGGCCCAGGGCGGTCCGCTGATGCACGTCATCGCTGGCAAGGCGGTGTGCTTCAAGGAAGCGGCGGAGCCGGGCTTCAAGGCTTACCAGCAGCAAGTGATCGACAACGCCCAGGCCATGGCGGGCGTGTTCATCAAGCGCGGCTACGATGTAGTGTCCGGCGGCACCGACAACCACCTGTTCCTGGTCAGCCTGATCCGCCAGGGCCTGACCGGCAAGGACGCGGATGCCGCCCTGGGCCGCGCCCACATCACCGTGAACAAGAACGCCGTGCCGAACGACCCGCAATCGCCGTTCGTGACCTCGGGCCTGCGCATCGGTACGCCGGCGGTGACCACCCGCGGCTTCAAGGTGACCCAGTGCGTCACGCTGGCCGGCTGGATCTGCGACATCCTCGACAACCTCGGCGACGCCGATGTCGAGGCCAATGTCGCGCAGCAAGTGGCGGCCTTGTGCGCGGACTTCCCGGTTTATCGCTGA	MFSKQDQIQGYDDALLAAMNAEEQRQEDHIELIASENYTSKRVMQAQGSGLTNKYAEGYPGKRYYGGCEHVDKVEALAIERAKQLFGADYANVQPHSGSSANSAVYLALLQAGDTILGMSLAHGGHLTHGAKVSSSGKLYNAVQYGIDTATGLIDYDEVERLAVECKPKMIVAGFSAYSKTLDFPRFRQIADKVGALLFVDMAHVAGLVAAGLYPNPLPYADVVTTTTHKTLRGPRGGLILAKANEEIEKKLNAAVFPGAQGGPLMHVIAGKAVCFKEAAEPGFKAYQQQVIDNAQAMAGVFIKRGYDVVSGGTDNHLFLVSLIRQGLTGKDADAALGRAHITVNKNAVPNDPQSPFVTSGLRIGTPAVTTRGFKVTQCVTLAGWICDILDNLGDADVEANVAQQVAALCADFPVYR	PGPT0008090_5327	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
D1-35_03782	1251	soxB		Sarcosine oxidase subunit beta	ATGCAACGCTATTCGGGCTTCGGCCTCTTCAAACACTCACTCAGCCATCATGAAAACTGGCAGCGGATGTGGCGCACGCCGACCCCGAAAAAGGTCTACGACGTGGTCATAGTCGGCGGCGGCGGGCATGGTCTGGCGACCGCCTACTACCTGGCCAAGGAGCACGGCATCACCAACGTGGCCGTGGTCGAGAAGGGCTGGCTGGGCGGCGGTAACACCGCGCGCAATACCACCATCGTGCGCTCCAACTACCTGTGGGACGAATCGGCTCACCTGTACGAACACGCGATGAAACTCTGGGAAGGTCTGTCCCAGGACCTGAACTACAACGTGATGTTCTCCCAGCGTGGCGTCTACAACCTGTGCCACACATTGCAGGACATCCGTGATTCCGAGCGCCGCGTCAGCGCCAACCGCCTCAACGGCGTGGACGGCGAGCTGCTCGATGCCAAGCAAGTGGCTGACGAGATTCCGTACCTGGATTGCTCGAAGAACACCCGTTATCCGGTGATGGGCGCCACCGTCCAGCGTCGCGGCGGCGTGGCCCGTCACGATGCCGTGGCCTGGGGCTTTGCCCGGGCGGCGGACGCCTTGGGCGTGGACCTGATCCAGCAGACCGAAGTGATCGGTTTCCGCAAGGAAAACGGCGTGTGCATCGGCGTGGAGACCAACAAGGGCTTCATCGGCGCCAAGCGCGTCGGCGTGGTGACCGCAGGTAATTCCGGGCACATGGCCAAGCTTGCCGGTTTCCGCCTGCCGGTCGAATCCCATCCGCTGCAAGCGCTGGTGTCCGAGCCGATCAAGCCGATTATCGACAGCGTGATCATGTCCAACGCCGTGCACGGCTACATCAGCCAGTCCGACAAGGGCGACCTGGTGATCGGCGCCGGTATCGACGGCTACAACGGCTACGGCCAGCGTGGCTCGTACCCGGTGATCGAGCACACCATCCAGGCCATCGTCGAGATGTTCCCGGTGCTCTCGCGGGTGCGCATGAACCGCCAGTGGGGCGGCATCGTCGACACCACGCCGGACGCCTGCCCGATCATCTCCAAGACGCCAGTGCCGAACATGTTCTTCAACTGCGGTTGGGGCACCGGTGGCTTTAAAGCGACACCTGGCTCGGGCAACGTATTTGCCGCGAGTTTGGCCAAGGGCGAAATGCACCCATTGGCCGCACCTTTCTCCATCGACCGTTTCCACAACGGTGCGTTGATCGATGAACACGGCGCTGCTGCGGTTGCCCACTAA	MQRYSGFGLFKHSLSHHENWQRMWRTPTPKKVYDVVIVGGGGHGLATAYYLAKEHGITNVAVVEKGWLGGGNTARNTTIVRSNYLWDESAHLYEHAMKLWEGLSQDLNYNVMFSQRGVYNLCHTLQDIRDSERRVSANRLNGVDGELLDAKQVADEIPYLDCSKNTRYPVMGATVQRRGGVARHDAVAWGFARAADALGVDLIQQTEVIGFRKENGVCIGVETNKGFIGAKRVGVVTAGNSGHMAKLAGFRLPVESHPLQALVSEPIKPIIDSVIMSNAVHGYISQSDKGDLVIGAGIDGYNGYGQRGSYPVIEHTIQAIVEMFPVLSRVRMNRQWGGIVDTTPDACPIISKTPVPNMFFNCGWGTGGFKATPGSGNVFAASLAKGEMHPLAAPFSIDRFHNGALIDEHGAAAVAH	PGPT0013510_460	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013510-soxB_-K00303	NA	NA
D1-35_03783	330	soxD		Sarcosine oxidase subunit delta	ATGTTGCATATCTTCTGTCCTCACTGCTTTGAGCTGCGCTCCGAAGAGGAATTCCATGCATCCGGCCAGGCGCACATCCCGCGTCCGCTGGATCCGAACGCCTGCACCGACGAGGAGTGGGGCGACTACATGTTCTTTCGCGACAACCCTCGCGGCCTGCACCACGAGTTGTGGATCCATGCCGCCGGTTGCCGCCAGTACTTCAACGCGACCCGTGACACCGTGACCTACGAGATCCTCGAAACCTACAAGATCGGTCAAAAGCCGCAATTCACCGACAAGGCTGACAGTCCGAAAGCGGCCGCGCAGGCTCTGGGAGAGAAGGTATGA	MLHIFCPHCFELRSEEEFHASGQAHIPRPLDPNACTDEEWGDYMFFRDNPRGLHHELWIHAAGCRQYFNATRDTVTYEILETYKIGQKPQFTDKADSPKAAAQALGEKV	PGPT0013520_185	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013520-soxD-K00304	NA	NA
D1-35_03784	3018	soxA		Sarcosine oxidase subunit alpha	ATGAGCCAGATCAATCGCCTGTCCAACGGCGGACGGATCGACCGCAACAAAGTGCTGACATTCACCTTCAACGGCCAGAGCTACAAAGGCTTCGAAGGCGATTCCCTGGCCGCTGCGCTGCTGGCCAACGGTGTCGACATCATCGGCCGCAGCTTCAAGTATTCTCGTCCGCGCGGCATCTTTGCCGCCGGTGCGGAAGAGCCGAACGCGGTGCTGCAGATCGGCGCCACCGAAGCCACGCAGATCCCGAACGTGCGCGCCACGCAACAGGCGCTGTATCAGGGCCTGGTCGCCACCAGCACCAATGGCTGGCCGAACGTCAACAACGACATGATGGGGATTCTCGGCAAGGTCGGCGGCAAGCTGATGCCGCCGGGCTTCTACTACAAAACCTTCATGTACCCGCAATCGTTCTGGATGACTTACGAGAAGTACATCCGCAAGGCCGCAGGGTTGGGTCGCTCGCCGACCGAGAACGATCCGGACACCTACGACTACATGAACCGTCACTGCGACGTGCTGATCGTCGGCGCTGGCCCTGCTGGCCTGGCCGCTGCATTGGCCGCGGCCCGCAGCGGTGCGCGAGTGATCCTGGCCGATGAGCAAGAAGAGTTCGGCGGCAGCCTGCTCGACTCCCGCGAAAGCCTGGACGGCAAGCCGGCGACCGAGTGGGTCGCGGCGGCGGTGGCTGAACTGCGCTCGATGCCCGAGGTGGTGTTGCTGCCTCGCGCCACGGTGAACGGTTACCACGACCACAACTTCCTGACCATCCACGAGCGCCTCACCGATCACCTCGGTGACCGCGCACCGATCGGCCAGGTGCGCCAGCGCATCAACCGGGTACGCGCCAAGCGCGTGGTGCTGGCGACTGGTGCTTGCGAACGCCCGCTGGTCTACGGCAACAACGATGTGCCGGGCAACATGCTGGCGGGTGCGGTTTCTACCTACATCCGCCGCTACGGCGTGGCACCGGGCAAGAAACTGCTGCTGAGCACCAACAACGACCACGCCTATCGCGTCGCCCTGGACTGGTTCGACGCCGGCCTGCAAGTGGTGGCCGTCGCCGATGCCCGCAGCAACCCGCGTGGTGCGCTGGTGGAAGAAGCCCGCGCCAAAGGCATCCGCATCCTCACCGGCAGCGCCGTGATCGAAGCCCGTGGCAGCAAGCGCGTCACCGGTGCACGTGTCGCCGCGATCGACGTCCGCGCCCACAAGGTCACCAGCCCTGGCGAATGGCTGGACTGCGACCTGGTGGCCAGTTCCGGCGGCTACAGCCCGGTGGTCCACCTGGCTTCGCACTTGGGCGGCAAGCCGATCTGGCGTGAAGACATCCTCGGTTTCGTGCCGGGCGAAGCGCCGCAGAAACGCGTGTGCGTCGGCGGTGTGAATGGCGTCTACGGGCTCGGCGATTCCTTGGCCGACGGTTTTGAAGGCGGCGTGCGCGCGGCCAGCGAAGCCGGCTTCAAGGCTGTGGAGGGCGTGTTGCCCAAGGCCCTGAGCCGTCATGAAGAACCGACCCTGGCGTTGTTCCAGGTGCCGCATGAAAAAACCACCGCACGTGCGCCGAAGCAATTCGTCGACCTGCAGAACGACGTCACCGCCGCCGCCATCGAACTCGCCACCCGCGAAGGCTTCGAGTCGGTGGAACACGTCAAGCGCTACACCGCACTGGGCTTCGGCACCGACCAGGGCAAGCTGGGCAACGTCAACGGCCTGGCCATCGCGGCCCGTTCGCTGAACGTGAGCATCCCGCAGATGGGCACCACCATGTTCCGTCCGAACTACACGCCGGTGACTTTCGGCGCGGTGGCCGGTCGGCACTGCGGGCACATCTTCGAACCGGTGCGCTTCACCGCGCTGCATGCCTGGCATGTGAAAAACGGCGCCGAGTTCGAGGACGTCGGCCAGTGGAAACGTCCCTGGTACTTCCCGAAGAACGGCGAAGACCTGCATGCCGCGGTCAAGCGCGAATGCAAGGCCGTGCGCGACAGCGTCGGCCTGCTGGACGCCTCGACCCTGGGCAAGATCGACATCCAGGGCCCGGATGCCCGTGAGTTCCTCAACCGCATCTACACCAATGCCTGGACCAAGCTCGACGTGGGCAAGGCCCGCTACGGCCTGATGTGCAAGGAAGACGGCATGGTCTTCGACGACGGCGTGACTGCCTGTCTGGCCGACAACCACTTCCTGATGACCACCACCACTGGCGGTGCGGCCCGTGTACTGCAATGGCTGGAGATCTACCAGCAGACCGAATGGCCGGATCTGAAGGTGTATTTCACCTCGGTTACCGACCACTGGGCGACCATGACCCTGTCGGGGCCCAACAGCCGCAAGCTGCTGAGCGAAGTCACCGACATCGACCTGGACAAGGACGGCTTCCCGTTCATGACCTGGAAGGAAGGCCTGGTAGGCGGCGTGCCGGCGCGGGTGTTCCGCATCTCGTTCACCGGTGAGCTGTCGTACGAAATCAACGTGCAGGCCGACTACGCCATGGGCGTGCTCGAACAGATCGTCGAGGCCGGCAAGAAGTACAACCTGACCCCGTATGGCACCGAGACCATGCACGTGTTGCGGGCCGAGAAGGGCTTCATCATCGTCGGCCAGGACACTGACGGCTCGATGACCCCGGACGACCTGAACATGGGCTGGTGCGTCGGCCGGACCAAGCCGTTCTCGTGGATCGGCTGGCGTGGGATGAATCGCGAAGATTGCGTGCGTGAAGAGCGCAAGCAACTGGTGGGTCTCAAGCCGATCGACCCGAATGTCTGGCTGCCGGAAGGCGCGCAGCTGGTGTTCAACCCCAAGCAGGCGATCCCGATGTCGATGGTCGGCCACGTGACCTCCAGCTATGCGCATAACTCCCTGGGCTATTCGTTTGCGATGGGCGTGGTCAAGGGCGGCTTGAAGCGCCTCGGCGAGCGAGTCTTCGCCCCGCTGGCGGATGGTCGGGTGATCGAGGCAGAGATCGTTTCTTCGGTGTTCTTCGATCCGAAGGGGGATCGGCAGAACGTTTAA	MSQINRLSNGGRIDRNKVLTFTFNGQSYKGFEGDSLAAALLANGVDIIGRSFKYSRPRGIFAAGAEEPNAVLQIGATEATQIPNVRATQQALYQGLVATSTNGWPNVNNDMMGILGKVGGKLMPPGFYYKTFMYPQSFWMTYEKYIRKAAGLGRSPTENDPDTYDYMNRHCDVLIVGAGPAGLAAALAAARSGARVILADEQEEFGGSLLDSRESLDGKPATEWVAAAVAELRSMPEVVLLPRATVNGYHDHNFLTIHERLTDHLGDRAPIGQVRQRINRVRAKRVVLATGACERPLVYGNNDVPGNMLAGAVSTYIRRYGVAPGKKLLLSTNNDHAYRVALDWFDAGLQVVAVADARSNPRGALVEEARAKGIRILTGSAVIEARGSKRVTGARVAAIDVRAHKVTSPGEWLDCDLVASSGGYSPVVHLASHLGGKPIWREDILGFVPGEAPQKRVCVGGVNGVYGLGDSLADGFEGGVRAASEAGFKAVEGVLPKALSRHEEPTLALFQVPHEKTTARAPKQFVDLQNDVTAAAIELATREGFESVEHVKRYTALGFGTDQGKLGNVNGLAIAARSLNVSIPQMGTTMFRPNYTPVTFGAVAGRHCGHIFEPVRFTALHAWHVKNGAEFEDVGQWKRPWYFPKNGEDLHAAVKRECKAVRDSVGLLDASTLGKIDIQGPDAREFLNRIYTNAWTKLDVGKARYGLMCKEDGMVFDDGVTACLADNHFLMTTTTGGAARVLQWLEIYQQTEWPDLKVYFTSVTDHWATMTLSGPNSRKLLSEVTDIDLDKDGFPFMTWKEGLVGGVPARVFRISFTGELSYEINVQADYAMGVLEQIVEAGKKYNLTPYGTETMHVLRAEKGFIIVGQDTDGSMTPDDLNMGWCVGRTKPFSWIGWRGMNREDCVREERKQLVGLKPIDPNVWLPEGAQLVFNPKQAIPMSMVGHVTSSYAHNSLGYSFAMGVVKGGLKRLGERVFAPLADGRVIEAEIVSSVFFDPKGDRQNV	PGPT0013515_145	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0013515-soxA-K00302	NA	NA
D1-35_03785	633	soxG		Sarcosine oxidase subunit gamma	ATGACCGCAGTCAACGTGTACCAACAACGCCCCACCACCGGGGCCAAGGCCGAGTCATCGCTGCACCATGCCGACCTCGCCAGCCTGGCGGGCAAGGGCCGCAAGAACGCCGGCGTGACCGTGCGCGAGAAAAAACTCCTCGGCCACCTGACCATTCGTGGCAATGGCCACGATCCTGCGTTCGCCGCGGGCGTGCACAAGGCCCTGGGCCTGGAGTTGCCGGGTGCGCTGGCTGTCATCGTCAAGGGCGAAACCAGCCTGCAATGGCTGGGGCCGGATGAATGGCTGCTGGTGGTGCCTTCTGGCGAAGAGTTCGTCGCCGAGCAGAAACTGCGCGAAGCCCTGGGCGACCTGCACATCCAGATCGTCAACGTCAGCGGCGGCCAGCAAATCCTCGAACTGTCCGGCCCGAACGTGCGCGACGTGCTGATGAAATCCACCAGCTACGATGTACACCCAAGCAACTTTCCGGTGGGCAAGGCCGTGGGCACGGTGTTCGCCAAGTCGCAACTGGTGATCCGCCACACCGCTGAAGACACCTGGGAACTGGTGATCCGCCGCAGCTTTTCCGATTACTGGTGGCTGTGGTTGCAGGATGCGGCGGCTGAGTATGGGTTGAGCGTGCAGGCGTAA	MTAVNVYQQRPTTGAKAESSLHHADLASLAGKGRKNAGVTVREKKLLGHLTIRGNGHDPAFAAGVHKALGLELPGALAVIVKGETSLQWLGPDEWLLVVPSGEEFVAEQKLREALGDLHIQIVNVSGGQQILELSGPNVRDVLMKSTSYDVHPSNFPVGKAVGTVFAKSQLVIRHTAEDTWELVIRRSFSDYWWLWLQDAAAEYGLSVQA	PGPT0013525_188	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013525-soxG-K00305	NA	NA
D1-35_03786	858	purU_2	COG0788	Formyltetrahydrofolate deformylase	ATGAGCCGCGCCCCAGATACATGGATACTGACCGCCGACTGCCCCAGCGTGCTCGGCACGGTGGATGCGGTGACCCGCTTTCTGTTCGAGCAGGGCTGCTACGTCACCGAGCACCATTCCTTCGACGACCGGCTCTCGGCGCGCTTCTTCATTCGCGTGGAGTTTCGCCAGCCTGACGGTTTCGACGAGCAGAGCTTCCGCGCCGGCCTGGCCGAGCGGGCGCAAGCCTTCGGCATGGTCTTCGAACTGACGCCGCCCAACTACCGGCCGAAAGTGGTGATCATGGTCTCCAAGGCCGATCACTGCCTCAACGACTTGCTCTACCGCCAACGCATCGGCCAGTTGTCGATGGACGTGGTGGCCGTGGTCTCCAATCACCCAGACCTCAAGCCGCTCGCCGACTGGCACCAGATTCCCTACTACCATTTCCCCCTGGATCCGAACGACAAGCCGGCCCAGGAGCGGCAGGTGTGGCAGGTGATCGAGGAGACCGGCGCCGAGCTGGTGATTCTTGCCCGCTACATGCAAGTGCTGTCGCCGGAACTGTGCCGCAAGCTCGACGGCAAGGCCATCAACATCCATCACTCATTGCTGCCGGGCTTCAAGGGCGCCAAGCCGTATCACCAGGCCTATAACAAAGGCGTGAAATTGGTGGGCGCCACGGCGCATTACATCAACAACGACCTGGACGAAGGTCCGATCATCGCCCAGGGCGTGGAAGTGGTGGACCACAGCCACTATCCCGAAGACCTGATCGCCAAGGGACGCGACATTGAAGGGCTCACCTTGGCCCGCGCGGTGGGGTACCACATTGAGCGAAGGGTGTTCCTGAACGCCAATCGCACGGTCGTTCTCTAG	MSRAPDTWILTADCPSVLGTVDAVTRFLFEQGCYVTEHHSFDDRLSARFFIRVEFRQPDGFDEQSFRAGLAERAQAFGMVFELTPPNYRPKVVIMVSKADHCLNDLLYRQRIGQLSMDVVAVVSNHPDLKPLADWHQIPYYHFPLDPNDKPAQERQVWQVIEETGAELVILARYMQVLSPELCRKLDGKAINIHHSLLPGFKGAKPYHQAYNKGVKLVGATAHYINNDLDEGPIIAQGVEVVDHSHYPEDLIAKGRDIEGLTLARAVGYHIERRVFLNANRTVVL	PGPT0008155_2162	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433	NA	NA
D1-35_03787	1200	fdhA_1		Glutathione-independent formaldehyde dehydrogenase	ATGTCTGGTAATCGTGGTGTCGTGTATCTCGGCAACGGCAAGGTCGAAGTACAGAAAATCGACTATCCCAAAATGCAGGACCCGCGTGGCAGGAAGATCGAGCACGGCGTCATCCTGCGCGTAGTCTCCACCAACATCTGCGGCTCCGACCAACACATGGTGCGCGGCCGTACCACTGCCCAGACCGGCCTGGTCCTGGGTCACGAGATCACCGGTGAAGTGATCGAAAAGGGCAGCGACGTCGAAAACCTGAAAATTGGTGATCTGGTTTCGGTGCCATTCAACGTTGCGTGCGGGCGCTGCCGTTCCTGCAAGGAGCAACACACCGGTGTCTGCCTGACGGTCAACCCGGCCCGTGCCGGCGGTGCCTACGGTTATGTCGACATGGGCGACTGGACCGGCGGCCAGGCTGAATACGTGCTGGTGCCGTACGCCGACTTCAACCTGCTGAAACTGCCGGACCGCGACAAGGCCATGGAGAAAATCCGCGACCTGACCTGCCTGTCCGACATCCTGCCGACCGGCTACCACGGCGCAGTTACCGCTGGTGTCGGCCCTGGCAGCACCGTCTACATTGCCGGCGCCGGCCCGGTTGGCCTCGCGGCTGCCGCCTCCGCCCGCTTGCTGGGTGCTGCGGTAGTGATCATCGGCGACGTCAACTCCATCCGCCTGGCTCACGCCAAGGCCCAAGGCTTTGAAATCGTCGACCTGTCTACAGACACCCCACTGCACGAGCAAATCGCCGCGCTGCTGGGCGAACCAGAAGTGGACTGCGCAGTCGATTGCGTGGGCTTCGAAGCCCGCGGCCACGGCCATGACGGCGTCAAGCACGAAGCCCCGGCCACTGTGCTCAACTCATTGATGGGCGTGGTCCGCGTGGCCGGCAAGATCGGTATTCCCGGCCTCTATGTCACCGAAGACCCGGGCGCAGTTGATGCCGCCGCAAAAATGGGCAGCCTGAGCATTCGCTTCGGCCTGGGCTGGGCCAAATCCCACAGCTTCCACACCGGCCAGACCCCGGTGATGAAGTACAACCGCCAGCTGATGCAGGCGATCATGTGGGACCGCATCAATATTGCTGAAATCGTTGGCGTGCAGGTCATCAGCCTGGATGACGCGCCGAAGGGTTATGGCGAGTTCGATGCCGGTGTGCCGAAGAAGTTTGTGATTGATCCGCATAAGTTGTTCAGTGCGGCGTAA	MSGNRGVVYLGNGKVEVQKIDYPKMQDPRGRKIEHGVILRVVSTNICGSDQHMVRGRTTAQTGLVLGHEITGEVIEKGSDVENLKIGDLVSVPFNVACGRCRSCKEQHTGVCLTVNPARAGGAYGYVDMGDWTGGQAEYVLVPYADFNLLKLPDRDKAMEKIRDLTCLSDILPTGYHGAVTAGVGPGSTVYIAGAGPVGLAAAASARLLGAAVVIIGDVNSIRLAHAKAQGFEIVDLSTDTPLHEQIAALLGEPEVDCAVDCVGFEARGHGHDGVKHEAPATVLNSLMGVVRVAGKIGIPGLYVTEDPGAVDAAAKMGSLSIRFGLGWAKSHSFHTGQTPVMKYNRQLMQAIMWDRINIAEIVGVQVISLDDAPKGYGEFDAGVPKKFVIDPHKLFSAA	PGPT0002115_250	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROMETHANE_DEGRADATION,PGPT0002115-fdhA-K00148	NA	NA
D1-35_03788	381			hypothetical protein	ATGGTCGACTCCATGCCGAAGAATCAGGGCCCGCTACTCTGCCACTACCACTACGATCCGCTGGACCGCTTGGCCGACTGCATGGTAGCGGACCAGGTCGGCATCCGACGCTTCTACCTGAAAGACCGGCTGAGCACCGAGATTCAGGGGCCGGTCCAACATTCGGTCGTGCAGCACGACGATCAGTTGCTGGCCCAGCAGCAGCGGAAAAATGAAATCAGCACAACCACCTTGCTCGCCACCGATCATCAGCGTTCGGTTTTACAAACGTTCGATGCAGCACAACCTCAGCGCCTTGCCTACACGGCCATGGCCATCGTCCTCAGGAAGTTGGCCCTCCAAGCCTGCTCGGCTTCAACGGCGAACGAGCGGATCCGGTGA	MVDSMPKNQGPLLCHYHYDPLDRLADCMVADQVGIRRFYLKDRLSTEIQGPVQHSVVQHDDQLLAQQQRKNEISTTTLLATDHQRSVLQTFDAAQPQRLAYTAMAIVLRKLALQACSASTANERIR				NA	NA	NA	NA	NA
D1-35_03789	708			Lytic cellulose monooxygenase	ATGAAATATTCCAGCCTAGCCCTGAGCTGCATTCTTCTGTCCAGCATCGGTTTGATCAGTTGCACTGATGTCAAAACCCCGTCCAAGAGCCCAGAGATAAAACACGGTACCTCGCAGATGCCGCCGTCTCGCCAGTACTATTGCTGGGATCAGCAGGACTTCAACAATGGCAGCGCAAACATCAAGAACGCTGCGTGCCGGGCAGCCTTTACAGCGGCAGGCGACGCCGACTGGGAACGCGCCCGTCTGTTCAACGACTGGAACGCCTACTCGCAAAACATCCCCGAAGGCACCAAGCCGGAAGACGTCGCTCCCGATGGGAAACTCTGTTCCGCCGGTCAGGATCGCTTCGACAGTATCAACCTCAAAAGCGCTGCCTGGCACACCACTGATCTGGACGTGAAGGACGGCCGCGTGCAGCTCACTTATGTGGCCAGCCAGATGCATGATCCCAGCGAATTCAAGGTTTACCTGACCGACCCGGACAACCTCAACTGGGCCGCGCTGAAGCAGTCTCCTGACGTCAAGGTGAGACTTGCCCCGGACACGAAAGGACCGGGCACCTATTACCTGGACGTTCAATTACCAGCAGGCTATGTCACGGACAGCAAGTCAGTGATCTTCATTATGTGGCAACGCCATGAAGACCCTGCCCGCGAGACATTCTTCAGTTGCAGCGATGTGGTGCTGGTGAACGCGAAAGGTTAG	MKYSSLALSCILLSSIGLISCTDVKTPSKSPEIKHGTSQMPPSRQYYCWDQQDFNNGSANIKNAACRAAFTAAGDADWERARLFNDWNAYSQNIPEGTKPEDVAPDGKLCSAGQDRFDSINLKSAAWHTTDLDVKDGRVQLTYVASQMHDPSEFKVYLTDPDNLNWAALKQSPDVKVRLAPDTKGPGTYYLDVQLPAGYVTDSKSVIFIMWQRHEDPARETFFSCSDVVLVNAKG				NA	NA	NA	NA	NA
D1-35_03790	579			hypothetical protein	ATGAACGTACAAATCGGTGGAGGCGCCCTCGCGGTCATTCTGACGGGCATGCTCATCGCCTTCGGCGTCAGCGAGTGCCAGCGCGGCCCGTTGAACCCGGAACTTGCCGACGACGTCAGCGAAGCGCAAAAGACCTGGCTGACCATCGAGCACCGCATCAAGCGTTATGATCCAGCCCTGACGCAGGTCACGCGAGACCAGCAGGCCCTGAGCGTTTTCTACCGCCCCGCCACGCCCATCGAGGCGGGCGAGGATTGGGCGCCGGACATGCTGCGCGTCGTCGGCCACGGCCTGGCGGCGCTGAATGGCGCGCCAGGAGGAAAGGTGTATACCCAAGTGACCGTGAAAGCGCGAATGCTTGCCGATGATGACGTCGAACTGATGTATGACATGCCGGGGTTCGATGCCATCAAGACCCAACAGGATGGCTACTTCAACTTCGCCAGCATGCCGCGCAGCCTGTCATTCAGTCCGGCCGCCCTGGCGCAGATCAAGGACGATTGCCGTGGCATGAACGCGCAGGCGTTCTATTCGCAATTTTGCCAGCGGGTCGGCGAGGCCATAACGAGCCAACCCTGA	MNVQIGGGALAVILTGMLIAFGVSECQRGPLNPELADDVSEAQKTWLTIEHRIKRYDPALTQVTRDQQALSVFYRPATPIEAGEDWAPDMLRVVGHGLAALNGAPGGKVYTQVTVKARMLADDDVELMYDMPGFDAIKTQQDGYFNFASMPRSLSFSPAALAQIKDDCRGMNAQAFYSQFCQRVGEAITSQP				NA	NA	NA	NA	NA
D1-35_03791	570			hypothetical protein	ATGAAGGTTTCACGCGGTTTTGCACTGTCTTGCCTGCTCTCGTTGGCAGCCGGCCCGGCCTTCGCACAGTTCAGCCTCGCTGATGCGACAAGCGTGATCTCGGCCATTCAGGGCAACCAGCAGGAGGGGGCGGTAGCGGCTGCGCCGAAAGCCGCCGGGTTGCTCAATACCCTCGGCTCGGAACTCCAGATCACGCCGGAGCAAGCCGTGGGCGGTGCCGGGGCGATGCTCGGACTGGCCAGGAACCAGCTCGGCGAGGCGCAGTTCGCCGAGCTGAGCAAAAGTGTGCCGGGGCTCGATCAGATCGCCGGGAACAGTGCCATCGGTGGCCTTAACGGCCTGGGTGGCTTGCTGGGCGGCGGGTCGGACAAAAACGCCTTGCTCGACGGCTTGCTCGGTAACGTCAAGGACACCGGCGACCTGAACAATGCCTTCAGCGCGCTGGGCATGGACAGCGGCATGATCGGCCAGTTTGCCCCGATCATCTTGCAGTACCTCGGCCAACAGGGCGTCGCCAGTTCGCTGTTGCAGAACCTGGGCGGTATCTGGGGCGCCGGCGCCGGTATCTGA	MKVSRGFALSCLLSLAAGPAFAQFSLADATSVISAIQGNQQEGAVAAAPKAAGLLNTLGSELQITPEQAVGGAGAMLGLARNQLGEAQFAELSKSVPGLDQIAGNSAIGGLNGLGGLLGGGSDKNALLDGLLGNVKDTGDLNNAFSALGMDSGMIGQFAPIILQYLGQQGVASSLLQNLGGIWGAGAGI				NA	NA	NA	NA	NA
D1-35_03792	888	yihG_2	COG0204	putative acyltransferase YihG	ATGCGCCGCCTGCTCACCGGCTGTTTCGTCACCCTGCTGCTATTGCTCAATACCCTGGTGCTGTTCGGGCCGCTGATGGTGTTTGCATTGCTCAAGCTGGTCCTGCCCGGGCGTCTCCGCGATTACGCCTCGTGGGCGGTGATGTGGATTGCCGAGACCTGGGCCGAGATCGACAAGCTGATATTTGCCTGGTGCATCCCCACCCGCTGGGACATTCGCGGCGGTGAAGGCCTGCGCAGCGACACCTCGTACCTGGTGATCAGCAATCACCAGTCATGGGTGGATATCCCCGCCCTGGTCCAGACCCTCAACCGACGCACGCCGTTCTTCAAATTCTTTCTCAAGAAAGAGCTGATCTGGGTGCCGTTCCTGGGGCTGGCGTGGTGGGCATTGGATTACCCTTTCATGAAGCGCTACACCAAGGCGTTCCTGGCAAAGAATCCGGAGCTGGCCGGCAAGGATCTGGAAATCACCAAGGCCGCCTGCGAGCTGTTCAAGCGTCAGCCAGTCACCGTGGTGAATTATCTCGAAGGCACGCGCTTCACCGCCGCCAAAAGCCAACAGCAGCAATCGCCCTTCAGTCATCTGCTCAAGCCCAAGGCCGGTGGCGTGGCGTTTGTGCTGGCGGCGATGGGCGAGCAGCTGGATGCGATCCTCGACGTGACGGTGGTTTATCCGCAGCAGCGCATCCCCGGGTTCTGGGACTTGATCAGCGGCGCGGTGCCCAGGGTCATCGTCGACATCCAGACCCGCGAACTGGACCCGGCGCTGTGGCAAGGCGATTACGAAAACGACCCAGTGTTTCGCCAGCATGTGCAGGACTGGGTCAACCAGCTCTGGCATGAAAAGGACCAGCGCATTGCTCAGCTGCGCAACGAGAGCGCCTGA	MRRLLTGCFVTLLLLLNTLVLFGPLMVFALLKLVLPGRLRDYASWAVMWIAETWAEIDKLIFAWCIPTRWDIRGGEGLRSDTSYLVISNHQSWVDIPALVQTLNRRTPFFKFFLKKELIWVPFLGLAWWALDYPFMKRYTKAFLAKNPELAGKDLEITKAACELFKRQPVTVVNYLEGTRFTAAKSQQQQSPFSHLLKPKAGGVAFVLAAMGEQLDAILDVTVVYPQQRIPGFWDLISGAVPRVIVDIQTRELDPALWQGDYENDPVFRQHVQDWVNQLWHEKDQRIAQLRNESA				NA	NA	NA	NA	NA
D1-35_03793	507			hypothetical protein	ATGAAATCCGTTTTAGCCCTGCTTTCCCTGGTGGCCCTCCCCGTGCTTGCCGCCGAACCGACCCTCTATGGGCGCTACGAATACATCGCGCTGCCGGAAATCGGTGGCGAAGTGCTCAAGGCCAAGATGGACACCGGCGCATTGACCGCCTCGCTGTCGGCCAAGGACATCGAGACGTTCACCCGTGACGGCGATGACTGGGTACGTTTCCGCCTGGCGACCAAGGACGCGAGCAACAAGATCTACGAACACAAGATCGCCCGCATCAGCAAGATCAAGACCCGTTCCGAAGAGGACGAGGACGACGACGAAAAGGTCGCCCCCAGCAAGCGTCCGGTGGTGGAACTGGAAATGTGCCTGGGTAACGTCAAGCGCACTGTCGAGGTCAACCTGACCGACCGCAGCAGTTTCAACTACCCGCTGCTGATCGGTGCCAAGGCCTTGCGTGAGTTCGACGCGGCGGTGAACCCGGCGCGGCGGTTTACGGTGGATAAACCGGACTGTTGA	MKSVLALLSLVALPVLAAEPTLYGRYEYIALPEIGGEVLKAKMDTGALTASLSAKDIETFTRDGDDWVRFRLATKDASNKIYEHKIARISKIKTRSEEDEDDDEKVAPSKRPVVELEMCLGNVKRTVEVNLTDRSSFNYPLLIGAKALREFDAAVNPARRFTVDKPDC				NA	NA	NA	NA	NA
D1-35_03794	681	creB	COG0745	Transcriptional regulatory protein CreB	ATGCCTCATATTCTGATTGTCGAAGACGAAGCCGCCATCGCTGATACGCTGGTGTTTGCGCTGCAGGGCGAGGGCTTTGACACCACTTGGTTGAGCCTGGGAGCCGCGGCCCTGGAGCATCAGCAGAAGACTCCGGCGGACCTGATTATTCTCGACGTGGGCCTGCCGGATATCAGCGGTTTCGAGACGTGCAAGAATCTCAGACGTTTCAGCGACGTTCCGGTAATTTTTCTTACGGCTCGGGATGGCGAGATCGACCGGGTGGTTGGCCTGGAGATTGGCGCTGATGATTACGTGGTCAAGCCCTTCAGCCCCCGCGAAGTTGCCGCCAGGGTTCGCGCGATTCTCAAGCGCGTGGCGCCGCGGCCTTTCGCGGAAGCGGGTTCGGCGTTGTTCCAAGTGGACAGCGAGCGCGTGCAGATCAGCTATCGCGGCAAGCCGTTGAACCTCACTCGTCATGAGTTTCGCCTGTTGAACTGCCTGCTGGAGCAGCCTGAGCGGGTCTTCAGTCGCGAGCAATTGCTCGATGCCCTGGGCGTGGCCAGCGATGCCGGCTACGAGCGCAGCATCGACAGCCACATCAAGAGCCTGCGCGCCAAGTTGCGCCTGGTCCGGGCCGAGGCCGAACCGATCCAGACCCACCGGGGCCTTGGCTACAGCTACAGCCCGGGCCACAGCTGA	MPHILIVEDEAAIADTLVFALQGEGFDTTWLSLGAAALEHQQKTPADLIILDVGLPDISGFETCKNLRRFSDVPVIFLTARDGEIDRVVGLEIGADDYVVKPFSPREVAARVRAILKRVAPRPFAEAGSALFQVDSERVQISYRGKPLNLTRHEFRLLNCLLEQPERVFSREQLLDALGVASDAGYERSIDSHIKSLRAKLRLVRAEAEPIQTHRGLGYSYSPGHS	PGPT0015055_369	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015055-creB-K07663	NA	NA
D1-35_03795	1419	creC	COG0642	Sensor protein CreC	ATGTCGCTGGGTATCCGGATTTTCCTGGCCTACGTGCTGTTCATCGGCCTGGCCGGGTATTTCGTGCTTAACACGGTGATGGAAGAGATCCGTCCCGGTGTGCGCCAGTCCACCGAGGAAACCCTGGTGGACACGGCCAACCTGATGGCCGAAATCCTGCGGGACGATTTCAAGGCCGGGACGCTCAGCCAGAACCGCTGGCCGCAATTGCTCAGGTCCTATGGCGAACGCCAGCCGGCGGCGACGATCTGGGGATTGCCAAAAAACCAGGTCAACCATCGCATCTACGTCACCGATGCCAATGGCATCGTCGTGCTCGATTCCAGTGGCGTGGCGGTGGGCCAGGATTATTCGCGGTGGAACGACGTCTACCTGACCCTGCGCGGCCATTACGGCGCTCGTTCGACCCGCAACGATCCGAGCGACCCGGCATCTTCGGTGATGCATGTCGGGGCCCCGATCCGGGACAACGGAAGGATCATCGGCGTGGTCACGGTGGCCAAGCCCAACAGCTCGTTGCAACCTTACATCGACCGCACGGAGCGGCGCCTGCTGGCGTACGGTGCCGGGTTGATCGGCCTGGGCCTGTTGCTGGGCGCCTTGCTGTCCTGGTGGCTCAGCGCGGCTTTGCGTCGGTTGACTCGTTATGCCCAGGCGGTCAGCCAGGGGCGGCGGGTGGAAGTGCCGCATTATCGCGGCGGCGAATTCGAGCAACTGGCGGGCGCCGTCGAACACATGCGCACCCAGCTCGAAGGCAAGGCCTACGTCGAGCGTTATGTGCACACCTTGACTCATGAACTGAAGAGTCCGCTGGCCGCGATTCGCGGCGCCGCCGAGCTGCTGCAGAGCGACATGCCCGCCGCCCAGCACCAGCGCTTTGTCAGCAACATCGACAGCGAAAGCGTGCGCATGCAGCAATTGATCGAGCGCCTGCTCAACCTGGCCCAGGTCGAGCAGCGCCAGGGGTTGGAGGATATTGTCGCGGTGCCGTTGGCGGCGTTGGTCGATGAATTGCTGGAGGCTCGCGGCGGCTGGATCGAAAGCCGTCAATTGCGCATAGAGCGATACATCGCCGCTGATCTGACGCTGACCGGGGAGGCCTTCCTGTTGCGCCAGGCCCTGGGCAACTTGCTGGAAAATGCCTTGGACTTCACCCCTGTCGAAGGCTTGTTGCGCATCAGAGCCGAGCGCCTGGGCAGCCGCGTCGAGATCCGTCTTTTCAACCAGGCCGAGCCGATTCCCGACTACGCACTACCGCGCCTGAGCGAGCGGTTCTATTCCTTGCCGCGCCCTGGCACCGGGCGCAAGAGCACAGGCCTGGGGCTCAACTTTGTCGAGGAAGTGGTGCAGTTGCATGGGGGGGAATTTGGCATCGGTAATGTCGAGGGTGGGGTGGAAGTGGTGCTGCGGTTGCCCTGA	MSLGIRIFLAYVLFIGLAGYFVLNTVMEEIRPGVRQSTEETLVDTANLMAEILRDDFKAGTLSQNRWPQLLRSYGERQPAATIWGLPKNQVNHRIYVTDANGIVVLDSSGVAVGQDYSRWNDVYLTLRGHYGARSTRNDPSDPASSVMHVGAPIRDNGRIIGVVTVAKPNSSLQPYIDRTERRLLAYGAGLIGLGLLLGALLSWWLSAALRRLTRYAQAVSQGRRVEVPHYRGGEFEQLAGAVEHMRTQLEGKAYVERYVHTLTHELKSPLAAIRGAAELLQSDMPAAQHQRFVSNIDSESVRMQQLIERLLNLAQVEQRQGLEDIVAVPLAALVDELLEARGGWIESRQLRIERYIAADLTLTGEAFLLRQALGNLLENALDFTPVEGLLRIRAERLGSRVEIRLFNQAEPIPDYALPRLSERFYSLPRPGTGRKSTGLGLNFVEEVVQLHGGEFGIGNVEGGVEVVLRLP	PGPT0015045_459	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015045-creC-K07641	NA	NA
D1-35_03796	1374	creD	COG4452	Inner membrane protein CreD	ATGAACCGCAGCCTCGCCATAAAACTGGGCATGATCGCCCTCTTGATTCTCTTGCTGATGATCCCGCTGTTGATGATCAACGGCCTTATCGATGAGCGCCAGGAGCTGCGCGATGGGGTGTTGCAGGACATCGCCCGCAGTTCCAGCCACAGCCAGCAGTTGATCGGCCCGATGATCGTGGTGCCGTTTCGCAAGGACGTGAAGGTCTGGAATACCAACGAGAAGACCGGCGTGCGCTTCCTCGAAACCGTCGAGCAAACGGGCGAGTTGTATTTCCTCCCGGAGCAATTTGAGCTCGACGGCCAGATCCGCACCGAAACACGTGCCCGGGGCATCTACGAAGCGCGCTTGTTTCATGCCGACAACCGGATCGATGGCCGCTTCAAAGTGCCGGAACGTTATGGCGTCGCCCCGAAGGATTTCGCCGACTACCGCTTTGACGAGCCGTACCTGAGCGTCGGCATCAGCGATATTCGTGGCATCGAGAATGCATTGACCCTGACGCTGAACCAGCAGACGGTCGATTTCCTTCCCGGTTCGCGGCTTGGCTGGCTGGGGCAGGGCGTACACGTGCCGTTGCCGATGATCACCGCCCAGGGCAGCCCCGAACTGACCTTCGGTTTCGACCTGCGCCTGCAAGGCACCGGCGAGCTGCAGATCCTGCCGGTGGGCAAGTCCACCAAGGTGCACCTGTCCGCCGATTGGCCGCACCCGAGCTTCATCGGCAATTACCTGCCGGTCAATCGCGAGATCAATGAGCAGGGCTTCAATGCCGACTGGCAGACCTCGTTTTTCTCCACCAACCTTTTGGAAACGCTGCAAGCCTGCGATCCCAGCGATGGTTGCGAAGCGTTCCGCAGTCGTGCGTTCGGTGTAAGTTTCGTCGATCCGGTGGACCAGTACCTGAAGAGCGACCGGGCGATCAAATATGCGCTGCTGTTCATCGCGCTGACCTTCGCCGGGTTCTTCCTCTTCGAAGTGCTCAAGAGCCTCGCGGTGCACCCGGTCCAGTACGCATTGGTCGGCGTGGCGCTGGCGTTCTTCTACCTGCTGCTGTTGTCGCTGTCGGAGCACATCGGCTTCACCCTGGCGTACCTGGTATCGGCCAGTGCCTGTGTGGTGCTGATTGGCTTCTACGTCTGCCATGTGCTGCGCAGCGTGAGCCACGGCCTGGGATTTTCAGCGGGGTTGGCGGGTTTGTACGGACTGCTTTATGGCCTGTTGAGCGCCGAAGACTACGCGCTGTTGATGGGCTCGCTGCTGCTGTTCGGCCTGCTGGGCGTGTTCATGGTGCTGACCCGCAAGCTGGATTGGTACGGAGTGGGCGCGAAGCCGGCGGCTGCGATGAGTTTTGATCTGGGAGAGGTGAAATGA	MNRSLAIKLGMIALLILLLMIPLLMINGLIDERQELRDGVLQDIARSSSHSQQLIGPMIVVPFRKDVKVWNTNEKTGVRFLETVEQTGELYFLPEQFELDGQIRTETRARGIYEARLFHADNRIDGRFKVPERYGVAPKDFADYRFDEPYLSVGISDIRGIENALTLTLNQQTVDFLPGSRLGWLGQGVHVPLPMITAQGSPELTFGFDLRLQGTGELQILPVGKSTKVHLSADWPHPSFIGNYLPVNREINEQGFNADWQTSFFSTNLLETLQACDPSDGCEAFRSRAFGVSFVDPVDQYLKSDRAIKYALLFIALTFAGFFLFEVLKSLAVHPVQYALVGVALAFFYLLLLSLSEHIGFTLAYLVSASACVVLIGFYVCHVLRSVSHGLGFSAGLAGLYGLLYGLLSAEDYALLMGSLLLFGLLGVFMVLTRKLDWYGVGAKPAAAMSFDLGEVK				NA	NA	NA	NA	NA
D1-35_03797	189			hypothetical protein	ATGAGCCGGTCGTTGGGGTTGCGGGAGGACCAGCGGGTGGGGGAAATGCTGGTGATGCGAATTGTCGGGTTGTTTCCTTTGGATCCGGTGCGCGGCCTTCGCGAGCAGGCTCGCTCCCACAAGAGAGCAACACAATCAAATGTGGGAGCGAGCCTGCTCCGAGCGGCGTTCCGACGAAGAGGCCGGTGA	MSRSLGLREDQRVGEMLVMRIVGLFPLDPVRGLREQARSHKRATQSNVGASLLRAAFRRRGR				NA	NA	NA	NA	NA
D1-35_03798	630	yibF_1	COG0625	putative GST-like protein YibF	ATGTCCACCCCCAGCATGACCCTGTTCCACAACCCCGCTTCGCCCTTCGTTCGTAAGGTCCTGGTGCTGCTGCACGAAACCGGACAGCAGGATCGCGTCGCCTTGCAGCTCAGCCAACTCACGCCGGTCAAGCCGGACCAAGCACTGATCCATGACAATCCGTTGAGCAAGATTCCGGCCCTGCGCCTGGCCAACGGGACGGTGATCCACGACAGCCGCGTCATCCTCGACTACCTCGACCACCAACACGTCGGCAACCCGCTGATCCCGCGCGAGGGCGCCGCGCGCTGGCGGCGCCTGACCCTGGCCTCCATGGCCGACGGGATCATGGACGCGGCGGTGATGATCCGCTACGAGACAGCCCTGCGTCCTGTGGAAAAACACTGGGACGAATGGCTCGATGCGCAGCGGGACAAGATTCGTCGCGCCCTCGCCACGCTCGAATCCGAGGCGATTGCAGAACTGGCCAGCCATTTCGACGTCGCGTCCATCAGCGTGGCCTGCGCCCTGGGTTACCTGGACCTGCGCCATGCCGACCTGGAATGGCGCGAGAACAATCCGCAGCTGGCGGCGTGGTTTTCCGAGGTCAGTTTGCGGCCTTCGATGGCCGAGACGGTGCCCCGGGTCTAA	MSTPSMTLFHNPASPFVRKVLVLLHETGQQDRVALQLSQLTPVKPDQALIHDNPLSKIPALRLANGTVIHDSRVILDYLDHQHVGNPLIPREGAARWRRLTLASMADGIMDAAVMIRYETALRPVEKHWDEWLDAQRDKIRRALATLESEAIAELASHFDVASISVACALGYLDLRHADLEWRENNPQLAAWFSEVSLRPSMAETVPRV	PGPT0013170_20446	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
D1-35_03799	180			hypothetical protein	GTGAGGCCTCGGCAGTCGAATTTCTGGAAGGTGTTTGGTATTCCCGTAGTGATCGGCGCATTGAGCGCGGCGGGGCTGTTCAGCGCATTGCTCGGTGACGGCGCCTGGGATGCGCTGAGCTGGGTTGGATTGGGAATCCCGACCGTGCTTGGGGCCTGGGGCTTGATCAAACGCGGATAA	MRPRQSNFWKVFGIPVVIGALSAAGLFSALLGDGAWDALSWVGLGIPTVLGAWGLIKRG				NA	NA	NA	NA	NA
D1-35_03800	1131			hypothetical protein	ATGAAAAGCAAAACCATTCGCCGCTGGTCCTTTGTCCACACCTGGAGCAGCCTGATCTGTACGGTGTTCCTGCTGATGCTGGCAATCACCGGGCTGCCGCTGATTTTCCATCATGAAATCGAGCATCTGTTGGGCGATGCCCCGCAGCTGCGGGAAATGCCGGCCGGCACGCCGCCGTTGGATCTTCAACAACTGGTGGAAAAAGCCAAGGCTCATCGTCCGGGTGAAGTGGTCCAGTATTTCGGCTGGGACGAAGACGACCCCAACGGCGTGATCACCATCATGGCGCCGACACCGGGCACCGAACCCAATTCATCCCATACCTTCATGCTCGACGCGCGCACCGGCGAAGCCCTGGAGATGCCTTCGGCCAACGGCGGTTTCATGATGATCATGCTGCGCCTGCATGTGGACATGTTCGCCGGGCTGCCGGGCAAGTTGCTGCTGGCGTTCATGGGGTTTCTGTTCGTGATTGCCATCGTCTCCGGCGTGGTGCTGTACTTGCCGTTCATGCGGCGCCTGAACTTCGGCACGGTGCGCCAGGACAAATCCACCCGCCTGCGCTGGCTCGACCTGCACAACCTGATCGGCGTCGTCACCCTGGTCTGGGCGCTGACCGTGGGCGTGACCGGCGTGATTGCCGCCTGCGCCGACCTGATCATCGCCGCGTGGCGCAACGACAGCCTCAGCGCGATGGTCGAGCCGTACCGCAACGCCCCGCCACTGACGCAACTGGCCCCGGCGACCCGCCTGCTCGACATTGCCAAGGAAGTCGCGCCGGGCATGGAGCCCAGCTTCATCGCCTTCCCCGGCACGCTGTTTTCCAGCGAGCATCACTACAGCGTGTTCATGAAGGGCGACACCCACCTGACCTCACACCTGCTCACCCCGGTCCTGATCGACGCCAGCACCCTGGACGTCACCGCCGTGGCCGAGCGGCCGTGGTACATGGACATGATGAGCCTGTCCCTGCCGCTGCATTTCGGCGACTACGGTGGCCGGCCAATGCAGATTTTCTGGGCAACCCTGGATGTGCTGACGATCATCGTCCTGGGCAGTGGCGTTTATCTGTGGGTGGTGCGACGTAAAGCCGCCAAGCGCGCGACTGTCGGCGCGGAGGTTGCCCCGTGA	MKSKTIRRWSFVHTWSSLICTVFLLMLAITGLPLIFHHEIEHLLGDAPQLREMPAGTPPLDLQQLVEKAKAHRPGEVVQYFGWDEDDPNGVITIMAPTPGTEPNSSHTFMLDARTGEALEMPSANGGFMMIMLRLHVDMFAGLPGKLLLAFMGFLFVIAIVSGVVLYLPFMRRLNFGTVRQDKSTRLRWLDLHNLIGVVTLVWALTVGVTGVIAACADLIIAAWRNDSLSAMVEPYRNAPPLTQLAPATRLLDIAKEVAPGMEPSFIAFPGTLFSSEHHYSVFMKGDTHLTSHLLTPVLIDASTLDVTAVAERPWYMDMMSLSLPLHFGDYGGRPMQIFWATLDVLTIIVLGSGVYLWVVRRKAAKRATVGAEVAP				NA	NA	NA	NA	NA
D1-35_03801	2439	fhuA_2	COG1629	Ferrichrome outer membrane transporter/phage receptor	ATGTCCCGCCCGCTAGACACCCTGTTGCGTCCCAGCCTGTTGGCCGTCGCCATCGCCTTCGCCACCCCGCTGGCCAGCGGTCCGCTGCTGGCCGCCGAGCAGGCGTCCAACGTGCGCGCCTACAACCTGCCCGCCGCGCCATTGGCCAGCACCCTGAACCAGATCGCCAGCCAGGCCGGCCTTGCCCTGAGCCTGAACCCGGCGCTGGCTTCGGGTAAAACCTCGGCGCCGGTCCAAGGCCAGTTCGACGCCACCGGTGCGCTGCGTGAAGCCTTGCGCGGCACCGGCCTGCAACTGGAACAAAGCAGCGCCGGCACCTACAGCCTGGTGGCCGTGCCGGAGGGTGTCATGGTGCTGCCGGAAACCAGCGTGATCGGCGCCGGCGTCAGCGAAACCGCCTGGGGCCCGACCGAAGGCTATGCGGTCACCCGCACCGCCGCCGGCACCAAGACCGACACGCCGATCGTCGAACTGCCGCGCTCGGTCTCGGTGGTCACGCGCCAGCAGATGGACGACCGCTCCGTGCTCAACCTCAACGATGCCCTGCGCTACACCGCCGGCGTGCAGAGCAGCGGCTACGGTTCGGATTCGCGCAATGACTGGCTGCTGGTGCGCGGCTTCGTACCGACCCAGTTCCTCGATGGCCTGCCGCTGCCCAAGGGCAACTACATCACACCGAAGATCGAGCCGTGGAACCTCGAGCGCATCGCCGTGCTTCGAGGCCCGGCGTCGTCGGTCTACGGCCAGACGCCACCCGGCGGCATGCTCGACATGGTCAGTCGTCGCCCGCAAGCCGAGAGCAGCAATGAAGTGGAGTTGCAGGCCGGCAGCCACGAGCACAAGCAGATCAACTTCGACAGCACCGGCAAGGTCGACGACGAAGGCCAGTTCCTCTACCGGCTCAGCGGTACCGTGCGCGACAGTAACTCCCAGATCGATCACATCCCGGACAAGCGCTACAACATCGCCCCGAGCCTGACCTGGAACATCAACGACGACACCCGCCTGACATTCCTGTCGCAATACACCCGCGATGACACCGGCATCACCGGGCAATTCCTGCCCCTGCAAGGCACCAAGCTGTCGTCGCCGGCGGGCAAGATTTCCCATCACAAGAACCTCGGTGATCCAGATTGGGAATTCTACGACCGCACCTACTACGCGCTCGGTTATGCCTTTGAACACCGCCTGAACGACACCTGGCAGTTCCGCCAGAACCTGCGCTACACCAAGAGCGACCTGGAAACCCAGGGCATCTCCGCCGGTGGCCAATTCTGGCCAGATGGCCCGGACCAATCGGTGGACGCCGACGGCAACGTCAAGCGCAGCGCCAGCGTGATCGACGAAGACATCAGCCAGTTCGCCGTGGACAACAACTTCCAGGCCGACTTCCAGACGGGTGATCTGAGCCACACCTTGTTACTGGGCCTGGATCACCAGCGCTCGAACAGCAATTCGCGTTGGGATTGGGGTTCGACTGGCGTGCCGACCAGCAATATCAACAACCCGACCTACGGACAGGATTTTTCCAACGTCCAGTACTTCACGATGTATGACTACAACCAGAAGACCAACCAGACCGGCCTGTACTTCCAGGACCAGATTGCCCTGGACAAGTGGCGCCTGACCCTTGGTGGTCGTGAAGACTGGATTCACACCGGCACCGTGTTCCACAACCAGAACAATGTCACCAACACCCAGCGCGACAAGAAATTCAGCGGCAACGCAGCGTTGAGCTACGTCTTCGATAACGGTGTGACGCCCTACGTTTCCTTCGCTCAGTCGTTCCAGGCGGCGGCGGGTTCAACCGTCAACAGCACCGAAGCCTTCAAGCCGACGGAAGGCGAACAGTACGAAGCGGGTATCAAGTACCAGCCACCCGGCACCAAGACCTTGTTAACGGCAGCGGTGTTCGACCTGACCCAGAAAAATAACTCCGTCACCGAAAACAACGTCACCCGCCAGGTCGGTGAGGTCCAGGTGCGCGGCCTTGAGCTGGAAGCCTCGGGCGACGTTACCGACAACCTGAAGCTGGTCGGTTCCTATACCTACAACGACAGCGAAATCACCAAGGGCACCGCGGCCGAAGAAGGCAAGCGCATGGCCCAGGTTCCGCGTAACCAGGCCACCGCATGGGCTGACTACACCTGGCACAACGGCTCGCTGGACGGGTTCGGCGTGGGTGCCGGCGTGCGTTATGTCGGCGACACCTACGGCAACACCACCAACACCGATTGGGGGCATGTCGGCTCCTATACGGTGTATGACGCCTCGGCCCATTACGACCTGGGCCGTTTGAACAAGACCCTCAAGGGCGTCACCGTGGCGGTGGACGCGAAAAACATCTTCAACAAGGAATACCTGTCCACCTGTGACGGCTTCTATTGCTACTACGGAGACCAACGCAACGTCGTCGCCAGCGTGAATTACAAATGGTAA	MSRPLDTLLRPSLLAVAIAFATPLASGPLLAAEQASNVRAYNLPAAPLASTLNQIASQAGLALSLNPALASGKTSAPVQGQFDATGALREALRGTGLQLEQSSAGTYSLVAVPEGVMVLPETSVIGAGVSETAWGPTEGYAVTRTAAGTKTDTPIVELPRSVSVVTRQQMDDRSVLNLNDALRYTAGVQSSGYGSDSRNDWLLVRGFVPTQFLDGLPLPKGNYITPKIEPWNLERIAVLRGPASSVYGQTPPGGMLDMVSRRPQAESSNEVELQAGSHEHKQINFDSTGKVDDEGQFLYRLSGTVRDSNSQIDHIPDKRYNIAPSLTWNINDDTRLTFLSQYTRDDTGITGQFLPLQGTKLSSPAGKISHHKNLGDPDWEFYDRTYYALGYAFEHRLNDTWQFRQNLRYTKSDLETQGISAGGQFWPDGPDQSVDADGNVKRSASVIDEDISQFAVDNNFQADFQTGDLSHTLLLGLDHQRSNSNSRWDWGSTGVPTSNINNPTYGQDFSNVQYFTMYDYNQKTNQTGLYFQDQIALDKWRLTLGGREDWIHTGTVFHNQNNVTNTQRDKKFSGNAALSYVFDNGVTPYVSFAQSFQAAAGSTVNSTEAFKPTEGEQYEAGIKYQPPGTKTLLTAAVFDLTQKNNSVTENNVTRQVGEVQVRGLELEASGDVTDNLKLVGSYTYNDSEITKGTAAEEGKRMAQVPRNQATAWADYTWHNGSLDGFGVGAGVRYVGDTYGNTTNTDWGHVGSYTVYDASAHYDLGRLNKTLKGVTVAVDAKNIFNKEYLSTCDGFYCYYGDQRNVVASVNYKW	PGPT0003790_9133	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
D1-35_03802	981	fecR_5	COG3712	Protein FecR	ATGACCATGGCCTCTTCCAAGCCAGTGTCGGCGCGGGTGTTGGACGCGGCCATCGCCTGGCAATTGTCCCTGGACTCAGGCAATGGCAGCCCTCAGGAGCGTGAAGCCTTCGCTCAATGGCACGCCGCCGATGAGGAGCATGCACGCGCCTGGCAACAGCTGGGCATGCTCGACCAGCGTTTCAGCGTCGCCAGCGGCCCGGCGCGTGCGGCGCTGCTGCAATCGCGGGTCAGCATCCGGCGGCGGGTACGCAAGATCGGCAGCGGCCTGGCCAGCGTCGTCGCGGTCATTGGCCTGGCGCTGTTCGCTGGCGAGCGTTACCTGCCGCTGGATTATTGGCTGGCCGACCAGCGCACCGCCACCGGTGAACAGCGCACGTTGCGCCTGGCCGACGGCACCCTGATCAACCTCAACACTCACAGCGCGTTGGATGTGCGTTTCGACGACAAGCAGCGGCGCGTCATCCTGCAGGAAGGCGAGATCCTGGTGGAAACCGGCCACAACGATCCGCGCCCGTTCATCGTCGAGACTCGCGAGGGCAGCATGCGCGCCCTGGGCACGCGCTTTCTGGTCAGGCTCGAAGACGAAGGTACACGCCTGAGCGTATTGAAATCCGCGGTGGCCGCGCATCCGCAAGCGACCGCCGAGGAGCAGATTCTGCGCGAAGGCCAGCAGGTGCTGATGCGCCGCGACGGCCTCGGTCCAACCTTGGCCCTGAGCCCCGGCGCCGATGCCTGGACTCGCGGCATGCTGGTGGTGGACAACGCGCGGCTCGAAGACCTGGTCCGTGAGTTGGCGCGCTATCGGCGCGGCTACCTCGGCGTCGAGCCCAAGGTGGCGGACCTGCGCATTACCGGCAGTTTCCCGCTGCATGACACCAACCTGGCGTTGACCGCTTTGCTGCCGACCTTGCCGGTGCAGGTCGAGCATCACACGCGTTGGTGGGTGGTGGTGGCGCCGCGGGTCGAGGCCAAGCGCTAG	MTMASSKPVSARVLDAAIAWQLSLDSGNGSPQEREAFAQWHAADEEHARAWQQLGMLDQRFSVASGPARAALLQSRVSIRRRVRKIGSGLASVVAVIGLALFAGERYLPLDYWLADQRTATGEQRTLRLADGTLINLNTHSALDVRFDDKQRRVILQEGEILVETGHNDPRPFIVETREGSMRALGTRFLVRLEDEGTRLSVLKSAVAAHPQATAEEQILREGQQVLMRRDGLGPTLALSPGADAWTRGMLVVDNARLEDLVRELARYRRGYLGVEPKVADLRITGSFPLHDTNLALTALLPTLPVQVEHHTRWWVVVAPRVEAKR	PGPT0003910_4479	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003910-prhR|fecR-K07165	NA	NA
D1-35_03803	384	fecI_7	COG1595	putative RNA polymerase sigma factor FecI	GTGCGGCTGCTGGGGCGTGACGGGTTGCAGCCACCGCGCGAGCCCCGGGCGTTTCTGCTGGCGATCGCCAAAGGCCTGCTGTTTGATTATTTCCGCAGGGCCGCGCTGGAGCAGGCTTACCTGACCGAACTGATGCTGATTCCCGAGGCTGAGCAACCTTCGATAGAAGAGCAGCAGATGATCCTCGAAGACCTCAGGAACATCGACCGTCTGCTTGGCAAACTGTCGAGCAAGGCGCGTGCGGCCTTCCTCTATAACCGCCTCGACGGCCTCGGCCATGCTGAAATCGCCGAGCGCCTGGGAGTTTCGGTGCCGCGGGTGCGCCAATACCTGGCCCAAGGCGTGCGGCAGTGCTACATCGCCCTTTACGGTGAGCCGACATGA	MRLLGRDGLQPPREPRAFLLAIAKGLLFDYFRRAALEQAYLTELMLIPEAEQPSIEEQQMILEDLRNIDRLLGKLSSKARAAFLYNRLDGLGHAEIAERLGVSVPRVRQYLAQGVRQCYIALYGEPT	PGPT0003900_412	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003900-prhI|fecI-K23514	NA	NA
D1-35_03804	708	polC_1	COG2176	DNA polymerase III PolC-type	GTGAGTCTGTTTTCCTGGTTGCGCCCGGTCCAGCCGATGCTCTCGGACGCATTGCAGCAGCGCCTGAACAATCTGCCCGCCGCCGCGCCATTGACGGAGCGCAGCCTGCGGGAGCAACGGTGGGTGGTGGTCGACCTGGAAACCACCGGCCTCAACCTGAACAAGGATCAGGTGCTGTCCATCGGTGCGGTCGTCATTGAAGACGGCGCCATCGACTTCAGCCAGCAGTTCGAGCGGACCTTGCAATGCGACAAGCAGAAGCTCGGGCCAAGCGTACTGATCCATGGCCTGGCACCCAGTGCCATCGCCGCCGGCAGCGACCCGGCCGAAGCGCTGGTGGCATTCATGGAGTTCGTCGGCGACAGCCCGTTGCTGGCGTTCCATGCGCCGTTCGATTCGCACATGCTCGGACGCGCCATGAAAGATCATCTGGGCTGCCGACTGCTGCATCCGTTCCTGGACGTGGCTGACCTGGCCCCGATGCTTTGCCCGCAAGCCAATCTGCGCAAGTCAGGCCTGGACGAGTGGATCGACTGGTTCAAGCTGCAAGTCTTCGAGCGCCACAACGCCAGCGCCGACGCCCTCGCCACTGCGGAACTGGCGCTGATCCTGTTCAGCCGCGCCCGCCAGCAGGACATCTACAACGCGCTCGACCTGCAACAGCGCCTGGGGCAGTGGAAACGGCGGCAGCAGGCGCCTTCGCTTTAA	MSLFSWLRPVQPMLSDALQQRLNNLPAAAPLTERSLREQRWVVVDLETTGLNLNKDQVLSIGAVVIEDGAIDFSQQFERTLQCDKQKLGPSVLIHGLAPSAIAAGSDPAEALVAFMEFVGDSPLLAFHAPFDSHMLGRAMKDHLGCRLLHPFLDVADLAPMLCPQANLRKSGLDEWIDWFKLQVFERHNASADALATAELALILFSRARQQDIYNALDLQQRLGQWKRRQQAPSL				NA	NA	NA	NA	NA
D1-35_03805	2013			hypothetical protein	ATGGGCACCCTGCGCTCAGGGGCCGACCATGGGGAACAGATCCGACCACAACAATTCGAAAAAGACTGCGTAATGGTTATGAAAAAAGCGGACGCCTTCATCCAGGCAGGGAAAACCGCGGTGTTGCAGAACATCCAGGGTACGTTGCAGTTTCTTCAGCGTTTCCCCCCGTTCAACCAGATGGAAAATGCCCACCTGGCCTACCTGGTCGAACAATGCCTGCTGCGTTTTTATGCCCCGGGCGAAACCATCATCAAGCCGGCCGACGGTCCGGTTGAGCACTTCTACATCGTCAAGCAAGGCCGGGTAGTGGGCGAGCGACCGCACTCGGCCAAGGGCGGCACCGAGACCACCTTCGAGATCACCACCGGCGAGTGCTTCCCCCTCGCGGCCCTGTTGGGTGAGCGAGCGACCCGCACCGAGCACCGGGCCGGCGAGGACACTTTCTGCCTGCAGTTGAACAAACTGGCCTTCATCAAGCTGTTCGCCCTGTCCGGCCCGTTTCGCGATTTCGCCTTGCGCGGGGTCAGCAGCCTGCTCGATCAGGTCAACCAGCAAGTGCAGCAGAAATCCGCGCAGACCCTGGGCACGCAATATTCCCTCAATACCCGCCTGGGCGAGCTGGCAATGCGTCACCCGGTCAGTTGCAGCCCCGAAACGCCGTTGCGCGAAGCCGTCAAGCTGATGCATGAGCAGCAAGTCGGCAGCATCGTGGTGGTGGACGAACACAAGGCGCCGGTCGGGATCTTCACCCTGCGCGATCTGCGTCAGGTCGTGGCCGACGGTACCGGGGATTTTTCCGGGGCGATCACCATGCACATGACCCAGGCACCGTTTTTCCTGTCGCCTGACCACAGCGCCTTCGATGCGGCCATCGCCATGACCGAGCGCCACATTGCCCACGTCTGCCTGGTCAAGGACCAGCGCTTGTGTGGCGTGGTCTCGGAGCGGGACCTGTTTTCCCTGCAGCGCGTCGACCTGGTGCACCTGGCCCGGACGATCCGCAACGCCCCCAGGATCGAGAACCTGGTGACCTTGCGCGGCGAGATCGGTCAACTGGTGGAACGCATGCTGGCCCATGGTGCGTCATCGACCCAGATCACCCACATCATCACCCTGCTCAACGACCACACCGTATGCCGGGTCATCGAGCTGACCCTCGCCGAGAAGGGCGACCCGGGCGTTGCGTTCAGCTGGCTGTGCTTTGGCAGCGAAGGCCGCCGCGAGCAGACCCTGCACACCGACCAGGACAACGGCATCCTGTTCGAAGCCCGGGACGCTGCCCATGCGGCGCAGATCCGTGGCCTGCTGCTGCCCATCGCCCAGCAGATCAACCAGAGCCTGGCCTTGTGCGGCTTCACGTTGTGCAAGGGCAACATCATGGCCGGCAACCCCGAGTTGTGCCTGTCCCGCGCCGAATGGGCACGCCGCTTCGCGGCCTTTGTCCGTGAGGCCACCCCGGAGAACCTGCTGGGTTCGAGCATCTATTTCGATTTGCGGGTGGTGTGGGGCGACGAGCAAGGCTGCGAGCAGTTGCGCCGGCAGATCCTCGATCAGGTGGCCGACAATCGCCTGTTCCAACGCATGCTGGCCGAGAACGCGCTTCGCCATCGCCCGCCCGTTGGCCGCTTCAGGGATTTTGTGTTGAGCCGCAAGAACGGCGAGAAGGCGACGCTCGACCTCAAAGTACAAGGCCTGACCCCGTTCGTCGACGGCGCCCGCCTGCTCGCGCTGGCCAACGGCATCGAGGCCAACAATACTCTGGAGCGCTTGCGGCAACTGGTCGTCAAGGAGGTGATCGAGCCGCTGGACGGCGCGGCTTATGAAGAGGCCTATCACTTCATCCAGCAGACACGCATGCAACAGCATCAACTGCAAACGCGGGAGAACCAGCCCTATTCCAACCGCGTCGACCCGGACAGCCTCAACCACTTGGACCGGCGCATCCTGCGTGAATCCCTGCGCCAGGCCCAACGCCTGCAGAGCAGCCTGACCGTGAGGTACCAGCTGTGA	MGTLRSGADHGEQIRPQQFEKDCVMVMKKADAFIQAGKTAVLQNIQGTLQFLQRFPPFNQMENAHLAYLVEQCLLRFYAPGETIIKPADGPVEHFYIVKQGRVVGERPHSAKGGTETTFEITTGECFPLAALLGERATRTEHRAGEDTFCLQLNKLAFIKLFALSGPFRDFALRGVSSLLDQVNQQVQQKSAQTLGTQYSLNTRLGELAMRHPVSCSPETPLREAVKLMHEQQVGSIVVVDEHKAPVGIFTLRDLRQVVADGTGDFSGAITMHMTQAPFFLSPDHSAFDAAIAMTERHIAHVCLVKDQRLCGVVSERDLFSLQRVDLVHLARTIRNAPRIENLVTLRGEIGQLVERMLAHGASSTQITHIITLLNDHTVCRVIELTLAEKGDPGVAFSWLCFGSEGRREQTLHTDQDNGILFEARDAAHAAQIRGLLLPIAQQINQSLALCGFTLCKGNIMAGNPELCLSRAEWARRFAAFVREATPENLLGSSIYFDLRVVWGDEQGCEQLRRQILDQVADNRLFQRMLAENALRHRPPVGRFRDFVLSRKNGEKATLDLKVQGLTPFVDGARLLALANGIEANNTLERLRQLVVKEVIEPLDGAAYEEAYHFIQQTRMQQHQLQTRENQPYSNRVDPDSLNHLDRRILRESLRQAQRLQSSLTVRYQL				NA	NA	NA	NA	NA
D1-35_03806	447	atoC_3	COG2204	Regulatory protein AtoC	ATGTCCGACCACGATATTTTGAGTGACGCCGAGCGCGAGGCGCTGAGTGCCGTCATGCTGGAACCCGACCTGCCGCCGCAGCGAGTCCTGATAGTCGATGACGACAAGGACGCCCGTGAGCTGCTGTCGGAAATCCTGGCATTGGACGGCATACGCTGCATGACCGCCGCCAGTGGTGAAACCGCACTCAGGATGCTGGAAACCAAGCCCGCCATCGGCCTGCTGATCACCGACCTGCGCATGGGCAATGTCGATGGCCTGGAGCTGGTGCGCCTGGTACGCGAGTCGGAGCGGGCGGCGCTGCCGATCATCATTGTGTCGGGCGATGCCGACGTGAAGGACGCCATCGAGGCGATGCATCTCAGTGTGGTGGATTTCCTGTTAAAGCCGATCGACACCGACAAGCTGCTGGGGCTGGTCAAGCATGAGCTGGGGATGGATCTCTGA	MSDHDILSDAEREALSAVMLEPDLPPQRVLIVDDDKDARELLSEILALDGIRCMTAASGETALRMLETKPAIGLLITDLRMGNVDGLELVRLVRESERAALPIIIVSGDADVKDAIEAMHLSVVDFLLKPIDTDKLLGLVKHELGMDL	PGPT0015690_1832	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015690-cheY|yneI-K03413	NA	NA
D1-35_03807	606	leuD	COG0066	3-isopropylmalate dehydratase small subunit	ATGCAACCCTTTGACACCGTAACCGGCATCGCCGCCCCGCTGCTGGCCGCCAACATCGACACCGACGTCATCATGCCCAAGCAGTTCCTCAAGGGCATTGACCGCCAGGGGCTGGACCGGGGCCTGTTCTTTGACCTGAGATGGCGCGAGCCCGGCGTTGCCAATCCGGATTTCGTGCTCAATCAACCTGGCTGGCGCGATGCGACGTTCCTGGTGGTGGGCGAAAACTTCGGCTGTGGCTCAAGCCGTGAGCATGCGGTCTGGGGCTTGAAGCAGGTAGGGATCAGGGCGCTGATCGGTACGAGTTTCGCCGGGATCTTCTACGACAATTGCCAGCGAAACGGGGTGCTGCTGCTTGAGCTTGCCGAGGTCCAGTGGAAAAAAATTGCCGAACTCGCTGGCCGTGCGGATACGGCCGCTATCAGCGTCAACCTTCCCGAGCAGCGCATTGAGCTGGCGGACGGCAGCGTTTTGGCGTTCGAGATTGACGGACTGCGCAAGGAGTCGTTGCTGCTGGGGTTGGACGCCATTGGCGCAACGCTCCAGCGTGCCGAGCAGATTCGCCGGTTCGAGCGTCGGCATCTGGCGGAGAATCCTTGGTTGTAG	MQPFDTVTGIAAPLLAANIDTDVIMPKQFLKGIDRQGLDRGLFFDLRWREPGVANPDFVLNQPGWRDATFLVVGENFGCGSSREHAVWGLKQVGIRALIGTSFAGIFYDNCQRNGVLLLELAEVQWKKIAELAGRADTAAISVNLPEQRIELADGSVLAFEIDGLRKESLLLGLDAIGATLQRAEQIRRFERRHLAENPWL	PGPT0001443_1750	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001443-leuD-K01704	NA	NA
D1-35_03808	1422	leuC_2	COG0065	3-isopropylmalate dehydratase large subunit	ATGAATAGCCCGAGAACGCTTTATCAGAAACATATCGACAGCCATACCGTTTGCCCGCTGGATGATCAGGGCCACGTGCTGCTGTACATCGACCGTCAGGTCGCCAACGAATACACCAGCCCGCAAGCGTTCAGCGGCCTGCGCGAAGCCCACCGCAGCGTCTGGCGCCCCAGCGCAACCCTCGCGGTGGTTGACCACGTCAACCCGACCACGCCCGAGCGTATCGCGGCCATGCCGGATGCGGGCGGCGCCCGGCAGGTGTCCTACTTCGCCGAAAACTGCCGAGACTTCGGCATCGAACTGTTGGATGTGCTCGACAAGCGCCAGGGCATCGAGCACGTCGTCGCTCCCGAGCAAGGCTTCATCCTGCCGGGCATGGTCATCGCCGCCGGCGACAGCCATACCACCACCTACGGTGCGCTCGGGGCGTTCGGTTTCGGCATCGGCACTTCTGAAATCGAACATTTGCTGGCCACCCAGACGCTGGTCTACAGGCGTCTGAAAACCCTGCGCGTCACGGTCGATGGCGCCCTCGGCGCGGGCGTCACCGCCAAGGACGTCATCATGGCGCTGATCGAAAAAATCGGCGCCTCGGGCGCTACGGGCTACGCAATTGAATTCACCGGCCCGGTCATCAGCGCACTGAGCGTCGAAGCGCGGATGACCATCTGCAACATGGCCGTGGAAGCGGGTGCGAGAGGCGCCTTCATGGCCCCGGATGACAAGGTCTTTACCTACCTGCAAAGCAAACCCCGTGCGCCTCGGGGCGAGCTGTGGGAACAGGCCGTGGCCAAGTGGCAAGACCTGCGCAGCGATGAGGATGCGGTATTCGATCGGGAAGTGAGCCTCGATGTCGCTGCGCTGGAGCCGATGGTGACCTGGGGCACCAGCCCCGACCAGGCAGCGCCGATTGGCGGCCAGGTACCGGATCCGGCGGCGCAGCCCGACCCGATCCTGCGCCAGGGCCTGCAGCGGGCGCTGGACTACATGGGGCTGACGCCAGGGATGCCCCTTGGCGAAGTGCAGATCAGCCATGCCTTCATCGGCTCCTGCACCAATGCGCGCATCGAAGACCTGCGCGACGCGGCACGGGTCGTTCGCGGCAAGCGGGTCGCGGCCCATGTTCGGGCGATGATCGTGCCCGGCTCCACCGCGGTGCGCGACCAGGCCGAAGAGGAAGGACTGGCTGCGATCTTCCGCGACGCGGGTTTCGAATGGCGCCAGTCCGGCTGCTCGATGTGCCTGGCGATGAACGACGACGTGCTTGCGCCAGGTGATCGCTGCGCATCCAGCACCAATCGCAATTTCGAAGGACGCCAGGGCGCGGGCGCGCGCACTCACCTGATGAGTCCGGCCATGGTGGCCGCCGCCGCGATAACCGGTCACCTGACTGACGTTCGCTCACTGCTCCCGGAGGCCTGA	MNSPRTLYQKHIDSHTVCPLDDQGHVLLYIDRQVANEYTSPQAFSGLREAHRSVWRPSATLAVVDHVNPTTPERIAAMPDAGGARQVSYFAENCRDFGIELLDVLDKRQGIEHVVAPEQGFILPGMVIAAGDSHTTTYGALGAFGFGIGTSEIEHLLATQTLVYRRLKTLRVTVDGALGAGVTAKDVIMALIEKIGASGATGYAIEFTGPVISALSVEARMTICNMAVEAGARGAFMAPDDKVFTYLQSKPRAPRGELWEQAVAKWQDLRSDEDAVFDREVSLDVAALEPMVTWGTSPDQAAPIGGQVPDPAAQPDPILRQGLQRALDYMGLTPGMPLGEVQISHAFIGSCTNARIEDLRDAARVVRGKRVAAHVRAMIVPGSTAVRDQAEEEGLAAIFRDAGFEWRQSGCSMCLAMNDDVLAPGDRCASSTNRNFEGRQGAGARTHLMSPAMVAAAAITGHLTDVRSLLPEA	PGPT0001442_1435	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001442-leuC-K01703	NA	NA
D1-35_03809	1137	xylH	COG4214	Xylose transport system permease protein XylH	ATGAATCAGGTCAAACAAGTGTTCACCCGCTACAAAATGCTCGCCCTGGTGATTGCCGTGGCAGTCATCTGGCTGTTCTTCAGCTGGCAGACCGAGGGCGGATTCCTGACTCCGCGCAACCTCTCCAACCTGCTGCGGCAGATGTCCATCACCGGAATCCTGGCCTGCGGCATGGTGCTGGTGATCATCAGCGGTGAGATCGACCTGTCGGTGGGTTCGCTGCTGGGCTTGCTCGGCGGGCTCGCGGCGATTCTCGATGTGGTCTATCACATTCCGCTACTGGCGAACCTGAGCCTGGTCGCCCTGTGCGGGCTGGTCATCGGCCTCGCCAACGGCTACATGACCGCCTACCTGCGCATCCCCTCGTTCATCGTCGGCTTGGGCGGCATGCTGGCGTTTCGCGGAATTCTGCTGGGCATCACCGGCGGCACCACGATCGCCCCGGTATCGCCGGAGCTGGTTTATGTCGGCCAGGGTTATCTGCCCCATGCGGTCGGCACGGGCCTTGGCGTGGTGCTGTTTGCCCTGACGTTGTTCCTGACCTGGAGACAACGCCGCAATCGCGCCTTGCACGGCCTGGCCGCCCATTCATTGGTGCGCGACGTGGTGCGGGTGGTGCTGATCGGCGCAGTGCTCGCCGGCTTCGTCTACACGCTGAACAGCTACGACGGAATTCCGGTTCCGGTGCTGCTGCTGTTGGTCCTGCTGGGGGTGTTCAGCTACGTGACCAGCCAGACCGTGTTCGGCCGGCGTGTCTATTCCGTGGGCAGCAACATGGAAGCCACCCGCCTGTCCGGCATCAACGTGCAAGCGGTGAAACTCTGGATCTTCGGCATCATGGGCGTGATGTGCGCCCTCGCCGGCATGGTCAACACCGCGCGCCTGGCGGCCGGCTCCCCCTCGGCCGGCAACATGGGCGAACTGGACGCCATCGCTGCCTGTTTCATCGGCGGCACCTCCATGCGCGGCGGCTCCGGGACGGTCTACGGTGCGCTGCTCGGCGCGCTGGTCATCACCAGCCTGGACAACGGCATGTCGATGCTCGACGTCGACAGCTACTGGCAGATGATTGTCAAAGGCAGCATTCTGGTCCTGGCCGTCTGGGTAGACGTCAGCACCCGAACTGGACGGCGTTGA	MNQVKQVFTRYKMLALVIAVAVIWLFFSWQTEGGFLTPRNLSNLLRQMSITGILACGMVLVIISGEIDLSVGSLLGLLGGLAAILDVVYHIPLLANLSLVALCGLVIGLANGYMTAYLRIPSFIVGLGGMLAFRGILLGITGGTTIAPVSPELVYVGQGYLPHAVGTGLGVVLFALTLFLTWRQRRNRALHGLAAHSLVRDVVRVVLIGAVLAGFVYTLNSYDGIPVPVLLLLVLLGVFSYVTSQTVFGRRVYSVGSNMEATRLSGINVQAVKLWIFGIMGVMCALAGMVNTARLAAGSPSAGNMGELDAIAACFIGGTSMRGGSGTVYGALLGALVITSLDNGMSMLDVDSYWQMIVKGSILVLAVWVDVSTRTGRR	PGPT0016655_1003	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_XYLOSE_TRANSPORT_I,PGPT0016655-xylH-K10544	NA	NA
D1-35_03810	1557	xylG	COG1129	Xylose import ATP-binding protein XylG	ATGTCCGAATACCTGTTGCAAATGAACGGCATCGTCAAGACCTTTGGCGGTGTCAAAGCCCTCAACGGCATCGACATCAAGGTCCGGCCCGGGGAATGTGTCGGCCTGTGCGGTGAAAACGGCGCGGGCAAATCCACGTTGATGAAAGTCCTCTCGGCGGTCTACCCCTATGGCACCTGGGAGGGCGAAATCCTCTGGGACGGCCAGCCGCTGAAAGCCCAATCGATCAGCGAAACCGAGGCCGCCGGGATCGTCATCATCCATCAGGAACTGACGCTGGTCCCCGACCTGTCAGTGGCCGAAAATATCTTCATGGGCCACGAGCTGACCCTGCCCGGCGGGCGCATGAACTATCCGGCGATGATCCATCGCGCCGAAGCCCTGATGCGTGAGCTCAAAGTGCCGGACATGAACGTCTCGCTGCCGGTCTCGCAGTACGGCGGTGGCTACCAGCAACTGGTCGAGATCGCCAAGGCGCTGAACAAACAGGCGCGCCTGCTGATCCTCGACGAGCCCTCCTCGGCCCTGACCCGTTCGGAAATCGAGGTGCTGCTGGACATCATCCGCGACCTCAAGGCCAAGGGCGTGGCCTGCGTGTATATCTCCCACAAGCTCGATGAAGTGGCGGCGGTGTGCGACACCATTTCCGTCATCCGCGATGGCAAACACATCGCGACCACCGCCATGGCCGACATGGATATCCCGAAAATCATCACCCAGATGGTCGGACGGGAAATGAGCAACCTCTACCCCACCGAACCCCACGAGATCGGCGAGGTGATTTTCGAGGCGCGCCACATCACCTGCTACGACGTCGACAACCCCAGGCGCAAACGGGTCGACGATATTTCGTTTGCGCTCAAGCGCGGGGAAATCCTCGGCATCGCCGGGCTGGTGGGCGCCGGTCGCACGGAACTGGTGTCGGCCCTGTTCGGCGCCTACCCCGGACGCCATGAAGGTGAGGTCTGGCTGGACGGCCAGCGGATCGACAGCAGCACACCGCTCAAATCGATCCGCGCCGGCCTGTGCATGGTCCCCGAAGACCGCAAGCGCCAAGGCATCATCCCGGACCTGGGTGTCGGCCAGAACATTACCCTGGCGGTGCTGGAGAACTTCTCGAAGATGACCCGGATCGATGCCGAGGCCGAACTGGGCAGCATCGACCGGGAGATCTCGCGCATGCACCTGAAGACCGCAAGCCCGTTCCTGCCGATCACCAGCCTGTCCGGCGGCAACCAGCAGAAAGCCGTGTTGGCGAAGATGCTCCTGACCAAGCCCCGGGTGTTGATTCTCGACGAGCCCACCCGAGGCGTGGATGTGGGTGCCAAGTACGAGATCTACAAGCTGATGGGCGCGCTGGCGGCCGAAGGCGTGTCGATCATCATGGTGTCCTCGGAGCTGGCCGAAGTGCTCGGGGTGTCCGACCGCGTGCTGGTGATTGGCGACGGCCAGTTGCGCGGCGATTTCGTCAATTGTGAACTGACCCAGGAGCAGGTGCTTGCGGCCGCGCTCAGCCATCCCGAAGCCCCTGACAACAATGATCGGAAATCCGCGTAG	MSEYLLQMNGIVKTFGGVKALNGIDIKVRPGECVGLCGENGAGKSTLMKVLSAVYPYGTWEGEILWDGQPLKAQSISETEAAGIVIIHQELTLVPDLSVAENIFMGHELTLPGGRMNYPAMIHRAEALMRELKVPDMNVSLPVSQYGGGYQQLVEIAKALNKQARLLILDEPSSALTRSEIEVLLDIIRDLKAKGVACVYISHKLDEVAAVCDTISVIRDGKHIATTAMADMDIPKIITQMVGREMSNLYPTEPHEIGEVIFEARHITCYDVDNPRRKRVDDISFALKRGEILGIAGLVGAGRTELVSALFGAYPGRHEGEVWLDGQRIDSSTPLKSIRAGLCMVPEDRKRQGIIPDLGVGQNITLAVLENFSKMTRIDAEAELGSIDREISRMHLKTASPFLPITSLSGGNQQKAVLAKMLLTKPRVLILDEPTRGVDVGAKYEIYKLMGALAAEGVSIIMVSSELAEVLGVSDRVLVIGDGQLRGDFVNCELTQEQVLAAALSHPEAPDNNDRKSA	PGPT0016660_84	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_XYLOSE_TRANSPORT_I,PGPT0016660-xylG-K10545	NA	NA
D1-35_03811	1002	xylF	COG4213	D-xylose-binding periplasmic protein	ATGAAAACCTTCAAACGTACCTTGCTCGCCGGCGCCCTCGCCCTGCTGTCGCTTCCGGCCATGGCCGACGCGACCCACCCGAAAATCGGTTTTTCCATTGACGACCTGCGCCTGGAGCGCTGGTCGCGCGACCGTGACTACTTTGTCGCGGCGGCGGAAAAACTCGACGCCAAGGTCTACGTGCAATCGGCGGACGCCAACGAGCAGAAGCAGATTTCCCAGATCGAAAACCTCATTTCCCGGGGCGTCGATGTGATCGTCATCGTGCCATTCAACGCTACCGTGCTGACCAACGCCGTCGCCGAAGCCAAGAAGGCCGGGATCAAGGTGGTGTCCTATGACCGGCTGATCCTCAACGCCGACATCGACGCCTACATTTCCTTCGATAACGAAAAAGTCGGCGAGATGCAGGCCGGCGGTGTCCTGAAGGCAGCGCCGAAGGGTAACTACTTCCTGCTGGGCGGCGCCCCTACGGACAACAACGCCAAGATTCTGCGCGAAGGCCAGATGAAGGTGCTGCAACCGGCCATCGACAAGGGCGACATCAAGATTGTCGGCCAGCAATGGGTGAAGGAATGGAACCCCACCGAAGCCCTGAGCATCGTTGAAAACGCCCTGACCCGGAACAACAACAAGATCGATGGCATCGTCGCCTCCAACGACGCCACCGCCGGCGGCGCCATCCAGGCCCTGGCCGCGCAGAAGCTGGCCGGCAAGGTACCGATCTCGGGCCAGGACGCCGACCTGGCGGCGGTCAAGCGCGTGATCGACGGCACGCAGACCATGACGGTCTACAAGCCGCTGAAACTGATCGCCTCCGAAGCCGCCAAGCTCTCGGTGCAATTGGCGCGCAACGAGAAGCCCACCTACAGCTCGCAGTACGACAACGGCAACAAGAAGGTCGACACCATCCTGCTCACGCCCACCGCACTGACCAAGGACAACATCGACCTGCTGGAAAAGGACGGGTTCTACACCAAGGCGCAGATTGCCGGGCAGTGA	MKTFKRTLLAGALALLSLPAMADATHPKIGFSIDDLRLERWSRDRDYFVAAAEKLDAKVYVQSADANEQKQISQIENLISRGVDVIVIVPFNATVLTNAVAEAKKAGIKVVSYDRLILNADIDAYISFDNEKVGEMQAGGVLKAAPKGNYFLLGGAPTDNNAKILREGQMKVLQPAIDKGDIKIVGQQWVKEWNPTEALSIVENALTRNNNKIDGIVASNDATAGGAIQALAAQKLAGKVPISGQDADLAAVKRVIDGTQTMTVYKPLKLIASEAAKLSVQLARNEKPTYSSQYDNGNKKVDTILLTPTALTKDNIDLLEKDGFYTKAQIAGQ	PGPT0016650_1030	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_XYLOSE_TRANSPORT_I,PGPT0016650-xylF-K10543	NA	NA
D1-35_03812	1317	xylA	COG2115	Xylose isomerase	ATGTCGTACTTCCCCGATGTCGAGCCGATTTGTTATGAAGGCCCCGGCAGCGACTCGCCGCTCGCCTTCCGCCATTACGACGCCAACAAGCTGGTGCTCGGCAAACCCATGCGCGAGCACCTGCGCATGGCCGTCTGCTACTGGCATACGTTTGTCTGGCCAGGGTCCGATGTGTTCGGCGCCGGGACCTTCAAGCGCCCGTGGCAGCACGCCGGCGATCCGCTGGAATTGGCGATCGGCAAGGCCGAGGCGGCGTTCGAGTTTTTCTCCAAGCTGGGCATCGACTACTACTGCTTCCATGACACCGACGTCGCGCCGGAAGGACAATCGCTGAAGGAATACCGCAACAACTTCGCGCAGATGGTCGATCACCTTGAGCGCCATCAGGAACAAAGCGGAATCAAGCTGTTGTGGGGCACCGCCAATTGCTTCAGCAACCCGCGTTTTGCCGCAGGCGCCGCCAGCAACCCGGACCCACAGGTCTTCGCCTGCGCCGCCGCCCAGGTGTTCAGCGCCATGAACGCCACTCAGCGTTTGAAGGGCTCCAACTACGTATTGTGGGGCGGCCGTGAAGGCTATGAAACCCTGCTCAATACCGACCTTGCGCGCGAACGCGAACAGTTGGGCCGCTTCATGCGCATGGTGGTCGAGCACAAGCACAAGATCGGCTTCAAGGGCGACCTGCTGATCGAGCCCAAGCCCCAGGAGCCGACCAAGCACCAATACGATTACGACAGCGCCACCGTGTTCGGCTTCCTGCAACAGTTCGGCCTGGAGAACGAAATCAAGGTCAACATCGAGGCCAACCACGCGACCCTGGCCGGGCACAGTTTCCATCATGAAATCGCCACGGCGGTCTCCCTGGGAATCTTCGGCAGCATCGATGCCAACCGTGGCGATCCGCAGAACGGCTGGGACACCGACCAGTTTCCCAACAGCGTCGAGGAAATGACCCTCGCCACCTATGAAATCCTCAAGGCCGGGGGCTTCGGCAACGGAGGGTTCAACTTCGACTCCAAAGTCCGCCGCCAGAGCGTCGACGACGTCGATCTGTTCCACGGTCATGTTGCCGCCATGGACGTGCTCGCCCTGTCCCTGGAGCGCGCGGCGGCCATGGTGCAGAACGATCAACTGCAGAAATTCAAGGACCAGCGCTACGCCGGCTGGCAACAGCCGTTCGGCAAGGCGGTTCTGGCGGGGGACTTCAGTCTCGAATCACTGGCCGAGCATGCATTCACCAACGAGCTGAATCCGCAGGCCGTCAGCGGTCGGCAGGAGATGCTCGAAAACGTCGTCAACCGGTTCATCTACCCCTGA	MSYFPDVEPICYEGPGSDSPLAFRHYDANKLVLGKPMREHLRMAVCYWHTFVWPGSDVFGAGTFKRPWQHAGDPLELAIGKAEAAFEFFSKLGIDYYCFHDTDVAPEGQSLKEYRNNFAQMVDHLERHQEQSGIKLLWGTANCFSNPRFAAGAASNPDPQVFACAAAQVFSAMNATQRLKGSNYVLWGGREGYETLLNTDLAREREQLGRFMRMVVEHKHKIGFKGDLLIEPKPQEPTKHQYDYDSATVFGFLQQFGLENEIKVNIEANHATLAGHSFHHEIATAVSLGIFGSIDANRGDPQNGWDTDQFPNSVEEMTLATYEILKAGGFGNGGFNFDSKVRRQSVDDVDLFHGHVAAMDVLALSLERAAAMVQNDQLQKFKDQRYAGWQQPFGKAVLAGDFSLESLAEHAFTNELNPQAVSGRQEMLENVVNRFIYP	PGPT0017550_1136	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017550-xylA-K01805	NA	NA
D1-35_03813	1176	xylR		Xylose operon regulatory protein	ATGAAAATCGTCCCGCCCGTTCACCGCATCGCCCTGCTGTTCAACGGCAGCAAGATCTACGACCGCGGCATCATCAGCGGCATCGGCAACTACCTGAGCAGCACGCGCGCGTCCTGGGACCTGTTTCTCGAGGAAGATTTTCACTGCCGGTTGAAAGGGATCGAGCGCTGGCAGGGCGATGGAATCATCGCCGACTTCGATGACCCGCTGATCGGCGAGGCGCTGGCCGGGATCAAGCTGCCCGTGGTGGCGGTGGGGGGCTCGTATCAGGACGAGCGCGCCTATCCGAAGGGCATTCCATATGTCGCTACGGATAATCACGCGCTGATCAAGCTGGCCTACGCGCATCTGATCGAAGCCGGGTTGACACAATTCGCCTGTTTCAGCCTGCCCGAAGCCCAGGCCAATCGCTGGGCCCAGGAACGGGAAAAGGCCTTTCGCCAGTTGATGCAGCGCGATGGCCTGCCGGCGCAGGTGTACCGGGGCATGGGCACCAGCGCGCCGCTTTGGGACAGCGCGGTCGAGCAGCAGATCGCCTGGCTGCAGAGCCTGCCCAAACCCATCGGCATCATCGCGGTCAGCGACGCGCGGGCCCGGCAGTTGTTGCAAGCTTGCCTGACAGCCGGGATCGCCGTGCCGGAGCAAGTCGCGTTGATCGGCATCGACAACGACCCGCTGACCCGCAGCCTGACCCGGGTGCCGCTCAGTTCGGTGGTGCAGGGCACCGAAACCATGGGCCGGACCGCCGCGCGCCTGCTTCACCAGATGCTGCACGGCATGCCTGCCACCGGCACCCAGGTGTTGATCCCGCCCGAGGCGATCAACGTGCAAGCGTCGAGCCTGCACCAGCCACTGGGCAATCCTTACGTCATGCAGGCTTTGTTGTTCATTCGCCAATACGCCTGCCAGGGCATCAAGACCGCGCAAGTGGCGGCGTATGTCGGCGTGTCGCGTTCATCCCTGGAGTCGCATTTTCGCAAGGAGCGTGGTTGCAGTGTTCACGACGAGATCCTGCGCTTCAAGCTGGCGGCGGCGGCCAGCGGGTTGGAGAACACCGAGCTGGCGATTGCCGATATCGCCCGTGATTGCGGTTTCAAGTCGGCGCAGTACCTGCACACGGTGTTTCGCCGCGAATTCGGCTGTACGCCTAGGGGATTTCGCCAATCAGTCGGATAG	MKIVPPVHRIALLFNGSKIYDRGIISGIGNYLSSTRASWDLFLEEDFHCRLKGIERWQGDGIIADFDDPLIGEALAGIKLPVVAVGGSYQDERAYPKGIPYVATDNHALIKLAYAHLIEAGLTQFACFSLPEAQANRWAQEREKAFRQLMQRDGLPAQVYRGMGTSAPLWDSAVEQQIAWLQSLPKPIGIIAVSDARARQLLQACLTAGIAVPEQVALIGIDNDPLTRSLTRVPLSSVVQGTETMGRTAARLLHQMLHGMPATGTQVLIPPEAINVQASSLHQPLGNPYVMQALLFIRQYACQGIKTAQVAAYVGVSRSSLESHFRKERGCSVHDEILRFKLAAAASGLENTELAIADIARDCGFKSAQYLHTVFRREFGCTPRGFRQSVG	PGPT0017992_210	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
D1-35_03814	243			hypothetical protein	ATGAGAACGTTTGACTTGATTCGCGACGCGGTACTGCCCGACTTCCGTGAGCGGGTGGCTGAGTACCTGGTCCAGTACGAAAGCGTGCTGTTGAGCAATGCCGACATCGCCCCCCAGCTCAAGCGCGACACGGCCAATCAACTGCGCGGTTATCTGCGGGGGTTGAACACTACCCGGGTGTTGGGCATGGCAGACTGGGAGGAACTGGATCGGCGGGTGATGAGTACCTGGCTATCCGACTGA	MRTFDLIRDAVLPDFRERVAEYLVQYESVLLSNADIAPQLKRDTANQLRGYLRGLNTTRVLGMADWEELDRRVMSTWLSD				NA	NA	NA	NA	NA
D1-35_03815	342			hypothetical protein	ATGCGCCCTTTATTTCTACTGTCCCTGGCGTTTTCCCCGCTGTTATTGGCGGGATGTGCCTCGGCACCGAACGATCCGACCCTGACCTTGCAGACCAGCAAGACCCCGGCCGAATACGCTGAATGCGTCGTGCCGAAGTTGCAAGGCAGCGCTTTGCACCCGATGGTCTCGCAGAGCCAGCGCAGCTACCGCATCGTCGTGCCGAGCAAGATTTCGGCGGACAACGTGCTGGAAGCCTACAAGGCCGGCAGTGGCGGCAAGGTGTTTGTCTACGAGCGCCACCTGCTGGCGTCCAATCTCCTGCCTTCGAGTTTCGAGCGCGCCGCACAGGAATGCATCTGA	MRPLFLLSLAFSPLLLAGCASAPNDPTLTLQTSKTPAEYAECVVPKLQGSALHPMVSQSQRSYRIVVPSKISADNVLEAYKAGSGGKVFVYERHLLASNLLPSSFERAAQECI				NA	NA	NA	NA	NA
D1-35_03816	378			hypothetical protein	ATGACCATGCTCCCAGCGTACTCCGCGCCATTCGCCCTGGCGCTTGCAGCCTTTTGCGCACCGGCGCAGGCCGCGACGTGGCAGATCTGCGATATCCAGCTGCACGTCACCGAAGTGGTGAAACGGCCCACGCCGAAGCTCCAGGCCCAAGTCCTGAAGGCGCGCCCGGCCTCGCCCAGTGTGGAATGCCCGGAAGAGGGCGCGATGATCAGCTTCATTCCGGAAACCGCCGACTACCAGGCCACGCTGCCACGCCGCAAATGGCCCGGGAAAGGCCAGGCGATCCGGATCAAGTACCGCTATCTGGATGGAATCTGCAAGGGCGACGGCAACGACTATCCTTGCCGTATCGAGCATTATCCGTTTGTAGCTCGATGA	MTMLPAYSAPFALALAAFCAPAQAATWQICDIQLHVTEVVKRPTPKLQAQVLKARPASPSVECPEEGAMISFIPETADYQATLPRRKWPGKGQAIRIKYRYLDGICKGDGNDYPCRIEHYPFVAR				NA	NA	NA	NA	NA
D1-35_03817	513			hypothetical protein	GTGGACAAGGAAGCCATCAGGATTCGTACCCTGCAAGTCGCCGATGCCGAGTCATTGCTGGCGTTTGAAATGGATAATCGCGAGTGGTTCGAGCAGCACATCGATGCGCGCGCGCCGGCGTTTTATTCGTTGCAGGGGGTCAGCGAGCACATCGGCGATTACCAGTCCGGCTTCGCCGCCGGGACCTGGCACCCATTTGTCATCGAGGACGCCGGCGGAATGATCATCGGACGAGCGAACCTCAAGGACATCGACACCAGCGAGCGAACGGCGCAGGTCGGCTATCGAATCGCCCAACACGCTTGTGGCAAGGGACTGGCGACGCTGGCAGTGAAGCACTTGATCGAGCAGGCCCGGTCACACTGGCGACTCGAACGGTTGCTCGCCGAAGTCTATGTACAAAATGCCGGCTCGGTGAAAGTGCTTGATCGTTGTGGTTTTCTGGTGGAGCCTACGCCACCAGAAGCCACCGAGCAGCATCATTGGTATTCGCTTTCAATCCAGCCCCGGTAG	MDKEAIRIRTLQVADAESLLAFEMDNREWFEQHIDARAPAFYSLQGVSEHIGDYQSGFAAGTWHPFVIEDAGGMIIGRANLKDIDTSERTAQVGYRIAQHACGKGLATLAVKHLIEQARSHWRLERLLAEVYVQNAGSVKVLDRCGFLVEPTPPEATEQHHWYSLSIQPR				NA	NA	NA	NA	NA
D1-35_03818	1650	mqo_2	COG0579	Malate:quinone oxidoreductase	ATGAACAGAATCATTATCGCGGTCCTGCTGGGCGCTGCGCTCTTATCAGGCGTCAACGGGGCCCGGGCGGCGGAAACGAAGAAGGTCGACGTGCTGCTGGTAGGCGGCGGCATCATGAGTTCGACGCTGGGCATCTGGCTCAACGAGCTTGAGCCTGGCTGGTCGATGGAAATGGTCGAACGCCTGGATGCGGTAGCCGAAGAAAGCTCCAACGGCTGGAACAACGCCGGCACCGGGCATTCGGCACTGGCGGAGCTCAATTACACGCCGATGGATGACCAGGGCAACGTCAACATTTCCAAGGCCATCGAGATCAACGAAGCCTTCCAGATCACCCGCCAGTTCCTGGCCTGGCAGGTGCGCAACAACGTGTTGAAGAATCCGCCTTCATTCATCAATTCCACCCCGCACATGAGTTTTGTCTGGGGTGACGACAACATCAAATTCCTGAAAAAACGCTACGAGGCGCTGCAAGCGAGCCCGCTATTCCGGCCGATGCAATATTCAGAGGACCCGGAGCAGATCAGGAAGTGGGTACCCTTGATGATGGAGGGCCGCGATCCGAACCAGAAGCTCGCGGCCACCTGGACGCCGATCGGCACCGATGTGAATTTTGGCGAAATTACCCGCCAGTACGTCAGCTACTTGCAGAGCCGGCCCAACTTCAGCCTGAAGCTTTCCAGCGAGGTGCGCGACATCACCCGCAACGACGACGGTACCTGGCGCGTGGAATACAAGAACCTCAAGGACGGCGAAACGACCACCACCGACGCCAGGTTCGTATTCATTGGCGCCGGCGGCGGCGCACTGCATCTGCTACAGGAATCGGGTATCCCGGAGGCAGACGACTACGCCGGGTTCCCGGTCGGCGGCTCGTTCCTGGTCGCCGAGAACCCTGGCATTGCCGAGCGACACATGGCCAAGGCGTACGGCATCGCTTCCACCGGCGCGCCACCGATGTCAGTGCCGCATCTGGACACCCGCGTACTGGATGGCAAGCGCGTCATCCTCTTTGGTCCGTTTGCGACCTTCTCCACCAAATTCCTCAAGGAAGGCTCGTACTTCGACCTTTTCACCAGCATGACCCCGCACAATATCTGGCCGATGACCAAAGTAGGCATCGAGCAGTACCCGCTGGTTGAATACCTGGCCGGCCAGCTCATGCTTTCCGACGATGATCGGTTCAAGGCCTTGCAGGAATATTTTCCCCAGGCCAGGAAGGAAGACTGGCGCCTCTGGCAAGCCGGCCAGCGCGTGCAGGTCATCAAGCGCGACGAAGAAAAAGGTGGCGTGCTCAAACTGGGCACCGAAGTAGTGGCCTCCCAGGACGGCAGCATTGCCGGCCTGCTTGGCGCATCCCCTGGTGCCTCGACGGCAGCCCCGATCATGCTGGAAGTGATGCAGCGGGTCTTCAAGGACAAGGTGGCCTCGCCGGCCTGGCAGGAAAAACTGCACCAGATCGTTCCCAGCTATGGCACACGGCTAAACGATGATCCTGATCGTGTCTATGAGGAATGGAAATACACCAGCGATGTGCTAAAACTGGCGCCGCCGCCGGACATCCGTGGAAACGCCGAATCGAAGGCCCCGACCAACAGCGATCCCGTGGGGCAGAAAAACAGCGATTCCGACCCGGATCTGGCGTTGTGA	MNRIIIAVLLGAALLSGVNGARAAETKKVDVLLVGGGIMSSTLGIWLNELEPGWSMEMVERLDAVAEESSNGWNNAGTGHSALAELNYTPMDDQGNVNISKAIEINEAFQITRQFLAWQVRNNVLKNPPSFINSTPHMSFVWGDDNIKFLKKRYEALQASPLFRPMQYSEDPEQIRKWVPLMMEGRDPNQKLAATWTPIGTDVNFGEITRQYVSYLQSRPNFSLKLSSEVRDITRNDDGTWRVEYKNLKDGETTTTDARFVFIGAGGGALHLLQESGIPEADDYAGFPVGGSFLVAENPGIAERHMAKAYGIASTGAPPMSVPHLDTRVLDGKRVILFGPFATFSTKFLKEGSYFDLFTSMTPHNIWPMTKVGIEQYPLVEYLAGQLMLSDDDRFKALQEYFPQARKEDWRLWQAGQRVQVIKRDEEKGGVLKLGTEVVASQDGSIAGLLGASPGASTAAPIMLEVMQRVFKDKVASPAWQEKLHQIVPSYGTRLNDDPDRVYEEWKYTSDVLKLAPPPDIRGNAESKAPTNSDPVGQKNSDSDPDLAL	PGPT0001440_358	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
D1-35_03819	786	glpR_2	COG1349	Glycerol-3-phosphate regulon repressor	ATGAGTGCTACCCACGAAGTGTTTCCCGGCGAACGCCAACGTTTGATCAGCGAGCGGCTTGCCCTGTATGGCCGGGTCATCGCGGCTGATCTGGCGATTGAATTCAACGTCTCTGAACATTCGATACGCCGAGACCTGGGCACATTGGCGGCGGCGGGCTTGTGCAAGCGCGTCTATGGCGGCGCGATTCGCTTGCCGGCCGCCGAAGCGCCGATCGATGTGCGGATCCACCAGGATCCAGCGCGCAAGGATAATCTTGGCCAGGCGGCAGCCGCGCTGCTTAGCGCAGGCCAGCATGTATTCCTGGATGCCGGCTCGACCAACCTGGCCATTGCCCGTGCCATCGACCCGGGGCTGCAATTGACGCTCAGCACCAACTCCCCGCTGATCGCGGTGGAACTGATGAAGCTGCCCCGCGCCGAGGTCATCCTGCTCGGCGGTCGCATGAACCGCGTCGCGGGCGGGGCCATCGGTCTGGCCGCCGTCCAGCAATTGCGCCAGTTCAATTTCGACTTGTGCTTTGTCGGGGCCTGCGCCATCGACCCGGACAATGGCGTCACCGCGTTTGGCCTGGACGACGCCGAGTTCAAGCGCGCGGTGGTCGCGGCCAGCGGTCAGGTGGTGGTGGCGGTGACCAACCAGAAGCTGTCCAGCGTCGCTCATTATCAAGTGGCCTCTTGTGAAGAGGTGACCACGCTGGTAGTGGAGCAGGATGCGCCGCAAGAGCGACTCGGCCCCTTTTTCGAGCGAATCTCCAAGGTCGTGAGGGCGGTCGAGCAGCAATAA	MSATHEVFPGERQRLISERLALYGRVIAADLAIEFNVSEHSIRRDLGTLAAAGLCKRVYGGAIRLPAAEAPIDVRIHQDPARKDNLGQAAAALLSAGQHVFLDAGSTNLAIARAIDPGLQLTLSTNSPLIAVELMKLPRAEVILLGGRMNRVAGGAIGLAAVQQLRQFNFDLCFVGACAIDPDNGVTAFGLDDAEFKRAVVAASGQVVVAVTNQKLSSVAHYQVASCEEVTTLVVEQDAPQERLGPFFERISKVVRAVEQQ				NA	NA	NA	NA	NA
D1-35_03820	927	gal		Galactose 1-dehydrogenase	ATGCAACCGATTCGTCTCGGCCTGGTGGGCTACGGCAAGATCGCCCAGGATCAACACGTTCCCGCCATCCAGGCCAACCCCGCGTTCGAACTGGTAGCGGTCGCCACGCAAGGCAAGCCCTGCGCCGGTGTGGAGAATTTCCAGTCCCTGGGCGAGTTGCTGGAAAACGGCCCGCACGTCGATGCAATTGCCTTTTGCACGCCGCCACAAGGGCGATTCGGTCTGGTCCGGCAGGCGCTGGTGGCCGGCAAGCATGTGCTGGTGGAGAAACCGCCCTGTGCCACCCTGGGCGAAGCGATGGCGCTGGTGGAGCAGGCGAGCGAGCAAGGCGTCAGTGGCCTGTTCGCCTGGCATTCGCGTTACGCTCCGGGCATCGAGCTTGCCCGGGACTGGCTCGCCAGCCGCACGCTGCAAAGCGTCCGGATCGACTGGAAGGAAGACGTGCGCAAATGGCACCCTGGCCAGGCGTGGATCTGGCAACCGGGCGGCCTCGGGGTCTTTGATCCGGGCATCAATGCCCTGTCGATCGTCACCCATCTGCTGCCGCTGTCGCTGTTCGTCGAGTCGGCCGAGCTGCGCGTTCCAGACAATTGCCAGTCACCAATTGCCGCGAGCATCAGGATGTCGGATGCCCGCCATCTCGATATCCGCGCCGAATTCGATTTCGACCACGGTCATGATGAGCTCTGGAGCATCGAGATTCGCTGCGCCGAAGGCGTGTTGCGACTGGACAACGGTGGTGCGTTGTTAAGCATCGACGGCGTGCGCCAGTCGGTGTCGGAGGAGGGCGAGTACGCGGCGGTGTACCGGCACTTCCAGCAGTTGATCGGTAACAAGGCCAGTGACCTGGACCTGCAACCGCTGCGCCTGGTTGCGGACAGCTTTTTCGTCGGCAGCCGGACCTTGGTCGAGCCGTTCTACGACTGA	MQPIRLGLVGYGKIAQDQHVPAIQANPAFELVAVATQGKPCAGVENFQSLGELLENGPHVDAIAFCTPPQGRFGLVRQALVAGKHVLVEKPPCATLGEAMALVEQASEQGVSGLFAWHSRYAPGIELARDWLASRTLQSVRIDWKEDVRKWHPGQAWIWQPGGLGVFDPGINALSIVTHLLPLSLFVESAELRVPDNCQSPIAASIRMSDARHLDIRAEFDFDHGHDELWSIEIRCAEGVLRLDNGGALLSIDGVRQSVSEEGEYAAVYRHFQQLIGNKASDLDLQPLRLVADSFFVGSRTLVEPFYD	PGPT0002205_209	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GALACTONIC_ACID_BIOSYNTHESIS,PGPT0002205-gal-K00035	NA	NA
D1-35_03821	603	sutR_1	COG1396	HTH-type transcriptional regulator SutR	ATGCCCCTGAACAGCCCTCTATCGACCGTCCCTGGCGCGGACGCCCACGCGGTGAGCCTGGCCGTTGCGCGCACGCTCAAGCAGGCACGCAAGGCTCAGAAAATCACGCTTGACGAACTGTCCCGGCGCTCGGGCGTGAGCAAAGGGATGGTAGTGGAAATCGAGAAATGCACGGCCAACCCGAGCATCGGCATCCTGTGCAAGATCGCCGCGGCGCTGGGCCTTTCGGTAGCCGATATCGTCAACGTGGCGGAAGCACCTTCGGCCCATGTCATCGACAGCCAGGATATTCCTACACTCTGGACCGGAGAGTTGGGAGGCAGCGCGCGCCTGCTGGCCGGTACGCCAGGCCCGAACATGATCGAGCTGTGGCGCTGGGAAATGTTTCCCGGCGAAACCTTCGCCTCGGCCGGACACCCTCAAGGCACGCTTGAGCTGTTCCATGTAGAAAAAGGCACACTGAAATGTGTGGTGGGAGAAACGGAACTGGTCGTCCCCGCCGGTAGCTCGGCGGTCGCGAAAACCGATGTGGCGCACACGTATTCCAACGCCGGCAAGTCGAAGCTGATCTTCACCATGTCGGTTGCCGAAATACATCAATAG	MPLNSPLSTVPGADAHAVSLAVARTLKQARKAQKITLDELSRRSGVSKGMVVEIEKCTANPSIGILCKIAAALGLSVADIVNVAEAPSAHVIDSQDIPTLWTGELGGSARLLAGTPGPNMIELWRWEMFPGETFASAGHPQGTLELFHVEKGTLKCVVGETELVVPAGSSAVAKTDVAHTYSNAGKSKLIFTMSVAEIHQ				NA	NA	NA	NA	NA
D1-35_03822	693			hypothetical protein	ATGCTGTCGGTACAGCCGTTGATCGACCAAGCCGTTGCCGAGCTGGCGCCGGGGTTCAGGGCCCTGAGCATCGTCGTGCAGGCTGCGCCGCTCACCGATCCCTACGTCGCCCGCGCGGCGCTGGAGCGAGCCTGTCAATCGGTGCTGGCGGGCGGGCCGGCCTGGGCGGAGGCCCATTTGCAGCAGTGGGCCCAAACGTTCCGACTGTTCGGTGCCAAGCCGCAACGCACGCCTTGTTCAGCCGAAGCGTTGCGCAAGCGGGTATTGCGCGACGGCGGCTTGCCGAGCCTTGATCCGGTCGTTGACCTCTACAACGCCATCAGTCTCGAATATGCGATCCCGGTGGGCGGGGAAAATATCGAGGCGTACGTGGGCTCGCCGCGACTGGTGATTGCCGAGGGTGGCGAACCGTTCGATACGATGAAAGAGGGCGCGCCTGCCCATGAATACCCCGACGCCGGCGAAGTGGTCTGGCGTGACGACCAGGGCGTGACGTGCCGTCGCTGGAACTGGCGCCAGGGCGTCAGGACCCGCCTGGACGCGGATGCCAGGCAGATGTGGTTCATCCTCGAAAGCCTGCCGGCGATGCCGCTCGAAGCGCTGACCGAAGCGGGCGACAGGCTGATAGAAGGCTTGCAGTCGATGATGCCCGGCGTGCAGATCGAGAGCGTGCTGATCGGGCCCGGAAGCTAA	MLSVQPLIDQAVAELAPGFRALSIVVQAAPLTDPYVARAALERACQSVLAGGPAWAEAHLQQWAQTFRLFGAKPQRTPCSAEALRKRVLRDGGLPSLDPVVDLYNAISLEYAIPVGGENIEAYVGSPRLVIAEGGEPFDTMKEGAPAHEYPDAGEVVWRDDQGVTCRRWNWRQGVRTRLDADARQMWFILESLPAMPLEALTEAGDRLIEGLQSMMPGVQIESVLIGPGS				NA	NA	NA	NA	NA
D1-35_03823	840	yghU	COG0625	Disulfide-bond oxidoreductase YghU	ATGAGCCAAGCGTCTTACGTCCCGCCCAAAGTCTGGAAGCACGAAGCCCCCTCGGGCGGCCACTTCGCCAGCATCAACCGCCCTGTCGCCGGGCCGACCCATGAAAAAACCCTGCCGATCGGCGAGCACCCGTTGCAGCTCTATTCGCTGGCAACGCCCAATGGCGTGAAAGTGACCATCCTGCTTGAGGAACTACTGGCGCTCGGGCACACCGGCGCGGAATACGACGCCTGGCTGATTCGCATCGGCGAAGGCGACCAGTTCTCCAGCGGTTTCGTCGAGGTCAATCCGAATTCCAAGATCCCGGCCCTGCTGGACCGCAGCGTCGAACCTGCGATCCGGGTGTTCGAGTCCGGTTCGATCCTGCTGTACCTGGCGGAAAAATTCGCTGCGCTGCTGCCGACCGATCCGGCCGGGCGCACCGAAACCTTGAACTGGCTGTTCTGGCAGATGGGCTCGGCGCCTTACCTGGGTGGCGGCTTCGGACATTTCTACGCCTACGCGCCGGAGAAACTGGAATACCCGATCAATCGCTTCACCATGGAAGCCAAGCGCCAACTGGATGTGCTGGATCGTCGCCTGGCTGAAAACCGTTACCTGGCCGGCGACCAGTACACCATTGCCGACATCGCGGTCTGGCCCTGGTATGGCCAACTGGTGCGGAACAACGTGTACTCGGCGGCCGAGTTCCTGGCAGCCCACGAATACACCCACGTGCAGCGTTGGGCGGAGGAAATCGCCAAGCGTCCAGCCGTGGTGCGCGGACAGCGCGTCAACCGGACCTGGGGCGACGAAACGAGCCAGGTGCCGGAGCGGCATAGCGCGCAAGACCTGGACTGA	MSQASYVPPKVWKHEAPSGGHFASINRPVAGPTHEKTLPIGEHPLQLYSLATPNGVKVTILLEELLALGHTGAEYDAWLIRIGEGDQFSSGFVEVNPNSKIPALLDRSVEPAIRVFESGSILLYLAEKFAALLPTDPAGRTETLNWLFWQMGSAPYLGGGFGHFYAYAPEKLEYPINRFTMEAKRQLDVLDRRLAENRYLAGDQYTIADIAVWPWYGQLVRNNVYSAAEFLAAHEYTHVQRWAEEIAKRPAVVRGQRVNRTWGDETSQVPERHSAQDLD	PGPT0013045_856	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013045-yghU|yfcG-K11209	NA	NA
D1-35_03824	2055	hmp_2		Flavohemoprotein	ATGAACGAAGCCTCGAAAGTAGCCCCTTCGCCCTGGCATGAAGGCGAGTTGGCCTTGCAGCGCACTGTCGGGGCAGTAGAAATGATGGCGGGTGTCGGCCAGCGGCAACTGGCGCGTAGCTGGATGCCGGATCAGCACCGCGAGTTCTACGCTCAGTTGCCTTTCGTGGTGCTGGGCGCGGTGGATCGCCAGGGTGATGTCTGGGCGACCCTGCGCACCGGGCAGCCCGGCTTCATGAATTCACCGGACCCGGAAACGCTGCACATCCATTTCGACCCGGAGCCCGAAGACCCGGCCGAGCAAGGTATGGGCGAGGGCGATGCCATCGGCATGCTCGGCATCGAGTTGCATACCCGTCGCCGCAACCGCATGAACGGCGTCGTGCGCCGCCGGCTTGAGCGCGGGCTGGAGATCTCGGTGAGCCAGGCCTATGGCAACTGCCCACGCTACATCAACCTGCGCCAGTACCGTTTCGTCGATGAGCAGCCCGCCGAATCGCGCCAACTGGTGGCGGCCGACCCGTTGGTCCGGCAGTTGGTCACCGCGGCCGATTCGTTCTACATCGCCACCTACGTGGTACGCGACGGCGAGCGGCAAGTCGATGCGTCCCATCGCGGCGGCAAGTCAGGTTTTGTGCGCATGGACGAGGACGGCACGCTGACCATTCCGGATTTTTCCGGAAACCTGTTCTTCAATACGCTGGGCAATATCCTGCTGAACCCGCGTGCGGGCCTGGTCTTCGTTGATTTCCAAACGGGCGATTTGTTGCAGATGAGCGGATCGGCGCAAGTGTTGCTGGACGATCCGCAGATCGCCGCGTTCCAGGGCGCCGAGCGGCTGTTGCGTTTTACTCCGCAGCGCATTGTCCATCGTCCGGCGGCGCTGCCGTTGCGCTGGAAGGACCAGGACGAGGGTGACTCGCCCAATTCATTGATGACCGGCAGCTGGGAGCAGACCGCCGAGCGCTTGCAGGCCGAGGCCCTGCGCAGCCAATGGCGGGCGCTGCAGGTCACCCGGGTGGTGGACGAAAGTCACGACATTCGGTCCTTCCACCTGCAAACCAACGACGGCGTCGGTTTACCCCGGTTCGAAGCCGGGCAGCATCTACCCGTACGGATAACGCTGGAAGGACAGCAAGTGCCGTCGATCCGGACCTATAGCGTATCCAGCGCACCGTCGGACGATTTTCTGCGCATCAGTGTCAAGCGTGACGGCGCGGTATCTTCGCACCTGCATGAGCAGATCCAGGCGTCCCACCAGATTGACGCCCGGGCGCCTCAGGGTCATTTCACGGTGAATCCGACTGAGCGCCGGCCTTTGGTACTGTTGGCGGCGGGCGTCGGTATCACACCGCTGTTGTCAATGCTGCGCGAAGTGGTCTACCAGGGGAAACGCATCAGCCGGATGCGCCCGGTCTGGCTGGTGCAAAGCGCTCGCCACGTGGCCGACCTGGCCTTTCGCGAGGAGATCGATGAACTGGTAGCCCGTGCCGGTGACAAGTTGCGAGTGCTGCGCATGGTCAGCCAGCCGCCCACCGACGGGACGGCCGGGCAAGGCTACGACGTGGCCGGCAGAATCGAAGTGACGTTGCTCAAGCAACTGTTACCCCTCGATGATTACGATTACTACCTGTGCGGGCCGGGCAGCTTTACCCAGGCGCTGTACGACGGCTTGCGCAAGCTGCGCATTCCCGATGATCGCATTCACGCCGAAACCTTCGGTCCGTCCACGCTGGTGCGTGACATCGAAGTCAGCGTACCGGCGGCCGAGCAAGTGCCGGCGGCCACCGAAGCGGTAAAGGTGCTGTTCGCCGGTTCGGCCAAGGAGGCCCGCTGGGAACCGGAAAGCGGGACGCTGCTGGAATTGGCCGAGGCGCGGGGTCTGAATCCGGAGTTCAGTTGCCGCGGTGGATCCTGCGGCACCTGCAAGACCCGAATTACCCAGGGTCAGGTGCATTACCTGACCCATCCGGCCGAGCCCGTGGCCCCCGGCGAGGTGCTGATCTGCTGCGCCGTACCGGCCCAGGGCAGCGAGCCTTTGGTGCTGGAGGCCTAG	MNEASKVAPSPWHEGELALQRTVGAVEMMAGVGQRQLARSWMPDQHREFYAQLPFVVLGAVDRQGDVWATLRTGQPGFMNSPDPETLHIHFDPEPEDPAEQGMGEGDAIGMLGIELHTRRRNRMNGVVRRRLERGLEISVSQAYGNCPRYINLRQYRFVDEQPAESRQLVAADPLVRQLVTAADSFYIATYVVRDGERQVDASHRGGKSGFVRMDEDGTLTIPDFSGNLFFNTLGNILLNPRAGLVFVDFQTGDLLQMSGSAQVLLDDPQIAAFQGAERLLRFTPQRIVHRPAALPLRWKDQDEGDSPNSLMTGSWEQTAERLQAEALRSQWRALQVTRVVDESHDIRSFHLQTNDGVGLPRFEAGQHLPVRITLEGQQVPSIRTYSVSSAPSDDFLRISVKRDGAVSSHLHEQIQASHQIDARAPQGHFTVNPTERRPLVLLAAGVGITPLLSMLREVVYQGKRISRMRPVWLVQSARHVADLAFREEIDELVARAGDKLRVLRMVSQPPTDGTAGQGYDVAGRIEVTLLKQLLPLDDYDYYLCGPGSFTQALYDGLRKLRIPDDRIHAETFGPSTLVRDIEVSVPAAEQVPAATEAVKVLFAGSAKEARWEPESGTLLELAEARGLNPEFSCRGGSCGTCKTRITQGQVHYLTHPAEPVAPGEVLICCAVPAQGSEPLVLEA				NA	NA	NA	NA	NA
D1-35_03825	270			hypothetical protein	ATGCGCATCGTGGGAATTGCTTTAACCATCGCACTGCTGACAGGGTGCGCGACGGCCAACGAAACCTTTGGCACCGGGCAGCTTTGCGGTATTCATCCTTATTGCGGCGTGTCCGTCGACCTCCAGGTGCTCAAGGCGACGACCGAAGATAACGCGACCATCGCGCGCGCACTGGCGCCGTTCGCAGTCATCGATCTACCCCTCAGCTTCGTCGCCGATACGCTGATCCTGCCCTACACCATTTTTCATATGAGACCGGCTGAGGAATAA	MRIVGIALTIALLTGCATANETFGTGQLCGIHPYCGVSVDLQVLKATTEDNATIARALAPFAVIDLPLSFVADTLILPYTIFHMRPAEE				NA	NA	NA	NA	NA
D1-35_03826	963	eamA_2	COG0697	putative amino-acid metabolite efflux pump	ATGAACCAGCCCAAATCGATCACTTGCCCTTTGCCGTCCAGCGTTTATTGGCTGATCCCCTTGCCTTTGCTGGAGGCCGCCCTGCTCCTGGCCTGGAGTTCCGGGTTTGTCGGTGCGCGATTCTCCATTGATTACGCGCCGCCACTGCTGGTGGTGTTCTGGCGCTGCCTGGTAGTCACACTGGTGCTGTTTCCTTTTGTCGCCGGGCAGTTGCGGCGAGCCTCGCGGGTCACTTTGTTGAAAAACGCCGGCATCGGCCTGCTCGCGATGGCTGGGTACCTGGCTGGCATCACCCAGGGCATCGCCTTGGGCGTGCCGGCCGGGCTGGCGGCGTTGTTCGCCGATCTGTTGCCGATCGGCCTGGCGTTGCTGGCCGCCGGTGCACTGGGCCAGCGCTTGGCGCCGCGAGTCTGGACCGGATTGATCGTCGGCCTGATCGGCGTTGCGCTTGGCACCCACGGCGCACTGGCTTGGGGCCACGCGCCACTGTGGGCGTACGGGCTGCCATTGCTGGGAATGTTTTCGCTGGCTATCGCGACCCTCTGGCAAAAGCGGCTGCCTGCCTCGCAATCGCTCGGCCTGCTGCCTAACCTCTGGCTGCAATGTTGCGTCTCTGGCCTGGCATTCGCCGTGATCGAGGGCACGCAAGGCAGCCTGGCGCCGATACCGAGTACCGGGTTCGCGCTGAGTGTTTTGTGGACGGCAGGTTTGTCGACAATCGGCGGTTACGGGCTCTATTGGCTGTGTCTGCGCCGGGCGTCCACCACCCGCGTCGCCAGCGTCCTGTACCTGAGCCCACCGATCACGATGCTGTGGGCCTGGACGATGTTCGACGAACCGCTTTCATGGCAGATGGCACTGGGGATGGCGGTGTCCGCCATCGGGATCTGGCTGGTGGTGCGCGAAGAAGCCCGGCAGACGCGGCGGACTGAAAATCGACAGGAGTCATCGCGAGCGCACTGA	MNQPKSITCPLPSSVYWLIPLPLLEAALLLAWSSGFVGARFSIDYAPPLLVVFWRCLVVTLVLFPFVAGQLRRASRVTLLKNAGIGLLAMAGYLAGITQGIALGVPAGLAALFADLLPIGLALLAAGALGQRLAPRVWTGLIVGLIGVALGTHGALAWGHAPLWAYGLPLLGMFSLAIATLWQKRLPASQSLGLLPNLWLQCCVSGLAFAVIEGTQGSLAPIPSTGFALSVLWTAGLSTIGGYGLYWLCLRRASTTRVASVLYLSPPITMLWAWTMFDEPLSWQMALGMAVSAIGIWLVVREEARQTRRTENRQESSRAH				NA	NA	NA	NA	NA
D1-35_03827	855	gltR_2	COG0583	HTH-type transcriptional regulator GltR	ATGCCCGCCATATTGGATATCGAGCTGATACGGACCTTTCACGCCGTCGCGCGCATCGGCAAATTCAGCGCCGCAGCCGAGCAGCTGCACAAAAGCCCGGCGGCGGTGAGCGTGCACATCCAGCGATTGGAAGCGGTCGCCGGAGGTCGGCTGCTGAACCGCGACAATCAGGCGGTATCCCTGACCGCGCTGGGCAAACGCTTGCTGCTTTCCACCACCGAGTTGCTCACCACCCACGATCGGGTGCTGGCCGACCTGCACGGCACGCGGCTGGCGGGTCGCATCACGTTAGGCGTGCCGGACGAGTACGCCGACCACGTCATCCGCGACATCCTGCCGACATTCACGGCAGCCTGGCCTAACGTGATCCTCGAACTCAGGACGGCCCCCAGTTATGCCCTGCGTGAGCAGGTGCAGCGCGGGAAACTGCAAGCGGCCGTGCTCGCTCAGCCGATGGATCAGCCAAGGGAGGAAACCGAGGTGTTGACTACCACGACGCCGGTCTGGGTCGGCGCGGTTCACGCGACGGCCAGCCCGGCGCAGCCGCTCGCGTTGGCTGTGCATGCAGCGCAGTGCCCTTATCGGCAAGCCATGATGCAGGCGCTCAGGGAGAGCGGTTACCGGCTGCGCGTAGTTCTGGAAAGCCCGTCCAACCAGGCCGTCAAGGCCTGTGTCGAAGCCGGCCTGGCGATCAGCCTGATCGACCGTGCCCGCGTGACCGAGCACATGCGGATTCTCGATGGCCTGCCGGTGATCCCCGACCATGCAGTGGTGTTCATGCGCTCCCAGGCATCACGCGGCAATGAAGCGGTAGACCTGCTTGGCCAGGCCATGCAGCAGCGTTTTCGACTGTAG	MPAILDIELIRTFHAVARIGKFSAAAEQLHKSPAAVSVHIQRLEAVAGGRLLNRDNQAVSLTALGKRLLLSTTELLTTHDRVLADLHGTRLAGRITLGVPDEYADHVIRDILPTFTAAWPNVILELRTAPSYALREQVQRGKLQAAVLAQPMDQPREETEVLTTTTPVWVGAVHATASPAQPLALAVHAAQCPYRQAMMQALRESGYRLRVVLESPSNQAVKACVEAGLAISLIDRARVTEHMRILDGLPVIPDHAVVFMRSQASRGNEAVDLLGQAMQQRFRL				NA	NA	NA	NA	NA
D1-35_03828	456			hypothetical protein	ATGCAAGGCGCACCTCGAAAAATTCTTCAAGCCATCCTCTACGAAGCCGGCGGCGTGCTGTTCGTGGCCCCCGCACTGGCGTTGATCTACCAGCAAGGCATGGGTTATTCGACCCTGCTGTCGTTGCTGATTTCTTTCGTCGCGCTGGCCTGGAACATGCTGTTCAATGGTTTGTTCGAAGCCTGGGAGCGGCGCCAGGACAATCGCCAGCGCAACTGGCGGCGGCGTCTGGGGCATTCGCTGGGATTCGAAGGCGGCCTGACGCTGATCCTCACGCCAGTGATTGCCGCATGGCTGGATATCAGCCTGTGGCAGGCATTGGCGACAAACCTGGGGCTCTTCGTGTTTTTCTTTTTCTACGCCCTGGTTTTTCAGTGGGGATTCGACCGGGTGTTTGATGTTCCGCTCTCGGCGCAGCCCGACCAGGCCTCGACCTGCAAGGCCAACGCCACCTGA	MQGAPRKILQAILYEAGGVLFVAPALALIYQQGMGYSTLLSLLISFVALAWNMLFNGLFEAWERRQDNRQRNWRRRLGHSLGFEGGLTLILTPVIAAWLDISLWQALATNLGLFVFFFFYALVFQWGFDRVFDVPLSAQPDQASTCKANAT				NA	NA	NA	NA	NA
D1-35_03829	885	perR_2		HTH-type transcriptional regulator PerR	ATGTTTGCCAGACAGCCCCTGACCGCCTTGCGCGGCTTTGAGTCCGCCGCACGGCTGGGCAGTTTCAAGGCGGCGGCCCAAGAGCTGAGTATCAGCGCCGCGGCGATCTCCCATCAGATCAAGAGCCTCGAAGCGTTTCTGGGTGTGCGGTTGTTCGAACGCTCCAGCCAAAGCGTACGCCTGAGCCCCGATGGCGAGCGGCTTTATCCGCATATCCACCGGGCCTTGGCGGAGATTCAGCATGGCTTGCAGACATTGGCGCCGCCTTGTGTCGCGCAATCACTGGTGGTGAGCACGACGCCGGCCTTCGCCAGCCTGTGGCTGATCCCGCGGCTCGGTGATTTTTATCGAGCGCACCCGGACATCAGCGTCCGACTGCACAGCAGCAATGACCTCGTCGACCTGCAGCGTGACGCCAGCATCGACCTGGCGATTCGCGCTGTGTTCACCTCGGATCCGCAACTGTTCGAGCAGCCATTGCTGGATGAATATTTTGCCGTCTACTGCCACCCCGGCTGGCAGCCGCCCGCAACGGGGACTCCCGTCGAGTTGATCGACGTGCCGTGGCTGAGCAGTTCCGATGTCGCGGTCGATTGGCCGGCCTGGTGCGCCCGGGCCGGCACTTCGGTCTGGCTGGATAATGCCCGCGTGCGAGGCTATGACGAAGAGCAACACGCGCTGCAGGCGGCAATCGTCGGACACGGTCTGGTGCTCGCCAGCCAGGTCCTGGTTGCAGAGGCTGTGGCCCGTGGACAGTTAGTGCCTTATCGGCCGGAGGTTCGCCTGGCGGGTGCGCGCTATACCCTGGTGTGCGTACCGGGACGGGAGCGGCAGCCAGCGGTACGGGCGTTCAGCGAATGGTTGCTGGGGCAGGGCGCCTGCTGA	MFARQPLTALRGFESAARLGSFKAAAQELSISAAAISHQIKSLEAFLGVRLFERSSQSVRLSPDGERLYPHIHRALAEIQHGLQTLAPPCVAQSLVVSTTPAFASLWLIPRLGDFYRAHPDISVRLHSSNDLVDLQRDASIDLAIRAVFTSDPQLFEQPLLDEYFAVYCHPGWQPPATGTPVELIDVPWLSSSDVAVDWPAWCARAGTSVWLDNARVRGYDEEQHALQAAIVGHGLVLASQVLVAEAVARGQLVPYRPEVRLAGARYTLVCVPGRERQPAVRAFSEWLLGQGAC	PGPT0026360_6347	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
D1-35_03830	246			hypothetical protein	ATGATGACCGTATATTTTGTCGTTATGACGATTTGCAGTGGCTTCGAGGGCTGCGTTGAAGAACGCAGACCGGGGCCGACCTACGCTTCAAGGCAGATCTGCCTGGAGACGACCCGGGAGATGACGCCGCGCAAGGGCGTGAAGTTCAAGTGCCGCAGCGAGCGTTCCAACGTGATTTTCACCGAGGCGCCGCATCCGGAAAGTTACGAGAGTCTCGTCTCGACCAAAGTCCAGGGACAGCCTTGA	MMTVYFVVMTICSGFEGCVEERRPGPTYASRQICLETTREMTPRKGVKFKCRSERSNVIFTEAPHPESYESLVSTKVQGQP				NA	NA	NA	NA	NA
D1-35_03831	1182	sotB_3		sugar efflux transporter	ATGAGCGCATTTACCCCCCTGGAACGAGGCTTGTCCAAAACGCTGACGTTATTGTTTTCGGTGACTTGCGCACTGGCCGTTGCCAATGTCTATTTTGCCCAGCCGTTACTCGCCTCCATCGCACAAAGCCTCGGCGTGACGTCCGGATCGATCGGCATCGTGGTGACGGCCACTCAGGCTGGATACGCGCTGGGGTTGCTGTTCATCGTGCCGTTGGGCGACAAGGTCGACAGCAGGCGGCTGATCCTCACGCTCGTGACGTTATCGGTGCTGGCGCTGGCGGCCGTCGGTGCCTCCCGGCACTGGCTGGTCCTGTTGGCAGCCATGAGCCTGACGGGCTTGATGGCGGTGGTCGTGCAGGTACTGGTCGCCTACGCCGCGCTGCTGTCTCCACCGGCCCAACGCGGGCAGGCCGTGGGAGCCCTGACCAGCGCGATTGTGCTGGGCATTCTCATGGCTCGGTTCACTTCAGGGCTGATCGCCGACCTGGCGGGCTGGCGTGCGGTTTATTTCGTTTCGTCAGGACTGATGCTGACGATCGCGGCAGTGTTATGGAAAATAGCTCCACCCGCCAAACCGCTACGTAACCAGCATACCTACCCAGCGCTCATTCGGTCGCTGTTCGAACTGTTCCTGACTGAACCGGTCCTGCGCAGCAGAGGCCTGTTCGCCCTGCTGATCTTCGCGGCTTTTTCCGTGCTATGGACCGCCATGGTATTGCCCCTCAGTGCCGCGCCGCTGTCGCTTTCACACAGCGCTATCGGCCTGTTCGGCCTGGCCGGCGTTGCCGGGGCGCTCGCCGCCAGGAGGGCTGGCCGTTGGGCTGACCGAGGCTGGGGGCGACGGGTGACCGGCCTTTCCCTGGGGCTGCTGGCGCTTTCCTGGGTACCCATCGCCTTTGCCGAGTCGTCGTTGATCGCGCTGGTCGTGGGGGTGATCCTGCTCGATTTCGCCGTGCAGGCGGTGCATGTGACCAACCAGAGTTTTCTTTTCGCCGCGCGGCCCGACGCCCAGAGCCGCATGGTTGGTGCCTACATGTGTTGCTACTCGGTCGGCAGCGCGTTGGGGGCGGCAGCTGCCACTCAGGTGTATGCGCTTTGGGGCTGGCAGGCGGTGAGTTTACTGGGCGCCTCGATCAGCCTCGCGGCGCTGGTTGCATGGTTTTTCTCGGCGCGGAGTTAG	MSAFTPLERGLSKTLTLLFSVTCALAVANVYFAQPLLASIAQSLGVTSGSIGIVVTATQAGYALGLLFIVPLGDKVDSRRLILTLVTLSVLALAAVGASRHWLVLLAAMSLTGLMAVVVQVLVAYAALLSPPAQRGQAVGALTSAIVLGILMARFTSGLIADLAGWRAVYFVSSGLMLTIAAVLWKIAPPAKPLRNQHTYPALIRSLFELFLTEPVLRSRGLFALLIFAAFSVLWTAMVLPLSAAPLSLSHSAIGLFGLAGVAGALAARRAGRWADRGWGRRVTGLSLGLLALSWVPIAFAESSLIALVVGVILLDFAVQAVHVTNQSFLFAARPDAQSRMVGAYMCCYSVGSALGAAAATQVYALWGWQAVSLLGASISLAALVAWFFSARS				NA	NA	NA	NA	NA
D1-35_03832	459		COG1733	putative HTH-type transcriptional regulator	ATGGTTGAGAACGATGTGTCGCATAACCGCGAATGCCCCGTGGCACGCACGCTGGAAGTCATCGGTGATCGCTGGTCGCTGATGATCATCCGCGACGCCTTCGATGGGCTCCGCCGCTTCAGCGAGTTTCAGAAGAACCTGGGGGTGGCCAAGAACATCCTGGCGTCGCGACTCAAGGCCCTGGTCGAGGTCGGCGTGTTCGAGGTGCGACCCGCCTCGGATGGGAGCGCCTACAAGGAGTACGTCCTGACGGAAAAAGGCCAGGCGACTTTTGCGCTGGTGGTCAGCTTGAGGCAGTGGGGCGAAAGGTTCCTGTTCACCCCGCAGGAAACAAGGTCGCTGTTGGTAGACAACGAGTCGGGGCAGCCGCTGATGCCGATGGAGGTTCGCTCATCGGGCGGCCGGAAACTCGAACCGTGGGATTGTCACCGGGTCAGGCGGGTTGCCGGCGCGTCGTGA	MVENDVSHNRECPVARTLEVIGDRWSLMIIRDAFDGLRRFSEFQKNLGVAKNILASRLKALVEVGVFEVRPASDGSAYKEYVLTEKGQATFALVVSLRQWGERFLFTPQETRSLLVDNESGQPLMPMEVRSSGGRKLEPWDCHRVRRVAGAS	PGPT0028680_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028680-aadA-K00984	NA	NA
D1-35_03833	747			hypothetical protein	GTGAAGCATTCGATGCCTGCCGCAGCGCTGCTCTGTCTATTGCTCGGTTCAGGGGCCGCGGCTGAGCCATATCAGGTCGTGACCGAGGAATGGGCACCCTACAACTACGTCGAAAACAGTCAGCTCACCGGTATGACCACGGAAATCGTCCGAGCCATCATGGCCCAGACCGGGGACGACTTCGAAGTCGTGCTGCAGCCCAGCATGCGGGCCACGCAAATATTGCGGACCCGGCCCAAGACCATCATGTACTCGCTGTTCCGCACGCCGGAGCGCGAGCCGTTGTACAAGTGGGTCGGGCCGATCGTCGAAGAATCCATCCACGCCTATCAATTGGCTGACGCGCCGCCGATCACTTCGCTGGAACAACTGCTGCGCGCCCCGCAAATCACCACCCGCCATGCCGGCCTGGTGCCCCAGATGCTGAAATCGCTGGGCTTCAACAACCTGGACAAGAGCGCCACCGAGAGCAAGCTGCTCTACCGCATGTTGCTGGCCGGGCGGACGAATATCATCGTCGGCGATACCGATGCGGGAGTGGCGTATTACAGCCGCCAGTTGAAAATACCCGCCGGAACACTGCGCAGGATTCCCATCGAACTCTACCGCTCCTCGCTGTACATCGCCTTCAGCGTCGACAGCGACGAGCAGGTGATTGCCAAGTGGGCCAGCGCGCTTGAGCAACTGCGCCGGTCCGGTGAACTGGCGCGCATCCAGCAACGCTACGAGCAACCTGCCGGACGCTGA	MKHSMPAAALLCLLLGSGAAAEPYQVVTEEWAPYNYVENSQLTGMTTEIVRAIMAQTGDDFEVVLQPSMRATQILRTRPKTIMYSLFRTPEREPLYKWVGPIVEESIHAYQLADAPPITSLEQLLRAPQITTRHAGLVPQMLKSLGFNNLDKSATESKLLYRMLLAGRTNIIVGDTDAGVAYYSRQLKIPAGTLRRIPIELYRSSLYIAFSVDSDEQVIAKWASALEQLRRSGELARIQQRYEQPAGR	PGPT0020800_14820	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
D1-35_03834	675	trmK	COG2384	tRNA (adenine(22)-N(1))-methyltransferase	ATGCGCCTGGAGCGCGTGGCAGCGCATGTGCCGGCGGGTGCCCGGCTTGCCGATATCGGCTCCGATCACGGCTACCTGCCGGTGGCATTGCTACGTCGTGGTGTGATCAGCGCAGCGGTGGCCGGGGAGGTGGCGTTGACGCCGTTCCGCTCGGCCGAACGCACGGTGCGCGAAAGCGGTCTTGAACAAACGATTGCCGTGCGCCTGGCCAGCGGCCTGGGGGCGATCGAACCCGGCGACGGTATAACGGCGATCAGCCTGTGCGGCATGGGGGGCGAGACGATTCGCGACATTCTCGAGGCCGGCAAGTCCCGCCTGAGCGGTCGGGAACGGCTGATCCTGCAGCCCAACGGCGGCGAGCAGCCATTGCGCCAATGGTTGATGGCCCACGACTACCGCATCCTTCATGAGGAAATGCTGCGGGAGAACCGCTTCTATTACGAAATCATCGTCGCCGAGCGCGATGGGCCGGTGACGTACAGCGCCGAGGAACTGTACTTCGGCCCGCTGCAGATGCAGGCTCGCAGCCCGGTATTCCTGGACAAGTGGCAGCGCATGCTGCGCTTCAAACAAAAAAACCTGGCTAACCTCACCCGGGCGCAGCAGGGCGTGGCGCAGGAAAAGGTGCAGGAGATCGCGCGGCAGATTCGCTGGATCAGCGAATTGTTGGCGTGA	MRLERVAAHVPAGARLADIGSDHGYLPVALLRRGVISAAVAGEVALTPFRSAERTVRESGLEQTIAVRLASGLGAIEPGDGITAISLCGMGGETIRDILEAGKSRLSGRERLILQPNGGEQPLRQWLMAHDYRILHEEMLRENRFYYEIIVAERDGPVTYSAEELYFGPLQMQARSPVFLDKWQRMLRFKQKNLANLTRAQQGVAQEKVQEIARQIRWISELLA				NA	NA	NA	NA	NA
D1-35_03835	702	fzlA		FtsZ-localized protein A	ATGACTCTTCCCCACTCCCACCACGACGTTTCCGAACTCCCAATGATGAAAATCCATGACTGGTTTGACGGCCCCTATCCGGCGCGAGTACGCATCGCCCTGGCAGAGAAAGGTCTACTCTCGAAAACCAAATTCGTCTCGGTCAATCTATGGACGGGCGAACACAAGAAGCCGGAGTTCCTCGCGATCAATTATTCGGGAACGCTGCCGGTATTGGAGCTGGAAGACGGCACGCTCATTGCCGAATGCACGGCAATCACGCAGTACCTGGACGCCTTGGTTGGCCTCCCTGCCCTGACCGGTGAAACGCCTCTGGAGAAAGGCCTGATCCAGATGATGACCAAGCGCGCCGAAATAGAATTCCTCGATGCGGTCAGCGTGTACTTCCACCACGCGACGCCGGGGCTAGGGCCGGAAGTCGAGTTGTACCAGAACGCTGAGTGGGGCATGCGCATGCGCGACAAGGCGGTCAGGGGCATGCGTTATTTCAATGACCTGCTGGGCCAACGCCCGTTTGTTGCAGGCGAGCGTTTTTCGATGGCAGACATCGCGGTACTGGGCGGCATGATCTTCGCCTCGCTGGTCAAGTTGCCAGTGCCCGAGGAATGCCAGGCGTTGCTGGCATGGCATTCGAAGATGCAGGCAAGACCCAGCGTCCAGCAGTGGCGAGCGATGGTCGAGCGCGGTGCAGCGCAACGTTGA	MTLPHSHHDVSELPMMKIHDWFDGPYPARVRIALAEKGLLSKTKFVSVNLWTGEHKKPEFLAINYSGTLPVLELEDGTLIAECTAITQYLDALVGLPALTGETPLEKGLIQMMTKRAEIEFLDAVSVYFHHATPGLGPEVELYQNAEWGMRMRDKAVRGMRYFNDLLGQRPFVAGERFSMADIAVLGGMIFASLVKLPVPEECQALLAWHSKMQARPSVQQWRAMVERGAAQR	PGPT0013170_5073	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
D1-35_03836	564			hypothetical protein	GTGAGCGAAAACGCTCGGGAAGCCATCCTGGCAGCCGCTAAAAGCGCTGCGCAGACCCATGGCTACAGCGGAATCAACTTTCGAAGCATTGCCGAAGCGGTGGGGATCAAGAACGCGAGTATCTACTACCACTTCCCCAGCAAGGCCGACCTGGGCGCGGCGGTAGCTGAACGCTACTGGCAGGACGCGGCCGCCGTTCTGAAGACGATCCGTGAGGAGAACCCCGATCCCCATGGTTGCTTGCGGCTGTACCCCTCGATCTTTCGCAAGTCACTGGAAGACGGCAACAGACTCTGCCTGTCCAGCTTCATGGCGGCCGAACACGAAGACTTGCCTGAGCCGGTGAAGCGCGAGGTCAAGGCCTTCGCCGACGCCAACGTGGCGTGGCTGGCCGAGGTGCTGGCAGCCGCCGGCACGGGCAGCGTGGAAAAGTGTGAACGCCGCGCCCTGGCCATTTACACCGCTGTCGCCGGTGCCCAGTTGATCGCCCGGACGCGGCTCGACATCAACCTGTTCGACGAACTGATCCTCAGCTACCAGGAAGCCGGACTGATCCCGGCTTGA	MSENAREAILAAAKSAAQTHGYSGINFRSIAEAVGIKNASIYYHFPSKADLGAAVAERYWQDAAAVLKTIREENPDPHGCLRLYPSIFRKSLEDGNRLCLSSFMAAEHEDLPEPVKREVKAFADANVAWLAEVLAAAGTGSVEKCERRALAIYTAVAGAQLIARTRLDINLFDELILSYQEAGLIPA				NA	NA	NA	NA	NA
D1-35_03837	2289	adiA	COG1982	Biodegradative arginine decarboxylase	ATGACGGAACATCGAAATCTGTTGGGGATGCTGGCCTTGCTGGTCTCCAATGCGCCCGACAAACGCAGCGTATTCGGCCGCGCGCTGATCCAACTGATCAGCGACGTGGAGGACCGCGCCGTCAGCGTGCTGACCTCCGAAACCCTGAGTGATGCCAAGTCGATCCTGAGTTCCGACCCGGCTATTCAATGTGTGTTGCTCAGCTGGGAAATCGACACCAGCGACGACCACCGCGAATGCATCGACCTGCTCACCGCGCTACGCGAGCGCAACACCCGCGTGCCGGTGTTCCTGATCAGCGATCGCAGCACGGCGTCCAACGTGCCGTTGATCGTCATGCAACATGCCGATGACTTCATCTGGTTGCCTGAAGACACCAGCCGTTTCCTCAGCGGGCGGATACTGGCGGCTATCGAGCGCTATCGCCAGGCGGTGCTGCCGCCGATGTTCGGCGCGCTGCTGAAGTTTGCCCGCAGCTACGAATATTCCTGGCACACACCGGGTCATGCGGGCGGCACGGCGTTCTTGAAAAGCACCGCAGGCCGGGCATTCTATGAATTTTTCGGGGAGAACCTGCTGCGTTCGGACCTGTCGATTTCCGTCGGCGAGCTGGGTTCCCTGCTCGACCACAGCGGCCCCATCGGACAGGGCGAGCGTTATGCCGCCAAAGTGTTCGGCGCGCACCGCACCTATTACGTCACCAACGGCTCATCGATGTCCAACCGCGTCATCCTGATGGCCAGTGTGACCCGTGACCAGATCGCATTGTGCGACCGAAACTGCCACAAATCCGCCGAGCATGCGATGACCCTCTCCGGGGCCATTCCGACCTACCTGGTGCCGACCCGCAACCGCTTCGGCATCATCGGCCCGATCCTGCCGCGGACCCTCAGCGCCGAGGGGGTGAAGGCCGCCATCGCGAGCAACCCGCTGGTCAAGAGTCACATCGACCCGACGCCGGTGCATGCGATCATCACCAACTCCACCTATGACGGCCTGACCTACAACGTCACTCGCGTCGAAGAGTTGTTGGGGCAAAGCGTCGACCGCCTGCATTTCGACGAAGCCTGGTATGGCTACGCGCGTTTTAATCCGCTGTACAAGGATCGCTTTGCGATGCATGGCAGCCCGGACGATCACGACCCGTCGAAACCGACCGTGTTCGCCACCCAGTCCACGCATAAGCTGTTGGCGGCGCTGTCCCAGGCCTCGATGATCCATGTGCGCAACGGCCGCAATCCGATCCCCCATGGGCGCTTCAACGAGTCGTACATGATGCACGCCTCGACTTCGCCGAATTACGCAATCATGGCCTCCTGCGACGTCAGCTCGGCGATGATGGAGGCGCCCAGCGGGCAGATCCTCACCAGCGAGGCGATCGAGGAAGCCATCGCTTTCCGTCAGGTCATCTCGCATATGCAGAACGAGATGCGCAGCCATGACGACTGGTTCTTTTCCTGCTGGCAGCCGCCGTCGGTGCAGGTCGACGGGGCATCGATTGCGTTCCACGAAGCCGACCCGGCCAGGCTCAAAATCGATCCAGGCTGCTGGGTCCTGCACCCCAATGAGGTCTGGCACGGCTTCGGTGACATTGAAGACGGCTACTGCATGCTCGACCCGATCAAGGTCTCGATCCTAAGCCCCGGGATGGGCGACGACGGCAACCTGCTGGACTTCGGTATTCCGGCCTGTGTGCTCAGTGCCTACCTGGGCACGCAAGGCATCGTGGTGGAAAAAACCACTGATTTCACCATCCTGTTCCTGTTTTCCATCGGCATCACCAAGGGCAAGTGGGGCACGCTGGTCAACGCGTTGCTCGATTTCAAGCGCGACTACGACGCCAACCTGGAGCTGGAACTCTGCCTTCCCGACCTGTTGAGCGCCAACCAGCAACGTTATTCCGGCATGGGGCTCAAGGACCTCGCCGAGGAAATTTTCGCCGCCATGAAACAAACCAGGACCACTGCCGCCATGGCCCAGGCGTTCGGCACACTGCCTGAGACGCACTTCAGCCCGGTGGAGGCGTACGAGAAACTGGTCAAGAACGAGATCGAGCAAGTCACCCTCGAAGAAGCGGCCGGACGCATCGCCGCGACGGGTATCGTGCCGTATCCACCAGGAATTCCCTTGCTGATGCCGGGAGAGAATGCAGGGCCGTCGGAGGGACCGGTGCTGACCTACCTCAAGGCGCTGGAAAGCTTTGACCGATCGTTCCCCGGGTTCACCCATGACACCCATGGAATTGAAAGCGAAGCGGGCACTTATCGATTGCTGGTGCTGAAACAGTAG	MTEHRNLLGMLALLVSNAPDKRSVFGRALIQLISDVEDRAVSVLTSETLSDAKSILSSDPAIQCVLLSWEIDTSDDHRECIDLLTALRERNTRVPVFLISDRSTASNVPLIVMQHADDFIWLPEDTSRFLSGRILAAIERYRQAVLPPMFGALLKFARSYEYSWHTPGHAGGTAFLKSTAGRAFYEFFGENLLRSDLSISVGELGSLLDHSGPIGQGERYAAKVFGAHRTYYVTNGSSMSNRVILMASVTRDQIALCDRNCHKSAEHAMTLSGAIPTYLVPTRNRFGIIGPILPRTLSAEGVKAAIASNPLVKSHIDPTPVHAIITNSTYDGLTYNVTRVEELLGQSVDRLHFDEAWYGYARFNPLYKDRFAMHGSPDDHDPSKPTVFATQSTHKLLAALSQASMIHVRNGRNPIPHGRFNESYMMHASTSPNYAIMASCDVSSAMMEAPSGQILTSEAIEEAIAFRQVISHMQNEMRSHDDWFFSCWQPPSVQVDGASIAFHEADPARLKIDPGCWVLHPNEVWHGFGDIEDGYCMLDPIKVSILSPGMGDDGNLLDFGIPACVLSAYLGTQGIVVEKTTDFTILFLFSIGITKGKWGTLVNALLDFKRDYDANLELELCLPDLLSANQQRYSGMGLKDLAEEIFAAMKQTRTTAAMAQAFGTLPETHFSPVEAYEKLVKNEIEQVTLEEAAGRIAATGIVPYPPGIPLLMPGENAGPSEGPVLTYLKALESFDRSFPGFTHDTHGIESEAGTYRLLVLKQ	PGPT0012235_380	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0012235-adiA-K01584	NA	NA
D1-35_03838	1410	potE_1	COG0531	Putrescine transporter PotE	ATGTCAGTCGCCAAGAAGATGAGTGTGAGCCAGCTGACCATGCTGACCGCCGTCAACATGCTGGGGTCCGGCATCATATTGCTGCCGACCAAACTCGCCGAAGTCGGCGGCATCTCCATCCTGTCCTGGCTGATCACCGCCACGGGCTCGCTGGCATTGGCCTACGCGTTCGCCCGCTGCGGCATGCTCAGCCGCAAGACCGGCGGCATGGGCGGTTACGCCGAATATACCTTCGGCAAATCCGGCAACTACATCACCAACTACACCTACGGCCTTTCGCTGTTGATTGCCAACGTGGCGATCAGCATTACCGCGGTCGGTTATATCCAGACGTTGTTCGATATCAAGCTGGATTCGCTGCAAGTCGGCCTGGCGACCATCGCTTTGTTGTGGCTGACCACCTTCGCCAATTTCGGCGGCGCAGGCATCACCGGCAAGATCGGCGCCGTGACGGTGTGGGGAGTCATTGCCCCGGTGGTGCTGGTTTCCACCGTCGGTTGGTTCTGGTTCGACAGCAGCGTTTATGCCGCCGGCTGGAACCCTCACGACAAGACCTGGTACGAAGCGGCAGGCGCTTCGGTGGCGATCACGCTCTGGGCATTCCTCGGGCTCGAATCGGCCTGCGCCAACGGTGACGCGGTGGAAAATCCCGAGAAGAACGTGCCGATCGCGGTCCTCGGCGGGACCCTCGGCGCCGCGGTGATCTACATCGTTTCCACCAACGTCATCGCCGGTATCGTCGATAACGCCGAGCTGGTCTCCTCCACCGCGCCGTTCGGCCTGGTGTTCGCCAAGATGTTCACGCCGCTGGTGGGTGACATCGTCATGGGCCTGATGGTGCTGGCCTGCATCGGCTCGTTGCTTGGCTGGCAATTCACCGTGGCACAGGTCTTCAAGAGTTCGGCGGATACCGGCTATTTCCTGCCGATCTTCGCCAAGGCCAACAAGCATGGCGTGCCGATCATCAGCATGCTGATCCTGCTGGCGATGCAGACAACCATGGCGCTGCTGACCATCAGCCCGGACCTGGCCAAGCAGTTCGATACGCTGGTGAATCTCGCTGTGGTGACCAACCTGGTGCCCTACATTCTCTCCATGGCGACACTGGTGACCCTGCAAAAGGTTTCGAATGTCCCGGCGAACAAAGCCCTGGTCACCAATATCGTCGCGGGCATCGCCGCGGCCTACAGCTACCTGGCCCTCTACAGCTCGGGCGAACAAGCCTTGATGCTCGGCGGCGTCGCGGTGATCTTCGGCTATACGCTGTTCGGTTTCGTCAACACCCGCCTGATCCGCCTGGAGGCCATGAACAACAGCGTACCGACCCAGACCGTCGCGGCGCAGCACATCGTTGGCGAGCCCATTCCCGTCAACCACCTGAAGGCAGCTAATCTGGAGCCCTTGCCATGA	MSVAKKMSVSQLTMLTAVNMLGSGIILLPTKLAEVGGISILSWLITATGSLALAYAFARCGMLSRKTGGMGGYAEYTFGKSGNYITNYTYGLSLLIANVAISITAVGYIQTLFDIKLDSLQVGLATIALLWLTTFANFGGAGITGKIGAVTVWGVIAPVVLVSTVGWFWFDSSVYAAGWNPHDKTWYEAAGASVAITLWAFLGLESACANGDAVENPEKNVPIAVLGGTLGAAVIYIVSTNVIAGIVDNAELVSSTAPFGLVFAKMFTPLVGDIVMGLMVLACIGSLLGWQFTVAQVFKSSADTGYFLPIFAKANKHGVPIISMLILLAMQTTMALLTISPDLAKQFDTLVNLAVVTNLVPYILSMATLVTLQKVSNVPANKALVTNIVAGIAAAYSYLALYSSGEQALMLGGVAVIFGYTLFGFVNTRLIRLEAMNNSVPTQTVAAQHIVGEPIPVNHLKAANLEPLP	PGPT0007800_9	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007800-putE-K03756	NA	NA
D1-35_03839	996	yhdN	COG0667	Aldo-keto reductase YhdN	ATGATCACTCGTCAACTTGGCCACCAGGGTCCACACGTCAGCGCCATCGGCCTGGGCTGCATGGGCATGTCGGATTTCTACACCACGGGCACCGACGAGCGCGAATCCATCGCCACGCTCCACCGCGCCGTCGAGCTGGGCGTGACCCTGTTCGACACGGCCGACATGTACGGCCCGCACACCAACGAAGAACTGCTCGGGCGTGCCTTGCGCGGCAAGCGTGAAGGTATCTACCTGGCGAGCAAGTTCGGCCTGGTGCGCAGCGATGATCCGCATGCCCGGGGCGTCAATGGTCACCCCGAATACGTCCGGCAGTCGATCGATGGCAGCCTCAAGCGCCTGGGTACCGATTACCTCGATCTCTACTATCAGCATCGCATCGACCCACAGGTACCCGTCGAAGAAACCATCGGCGCCATGGCCGAGCTGGTCAAGGCCGGCAAGGTCCGCCACATCGGGATTTCGGAGGCCAGCGCCGAGACCATCCAGCGGGCCCATGCCGTGCATCCGTTGGCAGCGGTGCAAAGCGAATACTCGCTGTGGTCCAGGGAGCCGGAACACAACGGCGTGCTCGACACCTGCCGACGCCTGGGGATCGCTTTTGTCGCTTACAGCCCCCTGGGCCGCGGCTTTCTGACGGGCGAGCTGAAGACCCCTGATGACTTTGCCGCAGACGACTACCGCCGCTTCAACCCGCGTTTCCTCGCCGACAATTTCCAGCGCAACCTGGCCTTGGTCGAACGGGTCAAGGCGTTGGCTGAGCAGAAGCAGATCAGCGCCTCGCAACAGGCCTTGGGCTGGGTCCTGGCCCAGGGCAGCAATGTGATTCCGATCCCGGGCACCAAGCAGCGCAAGTACCTGGAAAGCAACGTCGCCGCCGCCAGCGTCTTCCTGAGCGCCGAGGAGCTGGCTCACCTGGATGCGATTTTCGGCGCCCAAGGCGCGGTGGCCGGCGAACGCTACAGCGCCGAGGTGATGACCTTGCTCGACGGCTGA	MITRQLGHQGPHVSAIGLGCMGMSDFYTTGTDERESIATLHRAVELGVTLFDTADMYGPHTNEELLGRALRGKREGIYLASKFGLVRSDDPHARGVNGHPEYVRQSIDGSLKRLGTDYLDLYYQHRIDPQVPVEETIGAMAELVKAGKVRHIGISEASAETIQRAHAVHPLAAVQSEYSLWSREPEHNGVLDTCRRLGIAFVAYSPLGRGFLTGELKTPDDFAADDYRRFNPRFLADNFQRNLALVERVKALAEQKQISASQQALGWVLAQGSNVIPIPGTKQRKYLESNVAAASVFLSAEELAHLDAIFGAQGAVAGERYSAEVMTLLDG	PGPT0009140_364	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009140-ydbC-K05275	NA	NA
D1-35_03840	924	dmlR_19		HTH-type transcriptional regulator DmlR	ATGGATCGATTACAGGCTATGCAGGTGTTCCGGCGCATCGTCGAACTGGGCGGTTTCGGCAAGGCCGCCGACGATCTGGGTTTGCCCCGGGCTACCGTCAGCCTGTTGATCCAGCAACTGGAGGGGCATCTGGGGGTGCAACTGCTACAGCGCACCACGCGGCAGGTGCGCGCAACCCTGGATGGCGAAGCCTATTACCAGCGCTGCGGCCAGTTGCTCGATGAACTGGACGACTTGGAAACCTCGCTGTCCGCGCAACGCAGCCAACCTCGCGGCACCCTGCGCGTGGACATGCCCATCGCCTTCGGCTGCACATGGATCGTGCCGAACCTGGCGGACTTCTATCGGCGCTATCCGCAATTGAAACTGGACCTGGGGTTTCATGACCGGTTGGTTCATCTGCAGCGTGAAGGGGTGGATTGCGCCATCCGGGCCGGCGCCATCAGCGACCAGGCGCTGGTGGCGCGACCGATCGTGCGGTTGTGCCAGGTGACTTGCGCCAGCCCTGGCTACCTGGCTCGTTCAGGTACGCCTGTGGCGCTGGAGGACCTGGCAGAGCACCGGGCCATCGGTTTCGCGTCCGGTAACGGTCGTTATTTCCCGTTCGAATTCGAAGTGGCAGGGCAGGTACGAGAGTTGCAAATGTCATCCGAGCTGACCGTCAACAACGCCGACGGCTACGTAACGGCTTGTGAGGCAGGATTCGGCCTGATCCAGGCGCCGCGTTACCACGTGCAACGGCAACTCGCCGAGGGGCGGTTGGTCGAGGTGCTGAGCGATCATCCGGTGCCGTCATGGCCAATTTCAGTGGTCTACCCGCCTCATCGACAGCTGTCGCCGAGGGTGAGGGTGTTCATCGATTGGCTGATCGAGTTGCTGCATGGCGCGGCGGATGCGGACGAGGCCCTGATGGTGCGGGTTTAA	MDRLQAMQVFRRIVELGGFGKAADDLGLPRATVSLLIQQLEGHLGVQLLQRTTRQVRATLDGEAYYQRCGQLLDELDDLETSLSAQRSQPRGTLRVDMPIAFGCTWIVPNLADFYRRYPQLKLDLGFHDRLVHLQREGVDCAIRAGAISDQALVARPIVRLCQVTCASPGYLARSGTPVALEDLAEHRAIGFASGNGRYFPFEFEVAGQVRELQMSSELTVNNADGYVTACEAGFGLIQAPRYHVQRQLAEGRLVEVLSDHPVPSWPISVVYPPHRQLSPRVRVFIDWLIELLHGAADADEALMVRV	PGPT0028940_466	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
D1-35_03841	429			hypothetical protein	ATGACCGTTACCACCCATCCCCTCTACCGAAGCACGCCAGGTCCGCTTCACGCGGTCCTGCTCGCCGGTAGCGTTCCGTTGTTTCTCGGGGCGCTGCTCAATGACATCGCGTACTACAAGACCTACCAGATCCAATGGAGCAATTTCGCCTCCTGGCTGATTGCCGGCGGACTGCTGTTCTGTGGGTTGGCATTGCTGTTTGCGCTGGTCAATCTGATCCGTGCGGAGCGCAAGGGCGGGCGTCCGGTGGTGTATTTCCTGCTATTGCTGGTGACCTGGGTACTCGGGCTGATCAATGCCTTCGAACATGCCAAGGACGCCTGGGCCATCATGCCCCAGGGCCTGGTTCTGTCGGTCGTCGTGACCCTGTTGGCCTGCGCTGCGGCGTGGGTCGGGCTGACCAATCTGCGTTCCGGAGGTGAGCAATGA	MTVTTHPLYRSTPGPLHAVLLAGSVPLFLGALLNDIAYYKTYQIQWSNFASWLIAGGLLFCGLALLFALVNLIRAERKGGRPVVYFLLLLVTWVLGLINAFEHAKDAWAIMPQGLVLSVVVTLLACAAAWVGLTNLRSGGEQ				NA	NA	NA	NA	NA
D1-35_03842	1293			hypothetical protein	ATGAAACCGCGCATCGCATTGACAGCCCTGAGCATGGCGTTGTTGTTGAGCGCCTGTGGAGGAGAAGGGGACGCCACTCAGGCACGCGGTCCGGACCCCAAATTGCCGGAGCCCCAGCGCGGGTTGTTGCCCAGCATGAAAATCGCCGAGCCGGTGCCCTGGGGCGAGCAGAAACCGACGGTACCGCAAGGCTACGACATCACCGCTATCGCCACCGATTTAAAGATTCCGCGCCAGACCCTGGTACTGCCCAACGGCGATATCCTGGTGGCCGAAGGCCGTGGCGGAAACGCTGCGAAGCTCAAGCCCAAGGATGTGATTGCCAGTGTCATCAAGGCCAAGGGCAACACCCAGGTCAAGGGCGGCAATCGCCTGACGCTGTTGCGCGACGCTGACGGTGACGGCACCTACGAGCTCAAGACGGTCTTCGCCGAAAACCTCAACGCACCCTATGGCCTGGCGTTTGCCGATGGCAAGCTGTACGTGGCCAACCAGGATGCACTGGTTCGCTTCGATTATCAGGAAGGCCAGACCAAGGCCAGTGGGGCGCCCACCAAGGTCACCGACCTGCCGTCCGAGATCAACCACCACTGGACCAAGGCGCTGGCCATCAGTCCCGACGGACGCTCGCTGTACGTTGGCATCGGTTCGAACAGCAACGTCACCGAGCGCGGCATGGAAGCCGAAATCGACCGGGCCATGGTCTGGCAGATCGACGCCGAGACAGGCGCCCACAAACCCTATGCGACAGGTCTGCGCAACCCGACGGCGTTGAAGGTCGAGCCTGGCTCCGGACAGTTGTGGGCGGTGGTCAACGAGCGTGACGAGTTGGGTCCCGACCTGGTGCCGGATTACCTGACATCGGTGCGTGAAGGCGCGTTTTATGGCTGGCCCTACAGCTATTGGGGGCAGAACGTCGACCCGCGCGCACAACCGCAGGATCCGCAAAAAGTCGCCGCTGCGGTCAAACCCGACTACAGCCTCGGGTCCCACGTCGCGGCACTCGGTGTCGATTTCTCCATCCCGGCCATGGGCGAGCAATTTGCCGAAGGCGCCTTCGTGGGTGAGCACGGCAGTTGGAACCGCGACCAGCCGGTGGGCTACAAGGTCATTTTCGTGCCGTTTCGCAATGGTCGTCCCGCTGGTGAACCGGTGGACTTCGCCACGGGTTTCCGCGGCGACGATGGCAAGACCCGTGGGCGGCCCGTGGGTGTGACCGTTGATCCGCGCGGTGCGTTGATCATCGCCGATGACCTGGCGAACACCGTGTGGCGGGTGACTCGCAAGCCATGA	MKPRIALTALSMALLLSACGGEGDATQARGPDPKLPEPQRGLLPSMKIAEPVPWGEQKPTVPQGYDITAIATDLKIPRQTLVLPNGDILVAEGRGGNAAKLKPKDVIASVIKAKGNTQVKGGNRLTLLRDADGDGTYELKTVFAENLNAPYGLAFADGKLYVANQDALVRFDYQEGQTKASGAPTKVTDLPSEINHHWTKALAISPDGRSLYVGIGSNSNVTERGMEAEIDRAMVWQIDAETGAHKPYATGLRNPTALKVEPGSGQLWAVVNERDELGPDLVPDYLTSVREGAFYGWPYSYWGQNVDPRAQPQDPQKVAAAVKPDYSLGSHVAALGVDFSIPAMGEQFAEGAFVGEHGSWNRDQPVGYKVIFVPFRNGRPAGEPVDFATGFRGDDGKTRGRPVGVTVDPRGALIIADDLANTVWRVTRKP				NA	NA	NA	NA	NA
D1-35_03843	765	bacC_1		Dihydroanticapsin 7-dehydrogenase	ATGAGCGATATCAAACACAACATTCCCCACGAAGTTGAAGGCAAGGTCGCCCTGGTCACTGGCGCCGCCAGCGGTATCGGCAAGGCCATTTCCCTGTTGCTACACGCCCGTGGCGCCAAGGTGATCGCCGAGGACATCAACCCCGCCGTCAACGAGCTGGCCCGCCCGGGACTGGTGCCGCTGGTGGCTGACATTACCGAGGACGGCGCCGCCGAGCGCGCGGTGGGCCTGGCGGTCGAGCAGTTCGGCCGGTTGGATATCCTGGTCAATAACGCCGGCATCATCATCAACAAACTCGTGGTCGACATGACGCGCCAGGATTGGGAACGCATCCAGGCCGTCAACGCCACCGCGGCGTTCCTGCACTCACGCGAAGCGGTCAAGGCAATGATGCCCAACAAGTCCGGGGCCATCGTCAACATTGCCTCCTATGCATCCTATTTCGCTTTCCCGACCATCGCCGCCTACACCGCGTCCAAGGGCGCCCTGGCGCAGTTGACCCGCACGCTGGCGCTGGAAGCCATCGAGCATGGCATCCGAGTCAATGCGGTCGGCGTTGGCGATGTGGTCACCAATATCCTCAATGACGTGGTCGAGGACGGCCCGCAGTTTCTCGCCCAGCACGGCGAAGCCGCCCCCATCGGCCGGGCCGCGCAACCTGAAGAAATCGCCGAGGTGGTCGCCTTCCTGGCCTCGGACCGTGCCAGCTTCATGGTCGGCTCGGTGGTCATGGCTGATGGCGGCATGACAGTCACCGCCGGCTGA	MSDIKHNIPHEVEGKVALVTGAASGIGKAISLLLHARGAKVIAEDINPAVNELARPGLVPLVADITEDGAAERAVGLAVEQFGRLDILVNNAGIIINKLVVDMTRQDWERIQAVNATAAFLHSREAVKAMMPNKSGAIVNIASYASYFAFPTIAAYTASKGALAQLTRTLALEAIEHGIRVNAVGVGDVVTNILNDVVEDGPQFLAQHGEAAPIGRAAQPEEIAEVVAFLASDRASFMVGSVVMADGGMTVTAG	PGPT0014705_1052	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0014705-gdh|ycdF-K00034	NA	NA
D1-35_03844	840	fabG_8		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAGCAATCGTAAAACCTGGCTGGTCACCGGCTGTTCCACTGGTTTTGGTCGATACATTGCCGAGCATCTGCTCAAGCAGGGTGAGCGCGTGGTCGTCACCGCCCGCAAAGTCGAGCAAGTGCAGGACCTGGGCCGCCTCGGCGAAGCTCTGGTGCTGCCGCTCGATGTCACTGACCCACAGCAGGCCCGCGACGCAGTGGCCGCCACCGAGCGAGTCTTTGGTAAGGTCGACGTGTTGATCAACAACGCCGGTATCGGTTACTTCGCCGCCGTCGAGGAGACCGATCCGCAGGCAGCGCGTCGGCTTCTGGAGGTCAACCTGGTCGGTACCGCGAACATGATCCACGCGGTGCTGCCTGGCATGCGCCGGCGGCGGCAGGGGATGATCGTCAACCTGACGTCCATCGGCGGGCTCGCCGGCTTTCCTGCGGTGGGTTATTACTGCGCGAGCAAGTTTGCTGTGGAAGGGCTCAGCGATGCCTTGCGGGCCGAAGTCGAACCGCTCGGCATCCGGGTCATGACCGTGCAACCCAGCGCGTTTCGCACCGAGTGGGCCGGCTCGGCAGCCGAGGTATGCGAGTCGATCGACGACTACGACGCCACCGCAGGCGCCGCACGCCGCGCTTATCACGTCTCGGTCGGCAGGCAGGAAGGCGACCCGGCGCGTGCGGCCGCGGCGATCTATACCGCGGTCAATGCCGAGCAGCCGCCTCAGCGGTTGCTGTTGGGCAATCGCGCGTTCGAAGTGGCGATGGCCAAGCTGTCCGCCATGCAGGAAGAGTTTCGCGCGTGGGAGGCCACGGCGCGTGGAGCTGATTTTCCTGGTCTGGAGCATTGA	MSNRKTWLVTGCSTGFGRYIAEHLLKQGERVVVTARKVEQVQDLGRLGEALVLPLDVTDPQQARDAVAATERVFGKVDVLINNAGIGYFAAVEETDPQAARRLLEVNLVGTANMIHAVLPGMRRRRQGMIVNLTSIGGLAGFPAVGYYCASKFAVEGLSDALRAEVEPLGIRVMTVQPSAFRTEWAGSAAEVCESIDDYDATAGAARRAYHVSVGRQEGDPARAAAAIYTAVNAEQPPQRLLLGNRAFEVAMAKLSAMQEEFRAWEATARGADFPGLEH				NA	NA	NA	NA	NA
D1-35_03845	951			hypothetical protein	ATGCCGTCATCAGGACTAGCGACGAACGTCTCTCACCGACCAAGGCTTGCGGATCTCAAACCGCTTGTCCAATCCTTGCGGGCAGCTCCCGCTGCCCTGCGCAGACAGGCGGAACCCAGCGTCACTCCGGCAACACAGCTGGAGAATCGAGAGGGTTATCGCAGCGACTTCCTTGGCGATTTCCTGGTGCCCTGGCCGTCCCTGGATGCAGCCCAGGCAGAGGACGTCCACCCGACGGGCGCAGCCATGAATCGCCTGGATTACACCCATTTCTCCATCATCATGTCTCGAAGTCGACGATTGGCGCTCGTGGCGGGAGTCAATATCGATGGCGCCAGCAGTGTCGAAGTCGATCGCGGGCGCGATGCCTGGGCCTATGACGGGCGACTGCCCAGCGATGCGCAGCTCGGCGAAGAGCTCTATGCCGACAACCTGCTGGATCGCGGCCATCTGGTGAGGCGCCAGGACCCCAACTGGGGCCAGGAGGCGCACACGGCCAACACCGACACCTTCCACTTCACCAACTGCTCGCCACAGATGGCCGCCTTCAACCAGAAAACCTGGCTGGAGCTCGAGGACTATATCCTCGACAACACTCGCCGCTGGAAAGCCCGGGCGACGGTATTCACCGGGCCGTTGCTGCGCGAAGATGATCCGACCTATCGGGGCGTGCAGATCCCCACCGCGTTCTGGAAAGTCGTGGCATTCCTCGGTGACGACGGCAAGCCCTCGGCCAGCGCCTACATGATTGACCAACGCCGGGAACTGGGGAAACTGGAACTCCTGTTCGGAGCGCTCAAGACCTACCGACACAGCGTTGATCAGATCGAAACGCTGACGGGTGTTCGTTTTGGTGATCTGGCCGACTACGACGGTTTCTCGAACGAGGAACGCTTGACCGGAACACGGATTGAAGCGGCCATCCGCGGGCCCGAAGATATCCTTCTGTAA	MPSSGLATNVSHRPRLADLKPLVQSLRAAPAALRRQAEPSVTPATQLENREGYRSDFLGDFLVPWPSLDAAQAEDVHPTGAAMNRLDYTHFSIIMSRSRRLALVAGVNIDGASSVEVDRGRDAWAYDGRLPSDAQLGEELYADNLLDRGHLVRRQDPNWGQEAHTANTDTFHFTNCSPQMAAFNQKTWLELEDYILDNTRRWKARATVFTGPLLREDDPTYRGVQIPTAFWKVVAFLGDDGKPSASAYMIDQRRELGKLELLFGALKTYRHSVDQIETLTGVRFGDLADYDGFSNEERLTGTRIEAAIRGPEDILL				NA	NA	NA	NA	NA
D1-35_03846	1350	oprD_5		Porin D	ATGTCGCCCGCATCCACAAACATGATTGTACCCGGGCCAGCACCGGTCGCCCTGAAGCCGATCTGGCTGCTGGCTTTGCTGGCGGGAAGCGCACCCGCACTGGCAGGACAAACCGCCGAGGGTTTCCTGCAAGGGGCGACATTTGAGGTGCTGAGCCGCAACTTCTACCTCAACAATGACTACCGGTCCCCGACCCCGGCGGGCAAGAGCTACAAGGCGGAATGGGCCCAGGGCTTCATCGCCACGTTCGAGTCCGGCTTCACGCCCGGCATCGTCGGTGCAGGCATCGACGCCCATGGGTTCGTCGGTTTGAAACTGGACGGCGGCAAGGGCCACTCGGGGACGGGACTGCTGCCGCTGGACGAAGACGGGCGCAGTGAGGACGAATACTCCAGCGCCGGCGCTGCACTGAAATTCAACACCTCGCGAACCACCTTGGCGCTGGGCGAAATGACCGTCGCGACACCGGTATTCGATACGGCTGACAAGCGCCTGCAACCGGAATACGCCAGCGGCGTGTTGTTGTCGAGCCAGGAAATCGATGAGGTCGATTTGCAGGCGGGTCATTTCAACGCCTTCAAGAATCAGGATGCCTCCACCGCCAAAGGTGATTTCTCCGGTTATGGGGCAAGTACCCGCCACGGCAGTATCGACTTCATCGGTGCCGACCTGTTCAGCGGCCGCACGGTGGGCGGCGCGCTCTATGCTTCCGAGCTGAGCGACACCTGGCGCCAGTACTACGGCAATCTGCATTCGACGCTGGGCCAGCTGTTCCTCGACGGTAACGTCTACTACACCCGCGACCATGGCCAGGCCAGCGCAGGCGCCATCGACAACACGGCCTTCAGCCTGTCCGGCAAATATCGACATGAAGCCCAGGCATTCACCTTGGCGTACCAGAAAATCAACGGCGACACGCCTTTCGATTTCGTTGGTGGTGACTCCATCTACCTGGCCAACTCGATCAAATACGCTGATTTCAATGGCCCGGGCGAACGCTCCTGGCAGGCTCGTTATGACCTCGACCTGGGCACGTTGGGCATCCCCGGCTTGAGTTTCATGGCCCGCTATGTAACCGGCGACGGGATAGATGGCAGCCATGCGCCACGGGGCGGCGCCTACAACCCGTTCGACAGCGACACCGGAACCTACAGCCCGCAGCAGGGGGACGGCGGCCGTCATTGGGAGCGCGACCTGGACCTGCATTACGTCGTGCAATCAGGGCCGGCCAAGGACCTGTCGCTGCAACTGTCCCACGTCACCCACCGCGCCAACAGCGCCCAGGCCGGCGATGACATCGACAGGCTGTACGTCGTCATCCAGTACCCGCTGAAGCTCGGACCGTTCTGA	MSPASTNMIVPGPAPVALKPIWLLALLAGSAPALAGQTAEGFLQGATFEVLSRNFYLNNDYRSPTPAGKSYKAEWAQGFIATFESGFTPGIVGAGIDAHGFVGLKLDGGKGHSGTGLLPLDEDGRSEDEYSSAGAALKFNTSRTTLALGEMTVATPVFDTADKRLQPEYASGVLLSSQEIDEVDLQAGHFNAFKNQDASTAKGDFSGYGASTRHGSIDFIGADLFSGRTVGGALYASELSDTWRQYYGNLHSTLGQLFLDGNVYYTRDHGQASAGAIDNTAFSLSGKYRHEAQAFTLAYQKINGDTPFDFVGGDSIYLANSIKYADFNGPGERSWQARYDLDLGTLGIPGLSFMARYVTGDGIDGSHAPRGGAYNPFDSDTGTYSPQQGDGGRHWERDLDLHYVVQSGPAKDLSLQLSHVTHRANSAQAGDDIDRLYVVIQYPLKLGPF	PGPT0028135_31	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028135-oprD-K18093	NA	NA
D1-35_03847	693	bluF		Blue light- and temperature-regulated antirepressor BluF	ATGGCGTTCCAACCAATCTTCAATGTCCGCACGCGCACAGCCTTTGCCTATGAGGCACTGGTCAGAGGCGTGAACGGCGAATCGGCAGGTTATATCCTCGGGCTGGTGAATGACGGCAACCGTTACCGGTTCGACCAGGCCTGCCGGGTGAAAGCGATTGAGGAGGCTGCCAGGCTGGGTATCCTCGACATTCCCGGTTGCCTGCTGAGCATCAATTTCCTGCCCAACGCCGTGTACCGGGCCGAGACCTGCATACGGGCGACATTGGAAGCTGCGCGTCAAAGCCGCTTTCCGCCGGACAGGCTCATGTTCGAGGTCACGGAAGGCGAAAGGGTGGACGACCCCGAGCACCTCAAGTCGATCTTTCTGGAGTACGAACGTCAGGGTTTCACTACCGCAATCGATGATTTCGGTTCTGGCTACTCGGGGCTCAATCTGCTTGCGCTGTTCCAGCCCCAAGTGCTGAAGATCGACATGGCGTTGACCCGAGGCATCGACCAGGATCCGGTCAGGCGCGCGATTGTCGAGGGGATCATCCTGGTCGCCGGCCGGCTGGGGATTACCGTCATCGCCGAGGGCGTCGAGACGCGAGAAGAAAGCGCGACGCTGCTGGAGTTGGGCATCGAGCTGATGCAGGGGTATCTCTATGCGCGGCCCGAGACGGGGCGGCTTGCGGTGGGCAGGTTCGATTAG	MAFQPIFNVRTRTAFAYEALVRGVNGESAGYILGLVNDGNRYRFDQACRVKAIEEAARLGILDIPGCLLSINFLPNAVYRAETCIRATLEAARQSRFPPDRLMFEVTEGERVDDPEHLKSIFLEYERQGFTTAIDDFGSGYSGLNLLALFQPQVLKIDMALTRGIDQDPVRRAIVEGIILVAGRLGITVIAEGVETREESATLLELGIELMQGYLYARPETGRLAVGRFD	PGPT0026255_256	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-BF-BLUE_LIGHT|COLD|STARVATION_SIGNALLING,PGPT0026255-bluF|ycgF-K21973	NA	NA
D1-35_03848	1752	QRSL1		Glutamyl-tRNA(Gln) amidotransferase subunit A, chloroplastic/mitochondrial	ATGTTCTTCGTCAGCCGAAGCGGTAACAGCATGATTGAAATCACCGAAGTCTCCATTGCCCAACTCCGGGCCGCGCTGGAATCCGGCCAGACCACGGCGGTCGAGCTGGTCCAGGCCTATCTCGCCCGGATCGACGCCTATGACGGTCCCGACACGCCTACCGCCCTCAACGCGGTGGTGGTTCGCAACCCTTCTGCGCTGGACGAGGCCAAGGCGTCCGATGCCCGTCGGGCCAAGGGCCAGACTCTGGGTCCCCTCGATGGCATTCCCTATACCGCCAAGGACAGTTATCTGGTGAAGGGGCTCACCGCTGCGTCTGGAAGCCCGGCCTTCAAGGACCTGGTTGCCCATCGCGACGCCTTCACCATCGAACGCCTGCGTGCCGCCGGGGCGATCTGCCTGGGCAAGACCAATATGCCGCCGATGGCGAACGGCGGCATGCAGCGCGGTGTTTATGGCCGCGCCGAAAGCCCTTATAACGCGGATTACCTCACCGCGCCTTTTGCCTCCGGTTCGTCGAACGGCGCGGGCACTGCCACCGCTGCCAGTTTCGCCGCCTTCGGCCTCGCTGAAGAAACCTGGTCCAGCGGACGCGGCCCGGCCTCCAACAATGGCTTGTGTGCCTACACGCCCTCGCGCGGGGTGATCTCGGTGCGCGGCAACTGGCCCCTGACGCCGACGATGGACGTTGTCGTGCCCTACGCCAGGACCATGGCCGACCTGCTGGAAGTGCTGGAAGTGGTGGTGGCGAACGACCCCGACCCCCGTGGCGACCTGTGGCGCCTGCAACCCTGGGTGCCGATTCCGTCCGTCGATTCGGTCCGTCCCGCCTCGTACCCGAACCTTGCCGCCAATCCCGAAGCGTTGGCCGGCATCCGTTTCGGCGTGCCGCGCATGTACATCAATGCCGACCCCGAGGCGGGCACCGCTGAAAAGCCAGGCATTGGCGGCCCGACCGGGCAACGAATCATCACTCGCCCGTCGGTGATCGCCCTCTGGGAAGCCGCGCGCCAAACCTTGGAGGCCCAGGGCGCCGAAGTGATCGAGGTGGATTTCCCGCTGGTGTCCAACTGCGAGGGCGATCGCCCTGGCGCGCCGACGGTGTTCACCCGCGGCCTGGTGTCCAAGGAGTTCCTGCACCATGAACTCTGGGACCTGTCGGCCTGGGCGTTCGACGATTTCCTGCGGGCCAACGGCGATCCGAAACTCAATCGCCTGGCCGACGTCGACGGACCGCTGATTTTCCCTCACGACCCGGGCACCCTGCCCAATCGCGAGGATGATCTTGCCGCCGGCATGGACGAATACGTGAAGATGGCCCAGCGCGGCATCACGCCGTGGGATCAAATCCCGACGTTGCCCAATGGCTTGCGCGGCCTCGAAGAGACACGCCGGATCGATCTTGAAGACTGGATGGAGCGGCTCGGGCTGGATGCGGTGATCTTCCCTACCGTGGCGGACGTCGGGCCCGCCGACGCGGACGTCAACCCGGAGTCAGCCGACATTGCCTGGAGCAATGGCGTATGGGTCGCCAACGGCAACCTCGCCATCCGCCACCTCGGCGTGCCAACCGTCACCGTGCCGATGGGCGTCATGGCGGACATCGGCATGCCGGTCGGGCTGACGTTCGCGGGCCGTGCCTATGACGATTCGAAACTGCTGCAGCTGGCCTCGGCATTCGAGTCGACGGGCTCGAAACGGATGATCCCGCCGCGGACTCCGCCGTTGTCTGGTGATCATCCGCGCGCGTGA	MFFVSRSGNSMIEITEVSIAQLRAALESGQTTAVELVQAYLARIDAYDGPDTPTALNAVVVRNPSALDEAKASDARRAKGQTLGPLDGIPYTAKDSYLVKGLTAASGSPAFKDLVAHRDAFTIERLRAAGAICLGKTNMPPMANGGMQRGVYGRAESPYNADYLTAPFASGSSNGAGTATAASFAAFGLAEETWSSGRGPASNNGLCAYTPSRGVISVRGNWPLTPTMDVVVPYARTMADLLEVLEVVVANDPDPRGDLWRLQPWVPIPSVDSVRPASYPNLAANPEALAGIRFGVPRMYINADPEAGTAEKPGIGGPTGQRIITRPSVIALWEAARQTLEAQGAEVIEVDFPLVSNCEGDRPGAPTVFTRGLVSKEFLHHELWDLSAWAFDDFLRANGDPKLNRLADVDGPLIFPHDPGTLPNREDDLAAGMDEYVKMAQRGITPWDQIPTLPNGLRGLEETRRIDLEDWMERLGLDAVIFPTVADVGPADADVNPESADIAWSNGVWVANGNLAIRHLGVPTVTVPMGVMADIGMPVGLTFAGRAYDDSKLLQLASAFESTGSKRMIPPRTPPLSGDHPRA	PGPT0006115_510	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
D1-35_03849	1005	gap3	COG0057	Glyceraldehyde-3-phosphate dehydrogenase 3	ATGACGATCAAAGTAGGCATCAACGGTTTCGGACGCATAGGTCGCCTTGCCTTGCGCGCAGCCTGGGGCTGGCCGGATTTCGAGTTCGTGCAGGTCAACGATCCGGCGGGCGACGCGGCGACCCATGCGCATCTATTGAACTTCGATTCGGTGCACGGCCGCTGGAACCGCCAGGCCGACGCCGATGGCGCCAGCATGATCATCGAGGGGCAGCGCATCAAGGTCACAGCCAACAAAGCGATCGCCGACACCGACTGGTCGGGCTGCGATGTGGTGATCGAGGCCAGCGGCAAGATGAAGACGGTCGCGGTGCTCCAGGCGTATCTCGATCAGGGCGTGAAGCGCGTGGTGGTCAGTGCCCCGGTGAAAGAGCAAGGCGCCTTGAATATCGTCATGGGGGTCAATCACCAGCAGTTCGAGCCGGACCGGCATCGCATCGTGACGGCGGCTTCCTGCACCACCAACTGCCTGGCACCCGTGGTCAAGGTAATCCACGAGAAGCTCGGCATCCGTCACGGCTCGATCACCACGATCCATGACCTGACCAATACCCAGAGCATCCTCGACCAGCCGCACAAGGACCTGCGCCGCGCCCGGGCGTCGGGCATGAGCCTGATTCCCACCAGCACCGGCTCGGCCACCGCTATCGCCGAAATCTTTCCCGAGCTGCGCGGGCGCCTCAATGGCCATGCCGTGCGGGTGCCGTTGGCCAATGCGTCGCTGACCGATTGCGTGTTCGAGGTCGAGCGAGCTACCACGGTGGAGCAAGTGAACGGTTTTCTCAAGGACGCAGCCGAGCACGAGCTCAAGGGCATCCTCGGTTTTGAGGAGCGCCCTCTGGTGTCCATCGACTACCGCACCGATCCGCGCTCGTCGATCATCGATGCGCTGTCGACCCTGGTTGTCAACGGCACCCAGGTCAAGCTTTATGCCTGGTACGACAACGAATGGGGCTACGCCAACCGCACCGTCGAACTGGCCCGGATGGTTGGCCTGGCTGTCTGA	MTIKVGINGFGRIGRLALRAAWGWPDFEFVQVNDPAGDAATHAHLLNFDSVHGRWNRQADADGASMIIEGQRIKVTANKAIADTDWSGCDVVIEASGKMKTVAVLQAYLDQGVKRVVVSAPVKEQGALNIVMGVNHQQFEPDRHRIVTAASCTTNCLAPVVKVIHEKLGIRHGSITTIHDLTNTQSILDQPHKDLRRARASGMSLIPTSTGSATAIAEIFPELRGRLNGHAVRVPLANASLTDCVFEVERATTVEQVNGFLKDAAEHELKGILGFEERPLVSIDYRTDPRSSIIDALSTLVVNGTQVKLYAWYDNEWGYANRTVELARMVGLAV	PGPT0018000_5699	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
D1-35_03850	1206			hypothetical protein	ATGAAAGCCTTGTCAGCCTTAGCGCCGCAAGTGCGACAGTACCTGCTCGTCACCGGTAATTACTGGGCTTTTACCTTGACCGACGGCGCCCTGCGGATGCTGGTGGTGCTGCACTTCCACGCGTTGGGCTACAGCCCGTTGCAGATTGCCGCGCTGTTCCTGTTTTACGAACTCTTCGGCGTGGTCACCAACCTGCTGGGCGGCTACCTCGGTGCCCGGCTGGGCCTGAATCGGACGATGAACATCGGCCTGGGCCTGCAAGTGGTGGCGCTGCTGATGCTGACGGTTCCGTCCGCCTGGCTGACCATCGCCTGGGTGATGATGGCCCAGGCGCTTTCGGGAATCGCCAAGGACCTGAACAAGATGAGCGCCAAGAGCTCCATCAAGCTTCTGGTGCCTGACGGTGAGCAGGGCAGGCTTTATCGCTGGATAGCGATCCTCACCGGCTCGAAGAACGCGCTCAAAGGCGTCGGCTTTTTTCTCGGTGGGGCGTTGCTCGCATGGATCGGTTTCCAGGGCGCATTGTTGGCGATGGCCGCCGTGTTGGCACTGATCTGGGGCGGTAGCCTGATCCTGCTGAAGAAGGACCTGGGCAAGGCCAAGGCCAAGCCCAGATTTCGCGACATCCTTTCCAAGAGCCGGGCGATCAATATTTTGTCGGCCGCGCGAATGTTCCTGTTCGGCGCCCGGGATGTCTGGTTCGTGGTGGCCCTGCCGGTCTACCTGAGCAGTGTCTACGGCTGGAATTTCTCGACCGTGGGCGGATTTCTCGCCGCGTGGGTCATCGGCTACGGCATCGTGCAATCCCTGGCGCCGAACATCACCGGCAAGAAACGCGGGCAGGTGCCGGATGGGCGCGCCGCGTTCCTCTGGGCGCTGGCGTTGGCGGGCTTGCCGGCGGCGATGGCCCTGGGGCTGTCACAACAGGCGATGCTGTTGGGCGGGCTGATGGTCTTTGGCGGGCTGTTCGCGGTGAATTCTTCCCTGCACAGTTATCTGATCGTGTCGTACGCCAAGGAGGACGGCGTGTCGCTGGACGTGGGTTTCTATTACATGTCCAACGCCATCGGCCGGCTGGCCGGGACGCTGCTTTCAGGTTGGGTCTACCAAGGGTACGGGCTGGCGGCATGCCTGTGGATTTCCAGTGCATTCGTGTTGCTCGCTGCCCTGATTTCGTTGGCGTTGCCTCGTCACGCAACGCACTGA	MKALSALAPQVRQYLLVTGNYWAFTLTDGALRMLVVLHFHALGYSPLQIAALFLFYELFGVVTNLLGGYLGARLGLNRTMNIGLGLQVVALLMLTVPSAWLTIAWVMMAQALSGIAKDLNKMSAKSSIKLLVPDGEQGRLYRWIAILTGSKNALKGVGFFLGGALLAWIGFQGALLAMAAVLALIWGGSLILLKKDLGKAKAKPRFRDILSKSRAINILSAARMFLFGARDVWFVVALPVYLSSVYGWNFSTVGGFLAAWVIGYGIVQSLAPNITGKKRGQVPDGRAAFLWALALAGLPAAMALGLSQQAMLLGGLMVFGGLFAVNSSLHSYLIVSYAKEDGVSLDVGFYYMSNAIGRLAGTLLSGWVYQGYGLAACLWISSAFVLLAALISLALPRHATH	PGPT0004756_41	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ARSENIC_RESISTANCE	ARSENIC_RESISTANCE-ARSENIC_TRANSPORT,PGPT0004756-arsJ-NA	NA	NA
D1-35_03851	732	mngR	COG2188	Mannosyl-D-glycerate transport/metabolism system repressor MngR	ATGAACGCCCTGTCCAGCGACGCCCGCCTGCCGCTTTATCAACGTTTGCGTGACCAGCTGGCGGAGCAGATCGCCAACAATCGCTGGCGTCCGGGGGAGGCGATTCCGACCGAGGCAGCGTTGTCAGCCGAATACCAGCTGTCCACCGGAACCGTGCGCAAGGCAATTGATGCCTTGGTCAGCGAGGGCATCCTGGAGCGCCAGCAAGGGCGGGGCACCTTCATTCGTCGTCCGCAGTTCCAGTCATCGTTGTTTCGTTTCTTTCGCTTTCAGTCGGCGTCCGGTGAACGCCGGGTTCCGCAGAGTCGCATCCTGTCTGTCGAGCCGGTGGCGGCGCCATCGGCGGTCGCGCAGGCCTTGGGGTTGCCGGTCGATGCGCCGGTGATCCGCATCGTCCGGGTGCGTCTGCTGGAAGTCGAGCCGGTGCTCGCCGAAGAAATCTGGCTGCCACGTGGCCGATTCCAGCCGTTGCTGGAGATCGACCTGAACCAGAAAGGGCCGTTGCTCTATCCCATCTACGAGGAAATCTGCGGGCAGGTGGTTGCCTATGCGCAGGAAACCCTCACGGCCGAATCGGTCAACGAGGTGCATGCGCGCCTGTTGCAGGTTCCGGTCCACAGCCCGGTGGTGGTGATCGAGCGCCTGGCCCGCGATTACGCCGGCAACCCGCTGGAATGGCGCCGTTCGCGCGGGCATGCCGAGCATTTCCGCTACAGCGTCGAAATCCGCTGA	MNALSSDARLPLYQRLRDQLAEQIANNRWRPGEAIPTEAALSAEYQLSTGTVRKAIDALVSEGILERQQGRGTFIRRPQFQSSLFRFFRFQSASGERRVPQSRILSVEPVAAPSAVAQALGLPVDAPVIRIVRVRLLEVEPVLAEEIWLPRGRFQPLLEIDLNQKGPLLYPIYEEICGQVVAYAQETLTAESVNEVHARLLQVPVHSPVVVIERLARDYAGNPLEWRRSRGHAEHFRYSVEIR				NA	NA	NA	NA	NA
D1-35_03852	1290	naiP_2		Putative niacin/nicotinamide transporter NaiP	ATGTTCAGTTGGTATCGCCAGATCACTTCGCGGGAGCGCAAGACGTTTTGGGCGTGTTTTGGCGGCTGGTCGCTCGACGCGCTGGAGGTCCAGATGTTCGGCCTGGCGATACCGGCGTTGATCGCCGCGTTCGCCTTGTCCAAGGGCGATGCGGGGCTGATCAGCGGCGTTACGCTGGTGACCTCGGCCCTGGGTGGCTGGGTCGGCGGGACGCTATCCGACCGTTATGGCCGGGTGCGCACGCTGCAATGGATGATCCTGTGGTTCTCGTTCTTCACCTTCCTGTCGGCGTTCGTCACGGGCTTTCACCAACTGTTGATCGTCAAGGCATTGCAGGGCTTTGGCATTGGCGGAGAGTGGGCCGCCGGCGCGGTGCTGATGGCCGAGACGATCAATCCGAAATACCGCGGCAAGGTCATGGGCACGGTCCAGAGCGCCTGGGCGGTGGGTTGGGGGCTGGCTGTCGGGGTCTTTACGCTGATCTACTCCCTGGTGCCGCAGGACATGGCCTGGCGGGTGATGTTCATCGTCGGCCTGCTGCCGTCGTTCCTGATCATCTGGGTGCGCCGCAACGTCGAGGAGCCGGACAGTTTCCAGCGGCTGCAAAAGGAACAGGCGATTCCGCAGAGCTTCTTCAAGTCCCTGGGCGGCATCTTTCGCCCGGAACTGATTCGCGTGACCCTGTTCGGCGGTTTGCTCGGGTTGGGTGCCCACGGCGGTTATCACGCGGTGATGACCTGGCTGCCGACCTTCCTCAAGACCGAGCGCAACCTGTCGGTGCTCAATTCCGGCGGCTACCTGGCGGTGATCATCTTTGCCTTCTGGTGCGGTTGTGTCGTCAGTGGCTTGCTGATCGATCGCATCGGCCGGCGCAAGAACATCCTGTTGTTCGCGCTGTGCTGTGTGGTGACCGTGCAGTGCTACGTCTTCCTGCCGCTGAGCAATACGCAGATGTTGTTCCTGGGCTTCCCGCTCGGCTTTTTCGCAGCCGGCATTCCGGCCAGCCTCGGGGCGTTCTTCAACGAGTTGTACCCGGCGGATGTACGCGGTGCCGGCGTCGGTTTCTGCTACAACTTCGGCCGGGTGCTGTCGGCGGTATTCCCGTTCCTGGTGGGGCACATGAGCGATTCCATGTCCCTGGGATCAGCCATCGGCATTGATGCGGGCATCGCCTACGGCGTGGCTGTGCTCGCGGCGCTTTGCCTGCCGGAAACCCGCGGCCGTAGCCTTGAGGCATCTGCGTCACCGGCGCCCGCCGTGGCATCTGCCAGCGAGAGCGCCCGCGCCTGA	MFSWYRQITSRERKTFWACFGGWSLDALEVQMFGLAIPALIAAFALSKGDAGLISGVTLVTSALGGWVGGTLSDRYGRVRTLQWMILWFSFFTFLSAFVTGFHQLLIVKALQGFGIGGEWAAGAVLMAETINPKYRGKVMGTVQSAWAVGWGLAVGVFTLIYSLVPQDMAWRVMFIVGLLPSFLIIWVRRNVEEPDSFQRLQKEQAIPQSFFKSLGGIFRPELIRVTLFGGLLGLGAHGGYHAVMTWLPTFLKTERNLSVLNSGGYLAVIIFAFWCGCVVSGLLIDRIGRRKNILLFALCCVVTVQCYVFLPLSNTQMLFLGFPLGFFAAGIPASLGAFFNELYPADVRGAGVGFCYNFGRVLSAVFPFLVGHMSDSMSLGSAIGIDAGIAYGVAVLAALCLPETRGRSLEASASPAPAVASASESARA				NA	NA	NA	NA	NA
D1-35_03853	807			4-sulfomuconolactone hydrolase	ATGACCGGCATCGACTGCCATGCCCACGTGTTCAGCCGTGAGCTGGAGCTGGCTGCCGTGCGGCGTTACACACCGGACTATGACGCTACGCTTGCGCAATACCTGAACCATCTGCAGACCCATGGCTTGAGCCATGGTGTTCTGGTTCAGCCGAGCTTTCTCGGCACCGATAACCGCTACCTGCTCGCCGCGCTGGAACAGGCGCCGGAGCAACTGCGCGGGGTCGTGGTGGTGGAACCGGATATCAGCCGAGTCGAGCTGGAGGAGATGGCGCGGCTGGGCGTGGTCGGCGTTCGCTTGAACCTGATGGGCACGGCCTCGCCCGACTTTCGCGAAACCCTGTGGAAAGACTTCCTTGGCCACCTTGCCGAATTGGATTGGCATGTCGAATTGCATGCCCCGGTAGAACAACTGCCGGGACTGATTCGCCAGTTGATGCCGTTCGGCGTGCGCTTGGTGGTCGACCACTTCGGTCGCCCCGATGCGCGTTCGGGCCTTGATCAACCGGGATATCCCGAGCTGATGACGCTGGGCGCCAGTGGGCAAGTCTGGATGAAAGTTTCCGGCATCTATCGGCTGGCGGGCACCAAGCAGCAGAATCTGGCATTCGCCAGGTCCGCATTGGGCCTGCTGGAGCAGAGTTTCGGCGCCCATCGCCTGGTATGGGGCAGTGATTGGCCGCATACACAACACGAGGCAGTCATCGGCTTCGATACGGTGATGCGCCAGTTACAGGATTTGCAGATTTCTTTGCCGTTTATGCGCGCGCTTATGGTAGAAACGCCCCGCGCGTTGTTCCGATTTTGA	MTGIDCHAHVFSRELELAAVRRYTPDYDATLAQYLNHLQTHGLSHGVLVQPSFLGTDNRYLLAALEQAPEQLRGVVVVEPDISRVELEEMARLGVVGVRLNLMGTASPDFRETLWKDFLGHLAELDWHVELHAPVEQLPGLIRQLMPFGVRLVVDHFGRPDARSGLDQPGYPELMTLGASGQVWMKVSGIYRLAGTKQQNLAFARSALGLLEQSFGAHRLVWGSDWPHTQHEAVIGFDTVMRQLQDLQISLPFMRALMVETPRALFRF				NA	NA	NA	NA	NA
D1-35_03854	2184			hypothetical protein	ATGTCGAATATTGAAGCGTTTCCCAGGGAGACGCGTACACCGAGCGAATATGAAGGGCTCGTGGCGATGGGCGCAAACGCGCTCGACGCCATTCCTGGCGCGGTGTATCTGTGTGATCACAACGGCTGGCTGGTCCGCTACAACAGCGAGGCGGCCACGTTGTGGGGACGAGCGCCGGTATTAGGGGAGGGCGGCGACCGTTTTTGCGGTTCCTATCGCCTGTTCCTGGCCGACGGTACGCCGTTGGCATTGGAAGACTGCCCGATGGCCTGGGCGCTGGAGTCGGGTACGGCGACGCGCAACCAGGAAGTGTTTATCGAGCGTCCGGACGGCTCGCGGATCGTCGCGCTGGTGAACATCCGGGCCCTGAGGGATGAGCAGGGCACTATCCAAGGGGCGATCAACTGCTTCCAGGATGTCTCGGCGCACCACGCGATGGCCGACGAGCTACGGCGCAAGAATGCCGACCTGGAAGACTTCTTCGAAAACAGTGCGGTCGGCCTGCACATCGTCAGCGGCGAAGGCACCATTGTGCGTGCCAACAAGGCTGAGTTGGCCTTGCTCGGTTATTCGGCGCAGGAGTACATCGGCCGCCACATCACCGAGTTCCATGTCGATGAGCCGGTCATCGGCGACATCCTGAGCAAATTGAGCAACGGCGAATGCCTGGAAGACTATCCGGCTCGCCTTCGAGCCAAGGATGGTTCGATCAAGCATGTCACCATCACCTCCAACGGGCGATTCGAGGACGGCAAGCTTTTCAACACCCGGTGCTTCACCGTGGACGTGACCTCGGTCCATGCGGCCGAGACGGCACGCCAGGAGAGCGACGACCGGTTGTCCGCAACCTACGAGGCGGCGACGATCGGCATTGCCGAAGCCGGGGCGGATGGCCGTCTGTTGCGGGTCAACGATGCGCTCTGCAACATGCTCGGGCGCTCGCGCGAAGAACTGCTGAACATGACTTTCCTGGGGTATACCCACTCCGACAGCACCGACGAAGACGCCGCGCTGTATGCGCGCCAAGTGGCCGGCGAGCTGGATAACTACGTGCTGCGCAAACGCGCCTTCAAGCCTGACGGAGAAACCGTCTACCTGGACATCCACAGCTCATCGGTCCGGGACTCCCAAGGCGTGTTTCGTTATGGCGTGCGGGTTATCCAGGATGTCACGCAGGCGCGGCGCATGGAAAACCAGATCCTCGAAAGCGAACGGCACATGCGCAACCTGCTCGAGGCGCTGCCCGCGGCGGTCTATACCACGGACGCGCAAGGCCGGATCAATTTTTTCAACCGGGCAGCGGTCGAGTTGTCGGGGCGTACGCCTGAACTGGGCGACCTTTGGTGCGTGACCTGGAAACTGTTCACCACCGATGGCAATTTCCTGCCCCACGACCAGTGCCCGATGGCGGTGGCCTTGAAGGAAAACCGGCCGATACGCGGGGTCGAGGCAGTCGCGGAGCGTCCCGACGGCAGCCGGGTCCCGTTCGCGCCTTATCCCACGCCGCTGCACGACGCGCAGGGCAACCTGGTCGGCGCCATCAACATGCTGGTGGACATCTCCGAGCGCAAGCAGGCCGAAGACCGGCAGAAAACCCTGATCGACGAGCTCAACCACCGGGTCAAGAATACCCTGGCCACGGTGCAATCCCTGGCAGCCCAGACCGCCCGCAATGCGGTGGATGCAAAGGATGGTTACAACCGTTTCGAAGCCCGGCTTCTCGCGTTGTCCCGCGCCCACGATCTGTTGACGAGGCGCCATTGGGGCCAGACCCCGCTGGCCTCCCTGGCCCGGGAAGTGTTGGTGCCGATATTCGGGGCCGACCCTGGCCGTATCACCTTGGAGGGTGATGCCATCGACGTCGATACCCGGGTCGCGCTCGGCCTGACCATGACCCTCAACGAACTGGCGATCAATGCGCTCAAGTACGGCGCGATGTCGGTCGAGACGGGCAGGCTTTCGCTGAACTGGAACGTCCAGCCGCAATCGAACGGCACCTTGCTGACCTTGGATTGGCGCGAGCAGGGCGGCCCCCCGGTGTTTCCGCCGGAACGGGAAGGGCTCGGTTCGCGGTTGATGAAGCGCTGTATCGAGCGCGATCTTGGCGGAATTTTTGTCCTGACTTTTGCACCTGAGGGCGTTCTCTGTCGCTTCTCGTTCATGGTCGTTGAGCAATCTGCATGA	MSNIEAFPRETRTPSEYEGLVAMGANALDAIPGAVYLCDHNGWLVRYNSEAATLWGRAPVLGEGGDRFCGSYRLFLADGTPLALEDCPMAWALESGTATRNQEVFIERPDGSRIVALVNIRALRDEQGTIQGAINCFQDVSAHHAMADELRRKNADLEDFFENSAVGLHIVSGEGTIVRANKAELALLGYSAQEYIGRHITEFHVDEPVIGDILSKLSNGECLEDYPARLRAKDGSIKHVTITSNGRFEDGKLFNTRCFTVDVTSVHAAETARQESDDRLSATYEAATIGIAEAGADGRLLRVNDALCNMLGRSREELLNMTFLGYTHSDSTDEDAALYARQVAGELDNYVLRKRAFKPDGETVYLDIHSSSVRDSQGVFRYGVRVIQDVTQARRMENQILESERHMRNLLEALPAAVYTTDAQGRINFFNRAAVELSGRTPELGDLWCVTWKLFTTDGNFLPHDQCPMAVALKENRPIRGVEAVAERPDGSRVPFAPYPTPLHDAQGNLVGAINMLVDISERKQAEDRQKTLIDELNHRVKNTLATVQSLAAQTARNAVDAKDGYNRFEARLLALSRAHDLLTRRHWGQTPLASLAREVLVPIFGADPGRITLEGDAIDVDTRVALGLTMTLNELAINALKYGAMSVETGRLSLNWNVQPQSNGTLLTLDWREQGGPPVFPPEREGLGSRLMKRCIERDLGGIFVLTFAPEGVLCRFSFMVVEQSA				NA	NA	NA	NA	NA
D1-35_03855	363			hypothetical protein	ATGACCCGGTTTGCTGGTATCAGGGTTCTGCTTGTCGAGGACGAAGGCGCGGTCGCCATGTTGATCGAGGAAATGCTCGAAGAGCTGGGCTGCACGGTGGTGGCGTCAGTCCCACGACTCGCCCAGGCTCGGGAAAAAGCGGACACCCTGGAGGTTGACCTGGCAATTCTGGACGTCAATCTGGCTGGTGAACGAGTGTTCCCGGTGGCTGATATCCTGCGTGCACGTAACGTTCCTTTCCTGTTCAGCACCGGATACGGCGTCAGCGGCCTGCCCGCTGACTTCGCCCAGTGTCCGGTTCTGCACAAGCCCTTTTCCGAAAACGAATTGCAGCTGAAGATAGCGCTGACGCTGAAAAGTTGA	MTRFAGIRVLLVEDEGAVAMLIEEMLEELGCTVVASVPRLAQAREKADTLEVDLAILDVNLAGERVFPVADILRARNVPFLFSTGYGVSGLPADFAQCPVLHKPFSENELQLKIALTLKS				NA	NA	NA	NA	NA
D1-35_03856	444	hit	COG0537	Protein hit	ATGAGCTTGTACGGCCAATACGATCCGCAGAACATCTTTGCGCTGATTCTTCGCGGCGAAGCGCCCTGCTATAAAATCTACGAAGACACTGATGTACTGGCCTTCCTCGATATTTTTCCGCAGTCGCGCGGTCATGTGCTCGTCATCCCGAAGGCGGCCCAGGCGCGCAATATTCTCGATGTCGACCCCGCGGTGCTGGGCAAGATGATGTCGGCGGCGCAACGCCTCACTCGGATCCTCGTCGACGAGCTGCAGCCGGATGGCGTGCAGATCGCGCAGTTCAACGGCGCGCCCGCCGGGCAAACGGTCTTCCATATCCACGTCCACATCATCCCGCGCTGGGACGGCGCCGCGCCTGAGGCTCATGGACAGGGCAAGGCCGATCCGCAGGAGCTTGAAGCGTTGCAGGCGCGGCTGGTGGAGCGTATTCGTTCGCAAGAGTGA	MSLYGQYDPQNIFALILRGEAPCYKIYEDTDVLAFLDIFPQSRGHVLVIPKAAQARNILDVDPAVLGKMMSAAQRLTRILVDELQPDGVQIAQFNGAPAGQTVFHIHVHIIPRWDGAAPEAHGQGKADPQELEALQARLVERIRSQE				NA	NA	NA	NA	NA
D1-35_03857	519			hypothetical protein	ATGAAATTGCGCCTGCTGACCGCTGCCTTGTTTTTCATCTGCACCCTGGCTCAAGCCGCAGAACCGAAACCCATTCCGCAAGCCTTGGAGGCACAGATCGGGCATCTGGTGGCGCTGCTCAAGGACAGCTATGCCACCGGCTACCCCGACGCGGCGCTGGTGCAAACGCTCGATACCGGCGAGGACAGCCAGGTCACGCTCGCGGTCTTCACTATCGAGGGCTTTGGGATGGGCAACAATTACAGTCAGTACCTGGCGGCCTTTACCCCTGAGGAGAACGAAGAGGGCGTGCCGCATTACAGCCTGCTGGATGTGATGCGAATCGGCGGAGACAGCTGGCGAGCGATCGATAAGATGGACGCCAGGCTGGTCAGCGACCCGGCGGGTGAGCAGACCCTGATCGACATCGCGGCAATGGAAAACACCGACGACGATGCGCCGAACTTCCCTAGCAGAGCGGCAGTTATTCATCTGTCCTTGGCTGGTGCACAATCCCTGCGGTTGGTAGAGATAAAGTAG	MKLRLLTAALFFICTLAQAAEPKPIPQALEAQIGHLVALLKDSYATGYPDAALVQTLDTGEDSQVTLAVFTIEGFGMGNNYSQYLAAFTPEENEEGVPHYSLLDVMRIGGDSWRAIDKMDARLVSDPAGEQTLIDIAAMENTDDDAPNFPSRAAVIHLSLAGAQSLRLVEIK				NA	NA	NA	NA	NA
D1-35_03858	870	rob	COG2207	Right origin-binding protein	GTGCCTGAGCTACCAAACGATTACGCCTACAAAAAACGCTTCGACGCTGTACTGGCGTATATCGATGCCAATCTGGAAGATGATCTGTCGGTGAGGACGTTAAGTCATGTGGCGAACTTCTCGGCGTTTCACTTCCATCGCCAGTTCACGGCGTTCATGGGCGTGCCTGTTTCGCGCTACGTCCAGCTGATGCGGCTACGACGCGCGGCACATCGCCTGGTCGCAGTTGCCGATTATTCGGTACTGGACGCCGCGCTGGATGCGGGCTTCAGGAGCCCCGAGGCGTTCTCCAGGGCGTTCAGCCGGGCGTTCGGCGCCGCGCCAAGCGCGTTCAGGAAGAATGCAAACTGGCAGGTCTGGAACACGGTATTTGCCGTCCCACATTTTTCCAGGACTCTTCTCATGCAAGTACGCATTATCGAACTCACTGAAATCAACGTAGCGGCCCTTGAGCACCGCGGGCCGCCCGGGCTCGTCAATGCGAGCGTCCGCCAGTTCATCGAGTGGCGGATGCGCAGCGGGCAGTCGCCGGTGGCATCAAGCCGCACGTTCGGTATTCCTTATGGCAATCCCGATACGACACCTGCGCACGCCTTCCGATTTGCGATCTGCGGTGAGATTCACGAAGACGTGACGCCGAATGAGTTCGGCGTAGGCCCACTCGTCATTCCCGGCGGCCGCTACGTCGTGGTACGCCATGCGGGGTCGCCCGATCATATCGGCGAGACGATCTACCCGATCTACCGCGACTGGCTCCCCGCGAGCGGTGAGGAGCTGCGTGATCAGCCACTGTTTTTCCACTACCTGAGCGCCTATCCCGAGACGCCACAGGATCAATGGCAAACCGATGTGTATGTCCCGCTGCAATAG	MPELPNDYAYKKRFDAVLAYIDANLEDDLSVRTLSHVANFSAFHFHRQFTAFMGVPVSRYVQLMRLRRAAHRLVAVADYSVLDAALDAGFRSPEAFSRAFSRAFGAAPSAFRKNANWQVWNTVFAVPHFSRTLLMQVRIIELTEINVAALEHRGPPGLVNASVRQFIEWRMRSGQSPVASSRTFGIPYGNPDTTPAHAFRFAICGEIHEDVTPNEFGVGPLVIPGGRYVVVRHAGSPDHIGETIYPIYRDWLPASGEELRDQPLFFHYLSAYPETPQDQWQTDVYVPLQ				NA	NA	NA	NA	NA
D1-35_03859	1164			hypothetical protein	ATGAAGGCAAGCACCTTTTATCTTGCGTTATGCGCGGCGGCGCCTTTTGCCGACGCCGCCGGCCCGGAAAGCGCCAGCGAGTCGCGCAATTCACAACAGATCAGCCGGGCGGGCAGCCAGGCTTCCGCCGCAGGACCGGCGGACTATTTCACCGGACAGGTGCGTGTGGACCCGCTGTTCCCAGCGACGGAAGACATCAACGTGTCTGGCGCCTACGTCACTTTCGAACCGGGCGCGCGCTCGGCCTGGCATACCCATCCCGCCGGTCAGCGATTGGTAGTGGTCTCCGGCGTGGGCCTGACGCAGGAATGGGGCAAGCCGGTGCAGCAAATCCATCCCGGCGACGTGGTAGTTTGTCCTGCGGGCGTCAAGCACTGGCATGGCGCGGCGCCGGACAGCGCCATGACTCATCTGGCCGTGACCGGCACGGTGGAGGGCAAGAATGTGCAGTGGTTGGAGAAGGTCAGCGAGGAGCAATACGGCGCCGGTGGAACGCTGACATCATCGGCCAAGCCAGATGCTGCGGCGGTTTCACAAACCCTGTCGGCCAAACAGCGAGCCATTCCGCTGATCGCCGCCGCCATGGCCACAAGCAACATGCCGGCTCTCGATAGCGCCTTGAATAAAGGGCTGGATGCGGGTCTCAGCGTCAGCGAGGCGAAGGAAATCCTGGTGCAGCTCTACGCTTACAGCGGGTTTCCCCGCAGCCTCAACGCGCTGGGCGAATTGATGAAAGTCGTGGAGGCCCGAAAGCAACGCGGCGTGCAGGATGCTCCGGGGCGCGAGCCGACTCGCCCGATCCCTACCGGCGATGCATTACTGGTGGCGGGCAAGGCCAACCAGACACGGATCGCCGGCGCGCCTGTCCAAGGGCCGCTGTTCGACTTCGTCCCGGTCATCAACCAATATCTGCAGACGCACCTGTTCGGCGATATTTTCGAGCGCGACAACCTGGACTGGCAAAGCCGGGAGCTGGCGACGGTCGCCGCTCTGGCGGTGACCCCAGGGGTGGAGTCACAACTGCGTTCACACGTGGCTGCGAGCTTGCGGGTCGGATTGAGCGCTGCGCAATTGCGCCAATTGATCCAGCTGCTGGACGAGCAGGGCGAGGCCGCTGCGGCCAAGCGTGCCGCTGAGGCACTGGATGCCAGTCAGTCTTCGTAA	MKASTFYLALCAAAPFADAAGPESASESRNSQQISRAGSQASAAGPADYFTGQVRVDPLFPATEDINVSGAYVTFEPGARSAWHTHPAGQRLVVVSGVGLTQEWGKPVQQIHPGDVVVCPAGVKHWHGAAPDSAMTHLAVTGTVEGKNVQWLEKVSEEQYGAGGTLTSSAKPDAAAVSQTLSAKQRAIPLIAAAMATSNMPALDSALNKGLDAGLSVSEAKEILVQLYAYSGFPRSLNALGELMKVVEARKQRGVQDAPGREPTRPIPTGDALLVAGKANQTRIAGAPVQGPLFDFVPVINQYLQTHLFGDIFERDNLDWQSRELATVAALAVTPGVESQLRSHVAASLRVGLSAAQLRQLIQLLDEQGEAAAAKRAAEALDASQSS	PGPT0005005_46	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
D1-35_03860	894	pgrR_7		HTH-type transcriptional regulator PgrR	ATGACCACCGAACGCTACGACCAACTCGCCATCTTCTCAGTCGTGGCCCAGGAGCGCAGTTTCACTCGGGCGGCGGCCAGGCTTGGCATGTCGCAACCGGCACTGAGTCGGGCGATGCGACAACTGGAAGAACGGCTGGGAGTCCGGCTGTTGTCGCGTACCACGCGAAGTGTTGCCCCGACCCAAGCGGGCGAACGCCTGTTGCAGGTGGTTGCGCCGCGGTTTGAAGAGATCGATCAGGAGATGGCGATGCTCAGTGAGTTTCGCGACAAACCGGCCGGAAAATTGCGCATCACCGCTGGCGAGCATTCTGCAATCACCGTGCTCCAGCCGGTTCTCGCCAAGTTGCTCCCTGACAATCCCGACCTGAACATCGAGATCATCGTCGACTACGCTTTTACCGACATCGTCGCTGAGGGGTTCGATGCCGGCGTGCGGCTGGGCCCGCAGGTCGCCAAGGACATGATCGCCATGCGCATTGGCCCCGACATGCGCATGGCGGTCGTCGGCTCGCCGGCGTACTTCGCCCAACATCCCAAGCCGCTGATTCCAAACGACCTGACGGCGCACAACTGCATCAACTTGCGCATGCCGACTCATGGTGGCCTGTATGTCTGGGAATTTGAAAAAAGCGGTCAGGAACTGCAAGTCCGGGTAGAAGGCCAACTGGTTTTCAACACGATTGCCATGCGCCTGGAGGCGGCGCTCCAGGGCTTGGGGTTGGCCTTCATGCCGGAAGATCTGGTGCAGGAAGCTGTCGCGCAAGGCCGGCTGATCCGGGTACTGGACGATTGGTGCGAGCCGTTTTCCGGCTATCATCTGTACTACCCGAGTCGCCGCCAGACCTCTCCGGCCTTCACGCTGCTGCGCGAAGCCTTGCGTTACGAAGACTGA	MTTERYDQLAIFSVVAQERSFTRAAARLGMSQPALSRAMRQLEERLGVRLLSRTTRSVAPTQAGERLLQVVAPRFEEIDQEMAMLSEFRDKPAGKLRITAGEHSAITVLQPVLAKLLPDNPDLNIEIIVDYAFTDIVAEGFDAGVRLGPQVAKDMIAMRIGPDMRMAVVGSPAYFAQHPKPLIPNDLTAHNCINLRMPTHGGLYVWEFEKSGQELQVRVEGQLVFNTIAMRLEAALQGLGLAFMPEDLVQEAVAQGRLIRVLDDWCEPFSGYHLYYPSRRQTSPAFTLLREALRYED				NA	NA	NA	NA	NA
D1-35_03861	294			hypothetical protein	ATGGATGAACACCAGGAAGCCATCAAGAACAAGATCCGCGCCGCAGTAGAAACCAGCGATTCTGACGAGATCACCTATCGCTCTGAGTGGCTCGGTTACATGCCCTTCCCGGTTTTTCGATGGGTTGAACATCAAGGAAAGGATTTTTCCGGCGACTTTCCTGCCGATTGGACCCTTGAGCATCTGGCCAGTCTTGAGCGCGCGGGGTTCCTTGAAATGCTTGAGACCTACGAGAACCCGGAAGACCCGTTTGATCGGGACAACAGGTATCGCGTCTGGATTGGGCGCGAGTAG	MDEHQEAIKNKIRAAVETSDSDEITYRSEWLGYMPFPVFRWVEHQGKDFSGDFPADWTLEHLASLERAGFLEMLETYENPEDPFDRDNRYRVWIGRE				NA	NA	NA	NA	NA
D1-35_03862	483	nuoE_2	COG1905	NADH-quinone oxidoreductase subunit E	ATGCCTGATGAGACGCTTCACCTGCCTCTGATTCACAGCGTGCTGGCGCGCAAGAAGGACACCCCCGGTGCCTTGTTGCCCATCCTTCATGCCATCCAGGAAGGTTGCGGGTACGTTCCCGACGCCGCCGTCCCTGAAATCGCCCATGCCCTCAATCTCAGCCAGGCTGAAGTGCGCGGGGTAATCAGCTTCTACCATGACTTTCGCACCACGCCGCCGGCGCGCCATACCCTGCGCCTGTGCCGGGCGGAGTCGTGCCAGAGCATGGGGGCCGAAGGCCTGGCTGCGCAGTTGCGCGAACAACTGGCGCTTGACGATCACGGCACCAGTGCCGACGGGGCGATCAGCCTGCGGCCGGTCTATTGCCTGGGCGCCTGTGTGTGCTCGCCGGCCCTGGAGCTGGACGGGGAGTTGCACGCACGGCTGACCCCCGAACGCCTGCGCCAGTTGGTGAACGGTTGCCTGGAGGATGGCCCATGCTGA	MPDETLHLPLIHSVLARKKDTPGALLPILHAIQEGCGYVPDAAVPEIAHALNLSQAEVRGVISFYHDFRTTPPARHTLRLCRAESCQSMGAEGLAAQLREQLALDDHGTSADGAISLRPVYCLGACVCSPALELDGELHARLTPERLRQLVNGCLEDGPC	PGPT0019670_1594	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019670-fdoI|fdsG-K00127	NA	NA
D1-35_03863	1560			hypothetical protein	ATGCTGACCCTCTGCATTCCCCGTGATTCAGTGGCCCGCGCCGTCGGTGCGGACAAGGTGGCGGATGCGCTGGTGCGCGAGGCCGAGCGTCGGCAATTGCCGCTTGAGGTGCTGCGCACCAGCTCTCGCGGGCTGTATTGGCTGGAACCCCTGGTAGAGCTTGAAACGCCCGAAGGGCGGTTGGGGTTTGGCCCGGTCACCGCGCAAGATGTGCCAGGCCTGCTCGATGCGCTTGGCCACGACCCGGGCGGTCATCCTTCGGCCTTGGGACTGGTGGAGAACATTGCGTATCTGAAAAGCCAGCAGCGCCTGTTGTTTGCGCGTGCCGGCATCACCCGGCCCTTGTCCCTCGGGGACTATCGGGCTCAGGGCGGATTCCTCGGCCTGGCCCGGGCGATCCGGATGGACGGCGCCGAGGTGGTTGCCCAAGTGCTGGATTCCGGCTTGCGCGGCCGGGGCGGCGCGGCGTTCCCGGCGGGCATCAAGTGGCGCACCGTGCGCGACGCGCAGGGCCCGCAAAAATACGTGGTCTGCAATGCCGACGAAGGCGACTCCGGTACGTTCGCCGACCGCATGTTGATGGAAGGCGATCCGTTCCTGCTGATCGAAGGCATGGTCATCGCCGGGATCTCGGTGGGCGCCACCATGGGCTACATCTATGTGCGCTCGGAATACCCGGACGCCGTCAGCACGCTGAACGAAGCGCTGCACATCGCCCGCGAAGCCGGTTACCTGGGCGCCGATGTCGGCGGCAGTGGCCGCGCCTTCGAGCTGGAAGTGCGAGTGGGCGCCGGCGCTTACATCTGTGGCGAAGAAACAGCGCTGCTGGAATCCCTTGAAGGCAAGCGCGGGATGGTGCGTGCCAAGCCGCCGCTGCCGGCGTTGCAGGGCCTGTTCGGCTTGCCGACGCTGGTTCATAACGTGGTGACCCTGGCCTCGGTGCCGTTGATTCTGGAGAAGGGCGCGCAGTTCTACCGGGACTTCGGCATGGGCCGTTCACTGGGCACCATGCCGTTCCAGCTGGCCGGCAACGTTCGTCGCGGCGGGCTGGTGGAGCGGGCATTTGGCCTGAGCCTGCGCGAGTTGGTGGAGGAGTATGGCGGCGGCACCGCCAGCGGTCGGCCGTTGAAGGCCGCGCAAGTCGGTGGCCCGCTGGGCGCGTGGGTACCCCCCGCGCAGTTCGACACACCGCTGGACTACGAAGCGTTCGCCGCCATGGGCGCGATGCTCGGCCACGGTGGCGTGGTGGTTGCCGACGACAGCCTGGACATGGCCCGGATGGCCCGGTTCGCCTTGCAATTCTGCGCCGAGGAATCCTGCGGCAAATGCACGCCGTGTCGCATCGGCTCGACCCGTGGCGTCGAGGTGGTGGATCGCTTGATCGCCAGCACCGATGCCAGTGCCCGCCAGGAACAGGCGGCGCTGTTGCAAGACCTTTGCGACACCCTGCAATACGGCTCGCTCTGTGCCCTCGGTGGGATGACGTCCTACCCCGTCGCCAGCGCCCTCAAGTACTTCCCCGCCGACTTCGGTCTGGCGACCACGGAGGCCGACCAATGA	MLTLCIPRDSVARAVGADKVADALVREAERRQLPLEVLRTSSRGLYWLEPLVELETPEGRLGFGPVTAQDVPGLLDALGHDPGGHPSALGLVENIAYLKSQQRLLFARAGITRPLSLGDYRAQGGFLGLARAIRMDGAEVVAQVLDSGLRGRGGAAFPAGIKWRTVRDAQGPQKYVVCNADEGDSGTFADRMLMEGDPFLLIEGMVIAGISVGATMGYIYVRSEYPDAVSTLNEALHIAREAGYLGADVGGSGRAFELEVRVGAGAYICGEETALLESLEGKRGMVRAKPPLPALQGLFGLPTLVHNVVTLASVPLILEKGAQFYRDFGMGRSLGTMPFQLAGNVRRGGLVERAFGLSLRELVEEYGGGTASGRPLKAAQVGGPLGAWVPPAQFDTPLDYEAFAAMGAMLGHGGVVVADDSLDMARMARFALQFCAEESCGKCTPCRIGSTRGVEVVDRLIASTDASARQEQAALLQDLCDTLQYGSLCALGGMTSYPVASALKYFPADFGLATTEADQ	PGPT0019665_359	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019665-fdoH|fdsB-K00124	NA	NA
D1-35_03864	2877			Putative formate dehydrogenase	ATGATCAACATCTTCGATCCAGCCAGCGACATCGACCTGGGCACCCCGGCCCGAGTAAGCGACGTGCAGGTCAGCCTGACCATCGATGGCCGTGAAATCAGCGTTCCCTCCGGCACGTCGGTGATGCGCGCGGCGGCCTTGCTCGGTACCACCATCCCGAAACTGTGCGCCACCGACAGCATGGAAGCCTTCGGCTCCTGCCGTATGTGCCTGGTGGAGATCGACGGGATGCGCGGTTACCCGGCCTCGTGCACCACGCCGGTGACCGACGGCATGGTGGTCCGCACCCAGACCTCAAAGCTCGCCACGCTGCGTCGCAACGTGATGGAACTGTACATCTCCGATCACCCGCTGGACTGCCTGACATGCCCGGCCAACGGCAACTGCGAGTTGCAGACCGTGGCCGGGCAGGTGGGCTTGCGGGAGGTGCGCTACGGCTACGAAGGCGCCAATCACCTGGCCGAAGCCAAGGACGTGTCCAACCCTTATTTCGACTACGACCCGAGCAAGTGCATCGTTTGCAGCCGCTGCGTGCGTGCCTGCGAGGAAATCCAGGGCACCTTCGCCCTGACCATCAGCGGACGCGGCTTTGATTCCCGTGTCGAAGCGGCCGGCGGTGACAACTTCCTCGACTCCGAATGCGTGTCCTGCGGCGCCTGCGTCCAGGCCTGCCCGACAGCGACGCTGATCGACAAGAGCGTCGTCGAAATCGGCCAGCCGGAGCGCAGCGTCGTCACCACCTGCGCCTATTGCGGCGTGGGCTGCTCGTTCCGCGCCGAGATGAAAGGCGAACAATTGGTGCGCATGGTCCCGGACAAGAACGGCCAGGCCAACCACGGCCACTCGTGCGTCAAGGGCCGCTTCGCCTGGGGCTACGCGACGCACCCGGACCGCATCACCAAGCCGATGATCCGCAAGCACATCAACGACCCGTGGCAGGAAGTCAGCTGGGAGGAGGCGGTCACCTACGCCGCCAGCGAACTGCGGCGCATCCAGCTCAAGTACGGGCGTGATTCCATCGGCGGTATCACCTCCAGCCGCTGCACCAACGAAGAAACCTACCTGGTGCAGAAGCTGGTGCGCACGGCGTTCGGCAACAACAACGTCGACACCTGCGCGCGGGTCTGCCATTCGCCGACTGGTTATGGCCTCAAGCAAACGCTGGGCGAATCGGCCGGCACGCAGAATTTCGACTCGGTAATGAAAGCTGACGTGATCATGGTGATGGGCGCCAACCCCACCGATGCGCACCCGGTGTTCGGCTCCCAGCTCAAGCGCCGCCTGCGCCAGGGCGCGCGGCTGATTGTCATCGACCCGCGGCGCATCGACCTGGTGGATTCGCCTCACGCCCGTGCCGAGCTGCATCTGCAGTTGCGTCCGGGCACCAACGTGGCGATGCTCAACGCGTTGGCCCACGTGATTGTCACCGAGGGGCTGGTTGACGAGTCTTTCGTCAAAGAGCGTTGCGAGGCGACAGATTTCGCCCGTTGGCGCGACTTCGTCAGCTTGCCGGAAAATGCGCCCGAGATCCTCGGCCCGGTGTGCGGCGTGCCCGCCGAGCAGATCCGCGCCGCCGCGCGGCTCTACGCCACCGGCGGCAACGCGGCCATCTACTACGGCCTCGGTGTGACCGAACACAGCCAGGGCAGCACCTCGGTGATGGGCATCGCCAACCTTGCCATGGCCACCGGCAATATCGGCCGCGAGGGCGTCGGGGTGAACCCGCTGCGTGGGCAGAACAACGTCCAGGGTTCCTGCGACATGGGCTCGTTCCCCCATGAGCTGCCGGGCTATCGGCACATCTCCAATGAAGCGGTGCGGGCCCAGTTCGAGCAGGCCTGGAACGTGACGTTGCAACCCGACCCGGGCCTGCGCATCCCGAACATGTTCGAGGCAGCGCTGGACGGCACTTTCAAGGCGCTTTACTGCCAGGGCGAGGACATCGCCCAGAGCGATCCCAATACCCAGCATGTGACTGCGGCGCTGACTGCTTTGGAGTGCGTGATCGTGCAGGACATCTTCCTCAACGAAACGGCCAAGTTTGCCCATGTGTTCCTGCCGGGCAGCTCGTTCCTCGAGAAGGACGGTACCTTCACCAACGCCGAGCGCCGTATCTCCCGCGTTCGCAAGGTCATGGACCCGCTGGCCGGCAAGGCCGACTGGGAAGCCACCATCGCCTTGGCCGATGCCCTGGGCTACAAGATGCACTATAACCATCCCTCGGAAATCATGGATGAAATCGCCCGCCTGACGCCGACCTTCAGTCGTGTCAGCTACGCCGAGCTGGAGCGTCACGGCAGCCTGCAATGGCCGTGCAACGATGCCGCGCCGGACGGCACGCCGACCATGCACATCGACCAATTCGTGCGCGGCAAAGGGCGCTTCATGCTCACCGGCTATGTGCCCACCGAGGAGAAGGTCAATGGCCGTTATCCGCTGCTGCTGACCACCGGACGGATCCTCAGCCAGTACAACGTCGGCGCCCAGACCCGGCGCACCGACAACGTGGCGTGGCACGAGGAGGATCGCCTGGAAATCCACCCGACCGACGCCGAGAATCGTGGCATCGCCGAGGACGATTGGGTCGGTATCAGCAGTCGCGCCGGGCAGACGGTGCTGCGCGCCAAGGTCACCGAGCGGGTGGCGCCGGGGGTGGTCTACACCACGTTCCACTTCCCTGAATCCGGGGCCAACGTGATCACCACCGACAACTCGGACTGGGCCACCAACTGCCCGGAATACAAAGTCACGGCGGTAGAAATCGTGCGGGTCACCCAGCCTTCGGAATGGCAGAAGCGTTATCAGGCCTTCAGCGACGAACAGCGGCGCCTGCTGAAGGAACGTCGTCACGCCGAGAAAGCCGAGGTGCGCCGATGA	MINIFDPASDIDLGTPARVSDVQVSLTIDGREISVPSGTSVMRAAALLGTTIPKLCATDSMEAFGSCRMCLVEIDGMRGYPASCTTPVTDGMVVRTQTSKLATLRRNVMELYISDHPLDCLTCPANGNCELQTVAGQVGLREVRYGYEGANHLAEAKDVSNPYFDYDPSKCIVCSRCVRACEEIQGTFALTISGRGFDSRVEAAGGDNFLDSECVSCGACVQACPTATLIDKSVVEIGQPERSVVTTCAYCGVGCSFRAEMKGEQLVRMVPDKNGQANHGHSCVKGRFAWGYATHPDRITKPMIRKHINDPWQEVSWEEAVTYAASELRRIQLKYGRDSIGGITSSRCTNEETYLVQKLVRTAFGNNNVDTCARVCHSPTGYGLKQTLGESAGTQNFDSVMKADVIMVMGANPTDAHPVFGSQLKRRLRQGARLIVIDPRRIDLVDSPHARAELHLQLRPGTNVAMLNALAHVIVTEGLVDESFVKERCEATDFARWRDFVSLPENAPEILGPVCGVPAEQIRAAARLYATGGNAAIYYGLGVTEHSQGSTSVMGIANLAMATGNIGREGVGVNPLRGQNNVQGSCDMGSFPHELPGYRHISNEAVRAQFEQAWNVTLQPDPGLRIPNMFEAALDGTFKALYCQGEDIAQSDPNTQHVTAALTALECVIVQDIFLNETAKFAHVFLPGSSFLEKDGTFTNAERRISRVRKVMDPLAGKADWEATIALADALGYKMHYNHPSEIMDEIARLTPTFSRVSYAELERHGSLQWPCNDAAPDGTPTMHIDQFVRGKGRFMLTGYVPTEEKVNGRYPLLLTTGRILSQYNVGAQTRRTDNVAWHEEDRLEIHPTDAENRGIAEDDWVGISSRAGQTVLRAKVTERVAPGVVYTTFHFPESGANVITTDNSDWATNCPEYKVTAVEIVRVTQPSEWQKRYQAFSDEQRRLLKERRHAEKAEVRR	PGPT0019635_1727	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
D1-35_03865	222			hypothetical protein	ATGAGCTCGCAGAACCTGATCAAGATGGCCAACGAGATTGCCCGCTACTTCGCCACGGAGCCTGATCAGTCGCTGGCGGTGAGCGGCATCCGCCAGCACATCAAGAACTTCTGGACGCCGGGCATGCGCAGGGATTTGCAGGGTTGGGAGGAGAAGCATCCGGATGCGGTTTTGCATCCGTTGGTGTTGGCGGTGTTGGAGGAGCCTGAAGCCATGAACTGA	MSSQNLIKMANEIARYFATEPDQSLAVSGIRQHIKNFWTPGMRRDLQGWEEKHPDAVLHPLVLAVLEEPEAMN	PGPT0019675_468	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019675-fdsD-K00126	NA	NA
D1-35_03867	321	pchB_2	COG1605	Isochorismate pyruvate lyase	ATGGAAGTCGACAACCAGCTGTCCCCCGCGCAATGCACCGGCATGGAAGACATCCGCCGCGAAATCGATGCCCTGGACCAGACTGTCATCAAACTCTTGGGCAAGCGCTTTCAATACGTATTGGCGGCATCGAAGTTCAAGACTTCGGCGACCTCGGTCCGCGCCCCGGAGCGTTTCCAGGCGATGCTGGCAATTAGGCGGCAATGGGCCGAGGCCGAGGACCTCAGCCCGGATGCCATCGAAAAGATGTACAGCGACCTGGTCAATCACTTCATCTCTGAAGAGATGAAACACTGGGCGGCGCAACAATCCAAAGCCTGA	MEVDNQLSPAQCTGMEDIRREIDALDQTVIKLLGKRFQYVLAASKFKTSATSVRAPERFQAMLAIRRQWAEAEDLSPDAIEKMYSDLVNHFISEEMKHWAAQQSKA	PGPT0003065_159	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_AQUIRED_RESISTANCE|SAR	SAR-SALICYLIC_ACID_METABOLISM	SAR-SALICYLIC_ACID_BIOSYNTHESIS,PGPT0003065-pchB|pmsB-K04782	NA	NA
D1-35_03868	282			hypothetical protein	ATGACAACGAATCAAGCATCTTCCCGCTACACCCCCCTCACCCCGATTGCAACCACCTACCCTGTCCTGCTGATCGACACGCACGCGCCACTGCCCGAACTCCACGCCTGTGTCAGCGAGCGGCTGCACGCCACGCTCGATTACCTGACGCTGGTGGCTTGCTCCAGCCTGCGGGACTCATCCACCAGTGATATCAACACTCTGACCAACGTTGCCCGGATCCTCGTGCAGGACGTGGCCGACGTGTTCGGCGTCATTGAACGACGCGGTCTGAAAGGTTGA	MTTNQASSRYTPLTPIATTYPVLLIDTHAPLPELHACVSERLHATLDYLTLVACSSLRDSSTSDINTLTNVARILVQDVADVFGVIERRGLKG				NA	NA	NA	NA	NA
D1-35_03870	1395			hypothetical protein	ATGAAACAGCACCAATATGGAGAGGACCACCGCGCCAACGACGTAGTATTCAATAGAAAGCGGGATGTCGACGTAGCGAGGGGAGAAAGTAATGAATACGGCACTGAGGAGAAGCGTAAGCGCAGAATTGCGGAGCTTTTTGTTCACGTTATCGCAACCATGGAATTGGCCGACGATATTACATCGCCACCACCCGACTGGACACCCCTATCCAAGGCTGATGAGTCAATCCAAACCATGACACAGGGTATAACCATGCGCATCGAGCCTTTTACCATTTACATTCCCGAACGGACTCTTGATGACCTGCGCCATCGCCTGCAAAACACTCGGCTACCGGTGCCACTGGCCAGCCAGGGCTGGAGCGAAGGCATACACATGGACGTGCTTGGGGAACTTCTTACCCAGTGGTCGACAACCTTCGACTGGCGCGCCCAGGAAGCCGCGCTCAATCGCCTGCCACAATTTGTCGCCACCCTGAGCGGCCAGCAGGTTCATTTCGTCCATCAGCGCGGCGTCGGGCCCAATCCGATGCCGCTTGTGCTCACCCACGGCTGGCCCGGGTCGTTCATCGAGATGCAGCGCATCATCGAACTGCTGACGGATCCGGCCAGCCATGGCGGTGATCCAGCCGATGCGTTCGATGTGGTGGTGCCGTCCTTGCCCGGCTATACCTTTTCCGCGCCGTTCAAACAGGCGGGTTGCGGGCCTTTCGAGGCGGCGGGTTTGTGGAGCGAGCTGATGACGGGGCTCGGCTATGAGCGGTTCGGAGCCCAGGGCGGCGATGTCGGCGCGGCCGTATCCACCTGGTTGGGCGTGCGTTTCCCCGAGCGTCTGACCGGCATCCACCTCAACTACATTCCCGGCGCCTACCGCCCGCCACTTGGCGAAACCGACCCACCTTTGAGCGAAGAAGAAACCGCTTACCTGCAACGCGCCGCTGCCTTCAGCGAGGCCGAAGGCGCCTATGCGCACATCCAGCGGACCAAACCGCAAACCCTGGCCGTGGGCCTGAGCGACTCTCCGGCGGGGTTGCTGGCCTGGATGGGGGAAAAAATCCTGTCGTGGTGCGATACGAGCCCCGCCATCAGTCATGAATGGCTGCTGACCAATGTGACGCTCTACTGGCTGACGAACTGCATCGGTTCGTCGTTTCGCCCGTATGTGGAAGGCAGCAAGCGGCCCTTGCTGTTCAACAGCGGCGAGCGGGTGAAGCCGCCGCTTGGGGTCGCGTTGTTTCCCAGGGAACTGCCGCTGCCGCCACGCAGTTGGGTGGAGCGTGGCTATAACATCAAGCGCTGGACGCAGATGCCGCGCGGTGGTCACTTTGCTGCGTTGGAGCAGCCGGAGTTGCTGGCGGAGGATATTCGGGCGTTTTTTCGGGATTTGCGCTGA	MKQHQYGEDHRANDVVFNRKRDVDVARGESNEYGTEEKRKRRIAELFVHVIATMELADDITSPPPDWTPLSKADESIQTMTQGITMRIEPFTIYIPERTLDDLRHRLQNTRLPVPLASQGWSEGIHMDVLGELLTQWSTTFDWRAQEAALNRLPQFVATLSGQQVHFVHQRGVGPNPMPLVLTHGWPGSFIEMQRIIELLTDPASHGGDPADAFDVVVPSLPGYTFSAPFKQAGCGPFEAAGLWSELMTGLGYERFGAQGGDVGAAVSTWLGVRFPERLTGIHLNYIPGAYRPPLGETDPPLSEEETAYLQRAAAFSEAEGAYAHIQRTKPQTLAVGLSDSPAGLLAWMGEKILSWCDTSPAISHEWLLTNVTLYWLTNCIGSSFRPYVEGSKRPLLFNSGERVKPPLGVALFPRELPLPPRSWVERGYNIKRWTQMPRGGHFAALEQPELLAEDIRAFFRDLR				NA	NA	NA	NA	NA
D1-35_03871	618			hypothetical protein	ATGGCCGGTATCCCTGACGTGGCGGCAGCCTTTGGTAGTTTCATGCGCTCATGGGAAGCTGATCGCAAACACCTGCCTTGCGCTGTCAGCGCCCTGGCCAACGGATTCGAAGGTTGGTTGAAGTTCGAGTTCTACTTCTGGTTGATCCATTCCTGCGGGCTGCGCGGTCCCGACAGCGAGCTGGCGGACGTCGGAGTCGAGTACAAGGTCGCGCTCGATCAACACTGGCCGCAAATGGATATTGTCAGCAAGCAATGTGACCTGTGGATCCGCGACAGCGATGGGCAGCGCTTCCACTTCATCGAACTCAAGACGCCTTTTGCCAACGGCAATCAGGGCAAGCTGTTCAACAGCGCGGCCATGGATTACTGGTACATGACCCGGCTCAAGGTCCAGGCGGAGAGGGTTGCCACGGGTAGCGTGATCATCCTTGGGGTGAATTTTGACAAGGCACGCTGGGAGGCGCATCTGCGAGGAGTCGAAGAGTACGCCGGCTACGTTGGGCATTCATCCCGGACATCCGGCACGATTCCCGGGATAGACGCGTTGAGGTGGGCAGTGTTGACCATGCGATACCCACCTTTGGCTGAAATTCCTACGTCCGGTGCTATCGCCTAG	MAGIPDVAAAFGSFMRSWEADRKHLPCAVSALANGFEGWLKFEFYFWLIHSCGLRGPDSELADVGVEYKVALDQHWPQMDIVSKQCDLWIRDSDGQRFHFIELKTPFANGNQGKLFNSAAMDYWYMTRLKVQAERVATGSVIILGVNFDKARWEAHLRGVEEYAGYVGHSSRTSGTIPGIDALRWAVLTMRYPPLAEIPTSGAIA				NA	NA	NA	NA	NA
D1-35_03872	1245	soxC_3		Dibenzothiophene desulfurization enzyme C	ATGACCGCACAGCAACAATACCTGCCGCATGTCCTTTCCACCGGCACCCATTATGAAGGCCTGGCCGAGCGCTTCCGGCCGATTTTCGCGCGTATCCAGGCCGGGGCGCTGGAACGCGAACAGACCCGCAGCCTGCCTTTCGAACAGGTGAAATGGCTCAAGGAAGCGGGTTTTGGCGCCGTAAGGGTGCCGGTCGAATATGGTGGCGCCGGCGCCTCGCTGCCGCAATTGTTGCAACTGCTGATCGAACTGGCCGAAGCCGACTCCAACCTGCCCCAGGCGCTGCGCGGGCACTTCGCCTTTGTCGAGGATCGCCTCAACGCCCATGCCACCCGCCCGCAGGACGTCTGGTTCAAGCGCTTCGTCGACGGTGACCTGGTGGGCAACGCCTGGACCGAAATCGGCGCGGTAAAACTTGGCCAGGTCATCACCCGGGTTTCCCGCCAGGGTGACCAATGGGTGGTCAACGGCACCAAGTACTACAGCACCGGCAGCATCTTTGCCGACTGGATCGACCTGTATGCCCAACGCGACGACACCGGCGCCGACGTGATCGCCGCCGTCAGCGTTCATCAGCCGGGCGTCAGGCAAAGCGATGACTGGGATGGTTTCGGTCAACGGACCACGGGCAGCGGCACGTCAGTATTCGAGAACGCCGTGGTAGAAGACGAAAACCTCATCGACTTTTCCACCCGCTTCAAATATCAGACCGCGTTTTACCAGTTGGTATTGCTCGCCGTGCAGACCGGCGCCGGGCGCGCCGCCGTCCGCGACATCAGCGAACAGGTGCGCCAGCGCACGCGGGTGTTCAGCACCGGCAACGCCAGTGAAGTGAGCCAGGATGTGCAAGTCCAGCAAGTGATCGGCAGGGCCTCGGCCCAGGTCTACGCCGCCGAAGCCACCACCCTGCGCGCCGCCGATGCCTCGCAGCGGGCCTATCAAAGTCGCTTCGACCTGGACGCCGAGAAGGAACACACCGCCAACCTCCTCGCCGAACTGGAATCGGCCCAGGCCCAGGTGGTGGTCGCCGACCTGACACTGCGCGCCACCAGCGACCTGTTCAACGCCCTCGGCGCCTCCGCCACCAGCACCAGCAAAGCCCTCGACCGCCACTGGCGTAACGCCCGGACGGCGGCTTCGCACAACCCGCTGATCTACAAGGAACGCATCATCGGCGACTGGGAGATCAACGGGACGGAGCCGCCGTATGTCTGGCAGATTGGTGGGGGGTCTAAGCAGCGCTAG	MTAQQQYLPHVLSTGTHYEGLAERFRPIFARIQAGALEREQTRSLPFEQVKWLKEAGFGAVRVPVEYGGAGASLPQLLQLLIELAEADSNLPQALRGHFAFVEDRLNAHATRPQDVWFKRFVDGDLVGNAWTEIGAVKLGQVITRVSRQGDQWVVNGTKYYSTGSIFADWIDLYAQRDDTGADVIAAVSVHQPGVRQSDDWDGFGQRTTGSGTSVFENAVVEDENLIDFSTRFKYQTAFYQLVLLAVQTGAGRAAVRDISEQVRQRTRVFSTGNASEVSQDVQVQQVIGRASAQVYAAEATTLRAADASQRAYQSRFDLDAEKEHTANLLAELESAQAQVVVADLTLRATSDLFNALGASATSTSKALDRHWRNARTAASHNPLIYKERIIGDWEINGTEPPYVWQIGGGSKQR				NA	NA	NA	NA	NA
D1-35_03873	1098	sfnG		FMNH(2)-dependent dimethylsulfone monooxygenase	ATGAGCCAGGACACGATCAAGTTTGCCTACTGGGTGCCCAATGTCAGCGGCGGGCTGGTGGTCAGCAAAATCCCGCAGCGCACCGACTGGGGGATCGATTACAACCGCAAGCTGGCGCAGATCGCCGAGGATGCCGGCTTCGACTATGCCCTGACCCAGATCCGTTTTACCGCCGGTTATGGCGCCGAATACCAGCACGAATCGGTGGCGTTCAGTCACGCGTTGCTGGCGGCCACCACGCGCCTGAAAGTCATCGCGGCGGTCTTGCCAGGGCCGTGGACGCCTTCGGTGCTGGGCAAGCAGATCGCAACCATCGATCAGCTCACTGGCGGCCGCGTGGCGATCAACGTGGTGTCCGGCTGGTTCAAGGGCGAGTTCACCGCCATCGGCGAGCCGTGGCTGGAGCACGATGAACGCTATCGCCGTTCCGAGGAATTCATCACCACGCTCAAGGGCATCTGGACCACCGACAACTACACCTTCGCCGGTGATTTCTATCGCTTTCGCGACTACACGCTCAAGCCCAAGCCGCTGCAGCAGCATCCGGAAATTTTCCAGGGCGGCAGCTCACGGGCGGCGCGGGACATGGCTGCGCGGGTCTCCGACTGGTACTTCACCAACGGCAACACAGTGGAAGGGGTCAAGGCTCAGGTCGATGACCTGCGGACCAAAGCGGCGGCCAACAACCACAAGGTGAAGGTCGGCGTGAACGCCTTCATCATTGCCCGCGATACCGAGGAAGAGGCCCGCGCGGTGCTGGCCCAGATCATCGACCAGGCCGACCCGGAAGCCGTCAACGCTTTTGGCGACGCGGCAAAACAGGCCGGCAAGGCCAGCCCCGAAGGCGAGGGTAACTGGGCCAAGTCCAGCTTCGAAGACCTGGTGCAATACAACGACGGTTTCAAGACCAACCTGATCGGCACACCCCAGCAGATTGCCGAGCGCATCGTCGCCTTGAAAGCCGTGGGAGTGGACCTGGTACTGGCCGCGTTCCTGCATTTCCAGGAGGAAGTCGAGTATTTCGGTAAGCGGGTCCTGCCGCTGGTGCGTGAGCTGGAGCAGGGGAAAGTGACGGTCAAGACAGCGGCGGTCGCTTAG	MSQDTIKFAYWVPNVSGGLVVSKIPQRTDWGIDYNRKLAQIAEDAGFDYALTQIRFTAGYGAEYQHESVAFSHALLAATTRLKVIAAVLPGPWTPSVLGKQIATIDQLTGGRVAINVVSGWFKGEFTAIGEPWLEHDERYRRSEEFITTLKGIWTTDNYTFAGDFYRFRDYTLKPKPLQQHPEIFQGGSSRAARDMAARVSDWYFTNGNTVEGVKAQVDDLRTKAAANNHKVKVGVNAFIIARDTEEEARAVLAQIIDQADPEAVNAFGDAAKQAGKASPEGEGNWAKSSFEDLVQYNDGFKTNLIGTPQQIAERIVALKAVGVDLVLAAFLHFQEEVEYFGKRVLPLVRELEQGKVTVKTAAVA	PGPT0002830_502	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-SULFONE_DEGRADATION,PGPT0002830-sfnG-K17228	NA	NA
D1-35_03874	1167			hypothetical protein	ATGGGCACGCTCACTGAAACCTTCGACACGTTGCCCCATTGGCTGCATCGACAGGCGCTGGGGCACGGTACGGACGTCGCCCTGCGCCACAAGCACCTGGGTGTCTGGCAGGTGCGGACCTGGCGGCAGCTGGCCGATGAGGTGCAGCGCCTGGCGAGTGCCCTGCAAGCTCGGGGATTCTCGGTGAGCGCGACCCTGACGATCATCAGTCGCCCGACACCACAGGCGATCGTGGCGGCGTTGGCGGCGCAATGGCTGGGTGGTGCGGCGAGCCTGTTCGATCCGTTGGACGGAGTCGCGGGGCAGGTCGAACTGCTCGGCGAATTGCAGCCGGATTTTGTGCTGGCCGAGGGGCACGAAGAATTGTCGCGTCTAGGCGCGGCGCAGTTGGCCCCCCGCGTGGTGATCTATCTGGACAAGCGCGGACTGTCAGGCTCGGTCGCGTTTGATCAGGCGCTGGATTACGCCACGTTGATCGAGGCGAGGACGCTCGATGAACGCGTCCCGCTGGCACATGCGCAGCAAACGGCGTTCGTTTTCTATCGCCGGGGGCCACAAGCCATCGAGCAACAATGCATCAGCCACGCCGAGCTGTTGCAACACGGGCAGCAACTGGTACAGCGCGAAGGACTGCGACGGCAGGAGGAAGCGTTGGCGGCGCGCGGTTTCGCCTCGGGCGGCCAGGCGCGGTATCTGCTCGCGCCCTGGCTGATCGCCGGTTTCCGCTTGAACTTCCCGGAAAACCTGGCGACCCGTGACCGCGACCGACGTGAGCTGGGCCCGACGCTGGTGGCCGGCACCCCGGAAACCTACGAGCGTCTGCACGGCTATGTGCTGGAGCGCCTGCCGGCACCGGGCGATGGGGCACGCAGACTGGTGGATTGGGCCCTGGCGGCACGTCCGGGGCCGTTGCGAAGGTTCATCGGTCATTGGCTGGTGCGCCGGCCTCTGCGCGACGTGCTTGGGTTTTCACGAATCCATGCACCGCTGCTGGTGGGTGATGCGCTAAAGCCTGAGACCCAGGCATTTTTTGACACCTTGGGTATCAACGTCCGCCAGTGGGAGGGTGCGGCCCATTGGGAGGTGCCGACGATTTCATTGGCCCCCACTACCAATGAACGGGACGAACGCCAATCACAACGCGCCTGGAAGGAGGCGACCACATGA	MGTLTETFDTLPHWLHRQALGHGTDVALRHKHLGVWQVRTWRQLADEVQRLASALQARGFSVSATLTIISRPTPQAIVAALAAQWLGGAASLFDPLDGVAGQVELLGELQPDFVLAEGHEELSRLGAAQLAPRVVIYLDKRGLSGSVAFDQALDYATLIEARTLDERVPLAHAQQTAFVFYRRGPQAIEQQCISHAELLQHGQQLVQREGLRRQEEALAARGFASGGQARYLLAPWLIAGFRLNFPENLATRDRDRRELGPTLVAGTPETYERLHGYVLERLPAPGDGARRLVDWALAARPGPLRRFIGHWLVRRPLRDVLGFSRIHAPLLVGDALKPETQAFFDTLGINVRQWEGAAHWEVPTISLAPTTNERDERQSQRAWKEATT	PGPT0008380_16270	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
D1-35_03875	783	cysA_1	COG1118	Sulfate/thiosulfate import ATP-binding protein CysA	ATGACCCGAACGGCCGCCACGCAGCTCCTCGAGCTGGACAACATTTCGCTGTCGTTCAAAGGCGTCAAAGCGATCACCGACATCAGCTTCAGCGTTGCCGCCGGCGAGATCTGCGCCTTGATCGGCCCCAACGGCGCCGGCAAGAGTTCATTGCTCAACATCATCAGCGGGGTCTACCAACCCCAGCAAGGGCGCATACGTTTCGACAATCGCGAGCGCCGCGGCATGCGCGCCCACGACGTGGCGGTGCGGGGCGTCGCCCGGACGTTCCAGAACATCGCGCTGTTCAAGGGCATGAGCGTGCTCGACAACGTGCTCACCGGGCGCAACCTCAAGCGTCGCAGCACCTGGATTGAGCAGGTGTTGCGTATCGGGCGGGCCGGTAAGGAGGACGACAGCCAGCGCGAAGCGGCCGAGCGGGTCATCGAGTTCTTGCGTTTGCAGCCGTGGCGCGACGCATGGGTGGGCACCTTGCCTTACGGTTTGCAGAAGCGCGTGGAGCTGGCCCGCGCCCTGGCGGCGGAGCCGCGGTTGTTGCTCCTCGACGAGCCCATGGCGGGCATGAACGCCGAGGAGAAACAGCTGATGAGCCGATTCATTGTCGACATCAACCGTGAGCTGGGCACCACGGTGGTGTTGATTGAGCACGACATCGGCGTGGTCATGGACATCAGCGATCACGTGGTGGTGCTCGATTACGGTCGCAAGATCGGCGACGGCGCCCCGGATGTGGTACGGCAGAACCCCGAGGTCATTTCGGCTTACCTCGGCACTCGACACTGA	MTRTAATQLLELDNISLSFKGVKAITDISFSVAAGEICALIGPNGAGKSSLLNIISGVYQPQQGRIRFDNRERRGMRAHDVAVRGVARTFQNIALFKGMSVLDNVLTGRNLKRRSTWIEQVLRIGRAGKEDDSQREAAERVIEFLRLQPWRDAWVGTLPYGLQKRVELARALAAEPRLLLLDEPMAGMNAEEKQLMSRFIVDINRELGTTVVLIEHDIGVVMDISDHVVVLDYGRKIGDGAPDVVRQNPEVISAYLGTRH	PGPT0020780_4364	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
D1-35_03876	882	livH_3	COG0559	High-affinity branched-chain amino acid transport system permease protein LivH	ATGGAATTTTTCTTTGAAGTATTGATTGGCGGGCTGCTGGCCGGGGTGATGTACGCCTTGGTGGCCATCGGTTTTGTGCTGATCTACAAGGCCTCCGGGGTGTTCAACTTCGCCCAGGGCGCGATGGTGCTGTTCTCGGCGCTGACCTTCGTCAGCCTGCTGGAGCGCGGCGTGCCGTTCTGGCTGGCGTTTCTCATCAGCCTGGTGGCGATGCTGCTGATCGCCGTGGCAGTGGAGCGTGTGGTGTTGCGCCCGTTGGTCAATCGATCGCCGATCACGCTGTTCATGGCCACCCTTGGGCTTTCCTATGTCATCGAAGGTTTCGCCCAGGCGTTGTGGGGTGCCCAGGTGCATGGCCTGGACTTGGGCATCAGTGATGAACCGCTGGAGCTGGGCGGGATGCTGTTGTCGCAGTTCGACATTTTCGCCGCGCTGACCGCCGCGTCACTGGTGGCGCTGCTGTCCTGGCTGTTCAACAAGACCCGCTTGGGCCTGGCGCTACGAGCCGTGGCGGATGACCCGCTGGCGGCGCTGGCCGTGGGTATTCGCTTGCAGCGGGTCTGGGTCGTGGTGTGGACGGTGGCGGGGTTCGTCGGGCTGGTCGCCGGCCTGCTCTGGGGCGCTCGCCTGGGCGTGCAGTTCTCGTTGTCGCTGGTGGTGCTCAAGGCCTTGCCGGTGTTGATCATTGGCGGGTTCACCTCGATCAGCGGGGCGATTGTCGGCGGGCTGATCATCGGCGCTTCGGAAAAATTGGCGGAGGTATATCTCGGGCCGTTCATCGGCAGTGGCATCGAAAACTGGTTTCCCTACGCGCTGGCGCTGCTGTTCCTGCTGGTGCGTCCGGCCGGGCTGTTTGGCGAACGCGCCATCGAACGGGTCTAG	MEFFFEVLIGGLLAGVMYALVAIGFVLIYKASGVFNFAQGAMVLFSALTFVSLLERGVPFWLAFLISLVAMLLIAVAVERVVLRPLVNRSPITLFMATLGLSYVIEGFAQALWGAQVHGLDLGISDEPLELGGMLLSQFDIFAALTAASLVALLSWLFNKTRLGLALRAVADDPLAALAVGIRLQRVWVVVWTVAGFVGLVAGLLWGARLGVQFSLSLVVLKALPVLIIGGFTSISGAIVGGLIIGASEKLAEVYLGPFIGSGIENWFPYALALLFLLVRPAGLFGERAIERV	PGPT0020770_6605	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
D1-35_03877	1068			hypothetical protein	ATGTTTTATCGAGAAGCAGGTCAGTTCAACACCCGTTATGCCGAGGACCGCCGGGTCTTTGCCTTGCGCCAGGATCGCCACGGGCTGGCGGCGCTGCTGCTGGTTGCATTCGTCGTGGTGCCATGGCTGGGCAATGACTACTGGCTCAGCGCGATATTGATTCCGTTTCTGGTGCTGTCCCTGGCCGGGTTGGGGCTCAATCTGCTCACCGGTTACGCCGGGCAGTTGTCCCTGGGTTCTGCGGCGTTCATGGCCGTGGGGGCGTTCGCCACCTACAACCTTGAAGTGCGTGTCGGCGGTTTGCCGTTGTTGTTCAGCATTGCCTTGGGCGGGCTGACGGCGGCGCTGGTGTCGCTCCTGTTCGGCCTGCCGAGCCTGCGCATCAAGGGCTTCTATCTGCTGGTCTCGACATTGGCGGCGCAGTTCTTCGTGACCTGGACGCTGACCCGCTTCGGCTGGTTTTCCAACGACAGCGCGTCGGGGGTGGTCAGCGCGCCGCGCCTGGATATTTTCGGCGTGAACCTGGACGCGCCGGCCGGCCGTTATCTGTTGACCCTGACGGTGGTGGTGGCGCTGTTCTGGCTGGGCAAGAACCTGGTGCGCAGCGAATTGGGCCGCCAGTGGATGGCCGTGCGCGACATGGACACGGCCGCGGCGGTGATCGGCATTCCTCTGGCGAAAACCAAGCTGCTGGCCTTTGCCATCAGCGGCTTTTACCTCGGCGTGACCGGCGCGCTCTGGGCCTTCGCCTATCTGGGCACCGTCGAACCCCATGGCTTCGATCTCAATCGCTCATTCCAGATCCTGTTCATCATCATTATCGGCGGGCTCGGCAGCTTGCTGGGCAACTTCCTCGGGGCGGCCTTCATCGTGCTGTTTCCGGTGCTGCTTTCCAACCTGGTGTCGCTGCTGCCCGGCGGGCTGATCGATGCCGGTCAGGTGGAAAACCTGCAAAAAATGTTTTTCGGCGCGCTCATCATCCTGTTCCTGATCAAGGAACCGGAGGGCCTTGCGCGCCTCTGGCAACGACTTCGCCAGCGTGCGCGGCTGTGGCCGCTGCGCTACTGA	MFYREAGQFNTRYAEDRRVFALRQDRHGLAALLLVAFVVVPWLGNDYWLSAILIPFLVLSLAGLGLNLLTGYAGQLSLGSAAFMAVGAFATYNLEVRVGGLPLLFSIALGGLTAALVSLLFGLPSLRIKGFYLLVSTLAAQFFVTWTLTRFGWFSNDSASGVVSAPRLDIFGVNLDAPAGRYLLTLTVVVALFWLGKNLVRSELGRQWMAVRDMDTAAAVIGIPLAKTKLLAFAISGFYLGVTGALWAFAYLGTVEPHGFDLNRSFQILFIIIIGGLGSLLGNFLGAAFIVLFPVLLSNLVSLLPGGLIDAGQVENLQKMFFGALIILFLIKEPEGLARLWQRLRQRARLWPLRY	PGPT0020775_4641	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
D1-35_03878	1326			hypothetical protein	ATGTTCAAACGATCATTCGCCAGCACCCTCGCACTGGCCCTGAGCCTCACCGCCGCCGCGTTCACCGTGCAGGCGGACAACGAGCAATATTTCCCGCTGCAAAGCTATCGCGTCGGTCCCTATGCGGCCGGCGGTACGGGTTTTTTTGGTGGCTTCATCGACTACCTCAAGTACGTCAACGCCAACGGCGGCGTGAACGGGGTGAAGCTGACGTGGAGCGAATGCGAAACCGAGTACGTGGTAGAGAAGGGCGTCGAGTGCTACGAGCGCCTGAAGAAAGGTTTGAATGGCGCACCGGCGGCTGCGACCAACCCGCTGTCAGTGGGCATCGCCTACGCCACGTTGGAGCGCTCCACCGCCGACAAACTGCCGCTGATCACCATCAACCACGGCCGCACCGACTCCACCGATGGCAGCGTGTTTCCCTATGTCTTCCCGCTGCAATTGAACCCGTACTCCGAGGTGTCGGCGATCATCAACTACATCGGCCAGCGCGCCGGTGGGCTGGACAAACTCAGGGGCCTGAAGATCGTCACCCTGTACCACGGCTCGCCGTACGGCAAGGAAACCAACGAGGTGTTGCAGACCCTGGCGGATAAATACGGTTTTGCGCTGACCTTGCTCGAAGTGCCGCATCCGGGCAACGAGCAACAGTCGCAGTGGTTGAATATCCGTCGGGAAAAACCCGACTGGGTAATCCTGCGCGGCTGGGGCGTGATGAACCCGGTGGCGCTGAAAACCGCGCAGAAGGTCGGGTTCCCGGCCGATCACATCATCGGCAACATCTGGAGCAACTCCGAGGATGACGCCGCGCCGGCCGGTGCTGCGGCCAAGGGTTTCATCGCGATCACCACGCACCCGTCGGGCACCGGTTTCCCGGTGCTGCAAGGCATCAAGAAGGACGTGGTCGACGCCGGCCATGGCGACCTGGCGGACCCCAAGCGTTTCGGCACGGTGTATTACAACCTGGGCGTGGTCAACGGCATCCTCAACGTCGAGGCGCTGCGCATTGCCCAGCAGAAGTTCGGCCAGCAACCGTTGACCGGCGAGCAGGTTCGGTGGGGCTTCGAGAATCTCAAGCTCGATGATGCACGTCTCAAGGAGCTGGGGGCGCTGGGGTTGGTGCAGCCGTTGCAATTGTCCTGCTCGGACCACGAGGGCGGCGGCGCGGTGCGCTTCCAGCAGTGGGACGGCACGCAGTGGAAGCTGATCAGTGACTGGGTGCAGGCCGACCGCGCGTTGCTGCGGCCGATCATCGAAGCGTCTTCGCAGCAATACGCCAAGGACAAAGGCATCACGCCGCGCGATTGCAGCAAGGAATCCTGA	MFKRSFASTLALALSLTAAAFTVQADNEQYFPLQSYRVGPYAAGGTGFFGGFIDYLKYVNANGGVNGVKLTWSECETEYVVEKGVECYERLKKGLNGAPAAATNPLSVGIAYATLERSTADKLPLITINHGRTDSTDGSVFPYVFPLQLNPYSEVSAIINYIGQRAGGLDKLRGLKIVTLYHGSPYGKETNEVLQTLADKYGFALTLLEVPHPGNEQQSQWLNIRREKPDWVILRGWGVMNPVALKTAQKVGFPADHIIGNIWSNSEDDAAPAGAAAKGFIAITTHPSGTGFPVLQGIKKDVVDAGHGDLADPKRFGTVYYNLGVVNGILNVEALRIAQQKFGQQPLTGEQVRWGFENLKLDDARLKELGALGLVQPLQLSCSDHEGGGAVRFQQWDGTQWKLISDWVQADRALLRPIIEASSQQYAKDKGITPRDCSKES	PGPT0020765_981	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
D1-35_03879	1104	sfnR_2	COG1221	Sigma54-dependent transcriptional activator SfnR	ATGCAGCTTCTTACGCTTCCTCCCTCCCCCGGCCTGGCTACCTCGATCCGCGCCACGGCCCAAGTGTTCGCCGATCCCAGCTCCCAGGCACTGCTGACGCACTTGCAGCAAGTCGCGCCCAGTGACGCCAGCGTGTTGATCATTGGCCAGACCGGTACTGGCAAGGAGCTGGTCGCCCGCCACGTCCATAACCTCAGTGCTCGACGCGACAAACCGTTCGTGGCGGTGAACTGCGGGGCGTTTTCCGAGACGCTGGTGGAGGCCGAATTGTTCGGCCATGAAAAAGGCGCGTTCACCGGCGCCTTGACCGCCAAGGCCGGGTGGTTCGAAGAAGCCGACGGCGGCACGCTGTTCCTCGATGAAATCGGTGACCTGCCATTGCCGATCCAGGTCAAGCTTCTGCGCGTTCTACAAGAGCGTGAAGTGGTCCGCCTCGGCTCGCGCAAGCCCATCAGGATCAATGTGCGGGTGCTGGCGGCCACCAACGTGCAACTGGAAAAAGCCATCAACGCCGGGCATTTTCGCGAAGACCTGTATTACCGACTGAGTGTGGTCAGCCTGGTGCTCAAGCCGTTGCGCGAGCGTCCCGGCGACATCCTCCCGCTGATTCGCCATTTCATCGCTGAGTACAGCCGCAGGCTCGGTCATGGCGAGGTGACGCTGGATGCCCAGGCCCAGCGCAAACTGCTCGACTACTCGTGGCCGGGAAATATTCGCGAACTGGAAAACGTCATCCATCACACCTTGCTGATCTGCCGCAACAAGGTGATCGGCGTGCAGGATCTGCACCTGTCGAACTTTCGCATCGAGCGCCAGGACGCGTCCCATGACAACACGCCGCAAACCACCGAGGCACTGCTGGAAAAGGCCTTCGAGCAATTGCTTGAGCAAGCGCACGGCGATGTCTATGAAAAAGTCGAAGCGGCCCTGCTGCGCACCGCCTACCGCTACGCCAGTTGCAACCAGGTCCACACCGCAAGCCTGTTGGGCCTGAGCCGCAACGTCACCCGCAGCCTGCTGATCCGGATCGGCGAGCTGGTGGTCAACAAACGGCGCCCGGCGCTGAGTACGCGTGATGGTCGGGTGGTCAACCTTTCAACCTGA	MQLLTLPPSPGLATSIRATAQVFADPSSQALLTHLQQVAPSDASVLIIGQTGTGKELVARHVHNLSARRDKPFVAVNCGAFSETLVEAELFGHEKGAFTGALTAKAGWFEEADGGTLFLDEIGDLPLPIQVKLLRVLQEREVVRLGSRKPIRINVRVLAATNVQLEKAINAGHFREDLYYRLSVVSLVLKPLRERPGDILPLIRHFIAEYSRRLGHGEVTLDAQAQRKLLDYSWPGNIRELENVIHHTLLICRNKVIGVQDLHLSNFRIERQDASHDNTPQTTEALLEKAFEQLLEQAHGDVYEKVEAALLRTAYRYASCNQVHTASLLGLSRNVTRSLLIRIGELVVNKRRPALSTRDGRVVNLST	PGPT0030455_28	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_REGULATION,PGPT0030455-sfa3-K11917	NA	NA
D1-35_03880	1401	bauD	COG1113	putative GABA permease	ATGACCAGCCCGAGCTTCAAGGATTCGAACGGCCACTTGGCGCAGGGCTTCAAGCCTCGTCACGTCACCATGCTTTCAATCGCCGGGATCATCGGCGCCGGCCTGTTTGTCGGCTCGGGCCATGCGATCGCCGCTGCCGGTCCGGCCGTCATGTTGGCCTATCTTTTTTCCGGTCTGCTGGTGGTGCTCGTCATGCGCATGCTTGGCGAAATGGCGGTAGCCCGGCCAGACACCGGCTCGTTCTCCACCTACGCCGACCAGGCGATCGGGCGCTGGGCAGGCTTCACCATCGGTTGGTTGTACTGGTGGTTCTGGGTGCTGGTGATTCCCATCGAGGCGCTCGCCGCGGGTCATGTACTCAACCAGTGGTTTCCCTCCGTTGATGCCTGGCTGTTTGCCTCGGTGTCGATCATTGCCCTGGCCGTGACCAATCTGTTCAGCGTGTCCAAATACGGCGAGTTCGAGTTCTGGTTCGCCATGGCCAAGGTGATCGCGATCATCGGTTTCATCTCCCTGGGATTCGCCGTGCTGATGGGCTGGATTCCCGAGCGCGAAGCCAGCGGCTTGAGTCGCTTGATGGAGGAACACGGCGGGTTCGCGCCCAATGGCTTGTCCGCCGTGGTCGGGGCCTTCATCACCATCATGTTCAGTTTCATTGGTACGGAGGCGGTGACGATTGCCGCCGCCGAATCCAGCAACCCGGCACAGAACATCGCCAAGGCCACGCGCTCGGTGATCTGGCGCATCGGCGTGTTTTATCTGCTGTCGATCTTCGTGGTGATTTCCGTGGTGCCCTGGGACGATCCGCTCCTGGCCTCGGTGGGCTCCTACCAGCGGGCGCTGGAGTTGATGAACATTCCCCACGCCAAATTCATGGTGGACGTGGTGGTATTGATTGCCGTGGCCAGTTGCATGAACTCCTCCATCTACATTGCTTCACGCATGCTCTATTCCCTAGGCCGGCGTGGTGATGCGCCGAGGGTGGTGGAAGTGACTTCGTCCGCTGGCGTGCCCCGGGCAGCGGTGATAGCCAGTACGGTACTGGGCTTGGGCATCACCTTGTTCAGCTACTTCATGCCGGCCGGGTTGTTCCAGTTCCTGCTCGCCAGCTCCGGCGCCATCGCCTTGCTGGTGTACCTGGCGGTCGCCGTGTCCCAGTTGCGTATGCGCCGCAAGCTGCTTCGCCAAGGCGTCGAGCTGGGCTTTCGCATGTGGCTGTTTCCCTGGCTCACCTGGGCGGTGATCGTGTTTATCTGCGCGGCCCTGGCGGTGATGATGGTGACTCCCGAGCACCGCGGCGAAGTGAGCACCACCCTAGGCCTGGCCTTGGTCATTTCCTTTGTCGGCCTGGTGACTTCGCGGCAATCTCCGCAGCCTGAAGAGGCGGTTTCCCTCGGCTAG	MTSPSFKDSNGHLAQGFKPRHVTMLSIAGIIGAGLFVGSGHAIAAAGPAVMLAYLFSGLLVVLVMRMLGEMAVARPDTGSFSTYADQAIGRWAGFTIGWLYWWFWVLVIPIEALAAGHVLNQWFPSVDAWLFASVSIIALAVTNLFSVSKYGEFEFWFAMAKVIAIIGFISLGFAVLMGWIPEREASGLSRLMEEHGGFAPNGLSAVVGAFITIMFSFIGTEAVTIAAAESSNPAQNIAKATRSVIWRIGVFYLLSIFVVISVVPWDDPLLASVGSYQRALELMNIPHAKFMVDVVVLIAVASCMNSSIYIASRMLYSLGRRGDAPRVVEVTSSAGVPRAAVIASTVLGLGITLFSYFMPAGLFQFLLASSGAIALLVYLAVAVSQLRMRRKLLRQGVELGFRMWLFPWLTWAVIVFICAALAVMMVTPEHRGEVSTTLGLALVISFVGLVTSRQSPQPEEAVSLG	PGPT0007665_500	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007665-gabP-K11735	NA	NA
D1-35_03881	1722	prsD_3		Type I secretion system ATP-binding protein PrsD	ATGGGTTTTTTTCTTGATCCGCGGCATGACATCGACGCCGCTTTGTTGAGTTATCGCCGGGTATTCTGGTCCCTGGCCCTCTTCAGCGGCGTGATCAATCTGCTGGTGCTGGTGCCATCGCTGTACATGATGCAGGTCTACGATCGGGTCCTCACCAGTCGCAACGAAACCACGCTGTTCATGCTCACCTTGATCGCTCTCGGGCTGTTCATGTTCAGTGCGTTGATCGAGTGGGTGCGTGGCGAAGTGATGATCCGCATGAGCGCCGGGCTGGACGATGCCTTGGGCGAGCGGATTTTCGATGCAGCGTTCGCCCGCAGCCTGCGCGAGCACAACGCCAACCCGGCGCAGGTGCTGAGTGACCTGGCCACCTTGCGCCAACTGATTACCGGCCAGGGGCTGATCGCCTTGCTCGATGCACCGTGGTTGCCGATTTTCCTGCTGGTGGCGTTCATCATCCACCCCTGGTTCGGCGTGCTGACCCTGATCCTCGCAGCGTTGCTGGTCGGCCTGGCACTGTGGGGCGAGCTGGCGACCCGCACGCGCCTGGGGGAGGCCAATCGGCTGGGCGTGCAATCGTCGATCTACGTCAACAGCACCCTGCAAAATGCCGAGGTCATCCAGGCCCTGGGCATGCTCGGGCCGCTGCGCCAGCGCTGGAGCCTGCTGCAGCAACGGATCATCGCGGCGCAGGCGCATGCCAGTGATCGCGGTGCGCGTATCACCTCGGCGACCCGTTTCGTGCGGATTTCCGGCCAGTCCCTGGCCTTGGGGCTGGGGGCGCTGCTGGTACTCGAAGGGCAATTGTCGGCGGGCATGATGATTGCCATGTCGTTGTTGCTGGGGCGTGCCCTGGCGCCGGTGGAAATTGCCATTGGTTCGTGGAAGCAATTCAACGCCGGTCGCCAGAGTTACCAGCGTCTGAGCCAGTTGCTCGCGCAACATCCTCGCGATCGCCTGCGTATGCCATTGCCACCGCCAACGGGCGCGGTGCGCCTGGAGCAGCTCTACGTCGGGCCACCCGCTGCGACGCAGCCGCTCCTGCGTGGCATCAATTTCAGCCTGGACAAGGGCGAGGTACTGGCGGTGGTCGGGCCCAGCGCCAGCGGCAAATCGACCTTGGCTCGGGCATTGGTTGGCGTGTGGCCGGCCATGGGTGGCTCGGTGCGGCTGGACGATGCCGAGATCAGCCAGTGGTCCCATGACGCCTTGGGCCCGTACCTCGGTTATCTGCCGCAGGACATCGAACTGTTCGATGGCAGTGTCGCTGACAATATCGCCCGTTTCGGCGAGCAGGACGCCGACAAGATCATCGCCGCCAGCCGTCACGCGGGCATTCACGAAATGATCCTGAGATTCCCCAAGGGCTACGACACGCCGCTGGGCCCCGGCGGGCTTGGCCTGTCCGGCGGACAGAAGCAGCGCCTGGGCCTGGCCCGTGCGCTTTATGGCAGCCCTTCGCTGATCGTCCTCGACGAGCCCAATTCCAACCTCGACGAAGCCGGCGAACTCGCGCTGGTGCAGGCCATCGGTGTGCTCAAGGCCGCCGGCAGCACGGTGGTGTTGATCACCCACCGGCCCAACGTTCTGGCGGTAGTGGATCACATCCTGGTGCTGAAGGACGGTACCCAGCAGGCGTTCGGCCCGCGCGACCGGGTGCTCAAGGCGCTGATGCCAGGCCCAAGGCCGACGGCCGTGCGGGAGGCGGGTAAAGATGCGTGA	MGFFLDPRHDIDAALLSYRRVFWSLALFSGVINLLVLVPSLYMMQVYDRVLTSRNETTLFMLTLIALGLFMFSALIEWVRGEVMIRMSAGLDDALGERIFDAAFARSLREHNANPAQVLSDLATLRQLITGQGLIALLDAPWLPIFLLVAFIIHPWFGVLTLILAALLVGLALWGELATRTRLGEANRLGVQSSIYVNSTLQNAEVIQALGMLGPLRQRWSLLQQRIIAAQAHASDRGARITSATRFVRISGQSLALGLGALLVLEGQLSAGMMIAMSLLLGRALAPVEIAIGSWKQFNAGRQSYQRLSQLLAQHPRDRLRMPLPPPTGAVRLEQLYVGPPAATQPLLRGINFSLDKGEVLAVVGPSASGKSTLARALVGVWPAMGGSVRLDDAEISQWSHDALGPYLGYLPQDIELFDGSVADNIARFGEQDADKIIAASRHAGIHEMILRFPKGYDTPLGPGGLGLSGGQKQRLGLARALYGSPSLIVLDEPNSNLDEAGELALVQAIGVLKAAGSTVVLITHRPNVLAVVDHILVLKDGTQQAFGPRDRVLKALMPGPRPTAVREAGKDA	PGPT0029385_1043	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-HEMOPHORE|METALLOPROTEASE_TRANSPORT,PGPT0029385-hasD|prtD|-K12536	NA	NA
D1-35_03882	1371	prsE_5		Type I secretion system membrane fusion protein PrsE	ATGCGTGATTTGAAACCGGCGACGCCGGCCCACGGCGACCACGGCTTGAGCGTGCTCAGCAGCAACACGCTACCCAACGCCAGTACCGATGCCGGCGGCGCGGCGCGCTACGGCGTGGCCTTCCTGGCCCTGACCTTGGGCGGTTTCCTGCTTTGGGCGTGCCTGGCGCCGCTCGACCAGGGTGTGGTCGGCAGCGGCACCGTGGTGGTGGCGGGCGAGCGCAAGGCAGTGCAATCGCTGGTGGGCGGGGTCGTGGAAAAGCTGCTGGTCAGCGACGGCGACCGCGTCAGCCAGGGCCAGTTGCTGGTGCAGCTCAACACGGTGCAGGCCCAAGCGCAGTTGGACGTGACCCTGGGCAAGCTGCTTAATGACCGCAGCATCGAGGCGCGCTTGATGGCCGAGCGCCTCGGCGCCGATGAAATCCACTGGCCGGCGCAATTGCTGGAGCGCGCCGAGGAGCCGCGCGTCAAGGCGGCCATGGCGCTGCAGAAGCAACTGTTCCTGACACGCCGTGCCGAACTGGGCAGCCGCCTGCAGATCATCGAACATGAAGTCGGCGCCTTGCAGCAACAGTTGCAGGGCTATGAAGGGGTCAAGCGCAACTACGACGCGCAGATGCGTTTTCAGCAGCAAGAGCTTGAAGGTTTGCGCGAATTGGCTCGGGAAGGCTACGTGCCGCGCAACAAACTCTTCGAGGCCGAGCGCAACGCGGCGCAACTGGCCGGGCAGATCGCTTCCGGCATTGGCGATGTAGGCCGCACGCGCCAGGCAATCAACGAAAGCCGGCTCAAGGCCTTGCAGGCGCAGCAGGAATTCCGGCGCGATGCCGAAACCCAACTCAGCGAGGTCTCGGCCGAGGCCGCCGGTTATGCCGATCAGATCCGCGCCTTGCAGTTTGAGGTGGATAACGGGGCGATCCGCGCGCCGGTGGCGGGGCAGGTCATGGACGTGTCGATCCATACGGTCGGCGGCGTCGCCCAGGCCGGGCAGACGCTGATGCAGGTGGTGCCGCTGGATGCGCCGATGGCGATCACCGCGCGTTTTGATCCGCTGATGGCCAACAAGCTGAGCCCAGGGCTGCCGGTGCACGTGCATTTCACTGCGTTGCAACGGGTGGACACGCCGACGGTAACCGGCACGATCACCACCGTGTCGGCGGACCAGTTGATCGACCAGCAGACCCACCAGCCATATTTCTCCGCCAAGGTCGAGATTCCCGCCGACACCGTCGTTTCGCTGCAGAGCGCCGGGCTGCAGGTGCGCCCCGGCATGCTTGCCGACGTCACCGTGGTGACCGGTGAACGGACCTTGATGAATTACCTGATGAAACCCTTGCGCGAACGCTTGCTGGCGGCCTTCAAAGAGGAATGA	MRDLKPATPAHGDHGLSVLSSNTLPNASTDAGGAARYGVAFLALTLGGFLLWACLAPLDQGVVGSGTVVVAGERKAVQSLVGGVVEKLLVSDGDRVSQGQLLVQLNTVQAQAQLDVTLGKLLNDRSIEARLMAERLGADEIHWPAQLLERAEEPRVKAAMALQKQLFLTRRAELGSRLQIIEHEVGALQQQLQGYEGVKRNYDAQMRFQQQELEGLRELAREGYVPRNKLFEAERNAAQLAGQIASGIGDVGRTRQAINESRLKALQAQQEFRRDAETQLSEVSAEAAGYADQIRALQFEVDNGAIRAPVAGQVMDVSIHTVGGVAQAGQTLMQVVPLDAPMAITARFDPLMANKLSPGLPVHVHFTALQRVDTPTVTGTITTVSADQLIDQQTHQPYFSAKVEIPADTVVSLQSAGLQVRPGMLADVTVVTGERTLMNYLMKPLRERLLAAFKEE	PGPT0029390_231	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-HEMOPHORE|METALLOPROTEASE_TRANSPORT,PGPT0029390-hasE|prtE-K12537	NA	NA
D1-35_03883	1350	tolC_2	COG1538	Outer membrane protein TolC	ATGACCGACCGTTGCCGTTATGGCGTCCGTGTGCTGTTGAGCCTGTGCACCAGTTGGGCGGTGATCGGCCCCGTCTGGGCGGCGGAGGGCGGGCTGAGCCTGATCGCCGCTTACGATGCCTCGCGCCTCAACGATCCGACCTTGCAGGCGGCGACCCATGCCTACGACGCGTCGCGGCAGGAGGAGGCGATCGGCCGTGGCGGTCTTTATCCGCAAGTGTCGCTGTCGTCGCGTTATGGCTATGGCGGGCGTACCGATGGCGGCGACGACAGCAGTTACGTCAACAGCAACGATTACCAGGCGAACAGTGTGACCCTGGCCGCGCAGCAGGCGCTCTATGACAAGGGGCGTTGGGCGGCTTATCAGGAAGGCAAGGCGCGGGGGGCGCTGGGTAGCCAGCAATTCGATGTGGCCGGCCAGACCCTGTTCGATCGGGTCGCCAAGGGCTATTTCGACGTGGCCCGGGCCGAGAACGAACTCAAGCTGATCGCCCAGCAGAAAACCGCTATCAGTGGCTTGGTCCTCCAGAGCAAAAAGCTCTATGAGGGCGGCCAGGGAGCGATCACCGATATCGACGAGGCCCAGGCCCGGCTCGATCTGGTCGAGGCTCAGGAAACCGAAGCCCAGGCCCGCCGCGTGGCTGCGCTGCGAGCACTGTCGGGGCGGGCCAGCGTGCCGATCGACGACATCCAGGCGATGCGCGAAGAACTCCCCGCCGGCAGCCCGATCCCGCCGGAGCAGGATCTGCCGTATTGGACAACGATTGCCCGTGAGGCCAGTCCGGAGCTGGCGGCGCGGTTGGCGGCGGTAAAAGTCGCCGAGGCCCAGGCCGACAGCCAGCGCGCCGGGCATTATCCGACGTTGTCGCTCACCACTCAGTTGACCCGTCGGGAAACCCGCCAGTACCAGGAGCTCGACCCGCGCCAGGACACTTACTACGTCGGGGTGCAACTGGATATCCCGTTGTATCGCGGCGGCGCGGTGCGTGCATCGGTGGCCAAGGCCGAGGCCCAGCTGGCCGGGGCCCAGTCCGATTACGATGTGCAGCGTCAGGAGCTGGCCGAGGCTATCGAAACCGACTATCTGGGCGTGGTGGCGGGCTTCGCCAAGAGCAAGGCGATGCTACGGGCGGTGGAATCCAACCAGCGGGCGCTGACGTCGACCGAGAAGGGTTTCCAGGGCGGCGTGCGCTCGACGGTCGACATCCTCGATGCCCAGCAACGCCTGTTCCAGGCACGCCGCGACCTGCTCGATACCAAGCTGGACATGCTCGAAAGTTATGTAAGCCTGCACACCCACACTGGCCAGATGAACCGCGCGGTGCTGGAACAGGTGCAAAGCCTGTTCTAA	MTDRCRYGVRVLLSLCTSWAVIGPVWAAEGGLSLIAAYDASRLNDPTLQAATHAYDASRQEEAIGRGGLYPQVSLSSRYGYGGRTDGGDDSSYVNSNDYQANSVTLAAQQALYDKGRWAAYQEGKARGALGSQQFDVAGQTLFDRVAKGYFDVARAENELKLIAQQKTAISGLVLQSKKLYEGGQGAITDIDEAQARLDLVEAQETEAQARRVAALRALSGRASVPIDDIQAMREELPAGSPIPPEQDLPYWTTIAREASPELAARLAAVKVAEAQADSQRAGHYPTLSLTTQLTRRETRQYQELDPRQDTYYVGVQLDIPLYRGGAVRASVAKAEAQLAGAQSDYDVQRQELAEAIETDYLGVVAGFAKSKAMLRAVESNQRALTSTEKGFQGGVRSTVDILDAQQRLFQARRDLLDTKLDMLESYVSLHTHTGQMNRAVLEQVQSLF	PGPT0029395_168	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-HEMOPHORE|METALLOPROTEASE_TRANSPORT,PGPT0029395-hasF|prtF-K12538	NA	NA
D1-35_03884	5613			hypothetical protein	ATGATTTTCAACGTACAAGATTTTGGCGCCAAAGGAGATGGCGTCACCGACGACACGGCGGCCATTCAAAGCGCGATCGATGCGGCAGCGGCCGCGGGCGGTGGCCAGGTGTACATGCCCACCGGCACCTACATCGTTTCGGGAGGCGAGGAACCCTCCGATGGCTGCCTGATGCTCAAAAGCAACGTCTACCTGTACGGCGACGGCATGGGCGACACCACGGTCAAGCTGGCCGACGGATCGGACACCAAGATCACCGGCATCATCCGCTCGGCCTATGGCGAGGAAACCCACGACTTCGGCGTCAGCAACCTCACCATCGACGGTAACCGCGACGCCACCACCGGCAAGGTGGATGGCTGGTTCAACGGTTATATTCCCGGCGAGGAAGGCTACGACTCCAACGTCACCCTCGACAGCGTCGAGATCAAGGACTGCTCCGGGTACGGCTTCGACCCGCATGAGCAGACCGTCAACATGGTCATCAAGAACAGTGTGTCCCACGGCAACGGCCTGGATGGCTTCGTCGCCGACTTCCTCAGCGACAGCACCTTCGAAAACAATATTGCCTACGACAACGACCGCCACGGTTTCAACGTCGTCACCAGCACCCACGATTTCACCATGACCAACAACGTCGCCTACAACAACGGCGGCAACGGCATCGTCGTGCAGCGCGGCAGCGAAGATATCCCCTCTCCCAGCAACATCACCATCACCGGTGGCGAGGTCTACGGCAACGGCGCCGAAGGCGTGCTGGTCAAGCTGTCCAGCGACGTGACCGTCACCGGCGTGGATATCCATGACAACGCCAGCGCCGGGATCCGCATCTACGGCAGCAACCATGTCGAGGTCATCGACAACACCCTCAACAACAACTCGTTGGGCGGCGCGGTGCCGGAAATCATCATCCAGTCCTACGACGACACCCTCGGTGTGTCCGGCAAGTACTTCAACGGCAGCGACAACCTGATCCAGGGCAACGTCATCAGCGGCAGCAACCTGTCCACCTACGGCGTCGCCGAGCGCAACGAAGACGGCACCGATCGCAACGCGATCATCGCCAACACCATCAGCCACACCAGCAAGGGCGCCACGCTGGTCTATGGCGATGGCAGCTATGTCAGCGCCACCGTGCCGATGACCACCGTGCAAGGCACGGCGGGCAACGACGTCCTCATGGGCACCGCCGCCAGCGAAATTTTCTACGGTGCGGCCGGCAACGACACCATCAATGGCGCGGCCGGGAGCGATATCCTGGTGGGCGGCGCGGGCGTCGACAAACTCACTGGCGGCACGGGCGCCGACACATTCCGCTTCACCAGCCAGTCCGACAGCTATCGCAATGCAACGGCGAGCTTCGACGACACCATCACCGATTTCGACGTGACCCAGGACAAGATCGATCTTGCCGGCCTCGGCTTCACCGGCCTGGGCAATGGCCGTGGCGGCACCCTGCAAGTCAGCTACAACGCCAGCAGCGACCGCACCTACATCAAGGACTACGACGCCGATGCCAGCGGCAATCGCTTCGAACTGATTCTCTCGGGCAACCTGGCGAGCACCCTGACGGCGAGCAACTTCATCTTCAATCGGGTCATCACCGGCACCACCGGCAGCGACTCTTTGTTGGGCAGCGACGCCGCCGATACCTTGCTCGGCCTGGCCGGCAACGACAGCCTCAGCGGTGGCGCGGGCGACGACAAGCTCGACGGTGGCGCCGGCATGGACACCCTCACGGGCGGCGCCGGGGCGGACACCTTCGTGTTCGCCAACCGGCTGGACAGCTACCGCAACTACAACACCGGTGGCGCCAACCTGGGCGATTTGATCACCGACTTCAACATCGCTGCCGACAAGATCGATCTCTCCGCCATGGGCTTCACCGGCCTGGGCGACGGCAAGAACAATACCGTCTACCTGGTGCTCAACAGCGCCGGCACCAAGACCTACATCAAATCCCTGGAGGCCGATGCCAACGGCAACCGCTTCGAAGTGGCACTGGACGGCAATTACCTCAACACCCTGACCAGCGCCAACTTCGTCTTCGCGACAACATCGCCGACCAACCAGGCACCGGTGCTAGCCACGCCATTGCTGGACCAGAACGCCAGCGAAAAGACGCCCTTCAGCTACGTGGTGCCGGCCACCAGTTTCACCGATCCGGACAATGACAGCCTCAGCTACACCGCCAAGCTGGCCGATGGTAGCGCCCTGCCCAGCTGGCTGACGTTCGACGCCGCCACCCGCACCTTCAGCGGCACGCCACCCGACACGGCATCGGGCACTTACTCGATCCAGGTCACCGCGACCGACGGCAGCAACGCCACCGTCAGTGACAGCTTTACCCTGGCGGTGCAGGACGTGCCCGGCTCGGTGGTGATCAACGGCACGCCAAACAACGACACGCTGACCGGCACCGTCGCCAACGAACAGATTTTCGGTGGCGCGGGCAACGACACCCTCAATGGCGCAGCGGGCAACGACATCCTGGTGGGCGGCACGGGCGTGGACAAACTCACCGGCGGCACGGGCGCCGATGTGTTTCGCTACACCTCCAAGCTCGACAGCTACCGCACCGGTTCCACCAGCGCCAGTGACCAGATCCTCGATTTCGACGTGGCCGCCGACAAGATCGATGTCGCGGCGCTGGGCTACACCGGTCTGGGCAACGGGCTCAACGGCACGCTGCAAGTCAGTTACAGCTCGTCAACCAACCGCACGTACCTGAAGGACCTCACGGTCGATGCCAACGGCAACCGCTTTGAAATCTCCCTGGCGGGAAATTTCGTCAGCAGCCTGACCGCCAATCACTTTGTCTTTGCCGACCAGAACACCCCGACCAACGTGGCGCCGGTGGTAGTCACTCCGCTACTCGACCAGAACGCCAGCGAAAGCACGCCGTTCAGCTATACGGTGGCCAACAACAGCTTCAGCGACGCCAACCAGGACGTGCTGACCTACACCGCGACCCTGGCCAATGGCAGCGCCCTGCCCTCGTGGCTGAGCTTCAACGCCAGCACGCTGACTTTCAGCGGCACGCCCACCAGCACTGCGTCCGGCAACTACGACGTGCTGGTCAAGGCCACCGATCCGTCCGGCGCATCGGTCAGCGACAGCTTTGCCCTGGTGGTCGCCGATGCGCCCGCCAACACCATCACCGGCACGGCCAATGCCGAAAGCCTCAACGGTACGGCAGGCGCCGACCTGATCCTCGGCCTGGGTGGCAACGACACCATCAAGGCTGGGACCGGTGCCGACATCATCGACGGTGGCGCCGGAAGGGACTCGCTGTATGGTGACGCCGGCGCCGACACGTTCCGCTACAGCAACCTGTCCGACAGCTACCGGGACTACGACACCGGTGGCGTCACGGCCACGGACACGATCTATGACTTCACCGTCGGCGTCGACAAGATCGACGTCTCCGGGCTGGGTTTCCTCGGCCTCGGCGACGGCAGCAACGGCACGCTCTACATGACGTTGAATGCGGCCGGCGACAAGACGTATGTCAAGTCCAGCCAGGCTGATGCCGATGGCAACCGTTTCGAGATCGCCCTGAACGGCAACTACCTCAACACCCTGACCGCCAGTGATTTCGTCTTCGGCGAACGCGCCCAGCAAGACATCCTCTATCTGCCGACGCTCGGCCAATCCAACGCACGCCTGCTGCGCATGAGCGAGGATGACGATCAGTCCGGCACCTCAATGCTGGTCAATGACCTGAACAAGTACACCACCTATGACGTGCGCAGCCAGTTCAGCGACGCCGACGGCAACGGCATTGACATTGCGGTGGGTGGCAGCACGGTCAACGGCTTGTCGACCCTCGGCGCCGAGGAGCTGAAGTTGTGCTGGTGGCTGACCGACACCAACCAACCCGGCCCGGCATTGCTGCGCGCCGTGACGCTGTTGCGCGACCAGCTCACCGAACTCAAGGCCATCGACAACGTGACCATGGGTATCATCTGGGGCCAGGGCGAGGAAGCCGCCCAGGAGATCGCCCGCTCCACCGACAAGGCAGCGGCTGCGGCGGCCTACAAGGCGTCGACGCTGAAGGTCTTCGATTACCTGCACGCCCAACTCGGCAATTTCAACGTGTACCTGATGGAAACCGGTCACTACGAGCAGGACGCCGCGCGCGCCCGTGGTTACTCGGAGGAGAAGATTGCTTCCATCGTCGAGGGTGTGGGCTACGTCCGCGCCGTCCAGGAAGCCATCGCCGCCGAGCGCGCCGATGTGAAACTGGCGGTGGACTACAACGACCTGCCCTTGCGTTATGAAGTCGATCCGTTGGTGTATCCCGACGATGTCTGGCACCTGCACGAGGAGTCAGCGGAAATCGTCGGGCAGCGCCTGGCGGACTACATCGCCAATGACCTTGGCTTCCAGGGCAACCCCAACGACAACAACAGCGTGCAGGATATTTTCGACGGCGCGCAGAATGAGGGCGGGAAAATTTCCGGCACCGACCAGGCCGACACCCTGGTAGGCAGTTCCGGCAACGACATACTGGACGGGGACCTGGGTGCCGACTCGTTGACCGGCGGCGATGGTAACGACATCTACGTCGTCGACAACGCGTTCGACAGCGTGGTGGAAACCAATACCTCGACTTCGCAGATCGATACGGTACAGGCCTCGGTCAGTTGGACCCTGGGCGCCAACCTGGAAAACCTGGTGCTGACCGGCGTGTCGGACATCGACGGCACCGGTAACGAACGGCGCAACTTCATCACCGGTAACGCCGCCAACAACGTGCTCAATGGCGCGGTGGGAGCGGACAGCATGAGCGGCGGCGACGGCAACGACACCTACTACGTCGACAACGCCAGCGATACCGTGATCGAGACCAGCAGCAACCCGGTGTCCGGCGGCATCGACGCCGTCCACAGCAGCCTCGCTACCTACACCTTGGGCAACAACGTGGAGAATCTGTACGTCGACAGCGCCGGGGCCGCCAACGGGATCGGTAATGCGCTGAACAACACGCTGTTCGCCGGCGTGGGCGACAACGTCCTGGACGGACGCGATGGCAACGACACCGTCTCCTACGACCGGGCCCTGGCCGGGGTGACCGTGAACCTGTCGACATCCGCACAGCAGAACACCGTCGGTTCCGGGCTCGACACGCTGAAGTTCATCGAGAACCTGACGGGCAGTGCCTACGCGGATACGCTGTCGGGCAACAGTGCCGGGAACATCCTCAACGGCGGTGCCGGCAATGACACGCTGGTGGGCGGCTCGGGCGATGACCGGCTGATCGGCGGCGCCGGCACTGATAACCTCACCGGCGGCACTGGCGCAGATACCTACGCGTTTACTGCGCTGTCGGACATGGGCGTCGGCGCCGCGCGGGATGTGATCAACGGCTTCAAGACGGCTGAGCTGGATAAACTGGACTTCACCGGCCTGGACGCCAACCCGCTGACCGCCAGCATCGATGCCTTTACCTTCATCGGCAGCAACGCCTTCGACGCCAGCAACGCGACCGGCCAACTGCGTTTTGTCGATGGCATCCTCTACGGCAGCGTCAATGCCGACGCCACCGCCGAGTTCGAGTTCGAACTGGTGGGCGTCAAGGAGCTGCACGCCAGCGACTTCACCGCCTGA	MIFNVQDFGAKGDGVTDDTAAIQSAIDAAAAAGGGQVYMPTGTYIVSGGEEPSDGCLMLKSNVYLYGDGMGDTTVKLADGSDTKITGIIRSAYGEETHDFGVSNLTIDGNRDATTGKVDGWFNGYIPGEEGYDSNVTLDSVEIKDCSGYGFDPHEQTVNMVIKNSVSHGNGLDGFVADFLSDSTFENNIAYDNDRHGFNVVTSTHDFTMTNNVAYNNGGNGIVVQRGSEDIPSPSNITITGGEVYGNGAEGVLVKLSSDVTVTGVDIHDNASAGIRIYGSNHVEVIDNTLNNNSLGGAVPEIIIQSYDDTLGVSGKYFNGSDNLIQGNVISGSNLSTYGVAERNEDGTDRNAIIANTISHTSKGATLVYGDGSYVSATVPMTTVQGTAGNDVLMGTAASEIFYGAAGNDTINGAAGSDILVGGAGVDKLTGGTGADTFRFTSQSDSYRNATASFDDTITDFDVTQDKIDLAGLGFTGLGNGRGGTLQVSYNASSDRTYIKDYDADASGNRFELILSGNLASTLTASNFIFNRVITGTTGSDSLLGSDAADTLLGLAGNDSLSGGAGDDKLDGGAGMDTLTGGAGADTFVFANRLDSYRNYNTGGANLGDLITDFNIAADKIDLSAMGFTGLGDGKNNTVYLVLNSAGTKTYIKSLEADANGNRFEVALDGNYLNTLTSANFVFATTSPTNQAPVLATPLLDQNASEKTPFSYVVPATSFTDPDNDSLSYTAKLADGSALPSWLTFDAATRTFSGTPPDTASGTYSIQVTATDGSNATVSDSFTLAVQDVPGSVVINGTPNNDTLTGTVANEQIFGGAGNDTLNGAAGNDILVGGTGVDKLTGGTGADVFRYTSKLDSYRTGSTSASDQILDFDVAADKIDVAALGYTGLGNGLNGTLQVSYSSSTNRTYLKDLTVDANGNRFEISLAGNFVSSLTANHFVFADQNTPTNVAPVVVTPLLDQNASESTPFSYTVANNSFSDANQDVLTYTATLANGSALPSWLSFNASTLTFSGTPTSTASGNYDVLVKATDPSGASVSDSFALVVADAPANTITGTANAESLNGTAGADLILGLGGNDTIKAGTGADIIDGGAGRDSLYGDAGADTFRYSNLSDSYRDYDTGGVTATDTIYDFTVGVDKIDVSGLGFLGLGDGSNGTLYMTLNAAGDKTYVKSSQADADGNRFEIALNGNYLNTLTASDFVFGERAQQDILYLPTLGQSNARLLRMSEDDDQSGTSMLVNDLNKYTTYDVRSQFSDADGNGIDIAVGGSTVNGLSTLGAEELKLCWWLTDTNQPGPALLRAVTLLRDQLTELKAIDNVTMGIIWGQGEEAAQEIARSTDKAAAAAAYKASTLKVFDYLHAQLGNFNVYLMETGHYEQDAARARGYSEEKIASIVEGVGYVRAVQEAIAAERADVKLAVDYNDLPLRYEVDPLVYPDDVWHLHEESAEIVGQRLADYIANDLGFQGNPNDNNSVQDIFDGAQNEGGKISGTDQADTLVGSSGNDILDGDLGADSLTGGDGNDIYVVDNAFDSVVETNTSTSQIDTVQASVSWTLGANLENLVLTGVSDIDGTGNERRNFITGNAANNVLNGAVGADSMSGGDGNDTYYVDNASDTVIETSSNPVSGGIDAVHSSLATYTLGNNVENLYVDSAGAANGIGNALNNTLFAGVGDNVLDGRDGNDTVSYDRALAGVTVNLSTSAQQNTVGSGLDTLKFIENLTGSAYADTLSGNSAGNILNGGAGNDTLVGGSGDDRLIGGAGTDNLTGGTGADTYAFTALSDMGVGAARDVINGFKTAELDKLDFTGLDANPLTASIDAFTFIGSNAFDASNATGQLRFVDGILYGSVNADATAEFEFELVGVKELHASDFTA				NA	NA	NA	NA	NA
D1-35_03885	2658	uvrA_1	COG0178	UvrABC system protein A	ATGCCCCCACGCTCCGCCCCTGCTTCAACTGCGGCTTTGCCCGAAGGCACCGGTTTTGTCCGGGTGCGTGGCGCCCGCGAACACAACCTCAAGAACGTCGATGTGGACATCCCCCGCGATGCCCTGGTGGTGTTCACCGGCGTGTCGGGTTCCGGCAAGTCATCGCTGGCCTTCTCCACGGTTTATGCCGAAGCCCAGCGCCGCTATTTCGAGTCGGTCGCGCCGTACGCGCGGCGTTTGATCGACCAGGTGGGCGTGCCGGACGTGGACAGCATCGAGGGCCTGCCGCCGGCGGTTGCCTTGCAACAGCAACGCGGCACGCCCAGCGCACGTTCCTCGGTGGGCAGCGTCACCACGCTGTCGAGCCTGATCCGCATGCTCTACTCCCGCGCCGGCAGCTACCCGGCGGACCAGCCGATGCTGTACGCCGAGGACTTCTCGCCCAACACCCCGCAGGGCGCCTGCCCGGAGTGCCATGGCCTGGGACGGGTCCATGAGGTGACCGAGGCGTCCATGGTGCCCGATCCGTCGCTGACCATCCGCGAGCGCGCCGTGGCGGCCTGGCCCATGGCCTGGCAAGGCCAGAACCTTCGCGACATCCTGGTGACCTTGGGTTATGACGTCGACGTTCCCTGGCGCGACCTGCCGAAAAAGCAGCGCGACTGGATTCTGTTTACCGAAGAGACCCCCACCGTCCCGGTATATGCAGGGCTGACCCCAGCCCAGACCCGCGAAGCGCTCAAGCGCAAGCTCGAACCCAGCTATCAAGGCACCTTCAGCGGTGCCCGACGCTATCTGTTGCACACCTTCATGCATTCGCAAAGCGCGCAGATGCGCAAGCGCGTGGCGCAATACATGCGCGCCAGCCCCTGCCCGATGTGCGAAGGCAAGCGCCTCAAGCGTCAGGCATTGACCGTCACCTTCGCGGGCCTGGACATAGCGCAGTTGTCCAACCTGGCGCTGCTGGAACTGGCCGAAGTGCTCAAGACCGTCGCGGCCCCCGACTATCTGGAGCAACCCGAAGAGCCGGGCGACGTGCTCACCCACAGCCAGACCCGAGAGGCCCGCGAGCAACGCGCCGCCCGCGGCGACAACCCGCACGCCGGCGGACCGGATGCGCGCCACACGCCGAACCTGTCCCTCGAGAAGCGCCTGGCGGCCCAACGCATCGCCGCCGAATTGTTGGAGCGGATCGTCACGCTGATTGACCTGGGCCTTGGCTACCTGGCCCTGGAGCGCAGCACGCCGACCCTGTCCTCCGGCGAATTGCAGCGCCTGCGCCTGGCCACCCAGCTCAATTCCCAGCTGTTCGGGGTCATCTATGTCCTGGACGAACCTTCCGCCGGCCTGCACCCGGCCGACAGCGAGGCGCTGTTCGGCGCCTTGCAACGCCTGAAGGCCGCGGGCAATTCCGTGTTCGTCGTCGAACACGACCTCGACACCATGCGTCGCGCCGACTGGCTGATCGACGTCGGCCCGGACGCCGGTGAGCAAGGCGGCAAGGTCCTCTACAGCGGACCACCCGATGGCCTCGGTCAAGTGCCCGAGTCCCGGACCCGCGCCTACCTGTTCGCCGAAGACCGCGCCACCGCGCGCATCCCCCGTGAACCTGAGGATTGGCTGCGCCTGGAAGGCATCACCCGCAACAACCTCGACAACCTGAGCGCAGCGTTTCCACTCGGTTGCTTCACGGCGGTGACCGGCATTTCCGGGTCAGGCAAGTCCAGCCTGGTCAGCCAGGCCCTGCTGGACCTGGTCGGTGCCCATCTGGGCCAGGCCAGCCCCAACGCGGAAGCCGAGGAGCAGAGCCTGGAAGACGAACCGGTGCAAACCAGTGGCGGCCGGGTCAGCGCCGGGCTCGACGCAATCAAACGACTGGTGCAAGTCGACCAGAAACCCATCGGCCGCACGCCGCGCTCCAACCTCGCCACCTACACGGGGCTGTTCGATCACGTACGCAAACTGTTCGCCGCCACCGAACAGGCGCAGGCGCTGGGATTCGATGCCGGACGGTTTTCCTTCAACGTCGCCAAGGGTCGTTGTGAAACCTGTGAAGGCGAAGGCTTCGTCAGCGTCGAGCTGTTGTTCATGCCCAGCGTCTATGCGCCCTGCCCGACCTGTCATGGGGCCCGCTACAACCCGCAGACCCTGGAGGTGACCTGGCAGGGGCTGGACATTTCCCAAGTGCTGCAACTGACGGTGAACCAGGCTCTAGAAGTGTTCGCCGAACAAGCGTCGGCCAGGCGCTCGTTGCAAGTCTTGCAAGACATCGGCCTGGGTTATCTGCGCCTTGGCCAACCGGCCACCGAGCTGTCCGGCGGCGAGGCGCAGCGGATCAAGCTGGCGACCGAGCTGCAACGCAAGGCTCGGGGCGCGACCCTTTACGTATTGGATGAGCCTACCAACGGTCTGCACCCCCAGGACGTGGATCGCCTGCTGGTGCAGTTGAATCGCCTTGTGGACGAAGGCCATACGGTGGTTGTGGTGGAACACGACATGCGCGTGGTGGCGCAGAGCGACTGGGTCATCGACATCGGCCCGGGAGCCGGGACACAGGGCGGGAACGTGGTGGTGTGCGGTGCGCCAGAGGTCGTTGCAGACTGTGACGAAAGCCGCACCGCGCCGTTCCTGAAAAGAGCTTTGCAACCCGCACGATGA	MPPRSAPASTAALPEGTGFVRVRGAREHNLKNVDVDIPRDALVVFTGVSGSGKSSLAFSTVYAEAQRRYFESVAPYARRLIDQVGVPDVDSIEGLPPAVALQQQRGTPSARSSVGSVTTLSSLIRMLYSRAGSYPADQPMLYAEDFSPNTPQGACPECHGLGRVHEVTEASMVPDPSLTIRERAVAAWPMAWQGQNLRDILVTLGYDVDVPWRDLPKKQRDWILFTEETPTVPVYAGLTPAQTREALKRKLEPSYQGTFSGARRYLLHTFMHSQSAQMRKRVAQYMRASPCPMCEGKRLKRQALTVTFAGLDIAQLSNLALLELAEVLKTVAAPDYLEQPEEPGDVLTHSQTREAREQRAARGDNPHAGGPDARHTPNLSLEKRLAAQRIAAELLERIVTLIDLGLGYLALERSTPTLSSGELQRLRLATQLNSQLFGVIYVLDEPSAGLHPADSEALFGALQRLKAAGNSVFVVEHDLDTMRRADWLIDVGPDAGEQGGKVLYSGPPDGLGQVPESRTRAYLFAEDRATARIPREPEDWLRLEGITRNNLDNLSAAFPLGCFTAVTGISGSGKSSLVSQALLDLVGAHLGQASPNAEAEEQSLEDEPVQTSGGRVSAGLDAIKRLVQVDQKPIGRTPRSNLATYTGLFDHVRKLFAATEQAQALGFDAGRFSFNVAKGRCETCEGEGFVSVELLFMPSVYAPCPTCHGARYNPQTLEVTWQGLDISQVLQLTVNQALEVFAEQASARRSLQVLQDIGLGYLRLGQPATELSGGEAQRIKLATELQRKARGATLYVLDEPTNGLHPQDVDRLLVQLNRLVDEGHTVVVVEHDMRVVAQSDWVIDIGPGAGTQGGNVVVCGAPEVVADCDESRTAPFLKRALQPAR	PGPT0014915_6088	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014915-uvrA-K03701	NA	NA
D1-35_03886	1623			hypothetical protein	ATGACCAGACTCACCATTGCCCAGCGAATCGTCATGGGTTTTTCCATTGCGCCCATCGCTTTGATCGCCGTGGCGTTGTACGCCTTGTACGACCTGCGGATATTGCGCGACCAGGCCGAAGTGGTCGCCCAGCGAGACTGGCCGAAAATCGCCCCGATCATGGCCATCGCCACGGGGGTGCGGGATAACGCCAGCCACATTCGCGAACTGTTGATCGACAGGAACGATCCCCTGGCCCAGACGTCCATCGACAACACGCGGCAACGCATCGACAAAGCGCTGGCAACGCTCGGGCCGTTGCTTGATCGAAGGCCCGAAGGCAAGGCGGCTTTAGCGGCCCTGAAAAAGAATGGCGAGGTCTACCAGGCCGCTTTTTCGCAAATGCAGGGCTTGATTCACCGGAACGTGCCCCATGAGGCGGTGCTGCAGCTGGAGCAATCCGTAACCCCGGCGGAGCAGGCGATGTACCAGAGCCTGGACGGACTGATGGCGATGCAGGACCGTCTTTTTGACGAGCGTGAGCGCGGGGCCCAGACACGCTACCAGGACGCGCAACTGCATTTGCTGATGATGGTGCTGGCGTGCCTGGCCCTGGTGGCGACGGTCGCGGTGCTGGTGACCCGCAGCGTTACCCGGCCACTGGGCGGTGAGCCCGGTGATGCGGCGCGGATGCTGGGCCATATCGCCCAAGGCGACCTGACCATCAAGGTGCCCGTGGGGGCGGGCTCGGGCGACAGCATGATGAGTAACATGCACGAGATGCAGCAGAGCCTCCACTCCATGGTCCGGCAGATCGCGACCTCGGTGGATCGGGTCGCCAGTTCCTCCGAGGAGTTGAGCGCCGTGAGCAGCCAGACCAGCAGTTCCTTGCAACTGCAGGGAATTGAAATCGAACAGGCGGCGGCAGCCGTGAACCAGATGACCGCCGCGGTGGACGATGTGGCGCGCAATGCCATGAGCACCAGCGAAGCATCGCGGATTTCCGAGCAGACGGCCCTGGATGGTCGTGAGCAGGTCCAGGAGACGGTAGCGTCCATTTCCGTGCTGGCCGACGGTGTGAGCGAAGCCGCGGAGCGTATTCAGCAACTGGCCGGGCGGGTCCAGGACATCAGTTCGGTGCTTGACGTGATCCGCAGCATCGCCGAGCAGACCAACCTGCTGGCCTTGAATGCCGCCATCGAAGCGGCCCGGGCAGGCGATGCCGGCCGCGGCTTCGCGGTCGTCGCCGATGAGGTAAGGGCGCTGGCCCACCGCACCCAGGAGTCAACCCGGGAAATTGAGGAAATGATCGGCACGATCCGCCGCGAAAGCGGGGACGCGGTAACCGCGATGCAAAGCAGCAGTGAACTGGTACAGGCAACGTTGCAAGTAGCCCGGCGCTCCGGCGAAGCCTTGGACGCGATTGCCTGCTCAATCTCGCAGATCAACGAGCGCAACCTGATGATTGCCAGTGCCACCGAACAACAGGCACTGGTGGCCCGGGAGGTGGACCGCAACCTGGTCAGCATCCGCAACCTGTCCGAGCAGGTCTTGCAGGGAGCCCAGCATACCGATACGGCGGGGCAGGACCTGGCACACATGGCAGAGTCGCTGCATCAGACGGTGGCGCGGTTCAAGGTGTAG	MTRLTIAQRIVMGFSIAPIALIAVALYALYDLRILRDQAEVVAQRDWPKIAPIMAIATGVRDNASHIRELLIDRNDPLAQTSIDNTRQRIDKALATLGPLLDRRPEGKAALAALKKNGEVYQAAFSQMQGLIHRNVPHEAVLQLEQSVTPAEQAMYQSLDGLMAMQDRLFDERERGAQTRYQDAQLHLLMMVLACLALVATVAVLVTRSVTRPLGGEPGDAARMLGHIAQGDLTIKVPVGAGSGDSMMSNMHEMQQSLHSMVRQIATSVDRVASSSEELSAVSSQTSSSLQLQGIEIEQAAAAVNQMTAAVDDVARNAMSTSEASRISEQTALDGREQVQETVASISVLADGVSEAAERIQQLAGRVQDISSVLDVIRSIAEQTNLLALNAAIEAARAGDAGRGFAVVADEVRALAHRTQESTREIEEMIGTIRRESGDAVTAMQSSSELVQATLQVARRSGEALDAIACSISQINERNLMIASATEQQALVAREVDRNLVSIRNLSEQVLQGAQHTDTAGQDLAHMAESLHQTVARFKV	PGPT0015710_21689	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
D1-35_03887	1740	dapE_3		Succinyl-diaminopimelate desuccinylase	ATGAACTTCCCGTTCAAGCGTCTCGCTATCGCCACCCTCGTCCTGTCCAGCCTGTCGTCTTTCTCGATGTCGGCCTACGCCAACATTTCCGCGCAACAGAGCGCGACCCTGGTCAAAAATTTCACTGATAGCTCGGTCAACGATTTCCGCCAGTTCCTCGCAAGCGTCGCCAATATCGAAGTGGCAAAAACCGCCAACCTCGGCCCGGCCATCAGCGCCTTCCAGGGCAACAAGACCCTGTCGGCGGAACAGCAGAACGAAATTCATCGCCTGCTGGGTATCTACGCCCGGGTAAAGTACGGCAAAGCCGCCACCGAAACCTTGCGCCAATTGGTGGAAATCCCGACCTATCGCAAGGACGGCGTTGCCCAGCATGAAAATCCTGAATTTCTCAAGATCGCCGACAAGATCAAGAGCCTGGCCGAGTCATTCAACCTGAACTTTCGCAACATCGACAACCGCGTCTACGAGATATCCCTCGAAGGCTCGGGTGACGAAGTGGTGGGCATTCACGCCCATGCCGATGTAGTGCCGGTCACGCCGGAAAACTGGGTGCTCAAGGATGGCACCAAGCTTGATCCCTTCAAGGTCACCCTGGTGGGTGATCGCATGTATGGCCGCGGCACCGAAGACGACAAGAACGGCATCGTCGTGGCGCTCTACGCCATGAAGATCATCAAGGAAGAAAAACTGCCACTGGCGCGCAACTTCAAGCTGCTGGTCGATACCACCGAGGAAACCACCGGCGACGCCATTCCTTATTACTTCGAGCGTAACCCGACCCCGAACTACAACCTGGCGCTGGACGGCAGCTACCCGGTGGTGATTGCCGAGAAAGGCTATGGCACGGTCATGGCGAATTTCCCGCGCCGGGCGGCACAGGGTCAAGGTGCCGAGATCACGGCGTTGACGGGCGGCATGGCGACCAACCAGATCCCGTCGACTTCGGTGGCAACCTTTACCACGGAAAAGCCCGCCGAGCTGGCTGCCAGCCTGGTCAAGGCGGGCACCGACTTTGCCAAGGCCAATGGCGGCGACTTTCAAGTGGCCAGCGAGGTCGTCGATAACACAGTCAAGCTGACCTTCACCGGCGTTTCGGCACACTCCTCCGAGCCCGAGTCAGGCGTCAACCCGGTCGCCAGGATGCTGGTATTCATCAATGGCCTGAACGGCACCGTTGGACTCAAGCACAATCACATCACCGACGCCGCGCGCTATGCCGCCGACAACTGGGGTCTGGATTACCTGGGGAAAAAACTCGGTATCGGTTTTTCCGACGCGTTCATGGGTCCGCTGACCGCCTCGCTGACCTACGTCGGTATGGATGACAAGGCCTTCAAGCTCGCGGTCAACCTGCGGGTGCCCGTGGGCAAGCCGACGCAAGCGCTGAAGACTGAAATTGACGACAGACTTTCGGCCTGGGCGAAGAAATCCAAGGTTGCCGTGGCCTTCGAAAACTCCATCGATGAGCCGATGTACCGCAATCCCGAAGGTGAATGGGTCAAGGCGCTGCTCGCCGTTGCCACCGAGAATCTCGGCATGGAACACAAGTTCGGCACGTCTGCCGGCGCCACCTCGGTTCATGATCTGCCCAACGGCGTGCAGTTCGGCCTGGCCATGCCCGACGTCAAGTACACCGGGCACAACGATAACGAGTTCAAGACCGTTGAGCAGTTCCTGCTGGACCTGCAGGTCGTGACCGAGATGATGGGGCGGATCGGGCAGTTGCCGAAGCTCTGA	MNFPFKRLAIATLVLSSLSSFSMSAYANISAQQSATLVKNFTDSSVNDFRQFLASVANIEVAKTANLGPAISAFQGNKTLSAEQQNEIHRLLGIYARVKYGKAATETLRQLVEIPTYRKDGVAQHENPEFLKIADKIKSLAESFNLNFRNIDNRVYEISLEGSGDEVVGIHAHADVVPVTPENWVLKDGTKLDPFKVTLVGDRMYGRGTEDDKNGIVVALYAMKIIKEEKLPLARNFKLLVDTTEETTGDAIPYYFERNPTPNYNLALDGSYPVVIAEKGYGTVMANFPRRAAQGQGAEITALTGGMATNQIPSTSVATFTTEKPAELAASLVKAGTDFAKANGGDFQVASEVVDNTVKLTFTGVSAHSSEPESGVNPVARMLVFINGLNGTVGLKHNHITDAARYAADNWGLDYLGKKLGIGFSDAFMGPLTASLTYVGMDDKAFKLAVNLRVPVGKPTQALKTEIDDRLSAWAKKSKVAVAFENSIDEPMYRNPEGEWVKALLAVATENLGMEHKFGTSAGATSVHDLPNGVQFGLAMPDVKYTGHNDNEFKTVEQFLLDLQVVTEMMGRIGQLPKL				NA	NA	NA	NA	NA
D1-35_03888	2004	rlhA	COG0826	23S rRNA 5-hydroxycytidine synthase	ATGTCCTTGCCTAAACATCATCTGGAATTGCTCAGCCCCGCCCGCGACGTAACCATCGCCCGCGAGGCCATTCTGCATGGCGCCGATGCCGTGTACATCGGTGGCCCGAGTTTCGGCGCGCGTCACAACGCCTGCAACGAGGTGAGCGATATCGCCGGGCTGGTGGAATTCGCCCATCGCTACCACGCCCGGGTGTTCACCACGATCAACACGATCCTGCACGACAACGAGCTGGAGCCGGCCCGCCAGTTGATCCATCAGCTCTACGACGCCGGCGTCGATGCGCTGATCGTCCAGGACCTGGGCGTCATGGAGCTGGACATTCCGCCGATCGAGCTGCACGCCAGCACCCAGACCGACATCCGCACCCTGGCCCGGGCAAAGTTTCTCGACCAGGCCGGTTTCTCGCAGCTGGTATTGGCCCGCGAGCTGAACCTGCAGGAAATCCGCGCCATTGCCGACGAGACCGATGCGGCCATCGAGTTCTTCATTCACGGCGCGCTGTGCGTGGCGTTTTCCGGCCAGTGCAACATTTCCCATGCCCAGAACGGGCGCAGCGCCAACCGTGGCGATTGCTCCCAGGCCTGCCGCCTGCCCTACACCCTCAAGGATGACCAGGGCCGGGTTGTCGCCTATGAAAAACACCTGCTGTCGATGAAGGACAACAACCAGAGCGCGAACATCCGCGCCCTGGTCGAAGCGGGCGTGCGCTCGTTCAAGATCGAAGGTCGCTACAAGGACATGGGCTATGTGAAGAACATCACCGCCTACTATCGCCAGCGCCTCGACGATGTCCTCGAAGACCGCCCAGACCTGGCCCGCGCCTCCAGCGGCCGCACCGCGCATTTCTTCGTGCCGGACCCGGACAAGACCTTCCACCGTGGCAGCACCGACTACTTCGTCAGCGAGCGCAAGATCGACATCGGCGCCTTCGACTCCCCGACGTTCACCGGCGTGCCGGTGGGCGTGGTGGAAAAAGTCGGCAAGCGCGACCTGCAAGTGGTGACCTTTGATCCGCTGTCCAATGGTGACGGCCTCAACGTGCTGGTCAAGCGCGAAGTGGTTGGCTTCCGGGCCAACATCGCCGAACCCAAGGGCGAATTCCTCGACGAGGACGGCAAGCAGCGCTACCGCTACCGCGTCGAACCCAACGAGATGCCGGCCGGCCTGTATCAGTTGCGCCCCAACCATGCGCTGAGCCGCAACCTCGATCACAACTGGCAGCAAGCCCTGCTCAAGACCTCCGCCGAGCGTCGCGTCGGCCTGGCCTGGGTCGCTCGCCTGAGCGAGGAACGCCTGGAGTTGACCGCCACCAGCGAAGAAGGCATCAGCGCCAGCGTCGCCCTGGACGGTCCCTTCGGCCTGGCGAACAAACCGGAGCAGGCCCTGGAGCAGTTGCAAGACCTGCTCGGCCAGTTGGGCACCACCGAATACCACGCCACATCGATCAAACTGGATGCGCCCCAGGCTTATTTCATTCCCAACTCCCAGCTCAAGGCGTTGCGCCGCGAAGTCATCGAAGCTTTGACCGTAGCGCGTGTCGCGGCGCACCCACGGGGCGGACGCAAGGCCGAGACCACGCCGCCGCCGGTATACCCGGAGTCGCATTTGTCATTCCTGGCCAACGTCTACAACCAGAAGGCCCGGGACTTCTACCACCGCCACGGGGTCAAGCTGATCGACGCGGCGTTCGAAGCCCATGAGGAAACCGGCGAAGTCCCGGTGATGATCACCAAGCACTGCCTGCGGTTTTCCTTCAACCTTTGCCCCAAGCAGGCCAAGGGCGTCACCGGCGTACGCACCAAGGTTGCGCCGATGCAGTTGATCCATGGTGATGAAGTGCTGACGCTGAAGTTCGACTGCAAACCCTGCGAGATGCATGTGGTGGGCAAGATCAAGGGGCACATCCTTGACCTGCCGTTGCCCGGTAGCACGGCGCAGCCGGTGGTCGGTCATATCAGTCCGGAGGACTTGCTCAAGACGATCCCGCGTGGAGCGCATTGA	MSLPKHHLELLSPARDVTIAREAILHGADAVYIGGPSFGARHNACNEVSDIAGLVEFAHRYHARVFTTINTILHDNELEPARQLIHQLYDAGVDALIVQDLGVMELDIPPIELHASTQTDIRTLARAKFLDQAGFSQLVLARELNLQEIRAIADETDAAIEFFIHGALCVAFSGQCNISHAQNGRSANRGDCSQACRLPYTLKDDQGRVVAYEKHLLSMKDNNQSANIRALVEAGVRSFKIEGRYKDMGYVKNITAYYRQRLDDVLEDRPDLARASSGRTAHFFVPDPDKTFHRGSTDYFVSERKIDIGAFDSPTFTGVPVGVVEKVGKRDLQVVTFDPLSNGDGLNVLVKREVVGFRANIAEPKGEFLDEDGKQRYRYRVEPNEMPAGLYQLRPNHALSRNLDHNWQQALLKTSAERRVGLAWVARLSEERLELTATSEEGISASVALDGPFGLANKPEQALEQLQDLLGQLGTTEYHATSIKLDAPQAYFIPNSQLKALRREVIEALTVARVAAHPRGGRKAETTPPPVYPESHLSFLANVYNQKARDFYHRHGVKLIDAAFEAHEETGEVPVMITKHCLRFSFNLCPKQAKGVTGVRTKVAPMQLIHGDEVLTLKFDCKPCEMHVVGKIKGHILDLPLPGSTAQPVVGHISPEDLLKTIPRGAH				NA	NA	NA	NA	NA
D1-35_03889	1569			hypothetical protein	ATGCTCGGACGCAAACGGCCGGAGCCCAGGATTGAAAGCCCCGATCAAGCCTTTTCCCCGCAAGCTGTGCGGGCCGGGGCTGCATTTCGGCTGACCGTGAGTTTCATGCTCGTGGTGATCGTGGCTTTCCTGGCGGTCGAAGGCTGGCGCACCTGGCGAGACTATCGGGCGGCTTTTGCGTCTGCCCGCGATTCGGTGACGAACCTGGCGCGGGCGACGGCCCAACACGCCGAAGACACCATCCGACAAGTGGACGTGGTCACTGCCGCCCTCGGCGAACGCGTGGAAGGCGACGGCCTGCAGAACATGGACATCCCGCGCATTCATCGGCTGCTGGTGCAGCAGGCCGCGATCATGCCGCAGTTGCACGGACTGTTCATCTACGGCCCGGACGGCCAATGGCTGGTGACGGACAAGGAAGTGATTCCGGAAATGGCGAACAACGCCGACCGCGACTACTTCCAGTACCACCGCACCCACGAGGATCGAGGCGTACGTATTGGCGATGTGGTCAAGAGCCGATCCACCAACGACCTGATCATCCCCATCTCCCGCCGCTTGAACAACCCCGATGGCTCGTTCGCCGGGGTGATGCTCGGGACGGTCAAGGTCAGTTATTTCGTCGACTACTACGGCGACTTCAAGATCGACGGCAAAGGCGCGCTGGTCCTGGCCAAGCGCAGCGGTACGATCCTAGTCCGCCGGCCTTTCGTCGCGGCGGTGATCGGCAAGAGCCTCGTCAACAGCGTGATCTTCCGGGAGCATCTGCCGACTTCCAACCAGGGCGTCGCCGAAGCCAGGGCCGTCGTCGACGACACCGAGCGTCTGTATGGCTACCGGGCCCTGACCACCTACCCGCTGGTGGTGGAAGCCGGCCTGTCGCGGGAATCGATCATTGCCCCGTGGCGTCGTGACCTGCTCAAGACCGGCCTGGTACTGGTATTCCTGATCGCGATTCTGGTCGGCTTCGGGCTCATCGTCCTGAGCCAGTTGCGCTACCGCATGACCATGGAAACGCAGATTCGCAGCGCCCACCAGGCCATGCGCGACATGGCGTTGACCGACAGCCTGACCGGGCTGGGCAATCGCCGGCGGCTGGACATTGCCTTGGCCGACGAGCTGCGCCTGGCCAAGCGCCAAGGCTCGTCCCTGGCCCTGATCATGCTCGACGTCGATTACTTCAAACGCTACAACGACAAATACGGCCATGCCGCTGGCGACGATTGCTTGCGGGCGATTGCCGGCGCGATCGGACAGACCATCAAGCGACCGGGAGACCTGGCCGTCCGCTACGGCGGTGAAGAATTCACCGTGCTGCTACCGAACACGGACAGCGCAGGTGCGGCCAAAGTGGCGCAGCAAATCCTTGAATCCGTCAGGGCCTTGAACATTGAGCACGGCGACCACCCGCTGGGGATCGTGACGATCAGTGCCGGCATCACCACCTGCCAGCCGAGCAGCGAGGACGTCAGCCCTGCGATGCTGATCAAGGCCGCCGACGCCTTCCTGTACCTGGCGAAGAACACCGGGCGAAACCGCTGGTGCAGCGCCGGCGCCTCCCAGGCCTGA	MLGRKRPEPRIESPDQAFSPQAVRAGAAFRLTVSFMLVVIVAFLAVEGWRTWRDYRAAFASARDSVTNLARATAQHAEDTIRQVDVVTAALGERVEGDGLQNMDIPRIHRLLVQQAAIMPQLHGLFIYGPDGQWLVTDKEVIPEMANNADRDYFQYHRTHEDRGVRIGDVVKSRSTNDLIIPISRRLNNPDGSFAGVMLGTVKVSYFVDYYGDFKIDGKGALVLAKRSGTILVRRPFVAAVIGKSLVNSVIFREHLPTSNQGVAEARAVVDDTERLYGYRALTTYPLVVEAGLSRESIIAPWRRDLLKTGLVLVFLIAILVGFGLIVLSQLRYRMTMETQIRSAHQAMRDMALTDSLTGLGNRRRLDIALADELRLAKRQGSSLALIMLDVDYFKRYNDKYGHAAGDDCLRAIAGAIGQTIKRPGDLAVRYGGEEFTVLLPNTDSAGAAKVAQQILESVRALNIEHGDHPLGIVTISAGITTCQPSSEDVSPAMLIKAADAFLYLAKNTGRNRWCSAGASQA				NA	NA	NA	NA	NA
D1-35_03890	459			hypothetical protein	ATGAAAGTGGGCGTGATTTCAGATACCCATGGCCTGCTGCGCCCCGAAGCAATGGCCGCGCTGCAAGGCTGCGAGCGGATTATTCATGCCGGTGATATCGGCAGCCCGGAGATCCTCGAGACGTTGGCCGCCATTGGCGAGCTGCACGTAGTGCGGGGCAACAACGACCTCGGCGCCGATTGGGCAGGGGATATCGCCGACAGCCTGCAATTCGAAATCGGCGGGTGGCAGGTGCTGTTGGTCCACGACATTGCCGATGTGCCGGCGCTGCTCGATGCCGATGTGAGGCTGGTGATCACCGGCCATTCGCACAAACCCTTGATCGAATGGCGCGGCGAGCGGCTTTACCTCAACCCTGGCAGCGCCGGCCGGCGGCGGTTCAAGCTGCCGGTGACGCTGGCGTTGCTGGAGGTAAGCGAACAGGCGATCAAGCCGCGTATCGTGCCGTTGCTCGCCTGA	MKVGVISDTHGLLRPEAMAALQGCERIIHAGDIGSPEILETLAAIGELHVVRGNNDLGADWAGDIADSLQFEIGGWQVLLVHDIADVPALLDADVRLVITGHSHKPLIEWRGERLYLNPGSAGRRRFKLPVTLALLEVSEQAIKPRIVPLLA				NA	NA	NA	NA	NA
D1-35_03891	903			hypothetical protein	ATGAAAATCGCCCTCGATCCCTACATGCACCGTCACCTGAGCCTGCCGGAGCTGTGTCGCAAGACCGCCGAGCTCGGCTTCGAATACCTTGAACTGTCGCCCCGGGAAGACTTCCTGCCGTGGTGGGTCCGCCCACGCGCCCACAAGGAACGCATCGCCGAATTCAAGAAAGCCTTGCGCGACCATGATCTGCAACTGGCTTCGCTGCTGCCGATGTACCGCTGGGCCAGCCCTCACGAGGATGAGCGCCGGGCCGCAGTGAACTACTGGAAGGAAGCGATCCAGGTCGCCGTGGAGATGGGGTGCACGACGATGAACTCGGAGTTCGGGCGCGGACCGTCGCCGGATCGCGGGCACAAGGTCAGTTGTTGCGGCGGCGTACACAGCCATGAGTCCAGCGAAGCGGCCTGGTGGCGCTCCATGGAAGAATTGGTGCCGATCCTGGAATCGGAGGGGGTCACATTGAACGTCGAGCCTCATCCGGAAGACTGGTGCGAGACGCTGCAACCGGCCCTGGACATGCTCAAGACCCTCGGCTCGGACAACGTCAAGTTCCTCTATTGCACGCCGCACACGTTCTATTTCGGCGACGACATGAAAGCCATGATCGCCGAAGCCGGATCGATGATCGCCCATGTCCACATCGCTGATACCTACAACCACAAGGCTTCGTCGGGGCTGCGCTACATCGTCAACCCGCCCGGGGCGAAAGTGACCGTGCACCAGCACATGGACATGCACCAGGGCGAGATCGACTGGGACCTGTTTTTCGGCGAGTTGGCCAAGACCGGCTTCGATGGCATCGTCACAGCGTGCGTGTTCGGCTGGGAAGAACGCGCGGATGACTCGGGGCGATTCATGCGCCAGGAAATCCAGGCGTACGTGGACAAGTACTTCAAGTAG	MKIALDPYMHRHLSLPELCRKTAELGFEYLELSPREDFLPWWVRPRAHKERIAEFKKALRDHDLQLASLLPMYRWASPHEDERRAAVNYWKEAIQVAVEMGCTTMNSEFGRGPSPDRGHKVSCCGGVHSHESSEAAWWRSMEELVPILESEGVTLNVEPHPEDWCETLQPALDMLKTLGSDNVKFLYCTPHTFYFGDDMKAMIAEAGSMIAHVHIADTYNHKASSGLRYIVNPPGAKVTVHQHMDMHQGEIDWDLFFGELAKTGFDGIVTACVFGWEERADDSGRFMRQEIQAYVDKYFK	PGPT0020845_104	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020845-iolH-K06605	NA	NA
D1-35_03892	1170	iolG_1		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGATCAACGGCAGCAAAACCCTTGCACGGCCTATCCGCTGGGCCATGGTCGGCGGCGGCGAGCACAGCCAGATCGGCTACATCCACCGCTCGGCCGCCCTGCGTGATCGCCACTTCGAGCTGGTTGCCGCCGCGCTGGACATCGACCCCGACCGTGGCCGGGCCTTTGGCGAACAGTTGGGCATCGACCCCACGCGCTGCTACGCCGACTACCTGAGCCTGTTCGAACTTGAGGCGCAACGGCCCGATGGCATCCAGGCGGTATCGATCGCCACGCCCAACGGCACCCATTACGCCATCACCCGCGCCGCGCTTGAAGCCGGTTTGCATGTGGTCTGCGAGAAACCGCTGTGCTTTACCCTGGAAGAAGCCGAAGCGTTGCGAACCCTGGCGCGATCCAGAGGACGCATCGTCGGCCTCACCTATGGCTACGCCGGGCACCAGTTGATCGAACAGGCCCGGGCGCTGATCGCCGCACAGGAACTGGGTGAGATTCGCATGGTGCACATGCAGTTCGCCCACGGTTTTCACAGCGCACCGGTGGAGGCGCAGAACCCGGCGACCCAGTGGCGCGTCGACCCGCGCCAGGCCGGGCCCAGCTATGTGCTGGGGGATGTCGGCACTCATCCGCTGTACCTGGCGAAAGTGATGCTGCCCGAGCTCAGGATCAAGCGCCTGATGTGCAGCCGGCAAAGCTTTGTCGCCAGCCGCGCGCCGCTGGAAGACAACGCCTACACCTTGATGGAATACGAAGGCGGCGCCATGGGCATGGTCTGGTCAAGCGCGGTCAATGCCGGTTCCATGCACGGCCAGAAGATTCGCGTGATCGGCTCGCGGGCAAGCCTGGAATGGTGGGATGAGCGCCCCAACCAGCTCAGCTTCGAAGTCCAGGGCCAACCCGTGCAAACCCTGGAGCGCGGCATGGGCTACCTGCACCCCGATGCCCTGCTGGATGACCGTATCGGCGGTGGCCATCCCGAAGGGTTGTTCGAGGCCTGGTCGAACCTTTATCGGCGGTTCGCCCTGGCCATGGACGCCGCCGACCGTGGCGACGCCGAGGCGCTCGCCGCCCTGCGCTACCCCGGCATCGACGCCGGCGTGGACGGCGTGCGTTGGGTCGAACGCTGCGTGGAATCAGCCAACCAGGATTCAGCCTGGGTTGCCTATTAA	MINGSKTLARPIRWAMVGGGEHSQIGYIHRSAALRDRHFELVAAALDIDPDRGRAFGEQLGIDPTRCYADYLSLFELEAQRPDGIQAVSIATPNGTHYAITRAALEAGLHVVCEKPLCFTLEEAEALRTLARSRGRIVGLTYGYAGHQLIEQARALIAAQELGEIRMVHMQFAHGFHSAPVEAQNPATQWRVDPRQAGPSYVLGDVGTHPLYLAKVMLPELRIKRLMCSRQSFVASRAPLEDNAYTLMEYEGGAMGMVWSSAVNAGSMHGQKIRVIGSRASLEWWDERPNQLSFEVQGQPVQTLERGMGYLHPDALLDDRIGGGHPEGLFEAWSNLYRRFALAMDAADRGDAEALAALRYPGIDAGVDGVRWVERCVESANQDSAWVAY				NA	NA	NA	NA	NA
D1-35_03893	924	iolE_2	COG1082	Inosose dehydratase	ATGACGATCCACATCTGCACCGCGCCTTGCTGCTGGGGCGTCGACGACGTCAGCAACCCGTTCCTGCCGCCATGGCAACGCGTGCTCGAAGAGGCCGCCAAGGCCGGTTATCGAGGTATCGAGCTTGGACCCTACGGATTTCTGCCGCTGGACGCCGGCATCCTCGAACCAGCCTTGTCCAAGACTGGCCTGCAAGTGGTCGCGGGAACGATTTTCGATGACCTGGTGAGCCCGGCCAACCTGCCCGAACTGCTGCGCCAGACCCACGGCATCTGCGCGCTGCTCAAACAATTGCCGCCAATGAAGCAGCAAGCGGGCCAGCGCTTTGCCGGTCCCTACCTGGTGATCATCGATTGGGGCCACGACGCGCGCGACTACGCCGCCGGCCACTCGGACCGCGCGCCCCGCCTGGACGATGCCCGCTGGAGCGCGATGATGACGCACATTCGCGCCATCGCCGAGGTCGCCTGGCACACCTACGGCATCCGTGCCGTCATCCATCCTCACGCTGGCGGCCATATCGAATTTGCCGATGAACTGGCGCGCCTGGTGGATGACATCCCCCACGAGGTCGCCGGCCTGTGCCTGGACACCGGCCATCTCTATTACGCCGGCATGGACCCGGTCGCATCGCTGCGCACCTACGCCCATCGCCTGGACTACCTGCACTTCAAGGATATCGACCCGACGGTTTTCGATCAGGTGCTGAACGAACACATCCGTTTTTTTGCCGCCTGCGCCCGTGGCGTGATGTGCCCCATCGGGCGTGGCGTCATCGATTACCCGGCGTTGCACAGCCTGGTGCAAGAGCTGGGTTACCACGGCTGCATCACCGTCGAACAGGAACGCGACCCGCGCGACGCCGCGGCCAGCCTGGACGACGTGGCAGCCAGTCGCGCCTATCTCGCCAACATCGGCTTCTGA	MTIHICTAPCCWGVDDVSNPFLPPWQRVLEEAAKAGYRGIELGPYGFLPLDAGILEPALSKTGLQVVAGTIFDDLVSPANLPELLRQTHGICALLKQLPPMKQQAGQRFAGPYLVIIDWGHDARDYAAGHSDRAPRLDDARWSAMMTHIRAIAEVAWHTYGIRAVIHPHAGGHIEFADELARLVDDIPHEVAGLCLDTGHLYYAGMDPVASLRTYAHRLDYLHFKDIDPTVFDQVLNEHIRFFAACARGVMCPIGRGVIDYPALHSLVQELGYHGCITVEQERDPRDAAASLDDVAASRAYLANIGF	PGPT0016785_366	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016785-mocC-K03335	NA	NA
D1-35_03894	1056			hypothetical protein	ATGTCAGAAAATCCACGGCGCAAACTGCGTCCCACCATGGCCGATGTCGCTCGCGAAGCCGGGGTCAGCCTGTCTACCGTCGACCGGGTGCTGAATCTGCGTGCCGATGTGCGGGCCGATACCGCCCAACGCATCGCCACCGCCGCCGCACGACTGGGCTTCCATGCCAAGGGCGTGATCGAACAGCGTGTGCTCAACGACCGTCCCACGTTGCGTCTGGGGTTCTTGTTGCAAAAAAGCGGCGTGCCGTTTTACCAGGGGCTGGCTCACGCGCTGTCAAACGCCGCCGCGACTTGCACCCGCGCGCGGATTCGCGTGGTCATCGGTTATCTCGACGATCTTGACCCGGTCAACGTGGCGCAACGCATCCTGGCGCTGCGCGATCAGGTGGACGGCCTGGGGGTGGTGGCAGTCGACCATCCTCGGGTACGCGAGGCCGTTGGCCAGCTGCGCGAGACGGGCATTGCGGTGGTTGCGCTGCTGTCGGAATTGTCGAGTACCGCCGGCACCGGTTATGCCGGTCTCGATAACCGCCTCACGGGCCGTACGGCGGGCTGGTTCATCAGCCGCCTCGCCAGGCAGCCCGGACCGGCGGTGGTCATGCTCAGCAGCCAGCGCTTCCAGTGCCAGGAACTCTGCGAGCTGAGCTTTCGCAGCTATCTGGTGGAGCATTCCAGCGAATGGGAACTGCTGGCCTCGCGCCTGACCCTGGAAGACGATGAGTTCGCCTATGGCAACACCCTCGACTTGCTCACGGCTGAGCCCGATCTGGCGGGGCTTTATGTGGCGGGCGGCGGCATTGCCGGAGTGCTGCGGGCTTTGCGCAGCTTCCAGGCACAGCAACAGCGCCTGCCCATCGTGGTGTGTCATGACCTCACGCCGCTCACGCGCGAAGCGTTGAAAACCGGCTTGGTCCAGGCAGTGTTGTCCCACCCGGTGGTGACGCTGGCCGAACAGGCTGTCGATGCCTTGGTCGAGGCCGCAACGACCGCGCCGACAGGGCCGGTGACCAGGAGAGTGGTTCCGCTTCAGGTTGATGTGCAGGAAAGCGTTTAG	MSENPRRKLRPTMADVAREAGVSLSTVDRVLNLRADVRADTAQRIATAAARLGFHAKGVIEQRVLNDRPTLRLGFLLQKSGVPFYQGLAHALSNAAATCTRARIRVVIGYLDDLDPVNVAQRILALRDQVDGLGVVAVDHPRVREAVGQLRETGIAVVALLSELSSTAGTGYAGLDNRLTGRTAGWFISRLARQPGPAVVMLSSQRFQCQELCELSFRSYLVEHSSEWELLASRLTLEDDEFAYGNTLDLLTAEPDLAGLYVAGGGIAGVLRALRSFQAQQQRLPIVVCHDLTPLTREALKTGLVQAVLSHPVVTLAEQAVDALVEAATTAPTGPVTRRVVPLQVDVQESV	PGPT0017992_3118	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
D1-35_03895	567			hypothetical protein	ATGCACAGCTTTTTCGCAGCCGACAGAGGGCTGCTCGCTATCGTCAGTCTCGCCTTGGCGTTGTGCGCCAACCACGCCGCTGCGGATTGGCGGGCTGAGTTGCCCCAAGCCCGTCTGGTCGGTGAGGCGGAGTTTCGCTGGTATGGTTTTGATCTCTATCAGGCCCGGCTCTGGAGCGCGGCGCCTACTCCGAGCCTGGACACTCCTTTTGCCTTGGAACTGGTTTACCGACGCACGATCCCCCGGCACGCCTTGGTTGAAACCAGTCTCGAAGAAATCCAGCGCGTCAGCGCTACGCCCTTCGGGGCGCAGCGCATGGACGCCTGGGCGGCGCATATGCGGCGGGCCTTTGTCGACGTCAAGCCTGGCACCCGAATCACCGGGCTGAACCTGCCTGGAAAAGGGGCACGCTTTTATGTCGATGGGCGCCTATCTCAAGAGGTCAACGATCCGCTGTTTGCCCGACATTTTTTTGCCATCTGGCTTGATCCTCGTACCCGTAAACCCGAACTGCGTCAGCGTTTGCTCGGGCTTGATCCAACCCGCGCCAGGAGCAGTACGCCATGA	MHSFFAADRGLLAIVSLALALCANHAAADWRAELPQARLVGEAEFRWYGFDLYQARLWSAAPTPSLDTPFALELVYRRTIPRHALVETSLEEIQRVSATPFGAQRMDAWAAHMRRAFVDVKPGTRITGLNLPGKGARFYVDGRLSQEVNDPLFARHFFAIWLDPRTRKPELRQRLLGLDPTRARSSTP	PGPT0019995_42	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_DIHYDROFLAVONE_REDUCTION,PGPT0019995-CHI_like-NA	NA	NA
D1-35_03896	306			hypothetical protein	ATGACCCTGAAGGATCTGGTTGCGCTGGCTGTGGAGGGGCGAGTCGTCGGGCTGGAGCTGCTGTCGCTGGAGGGCGGCATCTACCTGCTGCGAGCTCAGCTGGATGGACAAACACGCACATTGCTCGATGAGTCGGGACGTACGTTGCATGTGCGCTCCACGACGCATCTGCGCGAGCTGCTGCGTGACGTTCCACGCTTGCCTTGCATGCTGGTGCAGCAGGTCGTCCATGATGAAATGTGCGGCCAGCGTGAAGAGCCAATCGCGCCGTTACGGTTGCCGATTTTCCTCGATGAGCCTTGGTAA	MTLKDLVALAVEGRVVGLELLSLEGGIYLLRAQLDGQTRTLLDESGRTLHVRSTTHLRELLRDVPRLPCMLVQQVVHDEMCGQREEPIAPLRLPIFLDEPW				NA	NA	NA	NA	NA
D1-35_03897	492			hypothetical protein	ATGAAGAGCCGCAGCTGGCTGATAGGCAATGCGCTCTGGCTGCAATTGGGCTGGTGGGGCTGTGTATTGGGTGCGCAACAGCCTGCATGGCTGCTGGCGGTCGTCGCCGGGTTAGGCGTCCATCTGGGGTTGTGTCCCGATCCGAAAAGCGAGTGCCAGGCGCTGTTGCGTGTCGGGGCAAGCGGGATGCTGTTGGACGGGAGCCTCGGCGCCCTGGGCCTGTTCGGGTTCGACGAGAGCCCCTTGCCCTTGTGGCTGGCCCTGCTCTGGCTGGTCTTCGCCACGGGTTTGCGGCATAGCCTGGCCTGGGCAGGCAGCCCCGTCTGGCGTGGCGCCCTGGCCGGCATGCTTGGTGGCCCTCTCGCCTATTGTGCCGGCGCTCCGCTGGCTGGCGTGACGCTGCCGCTGGGCGTAACCGGCACCGCGTTGATCCTGGCACCGTTATGGGCGATGTGGCTGCCATTGGCCGTGCGTCTGGCCGACCCGCGCTGA	MKSRSWLIGNALWLQLGWWGCVLGAQQPAWLLAVVAGLGVHLGLCPDPKSECQALLRVGASGMLLDGSLGALGLFGFDESPLPLWLALLWLVFATGLRHSLAWAGSPVWRGALAGMLGGPLAYCAGAPLAGVTLPLGVTGTALILAPLWAMWLPLAVRLADPR				NA	NA	NA	NA	NA
D1-35_03898	1269			hypothetical protein	ATGTCCGAACCCACCCTGAGCGTCACTAAGGCCGGCGGTACCTGCCCATTGAGCGGCGGTCTGTTCAAACAGGCCGTACTCGCGCAACTGCGCCGTTTGCGTCATGGCCACCTGCGCCTGATGCTGGAGGGCGAGCCCCTGAGCTTCGGCGACGCGACCAGCCCATTGGTGGCCGACATCGAGATACTCGACAATGCCGTTTGGGGCATGGTCGCTGGCAACGGTTCGATCGGTGCCGCCGAGGCTTACATTCAAGGTTACTGGCGCAGCAATGACTTGACTGCCGTCACTCGCCTGTTCGTCGCCAATCTCAGCGTGCTCGACGCGATGGACAGCGGCCTCGCTCGCCTGGGGCGGCCGTTGCTGCGCGGATTGCACTGGCTCAACCGCAACAGTCGCAAAGGCTCGCTGCGCAACATCATGGCCCACTACGACTTGGGCAACAGCCTGTTCGAACGCTTGCTCGACCCGACCATGATGTATTCGGCGGCCATGTTCGAAAATCCCGACCAGAGCCTAGAACAGGCGCAGATCAACAAACTCCAACGCATTTGTCGCAAGCTCGACCTGCGCCCAGGTGACCATCTGTTGGAGATCGGCACCGGTTGGGGCAGCCTGGCTATCCATGCCGCCACCCAATACGGCTGTCGGGTCACCACCACGACGCTTTCCGAGGAGCAATACGCGCACACGTGCCAACGTGTCGAGGCGCTCGGCCTGCAACAACGCATCGAAGTGCTGCGCAAGGACTACCGCGACCTGGAGGGACGCTTCGACAAACTGGTGTCGATCGAAATGATCGAAGCGGTCGGCCATCGCTACCTGCCCGAATACTTCCGCTGCTGCGCCGCGCTGCTCAAGGACGACGGGTTGATGCTGTTGCAAGCCATCACCATCCGTGACCAACGCTACGAGCAGGCCCGCCGCTCGGTGGATTTCATCCAGCGCCACATCTTTCCAGGGGGCGCGTTGCCCTCGCTGTCGGTGTTGTTGCAGACCGCCAGCTCCCAGACGCCGCTCAACCTGTTGCACCTGGAGGACTTCGGCGAGCACTACGCGCGCACGCTACGGCACTGGCACGACAACTTCCGGCAATCGCGCCAGGCCTTGCTGGAGCTGGGCTATGACGATACGTTCCAGCGCCTTTGGGAATTCTACCTGTGCTACTGCGAAGGCGGATTCCAGGAGCGTGCGATCGGTGTCGCGCAACTGCTGTTCGCTGCGCCAGCGGCGCGCCCGGTGCCCTTGCAGGAACACCTGCAAGGATGA	MSEPTLSVTKAGGTCPLSGGLFKQAVLAQLRRLRHGHLRLMLEGEPLSFGDATSPLVADIEILDNAVWGMVAGNGSIGAAEAYIQGYWRSNDLTAVTRLFVANLSVLDAMDSGLARLGRPLLRGLHWLNRNSRKGSLRNIMAHYDLGNSLFERLLDPTMMYSAAMFENPDQSLEQAQINKLQRICRKLDLRPGDHLLEIGTGWGSLAIHAATQYGCRVTTTTLSEEQYAHTCQRVEALGLQQRIEVLRKDYRDLEGRFDKLVSIEMIEAVGHRYLPEYFRCCAALLKDDGLMLLQAITIRDQRYEQARRSVDFIQRHIFPGGALPSLSVLLQTASSQTPLNLLHLEDFGEHYARTLRHWHDNFRQSRQALLELGYDDTFQRLWEFYLCYCEGGFQERAIGVAQLLFAAPAARPVPLQEHLQG	PGPT0007680_1555	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-PHOSPHOLIPID_PRODUCTION	PLANT_SIGNAL-PHOSPOLIPID_METABOLISM	PLANT_SIGNAL-CYCLOPROPANE-FATTY-ACYL-PHOSPHOLIPID_BIOSYNTHESIS,PGPT0007680-cfa-K00574	NA	NA
D1-35_03899	816			hypothetical protein	TTGAACAGCAGTTTGTGTCACGGCTGGATCGGCCACCGACGCCAGACGCCACGGGTGCACGCGTTTCGCTACCCGATCGGCATGCTTTACCTGGACCTCGCCGAGCAGGAACAGGTGCTCGGCCTGTCGCGTTTGCTGCGCCCGTGGCGCATGGCCCCGTTGTGCTGGCGAGAACGTGATTACCTGCCGGCCCTGACCCGTGAAGGTATTCCGCTGATCCAAGCGGTGCGGACGATCGTCGAGCAGGCTCTGGGATCAGCTCCCCAAGGCGCGATCCACCTGCTGACCCAACCGCGCAGCTGGGGCCTGTCGTTCAACCCGGTGAGTTTCTATTTCTGCCACGAAGCCGACGGGCGCCTGGTGGCAATTCTCTGCGAAGTGCGCAACACCCCCTGGCGCGAGCGCCACCATTATGTGTTGCCGGCAAGCCCTGGCGAGCCCCATGCGTTCCAGGTCGCCAAGGCGTTCCATGTCTCACCCTTCCTGCCACGGGACATGGATTACCGCATGCGCTTTTTGATCCAGGACACCCGCATCCGCGTACGCATGGAGAACTGGCGTGCCGGCCACAAGGTGTTCGAGGCCGACCTTGCCTTGCAACGTGCGCCCCTGGACGCACCGGCATTGCGTCGTTATTTCCTGGCCTTCCCGTGGATGAGCCTGCGCACCGTTAGCGCCATTTACTGGCAGGCGCTGCGCCTGCTTTTCAAACGCACGCCCCTGCACGACCACCAGGCCAGCCATGGCGACCTGAGTGTCGGCGAACCTGTCCATGAGGATCCTGACGATGTCCGAACCCACCCTGAGCGTCACTAA	MNSSLCHGWIGHRRQTPRVHAFRYPIGMLYLDLAEQEQVLGLSRLLRPWRMAPLCWRERDYLPALTREGIPLIQAVRTIVEQALGSAPQGAIHLLTQPRSWGLSFNPVSFYFCHEADGRLVAILCEVRNTPWRERHHYVLPASPGEPHAFQVAKAFHVSPFLPRDMDYRMRFLIQDTRIRVRMENWRAGHKVFEADLALQRAPLDAPALRRYFLAFPWMSLRTVSAIYWQALRLLFKRTPLHDHQASHGDLSVGEPVHEDPDDVRTHPERH				NA	NA	NA	NA	NA
D1-35_03900	1248			hypothetical protein	ATGCGCATCGCAATTATCGGCAGCGGTATCTCGGGCCTCACCTGCGCCTATCTGTTGTCTCGCCAGCATCAGGTCAGCCTGTTCGAAGCCGACAACCGGATCGGCGGGCATACCCATACGGTGGATGTCGAATGGGCAGGCCAACGCTACGGCGTGGACACCGGCTTCATCGTGTACAACGACTGGACCTACCCCAACTTCATTCGCCTGATGGACCAGTTGGGCGTGGCTTCGCGCCCGACGGAGATGAGCTTTTCGGTGCACGACCCGGCCAGCGGCCTGGAATACAAGGGCCACACCCTGGGCAGCCTGTTCGCCCAACGACGCAACCTGCTGTCGCCGGGGTTCTGGGGCATGCTCCTGGATATCCTCAGGTTCAACCGGCAGGCGACCGCAGACCTGCTGGCGCAGCGCATCGATGCCTCGACCCGGCTGGGAGATTACCTGCACGCCCAAGGTTACGGCCGACGTTTCATCGAGCAATACATCCTACCCATGGGGTCGGCGATCTGGTCGATGTCACCGGCTGGGATGATGGAATTCCCGCTGCAGTTTTTCCTGCGTTTCTGTCACAACCACGGCCTGCTGTCGGTTGATCAGCGTCCGCAATGGCGGGTGATCGAAGGCGGATCGCGCGGCTACATCGAGCCGTTGTGCGCGGGTTTGCGCGAGCATATCTACCTCGATTGCCCGGTGCGCCGGGTAAGCCGCGACGCCGATGGGGTCACCGTGCACAGCCGTCGTGGTATCGAGCGGTTCGACAAGGTGGTATTCGCCTGCCACAGCGACCAGGCCCTGGCTTTGCTGGAAACGCCCAGCGTCGCTGAAGCCGAGGTGCTCGGTGCGCTGGCCTACGCCCGCAACGAGGTGCTGCTGCATACCGATACCCGCCTGTTGCCGCAGCGCCGGAAGGCTTGGGCGAGCTGGAACTATCGGCTTGGCGGCCCGCCCGAGACGCCGGCCGCGCTGACCTACAACATGAACATCCTCCAGGGCCTGGATGCCCCCGTGACGTTTTGCGTGAGCCTCAACCAAAGCGAGTCGGTGGACCCGACCCAGGTACTCGCGCGCTTCGACTACGCCCATCCCCAATACAGCCTCGCCGGCGTGGCCGCACAGGCACGCCAGGGCGATCTGCAAGGACGCCAGCACAGCTATTTCTGCGGTGCCTACTGGGCCAACGGTTTTCATGAGGATGGCGTGGTCAGTGCGCTTGCCGTGGCGCGGCATTTCGGAGAAACCCTTTGA	MRIAIIGSGISGLTCAYLLSRQHQVSLFEADNRIGGHTHTVDVEWAGQRYGVDTGFIVYNDWTYPNFIRLMDQLGVASRPTEMSFSVHDPASGLEYKGHTLGSLFAQRRNLLSPGFWGMLLDILRFNRQATADLLAQRIDASTRLGDYLHAQGYGRRFIEQYILPMGSAIWSMSPAGMMEFPLQFFLRFCHNHGLLSVDQRPQWRVIEGGSRGYIEPLCAGLREHIYLDCPVRRVSRDADGVTVHSRRGIERFDKVVFACHSDQALALLETPSVAEAEVLGALAYARNEVLLHTDTRLLPQRRKAWASWNYRLGGPPETPAALTYNMNILQGLDAPVTFCVSLNQSESVDPTQVLARFDYAHPQYSLAGVAAQARQGDLQGRQHSYFCGAYWANGFHEDGVVSALAVARHFGETL	PGPT0007680_7	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-PHOSPHOLIPID_PRODUCTION	PLANT_SIGNAL-PHOSPOLIPID_METABOLISM	PLANT_SIGNAL-CYCLOPROPANE-FATTY-ACYL-PHOSPHOLIPID_BIOSYNTHESIS,PGPT0007680-cfa-K00574	NA	NA
D1-35_03901	756	hcaB_3		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGAGCCGCATCTGGCTGACCGGCGCCAGCAGCGGCATCGGTGCCGAACTGGCGAAGGTGTTGCTTGAACAAGGTCATCGCCTGGCGTTGAGCGCGCGGCAAGCCGGCCCGCTGCAAGCATTGGCCGACCGTTATCAGGATCAGGTCCTGGTGCTCCCGGGCGACTTGACCGACCGGGATCAGGTAGTCGCGATCATCCAGCACATCGACCGGGAATGGGGCGCCCTCGATCAGGTGATTCTCAACGCCGGCACCTGCGAATACCTGGAGCCGGGACACTTCGACGCGCGCCTGGTGGAACGGGTGCTCAATACCAACCTGCTGGGCACCTACCACTGCCTGGAAGCCGCCCTGCCCTTGTTGCGTCGAGGCCAGAACCCGCATCTGGTCGCGGTGTGCAGCGCAGTGACCTGGCTGGCCCTGCCGCGCGCCGGTGCCTACGGCGCATCCAAGGCCGCGTTGCGCTACCTGTTTGAATCGTTGCGCATCGACCTGGCCGCCGAGGGCATCGACGTCACGCTGGTGAGCCCCGGATTCGTTGATACGCCGCTGACCCAGCGCAATGATTTCGCGATGCCCATGCGCTGGCCGGCCGAACGCGCGGCCCGGCACATCGCACGGCGACTGCCTGCCCGCCCTCTGGAAATCGCGTTTCCGGGGTTGTTCATCGTGATCATGCGGCTGCTCGGGCATCTGCCCGCACGCTGGCGGCTGGCGCTCGGCCGGCGCCTGGCGCGCAAATCCGGGGAGGCTTGA	MSRIWLTGASSGIGAELAKVLLEQGHRLALSARQAGPLQALADRYQDQVLVLPGDLTDRDQVVAIIQHIDREWGALDQVILNAGTCEYLEPGHFDARLVERVLNTNLLGTYHCLEAALPLLRRGQNPHLVAVCSAVTWLALPRAGAYGASKAALRYLFESLRIDLAAEGIDVTLVSPGFVDTPLTQRNDFAMPMRWPAERAARHIARRLPARPLEIAFPGLFIVIMRLLGHLPARWRLALGRRLARKSGEA				NA	NA	NA	NA	NA
D1-35_03902	423			hypothetical protein	ATGTCCGCATTCCTCAAGGGTTTCGCCCACGCCTTCGCCGCGCTGGACGCCAGTCGCCTGGACCAGCTCGACAGGCTCTACAGCGCCGACGTGCTGTTCCAGGATCCGTTGCACCGGATCGAAGGCCTGCCTGCCCTGCGCGAATATTTCGCCCAGCTCTACGCCAATGTCAGCGATCTGCACTACGAGTTCCAAGGGTATGACGAAATCGCTCCCGGCGAAGGTTACCTGCGCTGGACCCTGCGCTTTCGGCACCCACGTTTGAACGCCGGCGCGCCGGTCGAATTGCCCGGCTGCAGCTACCTGCGCTGGAATGATCGGGTCTATTCACACCGGGACTTCTTTGATGCCGGCGCCCTGCTCTACGAGCACTTGCCCGTGTTCGGGCCGCTCATTCGCTGGCTCAAGCGGAGGCTGGCATGA	MSAFLKGFAHAFAALDASRLDQLDRLYSADVLFQDPLHRIEGLPALREYFAQLYANVSDLHYEFQGYDEIAPGEGYLRWTLRFRHPRLNAGAPVELPGCSYLRWNDRVYSHRDFFDAGALLYEHLPVFGPLIRWLKRRLA				NA	NA	NA	NA	NA
D1-35_03903	1305			hypothetical protein	ATGCCCGTTGAAACCCTACTTATCGATACGCTTGTAATAGGCGCCGGCCAGGCCGGTGTCGCCATGAGTGAACATTTGAGCCGCCAGGGCGTGCCGCATCTGGTGGTGGAGCGCAACCGCATTGCCGAAGCCTGGCGCACGGCGCGCTGGGATTCGCTGGTTGCCAATGGCCCGGCCTGGCATGACCGCTTTCCAGGACTGGAATTCGAAGGGCTCGATCCGGACGCCTTTGCTTCCAAGGACCAGGTGGCCGAGTACTTCGAAGCCTATGCACGCAAATTCGACGCACCGATCCGCACCGGCGTGGAGGTGCGCAACGTCGAGCGCAATGCCGGTCGCCCGGGCTTCGCCATTGAAACGTCGAACGGCCGGATCGAGGCTACCAACGTGGTGGTCGCCACCGGGCCATTTCAGCGGCCCGTCATCCCGCCCATCGCGCCTGACATGGCTGCGGTGACGCAGATTCATTCGGCGCAATATCGCAACCCCGCGCAGTTGGCCGAGGGCGCCGTGCTGGTGGTCGGCGCCGGGTCGTCGGGGGTGCAGATCGCCGATGAATTGCAGCGCGCCGGCAAGCGGGTCTACCTCTCGGTGGGCGCCCATGATCGTCCGCCGCGGGCCTATCGCAACCGCGATTTCTGCTGGTGGCTGGGGGTGCTGGGCGAGTGGGACGCCGAAGCGGTCAAGCCAGGCAAGGAGCACGTGACCATTGCCGTGAGTGGCGCGCGGGGTGGGCACACCGTGGATTTCCGGCGGCTGGCCCATGAGGGCATCACGCTGGTGGGACTGACCCGGGCGTTCAACGGCAGCACGGTGAGTTTCGAACCCAACCTCAATGAAAACATTGCCCGTGGCGATGAAAACTACCTGGCATTGCTTGACGCCGCCGATGCCTACATCGCGCGCAACGGCCTGAATCTGCCGCCCGAGCCCGAGGCACGTCGGCTATTGCCCGACCCGGAATGCATGACCCAGCCGATCCTGGAACTGGATCTGACCGAGGCGGGCATCAGCACCATCATCTGGGCCACCGGGTATTCGGTGGATTACAGCTGGCTGAAAGTCGATGCGTTCAAAGCCAACGGCAAGCCACGGCATCAGCGCGGGGTCTGCAGCGAGCCGGGCCTCTATTTTGTCGGCCTGCCATGGCTGTCGCGGCGGGGCTCGGCGTTCATCTGGGGCGTGTGGCACGACGCCCGGCACATCAGCGACCACATCATCAAGCAGCGCACGTATCTCGATTACCGGGATGCCTCCCAGCGCCAGTCGCAACCTTCGAAAACCAGCCTCATGGGAGTCCGCTGA	MPVETLLIDTLVIGAGQAGVAMSEHLSRQGVPHLVVERNRIAEAWRTARWDSLVANGPAWHDRFPGLEFEGLDPDAFASKDQVAEYFEAYARKFDAPIRTGVEVRNVERNAGRPGFAIETSNGRIEATNVVVATGPFQRPVIPPIAPDMAAVTQIHSAQYRNPAQLAEGAVLVVGAGSSGVQIADELQRAGKRVYLSVGAHDRPPRAYRNRDFCWWLGVLGEWDAEAVKPGKEHVTIAVSGARGGHTVDFRRLAHEGITLVGLTRAFNGSTVSFEPNLNENIARGDENYLALLDAADAYIARNGLNLPPEPEARRLLPDPECMTQPILELDLTEAGISTIIWATGYSVDYSWLKVDAFKANGKPRHQRGVCSEPGLYFVGLPWLSRRGSAFIWGVWHDARHISDHIIKQRTYLDYRDASQRQSQPSKTSLMGVR	PGPT0013865_455	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013865-czcO|noxC|yrdP|trkA|hapE-K07222	NA	NA
D1-35_03904	411			hypothetical protein	ATGCCTACTCATACTCGCATCCGCATGTTCAACACCAAAGACACCTATCCGAACCAGACGCTGGACAACGACCTGTGCCAGGCGGTTCGCGCCGGCAATACCGTGTACGTGCGCGGTCAGGTCGGCACCGACTTCAACGGTCAAATGGTGGGCCTCGGCGACCCACGGGCCCAGGCCGAACAGGCCATGCGCAACGTCAAGCAACTGCTGGAGGAAGCCGGCAGCGACCTGAGCCATATCGTCAAGACAACCACCTACCTGATCGACCCGCGCTACCGCGAGCCGGTGTACCAGGAGGTCGGCAAATGGCTCAAGGGCGTATTCCCGATTTCCACCGGGCTGGTGGTCAGCGCCCTCGGCCAGCCGCAGTGGCTGATGGAAATCGACGTGATTGCGGTCATTCCCGAATAA	MPTHTRIRMFNTKDTYPNQTLDNDLCQAVRAGNTVYVRGQVGTDFNGQMVGLGDPRAQAEQAMRNVKQLLEEAGSDLSHIVKTTTYLIDPRYREPVYQEVGKWLKGVFPISTGLVVSALGQPQWLMEIDVIAVIPE	PGPT0020030_989	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
D1-35_03905	675			hypothetical protein	ATGACGTTTTCCATCGTCGGACGCTGCGCCGAGACTGGCCAGCTGGGCATCGCCATCAGCTCATCGAGCATCGCCGTCGGCGCCCGTTGCCCCTGGCTGCGGGCCGGTGCCGGTGCCGTGTCGAGCCAGAACATCACCTTGCCGGCCCTGGGGCCGCTGATTCTTGATGAACTGGCCGCCGGCCAGACGGCGCAAGAGGCGCTGGATCATGCCTTGGCGCGTAACGGCTATAGCGAATATCGCCAGGTCGCGGTGGTGGATGCCCACGGACGTACGGCGGTCTTCAGCGGTCGCCACGCGTTGGGTATTCACGGCGCCCAGCCAGGTGAGCAGTGTGTGGCGGCCGGCAATCTGCTGGCGAGCGACGGAGTCATCGCGGCCATGGTCGCGGCGTTCGAGCAGGGCGAGGGCAGTCTCGCGTCACGCCTGCTTGGGGCGTTGCAGGCTGGGCAGGCCGCGGGTGGAGAGGCCGGTGCGGTGCATTCGGCAGCGCTGTCGGTGGTGGATGACCTGACCTGGCCCATCGTCGATCTGCGGGTGGACTGGGCCGACGAGAATCCCATCGGCGAACTGGAAAAACTCTGGCTCGCCTATCAACCGCAACTGCAGGACTACCTGACCCGCGCGCTCAACCCGACCCTGGCGCCGAGCTACGGGGTGCCGGGCGATGAGTGA	MTFSIVGRCAETGQLGIAISSSSIAVGARCPWLRAGAGAVSSQNITLPALGPLILDELAAGQTAQEALDHALARNGYSEYRQVAVVDAHGRTAVFSGRHALGIHGAQPGEQCVAAGNLLASDGVIAAMVAAFEQGEGSLASRLLGALQAGQAAGGEAGAVHSAALSVVDDLTWPIVDLRVDWADENPIGELEKLWLAYQPQLQDYLTRALNPTLAPSYGVPGDE				NA	NA	NA	NA	NA
D1-35_03906	1170	argE_2	COG0624	Acetylornithine deacetylase	ATGAGTGAGTTGCGCAGTCGCGCACTGCTCGCCGAGCTGGTGGGCTTTGCCACGGTCAGTCGTGATTCGAACCTGGCGCTGATCGAGTTCGTGGGCGATTACCTGCAAGGCCTGGGGGTAAGCAGCGAGCTGATCTACAACGCCGAGCGCACCAAGGCCAACCTGTTGGCAAGCATCGGCCCGTCGGTGCCTGGCGGTGTGATGTTGTCCGGGCATACCGACGTGGTGCCGGTGGACGGCCAGGCCTGGACGGTTGATCCGTTCTGCCTGAGCGAGATGGACGGCAAGCTGTTCGGGCGCGGTACGGCGGACATGAAAGGCTACCTGGCCTCGGTGCTGGCGGCGGTGCCGACATTCCTGTCCAGCCCGCTCAGACGCCCGCTGCACCTGGCGTTTTCCTATGACGAAGAAGTTGGGTGCCTGGGCGTGCGCAGTCTGCTGGAGGTGCTGCCGCAACGCATCCCGCAACCGGCCTTGTGCCTGATCGGTGAGCCCACCGAGCTGCAACCGGTGCTCGGTCATAAAGGCAAATTGGCGATGCGCTGCCACGTCCGAGGCGCACCGTGTCACTCGGCCTACGCGCCTTATGGAGTCAACGCCATCGAGCAGGCGGCGCGCCTGATCGGTCGCCTGGGAGAGATCGGTGCGGAGCTGGCCGAACCGTCGCGACACGATGGGCGCTTTGATCCGGCTTACTCGACCGTGCAGGTCGGCGTGATCCAGGGCGGGACCGCACTGAACATCGTTCCGGCCGACTGCCGCTTCGATTTCGAGGTGCGCGCCTTGCCGGATTTTGCCCCGCAGGGGGTGGTCGAGAAATTGCAGGATTACGCCGAACAGGCGCTGCTGCCGAGGATGCGCGCGGTTAGCGCCGACACCGCGATTCGTTTCGAACACCTGTCCGCCTACCCGGGCCTGGCGACTGCGCCGGACAGCGAAGCCGCGCGTCTCATAGCCCGGCTGTGCGGCAGCGAGGCCTTCGGCACCGTGGCGTTCGGCACCGAAGGTGGGCTGTTTGATCAGGCCGGTATCCCGACGGTGGTTTGCGGGCCCGGCAGCATGGACCAGGGGCACAAGCCCGACGAATACGTGAGCGTTGAGCAAATGGCTGCCTGCGACCGGTTGATGGACCGCCTGGCGAAGCATTTGAGCGAACCCGATGGCCTGTGA	MSELRSRALLAELVGFATVSRDSNLALIEFVGDYLQGLGVSSELIYNAERTKANLLASIGPSVPGGVMLSGHTDVVPVDGQAWTVDPFCLSEMDGKLFGRGTADMKGYLASVLAAVPTFLSSPLRRPLHLAFSYDEEVGCLGVRSLLEVLPQRIPQPALCLIGEPTELQPVLGHKGKLAMRCHVRGAPCHSAYAPYGVNAIEQAARLIGRLGEIGAELAEPSRHDGRFDPAYSTVQVGVIQGGTALNIVPADCRFDFEVRALPDFAPQGVVEKLQDYAEQALLPRMRAVSADTAIRFEHLSAYPGLATAPDSEAARLIARLCGSEAFGTVAFGTEGGLFDQAGIPTVVCGPGSMDQGHKPDEYVSVEQMAACDRLMDRLAKHLSEPDGL	PGPT0014254_1675	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014254-argE-K01438	NA	NA
D1-35_03907	1041			hypothetical protein	ATGTCCATATCCTTGCGTTGCAACATTGCGTGTGCCCTGGCGTTGCTGAGCAGCAGCGTACTGGCCGCGCCACCAAGCCTGACCGTGATCTCATTCGGCGGCGCCACCAAGTTGGCCCAGGACAAGGCCTACTTCCAACCCTTCAACGCCAGCGGTGCAGGAAGCATCGTCGCCGGCGAATATAACGGCGAGCTGTCGAAGATCAAGGCCATGGTCGCGGCCGGGCACACCAGTTGGGATGTGGTCGAGGTGGAAAGTCCCGAGCTGCTGCGCGGTTGTGAGGAAGGTCTGTTCGAAAAACTCGACCCGGCGGCGATTGGAAAAGCTGCGGATTTTGTTCCGGGTGCGCTTACCGAATGCGGCGTGGCGACATATGTCTGGTCGATGGTTCTGGCCTACGACCAGAGCAAACTCGCCAAGGCGCCCCAATCCTGGGCGGATTTCTGGAACGTGAGCGACTACCCGGGTAAACGCGGATTGCGCAAGGGTGCCAAGTACACCCTGGAAATCGCCTTGCTGGCGGATGGCGTCAAGGCCGAGGATCTGTACAAGGTGTTGAACACCCCTGAAGGGGTGACACGTGCTTTCGCCAAGCTCGATCAGATCAAGCCGAACATCCAGTGGTGGGAGGCGGGTGCGCAGCCGGCGCAATGGCTGGTGGCCGGGGACGTTGCCATGAGCGCCGCCTACAACGGGCGCATCGCCTCGGCACAGAAGGAAGGCATGAAACTGAGCATCGTCTGGCCACAAAGCCTGTATGACCCAGAGTACTGGGCGGTGGTCAAAGGTACGCCGAACAAGGCCCTGGCCGAGAAATTCATTGCCTTTGCCAGCCAGCCGCAGACGCAGAAAGTCTTCTCGGAAAACATTCCCTACGGACCGGTGCATCGCCAGACGTTGGCCTTGCTGCCCGCCGAAATACGCGAGCAACTGCCCACCGCCGAGGCCAACCTGGCGCAAGCGCGAGCGGTGGATGCCGAGTTCTGGGTGGACCACGGTGAAGAGCTTGAGCAACGCTTCAATGCCTGGGCGGCTCGCTAG	MSISLRCNIACALALLSSSVLAAPPSLTVISFGGATKLAQDKAYFQPFNASGAGSIVAGEYNGELSKIKAMVAAGHTSWDVVEVESPELLRGCEEGLFEKLDPAAIGKAADFVPGALTECGVATYVWSMVLAYDQSKLAKAPQSWADFWNVSDYPGKRGLRKGAKYTLEIALLADGVKAEDLYKVLNTPEGVTRAFAKLDQIKPNIQWWEAGAQPAQWLVAGDVAMSAAYNGRIASAQKEGMKLSIVWPQSLYDPEYWAVVKGTPNKALAEKFIAFASQPQTQKVFSENIPYGPVHRQTLALLPAEIREQLPTAEANLAQARAVDAEFWVDHGEELEQRFNAWAAR	PGPT0007855_4051	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
D1-35_03908	912	cysB_2		HTH-type transcriptional regulator CysB	GTGGCGTCCTACTCCCTGCGTCAGTTGAAGTACTTCGTGACCACCGTGGAATGCGGCAGCGTCGCCGAAGCCTCGCGCAAGCTGTACATCGCCCAGCCATCGATTGCCACGGCGGTAAAAGGCCTGGAGGACAGTTTCGGCGTGCAATTGCTGATCCGCCATCACGCCCAGGGCGTCTCGCTGACGCCCGCCGGTGCGCGTTTCTATCGCAAGGCCCAGGAACTGCTGCGCATGGCCCGGGAATTCGAACAGAACGCGCTGGCGGACAACGACGTCGTCAGCGGGCAGATCGACATCGGCTGCTTCGAGACCGTCGCCCCGCTCTACTTGCCACGGCTGATCGCCGGGTTCCGAGAGCGTTTTCCCGGGGTGGAAATTCGCGTACAGGATGGCGAACAGCAGGAGCTGGTCCAGGGCCTGACGGGGGGACGTTTCGACCTGGCGATTTTTTATGAGCACGATCTCGACAGCACCATCGAAACCGAAGCGCTCACCGCGCCGCAGCGGCCCTATGCATTGCTGCCGGAGGGGCATCGTTTCGCCGATCAGGGCCAGGTGTCATTGCGGGACCTGGCGCTCGAACCGATGATCCTTTTGGACGTGCAGCCCAGCCGGACCTATTTCGTGAGTATTTTCGAAGAACTGGGCCTGACGCCGAACATTGTCTTCAGTTCGCCCTCCATCGAGATGGTGCGCGGCATGGTCGGTCAGGGATTCGGCTTCGCCGTGCTGGTTACGCGGCCGCAATCGAGCTGCACCTACGACGGGCAGCGAGTGGTGTGCGTCAACATCGCCGAAGACGTGACAGGTTCAGCGCTGGTGGCCGGCTGGCTCAAGCGCGCGCACTTGACCAAGCCGGCGCAGCTGTTCGTGGATTATTGCAAGGAGCAGTTCGGCGAGTGGCTGGCGTAG	MASYSLRQLKYFVTTVECGSVAEASRKLYIAQPSIATAVKGLEDSFGVQLLIRHHAQGVSLTPAGARFYRKAQELLRMAREFEQNALADNDVVSGQIDIGCFETVAPLYLPRLIAGFRERFPGVEIRVQDGEQQELVQGLTGGRFDLAIFYEHDLDSTIETEALTAPQRPYALLPEGHRFADQGQVSLRDLALEPMILLDVQPSRTYFVSIFEELGLTPNIVFSSPSIEMVRGMVGQGFGFAVLVTRPQSSCTYDGQRVVCVNIAEDVTGSALVAGWLKRAHLTKPAQLFVDYCKEQFGEWLA				NA	NA	NA	NA	NA
D1-35_03909	1203			NADH dehydrogenase-like protein	ATGAAACAGCACATCTTGATTGTCGGCGCCGGTTTCGGCGGCGTATGGAGCGCACTCAGCGCCGCCCGCCTGCTCGACCAGCATGATCGCAACGACGTACAGATCAGCGTCCTGGCCCCCCAGGCGGAACTGCGCATCCGCCCGCGGTTCTACGAGCCGAACGTCCATACCATGATGGCGCCGTTGGGCGCGCTGTTCGATGCGGTCGGCGTGAACTTCGTCCAAGGCGTGGCCGAGAACATCGATGTCAGCCGCAAGCAGATCAGCTACCGCGACGTGTCCGGCAGCCTCGCGACGCTGGGCTACGACCGACTGGTACTGGCCGCGGGCAGCAAGCTGGTTCGCCCTGACCTGCAAGGCATGCTTGAACACGCATTCGATGTCGATGAGATCGAACAGGCAACACGCCTCGAAGCCCACCTCAATTCGCTCGGGAACCTGCCGGACAGTCCCGCACGCAATACCGTCGTCGTCGCAGGCGGTGGTTTCACCGGCATCGAAACCGCCACCGAAATGCCCGCCCGTCTGCGCGCCGTCCTCGGCAGCGACGCCGATGTCCGTGTGATCGTGGTCGACCGCGGGCCGAAAATCGGTGCGGCACTGGGTGAGGGAATCAGCCCTTCGATCATCGAAGCGTCCGAGCACCTGGGCATCGAGTGGATCCTCAATGCCTCGGTCGAATCGGTGGATGCCGGCGGTGTCACCCTCTCGGATGGCCAGCGCATCGAGTCCAGCACCGTTATCTGGACCGTAGGCTTTCGCGCGAGCCCTCTCACCGAACAGGTGCCCGCAACCCGCGACCGCCAGGGCCGGCTGCATGTCGACGGGCATTTGAAGGTGCTCGGGCAGAACGATATCTACGCCAGCGGCGACGTGGCCTATGCCGCCACCGACGACTTGGGCAACTACGCGGTCATGTCCTGCCAGCATGCCATCGCCCTGGGTCGTTATGCGGGCAACAACGTTGCCGCCGACCTGCTCGGCGTCGCGCCGATGACCTACAGCCAGCCCAAGTACGTGACGTGCCTGGACCTGGGCGCCTGGGGCGCGGTGTACACCGAAGGTTGGGACCGCCAGCTCAAATTGGTTGGCGAGGAAGCCAAGGAGCTCAAGACCCAGATCAATTCGGTCTGGATCTACCCGCCCGCCGCCGATCGGGCAACCGCCCTGGCCGCAGCCGATCCATCGATTCCCGTAGCCTGA	MKQHILIVGAGFGGVWSALSAARLLDQHDRNDVQISVLAPQAELRIRPRFYEPNVHTMMAPLGALFDAVGVNFVQGVAENIDVSRKQISYRDVSGSLATLGYDRLVLAAGSKLVRPDLQGMLEHAFDVDEIEQATRLEAHLNSLGNLPDSPARNTVVVAGGGFTGIETATEMPARLRAVLGSDADVRVIVVDRGPKIGAALGEGISPSIIEASEHLGIEWILNASVESVDAGGVTLSDGQRIESSTVIWTVGFRASPLTEQVPATRDRQGRLHVDGHLKVLGQNDIYASGDVAYAATDDLGNYAVMSCQHAIALGRYAGNNVAADLLGVAPMTYSQPKYVTCLDLGAWGAVYTEGWDRQLKLVGEEAKELKTQINSVWIYPPAADRATALAAADPSIPVA	PGPT0004020_4863	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
D1-35_03911	375	tmoT		Response regulator protein TmoT	ATGTCCGACACTGCACTTATTGCTGTTATCGATGACGATGAATCGGTTCGAGTTGCATTGGATGGTTTGCTGCGCTCTCACGGGTATCGCGTCAGGACTTATGCCAGTGCCGTCGCCTTCCTGTCTTCAGCCGGGTTTGAAAACACCGCGTGCGTGCTGTCGGACATACAAATGCCGGGCATGACGGGCATTCAGTTGTGCGATGAGCTCTATGCCCGAGGGATCGACATTCCGCTTGTTTTCATCACGGGCCTGCCTGTTGTGCCCGCGCTGGCCATACCGGGGGGTTGCGGTCCCGTGGCGGTTTTCCCCAAGCCGTTCAGGTGTGGGGAGTTGGTTGCTTGCATTGAGTCGATTCTTGAACGGTCGGTTTAG	MSDTALIAVIDDDESVRVALDGLLRSHGYRVRTYASAVAFLSSAGFENTACVLSDIQMPGMTGIQLCDELYARGIDIPLVFITGLPVVPALAIPGGCGPVAVFPKPFRCGELVACIESILERSV	PGPT0000145_572	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0000145-fixJ-K14987	NA	NA
D1-35_03912	651	todT		Response regulator protein TodT	ATGAACCCAAGCCACGCCATGCCCCCTGCCCTCGCCCATGAACCGATTGTCTACGTGGTCGACGACGACGCATCGTTACGCGAAGCCCTTCGCAGTCTGCTGCGGTCCATTGGCCTGTTGGTCGAACTGTTCGACTCGGTGACGGACTTCATGGGCCATCCACGTCCCGACGCACCCAGTTGCCTGTTGCTCGATGTGCGCCTTCGCGGCACCAGCGGGCTGGACTTCCAACAGCAGTTGGCGAATGCCGGAATTCATCTGCCGATCGTATTCATGACCGGGTATGGCGACATTGCCATGACCGTGCGGGCCATGAAGGCTGGCGCGGTGGATTTCCTGACCAAGCCGTTTCGCGAACAGGACCTGATCGATGCGGTGTCCGCCGCCCATCAGCGCGACCGACTGCGCCGCGAAGCCGAGCGTGGCCAGCAGGCGCTTCAGGACCGTTACGCCACGTTGACCGCCCGGGAGCGCCAGGTGATGGCACTGGCAGCGTCGGGCCTGATGAACAAGCAGATCGCCGGGCAAATAGGCTTGAGCGAGATCACCGTCAAGATCCACCGAGGCCAGGCCATGCGCAAGATGGCTGCGCGTTCGTTTGCCGACCTGGTGTGCATGGCCCAGGCCCTGGAACCGGGCCGTGATCGTTGA	MNPSHAMPPALAHEPIVYVVDDDASLREALRSLLRSIGLLVELFDSVTDFMGHPRPDAPSCLLLDVRLRGTSGLDFQQQLANAGIHLPIVFMTGYGDIAMTVRAMKAGAVDFLTKPFREQDLIDAVSAAHQRDRLRREAERGQQALQDRYATLTARERQVMALAASGLMNKQIAGQIGLSEITVKIHRGQAMRKMAARSFADLVCMAQALEPGRDR	PGPT0015288_16	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULE_REGULATION,PGPT0015288-nodW-NA	NA	NA
D1-35_03913	1071	sasA_16		Adaptive-response sensory-kinase SasA	ATGGGCATCAGCCCTCACCCGCTGGTCGACGCCCTGGGCTGGGCGGTCGGCCTGGTCGTGGCCTGCGGGATTGTCATCATCAATTCCGAAACCCATTCCGACTTGGCGCCGACGCTGCTGTACGTCACCTTGTTGCTGATGGCGGCCAACCTGTTTTCAATCAACCTGGTGATCACCGTTGCGCTGATGTGCATGTTCCTGCTGACGGCGATGTTCCTTTACAACGGCGGTTACCACCGCTGGGAATCGATCACCGGGTTCTTCCGTTGCCTGACGGCCCTGTCGGCCATCGCGTTTCTCGCACTGCGCAGCAAGCATGCCTCGGACCGCCTGCGGCATAACCAGGCCTACCTGATCGAAGCCCAGGCGCAGTTGGCCCATGCCACGCGGCTGACGTACCTGGGGGAAATGGCCGCCTCCATCGCCCATGAAGTGAACCAGCCGTTGACGGCCATTACCAGCAGCGGCGAAGCCTGTCGCCGCTGGCTGGACCGTCCGGTGCCCGACCTCAAGGAGGCCCTCGACTCGCTGGACCGGATCGTCGCCAACGCGTGCCGCGCCAGTGAAGTCATCAATCGGACCCGAGCGATGGCGCGCAAATGCGACCCTCTGCGCCGGCCCGAACGACTGGACGAAATCGTCAGCGAAACACTGGATCTGGTGCGCCACCAGCTGGCTCAGCACCAAGTCAGCCTGAAAGTAGACCTGACGGCGGCAAGCCTCGTCGACGCCGATCGGGTCCAGCTGCAGCAGGTGATCATCAACCTGGTCTCCAACGCTTGCCACGCCATGGAAACGCTCCCGGTGCGCGACCGAATCCTTTACGTGCGCACCTGGACGCACGCGCACGAGGTGCTGCTGGCGGTGACGGACCGGGGAATCGGCATCACGGCCGAGACACTGCCCTCATTGTTCAACCCGTTTTTTACCACCAGGGAAAACGGCCTTGGCATAGGCCTGTCGATCTGTCGCTCGATCATCGATTTCCATGACGGCAGGATCTGGGCTACCAGCGAGGCAGGCCAAGGCACCTCGTTCACCTTTTCGTTGCCGTTGTTAGCCAAAGCCTGA	MGISPHPLVDALGWAVGLVVACGIVIINSETHSDLAPTLLYVTLLLMAANLFSINLVITVALMCMFLLTAMFLYNGGYHRWESITGFFRCLTALSAIAFLALRSKHASDRLRHNQAYLIEAQAQLAHATRLTYLGEMAASIAHEVNQPLTAITSSGEACRRWLDRPVPDLKEALDSLDRIVANACRASEVINRTRAMARKCDPLRRPERLDEIVSETLDLVRHQLAQHQVSLKVDLTAASLVDADRVQLQQVIINLVSNACHAMETLPVRDRILYVRTWTHAHEVLLAVTDRGIGITAETLPSLFNPFFTTRENGLGIGLSICRSIIDFHDGRIWATSEAGQGTSFTFSLPLLAKA	PGPT0000140_605	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0000140-fixL-K14986	NA	NA
D1-35_03914	1020	rhaS_9		HTH-type transcriptional activator RhaS	ATGAACGAGATGACCTGTGACATCCGCATTGCCGCCGAGTCCGTATCCCGACCGCGCGCGCTGGTGTTCCTCGCCTATCCGCAGATGGGCCTGCTCGACCTGACCGGCGCCCAGACGGTGTTCTGGGCGGCCACCAAAGCCATGACCGAACGTGGCCTGCCCGGCTACCGGATGCACACCGCCAGCCTTGAAGGCGGCCTGATGCAGACCGCCGAAGGGCTGGTCGTGCAAACCTGCGCCCTGGGTGAGTTCGACAACGCCGTCATCGACACGCTGATCGTGCCTGGCGCGCCGAACATCCGCCAGGCGATGATCGACTGCGTCGAGCTGGTGGACTGGCTGCGCGCGGCCTCGACCAAGGCCCGCCGCACCGCTTCGGTGTGCAGCGGGACCTTCCTCATGGCCCAGGCCGGCTTGCTCGACGGCCGCCGCGCCGCCACGCACTGGGCCATGTGCGAAATGCTCAAGAGTGGCTTCCCCTTGATCGAAGTGGACCTCGACGCGATTTTTATCCAGCAGGACAGCGTCTGGACCTCGGCGGGCGTCAGCGCCGGCATCGACATGGCCCTGGCCTTGGTGGAAGCCGATTGTGGTCGCGATGTCGCGCTGCAGGTGGCCCGGGAACTGGTGGTGTTTCTCAAGCGCCCCGGTGGGCAGGCGCAGTTCAGCCAGTTGCTGCTGGCACAGACCCAGGACAGCGCCGGATTCGATGAACTGCACGCCTGGCTCGCCGAGCACCTGGATGAGGCCGACCTGAGCATCGAGCGCCTGGCCCGGCAAGCGCGCATGAGCCCGCGCAACTTCGCCCGGGTCTACAAGCGCCAGACCGGACGCACCCCGGCCAAGGCCGTCGAGATGTTCCGGCTCGAAGCGGCCAGACGACTGCTGGAGGACTCCGAGCGCAACATCGATCAGATTGCCCGTTCGTGCGGCTTCGGCGACGAAGAACGGATGCGTTACACCTTCCAACGCCACCTCTCGATTTCACCACGGGACTATCGCAACCGGTTCTCCCGCTGA	MNEMTCDIRIAAESVSRPRALVFLAYPQMGLLDLTGAQTVFWAATKAMTERGLPGYRMHTASLEGGLMQTAEGLVVQTCALGEFDNAVIDTLIVPGAPNIRQAMIDCVELVDWLRAASTKARRTASVCSGTFLMAQAGLLDGRRAATHWAMCEMLKSGFPLIEVDLDAIFIQQDSVWTSAGVSAGIDMALALVEADCGRDVALQVARELVVFLKRPGGQAQFSQLLLAQTQDSAGFDELHAWLAEHLDEADLSIERLARQARMSPRNFARVYKRQTGRTPAKAVEMFRLEAARRLLEDSERNIDQIARSCGFGDEERMRYTFQRHLSISPRDYRNRFSR				NA	NA	NA	NA	NA
D1-35_03915	1002			hypothetical protein	ATGACGTTCAAGCGTCCCGTACTTTTTCTTTCCCTGGCGGCGAGCCTGCTGGTCGGGCCGCAGGCGCATGCCGAAGGCAAGATCAGCATCGCCCAGCAATTCGGCATCGGTTATCTGATCCTGGACGTCGTGCGTGACCAGCAGCTCATCGAGAAACATGGCAAGGCCCAGGGCCTGGACATCAAGGTGGATTGGAACAGCATCTCCGGCGCCACCGCCATGAACGAAGCGTTGCTGACCGGCGCCCTCGACGTGGTGTCGGCCGGGGTGCCGCCGATGCTGACGATCTGGGATCGGACCCGGGGCAAGCAGAACGTCAAGGCCATCGCCTCGCTGGGCTCGATGCCCAACTACCTGTTGACCAACAACCCCGGGATCAAGACGCTCAAGGACTTCACCGACAAGGATCGGATCGCGGTTCCGGCGGCGGGTGTCGGCTTCCAGTCGCGCACATTGCAGATCGAGACGGCCAAGGTGTTCGGCGATGAGCACTACAAGAAATTCGACGACATCTCGGTCAGCCTCCCGCACCCGGACGCCACGGCCGCGTTGATCGCGGGCAAGTCGGAAATCAATTCGCACTTTTCCAGCCCGCCGTTCCAGTACCAGGCGTTGCAGAACCCCAACGTGCACAAAGTCCTCAGCTCCTATGAGGTGCTCGGCGGGCCGGCCACGTTCAACGTGCTCTACACCACGGAGAAATTCCACGACGAAAACCCGAAGACCTACAAGGCGTTCTACGCCGCGCTGGTCGAAGCCCAGAACATCATCAAGGCCGACAAACCTGCCGCCGCCCAGACGTATATCCGGGTAGAGCAATCCAAGCTGCCATTGGCCCTGGTGGAGAAGATCGTCAGCGACCCGGAAATCGATTTCACCGTGGTCCCGCAACGCACCTATATCTACGCCGACAAACTGCATGAGCTGGGTGTATTGAAGAACAAGGCCGACAGCTGGAAGGACTACTTCTTTGAAGAAGCCCACGGCGGCGCAGGCAGCTGA	MTFKRPVLFLSLAASLLVGPQAHAEGKISIAQQFGIGYLILDVVRDQQLIEKHGKAQGLDIKVDWNSISGATAMNEALLTGALDVVSAGVPPMLTIWDRTRGKQNVKAIASLGSMPNYLLTNNPGIKTLKDFTDKDRIAVPAAGVGFQSRTLQIETAKVFGDEHYKKFDDISVSLPHPDATAALIAGKSEINSHFSSPPFQYQALQNPNVHKVLSSYEVLGGPATFNVLYTTEKFHDENPKTYKAFYAALVEAQNIIKADKPAAAQTYIRVEQSKLPLALVEKIVSDPEIDFTVVPQRTYIYADKLHELGVLKNKADSWKDYFFEEAHGGAGS	PGPT0001135_4702	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
D1-35_03916	972			hypothetical protein	ATGAACGACGACATGGCGGACGGGTTGCCGACGCGGCCGATCAATCGGTTCCGCACCGGCGACATCGACGAGCACGCGCGGAACATGGGCGGCTGGCAGGTGAGCTACGACCAACTGACGCCAGGACGCTTCGAAGGCGAGTTGATCGAGTTCCGTGCAGATTGGATGCAACTGGTGCGCGACCGCTCTAATCAGGCCATGACCAAGCGCGGCATGGCATGGGAGGGCGCGATTACCTTCAGCGTACCGTTGCGCGCTGACGGGCCGGTGTTCTGCTGCGGGCACCCGATTGTCGAGCCGAGCCTGATGGTCGCCCACGGCCGCAACCTGCCGGACCTGCGCACACCCCAGCACTTGGACCTGCTCGGCGTCGCCGTCAAGGAGCAAGCCCTGGAGCACCTGCTGGAGCGCCAGGGCAGCGACTTTCGAATTACCGATCTTCCCAAGTGTTACCGTCTCGGCGATTCGACCTTGCCCGCTGAGCTGGCGGCGCTCTTCGACGAACTCGAAGGGGGCGGCCAGGGGCATGAGTCATTGTTGGGCTTCGAGTCGATCCGCCGTGGCCTGCGCGATACGGTGATGCTGCACCTGCTGGAGCTGGTGGCGCCCGACCAGGCGCCGCCGCTGACCCCGACGGCCCGCAAGCGCATGGTCGACCGGGCCCGGGAATATGCCCTGGCCCATGTCGACGAGCCGCTGTCGATCCTCGACCTGTGCAACCACATTGGCGCCAGCCGGCGTAAATTGCAGTACTGCTTCCAGGAAACCCTGGGCATCAACCCGGTGGCCTATTTAAGGGCGCTGCGCCTCAATGCCGTGCGCCGGGAGCTGCGCGCTGGCGACCAGGCCAGGGGCGTGCAGGAGGTGGCGGCACGCTGGGGCTTCTGGCACCTGAGCCGTTTCTCCAGCGACTATCGGACCCTGTTCGGCGAAACCCCTTCACAAACCCTGCGGCGCACGCATCTGTGCTGA	MNDDMADGLPTRPINRFRTGDIDEHARNMGGWQVSYDQLTPGRFEGELIEFRADWMQLVRDRSNQAMTKRGMAWEGAITFSVPLRADGPVFCCGHPIVEPSLMVAHGRNLPDLRTPQHLDLLGVAVKEQALEHLLERQGSDFRITDLPKCYRLGDSTLPAELAALFDELEGGGQGHESLLGFESIRRGLRDTVMLHLLELVAPDQAPPLTPTARKRMVDRAREYALAHVDEPLSILDLCNHIGASRRKLQYCFQETLGINPVAYLRALRLNAVRRELRAGDQARGVQEVAARWGFWHLSRFSSDYRTLFGETPSQTLRRTHLC	PGPT0000623_270	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ETHANOLAMINE_USAGE	N-AQUISITION-ETHANOLAMINE_DEGRADATION,PGPT0000623-eutR|yfeG-K04033	NA	NA
D1-35_03917	933			hypothetical protein	ATGAATCAGAATAAAAAGAAAAACCTGCGGCATTTTACGTGGCTCACCCTGGGGCTTTTCGGCGCCTGCGCCGTGGCCAACGCTACCGAGAACGGTGCGCCGACCACTGCGTTCGGCGTCTACGACTTCGGTGCCGGCATGATGCCGCCGGCCACGCCCTTCGGGACGGTCGGGCTGCGTACTGCGTTCTATTCGGCCAATGTGCAGAAAGACCGTCATGGTCGCTCGGTGGACAACAACCTGTCCCTCGATGTGCTGTCGATCGGCGTCGCCTACATGCACATGACCGATTACACCGTGCTCGGCGCCAAGTACGGCTATGGCGCGGTAGTGCCGTTCTTCCAGATGGACGCCTCGGTAAGGGTGCAGACGCCGGTCGGTCCGCTGAACCTCGAAGCCGATCCGTTTCGCATGGCCGACATCCAGGTATTGCCCGTCATCCTGCAATGGACGTTGTCGCCAAACCTGTTCGTCAACGCGCAATTCCAGATCCAGACCCCGACGGGCGATTACGACGAGGACCGGCTGATCTCGCCGGGCCTGAACCACTGGACGTTCTCGCCGATCCTCAACGCGACCTATATCTCAGACACCGGCTTCGAGGTGTCCTCCAGCTTCGAAGTCGATGTGAACACTCGCAACCCTGCCACCGACTACAAAAGCGGCGTCGAGTATCGCCATGAATTCGCCGTCGGCCAGCATGTCGGCCCCTGGACGCTGGGTGTGGGCGGCTACTACTACCGCCAGTTCACCGACGACGATGCTCCGGGGCTGGAGTCGGGCAATCGCGCCCGGGTGCTCGCGGTCGGGCCGGCGGTGAGTTATTTCAAGCCCGGCGTGCCGCCGATCTGGCTGCACGTCTACAAGGAATTCGACGCGCGAAACCGCGCCGAGGGCTACACCACGGCCCTGCGCATTTCTCACAGTTTCTAG	MNQNKKKNLRHFTWLTLGLFGACAVANATENGAPTTAFGVYDFGAGMMPPATPFGTVGLRTAFYSANVQKDRHGRSVDNNLSLDVLSIGVAYMHMTDYTVLGAKYGYGAVVPFFQMDASVRVQTPVGPLNLEADPFRMADIQVLPVILQWTLSPNLFVNAQFQIQTPTGDYDEDRLISPGLNHWTFSPILNATYISDTGFEVSSSFEVDVNTRNPATDYKSGVEYRHEFAVGQHVGPWTLGVGGYYYRQFTDDDAPGLESGNRARVLAVGPAVSYFKPGVPPIWLHVYKEFDARNRAEGYTTALRISHSF				NA	NA	NA	NA	NA
D1-35_03918	1251			hypothetical protein	ATGAACTCATCAAACTCCATTTCAACGGCGTCGCCGCGTCAGGCAGTTGGCCGGCGTGAAGGGTTGGTGCTGATGCTCGGCAGCAGCCTGACCATCATGGGCTCGGTAATGGTCACGCCGATTCTTCCCAGGCTGGCCGCCGAGTTCGGCCCCGTCGAGCCTCGCGCCGATTTGTTGGTGCCGCTGGCAATCACCGGGCCCGCGTTGGCGATTGCCCTCTGCGCGCCGTTGGCCGGCTGGTTGGCCGACCGGGTCGGGCGCAAGGCCTTGCTGGTGATCGCCACCTTGCTCTATGCGGTGCTCGGCGCGTTGCCGGCGCTGCTCGACAACTTGCCGGCGATTGTCGGCGCGCGCTTGCTGTTTGGCTGCGCGGAGGCGGCGGTGATGACCTGCTGCGCGACTTTGATTGCCGACTATTGGCACGGCGAGGAACGCTTGCGCTACGTCAACCGCCAAGTGGTGACGATAGGCCTGGTGGGGGCGCTGTTTTTTGTCGTCGGGGGTGCGCTTGGAGAGCACTCGTGGCGCTCGCCGTTCCTTCTTTACCTGCTGCCGTTGTTGTTGGTGCCCGCCATGATGAAAGTCTTGTGGGAACCGCCGGTGAGCAAGCTGCAAACGGCCGAGCGCCTCGATGAGTCGGCACCGACCAAGGTCGCGGTGCCGCAACTGCTGGTTGGCTATCTGATGATTGTGTGCGGCATGGTCCTGACCATTGTCATGCCGATCCAGGCGCCGACGTTGCTGGTCAGCCTTGGCGTGACCTCCAGCACCCTGATCGGCCTGGCGGCGGGGTTGAGCCTGTTGGCAACGCTCGTCGGCTCGTTGACCTGGCCGTTGCTGCGCCGCCGCTTCGGCATCGCCGGTTGCAACGCCCTGTTGCTCACGTTGATGGGGCTTGGGCTGTGCCTGCTGGTTCGAGCGCAAAGCTACAACGCGGTGCTGCTGGCCGTATTCGTCCAGGGGCTGGGTGCCGGGCTGCTGGTGCCGAACGTAATGGCGCCGGTGATGAACGCCTTGACCGCCAGCACCCGCGGGCGGGGCCTGGGCGGCTTCACCTCGTTTCTCTATTTCGGCCAGTTCATCAGCCCGTTGGTGGTGGCTGCCGTGGGTGTATTTACCGGGGACCTTCGTCAATCGATCCAATGGCTGGCCTTCGCCAGCCTTGCGGCGGCGCTGCTATGGGTGGCCGTCGGTTTGCGCACGCGTGGCCACGGCCGGGCGAACGTCGCCGGATCACGTCAATCGTCATGA	MNSSNSISTASPRQAVGRREGLVLMLGSSLTIMGSVMVTPILPRLAAEFGPVEPRADLLVPLAITGPALAIALCAPLAGWLADRVGRKALLVIATLLYAVLGALPALLDNLPAIVGARLLFGCAEAAVMTCCATLIADYWHGEERLRYVNRQVVTIGLVGALFFVVGGALGEHSWRSPFLLYLLPLLLVPAMMKVLWEPPVSKLQTAERLDESAPTKVAVPQLLVGYLMIVCGMVLTIVMPIQAPTLLVSLGVTSSTLIGLAAGLSLLATLVGSLTWPLLRRRFGIAGCNALLLTLMGLGLCLLVRAQSYNAVLLAVFVQGLGAGLLVPNVMAPVMNALTASTRGRGLGGFTSFLYFGQFISPLVVAAVGVFTGDLRQSIQWLAFASLAAALLWVAVGLRTRGHGRANVAGSRQSS				NA	NA	NA	NA	NA
D1-35_03919	1458	nylA		6-aminohexanoate-cyclic-dimer hydrolase	ATGAGTCTGCAAGACATACATCAATTGATGGACACCCAAGACGCCGTTGCACTGGCCGAGTGGGTCAGGCGTGGCGAGGTCCAGCCCGGGGAACTGCTGGAGGCGGGCATCGAACGTCTGGAACAGGTCGAGCCACAGCTCAATGCCGTGGCGGAACGGCTGTACGAGTCGGCGCGGGAGGCGGTGTGTGGACCGCAAGTCCGGCAGGGACTGTTGGCGGGCGTTCCAACCTTGATCAAGGATTTGTTTTCGCCGGTCCAGGGGGCAGCGATGACCAACGGCTCCCGTTCGCTGGGGGCCTGCCGCGCAGACTTCGAATCGGAAGTGGTGACACGCCTGAGGCAGGCTGGATGCGTGATGATGGGCACCAGCACTTCGCCTGAGTTTGGCACGTCCTATTCCACCGAATCGACACGTTTTGGCGCCACGCGAAACCCTTGGAACACCGAGCGCAGCGCGGGCGGCTCCAGCGGTGGCGCGGCGGCGCTGGTGGCGGCCCGGGTGGTGCCGTTCGCCCATGGCAACGATGGCGGCGGTTCGTTGCGGGTGCCGGCGTCCTGCTGTGGGGTGTTCGGCTTCAAGCCCAGCCGCGGCCTGATGCCGTCAGGTCCGATAATGGGCGAGGGCTGGGCAGGAATGGGCACGCCCCACGTTATCACCTTGTCGGTGCGTGACAGCGCCGCGCTGCTGGACGCCACCGCCGGAATCGACTTGGGAGCGCCGTATGCCGCGCCGGTCCAGGTCCAGCCTTATGTGACGGCGCTGCTGCGTGATCCGAAGCCGTTGCGTATTGCCTTGGTCGAACAGCTCGGCCCCTGGGCCACCTCCCAGCAAAGCGTGCAGGCGGTGAACGAGGCCGCGAGGTTGTGTGAAGCCTTGGGCCACCGCGTCGAACCGGTGAAACTGCCGGTGGTGCTGCCTGATTTTTATGATCAGGTTTTCACCATCATTGGCGCAAGCACGCGCCGTTACGTCGACCTGCTGGGCCAGATGCGTGGGTCTGCGGTGCAGGCGGAGGAACTGGAAGTGCGCACCCGGATCATCCTGCGGGACAAAGGCAACGTCAGCGGCGCCCAGTACGTCGGCGCGGTGGAATGGATTCATGCGCTGGGCCGCCAGTTGGCGGTGTTCATGCAGGATTACGACGTGATCCTTTCTCCGGTCCTGACCCGCGAACCGGTGATGATTGGCGAGCTCAACGTTGACGACGTCTGCATGAGCCTTGAAGCGCTCATCGAGCGATTCCACAGCTACTCGCCGTTCACGGCGCTGTTCAATGCCAGCGGCCAGCCGGCGATGTCGGTACCGTTGTCCTGGAGCGCAAACGGCCTGCCGCTGGGCGCGCATTTTGCCGGGCGGTTCGGCGAAGAAAGCACCTTGCTGGCCCTGGCCGCCCAACTGGAACGCGCCCAGCCGTGGCGCGGGCGTGTACCGCCGGTCAATGCTCACCGCAGATGA	MSLQDIHQLMDTQDAVALAEWVRRGEVQPGELLEAGIERLEQVEPQLNAVAERLYESAREAVCGPQVRQGLLAGVPTLIKDLFSPVQGAAMTNGSRSLGACRADFESEVVTRLRQAGCVMMGTSTSPEFGTSYSTESTRFGATRNPWNTERSAGGSSGGAAALVAARVVPFAHGNDGGGSLRVPASCCGVFGFKPSRGLMPSGPIMGEGWAGMGTPHVITLSVRDSAALLDATAGIDLGAPYAAPVQVQPYVTALLRDPKPLRIALVEQLGPWATSQQSVQAVNEAARLCEALGHRVEPVKLPVVLPDFYDQVFTIIGASTRRYVDLLGQMRGSAVQAEELEVRTRIILRDKGNVSGAQYVGAVEWIHALGRQLAVFMQDYDVILSPVLTREPVMIGELNVDDVCMSLEALIERFHSYSPFTALFNASGQPAMSVPLSWSANGLPLGAHFAGRFGEESTLLALAAQLERAQPWRGRVPPVNAHRR	PGPT0006115_3837	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
D1-35_03920	1488	feaB	COG1012	Phenylacetaldehyde dehydrogenase	ATGAGCGATATTGCCCTGCTGCCCGAGGTCCAAGCCTTCCTTGGCCGACACCACGCGCTGTTCATCGACGGTGCTTATGTCGAAAGCCAGAGCCGACAGACCCTGGACGTGATCAACCCAGCCACGGGCCAGGTCATCGCCCAGGTCTGCGACGCCGGTCCTGGCGATATCGATGCGGCGGTCGAGTCGTCCCGGCGCGGTTTCAAGCAATGGTCCCAGGCCGCCCCGGCGGTTCGCGGGCATGTATTGCTGAAACTGGCGGACCTGATGGAGCAACACCGCGAGGAGCTGGCACAGATCGAAACCTGCCAATCCGGCAAGATCATCCATATCTCCCGCGCCTTCGAAGTCGACCAGGCTGCGCACTTCTTGCGTTACTACGCCGGCTGGGCGACCAAGATCAGCGGCCAGACCATCACCCCGTCGCTGCCCTCCTTCGCCGGCGAACGCTACACGGCGTTCACCCTGCGCGAACCGGTGGGCGTGGTGGTCGGCATCGTGCCGTGGAATTTTTCGACGATGATCGCCATCTGGAAACTCGCCTCGGCGTTGGTGACCGGTTGCAGCATTATCATCAAGCCCAGCGAGTTCACTCCGCTGAGTATCCTGCGCATCGCTGAACTGGCCATGGAAGCGGGCCTGCCGGCAGGCGCGTTGAACGTGGTGACGGGTAGCGGTCTGGTGGGCAAGGGCTTGATCGAGCATCCAGGCACCAACAAGGTATCGTTCACCGGCTCGGTGCCTACCGGCATCGCCGTGGGCCAGGCGGCGATGGGCGCCGGACTGACCCGGGCGACACTGGAACTGGGTGGCAAGAACGCTGCGGGATTCCTGCCAGATGTGGATCCCGAGGTGGCGGTCAATGGCATCATCGAGGCAGGTTTCCTGCACTCCGGGCAGATTTGCGCGGCGGCAGAGCGGTTCTTTGTCCACCGCTCGCAGATCGAACCGATCATGCGCAAGCTCGCCGAACGCCTGAGTCAGCTCAGCATCGGCTCACCGCTGGATGAAGCCACGCAATTCGGTCCGGTGACCAACCGTCAGCATCAGCAGAAACTCGGCGAGTATTTCGCCAGGGCGCGGGCACAGAACAACACGATTGTTCACGGCGGCAAGCTGATCGACAGGCCTGGCTGCTATGTCGAGCCGACCATCATCCTCGCCAACCATCGAGATGATGCGCTGCTCAATGAAGAAACCTTCGGCCCGATCGCCACCTTCCTGCCCTACGACACCGAGGAGGAACTGCTCGACCTGATGAACGACTCGCCCTACGGGCTGAGCGCCAGCCTTTGGACCAACGACCTGGGCAAGGCCCTGCGCATGGTGCCCGCCATTGAAGCCGGCACCGTCTGGGTGAACATGCACACCCTGCTCGACCCCGCCGTGCCATTCGGCGGGAGCAAGTCTTCGGGTATCGGCAGGGAGTTCGGCAGCGCGTTCATCGATGACTACACCGAGCTGAAGTCGGTGATGATTCGGTATTGA	MSDIALLPEVQAFLGRHHALFIDGAYVESQSRQTLDVINPATGQVIAQVCDAGPGDIDAAVESSRRGFKQWSQAAPAVRGHVLLKLADLMEQHREELAQIETCQSGKIIHISRAFEVDQAAHFLRYYAGWATKISGQTITPSLPSFAGERYTAFTLREPVGVVVGIVPWNFSTMIAIWKLASALVTGCSIIIKPSEFTPLSILRIAELAMEAGLPAGALNVVTGSGLVGKGLIEHPGTNKVSFTGSVPTGIAVGQAAMGAGLTRATLELGGKNAAGFLPDVDPEVAVNGIIEAGFLHSGQICAAAERFFVHRSQIEPIMRKLAERLSQLSIGSPLDEATQFGPVTNRQHQQKLGEYFARARAQNNTIVHGGKLIDRPGCYVEPTIILANHRDDALLNEETFGPIATFLPYDTEEELLDLMNDSPYGLSASLWTNDLGKALRMVPAIEAGTVWVNMHTLLDPAVPFGGSKSSGIGREFGSAFIDDYTELKSVMIRY	PGPT0006035_657	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_LIGNIN_DEGRADATION|LIGNINASES	PLANT_LIGNIN_DEGRADATION-DEHYDROGENASE_ACTIVITY,PGPT0006035-feaB-K00146	NA	NA
D1-35_03921	972			hypothetical protein	ATGTTTCTCCAGACCGGCAAGCAGAAATTGGCGTTGATCGAGCAGGTGCGGCGGGTACTGGCTGGCGAAGCCGATGACGCGCCTGCGCTCGTGGCCTATCCGCAACTGCGGGCCAGTCTTGAACAACACGCCCGGCAAACAGCGGATGCGGCTGAACGTTTACGCCAGGCCGAGGGCCAAGTGAACGAGCAGGCATCAAGACACCGGCAAATCGACCAGGCGTATGCGTTGGCTCGCCAACAACTGGCTCAGGCAGGAGAGCGTGAGCAAGGGCTTCAGGCACGGCTTGAGCAGCTTGAGCGTCAATCCCGACAGCACTTTCAGGAGGCGCAGATCTGGGAGCTGCTGCAATCGACCCTGACCGAAGGCTGCTGGGACATCACCGTGGTCAACGGCGATTTGCAGCACCCGGCCAGCGGCATGCGCTTTTCCAGTCAGTTCCGCTCATTGCTGGGGTACGGGCCGGACGAGTTGCCGGACGGCTGGGACGCCCAGGTCGGCATCACCCATCCCGATGACCTGCCGAAGATCATGGCGATCTTTGACCGGGAGATTCCTGGCAGCCAAGGCAGTGGCGAATACGTCTTCGAATATCGGATGCGACACAAGAGTCGCGATTATATCTGGTGCCGCGAGCGTGGCCGCGCCGTGCGCGACGCCCAAGGGCGACTGGTCCGGGTGCTGGGCGCGGTGCGGGACATCAGTGATGAGCGTTCGGCCCAGTCTACCCACCAGCGCATGCTGGAGCAGAACCAGGTCACTTACGCGCAGATCGCCACGGTGGTGGGCGTGATCAAGGGCATTGCTGACCAGACCAACCTGCTGGCGTTGAACGCGGCGATTGAAGCGGCCAGGGCGGGCGAGGTCGGGCGCGGCTTTTCGGTGGTGGCCGACGAGGTGCGCAAGCTGGCGGAAAGTACCCGCCAGGCCACGCACCAGATCCAGACCATGTTGCATCAGCACAAGGGCTGA	MFLQTGKQKLALIEQVRRVLAGEADDAPALVAYPQLRASLEQHARQTADAAERLRQAEGQVNEQASRHRQIDQAYALARQQLAQAGEREQGLQARLEQLERQSRQHFQEAQIWELLQSTLTEGCWDITVVNGDLQHPASGMRFSSQFRSLLGYGPDELPDGWDAQVGITHPDDLPKIMAIFDREIPGSQGSGEYVFEYRMRHKSRDYIWCRERGRAVRDAQGRLVRVLGAVRDISDERSAQSTHQRMLEQNQVTYAQIATVVGVIKGIADQTNLLALNAAIEAARAGEVGRGFSVVADEVRKLAESTRQATHQIQTMLHQHKG				NA	NA	NA	NA	NA
D1-35_03922	1368			hypothetical protein	ATGCGCGCTCCGCTGTCCTATCGCACTGGGGAAAACACCATGGAGCACACTCGTCAATCACGCCTGCCACGCCAGGCCATCGGCCTGGGCATCGCCTTGCTGGCGGCAGGCTCATCGGCCCAGGCCATTGAGCTTTATGCCGACGATGACACCACCGTCAGCGGCAACTTCCTCGCGGTCTACGGTCTGTTCAACAGCCGCAAGAACTACGACGGCAGCGCCGGCGGTTCGAGCTGGCGCGAAGGTTTCATCAAGTATGGCCTGAGTATCGAGCAGACACTCGACGGCCGCGGGAACCTCTACGGGACCGCCAACCTACTCAGCTCCGGCACCTGGGGCGATGGCGATGCGGCGGGCCTGAGCGACGGTTCCGAACGCACCACGAAATTCGACGAGGCCTTCGCCGGTTGGCGCTCCGGCGATCTGTTCCCGCTGTTGGGCAAGGATGGCGTCGACCTGTCCTTCGGTCGCCAGGTGATTACCCTTGGCGACGGTTTCATCATCAACGACGACGGCCTTAACGTCGGCAAGGGCGTGGCCGATGGCGAACTCAATCGCGGCGGAGCCTATTACCTCGCCGCCCGGCACGCCTTCGACAAGACCGCGGTGCTGCGCCTGGGCGACAAGGACGGCGTGCATGGGAGCCTGTTGTGGTTCAAGTCCGACAATCGCGCCCAAGCCAACACCGAGATGGCCGCCGGCACCCTGGAATACACCGCAGCACCCGGCACCCTCGGGCTGACCTACATCCATGGCATCGACGTGGATGAGCACTACGCCAGTGACTTGCAGAAACAACGCGACGGCATGGACATCTACAGCCTGCGCGGCGCGGGCGATGCCGGTATCGAAAACGCGCACTTCTCCTTCGAATACGCCTGGCAAGACAAGGACGCCGGCCCTCAGAAAGCCTGGTACACCGAAGCCGGTTATACCTTCGCCGAGCTGCCCTGGAGCCCCGACCTGACCTATCGCTACAGCCGTTATTCGAAAAACTGGGACTCGATGTTCACCGGCACGAGCCGAGGTTATGGCACCTGGTTCCAAGGCGAAGTGGCGGGCAATTACGCCGGCCCGTTCAACAGCAACACAGCCATCCAGCACGTCGGCCTCAAGCTCAAGCCAACCGAGACCGTGACGATCGGCGCATTGTTTTTCGACTACAAGACCTTGCACACCGCTCAAGCGCTGAACCTCGACGGTCGTGAGCTGGACCTGTACGTCGAATGGGCAGCCAATGAGCACCTGATCATCACGCCGCTGCTGGGCCTGTACAAGCCAGAGAAAGACGCCAGCAACGGAGGCAACCAGGTGGGCGGCAACGGCACCAATGTGTACAGCCAGTTGGTGGTGGCGGTTCCGCTCTGA	MRAPLSYRTGENTMEHTRQSRLPRQAIGLGIALLAAGSSAQAIELYADDDTTVSGNFLAVYGLFNSRKNYDGSAGGSSWREGFIKYGLSIEQTLDGRGNLYGTANLLSSGTWGDGDAAGLSDGSERTTKFDEAFAGWRSGDLFPLLGKDGVDLSFGRQVITLGDGFIINDDGLNVGKGVADGELNRGGAYYLAARHAFDKTAVLRLGDKDGVHGSLLWFKSDNRAQANTEMAAGTLEYTAAPGTLGLTYIHGIDVDEHYASDLQKQRDGMDIYSLRGAGDAGIENAHFSFEYAWQDKDAGPQKAWYTEAGYTFAELPWSPDLTYRYSRYSKNWDSMFTGTSRGYGTWFQGEVAGNYAGPFNSNTAIQHVGLKLKPTETVTIGALFFDYKTLHTAQALNLDGRELDLYVEWAANEHLIITPLLGLYKPEKDASNGGNQVGGNGTNVYSQLVVAVPL				NA	NA	NA	NA	NA
D1-35_03923	1500	yhdG_3	COG0531	putative amino acid permease YhdG	ATGTCGATCAATGACAGGCTCACCGAGCATCTGAACCGGGGTACGGTGGGTTTTCCCACTGCGTTGGCCAGCACCATTGGCCTGATCATGGCCAGCCCGGTCATCCTGACCGCCACCATGGGGTTCGGCATCGGTGGCAGCGCCTTCGCCATGGCGATGCTGATCGCGGTGGTGATGATGCTGGCCCAGGCAACGACGTTCGCCGAAGCCGCATCGATCTTGCCGACCACCGGCTCGGTCTACGATTACATCAACTGCGGCATGGGGCGCTTCTTCGCGATTACCGGCACTTTGTCGGCGTACCTGATTGTCCATGTGTTTGCCGGAACGGCGGAAACCATCCTGGCCGGGGTCATGGCCCTGGTGAACTTCGAACACCTCAATACCCTGGTCGAATCGGCCGGTGGTTCCTGGCTGCTGGGCGTGGGTTTCGTGGTGGTGTTTGGTGTACTCAACGCATTCGGCGTCAGTGCTTTCGGCCGGGCCGAAATCATCCTGACCTTCGGCATGTGGACGACCCTGATGGTGTTCGGCGTGTTGGGGCTGATCGCCGCGCCGGCGGTAGAACTCGAGGGCTGGTTCGGCGCGTCCGTGGTCGGGACCGACCTGGTCACGGTGCTGTCGCTGGTGGGCATGGCAATGTTCATGTTCGTCGGATGCGAATTTGTCACGCCACTGGCGCCGGACCTGCGCCAGTCAGCCAGGACCATGCCGAGGGCAATGATGCTGGGCCTGTTCAGCGTCGCGGCCTGCATGTTCATCTATGGCGCGGCGATGAAGCGCCAGGTGGAAAACGTGCTGCTCGATGCCACCAGCGGCGTGCACCTGCTGGACACGCCCATGGCGATTCCGCGCTTCGCCGAGCAGGTCATGGGCGACATCGGGCCGATGTGGCTGGGGATCGGCTTCCTGTTTGCCGGCGCCGCGACCATCAATACGCTGATGGCCGGGGTGCCGCGTATTCTCTACGGTATGGCGGTGGATGGCGCGCTGCCCAAGGTCTTCACCTACCTGCATCCCCGTTTCAAGACGCCGCTGCTGTGCATCCTGGTGGCAATGCTGATCCCTTGCCTGCATGCGCTGTGGCTCGGCGGTAACACCGATAACATCATGCATCTGGTACTGGCGGCGGTGTGCGCCTGGAGTTTTGCCTATCTGCTGGTGACGATTTCGGTGATCAGCCTGCGCGTCCGCCGTCCCGATCTGCCCCGGGCCTACCGCTCGCCGTTTTTCCCGCTGCCACAGATCCTGTCCAGCGTCGGCATCGTCCTGGGCATGTGGTTCATCACGCCGCCGGGCATGAATCCGGCGGACATTTATGTGCCTTTCGCCGTGATGCTTGGCGGTACCGCGGCCTACGCCCTGTTCTGGACCCTGGTGGTGCAGAAGGTCAATCCATTCAAGCCGGCGACCGTCGAAGACGTGCTGGCCAAGGAGTTTTCCCATGAGCCAGGGCAACCTGTCGGCGGGTTTATCGAGCCTGCTGCAAAAGCTGTCTGA	MSINDRLTEHLNRGTVGFPTALASTIGLIMASPVILTATMGFGIGGSAFAMAMLIAVVMMLAQATTFAEAASILPTTGSVYDYINCGMGRFFAITGTLSAYLIVHVFAGTAETILAGVMALVNFEHLNTLVESAGGSWLLGVGFVVVFGVLNAFGVSAFGRAEIILTFGMWTTLMVFGVLGLIAAPAVELEGWFGASVVGTDLVTVLSLVGMAMFMFVGCEFVTPLAPDLRQSARTMPRAMMLGLFSVAACMFIYGAAMKRQVENVLLDATSGVHLLDTPMAIPRFAEQVMGDIGPMWLGIGFLFAGAATINTLMAGVPRILYGMAVDGALPKVFTYLHPRFKTPLLCILVAMLIPCLHALWLGGNTDNIMHLVLAAVCAWSFAYLLVTISVISLRVRRPDLPRAYRSPFFPLPQILSSVGIVLGMWFITPPGMNPADIYVPFAVMLGGTAAYALFWTLVVQKVNPFKPATVEDVLAKEFSHEPGQPVGGFIEPAAKAV				NA	NA	NA	NA	NA
D1-35_03924	621			hypothetical protein	ATGAGCCAGGGCAACCTGTCGGCGGGTTTATCGAGCCTGCTGCAAAAGCTGTCTGAGCTGTTCAGCGCCCGTCGCGCCCCGGCCGGTTATCGACCCGGGGTAACGCTGGAGCATTTGCGACGCAACCTCGCACTGGCGCGGTTTGCGGTGTCGATGCCGGGGGCGGCGACGATGGTCACCGACGATGGCGGCCTGCAACTGGAGATCGTCGAACGCACCGAGTCGCAGTTGCTGATGCATGTGGTAACGACCGAGTTCGTGTTGCACGTGCCTGCGTCGAGAGAGGGCAGCGCGCGCCTGCAATTGCACCATGGCGGAGCCATTCGGCGCAGCGGCATTCGTTGCCGCCAGTTGAAAGGAGATGCCGCGTTGTCGGTTCGGCTGCGGACGGCCATCGAAGGTGATCGTGCGCTTTACGCCGCCCTGATGCCGCTGGACTTCAAGCGCCTGGACATCGAGCTGCAAGGCCGGCAATGGTCTGTGCGACTGGAGCATGTGGGCGGCAGCGAAGTGGTCAACCGGATGCCCTCGTTCCGCCGCTACATCGCGCTGAGCCCGTTGCAGCGCGATGCCTTGTTCGCAACGCTGGATGGGCTGCGGAGGGTACTTTCGACGTTCTGA	MSQGNLSAGLSSLLQKLSELFSARRAPAGYRPGVTLEHLRRNLALARFAVSMPGAATMVTDDGGLQLEIVERTESQLLMHVVTTEFVLHVPASREGSARLQLHHGGAIRRSGIRCRQLKGDAALSVRLRTAIEGDRALYAALMPLDFKRLDIELQGRQWSVRLEHVGGSEVVNRMPSFRRYIALSPLQRDALFATLDGLRRVLSTF				NA	NA	NA	NA	NA
D1-35_03925	963	feaR_1	COG2207	Transcriptional activator FeaR	ATGAGCATGCAACAGGCTGGGCAAGGCGGGCTGGACACCTGGAATCGGGACCTGCGCGCGACATGCGGCCATTTCGAGACGGAGCTGGCCTTCAATCGCGCGTTGTTCATTGGCGAAGTGTCGACCTTTCAGCGCGGCGGCCTCTCACTCGCCAACCTGCGCACCAATGCCGGTTCCATCAGGCGCCAGCTATGCAAACCGGATCACGATGATGACCAGGACTGTTTCCTGGTCAGCCAGCGCAGCGGTTATTCGCGTATCACCCAAAATGGCACGAGCATCCAGCTGGCTCCCGGCGAGCTGTTGCTGATGGATTCGGTGGGTTCCCTTGAAATCAGCCCGTTCGGCCTGATCGAGCATGCCGTGTTGTCGTTATCTCGGCGGGACGTCGCCAGGCGACTGGGCGGCGACAGCAAGACCTTCGGCAAGATTTCTTCAAGCAAGGCTTGCGGAAGAATGCTGCATGTATTGGTGGACCAGCTCTGCAAGGACACCCCGGAGGGCGAAAGCAGCGCCGGGGAGGGCGAAGCCCTGCAGAACGCCTTTGTCTCGCTGTTGGGATCGGCGCTGGAGCATGAAACCGACCTGTGCGGCGACAGCGTCGGATTGCAAGGCAGTCATCTGCGCAGCTACGTACAGAAAGTCATTGATGAATGCCTGACCCAACCCGGTCTCAGCCCGGTCGGCCTGGCCAACCGCTTGAACATCTCGGTGCGACACCTGTACCGCTTGTTCGAAGAGCAGGATGACAGCGTGTGCCGCTACATCCAGCGCGCCCGCCTCAAGCGCAGCGCCGATGACTTGGCCAATCCTTTCTTGCGGGATGAGTCGATCACCTCGATTGCCTACAAATGGGGCTTCACCGATTCGGCGCACTTCAGCCGTTCGTTCAAGAAACAATTCGAACAGTCGCCCAAGGCGTTCCGCTCCAGCCAGTTGCAGCAGGCGCAAGGGGTGGCTTGA	MSMQQAGQGGLDTWNRDLRATCGHFETELAFNRALFIGEVSTFQRGGLSLANLRTNAGSIRRQLCKPDHDDDQDCFLVSQRSGYSRITQNGTSIQLAPGELLLMDSVGSLEISPFGLIEHAVLSLSRRDVARRLGGDSKTFGKISSSKACGRMLHVLVDQLCKDTPEGESSAGEGEALQNAFVSLLGSALEHETDLCGDSVGLQGSHLRSYVQKVIDECLTQPGLSPVGLANRLNISVRHLYRLFEEQDDSVCRYIQRARLKRSADDLANPFLRDESITSIAYKWGFTDSAHFSRSFKKQFEQSPKAFRSSQLQQAQGVA				NA	NA	NA	NA	NA
D1-35_03926	768	bacC_2		Dihydroanticapsin 7-dehydrogenase	ATGCCTGATGATCTGGATTTCTCCGGCAAGACGGTGCTGGTGACCGGCGGCGCGCAAGGCATCGGCCGGGCCATCGTCGAAGGGTTTGCCTGGCGTGGGGCGCGAGTGGTCATTGCCGACCTGGACCTGGCGGGGGCCGAGGCTGTATCCAGCGACCTGCGCGCCAGCGCTTACCCGGTGGATGCCATGGGCGTCGACCTGGCCGACGCCACGGCCATTACGCAGATGATCGCCAAGCTGGAACAACGCACCGGCAGGCTGGATGTGCTGGTGCACAACGCCGGCTATTTCCCTCTGACGCCCTTCGCCGAAATCACGCCAGCGGTGCTGGAGCGAACGCTGGCGGTGAATTTGTCAGCGTTGTTCTGGCTGACCCAGGCCGCGCTGCCGATGTTCCGTCGCCAGGGTCAGGGCTGCGTGCTGGTGACCTCTTCGGTGACCGGCCCGCGCGTAGCCTACCCGGGCCTCAGCCACTATGCGGCGTCCAAGGCCGGGGTCAACGGCTTCATCCGCAATGCGGCGCTGGAGCTGGCGGCGGAAAATATCCGCGTCAATGGTGTCGAGCCGGGGATGATCGCAACACCAGCCATGGCCAACCTGGGGGACGCCCAAGTCAACCACGACATCGCCCGCCGAGTACCGCTGGGGCGACTCGGCAAACCGTCGGACATCGCCGGAGCCATGCTGTTCCTGGCCTCGGACCTGGCCGCCTACATCACCGGCCAGACCCTGATCGTCGATGGCGGCTCAACCTTGCCGGAGGTTTGA	MPDDLDFSGKTVLVTGGAQGIGRAIVEGFAWRGARVVIADLDLAGAEAVSSDLRASAYPVDAMGVDLADATAITQMIAKLEQRTGRLDVLVHNAGYFPLTPFAEITPAVLERTLAVNLSALFWLTQAALPMFRRQGQGCVLVTSSVTGPRVAYPGLSHYAASKAGVNGFIRNAALELAAENIRVNGVEPGMIATPAMANLGDAQVNHDIARRVPLGRLGKPSDIAGAMLFLASDLAAYITGQTLIVDGGSTLPEV	PGPT0003180_7502	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
D1-35_03927	801	ucpA_2		Oxidoreductase UcpA	ATGCCTGAGCCAAGCACTGTGGTGATCACGGGTGCCGGCACCGGCATCGGTGCCGCTTGCGCCCGCCTGTACGCCGCCGAGGGCGCCAACCTGGTGCTGATCGGCCGGCGCCGCGAGCCGCTGGGGCAACTGTCAGAGGAAATCGGCGGCCTGGTGCTGGTGGGCGACGCGGCGTGCCCGGCGACGTGGGACGGCTTCGTCGCACAGATACGCCAACGCCTCGGCCGACTTGACGTGCTGCTGGCTTGCGCCGGCGGGCTGGGCCAGGGCAGCGCCACCGGCACCAGCCCGTCGGCGTGGGAAGCGGCGCTACGCAGCAACCTGGACAGCGCCTTTTACAGCGCTCGTGCCTGCCTGCCGCTGCTGATGGAGAGCGCCGGCAATATCGTGTTGGTCGCCTCCATCGCCTCCCTGGCAGCCGGACCGCAGGTCTGCGGCTACACCACCGCCAAACACGCGCTGCTCGGCCTCAATCGCTCGCTGGCGCGGGACTACGGACCACGCGGTGTGCGCGTCAACGCGGTTTGCCCTGGTTGGGTACGCACGCCGATGGCCGATGAAGAGATGCAGGCCTTGATGCAGTTCCACGGTGAGAATCTGCAACAGGCCTATGCCCGGGTCTGCGCCGATGTGCCATTGGGCAGGGCCGCGAGCGCCGAGGAAATCGCCCGGGTTTGTCGTTTCCTGGCCTCGCCGGATGCTTCGATCATCACCGGCGCGACGCTGGTGGCCGATGGCGGATCCAGCATCGTCGATGTGCCGACGCTGGCCTTCAGCCGAATGGAGCACGCAAATGCCTGA	MPEPSTVVITGAGTGIGAACARLYAAEGANLVLIGRRREPLGQLSEEIGGLVLVGDAACPATWDGFVAQIRQRLGRLDVLLACAGGLGQGSATGTSPSAWEAALRSNLDSAFYSARACLPLLMESAGNIVLVASIASLAAGPQVCGYTTAKHALLGLNRSLARDYGPRGVRVNAVCPGWVRTPMADEEMQALMQFHGENLQQAYARVCADVPLGRAASAEEIARVCRFLASPDASIITGATLVADGGSSIVDVPTLAFSRMEHANA	PGPT0008190_155	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
D1-35_03928	822	moaF_1		Protein MoaF	ATGAGTACTTCTTCAGACTGGATCACCGTCGGCGCCCTGGCCGATGGCTTTGCCCCCGAAGCCTTCATCCTGCCGAACCTCGCCGACCTGGACGGCAAGACCTTTACCCTGCACTTCGCCAATGGCTGGCAGATCGAACATCGCTTCGAACAGGACGCGCTGAGCTGGAAAGCAGCCGACGGGCATTCCACCGGCACCGCGCCGTATCGAGCCACGTCGGTGCGTCCAGGCCTGTACCTCGTCGACTTCATCAAGCGTGAAGGTGGCCAGACGTGGTCGGTGAGCCTGGTGCTCGATACCGTCAGCGCCGCGTTCACCGCCGTGATCGGGCGCATGCCCGCCGAGGCGCAAACGCGCGAGGGCCTCTACAGCCGCGCATTGGCCGGCAAACCATTGACCTCGGTGGAAGTCGAGTTCCTCCATGGCACGCTGGATCGTTCATGGCAACCGGGCCTCTGCCCTCACGCACCGACGAGCGAACTGGTGGGGCTGCGCAACCTGTATCGCTACAGCCCGAGTGAAGTCTACGAACACATCTACCTCAACCAGCGGTTTTATTCCTGGCAGTGCCTCAAGGGCGTTGAACAAGGCCTGTGCGACACCGACCGCTGCGACACCTACAAGATTGCCGATCAGCTGTACCTGTTCGTCTGGCGGGAGAAGATCATCCCGACCCTGGGCCTGGTGCTGATCGACCTGCAGCAGCACCGTAGTGACGGCAAGATTTTCGGTTACGCCGGCGCATCCTTCGACGAGTTCTCGAACTTCCCGGTCAGCTCCTATTGCCAGGTACTCAACCAGACGGAGTACCCCGATGCCTGA	MSTSSDWITVGALADGFAPEAFILPNLADLDGKTFTLHFANGWQIEHRFEQDALSWKAADGHSTGTAPYRATSVRPGLYLVDFIKREGGQTWSVSLVLDTVSAAFTAVIGRMPAEAQTREGLYSRALAGKPLTSVEVEFLHGTLDRSWQPGLCPHAPTSELVGLRNLYRYSPSEVYEHIYLNQRFYSWQCLKGVEQGLCDTDRCDTYKIADQLYLFVWREKIIPTLGLVLIDLQQHRSDGKIFGYAGASFDEFSNFPVSSYCQVLNQTEYPDA				NA	NA	NA	NA	NA
D1-35_03929	657			hypothetical protein	ATGAATGTCATCGCTGCACAAGACATCGCAAGTCATTGCCTGAACGCCTTCACGCAACTCATTCCCGCCAGCCGGGCGGCGTTCTATCGCGTAGACCGGCATTTGCAAGCCTACGACTTCAGCTTGCACGGCATGAGTGGCGAGATGCACCAGGACTATCTCGACCATTACTGCGCGTTCGATCCGCTGCGCCCGCGAAACTGTCTCTCCAGTCCGAGCGTCGTCCCGCTGAGCCTGGCCATGGCCCGCCAGCCGGTCCGCGACAATCATTGCTACCAGCGTTTCCTGCAGCGCTATGGCGTGGTGGATGTCGTGGAAGTGTTCGTCCACCGCGCCGGCCAGCCGCAAGCGGCGATTTCAATGCTGCGCACCGCCGAACAAGGCGCGTTCACCGGCCAGCAATTGAGCCAGCTCAGCGCGCTGCAAACGTTGCTGCACCTGGCGGTGGCCCAGTTGCCCAGCGCGGACGACGGTCTCAGCCAGCTAACGCCCAAGGAGCGGCAGATTGCGCTGTTGCTGCGCGAGGGCGCCAGTAACAAACAACTGGCCCGAGCACTCGGCATCGGCCTGCCGACAGTCAAGACCCACCTGATCAACCTGTTCCGCAAGACCGGCGTAAGCAATCGTACCGAGCTGGTCAGCAGCCTTTTCCTGTAG	MNVIAAQDIASHCLNAFTQLIPASRAAFYRVDRHLQAYDFSLHGMSGEMHQDYLDHYCAFDPLRPRNCLSSPSVVPLSLAMARQPVRDNHCYQRFLQRYGVVDVVEVFVHRAGQPQAAISMLRTAEQGAFTGQQLSQLSALQTLLHLAVAQLPSADDGLSQLTPKERQIALLLREGASNKQLARALGIGLPTVKTHLINLFRKTGVSNRTELVSSLFL				NA	NA	NA	NA	NA
D1-35_03930	366			hypothetical protein	ATGCCGCTTACCACCCTCGAAAAAAACATCCAACTGTCCGACCTGGACGCCTGGGGCACCGTTGCCGACCTCGGTTCGCAGATTCTCGAAGGCGAAGTCAAAGCCTTCGGCAAGATGACCTTCGGTGCGCCCACCGACCCGGTCAGCAGCGCCTACTTCGGCACCACACAAGGCAAGTTCCGCATGGTCTATCCGTTCGCCGAACAGGCCACCGTGGTCACCGGCGAAGTGGTCCTCACCGACGAAGCCACCGGCCAGAGCACTCGCTACAAGGCCGGCGACAGCTGGTTCGTGACCAAGGGCACGCCCGTCCTGTGGGAAGTGGTCAGCGAAAGTTTCGTGAAACACTACTTCGCGGTAGCCTGA	MPLTTLEKNIQLSDLDAWGTVADLGSQILEGEVKAFGKMTFGAPTDPVSSAYFGTTQGKFRMVYPFAEQATVVTGEVVLTDEATGQSTRYKAGDSWFVTKGTPVLWEVVSESFVKHYFAVA				NA	NA	NA	NA	NA
D1-35_03931	1299	puuB_4		Gamma-glutamylputrescine oxidoreductase	ATGATCAATATCGAAACGCCCACCTATTACACGGCCACCAAGAAATACAACCTCAGTTTTGCGACCCTGGAACAGGACGTGGAAGCCGACGTTGTGGTCATCGGTGGCGGTTTCTCCGGCATCAACACCGCGTTGGAGCTGGCGGAGAAAGGCATTACCAACATCGTGGTGCTGGAGGCGCGTTACCTGGGCTTCGGCGGCACCGGACGCAACGGCGGCCAGATCATGGCCGGCATTGGTCATGACCTGGAAAAGATCAAGAAGGACGTCGGTGAAGAGGGTCTGCGCCAGGTCTTCGAAATCAGCGACCTGGGCGCCGACATCATCAAGGACCGCATCGCCAAGTACGATATCGATGCGGACTTCTGCCATGGCTATGGCTACATGGGTTTCAACGCCCGCCAGGAAAAGACCCTGCGGGCCTGGGAAAAAGATTTCAAGTCGATCAACAGCAAGCACGAGATCCGCTTTCTCGGCGGCTCCGACGTCCGGCAGATCATTGGGTCCAACGCGTACGGCAGCGCATTGCTGCACATGGGCGGTGGGCATGTGCACTCGCTGAACCTGCTGTTGGGCGAAGCCAAGGCGCTCGTCAGCCACGGCGTGCGGATCTTCGAGAACAGCCCGGCGCTGGAGGTCAGTTATGGCGAACGCATCACCGTGCGCACCGGCCGTGGCTCGGTCAGGGCCAGCAAGCTGTTGTGGGCCTGCGACAGCTTCCTGAACAAGCTGGAGCCGGAGCTGCATCGCTCGACCATCAACACCTACGCGTTCCAAATGATGACCGAGCCACTGTCGGATGAGCTGATCCAGCGCATCAGCCCGATTCGCGGCGCCTACAGCGACATCCGGCCGGTGATCGACTACTACCGCGTCACCAACGAGAACCGCCTGCTGTTCGGCGCGGCAACCCCGTTGGTCGAGCATATCCCGCAGGATCTGAAGGCGTGGAACCGGCGCCTGATGCTGAAGATTTTCCCTTACCTGAAGGATGTGAAGATCGACCTGGCCTGGGGCGGCCCCATGGCCTGCAGTCCAAACCTGTTCCCCCAGGTCGGCACCCTGCCCGGCCGCAGCAATGCGTTTTTCGTCCAGGGCTACTCGGGTTTCGGCGTCACGCCGAGCCACATCATCTGCAAGGTGCTGGCCGAAGGCATGAGCGAAGGCTCGGCGCGCTACGACCTGGTCAGCTCGATCAACCGTCCGACCATCATCGGCAAGGACGCGATCCGTCCGCTATTGCTGACCGCCGGCAAGTCCTGGCATCAGTTGTCGGGTTACTGGAATGGGCGCCGTTGA	MINIETPTYYTATKKYNLSFATLEQDVEADVVVIGGGFSGINTALELAEKGITNIVVLEARYLGFGGTGRNGGQIMAGIGHDLEKIKKDVGEEGLRQVFEISDLGADIIKDRIAKYDIDADFCHGYGYMGFNARQEKTLRAWEKDFKSINSKHEIRFLGGSDVRQIIGSNAYGSALLHMGGGHVHSLNLLLGEAKALVSHGVRIFENSPALEVSYGERITVRTGRGSVRASKLLWACDSFLNKLEPELHRSTINTYAFQMMTEPLSDELIQRISPIRGAYSDIRPVIDYYRVTNENRLLFGAATPLVEHIPQDLKAWNRRLMLKIFPYLKDVKIDLAWGGPMACSPNLFPQVGTLPGRSNAFFVQGYSGFGVTPSHIICKVLAEGMSEGSARYDLVSSINRPTIIGKDAIRPLLLTAGKSWHQLSGYWNGRR	PGPT0007637_908	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007637-puuB|ordL-K09471	NA	NA
D1-35_03932	1170	C2-hpah		p-hydroxyphenylacetate 3-hydroxylase, oxygenase component	ATGAAAAAGCCAAACCCGCTGCTCGAAGACCTCAAGCCAATCCTGCCGGCCATCGCCGCCAACGCCTTCCAGGCCGAGAAGGACCGTACCGTTCCCGCCGAGAATATTGCCCTGCTCAAGAGCATAGGCATGCACCGGGCCTTCCAGCCGAAAAAATACGGTGGCATGGAGATTTCCTTGCCGCAATTCGCCGATTGCATCGCCCTGCTGGCCGGCGCTTGCGCAAGCACCGCCTGGGCTATGAGCCTGTTGTGCACCCACAGTCATCAGTTGGCATTGTTTCCGGCCCAGACCCAGGAGGAGGTCTGGGGTGACGACCCCGACGCCACCGCCAGCAGCAGCATCGCGCCTTTCGGCCGCACCGAGGAAGTCGAGGGCGGCGTGACGTTCAGCGGCGAAATGGGCTGGAGTAGCGGTTGCGACCACGCCGAATGGGCCATTGTCGGTTTCCGCCGAAAGAATGCCGAAGGCACCCAGGATTATTGCTTTGCGGTGTTGCCTCGTCGCGATTATGAGATCCGCGATGACTGGTACGCGGTCGGCATGCGCGGCAGCGGCAGCAAGACCCTTATCATCAATAACGCCTTTGTGCCGGAACACCGGATCCAGAAAGCCAAGGACATGATGGAAGGCAAGTCCGGCGGCTTTGGCCTGTACCCCGACAGCAAGATTTTCTATGCGCCGTATCGTCCGTATTTCGCCAGCGGCTTTTCCACCGTCAGCCTGGGCGTCGCCGAACGCATGCTGGAGGTCTTTCGCGAGAAGACCCGGACCCGCGTGCGGGCCTACACCGGTGCCGCGGTCGGCGCCGCCACGCCAGCGCTGATGCGCCTGGCCGAGTCCACCCACCAAGTGGCCGCGGCTCGGGCTTTTCTCGAAAAAACCTGGGAAGACCACGCCGAGCACAGCGAGCGGCATCAATACCCGAGCCGCGAGACCCTGGCGTTCTGGCGGACCAATCAGGGTTATGCGACCAAGATGTGCATCCAGGCGGTGGACCGCCTGATGGAAGCCGCGGGCGGCGGCGCGTGGTTCGAAACCAATGAACTGCAACGGCTGTTTCGCGATGCGCACCTGACCGGCGCCCATGCCTACACCGACTATGACGTCTGTGCGCAGATCCTGGGCCGGGAATTGATGGGCCTGGAGCCCGATCCCAGCATGGTTTGA	MKKPNPLLEDLKPILPAIAANAFQAEKDRTVPAENIALLKSIGMHRAFQPKKYGGMEISLPQFADCIALLAGACASTAWAMSLLCTHSHQLALFPAQTQEEVWGDDPDATASSSIAPFGRTEEVEGGVTFSGEMGWSSGCDHAEWAIVGFRRKNAEGTQDYCFAVLPRRDYEIRDDWYAVGMRGSGSKTLIINNAFVPEHRIQKAKDMMEGKSGGFGLYPDSKIFYAPYRPYFASGFSTVSLGVAERMLEVFREKTRTRVRAYTGAAVGAATPALMRLAESTHQVAAARAFLEKTWEDHAEHSERHQYPSRETLAFWRTNQGYATKMCIQAVDRLMEAAGGGAWFETNELQRLFRDAHLTGAHAYTDYDVCAQILGRELMGLEPDPSMV				NA	NA	NA	NA	NA
D1-35_03933	942	C1-hpah		p-hydroxyphenylacetate 3-hydroxylase, reductase component	ATGTCCGATATCTGTGAAACTGCTTTCGACACCCGCGCGTACCGCCGGGCCCTGGGCAACTTTGCCACCGGCGTGACCGTGGTCACCGCCGCGACCGAGGATGGGCGCAAGGTCGGCGTGACAGCCAACAGCTTCAATTCGGTATCCCTCGACCCGCCGCTGATTCTCTGGAGCATCGACAAGCGTTCCAGCAGCCACGGTGTATTCGAAGCCGCGAGCCATTTCGCCGTCAACGTGCTGGCCGCCGACCAGATCGACCTGTCGAACAACTTCGCCCGGCCCAAGGATGATCGCTTCGCCGAAATCCAGTTCGAGGCCGGCGAAGGGGGCGCGCCGGTGTTCGTCGATTGCTCGGCGCGTTTCCATTGCGAGAAGTTCCAGCAGGTCGATGGCGGTGATCATTGGATCATGATCGGCAAAGTCGTCGCGTTCGATGATTTCGGGCGCTCGCCGTTGCTCTACCATCAGGGCGCCTATTCGATGGTCCTGCCGCATACGCGCATGACCCAGCACGGCGAAGGCCAGCCGCCGAGCAGTCATTTCCAGGGTCGCTTGAGCCATAACCTGTATTACCTGATGACCCAGGCGCTGCGGGCCTACCAGGCCAGTTACCAGCCGCGCCAGTTGTCCACCGGACTGCGCACCAGCGAGGCGCGGATGTTGATGGTGCTGGAGAACGACGCCGGCCTGAACATGGCCGATCTGCAGCGCGAAGTCGCGATGCCGGTGCGTGAGATCGAAGAAGCGGTGGCCAATTTGCGGCGCAAGGGGCTGGTTACCGATGAAGGCGATCGGGTGCGCCTTACCGTCAAGGGCATCGATGAAACCGAAGGCCTCTGGGCAATTGCCAAGGAGCAGCAGGACAAGGTGTTCGGCCAGTTCAGCGATGAGCAACTCGAGAGTTTCAAGACGGTGCTCAAGGGCATCATCAAGGGCGCCTGA	MSDICETAFDTRAYRRALGNFATGVTVVTAATEDGRKVGVTANSFNSVSLDPPLILWSIDKRSSSHGVFEAASHFAVNVLAADQIDLSNNFARPKDDRFAEIQFEAGEGGAPVFVDCSARFHCEKFQQVDGGDHWIMIGKVVAFDDFGRSPLLYHQGAYSMVLPHTRMTQHGEGQPPSSHFQGRLSHNLYYLMTQALRAYQASYQPRQLSTGLRTSEARMLMVLENDAGLNMADLQREVAMPVREIEEAVANLRRKGLVTDEGDRVRLTVKGIDETEGLWAIAKEQQDKVFGQFSDEQLESFKTVLKGIIKGA	PGPT0008700_48	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008700-C1_hpah-K23470	NA	NA
D1-35_03934	405			hypothetical protein	ATGAAAACCCTCTACTTGATCGCTGCCCTTGGCCTGCTTCCCGTCGCTCCGCTCTACGCTCATGAAACCGCGCCTTCGGAAAAAATCCAGGTGCTGCAAGAGAAACTGCTGAAAAACCTGCCCGACAAAAAAGCCATGATGCTGACCGTCGACTATGCGCCGGGCCAGTCTTCCATCGCCCACAAGCATGACGGCACGGCCATGGCCTATGTGCTTGAGGGCGCCATTACCTCTCAGGTCAAGGGCGAACCGGCGATCACCTACAAGGCCGGTGAGTTCTGGTACGAAGCCGCCGGCTCCGAGCACCTGGTGTCGAAGAACGCCAGCGCCACCCAACCGGCGAAGCTGTTGGTATTCATGGTGATGGGCAAGGACGAAGCGGTGCTGATCCCGTTGAAAGACTGA	MKTLYLIAALGLLPVAPLYAHETAPSEKIQVLQEKLLKNLPDKKAMMLTVDYAPGQSSIAHKHDGTAMAYVLEGAITSQVKGEPAITYKAGEFWYEAAGSEHLVSKNASATQPAKLLVFMVMGKDEAVLIPLKD				NA	NA	NA	NA	NA
D1-35_03935	294			hypothetical protein	ATGTCTCGCCAAGTGATCAACACCGTACAGGTGCAAGCCGCCGCCGGACGCTCGGAAGAACTCGGCCGGCAGTTGCAGCAAATCGTCGAAACCCTGCGCGCCTTGCCAGGCTGCGATGCTTACATGGTCGATCGTTGCCCGGAGCACAACGACCGCTGGAACGTCAGCGCCCGCTGGCAATCGGAGGCGGCCATGCAGGCCCATTTCAATTGTCCCGAAGTCCAGGGGTTCATCAGCCTGATCGAAAGCCGCCTGGCTCGCAGCGTCGACTTCAACAGTTTTCCGCTGGTGTGA	MSRQVINTVQVQAAAGRSEELGRQLQQIVETLRALPGCDAYMVDRCPEHNDRWNVSARWQSEAAMQAHFNCPEVQGFISLIESRLARSVDFNSFPLV				NA	NA	NA	NA	NA
D1-35_03936	1434	gabR_1	COG1167	HTH-type transcriptional regulatory protein GabR	ATGGAACTTCATGTCGTCATCAACGGCCGCAAGGACCTGACGGGCCAGTTGTACCGACAACTTCGCAGCGCCATCGAAGGTGGTCGCCTGGCGGCCGGCACGCAGCTGCCGCCCAGCCGTCTGCTGGCCGAGCAACTTTGCATCTCGCGCAAGACGGTCTCCGACACCTACGCCCAGCTGACCTACGAAAACTTCCTCACCGGCGTCATTGGCAAGGGCACCTATGTCAACGCCCGACCGGCCAACATCGTGCGCAAGCAAAGCCACCGCGAGCTCGCCGGGGCGGACGTCGTCGAGACCTGGCGCAACATGCCGGACCTGCTGCGTCACCCGCACCCCGAAAGTGCGTTGCGCTATGACTTCATCGGCGGCGCTACCGGCAAGGGCCAGTTTCCCCTGGATGACTGGCGCCGGTGTACGGCCCATGCCTTGCGCCAGATCGCCAACGCCAAGGGTTTCTACAGCCAGCCCGAAGGGTTGGCGGCGCTGCGCAATGCCATCGCCCGGCATATCGCATTCTCTCGTGGGGTCAACTGCCAGGACGAGGACGTGGTGGTGTGCAACGGCGCGCAGCAGGCGCTGGATCTGATTTCACGGGTGCTGACCCGCCCCGGCAGCCTGGTGGCCATGGAGGATCCCGGGTACCCGCCGGCACGCCTGCTGTTTGGTTCCCATGGTGCGACGGTGGCCGGGGTGCCGGTGGATGAGCAAGGCATGCGCGTGGACTTGATTCCCGACGGCACACGGCTGATCTACGTGACACCCTCCCACCAGTTCCCCCTGGGCATGCCCATGAGCCAGCCCCGGCGCGAGGCCTTGCTGTCGCGGGCCTATGAACTGGGGGCGATCATCATCGAAGACGACTACGACAGTGAATTTCGCTATGAAGGCCGGCCCACCGACTCGCTGCAAAGCATGGATGAGCGCGGGATCGTCGCCTACGTCGGGACGTTCTCCAAGACCTTGTTGCCGGAGCTTCGGCTCGGTTATGCAATCCTGCCACCGGCGATCCTCGAAGCGGTGATCCTCGCCAAGCGCCTCACCGACCAGCACACCTCCACCCTGCCCCAATGGGCGCTGGCCAAATTCATTGCCGAGGGCTGCCTGCTCAAGCACATCCGCCGTTGCCACGCCCTGTACGCAGGCCGGCGCGAGCGAATCCTGGCCCGCATGGGCGCCGATCTGGCGCCTTGGTTCGAGGCCGTGCCGACCACCGCGGGTTTCCATATGGCCGTGTTGTGCAAGGTTCCAATCGACCTGCCGCTGGTGATCGAGCTGGCGAAAAAAGCCGAGGTCGGGCTCTACAGCCTCGACGGTTTTTTTCATGCCGCACCGGTACGCTCCGGCCTGATGCTAGGCTTTGGCGCCATCGAACTGCTCGACATCGACGTCGCCCTCGACCGTTTGCGCGACATTCTCCAGCAGGTCGCCTGA	MELHVVINGRKDLTGQLYRQLRSAIEGGRLAAGTQLPPSRLLAEQLCISRKTVSDTYAQLTYENFLTGVIGKGTYVNARPANIVRKQSHRELAGADVVETWRNMPDLLRHPHPESALRYDFIGGATGKGQFPLDDWRRCTAHALRQIANAKGFYSQPEGLAALRNAIARHIAFSRGVNCQDEDVVVCNGAQQALDLISRVLTRPGSLVAMEDPGYPPARLLFGSHGATVAGVPVDEQGMRVDLIPDGTRLIYVTPSHQFPLGMPMSQPRREALLSRAYELGAIIIEDDYDSEFRYEGRPTDSLQSMDERGIVAYVGTFSKTLLPELRLGYAILPPAILEAVILAKRLTDQHTSTLPQWALAKFIAEGCLLKHIRRCHALYAGRRERILARMGADLAPWFEAVPTTAGFHMAVLCKVPIDLPLVIELAKKAEVGLYSLDGFFHAAPVRSGLMLGFGAIELLDIDVALDRLRDILQQVA	PGPT0016790_3223	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
D1-35_03937	441			hypothetical protein	ATGAGCCCGCGTCTGGATTACTACAGTGCGTCCCCCGCGGCGATGAGAGCCATGATTGGCCTGGAGGCGCTGACCAGCCGGCTGAGTATAGAACCGGCGCTATTGCAACTGATCAGGATCCGCGCCTCGCAGCTCAACGGCTGCGCGTTCTGTACCGACATGCACTCGGTGGATGCCCGTCGCCAGGGCGAGACCGAGCGGCGCCTCTACGCGGTGGCGGTGTGGCGCGACAGCGGGTTTTTCAACCCGCGCGAACGAGCTGGCCTGGCCTGGACCGAAGCCGTCACGCTGCTGGCCGAAAGCCAAGTGCCAGACGACGTCTACGCCCTGGCCCGCGCCAGTTTCAGCGAAGGAGAATTGGTGGACCTGACCCTCGCGATCAGCACCATCAACAGCTGGAACCGCCTCGCGGTGAGCTTTCGCCAGAGCCCCGGGGGTTAA	MSPRLDYYSASPAAMRAMIGLEALTSRLSIEPALLQLIRIRASQLNGCAFCTDMHSVDARRQGETERRLYAVAVWRDSGFFNPRERAGLAWTEAVTLLAESQVPDDVYALARASFSEGELVDLTLAISTINSWNRLAVSFRQSPGG				NA	NA	NA	NA	NA
D1-35_03938	2574			hypothetical protein	ATGATTGAAGATGCTGGCAATGGCTCCTCCGTGATTTCCGGCGAGCGGCCAACCCGAAGTTTCACCCGCCGCACTTTCCCGGCCATCATGCTGTTGCTGTTCATCATGTCCGCTTTGGCCATCGCGGTGCTGCTCAACGTTACCCAGACCCAGGACGAGCAAGCCCGAGAACAAAGCGTGTTTTTTGCCCAGCGGGCCATCGAAGGCATGCGCACGGGCATCGGTCGTGATCTGAGCGACTACTCCAAATGGAGCGACGCTTATCGCCATCTGCACGTAAAGGTCGACAAAGACTGGGCCTACGACCAGGAAAATGTCGGCAGCAGCGTGTTTTCACTCTATGGCTACCAGGCCGTGTTCGTCATTTCTCCAGCCGGCAAGACGGTTTATTCGGTCATCGATGGCGAGATGAGCCAAGTGGCGGCCGACACGTGGTTGACAGGTGACCTGCGCGCACTCGCCAGCAAGGCCAGGGCGGCGGAAAACCGCGATGAAGTGATCGTCGAGCTGTTGCATCACGAGGACGCGCCCGCCTTCGTCGCCGTCTCGGCGATTACCACCGGCACGGACAACAGCGTGGCCGAAATTCCGGGGCCGCCCAGCCTGCTGTTATTTGTCAAAGTCCTGGATCGTGGCGCGCTGCAAAGCCTGTCCCGGGACTTCGCCCTGCCCGACGCGCATATTGCCCGCACGCCAGGTCCCAAGGACACCGCCCAAGTCTTGCTCAACGACCTGACCCGCGAAGCTTTGGCCTGGCGCCCGGCGACCCCCGGCAAGGACCTGCGCAAAGTGCTGCTGCCCTTGCTCGCGCTCGCATTGCTGTTTCTTGCCGTCATGGCCCTGGCGGTGTTGCGTCATGCGCTGATCATGCTCCGCGCCCAGGAGCAGCAGTACGCCAGCCTCCTCGCACACCGCAAGGCGTTGGAGCGCAGCGAGGAGCGCTTCCGGGACATCGCCGAGGTCTCGTCCGACTGGCTGTGGGAGGTCGACTCGAACGGAACATTGACCTATCTGTCGGAACGCTTCGAACAGGTCACGGGCTTCAACCCCAGCGAGTGGCTGGGCAAGCCGTTGCACCGACTGTTGCATCCACACAGCGGATCGATCTCGATTTCCCATTGGCTGCTCGCCGGTGCCAACAGCGCCTCCTCTGCGCCGCTCCTTTGCGAATACACCGCGCGCAACCAGCGCATACGCACCTGCAAACTCTCGGTACGGGCCATTGAAGCCGGCGCCCTGGGTTTTCGTGGCACCGCCACCGACATTACCGAAGAGTTGCGGGCGCTGGCGCAGATCAAGCACCTGTCGCTGCACGATCCGCTGACCGGGCTGGCCAACCGCAACCGCCTGTTCGATTGCCTCAGCCAACACCTCGACCAGGCGCGAGATACGCCACTGGCGATACTGAACCTGGACATGGACCGGTTCAAACCGGTCAACGACTCCCTGGGCCATGCCGTCGGCGACAAGGTGCTGAAGGAAGTTGCCCATATCCTGCAACAGAACGTGCGCGGCAGCGACCTGGTGGCGCGCCTGGGTGGCGATGAATTCGTCATCATCCTGCCGAACCCGGGCGGCGCTGGTGATCTCGACCAATTGTGCTCGCGCCTGATCGAATGCATGCAACGGCCCATGCACCTGGACGGCAATACGCTGTACCTGGGCGTGAGTATCGGGGTTGCCTGGTCGCAGCCCGCTGAGCAGCGTGCCGAAGAGCTGTTGCGCCAGGCCGACATCGCCCTGTACGCGGCCAAGGCCGCGGGACGCAATACCTGGCGCGTATACGAAGAGGCCATGGGCAATGTGGCCCGCGACCGTCGACGCTATGAGCAGCAGCTGCGCGATGCGATGCAGCAGGGCCAGCTCGAATTGCGTTACCTGCCCCGTTTCGATGTGGGCGCCGAGCAGCTGTATGGTTTTGAAGCCCAGGCCTTCTGGCACCATCCTGAGCGCGGTGAGCTGGGCGGGATCGACTTCATCCCGGTCGCCGAAGCATCCGGCCAACTGGAGGACCTGGGCAGCTGGATGCTGATCAACGCCTGTGACGAGGCGATGAGCTGGCCCACCCCGCTCAACGTGTCCATCGCCGTTTCGCCTCGCTGGTTCAGCAGCAGTTTCCTGTTCAATCAGGTGCACAAGGCTCTGGAAACAAGCGGCCTGCCCGCCCAACGGTTGACTCTGGAAGTGGCCGAAGGCGTCCTGCTGACTGACCATAAGACGCTCGCCAGGACCCTTCATGCCTTGAAGGCGCTGGGCGTGCGGATCAATATCGACAAGTTCGGCACCAACATAGCGTCCCTCCGGGAAGTGCTTGACCAGCCATTCGACGGCATCCGCTTCGATCGTAATATCCTGGCGCAACTGGGCCTGGAACATGACCAGGAAGGCGTGCTGGCGATGATTCGGTTGAGTCGCAGCGTCGGGTTGATGGTGACGGCCGAAGGTATCGAGAACGCCGTGCAGTTCAGCCAATTGCGCAGCGTGGCTTGCGATCATGTGCAAGGCCCGTATTTCGGCGCAGCCCTGGCCCGCTCGGAAATGGCCTCATTCTTTACCACGCCTCGCTGGCTGTAG	MIEDAGNGSSVISGERPTRSFTRRTFPAIMLLLFIMSALAIAVLLNVTQTQDEQAREQSVFFAQRAIEGMRTGIGRDLSDYSKWSDAYRHLHVKVDKDWAYDQENVGSSVFSLYGYQAVFVISPAGKTVYSVIDGEMSQVAADTWLTGDLRALASKARAAENRDEVIVELLHHEDAPAFVAVSAITTGTDNSVAEIPGPPSLLLFVKVLDRGALQSLSRDFALPDAHIARTPGPKDTAQVLLNDLTREALAWRPATPGKDLRKVLLPLLALALLFLAVMALAVLRHALIMLRAQEQQYASLLAHRKALERSEERFRDIAEVSSDWLWEVDSNGTLTYLSERFEQVTGFNPSEWLGKPLHRLLHPHSGSISISHWLLAGANSASSAPLLCEYTARNQRIRTCKLSVRAIEAGALGFRGTATDITEELRALAQIKHLSLHDPLTGLANRNRLFDCLSQHLDQARDTPLAILNLDMDRFKPVNDSLGHAVGDKVLKEVAHILQQNVRGSDLVARLGGDEFVIILPNPGGAGDLDQLCSRLIECMQRPMHLDGNTLYLGVSIGVAWSQPAEQRAEELLRQADIALYAAKAAGRNTWRVYEEAMGNVARDRRRYEQQLRDAMQQGQLELRYLPRFDVGAEQLYGFEAQAFWHHPERGELGGIDFIPVAEASGQLEDLGSWMLINACDEAMSWPTPLNVSIAVSPRWFSSSFLFNQVHKALETSGLPAQRLTLEVAEGVLLTDHKTLARTLHALKALGVRINIDKFGTNIASLREVLDQPFDGIRFDRNILAQLGLEHDQEGVLAMIRLSRSVGLMVTAEGIENAVQFSQLRSVACDHVQGPYFGAALARSEMASFFTTPRWL	PGPT0023624_1257	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
D1-35_03939	675	yjdF	COG3647	Inner membrane protein YjdF	ATGCCGATCCGAGCAAGCCGTTACGAGCTGATCCTGCTGGGAAGTTTTATCGCCCTATGGACGGGGCTGGCTATCGCGCCGGTCAAGCGCAGCGACTGGCTGGCGGAAAATCTGCTGGTGTTTGCGCTGCTGATCGTCCTGGTGGCGGTCCATCGGCGGTTCAGCTTCTCGCGTCTGTCGGCGACGCTGGTGTTCGTATTCCTCTGCATCCATGAGGTCGGCGCCCACTACACCTACGCAAAAGTCCCCTACAACCAGTGGTGGCAAGCCCTGACCGGTGGCCAGCCGCTGGACCAGCTCCTGGGTTTCCAACGCAACCAGTTCGATCGCCTGGTGCACTTCAGCTATGGCCTGCTGCTGGCCTATCCGGTACGCGAGGCGCTGCTGCGGGTAATCCCGGCCCGTGGTTTCGCGGGTTATTTTCTGGCGTGGAACCTGATCCTGTCGTCATCGGCCATCTATGAGCTGATCGAATGGATCGGCGGCGCCTATATGGGCGGCGATACCGCCAAGGCCTTCGTCGGCGCGCAACAGGACCCGTGGGACTCGCAAAAGGACATGGCGCTGGCGGGCTTGGCCGCGTGCTTGACGTTGGTGGCCGCCGCCGCGGTCAACTATTTCCAGCAACGGGACTTTGCCCTGGAATGGGCACTGCGCAAGAAAGCCAGCACGTGA	MPIRASRYELILLGSFIALWTGLAIAPVKRSDWLAENLLVFALLIVLVAVHRRFSFSRLSATLVFVFLCIHEVGAHYTYAKVPYNQWWQALTGGQPLDQLLGFQRNQFDRLVHFSYGLLLAYPVREALLRVIPARGFAGYFLAWNLILSSSAIYELIEWIGGAYMGGDTAKAFVGAQQDPWDSQKDMALAGLAACLTLVAAAAVNYFQQRDFALEWALRKKAST				NA	NA	NA	NA	NA
D1-35_03940	1800	ydaP	COG0028	Putative thiamine pyrophosphate-containing protein YdaP	ATGAGCATGACCGTCGGCGATTTTCTGGTTGAGCGCCTTTACGAGTGGGGGGTTCGCCGTATCTACGGCTACCCGGGCGATGGCATCAACGGCGTGTTTGGCGCCTTGAACCGGGCCAAGGGCAAGATCCAGTTCATTCAGGCGCGTCACGAGGAAATGGCCGCGTTCATGGCCTGCGCCCATGCCAAGTTCACCGGCGAGCTGGGGGTCTGTATCGCCACTTCGGGGCCAGGGGCGTCGCACCTGATCACCGGCCTGTATGACGCGCGAATGGACCATATGCCGGTCCTGGCCATCTGCGGCCAACAAGCGCGAAATGCGCTTGGCGGCCATTACCAGCAGGAACTCGACCTGGTCAGCCTGTTCAAGGATGTAGCCGGCGCGTTCGTCCAGCAGGCCAGCGCACCGGCGCAGGTGCGCCATCTGCTCGACCGCGCCGTGCGCACGGCGGTGGGCGAGCGCCGGGTCACCGCGCTGATCCTGCCCAACGACTTGCAAGACCTGGATTACACGGCGCCGCCCCATAAGCACGGCACGTTGCATTCTGGCGTCGGTTATCGCAAACCCAAGGTCGTGCCTTACGAGGAAGACCTGCAGCGGGCCGCCGAAGTCCTCAACGCTGGCAAGAAGGTCGCCATCCTGGTGGGCGCCGGGGCGCTGCACGCCACGGATGAAGTGATTGCCATCGCTGACAAGCTCGGTGCCGGCGTCGCCAAGGCCTTGCTCGGCAAAGCCGCGGTGCCCGACGAGTTGCCGTGGGTCACCGGCGCCATCGGCCTGTTGGGCACCGAACCCAGTGACAACCTCATGGCCGGTTGCGACACGCTGCTGATGATCGGGTCCGGCTTCCCCTATGCCGAGTTTCTGCCCCGAGAGGGCCATGCGCGTGGCGTGCAGATCGACCTGCAGCCCGACATGCTCAGCCTGCGCTACCCCATGGAAGTCAACCTGCAGGGTGACAGCGCCGACACCCTGCGAGCCTTGTTGCCGCTGATCGAAGAAAAGACCGACCGCGCCTGGCGCAAGAAAATCGAACACTGGCGTGCGGACTGGGACAAGACCCTGGAAAAACGCGCGCTGGTCTCGACCAAGCCGATCAATCCGCAACGGGTCACGTTCGAACTGTCGCCACGGTTGCCGGACCGCGCCATCATCACCTGTGATTCCGGCTCCTGCGCCAACTGGTATGCCCGGGACCTGCAGATCCGTCGGGGCATGCTGTGTTCGCTGTCCGGTGGCCTCGCCTCCATGGGCGCCGCCGTGCCCTACGCCATTGCGGCCAAGTTCTGCCATCCGGATCGGCCGGTCATCGCCCTGGTGGGCGACGGTGCCATGCAGATGAACAACATGGCCGAGCTGATTACCGTCGCCAAGTATTGGCGCAGCTGGACGGACAGCACCTGGATCTGCGCGGTCTTCAATAATCAGGATTTGAACCAGGTGACCTGGGAACAGCGGGTCATGGAGGGCGATCCGAAATTCGAGGCCTCGCAGAACATTCCTGACGTGCCCTACCACCTGTTCGCCGAATCCATTGGCCTCAAGGGCATCCTCGTCGATCAGGAAAGCGACGTGGCCAGCGCCTGGGAACAGGCACTTGCCGCCGAACGCCCGGTGCTGATCGAGTTCCGCACCGATCCCGACGTGCCGCCGCTGCCGCCACATATCAAGCTGGAACAGGCGAAAAAATTTGCCTCGACCCTGCTCCAGGGCGACCCGAACGAACGGGGCATCGTGGTCGAGACCGCCAAACAGGTGCTGGGCGCACTGCTGCCCGGCCAGCGCAAGGATAAAGAGTAA	MSMTVGDFLVERLYEWGVRRIYGYPGDGINGVFGALNRAKGKIQFIQARHEEMAAFMACAHAKFTGELGVCIATSGPGASHLITGLYDARMDHMPVLAICGQQARNALGGHYQQELDLVSLFKDVAGAFVQQASAPAQVRHLLDRAVRTAVGERRVTALILPNDLQDLDYTAPPHKHGTLHSGVGYRKPKVVPYEEDLQRAAEVLNAGKKVAILVGAGALHATDEVIAIADKLGAGVAKALLGKAAVPDELPWVTGAIGLLGTEPSDNLMAGCDTLLMIGSGFPYAEFLPREGHARGVQIDLQPDMLSLRYPMEVNLQGDSADTLRALLPLIEEKTDRAWRKKIEHWRADWDKTLEKRALVSTKPINPQRVTFELSPRLPDRAIITCDSGSCANWYARDLQIRRGMLCSLSGGLASMGAAVPYAIAAKFCHPDRPVIALVGDGAMQMNNMAELITVAKYWRSWTDSTWICAVFNNQDLNQVTWEQRVMEGDPKFEASQNIPDVPYHLFAESIGLKGILVDQESDVASAWEQALAAERPVLIEFRTDPDVPPLPPHIKLEQAKKFASTLLQGDPNERGIVVETAKQVLGALLPGQRKDKE	PGPT0001371_225	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACETIC_ACID_BIOSYNTHESIS,PGPT0001371-poxB-K00156	NA	NA
D1-35_03941	519			hypothetical protein	ATGTACGCGTCTTTTTCGAAAGCCTTGAACGGCCTGCACCTTAACCTCGACCACGCCGGCTCATGGCTCGCACCGCTGGGGCTGCGCCTGTTCCTGGCCTGGGAGTTCTTCGAGTCGGGCCTGGAAAAATGGCACGGCCAGAACTGGTTCGCGGAAATCCAGGCGGCCTTCCCGTTCCCTTTCAACCATGTGCCGGCCAGTTGGAACTGGGAACTGTCGATGTGGGCGGAGCTGATCTGCGCCATCGCCCTGCTGGTGGGCCTGGGCACACGTGTTTCGGCGCTGGTGCTGATGATCGTCACGGTGGTCGCGACGGCGGCCGTGCACTGGCCGGCGGATTGGTCGAGCCTGAGCGAACTGGCCCAGGGATACGCCATCACCAACAAAGGCTTTGGCAACTTCAAGCTGCCATTGATTTACCTGGTGGCGCTGCTGCCGTTGCTGTTGCAGGGCGCCGGGAAAATGAGTGTGGATGCCTTGCTGAAGACGCTGCAATCGGTAAAAAAATCGAAACCTTGA	MYASFSKALNGLHLNLDHAGSWLAPLGLRLFLAWEFFESGLEKWHGQNWFAEIQAAFPFPFNHVPASWNWELSMWAELICAIALLVGLGTRVSALVLMIVTVVATAAVHWPADWSSLSELAQGYAITNKGFGNFKLPLIYLVALLPLLLQGAGKMSVDALLKTLQSVKKSKP	PGPT0028505_1342	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028505-catD-K15977	NA	NA
D1-35_03942	639			hypothetical protein	ATGCCTGCCACCACCGCAACGCCACCTGCTTTCCGTTTCCAGGGCTGGTCGCTGTTCAGCCTGATCGCCGCCCTGGTGCTGTTGATGACCGCGCTGATCCTGGCACTCAACCCGGACCTCACCGAAGGCGTTCGCAGCGCCATTCGCGCCACCGCCCGGTCATCCTTTGCCCTGTTCCTGCTGGCCTTCACCGCTTCGGCATTCGCCGTGCTGGTGCCCTCGCCCTTGAGCAAATCCCTGGTGCGCGAACGGCGCTTCATCGGCTTGGCCTTTGCCTTTTCGCACCTGGTGCACGCGGTGTTGATCTATTGGTACGGCCAGCTCAACACCGAGTTCTGGCCCGGCCGCACGACCGTCGGCAATCTGCCCGGCAGTGTGGGTTATGTGTTCATCCTGCTGCTGGCCCTGACCTCGTTCAAAAGCACCACGCGGCTGATCGGCGCCACCGCCTGGAAACGCCTGCACACCACCGGCATGTGGGTGTTGGCGGCGATCTTTGCCTACTCCAACTTCAAGCGCATTCCGATGAGCGCCTGGTACGTGCTGCCCTTCGGCCTGATCTGCGCCGCCACGGCGGTCCGCCTGGTGGGCAAGCTCGCCCAGGCCAACAAGCGCCACGCCCTGCAACGTGCGGCCTGA	MPATTATPPAFRFQGWSLFSLIAALVLLMTALILALNPDLTEGVRSAIRATARSSFALFLLAFTASAFAVLVPSPLSKSLVRERRFIGLAFAFSHLVHAVLIYWYGQLNTEFWPGRTTVGNLPGSVGYVFILLLALTSFKSTTRLIGATAWKRLHTTGMWVLAAIFAYSNFKRIPMSAWYVLPFGLICAATAVRLVGKLAQANKRHALQRAA				NA	NA	NA	NA	NA
D1-35_03943	1323	rcsC_20		Sensor histidine kinase RcsC	ATGAAGCTGTCGCTGCGCTGGCCTCGTACCCTCGCCTCGCGCTTGTCGTTGATCTTCCTGATCGGCCTGGTCCTGGCCCAAGGCCTGTCGTTTGGCGTCCAGTATTACGAACGCTACGAGAGCGCGAAGAACACCATGCTCGGCAACCTCGAGACCGACGTCTCGACGTCCGTCGCCATCCTCGATCGCCTGCCGGCCGCCGAGCGTGAGGCCTGGCTGCCGAAACTGGCCCGGCGCAACTATGGCTACGTGCTCGACGAAGGCGAACCTGGCATGCCGATGTTGCCCGACAACGCACCGATATCGGTCAGTTCGATCCAGCAGGCCCTGGGCGAAGCCTATGCGCTGACCTATAACCAGATCCCAGGCCCGAAGATGCATTACCAGGCGCACCTGCGCCTGAAAGACGGCAACCCGCTGACCATCGATGTGCGTCCGGCCATGGCACCGCTTTCGCCCTGGCTGCCCGCGGTGCTGCTCGGGCAACTGGCGCTGTTGATCGGCTGCACGTGGCTGGCCGTGCGCATCGCCGTCAGCCCGCTGACCCGGCTGGCCCAGGCCGTGGAAACCCTCGACCCCAACGCCCACGGCGTGCGCCTGGACGAAAAAGGCCCGACCGAAGTGGTACACGCGGCAAAGGCGTTCAATGCCATGCAGGACCGCATTGCCGCCTACCTCAAGGAGCGCATGCAACTGCTGGCGGCGATTTCCCATGACTTGCAGACGCCCATCACCCGCATGAAACTGCGCGCCGAATTCATGGACGACGGCATCGAAAAGGACAAACTGTGCAGCGATCTGAGCGAGATGGAACACCTCGTGCGTGAGGGCGTGGCCTACGCTCGCAGCATCCATGGCGCCACCGAGGCCAGTTGCCGGATCAGCCTGGATGCGTTTCTCGACAGTTTGGTGTTCGACTACCAGGACACCGGCCAGGACGTACAGTTGTCGGGCAAGAACGCCGCCGTAATCGACACCCGTCCCCATGCGCTGCGGCGGGTGTTGGTCAATCTGGTGGACAACGCGCTGAAATTCGGCGGCGCGGCGCAGATCCAGGTCCAGCCTGCCACCCATGGGCAACTGGCGATCCAGGTGCTGGATCGCGGGCCCGGCATCAGCGAGGCAGAACTGGCCGAAGTGCTCAAGCCGTTCTACCGGGTGGAGAGCTCGCGCAATCGGGAAACCGGCGGCACGGGCCTGGGACTGGCCATTGCCCAACAATTGGCGAGTGCCATGGGCGGCTCGCTGACCTTGAGCAATCGCGATGGCGGCGGGTTGTGTGCCGAGTTGCGGTTGGCTTGCAATACCCCATCCGGAAGCTGA	MKLSLRWPRTLASRLSLIFLIGLVLAQGLSFGVQYYERYESAKNTMLGNLETDVSTSVAILDRLPAAEREAWLPKLARRNYGYVLDEGEPGMPMLPDNAPISVSSIQQALGEAYALTYNQIPGPKMHYQAHLRLKDGNPLTIDVRPAMAPLSPWLPAVLLGQLALLIGCTWLAVRIAVSPLTRLAQAVETLDPNAHGVRLDEKGPTEVVHAAKAFNAMQDRIAAYLKERMQLLAAISHDLQTPITRMKLRAEFMDDGIEKDKLCSDLSEMEHLVREGVAYARSIHGATEASCRISLDAFLDSLVFDYQDTGQDVQLSGKNAAVIDTRPHALRRVLVNLVDNALKFGGAAQIQVQPATHGQLAIQVLDRGPGISEAELAEVLKPFYRVESSRNRETGGTGLGLAIAQQLASAMGGSLTLSNRDGGGLCAELRLACNTPSGS				NA	NA	NA	NA	NA
D1-35_03944	741	ompR_7		Transcriptional regulatory protein OmpR	ATGGATCATGTCGATCATGTGTTGATCGTCGATGACGATCGCGAGATTCGAGAGCTGGTGGGCAACTACCTGAAAAAGAACGGCCTGCGCACCACCGTGGTCGCCGATGGCCGGCAGATGCGGGCCTTCCTGGAAACCACCCCGGTGGACCTGATCGTGCTGGATATCATGATGCCCGGCGATGATGGCCTGGTGTTGTGTCGGGAACTGCGCGCCGGCAAGCACAAGGCGACGCCGGTGCTGATGCTCACCGCCCGCAACGACGAAACCGACCGCATCATCGGCCTGGAAATGGGCGCCGACGACTATCTGGTCAAGCCTTTCGCCGCTCGCGAGCTGCTCGCCCGAATCAACGCCGTGCTGCGCCGCACCCGGATGTTGCCGCCCAATCTGGTGGTCACCGAGAGCGGACGCCTGCTGGCGTTCGGTCGCTGGCGGCTGGACACCACCGCCCGCCACCTGCTGGACAGCGACGGCACCATGGTTGCCCTGAGCGGCGCGGAGTACCGTCTGTTGCGGGTGTTCCTCGATCATCCGCAGCGCGTGCTCAACCGCGACCAGTTGCTGAACCTGACCCAAGGCCGTGACGCCGATCTGTTCGATCGCTCCATCGATCTGTTGGTCAGCCGCCTGCGCCAGCGCCTGCTGGATGATGCCCGTGAGCCGGCCTACATCAAGACCGTACGCAGCGAAGGCTACGTGTTCTCGCTGCCGGTGGAGATCCTCGAGGCGTCGGTATGA	MDHVDHVLIVDDDREIRELVGNYLKKNGLRTTVVADGRQMRAFLETTPVDLIVLDIMMPGDDGLVLCRELRAGKHKATPVLMLTARNDETDRIIGLEMGADDYLVKPFAARELLARINAVLRRTRMLPPNLVVTESGRLLAFGRWRLDTTARHLLDSDGTMVALSGAEYRLLRVFLDHPQRVLNRDQLLNLTQGRDADLFDRSIDLLVSRLRQRLLDDAREPAYIKTVRSEGYVFSLPVEILEASV	PGPT0004100_30	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
D1-35_03945	264			hypothetical protein	ATGAACACCAAAGCCATCTACGCCGCCTGCCTGTTTGCCGCGCTGAACATCTGCACCTTGTCGGCCCGGGCCGAAAGCAACGTTCAGCCGCAGACCTATAGCTACGGCAGCCACCTGGACGTGCGCAAAGTGCTGTCCCTGACCGAAGACCCGCAACCGGCCTGTGGCGTGGTCATTGCCCACATGACGTATCTGGATTCCGCGGGGCACGAGCAGGCGCTGGACTATCGCAAGTTTTCTGATCACTGCACCAACCAGAACTGA	MNTKAIYAACLFAALNICTLSARAESNVQPQTYSYGSHLDVRKVLSLTEDPQPACGVVIAHMTYLDSAGHEQALDYRKFSDHCTNQN				NA	NA	NA	NA	NA
D1-35_03946	1212	dipZ	COG0785	Protein DipZ	ATGCTTCTGATCGCTTTTCTCGGCGGGGTCCTGACGATCCTCAGCCCTTGCATCCTGCCCGTGGTGCCATTCCTGTTCGCCCGCGCCAATCAATCGCGCGGCTCGGTGCTGCTGACTCTGGCCGGCATGGTGCTGACCTTCGCCCTGGTGTCGAGCCTGGCGGTGGTCAGCAGCGAGTGGGTCATCCGCGCCAGCAGCGTCGGCCGGCAAGTCGCCCTGGTGGTGATGGTGCTGTTTGCCTTGTCGCTGATGTTCAGCCGGGTCGGCACCTGGCTCGCACGACCGCTGGTCAGCCTGGGCAATCGCCTCGACGCCGGAGCTGGACGGATGGCTGGGCCGCTGGCGTCGCTGCTGATCGGCGTCGCCACGGGGCTGCTCTGGGCGCCGTGCGCCGGGCCGATCCTCGGAGTGATCCTGACCGGGGCGATGCTGCAAGGTGCCAGCGCGCAAACCAGCCTGCTGTTGCTTGCCTACGGCCTGGGCAGCGCCTTGTCGCTGGGTACGCTGATTCTGGCCGGGCGTGGCCTGATCGGTCGGCTGAAACCGTCGTTGCCAATCACCGCGTGGCTGCGTCGGGCGACGGGCGGGCTGGTGTTGCTGGCGGCCGTGGCGATCGGCAGCGGGGCAGATGACCGGTTGTTGGCGGCGACGTCCTCCGAACAGTCCGCCAGCCTGGAAAAAAGCCTGCTGGAGAACGTGCCCAAGGCCATCGATTACGTGGTCAGCAAGGCTGACGCCAGCAGCCTGCCGCCCCTGGATGCCCAAGGCGCGATGCCTTCGCTGGCAGGCGCGGTGCAATGGCTCAACTCGCCACCGCTGAACAGCGAGTCACTGCGGGGCAAAGTGGTGCTGGTGGATTTCTGGACCTACGATTGCATCAACTGCCAGCACACACTGCCGTACGTGCATGGTTGGGCGAAGAAATACGAGAAGGACGGGCTGGTGGTGATCGGCGTGCATACGCCGGAATACGGCTACGAGAAGATCATCGATAACGTCCGCGAACAGGTGCGCAAGCTCGACATCCATTACCCGGTGGCCATCGACAACCAGTATTCGATCTGGCGCGCCTTCAACAACCAGTACTGGCCGGCCCATTACTTCATCGATGCCAAGGGGCAGGTGCGCTACAGCCACTTTGGCGAAGGGCGTTATGCAGAGCAGGAGCAAGTGATTCAACAACTGCTGCAAGAAGCGAAGGCCAGCAACTGA	MLLIAFLGGVLTILSPCILPVVPFLFARANQSRGSVLLTLAGMVLTFALVSSLAVVSSEWVIRASSVGRQVALVVMVLFALSLMFSRVGTWLARPLVSLGNRLDAGAGRMAGPLASLLIGVATGLLWAPCAGPILGVILTGAMLQGASAQTSLLLLAYGLGSALSLGTLILAGRGLIGRLKPSLPITAWLRRATGGLVLLAAVAIGSGADDRLLAATSSEQSASLEKSLLENVPKAIDYVVSKADASSLPPLDAQGAMPSLAGAVQWLNSPPLNSESLRGKVVLVDFWTYDCINCQHTLPYVHGWAKKYEKDGLVVIGVHTPEYGYEKIIDNVREQVRKLDIHYPVAIDNQYSIWRAFNNQYWPAHYFIDAKGQVRYSHFGEGRYAEQEQVIQQLLQEAKASN				NA	NA	NA	NA	NA
D1-35_03947	330			hypothetical protein	ATGCGCGTTTCTATATGGATCGCGGCGGCCATGTTGCTGACCGCTGTCTCGCTTGAAGCCCAGGCCAGGGCGCTTACCTCTAACCAGAAGTCGGTGTGTCGCTGGGGTTCGGACATTGCGGCGGGCGCCCAGGCGTCGAAGCTGTCCGGTGTCAGCCTGTATGGGGCGCGCAAGAAGCTGCAGGTGCGCAAGTTTGCGCGGCCATGGATGCGCATGACTGCCTTGGGCATTACCGAGCAGACCTACAACAGCGCATCGCGGCTCAAGCCTGCCGCCGTCAAGCAGACCTATTACGAACAATGCGTGCGTCACGAACTGGCCCGACGATAA	MRVSIWIAAAMLLTAVSLEAQARALTSNQKSVCRWGSDIAAGAQASKLSGVSLYGARKKLQVRKFARPWMRMTALGITEQTYNSASRLKPAAVKQTYYEQCVRHELARR				NA	NA	NA	NA	NA
D1-35_03948	1866	acoR_4	COG3284	Acetoin catabolism regulatory protein	ATGCTTTCCGCTCACTCCCGGGCGCATGTGGATTGCGTCAGCCGCGTGCTGAAGAACGCCGCGCAGCTGCCGCAACTGCCGGTGCCGGACCTGATCTTCGACTCCTGGCGCCGCTCCATGGAGCAACATCACCTGGACCCAGGCTCATTGCAGGGCCCGCGCATCCTTTCCCACGAAGTGCTCAAGCAATGTCGCGAGCGCTCGGAACTGTTCCTCAACATCGCCAGCGATGAAGTGGCGCGCCTGCATGGCCGGGTGCGTGATGCCGACTATTGCGTGCTGCTGACCGATGCCCAGGGCCAGACCATCGACTATCGGGTGGAAACCACCCTGCGCAACGACTGCCGCAAAGCCGGGTTGTACCTGGGCACCTGTTGGTCGGAGGGTGAAGAAGGCACTTGCGGCGTGGCGGCCGTGCTCACCGCCAGGACGGCGGTGACGGTACACAAGCGCGACCATTTTCGCGCCGCGTTCATCGGCCTGACCTGCTCCGCCGCGCCGGTCTTCGATCCGCAAGGAGAACTGCTCGGGGTACTGGACGTTTCGGCGGTGCGTTCGCCGGACGATCGACGTTCTCAGCATCTGATCCGGCAAATGGTGGTGCAAAGCGCACGGGAGATCGAACAGGCGTTTTTCATGAGCAGTGCCCAGGGCTACTGGGTCTTGCGCGCCCATCGCAACGCCGGCTACGTCGACAGCCAGCCGGATTTCCTGTTCGCCTGGGATGACGATGGTTGCCTGCAAGCGCTTAACCCGGCGGCGCGCCATTACTTGCTGGAGCGCTACGGCCAGATGCCCCGGCATATCAGCCAGGTCTTCGACCCGCAGCTGTTGCACCGCGCCCGTGACGAAAGCCTCTATCCGCTCGACCCGTTCCTGCACGGCCGCCTGAGCGCGCCGCGACGCCGGGCGACCCCACGCAAGCGCGCCACGATGACCTCGACCGAGCTCGATCCACGCCTGGCCGACAGCCTGAGCCTGGCGGTGCGGGTCAAGGATCGCAACCTGCCGGTGCTGATCCAGGGCGAGACCGGATCCGGCAAAGAAGTCTTCGCCCGCCAGTTGCATCAGGCCAGCCAGCGTCGAGACCGACCTTTCGTGGCCCTGAACTGCGCGGCGATTCCGGAAAGCCTGATCGAAAGCGAATTGTTCGGTTATGTCGCCGGCGCCTTTACCGGCGCTTCGGCCAAAGGCATGCAGGGCCTGCTGCAACAAGCCGATGGCGGCACACTGTTTCTCGACGAAATCGGCGACATGCCCCTGACCCTGCAGACCCGCCTGTTGCGGGTACTGGCCGAAGGCGAAGTGGCGCCGCTGGGGGCCGCGCGGCGCAAGGCGGTGGACATCCAGGTGATCTGCGCTACCCACCGTGACCTGGAAACCCTGGTGGCAGCCGGCGAGTTTCGCGAGGATCTGTACTTCCGCCTCGGCGGTGCCCGGTTTCAATTGCCGCCGTTACGCGAGCGCACCGACCGGCTGGCGTTGATCAACCGCATCCTCGAGGAAGAATCGACCCTGTGCGGGGGCGCGGTGCAACTGAGTGGCCCAGCGCTGGAATGCCTGCTCGGTTACCACTGGCCGGGCAATGTGCGCCAGTTGCGACATGTACTGCGTTATGCCTGTGCGGTCTGCGAAGGGAGCGTGGTCCAGCTCAGTCATTTACCGGAGTCACTGCACGGCAGCGAAACCGCTGTTCGGGGGCCAGAACCCAGCGCCAGCCCGGAACGCCAGGCGCTGCTCGATGCCCTGGTGCGTCACCGCTGGAAACCCACCCCGGCGGCCCGGGCCCTGGGTATTTCCCGTGCGACGCTGTATCGCCGGGTGCATCAGCATGGCATCGAAATGCCCGGCAGGAGCCCCGGCTGA	MLSAHSRAHVDCVSRVLKNAAQLPQLPVPDLIFDSWRRSMEQHHLDPGSLQGPRILSHEVLKQCRERSELFLNIASDEVARLHGRVRDADYCVLLTDAQGQTIDYRVETTLRNDCRKAGLYLGTCWSEGEEGTCGVAAVLTARTAVTVHKRDHFRAAFIGLTCSAAPVFDPQGELLGVLDVSAVRSPDDRRSQHLIRQMVVQSAREIEQAFFMSSAQGYWVLRAHRNAGYVDSQPDFLFAWDDDGCLQALNPAARHYLLERYGQMPRHISQVFDPQLLHRARDESLYPLDPFLHGRLSAPRRRATPRKRATMTSTELDPRLADSLSLAVRVKDRNLPVLIQGETGSGKEVFARQLHQASQRRDRPFVALNCAAIPESLIESELFGYVAGAFTGASAKGMQGLLQQADGGTLFLDEIGDMPLTLQTRLLRVLAEGEVAPLGAARRKAVDIQVICATHRDLETLVAAGEFREDLYFRLGGARFQLPPLRERTDRLALINRILEEESTLCGGAVQLSGPALECLLGYHWPGNVRQLRHVLRYACAVCEGSVVQLSHLPESLHGSETAVRGPEPSASPERQALLDALVRHRWKPTPAARALGISRATLYRRVHQHGIEMPGRSPG	PGPT0001030_1519	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
D1-35_03949	1074			hypothetical protein	ATGAGTCGCCGTCCGCTCACCGTCGGCATCATCGCCAACCCCGCCTCGGGCCGTGACGTACGCCGTCTGACCGCCAACGCCGGGCTGTTTTCCAGTACCGACAAAGTCTCGGTGATCCAGCGCCTGCTGGCCGCGTTCGGCGCCACCGGCATCGAACGGGTGCTGATGCCGACCGACATGATCGGCATGGCCGCCGCCGTGCTGAAGAACAGCCACAGTCGTCAGGCCCGTAGCAGCCGTTGGCCGGCCCTGGAGTTTCTCGACCTGACCCTGCGCCAGACCGTCGAAGACACCCGCCGGGCCGCGCGCCTGATGGCCGAGCGCGAAGTGGCGCTGATCGCGGTGCTCGGCGGCGACGGTACCCACAAGGCAGTGGCCGCCGAAGTCGGTGATATTCCATTACTGACCCTTTCCACCGGCACCAACAACGCCTTCCCGGAGCTGCGCGAGGCCACCAGTGCCGGGCTGGCCGGCGGGTTGTACGCCAGCGGGCGGATTCCAGACCTGATCGGCTTGCGTCGCAACAAACGCCTGCTGGTCTGCGACGCCGGGCGTGGCTTGCGGGAAGTTGCGCTGGTGGATGTCGCCGTGTCGCCGCTGCGCTTTGTCGGCGCCCGGGCCATCAGCCGGGCGCAGGATCTGGCCGAAGTCTTCGTGACCTTTGCCGAACCGCAATCCATTGGCCTGTCGGCGCTGTGCGGCTTGTGGTTGCCGGTGTCCCGCCAGGCCCCGGGCGGCGCCTGGATGCGCCTGGACCCGCAATCGCCCGAAGCGCTGCTGGTGCCACTGGCCCCCGGTCTGCTGCAGGGCTGTGGCGTGCTTGCCGCCGGCCCTTTGGAGCCAGGCGTTGCCCACGGCTTGTCGCTGTCCAGCGGCACGCTGGCCCTGGACGGCGAGCGGGAAATCGAATTCAACGTCCATGACCGACCCACGATCACCCTCGATGCCGGCGGCCCGCTGAGCATCGACGTCAACGCGGTGCTCAGCTACGCCGCGCAACAACGCTTGTTGGCCATCGGTCGCGAGCACCCGCAACACCCCTTGAACCTTCAAGAAGACACCCCTGGAGAATAA	MSRRPLTVGIIANPASGRDVRRLTANAGLFSSTDKVSVIQRLLAAFGATGIERVLMPTDMIGMAAAVLKNSHSRQARSSRWPALEFLDLTLRQTVEDTRRAARLMAEREVALIAVLGGDGTHKAVAAEVGDIPLLTLSTGTNNAFPELREATSAGLAGGLYASGRIPDLIGLRRNKRLLVCDAGRGLREVALVDVAVSPLRFVGARAISRAQDLAEVFVTFAEPQSIGLSALCGLWLPVSRQAPGGAWMRLDPQSPEALLVPLAPGLLQGCGVLAAGPLEPGVAHGLSLSSGTLALDGEREIEFNVHDRPTITLDAGGPLSIDVNAVLSYAAQQRLLAIGREHPQHPLNLQEDTPGE	PGPT0013490_1102	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858	NA	NA
D1-35_03950	978	acoA	COG1071	Acetoin:2,6-dichlorophenolindophenol oxidoreductase subunit alpha	ATGTCGACACCGCTCACCCACGATCAATTGCTGCACGCCTATCAAGTGATGCGCACCATCCGCGCCTTCGAAGAGCGCTTGCACGTGGAGTTCGCCACCGGCGAGATCCCCGGTTTTGTTCACCTTTATGCAGGCGAAGAGGCTTCGGCCGCTGGCGTCATGGCCCATCTGGGCGATGACGATTGCATCGCCTCCAACCACCGGGGCCATGGCCATTGCATTGCCAAGGGCGTCGATGTCTACGGGATGATGGCCGAGATCTACGGCAAGAAAACCGGCGTCTGCCAAGGCAAGGGCGGCTCGATGCACATTGCCGATTTCGAGAAAGGCATGCTCGGTGCCAACGGCATCGTCGGCGCCGGTGCGCCGCTGGTGGTCGGCGCCGCCCTGGCGGCCCGGCTCAAGGGCACCGACAGCGTCGCCGTGGTGTTTTTCGGCGACGGCGGCTCCAACGAAGGCGCGGTTTTCGAAGCCATGAACATGGCCTCGGTGTGGAACCTGCCGTGTCTGTTCATCGCGGAAAACAATGGCTACGCCGAAGCCACCGCGTCGAACTGGTCGGTGGCCTGCGATCACATCGCCGACCGCGCCGCCGGCTTCGGCATGCCCGGGGTGACGGTCGACGGCTTTGACTTCTTCGCCGTGCATGAAGCGGCCGGTGCCGCCGTCGAGCGCGCCCGGGCCGGGGAAGGGCCGTCGCTGATCGAGGTCAAGCTGACCCGCTACTACGGCCACTTCGAGGGCGACGCCCAGACCTATCGAGCGCCGGATGAGGTCAAGCATTTTCGCGAGAACCAGGACTGCCTGATGCAGTTCCGCGAGCGCACCACGCGGGCCGGTCTGCTCACGGTCGAGCAGTTGGACCAGGTCGACAAGGAAGTCGAGCTGCTGATCGAAAACGCCGTGTACAAGGCCAAGTCCGATCCCAAGCCCGCGGCTGCCGACCTGCTGACCGACGTCTACGTCAGCTATCCCTGA	MSTPLTHDQLLHAYQVMRTIRAFEERLHVEFATGEIPGFVHLYAGEEASAAGVMAHLGDDDCIASNHRGHGHCIAKGVDVYGMMAEIYGKKTGVCQGKGGSMHIADFEKGMLGANGIVGAGAPLVVGAALAARLKGTDSVAVVFFGDGGSNEGAVFEAMNMASVWNLPCLFIAENNGYAEATASNWSVACDHIADRAAGFGMPGVTVDGFDFFAVHEAAGAAVERARAGEGPSLIEVKLTRYYGHFEGDAQTYRAPDEVKHFRENQDCLMQFRERTTRAGLLTVEQLDQVDKEVELLIENAVYKAKSDPKPAAADLLTDVYVSYP	PGPT0008230_706	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008230-acoA-K21416	NA	NA
D1-35_03951	1017	acoB	COG0022	Acetoin:2,6-dichlorophenolindophenol oxidoreductase subunit beta	ATGGCGAGAAAAATCAGCTATCAGCAGGCAATCAACGAAGCCCTGGCCCAGGAAATGCGCCGCGACTCCAGCGTGTTCATCATGGGCGAGGACGTCGCTGGCGGCGCCGGTGCACCCGGTGAAAACGACGCCTGGGGCGGCGTGCTCGGCGTCACCAAGGGGCTTTACGACCAGTTTCCCGGACGCGTGCTGGATACGCCGCTCTCCGAGATCGGCTACGTCGGCGCGGCGGTCGGCGCGGCCACCTGCGGTGTGCGCCCGGTGTGCGAGCTGATGTTCGTCGACTTCGCCGGGTGCTGCCTGGACCAGATCCTCAACCAGGCGGCGAAATTTCGCTACATGTTCGGCGGCAAGGCCTCCACGCCCCTGGTAATCCGCACCATGGTCGGGGCGGGCCTGCGCGCCGCCGCCCAGCACTCGCAGATGCTCACGTCCTTATGGACGCACATTCCCGGGCTGAAAGTGGTGTGCCCGTCATCGCCGTACGACGCCAAGGGCCTGCTGATCCAGGCGATTCGCGACAACGACCCGGTGATCTTCTGCGAGCACAAGTTGCTCTACAGCATGCAAGGCGAGGTGCCGGAGGAGCTCTACACCGTGCCGTTCGGCGAAGCCAACTTCCTGCGCGACGGCAAGGACATCACGCTGGTGTCCTATGGCCGGCTGGTCAACACCGCGCTGGACGCGGCGCGCAACCTCGCCGGGCGCGGCATCGATTGCGAGGTGATCGACCTGCGCACCACCAGCCCGATGGACGAGGACAGCATCCTCGAAAGTGTCGAGAAGACCGGCCGCCTGGTGGTGATCGACGAGGCCAACCCGCGCTGCTCGATGGCCACCGATATCTCGGCGCTGGTCGCGCAAAAAGCCTTCGGTGCGCTCAAGGCGCCGATTGAAATGGTCACCGCGCCACATACCCCGGTGCCGTTCTCCGATTCCCTGGAAGACCTGTACATCCCCGACGCGGCGAAGATCGAACAAGCCGTGCTCAACGTGATCGAGTGGAGCAAGCGCTGA	MARKISYQQAINEALAQEMRRDSSVFIMGEDVAGGAGAPGENDAWGGVLGVTKGLYDQFPGRVLDTPLSEIGYVGAAVGAATCGVRPVCELMFVDFAGCCLDQILNQAAKFRYMFGGKASTPLVIRTMVGAGLRAAAQHSQMLTSLWTHIPGLKVVCPSSPYDAKGLLIQAIRDNDPVIFCEHKLLYSMQGEVPEELYTVPFGEANFLRDGKDITLVSYGRLVNTALDAARNLAGRGIDCEVIDLRTTSPMDEDSILESVEKTGRLVVIDEANPRCSMATDISALVAQKAFGALKAPIEMVTAPHTPVPFSDSLEDLYIPDAAKIEQAVLNVIEWSKR	PGPT0008235_470	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008235-acoB-K21417	NA	NA
D1-35_03952	1113	acoC		Dihydrolipoyllysine-residue acetyltransferase component of acetoin cleaving system	ATGAGCCAGATTTTTACCCTGACCATGCCCAAGTGGGGCCTGTCGATGACCGAGGGCCGGGTCGATGCCTGGCTCAAGGAAGAGGGGCAGGCCATCACCAAGGGCGATGAAGTGATGGACGTCGAGACCGACAAGATCTCCAGCAGCGTGGAGGCGCCGTTTTCCGGCATCCTGCGTCGGCAGGTCGCCCGTCAGGACGAAACCCTGCCGGTCGGCGCCTTGCTCGGTGTCGTCGTCGAAGGCGAGGCCAGCGACGCCGAGATCGATGCGGTTATCGAGCAGTTCCAATCCAATTTCGTCCCGGGCGACGCCGCCGATGAGGACAGCGGTCCGAAACCGCAGAAAATCGAGTTGGACGGGCGGGTGATCCGTTACTTCGAGCGCGGTGAGGGCGCTACGCCCCTGGTGCTGATACATGGTTTTGGCGGCGACCTGAACAACTGGCTGTTCAACCATGAAGCCCTGGCCGCCGGACGGCGGGTCATTGCCCTGGACCTGCCGGGCCATGGTGAATCGGCGAAAACCCTGCAACGCGGCGATCTCGATGAATTGAGTGGCGTGGTGCTGGCCTTGCTCGATCACCTGGATATCAACGCGGCTCACCTGGTGGGGCATTCGATGGGCGGGGCGGTGGCGTTGAATGTCGCACGACTGATGCCGCAACGCTTGCGCTCGCTGACCCTGATCGGCAGCGCCGGCCTGGGCGCGGAGATCAATGGCAGCTACCTGCAGGGCTTCGTCGACGCCGCCAACCGCAATGCCCTCAAGCCGCAGCTCGTGCAACTGTTCTCGAATGCCGAGCTGGTCAACCGCCAGATGCTCGACGACATGCTCAAGTACAAGCGCCTCGAAGGCGTGGACGCGGCCCTGCGCCAACTGGCCGAGAGTGTTTTCAAGGACGGCCGCCAACAGGTGGACCTGCGCGAAGTGGTCCAGGCCGGCCACGTTTCGACCCTGGTGATCTGGGGCAGTGACGACGCGATCATCCCGGCGGCTCATGCCGACGGCTTGGCGGCGCGGGTCGAGGTGCTGCCAGGCCAGGGGCATATGGTGCAGATGGAGGCAGCCGAGCAGGTCAATCGATTGATCCTGGATTTCATTCAGCAGCACTGA	MSQIFTLTMPKWGLSMTEGRVDAWLKEEGQAITKGDEVMDVETDKISSSVEAPFSGILRRQVARQDETLPVGALLGVVVEGEASDAEIDAVIEQFQSNFVPGDAADEDSGPKPQKIELDGRVIRYFERGEGATPLVLIHGFGGDLNNWLFNHEALAAGRRVIALDLPGHGESAKTLQRGDLDELSGVVLALLDHLDINAAHLVGHSMGGAVALNVARLMPQRLRSLTLIGSAGLGAEINGSYLQGFVDAANRNALKPQLVQLFSNAELVNRQMLDDMLKYKRLEGVDAALRQLAESVFKDGRQQVDLREVVQAGHVSTLVIWGSDDAIIPAAHADGLAARVEVLPGQGHMVQMEAAEQVNRLILDFIQQH	PGPT0001390_6374	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
D1-35_03953	1095	ydjJ	COG1063	putative zinc-type alcohol dehydrogenase-like protein YdjJ	ATGAACGTTTCAATCAAGCCGACCCGCAGCATGCGCGCCGCCGTCTGGCATGGCCGCAACGACATCCGCGTCGAAGACGTGCCGCTGCCTGTTCCACCGCCTGCCGGTTGGGTGCAGATCCGCGTGCAATGGTGCGGCATCTGCGGCTCGGACCTGCATGAATACGTGGCTGGGCCAGTGTTCATCCCGGTGGACGCGCCGCACCCGCTGACCGGCATCAAGGGCCAGTGCATCCTCGGTCATGAATTCTGCGGTGAAATCGTCGAATTGGGCGCCGACGTCGAAGGCTTCAGCGTCGGCGAGCCGGTGGCGGCCGATGCCTGCCAGCATTGCGGCACCTGTTATTACTGCACTCATGGGCTGTACAACATCTGCGAGAACCTGGCGTTCACCGGATTGATGAACAACGGCGCGTTCGCTGAATTGGTCAACGTCCCGGCCAACCTGCTCTACAAGCTACCGGCGGACTTCCCCGCCGAGGCCGGCGCGCTGATCGAGCCGCTGGCGGTGGGCATGCACGCGGTGAAGAAGGCCGGCAGCCTGCTGGGTCAGAACGTGGTGGTGGTCGGCGCCGGCACCATCGGCCTGTGCACCATCATGTGCGCCAAGGCCGCCGGCGCGGCCCAGGTGATTGCCCTGGAAATGTCCGGCGCGCGCAAGGCCAAGGCCCTGGAAGTCGGCGCCAGCCACGTCATCGATCCCAACCAGTGCGATGCCCTGGCCGAAGTAAGCCGCCTGACCGGCGGCCTGGGGGCTGACGTCAGTTTCGAATGCATCGGCAACAAGCACACCGCCAAGTTCGCCATCGACCTGATCCGCAAGGCCGGCAAATGCGTGTTGGTGGGCATATTCGAAGAACCGAGCGAGTTCAACTTCTTCGAGCTGGTGTCCACCGAGAAACAGGTGCTTGGCGCGCTGGCCTATAACGGCGAGTTCGCCGACGTGATCGCCTTCATCGCCGACGGGCGCCTGGACATTTCACCGCTGGTAACCGGGCGCATCCAGCTGGAGCAGATCGTCGGGCAGGGTTTCGAGGAATTGGTCAATAACAAGGAGCATAACGTCAAGATCATCGTGTCTCCGGCACGGATCTGA	MNVSIKPTRSMRAAVWHGRNDIRVEDVPLPVPPPAGWVQIRVQWCGICGSDLHEYVAGPVFIPVDAPHPLTGIKGQCILGHEFCGEIVELGADVEGFSVGEPVAADACQHCGTCYYCTHGLYNICENLAFTGLMNNGAFAELVNVPANLLYKLPADFPAEAGALIEPLAVGMHAVKKAGSLLGQNVVVVGAGTIGLCTIMCAKAAGAAQVIALEMSGARKAKALEVGASHVIDPNQCDALAEVSRLTGGLGADVSFECIGNKHTAKFAIDLIRKAGKCVLVGIFEEPSEFNFFELVSTEKQVLGALAYNGEFADVIAFIADGRLDISPLVTGRIQLEQIVGQGFEELVNNKEHNVKIIVSPARI	PGPT0008200_103	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008200-butB-K00004	NA	NA
D1-35_03954	501			hypothetical protein	ATGCAGGCCACGGGGCCGGCCGCGCAAGGCTGGATGGACCGGCTGGCCGACTCGTCGCTGGCATTGGCCATGCGCGACGAGCTATGGCTGTACCCGCTGGTGGAGGTGCTGCACATCATCGGCTTTTCGGTGCTGGTGGGCGCGGTGGTGATGTTCGACTTGCGCGTCCTCGGCCTGTCCAAGGCCATCGCCGTGACCGCCCTCGCCCGGCACCTGCTGACCTGGGCCGTTGCGGCCCTGCTGCTGATCGTACCGGCCGGGCTGATGATGTTCAGCGCGCACCCGCAGGATTTCGCCGGCAATAACGTCTTTATCCTCAAGCTCGGTCTGATTGCGGCGGCGGGCATCAACGCCATGCTGTTTCATGCTGGAACCTACCGTTCGGTCGAACAATGGAATACCGGCCAGAAGGCCCCCGGGCTGGCGCGTGTCCAGGCACTGGTATCGATCGCGCTATGGATCACGGTGATTCTCTGCGGTCGACTGCTGGCCTACACCTGA	MQATGPAAQGWMDRLADSSLALAMRDELWLYPLVEVLHIIGFSVLVGAVVMFDLRVLGLSKAIAVTALARHLLTWAVAALLLIVPAGLMMFSAHPQDFAGNNVFILKLGLIAAAGINAMLFHAGTYRSVEQWNTGQKAPGLARVQALVSIALWITVILCGRLLAYT				NA	NA	NA	NA	NA
D1-35_03955	351			hypothetical protein	ATGAACTTCACCCTTCGCTGCATTGGTTTATCGTCGTTGCTGGTCGCCACGGCGGCGTTTGCCCACCATGGCTGGAGCGAATACGACGCCAGCAACCCCTTGACGCTGGAAGGCACGATAAAGCAATCCGGGTATTCCCATCCCCACGGCACCGTGCGCCTGCAAACCACCGACAAGACCTGGACCGTAGTGCTGGCGCCGCCCTCACGCATGGAAAGCCGCGGGCTGACCAAGGACATGCTCAAGGCGGGTAACTCAGCCACCGTGGTCGGCTATGCCAACCGCAACAAACCCGATGAACTGCGCGCCGAGCGCATCACCATTGATGACAAGACCACCGAGTTGCGCTGA	MNFTLRCIGLSSLLVATAAFAHHGWSEYDASNPLTLEGTIKQSGYSHPHGTVRLQTTDKTWTVVLAPPSRMESRGLTKDMLKAGNSATVVGYANRNKPDELRAERITIDDKTTELR				NA	NA	NA	NA	NA
D1-35_03956	555			hypothetical protein	ATGAACTATTTCCTGGCCCAGGCCCTGAACAACCAATGGGCCAACCACCGGCTGCTGGGCGCCTGCACGCAACTGAACACGGCCGAATACGAAGCCTACCGCACCAGCTTTTTCCCCTCCATCCAAGCCACGCTGTGCCACATCCTTGAGGTTGACCGTTATTACCTGACTGCCCTGGAAGGCGATGTTGACGGCCAGGAACGGGATTTCTACCAGACCCTGGCTTTCGCTGAGCTCAAGGAAAACCAGGGCAAGACCGACCAGCGGCTGGTGGCTTTCTGCGAAACCCTGCGGGAAACGGACCTTGCCCGCTCCATCGACCTGGTGCGCTCCGACGGCAGGGTATGCGAGCGGATCGACCGGTTGCTGTTGCACCTGTTCGAGCACCAGATCCACCACCGCGGCCAAGTCCATACCATGCTCAGCGCCACCCACGTCGAGCCGCCGCAACTCGATGAATTCTTTCTCGACTGCGACCGACGTTTCCGCGAGGTCGAGGAACAGCTGCTCCAACTCGACGGGCAGCGGGTCTGGAGCGAATATCATCCCAATTGA	MNYFLAQALNNQWANHRLLGACTQLNTAEYEAYRTSFFPSIQATLCHILEVDRYYLTALEGDVDGQERDFYQTLAFAELKENQGKTDQRLVAFCETLRETDLARSIDLVRSDGRVCERIDRLLLHLFEHQIHHRGQVHTMLSATHVEPPQLDEFFLDCDRRFREVEEQLLQLDGQRVWSEYHPN				NA	NA	NA	NA	NA
D1-35_03957	918	dapA_4	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGAGCAAACGCATCAACTGGAGCGGCGTATTCCCCGCTGTCACCACCCAATTCAACGACGACTTTTCGATCAACCTGGAAAAAACCCACCAAGTCATTTCCAACGTCATCCGCGATGGCGTTTCCGGCCTGGTGGTCTGTGGATCCGTGGGGGAAAACACCTCCCTGAGCGCCGAGGAAAAAATCGCCGTGACCGAAGTGGCGGTGGACGCCTCCCGTGGCAGGGTGCCGGTGATATGCGGCGTGGCCGAGTTCACCAGCGTGCAGGCCGCCAAGGTCGCCAACGCAGTGCGCAAGGTCGGTGTCGACGGGGTCATGCTGATGCCGGCGCTGGTCTACGGCTCCAAGCCGTTCGAGACCGCCGAACATTTCCGCTACGTGGCCCGGCATGCCGACGTGCCGCTGATGGTCTACAACAACCCGCCGATCTACAAGAACGATGTCACCCCGGACATCCTGATTTCCCTGGCCGACTGCGACAACGTGGTGTGTTTCAAGGATTCCTCCGGCGACACCCGCCGCTTCATCGATGTGCGCAACGAAGTCGGTGATCGCTTCGTGCTGTTTGCCGGTCTCGATGACGTGGTCCTGGAAAGCCTCGCCGTCGGCGCCGAGGGCTGGGTCTCGGGCATGTCCAACGTGTTCCCGAAAGAAGGCGAAACCATCTTCCGCCTGGCCCGCGCCGGACGGTTCGCCGAAGCCATGCCGATCTACGAATGGCTGATGCCGATCCTGCACCTGGACGCCCGCGCCGACCTGGTCCAATGCATCAAGCTGTGCGAAGCCATCGCCGGTCGCGGCAGCGCCCTCACCCGCCCACCGCGCCTGGCCTTGCCGGAAGAAGACCGCGTGTACGTGGAGCAGATCATGGCCAAGGCCCTGGCCAATCGGCCGGCGTTGCCGGATGTGGGGCTGTAA	MSKRINWSGVFPAVTTQFNDDFSINLEKTHQVISNVIRDGVSGLVVCGSVGENTSLSAEEKIAVTEVAVDASRGRVPVICGVAEFTSVQAAKVANAVRKVGVDGVMLMPALVYGSKPFETAEHFRYVARHADVPLMVYNNPPIYKNDVTPDILISLADCDNVVCFKDSSGDTRRFIDVRNEVGDRFVLFAGLDDVVLESLAVGAEGWVSGMSNVFPKEGETIFRLARAGRFAEAMPIYEWLMPILHLDARADLVQCIKLCEAIAGRGSALTRPPRLALPEEDRVYVEQIMAKALANRPALPDVGL	PGPT0002080_3671	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
D1-35_03958	1029		COG3938	putative trans-3-hydroxy-L-proline dehydratase	ATGCGCTCATCAAAAATCATCCATGTAGTCAGCTGCCACGCCGAAGGCGAAGTCGGCGATGTGATCGTCGGCGGCGTCGCGCCGCCACCCGGCGCCACCGTTTGGGAACAGTCACGCTGGATCGCCCAGGACCAGACCCTGCGCAACTTCGTCCTCAACGAACCCCGGGGCGGTGTGTTTCGCCACGTCAATCTGCTGGTGCCGGCCAAGGACCCGCGGGCGCAAATGGCCTGGATCATCATGGAGCCGGCCGACACGCCGCCGATGTCCGGCTCCAACTCGCTGTGCGTCGCCACCGTGCTGCTGGACAGCGGCATCCTGCCGATGAGCGAACCCCAGACGCGGTTGGTGCTGGAAGCACCGGGTGGCCTGATCGAAGCCGTGGCCGACTGCCGCGACGGCAAGGTGCAGCGGGTCGAGATCAAGAATGTGCCCTCGTTCGCCGACCGCCTCGATGCCTGGATCGAAGTCGAAGGCCTGGGTTCGCTGCAAGTGGACACGGCCTACGGCGGCGATAGCTTCGTCATCGTCGACGCCCAGCGCCTGGGCTTCGCCATCCGGCCTGACGAGGCGGCCGAGCTGGTGGCCGTGGGGCTGAAAATCACCCGCGCGGCGAACGAGCAATTGGGCTTCGTGCACCCGTTGAACGCCGACTGGTCGCACATATCTTTCTGCCAGATCGCCGCACCCCTTGTGACGGAAAACGGCATCGCCACCGGCGCCAACGCCGTCGTCATCCAGCCCGGCAAGATCGACCGCTCCCCCACTGGCACCGGCTGCTCGGCGCGCATGGCGGTGCTGCACGCCAAAGGCTTGATGCAACTGGGCGAGCGGTTTATCGGCCGCTCGATCATCGGCTCCGAATTTCATTGCCGGATCGATTCACTGACCGACGTGGCCGGACGCCCGGCGATCTACCCGTGCATCGCCGGACGGGCGTGGATTACCGGTACCCACCAGTTGTTGCTCGACCCAAGCGATCCGTGGCCGCAGGGCTATCGGCTTTCGGATACCTGGCCGGGGGCATGA	MRSSKIIHVVSCHAEGEVGDVIVGGVAPPPGATVWEQSRWIAQDQTLRNFVLNEPRGGVFRHVNLLVPAKDPRAQMAWIIMEPADTPPMSGSNSLCVATVLLDSGILPMSEPQTRLVLEAPGGLIEAVADCRDGKVQRVEIKNVPSFADRLDAWIEVEGLGSLQVDTAYGGDSFVIVDAQRLGFAIRPDEAAELVAVGLKITRAANEQLGFVHPLNADWSHISFCQIAAPLVTENGIATGANAVVIQPGKIDRSPTGTGCSARMAVLHAKGLMQLGERFIGRSIIGSEFHCRIDSLTDVAGRPAIYPCIAGRAWITGTHQLLLDPSDPWPQGYRLSDTWPGA	PGPT0014240_180	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014240-prdF-K01777	NA	NA
D1-35_03959	723	glnQ_7		Glutamine transport ATP-binding protein GlnQ	ATGATTGAGATCGAAAACGTGCACAAATCATTCGGCAACCTGGAAGTGGTCAAGGGCGTCAGCCTGACGGTGGACAAGGGCGAAGTCGTCTCGATCATCGGCGGCTCCGGCTCCGGCAAGTCCACCCTGCTGATGTGCATCAACGGCCTGGAGCCAATCCAGAAAGGCAGCATCCGCGTGGATGGCGTGGAGGTCCACGACAGCGCTACCGATCTCAATCGCTTGCGGCAGAAGATCGGCATCGTCTTCCAGCAATGGAACGCCTTTCCCCACCTCACCGTACTGGAAAACGTCATGCTCGCGCCGCGCAAGGTCTTGGGCAAGAGCAAACAGGACGCCGAAGCGCTGGCGGTGCGCCAGCTTGAGCACGTCGGCCTGGGCGACAAGCTCAAGGCCTTCCCCGGCAAGCTGTCCGGCGGCCAGCAACAGCGCATGGCCATCGCCCGGGCGTTGGCGATGTCACCCGACTACATGCTGTTCGACGAAGCCACCTCGGCGCTGGACCCGCAACTGGTGGGTGAGGTGCTGGACACCATGCGCATGCTCGCCGAGGACGGCATGACCATGGTGCTGGTGACGCACGAGATCCGCTTCGCCCGCGACGTCTCCGACCGGGTGGCGTTCTTTTGCAATGGTCGGGTCCACGAAATCGGCCCGCCGGACCAGGTGATCGGCAATCCGCAGCAGCCGGAGACGGCGGCGTTTCTGAAATCGGTGAAATAG	MIEIENVHKSFGNLEVVKGVSLTVDKGEVVSIIGGSGSGKSTLLMCINGLEPIQKGSIRVDGVEVHDSATDLNRLRQKIGIVFQQWNAFPHLTVLENVMLAPRKVLGKSKQDAEALAVRQLEHVGLGDKLKAFPGKLSGGQQQRMAIARALAMSPDYMLFDEATSALDPQLVGEVLDTMRMLAEDGMTMVLVTHEIRFARDVSDRVAFFCNGRVHEIGPPDQVIGNPQQPETAAFLKSVK	PGPT0014280_32	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0014280-lhpO-K23064	NA	NA
D1-35_03960	651	artQ_2	COG0765	Arginine transport system permease protein ArtQ	ATGTTTTCTACAAGCCTTACCGTTAATGACGTGCTGTACCTGCTTGAGGGGGCCTGGGTCACGGTGCAATTGACCGCGTGGTCGATCCTGCTGGGCACCGTCGCCGGGTTGCTGTTCGGCTTGCTACGGGCGTTGCTGCCCCGCGCCAGCCTGCCGTTGGCCTGGGTATTGGACGTGTTTCGCAGTGTGCCGTTGCTGATCCAGTTCGTGCTGTTCAATTCCCTCAAGAGCATCGTCGGCCTGGACCTCAGTGCTTTCGCCGTCGGTTGTATCGTGCTCGGCGTCTACGCCGCCGCGTATTTCACCGAGATCGTCCGCGGTGGCGTGCTGGCGGTGCCGCTGAGCACCCGGCGGGCCAGTCGTTCCCTGGGCCTGAGCTACGTGCAGGACTTGCGCTTCATCGTCCTGCCGATCGCCACGCGGGTGGCCTTCCCTGGCTGGTTAAACCTGGTGCTGGGGGTGATGAAAGACACCGCCCTGGTGATGTGGATCGGCATCGTCGAATTGCTCCGCGCCTCGCAGACCATTGTCACGCGGATTCAAGAACCCCTGCTGGTGCTGTGCATCGCGGGCCTCATCTACTACGTCATGAGCCTGGTGGTCGCCCGCCTCGGCGCGCGCCTGGAAAGAAGGTGGCAGGAAAATGATTGA	MFSTSLTVNDVLYLLEGAWVTVQLTAWSILLGTVAGLLFGLLRALLPRASLPLAWVLDVFRSVPLLIQFVLFNSLKSIVGLDLSAFAVGCIVLGVYAAAYFTEIVRGGVLAVPLSTRRASRSLGLSYVQDLRFIVLPIATRVAFPGWLNLVLGVMKDTALVMWIGIVELLRASQTIVTRIQEPLLVLCIAGLIYYVMSLVVARLGARLERRWQEND	PGPT0014275_83	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0014275-lhpM-K23063	NA	NA
D1-35_03961	666	occM_3		Octopine transport system permease protein OccM	ATGTTTGACTACAGCTTCCAATGGCGCCCGGCCCTGCGCGCGCTGCCCGATATGCTCGCCGGCGCCTGGGTGACCTTCGAAACGGCCGCGCTGTCGATGATTTTCGGCGTGCTGATCGCCCTGCTCCTGACGGTAATGCGCCAGGCCCGTCATCCGTTGTTGCGCGGCGTTGGCAACGGTTGGGTATCGATCGCCCGCAACACGCCGTCGTTGTTCCAGATCTACATCCTCTATTTCGGTCTCGGCTCTCTCGGCCTGCACGTCAGTTCATGGTTCGCCTTGCTGGCCGGTATCACCTTCAACAACGCCGGCTATCTGGCCGAGAACTTTCGCGGCGGACTCAAGGCGGTGCCGGGCACGCAGATGCGCGCCGCCCGTTCCCTGGGCATGAGCGCGTTCCAGGCCTACCGGATGATCATCGTCCCGCAATTGCTGCGCATCGTCTTCTACCCCCTGACCAACCAGATGGTCTGGGCGGTGCTGATGACATCCCTGGGCGTGGTGGTCGGCTTGAACAACGACCTCACCGGCGTGACCCAGGAATACAACGTCAAGACCTTCCGCACCTTCGAATACTTCGCCCTCGCGGCGCTGCTGTACTACCTGATCGCCAAGCTGATCGTCGGGCTGGCCCGGCTGTTGTCCTGGCGGCTGTTTCGTTATTGA	MFDYSFQWRPALRALPDMLAGAWVTFETAALSMIFGVLIALLLTVMRQARHPLLRGVGNGWVSIARNTPSLFQIYILYFGLGSLGLHVSSWFALLAGITFNNAGYLAENFRGGLKAVPGTQMRAARSLGMSAFQAYRMIIVPQLLRIVFYPLTNQMVWAVLMTSLGVVVGLNNDLTGVTQEYNVKTFRTFEYFALAALLYYLIAKLIVGLARLLSWRLFRY	PGPT0014270_25	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0014270-lhpN-K23062	NA	NA
D1-35_03962	1779			hypothetical protein	ATGCCGAGCACGCCTATCCGCCTGCAGGGCCGCAGCCTGGTCGAGGGTGCCGTCGAGGGCAGCCTGTTGTTCGCCGATGTCGGCCTGAGCTTTTGGGGCGGGGTTGATCCGGCCACGGGCGAAGTCATCGACCGACACCACCCGCTCAGTGGCGAGCGCCTGGCCGGGCGCGTGCTGGCGATTCCCAGCGGGCGTGGCTCTTGCACCGGCAGCAGCGTGTTGATGGAACTCATCAGCAACGGTAATGCACCGGCGGCACTGGTGCTGGCCGAAGCCGATGAAATCCTGACCCTGGGGGTGCTTGTCGCCGAGGTGGTTTTCCAGCGCTCGCTACCGGTGCTGTGCATCGGCAGCGAGGCATTCAGCACTTTGCGCGGCCAGGGCTTCGGGCGTGTCGAGGGCAACCGCCTGACCTTGTCCGGGCGTCGGCCCAACGACCAATGGCGTGGGGAAAATACTTGCGCGCAGCCGTTCCGGCCCTCCACTGTCCGCTTGAACGAACGGGACCAGGCGCTGCTTGACGGGGTCCATGGCAAGGCTGCCCAGGTGGCGATGCAAATCGTCTTGCGCATGGCCGACATCCAGGGCGCCGGACAATTGCTGGACATCACCCAAGCCCACATCGACGGCTGCATTTATACCGGCCCGGCCAGCCTGCGTTTTGCCGAACAACTGGTGCAGTGGGGCGCGAAGGTTTGCGTGCCCACCACCCTCAATTCGATTTCCGTGGACCAGCGCCGCTGGCGTGAGCTCGGCGTCGATCCGGCCCTGGGCGAGCCGGCCAGTGCCTTGGGCGACGCCTACATGGCGATGGGCGCGCAATTGAGTTTCACCTGTGCACCCTACCTGCTCGACACCGCGCCGACGGCGGGTGAACAGATCGTCTGGGCCGAGTCCAACGCGGTGGTCTATGCCAACAGCGTGCTTGGTGCGCGGACGCAGAAGTACCCGGACTTCCTCGATATCTGCATTGCCTTGTGTGGCCGAGCGCCGCTGGCCGGTTGTCATCTCGATGACCAGCGCAAGGCCGGCCTGATCGTCGAGGTGCCGAGGATCGAATCAGCGGATGACAGCTTCTACCCGCTGCTCGGCTATCACATTGGCAGCCTCACGGGGCGGCGTATCCCGCTGATCCGAGGCCTGGAAGACGCCGCGCCGACCCTGGACGACCTGAAAGCCTTCGGCGCCGCGTTCGCCACCACCAGCGCGGCGCCGTTGTTCCACATCGCCGGGGTGACGCCGGAGGCCATGGACCCGGCCCAGGTGCTGGATCACGACGCCGTGTTATCGGTGAAAACCGTGGACGCGACGGGACTGCTCGCCAGTTGGCGCGAACTCAACAGCGCCCGGCACCGCCATGTGGATGTGGTTTCCCTGGGTAACCCGCACTTCTCCCTGAGCGAATTCGCCACCCTGGCGAACCTTTGTGCGGGACGAACCAGGCACCCCGATGTGGTAGTGGCGATCACCTGCGGTCGCGCCGTGCTGGAGCAGGCTCGCCAGGCCGGTTACCTGGAGCCCATCGAGGCTTTCGGCGCGACGCTGGTCACCGACACCTGCTGGTGCATGCTGGGTGAACCGGTGATCCCTCCGGCCGCCACGACCCTGATGACCAATTCCGGCAAGTACGCCCACTACGCACCCGGCCTGGTGGGGCGCAGCGTGCACTTCGCCAGCCTCGGGGATTGCGTCGAGGCCGCCTGTACCGCCACGGCCAGCGGCCAGCCGCCGCAGTGGTTGCAACCTATCGCACGCAAGGGAAACCCGAGCCATGTTTGA	MPSTPIRLQGRSLVEGAVEGSLLFADVGLSFWGGVDPATGEVIDRHHPLSGERLAGRVLAIPSGRGSCTGSSVLMELISNGNAPAALVLAEADEILTLGVLVAEVVFQRSLPVLCIGSEAFSTLRGQGFGRVEGNRLTLSGRRPNDQWRGENTCAQPFRPSTVRLNERDQALLDGVHGKAAQVAMQIVLRMADIQGAGQLLDITQAHIDGCIYTGPASLRFAEQLVQWGAKVCVPTTLNSISVDQRRWRELGVDPALGEPASALGDAYMAMGAQLSFTCAPYLLDTAPTAGEQIVWAESNAVVYANSVLGARTQKYPDFLDICIALCGRAPLAGCHLDDQRKAGLIVEVPRIESADDSFYPLLGYHIGSLTGRRIPLIRGLEDAAPTLDDLKAFGAAFATTSAAPLFHIAGVTPEAMDPAQVLDHDAVLSVKTVDATGLLASWRELNSARHRHVDVVSLGNPHFSLSEFATLANLCAGRTRHPDVVVAITCGRAVLEQARQAGYLEPIEAFGATLVTDTCWCMLGEPVIPPAATTLMTNSGKYAHYAPGLVGRSVHFASLGDCVEAACTATASGQPPQWLQPIARKGNPSHV				NA	NA	NA	NA	NA
D1-35_03963	819		COG0834	putative amino-acid ABC transporter-binding protein	ATGAAAAACCCTGCATTGGCCGTAGCCCTCGGCGTGGTCCTGTTTCCCCTGCTTACCCTTCCCGCCCATGCCGACAAACTCGACGACATCATCGGCTCGGGGAAACTGCGTTGCGCCGTGACACTGGACTTCCCACCGATGGGCTTTCGTGATGAAAGCAACAAACCGGCAGGATTCGACGTGGACTATTGCCACGATCTGGCGAAGGTTCTCGGCGTCGACGCGGAGGTTGTAGAAACGCCATTCTCCGACCGAATCCCCGCGCTGCTCTCGGGCCGCGCCGATGTCATCGTCGCCTCCACTTCCGACACCCTGGAGCGGGCCAAGACCGTCGGCCTGACCGTGCCCTACTTCGCGTTCCAGATGGTCGTGCTGACCCGCGACGACACGGGCATCAACGGCTACGCCGACCTCAAGGGCAAGAAGCTCGGCAACACCAGCAGCACCTATGAAGCCATCGCCCTGGAGAAAGACCAGAAGAGCTGGGGCAGCGGCAGTTTCCGTGCCTATCAATCGCAGAACGACACACTGCTGGCCGTCGCCCAGGGCCACATCGATGCCACCGTGGTGACCAACACCGTCGCTGCCGCGACCATCAAATCGGGCAAGTACAAGGGCCTGAAAATCGCCGGAGACGCGCCTTACGTCATCGACTACGTATCCCTCGGCGCCAAACGCAACGAATACGGCCTGCTCAATTACCTCAACCTGTTCGTCAACCAGCAGGTGCGGACCGGCCGCTACAAGGAGCTCTTCGTGAAGTGGGTCGGCACCGAAATCCCGCCGGCCAACCTGACCGTGCCGCAGGTTTATTACTGA	MKNPALAVALGVVLFPLLTLPAHADKLDDIIGSGKLRCAVTLDFPPMGFRDESNKPAGFDVDYCHDLAKVLGVDAEVVETPFSDRIPALLSGRADVIVASTSDTLERAKTVGLTVPYFAFQMVVLTRDDTGINGYADLKGKKLGNTSSTYEAIALEKDQKSWGSGSFRAYQSQNDTLLAVAQGHIDATVVTNTVAAATIKSGKYKGLKIAGDAPYVIDYVSLGAKRNEYGLLNYLNLFVNQQVRTGRYKELFVKWVGTEIPPANLTVPQVYY	PGPT0014265_35	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0014265-lhpP-K23061	NA	NA
D1-35_03964	750	rhaS_10		HTH-type transcriptional activator RhaS	ATGTACCCCTCACTCGCCTCCCTGCCCCCCTGCGACCTCGACACCCTGCTCCAGAGCCTGCAACCCATCGCGCCGCTGCTCGACACCCTCATCGACACAGTGTTCTTCATCAAGGACAACCTGGCCCGCTATGCCTTCGTCAACCAGACCCTGGCCCGACGCTGCGGCTTCAAGGAGCGCAACGACCTGCTCGGCCTCACCGCCGAACAGGTATTCCCGGAACGCTTCGGCCCGCTGTACACCGAACAGGACCGCCGAGTGCTCGCCAGCGGAAGAGAACTGGCCGACCAACTCGAACTGCACCTGTATTACGGCAACCAGCCAGTGTGGTGCCTGACCCACAAACTGGCCCTGCACGACCTCACTGGCCGGATCGTCGGCCTGGCCGGAATCTCCCGTGACCTGCAACTGCCACAATCGAGCCACCCGGCGTTCCAGAAGCTGGCGGCGGTGGATGCGCACATCAAGCGCCACTTCGCCCGTACCATCAGCCTGGCCGAGCTGACCGCCATCGCCGGGTTGTCGGTTGCGCAACTGGAGCGACACTGCAAGCGCATCTTCCAGCTCACGCCCCGACAGATGATTCACAAGGCGCGCCTGGAAGAAGCCTCGCGCTTGCTGCTGGAGCAGGACCTGCCCATCACCGAGATCGCCCTGCGCTGCGGCTACACCGATCACAGCGCGTTCAGTCGCCAGTTCCGCGCCCTGACCAGCCTGTCTCCCAGCCAATATCGGGAAAACCAGCGCTGA	MYPSLASLPPCDLDTLLQSLQPIAPLLDTLIDTVFFIKDNLARYAFVNQTLARRCGFKERNDLLGLTAEQVFPERFGPLYTEQDRRVLASGRELADQLELHLYYGNQPVWCLTHKLALHDLTGRIVGLAGISRDLQLPQSSHPAFQKLAAVDAHIKRHFARTISLAELTAIAGLSVAQLERHCKRIFQLTPRQMIHKARLEEASRLLLEQDLPITEIALRCGYTDHSAFSRQFRALTSLSPSQYRENQR				NA	NA	NA	NA	NA
D1-35_03965	642	dctD_4		C4-dicarboxylate transport transcriptional regulatory protein DctD	ATGCCACTCAGCCTGCAAGCCAAGTTGCTGCGTGTCCTTGAGGTGCGAGCCATCGAGCGTTTGGGCTCTACCACGGTCATTCCACTGGATATCTGTGTGATTGCCTCGGCCCAGCGGCCCTTGGCCGAGTTGGTGGAGCGGGGTGAGTTCAGGCGCGATCTGTATTTTCGCCTCAATGTGCTGACGATCCAGTTGCCAGCGCTACGTGACCATCGCGAAGACATCGTTCCACTGTTTTCCCAGTTCGTGAACGCAGCTGGGCAAGACCTGGGGTGCGCACCGAAACCCATATCTCCCGAGCTCATGCAGACACTGCTGAGCCATCCCTGGCCGGGCAATATCCGTGAACTGAAATCGGCGGCCAAGCGATATGTCCTGGGGCTGGCGTCGATAACCCTAGGCTCAGGCACGGAGATCGAGGGGCGCACGCTCAAGGCGCAAATGCGTGCTATCGAACGCATCCTTATCCAGGAAGCCCTCAAGCGTCACGGGCACTCGATTGATGCGGCGAGTGTGGAATTGGGCATACCCCGTAGAACCCTTTATCACCGGATCAAATCGTTGGATGTATTCGGCAAGGCATCTTTGCTTGAAAAAAATCTGGAACCTGATTCGGAGAACTTTCCACCCATTATTACCTAG	MPLSLQAKLLRVLEVRAIERLGSTTVIPLDICVIASAQRPLAELVERGEFRRDLYFRLNVLTIQLPALRDHREDIVPLFSQFVNAAGQDLGCAPKPISPELMQTLLSHPWPGNIRELKSAAKRYVLGLASITLGSGTEIEGRTLKAQMRAIERILIQEALKRHGHSIDAASVELGIPRRTLYHRIKSLDVFGKASLLEKNLEPDSENFPPIIT	PGPT0017310_1124	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017310-dctD-K10126	NA	NA
D1-35_03966	351			hypothetical protein	ATGGTCGGAAAAATCTCGTCTAGTAATCCTTTTGCGAACATTACCGATGCCGCAATTGCGGGCACCAATGCATTTCAAGGTACCAAGCAAGCAGTCAATGATGTTAAAGGCAACGCTGCGCAGCAATCTCAAGCGACGCGTATGTCTGGCGGGGGTGATGCCGCGTCTGCACAAGTGGCGGCAATGGAAAGCATGGACAAAAAACAGGCTCAGATGATTGCGCTGCAGAATAAGGCGGCTGAGCAGAACCTGATGCAGAATACCATGGCCTCTATTGCCGGGGCTCAAGCCGATACGGCGAACAAGTCTATTTCGAACGTCGCCCAGACGATGAAAGGCATTAGCTATTAA	MVGKISSSNPFANITDAAIAGTNAFQGTKQAVNDVKGNAAQQSQATRMSGGGDAASAQVAAMESMDKKQAQMIALQNKAAEQNLMQNTMASIAGAQADTANKSISNVAQTMKGISY				NA	NA	NA	NA	NA
D1-35_03967	741			hypothetical protein	ATGATGTCCGGCGGCAAGCCAGACTTTGACAGCCCCTTGGGCAAGATGGTCAAGGACAAACTGTCCGAGAAGGGCGGGATGGGTCTAATGGGTATGGCATCGAATCCTCAAGAGACCTTGAAGAACGCCCTGATGGACGTTGTTAAAGACAAGATGGGTAGCAACTTCATTGCCAATGCCGGAGGCCGGGACAGTAAAGACCTCATGGGGCAAGTGGTGGGCGGCTTGGCTCAGTCCGCGTTGAATAACGCACTGGAACGCAAAGGCGACGGGACGACCTTTTCCAAGGCTGACAAGCCACTGCTTCAGCAAGTGGCTGATTATATGGACAAGAACAAGGCCACCTTTGGAGCGCCAGATTCCGGTTCCTGGAGTAAAGAGCTGGATGAGGACAACTATCTGTCAACGGGGGAAACCGCCAAATTCAAACAGGCGATTGAACAAGTGGCTCAGCACACGGGAGGCTCGGGGAGCAGAACTGATTATCCCGGGGTGACGGCGGGAGGACAAGGTGGCTTGGGCAGCAGTCCTGCGCCAACGAGTGGGGGCATGAGTGATATTGAGCAAGTGCGCCAGATGATAAAAGGTAGCGAAGGCATGGAGGGTTTTCAACAAGGATTGCAGCTAGGGTTGGGAATCGCTTCCGACTCGCCGTCCGGCCTCGCGATGAATCAAGGCGAACACACCGCTGCCCATGCCGCGCAGAACGTCCTCGACGTGATGCGCGCCAGCGTAACTTAA	MMSGGKPDFDSPLGKMVKDKLSEKGGMGLMGMASNPQETLKNALMDVVKDKMGSNFIANAGGRDSKDLMGQVVGGLAQSALNNALERKGDGTTFSKADKPLLQQVADYMDKNKATFGAPDSGSWSKELDEDNYLSTGETAKFKQAIEQVAQHTGGSGSRTDYPGVTAGGQGGLGSSPAPTSGGMSDIEQVRQMIKGSEGMEGFQQGLQLGLGIASDSPSGLAMNQGEHTAAHAAQNVLDVMRASVT				NA	NA	NA	NA	NA
D1-35_03968	357			hypothetical protein	GTGACCATTTCCAATGTGAATTCATTCAGGGGCGTCGCCCCAGAACATGAGCTGGAGATGGTTTCCGCTCCCGCCCAGGCCGATGTAGATCTGTTTGACAATGCCATGCGCGGCAATCATGAACCTGCTGGCCTGGCAAGTAGCCTGATGGGTGCCATTTCGGATCGCCTCGCCGGCCAAGCCGAACTCTCGCATCAGGCTGAGCGCGCAATGAAGTCCGCGTCGGTTTCCACGGATCCGATGGATATATTGAAGATGAGTGGAACCCTTTCCCAATATTCATTGCAAACGGCACTCACCACCAAGGTAGTGAGCAAAGGCGCACAAGTGCTCGATAAACTGACCAATCTGCAATAG	MTISNVNSFRGVAPEHELEMVSAPAQADVDLFDNAMRGNHEPAGLASSLMGAISDRLAGQAELSHQAERAMKSASVSTDPMDILKMSGTLSQYSLQTALTTKVVSKGAQVLDKLTNLQ				NA	NA	NA	NA	NA
D1-35_03969	804			hypothetical protein	GTGAAAGTACCCGGCTTATTAACCGTTCTGGCGTTGCTCGCGCTCGCCGGATGCAGCGACGACACCGTGCTGTTCAGTGGCATGACTGAGCAGCACTCCAACTCAGTGATCGCCAAGTTGGCCCAGGAGCACATCGCGGCCCGTAAGGAGATGGAAAAAGCCGGCGTCACCGTAATCGTTGCCAACGGTGATGTGAACCGCGCGGTGAGGGTGCTTGATGCAGCAGGTCTGCCGCATCAGACACGGACCAGCCTGGGAGAGATATTCAAGAAGGAAGGGGTCATCTCTACGCCTCTGGAAGAGCGTGCCCGCTATATCCATGCGCTGTCGCAGGAGTTGGAGTCGACGTTGTCCCAGATCGACGGGGTCATCGTCGCTCGCGTGCATGTCGTCTTGCCGGAGCGTATCGCGCCGGGCGAGCCGGTTCAGCCGGCTTCCGCCTCGGTGTTCATCAAGTATGCGGCGTCGACGCTGGATCCGGACAGTGTCCGCGGGCGTATTCAACAGATGGTTGCCAGCAGCATTCCTGGGATGAGTCAGGACAGCAGCGCGGCAAAGAAATTTTCGATTGTATTCGTGCCGGCGGTGGAGTTTCAGGATCCGGAACATCTGGTGCCTTTCGGTCCGTTTCTGATTGACAGCGAGGATGCCGGATTCTGGTGGGTGATGGTCGTCACCTTGCCGCTGTGCCTGGTGTCCATCGCGGGGGGCGGGGTCCTGATGTTGCGTCCGGACTGGCGCCAGGCATTGTTTGCGCGCTTGCGCGCCAAGCGTCGGCCAACCGGTTTGCCCGCACAGCTATGA	MKVPGLLTVLALLALAGCSDDTVLFSGMTEQHSNSVIAKLAQEHIAARKEMEKAGVTVIVANGDVNRAVRVLDAAGLPHQTRTSLGEIFKKEGVISTPLEERARYIHALSQELESTLSQIDGVIVARVHVVLPERIAPGEPVQPASASVFIKYAASTLDPDSVRGRIQQMVASSIPGMSQDSSAAKKFSIVFVPAVEFQDPEHLVPFGPFLIDSEDAGFWWVMVVTLPLCLVSIAGGGVLMLRPDWRQALFARLRAKRRPTGLPAQL	PGPT0029650_217	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029650-yscJ|sctJ|hrcJ|ssaJ-K03222	NA	NA
D1-35_03970	579			hypothetical protein	ATGTTAGTTCGCCGAAATTTGTCCTTGGGCGATCACCCCCTGGGGAGCGAGTTGATCGTTCGTCAAGAACGGTTCGCCGACTACCGGACAGCCATTGATGTGCTGTCGCAGGCACGGGCCGACGCGGATGCATTGGTGCTGCAGGCGGAAAACCTGCGGCAGGAATATCTGGATCAAGCGCTCGCTGAGTTCTGGGGCCAGGCCAGTTGTTTTCTGCAAGCGCTTGAGGCAGAACGTCAGCAATGCAGGAACAGTGTGATTGATGTTTGCCGGGAATTATTGAACATTGTCATTGACCGGCTGTTCGATGAGTTCCAGCCCCAGGAGCGTGCCAGAATCTTGCTGGAGCACCTGGCGGCTTCCCGTGCATACCCCACCGGTAGCGCCACCTTGAGGTGCCATCCAGAGCTTTTCAGCGAAGTGCAGGCTTGGCTTGCAGCCGACAACGCTTCGGCTCTTTGGCAACTGAGAGAGGACATTACGATGCCGCTCCAGTCCATTCGTCTGAGCACCGACGCCGGCGAGTACGACGTTGATTGGATCGGTCTACAACGCTCATTCCGGGCCACGGCAATTTAA	MLVRRNLSLGDHPLGSELIVRQERFADYRTAIDVLSQARADADALVLQAENLRQEYLDQALAEFWGQASCFLQALEAERQQCRNSVIDVCRELLNIVIDRLFDEFQPQERARILLEHLAASRAYPTGSATLRCHPELFSEVQAWLAADNASALWQLREDITMPLQSIRLSTDAGEYDVDWIGLQRSFRATAI	PGPT0029655_381	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029655-yscL|sctL-K03223	NA	NA
D1-35_03971	225			hypothetical protein	ATGATCAACTTTAAATCCGTCCAGAACCAGTTGGAGAACAATTTCTCCAACGCCCATGAAACGGCGAATGATGCAGCATTGGCTGCTGCTGAGAGCGGCAACCCTGAAGACATGAGGGCTTTCGCTCAAGCGAGCCAATCAGTGGCCACCGCGACCGTTGTCATGAGCGAGGGTATGCGTGCTCATCACGGCATGACCAAAGCGATCATTGATGGAATTCAGTGA	MINFKSVQNQLENNFSNAHETANDAALAAAESGNPEDMRAFAQASQSVATATVVMSEGMRAHHGMTKAIIDGIQ				NA	NA	NA	NA	NA
D1-35_03972	426			hypothetical protein	ATGGAATTCAGTGAGTTCAGCGCGGGACTGACCCGGTGGCTCGATGACCGTTCGGTCGCACCTCTGGATTGCTGGGTTGACGGTGCGAACGTGCAGCTTGCCTGGGTTGAAGAAGGAGTGCGCTGCAGCATCGACGTATTGGATCCGTTTGACGCCAGCGCGCCAGATCGATTGATGGGCATCCTGGCACAGGGTGGCGCAAGCGTTGCGTGCCGTTGTCCGGGGGCGTTGGGTACCGACCCGCAAAGCCAGTGTTTGGTGCTGGTGTACTGGATGTCACCGCCCGGTTCGGTCGAGGCCTTGCTGGGAGTGCTAGAGACCCTGGCCAATCAGCGCGCAGCCATGCTTAGCCTGATGCATAAAACCTTATTTGACTCGCCTTCGGCCGAGTCCCGTCTAGCAACTAATTGGCACACTGGAGTGTGA	MEFSEFSAGLTRWLDDRSVAPLDCWVDGANVQLAWVEEGVRCSIDVLDPFDASAPDRLMGILAQGGASVACRCPGALGTDPQSQCLVLVYWMSPPGSVEALLGVLETLANQRAAMLSLMHKTLFDSPSAESRLATNWHTGV				NA	NA	NA	NA	NA
D1-35_03973	2079	sctC_2		Type 3 secretion system secretin	ATGCATAAGGCCTACCGGTGGTTACCGTGGCTGTTATTGGGACTGAGCGCCCCGGCGCTCGCGGCGATACCGCCAGAGTGGAAACAAACGGCCTATGCGTTCGACGCGCAACAGAGCGAGCTTTCCAGTGTTCTTGAAGCATTTTCCCGAGAGTTTGGCGTCAGCCTTGAAATGGATCCCGTCGAAGGGGTCGTTGAGGGGCGTATCCGCGCGGACAGCCCGCAGGCGTTTCTGGATCGATTGGGCCAACAGCATCAATTTCAGTGGTTCGTCTACAACAACACGCTGTACGTCAGCGCGGCCCGTGACCAGATAACCGAGCGAATCGAGGTATCCCCGGACGCCGTTGATGACCTCAAAGGCGCACTGACTGAACTCGGCTTGCTCGATTCACGATTTGGCTGGGGTGTCCTGCCGGATGAGGGCGTGGTGTTGGTCAGCGGGCCCGCGCGGTATGTTCAGTTCATTCGCGACTACAGCAGTAACGTCGACAAACCCGAGGAAAAGCAGGATGTCGTGGTGTTGCCCTTGCGTTACGCAAACGCCGCTGATCGCACCATCAGTTACCGTGATGAACAGCTGACCGTTTCAGGGGTAGCCACGATCCTCAAGGAGTTGCTGGATAGCCGCCCGCAAGGCGGATCAGGTAGCGTCTTCAATGTGTTGCAAGGCGCGGGACTGGGCGCTGGGGCAAGCAGCGGAAGCAGCTTTGCAGGTACTCCGAGTTTGCTGGGCGGCTTGGCCGATGATCAGTTGCAGCAAACCCTGGATCGCGTGATTGCCGGCGCCGGCGGCGCTCAGAACAAGGGCGGCTCCGCTGGCAGGTCGCGGATACGGGTCGCAGCCGACGTCCGCAACAATGCGGTGCTGATCTACGATTCGCCCAAACGCCGCGCCTTGTACGAGAATCTGGTCAAGCAGCTTGATGTGCCGCGCAACCTGATCGAAATCGACGCAGTGATCTACGACATCGACCGCGACGAGTTGGCCGAGTTGTCCAGTAACTGGAATGTCTGGGCCGGAGGGACCAATGTCAGGGGATCCTTGCTTGAATCCGGCAGCTCCACGCTGTCGGCCGAAAACGCCGGGCGATTCGCCCTGGCGGTCCGTACGCTTGAAGCCAAGGGGGCGGCGACGGTGATCAGCAATCCTTCGATCCTCACCTTGGAGAACCAGCCCGCTGTCATCGATTTCAGCCGGACCGAGTTCCTCACCGCGACCGGAGAGCGGGTCGCCGATATCCAGCCGATTACTGCCGGAACCAGCCTGCAAGTGGTGCCGCGCTCGATGCAGCACAACGGCAAGACGCAGGTGCAGTTGATCCTTGATATCGAGGACGGGCAAATCGAAGCATCACTGCTTGATGGCACCAAACCCAGCGTGCGAAACGGCAGTGTCAGCACTCAGGCGGTCATCGCCGAGCGTGGATCGTTGGTCGTCGGTGGTTTCCATTCTCTGCAATCGAGCGACAGGGTCAGCAAAATCCCTTGGCTCGGTGACATTCCGCTGATCGGAAAATTGCTGTTCACCTCCAGCAGCCGCAGCACCAGCAAGATTGAACGCTTGTTCATTCTGACGCCTCGGTTGGTGGGCAACCAGGTTGACCCGGCACGTTATGTCGAAAGCGGCAACCCGGAAGATATCGACTCCGCCGGCCAGCGGATCAATGGGCGCCATGGCGACGGGCAACCCACCCGAGTTGAGATTCAGCGCGCGTTCACTCAGTTGTTGAGTGACGTGCAACCGACTGGCTTTACGCCGAGTAACGAGCCTTTGTTCACGCCGTCGACTTTATGCGCGACGCAGCAGGGCCTGGTCATCGATGCCGATCGCAGCCAGTGGTATGGGCGCAATGCCTGGAGTATCGGCGTGGTGGTCGCGCGTAATACTGGCGATAAACCGCTGCGCATCGATGAAAGCAATTGTGGCGGGCGCTGGGTCCTGGGTGTCAGTGCATGGCCTCGCGCCTGGTTGCAGCCTGGGGAACAGAGCGAAGTATATGTCGCGTTGCGTAATCCCCAGTCGCTCAGGAGCAACGCGCCCCTTCGCGACTCGTTACTCAAGGAGACTACCCAATGA	MHKAYRWLPWLLLGLSAPALAAIPPEWKQTAYAFDAQQSELSSVLEAFSREFGVSLEMDPVEGVVEGRIRADSPQAFLDRLGQQHQFQWFVYNNTLYVSAARDQITERIEVSPDAVDDLKGALTELGLLDSRFGWGVLPDEGVVLVSGPARYVQFIRDYSSNVDKPEEKQDVVVLPLRYANAADRTISYRDEQLTVSGVATILKELLDSRPQGGSGSVFNVLQGAGLGAGASSGSSFAGTPSLLGGLADDQLQQTLDRVIAGAGGAQNKGGSAGRSRIRVAADVRNNAVLIYDSPKRRALYENLVKQLDVPRNLIEIDAVIYDIDRDELAELSSNWNVWAGGTNVRGSLLESGSSTLSAENAGRFALAVRTLEAKGAATVISNPSILTLENQPAVIDFSRTEFLTATGERVADIQPITAGTSLQVVPRSMQHNGKTQVQLILDIEDGQIEASLLDGTKPSVRNGSVSTQAVIAERGSLVVGGFHSLQSSDRVSKIPWLGDIPLIGKLLFTSSSRSTSKIERLFILTPRLVGNQVDPARYVESGNPEDIDSAGQRINGRHGDGQPTRVEIQRAFTQLLSDVQPTGFTPSNEPLFTPSTLCATQQGLVIDADRSQWYGRNAWSIGVVVARNTGDKPLRIDESNCGGRWVLGVSAWPRAWLQPGEQSEVYVALRNPQSLRSNAPLRDSLLKETTQ	PGPT0029635_81	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029635-yscC|sctC|ssaC-K03219	NA	NA
D1-35_03974	210			hypothetical protein	ATGAGCAAGATGAACTGGGCTGGGTGCGGCCTTCTGTGTGTGGTGCTCTCCGGTTGCTCGACAGCGTCGGGCGGCTGTTCGGGACCGTCCTGCGACCGGCCGGACTCCAATAGCCGGGAACTGGTGATCTGGTGGCCAGCGGACATGCGTACTGGCTTGGAGAATCCGCGGGAGACCACGGACTATACTATCGTGCCACTGCGGGATTGA	MSKMNWAGCGLLCVVLSGCSTASGGCSGPSCDRPDSNSRELVIWWPADMRTGLENPRETTDYTIVPLRD				NA	NA	NA	NA	NA
D1-35_03975	348			hypothetical protein	ATGATGCAGGTGTCGGGGAAAGCGGAATTCTACGAACAGGTTGCTGCTGGACAAACAGCGATATGGCCGGTAGCGGCGGGGGTTTCTTTCGTGAGTCGCCATGAGCACCATGATTGGGGCATCGCCTTGCACATCGACAGTCGCGCGCTGGAGCCCCAGCAATTGCGTGAGGCGCTGGAGCGGCGCTTCACGCAGTCCTACCTGTTCCCAGACTACTTTCTGTTCCTCGATGCCCACCGCGATTTCGTCGTGTGGCATGCGGTGCCGTCGTCTACCCAAGGTCGCGCGGTGCTCGATGATATCTGCCGACATCAGTTGTTGTTGGCAGGCTTGAGCCCGTTGGACTGA	MMQVSGKAEFYEQVAAGQTAIWPVAAGVSFVSRHEHHDWGIALHIDSRALEPQQLREALERRFTQSYLFPDYFLFLDAHRDFVVWHAVPSSTQGRAVLDDICRHQLLLAGLSPLD				NA	NA	NA	NA	NA
D1-35_03976	1422			hypothetical protein	ATGGACCCGATAGCACCGAACCTGGGACGTACCCTGCCGGATGCTCAAGTCGAGCTTCGGCACCGCCATCGCGGCGCTGATTTGAATGCCTTGGAGCGTGGCGAGGCACCTGATCACCTGCCTGCCTTCACTTCGCGTGCCCGCGCACATGTGGCGGGGCTGAGCCAGGCCTTCCATCGCGATTACCTGGCGCCGGCAGGCAGAGCCACGGGCGCGCTATGGGAAAGCGCCAAGGAACACAGCGCGGCGGTGGGCAACAGCGTTGGACGAGGGGCAAAACTTGCATTGAGCGACAGCCTGGCCAATCTGCCCTCCTCGCGTACGACGCTTGCCGCTGCGGGCCATACGGTCCAACAGATGGTCAACTGCGGAGCACCTACCTATCTACGCGAGTTGGCATTCATGCATGCCTACAGTGCGCTGAACGAGGGCCTGGCGAAAAAAAGCCCAGGGGCAATGCTGGCTTTGCAGGCCGCCGTGTCATTGACGACCATTGCCACCCAGCTCTATGTGCGCCAACCGCGCCTGGATCGTCTCGCGGCCGACTCCAGCGATGCGGTACGCGGGCACTTCGCCCTCAGCGAAGCGAAATGGAACGCTCTGCCCCCCGATAAACAGGACGCGCTGCGGGGACAGATGAAGCGCGATTCGCGCAACATCACGCGCAACCAGGTCGTCGCGGAAGCGCTTTACCTGGGCATGGGCGCCATGGGCGTTGCGCGTGGTGATGGTGCGCTGAGCGCGAGGGTTCTGGCGACCCAGTTACGCGACGTGACCTATGCCCTTTCTCGCGAAACCATGCAGGCCACCTTCAGCATGACCGCGCCTCAGGACAACACCAAGACTTACGGGGTCGACGAGGACAATATGCCAACGCTCGGCTGGGCCTACGGTGCGATGACCCTGAGCATGGGTTTCATGCTTGACTCGATCAGCGAACAGGTTCTACCGCCAGGCCAGACACTGACGAGTCCGGCACTGCTCGGGCCCGATCAGCAACCGTTGCTGGGCGAGGCACTGGCCTCCTCCATCCAGTCACTGGCCGGCACCCGAGCGGCGTTCAACACGGTAGTGGCAGCCCTGGACAATCATCTGCAACGGCATTTCGACACGCGCCAGGTCGGCACCAACCAGGAGTTGAAGCCGAACCTGCCGCTCAAGGACTATGGTCGGGTTCTCGATCAATCGCCGGCCCGTGTTGCCTGGGTCAGCCTTGCTGGCGCAATCAATATGGCCACCGGCGAAGCACTGCGCGACAAGGTCCCGCCCGCTCTTTCCGGTTTTCTCGGCAATCTGGGGACCGCTGCGGCCATGGGGCTGGCCTATCGCACGGTCAACCAAACGTTTCAGTCCCACGCTAGTGTGCGCAAGGCCGTCGACAAACAGTCGACGACAGCTGCCGCCGGGCAACAGCCAGCCTGA	MDPIAPNLGRTLPDAQVELRHRHRGADLNALERGEAPDHLPAFTSRARAHVAGLSQAFHRDYLAPAGRATGALWESAKEHSAAVGNSVGRGAKLALSDSLANLPSSRTTLAAAGHTVQQMVNCGAPTYLRELAFMHAYSALNEGLAKKSPGAMLALQAAVSLTTIATQLYVRQPRLDRLAADSSDAVRGHFALSEAKWNALPPDKQDALRGQMKRDSRNITRNQVVAEALYLGMGAMGVARGDGALSARVLATQLRDVTYALSRETMQATFSMTAPQDNTKTYGVDEDNMPTLGWAYGAMTLSMGFMLDSISEQVLPPGQTLTSPALLGPDQQPLLGEALASSIQSLAGTRAAFNTVVAALDNHLQRHFDTRQVGTNQELKPNLPLKDYGRVLDQSPARVAWVSLAGAINMATGEALRDKVPPALSGFLGNLGTAAAMGLAYRTVNQTFQSHASVRKAVDKQSTTAAAGQQPA				NA	NA	NA	NA	NA
D1-35_03977	948			hypothetical protein	ATGCATTCGTTCAGCTCGCGGTCCCGATCTTCGGGATCAATCCCGCCCCCAGAGCAAACGAGCACATGGTTGTCCGAGGCTGCGGAGCGGCTCGGCATCCCCTCTGCCCAGGCACGAACATTCGCCCGCAGCACCCAACTGTCATTGCCGGGGATGACCTTGCAATTGTCACTCTGGCAGACGTCTCCGGCTCAACAATGGGTAGCGTTTGGCCTGCTGTCACGGCCAGGCGGGTTGCCGGTTGAAGCCTGGAGCGAGTTGCTGCTGCGGTCCAATTGCGCCATATCGGCGATGAACACTAGCAGCGTGAGCCTGAACGACAGCGGTGACGCCTTGCTCGTACTGCGCCTCACCTCACAACCGCACCACCAGCGCGAGATGCTTGCCGATGAGCTGAGCGATCTGTTGTCCATCGCCGAAAGCCTCGTGGCGGGCGCTACCGCACTGCAAGGTAACAAGAGCGGGGCAACTGCACCCGTCAGCACGATGCCCAAGCAAAATGAGCGCTCCGCGCAACAGGCGCAGGCGGCGATGAATCGGCAATGGCATCGTCCAGTGCTGATCGCTGCGCTGCAACATTTGGGTGTCGCCGTCCCACCCGTCGAGCAGATCAAGACTGTCGGTGTCATCCAGGCCAACGGCCGTGTCTATGAAGTGATCGCTGACAGTGATCACCAACACCTGCTCGTCAGTACACCGCTGCCCACCTCACTGATCACGGCGACCCAACGCGAACGCGCACTACTGGCCAACCTACACCTGATGATGCTGACGCAATGTGCCGTGGTTCTCGCGCCGCACGGCAGCGCGTTACAGGCGCGCTGGAACAGCGCGGGGCTGGACGGTCAGGCCTTCGCCGAATGGCTGCTGGATTTCGGCCAACTGGCGGAAAGCTTCCGGCAGACCTCGGCCATTGGTACATCAAGGAATCTCGCATGGACCCGATAG	MHSFSSRSRSSGSIPPPEQTSTWLSEAAERLGIPSAQARTFARSTQLSLPGMTLQLSLWQTSPAQQWVAFGLLSRPGGLPVEAWSELLLRSNCAISAMNTSSVSLNDSGDALLVLRLTSQPHHQREMLADELSDLLSIAESLVAGATALQGNKSGATAPVSTMPKQNERSAQQAQAAMNRQWHRPVLIAALQHLGVAVPPVEQIKTVGVIQANGRVYEVIADSDHQHLLVSTPLPTSLITATQRERALLANLHLMMLTQCAVVLAPHGSALQARWNSAGLDGQAFAEWLLDFGQLAESFRQTSAIGTSRNLAWTR				NA	NA	NA	NA	NA
D1-35_03978	1077	yscU		Yop proteins translocation protein U	GTGAGCGAAAAAACCGAAAAGGCAACGCCCAAGAAAGAGCGCGACGCGAGGGAAAAAGGCCAGGTTGGGCAGAGCCAGGACCTGGCCAAACTGCTGGTGCTGATGGTGGTCAGCGAAGTCTGTCTGGGCATGGCCGAAGAAAGCATGACGCGCCTGCAGCACCTCACCGAATTACCCTTGCGACGATTGAACGAACCCTTCACCAGCACGGCCGTCGAGCTCGGCGGCACAGCATTGTGGACGCTGATTTCCTTCATTGTGGCCAGCGTCGGCGTGGCGATCCTGATACGCCTGGCCGGCACCTGGATGCAGATCGGTTTTCTCTTTGCCCCCAAGGCCCTCGAGGTCGACCTCGGCAAGCTCAATCCAGTCGGCCAGATCAAGCAGATGTTCTCTAAACAGAATCTGATGAACCTGTTGCTGAGCATCCTCAAGGCACTGGCCATTGCGATCATTCTGTATGTCTCGATCATGCCCATCCTGGGCAAGCTGGTGCTGTTGGCCGACACCGATCTCGTTACCTACTGGCGCTCGTTGCTGGAGGTATTTCAGAGCATCTTGCGCAACACCCTTGGGCTGTTGCTGGTAATCGGGATGGTCGACTTTGCCCTGCAAAAATATTTCCACGCCAAGAAGTTGCGCATGAGTCACGAAGACATCAAGCAGGAATACAAGCAGTCCGAAGGCGATCCGCATGTGAAGGGTCATCGCCGTCAGCTGGCGCACGAATTACTCAACTCCGAACCCAGCACCGCCCCCCGGCCGGTCGAGGACGCCGACCTGTTGCTGATCAATCCAACCCACTACGCCGTGGCGCTGTTCTATCGGCCAGGCCAGACCCCTTTGCCGCTGATCCATTGCAAAGGACAAGACGATGAAGCACTGGCGCTGATCAAGCGCGCCCAGATCGCCAGGATTCCGGTGGTCCAGTGTGTCTGGCTGGCGCGCGCGTTGTACACCGTTCGTACGGGTCGACATATACCGCGGGAAACCCTGCTGGAGGTCGCGCACATTTACCAGGTCATTCGCCAGCTTGATGAGGTGACAGAGGAAATCATCCAGCTCGAAACCCACTGA	MSEKTEKATPKKERDAREKGQVGQSQDLAKLLVLMVVSEVCLGMAEESMTRLQHLTELPLRRLNEPFTSTAVELGGTALWTLISFIVASVGVAILIRLAGTWMQIGFLFAPKALEVDLGKLNPVGQIKQMFSKQNLMNLLLSILKALAIAIILYVSIMPILGKLVLLADTDLVTYWRSLLEVFQSILRNTLGLLLVIGMVDFALQKYFHAKKLRMSHEDIKQEYKQSEGDPHVKGHRRQLAHELLNSEPSTAPRPVEDADLLLINPTHYAVALFYRPGQTPLPLIHCKGQDDEALALIKRAQIARIPVVQCVWLARALYTVRTGRHIPRETLLEVAHIYQVIRQLDEVTEEIIQLETH	PGPT0029685_185	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029685-yscU|sctU|hrcU|ssaU-K03229	NA	NA
D1-35_03979	795			hypothetical protein	ATGCCGTTCAATGCCGAGTATCTGTTCGAACTGATGCTCGGTATCGCTTTAGCCATGGCCCGGATCCTGCCGTGCATGATGCTGGTACCGGCATTTTGCTTCAAATACCTCAAAGGGCCGCTACGTTATGCCGTGACCTGTGCGGTTGCGATGGTTCCGGCGCCGAGCATCGGTCGGGTGCTGTCCGGACAACATGATAACTGGCTGATGATCGGTGGCTTGTTGCTCAAGGAAATGGTCCTGGGCGTGCTGTTGGGGTTACTGCTGTATATGCCGTTCTGGATGTTCGCGACGGTCGGCGCGTTGCTCGACAGCCAGCGCGGTGCACTCAGCGGCGGCCAGATCAACCCTTCCCTCGGGCCCGACGCGACACCGCTGGGCGAGCTGCTGCAGGAAGTGCTGATCATGCTGGTCATCCTCTCCGGCGGCCTGTCGCTGATCACCCAGGTTATCTGGGACAGCTACATCATCTGGCCGCCCACCGCATGGCTGCCGATCATGACGGTGGAGGGGCTGGACATATTGCTTGGCGAACTGAACAGGACCATCCAGCACGCATTGTTGTATGCGGCGCCGTTCATAGGGCTGTTGCTGCTGGTCGAGGCCGCTTTCGCCATCGTCGGTCTTTATGCCCAGCAATTGAATGTTTCGATTCTGGCGATGCCGGCCAAGAGCGTCATCGGACTGCTGTTTCTGCTGGTGTATCTGCCCACGCTCCTGGACCTGGGTAACGCCGAGCTTGAGCGCTGGTTCGATCTGAAATTTCTGCTGAGCCTGCTGGTAAAAGTCCCGTGA	MPFNAEYLFELMLGIALAMARILPCMMLVPAFCFKYLKGPLRYAVTCAVAMVPAPSIGRVLSGQHDNWLMIGGLLLKEMVLGVLLGLLLYMPFWMFATVGALLDSQRGALSGGQINPSLGPDATPLGELLQEVLIMLVILSGGLSLITQVIWDSYIIWPPTAWLPIMTVEGLDILLGELNRTIQHALLYAAPFIGLLLLVEAAFAIVGLYAQQLNVSILAMPAKSVIGLLFLLVYLPTLLDLGNAELERWFDLKFLLSLLVKVP	PGPT0029680_321	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029680-yscT|sctT|hrcT|ssaT-K03228	NA	NA
D1-35_03980	267			hypothetical protein	GTGGAAGCGTTGGAGTTGTTCAAGCAGGGCATGTACCTGGTGGTAATTCTTACGGCGCCGCCGCTGATTGTCGCGGTGCTGGTGGGCGTATTGACGTCCCTCGTGCAAGCCTTGATGCAGATCCAGGACCAGACGCTGCCCTTTGGTATCAAGCTGGTTGCCGTGGGCGTGACCCTGGCGGCAACCGGCCGCTGGATCGGTGTCGAATTGATCCTGTTCATCAATATGGCATTCGACCTGATCGCTCGCACCGGAGGCGCCGTTTGA	MEALELFKQGMYLVVILTAPPLIVAVLVGVLTSLVQALMQIQDQTLPFGIKLVAVGVTLAATGRWIGVELILFINMAFDLIARTGGAV	PGPT0029675_168	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029675-yscS|sctS|hrcS|ssaS-K03227	NA	NA
D1-35_03981	654	spaP	COG4790	Surface presentation of antigens protein SpaP	ATGATTCTGGATGGCATGAATCCGATCATGCTCGTGCTGTTTCTGGGTGCGCTGTCGCTGATCCCCTTGTTTTTGATTGTCTGCACCGCATTCCTGAAAATTTCCATGGTCCTGCTGATCACGCGCAATGCCATCGGCGTGCAACAGGTTCCGCCCAATATGGCGCTGTACGGCATTGCCCTGGCGGCGACGATGTTCGTGATGGCTCCGGTGGCGTATGAAATCCAGCAACGGGTTGCCGACAACCCTTTGCAGTTTGGCACCGCCGAACAACTTCAGGCCAGCGTAGACACGGTCATCGCGCCACTGCAAAACTTCATGAGCCGCAACACCGACCCGGACGTCCTGGCTCATCTGGTCGAGAACACCCACCGTATGTGGCCTCCCGAACTGGCCGAAAAAGCCAGCAGCAAGGACCTGCTGCTGGCGATTCCGGCGTTCGTATTGTCGGAACTGCAGGCCGGGTTCGAGATCGGCTTTCTGATTTACATTCCGTTCATCGTCATTGATCTGATCGTCTCCAACCTGCTCCTTGCGCTTGGCATGCAAATGGTCTCGCCCATGACCATTTCGTTGCCGCTCAAACTGCTGCTGTTCGTCCTCGTCCAGGGCTGGACGCGATTACTCGACAGTCTGTTCTATTCCTATCTGTGA	MILDGMNPIMLVLFLGALSLIPLFLIVCTAFLKISMVLLITRNAIGVQQVPPNMALYGIALAATMFVMAPVAYEIQQRVADNPLQFGTAEQLQASVDTVIAPLQNFMSRNTDPDVLAHLVENTHRMWPPELAEKASSKDLLLAIPAFVLSELQAGFEIGFLIYIPFIVIDLIVSNLLLALGMQMVSPMTISLPLKLLLFVLVQGWTRLLDSLFYSYL	PGPT0029670_255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029670-yscR|sctR|hrcR|ssaR-K03226	NA	NA
D1-35_03982	381	hrcQb		Type III secretion protein HrcQb	ATGAGCAATGACCGGCAGGATGAAGATCCGTTGTACGAATTCGACAATAACGATGAGGTGCCAGCCCAAGAGGCAAATGGCAAACAGCAGGAACAGCCAGGGCTGGCGCTCGCAAGCGACGAGCCCGCGCAAGACGCCGCGCCGCAGCAGCCATCTCCCCTGTCCGGCCTTACCCTGGCGTTGACCGTGCGGTGTGGCGAAGTGCGGCTGAGTCTCGAAGCGCTCGGTCGGCTGGCGGCCGGTAGCGTGGTCGATGTAACCGGCATGGCGCCGGGCGCCGCGACCTTGTGCCATGAAGACCGGGTGGTCGCCTACGGTGAGCTGGTGGACGTGGATGGACGCTTGGGCATGCAGATCACTCGCTTGGTATTTGATCAATGA	MSNDRQDEDPLYEFDNNDEVPAQEANGKQQEQPGLALASDEPAQDAAPQQPSPLSGLTLALTVRCGEVRLSLEALGRLAAGSVVDVTGMAPGAATLCHEDRVVAYGELVDVDGRLGMQITRLVFDQ	PGPT0029665_635	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029665-yscQ|sctQ|hrcQ|ssaQ|spaO-K03225	NA	NA
D1-35_03983	723	hrcQa		Type III secretion protein hrcQa	ATGAAAAAACTCAGCCTGCGGCGCCTGTCCAGCACAGCCTCAACGGCCTCCCTGGCGTTGGGGCGCGGCCGTTTTCTGGAGTTCACCAGCGGTGCTGAACAGATACGCATGACGCTCGGCCCGCTGGCACCTTGGGGCGTCGTGGCCGGCGAGCGCCACACAGGTTTTTCCAGCCGACACGGTCCCTTGTTGTTATCCAACGCCAACGCCCTGCTGAGCCTGTGCGGAGAAGTTCCGGTTCTTGCCACCGAGCCGCCGCAAGCCTGGTATTGGCAGTTGATCAATCAACAGCTGGCTCCCGGGCTGTGCGACCTGCTCGCCCCGTTGGAGCCACTGGCCGACGAGCCACTGCTCGACGATCGTCAGCAGTGCCGGGTGTTGATAGAGCGCGGCGCCGAAACGGCTTATGGGGTGCTAAGCCTCGGTGCGGCAACCCTGTTGCAGGTGCTCGATAACGGACCTTGGCGATTCATCGAACACGTCGTGCCAGAGCATTGGGCCCTGTCTCATCCGGTCATCGTTGGCCGCATGGACTTGCTGGCCAATGAGCTGCGCTCGCTACGTCCGGGCGATGTGCTGCTGCCCACCGACGCGGTCTTCGACATCCAGGGTCGGGGAAACCTGCAGTTGGGCCACCAGCGGTGGTCGGTGTGTACCGAAGACCGGAATGATCACTTACAGCTCAGGCTGATTCACGAGGAAGGTTCCATCAATGAGCAATGA	MKKLSLRRLSSTASTASLALGRGRFLEFTSGAEQIRMTLGPLAPWGVVAGERHTGFSSRHGPLLLSNANALLSLCGEVPVLATEPPQAWYWQLINQQLAPGLCDLLAPLEPLADEPLLDDRQQCRVLIERGAETAYGVLSLGAATLLQVLDNGPWRFIEHVVPEHWALSHPVIVGRMDLLANELRSLRPGDVLLPTDAVFDIQGRGNLQLGHQRWSVCTEDRNDHLQLRLIHEEGSINEQ	PGPT0029665_613	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029665-yscQ|sctQ|hrcQ|ssaQ|spaO-K03225	NA	NA
D1-35_03984	561			hypothetical protein	ATGACCACTCCAATCAAGCAATCGCTGCCCCAGCGCCCCGCTGCGCCGACACCTTCCGCGGCGGCCACGAGACCCAGTGCCGCGGCATCCTCGACGCCGCCGGGCAGGGCTGCAGAGACCCAGCGCAACCGTACGGGCGATCCCGGTTCTGCCAGCGACGGCACCAGGCAGCTGAGTGCCGACGCGATGTTGTTCATGCAGATGCTTGTACCGCCGCCGCCCGCCTACTCGGGTGACCAGGGCAACTCGGGTAATGGTTCGAGTTCGTTCTCGATGTTTGCTCCGCTCGACGGGATACCAACGCAGCTGATTGATGAACTGGCCGTGCAGCTGCCGCAACACGGCAATCGCCCTTTCAGCGCCACCTTACTCATGCCCAACCTGGGTAAGGTGCAGATCCGTGCCCAGAAACGGGACAGCCATTGGGACATCGAGCTGGGCCTGGAACGGGCTGACGTGCTGGAGCGACTGAGCAAGCACCATGGCGCCTGTCAGCAAGCGTTCGCCCAGGCGTTGGAGCACGACGTCGAGCTGCGGCTACGGCCGACGGGGCATGCATGA	MTTPIKQSLPQRPAAPTPSAAATRPSAAASSTPPGRAAETQRNRTGDPGSASDGTRQLSADAMLFMQMLVPPPPAYSGDQGNSGNGSSSFSMFAPLDGIPTQLIDELAVQLPQHGNRPFSATLLMPNLGKVQIRAQKRDSHWDIELGLERADVLERLSKHHGACQQAFAQALEHDVELRLRPTGHA				NA	NA	NA	NA	NA
D1-35_03985	444			hypothetical protein	TTGGACGAAGACCTCGATATGGACCCGGAGCGCCAGGCGCTGGAGCGTGTCATTGGCCTGCTCGGCCCCTTGCGCCAGCACCGCCAGGCCAGTGCCGAGCGTGCCCGCGGGCGCCTTGCGCGGGAGCTGGCGAAGTTGCGCGAGCAACTGCTGGCGAGCGAAAGCTCAATGGACCAGGAACGTACCAATCAGAAGCGCAAGCGGCGCGCCTTAGCCGATACCCACCTGCAAACCACCCTGGAGCTGGCGGATATCGACCGCTGGCACGAAAAGGAGCGGCGCATGCTCGATCGCCTGGCACAGATCCGCCAGGACGTCAGCCAGTTGCGTTTGCATATCGAAACGCAGGAGCAGTCGTTGCAACAAGCACAACTGGACGTCAAGGCGCGACAACGTGCGGTGGAAAAACTGGCCTGCATGAGCGAGACACTCAGTGAGGAATAG	MDEDLDMDPERQALERVIGLLGPLRQHRQASAERARGRLARELAKLREQLLASESSMDQERTNQKRKRRALADTHLQTTLELADIDRWHEKERRMLDRLAQIRQDVSQLRLHIETQEQSLQQAQLDVKARQRAVEKLACMSETLSEE				NA	NA	NA	NA	NA
D1-35_03986	1350	hrcN	COG1157	Type III secretion ATP synthase HrcN	GTGACCGATGCGCTTGAACAATGGGCCCGACAACAGCGTGCGCGACTGGCCAGTTGCTCGGCGGTGCGAATCAGCGGCAAGGTTTCGGCCGTGAGCGGGATCCTGCTGGAGTGCCAGGTACCTGCGGCCAAGATTGGCGATCTATGCGAGGTCAGCAAGGCGGACGGCAGCTCGATGCTGGCGGAAATCGTCGGCTTTACCGACCAGTGCACGCTGCTCAGCGCCCTTGGCACACCCGCCGGCATTCAAGTCGGAGCACGCATCCAACCACTTGGAATGGCGCATCGCATAGGCGTCGATGATCAGCTGCTCGGCAGCGTGCTCGACGGTTTTGGCCGACCATTGCTGGGCGATGGCGTCGGCGCTTTTGCCGATATCCATGACTGTCGCAGCACCACCGCGGTGATTGCCGATGCTCTGCCGCCGATGCAGAAACCACGCATCAGCAACCCGCTGCCCACCGGTATCCGCGCCATCGACAGCGCGATTCTGCTGGGCGAAGGGCAGCGCGTCGGCTTGTTCGCCGGCGCCGGCTGCGGCAAGACCACGCTGCTGGCAGAGATGGCCAGGAACATGGATTGCGAAGTCATCGTTTTCGGCCTCATCGGCGAACGGGGACGCGAACTGCGCGAGTTCCTCGATCATGAACTGGATGATGAACTACGCCAACGCTCGGTACTGATCTGCGCCACCTCGGATCGCTCCAGCATGGAGCGTGCGCGTGCCGCGTTCACCGCGACCGCCATCGCCGAAGCCTACCGTCAGCGCGGCATGAAAGTGCTGTTGCTGATTGACTCGCTCACCCGTTTTGCCCGCGCTCAACGGGAGATCGGCATCGCCGCCGGGGAACCGATCGGACGTGGCGGCCTGCCTCCCTCGGTGTACACCCTGTTGCCGCAGCTCGTCGAGCGCGCCGGCATGAGCGAGAACGGCTCGATCACCGCCATCTACACCGTGCTGATCGAGGCTGACTCGATGAACGACCCCATCGCCGACGAAGTCAGGTCGCTACTGGACGGGCACATCGTGCTGTCACGCAAGTTGGCCGAGCGCGGACACTATCCGGCCATTGACGTACCCGCGAGCATCAGTCGGATCCTCGGCAACGTCACCAGTCGCGAGCATGTCCGGGCCAATAACCGTTTGCGCCAACTAATGGCAGCGTACAAGCAGGTGGAAATGCTCTTGCGCCTGGGCGAATACCAGGCCGGCGCCGACCCGGTCACGGATCTGGCGGTGCAACTGAACGACAGCATCAACCGCTTCCTGCGCCAGGACCTTCGCGGGCCAGTAGCGCTTGATGAGACGCTAGCCCAGCTCAATCACATTACCTCGCAACTGGCGGACTGA	MTDALEQWARQQRARLASCSAVRISGKVSAVSGILLECQVPAAKIGDLCEVSKADGSSMLAEIVGFTDQCTLLSALGTPAGIQVGARIQPLGMAHRIGVDDQLLGSVLDGFGRPLLGDGVGAFADIHDCRSTTAVIADALPPMQKPRISNPLPTGIRAIDSAILLGEGQRVGLFAGAGCGKTTLLAEMARNMDCEVIVFGLIGERGRELREFLDHELDDELRQRSVLICATSDRSSMERARAAFTATAIAEAYRQRGMKVLLLIDSLTRFARAQREIGIAAGEPIGRGGLPPSVYTLLPQLVERAGMSENGSITAIYTVLIEADSMNDPIADEVRSLLDGHIVLSRKLAERGHYPAIDVPASISRILGNVTSREHVRANNRLRQLMAAYKQVEMLLRLGEYQAGADPVTDLAVQLNDSINRFLRQDLRGPVALDETLAQLNHITSQLAD	PGPT0029660_194	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029660-yscN|sctN|hrcN|ssaN-K03224	NA	NA
D1-35_03987	978			hypothetical protein	ATGCTGAGTGCCTTCGCGATGTTTGAACTACGAGTATTGAACGGTCTGCACCAGGGCGCCGCATTGCCGTTGGTGGGTGACCAATGGGTGATTGGTGCCAATGACGAGCATGATCTGGCGTTATACGACCCGGGCATCGCCGCGCTCCATTGTCGGTTGAGCAGAACCGAGGAAGGCTGGAACCTGGCCGCCGAACAGATGCCCATCAACGATGACGAAGGTCGTGGGTCAAACGCTATCACGTTGACGCCGAATCAACCGTTCGCCCTCGCAAACGTCTGGCTGTGCGTGGCGCCCGCCGAAGAGCCTTGGCCTGACGTACCCGCGCTGGCGACGCCTGCGAATGCCAATGGCCAGGCGCCTCAGTCGTTATCGCCTTCCGCGCGCAAATCGATGCCCGGCGTGATCTCCTTGAAGCTGATATCAGCAGTAATCGCTGGTGTGGTCGTAGGTCTGGTCGGTGGCGCCTGGGGCCTTAGCCAATCCGAGGTGCCATCGGGCGCTGTCAAAGTTGCCCCGGCCCAGACGCCGAAAAATCCGACGCAGTCCTCTCCGGCGGCCGTTCCCGCCCGATCCGCCGACAGCACAAGCCTGAAGAATCGCGAGCAGATCCGCCGGCTCCTGACCACACAATTGGCGGAGCGGCTGCTCACGGAGGTTACCGTCGAAGAGCTTGACGAAGGCCTGGTGCTCAAAGGCAACCTCAAGGAGGAGGCGCTGGAGGTCTATCAGCGCATGCTCCAGAGTTTCAAAGAGCGCTACCCCACGACGGTTCCCCTGATCGATCACGTCGGCATTGTCGGGACCAACTTGCCGTTCACCCTTGTGCAAATCATCGCTGGCAACAACGCTCACCTGGTGACCGCCGACGGCCTGCAGATTTATGTTGGCGATGTGGTGCAGGGGCTGCGCCTGGTGCGGATAGAGGAGCACAAGATCATCTTCGATGGCGACCAGCATATCGAGGTGAGCTGGTGA	MLSAFAMFELRVLNGLHQGAALPLVGDQWVIGANDEHDLALYDPGIAALHCRLSRTEEGWNLAAEQMPINDDEGRGSNAITLTPNQPFALANVWLCVAPAEEPWPDVPALATPANANGQAPQSLSPSARKSMPGVISLKLISAVIAGVVVGLVGGAWGLSQSEVPSGAVKVAPAQTPKNPTQSSPAAVPARSADSTSLKNREQIRRLLTTQLAERLLTEVTVEELDEGLVLKGNLKEEALEVYQRMLQSFKERYPTTVPLIDHVGIVGTNLPFTLVQIIAGNNAHLVTADGLQIYVGDVVQGLRLVRIEEHKIIFDGDQHIEVSW	PGPT0029640_267	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029640-yscD|sctD|ssaD-K03220	NA	NA
D1-35_03988	2100	ssaV	COG4789	Secretion system apparatus protein SsaV	ATGAACCTGATTATCGATCTGTTGAACCGGCTGGCCCTCGCGGCGATGCGCCGCTCGGAAGTCGTCGGTGCGTTTATCGTGCTGGCCATCGTCTTCATGATGATCACCCCGATACCCACCTGGCTGGTGGACATCCTGATCGCTGTGAATATCTGCATCTCCTGCCTGTTGATCATGTTGGCCATGCAACTGCCCCGGCCACTCGCCTTCTCGACGTTCCCTTCGGTACTGCTGATCACGACCATGTTTCGCCTGGCGCTGTCGATTGCTACCACGCGCCTGATTCTGCTGGATCAGGACGCCGGTCACATCGTCGAGGCGTTCGGGCAGTTCGTGGTGGGCGGTAACCTGGCGGTCGGCATGGTGATTTTCATGATCCTGACGGTGGTGAACTTCATGGTCATCACCAAGGGCTCGGAACGGGTGGCTGAAGTAGGCGCACGTTTCACGCTTGACGCCATGCCGGGTAAACAGATGTCGATCGACAGCGACCTGAGAGCCAACCTCATCAGCGTGCACGAGGCCAAACGCAGGCGTTCGGAGCTGGGCAAGGAAAGCCAGCTGTTTGGCGCGATGGACGGCGCAATGAAGTTCGTCAACGGCGATGCCATTGCCAGCCTGATCATCGTCGCGATCAACATGATCGGCGGCATCACCATCGGCGTGGTGCAACATGGCATGACCGCTGGCGATGCAGTGCAGCTGTATACGGTTCTGACGATCGGCGACGGCCTCATTGCGCAAATCCCGGCGCTGCTGATTTCCGTGACGGCCGGCATGATCATCACCCGCGTGCCGAACGAAGATGCCGCCGGGCCGGCCAATATCGGTCGTGAAATTGCCGAACAGATCACCAGCCAGCCCAAGGCCTGGATCATCGCCTCGGCGGCAATGCTCGGCTTCGCCGCCATGCCTGGGATGCCGACCATGGTGTTCATCACGATCGCCATCATTTGTTGCGGCGGCGGCTTGTTGCAGATCAATCGCGCCAAACCCAAGGGTACGCAAGATCAAGCCGCCCCGACGACCCCGGAAAACAACGGACAGGAAGACCTGCGAATGTTCCTGCCCAGCCGCCAGTTTGTCCTGCAATTTCATCCCAGCCAGAGCGTTGAGCGGATCGAGGCACTGGTCAGCGAGATTCGTCAGCGCCGCAACCGTCTGGTGGTGAATTTTGGGCTCACACTGCCGTCGTTCATCATTGAATACCAGGCGCATCTGGAGCCGGATGAATTTCGCTTTACGGTGTACGAGGTTCCTGTACTCAAGGCCACATTCAACGAGGCATTGGTAGCTATCGATGGCTCTTCACAGGTCATTGACGACGATCAGCAATACAGCAAAGGCAGTTCGGAACGGCAGGAAGGCCAATGGATCTGGGTACCCGCCGATGCGGAGCTGCTGAGCAACAGCAATGCGCAACCCATCAGCCCCAGTACCCTGATCATCGAACGCATGGAGCGCGCGCTGCAGGTTTGCGGCCCGCAGTTCATCGGGTTGCAGGAAACCAAAGCGATCCTCGGTTGGCTGGAAACAGAGCAACCGGAATTGGCGCAGGAGCTGCAGCGCGTCATGCCGCTGGCGCGTTTTTCTCAAGTGCTGCAGCGGCTGGCTTCCGAATGCGTGCCCCTGCGCGGCATCCGGGTGATTGCCGAAACCTTGATCGAACATGGGCAACATGAGCGCGATGTCCTGGCACTCACCGATTATGTCCGCATCTCGCTCAAGTCACTTATCTACAACCAGTATTGCAGCCAGGAAGGACTGCTCGTCTGGCTCTTCACCCCCGAGAGCGAAGGCATCCTGCGTGACAGCCTGCGTCAAACGCAAACCGAGACGTTTTTTGCCCTGAACAGCGAATCCAGCCTGATGCTGGTCCAGCAATTGCGCATGGCTTTCCCACAGCGATCGTCTGAACGCGCAGTGATGCTGGTCGCCCAGGATCTGCGCGCCCCGCTACGGACGTTATTGCAGGACGAGTTCCATCACGTGCCGGTGCTCTCCTTTGCCGAGATCACTAATGCTTCCGAGGTAAAGGTCCTCGGCCGTTTCGATCTGGAAAACGAATTCCTGCCCTTGGAAGACGACTATGCGGCTTGA	MNLIIDLLNRLALAAMRRSEVVGAFIVLAIVFMMITPIPTWLVDILIAVNICISCLLIMLAMQLPRPLAFSTFPSVLLITTMFRLALSIATTRLILLDQDAGHIVEAFGQFVVGGNLAVGMVIFMILTVVNFMVITKGSERVAEVGARFTLDAMPGKQMSIDSDLRANLISVHEAKRRRSELGKESQLFGAMDGAMKFVNGDAIASLIIVAINMIGGITIGVVQHGMTAGDAVQLYTVLTIGDGLIAQIPALLISVTAGMIITRVPNEDAAGPANIGREIAEQITSQPKAWIIASAAMLGFAAMPGMPTMVFITIAIICCGGGLLQINRAKPKGTQDQAAPTTPENNGQEDLRMFLPSRQFVLQFHPSQSVERIEALVSEIRQRRNRLVVNFGLTLPSFIIEYQAHLEPDEFRFTVYEVPVLKATFNEALVAIDGSSQVIDDDQQYSKGSSERQEGQWIWVPADAELLSNSNAQPISPSTLIIERMERALQVCGPQFIGLQETKAILGWLETEQPELAQELQRVMPLARFSQVLQRLASECVPLRGIRVIAETLIEHGQHERDVLALTDYVRISLKSLIYNQYCSQEGLLVWLFTPESEGILRDSLRQTQTETFFALNSESSLMLVQQLRMAFPQRSSERAVMLVAQDLRAPLRTLLQDEFHHVPVLSFAEITNASEVKVLGRFDLENEFLPLEDDYAA	PGPT0029690_219	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029690-yscV|sctV|hrcV|ssaV|invA|rhcV-K03230	NA	NA
D1-35_03989	1113			hypothetical protein	ATGAAAATCCCCGGCTTTACCCCAGTCGCGATTCATCCGGTCAATCCGGCGAGCGCTCGACCGGCGCTATCCGCTCCACAGACGGCATCGCACATCGCCAAAGACCAGGGCACCACGCCGCAGCAGGTCGCGCGATTCACCTCGGCGCTGATCCAGCAAAGCAAAGAGCTCAGCCAGCGTGAACTGGTCATCGGCAGTACCGCCTTGCAGTCGAAGGCGATGAAGCTCGGCGAGCTTTACCAGATGCTGATGGGCAGTCATGACAAAAGGCTGGATGAAGCAGTGCGTACGCTGCGTCAGACCTTGAAACGGCAACGCCCCGATGAGTCGCAGCTTGCTCGGGTGCTCGCCTTCGCGAGCGGGGACCCGGCCAAAGCACACGTCATGCTGCAGGCCGCAATGAAACAAGCGCATCACGAAGGTGCCAGCGATGAGCACCAGGCGCTGTCGGGGCACGCCAGCGCGCTCCGACAGCGACATGGCAACAGAGCCCGCGCGGGCGTCAATACTGCGCGGGCCTTTTCCAGATCCGGGCTGGATGCCCAACGACGCAAGAACCTGCGGGAACTGTATTACAACGCCGTCGTGGGTCAGCCCACCATATCCAGCCTCATCGACACACTATTGAGTCAAGAGGATGGCGAAGCGCAATTCGAGCCAACCTTGCGCGATCTGCGCCGAGCCATCGCCGACGACCTGGCCGCGGCCAATCCCTCTGGCCCTCGCCAGCAATTACGCATTTTGATGCATGGCGTGAATACCGCCCGGCATGTGTCGACTTTGCTTAAAAGCTGCGAACACCTTCTGGGACGCATGCGCGACAAGAACCCGCAACTGCAAGTGAGCGCGCCAACCTTCCTCAAACACTTGCTGGTGCTCTCGGGCAAGGGCATGAACCTGCAGGAAACCTTGCAGCTCACGCAGTTTATCGGTGGTGCCCAACTCAAGCACCAGCTGTCATTTCTCAACGGCCTGCGCCCAATGCTCCAGCAGTTGCCTGTCTTGCTGTGGCAGGACCTCAAGTCCCGGCAGAACGCGCTGGGGAACCTGTTATTGCTGATGGCCGAGCTCACTCAGCAAGAGCAAAACCAGCTCAAGGGGAACCCGGCCTGA	MKIPGFTPVAIHPVNPASARPALSAPQTASHIAKDQGTTPQQVARFTSALIQQSKELSQRELVIGSTALQSKAMKLGELYQMLMGSHDKRLDEAVRTLRQTLKRQRPDESQLARVLAFASGDPAKAHVMLQAAMKQAHHEGASDEHQALSGHASALRQRHGNRARAGVNTARAFSRSGLDAQRRKNLRELYYNAVVGQPTISSLIDTLLSQEDGEAQFEPTLRDLRRAIADDLAAANPSGPRQQLRILMHGVNTARHVSTLLKSCEHLLGRMRDKNPQLQVSAPTFLKHLLVLSGKGMNLQETLQLTQFIGGAQLKHQLSFLNGLRPMLQQLPVLLWQDLKSRQNALGNLLLLMAELTQQEQNQLKGNPA	PGPT0029715_100	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029715-yscW|sctW-K04058	NA	NA
D1-35_03990	471	rpoE_1		ECF RNA polymerase sigma-E factor	ATGGTGCAAAAGGTGCGGTTGTTTATCAGGGCCAAGGTCGCGAACCCTGATGATGCGGAGGATCTGCTCCAGGCGACCTTTCTCGAAGCGCTGCGTAACGAGCACAAGTTTCGGCACGATTCGCTGTTGCTGACCTGGCTCTGCGGCATTGCACTCAACCTCATTCGCAGCCATTTCAGACGTCTCTACAACCAGCCGTTTCATGACGACCTGCAGGAATGCGGCGTATTGGAGATGGCCGACAGCCGCGACATTGTGTCCGAGGTCAGTGGCTTCCGTCAGCTGGCGCGAGTCTTTCGCGCAATGGAAACCTTGCCGCCGAATATGGAGGAGGTGATCCGGGTCGCGATGGAAATGGAGGGTAATTATCTGGAAACCGCCGCTCGGCTGGACATACCGATTGGCACGGTGCGTTCGCGCCTTTCGCGCGCTCGCGAGCAACTCAAACGGCGAGTCTCCAGCGAATACTGA	MVQKVRLFIRAKVANPDDAEDLLQATFLEALRNEHKFRHDSLLLTWLCGIALNLIRSHFRRLYNQPFHDDLQECGVLEMADSRDIVSEVSGFRQLARVFRAMETLPPNMEEVIRVAMEMEGNYLETAARLDIPIGTVRSRLSRAREQLKRRVSSEY				NA	NA	NA	NA	NA
D1-35_03991	921			hypothetical protein	TTGAGCCTGTCTATCTCTCCCACTCGTAACTCCACCCCTGAAGCGCTGCTTGTACCCGAAAACAGCAGTGAGCGGTTTGCCCGGCACCCCGGCTCGAATCCTGCGGTCACTGGCGATATGTTTGCGACTCGCCCTGAGCGGCCGATCAACTTCGGTCAGCCTTCGCAGGTGGCGGATCAGCCCATACCTGCACAAAAGAAGAGTGAGGCCGAGCAAGCCGACCTGATGATGCAACTGATGGAAGTCATCATGCAGGCCATCATGCAATGGCTTCATTCCTCGATGAATAGACAGGAAGGATCTGATGGCGGCGGGGCATCCCAGCCGGGACCTCAACCCCACAATACGTTGATGGCGCAACCGAGTGGTGGCGGTGGTGGTGCGCCTGGCGGGCCGATCAACAATGCGCAGGCCGGTGGTGTGGCAGGCAGTCCGGCATTGCGCGGGCAGGATGGGTTGCACTTGCCCGCTCAATTGGAGCCGTATCGCCAGGATATCGTCGACGCGTCCAATGCTACAGGCGTCCCCGGCAACGTGATTGCAGCACAGATCTGGGCGGAGTCCAGAGGCAACCTGAACTCCAGCAGCACCAACGTCAACGGCAAGACCGACGCCGGCTTGATGCAAGTCAACGCTGACACTTTCGCTCAATTGAAGAGGGAAAATCCGGCGCTGCTGGGCAATGCCGACGTCAACAACCCCCGCGACAACATCATGGCGGGAGCCCTCTATCTGCGCGACCAGACCCAGGCGTTTGGCGGCGACCTCGGCGCCGGGCTGCGCGCCTATAACTCTGGTCCTGACAAGGTCAATCGAAACGACCTGGCTGATACCGGAGGGGTAGGCGATCCCGGTTACCCGGCCAACGTACTGAAGTTCGCCGAGATCATCGCGAGCGGCAAAGGTCAGCTGCCCGGCTGA	MSLSISPTRNSTPEALLVPENSSERFARHPGSNPAVTGDMFATRPERPINFGQPSQVADQPIPAQKKSEAEQADLMMQLMEVIMQAIMQWLHSSMNRQEGSDGGGASQPGPQPHNTLMAQPSGGGGGAPGGPINNAQAGGVAGSPALRGQDGLHLPAQLEPYRQDIVDASNATGVPGNVIAAQIWAESRGNLNSSSTNVNGKTDAGLMQVNADTFAQLKRENPALLGNADVNNPRDNIMAGALYLRDQTQAFGGDLGAGLRAYNSGPDKVNRNDLADTGGVGDPGYPANVLKFAEIIASGKGQLPG				NA	NA	NA	NA	NA
D1-35_03992	1359			hypothetical protein	ATGGGTATCAATAGCGTCCCATTGCGCAGATTACAGAACCATCCCATTGATGATGCGCAATCAACGAATCTGGAGCGAACGGGGGAGGTGCTGTCTGTTAATGGCGACAACTCTCAAGAATTGGCCGCGTTGAAAAGCAAACTGGACGCTCTGTTCGAACCCCACAGGACGGCTGAGAACCATGCGCAAATGGACGCCTTGATTCATGATCGCGCCGTTGAGTTGAAGGAAATGGGCGAGACGCCGGAGACGCTTGAGGCGCTGCTAGAAAAAGCGGCGCGCATGGATCGTGTAACGGCTCCGGTGCAAGGGGCGGTGGCTTCCGCACCCTTTGCTGCGGCCTCGGTTATTTTGGACAAAGTGCCCGCGGTGACAGCTCATGTTGCGCATAGTCCAGCCTTGACCGGCTTCGTGGCGGGCTCGTTTTCCGGTGCGATGGACGCGGTGGGCGGTGGTCTGCTGGCGAGAGCGACGCATGACACTTATTGGCTGAAACCGCCAGCGGAAAAATTGGAACCGGTGATGCAACAAGCCCTGACTTTCAGGAAAGAGGAAACCAGGGGGGGTAACGCTAAAGAGTCTGCGCTGTCCTGGCAGACGTTCAGTGTCCGCAATGCTGTGCGCCTCGGGGTGGCCGGCGCCATGAATGCAACCGTCGGACCGAAGGCTGCCGCCGCGGTTGATACGGCTATCGCCTCAGCAGGAGCTTTGGCGGCCGGCGCAGGTTATGCCCACCTGATGAATAAAAACGACTTGAACGCTCATCGCGCCGGGCCGGCCTATCTTTTGGGTCGAACCGACTGGAAAGATCAATATCAGGCATTGAAGGAGAGTACGACCTTGAGCCCGATCGCAAACGGGGCCAAACGCCTCGCCGCAATGCCTCTGAACCTCCTGACCGATGCGACGAGGTCTTTAAGCGGCGCGTTATCCTTTTCCAGCATGGTGTCTAACGCAGGTGTATTGGGCGGCGGTTTTGCTGTGACCTCGCTGGCTCGCGATGCGGCCAGGAATCTGGCATCCCAGAATGGCTTGGGGCCAGGAGAGGTCGCTGTGGTGGATCATACGGTCAACCTTGCCATGTCAGCGCTTACCTTTGGTTCTTATGGGGTGGCCAGTGTTGCGACCGAGCCCCTCAGCGACGCGGCCGTCAAAGTGTTGCAGGAGGACGTTCCGGCGAAAGCGCAGCAGGCTACTGATGCAACTCTTGAGGCTGGCAAGGCGGCGGTACATATGGTGCGCGAGCAGGCACCCGTGCTGGCGCGAAGCGTCGCCGCCACCGCAAGAGATATGACGGACCGTGTGCTGGAGCATCGCAGACTCAGGACCGGAGGGGACACGACCGAGAGTCCCGTCTGA	MGINSVPLRRLQNHPIDDAQSTNLERTGEVLSVNGDNSQELAALKSKLDALFEPHRTAENHAQMDALIHDRAVELKEMGETPETLEALLEKAARMDRVTAPVQGAVASAPFAAASVILDKVPAVTAHVAHSPALTGFVAGSFSGAMDAVGGGLLARATHDTYWLKPPAEKLEPVMQQALTFRKEETRGGNAKESALSWQTFSVRNAVRLGVAGAMNATVGPKAAAAVDTAIASAGALAAGAGYAHLMNKNDLNAHRAGPAYLLGRTDWKDQYQALKESTTLSPIANGAKRLAAMPLNLLTDATRSLSGALSFSSMVSNAGVLGGGFAVTSLARDAARNLASQNGLGPGEVAVVDHTVNLAMSALTFGSYGVASVATEPLSDAAVKVLQEDVPAKAQQATDATLEAGKAAVHMVREQAPVLARSVAATARDMTDRVLEHRRLRTGGDTTESPV				NA	NA	NA	NA	NA
D1-35_03993	1701			hypothetical protein	ATGCCTGATCGTAAAGCCAGCCTTCTTTTCGCCGCAGCCACCGCCACTGCCGTCATGGCCGTCACCGCGGCGGTGGGGCCCATCACGTTGTTCTGGACCAACGAGACGCGTCTGGAGCGAAACGTGGTCGAGTCGCAGATCGAGTGTATCCGCAACGTTCAGGGGTTGCTGGTCGATGCCGAGACCGGTGAGCGTGGCTACGCCTTGACGGAAAAGGACGACTTTCTACAGCCGTACTATGTCGCCGTGTCTCGACTGTCTGCTGCCCTCAAAAGCCTGCGAAGTGCCTATCAAGGCGATCCGGCCGAAGAGATTGCGCGTGTCGAAGCGTTCATCCGACGTGCCGAACTGAAAATGGTCCACCTGGACAGGGTCGTGAAGCTGGTCAGCCATAGTGGCAATGATGCGGCCGAGGCCGAGATCGCCGCTGGCGGCGGCAAGGACCTGATGGACACGGTGCGCACCCTCAGTGCGGAGCTTATTGCTGACGAAACCGAAGAGCTCGTGGCGCTCGAACGCCAGCTGTTGAGCAACATTCGCTGGGCGGTGGCGATTTCCATCCTCAGTTTTATGGTCACTTTGGGTTTGGGGCGTTTTATCTACCTGTCCATGCGCAGCAGTGTCCGCCGTCAATCGGAGTCTGCCGCGGCGGCCAACCTGGCCAGCGATCAATTTGGCCTGAGCCTGGCGCGTTTGAAACGTCGCAATGGCGAGATTGGCCTTCTCGCGGAAATGGCGAGGTTGATGCAGACGGAACTGTCGCTGAAGGAAACGCTCCAGCTGGCCAGCACTTACTGCCAGCGATTGATACCTGCCAGCGAAGGGGAGTTCTTCCTCTATCGCAACTCGGCTGATGTCCTGCAACACGCCGCTGCGTGGGGGCAGGCTGAGGAAAAAGGCTCCGATGCAATACTCAACCCCAAGGATTGCTGGGCGATCCGGCGTGGACGCTGGCATTTGTCGGTGCACAACCACGATCTTTGCTGCCCTCATTACCCAGCAGCGTCCGGCACTGACCCGGTGGCTGACTGTTGTCTTCCGTTGATGGCTTACGGTGAAATCCTCGGCCTGTTGCATATCCGTCAAGTCGGCTTGCGCGACCTGTCCGAGGAGGGCCTGCAGATCGCTGAAGCCGTGGCTGAACAAACGGCGCTGGCATTGGCGAATGGTCGCATGCGCCAGGTACTGGAAACCCAGTCCATAAAGGATCCGCTGACCGGGCTGTACAACCGCCGCTTTATGGACGAGACGCTCAACCGCGAGCTGGCGCGCTCCGAGCGCAACGGGTCGTGCCTGAGTGTCGTGATGATCGACCTCGATAACTTCAAGCAATTGAACGACTCTTATGGCCACTCGGCAGGCGACGCGGTGCTTCGTGCGGCCTCGACCTTGATGGTGCAATCGCTGAGAGCGTCAGACATTGCTTGTCGATTTGGCGGAGAAGAGCTGATTGTCATCCTGCCGGAGTGTTCATCCGAAGGCGCCGCTTTACGCGCTGAGGCCATACGAGCGGCGTTGGAAGAAATGACGCTGACCGATCACGGCCAGACGCTCACGGTGACCGCTTCTTTTGGCGTGTCTTCCACAGAGACCAGCGGAATTGATCAAGGCGCTCTTTTAAAGGCGGCCGACTCGGCGCTTTACGCAGCCAAGCGATCAGGAAAAAACCGAGTTGAATCCTGGCCTGTACGGAAAAGATGA	MPDRKASLLFAAATATAVMAVTAAVGPITLFWTNETRLERNVVESQIECIRNVQGLLVDAETGERGYALTEKDDFLQPYYVAVSRLSAALKSLRSAYQGDPAEEIARVEAFIRRAELKMVHLDRVVKLVSHSGNDAAEAEIAAGGGKDLMDTVRTLSAELIADETEELVALERQLLSNIRWAVAISILSFMVTLGLGRFIYLSMRSSVRRQSESAAAANLASDQFGLSLARLKRRNGEIGLLAEMARLMQTELSLKETLQLASTYCQRLIPASEGEFFLYRNSADVLQHAAAWGQAEEKGSDAILNPKDCWAIRRGRWHLSVHNHDLCCPHYPAASGTDPVADCCLPLMAYGEILGLLHIRQVGLRDLSEEGLQIAEAVAEQTALALANGRMRQVLETQSIKDPLTGLYNRRFMDETLNRELARSERNGSCLSVVMIDLDNFKQLNDSYGHSAGDAVLRAASTLMVQSLRASDIACRFGGEELIVILPECSSEGAALRAEAIRAALEEMTLTDHGQTLTVTASFGVSSTETSGIDQGALLKAADSALYAAKRSGKNRVESWPVRKR				NA	NA	NA	NA	NA
D1-35_03994	744			hypothetical protein	ATGAACCACCCCGACGGGCACGACAGCGCACTTGACCACTTCATCTGGCCGTTGACGCCAGGTGGCATTCTGGACCGCAGAGACCTGTTGCTTCGCCTGGGCGCTGAACAGCGACTCATGGCCGCCCAGGACCCTACGTGCAGGCGCGATCAACGTGACTACCTGCTTTCACTGATCGATTCGGCCTCGACACTGAACCATGGCGCTGAGCAAGGTTCAGGCTTCGATGCCCAGCGAATGCGTAACGTCATCACCGAAGCCGCCACAAAAAGCCATTGGGGCAAGGGCAAGCCTTCGGAAGGTCGCCGAACGCAGGGCATCGCCGCCCACTACGATGCGCAGAGCTACATGGCCGCGGTACTCGATGTCGAGCTGAGCGACGAGGGTCGCCTGATTGTGCATGACACCGTGTTTGTCGCGGACCTGGGCGCTGTAGAAAACCCCGGCCGCCTGCGCGCTCAGCTGGAAGGCGCGTGCCTGATGGGCGTGGCGTTCGTGGCATCTTCCGAATTTGGCGCGACGGCGACTGACCTGTGCCCGGCCATCGCCCAGCGGCCCCGCTGGCCACTCGTCTCATGGTTGCCAGGGCACATCGCGGTACACCTGATCAACCCAACGGCTGCGCTCCAAGGTTTCCAGCCCAGCCTGATGAGCTACGTACCGGTCGTCCGGGCCTTGTGTAATGCGATGATCAAATTGGCAAACGCTCCAGCGAATATTCGGCCGGCGTCCTTCGCAAGCTAG	MNHPDGHDSALDHFIWPLTPGGILDRRDLLLRLGAEQRLMAAQDPTCRRDQRDYLLSLIDSASTLNHGAEQGSGFDAQRMRNVITEAATKSHWGKGKPSEGRRTQGIAAHYDAQSYMAAVLDVELSDEGRLIVHDTVFVADLGAVENPGRLRAQLEGACLMGVAFVASSEFGATATDLCPAIAQRPRWPLVSWLPGHIAVHLINPTAALQGFQPSLMSYVPVVRALCNAMIKLANAPANIRPASFAS				NA	NA	NA	NA	NA
D1-35_03995	918		COG2326	Polyphosphate:ADP phosphotransferase	ATGTCCTCGACAGACGACACCTTGATACAGCGCATCCACCGTGAACTGCTCGATCACAGCGATGAAGAACTGGAGTTGGAGCTGGCCGAAGACGGACACGACCTGGATGCCCTGTTCGATGGACAGGCTCCAGAAGGATCAGAAAAAGAAGCCCGGAGAATCTATTTCAGCGAACTGTTCCGCCTGCAAGGCGAACTGGTGAAGTTGCAAAGCTGGGTGGTCAAGACGGGCCACAAGGTCGTGATCCTCTTCGAAGGGCGCGACGCTGCCGGCAAAGGCGGAGTCATCAAACGTATCACCCAGCGCCTCAACCCTCGGGTCTGCCGGGTGGCCGCCCTGCCCGCCCCGAACGACCGCGAACGCACCCAATGGTATTTCCAGCGCTACGTTTCACATTTGCCGGCCGCCGGTGAAATCGTCCTGTTCGATCGCAGCTGGTACAACCGCGCCGGCGTCGAACAGGTCATGGGCTTTTGCAACGACGATCAATACGAAGAGTTCTTCCGGACCGTGCCCGAGTTCGAGCGCATGCTGGCCCGCTCAGGCATCCAGCTGATCAAGTACTGGTTCTCCATTTCCGACCAGGAGCAGCACCTGCGCTTTCTCAGCCGTATCCACGACCCGCTCAAGCAATGGAAACTGAGCCCCATGGACCTGGAGTCCCGGCGGCGCTGGGAGGCGTACACAAAGGCCAAGGAGATCATGCTTGAACGCACCCATATCGCCGAGGCGCCATGGTGGGTCGTGCAAGCCGACGACAAGAAAAAAGCGCGACTCAACTGTATTCACCACCTGCTCGGCCAGATGCCCTATGAAGAAGTCGAGCTCCCGGCGATCGAGCTACCGGAACGCGTCAGGCAGGAAGACTACTTCCGCAGTCCGACGCCGCCGGAAATCGTCGTTCCTCAGGTTTATTGA	MSSTDDTLIQRIHRELLDHSDEELELELAEDGHDLDALFDGQAPEGSEKEARRIYFSELFRLQGELVKLQSWVVKTGHKVVILFEGRDAAGKGGVIKRITQRLNPRVCRVAALPAPNDRERTQWYFQRYVSHLPAAGEIVLFDRSWYNRAGVEQVMGFCNDDQYEEFFRTVPEFERMLARSGIQLIKYWFSISDQEQHLRFLSRIHDPLKQWKLSPMDLESRRRWEAYTKAKEIMLERTHIAEAPWWVVQADDKKKARLNCIHHLLGQMPYEEVELPAIELPERVRQEDYFRSPTPPEIVVPQVY	PGPT0002690_818	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002690-ppk2-K22468	NA	NA
D1-35_03996	1032	pstS_1	COG0226	Phosphate-binding protein PstS	ATGAAAAGTTTGATGAAGTCTGCTGCGCTCGCCGTTACGGTTTCTCTTTGTGCCACCTCGGCGTCCTTCGCTGCAGAGAATGTCCGTCTGACGGGGTCCGGGGCGAGTTTTCCAGCTCCGATCTACCTGACCTGGTTCAAGGATTTCAGCAAGAAATCGGACGGTGTCACCGTGGATTACCAATCCAAGGGCAGCGGTGCGGGCGTACAGGACTTTCTGAACAAGACCGTTGATTTCGCCGCCAGTGACTCGGCGATGAAAGAAGAAGACATCGCCAAGGTTGCCGAAGGCGTGCAGTTGTTGCCGATGACCGCCGGTGAAATCGTGCTGGCCTACAACCTGCCGGGCAATCCCAAGGGCCTCAAGCTGCCACGCGATGTGTACTCGAACATCTTCCTGGGCAAGATCACCAGATGGAACGATCCGCAGATCGTTGCCGCCAACCCGGACCTGAAACTCACCGATACGCCGATCACCGTCGTTGTACGTGCGGACTCCAGCGGTACCACCGCGGTGTTCACCAAGCACCTGGCAACCATCAACCCGGAGTTCAAGACGGCGCTGGGCGAGGGCAACACCGTCAACTGGCCGGCCAGTGACAAGTTCATCAAGTCGCCGAAAAACGATGGCGTGACCGCGACTGTGCGTCAGACCCCGGGCGCGATTGGCTATATCGAATACGGCTTCGCCAAGCTCGCCAAAGTCGACTTCGCCCAACTGCAGAACAAGGCCGGCAAGTACGTCGTGCCGAACGCCGAGAGCGGTGCAGAGGCCCTGGCGGCGGTGAAGATGCCGGAAAACCTGGTGGCCTGGCTGCCGGATCCGGACGGCGCCAAGTCCTACCCGATCACGTCCTACACCTGGATGATCTTCCGCAAGGACAACGGCAACCCGGCCAAGGCCAAGGCCATGCGTGAAATGGTCGAATACAGCCTGACCGAGGGGCAGAAGATTGCCGATTCGATGGGTTACATCCCATTGCCGGCGTCGGTCGTCGAGCAGGTTCGCAAGGCATCCGCCAACATTCAGTAA	MKSLMKSAALAVTVSLCATSASFAAENVRLTGSGASFPAPIYLTWFKDFSKKSDGVTVDYQSKGSGAGVQDFLNKTVDFAASDSAMKEEDIAKVAEGVQLLPMTAGEIVLAYNLPGNPKGLKLPRDVYSNIFLGKITRWNDPQIVAANPDLKLTDTPITVVVRADSSGTTAVFTKHLATINPEFKTALGEGNTVNWPASDKFIKSPKNDGVTATVRQTPGAIGYIEYGFAKLAKVDFAQLQNKAGKYVVPNAESGAEALAAVKMPENLVAWLPDPDGAKSYPITSYTWMIFRKDNGNPAKAKAMREMVEYSLTEGQKIADSMGYIPLPASVVEQVRKASANIQ	PGPT0002625_3631	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
D1-35_03997	966	pstC	COG0573	Phosphate transport system permease protein PstC	ATGAACAAACCTTTTGTCGTACCGGTTAATCCGGACTCTGCCTGCCAGCCACCCTCGACGAAGGATTTCCTGGTTGATCGCACTTTCCGTGCGCTAGCGCGCATCGGCGTGGTGCTGATTCTGGCGCTGGTATTTGCGCTGGTGTTCGAGGTGGGACGCAAGGCAATTCCCGGCATGGAGAAACACGGTTTCGACGTGCTCCTGGGCAGCGTCTGGGACGTCAACCAAGGCAAATACGGCATCCTGCCGGCTATCTGGGGCACGCTTTACAGCGCCTTGATCGCGTTGCTGATCGCTGGGTTTTTCGGCGTCAGCATGGCGATTTTCCTGACCCAGGATTTCCTGCCGCCCAAGCTCGCCGCCATTTTCCGCACCATCGTCGAACTGCTCGCGGCCATCCCCAGTGTGGTTTATGGCCTGTGGGGGATCTACGTGGTCATCCCGGCGATCCGACCGTTGACAACCTGGCTGAACAGCGAACTCGGCTGGATACCTTTTTTCGGCACGTCCCTGAGCGGGCCAGGGCTGCTGCCGGCGGCGCTGGTGCTTGCGATCATGATTCTGCCAACCATCGCAGCCGTTTCGCAGGATGCGCTCACCGGCGTACCGATGAAAACCAAGCAGGCCGCCTACGGCATGGGGACGACTCACTGGGAAGCGATTCTCAAGGTGATGGTGCCTTCCGCCGCCACCGGCATCTTCGGCTCCCTGGTGCTGGGCCTCGGGCGTGCCCTGGGCGAGACGATGGCGCTGGCCATGCTGGTCGGCAACGCCAACAACATTTCCCTCTCGCTGTTTGCTCCGGCCAACACGCTTGCTGCCCTGCTGGCGTTGAACTTCCCCGAGGCCGGGCCGAACGAGATCGAGGTGTTGATGTATGCCGCCCTGGTATTGATGTTGATTACGCTGATCGTGAACATTTTTGGTTCGATGATCATGATGTATGCCCAACGGGGTAACAAGTGA	MNKPFVVPVNPDSACQPPSTKDFLVDRTFRALARIGVVLILALVFALVFEVGRKAIPGMEKHGFDVLLGSVWDVNQGKYGILPAIWGTLYSALIALLIAGFFGVSMAIFLTQDFLPPKLAAIFRTIVELLAAIPSVVYGLWGIYVVIPAIRPLTTWLNSELGWIPFFGTSLSGPGLLPAALVLAIMILPTIAAVSQDALTGVPMKTKQAAYGMGTTHWEAILKVMVPSAATGIFGSLVLGLGRALGETMALAMLVGNANNISLSLFAPANTLAALLALNFPEAGPNEIEVLMYAALVLMLITLIVNIFGSMIMMYAQRGNK	PGPT0002620_2681	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
D1-35_03998	912	pstA	COG0581	Phosphate transport system permease protein PstA	ATGACAGACCTCACTGCAGCAACAGACTTGACCGCGCCAGCGGGCGCGATGCCCAGCTTGCAGCGCAAGTTCGAAGGCCGCGCGTTGCGCAGCCTGATCCTGACCACCCTGGTCTGGACCGGCGCGCTGCTCGCCAGCGTGCCGCTGATTTCCGTGCTCTACATGCTGATCACCCGTGGTGGCGCGCGCCTGAACCTGGAAGTCTTTACCGAACTGCCACCGACCGGCTTCGAGATGGGTGGCGGCTTCGGCAACGCCATGGCCGGTACCTTCGTGATGGTCGGTATCGCGGCAGCCATCGCGGTGCCGATCGGCATCATGGCCGCCGTCTTCCTGGCGGAGCTGGGGCCGGACAGCAAATTGGGCAACGCCGCGCGGTTTGCGGCGAAGATGCTCACCGGCCTGCCGTCGATCCTGGCCGGGGTATTTGCCTACGCCCTGGTGGTGATGACCACCGGTACTTATTCGGCGCCGGCGGGCGGCGTGGCACTGGCCGTGCTGATGCTGCCGATCGTCGTGCTGACGGCGGAAGAGTCGATGCGCATGGTGCCCAAGATCATGAAGGATGCTGCCTATGGCATGGGCTGCACCCGCTCCCAGGTGATCTGGAAAATCGTCTTGCCGACCGGCATGCCGGCCATCCTCACCGGCGTCATGCTGGCCGTGGCACGTGCCGCGGGCGAGACCGCGCCGCTGCTGTTTACCGCGCTGTTCAGCAACTACTGGATTTACCACCAGGGCAATCTCGAGGTCATGAACCCGACGGCCTCGCTGGCGGTGCTGATCTACAACTTCTCCGGGATGCCTTTCGACAACCAGCTCGAGCTCGCATGGGCGGCCTCACTGGTGCTGGTGATGATCGTGCTGTTCGTGAACATCATCAGCCGTATTTTCGGCAAGCCCAAGTATTAA	MTDLTAATDLTAPAGAMPSLQRKFEGRALRSLILTTLVWTGALLASVPLISVLYMLITRGGARLNLEVFTELPPTGFEMGGGFGNAMAGTFVMVGIAAAIAVPIGIMAAVFLAELGPDSKLGNAARFAAKMLTGLPSILAGVFAYALVVMTTGTYSAPAGGVALAVLMLPIVVLTAEESMRMVPKIMKDAAYGMGCTRSQVIWKIVLPTGMPAILTGVMLAVARAAGETAPLLFTALFSNYWIYHQGNLEVMNPTASLAVLIYNFSGMPFDNQLELAWAASLVLVMIVLFVNIISRIFGKPKY	PGPT0002610_2524	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002610-pstA-K02038	NA	NA
D1-35_03999	762	pstB3	COG1117	Phosphate import ATP-binding protein PstB 3	ATGGACTGCAAACTGGACAAGATTTTTTATGGCAACTTCATGGCGGTCCGTGACAGCCATGTGCCGATCGAGAAAAACAAGATCACCGGGTTCATCGGTCCTTCCGGCTGTGGCAAGAGCACCGTGCTGCGCAGCCTCAACCGGATGAACGACCTGGTGAAAGGGTTCCGTTTCGAAGGCCACGTGCATTTCCTCGGACAGGACGTCTACGGCAAGGGTGTTGACCCGGTGGTCGTGCGCCGTTACATCGGCATGGTATTCCAGCAGCCGAACCCGTTTTCGATGAGCATTTTCGACAACGTCGCGTTCGGCCTGCGCCTCAACCGCTACAAGGGCGACATCGGTGACCGGGTCAAGCATGCGCTGCAAGGCGCCGCGCTGTGGGACGAAGTCAAGGACAAGCTCAAGGTCAGCGGCCTGTCGCTCTCCGGCGGCCAGCAACAGCGCCTGTGCATTGCCCGCGCCATCGCTACCGAGCCGGAAGTGCTGCTGTTGGATGAACCGTGTTCGGCACTCGACCCGATCGCTACCCGGCGGGTCGAGGAGCTGATGGTCGAGTTGAAGAAGGACTACACCATCGCCCTGGTGACCCACAACATGCAGCAGGCCATCCGCGTGGCTGACACCACGGCGTTTTTCTCGGTGGATATTTCCCAGGGCACGCGCACCGGTTATCTGGTCGAGATGGGCCCGACGACGCAGATTTTCGACAACCCGCGTGAACAGATGACCGGCGATTACATCAGCGGCAAGTTCAGCTAA	MDCKLDKIFYGNFMAVRDSHVPIEKNKITGFIGPSGCGKSTVLRSLNRMNDLVKGFRFEGHVHFLGQDVYGKGVDPVVVRRYIGMVFQQPNPFSMSIFDNVAFGLRLNRYKGDIGDRVKHALQGAALWDEVKDKLKVSGLSLSGGQQQRLCIARAIATEPEVLLLDEPCSALDPIATRRVEELMVELKKDYTIALVTHNMQQAIRVADTTAFFSVDISQGTRTGYLVEMGPTTQIFDNPREQMTGDYISGKFS	PGPT0002615_4314	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
D1-35_04000	699			hypothetical protein	ATGCCTGCTACGCATCGCCTTGATTTGCCAGCGATTGAACGCGCACTACGGGAAGTGCAGGACCGCTTCGCCCAGCTCAGCCGGCACTTCACCGAGCCGCGTGACCCGTTGACCGATGAAGTGCTGCAGAATGTGCTTGAAGGTTATGCGTTGGTTGACGAATATGTTGCCCGCGGCGTCGACCTGTTCGATCTGCAGCAACTGAACCTGATGCTGGAGATCAACGCCACGGTGCTCTGCGGCCGGGATCCGGCGCGCCGGTTGGAATACGCCCATCACCTGGCAGCGACCGAGGCGCATTTCTTCAACAATGTTGAAGGAGGCATCAAGGATTTGTACAACTGGTATTGTGCCTATCGCAGCGAGTCGGTGTGGAAGCGCGCGGCAGGCGTCTATGTACGGATTCTCAGCAAGCCGCAGTTGTTCATCGAAGGTAACAACCGCAGTGGGTCGCTTATTGTCAGCTATCTGCTGATGCGCGCGGGCTTGCCGCCGTTTGTGCTGACACTGGAAAATGCCGAAGGCTATTTCAACCCGTCTTCGGTGATACGCAACTCTGCCAAGCATGGCGTCAAGGCGTTGTACGAATTGCCCAAGATCAAGAAAAAATACGCAGCGTTTTTAGAAGAACAGGCACCCGATCCAATGAAGTTTTTTCTCAAAGGCGAGTCTTTGCCGCTTTCCCAAGGTGGCCATTGA	MPATHRLDLPAIERALREVQDRFAQLSRHFTEPRDPLTDEVLQNVLEGYALVDEYVARGVDLFDLQQLNLMLEINATVLCGRDPARRLEYAHHLAATEAHFFNNVEGGIKDLYNWYCAYRSESVWKRAAGVYVRILSKPQLFIEGNNRSGSLIVSYLLMRAGLPPFVLTLENAEGYFNPSSVIRNSAKHGVKALYELPKIKKKYAAFLEEQAPDPMKFFLKGESLPLSQGGH				NA	NA	NA	NA	NA
D1-35_04001	621			hypothetical protein	ATGGACGTCAAATGCAGAACATTCAGCAGCCGGGTAGGGCAGGCCATCCGCGGCACATTGCCGACGCAGCTGTTCAAGCGCCAGCGCATACGGATTTCGTTTGATATCGATGACACGCTCGCCTGCCAACTCCACCACTGCGAAGTCGAGCAAAGCCGGCTGCCGGCCTGCATTCACCGTTGGCTGGGTGAGCCGCTGCGCCGGGGCACCCGCTCGCTGATCCGGGAATTGCGTCGCCAGGACTGCAGCATCTGGGTCTACACCTCGTCCGGCCGCACGCCGTCCTATATCCGCCGTTGGCTGCTGCTGTACGGCATCCGCGTCGACGGTGTGGTCAACAGCGTCCTGCACAACCGTGCCCTGATGGTGCATGGGCTGGAGAACTCACCCTCCAAGTACCCGCCGGCGTTCGATATCGACTTGCACGTTGATGATTCGGAAGGCGTGCAGCTCGAAGGCGATGACCATGGCTTTCGTGTTGTCGTGGTGCATCCGGAGGACGAGGGCTGGGCGCAGAAGGTGCTGGAGGCGGTCGCCGTTGTCCAGGCGCAGCTTGAGTGGCAGCAGATGTTCAGGCCCAAAGGAGCCGCGCAACAACGCGCGGAAGCTTCTTTGTCTTGA	MDVKCRTFSSRVGQAIRGTLPTQLFKRQRIRISFDIDDTLACQLHHCEVEQSRLPACIHRWLGEPLRRGTRSLIRELRRQDCSIWVYTSSGRTPSYIRRWLLLYGIRVDGVVNSVLHNRALMVHGLENSPSKYPPAFDIDLHVDDSEGVQLEGDDHGFRVVVVHPEDEGWAQKVLEAVAVVQAQLEWQQMFRPKGAAQQRAEASLS				NA	NA	NA	NA	NA
D1-35_04002	1011	ppsC		Phthiocerol synthesis polyketide synthase type I PpsC	ATGAAAGCCTGGCTATTAAAAGACTTCGGACTCGACAATCTGCAACTGGAAGAGACGGCTACACCACGCCCGGGGCCCGGCGAATTGCTGGTCAAGGTTGGCGCTGTCTCGCTCAATTTTCGCGACAAGGCCATCGTTGACGGCATTTATGAGCCGCATAAGGTGCCCAAGCCCCTCATTCCCGTAAGTGATGCGGCCGGAACAGTGGTCGCAATTGGCGATGGTGTGACGCGCTTCAAGATCGGTGATCGGGTCAACTCGCACCTGTACTCCCGTTGGCTGGATGGCGAGCCCGGACCCAATGAGCCGGATTACTGTTTTGGATCACCATTGTCCGGTGGCTTGGCCGAGTACATGATCATCCATCAGGAAAGCGCCGTGGGTGCGCCTGACAACATGAGCGATGAAGAGGCCGCTACGCTGCCGATTGCCGCGCTCACGGCATGGTATTCACTGGTGGACTTCGGGCAGATTGAGCCTGGACAAACCGTATTGGTCCAAGGCACTGGCGGTGTGTCCATATTTGCCGTGCAGATCGCAACTGCGCTCGGCGCCAAGGTGATCGCAACGTCGAGCACCGACGAAAATCTGCAAGCCGTGAAGGGATTGGGGGCCATAGCGGGCGTGAACTACAGGACTACGCCAAACTGGGCAGACGAAGTGCTGAAGCTGACCGAGGGTAAAGGCGTGGATCTGCTGCTGGATGTAGCCGGAGGCAGCGGCATCAATCAATCGATCGCAGCGACCAAGGCATCCGGGCGTATTGCGCAGATCGGCTTTTTGACCGGCCAGACTGCGGAACTCGAACTGATGCCTCTTATCTTTCGCCAGACAACCATTCGCGGTATTGCGGTGGCGCCGCGCTCATCGTTCGAGCGGATGAATGCATTTCTCAACCAACACAGGATTCGCCCAGTGATCGATCAGGTGTATCCGTTCGAGAAAGCCCGGGAAGCTTACGAGCACCTGGCAAAAGGAGCATTTGGAAAGGTTGTAATCAAGATCGCCTGA	MKAWLLKDFGLDNLQLEETATPRPGPGELLVKVGAVSLNFRDKAIVDGIYEPHKVPKPLIPVSDAAGTVVAIGDGVTRFKIGDRVNSHLYSRWLDGEPGPNEPDYCFGSPLSGGLAEYMIIHQESAVGAPDNMSDEEAATLPIAALTAWYSLVDFGQIEPGQTVLVQGTGGVSIFAVQIATALGAKVIATSSTDENLQAVKGLGAIAGVNYRTTPNWADEVLKLTEGKGVDLLLDVAGGSGINQSIAATKASGRIAQIGFLTGQTAELELMPLIFRQTTIRGIAVAPRSSFERMNAFLNQHRIRPVIDQVYPFEKAREAYEHLAKGAFGKVVIKIA	PGPT0006375_1223	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006375-EC_1_1_1_1|adh-K00001	NA	NA
D1-35_04003	915	dmlR_20		HTH-type transcriptional regulator DmlR	ATGGAACTGCTGCAATCAATGCGTCTATTCGCCAGGCTTGCCGAACTCGGCAGCTTCACAAAAACTGCCGAGTCGCTGGATATAGGGCGGCCGCAGGTCACCCGTTCCATTCAGGAGCTGGAGACATCATTGGGTGTGCGCCTTTTCCAGCGCACGACCAGAAAGGTGGCGCTCACCGCCGAGGGCGAACGATTCTATGGGCGGGTACAGGAGATTCTTGCGGACATTTCTGCCGCAACTTCGATGTTCGACCGCACCGGGGCAACGCTTACGGGCCGACTTCGCGTCGATATCCCGACCGCTTTCGCGCAAATGGATTTCATCAGAAGCCTGAAAGCGTTCACCAGCACCTTCCCAGGCATCAACGTGATACTGGGCGTGACCGACCGAGCCGTTGACTTGATAGGAGAGGGCATAGACTGTGCGTTGCGCATAGGCGATTTACCGGACTCGACATTAGTCGCTCGCCCCGTTGCATGGGCGACGATGGTGACGTGCGCGGCGCCCGAATATCTCGCCAGGCACGGCGAACCCCAGACACTCGGCGACCTGGTCTCCCATCGAGGGGTGAACTTCTTGTCCGGTCAGAGCAACAGGCCGTTGTCCTGGCATTTCTTGGTGGAAGGCCAGGATCGAGCGTTCGTAAGTAACCCCGCCATCACCGTCACTGAATCGAATGCGTACGTGCAGTGCGGTGTGTCGGGCTTCGGAATAATCCAGGCGCCAGGCATCGCTGTGGCCGGGTATCTGGAAAGCGGCGCTTTGGTGGAGATTCTGAGACCCTTTCGACCAGCTCCTCGCCCAGTGTCGTTGCTATACCCAAGCCGGACGCACCTGGCGCCGCAAGTGCAGGTTCTTCTCGAATGGCTGCAAGAGCACTTTGTTCAGCTTCATCCCGAGTGGCTGGAACGATAG	MELLQSMRLFARLAELGSFTKTAESLDIGRPQVTRSIQELETSLGVRLFQRTTRKVALTAEGERFYGRVQEILADISAATSMFDRTGATLTGRLRVDIPTAFAQMDFIRSLKAFTSTFPGINVILGVTDRAVDLIGEGIDCALRIGDLPDSTLVARPVAWATMVTCAAPEYLARHGEPQTLGDLVSHRGVNFLSGQSNRPLSWHFLVEGQDRAFVSNPAITVTESNAYVQCGVSGFGIIQAPGIAVAGYLESGALVEILRPFRPAPRPVSLLYPSRTHLAPQVQVLLEWLQEHFVQLHPEWLER	PGPT0028940_472	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
D1-35_04004	735			hypothetical protein	ATGAAGATCGGAATTATCGGCGCGGGCAACATTGGAGCCACCCTTGCCCGCAAGCTCGCTGCGTGCGGCCATGAAATCAAGCTGGCGAACTCGAAGGGTCCTGAAAGCCTACAGAAACTCGCCAGCGAAATCGGTGTAAAGGCAGTGACCAGGGAAGAGGCTGTGTCTGGGGTGGACGCGGTTATCCTCTCGATCCCGTTCGCAAAACACCCCGAACTCGGGCAGGCATTCAGTAACGTCCCTGAAAAGACCGTCGTCATCGACACCTCCAATTACTATCCAGGCCGTGACGGGGCGATCAAGGACGTCGATGCCGGCAAGCCCGAGAGCATCTGGGTCAGCGAACAGCTTGGCCGCCCGGTCATCAAGGCCTGGAACGCCCTGCTCGCCGCCACGCTTGCCGATAAGGGCCAGCCAGCCGGGTCCTCAACACGCATAGCGTTACCTGTCGCAGGGAGCGATCCCGCCGCTTTGGCGGTTGCGCAGGATCTCGTCGAGGACACCGGCTTTAGCGCATTTGCCGCTGGCAACCTTGAAGACTCTTGGCGTCAGCAACCAGGTACACCGGCTTACTGCACCGAGTTGACATTGCCGGCGTTGAAATTGGCCCTGGACGCGGCTGACAAGACTCGGGCGGCGCAAAACCGCGACGCATTGATCGCCAGGTTCATGGCGCCCGGCAGTCAGCTTTCACATGAGCAAATCGTTGCCTTGAATCGCGCCATGACAGCCTGA	MKIGIIGAGNIGATLARKLAACGHEIKLANSKGPESLQKLASEIGVKAVTREEAVSGVDAVILSIPFAKHPELGQAFSNVPEKTVVIDTSNYYPGRDGAIKDVDAGKPESIWVSEQLGRPVIKAWNALLAATLADKGQPAGSSTRIALPVAGSDPAALAVAQDLVEDTGFSAFAAGNLEDSWRQQPGTPAYCTELTLPALKLALDAADKTRAAQNRDALIARFMAPGSQLSHEQIVALNRAMTA				NA	NA	NA	NA	NA
D1-35_04005	759	hcaB_4		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGAACCGCACTGGCAACACGATCCTGGTCACTGGCGGCTCTTCAGGCATAGGCCTTGGCCTTGCGCTCAGGCTTCACGAGGCGGGAAACAAAGTGATTATCGCGGGACGTCGCAAGGCGCTGCTCGACAAAGTCGTGTCGGAACATCCGGGTATCGAATCGATATTGCTGGATGTCTGCGATCCACAATCCATCCTGCATGCCAGCGAAACCCTTGCGATCAGCCATCCGAACCTGAACGTCCTGATCAACAACGCAGGCATCATGCAATGGGAGGACCTGACTGCGCCGGACAATCTGAGTACCGCCGAAGATATCGTGACCACCAACCTGCTCGGCACGATTCGCATGGTGTACGCGTTTACGCCGCATCTGATCAAACAGCCCAGCGCAACGATTGTGAATGTCAGCTCCGCCCTGGCATTCGTCCCGCTGCCGGCGACGCCGACCTACAGCGCAACCAAAGCGGCCGTGCACTCCTTTACTCAAAGTCTTCGAGTACAGCTGGAGGCGTCTTCGGTCGAAGTCATCGAGCTTGCGCCGCCGGGTGTGCGTACCACTTTGCTTGGGCAGGAAAACGACGAACACGCCATGCCCCTGGAGCAGTTCCTGGATGGAATCTTCGAACTCCTCGCCATCACCCCGACGCCACAGGAACTTGTCGTCGAGCGCGCCAAGCCATTACGGTTTGCCGAAGCGGATGGTACACATGACGAGGTTCTGAAAATGCTGGCGGGATACAAAGCGCCAGCTGAATGA	MNRTGNTILVTGGSSGIGLGLALRLHEAGNKVIIAGRRKALLDKVVSEHPGIESILLDVCDPQSILHASETLAISHPNLNVLINNAGIMQWEDLTAPDNLSTAEDIVTTNLLGTIRMVYAFTPHLIKQPSATIVNVSSALAFVPLPATPTYSATKAAVHSFTQSLRVQLEASSVEVIELAPPGVRTTLLGQENDEHAMPLEQFLDGIFELLAITPTPQELVVERAKPLRFAEADGTHDEVLKMLAGYKAPAE	PGPT0013220_422	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0013220-dltE-K14189	NA	NA
D1-35_04006	591			hypothetical protein	ATGCCTGACGAACTGGTGATGCGTGCTGACGCCAAGAAAAACCGTGAACGGATACTGGAGGTCGCCGTAACAGAGCTGACCCTCGATCCCGCGGTCCCGCTGAGCACGATTGCGAAGAAAGCCGGGGTAGGCCAGGGCACGTTCTATCGCCACTTCGCCACCCGGGAAAAATTGGTATTCGAGGTCTATCAATTCGAAATGCAGCAGGTGGCTTCGTTGGCGGAACAACTGCTCGCCACGAAACCGCCGAAGGAAGCCCTCCGGGAATGGATGGACTGCCTCGCCGAATATGCGATGACCAAGGCCGGACTTGCGAGTGCGATACGCCAGGCCGCTTCTGCCTATGAGTTTCCGGGGAAGTCGGGATACGCGCCGATGCTGGCGGCGGCAGAATTGCTCTTGAGGGCTAACGAAAAGGCTGGAACGATTCGTAGCGGAGTGACCAGCGACGACTTTTTCCTGGCCACTGCCGGAATCTGGCAAATGGATTGCCAGAGCGAATGGCATCCACGTTTCTCCAGGTTGATGGATCTGGTCATGGATGGCCTGTGCGCGGGCAGCCCTGAAAGCCTGAAGAGGGACAACGACTAG	MPDELVMRADAKKNRERILEVAVTELTLDPAVPLSTIAKKAGVGQGTFYRHFATREKLVFEVYQFEMQQVASLAEQLLATKPPKEALREWMDCLAEYAMTKAGLASAIRQAASAYEFPGKSGYAPMLAAAELLLRANEKAGTIRSGVTSDDFFLATAGIWQMDCQSEWHPRFSRLMDLVMDGLCAGSPESLKRDND				NA	NA	NA	NA	NA
D1-35_04007	1161	nemA_2	COG1902	N-ethylmaleimide reductase	ATGAAATACAGCTCGCTGTTCGAACACACCTCGCTAGGCCCACTGACGCTGAAAAATCGCATCGTCATGCCGCCCCTGACCCGTCAACGCAGCGGCCAGCCCGGTGACGTGCCCACAGCCCTCATGGCCCGCTATTACCAACAGCGCGCGAGTGCCGGCCTGATCATCAGCGAAGGCACCCAAATCGAACCCCGTGGCAAGGGTTATGCCTGGACGCCGGGCATTTACAGCCAGGCGCAGATCGATGGCTGGCGCACCGTCACCGAGGCGGTTCACGCTGAGGGCGGGGTAATTTTTGCCCAGCTCTGGCATGTCGGTCGCGTGTCACACAGCGCACTGCAACCGGAAAACGCCGCCCCTGTCGCACCGTCGGCGATCCAGGCGAAAAAGGTCAAAGCCTTTATCGAAACCGGTCCCGGCACCGGCACGCTGATCGAACCCTCCACTCCGCGCGAGCTGAGCGTCGCCGAGATCAAGGCGCTGGTCGAACTCTATGCCCAGGCCGCACGCAACGCCCTGGCGGCCGGTTTCGATGGCATCGAGATCCACGCGGCCAACGGTTATCTGGTCAATCAGTTCATTTCCGCCCATGCCAACCAGCGCACCGATGACTACGGCGGCTCGCTGCACAATCGCCTGCGTTTCCTGCGCGAAGTGGTCCGGGCCGTCAGCGCCGTGGTCGGGCCCGACCGTGTGGGCGTGCGCTTCACGCCGCTGTTCACCAGCACCGAAGAAGACCGCGTGTACATCGGCTTCGTCGAGGACGACCCGCACCAGACCTACATCGAAGCCATCAAGGTGCTTGAGCAGGCAGGCATCGCCTATCTGTCCATCGCCGAAGCCGACTGGCCGAATGCGCCGGACCTGCCCGAGGCGTTTCGGCGCGAGGTGCGAAGCACCTTCACCGGCCGCATCATCTATGCCGGGTTGTACACCGCTGACCGCGCGGCGCGCCTGATCGAGTCGGGCCTGGCCGACCTGGTCGCATTCGGCCGGCCGTTTATCGCCAACCCCGACCTGCCCCAGCGTATCGCCAATGGTTGGCCGCTCAACGCTCTTGATGCCACCGGACTGTACGGCGGTAATGAACAAGGATTCACCGATTACCCGCGGTATTCCCCATCCACAGTTGAGCGCGAGGAAACAATTCCCACGTACTGA	MKYSSLFEHTSLGPLTLKNRIVMPPLTRQRSGQPGDVPTALMARYYQQRASAGLIISEGTQIEPRGKGYAWTPGIYSQAQIDGWRTVTEAVHAEGGVIFAQLWHVGRVSHSALQPENAAPVAPSAIQAKKVKAFIETGPGTGTLIEPSTPRELSVAEIKALVELYAQAARNALAAGFDGIEIHAANGYLVNQFISAHANQRTDDYGGSLHNRLRFLREVVRAVSAVVGPDRVGVRFTPLFTSTEEDRVYIGFVEDDPHQTYIEAIKVLEQAGIAYLSIAEADWPNAPDLPEAFRREVRSTFTGRIIYAGLYTADRAARLIESGLADLVAFGRPFIANPDLPQRIANGWPLNALDATGLYGGNEQGFTDYPRYSPSTVEREETIPTY	PGPT0005930_115	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_TOLULENE|DERIVATE_DEGRADATION	XENOBIOTIC_NITROTOLULENE_DEGRADATION,PGPT0005930-nemA-K10680	NA	NA
D1-35_04008	684			hypothetical protein	ATGAAAGTTCTCATGGTACTGACCTCGCACGACACCCTCGGCAACACCGGCCGCAAGACCGGCTTCTGGCTCGAAGAGCTGGCGGCGCCCTACTACGCTTTCCTCGACGCCAAGGCCGAGATCGTTCTGGCGTCGCCTGAGGGTGGGCAGCCACCGCTTGATCCGAAGAGTAACGAGCCGTCCTTTCAGACTGACCTGACCCGCCGTTTCGAAGCCGATCCTGAAGCGACCGCCTTGCTTGCCAGCACCGTGCGCCTGGACAGTGTCTCGCCAGACGATTTCGATGCGGTTTTCTACCCAGGCGGCCACGGCCCGCTGTGGGACCTGGCCGAAGATCCGGTCTCGATCCGCTTGATCGAGTCTTTCCAGGCCGCCGGCAAGCCTGTCGCCTTGGTGTGCCACGCGCCTGGCGTGCTGCGCCACGTGAAAAAGCCTGACGGTACTCCGCTGGTCCAGGGCAAAAAAGTTGCCGGTTTCACCAATACCGAAGAAGCCGCGGTAGGCCTGACCGATGTCGTGCCGTTCCTGGTCGAGGACATGCTCAAGGTCAACGGCGGCCTGTATTCGAAAGGCGCCGACTGGTCCTCCTACGTGGTGCGTGACGGTCTGCTGATCACCGGTCAGAACCCGGGTTCGTCAAGCGAAGCCGCGCAGGTCCTTATCGATCTGCTGAACGAGGCTTGA	MKVLMVLTSHDTLGNTGRKTGFWLEELAAPYYAFLDAKAEIVLASPEGGQPPLDPKSNEPSFQTDLTRRFEADPEATALLASTVRLDSVSPDDFDAVFYPGGHGPLWDLAEDPVSIRLIESFQAAGKPVALVCHAPGVLRHVKKPDGTPLVQGKKVAGFTNTEEAAVGLTDVVPFLVEDMLKVNGGLYSKGADWSSYVVRDGLLITGQNPGSSSEAAQVLIDLLNEA				NA	NA	NA	NA	NA
D1-35_04009	603	nemR		HTH-type transcriptional repressor NemR	ATGAGCAGCCCAAAGACCCGCGAAACCTCCGACGTCCGCCAGGAAATCCTTGATGTAGGCCAACGAATCATGGCCGCCAAAGGCTATTCCGCCGTGGGCCTGAATGAAATCCTGGCCACTGCGGGTGTGCCAAAAGGATCCTTCTACCACTACTTCGGCTCAAAAGACGCCTTCGGCGAGGCATTGCTTGAAAGCTATTTCGCGAGCTATCTGGCGGAGCTGGACGAGGTTCTCGCGCTGCCTGGCCTGACGATGGCTCAGCGTCTGATGAAGTACTGGGACATCTGGCAACAGACTCAATCGTTCCAGGATTGCCAGGGCAAATGCCTGGCGGTGAAGCTGGGCGTGGAAGTCGCCGACCTTTCAGAGGCGATGCGCGCGGTGCTCAAGCGCGGCACAGCGGGTATCACCGACCGCCTGGCCGTGGCGATCGAGAGCGGAATCGCCGAAGGCTCCCTGGAGTCCGTTGCCGAGCCTCATGCGGTCGCGCAAAGTCTCTATCAGCTGTGGGTCGGTGCCAGTGTCATGGTCAAGATCACCAAGAGTGTCCAGCCTTTCGAGACGGCAATGGCGACGACTCGCCAGATTCTCAGCCTTACCTGA	MSSPKTRETSDVRQEILDVGQRIMAAKGYSAVGLNEILATAGVPKGSFYHYFGSKDAFGEALLESYFASYLAELDEVLALPGLTMAQRLMKYWDIWQQTQSFQDCQGKCLAVKLGVEVADLSEAMRAVLKRGTAGITDRLAVAIESGIAEGSLESVAEPHAVAQSLYQLWVGASVMVKITKSVQPFETAMATTRQILSLT				NA	NA	NA	NA	NA
D1-35_04010	651	comR		HTH-type transcriptional repressor ComR	ATGGCTCAGATGGGACGGCCGCGCACGTTTGACCGTGACGCGGCAATCACGCAGGCGCTGCATCTGTTCTGGGAGCATGGCTATGATGCGACGTCGCTCAGCCAGCTCAAGGCCAACATCGGTGGCGGCATCACCGCACCGAGCTTTTATGCAGCGTTTGGCTCCAAGCAGGCGTTGTTCAACGAAGTGATGGAACGCTACCTGACTACCCATGGCAGGGTGATGGAGAGCCTGTTCGACACCACCCTGCCCCCCAGGGAGGCGATCGAATGCACGCTGCGCCGCTCGGCGAAAATGCAATGCGAGACAGACCATCCCAAAGGCTGCCTGGTGTCACTGGGTTATCTGAGTGCCTGCTCGGAAGAAAGCAAAGCCATCTCCCGGCCGCTCGCTGAGGCAAGAACCGCCAACCGTGCCGGAATCAAGGCCTGTGTAGATCGCGCCATCGCCGCCGGAGAGCTGCCGGCAACAGTGGCCTCGGAAGCGCTGGCCGCGGTGTTCGACAGTTTCCTGTTGGGCCTGTCGGTATTGGCGCGGGACGGCGCCTCCCTTGAGACCTTGGACGCCGCGGTTACGCAGGTCATGACGGTCTGGGACGCGCAACGCATGGGCCGTCCGATGGCGGCAAACGATCAAGCGGATGAGCAATAG	MAQMGRPRTFDRDAAITQALHLFWEHGYDATSLSQLKANIGGGITAPSFYAAFGSKQALFNEVMERYLTTHGRVMESLFDTTLPPREAIECTLRRSAKMQCETDHPKGCLVSLGYLSACSEESKAISRPLAEARTANRAGIKACVDRAIAAGELPATVASEALAAVFDSFLLGLSVLARDGASLETLDAAVTQVMTVWDAQRMGRPMAANDQADEQ	PGPT0004136_310	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004136-comR|ycfQ-K22041	NA	NA
D1-35_04011	1206	nepI_3	COG2814	Purine ribonucleoside efflux pump NepI	ATGGTCACCAACGAACGACAGGGCGCGAAGCTGCCCTATGGAGCACTGCTGGCGCTGGCAATGACCGGATTCATCTGCATCGTGACGGAGACGCTGCCGGCAGGTCTGCTGCCTGAGATTGGCGATGGCCTGGGCGTCTCACCATCCCTGGCCGGGCAGATGGTAACGGTGTATGCGCTCGGCTCACTACTGGCAGCCATCCCGCTGACCATCGCTACCCAAACCTGGCGCCGCAGGACGGTGCTGCTTCTCACCGTGGTCGGTTTCCTGGTGTTCAATTCCATTACCGCGCTGTCTTCCGTTTACTGGCTGACTCTGATCGCACGTTTTTTTGCCGGTGTTTCGGCGGGGTTGGCCTGGAGCCTCATCGCGGGTTACGCACGGCGCATGGTCGTCCCGGCCTTGCAGGGGCGCGCCTTGGCGGTAGCGATGGTCGGCACGCCCATCGCGTTGTCGCTGGGCGTGCCCCTGGGAACCTGGCTTGGCGGGGCGATAGGGTGGCGCATGTCGTTTGGTCTGATGTCCGGATTGACCCTGGTGTTGATCGCTTGGGTGCTGATCAAAGTGCCGGATTACCCAGGTCAATCCTCCTCCCAGCGTCTGGGCTTGCGTCAGGTCTTGTTCACGCCTGGCGTGCGCGCCGTGCTCGGCGTTGTGCTGACCTGGATGCTGGCCCACAACCTTCTCTATACGTACATCGCGCCATTTGTCTCCGGCGCAGGGCTGGGCCGGCATGTCGATGTGGTCCTGCTGGTCTTCGGTGTCGCGGCGCTGGCTGGCATCTGGATCTCCGGGCGGCTGGTCGATCGCCATCTGCGAGCGGCGGTATTGACCAGCCTCGCTACGTTCGCCGCCGTATCGGTCTTCCTCGGAATATTTTCAGCTTGCGCCGCAGCGATCTATCTCGGCGTTTTCATCTGGGGCCTGACCTTCGGCGGCGCCGCAACGTTGCTGCAAACGGCCTTGGCCGACGCAGCAGGCGAGGGCGCCGACGTTGCGCTGTCGATGAACGTGGTGGTGTGGAACAGCGCAATCGCCGGCGGCGGGTTATTGGGCGGGGTGTTGCTTGGCCAATGGGGCGTCAGCACTTTTCCCTGGGTGCTGTTGGTGTTGCTGCTCGCCAGCCTGGCGCTCGCGCTCCGAGCGCGGGTGCATGGCTTTCCGCAGGGCGAAAGATATGCCGGTCATGGCGCAGCCGCGCATTGA	MVTNERQGAKLPYGALLALAMTGFICIVTETLPAGLLPEIGDGLGVSPSLAGQMVTVYALGSLLAAIPLTIATQTWRRRTVLLLTVVGFLVFNSITALSSVYWLTLIARFFAGVSAGLAWSLIAGYARRMVVPALQGRALAVAMVGTPIALSLGVPLGTWLGGAIGWRMSFGLMSGLTLVLIAWVLIKVPDYPGQSSSQRLGLRQVLFTPGVRAVLGVVLTWMLAHNLLYTYIAPFVSGAGLGRHVDVVLLVFGVAALAGIWISGRLVDRHLRAAVLTSLATFAAVSVFLGIFSACAAAIYLGVFIWGLTFGGAATLLQTALADAAGEGADVALSMNVVVWNSAIAGGGLLGGVLLGQWGVSTFPWVLLVLLLASLALALRARVHGFPQGERYAGHGAAAH				NA	NA	NA	NA	NA
D1-35_04012	813	moaF_2		Protein MoaF	GTGAGCTATCAGATCGAACAAGAACTGAAGAACCAACCATTCGTGCCTGAAGAGCAATGGCCGACGCTTGAGGAAATGGCCGACGGTTTTAATGAGTACAAATACGCTCCGTCCCTATTTCTGGCAGGAAAAAAAGCCAACCTTCGCTTTGCCAACGGTTGGCTGATCGAGCACCATTTTGTTGATGGGAATACGTTGACCTGGACCATCCTGGAGGGCGAAGGCACCGGTGAATCCGAAACAGAAACCTACGAAGCGGTGGAGGTTCGCCCCGGTATCTTTTTCATCGACTTCCTCAAGCCCGAACACCAGGAGTCGGCCACCCTGGTCTGGAAATACGAAACCGGTGATGTACTGGCGGCTGTCTCCCTTTTTTATGACAGAGGAGGGGAAAAACGTACGCGTACAGATTTCGTGACTGCCGTGGTCGATGGCGAGCCTGGGGGCGCGCCCATCGTTCAAGGGGCCGGCCTGGTCGGTAAGCGCGTGCTGTACCGCTACAGCGCGGACGATTGGTATGAGCACGTCTACTTCGGCGCGCAAACCATGGCCTGGCACTGCGTGAACGGGGCTGAGAAAGGTCTGGCCGACGTCGAGCGGTGCGCTTATTTCGATGTCGCCGATGACCTCTACGTGTTGTTCTGGACCGAAACGGTCATGCCTGTGGAGTCGGTTATCGTCGTGGACCTTGCGCAGATGCGCTCCGTGGGTCGGTTCTTCTGTTGGGACCCGAAGCCAAGGAAACTGATTCACCTCACCTTTGGATCAAAAGCGACTGTGCTGAACGAAACGTCTTATCCCGTCGCCTTTTGA	MSYQIEQELKNQPFVPEEQWPTLEEMADGFNEYKYAPSLFLAGKKANLRFANGWLIEHHFVDGNTLTWTILEGEGTGESETETYEAVEVRPGIFFIDFLKPEHQESATLVWKYETGDVLAAVSLFYDRGGEKRTRTDFVTAVVDGEPGGAPIVQGAGLVGKRVLYRYSADDWYEHVYFGAQTMAWHCVNGAEKGLADVERCAYFDVADDLYVLFWTETVMPVESVIVVDLAQMRSVGRFFCWDPKPRKLIHLTFGSKATVLNETSYPVAF				NA	NA	NA	NA	NA
D1-35_04013	966	feaR_2	COG2207	Transcriptional activator FeaR	ATGTACAACACTTGGCAAACAGAACCGCTCTATACGGGCGCCCAGGGCTTCGAGGCCTGGCAACACGACCTCGGTCAGAAATGCGGAACCTTTCACGCCGAGCCGCCTTCCGGGCCCGGCCTCGCGAGCTTTACCGGCGCGATGAAAAATCTGACGGGCACAGATTCCGCGTTGGATGGCTCGCGCATCATCAGCAATTGCCAGCACTTGCACCGCGCCCGCAGCGATATTCGGGCCGATGACAAAGATTTTTTCTACCTGGTGCTGCAAGTCGGTGGTAGCGCATTGATGTGCCAGGCTGACAATCGCGCCCGCCTGGACAAGGGCGACCTAGTGTTGCTGGACATCACGCAGCCTTGCGATTTTTACTTCGATGCCCTGAGCGACCAGATGTCGCTGATCATTCCCCGCCAAGCGCTGCACCAACGCTTGGGGCAGAGGCAATTGATATTCAACCGTCCCTTGGTTGCCAGCAGCGCTTTGGGGGGCATGGCCGGCCTGATGACCCAACGGCTATTCGATTCTTCGAACCTGCTACCGCAAGAGAGTGCGGCATTGTTCGACGCATTGCTGATGCTGTTGCGCCCTGGGGTGAGCAGTGCAATCGAGGGCGGAGACTCCAGCGGCCAGGCGCAGAAACTGATCAAGGCAAAAATCCTGATCGAACGGCATCTTTGCGATAGCGAGTTGTGTGCCGAGCGTCTGGCAGAAGCCATCGGTACATCGGTCAGAAACCTGCATCGGCTCTTCGCCCAGCAAGGCACCACCATCGGCCGGCACATATTGGAACAGCGACTGCAACGCTGTGCCGAGACCATCAGCCAGGCAGCCGCCCATGAAAAAATCACCGCCATCGCCTACGCCTGGGGCTTCAATGATGTGAGCCATTTTTCCAAGGCGTTCAAGCTGCGATTCGGCATTTCTCCCCGCGACTATCGCCATCAGTTTTCAACCGAATGCAATTGA	MYNTWQTEPLYTGAQGFEAWQHDLGQKCGTFHAEPPSGPGLASFTGAMKNLTGTDSALDGSRIISNCQHLHRARSDIRADDKDFFYLVLQVGGSALMCQADNRARLDKGDLVLLDITQPCDFYFDALSDQMSLIIPRQALHQRLGQRQLIFNRPLVASSALGGMAGLMTQRLFDSSNLLPQESAALFDALLMLLRPGVSSAIEGGDSSGQAQKLIKAKILIERHLCDSELCAERLAEAIGTSVRNLHRLFAQQGTTIGRHILEQRLQRCAETISQAAAHEKITAIAYAWGFNDVSHFSKAFKLRFGISPRDYRHQFSTECN				NA	NA	NA	NA	NA
D1-35_04014	1440			hypothetical protein	GTGGATACAACCAATAACAATACCTGTGCCTCGGCTTCGCACCTGCAGAAAACCTTGCGCTGGAGCGATGCATTCGCACTGTCAATGGCGGTGTCAGGCTCGATCTTCGCTTCTTTCGGCTTCGCCCTCGGTGCACTCGGTCCGGTAGCCGCGCTAATGCTCTGGGTGGGCTCGGCAGCCATCGGGGCCTGTCAGAACTGGATTTTCCTGGAAGTCAGCGCAATGTTTCCGGATAAACCTGGCGGCATCGCAATGATCGCGGCCGAAGGATGGCGCAAACGCTGTGCCTGGGTCGGTCCCTTGGCCGCCTTTGGTTACTGGCTTGGCTGGTCGGCGGTGTTGTCGATCATTGGCGTGAGCGCCGGAGCGTTGATTCAGGCGCAGTGGTTTCCCTCGCAAATCTGGAGCTTCGATACAGGTCTGGCCAACATTGGCCTGGCCCAGATGATCGGAGCGGGTTTGATCGTGCTTTTCTGGCAATTCAATCGTCGCGGCATCCATCTGGCCGCATCGGTCTCCAAATACATGGGGGCGCTGCTGCTGGTGCCGATCCTGGTGTTGGCAGTGGCGCCTTTGCTGGCTCATGGCTGGAGCATGGAGCGCTTCGCATCGGCCTGGCAGGCGCGCGAGGCGTTCGGTTGGGAGTCGTTGCGCACCGCGTTGGTCTGGATGTTCCTGGTCAGCTGGAGCGCCTATGGCACCGAAATGTGCGCAGCCTTCGGGCCCGAATATCGCAGCGAGCGGGACATGCGCCTGGCGTTGATGAGTTCAGGTGGCTACACCGTGCTGGTGTTTGCCGCAGTAGCTTTCGGCCTGGGCGGCTTGGTGGATCCGCAAGCGGCCCTGGAGAACCCCAGCGGTTTCTACATTGCGGCCTTCAACGCGGTGCTGGGCACGGGCTGGAGCAGCTTTTTCGTGATCGCGTTGCTGGTGGGGCTGTTCATGGGGTTGAACGCGGCATTGGCCGATGGCTCGCGGGCGTTGTACGGCACGGCGCTGGAAGGACTGACCATCAAACAACTGGGTGTGCTCAACAAACACCAGGTACCTGGACGTTGCATGAGCGTGGCGGTGGCGGTGAACCTGGCGATGATCTTTTTCCTGTCATCGCCCTTGGCAATTCTGGTGACGGCCAATATTGGTTATCTGACCGCCATCTTCTTCGCGCTTTCGGGCTTCATCTTGCTGCGCAAGGACGCACCGTTGCACCCGCGTCCGGTGCGTCTGGGACGCGGCTGGCTGCCGGTGGCCTGGCTGCTGAGCGTGTTCACTGGCGTAGTGGTCGGGGTCGGGGCCGCATCTGCCGAGCTGGCCGGTTATGGCGGAGCGAAGGAGGTGCTGATCGCCTTGGGCATCCTGATGTTTTCACTGCTGCTGTATGCCTATCGACGACTCGTGCAAGACCGCGCCCCGGCCTTGCCATCGGTCTCCCCACACTGA	MDTTNNNTCASASHLQKTLRWSDAFALSMAVSGSIFASFGFALGALGPVAALMLWVGSAAIGACQNWIFLEVSAMFPDKPGGIAMIAAEGWRKRCAWVGPLAAFGYWLGWSAVLSIIGVSAGALIQAQWFPSQIWSFDTGLANIGLAQMIGAGLIVLFWQFNRRGIHLAASVSKYMGALLLVPILVLAVAPLLAHGWSMERFASAWQAREAFGWESLRTALVWMFLVSWSAYGTEMCAAFGPEYRSERDMRLALMSSGGYTVLVFAAVAFGLGGLVDPQAALENPSGFYIAAFNAVLGTGWSSFFVIALLVGLFMGLNAALADGSRALYGTALEGLTIKQLGVLNKHQVPGRCMSVAVAVNLAMIFFLSSPLAILVTANIGYLTAIFFALSGFILLRKDAPLHPRPVRLGRGWLPVAWLLSVFTGVVVGVGAASAELAGYGGAKEVLIALGILMFSLLLYAYRRLVQDRAPALPSVSPH				NA	NA	NA	NA	NA
D1-35_04015	1302	puuB_5		Gamma-glutamylputrescine oxidoreductase	ATGCTGTCCGTTGAAACACCAACGACCTATTACACCGCCACTCGCAAATATGACTTGAAGTTCAATGACCTGGAGCACGATGTCGAGGCCGAAGTCGTCGTTATCGGAGGTGGATTTTCCGGTATCAACACTGCGTTGGAACTCGCCGAGCGCGGATTCACCGACGTGGTAGTGCTGGAAGCCCGTTACCTGGGTTTCGGCGGCTCGGGGCGCAATGGCGGTCATGTGATGGCCGGGATCGGACACGATCTGGAGAAGATTCGCAAAAGCGTCGGCGAGGAGGGGCTCAAAGCGATTTTCGAGATCAGCGACCTGGGCGCCTCGATTATCCAGAACCGCATCCAGCGTTATCAAATTGATGCGGATTTCTGCCACGGCTATGGCTATCTCGGTTTCAACAAGCGCCAGGGTCGGCTGCTACAAGCATGGGAAAAAGAATACAAACAGCTCAATCCGGATCACGAAATTGCCTATCTGGAGGGCGCCGAGGTCCAAAGCATCGTCGGCTCGGACGTATACAGCTGCGCCTTGAAGCACATGGGCAACGGCCATATCCATTCGTTGAACATGCTCCTGGGGTCGGCCAAGGCCTTGGTGGGCCTGGGTGGACGCATTTATGAAAACACCCCCGTGCTGGAGGTGACCTATGGCGACACCATTAACTTGCGTACGGCGAAAGGTTCGGTTCGGGCGAAGAAGATCCTCTGGTCCTGCGGCGCGTTTCTGGACCGGCTCGAGCCTGAATTGCACAAGACGATGGTGAGCACTTACGCCTTCCAATTGGTGACGGAGCCGCTTCCCCCTGCGCTGATCGAACAGATCAGTCCGATACGAGGTGCCTTCAGCGATATTCGTCCGGTGATCGAGTACTACCGGGTGACCAATGAAAACCGTCTGCTCTTCGGTTCGGCGACGCGCCTGCTCGAGTACATTCCCAACGATCTGAAGGCGTGGAACCGAAATCTGATGCTCCAGGTTTTCCCCTACCTCGATCACGTGAAAATCGACCTGGCCTGGGGCGGGCCGATGGAGTGCAGCGCCAATCTGTTCCCACAGATCGGTACCTTGCCCGGGCGCGACAACGCCTATTTCGTCCAGGGTTACTCGGGCTTCGGCGTGACGCCGAGTCATGTGGTCAGCCGTGTCATTGCCGATGGCATGACCGGCGGTTCACGGCATTGGGATGTGATGAGTGCGATCCCGCGTACGCGGATTCCCGGCAAGGATCATTGGCGCAACCTGATCTGCACCCTTGGAAAGGCCAGCCACCAGCTGGCGGGCTACCGCAACGGTCGCCGCTGA	MLSVETPTTYYTATRKYDLKFNDLEHDVEAEVVVIGGGFSGINTALELAERGFTDVVVLEARYLGFGGSGRNGGHVMAGIGHDLEKIRKSVGEEGLKAIFEISDLGASIIQNRIQRYQIDADFCHGYGYLGFNKRQGRLLQAWEKEYKQLNPDHEIAYLEGAEVQSIVGSDVYSCALKHMGNGHIHSLNMLLGSAKALVGLGGRIYENTPVLEVTYGDTINLRTAKGSVRAKKILWSCGAFLDRLEPELHKTMVSTYAFQLVTEPLPPALIEQISPIRGAFSDIRPVIEYYRVTNENRLLFGSATRLLEYIPNDLKAWNRNLMLQVFPYLDHVKIDLAWGGPMECSANLFPQIGTLPGRDNAYFVQGYSGFGVTPSHVVSRVIADGMTGGSRHWDVMSAIPRTRIPGKDHWRNLICTLGKASHQLAGYRNGRR	PGPT0007637_849	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007637-puuB|ordL-K09471	NA	NA
D1-35_04016	1317			hypothetical protein	ATGCTCGCCTGTAAAAAAACAATAATCGCGCTTTCGTTCGCCTGCGTCTGTGTTCCAGCAGCAGCGCAGCCGCTGTACAAGGATGAAGCCACGGAAGTCGATGCGCGCTTGCTCGCGTTGGCTGGCGCCTTCCATAGCCGGGAAAACTACTCGCAATCGGGAACACGTAGAGAGGGGGCCAGCCGGTGGCAAGAGGCGGTCCTGCAATACGGTTTCGACCTGCGCCATAGTCTCGACGCCGGGTCGCAACTGTACGGTTCATTGAATTGGGTAAGCTCCGCCACCTTTGGCGATGGCGACCCGGCCGGCTGGTCTTCAGGTGATGAGCGCACCACGAAAATCGAGGACGCTTTCGTGGGTTGGCGCTCCGGCACACGGTTCGATGTCATGGACGAGAACGGCGTGGACATATCGTTCGGGCGGCAAAACATCGTGATCGGCGACGGCTTTCTGGTCAGTGGCGATGCCTTGAATCTCGGCAAGGAGTTTGTCGACGGCAAAGCCAATCGGGGCGGGGGATACTACCTGACCGGTCGCAAGGCTTTTGATCGCACGGCCGTACTGCGCCTGGGTGGCCAGCAAGGCTGGCGGGGTGATCTTATGTGGCTCAAGTCCGACAACCCGGCCCAGGCCAGGCCGGAATTGGCACTGGGTACGCTGGAGCATGTCAGCGAGCAGGGCACCCTGGGCCTGACTTATCTGAAAGTCACCGATACCGACCAGGCAATGGCGGACCTGTTGTTTCCCGAGCGCAAGGGTATGCAGCTCTACAGCGTTCGCGGACAGGGTAATGCAGGGGTTTCCGGGCTGTTCCTGGCCGGTGAGTACGCTTGGGAGCAGAAAGATAACGCCAGGGAGAACGCCTGGTATCTTGAAGCCGGTTGGACGTTTGACGATGTTCCCGGCACGCCTTCGATCAACTACCGATACAGTCGTTTCTCCGAAGGCTACGACCCGCTTTTCTATGGCAATGGCCGCGCGCTCGGTACCTGGTTCCAAGGTGAAGTCGCTGCCAACTATGCGGGCCCGTTCAACAGCAACGCCACTGTGCAGCATGTGGGATTGAAACTCGCTCCCGCCGAGGATCTCAAGCTAGGCATCTTGCTTTACACCTTCCGCACCCTCGACGCGAGCCGTAACCAACTGGATGCCGACGAGGCGGACCTCTACGCCGAATGGTCGATTGACCCGCATTGGACCCTCATGCCCCTGGTGGGCCTCTATAAGCCGAAGCAAAGTGCCGCAAATGGCGGGACACAAGTCGGCAACAGCACCACCAATCTCTACGGGCAGGTTTTGGTGGCGTGGTCGTTCTAG	MLACKKTIIALSFACVCVPAAAQPLYKDEATEVDARLLALAGAFHSRENYSQSGTRREGASRWQEAVLQYGFDLRHSLDAGSQLYGSLNWVSSATFGDGDPAGWSSGDERTTKIEDAFVGWRSGTRFDVMDENGVDISFGRQNIVIGDGFLVSGDALNLGKEFVDGKANRGGGYYLTGRKAFDRTAVLRLGGQQGWRGDLMWLKSDNPAQARPELALGTLEHVSEQGTLGLTYLKVTDTDQAMADLLFPERKGMQLYSVRGQGNAGVSGLFLAGEYAWEQKDNARENAWYLEAGWTFDDVPGTPSINYRYSRFSEGYDPLFYGNGRALGTWFQGEVAANYAGPFNSNATVQHVGLKLAPAEDLKLGILLYTFRTLDASRNQLDADEADLYAEWSIDPHWTLMPLVGLYKPKQSAANGGTQVGNSTTNLYGQVLVAWSF				NA	NA	NA	NA	NA
D1-35_04017	1173	fdhA_2		Glutathione-independent formaldehyde dehydrogenase	ATGAAAGCGTTACGCTGGCATGGAAAAAAAGATATCCGCTGTGATGACCATCTCCCCGACCCGACGATAGAACATCCGCGAGACGCGATTATCAAAGTCACTTCGTGCGCCATTTGCGGCTCGGACCTGCACTTGTATGACGGTTTCATGCCCGGTATGAAGCATGGCGACATCATGGGTCACGAGTTCATGGGCGAAGTGGTGGAAGTTGGTTCGGCCAACAAGAAGTTGAAGATTGGTGATCGGGTGGTGGTCCCCTTCACCATTTGCTGCGGTGAATGCGATCAATGCCGGCGGGGTAATTTCTCTGTGTGCGAGCGCAGCAACCGCAACAAGGACCTGGCCGACAAGGCCTTCGGCCATACCACGGCGGGCTTGTTTGGCTATACCCACCTTACCGGTGGCTACCCCGGCGGCCAGGCCGAATACGTGCGCGTGCCTTACGCGGACTTCACCCCGGTGGTCATCCCGGATGGCCTTACCGACGAGCAAGTGCTGTTCCTTGGCGACATCTTTCCCACCGGTTGGCAGGCCGCCGTGCAATGCGATATCCAGCCAACCGACACCGTCGCGATCTGGGGCGCCGGCCCGGTCGGCCAGTTCACGGTGCGCAGCGCGGTGATCCTCGGGGCCAGGCAGGTGGTATGCATCGACAACGTGCCCGAGCGCCTGGCCATGGCCAAGGCCGGTGGCGCCATCACCATCAATTTTGATGAAGAAAGCGTGCTGGACCGCCTGGCCGAGCTGACGGGAGGCAAGGGGCCGGAGAAATGCATCGACGCGGTAGGCATGGAGTCCCACGCAACCCGTTCATTCGACTCCATCTATGATCGGGTCAAGCAAGCGGTAATGCTCGAGTCGGACCGCCCCCACGTGCTGCGGGAAATGATGTACGTCTGCCGCCCCGCTGGCACGTTGTCGATCCCCGGCGTCTATGGCGGCTTGATCGACAAGATTCCGTTCGGCGCCGCCATGAACAAGGGCCTGACCTTCAAGATGGGCCAGACCCATGTGAACCGCTGGACCGATGATCTGCTCCAGCGCATCCAGGAGGGGCAGATCGACCCAAGTTTCGTCATCACTCACACCGTGAGCCTTCAGGACGGCCCGCAGATGTACAAGACTTTCCGGGACAAGAAAGACGGCTGCGTGAAGGTGGTGCTGAAGCCTTGA	MKALRWHGKKDIRCDDHLPDPTIEHPRDAIIKVTSCAICGSDLHLYDGFMPGMKHGDIMGHEFMGEVVEVGSANKKLKIGDRVVVPFTICCGECDQCRRGNFSVCERSNRNKDLADKAFGHTTAGLFGYTHLTGGYPGGQAEYVRVPYADFTPVVIPDGLTDEQVLFLGDIFPTGWQAAVQCDIQPTDTVAIWGAGPVGQFTVRSAVILGARQVVCIDNVPERLAMAKAGGAITINFDEESVLDRLAELTGGKGPEKCIDAVGMESHATRSFDSIYDRVKQAVMLESDRPHVLREMMYVCRPAGTLSIPGVYGGLIDKIPFGAAMNKGLTFKMGQTHVNRWTDDLLQRIQEGQIDPSFVITHTVSLQDGPQMYKTFRDKKDGCVKVVLKP	PGPT0006355_391	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006355-frmA|ADH5|adhC-K00121	NA	NA
D1-35_04018	2007			hypothetical protein	ATGACCAGCTCAAACATCAGCGTTGGCGCGGCGCTACGTGCCGGTACCGGCAAAACCTTCGTGGACCTGGACGGTTATAACGACACCGCCAAGATAGCCGTGGGGCCGGACGGCAAGATCTGGCTTGCCGGGATGACCTGGGTGGAAACTGGTCAGTGGGAGTACGAAGGCTACAGGACTTCTTTGGTACGCCTTAACGCCGACGGCACGCTCGACAGCACTTTCAGCGACGATGGTAAAACCCTGCTGCCTCGCGACATCTACCCGGGCGAAGGTTATAGCGCAGCCGTACAGGCCGACGGAAAGTACCTGATCGTCTATCCACATTTTTCTGCGCCGAGCATCGTCATGATCCGCCTGAACACCGACGGTTCGGTGGATCAGAGCTTCGGCGTCAATGGAACGGCCACCGCTCCGGCAGCATGGGGTGATTCCGCCAGCGCGACCGTACAGCCTGACGGCAAGATCCTCGTGGCGAATCATGACTCTTATGACCAGATTTTTTCCGTCAATCGTTTCAACCCCGACGGTACGGTCGATTCCAGTTTCAACGGCGGCAGCGCCGTGGAGTTCACTGTTCCGGGCCTCAGCACATTGGAAGGCTTTGGCCTGACGCTGCAGGCCGATGGAAAAATCCTCGTGCCCGGCTACAACGGCGCGTTTGTGGTCGCGCGGTTGAATCCTGACGGGTCCCTCGACACAGGTTTTGGCACCGACGGCACGGCCGACATTGAAGTAGCTGGCATGGCGAAATCGATTACCGTGCAGGCCGACGGCAAGATACTGGTAGCGGGTTACAACGAGGAGGAGGGAACCGGATTCGACTTCAAGATCATCAGGCTGAACCAGGACGGAACCTTCGACGCAGGTTTTGGCAACAATGGGATCGCTGTACTCGACCTGGCCGGCGGCAGGGATACGGCCCGGGACATCACCGTGCTTGCGGACGGCAAGATCCTGGTAGCCGGGCAGAGCAATTATTTTGGTAACGATGACTTCAGCATCATCAGGCTGAATCCTGACGGAACCCTGGACACCACCTTCGGCGCGCTGGCCGGTGTGTTGCCGCAAATTGAAGGAAGCGCGGGCGCCGATGTTCTTTATGGCTCCTACGTCCCGGAACTGCTCACCGGTCATGAGGGCAATGATGTGCTCGATGGAGGAGGGCAGCGCGATGTTCTCCATGGCGGCGCCGGCGCCGATGTGTTCCGAATCAACTCCATCGGTGACAGCTACCGCACCGACTCTCAGGCCGTCAGCGATCGCATCGTTGATTTCGATCCGGGCCAGGACCTTATCGACCTGTCCGCCTTGGGCTTCAGCGGACTGGGCAATGGGCTCGACGGAACCCTGGCGGTCTCTGTCAATGACAGCGGTACCCGCACTTATCTTAAAAGCTTTGAAGCGGACGGGCAGGGCCATCGTTTCGAACTGGCACTCAACGGCGATCTCTCTCAAGTTCTCAACGAAACCAACGTAGTGCTGAGTCGCACGCTGATCCAGGGAACGGAGTCGGCCGATCGCCTGAAGGGCTCGGCGGCGGGCGACGTGCTCATCGCCGGCGGCGGCGACGATGTCGTCTCGGGCGGCTTTGGGCACGATGTTCTTGATGGAGGATCGGGGCGAGACGTGCTGACAGGAAGTGAGGGGGCCGATGTGTTCCGCTATGGATCCCTGGAGGACAGCTTCCGTACGGCGGATGGAAATTTCCAGGACCGGATTGTCGACTTCGACCCGGATACCGACAAGATAGACGTCTCTGCGTTAGGCTTCACCGGGCTAGGGAACGGCTACAACGCGACGCTGACGGCCGTGCTGAGTGAGGATGGCCAGCGAACCTTCCTGAAAAGCTACAGCGCCGATGAACAGGGGCGTCGGTTCGAAATCACGTTGCAAGGCGATGTGGTGGCGCAACTTGGAGACGATGATTTTATCTTCGCTTCGGGTGATGAGCCTTTTACCGAGCTGCAGCTTCTTGGGGTCGCTGCGCCTGAGCAGCTTGGGTGA	MTSSNISVGAALRAGTGKTFVDLDGYNDTAKIAVGPDGKIWLAGMTWVETGQWEYEGYRTSLVRLNADGTLDSTFSDDGKTLLPRDIYPGEGYSAAVQADGKYLIVYPHFSAPSIVMIRLNTDGSVDQSFGVNGTATAPAAWGDSASATVQPDGKILVANHDSYDQIFSVNRFNPDGTVDSSFNGGSAVEFTVPGLSTLEGFGLTLQADGKILVPGYNGAFVVARLNPDGSLDTGFGTDGTADIEVAGMAKSITVQADGKILVAGYNEEEGTGFDFKIIRLNQDGTFDAGFGNNGIAVLDLAGGRDTARDITVLADGKILVAGQSNYFGNDDFSIIRLNPDGTLDTTFGALAGVLPQIEGSAGADVLYGSYVPELLTGHEGNDVLDGGGQRDVLHGGAGADVFRINSIGDSYRTDSQAVSDRIVDFDPGQDLIDLSALGFSGLGNGLDGTLAVSVNDSGTRTYLKSFEADGQGHRFELALNGDLSQVLNETNVVLSRTLIQGTESADRLKGSAAGDVLIAGGGDDVVSGGFGHDVLDGGSGRDVLTGSEGADVFRYGSLEDSFRTADGNFQDRIVDFDPDTDKIDVSALGFTGLGNGYNATLTAVLSEDGQRTFLKSYSADEQGRRFEITLQGDVVAQLGDDDFIFASGDEPFTELQLLGVAAPEQLG	PGPT0027825_384	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0027825-prtC-K01406	NA	NA
D1-35_04019	1170			hypothetical protein	ATGCCCTCGAACCGAACTGCCGTACCCGCTTTGGCACTGGCACTGGCATTGGCGATTGCCATGCCCATGACAGAAAGCCTGGCTGCGCCTGTCAATAATGCCTCCGCGACCAAACCGATGCTGGCGCCTGTGCAAATGGCACACACCTTTGCACAGGTGCGCAAAGGCAATGTCGTCAGTACGCTCCTTGTGACCGCGCTGTCTGAAACCAGCGTGACGGCAATTGACCTGAGCGAGCTGTCCGGTCTTCATAGCGCTGATGCATTCGACGTCATCAGCCGTTTCAGCCTCGCGCGCCTCGACGCGCTTGCAGGCCAGCCGTCACGCACGCAAGTGCATCCGCTTGCCCGGCTGATGGGTGTAGGCCCACGGGGTGTGGCACATATCGCGGCCGGCACGAATTATCCAGAGCATGGCAAGGAGGTCGGCGTAGACGAGGCCTTCCTGTTCCCCAAGATATCGCCCGCCAGCGGCCCTGTTTCAAAAATCATTGCCGCAACGGATGCCTTGATGGACTACGAGGTTGAAGTGTGCGCGCGGTTCGACCGCGAGCTGAGATCCGCAGCGGATTTCGACGAGGCACGTAAGGGCTTCTTTATCTGCGGGGACTTCAGTGACCGAGCGGCCCTGGTCAGAAATATCAATTTGAAGGACATCACTTCTGGAGACGGTTTCCCTGATGCGAAGAGCGGAAACGACCGTTTTCCCGTTGGTCCGTTTCTGGTGGTGCCCAAGGATTGGAAAACCTTTCTCGCCGCTGTCGTTATTGAAACTTATGTCGATGGCGAACGACGTCAGCAAGCGAACGCAGGCGACATGATCAAGGACCTTCGCCTTATTGTGCGAGAAACGCTCGAACAAGCAACCACCCGTACCTGGTCGTATCAGGGCGGCCGCATTCCCATGGTCAACCGCCAGGCAATCGACACAGGCAGCGCTGTACTTACCGGGACCGGTGACGGAGTGGTGTTCAAGGAGCCAGGCCCCGAGGTTATCGACGAGCTCATGGGAGCACGCAGCCGGGATCAGCAACTCAGCGTGATCGAAGCCTATCTGGCGGCAGAGCAGAAAAAAGGCATCTATCTGCGCCCGGGCAACACCGTGCGGTATTCGAGTAATTATCTTGGCTCGATCGAGACCGAGGTGGTTTCCGTCAGCTCCGCTAAATAA	MPSNRTAVPALALALALAIAMPMTESLAAPVNNASATKPMLAPVQMAHTFAQVRKGNVVSTLLVTALSETSVTAIDLSELSGLHSADAFDVISRFSLARLDALAGQPSRTQVHPLARLMGVGPRGVAHIAAGTNYPEHGKEVGVDEAFLFPKISPASGPVSKIIAATDALMDYEVEVCARFDRELRSAADFDEARKGFFICGDFSDRAALVRNINLKDITSGDGFPDAKSGNDRFPVGPFLVVPKDWKTFLAAVVIETYVDGERRQQANAGDMIKDLRLIVRETLEQATTRTWSYQGGRIPMVNRQAIDTGSAVLTGTGDGVVFKEPGPEVIDELMGARSRDQQLSVIEAYLAAEQKKGIYLRPGNTVRYSSNYLGSIETEVVSVSSAK				NA	NA	NA	NA	NA
D1-35_04020	807	mipA_1	COG3713	MltA-interacting protein	ATGAAACCTTCTCTGATTTTCTCCGCCATCCTTTGTGCCACTTCCGGCTTCGCCAACGCTGAGATTGCTGATGATGACGCGAATCCCACCCGCAAAACACCGCAATCCCGCTGGGGCCTCGGACTGGGAACCGCAATATCAAGCGGCGTTTATGCCGGTGAGGGCGTGCAGCTAACGCCTTTCCCTCTCTTCAGCTACGAAGGTGAGCGGTTTTTCTGGCGTGGAATAGCCGGCGGCGCGCATCTGTTCGAGCGTGACGGTTTCGCAATCGATGCGACATTGTCTGCACGCATGGATGGAATCGATCGATCAGATTTCGGCAGACGCGAACTCGCAGACCGTGGCGTTGACCGCTCATTGCTCGATGACCGTGACGATGCAATCGACATGGGGATCGCGGCCACGTGGACCGGGGACCTGGGGCAACTGGAGCTCGCCGTCAAAAGCGACATCAGCGACGCCAGCGATGGCTATGAAGCTGGGTTGAAGTACGGCTACCCCATTCAGTGGGGGCGAAGCAGAATCACCCCTAGCGTCGGCATTTCCTACTTGTCTGAAAAACTGGCGAACTATTATTACGGTACGCTTCCTGGAGAAGTCGACCGAGGCGTTGTCGATTACCGGCCCGGCAGTGCGACGGTGCAACGCGTCGGTCTGGATTTTGCTCGACCATTCGCAGAGCGCTGGGTGTTCATCGCAAATGCTACGTATGAACACCTCCCGGTGAAAATCACCGACAGCCCGTTGGTAGACGAAGACACAAACGGCGCGATGTCCGCGTTTATCGGGATATCGAGAAGTTTTTGA	MKPSLIFSAILCATSGFANAEIADDDANPTRKTPQSRWGLGLGTAISSGVYAGEGVQLTPFPLFSYEGERFFWRGIAGGAHLFERDGFAIDATLSARMDGIDRSDFGRRELADRGVDRSLLDDRDDAIDMGIAATWTGDLGQLELAVKSDISDASDGYEAGLKYGYPIQWGRSRITPSVGISYLSEKLANYYYGTLPGEVDRGVVDYRPGSATVQRVGLDFARPFAERWVFIANATYEHLPVKITDSPLVDEDTNGAMSAFIGISRSF				NA	NA	NA	NA	NA
D1-35_04021	714	czcR_4		Transcriptional activator protein CzcR	ATGAGCATGGACAATAGGGTCAAACAGGCCTTGAGCGTTCTCATCATTGAAGACAACGCGGCCTTGGCTGCCAACATCTATGATTATCTTCACGCTTGTGGACATCATCCCGATGCGGCGCCCGATGGCGAGACGGGCCTCAGTCTCCTGGCGAGCAACCGATACGATGTGATCGTGCTCGACTGGATGATGCCGCGCATGGACGGCATGACAATGCTGGCGAAGCTTCGCAATCAATTGAAGTCTCGCATCCCGGTAATATTGATCACCGCCAAGGATCAAGTCGCAGACAAGATTCAAGGGTTTCTTACGGGCGCGGATGATTACGTTGTCAAGCCGGTCGCGCTTGCGGAGCTTGAAATAAGATTGAGAGTCGTCACTCAGCGCATGAGTGGCGCGCATCTCGAGTCGCAGGTACTGCAAGTGGCCGACTTGCGATTTGACCTGGACACCTTGCAGGTGACGAGGGCTGGTAAAACGCTCGCGATGACGCCCGTTCGCCGAACACTGCTTGCTTTGCTGATGCGCAGGTCACCAGGCCTGGTACGCCGAGATGAGCTTGAAACGCTGATCTGGGATGACCGCGTTCCGGACAATGACGCCCTGCGTTCACATATGTATATGTTGCGCAAGGCCGTGGATGGAGGCGCGTCACACAAGCTGATCAAAACCGTGGCGGGTAGCGGTTACCGTCTGCAAGCCGCCGATGAATGA	MSMDNRVKQALSVLIIEDNAALAANIYDYLHACGHHPDAAPDGETGLSLLASNRYDVIVLDWMMPRMDGMTMLAKLRNQLKSRIPVILITAKDQVADKIQGFLTGADDYVVKPVALAELEIRLRVVTQRMSGAHLESQVLQVADLRFDLDTLQVTRAGKTLAMTPVRRTLLALLMRRSPGLVRRDELETLIWDDRVPDNDALRSHMYMLRKAVDGGASHKLIKTVAGSGYRLQAADE	PGPT0004105_1053	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0004105-cusR|copR|silR-K07665	NA	NA
D1-35_04022	1350			hypothetical protein	ATGGCAGCCAGTAGCTTGAGTCGCAGGATCAGCGTGATTTTCATCTTGTTCGGCCTCACATTGGCTGCAGGACTGACCATCCAGGGCAACTTGAGCCAGCAAATGGTCGTTCATCCCATCTGGCGCGAGCTTTTGCAGTCCAGTACGGACCAGTACCTGTCTGATGGAAGATCAACTGCGGAAAAAGATCTTTCATCCGCCGGGATAATTCGGGGTTGGCGTCTGAACGGATATGCTCCGCCACCCGATATGCCCCCGTACTTCGCGTCGCTCGACCCTGGCTACCACGATGAACATCAGATGGATTCCTATGACACCGACCGTAGCCATGCTGTGCTCGTAACACCGCTTGGGAACGAGCGTATTGTCATGTCCGTGGACATAACCGACCTGGAAAACCATCAAAACATGACAGCGCTGCTGAGCGTGCTCATGGCGCTATTGAGCAGTTTGATGATCCTGGGCGCGATTGTCTGGGTCTACCGCACGCTGAGGCGACCCCTCCAGCTACTGGCCCAACGGATGGATGAGCTGGACCCGGAGCAACCGGCCCTGCGCCTTGCAACCGACTTCGACTTGAGTGAATTGCACGACATAGCGGTCATTGTGAACCGTCACCTTGACCGGGTAGGACGATTCATAGAACGGGAACGCAGCCTGTTGGACCTGGCCAGCCATGAATTCCGTACGCCTGTCTCAGTGATTGCAGGCGCCGTCGACGTTATCAAATTGTATAAGTTGCCAGCGGAAACAGACCGACCTTTGGCGCGCATCGAGTCGACAATAGGCAATCTGATGGAAATCATGTCGGCCTTATTATTCCTGTCCAGGGAGCCCGATGCGAAGGCTGCCGCCGAGACCACACGGCTCGACGCGATAATCGTGGCCTTGGTTGACGATCATGCGCATCTGCTGAACGGGACGGGGGCGGCATTTGTGATCGAAGAATTTCATCCTGCGACAGTTGCCTGCCCCGAGGCGATGGTCAGGATCGTCGTCAGCAATTTGCTGCGCAATGCGACAGAGCACGGTAATGCAGGGCCCATCAGAATCTGCCTGGCGGACGGCAGATTGAGCATACGCAACAGCTCGGGAGGCTTTGACGTGGTCGAGGCCGCTCGACGCCATACCATGGCGTTGAGGGATTCAAGCAAGCAGGGCGGGGGACAAGGTCTGGGGCTGTTCATCACCCGGCGAATTTGCGAGCGATTTGGATGGACCCTGATACTCTCGTCGGCGGTTGAAGGTGAGATTCTGGCGCAATTGCACTTCGGCCAGGCGGCCCCATACGATGACCGGGCCGAGGCCTCGGGCCAGTCGTACCGAGCGCCTCCCGGCAGCCTACGCTGA	MAASSLSRRISVIFILFGLTLAAGLTIQGNLSQQMVVHPIWRELLQSSTDQYLSDGRSTAEKDLSSAGIIRGWRLNGYAPPPDMPPYFASLDPGYHDEHQMDSYDTDRSHAVLVTPLGNERIVMSVDITDLENHQNMTALLSVLMALLSSLMILGAIVWVYRTLRRPLQLLAQRMDELDPEQPALRLATDFDLSELHDIAVIVNRHLDRVGRFIERERSLLDLASHEFRTPVSVIAGAVDVIKLYKLPAETDRPLARIESTIGNLMEIMSALLFLSREPDAKAAAETTRLDAIIVALVDDHAHLLNGTGAAFVIEEFHPATVACPEAMVRIVVSNLLRNATEHGNAGPIRICLADGRLSIRNSSGGFDVVEAARRHTMALRDSSKQGGGQGLGLFITRRICERFGWTLILSSAVEGEILAQLHFGQAAPYDDRAEASGQSYRAPPGSLR				NA	NA	NA	NA	NA
D1-35_04023	456			hypothetical protein	ATGGATTGCATCATCCGCAAGGCAACGAGTACCGACGCCACAGCAATAAGCCTGGTGGTCGTGGCGGCGCTGCGCGAGTCCAACGTTCAAGATTATTCGCCAGAGATCATCGAGCAGGTGCAGCAGAACTTTTCACCCGCAGCGATCCTGAACTTTCTCGGCCAGCGAGAGGTATATGTCGCAAGCAGTGACGGTGAGGTTGTCGCAACAGCGAGTCTTGATGGAAACGTCATCCGAAGCGTGTTCGTTGCGCCTGCCTGTCAGGGCAGAGGCATAGGGCATCAGCTGATGGCAACGATTGAGGCGGGGGCCGTGCGCGGTGGTGTGGAGCGGCTACGAGTTCCTTCCTCGATCACCGCGCAAGGCTTTTATTCTTCTCTGGGTTTCGAAAAAGTCCGGGACGAGTTTCACGGCGCGGAGCGCACGATCATCATGGAAAAAAAACTGGGCAGCTAA	MDCIIRKATSTDATAISLVVVAALRESNVQDYSPEIIEQVQQNFSPAAILNFLGQREVYVASSDGEVVATASLDGNVIRSVFVAPACQGRGIGHQLMATIEAGAVRGGVERLRVPSSITAQGFYSSLGFEKVRDEFHGAERTIIMEKKLGS				NA	NA	NA	NA	NA
D1-35_04024	1854	btuD_9		Vitamin B12 import ATP-binding protein BtuD	ATGCTTCACGCATTCGAACAACGGCTCGACCCTTTTCCGCCTGACGAAGTCCCACCGCCACCAGACGGCCTGGCGCGTTTTTTGTGGGCCTGCACGCGGGGCGCCCGCGGCTACATCCTCGCTTTCGCGCTGCTCAGTGCCGCCGTGTCGATCTACGAAGCCTGGCTGTTTTCGTTTCTCGGACAGGTCGTCGACCTGCTCTCGACCTGGCAGGCCGGCGGCGATGCGGCGGGGCAGGAGAGTCGAGTGCTGTGGGGCATCGGCATCATGCTGGTGACCAGCATCGGCCTGGTCGCGTTGCGCACGATGGTGCAGCACCAGGTACTGGCGATCAACCTGCCGTTGCGGCTGCGCTGGGATTTTCACCGACTGATGCTGCGACAGAGCCTTTCATTTTTCTCGGATGAGTTCTCCGGCCGGGTCACCACCAAGGTGATGCAAACGGCGCTGTCGGTGCGCGAGGTGCTGTTCACCCTCATCGAGATCGTCCCCGGGATCGGCGTGTATTTCATCGCGATCATCGCCCTGGCCGGCGGCTTTGACCTGAAGCTGATGTTGCCTTTCATTGCCTGGGTAGTGTTGTTCGGCCTGGCCATGCGCTACTTCGTGCCGCGCCTGGAGAAAGTGGGGCAGGAGCAGGCCAACGCGCGGTCATCAATGACCGGGCGGGTCTCGGACGCCTATACCAACATCACCACCGTGAAGCTGTTCTCCCACTCGAAACGCGAAGCACACTTCGCCCGCGCGGCCATGGAAGACTTCAAGCAAACCGGCTTTCGCCAGATGCGCCTGGTCAGCCAGTTCGAAATCGTCAATCAGGCACTGGTGGTTGCCTTGATCCTCGGGGCCGGCGGTTACGCCCTGTGGTTATGGCATCAAGGCGAAGTAGGCACCGGCGCCGTGGCGGCAATCACCGCCATGGCGTTGCGTATCAACGGGATGTCGCACTGGATCATGTGGCAAATGACCTCGCTGTTCGAAAACATCGGCACTCTGCAGGACGGCATGGAAACCTTGACGCGGGGGCCCAAGGTTCAGGATGCGCCGGACGCCGGCGTGCTGGTTACTACCGGTGGTGCGGTGACCTTCGACAATGTCAGCTTCAATTACAACGGCGAACGCCAGGTGCTCGATGGCCTGAGCCTGAACATCCGGCCGGGAGAAAAAATCGGCCTGGTAGGTCGCTCCGGTGCCGGCAAATCCACGCTGATCAACCTGCTGCTGCGCTTCTATGACGTGGACAGCGGTGAGATTCGAATCGACGGGCAGAACATCGCGCATGTCACGCAAGACAGCCTGCGCAGCGCCATCGGCATGGTCACTCAGGACACGTCCCTGTTGCACCGGTCGATCCGCGACAATATTGCCTACGGCCGCCCCGACGCCACCGATGAGGAAATACGCAGTGCCGCAGCCAGCGCCCAGGCCGATGGGTTCATCAATCAACTGAGCGACAAGCAAGGCCATAGTGGTTACGACACCCTGGTGGGGGAGCGCGGCATCAAGCTTTCGGGCGGCCAGCGCCAGCGCATCGCCATCGCCCGGGTCATGCTCAAGAACGCCCCGATCCTATTACTGGACGAGGCCACCAGCGCACTCGATTCGGAAGTCGAAGTGGCCATCCAGGAAAGCCTCGATGAAATGATGCAGGGCAAGACCGTGATCGCCATCGCCCATCGGCTGTCCACGATCGCGGCGATGGACAGGCTCATCGTCATGGATGAAGGGCGGATCATCGAACAAGGCACCCACGCCGAATTGCTCGGGAAGAACGGCACCTACGCGCGATTGTGGCATCACCAGAGCGGCGGCTTTCTGGGGGAGGATCAGGGCGTGGTCGAGGCGGTGGAGTAG	MLHAFEQRLDPFPPDEVPPPPDGLARFLWACTRGARGYILAFALLSAAVSIYEAWLFSFLGQVVDLLSTWQAGGDAAGQESRVLWGIGIMLVTSIGLVALRTMVQHQVLAINLPLRLRWDFHRLMLRQSLSFFSDEFSGRVTTKVMQTALSVREVLFTLIEIVPGIGVYFIAIIALAGGFDLKLMLPFIAWVVLFGLAMRYFVPRLEKVGQEQANARSSMTGRVSDAYTNITTVKLFSHSKREAHFARAAMEDFKQTGFRQMRLVSQFEIVNQALVVALILGAGGYALWLWHQGEVGTGAVAAITAMALRINGMSHWIMWQMTSLFENIGTLQDGMETLTRGPKVQDAPDAGVLVTTGGAVTFDNVSFNYNGERQVLDGLSLNIRPGEKIGLVGRSGAGKSTLINLLLRFYDVDSGEIRIDGQNIAHVTQDSLRSAIGMVTQDTSLLHRSIRDNIAYGRPDATDEEIRSAAASAQADGFINQLSDKQGHSGYDTLVGERGIKLSGGQRQRIAIARVMLKNAPILLLDEATSALDSEVEVAIQESLDEMMQGKTVIAIAHRLSTIAAMDRLIVMDEGRIIEQGTHAELLGKNGTYARLWHHQSGGFLGEDQGVVEAVE	PGPT0029145_509	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029145-vcaM-K18893	NA	NA
D1-35_04025	1227	mdtH		Multidrug resistance protein MdtH	ATGAACGGCATTATCGGGATCACGTTTGATCTGAATAAGGATATTTGCACCACCGTGGCCACTTACTCACTCGTTATTCGGCGCCTGATGATTGTTTCCCTGACCATCGTGGTCAGTCGCGCCATTACCAGCCCGTTGCTCACGTTATTCTTGAGCAACAAGCTGGGCCTCAACCAACAGGACGTCGGTCTGCTGCTCGGCATCGCGGTGTTCATCGCCACCTTGCTGGCCCTCTATGGCGGCTATGTCATCGACCGCCTGGAGAAGCGCCGACTGCTGATCCTGGCGATGCTTTCCAGCGCCGTCGGTTTCGTACTGCTGACCTTTGCCGAAAACCTCTACCTGACCACGCTGACCGTGGTGATCACCGAGACAGCGTCAGCGCTGTTCCTGATCGGCTCCAAAGCCATCCTCAGCGAGAACCTGCCCATCGGCCAGCGCGCCAAGGCTTTTTCCCTGCGCTACACGCTGACCAATATCGGCTACGCCACCGGCCCGATGCTCGGCGTGGTGATTGCCGGTGTCTACCCGATCGCCCCATTCCTCATTGCAGGCGGCATCGCGTTTTTCAGCATCTTCCTGATGACCGGCATCCCCAGGGCAGCGACACCGGCCATTGGCCCAGCGCCAAGCTTTCTCAAAACGCTGATCACCCTGAAAAACGACCGCACGCTGATCATGTTCACGTGCGGCTGCCTCTTGAGCACGGTGGTGCACGGACGTTTCACGCTTTACCTGTCGCAATACCTGCTGGTGACCCATGACTCCAGGCGCGCGCTGGAAATCATGGCCGCCCTGCTCGCCTGCAACGCGATCACCGTGATCCTGCTGCAGTACCAGATCGGCCGGTTCCTGGATCGCGAAAAGCTGCGCTACTGGATTGCCGCAGGCACCAGCCTGTTCATTGTCGGCCTGATCGGCTTCAGCCTGGCGGACGACATGCTGAGCTGGTGCGTGGCGATGTTCATTTTCACCCTCGGGGAGATGATCATCTACCCGGCCGAATTCCTCTTCGTCGATACCCTGGCCCCGGAAGAGCTGCGCGGTAGCTATTACGGCGCGCAAAACCTGGCAGCCCTTGGTGGTGCCCTGAGCCCGGTGATCTGCGGGTACCTGCTGCTGCAAACCCCGGCACCGACGATGTTCTACGCCTTGAGTGCACTGACCGCCATGGGTGGATTCTTGTGTTTCATGAGCGGTCGTCGGGTGGCTGGCGTGCAGAAGTGA	MNGIIGITFDLNKDICTTVATYSLVIRRLMIVSLTIVVSRAITSPLLTLFLSNKLGLNQQDVGLLLGIAVFIATLLALYGGYVIDRLEKRRLLILAMLSSAVGFVLLTFAENLYLTTLTVVITETASALFLIGSKAILSENLPIGQRAKAFSLRYTLTNIGYATGPMLGVVIAGVYPIAPFLIAGGIAFFSIFLMTGIPRAATPAIGPAPSFLKTLITLKNDRTLIMFTCGCLLSTVVHGRFTLYLSQYLLVTHDSRRALEIMAALLACNAITVILLQYQIGRFLDREKLRYWIAAGTSLFIVGLIGFSLADDMLSWCVAMFIFTLGEMIIYPAEFLFVDTLAPEELRGSYYGAQNLAALGGALSPVICGYLLLQTPAPTMFYALSALTAMGGFLCFMSGRRVAGVQK				NA	NA	NA	NA	NA
D1-35_04026	885			hypothetical protein	ATGGCTGACTCCCCTATCTGGCCGAAAGGCTATCGCTGCGCGGTGGTACTGACTGTCGATTACAACGACATCCACGGCATCCTCACCCAGGCCCCGGAGGTCGCCGGGCGCGACAAGACGCTGTCGGTATGGCGCTACGGCACCCAACGTGGCGTCGAGCGAATGCTCGGCCTGTTCAAGCAGCTCGGGGTGTCCGCCAGCTGGTTTGTCCCCGGTATCGTTGCCGAGGAAAACCCCGCGCACATTCAGGCGATCCAGGCCGACGGCCATGAAATCGCCTGCGCTGGCTATCGCCATCAGGACTACGACAGACTGGACCTGGCCGCCCAAAGCGACGATATCGCCAAGGGCTGCGAGACCCTGGCCCGGCTGACCGGCCAGCGCCCGACCGGCTTTCGAATCCCGGCGGGCAACGGTGCTCCGGGCTTCATCGAAGCCTTGAGGGATCAGGGCATTCGCTGGTCGTCGTCGTGGCGCGGCGATGACCTGCCATTCGCTCACCCGACCGTACCGAGCGTCATTGAAGTACCGCTGCACTATGAGCTGGAGGACGAGCCTTACTTCGCCTTCAACTTGAGCCCGGCAGTGCCACCCGCGCAATCGCGGATCGCGTCCTATAGCCACACCTTGGGCAACCTGCAGATGGACTTCGCCGGCTTTCACCGGTTCGGCCTCTGCTACGTGCTGCGCCTGCACCCGGAAATCATCGCCACGCCGGGACGGATAGGCGTGTTGCGCGAACTGATCGAGGGCATCCAACGGCACAATGACGTATGGATCGCCACCGGCGCCGAGGTCGCGCAATGGTGGTCAGACACCGCGGGGCCAGTCGCCGAGGATCATCCCGCAGCGGTTTATGAACGGCATTATCGGGATCACGTTTGA	MADSPIWPKGYRCAVVLTVDYNDIHGILTQAPEVAGRDKTLSVWRYGTQRGVERMLGLFKQLGVSASWFVPGIVAEENPAHIQAIQADGHEIACAGYRHQDYDRLDLAAQSDDIAKGCETLARLTGQRPTGFRIPAGNGAPGFIEALRDQGIRWSSSWRGDDLPFAHPTVPSVIEVPLHYELEDEPYFAFNLSPAVPPAQSRIASYSHTLGNLQMDFAGFHRFGLCYVLRLHPEIIATPGRIGVLRELIEGIQRHNDVWIATGAEVAQWWSDTAGPVAEDHPAAVYERHYRDHV	PGPT0012156_353	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012156-chitin_deacetylase-NA	NA	NA
D1-35_04027	849	pgdA		Peptidoglycan deacetylase	ATGTCTTCCTCACACCTACCCACCTGGCCCGGCCCGCACAAGGCTTGTCTGGCCCTGGCCTTCGACCTCGATGGTCCGACCGGTGATGCCATGCTCAACGGCTCGATCTGGCGCAAGCCCGAGTACTTCGGTTTCGGCGGCTATGGCCCTTATCGGGCGCTGCCGCGGCTGCTCGACCTGCTCGACGAGTTCCAGATTCCGACGACATTCTTCGTCCCGGCCTGGGTCGTGGAGAACTGGCCGAGACAGTGCCAGGCGATCATCGAGCGCGGGCATGAGGTGGCTTATCACGGCTACAGGCACGAGTCCTTTTATGCCCTGACGCTGGATCAGCAAAAGGACGTGATGAATATCTGCCGCGAGGTGTTCTGGAAGCATCTGAACATCCGCGCCGAAGGCTTTCGTACGCCGTCCGGCGACTGGCGCGCCGAAACCCCGGCGATGCTGGTGGAAGCCGGCGTGCGCTATTCCAGCAGCATGCGCGGCGATGACCGGCCATACCTGGTGAACGTGCCGGGGTTCGACACGCCACTGGTGGAAATTCCCGGTCGCTGGGAAATGGACGACTACGCCTCTCTCGCCTATACCCGTGCGCCGAACTTCCCTTCCGGGCTGGACCGCACGGCCAGCTACGCGCTGACCCTGGATAACTGGTGCCGCGAATACGACGGCGCAATGGACGAGGGATTATGCTTGACCACCCTCTTCCACCCCAAGATTACCGGTAAGCCGGGACGCATCCTGCTACTGGAAAAACTCTTCGAGCACATGCGCACGCGCGACGACGTGTGGTTCGCCACCTGCCGCGACGTTGCCCAGTGGTGGCTGAAGGAGCATCACCATGGCTGA	MSSSHLPTWPGPHKACLALAFDLDGPTGDAMLNGSIWRKPEYFGFGGYGPYRALPRLLDLLDEFQIPTTFFVPAWVVENWPRQCQAIIERGHEVAYHGYRHESFYALTLDQQKDVMNICREVFWKHLNIRAEGFRTPSGDWRAETPAMLVEAGVRYSSSMRGDDRPYLVNVPGFDTPLVEIPGRWEMDDYASLAYTRAPNFPSGLDRTASYALTLDNWCREYDGAMDEGLCLTTLFHPKITGKPGRILLLEKLFEHMRTRDDVWFATCRDVAQWWLKEHHHG	PGPT0018645_2567	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
D1-35_04028	825	fliY_2	COG0834	L-cystine-binding protein FliY	ATGAAGAACTTCGTTATTCCAGCAGTACTCGCAGGCGTTATGGCATCCGGTTTTTCCTTCGCCGCCCAATTGCCGGCCAGCATCAAGGCCAAGGGCGAAATCGTCGTAGCGATCATGCCGAACTACCCGCCGATGGATTTCAAGGACCCGGCCACCAACACCCTCACCGGCTTTGACTACGACCTGGGCAATGCTCTGGCCGAACGCCTGGGCGTGAAGATCAAATGGCAGGAGACCGGCTTCGAGCAAATGATCAATGCGTTGACCACCGACCGCGTGGACATGGTGCTGTCGGGCATGACCGACACCGCCGAACGTCAGGCCAGCGTGACCTTCGTCGACTATTTCACCAGCGGGCCGCAGTTCTACACCTTGCAGAAAAACAAGGACACCAACGCGATCATCGACCTGTGTGGCAAGAAGGTCGGCACCAGCCGCCGCACCACTTTCCCGACGGAGATCGCCGAGTGGAGCAAAGCCAACTGTGAAGCCGCCGGCAAGCCTGCGATCAACGTGGTCGGCACCGAGGGTTCGGCCGATGCCCGGGCGCAACTGCGCCAGAGCCGCATCGATGCGGCCATGCAGGGCAGCGAAACCCTGCCCTACCTCAAGACCCAGGAAAAGGACATGTACAAGACCGTGGGCCTGCCGATCTCCGAGCAGTTCACCGGTATGGGCGTGAGCAAGAAAAAACCTGAGCTCAGTGAAGCGGTGAAGGTTGCGCTGCAGAGCATGATCGATGACGGCAGCTACCAGGCGATCCTCAAGAAATGGGACCTGGAACTGGGTGCGATCAAGACCGTGACCATTAACGCCGGGAAGTAA	MKNFVIPAVLAGVMASGFSFAAQLPASIKAKGEIVVAIMPNYPPMDFKDPATNTLTGFDYDLGNALAERLGVKIKWQETGFEQMINALTTDRVDMVLSGMTDTAERQASVTFVDYFTSGPQFYTLQKNKDTNAIIDLCGKKVGTSRRTTFPTEIAEWSKANCEAAGKPAINVVGTEGSADARAQLRQSRIDAAMQGSETLPYLKTQEKDMYKTVGLPISEQFTGMGVSKKKPELSEAVKVALQSMIDDGSYQAILKKWDLELGAIKTVTINAGK	PGPT0020800_7729	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
D1-35_04029	765	glnQ_8		Glutamine transport ATP-binding protein GlnQ	ATGAGAAGCATCGTCAAGGCCGTGAGCCTGAACAAATACTACGACCAGTTCCACGCCCTGAAGGACATCAACATCGAGGTCGAGCAAGGCGAAGTGCTGTGCATTATCGGCCCGTCCGGCTCGGGCAAGAGCACCTTGCTGCGCTGCGTCAACCAGCTGGAAAAAATCGACAAGGGCGGCCTGTGGGTCGATGGCGAGCTGGTGGGTTACCGGATCGTCGGCAACAAGCTGCACGAACTCAACGAAACGCAGATCGCCCGCCAGCGCCTGGCCACCGGCATGGTGTTCCAACGGTTCAACCTGTTCCCGCACATGACCGTGTTGCAAAACATCATCGAAGGCCCATGCCAGGTGCTCAAGCGTTCACCTAAAGAGGCGCACGAAGAAGCCCTGGAGCTGCTTGCCCGCGTCGGCCTGGCCGACAAGCACCACAGCTACCCGATCGAGCTGTCGGGTGGTCAGCAGCAACGTGTCGCCATTGCCCGTGCGTTGGCCATGCGCCCCAAGCTGATGCTGTTCGATGAACCCACTTCGGCACTCGACCCGGAACTGGTCGGTGAGGTGCTGTCGGTGATGCGCGATCTCGCGCAGACCGGCATGACCATGATCGTCGTCACCCATGAACTGGGCTTCGCCCGCGAGGTTTCCAACCGCATGGTGTTCATGGACGGCGGGCAGATCGTGGAGGCTGGAAGCCCCGAAGAAATACTAATAAGTCCGCAAAACCCTCGCACCCAGAGCTTCATTTCTGCCGTTCGAACCTAG	MRSIVKAVSLNKYYDQFHALKDINIEVEQGEVLCIIGPSGSGKSTLLRCVNQLEKIDKGGLWVDGELVGYRIVGNKLHELNETQIARQRLATGMVFQRFNLFPHMTVLQNIIEGPCQVLKRSPKEAHEEALELLARVGLADKHHSYPIELSGGQQQRVAIARALAMRPKLMLFDEPTSALDPELVGEVLSVMRDLAQTGMTMIVVTHELGFAREVSNRMVFMDGGQIVEAGSPEEILISPQNPRTQSFISAVRT	PGPT0020790_2598	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
D1-35_04030	879			hypothetical protein	ATGAGCCAGACACAGGCAGAACGACTCCAGGCGGAGCGCAAGCTGGCGGAAAACCAGTTCGACATTACCCAGTACGATCATGTGCCCCGGCGTTATTACGGGCGGATCTTCTTCGCCACGGTGATCGTCATCGCACTCATCGGCCTGGTGCGCGCCTTCGCCGAAGGCAAGATCGAATGGTCGTACATCGGCCAGTTCCTCACCTCCGAGGCGATCATGTGGGGGCTGCTCAACACCATCGTCATGGCGGTGCTGGCGATGGCGCTGGGTATCGTGTTCGGCGTGATCACCGCGATCATGCGCATGTCGGCCAACCCGATCCTGCGCTACGTGGCGCTGACCTACACCTGGCTGTTTCGCGGTACGCCGCTGATTCTGCAGTTGCTGTTGTGGTTCAACCTGGCGCTGATCTTCCCCACCATCGGCATTCCCGGCGTGTTCGAAATGGACACCGTGAGCCTGATGACTCCGTTCGTGGCGGCGTTGTTTGGCCTGAGCATCAACCAGGGCGCCTACACCGCCGAAGTGGTCCGCGCCGGCCTGCTCTCGGTGGACACCGGGCAGTACGAAGCCGCCAAGTCGATCGGCATGCCGCGCCTGCAAGCGTTGCGCCGGATCATCCTGCCCCAGGCCATGCGGATCATCATCCCACCGGTGGGCAACGAGTTCATCGGCATGGTGAAGATGACCTCGCTGGCGAGCGTGATCCAGTACTCGGAACTGCTCTACAACGCCCAGAACATCTACTACGCCAACGCCCGCGTGATGGAGCTGCTGATCGTCGCCGGGATCTGGTACCTGGCCACGGTCACCGTCCTGTCCTTTGGCCAAAGCCGGCTGGAGCGTCGTTTCGCTCGCGGCGCCGGCAAGCGTTCTTGA	MSQTQAERLQAERKLAENQFDITQYDHVPRRYYGRIFFATVIVIALIGLVRAFAEGKIEWSYIGQFLTSEAIMWGLLNTIVMAVLAMALGIVFGVITAIMRMSANPILRYVALTYTWLFRGTPLILQLLLWFNLALIFPTIGIPGVFEMDTVSLMTPFVAALFGLSINQGAYTAEVVRAGLLSVDTGQYEAAKSIGMPRLQALRRIILPQAMRIIIPPVGNEFIGMVKMTSLASVIQYSELLYNAQNIYYANARVMELLIVAGIWYLATVTVLSFGQSRLERRFARGAGKRS	PGPT0020795_2133	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
D1-35_04031	1428	argH_2	COG0165	Argininosuccinate lyase	ATGTCCCAACCCACCGACCGTCTCTGGGGGGCGCGTTTCAAAAGCGGCCCTTCCGAAGCCTTGGCGGCCCTCTCCCGTTGCCCTGAACGCTACTTTCGGCTCACGCCGTACGACCTCGCCGGTTCCAAGGCCCATGCTCGGGAATTACAGCGTGCCGGACTGCTGAACGAGCAAGAAACCCTGACCATGCTCGACGCGTTGGAGCGCATCGGCACGGACTACCGCGCCGGCATCATCGCCCCGACCCTGGATGATGAAGACGTCCACACGTTCATCGAGCGGCTGCTGACCGAACGCCTCGGTGCACTCGGTGGCAAGCTGCGGGCCGGGCGTTCGCGCAACGACCAGACGGCTAACGATCTGCGGCTGTTCCTGCGGGACCACGTACGTACCCTGGCCGTTGAAGTGCTGGGCTTGCAGCAAGCGCTGGTGAACCAGGCCGAGCAGCACATCGAGAGCATCTGCCCCGGATTTACTCACCTGCAGCAGGCACAGCCGATCGTGTTTGCCCATCACCTGCTGGCCCATGCCCAATCGATGCTGCGCGACGTGCAGCGCCTGGTGGACTGGGACGCGCGCACTTCGCTGTCACCACTCGGTGCGGCGGCCATGGCCGGTTCGGCGATCGCTCGTTTACCTCAGCAATCGGCAAAGGAGATGGGCTACAGCGGTGTTTGCGAGAACTCCATCGACGCCGTGGCCAGCCGCGATCACGTCGCCGAGTTCCTGTTCATCGCCAGCATGCTCGGCATCAACATTTCGCGCCTCGCCGAAGAATTCTGCCTGTGGTCGTCGCGGCAGTTTCGCTGGATCGCGCTGGACGATGCCTACGCCACCGGCAGTTCGATCATGCCGCAGAAAAAGAATCCTGACATCGCCGAACTGGCACGGGGCAAGGCCGGTCGCCTGATCGGCAACCTGACCGGGCTGCTGTCCACGCTCAAATCCTTGCCACTGTCCTACAACCGCGACCTGAGCGAAGACAAGCACGGCGTGCTCGACAGCGTCGACACCTTGCTGCTGGTGCTGCCGGCCATGGCTGGGATGGTGGCAACGATGAAGGTCGACGTTGAAGAGTTGCGTCGCCAGGCACCGCTGGGCTTTACCCTTGCCACCGAAGTCGCCGACTGGCTCGCGGTGCGCGGCGTGCCGTTCAAGGAGGCTCACGAGATCACCGGTGCGTTGGTCCAGGCTTGCGAGAAACACGCTATCGAACTGTGGGAAGCCTCCCCGGCACTGCTGGCGGAAATCGACCCGCGCCTTACCCCCGAAGTACGCGAAAGCCTGACCCTGGAAGCTGCCATCGCCGCCCGCAGCGGCTGGGGTGGCACCGCGCCAGAACGGGTGCGTGAACAGCTTGGTCGGCTGAAAAGCGCCCTCGCCGCCCAGCAAACGTGGACCGAGGAATACCACGGGTTCCGCCTTTAG	MSQPTDRLWGARFKSGPSEALAALSRCPERYFRLTPYDLAGSKAHARELQRAGLLNEQETLTMLDALERIGTDYRAGIIAPTLDDEDVHTFIERLLTERLGALGGKLRAGRSRNDQTANDLRLFLRDHVRTLAVEVLGLQQALVNQAEQHIESICPGFTHLQQAQPIVFAHHLLAHAQSMLRDVQRLVDWDARTSLSPLGAAAMAGSAIARLPQQSAKEMGYSGVCENSIDAVASRDHVAEFLFIASMLGINISRLAEEFCLWSSRQFRWIALDDAYATGSSIMPQKKNPDIAELARGKAGRLIGNLTGLLSTLKSLPLSYNRDLSEDKHGVLDSVDTLLLVLPAMAGMVATMKVDVEELRRQAPLGFTLATEVADWLAVRGVPFKEAHEITGALVQACEKHAIELWEASPALLAEIDPRLTPEVRESLTLEAAIAARSGWGGTAPERVREQLGRLKSALAAQQTWTEEYHGFRL	PGPT0014242_81	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014242-argHA-K14681	NA	NA
D1-35_04032	966			hypothetical protein	ATGGAAACCCCACTTTCCAATTCCGGAAACCCGCCGCCGAAAATGCCGCAACGGGCACCGTTAGCCCTCAGCGGGCTGGACTTCAAACTGCTCAAAGTGTTCAAGGCCGTGGTCGAGGCAGGGGGCTTCAGTGCCGCCCAAAATGAGCTGAATGTGGGATTGGCTGCCATCAGCAAACAGATTTCTGACCTGGAAATCCGCATCGGCATGCGCCTGTGCACACGCGGGCGCGAGGGCTTTCACCTGACGGAAGAGGGGCGCCTGGTGTATCAGGCGTCAATCGATTTATTTGCCTCGGTCGACAACTTTCGCGATCGCCTTAGTTCAGCGCAAAACGAACTTGTCGGTGACCTGGGCGTGGGCGTTATCGATAATACGATCTCTGACGTAAACTCCCCGTTAGTTGCCGCGCTCAGGCGCATGAACGAACAATCGCCGAAGGTCAGGTTTCAACTTCAGGCCAGCCAACTCGACGAGGTTGAAAGAGGCGTCGTCGAGGGGCGGCTAGTGGCGGGAATCGTGCCGATCTATCAAAAACGCGAGGAGTTCGACTACTACGAGCTGTACGAAGAACGCTCGGAAGTCTATTGCGCCCTCGGCCACCCGTTATTCAGCATGGCGGAGGCGGACATGGGCGAGGATGTGCTCAAGGCCCACGAGTGCATCAACCATCGTTACGCGATTCATCGCGACAAACTGAAGTTTGCTCACTACGACAGTTTTTCTGCCTCGGCCACCCAAGTGGAAGCCGTTGCGCTGCTGATCAAAACGGGGCGTTTCCTGGGATTCCTGCCCCAGCATTACGCCGCGCCGATGGTGGCGCGGGGCGAGTTTCGCGCGGTACGGCCGGACCTGATCAACATCGTCACCCCGTTCAGTCTGATCCTGCGTCACAACACGGTGCGCAGTCCGCTGGTCAAGGCGTTTGCCCAAGCACTGGGCGTGGATTTGAAGGCTCCGGTCTGA	METPLSNSGNPPPKMPQRAPLALSGLDFKLLKVFKAVVEAGGFSAAQNELNVGLAAISKQISDLEIRIGMRLCTRGREGFHLTEEGRLVYQASIDLFASVDNFRDRLSSAQNELVGDLGVGVIDNTISDVNSPLVAALRRMNEQSPKVRFQLQASQLDEVERGVVEGRLVAGIVPIYQKREEFDYYELYEERSEVYCALGHPLFSMAEADMGEDVLKAHECINHRYAIHRDKLKFAHYDSFSASATQVEAVALLIKTGRFLGFLPQHYAAPMVARGEFRAVRPDLINIVTPFSLILRHNTVRSPLVKAFAQALGVDLKAPV	PGPT0003120_86	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ACINETOBACTIN_METABOLISM,PGPT0003120-bauR-K21699	NA	NA
D1-35_04033	1251			putative MFS-type transporter	GTGACTGCTCATCTGGATCGCCGCAACAACCTGTCGCTGGACAGCCTCAACTTCTTTCTCGCCGACGTGCGCGACGGTCTCGGGCCGTATCTGGCGATTTACTTGCTGGCGGTGCATCAATGGGACCCGGCGAGCATCGGCGTGGTGATGACGATTGCTGGCGTCGCGGCCCTGATCACGCAGACGCCCGCTGGAGCGCTGGTGGACAGCAGCCGTGCCAAGCGCGCGCTGATTGTGATCGCCGCGCTGGTCGTGACCGCCAGTTGCCTGGTGTTGCCTTTCGTCTCGTCATTCAGCCTGGTGGCGCTTACGCAGGCCCTGAGTGCGGTGGCCGCATCGATTTTTGCCCCGGCCATTTCGGCAATTACCCTGGGCATCACCGGTCCTCGCGCTTTCACGCGGCGAACCGGGCGCAACGAAACTTTCAACCATGCCGGCAACGCCTGCGCGGCGTTGCTGGCCGGTTTGTCTGCTTACCTGTTCGGTCCGGTGGCGGTGTTTTACCTGATGGCGGTCATGGCGCTGGCAAGCGTGTGTGCCGTGGCGTTCGTCTCGGCTGAAGCGATCGACCATGATTTGGCTCGCGGTCTCGAACCTCGTGGCCCCGATCACCCTCAGCCCTCCGGGTTTGCCGTGTTGCTCAGCCACCGACCGTTGTTGATGTTTGCGGTTTGCTGCGCGCTGTTCCACCTGGCGAATGCCGCCATGCTGCCGCTGGTGAGCCAAAAGCTTGCGCAAGCCAATCTGCACATGGCCACCCCGCTCACCTCCGCCTGCATCGTCGCGGCGCAGCTGGTCATGGTGCCGATGGCGCTGTTGGCTGGCGCCAAAGCCGATCAGTGGGGGCGCAAGCCGCTGCTGTTGGCGGGTTTTCTGATCCTGCCGTTGCGCGGTCTGCTCTACACCTTGTCGGATGATCCGTACTGGTTGGTCGCGATACAGCTGCTCGACGGTGTCGGCGCCGGTCTTTTCGGCGCGTTGTTCCCGGTCATGGTCAAGGATCTAACGCTCGGTTCCGGCCATTTCAATATCAGCCTCGGCGCACTCACAACGGTGTTTGGCCTCGGTGCGGCGTTGAGCAATGGTCTGTCGGGATTTGTGGTTGAAGCGGCGGGATACGATGCGGCATTCCTGACACTTGCTGGAGTCGCCGGAGCGGCATTTTTGCTGTTATGGGTTGGGGTTCCGGAAACCATGCAGCGTTCAGAAGGCATCAAAGTTGATCGAGTCGAGATGAGCCCAGGCGCCTAG	MTAHLDRRNNLSLDSLNFFLADVRDGLGPYLAIYLLAVHQWDPASIGVVMTIAGVAALITQTPAGALVDSSRAKRALIVIAALVVTASCLVLPFVSSFSLVALTQALSAVAASIFAPAISAITLGITGPRAFTRRTGRNETFNHAGNACAALLAGLSAYLFGPVAVFYLMAVMALASVCAVAFVSAEAIDHDLARGLEPRGPDHPQPSGFAVLLSHRPLLMFAVCCALFHLANAAMLPLVSQKLAQANLHMATPLTSACIVAAQLVMVPMALLAGAKADQWGRKPLLLAGFLILPLRGLLYTLSDDPYWLVAIQLLDGVGAGLFGALFPVMVKDLTLGSGHFNISLGALTTVFGLGAALSNGLSGFVVEAAGYDAAFLTLAGVAGAAFLLLWVGVPETMQRSEGIKVDRVEMSPGA				NA	NA	NA	NA	NA
D1-35_04034	648			hypothetical protein	ATGCCTAAGCGTGGCAGAACATCATATTTTACCAATCGTGGAAAGCATTTTGGAAATCTCTGGGCTGTATACAGCTTTAGGGCCAAAGATGTGTTATTGCTTTCCACTGACAGGCAGCTGGCGCACTGGCTTTTATACTTAGAGTTCTCGTCTTCCATTGCAAGCTTTAGTTTTAAGAGTGGGACTAAGGAGTTTTCTGAAAAACCAAACTATATCTTGAATTATCATGCTGAGGTTTTGCCCTTAGAGGGTTGTAATGAGCTGCATTATCTACAAGTGGAAGGGAACACGGAGTCTTGCGCAGAAAAAATTCTTGTGGCGAGAAAATATAAATATAATTACCGCGAGTTCAATGATGAAGATTGGCTCCCACGCCGAGACAAAATACTCCCGCTTCTTAAAGTCGCTAGTTATCTAGCAGGAAGCCGAAGTCTATACATCCCGCCAACACTGCTGGAAAAAGCGCTCCATTACATTCTAACACTCCGTTCGGGGACCTTACGCGGTTTTTTATCAGCGCTAGCGGATTATGAAAAAAATCTAATCTTGGTGGTTTTTTCGCGAGCCTATTCGGAGCGTTTGATCTCAGTCGACTTTGAATTGAGCTTTTTCAGCCAAGACACGCACTGGAGGTTAAATGAAATCTAA	MPKRGRTSYFTNRGKHFGNLWAVYSFRAKDVLLLSTDRQLAHWLLYLEFSSSIASFSFKSGTKEFSEKPNYILNYHAEVLPLEGCNELHYLQVEGNTESCAEKILVARKYKYNYREFNDEDWLPRRDKILPLLKVASYLAGSRSLYIPPTLLEKALHYILTLRSGTLRGFLSALADYEKNLILVVFSRAYSERLISVDFELSFFSQDTHWRLNEI				NA	NA	NA	NA	NA
D1-35_04035	1593			hypothetical protein	ATGAAATCTAAAATCACACAAGAAAGAATTTCCTTCGTTGGATTCCAGAAAGTAGACGCCTCCGCTATGGACGACGATGACCGAGCTCTATTTCTAAGGAGAAAAAAGGCGATCGATATGAGACTGGAAGGCTACACGGGTAGAGAAATTCGAAACCAAACCGGCATAAGTGAGAGCGAGGTTACGCGTTTATTCAAGCGTTATACATTAATGTTAGTGGAAGGGCTATTTGTCGGAGAGGCGGGTTTGATACCGCACTCGCGTGTCAGCTGCAATGTCAGACAAAAAGCACTACCGGTTAAACATACCGAAGGGCAGGGAGGGCTTTCCGGCGCCTTGGGGTATACGCTGAAAAAACACCCACGAATAGCTGTTGAATTTGAACGGCAGGTATTTCGCGAGGAATTTAAATTTGGTCACGGGGCTCATTACGATAAAAAACATCTTTGCGCGGTTTTTTATTCCATTTGTAGAAATGAAGGCGTACAGGAAGACGAGTGGCCACTCAATCAACCGCGCGGGGCACGGAGGACGATAACAAAACTCATTAATGAAATTCTGGCGAGCGACTTTAAAAGAGCATCTCTTGCCACTGGGGGAAGGCTTGCATTAACCCACTCCAAGGTGGGTACGGGACACGCTCGGCTTTTTGATAACTATGATGTCTTTGACCTAATTGAGATTGACTCGTATCATGTAGATTCTTTTTTTTTACTTAATATCACGGGTGACAGGCGCAGCCGAACGAAAGACGTCATTAGTCGCATTTGGATGATTGCGGCCGTATGTAGAAGAAGTAACGCGGTACTCGCTATAAAATTCATTTTTTCCAGTGAAATAAGAGCTCAAGACTTAGTCGATCTGATTTGCGAAGCTTATTCGGGTGGCTGGAAACCTCGTCAAACATTGAGCGTACTTGATTTAAAATATTCGAACGCTGCTGGAATGCCGGGGCACTCGTTTCCTGCTCTAAAAAACCATATCTGGGGAGCGGTATGCTTGGATAATGCGATGCAGCATCATGCTAATCAAGTATATGAGTTAGCGTTGCATGCGGTCGGATTTGGCATAAATTTTGGTCCTCTTGAGCAGCCAGCGCGAAGGTCTAAGGTTGAAGCGCTCTTCAAGCGTATTTCATCAAGGGTAATGCATCAAATTGAATCCACAACCGGATCTTCGCCTGGAGATGGGCGTGCAGAATCGCCAGAACAAGCCGCAATCTATTATCAGATTGATGTTGATGATGCACTGGAAGTGATGGACGTCTACGCAGCTAATTACAATGGTACTCCCCAAGGAGGATTGAACAAAGGTAACAGCCCCTTGGAGATACTATCTGATTATTGTAGCGATCTGAACGTGCTGTTGCCCGCTTCCTCTGAGGTATATCTGAATAACATCGCATTGGGCAGCACTAACCGAAAGGCACGGGTGACGGGTAACATAGAGAAAGGTATTAGACCTCGAATCAAACTCGACCAAGCTATTTATACCAGCCCAGATTTAGCAAAATCCCGCGGGACTTATAGGAAAAATATTGACGATTCGGATAGCACCCAACGACTATCGGTACGTAGAAGCCTATCTACCTGA	MKSKITQERISFVGFQKVDASAMDDDDRALFLRRKKAIDMRLEGYTGREIRNQTGISESEVTRLFKRYTLMLVEGLFVGEAGLIPHSRVSCNVRQKALPVKHTEGQGGLSGALGYTLKKHPRIAVEFERQVFREEFKFGHGAHYDKKHLCAVFYSICRNEGVQEDEWPLNQPRGARRTITKLINEILASDFKRASLATGGRLALTHSKVGTGHARLFDNYDVFDLIEIDSYHVDSFFLLNITGDRRSRTKDVISRIWMIAAVCRRSNAVLAIKFIFSSEIRAQDLVDLICEAYSGGWKPRQTLSVLDLKYSNAAGMPGHSFPALKNHIWGAVCLDNAMQHHANQVYELALHAVGFGINFGPLEQPARRSKVEALFKRISSRVMHQIESTTGSSPGDGRAESPEQAAIYYQIDVDDALEVMDVYAANYNGTPQGGLNKGNSPLEILSDYCSDLNVLLPASSEVYLNNIALGSTNRKARVTGNIEKGIRPRIKLDQAIYTSPDLAKSRGTYRKNIDDSDSTQRLSVRRSLST				NA	NA	NA	NA	NA
D1-35_04036	201			hypothetical protein	ATGGAAGGCGAAAACCCTGTTATTGCGTGGCAAAGGCATATGCAAATGAATGCCAGTCCTAAAACAAATCGTGAACTGCAGCGGCTCAAGGAGGAAACCAAAGGGCATCTTAGGGAAGAGCCGTTATATTTGGTAGAGGAGGAGATGCCACACACACAGGTAATGAATGAGCGATGGAAAGATCTTGGTATTCTTAAATAG	MEGENPVIAWQRHMQMNASPKTNRELQRLKEETKGHLREEPLYLVEEEMPHTQVMNERWKDLGILK				NA	NA	NA	NA	NA
D1-35_04037	945			hypothetical protein	ATGGATCATTCTCACCCAATTTTGAGTAGAGAGTACAGGCTGAACACACCTGCTTTGCTTGCAGTGGTTCAAAACGCCTGTTTCAAGGTGCTCATGCGGAAAACAGGTGTTGTTTATACCGGAGAGCCAAGAGTTGGTAAAACTGTGTGTTGTGAAGCGCTCCTTGAAGAAATACCCAAGCGGTTTCCGAATATCTACGTTTTTATGATACCCGCGACGAACAAGGATGCGTCATCGCCTCGCTACTCCTCAATCGTGCATCAGCTTATTGAACAGGAAGGTATTACTCCCAAAGCGCGAGCTACATTTATTCAGCGTCAATCAATGTTGGTAGAGCGACTTAAGACTAGAGCCGAGGCGCGACACGCGAAGCAAATAGTGCTACTTATTGATGAGCTTTCAAGATTATCGATCGGTGACTTTAAGCAACTTGCTGATATCTACAATAAGCTTCGGGCTGACAAATTCACACTGACCGTTATATCGTTTGCAATGCCATCCATAGAAAAAGTTGCAGAAGATTTTCTTCGCAACGATGACAGGCATATAATTGGGAGATTTTTGTCCGATATCCGTCCTTTATATGGCGTAACAACAGCGGCGCAACTTACGCAGATAATGCGTCTCTATGATGACAACCTAGAGGAAAAACCTTTTAGTCATGGCTTCACAAGAAATGTGCTTCCGAAGGCTTATGCGGATGGCTTTAGAATTACAAACCTTGCGAGCGATGTATGGCGGGAAATGTCTCGCGTTTCCTCTGGAAATTATGTGAATAACTTGCCGATGGAGCACGTTGCGCAAGTTATTGCTTATCTATTCGTGATCTTGGGGTGTGACGACTCTTGCTCTCTTGTGGTGCCTCCGGATCTAGTTGAAGAAGCAGTGCGTGAAAGTAACTTCAAGGAGTTCTGCAGAAAAATTACTGACTGGAAGGGGGGGTGA	MDHSHPILSREYRLNTPALLAVVQNACFKVLMRKTGVVYTGEPRVGKTVCCEALLEEIPKRFPNIYVFMIPATNKDASSPRYSSIVHQLIEQEGITPKARATFIQRQSMLVERLKTRAEARHAKQIVLLIDELSRLSIGDFKQLADIYNKLRADKFTLTVISFAMPSIEKVAEDFLRNDDRHIIGRFLSDIRPLYGVTTAAQLTQIMRLYDDNLEEKPFSHGFTRNVLPKAYADGFRITNLASDVWREMSRVSSGNYVNNLPMEHVAQVIAYLFVILGCDDSCSLVVPPDLVEEAVRESNFKEFCRKITDWKGG				NA	NA	NA	NA	NA
D1-35_04038	1356			hypothetical protein	ATGAGAACCTTATTCTATCCCGAGTGTGGTCCAATGCCTTACGAGTCTATTCTGTCCATCTACTTGAAACTCTCCCACAGTAATTTTATAGAGTTAGCCGACCTTCGAAGGAACCTTGGTGGGCTTTGGACAAATGGCGAAAGCGGCCGCCTGCTCATCAATTATAAGATAGAAGAATGTCTAGAGAGGGAAATTCACGAGATTGCGCATCACCTGCCATGGAAGTATGCGCCTGCGATCGCACTGAGTAGTCCAGCATCTGCGCTAAGATTCTGCGCTGAATGCGTGAAATTTGGTTACCACTCCGTGTTTAATTCGATCCAATTTCATCGCATGTGTCCTTTACATAAACGAGCGCTAAGCTTGGCATGCGTTACCTGCCGACAGCGTTTCCTGAAAGGATTTACCACTTGTCAAACCATACCTAATACAATTGGGATCTGCAGCACCTGCGGATTTCAAGATATGGGACTTCGCGATGAAATAAAAAAGCGTCGCGCACCTGGACTTGCGATTGCGTTAGAGCATTTCGGAAGAGCCCAAGCTCGATGGTATCAAGAAATTTACAGTTTCCATGCCCGTGAGCCTGGCTATAGCGAACTTTATTATCAGTCAGAGTTGGGGCGTGCTGAGCTTTCAGGGCCGTGTGAACGTTTCTTCAATATGCATAGTCCGGAAAAACTCTCGGGTCGTCAATACATCTCGCCTCCGATCACTTGTGTTGGAAGCTTCAGGACCTACCTGCATTGTCGTTTATATATGGCCGCTTCAAGATTTGCTTTGGGAGACCATCTGAGATTGCACTCGCAAATTGAAATATTGATTCGCGTAAAAGAACGGTACTTGGGGAAACACGCCGATTGTTGTCGCGATATGTGTAAGATAGCAGACTATCCTGATGGAAAGTTAGTTATAAGACCAATGTGCTCTGTAGCGACGGCTTATATTCTTCTTTGCATGAAGGCTCGCTATAATGTTTGGCCGTCCCCTGGAAGTATTTGTCAAGATTTTTCGTTGTTGGCGTCCTTAGGCAGTTCCGCGCCCTCTTTTGTATCTTGCTGGACCTATCGTGAGGCGGTACTGGTATTTTTTACAATCTTAGCGCGCTTAGAGTACTACGTTTCTGAGGGGGCCAACTTTTTTGTAATCTGTAGATCTGAAACGGTCTATTTCCCAAGCCGGCGCGGCTTGACCGTCTTGAGGAAAGCCTCGTACAAATTCCGTTTTAGCTGTCGGATCCCCTCTGAGAAACTTTTAATAGCTCGCGATGGATTGGGGGGAGCTCTGATGATCATATGCACTCCGCAACGAGACCACGCTGACCCTCACTCTAAGTTAAAAACGCTTGTCGTTTAG	MRTLFYPECGPMPYESILSIYLKLSHSNFIELADLRRNLGGLWTNGESGRLLINYKIEECLEREIHEIAHHLPWKYAPAIALSSPASALRFCAECVKFGYHSVFNSIQFHRMCPLHKRALSLACVTCRQRFLKGFTTCQTIPNTIGICSTCGFQDMGLRDEIKKRRAPGLAIALEHFGRAQARWYQEIYSFHAREPGYSELYYQSELGRAELSGPCERFFNMHSPEKLSGRQYISPPITCVGSFRTYLHCRLYMAASRFALGDHLRLHSQIEILIRVKERYLGKHADCCRDMCKIADYPDGKLVIRPMCSVATAYILLCMKARYNVWPSPGSICQDFSLLASLGSSAPSFVSCWTYREAVLVFFTILARLEYYVSEGANFFVICRSETVYFPSRRGLTVLRKASYKFRFSCRIPSEKLLIARDGLGGALMIICTPQRDHADPHSKLKTLVV				NA	NA	NA	NA	NA
D1-35_04039	801			hypothetical protein	ATGCCAAACTGTGAATACTGCCGTCAACCAGGCCCCTTAACGAAGGAGCATTTATGGCCAACCTCCCTGCACAGGCGGCTCCATGCTGTCAACCAGCAGACAAAAAACATTTTCTGGCTAAGCAGGCTACAGCGCGAAATTTCAAACGAACCACAAATACGTGATGTATGCGCGTATTGCAACAATGTCACGCTTTCCACGCTCGACGATTATATGTGCAGGCTTTTCGACTCTGCTTTCACCAGGATCGTGGAGCGCTACGCAGAGGTCGTATTCGAATACGACTACCACCTTCTCAAAAGGTGGCTACTGAAAATGAGTTACAATTCCGCACGGATACACAATTCACCTGACCGCGGCGCCCTTAAATGCGTTCTTCCGTATATTTTAGGCGCTGACCTTCGAATGGGCCGCTCAATACAACTTTTCGTCCGCCTCGTACATCCTCAAGTAATTTCTGAGAGCGAGACTAGCAAGGATGGCGACCCGCAAACGAAGGTCGTGATTGACCCGTCAATACATAGATTGGGGCATGTGATATTTCGAGCCCATGGAATTGGGCAAAAGACCCTTAGGGCGATTCATCTACGCTCCTATACTTTCTACCTTGCATACTGGCAGCCCGGAAATGGGCGGGCAGAGCAACAAGATTTCGCGGAGATATTCAAACAAGGGATGCCTGGCGTACAACTCCTTCGCCCCTCCGACGAAAAGATCAAACTTTTCTGCGATGGCATCGGTGCGTGGGATTCACTTAAGGATGCCCGTAATGCCCGTTTTTCCTCTGCGGTTGATGCATAA	MPNCEYCRQPGPLTKEHLWPTSLHRRLHAVNQQTKNIFWLSRLQREISNEPQIRDVCAYCNNVTLSTLDDYMCRLFDSAFTRIVERYAEVVFEYDYHLLKRWLLKMSYNSARIHNSPDRGALKCVLPYILGADLRMGRSIQLFVRLVHPQVISESETSKDGDPQTKVVIDPSIHRLGHVIFRAHGIGQKTLRAIHLRSYTFYLAYWQPGNGRAEQQDFAEIFKQGMPGVQLLRPSDEKIKLFCDGIGAWDSLKDARNARFSSAVDA				NA	NA	NA	NA	NA
D1-35_04040	1122	xerC_2		Tyrosine recombinase XerC	TTGAACGTATTGAATATTACAGATCAATTGACCTTGGTCGACGAAACGCCGTTGGACCTGCAATCCTTGGCGCTCCACGCTCAGGAAGCAGCGGCGGCGTTTATTGCCGCCGGCACCGCGGCAAATACTGTACGCAGTTACCGCAGCGCCCTCGCCTACTGGTCGGCTTGGTTGCAGCTGCGTTTTGGCCAGGCGTTGGGCGATGCGCCCCTTCCCCCAACTGTAGCCGTGCAGTTTGTCCTCGATCACCTAGCACGGCCGTTGGCAGGTGGCGGCTGGGCGCACCTATTGCCGCCCGGCATCGACGCCGCCTTGGTCACCGCCCGGGTCAAGAGCAAGCTGGGACCACTGGCGTTCAATACCGTCAGTCACCGCTTGGCGGTACTCGGTAAATGGCACCGAATCAATGAGTGGGACAGCCCGACCGAAGCGCCGGCTTTAAAAACACTGCTGCGCGAAGCACGCAAGGCACAATCGCGCCAGGGCGTGAACGTGCGTAAGAAAACCGCGATCGTGCTCGAGCCATTGCAGGCGCTGCTCGCCACCTGTGACGACGGCGTGCGCGGGGTTCGTGATCGCGCGCTGCTCCTGCTGACCTGGAGCGGCGGCGGTCGTCGGCGCTCGGAAGTGGTTGGACTGCAAGTGGACGATGTTCGCCGACTGGATGCCGACACTTGGATGTATGCCTTGGGCACCACCAAGACCGTTACCGGTGGCGTACGCCGTGAGAAGCCGCTGCGCGGGCCGGCGGCAATCGCATTGGCCGCTTGGTTGGCGGCGGCACCCGCAAGCAGTGGACCGCTATTCCGTCGCCTGCACAAAGGCAACAAGGTGGGCGCTACAGCGCTGTCGGCCGATCAGGTCGCGCGCATCGTCCAGCGCCGAGCCAAAATGGCCGGACTGGAGGGGGACTGGGCTGCGCATAGCTTGCGTTCTGGCTTTGTAACCGAAGCCGGACGGCAGGGAGTGCCGCTCGGCGAGGTGATGGCCATGACTGAGCACCGTAGCGTCGGCTCGGTAATGGGCTATTTTCAGGCAGGCTCGTTGTTGGGCAGCCGAGCCACTGAGTTGATACCTGCTGTCGCCCCGACAGAAGAGATTGGGATAACTGGGAAAAATTAA	MNVLNITDQLTLVDETPLDLQSLALHAQEAAAAFIAAGTAANTVRSYRSALAYWSAWLQLRFGQALGDAPLPPTVAVQFVLDHLARPLAGGGWAHLLPPGIDAALVTARVKSKLGPLAFNTVSHRLAVLGKWHRINEWDSPTEAPALKTLLREARKAQSRQGVNVRKKTAIVLEPLQALLATCDDGVRGVRDRALLLLTWSGGGRRRSEVVGLQVDDVRRLDADTWMYALGTTKTVTGGVRREKPLRGPAAIALAAWLAAAPASSGPLFRRLHKGNKVGATALSADQVARIVQRRAKMAGLEGDWAAHSLRSGFVTEAGRQGVPLGEVMAMTEHRSVGSVMGYFQAGSLLGSRATELIPAVAPTEEIGITGKN				NA	NA	NA	NA	NA
D1-35_04041	876			hypothetical protein	ATGGCAGTAGGGGTGCCGGAAAACGACGTGTTTGCCGCGGCGGATGCCGTCTTGGCGCGCGGTGAACGCCCGACGGTCGAACGTGTGCGCCTGGAACTGGGACGCGGCAGCCCTGCGCGAGTCGGCGGTTTGCTTGACCATTGGTGGGCGCGCCTTGCTGAACGGCTGAACGGCGAGACCCGCCTGCCGGCACTTCCCGGCGAGGTGTCGCAGGCCTTTGTCGCGGTATGGCAGCAGGCGATTCAACTGGCGCAGGGCGTCGTCGAACGGGGTTTGACCGAGCAGCGGCAAGTGCTCGATGCTGAACGTGAACGGATTGCGGCGGCGGAAGATCAAGCGCGTCAGGACATGGCCAAAGCGCGCCAGCAAGTTTCCGACGCCGTCGCTGGGCGTCAGGCTATGGAGCTACGTTTGGCTGACTTGGAACTTCTTCTTTCTCAACGTCAGAGGCAGATCGAGGATCTGCAGCAGCAACGGGAGAGCTTGGTGCACGAGCGCCGCGAAGCCCAGCAGTACAATCAGGTATTGCAGCAGGAACTACAGGCGTTGCGACTCACGGTCGAGCAGGAGCGAATCACACAGGAGAACTATTTGCGTGGATTTGAAGATCGGGCTCACAGAGAGGTTGATCGGGCCCGGGAAGAGGGCAAAGCCGCAGTAAGCCAATTCAAAGTAGCGAGTCGAAAAAATGACGACCTACAACGAAAACTGGAGTCGGCCCAGGACGAGCTCAGTCAAGCAATGCAGCGCGCCGCGGCACAACTCGCGCGGGCTGAAACCTTGGAGCAGCAGTTGAAACAGCTGCGGCAGCTGCCCGAGGCCAAGCGCAAACCGCGAGTTAGAAGAAAATCTGCATCAAGCAGTCCAAAAGACTGA	MAVGVPENDVFAAADAVLARGERPTVERVRLELGRGSPARVGGLLDHWWARLAERLNGETRLPALPGEVSQAFVAVWQQAIQLAQGVVERGLTEQRQVLDAERERIAAAEDQARQDMAKARQQVSDAVAGRQAMELRLADLELLLSQRQRQIEDLQQQRESLVHERREAQQYNQVLQQELQALRLTVEQERITQENYLRGFEDRAHREVDRAREEGKAAVSQFKVASRKNDDLQRKLESAQDELSQAMQRAAAQLARAETLEQQLKQLRQLPEAKRKPRVRRKSASSSPKD				NA	NA	NA	NA	NA
D1-35_04042	213			hypothetical protein	ATGATCGTCACTGAAAGAGATCGTAACATCCTTGCCCAGACCCTGTGGGGTGAGGCTCGCGGCGAAAGCCTGGCCGGCCAGATCGCTGTGGCTTGTGCGATTCGCAACCGAGTGTTTGACGGCAAGACCAACTCTTGGTGGGGGGAGGGATACGCCGGCGTGCGCCAGAAGCCGTACCAGTTCAGCTGCTGGAACAAGGGAGACTTTGTCTGA	MIVTERDRNILAQTLWGEARGESLAGQIAVACAIRNRVFDGKTNSWWGEGYAGVRQKPYQFSCWNKGDFV				NA	NA	NA	NA	NA
D1-35_04043	909			hypothetical protein	ATGATGAGTTTCAGGGGCTATAACTTCGGTGGCATCGGGGTATACGTATTCTTTATCATTTCAGGATTCGTTATTGCCATGCAAACAGAGAAAAAACCTTTGCAGTTTTTATTGCATCGAGCATTCAGAATATATCCCGCTTACTTTTCAGCCGTCGCACTGTCATTCGTTATTTTATACCTATTCTCTACTCAAACACCAAGCCTCAACACTGACTCACTTTCGATGCTATTAATTCCAACAGGAACACTCAACAGCTCATTTCAGATTCCTTACTGGACATTAATCTACGAAATTTTCTTTTATTCACTAATACTTTTGTTGATGGTTATTTTGAAAGGTAGGCAATCTCTGATAGATGGATCTATTTTGATTTGGCTTGCTGTCGTGATTTTCACCACCCAAATGGGACTAAAGCTAGACATACACGCGCCCTCGCTCAAAGACATTATTTTTTCACCCATGAATATCTATTTCATGTGCGGATATTTTCTTTCTAGAGTACTATTGTCAAACGATAATAAAATAGCTTTCTCGGGCCTATTGATAATTGCCGCCTCAGGAAGCTTTTTCCTATCAGTGCGGTATCAAGCAACTGTGTGCGCACTTGGTGTTTGTGCAATTGTTTTCTTTGCAAAATCGAAACCTTTCAAGAAGGCAATCAACAAACTTGGCGACTACTCTTATGGAATTTACTTAATTCATCTTCCTATGATCTATTGTATTTTCCTAGCAATGAGAGGTGCTGGCGCGAATTTTTCAATATCACTTTCAATGATGGTTTTGATTGCCTTGCCTATATCCATAGGATTCGGGAAATTAGAGCATATGATTTACAACCTGAAAATACGCCCAGCACTTAACTCATTCATAGCCGACAACAAATTTAACGCCATCAAGTCAGGATAA	MMSFRGYNFGGIGVYVFFIISGFVIAMQTEKKPLQFLLHRAFRIYPAYFSAVALSFVILYLFSTQTPSLNTDSLSMLLIPTGTLNSSFQIPYWTLIYEIFFYSLILLLMVILKGRQSLIDGSILIWLAVVIFTTQMGLKLDIHAPSLKDIIFSPMNIYFMCGYFLSRVLLSNDNKIAFSGLLIIAASGSFFLSVRYQATVCALGVCAIVFFAKSKPFKKAINKLGDYSYGIYLIHLPMIYCIFLAMRGAGANFSISLSMMVLIALPISIGFGKLEHMIYNLKIRPALNSFIADNKFNAIKSG	PGPT0026580_440	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026580-exoZ-K16568	NA	NA
D1-35_04044	525			hypothetical protein	ATGTCTGTCGCTAAGGATATCTCTAAGCGTATCAAACACATGCAGAAGGGCAAGCCATTTACTAACGCAGTGTTCGCAGAGGTGGGATCCCGTACCTCAGTTGATAAAGCGCTGTCACGGTTGGTGCAGAGCGGCATTTTAGAGCGCATTGCTCGCGGCATCTATATGCGCCCTAAAATTAGCGCGTACACTGGTAAGAAGGTTCGAGCGAATCCAATAGCAGTCATGGAGGCAGTCGCAAGGAGCAGGGGCGAGATCATCCAGGTCCATGGTGTAGAAGCTGCTCGCAGGCTAGGAATTAGCACTCAAATGCAGGTTCTACCGACCTATTATACCAGCGGATCGACACGTGAAATTAAGATTGCTAACGCGGTGGTGCGGTTGCGTCATTCATCTTGGCAACGTCTCCAGCAAGCTGGTAGCCAAGCAGGCCTAGCTTTGACCTACGCCGGTTCGATTCCGACCTCGGCCTCCACTATCAAAAACCCCGTAGATCAACGATCTACGGGGTTTTTTGTTGTCTGA	MSVAKDISKRIKHMQKGKPFTNAVFAEVGSRTSVDKALSRLVQSGILERIARGIYMRPKISAYTGKKVRANPIAVMEAVARSRGEIIQVHGVEAARRLGISTQMQVLPTYYTSGSTREIKIANAVVRLRHSSWQRLQQAGSQAGLALTYAGSIPTSASTIKNPVDQRSTGFFVV				NA	NA	NA	NA	NA
D1-35_04045	474			hypothetical protein	ATGGCAGACCCTTTTACAGAGGCAGAGAAACCGACACCTTTGGCCCGGAAACCAACGGAATACCTAACCCGGGTCAGCATTGAAAATCTTAGCCCGCTCGGCGTTTTCTTGCTTGCTAAGGAGGGTTTCGCGTTGAGCGACGTTTACTCAATGGTTTCGCTTTCCGAGCTTTACTTGTCATGGAACGTCATCAAGCGGATCGTTGGTAAGCCTAGCCGAACGATGCAAGGTAAAAACGATAAAACCACGACTGGTCGACTTGGCGTTTTTGAGAGTGCGATAGCCTTTCAATACGCAAAGGTTCTCGAACACGCAATGACTGTTTTTGGCACCCTGCGACTTGCCGAGGAGTGGCTTGCCAAGCCCTGTAGATATTTGGACGGTAACATCCCCCTTGATCTGGTGGGTAACCCACTCGGATTTCAAGCTGTCGAAGACTACCTAGAACGAGTCGAACTGGGGGTCTATCAATAA	MADPFTEAEKPTPLARKPTEYLTRVSIENLSPLGVFLLAKEGFALSDVYSMVSLSELYLSWNVIKRIVGKPSRTMQGKNDKTTTGRLGVFESAIAFQYAKVLEHAMTVFGTLRLAEEWLAKPCRYLDGNIPLDLVGNPLGFQAVEDYLERVELGVYQ				NA	NA	NA	NA	NA
D1-35_04046	714			hypothetical protein	ATGATAAATCCTAAATCAAATGTGCTCACATTAGAAAAAGTCATGTGCGCTGTTGCCGATTTAAAAAAACAAGGCCTTAAAATAACCATCAAGGCTGTACGAAATCAGACGGGTTATGGTTCATACACGACCATTTCAAAGTTTCTTAGAGAAGCGTCTTTGGTAGAGAAGGAAAATCTCTCTCCTAGTGAACGGCTCGCTCAGTTTCCAGATCAGATCAGAACAGCATTTCTGTCGGTTTACAAAGAACTAATCAAAGCTGCAAATGCTGAAGCAAACAAAAAACTCAACGAAATTCAGGAGATTGAAGAAAGACTTCGAAGCAGATGGGCAGCGAACATCAAGGAGAAAATTAGAGCGCTTCGAAGTCTGGAGATCGAAACAAATGCCTGCGCCGAACTCAGAGCTGAGCTGACACGAGCGACTCAAAACAACTTGCAAAATCAGGAGGTCATAACGAACCTTACCGCACGACTGGTTAAAGCGGAGTGTGAAAATGTGCAGCTGTTAGAACTAACGGAAAAGATGAAGAATGATATAAAACAACGTGAGAGGCACATTGAGTATTTCGAAAAGCAGGTACTTCAGCAAAGACACGCAGATAACCAGATGCATCTGCTTAAGGTTGCAAAACTCGAGCAAAACTTGATGAGTAGTCAGGCTCGCGTATTGGAGCTGTCGGTGGCATTAGTGGGGAAATCCGAAGACGGTTAA	MINPKSNVLTLEKVMCAVADLKKQGLKITIKAVRNQTGYGSYTTISKFLREASLVEKENLSPSERLAQFPDQIRTAFLSVYKELIKAANAEANKKLNEIQEIEERLRSRWAANIKEKIRALRSLEIETNACAELRAELTRATQNNLQNQEVITNLTARLVKAECENVQLLELTEKMKNDIKQRERHIEYFEKQVLQQRHADNQMHLLKVAKLEQNLMSSQARVLELSVALVGKSEDG				NA	NA	NA	NA	NA
D1-35_04047	597			hypothetical protein	GTGATTAAAAAAAGATTAGGTCGCGAGGAAAGCCAGCAAATAACACGAGACAAGTTATTTGATACCGCCACTGACCTCATGATCAAAAAAGGCTTTCACGCCGCCAGTGTCAATATTATCTCTGAAGAGGCAGGTTATTCGAAAGGTGCGTTCTTTTCCAACTTCTCAAGCAAGTCGGAACTGCTCCTGCAACTGACCCAGCGTTTCAAACGGGTTGAAATAGACCGCTTGGGCGAGACGTTGGCCGCGGGTTATACCGCAGAGCAACTCGCGCACGGATTGAACGCCTACATCGATACACTTAAAAACAATACGAACTGCGCCATCCTCGACGCCGAAATGCAACTGATCGCGTTACGCGATGAAGCGTTCGCAAAGCATTACTACGATCTGCATGAAGAAAACAGCGAGGCGCTGGGCAAGCTGATCACTATCATTTTCAACCATGCCGGCAAGAAACCTCCGTTGGCATACGCAGCACTCGCGAAGACTTTCACGGCGCTGTCGGAGGGTTTGATATTGCAAGGACATAAAGATCCAGCGGCGGAAATCAAACTGGTGCTCAATTCGCTCATTGAAACGGCGGAGCCATTGTAG	MIKKRLGREESQQITRDKLFDTATDLMIKKGFHAASVNIISEEAGYSKGAFFSNFSSKSELLLQLTQRFKRVEIDRLGETLAAGYTAEQLAHGLNAYIDTLKNNTNCAILDAEMQLIALRDEAFAKHYYDLHEENSEALGKLITIIFNHAGKKPPLAYAALAKTFTALSEGLILQGHKDPAAEIKLVLNSLIETAEPL				NA	NA	NA	NA	NA
D1-35_04048	1017	auaH		Aurachin B dehydrogenase	ATGGAATATGCCTTTGTTACAGGTGCTACAGGCCTGCTTGGGAACAATGTCGTCCATGCACTTTTAAAACGAGACATCAAAGTAAAGGCGCTGGTACGTTCCATTGAAAAAGCCAAGAAGCAATTCGACGGTTTGCCCGTCGAACTTGTCCAGGGCGATATGCTTGATGTTGATGCATTCAGCCATGCCTTTGAAGGCTGTGATGCCTTGTTTCATACAGCGGCCTATTTTCGCGACAGCTATAAAGGCGGAAAACATTGGCAAAAGCTCTACGATACCAATGTAACCGGCACCGAGCGGTTGTTGCAGGCCGCCTATGCCGCGGGCATTCGCCGTGCGGTCCACACTTCCTCCATCGCGGTCCTCAAGGGAAACCGCGATCAGGTAATCGACGAGACCATGTCGCGCGACGAGTCCGAGGCAGACGATTACTACTTGAGCAAGATCCTGTCTGAACAGAAGGTTCAGGAGTTCTTGTCGCTGCATCCGGACATGTTCGTGGCGATGGTTTTACCCGGTTGGATGTTTGGCCCAGGCGACATCGGTCCTACCTCGTCAGGTCAGTTCCTGCTGGATTTCGTAGGAAAAAAGTTGCCGGGGGTTCTTCCCGGGAGTTTTTCAGTCGTGGACGCCCGTGACGTGGCGGAACATCAAATCGCAGCGATAACACGTGGCCGATCGGGAGAGCGTTATCTGGCTGCCGGCAATCATATGGACATGAAGACTATCTTTCGGGCATTGGCCAACGTCAGCGGGATAAAGGCACCGGAACGGCCTGTTCCGTTGTTCATGCTGCGTCTTATTGCTTTTGCCTATGAAATTTATTACCGGGTTACTAAAAAGCCGGTGCTTATCAGTACTTCCACGGTCAAGCTCATTGAGCAGGAACAAGGGAGGACTCACTTCAGCCACAGCAAAAGTTCAAGTGAACTGAAATGCGCGTTCCGCCCGGTTACTGAAACCCTGACCGATACGCTGGACTGGTATCGGAACAATAACTACATAAAGCTCAACTGA	MEYAFVTGATGLLGNNVVHALLKRDIKVKALVRSIEKAKKQFDGLPVELVQGDMLDVDAFSHAFEGCDALFHTAAYFRDSYKGGKHWQKLYDTNVTGTERLLQAAYAAGIRRAVHTSSIAVLKGNRDQVIDETMSRDESEADDYYLSKILSEQKVQEFLSLHPDMFVAMVLPGWMFGPGDIGPTSSGQFLLDFVGKKLPGVLPGSFSVVDARDVAEHQIAAITRGRSGERYLAAGNHMDMKTIFRALANVSGIKAPERPVPLFMLRLIAFAYEIYYRVTKKPVLISTSTVKLIEQEQGRTHFSHSKSSSELKCAFRPVTETLTDTLDWYRNNNYIKLN				NA	NA	NA	NA	NA
D1-35_04049	1506	lcfB_1	COG0318	Long-chain-fatty-acid--CoA ligase	ATGAAAAGCCCTACCTGTAAAGAAGGTTTCCTGCATCGCTTTGTTGGTTTTTCGGATTTGCACCCCGACGCCATCGCTATCAGGAATCTAGATGCGGAAGAAACCTTCACGTACCGCGACTTGCTGAACAAGGCCGAAGCGTGCAACGGTTTGCTCCATGCCCTTGGGGTGTCGTCCGCAGAGAAAGTTGCGCTTGTCTTACCCAATGGGGTGGATTTCATCGCGTATTATCTGGCGATCATTGGCCATGGTGCTATCCCCGTCATCCTCAACCACAAGCTGACGACGTACGAACTGAGCAACGTGCTGGGCCTCGCCGGGCCCGCATTGACCGTCACGACCGATTCGTTGTTCGAGCAACACCGCGAAGTCTTTCAGTCGGTCCGTTGCCTCGTCGTCCGCACCGCCGATGAGCAGCCGTTGTCGTTGCCCGAACACGCAACGGCAGCCTCTGATCTTCCGCATCAGCTCTGGCCCTTGTCGCTGCCTGAAGGCAACCCGGTCGTTTCGGTACAGTTCACGTATCGGGGCGTTGGCATGCCGCTGGCTGTTTCTCATCGTTATCTGGACCTGACGCAGTCAAGCGATGGCTTGCACGAGCAGTTCCACCCTCAAGGCCTTGGGTCGGTCCACTTGGTGACCCTGCCGCTGTACGCGATCTTCGGCCTGTCCGTGATGATGGTTTTCCCGCTCAGCATCGGCGCTACGCTGCTGATGACCAACAGCCTGCTCAACAGGGACCTGGCGCAAGTCTTGTCCGAGCACCAGGTGTCCTTTGCCTGCCTGGTGCCGGATGTCATCCGCTACTTCAATACCCGACTGGCCAAACGCAAGGGCCCACGGCTGCCGCTGCATCCGCAACTGATGATTTATTCCGGCGGCAGCCATCTGCCGGCGGATGAAGCGCAAAAGCTTGGCGATTTGCTGGGGTGCGGCCCTGTATTGCAAGGCTACGGACTGACGGAAAGCATGCCGGTGATTGTCCAGAGTTCGGTCGGCGAGGTGCATCGCGGTGCGATGGGCCAACCGATCAGTGGTGTCGAGTTGCGAATTGTCGATGGTCAGGGCCGCGACGTGGCCGTGGGGCGTATCGGCGAGCTGCTGGTACGCGGCCCGATGGTTATCCCGGGCTATGACGATGCGCCGCAGATAAATGCCCGGTTTTTCCGTGACGGCTGGTTCCACACCGGCGACCTGGTCTGGCAGGACGACGACGGGCACGTATTTTTCTACTGCCAGCGCCTGCGCATCTCGAAAATCAAAGCGCAGATGATCGACCTGGAAGAAATCGAGTCCATTGCCCTCAAGCATCCCGGTGCAGTGCGGGCAAAGGCCTACATCGTCCCGGACCATAAAGCCATCAACGTACTGCACTTGTCTGTGGAAGGTAGCGCAGACCTTAGCCAGAACAGCGTATCCACCCTGCTCGCCCGTTACCTTTCCGCCTTCAAACTACCCAGGAACATCGAGATTGTCCCGCTCAAGGAAGAGATTCATGCACGCTGA	MKSPTCKEGFLHRFVGFSDLHPDAIAIRNLDAEETFTYRDLLNKAEACNGLLHALGVSSAEKVALVLPNGVDFIAYYLAIIGHGAIPVILNHKLTTYELSNVLGLAGPALTVTTDSLFEQHREVFQSVRCLVVRTADEQPLSLPEHATAASDLPHQLWPLSLPEGNPVVSVQFTYRGVGMPLAVSHRYLDLTQSSDGLHEQFHPQGLGSVHLVTLPLYAIFGLSVMMVFPLSIGATLLMTNSLLNRDLAQVLSEHQVSFACLVPDVIRYFNTRLAKRKGPRLPLHPQLMIYSGGSHLPADEAQKLGDLLGCGPVLQGYGLTESMPVIVQSSVGEVHRGAMGQPISGVELRIVDGQGRDVAVGRIGELLVRGPMVIPGYDDAPQINARFFRDGWFHTGDLVWQDDDGHVFFYCQRLRISKIKAQMIDLEEIESIALKHPGAVRAKAYIVPDHKAINVLHLSVEGSADLSQNSVSTLLARYLSAFKLPRNIEIVPLKEEIHAR	PGPT0008380_14400	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
D1-35_04050	612			hypothetical protein	ATGCACGCTGATCACACGCGACCGGTGCTGGCCGTTTTCGATTTCGACGGCACATTGACCGACAGGCATACCTTCTGGCGCTACATGCGTTTTATCGTCGGAACCCGGCCCTTCTGGCTCAGGATCATCCCCCTGCTGCCAAAAATGCTCAGCGTGATCCTGGGAATCACACCGCTGATGCAGGCGCGACTGGCGTTTATCGCCTGCTATCTGGGAGGCCTGAGCGTCGAGCAGGAGCGCGAACATGCCAGGTACTTCATCAGTGAACAGCTGCCGCTCTGGCTCAGGCCCGAAGCGCTGCGTCGGCTGAAGTGGCATCAATCCATGGGACACGTCACGGCGCTGGTCAGCAATTCGCCGGAGAACTACCTGATCCCGTGGGGGCAGGCAGTTGGTTTCGACTACGTGTGCGGCACCCGCCTGGCGACGGCCCGGAACAAGCTGACCGGGGGCATATCGGGAGCCAACTGTGTCGATGGGGAGAAAGTCAGGCGCCTCAAAGGCTGCGTCGGCAACCTTGAAGATTTCTACGTCTATGCCTATGGCGACTCGTCAGGCGACGAGGCCCTGCTCAGCGTTGCCAACTCTCCCTTCTATAGAAACTGGTACTGA	MHADHTRPVLAVFDFDGTLTDRHTFWRYMRFIVGTRPFWLRIIPLLPKMLSVILGITPLMQARLAFIACYLGGLSVEQEREHARYFISEQLPLWLRPEALRRLKWHQSMGHVTALVSNSPENYLIPWGQAVGFDYVCGTRLATARNKLTGGISGANCVDGEKVRRLKGCVGNLEDFYVYAYGDSSGDEALLSVANSPFYRNWY	PGPT0007720_580	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATASE_ACTIVITY,PGPT0007720-pgpC-K18697	NA	NA
D1-35_04051	1782	mhpA_1		3-(3-hydroxy-phenyl)propionate/3-hydroxycinnamic acid hydroxylase	ATGAATACTCTGAGCACTTTTGTCCCCGCGCATTACAAACAGCCGGGCAAGGCGCCGGCGGTAATGATCGTAGGCGCCGGCCCTATCGGCTTGTCGCTGGCGATCATGTTGCAGAAATGGGGCGTCGCTTTTCGTATCATCGAGAAAAACGCCGGTCCCTCCACCGCGACCAAGGCGATGGCGATCCATTCCAGGACCCTGGAAATCTTCCGCGACCTCGGCGTCGCCGACCAGGCCATCAACGATGGTTTTACCATCAATCAGTTTTCGGTGCAGTCCAACGCCCGGCGGGTACTGAATTACAACTTTTCCTGCCTGGATGCTACCTATCCCCTGCTCCTCAGCCTGCCGCAGCCGCAAACGGAAAAGATCCTGCTGGAACGATTGACTGAGCTGGGCGTGGAAGTCGAATGGAACACCGAGCTGGTGGACATCGAGAACCAGCCCGAGTCCGTACGGGTCACGCTGCGTCATGGCGACGGTCGCGAGGAATCCTGCGCCAGCCGCTGGGCAGTGGCCTGTGACGGTGCTCGCAGCAACATCCGAAAACGCCTGGAGATGACTTTCGAGGGATCGTCCTACGATCGTTTTTTCATGCTCGCCGACGCTGACATCGAGTGGTCCGGCAGCAAGGACGAAGGCGCTTTTTTTCTTGGCGCGCAGGATGGGTACGTGGCGGTTGCGCCGATCAGCGCACAATCGCGTTATCGGCTGTTCATCGAGATGCCCTACGACTTGCCACCGGAAGGCGAGCGCCCCTCCTTGAGCCTGGAGAACTTCCAGCGGCTGTGCGAGGGACGTGGGCAGAACATGACCCTGTCGAACATCTCCTCCACCACCATTGCCTCTTTCCAGCATCGCCGGGTGCAGTCATTGCAGCAGGGCTCGGTGTTCCTGGTCGGCGATTCTGCGCATATCGGCAGCCCGATCGGCGGCCAATGGATGAACCTGGGAATTTCCGAGGCCTACAACCTGGCGTGGAAGATCGCCTATGTCGATCAAGGCCTGGCGGATCCGTCACTGCTCGACAGCTATAACGAGGAACGTTATCCGGTGGCCCTGGAAGTCGAGAAGACCGCGCATCGGTTGACCGGGTTGATCACCGTAAGGCAACGGGCCCTGGTGTGGCTGCGAGATAACGTCCTGCCACTGCTGAGCAGCAGGCCCAAGGTCCAGCGCAAACTGCCCTCGATGATCTCCGGCCATCAGTACCACTACGCCAAAAGTGACTGCATCCAGGAGGCGCTGACGAAAAAGCAGCGCCGCAACTGGGCCAGGAAAGGAGCCCGGACGGCGTTCCAGCCGCCGGTGCCTCGCGCGGGGCAACTGGCACCCGATGTCGAGCTTTGGCAACAGCAAGGGGCGCTGCCGGCGCGCTTGATCGACCTGTTCCACGGGACGTACACGTTGTTGATCTTCACCGCGGCGGATCAATTTTCTCCCATCTTGCCAGGCCACTATGCACTGGCCGAGTCAGTAGAAAAAGATTATCCGGGCATCAAGGCCTACTGCGTGGTCGACGCCCTCAACAGCGCGGAACTGCCGGCATGGCACTCGACATTGCTCGACCCCGACTGGAGGCTGCACAAGCGTTATCACGCCAGCGAAGGCACGCTGATGCTGATTCGTCCTGACGGGTACATCGCGTTCCAGGGCGCCGACGCGATGACACTCGTGACGTACCTGAGCGTGAGGTCCGGATTGCTCAAGGCCCCAAGGGAAACCGCCTCCCCGACAAGCGAGGCAGTGCAAATCCAGCGGCCAGTCGCAACCGCTCACTGA	MNTLSTFVPAHYKQPGKAPAVMIVGAGPIGLSLAIMLQKWGVAFRIIEKNAGPSTATKAMAIHSRTLEIFRDLGVADQAINDGFTINQFSVQSNARRVLNYNFSCLDATYPLLLSLPQPQTEKILLERLTELGVEVEWNTELVDIENQPESVRVTLRHGDGREESCASRWAVACDGARSNIRKRLEMTFEGSSYDRFFMLADADIEWSGSKDEGAFFLGAQDGYVAVAPISAQSRYRLFIEMPYDLPPEGERPSLSLENFQRLCEGRGQNMTLSNISSTTIASFQHRRVQSLQQGSVFLVGDSAHIGSPIGGQWMNLGISEAYNLAWKIAYVDQGLADPSLLDSYNEERYPVALEVEKTAHRLTGLITVRQRALVWLRDNVLPLLSSRPKVQRKLPSMISGHQYHYAKSDCIQEALTKKQRRNWARKGARTAFQPPVPRAGQLAPDVELWQQQGALPARLIDLFHGTYTLLIFTAADQFSPILPGHYALAESVEKDYPGIKAYCVVDALNSAELPAWHSTLLDPDWRLHKRYHASEGTLMLIRPDGYIAFQGADAMTLVTYLSVRSGLLKAPRETASPTSEAVQIQRPVATAH				NA	NA	NA	NA	NA
D1-35_04052	834			hypothetical protein	ATGCGCTTGCAACTCAATGAAGTTGTGCAGGAATTCATCGTGTCCAACGGGAAAATAGCCCATAGCTATTTCTCCCTTTCGGAAAAAATCATCGATTCACTTTGCGAATCCAACATGGCGAAGGAATCCATCCTGATGCGCCTGCTGGAACAGGCTGAATCGGTCACCGCCCATTATTTCAATGCCCACCAGCAGGTGCTGGAAGGCGTCTATGCCCATGGCATCGAGGCGGCTGCTGGTAGAAGCGTCGCAACGCTGGAGCCCGTGCCTGCACACTCGACCGTGTTGGCCGCCGCCCCCTCGACGGAGGAACCTGTCGCCCTCAGCTATGAGCAATGGTTGCGCGCCGAGATCAGTTCGGTCACCGGTTTCAAGAACGAGCAAATCGACTTCGAACGAAGTTTCGAAAGCCTGGGCATCGACTCGCTAGGGCTGGTTGATATTTTCGAGTCGTTGGCCCAGCACTTCCCGGACAAGAAAGAACAGACCTCGGAACTCTTCGATGCCCTGACCCCTACGGCCCTGCTGGCCAGGCTTGAAACCGATCCGAAGCCGCCTGCCGCACCTTCCGAGGCGCCGCTGCCTGGCTCCGCCGATGCGCAGACGCAGCTCGGCGCGGTGCTGTTCAACGCTCTCTCACCGCTGGTTTCGGACGCACCGCAGTCACTGGACGTCAACACGCCTTTTACCGATTTGGGACTCAACGGTTTCGACCGGCAAGCCCTTTGCCAATCAATGGCACAAGAGTGCCCCGTCAGCGAGTTTGCTGGTGAGGCATTGATGTCGCGTCGTACCCCGGAAGACGCACTGGCGCTTCTGGCAAGAATGGGCTGA	MRLQLNEVVQEFIVSNGKIAHSYFSLSEKIIDSLCESNMAKESILMRLLEQAESVTAHYFNAHQQVLEGVYAHGIEAAAGRSVATLEPVPAHSTVLAAAPSTEEPVALSYEQWLRAEISSVTGFKNEQIDFERSFESLGIDSLGLVDIFESLAQHFPDKKEQTSELFDALTPTALLARLETDPKPPAAPSEAPLPGSADAQTQLGAVLFNALSPLVSDAPQSLDVNTPFTDLGLNGFDRQALCQSMAQECPVSEFAGEALMSRRTPEDALALLARMG				NA	NA	NA	NA	NA
D1-35_04053	3414			hypothetical protein	ATGAGTGGCGCGGTAACGACAGCGGGCGAGTTGTGCTTCAGCGCAATGGCCGGCGAATTTCCAGGGGCGTCGTCCACCGACGCACTTTGGCACTTGCTCTCGCAGGGCGGCATAGCGCCCATCCAGGCAATGCCGGCGCGCTGGGGGTTGCAGAAGGCGTCGATATTTTCGAGCAAGGCCGGCGAAAAGGATCGTGTCTACCTGGACAGCGCATTCTGCCTTTCAGATGACCCATCGATGCCTTCCCGTTATGAAGGTCGGCAAGTCGCGATCGGCAAGAACGTGCTCCGGACGCTTTTTGCCGAACTCGCGGCGCAAGGCACGGTATTGAATACCGAGCGAACCGCATTGGTGGTCGCGACGTCCTGGAGCGATGAAAGTTATTTCGCCACGGCAGTGCCCGGCGGTACCGACACGCCATCCGGTTTCACGCCCGGTGAACAGGTGGCCGGGCTGGCGCGCGCTTTTGCCTTGGGAGGCCCGGCCTTATCGGTGGACACCGCTTGCAGTTCGTTCCCCTATGCCATCGACATGGCCAAGGCTCTGCTCAACAGTGGCCAGGCGGACAAGGCGATCATCATGGCGCTCAACACCGTTCTGCCCCCGGCATTGTTCCTCGGTTTCTCCCAACTGACGGCTTTTTCCGCCCGGGCCAGCATGCAGGCGTTCGGCGAGGATGCCGACGGTATTGTCCCGGGCGAATGCGCCACGGCGTTTCTGGTCGAGCCCGTGGCCGATGCCCTGAACGCCCGACGCCGGCCGCTGGGCGTGCTGAGAGGGTTGGGGCTTTCCGCCGATGGTGCCGAAGGGTCGGTGTTTGCACCGGGCAGGCAGGCCCAGTATCGCGCCTATCAACGGGCTTACATGGACCTTGATCCAGGCCGCGTGGATTACATCGAAACCCACGGCACCGGCACCCCGTTAGGGGATGCGACCGAACTGGCCTCGCTGAACAGCTTCTTCGCTGCCCATCGCAGCGCCGACGAAAAAATCGCCATCGGTTCGATCAAGGCTGTCATCGGTCATCCCCTGGCTGCGGCGGGAGGCGCTTCGCTGGCCAAGGCGTTGATGATCCTGCGCCACAAGGGCATCCCACCCCAGCCGGACTACCGTCCCAGCCTGAAAGTCGACGACACCTGCCTGCGCCTGGCGACACAGCGAGTCCAGCCACTGGAGGATCGTCAATCGCCGATCCGCATAGGCATTTCCAGCTTCGGCTTCGGTGGCGCCAACGCCCATCTGGTGGTGGATGAATATGTGCCCGATGGCCTCCCTGCCCCCACGCCGGTGGCTTCAGGCGTGCAGATCCTGGACCTCGCGATAGTCGAGGCGGAAGCCGCACTGGGCGGTTGCGATTCACTGCACTCGTTCAAACGGCGGCTTGAGCAACCGGCTACTCGACCGGTCACTTTCCCTTACGGGCGTTTCGTCGATGGCAAGGGGCCCTCGGCCGGGCCGTTGTCGGGGAGATTCCTCGCCCAGGACCGCGTCATCGATATCGACGGTTTTGGCATGGGGCCAAAGCCCCTGGCCTACGTCGATCCCTTCAAACTGTTGATCACCGACCGCGTCAATCACCTGTTGCGGCGCCTGCCGGGCGTTGCCGGATCGGCCGGTACGGCAATGGTCATGTGCTGCAACATGGGCGGGGAGCGGTTCAGCAACGCCTACAGCAGTGCCGAGCAATTCTATTCACGGGCCCAAGGCAGCCCGCCGGGCGTGGAAGTGACCGACGTGGCAACCATGTTGCCGAACATGTTGTCCGGCTACCCGGCGCAGATTTTCGATTTCAAGGGTTTTCATCAGACCCTGGCCGGCTCACCAGGGCTGTTCTGGCAAACCCTGCTGGCATCCCGGCAATGGTTCGACGACGGCATCACGACGCTGCTGCTCGGAGCCGGCCGCTTCATCAGCGGCGAAATCGAGGTCGATCGTGCTCGCCGCAGCGCTACGCCGCAAGGTGAAGGGCTCGGGCTGCTTGCGCTGCGTCCTTATCGAGCGGGTTCAACGGACACGCCCCTGCTGGTGATTCGCGCAGCGGTCCTCGCCCATGCCGCGGCTTCGCTGGACGAAGCGTGCCGATTGGCCGGCAAGGAGCGCGCCCAGTACGCGGCAGTAGAGGTTTGTGAGTTGCAGCCTGATAACGTCCCGGTGGACGGGTCGTTGCAGGAGATGACCGGTTTTCTGGCTGAAGCCTGCGGCATCGAAACGCTCTTGTCGGTGACGATGAACTCCGCGGTTCACACGGTGATCGAGGTGCGTGAGGCCGGCAAGGTTGTGATGTGGCTGTTCACTGAAAAACTGCGCGAATGGAACCCCGCGACGGCGAGCCCCGCCCCTGCGATCAGACACCCGTTCACGTTGCGCTTTGCCCACGAGCCCCATGAGCTGCAGCAGGTCATCACGCCGGTGCATGCCGGCGAAATCGTCCGCGAGCCACAACACGACGGTGTCGATGTGTTGCAACTCAGCGACATGCTGACCAGCACGGTTCTGGCCGGGTTGCGGGTGCGAGTCCGGGCCATGGAGGGGCTGTTCGCCCTGCACCGGGGGGCTCGTACCCAGCGCCCGGCGCCCTGGCAGCGTCGAGCGGAACACGTGGTGATTTCCCACATCCAGCGCGAGCCGCGTTCGCTGCGGGCACGGCTGGTGGTAGACGAAGGTCACCCGTATTTCTTCGACCATCCGCTGGATCACATCCCCGGCATCCTGTTGCTCGAAGGGGTGATGCAACTGGTCGAACTGGCCATGCCCCCGCTGAATGGTCGCGTCGCCTACGTGAAGACGCTCAGCATCAAGTTCCAGCAATACGTCCAGAAGGAGGACGTGATCGACCTGCTTCTGGAGCAAGGCCGCGATGGCCAGGAATTTCAGGCAACCGTCACGCAGGCTGGAAAAGTCATGTGCACCTGCGTTCTGGGCATGGCCTACAGCTCGGCCTTCGAGACCTCGCCGGCGGCTGAGTTCACGGCCGCGCGCTGTGTCGACAAGGCCCTGCTGCACAAGGCCCGGGAGGAAAATGTCATCGTCAGCGCCATGAGCAGCCTCGCCCAGGGGCTGAGCGTGGATACGGTCAGCCTGCCGGATGGGCATTTTTTCCACGAGGGCGATCCCGAGCATTTCTCGATGGTGTATTTCCTCGAGGTTGCCCGCCAGTGCTACATGCAGATTGCCCACGGTCATCTGCGTATTCCGCTCAAGACCCCGATGAATCTGCTGGCCCTGAGTTTCACCCTGGACCGGCCAATTCCGAGGAACAGCCCGTTGTCACTCGCTCCGCAAGCGAGCCTCGGGACGCAGCTTCAATCATTCAAGACCAACCGTATCCATATCGACCTGTTCAACCGGGGCGAAAAGATCGGCCAAGCCAATATCACCGCTCAAGTATTGAGCCAGGCCGCGCCTGCTGCCTGA	MSGAVTTAGELCFSAMAGEFPGASSTDALWHLLSQGGIAPIQAMPARWGLQKASIFSSKAGEKDRVYLDSAFCLSDDPSMPSRYEGRQVAIGKNVLRTLFAELAAQGTVLNTERTALVVATSWSDESYFATAVPGGTDTPSGFTPGEQVAGLARAFALGGPALSVDTACSSFPYAIDMAKALLNSGQADKAIIMALNTVLPPALFLGFSQLTAFSARASMQAFGEDADGIVPGECATAFLVEPVADALNARRRPLGVLRGLGLSADGAEGSVFAPGRQAQYRAYQRAYMDLDPGRVDYIETHGTGTPLGDATELASLNSFFAAHRSADEKIAIGSIKAVIGHPLAAAGGASLAKALMILRHKGIPPQPDYRPSLKVDDTCLRLATQRVQPLEDRQSPIRIGISSFGFGGANAHLVVDEYVPDGLPAPTPVASGVQILDLAIVEAEAALGGCDSLHSFKRRLEQPATRPVTFPYGRFVDGKGPSAGPLSGRFLAQDRVIDIDGFGMGPKPLAYVDPFKLLITDRVNHLLRRLPGVAGSAGTAMVMCCNMGGERFSNAYSSAEQFYSRAQGSPPGVEVTDVATMLPNMLSGYPAQIFDFKGFHQTLAGSPGLFWQTLLASRQWFDDGITTLLLGAGRFISGEIEVDRARRSATPQGEGLGLLALRPYRAGSTDTPLLVIRAAVLAHAAASLDEACRLAGKERAQYAAVEVCELQPDNVPVDGSLQEMTGFLAEACGIETLLSVTMNSAVHTVIEVREAGKVVMWLFTEKLREWNPATASPAPAIRHPFTLRFAHEPHELQQVITPVHAGEIVREPQHDGVDVLQLSDMLTSTVLAGLRVRVRAMEGLFALHRGARTQRPAPWQRRAEHVVISHIQREPRSLRARLVVDEGHPYFFDHPLDHIPGILLLEGVMQLVELAMPPLNGRVAYVKTLSIKFQQYVQKEDVIDLLLEQGRDGQEFQATVTQAGKVMCTCVLGMAYSSAFETSPAAEFTAARCVDKALLHKAREENVIVSAMSSLAQGLSVDTVSLPDGHFFHEGDPEHFSMVYFLEVARQCYMQIAHGHLRIPLKTPMNLLALSFTLDRPIPRNSPLSLAPQASLGTQLQSFKTNRIHIDLFNRGEKIGQANITAQVLSQAAPAA				NA	NA	NA	NA	NA
D1-35_04054	477			hypothetical protein	GTGAACGATGTCAAGGTTCAACTCATAGTCAAATCACCACCGTCGGAAATCTGGAAGATCTGGAGCAATTTCCAGGAAGCCCCGCTCTGGGATACCGACGTCAGCCATTGCCAACTCGAGGGCCCGTTCCAGGCGGGAACCGCGGGTCAGTGTGTGCTAAGGAATGGCTTGAAAATGCCATTGAGGCTGCTGGCCGTGGAACCGCAGGAAAGCTATCGCAACAGCGCGAGACTGCTTTGGATACGGCTCGAATTCGACCACCGGATGCGCAGGCTGTCTCCGGACGAAACCCAGGTCATCCATAGCGCCAGGATCTCCGGCCCGTTGAGCTTCGTGTACCGCGGCCTGCTGCGCAAAATGCTGACGACGGTAATGACCACGGCGCTGGGCAATCTCAGAGCCCTTGCCGAACAACGCGCCAACGCTGTCGACGCCCCGGAGCGCGACAAAGCGCAAGCACATCTGCACCTCGTATGA	MNDVKVQLIVKSPPSEIWKIWSNFQEAPLWDTDVSHCQLEGPFQAGTAGQCVLRNGLKMPLRLLAVEPQESYRNSARLLWIRLEFDHRMRRLSPDETQVIHSARISGPLSFVYRGLLRKMLTTVMTTALGNLRALAEQRANAVDAPERDKAQAHLHLV				NA	NA	NA	NA	NA
D1-35_04055	699			hypothetical protein	ATGAACTTACTGAAAAACACTCAATACCTGGTGATGGGCATCATCGGCATGGGCGCTGTCGCCCCGACGTCCACCTTCGCCGACACGCTGGGCCCCTACGCCAGCCTCATGGGCGGCCTGAACTGGGTATCGGCGCAGGACCTCAACCAGAACAACCTGGATTTCGTCGAGATGGAATTCAACCAGCCGCTCCATTCCGGCTACGCCACCGGCCTGGCGTTAGGCTGGCGTTTCCCGGTCGGGCTGCGCCCGGAGGTGGAACTCGGTTATCGCGAAAATACCCTGACCCAGTTCAACAACCGGGTCTATGAGGGCGGCGGGAGCATCGATGGCGAAGGCGAAGAGAAAGCGGCCAGCCTGATGGTCAACCTCTGGTACGACGTCTTGAACCTGCCCGCGCCTTTCAACCGGTTTACCCCTTACCTGGGCGGCGGCCTGGGTTACGCCACCCTCACGGTCAGCGGTCTGGAAGCCGGTGGCGTGGAGTTCGGCGGTACTCACCGCGACACCGTCTCGGCCTACCAACTGGGTGCCGGGGTGGGTTATGAGCTGAACGAAAACTGGTCGATGTCCCTGGATTACCGCTGCCTGAAAACGCGCGAGGCGCACTTCGGCGACATCGAACGGCTGCCCCAAGGCGATGTCAGCACCGAATATGAAGCCCAATCGGTGATGCTGGGCCTGCGTTACTGGCTCTGA	MNLLKNTQYLVMGIIGMGAVAPTSTFADTLGPYASLMGGLNWVSAQDLNQNNLDFVEMEFNQPLHSGYATGLALGWRFPVGLRPEVELGYRENTLTQFNNRVYEGGGSIDGEGEEKAASLMVNLWYDVLNLPAPFNRFTPYLGGGLGYATLTVSGLEAGGVEFGGTHRDTVSAYQLGAGVGYELNENWSMSLDYRCLKTREAHFGDIERLPQGDVSTEYEAQSVMLGLRYWL				NA	NA	NA	NA	NA
D1-35_04056	1158			hypothetical protein	ATGTCTGAGCACAACTGTGACCTGCTGATTGTCGGCGCCGGCATTCTCGGCCTGGCCCACGCCTGGGCTGGCGCCAGGCGCGGCCTCAAGGTCAAGGTGTTCGAGCGTAGCCATACGCCCCTGGGCGCCTCGGTACGCAACTTCGGCCAGGCCCTGGTCGGCGGCCAGGCGCCGGGTGTCATGCTCGACCTGGCACGCCAGGCGAACGGTTTGTGGAAAACGCTGGGCCAGGCTGCCGGGCTGCACATGCATCAGCAAGGCTCGCTGCTGTTCGCCCGTACGGAAGCCGAAGAAGCGCTGCTCGAAGCGTTCCTGAGCGGGCGGGGCGCAGCATTGGGTTATCGCACCGAGCTGTTGCGTGGCGAGGCGTTGGCGGCGCTTTACGATGGCCGTTTTGCCCATCACCGCGCGGCATTGCTCGGCCTCGACGATCAACAGTTGTATTCCCGCGAGGCACTGCCGCAGATCGTCGATTACCTGGCCCGGGCATTGGGCGTCGAATTCCATTTTTCGACGCTGGTCCGCGATGTCGAACCCCACCGTGCGCTCACCAGCGCCGGACGCTTTACCGCGCGGCACATTGTGGTGTGCTCGGGCCATGACTATCAGACGCTGCTGGCCGAGCAAATCGCCGGGCTCAACCCGCAAGTGTGCGGCTTGCAAATGCTCCGCGTACGGCCGCGCCAGCCCCTGGCGTTACGCCACGCGTTGCTCACGGGGCTGAGCTGCGTGCACTACGGCGCCTTTGCCGACCTGCCTGAAGCGCAGGCCATCCGCACGCAGATCCGCACGCACCAGCCAGAGCTCGAAGCCCATGGCATCCATCTGCTCATCAGTCCAACCCCCCACGGTGACCTGATCATCGGCGATTCCCATGTCTACGGCAGCGACATTTCACCGTTCAACGCCGAGCAGGTGGACCGCATCCTGATTGACCTGGCGCAGCACACCCTGGGCGGCGAGATCGATGTACTGGAACGCTGGCAGGGTGTATATGGCGCGCGGGGGCCGGGACCGTTCAGCGTGATTTCGGCTGCGCAAGGCGTCACCGCAGTGCTGATGCATACCGGCTTGGGCATGAGCGTGGGACTGGCGCTGGGCGAACGGACGATCGCCGCAGCGCTGGGGGAGGGGCCGTGGCAAAGCTCGGCGGCTTGA	MSEHNCDLLIVGAGILGLAHAWAGARRGLKVKVFERSHTPLGASVRNFGQALVGGQAPGVMLDLARQANGLWKTLGQAAGLHMHQQGSLLFARTEAEEALLEAFLSGRGAALGYRTELLRGEALAALYDGRFAHHRAALLGLDDQQLYSREALPQIVDYLARALGVEFHFSTLVRDVEPHRALTSAGRFTARHIVVCSGHDYQTLLAEQIAGLNPQVCGLQMLRVRPRQPLALRHALLTGLSCVHYGAFADLPEAQAIRTQIRTHQPELEAHGIHLLISPTPHGDLIIGDSHVYGSDISPFNAEQVDRILIDLAQHTLGGEIDVLERWQGVYGARGPGPFSVISAAQGVTAVLMHTGLGMSVGLALGERTIAAALGEGPWQSSAA	PGPT0020390_173	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020390-lhpB2-K21061	NA	NA
D1-35_04057	1020		COG1840	putative protein	ATGTCCAAACGCACTGCCTGGGCCGCCGGCCTGCTTGCCGCCTGTGTTCTGCAAGCCCATGCCAATACCGAACTGACCGTCTACACGGCCCTCGAAGTCGAGCAGCTCAAGGCCTACAAACAGGCCTTCGAGCAGCAAAACCCGGACATCGAGATCAAGTGGGTGCGCGATTCCACCGGCATCGTCACCGCCAAGCTGCTGGCGGAAAAGGATCGCCCCCAAGCCGATGCGGTCTGGGGTCTGGCAGGCTCGAGCCTGGCGATTCTCAAGCAGCAGGGCCTGCTGGACGCCTACAGCCCGGCGAACCTCGGCCAGATTTCCACCCAATACCGCGACGCCGACACGCCACCCACCTGGGTCGGCATGGACGTCTGGGCCGCCGCCATCTGCTTCAATACGGTGGAAGCGCAAAAGCTCGGCCTGCCCAAGCCCACCCGCTGGGAAGACCTTGCCAACCCCGTGTACCAAGGCAAGATCGTCATGCCCAATCCGGCGTCGTCCGGCACCGGTTACCTGGACGTCAGTGCCTGGCTGCAGACCTTCGGCGAGACCAAGGGCTGGGCCTACATGGACAAGTTGCACGCCAATATCGGCCAGTACACACACTCCGGCTCCAAGCCCTGCAAGCTGGCCGCCGCCGGCGAGTTCCCCATCGGTATTTCGTTCGAATACCCAGCCATCCAGCTCAAGCGCAAAGGCGCGCCGCTGGACATCGTCCTGCCTGCCGAAGGCCTGGGCTGGGAAATCGAAGCCACCGCCATTATCAAAGGCACGCCGAAGCTGGCGGCTGCCAGAAAACTCGCGGACTTCTCCGCCAGCTCCGAGGCGATGCAGTTATACAAAGCGAACTTCGCGGTCCTGGCGCAACCGGGCATCGCCGAACGCCTGCCGGAGCTGCCGACGGACTACGAACAACGCTTGATCCGCAATGATTTCGCCTGGGCGTCGGAGAACCGCGACAAGGTGCTGGCCGAGTGGCGCAAGCGTTACGACGGCAAGTCCGAGCCGGTCGCCAAATAA	MSKRTAWAAGLLAACVLQAHANTELTVYTALEVEQLKAYKQAFEQQNPDIEIKWVRDSTGIVTAKLLAEKDRPQADAVWGLAGSSLAILKQQGLLDAYSPANLGQISTQYRDADTPPTWVGMDVWAAAICFNTVEAQKLGLPKPTRWEDLANPVYQGKIVMPNPASSGTGYLDVSAWLQTFGETKGWAYMDKLHANIGQYTHSGSKPCKLAAAGEFPIGISFEYPAIQLKRKGAPLDIVLPAEGLGWEIEATAIIKGTPKLAAARKLADFSASSEAMQLYKANFAVLAQPGIAERLPELPTDYEQRLIRNDFAWASENRDKVLAEWRKRYDGKSEPVAK	PGPT0003725_3583	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
D1-35_04058	828	phnX_2	COG0637	Phosphonoacetaldehyde hydrolase	ATGCACTACCAAACACCAACTCACCTGCAGGCAGCGATTCTCGATTGGGCCGGAACCGTGGTGGACTTCGGTTCGTTCGCGCCGACGCGGATTTTCGTCGAAGCCTTCGCCAGCTTCGACATCGAGATCAGCCTGGAGGAGGCCCGTGGCCCGATGGGCATGGGCAAATGGGACCACATCCGCACCTTGTGCAATCAACCGGGCGTGGCCGAACGGTTTGTGCGCCGCTTCGGGCGTGCACCGAGCGATGACGACGTGACGGCTATCTATGAGCGCTTCATGCCGCTGCAGATCGCCAAGGTCGCCGACCACTCGGACCTGATCCCCGGCGCTCTGGAGAGCATCGCCGCACTGCGCCAGCGCGGCCTCAGGATTGGCAGTTGCTCCGGCTATCCCCGACAGGTCATGGACAAAGTCGTCGAACTGGCCGCCACCAAGGGCTACAGCCCCGACCATGTGGTCGCCACCGACGACGTGCCCAAGGGCCGGCCAAGCCCTGCGCAGGCCTTGGCCAACGTGATCGCCCTGGGCCTGGACGATGTCGCCGCCTGCGTGAAAGTCGATGACACCGAGCCCGGCATCCTCGAAGGCCGCAGGGCAGGGATGTGGACCGTGGCATTGAGGTTTTCCGGCAATTTTCTCGGCCTCGACTGGGAGCAGTTCCAGGCTCTGTCGGCGCCGCAGTTGGCGGCCGAGCGCGAGCGCATCGACGGCTTGTTTGCCGCAAGCCGTCCGCATTACCTGATCGACACGATTGCCGAACTGCCCGCCGTGATCGACCACATCAACACGCAACTGGCCCGCGGCGTATTGCCGTCCCATTCCTGA	MHYQTPTHLQAAILDWAGTVVDFGSFAPTRIFVEAFASFDIEISLEEARGPMGMGKWDHIRTLCNQPGVAERFVRRFGRAPSDDDVTAIYERFMPLQIAKVADHSDLIPGALESIAALRQRGLRIGSCSGYPRQVMDKVVELAATKGYSPDHVVATDDVPKGRPSPAQALANVIALGLDDVAACVKVDDTEPGILEGRRAGMWTVALRFSGNFLGLDWEQFQALSAPQLAAERERIDGLFAASRPHYLIDTIAELPAVIDHINTQLARGVLPSHS	PGPT0002490_164	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002490-phnX-K05306	NA	NA
D1-35_04059	1716			hypothetical protein	ATGCAAAACACGATGATTCTCAAGCCGACCGCAGTGCAGGTACCTCAGGTGCCCGGTGACCTGGCAGACCGATTGTTCATACGCGGCGGTCAGTGGCTGCTGCTGGTGTTGCTGGCGCTGGCAGTATTGCTGCCATTGCTCGCCATGCTGTGGCGCGCCTTCAGCGGTGATGCCAGCCAGGGTGGCGGCGTGCAAGCGGCGCTGACGCTGCTGGCCAGTGCCAATTTCCGCTGGCTGCTGGGCAACAGCCTGACGGTTTCAATGACCGTCGCGCTTATCGTCGTGCCGCTGGCCTATGCGTTCGCCTACGCATTGCAGCGCACCTGCATCGTGGCAAAGCCGCTGTGGCGGGGCATTTCGCTGCTGCCGCTGCTGGCGCCGTCGATGCTGCCTGGCATTGCGCTGATCTATCTGTTCGGCAACCAGGGGCTGCTGCGCGATTTCAGCGCCGGCAACATCTATGGTTTCTGGGGCATTGTCCTGGGGCAGGCGATCTACACCTTTCCCCACGCCATGATGGTGCTGATGTCGGCGCTGGCGCTGGCGGATGCGCGGCTGTTCGACGCGGCCTCAAGCATGGGCGCCTCGCCATGGCGGGCATTTCGCACCATCACCTGGCCCGGCAGCCGGCAAGGGGTGTTCGCGGCTTTCTGCCTGGTGTTCACCTTGTGCATCACCGACTTCGGCGTGCCGGTCACGGTCGGAGGCGACTATCAGGTGCTGGCGCTGGAAGCCTACAAGTCTGTCGTTGGCCAGCAGCAGTTTGGTCGCGGCGCGCTGATCGGCATGATTCTGCTGCTGCCCGCATTGCTCAGTTTCGCCGTGGACATGTGGCTGCGCCGTACTCAACGCGAAGCCATGGGCGGCCGCGCCCAAGTGTATCACCCGCAACCGTCGCGGGGGCGGGATGCAGCCTTCCTGAGCATAACGGCACTGATCGGCGGCGTTCTGCTCGGCGTGTTCGGCATGGCAGTGTACGCATCGCTCGTGCAGTTCTGGCCGTACGACTTGTCCCTGTCCCTGGACAACTATGCCTTCTCCGAACTGCCCGGCGGTTGGCTGGCCTATCGCAACAGCCTGCTGCTGGCGGTGTGCAGTGCGGTGTTCGGCAGCCTGGCGATCTTCACCGGTGCCTACCTGATCGAGAAGACCCGGCAGAGCGCATTGACGCGCGCCCTGCGGCTGCTCAGCTTCGTCCCGATGGCTGTGCCCGGGCTGGTGCTGGGCCTGGGCTACGTGTTCTTTTTCAATCTGCCGGGCAATCCGCTCGGCAGCCTCTACGGCAGCCTGGCCTTGCTGGTGGTCTGTACGGTCGCGCACTTCCTGACCACCGCGCATATGACGGCCAGTACCGCCTTGCGCCAGCTCGACGATGAGTTCGAGGCCGCCGCCCTGGCGCTGAAAGTCCCGCTGGTTCGCCACTTCCTGCGGGTGACGCTGCCCATTTGCCTGCCGGCGTTGCTCGACATCGTTCGTTATCTGTTCGTGTCGGCGATGACCACGGTCTCAGCGGCGATTTTTCTCTACAGCCCTGACAGCGTCCTGGCTGCGGTGGCCGTGCTGAACATGGACGACGCCGGCAACGTCGGCGGGGCCGCCGCGATGGCGACTCTGATCCTGCTGACCTCGGCCAGCGTATCGCTGCTGCTGGCGATGCTGTCGCGCCGCCTGCTGCGCCGCTCCCAGGCCTGGCGCCAGCCGGCGCCGGGTCTTTGA	MQNTMILKPTAVQVPQVPGDLADRLFIRGGQWLLLVLLALAVLLPLLAMLWRAFSGDASQGGGVQAALTLLASANFRWLLGNSLTVSMTVALIVVPLAYAFAYALQRTCIVAKPLWRGISLLPLLAPSMLPGIALIYLFGNQGLLRDFSAGNIYGFWGIVLGQAIYTFPHAMMVLMSALALADARLFDAASSMGASPWRAFRTITWPGSRQGVFAAFCLVFTLCITDFGVPVTVGGDYQVLALEAYKSVVGQQQFGRGALIGMILLLPALLSFAVDMWLRRTQREAMGGRAQVYHPQPSRGRDAAFLSITALIGGVLLGVFGMAVYASLVQFWPYDLSLSLDNYAFSELPGGWLAYRNSLLLAVCSAVFGSLAIFTGAYLIEKTRQSALTRALRLLSFVPMAVPGLVLGLGYVFFFNLPGNPLGSLYGSLALLVVCTVAHFLTTAHMTASTALRQLDDEFEAAALALKVPLVRHFLRVTLPICLPALLDIVRYLFVSAMTTVSAAIFLYSPDSVLAAVAVLNMDDAGNVGGAAAMATLILLTSASVSLLLAMLSRRLLRRSQAWRQPAPGL	PGPT0003730_1651	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
D1-35_04060	1053	cysA_2	COG1118	Sulfate/thiosulfate import ATP-binding protein CysA	ATGACAAGAACACCTTCCGTAGACCTGCAGATACGCGACATCCATAAAGGCTTCGGCGCCTTCAAGGCGTTGGATGGGGTATCGCTGGAAATCGCCGCCGGTGAGCTGGTGTGCCTGCTTGGGCCTTCCGGCTGCGGCAAGACCACCTTGTTGCGCTGCATAGCCGGCCTGGAACGGCAAGACCGCGGCACGATCATGATCGGCGCGCGGGATGTTTCCGCCCTGGCACCGCAGGCTCGCGACTACGGCATTCTGTTCCAGTCCTATGCGCTGTTTCCCAACCTGACCGTGGAGCAGAACATCGGCTACGGATTGGCGGGCAACCACCGCGAGACGATCCGCAGCCGGGTCGGCGAGATGCTGGAACTGGTCGGGCTGCGTGGCAGCGAGAAAAAATATCCCGGCCAGCTCTCCGGCGGCCAGCAGCAGCGGGTGGCGTTGGCTCGCGCCCTGGCTCCGGCGCCCTCGCTGTTACTGCTCGATGAACCGATGTCGGCCCTCGATGCCCGGGTGCGCGAGCACCTGTGCGGCGAGTTGCGTCAGCTGCAGAAACGCCTGGGCATTACCACGTTGATGGTCACCCACAACCAGGACGAGGCGATGCTGATGGCCGATCGCATCGCGGTGATCAATCAGGGCCGCGTCGAACAGTTCGCCAGTGCGCAACAGATCTACCGCGCGCCGGCGAGCGCCTTTGTGGCTGATTTCGTCGGCCAGGGCAACTGGCTGCCTTTCGAGCGCGGGCACGACGGACAGGTTCGCGTCGGCGGGCTCAGCCTCAGCGTGGAGGCCGCTGACGTGGGGCGCAGCGGTCGACTCTTCTGCCGTCCGGAAGCCATACGGATCAATCCGTCGACGCCCGAAGCCAACCTGTTCGATGCGCAGTTGCGCGAACTAACCTACCTCGGCAACCGTTGTCGCCTGAGCTTCGAGCTGGACGCATTGCCCGGCCACACCCTGCTCGCCGAGTTGGAGCCGCAGGCCATGCCTGGGCTGCCCCAGGCGCGGCTGAAAATCGCGCTGCCGGCCCACAGCCTACAGGTGTTCAATTGA	MTRTPSVDLQIRDIHKGFGAFKALDGVSLEIAAGELVCLLGPSGCGKTTLLRCIAGLERQDRGTIMIGARDVSALAPQARDYGILFQSYALFPNLTVEQNIGYGLAGNHRETIRSRVGEMLELVGLRGSEKKYPGQLSGGQQQRVALARALAPAPSLLLLDEPMSALDARVREHLCGELRQLQKRLGITTLMVTHNQDEAMLMADRIAVINQGRVEQFASAQQIYRAPASAFVADFVGQGNWLPFERGHDGQVRVGGLSLSVEAADVGRSGRLFCRPEAIRINPSTPEANLFDAQLRELTYLGNRCRLSFELDALPGHTLLAELEPQAMPGLPQARLKIALPAHSLQVFN	PGPT0003735_3287	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010	NA	NA
D1-35_04061	864	cmpR_3	COG0583	HTH-type transcriptional activator CmpR	ATGCTCAGCGCCGAGCTGAAGTCTTTCCACATGGTCGCTCGCCTGGCCAGCGTCACCCAGGCAGCCAAGAAGCTCGGGCTCAGCCAGCCGACGGTGACCACGCAGATCCGCAGCCTGGAAGCCCAGTACGGCGTTGAATTGTTTTATCGCGGCGGGCGCCGCCTGACACTCAGTGACCAGGGCGCGCAGCTGTTGCCGATGGTGCAGAAACTGCTGCAGCAGGAGGCCGACATCGAGTTTTTCCTGCGCAACAGCGGCCAGGTGCAAGGCACGTTGCGCATCGGTGCCACCGCGCCGTATTACGTGCTGGATATCATCAAGGCTTTTCGCGAGCAGTTTGCGCTGTGCGAAGTGACCCTGGAAATCGGCAACTCACTGCAGGTCATCGAGGCGCTGGAGGAATATCGCGTGGACTTGGCCGCGTCCTCGCAACTGGTCGAGGATGCGCGCCTGACCCGGCTGGTGCTGGGGCACGATCCGCTGGTGCTGGCGGTACATCGCGAGCACCCATTGGCCAGCCACGACCGAGTCGCGCCGAGCGCCCTGGCCGGGCATTGCCTGCTGATGCGCGAAACCGGTTCCACCACCCGCGCGCTCACCACAACGCTGCTGCGCGAGGCCGGGGTGGCGACCGGGCCGCTGCTGGAGATCGGCAGTCGCGAGTCGATTCGCGAAGCGGTCCTGCGCAACATCGGCATCAGCATCATCGCCCGTCACGAGGTGCCGGAGAATCCACAGCTCAAGGTGGTCGAGCTGGAAGGCGCGCCGCTGATCGCCGAGTATCTGTACTGCCTCAAGGAGCGCCGCCAGGCCCGGCTGCCGTCGGCATTCCTCGGCCTGGCACGAGAGACCAGCGCATCCTGA	MLSAELKSFHMVARLASVTQAAKKLGLSQPTVTTQIRSLEAQYGVELFYRGGRRLTLSDQGAQLLPMVQKLLQQEADIEFFLRNSGQVQGTLRIGATAPYYVLDIIKAFREQFALCEVTLEIGNSLQVIEALEEYRVDLAASSQLVEDARLTRLVLGHDPLVLAVHREHPLASHDRVAPSALAGHCLLMRETGSTTRALTTTLLREAGVATGPLLEIGSRESIREAVLRNIGISIIARHEVPENPQLKVVELEGAPLIAEYLYCLKERRQARLPSAFLGLARETSAS	PGPT0001160_1427	DIRECT EFFECT	BIO-FERTILIZATION	CARBON_DIOXID_FIXATION	CO2_FIXATION-RuBisCo	CO2_FIXATION-RuBisCo_BIOSYNTHESIS_REGULATION,PGPT0001160-cbbR|cmpR|ndhR-K21703	NA	NA
D1-35_04062	852	phnD1	COG3221	putative ABC transporter phosphite binding protein PhnD1	ATGCTCAAGCGTACCCTGGCACTGGCCGTCGGTTTGACCCTGTCCCTGAGCTCCCTTCTGACGCAGGCGGCCGACACCTTGAAGGTCAGCGCGATCCCCGATGAAGCGCCGACCGAACTGCTGCGCAAGTTCAAGCCGCTGGGGGCGTACCTGGAGCAGAAAATCGGCATGAAAGTCGAGTTCGTACCGGTGAGCGATTACCCCGCCGTGGTCGAGGCGCTGGCCACCGACCGGATCGACCTGGCCTGGCTGGGCGGTTTCACCTTCGTGCAGGCCCGCCTGAAGACGGGTAACGCCATTCCGCTGGTGCAGCGCGAACAGGATGCCCAGTTCACCAGTAAATTCATCACCGCCGACCCTGCAGTCACATCCCTGGCCGACCTCAAGGGCAAAAGCTTTGCCTTCGGTTCGATCTCTTCCACCTCGGGCAGCCTGATGCCGCGTTATTTCATGCTCAAGGACGGCATCAAGCCGGAAACCTATTTCAGCCGCGTCGGCTACTCGGGCGCCCATGATGCGACGGCGGCCTGGGTCCAGGCGGGCAAGGTCGATGCCGGCGTGCTCAACGCCAGCGTCTGGGACAAACTGGTGGCGGCCGGCAAGGTCGACACTAGCAAGGTCAAGGTGTTCGCGACTACCCCGGCCTACTTCGATTACAACTGGACCGTGCGCGGCACGCTCGACCCGGCGCTGGCGGCGAAGATCAAGGCGGCGTTCCTGGACCTCGATCCGGCGAACCCGAAGGACAAGGAAATCCTTGATCTGCAGGCCGCCAGCCGCTTCATCGAGACCAAGCCCGAGAACTACAAAGGCATCGAAGAAGCCGCACGCGCCGCCGAACTGCTGAAATGA	MLKRTLALAVGLTLSLSSLLTQAADTLKVSAIPDEAPTELLRKFKPLGAYLEQKIGMKVEFVPVSDYPAVVEALATDRIDLAWLGGFTFVQARLKTGNAIPLVQREQDAQFTSKFITADPAVTSLADLKGKSFAFGSISSTSGSLMPRYFMLKDGIKPETYFSRVGYSGAHDATAAWVQAGKVDAGVLNASVWDKLVAAGKVDTSKVKVFATTPAYFDYNWTVRGTLDPALAAKIKAAFLDLDPANPKDKEILDLQAASRFIETKPENYKGIEEAARAAELLK	PGPT0002525_2741	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002525-phnD-K02044	NA	NA
D1-35_04063	798	btuD_10		Vitamin B12 import ATP-binding protein BtuD	ATGACATTACGTCTGACCCGAGCCAGCGTCATCCACGCCAACGGTGCGCAGGCGCTGCGTGGCGTGGATCTGCACATTGGCGCGGGGGAACGGGTCGCCATCATCGGCCCGTCCGGCGCGGGCAAGTCGAGCCTGCTCAATGTGCTCGCAACCGCCCTGCGGCCGGGCGCTGGCGAGGTGCAGGTACTGGGCGAGCCAGTCTGGCAATTGTCCGCGCGCCGGCGGCAGCGTCTGCGCGCACGCATCGGCCTGGTCCACCAGGCGCCTCCCCTGCCGCCGCGCCTACGGGTGGTCACCGCAGTGCTGGCCGGCAAGCTCGGCCAGTGGAGCCTGGGCAAGAGCCTGCTGAACCTGCTGCACCCGCTGGACATTCCCGGGGCTCGGGCGGCGTTGGCCCGGCTGGACCTGGGCGACAAGCTGTTCGCGCAATGCCAGCAGTTGTCCGGCGGGCAGCTGCAACGTGTCGGCATTGCCCGCGTGTTGTACCAGGCGCCCGAGGTATTGCTTGCGGACGAGCCGGTATCGGCGATGGACCCGGTGTTGGCCGAGCACACACTTGCGGTGCTCTGCCAGCATGCCCGGGAGCACCGCGTGACCCTGGTCACCAGCCTGCACGCGGTGGAGCTGGCGCTGGCGCATTTTTCCCGGATCATCGGTCTGCGTGACGGACAGATTCTGTTCGACTTGCCGACCGAAGCGGTCGACCGCCAACTGCTCGACACGCTTTATGCCAACGAGCAATTGGAGTCCATGTCGAGCCCTCCACTCCCTACGAGCGTGCAGATTCCGCGATGCTGA	MTLRLTRASVIHANGAQALRGVDLHIGAGERVAIIGPSGAGKSSLLNVLATALRPGAGEVQVLGEPVWQLSARRRQRLRARIGLVHQAPPLPPRLRVVTAVLAGKLGQWSLGKSLLNLLHPLDIPGARAALARLDLGDKLFAQCQQLSGGQLQRVGIARVLYQAPEVLLADEPVSAMDPVLAEHTLAVLCQHAREHRVTLVTSLHAVELALAHFSRIIGLRDGQILFDLPTEAVDRQLLDTLYANEQLESMSSPPLPTSVQIPRC	PGPT0002520_1128	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002520-phnC-K02041	NA	NA
D1-35_04064	828			hypothetical protein	ATGCTGAAGCGTGACGCCCGGGACCCCGCCAGCCGCCCTCGCCTGCTCCTGACCCTGTTGGCCCTGGCCCTGCTGTGGCCGGGCATTCGGTTCAGCGAGGTCGACCTCGGCGTGCTGCTGGCCAGCGACAGCCAGAGTGAGATGGGCCGGTTCGTCGCGGCGTTCTGGCCACCGGCCCATGACGAAACGTTTGTCGACCTGCTACTGCAAGCCACCCTGCAGACGTTGGCGATTGCCACCGCCGGCATGGCCCTGGCGCTGCTGGTGGCGGTCCCCGCGAGCCTGCTGGCCAGTCGCGCATTGTCGTTGTCGGCCGCCTACCGCTCCGGCAGGCCTGGCAATCTCGGTCAATGGTTGCGTTGGCCAATACGCGGCCTGTTGATCTTCCTGCGCAGCGTGCCGGAAATCGTCTGGGCCTTGCTCTTCGTGCGCGCTGTCGGCCTGGGTCCGACGGCCGGGGTGCTGGCCATCGCCATCACGTACAGCGGCATGCTGGGCAAGGTCTATGCGGAAATCTTCGAATCGGTCGACCAGCGCCCGGCACACGCATTGATGCAGGCCGGCAGCGGCCGGCTCGCGGCGTTCTGCTACGGGATCCTGCCCAACGTCGCCGCCGAGCTGCTGTCGTACACCGTGTACCGCTGGGAATGCGCCATCCGCGCGTCAGTGGTGATGGGTTTTGTCGGCGCGGGTGGCCTGGGCCAGCAGATGGACCTGTCGTTGCGCATGTTCGCCGGCGGTGAAGTGGCCAGCCTGTTGCTGACCTTCCTGGTGCTGGTGATGTTCGCCGATCAGCTCAGCCGCCTGCTGCGCTGGAGACTGGCATGA	MLKRDARDPASRPRLLLTLLALALLWPGIRFSEVDLGVLLASDSQSEMGRFVAAFWPPAHDETFVDLLLQATLQTLAIATAGMALALLVAVPASLLASRALSLSAAYRSGRPGNLGQWLRWPIRGLLIFLRSVPEIVWALLFVRAVGLGPTAGVLAIAITYSGMLGKVYAEIFESVDQRPAHALMQAGSGRLAAFCYGILPNVAAELLSYTVYRWECAIRASVVMGFVGAGGLGQQMDLSLRMFAGGEVASLLLTFLVLVMFADQLSRLLRWRLA	PGPT0002530_1674	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042	NA	NA
D1-35_04065	768			hypothetical protein	ATGAGTCGGCTGTTCAACGCGCTATTGCTGCTGTGCATCGGTGCGGCTGTCGTCGCTTCGTTCGGCTATCTGGGCATCGACCTGGGCGCGTTGGGAGACAGTGCGAGCCTCAAGCAGATGACCGCTTATGCGCAACGCTTCCTCAGTCCGGACCTGAGCCCGGCGTACCTCAAGGCGATCGGCCACGGCGCGCTGGAAACCATCGCCATGTCCGCCATCGGCACGTTGCTCGCGGCGGTGTTGGGGCTGGCACTGGCACTGCCGGCCGCCGGGCGCCTTGGCTGGCCGTTGCAAAGCGCCTCGCGCCTGGTGTTGAACGCGTTGCGCGCGGTTCCGGAACTGGTGTGGGCGGCGCTGATGGTGTTTGCCGCCGGGCTCGGCCCCAATGCCGGTACGCTGGCGCTGACCCTGCACACCATCGGCGTGCTCGGCCGGCTATTTGCCGAGGCGCTGGAAAACACCCCCTCGCAACCCGCCGATGCGATCCGTTTGCAAGGTGGCAGCGCGCTCGCGGCTTTCTGCTACGGCACCCTGCCCAACCTGATGCCGCAGCTCCTCGCCTACACCCTCTACCGCTGGGAAAACAATATCCGCATGGCCAGTGTGCTGGGCTTCGTCGGCGCCGGCGGCCTGGGCCAGATGCTCTATGTCAGCCTCAGCCTGTTCCAGGAAGCCCAAGGCAGCACGGTGATCCTGGCCATGCTGTTGCTGGTGTTCATTGTCGATACCCTGAGCAGTTGGAGCCGCCAGCGCTGGGTCAAGGCCTGA	MSRLFNALLLLCIGAAVVASFGYLGIDLGALGDSASLKQMTAYAQRFLSPDLSPAYLKAIGHGALETIAMSAIGTLLAAVLGLALALPAAGRLGWPLQSASRLVLNALRAVPELVWAALMVFAAGLGPNAGTLALTLHTIGVLGRLFAEALENTPSQPADAIRLQGGSALAAFCYGTLPNLMPQLLAYTLYRWENNIRMASVLGFVGAGGLGQMLYVSLSLFQEAQGSTVILAMLLLVFIVDTLSSWSRQRWVKA	PGPT0002530_3122	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042	NA	NA
D1-35_04066	1242	nicP_4		Porin-like protein NicP	ATGTACCGTTTCATCGCTAATCACTTCAACCGTAAACCCGTGGGCACTTTGCTCGGCCTCGGTCTGATGAGCGCGTCGAGTGCTCACGCCGATTTCATCAGCGACAGCAAAGCCAGCCTGGAAGCCCGCAACTTCTATTTCAACCGCGATTTTCGGCAGGAGGGCGCGCGGGACAAGGCCGAGGAGTGGACGCAAGGCTTTCTGTTGCGCATCGAGTCGGGCTACACCGCCGGGACCTTGGGTTTCGGGCTGGATGCGTTGGCCATGGCCGGTTTCAAACTGGATTCGGGCGGCGGCACGGCAGGCACCAATTTGCTGCCGGCAGACTCGTCCGGGGGTTCCCAGGACCGCTACGGCGAACTTGGCCTGACCGCGAAGGCACGCTTGTCCAACAGCACCCTGAAAGTGGGCACCCTGCAAATCAAGGACCCGGTGGTCAATTCCAACGATACGCGCCTGCTCCCCGGGACCTTCAAGGGCGGGCTGTTGAGCGTGCAGGAAGTCGACCGCCTGAAGCTGACCGCCGGGCAGCTTACACAGATCAATTTCGTCGATTCCACCCACTATCAGGACATGACGGCCAACCGCATTGGAGGCATCAGCGACCGCTTCCAGTTCGCCGGAGCGGACTACCAGTTCCTGCCGAATCTCACGGCGCAATACCGCTACGGCAAACTGGAGGACATCTACCAACAGAACTACCTGGGCTTGGTCCATAGCCTGGACCTGGGCGCGGGCCAATCATTGAAAAGCGACGTGCGTTATGCCCGCAGCACCGAAGACGGCAGCTTCCGCGCTATCGACAACCAGGCGTTCGGCGCGATGTTCACCTATAGCCTCGATGGGCACGCGCTGGGCCTGGGTTACCAACGCATGAGCGGCGACGACCCATTTCCCTACATCTCGCGCAGCGATCCGTATCTGGTCAACTTCGTCCAGATCGGTGATTTTGCCAATGTCGACGAGCGCTCCTGGCAGGCCCGTTACGACTACAACTTTGCCGGCCTCGGCGTGCCGGGATTGACGTTCATGACTCGCTACATCCGTGGCGACAACGTGCAACGCAGCGCGCCGGGTGAAGGCAAGGAATGGGAGCGCAACAGCGATATCGCCTACGTGATCCAGGACGGCACGTTGAAGGGGCTGGGGCTCAAATGGCGCAATGCCTCGGTGCGCTCGAACTTTGGCAATGACCTGGACGAAAATCGCCTGATCGTCAGTTACACGATGGCGCTGTGGTGA	MYRFIANHFNRKPVGTLLGLGLMSASSAHADFISDSKASLEARNFYFNRDFRQEGARDKAEEWTQGFLLRIESGYTAGTLGFGLDALAMAGFKLDSGGGTAGTNLLPADSSGGSQDRYGELGLTAKARLSNSTLKVGTLQIKDPVVNSNDTRLLPGTFKGGLLSVQEVDRLKLTAGQLTQINFVDSTHYQDMTANRIGGISDRFQFAGADYQFLPNLTAQYRYGKLEDIYQQNYLGLVHSLDLGAGQSLKSDVRYARSTEDGSFRAIDNQAFGAMFTYSLDGHALGLGYQRMSGDDPFPYISRSDPYLVNFVQIGDFANVDERSWQARYDYNFAGLGVPGLTFMTRYIRGDNVQRSAPGEGKEWERNSDIAYVIQDGTLKGLGLKWRNASVRSNFGNDLDENRLIVSYTMALW	PGPT0005395_50	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_BENZOATE|DERIVATE_DEGRADATION	XENOBIOTIC_BENZOATE-DEGREDATION-BENZOATE_TRANSPORT,PGPT0005395-benP-K21758	NA	NA
D1-35_04067	804		COG4336	Putative hydro-lyase	ATGCCGCCGTCCGCCCTGACATTCGAACAACTGCAGCAGTGTTCACCCCAGGCCCTGCGCCAGAACATCGCGGCCGGTCGCTACCACGGCCACACCAGCGGCCTGGGCCAGGGCCGGGTGCAAGCCAACATCGTGATCCTGCCGGGTGACTGGGCCGACGAATTCCTGCGCTACTGCACGCTCAACCGCCAGGCGTGTCCGGTGCTGGACGTGAGCGAACCGGGGGATCCGTTCCTGCGCAACCTCGGCGCGCCCATCGATATCCGCCACGAAGTACCGCGCTATCGGGTCTTTCGTCACGGCGAGTTGAGCGAAGAGCCGATGGACATCGAACACCTGTGGCAGGACGACATGGTGACCTTCGCCCTCGGCTGCTCGTTCTCGTTCGAGCAACCCTTGCTGGAGGCCGGTATACGCCTGAGGCACATTGACCTGGGGCGCAACGTTGCCATGTTCCGCACCAACATCGACACGCGCCCCACCGCGCGCCTGTCTGGCAAAATGGTCGTGAGCATGCGCCCGATGAAGGCCGCCGCGGCGATCCAGGCGATCCAGATCACCGGACGCATGCCCAGCGTCCATGGCGCCCCGGTCCACATCGGTGATCCGTCGCTGATCGGCATTGATTCCCTGGACAGGCCGGACTATGGCGACGCGGTGCCGGTGGAAGCCGACGAGGTCCCGGTGTTCTGGGCCTGTGGCGTGACGCCGCAATCGGTGGTGCAGGCTTCGCGACCGCCGCTGTGCATCACCCACGCACCGGGTTGTATGCTGGTGACCGACGTTTTGAACAGCGCGTTGTGA	MPPSALTFEQLQQCSPQALRQNIAAGRYHGHTSGLGQGRVQANIVILPGDWADEFLRYCTLNRQACPVLDVSEPGDPFLRNLGAPIDIRHEVPRYRVFRHGELSEEPMDIEHLWQDDMVTFALGCSFSFEQPLLEAGIRLRHIDLGRNVAMFRTNIDTRPTARLSGKMVVSMRPMKAAAAIQAIQITGRMPSVHGAPVHIGDPSLIGIDSLDRPDYGDAVPVEADEVPVFWACGVTPQSVVQASRPPLCITHAPGCMLVTDVLNSAL				NA	NA	NA	NA	NA
D1-35_04068	549			hypothetical protein	ATGAACAGCCCGCAGCGATCAATCGAACATTACATCCGCGCCAAGGACGGCAACCGCCCTCACCTGCTGGACCAGGCCTTCATCCAGGGCGCAGTCCTGAACATGGTGGTCCGCACCGGCTCCATCGCCTTCCCGGAGCATGTCGAAGGTCGTGGCGCGATGGGTGACGTGCTGGTGAGCCGGTTCAACCAGGCGTTCGAAAACGTCTACACGTTCTGCCTGGGCAGCCCTCCTCACGCCAACGTGCGCACCTACGAGTGCAAATGGTTGGTCGCGATGTCGGACAAACACAACGGTGAGGTCAGGGTCGGTTGTGGCCGCTACGACTGGCGATTCAGCGCCGAGTCCGGGCTGTCCGAGGGGCTCACGATAACCATCGAACACATGAAGACCCTGCCGCCAGCCGAGCTTACGGAAGTCATGGCCTGGGTGTCGGGTCTGGAATATCCGTGGTGCGACGCCGCTGCGGTCCTCGGCGAGGTGCCGGATTCAAGGGCGCTTGAAGACGTGGTCCAATACCTCTCGTCCAGGAATTGCAGGACCGGTTGA	MNSPQRSIEHYIRAKDGNRPHLLDQAFIQGAVLNMVVRTGSIAFPEHVEGRGAMGDVLVSRFNQAFENVYTFCLGSPPHANVRTYECKWLVAMSDKHNGEVRVGCGRYDWRFSAESGLSEGLTITIEHMKTLPPAELTEVMAWVSGLEYPWCDAAAVLGEVPDSRALEDVVQYLSSRNCRTG				NA	NA	NA	NA	NA
D1-35_04069	942	gltR_3	COG0583	HTH-type transcriptional regulator GltR	ATGAATATCAAGTTTCTGGAAACCTTCGTCTGGGTCGCCCGCCTGAAGAGCTTTCGCCTCACGGCGGAAAAGCTGTTCACCACCCAGGCGTCGATTTCCAGCCGGATTGCAGCTCTGGAAGACGAGTTGGGCGTGCGTCTGTTCGTGCGTGATTCCAAGGGCGTGTCATTGACTTCCGAAGGCCAGCGGGTGCTGGAGTACGCCGAGCGCATCATGGACACCATGCACAGCATGAAAGCCGTGATCAAGGACCCGCGCCAGGTACGCGGGCGGATTCGCATCGGCGCGATGGACACGGTGATCCATACCTGGCTCAGCCCGTTGGTCACGCGCCTGATGGAATGCTACCCGGCGCTGGAAATCGAATTGTCGGCCGACACCGCGAGCAACCTGTGCACGCAACTGGAGAAAGGCTACCAGGACATCATTTTCCAGACCGACATCCTGCGCCTCGACAGCGTGCGCAATGCGCTCCTGACGCGTTATCCGATGCACTGGGTGGTGCGCAGCGGCTCATCCTTTGACCGCCACTACGCATCGCTGGACGAACTGTCCCAGGAGCGCATCGTGACCTTCTCGCGCAACTCCCGGCCCCACCAGGACCTCCTGAACATGCTGCACTCGGCCAATATCGTCTCGCCGCGGATCAATTGCGTGAACTCCGCCTCGGCGATCACCCGCCTGGTTCGTGACGGCTTTGGTATCGGCGCCATGCCGGCGGCGCTGGTGGTAGGCGAATTGAACCAGGGCAGCTTGACGCTGGTGGACGGCGTGCCGTTGCCGTCGGTGATGGACATCGTCGCCAGTTGGCGGACCGGCGCCGGCATGGAGCGGGTCGAAGACATCGTCAGCCTGACGCGGGAAGTGGTGGACGACTACGTGGGGCAACTGCCGGCGCCGTACCGGTTGGTGGCAAGCGAGGCCCCGGCGAACTGTCAGTGA	MNIKFLETFVWVARLKSFRLTAEKLFTTQASISSRIAALEDELGVRLFVRDSKGVSLTSEGQRVLEYAERIMDTMHSMKAVIKDPRQVRGRIRIGAMDTVIHTWLSPLVTRLMECYPALEIELSADTASNLCTQLEKGYQDIIFQTDILRLDSVRNALLTRYPMHWVVRSGSSFDRHYASLDELSQERIVTFSRNSRPHQDLLNMLHSANIVSPRINCVNSASAITRLVRDGFGIGAMPAALVVGELNQGSLTLVDGVPLPSVMDIVASWRTGAGMERVEDIVSLTREVVDDYVGQLPAPYRLVASEAPANCQ				NA	NA	NA	NA	NA
D1-35_04070	708			hypothetical protein	ATGTTTGCTCGCTGGTTCCCCGCTGCTATCAATACCCGCCCCACCGAATGGAGTCGCGCCGCCATCGGCATGGCCCTTGGAACAATGTTCAGTGTCTGGCTCTGTGGCCAGGTATTCGGTCTTGAAGTGGCGCAACACCTGATCGGCCCGCTCGGCGCCTCGGCCGTGCTGTTGTTTGCGGTGTCATCGGGTGCCCTGGCCCAGCCCTGGTCGATCTTCGGTGGTTATCTGTGCGCGTCGGTCGTGGCGTTGCTGGTCGCCCATGTGCTCGGCCGCACGCTGGGTAGCGCATGCCTGGCGGCCGGCATGGCGCTGGTGCTGATGTGCTGGCTGCGTTGCCTGCATCCACCGGCCGGCGCCCTGGCGGCGACGCTGGTGCTGGCGGACGCATCCATCGTCGCCCTCGACTGGCAGGCGCTTGGCGCCGCCATGCTGGCCGGCTCCGGCCTGCTCGTCTTCGCGCTGGCCTACAACAACTTCACGCGGGTGCGCTATCCCAAGCGAGCCAGCGAGCCGGCAGCGGTGATTCCCGCCGACCATCCCCCCATCGATCGCCAGGCGATCACCGCCGAAGACTTGAAACTTGCGCTTGAGGAAATGGAAGCATTCTTCGACGTAACCCCCGAAGATCTCGAACAATTGATCCACGCAAGCGAGCGGCATGCCAAGCGTCGCAGCATCACGGAGGTGCTGTCGGGTCGCGGCTGA	MFARWFPAAINTRPTEWSRAAIGMALGTMFSVWLCGQVFGLEVAQHLIGPLGASAVLLFAVSSGALAQPWSIFGGYLCASVVALLVAHVLGRTLGSACLAAGMALVLMCWLRCLHPPAGALAATLVLADASIVALDWQALGAAMLAGSGLLVFALAYNNFTRVRYPKRASEPAAVIPADHPPIDRQAITAEDLKLALEEMEAFFDVTPEDLEQLIHASERHAKRRSITEVLSGRG				NA	NA	NA	NA	NA
D1-35_04071	1107	menB_2		1,4-dihydroxy-2-naphthoyl-CoA synthase	ATGACAGTTCAGGTTTCATCCCAAGCTGCGGGCAGCATCGAAACCGCGCCCTACGAGGTGTTGGTCGACGTTCGCAACCACATCGGCCACCTGACCCTGAACCGCCCCGCCGGCCTGAATGCCCTGACCCTGGGCATGGTGCGCAGCTTGCAGCAGCAACTCGATAGCTGGGCCACCGATTCGCAGATCCGCGCCGTTGTCTTGCGCGGTGCCGGCGACAAGGCGTTTTGTGCGGGCGGCGATATCCGCTCGCTGTACGACAGCCACAAGCAGGGCGACACCCTGCACGAAGACTTCTTCGTCGAGGAATATGCACTCGACCTGACCATCCACCATTACCGCAAACCGATCCTCGCCTTGATGGACGGCTTCGTGCTGGGCGGCGGCATGGGTCTGGTGCAAGGCGCCGATCTGCGGGTGGTGACCGAGCGTAGCCGACTGGGCATGCCCGAGGTCGGCATTGGCTATTTCCCGGATGTCGGCGGCAGCTATTTCCTGCCGCGCATTCCCGGTGAACTGGGTATCTACCTGGGCGTCAGCGGGGTGCAGATCCGCGCTGCCGACGCGCTGTACTGCGGGCTGGCCGACTGGTATCTCGACAGCCAGAAAATCACCCAGCTCGATGAACGTCTCGACCGCCTGGACTGGCGCGATTCACCGCTCAAGGACCTGCAAAGCCTGCTGGCGAAAATGGCGGTCCAACAGTTGCCTGCCCCGCCCCTGGCCGACTTGCGGCCGGTGATCGATCATTTCTTCGCCCTGCCGGATGTACCAAGCATGGTCGAGCAGTTGCGCCAGGTCACGGTCGCCAACAGCCACGAATGGGCGCTGAAGACCGCCGAGCTGCTGGAAACCCGCTCACCCCTGGCGATGGCGGTGACCCTCGAAATGCTGCGACGCGGCCGGCACCTGAGCCTGGAAGACTGTTTTGCCCTGGAGCTGCACCTGGACCGGCAATGGTTCACGCGCGGCGACCTGATCGAAGGCGTACGTGCCCTGCTGATCGATAAAGACAAGAACCCACGCTGGAACCCACCGACCCTGGAGGCGCTGGACGCCGACCATGTGGCGAGTTTTTTCGACGGCTTCGACTACCACGGGAACTGA	MTVQVSSQAAGSIETAPYEVLVDVRNHIGHLTLNRPAGLNALTLGMVRSLQQQLDSWATDSQIRAVVLRGAGDKAFCAGGDIRSLYDSHKQGDTLHEDFFVEEYALDLTIHHYRKPILALMDGFVLGGGMGLVQGADLRVVTERSRLGMPEVGIGYFPDVGGSYFLPRIPGELGIYLGVSGVQIRAADALYCGLADWYLDSQKITQLDERLDRLDWRDSPLKDLQSLLAKMAVQQLPAPPLADLRPVIDHFFALPDVPSMVEQLRQVTVANSHEWALKTAELLETRSPLAMAVTLEMLRRGRHLSLEDCFALELHLDRQWFTRGDLIEGVRALLIDKDKNPRWNPPTLEALDADHVASFFDGFDYHGN	PGPT0001860_827	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
D1-35_04072	1152	mmgC_3	COG1960	Acyl-CoA dehydrogenase	ATGCACGACCTTGAGCTGACCGAGGAACAAGTGATGATCCGCGACATGGCCCGTGATTTCGCCCGCGGTGAAATCGCGCCCCACGCCCAGGCCTGGGAAAAAGCCGGCTGGATCGACGATGGGCTGGTGGCAAAAATGGGCGAGCTGGGCCTGCTGGGCATGGTGGTGCCCGAGGAATGGGGCGGTACCTATGTCGACTACGTGGCCTATGCCCTGGCGGTGGAGGAAATCTCGGCAGGTGACGGTGCTACTGGAGCACTGATGAGCATCCACAACTCCGTAGGTTGCGGGCCGGTGCTGAATTTCGGCAGCGATGAGCAGAAACAGACCTGGCTGGCGGATCTCGCCAGCGGCCAGGCCATCGGCTGCTTCTGCCTGACCGAACCACAGGCCGGCTCCGAGGCGCACAACCTGCGTACGCGGGCGGAACTGAAAGATGGTCAATGGGTAATCAACGGCGCGAAGCAGTTCGTCAGCAATGGCAAGCGCGCCAAGCTGGCGATCGTGTTTGCCGTGACGGATGCGGACCTTGGCAAAAAAGGCATTTCGGCGTTCCTGGTGCCCACCGACACGCCCGGTTTCATCGTTGACCGCACCGAACACAAGATGGGCATTCGTGCCTCGGACACCTGTGCCGTCACGCTGAGCAACTGCACCATTCCTGAAGCCAACCTGCTGGGCGCACGGGGCAAGGGCCTGGCCATCGCCCTGTCCAACCTCGAAGGCGGGCGCATCGGCATCGCCGCCCAGGCCCTGGGCATCGCCCGTGCGGCATTCGAAGCGGCCCTGGCCTATTCCCGGGATCGGGTGCAGTTCGACAAACCGATCATCGAACACCAGAGCATCGCCAATCTGCTGGCCGACATGCACACCCGCCTGAACGCCGCTCGCCTGCTGATCCTGCATGCCGCGCGGCTGCGCAGCGCCGGCAAGCCATGCCTGTCGGAAGCATCGCAAGCCAAGCTGTTCGCCTCGGAAATGGCCGAGAAGGTCTGCTCCTCGGCGATTCAGATCCATGGCGGCTATGGCTATCTTGAGGATTACCCGGTGGAGCGCTATTACCGCGACGCGCGGATCACCCAGATCTACGAAGGGTCGAGCGAGATTCAGCGGATGGTGATTGCTCGGGAGCTCAGGCACTACCTGGTGTAA	MHDLELTEEQVMIRDMARDFARGEIAPHAQAWEKAGWIDDGLVAKMGELGLLGMVVPEEWGGTYVDYVAYALAVEEISAGDGATGALMSIHNSVGCGPVLNFGSDEQKQTWLADLASGQAIGCFCLTEPQAGSEAHNLRTRAELKDGQWVINGAKQFVSNGKRAKLAIVFAVTDADLGKKGISAFLVPTDTPGFIVDRTEHKMGIRASDTCAVTLSNCTIPEANLLGARGKGLAIALSNLEGGRIGIAAQALGIARAAFEAALAYSRDRVQFDKPIIEHQSIANLLADMHTRLNAARLLILHAARLRSAGKPCLSEASQAKLFASEMAEKVCSSAIQIHGGYGYLEDYPVERYYRDARITQIYEGSSEIQRMVIARELRHYLV	PGPT0002285_885	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
D1-35_04073	774	echA8	COG1024	putative enoyl-CoA hydratase echA8	ATGAGCTACGAAACGATTTTATTGGAGATCAAGGACCGTGTTGGCCTGATCACTCTCAACCGTCCCCAGGCGCTGAACGCCCTGAATGCGCAGATCGTCAGCGAGCTGAACCAGGCACTGGATCGCCTGGAGGCGGATCCGAAGATCGGCTGCATCGTCCTGACCGGCTCGAAAAAAGCCTTTGCCGCCGGCGCCGATATCAAGGAGATGGCCGAACTGACCTATCCGCAGATCTACCTGGACGATCTGTTCAGCGACAGCGACCGGGTTGCCAATCGCCGCAAGCCGATCATCGCGGCGGTGAACGGTTTTGCCTTGGGCGGCGGCTGCGAACTGGCCCTGATGTGCGACTTCATCCTGGCCGGTGACAACGCCAGGTTCGGCCAGCCGGAAATCAATCTCGGCGTGCTGCCGGGCATGGGCGGCACCCAACGCCTGACCCGTGCGGTGGGCAAGGCCAAGGCCATGGAAATGTGCCTGACCGGACGTTTCATCGATGCGGTGGAAGCCGAGCGTTGCGGCATCGTGGCGCGCATCGTTCCGGCTGACGAGTTGCTGGACGAAGCCCTCAAAACCGCGGCCTTGATCGCCTCCAAATCGGTGCCCATCAGCATGATGATCAAGGAGAGCGTCAACCGAGCCTTTGAAGTCAGCCTGTCCGAGGGTGTGCGTTTTGAACGCCGGGTATTCCACGCGGCGTTCGCCACGCTGGATCAGAAAGAAGGCATGGCGGCGTTCGTGGCCAAACGCGCGGCGGAGTTTCAAGACAAGTAA	MSYETILLEIKDRVGLITLNRPQALNALNAQIVSELNQALDRLEADPKIGCIVLTGSKKAFAAGADIKEMAELTYPQIYLDDLFSDSDRVANRRKPIIAAVNGFALGGGCELALMCDFILAGDNARFGQPEINLGVLPGMGGTQRLTRAVGKAKAMEMCLTGRFIDAVEAERCGIVARIVPADELLDEALKTAALIASKSVPISMMIKESVNRAFEVSLSEGVRFERRVFHAAFATLDQKEGMAAFVAKRAAEFQDK	PGPT0001860_5800	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
D1-35_04074	1128	mmgC_4	COG1960	Acyl-CoA dehydrogenase	ATGCTTGCGACTGAAGAACAGACCCAGATCCGCGACATGGCCCGGCAATTCGCCCAGGAGCGCCTGAAGCCGTTCGCCGCCGAATGGGACCGTGAGCACCGCTTCCCCAAGGAGGCCATCGCTGAAATGGCCGAACTGGGCTTTTTCGGCATGCTGGTGCCGGAGCAGTGGGGCGGCTGTGACACCGGTTACCTGGCCTATGCGATGACCCTGGAGGAAATCGCTGCCGGCGACGGTGCCTGCTCCACCATCATGAGCGTGCACAACTCGGTGGGCTGCGTGCCGATCCTCAAGTTCGGCACCGACGAGCAAAAGGCCCGTTTCCTCACGCCGCTGGCCAGTGGCGCGATGCTCGGCGCTTTTGCCCTGACCGAGCCCCAGGCTGGCTCCGACGCCAGCAGCCTGAAGATGCGGGCGCGGCTGGAGGGCGATCATTACGTGCTCAACGGGTGCAAACAGTTCATCACGTCCGGGCAGAACGCCGGGGTGGTGATCGTGTTTGCCGTCACCGATCCGAGCGCCGGCAAGCGTGGCATCAGTGCGTTCATCGTGCCCACCGATTCGCCGGGCTACAGCGTCGCGCGGGTCGAGGACAAACTCGGCCAGCATGCTTCCGATACCTGCCAGATCCTTTTCGAGGATGTGAAGGTGCCGGTGGCCAATCGTCTCGGTGAGGAGGGTGACGGCTACAGGATCGCCCTGGCGAACCTCGAAGGCGGGCGAGTCGGCATCGCGGCGCAGTCGGTGGGCATGGCCCGCGCGGCGTTCGAAGCCGCTCGCGACTATGCCCGTGAACGGCAGAGCTTCGGCAAGCCGATCATCGAGCATCAGGCCGTGGCGTTCCGCCTGGCCGACATGGCGACCCAGATCGCCGTGGCGCGGCAGATGGTGCACTACGCCGCCGCGCTGCGCGATGCCGGCCAGCCGGCGCTGGTAGAAGCGTCCATGGCCAAGCTGTTCGCCTCGGAAATGGCCGAGAAGGTCTGTTCCATGGCCTTGCAAACCCTCGGTGGCTACGGTTACCTCAACGATTTCCCGCTGGAGCGCATCTACCGCGACGTGCGGGTCTGTCAGATCTACGAAGGCACCAGCGACATTCAGCGCATGGTCATTTCGCGCAACCTTTGA	MLATEEQTQIRDMARQFAQERLKPFAAEWDREHRFPKEAIAEMAELGFFGMLVPEQWGGCDTGYLAYAMTLEEIAAGDGACSTIMSVHNSVGCVPILKFGTDEQKARFLTPLASGAMLGAFALTEPQAGSDASSLKMRARLEGDHYVLNGCKQFITSGQNAGVVIVFAVTDPSAGKRGISAFIVPTDSPGYSVARVEDKLGQHASDTCQILFEDVKVPVANRLGEEGDGYRIALANLEGGRVGIAAQSVGMARAAFEAARDYARERQSFGKPIIEHQAVAFRLADMATQIAVARQMVHYAAALRDAGQPALVEASMAKLFASEMAEKVCSMALQTLGGYGYLNDFPLERIYRDVRVCQIYEGTSDIQRMVISRNL	PGPT0002285_1171	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
D1-35_04075	1188	thlA_2	COG0183	Acetyl-CoA acetyltransferase	ATGTCCAACGATCCGATTGTCATTGTCAGCGCCGTCCGCACCCCGATGGGCGGCTTCCAGGGCGAACTGAAAAGCCTCAGCGCGCCGCAGCTGGGTTCCGCCGCCATCAAGGCCGCCGTGGAGCGGGCCGGCATTTCGCCACAGACGGTTGAAGAAGTGCTGTTCGGTTGCGTGCTTGCCGCAGGCCAGGGCCAGGCACCGGCACGCCAGGCGGCGCTGGGCGCCGGGCTCGACAAATCGACCCGCTGCACCACGCTCAACAAGATGTGCGGTTCAGGCATGGAAGCGGCAATCCTCGCCCACGACATGCTCGTCGCCGGCAGCGCCGAGGTGGTGATGGCTGGCGGAATGGAAAGCATGTCCAACGCGCCGTACCTGCTCGATCGTGCCCGCAGCGGCTTGCGCATGGGCCATGGCAAGGTGCTTGACCATATGTTCCTCGACGGCCTCGAAGACGCCTACGACAAGGGCCGCCTGATGGGCACTTTTGCCGAAGACTGCGCCGAGACCAACGGCTACAGCCGTGAAGCTCAGGATGCCTTCGCCATCGCGTCCACCACCCGTGCCCAGCAGGCGATCAAGGATGGCAGCTTTGACGCCGAGATCGTGCCGGTGCAGGTCATGGTCGGCAAGGAACAGGTCACCATCCGTCACGACGAGCAGCCGCCCAAGGCGCGGATCGACAAGATCGCCACGCTCAAGCCGGCGTTCCGCGACGGTGGTACGGTGACGGCGGCCAACGCCAGCTCGATTTCCGATGGCGCCGCCGCCCTGGTGCTGATGCGCCAGAGCCAGGCGCAGCAGCGCGGTCTGAAACCGCTGGCGGTGATTCACGGCCACGCCGCGTTCGCCGACGCCCCGGGCCTGTTTCCCACGGCACCGATTGGTGCGGTGAAAAAACTGATGAGCAAGACCGGCTGGTCGCTGGACGAGGTCGATCTGTTCGAAGTCAACGAAGCTTTCGCCGTGGTCGGCCTGGTGACCATGGACAAGCTGGAAATTCCCCACGACAAGGTCAACGTCCACGGCGGCGCCTGTGCCCTTGGCCACCCGATCGGCGCATCCGGCGCGCGAATCCTCGTGACGCTGCTCTCGGCCCTGCGCCAGAAAGGCCTCAAGCGCGGCGTCGCGGCGATCTGCATCGGCGGCGGCGAAGCCACCGCCATGGCCGTCGAATGCCTGTACTGA	MSNDPIVIVSAVRTPMGGFQGELKSLSAPQLGSAAIKAAVERAGISPQTVEEVLFGCVLAAGQGQAPARQAALGAGLDKSTRCTTLNKMCGSGMEAAILAHDMLVAGSAEVVMAGGMESMSNAPYLLDRARSGLRMGHGKVLDHMFLDGLEDAYDKGRLMGTFAEDCAETNGYSREAQDAFAIASTTRAQQAIKDGSFDAEIVPVQVMVGKEQVTIRHDEQPPKARIDKIATLKPAFRDGGTVTAANASSISDGAAALVLMRQSQAQQRGLKPLAVIHGHAAFADAPGLFPTAPIGAVKKLMSKTGWSLDEVDLFEVNEAFAVVGLVTMDKLEIPHDKVNVHGGACALGHPIGASGARILVTLLSALRQKGLKRGVAAICIGGGEATAMAVECLY	PGPT0008320_6858	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
D1-35_04076	762			putative oxidoreductase	ATGCAGATCGACAACAAGATTTTCCTCGTCAGCGGCGGTGCTTCCGGCCTCGGCGCGGCCACCGGCGAAATGCTCGTCAAGGCCGGCACCAAGGTGATGCTGGTCGACCTCAACGCCGATGCGGTGGCCGCCCAGGCGCAAAAGCTCGGTTGCCGGAGCGTGGTCGCCGACATCAGTAACGAAGCGGCCGCAGAAGCGGCAGTCAAGGCCACGGTGGATGCGTTCGGCGGCTTGAACGGTCTGGTCAATTGCGCCGGTATCGTGCGCGGCGAGAAGATCCTCGGCAAGAACGGCCCGCACGCACTCGAAAGCTTCAGCCAGGTGATCAACGTCAACCTGATCGGCAGCTTCAACCTGCTGCGCTTGGCTGCAGCGGCCATCGCCGAAACCGAGGCCAATGCCGACGGCGAACGCGGGGTGATCATCAATACCGCCTCGGTAGCAGCTTTCGACGGTCAGATCGGCCAGGCCGCCTACGCGGCGTCCAAGGGCGCGATTGCCAGCCTGACCCTGCCAGCCGCCCGTGAACTGGCGCGCTTCGGTATCCGCGTAATGACCATCGCGCCAGGGATCTTCGAAACCCCGATGATGGCCGGCATGACGCCGGAAGTACGTGACTCCCTGGCCGCCGGCGTGCCGTTCCCGCCGCGCCTGGGCAAACCCGCCGAGTACGCCGCGCTGGTCCGGCATATCATTGAAAACAGCATGCTCAACGGCGAGGTGATCCGTCTCGACGGCGCCTTGCGCATGGCCGCCAAATAG	MQIDNKIFLVSGGASGLGAATGEMLVKAGTKVMLVDLNADAVAAQAQKLGCRSVVADISNEAAAEAAVKATVDAFGGLNGLVNCAGIVRGEKILGKNGPHALESFSQVINVNLIGSFNLLRLAAAAIAETEANADGERGVIINTASVAAFDGQIGQAAYAASKGAIASLTLPAARELARFGIRVMTIAPGIFETPMMAGMTPEVRDSLAAGVPFPPRLGKPAEYAALVRHIIENSMLNGEVIRLDGALRMAAK	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
D1-35_04077	1665	acsA_2	COG0365	Acetyl-coenzyme A synthetase	ATGCGCGATTATTCGTCCGCCACGTCGCAGTTCGATTACCTGCACACCGCCAATGCCGCTTTGCACGGTTCGCTCGAGGCGCTCAACGCCTGCGTGGAATGTTGCGACCGGCATGCCTTGCCGGGGCGCATTGCCTTGTTCTGGGAGGGGCGTGACGGCAGCGATGCGACGTGGACTTACCGTGGCCTGCAGGACAACGCGGCGCGTTTCGCCAACTTCCTGCGCGCCCAAGGTGTTGGCAAGGGTGACAAGGTCGCCGGCCTGCTGCCGCGCAATGCCGAACTGCTGATCGTGGTGCTCGCCACCTGGCGTATCGGCGCGGTCTACCAGCCCCTGTTCACCGCATTCGGACCCAAGGCCATCGAGCACCGCCTCGGCAGTTCCGGCGCGCGTGTGGTGGTCACCGACGCCAACAACCGGCCCAAGCTCAACGAAGTGCTCGGGTGCCCCACCATCGTTACGGTCGGCGGGGCGAAGGGCCAGGGCATCGTCCGCGGCGACTACAGTTTCTGGGCCGAACTGGCCAACCATTCCGACCAGTGCGAACCGCTGATGCTGACCGGCGAAGATCCGTTCCTGCTGATGTTCACCTCAGGCACCACCGGGCCGGCCAAGGCACTGTCGGTTCCGCTCAAGGCCATCGTCGCATTCCAGAGCTACATGCGTGACGCCGTGGACTTGCGCCCCGAAGACGCGTTCTGGAACGTCGCTGACCCGGGCTGGGCCTACGGCATCTATTTCGGCGTGACCGGGCCTCTGGCGCTTGGGCATCCGATCACTTTCTACGATGGCCCCTTCACGTTGGAAAGCACCTGCCGGGTGATCAACAAATACGGCATCAGCAACCTGGCGGGCTCACCAACGGCCTACCGTTTGCTGATCGCTGGCGGCGAGCAGTTCGCCCGCTCGATCCAGGGCAAGCTGCGCATCGTCAGCAGCGCCGGCGAGCCGCTGAACCCGGAAGTGATCCGCTGGTTTGCCGAGAACCTGAACGTGGTGATCCATGACCATTACGGCCAGACCGAGCTGGGCATGGTGCTGTGCAACCACCACGGCCTCGACCACCCGGTGCATTTGGGCGCGGCCGGTTTTGCCTCGCCGGGCCACCGCATCGTGGTGCTGGATGAAAATCAACGGGAGTTGGGGGTAGGGCAGCCAGGCATTCTTGCCGTCGATCGCAGCCAGTCGCCGATGTGCTGGTTCGCCGGTTACGAAGGCGGGCCGACCAAGGCGTTCGTCGGCGATTATTACTTGAGTGGCGATACCGTCGAATCCAACCCCGACGGCAGCATCAGCTTCGTCGGCCGCAGCGATGACGTGATCACCACGTCCGGCTATCGCGTTGGCCCGTTCGACGTGGAAAGCGCGCTGATCGAGCACCCGGCCGTGGTGGAAGCCGCGGTCATCGGCAAACCCGACCCTGAGCGCACCGAGCTGGTGAAAGCTTTTGTGGTGCTCAGCGCTCAGTACCGCGCAGCGCCGGAGCTGGCCGAAGAATTGCGCCAGCATGTGCGCAAGCGCCTGGCGGCCCATGCGTACCCCCGTGAAATCGAATTTGTCAGCGACTTGCCGAAGACCCCCAGCGGTAAGTTGCAGCGCTTTATCTTGCGCAACCAGGAGATCGCCAAGGCTCAAGAGGCCGTGGCGCAGAACGTTTCAGCTTGA	MRDYSSATSQFDYLHTANAALHGSLEALNACVECCDRHALPGRIALFWEGRDGSDATWTYRGLQDNAARFANFLRAQGVGKGDKVAGLLPRNAELLIVVLATWRIGAVYQPLFTAFGPKAIEHRLGSSGARVVVTDANNRPKLNEVLGCPTIVTVGGAKGQGIVRGDYSFWAELANHSDQCEPLMLTGEDPFLLMFTSGTTGPAKALSVPLKAIVAFQSYMRDAVDLRPEDAFWNVADPGWAYGIYFGVTGPLALGHPITFYDGPFTLESTCRVINKYGISNLAGSPTAYRLLIAGGEQFARSIQGKLRIVSSAGEPLNPEVIRWFAENLNVVIHDHYGQTELGMVLCNHHGLDHPVHLGAAGFASPGHRIVVLDENQRELGVGQPGILAVDRSQSPMCWFAGYEGGPTKAFVGDYYLSGDTVESNPDGSISFVGRSDDVITTSGYRVGPFDVESALIEHPAVVEAAVIGKPDPERTELVKAFVVLSAQYRAAPELAEELRQHVRKRLAAHAYPREIEFVSDLPKTPSGKLQRFILRNQEIAKAQEAVAQNVSA	PGPT0002265_6695	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
D1-35_04078	1017			putative HTH-type transcriptional regulator	ATGTCGGAAAAAGACACCATCTCCATCCAGCTGGTGCGCGAGGCGCTGCTGCAAAGCTGCGCCCCTGGAGCCGCTACCGAAGAAGTCCTGAGCAAGGTCGGTATCGACCCTGCATGGCTCGACGAGCCCCAGGCGCGCGTGCCGGCCCACGCCTATGCGCGACTCTGGCGCCTGCTGGCAAGGCGGCTGGATGACGAGTTCTTCGGCATGGACCCGCGCAAGCTCAAGTCCGGCAGCCTGGCCTTCCTGTGCCAGTGCGCCATGGCCCAGCCGACGTTGGCGACCGGGTTGACGGCGGGTCTGGGTTTCCTCTCCTTGATGCTTGAACACCTGCCGGCGCAGTGGGTTCGCCAGCAAAGCCTGGCGGAAATCGTCCTGCTCGAAGACGACCAGGACCCGCGCCGGGCCTTTACCTATTTCACCTATTGGATGATCGTCCATGGCGTGGCCTGCTGGCTCGCCGGGCGGCGCATTCCAATCCTGTCCGTCGAGTTGCGTTGCCCGGCGCCGGATTTCTGCGATGACTACCGCGTGATGTTCTCGCAGAACCTGCGCTTCGACCGGCCCCGTACGCGGATGATCTTCTCCGCCGACTGCCTGGACCTGCCCATCCGCCGCAGTCCGGAGGAGCTCAAGCGCTTTCTGGCCCAGGCCCCGGCGAACATCCTGGTCAAATACCGCGACCCGCAAAGCCTCGCCAGCCGTATCCGCCATGATCTGCGCCAGCTGCCCGCCGAGCAGTGGCCGGAAACCGAGGCCCTGGCGCAACAACTCTGCGTTTCCGCATCGACCCTGCGCCGCCGCCTGGCGGATGAGGGCCAGACTTACCAGGGCCTGAAAGACAGTGTGCGCAAGGAGCTGGCGATCGCCTGGCTGGCCGAACCCTCCATCAGCTTCGTCGAGATCGCCGCGCGGCTGGGTTTTGCCGATGCCAGCTCGTTCTACAAGGCGTTTCGCAAGTGGTCCGGGTCCAATCCCGGGCACTATCGCAGCCTGATTCTCAACGAGGCTGACTGA	MSEKDTISIQLVREALLQSCAPGAATEEVLSKVGIDPAWLDEPQARVPAHAYARLWRLLARRLDDEFFGMDPRKLKSGSLAFLCQCAMAQPTLATGLTAGLGFLSLMLEHLPAQWVRQQSLAEIVLLEDDQDPRRAFTYFTYWMIVHGVACWLAGRRIPILSVELRCPAPDFCDDYRVMFSQNLRFDRPRTRMIFSADCLDLPIRRSPEELKRFLAQAPANILVKYRDPQSLASRIRHDLRQLPAEQWPETEALAQQLCVSASTLRRRLADEGQTYQGLKDSVRKELAIAWLAEPSISFVEIAARLGFADASSFYKAFRKWSGSNPGHYRSLILNEAD				NA	NA	NA	NA	NA
D1-35_04079	1344	pssA	COG1502	CDP-diacylglycerol--serine O-phosphatidyltransferase	ATGCCGTCGCTTTTCAAACGCTCCCTGCTGCCCAAGCTGCGCAGCTTTCCACTCACCGCCGAGGCTGTGACCATCCTCGACGGCGCCGCCGAGTTTCGCCGTTGCCTGCTGGAGAAAATTGCCCAGGCGACCCAGCGCATCTACATCGTCGCGCTCTACTTGCAAGAGGACGAGGCCGGCCAGGAAATCCTTGATGCCTTGCATGCCGCCAAAGCCGCGCGCCCCGAGCTGGACATCGCCGTGGTGGTGGACTGGCTACGGGCCCAGCGCGGCCTGATCGGCGCCAAGAAGCAGCCGGGCAACTCGGCGTGGTACCAGCAGCAGACCCGCGTCCATGACAGCGAAGTGCCGATCTACGGCGTGCCGGTGCAGACTCGCGAGCTGTTCGGCGTGCTGCACTTGAAAGGATTTGTGATCGATGATTGTGTGCTCTACAGCGGCGCGAGCCTGAACAACGTCTACCTGCACAAGTTCGACAAATACCGCTACGACCGATATCACCTGCTACAGAACAGCGCGCTGGCCGACTCGATGCATCATCTGGTGCAACATGGCCTGATCGCATCCAGGGCGGTGCATCGCCTTGACCTGCCGAACCTGCCCAGCACCCGCAGCTTGCGCAAGGACATCGGCGACCTGCGCAGCCGCCTCAAATATGCAACCTATGACACTACCGCCGGCAGCCTCGATAAAGACGGCCTGTCGGTGAGCCCGCTGCTGGGCGTCGGCAAGAATAATCCGCTGAGCAAGGCGATCAGCGAGCTGATCGCCAGCAGCCGTCAGCAACTGACCATCTGCACGCCCTATTTCAACCTGCCGCTGGCCGTGACCCGGGACATCAACCGTGCCCTGGCGCGCGGGGTACGGATCGACATCATCGTCGGCGACAAGACCGCCAACGATTTTTATATCCCGCCCAGCGAGCCGTTCAAGATCATTGCGGCGTTGCCCTATCTGTACGAGATCAGCCTGCGCCGCTTCGCCAAGCGGCATCAGCGCTACATCGACAGCGGCCAGTTGAACCTGCGTTTGTGGCGCGACGGCGATAACACCTACCACCTCAAAGGCATGTGGGTCGACGAGCGCTACACCTTGCTCACCGGCAACAACCTCAACCCGCGGGCGTTTCGCCTGGATCTGGAAAACGCCCTGTTGCTCGACGATCCCAAAGGGGAGTTGCTGGGGCCGCGGCAGGCTGAGCTGGAGCGGATCTATCAACACACCCGGCGGATCGAACGCTACCTGGACCTGGAGACCCTGCCGGACTATCCCGCCGCGGTGAGCAAGTTCCTGAAACGGGTCAGCCGGGTGCGAATAGAGCGACTGCTTTACCGGATCCTGTGA	MPSLFKRSLLPKLRSFPLTAEAVTILDGAAEFRRCLLEKIAQATQRIYIVALYLQEDEAGQEILDALHAAKAARPELDIAVVVDWLRAQRGLIGAKKQPGNSAWYQQQTRVHDSEVPIYGVPVQTRELFGVLHLKGFVIDDCVLYSGASLNNVYLHKFDKYRYDRYHLLQNSALADSMHHLVQHGLIASRAVHRLDLPNLPSTRSLRKDIGDLRSRLKYATYDTTAGSLDKDGLSVSPLLGVGKNNPLSKAISELIASSRQQLTICTPYFNLPLAVTRDINRALARGVRIDIIVGDKTANDFYIPPSEPFKIIAALPYLYEISLRRFAKRHQRYIDSGQLNLRLWRDGDNTYHLKGMWVDERYTLLTGNNLNPRAFRLDLENALLLDDPKGELLGPRQAELERIYQHTRRIERYLDLETLPDYPAAVSKFLKRVSRVRIERLLYRIL	PGPT0007690_420	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PSS-RELATED_EXOPOLYSACCHARIDE_METABOLISM	CE-EPS-PSS-RELATED_EXOPOLYSACCHARIDE_BIOSYNTHESIS,PGPT0007690-pssA-K00998	NA	NA
D1-35_04080	567			hypothetical protein	ATGAACGAAATCACTAGCAATGAAACACGCGACATCATCCTCGATGTCGCCGAAAAGTTGATCTACAAAAGTGGCATCGCCGCCACCGGCATGGACCTTTTGGTGAAAACCGCCGGCGTCTCGAGGAAAAGCATCTACCGCTACTTCGCCAACAAGGAGGACCTGGTTGTCGCCGCCCTCAAGCGCCGCGATGAACGCTGGATGCACTGGTTCTGCAGCGAAGTGGACAAGGCGCCGACGCCGCTCGCGCGGTTGCTGAACCTGTTTCCGGTGCTCAAGGGCTGGTTCGACAGCGAAGGTTTTCGCGGTTGCGCCTTCATCAACACCAGCGGCGAAACCGGCGACCCGCAGGACCCGGTCCGCCAGGTTGCAAAGATGCACAAACAGAAGCTGCTCGACTATGTAACCCGCCTGTGCAGCGATCAAGGCATCGAGCAACCGCAAGTGCTGGCGGGGAAGCTGCTTATCCTGATCGATGGGGCCATCACCGTTGCACTGGTCATGGGCGATCACAATGCAGCCGATCAGGCACAGCACGTTCTGAAAACCCTGCTGGCTATCGAATAA	MNEITSNETRDIILDVAEKLIYKSGIAATGMDLLVKTAGVSRKSIYRYFANKEDLVVAALKRRDERWMHWFCSEVDKAPTPLARLLNLFPVLKGWFDSEGFRGCAFINTSGETGDPQDPVRQVAKMHKQKLLDYVTRLCSDQGIEQPQVLAGKLLILIDGAITVALVMGDHNAADQAQHVLKTLLAIE				NA	NA	NA	NA	NA
D1-35_04081	480			hypothetical protein	ATGTCGTCCTCTGCTGAAGTTCGCCCGCCGCTGCCGCCGTTCACCCGTGAAACAGCGATCGAGAAAGTTCGCCTGGCCGAAGACGGCTGGAACTCTCGTGATCCGCAGAAGGTATCGTTGGCCTACACCCTCGACACCCAGTGGCGTAACCGCGCCGAGTTCGTCCATAGCCGGGAAGAAGCCAAGGCCTTCCTGGCCCGCAAATGGGCCAAGGAGCTGGACTACCGGCTGATCAAGGAACTCTGGGCGTTCACCGACAACCGCATCGCCGTGCGTTATGCCTATGAATGGCACGACGACTCAGGCAACTGGTTCCGCTCCTACGGCAACGAAAACTGGGAGTTCGACGAGAATGGCTTGATGTTCAATCGCTACGCCTGCATCAACGACCTGCCGATCAAGGAAAGCGAGCGTAAATTCCATTGGCCGCTGGGTCGTCGTCCGGATGATCATCCGGGGCTGTCCGAATTGGGGCTGTAA	MSSSAEVRPPLPPFTRETAIEKVRLAEDGWNSRDPQKVSLAYTLDTQWRNRAEFVHSREEAKAFLARKWAKELDYRLIKELWAFTDNRIAVRYAYEWHDDSGNWFRSYGNENWEFDENGLMFNRYACINDLPIKESERKFHWPLGRRPDDHPGLSELGL				NA	NA	NA	NA	NA
D1-35_04082	1071	ysdC	COG1363	Putative aminopeptidase YsdC	ATGCAACCCGATCCGTCCACCTTACCGCTGCTGGAAGAATTGCTGATGGCCCGTGGGCCCGGCGGGCAGGAGCATGAAGTGCGCGACATCTGCCTGCGGGAACTGCGGCCGCATTGCGACGAGACCCGGGTCGACCCGGCCGGTAATGTCATCGGCCTGATCAAGGGCACACACCCGAGCGGCGAGGCGAACCAGCCCATCCGGATCATGGCGCACCTGGACGAAATCGCCATGCTGGTCAAACGCATCGAGCCGGACGGCACATTGCGCGTGGTGGCCCTGGGCGGCGCCAATCCGATCAATTTCGGGGTGTGCCCAGTGGACATTCTCGGCGACCGGGATTTCATTCCCGGCGTACTGTCGTTCGGATCGATGCACAGCACCGGTGAAACCCATCAGGGCGCCGATGTGCTGTCGGGGAGCGTCAATTGGGGCGATGTCCATGTGATCACCCGGTGCTCCGGTGAGCAACTGCAAACGCACGGCGTGCGGCCCGGTACCCGGGTAGTGCTGAGTCAGCATTGGCGACGTCCGTTCCGGGTCGGCGATGCCATCGCGGCGCATTTCCTCGACGACCGCGCGCCGATGGTCGCGACATTGCAAGCCGCAAGGTTATTGGCTGAGCGCCGCGAAGAACTGGCAAACGACGTTTATCTCGTCTTCACCACGCAAGAGGAAGAGTCCAATGCCGGAGCGCTTTATGCCGCCAGCCATCTGCCGGGGGATGCCACGGTAGCGGTTGAGGTGGGCCCGATCATTTCCGAGTACGCTACCCGACTGAGCGTCGATCCGATCATCAACACTGGCGATAAAAACGGTTGCTACAACCGCGAGATCGTCGACCAGCTGTACCAGGCCGGCAAACGTCGCGGGTTGACGCCTCAGTTCGCGCTGCTGGTGGATTTTGCCAGTGACGCCAGCGCAATCATGAGCAGCGGCATGTCGGCCCAGGGTGGCTGCATCGCCATTCCGACTGAAAACACCCACGGTTACGAGCTGATTCTGGAAGGAAGTATCGAGGCCTGCGCGGTAACGTTGCTGGAATTCCTGCTGGATCGCGGCCACGACTGA	MQPDPSTLPLLEELLMARGPGGQEHEVRDICLRELRPHCDETRVDPAGNVIGLIKGTHPSGEANQPIRIMAHLDEIAMLVKRIEPDGTLRVVALGGANPINFGVCPVDILGDRDFIPGVLSFGSMHSTGETHQGADVLSGSVNWGDVHVITRCSGEQLQTHGVRPGTRVVLSQHWRRPFRVGDAIAAHFLDDRAPMVATLQAARLLAERREELANDVYLVFTTQEEESNAGALYAASHLPGDATVAVEVGPIISEYATRLSVDPIINTGDKNGCYNREIVDQLYQAGKRRGLTPQFALLVDFASDASAIMSSGMSAQGGCIAIPTENTHGYELILEGSIEACAVTLLEFLLDRGHD				NA	NA	NA	NA	NA
D1-35_04083	402			hypothetical protein	ATGACCGCGTCGATGCCGATCCGTCCCCCCTGCCCGCCCGGCGTCTGTGATTGCGGGCGTGATGCGTTGCTGCAAACGCCAGGCAGCGATTTGCGCATCCTTTGCCTGAATCGCCAGGAAGAAAAACGCCTGCTTGAGCGACTGGAAAACATCCAGAGCCTGGACGAGCTTGAACGCTTGCAGCAGCGGCTGTATGAGAACCTCGGCGTACGGGTGACCATCGAGCCGGGTTACAACGAAGTGCGGACCATGCGCGGCATTGCTATCGAATTCCAGGAGCAGCCAGGCCTGTGCCGCAAGATCCGCCAGTCGATTCCGGCGGCGATCCGTCGGGGGTTGGAGAAACGCCCTGAAATCGCCTGGCGGCTGCTGGATGCCCACGACTTGTTTCGCGACGGCTGA	MTASMPIRPPCPPGVCDCGRDALLQTPGSDLRILCLNRQEEKRLLERLENIQSLDELERLQQRLYENLGVRVTIEPGYNEVRTMRGIAIEFQEQPGLCRKIRQSIPAAIRRGLEKRPEIAWRLLDAHDLFRDG				NA	NA	NA	NA	NA
D1-35_04084	2424	fcuA_2		Ferrichrome receptor FcuA	ATGCCCGCAGCAGTATCTTTACGTTTTCGTCCGGCCCTTGCTGGCTGGCGCCCGTTGCTGAACCTGAGCCTCATGCTGAGCCTGAGCTCCGGTGCGTTTTTCATCTCGCCCAGCCAGGCCGAGGAAAGCGCCCGGCGCAGCTATCAGGTTCCCGCCGGCAGCCTCGGCGCCGCGCTGACCCGGTTCGCCGGCCAGGCTGGCGTCAACCTCTCGGTGGACCCGGCCCTGGTGAGCGGTCGCAACAGTGCCGGGCTCGCTGGCGAGTTTGGCGTGGAGGAGGGATTTGCCCGGCTGCTGCAGGGTTCTGGCCTGCAGCTGCAGCCAGTAGGGGAACAGGCCTACATGCTCACTCCTGCGGCGCAAGGCAGCAGCCTGCAACTGGCGCCGACCTCGATTTTCGGCGCCACCGGCGCGACGCAAGGCGATCCCTACGCAGGGGGACAGGTGGCACGGCGTGGATCCCAGGGCTTGCTCGGCTCCCGTGACTTCATGGAAACGCCGTTCAGCATGACCACCTACACGGGGGAGACGGTCAAGAATCTGCAAGCCCGGACCCTCGGTGACCTGGTCGCCAGCGACCCCTCGGTGCGCGCCACCAACCCGGCGGGCGGGCGTTATGAGCAATTCACCATTCGTGGCTTGAGCCTGTTCAACAGTGACGTGGCCTACAACGGCCTTTATGGCGTGCTGCCGACTTATACAATCGACATGGAGATGGCCGATCGCGTCGACATCCTCAAGGGCCCGACCCAACTGATCAACGGGATCTCGCCACGAGGCAGCGTCGGCGGCGGGATCAACGTAGTGCCCAAGCGGGCCACCGACAAGCCGATCACGTCCCTGACCGGCAGCTATGCCTCCGACAGCCAGCCCGGCGCTGCCGTGGATGTCGGCCGCCGTTTTGGCGAGGACAACCAGTTTGGCGTGCGCTTCAACGGCGTCAAGCAGGCCGGCGATACCGACTGGGATCATCAGCGCGTGGATCGCCAGATGGCCGTGCTGGGCCTGGACTTTCGTGGCGAGCGCCTGCGTCTTTCTACCGATATAGGCCACACCGAGCGTGACACCGACGCACCGCAGGAGCGCGTCCAGGTCGGCGCCGCCGCGCCGGTACCGCATGCCAGCGATGTGCGACGCAATTACGCGCAGCATTGGAGCAAGGCGCGTACCGAGGACACCTTCGGCGCTGTGAACGGCGAATTCGACGTCAGCGATTCGGTCGTGCTCTACGGCGGTGTCGGGGCGCGTAAAAGCAACCACGACTTTCTGCGGCACAACGTGTCGGTCACTAATGCGGCCGGCGATTTCACCGTGTCGCCCCGCGACTTTACCCGGGACGAGAATGTGCGGACGGCCAATGCCGGGGTGCGCAACTGGTTCCAGACCGGCCCGGTGAGCCACGAGCTGAACCTGGCGGCCAGTTATTTCTACATGGATTTCGAGAACGGCGGCGCCCGTTATGCCAACGGGCGCAGCAACCTCTATGACCCGGTGCCGACACCGACGCCGAACACCCCCACACGGCCGGACCCGAAGGTCTACACCGAGAACCACTTCAGCGGCGTGGCGCTGTCCGACACCCTGGGGTTCTTCGATGACCGCCTGCTGCTGACCCTGGGCGCCCGCTGGCAGCGGGTGGAAGTTGACGACTGGTCCGATGGGATCAAGGGTCCCACCGCCTATGACGAGGAAAAAGTCTCGCCGTCGGGCGGCATCCTGTTCAAGGCCACCGACAAGCTGTCCCTCTATGCCAACTATATGGAAGGCTTGAGCCAGGGCAAGATCGCGCCGACGTCCTCGGACAACAGCGATGAAATCTTCCCGCCGTTCATCAGCCGCCAGGTCGAGGTCGGCGCCAAGTACGATGCCGGCGCGCTGGCCGTTACCGCCGCCGTGTTCCGGATCAAGCAACCGGCCTATGCCACCGACGCCACGACCAACGTCTTCGGGCCGAACGGCAAGCGCGAGAACACCGGCGCGGAAGTCAGCGTATTCGGTGAACCGGTCAAGGGATTGCGCCTGCTCGGTGGCGTGATGTACATCGACAGCGAACTGACCGACACCACCAACCCTGCGTTTGACGGCAACCGCGCGCCGGCGACACCGGAGTACAACGTCAACCTGGGCGCCGAATGGGATGTGCCGACTGTGCAGGGGTTGACCCTGACCAGCCGCGGCATCTATTCCAGCTCGCAGTACCTGGACCCGTCCAATACCAAGGAAATCGATTCCTGGGAGCGGTTCGACGTTGGTGCGCGGTATGCCTTCAAGGTCGATGACAAGCACATCACCTTGCGCGCCAATATCGAGAACGTGGCGGACAAGCGCTATTGGAGTTCGGCCGGGGCTTCGGACGACAGCGAGCCGGGGCTGACCCTGGCGACGCCGCGCACTTACCTGGTGTCGGCGACTGTCGATTTCTGA	MPAAVSLRFRPALAGWRPLLNLSLMLSLSSGAFFISPSQAEESARRSYQVPAGSLGAALTRFAGQAGVNLSVDPALVSGRNSAGLAGEFGVEEGFARLLQGSGLQLQPVGEQAYMLTPAAQGSSLQLAPTSIFGATGATQGDPYAGGQVARRGSQGLLGSRDFMETPFSMTTYTGETVKNLQARTLGDLVASDPSVRATNPAGGRYEQFTIRGLSLFNSDVAYNGLYGVLPTYTIDMEMADRVDILKGPTQLINGISPRGSVGGGINVVPKRATDKPITSLTGSYASDSQPGAAVDVGRRFGEDNQFGVRFNGVKQAGDTDWDHQRVDRQMAVLGLDFRGERLRLSTDIGHTERDTDAPQERVQVGAAAPVPHASDVRRNYAQHWSKARTEDTFGAVNGEFDVSDSVVLYGGVGARKSNHDFLRHNVSVTNAAGDFTVSPRDFTRDENVRTANAGVRNWFQTGPVSHELNLAASYFYMDFENGGARYANGRSNLYDPVPTPTPNTPTRPDPKVYTENHFSGVALSDTLGFFDDRLLLTLGARWQRVEVDDWSDGIKGPTAYDEEKVSPSGGILFKATDKLSLYANYMEGLSQGKIAPTSSDNSDEIFPPFISRQVEVGAKYDAGALAVTAAVFRIKQPAYATDATTNVFGPNGKRENTGAEVSVFGEPVKGLRLLGGVMYIDSELTDTTNPAFDGNRAPATPEYNVNLGAEWDVPTVQGLTLTSRGIYSSSQYLDPSNTKEIDSWERFDVGARYAFKVDDKHITLRANIENVADKRYWSSAGASDDSEPGLTLATPRTYLVSATVDF	PGPT0003790_9386	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
D1-35_04085	942	fecR_6	COG3712	Protein FecR	ATGCGCCAGGCTCCGTCGGCCGAAGCCCGTGAAGTCGCCCGGGCGGCGGCCCGCTGGCTGGCGCTGATCGAGTCAGGCGCCGATGAATTCGATCATGGCGCGCTGCAGCGCTGGCGCGAAAGCAAGGCCGAGCATGAAGCGGCCTGGCAAAAAGCCCAGCGCCTGCGCCAGCGGTTTGCCGAGGTGCCGTCATCGTTGGGCCTGGCCACCCTGGATCGTCCCGCACTGTCCCGTCGCAGCGTACTCAAGCGCGCGTTGGGTGTCGCCGCGCTGGTACCGACCGCGTGGTTGCTGGGACGTGAACTGCCGCTGGACGCCTGGCGCGCCGACCTGCACACCGCCACCGGGGAACGCCGTCGGTGGACGCTGGCCGGTGGCAACGTTTTGCAGTTGAACACCGATAGCGCTGTCGACCTTGACCTTGAGGCGCGCCGCCTGATGCTGCTGCGCGGCGAGATCGCGCTGAAAGTCGTCGACGTCCCCTTGGCGGTCCAGCTGCCCTACGGTGAGGTGAGCGTCGGCCGAGGCGAAGTCTGTATTCGGCTGGATCAACGCAACTGCCGGGTTTCGGTAGTCAGCGGCGCGGTGCAACTGCAACCTGCGCAAGGGCCAGCGCTGAGGCTCGAAGAAGGCCAACAGGTCGACCTGAGTGCAACTGGCGCGGCTGCGACCAGCACCTTCGACGCCGGGCAGATGGGCTGGCGTGAAGGCGTGCTCGTGGCGCAGAACCAGCCGCTGGGGGATTTCCTTCGGGAGCTGGACCGCTATCGCCCCGGCGTGTTGCGCTGGGACGAAGGGCTGGAAGCGCTCCGCGTCACCGGCAGCTTCCGCCTGGAAAACACCGACCGGATCCTCGCGCTGCTCTCGGCCAGCCTGCCGCTTGAGGTGCACATGCGTACCCGCTACTGGGTCACCTTGACGCCGCGAAAAAATATCGCCTGA	MRQAPSAEAREVARAAARWLALIESGADEFDHGALQRWRESKAEHEAAWQKAQRLRQRFAEVPSSLGLATLDRPALSRRSVLKRALGVAALVPTAWLLGRELPLDAWRADLHTATGERRRWTLAGGNVLQLNTDSAVDLDLEARRLMLLRGEIALKVVDVPLAVQLPYGEVSVGRGEVCIRLDQRNCRVSVVSGAVQLQPAQGPALRLEEGQQVDLSATGAAATSTFDAGQMGWREGVLVAQNQPLGDFLRELDRYRPGVLRWDEGLEALRVTGSFRLENTDRILALLSASLPLEVHMRTRYWVTLTPRKNIA	PGPT0003910_5842	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003910-prhR|fecR-K07165	NA	NA
D1-35_04086	510	fecI_8	COG1595	putative RNA polymerase sigma factor FecI	ATGCTTGATGCAGCTAAGCCGGCGGAGCACGCCCTCGACGCGTTATACCGTGATCATGGCGGTTGGCTGGAAGGCTGGCTGCGACGGCGCATGGGCAATGCCTGGGATGCCGCCGACCTGCGCCAGGATACGTTCCTGCGCGTACTGTCCAGCGCCCAGTCGCTGGCCGACCTGCATGAACCGCGCGCCTACCTGTTGACGGTGGGCAAGCGCTTGTTGAGCAATTTCTACACGCGCCGCCATCTGGAACAGGCTTATCTCGACGCGTTGGCCAGCCTGCCCGCCGAATGCGTGCCGTCTCCAGAGCAGCGGTGGCTGCTGCTGGAAACCCTGCAGGCCCTGGACGAGTTGCTCGATGGCCTGCCGCCGGTGGTGCGTCGGGCGTTCCTGTGGAGCCAGCTCGAAGGCCTCGGTTATCGCGAGATCGCCGAGCGCCTGCAAGTCTCCGAACGCACCGTGAAGCGTTATATGGCCCAGGCCTACGAACATTGCCTGTTGGTGGACTTCTGA	MLDAAKPAEHALDALYRDHGGWLEGWLRRRMGNAWDAADLRQDTFLRVLSSAQSLADLHEPRAYLLTVGKRLLSNFYTRRHLEQAYLDALASLPAECVPSPEQRWLLLETLQALDELLDGLPPVVRRAFLWSQLEGLGYREIAERLQVSERTVKRYMAQAYEHCLLVDF	PGPT0003900_86	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003900-prhI|fecI-K23514	NA	NA
D1-35_04087	522			hypothetical protein	ATGAAAATGAAAACCTGTGCCATTGCCGCTTTTCTCCTGCTGGGCGCACCCCTTGCCCAAGCGCTGGAGACCACGCCGTTTGTCTACAGCACCGTGGCCGAGCAGCCGCAGAACGTCAACGACCGTGAAATCGCCGGGCTGTTCGACCGCTGGAACGCTGCGTTGAAGACCGGCAGCGCCGTCGCGGTCACCAGCCTGTACGCCCCGGATGCGATTCTGCAACCGACCGTCTCTAACAAGGTGCGCAGTACCCCGGCGCAGATCCAGGACTATTTCGTGCACTTCCTGGCGGCCAAGCCGGTCGGGGTGATCAACTACCGGGAAATCCGTCACCTGGGGCCTGACGCGGCGATGGACAGCGGAGTCTATACCTTTACGCTGACCCAGGCCGACGGTTCCAAGCGGGAAGTGCAGGCGCGCTACACCTTCCTTTACGAGCGACTCGACGGTCAGTGGAAAATCATCAACCATCACTCGTCGGCCATGCCGGAAGTACCGAAGACCCTGCAGGCCAGCCACTGA	MKMKTCAIAAFLLLGAPLAQALETTPFVYSTVAEQPQNVNDREIAGLFDRWNAALKTGSAVAVTSLYAPDAILQPTVSNKVRSTPAQIQDYFVHFLAAKPVGVINYREIRHLGPDAAMDSGVYTFTLTQADGSKREVQARYTFLYERLDGQWKIINHHSSAMPEVPKTLQASH				NA	NA	NA	NA	NA
D1-35_04088	1185			hypothetical protein	ATGCAAAGCCCACCCCATGACCCTGGCAGCGCCTTGGCGATCCGCACCCAGTACCGCCAGTCGCAAAGCCGGGCGGCGCGCCTGGGCCTGTTGTTGGGCACCGGGCACGAACTGACCCGCCTGCCGTTGGCGCAGATGCGCCAACGCGCGGTGGAACGTGCGTGCGCGTTCGTCGCCATGGATCACGGTCTGTTGCTGGAATGGACCGCTGACAGCCAGTTGCAGACCGTCGCCAGCCACGGCAGCGGCGAGCGCCTCGAGCTGCTCGCCGAGCTGGCCCAACCGCCCTCGCCCGCTTCGCAGTGGATGGATCGCCCCGGCACGCCGTTGCCGCAGATCCTGCGGATCCCTCTGCGCGGGTCCGACGGCGTTGCGTTCGGCGCGCTGCTATTGGGCAACAGCGTGCCCTTGGGCGCCCCTGACAATGAAGACATCGAATCGCTGCAATTGCTGGCCACGCTGTTGGCGGCGCACCTGGAGAACAGCCGCCTGCTGCAAACGCTCCAGGCCCGCGAGCGGACCATGTCCGAGCTGGTCCATCGCTTGTTCAGCGCCCAGGAGGACGAGCGCAAGCGCGTCGCCTATGACCTGCACGATGGCCTCGCGCAGAACCTCGCCGGCTTGCATCAACGCCTCCAGGGCTTCGCCGGTCGCTGCCCGCCTTTGCCGGCGGCGCTGGCCGATGAACTGCGGGGCATTCTCGAACTGGCCCAGGGCTGCGTCGGCGAAGGTCGGCAACTGATCGGCGGCCTGCGTCCGCATGTGCTCGATGATTTCGGCTTGTACAAAGCCGTCGACAAGGAGGCGGATCGTCTGCGTGACGCCGGGCTCCGGGTCGATTGGGTCGAGCACAGCATTGCGCGCCTGCCGGGTAATACCGAGATTGCGTTGTTTCGCATCGCCCAGGAAGGCATCAACAACATTCTCAAGCACGCCCAGGCCAATCAGGTTTCCCTCGGGCTGGCGGTGCGAGACGGCCAGGCTTGGCTGCGGGTCCAGGACGATGGCTGCGGCTTCGCCCTGGAACAACCCATCGAGACCAATGGCACCCGCCACCTCGGCCTGGCCGCCATGCAGGAGCGCGCGAGCCTGCTGGGTGGCCAGTTGAACTGTCGTAGTGCACCCGACCGCGGCACTCGACTGCTGGCCAGCGTGCCGTTGCCAGCCCACGGAGCACAGCCATGA	MQSPPHDPGSALAIRTQYRQSQSRAARLGLLLGTGHELTRLPLAQMRQRAVERACAFVAMDHGLLLEWTADSQLQTVASHGSGERLELLAELAQPPSPASQWMDRPGTPLPQILRIPLRGSDGVAFGALLLGNSVPLGAPDNEDIESLQLLATLLAAHLENSRLLQTLQARERTMSELVHRLFSAQEDERKRVAYDLHDGLAQNLAGLHQRLQGFAGRCPPLPAALADELRGILELAQGCVGEGRQLIGGLRPHVLDDFGLYKAVDKEADRLRDAGLRVDWVEHSIARLPGNTEIALFRIAQEGINNILKHAQANQVSLGLAVRDGQAWLRVQDDGCGFALEQPIETNGTRHLGLAAMQERASLLGGQLNCRSAPDRGTRLLASVPLPAHGAQP				NA	NA	NA	NA	NA
D1-35_04089	669	liaR	COG2197	Transcriptional regulatory protein LiaR	ATGAGTCGTCCCTTGCGCCTGCTGTTGGCCGATGACCACGAAGTGACCCGCACCGGGTTCATTTCCATGCTCGCCGGTACCGAAGGGTTCGAAGTCGTCGGCCAGGCCTGCGACGGCCAGGAAGCGCTCGACCTGTGCGAGCGGCTACAGCCGGACATCGCCATCCTCGATATCCGCATGCCCGTGCTCAACGGCCTCGGCGCGGCGCGCATCCTGCAACAACGCCAGCCGCAGATCAAAGTGATGATCTTCACCATGGACGACAGCCCCGACCACCTCGAAGCGGCCATCGGTGCGGGCGCCGTCGGCTATCTGCTCAAGGATGCCAGCCGCGAGGAAATGCTCCAGGCCCTCAGGCGGGTCGCCCAGGGAGAAGAGGCACTGAACAGTTCGGTCAGCGCCCGCCTGTTGCGCCGCATGGCCGAACGCAGCGCCAACGGTGCAACGCCCGTCCAGGCCCTGACCGCGCGCGAACGCCAGGTACTCGGGCTGGTGGCCGGTGGGTTCAGTAATCGCGAGATCGGCGAAAAGCTCGGCATCGCCCCCGGCACGGCCAAAGCGCATGTGGAGCGGGTCATCGGCAAGCTCGGCGCCGCCGACCGGACCCAGGCGGCGGTGCGCGGCGTTGCCCTGGGCCTGGTGGCGCAACCCAGCGGACAATGGCCATGA	MSRPLRLLLADDHEVTRTGFISMLAGTEGFEVVGQACDGQEALDLCERLQPDIAILDIRMPVLNGLGAARILQQRQPQIKVMIFTMDDSPDHLEAAIGAGAVGYLLKDASREEMLQALRRVAQGEEALNSSVSARLLRRMAERSANGATPVQALTARERQVLGLVAGGFSNREIGEKLGIAPGTAKAHVERVIGKLGAADRTQAAVRGVALGLVAQPSGQWP				NA	NA	NA	NA	NA
D1-35_04090	2313	rcsC_21		Sensor histidine kinase RcsC	ATGAGGTTTCTGGCCGCCCGGAGATGGGCCGACTTGCCGTTGCGGGGCAAGGCGCTGGTGGTGATCTCGCTGCCGTTGGTGGTCCTGCTGCTGTCGCTGGTGCTGATCTACATCACCGAACGCCAGACGGCCCGTGCCGAAGAGGATGTGCGCCGGGTGCTGCTGGTCCAGGGCGACATCCAGGCCGTGCACACCTTGCTGGCCGAGGCCGCGGCCAGCGTGCGCGGTTACCTGCTGACCCGGCGTGAAGATTTCCTGCCCGGCTACGAACAGGCCACCCCGAGGATCCAGGCTGCATTGCAACGCCTGGATCACAATATCCGTGACGCGAGGATGCGCGAGCACCTCAAGACCATTACCCCGCTGATTACCGAAAAGCTTGCCGGGTTGCAGGCGTTGCGCACCGGCAAGGCCGACGACACCGCGGCCATCACCGCGATCCTGATCGAAAACAAACAGGTGCTCGACGTACTGCGCGAGCAGATCAGCGCCATGCGCATCCGCGAGGATGCCCTGCTCGCCGACCGCAGCGCCGCCGCGTCGGCAACGCGTATGCGGCTGCTGTTCGCGACGTTGCTGGCGGCGGTGTGCGGGCTGTTCGGGGCCATCGTCGCGGTGCTGTTCCTGTCCAAGGGCATTGTCGCCCGGGTCCAGCAGGTGCAAGGCAACGCCCAGCGCCTGGCGCTGGGCCAGCCATTGTTGCCGCAACCGCCGGAGAAAGACGAAATCGGCCAGTTGGGCACTCGCCTGGTGGAAGCCGGGCAGTTGCTCGCCGAACGCGAGCGCGCCCTGCGCGATAACGAGGAACGCCTGCGGCTGATCATCGATGGCGTCAAGGACTACGGCATTTTCGCCCTCGACGCCAAGGGCCATGTGATCACCTGGAATGCCGGGGCCGAGCGGATCAAGGGCTATACCGAACAGGAGGTACTCGGCCGGCATTTCTCGCTGTTCTACCTGGCCGAAGAGTGCCCGGCCCACCCCGAAATGGCCCTGCGCGAGGCCACCCGCGACGGCCATTACATGGAAGAAGGCTGGCGTTGCCGCAAGGACGGCAGTCGCTTCTGGGCCAGCGTGGTCATCACCACTCAATACGACAGCACCGGCGCGCTGCGTGGTTTCTCCAAGATCACCCGCGACATCACCGACCGGCGCACCGCTGAAATCGCCCTGCGTACCGCCCGTGAGGAAGCGGAAAGCGCGAGCCGGGCCAAGAGCGAATTTCTTTCGCGCATGAGTCATGAGTTGCGCACGCCGCTGAACGCCATCCTCGGCTTCGCGCAATTGCTGGACATGGACTCGGTCGCCGGCCAGCGCCCGCAGGTCAGCCACATCCTGCGCGCCGGCCAGCATTTGCTCGCGTTGATCAACGAAGTGCTCGACATCGCCCGGATCGAAGCCGGCCGGCTGCCCCTGAACATCGAGCCAATTGCCCTGCCGACCGTGCTGCACGAAGCCTTGACGCTGGTGTCGCCGATGGCCGCGGATTCAGGAATTCATCTGGCCGCCCTGCCCGCGCTGCCCGAAGGCAGTGGCGTGCTTGCCGATCGCCAACGCTTGGTCCAGGTATTGCTCAACCTGCTCTCCAACGCCATCAAGTACAACCGGCCCGGCGGTGAGGTGCGCATCGAAGTGAACGTCGAGGGCCATCAGGTGGGCATTGCCGTCAGCGACACCGGGCACGGCATCGCCCCCGAACAGTTGGACCAGTTGTTCAAGCCGTTCGAACGCCTGGGCGCCGACCCGCAGGTCGAAGGCACAGGCCTGGGACTCTCCCTGAGCAAAAGCCTGCTCGAGATGATGCAGGGTAGCCTTCAGGTACTTAGCGAACCGGGACAAGGCTGCTGCTTCACCTTGCGCTTGCCCGCTGCCCAGGTGTCCGGCGCCCAGCTGCCGCCATTGGCGGCGTTGGAAACCACCCGCCCGCGCACCGAGTTCGACGGCAAGGTCCTGTGCATCGAAGACAACCTGTCGAGCCTCGCCTTGATCGAAACCCTGATGCAGCGTCGCCCGGGCATCCAGCTGCTATCGAGCATGCAAGGCCAGTTGGGCCTGGACCTGGCGCGCCAGCACGCGCCGCAGCTGATCCTGCTCGACGTGACATTGCCGGACCTGGAGGGGCTGGAAGTCCTGCGTCGGTTGCGCCAGTCTGCGGCGACCGCGTCCACGCCCGTGCTGATGATCACCGCGGATGCCAGCGACCTCACTCACCGCGCCCTGCGCGAGGCCGGCGCCACGGCGATCCTGACCAAGCCCATTCATATCCAGGCCTTCCTCGGCCACCTTGAACGTTATTTACCGGAGTCCGCATGA	MRFLAARRWADLPLRGKALVVISLPLVVLLLSLVLIYITERQTARAEEDVRRVLLVQGDIQAVHTLLAEAAASVRGYLLTRREDFLPGYEQATPRIQAALQRLDHNIRDARMREHLKTITPLITEKLAGLQALRTGKADDTAAITAILIENKQVLDVLREQISAMRIREDALLADRSAAASATRMRLLFATLLAAVCGLFGAIVAVLFLSKGIVARVQQVQGNAQRLALGQPLLPQPPEKDEIGQLGTRLVEAGQLLAERERALRDNEERLRLIIDGVKDYGIFALDAKGHVITWNAGAERIKGYTEQEVLGRHFSLFYLAEECPAHPEMALREATRDGHYMEEGWRCRKDGSRFWASVVITTQYDSTGALRGFSKITRDITDRRTAEIALRTAREEAESASRAKSEFLSRMSHELRTPLNAILGFAQLLDMDSVAGQRPQVSHILRAGQHLLALINEVLDIARIEAGRLPLNIEPIALPTVLHEALTLVSPMAADSGIHLAALPALPEGSGVLADRQRLVQVLLNLLSNAIKYNRPGGEVRIEVNVEGHQVGIAVSDTGHGIAPEQLDQLFKPFERLGADPQVEGTGLGLSLSKSLLEMMQGSLQVLSEPGQGCCFTLRLPAAQVSGAQLPPLAALETTRPRTEFDGKVLCIEDNLSSLALIETLMQRRPGIQLLSSMQGQLGLDLARQHAPQLILLDVTLPDLEGLEVLRRLRQSAATASTPVLMITADASDLTHRALREAGATAILTKPIHIQAFLGHLERYLPESA				NA	NA	NA	NA	NA
D1-35_04091	483	cheB_5		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGAATCGCGATCTGCGCATCCTGATTATCGACGATCAGCGCCCCAACCTTGAGTTGATGGAACAACTGCTGGCCCGTGAAGGGCTGCACAACGTGCTGAGCAGCACCGAGCCGTTGCGCACACTCGACCTGTTCAACAGTTTTGAGCCGGACCTGGTCATCCTCGACCTGCACATGCCGGCCTTCGACGGGTTTGCCGTGCTGGAGCAGCTCAACCGGCGCATCCCGGCCAATGACTACCTGCCGATCCTGGTGCTGACCGCCGACGCCACGCGCGACACCCGCCTGCGGGCCCTGGCGTTAGGCGCCCGGGACTTCATCAGCAAGCCCCTCGACGCCCTGGAAACCATGCTGCGGGTCTGGAATCTGCTGGAAACCCGAGCCCTGTACAAATCGCTGCGTACATTGATTCCCGCCGAGCAGATCGAATTGTTGCGCCAGCATCGAGGGACGGCTGACCAGCGCATCGAGCCGTCAGCGTAG	MNRDLRILIIDDQRPNLELMEQLLAREGLHNVLSSTEPLRTLDLFNSFEPDLVILDLHMPAFDGFAVLEQLNRRIPANDYLPILVLTADATRDTRLRALALGARDFISKPLDALETMLRVWNLLETRALYKSLRTLIPAEQIELLRQHRGTADQRIEPSA	PGPT0015900_1812	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-CELL_FATE_CONTROL	PUTATIVE-CELL_FATE_CONTROL-1,PGPT0015900-pleD-K02488
D1-35_04092	441	IMPDH_2		Inosine-5'-monophosphate dehydrogenase	ATGAAAACCGCCGCTCAACTGGTAAAGCTCAAGAGTGTGCAGAACCGGCAGGTCCACAGCATCGCGCCGGACCAGACCGTGCTTGAAGCGCTGCAGATCATGGCCGAGAAAAACGTCGGCGCGCTGCCGGTGATCGAGGCCGGCGAGGTGGTGGGGGTGTTCAGCGAACGGGACTATGCCCGCAAGATGGTGCTCAAGGGGCGTTCGTCAGTGGGCACCACGGTACGCACCATCATGAGCGCGCCGGTCATCACCGCCGACAGCCAGCAGAGCATCGAACGCTGCATGGAAGTCATGACCGAGAGCCACCTGCGCCATCTGCCGGTGCTGGACGACGGCCAGTTGATCGGCCTGCTGTCCATCGGCGACCTGGTGAAGGAAGCGCTGGTCGAGCAGGCGGACCTGATCCGCCAGCTGGAGCATTACATCCGCGGCCACTGA	MKTAAQLVKLKSVQNRQVHSIAPDQTVLEALQIMAEKNVGALPVIEAGEVVGVFSERDYARKMVLKGRSSVGTTVRTIMSAPVITADSQQSIERCMEVMTESHLRHLPVLDDGQLIGLLSIGDLVKEALVEQADLIRQLEHYIRGH				NA	NA	NA	NA	NA
D1-35_04093	372	nirD	COG2146	Nitrite reductase (NADH) small subunit	ATGAGCCAGTCAAACGTCGTTCGTATCGCTCAAGAACCCGTCCAATGGCGCGCCCTGTGCAGCCGCGAGGACCTGGTGCCCAATTCCGGCGTGGTTGCCTGGCATGACGGCCGCCAAGTGGCGCTGCTCTACCTGCCGGAGCATACGGACAAGCCGCTGTACGCCGTCGACAACCGCGACCCCAAGTCCGGCGCGAACGTCATCGGTCGTGGTCTGCTGGGCAGCATCAAGGGCGAACTGGTGATCGCCTCGCCGATGTACAAGCAGCATTTTCGCCTGGAAGACGGCCATTGCCTGGAATATCCCGAACAGCGCCTGCGGGTCTGGCCGGTGCGGTTGAACGGGGATGTGGTGGAGATTGGCGAGGACTGA	MSQSNVVRIAQEPVQWRALCSREDLVPNSGVVAWHDGRQVALLYLPEHTDKPLYAVDNRDPKSGANVIGRGLLGSIKGELVIASPMYKQHFRLEDGHCLEYPEQRLRVWPVRLNGDVVEIGED	PGPT0000455_252	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000455-nirD-K00363	NA	NA
D1-35_04094	2562	nasD_2	COG1251	Nitrite reductase [NAD(P)H]	ATGAATTCCAACGTTGCTTCCCTGAACAAGCTGCAAACGCTGATCGTGATCGGCAATGGCATGGTCGGCCATCACTGCGTCGAGCAACTGATCGAGCGCGGTGCCCTCAATCATTACCGCGTGCATGTGTTCAGCGAAGAGCCGATGCGTGCCTATGACCGTGTGCATTTGTCCGAGTATTTCTCGGGCCGCGATGCCGAGTCGCTGGCCCTGGGCGAAGCCTCGTTGTACCAGACGCCCGGCGTCACGCTGCACTTGGGCGTGCCGGTGCTGGAAATCGATCGCCAGGCGCGCCAGGTTGTCACCGCCGCCGAGCGCCTCAGCTACGACAAGCTGGTGCTCGCCACCGGTTCGTACCCGTTCGTGCCGCCGATCCAGGGCGCCGAAGGTGATTCGTGCCTGGTCTACCGCACCCTTGAAGACCTCGACGCCATCCGCGCCGCCGCGAACAATGCCCGGCGTGGCGTGGTCGTCGGTGGTGGCCTGCTGGGCCTGGAAGCGGCCAATGCCCTCAAGACCCTTGGCCTGGAAGCTCACGTGGTGGAATTTGCCCCACGGCTGATGCCGGTGCAACTGGACGAGCAGGGCGGTCTGGCCCTCAAGGCGCGCATCGAAAAACTCGGTGTCGGCGTGCACCTGTCCAAGGGCACCCAATCCATCAGCGCCGGTGAGCAATACCGTTACCGGATGAACTTCGCCACCGACGACTTCCTGGAAACCGACCTGATCGTGTTTTCCGCCGGTATCCGCGCCCAGGATGCCCTGGCTCGCCAGTGCGACTTGCAGATCGGCCCGCGCGGTGGCGTGGTGATTGACGACCATTGCCAGAGCAGCGACCCGGACATCTATGCCATCGGCGAATGCGCCGCCTGGAATGGCAGCATCTTCGGCCTGGTCGCGCCGGGCTACCAGATGGCCCGCAATGTCGCGGCGCGCCTGTGCGGCGAGGCTGGCGAGGCGTTCACCGGCGCGGACATGTCCACCAAGCTCAAGCTGTTGGGCGTGGACGTCGGTTCCATCGGCGACGCCCATGGCAACACGCCGGGTGCGCGCAGCTTCCAATTCATCGACGAAACCAGCGCCAGCTATCGGCGCCTGGTAGTGGACGCCGACGGCAAGCGCGTGATCGGCGCGGTGCTGGTGGGCGACAACAGCTATTACGACACCCTGCTGCAATACATGCAGAACGGCATCGCCTTGCCCAAGGACGCCGCCAGCCTGATCCTGCCATCGTCCGAGGGCGCTCCGACACTGGGCCCGGCGGCGCTGCCCGAAGCGGCGACCATCTGCTCGTGCCACAACGTCACCAAGGGCTCGATCTGCGCGGCCATCGACGGCGGCTGCAGCGATCTCGGCCAGCTCAAGTGCGATACCAAGGCCGGTACCGGTTGCGGCGGCTGCGCGGCCCTGGTCAAGCAGGTATTCGAGCACGAGCTGATCGCCCGTGGCGTCAGCGTCGACAAGAGCCTGTGCGAACACTTCGCCTATACCCGCCAGGAGCTCTACGCACTGGTGCGGGTGGAAGGGACTATCAGTTTCGAAGAGCTGCTGGCCAAACACGGTCGCGGCCATACCGGTTGCGACCTGTGCAAGCCGGCGGTGGGTTCGATCCTGGCGTCGTGCTGGAACCAGCCGATCATGGACGCGCACCTGGTGCCGTTGCAGGACACCAACGACACCTTCATGGCGAACATGCAGAAAAACGGCACCTACTCGGTGGTGCCGCGCATCGCCGGCGGTGAGATCACCGCGGACAAACTGATCGCCATTGGCGTGGTCGCGAAGAAATATGACCTCTACACCAAGATCACCGGCGGCCAGCGCATCGACCTGTTCGGCGCGCAGTTGCACCAGTTGCCGGACATCTGGGCCGAGCTGATCGAAGCCGGTTTCGAGACCGGCCACGCCTACGGCAAATCGACGCGTACGGTGAAGTCCTGCGTCGGCAGCACCTGGTGCCGCTACGGCGTGCAGGACAGCGTGCAGATGGCCCTGACCATCGAGGACCGTTACAAGGGCCTGCGCTCGCCGCACAAGCTCAAGTTCGCGGTGTCCGGTTGCACCCGTGAATGCGCCGAGGCGCAGAGCAAGGACGTGGGTGTGATCGCCACGGAGAAGGGCTGGAACCTCTACGTGGCCGGCAACGGCGGCATGCGTCCACGCCACGCCGAGCTGTTCGCCACCGACCTGGATGACGCCACGCTGATCCGCTACATCGACCGGTTCCTGATGTTCTACATCCGCACCGCGGACAAGTTGCAACGCACCTCGGTCTGGCGCGAGAGCCTGGAAGGCGGCCTGGACTACCTCAAGGACGTGATCATCCACGACAGCCTGGGCCTGGGCGCCGAGCTCGAAGCGCAGATGCAACTGGTGGTCGACCGCTACGAGTGCGAATGGGCCAACGCCTTGAAGGATCCGGAAAAACTCAAGCGCTTTCGCACCTTCGTCAACGACAAGCGCGACGATCCTGACGTCCACTTTGTCCGCGAACGCGGCCAGCGCCGGCCGGTGCATGCCGGCGAACTTCACCTGATTCCCGTCACCGAGGAGGTACTCTGA	MNSNVASLNKLQTLIVIGNGMVGHHCVEQLIERGALNHYRVHVFSEEPMRAYDRVHLSEYFSGRDAESLALGEASLYQTPGVTLHLGVPVLEIDRQARQVVTAAERLSYDKLVLATGSYPFVPPIQGAEGDSCLVYRTLEDLDAIRAAANNARRGVVVGGGLLGLEAANALKTLGLEAHVVEFAPRLMPVQLDEQGGLALKARIEKLGVGVHLSKGTQSISAGEQYRYRMNFATDDFLETDLIVFSAGIRAQDALARQCDLQIGPRGGVVIDDHCQSSDPDIYAIGECAAWNGSIFGLVAPGYQMARNVAARLCGEAGEAFTGADMSTKLKLLGVDVGSIGDAHGNTPGARSFQFIDETSASYRRLVVDADGKRVIGAVLVGDNSYYDTLLQYMQNGIALPKDAASLILPSSEGAPTLGPAALPEAATICSCHNVTKGSICAAIDGGCSDLGQLKCDTKAGTGCGGCAALVKQVFEHELIARGVSVDKSLCEHFAYTRQELYALVRVEGTISFEELLAKHGRGHTGCDLCKPAVGSILASCWNQPIMDAHLVPLQDTNDTFMANMQKNGTYSVVPRIAGGEITADKLIAIGVVAKKYDLYTKITGGQRIDLFGAQLHQLPDIWAELIEAGFETGHAYGKSTRTVKSCVGSTWCRYGVQDSVQMALTIEDRYKGLRSPHKLKFAVSGCTRECAEAQSKDVGVIATEKGWNLYVAGNGGMRPRHAELFATDLDDATLIRYIDRFLMFYIRTADKLQRTSVWRESLEGGLDYLKDVIIHDSLGLGAELEAQMQLVVDRYECEWANALKDPEKLKRFRTFVNDKRDDPDVHFVRERGQRRPVHAGELHLIPVTEEVL	PGPT0000450_641	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000450-nirB-K00362	NA	NA
D1-35_04095	984			hypothetical protein	ATGGATGAGCGAAACCCACCTGTCGTTGTGATCTGCGGCGCCACTGCCGGCGTCGGCCGCGCGACCGCCCAGCGGTTTGCCGCGTCCGGCTACCGCGTCGGGCTGTTGGCCCGGGGCGAACAAGCGTTGGCGGCGACGCAAGAAGAACTCAAGCAGCTGGGCGCGACGAGCCTGGCGATCAGCGTCGATGTCGCGGACGCCGAGGCGGTATTCGAGGCGGCGCAACGGATGGAGCGCGAGCTGGGGCCCGTCGGCGTCTGGATCAATTGCGCGATGGTCACGGTGTTGTCGCCAATCCGCCAGTTGACCGCTGAAGAAATCCACCGGGTCACCAAGGTCACGTACCTGGGCACGGTGCATGGCACGCTCGCGGCGCTGGACCTGATGGGGCGGCGCAATCGCGGGGTGATCATCCAGGTCGGCTCGGCGCTGGCCTACCGGGCCATTCCGCTGCAGGCGGCCTATTGCGCGGCCAAGTTCGCGGTGCGTGGTTTCACCGATTCCTTGCGCTGCGAACTGCTCCACGAACACAGCGATATCAAGGTCTGCATGGTGCAACTGCCGGCGATCAACACGCCACAGTTCGATTGGGCCCGCAACAAGCTCGCCAAGCGTCCGCAACCGGTGCCACCGATCCACGACCCGGACGTTGCCGCCCGGGCGATTTTCAGCGTGGTGAAGCGTACTCCCCGGGAGTTGTGGTTGGGCGTGGCCTCGCTCAAGGCGATCGTCGGCACTTGCCTGATGCCGGGCCTGCTCGATCGTCTGTTGGCCCGCAGCGCTTACGCCGGGCAAATGACCGACGAAGACGACGACAGCCAGCGCCCGGACAATCTGTTCGAACCGCAGGAGCCCTTGCATCGTACCCGCGGGCGGTTCAATGGCCGCTCGAAGGATTCAGCGCTGGCTTTCAGCTCGACCCAGGTGTCCGCGTTGCTGCTGGCCACCGGTGGGTTGCTGGCTGTGGTGCTGCTACTGTTTTGA	MDERNPPVVVICGATAGVGRATAQRFAASGYRVGLLARGEQALAATQEELKQLGATSLAISVDVADAEAVFEAAQRMERELGPVGVWINCAMVTVLSPIRQLTAEEIHRVTKVTYLGTVHGTLAALDLMGRRNRGVIIQVGSALAYRAIPLQAAYCAAKFAVRGFTDSLRCELLHEHSDIKVCMVQLPAINTPQFDWARNKLAKRPQPVPPIHDPDVAARAIFSVVKRTPRELWLGVASLKAIVGTCLMPGLLDRLLARSAYAGQMTDEDDDSQRPDNLFEPQEPLHRTRGRFNGRSKDSALAFSSTQVSALLLATGGLLAVVLLLF				NA	NA	NA	NA	NA
D1-35_04096	1608	treS	COG0366	Trehalose synthase/amylase TreS	ATGAAAGCCAACTGGCACCGAAATACCTTGATCTACCAGATCGACCCCTCGCTGTTCTACGACAGCAACGGCGATGGCCGTGGCGACCTGAAGGGCATCATTCGTCAGCTCGATTATCTGCAAGCGCTGGGCGTCGGCGCACTCTGGCTGATGCCTTTGTACCGGTCTCCGTTCAAGGACGCCGGTTACGACGTCAGCGATTTCATGGCGCTGGACCCGCGCTTTGGCAGCGAAGAGGACTTGCGCCAGTTGATCGTCCAGGCCGGGGAGCGTGGCATCCGGGTCATCCTCGAACTGGTGGTGCAGCACACCAGCGACCAGCATCCCTGGTTCCTGCGGGCGCGGCGCGACAAGGACAGCGTCTATCGGAATTATTACCTGTGGTCCGACACGCCGGTGGACGACGGCAACCAACCGATCTTCCCGTCGGTGGAAGACAGCATCTGGCAGTGGGACGAACAGGCCGGGCAGTACTTTCGGCATCTGTTCTATCGCCATGAGCCGGATCTCAATCTGGCGAACCCGCGGGTGGTCGAAGAGATCGAGCGGATCATGGATCACTGGCTTGAACTGGGGATCGCCGGTTTTCGTCTCGATGCCGCTTCGCACCTGGTTGAGCAGGCCGGTGGCGGCGATGAAGAGCAGGGCGTGTGGTTATTGGAACGGCTGTTCAAGCACATGACCCGCATCAACCCGGAAGGCGTGCTGATGGGCGAAGTGGATGTCGAGCCCGAGCGCTACAGCCATTACTTCGGCACCGGCGAACGCCTGGGCCTGGTGCTGGATTTCTGGGTCAATAATCATCTGTTCCTGGCCTTGGCCCGAGGCGAAGCCGAGCCTCTGCAACGGGCCATTGCCCGCCGCCCGGCACCGCCTGACGGCGCCAATTATGCGGTGTGGCTGCGCAACCATGACGAGCTCGACCTCGAACGCTTGACCGAGCAGGAGCGTGAGGAGGTGATGCAGGCCTTCGCCCCGGACCAGAACATGCGCCTGTATGGCCGCGGCATCCGCCGGCGCCTGGCGCCGATGCTCGACGGTGATGTGCATCGCCAGGCGCTGGCCCAGGCGCTGCTGCTGTCACTGCCCGGAACACCCATCGTGCGCTACGGCGAAGAAATCGGCATGGGCGATGACCTGTCCCGTCCCGAACGCCTGTCGGTGCGCACGCCCATGCAATGGAGCGATGAAGCCAACGCCGGCTTTTCAACCGCCCAGCGCCTCGCCGCGCCGGTGATCGATGAAGGACCGTTTGCCTACACGCAGTTGAACGTCGAGGGCCAACAGGACGATCCCGATTCGCTGCTGGCTCGGACTCGCCGGCTGCTGCTGGCGCGCAGGCGCTTGCGCGAGGTTGGCGACGGCAAGGCGCAACTGCTGACGGTCGACCATCGTGCAGTCTTCGCCATCGCCCATGAGTGCGAAGCGACCTCGGTGATGCTGGCGAACCTCAGCCCCAAGACAGTCACGGTGCAGTTGCGGGAAGTGGATTTGCAGGGGTTCGAGGAAGTCCTTTCGGACCGCCCGTATCCGGCCTCGACCGCAGCCAGCCTGACATTGCATGGATACGGTTACCGCTGGTTCCGGCGCACCGGCTCAAAACAGTAG	MKANWHRNTLIYQIDPSLFYDSNGDGRGDLKGIIRQLDYLQALGVGALWLMPLYRSPFKDAGYDVSDFMALDPRFGSEEDLRQLIVQAGERGIRVILELVVQHTSDQHPWFLRARRDKDSVYRNYYLWSDTPVDDGNQPIFPSVEDSIWQWDEQAGQYFRHLFYRHEPDLNLANPRVVEEIERIMDHWLELGIAGFRLDAASHLVEQAGGGDEEQGVWLLERLFKHMTRINPEGVLMGEVDVEPERYSHYFGTGERLGLVLDFWVNNHLFLALARGEAEPLQRAIARRPAPPDGANYAVWLRNHDELDLERLTEQEREEVMQAFAPDQNMRLYGRGIRRRLAPMLDGDVHRQALAQALLLSLPGTPIVRYGEEIGMGDDLSRPERLSVRTPMQWSDEANAGFSTAQRLAAPVIDEGPFAYTQLNVEGQQDDPDSLLARTRRLLLARRRLREVGDGKAQLLTVDHRAVFAIAHECEATSVMLANLSPKTVTVQLREVDLQGFEEVLSDRPYPASTAASLTLHGYGYRWFRRTGSKQ	PGPT0014120_1363	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0014120-treS-K05343	NA	NA
D1-35_04097	1527	malL	COG0366	Oligo-1,6-glucosidase 1	ATGCCCAACTCCTTCCCTTCGCCCTGGTGGAAGAACGCCGTGATCTACCAGGTTTACCCTCGCTCCTTCGCCGATGCCAACGGCGATGGCGTCGGCGATCTTCCCGGTTTGACAGCACGCCTGGACCATCTGCAACGCCTTGGCATCGATGCGTTGTGGCTCTCGCCAGTGTTTCGCTCGCCCATGTGCGACGCAGGCTACGACATTTGCGACTACACCGACGTCGATCCGCTGTTCGGCAACCTGGCCGACCTCGATGCGTTGATCGCCAAGGCTCACGAACGGGGCTTGAAGGTCTTGCTCGACTTTGTCCCGAACCACACTTCCGACCAGCATCCCTGGTTCATCGAGTCGCGCTCCAGCCGCGACAACCCCAAGCGCGACTGGTACATCTGGCGTGACCAGCCGAACAACTGGCGAGCCTCGATTGACGGCGGCAGCGCCTGGACCTGGGACGAAACCAGCCAGCAGTACTACCTGCACTTCTTCCTGCCCGAGCAACCGGATCTGAACTGGCATAACCCGCAAGTCGTCGCGGCCATGCATCAAGTGCTGCACTTCTGGCTGGAGCGTGGCGTGGACGGGTTTCGCGTCGACGTGGTGCATTGCGTCGGCAAGGACCAGAGCTTTGCCGATGACCCGCGCTGCATGGCCGGTGAAACCATGGTCAAGATCAACGATCAGCCCTACAGCCATGAAGTGCTCCGCGGGCTGCGGCGCCTGGTGGACAGCTACCCCGGTGAGCGGGTGCTGATCGGCGAGGTGAACATCCGTTCCACGGCCCAGGTGGCGGCCTATTACGGCGCCAGTGACGAACTGCACATGTCGTTCAACTTCCCGCCGCTGGATGCACCGTGGGACCCGGTGGTGTTCCGTATGTGCGTACGCGAGGTGGAAAACGACCTCGGCCCGTTGCAGGCCTGGCCGACCTGGGTGCTGTCCAACCATGACAACAGCCGCCACCGCAGTCGCTACGGCGGCTCATTGCGCCGGGCACGGGCTGCGGCGGTGATGCTGCTGACGCTGCGCGGCACGCCGTTCATCTATCAGGGCGAGGAGCTGGGCCTGGAGGATACTCAAGTGACCGCCCAGACCCGCGTCGACCCCGGCGGACGGGACGGCAGCCGGGCGCCGATCCCCTGGACGGAACAGGCGCCTCACGGTTGGTCGGGTCGGGCGCCATGGCTGCCTTTCGCTGCGGATGCCGGCCGGTTGTCGGTGGAGACCCAAGAGCGCGACGCCGATTCCGTGCTGGCGCTTTACCGACGGTTGCTGGCGTGTCGGCGCAATAGCCTGGCGCTGCGCCTGGGCGGCTGGGAGGAACTGCCCTCGCACCCGCAGGTGCTGGCTTATCGTCGCTCTTGCGAGGGCGACGAACGCCTGGTCTGCATCAATTTCGCCGACAGCGAGCACACCTTTCCGCTGGCCGACCCCTGGCGAGTTGAAATCGCCAGCGATGGCGCGGATGAAGGCCAGCCGTTCAGCGGGCGTCTGGCTGCCGAACAGGCCCTGATCCTGTGTCGATAA	MPNSFPSPWWKNAVIYQVYPRSFADANGDGVGDLPGLTARLDHLQRLGIDALWLSPVFRSPMCDAGYDICDYTDVDPLFGNLADLDALIAKAHERGLKVLLDFVPNHTSDQHPWFIESRSSRDNPKRDWYIWRDQPNNWRASIDGGSAWTWDETSQQYYLHFFLPEQPDLNWHNPQVVAAMHQVLHFWLERGVDGFRVDVVHCVGKDQSFADDPRCMAGETMVKINDQPYSHEVLRGLRRLVDSYPGERVLIGEVNIRSTAQVAAYYGASDELHMSFNFPPLDAPWDPVVFRMCVREVENDLGPLQAWPTWVLSNHDNSRHRSRYGGSLRRARAAAVMLLTLRGTPFIYQGEELGLEDTQVTAQTRVDPGGRDGSRAPIPWTEQAPHGWSGRAPWLPFAADAGRLSVETQERDADSVLALYRRLLACRRNSLALRLGGWEELPSHPQVLAYRRSCEGDERLVCINFADSEHTFPLADPWRVEIASDGADEGQPFSGRLAAEQALILCR	PGPT0018560_5604	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
D1-35_04098	630			hypothetical protein	ATGTCAAGCACAGATGAAAATGCACCGCCCATTGCCGCGCCTCGTCGCCGACTGTCCCGCGCCGATCGGCAACGGCAATTGCTGGATGTCGCCTGGCGCCTGGTTCGGGAGGAGGGCAGCGAAGCGTTGACCCTGGCCCGGCTGGCCGACCAGGCAGGCGTCACCAAACCCATCGTCTACGACCATTTCATTACCCGGTCAGGGCTGCTTTCGGCGCTCTACCAGGATTTCGATGCGCGCCAGACGGCGCTCATGGACGCTGCACTCGACGCCAGCGAACCCACGTTGCAGAGCCGTTCGCGGGTGATTGCCGAAGCGTTCGTCGAATGCGTCCTGCTTCAGGGGCGTGAGATCCCGGGCGTCAGTGCGGCGCTCTCCAGTTCACCTGAACTGGAGAGCATCAAAAGGGAGTACGAAAGGCTGTTCCTGGATAAATGCCGGGCGGTGCTGGAGCCGTTCGCCGATAACCGGGGCCTGTCCCAAGCGAGCCTGCGCGCGATGCTCGGGGCGGCGGAAGCGTTGTCCGATGCGGCGGCCAACGGCGAGATCAGCGCGGACGAGGCCAAGCAGGAGCTGTTCGTCAGCATTGTGGCGATGGTCAACCGGGCCGCTGGCATCGCCTCCAACTGA	MSSTDENAPPIAAPRRRLSRADRQRQLLDVAWRLVREEGSEALTLARLADQAGVTKPIVYDHFITRSGLLSALYQDFDARQTALMDAALDASEPTLQSRSRVIAEAFVECVLLQGREIPGVSAALSSSPELESIKREYERLFLDKCRAVLEPFADNRGLSQASLRAMLGAAEALSDAAANGEISADEAKQELFVSIVAMVNRAAGIASN				NA	NA	NA	NA	NA
D1-35_04099	633	kefF_3		Glutathione-regulated potassium-efflux system ancillary protein KefF	ATGCACGCCCTTATCGTGGTTGCTCATCATGACCCCCGCTCTCTGACCCATGCGCTTGCCCAGGCCATTGGCAATGGAATTCTCCAGGCCAATCCCAGCGATACCTTCGAAATCGCCGACCTGGCCGCTGAAGGCTTCGATCCACGCTTCGGCTTTGCCGACCATGCCGTCCACCACCGTGAGGCCTTGCCACCTGCCGACGTGCTGACCGAGCAGGCCAGGATCGAACGGGCCGACGCCCTGGTGCTGGTCTACCCGATCTATTGGTGGTCGATGCCGGCGTTGCTCAAGGGCTGGATTGATCGGGTGTTCTCCAATGGCTGGGCGTTCGACTTCAAGCTCGACGAGTTCTTTGTGCAGAAACTGCAGCATTTGCGGGTCCATCTGGTCGCCCTCGGTGGAGCCGACGCCGACAGTTTCCAACGCCACGGCTACGACCAGGCGATGGTCACGCAGATCGACCATGGGATCTTCGGCTACTGCGGTGCCCGCGTGGTGAGCTCCGAGCGCTTGCTGGACTCGGAAACCCTTGATCCGAACGTACATCTGCAAACGGCCCGAGCCCTCGGCCAGCGGGTGTTCTCGGCCATCGAGCAGACCACGCCCGTAGGCGCCAGCGCCGCGTGTGCATGA	MHALIVVAHHDPRSLTHALAQAIGNGILQANPSDTFEIADLAAEGFDPRFGFADHAVHHREALPPADVLTEQARIERADALVLVYPIYWWSMPALLKGWIDRVFSNGWAFDFKLDEFFVQKLQHLRVHLVALGGADADSFQRHGYDQAMVTQIDHGIFGYCGARVVSSERLLDSETLDPNVHLQTARALGQRVFSAIEQTTPVGASAACA	PGPT0009455_1041	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009455-kefF|nqo|ywrO-K00355	NA	NA
D1-35_04100	1563			hypothetical protein	TTGTTCAAAAAGTCCGCATGTTACCTGAGCCTTTTATTGCTCGTTGCGCCATTGGTCGCCACGGCCGAGGACGGCGATCCGGCTCAGGCGCAAACCACACTGGCGCAACTGTCGGTCAATTGCCCCGAATTGGCCGGTGGCGTCGACTTTCCGACGGTCATGAGCCTGCAGGCCTTGTACCAGCAAAACGCAGGCCAGGCGATCTGGGCGGACGACGGGCGGTTACAGGCGTTGCAAGCCCAGCTACAGCAACTGGCCGATGACGGACTCGATCCGGCCCGCTACGACCTGCCGGGCGATGGCCGTTACGTCAACGTGGCCTGTACCGACATCGCCATCAGCCAACGCTACCTGCAAGCGCTGCATGAGCTGCGTTTCGGCTACCTGCCGCAGAACCGCCTGGAGCCGATTTGGAAGGCCAATCCGCAGTTGCCGGACCGTCAGGCCATGGTGCTGCACTTCGCCGTCGCCGGCTTGCGCGACCCCGCCCAGGCGTTCGAACAGGCGCGGCCGCCCTTGGACCTGTATCGCAACCTGCGCGAACTCTACGCCCGGCAACGGCAACAACCGCTGGCTGACTGGCAGTCAGTGCCGGCCGGCCCATTGCTGCAACCCGACAAACGTGACGCCCGCGTGCCCGCACTGGCCCGGCGCCTGTTCAACGAAGGCTACCTGAGCGTGCCTCCGCTGGAAGCCGATGAGCACTACAGCCCGAGCCTCGTGGAGGCGATGAAAAGCTTCCAGCTCCACCATTCACTGCAAGCCGATGGGGTAGTGGGGCCGTGGACGGTTACCGAGCTGAACGTCAGCCCGGCCATGCGCCGCGAGCAATTGCGGATCAACCTGGAGCGCATGCGTTGGTTGGCTCAGGACCTGGAGCCCGACAGCGTGCTGGTCAACGTGGCGGCGGCGCAGCTGACGGTCTACCAGGCTGGCGCCCCGGTATGGCAGACCCGGACCCAGGTTGGCCGCGCCGAACGCCAGACACCGCTGATCAAGTCGCGTATCACCCGACTGACGCTGAACCCGACGTGGACCATTCCGCCGACGATCATGCGCGAGGACAAACTTCCCGAGATCCGCCGCGACCCGGAGTTTCTCACCCGGCACAACCTCAAGGTGATCGATCGCGATGGATTGCCCCTGGCGGTGGAAAATATCGACTGGGATCACCCTGGCAATCTGATGCTGCGCCAGGACGCCGGCTCGAAAAACCCCTTGGGTAAATTGGTCGTGCGCTTCCCCAACCCGTTTTCGGTATACCTGCACGACACGCCCAGCCAGGCACTTTTCAGCAAAGGCCCGCGGGCGTTCAGCTCAGGCTGCGTACGCATCGAGCAAGTCATGCACCTGCGCGATCTGCTGGTGACCCCGGCCGAACGCACGCGCACCGACACCTTGCTGGCAAGCGAGTTGACCCATGAATTCAGGCTGGCCAAGCCGATGCCGATCCTGCTTGGATACTGGACAGTGCAAGCGGACAGCCAGGGGCGGGCGGTGTATATCCCGGATATCTACCAGCGCGATGTGTCCCTGTCTGCCGCCGACCGTCGAGCACTCTGA	MFKKSACYLSLLLLVAPLVATAEDGDPAQAQTTLAQLSVNCPELAGGVDFPTVMSLQALYQQNAGQAIWADDGRLQALQAQLQQLADDGLDPARYDLPGDGRYVNVACTDIAISQRYLQALHELRFGYLPQNRLEPIWKANPQLPDRQAMVLHFAVAGLRDPAQAFEQARPPLDLYRNLRELYARQRQQPLADWQSVPAGPLLQPDKRDARVPALARRLFNEGYLSVPPLEADEHYSPSLVEAMKSFQLHHSLQADGVVGPWTVTELNVSPAMRREQLRINLERMRWLAQDLEPDSVLVNVAAAQLTVYQAGAPVWQTRTQVGRAERQTPLIKSRITRLTLNPTWTIPPTIMREDKLPEIRRDPEFLTRHNLKVIDRDGLPLAVENIDWDHPGNLMLRQDAGSKNPLGKLVVRFPNPFSVYLHDTPSQALFSKGPRAFSSGCVRIEQVMHLRDLLVTPAERTRTDTLLASELTHEFRLAKPMPILLGYWTVQADSQGRAVYIPDIYQRDVSLSAADRRAL	PGPT0023755_1264	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-L|D_TRANSPEPTIDASE_ACTIVITY,PGPT0023755-ycbB-K21470	NA	NA
D1-35_04101	777			hypothetical protein	ATGCAGACAAACGAAACCGGACGGGATGCCGCAAACGAACGCCACCGCAAGCTGCCTTCACCTGTATCGGCCTTCTTGCGCCGATTCTGCCTGGTCGTGACTGGCCTTGGCATCCTGTGCAGCCCGGCGCTGGCCGAAAAACTCAACACCCAGCCTCTTTACAACAGCCTCGCCCACGCCGCGCCGGAACTCAATCCCCAAGCGCTGAAAAGTGCCCTGAGTGCGATGCAGTGCGCAGTTGCCAACGGTGCTCGACAGGCTCGCCACCTGGCGGTGATCGATTATTCGCAACCTTCGACGGCCCGGCGCTTGTGGATCTTCGACCTGCGCCAGAAAAAGCTGGTCCTGCGTGATCTCGTGGCCCACGGGCAGAAATCCGGGGAAAACTTCGCCACCCAGTTTTCCAACCGACTGGGCAGCTATCAATCCAGCCTGGGACTGTTCCGCACCCAGGAAAGTTATCAGGGCGCCCATGGTTATTCGCTGCGCATGGACGGCCTGGAGCCCGGATTCAATGACCAGGCGCGCGACCGCGCGATCGTCATCCACGCCGCTGATTACGTGAACCCGCTCTGGAGCGTGCGCCAGGGCCGCATCGGCCGCAGCCAGGGCTGCCCGGCCGTGCGCCCGCAAGTAGCGCGCCAGGTGATCGACAAGCTCAAGGGCGGGCAGTTCATGTTTTCCTGGTACCCGGATCCGGCGTGGCTCAAGCGTTCGGCCTATCTCAATTGCCAGGCGCAGCAGGTGGCGAGCATCCTCGCGACCAGCGGGGGCTGA	MQTNETGRDAANERHRKLPSPVSAFLRRFCLVVTGLGILCSPALAEKLNTQPLYNSLAHAAPELNPQALKSALSAMQCAVANGARQARHLAVIDYSQPSTARRLWIFDLRQKKLVLRDLVAHGQKSGENFATQFSNRLGSYQSSLGLFRTQESYQGAHGYSLRMDGLEPGFNDQARDRAIVIHAADYVNPLWSVRQGRIGRSQGCPAVRPQVARQVIDKLKGGQFMFSWYPDPAWLKRSAYLNCQAQQVASILATSGG				NA	NA	NA	NA	NA
D1-35_04102	954	rlmL_2		Ribosomal RNA large subunit methyltransferase K/L	ATGAACCCTCAAGCCCTTCAAACATTGCAGAGCCTTTTGCTGACGGCGCTGGAATCGGCGCCCGACGAAACCCGTCGCCTGTTCCATGGCCGCGGGCGCTGCTGGCCGGGGCTGGAACAGATCACCGTCGACTGGCTGCAAGGCGTGGTGTTGGTCTCGCTGTTCAAGGAACCCGATCCTACGCAACTCGATGACCTGTTCGCCATGCTGCGCACCCTCGCCTCCTTGCCCGCCTGGCAACACAGCGGCGCCCACACCCTCGCGGTGCAACATCGGTACCTGCCCGACAGCCTGACCCAATGGTTGGTGGGCGAACCGATCGATGAATGGACCCTGACCGAAGGCGGCCTGCGTTATCGGATCGACCTGGGCAAAAAGCAGAACAACGGCCTCTTTCTCGATATGCGCTATGGCCGCGACTGGGTGCGCGCTCACGCCCAAGGCAAGCGCGTGCTCAACCTGTTCGCCTATACCTGCGGTTTCTCGGTGGCGGCCATCGCCGGCGGTGCCCGCCACGTGGTCAACCTGGACATGTCCCGCGCAGCCCTGAGCCGTGGTCGTGACAATCATCGCCTGAACGGCCATGACCTGGGCCAAGTGAGCTTTCTGGGGCACGACCTGTTCAAATCCTGGGGCAAGGTGATCAACAGCGGGCCCTATGACCTGGTCATCATCGACCCGCCCACGTTCCAGAAAGGCAGCTTCCTGCTGACCAAGGATTATCAGCGAGTGCTGCGCCGCCTGCCGGAGTTGCTGACCGCCGCTGGTACGGTCCTGGCGTGTAGCAACGACCCGGCGACCGGCCCCGGCTTCCTCATCGAAGGCGTCATGCGCGAGGCGCCTGGCCTGACGTTCGAAGAGCGGTTGGCAAACCCTCCGGAGTTTCCAGATGCGGACCCCGCCTGTGGCTTGAAGGCCTTGGTGTTCAGGCGTGACGACTCGGCCATCGGCTGA	MNPQALQTLQSLLLTALESAPDETRRLFHGRGRCWPGLEQITVDWLQGVVLVSLFKEPDPTQLDDLFAMLRTLASLPAWQHSGAHTLAVQHRYLPDSLTQWLVGEPIDEWTLTEGGLRYRIDLGKKQNNGLFLDMRYGRDWVRAHAQGKRVLNLFAYTCGFSVAAIAGGARHVVNLDMSRAALSRGRDNHRLNGHDLGQVSFLGHDLFKSWGKVINSGPYDLVIIDPPTFQKGSFLLTKDYQRVLRRLPELLTAAGTVLACSNDPATGPGFLIEGVMREAPGLTFEERLANPPEFPDADPACGLKALVFRRDDSAIG				NA	NA	NA	NA	NA
D1-35_04103	1452	stp		Multidrug resistance protein Stp	ATGTCGCAATCACATCCCTCTCACCCGCGCCAGCGCTGGCGCGCATTGATCGTCTTGTGCCTGGGCGTGCTGATGATCGTGCTCGACGGTACGGTGGTGAATGTCGCCCTGCCCTCGATCAAGGACAACCTGCAGTTCAACGACACGGCACTGGCCTGGGTCGTCAATGCCTACTTACTGACCTTCGGCGGTTTCCTGCTGCTCGGCGGTCGCCTGGGCGACCTCTATGGCCATCGCCGCCTGTTCACCTTGGGATTGGCGGCGTTCACCCTCGCGTCGCTGGCCTGTGGACTGGCGTCATCGCAGTCATGGTTGATCATTGCCCGGGCTGTTCAAGGCCTTGGCGGCGCGGTGGTCACGGCGGTGGCCTTGTCGTTGATCATGGACCTGTTCACGGAACCCGGCGAGCGTGCCCGGGCGATGGGCGTGTACAGTTTCGTCTGCGCTGCAGGCGGCAGTATCGGTGTGCTGTTGGGTGGTTTGCTGACCGATCTGCTGAGTTGGCACTGGATCTTCCTGGTCAACCTGCCTGTCGGCCTGATCGTCCTCGGCCTGTCCCTTAAATTGCTGCCCGCCATGCGCGCGCAAAGCAGTGGGCAACTGGACGTCACCGGCGCAGTAACCGCCACCCTGTCGTTGATGATCGCCGTATACGCCGTGGTCAACGGCAATGAGCAGGGCTGGACTTCCCTCCACACGCTGGGCCTGCTGGCAGCCTCGGCCTTGTTGATGCTGGGCTTCATCATGCTCGAACGGCGGATTGCCCATCCGTTGATCCCGATGGGCCTGTTTCGCCTGCATAACCTGCGCATCGCCAATCTGCTCGCCGTGCTCTGGGCCGCGTCGATGTTCGCCTGGTTTTTCCTGTCGGCGCTCTACATGCAATTGGTGCTGGGCTATACGCCGATGCAAGTGGGATTGGCCTTCCTGCCAGCCAACGTGATCATGGCGATTTTTTCCCTGGGTCTGTCCGCGCGGCTGGTGATGCGCTACGGCACACGAACGCCGTTGGCGGCAGGCCTGTTGCTCGCCGCCATCGGCCTGGCACTGTTTGCACGGGCTCCGCTGGACGGCCAGTTCGTCGGCGACGTTCTGCCGGGCATGTTGCTGCTGGGGTTGGGCGCGGGGATGGCGTTCAATCCGATGTTGCTCGCGGCGATGAGCGACGTGGAACCCAAGGATTCCGGCCTGGCGTCAGGCGTCGTCAATACGTCGTTCATGATGGGCGGCTCGGTGGGCCTGGCGGTGCTGGCGAGTATTGCCGCGTACCGGACCAAGACGGCTGCGTCCGATCTCGCGCCGCTGGTTGCGCTCAATAACGGGTATCAGCTGGCGTTTCTGATCGGCGCAGCGTTCGCGCTGACCGCGGCCGTACTGGCGGGACTGCTGCTGCGAAGCACCGCGACGGGACAGCAGGCGAAGGTCGACTCCGCAGCCCATCCTGCCCCTTGA	MSQSHPSHPRQRWRALIVLCLGVLMIVLDGTVVNVALPSIKDNLQFNDTALAWVVNAYLLTFGGFLLLGGRLGDLYGHRRLFTLGLAAFTLASLACGLASSQSWLIIARAVQGLGGAVVTAVALSLIMDLFTEPGERARAMGVYSFVCAAGGSIGVLLGGLLTDLLSWHWIFLVNLPVGLIVLGLSLKLLPAMRAQSSGQLDVTGAVTATLSLMIAVYAVVNGNEQGWTSLHTLGLLAASALLMLGFIMLERRIAHPLIPMGLFRLHNLRIANLLAVLWAASMFAWFFLSALYMQLVLGYTPMQVGLAFLPANVIMAIFSLGLSARLVMRYGTRTPLAAGLLLAAIGLALFARAPLDGQFVGDVLPGMLLLGLGAGMAFNPMLLAAMSDVEPKDSGLASGVVNTSFMMGGSVGLAVLASIAAYRTKTAASDLAPLVALNNGYQLAFLIGAAFALTAAVLAGLLLRSTATGQQAKVDSAAHPAP				NA	NA	NA	NA	NA
D1-35_04104	327	yhjQ	COG1145	putative cysteine-rich protein YhjQ	ATGAACAGCCGTTATCAAACCTGCATCGACGAGTGCCTGGCCTGCGCCATGGCCTGCGAGGCCTGCGCCAGTGCGTGCCTGCAAGAGCAAAACGTCCAGATGATGGCGCGTTGCATCGAGCTGGACCGCGACTGCGCCGACTTGTGCCGTCTCGCGGCAACGCTGATGCAGCGCGACAGCCGGGTGGCGACGGATCTTTGTATCGTCTGCGCGAGCATCTGCCGTGCGTGTGGCGAAGAATGCGCGAAGCACGAAGCGGGTCATTGTCAGGATTGCGCCAAGGCCTGCCAGTCTTGCGCCGAGGCCTGTGAGCGGATGGCCGCCTGA	MNSRYQTCIDECLACAMACEACASACLQEQNVQMMARCIELDRDCADLCRLAATLMQRDSRVATDLCIVCASICRACGEECAKHEAGHCQDCAKACQSCAEACERMAA				NA	NA	NA	NA	NA
D1-35_04105	603			hypothetical protein	ATGGATCAGTTGTTGCCGTTTGCCTTGTTTGCGTTTGTCGCCTCCATCACCCCGGGTCCGACCAATATCCTGGTGCTGAGCCATAGCTCGCGCTTCGGCCTGGCGACCACCTGGCCGATCATCCTCGGCGCCTGCGCGGCTGCCGCGTTACTGGTGTTGTTGGTGGGCACCGGGCTGGGCGACGTGCTGGCGCGACATGCGGCGATCCAAACGGCGCTGTCCTGGGCCGGCATCGCCTGGCTGAGCTGGATGGCCTGGCAGATTTTCAGCGCGCCGGCCGAGGCCATCGATCCAGACCGACCGGTCGAAGGCCCACGGCTCGGCCTGGCGGGCGCCGCCGGGTTGCAACTGGTGAACCCGAAGACCTGGATGATGGCCCTGGCGGTGGTCAGCGTATTCGCCGGCGCCGAGGCAGACCGTACGGTGCGGGTGTTCTGGCTGTCCCTGGCGTTCTTTGCCATCTCCATTCCCTGCATGACCGCCTGGGCCTACCTGGGGCGTGGCGCGGCTAAGTTCTGCCGTTCCGCCGTGGCGATGGGGCGCTTCAATCGCGTCATGGCCGTGTTGCTACTGGTGTCGGCGTGGTTGACGCTGGTGGTCTGA	MDQLLPFALFAFVASITPGPTNILVLSHSSRFGLATTWPIILGACAAAALLVLLVGTGLGDVLARHAAIQTALSWAGIAWLSWMAWQIFSAPAEAIDPDRPVEGPRLGLAGAAGLQLVNPKTWMMALAVVSVFAGAEADRTVRVFWLSLAFFAISIPCMTAWAYLGRGAAKFCRSAVAMGRFNRVMAVLLLVSAWLTLVV				NA	NA	NA	NA	NA
D1-35_04106	837	rhaS_11		HTH-type transcriptional activator RhaS	ATGACAGCGCGCAACTGGATCGATCTCAAGCAGGACGCCACGTCCGGCATCGAGACCGTGCGCGCGCATTTCGAGGGGCACGCCTACGATCCGCACTGGCACGATGCCTATCTGGTGGGCGTGACGGAGCAGGGCGTGCAGCAGTTCCATTGCCGTCAGCAGCAACACAACAGCACGCCGGGCAAAGTGTTCCTGCTTGAACCGGGGGAGTTGCATGACGGTAACGCGCCGCACGAAAACGGGTTTACCTATCGCACCTTGTACCTGGAGCCGCAATGGCTGGAGCGCGAACTGCGCTCGTTGTTCGAGGATGCGCCAGACAACGCGCAACTGGGCTTTGCCGTCACGCTGAACGATGACGCGCGGCTGGCAAGGGCTACCGCTGCGGCTTTCCAGAGCCTGCACGAACAGGACATCCTGATCGTCCGCCAGACCGCCCTCGACACGCTGCTGTCGAACCTCACTCAACACCTGCATTGGCGAACACGGATCAATCCCGACCCGCGTCTGCCACTGGTCGCCCAGCAGGCCCGGGATTATTTGCACGGCCACCTGAGCGAGGACATCAGCCTGGACGACCTGGCGCGCGTCACCGGCGTCGATCGTTTTCGCCTGAGTCGTGCGTTCAAGGCGGCCTTCGGCCTGGCGCCCCACGCGTATCTGATCCAGCTGCGCCTGGCCCGGGCGCGGCGTCTGCTGGCCCGTGGCGAAAGCGCCGTGGCGGTGGCCGCCATGCTCGGCTTTGCCGACCAGAGTCACCTCGGCCGCTGGTTCCAGCGCGCCTATCGAATGAGCCCGGTGGACTACCGCAAGCGCTGCTCAATTGTTCCAGACTGA	MTARNWIDLKQDATSGIETVRAHFEGHAYDPHWHDAYLVGVTEQGVQQFHCRQQQHNSTPGKVFLLEPGELHDGNAPHENGFTYRTLYLEPQWLERELRSLFEDAPDNAQLGFAVTLNDDARLARATAAAFQSLHEQDILIVRQTALDTLLSNLTQHLHWRTRINPDPRLPLVAQQARDYLHGHLSEDISLDDLARVTGVDRFRLSRAFKAAFGLAPHAYLIQLRLARARRLLARGESAVAVAAMLGFADQSHLGRWFQRAYRMSPVDYRKRCSIVPD				NA	NA	NA	NA	NA
D1-35_04107	426			hypothetical protein	ATGAAAACCAAAGCGGTACTCACCGAACAGGACGTTGCCCAGTTGCTGGTAGCAGCCAAAGAGCTGGCCCACCAGCGTCAATGGGCCGTATCGGTCTGTGTGGTCGACGATGGCGGGCATCCCTTGGGGCTGTTGCGCCTGGACGGCGCCTCGCCCTTGTCAGCCTACATCGCCACCGAAAAAGCCCGCACCGCCGCCATGGGCCGGCGGGACAGCAAGGTTTTTGAAGACATGATCAATGGTGGCCGCATCGCCTTCCTCAGCGCGCCGCACTTGCAAGGCATGCTCGAGGGTGGCGTGGCGATCCGTCACGACGGTCAGTGCATCGGCGCCATCGGCGTGTCCGGGGTCAAGGCCGAGGAAGATGCGGAACTGGCGCGATTGGCGGTGGAGACGGTGTTGCCGGTGATCACGCCGGATGCCTGA	MKTKAVLTEQDVAQLLVAAKELAHQRQWAVSVCVVDDGGHPLGLLRLDGASPLSAYIATEKARTAAMGRRDSKVFEDMINGGRIAFLSAPHLQGMLEGGVAIRHDGQCIGAIGVSGVKAEEDAELARLAVETVLPVITPDA				NA	NA	NA	NA	NA
D1-35_04108	783	argT_5	COG0834	Lysine/arginine/ornithine-binding periplasmic protein	ATGAACGTTAAACGCATTGCACTCAAGCTGGGCTTCGTCTCGCTGCTGGCATTCGGCGCCAATCTGCACGCCGCCGAAACCTCGCTGCGCATCGGCATCGAGGCGGCATACCCACCCTTCGCCTCGAAAACCCCGGACAACGCCATCGTCGGCTTCGACTATGACATCGGCCAGGCGCTTTGCGCCGAGATGAAGGTTCGTTGCGTCTGGCAGGAGCAGGAGTTCGACGGCTTGATCCCGGCACTCAAGGTGAAAAAAGTCGACGCGGTGATTTCTTCCATGTCGATCACCCCGGAGCGGATGAAGTCGGTGGACTTCACCGACCGTTATTATCGGATTCCGGCGCGGCTGGTATTTCGCAAGGGCAGTGGCATCCAGGATATTCCCGCGCAGCTCAAAGGCAAGCGGATCGGCGTGCAGCGGGCGACCAACTTCGATCGTTACGTTACCGACAAATTTGCCCCGGCCGGGGCCGAGGTGATCCGTTATGGCTCGCAAAACGAAGTCTTCCTCGACCTGCTGGGCGGACGCCTGGACGCGACGATGGCCAGTTCGGTGGCCATCGACGAAAGCCTGCTCAAGCGTCCTGAAGGCAAGGATTTCGAATTTGTTGGCCCAAACTTCGTCGAAGAACAATACTTCGGCACGGGCATTGGAATCGCCGTGCGCAAGAATGATCCGCTGGCGGGCCGTTTCAACCAGGCGCTGGCGACCCTTCGCGCCAACGGCACCTACGAGCGGATTCGCCAGAAGTACTTCGATTTTGATATCTATGGCGAATGA	MNVKRIALKLGFVSLLAFGANLHAAETSLRIGIEAAYPPFASKTPDNAIVGFDYDIGQALCAEMKVRCVWQEQEFDGLIPALKVKKVDAVISSMSITPERMKSVDFTDRYYRIPARLVFRKGSGIQDIPAQLKGKRIGVQRATNFDRYVTDKFAPAGAEVIRYGSQNEVFLDLLGGRLDATMASSVAIDESLLKRPEGKDFEFVGPNFVEEQYFGTGIGIAVRKNDPLAGRFNQALATLRANGTYERIRQKYFDFDIYGE	PGPT0020680_108	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020680-aotJ-K10022	NA	NA
D1-35_04109	351	rutC_2		Putative aminoacrylate peracid reductase RutC	ATGACCATTCAACGTATCGAAAGCAACCCGCGCCTGAGCCGCAGCGTCGTGCACAACGGCGTGGCCTGGCTCAGCGGCATCGTCGCCGCCGATTGCAACCAGGACATCCAGGGCCAGACCCGCCAGGTGCTGCAGCGGATCGACGAATTGCTCGCCGCGTCGGGCAGCGACAAGCGCCGCCTGCTCAGCGTGCAGATCTGGATGAAAGACATGGGCCGCGATTTCGCTGCGATGAACGCAATCTGGAGCGACTGGGTCGACGCCGCGCACACCCCGGCGCGAGCCACCGCACAGGTGGCGTTCGATGACCCGCAGATCCTGCTGGAACTGATCGTGACCGCGGCGGTGTAG	MTIQRIESNPRLSRSVVHNGVAWLSGIVAADCNQDIQGQTRQVLQRIDELLAASGSDKRRLLSVQIWMKDMGRDFAAMNAIWSDWVDAAHTPARATAQVAFDDPQILLELIVTAAV	PGPT0020030_15	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
D1-35_04110	1374	hcnB_3		Hydrogen cyanide synthase subunit HcnB	ATGAGTAAAGCCGTGATCGACTTGATCATCATCGGTGCCGGACCGGCCGGCATGAGCGCCGCCATCGAGGCCAGGGACCATGGATTGTCGGTCGTGGTGCTGGATGAGCAGGCCAGTCCTGGCGGGCAGATTTATCGCCAGGTGCTTCAAGCCGATGCCCGCAGCCGCGCGGTGCTGGGCGAAGACTACAGCGCCGGTGCGCAGCTGGCGGCGGATTTTCTCCAATGCGGAGCTCGTTACCTGCCCAACGCGGCGATCTGGCAAGTCACCCCCCAGCGTGAGGTGCACTACCTGAACGACGGCTGCGCAGAGGTTTTGCGCGGGCGCAATCTGCTGATCGCCACGGGCGCCTTCGAACGGCCGATACCAATTCCCGGCTGGACCTTGCCTGGGGTCATGACGGCCGGTGCGGGGCAGATCCTGCTCAAGAGCGCGGCGCTGGTACCGGCTGGGCCGGTGGTCCTGGCGGGTTGCGGTCCGCTGTTGTACCTGCTGGCGGCGCAGTACCTGCGCGCCGGCATTGCCGTCGAGGCGCTGGTCGATACCAGCCACCGTCGCGAGCTGCTGCGGGCCTGGCGACTGATTCCCGGTGCGTTGCGCGGCTGGCGCGACTTGTTCAAGGGCGTGGGGCTGCTGGCCGAGTTGAAGCGTGGCGGCATCCGCCACTTTCGCGGTGCCGGCAACCTGCGTGTCGAGGGTGAGGACTGCGCCAGTGCACTGAGCTTCGATTGTGGAGGGCAGCACTTGCGAGTGCCCGCCGGATTGATTTTATTGCACCAGGGTGTGGTTCCGCACACGCAGATCAGTTGGTCGTTGCGCCTGGAGCATGACTGGAGCGAGGCGCAGCTGTGCTGGATTCCACGGCGCGATGGCTTCGGCCAAACCAGCGCACCGGGCATTTTCATCGCCGGTGACGGCGCTGCGATTGGCGGCGCGCAGGTGGCGCGCCTGGAAGGGCGACTCGCTGCGATGGCGATTGCCGGTGTTTCCCGTGGAGCACGCGGCCTTGAGAAAGGCCTGCGTCGTGCTCGTGCTGCGCGGCCCTTGATCGATGCGTTGTATCGCCCCCCGGCAGAAAGTTGCGTCCCACCCGACGACGTCATCGTGTGTCGCTGCGAAGAAGTCACGGCTGGCGCTATCCGCCGCTACGTCGACCTCGGTTGCCTGGGTCCCAACCAGACCAAAGCCTTCAGCCGTTGCGGCATGGGCCCGTGCCAAGGGCGCCAATGCGGCTTGAGCGTCACCCAGATCATCTCCGCCCAGCGCCGCGTGTCGCCCGCTGAAGTCGGTTACTACCGCATCCGTCCCCCCCTCAAACCCATCACGCTGGCCCAACTGGCCGGCGAACGTCACTGCGTCGAGGAACCGTCATGA	MSKAVIDLIIIGAGPAGMSAAIEARDHGLSVVVLDEQASPGGQIYRQVLQADARSRAVLGEDYSAGAQLAADFLQCGARYLPNAAIWQVTPQREVHYLNDGCAEVLRGRNLLIATGAFERPIPIPGWTLPGVMTAGAGQILLKSAALVPAGPVVLAGCGPLLYLLAAQYLRAGIAVEALVDTSHRRELLRAWRLIPGALRGWRDLFKGVGLLAELKRGGIRHFRGAGNLRVEGEDCASALSFDCGGQHLRVPAGLILLHQGVVPHTQISWSLRLEHDWSEAQLCWIPRRDGFGQTSAPGIFIAGDGAAIGGAQVARLEGRLAAMAIAGVSRGARGLEKGLRRARAARPLIDALYRPPAESCVPPDDVIVCRCEEVTAGAIRRYVDLGCLGPNQTKAFSRCGMGPCQGRQCGLSVTQIISAQRRVSPAEVGYYRIRPPLKPITLAQLAGERHCVEEPS				NA	NA	NA	NA	NA
D1-35_04111	330			hypothetical protein	ATGTCGGCTGAAAGCCTGTTCCGGCCTTTGGCCGTCTCGCAGAACCAGGTACTGATCGAGTTCGACGGCAAGCCCTTGAGCGTGCCGGGTAATGTCTGCCTTGCGGCGGCGCTGCTCGCCAGCGGAGTTCGGCAAAGCCGTGAAAGCGCTGTCAGCGGCAGGCCCGCTGCGCCGTACTGCCTGATGGGCGTGTGCTTCGAATGCCTGGTGCAAGTGGACGGCCAGGCCAACGTCCAGTCGTGCCTGGTGGCGGTGCGCCCGGGCATGCGTGTGCAACGCCAACGCGGCGCCGTCAGCCTGGCGCCGAACGAGGAGGGGACCGATGAGTAA	MSAESLFRPLAVSQNQVLIEFDGKPLSVPGNVCLAAALLASGVRQSRESAVSGRPAAPYCLMGVCFECLVQVDGQANVQSCLVAVRPGMRVQRQRGAVSLAPNEEGTDE	PGPT0020400_52	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020400-lhpD-K22550	NA	NA
D1-35_04112	1125	hcnC_1		Hydrogen cyanide synthase subunit HcnC	ATGCAAAAAACTGATGTGATCATCGTAGGTGGCGGCCTGGTGGGTATGTCCATTGCCTATGGCCTGGCCCTGCTCGGGCGCCAGGTGAGCGTGCTCGACGAGGGCGACGACGCGATTCGCGCCGCCCATGGCAACTTCGGTTTGCTCTGGGTCCAGGGCAAGGGCTACGGAATGAGCCCGTATGCACAATGGACCCGTGATTCGGTGGCGCTGTGGCCGCGCTTCGCCGAAGCGCTGCAAGCCGACACGGGTATCGATATCCATCTGCGCCAGCAGGGCGGTTTCCAGTTGTGCCTGAGCGAAGCGGAAATGGCCGAGGAAGCCGCGCGCCTGGCCTGGCTGCGCGAGGCCCTCGACGGTGATTATCCCTATGAGCTGCTGGACAGAGCACAACTGCGCGGCCGTCTGCCGGGTGTCGGCCCCGACGTGGTGGGCGGCTGTTTCTCGCCCATGGATGGTCACGTCAACCCGCTCAAGCTGTTGCGTTCGCTGTATGCGGCCTGCAAAGCGCGTGGCGTGACGTTGATCAATGGTCACCGCGTCGAGGCCATCGAACCGCACGCCACGGGTTTGCAACTGCGCGCCGCCGATCAGCGCTGGTCTGCCGCTCAGGTTGTCCTGGCCGCGGGCCTGGGCAATCGGGGATTGGGCGAAAGGGTCGGATTGGACGTGCCCGTGCAACCCAATCGCGGGCAGATCCTGGTGACCGAACGACTCAAGCCGTTTCTCCATTACCCCACGACGTATGTGCGCCAGACCGACGAGGGCACCGTGCAACTGGGCGATTCCCATGAGTCGGCCGGCTTCGACGACAGCACCGGCAGCCAGGTCATGGCCGCGATCGCCCGACGCGCCGTGCAGTGTTTCCCACTGCTGGGTGACGTACGCCTGGTGCGGGCCTGGGGCGCGTTGCGGGTGATGAGCGCCGACGGGTTTCCGATTTACGAAATGCCCCAGGGCTGCCCGGGCCTGGCGGTCGTCAGTTGCCACAGCGGCGTGACCTTGGCCGCTGTTCACGCCCTGCGCCTGGCCCCGTGGATTGCCGGCGAGTTCGATGACCCAGCCGTCAAGCCATTCGGCCTGCAGCGCTTCAATTCGCCAACCGAGGTGCGTCATGTCGGCTGA	MQKTDVIIVGGGLVGMSIAYGLALLGRQVSVLDEGDDAIRAAHGNFGLLWVQGKGYGMSPYAQWTRDSVALWPRFAEALQADTGIDIHLRQQGGFQLCLSEAEMAEEAARLAWLREALDGDYPYELLDRAQLRGRLPGVGPDVVGGCFSPMDGHVNPLKLLRSLYAACKARGVTLINGHRVEAIEPHATGLQLRAADQRWSAAQVVLAAGLGNRGLGERVGLDVPVQPNRGQILVTERLKPFLHYPTTYVRQTDEGTVQLGDSHESAGFDDSTGSQVMAAIARRAVQCFPLLGDVRLVRAWGALRVMSADGFPIYEMPQGCPGLAVVSCHSGVTLAAVHALRLAPWIAGEFDDPAVKPFGLQRFNSPTEVRHVG				NA	NA	NA	NA	NA
D1-35_04113	906	occR		Octopine catabolism/uptake operon regulatory protein OccR	ATGAACCTCCGCCAGCTGGAAGCGTTTCGCGCGGTGATCCTCGGCCAGACGGTGACCCGCGCCGCCGAAATGCTGCACATCTCGCAACCCGCCGCGACCCGGTTGATTGCCAGCCTGGAAGAAGACATCGGCTTCAGCCTGTTCGACCGTATCAAGGGCCGGCTGCAACCGACCGCCGAGGCGATGACGCTGTATCAGGAGGTGCAGCGCTCGCTGCTGGGGGTGGAGCGGATCGCGCGCACGGCCCAGGACATCCGCAACCTCAAGCGCGGTTCGCTGCACATTGCCTGCGCGCCGGCCATGGGTTTGTCGTTCCTGCCGCGGGCGATTGCCGCGTTCATGGCCGAGCATGAGCAGGTGCAGATCTCGCTGGTGGTGCATTCCTCGCGGGAAGTCGTCGACCTGGTGGTAGGCCAGCGCTGTGACCTGGGCCTGATCGTCCTGCCCAATACCTACCCGAGTCCCCGCGCCGAAAAGCTGCTGGCTACGCGCATGCTCTGCGCCCTGCCCGCCGGCCATCGGCTACAGGACCGCGCGTCCATCAAGCCGGAAGACCTGCAGGGCGAACGGTTCATTTCCTATCCGCAATCCATCGGCTCCCGGCAACACATCGACGCCATTTTCGCCGCTCACGGCGTCGAGCGTGAGCTGCGCCTGGAAACCCAATTGTCCCAACCGATGTGCACTTTTGTTGAGCAAGGCCTGGGCGTCGCCCTGGTAGACGCCATCAGTGCCGTTGAATACCGCGGCAACGGCATCGTCTTCCGTGCCTTCGAACCGGCCATTGAAATGGACTTCAGCATGCTGCTGCCAATCCATGGACCGCTGTCGAAACTGCAGGCGCGCTTCCTCGAACACATGCAGCGATTCATCGAGGCGCAAGTGCCGGCGGCCTATCGGTTTTAA	MNLRQLEAFRAVILGQTVTRAAEMLHISQPAATRLIASLEEDIGFSLFDRIKGRLQPTAEAMTLYQEVQRSLLGVERIARTAQDIRNLKRGSLHIACAPAMGLSFLPRAIAAFMAEHEQVQISLVVHSSREVVDLVVGQRCDLGLIVLPNTYPSPRAEKLLATRMLCALPAGHRLQDRASIKPEDLQGERFISYPQSIGSRQHIDAIFAAHGVERELRLETQLSQPMCTFVEQGLGVALVDAISAVEYRGNGIVFRAFEPAIEMDFSMLLPIHGPLSKLQARFLEHMQRFIEAQVPAAYRF				NA	NA	NA	NA	NA
D1-35_04114	1086	tsaM1		Toluene-4-sulfonate monooxygenase system iron-sulfur subunit TsaM1	ATGTACCCCAAGAACGCCTGGTACGTTGCCTGCACCCCGGACGAGATTGCCGACAAGCCGCTGGGCCGACAGATCTGTGGCGAGAAAATGGTTTTCTACCGCGGGCAAGCCGGCAAAGTCGCCGCCGTCGAGGACTTCTGTCCCCATCGAGGCGCACCGCTCTCGCTCGGTTATGTCGAGAATGGCAACTTGGTGTGTGGCTACCATGGGCTGGTCATGGGGGACGACGGCAAGACTGTCGAGATGCCCGGGCAACGGGTTCGGGGATTTCCTTGCAACAAGACCTTTGCCGTGCAGGAGCGCTACGGGTTTATCTGGGTCTGGCCGGGTGAGCAGGCATTGGCCGACCCCTCGCTGATCCACCCTCTGGAATGGGCGGAGAATCAGGAATGGGCGTATGGCGGCGGGCTCTTCCATATCCAGTGCGACTATCGCCTGATGATCGACAACCTGATGGACCTGACCCACGAAACCTACGTGCATGCCTCGAGCATCGGCCAGAAGGAAATCGATGAGGCACCGCCAGTGACCACGGTCGAAGGCGACGAGGTGGTCACCGCCCGCCACATGGAAAATATCATGGCTCCGCCCTTCTGGCGCATGGCGCTGCGCGGCAACAACCTGGCCGACGACGTACCGGTGGATCGCTGGCAGATCTGCCGATTCACCCCGCCCAGCCACGTAATGATCGAAGTCGGCGTGGCCCATGCCGGCCACGGTGGCTATCACGCCGCGCCGCAATGCAAGGCGTCGAGCATCGTCGTTGATTTCATCACGCCGGAAACCGAGACCTCCATCTGGTACTTCTGGGGCATGGCCCGCCACTTCCAGCCTCAGGACGAAGCGCTGACCGCGAGTATTCGCGAGGGCCAGGGCAAGATCTTCAGCGAAGACCTGGAGATGCTCGAACGCCAGCAGCGCAACCTGCTGGACCATCCGCAACGCAATCTGCTCAAGCTCAACATTGATGCCGGCGGCGTGCAGTCGCGTCGGGTACTGGAACGCTGGATCGCCCGCGAGCGTGAGCAACAGGCCGCCCTGATCGCCAGTACCCGGCAGCCGCAACACGCGGAGCAACGGCCATGA	MYPKNAWYVACTPDEIADKPLGRQICGEKMVFYRGQAGKVAAVEDFCPHRGAPLSLGYVENGNLVCGYHGLVMGDDGKTVEMPGQRVRGFPCNKTFAVQERYGFIWVWPGEQALADPSLIHPLEWAENQEWAYGGGLFHIQCDYRLMIDNLMDLTHETYVHASSIGQKEIDEAPPVTTVEGDEVVTARHMENIMAPPFWRMALRGNNLADDVPVDRWQICRFTPPSHVMIEVGVAHAGHGGYHAAPQCKASSIVVDFITPETETSIWYFWGMARHFQPQDEALTASIREGQGKIFSEDLEMLERQQRNLLDHPQRNLLKLNIDAGGVQSRRVLERWIAREREQQAALIASTRQPQHAEQRP	PGPT0005490_29	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005490-vanA-K03862	NA	NA
D1-35_04115	951	pht2		Phthalate 4,5-dioxygenase oxygenase reductase subunit	ATGATCGAAGTCCAGGTCGCGGCACGCACTATTGAAACCCCGGACATCTGCAGCTACGAGCTGACCAGCATCGACGGTCAGCCATTGCCGGCGTTTACCGCCGGCGCCCATATCGACGTGCATTTGCCCGATGGGCTGGTTCGCCAGTACTCGCTGTGCAACCACCCGGAGGAACGGCATCGCTACCTCATCGGCGTGCTCAGGGATCCCTCGTCACGAGGTGGCTCACGCAGCCTGCATGAACAAATCCAGCCGGGCGCACGGCTGCTGATCAGCGAACCGCGCAACCTGTTTGCCCTGGCCCCTGCGGCCCAGGGCAGCCTGCTGTTCGCCGGCGGCATCGGCATCACGCCGATCCTGTGCATGGCCGAGCACCTCGCCCAGAGCGGCGCTGCGTTCGCATTGCACTACTGTGCCCGGTCCCGGGACCGCGCCGCTTTTGTCCAACGCCTGGAGCAGTCGCCTTACGCCGACCGGGTATTCCTGCATTTCGATGAAGAACCCGCCACGGCACTGGATGCCGTTCGGGTACTGGCTTCGCCCAGCGCCGACCTGCACTTGTATGTCTGTGGTCCTGGCGGGTTCATGCAGCACATCCTCGACACCGCCAAGGCCCAGGGCTGGCAGGAAGCCAATCTGCACCGGGAATACTTCGCCGCGGCGCCGATCGACACCGCAGGCGATGGCCGCTTCTCGGTGAAGCTTGCCAGCAGCGGTCAGGTTTTCGAGGTGCCGGCGGACCGCAGCGTGGTCCAGGTGTTGGAAAGCCATGGCATCGAGGTTCCGATTTCCTGCGAGCAAGGCGTCTGCGGCACCTGCCTGACCCGCGTGCTGGAAGGCGTGCCGGACCATCGGGACATGTTCCTGACCGAAGCCGAGCAAGCCTGCAACGACCAGTTCACGCCGTGCTGTTCGAGGTCGAGGACGCCGTTGTTGGTGCTGGATCTCTGA	MIEVQVAARTIETPDICSYELTSIDGQPLPAFTAGAHIDVHLPDGLVRQYSLCNHPEERHRYLIGVLRDPSSRGGSRSLHEQIQPGARLLISEPRNLFALAPAAQGSLLFAGGIGITPILCMAEHLAQSGAAFALHYCARSRDRAAFVQRLEQSPYADRVFLHFDEEPATALDAVRVLASPSADLHLYVCGPGGFMQHILDTAKAQGWQEANLHREYFAAAPIDTAGDGRFSVKLASSGQVFEVPADRSVVQVLESHGIEVPISCEQGVCGTCLTRVLEGVPDHRDMFLTEAEQACNDQFTPCCSRSRTPLLVLDL	PGPT0005495_220	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005495-vanB-K03863	NA	NA
D1-35_04116	1362			hypothetical protein	ATGCTGCTCAAACACAAGATCGTCGCTCTCGGGATCCTGCCGCTGGTCCTGGCGATTGCCGTTATTGGTGCCTTGGTCATCTCGCTCAATCGCCAGTTGGGTGACCAACAGGCGCAGCTGATCGAAGACAGTATCCTGGCCAGTAAACGCGCCGAGCTGAAGAACTACGTAGAGATGGCGCAGAGCCTGATCGCCCCGTTGTACAACGACGGCCAGGGAGATGCGCGGGCACAACAGCAGGTGCTGGAAGAACTGCGCAAGCTCAGCTTTGGCATCAACGGTTATTTTTTCGTCTACGACCGCCAGGGTCGCAGCCTGATGCATGCCCGCCAGTCGGAGCTGGTGGGGCAATATCTCTGGGACATGAAGGATCCTCAAGGCCTGCCCGTCATCCAGGCCTTGCTCAAGAGCGCCGAATCAGGCGAAGGCTTTCAGCGCTATGCCTGGAACAAGCCCTCCTCCGGCCAGGTAACCGACAAGCTCGCCTACGTCGTGATGCTTGATCGTTGGGGCTGGATGCTGGGCACCGGGATCTACCTGGAAGACGTCGAACGCGCCACCCAGCAGGCTCGCGCCGAAGTGGCCCAGGGCATCCACACCACCATGCAGGCCATCGCCGCCATCGCGTTGGTCGCGGTGCTGCTGGTGTTTGCCGGCGGCATCACCCTCAATGTCAGCGAGCATCGCCTGGCCGACAAGAAACTGCAGCGCTTGAACCAGCGTATCGTCAGCTTGCAGGAGGAAGAGCGCTCGCGGGTGTCTCGCGAACTCCACGACGGCATCAGCCAGCTGTTGGTTTCGATCAAGTTCCAGTTCGAACTGGCCAGCCATGTGATCGAGAACGGCCAGGAAAATGGCCTCGGCATCTTGAAGAATGCGACCGATCGACTGGGCGAAGCGATCGGTGAAATCCGTAGCATTTCCCATGATTTGCGTTCCTCGTTGCTCGATACCCTGGGCCTGCCCGCCGCCATCGGCCAGCTCGCGGCGGAATTCGAACAGCGCAGTGGCCTGGAAGTGTCCTACCGAAGCAACGAATTCGACTGTCGCCTGGAAAACGGCGCCCCGGTCTCGCTGTTCCGGATTGCCCAGGAGGCGCTGACCAACATCGAGCGACACGCCGGGGCGAAACGAGTCGCCATCACCCTGTTCGGTTCGGGCCAATCCCTGCGCCTGACCGTGGTGGATGACGGGATGGGCTTCAACGTCCCGCAGGTCGAGCGTGGTCACACCGGCATCGGCCTGCGTAATATCCGCGAACGGGTCGAGCATTTTGGCGGGCGGCTGGAAATGACCTCGGTTCCGGGACGAAGCGAACTGGATATCCTGTTGCCCATGACCCTGTCGGCCACGGAAAGTTGA	MLLKHKIVALGILPLVLAIAVIGALVISLNRQLGDQQAQLIEDSILASKRAELKNYVEMAQSLIAPLYNDGQGDARAQQQVLEELRKLSFGINGYFFVYDRQGRSLMHARQSELVGQYLWDMKDPQGLPVIQALLKSAESGEGFQRYAWNKPSSGQVTDKLAYVVMLDRWGWMLGTGIYLEDVERATQQARAEVAQGIHTTMQAIAAIALVAVLLVFAGGITLNVSEHRLADKKLQRLNQRIVSLQEEERSRVSRELHDGISQLLVSIKFQFELASHVIENGQENGLGILKNATDRLGEAIGEIRSISHDLRSSLLDTLGLPAAIGQLAAEFEQRSGLEVSYRSNEFDCRLENGAPVSLFRIAQEALTNIERHAGAKRVAITLFGSGQSLRLTVVDDGMGFNVPQVERGHTGIGLRNIRERVEHFGGRLEMTSVPGRSELDILLPMTLSATES				NA	NA	NA	NA	NA
D1-35_04117	633	nreC	COG2197	Oxygen regulatory protein NreC	ATGACCCTGCCCCCCGCCATACGCGTCGCCCTGGTCGACGATCACTCGCTGGTTCGTGATGGTATTCGCGCGCTGCTGTCCGTCATGTCTCGCCTGGACGTGGTCGGCGAAGCGGAGAACGGCGCGCAGGCGATCGACATGGTCGGGCGCTGCCAGCCGGACCTGCTGCTGATGGACATCGGCCTGAAGGACATGAACGGCCTCGAGCTGACCCGGCTGCTGGGCAAGCAATACCCCGGCTTGAAGATCCTCATCCTGAGCATGTACGACAATCATGAGTACATCAGTGAATCCGTGCGCGCCGGTGCCAGCGGTTACGTGCTGAAGAATTCACCTTCCAAAGAGATCATTGCCGCCATCGAAGCCATCATCGGCGGCGGCACCTTCTACAGCGCCGAGATCGCCCAGCGCCTCGCCACCGACCCGAACACCGACAGCGAACTGACGCCGCGCGAGAGCCAGGTCCTGGCGAAAATGGTCGAGGGGCTCAACAACAAGGAAATGGCCCGTGAACTGGACATCAGCGTACGTACCGTCGAAACCCACCGCCTGAGCATCCGCCGCAAACTCAATATCGACAAGCCTGCGGCGCTGGTGAAATACGCGATCGATCACGGACTTGTTTCCCGCTAG	MTLPPAIRVALVDDHSLVRDGIRALLSVMSRLDVVGEAENGAQAIDMVGRCQPDLLLMDIGLKDMNGLELTRLLGKQYPGLKILILSMYDNHEYISESVRAGASGYVLKNSPSKEIIAAIEAIIGGGTFYSAEIAQRLATDPNTDSELTPRESQVLAKMVEGLNNKEMARELDISVRTVETHRLSIRRKLNIDKPAALVKYAIDHGLVSR	PGPT0000550_1101	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	N-AQUISITION-NITRATE|NITRITE_SENSING,PGPT0000550-narL-K07684	NA	NA
D1-35_04118	1224	yfcJ		putative MFS-type transporter YfcJ	ATGACTCAAGAAAAACTTCATCTCGGCGCCGCATCGGCGCTCGGGGCAACCGTCGAGGCCAATCCGGCGCTCAAGCTGTTGCCGCTCACACTGACCGTGTTTGTCGGTTTCCTCACCATCGGCATGCAATTGCCGGTCTTGCCGCTGCACCTGCATGACACGCTGGGCATGGGCACGCTGGTGATTGGCCTGGTGGTCGGGGCACAGTTCGCCGCGGCGCTGCTGTCACGGGCCTGGGCCGGCAACTTTGCCGACCTGCGTGGCGGCAAGCGCGCGGTCATGGCCGGGCTGGTAACGGCCGCCGTTTCCGGGCTGGTCTATCTGCTTTCCCTGGCGTTCGTTGCCGAGCCGGTTACGTCGGTCTGGCTTTTGTCGGGCGGCCGCGTGCTGCTGGCGATCGGGGAAAGCCTCATCGTCACCGGAGCGATGGGCTGGGGCATCGGCCTGGTGGGGCCGCAGCATGCCGGCAAGGTCATGGCCTGGAACGGCATCGCCATGTACGGCGCCTACGCACTGGGTGCGCCGCTCGGTGTTGCGTTGAATGCCGGTTGGGGCTTCGTGGGCATCGTCCTGGCCTCGATGTTCGTGCCGCTGCTGGCCTTGGCGATTGTCGCCGGCGTGCGCGCCGTCGCCCCTACGGCGACCCGGCGTACACCGTTCTACAAGATGCTCGGCGCCGTCTGGGTTCCTGGCTTGGGGTTGGCGTTCTGCAGCGTCGGTTTTGGTGTTCTCACGGCGTTTATCGCCCTGTTGTTCGCGGCCCGGGAGTGGGGCAACGCTTCGTTGGCATTCACCGCGTTCGGCGTGGCGTTCATCGGTGCGCGGCTGCTGTTCGGGCACCTTCCGGACAAGATTGGTGGCGCCCGTGTGGCACTGGTCTGTGTGTTGATCGAAAGCGTTGGGCTGCTGCTGATCTGGAGCGCCGACAGCGCGACCAGCGCCTACCTGGGGGCGGCACTCACCGGTTTCGGTTATTCCCTGGCGTTTCCCGGTTTTGGCGTGGAGGCGGTGCGGCGCGCACCACCACAGGCTCGCGGTCTCGCCATGGGCGCCTATGTCGCCTTTCTCGATATTGCCCTGGGCATCACCAGCCCGCTGGCCGGCCTGCTGGCGAGTGGCTGGGGCATTGGTGCGGTTTACCTGGGCGGCGCCATCGCCGTGGCGCTGTCGTTTGTAGTGGCTTTGGTGTTGCTCGGAAGGCAGCCAGGCAAGCTCCCTCGCTAG	MTQEKLHLGAASALGATVEANPALKLLPLTLTVFVGFLTIGMQLPVLPLHLHDTLGMGTLVIGLVVGAQFAAALLSRAWAGNFADLRGGKRAVMAGLVTAAVSGLVYLLSLAFVAEPVTSVWLLSGGRVLLAIGESLIVTGAMGWGIGLVGPQHAGKVMAWNGIAMYGAYALGAPLGVALNAGWGFVGIVLASMFVPLLALAIVAGVRAVAPTATRRTPFYKMLGAVWVPGLGLAFCSVGFGVLTAFIALLFAAREWGNASLAFTAFGVAFIGARLLFGHLPDKIGGARVALVCVLIESVGLLLIWSADSATSAYLGAALTGFGYSLAFPGFGVEAVRRAPPQARGLAMGAYVAFLDIALGITSPLAGLLASGWGIGAVYLGGAIAVALSFVVALVLLGRQPGKLPR				NA	NA	NA	NA	NA
D1-35_04119	654	slmA_2		Nucleoid occlusion factor SlmA	ATGTCCGAACGCCCAAGCCCTCAGATTTCCTCGCGCAAACAGCCGAAACAGGCCCGCTCCACCGAACTCGTGGCGGCCGTCCTGGAGGCGGCTGTTCAGGTTCTGGCAAGCCACGGCGCCCCGCGTTTCACCGTGGCTCGTGTGGCGGAGCGGGCGGGAGTCAGCGTCGGGTCGGTGTATCAATACTTCCCGAACAAGGCGGCGATCCTGTTCCGGTTGCAGAGTGACGAGTGGCAACAAACCACCGCCATGCTGCGGGACATCCTCGAGGACCAGTGCAAGTCGCCTCTGCAGCGATTGAGGGATCTGGTGCAGACGTTCATCCAGTCCGAATGCGACGAGGCGCAGATACGCATCGCCCTCAATGACGCCGCCCCGCTCTACCGCGATGCCCCCGAACATCAGACGGCGCGAATCTCGGTGCAGCAATCGGTGGACGCTTTCATGCAACAAGTGCTGCCGGAAGCCAGCACGCAGAGCCGCGCCCTGGCCGGTGACCTGATCATCACCACCCTCGGTTCCGTGGGTAAGCGATTTTCGGCAACGCCACGCTCCGGCGAGGAAATCCGAGCCTATGCCGATGCCATGGCCGATATGTTCTGTGCCTATCTGGAGAGTCTGCGGCAGAAAGCCGTCGAGATCGCGCCAGGCTGA	MSERPSPQISSRKQPKQARSTELVAAVLEAAVQVLASHGAPRFTVARVAERAGVSVGSVYQYFPNKAAILFRLQSDEWQQTTAMLRDILEDQCKSPLQRLRDLVQTFIQSECDEAQIRIALNDAAPLYRDAPEHQTARISVQQSVDAFMQQVLPEASTQSRALAGDLIITTLGSVGKRFSATPRSGEEIRAYADAMADMFCAYLESLRQKAVEIAPG				NA	NA	NA	NA	NA
D1-35_04120	792	pheC		Cyclohexadienyl dehydratase	ATGAAAACCATAACAAGCACGATGACGTTCTGTGGCCTGCTGGCGTTCTGCGGCAGCGCCCTGGCCGAGCCAACCCCTTCGCATCTGGACAAGGTCCTGCAACAAGGTGAACTGCGGGTGTGCACGACGGGCGACTACAAGCCCTATACCTACAAGGCCGCATCGGGTGAATACGAGGGCATCGACATCGACATGGCCCGTTCCCTCGCCAGCAGCCTCGGCGTCAAGGTGCAATGGGTCCAGACCACCTGGAAAACCCTGATGCCAGACATGTTGGCCGGCAAATGTGACATCGGCATGGGCGGGATTTCGGTGACCCTGGAACGGCAGAAAAAAGCCTATTTCAGCAGCACCCTGGACGTTGACGGCAAGATCCCCCTGGTGCGTTGCGAAGACCAGTCGCGCTACCAGACCATCGAGCAGATGAACCAGCCTTCGGTGCGTCTTGTCGAGCCGGCCGGCGGCACCAACGAAGCCTTCGTGCGGGCATTCCTGCCCAAGGGCCAGCTGGCGTTCCATGACAACGTGACCATCTTCCAGGAGCTCCTGGAAAAACGCGCCGACGTGATGATCACCGATGCCTCCGAAGCGCTCTACCAGCAGAAACTCAAACCGGGCCTGTGCGCCGTCAACCCGACCCAGTACCTGCAATACGGCGAGAAGGCCTACCTGCTGCCGCGCGATGACCACACCTGGAAAATGTACGTTGACCAGTGGCTGCACCTGAGCAAGGCCAATGGCAGCTACCAGAAAGTGATCGGACAGTGGCTGGCCGTCCCCGGCGCCCAGTGA	MKTITSTMTFCGLLAFCGSALAEPTPSHLDKVLQQGELRVCTTGDYKPYTYKAASGEYEGIDIDMARSLASSLGVKVQWVQTTWKTLMPDMLAGKCDIGMGGISVTLERQKKAYFSSTLDVDGKIPLVRCEDQSRYQTIEQMNQPSVRLVEPAGGTNEAFVRAFLPKGQLAFHDNVTIFQELLEKRADVMITDASEALYQQKLKPGLCAVNPTQYLQYGEKAYLLPRDDHTWKMYVDQWLHLSKANGSYQKVIGQWLAVPGAQ				NA	NA	NA	NA	NA
D1-35_04121	177			hypothetical protein	ATGCAGATCCTGAGTCCAACCCAACAACTGTGGGATCTGTGGCACATGCAGATCCTGAGTCCAACCCAACAACTGTGGGATCTGTGGCACATGCAGATCCCGAGTCCAACCCAAAACCACTGTGGGAGCGAGCTTGCTCGCGATGGCGTCCGCTCAGTCGACATCATCATCGACTGA	MQILSPTQQLWDLWHMQILSPTQQLWDLWHMQIPSPTQNHCGSELARDGVRSVDIIID				NA	NA	NA	NA	NA
D1-35_04122	1020			hypothetical protein	ATGCAAAAACTGATGAAAACCTTGCTGGCTGGGGCTTGCGCAACAGGCTTGCTGCTCGGCAGCGTGGCCGGCCACGCCGCTGAGATCCGCGAGCGCACCCTGCGTTTTGCCTTCCAGAACGTCAAGGAACATCCGCAAGGGCAGGGCGCGCAGAAGTTTGCCGACCTGCTCAGTGAAAAGAGCGGCGGCAAGCTCAAGGTTCGTCTGTTCCCTGGCGGAACCCTGGGCGGCGATGTGCAGACCGTCTCGGCCCTGCAAGGCGGCACGCTGGATATCACGGTGCTGAACTCCGGCATCCTCGCTGCCCAGGCCGCGGATTTCGCCATGCTCGATTTCCCGTTCCTGTTCAACAACGCCGAGGAAGCCCACGCGGTGATAGACGGGCCGGTCGGCCAGAAACTCGCGGCGCAGTTGGACAGCAAGGGCCTGGTCGGCCTGGGTTACTGGGACCTGGGGTTTCGTCACCTGACCAACAGCAAGCATCCGGTGGCGAAACTTGAAGACATGCAGGGCTTGAAGGTTCGTGTCATCCAGTCGCCGATCTATCTGGAAACCTTCAGTGCCCTGGGCGCCAACCCGGTGCCGATGGCTTTCCCGGAGGTCTATACCGGCCTGGAGCAACACACTATTGATGGTCAGGAAAACCCGTTCACGGTGATCGAAGGCAACAAATTCTACGAGGTGCAGAAGTACCTTTCGGTGACGGGCCACATCTTCAATCCGCAGTCGTTGATCATCAGCCAGAAAACCTGGAACCGCCTCAACGACGATGAAAAGGCGCTGATCCGCGAGGCCGCGAGCGAGGCGCAGAAGTTCCAGCGTGAAGTCACCGCGGCGAGCATGGACAAGGCCAAGGCGACGCTGGCGGGCGCCATGACCGTCAACGAAATCACCCCGGCCGAGAAAGATCGTTTCCGCGAACGCGTGCAGCCGGTGATCGATAAATTCGCCAAATCCCTGGACGGTGAGCTGGTGAAGATGATGTACGCCGAAATCGCCAAGGTGCGGGCGGGGCAGTGA	MQKLMKTLLAGACATGLLLGSVAGHAAEIRERTLRFAFQNVKEHPQGQGAQKFADLLSEKSGGKLKVRLFPGGTLGGDVQTVSALQGGTLDITVLNSGILAAQAADFAMLDFPFLFNNAEEAHAVIDGPVGQKLAAQLDSKGLVGLGYWDLGFRHLTNSKHPVAKLEDMQGLKVRVIQSPIYLETFSALGANPVPMAFPEVYTGLEQHTIDGQENPFTVIEGNKFYEVQKYLSVTGHIFNPQSLIISQKTWNRLNDDEKALIREAASEAQKFQREVTAASMDKAKATLAGAMTVNEITPAEKDRFRERVQPVIDKFAKSLDGELVKMMYAEIAKVRAGQ				NA	NA	NA	NA	NA
D1-35_04123	1281	siaM	COG1593	Sialic acid TRAP transporter large permease protein SiaM	ATGACCTTGGCCATTTTCCTCGGGTCGTTGATGGGCAGCATGGCGCTGGGTATGCCGATTGCCTTTGCCTTGCTGGTGGTCAGCGTCGCGCTGATGTTCTACCTGGACCTGTTCGATGCCCAGATCATCGCGCAGAACCTGCTCAATGGCGCTGATAGCTTTCCGTTGATGGCCGTGCCGTTCTTCATGCTGGCCGGCGAAGTCATGAATGTCGGCGGCCTGTCCAAGCGCATCGTCAACATCGCCATGGCGCTGGTGGGGCACAAGCGCGGAGGCCTGGGTTATGTCGCGATCATCGCCTCCTGCCTGTTGGCCTCGCTTTCCGGTTCGGCGGTGGCTGATGCCGCGGCGCTGGCAGCGCTGCTGGTGCCGATGATGGTGCTGGCCGGGCACAACCGAGGGCGTTCGGCCGGGCTGATCGCCGCTGGCAGCACCATCGCGCCGGTCATTCCGCCGAGCATAGGTTTCATCGTTTTTGGCGTGGCCTCCGGGGTATCGATCTCCAAGCTGTTCCTGGCCGGAATTGTGCCCGGGCTCATGCTCGGTGTCGGGCTCGCCATCGCCTGGTGGTTCATCTCCCGCCGCGAGAATGTCGAGACGGCGCCCAAGCGCTCCCGTACCGAGGTGCTGCGCACATTGCTGGACGGCAGTTGGGCGATGGGCCTGCCGCTGATCATCATCCTCGGCCTCAAGTTTGGCATCTTCACCCCCACGGAAGCGGCGGTGGTCGCGGCGGTCTATTCGCTGTTCGTGTCGTTGGTGATCTACCGGGAAATGAAGATCAGCCAGCTGTACGAAGTGATCCTGTCATCGGCCAGGACCACCTCGGTGGTGATGTTGCTGGTGGCGGCCGCGATGGTCTCGTCTTGGCTGGTGACCATCGCCGACCTGCCGGGCCAGTTGGCCGACCTGCTGGCGCCGTTCATGGACAACCAGACCCTCCTGCTGCTGGTGATGATGGCGCTGATCATCCTGGTCGGCACGGTGATGGACATGACCCCGACCATCCTCATCCTCACGCCGGTGCTGATGCCCGCGGTGATCCAGGCGGGCATCGACCCGGTGTACTTCGGCGTGCTGTTTCTGATCAACACCGCGATTGGCCTGATCACGCCGCCGGTGGGCACGGTGCTCAACGTGGTCTGTGGCGTGGCGAAGCTGGAATTCGAGGAAATCGTGCGTGGCGTGTGGCCGTTCATGCTTGCGCAATTTGCGGTGCTGTTCCTGCTGGTGCTGTTCCCTCAGCTCGTCCTGGGACCGTTGAAGTTCTTCACCGGTTGA	MTLAIFLGSLMGSMALGMPIAFALLVVSVALMFYLDLFDAQIIAQNLLNGADSFPLMAVPFFMLAGEVMNVGGLSKRIVNIAMALVGHKRGGLGYVAIIASCLLASLSGSAVADAAALAALLVPMMVLAGHNRGRSAGLIAAGSTIAPVIPPSIGFIVFGVASGVSISKLFLAGIVPGLMLGVGLAIAWWFISRRENVETAPKRSRTEVLRTLLDGSWAMGLPLIIILGLKFGIFTPTEAAVVAAVYSLFVSLVIYREMKISQLYEVILSSARTTSVVMLLVAAAMVSSWLVTIADLPGQLADLLAPFMDNQTLLLLVMMALIILVGTVMDMTPTILILTPVLMPAVIQAGIDPVYFGVLFLINTAIGLITPPVGTVLNVVCGVAKLEFEEIVRGVWPFMLAQFAVLFLLVLFPQLVLGPLKFFTG	PGPT0017335_2575	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017335-dctM-K11690	NA	NA
D1-35_04124	546			hypothetical protein	ATGACAAAAGTCGTCGATTTGTATTTCAAGCTGCTGAAGCTGCTGATTGTCCTGTGCATGGTCGCGATGATCGTGCTGGTGTTCGGCAACGTCGTGCTGCGCTATGCGTTCAACTCCGGCATCAGCGTTTCGGAAGAACTGTCGCGCTGGTTCTTCGTCTGGATGATTTTCCTCGGCGCCCTGGTGGCGCTCAAGGACCGCGCCCATCTGGGCATGAACAGCCTGGTCAAGCGCTTGCCGCCCGCCGGCAAGCGTGCCTGCCTGGTCATCAGCCACTTGCTGATGCTGTATATCTGCGGCTTGATCGTCAGCGGCAGCTGGCAACAGGCAGTGATCAACCTGGACGTGGTCGCGCCGGCTTCAGGCCTGTCGATGGCGCTGTTCTACGCCGCCGGCCTGGTGTTCGGCGTCAGCGCCACCGCCATTCTGCTGTATGAACTGTACCTGGCGCTGTTCGGCAAACTCGCGGATGACGAGCTGGTGATGGTCGAGGCCAGCGATGCTTCGGCAATCAACCACGACACCCTCAAAGGTAGCCGCCCATGA	MTKVVDLYFKLLKLLIVLCMVAMIVLVFGNVVLRYAFNSGISVSEELSRWFFVWMIFLGALVALKDRAHLGMNSLVKRLPPAGKRACLVISHLLMLYICGLIVSGSWQQAVINLDVVAPASGLSMALFYAAGLVFGVSATAILLYELYLALFGKLADDELVMVEASDASAINHDTLKGSRP				NA	NA	NA	NA	NA
D1-35_04125	216			hypothetical protein	ATGTTCAATTTCTCGAAACTTTCATCCCTCGCAATCGCCCTGACGCTGGTTGGCGGTGTCGGCTTGTCGACGGCGGCCTCGGCCAAGAGCTCCCCTTCCCATGGCCATGCTGCGCAGCAGCTGGCTGAGGGTGGCTCTGATCGTCTGATTCAGAATCGCGTGGCCGAAGGCGGGGCTGATCGGTTGCAGGAGCTGCGTGAACGCAGCACCGCATGA	MFNFSKLSSLAIALTLVGGVGLSTAASAKSSPSHGHAAQQLAEGGSDRLIQNRVAEGGADRLQELRERSTA				NA	NA	NA	NA	NA
D1-35_04126	423	farR_1		HTH-type transcriptional regulator FarR	ATGGCCAACCCGAGACCCTCACTGACGCTGACTCTGCTGCAAGCCCGCGAAGCGGCGATGGCTTTTTTTCGTCCGGCGCTGAACCAGCATGATCTTACGGAGCAGCAGTGGCGAGTGATCCGCATTCTGCACCAGCAGGGTGAGTTGGAGAGCCACCAGCTCGCCCATCAGGCCTGCATCCTCAAGCCCAGCATGACCGGCGTGCTCACTCGCCTGGAGCGCGACGGGCTGGTGCGGCGGCAGAAATCCAGCCAGGACCAGCGTCGGGTTTTCGTTGGCCTGACCGAGCGCGGCCAGCAGTGTTTCGTGTCCATGAGCGAAGGCATGGAAAGCAACTACCGGCGGATCGAGGAACAGTTCGGCGAAGAAAAAATGCAGCAGCTGCTGGGTTTGCTCAATGAATTGAAAAACATCAAGCCTTGA	MANPRPSLTLTLLQAREAAMAFFRPALNQHDLTEQQWRVIRILHQQGELESHQLAHQACILKPSMTGVLTRLERDGLVRRQKSSQDQRRVFVGLTERGQQCFVSMSEGMESNYRRIEEQFGEEKMQQLLGLLNELKNIKP				NA	NA	NA	NA	NA
D1-35_04127	912			hypothetical protein	ATGACCGACCGGCAGCCGATCCCGAACATCAACATTGGCCAGGTGTACGACCAGCGCTACAGCGATGCCGAAGTGCATTACGACCGGCTCGCCAACCTGGCCGGCTTTTTTGGGCGCAACATGCCGGTCCATCGGCATGACCGGTTCTTCCAGGTTCACTACGTCAAGAGCGGCACCGTGCGGGTGTATCTGGATGATCGGCAGTACGTCGAATCAGGGCCGATGTTTTTTCTCACGCCGCCGACCATTCCCCACGCTTTTGTTACCGAAGCCGACAGCGACGGACACGTACTGACGGTGCGTCAGCAACTGGTGTGGCAATTGATCGATGCCGATCCGAGCCTGGCGCCGGCGGGCGTGCAGATGCCGGCGTCCTGCGTCGCGCTGGCGCAGTTGGGGCCGGAGCAGACGGGGGAGGTGCGGCGGCTGGACTGCCTGTTCGAGGAATTGAGCGAAGAGGTGACGGCCGGGCGGCCGGGGCGCAGCGCGGCGCTGGACGGCTTGACGCGGCTGATCATGATCAGCCTGCTGCGGCTGTGCTCCAACTCCCTGGAAGCCAGGCCGGCGCGGCATGAAGACCTGAAGATCTTCCACCGTTTTAATGAGTTGATCGAAGCGCATTATTTCCAGCACTGGCCCCTGTCGCGTTATACCGCGGACATTGGCGTGACCGAGGCGCGCCTCAACGACGTGTGTCGACGAATCGCCGACCTGCCTTCCAAGCGCTTGATCATGGAGCGTCTGATGCAGGAGGCCAAGCGGCTGCTGTTGTTCACCGGCAGCTCTGCCAATGAAATCTGCTACCAGCTCGGCTTCAAGGACCCCGCGTATTTCAGCCGGTTTTTCCAGCGTTACGCCAGGCTGACACCGGGGGAGTATCGGCAGCGGCAGTCGGGCATGTTGTTCAAATAG	MTDRQPIPNINIGQVYDQRYSDAEVHYDRLANLAGFFGRNMPVHRHDRFFQVHYVKSGTVRVYLDDRQYVESGPMFFLTPPTIPHAFVTEADSDGHVLTVRQQLVWQLIDADPSLAPAGVQMPASCVALAQLGPEQTGEVRRLDCLFEELSEEVTAGRPGRSAALDGLTRLIMISLLRLCSNSLEARPARHEDLKIFHRFNELIEAHYFQHWPLSRYTADIGVTEARLNDVCRRIADLPSKRLIMERLMQEAKRLLLFTGSSANEICYQLGFKDPAYFSRFFQRYARLTPGEYRQRQSGMLFK				NA	NA	NA	NA	NA
D1-35_04128	678	hpcE_1	COG0179	Homoprotocatechuate catabolism bifunctional isomerase/decarboxylase	ATGAGCCGTGCCCTGCATGACGTCGCGACCGGCACCCTGTTCGGGGTCGCGCTGAACTACCAGGGGCTGCTGAAGCAGCGCCTCGCCGAGTTCGAGCAAGCGCCTTACCAGAAGCCGCCGCTCAAGCCCGTGCTGTTCATCAAGACGCCGAACACCCGCAACCAGCACGAGGCCGAAGTGATTCATCCAGGCCAGGGCGAGCGCCTGCAACCCGGGCCGGCGTTGGGTGTGGTGATGGGCAAGTCCGCCAGCCGCGTCAGCGCCGACGAGGCGTTGAACTACGTGGCTGGCTACACCGTGGTCAATGAATTCAGCCTGCCGGAGGACAGCTACTACCGTCCCGCCGTCAAGGCCAAGTGCCGGGATGGCTTTTGCACCATCGGTCCCGACCTGGTGCCCAGCGCCAACGTTGCCGACCCCCACAGCCTGGCGGTCACGCTGTACGTCAACGGCGAGGTTCGCCAGCAGAACAACACGGCCAATTTCGTTCGCGACATCCCCCGCTTGATCGCCGAGATCAGCGAGTTCATGACCCTGCATGCCGGCGATGTCTTGATCACCGGCACGCCCGAGGGCCGGGTCGATGTACTGCCCGGCGATCGCGTCGAAGTGGACATCAGCGGCATTGGCCGACTCGTCAATACCATCGTGGCCGAGGAAACAGGAGCCGCCTCATGA	MSRALHDVATGTLFGVALNYQGLLKQRLAEFEQAPYQKPPLKPVLFIKTPNTRNQHEAEVIHPGQGERLQPGPALGVVMGKSASRVSADEALNYVAGYTVVNEFSLPEDSYYRPAVKAKCRDGFCTIGPDLVPSANVADPHSLAVTLYVNGEVRQQNNTANFVRDIPRLIAEISEFMTLHAGDVLITGTPEGRVDVLPGDRVEVDISGIGRLVNTIVAEETGAAS				NA	NA	NA	NA	NA
D1-35_04129	771	hpcE_2	COG0179	Homoprotocatechuate catabolism bifunctional isomerase/decarboxylase	ATGAAACGCGCACGCATTCACTTTGAAGGCCGGGTCCACGCCGTCACGGTCGAGAACGATAACGCCGTGCGCCTGGCCGACGGTCGGCTGCTGGCCGAAAACCAGGTGCAGTGGCTGCCACCGGCCACCGGCAGCATGTTCGCCCTGGGCCTGAACTATGCCGATCACGCTGCGGAGTTGGCGTTCAAGCCGCCGACCGAACCGCTGGCCTTCATCAAGTCCCCCGGCACCTACACCGGCCACAACCAGATCACCTGGCGCCCCGACAACGTTGCCTACATGCACTACGAGTGCGAGCTGGTGGCGGTCATCGGCAAACCGGCGCGCAACGTCAAGCGTGAGGACGCGCTGGGCTACCTGGCCGGCTACACCGTCTGCAACGACTACGCGATCCGCGACTACCTGGAAAACTACTACCGCCCCAACCTGCGGGTGAAGAACCGCGACGCCACGACACCGGTCGGCCCGTACATCGTTGACGTTGCCGACGTTGCCGACCCTGGCAACCTGACCTTGCGCACCTGGATCAATGGCGAGTTGCGCCAGCAAGGCAGCACCAAGGACATGATCTTCGATATTCCCTACCTCATCGAATACCTGTCCAGCTTCATGACCCTGCAACCCGGCGACATGATCGCCACCGGCACGCCCGAAGGCCTGGCCGATGTGGTGCCGGGCGATGAAGTGGTCGTGGAAGTGGAAGGCGTCGGTCGCCTGGTCAACACAATCGTCAGCGAAGCCGAGTTCTTCGCGTCCCGGAAAGAGGCTTGA	MKRARIHFEGRVHAVTVENDNAVRLADGRLLAENQVQWLPPATGSMFALGLNYADHAAELAFKPPTEPLAFIKSPGTYTGHNQITWRPDNVAYMHYECELVAVIGKPARNVKREDALGYLAGYTVCNDYAIRDYLENYYRPNLRVKNRDATTPVGPYIVDVADVADPGNLTLRTWINGELRQQGSTKDMIFDIPYLIEYLSSFMTLQPGDMIATGTPEGLADVVPGDEVVVEVEGVGRLVNTIVSEAEFFASRKEA	PGPT0001630_42	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001630-hpaF-K16164	NA	NA
D1-35_04130	1461	betB_2	COG1012	NAD/NADP-dependent betaine aldehyde dehydrogenase	ATGATCAAACACTGGATCGATGGCCGTGAGGTCGAGAGCAAAGACGTCTTCGTCAACTACAACCCCGCCACCGGCGAGGCCATTGGCGAAGTCGCCAGCGGCGGCGCCGAGGAAGTCGCCCAGGCTGTCGCGGCGGCCAAGGCAGCGTTTCCGAAATGGGCCAACACCCCGGCGAAAGAACGGGCCCGGCTGATGCGCAAACTCGGCGAGCTGATCGAACAGAACGTGCCGAAACTGGCCGAACTGGAAACCCTCGACACCGGCTTGCCGATCCACCAGACCAGGAACGTGCTGATCCCAAGGGCTTCTCACAACTTCGATTTCTTCGCCGAAGTCTGCACCCGAATGGACGGTCACACCTACCCGGTCGACGACCAGATGCTCAACTACACCCTGTACCAGCCGGTGGGTGTCTGCGCCTTGGTCTCGCCGTGGAACGTGCCGTTCATGACCGCGACCTGGAAGACCGCGCCGTGCCTGGCACTGGGCAATACCGCCGTGCTGAAAATGTCCGAGCTGTCGCCGCTGACCGCCAACGAACTCGGGCGCCTGGCCGTCGAGGCCGGCATTCCCAACGGGGTGCTCAACGTGATCCAGGGCTACGGCGCCACGGCCGGCGATGCGTTGGTGCGTCACCCGGACGTGCGGGCGATTTCTTTCACCGGCGGCACCGCCACCGGCAAGAAAATCATGCAGACCGCTGGCCTTAAAAAGTACTCGATGGAACTGGGCGGCAAGTCACCGGTACTGATTTTCGAAGACGCCGATCTTGACCGTGCCCTCGACGCGGCACTGTTCACCATCTTCTCGTTGAACGGCGAGCGCTGCACCGCCGGCAGCCGGATCTTCATCCAGGAAAGTGTCTACCCACAATTCGTAGCCGAGTTCGCCGCCCGCGCCAGACGCCTGATCGTCGGCGACCCGCAGGACCCCAAGACCCAGGTCGGCTCGATGATCACCCAGGCCCATTACGACAAGGTCACCGGCTACATCAGGATCGGTCTCGAAGAAGGCGCCACCCTGCTCGCCGGTGGCCTGGAGCGTCCGGCCAACCTGCCGGCGCATCTGAGTTGCGGCCAGTTCATCCAGCCGACGGTGTTCGCCGACGTGAACAACAACATGCGCATCGCCCAGGAAGAAATCTTCGGCCCGGTGGTGTGCCTGATTCCGTTCAAGGACGAGGCCGAAGCCTTGCGGTTGGCCAACGCTACCGAATATGGCCTGGCGTCCTATATCTGGACCCAGGACATCGGCAAGGCCCATCGCCTGGCTCATGGCATCGAGGCCGGCATGGTGTTCATCAACAGCCAGAACGTGCGCGACCTGCGCCAGCCTTTCGGTGGCGTAAAGGGTTCCGGAACCGGCCGCGAAGGCGGACAGTACAGCTTCGAAGTCTTCGCCGAGATCAAGAACGTGTGCATCTCCATGGGCAGCCATCACATTCCGCGCTGGGGGGTATGA	MIKHWIDGREVESKDVFVNYNPATGEAIGEVASGGAEEVAQAVAAAKAAFPKWANTPAKERARLMRKLGELIEQNVPKLAELETLDTGLPIHQTRNVLIPRASHNFDFFAEVCTRMDGHTYPVDDQMLNYTLYQPVGVCALVSPWNVPFMTATWKTAPCLALGNTAVLKMSELSPLTANELGRLAVEAGIPNGVLNVIQGYGATAGDALVRHPDVRAISFTGGTATGKKIMQTAGLKKYSMELGGKSPVLIFEDADLDRALDAALFTIFSLNGERCTAGSRIFIQESVYPQFVAEFAARARRLIVGDPQDPKTQVGSMITQAHYDKVTGYIRIGLEEGATLLAGGLERPANLPAHLSCGQFIQPTVFADVNNNMRIAQEEIFGPVVCLIPFKDEAEALRLANATEYGLASYIWTQDIGKAHRLAHGIEAGMVFINSQNVRDLRQPFGGVKGSGTGREGGQYSFEVFAEIKNVCISMGSHHIPRWGV	PGPT0005060_448	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005060-dmpC|xylG|praB-K10217	NA	NA
D1-35_04131	858	hpcB	COG3384	3,4-dihydroxyphenylacetate 2,3-dioxygenase	ATGGGCGAAGTCGTCCTGGCTGCGAAGATCTGCCACGTTCCGTCGATGTACCTGTCCGAGCTGCCCGGCAAGCATCACGGCTGCCGCGCGGCAGCGATCGCCGGGCACAAGGAAATCGGCCGCCGCGCCCGTGAACTCGGCGCCGATACCGCCGTGGTGTTCGACGTGCACTGGCTGGTCAACAGCGCTTATCACGTCAACAGCGGCGAGCATTTCAAAGGCATCTACACCAGCAACGAACTGCCGCACTTCATCAAAAACATGGAGTACGAATACCCGGGTTGCCCGGAGCTGGGCGAGTTGATCGCCGCCGAGGCCAACGCCGCCGATATCAGGACCTTGGCCCACAACATCCCCAGCCTCGAGCTGGAATACGGCACCTTGGTGCCGATGCGCTACATGCACATGGATGTACCGGCGGAGCAGAAATTCAACGTGGTGTCGATTGCCGCCTGGTGCGCCTGGCACCGCCTGCAGGACAGTTTCACCTTCGGCGCCGCCGTGCGCCGGGCCATCGAGAAGAGCGACCGCAAGGTCCTGGTCCTGGCCTCCGGCTCGCTGTCCCACCGTTTCTCCGACGACCGCAACGCCGAAGCCAATATCCACAACTGGACGCGGGAATTCGACAAGCAGGTCGATCTGCACGTCGTGAAGTTGTGGCGCGAAGGCCGCTGGAAAGAGTTCTGCGCCATGCTGCCGGACTACGCCGAACATTGCTTCGGCGAAGGCAAGATGCACGACACGGCGATGCTGCTGGGGCTGCTCGGCGGGCCGGACTACGCCAAACCCGCCGAAATCATCACCGAGCCCTTCGGCAGCTCCGGCACCGGCCAGATCAACGCGATTTTTCCAGTCTGA	MGEVVLAAKICHVPSMYLSELPGKHHGCRAAAIAGHKEIGRRARELGADTAVVFDVHWLVNSAYHVNSGEHFKGIYTSNELPHFIKNMEYEYPGCPELGELIAAEANAADIRTLAHNIPSLELEYGTLVPMRYMHMDVPAEQKFNVVSIAAWCAWHRLQDSFTFGAAVRRAIEKSDRKVLVLASGSLSHRFSDDRNAEANIHNWTREFDKQVDLHVVKLWREGRWKEFCAMLPDYAEHCFGEGKMHDTAMLLGLLGGPDYAKPAEIITEPFGSSGTGQINAIFPV				NA	NA	NA	NA	NA
D1-35_04132	393	hpcD		5-carboxymethyl-2-hydroxymuconate Delta-isomerase	ATGCCCCATTTCATCGCCGAGTACACCGATAACATCGAGCAGCAGGCCGACCTGCCCGGCCTGTTTGAAAAGGTCCACGTCTTGCTGGGCGACAGCGGCGTGTTTCCCTTGGGCGGCATCCGCAGCCGTGGCGTGCGCCTGGACACCTGGCGCATGGCAGACGGCAGGCACGATTACGCCTTTGTCCATATGACGCTCAAGGTCGGCCATGGTCGCGACCTGGCTACCCGGCAAAAGGTCGCGGAAAAACTCTTCGAACTGATCACCACGCACTTCGCCGACTTGCAGGCCCAACGCCTGCTGGCGTTGTCATTCGAGATGATCGAGCTGCACGAGCAGCTCAACTTCAAGGCCAACAACGTCCACGCCTTTCTCAAGGGCCAGCCCAGCTAG	MPHFIAEYTDNIEQQADLPGLFEKVHVLLGDSGVFPLGGIRSRGVRLDTWRMADGRHDYAFVHMTLKVGHGRDLATRQKVAEKLFELITTHFADLQAQRLLALSFEMIELHEQLNFKANNVHAFLKGQPS				NA	NA	NA	NA	NA
D1-35_04133	1305	nicT_3		Putative metabolite transport protein NicT	ATGAGCACAGCCAATACTGCCGACACCGCCGGCACCCTCGCGCACGACCGCACCCATGCCAGCATCACCTGGCGGCTTATGCCGCTGTTGCTGGTCTGCTACCTCTTTGCCCACCTGGACCGCATCAACATCGGCTTCGCCAAGATGCAGATGAGCGCCGACCTGCAATTCAGCGACACGGTCTATGGCTTCGGCGCCGGTCTGTTCTTCATCGCCTATGCGCTGTTCGGCGTGCCGAGCAACATGGCCCTGGACCGGGTCGGCCCACGTCGCTGGATCGCCACGCTGATGGTGGTCTGGGGCGCGTTGTCGACCGGCATGTTCCTCATCGAAAGCGCCAGCGGGTTCTACGTGTTGCGCTTCTTGCTGGGCGTCGCCGAGGCCGGGTTTTTCCCAGGCATCCTGGTCTTCCTCAACCGCTGGTACCCGGCGCGGCGCCGGGCCCAGGTCACGGCGCTGTTTGCCATTGCCGTGCCGATGGCGGGCGTGATCGGCGGGCCGTTGTCAGGCGGCATATTGGAACATTTCCATGACTTCGGCGGCCTGCGCGGCTGGCAATGGATGTTCATCATCGAAGGCTTGCCGGTGATCCTGCTCGGCCTGGTGGTGCTCAAGTGCCTGCCCGACAGCTTCGAGACGGTCAACTGGCTCAGCGCCGACGCCAAGCAGCAACTGCGCGAGCAACTGAGCCACGAAGAACAGCGCAAATCCATCACCTCGTTCTCGGCCATTCTCGGCAACCCGCAGGTCTGGCTGCTGGTGGCGGTGTATTTCGCGGTGATGCTGGCGGTCAACACCCTGGCGTTCTGGATGCCCACCCTGATCCATGGCGCCGGCATCGGCAGCGATGGCAAGGTCGGGCTGCTCAGCGCCGTGCCTTACCTGGCTGGCTGTTTCTTCATGATCGGTTGCGGACGCTCGTCCGATCACCACCGCGAACGCCGCTGGCACCTGTGCGTGCCGCTGTTGATGGCGGCGGCCGGCATTGCCGTCGCCGGGCTTTCCCCGGCCAATCCGACCCTGGTGCTGGGCGGCCTGATCCTCGCCGGCATGGGCGCCAGTGCCGCGTTGCCGATGTTCTGGCAACTGCCACCGGCGTTCCTGTCCAACAGCACCCAGGCCGCCGGCATCGCACTGATCAGTTCCTTCGGCAGCATCGCTTCGTTCTTCGCGCCCTACCTGATCGGTTGGATGCGCGACACCACCCAGAGCGCCAGCCTGGCCCTTTACGTCCTGGCACTGCTCATCGCCCTGGGTGGCCTGTTGGTGCTGCGCACCCGGGCAGCCATCGTCAATCCACAATAG	MSTANTADTAGTLAHDRTHASITWRLMPLLLVCYLFAHLDRINIGFAKMQMSADLQFSDTVYGFGAGLFFIAYALFGVPSNMALDRVGPRRWIATLMVVWGALSTGMFLIESASGFYVLRFLLGVAEAGFFPGILVFLNRWYPARRRAQVTALFAIAVPMAGVIGGPLSGGILEHFHDFGGLRGWQWMFIIEGLPVILLGLVVLKCLPDSFETVNWLSADAKQQLREQLSHEEQRKSITSFSAILGNPQVWLLVAVYFAVMLAVNTLAFWMPTLIHGAGIGSDGKVGLLSAVPYLAGCFFMIGCGRSSDHHRERRWHLCVPLLMAAAGIAVAGLSPANPTLVLGGLILAGMGASAALPMFWQLPPAFLSNSTQAAGIALISSFGSIASFFAPYLIGWMRDTTQSASLALYVLALLIALGGLLVLRTRAAIVNPQ	PGPT0002325_481	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-ORGANIC_ACID_METABOLISM	P-SOLUBILISATION-TARTARIC_ACID_TRANSPORT,PGPT0002325-ttuB-K13021	NA	NA
D1-35_04134	804	hpcG		2-oxo-hept-4-ene-1,7-dioate hydratase	ATGCTCGATCAAAGCCTCATCCAGCAAGCCGCCGCGCGCCTTGACCAAGCCGAACGCTCCCGTGAACAGGTGCGGCAATTTTCCCTCGATCATCCAGGCATCACCATCGATGACGCCTACGCCATCCAGCGCGCCTGGGTCGCGCAAAAAATCAACGACGGGCGCAAGCTGGTCGGTCACAAGATCGGCCTGACTTCCCGCGCAATGCAGGTCTCGTCGAATATCACCGAACCGGATTATGGCGCGCTGCTGGACGACATGTTTTTCGATGAAGGCAGCGATATTCCGTTCGAACGCTTCATCGTGCCGCGCGTGGAAGTCGAGCTGGCGTTCATTCTCGGCAAGCCGCTCAAAGGCCCGAACGTGACGCTGTTCGACGTGCTTGATGCCACCGAATGGGTGATTCCGGCGCTGGAAATCATCGATGCGCGTATCCAGCAGATCGACCCGCAGACCAAGGTCACCCGCAAGGTCTTCGATACCATCTCCGACAACGCCGCCAATGCCGGCGTGGTCATGGGCGGCCGTGCCGTGCGGCCCACCGAGATCGACCTGCGCAAAGTGCCGGCAGTGCTCTATCGCAACGGCGTGATCGAGGAGTCCGGCGTGTCGGCGGCGGTGCTCAATCACCCGGCCAAGGGCGTGGCCTGGCTGGCGAACAAACTGGCGGCCTACGACGTCACGCTGCAGCCGGGCCAGATCATCCTGGGCGGCTCTTTCACCCGCCCGGTGGCGGCCAATCCGGGCGATACCTTCCATGTCGATTACGACATGCTCGGCTCCATCGCCTGCCGTTTCGTCTGA	MLDQSLIQQAAARLDQAERSREQVRQFSLDHPGITIDDAYAIQRAWVAQKINDGRKLVGHKIGLTSRAMQVSSNITEPDYGALLDDMFFDEGSDIPFERFIVPRVEVELAFILGKPLKGPNVTLFDVLDATEWVIPALEIIDARIQQIDPQTKVTRKVFDTISDNAANAGVVMGGRAVRPTEIDLRKVPAVLYRNGVIEESGVSAAVLNHPAKGVAWLANKLAAYDVTLQPGQIILGGSFTRPVAANPGDTFHVDYDMLGSIACRFV	PGPT0005055_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005055-dmpB|xylE-K00446	NA	NA
D1-35_04135	798	hpcH	COG3836	4-hydroxy-2-oxo-heptane-1,7-dioate aldolase	ATGGACATGCCCGTCAATACCTTCAAGCAACGCCTGCGCAGCGGTGAAGCACAAATCGGCCTGTGGCTGGGCCTGGCCGACGCCTACTGCGCGGAGCTGGCGGCCAATGCCGGATTCGACTGGTTGCTGATCGACGGTGAACACGCGCCCAACGATCTGCGCACCCTGCTTGGCCAGCTCCAGGCCATCGCGCCCTACCCCGGCCAACCGGTGATTCGCCCGGTGATCGGCGACACGGCGCTGATCAAGCAACTGCTCGATATCGGCGCGCAAACGCTACTGGTGCCAATGGTGGAAAGCGCCGCCCAAGCCAGCGAACTGGTGCGCGCCATGCATTACCCGCCGCACGGTGTACGCGGCGTCGGCAGCGCACTGGCCCGGGCCTCGCGCTGGAACAGCATTGCCGGCTACCTCGACCACGCCGATGAGCAGATGTGCCTGCTGGTGCAGATCGAAAGCTGCGAGGGACTCGCCAACCTGGACGCCATCGCCGCCGTCGAGGGCGTCGACGGGGTGTTCATCGGCCCGGCGGACTTGAGCGCATCGATGGGCCATCGCGGCAATCCCGGCCACCCGCAAGTGCAAGCCGCCATCGAGGACGCCATCGCGCGTATTCGCCAGGCGGGCAAAGCGGCCGGGATCCTCAGCGCCGACGAGACACTCGCCCGACGCTACATCGAACTCGGCGCAGCCTTTGTCGCCGTGGGCGTGGACACGACGGTGCTGATGCGCGGGTTACAAACCTTGGCCGCGACGTTCAAGAACACTCCAAAACCATCGACCGGTGGCGTCTACTGA	MDMPVNTFKQRLRSGEAQIGLWLGLADAYCAELAANAGFDWLLIDGEHAPNDLRTLLGQLQAIAPYPGQPVIRPVIGDTALIKQLLDIGAQTLLVPMVESAAQASELVRAMHYPPHGVRGVGSALARASRWNSIAGYLDHADEQMCLLVQIESCEGLANLDAIAAVEGVDGVFIGPADLSASMGHRGNPGHPQVQAAIEDAIARIRQAGKAAGILSADETLARRYIELGAAFVAVGVDTTVLMRGLQTLAATFKNTPKPSTGGVY	PGPT0001575_749	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001575-hpaI|hpcH-K02510	NA	NA
D1-35_04136	423	farR_2		HTH-type transcriptional regulator FarR	ATGCCCAAACCCCGGCAATCCCTGACCTTGACCCTGCTGCAGGCCCGTGAAGCGGCCATGGCTTTTTTCCGTCCATCGTTGAACCAACATGGGTTGACCGAGCAACAGTGGCGGGTCATCCGCATCCTCAGCCAGCATGACGAGCTGGAAATCAATCGCCTGGCCGAACTGGCTTGTATCCTCAAGCCGAGCATGACCGGCGTGCTGGTACGCATGGAAGCAGCGGGCATGGTCGTGCGGCGCAAGGCCGAACAGGACCAGCGCCGCGTGCTGGTGCGGCTGGCACCCCAGGGCCAGGCATGCTTCGACTCGATGAGCCAGAGCATGGAGGAAAACTACCAGCGTCTGCAGGGGCGGTTGGGGGAGGAGAAATTGCAGACGTTGTTGGGGTTGCTTGATGACCTCAAGACAATCAAACGCTAG	MPKPRQSLTLTLLQAREAAMAFFRPSLNQHGLTEQQWRVIRILSQHDELEINRLAELACILKPSMTGVLVRMEAAGMVVRRKAEQDQRRVLVRLAPQGQACFDSMSQSMEENYQRLQGRLGEEKLQTLLGLLDDLKTIKR				NA	NA	NA	NA	NA
D1-35_04137	4869	gdhB	COG2902	NAD-specific glutamate dehydrogenase	ATGGCGTTCTTCACCGCAGCCAGCAAAGCCGACTTCCAGCACCAACTGCAAGCGGCACTGGCGCAGCACATCAGTGAACAGGCACTGCCACAAGTGGCGCTGTTCGCTGAACAATTCTTCGGCATCATTTCCCTCGATGAACTCACCCAGCGCCGGTTGTCCGACCTCGCCGGCTGCACCCTGTCCGCCTGGCGCCTGCTTGAGCGCTTCGATCACGCGCAACCGCAGGTGCGTGTCTACAACCCCGATTATGAACGTCACGGCTGGCAGTCGACCCACACCGCCGTCGAAGTGCTGCACCACGACCTGCCATTTCTGGTGGACTCGGTCCGCACCGAGCTGAACCGTCGCGGCTACAGCATCCATACCCTGCAAACCACCGTCCTGAGCGTGCGTCGCGGCAGCAAGGGCGAGTTGCTGGAAATCCTGCCCAAAGGCACCCAGGGCGACGACGTGCTGCAAGAGTCGTTGATGTACCTGGAGATCGACCGCTGCGCCAATGCCGCTGAACTCAATGTCCTGAGCAAGGAACTTGAGCAGGTGCTGGGCGAAGTGCGCGTGGCCGTGGCCGATTTCGAGCCGATGAAAGCCAAGGTCCGGGAAATCCTCGCGAGCCTGGACAACAGCGCCTACACCACCGATGCCGACGAAAAAGCCGAAATCAAGAGCTTCCTGGAATGGCTGGTGGGCAACCACTTCACCTTCCTCGGCTATGAAGAGTTCGTGGTTCGCGATGAAGCCGACGGCGGCCACATCGAATACGATCCTGAATCGTTCCTCGGCCTGACCAAATTGCTGCGCGCCGGCCTGACCGCCGAAGACCTGCGCATCGAAGACTACGCGGTCAATTACCTGCGCGAACCGACCGTGTTGTCGTTCGCCAAGGCCGCGCACCCAAGCCGCGTGCACCGTCCGGCCTACCCGGACTACGTGTCGATCCGTGAAATCGACGCCAACGGCAAGGTCATCAAGGAATGCCGTTTCATGGGCCTGTACACCTCTTCGGTGTACGGCGAAAGCGTGCGGGTCATTCCGTATATCCGTCGCAAGGTCGAGGAAATCGAACGTCGTTCGGGCTTCCAGGCCAAGGCGCACCTGGGCAAGGAACTGGCCCAGGTGGTCGAAGTGCTGCCCCGTGACGACCTGTTCCAGACCCCGGTGGACGAGCTGTTCAGCACGGTGATGTCCATCGTCCAGATCCAGGAACGCAACAAGATCCGCGTGTTCCTGCGCAAGGACCCGTACGGTCGTTTCTGCTACTGCCTGGCCTATGTGCCGCGTGACATCTACTCCACCGAAGTGCGCCAGAAGATCCAGCAAGTGCTGATGGATCGCCTGAAAGCCTCGGACTGCGAGTTCTGGACGTTCTTCTCTGAATCCGTACTGGCTCGCGTGCAACTGATCCTGCGCGTGGACCCGAAAAACCGTCTCGACATCGACCCGGTCCTGCTGGAAAAAGAAGTCGTGCAGGCCTGCCGCAGCTGGAAGGACGACTACGCCAGCCTGGTGATCGAGAGCTTCGGCGAAGCCCAGGGCACCAACGTGCTGTCGGATTTCCCGAAAGGCTTCCCGGCCGGCTACCGCGAGCGTTTTGCCGCGCACTCGGCCGTAGTGGACATGCAACACCTGCTGAGCCTGAATGAAACCAATCCGCTGGTGATGAGCTTCTACCAGCCGTTGGGCCAGGTGTCCGGCCAGCGTGAGCTGCACTGCAAGCTGTATCACGCCGACACGCCGCTGGCGCTGTCCGACGTGCTGCCGATCCTGGAGAACCTCGGCCTGCGCGTGCTGGGCGAGTTCCCGTATCGCCTGCGCCACACCAACGGCCGCGAGTTCTGGATTCACGATTTCGCGTTCACCGCCGCCGAAGGCCTCGACCTCGACATCCAGCAACTCAACGACACCCTGCAGGACGCCTTTGTCCACATCGTCCGTGGCGATGCCGAGAACGACGCGTTCAACCGCCTGGTGCTGACCGCCGGCCTGCCATGGCGCGACGTGGCGTTGCTGCGTGCCTACGCCCGTTACCTGAAGCAGATCCGCCTGGGCTTCGACCTCGGCTACATCGCCAGCACCCTGAACAACCACACCGATATCGCTCGCGAGCTGACCCGGTTGTTCAAGACGCGTTTCTACCTGGCGCGCAAGCTCAGCGGCGATGACCTGGAAGACAAGCAACAGCGTCTGGAACAGGCGATCCTCACGGCCCTCGACGATGTGCAGGTGCTCAATGAAGACCGCATCCTGCGTCGTTACCTGGACCTGATCAAGGCGACCCTGCGGACCAACTTCTACCAGACCGACGCCAACGGCCATAACAAGTCGTACTTCAGCTTCAAGTTCAACCCGCACCTGATTCCGGAACTGCCAAAGCCGGTGCCCAAGTTCGAGATCTTCGTCTACTCGCCACGGGTCGAAGGCGTGCACCTGCGCTTCGGCAACGTCGCTCGCGGTGGCCTGCGCTGGTCCGACCGCGAGGAAGACTACCGCACCGAAGTACTCGGCCTGGTAAAAGCCCAGCAAGTGAAGAACTCGGTGATCGTGCCGGTGGGCGCCAAGGGCGGTTTCCTGCCGCGTCGCCTGCCATTGGGCGGCAGCCGGGACGAGATCGCGGCCGAGGGCATCGCCTGCTACCGCATCTTCATCTCGGGTCTGCTGGACATCACCGACAACCTGAAGGACGGCGCCCTGGTGCCGCCGGTCAACGTCGTGCGGCATGACGATGATGACCCGTACCTGGTGGTGGCGGCCGACAAAGGCACCGCGACCTTCTCCGACATCGCCAACGGCATCGCCATCGACTACGGCTTCTGGCTGGGTGACGCGTTCGCCTCCGGCGGTTCGGCCGGCTACGACCACAAGAAAATGGGCATCACCGCCAAAGGCGCGTGGGTTGGCGTACAGCGTCACTTCCGCGAGCGCGGCATCAACGTACAGGAAGACAGCATCACCGTGGTGGGCGTCGGCGACATGGCCGGCGACGTGTTCGGCAACGGCTTGCTGATGTCCGACAAGCTGCAACTGGTCGCGGCCTTCAACCACCTGCACATCTTCATCGACCCGAACCCGGAGCCGGCCAGCAGTTTCGCCGAGCGCAAGCGTCTGTTCGATCTGCCGCGTTCGGCCTGGACCGACTACGACGCCAGCATCATGTCCGAAGGCGGCGGTATCTTCTCGCGCAGCGCGAAGAGCATCGCGATTTCGCCGCAGATGAAAGAGCGCTTCGACATCAGGGCCGACAAGCTGACCCCGACCGAGCTGCTGAACGCCTTGCTCAAGGCGCCGGTAGACCTGTTGTGGAACGGCGGTATCGGCACCTACGTCAAGGCCAGCACCGAAAGCCACGCCGATGTCGGCGACAAGGCCAACGATGCGCTGCGCGTGAACGGTAACGAGCTGCGCTGCAAGGTGGTGGGCGAGGGCGGCAACCTGGGCATGACCCAGCTCGGCCGCGTCGAGTTCGGCCTGCATGGCGGCGCCACCAACACCGACTTCATCGACAACGCCGGTGGCGTGGACTGCTCCGACCACGAAGTGAACATCAAGATCCTGCTCAACGAAGTGGTGCAGGCCGGCGACATGACCGACAAGCAACGCAACCAGTTGCTGGCGAGCATGACCGACGAAGTCGGCGGCCTGGTGTTGGGCAACAACTACAAGCAGACCCAGGCCCTGTCCCTGGCGGCGCGTCGCGCCTTTGTGCGGATCGCCGAATACAAGCGTCTGATGAACGACCTGGAAGCTCGCGGCAAGCTGGACCGTGCCATCGAGTTCCTGCCGACCGAAGACCAACTGGCCGAACGTGTCGCGGCAGGCCAGGGCCTGACCCGTGCCGAGCTTTCGGTACTGATCTCCTACAGCAAGATCGACCTCAAGGAAGCGCTGCTCAATTCCCTGGTGCCGGACGATGACTACCTGACCCGCGACATGGAGACGGCTTTCCCGCCAACGCTGGTGAGCAAGTTCTCCGAGGCCATGCGTCGCCATCGCCTGAAACGCGAAATCGTCAGCACCCAGATCGCCAACGATCTGGTCAACCACATGGGCATCACGTTCGTCCAGCGGTTGAAAGAGTCGACCGGCATGAGCCCGGCGAACGTGGCCGGTGCTTATGTAATCGTTCGGGACATCTTCCATCTCCCGCACTGGTTCCGTCAGATCGAAGCCCTGGACCACCAGGTTTCCGCCGACGTGCAACTGGAGCTGATGGACGAGCTGATGCGCCTGGGCCGTCGCGCCACGCGCTGGTTCCTGCGCAGCCGCCGCAACGAGCAGAATGCTGCTCGTGACGTCGCTCACTTCGGTCCGCACCTGGCGGCGTTGGGCCTCAAGCTCGACGAACTGCTGGAAGGCCCGACCCGCGAAGGCTGGCAGACCCGCTACCAGGCCTACGTGGCCGCCGGCGTGCCGGAGTTGCTGGCGCGCATGGTTGCCGGCACCACGCACCTGTACACCTTGCTGCCGATCATCGAGGCGTCCGACGTCACCGGCCAGAACGCCGCCGATGTGGCCAAGGCCTACTTCGCCGTGGGCAGTGCGCTGGACATCACCTGGTACCTGCAACAGATCAGCGCCTTGCCGGTTGAAAACAACTGGCAGGCCCTGGCCCGTGAAGCGTTCCGCGATGACATCGACTGGCAGCAGCGGGCGATCACCATCTCGGTCCTGCAGGAAGGCGACGGTAGCCAGGACGTGGAAACCCGTCTGGCGCTGTGGCTGGAGCAGCACCGCGAGATGGTCGAGCGCTGGCGCGCCATGCTGGTGGACATCCGTGCCGCCAGTGGTACCGACTACGCCATGTACGCAGTCGCCAACCGCGAACTGCTCGACCTGGCGCTGAGCGGTCAGGCGGTGGTCACGGCCAACTGA	MAFFTAASKADFQHQLQAALAQHISEQALPQVALFAEQFFGIISLDELTQRRLSDLAGCTLSAWRLLERFDHAQPQVRVYNPDYERHGWQSTHTAVEVLHHDLPFLVDSVRTELNRRGYSIHTLQTTVLSVRRGSKGELLEILPKGTQGDDVLQESLMYLEIDRCANAAELNVLSKELEQVLGEVRVAVADFEPMKAKVREILASLDNSAYTTDADEKAEIKSFLEWLVGNHFTFLGYEEFVVRDEADGGHIEYDPESFLGLTKLLRAGLTAEDLRIEDYAVNYLREPTVLSFAKAAHPSRVHRPAYPDYVSIREIDANGKVIKECRFMGLYTSSVYGESVRVIPYIRRKVEEIERRSGFQAKAHLGKELAQVVEVLPRDDLFQTPVDELFSTVMSIVQIQERNKIRVFLRKDPYGRFCYCLAYVPRDIYSTEVRQKIQQVLMDRLKASDCEFWTFFSESVLARVQLILRVDPKNRLDIDPVLLEKEVVQACRSWKDDYASLVIESFGEAQGTNVLSDFPKGFPAGYRERFAAHSAVVDMQHLLSLNETNPLVMSFYQPLGQVSGQRELHCKLYHADTPLALSDVLPILENLGLRVLGEFPYRLRHTNGREFWIHDFAFTAAEGLDLDIQQLNDTLQDAFVHIVRGDAENDAFNRLVLTAGLPWRDVALLRAYARYLKQIRLGFDLGYIASTLNNHTDIARELTRLFKTRFYLARKLSGDDLEDKQQRLEQAILTALDDVQVLNEDRILRRYLDLIKATLRTNFYQTDANGHNKSYFSFKFNPHLIPELPKPVPKFEIFVYSPRVEGVHLRFGNVARGGLRWSDREEDYRTEVLGLVKAQQVKNSVIVPVGAKGGFLPRRLPLGGSRDEIAAEGIACYRIFISGLLDITDNLKDGALVPPVNVVRHDDDDPYLVVAADKGTATFSDIANGIAIDYGFWLGDAFASGGSAGYDHKKMGITAKGAWVGVQRHFRERGINVQEDSITVVGVGDMAGDVFGNGLLMSDKLQLVAAFNHLHIFIDPNPEPASSFAERKRLFDLPRSAWTDYDASIMSEGGGIFSRSAKSIAISPQMKERFDIRADKLTPTELLNALLKAPVDLLWNGGIGTYVKASTESHADVGDKANDALRVNGNELRCKVVGEGGNLGMTQLGRVEFGLHGGATNTDFIDNAGGVDCSDHEVNIKILLNEVVQAGDMTDKQRNQLLASMTDEVGGLVLGNNYKQTQALSLAARRAFVRIAEYKRLMNDLEARGKLDRAIEFLPTEDQLAERVAAGQGLTRAELSVLISYSKIDLKEALLNSLVPDDDYLTRDMETAFPPTLVSKFSEAMRRHRLKREIVSTQIANDLVNHMGITFVQRLKESTGMSPANVAGAYVIVRDIFHLPHWFRQIEALDHQVSADVQLELMDELMRLGRRATRWFLRSRRNEQNAARDVAHFGPHLAALGLKLDELLEGPTREGWQTRYQAYVAAGVPELLARMVAGTTHLYTLLPIIEASDVTGQNAADVAKAYFAVGSALDITWYLQQISALPVENNWQALAREAFRDDIDWQQRAITISVLQEGDGSQDVETRLALWLEQHREMVERWRAMLVDIRAASGTDYAMYAVANRELLDLALSGQAVVTAN	PGPT0014290_497	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014290-gdhB-K15371	NA	NA
D1-35_04138	354			hypothetical protein	ATGCAAATGACCACCGCCCTGCTGATCGCCAACCCGTGCGACGAAGAAGAGGACAACATGGCCATGCTGTGCTGCCACAGCAACCAGGGCGACATGTTCCTGATGACCCGCTATCCCGACGAAGACGAACTGGAGATCACCCTCGACGGCGAGCCTTCGACACTGGAAGGCGTCAAGGTCACCCTCAGCCCAACCTTGTTGAAAATCGAAATCGCCGCCGCGGATGCCGATGCACTCAACGGTGATGACGTGCTGGAGATAACCTACGACGCAAACGTGACGGATCTGGCGGAAGTGGAACTGACGTTGCAGAACATTCTCAAGGGAACCGGTACTTACCTCAGCCAGCTCTGA	MQMTTALLIANPCDEEEDNMAMLCCHSNQGDMFLMTRYPDEDELEITLDGEPSTLEGVKVTLSPTLLKIEIAAADADALNGDDVLEITYDANVTDLAEVELTLQNILKGTGTYLSQL				NA	NA	NA	NA	NA
D1-35_04139	2154			hypothetical protein	ATGAACCTTACCCAGCCTCGTTTGAGATTGCTGTCGATATTGAGTGTGATCGTATTGGTGATAGGCGGTATGTCCTACGCCCTGTTTCGTCACAGCGGCGCGCCGCAAGACGAAGGTTTTGTCGCCGGGGAAATCAACGAAGGGGGCCTGGAAGACATCGGCACGCTGGCGTTGCCCGAGGTGGAAAAGCGCCTCAACTATTTGCTTCAGGACACCGGGCAAACCCTGCGGTCCCTGGAGTTGGTCAGTGATGCGCAACTGAGCTTGTCCATCGAAACGAGCGAGTCTGCCGGCGAGCAGTCGTTGCAATACGAGCCGCTGTTTGTCCCGTTCACCAGCGCGCAGCTGAAAGCTGAACTGGCGACGATCCAAGGCCTGCGTTTTGCCCAGAGGCTGTTTGCCGATGGCTCCGAAGCAAGGCTCGACACCAGCAGCCTCGATCCGCTCTGGAAGCGCGCCGGCACCCCGGACGAGCCCGTGGCCGAGCGGTACCTGCCGCAACGCCTGCGCTTTCGTGATGGCAGCGAAAAAGCCTTCGCCGAACTCAAGGCACCCCCCGAAATTGAGTCTGACGACATGATCGCGTCCCATGACGCCTTCCTGATCGATGTCAACAAGCCATTGGCGAGTATCGGCCTGACGGTTGCTTACCGCAGCTATCCGGCGTTCAGGAAAGTGCAACTGGACAAGGATCAGCCGAAAGTAACGCTGGACGACGGCCAATCCTTCCAGCTCACCGCCTTGGGCGACGCGAGCGCCTCCGTGCGCTTGAGCACGCCGAAGTCGTCGACCTTCGTCGTGCAGGGCCTGGACGGGACGGGCAAGGCGCTCTACAGCAACGGCAGCAGTTCGCGGACGTTTCCCTCCGAGAGCGATATCGCAGCGTTGCAGGATTATTACCAAGCGCTGCAGCAGACCAAGGATGATCTCAAGCAACTCAAGACCGGCCAGGCGGTGCAACAACAGCTGGAGCGCCTGACCGAAGCGCTTGTCGCCCAGGTGGGGCCGTTGAAAAACACCGAGGTCGGGTACCAGTTCGAGGCCACCCCGCAACGTATCGTCATTCATGTGCTCGAGCCGCTGGAAGACAACAGCGTTGAATTCGGCCAGGTCGACAACGTCCTTGCGCCACAGGCGCGTTACATCGCTCTTGACCGGGGCACCGAGCGCTACGGTTTCATCGATGAGGCCGGCCAGTGGCTGACCAAGCCCCGTTGGGTACAGATACAGGACAGCCTGATGGCGGATGCCTACACGCTGTTTTCAGCCGCTAAGCCCAGCGACCCGGAGTCGGACGGGCAGGCGTTGCGCAGCCAGTTCGCCTATTTCCCCGCGGGCGGCAACAAGCTCGTCGATCTGCCATTCGAGTACATCGCCGAGGCATTGAGCGATGGCCTGCTGCTGGTGGAGCGAGAAACCAACGGCCCTTACGGGCTCTACGATGCCAGGAAGCATCGTTTCATCTTGCCGATGAAATTCGTCAACCCCACCGTGGCCGGCAAGGTGTTCATTGCCCGTCTCGGCAAGCGCACCGATCTCATGGAAGGCCTGTACGGCGCCTATTCCCTGGAGGGTAAGGAAATCCTGCCAGCGCAGTTTTCCGGCATCGAGCACAGCGAGGGTTACCTCTACGCCAGTTCCGCCGATCGGACCCGGCAGGATGTCTACAACCTGGACGGCAAGCGGATCAACCCCGAGGGATACAACACGTCAGGTCGCTTCGTGGGACAGCAACCGCTGCTCGTGCAGGAGGTTAAAAGCAAGAAGTTCGCGTTTATCAATCGCCAGGGCGCGCGATTGCCTATCAAGTTGCCCTATGACGAGGTGGAGCCGTTTTCCAACGGCATGGCGGTGGTCGGGCGCGATGGCAGCTACGGCGCCATCGACCTGGCCGGCAGGCTGAAGGTGCCGCTGGAGTATGACCGGCTCAACGCCTTCCAGACCCGCTACGCAGCCGCCACCCGGGCCGGTGGTGGTTCTGCCCTGGTGTTGATCAGTCAAGACAACAAACTGTTCAAGAAACTGGGCTCCTACACCAGCATGAAGGTGCCGGATAACGGCAATGAGGCCCGTTATTATGTAAGGGGACCGGGTGATAGCGATGAGTATCTGGTGTATGACGCGGATGGCAATCTGGTGAAGGAGGGTGGGTAA	MNLTQPRLRLLSILSVIVLVIGGMSYALFRHSGAPQDEGFVAGEINEGGLEDIGTLALPEVEKRLNYLLQDTGQTLRSLELVSDAQLSLSIETSESAGEQSLQYEPLFVPFTSAQLKAELATIQGLRFAQRLFADGSEARLDTSSLDPLWKRAGTPDEPVAERYLPQRLRFRDGSEKAFAELKAPPEIESDDMIASHDAFLIDVNKPLASIGLTVAYRSYPAFRKVQLDKDQPKVTLDDGQSFQLTALGDASASVRLSTPKSSTFVVQGLDGTGKALYSNGSSSRTFPSESDIAALQDYYQALQQTKDDLKQLKTGQAVQQQLERLTEALVAQVGPLKNTEVGYQFEATPQRIVIHVLEPLEDNSVEFGQVDNVLAPQARYIALDRGTERYGFIDEAGQWLTKPRWVQIQDSLMADAYTLFSAAKPSDPESDGQALRSQFAYFPAGGNKLVDLPFEYIAEALSDGLLLVERETNGPYGLYDARKHRFILPMKFVNPTVAGKVFIARLGKRTDLMEGLYGAYSLEGKEILPAQFSGIEHSEGYLYASSADRTRQDVYNLDGKRINPEGYNTSGRFVGQQPLLVQEVKSKKFAFINRQGARLPIKLPYDEVEPFSNGMAVVGRDGSYGAIDLAGRLKVPLEYDRLNAFQTRYAAATRAGGGSALVLISQDNKLFKKLGSYTSMKVPDNGNEARYYVRGPGDSDEYLVYDADGNLVKEGG				NA	NA	NA	NA	NA
D1-35_04140	1026	kdgR_3	COG1609	HTH-type transcriptional regulator KdgR	GTGACTTCTTTCTCCGCCGCCCAGCGCAGCCGCGTGACCATGCTTGATGTCGCCGAGCGCGCCGGGGTCTCCAAGGCCAGTGTCTCGCGCTTCATTGGCGAAGACCGCGCCCTGCTTTCCGAAGCCATCGCCCGGCGCATCGAGCAGGCGATCGACGAGCTGGGCTACCGGCCCAACCAGATGGCCCGCGGCCTCAAGCGCGGCCGCACCCGCCTGATCGGCATGCTCGTGGCCGATATCCGCAACCCTTATTCGATTGCCGTGATGCATGGCGTGGAAACCGCTTGCCGTCGCCACGGCTACAGCCTGGTGGTGTGCAACACCGACCGCGATGACGAGCAGGAACGCCAGCACCTGGCGCTGTTGCGCGCCTACAACATCGAAGGGCTGATCGTGAACACCCTGGGTCATCACCGCGACGAGCTGTTCGAGCTGCGCAGCGAAATGCCCATGGTGCTGGTAGATCGCAAGGTCGACCGGCTCGACACCGACCTGGTCGGGCTGGACAATCCGGCGGCCGTCGAGATGGCCCTCGATCACCTTGACCAGCGAGGCTACCGCGACCTGCTGCTGGTGACCGAGCCATTCGATGGCACGAGTTCGCGGATCGAACGGGTCGAGAGTTTCAAGACCGGCATCCAACGGCGTCCAGCCCTGGCCGGGGCCGTGGTGGAAACCGGCGATCAACTCCTTGCGCGCATCAAGACCTTTCTCGCCCAGCCGGACCGGGGCCCCAAGGCGCTGTTCTGCGCCAACGGCATCGCCGCGCTGGCCGCCACTCAGGTACTGCGCGACCTCGGTTGCCATTTGTTCAACGACATCGGCCTGATCGCCCTGGATGACCTGGACTGGTACCCGTTGGTGGGCAGCGGCATCACCGCCCTCGCCCAACCCACCGCCGAAATCGGCGCCCGTGCATTCGAATGCCTGCTCAAGCGCTTGCGCGGTGACAACGGGCCGGTGCAGACCCTGGATTTTGCGGCGCGGTTGATTGAGCGCGGGTCGACACGGGGAAACTTGCGGTGA	MTSFSAAQRSRVTMLDVAERAGVSKASVSRFIGEDRALLSEAIARRIEQAIDELGYRPNQMARGLKRGRTRLIGMLVADIRNPYSIAVMHGVETACRRHGYSLVVCNTDRDDEQERQHLALLRAYNIEGLIVNTLGHHRDELFELRSEMPMVLVDRKVDRLDTDLVGLDNPAAVEMALDHLDQRGYRDLLLVTEPFDGTSSRIERVESFKTGIQRRPALAGAVVETGDQLLARIKTFLAQPDRGPKALFCANGIAALAATQVLRDLGCHLFNDIGLIALDDLDWYPLVGSGITALAQPTAEIGARAFECLLKRLRGDNGPVQTLDFAARLIERGSTRGNLR				NA	NA	NA	NA	NA
D1-35_04141	783			hypothetical protein	ATGACCAGACCACACGTTTCCATCAGCCTATCCAGCTTCGGCGCCGACCTCGTGCGCCAACGCGGCCAAGGCAGCTTCGTCGAACTGCTGGCCGCCGCCGGTGCCTCGCGCATCGAATGGCGCGAGGAACTGTTCACCCACGAACAGCCCGACGAGCTGGCTGCTGGCGCCCGGGCTCAAGGGCTGGCAAGCATTTATTCATCGCCACTCGAACTCTGGCTGCCCGGCCAACCCAGGCCCAATCCCGCTCTGCTGGTCGCCTTGCAACGTTGCGAGGCGTTCGGCTCGTCCTGGCTGAAAGTGTCCCTCGGCCACTTCACCGATTCCCATGATCTCTCGGCCCTGGCGCCAATATTGGCGACAAGCCCGTTGCAACTGCTGGTGGAAAACGACCAGACCCTGCAGGGCGGACGGATCGAACCCCTGCAGCGTTTTTTCACGGCAGTTGAAGCACAGGGGTTGCCCGTCGCCATGACCTTCGACATTGGCAACTGGCAGTGGCAGGACCAATCGGCCACCGTGGCGGCGCGCCAACTCGGACGGCATGTGGCGTATGTGCACTGCAAGGCCGTGGCCCGACGTGACGACGGCAAGCTGATCGCCGTGCCCCCGGCGCTGGCAGACCTGCACCTGTGGGAACAATTGCTCAAGCACATGCCCGTCGGGGTGATGCGCGCCGCCGAGTATCCGCTGCAAGGCGACGACCTGGCGCAACTGACCGCTGAACATGTCGCCACCCTGTCCCGCCTCGGGCAATCGCGTCGGGAGAGTGCTCATGCCTGA	MTRPHVSISLSSFGADLVRQRGQGSFVELLAAAGASRIEWREELFTHEQPDELAAGARAQGLASIYSSPLELWLPGQPRPNPALLVALQRCEAFGSSWLKVSLGHFTDSHDLSALAPILATSPLQLLVENDQTLQGGRIEPLQRFFTAVEAQGLPVAMTFDIGNWQWQDQSATVAARQLGRHVAYVHCKAVARRDDGKLIAVPPALADLHLWEQLLKHMPVGVMRAAEYPLQGDDLAQLTAEHVATLSRLGQSRRESAHA	PGPT0018060_3	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0018060-kdgK-K00874	NA	NA
D1-35_04142	981	kdgK_2	COG0524	2-dehydro-3-deoxygluconokinase	ATGCCTGAGTTCGATGTATTGTCGTTCGGCGAAACCATGGCGATGCTGGTGGCCGACCAGAGCGGCGACCTGGCCAGCGTCGACCAGTTTCACAAACGCATCGCCGGGGCCGACAGCAATGTCGCCATCGGCTTGGCGCGGCTGGGTTTCCAGGTGGCCTGGCTCAGCCGGGTCGGCGCCGACTCCCTGGGACGCTTCGTGGTGCAGACGCTGGAGAGAGAAGGCCTGGATTGCCGCCACGTGGCGGTCGATCCGGCGCACCCCACCGGATTCCAGTTCAAGTCCCGCACCGATGACGGCAGCGATCCGCAGGTCGAGTACTTCCGTCGCGGCTCGGCGGCCAGTCACTTGTCGATCGATTCCATCGCACCGCCCCTGCTCCGCGCCCGTCATCTGCACGCTACCGGCATCGTCCCCGCGCTGTCGGACACAGCCCGAGCAATGTCCTTCGAATTGATGAGCCGCATGCGCGAGGCCGGCCGCAGCCTGTCGTTCGACCCCAACCTGCGCCCGAGCCTGTGGGCCAGCGAAGCGTTGATGATCAGCGAGATCAACCGCCATGCCGCCCTCGCCCACTGGGTCTTGCCGGGCCTCGGCGAAGGTCGGTTGCTGACCGGTTTTGACGACCCGGCCGACATTGCTGCCTTTTACCTGGACCAAGGTGCCGAAGTCGTGGTGATCAAGCTTGGCCCGGACGGCGCCTACTACCGCACCCAGCTGGGCCAGGGATTTGTCGCCGGCGTGCCGGTGTCCAGAGTAGTGGACACCGTCGGTGCCGGCGATGGTTTTGCCGTCGGCCTGATCAGCGCGTTGCTCGAAGGCCGCGACGTCAGCGAGGCGGTACAGCGCGCCAACTGGATCGGCAGCCGCGCGGTGCAGAGCCGCGGGGATATGGAAGGCTTGCCGACACGCCAAGAATTACTGGCCGAATTTGAAACTGCCGATCGCGAGCAGGCTCGCTCCCACAAGGGCCGCCGCTGA	MPEFDVLSFGETMAMLVADQSGDLASVDQFHKRIAGADSNVAIGLARLGFQVAWLSRVGADSLGRFVVQTLEREGLDCRHVAVDPAHPTGFQFKSRTDDGSDPQVEYFRRGSAASHLSIDSIAPPLLRARHLHATGIVPALSDTARAMSFELMSRMREAGRSLSFDPNLRPSLWASEALMISEINRHAALAHWVLPGLGEGRLLTGFDDPADIAAFYLDQGAEVVVIKLGPDGAYYRTQLGQGFVAGVPVSRVVDTVGAGDGFAVGLISALLEGRDVSEAVQRANWIGSRAVQSRGDMEGLPTRQELLAEFETADREQARSHKGRR	PGPT0018060_1473	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0018060-kdgK-K00874	NA	NA
D1-35_04143	1299	ttuB_2		Putative tartrate transporter	ATGCAAACGCTCAACCTCGCCACCCGCCGCTGGTGGTACATCATGCCCATCGTGTTCATCACCTACAGCCTGGCCTACCTCGACCGCGCCAACTATGGCTTCGCCGCCGCGTCGGGCATGGCCGAGGACCTGATGATCACCCCTGGGCTGTCCTCGTTGCTCGGCGCACTGTTTTTCCTCGGCTATTTTTTCTTCCAGGTGCCGGGAGCGATATACGCGCAAAAGCACAGCGTCAAGAAGCTGATCTTCGTCAGCCTGATCCTCTGGGGCTCGCTGGCGACCCTCACCGGGGTGGTGTCCAACGCGTACTGGCTGATCGTGATCCGCTTCATGCTCGGCGTGGTGGAAGCCGCCGTGATGCCGGCGATGCTGGTCTATCTGTGTCACTGGTTCACTCGGGCCGAACGCTCGCGCGCCAACACTTTCCTGATCCTCGGCAACCCGGTGACCATGTTGTGGATGTCAGTGGTCTCAGGCTATCTGGTGGAGCAATTCGACTGGCGCTGGATGTTCATCATCGAGGGGCTGCCGGCGGTGCTCTGGGCCTTTGTCTGGTGGCGCCTGGCCGATGATCGCCCGGCCCAGGCCAAGTGGCTCAGCGACCAGGAAAAACAAGACCTGGAAACCGTGCTGGCGGCCGAACAGGTCGGCATCAAGGCAGTGAAAAACTATGCCGAGGCCTTCCGCTCGCCCAAGGTGATCATCCTGGCCCTGCAGTTTTTCTGCTGGAGCATCGGCGTCTACGGGTTTGTGCTGTGGTTGCCGTCGATCCTCAAGGCCGGCCTGAAAATGAACATGGTCGAGGCCGGGTGGCTGTCATCGCTGCCTTATCTGGCGGCGGTAATCGCCATGCTGATCGTCTCCTGGGCGTCGGACAAGGTGCAGAAGCGCAAGCGTTTTGTCTGGCCGCCGCTGCTGATCGCCTCCATCGCCTTCTACGCCTCCTATTTGCTCGGGGCGGAACATTTCTGGTGGTCCTACGCCTTGCTGGTGCTTGCCGGCGCGTGCATGTACGCGCCCTACGGTCCGTTTTTCGCCATCGTTCCGGAAATCCTCCCGGCCAACGTCGCCGGCGGCGCCATGGCGCTGATCAACAGCATGGGCGCGCTGGGCTCGTTCGGCGGCTCGTACCTGGTGGGCTACCTCAATGGCTCCACCGGCTCCACCGGCATGTCCTTCCTGCTGATGAGTGGCGCGTTGCTGCTGTCGGTGGTGCTGACCCTAGCCCTCAAGCCCGGCGCCAGTGACCGGGTCGTGTCCAAAACCGCGACGCCAAACCCGGCGCCAGCACGTTCCTGA	MQTLNLATRRWWYIMPIVFITYSLAYLDRANYGFAAASGMAEDLMITPGLSSLLGALFFLGYFFFQVPGAIYAQKHSVKKLIFVSLILWGSLATLTGVVSNAYWLIVIRFMLGVVEAAVMPAMLVYLCHWFTRAERSRANTFLILGNPVTMLWMSVVSGYLVEQFDWRWMFIIEGLPAVLWAFVWWRLADDRPAQAKWLSDQEKQDLETVLAAEQVGIKAVKNYAEAFRSPKVIILALQFFCWSIGVYGFVLWLPSILKAGLKMNMVEAGWLSSLPYLAAVIAMLIVSWASDKVQKRKRFVWPPLLIASIAFYASYLLGAEHFWWSYALLVLAGACMYAPYGPFFAIVPEILPANVAGGAMALINSMGALGSFGGSYLVGYLNGSTGSTGMSFLLMSGALLLSVVLTLALKPGASDRVVSKTATPNPAPARS				NA	NA	NA	NA	NA
D1-35_04144	978	ghrB_3	COG1052	Glyoxylate/hydroxypyruvate reductase B	ATGAAAAAACACGTGGTGTTGTACAAAACGCTGTCAGCGCAACTGATGGAGCGCCTGCAAGCGCAGGCCCAGGTCACCCTCATCGAACGCCTCGACGCCCAGGGTCTTGCGCAATTGCGCGAGGCCCTGCCCAGTGCGCATGGCTTGCTCGGCGCGAGCCTGAGGCTCGATGCGCCGCTGCTGGACCTGGCGCCTGACCTTGAGGCCATCGCCAGCGTTTCGGTCGGGGTCGACAACTACGACATCGATTACCTGAGCGAACGCCGGATCCTGCTCACCAACACGCCGGATGTACTGACCGAAACCACCGCCGATACCGGGTTCGCCTTGATCCTGGCTACGGCCCGACGCGTCGTCGAACTGGCCAATCTGGTTCGGGCCGGCCAATGGCAGCAAAGTATCGGCCCGCGGCATTTCGGCAGCGATGTCCATGGCAAGACCCTGGGCATCGTCGGCATGGGCCGCATTGGCGAAGCCCTGGCCCAGCGCGGCCACTTCGGCTTTGGCATGCCGGTGCTCTATCACAGTCACTCGCCCAAGCCTGCGGTGGAACAACGTTTTAATGCGCGCTACTGCGACCTCGATACACTGCTGCACGAAGCCGATTTCATCTGCCTGACCTTGCCCCTGACAGCTGAGACCCAAGGGCTTATCGATGCGCAGGCATTTGCACGGATGCGGCCCGAAAGCATCTTCATCAATATTTCCCGGGGCAAGGTCGTGGACGAAGCGGCGATGATCGAAGCCCTGCGCAGCGGGCAGATCCGTGGCGCCGGGCTGGATGTGTTCGAACACGAGCCCTTGAGCCCGGACTCGCCACTGTTGCAGATGGACAACGTGGTCGCGACGCCGCACATGGGCTCGGCGACCCACGAGACACGCGAGGCCATGGCGCGCTGCGCCGTGGACAACCTGCTGGCGGCGTTGGCGGGTGAGCGGCCGATGAATCTGGTGAATCCGGGGGTTTGGAAAGGCTGA	MKKHVVLYKTLSAQLMERLQAQAQVTLIERLDAQGLAQLREALPSAHGLLGASLRLDAPLLDLAPDLEAIASVSVGVDNYDIDYLSERRILLTNTPDVLTETTADTGFALILATARRVVELANLVRAGQWQQSIGPRHFGSDVHGKTLGIVGMGRIGEALAQRGHFGFGMPVLYHSHSPKPAVEQRFNARYCDLDTLLHEADFICLTLPLTAETQGLIDAQAFARMRPESIFINISRGKVVDEAAMIEALRSGQIRGAGLDVFEHEPLSPDSPLLQMDNVVATPHMGSATHETREAMARCAVDNLLAALAGERPMNLVNPGVWKG	PGPT0001310_692	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0001310-ghrB-K00090	NA	NA
D1-35_04145	1443	atm1	COG5265	ATM1-type heavy metal exporter	ATGGCCGCGTCTATTGAGTGGCTGACAAACCTGATGCGAAAGGAGTTTGCTCGATTCAACTCATGGCGAATAGGCCACTTCATAAAATCAGTCGAGCGTGGGATTAACGCTAACGAGCAACTATTGACATTTTTTGTCACCGTGGGACTGCCGTTGTGCCTGGAATTCCTGATTGTTGGCGGTGCGTTTTTTTACATGGGTGGCAGTGAAGTTTTTGCGGGAATGACCGGTTTAGGAATCATCTATCTAGCTGCTACCCACAGGATTATCAGATGGCGCAGAAAACACATTGATGCCGTCAACGAGCAGGAAGATGAATTGAGCGCTCATTTGTACAACACCCTCAACGCCGGCAAAGCAATAAAGCTGGAAAATGCCGAGCCCACCGCGATACAACCGTTAAACGAGGCTTTTAAAGGCTACGCCGACGCTGCGGTGGGCGCGGCAACCTCGGGTGGTTTTCTGAGTGCCGCCAAGATTCTGTTCGTTAGCCTCTCCACGGGTGGATTGCTGGGATGGGGGGTTATTGATCAGCTTTCGATCCAGCCCAGTATCAGTGTCGGTCAACTGGTCGCCGTTTTTTCAATCGCCGGCAGCTATTTATTGAATATCGCAGCGTTGACGGAGGGCTATCGAGTAACGGATCAGTTTCTTGCCGATCAGCGTCGACTTCAGAGCCTGCTTTCGCTCCCGAACTTTGACCATTGCGATCGGAAATCGGAGGTCTCTTTTCGGGAGTCATCGACACTGACTCTGCTGCCATGCGGACTCACCGAAAACGACGACGTACGCCTGTCGATTACGCAAGCGCTGACTTTCATTCAGAATCAATCAGTGGCAATCATCGGTCAGAGCGGTGCAGGCAAGTCTACGTTATTGGAAGTTCTTGCCGGTCTGGACCTGGAAACGCGAAATCAGCTCAGTATCGATGGCACCCCGATTTCCCTATTGAACCCTCGCGTTCATTTGAATGCGTTGAGGTACTGCCCTCAACAACCGCGTTTTTTGGAAGGTCCCTTTGAACGCTCCGTTCTATTCGGCGCTAAATCGTCGCCTCGCCTCGACCGGGCAATACGGCGACTGCAGCTACAAACAATCGTTTCTGACCGGACCATCGGTGAGCACGCATCGAATATTTCCGGAGGTGAAGCCAAGCGTTTGTCGCTGCTGCGTCTTATCAACAAGCCTGGACGATTCAACTTGTTCGACGAGCCTAGTGCATCAATCGAGCCCGGGCTGACCAATGCCTTATGGGACCTGCTGTTTGATATTTTCTCAAAACGCGGCTTGATCTGTGTCACCCATGATCTTGATCATCTGTTGCGCTTTGATCGGGTGATTGTCCTGCACAACGGTGCAATCGTTGACGACGGACACTGGCGGGAGCTGGTCAACAGGCCAGCAATCAAATTGTTGCTTGATGACATCAAGACCGGACCCTAG	MAASIEWLTNLMRKEFARFNSWRIGHFIKSVERGINANEQLLTFFVTVGLPLCLEFLIVGGAFFYMGGSEVFAGMTGLGIIYLAATHRIIRWRRKHIDAVNEQEDELSAHLYNTLNAGKAIKLENAEPTAIQPLNEAFKGYADAAVGAATSGGFLSAAKILFVSLSTGGLLGWGVIDQLSIQPSISVGQLVAVFSIAGSYLLNIAALTEGYRVTDQFLADQRRLQSLLSLPNFDHCDRKSEVSFRESSTLTLLPCGLTENDDVRLSITQALTFIQNQSVAIIGQSGAGKSTLLEVLAGLDLETRNQLSIDGTPISLLNPRVHLNALRYCPQQPRFLEGPFERSVLFGAKSSPRLDRAIRRLQLQTIVSDRTIGEHASNISGGEAKRLSLLRLINKPGRFNLFDEPSASIEPGLTNALWDLLFDIFSKRGLICVTHDLDHLLRFDRVIVLHNGAIVDDGHWRELVNRPAIKLLLDDIKTGP				NA	NA	NA	NA	NA
D1-35_04146	960			hypothetical protein	ATGGAACATCGTGAAGCGCTGCTGGCGCTGCGAACCTTTCTTTCAACGCAGATTCTCGGCCAGGAAAAACTCATCGAGCGCCTGCTCATCGCCCTGCTCGCCGACGGCCACATGCTGGTGGAAGGCGCGCCCGGGCTGGCCAAGACCAAAGCGATCAAAGAGCTGGCCGAGGGCATCGAAGCGCAGTTCCATCGCATCCAGTTCACCCCCGACCTGTTGCCCGCCGACATCACCGGCACCGAGATCTATCGCCCGGAAACCGGCAGCTTCGTGTTCCAGCAAGGGCCGATCTTCCACAACCTGGTGCTGGCGGACGAAATCAACCGTGCCCCGGCCAAGGTCCAGTCGGCCCTTCTCGAAGCGATGGCCGAGCGGCAGGTCAGCGTCGGGCGCAGTACTTATGAGCTGTCGCCACTGTTCCTGGTGATGGCCACGCAGAACCCGATCGAGCAGGAAGGCACCTACCCGCTGCCCGAAGCACAGCTCGACCGGTTCCTGATGCACGTCAAGATCGGGTTTCCGGACGCCGCGGTCGAGCGCCGGATCCTGCAGCAGGCACGCGGTGAGGCGTTGAATGGCGAAACCAAGCCTGAACGTCGCGTCAGCCAGCAGGCAATTTTTTCGGCGCGCAAGGAGATCCTCGGGCTGTACATGGCCGACGCCGTGGAGGAGTACCTGGTGCAACTGATCATGGCCACTCGCAACCCGGCCAAGTTCGACCCGGAGATGGCCGAGTGGATCGCCTACGGTGCCAGCCCGCGGGGCTCGATTGCCCTGGACCGCTGCGCCCGGGCCCACGCCTGGCTGGCCGGACGCGACTTCGTCAGCCCGGAAGACATCCAGGCCGTGCTGTTCGACGTGCTGCGCCATCGCATCATCCTGTCGTTCGAAGCCGAAGCCGCCGGCATCGACCAGGACCGGGTCGTGCAGCGGATTCTCGACGTCGTCGCTGTCGCTTGA	MEHREALLALRTFLSTQILGQEKLIERLLIALLADGHMLVEGAPGLAKTKAIKELAEGIEAQFHRIQFTPDLLPADITGTEIYRPETGSFVFQQGPIFHNLVLADEINRAPAKVQSALLEAMAERQVSVGRSTYELSPLFLVMATQNPIEQEGTYPLPEAQLDRFLMHVKIGFPDAAVERRILQQARGEALNGETKPERRVSQQAIFSARKEILGLYMADAVEEYLVQLIMATRNPAKFDPEMAEWIAYGASPRGSIALDRCARAHAWLAGRDFVSPEDIQAVLFDVLRHRIILSFEAEAAGIDQDRVVQRILDVVAVA				NA	NA	NA	NA	NA
D1-35_04147	945			hypothetical protein	ATGAATAACCCACTGGCGCCCGTCCCGGGCATCCGCGTCAGCCTCTCGGAGCTGATCGAGATGCGCCATCGCGTGCGCGAAGTGCAGTTGTTCTCCACCCCTGGCCAGCGCAGCCCGCTGATCGGCCTGCACCATTCCAAGCTGCGCGGGCGCGGAGTGGACTTCGATCAGGTGCGGGTCTACCAGGCCGGCGACGACGTGAGGACCATCGACTGGCGCGTCACCGCCCGAACCCAGGAGCCCCACACCAAACTGTTCCATGAAGAACGCGAACGGCCGATCTTCATCATGATCGAGCAAAGCCACCGCCTGTTCTTCGGTTCCGGGCAGGTCTTCAAGTCGGTACTCGCCGCCCAGGCCGCCAGCCTGATCGGCTGGGCCGCGCTGGGGCACAATGACCGGGTCGGCGGCCTGGTGTTCGGCAATAACAGCCACTACGAGGTCAAGCCTCGGCGCAGCAAACAAAGCCTGCTGCAACTGCTCAACCGCCTGGTGCGCGTCAATCAGTCGTTGCACACCGAAGGCGAGTCGGACCGCGACTCCTTTGGTGTCGCCTTGCGCCGGGCCAGGGAAGTCCTGCGGCCCGGCAGCCTGGCGATCGTGATCTGTGACGAGCGCGCCCTCTCCGACGGTGCCGAGCAGCAGTTGAGCCTGCTGTCGCGTCATTGCGACCTGCTGCTGCTGCCGCTGTCCGACCCGCTGGACCACGCCCTGCCCGCCGCCGGCCTGCTGCGGTTTGCCCAGCGCGGTGAGCAATTGGAGCTCGACACGCTGAACCTGGAACTGCGCCAGACCTACCGCGCCCAGGCCGAGGCGCGCCTGGAGCGCTGGGAAATGCTGGCGCAGAAGCTGCGGATCCTGATGCTGCCCTTGAGCACTCAAGGCGACATGGTCGAACAACTGCGCGAGTACCTGAACCCCAAGCGCCCGGGGAAAACCCGATGA	MNNPLAPVPGIRVSLSELIEMRHRVREVQLFSTPGQRSPLIGLHHSKLRGRGVDFDQVRVYQAGDDVRTIDWRVTARTQEPHTKLFHEERERPIFIMIEQSHRLFFGSGQVFKSVLAAQAASLIGWAALGHNDRVGGLVFGNNSHYEVKPRRSKQSLLQLLNRLVRVNQSLHTEGESDRDSFGVALRRAREVLRPGSLAIVICDERALSDGAEQQLSLLSRHCDLLLLPLSDPLDHALPAAGLLRFAQRGEQLELDTLNLELRQTYRAQAEARLERWEMLAQKLRILMLPLSTQGDMVEQLREYLNPKRPGKTR				NA	NA	NA	NA	NA
D1-35_04148	495			hypothetical protein	ATGAGCAGCCTCGATCAGTTGCAACCACTGATGGCGCCACCGACCATCGGCTTCTGGCCGCCCGCGCCGGGCTGGTGGTTGCTGCTGGTATTACTGCCATTGCTGGGCCTGGGCCTGTGGCACTTGCGCCGGTTCATTCCCGCCAAGCGCACCCAGGACCGCGCCGAGCAACCCCTGGATCCGGTGCGCCTGGCCGCGCTGGCCGAGCTGGCGCGGTTGCCCAAGCCCTACGACGGCGCGCCGGCCGGGGCCTGGCTGCAACAACTCAACGGGCTGCTCAAGCGCCTGTGCCGCAACCATTATCCCTACAGCCAGAGCCATACTCTCAACGGGCGCAAATGGCTGGCCTTCCTCGACAACCGCTGCCCGGCCGCCGGCCTGACCCGCTGGATGATCCTTGTAGAAGGTGCCTACAAGCCCGAATGCAAGCTTGACGACAAAGCCATCGCCGGCCTGACGCAAGCGGTCGAGACGTGGATTCGCAAACATGTTTGA	MSSLDQLQPLMAPPTIGFWPPAPGWWLLLVLLPLLGLGLWHLRRFIPAKRTQDRAEQPLDPVRLAALAELARLPKPYDGAPAGAWLQQLNGLLKRLCRNHYPYSQSHTLNGRKWLAFLDNRCPAAGLTRWMILVEGAYKPECKLDDKAIAGLTQAVETWIRKHV				NA	NA	NA	NA	NA
D1-35_04149	1080			hypothetical protein	ATGTTTGAGTTCGCCTGGCCGTGGATTTTCGCCCTGCTGCCGCTGCCCTGGCTGATGCGCATGGTGCTGCCTGCAGCAGACAGTGGCGAACCGGCACTCAAAGTGAGTTTCCTCGAGGACCTCGAAGGGCTGGTCGGGCGCCGGGCCCGGGCCAATCTGCCGACATGGCGCCAGCAGGCGCCTTTCATCCTGCTTTGGTTGTTGCTGCTGATCGCCGCCGCCCGCCCGCAGTGGCTGGGCGAGCCGTTGCCGATTGCCGCCAGCGGTCGCGACCTGCTGGTGGCGGTGGATGTCTCCGGGTCCATGGATTTTCCTGACATGCAGTGGAAAGACGAGGACATCAGTCGCCTGGCGCTGGTCCAGCACATGCTCGGGGATTTTCTCGAAGGTCGGGAAGGTGACCGGGTCGGCCTGATTCTGTTTGGCAGCCAGGCCTACCTGCAGGCGCCGCTGACCTTCGACCGCCGCACCGTACGCCACTGGCTCGACGAGGCGCGCATCGGCATCGCCGGCAAGAACACGGCGATCGGCGATGCGATTGGCCTGGCCCTCAAACGCCTGCGGCAACGCCCGGCCAACAGCCGCGTGCTGATCCTGGTCACCGATGGCGCCAATAACGGCGGCGAAATCGACCCGCTGACTGCCGCCCAGCTGGCTGCCGACGAAAGCGTGAAAATCTACCCGATCGGCGTGGGTGCCGATCCGGAGCAAAGTGGCACGGCGGGATTTCTCGGCGTCAACCCCAGCCTGGATCTCGACGAAGCGACACTCAGGGAAATCGCTCAGATCACCGGCGGCCGGTATTTCCGCGCCCAGGATGGCGAGCAGTTGCTGGCGATCAAGACCACCCTCGACCAACTCGAACCGGTGACCCAGCAGCCGACCCAGGCCCGTCCCGCCCAGGCGCTTTATCATTGGCCGCTGGCCGTTGCCTTGCTGTTGAGCATGTTGCTGGTGGTTCGTGAGCGCTGGCCGGACAACCCCTTGCAACGCCTGTTCACCCAGCCGCTGTTTCAACCCTCGCAAACCTCTGAATGGCGCCAGCGGCTCAAGCGCCTGCGACTGCGGAGGCGCCGATGA	MFEFAWPWIFALLPLPWLMRMVLPAADSGEPALKVSFLEDLEGLVGRRARANLPTWRQQAPFILLWLLLLIAAARPQWLGEPLPIAASGRDLLVAVDVSGSMDFPDMQWKDEDISRLALVQHMLGDFLEGREGDRVGLILFGSQAYLQAPLTFDRRTVRHWLDEARIGIAGKNTAIGDAIGLALKRLRQRPANSRVLILVTDGANNGGEIDPLTAAQLAADESVKIYPIGVGADPEQSGTAGFLGVNPSLDLDEATLREIAQITGGRYFRAQDGEQLLAIKTTLDQLEPVTQQPTQARPAQALYHWPLAVALLLSMLLVVRERWPDNPLQRLFTQPLFQPSQTSEWRQRLKRLRLRRRR	PGPT0014015_4036	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
D1-35_04150	1734			hypothetical protein	ATGATCGCGCTCTGGCCGCATTGGCTGCGTCCCGCTTTTATCTTGCTGCTGCCCCTGTTGGGCTGGCTGCTCTGGCAACTGTGGCACCGACAGAAACGCGTGGGCCGCTGGCAGATGATCCTGCCGCCGGCATTCCATGCCGTGCTGCTCACCGGTGGCAGTGGTCGCGAAAGCAAGCTGCCGTGGATCGCCCTCGGGCTGGGCTGGCTGCTGGTGGTGCTGGCCTTGCTCGGCCCCAGCTGGACGCGGGTCGAACAGACCAGCCAGAAACCCGCCGATCCGCTGGTGGTTATTCTCGAACTGACGCCAGAGATGCTCGCCACCGACGTCCCGCCCACGCGCCTGGAACAGGCCCGGCGCAAAGTGCTCGACGTGCTGCAGAACCGCAGCGACGCGCAGACCGCAATCATCGTCTATGCCGGCAGCGCTCATACGCTGGTGCCGCTGTCCGACGACCTGGCCACCAGCGCCAACCTGCTCGAAGCCCTGGCGCCATCGATCATGCCGCAAGGCGGCCACCGTGCCGACCTGGCCGTCAACAAGGCCATGGCGTTGCTGGACCAGGCCGGGCTCGGCCACGGCCGGATCCTGTTGATCGGTTCATCCCTGAACGAGCAGGAACGCCTTGGCATAAGCCAGGTGCTCGACGGTTCCGCCACTCGTTTGCTGATGCTCGGCATCGGTACGCGTGAAGGTGCGCCCGTGGCCCAGGAAGACGGCAGTTACCTGAAGGATGCCCAAGGCGCGATCCTGGTGCCGCGCCTGGACAGCCCAAGCCTCAAGTCATTTCTCGATGAGCTGGACGGCCGTTACCGTCCCGCGCATCTGGACGACAGCGACCTGCGCGGCCTGGGCCTGCTGGACGGTCCGCGCCGCCTGCGCAGCGATGGCCAGAAACTGCGCCTGGACACCTGGGCCGACCAGGGTTATTGGCTGCTGTTGCCGCTCCTGCTGCTGGCCGCCTGCGCCGGGCGTCGGGGCTGGCTGTTCTGCCTGCCGCTGCTGTTTGCGCTGCCGCAGACCAGCCATGCCTTCGAATTCGAGGACCTGTGGCTGCGCCCCGATCAACAGGGCCAGCACCTGCTCAAGCAGAAACGCCCGGCCGAGGCCGCCACTCGCTTCGAGGACAGCCAATGGCAAGGTGTCGCCCTCTACGAGGCCGGCCAGTACAGCGAGGCCGCCCGGCGTTTCGCTGAAAGCAACGATGCCCGCGCGCATTACAATCGCGGCAATGCGCTGGCCCGCAGCGGCGAACTGGAGGCCGCGATCGATGCCTATGAGCAAGCGCTGGAATTGCAGCCGGACCTGCGCCCGGCGCAGACCAACAAGGCCTTGGTGGAAAGCCTGCTGAAAGAGCAGGCTGCGCCACCGGACACCGCCAAGCCCGACGAAAACCAGGACCCCGCGCCCACCGAGCAATCGCCGGATAGCGATACCCCGAATCAGTCGTCCGAGCCGGGCCAGCCTTCTTCCGAGGCGCCAGCGACGCCGGAGCAATCCCCGGCGTCCCAGGTGCCACCGACCCGCGCCGAGGACGTGCCCGGCAGCGAACTGCCCGACGAGCAGACCACCACCCCGCCGCTGCGCCCGGCCGCGGGCCAGCGCAATGCCGAAGAGCAGCGCCAGGCACTGGAACAATGGCTGCGCCAGATCCCGGACAACCCGGGCGAACTGCTCAGGCGAAAATTCTGGTATGAACAGCAAAGCCACCAGGCTCAGGAAAAACACCAATGA	MIALWPHWLRPAFILLLPLLGWLLWQLWHRQKRVGRWQMILPPAFHAVLLTGGSGRESKLPWIALGLGWLLVVLALLGPSWTRVEQTSQKPADPLVVILELTPEMLATDVPPTRLEQARRKVLDVLQNRSDAQTAIIVYAGSAHTLVPLSDDLATSANLLEALAPSIMPQGGHRADLAVNKAMALLDQAGLGHGRILLIGSSLNEQERLGISQVLDGSATRLLMLGIGTREGAPVAQEDGSYLKDAQGAILVPRLDSPSLKSFLDELDGRYRPAHLDDSDLRGLGLLDGPRRLRSDGQKLRLDTWADQGYWLLLPLLLLAACAGRRGWLFCLPLLFALPQTSHAFEFEDLWLRPDQQGQHLLKQKRPAEAATRFEDSQWQGVALYEAGQYSEAARRFAESNDARAHYNRGNALARSGELEAAIDAYEQALELQPDLRPAQTNKALVESLLKEQAAPPDTAKPDENQDPAPTEQSPDSDTPNQSSEPGQPSSEAPATPEQSPASQVPPTRAEDVPGSELPDEQTTTPPLRPAAGQRNAEEQRQALEQWLRQIPDNPGELLRRKFWYEQQSHQAQEKHQ	PGPT0014015_1835	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
D1-35_04151	1638			hypothetical protein	ATGACCCGCTTCACCGCCTATCTCCTCGTCTTGCTGCTCTGGGCTGCTGGGTCCCAGGCCGCGCAGCTGACTGCCAGCGTGGACCGCAGTCGCCTGAACTCCGGGGAGACCGTCGAGCTGACGCTGGAGTCCAACGATGCCACGCTGTTCGGCAAACCTGACCTGAGCCCGCTCCAGGCACTGTTTGATGTGCGCGGTACCCGCCAGGTCAACCAGTTGACCACCCTTGACGGCGAGAATCGCGCCACTACCCGCTGGATCGTCACGCTGCTGCCGCGTCAGAGCGGCACGGTGGTGATCCCGCCGCTGCAACTGGGCGAAGTCAGCAGCCAGCCGATCACTTTGCAGGTGATCGAAAGCGAAACCCGCAACGCCTCTGGCACCCTCGCGCCGGTGTTCATCGAAGCCAGCCTCGACCAGCGCGAGGTGTATGTGCAGGCCCAGGCCATCCTGACGCTGCGCATCTACCATTCGGTGTCGCTGTACGACGACAGCAGCCTGACACCGCTGCATATTCCCGATGCGCGCACCGAGCAACTGGGCGAATCGCGCACCTACGAAAAAGTCATCAACGATGTGCGCCACGGCGTCATCGAGTTGCGTTACGGCATCTACCCGCAGCGCAGCGGCGAACTGGCGATCCCGGCCCAGACCTTCAGCGCCACGCTGGTTGAACCCACGGCCCAGGGCACCGCAGCACCGGGCGCCAAACCCGGCCAGTTGATGCGCGTCAGTTCCACGCAACTGCAACTGACCGTCAAGCCCAAGCCCGCCAGTTACCCGGCCGACCTCCCCTGGCTGCCGGCGCGCAGCTTGTCCTTGAGCGAAAGCTGGAGCCCGGAACCGACTCACAGCCAGGTCGGCGATTCGCTCACCCGCAGCCTGACCCTGGAGGCGGAAGGCTTGACCAGCGCCCAGTTGCCGCCGCTTCCGCCTACCGAAATCAATGGCCTGCGGCGCTACCCCGACCAGCCGGTGCTGAGCAGCCGCAGCAGCGAGCGCGGCCTGGTTGGCAGCCGCGAGGACCGCGAAGCCCTGGTGCCCAATCGTAGCGGCACCATCGAGCTGCCGCCCGTGGAAGTGGTCTGGTGGAACACCCTGGAAGACCACCTGGACCGCACCAGCCTGCCGGCCCGGACCCTGCAAGTGGCGAACAACCCGAGCCTGATGGTCGACACACCGGCAGGCACCACTCAGATCGTCACCACTGTCGACAGCGAAACCCTCTGGTACTGGCAACTCAGTACGTTGATCCTGGCCTGCACGACGTTGCTCGGCTTCGGCCTGTGGTGGCGCGCGCGTTGGCAACCGGCGATCCTGCGCTCGGCCCAGGCCGGGCCGAGCCCACGCACACTGCTGGATGACCTCAAGCGCGCCTGCCTGGCCAACGACTCGCACGCCACCCGCCAGGCGCTGGATGCCTGGGCTCGACAGCAACCGGAAACCTTGGCCGACATGGCGGCGCGTTTCGTGCCACTGTCCGACGCCCTCGACGGCTTGAACGGCGCCCTCTACAGCGAAACCGGCCAGTATTGGCAAGGGGAAGACCTGTGGCGGGCGATCCGGACCATTCCGCCTCTGGAAGGAACGCCGGACGCTGCCAGTGATTCGAGCCTGCCGCCGCTCTATCCCAAATAA	MTRFTAYLLVLLLWAAGSQAAQLTASVDRSRLNSGETVELTLESNDATLFGKPDLSPLQALFDVRGTRQVNQLTTLDGENRATTRWIVTLLPRQSGTVVIPPLQLGEVSSQPITLQVIESETRNASGTLAPVFIEASLDQREVYVQAQAILTLRIYHSVSLYDDSSLTPLHIPDARTEQLGESRTYEKVINDVRHGVIELRYGIYPQRSGELAIPAQTFSATLVEPTAQGTAAPGAKPGQLMRVSSTQLQLTVKPKPASYPADLPWLPARSLSLSESWSPEPTHSQVGDSLTRSLTLEAEGLTSAQLPPLPPTEINGLRRYPDQPVLSSRSSERGLVGSREDREALVPNRSGTIELPPVEVVWWNTLEDHLDRTSLPARTLQVANNPSLMVDTPAGTTQIVTTVDSETLWYWQLSTLILACTTLLGFGLWWRARWQPAILRSAQAGPSPRTLLDDLKRACLANDSHATRQALDAWARQQPETLADMAARFVPLSDALDGLNGALYSETGQYWQGEDLWRAIRTIPPLEGTPDAASDSSLPPLYPK				NA	NA	NA	NA	NA
D1-35_04152	1245	sbcD	COG0420	Nuclease SbcCD subunit D	TTGCGTCTGTTTCACACCTCCGACTGGCACCTGGGGCAAAACCTCCACGGCCAGGATCGCGACTTCGAACACGCCTGTTTCCTCGACTGGCTGCTGCGTCAACTGGGCAGCGAAAAGCCCGATGTGCTGCTGATTGCCGGCGATATCTTTGACACCGTCAACCCGCCGGTCAAAGCCCAGGAGCGGCTGTACGACTTCATCGTCAGCGCCCACGAACAAAACGCCAACCTGACCATCGTCATGATTGCCGGCAACCACGACTCCGGCTCACGCATCGAACTGCCGGCGCCGTTGATGCGGCGCTTGCGCACCCATGCCCTGGGCCGGGTGCTGTGGCTGGATGATGGACAACTGGACGTCGAGCGTCTGTTGCTGCCATTGCCCGACGCCAAGGGCAAGGTCCGCGCCTGGTGCCTGGCGCTGCCGTTCCTGCGGCCGGCGGAAGTCACCGGCGCGCAGTTGGGGGATGATTACCTGCGCGGCATCGGCCAGGTCCATGAATGGCTGATCGCCGCTGCCAATGACAAACGCAAGAAAGGCCAGGCACTGATCGCCGTCAGCCATGCGCACATGGCCGGCGGCTCGGTATCGGAGGACTCCGAGCGCAGCCTGATCATCGGCAATGCCGAAGCGCTGCCCGCCAGCCTCTTCGGCCCGAGCATCAGCTACGTTGCCCTCGGCCACCTGCACAAGCCGCAGAAGGTCAACGGTGAAGAGCGCATCCGCTACAGCGGCTCGCCGATCCCGCTGTCGTTCTCCGAGATCGGCTATCAGCACCAGATCCTCGACGTCACCCTGGACGGCGAAACCCTGGTAAACGTCGAGCCCCGGCTGATTCCCCGCGCCGTCAACCTGCAGCGCCTGGGCCCGGCGCCGCTGGCCGATATCCTCCGGCAACTGAAGGACCTGCCGGACATCGACCTGCTGGCGGACGTGCAGCGCCAGCCCTGGCTGGAGGTTCGAGTGCGCCTCGACGAGCCGCAGCCCGACTTGCGCCATCAAGTGGAGACGGCATTGCAAGGCAAAGCCGTGCGGCTGGTGCGCATCGCCGCCGAGTACGCCGGCAACGGCAGCTCCAGCGGCGTCGAGGACGGCACCGCGCTGGTCGAACTGGACCAGTTGAGCCCGCAGGAATTGTTCAGCCGTGCCTGGCAGGACACCTACGGCAACGAAGTGGACGAACAGACCCTCAAGGATTTTGCCGTGCTGTTGCAAGACGTGCAGATGGAGAGCGAGCAGCCATGA	MRLFHTSDWHLGQNLHGQDRDFEHACFLDWLLRQLGSEKPDVLLIAGDIFDTVNPPVKAQERLYDFIVSAHEQNANLTIVMIAGNHDSGSRIELPAPLMRRLRTHALGRVLWLDDGQLDVERLLLPLPDAKGKVRAWCLALPFLRPAEVTGAQLGDDYLRGIGQVHEWLIAAANDKRKKGQALIAVSHAHMAGGSVSEDSERSLIIGNAEALPASLFGPSISYVALGHLHKPQKVNGEERIRYSGSPIPLSFSEIGYQHQILDVTLDGETLVNVEPRLIPRAVNLQRLGPAPLADILRQLKDLPDIDLLADVQRQPWLEVRVRLDEPQPDLRHQVETALQGKAVRLVRIAAEYAGNGSSSGVEDGTALVELDQLSPQELFSRAWQDTYGNEVDEQTLKDFAVLLQDVQMESEQP				NA	NA	NA	NA	NA
D1-35_04153	3642			hypothetical protein	ATGAAGATCCTCGCGATTCGCCTGAAGAACCTCGCCTCCCTCGCTGGGCCATTTGAAATCGATTTCACCGCCGAGCCGTTGGCCAGCGCCGGCCTGTTCGCCATCACCGGCCCCACCGGCGCCGGCAAGAGCACGCTGCTGGATGCCTTGTGCCTGGCGCTTTTTGGTGCGGTGCCGCGCCTGAACAACACCGGTCGTGACGCCAAGGTACCGGACGCCGACGGCGAGATCGCCACGGGCGATCCGCGCACGCTGCTGCGCCGTGGCACCGGCGACGGTTATGCCGAAGTGGATTTTCGCGGTATCGACGGGCGCCGCTACCGGGCTCGCTGGGAGGCCAATCGCGCCCGGGAAAAAGCCGGCGGCAAATTGCAGGCCAGCCGCCAGAGCCTGCGCGACCTGGACAATGACCAACTGCTGGCCAGCCAGAAAGGCGAATACAAGACCCAGCTCGAAGCCGCCTTGGGCCTGAACTTCGAGCAGTTCACCCGCGCCGTGCTGCTGGCCCAGAGCGAGTTCAGCGCCTTTCTCAAGGCCGACGACAACGACCGCAGCGAGTTGTTGGAAAAGCTCACCGACACGGCCCTGTATACGCGTCTGGGCCGCCGCGCCTTCGACAAGGCCAAGCAGGCCAGGGAAACCCACAAGCAGTTGCAAGACCAGGCCACCGGCGTCACGCCGCTGGCCGCCGAAGCCCGCGCCGAGCTGGACCAACGCTTCAACGACGCCCAGCAACTGCTCAAGACCCAGCAGGCACAGCTCAAGCAATTGGAACAGCAGCACACCTGGCTCAGGGACCTGCGCCAGTTGCAGGACGAACAGGCCAGCGCCGCTGAACAACTGCAACAGGCACAGGCCGATTGGGCTGCGCTGGCCGACGAACGCCTGAAACTGACACGCCTGGAACAACTGACGCCCCAGCGGCACCAGTTCATCCGCCAGGCGGAATTGAACCGCCAGCTGGAGCCGCTGGCAGTCAGGATCCAGCAACTGACCCAGCAGCAAGTCGAATTGCATGAGCAACAGGCCGAACTGGAGAAAGGCCTGGGCGTGGCGCAATTGGCCTTGGCCGCCGCCCGCCAGCAGAGCGCCGACAACGCACCGCTGCTACGCCAGGCATTCGATGAACAGAGCAGCCTCGCCCGCCTGGCCAGGGAAACCGGCCAAGGTGCCGAACAGTTGCAACAGGTCCAACAGGCTTGCACCGACGGCCAGCGCAGCATCGACACCCTGCTCGAACAGCAACGGCAGGTTGATGAGCGCCTGCAAAGGATCGCCGGCGAACTGGAACAAAGTACCGATCTCGCACCGCTGGGCGATGCCTGGTCCGCCTACCGCGATCGCCTGCAACAGTTGATGTTGATCGGCAACCGGCTGAACAAGGGCCAGGACGAACTCGCGCTGCTGGAACAAAGCGCCACTCGCGCCGCCGATGACCTGGCAACCCGCCGGCAAAACCTCGAAGTGCTCTACAAGGAAGCCGGGGCCGAACCGCAAGCGGTGGCGGAACAGATCCAGTTGCTCGGCAACCTGCTGCAAGACAATCGCAAGCAACTGCGCGCTTTCGAAGAACTGACCCGGCTTTGGGCCAGCCAGCAAGAGCTGGACAAACGCAGCGCGGAGCTGGAGCGACGCCAGCAGCAAGCCTTGCAGGAGCGCGACCGGCTGGTGCGCGAAGGCGGCGAAGCCAAGGCCGAGCTGACCATTGCCGAACAGACCCTGACTGTCACCCGTGAACTGCTGGAACGCCAGCGCCTGGCTCGCAGCGAAAGCGTCGAGCAACTGCGCGAACAGTTGCAGGACAACCAGCCGTGCCCCGTCTGCGGCAGCGTCGAGCACCCGTACCATCAGCCCGAAGCGCTGCTGCAAAGCCTCGGCCGATTCGATGAAAGCGAAGAGGCCAATGCGCGCAGAGTCGTCGACCTGCTCAATGAAAAAGTCATCGATCTGCGAGCGCAATACAGTGGGGTCATTGCCCAGCTCAAGGAATTCAAACAGCAACAGGAACAACTCGCCGCCCAGCAACAAGGCCTCGCGCCAAGCCTCGAAGCCCATCCGTTGTCGGAACAGTTGCTGAGTCAGGCTCCAGACCAGCGCGACGCCTGGCTGGCCCAGCAAAACAGCCAGTTGAACCTGCGCATCAGCCAGGACGAACAACGCCAGGCCGCCCTGCTCACCCTGCAACAGGACGCCACGCGCCTGGCGCAGCAACTGCGCGAAGCGGAAACCGCCAGCCAGCAGGCGTCACTGCACCTGGGCAACCAGCAACAGGAAATGGCCCGCGACCGCCAGCGCCTGGAGGAAGAGCTCGGGCATTTCAGTGCGCTGCTGCCGGCCGATACCCTGCAGGCCCTGCGCAGCGATCCCGCCGCGACGTTCATGCGACTCGACCAGCGGATCACCCAGCGCCTGGCGCAACTGGAACAGCAACGCGAAGAACTCGGCGAACAACTTCAACGCCAGCAAGCCCTGGAGAAAGAGCAGGACCGCCAGCAGACCCGTGTGCAACAACTCGAAGCGGCGCAGCAGCAATTCAACGCACTGAATGAGCAACAGCAGACCTGCCAACAAAAGCTCACGCAACTGCTGGGCGAACATTCCAGTGCCGAACAATGGCAGCAACAGCTCGACCAGGCCCTGGAACAGGCCCGCCATGCCGAGGCAGCGGCCGGTCAGCAGTTACAGGAGTTGCGCAATACCCTCGTGCAACTGGCTGCCGAGCTCCAGGCCCGGCATGAGCAGGCCCAGTTGCTTGAGGCCGAACAGCAGACGCTCGCCGCCGGCATCGCCCAATGGCGCGCTTCTCATCCGGAACTCGACGACGCCGCGCTCGATGCCCTGCTCGGCCTCGACGAGCAACAGGTCAGTCAACTGCGGCAACGCCTGCTCACCAGCGAAAAAGCCATCGAGCAGGCCCGCGTCCTGCTCACCGAACGCGAGCAGCGCCTGCACAACCACCAGGCCCAACACAACGGCAATTTGCCGCCTGAGGAACTGACCCAAGCCTTGGCGGTGCTGCAGGAGCAGTTTGCCGCCAGCGAACAACGCTGCGCCGAGTTGCGTGCGGAACAGGCTGATGACCAGCGTCGGCAGCATGCCAACCAGGCCCTGGCCCGACAGATCGAGCAGGCCTATGCCGAATACCAGCGCTGGGCGCGCCTCGACGCCTTGATTGGCTCGGCCACCGGCGACCGCTTCCGCAAACTGGCCCAGGCGTACAACCTTGACTTGCTGGTCCACCATGCCAACGCCCAGTTGCGCCAACTGGTTCGCCGTTACCGGCTCAAGCGCGGCGGCAGCATGCTTGGCCTGCTGGTGATGGACACGGAAATGGGCGATGAACTGCGCTCGGTGCATTCGTTGTCCGGCGGCGAGACCTTCCTGGTCTCCCTTGCCCTGGCGCTGGGCCTGGCTTCGATGGCGTCCAGCACGCTGAGAATCGAATCGTTGTTCATCGACGAAGGCTTCGGCAGCCTCGACCCCGAATCGCTGCAACTGGCGATGGACGCCCTCGACGGCTTGCAGGCCCAGGGGCGCAAGGTCGCGGTCATCTCCCATGTGCAGGAAATGCACGAGCGGATCCCGGTGCAGATCCAGGTCCGTCGCCAGGGCAATGGGCTTAGCACGCTGGAGGTGAAATGA	MKILAIRLKNLASLAGPFEIDFTAEPLASAGLFAITGPTGAGKSTLLDALCLALFGAVPRLNNTGRDAKVPDADGEIATGDPRTLLRRGTGDGYAEVDFRGIDGRRYRARWEANRAREKAGGKLQASRQSLRDLDNDQLLASQKGEYKTQLEAALGLNFEQFTRAVLLAQSEFSAFLKADDNDRSELLEKLTDTALYTRLGRRAFDKAKQARETHKQLQDQATGVTPLAAEARAELDQRFNDAQQLLKTQQAQLKQLEQQHTWLRDLRQLQDEQASAAEQLQQAQADWAALADERLKLTRLEQLTPQRHQFIRQAELNRQLEPLAVRIQQLTQQQVELHEQQAELEKGLGVAQLALAAARQQSADNAPLLRQAFDEQSSLARLARETGQGAEQLQQVQQACTDGQRSIDTLLEQQRQVDERLQRIAGELEQSTDLAPLGDAWSAYRDRLQQLMLIGNRLNKGQDELALLEQSATRAADDLATRRQNLEVLYKEAGAEPQAVAEQIQLLGNLLQDNRKQLRAFEELTRLWASQQELDKRSAELERRQQQALQERDRLVREGGEAKAELTIAEQTLTVTRELLERQRLARSESVEQLREQLQDNQPCPVCGSVEHPYHQPEALLQSLGRFDESEEANARRVVDLLNEKVIDLRAQYSGVIAQLKEFKQQQEQLAAQQQGLAPSLEAHPLSEQLLSQAPDQRDAWLAQQNSQLNLRISQDEQRQAALLTLQQDATRLAQQLREAETASQQASLHLGNQQQEMARDRQRLEEELGHFSALLPADTLQALRSDPAATFMRLDQRITQRLAQLEQQREELGEQLQRQQALEKEQDRQQTRVQQLEAAQQQFNALNEQQQTCQQKLTQLLGEHSSAEQWQQQLDQALEQARHAEAAAGQQLQELRNTLVQLAAELQARHEQAQLLEAEQQTLAAGIAQWRASHPELDDAALDALLGLDEQQVSQLRQRLLTSEKAIEQARVLLTEREQRLHNHQAQHNGNLPPEELTQALAVLQEQFAASEQRCAELRAEQADDQRRQHANQALARQIEQAYAEYQRWARLDALIGSATGDRFRKLAQAYNLDLLVHHANAQLRQLVRRYRLKRGGSMLGLLVMDTEMGDELRSVHSLSGGETFLVSLALALGLASMASSTLRIESLFIDEGFGSLDPESLQLAMDALDGLQAQGRKVAVISHVQEMHERIPVQIQVRRQGNGLSTLEVK				NA	NA	NA	NA	NA
D1-35_04154	603			hypothetical protein	ATGAGCCGCGCCACGCTGTACTCCTTCCGTCGCTGCCCCTATGCCATGCGCGCACGCATGGCGTTGCGTTACAGCGCGGTCGAACTGACGATCGTCGAAGTCGGCCTGAAGGCCAAGCCCGCCGAGATGCTTGCACTCTCGAGCAAAGGCACGGTGCCGGTGTTGCAGGTCGATGGCCGGGTGATCGATGAAAGCCTGGAGATCATCAACTGGGCCTTGGCCCAACACGATCCGCAGGACTGGCAGCTACGGGACGATGCCAAGGCCCAGGCGTTGACGGCAGCGTTGATCGAGGAAAACGACCAGGTATTCAAGCTTCACCTGAACCGCTACAAATACCCGGAGCGGCATCCCGAATACACGCAGGAACACTACCGCAGCGAAGGCGAAGTTTTTCTGCGCAAACTGGAAGGACTGCTTGAAACCCGTCCGTTCCTGGCGGCGGAGCATCAGAGCCTGGCCGACGTGGCGGTGATGCCCTTCATACGCCAGTTCGCCCATGTCGATCGCGACTGGTTTGCCCAGGCGCCCTATCCGCGGCTGCAAGGTTGGTTGCAGAAATTCCTGGATTCCGAGCTGTTCGTAGCGATCATGGCCAAGTGA	MSRATLYSFRRCPYAMRARMALRYSAVELTIVEVGLKAKPAEMLALSSKGTVPVLQVDGRVIDESLEIINWALAQHDPQDWQLRDDAKAQALTAALIEENDQVFKLHLNRYKYPERHPEYTQEHYRSEGEVFLRKLEGLLETRPFLAAEHQSLADVAVMPFIRQFAHVDRDWFAQAPYPRLQGWLQKFLDSELFVAIMAK	PGPT0013170_21123	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
D1-35_04155	186			hypothetical protein	ATGGCCCGCGCAATCCTTTCTTCCGCCAGACACGGCGCTTACATCGCCATCGGCCTTTACGTCGCATTGGTGCTGGTGGTCAGCGTCGGCGCCCAATACCAAGGCTTCGTTGATGCATCGCTGCATGCGTCGGTTTCCACTGTCGCCGCCGAACGCGGCGCAGGCAAAGGGGCTGTCGGCGCATGA	MARAILSSARHGAYIAIGLYVALVLVVSVGAQYQGFVDASLHASVSTVAAERGAGKGAVGA				NA	NA	NA	NA	NA
D1-35_04156	126			hypothetical protein	ATGGCGATGCGTCTGGCAGTGATGCTGCTGTTTCTCTACTCCACTCCGATTGTCTCGGCGGCCCAGCCAATTCCTGGAGAGCTGGAAGTGGCTCGCGAGCGATTGTTGAGCTTGGTCAACGACTGA	MAMRLAVMLLFLYSTPIVSAAQPIPGELEVARERLLSLVND				NA	NA	NA	NA	NA
D1-35_04157	180			hypothetical protein	ATGAATCTGAATCTCTTCTCCGTTATTGCCGCTTCCGCTATCTCTGCTACCGTGGCATTGCCAGCCAGTGCCAGCATCGAAATCAGCGACAAGAAAAACCGCACCCAGAGCTACACTGAGAAATACCTGCAACAGAGCGCCAACTTCTACGCCGCACTGGATCACAAGACCCAACACTGA	MNLNLFSVIAASAISATVALPASASIEISDKKNRTQSYTEKYLQQSANFYAALDHKTQH				NA	NA	NA	NA	NA
D1-35_04158	1176	pgl_2		6-phosphogluconolactonase	ATGAAGATGCGTAGTTTCTGGCCATTGCTGATGGCCGGCAGCGTGGGCGCCATGGGCGTCCAGGCAGAAACCACCGAGCACTATCAATTGCTGGTGGGCTCCTACACTGCGGACCAGAGCCAGGGCATCTACCGCATGCAGTTCGACAGCCGGACCGGCCAGCTCGACGCCAAGCCATTGCAGGTGATCAAGACGGACAACCCGTCCTGGTTGACCCTTTCCAAGGACCTGAGCCGGCTGTTCGTGGTCAACGAAAACGGCCCGGGCCAGAAAGACCCGGTGGGCAAGGTCAGCAGTTACGCCGTTAACCCCAAGACCCATGAACTGAGCCTGATCAATCAGGTCCAGTCCCTGGGCAACGAGCCGACTCATTCCAGCCTGAGCCATGACGGCCAGCATCTGCTGGTGAGTAATTATTCCGTTCTGGAAAACCCGGGCGGCACCTTGGTCGTGCTGCCAGTGGGGGCGGATGGCAAGCTCGCGCCGGTGGTGCAGTCGGGCAGTCATCAGCCGAGTCGGGTCAACCCTGAGCGGCAGAAGTCGGGGCATGTGCATTCGGCGGTGCCTTCGCCGGACGGCAAGTATGTGTTTGCCAACGACCTGGGGGCGGACAAGGTATTCGTCTACCGCTACGACCCGAAAGCCAACCCCGAGCTGCCGCTGACGCCTGCCGATCCGGCATTCGTGCAGTTGCCGCCGGGCAGCGGGCCGCGTCACCTGCTGTTCAGCAACGATGGCAAGCACGCCTGGCTGACCATGGAGATGACCGCCCAGGTTGCGGTGTTCGACTACCAGGATGGCCGCCTTACCCAGCGTCAACTGGTCGACCTCGCCGCCGGCAAGCCCCAGCCGGGTAAAGCGGCGGCAGCGCTGCATGCGTCCAGGGACGGCAAGTTCCTGTACGTCAGCAATCGGGGCACCACCAACGAACTGGTGGTGTTTGCCATCGACCCGGCGGCTGGCACGCTGAAAGAACTTCAGCGGCGCTCTGTCGAGGGCGACCATCCTCGGGAATTCAGCCTCGACCCGAGTGAAAAATTTGTCCTGGTGGCCAACCAGAAGAGCAACCAGATCGTCATCATCGAGCGTGATCCGAACACCGGCCTGCTGGGTAAAACCGTCCAGAAGCTGGCGATGGATGCGCCGAGCGACTTGAAATTCATGGTTCGTCAATAA	MKMRSFWPLLMAGSVGAMGVQAETTEHYQLLVGSYTADQSQGIYRMQFDSRTGQLDAKPLQVIKTDNPSWLTLSKDLSRLFVVNENGPGQKDPVGKVSSYAVNPKTHELSLINQVQSLGNEPTHSSLSHDGQHLLVSNYSVLENPGGTLVVLPVGADGKLAPVVQSGSHQPSRVNPERQKSGHVHSAVPSPDGKYVFANDLGADKVFVYRYDPKANPELPLTPADPAFVQLPPGSGPRHLLFSNDGKHAWLTMEMTAQVAVFDYQDGRLTQRQLVDLAAGKPQPGKAAAALHASRDGKFLYVSNRGTTNELVVFAIDPAAGTLKELQRRSVEGDHPREFSLDPSEKFVLVANQKSNQIVIIERDPNTGLLGKTVQKLAMDAPSDLKFMVRQ	PGPT0014975_440	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
D1-35_04159	297			hypothetical protein	ATGACTGCCCCGACCGACACTCTGCTGCAAGCCCTCGAACACTGCGACATGCTGATCATCGACGGGCTGCACGCTTTCGATTTTTCCCTCGACGAGCAGGACCAACTGCACGTCGAATGCATGAACGGCCGTACCCTCGAGCATTGGCGCTTCACGCCGGCACAGATGCAGGCCGCGACCTTCGACACAGCTTCGAAACATTGGGTCATCACCAGTGATTCGGGCGATCACCATCTGGAATGCGTGGAGGCGACCAGCGGCCACGACGACGAGGACTCCGAGCATGAAGATGCGTAG	MTAPTDTLLQALEHCDMLIIDGLHAFDFSLDEQDQLHVECMNGRTLEHWRFTPAQMQAATFDTASKHWVITSDSGDHHLECVEATSGHDDEDSEHEDA				NA	NA	NA	NA	NA
D1-35_04160	1581			Alpha-ketoglutaric semialdehyde dehydrogenase	ATGAATCAGATCCTTGGCCACAACTACATCGGTGGCGCCCGCAGCGCGGCCGGCCAGACTCGCCTGCAAAGTTTCGACGCCAGCACCGGCGAGGCCTTGCCGCATGATTTCGTCCAGGCCACGGCGGAAGAAGTCGACGCCGCCGCCAAGGCCGCCGCGGCGGCTTATCCAACCTACCGCAGCCTGAGCGCGGCGCGCCGGGCCGAATTTCTCGATGCCATCGCCGATGAGCTGGACGCCTTGGGTGATGAGTTCGTCGCCGTGGTCTGCCGCGAAACCGCATTGCCGGCCGCACGGATCCAGGGCGAGCGCGGCCGCACCAGCGGGCAGATGCGCCTGTTCGCCAAGGTCTTGCGCCGTGGCGATTTCTACGGCGCGCGCATCGACCGGGCCTTGCCGGAGCGTACGCCGCTGCCGCGCCCGGACCTGCGCCAGTACCGCATTGGTCTCGGTCCGGTGGCCGTGTTTGGCGCCAGCAATTTCCCATTGGCATTCTCCACCGCTGGCGGTGACACCGCTGCCGCGCTGGCCGCCGGTTGCCCGGTGGTATTCAAGGCCCACAGTGGCCACATGGCCACCGCCGAGCATGTGGCCGATGCGATCATTCGCGCGGCTGAAAAGACTTCGATGCCGGCCGGTGTGTTCAACATGATCTACGGCGGTGGCGTCGGCGAATGGCTGGTCAAGCATCCGGCGATCCAGGCCGTCGGCTTCACCGGTTCCCTGAAAGGCGGGCGTGCCCTGTGCGACATGGCGGCCGCGCGGCCCCAGCCGATTCCGGTCTTCGCCGAGATGTCGAGCATCAATCCGGTGATCGTCCTCCCGCAAGCTTTGCAAGCGCGCGCCGAGAGTGTCGCTCGCGACCTGACCGCCTCGGTGGTGCAAGGCTGCGGTCAGTTCTGCACCAACCCTGGCCTGGTGATCGGTATCCGCTCACCTGAGTTCACTGCCTTCACCCAGCAGGTGGCTGCGCTGATCGGCGACCAGGCGCCGCAAACCATGCTCAATGCCGGCACGCTGCAAAGCTACGGCAAAGGCCTGCAAAAATTGCTGGCCCACCCAGGCATCGAACACCTCGCCGGTCGCGAGCAGCAAGGCAACCAGGCGCAACCGCAATTGTTCAAGGCTGACGCCAGCCTATTGATCAACGGTGACGAGGCGTTGCAGGAAGAGGTCTTCGGCCCGACCACGGTGTTTGTCGAAGTGGCGGACCAGGCGCAATTGAGCGCTGCGCTGCATGGCCTGCACGGCCAGCTCACCGCCACGATCATTGGCGAACCGGCGGACTTCGAACGGTTCGGTGAACTGACGCCGTTGCTGGAGCAGAAAGTCGGCCGCATCTTGCTCAACGGTTATCCAACTGGTGTGGAGGTTTGCGATTCGATGGTCCATGGCGGGCCTTACCCGGCGACGTCCGATGCGCGTGGCACTTCGGTCGGCACGCTGGCGATCGATCGGTTCCTGCGTCCGGTGTGCTTCCAGAACTACCCCGACAACCTGTTGCCAGAGCCGTTGAAGAACGCCAACCCGCTGGGGATCCTGCGATTGGTAGATGGCGTGCCGGGGCGCGAGGCGCTCTGA	MNQILGHNYIGGARSAAGQTRLQSFDASTGEALPHDFVQATAEEVDAAAKAAAAAYPTYRSLSAARRAEFLDAIADELDALGDEFVAVVCRETALPAARIQGERGRTSGQMRLFAKVLRRGDFYGARIDRALPERTPLPRPDLRQYRIGLGPVAVFGASNFPLAFSTAGGDTAAALAAGCPVVFKAHSGHMATAEHVADAIIRAAEKTSMPAGVFNMIYGGGVGEWLVKHPAIQAVGFTGSLKGGRALCDMAAARPQPIPVFAEMSSINPVIVLPQALQARAESVARDLTASVVQGCGQFCTNPGLVIGIRSPEFTAFTQQVAALIGDQAPQTMLNAGTLQSYGKGLQKLLAHPGIEHLAGREQQGNQAQPQLFKADASLLINGDEALQEEVFGPTTVFVEVADQAQLSAALHGLHGQLTATIIGEPADFERFGELTPLLEQKVGRILLNGYPTGVEVCDSMVHGGPYPATSDARGTSVGTLAIDRFLRPVCFQNYPDNLLPEPLKNANPLGILRLVDGVPGREAL	PGPT0018165_511	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018165-aldH-K13877	NA	NA
D1-35_04161	993			hypothetical protein	ATGCGTTTAGTTCAGTTCGAATTGAGTAACGGCGAACGCCGCGTCGGTGTAGTTGACGGCGAGCAGGTGCGCGAAGTGCAGGGCGCCACGACGGTGCGCGACCTGGCGCTGGCCGCCATCGAGGCGGGCGTCAAGCTTGAGCAACAGGTCGACGGCCTGGGCCTGGGAGCGAGCCATGACTATGCGCAACTGCTGAGCGAATTGCGCATCCTGCCGCCGCTGGATCACCCGGACCCGGCGCACCTGCTGGTCAGCGGTACCGGCCTGACTCACCTGGGCAGCGCCTCGGCCCGGGACAAGATGCACCAACAGGCTGGCGACGAGAGCGCCATGACCGACACCATGCGCATCTTCAAATGGGGCGTGGAGGGCGGCAAACCCGCCGCCGGGCAGGCTGGCGTTCAGCCGGAATGGTTCTACAAGGGCGACGGCAGCATCGTCGTCCGTCCCGGCCATCCGTTCCCGCTGCCGCCCTTTGCCGAAGACGCTGGCGAGGAGCCGGAAATCAGCGGCCTGTATGTCATCGGTCACGACGGCAAGCCATATCGGCTGGGCTTTGCGGTGGGCAACGAATTTTCCGATCACGTCATGGAACGCAAGAATTATCTGTACCTGGCCCATTCGAAACTGCGCAGTTGCAGCTTCGGCCCGGAACTTCGCGTGGGCGAACTGCCTCAACATCTGTCCGGGACCAGTCGTATCCTGCGCAACGGCGAAGTGCTGTGGCAGAACGAATTCCTCAGCGGCGAGGCGAACATGTGCCACAGCCTCGAGAACCTCGAGTTCCACCATTTCAAGTACAGTCAGTTCCTGCGCCCCGGGGACGTGCACGTTCACTTCTTCGGCACCGCGACGCTGTCGTTCGCCGACGGCATCCGCACCCAGCCGGGGGACGTGTTCGAAATCAGCCAGGCCGAATTCGGCGCACCGCTGATCAACGGCATTGCTCCGGTAGACGCGGTGTTCAACCCAGGTACTATCGGCACACTTTAA	MRLVQFELSNGERRVGVVDGEQVREVQGATTVRDLALAAIEAGVKLEQQVDGLGLGASHDYAQLLSELRILPPLDHPDPAHLLVSGTGLTHLGSASARDKMHQQAGDESAMTDTMRIFKWGVEGGKPAAGQAGVQPEWFYKGDGSIVVRPGHPFPLPPFAEDAGEEPEISGLYVIGHDGKPYRLGFAVGNEFSDHVMERKNYLYLAHSKLRSCSFGPELRVGELPQHLSGTSRILRNGEVLWQNEFLSGEANMCHSLENLEFHHFKYSQFLRPGDVHVHFFGTATLSFADGIRTQPGDVFEISQAEFGAPLINGIAPVDAVFNPGTIGTL	PGPT0017806_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LYXONATE_DEGRADATION,PGPT0017806-2_keto3_deoxy_L_lyxonate_dehydratase-NA	NA	NA
D1-35_04162	1323	abaQ_2		Quinolone resistance transporter	ATGAGCCAGGAATTGCGGCTTATACGTCGCATCACACTCAAACTGATTCCCTTCCTGATCCTGCTTTACCTGATCGCGTACGTGGATCGCTCCGCCGTGGGCTTTGCCAAGCTGCACATGGGCGCGGACATCGGCATCGGCGACGCCGCCTACGGCCTCGGCGCTGGCCTGTTCTTCATCGGTTATTTCCTCCTGGAGATTCCCAGCAACCTGATGCTGGAACGCTTCGGTGCGCGGCGCTGGTTTGCCCGGATCATGATCACCTGGGGCGCAATCACCATCGGCATGGCTTTTGTGCAGGGGCCCTATAGTTTCTACGTGATGCGCTTTCTGCTGGGCGCGGCCGAAGCCGGGTTCTTTCCGGGCGTGCTGTATTACATCACTCAGTGGTTCCCGGTGCGCCATCGCGGCAAGATCCTCGGGCTGTTCATTCTTTCCCAACCCATTGCGATGATGATCACCGGTCCCGTTTCCGGTGGCTTGCTGGGCATGGACGGCATCCTCGGCCTGCACGGCTGGCAGTGGTTGTTCATCGTCATCGGCCTGCCGGCGGTGCTGTTGACCTGGCCGGTGCTGCGTTATCTGCCGGACGGCCCGCAACAGGTCAAATGGATGGACCAGTCCGAGAAGGACTGGTTGACCGGTGAGCTGAAAAAGGACCTGGAAGAATACGGCCAGACCCGTCATGGCAACCCGCTGCATGCGCTCAAGGACAAGCGCGTCCTGCTGTTGGCGCTGTTCTACCTGCCGGTGACCCTGAGTATCTACGGCCTGGGGCTGTGGCTGCCGACGCTGATCAAACAGTTCGGAGGCAGTGACCTGGTGACCGGCTTTGTCTCTTCCGTGCCTTATATCTTTGGCATCATCGGTCTGCTGATCATTCCTCGCAGCTCCGACCGCCTGAACGACCGCTACGGTCACCTGGCCGTGTTGTATGTATTGGGCGCCATCGGTCTGTTCCTCAGCGCCTGGTTGACCGTGCCGGTGCTGCAACTGGCGGCGTTGTGCCTGGTGGCGTTTGCACTGTTTTCCTGCACGGCGGTGTTCTGGACTTTGCCGGGACGGTTCTTCGCCGGTGCCAGCGCGGCGGCGGGCATTGCCTTGATCAACTCGGTAGGCAACCTGGGCGGCTACATCGGCCCGTTCGTGATCGGCGCCTTGAAGGAATACACCGGTAACCTGGCGTCCGGGCTGTACTTCCTGTCGTGCGTGATGGTGTTCGGCCTGGTATTGACCGGGGTGGTCTATCGCTTGCTCGAACGCAAGCACGTGTTGCCGGCTGACCAGTTCGCGGCGAGCGCCCGCGGGGCGACGCGTAGCTGA	MSQELRLIRRITLKLIPFLILLYLIAYVDRSAVGFAKLHMGADIGIGDAAYGLGAGLFFIGYFLLEIPSNLMLERFGARRWFARIMITWGAITIGMAFVQGPYSFYVMRFLLGAAEAGFFPGVLYYITQWFPVRHRGKILGLFILSQPIAMMITGPVSGGLLGMDGILGLHGWQWLFIVIGLPAVLLTWPVLRYLPDGPQQVKWMDQSEKDWLTGELKKDLEEYGQTRHGNPLHALKDKRVLLLALFYLPVTLSIYGLGLWLPTLIKQFGGSDLVTGFVSSVPYIFGIIGLLIIPRSSDRLNDRYGHLAVLYVLGAIGLFLSAWLTVPVLQLAALCLVAFALFSCTAVFWTLPGRFFAGASAAAGIALINSVGNLGGYIGPFVIGALKEYTGNLASGLYFLSCVMVFGLVLTGVVYRLLERKHVLPADQFAASARGATRS	PGPT0002325_611	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-ORGANIC_ACID_METABOLISM	P-SOLUBILISATION-TARTARIC_ACID_TRANSPORT,PGPT0002325-ttuB-K13021	NA	NA
D1-35_04163	1737	araC_1		L-arabonate dehydratase	ATGTCTGATAAGAAACCCTCCCTGCGCTCGGCCCAATGGTTTGGCACCGCCGACAAAAACGGCTTCATGTACCGCAGCTGGATGAAAAATCAGGGCATCGCCGACCACCAGTTCCATGGCAAGCCGATCATCGGTATCTGCAATACCTGGTCGGAGCTGACACCGTGCAACGCGCATTTCCGGCAGATCGCCGAGCACGTCAAGCGCGGCGTGATCGAGGCCGGGGGCTTTCCGGTGGAATTCCCGGTGTTCTCCAACGGCGAATCGAACCTGCGCCCCACCGCCATGCTGACCCGCAACCTGGCGAGCATGGACGTGGAAGAGGCGATTCGCGGCAACCCGATTGATGGCGTGGTACTGCTCACCGGTTGCGACAAGACCACCCCGGCCCTGCTGATGGGCGCCGCCAGTTGCGACGTGCCGGCCATCGTCGTCACCGGCGGGCCGATGCTCAACGGCAAGCACAAGGGCCAGGACATCGGCTCAGGCACCGTGGTCTGGCAGCTGAGCGAACAGGTCAAGGCCGGCACCATCACCATCGATGACTTCCTCGCGGCCGAGGGCGGCATGTCCCGCTCGGCCGGTACCTGCAACACCATGGGCACGGCGTCGACCATGGCCTGCATGGCCGAGGCGCTTGGCACTTCGCTGCCGCATAACGCGGCGATCCCGGCGGTGGATGCGCGCCGTTATGTGTTGGCGCACATGTCCGGCATGCGCGCCGTGGAAATGGTCCGCGAAGACCTGAAGCTGTCGAAGATCCTGACCAAGGAAGCCTTCGAAAACGCGATCCGCGTCAACGCCGCCATCGGCGGTTCGACCAACGCGGTGATTCACCTCAAGGCCATCGCCGGGCGCATCGGCGTGCAACTGGACCTGGACGACTGGACCCGCATCGGTCGCGGCATGCCGACCATCGTCGACCTGCAACCGTCCGGACGCTTCCTGATGGAAGAGTTCTACTACGCCGGCGGCCTGCCTGCCGTGCTGCGTCGCCTCGGCGAAGCCAATCTGATCCCCCACCCGAACGCACTGACGGTGAACGGCAAGAGCCTCGGCGAAAACACCAAGGACGCGCCGATCTACGGCCAGGACGAAGTCATTCGCACCCTGGACAACCCGATCCGCGCCGACGGCGGCATCTGCGTACTGCGCGGCAACCTGGCGCCATTGGGCGCAGTGCTCAAGCCGTCCGCGGCCACCGCCGAACTGATGCAGCATCGCGGTCGCGCGGTGGTGTTCGAGAACTTCGACGAGTACAAGGCGCGGATCAACGATCCGGAGCTCGACGTGGATGCCGACTCGATCCTGGTCATGAAGAACTGCGGGCCGAAGGGTTATCCGGGCATGGCCGAAGTCGGCAACATGGGCTTGCCAGCCAAACTGCTGGCCCAGGGCGTGACGGACATGGTGCGTATTTCCGACGCACGCATGAGCGGCACCGCCTACGGCACCGTGGTGCTGCATGTGGCACCGGAAGCGGCGGCCGGCGGGCCTTTGGCCGCGGTGAAAGAAGGTGACTGGATCGAACTCGATTGCGCCAGCGGCCGCCTGCACCTGGACATCCCCGACGCCGAACTCGCCGCGCGCCTGGCCGACCTGGCGCCACCGCAGCAATTGCTGGTCGGTGGCTACCGCCAGCTGTACATCGACCATGTGCTGCAAGCCGACCAGGGTTGCGACTTCGACTTCCTGGTGGGCTGCCGCGGCGCCGAGGTGCCGCGTCACTCCCATTGA	MSDKKPSLRSAQWFGTADKNGFMYRSWMKNQGIADHQFHGKPIIGICNTWSELTPCNAHFRQIAEHVKRGVIEAGGFPVEFPVFSNGESNLRPTAMLTRNLASMDVEEAIRGNPIDGVVLLTGCDKTTPALLMGAASCDVPAIVVTGGPMLNGKHKGQDIGSGTVVWQLSEQVKAGTITIDDFLAAEGGMSRSAGTCNTMGTASTMACMAEALGTSLPHNAAIPAVDARRYVLAHMSGMRAVEMVREDLKLSKILTKEAFENAIRVNAAIGGSTNAVIHLKAIAGRIGVQLDLDDWTRIGRGMPTIVDLQPSGRFLMEEFYYAGGLPAVLRRLGEANLIPHPNALTVNGKSLGENTKDAPIYGQDEVIRTLDNPIRADGGICVLRGNLAPLGAVLKPSAATAELMQHRGRAVVFENFDEYKARINDPELDVDADSILVMKNCGPKGYPGMAEVGNMGLPAKLLAQGVTDMVRISDARMSGTAYGTVVLHVAPEAAAGGPLAAVKEGDWIELDCASGRLHLDIPDAELAARLADLAPPQQLLVGGYRQLYIDHVLQADQGCDFDFLVGCRGAEVPRHSH	PGPT0017465_291	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017465-araC-K13875	NA	NA
D1-35_04164	720	lutR_4	COG2186	HTH-type transcriptional regulator LutR	ATGGATTACCGCAAACCCTCCGACCGCAAGAGCATGCACGCGCGCATCGTCCAGGAACTGGGCATGCAGATCGTCTCTGGCCGCTTCAAGCCCGACGACAAACTGCCCGCCGAAGCCTTGCTGTGCGAAGAATATGCCGTCAGCCGCCCGGTGCTGCGCGAAGCCACGCGCGTGCTGGTCGCCAAGGGCCTGGTGTATTCGCGGCCGCGAGTGGGCACGGTGGTCAAGCCGCGTCGGGAATGGCACATGCTCGACCCCGATGTGCTGCACTGGCTGATGCAGAGCAGCCCACAGAACGAGTTCTTCGGACTGCTCACCAGCGTGCGCAGCATCATCGAGCCGGCCGCCGCCGCCCTCGCCGCGCAATTCGCCACCGACGCCGACATCGCCGCCATCAGCGAAGCCTACCAGCGCATGGAAGCCGCCCCGACCCCGGAAGCCCTCCTGCAACCGGACCTGGACTTTCACAGCCGCATCGCCGACGCCACCCACAACGACCTGCTCGCCAACCTGTGCAACATGCTGTCGGTGGCCATCGCCGAAGCCCTCAAGCACTCCAACCAACGGCCCAACCTGCACGAGCTGGCGATGCCACGGCACAAGGCGATCCTCACCGCCATCGAGAACCGCGATGCCCTCGGCGCCCGCCATGCCACGCTGGTGCAACTGGATGACGCCCGCAGTGCGCTGAATGTCGTGCTGGGCAGCGATCCCGCCTGA	MDYRKPSDRKSMHARIVQELGMQIVSGRFKPDDKLPAEALLCEEYAVSRPVLREATRVLVAKGLVYSRPRVGTVVKPRREWHMLDPDVLHWLMQSSPQNEFFGLLTSVRSIIEPAAAALAAQFATDADIAAISEAYQRMEAAPTPEALLQPDLDFHSRIADATHNDLLANLCNMLSVAIAEALKHSNQRPNLHELAMPRHKAILTAIENRDALGARHATLVQLDDARSALNVVLGSDPA	PGPT0018085_149	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018085-dgoR-K19776	NA	NA
D1-35_04165	4668			hypothetical protein	ATGGCATCGCCTTCCCCGGCTGACAACGCCAACACACAGGCACAGAACGTCAGCCTGCAATTTGCCGGTCGACCCACCTTCGAGCAGGTTGTATCGAGCACGTTTCAGCAAGCTATTCGAAAGGAATACCCTTGGAATGCGCTCAACCTGTCCAAGGTGCTGTTGGCAACTCCCGACAGGGCCTCTAAAAGCTGGACGACTACCCGCCTCATGACGCTCGTCCTCGATTACCTGGCTACCGGCACGCCCATCGACTTCAAGGAGTGGAGCGAGCATGGCTGTTTCCTTTCCGAAACGATGCCGCACCGTCTCAAGCTGGACGCGCAGGACATGCTCACGCTGGAAAAGCTGCTACTTGAACTGCCTTGGACAGTACCGATCGGATTCGAGGATGCGCTGGTCCGCTACTGGAATGCCGACATTGACCCCCATCAAGGCACCAGCCGCTGGAACTGGCTCAGCGGTGCACTGCGAAACCTGTTGCAGACCCGTGGCTTGCAGCAACCAGGGCTCAGCGACCCGGCACGTGAGATGCTCGACCAGATCACCCGCCGGCCTGTCAGCAAGCAACACTTGCGCGCCGACGGTCAGTCCAGCGTCTACGCCTACAGCCTGGAAAGCACGCTCGTTAAAGCCGCTTCCCGTTCGGTCATATACGGTAGCGAGATTCTACTGACGCGCACCACCGAAGGTGGGACCCTCCTGCTGCTGTGCAGCCCTGGCAGCGCCGTCAAACCCTTTGAATCGCTGGAGGACTTTCACCGTCACTGGAGTGAACTCATCGCCAGCCGGTACCTTGTCGACACCGTCACTTGCACACGCACCGAGATCGCTGGCAACGTGTTCGAGACCCAGGCAGCACTGATCCTGGAGCAACAGCTGGCCGACCTCCGGGCGGTGGAATTGCCTTCCCGCGTCGGCTCGCAGCACCTGCGTGCGCTGTATCACGAACTGAGCGACCCGGCCCGCTACCTGCGTGACACCCCGTACCCCTCTCCTCAGATGTCGAAGCTCATTGCGCCGCTGGTGCCCGAATGGTTGAAGGAAGCGTCCGTTGTCGACCAGACCAGGCACCAGCATTACTGCCTGGCGTTGGCCAGCGCCAAGAAACGCAGTCCAGGCCAAACCTTCCTCAGCGATATCGAGAATATCCACTCCTTCACGTCCCAAGCCCTGCTTGAGCGCATGGGTCGAACAAACGATAGCTCGTCGACCCAGGCCCAACCCTCCCGCTACAACCCCGACGACGTGCTACTGACTTTCACCGTGGCGGCGGGCCTCCCCGGTACGATCGGGATTGTCGAGAAAAAATCGATGAAACTGAGCGAACTGGCCATCCGCAATCTCGTCGCCCGCCCCAGTGGAAACCCGATCCTCAGCCATCGCCTGGGCCTGACCCTGCCCGAATGGTTGACCCCGGACTACATCACCCGCCAGGGCGGGCTGATTGAACAGGTCGACATCGGCACCGCCTACCCCCGATATCTGCAGCACAAGCTGTTTGACGATTTGCCTACCCTGCGTCAACAGAGATTCGCCGACCAGGTCCCGACAGAGCTGCTTCTCGAAGCGCTCAAGCAAAAGCTCGACCACCAGAACAGCATGACCCGTCAAGGCCTGGACCTTCTCGAAGCCGTCCTTCAAGCCGATGTCGAGGAACAACAGGTCGACGGTCGTCCGGTGGTGATTCGTCCCCTGGCCTTTCTGCGTAAGCCGAAGGCGCGACCTGATGTTGTGACGAATATGTTCATCATCGAACCGCAAGCCGTCGAAACGGGACCACACCTGCTGTATCGCCCGCTTCACTCGCCCTCGTTGATTGAGTTCCCGACACGCCAGGCGCTGTTGACTGCCATTGGCCTGGACGGCGAACTGCAGACCAGCGTCTTGACCTGGTTATCGGATACCGCGCGTCCGGTGTACGCCAATGGGGGGTTCCTGGAGCCACACATTGTGCGCTTTCTTCCAGGCGATGAATTCGCCCCTTTCGAAAAGCCGACCCCGGCGACACTCGCAATCGAGGGTGACAACGACGAGTTGTTGCAATTCCTGCACAACGGCAAGCTGATGGAGTATCTCTACGGCAGTAATGCGCGGGCCTTGGTTGCCCAGGCCAACAGGGCTTCGGTCTCCAACGCCGAAAGCCGTTGGGCGACCCTTCTCGAGGGCGGCGGCCTGTTGTTCAACACACTGTTGGTGCCGATCCTGCGCGGCCCATTGATAAGCGTCGGCTGGTTATGGAACGTGATCGCCGTCGCCGGGCAAGACATCCCGGCCATGCAGAGCGAGGATCCGACTACGCGGGAGCTCGCTACCGTCGACTTTCTCTTGAACTTCGCCATGCTCGGACATCAGGCGTTGTCCCTCGACGAGCCTGTTCGCAAGCCACTGCCCCACGAACTGGAAGACCAGGCGATGCGTGCGCCTGCGCCACGCATCGTTCCCGAGCAATGGCCCAAGCCGGCCCTGCCAGACGTCATCGAAGGCCCCGTCTACCTGCCCGGGGAACACGCCCAAGCTGCTTTTGAGCACCTCGACTTCAGTTTCGCCAGCGCCCGTCGGCGCCTGACGCTGGAGCAACGCACCCGCTTGCAGCGCCTGACAGTGCAGCGTCCCGCAGTGATGCCCGCTGCCCTTCCCTCTGGCCCTTATACCGGCCTTTATCTGATCAATAAAAAATGGCATGCCGTGGTTGAGGGCGAGTTGTATCAAGTCGACACATGGAACAGCACCGTACAGATCGTCGACCCGCACGACCCGGCACGCAGGGGGCCGGCGCTAATATCGGACGGCCACGGCAGCTGGTCCTTGGACCTGGGCCTGGGCCTGCGTGGCGGGATGCCGCCCAAGCGCGTGGAGGAACAACGTCGCTTCAACGAAAAAAGAAAAGCGGAAATCGCGGCGGAAACCAGGGAGTTCTTCGAAAAAAGTGCCGAGCGGAAAAAGAAGCTGGATATCACCCACGACCTGCTGAGCTTATTGGAGATCGGTACGCCACCTGATGAGAAGCGGATGGCCCCCATACGTAAAAGCTTTCATGAACAGTTAAAGGAGCAGGCCGAAGCCGATCTGAAGATACTGGGGAACGAGCTCGAATCCATCAAGCTGAATAGCCCAATTTCCCGCGGGAATATTTACCAGATCACTGAATCGTTGATCGAATGTTGTCGTACAGCCATTGCCGTTGTCGTAAAGGATATACAAGCTCTGAATGCTGCCCATTCCTCATTCGTGGGACCGTCTGCGTCTGACATTCTGGAGGCAGTTGAACATGATCCGCAGGGCTATTTGAGGTTCGCCGCGCAGTTATTTGAGCTCAATGAGCGCTCGATCCATTGGCTGGAGCTTGAACACCGCACGCTTGATACGTTATTGAACCGGGGCAGCAAGGGCCGGGAAATGTTCGATCGCCTGACCCATGACCGACCGGTGGCGAAAACCGCTTCGTTGGCTGGCCAAGAGCTCCAGACGACGTTGGCCACAGTGCTCGCTTCGCGCGGCGAGAGCGAGTCGAGGGAGCACCTGCGAACCATCAGCAAGCCGCTAAAGGAACAAATACAATCTCACGCTACGTTGTGGACGTACGACTTCTCGGAACGGCTCGAGGTATTGGAGAGCTTGTCCGAACACTATGGCAAGGCGCTGGATGCCCTACAGATCGTGAAAGTACTTCACGCCGATGAGATGGACCTGCCTTATTTCGACAAGCTGGTCACCTTGGTCGAAGAATTGTATGAGGAGGTCTCCCAGGAACTGGCCACGGAAATAAAACCCGAACCGAAACCGCGCGCGCGCGCTTCCAAACGCACCGGAACATCCGCCGGACGCCCTCAGAAAAAAGTGATCCGAACCCGCCACAATGGTGTATTGGTTGGCGACCTGAGACCTGCCGGTACAACCTTGGAGATTGATGTCGTCGAGCTGCGCTCCGAAAACGATAACCAGTTGCTAGGCACCTATTCCCGTCATGAAGACGCCTGGGACCTCGTCAAGGAAGAGCGACCGGCCGCGCCGCTGAAAACGAGACCTGTCAGTGAAATCAAAGGCGCCGCACGAAAACTGCTCGGACAACTGGAAAGACTTCTGAAAAGGGCAAAAAGCTATAAAGCCCAGTGCCGTTACCCGCAGGAAATCGAGGAGGTCATGAACAACGAGGCGGATCGTTTTCGCAAAATTGCCGAGGAGCTTGAACAAGCCGTCAAGGCTTCCCCAACAGAGCCCGGCCCGCGAGACCAGACCTTAATCGAGGAACTGACAAAGGCCGCCACCCGCCTTGCAGCACAGGGCGGCTACCTGCGCACCGAGCTGAGCCTGAAACTGCCACCCACCGACGGCAATCTCCGCTATCTGTTTGCAAAAGAATTGATCCAGGTCAGCAAGTACGGCGACCGCACAGCCATGAGCGGAGTCCGCAAGGACTTCATTCAGGAATATGCAATCAACGACCGTAACGGCTTCCCCCTCTGGTATGCCCATTTTCACTATGAAAAGGCCGACACCCCGAAAGCCGACTACAGCGTTGCACACGTGAAAACCAAGGAGCAACGGAAGGAAAGCTACTATTCAATGCTGTCCAAAGCTGAAGGCCCCTACGCCGTCGTGAACGTGCATCGCGGCCAGATCGGCAAACCTCTGGCACAACGCTGGTTCTTGCCCCTGGACCACTAA	MASPSPADNANTQAQNVSLQFAGRPTFEQVVSSTFQQAIRKEYPWNALNLSKVLLATPDRASKSWTTTRLMTLVLDYLATGTPIDFKEWSEHGCFLSETMPHRLKLDAQDMLTLEKLLLELPWTVPIGFEDALVRYWNADIDPHQGTSRWNWLSGALRNLLQTRGLQQPGLSDPAREMLDQITRRPVSKQHLRADGQSSVYAYSLESTLVKAASRSVIYGSEILLTRTTEGGTLLLLCSPGSAVKPFESLEDFHRHWSELIASRYLVDTVTCTRTEIAGNVFETQAALILEQQLADLRAVELPSRVGSQHLRALYHELSDPARYLRDTPYPSPQMSKLIAPLVPEWLKEASVVDQTRHQHYCLALASAKKRSPGQTFLSDIENIHSFTSQALLERMGRTNDSSSTQAQPSRYNPDDVLLTFTVAAGLPGTIGIVEKKSMKLSELAIRNLVARPSGNPILSHRLGLTLPEWLTPDYITRQGGLIEQVDIGTAYPRYLQHKLFDDLPTLRQQRFADQVPTELLLEALKQKLDHQNSMTRQGLDLLEAVLQADVEEQQVDGRPVVIRPLAFLRKPKARPDVVTNMFIIEPQAVETGPHLLYRPLHSPSLIEFPTRQALLTAIGLDGELQTSVLTWLSDTARPVYANGGFLEPHIVRFLPGDEFAPFEKPTPATLAIEGDNDELLQFLHNGKLMEYLYGSNARALVAQANRASVSNAESRWATLLEGGGLLFNTLLVPILRGPLISVGWLWNVIAVAGQDIPAMQSEDPTTRELATVDFLLNFAMLGHQALSLDEPVRKPLPHELEDQAMRAPAPRIVPEQWPKPALPDVIEGPVYLPGEHAQAAFEHLDFSFASARRRLTLEQRTRLQRLTVQRPAVMPAALPSGPYTGLYLINKKWHAVVEGELYQVDTWNSTVQIVDPHDPARRGPALISDGHGSWSLDLGLGLRGGMPPKRVEEQRRFNEKRKAEIAAETREFFEKSAERKKKLDITHDLLSLLEIGTPPDEKRMAPIRKSFHEQLKEQAEADLKILGNELESIKLNSPISRGNIYQITESLIECCRTAIAVVVKDIQALNAAHSSFVGPSASDILEAVEHDPQGYLRFAAQLFELNERSIHWLELEHRTLDTLLNRGSKGREMFDRLTHDRPVAKTASLAGQELQTTLATVLASRGESESREHLRTISKPLKEQIQSHATLWTYDFSERLEVLESLSEHYGKALDALQIVKVLHADEMDLPYFDKLVTLVEELYEEVSQELATEIKPEPKPRARASKRTGTSAGRPQKKVIRTRHNGVLVGDLRPAGTTLEIDVVELRSENDNQLLGTYSRHEDAWDLVKEERPAAPLKTRPVSEIKGAARKLLGQLERLLKRAKSYKAQCRYPQEIEEVMNNEADRFRKIAEELEQAVKASPTEPGPRDQTLIEELTKAATRLAAQGGYLRTELSLKLPPTDGNLRYLFAKELIQVSKYGDRTAMSGVRKDFIQEYAINDRNGFPLWYAHFHYEKADTPKADYSVAHVKTKEQRKESYYSMLSKAEGPYAVVNVHRGQIGKPLAQRWFLPLDH				NA	NA	NA	NA	NA
D1-35_04166	2376			hypothetical protein	ATGAGCAGTCATCACCAAGACAAGGCGACGTTCCTCGAGCGCCTGATTTTCAACAACCGCCCGGCAGTGATCATCATTTGCCTGCTGGTCAGCATTTTCCTGTTCTGGCAGGCCACGCTGATCCGGCCGTCCACCAGTTTCGAAAAAATGATTCCCCTCGAGCATCCGTTCATCGAGAAGATGCTCGAACACCGCAATGACCTGGCGAACCTGGGCAACACGGTACGGATTTCCGTGGAAGCTACCAACGGCGATATTTTCTCCAAGGAGTACATGGAGACCCTGCGCCAGATCCACGACGAGGTCTTCTACATCTCCGGCGTCGACCGCTCCGGCCTGAAGTCGCTGTGGAGCCCGAGCGTGCGCTGGACCGAAGTGACGGAGGAGGGCTTCGCCGGTGGCGAGGTAATCCCGCAGAGTTACAACGGTTCGGCCGACAGCCTCGACCTGCTGCGCAACAACGTGCTCAAGTCCGGCCAGGTCGGGCGCCTGGTGGCGAACGATTTCAAATCGAGCATCATCGATATCCCGCTGCTGGAGTCCTATCCCGACCCGCAAGACCAAGGCAAATTGCTCGCCCTCGATTATCGGAAATTTTCCCACGAGCTTGAAGACAAGATCCGCAACAAGTTCGAAGCGCAGAACCCGAATGTGCAGATTCACATCGTCGGCTTCGCCAAGAAAGTTGGCGACCTGATCGATGGCCTGGTCATGGTGGTGCTGTTCTTCGGCGTCGCCTTCGTCATCACCCTGATCCTGCTGTACTGGTTCACCAACTGCATGCGCAGCACCGTTGCGGTATTGAGCACCACCCTGGTGGCGGTGGTCTGGCAACTGGGGCTGATGCACGCGGCCGGTTTCGGCCTGGATCCATATTCGATGCTGGTGCCGTTCCTGATCTTCGCCATCGGCATTTCCCACGGCGTACAGAAAATCAACGGCATCGCCTTGCAGTCCAGCGAGGCGGACAACGCCTTGACGGCGGCGCGGCGCACCTTCCGCCAGTTATTCCTGCCGGGGATGATCGCGATCCTGGCCGATGCCGTCGGCTTCATTACCTTGCTGATCATCGACATCGGCGTGATTCGCGAACTGGCCATCGGCGCGTCCATCGGCGTGGCGGTGATTGTGTTCACCAACCTGATCCTGCTGCCGGTGGCGATTTCCTACGTTGGTATCAGCAAGCGCGCGGTCGAGCGCAGCAAGAAAGACGCGACCCGCGAACATCCGTTCTGGCGCCTGCTGTCGAACTTTGCCAGCGCCAAGGTCGCGCCGGTATCGATTGCCCTGGCCGTGCTCGCCTTTGGCGGCGGCCTCTGGTACAGCCAGAACCTGAAGATCGGCGACCTCGACCAGGGCGCGCCGGAACTGCGTCCGGACTCGCGCTACAACCAGGACAACAACTTCATCATCAGCAACTATTCCACCAGCTCCGATGTGCTGGTGGTGATGGTCAAGACCAAGGCCGAAGGCTGTTCGCGCTACGAAGCCATGGCGCCCATCGACGAGCTGATGTGGAAGATGCAGAACACCGAGGGCGTGCAGTCGGCGATTTCCCTGGTGACCGTGTCCAAGCAGATGATCAAGGGCATGAACGAGGGCAACCTGAAATGGGAAACCCTGTCGCGCAACCCTGATGTACTGAACAGCTCCATTGCCCGGGCCGACGGCCTTTACAACAACAGCTGTTCCCTGGCGCCGGTGCTGGTGTTCCTCAACGACCACAAGGCCGAGACGCTCGACCGCGCCGTGACGGCGGTGCAGGACTTCGCCAAGGAGCACAACCGCGATGGCCTGGAGTTCATCCTCGCCGCCGGTAACGCCGGGATCGAGGCGGCCACTAACGAAGTGATCAAGGAATCGGAACTGACCATCCTGATCCTCGTGTATATCTGCGTGGCGACGATGTGCATGATCACCTTCCGTTCCTGGGCAGCGACGCTGTGCATCGTCCTGCCACTGGTGCTGACCTCGGTGCTGGGCAACGCGCTGATGGCGTTCATGGGCATCGGCGTGAAGGTCGCGACACTGCCGGTGGTAGCCCTCGGCGTAGGGATCGGCGTGGACTACGGCATCTACATCTACAGCCGCCTGGAAAGTTTCCTGCGGGCCGGGTTGCCGTTGCAAGAGGCGTATTACCAAACGCTGAAATCCACTGGCAAGGCGGTGCTGTTTACCGGCTTGTGCCTGGCCATCGGCGTCTGCACCTGGATCTTCTCGGCGATCAAGTTCCAGGCGGACATGGGCCTGATGCTGACGTTCATGTTGTTGTGGAACATGTTCGGCGCGCTGTGGCTGCTGCCCGCGCTCGCGCGTTTCCTGATCAAGCCGGAGAAGCTGGCGGGGCAGAAGGGCAATTCGTTGTTTGCCCACTGA	MSSHHQDKATFLERLIFNNRPAVIIICLLVSIFLFWQATLIRPSTSFEKMIPLEHPFIEKMLEHRNDLANLGNTVRISVEATNGDIFSKEYMETLRQIHDEVFYISGVDRSGLKSLWSPSVRWTEVTEEGFAGGEVIPQSYNGSADSLDLLRNNVLKSGQVGRLVANDFKSSIIDIPLLESYPDPQDQGKLLALDYRKFSHELEDKIRNKFEAQNPNVQIHIVGFAKKVGDLIDGLVMVVLFFGVAFVITLILLYWFTNCMRSTVAVLSTTLVAVVWQLGLMHAAGFGLDPYSMLVPFLIFAIGISHGVQKINGIALQSSEADNALTAARRTFRQLFLPGMIAILADAVGFITLLIIDIGVIRELAIGASIGVAVIVFTNLILLPVAISYVGISKRAVERSKKDATREHPFWRLLSNFASAKVAPVSIALAVLAFGGGLWYSQNLKIGDLDQGAPELRPDSRYNQDNNFIISNYSTSSDVLVVMVKTKAEGCSRYEAMAPIDELMWKMQNTEGVQSAISLVTVSKQMIKGMNEGNLKWETLSRNPDVLNSSIARADGLYNNSCSLAPVLVFLNDHKAETLDRAVTAVQDFAKEHNRDGLEFILAAGNAGIEAATNEVIKESELTILILVYICVATMCMITFRSWAATLCIVLPLVLTSVLGNALMAFMGIGVKVATLPVVALGVGIGVDYGIYIYSRLESFLRAGLPLQEAYYQTLKSTGKAVLFTGLCLAIGVCTWIFSAIKFQADMGLMLTFMLLWNMFGALWLLPALARFLIKPEKLAGQKGNSLFAH				NA	NA	NA	NA	NA
D1-35_04167	1053	hcf136_2		Ycf48-like protein	ATGAGTGAGCCTGTGATGGCTGTGGGCCGCTGCCGCCCGCCAGTGCTGCGCAGAGTTGCGCTGCTGGTCTCGGCGCTCTCGCTGCTGGGCTCTGCCGTTTTGTCGGCGCCGGTGCTGGCGGTTGCAGCGTCGACGGCCGATGTCATCTATTCCGTCGAATCGGCCAAGGCCAGCAAAACCCTCATGCTCGATGTGGTCCACGCCGGCCAGCGCCTGGTCGCGGTCGGTGACCGTGGGCATATCGTCTTTTCCGATGACCAGGGCAAATCCTGGACCCAGGCCAAGGTGCCGACCCGCCAACTGCTCACTGCGGTCTTCTTTGTCGATGACAAGCACGGTTGGGCCGTGGGGCACGACGCGCAGATCCTCGCCAGCGAGGACGGCGGCACCACCTGGACCAAGCAGTTCGAAGACCTCACCCGTGAAGCACCGCTGCTCGACGTCTGGTTCAAGGACGCCAGCAATGGCCTGGCCGTGGGCGCCTACGGTGCGCTGTACGCGACCACCGATGGCGGCAAGCACTGGGAGCAGGCCAGCGACCGCCTCGAGAATGAAGACCAATATCACCTCAACGCTATCGCCGCGGTAAAAGATGCCGGGCTGTTCATCGTCGGCGAGGCCGGCAGCATGTTCCGCTCCGCCGACTGGGGGCAGACCTGGGAAAAACTCGAAGGTCCGTACGAAGGCTCGCTGTTCGGCGCCATCGGCACCGCCCAGCCTTCGACCCTGTTGGCCTACGGCCTGCGCGGCAATCTCTATCGCTCCACGGATTTCGGCGACAGCTGGGAGCAGGTCGAGCTGAAGGCGGCCCGTGGCGCGCTGGAATTCGGCTTGTCGGGGGCGACGCTGTTGCCGGATGGCTCGATCGTGATCGTCGGCAACGGCGGCAGCGTGATTCGCAGCACCGATGATGGCGTGACCTTCAGCGTGTTCAACCGTCCGGATCGCATTTCCGTGGCGGCCGTCACGGCGGCGGGCAACGGCAACCTGATCCTGGCGGGACAGGGTGGCGTACGCGCTACCACGCCCACTGGCGCCGAACTGAGCAAATGA	MSEPVMAVGRCRPPVLRRVALLVSALSLLGSAVLSAPVLAVAASTADVIYSVESAKASKTLMLDVVHAGQRLVAVGDRGHIVFSDDQGKSWTQAKVPTRQLLTAVFFVDDKHGWAVGHDAQILASEDGGTTWTKQFEDLTREAPLLDVWFKDASNGLAVGAYGALYATTDGGKHWEQASDRLENEDQYHLNAIAAVKDAGLFIVGEAGSMFRSADWGQTWEKLEGPYEGSLFGAIGTAQPSTLLAYGLRGNLYRSTDFGDSWEQVELKAARGALEFGLSGATLLPDGSIVIVGNGGSVIRSTDDGVTFSVFNRPDRISVAAVTAAGNGNLILAGQGGVRATTPTGAELSK				NA	NA	NA	NA	NA
D1-35_04168	2658	pepN	COG0308	Aminopeptidase N	ATGCGCACCGAACAACCGAAGATGATCTACCTGAAGGACTATCAGGCGCCCGAATACCTGATCGACGAGACGCACCTGACCTTCGAGTTGTTCGAGGACCACAGCCTGGTCCATGCGCAACTGGTGCTGCGCCGCAACCCCGAGCGCGGCGCCGGATTGCCGCCGCTGGTGCTCGATGGCCAGCAGCTGGAATTGCTCTCGATCAAGCTCGACGACGCCGACCTGGGGCAGGGCGACTACCAGCTGGATGACAGCCACCTGACCTTGCAGCCCAAGGCCCAGGCGTTCACCGTCGATACCACCGTGCGCATCCATCCGGAAACCAACACGGCCCTGGAAGGCCTGTACAAATCCGGCAGCATGTTCTGCACCCAGTGCGAGGCCGAAGGCTTTCGCAAGATCACCTATTACCTCGACCGCCCGGACGTGATGAGCAAGTTCACCACCACCGTGGTCGCCGAACAGCACAGCTACCCGGTGCTGCTCTCCAACGGCAACCCGATTGCCAGCGGCCCTGGGGAAGACGGCCGGCATTGGGCGACCTGGGAAGACCCGTTCAAGAAGCCGGCCTACCTGTTCGCCCTGGTGGCCGGTGACCTGTGGTGCGTCGAAGACACCTTCACCACCATGACCGAGCGCAACGTGGCGCTGCGCATCTACGTCGAGCCGGAAAACATCGACAAGTGCCAGCACGCCATGACCAGCCTGAAGAAGTCGATGCGCTGGGACGAAGAGGTGTACGGGCGCGAATACGACCTGGACATCTTCATGATTGTCGCGGTCAACGATTTCAACATGGGCGCGATGGAGAACAAGGGCCTCAACATCTTCAACTCCAGCGCCGTACTGGCCCGCGCCGAAACCGCCACCGACGCCGCGCACCAGCGAGTCGAGGCGATCGTCGCCCACGAATACTTCCATAACTGGTCGGGCAACCGCGTGACCTGCCGCGACTGGTTCCAGCTGTCGCTCAAGGAAGGCTTCACGGTGTTCCGCGACGCTGGGTTCTCGGCGGACATGAACTCGGCCACGGTCAAGCGCATCCAGGACGTGGCGTACCTGCGTACCCACCAGTTCGCTGAAGACGCCGGCCCAATGGCTCACCCGGTGCGCCCGGACAGCTTCATCGAGATTTCCAACTTCTACACCCTGACCGTGTACGAAAAGGGCTCGGAAGTCGTCGGCATGATCCATACCCTGTTGGGCGCCGAAGGCTTCCGCAAGGGCAGCGACCTGTACTTCGAGCGCCACGATGGCCAGGCCGTGACCTGCGACGATTTCATCAAGGCCATGGAGGATGCCAATGGCGTCGACCTGAGCCAGTTCAAACGCTGGTACAGCCAGGCCGGTACGCCACGGCTGGCGGTGAGCGAGTCCTACGACGCTGCGGCGAAGACTTACAGCCTGACGTTCCGCCAGAGCTGCCCGCCGACGCCGGACAAGGCCGAGAAACTGCCCTTCGTGATTCCGGTCGAGTTGGGCCTGCTGGACAGCAATGGCGCCGAAATTCCACTGCGCCTGAGCGGCGAAGCGGCGGCGAGTGGCACGACCCGGGTGATCTCGGTGACCGAGGCCGAGCAGACCTTTACCTTCGTCGATATCGCTGAAAAGCCCCTGCCTTCGTTGCTGCGCGGCTTCTCGGCGCCGGTGAAGCTGAGCTTCCCGTACGACCGTGATCAACTGATGTTCCTCATGCAACACGACAGCGACGGCTTCAACCGTTGGGACGCCGGCCAGCAATTGTCGGTGCAGGTCTTGCAGGAACTGGTCGGCCAGCACCAGAAAGGCGAAAGCCTGGTGCTCGACCCTCGGCTGGTCAGCGCCTTGCGCAGCGTGCTGTCGGATGAATCCCTGGATCAGGCGATGGTCGCGGAAATGCTCTCGCTGCCAAGCGAAGCCTACCTGACCGAAATCAGCGAAGTGGCGGACGTCGAGGCGATCCACGCCGCCCGCGAATTCGCTCGTCGGCAGTTGGCCGAAAACCTGTTCGAAGCGCTGTGGCTGCGCTACGAGGCCAACCGCGACCTGTCCCGGCGCACGCCGTACGTGGCCGAGGCCGAGCACTTCGCGCGGCGTGCGTTGCAGAACATCGCGCTGTCCTACCTGATGCTGACCGACAAGCCCGAAGTGTTGAGCGCCACGCTTGAACAGTTCGACACCGCCGACAACATGACCGAGCGCCTCACGGCGCTTGCGGTGCTGGTCAACTCGCCGTTCGAGACCGAAAAGTCCAAGGCCCTGGAAGTGTTCGCGGAGAACTTCAAGGGCAACCCGCTGGTCATGGACCAATGGTTCAGCGTCCAGGCCGGTAGCCCGCTGCCGGGCGGGCTGGCGCGGGTCAAGGCGTTGATGGAGCACCCGGCGTTCAACATCAAGAACCCGAACAAGGTGCGGGCACTGGTCGGCGCGTTCGCCGGGCAGAACCTGATCAACTTCCACGCCGCCGACGGTTCCGGTTATCGCTTCCTGGCGGACCTGGTGATCCAGCTCAACGCCTTCAACCCGCAGATCGCCTCGCGGCAACTGGCGCCATTGACCCGCTGGCGCAAATACGACAGCGCCCGCCAGGCCCTGATGAAGGGCGAGCTGGAGCGCATCCTGGCGTCCGGTGGGCTGTCGGCCGATGTGTTTGAAGTGGTGAGCAAGAGCCTGGCTTGA	MRTEQPKMIYLKDYQAPEYLIDETHLTFELFEDHSLVHAQLVLRRNPERGAGLPPLVLDGQQLELLSIKLDDADLGQGDYQLDDSHLTLQPKAQAFTVDTTVRIHPETNTALEGLYKSGSMFCTQCEAEGFRKITYYLDRPDVMSKFTTTVVAEQHSYPVLLSNGNPIASGPGEDGRHWATWEDPFKKPAYLFALVAGDLWCVEDTFTTMTERNVALRIYVEPENIDKCQHAMTSLKKSMRWDEEVYGREYDLDIFMIVAVNDFNMGAMENKGLNIFNSSAVLARAETATDAAHQRVEAIVAHEYFHNWSGNRVTCRDWFQLSLKEGFTVFRDAGFSADMNSATVKRIQDVAYLRTHQFAEDAGPMAHPVRPDSFIEISNFYTLTVYEKGSEVVGMIHTLLGAEGFRKGSDLYFERHDGQAVTCDDFIKAMEDANGVDLSQFKRWYSQAGTPRLAVSESYDAAAKTYSLTFRQSCPPTPDKAEKLPFVIPVELGLLDSNGAEIPLRLSGEAAASGTTRVISVTEAEQTFTFVDIAEKPLPSLLRGFSAPVKLSFPYDRDQLMFLMQHDSDGFNRWDAGQQLSVQVLQELVGQHQKGESLVLDPRLVSALRSVLSDESLDQAMVAEMLSLPSEAYLTEISEVADVEAIHAAREFARRQLAENLFEALWLRYEANRDLSRRTPYVAEAEHFARRALQNIALSYLMLTDKPEVLSATLEQFDTADNMTERLTALAVLVNSPFETEKSKALEVFAENFKGNPLVMDQWFSVQAGSPLPGGLARVKALMEHPAFNIKNPNKVRALVGAFAGQNLINFHAADGSGYRFLADLVIQLNAFNPQIASRQLAPLTRWRKYDSARQALMKGELERILASGGLSADVFEVVSKSLA				NA	NA	NA	NA	NA
D1-35_04169	831			hypothetical protein	TTGATCGAGATTGGCCGCGGTGCAATCAGCAAGATGTCGGCACGCCTTGACGGGCCGACCGTTGAATACGCCTTTCGCCTGGGCGATGTCGAGGTGCCGGTCAACCCGTTGATCGGCAGCAGGGTTCGCCTGGAATACCTCGGTGCGATTCACTGTACCCATTGCGGACGGCGGACCAAGACCAGTTTCAGCCAGGGTTATTGCTACCCCTGCATGACCAGACTGGCCCAATGCGACCTCTGCATCATGAGCCCCGAGCGTTGCCATTTCGAGGCGGGTACCTGTCGCGACCCGGCCTGGGGCGAGCAGTTCTGCATGACCGATCATGTGGTCTACCTGGCCAACTCATCGGGCGTGAAAGTCGGCATCACCCGCGCCACGCAACTGCCGACCCGCTGGCTCGACCAGGGCGCGAGCCAGGCGCTGCCGATCCTGCGGGTCGCCACCCGCCAGCAGTCGGGTTTCGTCGAGGACCTGTTCCGCAGCCAGGTGGCGGACAAGACCAACTGGCGCGCCTTGCTCAAGGGCGACGCTGCGACGGTGGACTTGCGGCAAATTCGTGATTCACTGTTTGAAAGCTGCGCCCAGGGCCTGCAGGGTTTGCAGGAACGATTCGGCTTGCAGGCGATCCAGACCATAGCGGACGTCGAACCGATCGAGATCCGTTATCCGGTGCAGCAGTACCCGGCGAAGATCGTCAGCTTCAATCTGGACAAGGACCCGATCGCCGAAGGCACGCTGCTGGGAATCAAGGGCCAATACCTGATTTTCGACGCCGGCGTGATCAATATTCGTAAATACACGGCCTACCAGCTCGCCGTGCATCAGTAG	MIEIGRGAISKMSARLDGPTVEYAFRLGDVEVPVNPLIGSRVRLEYLGAIHCTHCGRRTKTSFSQGYCYPCMTRLAQCDLCIMSPERCHFEAGTCRDPAWGEQFCMTDHVVYLANSSGVKVGITRATQLPTRWLDQGASQALPILRVATRQQSGFVEDLFRSQVADKTNWRALLKGDAATVDLRQIRDSLFESCAQGLQGLQERFGLQAIQTIADVEPIEIRYPVQQYPAKIVSFNLDKDPIAEGTLLGIKGQYLIFDAGVINIRKYTAYQLAVHQ				NA	NA	NA	NA	NA
D1-35_04170	261			hypothetical protein	ATGTCTTCCTTCAACGAAATGATCAACAACATCACCCCCGACATCTACCGCAGCCTGAAACTGGCCGTGGAAATCGGTAAATGGGCCGACGGCAACAAGCTCACCGCCGAGCAACGCGAGTTGTCGCTGCAAGCGATGATCGCCTGGGAAATCCAGAACCTGCCCGAAGAAGAGCGCACCGGCTATATGGGTCCGCAGGAGTGCCAGTCGAAAGCCACCGTCGTGCCGAATATCCTGTTCAAGTCGGACGCCATCCATTGA	MSSFNEMINNITPDIYRSLKLAVEIGKWADGNKLTAEQRELSLQAMIAWEIQNLPEEERTGYMGPQECQSKATVVPNILFKSDAIH				NA	NA	NA	NA	NA
D1-35_04171	873	glpG	COG0705	Rhomboid protease GlpG	ATGAGCGTCGTCGCCGTCCTGCGCCTGCCCCTGGCAGTGGACCTGAGCGGTTTCGTCAAGCTGCTGCAGCGCATGCAGGTGCCTCATCGCGTCAGCGAAGAGGCGGGCGAGCAGGTGCTCTGGGTGCCGGATGAAATCAGCGAAAACGTGCGTTCGTTGTACGAGCGTTTTCCCGCCGGCGATCCCGAGCAACAGCTGGAATTGCCTGACACCGGCAGCACGTCCCGGCGGGCAGGGTTCGTCCAGCAACTGGCCCGCAGTCCGGTGACGGCCCTGATATTGCTGCTGAGCCTGATCGTCAGTGCCGTGACCCTGCTAGGGGAAAATCTTCAAACCCTGCGCTGGTTGACCTTCCTCGAGTTTCGCGTCGTCGGCGACTACATCCAGTTCACGCCGTTGGCCGACAGCCTCGCGGCGGGGCAGTGGTGGCGGCTGGTGACGCCGATGCTGGTTCACTTCGGCTTCCTGCACATCGCCATGAATGGCATGTGGTACTGGGAACTGGGACGCCGGATCGAAGCGCGCCAGGGCGGGATCAATCTGCTGGGGCTGACGCTGCTGTTCAGCCTCGTGTCCAATTTCGCCCAGTACCTGTTCAGCGGCGCGACCCTGTTCGGCGGGCTTTCCGGGGTGTTGTACGGCCTGCTGGGCCATTGCTGGATCTACCAGTTGCTCGCGCCGAACCCGGCCTATCACTTGCCCCGTGGGGTGCTGGTGATGATGCTGGTGTGGTTGCTGCTGTGCCTGTCCGGGCTGGTTTCGCTGATCGGTTTCGGCGAGATCGCCAACGCGGCCCACGTCGGCGGGCTGCTCGTCGGCTGCTTCACGGGCTTGTTGGGCGGGCTGTTCGCTCGCCGTAAAATGGCCCTTTGA	MSVVAVLRLPLAVDLSGFVKLLQRMQVPHRVSEEAGEQVLWVPDEISENVRSLYERFPAGDPEQQLELPDTGSTSRRAGFVQQLARSPVTALILLLSLIVSAVTLLGENLQTLRWLTFLEFRVVGDYIQFTPLADSLAAGQWWRLVTPMLVHFGFLHIAMNGMWYWELGRRIEARQGGINLLGLTLLFSLVSNFAQYLFSGATLFGGLSGVLYGLLGHCWIYQLLAPNPAYHLPRGVLVMMLVWLLLCLSGLVSLIGFGEIANAAHVGGLLVGCFTGLLGGLFARRKMAL				NA	NA	NA	NA	NA
D1-35_04172	972	apaH_1		Bis(5'-nucleosyl)-tetraphosphatase, symmetrical	ATGCTCGATCCCGCGCGCAGTTACGATCTGATCGGCGATGTGCACGGATGCGCCTTGACCCTGGAACACCTGCTCGACCGACTCGGTTACCGCAAGCAGGCCGGGGTCTGGCGACATCCTTCGCGCATGGCGGTGTTCCTCGGCGACATCATCGACCGGGGCCCGCGGATTCGCGAGGCGCTGCACATCGTCCACGACATGGTCGTGGCCGGCCAGGCGCTGTGCATCATGGGCAACCACGAGTTCAATGCCCTGGGCTGGAGCACCCCGGCATTGCCGGGCAGCGGCCAGCGCTACGTGCGCGAACACACGCCGCGCCATGCCCGCTTGCTCAACGAAACCCTGACCCAGTTCGATCAGCACCCGGGTGAATGGCGTGATTTCCTCAAGTGGTTCTACGAGCTGCCGCTGTTTGTCGACGCCGGGCGCTTCCGGGTCGTCCACGCCTGCTGGGACGCCGGCCTGATCGAGCCATTGCGCGGCTTGTTCCCGGAAGGCTGCATCGACGAGCATTTTCTCCAGGCTTCGGCCGAATCGGGCAGTTTTGCCTGCACAGTGTTCGATCGCCTGTTGCGCGGCACCGACATGCGCCTGCCCCATGGCATGACCCTGACGGGCGGCGACGGCCTGACCCGCGCGTTCTTTCGCACCAAATTCTGGGAAGACAACCCGCAGACCTACGGCGACATCGTCTTCCAGCCCGACGCATTGCCGGAGCCGGTGGCCCGCACACCGTTGTCACCGGACGAAAAAAACAACCTGCTGCGGTATGGCGTCGATGAGCCGATGTTGTTCGTCGGCCACTATTGGCGCAGCGGCAAACCGGCGCCGATCCGCCCGAACCTGGCCTGCCTGGACTACAGCGCGGTGCTCTACGGCAAGCTGGTCGCCTATCGACTCGACCAGGAAACCCGTCTGGACCCGCACAAGTTCGTCTGGGTCGATGTCGAGCGGCCGGAGATGGGGCGATGA	MLDPARSYDLIGDVHGCALTLEHLLDRLGYRKQAGVWRHPSRMAVFLGDIIDRGPRIREALHIVHDMVVAGQALCIMGNHEFNALGWSTPALPGSGQRYVREHTPRHARLLNETLTQFDQHPGEWRDFLKWFYELPLFVDAGRFRVVHACWDAGLIEPLRGLFPEGCIDEHFLQASAESGSFACTVFDRLLRGTDMRLPHGMTLTGGDGLTRAFFRTKFWEDNPQTYGDIVFQPDALPEPVARTPLSPDEKNNLLRYGVDEPMLFVGHYWRSGKPAPIRPNLACLDYSAVLYGKLVAYRLDQETRLDPHKFVWVDVERPEMGR				NA	NA	NA	NA	NA
D1-35_04173	891	nadK	COG0061	NAD kinase	ATGGAGCAATTTCGCAATATCGGCATCATCGGTCGCCTGGGCAGTTCCCAGGTGTTGGACACCGTTCGCCGTCTCAAGCGCTTCCTCCTGGAGCGGCACCTGCACGTGATCCTCGAAGATACCATCGCCGAAGTGCTGCCGGGCCACGGGCTGCAGACGTCGTCGCGCAAGATGCTCGGCGAAGTCTGCGACATGGTCATCGTGGTCGGTGGTGACGGCAGCCTGCTGGGCGCCGCCCGGGCCCTGGCGCGGCACAACATCCCGGTGCTGGGGATCAACCGTGGCAGCCTGGGCTTCCTCACCGATATCCGCCCTGACGAGCTGGAGATCAAGGTCGCCGAGGTGCTGGACGGCCATTACCTGGTGGAAAACCGCTTCCTGCTGCAAGCCGAGGTGCGCCGTCACGCCGAGGCCATCGGCCAGGGCGATGCGCTCAACGACGTGGTGCTGCACCCTGGAAAATCCACGCGCATGATCGAATTCGAGCTGTACATCGACGGCCAGTTCGTCTGCAGCCAGAAGGCCGACGGCTTGATCGTCGCCACCCCGACCGGTTCCACGGCCTACGCGCTGTCGGCCGGTGGCCCGATCATGCATCCCAAGCTCGACGCTATTGTGATTGTGCCCATGTACCCCCATACCTTGTCTGGGCGACCCATCGTGGTCGATGGCAACAGTGAGCTGAAAATCGTCGTGTCCAAGGATATGCAGATCTACCCGCAAGTGTCCTGTGACGGCCAGAACCATTTCACCTGCGCGCCGGGTGACACCATCACCGTCAGCAAGAAGGCGCAAAAGCTGCGCCTGATCCATCCGCTGGATCACAACTACTACGAAGTCTGCCGGACCAAGCTCGGCTGGGGCAGTCGTTTGGGGGGTGGAGGCGACTGA	MEQFRNIGIIGRLGSSQVLDTVRRLKRFLLERHLHVILEDTIAEVLPGHGLQTSSRKMLGEVCDMVIVVGGDGSLLGAARALARHNIPVLGINRGSLGFLTDIRPDELEIKVAEVLDGHYLVENRFLLQAEVRRHAEAIGQGDALNDVVLHPGKSTRMIEFELYIDGQFVCSQKADGLIVATPTGSTAYALSAGGPIMHPKLDAIVIVPMYPHTLSGRPIVVDGNSELKIVVSKDMQIYPQVSCDGQNHFTCAPGDTITVSKKAQKLRLIHPLDHNYYEVCRTKLGWGSRLGGGGD	PGPT0013490_2833	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858	NA	NA
D1-35_04174	951			hypothetical protein	ATGATCCTGTTTCCCGAATTGCTCGACCTGCCCCGCCGCCTGCGCCATCCCGAAGTACGGGACCTGGCGTGGGTGATCGTCGCCCCGCCGATGCTCATCGACACGCCCTGGCCCCAGCGTCATCCGCTAGCGGGCAGCGGCTGGGTGCAGCAGCCCCATCGCCTGGAACACTGGTTGCGCGAACTGGACCGCGACAGCTATCCGTTGTTGCAGTGCCTGTCCCAGGGGCGCACGCGGCGCCTGGGACTGTATTACGAAAGGCTCTGGCAATTTGCCGTGCAGCATGCGCCGGGCATCGAACTGATCGCGGCGAACCTGCCAATCCGGCGCGACGGCCATACGCTGGGCGAATTGGACCTGTTGCTACGCGATAATGAAGGCGTGCATCACCTGGAGCTGGCGATCAAGTTGTACCTGGGCCCGCAGCAAGGCAACGGGCGAGATACCGCGCAATGGCTTGGGCCCGGCTGCCATGACCGACTCGACCGCAAGCTGACGCATCTGCATGAGCACCAACTGCCGATCTCGGCACGCCCGGAAAGTCGCGAGGCCTTGGCAGCGCTGGGCATCGAGTCGTTTCGCTCACACCTTTGGCTCGGCGGCTATCTGCTCTATCCCTGGCCGGGCGAGGCCGAACCGCCGAGCGGTGCGCACCCCCGGCATTTACGCGGCTGCTGGTTGCACCAGCGGGACTGGCCCGGATTCGTCACCCAGCGCCCGCCAGGGCACTGGCAGCCCCTGCCCCGCGCGGCCTGGCTGGCCCCGGCCCATTACCCGGTTGACCAGGTCTGGACTGCCGGACAACTGGAGGCCTGGCGAACCGCCCTTGATCCCATGGCGCCGGCGCAACTGATGGTGCGCCTGACCGAAAATGCCGAGGGCGAATGGGAAGAAGCCGAGCGGGCGTTCCTGGTGGCGGATCTTTGGCCGGATGTGCCGGGTAATGGTTGA	MILFPELLDLPRRLRHPEVRDLAWVIVAPPMLIDTPWPQRHPLAGSGWVQQPHRLEHWLRELDRDSYPLLQCLSQGRTRRLGLYYERLWQFAVQHAPGIELIAANLPIRRDGHTLGELDLLLRDNEGVHHLELAIKLYLGPQQGNGRDTAQWLGPGCHDRLDRKLTHLHEHQLPISARPESREALAALGIESFRSHLWLGGYLLYPWPGEAEPPSGAHPRHLRGCWLHQRDWPGFVTQRPPGHWQPLPRAAWLAPAHYPVDQVWTAGQLEAWRTALDPMAPAQLMVRLTENAEGEWEEAERAFLVADLWPDVPGNG				NA	NA	NA	NA	NA
D1-35_04175	1284	arsB	COG1055	Arsenical pump membrane protein	ATGCTCATCGCGTCATTGATTTTCCTGCTGACCATAACGCTGGTGATCTGGCAGCCCAAGGGGTTGGGCGTCGGCTGGAGTGCCACCCTTGGTGCACTGTTGGCCTTGCTGAGCGGCGTGGTACAGGTCGGGGACATTGCCCTGGTGTGGCAGATCATCTGGAATGCCACCGGTACGTTCGTCGCGTTGATCATCATCAGCCTGTTGCTGGACGAGGCCGGGTTCTTTGCCTGGGCCGCGTTGCATGTGGCCCGTTGGGGGCGAGGCAGCGGCCGCAAGCTGTTTGCGTTCATGGTGTTGCTCGGGGCGCTGGTCTCGGCATTGTTCGCCAACGACGGAGCGGCGCTGATCCTGACGCCTATCGTGATTTCCATGTTGCTGGCCCTGCGGTTCTCGCCGGCGGCGACCCTGGCGTTCGTGATGGGCGCCGGTTTCATCGCCGATACCGCCAGCCTGCCTCTGGTGGTATCGAACCTGGTGAACATCGTTTCCGCGGATTTCTTCGGCATCGGCTTCAACCGCTACGCGTCGGTCATGGTGCCGGTGAACCTGGTCAGCGTTGCGGCCAGCCTGGCGATACTGCTGTGGATGTTTCGTCGCGATATCCCGCGCGACTATGACCCGCAGCAGCTGGACGACCCGGCAAGCGCCATCCACGATACGGCAACTTTTTATGCCGGTTGGGTGGTGTTGGCGATCCTTTTGCTGGGCTGCTTTGCCCTGGAGCCGCTGGGCATTCCCATCAGCGCGATTTCGGCGGTCTGCGCTGCACTGCTGTTGGCGGTGGCGGCTCGAGGGCACAAGATCTCCACGCGCAAGGCGATGAAAGAAGCGCCCTGGCAGATCGTGATCTTTTCCCTCGGCATGTACCTGGTGGTCTATGGCCTGCGCAACGCCGGCCTCACCGGCTACCTCGCCGCCTGGCTCGATGGCTTCGCCGGTTATGGGGTGTGGGGCGCGGCCATGGGGACCGGGCTGTTGACCGCGCTGCTTTCATCGGTGATGAACAATCTGCCGACGGTGCTGATCGGCGCGTTGTCCATCGATGCCAGCCAGGCCACTGGCGTGGTCAAGGAGGCGATGATCTACGCCAACGTCATCGGCAGTGACCTCGGGCCGAAAATCACGCCGATCGGCAGCCTGGCAACCTTGCTTTGGCTGCATGTGCTGGCGCGCAAGGATATCCGCATCGGTTGGGGTTATTACTTCAAGGTCGGGATTGTGCTGACGGTGCCGGTGTTGCTGGTGACGTTGGCGGCGCTGGCGGTGCGGTTGTCGCTCTAG	MLIASLIFLLTITLVIWQPKGLGVGWSATLGALLALLSGVVQVGDIALVWQIIWNATGTFVALIIISLLLDEAGFFAWAALHVARWGRGSGRKLFAFMVLLGALVSALFANDGAALILTPIVISMLLALRFSPAATLAFVMGAGFIADTASLPLVVSNLVNIVSADFFGIGFNRYASVMVPVNLVSVAASLAILLWMFRRDIPRDYDPQQLDDPASAIHDTATFYAGWVVLAILLLGCFALEPLGIPISAISAVCAALLLAVAARGHKISTRKAMKEAPWQIVIFSLGMYLVVYGLRNAGLTGYLAAWLDGFAGYGVWGAAMGTGLLTALLSSVMNNLPTVLIGALSIDASQATGVVKEAMIYANVIGSDLGPKITPIGSLATLLWLHVLARKDIRIGWGYYFKVGIVLTVPVLLVTLAALAVRLSL	PGPT0004710_1005	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004710-arsB|arsenical_pump_membrane_protein-K03893	NA	NA
D1-35_04176	558	chrR	COG0431	Quinone reductase	ATGAGTAATGTCTACACAGTGGCGGTTTTAGTGGGCAGCCTGCGCAAGGCGTCGATCAACCGAAAGGTCGCGTTGGCCCTGGCGGACCTGGCGCCGTCCAACCTGAAACTGGAAATCGTCGAAATCGGCGAACTGCCGCTCTATAACGAAGACATCGACGTCTCGCCGCCGGCGGCCTATACCGCGTTTCGCCAGAAGGTCGGCGCGGCGGATGCGTTGTTGTTCGTGACACCGGAATACAACCGCTCGGTGCCGGCCCCGTTGAAGAATGCCATTGATGTCGGCTCGCGCCCCTACGGTCAGAGTTGCCTGAGCGGCAAGCCGGGCGCAGTGATCAGCGCCTCACCCGGCGCCATCGGCGGTTTTGGCGCCAACCACCATTTGCGCCAATCCCTGGTTTTCCTCGACGTGCCTTGCATGCAACAGCCGGAAGCCTACCTGAGCGGTGCGGGAACGGCGTTCGACGAGGCGGGCAACCTGTCGGAATCGGTGCGGCCGTTTTTGCAGAAGTTCATCGATGCCTATGGCAAGTGGGTGGAGCAGCATAAGAAGGTTTGA	MSNVYTVAVLVGSLRKASINRKVALALADLAPSNLKLEIVEIGELPLYNEDIDVSPPAAYTAFRQKVGAADALLFVTPEYNRSVPAPLKNAIDVGSRPYGQSCLSGKPGAVISASPGAIGGFGANHHLRQSLVFLDVPCMQQPEAYLSGAGTAFDEAGNLSESVRPFLQKFIDAYGKWVEQHKKV	PGPT0004195_1504	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0004195-chrR-K19784	NA	NA
D1-35_04177	261			hypothetical protein	ATGGCAGCAGTACTTGTCGGACAATTTCATGCACGGGACGCCGAAGGTCGCGTCTATTCGGTGCATGAATTCCAAGAATCAGACCCGTCACAAGACGGCATTGGCAAGGATGTCATCACTTATAAGCTGGCCATTGGAGATCGGGTCAGCAAAGTCGACGAGGACACGTTCATCCTGGTGCAAACCGGCATCCACCTGACCCGCGAGCCTGAAACGCCACGGCAGCCTCAGGCGCCAGTCGAAACGCAGATCGCTCTATAA	MAAVLVGQFHARDAEGRVYSVHEFQESDPSQDGIGKDVITYKLAIGDRVSKVDEDTFILVQTGIHLTREPETPRQPQAPVETQIAL				NA	NA	NA	NA	NA
D1-35_04178	894			hypothetical protein	ATGCGTTTACGCCACATCGAAGTGATCCAGGCGCTGCTGCAGACTGGCCACCTGGGTACCGCGGCCGAATGGCTGCAATTGCCGGTGGCCGAAGTCGAGTCGATCCTGCGCGATGCGGAGGCCCAACTCGGTTTCATGCTGTTCGCCAGCGTGCGCGGACGCTTGCAGGCGACGCGGGAAACCCTGGAATTACGCGAAGGCATCACGCGGCTGTACGACACCCTCGAACCGATACAGCGAATGGCCGCCAGCCTGAAGCATTATCAGGCGCCGCCCCTGCGCATCATCTGCACCCCACCACTGGCCCAACAGCTGTTACCCCTGAGCATTGCCGCCCTGCGTCGGCGCCATCCGGATGCGCCGTGCACCCTGCTCAGCCAGCCGACCCGGGAAATCGTCAAAAGCCTGCTGCTGCGTGAAAGCGACTTGGGCCTGAGCCTGCACGACCCAGAACATCCCGACATCGATTGCCAGATGATCGCCCAAGGCAAACTGCAGCTGCTGGCGCCCCATGGCTGGCTGCAACCACGACAGAAATACGTGTCGGTTCAGGATCTGGCGGGCCAGTCGCTGGTCGGCCTGGAGGGGCATGATCCGCTGAGCCCGGCGTTCGACCACAAGCTTGGCGCACTGCGCCCGGCGCCGGTGGTGCAGATACGCGTGCAGACTCATCAGATGATGCGGGCAATGGTCGAGGCCGGCGAAGGCCTGGCGATTGTCGACCCGTTTACCGCCTCGGGGGCCAGAGGCGGCGACCTGGACATCTGTCCGGTATCGCCGGCCGTGCCCATCTGCCTCTATGCATTGAGCCTGAACGGTGCCACGCCTTCACCGGCGGTCCAGTCGTTGCTGGAACGGATCACGGAACAAGCCGAGGCGTTGCTGAACCACTGA	MRLRHIEVIQALLQTGHLGTAAEWLQLPVAEVESILRDAEAQLGFMLFASVRGRLQATRETLELREGITRLYDTLEPIQRMAASLKHYQAPPLRIICTPPLAQQLLPLSIAALRRRHPDAPCTLLSQPTREIVKSLLLRESDLGLSLHDPEHPDIDCQMIAQGKLQLLAPHGWLQPRQKYVSVQDLAGQSLVGLEGHDPLSPAFDHKLGALRPAPVVQIRVQTHQMMRAMVEAGEGLAIVDPFTASGARGGDLDICPVSPAVPICLYALSLNGATPSPAVQSLLERITEQAEALLNH				NA	NA	NA	NA	NA
D1-35_04179	615			hypothetical protein	ATGCAACCGGTCATGAATCCCAAGCACCCCGGCCTGTCGGTGCGCGTCGCCGATGACGGCTTCGCCGCTTATATCTGGGGCAGCGATTTCAGTTTCGAAGTCAGCGTCTATGGCACGGCGCAGATCGGCCGGCCGGTGAGCCAGTGGCCGGTGACGCCGATCGTTCCCTACCGCAAGTGCTACGGCATCGACCCTGAAGAGTTCGGCAGTTTTCGCGATGCCCCGGACAGCGAAATCTTCATGGCCTACCTGGACGACCAACCGGTCGGCCATCTGGTCGTCAGCACCAATTGGAACGGGTATGCCCATATCGACGAGCTGGCGGTGCATGCCCCGGCTCGCCGGCATGGGGTGGCCAAGGCCTTGCTCGATGTGGCCCAGTTCTGGAGCCGCAAGAAAAAACTGCCGGGCATCATGCTGGAAACCCAGAACAACAACCTGGGCGCATGCCGGCTTTACGAGCGCTGCGGCTATGTGCTCGGCGGCATCGATCACCTGCGCTATCGCGGCATTGACCGGCACACCGCCGAGGTGGCGCTGTTCTGGTACCGGTTGTTCGACGATCCACTGGGCATGACGGTCAGTGGTTCAGCAACGCCTCGGCTTGTTCCGTGA	MQPVMNPKHPGLSVRVADDGFAAYIWGSDFSFEVSVYGTAQIGRPVSQWPVTPIVPYRKCYGIDPEEFGSFRDAPDSEIFMAYLDDQPVGHLVVSTNWNGYAHIDELAVHAPARRHGVAKALLDVAQFWSRKKKLPGIMLETQNNNLGACRLYERCGYVLGGIDHLRYRGIDRHTAEVALFWYRLFDDPLGMTVSGSATPRLVP	PGPT0028670_36	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028670-sat4-K19273	NA	NA
D1-35_04180	762	dnaQ	COG0847	DNA polymerase III subunit epsilon	ATGGCCAACAGATCTGTAGTACTGGATACCGAAACCACCGGCATGCCGGTGACCGACGGTCACCGGATTATCGAAATCGGCTGTGTCGAGCTGATTGGTCGACGCCTGACCGGTCGTCATTTCCACGTTTACCTGCAACCGGACCGCGAAAGCGACGAGGGTGCCATTGGCGTGCACGGCATCACCAACGAATTCCTGGTGGGCAAGCCGCGTTTCGCCGAGGTAGCCGATGAGTTCTTCGAATTCATCCAGGGCGCGCAGTTGATCATCCATAACGCGGCGTTCGACGTCGGGTTCATCAACAACGAATTCGCCCTGATGGGCCAGCACGACCGGGCCGACATCACCCGGCATTGCACTATCCTCGATACCTTGATGATGGCGCGGGAGCGGCATCCGGGCCAGCGCAACAGCCTTGATGCCTTGTGCAAGCGCTACGGGGTCGACAACTCCGGTCGTGAGCTGCACGGCGCCTTGCTCGACTCCGAGATCCTCGCCGACGTCTACCTGACCATGACTGGCGGTCAGACCAGCCTGTCCCTGGCCGGCAATGCGTCTGACGGCAATGGCACCGGCGAAGGTTCGGGTAACCAGGCGAGCGAGATCCGGCGTTTGCCGGCAGACCGCAAGCCGGCCCGGATCATCCGAGCCAGCGAAAGCGACCTGGCCGAACATGCCGCGCGTCTGGAAGCCATCGCCAAGTCCGCCGGTGCCCCGGCATTGTGGACGCAATTGGTCGAGGCGCAGGCTGCCGCGAGTTGA	MANRSVVLDTETTGMPVTDGHRIIEIGCVELIGRRLTGRHFHVYLQPDRESDEGAIGVHGITNEFLVGKPRFAEVADEFFEFIQGAQLIIHNAAFDVGFINNEFALMGQHDRADITRHCTILDTLMMARERHPGQRNSLDALCKRYGVDNSGRELHGALLDSEILADVYLTMTGGQTSLSLAGNASDGNGTGEGSGNQASEIRRLPADRKPARIIRASESDLAEHAARLEAIAKSAGAPALWTQLVEAQAAAS				NA	NA	NA	NA	NA
D1-35_04181	453	rnhA	COG0328	Ribonuclease HI	ATGAGCGATAGCGTAGAACTTTTCACTGATGGCGCCTGCAAGGGCAATCCGGGCCCGGGTGGCTGGGGTGCGTTGCTGGTGTGCAAGGGCGTGGAAAAGGAACTCTGGGGCGGCGAAGCCAATACCACCAACAATCGCATGGAACTGATGGGCGCCATTCGCGGCCTGGAAGAACTCAAGCGGCCATGTGATGTGCTGCTGGTAACCGACTCGCAGTATGTAATGAAAGGCATCAACGAGTGGATGGCCAACTGGAAGAAGCGCGGCTGGAAAACGGCGGCGAAGGAACCGGTCAAGAACGCTGATCTCTGGAAGCTGCTGGACGAGCAGGTCAACCGCCACAACGTCACCTGGAAATGGGTGCGCGGGCACATCGGCCACCACGGCAACGAGCGGGCCGACCAGTTGGCCAATCGTGGAGTGGATGAGGTACGGGGGTATAAGCAGGCTTGA	MSDSVELFTDGACKGNPGPGGWGALLVCKGVEKELWGGEANTTNNRMELMGAIRGLEELKRPCDVLLVTDSQYVMKGINEWMANWKKRGWKTAAKEPVKNADLWKLLDEQVNRHNVTWKWVRGHIGHHGNERADQLANRGVDEVRGYKQA	PGPT0003760_50	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
D1-35_04182	759			hypothetical protein	ATGACCGATGAAGCGTTCGCTCAGGCTGATCCTGAATGGCTGGCATTGATCAGTTCCGCCCGTGAATGGCTGTCCGGCCCTGTCGGGCAATTCCTGCTGGAAGAAGAACGGCGCATGCTCGAAGACGAGTTGGGCCGGTTCTTCGGCGGCTACCTGGTGCATTACGGCCCCTCGGCGCAGACCCCACCGTCGGCCCCGCAGGTGCAGCGCAACGTACGCCTGGGCGCGCCGTTGCCTGGCGTGGAAATCGTCTGCGAGGAGCAGGCCTGGCCGTTGAGCGAGCATGCCGCCGACGTGGTGGTCATGCAGCACGGCCTGGATTTCTGCCTGTCGCCCCATGGCCTGTTGCGCGAGGCCGCCAGCAGCGTGCGTCCAGGTGGCCATTTGTTGATTGTCGGCATCAACCCCTGGAGCAGTTGGGGGCTGCGTCATATATTCGCCGGCGACGCGCTGCGCCAGGCCCGTTGCATCTCGGCATCGCGAGTGGGCGACTGGCTCAACCTGCTCGGCTTCGCGCTGGAGAAACGCCGCTTCGGGTGCTATCGTCCGCCGCTTGCGTCGCCCAAGTGGCAGGCCCGTCTGGCCGGATGGGAGCGCAAGGCCGGTGACTGGCAATTGTCCGGCGGCGGCTTCTATCTGCTGGTGGCGCGCAAGATCGTGGTCGGCTTGCGCCCGGTACGCCAGGCGCGGCGCGAGCCGGTGGGCAAGCTGATTCCCTTGCCGATGGCCAAGGTCAATCGCCGTCACATCGAGCCGTAA	MTDEAFAQADPEWLALISSAREWLSGPVGQFLLEEERRMLEDELGRFFGGYLVHYGPSAQTPPSAPQVQRNVRLGAPLPGVEIVCEEQAWPLSEHAADVVVMQHGLDFCLSPHGLLREAASSVRPGGHLLIVGINPWSSWGLRHIFAGDALRQARCISASRVGDWLNLLGFALEKRRFGCYRPPLASPKWQARLAGWERKAGDWQLSGGGFYLLVARKIVVGLRPVRQARREPVGKLIPLPMAKVNRRHIEP				NA	NA	NA	NA	NA
D1-35_04183	768	gloB_2	COG0491	Hydroxyacylglutathione hydrolase GloB	ATGATACAGATCAGTGCCCTGCCCGCGTTTACCGATAACTACATCTGGTTGTTACAGGATCACTCGACCCAGCGCTGCGCCGTGGTCGACCCGGGCGACGCCGCCCCCGTACGGGCCTGGCTCGACGCCCATCCGGGCTGGGTCCTGAGCGACATCCTGGTCACTCATCACCACCATGACCATGTCGGCGGTGTCGCGGCGCTGAAAAGCGCGACAAACGCCACCGTCTACGGGCCGGCCAGCGAAAACATCCCGGCGCGGGACATCGCCCTGGAGGACAACGCCAAGGTCAACGTGCTGGGCCTGGACTTCGATATTCACGCCGTGCCCGGACACACCCTTGGGCATATCGCCTACTACCATCGCGGCCTGCTGTTCTGCGGCGACACGCTGTTCGCCGCCGGTTGCGGCCGGCTCTTCGAGGGCACGCCCGAACAGATGCACCACTCCTTGAGCCGCCTCGCCGCACTGCCCGACGATACGCTCGTCTACTGCACTCATGAATATACCCTGAGCAACCTGAAGTTTGCCGTCGCGGTCGAGCCGGCCAATCTGGACATTGCCGCGCGTCTGGAGAAAGTCACCGAGCAGCGCAGCCAGGGCGTCATCACCCTGCCGTCGACCCTGGCCCTGGAAAAGCTCACCAATCCGTTTTTGCGCACCGCTGAAACATCCGTTAAAGAAAAAGCAGACGAACGGAACGGCCAGCGTAACCAGACGGGGAGTGAGGTTTTTGCGGCCTTGAGGGCCTGGAAAGATAAGTTCTAA	MIQISALPAFTDNYIWLLQDHSTQRCAVVDPGDAAPVRAWLDAHPGWVLSDILVTHHHHDHVGGVAALKSATNATVYGPASENIPARDIALEDNAKVNVLGLDFDIHAVPGHTLGHIAYYHRGLLFCGDTLFAAGCGRLFEGTPEQMHHSLSRLAALPDDTLVYCTHEYTLSNLKFAVAVEPANLDIAARLEKVTEQRSQGVITLPSTLALEKLTNPFLRTAETSVKEKADERNGQRNQTGSEVFAALRAWKDKF	PGPT0001770_3495	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
D1-35_04184	1458	mltD	COG0741	Membrane-bound lytic murein transglycosylase D	ATGTCGTCATCTATTCGCAGGTCCGTCCAGTCAGACACATTGACCCGCTTGGCTCAAGCCATCGCGGTGGCTGTGTCCGCCACGCTGGCCGGCTGCCAGAGCACCAGCCAGGTGCCGCAGGCCGATGTCGCGCATACGCCGAATATCGCCGCGCGAGCCAAGCAAAAACCCGTCTGGCTGACGGAAAAACCCAGCCCGCAAGTGCCCCAGGACGTCTGGGAACGCATGCGCCAGGGCTTCCAGCTGCAGGAAACCGCCGGGGTCAACCCGCGCATCGAGCAGCAGCGCCTGTGGTTCGCCAGCAATCCGTCCTTCCTGGAAAACGCCGGCGAGCGCGGCAGCCTGTACATCCACTACATCGTCGAGCGCCTGGAAGAGCGCAACATGCCGCTGGAGCTGGCGCTGTTGCCGGTGATCGAAAGCGCCTACAACCCGATGGCCTATTCCCGCGCCAACGCGGTGGGCCTGTGGCAGTTCATCCCCTCCACCGGGCGTTATTTCAACCTGCGCCAGACGCGTTTCTACGACGGACGTCGCGACATCACTGCGTCGACCACGGCCGCCATGGATTACCTGACGCGCCTGCATGACATGTTCAATGGCGACTGGCTGTTGGCGCTGGCGGCCTACAACGCCGGTGAAGGCACGGTCAGCCGGGCCATCGAGCGCAACGAAAAGCTCGGCCTGCCCACCGACTACTGGAACCTGCCTCTGCCCAGCGAAACCCAGGCCTACGTGCCGAAGCTGCTGGCGCTGTCCCAAGTGGTACTGGCCCCCGATGCCTACGGCGTGAACCTCAACCCGATCGCCAACGAACCCTACTTCCAGGTCGTCGAGATCAACCAGCGCATGGACCTTTCAAAAGTCGCAGCGGTGGCGAACATCGACGAAGACGAGCTGTTCCAGCTCAACCCGGCGTTCAAGCAACGCACCACCGTCGACGGCCCACAACACCTGCTCGTCCCGACCTCCAAGGCACAGTTGCTGACCGCCAGCCTGTCAACCATGCGCCCGGAAGAATTGATCAGCCCGCGCTCGCTCAAGCCGGTCTTCGAAAACGCCGATGACAGCGAAGTGGAAGGTGTACGGCGCAGCTACCGGGTCAAGCGCGGCGACAACCTGGCCCAGATCGCCAAGGCCAACAACGTCCAGACCAAGGACCTGCAACGCTGGAACAAGCTCAGCGGCAACAAGCTCAAGGTCGGCCAGACCCTGGTCATGCAAGACGTCAAGGCCACCAAGGCAACCAAGGCCAGCGGCAAACGCATCAACACTGTCGTAGCCGCCAAGAGCAACGAACAGAAAAAGCAGACCCAATACAAGGTCAAGCAAGGCGACTCGCTTTATGTCGTTGCCAAGCGCTTCAACGTCGAAATGCAGCACCTCAAGCGCTGGAACCCGCGCATGGGCAAGGCGCTCAAGCCTGGACAGATGCTGACGGTCTATTCCCCACACTGA	MSSSIRRSVQSDTLTRLAQAIAVAVSATLAGCQSTSQVPQADVAHTPNIAARAKQKPVWLTEKPSPQVPQDVWERMRQGFQLQETAGVNPRIEQQRLWFASNPSFLENAGERGSLYIHYIVERLEERNMPLELALLPVIESAYNPMAYSRANAVGLWQFIPSTGRYFNLRQTRFYDGRRDITASTTAAMDYLTRLHDMFNGDWLLALAAYNAGEGTVSRAIERNEKLGLPTDYWNLPLPSETQAYVPKLLALSQVVLAPDAYGVNLNPIANEPYFQVVEINQRMDLSKVAAVANIDEDELFQLNPAFKQRTTVDGPQHLLVPTSKAQLLTASLSTMRPEELISPRSLKPVFENADDSEVEGVRRSYRVKRGDNLAQIAKANNVQTKDLQRWNKLSGNKLKVGQTLVMQDVKATKATKASGKRINTVVAAKSNEQKKQTQYKVKQGDSLYVVAKRFNVEMQHLKRWNPRMGKALKPGQMLTVYSPH	PGPT0023795_1221	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023795-mltD|dniR-K08307	NA	NA
D1-35_04185	1833			hypothetical protein	TTGATACGTCCCCCCCTCCTGTTCCTGATCAGCCTGGCCTTGAGCTCCCCCGCCGGCGCCACCATCAGCGAAAGCCATGGCTATGCGCAGTTCGGCACGCTCAAGTACCCGGCCAGATTCACCCACTTCGACTGGGTCAACCCGCAAGCGCCCAAGGGCGGCACCTTGCGGGTCATGGCATTTGGCACCTTCGACACACTCAATCCGTATACCTTCAAGGGCAGCAGCCCGGTTTCCACGGCAAATTTCCTGCAATACGGCATCAATGAATTGAACGAGCCGTTGATGGTTGGCACCGGCCAGTACGCACCGTCCGGCGACGAACCGACGTCGAGCTACGGCTTGATCGCCCGATCCGTGGAATACAGCGAGGATCGTAGCTGGGTGGTGTTCAACCTGCGGCCAGAGGCGCGGTTCCATGACGGCGTGCCGATCACCGCTTATGACGTGGCGTTTTCCTACAGGACGCTGCTCAAGGAAGGTCATCCGCAATACCGCACCAACCTGCAGGAAGTGCTGCGGGTCGATATCCTCAATCCGCTGAAAATCCGCTTTGTCTTCAAGCGTGCGGGCAATCCCTTGCTGATCCTGCGCCTGGGGGAACTGCCGGTGCTGCCCCAGCACTACTGGAAAGACCGCGACTTCAAGGCGACCACCTTCGAGCCTCCCCTGGGCAGTGGCCCTTATCGCATCACCAAGGTGCAGCCCGGTCGCCAGCTGGTCTTCGAACGGGTCAAGGACTACTGGGGCAAGGACCTGCCGGTCAATCGCGGCAAATACAACTACGACCGCATGGTCGTCGAGTTCTACCGCGACAGCGAGGTGGCCTTCGAAGCGTTCAAGGCCGGTGAATTCGATATCTACATCGAACACCAGGCCAAGAACTGGGCCAACGGCTACAACTTCCCGGCGATCAACCGTGGCGATGTGATCAAGGCGCAGATTCCCCATCAGATTCCGACCCAGACCCAGGGCCTGTTCATGAACACGCGGCGCAGCACCTTCGCCGAGGTCAAGGTGCGCGAAGCCCTGGGATTGATGTTCGATTTCGAATGGACCAACCGCACGCTGTTCAGCGGTGCCTACAAACGCACACTCAGCTATTACCCCAACAGTGAGTTTTCGGCCACGGGCCTGCCCGTGGGCCACGAATGGCTGCTGCTCAAGCCCTATCGCGAACAATTGCCGCCCCGGTTGCTGACCGAACCCTTCAGCCTGCCTCGCACCGACGGTCGCGGCGTTCCGCGCGAGACACTGCGCAAGGCCCTGGGCCTGTTGAAAGAAGCCGGATGGACCCTCCACGGCCAGTACTTGCTGAACGCCGACAAGCAGCCCCTACGCTTTGAAATCCTGTTGGTGAACCCGAACCTGGAGCGCATCCTCCAGCCCTACGTCGAGAACCTCGCCAGCATCGGCGTCCAGGCCCGTCTGCGCACGGTGGACCGCGCCCAGTACAAGCAGCGCCTGGACCAGTTCGATTTCGACATGATCCTGCTGACCCTGAGCCAGACCCTCAGCCCGGGCCTTGAGCAATGGCAGTATTTCCACTCCAGCCAGGTCGGGATCAAGGGCAGTAAAAACTATGCGGGCATCGCCAACCCCGTGGTCGATCACCTGCTGGAGAAGCTGCTCGCCGCCCAGACTCGCGACGAACAGGTCGCCGCCGGCAAGGCCCTGGACCGCGTGCTGCTATGGCAGCATTACTGCATTCCCAACTGGTATCTCAATTATCATCGCCTGGCGTACCGCAACCGGTTCGCCTTCGTCACTACGCCGCCCTACACCCTGGGCCTGAGCGCATGGTGGCTGAAATCTTCGGAGAAAGATCAATGA	MIRPPLLFLISLALSSPAGATISESHGYAQFGTLKYPARFTHFDWVNPQAPKGGTLRVMAFGTFDTLNPYTFKGSSPVSTANFLQYGINELNEPLMVGTGQYAPSGDEPTSSYGLIARSVEYSEDRSWVVFNLRPEARFHDGVPITAYDVAFSYRTLLKEGHPQYRTNLQEVLRVDILNPLKIRFVFKRAGNPLLILRLGELPVLPQHYWKDRDFKATTFEPPLGSGPYRITKVQPGRQLVFERVKDYWGKDLPVNRGKYNYDRMVVEFYRDSEVAFEAFKAGEFDIYIEHQAKNWANGYNFPAINRGDVIKAQIPHQIPTQTQGLFMNTRRSTFAEVKVREALGLMFDFEWTNRTLFSGAYKRTLSYYPNSEFSATGLPVGHEWLLLKPYREQLPPRLLTEPFSLPRTDGRGVPRETLRKALGLLKEAGWTLHGQYLLNADKQPLRFEILLVNPNLERILQPYVENLASIGVQARLRTVDRAQYKQRLDQFDFDMILLTLSQTLSPGLEQWQYFHSSQVGIKGSKNYAGIANPVVDHLLEKLLAAQTRDEQVAAGKALDRVLLWQHYCIPNWYLNYHRLAYRNRFAFVTTPPYTLGLSAWWLKSSEKDQ	PGPT0011625_1035	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011625-yejA-K13893	NA	NA
D1-35_04186	1854	appA_2		Oligopeptide-binding protein AppA	ATGAAGCCTTTACGCGCCCTGCTCCTGCAGGCCAGCGGCCTGTTATTCGCAGGGCTGGCCTGTGCCGCGCCGCAACACGCCTTGACGTTGTATAACGAGCCGCCGAAGTACCCGGCCGACTTCAAGCATTTCGACTACGTGAACCCGGATGCCCCCAAGGGCGGGATATTCCGTCAGGGCGGGTTCGGCGGCTTCGACAGCCTCAACCCGTTTATCAGCAAGGGCGTACCGGCCGAGGATATCGGCCTGATCTACGACACCCTGGCCAAGCAAGGCCTCGACGAGCCCTTTACCGAGTACGGCCTGATCGCCGAAAAGATCGAGAAGGCCCCGGACAATGGCTGGGTGCGCTTCTACCTGCGCCCCGAAGCCCGCTTCAACGACGGCCATCCGGTGCGCGCCGAAGACGTCGTGTTCAGCTTCGAGACCCTGACCAGGGACGGCGCACCGATGTTCCGCGGTTATTACAACGACGTCGCCGAAGTCGTCGCCGAGACGCCACTCAAGGTCCTGTTCAAGTTCAAGCACACCAATAACCGCGAACTGCCGCTGATCCTCGGCCAATTGCCGGTATTGCCCAAGCACTGGTGGGCCAACCGCGACTTCAACAAGGGCAACCTGGAGATCCCTCTCGGCAGCGGCCCCTACCGGGTCACCGAAGTGAAGGCGGGGCGTTCGATCCGCTACGAGCGCGTCAAGGATTACTGGGGCAAGGACCTGGCGGTCAACCGCGGCTTCTACAATTTCGACGTACTGACCACGGATTACTACCGCGACAACACCGTGGCGGTAGAGGCATTGAAAGCCGGGCAATTCGATTTCTGGCTGGAGATGGCTGCCAAGAACTGGGCCAACGCCTACAACATTCCCGCCGTCAGCGAAGGCCGCCTGATCAAGGAACAGATCCCCAACGGCAACCCCACCGGCATGCAGGGTTTTGTCTACAACCTGCGCCGCCCGATCTTCCAGGACGTGCGGGTGCGCCAGGCGTTGAGCCTGTTGCTGGACTTCGAATGGACCAACAAGCAGTTGTTCCACGGTGCCTACGCCCGCACCCGCAGCTATTTCGAGAACTCGGAAATGGCCGCGACCGGCCTGCCCGGCGAAGACGAATTGAAGATTCTCGAACCGCTGCGCGGCAAGATTCCCGAACAGGTTTTCAGCGAAACCTTCCAGCCGACGGTCTGCGATGGCAGCGGCATGATCCGCGACCAGCAGCGCAAGGCCTATCAATTGTTGCAAGAGGCCGGCTGGCGCATCGTCGACGACAAGATGGTCGACGCCCAGGGCAAACCGGTGGTGCTGGAATTCCTCCTGGCCCAGACCGAATTCGAGCGGGTGCTGCTGCCCTTCAAGCGCAACCTGAGCGACCTCGGCATCGAGCTGGTGATTCGCCGCGTCGACGTGTCCCAGTACATCAACCGCGTGCGCTCCCGGGACTTCGATCTGGTGGTGGGCAGCTTCCCGCAGTCCAGCTCGCCGGGTAACGAGCAGCGCGAGTTCTGGATGTCGGCTGCCGCGGACAAGCCTGGCAGCCGCAATACCATGGGCCTGAAGGACCCGGCCGTCGACCAGTTGGTGGAACAGTTGATCAACGCCGATTCGCGCAAAAGCCTGGTAGCCCATGCCCGGGCGCTGGACCGGGTGCTGCAGTGGGGCTACTACGTGATCCCCAACTGGCACATCAAGACCTGGCGCGTGGCCTACTGGAACCACATAGGCCACCCTGAAATCACCCCGACCTACGACATCGGCACTACCACGTGGTGGGTCAAACCGGACATCAAGCCGGCCGAAGAAGTGGAAAAACAAGTGATCGAGCAGCAAGTCGCCGCCCCTGTGAGCGTGGAGTAA	MKPLRALLLQASGLLFAGLACAAPQHALTLYNEPPKYPADFKHFDYVNPDAPKGGIFRQGGFGGFDSLNPFISKGVPAEDIGLIYDTLAKQGLDEPFTEYGLIAEKIEKAPDNGWVRFYLRPEARFNDGHPVRAEDVVFSFETLTRDGAPMFRGYYNDVAEVVAETPLKVLFKFKHTNNRELPLILGQLPVLPKHWWANRDFNKGNLEIPLGSGPYRVTEVKAGRSIRYERVKDYWGKDLAVNRGFYNFDVLTTDYYRDNTVAVEALKAGQFDFWLEMAAKNWANAYNIPAVSEGRLIKEQIPNGNPTGMQGFVYNLRRPIFQDVRVRQALSLLLDFEWTNKQLFHGAYARTRSYFENSEMAATGLPGEDELKILEPLRGKIPEQVFSETFQPTVCDGSGMIRDQQRKAYQLLQEAGWRIVDDKMVDAQGKPVVLEFLLAQTEFERVLLPFKRNLSDLGIELVIRRVDVSQYINRVRSRDFDLVVGSFPQSSSPGNEQREFWMSAAADKPGSRNTMGLKDPAVDQLVEQLINADSRKSLVAHARALDRVLQWGYYVIPNWHIKTWRVAYWNHIGHPEITPTYDIGTTTWWVKPDIKPAEEVEKQVIEQQVAAPVSVE	PGPT0011625_687	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011625-yejA-K13893	NA	NA
D1-35_04187	1074	yejB_2	COG4174	Inner membrane ABC transporter permease protein YejB	ATGCTGGCTTATATTTTTCGGCGCCTGCTGCTCATCATCCCGACCCTGTTCGGCATCCTGCTGATCAACTTCGTGATCATCCAGGCCGCGCCCGGTGGGCCGGTGGAACAGATGATCGCCAAGCTCGAAGGTTTCGAAGGCGCTACCAGCCGCATCGCCGGCGGCGGCGCGGAAGTGTCAGTGGCCGGCTCCTCCTACCGCGGCGCCCAAGGCCTGGATCCGGCACTGGTCAAGGAAATCGAGCGCATGTACGGGTTCGACAAGTCGGCCCCCGAACGCCTGTGGATCATGATCAAGAACTACGCCCGCCTGGACTTTGGCGACAGCTTTTTCCGCGACGCCAAGGTCATCGACCTGATCAAGGAAAAGATGCCGGTGTCGATCTCCCTCGGGCTGTGGAGCACGCTGATCATGTACCTGGTGTCGATCCCGCTGGGGATTGCCAAGGCCACGCGGCACGGCAGCCATTTCGACGTGTGGACCAGCTCGGCGATCATCATCGGCTACGCGATCCCGTCGTTCCTGTTCGCCATCCTGCTGATCGTGGTGTTTGCCGGCGGCAGCTATTTCGACTGGTTTCCATTACGGGGCCTGACGTCGAACAATTTCGAGGAGCTGAGCCTGGGCGGCAAGATCCTCGATTATTTCTGGCACCTGGCCTTGCCCGTCACCGCCCTGGTGATCGGCAACTTTGCCACCATGACGCTGCTGACCAAGAACAGTTTCCTCGATGAAATCAACAAGCAGTACGTGGTCACCGCCAAGGCCAAGGGGCTGACGCGCAACCGGGTGCTCTACGGGCATGTATTTCGCAACGCCATGCTGCTGGTGATTGCCGGTTTCCCTTCGGCGTTCATCGGGATCTTCTTTACCGGCTCGCTGCTGGTGGAAGTGATCTTCTCCCTCGACGGCCTCGGGTTGATGAGCTTCGAAGCCGCCATCAACCGTGATTACCCGGTGGTCTTCGGCACACTGTTCATCTTTACCCTGCTGGGGCTGGTAGTGAAACTGATCGGCGACCTGACCTATACCTTCGTCGATCCGCGTATCGACTTCGAAAGCCGGGAGCATTGA	MLAYIFRRLLLIIPTLFGILLINFVIIQAAPGGPVEQMIAKLEGFEGATSRIAGGGAEVSVAGSSYRGAQGLDPALVKEIERMYGFDKSAPERLWIMIKNYARLDFGDSFFRDAKVIDLIKEKMPVSISLGLWSTLIMYLVSIPLGIAKATRHGSHFDVWTSSAIIIGYAIPSFLFAILLIVVFAGGSYFDWFPLRGLTSNNFEELSLGGKILDYFWHLALPVTALVIGNFATMTLLTKNSFLDEINKQYVVTAKAKGLTRNRVLYGHVFRNAMLLVIAGFPSAFIGIFFTGSLLVEVIFSLDGLGLMSFEAAINRDYPVVFGTLFIFTLLGLVVKLIGDLTYTFVDPRIDFESREH	PGPT0011630_782	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011630-yejB-K13894	NA	NA
D1-35_04188	1020	yejE_2	COG4239	Inner membrane ABC transporter permease protein YejE	ATGAACCTCTCTCCTCTCAATCGTCGCCGTTTCGAACTGTTCAAGGCCAACAAGCGTGGCTGGTGGTCGTTGTGGCTGTTTCTGTTCTTGTTCGTGCTCAGCCTGGGCGCCGAGCTTATTGCCAACGACAAGCCACTGGTGGTGCACTACGACGGCGGCTGGTACTTCCCGGCCCTGAAGCGTTACCCGGAAACGACGTTCGGCGGCGAATTCCCGTTGGAGGCCAACTACAAGAGCCCGTATATCCGCGAGTTGCTCGCCGCCAAGGACGCCTGGGTCGTGTGGGCACCGATTCCATTCAGCTACCAGAGCATCAATTACGACTTGAAGGTCCCGGCCCCGGCACCGCCCTCGTCGGTGAACTGGCTGGGCACCGATGACCAGGGCCGCGACGTGCTGGCGCGGGTCATCTATGGCTTTCGCATCTCGGTGCTGTTCGCGCTCACGCTGACGGTGCTCAGCTCGATCATCGGGGTGATCGCCGGTGCGTTGCAGGGCTTCTATGGCGGCTGGGTAGACCTGGCCGGCCAGCGTTTCCTGGAAATCTGGTCCGGGCTGCCGGTGCTCTATCTGCTGATCATTCTCGCCAGCTTCGTCCAGCCGAACTTCTGGTGGCTGCTGGGCATCATGTTGCTGTTTTCCTGGATGAGCCTGGTGGATGTGGTGCGCGCCGAGTTCCTGCGCGGGCGCAACCTCGAATACGTGCGCGCCGCGCGAGCGCTGGGCATGCAAAATGGCGCGATCATGTTCCGCCACATCCTGCCCAACGCCATGGTCTCGACCATGACCTTCATGCCGTTCATCCTCACCGGCGCCATCGGCACCCTCACCGCCCTGGATTTTCTCGGTTTCGGCCTGCCGGCCGGAGCACCATCCCTCGGCGAGCTGGTGGCCCAGGGCAAGTCCAATCTGCAGGCGCCCTGGCTGGGCATCAGCGCATTCGCCGTGCTGGCGATCATGCTGAGCCTGTTGGTGTTCATCGGCGAGTCCGCTCGCGATGCCTTCGATCCGAGGAAGTGA	MNLSPLNRRRFELFKANKRGWWSLWLFLFLFVLSLGAELIANDKPLVVHYDGGWYFPALKRYPETTFGGEFPLEANYKSPYIRELLAAKDAWVVWAPIPFSYQSINYDLKVPAPAPPSSVNWLGTDDQGRDVLARVIYGFRISVLFALTLTVLSSIIGVIAGALQGFYGGWVDLAGQRFLEIWSGLPVLYLLIILASFVQPNFWWLLGIMLLFSWMSLVDVVRAEFLRGRNLEYVRAARALGMQNGAIMFRHILPNAMVSTMTFMPFILTGAIGTLTALDFLGFGLPAGAPSLGELVAQGKSNLQAPWLGISAFAVLAIMLSLLVFIGESARDAFDPRK	PGPT0011635_1275	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011635-yejE-K13895	NA	NA
D1-35_04189	1611	yejF_2	COG4172	putative ABC transporter ATP-binding protein YejF	ATGAACCAGGACAATCTGATCGAAGTACGCGACCTGGCGGTGGAATTCATCGTTGGCGAACGCCGCCAGCGCGTGGTCGAGGGCGTCAGCTTCGACATCAAGCGCGGCGAAACCCTCGCGCTGGTGGGTGAAAGCGGCTCGGGCAAGTCGGTGACGGCCCATTCGATCCTGCGCTTGCTGCCCTACCCGCTGGCCCACCACCCGACCGGGACCATCCAGTACGCCGGCCAGAATCTGCTGGGCCTCAAGGAAAAGACCATCCGCCATATCCGTGGCAATCGGATCGCGATGATTTTCCAGGAGCCGATGACTTCCCTGAACCCGCTGCACTGCATTGAAAAACAGCTCAATGAAGTGCTCGGCATCCACAAGGGCCTGACCGGCAAGGTCGCCACCCGTCGCTCCCTTGAGCTGCTGGAACTGGTCGGCATCCCCGAACCGCACAAACGGCTCAAGGCGTTGCCCCACGAACTGTCCGGTGGCCAGCGTCAGCGGGTGATGATCGCGATGGCCCTGGCCAACGAGCCGGAACTGCTGATAGCCGACGAACCGACCACCGCGCTGGACGTCACCGTGCAGCTGAAAATCCTCGATCTGCTCAAGGATTTGCAGGCGCGCCTGGGCATGTCGCTGCTGCTGATCAGCCACGATTTGAACCTGGTGCGAAGAATTGCGCATCGCGTATGTGTCATGCAGCGCGGTTGCATCGTCGAACAGGCATCGTGCGCAGAGTTGTTCCGCGCGCCGCAACATCCGTACACTCGGGAATTGCTGGCCGCCGAGCCCAGCGGCAACCCGGCGACCAACGTGGTCGGCCCGCCGCTGCTGGAGGTCGAGGACCTGAAAGTCTGGTTCCCGATCAAGAAAGGCCTGTTCAAGCGCACGACGGATTACATCAAGGCGGTGGACGGAATCCGCTTCAGCCTGCCCCAGGGCCAGACCCTGGGCATCGTCGGCGAGAGCGGTTCCGGCAAGTCCACGCTGGGGCTGGCGATCTTGCGGTTGATCGGCAGCCAGGGCGGGATCCGCTTCGAGGGCAAGCAGCTCGATAGCCTGTCGCAACAGCAAGTCCGGCCGTTGCGCCGGGAGATGCAAGTGGTGTTTCAGGACCCGTTTGGCAGCCTGAGCCCGCGGATGTGTGTGAGCCAGATCGTCGGCGAAGGACTGCGGATCCACAAGATCGGCACCGAAGCCGAACAGGAACAAGCGATAATCGCGGCATTAAAGGAGGTAGGCCTGGACCCGGAAACCCGGAACCGCTACCCCCACGAATTTTCCGGAGGGCAACGGCAGCGCATCGCCATTGCCCGGGCCCTGGTGCTCAAGCCGGCGTTGATTCTGCTGGACGAACCAACGTCGGCCCTGGACCGTACCGTGCAACGCCAGGTGGTGGAGCTGTTGCGGTCATTGCAAACCAAGTACAACCTGACGTACCTGTTTATCAGCCATGACCTGGCTGTCGTCAAAGCGCTGAGCCACCAGTTGATGGTGGTCAAGCATGGCCAAGTGGTCGAACAAGGTGATGCCCGCAGCATATTCGCCGCGCCGCAACACCCCTATACACAGCAGTTGCTGGAGGCCGCTTTCCTGGCCCCGACAACTGCCGAATAA	MNQDNLIEVRDLAVEFIVGERRQRVVEGVSFDIKRGETLALVGESGSGKSVTAHSILRLLPYPLAHHPTGTIQYAGQNLLGLKEKTIRHIRGNRIAMIFQEPMTSLNPLHCIEKQLNEVLGIHKGLTGKVATRRSLELLELVGIPEPHKRLKALPHELSGGQRQRVMIAMALANEPELLIADEPTTALDVTVQLKILDLLKDLQARLGMSLLLISHDLNLVRRIAHRVCVMQRGCIVEQASCAELFRAPQHPYTRELLAAEPSGNPATNVVGPPLLEVEDLKVWFPIKKGLFKRTTDYIKAVDGIRFSLPQGQTLGIVGESGSGKSTLGLAILRLIGSQGGIRFEGKQLDSLSQQQVRPLRREMQVVFQDPFGSLSPRMCVSQIVGEGLRIHKIGTEAEQEQAIIAALKEVGLDPETRNRYPHEFSGGQRQRIAIARALVLKPALILLDEPTSALDRTVQRQVVELLRSLQTKYNLTYLFISHDLAVVKALSHQLMVVKHGQVVEQGDARSIFAAPQHPYTQQLLEAAFLAPTTAE	PGPT0011640_671	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011640-yejF-K13896	NA	NA
D1-35_04190	795	fabI	COG0623	Enoyl-[acyl-carrier-protein] reductase [NADH] FabI	ATGGGTTTTCTCGCCGGTAAGCGCGTACTGATCGTCGGTGTCGCCAGCAAGCTGTCCATCGCATCCGGCATCGCTGCCGCCATGCATCGCGAGGGCGCTGAGCTTGCCTTCACTTATCAGAACGACAAACTCAAGGGTCGTGTCGAAGAGTTCGCGCAAGGCTGGGGTTCGAGCCCTGAGCTGTGCTTCCCGTGCGACGTCGCCAGCGATGAAGAAATCGCCAAGGTCTTCGAAGAACTGAGCAAGAAGTGGGATGGCCTGGACTGCATCGTGCACTCCGTGGGCTTCGCCCCGGGCGACCAACTGGATGGCGACTTCACCGAAGCCACCACCCGTGAAGGTTTCCGCATTGCCCACGACATCAGCGCCTACAGCTTCGTGGCCCTGGCCAAGGCCGGTCGCGAGATGATGAAAGGCCGCAACGGCAGCCTGCTGACCCTGTCGTACCTGGGCGCCGAGCGCACCATGCCGAACTACAACGTCATGGGCATGGCCAAGGCCTCCCTGGAAGCTGGCGTTCGCTACCTGGCCGGCTCCCTGGGCCCGGACGGCACCCGCGTGAACTGCGTATCTGCCGGCCCGATCCGCACCCTCGCCGCTTCCGGCATCAAGAACTTCCGCAAGATGCTGGCCGCCAACGAAGCGCAAACCCCGCTGCGTCGCAACGTCACCATCGAAGAAGTCGGCAACGCCGGCGCCTTCCTGTGCTCGGACCTCGCGTCGGGCATCAGCGGTGAAATCATGTACGTGGACGGCGGCTTCAACACCACCGCCATGGGCAACATCGAAGAGTAA	MGFLAGKRVLIVGVASKLSIASGIAAAMHREGAELAFTYQNDKLKGRVEEFAQGWGSSPELCFPCDVASDEEIAKVFEELSKKWDGLDCIVHSVGFAPGDQLDGDFTEATTREGFRIAHDISAYSFVALAKAGREMMKGRNGSLLTLSYLGAERTMPNYNVMGMAKASLEAGVRYLAGSLGPDGTRVNCVSAGPIRTLAASGIKNFRKMLAANEAQTPLRRNVTIEEVGNAGAFLCSDLASGISGEIMYVDGGFNTTAMGNIEE	PGPT0008370_1809	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008370-fabI-K00208	NA	NA
D1-35_04191	414			hypothetical protein	ATGATACGCAGCGAGAAAAGACTGGGCGCCGCTATCCTTTGCCTATTGGCGGCCTGTGCACTGCTGTTTTTCTTTGCCGCAGACAGCGTGGTGGAGAATCCCGCAGATCTCACCGACACCCGGGGTGTTCCCGCTGTTTCGATCTACCTGGTCTTGCTGATGATATTGGCTTCGGCATCATTGGCCCTGACCGGAATAGGCAGTATCGCCCAGCGGTTTCTCAGGCGCCGGTCTTTCAGACTGCGTATCAGCGTGTATGTGCTTGCCAATATTCCCCTTGTTTTAACGTCGCTCCTGGGGGTGTTGGTCTCCTTGGCCTACCTGTATGACGCCGTGTCCGGATTAATAGCGGCGTTGTTGTTCCTGCTCGCCTTTGCCTTCGTGTTGTTGGCCATCCCCCCAAAGCCGCAATAA	MIRSEKRLGAAILCLLAACALLFFFAADSVVENPADLTDTRGVPAVSIYLVLLMILASASLALTGIGSIAQRFLRRRSFRLRISVYVLANIPLVLTSLLGVLVSLAYLYDAVSGLIAALLFLLAFAFVLLAIPPKPQ				NA	NA	NA	NA	NA
D1-35_04192	825			hypothetical protein	ATGAATAACGAATTGCCCCTGACATTTGTTTATCCCGAAGAATTTGGCACGTCACGCGGAAGTGGAAGGGGGCTCCCATTCCCTGCGCCGCTGGCGATGATTGGAAAAATGATCCAAGAGCGCAACGTGGCTTACGAACGGGGTCATTGGCCTCAGATGCTTGGACGTCATCTCGTAGCCATGCGCAATAATCGACCGGTTCGTTATGGCTTGGACGGCTTCATCATTGGTGATTTGAAGGTTGCCCATGGTTCTGATCTGTTAATGCTGAAGAGTCCCGGGCTTGGCACTGCAGACGCTTGGAAGCTGGGAGTTAAAGAAGGAACCAAGATAACTGCCATTGAACAGCTGGCGGTCGAGCAAGAGTTTTCCGGAGGCGTTTTCACGCCCTTCAAAGCTATCGGTCATTGGTTACTTGGCAAGGGCAAACCTGCAAGCGTTCGACTCGACAGAATTGGAATCAGCCCAGCACCGAACAAGATTCCCGACCTGATGGCGATTATCAATACCGCGGGAATAGGGGTAACCAGTGTCAATATGAGAGTTCCCTATTCCACGGCTCAGGATTCGAATATCGCAAGGATCTACCTTGGAAACATCACGCTTCAAATAACCGGTCAGGTGATCCGTAACACCTCAGGTAGCCTGTCGTTTACAGGGACTGCCAAGGGTTTTTCGGATCGTTATGACGCAAATGCCAGCAATCATCGTTCGGTATTTGATGAAAAAGCGACCACGGCACTGCATCAAGTGGGGCGCGTTGCCCGAGCGCAGGACTATGAAATACGAATTACCGGCGAGCTTCCGATCAATTTTTCAAGGTGA	MNNELPLTFVYPEEFGTSRGSGRGLPFPAPLAMIGKMIQERNVAYERGHWPQMLGRHLVAMRNNRPVRYGLDGFIIGDLKVAHGSDLLMLKSPGLGTADAWKLGVKEGTKITAIEQLAVEQEFSGGVFTPFKAIGHWLLGKGKPASVRLDRIGISPAPNKIPDLMAIINTAGIGVTSVNMRVPYSTAQDSNIARIYLGNITLQITGQVIRNTSGSLSFTGTAKGFSDRYDANASNHRSVFDEKATTALHQVGRVARAQDYEIRITGELPINFSR				NA	NA	NA	NA	NA
D1-35_04193	972			hypothetical protein	ATGCTTGCGCCAGGCAAACCTGACAACGAAGCCGTTCGCCTCAAACAATTGCAGTCGCTCAAGCTGCTCGATACCCCTCCCGAGGAGCGGTTTGACCGCCTGACCCGTCTTGCCCGGCGTCTGTTCAACGTGCCGATCGCCCTGGTGTCGCTGGTGGACGCCAATCGGCAATGGTTCAAGTCAAGCGCCGGCCTGGAAGCCAGTGAGACCCCGCGCGAGGTGTCGTTCTGCGGGCATGCGATCTTGCAGGACGAGATCCTGGAGATTTGCGACGCGGAACAGGACGTGCGGTTCCACGATAATCCGTTGGTCAAGGGCCAACCTGGCATCCGCTTCTATGCGGGGCATCCGCTGGGGCTGGATGATGGCAGCAAGATGGGCACCCTGTGCTTGTTGGACACCCGGCCGCGCACCCTCAACGACGACGAACGCGAGCTGCTGCGCGATCTGGCGAGCATGGCCGAGCAGGAGCTGGTTGCCGTGCAGATGGCCAGCATGGATGAATTGACGCTGCTGTCCAATCGGCGCGGCTTCATGACGCTGGCCCAGCACGCGCTGAGTGTCTGCAGCCGTCTTTCGCGGCCGGCGACACTGCTGTTTTTCGATCTCAACGACTTCAAGCCGATCAACGATCGCTTCGGGCACGCGGAAGGCGACGGCGCGCTGAAGACGTTCGCCGACGTATTGCGCATTGCCTTTCGTGAAAGCGACGTGATCGGTCGCATGGGCGGAGACGAGTTCGTCGCCCTGCTCACCGGCGCCTCCCATGTCGAGACGACGGCGATCATGGCACGGCTCAGGGAAATGCTCGACGAGCGCAACATAACGTTGCAGCGCGGCTATGACATCGATTTCAGCGTGGGCCAGATCGAATACGACCCCGAGCGACATGAGTCGATCGACAGCCTGCTGGCAGAGGCGGATGCGGCGATGTATGCGCAGAAGCAGGGACGGCGCAATAGCCCAAACTGA	MLAPGKPDNEAVRLKQLQSLKLLDTPPEERFDRLTRLARRLFNVPIALVSLVDANRQWFKSSAGLEASETPREVSFCGHAILQDEILEICDAEQDVRFHDNPLVKGQPGIRFYAGHPLGLDDGSKMGTLCLLDTRPRTLNDDERELLRDLASMAEQELVAVQMASMDELTLLSNRRGFMTLAQHALSVCSRLSRPATLLFFDLNDFKPINDRFGHAEGDGALKTFADVLRIAFRESDVIGRMGGDEFVALLTGASHVETTAIMARLREMLDERNITLQRGYDIDFSVGQIEYDPERHESIDSLLAEADAAMYAQKQGRRNSPN	PGPT0026010_930	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
D1-35_04194	825	rhaS_12		HTH-type transcriptional activator RhaS	ATGAAGCCCGCCAACCACGACGCCGCCCCACGCTTCTGGCGCGACGCGGCGCTGCCTTTCATCGAGGCCCGGGCCATCGCCGATGGCCGCAAGGTCTGTTATTCGCGGCATTCCCATGATCACTTTTCCATCGGCGCGATCACCGCCGGACGCAGCACCTACCTGCACGAACAATCGCGGTTCCAGGTCCAGAGCGGCACGGTAGTGCTGATGAATCCCGGCGACGTCCATGCTTGCAATCCGATCGACGATCAGCCCTGGTCTTATGTGATGCTGTATGTCGATACCCAATGGCTGCGGGATCTACAACGCCGTATCGGCTTTGACCCCTCGCTGGACTTCCAGGCATTCGGCACAACCCATAGCCGTGATGTCGCGCTTTTCTCCGGCCTGTGCGGGCTCTACGAAACGCTGGTGGCTGAACATATCGATACCAGTGGCAAGCAAGTCGCCGCCGAAGTGTTTTTCACCGATCTCCAGCATCGACTCAACCCGGCCGGACGCCCGGAGCGTGGCAGCCACCCGGCGCTGATGCGGGCGGCGCAGTTCATTCACGACCATTGCACCGAAGCCCTCAAGCTTGAGGATATCTGTGCCTTCGCGCAGCTTTCGCCATCCTATTTGAGCCGGGCTTTCAAGCGCCACTACGGCATGACACCGCACGCCTTCCTGATCAACCGGCGCATCCAGTTCGCCCGCCGTCAACTGCGCGAGGGCAAGCTGATTGCCGATGTGGCGCTGGACAGCGGGTTTGCCGATCAGGCGCACTTCCAACGGGCGTTCAAGCAACACCTGGCGGCTACCCCCGGGCAGTATCGCGGCTGA	MKPANHDAAPRFWRDAALPFIEARAIADGRKVCYSRHSHDHFSIGAITAGRSTYLHEQSRFQVQSGTVVLMNPGDVHACNPIDDQPWSYVMLYVDTQWLRDLQRRIGFDPSLDFQAFGTTHSRDVALFSGLCGLYETLVAEHIDTSGKQVAAEVFFTDLQHRLNPAGRPERGSHPALMRAAQFIHDHCTEALKLEDICAFAQLSPSYLSRAFKRHYGMTPHAFLINRRIQFARRQLREGKLIADVALDSGFADQAHFQRAFKQHLAATPGQYRG				NA	NA	NA	NA	NA
D1-35_04195	588	eamB_2	COG1280	Cysteine/O-acetylserine efflux protein	ATGAGCTTGATATTTTCCATGGCCACCTTTGCCCTGGTGGCTTCCATTACTCCGGGCCCGGTCAATATCGTCGCCCTCAGCTCTGGTGCCCGATATGGATTTCGCGCAACCTTGCGCCATGTCGCCGGCGCCACCCTCGGGTTCGTCCTGCTGCTGGTCTTGATGGGATTGGGGTTGCATGAAGTATTGCAACGCTGGCCTGGGCTCACGCGTGTGGTGCAACTGGCTGGCGTGGCGTTCCTCTTGTACATGGCCTGGAAACTGGCGGTGGACAACGGCGAGCTGGGTGACCGGGACGAGGGGCGCGCGCCTTCGATGTTCCATGGCGCGTTGATGCAGTGGCTCAACCCCAAGGCGTGGCTGGCTTGCGTGGCGGGGATGGGCGCCTTCGTGGCCGACGGCGAGGCGCGGCTGGTGTGGCAGTTTGCGGCGATCTACCTGGTCATCTGCTATGTCTCGGTGGGTTGCTGGGCCTATGCGGGCAGCTTTCTGCGCACGTGGCTGGGTAACCCGGCGACCATGCGCCTGTTCAATCGATTGATGGCGGCGTTGTTGGTGGCGAGCGCGGTGTATCTGTTGTTGCCTTGA	MSLIFSMATFALVASITPGPVNIVALSSGARYGFRATLRHVAGATLGFVLLLVLMGLGLHEVLQRWPGLTRVVQLAGVAFLLYMAWKLAVDNGELGDRDEGRAPSMFHGALMQWLNPKAWLACVAGMGAFVADGEARLVWQFAAIYLVICYVSVGCWAYAGSFLRTWLGNPATMRLFNRLMAALLVASAVYLLLP				NA	NA	NA	NA	NA
D1-35_04196	1455	trkI_2	COG0168	Trk system potassium uptake protein TrkI	ATGTCTATAGCGGTTCTGCGTCTCATCGGTTTTATCCTCGGGATTTTCCTGATCACCCTTGCGATCAGCATGGCGATTCCGCTGTTTACGCTGATGTTCTACGAGCGCAACGATGACTTGTCGGCATTTCTATGGTCGAGCCTGATCACCTTCGTGTGCGGTGTGGCACTGGTGGCCCGTGGAAGGCCGGACCACGTCCAGATGCGCCCCAGGGAAATGTACCTGCTCACCACCGCCAGTTGGGTAATTGTCTGCGCATTCGCCGCCCTGCCGATGGTGTTCATCCAGCACATCAGCTACACCGATGCATTTTTCGAGACCATGTCAGGCATCACCACCACCGGCTCGACCATCCTGACCGGGTTGGATAGCGCATCGCCCGGCCTGTTGATCTGGCGGTCGATGCTGCACTGGCTCGGCGGAATCGGCTTTATCGGCATGGCCGTGGCGGTCCTGCCGCTGCTGCGGGTCGGCGGCATGCGGCTGTTCCAGACCGAATCTTCGGACTGGTCGGAGAAAGTCACGCCGCGCTCTCACGTCGCGGCCAATTACATCCTGTGGATCTACATCGGCTTGACCGCTCTCTCGACGTTGGGGCTGTGGCTTGCGGGGATGACGCCTTTCGAAGCGATCAACCATGCGATGTCGCTGATTTCCACCGGAGGCTTTTCCACCTCCGATGCGTCCCTGGCGCACTGGCCGCAACCGGCGGTTCATTGGGTGTCAGTGGTCGTCATGATGGCCGGATCGCTGCCCTTCACGCTGTATGTCGCGACATTGCGGGGCCATCGGCGCGCCCTGCTCAAGGACCAGCAAGTCAGGGGCTTCATCGGTTTCCTGGTCGTTACATGGCTGCTGGTGGGTACCTGGCTGAGCCTTAACAGCGATCACGCGTGGTGGGACGCGGTCCGTATCGTGGCGGTCAACGTTACCTCTGTCGTCACGACCACTGGCGTGGCGCTGGGTGACTACACGCTGTGGGGCAGCTTTGCCCTGCTGCTGTTCTTCTACCTGACGTTCGTCGGCGGCTGTTCGGGATCCACGGCCGGGGGCCTGAAGATTTTTCGCTTTCAAGTCGCCAGGGTGCTGCTGATGGGCAGTTTGAAGCAGCTGATCCATCCCCGGGCGGTGATCCAGAAGAAATACAACAACCATCCCATCGACGAGGAAATCGTTCGCTCGCTGCTGACGTTCTCGTTCTTCTTCACCATCACGATCGGCGCCATCGCCCTGGGTCTGGCCCTGATCGGCCTGGACTGGACGACCGCCTTGACCGGTGCCGCCACTGCCGTCTGCAACGTGGGTCCGGGCTTGGGCAACATCATCGGCCCGGCCGGCAACTTCTCGACCTTGCCGGATGCGGCAAAATGGCTGCTGACCATCGGCATGCTGCTGGGACGGCTGGAAATCCTGACGGTGCTGGTGCTGTTCACGCCGGTGTTCTGGAAGTACTGA	MSIAVLRLIGFILGIFLITLAISMAIPLFTLMFYERNDDLSAFLWSSLITFVCGVALVARGRPDHVQMRPREMYLLTTASWVIVCAFAALPMVFIQHISYTDAFFETMSGITTTGSTILTGLDSASPGLLIWRSMLHWLGGIGFIGMAVAVLPLLRVGGMRLFQTESSDWSEKVTPRSHVAANYILWIYIGLTALSTLGLWLAGMTPFEAINHAMSLISTGGFSTSDASLAHWPQPAVHWVSVVVMMAGSLPFTLYVATLRGHRRALLKDQQVRGFIGFLVVTWLLVGTWLSLNSDHAWWDAVRIVAVNVTSVVTTTGVALGDYTLWGSFALLLFFYLTFVGGCSGSTAGGLKIFRFQVARVLLMGSLKQLIHPRAVIQKKYNNHPIDEEIVRSLLTFSFFFTITIGAIALGLALIGLDWTTALTGAATAVCNVGPGLGNIIGPAGNFSTLPDAAKWLLTIGMLLGRLEILTVLVLFTPVFWKY	PGPT0002735_1708	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498	NA	NA
D1-35_04197	492			hypothetical protein	ATGTCCAAACACAAGAAATCCCTCATCGCCGTAGCTGTCTGTGCCTTGGCGCTCGGCGCCTCGGCTTTGTTGCCTGCCGACCTGTCACCTATCGGTTCGAGCTATGCCGCAGGCGGTGGCAACGGCGGTGGCGGCGGTAATGGAGGCGGTGGCGGCAATGGCGGAGGGAATGGCGGCGGCCACGGTGGCGGCGTGGGCGGCGGACAAGGCAATGGCCACGGTGGCAAGTCCAGCGACTCCAGCGGCCACGGCAAAGGACTGGCCAGTGATCACGCCGGTACCCGGACTCGCGATCATGGCCTGAGCGGCAAGCACACCGGCACCACCCGCACCGGTCGCACCAGCAAGGCGTCGGCGACGTCCGCCATTGCCAAGGACCGTGATACTCGCGGCTTGACCAAGGCCTCGGCGATTTCCGCCGCTACGCCGGGCACCCATAACACCAAGGGCTTGAGCAACGCGACCCGTTCATCGATGAAGAACGACCGCTGA	MSKHKKSLIAVAVCALALGASALLPADLSPIGSSYAAGGGNGGGGGNGGGGGNGGGNGGGHGGGVGGGQGNGHGGKSSDSSGHGKGLASDHAGTRTRDHGLSGKHTGTTRTGRTSKASATSAIAKDRDTRGLTKASAISAATPGTHNTKGLSNATRSSMKNDR				NA	NA	NA	NA	NA
D1-35_04198	1032	ada_2	COG0350	Bifunctional transcriptional activator/DNA repair enzyme Ada	ATGCTTGAACGAGACACCACCTACGAGGGGGTCTTCTTCACCGCGGTCAAGACCACCGGTATTTTCTGTCGCCCCAGCTGCACGGCACGCAAGCCAAAGCCGGAGAACGTCGAGTTCTTTGCCCACGCCGACGAGGCGATGTCGGCCGGTTATCGGGCCTGCCTGCGTTGCAAGCCGCTGGATGCCGCCGCCATTGCCCCGGACTGGATCCAGGCATCGCTCAAAGCCGTCGACGCCGAACCAGACCTGCGCTGGACCGACGCCCTGCTGCTGGAACAAGGCATCGAACCGCTGAAACTGCGCCGCTGGTTCAAACAGCATTTCGGCATGACCTTCCACGCCTACCTGCGCACCCGGCGCCTGGGCATCGCCCTGGGCGGAATCAAGGAAGGCGCCTCGATCGATAACGCCGCGTTCGACTCCGGCTATGAGTCCCTGAGCGGATTTCGTGATGCCTTCGTCAAATCCTTCCACATCACACCAGGCCGCGCCGGCCTCAGCGAACCCTTGCTGTTTACCCGCCTGACCACGCCATTGGGGCCGATGCTGGCCATGGCCGAACGTCGCGGCCTGGTATTGCTGGAGTTTCTTGATCGCCCGGCCTTGACCAGGGAGCTGGAGGAACTGCAGCAACGCTACGGCTACACGGTTGCGCCGGGCCACAATGCGCATCTGCAACAGATCGAAAGCGAGCTGGCCGACTATTTCGCCGGCAAGCTCACGGTTTTCAACGTCCCGTTGCACATGCCTGGCAGCGCCTTCGCGGCCAGGGTCTGGGCCGAGCTGCAGAAAATCCCCTACGGCGAAACCCGCAGCTACGGCGTCGTCGCCAACGCACTGGGCAGCCCTGGCGCCAGCCGCGCCGTGGGCCTGGCCAATGGACAGAACCGCCTGGCCATCGTCATTCCTTGTCACCGGGTGATTGGGGCGGATGGCTCTTTGACCGGCTATGGCGGCGGTCAGCCGCGCAAGGCGTTTCTATTACGGTTGGAGCGAGCCGCGGTGCAGGTTTCGTTGCCTTTGGCGTTTTGA	MLERDTTYEGVFFTAVKTTGIFCRPSCTARKPKPENVEFFAHADEAMSAGYRACLRCKPLDAAAIAPDWIQASLKAVDAEPDLRWTDALLLEQGIEPLKLRRWFKQHFGMTFHAYLRTRRLGIALGGIKEGASIDNAAFDSGYESLSGFRDAFVKSFHITPGRAGLSEPLLFTRLTTPLGPMLAMAERRGLVLLEFLDRPALTRELEELQQRYGYTVAPGHNAHLQQIESELADYFAGKLTVFNVPLHMPGSAFAARVWAELQKIPYGETRSYGVVANALGSPGASRAVGLANGQNRLAIVIPCHRVIGADGSLTGYGGGQPRKAFLLRLERAAVQVSLPLAF				NA	NA	NA	NA	NA
D1-35_04199	615	alkA	COG0122	DNA-3-methyladenine glycosylase	ATGGCGGCGCCTTATCAGCAAGCGAGCACTTTCCTGGCAGGCCTGGACGAAGACTGGCGGCGCCATATCGAGTCGATCGGTCCTTGCCTTCTGCAACCCAAACCGGCCCGGGATCCGTATGAGGCGCTGATGCGGGCGATTGCCTATCAGCAACTGCACGCCAAGGCCGGGGATGCGATCATTGGCCGGCTGCTCGGGCTGTACCCATCGGGGACGTTTCCCGGGCCTGAGCAAATACTGGCAACTGATGCAGCGCAATTGCGCGGTTGTGGATTTTCAGCCAGCAAGATCGCCACTCTCCTGGGTATCGCCCAGGCCACGCTGGACGGCATCGTGCCGGATTACGCCACGGCGCAGGCCATGGACGATGAAGCACTGATCAAGCGCCTGGTCACCCTGCGCGGCGTCGGACGCTGGACCGTGGAGATGCTGTTGATCTATAGCCTGGAACGGCTGGATATCCTGCCTGCGGATGATTTTGGGGTTCGCGAGGGTTATCGGCGGCTCAAGGCGCTGGAAACCCAACCGAGCTCCAGACAGATGAGCGAAATCGGCCGGGCCTGGAGCCCTTATCGGACGGTGGCGGCGTGGTACCTGTGGCGGGTGCCCAAGTGA	MAAPYQQASTFLAGLDEDWRRHIESIGPCLLQPKPARDPYEALMRAIAYQQLHAKAGDAIIGRLLGLYPSGTFPGPEQILATDAAQLRGCGFSASKIATLLGIAQATLDGIVPDYATAQAMDDEALIKRLVTLRGVGRWTVEMLLIYSLERLDILPADDFGVREGYRRLKALETQPSSRQMSEIGRAWSPYRTVAAWYLWRVPK				NA	NA	NA	NA	NA
D1-35_04200	489			hypothetical protein	ATGCACCTCGAAGGATCCTGCCACTGCGGCGCCGTGTCGTTCAGCCTGGACAGCAGTCACCCCTACCCTTACCAACGTTGCTACTGCTCGATCTGCCGCAAGACCCAGGGCGGCGGTGGTTTTGCGATCAACCTGGGGGGAGACGCCACGAGCCTGAAGGTGCAGGGTCGCAAGCACATCTCGATCTACCATGCGCGGCTCAAGGACGAGGACGACAAACGCGCCCATCGCAGCAGCGCCGAGCGGCATTTCTGCTCGCTGTGCGGCTCGGGATTATGGTTGTTCAGCCCTGAATGGCCGGAATTGATCCACCCTTTCGCCTCAGCCATCGACACGCCGCTGCCGGTGCCGACAGAACGCACCCATCTGATGCTGGGCTCCAAGGCGCCATGGGTCGAGGTCGAGGCGCGCTCGGGCGACCAGCAGTTCGACGTGTATCCCGAAGAATCGATTGCCCAGTGGCATGAACGCCTGGGTTTGACCCTTTGA	MHLEGSCHCGAVSFSLDSSHPYPYQRCYCSICRKTQGGGGFAINLGGDATSLKVQGRKHISIYHARLKDEDDKRAHRSSAERHFCSLCGSGLWLFSPEWPELIHPFASAIDTPLPVPTERTHLMLGSKAPWVEVEARSGDQQFDVYPEESIAQWHERLGLTL				NA	NA	NA	NA	NA
D1-35_04201	606			hypothetical protein	ATGATCCTTCCCGAAATCCACGAATTCCTCGGCTGCCGCACCCCCGATGTCTGGGTCCAGGCGGCGCTGGCCGACCAGGAAACGTTGCTGATCGACCACAAGAACTGTGAATTCAAGGCTGCCAGCACTGCCTTGAGCCTGATCGCCAAATATCACTCCCATGTCGACCTGATCAATATGATGTCGCGCCTGGCCCGGGAAGAACTGGTGCATCACGAGCAGGTCATGCGCCTGATGAAAAAACGCAAGGTCGCCCTGCGCCAGCTCTCCGCCGGGCGCTACGCTTCGGGCCTGCGTAAAGTGGTGCGCAGCCACGAACCGGTGAAACTGGTGGACACCCTGGTGGTCGGCGCTTTTATCGAAGCCCGCAGTTGTGAGCGCTTCGAGGCCCTGGTGCCGCATCTGGACGAGGAGCTGGGCAAGTTCTATTTCGGCCTGCTGAAAAGCGAGGCCCGACATTTTCAGGGTTACCTGAAACTGGCCTACCAGTATGGCGACGCCAAGGATATTGCCCAGGTCATTGAGAGGGTCCGCGAGGCGGAGCGCGAGTTGATCGAATCAGTGGACGTGGAGTTTCGGTTTCATAGTGGTGTGCCTGCGCTTTAG	MILPEIHEFLGCRTPDVWVQAALADQETLLIDHKNCEFKAASTALSLIAKYHSHVDLINMMSRLAREELVHHEQVMRLMKKRKVALRQLSAGRYASGLRKVVRSHEPVKLVDTLVVGAFIEARSCERFEALVPHLDEELGKFYFGLLKSEARHFQGYLKLAYQYGDAKDIAQVIERVREAERELIESVDVEFRFHSGVPAL	PGPT0007220_725	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007220-miaE-K06169	NA	NA
D1-35_04202	864	uspE	COG0589	Universal stress protein E	ATGCAAGCCATTCGCAGCATCCTCGTGGTCATCGAACCCGAACATTCGGAAAGCCTGGCACTCAAGCGCGCCAAACTGATCGCCGGCGTGACCCAGGCCCATTTGCACTTGCTGGTCTGCGACAAACACCATGACCATGCCGGGATGCTCAGCGTCCTGAAGGCCGCACTGGCGGCCGACGGCTACAGCGTGACCACCGAGCAGGCGTGGAACGAAAGTCTCTACGAAACCATCATCGACGTGCAGCAGGCCGAAGGCTGTGGCCTGGTCATCAAGCAGCACTTCCCCGACAGCCCCTTGAAAAAAGCCCTGCTGACCCCGGCCGACTGGAAACTGCTGCGCCATTGCCCGACCCCGGTGCTGCTGGTCAAGACATCGGGATCCTGGAAAGACCGGGTGATCCTGGCCGCGGTCGACGTGGGCAATGCCGATGGCGAGCACCGCCACCTGCACTCGACGATTATCGACCATGGCTACGACATCGCCCTCCTCGCCAAGGCGCACCTGCATGTCATCAGCGCCCACCCGTCGCCGATGCTCTCGTCCGCCGACCCGACCTACCAGCTCAAGGAAACCATCGAGGCGCGCTACCGTGAGCAATGCCGGGCGTTCCAGGCCGAATTCGACATTGATGACGAGCACCTGCATATCCAGGAAGGCCCGGCGGATGTCTTGATTCCATACATGGCCCACAAGCTCCAGGCCGCTGTCACCGTGATCGGCACCGTGGCCCGCTCGGGTTTGTCAGGGGTGCTGATCGGCAACACCGCCGAAGCCGTGCTCGATACGCTGGAAAGCGATGTGCTGGTGCTCAAGCCGCAGGAGGTGGAGGATCATCTGGTGGAGATGGCGGCAAAAGAATAA	MQAIRSILVVIEPEHSESLALKRAKLIAGVTQAHLHLLVCDKHHDHAGMLSVLKAALAADGYSVTTEQAWNESLYETIIDVQQAEGCGLVIKQHFPDSPLKKALLTPADWKLLRHCPTPVLLVKTSGSWKDRVILAAVDVGNADGEHRHLHSTIIDHGYDIALLAKAHLHVISAHPSPMLSSADPTYQLKETIEARYREQCRAFQAEFDIDDEHLHIQEGPADVLIPYMAHKLQAAVTVIGTVARSGLSGVLIGNTAEAVLDTLESDVLVLKPQEVEDHLVEMAAKE	PGPT0014995_873	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014995-uspE-K14055	NA	NA
D1-35_04203	471			hypothetical protein	ATGCCCAACCAGCTCATCAAGACCCCCTGCGTCGGCCTCTGTTCCACTGTCTACGGTGACCTGGTGTGCCGTGGCTGCAAGCGGTTCCACCATGAAGTGATTCACTGGAACGGCTACAACGAAGAGGAAAAGCGCGCGGTGTGGTTGCGGCTCGAGCAGCTGCTGGTGCAGGTGATGGTGGCCAAGCTGGAGGTTTTCGACCCGCAGCTGCTGCGCCAGCAACTGGAATCGCGCAAGATCCGCTTCGTGCCGCATCAGTCGGAATATTGCTGGGCCTATCAGTTGATCGCCCGGGGCGCACGGGTGATCAATAACCTGGAAGCGTACGGCATGGTGCTGCTGCCGGAATTTCGCGACTGGGAACTGCCCGACCTGCGCGATGCCATTGATCGGGAATTTTTCCTCCTGTCCGAAGCGCATTACCAGCGCTACATCGCGCCGGGGTTCTTGAAGGATGCGATTGGCGGCTGA	MPNQLIKTPCVGLCSTVYGDLVCRGCKRFHHEVIHWNGYNEEEKRAVWLRLEQLLVQVMVAKLEVFDPQLLRQQLESRKIRFVPHQSEYCWAYQLIARGARVINNLEAYGMVLLPEFRDWELPDLRDAIDREFFLLSEAHYQRYIAPGFLKDAIGG	PGPT0013210_132	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013210-ydhL-K06938	NA	NA
D1-35_04204	2670	acnB	COG1049	Aconitate hydratase B	ATGAGTGCCGTGAGTTTCTGGATGAGCGTCCCGGACACCCATTTGGGACCACTGATGAGGGTAATAACTGTGCTTGAAGCCTACCGCAAACATATCGAAGAGCGCGCAGCACTGGGTATCGTTCCCCAGCCGCTTAACGCCGAACAAACCGCAGGCCTGATCGAGCTGCTGAAGAATCCCCCGGCTGGCGAAGAAGCTTTCCTCGTTGACCTGATCACCAATCGCGTTCCGCCTGGAGTCGACGAAGCCGCCTACGTCAAGGCCGGTTTCCTGTCCGCCCTGGCCAAGGGCGAAGCCCAATCCCCTCTGATCGACAAGAAGCGCGCTGTAGAACTGCTCGGCACCATGCAGGGCGGCTACAACATCGTGACCCTGGTAGACCTGCTGGACGACGCCGAACTGGCCCCGGTCGCCGCCGAAGAACTCAAGCACACGCTGCTGATGTTCGATGCCTTCCACGATGTGGCGGAAAAAGCCAAGAACGGCAACGTCCACGCCAAGGCCGTACTGCAATCCTGGGCCGACGGCGAGTGGTTCAAGAACCGCCCGGTGCTGGCCGACAAGATCAGCCTGCGGGTCTTCAAGGTCACCGGCGAAACCAACACCGACGACCTGTCCCCTGCCCCTGACGCCTGGTCCCGCCCGGACATCCCGCTGCACGCCCTGGCCATGCTGAAAATGGCTCGCGACGGCATCGTGCCCGATGAGCAAGGCAAGACCGGCCCGATGAAGCAGATCGAAGAGATGCGTGGCCAAGGTTTCCCGATCGCCTACGTCGGTGACGTGGTCGGTACCGGCTCCTCGCGTAAATCCGCCACCAACTCGGTGCTGTGGTTCTTCGGCGACGACGTCCCGTATGTGCCGAACAAGCGCGCCGGTGGTTTCTGCTTCGGCAGCAAGATCGCGCCGATTTTCTACAACACCATGGAAGACGCCGGCGCCCTGCCGATCGAATTCGATGTGTCGAACATGCACATGGGCGACGTGATCGACCTGTACCCGCATGCCGGCAAAGTCTGCAAGCACGGCACCGATGAAGTCCTGACCACCTTCGAAATGAAGACCCCGGTCCTGCTTGACGAAGTCCGTGCCGGCGGTCGTATTCCGCTGATCATCGGCCGTGGCCTGACCGAAAAAGCCCGCGCCGAGCTGGGCCTGCCGCCTTCGGACCTGTTCAAGAAGCCTGAAGCGCCGGCCGAAAGCACCAAGGGCTTCACCCTGGCGCAGAAAATGGTCGGCAAGGCTTGCGGCGTGACCGGCGTTCGCCCGGGCACCTACTGCGAGCCGAAGATGACCACCGTCGGCTCCCAGGACACCACCGGTCCGATGACCCGTGACGAACTGAAAGACCTGGCGTGCCTGGGCTTCTCGACCGACCTGGTGATGCAGTCCTTCTGCCACACCGCGGCGTATCCGAAGCCGATCGACGTGACCACCCACCACACCCTGCCAGACTTCATCATGACCCGTGGCGGCGTGTCCCTGCGTCCGGGCGACGGCATCATCCACAGCTGGCTGAACCGCATGCTGCTGCCGGACACCGTCGGCACCGGTGGTGACTCCCACACCCGTTTCCCGATCGGCATCTCGTTCCCGGCCGGTTCCGGCCTGGTCGCCTTCGCCGCCGCCACCGGCGTGATGCCGCTGGACATGCCCGAGTCGATCCTGGTGCGTTTCAAGGGCAAGCTGCAACCGGGCGTCACCCTGCGTGACCTGGTCCATGCGATCCCTTACTACGCGATCCAGAAAGGCTTGTTGACTGTCGAGAAGAAAGGCAAGAAAAACGCCTTCTCCGGCCGCATCCTGGAAATCGAAGGCCTGGAAACCCTGACCGTCGAGCAGGCTTTCGAACTGTCCGATGCCTCGGCAGAACGTTCGGCCGCAGGTTGCACCATCAAGCTGTCCAAGGAATCGATTGCCGAGTACCTGAAGTCGAACATCACCCTGCTGCGCTGGATGATCGGCGAAGGCTACGGCGATGCCCGCACCCTGGAGCGTCGTGCCCAGGCGATGGAAGCCTGGCTGGCCAACCCGGAACTGCTGGAAGCCGACAAGGACGCCGAGTACGCGGAAATCATCGAAATCGACCTGGCCGACGTCAAGGAGCCTGTGCTCTGCGCGCCGAACGACCCGGACGACGCCCGCCTGCTTTCCAGCGTTGCTGGCGAGAAGATCGACGAAGTGTTCATCGGTTCCTGCATGACCAACATCGGTCACTTCCGCGCTGCCGGCAAGTTGCTCGATCAGGTCAAGGGTCAGCTGCCAACCCGTCTGTGGCTGTCGCCGCCGACCAAGATGGACGCTCACCAGCTCACCGAAGAAGGCTACTACGGCATCTACGGCAAGGCCGGTGCACGGATGGAAATGCCGGGCTGCTCGCTGTGCATGGGTAACCAGGCACGCGTGGAACCGAACTCCACCGTGGTCTCCACTTCGACCCGTAACTTCCCGAACCGTCTGGGTGACGGCGCGAATGTCTACCTGGCTTCGGCTGAGCTGGCATCCGTGGCGTCGATCCTGGGTCGCCTGCCGACCGTCGAGGAGTACATGGAATACGCCGGCAAGATCGACAGCATGGCAGCGGACGTATACCGCTACCTGAGCTTCGACCAGATCGCCGAGTTCCGTGAAGCGGCTGCCAACGCCAACATCCCGGTCGTTCAAGCGTAA	MSAVSFWMSVPDTHLGPLMRVITVLEAYRKHIEERAALGIVPQPLNAEQTAGLIELLKNPPAGEEAFLVDLITNRVPPGVDEAAYVKAGFLSALAKGEAQSPLIDKKRAVELLGTMQGGYNIVTLVDLLDDAELAPVAAEELKHTLLMFDAFHDVAEKAKNGNVHAKAVLQSWADGEWFKNRPVLADKISLRVFKVTGETNTDDLSPAPDAWSRPDIPLHALAMLKMARDGIVPDEQGKTGPMKQIEEMRGQGFPIAYVGDVVGTGSSRKSATNSVLWFFGDDVPYVPNKRAGGFCFGSKIAPIFYNTMEDAGALPIEFDVSNMHMGDVIDLYPHAGKVCKHGTDEVLTTFEMKTPVLLDEVRAGGRIPLIIGRGLTEKARAELGLPPSDLFKKPEAPAESTKGFTLAQKMVGKACGVTGVRPGTYCEPKMTTVGSQDTTGPMTRDELKDLACLGFSTDLVMQSFCHTAAYPKPIDVTTHHTLPDFIMTRGGVSLRPGDGIIHSWLNRMLLPDTVGTGGDSHTRFPIGISFPAGSGLVAFAAATGVMPLDMPESILVRFKGKLQPGVTLRDLVHAIPYYAIQKGLLTVEKKGKKNAFSGRILEIEGLETLTVEQAFELSDASAERSAAGCTIKLSKESIAEYLKSNITLLRWMIGEGYGDARTLERRAQAMEAWLANPELLEADKDAEYAEIIEIDLADVKEPVLCAPNDPDDARLLSSVAGEKIDEVFIGSCMTNIGHFRAAGKLLDQVKGQLPTRLWLSPPTKMDAHQLTEEGYYGIYGKAGARMEMPGCSLCMGNQARVEPNSTVVSTSTRNFPNRLGDGANVYLASAELASVASILGRLPTVEEYMEYAGKIDSMAADVYRYLSFDQIAEFREAAANANIPVVQA	PGPT0001470_231	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
D1-35_04205	1281	sdaC	COG0814	Serine transporter	ATGAATGATCAGGCCAACAGCGTTGAAGAGCGCTTTGAAACGACAGCCCCCGCCACCCTCGGCGAATGGAGCCGCCATGACACGACCTGGATGCTGGGCCTGTTTGGCACCGCCATCGGTGCCGGCACATTGTTCCTGCCGATCAATGCCGGCCTCGGTGGTTTCTGGCCGCTGCTGATCCTGGCTGTGCTGGCGTTTCCCATGACCTTCTACGCCCATCGTGGACTGACCCGCTTCGTGTTGTCCGGCCGCGACGGCGCGGACATCACCGAGGTCGTGGAAGAGCATTTCGGTATCAAGGCCGGCGCGTTGATCACGCTGTTGTACTTCTTCGCCATTTTCCCGATCCTGCTGATCTACAGCGTGGCGTTGACCAATACGGTGGGCAGTTTCCTGGAGCATCAGGTGCAGATCCAGCCGCCGCCCCGGGCCGTGTTGTCACTGGTGCTGATCCTCGGTCTGCTGGCAGTGGTGCGCTGCGGCGAACAAGCGATCGTCAAGGCCATGAGCCTGATGGTCTACCCGTTCATCGTGGCGCTGCTGTTCCTGGCGGTGTTCCTGATCCCGCACTGGAACGGCGGCATCCTCACCACGGCGTCCACGGTGCCTGAACCTTCGGCCCTGCTGCACACCTTGTGGCTGGCGATTCCGGTGATGGTCTTCTCGTTCAACCATTCGCCGATCATCTCGGCATTCGCGGTGGACCAGAAGCGTCGCTACGGTGCCAACGCCGAGGAACGCAGTGCACAGATCCTGTCGCGTGCCCATGTGCTGATGGTGGTGATGGTGCTGTTCTTCGTGTTCAGTTGCGTGCTGACCTTGTCCCCGGCGCAACTGGCCGAGGCCAAGGCGCAGAACCTGTCGATCCTGTCGTACCTGGCGAACCATTTCAGCAACCCGACCATCGCCTTCGCGGCACCGTTGATTGCCTTCGTGGCGATCTCCAAGTCGTTCCTGGGGCACTACATCGGCGCCAGCGAGGGCCTCAAGGGCCTGGTCGTCAAGAGCGGCCGCCGCCCGGCACCCAATACCCTCGATCGGCTGACCGCAGCGTTCATGTTGGTGGTGTGCTGGATTGTCGCCACCCTCAATCCGAGCATCCTTGGCATGATCGAAACCCTGGGCGGCCCGGTCATCGCGGCCATCCCGTTCCTGATGCCGATGTACGCCATCCGCAAAGTCCCGGCCATGGCCCGCTATCGTGGCCAGGCGTCGAATGTCTTTGTGGTGTCGGTGGGCTTGGTGGCGATCACTGCGTTGGTCTATTCCCTCATGGCCTGA	MNDQANSVEERFETTAPATLGEWSRHDTTWMLGLFGTAIGAGTLFLPINAGLGGFWPLLILAVLAFPMTFYAHRGLTRFVLSGRDGADITEVVEEHFGIKAGALITLLYFFAIFPILLIYSVALTNTVGSFLEHQVQIQPPPRAVLSLVLILGLLAVVRCGEQAIVKAMSLMVYPFIVALLFLAVFLIPHWNGGILTTASTVPEPSALLHTLWLAIPVMVFSFNHSPIISAFAVDQKRRYGANAEERSAQILSRAHVLMVVMVLFFVFSCVLTLSPAQLAEAKAQNLSILSYLANHFSNPTIAFAAPLIAFVAISKSFLGHYIGASEGLKGLVVKSGRRPAPNTLDRLTAAFMLVVCWIVATLNPSILGMIETLGGPVIAAIPFLMPMYAIRKVPAMARYRGQASNVFVVSVGLVAITALVYSLMA	PGPT0011650_602	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|COLICINS,PGPT0011650-sadC|dcrA-K03837	NA	NA
D1-35_04206	954		COG1052	2-ketogluconate reductase	ATGACCGCAACCGTTCTGGTACTGGTTGAAACCGTCAACGAATACTTGCCGATTCTCGAACGCCAGGGCTATCACCTGGAACTCGCGCCCACGCCCGCCGAACGCAAGGCAGCGGTTTTCGAACACGGTGAACGGTTCAGCGCGGTGTTGACCCGCGGCCCCTTGGGCTTGACTGCCGAGGAAATGGCCGCCCTGCCCAACCTGAAGATCATCTGCGTGATCGGCGCCGGTTATGAACAAGTGGACCTGCAAGCCGCCAGCGACCGAGGCATCGTTGTCACCAACGGTGCCGGGGTCAACGCTTCATCGGTGGCCGACCATGCCATGGCGCTGTTATTGGCCTTGGTGCGCGATGTGCCTCGATCCGACGCAGCCCTGCGCCGGGGCGAATGGCCGCGAAGCACGCGCCCTTCCCTCGCTGGCAAGCACTTGGGCGTGCTGGGACTCGGCGCCGTGGGCATGGCGATTGCCAAGCGGGCCGCCCTCGGTTTCGACATGAACATCAGCTACCACAATCGCCGCGTACGCAGCGACGTGCCCTACGCCTTCTGCGCAACGCCCACCGAACTGGCCCGGGTCTCGGATTTTCTGATTATCGCCACGCCCGGAGGGCTGGACACCCGCCAGTTGATAAACAAGCAAGCCCTCGACGCCCTGGGTCCCAACGGATTCCTGGTCAACATTGCCCGGGGCAGCGTGGTCGCCACGACCGAGCTCATCTACGCCCTCGAACATCGGCGAATTGCCGGGGCTGCGCTGGATGTATTCGACCATGAACCCGAAGTACCCGACGCCCTGAAGCATTTGTCCAACGTCGTGCTGACACCTCACGTGGCTGGCCTGTCGCCGGAAGCGACACGCGCCATGGTGGAGTTGGTCGGCGATAACCTGAACGCGTTTTTTTCCGGCAAACCGGTGCTGACGCCAGTGGAGCTACCCGACGCGCAGCATTAG	MTATVLVLVETVNEYLPILERQGYHLELAPTPAERKAAVFEHGERFSAVLTRGPLGLTAEEMAALPNLKIICVIGAGYEQVDLQAASDRGIVVTNGAGVNASSVADHAMALLLALVRDVPRSDAALRRGEWPRSTRPSLAGKHLGVLGLGAVGMAIAKRAALGFDMNISYHNRRVRSDVPYAFCATPTELARVSDFLIIATPGGLDTRQLINKQALDALGPNGFLVNIARGSVVATTELIYALEHRRIAGAALDVFDHEPEVPDALKHLSNVVLTPHVAGLSPEATRAMVELVGDNLNAFFSGKPVLTPVELPDAQH	PGPT0009155_7457	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
D1-35_04207	1083			hypothetical protein	GTGAGTTTGCCGATAACACCGTTGCCCGAATTGGTCAGCCAACTGCTCGAACCGATCAGCGCCGAGTCGCCCTGTGGTCAGGATCTGCGTTACGAAACGGAGTACGACCAGCTACGCGAATTGCGTCGGGAAGACGACACCAGCCTGCCCACCGGCGTGTGGCAGTCCTCCATCAAGCGCGCGCTTTGGCCGGACCTGGAGCGGCTCGCGACCACGTTGCTGCTTGAGCGCAGCAAGGACCTGATGGTCAGCGCCTGGCTGGGGGAGGCCTGGCTGCACCTGGCCGGGCTGGAAGGTTTGCCCGGCAGCCTGGCACTGGTGGCGGGGCTGTGCGAGCGCTATCCGGAACATCTGCACCCCCTTGCCGAGGATGGCGATCAATCGTGGCGGGTGATTCCGCTGGAATGGCTGGCCCGTCGCTACAGCGAAGTGCTGCTGACGCGGGTGCCGTTGCTTGATGGCCGTGACCCAGCCTTCGCGGGTTTCAGCCTGGACGATTGGCAGCGCCTGCAGCGCCAGCAAGTGCTGGGCAACGACAGCAAGAACGCCAAGGCCTCGGCGGAGGCGGCGCGCAACGAACAAAAGAAACTCAGCGAACTGATTCGCAACACCCCGTTGTCCTTCTGGTTGCACCGCCAGGGCAGCCTGATGTTAAGCCTGCAACACTTGCAACGGCTCGAAGCCTGGAGCGACGCCTACCTGGGTCATCTGGCGCCGGGCTACAAATCCTTGCAGGACGTGATGCAAGCCATGTTGGCATTGGTAGAGGAGTTCATCGCGATGCATCCACAGCAACCCGCCGTCGTGCCCGCGCAGACGCCCAAGGTGACAACGACGCCGACCTCCCAGCCGACGGCGGCACCTGCCCAGGACTTCCAGGAACCGGCCAATCGTGAAGAGGCGTATCGACAGCTGCTGGTCATCGCTGGTTACCTGGCGCGCACCGAGCCCCACAGTCCCGTGCCTTATCTGATCCGGCGCGGTGTGGAGTGGGGCAACAAGCCGCTGAGCGAGCTGCTGGGAGAACTGATCAGTGCCGATGCCGAGTCCCGACGGCTGTGGACGTTACTCGGGGTCCTCTAA	MSLPITPLPELVSQLLEPISAESPCGQDLRYETEYDQLRELRREDDTSLPTGVWQSSIKRALWPDLERLATTLLLERSKDLMVSAWLGEAWLHLAGLEGLPGSLALVAGLCERYPEHLHPLAEDGDQSWRVIPLEWLARRYSEVLLTRVPLLDGRDPAFAGFSLDDWQRLQRQQVLGNDSKNAKASAEAARNEQKKLSELIRNTPLSFWLHRQGSLMLSLQHLQRLEAWSDAYLGHLAPGYKSLQDVMQAMLALVEEFIAMHPQQPAVVPAQTPKVTTTPTSQPTAAPAQDFQEPANREEAYRQLLVIAGYLARTEPHSPVPYLIRRGVEWGNKPLSELLGELISADAESRRLWTLLGVL	PGPT0025910_474	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025910-impA-K11902	NA	NA
D1-35_04208	3825			hypothetical protein	ATGAACACCCTGAGCATCGTCGCCTTGGTGCTGCTCGCCATTGTCGTGGTGCTGGTGATCGCGGCAGCGGTCTGGTGGTTGCGAACCCAGGGCGGCGCGGCGGTTCGCAATTTCTACGGGGCGGTGCGCCAGATGGAGCAGGAGCAGGGCACCCGCGACCGCTATCAGACGCCTTGGCTGATGATGCTCGGCAACGAAACCGACGGCGCCCAGCTGTGCAGCCAATGGCGTTTGCAACCCACGGACAAGGCGGGCTGGTTCGGGCGCTGGTTTTGCGATGCCGAAGGCGCCGTACTGGTAGTGCCCCAGGCGTTGTTCCTGCCCGATGAAGGCATGAACCGGCAACGGGGCAACTGGTGGCGACTGCTGGGCCTGCTGTTGCGGCTGCGCAGCAAGCGGCCATTGGACGGGGTGATCTGGACAGTACCGTTCAGCAAGTTCGATGACATCGAGCACACCACTGAGCTGAGCCTCAAGGTCCGACGGGTTTTTATCGATTTGCTGCAACGGTTTGGCCTGAGCCTGCCGGTTTACGTGGTGATAACCGGGATGGAAGAGTTGCCCGGGTTCCAGGAATTGGTCAGCGCGCTGCCTGCCAAGGCGCGGGACTCGATGCTGGGTTGGTCGTCGCCTTATTTGCCGGATGCGGCGTGGCAGTCGCACTGGAGTGACCAGGCGCTGGATGAGATCAACGCCGCGCTGGCGCAATCGATCATCGAGATCGGTGCGTTGTCGGGACAGCTGAGCACCGATCTTTATGGCCTGCCGGAACGCTTCGAAGGCTTGCGACGAACCTTGCAGATCTTGTTGGAGCCGGTATTCCAGGGCAACGCCCAAGGCGAAGCGCCGCGATTTCGCGGCGTGTACTTCACCGCCAGTCAGGCACCGGCCGTCAGCGGCGACAGTTTGGCCGCCCATCACAATGGCCAGCGGCAAACGGTGTTTGCCCGGCAATTGTGGTCGCGACGTCTTATGGCCGAACGCGGCCTGGCCCAGCCGGTGCCTCGCTTGCTGCGCGTGCGCCAACGCGGTCATCGGCTGGCCGGCGCGGTGGCGTTGGTGGTGGGCCTGGTCTGGTTGGGAGGCATGGTCTGGGTCTGGCGCGATTCGGTGGAAAACGCCGAGGGACTGTCGCGGTTGGTCCTCAGTGCCCACAAGAACCACATTGTCATTGACCCGGACCAGCCGCAACTGGAGCCGACCCGGCATAACGTGCAGAACTACTGGAACGTCTTGGAGAAAGCCCCGCGCTGGCGTTATGTCTCGGTCGTCTTCCCCACCTCCTGGTTTTCCTCCGTGGACACGCAGCTGGAGGATGGCTTGCGCCTGACCGCCCGGCACCATTGGATACTACCGCTGCGAGACTTGCTCGATTCCGACCTGGAACAGCTCAAGTCCATCCGCAACACCGAGCGCCGGGGCAACGTCGAGAACGACGATCCGGCGCAGTGGCAAAGCTACCTGAAGGCCAAGGCGCTGGTGGATCTGGCGGCACGCCTCGAGCAGCACAACCAGATGTTCAGCCAAGTGGTGAACGACCCCAAGGCGCCACTGGACGAACTGGTGCAGTTGAGCAACGCCGCGTTGTCCTTGGGCCTGAACACCGGGACTTTGAGTCGCCCACAGTTTTACAACCGGGTCCTGTTCGATGCGCGAAACAGTGATTTGCAAGGGCTGGACCTGAACGCCGCGCGCCCTGTGATTACCGATAATTTCACCGGCCTGATGCAACGCTGGCTGGACCATTACTTCCTGGCGGACAACTTCGTTCGCCAGGCCGGTTATCTCAAGTTGCACCTGCAAGGACTGGAGGCAGGCAGCGGCAACTCCTTGAGTGAGCTGGAAGACCTGATGGCGCTGATCGATGACCTGCAGACGCTGGTCAGCCTGACTAACTCCGCCTGGGGGCGGGGCAAGGGCCAGGACCTCGTGCCTGGCTACACCCAGATGCTGGACAAGGTCAGCCACAGCACTTTGCTTGGCCCGGATATCACACAGGACTTGGAGAGCCAGGCGGCGAAGTTGCAGCAAAGTTTTCGCGACCAGTGGATCGTCCAGAGTGGTTCCCGGGACAATCTGCTGGTGCAGCAGGGCAGTGGCTTGCTGGTGTTGCAGGACCATGTCACGGCGTTGGACGGCGCGGTGCAAGCGCTGTTCAAACGGGATTTCGTGGCGCTGGCGATGCAGAAGGATCCGTCGCCCGGCAATCCGGATTCAATAGGCCAGGGCGGTGGCAGTGATGATTTCAGCGTCGCCCTGAATTATTTCGCCAGCTACAAGAGCTATGCCAGCGAAGAGCTGTCGCGGATCCCGCCGGATTACCGTGACGCGCTGATGCAGGCCGCCGAAAACGCCGCGGCACGGGCCATGTGGTTGAGCCTGGATGAAAGCGACGAGCCGTCGCCGGGCCTGGGCTTCAACGTACAGACCGCCCAAGCCGTGGCGCTGCAGAAAGCCTTCATGGTCGTGCACCGGGGCGACCTGGCGATACGTTTCCAGCGCCTGCTCAATCGCCGGGCATTGGCGCAGATCAACAATGGCCTGGCCGAAATCGATGCCCAGCCGTTATTCAGCCAGCGCGCCGATATCGAGCGTTGGGACGGTTCGAAGAACTTCGGCTTGCAGCTGTATGGCGCCAACGATCCACAGGAACTGAAGCTGAACCTGAACCAGCAATTCAGTGCCATGCTGCAGATCGCCGAACAGCGCATGCCTGCCCTGGAATGGCTGATCGTCCAGCAGGACGACCTGTCCGCCCTGGAGCATGACCAGGTGGCGCGGTTCATGGCCCTCAACGACGAACTGCTCAAGTACAAGAATCAGAACCCGGCCAGTTCGGCTGCCCAGTTGGAGCAATTGGTAAGTCGGGATTTCAATGCGATGGACACCGCGTCCTGCGCGCAGATCTTGCAGACCTCCAGCCTGTCCGGTGGGCGCGGCGACCTGGCTCGGCGCACCGTCGCATTGCAGCAGGGGGCGCTGCAGCGTTGCCTGTACCTGCAACAGAACCAGGCGGCAATGGCCTGGAATGACCTGGCCAATTATTTCAACCAGTACCTGGCGGGACGCTTCCCGTTTTCCCAGGACGTGCGGGCCAGTGATGCCGACCCGGCACGGGTCCGGCACCTGTTGGAATTGATCGAGACACGCGTGCCCCTGGCCCAGGCCGGGCTGACGCTGAGCCAGACGCCGGAGCGGTTGGCGGCCGAGGATTTCCTCAACCGCTTGAAGCAGGCCGGTGTCTGGCTCGGGCCGCTGTTCGTGCGGGACAAGAGCGGCATCCTGGGCGTGGAGATGGACGTGCGCTGGCGCACCGACCGCGAGGAAGAGCGCGGCGCCGACCAGGTCATCGCCTGGAGCCTGGACGCCGGCAACCAGCAGATCAACTACCCCGGTGAGGGCCAGCAGAACCTGCGCTGGATGGTCGGCCAGCCCGTGCGCCTGACCTTGCGTTGGGCCCGCAACGGCTACCAGCGCCCGGCCAACGATCCGTTGCAACCGAACCTGGTGGTGCGCGACCTCGAAGCCGGCTGGGAATACCAAGGGCCATGGTCGTTGCTGCGCCTGATGCGTTCGCTGGGCTCGGCCCAACGCCAGCCGAATGTCGACTACACCGATTTTCCCCTGGCCCTGCAACTGCCGGTGACCGCCCAGACCCAAGCCCGCACGGCGCAACAGACCTTGATGTTCGTGCGCCTGTCGTTGATGAGCCAGGGTTCCAAATTGCCGCTGTCGATCCCGCCGCTGCCGACACAGGCGCCGCGGTCACCTTTCCTCGCGCCTGCGTCGAGGCCTGCCATTGCCACCCGTGAGGAGGGCCTGTGA	MNTLSIVALVLLAIVVVLVIAAAVWWLRTQGGAAVRNFYGAVRQMEQEQGTRDRYQTPWLMMLGNETDGAQLCSQWRLQPTDKAGWFGRWFCDAEGAVLVVPQALFLPDEGMNRQRGNWWRLLGLLLRLRSKRPLDGVIWTVPFSKFDDIEHTTELSLKVRRVFIDLLQRFGLSLPVYVVITGMEELPGFQELVSALPAKARDSMLGWSSPYLPDAAWQSHWSDQALDEINAALAQSIIEIGALSGQLSTDLYGLPERFEGLRRTLQILLEPVFQGNAQGEAPRFRGVYFTASQAPAVSGDSLAAHHNGQRQTVFARQLWSRRLMAERGLAQPVPRLLRVRQRGHRLAGAVALVVGLVWLGGMVWVWRDSVENAEGLSRLVLSAHKNHIVIDPDQPQLEPTRHNVQNYWNVLEKAPRWRYVSVVFPTSWFSSVDTQLEDGLRLTARHHWILPLRDLLDSDLEQLKSIRNTERRGNVENDDPAQWQSYLKAKALVDLAARLEQHNQMFSQVVNDPKAPLDELVQLSNAALSLGLNTGTLSRPQFYNRVLFDARNSDLQGLDLNAARPVITDNFTGLMQRWLDHYFLADNFVRQAGYLKLHLQGLEAGSGNSLSELEDLMALIDDLQTLVSLTNSAWGRGKGQDLVPGYTQMLDKVSHSTLLGPDITQDLESQAAKLQQSFRDQWIVQSGSRDNLLVQQGSGLLVLQDHVTALDGAVQALFKRDFVALAMQKDPSPGNPDSIGQGGGSDDFSVALNYFASYKSYASEELSRIPPDYRDALMQAAENAAARAMWLSLDESDEPSPGLGFNVQTAQAVALQKAFMVVHRGDLAIRFQRLLNRRALAQINNGLAEIDAQPLFSQRADIERWDGSKNFGLQLYGANDPQELKLNLNQQFSAMLQIAEQRMPALEWLIVQQDDLSALEHDQVARFMALNDELLKYKNQNPASSAAQLEQLVSRDFNAMDTASCAQILQTSSLSGGRGDLARRTVALQQGALQRCLYLQQNQAAMAWNDLANYFNQYLAGRFPFSQDVRASDADPARVRHLLELIETRVPLAQAGLTLSQTPERLAAEDFLNRLKQAGVWLGPLFVRDKSGILGVEMDVRWRTDREEERGADQVIAWSLDAGNQQINYPGEGQQNLRWMVGQPVRLTLRWARNGYQRPANDPLQPNLVVRDLEAGWEYQGPWSLLRLMRSLGSAQRQPNVDYTDFPLALQLPVTAQTQARTAQQTLMFVRLSLMSQGSKLPLSIPPLPTQAPRSPFLAPASRPAIATREEGL	PGPT0025960_319	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025960-impL|vasK|icmF-K11891	NA	NA
D1-35_04209	762			hypothetical protein	ATGCCTGACGGAAGTGGCGGGGTGGTTCGGAGTCTGCACGAGGCGCCGCTGAGCAGTGCGTTTCGTCAAGCCTGGTTGAAGTGGTCCCAGGAATGGCAAGACTTGCCCAAGGACAGCGACCCTGCGGTGCTGGTCAATCGGGTCGTGGAGTTTTCCGGTCGCGGCGCCCAGCGTCTCTGGCGGGTGGCCTATGCCACCGTCGGCGATGCCGCTTCCGAGCAGGTCAAGGCGCTGGTCTATGCATTCGTCGCGCTGGTGGACGAGACCTTGCTGTTCAGCACCTGGCCCGGCCAACTGGCTTGGCAGCAGCATCCCCTGGAGTCACGCATGTACGCCAGCCGCCAGGCCGGCGAGCGCTTGCCCGCGGCGATCAAGAAACTGCTGGATGAGCAGATGCCGGGCACTCGGGACCTGGCGAATGTCTACCTGCAATGCCTGATCCTGGGATTCCAAGGGCGCTTGCGCGGCGAGCCTGGCCAGATCCAGCACGAAAAATGGCGCGTGGCGTTGTTCACCTTTGCCTGGCAGCACGAACCCGATTACGTCGACGTCAGCCAGCGCCTGGCGATGTCTGCGGCGGCGACGCCCGCGCGTATGCCCGCGCAGCAATCCTTGCCGGACGGCTTTCGCCTGGGGTTGGCGATCGTGGCGATGGTGCTGTTGTTGACTGGCCTGGGGCAGGTCTTCTGGCGTGACATCCGCCTGGAGCTCGAACCGGTGTTGCAATTGAACGAGTCGTCAGTCCAGGAGCAGGATTCATGA	MPDGSGGVVRSLHEAPLSSAFRQAWLKWSQEWQDLPKDSDPAVLVNRVVEFSGRGAQRLWRVAYATVGDAASEQVKALVYAFVALVDETLLFSTWPGQLAWQQHPLESRMYASRQAGERLPAAIKKLLDEQMPGTRDLANVYLQCLILGFQGRLRGEPGQIQHEKWRVALFTFAWQHEPDYVDVSQRLAMSAAATPARMPAQQSLPDGFRLGLAIVAMVLLLTGLGQVFWRDIRLELEPVLQLNESSVQEQDS	PGPT0025955_1140	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025955-impK|ompA|vasF|dotU-K11892	NA	NA
D1-35_04210	1332			hypothetical protein	ATGAGCCTGTTACCTGACGCGGTGTGCTGGCACGAGGGCATGCAACTGTTGCCCCAGCATTTTCAGTTGCAAGGACTGCGCGCCGAGGCCCTCGCCGCGCATTTTGCCGGGGCTTGCAACCCTTGGTTCTGGGGCGTCAGCCAGTTGGAAGTCGATCCTTCGGCCCTGAGTGCCGGCCAGGTACGCCTGTTGCAATTGCAAGGCACCTTGCCGGACGGCTTGCCGGTCAATCTGCTGGCCGGTGTCGGGCCAGCCCTGGAACTGGACGTCAGCGAGGCGATCGACAAGACCGACGACGCCACCGTGACCGTGTACCTGGCGGTCAGCCCGCTGTGGCGTGCCGGGCAGTTGCTGCCGCTCAAGGGACGTTTGCAATCGGTGGTCGGCGAGGCTTTGCCAGACCTCACCAGCGGCGAGTTTCCCGAGTCGATCACCGTCTGGCGACCCAACCCGAGGTTGTGCACGCAATTGAGCAAGGCTGATTCGATCTGCTTGCCATTGCTGCGCATCCGCAAGGAAGGCGGCGGTTTCTGGCGCGTGCCGTATACGCCGCCAACGCCGATCCTGCTGCCGGAGTCGGCCCTTGGTCGGCGGGTGGCCGGGGTGTGCGCGAGGGCCAGGGAAAAGTGCATGTTTCTCGCCGGTCGCTTGCGTCAGGCCCAGGCGGCTGGCAACCAGGACGATGCCATGGAGATCCGTCGGCAATTGACGGCCCTGTGGGCGCGCTTGCCGGAACTTGAAGGGATGCTGAATACCCGGGTGGCGACGCCCCAGGCGCTCTACGGTTTGCTGCTGGGGCTGGCCGGGAGCTGGTCGGCGCTGGACCCGTTGGCGGGCGTCCCGGCTTTTGCGCCGTTGGATTTTCTCGAGTTGCAGCGCGGCTACGAGCCGCTGCTCGACTGGCTGGAAACCACCCTGGAATTGGTCCGCGCCGGCTACCGCAGCCTGGCATTCGAGCGCAACGAGCAGGTCTTCTCGATCCAGTTGCCTGACGACCAGCCCAATCAACGCCTGGTGATCGGTTTGCGCATGCCCAACGGCGCCGGCGAACAAGCGGCGGCCGAATGGTTGCGCGGCGCGATCATCGCGTCGGCGCCCCACATTGCGCTGCTGAGCCGCCAGCGCATGAGTGGTTTGCCGCACCAGGCCATGAGCCGCAACGAGCAGGTGGCCTACAGCGTCGGTGACGACACCCGTTTGTTTGTGGTGGCCGCGAGCGGGCAATGGTTCGACGGGCAATTGCCGCTGCACATCGTGGCGCCGGCCTCAGCCCAGGCCAGCAGCCCGTGGCAAGTGGTGTTGTTCGTGGCGCAAGCCAGTGAAAATGCCTGA	MSLLPDAVCWHEGMQLLPQHFQLQGLRAEALAAHFAGACNPWFWGVSQLEVDPSALSAGQVRLLQLQGTLPDGLPVNLLAGVGPALELDVSEAIDKTDDATVTVYLAVSPLWRAGQLLPLKGRLQSVVGEALPDLTSGEFPESITVWRPNPRLCTQLSKADSICLPLLRIRKEGGGFWRVPYTPPTPILLPESALGRRVAGVCARAREKCMFLAGRLRQAQAAGNQDDAMEIRRQLTALWARLPELEGMLNTRVATPQALYGLLLGLAGSWSALDPLAGVPAFAPLDFLELQRGYEPLLDWLETTLELVRAGYRSLAFERNEQVFSIQLPDDQPNQRLVIGLRMPNGAGEQAAAEWLRGAIIASAPHIALLSRQRMSGLPHQAMSRNEQVAYSVGDDTRLFVVAASGQWFDGQLPLHIVAPASAQASSPWQVVLFVAQASENA	PGPT0025950_1298	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025950-impJ|vasE-K11893	NA	NA
D1-35_04211	459			hypothetical protein	TTGCGTGCGTTTTTTCATGGATTTTTTTTCAGCCTGGCGCTCAGCGGGTGCTCGTTGTTTGCCCCCAGCGTCGACCTCGACAGCCTGACCCTGGACGTCGCGCCCCGGGCCAACGACGACACGCCGATCGCCGTGGATTTCATTGCGGTAAACGACCCGGACCTGCTCAAGCAACTCTCGGGCATCACCGCTAGCCAGTGGTTTGCCGAGCGCGAACAGTTCCAGCGCGACTATCGTCAGCTCATGTCGGTGTGGGGGCTGGAGCTGGTCCCGGGGCAATTCATCGACCGCCAACCCTTCCCGCTGGAGGGCCGGCGCGCCGCTGGACTTTTGGTCTTCGCCAGCTATAACACTCCGGGAGCCCACCGGCTTCGGCTGGACGATCAGCACGAGGCCTGGCTGAAGTTCGAAAGTCGCGAGATGACCCTCGTGAATGATGATCGGCACAAGCAGCCTTGA	MRAFFHGFFFSLALSGCSLFAPSVDLDSLTLDVAPRANDDTPIAVDFIAVNDPDLLKQLSGITASQWFAEREQFQRDYRQLMSVWGLELVPGQFIDRQPFPLEGRRAAGLLVFASYNTPGAHRLRLDDQHEAWLKFESREMTLVNDDRHKQP	PGPT0030445_59	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0030445-lip3-K11918	NA	NA
D1-35_04212	561			hypothetical protein	ATGGCAGAAAGTACCCAGCACAAGCTCGACAGAGTCCGTCCTCCCCGCGTCCAGATCACCTATGACGTGGAAATCGGCAACGCCATCGAGAAAAAAGAACTGCCACTGGTCGTCGGCATTCTGGCCGACCTCTCGGGCAAGCCACTGGAGCCGCTGCCCAAGCTCAACGAGCGGCGCTTCACCGAGATCGATCGGGATAATTTCAACGAGGTGCTCGCCTCCATCTCCCCCCGCGCCACGCTGCAGGTGAACAACACCCTCAGCGGCGACGACAGCAAGCTCAATATCGAACTCAACTTCCGGCACATCGACGATTTCGACCCGGTAAAGGTCGTCGAGCAGGTCACGCCGCTGCGCCGCTTGTTCGAAGCCCGGCAGCGCCTGCGGGACCTGTTGACCAAGCTCGACGGCAACGATGACCTGGACAAGCTGCTGCGTGACGTGATCGCCAACACCGAAGGCCTGCAGGAGATCAAGTCGGCCCGGCCCCAGGACGCGACGCAAGAACTGCCCACCGTAGCCGCCAACGATGACCCTGCCCCGGCCGAACCACAGGCCTGA	MAESTQHKLDRVRPPRVQITYDVEIGNAIEKKELPLVVGILADLSGKPLEPLPKLNERRFTEIDRDNFNEVLASISPRATLQVNNTLSGDDSKLNIELNFRHIDDFDPVKVVEQVTPLRRLFEARQRLRDLLTKLDGNDDLDKLLRDVIANTEGLQEIKSARPQDATQELPTVAANDDPAPAEPQA	PGPT0025915_85	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025915-impB-K11901	NA	NA
D1-35_04213	1482			hypothetical protein	ATGCCTGCTTCATCCAGCGCTCAAACCAGCGAGAGCACGACCCAGACCCTGTCCTTGCTGGACAAGATCATCGCCGAAGGCCGCATGGCCCACGACGACAGCCAGCAAGACTACGCCCGCGACATGCTGGCGGAGTTCGCCACCCAGGTCCTCGACGAAGGCATGGCCATCGACAAGGACACCGTGGCCATGATCAACGACCGCATCAGCCAGATCGACGAGCTGATCAGCGCCCAGCTCAACGAAGTCCTGCACCATCCCGACCTGCAAAAACTCGAGGCCTCCTGGCGCGGCCTGCACCTGCTGGTGCAAAACACCGAAACCAGTACCCGGCTCAAGTTGCGCCTGCTCAACGTCACCCAGAAAGAACTGCAGAACGACCTGGAGAAAGCCGTCGAATTCGACCAGAGCGCGTTGTTCAAGAAGATCTACGAGGAAGAGTACGGCACCTTCGGCGGGCACCCGTTCAGCCTCCTGGTGGGCGACTACACCTTTGGCCGGCATCCGCAGGACATCGGCCTGCTGGAAAAACTCTCGAACGTCGCCGCCGCCGCGCACGCGCCGTTCATTGCCGCCGCCAGCCCGCGGCTGTTCGACATGACCAGCTTCACCGAACTGGCGATCCCCCGGGACCTGTCGAAAATTTTCGAAAGCCAGGAGCTGATCAAGTGGCGCGCCTTCCGCGAAAGCGAAGATTCGCGTTATGTGTCCCTGGTGTTGCCGCAGTTCCTGCTGCGCCTGCCGTACGGCCCGGACACCCTGCCGGTGGAAGGCATCAATTACGTCGAGGACGTCAACGGCACCGACCACAGCAAATACCTGTGGGGTAACGCCGCCTGGGCACTGTCGCAACGCATCACCGAGGCCTTTGCCAAATACGGTTGGTGCGCGGCGATTCGCGGGGCCGAGGGCGGTGGTGCGGTCGAAGGCCTGCCGGCCCATACCTTCCGCACCAGCTCCGGGGACCTGTCGCTCAAATGCCCGACCGAGGTGGCGATCACCGACCGTCGCGAGAAAGAACTCAATGACCTCGGCTTCATCGCCCTGTGCCACAAGAAAAACAGTGACGTGGCGGTGTTCTTCGGTGGCCAGAGCACCAACAAGGCCAAGGTCTACAACACCAACGAGGCCAACGCCAACGCACGGATCTCGGCGATGTTGCCGTATGTGCTGGCGGCCTCGCGTTTCGCCCATTACCTGAAGGTGATCATGCGCGACAAGGTCGGCAGCTTCATGACCCGCGACAACGTGCAGACCTACCTCAACAACTGGATCGCCGACTACGTGCTGATCAACGACAACGCGCCGCAGGAGATCAAGGCGCAGTACCCGTTGCGCGAGGCCCGGGTGGACGTGACCGAGGTGGCTGGCAAGCCCGGGGCCTATAAAGCGACGGTGTTCCTGCGGCCGCACTTCCAACTGGAGGAACTGACCGCCTCGATCCGCCTGGTGGCGACGCTGCCGCCGCCGGTAGCTGCCTGA	MPASSSAQTSESTTQTLSLLDKIIAEGRMAHDDSQQDYARDMLAEFATQVLDEGMAIDKDTVAMINDRISQIDELISAQLNEVLHHPDLQKLEASWRGLHLLVQNTETSTRLKLRLLNVTQKELQNDLEKAVEFDQSALFKKIYEEEYGTFGGHPFSLLVGDYTFGRHPQDIGLLEKLSNVAAAAHAPFIAAASPRLFDMTSFTELAIPRDLSKIFESQELIKWRAFRESEDSRYVSLVLPQFLLRLPYGPDTLPVEGINYVEDVNGTDHSKYLWGNAAWALSQRITEAFAKYGWCAAIRGAEGGGAVEGLPAHTFRTSSGDLSLKCPTEVAITDRREKELNDLGFIALCHKKNSDVAVFFGGQSTNKAKVYNTNEANANARISAMLPYVLAASRFAHYLKVIMRDKVGSFMTRDNVQTYLNNWIADYVLINDNAPQEIKAQYPLREARVDVTEVAGKPGAYKATVFLRPHFQLEELTASIRLVATLPPPVAA	PGPT0025920_1210	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025920-impC-K11900	NA	NA
D1-35_04214	498	hcp1_2	COG3157	Protein hcp1	ATGGACGCAATCATTCTCGACCTCGGCGGCGACATCAAGGGCGACAGCCTGCTGGAGGGTTTCACGGACAAGATCGAGGTCATGTCCTACAGCCACAACGTGGCGATGCAGGTCACCAACGACGTCAGCAACTCGGAGCGCACCTCCGGCCGCCCGCACATCGGCGAGTTCACCCTGACCAAATTCATCGACAGCTCAACTCCGTCGCTCAATGAATATTGCTGCGCCGGTAAGCCGATCCCGCAAGCCGTCGTCACCATCGGCCGCAACGCCGCCGAAGGCAGCGGCCAGATCATGCCGTTCATCGTCTACACCCTGACCAACGTCGTGCTGTCCAACGTCAGTGTCAGCGGTGGTACCGGTGGCAAACCGGTGGAAACCCTGTCGCTGAACTTCACCAAGATCAAATGGGAGCTCACCGCCCAGAAAGATGACGGCACCAAGGAAGGCACGGCCGGCACGACCTGGGATTTGGCCGCCAACAAAATGACCAAGTAA	MDAIILDLGGDIKGDSLLEGFTDKIEVMSYSHNVAMQVTNDVSNSERTSGRPHIGEFTLTKFIDSSTPSLNEYCCAGKPIPQAVVTIGRNAAEGSGQIMPFIVYTLTNVVLSNVSVSGGTGGKPVETLSLNFTKIKWELTAQKDDGTKEGTAGTTWDLAANKMTK	PGPT0025980_646	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0025980-hcp-K11903	NA	NA
D1-35_04215	444			hypothetical protein	ATGGCTGGCTTCGGGCTGCGCCCGCCCCTGTTCGAACGTTTGGCAAGCCCGGCAGACGATGCCGGGCGGGTGTTCGATCGACAGGCATTGCAGGACTCGGTACATGCCGAACTGTCACGCCTGTTCAATACCCGGCGCGGCCTACGGGCGCTGACCGAACCACCGAGCATCCTGGACTACGGCATCGCCGACTGGACCGCGCTGCAACAGCAGCGCAGCGATGACCGTCGTCAACTGACCCGGGAAATTCGCCAGGCCATCACCCACTTCGAACCGCGCCTGCGCCTGGGCGAGGTAGAAGTCTGCCCGGTGCCGGGCCATCCGCAGCAACTGTGCATACGGCTGTCGGGCGAACTGCGTGGCGACCCGCACCCATGGCCCGTGGCGTTTGTAATCGAGCACGCCGGCGACGGCCTTGAGGTGCGCCATGAGCGACTCGATTGA	MAGFGLRPPLFERLASPADDAGRVFDRQALQDSVHAELSRLFNTRRGLRALTEPPSILDYGIADWTALQQQRSDDRRQLTREIRQAITHFEPRLRLGEVEVCPVPGHPQQLCIRLSGELRGDPHPWPVAFVIEHAGDGLEVRHERLD	PGPT0030415_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_RELATED_PROTEINS,PGPT0030415-hsiF3-K11919	NA	NA
D1-35_04216	1791			hypothetical protein	ATGAGCGACTCGATTGACCCGCAACTGTTGGATTACTACCAACGCGAATTGACTTGGCTGCGCCATGCCGGGAGCCTTTTCGCCGAGCGTTACCCCAAGGTTGCCCGGCGCCTGGAATTGTCCCCCGGTGAATGTCCCGATCCCCACGTCGAACGACTATTGGAAGGCTTCGCGCTGCTGGCCGCGCGCTTGCAACGCCGGCTGGATGACGACTACGCCGAATTCAGTGATGCCCTGCTCGAACAACTTTACCCGTTGGCCATGCGACCCTTGCCATCGTGCGCCATCGTGCAGTTCGAGCCCGACCCGAGCAAAGGCAACTTGAACGAGGGCTATCCCCTGCCCCGCGACACGCCATTGTTCGTCACCACGGACAAAGGCCAGAGCATTCATTTCCGCACCACTGCTGCCGTGCATCTATGGCCACTGCAAGTGAGCGAAGCGTTGCTGCTGGGCAGTGACGAGGCCCAGGCGTTGACCGGAGTAGTCCAGGCCCGCTCGGCCTTGCGCCTGGAGTTGCGTTGCCTGGGAAAAAGCCAATGGTCGACGCTGGGCATCGATTCGCTGCGGGTACACCTGGCGGCGTCACCGATGATCAACGCCGGGCTGTACGATTTGCTTGGCGCTCACGCCATCAAGGTCCTGGCTGGCGCGCCGGGCAGCGTGCCGGAACCGTTGGCGGGTTTGCCACGCATCGTCGGTTTCGCCAGCGACCAAGCCTTGCTGCCGGACGAGGACGGCGTGCACCCAGGCATGCGCCTGTTGGCGGAGTATTTCGCCTTTCCGGACAAATTCGGCTTTTTCGACCTGCCGCTGGCCGGCGCCCACAGCGACGACGCTTCTTTATACCTGTACATCGCGTTCGACCGGGCACCAACCAGCCGCTTGCCGCTCCAGGCCAGCGACATCGCCCTGGGCTGCGCTCCGGTGATCAATCTGTTTCCCCGGACCTCCGAGCCGCTGCGCCCGGACGGCACTCGCAGCGAGTATCGGCTGGTGGCCGACAGTCACCGGGAAAACAGCGTCGAGATCCACAGCATCCGGGGCATGCGCGCCATGACCGAACAAGGAGTGCGCAAAGTGCCGGCCTATTACGGCAGCCAGCATGGCAGCGACGAGCCCTGTTATTGGCATGCGCGACGGGTCAGCGGCATGAGCCCGAACCGACTGGGCACTGACGTGATGGTCAGCCTGGTGGACACCCGCTTCGACCCACTGGCCGAATCCCGGGATTACAGCCTCACCGCCGAACTGCTGTGCACCAACCGCCACCTGGCCCAGAGCCTGCCGGCCGGCACGCCATTGGGTTTCGAGCGCCCCGGACCGGTGGCCTGGGCGCGCCTGCGCAATCCTCCCAGCCCGCAGAGCCTGCCGCGCCTGGATGGCGAGTCGCGCTGGCGACTGGTGTCGCAACTGACCCTCAATCATCTGTCACTGGTGGAAGGTCCCCAGGCGCTTGACGCATTGCGCGAGATTCTCGAATTGCACAACCTGCGGGACGAGGCCAGCGCGCGCCGCCAGATCGAAGGCGTATCCGGACTGACCTGTGAACGGGTCATCGCCCATGTTGGCGAGGATGCCTGGCGCGGGTGGCGCAACGGCTTGGAGGTGCGCCTGCAACTGGATCCGCATCACTTCGTCGGCAGCAGCGCCGTGCTGTTCTCCGGCGTGCTGGCGCAATTCTTTTCTCTGTATGCCACCGCCAATCGATTTGTGCGCACCGTGCTGGTCCAGTCCGACAAGGAGGTGAAGACATGGCAACCCCAAGCCGGCAAACCCCTCGCGCTCTGA	MSDSIDPQLLDYYQRELTWLRHAGSLFAERYPKVARRLELSPGECPDPHVERLLEGFALLAARLQRRLDDDYAEFSDALLEQLYPLAMRPLPSCAIVQFEPDPSKGNLNEGYPLPRDTPLFVTTDKGQSIHFRTTAAVHLWPLQVSEALLLGSDEAQALTGVVQARSALRLELRCLGKSQWSTLGIDSLRVHLAASPMINAGLYDLLGAHAIKVLAGAPGSVPEPLAGLPRIVGFASDQALLPDEDGVHPGMRLLAEYFAFPDKFGFFDLPLAGAHSDDASLYLYIAFDRAPTSRLPLQASDIALGCAPVINLFPRTSEPLRPDGTRSEYRLVADSHRENSVEIHSIRGMRAMTEQGVRKVPAYYGSQHGSDEPCYWHARRVSGMSPNRLGTDVMVSLVDTRFDPLAESRDYSLTAELLCTNRHLAQSLPAGTPLGFERPGPVAWARLRNPPSPQSLPRLDGESRWRLVSQLTLNHLSLVEGPQALDALREILELHNLRDEASARRQIEGVSGLTCERVIAHVGEDAWRGWRNGLEVRLQLDPHHFVGSSAVLFSGVLAQFFSLYATANRFVRTVLVQSDKEVKTWQPQAGKPLAL	PGPT0025935_1101	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025935-impG|vasA-K11896	NA	NA
D1-35_04217	1026			hypothetical protein	ATGGCAACCCCAAGCCGGCAAACCCCTCGCGCTCTGAACCTGGGCGAGCGACTGCGGCGCGACCCACAACGCTTCGAATGGCTCCAGGCCCTGTTGCTGCTGGAACGCGAACATCCCCAGGCCGAGCCCCTGGGCAGCGGCACCGCGCCACAGGCCGAGGCCGTGCGTCTACGTGGACCGCTGACGCCACTGTTCGCCGCCAGCGAGGTCGAAAGCCTGGGCCAGGAACCCGGCCTGCCGCCGACCCTGACCACGCCGATCTTTGGCCTCGGCGGCCCGGACGGCCCGCTGCCCTACGCCTACCAGGAATGGCTGCAACAACGGGCGCGGGCGAAGGATCATGCCCCGGCGGAATTCCTCGACCTGTTCCAGCACCGCCTGCTCAGCCTGCTGTACAAGGTGATGCGCAAGCATCGCGTCGCCCTCGGTTTCACGCCCCCTGGCGCGTCCGCTGTACACGCACAACTGCGCGCGTTGACCGGCCTGCTGCCCAAGGCCTTGCAGGAACGCCAGGCCGCCCCCGACTCGGCGGTCCTGGCCTGCGCCGCGCTGTATGCCGATGGTCGGCGTTCCCTGGCCGGGTTTGCGGCGATTGTCCGTGAACAGTTCGGCTTGCCCGTCGAGCTGAACGCCTATGAAGGTGGCTGGCGTGAAATCCCGCCGGCCAGCCGCAGTTGCTTGCAGCCGGACGGACGCAACCTGCGCCTGGGCCGCAACGCAGTCGCCGGTACTCGGGTCTGGGACGAACATGCCGGCGTGCGCCTGACGCTGGGACCGCTGAGCGCGCCCCAAGCCAGCGGCTTGCTGCCCACTGGCGAAATCCATCCGCTGCTCGCCAGCCTTTGTGCGCTGTATTTCGGCCCAGACCTGGATTGCACATTGGTCCTGCTGGTTCGTGGCGCCGGCCCGTTGCAGTTGAGTCGCCAGACTGCGCCACGGCTGAATTGGAACGGTGGCCTGCAACGCCAGCCGAGCCTGGCCGTGCAACGCATCGAAACCCGCCTTCGCCAGCCGGAGATCGCCTGA	MATPSRQTPRALNLGERLRRDPQRFEWLQALLLLEREHPQAEPLGSGTAPQAEAVRLRGPLTPLFAASEVESLGQEPGLPPTLTTPIFGLGGPDGPLPYAYQEWLQQRARAKDHAPAEFLDLFQHRLLSLLYKVMRKHRVALGFTPPGASAVHAQLRALTGLLPKALQERQAAPDSAVLACAALYADGRRSLAGFAAIVREQFGLPVELNAYEGGWREIPPASRSCLQPDGRNLRLGRNAVAGTRVWDEHAGVRLTLGPLSAPQASGLLPTGEIHPLLASLCALYFGPDLDCTLVLLVRGAGPLQLSRQTAPRLNWNGGLQRQPSLAVQRIETRLRQPEIA	PGPT0025940_1048	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025940-impH|vasB-K11895	NA	NA
D1-35_04218	2544	clpV1_2	COG0542	Protein ClpV1	ATGGAACTGGCCAGCCTGATCGGACGCCTCAATCCGGACAATCGCCGAGCCCTGGAACGGGCCGCGCAACGCTGCCTGCAACGCAGCCACCACTACGTCGAAATCGAACACCTGCTGTTGGAACTGCTCGACATCGAAGGCGGTGACTTCGCCTGCCTGCTGCCGCGTTTCGGCCTGGAGCGTGACGCGGTGGCCGCCGAAACCAATAAGGCCCTGGACCTGTTCAAATCCGGCAGCACCCGCACGCCCGCCCTGTCGGCACAAACCATCGGCCTGCTGGAGGACGCCGTGGTCCAGGCCAGCGTGTTGGGCCTGGACAGCATTCGCTCCGGGCTATTGTTGCTGGCGTTGTTGGACCGTGACGAACGTCGCAGCCTGCTGCTCAACAGCGCCTCGTCCCTGCTGCGCATTCCCCGCGATGCCCTGCGCGCCCATCTGTTGGAATGGACCGAAAGCTCCCGCGAGCATGTCGGCGGCGTGCGCCCGGCCAAACCCGGCGAAGCACCACCGAAACAGGACCCGGTGCTGGACCAGTACACCCAGGACCTGACCGCCGATGCCCGGGACGGCCGCATCGACCCTATCGTCGGCCGTGACGGCGAGATCCGCCAGTGCATCGATATCCTGCTCCGACGCCGGCAGAACAACCCGATCCTGGTGGGCGCACCGGGCGTCGGCAAGACTGCTGTAGTGGAAGGCCTCGCCCTGCGCATCGCCGCCGGGGATGTGCCGCCGTCCTTGCAGGAAGTCACCCTGCGCGTGCTTGACCTGGGCCTGTTGCAGGCCGGCGCGGGCGTCAAGGGCGAGTTCGAACAGCGCCTCAAGGGCGTGATCGACGCGGTACGCAGCGCGGAAAAACCGATCATCCTGTTCATCGACGAAGCCCATACGTTGATCGGCGCCGGTGGTGCGGAAGGCGGCAGCGACGCGGCCAACCTGCTCAAGCCAGCCCTGGCCCGGGGCGAATTGCGTACCCTGGCCGCCACCACCTGGCTGGAATACAAGAAATACTTCGAGAAGGACCCGGCCCTGGCTCGGCGGTTCCAGTTGGTGCAGGTCGAGGAGCCGGACGAGCTCACCGCCGTGGAAATGCTCCGGGGCGTGGCGAGCAAACTGGAGCAGCACCACGGCGTGCAAGTGTTGGACGCGGCCATCCACGAGGCGGTGAAGCTGTCCCACCGCTACATCTCCGGACGACAGTTGCCGGACAAAGCCATCAGTGTGCTCGACACCGCCTGCGCCCGGGTCGCCCTCGGCCAGCACGACGTACCACCGCCGCTGGAAAGCCTGCGCCATCGCGAGAACAGCCTCAAGGATGAAGTCGAACGGCTACGCCGGGAACAAGCCACCGGGCTGGATCATCGCGAGCGCATCACCTTGCTGGAAAGCGAATCGAGCAGCAACGTGCAGGCCATCCGCGAGCTGGAAACCCGCTGGGGCGAAGAGCGCGAAGCCGTGCGCGAACTGCTCGACACCCGCCGCGAACTGCTCGCCTTGAGCGAACGTGCCGACAGCGAAAAAGCCGACACCGAAATCGATAACCGCATCGACCACCTCGCCGCCGAACTGCTGCGCCTGGAAGCCGGCCTCGATGCCATTCGCCAGGACGATCCGCTGGTGCCCGAACAGGTCGACAGCAAGACCGTCGCCGCGGTGATTGCCGGTTGGACTGGCATCCCGGTTGGCAAGATGCTCGCCGATGAAGCCCACGCCGTGCGCACCCTCGGCCAACGCATGGGGCAGCGAGTCATGGGCCAGGGCACCGCACTGAATACCATCGCCCAACGCCTGCAAGCCTACCGCGCCGGTCTCACCGACCCGCAGAAACCGGTCGGCGTGTTCCTGCTGGTGGGCCCCACGGGCGTGGGCAAGACCGAAACCGCCTACGCCTTGGCCGACGCCTTGTACGGCGGCGAACGCAACCTGATCAGCATCAACCTCTCCGAATACCAGGAAGCCCACACCGTCAGCCAACTCAAGGGCGCCCCGCCCGGCTACGTCGGCTACGGCAGCGGCGGCGTGCTCACCGAAGCAGTCCGCCGAAAACCCTATTCCGTGGTGTTGCTGGATGAAATTGAAAAGGCCCACCCGGACGTGCTCGAAGCCTTCTACAACGTCTTCGACAAAGGCCTGATGGAAGACGGTACCGGCCTGGTGGTGGACTTCAAGAACACCGTGATGCTGGCCACCAGCAACGTTGGCGCCGAACTGCTGCTGGACACACCGACCGCGCAATTGGGCAGCGACGCCTTCAACGAAGCCTTGCATAACGTCCTGCTGCAAGCGTTCCGCCCGGCGTTTCTGGCGCGCATGACGGTGGTGGCGTACCGGCCGCTGGATGAAGCGACGCTGGAAGGGATTGTGTTGGCGAAGTTGGAGAAATTGCGCGGGCGCTACAAGGCCGCGACTGGCAAGCAATTCGAATTCGATGCGGGAATCGTCAAGGCTGTGTTGGCCAAGTGCAGCGCGGCGGGGGCACGGGATGTCGAGAATGTGTTGATGACGCAGGTGACGGGGAAGTTGGCGGAGTGGGTGTTGGAGTAA	MELASLIGRLNPDNRRALERAAQRCLQRSHHYVEIEHLLLELLDIEGGDFACLLPRFGLERDAVAAETNKALDLFKSGSTRTPALSAQTIGLLEDAVVQASVLGLDSIRSGLLLLALLDRDERRSLLLNSASSLLRIPRDALRAHLLEWTESSREHVGGVRPAKPGEAPPKQDPVLDQYTQDLTADARDGRIDPIVGRDGEIRQCIDILLRRRQNNPILVGAPGVGKTAVVEGLALRIAAGDVPPSLQEVTLRVLDLGLLQAGAGVKGEFEQRLKGVIDAVRSAEKPIILFIDEAHTLIGAGGAEGGSDAANLLKPALARGELRTLAATTWLEYKKYFEKDPALARRFQLVQVEEPDELTAVEMLRGVASKLEQHHGVQVLDAAIHEAVKLSHRYISGRQLPDKAISVLDTACARVALGQHDVPPPLESLRHRENSLKDEVERLRREQATGLDHRERITLLESESSSNVQAIRELETRWGEEREAVRELLDTRRELLALSERADSEKADTEIDNRIDHLAAELLRLEAGLDAIRQDDPLVPEQVDSKTVAAVIAGWTGIPVGKMLADEAHAVRTLGQRMGQRVMGQGTALNTIAQRLQAYRAGLTDPQKPVGVFLLVGPTGVGKTETAYALADALYGGERNLISINLSEYQEAHTVSQLKGAPPGYVGYGSGGVLTEAVRRKPYSVVLLDEIEKAHPDVLEAFYNVFDKGLMEDGTGLVVDFKNTVMLATSNVGAELLLDTPTAQLGSDAFNEALHNVLLQAFRPAFLARMTVVAYRPLDEATLEGIVLAKLEKLRGRYKAATGKQFEFDAGIVKAVLAKCSAAGARDVENVLMTQVTGKLAEWVLE	PGPT0025985_1512	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025985-vasG|clpV-K11907	NA	NA
D1-35_04219	1047			hypothetical protein	ATGATGGCCAACACAGTATTTGCTAACGCGGCAGAAGCCGAAGTCAGTTTAAGAGCCAACAACTTTCGCTTTACCAAATTCGCAAACGGCGAGCGTAAAACGGCTCCGGCGCCGCTGGATGATGCTCTTTTCTATACTGCCTACTCAAATATCGCGGCTTTCCTTTGCAATGACCTTCATTTCCAAACCAGTCTGACCGAGGTCTCTGCAAAGATCTGGGAACATTATCGAAGACTAACCCCGATGACGCCGAACAAGTTTACCCGGGCAATGGGGCTGGTCGCCGCCCAGTATGGATTTCAGTACCACGAAGGTTTACGTAACGATACCTCGGAGCGAGGGCTGCCCATCGCCGTGCGCCTGATCGGGGGCGATCGCTTCCTTGGCCAACTGCTACGCGCCAGTCTGTTCTGGAAAGACAGTATGGATGGCCGACATGGCGAACATACCCACAGCCTGCAATGGCTGGCCATTGCCAACGGTCTATTGGGCACAGTGGCGGAGATCCCACGCCTGTATAGCTACACCGCCGATTATCGAGCACCTTCGCAAAACGATAAGCCGGGTAAGCCGTCCCTGTTTCTCTGGCAATGGCTGGCTGATTGCTTTCCAACTGACTTGAATGGATATGCCACCGAGAAGTTCATTAACGATGAAACCCTCGAATCGCAAAGCTACCGGGCGCCGCAAGTCATCAGTGATTACTTGTTCGGGAAACATCCCAGGACCGAACAGCCGATTCCAGGGCATTTTGTTTCCAATTACTTATTTCACCGTTATAGAAATCGGGAATGGCTGCAGACCAAGGAACAGTTCAACGCCGCCAGCGGAGAAAACGAGACAGTCATCACGAAGTGGTTTACCGGTTCCATACAGACTGATGCCAAAGCTAGCGCACCGGCTCATCGGTGGGGGCCAGCCTACAAAAATGACGCGCGCCTAGTTCGTAATGCCGCAGCGGAAATAGACAAATTAAAAGAAAAAAAGCCACAGGCCATCAATAGTTTTTTTCATGGGAAGCCGGGAAAGCTCTGGTTTGGTAGTTAA	MMANTVFANAAEAEVSLRANNFRFTKFANGERKTAPAPLDDALFYTAYSNIAAFLCNDLHFQTSLTEVSAKIWEHYRRLTPMTPNKFTRAMGLVAAQYGFQYHEGLRNDTSERGLPIAVRLIGGDRFLGQLLRASLFWKDSMDGRHGEHTHSLQWLAIANGLLGTVAEIPRLYSYTADYRAPSQNDKPGKPSLFLWQWLADCFPTDLNGYATEKFINDETLESQSYRAPQVISDYLFGKHPRTEQPIPGHFVSNYLFHRYRNREWLQTKEQFNAASGENETVITKWFTGSIQTDAKASAPAHRWGPAYKNDARLVRNAAAEIDKLKEKKPQAINSFFHGKPGKLWFGS				NA	NA	NA	NA	NA
D1-35_04220	2010			hypothetical protein	ATGCCCCGTACCGTCGACATCAACACCACCCTCTCCCTCACCTCCACCTCGCTGTCGGCGCTGTACCCTGACTCACTGTCCGGCGAAGAACGCCTCAATGCCTTGGGCTCGCACATCCTCAACGGCATCAACGACGGCGCCTCGCTGGACCTCACCACGGCCGTCGCCAGCCATGTAACCACAACGCTGCATAAGGACGCCCTGCTGCGCCCGCAGGATGGATTGGTGGCCGAGATTCGCCAATTACCAGCCGACGCCACCGCCGAGCGCTATCAACTTTTACTGAGACCGTGGCTTTGGTGGTTGAGCCTTGCCAGCAACAACCGGGTGTTCCAGAACCTCGCCACCTCGGACATCGTCACCACGATTTTCAAGGCCCACGGTTTCACCGATTTCCAGCTCAAGCTCAGCGGCAGCTACACGCCGCGCGAGTACTGCGTGCAATACGGCGAAACCGACCTGGCATTCATTTCCCGCCTGCTGGAAGAAGACGGGATCTTCTGGTTCTTCAGCCACGAACAAGGCAAGCACACGCTGATACTGGCCGACAGCAACGACGCCTTCGCACCCATACCCAATGGGCCGACGGTGAATTATCTCGGGCAGAAACTGGGCGAGCGCGAACTGCACGGCATCCGCTCAGGGCAGGTATGCCTGCAAGCGGTGGCCGGCGTTTACCAGGCCACCGATTATGAGTTCACCACGCCGACCACCTCACTCTTCAGCCAGGCTGAAGCCGTGGCCGGGCCGAGTTTGATGTACGCACATCCCGGCGGCTATACCGCCAAGGCCCAGGGCGATGCGCTGACCAAACAGCGGGTGGACGGCCTGCGCAGCCAGGAGAAACGCTTTGTCGGCGAAAGCGACTGCCGCTGGCTGATCCCGGGCTATTGGTTCACCCTCGCCGGCCATGAAGACACGACGCTGAATATCGATTGGGTAGTGACGTCGGTCAGCCATGAAGCCAGCCACGACAGTTACCGCAACCGCTTCGAAGCGATCCCCAAGACCACCGCCTACCGACCGGCTCGCATCACGCCAAAACCGCGCATGCACACCCAGACGGCCGTGGTGGTGGGCAAGGCCGGCGAAGAAATCTGGACCGATGAATACGGCCGGATCAAATTGCAGTTCCCCTGGGACCGCACCGGCAAGAACGACGAGACCTCCTCCTGCTGGGTGCGCGTGGTCCTGCCCTGGAGCGGCAAGGGCTTTGGCATGCAGTTTGTGCCGCGCATCGGCCAGGAAGTCATCGTCACCTTCATCGACGGCGACCCGGATCGGCCGTTGGTCACCGGTTGCGTCTACAACGGCGACAATGCCCTGCCCTATGCGCTGCCAGCGAACCAGACCCAGTCCGGGATCAAGACCAACTCGTCCAAGGGCGGCGGCGGTTTCAACGAGTTGCGCTTCGAAGACAAGAAAGACGCCGAGGAGATGTTTCTCCAGGCGCAAAAGGACTTCAACATCAACGTGCTCAACGACACCACCGCCACCGTCGGCCACGATGAAACCCTCACGGTGCAGAACGCCCGCACGCGCACGGTGAAGGACGGCGACGAAACCGTCACCCTTGAGAAAGGCAGGCGCAGCGTGACCATCCAGACCGGCAGCGACAGTCTCGACGTGAAGGACACCCGCACCGTCACCGTGGGCTCGGACCAGACCCACAGCACCGGCGGCAATTACGATCACAAGGTCACCGGCAATTACAGCCTGACGGTGGACGGCAACCTGACCATCAAGGTCAGCGGCACCCTGACCCTGCAAAGCGGCGGCAGCTTCGCCATCAAGAGCGGCGCGGACCTGGCCGCCCAGGCCAGCACGTCCATCAGCCAGAAGGCCGGCACCGCCTTGAGCAATCAGGCGGGTACTTCGCTGGAAAACAAGGCCGGCACCACCCTGACCAACGATGCTGGCATCAGCCTGGTGAACAAGGCGGCCGCCGAACAGACCGTGGACGGCGGCGGCATGCTGACCATCAAGGGCGGCCTGGTGAAGGTCAACTGA	MPRTVDINTTLSLTSTSLSALYPDSLSGEERLNALGSHILNGINDGASLDLTTAVASHVTTTLHKDALLRPQDGLVAEIRQLPADATAERYQLLLRPWLWWLSLASNNRVFQNLATSDIVTTIFKAHGFTDFQLKLSGSYTPREYCVQYGETDLAFISRLLEEDGIFWFFSHEQGKHTLILADSNDAFAPIPNGPTVNYLGQKLGERELHGIRSGQVCLQAVAGVYQATDYEFTTPTTSLFSQAEAVAGPSLMYAHPGGYTAKAQGDALTKQRVDGLRSQEKRFVGESDCRWLIPGYWFTLAGHEDTTLNIDWVVTSVSHEASHDSYRNRFEAIPKTTAYRPARITPKPRMHTQTAVVVGKAGEEIWTDEYGRIKLQFPWDRTGKNDETSSCWVRVVLPWSGKGFGMQFVPRIGQEVIVTFIDGDPDRPLVTGCVYNGDNALPYALPANQTQSGIKTNSSKGGGGFNELRFEDKKDAEEMFLQAQKDFNINVLNDTTATVGHDETLTVQNARTRTVKDGDETVTLEKGRRSVTIQTGSDSLDVKDTRTVTVGSDQTHSTGGNYDHKVTGNYSLTVDGNLTIKVSGTLTLQSGGSFAIKSGADLAAQASTSISQKAGTALSNQAGTSLENKAGTTLTNDAGISLVNKAAAEQTVDGGGMLTIKGGLVKVN	PGPT0030410_3452	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
D1-35_04221	543			hypothetical protein	ATGGCCTCGAAAAAACTGGACGTCGAGCGTGGTGACAGTCAACTGAATGGGCGACTGATCGATGGCAAGCTCGACGGCCCCTTGCAGATTGAAGAAGCGCAGCGCCCACAAGCGAAACTCAACTACAGCCAGGGTGAACTGGAAGGCACCAGCACGTTGTATCACCCCAATGGCAAGGTCTCGGCCGTGTTGCCGTTCGTCAAAGGCAAACTCCAGGGAATGGCAAGCTTCTACGCGGCCGAAGGCGGCTTGCAACGCCAGGCCAGTTACTGCCGCGGGTTGTTGCACGGTGAGGCGAACAATTATTTTCCCGACGGGAAACTGGCCGAAGCCGAGTTCTATCGCGACGGCGTGCGTGACGGCCATTATCGGCGCCTGCACCCCAACGGCAGCCCGGCAGTCGAGGCCCGCTACCTCAACGGCCAACTGCTGGAACCGGCCCAGGCCTACGCCGAAGACGGCCGGCCACTGGACGCCGAGGGCAAGCCGATCTCCCGGGTGCGCTGGTGGTTCAGGCGCTGGAATGATCCGGCGCAGGCCTGA	MASKKLDVERGDSQLNGRLIDGKLDGPLQIEEAQRPQAKLNYSQGELEGTSTLYHPNGKVSAVLPFVKGKLQGMASFYAAEGGLQRQASYCRGLLHGEANNYFPDGKLAEAEFYRDGVRDGHYRRLHPNGSPAVEARYLNGQLLEPAQAYAEDGRPLDAEGKPISRVRWWFRRWNDPAQA				NA	NA	NA	NA	NA
D1-35_04222	396			hypothetical protein	ATGGGATGTCCGCAAGTCTGTGGCACCGCGACCCTGCAATGCAGCTTCGGCGTGGCGCCGGCGGTGCTCAATGTGCTGCCGGCCAATCGCCTGCTGACCGGCGGGATGCCGGCGGCCAATATCATGGATCATATTCCCTTGGTGAACATCACCACGTTCGGCATGTGCCAGAGCCTGGCGAATCCGACAGTGGCCGCGGCCACTGCGGCGGCGTTGGGCGTGCTGACGCCCATGCCATGCATTCCGGCCACCGCGACCCCGTGGATCCCCGGCGGCGCACCGACCCTGTTGCTCGGCAACATGCCGGCTATCGACGCCAACAGCACGTTGATGTGTACCTGGGCCGGGGTGATCAAGATCGTCGTGCCGGGGCAGGTGCAGATGTTGATTCCTTGA	MGCPQVCGTATLQCSFGVAPAVLNVLPANRLLTGGMPAANIMDHIPLVNITTFGMCQSLANPTVAAATAAALGVLTPMPCIPATATPWIPGGAPTLLLGNMPAIDANSTLMCTWAGVIKIVVPGQVQMLIP				NA	NA	NA	NA	NA
D1-35_04223	1068			hypothetical protein	ATGGCAGTGACTGATCAGTCCACCCGCGTGCGCGACGGTGAAGAACTCGATGCCAACCTGATCGACCCGTACCTCAAGGCCCACATTCCTGGCTTGACCGGCACGCCGGTGATCAGCCAGTTTCCCGGTGGCGCGTCGAACCTGACGTACCTGCTGGAATATCCCGAGCAGGAGTTCGTCCTGCGGCGTCCGCCGTTCGGCCACAAGGCCAAGTCGGCCCACGACATGGGCCGTGAGTTCCGCATCCTCAATCAGTTGCGCGAAGGTTTCCCGTACTGCCCCAAAGCCTACGTCCACTGCACTGACGAATCGGTGATGGGCGCCGAGTTCTACGTGATGGAACGGGTCAAGGGCATCATCCTGCGCTCCGAATTGCCGCCGGAACTGGGTTTCGATGCAGCCCGCACCGAAGCCCTGTGCAAGAGTTTCATCGACCGGCTCGTCGAACTGCACCGTGTTGACTACACCGCCTGCGGCCTGGCCGACCTGGGCAAGCCCGAAGGCTACGTGGCCCGGCAGATCCGTGGCTGGAGCGAGCGCTACGAAAAAGCCCTGACCCCGGATGCGCCCAAGTGGGAGACGGTCAAGGCATGGCTCAACGACAAGATGCCTGCCGACCATCCAACGTCGAGCATCGTCCACAACGACTACCGCTTCGACAACGTGATCCTCGACCCGGACAACCCGATGCAGATCATCGGGGTGCTGGACTGGGAGCTGACCACCCTTGGCGACCCGTTGATGGATTTGGGCAACAGCCTCGCCTACTGGATCGAGGCCGGCGATCCGGCACCGGTGCAATTGATGCGCCGTCAGCCAAGCCACGCGCCGGGCATGCTGACTCGCCGCGAATTCGTCGATCACTACGCCGAGCGCGCCGGGATCCGCATCGACAACTTCGACTTCTACTACACCTACGGGCTGTTCCGCCTGGCCGGCATTGTCCAGCAGATCTACTACCGCTTCTTCCATGGCCAGACCCAGGACAAACGCTTCGCGCAGTTCGTTCAGATGAACAAACTGCTGGAGCAGATGAGCCTGCAGGTCATCAGCAAATCCACGCTCTGA	MAVTDQSTRVRDGEELDANLIDPYLKAHIPGLTGTPVISQFPGGASNLTYLLEYPEQEFVLRRPPFGHKAKSAHDMGREFRILNQLREGFPYCPKAYVHCTDESVMGAEFYVMERVKGIILRSELPPELGFDAARTEALCKSFIDRLVELHRVDYTACGLADLGKPEGYVARQIRGWSERYEKALTPDAPKWETVKAWLNDKMPADHPTSSIVHNDYRFDNVILDPDNPMQIIGVLDWELTTLGDPLMDLGNSLAYWIEAGDPAPVQLMRRQPSHAPGMLTRREFVDHYAERAGIRIDNFDFYYTYGLFRLAGIVQQIYYRFFHGQTQDKRFAQFVQMNKLLEQMSLQVISKSTL				NA	NA	NA	NA	NA
D1-35_04224	768	fabG_9		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGTCCAAGACCCAGTTGTTCGACCTCGACGGTAAGATCGCTTTCGTTTCCGGCGCCAGCCGCGGCATCGGCGAAGCCATCGCCAAACTGCTGGCCCAGCAAGGCGCCCACGTGATCGTTTCGAGCCGCAAGCTCGACGGCTGCCAGCATGTCGCCGATGCGATCATCGCCGCTGGCGGCAAGGCCACCGCGATCGCTTGCCACATCGGCGAAATGGAGCAGATCAGCCAGGTATTCGCCGGCATCCGCGAGCAATTCGGGCGCCTGGACATCCTGGTGAACAACGCCGCCACCAACCCGCAATTCTGCAACGTGCTGGACACCGACCTGGGCGCGTTCCAGAAAACCGTCGATGTGAACATCCGCGGCTACTTCTTCATGTCGGTGGAAGCCGGCAAGCTGATGCGCGAGAACGGCGGCGGCAGCATCATCAATGTCGCGTCGATCAATGGCATCTCGCCGGGCATTTTCCAGGGCATCTATTCGGTGACCAAGGCTGCGGTGATCAACATGACCAAGGTCTTTGCCAAGGAGTGCGCGCAGTTCGGCATCCGTTGCAATGCCCTGCTGCCGGGCCTGACCGACACCAAGTTCGCCTCGGCGCTGGTCAAGAACGACGCCATCCTGAAGACCGCCCTGGCGCAGATCCCCCTCAAGCGCGTGGCCGACCCGAGCGAAATGGCCGGCGCGGTGTTGTACTTGGCCAGCGATGCGTCGAGCTACACCACGGGCGTGGCGTTGAATGTGGATGGTGGGTTCTTGTCCTGA	MSKTQLFDLDGKIAFVSGASRGIGEAIAKLLAQQGAHVIVSSRKLDGCQHVADAIIAAGGKATAIACHIGEMEQISQVFAGIREQFGRLDILVNNAATNPQFCNVLDTDLGAFQKTVDVNIRGYFFMSVEAGKLMRENGGGSIINVASINGISPGIFQGIYSVTKAAVINMTKVFAKECAQFGIRCNALLPGLTDTKFASALVKNDAILKTALAQIPLKRVADPSEMAGAVLYLASDASSYTTGVALNVDGGFLS	PGPT0030550_180	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-LIPID_METABOLISM|OXIDOREDUCTASE	PUTATIVE-BILE_ACID_BIOSYNTHESIS,PGPT0030550-hdhA-K00076
D1-35_04225	1116	iolG_2		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGCGCGAACTCGGCATCGGTCTGATTGGCACCGGCTTCATGGGCCGTGCCCATGCTTTGGCATTCCATAACGCCAAGGCGGTGTTCGACCTTCCCCTGAATTTGAAACTGGCGGCCCTGGCCGACGCCGATCCGCTACGTGCGCGCCAATGTGCACAGAGTTGGGGCTTCGAGACGGCTCACAGCGACTGGCAACAACTGATCGACGACCCGAACGTCCAGTTGATCGCCATTACCACGCCCAACCATCTGCACTTTCCGATGGCCATGGCCGCGTTGGCGGCGGGCAAGCCGGTCTATTGCGAAAAACCACTGGCGGTCTCCCTGGAACAGGCCGAGCGGATGCGCCAGGCCGCCAAGGCGGCCGGGGTGGTGACACGCGTCGGCTACAACTATCAGCACAACCCGATCATCAGGTTGGCGCGGGAAATGATCCAGCGCGGCGAGCTGGGGCAGATCGTCAGCTTCCAGGGCGAATTCAGCGAGGACTTCATGGCCGACCCGACCTCCCCATGGTCCTGGCGCTGCGAAGCCGAGCATGCCGGCGGCGCCCTGGCTGACCTGGGCAGTCATTTGCTGGCCATGGCTCGTTACCTGCTGGGCGCTGTCGATTCGGTGTGTGCCGACAGCCAGACCGTCCACAACCGACGTCCGGCCAGCGCCGGCGCGATCGAACAGCGGGTCATTGCAGTTGACGACCAGGTCCAGGCGCTGCTGCGCTTCACCAGCGGCGCCCGGGGCTCGGTGAGCAGCAGTTGGCTCAAGCACGGCTACAAGAACCACTTGAGCTTCGAGATCAGCGGCACCCTCGGGACGCTGGCCTTCGATCAGGAACGACTGAATGAATTGCGCCTGTGCCGCGCCGGCCAGGCAGGTTTCCAGCGACTATTGGCCGGCCCCGACCTGCCGGGCTACGCCGCCTTCAGCCCGGCGGCCGGGCACCAGCTGGGGTACAACGAACTGAAGACATTGGAAGTCCAGGAGCTGGTCATGGCCCTCGCGGGCGATGGCGGCAACGGGACGGATTTCGAAGAAGCCTGGGAAGTCGAGCGCCTGGCGGCGGCGATTCGCACAGCGGCGCGGGAGGAGCGCTGGGTGAAGGTCAGGGAGCTCTAA	MRELGIGLIGTGFMGRAHALAFHNAKAVFDLPLNLKLAALADADPLRARQCAQSWGFETAHSDWQQLIDDPNVQLIAITTPNHLHFPMAMAALAAGKPVYCEKPLAVSLEQAERMRQAAKAAGVVTRVGYNYQHNPIIRLAREMIQRGELGQIVSFQGEFSEDFMADPTSPWSWRCEAEHAGGALADLGSHLLAMARYLLGAVDSVCADSQTVHNRRPASAGAIEQRVIAVDDQVQALLRFTSGARGSVSSSWLKHGYKNHLSFEISGTLGTLAFDQERLNELRLCRAGQAGFQRLLAGPDLPGYAAFSPAAGHQLGYNELKTLEVQELVMALAGDGGNGTDFEEAWEVERLAAAIRTAAREERWVKVREL				NA	NA	NA	NA	NA
D1-35_04226	1440			hypothetical protein	ATGACTGACGTGCCAACCTCGATTCCCCGTTCCGCCGATGTCCTGATCATCGGCGGTGGCCTGAGCGGTGCCATGTTGGCGGCGCAACTGCTGCGCCTGCCAGGCCAACGCGAAGTGTTGATTGTCGAGCCGCGCAGCGAGTTGGGCCGGGGCGAGGCCTACAGCGCGGTGGAGCTGGGCCACACCTTGAACGGTAACGCGGCGCGCATGAGTGTCGACCCGGACAACGCCGACGATTTGACCCAATGGCTCACCACGTTCATCGAAGCCGGCGGCTGGCCCGAGTCGGATCAGCAACACGTGCCGATCAGCGAGCTGTTTCCGCCCCGAGGAATGTTTGGCCTCTACGTACAGCAACGTCTAGCCGAAGCTCGCGAATCGGGCGCACAGAACGGTTCGACCGCCGAGCATGTGCGCGGGGAAGCCGTGGACCTGCGGCTTGCCGACGGTGGCGTGATGGTGACGCTGGGCGACGGCCAGGTCTTGCATGGCCGTTTTGCGGTGCTGGCCACCGGCATGTTCCCGGCGGCGCGCACCCCGCAGACCGAGTCCAGCGGCTTGAACGCCGCAGCCCTCGATCCTTGGGATGTGGCCGTGATGCGCCATCTCGATCCGCAGTCCACGGTACTGATCATTGGCTCGGGACTGACCATGGTCGATGCCGTGGTGTCTTTGGAGCAGGCCGGGCACCGTGGGCCGATCGAAGTGTTTTCCCGCCATGGCCTGTTGCCTCACGTGCGTCGCCAGCCACCGGCCTGGGTGGATTTCCTCGCCGAAGATCACAACTTGCGTTCGCCATTGCAGTTGATGCGTGCGCTGCGCGAGCAGTGCCGTAAAGCCGAGGCCGAGGGGATCGATTGGCAGGCGCCGCTGGATACCGTGCGCGCGCACATCGGGCGTTTGTGGAACCAGGCCAGCGACGTGCAACGTCGACAGTTCGTCCGGCATGTGCGGCCGTGGTGGGAAAGCCACCACCATCGCTCGCCGCCGTTGAGCGCGGAACTGGTGGCGCGTCTGCATGGGGAAGGGCGGTTGCGGATTCAGGCGGCGTCGTACAAGGGGCTGGTATCGGCTGGCGAAGGATCAGTGGCAATCAACATTCGCCGACGGGGCGAGGCTGGACTGGAAGTGGTGCAGGGCGCCGCGTTGATCAACTCCAGTGGTATCGAATACGATTGGCGCCGGGTTGCGCGACCGTTGCCGCAGCAGTTGCTGGCACGAGGTCTGGTCCTGCCCGGTCCCTTGGCACTGGGCATCGCCGCGCGTGCAGATGGCGCGGTGTTGGACGCCCTTGGCGAGCCGGCCAGTCGCCTGTTTGCCATGGGCCCGCCATTGCGCGGGGTGTGGTGGGAAAGCACCGCCGTGACGGATGTCGCGAGCCAGGCCAAGACGCTGGCCGCGCGCTTGATTGAGTTACAAACCCAAAAAAATTCAGACTGA	MTDVPTSIPRSADVLIIGGGLSGAMLAAQLLRLPGQREVLIVEPRSELGRGEAYSAVELGHTLNGNAARMSVDPDNADDLTQWLTTFIEAGGWPESDQQHVPISELFPPRGMFGLYVQQRLAEARESGAQNGSTAEHVRGEAVDLRLADGGVMVTLGDGQVLHGRFAVLATGMFPAARTPQTESSGLNAAALDPWDVAVMRHLDPQSTVLIIGSGLTMVDAVVSLEQAGHRGPIEVFSRHGLLPHVRRQPPAWVDFLAEDHNLRSPLQLMRALREQCRKAEAEGIDWQAPLDTVRAHIGRLWNQASDVQRRQFVRHVRPWWESHHHRSPPLSAELVARLHGEGRLRIQAASYKGLVSAGEGSVAINIRRRGEAGLEVVQGAALINSSGIEYDWRRVARPLPQQLLARGLVLPGPLALGIAARADGAVLDALGEPASRLFAMGPPLRGVWWESTAVTDVASQAKTLAARLIELQTQKNSD				NA	NA	NA	NA	NA
D1-35_04227	576	sutR_2	COG1396	HTH-type transcriptional regulator SutR	ATGAGCAATATAGTGCACAAAGATAATGGCCAGCGGGCATCGGTCCTGCAACACGTCAGCCAGAACGTCCGTCGCCTGAGGCATGCCGCGCAGCTCAGCCAGACGGCGCTGGCCGAGCTGTCCGGGGTCAGCCGGCGGATGCTGGTCGCCATCGAAGCTGGCGAAAAAAATGTCAGCCTGACCACTCTGGACCGTGTCGCCGAAGCGTTGGATGTGGCCTTCAGCGATTTGATCCAGGCTCCGGATGCCCGCGACCCGAGCCGTATCAATGAGCTGGCCTGGGCCGGCGTGATTCCAGGCAGCAAAGCCGTATTGTTGGCCAAGGCCACCGCCAACCGCGAAGTGGAACTTTGGGAATGGCGCCTGGAGCCCGGCGAGCATTATGTCTCGGAGCCTGACGCGGACGGCTGGAGCGAGCAGCTTTATGTATTCGAAGGTTGTTTGACGCTACTGCTGGGCAGCGAGGAGCGTCGAATCGAGGCCGGTGAATTTTTCATGTTTGCCAGCAACCAGCCCCATGCCTATCGCAACAACGATTTGGTGGCGGCGCGGTTTGTGCGCAATGTGGTGATCTGA	MSNIVHKDNGQRASVLQHVSQNVRRLRHAAQLSQTALAELSGVSRRMLVAIEAGEKNVSLTTLDRVAEALDVAFSDLIQAPDARDPSRINELAWAGVIPGSKAVLLAKATANREVELWEWRLEPGEHYVSEPDADGWSEQLYVFEGCLTLLLGSEERRIEAGEFFMFASNQPHAYRNNDLVAARFVRNVVI				NA	NA	NA	NA	NA
D1-35_04228	933			hypothetical protein	ATGGCATTGGTGAACTCCCCGCAAGCTTCCTCCCGTTTCTCACGGTTCAGCAAGGCCGAATGCGTGCTGGTGCTGATCACGATGATCTGGGGCGGGACATTCCTGCTGGTCCAGCACGCGATGACCGTCAGCGGACCGATGTTCTTCGTAGGCTTGCGCTTTGCCGCTGCGGCGGCATTCGTTGCGCTGTTCTCCTGGCGGCACCTGCGCGACCTGACCTGGTTCGAACTCAAGGCCGGAGCCTTCATCGGTGTGGCGATCATGCTCGGCTATGGCCTGCAGACGGTCGGCCTGCAAACCATCCCCAGCAGCCAATCGGCCTTCATCACCGCCCTCTACGTACCCTTCGTGCCGTTGTTGCAATGGCTGGTGCTGGGCCGCCGACCAGGGTTGATGCCGAGCATCGGGATCATGCTCGCGTTCACCGGGCTGATGCTGGTGTCCGGCCCGGCCGGCGCGTCGCTGAATTTCAGTCCGGGGGAAATCGCCACCCTGATCAGCGCCATCGCGATCGCCGCCGAGATCATACTGATCAGCGCTTATGCCGGCCAGGTGGATGTGCGCCGGGTCACGGTCGTGCAACTGGCCAGTACCGCCGTGCTGGCGTTTCTGATGGTGGTGCCGACCCGGGAAGTGATTCCCGGTTTTTCCTGGCTGCTGCTGATCAGCGCCGTAGGCCTGGGCGCCGCCAGCGCGGCGATCCAGGTGGCAATGAACTGGGCCCAGAAAAGCGTCTCGCCGACCCGCGCCACGCTGATCTATGCCGGCGAACCGGTGTGGGCGGGTATTGCCGGGCGCCTGGCCGGCGAACGGTTGCCGGCGATCGCCCTGGTGGGCGCCGGGTTGATTGTGGCGGCGGTGATCGTCAGTGAGCTGAAGACTCGAAGCAAAGCCGGTGTCGAAGTGGACAAGGTGCTTGAGCGCGAGCAGTAA	MALVNSPQASSRFSRFSKAECVLVLITMIWGGTFLLVQHAMTVSGPMFFVGLRFAAAAAFVALFSWRHLRDLTWFELKAGAFIGVAIMLGYGLQTVGLQTIPSSQSAFITALYVPFVPLLQWLVLGRRPGLMPSIGIMLAFTGLMLVSGPAGASLNFSPGEIATLISAIAIAAEIILISAYAGQVDVRRVTVVQLASTAVLAFLMVVPTREVIPGFSWLLLISAVGLGAASAAIQVAMNWAQKSVSPTRATLIYAGEPVWAGIAGRLAGERLPAIALVGAGLIVAAVIVSELKTRSKAGVEVDKVLEREQ				NA	NA	NA	NA	NA
D1-35_04229	1500			hypothetical protein	ATGGAACTTAAACCCAAGCTCCAGGATTACACTGAAACCGAGTTTCAGGCGCTCGTAGGAAAAATCTGGAATGTCGACATGGGCAAAGAAGAGCATGACCGACTGATCAACCACTTCGACCGAATCGTCGGGCACCCCAAAGGTGCGGACCTGTTGTTTTACCCCGAAGACACCGAGAATACGAACGCCCCGGAAACGATTGTCCACTTCGTAAAACAGTGGCATTTCAAAAAGAACGTTATTCCCTTCAAGGGCGGGGTACTGCCTGCCCCGGCCAAGCCCGCACCCCGCTTGAGCATGGCGCAACACGCGACGGCAAGGGCCAAGCGCGAGCTTGCCAATGCACAGCGGTTGGCCTCGGACATCACCGCCGCAGAGCAGACGGTTGAAAAGGCCTTTACCCAGCTGCAGCTTATTACCCAGCAACGACAAAACCAACCCGATGCAGAGCAGACGCTGGACGCACTCAAGCAGGCGATGCGGCGACTGGAGCAGGCACAACACGAAGTGGTCATCGCCGTTCACACGTTTGAGCGCTATAAAATGCGTGTCGAGTTCGCCTTGAGTGGCGCCCAGCGTGATCTCACCTATAACAAAGCCGACCAAGCGCTCTGGCAAGCGAATGCACGGCAGGCCACCGCCAATCATGACCGTTATCTTGCGCGTTTGTCCTCTATCGCTCAGCGCAATGCCGTTCTTCATGCCGCCGCTGAAGCGGTACTGGAGCGTTCCTCGCAGCAACTCATGCGGTTACGCGGGCAGGACAACGGCTCGGTGTTGTTTCGTATGTCCGCGATCCAGGATATGAGGCGTCCGAATCTGCTGCTAAGCGACGCGCCGCCGCTAAGAACCAGTCAACAGGTGGACTTGCAAAAATCCATTCGTTCAGCTGTCGCCGAGTTCAATTGGCTGATGACGCATCCAGAACAGGCACACACCGGGCAATATGCCGGAGTCCTTAGTTTTGATCTTGTCAGTCGAACCAAAGAAGTGCGTTTTGGCCTGTGTGTTGCGCTGGCCGAGATGTCTGCAATCGAACAAGACTGGCAGGCTCTCGCCGCACGGAAGGGCGAGGTGGAGTTGCCGTTGCGAATGGGCACGGCAATGATCGCGACAAAACCCGGCAGCCATTTCAGGGGCCTGAAAGAAATACGTGAGCTTTTTCAGATATACATCACGCCTGCCACCGGTGTGTTGCCGTCCAAGGTGCGCGTGAGGTTGGCGGTTTGGGATGGAGCTGGACGGTTTTTTCGCTTGACCACGGACGGCCCGCAACCACGAGTGCTCGAATGGACCTTCGCAGACTCCATGGAGGCGTCGATGGCATCCGAGCAAAATCGACTCGATTCTGCCGGTTTTATTCACTCATCGCCGGTACCGACGTTGGAATCCTTCGACTCCATTGGAGAGGTTGGATTTGATGACTACGTCGTGGTATTTCCCCAAGACTCGGGATTGGAGCCGCTCTATGCTGTGTTCAACGAGCGTCGCGACTCGTGA	MELKPKLQDYTETEFQALVGKIWNVDMGKEEHDRLINHFDRIVGHPKGADLLFYPEDTENTNAPETIVHFVKQWHFKKNVIPFKGGVLPAPAKPAPRLSMAQHATARAKRELANAQRLASDITAAEQTVEKAFTQLQLITQQRQNQPDAEQTLDALKQAMRRLEQAQHEVVIAVHTFERYKMRVEFALSGAQRDLTYNKADQALWQANARQATANHDRYLARLSSIAQRNAVLHAAAEAVLERSSQQLMRLRGQDNGSVLFRMSAIQDMRRPNLLLSDAPPLRTSQQVDLQKSIRSAVAEFNWLMTHPEQAHTGQYAGVLSFDLVSRTKEVRFGLCVALAEMSAIEQDWQALAARKGEVELPLRMGTAMIATKPGSHFRGLKEIRELFQIYITPATGVLPSKVRVRLAVWDGAGRFFRLTTDGPQPRVLEWTFADSMEASMASEQNRLDSAGFIHSSPVPTLESFDSIGEVGFDDYVVVFPQDSGLEPLYAVFNERRDS				NA	NA	NA	NA	NA
D1-35_04230	276	imm_3		Colicin-E7 immunity protein	ATGATCTTTAAAGAAGCGCTGGAAGATTATACCGAGCTGGAATTTTTATCCTTTCTCGGGGAGCTATTCCATCATACGAGTGATCTTAAAGGGCAGGAGCTGGGGAAGTATCTGGATAAACTGGTTGATCATTTCGAACTTATTACAGAACACCCCGACGGTTCAGATGTTCTCTTCTACCCAAAGGAGGGCCAGGAAGACAGCCCCGAAGGCATCCTGAAAGAAGTCAAGGAATGGCGCGCCCGCAATAACAGACCCGGCTTCAAACCGGAATAG	MIFKEALEDYTELEFLSFLGELFHHTSDLKGQELGKYLDKLVDHFELITEHPDGSDVLFYPKEGQEDSPEGILKEVKEWRARNNRPGFKPE				NA	NA	NA	NA	NA
D1-35_04231	2577			hypothetical protein	ATGGCAAAGCGAACATTCAGCGATGGATCAGATGGAACGGTAGTCATCAGACCGGGGCGCCCCTCATCGGGCGGCGGTTCCGGCGGAGGGTATGGCGGCGGCTTCGGAGGAAACCGCGTCGGAGCAACAGGCGGTCCCAAGCGTTCAGCCAGGGGGATGAAAAAGCGGCGGCAAGCGACGCTCAAGCGCCAGGCCGAGGAAGCGAATGCCGCTGCAAAAGTGAAAGCAGACTCTGTGAAAGCCAAGGCTGCGGCTGCCGCAAACGCCAATGAGCAGGCACGCCAACAAGCACTGGCGACCATGGTGCAACGCCACACCTCCACCCGGGCCGAGGTGGATCGAAACTTCGCGAATAAAAAGCAACAACTCGAGACGTCGCTTCAAAAGGAAATTTCGGCAGCAAAACGGCCACCCGCCTCGAACTCGACCGAGCGTTGGCAGCTTTACACCATCACCAGAGAAAAAAGCGAAATCGACGGGCTGATCGCCCGCAAGACCCAGGAACTCAACGCCAGGAAACTCGCTGCCCGCGTCTTTGATGGACAGGATCCGCTCATACGTTCGGTGAACGACTACCGCACGCGACTGGATCAGTTCGGCGCCGCGCTCGATGACGGTCATCGACTCTGGGAGCAGAGTTACACCGCGGCCCAAGAGGCGCGGCTGCTGTCCGAGCTGATCAGGGCCTTGAGCGAAAAATCCGGCACGCTGGCCCGATACCATGCCGAACAGACGGTGGTGTGGCGTGAACGGGAAGCTGTCTGGGAGCGCCAGCGTCAATACGCCGAACAACGGGCGGCGCGGATCCGCTTCAAACAGCAAGTTGATGAAAGCACGCGGCTGGAGAGGTTCCGGCAAGTCCATACCCTGAGCATACCTGCGCCTTCGTTGACTGCGGGCGGCATGGTACTGACCCGTGACGCCGTGTTCGTCGGCCAGCAAGCCGCAGCGGTGTTGGAACAGGCTGTCGCCACTTCCGTCGAAACGCTCAAGGACTACGGGCGGATCCTCGCCAGAACGGGGCCGGTCTTCGTCACGGCGATGGTTTACTCACCAACGCTGGGCGACGGCGAACTGACTTCAGAACAACGCAGCCGCCTGTTCCAAGGCGTCGGCGTACCGGCGCAAGCGCTCGGTCTCACCGACGGACCCGCGCTGCAATCGATTGCTGATGCAGGCGGTTCGGTTGAGTTGGCGTACCGGCTCAAGCCGCAAGTTGTGGCTGAAGGCACAGCGCTTAACATTGCCAGCACCGGCGACACCATCGGCGCTCATGTTCCCGTCATCAACGCGCAATTTGATCCGCTGACCGGCCTCTACAACGCAGAAGTCCCCGGCTCACCGACCCGACACCTGCAATTTACCGCCGATGCCGCCAGCCAGGCGATGCCTGCAAGCCAACCGGTTCTGACGGCGATGGCGCCTCAGGTGGAGACCTTGCCAGCGGGCGTGGACCTGCGCATTCAAGACTGCATCGTCTGCGTTCCCGGTTTGCCACCGACCTATTTCTCATTCGATTTGCCGCCGCTGGGCTCGGGCATCGTCACGGGCGCCGGCAAGCCGGCTGCGAATGATTGGTGGAGCACGGCCAGCCAGCCCCAAGGCGCGGCCATTCCCGAGCAAGTCGGTCATCAGATGCGGGCGCAGCCAATAAAGTCCTTCAGTGCCTTCGACCAGGCACTGTGGCGCGCCCTCGCCGAGCACCCAACGCTGTCGGTGTCGGGCAACGCCGACGAAATCAACAAAAAACGCATCGAACGCGGCTTTGCCCCCTATGCGCCGAAAAGCACGTGGGTCGGCGAGCGTCGCGAATTCGAACTGCGTTATCAGAACCGGGCCGAGCTGGGTGAAAACCCTTTCAATCTCGACCGCATCAGCATCGCCACGCCAAACAGCCTGCTGGGCAGGCCGGGCATCGTACCGGCTGTCATCCCCTGGCCCGCGCCTCCAATCGGCAAAGGGACCCGGACACCCCTGGTCCCGCCGGGCATCGAACAGCTTGGTCCGACCACCTCACCGATTACACCGCCACTCTCGTCGGTATATCCCGGCAATCCTGTCATCCCGGTCCTACCGGAAAACGAGACGTTTCCGGCTGTTGATCCGGGGCAAGTCGGTGCCAATATTCCTGGGTATCCGGGCGATATGGAGCTGCCTTCGCCGGATGCGCTGTTTTATGACCGGCGGGATGATCGTGGCGTGGCGCTCGGGTTTGGGCAGCCAGTCTCAGGCATTTGGTTGGGGGAGGCGGCGAGGACAACCGGCGCACCTATTCCTGATCGGATTGCGGATCAGTTGAGGGGGAGGGAGTTTGCGAACTTTCATCGGTTCAGGGAGGCAGTTTGGAAGGCCGTGGCGGCGGATGTGGAGCTGGGTCAGCAATTTACCGGCATCAATTTGGATAGGATGCGAAATGGCCAGTCACCATACTCCATAAGAAAGGACCAAGTAGGAGGACGAAAAGTATTTGAACTCCATCATGAGATTGAAATTTCAAAAGGTGGTGATGTGTATAACGTGGACAACATTCGTGTACTTACGCCCAAGCGTCACATCCAACACCACAGGGAGGGTTAA	MAKRTFSDGSDGTVVIRPGRPSSGGGSGGGYGGGFGGNRVGATGGPKRSARGMKKRRQATLKRQAEEANAAAKVKADSVKAKAAAAANANEQARQQALATMVQRHTSTRAEVDRNFANKKQQLETSLQKEISAAKRPPASNSTERWQLYTITREKSEIDGLIARKTQELNARKLAARVFDGQDPLIRSVNDYRTRLDQFGAALDDGHRLWEQSYTAAQEARLLSELIRALSEKSGTLARYHAEQTVVWREREAVWERQRQYAEQRAARIRFKQQVDESTRLERFRQVHTLSIPAPSLTAGGMVLTRDAVFVGQQAAAVLEQAVATSVETLKDYGRILARTGPVFVTAMVYSPTLGDGELTSEQRSRLFQGVGVPAQALGLTDGPALQSIADAGGSVELAYRLKPQVVAEGTALNIASTGDTIGAHVPVINAQFDPLTGLYNAEVPGSPTRHLQFTADAASQAMPASQPVLTAMAPQVETLPAGVDLRIQDCIVCVPGLPPTYFSFDLPPLGSGIVTGAGKPAANDWWSTASQPQGAAIPEQVGHQMRAQPIKSFSAFDQALWRALAEHPTLSVSGNADEINKKRIERGFAPYAPKSTWVGERREFELRYQNRAELGENPFNLDRISIATPNSLLGRPGIVPAVIPWPAPPIGKGTRTPLVPPGIEQLGPTTSPITPPLSSVYPGNPVIPVLPENETFPAVDPGQVGANIPGYPGDMELPSPDALFYDRRDDRGVALGFGQPVSGIWLGEAARTTGAPIPDRIADQLRGREFANFHRFREAVWKAVAADVELGQQFTGINLDRMRNGQSPYSIRKDQVGGRKVFELHHEIEISKGGDVYNVDNIRVLTPKRHIQHHREG				NA	NA	NA	NA	NA
D1-35_04232	2925	ndhB		NAD(P)H-quinone oxidoreductase subunit 2, chloroplastic	ATGTCACTGATAGTTCTATTGCTTTTGCCCTTTATCGGCAGCTGTGTCGCGGCGCTGTTACCGCATAACGCCCGTAACGCCGAATCGCTGCTGGCCGGCCTCGTAGCCCTGGCCGGCGCTGTTCAGGTGGCCTTGTGGTACCCGCAGATCGCCGATGGCGGCGTAATCCGTGAACAATATGATTGGCTGCCAAGCCTCGGCCTGAATTTCGTGCTGCGCCTGGACGGTTTTGCCTGGCTGTTCTCGTTGCTGGTGCTGGGCATCGGCACGCTGGTGTCGTTGTATGCCCGCTATTACATGTCGCCGGAAGATCCGGTGCCGCGTTTCTTCGCGTTTTTCCTCGCGTTCATGGGCGCGATGCTCGGGCTGGTGATCTCCGGCAACCTGATCCAGATGGTGTTCTTCTGGGAACTGACCAGTCTGTTCTCGTTCTTGCTGATCGGCTATTGGCATCACCGCGCCGACGCCCGACGCGGCGCCTACATGGCGTTGATGGTGACCGGTGCCGGCGGGCTGTGCCTGTTGGCCGGTGTGATGCTGCTCGGCCATGTGGTGGGCAGCTATGACCTGGACAGGGTCCTGGCCGCCGGCAACCTGATTCGTGACCACGCCCTCTACCCCGTCCTGCTGCCGCTGATCCTGATCGGCGCCTTGAGCAAAAGTGCTCAGTTCCCCTTCCACTTCTGGCTTCCCCACGCCATGGCCGCACCCACACCGGTGTCGGCGTACCTGCACTCGGCAACCATGGTCAAGGCCGGTGTCTTCCTGTTGGCGCGGCTGTGGCCGTCATTATCGGGCAGCGAGCAATGGTTCTATATCGTCGGCGGCGCGGGGGCCTGCACCCTGGTGCTGGGCGCCTACTGCGCGATGTTCCAGAACGACCTCAAGGGCCTGCTCGCCTATTCGACCATCAGCCACCTCGGGCTGATCACCCTGCTGCTGGGTCTCAACAGTCCGCTGGCGGCGGTGGCGGCGGTGTTTCATATCCTCAACCACGCCACGTTCAAGGCCTCGCTGTTCATGGCCGCCGGAATCATCGACCACGAAAGTGGCACGCGGGATATCCGCAGGCTCAGCGGCCTGGTGCGACTGATTCCGTTCACCGCCACCCTGGCGATGGTCGCCAGCGCGGCGATGGCCGGGGTGCCGTTGCTCAATGGTTTCCTGTCCAAGGAGATGTTCTTCGCCGAGACGGTATTTATCTCGGCCACCGCCTGGGTCGAACTGGCGTTGCCGATCATCGCCACCATCGCCGGCACCTTCAGCGTCGCCTACTCCCTGCGCTTTACCGTGGACGTGTTCTTCGGCCCCACCGCCAGCGACCTGCCTCATACGCCCCATGAACCGCCACGCTGGATGCGCGCGCCGGTCGAGGTGCTGGTATTCACCTGCCTGCTGGTGGGGATTTTCCCGGCCCAGGTGGTCGGCTCGTTGCTGGCTGCCGCCGCACTCCCCGTGGTGGGCGGCCCGCTGCCCGAATACAGCCTGGCGATCTGGCATGGGCTGAACGCGCCCATGCTCATGAGCCTGGTGGCGATGGCCGCGGGCATCGTCCTGTACCTGCTGCTGCGCAAGCAATTCAAGCAAGGCCAAATCAAGCATCCGCCGCTGATCGGCCGCCTCAGCGGCAAGCGCTTGTTCGAACGCTGCCTGGTGCTGATGATGCGCCACGGCCGCCGGCTGGAGCGCAAGATCAGCACTCGGCGCCTGCAGGCGCAACTGTTCCTGCTGGTACTGGCGGCGCTCCTGGCCGGGTTGATCCCGATGCTGCACAGCACGCTGGTCTGGGGCGACCGGCCGAAGATTCCCGGCTCCGTGGTGTTCGTCACCCTGTGGGTACTGGCGATCACCTGCGCCCTGGGCGCGGCCTGGCAAGCCAAGTATCACCGTCTCGCGGCGCTGACGATGGTCAGCGTCTGCGGCCTGATGACCTGCGTGACCTTCGTCTGGTTCTCGGCACCGGACCTGGCCTTGACGCAACTGGTGGTGGAGGTGGTCACCACGGTGCTGATCCTGCTGGGGCTGCGCTGGTTGCCCCGACGGATCGAGGACGTATCGCCCCGGCCCAACAGCGAACGGCGCGCGCGCATCCGGCGCCTGCGGGACCTGCTGCTGTCCGGCGCGGTGGGCGGCGGCATGGCGCTGCTGTCCTATGCCATGCTGACGCGCCAGACCCCCAACGACATTTCCTCGTTCTACCTCAGCCGCGCGCTGCCTGAGGGCGGCGGCAGCAATGTGGTGAACGTCATGCTGGTGGACTTCCGCGGCTTCGACACCCTGGGGGAAATCACCGTGCTGGCGGCTGTGGCCCTGGCGGTGTTCGCCCTGCTGCGGCGCTTCCGTCCACCGAAGGAAAGCATGCAACTGCCGGCGCAACAACGCCTGCTGGCGCCGGACGTGGTCACCGACCTGGTCAACCCGCGCCACGCCAGCGATACCGCGCTGGGCTTCATGATGGTGCCGTCGGTGCTGGTTCGCCTGTTGCTGCCGATTGCCCTGGTGGTGTCGTTCTATCTGTTCATGCGCGGCCACAATCAACCCGGCGGCGGTTTCGTGGCCGGGCTGGTGATGTCGGTGGCGTTCATCCTGCAATACATGGTCGCCGGCACCCAGTGGGTCGAAGCGCAGATGAGCCTGCGACCGCTGCGCTGGATGGGCACCGGGCTGCTGTTCGCCAGCGCCACGGGGTTGGGGGCGCTGGCGGCGGGTTATCCGTTCCTGACCACGCACACCTGGCATTTCGAATTGCCGCTGCTGGGGGATATTCACCTGGCCAGCGCGCTGTTCTTCGACATCGGCGTCTATGCCGTGGTGGTCGGTTCGACCCTGCTGATTCTCACTGCCCTGGCCCACCAGTCAGTGCGCGCCCACAAGCCGGGCCTGCACGCCAAACCCGTCGCCCCTCTCAAAGGAGCCAACGCCTGA	MSLIVLLLLPFIGSCVAALLPHNARNAESLLAGLVALAGAVQVALWYPQIADGGVIREQYDWLPSLGLNFVLRLDGFAWLFSLLVLGIGTLVSLYARYYMSPEDPVPRFFAFFLAFMGAMLGLVISGNLIQMVFFWELTSLFSFLLIGYWHHRADARRGAYMALMVTGAGGLCLLAGVMLLGHVVGSYDLDRVLAAGNLIRDHALYPVLLPLILIGALSKSAQFPFHFWLPHAMAAPTPVSAYLHSATMVKAGVFLLARLWPSLSGSEQWFYIVGGAGACTLVLGAYCAMFQNDLKGLLAYSTISHLGLITLLLGLNSPLAAVAAVFHILNHATFKASLFMAAGIIDHESGTRDIRRLSGLVRLIPFTATLAMVASAAMAGVPLLNGFLSKEMFFAETVFISATAWVELALPIIATIAGTFSVAYSLRFTVDVFFGPTASDLPHTPHEPPRWMRAPVEVLVFTCLLVGIFPAQVVGSLLAAAALPVVGGPLPEYSLAIWHGLNAPMLMSLVAMAAGIVLYLLLRKQFKQGQIKHPPLIGRLSGKRLFERCLVLMMRHGRRLERKISTRRLQAQLFLLVLAALLAGLIPMLHSTLVWGDRPKIPGSVVFVTLWVLAITCALGAAWQAKYHRLAALTMVSVCGLMTCVTFVWFSAPDLALTQLVVEVVTTVLILLGLRWLPRRIEDVSPRPNSERRARIRRLRDLLLSGAVGGGMALLSYAMLTRQTPNDISSFYLSRALPEGGGSNVVNVMLVDFRGFDTLGEITVLAAVALAVFALLRRFRPPKESMQLPAQQRLLAPDVVTDLVNPRHASDTALGFMMVPSVLVRLLLPIALVVSFYLFMRGHNQPGGGFVAGLVMSVAFILQYMVAGTQWVEAQMSLRPLRWMGTGLLFASATGLGALAAGYPFLTTHTWHFELPLLGDIHLASALFFDIGVYAVVVGSTLLILTALAHQSVRAHKPGLHAKPVAPLKGANA	PGPT0013830_138	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013830-phaA-K05559	NA	NA
D1-35_04233	345	mnhC1	COG1006	Na(+)/H(+) antiporter subunit C1	ATGGAAGAAGTCATCGCAATCGCAATCGGCGTACTGGCCGCCTCCGGCGTCTGGCTGGTGCTACGGCCGCGGACCTTTCAAGTGGTCATGGGCCTGTGCCTGCTGTCGTATGGCGTCAACCTGTTCATCTTCAGCATGGGCAGCCTGTTCATCGGCAAGGAGCCGATCATCAAGGACGGCGTACCCCAGGACCTGCTGCACTACACCGATCCGTTGCCCCAGGCCCTGGTACTGACCGCCATCGTGATCAGCTTCGCCATGACTGCCTTGTTCCTGGTAGTCCTGCTCGCGTCCCGGGGCCTGACCGGCACCGACCATGTGGACGGCCGGGAGCCGAAGGAATGA	MEEVIAIAIGVLAASGVWLVLRPRTFQVVMGLCLLSYGVNLFIFSMGSLFIGKEPIIKDGVPQDLLHYTDPLPQALVLTAIVISFAMTALFLVVLLASRGLTGTDHVDGREPKE	PGPT0013835_402	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013835-phaC-K05560	NA	NA
D1-35_04234	1686	mrpD	COG0651	Na(+)/H(+) antiporter subunit D	ATGACGTTGACGCCACACTTGATCGCCGCGCCCATCCTGCTTCCGTTGCTGACCGCCGCGGTGATGCTGATGCTCGGCGAGAAGCACCGCCCGCTCAAGGCGCGGATCAATCTGTTCTCCAGCCTGCTGGGCCTGGGCATCGCCGTGCTGTTGTTGCACTGGACCCAGGAGCAGGCGCTGCCCGCTTCCATTGGCGTCTATCTGCCCGGTAACTGGCAGGCGCCGTTCGGCATCGTGCTGGTGGTCGATCGCCTGTCAGCGCTGATGCTGGTGCTGACCGGCATCATCGGCGTCTGCGCGCTGCTGTTCGCCATGGCCCGTTGGGACCGGGCCGGGGCGAGTTTCCATGCGTTGTTCCAGATCCAGCTGATGGGGCTTTATGGGGCCTTCCTCACGGCGGACCTGTTCAATCTGTTCGTATTTTTCGAGGTGCTGCTGGCGGCGTCCTACGGCTTGATGTTGCATGGATCGGGCCGGGCGCGGGTGTCGTCCGGGCTGCACTACATTTCCATCAACCTGCTGGCCTCGTCGCTGTTCCTGATTGGCGCAGCCCTGATCTACGGCGTCACCGGGACCCTGAACATGGCCGACCTGGCCCTGAAGGTGCCCCTCGTGCCGGAAGCCGACCGCGGCCTGCTGCACGCCGGCGCGGCGATCCTTGCGGTGGCGTTCCTGGCCAAGGCCGGCATGTGGCCGCTGAATTTCTGGCTGGTGCCGGCCTACAGTGCAGCCAGTGCGCCGGTGGCGGCACTGTTTGCGATCATGACCAAGGTCGGCGTCTACACCATCCTGCGGCTGTGGACCTTGCTGTTTTCCGGGCAGGCCGGCGCCTCGGCCTATTTTGGCGCTGACTGGCTGGTCTACGGCGGCCTGGCAACTATCGCCTGCGCGGCCATCGCCATCCTCGCGGCCCAGCGCCTGGAGCGCATGGCCAGCCTGAGCATCCTGGTCTCGGCCGGCATCCTGCTCTCAGCCATCGGTTTTGCCCAGCCAAACCTGGTGGGGGCGGCACTGTTTTACCTGGTGAGCTCGACCCTGGCGCTGTGCGCGCTGTTCTTGCTGGCCGAGTTGATCGAGCGTTCACGCTCGGCCAATGATCTGCCGCTGGAAGACGATCTCGACAGCCTGCCGCGCCCACTGGAATCGCTGCAGCCGCCCAAAGGCATCAACCTCGACGACGAACAGAAAGCCGTAGTCGGCCAAGTGATCCCCTGGACCATGGCCTTCCTCGGCCTGAGCTTCATCGCCTGTGCGCTGCTGATTATCGGCATGCCACCGCTTTCGGGCTTCATCGCAAAACTCGGGCTGCTCAACGCGTTGCTCAACCCCCAAGGGCTCGGAGCAAGTACCGACACGCCCGTCTCTGCCGCCGCCTGGGGCCTGTTGGCGCTGTTGATCCTGTCCGGGCTCGCCGCGCTGATCGCCTTCTCGCGCCTGGGCATCCAGCGCTTCTGGACGCCACAGGAGCGGCCGTCGCCACTGTTGCGGCCGTTCGAATGCGTGCCGATCATCGCGCTGCTCGGCCTCGGAATCGCCCTGACCTTCAAGGCCGAGCCGCTGCTGCGCTACACCCAGTCCGCCGCCGACGCGCTGAACACACCTGAACATTATGTGATGGCGGTGCTTGCCACCCGCGCCGTCCCCAACCCACAAGCCGACACCGAAGTGCAGGCGGTGCAACCATGA	MTLTPHLIAAPILLPLLTAAVMLMLGEKHRPLKARINLFSSLLGLGIAVLLLHWTQEQALPASIGVYLPGNWQAPFGIVLVVDRLSALMLVLTGIIGVCALLFAMARWDRAGASFHALFQIQLMGLYGAFLTADLFNLFVFFEVLLAASYGLMLHGSGRARVSSGLHYISINLLASSLFLIGAALIYGVTGTLNMADLALKVPLVPEADRGLLHAGAAILAVAFLAKAGMWPLNFWLVPAYSAASAPVAALFAIMTKVGVYTILRLWTLLFSGQAGASAYFGADWLVYGGLATIACAAIAILAAQRLERMASLSILVSAGILLSAIGFAQPNLVGAALFYLVSSTLALCALFLLAELIERSRSANDLPLEDDLDSLPRPLESLQPPKGINLDDEQKAVVGQVIPWTMAFLGLSFIACALLIIGMPPLSGFIAKLGLLNALLNPQGLGASTDTPVSAAAWGLLALLILSGLAALIAFSRLGIQRFWTPQERPSPLLRPFECVPIIALLGLGIALTFKAEPLLRYTQSAADALNTPEHYVMAVLATRAVPNPQADTEVQAVQP	PGPT0013840_106	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013840-phaD-K05561	NA	NA
D1-35_04235	489			hypothetical protein	ATGAAGCGGCTGTTTCCCGCACCCTGGTTGTCGCTGGCGTTGTGGCTGCTCTGGCTGCTGTTGAACCTGTCCGTCAGCGCCGGCCATCTGCTGCTGGGCGCGGCGCTGGGCTTCCTGGCGCCATTGATGATGCGTCCGCTGCGGCCGCGGCCCATTCGCATCCGCCGGCCCTGGGTCATGCTGCGGCTGTTCCTGCTGGTGGGGCGCGATGTGCTGGTATCCAACCTGGCCGTCGCCTGGGGCGTACTGAATGCCGGACGCCGCCCGCCTCGCTCGCGTTTCGTCAAGGTGCCGCTGGACCTGCACGACGCCAATGGCCTGGCGGTGCTTTCAATGATCACCACGGTGATTCCCGGGACGGTCTGGTCGGAGCTGGCGCTGGACCGCAGCATCCTGTTGATGCACGTGTTCGATCTGGAGGACGAAGGCGCATTCATAGCGCACTTCAAGGCCACCTACGAGCGCCCGTTGATGGAGATTTTCGAATGA	MKRLFPAPWLSLALWLLWLLLNLSVSAGHLLLGAALGFLAPLMMRPLRPRPIRIRRPWVMLRLFLLVGRDVLVSNLAVAWGVLNAGRRPPRSRFVKVPLDLHDANGLAVLSMITTVIPGTVWSELALDRSILLMHVFDLEDEGAFIAHFKATYERPLMEIFE	PGPT0013845_519	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013845-phaE-K05562	NA	NA
D1-35_04236	279			hypothetical protein	ATGAGCCCGTTGCTGTCCAATGCCATCCTGCTGGGCCTGTTCCTGTTCTCCCTGACCATGGTCCTGACCCTGGTGCGCCTGTTCAAAGGCCCCTCGGCGCAGGACCGGGTCCTGGCCCTCGACTACCTGTACATCGTCGCGATGCTGATGATGCTGGTGCTGGGCATCCGTTATGCCAGTGACACCTACTTCGAGGCCGCGCTGCTGATCGCCCTGTTCGGCTTTGTCGGCTCGTTTGCCCTGGCCAAGTTCCTCTTGCGTGGCGAGGTGATCGAATGA	MSPLLSNAILLGLFLFSLTMVLTLVRLFKGPSAQDRVLALDYLYIVAMLMMLVLGIRYASDTYFEAALLIALFGFVGSFALAKFLLRGEVIE	PGPT0013850_242	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013850-phaF-K05563	NA	NA
D1-35_04237	360			hypothetical protein	ATGAATGTCGAGCTGTCGATGTGGGTGGAAATTTCGGTGGCGATCCTGCTGGTGGCCAGCAGCGTGTTCGCCCTGCTCGGGGCAATCGGCCTGGTGCGGTTGAAGGATTATTTCCAGCGCATGCACCCCCCTGCCCTGGCGTCGACGCTGGGTGCCTGGTGCGTTGCCCTTGCCTCGATCATCTACTTTTCCGCGATCAAGTCCGGGCCGGTGCTGCATGCGTGGTTGATACCGATCCTGCTGTCCATCACGGTGCCGGTGACCACCCTGCTGCTGGCCCGGGCGGCATTGTTCCGCAAGCGTATGGCCGGCGATGACGTACCGGCGGAGGTAAGTAGTCGCGGGAATGAGCCCAATTAG	MNVELSMWVEISVAILLVASSVFALLGAIGLVRLKDYFQRMHPPALASTLGAWCVALASIIYFSAIKSGPVLHAWLIPILLSITVPVTTLLLARAALFRKRMAGDDVPAEVSSRGNEPN	PGPT0013855_490	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013855-phaG-K05564	NA	NA
D1-35_04238	438			hypothetical protein	ATGACGCTTTTATTGGCTCGGTCGCTGGTCGCAGTGTTTGCGACCATCAGCTTGTTTCATTTGTATTGGGCCCTGGGTGGGCGCTGGGCAGCCCTGGCGGTGGTACCGCAGGTTCCGGTGAAGCAGGGCGACACGCTGCGACCGGCGTTCAACCCGTCGGGATGGCTGACGCTGCTGGTGGCCCTTGCGCTGTTGATGATTGCGCTGCTGGTGTGCCTGCGGGTCGGGCTGATTTCGCCGCCCGTCACTCATCGCGCCTTGCAATGGCTGATCAGTGCCATTGCCTTGCTGATGTTCGCCCGGGCCATTGGCGAGTCGAACCTGGTGGGCTTCTTCAAGGAGGTCAAGGGCTCGACGTTTGCCCGGCTCGACACCTGGGTCTATTCGCCGTTGTGTGTCGTGCTGGGCGCGGGGTTGCTGACGGTGGCGTGGGCTTGA	MTLLLARSLVAVFATISLFHLYWALGGRWAALAVVPQVPVKQGDTLRPAFNPSGWLTLLVALALLMIALLVCLRVGLISPPVTHRALQWLISAIALLMFARAIGESNLVGFFKEVKGSTFARLDTWVYSPLCVVLGAGLLTVAWA				NA	NA	NA	NA	NA
D1-35_04239	1017			hypothetical protein	ATGAAACGAGTTCGACAGTGGCTGGCTGCGTGCGCCACCACCCTCGCTGTGTTGGTTTCGCCACTTCCGGCATCCGCTGCTGCTTCGGCGCCGATCCACTTTGCCGACCTGAACTGGGAAAGTGGCAGCCTGATCACCGACATCCTGCGGATCATCGTCGAAAAAGGCTACGGGTTATCGACCGACACGTTACCGGGCACCACCATTACCCTGGAAACCGCCCTGGCCAACAACGATATCCAGGTGATCGGTGAAGAGTGGGCGGGGCGCAGCCCGGTGTGGGTCAAGGCCGAGGCCGAGGGCAAGGTGGTTGCCCTGGGCGATACGGTCAAGGGCGCGACCGAAGGTTGGTGGGTGCCGGAATACGTCATCAAGGGCGACCCGGCCAAGGGGATCAAGCCGCTCGCGCCGGACCTGCGCAGCGTCGAGGACCTGGCGCGCTACAAACATGTGTTCAAGGATCCTGAAAGCCCCGACAAGGGGCGCTTCCTCAACAGCCCCATCGGCTGGACGTCCGAAGTCGTCAACAAGCAGAAACTCAAGGCTTATGGTCTTTCCGACAGCTACGTGAATTTCCGCAGCGGTTCCGGGGCCGCGCTTGATGCGGAAATTACTTCTTCGATCCGCCGTGGCAAGCCGATCCTGTTTTACTACTGGTCGCCCACGCCGTTGCTGGGGCGTTTCAAACTGGTGCAACTGCAAGAACCACCATTCGATGCCGAGGCCTGGAAGACTCTGACCGACGCCGACAATCCGAATCCGAAACCGACTCGCTCCCTGGCCTCGAAGCTGTCGATCGGTGTGTCCGTGCCGTTCCAGAAGCAGCATCCGGACATCGCCGAGTTCTTCGGCAAGGTCGACCTGCCCATCGAGCCGCTGAACAAGGCCCTGGCCGACATGAGCGAGAAACGCACGCCGCCCCGCGAAGCCGCCGAGGCGTTCCTCAAGGCCCACCCACAGGTCTGGCAGGCCTGGTTGCCCAAGGACGTCGCCGACAAAGTCGCGGCGGGGCTGTAG	MKRVRQWLAACATTLAVLVSPLPASAAASAPIHFADLNWESGSLITDILRIIVEKGYGLSTDTLPGTTITLETALANNDIQVIGEEWAGRSPVWVKAEAEGKVVALGDTVKGATEGWWVPEYVIKGDPAKGIKPLAPDLRSVEDLARYKHVFKDPESPDKGRFLNSPIGWTSEVVNKQKLKAYGLSDSYVNFRSGSGAALDAEITSSIRRGKPILFYYWSPTPLLGRFKLVQLQEPPFDAEAWKTLTDADNPNPKPTRSLASKLSIGVSVPFQKQHPDIAEFFGKVDLPIEPLNKALADMSEKRTPPREAAEAFLKAHPQVWQAWLPKDVADKVAAGL	PGPT0013640_758	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
D1-35_04240	471			hypothetical protein	TTGGCAGTAAGTAATCTCGACATGCACGCGTTATTTGTACTGGGTGACCTTCGGGCAAAGCTGGTCAAGCAATTCCAGTCACGTTTTGTCTACATCACCGAACAAACCGCCGAGGGCATCTATGTTGCCGAACTCGATACGGAATCGGCGCTGGTGGTTGATGACAAGCCTCGGCTTGAACTCAAGGTCGGTGATCATTTTCGCGCGGCGGTATTGCCAAGTCGCGAGGGTGGCAAGTTTGAAATCCGTTTTCGTGAAATCAAGTTGACGGTCTATGGCCTCGGTGACTATGCCTTCGTCACGACTGCCGATGGCCATGCGATTCTGTTCAAGGAAGGCCACAGCGTGTTGACCGTCTTCGCGGCCCACGAACAGTTGCAGGAAGGTTTGACCAAGACGCTGAAAGCGGTCACCGCCAAGGCCGCCAAATGGCGCAAGGGCGAACTCGTGACGTTCAAGGCCAGCGAATAG	MAVSNLDMHALFVLGDLRAKLVKQFQSRFVYITEQTAEGIYVAELDTESALVVDDKPRLELKVGDHFRAAVLPSREGGKFEIRFREIKLTVYGLGDYAFVTTADGHAILFKEGHSVLTVFAAHEQLQEGLTKTLKAVTAKAAKWRKGELVTFKASE				NA	NA	NA	NA	NA
D1-35_04241	261			hypothetical protein	ATGGGTACTTCCCCAACGTTGCTCCGCCCCCTTGATTCGCGTATTGCCCAAGCATATGAGCGCCCTGGTGCCGAGAACCACCTCGCAACGGCCCTGATCCTGCCGCGATACCGAGTCGTCCTGGCCGGGACGTGTTTTTTCCATATCGAAGAAACGGCGACTGGACGCGTAAGAGGTTTCCGCGCCGATCATAACGAAGCCTGCTACCTGGCCAGGCGCCTCGAACAGAACGCTTGCGTTTTATCCGCACCCCGTCCATGA	MGTSPTLLRPLDSRIAQAYERPGAENHLATALILPRYRVVLAGTCFFHIEETATGRVRGFRADHNEACYLARRLEQNACVLSAPRP				NA	NA	NA	NA	NA
D1-35_04242	231			hypothetical protein	GTGACGGAATTGGATATCGGCGAATTTTTCATCCGGGGCGAAGCCAGAGAGGTCGAAGGCGAGTTCCAGGCCGTCATTGTGATGCGCGCCAAATCACCTTCCAACGCTGTCACTTACCACCAGGTGGAGAAGGATCGCTGGTTCAAGACTACGGAAATTGCTGCCGAAGCCGCCAGGGATGCGGCAAAGGCATTGAAGCTCGCCGTGGATGAAGGTGCGTTGAAAGCTTGA	MTELDIGEFFIRGEAREVEGEFQAVIVMRAKSPSNAVTYHQVEKDRWFKTTEIAAEAARDAAKALKLAVDEGALKA				NA	NA	NA	NA	NA
D1-35_04243	237			hypothetical protein	ATGGAACAACCATCACACGAGCTCAAAACCCTGTTTGATCAATTGGGCCTGCCTTCGGAAGGCAGTGCCATCGACGACTTCATCATGGCACACCCGCTGGATCCGAACACCAAATTGGTCGATGCGCCTTTCTGGTCGGACCAGCAAAGAGACCTGCTGCGCGAATGGCTAGTCGCCGACGGTGAGGAAGCAGTGCTGGTGGATCAACTGAATGTGCGCTTGCACGACGGCAAGTAA	MEQPSHELKTLFDQLGLPSEGSAIDDFIMAHPLDPNTKLVDAPFWSDQQRDLLREWLVADGEEAVLVDQLNVRLHDGK				NA	NA	NA	NA	NA
D1-35_04244	1617			hypothetical protein	ATGGCGACAGACGGATCTCTGGCGGCGGCAGCGTCGGCCTCGGTGCCCGCGGCGGGTGGCACGGCGCGCTGGGTTGCGCCGACCTTGCAAAGCGTCGCGCTGGTTTTGCTGCTTTGCGGCATGACATTGGGCGGTTGGTCGTTGTACCTGGGCCTGCCGCTGGCGCTGCTCATCGTCTGGTTGCCACGTCTGCGCTCGCGCCTGGCCAGTACTCCCGCGCCGGCGGCGAGCGACAGCCTGGCCGAGCTGACCCGCGATCTTTCCTACACCACCAGCCATAACGCTCTGTCGGCGGCGGGGGTGGCCTATTCGGTCAAGCAATTGGCCGGCAAGGTCCAGTCGCAGCTGGGCGCCGCGGCGCAGATCGTCAGCAATGCCGAGGCGATGATCGCGACCGAGCAGGCCACCTCGCAGCTCAGCCAGCAGGCGCTGGGCGCGGCCAGCGAGGCCCATCGCAGCAGTGTCGCCGGGCGCAGCGAACTGGTGGAATCCATCAGCCGCATGCATCAGCTCAGCCAACGCGCCAATGACAGCCGTGAGTTGATCGAAGCGCTGAGCGTGCGCAGCGACGAAATCCAGCGCGTGAGCCTGGTGATTCAATCGATCGCCAGCCAGACCAACCTGTTGGCGCTCAATGCCGCCATCGAAGCGGCCCGGGCCGGTGAGCATGGCCGCGGATTCGCGGTAGTGGCAGACGAGGTCCGCGGCCTGGCCGGGCGCACGGCCGCGGCAACCGGCGAGGTCGGGGTGATGGTGGCGGACATCCAGCAGCGCACTGCGCAGGTGGTTGAACAGATCCGACAACTGGCCGGCGACCTGGACAGCGGCGTGCAGCAGGTCGAGCACACCGGCCAACACCTGGAGAACATTGCCCGGCTCGCGGCCGGTGTCGAAACCCAGGTCAGCGCCATCGCCCAAGGCACCGATACCAACCGCGAGCAGCTCGACAGTCTGTTCCATGCCATCGAGCAGATGCGCAGCGACCTGGCGATCAGCGATCAACAGACCCAGCGCCTGGCCGAGGCGGCCGTACAGATGGAAGGCCAGGCCGAAACCATCAGCGAGCGTTTGGCCGAGGTGGGCCTCGATGATTACCACCAGCGGGTCTATGACCTGGCCCGCGAAGGCGCGAGCCGGATTGCCGCGCAGTTCGAAGCGGATGTCGATCAGGGGCGTATCAGCCTCGAAGACCTGTTCGACCGCAACTACCAGCCCATCCCCAATACCCACCCGGCCAAGTTCCAGACCCGTTTTGACCGCTACACCGATCAGGTACTGCCGGCTATACAGGAACCGCTACTCGCCCGGCATGAAGGCCTGGTGTTTGCGATTGCCTGTACCCAGCAAGGCTATGTGCCGACCCACAACAACGCCTTCTGCCAGCCGCTGACCGGTGATCCTCAGGTGGACACGCTGAGCAACCGCACCAAGCGCAAGTTTTCCGATCGAACCGGGATTCGCTGCGGCAGCCACCAACAGCCGGTGTTGCTGCAAACCTATACGCGTGACACCGGGGAACTGATGCATGACCTGTCGGTGCCGATCATGCTCAAGGGGCGTCACTGGGGAGGATTGCGGTTGGGTTACAAACCCGAGAAGCCGCGCCAGGGGCGTTGA	MATDGSLAAAASASVPAAGGTARWVAPTLQSVALVLLLCGMTLGGWSLYLGLPLALLIVWLPRLRSRLASTPAPAASDSLAELTRDLSYTTSHNALSAAGVAYSVKQLAGKVQSQLGAAAQIVSNAEAMIATEQATSQLSQQALGAASEAHRSSVAGRSELVESISRMHQLSQRANDSRELIEALSVRSDEIQRVSLVIQSIASQTNLLALNAAIEAARAGEHGRGFAVVADEVRGLAGRTAAATGEVGVMVADIQQRTAQVVEQIRQLAGDLDSGVQQVEHTGQHLENIARLAAGVETQVSAIAQGTDTNREQLDSLFHAIEQMRSDLAISDQQTQRLAEAAVQMEGQAETISERLAEVGLDDYHQRVYDLAREGASRIAAQFEADVDQGRISLEDLFDRNYQPIPNTHPAKFQTRFDRYTDQVLPAIQEPLLARHEGLVFAIACTQQGYVPTHNNAFCQPLTGDPQVDTLSNRTKRKFSDRTGIRCGSHQQPVLLQTYTRDTGELMHDLSVPIMLKGRHWGGLRLGYKPEKPRQGR	PGPT0015710_22565	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
D1-35_04245	405	dksA_1	COG1734	RNA polymerase-binding transcription factor DksA	ATGACAAAGGAAAAGTTGCTGGCCATGCCGGCGGATGACTACATGAATGCCGAGCAACTGGCTTACTTCACCAAGCTGTTGCAGAACATGAAGGTCGAAACCCACGAGCGCATCGAACAGAACCGAATCGCCATTGAGAGCCTGGACACCCCGGCCGACCCGGCGGACGCCGCTTCCGTGGAAGAAGAGCGCACCTGGCTGGTCAACGCCATCGATCGCGACCAACGCATGCTGCCGCAACTGGAGCAGGCCCTGGACCGCATCAACGACCAAAGCTTCGGCTGGTGCGACGACAGCGGCGAGCCGATCGGCCTCAAGCGCCTGCTGATCAGCCCGACCACCAAGTACTGCATCGAAGCCCAGGAACGTCACGAACAGATCGACAAGCACCAGCGTCAGGCCTGA	MTKEKLLAMPADDYMNAEQLAYFTKLLQNMKVETHERIEQNRIAIESLDTPADPADAASVEEERTWLVNAIDRDQRMLPQLEQALDRINDQSFGWCDDSGEPIGLKRLLISPTTKYCIEAQERHEQIDKHQRQA	PGPT0014560_2062	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
D1-35_04246	1023	rbsC_2	COG1172	Ribose import permease protein RbsC	ATGAACGCGATACTGGAAAACAAACCCGCGGCCGCACCGGCCAGGACGCGTCGACGGTTGCCGACGGAACTGAGCATTTTCCTGGTGCTGATCGGCATCGGGCTGGTGTTCGAGATGTTCGGCTGGATCATGCGCGACCAGAGCTTCCTGATGAATTCGCAGCGCCTGGTGCTGATGATCCTGCAGGTGTCGATCATCGGCCTGCTGGCCATCGGCGTGACCCAGGTGATCATCACCACTGGCATCGACCTGTCATCCGGCTCGGTACTGGCGCTGTCGGCGATGATTGCCGCCAGCCTGGCCCAGACTTCGGATTTCGCCCGGGCGGTGTTTCCCTCGCTGACCGACTTGCCGGTGTGGATCCCGGTGGTGGCGGGGCTGGGGGTCGGTTTGCTGGCCGGCGCAATCAACGGCAGCATCATCGCCCTTACCGGCATCCCGCCGTTCATCGCCACCCTCGGCATGATGGTCTCGGCGCGAGGCCTGGCGCGGTACTACACTGAAGGCCAGCCGGTGAGCATGCTGTCTGATTCCTATACGGCCATCGGTCATGGCGCGATGCCGGTGATCATCTTCCTGGTGGTGGCGGTGATCTTTCACATTGCCTTGCGCTACACCAAGTACGGCAAATACACCTACGCCATCGGCGGCAACATGCAGGCGGCGCGGACCTCGGGCATCAACGTCAAGCGTCATCTGGTGATCGTCTACAGCATCGCCGGGCTGCTGGCGGGACTCGCCGGCGTGGTGGCTTCGGCGCGTGCGGCGACCGGGCAGGCGGGCATGGGCATGTCCTATGAGCTGGACGCGATTGCCGCGGCGGTGATCGGCGGCACCAGCCTGGCCGGCGGGGTGGGGCGCATCACCGGGACGGTGATCGGCGCGCTGATCCTCGGGGTGATGGCCAGCGGCTTCACCTTTGTCGGTGTCGACGCCTATATCCAAGACATCATCAAGGGGCTGATCATCGTGGTCGCTGTGGTCATCGACCAATACCGCAACAAGCGCAAACTCAAGCGCTAG	MNAILENKPAAAPARTRRRLPTELSIFLVLIGIGLVFEMFGWIMRDQSFLMNSQRLVLMILQVSIIGLLAIGVTQVIITTGIDLSSGSVLALSAMIAASLAQTSDFARAVFPSLTDLPVWIPVVAGLGVGLLAGAINGSIIALTGIPPFIATLGMMVSARGLARYYTEGQPVSMLSDSYTAIGHGAMPVIIFLVVAVIFHIALRYTKYGKYTYAIGGNMQAARTSGINVKRHLVIVYSIAGLLAGLAGVVASARAATGQAGMGMSYELDAIAAAVIGGTSLAGGVGRITGTVIGALILGVMASGFTFVGVDAYIQDIIKGLIIVVAVVIDQYRNKRKLKR	PGPT0016800_202	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_lNOSITOL_TRANSPORT_1,PGPT0016800-rbsC|mglC-K17214	NA	NA
D1-35_04247	1554	rbsA	COG1129	Ribose import ATP-binding protein RbsA	ATGTTCGCATCAGCGACTGCTACGAGCGCCCCGGCGGCGACTTTCCAGCCGGGCGCATTACCTGACGAACCGTACCTGCTGGAAGTCGTCAACGTCAGCAAGGGTTTTCCCGGCGTGGTGGCCCTGTCCGACGTGCAACTGCGGGTGCGCCCCGGCTCGGTGCTGGCCTTGATGGGCGAAAACGGCGCAGGCAAATCCACGCTGATGAAAATCATCGCCGGCATCTACCAGCCGGATGCCGGTGAACTGCGCCTGCGCGGCAAGCCGATCACGTTCGACACCCCGCTGGCGGCCTTGCAGGCCGGGATCGCGATGATCCACCAGGAACTGAACCTGATGCCGCACATGAGCATCGCCGAGAACATCTGGATCGGCCGTGAGCAGCTCAACGGCCTGCACATGATCGACCACGGTGAGATGCACCGCTGCACCGCGCGCTTGCTGGAGCGCCTGCGAATCAAGCTCGACCCCGAGGAGCAGGTGGGCAACCTGAGCATCGCCGAGCGGCAGATGGTGGAGATCGCCAAGGCCGTTTCGTATGACTCGGACATCCTGATCATGGACGAACCGACCTCGGCCATCACCGAGACGGAAGTCGCGCATCTGTTTTCGATCATCGCCGACCTCAAGGCCCAGGGTAAGGGCATCATCTATATCACCCACAAGATGAATGAAGTGTTCGCCATCGCCGATGAGGTGGCGGTGTTCCGTGACGGTGCCTACATCGGTCTGCAACGGGCCGACAGCATGGACGGCGACAGCCTGATCTCGATGATGGTCGGGCGCGAGTTGAGCCAGTTGTTTCCCGAGCGGGACAAGCCCATCGGCGATCAGGTGCTGTCGGTACGCGACCTGAGCCTGGACGGTATATTCAAAGGCGTGTCGTTCGACCTGCATGCTGGCGAGATCCTCGGCATCGCCGGGTTGATGGGCTCGGGCCGGACCAATGTCGCCGAGGCGATCTTTGGCGTGACCCCGGCCACCGGCGGCGAGATCCTGCTGGACGGCGAGCCGGTGCGCATCACTGATCCGCACATGGCGATCGAGAAGGGCTTCGCCCTGTTGACCGAAGACCGCAAGCTCAGCGGCCTGTTTCCCTGCCTGTCGGTGCTGGAAAACATGGAGATGGCGGTGTTGCCCCATTACGTCGGCAACGGCTTCATCCAGCAAAAAGCCCTGCGCGCGCTGTGCGAAGAAATGTGCAAGAAACTGCGGGTCAAGACGCCGTCCCTCGAGCAGTGCATCGACACCTTGTCCGGCGGCAACCAGCAGAAAGCGTTGCTGGCCCGCTGGCTGATGACCAACCCGCGCATCCTGATCCTCGACGAGCCGACCCGCGGTATCGATGTTGGCGCCAAGGCGGAAATCTACCGACTCATTTCCTACCTCGCCAGCGAAGGCATGGCGGTCATCATGATTTCCTCGGAGCTGCCCGAAGTGCTCGGCATGAGCGACCGGGTCATGGTGATGCACGAAGGTGACCTGATGGGCACCCTCGACCGTAGCGAAGCGACCCAGGAACGAGTCATGCAACTGGCGTCGGGCCTGTCCTGA	MFASATATSAPAATFQPGALPDEPYLLEVVNVSKGFPGVVALSDVQLRVRPGSVLALMGENGAGKSTLMKIIAGIYQPDAGELRLRGKPITFDTPLAALQAGIAMIHQELNLMPHMSIAENIWIGREQLNGLHMIDHGEMHRCTARLLERLRIKLDPEEQVGNLSIAERQMVEIAKAVSYDSDILIMDEPTSAITETEVAHLFSIIADLKAQGKGIIYITHKMNEVFAIADEVAVFRDGAYIGLQRADSMDGDSLISMMVGRELSQLFPERDKPIGDQVLSVRDLSLDGIFKGVSFDLHAGEILGIAGLMGSGRTNVAEAIFGVTPATGGEILLDGEPVRITDPHMAIEKGFALLTEDRKLSGLFPCLSVLENMEMAVLPHYVGNGFIQQKALRALCEEMCKKLRVKTPSLEQCIDTLSGGNQQKALLARWLMTNPRILILDEPTRGIDVGAKAEIYRLISYLASEGMAVIMISSELPEVLGMSDRVMVMHEGDLMGTLDRSEATQERVMQLASGLS	PGPT0016795_83	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_lNOSITOL_TRANSPORT_1,PGPT0016795-rbsA|mglA-K17215	NA	NA
D1-35_04248	924	xypA	COG1879	Xylitol-binding protein	ATGAAGACCAAGACCCGTATTGCCTCGCTGGCCCTGTCGTTGATGTTCGCCAGCGGCGTTGCCCTGGCGGACCTGAAGATCGGCGTCAGCATGTCCCAGTTCGATGACACCTGGTTGACCTACCTGCGCGAATCCATGGACAAGAAAGCCAAGTCCCTGCCGGACGGCGTCACCCTGCAATTCGAAGATGCGCGCAGTGACGTGGTCAAGCAGCTCAGCCAGGTGGAAAGCTTCATCAGCCAGAAGGTCGACGCGCTCATCGTCAACCCCGTTGACACCGCCGCGACCCAGCGCATCACCAAGGCCGCGGTGGCCGCGGGCATCCCGCTGGTGTACGTCAACCGCCGCCCGGACGATCTGAAGTTGCCGGAAGGGGTGGTCACCGTGGCCTCCGATGACCTGGAAGCCGGGCGCATGCAGATGCAATACCTGGCCGACAAGATGGGCGGCAAGGGCGACATCGTGATCCTGCTGGGCGACCTGGCCAACAACTCCACCACCAACCGCACCAAGGGCGTCAAGGAAGTGCTGGCCAAGTACCCGGGCATCAAGATCGAACAGGAACAGACCGGCATCTGGTCGCGGGACAAGGGCATGACCCTGGTCAATGACTGGCTGACCCAGGGCCGCGAGTTCCAGGCTGTGGTGTCCAACAACGACGAGATGGCCATCGGCGCCGCCATGGCCCTCAAGCAAGCGGGCACCAAGAAGGGCAGTGTCCTGATAGCTGGAGTCGACGGTACGCCGGACGGCTTGAACGCCATCAAGAAAGGCGACATGGCGGTCTCGGTGTTCCAGGACGCCAAGGGCCAGGCCGATGGCTCCATCGACACGGCGGTGAAAATGGCCAAGGGCGAGAAGATGCAATCCGTCGTGGTGCCGTATCGCCTGATCACGCCGGAGAACGTCGATCAGTTCAAGTGA	MKTKTRIASLALSLMFASGVALADLKIGVSMSQFDDTWLTYLRESMDKKAKSLPDGVTLQFEDARSDVVKQLSQVESFISQKVDALIVNPVDTAATQRITKAAVAAGIPLVYVNRRPDDLKLPEGVVTVASDDLEAGRMQMQYLADKMGGKGDIVILLGDLANNSTTNRTKGVKEVLAKYPGIKIEQEQTGIWSRDKGMTLVNDWLTQGREFQAVVSNNDEMAIGAAMALKQAGTKKGSVLIAGVDGTPDGLNAIKKGDMAVSVFQDAKGQADGSIDTAVKMAKGEKMQSVVVPYRLITPENVDQFK	PGPT0016780_497	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_TRANSPORT,PGPT0016780-rbsB|mocB|mglB-K17213	NA	NA
D1-35_04249	201			hypothetical protein	ATGAACGACGAACTAAACAAAAACAAGAAACACAGCCAGGTACCGTCGATGAAAACCTTCAACCGCTCTGCGTTTCACCTGCCACTGCCCTTGCGCCTGTCCGCAATCCTTCCTTTTTTCGAATCCCTGTGCATCCAGCGCAAGGGCGCCTTGGTGTGCTGCATGCCCGGCGCACCGATCGTGCGTTTGCCGCGTTCCTGA	MNDELNKNKKHSQVPSMKTFNRSAFHLPLPLRLSAILPFFESLCIQRKGALVCCMPGAPIVRLPRS				NA	NA	NA	NA	NA
D1-35_04250	1053	iolW	COG0673	scyllo-inositol 2-dehydrogenase (NADP(+)) IolW	ATGCGAATCGGATTAGTAGGCTACGGCAAGGGCGGGCGTTTTTTCCATGCGCCGCTGATCAGCAGCCTGCCGGGGGCTACTTTCGTCGGCGTGGTAACCCGCTCCGCCGAGCGGCGCCAGCAGTTGGCAAGCGAGCATCCGCAGGCCCAAGCGTTCGACAGCCTTGCGCAACTGGTGGCGGCCGGCGTCGATGCGGTGGTGGTGTCCACGCCGCTGGAAGCGCGTCCGGCGCTGGTACTGGAAGCCATCGAGCACGGCGTGGGGGTGGTCAGCGATAAGCCTTTTGCCCTAGACGCCGCACAGGCCGAAACGATGGTGCTGGCCGCCGAACGGCGCAATGTGCCGTTGAGCGTGTACCAGAACCGGCGCTGGGATTCGGATTTCCTGACCGTGCGCAAGTTGCTCGGATCCGGCGCACTGGGGCAGGTGACTCGCTTTGAATCCAGCGTCGAACGTTACTCACCGACCTCGGTGGGAAAAGGCAGCGGCGGCGGATTCCTGCGGGACCTGGGCAGCCATCTGGTGGACCAGGCATTGCAATTGTTTGGTCCGGTGCTGCGGGTTTACGCCGAGCTGGATTATCGACAGCCGGACCAGGCCTACGACAACGGCTTCTTCATGTCGCTGGCCCACGCCAATGGCGTCGTGTCGCACTTGCGCGGCAGTTGCCTGCAGGACGCGCCGCGCCCACGCTTTCGGGTCAGTGGCAGCGAAGGCTGCTATACCGTCGAAGGCCTCGATGGGCAGGAAGCCCAGGCGTTGGCGGGATTGAGCCCGGCCACCGCAGGCGAGCGCTGGGGCGCCGAGGAGCACCGGCGCTGGGGCTGGTTCGAACACGGTGCCGAGCGCGAGCGCGTGGCCTCGGAACGCGGTTGCTGGCTGGCGTTCTACCAGAGTCTCCAGGCCGCCTTGCAGGGCGACGGGCCGCTGCCGGTCGCCGCTCGCGACGCCTTGGCCACGACCCGTGTCCTGGACGCTGCAAGGCAAAGCGCGGAGCAGGGCAACGTGGTGTATTTATCCACGCCCGTTGGTCATGGAACAAAAAACGAATAA	MRIGLVGYGKGGRFFHAPLISSLPGATFVGVVTRSAERRQQLASEHPQAQAFDSLAQLVAAGVDAVVVSTPLEARPALVLEAIEHGVGVVSDKPFALDAAQAETMVLAAERRNVPLSVYQNRRWDSDFLTVRKLLGSGALGQVTRFESSVERYSPTSVGKGSGGGFLRDLGSHLVDQALQLFGPVLRVYAELDYRQPDQAYDNGFFMSLAHANGVVSHLRGSCLQDAPRPRFRVSGSEGCYTVEGLDGQEAQALAGLSPATAGERWGAEEHRRWGWFEHGAERERVASERGCWLAFYQSLQAALQGDGPLPVAARDALATTRVLDAARQSAEQGNVVYLSTPVGHGTKNE	PGPT0018530_311	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0018530-iolW-K16044	NA	NA
D1-35_04251	660	pqiA_2	COG2995	Intermembrane transport protein PqiA	ATGCCCGATCCGTCAGACATCGATAGGTTGTCAGATCTACCCTTGGACGGTCTGGTGGCGTGTCATGAATGCGACTTGTTGATGCGCAAGCCACAGCTGGCCCACGGCGAAAAAGCCGAATGCCCCCGCTGTGGATACGAACTTTATGCCCACCGACATAACGTGGTCGAACGTAGCCTCGCCCTGGTAGTTGCCGCTTTGCTGTTGTTTGTGCCGGCGAACTTTTTACCCATCATGCAGCTCAATCTGCTCGGACAGTCGTCCCAGGACACCGTCTGGAGTGGCGTGGTCGGGCTGTTCAATACCGGTATGCACGGTGTATCGGTGGTGGTGTTCCTGTGCAGCATGGGGATTCCGCTGCTCAAGTTGCTCTGTCAGCTGATTGTGCTGCTGACCATTCGCTGGAACGTCGGGCGAAGTTACGGCTTGTTGTTGTACCGCACTTACCATCACTTAAGGGATTGGGGGATGCTCGAGGTCTATTTCATGGGCGTGCTGGTTGCCATCGTCAAACTTGCCGACATGGCGGCTATTACCGTGGGCCTGGGCCTGGTGTGTTTTGTCAGCTTGTTGCTGGTTCAGGTCTGGCTGGAAGTGGTGATGTCACCGCATCAGATCTGGCAGGCGCTGTCAGGAGAGGATTCTCATGCGGGCGATTGA	MPDPSDIDRLSDLPLDGLVACHECDLLMRKPQLAHGEKAECPRCGYELYAHRHNVVERSLALVVAALLLFVPANFLPIMQLNLLGQSSQDTVWSGVVGLFNTGMHGVSVVVFLCSMGIPLLKLLCQLIVLLTIRWNVGRSYGLLLYRTYHHLRDWGMLEVYFMGVLVAIVKLADMAAITVGLGLVCFVSLLLVQVWLEVVMSPHQIWQALSGEDSHAGD				NA	NA	NA	NA	NA
D1-35_04252	624	pqiA_3	COG2995	Intermembrane transport protein PqiA	ATGCGGGCGATTGATGCGGGCATTCTGATCTGCGTCGAATGTCACGAGTTGAATCGGCAGGATGCAGGCGCTGACAAACAGACCTGCTCCCGTTGTGGCGCACGCATCCATCCCCGTCGTCCGAACAGCCTCATGCGGACCTGGGCATTATTGATCACGGCCGCGATTCTCTATATTCCGGCCAATATGCTGCCGATCATGACCATCAATTCGCTGGGCCAGGGATCGCCCAGCACCATAATGGCCGGCGTCATCGAGCTGGTTCAGCACGGCATGATCCCTATTGCCGCGGTGGTGTTTGTTGCCAGTATCGTCGTGCCCACTTTCAAGCTGGTGGGGCTCGCCTTGTTGTTGTTTTCGGTGCAACGGCACCAGCCAATGTCCGCGCGTCAGCGCATCCTCATGTATCGCTTCATTGAGTTCATCGGCCGCTGGTCGATGCTGGACATTTTCGTAATCGCAATTCTGGTGGCGGTGGTCAATTTCGGGCGGCTTGCCAGTGTTGAAGCCGGTCTCGGTGCCATCGCCTTTGCCAGCGTAGTGATTTTGACAATGATTGCCGCAGTTACCTTCGATCCCCGACTGATTTGGGATAACACGGAGTCGGATGACGACCATGACTGA	MRAIDAGILICVECHELNRQDAGADKQTCSRCGARIHPRRPNSLMRTWALLITAAILYIPANMLPIMTINSLGQGSPSTIMAGVIELVQHGMIPIAAVVFVASIVVPTFKLVGLALLLFSVQRHQPMSARQRILMYRFIEFIGRWSMLDIFVIAILVAVVNFGRLASVEAGLGAIAFASVVILTMIAAVTFDPRLIWDNTESDDDHD				NA	NA	NA	NA	NA
D1-35_04253	2304	yebT	COG3008	Intermembrane transport protein YebT	ATGACTGATTTGCCTACTGCTAAAACCCGACCGGCTTCGAACTGGTCGGCCATCTGGGTCTTGCCGTTGATTGCCTTGATCATTGGCGGTTGGCTCGGCTGGCGGGCTTATAACGAGACCGGGATCGAGATCAGCGTACGTTTTGAAAGCGGTGAGGGCATTCAGGTCAACAAGACCGAGATCGTCTATAAAGGCATGACGGTGGGCAAGGTAAAGGACCTTACGCTTGATGACGAGGGTAGCTCGAAAGGCGTTATCGCGACCGTCGAAATGAACAAGGACGTCGAGCAATACCTCAAGACCGGCACACGTTTCTGGCTGGTCAAGCCGAGTGTGAGCCTGGCCGGGATCACCGGACTGGAGACGCTGGTATCAGGCAATTACGTGGCCATAAGCCCGGGGGAAGGCGAGTCGACACGCAAGTTCAAGGCCTTGGCCGAAGAGCCGCCGCTATCGGACGCCAAACCAGGTTTGCACCTGACGATCAAGGCTGAGCGCCTGGGTTCCCTGGACCGTGGCAGCCCGGTTTTCTACAAACAGATTCAAGTTGGCCAAGTGAAAAGTTATTCCCTGTCCGAAGATCAGCGCACAGTCGAGGTCAAGGTCTTCATCGAGCCGACCTACGCCAGCCTGGTTCGCAAACACACACGATTCTGGAACGCCAGCGGCATCAGCATCGATGCCAACCTATCGGGCGTCAAAGTACGCAGTGAATCACTGGCCAGTATCGTGGCCGGCGGTATCGCGTTCGCCACGCCGGAAAACCGCAAGGACAGCCCGCCCACGGACCCAAGCCTGCCGTTTCGTCTGTACGAAGACTTCGATGCAGCCGCCGCCGGGATCCGGGTAAAGGTCAAGCTCAGCGATTTCGAAGGGTTACAGGCGGGGCGCACGCCGGTCATGTACAAAGGTATCCAGGTTGGTAGCCTGAAGACGTTGAAGGTCGACCCCGACTTGTCCAGCGCCAGCGCCGAGCTGACCCTTGATCCTTTGGCCGAGGACTACCTGGTGACCGGCACTCAGTTCTGGGTCGTCAAGCCATCGATTTCCCTCGCGGGTATCACCGGCCTCGAAGCGCTGGTCAAGGGTAACTACATCGCCGTGCGCCCGGGCGACAAGGGCGCGGCGCCGCAGCGCGAATTCGAAGCCAGGGCGAAGGCTCCGCCATTGGACCTGCGTTCCCCTGGCCTGCACCTGGTGCTGCTGACTGAGAATCTGGGATCGCTGGAAGTCGGCAGTCCGATTCTCTACAAGCAGGTCAAGGTCGGCTCGGTGCAGAGCTACCAATTCTCCCGCAAGAAAAAACAGTTGATCATCGGTGTGCACATCGAGAAGGAATACGAAGGGCTGGTGAACGGTTCGACGCGATTCTGGAACGCCAGCGGCGTCACCCTCACGGGCGGTCTGACTGGCGGAATACAGGTCAAGAGCGAGTCCCTGCAGAGCCTGATGGCCGGCGGGATCGCCTTCGAGACGCCGGAGCCGAATGTACCGTTGAAAAGACGCATCCCTCGGTTTCGCCTGCATGAAGACCGCGAAGCGGCACAGCAGAACGGCACGGTCGTGACGATCAAGGTCGATCGCGCCGACGGCTTGCGCAGCGGTACGCCGATCCGTTTCAAGGGGCTGGATGTGGGCAAGATCGAGAACGTCGATCTCAGCGCCGACATGCAGTCGGTGCTGGTCACCGCGCGTATCACCGAAGTGCCGGAGCGTATCGCCCGCGTCGGGACCCAGTTCTGGGTGGTCAAGCCAGAGCTGGGGTTGATGAAGACGTCGAACCTGGAAACCCTGGTGACCGGTCAATACATTGAAGTGCAGCCCGCTGTGAAAAGCCAGGGTCCACAGAAAAGCTTTGTTGCGTTGGCCGAACCACCCGAAAGCGCGGTTCCGGAGGCTGGTTTGAGCCTGGTATTGAGTGCGGCGCGCCGTGGTTCGTTGAAGATTGGCGTGCCGGTGACCTATCGCGAGGTGACGGTGGGTAAAGTCACGGGATATGAATTGGGCCAGACGGCGGACCGGGTGCTGGTCCATATCCTGATCGAGCCCAAGTATGCGCCGTTGGTGCGCAGTGGTACTCGCTTCTGGAACAGCAGCGGTTTTGGCCTGGACTTCGGCCTGTTCAAGGGCGCGACGGTGCGGACCGAGTCGTTGGAGACACTGATCCAGGGCGGTATCGCTTTTGCGACACCGGACGGCGAGCGGATGGGCAACCCGGCGCGACCGCAGCAGACGTTCCCGCTGTTCGACAAGTTTGAAGATGAGTGGCTGACCTGGGCGCCGAAGATCGCGCTCGGCAAGTGA	MTDLPTAKTRPASNWSAIWVLPLIALIIGGWLGWRAYNETGIEISVRFESGEGIQVNKTEIVYKGMTVGKVKDLTLDDEGSSKGVIATVEMNKDVEQYLKTGTRFWLVKPSVSLAGITGLETLVSGNYVAISPGEGESTRKFKALAEEPPLSDAKPGLHLTIKAERLGSLDRGSPVFYKQIQVGQVKSYSLSEDQRTVEVKVFIEPTYASLVRKHTRFWNASGISIDANLSGVKVRSESLASIVAGGIAFATPENRKDSPPTDPSLPFRLYEDFDAAAAGIRVKVKLSDFEGLQAGRTPVMYKGIQVGSLKTLKVDPDLSSASAELTLDPLAEDYLVTGTQFWVVKPSISLAGITGLEALVKGNYIAVRPGDKGAAPQREFEARAKAPPLDLRSPGLHLVLLTENLGSLEVGSPILYKQVKVGSVQSYQFSRKKKQLIIGVHIEKEYEGLVNGSTRFWNASGVTLTGGLTGGIQVKSESLQSLMAGGIAFETPEPNVPLKRRIPRFRLHEDREAAQQNGTVVTIKVDRADGLRSGTPIRFKGLDVGKIENVDLSADMQSVLVTARITEVPERIARVGTQFWVVKPELGLMKTSNLETLVTGQYIEVQPAVKSQGPQKSFVALAEPPESAVPEAGLSLVLSAARRGSLKIGVPVTYREVTVGKVTGYELGQTADRVLVHILIEPKYAPLVRSGTRFWNSSGFGLDFGLFKGATVRTESLETLIQGGIAFATPDGERMGNPARPQQTFPLFDKFEDEWLTWAPKIALGK	PGPT0014520_21	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014520-pqiB-K06192	NA	NA
D1-35_04254	2841			hypothetical protein	ATGAGCAAGGAACGCTACGGCATCCGCCGCTTTGCCCTTTTGAACACCGCCGGCTATAGCCTCGGCCTGTTCCCGCTGGAAGAACCGTTATCGGTTTACGGCGCGAACAACCTGGGTAAATCCGCCTCGATCAACGCCCTGCAGTTCCCGATCCTGGCGCGCATGTCGGACATGAGCTTTGGCAAGTACAGCCTGGAGCAATCCCGGCGTTTCTACTTCGCCTCGGACACCAGCTACATCCTCGTGGAAGTTGCCCTGCCCCACGGCCCGCACGTGATTGGCGTGGTCGGTCGCGGCCCTGGCGGCGGTTTCGGCCATCAGTTCTTTGCCTACGCCGGCAAACTGGACCTGGCCCACTATCAGAAAGATGACACCTGCCTGCGCCAGAAAGAGCTGTTCACCAACCTGGAGCGCGAAGGCCTGAAGGCCTACGAACTCAAGCCGGATGAACTGCGTCGTCTGCTGGTCGGCGGACACACCTCGATCCCCCTGGACCTGACGCTGATCCCGCTGCGCTCCACCAGCGAGCAAAGCCTCAAGACCTTCCGCGCGTTGTTCATCAACCTGCTGCACATGCGCGAAATCACCGCCGCCAAGCTCAAGCAACTGTTCCTCGATGCCTTCGAGCACAGCCTGCGCTCCGGCAGCGTGGACTACATAGCCGCGTGCGAAGAAGCCTTCCGCGACGTGCGACGCATGGAACAGGACTACAACTCCCTGGTGGCGGCCGGCCCGTTGGTGGAAGCCTTGGCCAACGGCGTGAAGCAGCGCGATATCCTGCGCGGCAAACTGCATCGCCTGTCGCCATTGCTCGACTCGCTGCTGGGCACCTGGTCGGACTATGCGAGTGCGCGCAAGGAAGAGCTGACCATCCAGGCCGAGCACTACCGCAACGAGCAGGATTCGCTGCAGAACGACCAGCGCGGCGGCACCCAGGAGCTGATGCGCCTGGAGCGTGAAATCAGCGGCATCCAGCGCTGGCTCGGCGAACTGTCGGTGCTCAAGCATCGCTTTGCCCTGGTGGACGACGTCAAGGTCCTGGAGCAGCAGCTTCTCGCCGCCAAAGACGCCCACGACGAACTGGCCGGCGCTCTGGCTCAGTCCCGGCAGTTCAGCGCCGAAGACCTGGAAGAGCGCCTGCGGGATCTGGAAAAACGCCTGAAGTCGGTCAAGCAGCAACTCGATCACGCCGACAACAACAGCTACGCCCGCCTGCGCGAAGAGTTCTCCCAGCAGGACGTCGAGCGCCTGATGCGCCTGTTCAACAGCGCTTTGTTCAGCCTGCCGCTGGGCGAACACGGGATCGCGCTGGACGAGAATGGCGAGTGGGTCAAATCCATGGAGCTGATTCTCGACGGCTTCAGGGGCGAGCGCTTCGAAGTGCCCGGCCTGTCCATCGACCTGTCCCACATCGAACCGCCGGCCCTGCAAGCGCTTGCCGACCGCGCCGCGCTGCGCGATCAGAAAGAGCGTCTGGAAAAAGAGCTCAAGCAGCTCAAGACCCAACAAGCCGTGGCCGCCGACCGTGCCGCGAGCAAGACCCAGACCGAAGCGCTGTACCAGCAGGTCCTGGATGCACAGAAAGCCCTGGAAGACTTCCGCCGCACCCAGACCTTGAGCGCCGAGGAAGGCGAGAAACTCGAGCAACTGGCGCAGATGGAAGCCGCCCAGGACGAACTCAAGCGCTCCAGCGATGCCTTCACCGAGCGGGTCCAGCAATTGTCCGCCAAGTTGCAACTGGTGGGCCGGCAGATCGCCGACATGGAAGCCAAGCAACGCACCCTCGACGATGCCCTGCGCCGTCGCCAGTTGCTGCCGGCGGACCTGCCATTCGGCACGCCGTTCATGGACCCGGTCGACGACTCCATGGACAACCTGTTACCGCTGCTCAACGATTATCAGGACAGTTGGCAGGGCCTGTTACGGGTCGATGGCCAGATCGAAGCGCTGTACGCCCAGGTGCGCCTCAAGGGCGTGGCCAAGTTCGACAGCGAAGACGACATGGAGCGCCGTCTGCAACTGCTGATCAACGCCTATGCCCACCGCACCGATGAAGCCCTGACCCTGGGCAAGGCGCGTCGTGCGGCCGTCACCGACATCGCCCGGACCTTGCGCAACATCCGCAGCGACTACGACAGCCTCGAACACCAGTTGGCGCTGTTCAACCGCGAGATCAACAAGCGCCAGGTGTCCAACCTGCAAAGCTTCCGCATCGTCCTGGCGCCGAACAAGGAAGCGCTCAAGCACATCGACCAGATCATCCACAGCGCCGGCCAGTACGAGGAAGGCGAGACGCTGTCGGTGTTCGACCTGAGCCAGAGCGCCGAGCAGGACAACAAGAACGAAGAAGCCAAGGAATACCTGGCGCGGCTGGTGGCGGCAAACCACAACCAGCTCGGCCTCAAGGACCTGTTCGAACTGGCGTTCGAGATCACCAAGGTCAACGGCCAGCCGGTGATCCACACCGACATCGACGGCGCGGCGTCCAACGGCACCACCATGACCATCAAGGCGCTGACCAACATGTACTTGTTGCTGCACCTGATGGACCGCGAACAGGCTGGTCGCGTGCGCCTGCCGTACTACCTGGACGAAGCGGCGGACATCGACGAAAAGAACCAGGCAGCGCTGCTGGAAACCAGCTTGCAACTGGGCTTCGTGCCGATCCTCGCCAGTGTGAAGCCGCAGGTCTGCGCCAGTGTCGCCATCGACCTGGAAGGCGGCAGCGGCCCGAACGGCATCTACATCGACGAGGCGGACTGGAAGTACATACGTCGTCACGATGCGGTGAAAGCCACGGTGAACGTCCAGGCCGATGAGCCGGAGCTGGATCCGGTCTGA	MSKERYGIRRFALLNTAGYSLGLFPLEEPLSVYGANNLGKSASINALQFPILARMSDMSFGKYSLEQSRRFYFASDTSYILVEVALPHGPHVIGVVGRGPGGGFGHQFFAYAGKLDLAHYQKDDTCLRQKELFTNLEREGLKAYELKPDELRRLLVGGHTSIPLDLTLIPLRSTSEQSLKTFRALFINLLHMREITAAKLKQLFLDAFEHSLRSGSVDYIAACEEAFRDVRRMEQDYNSLVAAGPLVEALANGVKQRDILRGKLHRLSPLLDSLLGTWSDYASARKEELTIQAEHYRNEQDSLQNDQRGGTQELMRLEREISGIQRWLGELSVLKHRFALVDDVKVLEQQLLAAKDAHDELAGALAQSRQFSAEDLEERLRDLEKRLKSVKQQLDHADNNSYARLREEFSQQDVERLMRLFNSALFSLPLGEHGIALDENGEWVKSMELILDGFRGERFEVPGLSIDLSHIEPPALQALADRAALRDQKERLEKELKQLKTQQAVAADRAASKTQTEALYQQVLDAQKALEDFRRTQTLSAEEGEKLEQLAQMEAAQDELKRSSDAFTERVQQLSAKLQLVGRQIADMEAKQRTLDDALRRRQLLPADLPFGTPFMDPVDDSMDNLLPLLNDYQDSWQGLLRVDGQIEALYAQVRLKGVAKFDSEDDMERRLQLLINAYAHRTDEALTLGKARRAAVTDIARTLRNIRSDYDSLEHQLALFNREINKRQVSNLQSFRIVLAPNKEALKHIDQIIHSAGQYEEGETLSVFDLSQSAEQDNKNEEAKEYLARLVAANHNQLGLKDLFELAFEITKVNGQPVIHTDIDGAASNGTTMTIKALTNMYLLLHLMDREQAGRVRLPYYLDEAADIDEKNQAALLETSLQLGFVPILASVKPQVCASVAIDLEGGSGPNGIYIDEADWKYIRRHDAVKATVNVQADEPELDPV				NA	NA	NA	NA	NA
D1-35_04255	702			hypothetical protein	ATGCATCTTGATCTATCCGAACTGTCCCAGCTGGCGCCGATCTTTCGCGAGCTGTTCAAGGGTTACCACGTCAGCCGCCGCGACCCGGAGCTTTACGCGCAACTGTCGAACTTCCAGGACCAGTACCGCACGCTGTTCAAGGCCCTGGGCTTCGAACTGGTGTGCGATACCCGCGGCTTCTATTACTTCGTACCCGACCTGGCCGCCGCCGCGGTGAACAAGACCGCCCAGCGCCTGGCCCTGTTCACCTTCATCCTCGTCGAACACCTGGCCGATCAGGGTCGCGACCCGATCGCCGTGCTCGACGGTGGCAGCCTCGGCCGCGATGAGTTGCCGTCGTTGCTGGAAAAATACCGCGACCTGTTCATCCAGGCCGAAGTACAGACCCAGGAAGAGCTGGAAGAAAAAATCATGCGCCGCATGACCCAGCTGGGTTTTGCCAGCGAAGAAAACGGCGTGTACCGCTTCCTGCCACCGATGCATCGTTTTCTCGACGTCTGCCTGTCGGTCCAGCAGGACCGCGACCTGGCCGCCAGCCTGCACAGCGTGCTGCCGTTGCCGGCGCCGGTACTGATCGACGAAGACAGCGACGAAAAACTGCTGCAGACCGATGACCCGCTGGACCTCAGTGAATTCGACGGTGAAAGTGAAGAAGACGCACTGGCCCGTGCCATTGCCGAAGAACAGGAGACCGACGCATGA	MHLDLSELSQLAPIFRELFKGYHVSRRDPELYAQLSNFQDQYRTLFKALGFELVCDTRGFYYFVPDLAAAAVNKTAQRLALFTFILVEHLADQGRDPIAVLDGGSLGRDELPSLLEKYRDLFIQAEVQTQEELEEKIMRRMTQLGFASEENGVYRFLPPMHRFLDVCLSVQQDRDLAASLHSVLPLPAPVLIDEDSDEKLLQTDDPLDLSEFDGESEEDALARAIAEEQETDA				NA	NA	NA	NA	NA
D1-35_04256	1281			hypothetical protein	ATGATCGAACCCAAGCGCGTCTTGCGCGCCCTTGCTGAACACTGGGCATTGCTGGAACCTTTGTGCGAGCACTTCGACCAGGGCACCCTGAGCCTCAACGAACTGCGTTCACAACTGGCCGCCCAACAACTGGACAGCACGCCCCAGGACATTACCCACCTGCTGGACGTATGGATCCGCCTGGACATCCTCGTGCCGGTGGCGAAAAGCCCCAACCGTTTCGAGCTCAACGCCCAGATCCACGACTTCCTCGCCTACCTTCGCCGCGAACACCGCCTGGGCCTGTGCCTGGAAATCGAAGCCTACCTGCGCCACCTCGAGCGCCTGGCCGGTTACATCCAGGACGCTTTCGAGGTGCGCGACGGCAACGACCTGGCCCGCCAGTTGCGCTTGCTGGACATGCGCGTGCGCGACGTCCTGAAGAAGCTCGCCAACGATGAGCAGGCACTGGTGGCCGTGGCCGAACGGGCCAAGACCAGCGATCGACAAATTCCGCTGCGCCAGCGCTACGCCGAAGTACTGGCGACCTGGGACGAATACGTCGAACCGATGATCCAGCTGGTGAACGCCGACGGCGCCTTCGAGCAAGGCGTGCGCAAGGTCGAGAACGTGCTGTTGCGCATGCTCACCGAACAACAGCGCCTCGGCCACCTCGTCGACGACGACATGCTGCTGCGTACCCACGCACGCATCCTCGAAATGCAGACCAGCGCCCAATTGACCCTGCGCCACGCCCGGGAACTGCTCCTGCCGCTGCGTGAAGAGGCCCGCCGGCATAACGCCGTGACCCGTGGCGCGGCGCTGGCCCTGGCGGCCATTCGCCGCAAGGGCATCGATGCCGTGCCGCAAGCCGCCATGCCGCTGTTCACCCGGCCGCAAAGTACGTTTTTGGGCAGTGCCAGCCAGGTCGAAGCCTATGTCTATGCCCTGGCCCGTTTCGAGCCCAAACCGGCGCGCTTTCCCAAGTCCCACAAGACCCACAAGGGCGGTGAGGCACCACGGGCGCCGCGCACCGTACGCGAGATGGTCGAGCGTTGCGAAGACGCCCTGCCGATGCCGGACCTGATGAGCTGGCTGCTGGAGCAGGAACCGGACGGCGCCACCGACGAATTGCTGTACTGGTTCTCGCGCCTGTCGCGGGAAAAACGATTCAAGCGCGAGCGTCTGGAACGCCGCGATTATCACACCCACGAGCATCAGGTCAGCCTGCGCTCCTTCGCCCTGCTCTCGGCCGGCGACACCGCCGCCGAGGATTCTGCGAGCATCCCCCATGCATCTTGA	MIEPKRVLRALAEHWALLEPLCEHFDQGTLSLNELRSQLAAQQLDSTPQDITHLLDVWIRLDILVPVAKSPNRFELNAQIHDFLAYLRREHRLGLCLEIEAYLRHLERLAGYIQDAFEVRDGNDLARQLRLLDMRVRDVLKKLANDEQALVAVAERAKTSDRQIPLRQRYAEVLATWDEYVEPMIQLVNADGAFEQGVRKVENVLLRMLTEQQRLGHLVDDDMLLRTHARILEMQTSAQLTLRHARELLLPLREEARRHNAVTRGAALALAAIRRKGIDAVPQAAMPLFTRPQSTFLGSASQVEAYVYALARFEPKPARFPKSHKTHKGGEAPRAPRTVREMVERCEDALPMPDLMSWLLEQEPDGATDELLYWFSRLSREKRFKRERLERRDYHTHEHQVSLRSFALLSAGDTAAEDSASIPHAS				NA	NA	NA	NA	NA
D1-35_04257	786			hypothetical protein	TTGCTTATCGAGTCCCGCCGCCGCGCCTATCTGACCGCCATGCAGGTGGTCAACTGGCTGCCGCGTACCGAATTGCCATTTGCCGCCCCGTCGCGGCCCGAGCTGCTGGAAGCGCCTGAGCCGATGGAGGTCGCGCCGCCCCAGGCCGCGCCCGTCGCCAAGACCGTTGCCGAACCGTTGGCGCCCGCTGTCGAACGGCCGAAAGTCGAAGTCCCGCGTCCGAGCCTGGCCTCGACCCGGACCAACGCCAAACCGGTGGAAGAGGTCGACGAAGCGCCGGCCCCGGTGAAGGTTGCACAGGTGCCGCCGCCACGTTTCGCCCTGCAACTGCTGCGAGCCGGGCGTTGCCTGCTGCTGGTGGAGTTACCCACCGGCGAACCCTTCCAGAGCCGCGATCCAGCCTATTTGCTGCTCAAGGACATGCTGCGTGCCGCCGGCCTGCCGGACAGCCCGCAAATCATCGGCGAGCCGGTGCGCTGGCCATTGTTGTCGCGCGGCACGATGGACCAGGGGCCGGAGGCGGCGCGGGATTTTGTCCAGGGATTTGTTTCGGCGCGTCTGGAAGATGAACCGTGCGTGTGTCTGTGGCTGATCGGCCTGCCGGCAGTGAGGTTCGCCGGCGAGGCGGATGCCGAAGCGTTCAACCGTGAATTGCAGGTCGAAGGCCTGGGCTCGGCGTGGGCGTTGCCTGGACTGGAATCGTTAATGGAAACGCCACGGCACAAGGCTGACGTCTGGCAAGCCATGCGCCGGCTGATGGCGCGCTGGAAAGAATCGAATGAGTGA	MLIESRRRAYLTAMQVVNWLPRTELPFAAPSRPELLEAPEPMEVAPPQAAPVAKTVAEPLAPAVERPKVEVPRPSLASTRTNAKPVEEVDEAPAPVKVAQVPPPRFALQLLRAGRCLLLVELPTGEPFQSRDPAYLLLKDMLRAAGLPDSPQIIGEPVRWPLLSRGTMDQGPEAARDFVQGFVSARLEDEPCVCLWLIGLPAVRFAGEADAEAFNRELQVEGLGSAWALPGLESLMETPRHKADVWQAMRRLMARWKESNE				NA	NA	NA	NA	NA
D1-35_04258	453	rimI	COG0456	[Ribosomal protein S18]-alanine N-acetyltransferase	ATGAGTGACGCTGTATCGTTCCGCCCGATGACCGAGGCGGACCTCGACGCTGTACTGAAGATCGAATACGCGGCCTACAGCCATCCCTGGACCCGCGGGATATTTCTCGACGGGCTGGGCAAATACCAGATCTGGCTGATGTTCGAAGGCCAGCAGCAAGTCGGCCATGGCGTGGTGCAGATCATCCTCGATGAAGCGCACCTGCTCAATATCACCGTCAAGCCGGAAAATCAGGGGCGCGGCCTGGGTTTGCGGCTCTTGGAACACTTGATGTCGATTGCCTACAAGGCGGAGGCACGCGAATGCTTCCTGGAAGTGCGCGACAGCAATCGCACGGCGTTCCGGTTGTATGAGCGTTACGGTTTCAACGAGATTGGCCGGCGGCGGGATTACTACCCGGCGGTGGGCGGGCGTGAAGATGCGGTGGTCATGGCCTGTACCTTGGTGGACTGA	MSDAVSFRPMTEADLDAVLKIEYAAYSHPWTRGIFLDGLGKYQIWLMFEGQQQVGHGVVQIILDEAHLLNITVKPENQGRGLGLRLLEHLMSIAYKAEARECFLEVRDSNRTAFRLYERYGFNEIGRRRDYYPAVGGREDAVVMACTLVD				NA	NA	NA	NA	NA
D1-35_04259	405			hypothetical protein	ATGAATGATTCACGACGTCCCTACGATGCGGTGCAACCGGAACCCATCGACGACAACGAAGACCGCATGGGCTCGATGCGTGAGCTGGAATTCGATGACGATGAATACGAGGCCAGGATCGGCGACGAGCTGCCCGAAAACGAACGCGAACAACTGATACCGGACGAACGTGTGCGTGAAGCAGGCATGACGGGGGCCTCGATGGATGACCGTCAGCCGACCGACGATGATCTGAGCCCCGAGACCCTGATCCGTGATGATGGCGCCAGGGACGCCCTGGAGGCCGGTGAAGGTGAACAGGCCGATTGGGACCTGAGCGTCGTGGATGAAAATGATATCGGCGGCGGCGACGGCCTGGACGAAGCGGAAATGGCTGATATCGACCCGTTGGATGGCAAGCGCTGA	MNDSRRPYDAVQPEPIDDNEDRMGSMRELEFDDDEYEARIGDELPENEREQLIPDERVREAGMTGASMDDRQPTDDDLSPETLIRDDGARDALEAGEGEQADWDLSVVDENDIGGGDGLDEAEMADIDPLDGKR				NA	NA	NA	NA	NA
D1-35_04260	645	can	COG0288	Carbonic anhydrase 2	ATGAATGAATTACAAGATCTGATTGATAACAACGCGCGCTGGGCCGATGCGATCAAGCAGGAGGATCCTGACTTCTTCGCCAAGCTGGCTCGTCAGCAAACCCCCGAATACCTGTGGATCGGCTGCTCCGACGCGCGAGTGCCGGCCAACGAAATCGTCGGCATGTTGCCAGGTGATCTGTTTGTGCACCGTAACGTGGCCAACGTGGTGTTGCACACCGACCTGAACTGCCTTTCGGTGATCCAGTACGCGGTGGACGTGCTCAAGGTCAAGCACATCCTGGTCACCGGCCATTACGGCTGCGGCGGCGTGCGTGCCTCGATGCAGGACCGCCAGCTCGGCCTGATCGACGGCTGGCTGCGCTCGATTCGCGACTTGTACTACGAGCACCGCGAAGCGTTGGCCAAATTGCCGACCGAAGAGGAACGGGTCGACCGCCTGTGTGAACTCAACGTGATCCAGCAGGTGGCGAACGTCGGTCACACCAGCATCGTCCAGAATGCCTGGCACCGCGGGCAGAAACTGTCCATTCATGGTTGCATCTATGGGATCAAGGACGGGCGCTGGAAAAGCCTGGACACCACGATCAGCGGTTTCGAGCAGTTGCCACCGCAGTATCGCTTGCGTCCTGTAGACGCGCCCTGA	MNELQDLIDNNARWADAIKQEDPDFFAKLARQQTPEYLWIGCSDARVPANEIVGMLPGDLFVHRNVANVVLHTDLNCLSVIQYAVDVLKVKHILVTGHYGCGGVRASMQDRQLGLIDGWLRSIRDLYYEHREALAKLPTEEERVDRLCELNVIQQVANVGHTSIVQNAWHRGQKLSIHGCIYGIKDGRWKSLDTTISGFEQLPPQYRLRPVDAP	PGPT0002415_4369	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
D1-35_04261	1161			hypothetical protein	ATGTCCAAACTCGCCGTATTCTCTCTCGCCGCCCTGGCCTTCAGTGCCGCCGCCCATGCCGCCGACATCGATGTACAACTGGGCAGTACCGAACGTGTCACCCGTCTCTTCGCCTACCCTAACAACTGCAACGTCATCTGTTTTCGCAACTGGACGCTGGAGCAGACCGTCGAGCATTACCTGACCCAAAGCGTACAGCGCGACGGCTACGGCGCGGCCAAGGTCAGCGTCAAACGCGATAACGACATCGTCTACGCGAACATCAGCGGGGTGCCGAAAAGCTACGGCCAACCGCTGGCCGCGCTGCTCAACGCCGGAGACCTGGCGTACAACGGCGCGACGAAACTCAACAATGACAAAAAGTGGGCCTACAACTGGTACCTGTTCCTGCCCTTGGGCATGGCCCTGGAAAACCGCAAGAGCGTCGAGTTGCTGCACTTCCCGCCGGATTACTCGCTGACCCAGGCCCAGGATTACCTCGAATCGGCCACTACCGACCGCTGGGCCACGCTGCTGACCGCCAATGGCATTGCCGCCGACCAGACGCCGGCCTACCAGACGATCATCGACATCGCGCCGATCGCCGCCCCGTCCAACGCCGGCCAGGCACTGGAAGGCGTCTACGATTATTTTAACGACTACCAGACCACCATGGTCAAGCAGGTCAGCCAGAACGCAAGCGGCAATGCACTGCCGATGGTGGCCTTCGGCGCTCCGGTTCGGAACTGGATCAAGACCCAATACGGCCCGACCGTGAATGTGCTCGGCCTGGCGACCATCACACCGACAGAAGGCGTCAAGGTTCCGGTACTCGGCTCCAATCACCCCAGCTATATCTGGTACGCCGCCGACCCTGAAAGCTATGACGGTGACCAGGCCAAGGCAGATGCCGCGGGCTTGAAAGTCATGGGACAGGACCTGAGCGCCGCATGCTGGCAAGCCGGGATGGGCAGCAAGCCCGATACCGATCCGACCCAGCAACTGAGCCAATGCACGCAGACCTGGCAGGTTACCCAGAAAGAGAAGACCTGCGAGTTGTTCTATACCTCGATTCGCAAACTGACGCCGGCCGAAGCGGCGACAAAATGCGCGGCGCCGGCGATCAAGTCGCAACTTCAGCAATTGAAGGTGCCTATGCCGCTGCCAGCTGAATCAGTCTGA	MSKLAVFSLAALAFSAAAHAADIDVQLGSTERVTRLFAYPNNCNVICFRNWTLEQTVEHYLTQSVQRDGYGAAKVSVKRDNDIVYANISGVPKSYGQPLAALLNAGDLAYNGATKLNNDKKWAYNWYLFLPLGMALENRKSVELLHFPPDYSLTQAQDYLESATTDRWATLLTANGIAADQTPAYQTIIDIAPIAAPSNAGQALEGVYDYFNDYQTTMVKQVSQNASGNALPMVAFGAPVRNWIKTQYGPTVNVLGLATITPTEGVKVPVLGSNHPSYIWYAADPESYDGDQAKADAAGLKVMGQDLSAACWQAGMGSKPDTDPTQQLSQCTQTWQVTQKEKTCELFYTSIRKLTPAEAATKCAAPAIKSQLQQLKVPMPLPAESV				NA	NA	NA	NA	NA
D1-35_04262	1419	atoE	COG2031	Putative short-chain fatty acid transporter	GTGACCACTGACATTGAAGACAGCCGCTCCGCCCGCTTCGCATTGCGCTGCTCCAGTTTCGCCGAGCGCTGGTTTCCCGACTCCTGGGTCTTCGCCGCGCTGGCGGTGCTGGTGGTCGCAATCGCCACGCAGTTCATCGGCGCTACGCCCACGGCAGCGGCGATGGCGTTTGGCGATGGCTTCTGGAGCCTGATTCCGTTCACGATGCAAATGGCCTTCGTGGTGATTGGCGGTTACGTGGTCGCCAGTTCGCCGCCCGCCGTCAAGCTGATCGATCGCCTGGCACGGATTCCAAAAAACGGCCGCAGTGCGGTAGCTTGGGTGGCCTTGATTTCCATGGTCGCATCGCTGCTCAACTGGGGCCTGTCGCTGGTGTTCGGCGGCCTGCTGGTGCGGGCACTCGCCCGGCGCAGCGACTTGAAAATGGATTATCGCGCCGCCGGTGCCGCCGCCTATCTGGGCCTGGGCGCGGTGTGGGCGCTGGGATTGTCTTCGTCGGCCGCGCAACTGCAGGCCAACCCGGCCAGCCTGCCGCCATCGATCCTGTCCATCACGGGCGTCATTCCGTTCACCCAGACCATTTTCCTCTGGCAGTCCGGGGTGATGTTGCTGGCGCTGATCGTGATTTCGCTGATCGTCGCCTACGCCACCGCTCCAGGGCCCAACAGCGCCCGTGATGCCGCCGCCTGCGGGATCGATCCGAGCTTCAGCATGCCGGCATTGCAGCCTCGCACCCGTCCGGGAGAATGGCTGGAACACAGCCCGCTGTTGACCATCGCCCTGGTGCTGCTGGCTGCCGGCTGGCTGTTCCACGAGTTTTCGACCAAGCCTGCGATCAGTGCCATTTCCGGGCTGAACACCTACAACTTCCTGTTCATCATGCTCGGCGCATTGTTGCACTGGCGCCCGCGCAGCTTCCTCGACGCCGTGGCCCGCGCGGTGCCGACCACAACCGGGGTGTTGATCCAGTTTCCGCTGTACGGTTCGATCGCCGCGCTGCTGACCACGGTCAAGGGCAGCGACGCGCAGACGCTGGCCCACCATATCTCGACCTTTTTCGTACAGATCGCGTCGCATGACACCTACGCCTTGTTGATGGGCGTCTATTCGGCGGTGCTGGGCTTCTTCATTCCCTCGGGCGGGGGCAAGTGGATCATCGAAGCGCCCTACGTCATGCAGGTGGCCAATGACCTGAACTATCACCTGGGCTGGGCGGTGCAGATCTATAACGCCGCCGAGGCGCTGCCGAACCTGATCAATCCGTTCTACATGCTGCCGCTGCTGGGTGTCCTGGGGCTGAAGGCCAGGGATCTGATCGGTTTTTCGTTTGTACAGTTGCTGGTGCACACCCCTCTGGTGCTGGTACTGCTCTGGGCGCTGGGGACCACGCTGACCTATTTGCCGCCCGTGATGCCATAA	MTTDIEDSRSARFALRCSSFAERWFPDSWVFAALAVLVVAIATQFIGATPTAAAMAFGDGFWSLIPFTMQMAFVVIGGYVVASSPPAVKLIDRLARIPKNGRSAVAWVALISMVASLLNWGLSLVFGGLLVRALARRSDLKMDYRAAGAAAYLGLGAVWALGLSSSAAQLQANPASLPPSILSITGVIPFTQTIFLWQSGVMLLALIVISLIVAYATAPGPNSARDAAACGIDPSFSMPALQPRTRPGEWLEHSPLLTIALVLLAAGWLFHEFSTKPAISAISGLNTYNFLFIMLGALLHWRPRSFLDAVARAVPTTTGVLIQFPLYGSIAALLTTVKGSDAQTLAHHISTFFVQIASHDTYALLMGVYSAVLGFFIPSGGGKWIIEAPYVMQVANDLNYHLGWAVQIYNAAEALPNLINPFYMLPLLGVLGLKARDLIGFSFVQLLVHTPLVLVLLWALGTTLTYLPPVMP	PGPT0021760_208	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021760-atoE-K02106	NA	NA
D1-35_04263	1317	bdlA_2	COG0840	Biofilm dispersion protein BdlA	ATGTTCAACACCCGCCTCAAGCAGGAGCTGCTGGCTCTTCGCCAAGAACTCTCGAGCATCATGCAAGTCAAGGAAAGCCTGGATCGAGAGATGCTGGCGCTGACCCTCGATGCCGAAGGACGGGTGCAATCGGTCAATCAGAACTTTCTCGATGAGATGCACTACAAGAGCCAAGACTTGATTGGCCGCGCTGTCGAGGACCTGGTGCCGGCCTACCTGAGGTCCAACGAATTCCAGATTCGTTTCAAGACCGCGCTGACCCGCGGTGAGCACTTCTCCGGTGCCGTTCGCCTGGTACGAGGCAACGGCGACGAGGCCTGGCTACGCTCGATCCTCCAGCCGGTACGGGATGCCAATGGGCGAATCCGCTATTTCTCGATGTACTCCAGTGACCTGACCCGCACCATCGAAAATTCCCGCGAGCATGAAAACCTGATCGGCGCCCTGGTGCGTTCGACAGCGGTGATCGAGTTCGACCTGGGCGGCCACGTCCTGACAGCGAACGATCGTTTTCTCAATGCCATGGGCTACAACCTTGCGCAGATCAAGGGCAAGCACCACCGCACGTTTTGCGAGCCCGAGGAGTACAACAGCGCGGCCTACCAGAACTTCTGGAAACGCCTGAACAACGGGGAGTTCGTCGCCGGCCGCTTCAAGCGCCTCGACAGCAATGGCCGTGAGGTGTGGCTGGAGGCTTCCTACAATCCGGTACTTGACGCCAACGAGCGCCTTTACAAAGTGGTCAAGTTCGCGACCAATATCACCGATCAGGTCAACCAGGAAAAAGCCGTCGCCGAAGCCGCCAGCATCGCCTACAGCACGTCATTGCAGACCGATAGCAGCGCCCAGCGCGGAACCACCGTCGTGACCCAGGCGGTGGACGTGATGCGTGACCTGGCCCGACACATGCAAACCGCCGGTCAAGGTATCGAGGCCCTGAACGAGCAATCCCTGGTCATCGGGACCATCGTCAAGACCATCAGCGGCATCGCCGAACAGACCAACCTGCTGGCGCTCAACGCGGCCATCGAGGCTGCTCGGGCCGGTGAGCAGGGACGCGGTTTCGCAGTGGTCGCCGATGAGGTCCGGCAACTGGCTTCGCGAACCAGCCAGGCGACCGACGAGATCATTGGCGTGGTCCGCCAGAACCAGGACATGGCCCGCAATGCCGTGGCGCTGATGACCGATGGCCAGCATCAGGCTGAACAGGGCCTGGCCCTGGCAGCCGAGGCGGGAACGGTCATCGTCGAGATCCAGGACGGGGCGAAAAAGGTGGTGGATGCGGTGAGCCAGTTCGCCAATCAGCTGTCGACTTGA	MFNTRLKQELLALRQELSSIMQVKESLDREMLALTLDAEGRVQSVNQNFLDEMHYKSQDLIGRAVEDLVPAYLRSNEFQIRFKTALTRGEHFSGAVRLVRGNGDEAWLRSILQPVRDANGRIRYFSMYSSDLTRTIENSREHENLIGALVRSTAVIEFDLGGHVLTANDRFLNAMGYNLAQIKGKHHRTFCEPEEYNSAAYQNFWKRLNNGEFVAGRFKRLDSNGREVWLEASYNPVLDANERLYKVVKFATNITDQVNQEKAVAEAASIAYSTSLQTDSSAQRGTTVVTQAVDVMRDLARHMQTAGQGIEALNEQSLVIGTIVKTISGIAEQTNLLALNAAIEAARAGEQGRGFAVVADEVRQLASRTSQATDEIIGVVRQNQDMARNAVALMTDGQHQAEQGLALAAEAGTVIVEIQDGAKKVVDAVSQFANQLST	PGPT0015710_26706	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
D1-35_04264	1845	ggt_2	COG0405	Glutathione hydrolase proenzyme	GTGCTTTCAGACCTCAAACCGAATCTTCATCGCCTGTCAGCCGTTTCGCTGCTGGCCGTCGCCCTGACACTTGTTGCCTGTAAGACGCCGCCCGCCTCCACGACTGCCCCGCAATTGCCCACCGCTCCGGAAATCGCTTCCGGCTACCGCACCGACCTGCAGACTCGCCACGCCGACCGGCACATGGCCGCTGCGGCCAATCCTCTGGCGGCCGAGGCCGGACGGGAAATGCTCCGGCGTGGAGGCTCGGCCATCGACGCGGCGATTGCGATGCAGGCAGTGCTGACGCTGGTGGAACCGCAGTCTTCCGGCATCGGTGGTGGCGCGTTCATTGTGCTGTGGGACGGCAAGGCGGTGCGCACCTACGACGGTCGCGAAACGGCACCGGCCGGCGCCAGCGAAAAACTCTTCATCCAGGCCGACGGCAAACCCATGCCGTTCACCGCCGCGCAGATTGGCGGCCGTTCGGTAGGCACGCCTGGCGTGTTGCGCGCGCTGGAACTGGCTCATCGCAAACACGGTCGCCTGGAATGGTCGACGCTGTTCGAGCCGGCCATCAAACTGGCGGAACAGGGCTTCAGGATTTCCCCCCGGCTGCACTCGATGATCGCCGCCGATACAGCCTTGCCCAGCTCGCCCGAGATGGCCGCCTATTTCCTCAACGCCGATGGCAGCCCGAAAGCGGTGGGCACGCTGCTGAAAAATCCTGCCTTGGCCGGCGTACTTTCGCGTATTGCCCACGAAGGTCCCAGCGCGTTGTATGAAGGGCCGGTGGCTGCGGAGATCGTCGCCAAGGTGCAAGGCCATGGCAATCCCGGCAGCCTTTCGCTGAGCGACCTCAAGGGTTACGCCGCCCGGGAACGCGCGCCGTTGTGCACCGACTACAAGCGCTGGCAAGTCTGTGGCATGGCGCCACCGTCGTCCGGCGGGATCGCCGTCGCGCAGATCCTCGGGACATTGCAGGCCCTGGAACATCGCGACAGCCGCTCGGCCCTCGCGCCGTTGAAACCGCTACCGTCAGACAAGCCCGCGGGTCTCGAGCCGGCGCCGCAAGCGGTGCACCTGATTTCCGAGGCTGAACGCCTGGCCTACGCCGACCGCGCCCAGTATGTCGCCGATGCGGACTTTGTCCCGGTGCCGCTCAAGGGCCTGGTCGATCCGGCTTATCTGGCCAGTCGCGCGAACCTGATCGGCCCACGCAGCATGGGTATTGCCAAGCCCGGCACACCGCCGGGTATCCAGGTGGCCTACGCACCGGACCGCTCGCCCCTGCGCATTTCCACCTCGCAAGTGGTGGCGGTGGATGACCAGGGTGGCGCCGTGTCGATGACCACCACGGTGGAGTCGGCCTTCGGTTCGCACTTGATGGTGCAGGGCTTCATGCTCAACAACCAGATGACCGATTTCTCGTTCATACCCGAAGAGAACGGACAGAAAGTCGCCAACCGCGTCGAACCCGGCAAACGTCCGCGATCGTCCATGGCGCCAACGCTGATCTTCGATCGCCAGAGTGGCGAATTCCTCGCCGCAATTGGTTCGCCGGGCGGATCGCAGATCATCGAATACGTCGCCAAGTCGGTGATCGGCCTGCTGGACTGGAACCTGGACCCGCAAGCCGCCATCAACCTGCCCAACTTCGGCAGCCGCAACGGCGCCACCGAACTGGAGCAGGGCCAGTTCAGCCCGACGCTGATCCAGGCGCTGAAAGACCAGGGCCACACGGTGAGCGAGATCGACATGACCAGCGGCACCCAGGCCATCGTTCGGGTGCGCAATGCGCAAGGCAAGGCTTCACTGGCTGGCGGGGCGGATCCGCGGCGTGAGGGAGAGGCGCTGGGGGATTGA	MLSDLKPNLHRLSAVSLLAVALTLVACKTPPASTTAPQLPTAPEIASGYRTDLQTRHADRHMAAAANPLAAEAGREMLRRGGSAIDAAIAMQAVLTLVEPQSSGIGGGAFIVLWDGKAVRTYDGRETAPAGASEKLFIQADGKPMPFTAAQIGGRSVGTPGVLRALELAHRKHGRLEWSTLFEPAIKLAEQGFRISPRLHSMIAADTALPSSPEMAAYFLNADGSPKAVGTLLKNPALAGVLSRIAHEGPSALYEGPVAAEIVAKVQGHGNPGSLSLSDLKGYAARERAPLCTDYKRWQVCGMAPPSSGGIAVAQILGTLQALEHRDSRSALAPLKPLPSDKPAGLEPAPQAVHLISEAERLAYADRAQYVADADFVPVPLKGLVDPAYLASRANLIGPRSMGIAKPGTPPGIQVAYAPDRSPLRISTSQVVAVDDQGGAVSMTTTVESAFGSHLMVQGFMLNNQMTDFSFIPEENGQKVANRVEPGKRPRSSMAPTLIFDRQSGEFLAAIGSPGGSQIIEYVAKSVIGLLDWNLDPQAAINLPNFGSRNGATELEQGQFSPTLIQALKDQGHTVSEIDMTSGTQAIVRVRNAQGKASLAGGADPRREGEALGD	PGPT0002935_713	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002935-ggt-K00681	NA	NA
D1-35_04265	801			hypothetical protein	ATGACACTTTCGCTGGATGACATCGCGTGGCACCGCTCGGTCGGGCAACTGATCGACGCCTTGGACAAGCCCAATTTCTGGACGCAGCTGGTACGGCTGCTGGATCAGTACGTGCCCTTTGACAGTTGGGTGGCGCTGCTTTTCAGTGCCGACCAGCGCCCACAAGTGTTCGCCGAGTGCCCGGGCGCGGACGGCAGCCCCGATCAGTTGTTCCAGGATTACCTGCGCGGTTTGTATCTGCTCGATCCGTTCTACATCGCCTGTCGCGAGCAGTCGCGCACCGGGCTGTATCGCCTCTCGGAAGTCGCACCGGAACATTTCGAGCTGACCGAGTATTACCAACGCTACTTTCGGCTGAACGTGGTATCCGATGAAATCCAGTTCAATTGCCAGCTCGAAGGCGACCGCACGCTGTGCCTGTCGTTGGGCAGCAAGCAGCGCTTCAGTGGCGAGCAGATTGCGCTGCTGTCACTGATCCAGCCCTGGGTACTCGGCCTGTTGCGCCAGCGTCTGCCTTATGAAATCAATGAGGTCGTGGCCCTCGCGCCAGCACCGTCGCAAGTCGACTGGCGAGTGCAGCTGGAAGCGTCAGTGCAGCAGCTCAAAGGCGCGCAATTGACGGCGCGGGAATTGGATGTCGGGCGCTTGATGCTCAGTGGCTGCTCCAGCAAGGAAGTCGCCCGCAAGCTGGAAATTTCTGTCGAGACCGTGAAAGTCCATAAGAAGCACATGTACAGCAAACTGGGGATCAAGTCCCAGTCCGAGCTGTTTTCCATTTTTCTCCAGGCGCAGAATGCCTGA	MTLSLDDIAWHRSVGQLIDALDKPNFWTQLVRLLDQYVPFDSWVALLFSADQRPQVFAECPGADGSPDQLFQDYLRGLYLLDPFYIACREQSRTGLYRLSEVAPEHFELTEYYQRYFRLNVVSDEIQFNCQLEGDRTLCLSLGSKQRFSGEQIALLSLIQPWVLGLLRQRLPYEINEVVALAPAPSQVDWRVQLEASVQQLKGAQLTARELDVGRLMLSGCSSKEVARKLEISVETVKVHKKHMYSKLGIKSQSELFSIFLQAQNA				NA	NA	NA	NA	NA
D1-35_04266	822	ramA_1		(R)-stereoselective amidase	ATGAAAGTTGAACTTGCCCAGTTGGCGGGTCGTGATAACGCCACGGCCTACAACCTCGAACGCGCGCTCAAGGCGATTGTCGCGTGTGCCGCCGATACGCAGATGATCGTGTTCCCCGAAACCCACCTGATGGGTTTTCCGTCGCTTGAGACGGTGGCAGAAACCGCCGAACCGCTGGACGGACCGACCGTCAGCGCGGTGCTCGCTGCGGCTCGGGAACATGACGTTGCCGTGGTGATCGGCGTGGCCGAGAACGACCGCGGCCGCTTTTACAACACCACGCTGCTGGTCACGCCACAAGGCATTGCGCTGAGATATCGCAAGACACACCTGTGGGCGTCGGATCGCGGGGTGTTCGAGGCCGGCGACCGTTACGCCACGTGTGAATGGAAGGGTGTGCGGGTCGGCCTGCTGATTTGCTACGACATCGAATTCCCGGAAACCGCCCGGGCCCTGGCGCAACTGGGGACCGAACTGCTGATCGTCACCAACGGCAACATGGATCCCTACGGCCCGACCCACCGCACCGCGATCATGGCCCGCGCCCAGGAAAACCAGGCGTTTGCGCTGATGGTCAATCGGGTGGAGGAGGGCGACGGCGGGTTGGTGTTTGCAGGCGGCAGTGCGTTGGTGGACCCGCTGGGCAAATTGTTGTTCGAGGCCGGGCGGGAGGAAGGGCAGTTTGTGGTGGAGCTGGACCTGAACCAGCTGGCGGCGGCGCGGCATGATTATCGGTATCTGGATGATCAGCGCCTGAAGTTGCCGGGGGAAATTGTCGAGCATGCCTGTGGGTTGCGCGAGCTGCTGATTCCTGCGCGTTGA	MKVELAQLAGRDNATAYNLERALKAIVACAADTQMIVFPETHLMGFPSLETVAETAEPLDGPTVSAVLAAAREHDVAVVIGVAENDRGRFYNTTLLVTPQGIALRYRKTHLWASDRGVFEAGDRYATCEWKGVRVGLLICYDIEFPETARALAQLGTELLIVTNGNMDPYGPTHRTAIMARAQENQAFALMVNRVEEGDGGLVFAGGSALVDPLGKLLFEAGREEGQFVVELDLNQLAAARHDYRYLDDQRLKLPGEIVEHACGLRELLIPAR				NA	NA	NA	NA	NA
D1-35_04267	1326	puuP	COG0531	Putrescine importer PuuP	ATGGCTCGTTTACAACGCACCCTGTCATTGGGGTCGGTGGTGCTGTTCGGCATCGCTTATATGACACCGATCATTGTCCTCGGTACCTTCGGCATCCTCGCTCAATCCACCGCCGGCATGGTCCCCGCCGCTTATCTTGCGGCACTGGTGGCGATGTTTTTCACCGCGATGAGCTACGGCCGCATGGCCGCAGCGTTTCCCGTCGCCGGTTCGGCCTACAGCTACGTGCGCAAGGCGATCAGCCCGAAACTCGGGTTCATCGCCGGTTGGGGGGTGCTGCTCGATTATCTGTTCCTGCCCATGGCGATCTGGCTGATCGGCGCGGCCTACCTCCATTCCGCATTCCCGGCGGTGCCGCAGTGGATCTGGGTGCTGCTGTTCATCGGCATAACCAGTGCGATCAATATCGTCGGTCTGAAACTGGCCAACGGTATCAACGCGTTATTGATGCTGGTGCAGTTCCTGGTACTGATCGCCTTCGTTGCGCTGTGCTTCCATTACATCGGCGGTGATGCGAGCACACCGTTGTGGTCGGTCAAGCCGTTCTTCAACGGTGACATGCAGATGCCGCTGATCATGAGCGGTGCGGCCATTGCCTGTTATTCATTCCTCGGGTTCGACGCGGTCAGCACCTTGACCGAAGAAACCCGCGACCCACGCCGGACCATTCCGCGCGCGATCATGCTGATCACCCTGATTGGCGGATTGATCTTCGTCAGCGTGTCGTATTTCGTGCAGGTCGCGCATCCGTCCTTCCAGTTCGACAGCGTCGATGCGGCGGCCTATGAAATTGCCCGCAATATCGGTGGCGACCTGTTCGTGTCGATCTTCCTGATCGGCCTGATCGTTGGCCAGTTCGCGTCGGGTCTGTCGGCTCAGGCCAGCGGCTCGCGCCTGCTATTCGCCATGGGCCGTGACGGTGTGCTGCCAAAATCCTTCTTCGGTACCTTGCATGAGCGTTTCGGGACGCCGATCAACAGCATCCTGTTGTGCGCAGTGGTCGCGTTGCTGGCGCTGAAACTGGACGTCACCACCTCCACCTCGTTCATCAACTTCGGCGCGTTCCTGGCGTTCAGCCTGGTGAACCTGTCAGTGATCTTTCACTACTGGATCGGCGCAGAAAAGAAGGGCCCGCGTGAATTCGTATTGTTCCTGCTGTTCCCGTTCATAGGGCTGGCAGCGGATGTGTGGCTGATGGTCAGCCTCGATCACCTGGCAATCTATCTTGGCCTGAGTTGGCTGGCGATCGGCGTGGTGTACCTGGCGGTGCTGACGGGCGGCTTCCAGCGCCAGCCACCGGAGATGGATTTCCAGGAGACTGCATAA	MARLQRTLSLGSVVLFGIAYMTPIIVLGTFGILAQSTAGMVPAAYLAALVAMFFTAMSYGRMAAAFPVAGSAYSYVRKAISPKLGFIAGWGVLLDYLFLPMAIWLIGAAYLHSAFPAVPQWIWVLLFIGITSAINIVGLKLANGINALLMLVQFLVLIAFVALCFHYIGGDASTPLWSVKPFFNGDMQMPLIMSGAAIACYSFLGFDAVSTLTEETRDPRRTIPRAIMLITLIGGLIFVSVSYFVQVAHPSFQFDSVDAAAYEIARNIGGDLFVSIFLIGLIVGQFASGLSAQASGSRLLFAMGRDGVLPKSFFGTLHERFGTPINSILLCAVVALLALKLDVTTSTSFINFGAFLAFSLVNLSVIFHYWIGAEKKGPREFVLFLLFPFIGLAADVWLMVSLDHLAIYLGLSWLAIGVVYLAVLTGGFQRQPPEMDFQETA	PGPT0007795_498	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
D1-35_04268	699			hypothetical protein	ATGAGCACAATTGAGAACATTTTTGAGCCATCCAGGTTGCTACTAGTGTGGCATCACTCACAGCCTGGTGCTCCTCGCCATCGCAGAGTGGTGGGGGAATTGGTTCGTCAGGGAGAAGATGCATCCTTTCGATACCTCAAGGACACAGATGACTTCCAGGCAGCACTGGAGGAGGGTTTTTACGAATTTCCTGCATTTGCTGACAACGTAAGCAGTGAGCGCCAATCAGGCGCGTTAGACGTGTTCATGCGCCGTCTACCTCCACGCAAGCGGGAAGACTTCCGTGAGTATCTTGCTCAATACGCCTTGCCAGCCAATTTTTCCGGTTCAACATTTTCGTTGCTGGGATACACCGGTGCGAGGTTGGCAAGCGATACCTTTGAGCTGTGCCCGGATTTGAGTGATGCCAAGGCTCCACTGGATTTCGTTATTGAAGCGTCCGGAACGCAGTATCACACTACCGCAGAAAATATATTTTCTGAGGATGATGAGGTTTTTTTTGAGCCAGACCCTCAAAACCCTCACGACAGTAAAGCGATAAAGATCATTCATAAAGGCGTCGTTGTCGGCTTTGTGAATAAAGCTTTATCGATAAGCTTTCATCGGTTACTTGAAACGGGAACTGTCGAAGGAAGCGTTCTTCGGTTCACAGAGCGAAAAGGAAAGTCGCGGCTATTGATTTTAGTCCGATACCTTTAA	MSTIENIFEPSRLLLVWHHSQPGAPRHRRVVGELVRQGEDASFRYLKDTDDFQAALEEGFYEFPAFADNVSSERQSGALDVFMRRLPPRKREDFREYLAQYALPANFSGSTFSLLGYTGARLASDTFELCPDLSDAKAPLDFVIEASGTQYHTTAENIFSEDDEVFFEPDPQNPHDSKAIKIIHKGVVVGFVNKALSISFHRLLETGTVEGSVLRFTERKGKSRLLILVRYL				NA	NA	NA	NA	NA
D1-35_04269	966			hypothetical protein	ATGCAAACAGAATTCATAAATATCAGCGATTGGCCAGACGACGATGAGTTTTCTTCTGCCTATCCCGAAGGCGCAAGGCCTAAACGCACCCTTTTCTCGCCCACGAATCCGACACAGCCCTTTATCGAGCCGGATTGGCGGCATATGTTTAAGCGCTCAGCAGCCAGATATCCTGAACAATTTTGGGCAGAAATTATCGCTTACGAAATATCTGTGTTACTCAAAGTGCCGGCGCCACCATGTTATGCCGCCTTTGATCCTGCCACAGGCCAATGCGGTGCTCTTAGTGCGTGGTTTTATAAAGAGGGAGAAGAGTCTTTCTATTCCGCCGGTAATTTCTTCCACAAGCTTATCAAGACATTTGATAGAGAAAAAGGAACGCAACACAATATTGTGGATTCAGACGAGTTCAACAACAAAGTGCTTGGCAAAAATCAGATTTATGAGTTTTGGAGCATGATGCTTTTTGACGTGCTCCTAGGAAATACCGATCGTCATCAAGACAACTGGGGACACCTACTCAAAGCCGTTCGTGTCAGTAAGAGTGTTGCTCGTCGTAGAGGTGAGCCCTTTGATGTGAAGTGGCGTTTCGCTCCTTGGTTCGATAATGGAACTAGCCTGGGACACGAGCTTCTAAATGAAAAGTTCACACAGTGGAACGACGCTACGCTGGACCGGTACATCCTGCGGGGCAGGCACCACATGAGGTACTCAAGGACGAACCTTGAGCGTATGGGCCACATAGCTTCACTGAGTTTCATAAAGAGCCACGCCGGTGTGAGAGCCCTGCTGCTGAAGCGTCTCAAAGAGTTTGATCTAAAGGCGCTTGCAGTCGTGCTCCACAGGCTTGTTGACCTACCCGCTCCCCCAGGTGGTAATCTCACCAAGGATCGAGCAGATTTTATTCTCCGGCTGACGCACCGTCGTGCTCAGCTAGCCATGGAAACCTTAAATGAGCACAATTGA	MQTEFINISDWPDDDEFSSAYPEGARPKRTLFSPTNPTQPFIEPDWRHMFKRSAARYPEQFWAEIIAYEISVLLKVPAPPCYAAFDPATGQCGALSAWFYKEGEESFYSAGNFFHKLIKTFDREKGTQHNIVDSDEFNNKVLGKNQIYEFWSMMLFDVLLGNTDRHQDNWGHLLKAVRVSKSVARRRGEPFDVKWRFAPWFDNGTSLGHELLNEKFTQWNDATLDRYILRGRHHMRYSRTNLERMGHIASLSFIKSHAGVRALLLKRLKEFDLKALAVVLHRLVDLPAPPGGNLTKDRADFILRLTHRRAQLAMETLNEHN				NA	NA	NA	NA	NA
D1-35_04270	198			hypothetical protein	ATGCTACCAATGTATGACCAGCACCTTATGGATGTGTTTGATATCCTCACCGGAGCTGACTACGAAGTTACTGGTAACAGAAAGGTAGGCGGCAGAGACCAGAACTGCGATCGCAAACAGGAATTTTGTCAGGAAGGAGCCAAGCTGAACGATGCAAACAGAATTCATAAATATCAGCGATTGGCCAGACGACGATGA	MLPMYDQHLMDVFDILTGADYEVTGNRKVGGRDQNCDRKQEFCQEGAKLNDANRIHKYQRLARRR				NA	NA	NA	NA	NA
D1-35_04271	201			hypothetical protein	GTGTCCGTTATTGACTGTGATTATCTGCCCACCGACAAGGTGGTGTTTCCGCCGGAGCTCGCGCTGCTGATCGTCAGGAAGGCCAGCGCAATGGCGGCAGCATTCGAGGAGCAAGCGCTCAACCAGCTCACCAAGGACGCCCGGCGCGCCCTTTCGCGGGGAGCTGAGCCAAGACGAGTCATCAGGGAAATGCGCTTATAA	MSVIDCDYLPTDKVVFPPELALLIVRKASAMAAAFEEQALNQLTKDARRALSRGAEPRRVIREMRL				NA	NA	NA	NA	NA
D1-35_04272	225			hypothetical protein	ATGACGGACACCAAACTGATTGCCAGCCTGTTCGACCGCTTCAATCAAAACCAGCTCGCATTGGGCGCCGCAGTGGAGGAGCTTTCCAACTGGGTCGAGCAGCGCGGATCAGCAGACATTGCCAACAACGCGCGCGGCGCGCTGGAAACGCTAGACGAGAACCTGGTGTTCATTCGCCAGGGCATTGCTGAGTTGGCCGTCGCGGGCAGTCTGGGCCAATCGTGA	MTDTKLIASLFDRFNQNQLALGAAVEELSNWVEQRGSADIANNARGALETLDENLVFIRQGIAELAVAGSLGQS				NA	NA	NA	NA	NA
D1-35_04273	150			hypothetical protein	ATGCTGGCGCGCATCATGCGTGCCGGCCAGTCGACCCCGCGCCGTGGGTTTGGTCTGGGTCTGGCCAGGTTGCCAGTGGAAAGCACTGCCAAACCCCGGAAACCTCAGTGGAAATTAGCTAATGACATCTTAAGGATTCTCAGAATGTAA	MLARIMRAGQSTPRRGFGLGLARLPVESTAKPRKPQWKLANDILRILRM				NA	NA	NA	NA	NA
D1-35_04274	975			hypothetical protein	ATGATCCAATTTCTGGATACACAGAGTCATGTGCGGCCGCTAGATGGTCATGTAGATCAACCACCAAACGTGAAGATGGCGGACTACTTGTTTTTCAATGGCCGGGCCGTAACCGAGCTCAAGACCCTCGAAATTGATCCGAAGGAAAAAATTTTCAGCCTGGCCAAACCGGCAATGGATTCGGAAGATTTCCCCCTGATCTATGGCAAGTATGACTTGGAAGCCGCGATCAAGACGATGCCCGGTGGTGAGGCAATCATGAGCAAAATCTTCGCGAATGCTACTAGGATGGTGGAGGGTGTATGCCGGCAGGCTCGTGATCAGATCAAGTCAACGAAAGACCACCTTAAACTCGATCCAGAAACCCCCGGGATTCTGCTCGTGCTGAATGAAACCGTTGAGAGCATCCCGGTTAGTCAACTGGTCGATAGATTCAGTTACTGGCTTGAGGGCGGTAGCGCAAAGCAATTGAGCCGCTTTTCGCAGATCGATTTTGTAGTACTAATCCAGACTACCTATCGCGTCAAAGCCCAACAGGGCCAGATGGTGCCGGCTTTCATTATCTACAACGAATGCAATGCCCACCGCCATCACTTAGTGGAAAAGGACATACACGCCTTTCTTGAATCATGGGCTCGGTCGCAAGGGCACCATTATGAAACTACTGGAAATGTTCAGGGCTTGAAGTTCGAGGCGGACGTGCCTACGCCCCCGCCGCCACAAACCAGACAAGAATACGTTGAGCATCATTATCGGCTAAATCGGTATCTCCAAAAGCTCACGGACGAAGAGCTCATACAGCATGGCTGCAAAGTTATTGACCAGGTTACTTCAATTGTTTTGATCGGCGCCCCGAGGATTTCCGAGGCGACGGAGATGCTATACATGGCCCATTTTACTGAGTTACTCGAAGAGTGCCGGCTGAGAAGCTTTGATCTTAAAAGGGTAACCAGCAGGATGCGAGCACAGAGGTAA	MIQFLDTQSHVRPLDGHVDQPPNVKMADYLFFNGRAVTELKTLEIDPKEKIFSLAKPAMDSEDFPLIYGKYDLEAAIKTMPGGEAIMSKIFANATRMVEGVCRQARDQIKSTKDHLKLDPETPGILLVLNETVESIPVSQLVDRFSYWLEGGSAKQLSRFSQIDFVVLIQTTYRVKAQQGQMVPAFIIYNECNAHRHHLVEKDIHAFLESWARSQGHHYETTGNVQGLKFEADVPTPPPPQTRQEYVEHHYRLNRYLQKLTDEELIQHGCKVIDQVTSIVLIGAPRISEATEMLYMAHFTELLEECRLRSFDLKRVTSRMRAQR				NA	NA	NA	NA	NA
D1-35_04275	219			hypothetical protein	ATGACGGCAAGTCAGAGGTTGCACGACAGGGTCTTGTTGTACGCCTGCAAAGAGATTCACAACATTTTGTTCGGGGGAGCTTCGTACGCTGCTCAGTATCCACGACTGCTGCAGATGGTGTGCGGCTGTATCGACAGCGGCATCATCACGCAGGACGAGGGAGATATGATTCGAGGAGAGGCCAAGATGGCGCTCGACAATGCTTTTCGGGCCTGCTGA	MTASQRLHDRVLLYACKEIHNILFGGASYAAQYPRLLQMVCGCIDSGIITQDEGDMIRGEAKMALDNAFRAC				NA	NA	NA	NA	NA
D1-35_04276	300			hypothetical protein	ATGGCTCACACCATGAACCCCAAGCGATATTACCGAGCTCTGCAACGCGGGAATGACGCCTTCATCGAAGGACACTTCTACAACGGACGATTCTACGAAGGCAATAATCTCGTCGGGCAGATCGACGATGATGGCGCCTTCCGTTATTTCGAGAGCAAGGACGACGGTCGGCCAACCTTCCCGGAGCACATCGCGGGTTATGTCGAAGGTCTGGTGCTGACGCTGAAGGACGGATCACTCTTTGACCTGATCGAGGTGAAATCTAAATCGAGCAGCAAGCCGCCGGCCGGCCAACCTTGA	MAHTMNPKRYYRALQRGNDAFIEGHFYNGRFYEGNNLVGQIDDDGAFRYFESKDDGRPTFPEHIAGYVEGLVLTLKDGSLFDLIEVKSKSSSKPPAGQP				NA	NA	NA	NA	NA
D1-35_04277	435			hypothetical protein	ATGCACAGGATTTTTCTCGCGTTCATCGCCGCCGGCGTGCTGGCCGCCTGCTCCAGTACACCGGTCGACCAAGCGTCGGCGAAGAAAGTGCCAGCAGCCAGAACGTTTGCGTTTCAGTCAGACGTTCCGGGCGGCGCCAAGCTGGTGGTGAGTCGAGATAGTGGCTTTTGGGCGTCCGGTGGATGCTATGCAACGGTGTTGGTCGATGGCAGGAAAGCCGCGCGTATCGACACAGGCGAGATCGTGGCGTTTCAGGTCAAGCCTGGTCGCCACATCATCGGTATAGCGGGTGACGACGACGGTAACGGCGTATGCGCGCTACAGATCGGCCAGCCGGTGAAGGAGACGGCCACACAGGTCGGCGCCGGGGATGTTCAGAAGTTCAGGGTGTCCGGTACGCAAAACGGTACCGATATTCGTCCCAGCTCCTTCTGA	MHRIFLAFIAAGVLAACSSTPVDQASAKKVPAARTFAFQSDVPGGAKLVVSRDSGFWASGGCYATVLVDGRKAARIDTGEIVAFQVKPGRHIIGIAGDDDGNGVCALQIGQPVKETATQVGAGDVQKFRVSGTQNGTDIRPSSF				NA	NA	NA	NA	NA
D1-35_04278	585			hypothetical protein	ATGGCAATGGCAACCGACTACGGCAACAAAACCTTGATCCTACTGGGCGGCAGCGCTGGCAAGCTCTTTGGCCGCAAACACCTCTACGAACTATCAACGGGGGATGTCCGCGAGGCGGTTAAGGCGGTAGACGTGAATCACCCGGGATTTGCCAAATACCTTGCCAACGCAAAGGCCCGCGGCCTGGAGTTCGCCATTTTTCGAAACCGGCGCAATATCGGCGAGAAGGAGCTCGGGATGGGGCGAGCAAACGAGATCCGCATCGTCCCAGTCATTCATGGGAGTAAGCGGGCGGGACTATTGCAGACAGTGTTGGGGGCGGTGCTGATCGTGCTCAGTCCGTTCACGAACGGCGCCACACTCGCGCCGGGCATAGCGCTCGCCGCCGGCGGCGTGATCCAGATGCTCAGCCCGCAGGCCTCAGGCCTAAGGCAGAGCGCCGGACCAGAAAACGCCCCGTCCTACGCCTTCGGCAGCGCGAAGAACACCACGGCGAGCGGCAACCCGGTACCGATCTGCATCGGAGAACGTCGGTGGGGCGGGATGATCATCTCTGCCTCGATCTACGCCGAAGACAAAATGTAG	MAMATDYGNKTLILLGGSAGKLFGRKHLYELSTGDVREAVKAVDVNHPGFAKYLANAKARGLEFAIFRNRRNIGEKELGMGRANEIRIVPVIHGSKRAGLLQTVLGAVLIVLSPFTNGATLAPGIALAAGGVIQMLSPQASGLRQSAGPENAPSYAFGSAKNTTASGNPVPICIGERRWGGMIISASIYAEDKM				NA	NA	NA	NA	NA
D1-35_04279	351			hypothetical protein	ATGTCACATCACATACACTTCGCCGAAGCGTGCAAGGCCACTGACTTCACAACTGACCCCGGCACTATCGGCGGCTACATCGTCTGGACCGTACAGCATGTGCGAGACGGACAGCGGGTTGAAATTGAAGGGCCGTTCTTCACTGAGGAAGAGGCCAGGATCTCCGCCGAACTGATGCGCATCGAGTACCGAGGAGCCCGAGCCTACCAATCGACTCATTGCTCAGCCTGGAATCCCGACGTGAAACGCGAGATCGCGATTCGAAACGACGCTATGGCCGCTCGAATGCTTCTTGCCGGACAGCTCGGCATGGAAATTCCCAAACACAGCGCCCAAGGCGCCCAGGAGTAA	MSHHIHFAEACKATDFTTDPGTIGGYIVWTVQHVRDGQRVEIEGPFFTEEEARISAELMRIEYRGARAYQSTHCSAWNPDVKREIAIRNDAMAARMLLAGQLGMEIPKHSAQGAQE				NA	NA	NA	NA	NA
D1-35_04280	606			hypothetical protein	ATGAAGACCAATGTCGTTATCGCCCTGCTGGATATTGCACAGCAGCCGGGCGCCAGCATGAGTACGAGCCTGATCACTACTCGCCGGATCTGCCGAATCTTCGGACAGAGGGCGGACACCATCCGAAGCGAGCGCCGGGATATACGGCGGGAGGCCGGGAAACTTCGCGCCTTCCTACCCTTCACCACCAGCAGGATCGACGAACTCCAGCAGCAGGCCATGGAGCATCGGAGGGCCGAGTGGGACGACTTACGCAAGGTGCTCGGCGCCTTTGGCCGATCGCTGATGCTGGATACCGAAGGCCTGATGGATGGCCTGGGATTCGACCGGGTGTGCGATCTGCTGGCGGTGAACACCGTGGAGCGTGAAGCGGCGAGGAAAGACGGCGTGAACGGTTTGGCGGAGCTGGTGTTCGCCTGTTCCCTGGAGGACAGCGCCGCACGTCGCGGGCAGGAATGGAACGACGCGCCTTTGTTCAACGCCTGTCAGATCGCGACCGCCAACTTCATCAGGGACTGCCCCGAGCACTTGCTCCCCGATCCGTTCGCGCCTGGCGCACCGTTTGGCCCAAAGCTTCCGCCCACCCTGAGCATCGTTGGCAAGTAG	MKTNVVIALLDIAQQPGASMSTSLITTRRICRIFGQRADTIRSERRDIRREAGKLRAFLPFTTSRIDELQQQAMEHRRAEWDDLRKVLGAFGRSLMLDTEGLMDGLGFDRVCDLLAVNTVEREAARKDGVNGLAELVFACSLEDSAARRGQEWNDAPLFNACQIATANFIRDCPEHLLPDPFAPGAPFGPKLPPTLSIVGK				NA	NA	NA	NA	NA
D1-35_04281	312			hypothetical protein	ATGAGTCTCCTTTCCGGCCTGCTCGATCACATGCCGCCGATCATCGCTGGCATCACCGCGGAGACCTCCCGCCGACCTGCGCCTCGTCCATCGCTGGCGCTGGTCGCACAAGCAGAACGCCACCCCCAGTTTGTGACTGCGCCTCATGCAAGCGCCGCCACGGCAACGCCCGAGTGGCGGCTGGCCCGCGACGCATACCTCAACCACATCATGGCCTGCCGGTCCTGCTACGCGCCCACCGCCCGCTATTGCAGCGTCGGCGCCGGCTTGCGCGCCAGTTATGACCGCACGCCCATGGAGACACAGCCATGA	MSLLSGLLDHMPPIIAGITAETSRRPAPRPSLALVAQAERHPQFVTAPHASAATATPEWRLARDAYLNHIMACRSCYAPTARYCSVGAGLRASYDRTPMETQP				NA	NA	NA	NA	NA
D1-35_04282	1803			hypothetical protein	ATGGCCAAGCCTGACACCAACGTGATCAACCTTCGGCCCGAAGCCGCCACCATTGCCCCTGATCGGCCGTGCTGGGCGGTGTACGAGCACTGGGTTACCAACGAGAACGGTCGAAAGCTGCGCCCGGGCGTGTACTGGCACAGCTTCAAGCGCACCGCCGCCGATCAGGACGACGCGGAGAATGACGCCGCCGACCGCCCAATCACCGACGAATGGATCTCCAGCCCCGTCACGGTCGTGGCGCGCACCACCAACAGCGATGACGGCAGCGAGGGGCGGCTGCTCCGCCTGGCCACCGAGGGTGGCATCAAGGAATGGATCATCGCCATGGAGGTGTTCGGTGGCAGCGGCGAGGATGCCCGGCGGGCATTGTTTGGCATGGGCGTCATCATCGCGCTCAAGAAGCGCGGCACGTTCATGGAGTATCTGCTCGACCAGCACCCCGCCGAGGTATTCGCCACCACCAGCCGGCCGGGCTGGCATGAGTCGGGAGCGTTCGTGCTGCCCGGGCGGACGATCGGCACGGCCAACGTGCGGTATCAGGCCAGCAACAAGGCGCAAGTCCTGTTCAGTCAGCGCGGCGAGCTGGCGCGGTGGCAGGCCGAGGTGGCAGCCAAATGCGCGGGTAATCCGGTGCTGACGTTAGCGATCGGCTGCTCCCTCGCCGGGCCGCTGCTGAGTCTGGTCGGCGTGCTGGGCGGCGGCGTCCACCTGGTGGGCGACAGCTCAAGCGGCAAGTCGCTGGCTCAACTGATCGGCTCGTCGGTGTGGGGCGATCCTGGAGTGTTCGCCGCCAGTTGGGACATGACCAAGGGCGGCCTTGAGATCGAGGCATCGAGCCGTAACGACACCATCCTGCCGCTGGACGAAATCAAACGCGCCGATCCCAAGCGGGTACAGGAAATGGCCTACTCCCTCGCCAATGGCCAGGGCAAAGGCACCATGACCCGCGAGCGCGAGGCCCGGGGCAAACTGAGCTGGCGCCTGCTCACTCTCTCCAGTGGCGAGCGCTCCCTCTCCGAGCACGCCGCCATATCCGGTAATGCCGCCCACGCTGGCGCCGAGCTGCGCATGGTCGACGTGAATGCTGGTACCCGTACCCATCGGGCCTTTGACGAATTGCACGGCCTGGAGGGCGCGGACTTTCACCGGCAGCTCACCGTCGCGGTGGGCGCCCACCATGGCCACCTGGGGCCGGCCTTCGTCGAGCGCCTGGTCGCGGACGACGACAAGCCCGGCTTGCTCAGTGACTTTGACGGCATCCGCGCTCAGTTCGTCGAGGACAACGCCCAGGCCGGTCGTGTGGCTGACCGGTTCGCCGTGATTGCGCTGGCGGGCGAGATGGCCATCGCCTACGGACTGCTCCCGTGGGAGCCCGGTACCGCCCTCGCCGACTGCCGCCTGCTTTACGGCGAATGGCTTTCCCGTGTCGGCGGAGGGAATGCCGAGGACCGCCAGATCCTGGCCGGCATCATCGACTTTATCGACAAGCACGGCAGCAGCCGTTTCTCGGACGTGGACGCACCCGAGGCGGACGCCAAGGTGTTCAACCGCGCCGGGTACTGGGAGGTGGTCGCCAACAAGCGACTGTTCCTGTTCAACAAGTCCGCGCTCATCGAAGCCGCGCACGGGTTCGGCCTCACCCGCGTCATCAAGGCGCTGGAGGTTGGCGGAGCCCTGGCCAAGCGCGACACCGACCGGGAAAGCCGCAAAACCAAAAAGTACCGCATCCCCGCCGGCGGATCGGCACGGCTGTACGTCATCGACCCGGAAGCCCTGGACAGCGAAGGCGGTGCCGCATGA	MAKPDTNVINLRPEAATIAPDRPCWAVYEHWVTNENGRKLRPGVYWHSFKRTAADQDDAENDAADRPITDEWISSPVTVVARTTNSDDGSEGRLLRLATEGGIKEWIIAMEVFGGSGEDARRALFGMGVIIALKKRGTFMEYLLDQHPAEVFATTSRPGWHESGAFVLPGRTIGTANVRYQASNKAQVLFSQRGELARWQAEVAAKCAGNPVLTLAIGCSLAGPLLSLVGVLGGGVHLVGDSSSGKSLAQLIGSSVWGDPGVFAASWDMTKGGLEIEASSRNDTILPLDEIKRADPKRVQEMAYSLANGQGKGTMTREREARGKLSWRLLTLSSGERSLSEHAAISGNAAHAGAELRMVDVNAGTRTHRAFDELHGLEGADFHRQLTVAVGAHHGHLGPAFVERLVADDDKPGLLSDFDGIRAQFVEDNAQAGRVADRFAVIALAGEMAIAYGLLPWEPGTALADCRLLYGEWLSRVGGGNAEDRQILAGIIDFIDKHGSSRFSDVDAPEADAKVFNRAGYWEVVANKRLFLFNKSALIEAAHGFGLTRVIKALEVGGALAKRDTDRESRKTKKYRIPAGGSARLYVIDPEALDSEGGAA				NA	NA	NA	NA	NA
D1-35_04283	882	traC		DNA primase TraC	ATGACTGACGCTACGGTCCTTTTCCGTGACGCGCTCCAGGCCGTCTATGGCCCGCTCGACTGGATGCCAGAACCTGACGGCCTCATCCATCGGTTCCGGGTACCGGAGGACAAACCGGGCTCCCTCAACGGCTGGTATGTGCTGTATCTAGATGGCATCGCGTCCGGCGCGTTCGGCAGTTGGAAAGCCGGCGGCGCCAGCACCTGGTGTAGCCGCGAACCAGTGGACGCCCGCGAAGCTGCGCAGATCCGCGAGCGGGTTGACCAGGCCCGGCGCCAGCGCGAAGCCGAACAGCGCCGGCGCCAGCAGCAGGCCGCCGAGAAGGCCAACCACTGGTGGCGCAATGCGCGCCGTGCCGCGCCTGATCATCCCTACCTCGCAGCCAAGGGCGTTCGCTCCCACAGCTTGCGCCAGCGTGGGGCTGATCTTCTCGTCCCGCTCTACCTCGATGGTCGCATGGTCAACCTGCAGAAAATCAGCCCGGACGGAGCCAAGCGCTTCCTACCCGGTGGCCGCGTGAAGGGCACGTATTCGCCGCTGGGCATCATCGAGCCCGGTTCCGTGCTGTGCATCTGCGAAGGATGGGCGACGGCCGCCAGCCTCCACCAGCACGGCGGCTATGTCGTTGCGGCAGCCATGAACGCGGGCAACCTGATCCCGGCAGCGATGGGCCTCCGCGCTCGCTACCCGGGCCAGCCCATCGTCATTGCCGGCGACGACGACCGACTCACCGATGGCAACCCAGGTCGCGCAGCGGCGAACGCAGCCGCGGCGGCAGTGGGTGGCCAGGTAGCTTTCCCTGAGTGGCCGGAAGGCGCGCCCGACGACCTCACCGACTTCAACGACCTCGCAAATTGGGAGCTCGCCAATGGCCAAGCCTGA	MTDATVLFRDALQAVYGPLDWMPEPDGLIHRFRVPEDKPGSLNGWYVLYLDGIASGAFGSWKAGGASTWCSREPVDAREAAQIRERVDQARRQREAEQRRRQQQAAEKANHWWRNARRAAPDHPYLAAKGVRSHSLRQRGADLLVPLYLDGRMVNLQKISPDGAKRFLPGGRVKGTYSPLGIIEPGSVLCICEGWATAASLHQHGGYVVAAAMNAGNLIPAAMGLRARYPGQPIVIAGDDDRLTDGNPGRAAANAAAAAVGGQVAFPEWPEGAPDDLTDFNDLANWELANGQA				NA	NA	NA	NA	NA
D1-35_04284	225			hypothetical protein	GTGGGTGATGTGATTCCGTTCGACCCACTCACCAGCATCATGCGTGACGATGAGGCGCCTCACATCGACCCGTACAGCTTCGCCTTGCTGGTCGGCGTCTTCAACGACCTGACGGCATTTCGTGACAACGAGCCAAACCGTGACCGCGCCGCACTGATGCGCAAGACGACCACCAAGCTCAACGCAGTGCTGGCGCGGTTTGAGCCGCCACAGGGGGCCGCATGA	MGDVIPFDPLTSIMRDDEAPHIDPYSFALLVGVFNDLTAFRDNEPNRDRAALMRKTTTKLNAVLARFEPPQGAA				NA	NA	NA	NA	NA
D1-35_04285	288			hypothetical protein	ATGAAAATTCAAAACGGCGCATTTGCGTCGAGGGGATCGGCTTGCCCGAAGAAAGCCAACGAGCTGTTTTACGTGACCCACCAAAAGGCGCCTAAAGCGCTGCTGGGCCCGTTCCTGAGCAAAGCCGACGCCGAGTGCGGGCGCGTGGTTATGCGCAGCGCCGACGCCCAGGTCACGGCCTGCCTGGTCGACTCCATCGACGACATCACGCACTGGCACGCCGTAAACAACGGCCGTGTTTGCCGGGTCTTCGCTGGCGCTGATCGCCAGGAGGTGAGCCGTGGGTGA	MKIQNGAFASRGSACPKKANELFYVTHQKAPKALLGPFLSKADAECGRVVMRSADAQVTACLVDSIDDITHWHAVNNGRVCRVFAGADRQEVSRG				NA	NA	NA	NA	NA
D1-35_04286	291			hypothetical protein	ATGACCGTGCCCTATTACAGCGTTTGTCTGCCGTTGCCTGGCTACCCGCAAGGCAACCGGTTCCCATACGGCATTTGCGGACCGTTCATGGATGCTCACGAAGCTGAGGACGCCATGGTCGCGCTTCAAACAATCCTCCCCGGGCGGGAGCTGGCGATCATCTGCGGACGACAAGCGGATGACGCTCCGTGGCTACTCGTTGACCAGGAGAAGGCGCGGGCGAAGCTCAGAGAAAAAACGAAGTCTCGTTATGAAACTGGCTCTGCCAAACAAATAACCGAACAGGCTTAA	MTVPYYSVCLPLPGYPQGNRFPYGICGPFMDAHEAEDAMVALQTILPGRELAIICGRQADDAPWLLVDQEKARAKLREKTKSRYETGSAKQITEQA				NA	NA	NA	NA	NA
D1-35_04287	216			hypothetical protein	ATGACCAGCGCACTCCCAAGCAATACAGGCGTCGTCGACGATCTGCGCGATGCGCAAGAGATCCTGGTGCTGTTGGCGATGTCGCTGGCGCTGATCGCCTCGCCCTCTACCCACGTTCTTGTGGCCCGCGTGTTGGCTGTGTTCGCGCAGCACACCGCCATGGCCTGGGCCGAACTTCTGGATGATGCAATTGCTGAACAAGGGGGTGATGTATGA	MTSALPSNTGVVDDLRDAQEILVLLAMSLALIASPSTHVLVARVLAVFAQHTAMAWAELLDDAIAEQGGDV				NA	NA	NA	NA	NA
D1-35_04288	261			hypothetical protein	ATGAATACCAAGCCGCAAGCCGCAGATTACAAAGAAATCGCCGACGAGGCCGTATTCCAACTGGAGTGCGGAAACGAGTTCGGCAACTGGATGTTTTCGCTGATGACGGCCATCCGTGACGACCACAAACACTCGGGCGGCCTGAACGCCACCGGTCTGGCTGCCCTTGGCGTTTATCTGTCCGAGAGCCACCTCGAAGTGTCCGAGCAGACCCTTGAGGTCCTCAATGCCAACCTGTCGAGCCTCGGAGGTGAGGCATGA	MNTKPQAADYKEIADEAVFQLECGNEFGNWMFSLMTAIRDDHKHSGGLNATGLAALGVYLSESHLEVSEQTLEVLNANLSSLGGEA				NA	NA	NA	NA	NA
D1-35_04289	315			hypothetical protein	ATGAACCGCGAGCTGCGAATCGTCGGCGCCGATCCAATCGAGGGGCAAGTCCTGGGCGAGGCTGTCATTGATGCTCGGGACATGTGCTCCATGAATTTCGCCCGTGAAGAATTCAACAAGCTTGAGCGGATTCTGTGGCCGCTGATCGAGCCGCTGCTGTGCCAGCAGGAGAGCGGGCCGGCTAGCGATGTCGCTCGCCACCTTGAGCAGATCCGGATTTTCAGCGGCAATTTCTGCTGGCGCCATCGCCACTTGGGGGCCTCGCACGGCGTGGTGGGTAACCGCGCCGAAATGGGCGAAGGGGGTGCGCGATGA	MNRELRIVGADPIEGQVLGEAVIDARDMCSMNFAREEFNKLERILWPLIEPLLCQQESGPASDVARHLEQIRIFSGNFCWRHRHLGASHGVVGNRAEMGEGGAR				NA	NA	NA	NA	NA
D1-35_04290	159			hypothetical protein	ATGACCGCCATGTTCCCTAACGCAATCCGCGCTTTGGCCCACCGCCGTATGGCCCTGAGCGCCCTCCGGGCAAACTCCTCCCTTTCCGTGCGCTTGAAGCGTTACAACCATCACTCCGAAATCGCCCGCAAACTGGAAAACGCCGGGGGTGCGCAATGA	MTAMFPNAIRALAHRRMALSALRANSSLSVRLKRYNHHSEIARKLENAGGAQ				NA	NA	NA	NA	NA
D1-35_04291	231			hypothetical protein	ATGCAACACGCCCTCAATCCGTCTGTGCTCTCTGTAGAGCTTCAAAAAGCCTACTGCGTCGAGCTGCTCAAAACCCTGCTCCGTTATTCAAGCCAACCAGAGCTCAGTCGCATCACCACCGCCATTGAGATAGAGGTGGCCAGGATTTTGGCCAACCGCTTTGTCCCTGGCCTGAATGACGCGACCTATGACGTCTACCGTCGCTTCTGGCTCAAAGGGGGTGACGTATGA	MQHALNPSVLSVELQKAYCVELLKTLLRYSSQPELSRITTAIEIEVARILANRFVPGLNDATYDVYRRFWLKGGDV				NA	NA	NA	NA	NA
D1-35_04293	681			hypothetical protein	ATGAGCGCCCGCATCATCCCCTTCGACTACCAGGGCCAGGCCGTCAGCTTTAATGCCGAGGGTTGGCTCCACGCCACAGTGATCGCTGAACGCTTCGGCAAGCGACTGGACCATTGGCTCGATAACGCCGAGACACTCGAGTACCTCCGCGCACTGGATGAGATTCAGCATCCCACAGCGGGGCCATCCAAAATCGTGAATACCCGGAAATCCGGGTATTTGAAATCCCGCCGCGGTAACGCCGGGGGCACCTGGTTACATCCCAAATTGGCGGTAGCGTTCGCCCGTTGGTGCGATGCCAAATTCTCTGTCTGGTGTGACATGCAGATCGAGGCGCTCATTCACGGGAGTCAGGACTGGCAGCAGGCTCGTCACCAGTCGGCTATCGGCTACCGCGGCTTGTGTGAAGCGCTGGCAATCGCCCACGAGGAGCGCGGCACGGCTCCTCAGCGCCACCACTTCATCAACGAAGCCAAGCTAATCAACCAGGTAATCACTGGTCAGTTTGCCGGCCGCAATCGCGATGAACTCAACGCGCATGAGTTGTTGTTGGTCACGCTGATCGAGATCCGCGACGTGTTGCTGATCGGCCAGGGCAAAGACTTCGCAGCCCGGAAAGCGTCCCTACTCCGCTACGTCCAAAGCCTGACGGCCAAGCACCTTCGGAGTGACGCCGCATGA	MSARIIPFDYQGQAVSFNAEGWLHATVIAERFGKRLDHWLDNAETLEYLRALDEIQHPTAGPSKIVNTRKSGYLKSRRGNAGGTWLHPKLAVAFARWCDAKFSVWCDMQIEALIHGSQDWQQARHQSAIGYRGLCEALAIAHEERGTAPQRHHFINEAKLINQVITGQFAGRNRDELNAHELLLVTLIEIRDVLLIGQGKDFAARKASLLRYVQSLTAKHLRSDAA				NA	NA	NA	NA	NA
D1-35_04294	300			hypothetical protein	ATGAACAAAAAAAAGGCCGACCAACAGGCCAGCCACGAAAATACTCGCGTCGAGAATACCAGCGGAACGGCACAACGCGCTCGCCTTTTGGAGCGCCTGCACGCTGGCCCGATTGACACCTTCACCGCTATCCGCGAACTGAACATCGTCCGCCCTGGTGCCCGCATCAATGAACTGCGCAGCCTGGGCCATAAGATCCTGACCCAACGCCTTACCTTGACCGACGATCAAGGCCGCACTCACCAAGGCATGGCGCTCTACTACCTCAGCACCAACCCACCAGCGGAGGTGAAGGCATGA	MNKKKADQQASHENTRVENTSGTAQRARLLERLHAGPIDTFTAIRELNIVRPGARINELRSLGHKILTQRLTLTDDQGRTHQGMALYYLSTNPPAEVKA				NA	NA	NA	NA	NA
D1-35_04295	270			hypothetical protein	ATGCACACCATCCACACACCGCACCACCCCTCTGCTGCCGCCGCGCAGAACTTCGACCCGGCGATCACCCTGATTCGCATGCCGGATCTGGAGGCCATCACCGGCCTCGCCCGCCCCACGGTGTACAAACGCCTCAAAGATGATCCGACGTTTCCCCGCCCGGTGCCGCTGAGCAACAGCAAGTCGCGTGGTTCGCCGGTGGGCTTCGTGCTGGCCGAGGTCCAGGCTTGGGTGCGCCAGCGCATCGCCCTGCGCGAGGTGGCCGCCTAA	MHTIHTPHHPSAAAAQNFDPAITLIRMPDLEAITGLARPTVYKRLKDDPTFPRPVPLSNSKSRGSPVGFVLAEVQAWVRQRIALREVAA				NA	NA	NA	NA	NA
D1-35_04296	870			hypothetical protein	GTGAGAATCATCCCAACGTCAACACAGTTCGATGCCCTGGAAAGAGCAGTCGATGAGTTTGTTGGCCTGCTAGATAAAAGGTTCGGCGAGATAACGAAGGACATTAGCAACGAGCCAGGCTTTCGCCTGACGGAGCCAATGATTTCCGAACTTGCCGAAAACCTCAAAACAGCGAGATTTGAAGCTTTTCAGTCATGCTTCGATGATGAAAATGAGGTCGCATATGCTTGGCTCAATAGCGAACCATCCTTTCAAATCGCTCTGCATAAGCTCGGTTTCACTGCCTCGGGCGATAAAAACCCTTACGAAAAAATCATTGAAGAACGCCAACGCACACGGACAAAGTGGCGGTCCCAATTTATAAAGGACAGCGCTCTTCGGCACGCTACATTGCATGTAATTTATATGGGTGGGGTTGCAAAAGCGTCGAGCGGTTTCATCACAGGTGAACGTAGAAAAGCTGCGCTTGAGGGGCCGAAAGCGATTCAACGAATGCTCGATCTGATGGAAGAGATTGAAGAGATTCGGAAAAATACCGATTTTTTAGGCCGCCCGGTCAGCATCGGCGGCCGTTTTTGGGAGATGGCCAAATCCAATATGGAAGGGTCGCTAGAGCACCTTTTCTCTACGACCAAGAGAGATGATAAGGATCTTGCCACGCGTCTGATGGCCTCTGAATTGATTCGCCTTCACCTCAAACTGTTCTCTGCACCCCATAAAAACTCGATATATCACCTAATGGGACTTCCCTTTATTGACAGACCAATCGAGATGAAGACCATCGAGCGGCTTGTTACATTGGAAAAGGCTCGAACAGAAAAATTGGGCTCGTCAAAACTGAGCATTTTTGGCAGAGAGATTATCTGCTAG	MRIIPTSTQFDALERAVDEFVGLLDKRFGEITKDISNEPGFRLTEPMISELAENLKTARFEAFQSCFDDENEVAYAWLNSEPSFQIALHKLGFTASGDKNPYEKIIEERQRTRTKWRSQFIKDSALRHATLHVIYMGGVAKASSGFITGERRKAALEGPKAIQRMLDLMEEIEEIRKNTDFLGRPVSIGGRFWEMAKSNMEGSLEHLFSTTKRDDKDLATRLMASELIRLHLKLFSAPHKNSIYHLMGLPFIDRPIEMKTIERLVTLEKARTEKLGSSKLSIFGREIIC				NA	NA	NA	NA	NA
D1-35_04297	1242	intS	COG0582	Prophage integrase IntS	ATGAAGCGATCCGAGATAAAGCGCCGCCCCCTTTCCGATACCGCACTGGCTGGCCTCGAGCCTGATGCCAAGGAGTATCGCGAACTGGATGGCAGCGGCCTTTATTTCCGTGTGAAGCCCGATGGCCAAAAGTCGTGGCAGTACCGCTACAAGAAGCCGGACGGTAAATGGTCCTGGCTTGGGCTTGGTGGCTACCCAGAAGTGAGCGGGTCAATGGCCAGGCAGAAAGCATCCGAATTGCGAAACGATGCCGCCGATGGCAAAAACCCTATCGTCACGAAGCAGGCGCGCAAGAAGGCTGAGCGGGACACCGCTGGCGAGACATTCGAGCCATTGGCGCGGGAGTGGTACGCGTCACGCCTGGCCAACTGGGACGCAGGCACGGCGAAGCGGATCATCGGCGCCCTGGAGCGTCATGTTTTCCCGGTTTTCGGCAAGCGCCAGTTCGTCGACATCACTCCACTTGAATGGATGGAGTTCCTCCGCAGCATGGAGCAGCAGGGAATCCTCGAGCAGATGAGCCGGGTGCGCTCCTACTGCCGCGACGTGTACGACTTGGCCCGGGTTACCGGCCGGGCGACGCACAATCCGCTGGAAGGCCTGCAAAAGTATCTCAAGTCAGGAAAGGTAGAGAACTATGCCCATGTCCCCCAGGAAGAACTCCCCGGCCTGATCCGCGCCATCGCGGCATATCCTCACGCCCACGACGTTCGCCTCGGCCTGCGCCTGCTGAGCCTGTTCGCCGTGCGCCCCAGTGAGCTGCGCGAGGCCCAGTGGTCAGAGTTCGACTTCGATAAGAATATCTGGACGGTGCCGGTTGATCGCAAGGGCCGGAAAAAAGGGCTGGAACATCTGGTGCCCCTCTCCACTCAGGCGATTGAGGCGCTGGAAGAGTTGCGCCATTACACCGGTGGCAATCCCCTGCTCTTCCCAGGGCGCAGTGACCGCACGAAGCCCCGCAGCGACACCGTATTCCTTATGGCGCTGCGTCGGATGGGGTATGAGGGACGCCAAACCGGGCACGGGTTCCGACACATCGCGTCGACGGTCCTCAATGAAAACGGGTTCGACGAGAACCACATCGAGGCCCAGCTTTCGCACAAGAAGCCTGGAGTCGCTGGCGTGTACAACAAGGCGAAGTATCTGCCGCAGCGCACGGTGATGATGCAATGGTATGCGAATTATCTCGACGGCTTGGCGGGCGGCGTCATTATCCAGGGTAATTTCGGCAAGCGTGCCTAA	MKRSEIKRRPLSDTALAGLEPDAKEYRELDGSGLYFRVKPDGQKSWQYRYKKPDGKWSWLGLGGYPEVSGSMARQKASELRNDAADGKNPIVTKQARKKAERDTAGETFEPLAREWYASRLANWDAGTAKRIIGALERHVFPVFGKRQFVDITPLEWMEFLRSMEQQGILEQMSRVRSYCRDVYDLARVTGRATHNPLEGLQKYLKSGKVENYAHVPQEELPGLIRAIAAYPHAHDVRLGLRLLSLFAVRPSELREAQWSEFDFDKNIWTVPVDRKGRKKGLEHLVPLSTQAIEALEELRHYTGGNPLLFPGRSDRTKPRSDTVFLMALRRMGYEGRQTGHGFRHIASTVLNENGFDENHIEAQLSHKKPGVAGVYNKAKYLPQRTVMMQWYANYLDGLAGGVIIQGNFGKRA				NA	NA	NA	NA	NA
D1-35_04299	2058			hypothetical protein	ATGCAGGCTTTTTTATCACCGGGCATCCGGTTGCTCGGGCATTTTGGTTTCGCCCGTAAATTCCAATTGTTGTTCCTGTTGTTCATCCTGCCGCTCATGGGCAGCCTGTGGCTGATCGGCCAGGATTACCGGGACAAGCTCAACCTGATTTCCGGGGAACGTGCCGGGGTGCGTCAGTTGCTGGCGCTGGACAACCTGGACAACCTGCTCGCCGCCCAGCGCAATCGCGCGGCGCGCTGGAGAGCAACGGAAACCAACCGCCAACCGACCCCGGCGACACTGGCCGCCATGGCCGCGTTCGATGCCGTGCAACCGGCGCTCAACCAGGCCGCCGGCGACCTCGGCGCGACCCTGCAAGCCGAAGGCGCGGAGGCCGACACCCTCGCCCGCTATCAGACATTGCAAACCAGCCTCAACGGCCTGGATTCCAAAAGCCTCGGCACGGTCGGTTGGTGGCCGGACGGCTATGATCGTTTCACCGCGGCCCTCGGCGCGCTGCAAGCGTTGCGTGAACAGATCGTCATGGACAATCGCCTGACGCTCGCCTCCTGGCTGGAAACCTATTTGCTGACCCAGATCTCGACCCAGCAGACACCCGACCTGATCGAACGTGTCGGCCGCCTGGCCAGCGTTGGCCAGGCCTCGGTGGTATCAGGCCAGTTCACTTTGCAGAGCCGCCTGCAACTGCGCGACTTGCGCAGCCGCATCGGCGATGCCCGGGACCAGTTGGTCAAGACCGGTGCGCTGCTGGAAACGCGCCTGCCCAGCGAGCTGCAAACCTGGGCCGGCCAGTTCCAGGGCAGCCTGAAAAACCTCGACGGCGGTTTGAAAATCCTCGATGACGGCGTGTTCGGCGGCGCCATCAATCTCAAGCCGGAAGGCTTCGAGAAACAGATGGATGCCCTCCTCCTCGATCTGGCGACCCTGCGCCAACAATCATTGACCGCTCTGGATAACCGGCTGGAGCACTATCACAGCTCGGCGATCCGCCAATTCACCTTCGTGGCCACCGTGCTGGGCTGCCTGCTGCTGGCCGCGCTGTATCTGTTCATCTGCCTGCAGACCTCGATCCGGCGCAGCGCCAGCGGCATCACCGTGCTGGCCGAAGCCCTGCGTGACGGGAACCTGAGCGTGCAAGTGCCGGTGCAGGGCCGCGACGAACTGGCGGCGATCAGCACCGCTCTCAACGTCGCCGTGGTCCAATTGCGCAACAGCCTGCTGGGCGTCGACCACGAGACCCTGCAACTGAGCGATGCCGTGCGCACCCTCAACACCCATTCCAGCGGAGCCTTGGGCGAGGTCGAGGCACAACAGATACAGATCAGCCAGATCGCCGCTGCCGCTACGCAACTGGCGGCAACGTCCCAAGGCGTCGCGAGAAGTTGTGAACAGGCCTCCGACAGCGCCCAACAGACCCGCCAGATCGCCGCCGACAGCAGTCGCGACAGTCAACGCACCACGGCGAGCATCCAGCAACTCAACCAGCGTCTCAACGAAACCGCCGCGGCGCTGGGCCGGGTCAGCGAGCAGGGCCAGCAGATCCAATTGGTGGTCGACACCATTCGTGGCGTGGCCGAGCAGACCAACCTGCTGGCGCTCAACGCCGCCATCGAGGCCGCCCGCGCCGGCGAACAAGGCCGCGGGTTTGCCGTGGTTGCCGATGAAGTGCGCAGCCTGTCGCAGCGCACCCAGTCCTCGACACAGCAGATTGCCGGCACCGTCGACAGCCTGCGCGCCACGGTCAACGAGGCCGTCAGCCTGATGGAAGCCGCCTGCGGCCAGGCCCAGACCGACGCCCAGGCCGTCACCGGGCTTGGCGAACGACTGGGCGAAATCGCCAGCGCCGTGCAAAGCGTCACCGATACCCTGGCGCAAATCGCCACCGCGGTTGACGAACAGGCCAGCACCGCCGACGAAGTCAGCGGCAATATCCAACAGGTGGATCAGGCCGCCATGCGCTTGCTGGAAGGTGCCCGCGCCGTGAACCTGGCGGCGGACACATTGAGCCAAGGCAGCCAGGCCTTGAGCGCGAACACGGGGAGATTTCAACTCGGCTGA	MQAFLSPGIRLLGHFGFARKFQLLFLLFILPLMGSLWLIGQDYRDKLNLISGERAGVRQLLALDNLDNLLAAQRNRAARWRATETNRQPTPATLAAMAAFDAVQPALNQAAGDLGATLQAEGAEADTLARYQTLQTSLNGLDSKSLGTVGWWPDGYDRFTAALGALQALREQIVMDNRLTLASWLETYLLTQISTQQTPDLIERVGRLASVGQASVVSGQFTLQSRLQLRDLRSRIGDARDQLVKTGALLETRLPSELQTWAGQFQGSLKNLDGGLKILDDGVFGGAINLKPEGFEKQMDALLLDLATLRQQSLTALDNRLEHYHSSAIRQFTFVATVLGCLLLAALYLFICLQTSIRRSASGITVLAEALRDGNLSVQVPVQGRDELAAISTALNVAVVQLRNSLLGVDHETLQLSDAVRTLNTHSSGALGEVEAQQIQISQIAAAATQLAATSQGVARSCEQASDSAQQTRQIAADSSRDSQRTTASIQQLNQRLNETAAALGRVSEQGQQIQLVVDTIRGVAEQTNLLALNAAIEAARAGEQGRGFAVVADEVRSLSQRTQSSTQQIAGTVDSLRATVNEAVSLMEAACGQAQTDAQAVTGLGERLGEIASAVQSVTDTLAQIATAVDEQASTADEVSGNIQQVDQAAMRLLEGARAVNLAADTLSQGSQALSANTGRFQLG				NA	NA	NA	NA	NA
D1-35_04300	1218	fsr		Fosmidomycin resistance protein	ATGGCTATCAGCAATACCCAGGCCGACACGACGTCGCCAGCCGCTACGCCTCAAAGCAGCCCGTTAGTCATGCGCATCATTGGTGCGGTGGCGCTTGCCCATCTGATCAATGACCTGATCCAGGCCGTGCTGCCGTCAATCTATCCGATGCTCAAGGAAAGCTACGGCCTGACGTTTACCCAGGTCGGCCTGATCACGCTGACCTTCCAGCTCACGGCCTCGCTGCTGCAGCCCTGGGTGGGTTACCACACTGATCGACACCCCAAGCCCTGGCTTTTGCCGTCAGGAACAATCTGCACCTTGGTCGGTATCGTGATGATGTCGATGGTCGGCAGTTTTGCCTTGATCCTGCTGGCGGCCGGGTTGATCGGGATCGGCTCCTCGACCTTCCACCCCGAGGCGTCGCGCGTGGCACGCCTGGCCTCCGGCGGCCGCTACGGCCTGGCGCAATCGACGTTCCAGGTGGGCGGCAACGCCGGCTCCGCCTTCGGGCCGTTGCTGGCGGCGGCGATCATCATTCCCTACGGGCAGGGCAACGTGGCCTGGTTTGGCTTGTTCGCGCTGTTCGCCTTGTTCGTGCTGTACCGCATCAGCCGCTGGTACGCCAATCACCTGAACCTGTTCAAGCTCAAGCAAGGCCAGGCGGCGACCCACGGCTTATCCAGGGGCCGGGTCTTGAGCGCCTTGGTGGTGCTGGGGTTGCTGGTGTTTTCCAAGTATTTCTACATGGCCAGTTTTACCAGCTACTTCACTTTCTACCTGATCGAGAAATTCGACCTGTCGGTGGCGTCTTCCCAGTTGCACCTGTTCCTCTTTCTTGGCGCGGTAGCGGCCGGAACGTTTTTTGGCGGACCGATCGGTGACCGGATCGGACGCAAGGCGGTGATCTGGTTCTCGATCCTCGGCGTGGCGCCATTCACGCTGATCCTGCCTCACGTTGATCTGCTGTGGACCAGTATCCTCAGCGTGGTGATCGGCTTCATCCTGGCCTCGGCATTCTCCGCCATCGTGGTGTATGCCCAGGAACTGGTGCCGGGAAATGTCGGGATGATTGCCGGCGTGTTCTTCGGCCTGATGTTCGGTTTCGGCGGGATTGGTGCCGCGCTGCTGGGGCACCTGGCAGACATCCGGGGCATCGAATATGTGTACTGGTTGTGTTCGTTCCTGCCGCTGCTTGGGGTGCTGGCGATTTTCCTGCCGAGGACCAAAAAGGCCTGA	MAISNTQADTTSPAATPQSSPLVMRIIGAVALAHLINDLIQAVLPSIYPMLKESYGLTFTQVGLITLTFQLTASLLQPWVGYHTDRHPKPWLLPSGTICTLVGIVMMSMVGSFALILLAAGLIGIGSSTFHPEASRVARLASGGRYGLAQSTFQVGGNAGSAFGPLLAAAIIIPYGQGNVAWFGLFALFALFVLYRISRWYANHLNLFKLKQGQAATHGLSRGRVLSALVVLGLLVFSKYFYMASFTSYFTFYLIEKFDLSVASSQLHLFLFLGAVAAGTFFGGPIGDRIGRKAVIWFSILGVAPFTLILPHVDLLWTSILSVVIGFILASAFSAIVVYAQELVPGNVGMIAGVFFGLMFGFGGIGAALLGHLADIRGIEYVYWLCSFLPLLGVLAIFLPRTKKA				NA	NA	NA	NA	NA
D1-35_04301	444			hypothetical protein	ATGGCTGGACACGCCCCTTCACGCCTTGGACAAACACTGCTGGGCCTGCTCTTCGCCCTGATTGGCATTGTTTTGTTGGGCGGCACCGTTCTTCTCATCCTTGAACGCCACGAATTTCTCGCCCGAGCGCAGATCGCCGATGGCATCGTCAGTCGGTTGAATGCCGGTGGTTCTCACCCCGAAGTCGCGTTCACTACCGGCAAAGGTGAAAAAATTTCCTACCCCCAGGGTGGCTTCATCTTCGGCTATGAGCCGGGGCAGCCGGTGCGAGTGTATTACTTGCCCGAGCAGCCGGCCGACAACCCCCTCATCGTTGATCGAGGCGCCCTGTGGGGGACGCCTGTGATGCTGGGGGCAATGGGGCTGTTCTTCACGCTGGTCGGCTCGCTGAAAGCCATCCGCCAGCGCGGTCGCGGTGCGGTTCATTCACTTAAAGGACTTTGA	MAGHAPSRLGQTLLGLLFALIGIVLLGGTVLLILERHEFLARAQIADGIVSRLNAGGSHPEVAFTTGKGEKISYPQGGFIFGYEPGQPVRVYYLPEQPADNPLIVDRGALWGTPVMLGAMGLFFTLVGSLKAIRQRGRGAVHSLKGL				NA	NA	NA	NA	NA
D1-35_04302	588			hypothetical protein	ATGAGCTATAACATCCCGATCCCGGTCAACAAAAGTCGCTGGACATATCAGACCGCCAGCGGTGGCGGTCTGACCGTGGTCATGGTGGCGGGCAGTGGCGGTTCGATCATCCTGCGTTCGCCCCAGGGCGAGGACATCAGTTACCGCTATGGCGGCGTCGGTGTAGGTGCGGGAATTGGCGCGCGATTGCCGCGCTTTGGCAAGATCAATATCCAGATCAAGGGCAAGAGCGTATCGGGTGCGGGTGCGGCGGAGTCTTTTTTCAGCATTGGCCGGGTGTTTGTCAGCGACGCCCTGGCCGATCGCGACCTCACCAGCGACGATATCACGGGGCCTTGCATGTATACCGAGGCGGGCTTCGGCTTGGTGGGAGGCGTTTCGGGCACTGCTCTGCTGTTCGGGCTCGATCCGAAGCTGTTGGCATTGTCGGTGGCCCTGAGCTCCAACCCGGCGACCTCGCTCATTGCGTCCGCCACCGTCAGCCGCCGATTGGCCATGTCAGCCAAGGGAGCGCTGCTCATGGGGGGCTTGAACGCTGGCCTGCAGGCCGGTGGTGGCGCTGCGATCTATATGGGCTATCTTTTTTAG	MSYNIPIPVNKSRWTYQTASGGGLTVVMVAGSGGSIILRSPQGEDISYRYGGVGVGAGIGARLPRFGKINIQIKGKSVSGAGAAESFFSIGRVFVSDALADRDLTSDDITGPCMYTEAGFGLVGGVSGTALLFGLDPKLLALSVALSSNPATSLIASATVSRRLAMSAKGALLMGGLNAGLQAGGGAAIYMGYLF				NA	NA	NA	NA	NA
D1-35_04303	2076			hypothetical protein	ATGGCAACTACCGATAGCACGGGAACCAGTTCCCATATCGTGAGAACGGGCCCGGGCACTGTCCAGGTCGACCTCACCGGCCATTCCGATGACAACCAGAGCATCATTATCCAGTCGGACGGCAAGATACTGATTGGCGGTTATACCGAATACCTGGCATGGGGTTACCCCGGCGCGCCAGGCGAGGAAAGCTACGGCTACGAACAGAACCATTCGGTTGTCCGCCTGAACGCGGATGGCAGCCTGGACACCGGCTTCCACGACGGCGGCGTCGACATTGTTCCTGCCACGATAGCCCCGTCGTCCCGCTACGAGCTGACGGCGGTGCAGGCCGATGGCAAGGTACTTGTCGCTGTCGCGCTGAACACCGGCATACAGGTGGAGCGCTTCAACAGCGACGGGACACGCGATGCAGCCTTTGGTCAGAACGGCGCCGTGACGGTCGCCATTAGCCATGACTTCAAGGACATCGACCTGACAGCCAACACGGACGGCACCTTCCAGGTCAGCGCGCGCGGGTTCGACCAGGCCACTATCACCAAGGTCGGCGATGACGGCACCTTCGTCGACGGCTTTGGCAGCGAGGGCGTGCTGACCGTCAACATTGCCGAAGACCTGTATTTCAACGGAGCAATCTCTACTGCGGTGCAGGCCGATGGAGGTGTCGTGGTCGGGGCTGCCTACAATGCCGCCGGGGCGGGTGATCCGACGTTCGCGTTACAGCGCTACAACCCCGACGGTCAATTGGACACCCGTTTTGGTGACAACGGTGTCCTGCACTTGAGCGCTGCGATGGGTTTTGGCGAAGACTCGACGGTCACTATTCAGGCTGACGGCAAGATCGTTGTCATGGGCCACGCTCAGGGCGGTACCTTGGCCACCATCGCGCGGCTTAACGCTGACGGGTCCTTCGACAGCCACTTTGGCGATAACGGCAGGGTGACCTTCGAGGCCGACACGCCAGTGGCATTGACGGTACAGGCAGATGGCAGGATCCTGGCCGCCGGCACGAGCAACGGCGATTTCAATGTCATCCGCTTGAACGCCGATGGCAGTCTGGACAGCAGTTTCGGCAGCCAGGATGGCAAGCTCCATGTGGATGGGTACGCCGGTGAGGAAATCCTGCGGGGGACCGCTGCCGCCGAAATCATCCACGGCCTGGCCGGCGACGATGTGCTCCAGGGCAATGGCGGGCGTGACGTTCTGCAAGGTGGCGCTGGCGCGGACATCTTCCGCTTTACCGAACTGGGCGACAGTTTCCGCACGGCTGCGCTGAACAATAGCGACCGGGTCCGGGACTTCGATGTCTCACAGGACCGCATCGACCTGATTGGCCTGGGCTTCACCGGGATTGGCGACGGCCATGACGGCACCTTGGCCATCCAGGCCAGCGCGGACGGCACCCGCACGTACCTCAAGAGCTACGACGCCGATGCCGCCGGGCAACGCTTTGAACTGTCCCTGGACGGCAATCTGGTAGGGCAACTGAACAGCACCAATCTGGTGTTTACCGCGCCCACCGTCGAAGGTACGTCTGCCAACGATACGATCACCGGTTCGGCCTTGTCAGAGATCATCCGTGGCCTGGACGGCAATGACCGTATCAACGGCGGCGCCGGAGCAGACGTCATCATCGGTGGCGCGGGCGCCGACCGTCTCAACGGCGGAGACAGGACCGACATTTCGTTGTGGACGGACAATCGGGAAAACGCCGACGTATTCCGCTATCTCTCCACCGAAGACAGCTACCGTACCGACAGCCAGAGCTTTGCCGACCTTATCGAAGGCTTTACCGTTGACGACAAGATCGATGTATCGGCACTGGGCTATACCGGCTTCGGAGAGGGGACGGACACGACGCTGAAGTTGGTTTACAACGAGGCATTGGACCGCACTTACCTGAAGGATGCGGAAGCGGACGCGCAAGGCCATGCGTTCCAGATTGCGCTGGCTGGGGACTGGCGGGAAAGCCTTGGCGAAGACAACATGGTCTTTGCTCCCGCTGCGGCTCCCGACGCCGAATTAGGCCTGATCGGGGTGGTGCCAGACGTCGATCAATGGCATTTGTTGAGTTGA	MATTDSTGTSSHIVRTGPGTVQVDLTGHSDDNQSIIIQSDGKILIGGYTEYLAWGYPGAPGEESYGYEQNHSVVRLNADGSLDTGFHDGGVDIVPATIAPSSRYELTAVQADGKVLVAVALNTGIQVERFNSDGTRDAAFGQNGAVTVAISHDFKDIDLTANTDGTFQVSARGFDQATITKVGDDGTFVDGFGSEGVLTVNIAEDLYFNGAISTAVQADGGVVVGAAYNAAGAGDPTFALQRYNPDGQLDTRFGDNGVLHLSAAMGFGEDSTVTIQADGKIVVMGHAQGGTLATIARLNADGSFDSHFGDNGRVTFEADTPVALTVQADGRILAAGTSNGDFNVIRLNADGSLDSSFGSQDGKLHVDGYAGEEILRGTAAAEIIHGLAGDDVLQGNGGRDVLQGGAGADIFRFTELGDSFRTAALNNSDRVRDFDVSQDRIDLIGLGFTGIGDGHDGTLAIQASADGTRTYLKSYDADAAGQRFELSLDGNLVGQLNSTNLVFTAPTVEGTSANDTITGSALSEIIRGLDGNDRINGGAGADVIIGGAGADRLNGGDRTDISLWTDNRENADVFRYLSTEDSYRTDSQSFADLIEGFTVDDKIDVSALGYTGFGEGTDTTLKLVYNEALDRTYLKDAEADAQGHAFQIALAGDWRESLGEDNMVFAPAAAPDAELGLIGVVPDVDQWHLLS	PGPT0027825_330	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0027825-prtC-K01406	NA	NA
D1-35_04304	1101	ychF	COG0012	Ribosome-binding ATPase YchF	ATGGGATTCAATTGCGGCATCGTCGGCCTGCCTAACGTCGGCAAGTCCACCCTGTTCAACGCCCTGACCAAATCCGGGATCGCGGCCGAGAACTTCCCCTTCTGCACCATCGAGCCGAACAGCGGCATCGTGCCGATGCCCGACCCGCGCCTGGAAGCTCTGGCAGCCATCGTCAACCCCAAGCGCATCCTGCCGACCACCATGGAATTCGTCGATATCGCCGGCCTGGTGGCGGGCGCCTCGAAAGGTGAAGGCCTGGGCAACAAGTTCCTGGCGAACATCCGTGAAACCGATGCAATCGCCCACGTGGTGCGCTGCTTTGAAGACGAAAACGTGATTCACGTTTCCAACAGCGTCGACCCGAAACGCGACATCGAAATCATCGACCTGGAACTGATCTTTGCCGACCTCGACAGTTGCGAAAAACAACTGCAGAAAGTCGCTCGCAACGCCAAGGGTGGCGACAAGGACGCAGTAGTCCAGAAGGGCCTGCTTGAGCAGTTGATCGCCCACTTCACTGAAGGCAAACCTGCCCGCAGCCTGATGAAGAACATGAGCACCGATGAAAAACTGGTAATCAAGGGCTTCCACCTGCTGACCACAAAGCCGGTCATGTACATCGCCAACGTCGCTGAAGACGGTTTCGAGAACAACCCGCATCTGGACGTGGTCAAGGCCATCGCGGAAGAAGAAGGTGCCATGGTCGTTCCGGTCTGCAACAAGATCGAAGCGGAAATCGCCGAGCTGGACGACGGTGAAGAGAAGGATATGTTCCTCGAGGCCCTGGGCCTGGAAGAGCCTGGCCTGAACCGCGTGATCCGCGCCGGCTACGAAATGCTTCACCTGCAGACCTACTTCACCGCCGGTGTCGAAGAAGTCCGCGCCTGGACCGTTCGTGTTGGCGCGACCGCCCCGCAAGCCGCCGGCGTGATCCACACCGACTTCGAAAAAGGCTTCATCCGCGCCGAAGTCATCGCCTACTCGGATTTCATCCAGTACAAGGGCGAAGCCGGTGCCAAGGAAGCCGGCAAATGGCGTCTGGAAGGCAAGGAATACATCGTCAAGGATGGCGACGTGATGCACTTCCGCTTCAACGTTTGA	MGFNCGIVGLPNVGKSTLFNALTKSGIAAENFPFCTIEPNSGIVPMPDPRLEALAAIVNPKRILPTTMEFVDIAGLVAGASKGEGLGNKFLANIRETDAIAHVVRCFEDENVIHVSNSVDPKRDIEIIDLELIFADLDSCEKQLQKVARNAKGGDKDAVVQKGLLEQLIAHFTEGKPARSLMKNMSTDEKLVIKGFHLLTTKPVMYIANVAEDGFENNPHLDVVKAIAEEEGAMVVPVCNKIEAEIAELDDGEEKDMFLEALGLEEPGLNRVIRAGYEMLHLQTYFTAGVEEVRAWTVRVGATAPQAAGVIHTDFEKGFIRAEVIAYSDFIQYKGEAGAKEAGKWRLEGKEYIVKDGDVMHFRFNV				NA	NA	NA	NA	NA
D1-35_04305	585	pth	COG0193	Peptidyl-tRNA hydrolase	GTGACTGCCATCAAACTGATCGTTGGCCTGGGAAATCCAGGCGCTGAATACGAACAGACCCGGCATAACGCAGGGGCCCTTTTTGTTGAGCGCATCGCGCACGCCCAAGGCGTCAGCCTGGCTGCCGATCGCAAATATTTCGGCCTGACCGGGCGCTTCTCGCATCAAGGTCAGGATGTTCGCCTGTTGATTCCCACCACCTACATGAACCGCAGCGGTCAGGCCGTGGCGGCATTGGCCGGTTTCTTTCGCATCAAGCCTGAAGAAATCCTGGTGGCCCACGACGAACTCGATCTGCCTCCGGGCGTTGCCAAGCTCAAGCAGGGCGGCGGCCATGGCGGTCACAACGGGTTGCGCGACATCATCGCGCAACTGGGCAATCAGAATACGTTCTACCGCCTGCGGCTCGGCATCGGCCACCCGGGCGTTGCCAGTATGGTTTCAAACTTTGTCCTGGGTCGCGCGCCTCGCGCCGAACAGGAAAAACTCGATGCCAGCATCGATTTTGCCCTCGGCGTGCTGCCGGATATCCTCGCCGGTGAATGGAACCGTGCGATGAAAAACCTGCACAGCCAGAAGGCTTGA	MTAIKLIVGLGNPGAEYEQTRHNAGALFVERIAHAQGVSLAADRKYFGLTGRFSHQGQDVRLLIPTTYMNRSGQAVAALAGFFRIKPEEILVAHDELDLPPGVAKLKQGGGHGGHNGLRDIIAQLGNQNTFYRLRLGIGHPGVASMVSNFVLGRAPRAEQEKLDASIDFALGVLPDILAGEWNRAMKNLHSQKA				NA	NA	NA	NA	NA
D1-35_04306	603	rplY		50S ribosomal protein L25	ATGAACGATTTTACTCTGAATGCTGAAGTGCGTTCCGACCTGGGGAAAGGTGCGAGCCGCCGCCTGCGTCGTCTCGCAAGCCTGGTTCCAGCTGTAGTCTACGGTGGCGACAAAGCCCCTGAGTCCATCAGCATGCTGGCCAAAGAAGTTGCCAAACTGCTCGAAAACGAAGCGGCCTACAGCCACATCATCGAGCTGAACGTTGGTGGCACCAAGCAAAACGTCGTGATCAAAGCCCTGCAGCGTCACCCGGCCAAAGGCCACGTGATGCACGCTGACTTCGTCCGCGTTGTTGCCGGTCAGAAGCTGACTGCTGTTGTTCCAGTGCACTTCATCAACGAAGCTGCTCCGGTCAAGAAAGGCGGCGAGATCTCGCACGTGACTTCCGAGCTGGAAGTTTCCTGCCTGCCGAAAGACCTGCCTGAATTCATCGAAGTCGACCTGGCTGACGCCGAAATCGGCACGATCATTCACCTGTCCGACCTCAAGGCCCCTAAAGGCGTTGAGTTTGTTGCCCTGGCTCACGGTGATGACAAGGCTGTTGCCAACGTCCACGCTCCACGTGTTGCTCCAGAAGCTACTGAAGAAGGCGCTGCAGAGTAA	MNDFTLNAEVRSDLGKGASRRLRRLASLVPAVVYGGDKAPESISMLAKEVAKLLENEAAYSHIIELNVGGTKQNVVIKALQRHPAKGHVMHADFVRVVAGQKLTAVVPVHFINEAAPVKKGGEISHVTSELEVSCLPKDLPEFIEVDLADAEIGTIIHLSDLKAPKGVEFVALAHGDDKAVANVHAPRVAPEATEEGAAE				NA	NA	NA	NA	NA
D1-35_04307	933	prs	COG0462	Ribose-phosphate pyrophosphokinase	ATGATGGTCTTTACGGGGAACGCTAACCCCGATCTGGCTCGGCGTGTAGTACGTCAGCTGCATATCCCTCTCGGTGACATTTCTGTCGGTAAGTTCTCCGACGGCGAAATCACTGCCGAGATCAATGAAAACGTTCGCGGTAAAGACGTCTTCATTATTCAGCCGACTTGCGCTCCGACCAACGATAACCTGATGGAACTCGTCGTGATGGCTGATGCCTTCCGCCGCTCCTCGGCTACTCGTATTACTGCTGTTATTCCTTACTTTGGTTATGCCCGTCAGGATCGCCGTCCGCGTTCCGCACGTGTGGCTATCAGCGCGAAAGTCGTCGCCGATATGCTCACCGTGGTCGGCATCGATCGTGTACTCACGGTCGATCTGCATGCTGACCAGATCCAGGGCTTCTTCGATATTCCCGTGGACAACATCTACGGCTCCCCGGTCCTGGTGGATGACATTGAAGATCAGCGCTTCGAAAACCTTATGATCGTGTCCCCGGATATCGGCGGCGTCGTGCGTGCACGGGCTGTTGCCAAATCCCTGGGCGTGGATCTGGGTATCATCGACAAACGCCGTGAGAAGGCCAATCACTCCGAAGTGATGCACATCATCGGCGACGTCGAAGGGCGCACCTGTATTCTGGTCGATGACATGGTCGATACCGCCGGCACCCTGTGCCACGCGGCCAAGGCCCTGAAAGAGCATGGCGCTGCCAAGGTCTTTGCCTACTGCACACACCCTGTGCTGTCGGGTCGAGCGATCGAAAATATTGAAAATTCCGTGCTGGACGAGCTGGTGGTAACCAATACCATCCCGCTGTCCGCCGCAGCACAAGCCTGTGCGCGTATCCGTCAACTGGATATCGCGCCGGTAGTTGCCGAGGCGGTTCGCCGCATCAGCAATGAAGAATCGATCAGTGCGATGTTCCGTTAA	MMVFTGNANPDLARRVVRQLHIPLGDISVGKFSDGEITAEINENVRGKDVFIIQPTCAPTNDNLMELVVMADAFRRSSATRITAVIPYFGYARQDRRPRSARVAISAKVVADMLTVVGIDRVLTVDLHADQIQGFFDIPVDNIYGSPVLVDDIEDQRFENLMIVSPDIGGVVRARAVAKSLGVDLGIIDKRREKANHSEVMHIIGDVEGRTCILVDDMVDTAGTLCHAAKALKEHGAAKVFAYCTHPVLSGRAIENIENSVLDELVVTNTIPLSAAAQACARIRQLDIAPVVAEAVRRISNEESISAMFR	PGPT0021480_5018	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021480-prsA-K00948	NA	NA
D1-35_04309	852	ispE	COG1947	4-diphosphocytidyl-2-C-methyl-D-erythritol kinase	ATGAGCGCAACACGCCTGACGCTGCCCTCCCCGGCCAAGCTCAACCTGATGCTGCATATCGTTGGCCGGCGTCCGGACGGTTACCACGAATTGCAGACGATTTTTCAGTTCCTCGACTACGGCGACGAGATCACCTTTGCCGTACGCGATGACGGCGTGATCCATCTTCACACCGAGTTCGACGGCGTACCCCATGACAGCAACCTGATCGTCAAGGCCGCGAAAAAACTCCAGGAGCAATCCGGTTGTTCGCTGGGCATCGACATCTGGATCGAAAAAATCCTGCCCATGGGCGGCGGTATCGGTGGCGGCAGTTCGAATGCGGCGACGACTCTGCTGGGCCTAAACCATTTGTGGCAGCTTGGCTGGGACCTGGATCGCCTGGCAGCGCTGGGCCTGACACTGGGCGCCGACGTACCGGTTTTCGTGCGTGGCCACGCGGCTTTTGCCGAGGGCGTCGGGGAAAAACTCACCCCGGTGGAACCCGAAGAACCCTGGTATCTGGTACTGGTGCCGCAAGTATCTGTAAGTACAGCAGAAATTTTTTCAGATCCGCTGTTGACACGTAACTCGGAGCCCATTAAAGTGCGCCCCGTTCCCAAGGGAAACAGTCGAAATGACTGCTTACCGGTGGTAGCAAGGCGTTATCCAGATGTTCGTAACGCTTTGAATTTGTTAGGTAAATTTACCGAAGCAAAACTCACCGGAACTGGAAGTTGTGTGTTTGGGGGCTTCCCAAGCAAAGCTGAAGCTGATAAAGTCTCGGCCCTTCTGACAGAGACCCTTACAGGGTTTGTAGCAAAGGGAAGCAACGTTTCGATGTTGCATCGCAAGCTGCAAAGTCTGCTCTAA	MSATRLTLPSPAKLNLMLHIVGRRPDGYHELQTIFQFLDYGDEITFAVRDDGVIHLHTEFDGVPHDSNLIVKAAKKLQEQSGCSLGIDIWIEKILPMGGGIGGGSSNAATTLLGLNHLWQLGWDLDRLAALGLTLGADVPVFVRGHAAFAEGVGEKLTPVEPEEPWYLVLVPQVSVSTAEIFSDPLLTRNSEPIKVRPVPKGNSRNDCLPVVARRYPDVRNALNLLGKFTEAKLTGTGSCVFGGFPSKAEADKVSALLTETLTGFVAKGSNVSMLHRKLQSLL	PGPT0007605_3464	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007605-ispE-K00919	NA	NA
D1-35_04310	618	lolB	COG3017	Outer-membrane lipoprotein LolB	ATGTTTTTGCGCCACTTCATCGTCTTCAGCTTTATCGCCCTGCTCGCCGGTTGCGCGGGCTTCGGCGCCCGTGAATCCGTCCAGGGCCAAGGCAACCAGGCCCAGTGGCGCGTGCACAAGGAACAACTGAGCGGCCTCGACGGCTGGCAGATCGACGGCAAGATCGGCATTCGCGCGCCTAAAGACTCGGGCAGCGGCACCTTGTTCTGGTTGCAGCGCCAGGATTACTACGACATTCGCCTTTCCGGCCCGCTGGGTCGTGGCGCGGCACGGCTGACCGGCAGGCCAGGCCAGGTTTCGCTGGAAGTCGCCAACCAGGGACGCTACGAGGCGCCCAGCCCCGAGGCGTTGCTGGAAGAACAGCTGGGCTGGAAACTGCCGGTATCGCACCTTACCTGGTGGGTCCGCGGCCTTCCGGCGCCGGACAGCAAAAGCCGCCTGACCCTGGATGCCGACAGTCGCCTGTCCAATCTGGAACAGGACGACTGGCAGATCGAATACCTCAGCTATGCCCAGCAGAACGGTTACTGGTTGCCCGAGCGCATCAAGCTGCACGGCAGCAACCTCGACGTCACGCTGGTCATCAAGCAATGGCAGCCGCGCAAGCTGGGGCAATGA	MFLRHFIVFSFIALLAGCAGFGARESVQGQGNQAQWRVHKEQLSGLDGWQIDGKIGIRAPKDSGSGTLFWLQRQDYYDIRLSGPLGRGAARLTGRPGQVSLEVANQGRYEAPSPEALLEEQLGWKLPVSHLTWWVRGLPAPDSKSRLTLDADSRLSNLEQDDWQIEYLSYAQQNGYWLPERIKLHGSNLDVTLVIKQWQPRKLGQ	PGPT0024480_718	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024480-lolB-K02494	NA	NA
D1-35_04311	1725	bepA_3		Beta-barrel assembly-enhancing protease	ATGAATAGATCTTTCGCGTTGCTCCTCGCTTTTGCCTTCCTCGGCGGCTGCCAGTCCATGGCCCCCGTCTCGACGGACGGTACGCCACCGGTCGAAGACAGCACCCCGGCCCCCGAAAAGCCCAAGGTCTACGGATCGTTCAGCGAAGAAACCATCTTCAGCCTGTTGAGCGCCGAACTCGCCGGCCAGCGCAATCGCTTCGATATTGCCCTGGACAACTACGTGACCCAGGCCGTCAACACCCAGGACCCGGGCATCTCCGAGCGGGCCTTTCGCATCGCCGAATACCTGGGGGCCGACCAGCCCGCGCTGGATACGGCGCTGATCTGGGCCAGGAACGCACCCGACGATCTCGAAGCGCAACGCGCCGCCGCCGTGCAACTGGCGCGCGCCGGCCGTTACGACGACTCCATGATGTATATGGAGAAAGTCCTGCTGGGCAAGGGCGATACCCATTTCGATTTCCTCGCGCTGTCTGCGGCCGATACCGACCAGGAAACCCGCGACGGCCTGATGAAGAGTTTCGACCGTCTGCTGCAGCGTCACCCAAACAACGGGCAGCTGATTTTTGGCAAGGCCTTGCTCTTGCAACAGAACGGCGACTCCCAAGGCGCCCTCACGCTGCTGGAAGACAACCCGCCGGAACCCGGCGAAGTGGCGCCTATCCTGCTGCGCGCCCGCCTCTTGCAAAGCATGAATCGCGGCGATGAAGCCCTGCCGCTGATGGAAAAAAGCATCAAGAAATACCCGGACGACAAACGCCTGCGCCTCACCTATGCACGCATGCTGGTGGAAAACAACCGCATGGACGACGCCAAGGTCGAGTTCTCCAGCCTGGTCCAGCAGTACCCTGAAGACGACGACCTGCGCTATTCCCTGGCGTTGGTCTGCCTGGAAGCCAAGGCCTGGGAAGAAGCCAAGGGCTATCTGGAAGACCTGATCGCCCGCGAAAGCCACGTCGATTCGGCCCACCTGAACCTGGGGCGCATCGCCGAAGAACGCAACGACCCCGAAAGCGCGCTGATCGAGTACGCCCAGGTCGGCCCGGGCAACGACTACCTGCCCGCGCAGTTGCGCCAGGCCGACATCCTGATCGGCAATGGTCGGGCGGCCGAGGCCCAGAGTCGCCTGGCCATCCAGCGCGACACCCAGCCGGACTACGGCATCCAGCTCTACCTGATCGAGGCCGAGACCCTGGCGGCGAACAACCAGAGCGACAAGGCCTGGGCCGTGCTGCAACAAGCCTTGAAGCAATACCCGGACGACCTGAACCTGTTGTATACCCGATCCATGCTGGCGGAAAAACGCAATGACCTGGCCCAGATGGAAAAGGACCTGCGTCTGATCATCCAGCGTGATCCCGACAACGCCATGGCGCTCAACGCCCTCGGCTACACCTTGTCGGATCGCACCACCCGCTACGATGAAGCCAAGGTGCTGATCGAGAAAGCCCATCAGATCAATCCGGAAGACCCTGCCGTGCTCGACAGCCTTGGCTGGGTGAATTTCCGCCTGGGCAATCTCGACGAAGCCGAACGCCTGTTGCGCCAGGCCCTGGAGCGCTTCCCCGACCAGGAAGTAGCCGCTCACCTGGGTGAAGTCCTGTGGGCCAACGGCAAACAGCGCGAGGCCCGGCAGATCTGGAGCAAATTCCTCAAGGAACAGCCCGACAGCCCGATTCTGCGCAGCACCATCAAACGCCTGACCGGATCAGAGACTCTTTAA	MNRSFALLLAFAFLGGCQSMAPVSTDGTPPVEDSTPAPEKPKVYGSFSEETIFSLLSAELAGQRNRFDIALDNYVTQAVNTQDPGISERAFRIAEYLGADQPALDTALIWARNAPDDLEAQRAAAVQLARAGRYDDSMMYMEKVLLGKGDTHFDFLALSAADTDQETRDGLMKSFDRLLQRHPNNGQLIFGKALLLQQNGDSQGALTLLEDNPPEPGEVAPILLRARLLQSMNRGDEALPLMEKSIKKYPDDKRLRLTYARMLVENNRMDDAKVEFSSLVQQYPEDDDLRYSLALVCLEAKAWEEAKGYLEDLIARESHVDSAHLNLGRIAEERNDPESALIEYAQVGPGNDYLPAQLRQADILIGNGRAAEAQSRLAIQRDTQPDYGIQLYLIEAETLAANNQSDKAWAVLQQALKQYPDDLNLLYTRSMLAEKRNDLAQMEKDLRLIIQRDPDNAMALNALGYTLSDRTTRYDEAKVLIEKAHQINPEDPAVLDSLGWVNFRLGNLDEAERLLRQALERFPDQEVAAHLGEVLWANGKQREARQIWSKFLKEQPDSPILRSTIKRLTGSETL				NA	NA	NA	NA	NA
D1-35_04312	1287	hemA	COG0373	Glutamyl-tRNA reductase	ATGGCCTTCCTTGCACTTGGTATCAACCACAAGACTGCTTCAGTAGACGTCCGCGAGCGCGTGGCCTTTACGCCTGAGCAGCTGGTGGAGGCCCTGCAGCAACTCTGCCGACTCACCGACAGCCGAGAAGCCGCGATTCTCTCCACCTGCAATCGCAGTGAGCTTTATATAGAGCAGGATCACGTTTCGGCCGATTCGGTGCTGCGCTGGCTGGCCCAATACCATGATCTGAGCCTTGAAGAGCTGCGCGCCAGTGCCTATGTGCATGAGGACGATGCGGCAGTTCGTCACATGATGCGCGTCGCCTCCGGGCTCGATTCGCTGGTGCTGGGCGAACCGCAGATTCTCGGCCAGATGAAATCGGCCTACGCCGTGGCCCGCGAGGCCGGGACAGTTGGCCCGCTGCTGGGGCGTCTGTTCCAGGCCACCTTCAATGCCGCCAAGCAAGTACGCACCGACACTGCCATTGGCGAAAACCCGGTGTCCGTGGCGTTCGCCGCCGTCAGCCTGGCGAAACAGATTTTCAGTGATTTGCAACGCAGCCAGGCGCTGTTGATCGGCGCGGGCGAGACCATCACCCTGGTCGCCCGGCACCTGCACGACCTCGGCGTGAAGCGCATCGTGGTCGCCAACCGTACGCTGGAACGCGCCAGCACCCTGGCCGAGCAGTTCGGCGCTCATGCAGTGCTGCTCTCGGACATTCCCGCCGAGCTGGTGCACAGCGACATCGTCATCAGTTCCACCGCCAGCCAACTGCCGATCCTCGGCAAGGGCGCGGTGGAAAGCGCCCTGAAGCTGCGCAAGCACAAGCCGATCTTCATGGTCGATATCGCCGTTCCCCGTGACATCGAACCGGAAGTGGGCGAACTCGACGACGTTTACCTCTACAGTGTCGATGACCTGCACGAAGTCGTCGCCGAGAACCTCAAGAGCCGGCAAGGCGCGGCCCAGGCGGCGGAGGAAATGATCACCGTCGGCGCCGAGGACTTCATGGTGCGCCTGCGCGAGCTGGCGGCGGTGGATGTGCTCAAGGCGTATCGTCAGCAAAGCGAGCGGCTACGCGACGAAGAATTGCAAAAGGCCCAGCGCCTGCTGGCCAATGGCGGCAGCGCCGAAGAGGTGTTGGTGCAACTGGCGCGTGGCCTGACCAACAAATTGCTTCACGCGCCCAGTGTCCAGCTCAAGAAGCTGACCGCCGAAGGCCGCCTCGATGCGCTGGCCATGGCCCAGGAACTTTTCGCCCTCGGTGAAGCTTCACCGGATGGCTTATCGGATAAGAAACCGTAA	MAFLALGINHKTASVDVRERVAFTPEQLVEALQQLCRLTDSREAAILSTCNRSELYIEQDHVSADSVLRWLAQYHDLSLEELRASAYVHEDDAAVRHMMRVASGLDSLVLGEPQILGQMKSAYAVAREAGTVGPLLGRLFQATFNAAKQVRTDTAIGENPVSVAFAAVSLAKQIFSDLQRSQALLIGAGETITLVARHLHDLGVKRIVVANRTLERASTLAEQFGAHAVLLSDIPAELVHSDIVISSTASQLPILGKGAVESALKLRKHKPIFMVDIAVPRDIEPEVGELDDVYLYSVDDLHEVVAENLKSRQGAAQAAEEMITVGAEDFMVRLRELAAVDVLKAYRQQSERLRDEELQKAQRLLANGGSAEEVLVQLARGLTNKLLHAPSVQLKKLTAEGRLDALAMAQELFALGEASPDGLSDKKP	PGPT0003650_2055	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003650-hemA-K02492	NA	NA
D1-35_04313	1083	prfA	COG0216	Peptide chain release factor RF1	ATGAAAGCGTCACTGCTCAATAAGCTGGATATTCTCCAGGACCGTTTCGAGGAACTGACCGCCTTGCTGGGCGATGGCGAAGTCATTTCCGACCAGAACAAATTTCGCACCTACTCCAAGGAGTACGCGGAAGTCGAGCCGATCGTTGCGACCTACAAGCAGTTGCTCAAGGTGCAGAGCGACCTTGAGGGCGCCCAGGCGCTGCTCAAGGACAGCGACCCGGACCTGCGCGAGATGGCCGTGGAAGAAGTTCGCGAAGCCAAGGAGCAACTGGTCGAGCTGGAAAGCGACCTGCAACGCATGCTGTTGCCCAAGGACCCGAACGACGGGCGCAACGTGTTCCTCGAAATCCGCGCCGGCACTGGCGGCGACGAGGCGGCGATCTTTTCCGGTGACCTGTTCCGCATGTATTCGCGCTACGCCGAGCGTCGCGGCTGGCGGGTCGAGATCCTCTCGGAAAACGAAGGCGAACACGGCGGCTATAAAGAAGTCATCGCCCGGGTCGAGGGCGATAACGTCTATGGCAAGTTGAAGTTCGAGTCCGGCGCCCACCGCGTACAACGCGTGCCGGCCACCGAATCTCAGGGGCGCATCCATACGTCCGCCTGCACCGTGGCGGTCTTGCCCGAGCCGGACGAACAGGAGGCCATCGAGATCAACCCGGCGGACCTGCGCGTCGACACCTACCGGTCCTCCGGCGCGGGCGGCCAGCACGTGAACAAGACCGACTCGGCGATCCGCATCACTCACTTGCCTTCGGGCATCGTGGTGGAGTGCCAGGAAGAGCGCTCCCAGCACAAGAACCGCGCGCGGGCGATGGCCTGGTTGTCGGCCAAGCTCAACGACCAGCAGACCAGCGCCGCCGCCAATGCCATCGCCAGCGAACGCAAGTTGCTGGTGGGCTCGGGCGACCGTTCCGAGCGGATCCGTACCTACAACTTTGCCCAGGGCCGGGTCACCGACCACCGTGTCAACCTGACCCTGTATTCCCTCGACGAAATTCTTGCAGGTGGTGTCGACGCCGTCATCGAGCCCTTGCTCGCTGAATACCAGGCTGACCAGCTGGCCGCGATTGGCGAGTAA	MKASLLNKLDILQDRFEELTALLGDGEVISDQNKFRTYSKEYAEVEPIVATYKQLLKVQSDLEGAQALLKDSDPDLREMAVEEVREAKEQLVELESDLQRMLLPKDPNDGRNVFLEIRAGTGGDEAAIFSGDLFRMYSRYAERRGWRVEILSENEGEHGGYKEVIARVEGDNVYGKLKFESGAHRVQRVPATESQGRIHTSACTVAVLPEPDEQEAIEINPADLRVDTYRSSGAGGQHVNKTDSAIRITHLPSGIVVECQEERSQHKNRARAMAWLSAKLNDQQTSAAANAIASERKLLVGSGDRSERIRTYNFAQGRVTDHRVNLTLYSLDEILAGGVDAVIEPLLAEYQADQLAAIGE				NA	NA	NA	NA	NA
D1-35_04314	831	prmC_1	COG2890	Release factor glutamine methyltransferase	ATGACCATCATCGCCAGCTTGCTTCGCGCCGCGCAATTGCCGGATTCGCCCAGCCCACGACTGGACGCCGAGCTGTTGCTGGCCGCCGCCCTGGGCAAGTCCCGCAGCTTCCTGCACACCTGGCCCGAGCGAATCGTGCCGAGCGAGGCGGCGCTGTTGTTTTCCGAATACTTGCGTCGCCGTCGCTCCGGCGAGCCGGTGGCTTATATTCTCGGGCAGCAGGGTTTCTGGAAACTCGATCTGGAAGTCGCGCCCCATACGCTGATCCCGCGGCCCGACACCGAACTGTTGGTCGAGACCGCACTGGCATTGTTGCCAGCCACGCCCGCCCGGGTCCTCGACCTTGGCACCGGCAGCGGCGCGATTGCCCTGGCGCTGGCCAGCGAGCGTCCGGCCTGGAATGTCACGGCGGTCGACCGGGTGCTGGAAGCCGTGGCCCTGGCCGAGCGCAATCGCCAGCGCCTGGGCCTGCGCAATGTCACGGTGCTCAGCAGTCACTGGTTCAGCGCCCTGGAAGGCGAGCGTTTCGACCTGATCATCAGCAACCCGCCTTATATAGCCGCCAGCGATCCGCACCTGGCCGAGGGCGATGTGCGCTTCGAGCCGGCCAGTGCGCTGGTGGCGGGGCCGGACGGTCTCGACGACTTGCGTGCAATCATCGCCCAGGCCCCCGATCATCTCGGGGCAGGCGGCTGGCTGATGCTGGAGCACGGTTATGACCAGGCCGAGGCGGTGCGTGGTCTGTTGCAAAAGCAAGGGTTTGCCGAAGTCCACAGTCGCAAGGATCTGGGTAATCACGAACGCATCAGCCTGGGACGCCTGCCGTGCTGA	MTIIASLLRAAQLPDSPSPRLDAELLLAAALGKSRSFLHTWPERIVPSEAALLFSEYLRRRRSGEPVAYILGQQGFWKLDLEVAPHTLIPRPDTELLVETALALLPATPARVLDLGTGSGAIALALASERPAWNVTAVDRVLEAVALAERNRQRLGLRNVTVLSSHWFSALEGERFDLIISNPPYIAASDPHLAEGDVRFEPASALVAGPDGLDDLRAIIAQAPDHLGAGGWLMLEHGYDQAEAVRGLLQKQGFAEVHSRKDLGNHERISLGRLPC				NA	NA	NA	NA	NA
D1-35_04315	756	moeB	COG0476	Molybdopterin-synthase adenylyltransferase	GTGCTGAATGATCAAGAACTGCTGCGCTACAGTCGCCAGATTCTGTTGCAGCACATCGACATCGATGGGCAGCTGCGCCTCAAGCAGGGCCGCGTATTGATCATCGGCCTCGGTGGCCTGGGCGCCCCGGTGGCGTTGTACCTGGCCGCCGCCGGCGTCGGCGAGTTGCACCTGGCGGATTTCGACACGGTCGACCTGACCAACCTTCAGCGACAGATCATTCACGACACCGACAGCGTCGGCCTGAGCAAGGTCGATTCGGCGGTGCGTCGCCTGGCCGCCATCAATCCCGAGGTTCGCCTGGTTTCCCATTCGACCGCCATGGATGAAGACTCCCTGGCCGGCGCGGTGGCGGCGGTGGATGTGGTGCTCGACTGTTCCGACAACTTTGCTACCCGCGAAGCGGTGAATGCGGCGTGTGTCACCGCCGCCAAGCCCCTGGTCAGCGGCGCAGCGATTCGCCTGGAAGGGCAACTGTCGGTATTCGACCCACGTCGCCCCGAAAGTCCTTGTTACCACTGCCTTTACGGGCATGGCAGCGAAGCCGAGCTGACCTGCAGCGAAGCCGGTGTGCTTGGGCCGCTGGTGGGTTTGGTAGGCAGTCTCCAGGCGCTGGAAGCCTTGAAGTTGCTGGCGGGTTTCGGTGAGCCCCTGGTGGGGCGCCTGCTGCTGATCGATGCCCTGGGCACGCGTTTTCGCGAACTACGCGTCAAGCGCGATCCGCGCTGCGGTGTCTGCGGTAACCGGCATGCGTGA	MLNDQELLRYSRQILLQHIDIDGQLRLKQGRVLIIGLGGLGAPVALYLAAAGVGELHLADFDTVDLTNLQRQIIHDTDSVGLSKVDSAVRRLAAINPEVRLVSHSTAMDEDSLAGAVAAVDVVLDCSDNFATREAVNAACVTAAKPLVSGAAIRLEGQLSVFDPRRPESPCYHCLYGHGSEAELTCSEAGVLGPLVGLVGSLQALEALKLLAGFGEPLVGRLLLIDALGTRFRELRVKRDPRCGVCGNRHA	PGPT0008935_729	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
D1-35_04316	792	murI	COG0796	Glutamate racemase	ATGCGTGAGGCGCCGGTCGGTGTGTTCGACTCGGGTGTCGGCGGGCTGTCGGTGCTGGGGGAAATCCGTCGGCTGTTGCCCAATGAGTCGCTGCTGTACGTTGGCGACTGCGGGCATATTCCGTATGGCGAAAAAAGCCCGGAATTCATCCGGCAGCGCTGCGCGGTCATTGCCGACTTTTTCCAGCGCGAGGGCTCCAAGGCGCTCGTGGTGGCCTGCAACACCGCGACAGTCGCCGGGGTGGCTGACCTGCGTCGCGACTACCCCGATTGGCCCATCGTTGGTATGGAGCCGGCGGTCAAGCCGGCTGCCGCCGCGACGCGAAGCGGCATCGTTGGCGTGCTGGCAACGACTGGCACCTTGCAGAGCGCCAAATTTGCCGCGTTGCTCGACCGCTTCGCCACGGATGTCCGCGTGATCACGCAGCCCTGTCCGGGACTGGTGGAATTGATCGAGGCGGGCGACCTGCACAGTTCGGCCTTGCACCAACTGCTACAAGGCTACGTCAACCCGTTGCTGGCGGCTGGCTGCGACACACTGATCCTTGGCTGTACGCACTATCCATTCCTCAAGCCGTTGCTCAAACAGATGATTCCGGCCCATATCAGTCTGATCGATACGGGCGCCGCCGTGGCCCGGCAACTCCAGCGCTTGTTGGCGGAGCGGGCGCTACTGGCTGACGGGCCTGCCAGCGAAACTCAATTCTGGAGTAGCGCTGATCCGATACATTTAAGAAATATCCTACCGATGCTATGGAATTCGTCTGGCATTGTGCGAAGCTTCGTTCTGTAA	MREAPVGVFDSGVGGLSVLGEIRRLLPNESLLYVGDCGHIPYGEKSPEFIRQRCAVIADFFQREGSKALVVACNTATVAGVADLRRDYPDWPIVGMEPAVKPAAAATRSGIVGVLATTGTLQSAKFAALLDRFATDVRVITQPCPGLVELIEAGDLHSSALHQLLQGYVNPLLAAGCDTLILGCTHYPFLKPLLKQMIPAHISLIDTGAAVARQLQRLLAERALLADGPASETQFWSSADPIHLRNILPMLWNSSGIVRSFVL	PGPT0020200_3595	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020200-murI-K01776	NA	NA
D1-35_04317	519	pagL		Lipid A deacylase PagL	ATGAAGCGTTTATTCTGCTTTGCCGCATTTGCGGCTGCGTTGCTGGGGCACACTTACACCGCACAGGCGGCGGGCGTGGAATTCGGGGTTGGCCAGACCGGCGACTCGACCATGACCTATCGCCTGGGCATGCAGTTCGATTGGGACAAGAGCTGGCTGCAGAGCGACGTGGGTCGCCTGACCGGTTACTGGAGCGGTGCCTATACGTACTGGGAGGGGGACGAAACTTCGAGCAACCACAGCCTGTCGTTCTCGCCAGTCCTGGTGTATGAGTTTGCCGGTCAGAACGTGAAGCCTTACATCGAGGCAGGCGTCGGTGTTGCGCTGTTTGAAAACACTGAAATCGAAAGCAACAAGCTCGGCACAGCGTTCCAGTTCGAAGACCGCATCGGCTTTGGCCTGCGCTTCAATGGCGGGCATGAAGTCGGCATCCGTGCCACTCACTATTCCAACGCCGGGATCAAGTCGACCAACGACGGTGTGGAAAGCTACGCATTGCATTACACAATGCCGCTGTAA	MKRLFCFAAFAAALLGHTYTAQAAGVEFGVGQTGDSTMTYRLGMQFDWDKSWLQSDVGRLTGYWSGAYTYWEGDETSSNHSLSFSPVLVYEFAGQNVKPYIEAGVGVALFENTEIESNKLGTAFQFEDRIGFGLRFNGGHEVGIRATHYSNAGIKSTNDGVESYALHYTMPL	PGPT0022415_600	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022415-pagL-K12976	NA	NA
D1-35_04318	306			hypothetical protein	ATGAAGACCATCCCGCTGCACGAAATCCCCGCCCCGGCCGTCACGTGTTCAACGTGTGCGGCGTGCTGCTGCCAACTGGAAGTCATGTTGATCACCGACACCGGCGTGCCCGAGCGTTTCATCGACACGGATGACTGGGGTGGAGAAGTGATGCTGCGTCTTGACGACGGCTGGTGCGCGGCGCTGGATCGCGACACCATGCGGTGCACGATCTACGAAAGGCGTCCGCTCATCTGCCGGGAGTTCGAGATGGGTGCGCCGGAGTGCCTGGAAGAGCGCCAGGGCATTGCAACGGCATATAGATAG	MKTIPLHEIPAPAVTCSTCAACCCQLEVMLITDTGVPERFIDTDDWGGEVMLRLDDGWCAALDRDTMRCTIYERRPLICREFEMGAPECLEERQGIATAYR				NA	NA	NA	NA	NA
D1-35_04319	765			hypothetical protein	ATGGGTTCGACACCGCCACGGCGATACTGGCTGACCGGCGCCGGTAACGGAATTGGCGCCTCTTTGGCCGAATCGATACTGCGTACCGGCGCCCATCTGGCTGTCAGCTCACGCTTGCCGTGCGATGCGCTTTTGGCAAGATATCCAGGACAGGTCCTGATCGTGGCCGGCAATCTGACCGACAGCCAGGCCGTACGCGAGGTGGGCGAGCGAATCGCCCAGGAATGGGGCTCCCTGGATACCGTGATCATCAACGCCGGAACCGCCGAATACATCAGCGGACAACCCGTCAACCCATCGATCATCGAACACATCGTGCGCAGCAACCTGCTGGCCGCCAGCCTGTGTATCGAGGCGGCCGCGCCATTGCTGCGCGCCGGCAACGGGACCCATCTGGTGGGCATCGCCAGTCCGCTGACCTATCTGCCGCCCTCGCAATTCGAGGCCGGGGACCAAGGGATGCGCTTTTTATTCGAATCGGCTCGCGGCAAACTGGCCCGCGATGGCATCGACGTGACCATCGTGCACCCAGGGTTCGATAACTCATCGCCGGCCATCGACGATGGCTTGCCTCCTTCGATTCGCTGGTCTGCTGAAACGGCGGCCCAGCACATCCTGACCCAACTGATCGAACGTCCCCTTGAAGTGATCCTGCCCGCCATGACCATGAACCTGCTTTGGCCACTGCCATCGACCGACACGGTGCTGGCGGGCGCGCATTCACGTTCGGACAGTTACCAGTGCCCGATCAAGGGACACCCCTGA	MGSTPPRRYWLTGAGNGIGASLAESILRTGAHLAVSSRLPCDALLARYPGQVLIVAGNLTDSQAVREVGERIAQEWGSLDTVIINAGTAEYISGQPVNPSIIEHIVRSNLLAASLCIEAAAPLLRAGNGTHLVGIASPLTYLPPSQFEAGDQGMRFLFESARGKLARDGIDVTIVHPGFDNSSPAIDDGLPPSIRWSAETAAQHILTQLIERPLEVILPAMTMNLLWPLPSTDTVLAGAHSRSDSYQCPIKGHP				NA	NA	NA	NA	NA
D1-35_04320	1434	phrB	COG0415	Deoxyribodipyrimidine photo-lyase	ATGCAAATGATCTGGCTGCGCAGCGACTTGCGCCTGCACGACAACACCGCCCTGGCGGCCGCCGCTGCCCGGGGGCCCTGCGTAGCGGTCTACCTGCCGAGCCCGAAGCAATGGGCGGCCCATGACGATGCACCCTGCAAGATCGATTTCTGGTTGCGCAACCTCGCGGCATTGAGCACTGCCCTGGCGGAACTGAACATCCCATTGCTGATCCGCAACACGGAGTATTGGAATCAGGCCCCGCAAGTGCTGGTCACTTTATGTCGCGAGCTGGGCATCGGTGCCGTACACGTCAACGAGGAATACGGCCTGAATGAAACCCGGCGCGACGCCGACGTCGCCCGGGCGCTAAAGGTTGAGGGCGTGGAATTTCACAGCCATCTCGACCAGCTCCTGTTCAAGCCCGGCAGCGTCCTGACCAAGACCGGCAGTTATTTCAAGGTGTTCAGCCAATTTCGCAAGGTCTGCTATAGCCGTCTGCATTTTTCGTTACCGAGCCTGGTGCCCGCGCCTGTCCGGCAGGCGCCTACCGCCATCGCCAGCGATCCGCTGCCGACGCAGATCGAAGGGTTCAATCCGCCAAATGCGGCGCTGCGCGATCTCTGGCCCGCCGGCGAAAGCGAAGCCCGGCGCCGGCTCGAGTCGTTCGTCGAGCAACACATCGATTACTACCAGAGCGAACGGGATTTTCCGGCCAGACCCGGGACCAGCCAGCTGTCGGCCTATCTGGTGGCCGGCGTGGTTTCACCGCGCCAGTGCCTGCACGCCGCGCTACAGGCCAATCAGGGCGAGTTCGAAAGCGGAAACGTCGGAACCGTGACCTGGATTAACGAACTGCTCTGGCGCGAGTTTTATAAACACGTTCTGGTGGGATTCCCCCGCGTATCGCGCCACCGCGCGTTCCGCCCGGAAACCGAGGCCCTGGCCTGGCGCAACGACCACCAGGCACTGGCGGCGTGGAAAGAAGCCCGTACCGGCTTGCCGATCATTGACGCGGCCATGCGCCAATTGCTTGAGACCGGCTGGATGCATAACCGCCTACGGATGGTGGTGGCGATGTTCCTGACCAAGAACCTGTTGATCGATTGGCGAGAGGGCGAACGCTTTTTCATGCAGCACCTGATCGACGGTGACCTGGCGGCAAACAATGGCGGCTGGCAGTGGAGCGCCTCGACCGGCACGGACTCGGCGCCCTGGTTCCGGATTTTCAACCCGTTGAGCCAATCGGAAAAATTCGACCGCGAGGGCTTGTTCATCAAACGCTGGCTACCCGAACTGAACGATCTCGATAAGCCGGATGTCCATAACCCGAATACCCGTGGCGATTTGTTTGGCGCGGTGGACTACCCCGCTCCGATCGTCGACCTCAGCCAGTCCAGGGCCCGCGCCCTGGCAGCGTTCAGAAACCTGCCGTCACGGCAGGACGCCGGTTGA	MQMIWLRSDLRLHDNTALAAAAARGPCVAVYLPSPKQWAAHDDAPCKIDFWLRNLAALSTALAELNIPLLIRNTEYWNQAPQVLVTLCRELGIGAVHVNEEYGLNETRRDADVARALKVEGVEFHSHLDQLLFKPGSVLTKTGSYFKVFSQFRKVCYSRLHFSLPSLVPAPVRQAPTAIASDPLPTQIEGFNPPNAALRDLWPAGESEARRRLESFVEQHIDYYQSERDFPARPGTSQLSAYLVAGVVSPRQCLHAALQANQGEFESGNVGTVTWINELLWREFYKHVLVGFPRVSRHRAFRPETEALAWRNDHQALAAWKEARTGLPIIDAAMRQLLETGWMHNRLRMVVAMFLTKNLLIDWREGERFFMQHLIDGDLAANNGGWQWSASTGTDSAPWFRIFNPLSQSEKFDREGLFIKRWLPELNDLDKPDVHNPNTRGDLFGAVDYPAPIVDLSQSRARALAAFRNLPSRQDAG				NA	NA	NA	NA	NA
D1-35_04321	939			hypothetical protein	ATGAAGAACGAGCTCGACTCCAGCGCCAGCGAAGACCTGGGCGCCGATTTCGCCAAGGCCCTCGCGCAGGGCTGGCTGCCCATCCGCGAAGTCGCCCGGCAAACCGGCGTCAATGCCGTCACGCTGCGAGCCTGGGAGCGGCGCTACGGGTTGATCGTGCCGCACCGTACGCCCAAGGGCCATCGCTTGTTCAATCGCGAACATGTGCAGCGGATCCTGAGCATCCTCACCTGGATCGATCGTGGCGTGGCAGTGAGCAAGATAAAACCGTTGCTCGACACACCGCAGCCGTCAGGCGAACCGTTGGAAGACGACTGGCAACGTCAGCGCCATGCCCTGATGCTGGCGGTGACGCAACTGGCCGAGCGTCAGGTCGATGAGTCGGTGAACCAGGCCATGGCGCTGTATCCGCCTTGGACTGTTTGTGAACAGTTGCTCCTGCCCTTGCTGGGCGAGTTGCAATTGCGCTGGCAGAGCCAGTTCGGCGCGCAGCTGGAAAAGGTCTTCCTGTACTCCTGGCTGCGCAGCAAATTCGGCAGCCGGATCTACCACAACAACCGCCAGTTGCGCGGCGCACCGCTGTTGATGATCAACCAGTCCGAGGTGCCGCAGGAGCCCCAGTTGTGGCTCACCGCCTGGCTGGCAAGCAGCGCCGACTGTCCCGTGGAGGTGTTCGACGGGCCGCTCCCGGCCGGTGAGCTGGCGTTGGCGGTCGAACGGCTCAAGGCCCGCGGCGTGCTGCTGTATTCGAGCCAGGCACTGAATCTGTCGCAATTGCCCAGGCTGCTGAGCGGGCTCGACTGCCCGATCATCATCGCCGGCCCCGCCGCCTCGATTCACCAGGCCAAGCTGTCCGCAAGCGCGGCAATGAGCAACGTCAGCTGGGCCGAAGACCCGCTATCGGCTTATCGCGAACTGAGCCGCAGAGAACTTCTTTAG	MKNELDSSASEDLGADFAKALAQGWLPIREVARQTGVNAVTLRAWERRYGLIVPHRTPKGHRLFNREHVQRILSILTWIDRGVAVSKIKPLLDTPQPSGEPLEDDWQRQRHALMLAVTQLAERQVDESVNQAMALYPPWTVCEQLLLPLLGELQLRWQSQFGAQLEKVFLYSWLRSKFGSRIYHNNRQLRGAPLLMINQSEVPQEPQLWLTAWLASSADCPVEVFDGPLPAGELALAVERLKARGVLLYSSQALNLSQLPRLLSGLDCPIIIAGPAASIHQAKLSASAAMSNVSWAEDPLSAYRELSRRELL				NA	NA	NA	NA	NA
D1-35_04322	981			hypothetical protein	ATGCCCAACGAAGCTATCGCCAAACCGAAAATTGCCATCAGCGCCTGCCTGATGGGTGCCGAAGTGCGCTTCAATGGTGGTCACAAGCAATCGCCGTTGTGCAGCCGCACGCTGGTCGAGTACTTTGATTTCGTGCCGGTGTGTCCGGAAGTTGCCATTGGCCTGGGCGTCCCGCGCGAGCCGATCCGGCTGGTTGGCAATCCCGCGCGCCCCGACGCGGTCGGCACGGTGAAGCGAGACCTCGACGTGACCCAGCCATTGGTCGATTACGGACAACAAATGGCCGCTGAGCTGGATGACATCTGCGGCTATATCTTCATGCAGAAGTCGCCGTCCTGCGGGCTGGAGCGGGTCAAGGTCTACGACCACAACGGTGTCCCGCAGGACGGCGGCGGACGTGGTGTCTACGCCCAGGCCTTTTGCGAGCGTCACCCCGATCTGCCGGTGGAAGAAGACGGCCGCCTCAACGATCCGGTACTGCGGGAGAACTTTCTGACCCGTGTATTCGCCTATGCCGCCTGGCAACCGCTGCGCCGCCGGGGGCTGACCCGACGCGACCTGATTGAATTTCACTCACGCTACAAGTACCTGTTGATGGCCCACAACCCTGAGCAATACAAGGCGTTGGGCAACATGTTGGGCAACATGGGCAACATGGGCAACATGGGCAAGGCTGATCCGGCCGAACTGGGCCAGCGTTATTTCAGCGCGCTGATGGCGGCCTTGAAGAAATGCGCCACCCGACGCACGCACACCAACGTCCTGCAGCACCTCAGCGGTTACCTCAAGCGCGCCATCGATGCCGATGACAAGCAGGAGGTGCAGCACCTGATCGGGCAGTACCGTCTTGGTATCGTGCCACTGGTGGTGCCGCTGACGTTGCTCAAGCATCATCTGCGTCAGCACCCCGACCCCTATCTCGCCCAACAGGTCTACCTGCAACCGCACCCAGAGAACCTCAGCTTGCGAAACGCCATTTGA	MPNEAIAKPKIAISACLMGAEVRFNGGHKQSPLCSRTLVEYFDFVPVCPEVAIGLGVPREPIRLVGNPARPDAVGTVKRDLDVTQPLVDYGQQMAAELDDICGYIFMQKSPSCGLERVKVYDHNGVPQDGGGRGVYAQAFCERHPDLPVEEDGRLNDPVLRENFLTRVFAYAAWQPLRRRGLTRRDLIEFHSRYKYLLMAHNPEQYKALGNMLGNMGNMGNMGKADPAELGQRYFSALMAALKKCATRRTHTNVLQHLSGYLKRAIDADDKQEVQHLIGQYRLGIVPLVVPLTLLKHHLRQHPDPYLAQQVYLQPHPENLSLRNAI				NA	NA	NA	NA	NA
D1-35_04323	987		COG3380	Renalase	ATGACTGTACCCATCGCAATCATCGGCACCGGCATCGCCGGACTTTCAGCCGCCCAGGCCCTGACGGAGGCCGGGCATGTCGTTCAACTCTTCGATAAAAGCCATGGCAGCGGCGGCCGCATGTCGAGCAAGCGCAGCGACGCTGGCGCGCTGGACATGGGCGCACAATATTTCACCGCCCGGGATCGGCGCTTCGTCACGGAAGTCCAGCGCTGGCAAGCCAACGGCTGGGCGGCGGAATGGAACCCGCAGCTCTATCACTTCCAGGACGGGCAGATGAGCCCCTCGCCGGACGAGCAGACCCGCTGGGTCGGTACCCCGCGCATGAGCGCGATTACCCGCGCCCTGCTCGGCGAGCTGCAGGTGCAGTTCTCCTGCCGCATCACCGAGGTCTTTCGTGGCCAGGAACACTGGCACCTGCAGGACGCCGAAGGGGTTACCCACGGCCCGTTCGGCCAGGTCGTGATTGCCACGCCCGCGCCTCAGGCCACGGCATTGCTCGCCGCCGTGCCGAAACTGGCCGGCGTCGCCGCCGGGGTGAAGATGGACCCCACCTGGGCAGTGGCGCTGGCCTTTGAACAACCCCTGGATACGCCCATGGAGGGCTGCTTCGTCCAGGACAGCCCCCTCGACTGGCTGGCCCGCAACCGCAGTAAACCAGGGCGCGATGCCAAGCTCGACACCTGGGTGCTGCATGCAACCAGCGACTGGAGCCGCCAGCACATCGACATGCCCAAGGAAGCGGTGATCGAGCATTTGCACGGCGCCTTCGCAGAACTGCTGCACAGCGCGATGCCCGCGCCGAGCTTCAGCGTGGCCCATCGCTGGCTCTACGCCCGTCCCGCCGGCAGCCACGAATGGGGCGCCCTGGCCGATGCCGACCTGGGCTTGTATGTGTGCGGAGACTGGTGCCTGTCCGGCCGGGTCGAAGGAGCATGGCTCAGTGGCCAGGATGCCGCCCGTCGCTTGCACGCCAGCCTTCAGTGA	MTVPIAIIGTGIAGLSAAQALTEAGHVVQLFDKSHGSGGRMSSKRSDAGALDMGAQYFTARDRRFVTEVQRWQANGWAAEWNPQLYHFQDGQMSPSPDEQTRWVGTPRMSAITRALLGELQVQFSCRITEVFRGQEHWHLQDAEGVTHGPFGQVVIATPAPQATALLAAVPKLAGVAAGVKMDPTWAVALAFEQPLDTPMEGCFVQDSPLDWLARNRSKPGRDAKLDTWVLHATSDWSRQHIDMPKEAVIEHLHGAFAELLHSAMPAPSFSVAHRWLYARPAGSHEWGALADADLGLYVCGDWCLSGRVEGAWLSGQDAARRLHASLQ				NA	NA	NA	NA	NA
D1-35_04324	900			Epimerase family protein	ATGCACATATTGCTGACCGGCGGTACTGGTTTGATCGGACGTCAACTCTGCCGGCACTGGCTGGAGCAGGGACATCGCCTGACGGTCTGGAGTCGTCGGCCCGAACAGGTGGCGAAAATCTGTGGCGCGCAGGTGCGCGGTGTCGCCAGCCTCGATGAGCTTGGCGAGCCGGTGGACGCGGTCGTCAACCTTGCCGGCGCGCCTATTGGCGACCGGCCCTGGAGCCATAAACGCAAGATGCTGCTGTGGAGCAGCCGCGTCACGCTGACCGAGGATCTGCTGGCCTGGCTGGAGCGTTGCGAACAGAAACCGCGGGTGCTGATTTCCGGCTCTGCGGTGGGCTGGTATGGCGACGGCGGCGAGCGGGAGTTGACCGAAGAATCCGGGCCGGTCAGCGAAGACTTCGCCAGCCAGTTGTGCATCGCCTGGGAAGAAACCGCGCAACGTGCAGAAGCCCTGGGCATACGCGTGGTGCTGGTTCGCACCGGCCTGGTCCTGTCTGCCGAGGGCGGCTTTTTGTCGCGGCTGTTGCTGCCGTTCAAACTGGCAATGGGCGGGCGTATCGGCAGCGGGCGGCAGTGGATGCCCTGGATCCATATCGACGATCAAATCGCCCTGATTGATTTTCTTCTGCACCGCAGCGATGCCAGCGGTCCTTATAATGCCTGCGCACCGAACCCGGTGCGCAACCGCGATTTCGCCAAGGCCCTGGGGCACGTGCTGCATCGCCCGGCCGTGGTGCCGATGCCGGAGCTTGCGTTGAAAATCGCATTGGGGGAGTTGTCATTGCTGTTGCTGGGAGGCCAGCGCGCCACGCCCACCCGATTGCAGGCGGCGGGGTTTTCATTCCGGTTCACTGAGTTGTCTGCGGCCCTGGAAGATTTGTCGGGTCGCCTTTGA	MHILLTGGTGLIGRQLCRHWLEQGHRLTVWSRRPEQVAKICGAQVRGVASLDELGEPVDAVVNLAGAPIGDRPWSHKRKMLLWSSRVTLTEDLLAWLERCEQKPRVLISGSAVGWYGDGGERELTEESGPVSEDFASQLCIAWEETAQRAEALGIRVVLVRTGLVLSAEGGFLSRLLLPFKLAMGGRIGSGRQWMPWIHIDDQIALIDFLLHRSDASGPYNACAPNPVRNRDFAKALGHVLHRPAVVPMPELALKIALGELSLLLLGGQRATPTRLQAAGFSFRFTELSAALEDLSGRL	PGPT0014730_2445	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014730-yfhF-K07071	NA	NA
D1-35_04325	1026	hemH	COG0276	Ferrochelatase	ATGACCGATCACGCGTTGCTTCTGGTGAATCTGGGTTCGCCTGCCTCCACCTCGGTGGCCGATGTACGCCGCTACCTCAACCAATTTCTGATGGACCCCTACGTCATCGACCTGCCATGGCCGGTGCGGCGGCTGCTGGTGTCGCTGATCCTGGTCAAGCGCCCCGAGCAATCGGCCCACGCCTATGCCTCGATCTGGTGGGAAGAGGGCTCGCCACTGGTGGTCCTCAGTCGCCGCCTGCAACAGGCCATGAAAGCGCAATGGACCCAGGGCCCGGTGGAGCTGGCAATGCGTTATGGCGAGCCATCGATCGAATCGACCCTGGTGCGCCTGGCAAGCCAGGGGCACACGAAAATCACCCTGGCGCCGCTGTATCCGCAGTTCGCCGACAGCACCGTGACCACGGTCATCGAAGAAGCAAAGCGGGTAGTGCGTGAGAAAAAGCTCAAGGTGCAGTTCTCGATTCTCCAGCCCTTCTATGACCAGCCGGAATATATCGATGCCTTGGTTGCCAGCGCCAAGCCGTACCTGATGCAGGATTACGATCATCTGTTGCTGAGTTTCCATGGCCTGCCGGAACGGCACCTGACCAAGCTCGACCCTACGGGCTATCACTGCTTCAAGGACGCCGATTGCTGCCGGAACGCGCCGCCGGAAGTCATGGCCACGTGTTACCGCGCCCAGTGTATTCGTACCGCCGAGCTGTTCGCCCGGCAGATGGGGCTGGCGGATGGCAAATGGTCGGTGTCGTTCCAGTCGCGACTGGGACGGGCCAAGTGGATCGAACCTTATACCGAGGCGCGCCTGGACGAACTGGCCAAAAGCGGGGTGAAGAAAGTACTGGTGATGTGCCCGGCATTCGTTGCCGATTGCATCGAGACGCTGGAAGAAATCGGCGACCGCGGGCGCGAGCAGTTTCGCGAAGCGGGAGGGGAGGAGTTGGTACTGGTGCCGTGTCTCAATGACGATCCGCAGTGGGCGAAGGTGTTGAGCACCCTTTGCGAGCGGGCGCCGCTGGCGTTGTAG	MTDHALLLVNLGSPASTSVADVRRYLNQFLMDPYVIDLPWPVRRLLVSLILVKRPEQSAHAYASIWWEEGSPLVVLSRRLQQAMKAQWTQGPVELAMRYGEPSIESTLVRLASQGHTKITLAPLYPQFADSTVTTVIEEAKRVVREKKLKVQFSILQPFYDQPEYIDALVASAKPYLMQDYDHLLLSFHGLPERHLTKLDPTGYHCFKDADCCRNAPPEVMATCYRAQCIRTAELFARQMGLADGKWSVSFQSRLGRAKWIEPYTEARLDELAKSGVKKVLVMCPAFVADCIETLEEIGDRGREQFREAGGEELVLVPCLNDDPQWAKVLSTLCERAPLAL	PGPT0008485_2872	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
D1-35_04326	1275	uraA	COG2233	Uracil permease	ATGCAGGACGAATTCAACGATCCGCTCTGGCGTCAGGTGCTGTCCGGCGCGCAGATGCTGTTCGTCGCCTTCGGCGCGCTGGTGCTGATGCCGCTGATCACCGGCCTGGACCCGAACGTGGCGCTGTTCACCGCGGGCCTGGGGACGATCCTGTTCCAGATCGTTACCGGGCGTCAGGTGCCGGTGTTCCTGGCGTCGAGTTTTGCCTTCATCACGCCGATCATTCTTGCCAAAGGCCAGTTCGGCCTGGCGGCGACCATGGGCGGCGTGATGGCGGCCGGTTTCGTCTATACGTTCCTGGGCCTGGCGGTGAAGATCAAGGGCACCGGCTTCATTGACCGGCTGCTGCCACCGGTGGTGATCGGCCCGGTGATCATTTCCATCGGCCTGGCAATGGCGCCAATCGCCGCCAACATGGCGATGGGCAAGGCCGGCGACGGCACCGAGCTGATTCACTATCAGACGGCGATGCTGATCTCGATGCCGGCGTTGCTCACTACCCTGATCGTCGCCGTGTTCGGCAAAGGCATTTTCCGCCTGGTGCCGATCATCTCCGGCGTATTGGTGGGTTTTGCCATGGCCTTCTTCTTCGGCGTCGTCGACACCGCAAAAATCGCCGCCGCCCCCTGGTTCGCCCTGCCGGCCTTCACCGCGCCGGAGTTCAACTGGCAAGCGATCCTGTTCATCGTGCCCGTAGCCCTGGCGCCAGCGATCGAACACATCGGCGGGGTAATTGCCGTGGGTAGCGTGACCGGTCGCGACTACCTGAAAAAACCCGGCCTGCACCGCACCTTGTTCGGTGACGGCATCGCCACCACCGCAGCCGGCCTGTTTGGCGGCCCACCCAACACCACCTATGCCGAAGTGACTGGCGCGGTGATGCTGACCAAGAACTACAACCCGAAGATCATGACCTGGGCCTCGATCTTCGCCATCAGCCTGGCGTTCGTCGGCAAGTTCGGCGCACTGCTGCAAAGCATTCCGGTGCCGGTGATGGGCGGGATCCTGTGCCTGTTGTTCGGTTCGATCGCGGCGGTGGGCATGAACACACTGATCCGCCACAAGATCGACCTGGGCGAAGCACGCAACCTGGTGATCGTTTCGGTGACGCTGGTGTTCGGCATCGGCGGCGTACTGGTCGGCACCGGTACCGGCCCGGACGACTTCGGCCTCAAGGGCATCGCGCTGTGCGCCGTGGTGGCGATCGCGTTGAACCTGATCTTGCCGGGCAACGATGGCTGGAAGCAGAAAAAGGCGGATGAGCCACTGATTTGA	MQDEFNDPLWRQVLSGAQMLFVAFGALVLMPLITGLDPNVALFTAGLGTILFQIVTGRQVPVFLASSFAFITPIILAKGQFGLAATMGGVMAAGFVYTFLGLAVKIKGTGFIDRLLPPVVIGPVIISIGLAMAPIAANMAMGKAGDGTELIHYQTAMLISMPALLTTLIVAVFGKGIFRLVPIISGVLVGFAMAFFFGVVDTAKIAAAPWFALPAFTAPEFNWQAILFIVPVALAPAIEHIGGVIAVGSVTGRDYLKKPGLHRTLFGDGIATTAAGLFGGPPNTTYAEVTGAVMLTKNYNPKIMTWASIFAISLAFVGKFGALLQSIPVPVMGGILCLLFGSIAAVGMNTLIRHKIDLGEARNLVIVSVTLVFGIGGVLVGTGTGPDDFGLKGIALCAVVAIALNLILPGNDGWKQKKADEPLI				NA	NA	NA	NA	NA
D1-35_04327	639	upp	COG0035	Uracil phosphoribosyltransferase	ATGCCCATCCTCGAGATCCGCCACCCGCTGATCAGACATAAACTCGGCCTGATGCGCCGCGCCGACATCAGCACGAAGAACTTCCGCGAGCTCGCCCAGGAAGTCGGTGCCCTGCTCACCTACGAAGCCACCAAGGACCTGCCGCTGGAGTCCTACGAGATCGCCGGTTGGGCGGGCACGGTGCAGGTGGAAAAAATCGCCGGCAAGAAGATTACCGTGGTGCCGATCCTGCGTGCCGGTATCGGCATGCTCGAAGGCGTCCTGAGCCTGATTCCGGGTGCCAAGGTCAGCGCCGTCGGCGTGGCCCGCAACGAGGAAACCCTGCAGGCCCATACCTACCTGGAAAAACTGGTGCCGGAGATCGACGAGCGCCTGGCGATGATCATCGACCCGATGCTCGCCACCGGCAGCTCCATGGTTGCCACCATCGACCTGCTGAAAAAAGCCGGTTGCCGGGACATCCGCGCCATGGTCCTGGTCGCCGCGCCCGAAGGCATCCAGGCCGTGGAAGATGCCCACCCCGACGTGACCATCTACACCGCCTCCATTGACCAGAAACTCAACGAACACGGCTACATCATTCCGGGCCTGGGCGATGCCGGCGACAAGATCTTCGGCACCAAGCAGAAGGACGCCTGA	MPILEIRHPLIRHKLGLMRRADISTKNFRELAQEVGALLTYEATKDLPLESYEIAGWAGTVQVEKIAGKKITVVPILRAGIGMLEGVLSLIPGAKVSAVGVARNEETLQAHTYLEKLVPEIDERLAMIIDPMLATGSSMVATIDLLKKAGCRDIRAMVLVAAPEGIQAVEDAHPDVTIYTASIDQKLNEHGYIIPGLGDAGDKIFGTKQKDA	PGPT0021240_1595	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021240-upp-K00761	NA	NA
D1-35_04328	558	hpt		Hypoxanthine-guanine phosphoribosyltransferase	ATGTCCGCTGATCTCGAGCATATCCGTCAAGTCATGCGAGAGGCTGACTGCCTGTACACCGAAGCTGAAGTCGAAGCGGCCATTGTCCGTGTCGGTGCGCAAATCAACGATCAGTTGGCTGACCGCAACCCGGTGGTGTTCTGCGTGATGAACGGCGGGCTGATTTTCTCCGGCAAGCTGCTGACCTGCCTGAACTTCCCGTTGGAAGCTTCCTACCTGCACGCCACCCGCTATCGCAACGAAACCAGCGGCGGCGACCTGTTCTGGAAAGCCAAGCCGGAAGTCTCGTTCATCGACCGCGACGTGCTGATCATCGACGATATCCTCGATGAAGGTCACACCCTGGGCGCGATCATCGACTTCTGCAAACACGCTGGCGCCCGTGCCGTACATACCGCCGTGCTGATCGACAAGGACCACGACCGCAAGGCCCGTCCCGACCTGAAGGCCGACTTCGTCGGTTTGCCGTGCATCGATCGCTACATCTTTGGCTACGGCATGGACTACAAAGGCTACTGGCGTAACGCCAATGGTATTTTTGCCGTCAAGGGGATGTAA	MSADLEHIRQVMREADCLYTEAEVEAAIVRVGAQINDQLADRNPVVFCVMNGGLIFSGKLLTCLNFPLEASYLHATRYRNETSGGDLFWKAKPEVSFIDRDVLIIDDILDEGHTLGAIIDFCKHAGARAVHTAVLIDKDHDRKARPDLKADFVGLPCIDRYIFGYGMDYKGYWRNANGIFAVKGM	PGPT0007295_1123	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007295-hprT|hpt-K00760	NA	NA
D1-35_04329	1740	dauA_2	COG0659	C4-dicarboxylic acid transporter DauA	ATGGCCTTCTCCGCCCCACCGCTGTTCGCCGCCTGGCGCCAAGCCTGGCGTGCCGGTTACACCCTTGAGCGCCTGCGCGGCGACCTGGTAGCCGGGCTTACGGTCGGCATCATCGCCATCCCGCTGGCCATGGCCCTGGCAATCGCCGTTGGCGTGCCGCCACAACACGGTCTTTACACCGTGCTGGTGGCCGCCCCCTTGATTGCCCTGACCGGCGGCTCGCGATTCAACGTGAGCGGGCCGACGGCCGCATTCGTTGTCATCCTGCTGCCCATCACTCAGCAATACGGCCTGGGCGGCCTGCTGCTGTGCACAATGCTTGCCGGCCTGATCCTGATTGCCCTGGGGCTGATGCGCGCCGGGCGCTTGATCCAGTTCATCCCTTATCCGGTGATCCTCGGTTTCACCGCCGGGATCGGCGTGGTGATCGCGACGCTGCAATTGAAGGACCTGTTGGGCCTGAGCACTGCGGGCCAGGCCACGCATTACATCGAACAGCTGGGCGAATTGATCGTGGCGCTGCCCGGCGCACGGCTTGGCGACGCCATTATCGGCGGGGCATGCCTGGCCGTATTGATTGCCTGGCCGCGCTGGGTGCCACGCGTCCCGGGCCATCTGGTCGCGCTGCTGATCGGCGCGTTGCTGGGGCTGGCCATCGAGCGCGCCGGGCTGCCGGTCGCAACGCTGGGCGAACGCTTCAGCTACGTCGTCGATGGCATTGTCTACCCTGGCATCCCGCCTTTCCTGCCGCGCTTCGACTGGCCCTGGAACCTGCCGAATGGCCAGGGCGGTGCGTTGATACTTTCCTATGACCTGTTCCGCCAATTACTGGGCCCAGCCTTCGCCATCGCCATGCTCGGCGCCATCGAGTCATTGCTCTGCGCGGTGGTGGCGGATGGCATGACCGGGAGCAGGCACGACCCCAACGCCGAATTGATCGGCCAGGGCCTGGGCAACCTCGTGGCGCCGTCGTTCGGCGGCATCACCGCCACCGCCGCAATTGCCCGCAGCGCGACCAACGTGCGCAGCGGCGCGTCATCGCCCCTGGCGGCGATCATTCACAGCCTGGTGGTGCTGGTGGCGATTGTGTTGCTCGCGCCGCTGTTCAGTTACTTGCCGATGGCGGCGCTGGCGGCGTTGCTGGTGATGGTCGCCTGGAACATGAGCGAGGCCGGGCATGTGCTGCATACCCTGCGCATCGCCCCGCGCAGCGATGTGCTGGTGCTGCTGAGCTGCCTGGGCCTGACGGTGCTGTTCGACATGGTCCTGGCCGTCGCCGTCGGCCTGTTGCTGGCCGCCGGGCTGTTCATCAAGCGCATGAGCGAACTGACCGACAGCGCTGAACTGCCACGCCATTCCCACCAGGCCTTGCTGGACATGCCCGAGCATGTTCGCTGCTATGCCATTCGCGGGCCGCTGTTCTTCGGTGCGGCGGAGAAGGCCCTGGATGTATTGCGCCGGTTCGACCCGGGTGTCCGGGTGGTGGTCGTGGACATGAGCGCCGTGCCGATGCTGGACATGACGGCCCTGGCCGCGCTGGAAAATATCCTCAGGGACTATCGAAAGCAGGGCATCGGCCTGATCCTGGTCGCGACCGCACCGAGGGTACGCCTGAAACTGCGCCGCGCCGGGGTCCATCGCGAGCAGCGGCAGTTGGCGTATGTGCAGACGCTGGAACAGGCGCGGAGCAAAAGTGAGCGCTGGCTGGCCGCGAGCGTAGCGCACTCAAGGCTGGTTTGA	MAFSAPPLFAAWRQAWRAGYTLERLRGDLVAGLTVGIIAIPLAMALAIAVGVPPQHGLYTVLVAAPLIALTGGSRFNVSGPTAAFVVILLPITQQYGLGGLLLCTMLAGLILIALGLMRAGRLIQFIPYPVILGFTAGIGVVIATLQLKDLLGLSTAGQATHYIEQLGELIVALPGARLGDAIIGGACLAVLIAWPRWVPRVPGHLVALLIGALLGLAIERAGLPVATLGERFSYVVDGIVYPGIPPFLPRFDWPWNLPNGQGGALILSYDLFRQLLGPAFAIAMLGAIESLLCAVVADGMTGSRHDPNAELIGQGLGNLVAPSFGGITATAAIARSATNVRSGASSPLAAIIHSLVVLVAIVLLAPLFSYLPMAALAALLVMVAWNMSEAGHVLHTLRIAPRSDVLVLLSCLGLTVLFDMVLAVAVGLLLAAGLFIKRMSELTDSAELPRHSHQALLDMPEHVRCYAIRGPLFFGAAEKALDVLRRFDPGVRVVVVDMSAVPMLDMTALAALENILRDYRKQGIGLILVATAPRVRLKLRRAGVHREQRQLAYVQTLEQARSKSERWLAASVAHSRLV	PGPT0003020_1232	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
D1-35_04330	486			hypothetical protein	ATGCGTGTATCGATCCGCCGCTGCGCCACTTTGCTGCTGCTATCCAGCCTGCCGTTGCTGGCGGTGGCCGCGCCGATGCACAGCCAGTTCCTGCCCCCCGATGACCTGGTGGCGCGTCAGGAACAGCCCGAACAGCAGCAGTTGCTGCAAGTCACCGAGTATTCGGTGGTGCTGGGCAACCAGCGCCCATCCAACCAGCAGCCGATCCCGGTCACTTCGCCGCTGATGGTGCGGCTCAAGGGCAAGCCCCTGAACAAGGGAGCCATCATCAGCCAGGTGATCCTCAATTTTGATGGCGAAAGCAAAAGCCTGAAGAAACCGGTATTCGATGAGGCGAGCAAGACCCTGACGCTGTCTTATCCACAGGCCCAGTACCGGGTGGTGATCGATCTGTTGCGCAACGACACGGTCTACGTGCAGTTCCTCAGCTACGCCAACGGCCATATCTGGGCCGACCTGCACACTGGCGCCGCACGCCCGCGTTGA	MRVSIRRCATLLLLSSLPLLAVAAPMHSQFLPPDDLVARQEQPEQQQLLQVTEYSVVLGNQRPSNQQPIPVTSPLMVRLKGKPLNKGAIISQVILNFDGESKSLKKPVFDEASKTLTLSYPQAQYRVVIDLLRNDTVYVQFLSYANGHIWADLHTGAARPR				NA	NA	NA	NA	NA
D1-35_04331	288			hypothetical protein	ATGCGTAAAGACAAGAAACAAGTGATTGGTGACGAGATTGGCGACGAACAGATCAAGCTGTTCCTCAATTTCGAGCCCGTCGATGCCACTTCGCCGTCGCTGCACAAACTGATCAAGGCCTACCGTGGGCTGCGTGTCGACGATTTCGAGCGCTTCCTGGGGTTTTTCGTCGAGGCGGGTTACGACCTGAATGGCAAGGACGAACAGGGTAACGATTTCGTTGCGTTGATCCATGATCAGCGCAATGCAGAGGAATATATTGAGTTGATCAAGAAAGCTCGCGGTTGA	MRKDKKQVIGDEIGDEQIKLFLNFEPVDATSPSLHKLIKAYRGLRVDDFERFLGFFVEAGYDLNGKDEQGNDFVALIHDQRNAEEYIELIKKARG				NA	NA	NA	NA	NA
D1-35_04332	1509	mqo_3	COG0579	Malate:quinone oxidoreductase	ATGGCGCATAACGAAGCAGTCGACGTAGTTCTGGTAGGGGCCGGCATCATGAGTGCCACCCTGGCCGTGCTGCTCAAGGAGCTCGACCCGGCGATTTCGCTGGAAGTCGTCGAGCTGATGGATTCGGGTGCCGCGGAGAGTTCCAATCCCTGGAACAACGCCGGTACCGGCCACGCCGGGCTGTGTGAGCTGAACTACACACCCCAGGCCGCCGATGGCAGTGTCGACATCAAGAAAGCCGTGCACATCAACACCCAGTTCGAGGTGTCGAAGCAGTTCTGGACGTACCTGACCAAAAAAGGCACGTTCGGCTCGTCGAAATCCTTCATCGCCCCGGTGCCGCACCTGAGCTTCGTGCAAGGCGAGAAAGGCGTGGAATTCCTCAGGAAGCGCTTCGAGCTGATGCGCCAGCACCACGCGTTCGCCGACATGGAATACACCGAAGACCGCGACCAGATGGCCGAGTGGATGCCGCTGATGATGCCAGGCCGCCCGGCTGACGAAGTCATCGCCGCGACCCGCGTCATGAACGGTACCGACGTCAACTTCGGCGCCCTGACCAACCAGTTGCTCAAGCACCTGGGCAGCGCGCCGGACACCCAGATCAAATATTGCAAGCGCGTCACCGGCCTCAAGCGCAAGGGCGATGGCTGGACCGTGAGCATCAAAGACGTCAACTCCGGCAGCACCCGTGAAGTCGACGCCAAATTCGTCTTCCTCGGTGCCGGCGGCGCCGCGTTGCCGCTGCTGCAAGCTTCGGGCATTGAAGAGAGCAAGGGCTTCGGCGGTTTCCCGGTCAGCGGCCAGTGGCTGCGTTGCGACAACCCGGAAGTGGTCAAGCATCACCAGGCCAAGGTCTACAGCCAGGCCGCGGTGGGCTCGCCGCCGATGTCGGTGCCGCACCTCGATACTCGCGTGGTCGATGGCAAGAAATCCCTGCTGTTCGGGCCATACGCCGGCTTCACCACCAAGTTCCTCAAGCACGGCTCGCTGATGGACCTGCCGTTGTCGGTACGCGCCGGCAACATCGGCCCGATGCTGGCCGTGGCCCGGGACAACATGGACCTGACCAGGTACCTGATCAGCGAAGTGATGCAGTCCATGGAGCAGCGCCTGGAATCCCTGCGGCGCTTCTACCCCGAGGCGAAAGCCGAGGACTGGCGCCTGGAAGTGGCTGGCCAGCGCGTGCAGATCATCAAGAAAGACCCGAAGAAAGGCGGCATCCTGCAATTCGGTACCGAATTGGTGGCGGCCAAGGACGGCACTCTCGCCGCCTTGCTCGGCGCTTCACCAGGCGCTTCGGTCACCGTGTCGATCATGCTCGAACTGATCGAGCGCTGCTTCCCGGAAAAAGCCAAGGGAGAGTGGGCCGCCAAGCTCGCGGAAATCTTCCCGGCCCGGGAGAAGGTGCTGGAAACCGATGCGGCGCTGTATCGCAAGGTCAACGCGCAGAACAACATCGCGCTGGAACTGGTTGAAGCAAGCAGCGAAACCCAAAGCTACGCTTGA	MAHNEAVDVVLVGAGIMSATLAVLLKELDPAISLEVVELMDSGAAESSNPWNNAGTGHAGLCELNYTPQAADGSVDIKKAVHINTQFEVSKQFWTYLTKKGTFGSSKSFIAPVPHLSFVQGEKGVEFLRKRFELMRQHHAFADMEYTEDRDQMAEWMPLMMPGRPADEVIAATRVMNGTDVNFGALTNQLLKHLGSAPDTQIKYCKRVTGLKRKGDGWTVSIKDVNSGSTREVDAKFVFLGAGGAALPLLQASGIEESKGFGGFPVSGQWLRCDNPEVVKHHQAKVYSQAAVGSPPMSVPHLDTRVVDGKKSLLFGPYAGFTTKFLKHGSLMDLPLSVRAGNIGPMLAVARDNMDLTRYLISEVMQSMEQRLESLRRFYPEAKAEDWRLEVAGQRVQIIKKDPKKGGILQFGTELVAAKDGTLAALLGASPGASVTVSIMLELIERCFPEKAKGEWAAKLAEIFPAREKVLETDAALYRKVNAQNNIALELVEASSETQSYA	PGPT0001440_909	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
D1-35_04333	234			hypothetical protein	ATGCGTTTTCTCATCTCCCTGTTTACCCCGCGCCCGCATCACCGCTGCTTCGCCCTGCTCGACCGCACTGGTCGTTGCCAGGCATTCAAGCAATGCAGCCTGCAGCCCATGGGCGATGGCTGGGTCGAAATCGAAGAGATCCGTCTCAATTGGCTGCATCAGCCGTTGCCCGCCAGCGCCCTGGTACAGGCGCCCCGCGCTCGTGCACGCAGCCGCCAGTTGTTGGCCGTCTGA	MRFLISLFTPRPHHRCFALLDRTGRCQAFKQCSLQPMGDGWVEIEEIRLNWLHQPLPASALVQAPRARARSRQLLAV				NA	NA	NA	NA	NA
D1-35_04334	585			hypothetical protein	ATGTTGCAACGCCTGTTGTTCGGTTTGATCGCCGTGACCAGTCTGACCCTTGTCGGCTGTGCCCACAGCCCGCAACAACTTAACCCGGAGCCCAAGCTCAACGCCCAGCTGGCGCCGGTGGGTCGCGGCCAGCCGGTGGTGGTGCGGGTCGTGGACGGCCGCCCGTCGCCAACCCTCGGCACGCGTGGTGGTCTGTACCCTGAAACCAGCGTGATCACGGTGCAGGGCGCACAGGTCCTGCCAAAATTGCAGGCCCAGGCTGAAGCGGCCGTGCGTCTGCTGGGCTTCACCCCGACGCAGAACGCAATGAACGCCCCGCAACTGACCTTGACCCTGGCCGAACTGAAATACCAGTCGCCCAAGGAAGGCATGTACGTGACCGAAGCCACCATCGGCGCGACGTTCCGTTCCGACGTGCAGAACGCCAACCGCCGCTACAGCGGTCGTTACGGTGCGTCGCTGGATCAACGCTTCGGCATGGCGCCCAACCAGGACACCAACACCAAGCTGGTCAGCGACGTGTTGAGCGATGCCCTGACCCGTCTGTTCAAGGACCCGACCATTGGTCAGGTGTTGGCGGAGTAA	MLQRLLFGLIAVTSLTLVGCAHSPQQLNPEPKLNAQLAPVGRGQPVVVRVVDGRPSPTLGTRGGLYPETSVITVQGAQVLPKLQAQAEAAVRLLGFTPTQNAMNAPQLTLTLAELKYQSPKEGMYVTEATIGATFRSDVQNANRRYSGRYGASLDQRFGMAPNQDTNTKLVSDVLSDALTRLFKDPTIGQVLAE	PGPT0024500_191	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024500-yajG-K07286	NA	NA
D1-35_04335	207			hypothetical protein	ATGCTGCACGCCGAAAACCAGGATCGTCTCTACCTGATCAGCCCGAGCGATGAACAACAGAACCTTGTCGGCAGTCTGTCCTTCAATGTCCAGGATCGTCATTGGCTGGTGTACTGCGCCCTCGGCGGCCATCAACATGCGGACCTCCCGGAGACAGACCTGCTGACCGGGATCAGCGTGCTGGAGCTCTATTCCCAGGCTGCGTGA	MLHAENQDRLYLISPSDEQQNLVGSLSFNVQDRHWLVYCALGGHQHADLPETDLLTGISVLELYSQAA				NA	NA	NA	NA	NA
D1-35_04336	282			hypothetical protein	ATGTCGTTGCAACTGTTCTCGCTGTTCGCTGCCCACCCCGCCAAACTGATCAACCTGCTCGCGCTGCTGTTTGCCTGTCCGGGTGGCTGGGTGCTGCACGCGACGCGACGCCGCGAACTGCGCGCGCGGGCCTGTCTTGCGGAACGCAGCAGCGAAGGCAATGAACGATTCGAAGCGCTGCTGGACCTGGCGACGCAACGCATGAACCGGTTTTTCTACCGTTTCGGCTTCGCTTGCCTGGGGTTGGCGCTGCTGATGTCGTGGATCAGCACGCAGTTCTGA	MSLQLFSLFAAHPAKLINLLALLFACPGGWVLHATRRRELRARACLAERSSEGNERFEALLDLATQRMNRFFYRFGFACLGLALLMSWISTQF				NA	NA	NA	NA	NA
D1-35_04337	1164			hypothetical protein	ATGGGCGAATTCGATGCCATCCGACCTTACAACGACAGCGAAGTCCCAGCGGTGCTGGCACGGCTGCTCAGCGACAAGGCGTTTCTAGATATCCTCACCCACTTCCGCTTCCCGCGCCTGGCCGGCGCTTTCGGCTGGATGCTCAAACCTCTTATAGCGCAGAAGTTGCGTCGAGAGTTCGCCGGTGTGACCTCCGTTGCCACGTTGCAGGACAAAGTCGAGTTCTACGTCGACCACACCATCGAGCGTGCCACCGATGGCGTGACCTACACCGGGGTCGAGCAATTCAAGTCCGGCAATGCCTACCTGTTCCTCGCCAACCACCGCGACATCGTGATGGACCCGGCCTTCGTCAACTATGCCGTGTACCACGCCGGCCTGCCGACGCCGCGCATCGCGATTGGCGACAACCTGCTGCAAAAGCCCTTCGTCAGCGACCTGATGCGCCTGAACAAGAGCTTCATCGTGCACCGCTCCATCACCGGACGCCGGGAAAAAATGGCGGCGTACCAGTTGCTGTCGGCCTACATCAACCACTCGATCCGCAACGATTGCGCCTCGATCTGGATTGCCCAGGCCGAGGGCCGGGCGAAGGACGGTGATGACCGGACCGAGTCGGCGATCCTGAAGATGTTCCACATGAGCCGCAAGGACGAGCCGTTCGGCGAGGTCATCCGCTCGTTGAACCTGACGCCGGTGTCGATCAGCTACGAATATGACCCGTGCGACCAGGCCAAGGCCCGCGAGCTGTACATCCGCGCCACCACCGGCACGTACACGAAGGCGCCGGGCGAGGACGACGTCAGCATTGCCAAAGGCATCACCGGTTACAAGGGCCGGGTCCACGTGAACTTTGCCGCGCCGATCACCGAACTGTTCGAGGACACCAAACAACTGGCCATGGAGATGGACCGGCAGATACTCGGCGGCTATCGCCTGTTCCCGGTGCATTACCTGGCCTACGCGCAATGGGCCGATGCCGACCCGCAGTTGCAGGTTCCGACGGCGGCCGAGGTGTTCGGTGCCGAAGAACTGGCCAAGGCTGAAGAAGAATGGCAGCGCCGGCTGGAAGCCTGCCCGGAGGAACACCGACCGTTTCTGGTGCTGCAATACGCGACACCGGTGCGTAACCAGTATCGGGTCAGGGCGGGGCTGGCGCTTTAA	MGEFDAIRPYNDSEVPAVLARLLSDKAFLDILTHFRFPRLAGAFGWMLKPLIAQKLRREFAGVTSVATLQDKVEFYVDHTIERATDGVTYTGVEQFKSGNAYLFLANHRDIVMDPAFVNYAVYHAGLPTPRIAIGDNLLQKPFVSDLMRLNKSFIVHRSITGRREKMAAYQLLSAYINHSIRNDCASIWIAQAEGRAKDGDDRTESAILKMFHMSRKDEPFGEVIRSLNLTPVSISYEYDPCDQAKARELYIRATTGTYTKAPGEDDVSIAKGITGYKGRVHVNFAAPITELFEDTKQLAMEMDRQILGGYRLFPVHYLAYAQWADADPQLQVPTAAEVFGAEELAKAEEEWQRRLEACPEEHRPFLVLQYATPVRNQYRVRAGLAL				NA	NA	NA	NA	NA
D1-35_04338	183			hypothetical protein	ATGCTGGAAGCTGCTCTTTATGAATGTCCGTATTGTGGGGAGGAGGTAGAGACTTCCGTGGATTTGTCCGGCGGCGACCAGACCTACATCGAAGACTGCCAGGTCTGTTGCCGACCGATTACTTTCGTCCTGCAGGTCCACGAAGACGAATGGCACCTCGAGGTCTTCAGCGAAAACGAATGA	MLEAALYECPYCGEEVETSVDLSGGDQTYIEDCQVCCRPITFVLQVHEDEWHLEVFSENE				NA	NA	NA	NA	NA
D1-35_04339	261			hypothetical protein	ATGCAGCGAATCTACGAGCTGGAAAACCTGATGGAAGGCGAATTGCTCCAGGGCATGCTCGCCAGCGAAGGCATCACGGCGCACCTGGTGGGCCGCGATCTGGTGGGCGGCGCGGGTGAGCTGCCAATGTACGGCCTGCTGGGGCTGGCGGTGGAGGACGAACAGGCGCAGTACGCCCGGGAGCTGATCGCCGCCTACAATGCCGCGATGCCGGTGCCGGGCGATGAGCCTGACAGTTACCCCGGTACGCTGGTCTGTTAG	MQRIYELENLMEGELLQGMLASEGITAHLVGRDLVGGAGELPMYGLLGLAVEDEQAQYARELIAAYNAAMPVPGDEPDSYPGTLVC				NA	NA	NA	NA	NA
D1-35_04340	624	yedK_4	COG2135	SOS response-associated protein YedK	ATGTGTGGACGTTATGCCCTGTTTCGCTGGAACCCCGCTTTCGCGGCCTTGCCCGGCTTCCCCGCCGACCAGAAGGCCCAATGGAATATCTCGCCCAATGACTCGGTCCTGATGCTGCGCGCCGGCGCCGATGGACAGCGCGAACTGGCACGGGCGCGTTGGGGCCTGACGCCGCCGTGGCTGACCGATCTGTCCCGCACCCCGGCGCACGCCCGCGCCGAAACCGTGGCCGAGCAACCGATGTTCCGCGAAGCCCTGCGTTTGCGTCGTTGCCTGCTGCCCGCCAATGGTTTTTACGAGTGGCGCGGCGGCACGCGCAAGCGCCCGTACTGGCTGACGCCGGGGGAGGGCTCATCGCTGTTCTTTGCGGCGATCTGGGAAGCGTACCCGGTGCAGGAACAAGTGTGGCTGAGCACGGCGGTCATCACCCAGCCGGCGGCCGGTCAGCGCCGACCGTTGATTCTGGATGAAGAGGGCCAGCGCCTGTGGCTCGACCCCGAGACGCCCTTGCATGCCTTGCAAGGGTTGCTGGCGAGCGAGCCAGGGCAACTGCGCGAGCGGGTTCTGGCGAACATGGTCAACGACCCGAAACTCAATGGGCCGGAATGTCTGACCCCGGCCTGA	MCGRYALFRWNPAFAALPGFPADQKAQWNISPNDSVLMLRAGADGQRELARARWGLTPPWLTDLSRTPAHARAETVAEQPMFREALRLRRCLLPANGFYEWRGGTRKRPYWLTPGEGSSLFFAAIWEAYPVQEQVWLSTAVITQPAAGQRRPLILDEEGQRLWLDPETPLHALQGLLASEPGQLRERVLANMVNDPKLNGPECLTPA				NA	NA	NA	NA	NA
D1-35_04341	2139	mcpU_1	COG0840	Methyl-accepting chemotaxis protein McpU	ATGAAATTCAGATCGATCCAGTTTTCCGTTGCCGCCCTGGCTGGTGCCATCGTGCTCAGCGTGGTCGGCGCCCTGGTGCTGTACGCATTGTTCGCCGGCGCCCGCACCCAGGACATGGTGCAACAGCGGACCAAGGCGCAGTTCGAACAACTCATCGAGCAACGCCTCAGTGCGCTGGCCCGCACCCAGGCCAGCCTGATCCAGCGCGAACTCGAAGCGCCGCTGCTGCTCGCTCGTGGGCTGGCCACCAGCAACGCCTTGATGGGCATGAACGGAACGGACGGCAACCCGCAACTGAACATCCCGCGCGAGCAGATGATCAGCCTGCTGCGTGAAACCGTGGTGCGCAACCCGAAGATTCTCGGTGCCTACATCGCCTGGGAACCGAACGCCATCGACCACGACGACGCCCGCTATGTAGACAGCCAGGTGCTGGGCATGGAAACCAACGGGCGCTTCCTGCCGTGGTGGTTTCGCAATCAGGACGGCACCCTGGGCCTGGAAAAACTCGCCGACGTGACGGACCAGAAACTGCTGTCCACCGGCATTCGGGCCAGTGAATATTACCTGTGCTCCCAGGACAGCAAAAAAGCCTGCGTGATCGATCCCGCGCCGTATCGCGTCGGCGACACCATGACCATGCTCGCCTCGTTCATCGAGCCGATCCTGATCGATGGCAAGTTCCAGGGCATCGTCGGCGCCGACCTGTCGGTGAATTTCATCCAGGACATGCTCGTCGCCGCCGACGCCAAGCTGTACGACGGCGCCGGGGAAATGGCCCTGCTCGCCAGCAACAACCGGCTGGTGGCCTTCACCAAGGACCCAGGCAAGCTCGGCGAGAAAGCCAGCGACCTGCTGGACGCCAACGAACTGGATAACCTGACTAGGCTCGGCATTGGTGAAGTGCGTTACGACATCGATGAAGAACACGGCCACATCGAGGTGTACATGCCTTTCGGTATCGGCCAGACCGAGGCGCGCTGGACGTTGATGTTGCAATTGCCGCTGAATGCCGTGATGGCGGATCTGCAAGCCTTGCAGAAAGACCTCGATGACCAGCGCGAAACCGACATCTTCGGCATGGCCATGGTCGGCCTGGCGATTGCCGCGATCGGCCTGCTGGTGATCTGGCTGGTGGGCCACGGTATCGCCCGGCCGCTCAAGCAAATGGTGGCGATGCTCGACGACATTGCCCAGGGCGAAGGCGACCTGACCCGCCGGCTGACCAGCGACCGCGCCGATGAGTTGGGGGCCATCGCCAAGGGCTTCAACACGTTCCTGAGCAAATTGCAGGGGATGATTACCCAGGTAGTGACCTCGGTGCAGAGCGTCAGCGATTCGTCGGAGCACACCGCCGACATCGCGATCCGCACCAACCAGGGCGTACACAAGCAGATGTCGGAAATCGATCAGGTTGCCACCGCCGTGCACGAGATGACCGCCACCGCCCAGGACGTGGCGCGGAATGCGAGCCAGGCAGCCCAAGCCGCCAGCCACGCCGACCAGGCCGCCAGCCAGGGCATGCAGATTGTCCGCGACACCTCCACGTCCATCGGTGCCTTGGCGGTGGAGATCGGCAAGGCCGTGGGCGTGGTGCAGACGTTGGCCAAGGACAGCGAAAACATCAACGCGATTCTCACCGCCATCCGCGGGATCGCCGAGCAGACCAACCTGCTGGCGCTCAACGCGGCCATCGAGGCTGCACGGGCCGGTGAGCAGGGTCGCGGTTTTGCCGTGGTCGCCGATGAAGTGCGCAACCTGGCGCAGAAGACCCAGCAGGCCACCGAAGAAATCCAGTCGATGATCCAGCAGCTGCAGCAGGGTACGCGGGACGTGGTGCGTGTGATGGAAGACAGCCGGCAGCGTACCGATGAAAGTGTGCAACACGCGGCAAAAGCGGCTCAGGCCCTGGAGACGATCACCCAGGCCGTGTCGGTGATCAGCGACATGAACACCCAGATCGCCAGCGCTGCCGAGGAACAAAGCGCGGTGGCCGATGACATCAACCGTAACGTGATCAACATCGGCCAGGTGGCAAACGAAGTGGCAAGCGGCGCCGACGAATCCAGCGCGGCCAGTGCCGGGCTGACCAGGCTGGCGGAGCAGCAGCGGCGGTTGATCAATCAGTTCAGGGTTTGA	MKFRSIQFSVAALAGAIVLSVVGALVLYALFAGARTQDMVQQRTKAQFEQLIEQRLSALARTQASLIQRELEAPLLLARGLATSNALMGMNGTDGNPQLNIPREQMISLLRETVVRNPKILGAYIAWEPNAIDHDDARYVDSQVLGMETNGRFLPWWFRNQDGTLGLEKLADVTDQKLLSTGIRASEYYLCSQDSKKACVIDPAPYRVGDTMTMLASFIEPILIDGKFQGIVGADLSVNFIQDMLVAADAKLYDGAGEMALLASNNRLVAFTKDPGKLGEKASDLLDANELDNLTRLGIGEVRYDIDEEHGHIEVYMPFGIGQTEARWTLMLQLPLNAVMADLQALQKDLDDQRETDIFGMAMVGLAIAAIGLLVIWLVGHGIARPLKQMVAMLDDIAQGEGDLTRRLTSDRADELGAIAKGFNTFLSKLQGMITQVVTSVQSVSDSSEHTADIAIRTNQGVHKQMSEIDQVATAVHEMTATAQDVARNASQAAQAASHADQAASQGMQIVRDTSTSIGALAVEIGKAVGVVQTLAKDSENINAILTAIRGIAEQTNLLALNAAIEAARAGEQGRGFAVVADEVRNLAQKTQQATEEIQSMIQQLQQGTRDVVRVMEDSRQRTDESVQHAAKAAQALETITQAVSVISDMNTQIASAAEEQSAVADDINRNVINIGQVANEVASGADESSAASAGLTRLAEQQRRLINQFRV	PGPT0015710_3309	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
D1-35_04342	816	loiP	COG0501	Metalloprotease LoiP	ATGAACAAGACTTTGATGGTGAGCGCTCTGGGCGCGGCTCTGCTGCTCGCCGGTTGCCAATCGGTCAATACCACCAGCGGCGGAGCCGTGGGGGTGGAACGCAAGCAGTACATGTTCAGCATGCTGTCGACCGCTGAGGTCAACCAGATGTATGCGCAGTCCTATCAGAAGACGTTGGGTGAGGCGAGCTCCCAAGGTGCCCTGGACAAGACCAGCAGCGATGCCAAGCGCTTGCAGGTCATTGCCGACCGTCTGATTGCCCAGGCGCCTGTGTTCCGCCCGGACTCGGCGCAATGGAACTGGGAGGTGAACCTGATCAAGAGTGATGAGCTCAACGCCAACTGCGGTCCTGGCGGCAAGATCATGTTCTATACCGGCCTGATCGATCAGTTGAAGCTGACCGACGCTGAGATCGCCGCGATCATGGGCCATGAAATCGCCCACGCCTTGCGCGAGCACGGCCGTGAAGCGATGTCCAAGGCCTATGGCATCGAAATGGCCAAGCAGGGCGCCGGTGCCATATTCGGCCTGGGCCAGGACAGCCTGGCGCTGGCCGACACCGTGGCCAACTACGGCATGACCTTGCCCAACAGCCGTGGCAACGAGAACGAAGCCGACCTGATCGGCCTCGAGCTGGCCGCCCGGGCCGGCTACGACCCGAACGCGGCGATCACCCTGTGGAACAAGATGGCCAAGGCTTCGGAAGGGGCACCACCGGAATTCATGAGCACCCACCCCTCGTCGACCAGCCGGATCGCCTCGTTGCAGGCGGCAATTCCGAAGGTGATGCCGCTTTACCAGCAGGCCAGGAAGTAA	MNKTLMVSALGAALLLAGCQSVNTTSGGAVGVERKQYMFSMLSTAEVNQMYAQSYQKTLGEASSQGALDKTSSDAKRLQVIADRLIAQAPVFRPDSAQWNWEVNLIKSDELNANCGPGGKIMFYTGLIDQLKLTDAEIAAIMGHEIAHALREHGREAMSKAYGIEMAKQGAGAIFGLGQDSLALADTVANYGMTLPNSRGNENEADLIGLELAARAGYDPNAAITLWNKMAKASEGAPPEFMSTHPSSTSRIASLQAAIPKVMPLYQQARK				NA	NA	NA	NA	NA
D1-35_04343	585	mneA		Putative manganese exporter	ATGCTGGACTCTTTCCTGGTACCCACCGCCATCGTTGCGCTGGCCGAAATCGGCGACAAGACGCAATTGCTCGCGCTCATCCTCGCCGCACGCTTTCGCAAACCCTGGCCGATCATTGCCGGCATCGTCGCCGCAACCCTGGCCAACCATGCGGCGGCCGGCGCGGTAGGTGCCTGGGTCAGCGGGTTCTTCTCCGACTCGGTGTTGCACTGGATCCTCGCGGCGAGCTTTGCCGCCACCGCGCTGTGGACCCTGGTGCCGGACAAGCTGGACGACGAGGAAGCCAATACGGCTCGCAGGTTCGGACCTTTCCTGACCACGCTGATCGCGTTTTTCCTGGCGGAAATCGGTGACAAGACCCAGATCGCCACGGTGATGCTTGCCGCGCAGTACCCAGAGTTGTGGCTGGTGATCATCGGCACCACCGTGGGTATGTTGATCGCTAACGTGCCGGTGGTACTGGCGGGCAATTTCGCCGCCGAGAAACTGCCGCTCGCCCTCATCCGCCGCCTGGCCGCCTCGGCGTTTTTCATCCTGGCGATCGTCGCGGTGTACAAGGCAATGCAGAGTAGTGGGTGGGTTTGA	MLDSFLVPTAIVALAEIGDKTQLLALILAARFRKPWPIIAGIVAATLANHAAAGAVGAWVSGFFSDSVLHWILAASFAATALWTLVPDKLDDEEANTARRFGPFLTTLIAFFLAEIGDKTQIATVMLAAQYPELWLVIIGTTVGMLIANVPVVLAGNFAAEKLPLALIRRLAASAFFILAIVAVYKAMQSSGWV	PGPT0013980_1276	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013980-TMEM165|gdt1-K23541	NA	NA
D1-35_04345	999	rsmC	COG2813	Ribosomal RNA small subunit methyltransferase C	ATGGATCCGCGCAGTGAAGTACTGCTTCGTCAGCCCGAATTGTTCCAGGGCCCGGTCCTGCTGGCCGGCCTGCCCGCCGACGATCTGCTCGGCCGTTTGCCCGAGGCCCACGGCTGGTGCTGGCATGCCGGCGACCAGGCCGCGCTGGATGCGCGCTTTGCGCAACGTAGCCACTTTGGCGTGAACGTACCCGAGCGGGAATTCGAAACGGCCGTGGTGTTCCTGCCCAAGGCCAAGGACCTCACCGACTACATTCTCAACGCCGTGGCCGCGCGCCTGGCCGGTCGCGAGGTGTACCTGGTGGGGGAAAAGCGCAGCGGCATCGAAGGTGCTTCCAAGCAGCTCAACCCGTTCGGCAAGCCACGCAAGCTCGACAGCGCGCGGCATTGCCAACTGTGGCAAGTCACCGTCGCCAACGCCCCGCAGGCCAAGCCGCTGGAAAGCCTGGCGCAGACCTACGAGCTGCCCCTGGCCGAAGGCCCGTTGAAAGTGATCAGCCTGCCGGGAGTGTTCAGCCATGGTCGGCTGGATCGCGGCAGCGCGTTGCTGTTGGAGCACCTGGACAAGCTGCCCAGCGGCCATCTGCTGGATTTCGGTTGTGGTGCCGGTGTACTGGGCGCGGCGGTCAAGCGCCGCTACCCGCACAATACCGTCACCCTGCTGGACGTGGATGCCTTTGCCGCCGCCAGCAGTCGCCTGACCCTGGCCGCCAACGGGCTCGAAGCCGAAGTGTTGACCGGTGATGGAATCGATGCCGCGCCCATGGGCCTGAACGCAATCCTGAGCAATCCACCCTTCCATGTCGGCGTGCACACCGATTATCACGCCACGGAAAACCTGCTGCGAAAAGCGGCCAAACATCTGAAAAACGGCGGCGAACTGCGCTTGGTCGCGAACAGTTTCCTCAAGTACCAGCCGCTGATCGAGGAGCATCTGGGCACATGCACGATCAAGGCCGAAGGCCAGGGTTTTCGCATCTACCGAGCCAAGCGTGGCTAA	MDPRSEVLLRQPELFQGPVLLAGLPADDLLGRLPEAHGWCWHAGDQAALDARFAQRSHFGVNVPEREFETAVVFLPKAKDLTDYILNAVAARLAGREVYLVGEKRSGIEGASKQLNPFGKPRKLDSARHCQLWQVTVANAPQAKPLESLAQTYELPLAEGPLKVISLPGVFSHGRLDRGSALLLEHLDKLPSGHLLDFGCGAGVLGAAVKRRYPHNTVTLLDVDAFAAASSRLTLAANGLEAEVLTGDGIDAAPMGLNAILSNPPFHVGVHTDYHATENLLRKAAKHLKNGGELRLVANSFLKYQPLIEEHLGTCTIKAEGQGFRIYRAKRG				NA	NA	NA	NA	NA
D1-35_04346	966		COG1052	Putative 2-hydroxyacid dehydrogenase	ATGACGAACACCGCCCGCGCCGTTTTTCTCGACCACCCTTCCCTGGACCTCGGCGACCTGGACCTGGGCCCGTTGCGCGATTGCTTCGGCGAACTGCAATTGTTCGCCGGGACCCGCCAGGACGAGGTGACCGAGCGACTCAAGGGGGCGACGGTGGCGATCACCAACAAGGTAGTGATCGACGCGGCAGCCATGGCCGCCAGCCCTGAATTGAAGCTGATCCTGATCAGCGCTACCGGCACCAATAACGTCGACCTCGCCGCTGCCCGCCACCACGGCATCACCGTGTGCAATTGCCAAGGCTACGGCACGCCGTCGGTGGCCCAGCACACGATCATGCTGTTGCTGAACCTGGCGACGCGCCTCGCCGACTACCAGAAAGCCGTGGCTGAAGGTCGCTGGCAACAGGCTTCGCAGTTCTGCCTGCTGGATTATCCGATTGTCGAGCTGCAAGGCAAGACCCTGGGTTTGCTCGGCCATGGCGAACTGGGCGGCGCCGTCGCCCGGCTGGCGCAAGCCTTTGGCATGCATGTGCTGCTGGGGCAGATTCCCGGGCGTCCGGCACGGCCGGATCGCTTGCCGCTGGATGAGCTGTTACCGCAGATCGATGCCCTGACCCTGCACTGCCCGCTCAACGAGCACACCCGCCACTTCATCGGCGCGCGCGAACTGGCGCTGCTCAAGCCCGGCACGTTCGTGGTCAACACCGCCCGTGGCGGCCTGATTGACGAACAGGCCCTGGCCGACGCCTTGCGCAGCGGTCACCTGGGCGGCGCGGCCAGCGACGTGCTGAGCGTGGAGCCGCCGACCCAAGGCAATCCCTTGCTGGCCGGCGACATTCCGCGGCTGATCATCACCCCGCACAACGCCTGGGGCAGCCGCGAGGCGCGGCAGCGGATCGTCGGCCAACTGACGGAAAACGCCCAAGGCTATTTCAGCGGTACAGCGCGCCGGGTCGTCAGTTGA	MTNTARAVFLDHPSLDLGDLDLGPLRDCFGELQLFAGTRQDEVTERLKGATVAITNKVVIDAAAMAASPELKLILISATGTNNVDLAAARHHGITVCNCQGYGTPSVAQHTIMLLLNLATRLADYQKAVAEGRWQQASQFCLLDYPIVELQGKTLGLLGHGELGGAVARLAQAFGMHVLLGQIPGRPARPDRLPLDELLPQIDALTLHCPLNEHTRHFIGARELALLKPGTFVVNTARGGLIDEQALADALRSGHLGGAASDVLSVEPPTQGNPLLAGDIPRLIITPHNAWGSREARQRIVGQLTENAQGYFSGTARRVVS				NA	NA	NA	NA	NA
D1-35_04347	630	rhtC	COG1280	Threonine efflux protein	ATGTACCTCACCGAATTCCTCACCGTCGCCCTGATCCACCTGCTGGCGGTCGCCAGCCCCGGTCCGGACTTTGCCGTGGTGGTGCGCGAAAGCGTAACCCATGGCCGACGTGCCGGGACCTGGACGGCGCTGGGCGTAGGCACGGCGATTTTCCTGCATGTGGGGTATTCGTTGCTGGGCATCGGCCTGATCGTGTCGCAATCGATCGTGCTGTTCAACGCGCTGAAGTGGGCCGCGGCCGCGTACCTGCTGTACATCGGCTTCAAGGCCCTGCGTGCGCAACCGGCCAAGGCTTCCGGAGAAAACCTGCACAAGGAGGCTGGCGAGCGTACCGCTCGCGGTGCGTTCACCGCAGGTTTTGTCACTAATGGCCTGAACCCCAAGGCAACGCTGTTCTTCCTGTCGCTGTTCACCGTGGTGATCAATCCCCATACGCCGGTGGCGATCCAGGCCGGCTACGGCGTGTACCTGGCGATCGCCACGGCGGCGTGGTTCTGCATGGTGGCGATGCTGTTCAGCCAGGCGCGGGTGCGTGCCGGTTTCGCCCGCATGGGCCACTGGTTCGACCGGACCATGGGCGCCGTGCTGGTGGCCATTGGCGTGAAACTGGCCTTCACCGAGGCGCACTGA	MYLTEFLTVALIHLLAVASPGPDFAVVVRESVTHGRRAGTWTALGVGTAIFLHVGYSLLGIGLIVSQSIVLFNALKWAAAAYLLYIGFKALRAQPAKASGENLHKEAGERTARGAFTAGFVTNGLNPKATLFFLSLFTVVINPHTPVAIQAGYGVYLAIATAAWFCMVAMLFSQARVRAGFARMGHWFDRTMGAVLVAIGVKLAFTEAH				NA	NA	NA	NA	NA
D1-35_04348	1683		COG0318	Long-chain-fatty-acid--CoA ligase	ATGTTGCAGACTCGCGTTATCCCTCCAGCCGAAGGCGCCTACCAATACCCGTTGCTGATCAAACGGCTGCTGATGTCCGGTGCGCGTTACGAGAAAACCCGCGAGATCGTCTACCGCGACCAGTTGCGCTACAGCTATCCGACGCTGATCGAGCGCGTCGCGCGGCTGGCCAACGTGCTGACCGAGGCCGGAGTGAAGGCCGGTGACACCGTTGCGGTGATGGACTGGGACAGCCATCGCTACCTGGAATGCATGTTCGCGATCCCGATGATCGGCGCGGTGATCCACACCATCAATGTGCGCCTGTCACCGGAGCAGATCCTCTACACCATGAACCACGCCGAGGACCGCTTCGTGCTGGTCAACAGCGAGTTCGTCGGCCTCTACCAGGCGATCGCCGGCCAGCTGACCACGGTAAAGAAGACGCTGCTGCTGACCGACCTGGCGGACAAGACCGCTGACCTGCCGGACCTCGTGGGCGAGTACGAGCAACTGCTGGCCGCCGCCAGCCCGACTCATGATTTCCAGGATTTCGACGAGAACTCCGTCGCCACCACGTTCTACACCACCGGCACCACGGGCAATCCCAAGGGCGTGTACTTCACCCATCGGCAACTGGTGCTGCACACCCTGGGCGTGTCGACCATCATGGGCTCCATCGACAGCGTGCGGCTGTTGGGCACCAACGATGTGTACATGCCGATCACGCCGATGTTTCACGTACATGCCTGGGGCCTGCCGTACGTGGCGACCATGCTCGGGCTCAAGCAGGTCTACCCCGGGCGTTACGATCCAGAGTTCCTGGTCGAGCTGTGGCGCAAGGAAAAGGTCACCTTTTCCCATTGCGTGCCGACCATCCTGCAGATGGTCCTCAACGCCAAGGGCGCCCAGCAAACCGATTTCGGCGGCTGGAAAATCGTCATTGGCGGCAGCGCCCTCAACCGCAGCCTGTACGAGGCGGCCAAGGCCAAGGGCATCCAGCTCACCGCCGCCTACGGCATGTCCGAAACCGGGCCGCTGGTATCCTGCGCGCACCTCAACGACGAGCTGATGGCCGGCGGTGAAGACGAACGCATCACCTACCGGATCAAGGCCGGCGTGCCGGGGCCGCTGGTGGAAGCAGCGATCGTCGACGGCGAGGGCTGTTTCCTGCCCGCGGACGGCGAGACCCAAGGCGAACTGGTGCTGCGCGCGCCGTGGCTCACCGAAGGTTATTTCAACGAACCGCAGAAAGGCGCCGAGCTCTGGAAGGGCGGCTGGCTGCACACCGGCGACGTCGCCACGCTCGACGGCATGGGCTTCATCGATATCCGCGACCGGATCAAGGACGTGATCAAGACCGGCGGCGAATGGATCTCGTCCCTGGACCTGGAAGACCTCATCAGCCGTCATGCGGCGGTACGCGAAGTAGCAGTGGTCGGCATCCCCGATCCGCAGTGGGGCGAGCGCCCGTTCGCCTTGCTGGTCATTCGCGAAGGGCACCAGCTCGGGGCTCGCGAGCTCAAGGAACACCTCAAGCCATTTGTCGAGCTGGGGCACCTGAGCAAGTGGGCGATCCCGAGCCAGATCGCCCTTGTTACGGAAATTCCCAAGACCAGCGTTGGCAAGCTCGACAAGAAGCGCATCCGCGTCGACATCAGCGAATGGCAGAGCAACAACAGCACCTTCCTCTCGACGCTCTGA	MLQTRVIPPAEGAYQYPLLIKRLLMSGARYEKTREIVYRDQLRYSYPTLIERVARLANVLTEAGVKAGDTVAVMDWDSHRYLECMFAIPMIGAVIHTINVRLSPEQILYTMNHAEDRFVLVNSEFVGLYQAIAGQLTTVKKTLLLTDLADKTADLPDLVGEYEQLLAAASPTHDFQDFDENSVATTFYTTGTTGNPKGVYFTHRQLVLHTLGVSTIMGSIDSVRLLGTNDVYMPITPMFHVHAWGLPYVATMLGLKQVYPGRYDPEFLVELWRKEKVTFSHCVPTILQMVLNAKGAQQTDFGGWKIVIGGSALNRSLYEAAKAKGIQLTAAYGMSETGPLVSCAHLNDELMAGGEDERITYRIKAGVPGPLVEAAIVDGEGCFLPADGETQGELVLRAPWLTEGYFNEPQKGAELWKGGWLHTGDVATLDGMGFIDIRDRIKDVIKTGGEWISSLDLEDLISRHAAVREVAVVGIPDPQWGERPFALLVIREGHQLGARELKEHLKPFVELGHLSKWAIPSQIALVTEIPKTSVGKLDKKRIRVDISEWQSNNSTFLSTL	PGPT0002895_322	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-DMS_DEGRADATION,PGPT0002895-dmdB-K20034	NA	NA
D1-35_04349	1857			hypothetical protein	ATGACCTCAGCAAACACTTTCTGGCGCCGGGCAAAACTGCCTCTGGCCGTCAGTCTTGCCTCTTCGCTCGCCGGCCCGGCATTCGGCGTCAGCTTCAACATCGGTGAAATCGAAGGCCAGTTCGACTCGGCCCTGTCGGTCGGCGCAAGCTGGTCCACGGCCAAGGCCAACCGCGACCTGATCGGCGTCAACAACGGTGGCAAGGGCCTGTCCCAGACCTCCGACGACGGTCACTTGAACTTCAAGCGCGGGGAGACCTTCTCGAAGATCTTCAAGGGTATCCATGACCTGGAGCTGAAGTACGGCGACACCGGTGTGTTTGTACGTGGCAAGTACTGGTACGACTTCGAACTCAAGGACGAAAACCGCCTGTACAAGGACATCAGCGACAGCAACCGCAAGGAAGGCGCCAAGTCCTCCGGCGGGCAGATTCTCGATGCGTTCGTCTACCACAACTACGATATCGCCGATCAGCCGGGCTCGGTCCGCCTCGGCAAGCAAGTGGTCAGCTGGGGTGAAAGTACCTTTATCCAGGGCGGTATCAACGCCATCAACCCGGTCGACGTGTCCGCGTTCCGTCGCCCCGGTGCCGAGGTCAAGGAAGGGTTGATCCCGGTCAACATGTTCTACGTGTCCCAGAGCCTGACCGACAACCTGTCGGCCGAAGCGTTCTACCAACTGGAATGGGACCAGACTGTCGTCGACAACTGCGGCACGTTCTTCTCGCAACCGGACGTCATCGCCGACGGTTGTGACGACAATCTGCGCGTCTTGAACAAACGTTCGCGGATTCCGGGCGCAGCCTTGCCGACCCTGACGGCGTTGGGCGTCAATGTGAACGAGGAGGGCGTGCTGGTTCGCCGTGGTCCCGACCGTGATGCCCGTGACAGCGGCCAATGGGGCCTGTCGTTCAAATACAATTTCGAGCCGCTGGACACCGAGTTCGGCGCCTACTTCATGAACTACCACAGCCGGGCGCCAATCTTCAGCGCCACGGGCGCCGCGTCACGTTTCTATACCCAGCCGCTGGGGCCGTTGGCCGCATTGCGTCCGGTGATCGTGGCGGGTAACTCGAACTACTTCGTCGAGTACCCGGAAGACATCCGGCTCTATGGCCTGAGCTTTTCCACCACGCTGCCCACCGGCACCGCGTGGAGTGGTGAGCTGAGCTATCGGCCGAACGCTCCGGTACAACTGAGCACCACCGACATCCTGTTCGCCGGTGTCACGCCAATTCCGGGCTTTGGTAACGCCTCCGTACTGGACGGCGCGCCGGGCCAGGACCTGCATGGCTATCGCCGCAAGGAAATCACCCAGTTCCAGACCACCTTCACGCACTTTCTCGACCAGGTCATGGGCGCCAGCCGCCTGACCCTCGTCGGTGAGTTGGGCGTGACCCACGTTGGCGGCCTGGAAAGCCGCTCCGAAGCGCGCTACGGCCGTGATCCGGTGTTCGGCCCGGGCGAACTGCCCAACGGCTTCTGCAATACCCTCAACACCTCGACTGCGGCAGGTGGCGGCCAGACCATCAGCGGGGTGAACAGCAACTGCAACAACGACGGCTTCACCACGTCGACCTCGTGGGGCTACCGCGCTCGCGCCATCTGGGAATACCCGGATGTCTTCGCCGGTGTGAACCTCAAGCCCAACGTGGCCTGGTCCCATGACGTCAAGGGTTACTCGCCAGGTCCTGGCGCCAACTTCGAGGAAGGCCGCAAAGCCGTCAGCCTCGGGCTGGATGCCGAGTACCAGAACACTTACAACGCGAGCCTGGCCTACACCAACTTCTTTGGTGGCGACTTCAGCACCGTGGATGATCGCGACTTCCTGGCGCTCAGCGTCGGCGTGAACTTCTAA	MTSANTFWRRAKLPLAVSLASSLAGPAFGVSFNIGEIEGQFDSALSVGASWSTAKANRDLIGVNNGGKGLSQTSDDGHLNFKRGETFSKIFKGIHDLELKYGDTGVFVRGKYWYDFELKDENRLYKDISDSNRKEGAKSSGGQILDAFVYHNYDIADQPGSVRLGKQVVSWGESTFIQGGINAINPVDVSAFRRPGAEVKEGLIPVNMFYVSQSLTDNLSAEAFYQLEWDQTVVDNCGTFFSQPDVIADGCDDNLRVLNKRSRIPGAALPTLTALGVNVNEEGVLVRRGPDRDARDSGQWGLSFKYNFEPLDTEFGAYFMNYHSRAPIFSATGAASRFYTQPLGPLAALRPVIVAGNSNYFVEYPEDIRLYGLSFSTTLPTGTAWSGELSYRPNAPVQLSTTDILFAGVTPIPGFGNASVLDGAPGQDLHGYRRKEITQFQTTFTHFLDQVMGASRLTLVGELGVTHVGGLESRSEARYGRDPVFGPGELPNGFCNTLNTSTAAGGGQTISGVNSNCNNDGFTTSTSWGYRARAIWEYPDVFAGVNLKPNVAWSHDVKGYSPGPGANFEEGRKAVSLGLDAEYQNTYNASLAYTNFFGGDFSTVDDRDFLALSVGVNF				NA	NA	NA	NA	NA
D1-35_04350	1365			putative protein	ATGAAAATAACCAAGAATCTGTTGCAAGTCGGTGTGCTGGGGCTGTCGCTATTGGCGGCCAGCGTCATGGCCGCCGTGCCTGCCGCCGAAGCCGACAAACTGGGCAAGAGCCTGACGCCGATGGGCGCCGAAATGGCCGGCAACGCCGATGGTTCGATTTCCGCCTGGAAACCCATGGCCAAGAACGCCGGCAGCGTCGACGGCAAAGGCTTCCTCTCCGACCCGTACGCCAGTGAGAAGCCGCTGTTCACCATCACCGCGCAGAACGTCGAGCAGTACAAGGCCAAGCTTGCGCCCGGCCAGTACGCGATGTTCAAGCGTTACCCCGAAACCTTCAAAATGCCGGTCTACCCGACCCATCGCGGCGCTACCGTGCCGGACGAAGTGTTTGCTTCCATCAAGAAAAACGCGGTCAACACCAAACTGGTCTCCGGCGGCAACGGTCTGGAGAATTTCGAGACGGCTGTGCCGTTCCCGATTCCCCAGAGCGGCGTCGAGGTGATCTGGAACCACATCACCCGCTATCGCGGCGGCAGCGTGACGCGCCTGGTGACCCAGGCCACGCCGCAGCCCAACGGCTCCTACAGCCTGGTGTACTTCCGTGACCAGTTCGTGTTCCGCGACAAGATGAAGGATTTCGATCCGGCCAACCCTGGCAACATCCTGTTCTACTTCAAGCAGCAAGTGACCGCTCCGGCGCGTCTGGCTGGCGGCGTGTTGCTCGTCCACGAAACCCTCGACCAGGTGAAGGAACCGCGTTCGGCGTGGGTCTACAACGCCGGCCAGCGCCGTGTGCGTCGCGCCCCGCAAGTGTCCTATGACGGCCCGGGTACCGCCGCCGATGGCTTGCGTACCTCCGACAACCTGGACATGTACAACGGTGCGCCGGACCGCTACGACTGGAAGCTTGAAGGCAAAAAAGAGCTGTACATCGCCTCCAACAGCCACAAGATCGATTCGCCGCAGCTCAAGTACGCGGACATCATCAAGGCCGGCCACATCAACCAGGACCTGACGCGCTACGAGCTGCGTCGTGTCTGGCACGTGACCGCGACCCTGAAGGAAGGCCAGCGCCACATCTACGCCAAGCGTGACTTCTACATCGACGAAGACACCTGGCAAGCCGCGGTCATCGACCACTACGACGGCCGTGGCCAACTGTGGCGCGTAGCCGAGGCCCATGCCGAGAACTACTACGACAAGCAAGTGCCGTGGTATGCCCTGGAAACCATCTACGACCTGCAGTCCGGTCGCTACCTGGCCCTGGGCATGAAGAACGAAGAAAAATCGGCCTATGACTTCGGCTTCACCGCCAGCACCGCCGACTTCACGCCTAACGCCCTGCGTCAGGACGGCATTCGCTAA	MKITKNLLQVGVLGLSLLAASVMAAVPAAEADKLGKSLTPMGAEMAGNADGSISAWKPMAKNAGSVDGKGFLSDPYASEKPLFTITAQNVEQYKAKLAPGQYAMFKRYPETFKMPVYPTHRGATVPDEVFASIKKNAVNTKLVSGGNGLENFETAVPFPIPQSGVEVIWNHITRYRGGSVTRLVTQATPQPNGSYSLVYFRDQFVFRDKMKDFDPANPGNILFYFKQQVTAPARLAGGVLLVHETLDQVKEPRSAWVYNAGQRRVRRAPQVSYDGPGTAADGLRTSDNLDMYNGAPDRYDWKLEGKKELYIASNSHKIDSPQLKYADIIKAGHINQDLTRYELRRVWHVTATLKEGQRHIYAKRDFYIDEDTWQAAVIDHYDGRGQLWRVAEAHAENYYDKQVPWYALETIYDLQSGRYLALGMKNEEKSAYDFGFTASTADFTPNALRQDGIR				NA	NA	NA	NA	NA
D1-35_04351	2736	malT_2	COG2909	HTH-type transcriptional regulator MalT	ATGACTGATTTGTCTTCACCTGCGGATTCTGCCCGCGCAGCCATCGCGGTACAGGACGGGCGTTTCTACCGCCCGCCCTTGCCCGACGGCCACGTCCCGCGGCCGCGGTTGTGCGAGCGTCTGAGCGCTGGGCTCGGCGGTCGCTTGCTGCTGGTGAGTGCACCGGCGGGGTTTGGCAAAAGCTCCCTGGCGGTGGAGTTCTGCCAGAGCCTGCCGGCCCATTGGCGGAGTCTCTGGTTGGGGCTCAGTGCCCGGGACAACGATCCGGGCCGCTTTCTGGAGCGGCTGCTCGAAGGGCTCCAGGCCTTTTATGCGCAGTTGGGCGGACGGGCGTTGGGCCTGCTGAAGATGCGCCAGCGGCACCAGCCCTTTGCTTTCGAGGAGTGGCTCGACGGCTTGCTGGATGAACTGTCCAGCCACCTCTCCTCCCGCGCCCCGCTATTGCTGGTACTCGACGATTACCACCTGGCCCAGAGCCCGGTGCTGGATCGTTGCCTGCAGTTTTTCCTCAATCACTTGCCCGAAGGGTTGCTGGTGCTGGTCACCAGCCGCCAGCGTCCGGACTGGCACCTGGCGCGCCTGCGCCTGTCGCGGCAATTGCTCGAACTCAACGAGCAGGACCTGCGCCTGACCCATGACGAAGCGTTGACCTTGCTCCAGCACCACAGCAGCTCGCTGCGTGGCGAGGCACTGGAGAGCCTGATCCAGCGCAGCGAAGGCTGGGTCGCCGGGCTGCGTTTCTGGCTGCTGGCCGCTTCCGAGGCCGGTAGCGAAGGCCGGCTGCCCCAGGCCCTGCATGGCGGTGAAGGGCTGATTCGCGATTATCTGCTCGAAGAAGTCATCGATTGCCTGCCGCCCGAGGTGCAGGCGTTTCTCTACGACACCGCGCCACAGGAGCGCTTTTGCAGCGAACTGTGCGATGCGGTGCGCGACGCCCATGACAGTCACGAAATTCTTCAGTACCTGGCCGCCCACCAGGTTTTTCTGGTGCCGCTGGACGAGCATGGCCACTGGTATCGCTACCACCACCTGTTTTCCGACCTGTTGCGCAGCCGCCCCAGCGCGCCGGCCATGGTGCCGGCCGCGACTCTGCACTTGCGCGCCTGTCGCTGGTTCAATGCCCAGGGTCTCATCGACGAAGCCGTGGAGCAGGCGTTGCGTGCCGGGCACCTGGACGTGGCGGCGAACCTGGTGCAGAACCTTTCGGAAGAACAACTGCTGGCCGAGCAGAACGTCGGCATGTTGCTGCGCTGGAAAATGGACCTGCCTGATAGCCTGCTCATCAGCACCCCACGGCTGATCGTGCTCTACAGCTGGGCGTTGGGCCTGGCCAGCCAACTGGATGCCGCCGAGGAACTAGCCGCCCACTTGAGTCGCTTCCTGCCGGCGCCGTCGGCCACCGCGCAAAAATCCATGCTCGCCCAGTGGCTGGCCCTGAGCGGCATCGTCGCCCGCGGGCGTGGCGACCGAGAGGCCACGCTGCGCTATTGCACCGAAGCCCTGGAAAGCCTGCCGCAGAAACGCTATGGCCAGCGCCTGATGTGCTTGTCCACCCTGTCGAACCTGGCGATTGCCGACGGTGACCTGTGGCGCGCCCGCGCACTGAACCGCGACTCCCTCGAACTGGCGCAGCGGGTCGGCAATCCGTTGTTCGAGGCGCTGGCCCATTACGACCGTGCGCGGGTGTTGCAGGCGCGAGGGGAGATCCTGCGCGCACTCGATGAAGTGAAGCAGGGGCTGCAGCGGCTGCATGGATTGTCGCCGCAACGGCTGTATGCGGTGCGCGCGCGATTGGTGCTGTACGAAGGTTTCCTGTTGACGCTGCGCATGCAGTCCCAGGCCGGATTGACACGGTTGCAGGCCGGCCTGACCGAAGCCCGGGCTTGTCGCGATATCAGTGTGTTGATCGGCCACTGCGTGATTGCCCGGGTCGAAGGCTATAACGGCGAATTCGCCCGGGCCTTCGCCGAGCTGGCCGAGGCCGAGCGCCTGATGCACATCTGGGATGTACCACCGGTTTACTACCTGGCGATGATCACCCTGGTCAAATGCGAGCTCTGGCTGGCCCAGGGCCGTACCGAGCTGGCCGAAGCCTGGCTGGCGCGGCTGGGCCAGACCTACACCGGCGAACGGGCCGCCGCGCCGCCGGAGTTCCACCCGCAGTTGCCGTTGCATGTCGAGCTGCAGCAGGCATTGCTGGAATCCATAAAGGGCCAACCGATGCAGGCCGAGGGGCGCCTCGATGCCTTGCTTGAGCACGCACAGCAAACCGGGCGGCAGATGCTCAGTGTGATGGTGCTCAACCAGAAGGTGGCCTTGCTGCTGCGCCTGGGCCGCGAGCCCGAGGCCCGCAGCACCCTGGCCCAGGCGTTCGATGCCGCCATCGGCGGCGTGTTGCAGCCTTTCGAATGGTTGTTGCGAGAGCATCGTGAATGGCTGCGCGAACAGTTGCTGCACGCGCCGCCCAGTGACGTGCGCCAGCACTTGCTCGAATGCTTGCCGTCGACCGCGACGCCAGCGATCGAACCCTCGGTCCCGGTCGAAACCCTCAGCAGCCGCGAGAGGGCAGTGCTGCAACTGATCGCCCAGGGATGTTCCAATCAGGAAATCAGCGAGCAGTTGTTCATCTCGCTGCACACGGTAAAAACCCATGCCAGCCACATCAACAGCAAACTCGGCGTCGAACGCCGCACCCAGGCCGTGGCGCGGGCGAAGGCCTTGGGGTTGTTGGGCTGA	MTDLSSPADSARAAIAVQDGRFYRPPLPDGHVPRPRLCERLSAGLGGRLLLVSAPAGFGKSSLAVEFCQSLPAHWRSLWLGLSARDNDPGRFLERLLEGLQAFYAQLGGRALGLLKMRQRHQPFAFEEWLDGLLDELSSHLSSRAPLLLVLDDYHLAQSPVLDRCLQFFLNHLPEGLLVLVTSRQRPDWHLARLRLSRQLLELNEQDLRLTHDEALTLLQHHSSSLRGEALESLIQRSEGWVAGLRFWLLAASEAGSEGRLPQALHGGEGLIRDYLLEEVIDCLPPEVQAFLYDTAPQERFCSELCDAVRDAHDSHEILQYLAAHQVFLVPLDEHGHWYRYHHLFSDLLRSRPSAPAMVPAATLHLRACRWFNAQGLIDEAVEQALRAGHLDVAANLVQNLSEEQLLAEQNVGMLLRWKMDLPDSLLISTPRLIVLYSWALGLASQLDAAEELAAHLSRFLPAPSATAQKSMLAQWLALSGIVARGRGDREATLRYCTEALESLPQKRYGQRLMCLSTLSNLAIADGDLWRARALNRDSLELAQRVGNPLFEALAHYDRARVLQARGEILRALDEVKQGLQRLHGLSPQRLYAVRARLVLYEGFLLTLRMQSQAGLTRLQAGLTEARACRDISVLIGHCVIARVEGYNGEFARAFAELAEAERLMHIWDVPPVYYLAMITLVKCELWLAQGRTELAEAWLARLGQTYTGERAAAPPEFHPQLPLHVELQQALLESIKGQPMQAEGRLDALLEHAQQTGRQMLSVMVLNQKVALLLRLGREPEARSTLAQAFDAAIGGVLQPFEWLLREHREWLREQLLHAPPSDVRQHLLECLPSTATPAIEPSVPVETLSSRERAVLQLIAQGCSNQEISEQLFISLHTVKTHASHINSKLGVERRTQAVARAKALGLLG	PGPT0018616_495	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018616-malT-K03556	NA	NA
D1-35_04352	501	ogt	COG0350	Methylated-DNA--protein-cysteine methyltransferase	ATGCCGCCCCTGTACCAAACCATCCAATCCCCCGTAGGCGAGTTGATCCTTGTCGCCCGCGGCACGAAGCTGGCGGCCATCCTGTGGGAGAACGAGCGGCTCAATCGGGTGCGCCTGGGACCGTTGGAGCAGGACAGTGATCATCCGACCCTCAAGGAAACCGAGCGTCAACTGCTGGAATATTTTTCTGGCCAACGCCGCCGTTTCGAGCTTGAACTGGATTTTGTCGGCACCGATTTTCAAGTGCGGGTCTGGCAGGCTCTGCTGACTATCCCGTTCGGCGAAACCCGCAGCTATCGCGACATAGCCATCCAGATCGGCCAACCGACCGCGACGCGCGCGGTCGGCGCCGCCAACGGACGCAACCCGATCTCGATCATCGCGCCCTGCCATCGGGTCATCGGCACCTCCGGCAGCCTCACCGGTTTCGCCGGCGGCCTTGCCGCCAAACAGTTCCTGCTGAGCCTCGAAGGCCAACAGAGCCTGCAACTGGCGTTCTGA	MPPLYQTIQSPVGELILVARGTKLAAILWENERLNRVRLGPLEQDSDHPTLKETERQLLEYFSGQRRRFELELDFVGTDFQVRVWQALLTIPFGETRSYRDIAIQIGQPTATRAVGAANGRNPISIIAPCHRVIGTSGSLTGFAGGLAAKQFLLSLEGQQSLQLAF				NA	NA	NA	NA	NA
D1-35_04353	1908			hypothetical protein	ATGTTGCCGGCCCCTTCCGATACCCCGATCCCCCTCCCCCCCGTCCTTGTCGGCCCGCTCTTGCGACGACTGGAGCCGACGCGGCTGGTGATGTGGCTGGTGGGGACGCGAGCGTTGGCGTTGACGCTGAGTATCGACGGCGTCGGCGACCTGGCGCTGGATGCGTCGCGCTGCACCGTGGTGCCGGTGGGGCAACGAGCGTTTGTGCATTTGATTGATGTGACACTCGATACGCCCTTGCCCCAGGACGTGGCGATTGACTACGACCTGCTGGTGGACGGCGTCCCCATTGCCGAATGGGCGCCGTATCTGTTGTACGGCGACGCAAAGCGTCCGAACTTCATGCTGCATTCGCGCATAGAACAGCTGGTCCACGGCTCTTGTCGTAAACCCCATTTCCCGGCCAATGATGGTCTGCTCTGTGTCGACCGCTTGTTGGCGGAGTCTGCGGAGCAGCGTCCGGCATTGCTGATGATGAGCGGCGACCAGGTGTACGCCGACGATGTCGCCGGGCCGATGTTGCGGGCGATTCATGCCCTGATCGAGCGCCTGGGCCTGTTCGAGGAGTGTCTGGAAGGTGCGGTGGTGGAGGACAGCGCCAGACTCTACCAACACCCGGCCAGTTACTATCACCGCGCGGATCTGTTACCGGCGCTTGAGAGCAACGAAACCCTGCGCGAACGTTTTTTCGGCGGGGCGCGCAAGCCGATCTTCACCAGCAGCAGCGCCGACAACCATCTGGTGACCTTCGCCGAGGTCATGGCGATGTATCTGCTGGTGTGGTCGCCCGTACCGTGGACCCTGATCGATCCGCAACCGCCTGAATTGACCGCCGAACGGCGCCAGCGCTACGACCTCGAACAACAGCGCATCGAGGCATTCAAGACCGGGCTGGATGGCGTGGCACGGGTGTTCGCCCATCTGTCGTGCCTGATGATTTTCGATGATCACGACATCACCGATGACTGGAACCTGTCCGCGCAATGGGAGGAAACGGCCTACGGCCATCCCTTCTCCAAACGCATCATTGGCAACGCGTTGATCGCCTATCTGCTCTGCCAGGGCTGGGGCAACAACCCGGATGCCTTTGGTGAAGTGATCGAGCAGACCGTGGCCTTGAGCGACACCGCCCGGGACCGCTACATCGACAGCGGGCCCCAGGATGCGTTGATCGACACCCTGCTCGGTTTCCAGCAATGGCACTACGTGTTGCCGAGCACGCCGGCGCTGGTGGTGCTCGACACCCGCACCCGCCGCTGGCGCAGCGAGAATAGCCTCAAGCAGCCGTCGGGCCTGCTGGACTGGGAAGCCCTGAGCGAACTGCAGCAGGAACTGCTGGACCATCCCTCGGCGATCATCGTCTCGCCGGCGCCGATCTTTGGCGTCAAGCTGATCGAGACCGTGCAGCGGCTGTTCAGCTGGTGCGGCTACCCGCTGTTGGTGGATGCGGAGAACTGGATGGCCCACCGTGGCGCGGCCCAGGTGATCCTGAATATTTTCCGCCACTCGCGCACGCCGGGAAGCTACGTGGTGTTGTCCGGCGATGTGCATTATTCCTTCGTCTACGAGGTGCTGATCCCACACCGCAAGGGCGGCCCACGTGTCTGGCAGATCACCAGCAGCGGTATCAAGAACGAGTTCCCGCCGGCGCTGCTGGAATGGTTCGATCGGCTGAACCGCTGGCTCTATTCTCCACGCTCGCCCTTGAACTGGTTCACCAAGCGCCGCAGCATGCGCATCGTCCCCCATGTCCCGGAACATGCCGAAGCCGGGGAACGGCTGTGGAACTCGGCGGGGATCGGCCAGGTGTTTTTCAACGAACAGGGGCAACCGGCGCAGATCTATCAGCACAACGCCAACGGCAAGCCGCCCACGCGCATGCTGGCGCCGAAGTCGCCCTTGAGCTGA	MLPAPSDTPIPLPPVLVGPLLRRLEPTRLVMWLVGTRALALTLSIDGVGDLALDASRCTVVPVGQRAFVHLIDVTLDTPLPQDVAIDYDLLVDGVPIAEWAPYLLYGDAKRPNFMLHSRIEQLVHGSCRKPHFPANDGLLCVDRLLAESAEQRPALLMMSGDQVYADDVAGPMLRAIHALIERLGLFEECLEGAVVEDSARLYQHPASYYHRADLLPALESNETLRERFFGGARKPIFTSSSADNHLVTFAEVMAMYLLVWSPVPWTLIDPQPPELTAERRQRYDLEQQRIEAFKTGLDGVARVFAHLSCLMIFDDHDITDDWNLSAQWEETAYGHPFSKRIIGNALIAYLLCQGWGNNPDAFGEVIEQTVALSDTARDRYIDSGPQDALIDTLLGFQQWHYVLPSTPALVVLDTRTRRWRSENSLKQPSGLLDWEALSELQQELLDHPSAIIVSPAPIFGVKLIETVQRLFSWCGYPLLVDAENWMAHRGAAQVILNIFRHSRTPGSYVVLSGDVHYSFVYEVLIPHRKGGPRVWQITSSGIKNEFPPALLEWFDRLNRWLYSPRSPLNWFTKRRSMRIVPHVPEHAEAGERLWNSAGIGQVFFNEQGQPAQIYQHNANGKPPTRMLAPKSPLS				NA	NA	NA	NA	NA
D1-35_04354	1284	dctM_2	COG1593	C4-dicarboxylate TRAP transporter large permease protein DctM	ATGACCATTGCCTTCCTGTTCATCGCGCTGTTCGTGCTGATGTTCATCGGCGTGCCTATCGCCATTTCCCTCGGGCTGGCCGGTTCGCTGACGATCATTTTCTTCAGCCCCGACTCCGTACGCTCCCTGGCAATCAAGCTGTTCGAGACATCCGAACACTACACCCTACTGGCGATTCCGTTCTTCCTGCTGGCCGGTGCGTTCATGACCACGGGTGGCGTGGCGCGACGGTTGATCGACTTTGCCAACGCCTGCGTCGGACACATCCGCGGTGGCCTGGCGATTGCGGCAGTGCTGGCGTGCATGCTGTTTGCCGCACTGTCCGGTTCCAGTCCCGCGACGGTGGCAGCGGTGGGTTCGATTGCCATCGCCGGCATGGTGCGCTCAGGTTATCCCCAGGCGTTTGGTGCCGGTATCGTCTGCAACGCCGGGACCCTGGGCATCCTGATTCCGCCGTCGATCGTCATGGTGGTCTATGCCGCCGCGACCGAAACCTCGGTAGGCAAACTGTTCATGGCCGGTGTGATACCAGGCCTGTTGCTCGGCACAGCGTTGATGGTGGCGATCTACATCGTCGCCGTGAAGAAAAACCTGCCGGCAATGCCCCGAGCCACGTTTCGCGAATGGCTGACCACGGCCCGCAAAGCCATTTGGGGCTTGCTGCTGATGGTCATCATCCTCGGCGGGATCTATTCCGGGATGTTCACCCCGACAGAAGCAGCGGCGGTGGCGGCAGTGTATTCGGCGTTTATCGCGTTGTTCGTCTACAAGGACCTGACGTTCCGCGAAACCCCCAAGGTGCTGCTGGAGTCGGCCAAGCTGAGCATCATGCTGATGTTCATCATCGCCAACGCCATGCTCTTCGCCCACGTGCTGACCACCGAGCAACTGCCGCAGCAGATCACTGCGTGGGTGATCGAGGCCGGGCTGACGCCAGTAACCTTCCTGCTGGTGGTCAACATCGTGCTGCTGATTGCCGGTGCGTTCATGGAACCGTCGGCGATCATCCTGATTCTGGCGCCGATCCTGTTCCCTATCGCCATGAAGCTGGGCATCGACCCGATCCACTTGGGCATCATCATGGTGGTGAACCTGGAGATCGGCCTGATCACGCCGCCGGTGGGCTTGAATCTGTTCGTCACCTCGGCGGTGACCGGCATGTCGCTGACGGCGACCATCCGCGCGGCCATGCCGTGGCTGATGATTCTGCTGGCGTTCCTGGTGCTGATTACCTATGTACCGTGGATCTCGCTCGCGCTGCCTAACTGGTTGGGGATGAGCTGA	MTIAFLFIALFVLMFIGVPIAISLGLAGSLTIIFFSPDSVRSLAIKLFETSEHYTLLAIPFFLLAGAFMTTGGVARRLIDFANACVGHIRGGLAIAAVLACMLFAALSGSSPATVAAVGSIAIAGMVRSGYPQAFGAGIVCNAGTLGILIPPSIVMVVYAAATETSVGKLFMAGVIPGLLLGTALMVAIYIVAVKKNLPAMPRATFREWLTTARKAIWGLLLMVIILGGIYSGMFTPTEAAAVAAVYSAFIALFVYKDLTFRETPKVLLESAKLSIMLMFIIANAMLFAHVLTTEQLPQQITAWVIEAGLTPVTFLLVVNIVLLIAGAFMEPSAIILILAPILFPIAMKLGIDPIHLGIIMVVNLEIGLITPPVGLNLFVTSAVTGMSLTATIRAAMPWLMILLAFLVLITYVPWISLALPNWLGMS	PGPT0017335_2313	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
D1-35_04355	633	dctQ	COG3090	C4-dicarboxylate TRAP transporter small permease protein DctQ	ATGAACGCCCTTCGGCGCACCTGGGAACATTTCGAGGAAGGTTTCATTGCCTTCCTTCTGGCCGCCATGACGTTGGTCACTTTCGTCTACGTGGTCCTCAACAACCTTTATGCAGTGTTCTACAGCCTTGGCGACAACTGGCCAGCCGCCAGCGAACCGATGTTCGCCATTGGCGACGGCATCATGGGCATGGCCCAGGCCATGACCTGGAGCAGTGCGCTGACCAAGGCGCTGTTTGGCTGGCTGATTTTCTTTGGCCTGTCGTATGGCGTGCGCACGGCCGGCCACATCGGCGTCGACGCGTTGGTGAAACTGGCGAGCAAACCGCTGCAGCGCATTATCGGCGTGATCGCCTGCCTGTGCTGCCTGGCCTACGCCGGGTTGCTGGCCGTGGCGAGTTACGAATGGATCAATACCTTGATGATTGCCCAGATCGGCGCGGAAGACCTCGGCCATTTCGGCATCATGCAATGGCACGTAGGGCTGATCGTGCCGGTAGGATTCGCCCTGGTGTTTATCCGTTTCGCGGAAATCCTGGTGCGCATCCTGATGAACCGTCAGACGGGCCTGGGTCTTGCCGATGAAGCGGCCGAAGCGATCAAACTGACCGAGATCGAGGAAGACAAGCCATGA	MNALRRTWEHFEEGFIAFLLAAMTLVTFVYVVLNNLYAVFYSLGDNWPAASEPMFAIGDGIMGMAQAMTWSSALTKALFGWLIFFGLSYGVRTAGHIGVDALVKLASKPLQRIIGVIACLCCLAYAGLLAVASYEWINTLMIAQIGAEDLGHFGIMQWHVGLIVPVGFALVFIRFAEILVRILMNRQTGLGLADEAAEAIKLTEIEEDKP	PGPT0017330_272	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
D1-35_04356	996	dctP_1	COG1638	C4-dicarboxylate-binding periplasmic protein DctP	ATGTTTAAACCTATGTGGAAAGCACTCGTCTGCACACTGGCCCTCAGCGCGTTGAGCAGCGCCATGGCGGCCGATCCGGTGGTTATCAAGTTCTCGCACGTGGTGGCCGAACAAACCCCCAAAGGCCAAGGCGCGTTGCTCTTCAAAAAGTTGGTGGAAGAGCGATTGCCGGGCAAGGTTAAGGTCGAGGTGTACCCCAACTCGTCGTTATTCGGCGATGGCAAGGAAATGGAAGCCCTGCTCCTGGGTGACGTGCAAATGATCGCGCCATCGCTCGCCAAGTTCGAGCAATACACCAAGACGGTGCAGTTGTTCGACCTGCCGTTCCTGTTTGATGACATCTCTGCCGTGGACCGTTTCCAACTGAGCCCTGAAGGTCAGAAACTGCTCAAGTCAATGGAAAGCAAGAACATCACCGGCCTGGCCTATTGGCACAACGGCATGAAGCAACTCTCTGCCAACAAACCACTGCGCGAACCCAAGGATGCCCGTGGCTTGAAGTTCCGCGTGCAGGCGTCTGCCGTGCTCGAAGAACAGTTCAAGGCCGTCAATGCCAACCCGCGCAAGATGAGTTTCGCCGAGGTGTACCAAGGCCTGCAGACCGGCGTGGTCAACGGTGCGGAAAACCCCTACTCGAACATCTACAGCCAGAAAATGCATGAAGTGCAGAAGTACATCACCGAGTCCAACCATGGCTTGCTCGACTACATGCTGATCACCAACACCAAGTTCTGGAATGGCCTGCAGCCGGACGTACGCAGCGAACTGGACAAGATCCTTGTGGAAGTCACCGCCCATGTGAACAAGGAAGCGGCGCAACTGAACCAGAACGACAAGCAGCGCATCCTCGACGCCAAGACCACCGAGATCATTACCCTCACGCCTGAAGAACGCAACGCATGGCGCGACAAGATGAAACCGGTCTGGAAGAAGTTCGAAGGTGACATCGGCGCTGACCTGATCCAAGCCGCCGAAGCCTCCAACAAGGCTCAGTAA	MFKPMWKALVCTLALSALSSAMAADPVVIKFSHVVAEQTPKGQGALLFKKLVEERLPGKVKVEVYPNSSLFGDGKEMEALLLGDVQMIAPSLAKFEQYTKTVQLFDLPFLFDDISAVDRFQLSPEGQKLLKSMESKNITGLAYWHNGMKQLSANKPLREPKDARGLKFRVQASAVLEEQFKAVNANPRKMSFAEVYQGLQTGVVNGAENPYSNIYSQKMHEVQKYITESNHGLLDYMLITNTKFWNGLQPDVRSELDKILVEVTAHVNKEAAQLNQNDKQRILDAKTTEIITLTPEERNAWRDKMKPVWKKFEGDIGADLIQAAEASNKAQ	PGPT0017325_698	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
D1-35_04357	996	dctP_2	COG1638	C4-dicarboxylate-binding periplasmic protein DctP	ATGCTCGAACCTTTATGGAAAGCGCTCATCTGCACTCTGGTTTTCAGCGCACTGGGCAGCGCCTACGCAGCCGACCCCCTCGTGATCAGGTTTTCCCATGTGGTGGGCGAACAGACGCCCAAGGGCCAGGGCGCCCTGATGTTCAAGAAGCTGGTGGAGGAGCGGTTGCCGGGCAAGGTAACTGTGGAGGTGTATCCCAACTCCACACTGTATGGCGACGACAAGGAAATGGAAGCGTTGCTGCTGGGAGACGTGCAGATCATCGCGCGGTCACTGGCCAAGTTCGAGCAGTACACCCGCAAGGTGCAGTTGTTCGACTTGCCGTTCCTGTTCGATGACATTGCCGCGGTGGACCGTTTCCAACAGAGCCCCGAGGGCCAGCAACTGCTCAAGTCCATGGAGAGCAAGAACATCACCGGCCTGGCCTATTGGCACAACGGCATGAAGCAGCTTTCGGCGAACAAACCCCTGCGCACGCCCGAAGATGCGCGCGGCCTGGTCTTCCGTGTGCAAACTTCCGCGGTGCTGGAGGAGCAGTTCAAGGCGGTGAGTGCCAAAGGCCAACCGATGATTTTCTCGGTGGTGTATCAGGGCTTGCGTACGGGCCTGGTCAACGGCACGGAAAATACCTATTCAAATTTTTACAACCAGAAACTGCATGAGGTACAGAAATACGTTACCGAGTCCAACCACGGCATCCTCGACTACATGCTGATCACCACATCGGATTTCTGGAACGGCCTGCCGCCGGATATCCGCGGTGAGCTGGAAAAGATCGTGGTCGAATCCACCGCTCATGCCAACAAGGAAGCGGAGCGATTCAACCAGCAGGACAAACAGCACGTCCTGGACGCCAAGACCACCGAGATCATGACCCTCACGCCGCAAGAGCGAGATGCCTGGCGAGAGAAAATGAAACCGGTATGGGCGAAGTTCGAAAAGGATATCGGCCCGGAGCTGATCAAAGCCGCCGAAGCGTCCAACAAGACGCAGTAA	MLEPLWKALICTLVFSALGSAYAADPLVIRFSHVVGEQTPKGQGALMFKKLVEERLPGKVTVEVYPNSTLYGDDKEMEALLLGDVQIIARSLAKFEQYTRKVQLFDLPFLFDDIAAVDRFQQSPEGQQLLKSMESKNITGLAYWHNGMKQLSANKPLRTPEDARGLVFRVQTSAVLEEQFKAVSAKGQPMIFSVVYQGLRTGLVNGTENTYSNFYNQKLHEVQKYVTESNHGILDYMLITTSDFWNGLPPDIRGELEKIVVESTAHANKEAERFNQQDKQHVLDAKTTEIMTLTPQERDAWREKMKPVWAKFEKDIGPELIKAAEASNKTQ	PGPT0017325_728	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
D1-35_04358	486			hypothetical protein	ATGCGGGCTGCCGGAAAGTTGCGGATCCTGGAGGAGAACCAGCCGCGCCTGTCAGGCTTGGCCTCCGGGATCACTGGACAGGACGTTTCAAAAAACTCAACAAGGGACTCAACGATGATCGATTTCAACAACAAAGGCTTCTTCAAGCTCAAGCAAAACAATGAATACGCCGAACGCGTCTCGGATCTGTTGCTGGACGGTGAACAGGTGATCGACGCCTACAAGTCGATGCGTGATGGCGTGGTGTTCACCAACAAACGCATCATCGCGGTAAACGTGCAGGGCATTACCGGCAGCAAGAAGGATTTCACCTCGCTGCCCTACAAGAATATCGTTGCGTACTCGGTGGAAACCTCCGGCACCTTCGACCTGGATTCCGAACTGGAGATTTATTTTTCGTCCCTGGGCAAGGTGAAGTTTGAGTTCTCCGGCAAGACCGGCATCGTCGAAATCTCCAAGGTCATTTCCAGGCACCTTTTGGTCTGA	MRAAGKLRILEENQPRLSGLASGITGQDVSKNSTRDSTMIDFNNKGFFKLKQNNEYAERVSDLLLDGEQVIDAYKSMRDGVVFTNKRIIAVNVQGITGSKKDFTSLPYKNIVAYSVETSGTFDLDSELEIYFSSLGKVKFEFSGKTGIVEISKVISRHLLV				NA	NA	NA	NA	NA
D1-35_04359	417			hypothetical protein	ATGAAAAATTTCACCATCGAGCGCATCGACCACGTCGTACTGCGCGTGACGAACATCGAGCGCAGCCTGACCTTCTACACCTCGGTGCTCGGTTGCGAACTGAAGAAGCGGCGGGACGATCTGGGATTGGTCCACCTCGGCGCCGGGGCGTCGATGATCGATCTGGTGGATGTCGAAGGACCGCTCGGCCGTCAGGGTGGCGCGGCGTCGGGCAGGCAGGGGCACAACGTCGATCACTTCTGCCTGCGCGTCGAACCGTTTGACGAACAAGCCCTGCTCGCTCATCTGGGCGCTGCCGGGCTGGAGGTCGAGAAGGCACAGATGCGCTATGGCGCGGAGGGGCAAGGCTGGTCAATCTATTGCTTCGACCCGGATGGCAACCAGATCGAGTTGAAGGGACCGGCGCTGGAGCCTTGA	MKNFTIERIDHVVLRVTNIERSLTFYTSVLGCELKKRRDDLGLVHLGAGASMIDLVDVEGPLGRQGGAASGRQGHNVDHFCLRVEPFDEQALLAHLGAAGLEVEKAQMRYGAEGQGWSIYCFDPDGNQIELKGPALEP				NA	NA	NA	NA	NA
D1-35_04360	1155	gci	COG4948	D-galactarolactone cycloisomerase	ATGAGAATCACAGGCGTTCACGTCGAAATCTTTTCCACCCCGTCGCGTCGCGCCCAGGACAGCGCCGGTCACGCCCATCCAGGCGACGAAGTCATGATCAAGATGGCCCTGCTGCGCATCAGCTGCGACGATGGCTCGGAGGGTTACGCCTTCGGTACGCCCGAGTTGATTCGTCCACACATCATCGAATCGTTCGTGCGCAAGGTGCTGATCGGCCGCGACCCGATGGACCGTGAGAGCATCTGGCAGGACCTGGCGCACTGGCAGCGCGGCAGCGCCGGCCAGTTCACCGACCGCGCGCTGGCGCTGGTTGAGCAAGCCTTGTGGGATCTGGCCGGGCGCAAGCTGAAGTTGCCGGTGCACAAGCTCATCGGCGGTTACCGTGACAAAGTCCTGGCCTACGGCTCGACCATGTGCGGCGATGATTTGCCGGGCGGTCTGTCGACGCCGGATGAGTACGGCCAGTTCGCCGAAAAGCTCGTCAAGCGCGGCTACAAGGCAATCAAGCTGCACACCTGGATGCCGCCGATTTCCTTCGCGCCGAATCCGCAAATGGACATCCAGGCCTGCGCGGCAGTGCGCGAGGCGGTCGGTCCGGACATCGCCCTGATGCTCGATGGCTACCACTGGTACAGCCGTATGGATGCGCTGACCATTGGCAAGGCCCTGGAAAAACTCAATTTCGCCTGGTTCGAAGAACCGATGATGGAAGACTCCGCCGAGTCATACGCCTGGCTGGCCGCCAATCTGGACATCCCGGTGCTGGGCCCGGAAAGCATTGCCGGAAAATTCCACAGCCGCGCCAGTTGGGTGACGCAGAAGTCCTGTGACATCCTGCGCGCCGGCGTGGCTGGCGTCGGCGGTATCGGCCCTTGCCTCAAAGTGGCGCACCTGGCCGAGTCGTTCGGCATGGATTGCGAGGTCCACGGCAACGGCGCGGCGAACCTGGCGGTGGTGGGCGCGATCAGCAACTGCCGGTGGTACGAGCGCGGCCTGCTGCACCCGTTCCTCGATTACGAGGAAGTGCCGGCGCACCTCAACAGTATTATCGACCCGATGGATGCCGACGGTTACGTGCATCTGTCTGATCGGCCGGGGTTGGGCGAGGACATCAACTTCGCGTATATCGAAGCCAACACCTTGTCTCGACACTGA	MRITGVHVEIFSTPSRRAQDSAGHAHPGDEVMIKMALLRISCDDGSEGYAFGTPELIRPHIIESFVRKVLIGRDPMDRESIWQDLAHWQRGSAGQFTDRALALVEQALWDLAGRKLKLPVHKLIGGYRDKVLAYGSTMCGDDLPGGLSTPDEYGQFAEKLVKRGYKAIKLHTWMPPISFAPNPQMDIQACAAVREAVGPDIALMLDGYHWYSRMDALTIGKALEKLNFAWFEEPMMEDSAESYAWLAANLDIPVLGPESIAGKFHSRASWVTQKSCDILRAGVAGVGGIGPCLKVAHLAESFGMDCEVHGNGAANLAVVGAISNCRWYERGLLHPFLDYEEVPAHLNSIIDPMDADGYVHLSDRPGLGEDINFAYIEANTLSRH				NA	NA	NA	NA	NA
D1-35_04361	1623	ddpA	COG0747	putative D,D-dipeptide-binding periplasmic protein DdpA	ATGAAACTCTGGCCCAAGCGCCTGACCAGGCTGCTGTGTGTCATCGTGGCCCTGTGCGCAGTGCAGGTGCCCGTCAGCCTGGCCCAAGGCGAAACGCCCGCCGACCAATTGGTGGTGGGCATGAGCATGATCAACCTGCTGTCGCTGGACCCGGCGGCCGCGACCGGCCTGGAAGTTGCCGAGGTCAACGCCAATGTCTACGACATGCTCCTGGAGCAGGACGCGGCGCAGCCGGACACGCTGGTGCCGGCCCTGGCGAAAAGCTGGGAAGTCAGCCCGGACCGCATGCGTCTCACCTTCCAGTTGCGTGACGACGTCCGTTTTCACTCCGGTGCGCCGCTTACTGCGCAAGATGTCGCCTGGTCCTTGCAACGTGTGGTCACCCTCAACCGCGCCCTGGCGTCCACCTGGAAAGCCTACGGTTTCAGCGCCGACAACGTCGCCCGGCTGATGCGCGCCGAAGGGCCCCACACCTTCGTCATGGAGCTGCCACGCGTCACCGACCCGCTGTTGGTGCTCAACACCCTGGCCACCTCGCCGAGTGCGTTCATCATCGACCGCTCGGTGGCCTTGCAGCATCAGGTCGGTGACGACCAGGGCGCGGCCTGGCTGGCGACGCACACCGCCGGGTCCGGTGCGTTCAAGCTGGATATCTGGCGCGCCAACGACGTGATCCTGATGAGCCGCAACGAGGACTACTGGCGCGGCGCGCCGAAGTTGCGCCGGGTGATCATGCGCAACATGACCGAGTCCCAGGCCCTGCGCCTGATGGTCGAGCGCGGTGACCTGGATGTCGCCCGCGGCATGGCGGCGACCGACATCAAGGCGCTGGGCAAGGTGGATGCGGTGCGCATCCAGAGCATCGCCCGCGGCACGCTGTACTACGTGGCGATGAGCATGCAGCAGCCGCTGTTCCAAGACATCCGGGTGCGCCAGGCGATCCGTCTGCTGATCGACTACCAAGGCATCAACGACGTGGTGATGCCGCACTACGGCGTGATCAACCAGCGCCCGATGCAGCTGGGCTTGCCGGCACGCCTGGACGATCCGGGTTATCGCCTGGACGTGGCCGAGGCTCGCCGCCTGCTGGCAGAAGCCGGTCACGCCGAGGGCTTCAAGGTGAGCATCCGTTCGCTGACCGACCCGCCCTTCATCAACATCGCCACCAGCCTGCAAGCGACGCTGGCCCAGGCGGGCATCCAGGCGACGATCATCACCGGCACCGGCAACCAGATCTACGGGGCGATGCGCGACCGCCAGTTCGACATCCTCGTGGGGCGTGGCGGTGGTGGGGCGGAGCGCCATCCGCATTCGAGCCTGCGGGCCCTGGTGTACAACCCGGACAACCGCAGCGAAGCCAAATTGAGCAACTTCCAGGGCTGGCGCACCTCGTTCTTCAACCCGCAGCTCAATCAGTTGATCGAACAGGCCGAGCGCGAGCGCGACCCCGAACGGCAGCGGCAGATGTATGCCCAGATCCAGACCCTCTACGACCAACAGGCCGGGGCAATCATGCCGGTCTCGCAAATGGTGGACGAGGTGGTGATTCACGCCGACGTACGCAACTACATCGGCCACACCGCCGCCACCACGCGTCTTCGCGACGTCTACAAGCAGCGCTGA	MKLWPKRLTRLLCVIVALCAVQVPVSLAQGETPADQLVVGMSMINLLSLDPAAATGLEVAEVNANVYDMLLEQDAAQPDTLVPALAKSWEVSPDRMRLTFQLRDDVRFHSGAPLTAQDVAWSLQRVVTLNRALASTWKAYGFSADNVARLMRAEGPHTFVMELPRVTDPLLVLNTLATSPSAFIIDRSVALQHQVGDDQGAAWLATHTAGSGAFKLDIWRANDVILMSRNEDYWRGAPKLRRVIMRNMTESQALRLMVERGDLDVARGMAATDIKALGKVDAVRIQSIARGTLYYVAMSMQQPLFQDIRVRQAIRLLIDYQGINDVVMPHYGVINQRPMQLGLPARLDDPGYRLDVAEARRLLAEAGHAEGFKVSIRSLTDPPFINIATSLQATLAQAGIQATIITGTGNQIYGAMRDRQFDILVGRGGGGAERHPHSSLRALVYNPDNRSEAKLSNFQGWRTSFFNPQLNQLIEQAERERDPERQRQMYAQIQTLYDQQAGAIMPVSQMVDEVVIHADVRNYIGHTAATTRLRDVYKQR	PGPT0004430_8153	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
D1-35_04362	1038	dppB_2	COG0601	Dipeptide transport system permease protein DppB	ATGTCGACTGCATCCTTTTCAATCTGGACAACCCGGGCCGCTTCGGCGACCCGGCGCGGCGGTTCGGTGGCGGTGACGCTGCTGGGGTTGCTGCTGCTGACCTTTTTTATCGGCCGGGTGATGCCGCTGGACCCGGTGCTGGCAATCGTTGGCCCGGACGCCGACGCCTCGGCCTACGCCCAGGTCTATCAGGAGCTGGGCCTGGACAAACCACTGTGGAGCCAGTTCGCGATTTACCTCGGCGACCTGCTCCACGGCGACTTCGGCATGGCCTTGCTGACCGGAAACCCGGTCATCAGCGACATCGCCCGGGTGTTTCCGGCCACCTTGGAACTGGCGACCCTGGCCATTCTGTTCGGCGTGCTGGCGGGCCTGCCGCTGGGTGTCTACGCGGCGACTCATCAGGGCCGCGCCGGTGACCACGTCGCGCGGTTGATCACGCTGTTCGGCTATTCCACGCCAATCTTCTGGATCGGCATGATGGCCTTCCTGGTGTTCTACGCCTGGTTGGGCTGGGCCGGTGGCGTCGGGCGAATCGGCCTGGCCTACGACGGGCTGATTCCGACGCACACCGGGCTGCTGTTGATCGACACCGCCTGGTCCGGCGATTGGGAAGCCTTTCGCAGTGCGCTGCGGCACATCCTGCTGCCGGCGGTGATCCTCAGTTTCAACTCGGTCGCCTACATCAGCCGCATGACTCGCAGCTTCATGCTCGAGCAACTGTCCCAGGAGTACATCATCACTGCCCGGGTCAAGGGTCTGTCCCAACGCAAGATTGTCTGGGGTCACGCCTTCGGCAACATCCGCGTGCAGCTGTTGACCATCGTCGCGCTGGCCTACGGCGGGCTGCTGGAGGGCGCGGTGCTGATCGAAACCGTGTTCGCCTGGCCGGGTTTCGGCCAGTACCTGACCAGCAGTCTGTTGCTCGGCGACATGAACGCAGTGATGGCCTGCGTGCTGCTGATCGGCCTCATCTTCGTGACGCTGAACCTGATCAGCGATGCGCTGTACAAGCTCTTCGACCCGAGGACTCGCTAA	MSTASFSIWTTRAASATRRGGSVAVTLLGLLLLTFFIGRVMPLDPVLAIVGPDADASAYAQVYQELGLDKPLWSQFAIYLGDLLHGDFGMALLTGNPVISDIARVFPATLELATLAILFGVLAGLPLGVYAATHQGRAGDHVARLITLFGYSTPIFWIGMMAFLVFYAWLGWAGGVGRIGLAYDGLIPTHTGLLLIDTAWSGDWEAFRSALRHILLPAVILSFNSVAYISRMTRSFMLEQLSQEYIITARVKGLSQRKIVWGHAFGNIRVQLLTIVALAYGGLLEGAVLIETVFAWPGFGQYLTSSLLLGDMNAVMACVLLIGLIFVTLNLISDALYKLFDPRTR	PGPT0004445_1927	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
D1-35_04363	909	ddpC_1	COG1173	putative D,D-dipeptide transport system permease protein DdpC	ATGAGTCTGCCCCTTGCTTCGAGCGCAGCCGGCGATACCACGCTGCCCGCTTCGAGTACGGCAGCGCTGGTCGCCAGCGCCGCCCGGCTGCTGCGCTTTCTGCTGCGCAACCCGATGACGTTCGCCGGCCTGGTTGTCGTCGCGACCTTGATGGTGGTCGCGGCGTTCGCGCCATGGATCGCCGGTCACGACCCGTTGCTGCAGAACCTCGCCGGTGCGTTGCAAGCGCCCAGCAGCGCGCACTGGTTCGGCACCGATGAATACGGTCGCGATGTGTTCGCCCGGTTGGTGTACGGCTCGCGCATCACCTTGTACATCGTCTTGCTGGTGACGGTGATTGTCGGTCCCATTGGCCTGTTGGTCGGGACCATCTCCGGTTACTTCGGCGGCTGGGTCGACAGCCTGTTCATGCGCATCACCGACATCTTCATCTCGTTTCCGAGCCTGGTGCTGGCGCTGGCCTTCATCGCGGCGCTTGGCCCGGGCCTGGAGCACGCGGTGATTGCCATCGCGCTGACGGCCTGGCCGCCGATCGCCCGATTGGCTCGCGCAGAAACCCTGCCGCTGCGCAACGTCGACTTTGTCGTCGCGGTGCAGCTCCAAGGCGCGTCGAGTGCCCGGATCATCCTGCGTCATATCATCCCGATGTGCCTGTCGTCGGTGATCATCCGCCTGACCATGAACATGGCAAGCATCATCCTCACCGCCGCCGCCCTGGGCTTTCTCGGCCTCGGCGCCCAGGCACCGCTGCCGGAGTGGGGCGCGATGATCTCCACCGGCCGGCGCTACATGCTCGAAAGCTGGTGGCTGGTGGCGGCGCCGGGTGCGGCGATCATGCTGGTCAGCCTGGCCTTCAACCTGTTGGGCGACGGCTTGCGCGACGTCCTCGACCCCCGCAGCCAATCCTGA	MSLPLASSAAGDTTLPASSTAALVASAARLLRFLLRNPMTFAGLVVVATLMVVAAFAPWIAGHDPLLQNLAGALQAPSSAHWFGTDEYGRDVFARLVYGSRITLYIVLLVTVIVGPIGLLVGTISGYFGGWVDSLFMRITDIFISFPSLVLALAFIAALGPGLEHAVIAIALTAWPPIARLARAETLPLRNVDFVVAVQLQGASSARIILRHIIPMCLSSVIIRLTMNMASIILTAAALGFLGLGAQAPLPEWGAMISTGRRYMLESWWLVAAPGAAIMLVSLAFNLLGDGLRDVLDPRSQS	PGPT0004450_6791	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
D1-35_04364	840	oppD_2	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGACTGAGATAAAACTGGCCGTGCAGGATTTGTGCGTGGAGTTTCGCAACGCCGGCAAAACCTCCCTGGCGGTGCGTGATGTGTCGTTCACCCTGGGGCGGGAAAAACTCGCCATCGTCGGTGAATCCGGCTCGGGCAAATCCACCGTCGGCCGCAGCCTGTTGCGCTTGCATCCGCCGACGGCGCGGGTCACCGCCAAGACCCTGCGTTTTGCCGACATCGATTTGCTGAAGGCCAGCGAAAAGCAGATCCAGGCGATTCGTGGCGCGCGCATGTCGATGATCATGCAGGATCCGAAATACTCGTTGAACCCGGTGGTGCGAGTCGGCGAGCAAATCGCCGAAGCCTATCTCGCCCATCACAAGGTGCCCCATCGCGAAGCCCGCGAGCGGGCGCTGGACATGCTCGGCAAGGTGCACATCCGTGATCCTCGAAGGGTCTATGACCTGTACCCCCATGAAGTCTCGGGTGGCATGGGCCAGCGGATCATGATCGCCATGATGGTGATTACCGATCCTCAGGTGATCATCGCCGACGAGCCGACCTCGGCGCTGGACGTGTCGGTGCGCCGGCAGGTGCTCAACGTATTGGAGGAGTTGGTCAGCGAGCGTGACCTGGGACTGATCTTCATCAGCCATGACCTGAACCTGGTGCGGCATTTCTGTGATCGCGTGCTGGTGATGTATGCCGGCCGGGTGGTCGAGTCGATTGCCGCCGCTGACCTGGATAACGCCACCCATCCCTACACCCGAGGCCTGTTGGCCGCGTTGCCAAGCCTGGATCACCCGCGCGCCACGCTGCCGGTGCTGCAGCGCGACCCACGTTGGTTGAACGCTTGA	MTEIKLAVQDLCVEFRNAGKTSLAVRDVSFTLGREKLAIVGESGSGKSTVGRSLLRLHPPTARVTAKTLRFADIDLLKASEKQIQAIRGARMSMIMQDPKYSLNPVVRVGEQIAEAYLAHHKVPHREARERALDMLGKVHIRDPRRVYDLYPHEVSGGMGQRIMIAMMVITDPQVIIADEPTSALDVSVRRQVLNVLEELVSERDLGLIFISHDLNLVRHFCDRVLVMYAGRVVESIAAADLDNATHPYTRGLLAALPSLDHPRATLPVLQRDPRWLNA	PGPT0004435_13395	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
D1-35_04365	768	oppF	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGAACATGATCGAAATCGCCGGCCTGAACCTCAGTTTCGGCACCGGTGCGGCACTGAACGCGGTGTTGCACGACGTCGACCTGAGCGTTGGCGAAGGCGAGGCATTCGGCCTGGTGGGGGAGTCCGGTTCGGGCAAGACCACCGTGCTGCGTTGCCTGGCCGGACAGTACCAGCACTGGACGGGACGGTTGCAAATCGCCGGGAGGGCGGTGACGCGCAAGCTGCCGCTGGACCACTACCGCACCGTGCAGATGGTTTTCCAGGATCCCTACGCTTCATTGCATCCGCGCTACACCATCGACGCCGCGTTGCAGGAACCGCTGCGCATCCACGGCATCGACGGGCGCGGGCAAAAGGTCAGCGAGATCCTGCGCAAGGTCGGCTTGAACGACAGCTTCCGCTTTCGTTATCCGCATCAATTGTCCGGCGGCCAGCGCCAGCGCGTGGCGATTGCCCGGGCGCTGATCCTGCGGCCGCGGGTATTGCTGCTGGACGAGCCAACCTCGGCACTGGACGTCTCGGTGCAGGCGGAAATTCTCAATCTGCTGGCTGATCTGCGTCGTCAGGAAGGTCTGACCTACCTGATGGTGACCCACGACCTCGCCGTCGTTGCGCACTTGTGTGATCGGCTGGCGGTGATGCAACAGGGCCGGGTGGTGGAAACCCTCGACAGCCAGCTGCTGGCGAGCGATGGCGCCGCCCACGAGTACACCCGTTTGCTGGTGCAAGCCAGTCGCGACATACAGCGAATACCCATCGCCGTATGA	MNMIEIAGLNLSFGTGAALNAVLHDVDLSVGEGEAFGLVGESGSGKTTVLRCLAGQYQHWTGRLQIAGRAVTRKLPLDHYRTVQMVFQDPYASLHPRYTIDAALQEPLRIHGIDGRGQKVSEILRKVGLNDSFRFRYPHQLSGGQRQRVAIARALILRPRVLLLDEPTSALDVSVQAEILNLLADLRRQEGLTYLMVTHDLAVVAHLCDRLAVMQQGRVVETLDSQLLASDGAAHEYTRLLVQASRDIQRIPIAV	PGPT0004440_9363	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
D1-35_04366	723	kdgM		Oligogalacturonate-specific porin KdgM	ATGAAAAAGATATTCACCGTTTTGTCGATCGCTTCATTGTTCACTTCGTTTGTCGTTCAGGCCGATACCGGTTACATAAACGTTCGCCATCAATACGCCGAAAAGACCCGCATGCACGCCGACCGCGCCAAGTTCGGCATCAGGCTGGATAACGGTGTGGGCCTGGAAGGCGAACTCAAATACAAGACCGCCGGGGATCGGGAAGATGTCGCCTTCGACAACACTGTCGGCAGCGGCCATGAGTTCACCGTCAACTACCAGCACAAGATCGACGACCGCTGGACGCTGACGCCTTCGTTCGCCATGGAAAGCGACGAGGAGTCCACCACCTACAAGATGGGCTTGCGCCTGGGCTACAAGATCACCAAGGAACTGAGCATCGCCGGGCGTTACCGTTACGACGCCAGCAAACTGGACCGCGACAAGGTGGATCACGACGTGCCGGACAATGGCCAGGACGACCAGACGATCCATCGCTACGACGTCTACATCAACTATGCGAACCAGGGGCCGTGGGCCTATGAATACCAACTGACTTACTTCGATGCCGATTACATTCGTTACAACGGCGGTACTGACGACTATGAGCAGAATGCCGTGGTCAAGTACAAGTGGGATAAGCGTTGGGCACCGTTCTTTGAGGTCGGTGACATCAAGGTCAATTCGGTGGACAGCGATCGGCAGTTGCGCTTGCGGGTGGGTATTCAATACAACTTTTTCTGA	MKKIFTVLSIASLFTSFVVQADTGYINVRHQYAEKTRMHADRAKFGIRLDNGVGLEGELKYKTAGDREDVAFDNTVGSGHEFTVNYQHKIDDRWTLTPSFAMESDEESTTYKMGLRLGYKITKELSIAGRYRYDASKLDRDKVDHDVPDNGQDDQTIHRYDVYINYANQGPWAYEYQLTYFDADYIRYNGGTDDYEQNAVVKYKWDKRWAPFFEVGDIKVNSVDSDRQLRLRVGIQYNFF	PGPT0017275_135	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OLIGOGALACTURONATE_TRANSPORT,PGPT0017275-kdgM|kdgN|nanC|ompL-K22110	NA	NA
D1-35_04367	744	lutR_5	COG2186	HTH-type transcriptional regulator LutR	ATGACGGACCAAGCGTTATCTCCATTGAACAAGCCGCGCCGCCTCGCCGAAACACTGGTCGACCGTTTTGCCCAGCGCATGCGCGACGGCATTCTGAAATGCGGCGAAAAGCTCCCCACCGAAGTGCACATCATGGAAGCCGAGGGCGTCAGCCGTTCGGTGGTGCGCGAGGCGCTGTCGCGCCTGCAGGCGGCGGGGTTGGTCGAGACCCGCCATGGCGTCGGTACGTTTGTCCTGGATATGCCGGCACCGGAGGGGTTCACCCTCGGGCCGGCGACGATTGCGACGTTGTCGGACGTACTCAATTTGCTGGAGTTTCGCCTGAGCCTGGAAGTGCAGGCCGCCGGCATGGCCGCCGAACGCGCCACGCCCGAAGCCCTGGCCGAACTGGCCCAGGCGCTGGAGGCGTTGCTGCAAGGGCCGGAAAAATCCGGCACCACGATCAACGCCGATTTCCAGTTCCATCTGAAAATCGCCAAGGCGGCCGGCAATTACTACCTGATCGACATCATGAAGCACCTGGGTACAAAGCTGATCCCGCGCACCCGGATGAACTCCGCCTACTCCGGGCAAAGTGATCGCAGCGCCTACCTGCAGGGGATCAACGCCGAACACCAGCAAATTTTCGATGCCATCGCCAGCCGCAATGCCGACGCGGCGCGGGCGGCCATGTACCTGCACTTGAGCAACAGCCGCATGCGCCTGTGTGAAACCCAACAACGCCAGGCGTTCTACAACGAATAA	MTDQALSPLNKPRRLAETLVDRFAQRMRDGILKCGEKLPTEVHIMEAEGVSRSVVREALSRLQAAGLVETRHGVGTFVLDMPAPEGFTLGPATIATLSDVLNLLEFRLSLEVQAAGMAAERATPEALAELAQALEALLQGPEKSGTTINADFQFHLKIAKAAGNYYLIDIMKHLGTKLIPRTRMNSAYSGQSDRSAYLQGINAEHQQIFDAIASRNADAARAAMYLHLSNSRMRLCETQQRQAFYNE				NA	NA	NA	NA	NA
D1-35_04368	714	lutR_6	COG2186	HTH-type transcriptional regulator LutR	ATGGAGCGTGTCACAACCGATCGACGCCTGAGCATGACTCAGCAACTGGTGGTCGACCTGACGCAGCAGATACTCGCAGGCGAGCTGCCGGCGGGCAGCAAACTACCGACCGAACAGGTGATCATCAAAGAGCGTGGCGTCAGTCGGACCGTGGTCCGCGAAGCCATGTCGCGGCTCCAGGCCGAAGGCTTGGTCGAGACGCGCCATGGCATCGGCACCTTCGTCGTCGACACCGCGCGCCCGGGTGATTTCCAGGGCGGCAAGCACATCAAGGGCGGCGCCCATGACGCGCTGGCCGTCATCGAACTGCGCCTGAGCCTGGAAGTGGAAGCGGCCGGCATCGCTGCGCAACGCGCCACGCCGGAGCAGTTGCTGGCAATGCGCGAAGCGCTGGATGCGGCGAATGCCGTCGACGCAACGGACGACAACAGCGCCCGGACGGATTTCGAATTTCATCGGCAGATTGCCCAATGCACCGGCAACAACTTTTTTATCGACGCGATGGCGCACGTCGGCAATACCCTGATCGCCGTGGTCCAGCAGGCGGTGCCAGCGATGGCAACTGAAAATCGAGCATTGGTGGTGCGTGAACGCGAGCAGATCTACGCGGCATTGGCGCGACGGGACGGCGAAGCGGCGCGGGCGTCGATGCGGTTGCATCTGATCAACATGCAGCAGCGGGTCCGAGGCGCGGTAGAACTGGCGAAGCAATAA	MERVTTDRRLSMTQQLVVDLTQQILAGELPAGSKLPTEQVIIKERGVSRTVVREAMSRLQAEGLVETRHGIGTFVVDTARPGDFQGGKHIKGGAHDALAVIELRLSLEVEAAGIAAQRATPEQLLAMREALDAANAVDATDDNSARTDFEFHRQIAQCTGNNFFIDAMAHVGNTLIAVVQQAVPAMATENRALVVREREQIYAALARRDGEAARASMRLHLINMQQRVRGAVELAKQ				NA	NA	NA	NA	NA
D1-35_04369	1050			hypothetical protein	ATGCTCGCCCTGCCTCGCTGTCCTACCCCGTTGCTAGCATTGTCCGCGTTGTTTGTATTGCTCGGCGGTTGCAGCGTCAATGGCAGTTACCCCGATGCCATCGAACCGGACGCCGCCAAGTTGAGGTTCGTCGCCAATACCAGCAACGCCACGCTGGACTATTTCGACGCGGCCCATTGCGACGGACAAACCACGGGCATCCTCAACAATATGCTGTTGAGCGATACCGCGCGGCGGGTGGGGATGAGCGTTCCGGCGCCCAAGGATGCCAGGGGTTATCTGGAGGTCAAGCTCAAGCCCGGTGAGCAGATTCACCTGCGCACCAACATGAACAGCGGTTATGCCGTGTGTGGCAAGGGCTTCAACTTTACACCCGAGGCCAATGCCGAGTACGAGGTGACGTTCAAGTCCGAGAAGAACTTCTGCCTGACTCAGTTGCAACGTTTGCAAAGGGTCGACGGCAAGGACGTGCGCACACCGATCCCGATCCTGAAAAAAGACTTTCCCGCCTGCTCCGGCCGCAATGCGCTGTTCCCCAAGACCTACCCGGACACACCCCATCGCCTGGAATTGATGAGCCGGGTCATCGATAAAAGCCTGGTCGTCACGGTGAAGACGGATCCGGCCAAGGAAAAAGTCGAAAGTTATCCGCCAGAGAAACTGGACACCCTGATCAGCGAACGCAAGGCCAAGCTCGGTTTCGACCTGCCAGCTGACTACTGGACGCTGTACCGGGAAAATCTGAAGACGTTTGGCGATGACATGGCGCAGAACAAGACGCACTCGATGGAACGTTTCAAGGAGGAATACCAGACGCGTCTACGACAGCTGAAGGACGAGCAGTTGGAGCAATGGGCGTTACCCAAAACCGCCAATGCCAAGCCGGAGAAAGCCGAGATCGACCTGGACGTTGCGATGATGGTGGAGTACTTCCGGATCGGGAATGGGGTGACGGTCGAAGCGGTAACTCGTCACCTGGAAAGGATGGCGCAGATGGACGAGCATTACGGGGTATGTGCGCGGTTTGCGGAGTGCTGGAAGCGCAATTAG	MLALPRCPTPLLALSALFVLLGGCSVNGSYPDAIEPDAAKLRFVANTSNATLDYFDAAHCDGQTTGILNNMLLSDTARRVGMSVPAPKDARGYLEVKLKPGEQIHLRTNMNSGYAVCGKGFNFTPEANAEYEVTFKSEKNFCLTQLQRLQRVDGKDVRTPIPILKKDFPACSGRNALFPKTYPDTPHRLELMSRVIDKSLVVTVKTDPAKEKVESYPPEKLDTLISERKAKLGFDLPADYWTLYRENLKTFGDDMAQNKTHSMERFKEEYQTRLRQLKDEQLEQWALPKTANAKPEKAEIDLDVAMMVEYFRIGNGVTVEAVTRHLERMAQMDEHYGVCARFAECWKRN				NA	NA	NA	NA	NA
D1-35_04370	2670	aceE_3	COG2609	Pyruvate dehydrogenase E1 component	ATGGCACAACAATCCATGTTTCTCGACGAGGATCCACAAGAGACTCGCGAATGGCTCGAATCCATTGAATCGGTGGCGAGTGTCGAAGGGCGCTCTCGTGCCCACTACCTGATCGATCAGATGCTTGATTTCGACGCCAACCGCCACGGTGATTTCTACGGGCGCGTGACGACGCCCTACGTCAATACCATCCCGGCCGACCGCCAGCAGCCCTACCCCGGCGACCTGGCCGTGGAGCGCCGGATCAATGCCTATATCCGCTGGAACGCGCTGGCCATGGTGCTGCGCGCCGGCAAACATTCGAACGTCGGCGGGCACATCGCCTCCTACGCGTCGGCGGCGGTTTTGTATGACGTTGGCTTCGAGCATTTTTTCCGTGGTCGCACCGAGCAGTTCGCCGGTGACATGGTGTACATCCAGGGCCATTCGTCACCGGGCATCTATGCACGCGCCTATCTGGAAGGACGCCTGAGCGAAGAACAGTTGGATAACTTTCGCCGCGAGACCGACCGCGACGGCGTTTCGTCCTATCCGCATCCACGGCTGATGCCTGACTTCTGGCAGTTCCCGACGGTGTCCATGGGGCTGGGCCCTATTACGGCCGCGTATCAGGCCCGGTTCATGCGCTACCTGGAAGATCGCGGCCTGAAGGAGCACCAGGGCCGCAAGGTCTGGGCGTTTCTCGGCGATGGTGAAATGGACCAGCCGGAATCCCTGGCGGCGATTTCCCTGGCGGGCCGGGAGAAGCTCGACAACATCATCTTTGTCGTCAACTGCAACCTGCAACGCCTGGACGGCCCGGTGCGTGGCAACAGCAAGGTGATCCAGGAATTCGAAAGCCTGTACCGGGCGGCCGGCTGGAATGTGATCAAGGTGATCTGGGGCAGCGGCTGGGATGCCCTGCTCGAGAAGGACAAGAGCGGCCTGCTGCGCCAGCGGATGATGGAGTGCGTGGACGGCGATTATCAGAACTACAAATCCCAGAACGGCGCCTATGTGCGCGAGCACTTCTTCGGCAAGTATCCAGAGCTGCTGGAGCTGGTCAGCGACCTGAGCGACGACGATATCTGGAAGCTGTCTCGCGGCGGCCACGACCCGGAAAAAGTCCACAACGCCTATGCCGCTGCCATGCGTCACACCGGCGGGCCGACCGTGATCCTGGCCAAGACCGTGAAGGGTTTCGGCATGGGCGAAGCCGGTGAAGGCCAGAACATCAACCACCAGCTCAAGAAAATGGGTGACAACGCGGTCAAGGCGTTCCGTGATCGGTTCGGTCTGGAACTCAGCGATGACCAGCTGGGCGACATGCCTTACCTCAAGCCGGCCGCGGACAGCGTCGAGGCGATGTACCTGCAAGCCAGGCGCAGCCAGTTGGGCGGCTATATCCCGGCCCGTTTTAATGCCGTGGCGCCATTACAGGTCCCGCCCTTGTCGGCGCTGGATACACAACTCAAGGGCACTGGCGAACGGGCGATCTCTACCACCATGGCGTTCGTGCGCATCCTCGGCACACTGCTCAAGGATCCGAATATCGGCAAGCTGATCGTGCCCATTGTCCCGGACGAATCACGGACCTTCGGCATGGAAAGCCTGTTCCGCCAGATCGGTATCCATTCCCATGTCGGCCAGCTGTATACGCCGCAAGACGCCGGCCAGTTGAGCTATTACAAGGAAGCCCGAGACGGCCAGATCATGCAGGAGGGGCTGAACGAGTCCGGCGGGATTTCTTCATGGATCGCCGCGAGTACGTCCTACAGCACCCACGGCGTGATGACGGTGCCCTTCTACATCTTTTATTCGATGTTCGGCTTCCAGCGCGTCGGCGACCTCGCCTGGGCCGCCGGTGACGCCCGGGCTCGCGGCTTCCTGCTCGGCGCCACCTCCGGCAGGACCACGCTGATGGGCGAAGGCCTGCAACATGACGACGGCCACAGCCATGTGCTGTCCTCGACCATCCCCTGCTGCGTGTCCTACGACCCGACCTACGCCTATGAATTGGCCGTGATCATCCAGGACGGCATGCGGCGGATGTATGCCGAAAACGAAGACATCTTCTATTACATCACCGTACTCAACGAAAACTACGCCCACCCTGCAATGCCCGAAGGTGTCGAGCAAGGCATTCTCAAGGGCATGTACCGGCTCTCGGCGCCTGAAAAGCCTGTCGAAGGCAAGCATGTCCAACTGATGGGCTGCGGTTCGATTCTTCAGGAAGTGGTCGCGGCGGCGCAGTTGCTGGAACAGGACTTTGGCGTCAGCAGCGAAGTCTGGAGCGTAACCAGCCTGACCGAACTGCGTCGCGACGGCCAGGAAGCCGAACGCTGGAACCTGCTGCATCCCGAGCACGCGCCGCGTATCGGTTATGTGGAAAGTTGCCTGCAGGACAAACAGGGGCCGGTGGTGGTCGCGACTGACTATATGAAGATATTCGCCGACCAGATCCGCCCGTTCGCACCCAATCGACGCTTCGTAGCCCTCGGCACCGACGGTTTCGGCCAATCGGATACCCGTGAGTCATTGCGCAGGTTTTTCGAAGTGGATCGTCACTTCATCGCACTGGCGGCGTTGAAGGCCTTGGCCGATGACGGGAAAATCCCAAGGGAAAAAGTAACCGAGGCGATCAGGCTCTATGGTATTGATCCGCAGAAGCAGAACCCTGCGAAGGTTTGA	MAQQSMFLDEDPQETREWLESIESVASVEGRSRAHYLIDQMLDFDANRHGDFYGRVTTPYVNTIPADRQQPYPGDLAVERRINAYIRWNALAMVLRAGKHSNVGGHIASYASAAVLYDVGFEHFFRGRTEQFAGDMVYIQGHSSPGIYARAYLEGRLSEEQLDNFRRETDRDGVSSYPHPRLMPDFWQFPTVSMGLGPITAAYQARFMRYLEDRGLKEHQGRKVWAFLGDGEMDQPESLAAISLAGREKLDNIIFVVNCNLQRLDGPVRGNSKVIQEFESLYRAAGWNVIKVIWGSGWDALLEKDKSGLLRQRMMECVDGDYQNYKSQNGAYVREHFFGKYPELLELVSDLSDDDIWKLSRGGHDPEKVHNAYAAAMRHTGGPTVILAKTVKGFGMGEAGEGQNINHQLKKMGDNAVKAFRDRFGLELSDDQLGDMPYLKPAADSVEAMYLQARRSQLGGYIPARFNAVAPLQVPPLSALDTQLKGTGERAISTTMAFVRILGTLLKDPNIGKLIVPIVPDESRTFGMESLFRQIGIHSHVGQLYTPQDAGQLSYYKEARDGQIMQEGLNESGGISSWIAASTSYSTHGVMTVPFYIFYSMFGFQRVGDLAWAAGDARARGFLLGATSGRTTLMGEGLQHDDGHSHVLSSTIPCCVSYDPTYAYELAVIIQDGMRRMYAENEDIFYYITVLNENYAHPAMPEGVEQGILKGMYRLSAPEKPVEGKHVQLMGCGSILQEVVAAAQLLEQDFGVSSEVWSVTSLTELRRDGQEAERWNLLHPEHAPRIGYVESCLQDKQGPVVVATDYMKIFADQIRPFAPNRRFVALGTDGFGQSDTRESLRRFFEVDRHFIALAALKALADDGKIPREKVTEAIRLYGIDPQKQNPAKV	PGPT0001385_1763	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001385-aceE-K00163	NA	NA
D1-35_04371	453			hypothetical protein	ATGTCATCCAGCGAGCCGGATACCTGGTTCAGATTCGTCAGGGCCCACCGTTGCCTGATCCGCGAAATCGAGCGTCGGCTGGCGTCCGCCGGGCTGCCGGCCTACGCCTGGTACGACGCGTTATGGGGCCTTGAAAGCGGCCCCGACGGCGCCCGGCGGATGAGCGAACTGGCCGATGTCATGGCCATCGAGCGCTACAACCTCACCCGCCTGGTGGACCGCCTGGAGGCGGAAGGCCTGGTCACCCGCAGCCGCGCCAGTGATGACGGCCGAGGTGCGTACGCCGCCATCACCGAGAGCGGGAAAGTGCTGCGCAAGAAAATGTGGAAAATCTACGAAGAGGCGGTGGACGAATTGTTCCTGGCGCAGTTCGACGACGACCAGCAGCGAGTCTTCAGCGAAGCGTTGGAGCGCGCGGCCACAGCGGCGCGCAGCAGTGGTCGAGGGAAATAG	MSSSEPDTWFRFVRAHRCLIREIERRLASAGLPAYAWYDALWGLESGPDGARRMSELADVMAIERYNLTRLVDRLEAEGLVTRSRASDDGRGAYAAITESGKVLRKKMWKIYEEAVDELFLAQFDDDQQRVFSEALERAATAARSSGRGK				NA	NA	NA	NA	NA
D1-35_04372	720			hypothetical protein	ATGATCAAATGGTTCAAGACCCTCACCCGAACGGATGTCATTGCAACACTCGCCTTGGTCGTCTCCATCGCGTCCGCCTACTTCAGCTACCAGCAATACCAGGACGGCATCGCCAGTCGCAAGACACCGATCATTGTCCGTGTCGGTGCTGAACACGACAAAATCTCGTTCTTCAAGCCCCACGCCGACTTCCCGGTACTCTTCAAACAGCGTTACAAGATCATCCTCACCAACAACAGCTTCAATCCGGAAAGCGTCATTGACTGGCGAATATGGGAGCGCCGGGAGGAGGGCGGCGGGCAGTACATCGGCATGAAATCCAAGCTGCTCGATTCCACGGGAATGCCGATGACCTTGCCATTCCTGATCGCTGCGAAAGAGAGCAAAGTGCTCTTCCTCGACGTTGGCCAGAAAGTCACGCCAGAGGCGTGGGCGGCGGTGGGACCCGCGGTGAGTCTCGGAAAAGAACTGGACTGGTTCGACGCAGACAGGATTTTTGCCGACGCGGGTTATCCACAGTTCGGCCAGCTTGCGCCGGGAGAAAGCTCCCGGTATCAGGACCTGCAAGTCAACCGCTGGACCAAGGGCCCCGCGTACCAGGAATTCCAGTTGAACTTCACCAAGGCCGATGGCTACGAAGTGGCTGCGCAGTTATCGCTAAATGTCAGTGATGTTTATCCACAGGGGGGAGGCGGTGCGGTAGTGGTGGGCAAAAGCTGA	MIKWFKTLTRTDVIATLALVVSIASAYFSYQQYQDGIASRKTPIIVRVGAEHDKISFFKPHADFPVLFKQRYKIILTNNSFNPESVIDWRIWERREEGGGQYIGMKSKLLDSTGMPMTLPFLIAAKESKVLFLDVGQKVTPEAWAAVGPAVSLGKELDWFDADRIFADAGYPQFGQLAPGESSRYQDLQVNRWTKGPAYQEFQLNFTKADGYEVAAQLSLNVSDVYPQGGGGAVVVGKS				NA	NA	NA	NA	NA
D1-35_04373	1548			hypothetical protein	GTGTGCAGCTGGGATACGCAGAGAAACCACAAGGAAACAGGCGTGATGGCAGCTCGTTTTGATCCATTGGTTCATATCGATTGGAAAACACCGGGCAGCGACTTGCTCGGGCTGTTGCAGCATTACTATCCCGACGTCGGTGTGTTTGCCGGCCCGGAATTCGAGGCGTTGTTGGATGAGCTGTCCAACGAGATGCCCGAGGTCTGCTTCGAGGCGTTGGCACCGGTGTTGGCGGGTCAGGGTTATGACTTGTGGAACCTGGATGCCGGTGGCGACGACTATCGGCCGGTGATTTTTCCTTCCGATCAGCGTGAGACGTTTGCCCAGCATTGGCAAAGCCCTCGCGGGGAGCCCAGCTTCACGGCGACGTTGATCGAGCCACCTGCGGTAAAAGCGCGCAAACCGGCCAAACCCAAGCGCGGCAAAGTCAAGTGGTTGCAGGAAGTCCATGACTATCCAGGCCCCACCTATGTGCATGAATACAACTACCGCAACGGCTGGGCCGCGATTACCGAGCAGGACGAAGACCGTTGGCTGTGCTTTCTGATCGACTACAACCAATGGCCGCCTGCCGAACAGGAGATGCTCGAACAGCGCGCTGACGGCGTGGACGGCGCCGATCTGCGGCTGATCGACGCCAACGCCCAGCGCAGCCTGTGGAGGCGCCAGGTCAAACACGGCGATTACAGTGCGGATGATCGGTTCAAATACGAGGTCCTCCGGGGCGACGTCATCGAAGAGTTCGGCCCTGCCGGAATGCAATGGCAAGCATTCGAAGAGCCTTGTGTCGTGGTGGACGAGGAGATTTTCGAACGTCAGCGCATTTACCAGCCCGAGCATCTGACGCGAATCTGGCGGATCACGGCGGACAGCAGCGAGGTGATCTTCGAGGATTCGGAGGAGCTGACAATCCTGCCCATCGGCCCCCGTCGCTTGCTGTTCATGCAGCACAACGGCAAGCGCTGCTGGGTCTGGAACCTGGACCCGCCGCACCGGGCCGTCCCCGCCAAACCGATGCCAGCCGAAGCCTACAAGCTGCGGCCAGCCACGGCGTATCTGGGCGGTGACGAGATTTTGCTGTTCAGCGAAGGCGCGCGGCAGAACCTCGAGCACGCGGGGTATCAGGAGACAGTGTTGCTGGCGTGGCGCTTCAACTTCATCACCGGCGCCAAGACCCAGGCGACGCTGGACGGCTTCGGAAGTGAGCTGCGCCAGGACACCCGCCTGCTGGTCACCCAGCCCAAGCAGGTGATCACGTTGCGCACGTTTCATGGCCAACTTCACGTCGCGCGTGGGCATGGCGACTGGTGGGTGTGGAGCTACCGCGCCAACACTTTCGGCACACACACGCTGGCGTGGTTCTGGAACCAACGGAGCAACCAGGTGCTGAAGCTGACGTCCAAGGACCTGCCGCGGATCAAGCCGGAGATTCGTTATGTGCCGGCGCAGGATCGGTATCTGGCGTTCGAGACGGAGTTTGTGGCGCGCTTGCCGGTATTCAGCGACATGGTCGAGGCCAAGGGTTGCGAAGTGTTGAGCTTCGAGTGA	MCSWDTQRNHKETGVMAARFDPLVHIDWKTPGSDLLGLLQHYYPDVGVFAGPEFEALLDELSNEMPEVCFEALAPVLAGQGYDLWNLDAGGDDYRPVIFPSDQRETFAQHWQSPRGEPSFTATLIEPPAVKARKPAKPKRGKVKWLQEVHDYPGPTYVHEYNYRNGWAAITEQDEDRWLCFLIDYNQWPPAEQEMLEQRADGVDGADLRLIDANAQRSLWRRQVKHGDYSADDRFKYEVLRGDVIEEFGPAGMQWQAFEEPCVVVDEEIFERQRIYQPEHLTRIWRITADSSEVIFEDSEELTILPIGPRRLLFMQHNGKRCWVWNLDPPHRAVPAKPMPAEAYKLRPATAYLGGDEILLFSEGARQNLEHAGYQETVLLAWRFNFITGAKTQATLDGFGSELRQDTRLLVTQPKQVITLRTFHGQLHVARGHGDWWVWSYRANTFGTHTLAWFWNQRSNQVLKLTSKDLPRIKPEIRYVPAQDRYLAFETEFVARLPVFSDMVEAKGCEVLSFE				NA	NA	NA	NA	NA
D1-35_04374	405			hypothetical protein	ATGATCCGATGCAAGCGCGCCTACGAAACCGCCAGTGCCGAGGACGGCGTGCGGGTTCTGGTTGATCGCCTGTGGCCGCGTAATTGCCGCAAGGATGCGCTGGCGATCGATACATGGCTGCCAGAAGTTGGGCCTTCTCATGAGTTGCGCAAGGCGTTCAAGGCGGGGGCGGTTTCGTTTGCCGAGTTCGATGTGGCGTATCGACAAGAGCTGGCGGCCCGGCCGGAACATTGGTGGAAGTTGGTGGATATCGCGAGGGACGGGAAGCTGACGTTGATCTATGCGGCCAAGTCGCCGGTTGAGAATAATGCAGTGGTGTTGGCGCGGTGGCTGGAGGACGAGATGGAGAAGCGGGCGGATTCGAGTTCGCCGGTTTGTTATCTGGGGGAGTTTCCGGAGCTTTGA	MIRCKRAYETASAEDGVRVLVDRLWPRNCRKDALAIDTWLPEVGPSHELRKAFKAGAVSFAEFDVAYRQELAARPEHWWKLVDIARDGKLTLIYAAKSPVENNAVVLARWLEDEMEKRADSSSPVCYLGEFPEL	PGPT0014885_18	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014885-yxlJ|aag-K03652	NA	NA
D1-35_04375	7635			hypothetical protein	ATGAACAGAGTTTACCGAGTCGTCTGGAATGCCGTGATGGGCGCATGGCAGGTGGCATCCGAGTTGGTCAAGAGCCACGGCAAGGACAAAAGCCGTACCTCGCTCAGCCTCGTCATCGGCGTGGGCGGCGGACTTTTCGCCTCGGTAGCGGCGGCGGGAGCGTTACCCACCGGAGGGAACATTGTCGCGGGTAACGGCAACATTCAGCAGAATGGCAACAACATGGCCATTCATCAGGGCAGCGACAAGCTCGCGATCGACTGGCAGGGCTTTTCCATCGGCAAAGGCAACACCGTCGAATTCGTCCAGCCTGGCAAGGCGTCGGTCGCCTTGAACCGTGTGCTGGGCTCGGATGTATCGGTAATCCAGGGCGCGCTGAAAGCCAACGGCCAGGTGTTCCTGGTCAACCCCAACGGCGTACTGTTTACCCCCGGCGCACAGGTTGATGTGGGCGGCCTGGTGGCCTCCACGCTCAACTTGAGCACCGAAGATTTTCTCGCAGGCAACTACCGTTTCAGTGGCAAAAGCGCCGCGTCGGTGGTCAACCAGGGCAACATCAATGCAGCGCAGGGCGGCACCATTGCCTTGATCGCCGCAAAAATCGTCAACGAAGGCAATATCACCGCGCACAAGGGCAATGTCCTGCTCGGCGCCGGCAGTGTCGTGACGCTCGACCTGGGCGGGCCGGTGCAACTGGAAGTGAAAGAAGGCGCGCTTCAAGCGTTGATCGAAAACGGCGGCGCCATTCGTGCCGATGCCGGCCGCATCCTGCTGACCGCCCGTGCGGCGGAAACCCTCGCAAGCACCGTCATCAACAACACCGGGTTGATCGAAGCACGCTCCCTGGACATCGGTGAAAACGGCCTGGTCACGCTGATGGGGGACCATGGCGATGTGCAAGTCGCTGGGCGTATCGATGTGTCCTCCGACACCGCCAAGGGCGGCAAGATCGTCGTGACTGGCGAGCGCGTGGCGATCAAGGCAGGCGCCGTGCTCGACGCCACCGGCGCCAAGGGTGGCGGCGAAATCAATGTGGGCGGCAGTTGGCAAGGCAAGGACCCGTCGATCAAACAGGCCAGCCAGACCACCATCGCCGCAGGTGCCGTGCTTGACGCATCGGCCACCGACAACGGCAAGGGCGGTACCGTGGTGGCCTGGTCGGATGTCAAGAAAGCGGGCAGCGTGACCCGCGTGGACGGCACCCTGAAAGCCACCGGCGGCGCCAAGGGCGGCGACGGCGGCAAGATCGAGACCAGCGGTGCGAAGCTGGCGGTGAGCAAGGCGGCCGATGCTTCGGCTAAAAACGGCAAGGGCGGCTTGTGGTTGCTCGACCCGGACAGCGTCACGGTGGGGCCGGGTAACGGAGGGTTGACCGGCGGCGCCAACGGGACAGAAGCCACGGTTGGCTTCAACGCGATCGATACGGCCCTGGCCGGTGGCACCGACGTGGCGATCAAGGCCGACAACAGCATCCACTGGAATGGCGACTACACCCCGTCGAGCATCAGCGGTGAGCGGACGCTGACCTTGCAGTCCGGACACAACGACGGCGGAACCGGCCGCTACGTCTTCGGCAATATTTTCCTCAACGGTGATATCGACGCCAGTGGCGCCGGCAATGGCAACAGCCTCGCGTTGATCCTCAACGGCAAGATCGCGCTCAACACCGATGTGAGCTTGAAGAGCAACGGCGGCAATGTCGTGTTTGCCGGCGTGGTGGACTCCGACGCGGTGGCCAACAACCGCCAACTGCGTGTCGATGCCGGTTCAGGTTCGATCATCTTCAGTGACATGGTCGGCGGTAACAGCGCGTTGGGCTCGCTGTACGCGACCACCAGCGGCGCCGGCAAAACCTATATCAACGGCGCGAAAGTCTTCACCAGCGGCGAGCAGGTCTACACCGGCGCCGTCGAGCTGGGCACTTCGCAGTTCCTGAACGCCGACTTCGAAAACGGCCTGGTCGGCTGGCAGACGTCCATCGCCCAGTTCTTCACCGGCGTCACCGTGGTCGACGGCGTGGTATCGCCAGATGACCCGACGCTCCCGACCACCTCGCCAACCAACGGCAATGCGCCGAGTGTTTCGCCTGGCGACCAGGGCGACATGAACTACAAACCGCTCACCCCGGTTGCCGCCGCTGGCCAGGGCAAGGACGGCGGCGCTGCGCTGCTGCTGGGTACCGAGAACAATTCCAACTGCCTCAACGCGCCCGCCGGTTGCATCATGCGCGGCCCTTCGGTCGTGAGCGAGGGCACGGTTTCGCTGGCGGCAGGGGAAGCGGTCAGTTTTGATTACAAACCGGTCGCTGGCGGTGACACCTACGATGTCTTCGGCTATCTGTTGAACGTCAACACCGGCGAATACCAGATCATCCTGAACGAAACGGGTAACGGTACCGGCGCGGTGAATTGGCAAACCCGCACGGCAACGGCTGATAGGGCCGGCACATACAAGTTCGTCTTCGTTTCCGGCAGCTTCGACCAGACCGCCGGCAAGCAGGTCGGTGGCTCGCTGTACGTCGACAACATCAAGACCAACACCTCGGGCAGCAAGGGCCTGCAGGGCAGTTCGATCACGTTCAACGGCAGCCTCAACAGCACCGATAACAACCTGGCCATCAAGGCGGACGATATCAACTTCAACGGTGGGGTTGGCAGCGTCACCGGCAACGGCAGCATCACCCTTGAAACCAACACCCCGAACAAGAACATTGCCGTGGGCGGCAGCACCGGCGATGCCCCCGGAGCGTTGGAGCTGACCGGCACCGACATCGGCGCGCTGAGCGACGGGTTCACTTCCGTCAAGATCGGTGGCGCGGACATGACCGGTGACATCAACGTCATCGAGCAAACCCGCTTCAACGACAGCCTGATCCTCGATGCCGGTACCGGCAATATCCACATCAATGACCAACTGACCGTGGCGGATGCACCGGGCACCGGTAACGACGACAGCAAACCGGCTCCGGTCCTGGCGTTGCAAAGCAATGGCGGCAAGATCGACCAGACCGCTGGCGGCGCCATTATTGCCGATGGCCTGGTGCTGTTGGGTAACAGTGCCGTGCATGACCTGGACAACGCCGGCAACGACGTCAATACCATCGCCAGCAACACCGGCACGGTCAGCTTTGCCGATGTCGATGACCTGACCGTTGGCGTTGTGACCATTCCCGACAGCCAGACTCCGGCAAACCCGCAAGGCGTAACGGTTGCCGGCATGACCCAGACCGGTGACCTGAACCTTGTCTCCGACACCCTCACCGTCGGCCAGGCCTTGGTCACCCAGGGCGATACGAGCCTGACCGCCGACGAAATCGATCTCGCCGCGAGCGTCGCCGGTGGCGGCAGCCTCACCCTGCAGCAGAAGACCGATGGGTTGGATATCCACCTGGGCGGCAGCGACGATCCTGAAGTCACCGGGCCTAACGATCCGCTGGTGCTGTCTGACGCCGACCTGGCCAATATCCAGGATGGCTTCGACAAGGTCGTCATCGGTAACGACAAGACGCGCAACATCACCGTCGACGATGAAGGCGCGACCTTCAAGGACGACCTGGCCCTGGTCGCCAACGGCGTCCTGGACCTGCTGGGCAATCTGGCGCTCAAGGACCCCGAAGGCAACGATGAAGACGGCGCCACCGGCAAGGGCCTGACCCTTAGCGTCGACGCGGGCAAAGGCGCGACCCAGGCAACTGGCGCGACCATCACTGCGGACGAACTGGCCTTGCGCGGCGAAGGTGACTTCAACCTGGGCAAGGGCGGGCATGACGTGAGCGTCATCGCCGCCGATGTCGGCAGCCTGAAATTCGCCGGCAACGGCGACCTGACGGTGGGCGTCGTGGACGGTACCGTGGGGATTACCTCCGATGAGGCGGTCACCCTGAAAACCGATCACGACCTGACGCTGGCCAAAGGCATCACCATCGAAAACGGCCCACGGGATGACGCCAACAATGGCGAAACCCGTGCCGACGACATCATCACTCTGGAAGTAGGGGGCAACACCACCCAGTCCAGCGACGTCGGGGCCAAGCTGGATGCCAGTGGCCTGGTGCTGCTGGGCGGCAACTACGCGTTGAACAATTCGGGCAACCTGATCGGCGATATCGCCAGCGAGGCGGGCAAAGTCCGCTTCAACAACAGCGGCGACCTCAAGGTGGGCACGCTGACCGCGACCCATGCCGACGGCACGCAAACCAGCCTCACCGGCGTGAACAACACGGGTGATGTCAGCATCGGCACCCAAGGCAATCTGGCAATCAACGAAGTGCTCGCCACCAGCGGCAACGTGTTCCTCAACGTCGACGGAAAGACCACGCAGGACAGCAACGGCAACATCAGTGCCGACGGCCTCGCCCTCAACGGCGGCGACTTCGAGTTGCGCAACAACGGCAACGTAGTGGGCGATATCGCCAGCGAGGCGGGCAAGGTCGCCTTCAACAACACCGGCAACCTGAAGGTCGGCACGCTGACTGAAACCGACGGCAGCGGCAACGTGGTCAAGACCACGACTGGCGTGAACAACACTGGCGATGTGAGCATCGGTACCCAAGGTGATCTGGCGATCAATGAAGGGCTGGTGACCAGCGGCAATGTGTTCCTGAACATCGGCGGCAAGACCACCCAGGATGCCAACGGCAACATCACCGCCGACGGTCTCGCGCTTAACGGCGGCGATTTCGAGTTGCGCAACAACGGCAACGTGGTCGGTGATATCGCCAGTGAGGCGGGCAAGGTTGCGTTTAACAACACCGGCAGCCTGAAGGTCGGCACGCTGACTGAAACCGATGGCAATGGCAACCTGGTCAAGACCACCACCGGCGTGAACAACACTGGCGACGTGAGCATCGGTACCCAAGGTGATCTGGCGATCAATGAAGGGCTGGCCACCAGCGGCAATGTGTTCCTGAACATCGGCGGCAAGACCACCCAGGACGGCAACGGCAATATCACTGCCGATGGCCTGGCGCTTAACGGCGGCGATTTCGAGTTGCGCAACAACGGCAACGTAGTGGGTGATATCGCCAGCGAGGCGGGCAAGGTTGCGTTCAACAACACCGGCAACCTGAAGGTCGGCACGCTGACTGAAACCGACGGCAACGGCAACGTGGTCAAGACCACGACTGGCGTGAACAACACTGGCGACGTGAGCATCGGTACCCAAGGCGATCTGGCGATCAACGAAGGGCTCGCCACCAGCGGCAATGTGTTCCTCAACGTCGCTGGCAAGACCACACAGGATGCCAACGGCAACATCACCGCCGACGGTCTCGCGCTTAACGATGGCGATTTTGAGTTGCGCAACAACGGCAACGTGGTCGGTGATATCGCCAGTGAGGCGGGCAAGGTTGCGTTCAACAACACCGGCAACCTGAAGGTCGGCACGCTGACTGAAACCGACGGCAACGGCAACGTAATCAAGACCACCACCGGCGTGGACAACAGCGGCGACGTCAGCATCGGCACCGACGGCAACCTGGCGATCAACGAAGGGCTGGCGACCAGCGGCAACGTGTTCCTCAACGTCGACGGCAAGACCACTCAGGATGCCAACGGCAATATCACCGCTGGTGGCCTGGCCCTCAACGGCGGCGACTTCGAGTTGCGCAACAACGGCAACGTGGTCGGTGATATCGCCAGTGAGGCGGGCAAGGTTGCGTTCAACAACACCGGCAACCTGAAGGTCGGCACGCTGACTGAAACCGACGGCAACGGCAACGTGGTCAAGACCACGACTGGCGTGAACAACACTGGCGATGTGAGCATCGGTACCCAAGGTGATCTGGCGATTAACGAAGGGCTGGTGACCAGCGGCAACGTGTTCCTGAATGTCGATGGCAAAACCACTCAGGACAGCAACGGCAACATCACCGCTGACGGCTTGGCCCTTAACGGCGGCGACTTCGAGTTGCGCAACAACGGCAACGTAGTGGGTGATATCGCCAGCGAGGCGGGCAAGGTTGCGTTCAACAACACCGGCAACCTGAAGGTCGGCACGCTGACTGAAACCGATGGCGGCGGCAACGTGGTCAAGACCACGACTGGCGTGAACAACACTGGCGACGTGAGCATCGGTACCCAAGGTGATCTGGCGATCAATGAAGGGCTGGTGACCAGCGGCAATGTGTTCCTGAACATCGGCGGCAAGACCACCCAGGACGGCAACGGCAATATCACTGCCGATGGCCTGGCGCTTAACGGCGGCGACTTCGAGTTGCGCAACAACGGCAACATCGTGGGCGACATCGCCAGCGAGGCGGGCAAGGTCGCCTTCAACAACACCGGCAACCTGAAGGTCGGCACGCTGACCGAAACCGATGGCAACGGCAACGTGGTCAAGACCACCACCGGCGTGAATAACACCGGCGACGTCAGCATCGGCACCGACGGCGATCTGGCGATCAACGAGGAGCTCGCCACCAGCGGCAACGTGTTCCTCAACATCGGCGGCAAGACCACCCAGGACGGCAACGGCAACATCACCGCCGACGGCCTGGCCCTCAAGGGTGGTGATTTCGACCTGCGCAATGCCAGCAACTGGGTCGGCGATATCGCCAGCCGAGCGAAGGACGTCAACTTCGTCAACCGCAGCGACGTCACCGTCGGCAGGTTGACCGAGACGGCACTGGACGGCACCCAGCTGGACCAGATCGTCGGCATCGGCAACACCGGCAAGGTCCAGGTCGTAACGACGACCGGCAACATCACCCTGGCCGAGAACGTCAGCACCACCAGTAACGCTTCCGATGCGATCGTGCTCAACGCCGGTCAATCGGCTTCGGCGGGCGTGGCCGCGGGCGGTGATGTGAAGGCTAATGCCGGCGTGACCGTGTCCACCGGCGTTGGTGGTCGGGCGGTGATCTACACCGGCAGCCTGGCCGGTAGCACCCGGATGGTCGATGTGCTCGGCAGTGGCAGCGGCAATTTCCGCTACAACAGCGACGAGCAGCAGAGCAACTTCGGCAGGGCGTTGGGCAACAGCGGCGTGCATGCCGTGTACCGCGAGCAACCGACCCTGGTGGTTTCCACCAACGGTACGACCACCCAGACCAAGGTGTTCGACGGCAGCACCACCTTCGACGGCGGCGGTATCGGCGGTTATGACGCCAACGGTCTGTGGAACGGCGACACCAAGCAGATGCTCGGCAACCCGCTGTACTCGGTGTGGACTTCCGGCCCAGGCTCGCACCTGATCAACATCGGTGGGCTGGCAGACCTGGGTTACCTGATCGTCAGCAATCCGGCCAACGCCAACCTCACCGTGACCTCGTCCATTGACTATGAGGCCGTCCGGCAGAGCGTCGCCGATGCAACCCGCGTTGGCGCGCAGCAGAATTCGCCGCATGCCCCGGAGCTCGATCCGGCCCAGCCGAAACCGGCTGACTGGTCTGACTACGGCGTTGAGGACGGCGGTCTCCTGCTGGTGGACCAGGGCGACACTCGGGCGAACGGCAATGCGGGCGACAGCGATTCGGCCGCCCAGGCCGAGGACACCGCCAGCGAGCGGGAACTGGCCGGGAACGTCTGCTCCGACGGCGGGGTATCCGCCGGCGGCGCGTGTGCGGCCTATCCGCCGCAGACCGTGTTCGTCGTGCGTGGCGGTGTGCGCTTGCCAAGCCTGGCCATGCGTCCCTGA	MNRVYRVVWNAVMGAWQVASELVKSHGKDKSRTSLSLVIGVGGGLFASVAAAGALPTGGNIVAGNGNIQQNGNNMAIHQGSDKLAIDWQGFSIGKGNTVEFVQPGKASVALNRVLGSDVSVIQGALKANGQVFLVNPNGVLFTPGAQVDVGGLVASTLNLSTEDFLAGNYRFSGKSAASVVNQGNINAAQGGTIALIAAKIVNEGNITAHKGNVLLGAGSVVTLDLGGPVQLEVKEGALQALIENGGAIRADAGRILLTARAAETLASTVINNTGLIEARSLDIGENGLVTLMGDHGDVQVAGRIDVSSDTAKGGKIVVTGERVAIKAGAVLDATGAKGGGEINVGGSWQGKDPSIKQASQTTIAAGAVLDASATDNGKGGTVVAWSDVKKAGSVTRVDGTLKATGGAKGGDGGKIETSGAKLAVSKAADASAKNGKGGLWLLDPDSVTVGPGNGGLTGGANGTEATVGFNAIDTALAGGTDVAIKADNSIHWNGDYTPSSISGERTLTLQSGHNDGGTGRYVFGNIFLNGDIDASGAGNGNSLALILNGKIALNTDVSLKSNGGNVVFAGVVDSDAVANNRQLRVDAGSGSIIFSDMVGGNSALGSLYATTSGAGKTYINGAKVFTSGEQVYTGAVELGTSQFLNADFENGLVGWQTSIAQFFTGVTVVDGVVSPDDPTLPTTSPTNGNAPSVSPGDQGDMNYKPLTPVAAAGQGKDGGAALLLGTENNSNCLNAPAGCIMRGPSVVSEGTVSLAAGEAVSFDYKPVAGGDTYDVFGYLLNVNTGEYQIILNETGNGTGAVNWQTRTATADRAGTYKFVFVSGSFDQTAGKQVGGSLYVDNIKTNTSGSKGLQGSSITFNGSLNSTDNNLAIKADDINFNGGVGSVTGNGSITLETNTPNKNIAVGGSTGDAPGALELTGTDIGALSDGFTSVKIGGADMTGDINVIEQTRFNDSLILDAGTGNIHINDQLTVADAPGTGNDDSKPAPVLALQSNGGKIDQTAGGAIIADGLVLLGNSAVHDLDNAGNDVNTIASNTGTVSFADVDDLTVGVVTIPDSQTPANPQGVTVAGMTQTGDLNLVSDTLTVGQALVTQGDTSLTADEIDLAASVAGGGSLTLQQKTDGLDIHLGGSDDPEVTGPNDPLVLSDADLANIQDGFDKVVIGNDKTRNITVDDEGATFKDDLALVANGVLDLLGNLALKDPEGNDEDGATGKGLTLSVDAGKGATQATGATITADELALRGEGDFNLGKGGHDVSVIAADVGSLKFAGNGDLTVGVVDGTVGITSDEAVTLKTDHDLTLAKGITIENGPRDDANNGETRADDIITLEVGGNTTQSSDVGAKLDASGLVLLGGNYALNNSGNLIGDIASEAGKVRFNNSGDLKVGTLTATHADGTQTSLTGVNNTGDVSIGTQGNLAINEVLATSGNVFLNVDGKTTQDSNGNISADGLALNGGDFELRNNGNVVGDIASEAGKVAFNNTGNLKVGTLTETDGSGNVVKTTTGVNNTGDVSIGTQGDLAINEGLVTSGNVFLNIGGKTTQDANGNITADGLALNGGDFELRNNGNVVGDIASEAGKVAFNNTGSLKVGTLTETDGNGNLVKTTTGVNNTGDVSIGTQGDLAINEGLATSGNVFLNIGGKTTQDGNGNITADGLALNGGDFELRNNGNVVGDIASEAGKVAFNNTGNLKVGTLTETDGNGNVVKTTTGVNNTGDVSIGTQGDLAINEGLATSGNVFLNVAGKTTQDANGNITADGLALNDGDFELRNNGNVVGDIASEAGKVAFNNTGNLKVGTLTETDGNGNVIKTTTGVDNSGDVSIGTDGNLAINEGLATSGNVFLNVDGKTTQDANGNITAGGLALNGGDFELRNNGNVVGDIASEAGKVAFNNTGNLKVGTLTETDGNGNVVKTTTGVNNTGDVSIGTQGDLAINEGLVTSGNVFLNVDGKTTQDSNGNITADGLALNGGDFELRNNGNVVGDIASEAGKVAFNNTGNLKVGTLTETDGGGNVVKTTTGVNNTGDVSIGTQGDLAINEGLVTSGNVFLNIGGKTTQDGNGNITADGLALNGGDFELRNNGNIVGDIASEAGKVAFNNTGNLKVGTLTETDGNGNVVKTTTGVNNTGDVSIGTDGDLAINEELATSGNVFLNIGGKTTQDGNGNITADGLALKGGDFDLRNASNWVGDIASRAKDVNFVNRSDVTVGRLTETALDGTQLDQIVGIGNTGKVQVVTTTGNITLAENVSTTSNASDAIVLNAGQSASAGVAAGGDVKANAGVTVSTGVGGRAVIYTGSLAGSTRMVDVLGSGSGNFRYNSDEQQSNFGRALGNSGVHAVYREQPTLVVSTNGTTTQTKVFDGSTTFDGGGIGGYDANGLWNGDTKQMLGNPLYSVWTSGPGSHLINIGGLADLGYLIVSNPANANLTVTSSIDYEAVRQSVADATRVGAQQNSPHAPELDPAQPKPADWSDYGVEDGGLLLVDQGDTRANGNAGDSDSAAQAEDTASERELAGNVCSDGGVSAGGACAAYPPQTVFVVRGGVRLPSLAMRP				NA	NA	NA	NA	NA
D1-35_04376	1665	hxuB	COG2831	Heme/hemopexin transporter protein HuxB	ATGCATAACAAACTGATGTCCTGCGCCGCCGGTCTGGCGTTGTTGTCCACTTCCCCGGCCTGGGCGGCGACCCTGCCGGCACGCCCGATCCCCGACGCCGGTCGCATCCTGCAGGAACTGCCGATTCCGCAGCAGGAGCTGCCGCAAAGCATTCGCCTGGATGTCGAGGCACCACAGCCGACACAGGAAAAAGTCGGCGGCGCCAAAGTCCAGCTCAACGCCGTGCGCTTCACCGACAACACCCGCATCGACGAGGCCAGACTGCAACGCGTCGTCGCCCCGGCCATCGGTCAGGCCCTTGATCTGGACGCGCTGCGCGAAGTGGCCCGGCAGGTCACGCTTTACTACCGCGAGCAAGGCTACCCCTTCGCCCGCGCCTACCTGCCGGCACAACGCATGGAAAAAGGCGAGCTGACCATCGCCGTGATCGAGGGCCGCTATGGCAAAGTCACCGCCGTCAACGACGATGCAAAACTGGCCACCCAGGCGCAGCCGTTCCTGGATGACTTGCAGCCGGGCGACGTGATCGAGCGTGAGCGCCTGGAGCGCAGCATATTGGTGCTCTCCGACTTGCCGGGCGTGGCAGTTCGTCCGGTCATCCGTCCGGGTGAAGCACTTGGCACCGGTGACCTCAATGCCCAGGTGAGCAAAACCGAGGCCTTCGAGGGCAAGGCCACGCTGGACAACCACGGCAACCGTTATTCGGGGCGCAATCGCCTGACGGTACAAGGCGACTGGAACAGCCCGCTGATGTTGGGCGATCGCCTCAGCGCCGCAGTGATGGCCACCGATGAAGACCTGTATTTCGGCAGCCTCGGCTACTCGATGCCACTGGGCACCTCTGGCCTGCGTGGCAACGTCGGTTACGCCCAGAGCTCTTATGACCTGGGCGCCGAATTCGCCGACCTGGGGGCGACCGGTACCGCCGAAGTCAGCAGCATCGGCCTGAGCTATCCACTGCTGCGCAGCAACCAGGCGAACCTCATGCTGGCCGGGCAGTACCAGCACAAGGACCTTGAAGACAAATACGAAGTGCTCGGCCTGAGCTTTGAAAAAAGCAGCAACTCGCTGCCCATCAGCCTGCAGTTTGACGTCAGGGACAGCTTGCTCGGCGGCGGCATCACCTACGGCGGCGCGACGCTGACCTACGGTGACCTGAAGCTGGATTCGGCCCTGCGCGAAGGCGACCGTCAGACCGCCCAGACCGAGGGCGACTTCAGCAAAGTGAATGTCGACCTCGCCCGCCTGCAAGCGCTGCCGGCCAACTTCACGCTCTTCGCCCGTTTCCTTGGCCAGTGGAGCAACGACAACCTCGACTCCTCCGAAGATTTCAGCCTCGGCGGCATCGATGGCGTACGTGCTTATCCACAAAGCGAAGGCTCGGGCGACGAAGGCATGCTGACCCAGATCGAGCTTCGCTACCCGATCGACAAGCTCACGCCTTACCTGTTCTGGGACGCCGGCAAGGTGCGCATCAACCACAACGAGTGGGCCGATGAGGAAAACAACCGCAGCATCTCCGGCGGCGGTGTCGGTTTGCGCGCTCAATACGGCCAGCTGTCGTTCGACGCAACGGTCGCATGGCGCCACTCCGGCGGCGAAGCGCAAAGCGATACACGCCAGGAAAACCCGCAACTGCTCGCTCAGATCGGCTACTCGTTCTGA	MHNKLMSCAAGLALLSTSPAWAATLPARPIPDAGRILQELPIPQQELPQSIRLDVEAPQPTQEKVGGAKVQLNAVRFTDNTRIDEARLQRVVAPAIGQALDLDALREVARQVTLYYREQGYPFARAYLPAQRMEKGELTIAVIEGRYGKVTAVNDDAKLATQAQPFLDDLQPGDVIERERLERSILVLSDLPGVAVRPVIRPGEALGTGDLNAQVSKTEAFEGKATLDNHGNRYSGRNRLTVQGDWNSPLMLGDRLSAAVMATDEDLYFGSLGYSMPLGTSGLRGNVGYAQSSYDLGAEFADLGATGTAEVSSIGLSYPLLRSNQANLMLAGQYQHKDLEDKYEVLGLSFEKSSNSLPISLQFDVRDSLLGGGITYGGATLTYGDLKLDSALREGDRQTAQTEGDFSKVNVDLARLQALPANFTLFARFLGQWSNDNLDSSEDFSLGGIDGVRAYPQSEGSGDEGMLTQIELRYPIDKLTPYLFWDAGKVRINHNEWADEENNRSISGGGVGLRAQYGQLSFDATVAWRHSGGEAQSDTRQENPQLLAQIGYSF	PGPT0003648_78	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_TRANSPORT,PGPT0003648-hxuB-NA	NA	NA
D1-35_04377	837	rhaR_3		HTH-type transcriptional activator RhaR	ATGGACAACGGACGATACGAAAGGCCGGCAGCGGCGGCGGGGGGCTCGGCGGCGTCCGACGCGTTGCCGCATATCCTGCTGATCGACGATGTCCCTGAAGACATCCGCGCCACGCTCATCCTGTTGAAGACCCAGCCCTGGCGCATCTCCCTGGCCAGCGATGCCTATCAAGGCTATCAACGGGCACTCGCCCTGCGCCCGGACCTGATCGTGCTGGATGTGCACATGCCGCAAATGGATGGCTTCAGCCTGTGCCGGCTGTTGCGCGAGGCACCGGCCACACGGCAGACGCCGATCCTGTTCCTGTCATCGGCGAATACTTCATTGGAGCGCCTCGAAGGGCTGACGGTCGGCGCGGTCGATTACATCCCCAAATCCTGTGCCCCCGAAGAAGTGCTGGCGCGGATCAAGATCCACCTGCAACTGACCTGGCGCGCGCCACCGGCACTCCACCAAAGGCCGGCCGATCCGGAACCGCAAGGCGATGAAATCGTGCTGCGCGCGGCGATGCGCCTGATCGAAAACCAATTGGACGACATGCCGTCCCTCGGCATCCTCGCGCAAAAAGTCGGCACCCATGAAAAACGCCTCTCGGCGATTTTTCGCGAACACCTGGGGATGACCGTGTTCGCCTACATCCGCGACGCCCGCTTGCGGCGTGGCCAGGATCTGCTCGCCGAAAGCGCCATGAGCGTGCAAGACGTCGCCGAACTGGTGGGTTTTCGCAACGCCTGCAATTTCACCACGGCGTTCCGCCAGCGAATCGGCATGACGCCTAGTCAGTTTCGCCAGCAGACCCTGGGCACCAGCGAAATCGAGTCGGCCGGGCGCGCCTGA	MDNGRYERPAAAAGGSAASDALPHILLIDDVPEDIRATLILLKTQPWRISLASDAYQGYQRALALRPDLIVLDVHMPQMDGFSLCRLLREAPATRQTPILFLSSANTSLERLEGLTVGAVDYIPKSCAPEEVLARIKIHLQLTWRAPPALHQRPADPEPQGDEIVLRAAMRLIENQLDDMPSLGILAQKVGTHEKRLSAIFREHLGMTVFAYIRDARLRRGQDLLAESAMSVQDVAELVGFRNACNFTTAFRQRIGMTPSQFRQQTLGTSEIESAGRA				NA	NA	NA	NA	NA
D1-35_04378	2388	rcsC_22		Sensor histidine kinase RcsC	ATGCGGCTACTACAGTTTTTCTTGCTGACGATAACGATGTTATCCACAGGCCTGCTGCGCGCGGCGCCTGTGGATATCTGCCGGGCTGACCAACTGGACCTGATGCCCTCGGCGCAGATTTTCGAAGACGCCCAGGCCAATCTGAGCCTGGAACGCGTCGCTCAACTGCCCGAAAACGATTTCAAAGCTGCAACCGCGCACTGGCCGACCCAGGGCTATAGCCGGTCCGCGTTCTGGTTGAAATGGCAGTTCACCAATTCGAGCGCTGAGGCGTGCTCGCGCATGCTGGTCGTCGGGGCGCCGCGCCTGGAAGACATTCGCGTCTATCAGCCGGGGCATGACGCCCATGCCGGCGGCGCCTATCCCTTGGCCGAATGGCCGCAGCCAGCGGCGCGTCAGCCGGCATTCCCGGTAACGTTGGCGGCAGGGCAGAGCACCACGGTGTTGGTCCGGGTGACGAGCAACTTCCAGATGCTGCTTCAGCCGGAACTGTGGTCCGAACCGGCGCTGCTGCGCAGTCAGCAACAGACGTACCTGAGCGACGGGCTCACCCTCGGCATCGTCCTGCTGGTCGTCCCGTTCGGCCTGATCGTCGGCTGGATCCTCCGTTCGCGACTGCTCAGCGTGAACGCCGGCGCGGTCCTCAGCTACATCCTGCTGACATGCATCCTCAACGGCTACCTGATCTACTGGCCGAGCGCGCTGGGTTGGACGCGTGAGCTGCTGACCTGCGCCAGCGCGATCTCTTTCGTCCTGTTCCTGGCCTACTTCCGCGTGCTGCTGCAGGTATCCCAACTGCCCAGGATCATCGCTTGGAGCTATTGGGTGCCGCTGTTGGGCTGCATCTTCGGCCGGCTCTGGTGGCTCAAGGTCGATCCGGTCCAGGGCGCGCTGTTAGTCCAGATAGCCCTGTTCAGTTTTTATGGCGTGCTGCTCGTCACGCTGTTCATGGCCTGGCGCGCACGCCTGAGCTACACCTGGATGGCCTGGCTGGTGCCGGCGCTATTGCTTGGGCAACTGCTGATGCGGATCTTTTTCCCTCAGGAACAATTGCCCTGGCAGTCGCCGCAAAGCAAGTACAGCTTGTCGTCGACCCTGGCCGGCGTGGTCCTGCTGGTGTGTACGTTGCTCATGGAAGTCGCCCGTAGCCGCAACCGCGAGAAGCACGCCCTGTCCACCCTCGAACAACAACGCCAGGCCGAACACGAACGGCTGGAAAGCACCGTGGCGCTGCGCACCTCGCAACTGCGTGAATCGCTGGCGGCCCGCAGCGCGTTGATGGCACGGATCAGCCACGACCTGCGTTCGCCGCTGGTGCGCATCATCGATTACGCACGCCTGCTGCACGCCGGGCCCAACCGCGACTATCAAGCGACGATCGAGCGCAACGCCCGCCAGCAACTGGAGCTGATCGACGAAATGCTCGAGTTTTCCCGTGGCGAGCTGGAGCAGATGCAACTGACCCTCGCACCGGGCTACCTGTACGGCTTTCTCCACGAAATCGCAGATGAGGCGGGTTTCCTCGCCGCGCGCCAGGGCAATACTTTCGAGGCGAACTTGGCCGATGACCTGCCGCCGCTGGTGGAAGCCGACTTCAAACGCCTTCGGCAGGTATTGATGAACCTGCTGGCGAACGCGGCGAAATTCACCCGCGATGGCCAGATCCGCTTCGAAGTGAGCGCAGGTCCAGGCGCCAGCGCCGGCACCGTGGAACTGCACTTCAACGTGATCGACAGCGGCATCGGCATCGACCCGCAGGAGTTCGAACAACTGCTGCAACCGTTCCGCCGCGGCCGCAATGCGCAGCGCTACGAAGGCAGCGGGCTCGGCCTGTCCATCGTCACGCAATTGCTCGAACGCATGGACAGTCGCCTCGAACCCCAGGCCACCGGGCAGGGCAGCCACTTCAGTTTTCGCCTGCAACTCAAATGCGCCGAGGAACACGACCTCGAAAACGGCATCGTCGACAACAACGCCGCGCCGTTTGATGGCCAGGGCAAGCACGTGCTGCTGGTGGATGACATCGAGCAGAACAGCGAGTGGCTCTACGATCTGCTGGCCGGCTACGGCTTTGACGTGAGCATCGCGACCAACGGCGAAGCGGCCTTGGCCTGCCTGGCGGAACAACCGGTCGACCTGCTGATCAGCGACCAGATGATGCCCGGCATGGACGGTTGGGAACTGCTGCGACAAGTGCGCAAGCGCTGGCGCCATCTGCCCGTGATGCTTTATTCGGCGGTGCCGCCACGCAGGCCGCAAGGTTATCCAGAGGATCTGAAGTTCAATGCGGTATTGCTCAAACCCGCCGACAGCCGCGAACTGCTGGCGTGGGTCAAGGCACTGGCCTGCCCGGACACGGCGCGGCGCGCGTTGGCTCGGGAGTTCTAG	MRLLQFFLLTITMLSTGLLRAAPVDICRADQLDLMPSAQIFEDAQANLSLERVAQLPENDFKAATAHWPTQGYSRSAFWLKWQFTNSSAEACSRMLVVGAPRLEDIRVYQPGHDAHAGGAYPLAEWPQPAARQPAFPVTLAAGQSTTVLVRVTSNFQMLLQPELWSEPALLRSQQQTYLSDGLTLGIVLLVVPFGLIVGWILRSRLLSVNAGAVLSYILLTCILNGYLIYWPSALGWTRELLTCASAISFVLFLAYFRVLLQVSQLPRIIAWSYWVPLLGCIFGRLWWLKVDPVQGALLVQIALFSFYGVLLVTLFMAWRARLSYTWMAWLVPALLLGQLLMRIFFPQEQLPWQSPQSKYSLSSTLAGVVLLVCTLLMEVARSRNREKHALSTLEQQRQAEHERLESTVALRTSQLRESLAARSALMARISHDLRSPLVRIIDYARLLHAGPNRDYQATIERNARQQLELIDEMLEFSRGELEQMQLTLAPGYLYGFLHEIADEAGFLAARQGNTFEANLADDLPPLVEADFKRLRQVLMNLLANAAKFTRDGQIRFEVSAGPGASAGTVELHFNVIDSGIGIDPQEFEQLLQPFRRGRNAQRYEGSGLGLSIVTQLLERMDSRLEPQATGQGSHFSFRLQLKCAEEHDLENGIVDNNAAPFDGQGKHVLLVDDIEQNSEWLYDLLAGYGFDVSIATNGEAALACLAEQPVDLLISDQMMPGMDGWELLRQVRKRWRHLPVMLYSAVPPRRPQGYPEDLKFNAVLLKPADSRELLAWVKALACPDTARRALAREF	PGPT0025890_174	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-Gac|Rsm_PATHWAY,PGPT0025890-ladF-K20971	NA	NA
D1-35_04379	2352	fyuA	COG1629	Pesticin receptor	ATGCCGGGTTTGAGTTACCGGTTGCTCCTGATCGGCAGTCTTTCGGCATGGCCCTGGGCATCGGTGACTGCCGACGAAGAGTCGCCCAGCGCCCTCACGCTCGACGAAACCACGGTGACCGCCCGACGCCGCGAAGAAGACCTGCAAGACGTGCCCATCCCGATCAACGTCCTCTACGGCGAGCAACTCGACGAAGCCGGCCTGCACTCGCTTCGAGACATTCAACAGCGCGTGCCCGGCCTGATCGTCTCCGGCCATGACGCCCGCTACGCCGGTTTCGGCCTGCGCGGCTTCGGCGCTACCGCCTACAACGATGGCCTGGAAGGCAGCGTCGGCACCTATGTCGATGGCGTCTACCAGGCGCGCCAGGGCATGGCCTTCACCGAGCTGATGGACATCGAGCGCATCGAAGTCCTGCGCGGGCCGCAAGGCACTTTGTTCGGCAAGAACACCACCGCCGGCGCCCTGAACATCATCACCCGCCAGCCGACCTTCCAGCCCGAAGCCAACCTGGAAGCCAGCTATGGCGAGCGCGGTTTGCGTGAGTTTCGCGGGACGATTTCCGGGCCGCTGCAGGACGACGTGCTGGCCGGCCGACTCAACGTTTTCGACAGCGCCACCGAGGGCAGCGTCGAAAACCTGCAAGACGGCAGCCGCCTCGGCGATGCCGACAGCCAAGGCCTGCGCGGCCAACTGTTGTGGACGCCGAACACCGATTTCAGTGCTCGCCTGATCGCCGACTACGCCGAGCAAAACGAAGCCGGCAACGTCCTGTTGGCCAATCACTACAGCCAGCAAACCCGCAAGCGCGCCCAGTTCGTCGGTTATCCGCTGGCGGAGCCCGACCCTTACAAACGCGAGACCCGCATCGACGCGCCGGGCCGTCCGCGAACCCTGCAGAACGGCGTGTCACTGGAATTGAATTGGGACCTCGACGAGGCGATGCGCTTCACCAGCATCACCGCTTATCGCGACTGGGACTACCGCGCGACCCGCGACGGCGACAGCACCGCGCTGGCGGTGGCCCAGTCCGAAACCGAGCTCGGCCATCGGCAGTTCAGCCAGGAATGGCGCCTGTCCGGCACGGCCGGTTCGTCCGTCGACTATGTCGCCGGCCTCTACTATCTGCGCCAGCAGCTTGACCGTGAGATCGATGCCGAATTCGGCAAGGACGCCGCGCCCTGGTTCGTTGGCGATCAACTCGACCAACTGAAAAAACTCTTCGGCATCAATTTCACCGATCCGAGGCAGGTGCCTTCGATGCTGCTCAATGGCGCCCGACAACATTTCGACGGCGAGCAGAAGGGCGACAGCCGAGCGATTTTCGGCCAGCTCTCCTGGCGCCCGATCGACCCGCTGGAACTCACCGGCGGCCTGCGCTACAGCCATGAGCGCAAGGACGGCTGGATCTCCCGCGACGTCAGCAACCTCGCCCCGCTGACCGGCTTGCCGCCGGTGTTCCAGGCTGGTGGACAATTGCTGCGCGACATCGCCCTCGGCCGTGGTTATTACCGCGAGGACTCGATCGAAGAACACAACGTCTCCAGCCTCGCCAGCGCCAGCTACCGTTTCAGCGAAGCGGTGATGGGCTACGTCAGCTGGTCGCGGGGCTACAAGGCCGGCGGCATCAACTTCGACGTGGTCGGCCCGTTCACCGCGCCGACCTTCGAGCCGGAGCGGGCCACGTCCCTGGAACTGGGCGTGAAAACGCGCTTCTGGAACGAGCGCGCGTTGCTCGACCTTGCCGTCTACCAGACCGACGTCGACAACTACCAGGCGCTCACCTACAGCCCGCCGACCTCGCTGTTCGCGCCGCCGCTGCGGGACAACCTGATCAACGTCGGCAAAGTCCGCCTGCGCGGCATCGAACTGGATTCCGCCTGGCAACTCACCTCGCAACTCACCGGGCGCCTCGGCCTGGCCTGGAGCGATGCGCGCTACCGCAGCTTCCCCAACGCGCCGTGCCCGCCGGCCTCGGGCCAATGGACCTGCGACCTCAGCGGCGACCGCCTCTACAACGCGCCGGAATGGAACCTCAGCAGCGGCCTCGACCACAGCCATCCGCTGCCCTATGGATTGGAAGCTTTCAGCGGCATCGACTACAGCTTTCGCACCGGCTACTACGGCACCCTCGAAGGTGGCGAAGGCAGCTATCAACCGAGCTACGGCCTGACCAACCTGCGCCTCGGCCTGCGCAGCCAGGACCGCGCCTGGGAAGTGGAAGGCTGGATGCGCAACGTCTTCGACCGTAACTACATCACCGCCGTGTATTCACTGCTCGGCGCCGGTGACTACGGCGTCATGACCGGCAGCGAACGCACCCTCGGCACCACCGTCAGACTTCGCTATTGA	MPGLSYRLLLIGSLSAWPWASVTADEESPSALTLDETTVTARRREEDLQDVPIPINVLYGEQLDEAGLHSLRDIQQRVPGLIVSGHDARYAGFGLRGFGATAYNDGLEGSVGTYVDGVYQARQGMAFTELMDIERIEVLRGPQGTLFGKNTTAGALNIITRQPTFQPEANLEASYGERGLREFRGTISGPLQDDVLAGRLNVFDSATEGSVENLQDGSRLGDADSQGLRGQLLWTPNTDFSARLIADYAEQNEAGNVLLANHYSQQTRKRAQFVGYPLAEPDPYKRETRIDAPGRPRTLQNGVSLELNWDLDEAMRFTSITAYRDWDYRATRDGDSTALAVAQSETELGHRQFSQEWRLSGTAGSSVDYVAGLYYLRQQLDREIDAEFGKDAAPWFVGDQLDQLKKLFGINFTDPRQVPSMLLNGARQHFDGEQKGDSRAIFGQLSWRPIDPLELTGGLRYSHERKDGWISRDVSNLAPLTGLPPVFQAGGQLLRDIALGRGYYREDSIEEHNVSSLASASYRFSEAVMGYVSWSRGYKAGGINFDVVGPFTAPTFEPERATSLELGVKTRFWNERALLDLAVYQTDVDNYQALTYSPPTSLFAPPLRDNLINVGKVRLRGIELDSAWQLTSQLTGRLGLAWSDARYRSFPNAPCPPASGQWTCDLSGDRLYNAPEWNLSSGLDHSHPLPYGLEAFSGIDYSFRTGYYGTLEGGEGSYQPSYGLTNLRLGLRSQDRAWEVEGWMRNVFDRNYITAVYSLLGAGDYGVMTGSERTLGTTVRLRY	PGPT0003790_12758	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
D1-35_04380	1086			hypothetical protein	ATGAACCTACGCACTTTCATTCGCAGCTATTGCCTCAACTCCAGGCTCGCTACGAATGCGCTGACCCGCCTGCATAAATCCCTTTCTTCCCTGGCCGCCTATCTGGCGCAGCAGGGTTTTGATTCCAGGACTTGGCCCGCGCCCCGTGACGAAGGCGCGCTGGACCGTTACCTCAGCGACGTTTGCCCGGAGCTGGCCGCGACGGTGTTCAGCCATGCCCGCGACGGGGTGATCATGGTCGATGCGTTCGGTCGGATCATCGGCGTGAACGAGGCATTTACGCGGCTTACCGGTTATGGGCAGGACGAGGTGCTGGGGCGGGAGTTGAATTCTCATCGCATGGTGCGGCGGCTCGCGGCGTTTTATGCGCCGATGAAAAATGCGCTGGATTTCCACGGGCATTGGTCCGGTGAGATTCAAAGCAGCCACAAGGATGGCCGGGAGATGACGTCGCGGATCAGTATCAGTGCGGTGCATGACCGTCACGGCAACGTTCAGCACTACGTGGCGCTGTGCAGCGACATGACGCAGATGAAGCAGCGCTTGCAGTTGCTGGAGCGGGATGCGCGGTATGACGCGCTCACGCAGTTACCCAATCGCTTGTTGCTGGCCGAGCGGATGCGTCAGGCGCTGGGCAAGGCGCGCCTGCATCAGCAGAAGGTGGCGATCGCGTTTATCGACCTGGATGGGTTCAAGGCACTGAACGACAGTTATGGCCATGACTGGGGCGATCGGGTGTTGCAGATTGTCGCGGCGCGGATCAACGCGACGCTGCGTGAAGGCGACACGTTGGCGCGCCTCGGCGGTGATGAGTTTGTCGCCGGGCTGGTGGGCTTGCGGGAGGTGGAGGACAGCGAGCCGTTGCTCAAGCGGATGCTGGCGGCGGCGAATGCGCCGATCCTGATTGGTGCGCAGACGGTGGAGATTGCCGCGAGTATCGGCGTGGCGTTTTACCCTGAGCATGGGCTGGAGGTCGATGCGCTGATCAGCAAGGCGGATCAGGCGATGTACCTGTCGAAGAAGGCCGGCGGCAATCGTCTGGCGTTCTGCCCGACGCGGTTCATTTCGGTCAATAGCGAAGTCTGA	MNLRTFIRSYCLNSRLATNALTRLHKSLSSLAAYLAQQGFDSRTWPAPRDEGALDRYLSDVCPELAATVFSHARDGVIMVDAFGRIIGVNEAFTRLTGYGQDEVLGRELNSHRMVRRLAAFYAPMKNALDFHGHWSGEIQSSHKDGREMTSRISISAVHDRHGNVQHYVALCSDMTQMKQRLQLLERDARYDALTQLPNRLLLAERMRQALGKARLHQQKVAIAFIDLDGFKALNDSYGHDWGDRVLQIVAARINATLREGDTLARLGGDEFVAGLVGLREVEDSEPLLKRMLAAANAPILIGAQTVEIAASIGVAFYPEHGLEVDALISKADQAMYLSKKAGGNRLAFCPTRFISVNSEV	PGPT0026010_3816	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
D1-35_04381	282	rof_1	COG4568	Protein rof	ATGGATACCTATAAACCGCTGCACTGCGACCTGCATGACTATCTGGAAATCGCTTGCCTGTGCGGCTACATGCTGGATATCGAGCTGATCGACGGCCAGCACCTGACGGCCCGCGCGATCACCACACGAACCGCCAGCACACGGGAGGAATTTCTCGAAGTCGAAACCGCTGACGGTCGCCATGAGATTCGCCTCGATCACTTGTTGGCGATCACACCGCTGGATAAGCACGCCAGGTTTGGCCGGGTAGTGCTGGCGGCGGGTGGTCACGCCGCCCTTTGA	MDTYKPLHCDLHDYLEIACLCGYMLDIELIDGQHLTARAITTRTASTREEFLEVETADGRHEIRLDHLLAITPLDKHARFGRVVLAAGGHAAL				NA	NA	NA	NA	NA
D1-35_04382	294	rof_2	COG4568	Protein rof	ATGGATACCTACAAACCGCTGCACTGCGACCTGCATGACTACCTGGAAATCGCCTGCCTGTGCGGCTACACGCTGGACATCGAGCTGACTGACGGCCAATGCCTGACCGCCCGCGCGATCACCACGCGGACCGCCTGCACGGGGGAGGAGTTTCTCGAAGTTGAAACTGTTGATGTCCGTCAGGAGATCCGCCTCGATCGCTTGCTGGCGATTACGCCGCTGAACAGCAACGCCAGGTTCGGCCGAGTTGTGCTGGCGGTGGGTGGACAGGAAAGTCGTTCGTATGATGGATAA	MDTYKPLHCDLHDYLEIACLCGYTLDIELTDGQCLTARAITTRTACTGEEFLEVETVDVRQEIRLDRLLAITPLNSNARFGRVVLAVGGQESRSYDG				NA	NA	NA	NA	NA
D1-35_04383	261			hypothetical protein	ATGACCATCAAAGTCTATGACACACATGTCCGCACCCAAAGCGGGCGATACCTGCATTTTGACGTGCTGATCGACCGCAACGACCTGGATTTTGCCCAATCCTGCGCGCGACGTTTCCTGGCCGAACAGGGCATCGAAGATCAGGACGTTACCTTGAACGACTGCCGTTTCTGCCACGTCGAGCCGAGCAACCCCGAGATAGTCGAGGCCATCAACCGGCAGGGCTTTTTCATTCTCAAGCTGCAAGGCTGCGAGGCGTGA	MTIKVYDTHVRTQSGRYLHFDVLIDRNDLDFAQSCARRFLAEQGIEDQDVTLNDCRFCHVEPSNPEIVEAINRQGFFILKLQGCEA				NA	NA	NA	NA	NA
D1-35_04384	888	dapA_5		4-hydroxy-tetrahydrodipicolinate synthase	ATGTCTACCCCGAACATCCACGGCATCATCGGTTACACCATCACCCCTTTCTCTGCCGACGGCCAGGGCTTGGACCTGGACGCCTTGGGCAGGTCCATCGACCGCCTGATCGAAAGCGGCGTGCATGCTATCGCACCCTTGGGCAGCACCGGCGAAGGGGCCTACCTCAGCGATGCGGAATGGGACCAGGTCAGCGAGTTCAGCATCGCCCACGTCGCCGGCCGAGTGCCGACCGTGGTCAGCGTATCTGACCTGACCACCGCCAAAGCAGTGCGCCGCGCGCGTTTTGCCCAGGATCACGGCGCCGATGTGGTGATGGTTTTGCCAGCCTCTTACTGGAAATTGAGTGAGGCGCAGATCCTCACGCATTATCAGACCATCGGCGCCAGCATCGACGTGCCCATCATGCTCTACAACAACCCGGCCACCAGCGGCATCGACATGTCCGTGGAGCTGATCCTGCGGATTTTCAACGCGGTGGATAACGTCACCATGGTCAAGGAGAGCACCGGCGATATCCAGCGCATGCACCAGCTGCATCTGCTGGGCGAAGGCCATGTACCGTTCTACAACGGCTGCAATCCACTGGCGCTGGAAGCCTTCGCGGCTGGCGCCAGAGGCTGGTGCACCGCTGCGCCGAACCTCATCCCGCAGCTCAACCTCGACCTGTACGAAGCCGTGCTGGCCAACGACCTGAACAAAGCCCGGGCGCTGTTCTACCGACAATTGCCACTGCTGGACTTCATTCTCAAAGGAGGCTTGCCCGCCACCATCAAGGCCGGTTTGCGCACCCTCGGCCTGGAAGTCGGCGACCCGCGCTTGCCGGTCTTCGCGCTCGACGATGCGGGCAACAGCCGATTGAACGCGATGCTGAACCAGCTGCGCTGA	MSTPNIHGIIGYTITPFSADGQGLDLDALGRSIDRLIESGVHAIAPLGSTGEGAYLSDAEWDQVSEFSIAHVAGRVPTVVSVSDLTTAKAVRRARFAQDHGADVVMVLPASYWKLSEAQILTHYQTIGASIDVPIMLYNNPATSGIDMSVELILRIFNAVDNVTMVKESTGDIQRMHQLHLLGEGHVPFYNGCNPLALEAFAAGARGWCTAAPNLIPQLNLDLYEAVLANDLNKARALFYRQLPLLDFILKGGLPATIKAGLRTLGLEVGDPRLPVFALDDAGNSRLNAMLNQLR	PGPT0002080_5830	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
D1-35_04385	783	cloR		4-hydroxy-3-prenylphenylpyruvate oxygenase/4-hydroxy-3-prenylbenzoate synthase	ATGAGCAAGACCCTGGCGACACCAAAGGACCAATTGGTCCAGCATGCTGTTAACCAGATGCAGAAATCACTGCCGGATAATACGTGGACTGTACGACAAAAGCTGGCTCTGACCTGCCGCATCCTGTTCGAGAACGGCCACGACTCAGGCCTCGCCGGGCAGATCACCGCGCGCGGGCCGCAACCCGGCACTTACTACACCCAACAATTGGGTTTGGGATTCGACGAGATTACCGCCGGCAACTTGCTGTTGATCAACGAGGACCTGGAGGTGCTGGAAGGCCATGGCATACCCAACCCGGCGAACCGCTTCCACAGCTGGGTCTACCGCGCCCGGCCGGATGTGAATTGCATCATCCACACCCACCCGACCCACATCGCCGCGCTGTCGATGTTGGAGGTCCCGTTGCAGATTTCCCACATGGACCTCTGCCCGCTGTACGAAGACTGTGCGTTCCTGGAAGGCTGGCCGGGCGTGCCGGTGGGTAACGAGGAAGGCGACTTGATCGCCGGCGCCCTGGGCGACAAACGCGCCATCCTGCTTTCCCACCATGGCCAGTTGTCGACCGGCGAGACCGTGGAAGAAGCCTGCAACATCGCCCAACTGATCGAGCGCGCGGCGAAACTGCAACTGCTCGCCATGGCCGCCGGCGAGGTGAAACCGATCCTGCCGCACCTGGGTCGCGAAGCCCACGACTGGATCGCCCGCCCCAAGCGTCACGCCGCCGCCTTCAACTACTACGCCCGGCAGAACTTGCGCCAACACGCCGATTGCCTGAACTGA	MSKTLATPKDQLVQHAVNQMQKSLPDNTWTVRQKLALTCRILFENGHDSGLAGQITARGPQPGTYYTQQLGLGFDEITAGNLLLINEDLEVLEGHGIPNPANRFHSWVYRARPDVNCIIHTHPTHIAALSMLEVPLQISHMDLCPLYEDCAFLEGWPGVPVGNEEGDLIAGALGDKRAILLSHHGQLSTGETVEEACNIAQLIERAAKLQLLAMAAGEVKPILPHLGREAHDWIARPKRHAAAFNYYARQNLRQHADCLN	PGPT0017430_319	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017430-fucA-K01628	NA	NA
D1-35_04386	552	sutR_3	COG1396	HTH-type transcriptional regulator SutR	ATGTCCATTCGCTTGAAACTGCTCAGAAAAAAACTCGGCGTGACGCTGGACGTCCTGGCCGAAAAAACCGGGATGACCAAGAGCTACCTGTCCAAGGTGGAACGGGGTCTGAGCACGCCCTCCATCGCCACGGCGCTCAAGCTGTCCAAGGCGTTGAACGTGAAAGTCGAGGAATTGTTTTCCGAGGAAAACGTCCCGCTCGACAGCTACAGCCTGGTGCGGTGTGAAGATCGCCAATCGCTTGCGGCGAACCCTGGCAGCTCTGAATACGCGGTGTTGGCCCATCAGGTTTCCGAGCGAACCTTGCTGCCCTTCATCCTCTATCCCCCGGCCGAATTCGCGGCGCATCATGCGTTCAAGGAACACACGGGTGAGGAGTTCCTGTTTGTTCACGAAGGCCAGGTGGAAGTGGACTTCATGAACGAGCGCGTGCTGCTGAATCGCGGTGACGCCTTGCATTTCAATGCCCAGAAACCCCATCGCCTGCGTTCGGTTGGCGACGTCCAGGCCCAATTGCTGGTTGTTGTGCACAGTGCCGAAGCGGCGGAGTAG	MSIRLKLLRKKLGVTLDVLAEKTGMTKSYLSKVERGLSTPSIATALKLSKALNVKVEELFSEENVPLDSYSLVRCEDRQSLAANPGSSEYAVLAHQVSERTLLPFILYPPAEFAAHHAFKEHTGEEFLFVHEGQVEVDFMNERVLLNRGDALHFNAQKPHRLRSVGDVQAQLLVVVHSAEAAE				NA	NA	NA	NA	NA
D1-35_04387	534			hypothetical protein	ATGACTCGTATCAACATTCAGCCACAACAAGCGCCCGCCGCCAGCCAACCAATGCTGGCCCAGATTCAACAGGCCTTTGGCGCAACGCCCAACATGTTCAAGGGCGTAGCCAATTCTCCGGCCGCGCTGCAAAGCATGTGGGCGGCCTTCGGCGCCCTGGGCCAAGGCACGTTGGGTGCCCGGCTTGGCGAGCAGATTGCGGTAGCCGTGGCCAACCGCAACCGCTGTGAATACTGCCTTGCCGCGCACACGGCCCTGGGCCAAAAGGCCGGTGTGTCTGCGACCGACATGGCCGCCGCCCAGCGCGGAGAATCCAGCGACCCCAAGACGGCAGCGGCCCTGGCGTTCGCCCTGATAGTGGTCGAGCAGCGCGCACAGGTGACTGACGCCGACGTGCAGCGCCTGCGGGACAACGGTTTTGGCGATGAACAGATTGTCGAGATCATCGCTCATGTCGCGTTGAACCTGTTCACCAACTACATCAACGTCGCGTTGGACATTCCTGTCGACTTTCCCAAGGTCGCCCTGAAATAA	MTRINIQPQQAPAASQPMLAQIQQAFGATPNMFKGVANSPAALQSMWAAFGALGQGTLGARLGEQIAVAVANRNRCEYCLAAHTALGQKAGVSATDMAAAQRGESSDPKTAAALAFALIVVEQRAQVTDADVQRLRDNGFGDEQIVEIIAHVALNLFTNYINVALDIPVDFPKVALK				NA	NA	NA	NA	NA
D1-35_04388	753			hypothetical protein	ATGAAACTCTCTCGATCTCCCCTCTTTTGCGCTTCGTTGTTGCTTGGCTTGAGCGCCAGCGTCAGCGCGCACGAGGCCGCACATCAAGACGGCATAACCAGCAAACCGGCGAAGGCTGTGAAGGCGCCTTTCGATATCGTCCACACGAGCATCACCACTGAAGGGAATGTGGCGATTTTCCACATGGCCGTTTCCGGCAAGGCCGGCACCGTACGCCCTGCCGCCAGGGGCAAGCTGGCCGGCAGCAGCGTGTTCTCGTATGTCTGGCCAACCAGCCTGGACCCTTCGGTGATCGGTTTCGAGCCGAAGTCCGGAATCCTGGCCTTCGCCGTCACGTCACACCCCGACTTCGACGATACCCCGCTGTTCGACGAGAACCGCGACGGGCGCCTGGATAACGATGGTGATCTTTGGCATTCGCATTGGGTGGTGCTGCAGCCCGACCCGGCCTGTGGGAAAGATGCGCTGAAAGTCGTCGACATTCCCGCAGGGGCCAAGCCTCGCGTGCCCAAGACCTGGCCAGGGTTGCCGATCCTGATCGACAGCCCGGGGTGGACCCCGACGATCAATCAGAAAACCGTCGAGGTGCGCGTGCCGTTTGACGACATCGGCCCGGTCGAGGCCGGCGCGTTCGATGGCGTCACGGCCGCCCTGCGCGTGAACGCGAGCGTGCACAACCCGCTGCTGTGTGTCGCCGACGTGTTCAAGGTGGCCTCGGGCGACCTGTCCCTGCCCGGCAAGGTCAAGCACTGA	MKLSRSPLFCASLLLGLSASVSAHEAAHQDGITSKPAKAVKAPFDIVHTSITTEGNVAIFHMAVSGKAGTVRPAARGKLAGSSVFSYVWPTSLDPSVIGFEPKSGILAFAVTSHPDFDDTPLFDENRDGRLDNDGDLWHSHWVVLQPDPACGKDALKVVDIPAGAKPRVPKTWPGLPILIDSPGWTPTINQKTVEVRVPFDDIGPVEAGAFDGVTAALRVNASVHNPLLCVADVFKVASGDLSLPGKVKH				NA	NA	NA	NA	NA
D1-35_04389	885	rclR_2	COG2207	RCS-specific HTH-type transcriptional activator RclR	ATGCAAACACTTCCAACCCTGGACCGGCTCTCCGGCATCCTCGACCACTTCCGCGTGCAAGCGCAGTTGCACCACACCGGCGCCCTGTGTGGTGTAAATCGCTTTGATGCCGGCGAGGGGTTCGGCTACCTGCACGTGCTTCGTCGCGGTCAGCTGAAAGTCAGCCACCCCGGTGGGCAAGGCTTGCCCTCGATGAGCTTCGAAGAACCGTCGCTGCTGTTTTATCCCTGCCCGATCACCCATCAATTCCATAACTCCCCGGCGGAAGGCTCCGACTTCACCTGTGCGCGACTGATGTTCGAGGGCGGCGCACGCAACCCCCTGGCGCGGGCACTGCCGCCCTTGATCGCGTTGCCGCTGGCCCAGGTACCGGGCCTGCACGCCGCGCTGGAGCTGCTGTTCGCCGAGACCGACCACGTGCGCTGCGGCCAGCGAATGCTCGCCGACCGATTGTTCGAAGTCGTGGTGCTGCAACTGCTGCGCTGGCTGCTTGATCACCAGCAGGAAGCCGGTATCCGCCCGGGTCTCATCGCCGGGCTGTCAAACCCGCGACTGGCGCGAGTGCTCGTCGCCATTCACGAAGACCCGGGCGCCGCGTGGACGCTGGAGCGCATGGCCGAACAGGCCTGCCTGTCGCGCACCGCATTCGCCAACACGTTCCGCGACATCGTCGGCCAAACCCCCGCCGACTACCTCACCACCTGGCGCATCGCCCTGGCCCAGAGCCGCTTGCGCCAAGGCGAATCCATCAAGAGCCTGACCGAAGAGCTTGGCTACACCACCCCATCGGCACTTTCACGGGCGTTCACAGCCAAGGTCGGAGTGTCCCCTCGGGATTGGTTGGCGCAGATAGCCACAGGCCAGAAAGCTGGTTCTGGCTTATGA	MQTLPTLDRLSGILDHFRVQAQLHHTGALCGVNRFDAGEGFGYLHVLRRGQLKVSHPGGQGLPSMSFEEPSLLFYPCPITHQFHNSPAEGSDFTCARLMFEGGARNPLARALPPLIALPLAQVPGLHAALELLFAETDHVRCGQRMLADRLFEVVVLQLLRWLLDHQQEAGIRPGLIAGLSNPRLARVLVAIHEDPGAAWTLERMAEQACLSRTAFANTFRDIVGQTPADYLTTWRIALAQSRLRQGESIKSLTEELGYTTPSALSRAFTAKVGVSPRDWLAQIATGQKAGSGL				NA	NA	NA	NA	NA
D1-35_04391	360			hypothetical protein	ATGGTCAAAATTACACCGAACCCTCCAGCGCCAGACGATTCCGTATCCCGCGCTCAATCCGCCCGCAACAAAAAACTCGAAGACGCCACCAACCGCGCGTTGAATTTCTACCTGAAACCCAAGCCCGAGGGTGAAGCGCCCGACAACGCCAGCACGCTGTTTCGTATTGATCCTGATGTTGATAGCGAGTGCTTGCTCGCGAACCTGAGCGAAAGCCTCGCTTCGGCGAATGCGATGATCAGTGATTTGGCATTTGATCTGGAAGGTTCCCGGCGGCATGTTGCGTTGGGGATTTTGCAATTGATTGAGTTGAGCGAGCTGTTGGCGAATCGCGCGTTGGATATTGTTGAGGCGCGGTAG	MVKITPNPPAPDDSVSRAQSARNKKLEDATNRALNFYLKPKPEGEAPDNASTLFRIDPDVDSECLLANLSESLASANAMISDLAFDLEGSRRHVALGILQLIELSELLANRALDIVEAR				NA	NA	NA	NA	NA
D1-35_04392	234			hypothetical protein	ATGAACAAATATGGCCTATATGCACTGGCGTACGCAGTGTTCCTGTTGTTGTTTTTCTATATGAAAGCTTACGGCCTCAGGAAATGGCTAGGCATTGCTCTAATCGTTCTAGGGTTTGCGAGTATTTTTGCGCTGCCGTCTCTGATCTCCGGTATTGACCTCGGAATTGTCTCTACCAGTGCAATTGGCGTCGGAGCGGCACTGTTTTTCAGCAGGGCCAGGTATACGGTGTGA	MNKYGLYALAYAVFLLLFFYMKAYGLRKWLGIALIVLGFASIFALPSLISGIDLGIVSTSAIGVGAALFFSRARYTV				NA	NA	NA	NA	NA
D1-35_04393	696			hypothetical protein	ATGAAAAAGCTGTTTCTCGCGTTACTTTCGGTCGCCCTGCTTTCCGGATGTGTCACCAAGTCGTTGAGTGTCGAAGACCGCCATCAGATCAAAACCATCAAGATCCTTCCGGTGTACTTTGCGGTGCAGAACTTCAAGTACACCAGCATGACCCAGGCCTGGGGAGCAGGCTTGGGTGCCGGAGCAGGTGCCGCAACCGGAATGGCGGCCGGAGCATCCAGCTCCGCCACCAGCGCATTGACCGGCGCCGGCTCGGTCGCGGGCACCAAGGCGGCAGACGGCGCGACGGTGGATATTTCCCAAGCGATTCTGAACAACATGCAGGCCCACGGTATCGATGTGGGCAAGCTGGTGCGTGAAAGCTTTGAAAGGCGCATCAAGCAAGAAGGGCTGTTCACCCTTGTCGCCGAAGGCGAGAAAGCGGACGCCGACGTTGAGATCATGGTCATGCAGTGGGGGCTGAGCCTGAAAAACTACAGCACCGTGCTTTACCCGGTCATCGGCGTGAACGGATTAATGAAGCGCGGCGGTACATCGGTTTGGCGCAACTTCAATACCATATCGCCCTTCAATGAAAGCAATACCCTCGCCTACACCCCTGAACAGTACGCCACCGATCCCGAAGTACTGCGCGCGGCATTTTCCCGGGTGTCCGATCTGGCAGTCGGCAAGCTGATTGAAGACTTGAAACAATAA	MKKLFLALLSVALLSGCVTKSLSVEDRHQIKTIKILPVYFAVQNFKYTSMTQAWGAGLGAGAGAATGMAAGASSSATSALTGAGSVAGTKAADGATVDISQAILNNMQAHGIDVGKLVRESFERRIKQEGLFTLVAEGEKADADVEIMVMQWGLSLKNYSTVLYPVIGVNGLMKRGGTSVWRNFNTISPFNESNTLAYTPEQYATDPEVLRAAFSRVSDLAVGKLIEDLKQ				NA	NA	NA	NA	NA
D1-35_04395	360			hypothetical protein	ATGGCAAAAGTCACCCCAAACCCACCTGCGGCAGACGAATCCGTATCCCGCGCCGAATCCGCCCGCAACAAGAAACTCGAAGACGCCACCAACCGTGCGTTGAATTTCTACCTGAAACCCAAGCCTGAGGGCGAAACGTCCGAGAATTCCAGCACGCTGTTTCGTATTGATCCTGATGTGGATACGGAGTGTTTGCTTGCGAATCTGAGCGAGAGCCTGGCTTCGGCGAATGCGATGATCAGTGATTTGGCTTTTGATCTGGAAGGGTCAAGGCGGCATGTTGCGTTGGGGATTTTGCAGGTGATCGAGTTGAGTGAGCTGTTGGCGAATCGGGCTTTGGATATTGTTGAGGGGAGATAA	MAKVTPNPPAADESVSRAESARNKKLEDATNRALNFYLKPKPEGETSENSSTLFRIDPDVDTECLLANLSESLASANAMISDLAFDLEGSRRHVALGILQVIELSELLANRALDIVEGR				NA	NA	NA	NA	NA
D1-35_04396	732			hypothetical protein	ATGAGAACAGTTCTGATGCTGATCGGTTTGGTGTTTGCTACTCAGACGGTTGCAGACGATTGGGGAAGCTTCTCTGACCCGTTGGAGGTCGAGTTTTTACCGACCAAGCATGACGCTAGGTTACTGCGAGATTTCACCTACACTGGGCCAAGCCCCCAGAGACGCTTTTGGATCGCACCCAAAAATACAGTTTCAGATGGGGCTTCGATTCCCAAAGTTGCTTGGTCCGTTATTGGCGGCCCATTTGATGGCCAATATCGTAAGGCTGCGATAATTCATGACGTGGCTTGCGTTGAAAAGACACGAAGCTGGAAGGAAACGCATCTGGCCTTTTACACTGCGATGAGAGCAGCCGGCGTAGATGCTACGACCGCGAAAATTATGTATGCGGCGGTTTACCACTTTGGCCCTCGCTGGGCAGAGCCAAAGCGAGTTCTATTGCCACGCACCAATCTAAAGCTAGTTTCGTATTCCCTTGATGAGATCAATGCTGGTCTTCCGCCAGGAAAGCAAGCTGTGCTTCTGGATGAGGGGCGCGTGATCGATAGAACAATATCAACTGGTCTGTTTGAAACGGAACAGCGTCAGGAGGTTGTTGGCGCAGTAATAGAGGTGCGTGAGCTACAGCCTGATCTATCCGTAGAGGCTTTCGAACAGATGTCACGCAAGATAAAAGAAAAGGATCTGAGTTTGTCGGAAATTGAGATGCTGTCAGCAACGACGGAAAAGTGA	MRTVLMLIGLVFATQTVADDWGSFSDPLEVEFLPTKHDARLLRDFTYTGPSPQRRFWIAPKNTVSDGASIPKVAWSVIGGPFDGQYRKAAIIHDVACVEKTRSWKETHLAFYTAMRAAGVDATTAKIMYAAVYHFGPRWAEPKRVLLPRTNLKLVSYSLDEINAGLPPGKQAVLLDEGRVIDRTISTGLFETEQRQEVVGAVIEVRELQPDLSVEAFEQMSRKIKEKDLSLSEIEMLSATTEK				NA	NA	NA	NA	NA
D1-35_04397	339			hypothetical protein	ATGTACTCCTGCATCCTGACTAGGCATTACGATGGTCATGTCCGACAACGTCAGCTACGGCAAATTCTCTCTGTGCCTGAGCCTTGGGTTGTCCCGTTCGTGGTGCAGCTAACCGGCGAGTACGTAATCGAAATACTCGATACCTGCGACGCTCACCTGCAAGCGCTCGATCCGGACCTGTACGGAGCGTTCATCAGGGGCAACCCAGAGTACTTCAAAGCCCTACAGGATCGGATGATCAGTTACTGGGATTGCTACTACCGACACCTGTATAGGCACAGGCAAGACTATGTGGGGTTTCGGTTATTCGAGCACTTTCGTAAACTCGCAAAGGGATAG	MYSCILTRHYDGHVRQRQLRQILSVPEPWVVPFVVQLTGEYVIEILDTCDAHLQALDPDLYGAFIRGNPEYFKALQDRMISYWDCYYRHLYRHRQDYVGFRLFEHFRKLAKG				NA	NA	NA	NA	NA
D1-35_04398	393			IS66 family transposase ISPa75	GTGCTTTATGACTTCAGTCCCAGCCGTGCAGGGGAGCATGCGCGCAACTTTCTTGGGCAGTGGAACGGCAAGCTGGTATGCGACGATTTCGCTGGCTACAAGGCCGGTTTCGAGAAAGGCATCACCGAAATTAGCTGCGTGGCTCACGCCCGTCGCAAGTTTTTCGATCTGCACGTGGCGAACAAAAGCCAGCTGGCTGAACAAGCGCTGTACTCGATTGGCGGCTTGTACGAAGTCGAACGCCAAACTCGAGACATGAGCGATGAGGATCGTTGGCGAATACGCCAGGAAAAGGCAGCCCCGATCATCAAAACGCAGCATAACTGGATGCTGACCCAACGCGATCTCGTGCCCAATGGATCAGCAACGGCCAAAGCTCTGGTACAGCCTTAA	MLYDFSPSRAGEHARNFLGQWNGKLVCDDFAGYKAGFEKGITEISCVAHARRKFFDLHVANKSQLAEQALYSIGGLYEVERQTRDMSDEDRWRIRQEKAAPIIKTQHNWMLTQRDLVPNGSATAKALVQP	PGPT0030625_1632	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030625-tnpB-K07484	NA	NA
D1-35_04399	324			IS66 family transposase ISPpu14	ATGGATCAGCAACGGCCAAAGCTCTGGTACAGCCTTAAACGCTGGGTAGCGTTGACGCGCTACTTGGAAGACGGGGCCGTGACCATCGACAATAATCAAGTCGAGAACCAAATCCGACCATGGGCACTTGGGCGCTCCAACTGGCTGTTCGCCGGGTCGCTTCGCAGTGGCAAACGGGCGGCGGCGATCATGAGTCTGATCCAGTTGGCACGCATGAACGGGCATGATCCGTACGCCTATCTGAAAGATGTGCTGACACGGCTGCCGACACAGCGGGCGAGCGAGATTGGTCGATTGTTACCCGATCACTGGCGACCGACGTAG	MDQQRPKLWYSLKRWVALTRYLEDGAVTIDNNQVENQIRPWALGRSNWLFAGSLRSGKRAAAIMSLIQLARMNGHDPYAYLKDVLTRLPTQRASEIGRLLPDHWRPT	PGPT0030625_3532	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030625-tnpB-K07484	NA	NA
D1-35_04400	165			hypothetical protein	ATGCTAGTTTCCGCTGCTGACGCGTTTTTTACAGAGCAACTTTGCGTCCGGGCTGAGGTGACTAGCAGTGACCACCGAATACCGGCTCACACTTTTTATCAGCAGCAAGGTTACGCGGTCGACGAGCGTAGGTTTGTCAAACGGTATGATTTTTCCGGGGCATAG	MLVSAADAFFTEQLCVRAEVTSSDHRIPAHTFYQQQGYAVDERRFVKRYDFSGA				NA	NA	NA	NA	NA
D1-35_04401	330			hypothetical protein	ATGGAATTGCTGCTGGAAACGGTCGCTCTTTACTCGCTCAAGCTGGCTTATGAGACGGAGGGTCACAGCCCGATTTTGCGGGATGATCCGTTGATGGGGGGTTGTGATCGGGAGGTATTTGGGTTGTTGGTGAGGCGGGGGGATTTGGTTGGGATTCAGGCCGAAATCAGTCGATGCCTGGATTTAGCGCTAGGAGCGGTTGGTGGGGTGGGTACGGCGTTGGGGCGGGAGTTGAATCGTCTGGCTGAAAATCTCCAAACCGTGCCAACGGTGGCACAATTGGATACGTCGCTTGTCGCGCTTAGAGACTATTTGAAGAATATTCAGTGA	MELLLETVALYSLKLAYETEGHSPILRDDPLMGGCDREVFGLLVRRGDLVGIQAEISRCLDLALGAVGGVGTALGRELNRLAENLQTVPTVAQLDTSLVALRDYLKNIQ				NA	NA	NA	NA	NA
D1-35_04403	1050	queA	COG0809	S-adenosylmethionine:tRNA ribosyltransferase-isomerase	ATGCGTGTTGCTGACTTTACCTTCGAACTCCCGGATTCGCTGATCGCTCGCCACCCTCTGGCCGAGCGTCGCGCCAGTCGACTGTTGACCTTGGACGGGGTCAGCGGTGCCATGGCTCACCGTCAATTCACTGATTTGCTTGAGCATTTGCGCCCGGGCGATTTGATGGTGTTCAACAATACCCGAGTCATTCCGGCGCGGTTGTTTGGCCAGAAGGCCTCCGGCGGCAAGCTGGAGATTCTGGTGGAGCGGGTGCTGGACGGGCATCGGGTGCTGGCCCATGTGCGGTCGAGCAAGTCGCCCAAGCCGGGCTCGTCGATTTTGATCGACGGCGGCGGTCAGGCGCGGATGGTGGCGCGGCATGATGCGTTGTTCGAGCTGGAGTTTGCCGAAGAAGTGTTGCCGCTGCTCGACCGTGTCGGGCACATGCCGTTGCCTCCTTATATAGACCGCCCGGACGAAGGTTCGGACCGCGAGCGTTATCAGACCGTGTACGCCGAGCGCCTGGGGGCGGTGGCGGCGCCGACGGCGGGGCTGCATTTTGATCAGCCGTTGCTGGAGGCGATTGCCGCCAAGGGCGTGGAGACGGCGTTCGTGACGCTGCACGTCGGCGCCGGCACGTTCCAGCCGGTGCGCGTGGAGCGCATCGAAGACCACCACATGCACAACGAATGGCTGGAAGTCAGCCAGGAAGTGGTCGATGCCGTGGCGGCATGCCGCGCCCGCGGTGGGCGGGTGGTGGCGGTGGGGACCACCAGCGTGCGTTCCCTGGAAAGCGCCGCGCGCGATGGCGTGCTCAAGCCGTTCAGTGGCGACACCGATATTTTTATCTACCCGGGCCGGCCGTTTCATGTGGTCGATGCCCTGGTGACCAACTTTCATTTGCCCGAATCCACGCTGTTGATGCTGGTTTCGGCGTTCGCCGGTTATCCCGAGACCATGGCCGCCTACAAGGCCGCCGTCGAGCATGGATACCGCTTTTTCAGCTACGGTGATGCGATGTTCATCACCCGTAACCCCGCGCCACGCGGGCCCGAGGAAACCGTATGA	MRVADFTFELPDSLIARHPLAERRASRLLTLDGVSGAMAHRQFTDLLEHLRPGDLMVFNNTRVIPARLFGQKASGGKLEILVERVLDGHRVLAHVRSSKSPKPGSSILIDGGGQARMVARHDALFELEFAEEVLPLLDRVGHMPLPPYIDRPDEGSDRERYQTVYAERLGAVAAPTAGLHFDQPLLEAIAAKGVETAFVTLHVGAGTFQPVRVERIEDHHMHNEWLEVSQEVVDAVAACRARGGRVVAVGTTSVRSLESAARDGVLKPFSGDTDIFIYPGRPFHVVDALVTNFHLPESTLLMLVSAFAGYPETMAAYKAAVEHGYRFFSYGDAMFITRNPAPRGPEETV	PGPT0023660_2119	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023660-queA-K07568	NA	NA
D1-35_04404	1134	tgt	COG0343	Queuine tRNA-ribosyltransferase	ATGAGTCGCACCTGTCGCATGTCCTTCGAGTTGCTTGCTACCGATGGCAAGGCTCGTCGCGGTCGTCTGACCTTCCCCCGCGGTACGGTGGAAACCCCCGCGTTCATGCCGGTGGGCACCTACGGCACGGTCAAGGGCATGCTGCCGCGTGACATCGTTGCCACGGGCGCGGAGATCATTCTCGGCAACACCTTCCACCTGTGGCTGCGTCCGGGCATGGAAGTGATCAAGGCCCACGGCGACCTGCACGATTTCATGCAGTGGAAAGGCCCGATTCTGACCGACTCCGGCGGTTTCCAGGTGTTCAGCCTCGGCGCCATGCGCAAGATCAAGGAGGAGGGCGTGACCTTCGCCTCGCCGGTCGACGGCTCCAAGGTGTTCATGGGCCCGGAAGAGTCGATGCAGGTGCAGCGCGACCTGGGCTCGGACATCGTGATGATCTTCGACGAATGCACGCCGTACCCGGCCGATGAAGACGTGGCGCGGGTGTCGATGGAGCTGTCGTTGCGCTGGGCCCAGCGCTCGAAGAATGCCCACGGCGAAAACACGGCGGCGCTGTTCGGCATCGTGCAGGGCGGCATGCACCAGGATTTGCGCATGCGCTCGCTGGAAGGCCTCGACAAGATCGGCTTCGACGGCCTGGCGATTGGCGGCCTGTCGGTGGGCGAACCGAAGCACGAGATGATCAAGGTGCTCGATTACCTGCCAGGCCAGATGCCCGCTGACAAACCTCGTTACCTTATGGGCGTTGGCAAACCGGAAGATCTGGTTGAGGGTGTGCGCCGCGGGGTGGACATGTTCGATTGCGTGATGCCAACCCGTAATGCCCGCAATGGGCATCTGTTCATCGACACTGGTGTGCTGAAGATCCGTAACGCGTTCCATCGCCATGATGATTCGCCGCTCGATCCGACGTGCGATTGCTATACCTGCCAGAACTTCTCCCGCGCTTATCTGCATCATTTGGACAAGTGCGGCGAAATGCTCGGCAGCATGCTCAATACCATCCACAATTTGCGCCATTATCAGGTGCTTATGGCTGGTTTGCGCGAGGCTATCCAACAGGGTACATTGGCCGCCTTTGTCGAGGCCTTCTATGCCAAGCGCGGGTTGCCTGTTCCGCCTTTGGACTGA	MSRTCRMSFELLATDGKARRGRLTFPRGTVETPAFMPVGTYGTVKGMLPRDIVATGAEIILGNTFHLWLRPGMEVIKAHGDLHDFMQWKGPILTDSGGFQVFSLGAMRKIKEEGVTFASPVDGSKVFMGPEESMQVQRDLGSDIVMIFDECTPYPADEDVARVSMELSLRWAQRSKNAHGENTAALFGIVQGGMHQDLRMRSLEGLDKIGFDGLAIGGLSVGEPKHEMIKVLDYLPGQMPADKPRYLMGVGKPEDLVEGVRRGVDMFDCVMPTRNARNGHLFIDTGVLKIRNAFHRHDDSPLDPTCDCYTCQNFSRAYLHHLDKCGEMLGSMLNTIHNLRHYQVLMAGLREAIQQGTLAAFVEAFYAKRGLPVPPLD				NA	NA	NA	NA	NA
D1-35_04405	339	yajC	COG1862	Sec translocon accessory complex subunit YajC	ATGAGCTTTTTTATCTCTAATGCCATGGCTGACGCGGCTGCACCTGCTGCTGCCAGCCCTATGGGTGGCGGTTTCGAGTGGATTTTCCTGGTCGGCTTCCTGGTCATCTTCTACCTGATGATCTGGCGTCCACAGGCCAAGCGCGCCAAAGAGCAGAAGAACCTGCTCGGCAGCTTGCAGAAAGGTGATGAAGTGGTCACCACCGGCGGCATCGCCGGCAAGATCACCAAAGTGGCGGATGACTTCGTGGTTCTGGAAGTGTCCGACACTGTTGAAATGAAGTTTCAGAAGGGCGCCATCGCGGCCACGCTGCCAAAAGGCACGCTGAAAGCGATCTAA	MSFFISNAMADAAAPAAASPMGGGFEWIFLVGFLVIFYLMIWRPQAKRAKEQKNLLGSLQKGDEVVTTGGIAGKITKVADDFVVLEVSDTVEMKFQKGAIAATLPKGTLKAI	PGPT0025730_1696	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025730-yajC-K03210	NA	NA
D1-35_04406	1869	secD	COG0342	Protein translocase subunit SecD	ATGCTGAACAAATACCCTCTGTGGAAATACCTACTGATCCTGGCGGTGCTGGCGGTCGGTGTGATTTATTCCGCTCCCAATCTCTACCCGGATGACCCGGCCATTCAGGTCAGCGGCGCCAGCACGGCGCTGCAGGTCACCCAGGCCGATCTGGACCGCGCGAGCGCTGCGCTCAAGGCGTCCAATATCGAGGTCAAGGCTGCGTCCATCGCCGAAAACGGCAAGGGCGGCCTGTTGCGCCTGGTCAAGTCTGAAGACCAGTTGCCGGCCAAGGATGTGGTACGCAAGGCGTTGGGCGACGATTACGTTGTGGCCCTGAACCTGGCCCAGACCACCCCGCAGTGGCTGCGCAATCTTGGCGCCCACCCGATGAAGCTGGGCCTGGACTTGTCCGGCGGTGTGCACTTCCTGCTGGAAGTGGACATGGAAAAAGCCCTCGATGCGCGACTGAAAGTCTACGAAGGCGACGTCAAGAGCCTGCTGCGTAAAGAGCGCGTTCGCTATCGCAGCCTGCCGCAGTTCGAAGGTGCCATTCAGCTGGGCTTCAGCGATGAAGATGCCCGCGAACAGGCCCGTGCCCTGATCCGCAAGAATTTCAACGATTTCGACATTGTGCCGGCCGATCTCAATGGTCAGGCGGTGCTGCGTCTGGCGATGACCCCGGCCAAGCTGGCGGAAATCCGCGAATACTCCATCAAGCAGAACTTGACCACGGTGCGTAACCGCGTCAACGAGCTGGGTGTGGCCGAGCCGATCGTCCAGCGCCAGGGCGCCAACCGTATCGTGGTTGAGCTCCCGGGTGTGCAGGACACTGCCGAAGCCAAGCGTATCCTCGGCAAGACCGCCAACCTGGAGTTCCGCCTGGCCGCTGAGCCGGGTGCTTCCAAGGCGACTTCCGAGAGCTTCGAGTTCCGCGAAGGCGGTCGTCCGGTGGCGCAGATCGAGCGCGGCCTGATCATCACCGGTGACCAGGTCACCGACGCCCAGGCGGGCTTCGACGAGCAAGGTCGTCCACAGGTGAACATCCGTCTCGACGGCCACGGCGGCGAACTGATGAGCCGCGCCACGCGCAGCAACGTCGGGCGCAGCATGGCGGTGATCTTCATCGAGCAGAAGCCGACCACCACCTACACCAAACAGGTGGTCAACGGCGTCGAGAAAGACGTACCGGTCCAGACCTTCAAGGAAGAGAAGAAGATCATCAGCCTGGCGACCATCCAGTCGCCACTGGGCAGCCAGTTCCGCATCACCGGCCTGAACGGCCAGGGCGAATCCTCGGAGCTGGCCCTGCTGCTGCGTGCCGGTGGCCTGGCCGCGCCGATGTACTTCGCTGAAGAACGCACCATCGGCCCGAGCCTGGGTGCCGACAACATCACCAAGGGCGTCGATGCCTCCCTGTGGGGCATGCTGTTCGTGTCGCTGTTCATCATCGCCATCTACCGCTTCTTCGGCCTGATCGCCACGGTTGCGCTGGCGGTGAACATGGTGCTGTTGCTGGCCCTGATGTCGTTGCTGGGCGCCACGCTGACCCTGCCGGGTATCGCCGGTATCGTCTTGACGATGGGTATGGCGGTGGACGCCAACGTGCTGATCTTCTCGCGGATACGTGAAGAGATTGCCGCGGGCATGTCGATCCAACGGGCAATCAACGAAGGCTTCGGCCGGGCATTCACCGCGATTCTCGACTCCAACCTGACCACGTTGCTGGTCGGCGGGATTCTCTTTGCCATGGGCACCGGCCCGGTCAAGGGCTTCGCAGTGACCATGTCCCTCGGGATCTTTACCTCGATGTTCACAGCCATCATGGTGACCCGCGCAATGGTCAACCTGATCTTTGGCGGTCGTGACTTCAAGAAGTTGTGGATTTAA	MLNKYPLWKYLLILAVLAVGVIYSAPNLYPDDPAIQVSGASTALQVTQADLDRASAALKASNIEVKAASIAENGKGGLLRLVKSEDQLPAKDVVRKALGDDYVVALNLAQTTPQWLRNLGAHPMKLGLDLSGGVHFLLEVDMEKALDARLKVYEGDVKSLLRKERVRYRSLPQFEGAIQLGFSDEDAREQARALIRKNFNDFDIVPADLNGQAVLRLAMTPAKLAEIREYSIKQNLTTVRNRVNELGVAEPIVQRQGANRIVVELPGVQDTAEAKRILGKTANLEFRLAAEPGASKATSESFEFREGGRPVAQIERGLIITGDQVTDAQAGFDEQGRPQVNIRLDGHGGELMSRATRSNVGRSMAVIFIEQKPTTTYTKQVVNGVEKDVPVQTFKEEKKIISLATIQSPLGSQFRITGLNGQGESSELALLLRAGGLAAPMYFAEERTIGPSLGADNITKGVDASLWGMLFVSLFIIAIYRFFGLIATVALAVNMVLLLALMSLLGATLTLPGIAGIVLTMGMAVDANVLIFSRIREEIAAGMSIQRAINEGFGRAFTAILDSNLTTLLVGGILFAMGTGPVKGFAVTMSLGIFTSMFTAIMVTRAMVNLIFGGRDFKKLWI	PGPT0029260_721	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0029260-secD-K03072	NA	NA
D1-35_04407	915	secF	COG0341	Protein translocase subunit SecF	ATGTTACGTACAATCAACTTCATGGGCGTTCGCAACATTGCGTTCGGCGTCACATTGTTCCTCACGGCACTGGCGTTGTTCAGCTGGGCCACCAAGGGCCTGAACTACGGCCTGGACTTCACCGGCGGTACGCTCATCGAGCTGACCTACGAGCGTCCGGCCGACGTCACCAAGGTGCGTGAGCAACTGGCGAGCTCGGGCTACAGCGATGCCGTGGTGCAGAGCTTTGGCGCCACCACCGATTTGCTGGTGCGTATGCCGGGTGAAGACCCGCAACTGGGCCACCAGGTCGCCGAGGCCTTGCAGAAGGCCGGTGGCGATAACCCGGCCCAGGTCAAGCGCGTCGAGTTCGTCGGCCCGCAGGTGGGTGAGGAGCTGCGCGACCAGGGCGGCCTCGGCATGCTGTTGGCGCTGGGCGGCGTGATGCTCTACCTGGCTTTCCGCTTCCAGTGGAAGTTCGCGGTCGGCGCGATTGTCTCGCTGATCCACGACGTGATCGTGACCGTGGGTATCCTGTCGTTCTTCCAGATCACCTTCGACCTGACGGTGCTGGCGGCGGTGCTGGCGATCATCGGTTACTCGCTCAACGACACCATCGTGGTGTTCGACCGGGTGCGCGAAAACTTCCGTGTGCTGCGCAAGGCCTCGTTGATCGAGAACATCAACATCTCGACCACCCAGACCCTGCTGCGGACCATGGCGACGTCGATCTCCACCTTGCTGGCGATTGTCGCGCTGCTGGTGTTTGGCGGCGACAACCTGTTCGGCTTCTCCATCGCGCTGTTCATCGGTGTGATGGCGGGTACCTACTCGTCGATCTATATCGCCAACGTGGTGCTGATCTGGCTGAACCTCAGCTCCGAGGATCTGATTCCTCCGGCGGCCACCGAGACCGAGGTGGACGACCGCCCGTAA	MLRTINFMGVRNIAFGVTLFLTALALFSWATKGLNYGLDFTGGTLIELTYERPADVTKVREQLASSGYSDAVVQSFGATTDLLVRMPGEDPQLGHQVAEALQKAGGDNPAQVKRVEFVGPQVGEELRDQGGLGMLLALGGVMLYLAFRFQWKFAVGAIVSLIHDVIVTVGILSFFQITFDLTVLAAVLAIIGYSLNDTIVVFDRVRENFRVLRKASLIENINISTTQTLLRTMATSISTLLAIVALLVFGGDNLFGFSIALFIGVMAGTYSSIYIANVVLIWLNLSSEDLIPPAATETEVDDRP	PGPT0029265_3045	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0029265-secF-K03074	NA	NA
D1-35_04408	549			hypothetical protein	GTGAACAAATCGATGCTGGTTGGTGCGGTATTGGGTGCTGTCGGTGTAACAGCCGGTGGTGCGGTCGCCACCTACAGCTTGGTAAAAAGTGGCCCTGAGTATGCGCAAGTACTGGCCGTGGAACCGGTCAAGACCCAAATCAAGACCCCGCGTGAAGTGTGCAAGGACGTGACAGTGACCCGGCAGAAGCCGGTTCAGGATCAACATCAGATCGCCGGCACCGTGCTCGGCGCCGTGGCCGGTGGCCTGTTGGGTAACCAGATCGGCGGCGGCAACGGCAAGAAGATTGCCACCGTGGCGGGTGCGGCCGGCGGCGGTTATGCCGGTAACAAGATTCAGGAAGGCATGCAGGAACGCGACACGTACACCACTACCCAGACTCGCTGCAACACCGTCAATGACATCAGCGACAAGGTTGTAGGCTACGACGTTCGCTACATGCTCGACGGCAAGGAAGGCAAAGTCCGTATGGACCGCGACCCGGGCAACCAGATTCCGGTCAGCAAGGAAGGCCAACTGATCCTGGGCCAGAACGAACCGGCCCAGTAA	MNKSMLVGAVLGAVGVTAGGAVATYSLVKSGPEYAQVLAVEPVKTQIKTPREVCKDVTVTRQKPVQDQHQIAGTVLGAVAGGLLGNQIGGGNGKKIATVAGAAGGGYAGNKIQEGMQERDTYTTTQTRCNTVNDISDKVVGYDVRYMLDGKEGKVRMDRDPGNQIPVSKEGQLILGQNEPAQ				NA	NA	NA	NA	NA
D1-35_04409	1221	uctC		Acetyl-CoA:oxalate CoA-transferase	ATGGGCGCGCTTTCGCATCTGCGGGTGTTGGATTTATCGAGGGTTCTGGCTGGGCCTTGGGCCGGGCAGATCCTCGCGGACCTGGGGGCGGAGGTCATAAAGGTCGAGCGTCCGGGTAACGGTGACGATACGCGTGCCTGGGGGCCGCCCTTTCTGAAAGACGCTTATGGCGAGAATACGACCGAGGCGGCTTATTACCTGTCGGCCAATCGCAACAAGCAATCGGTCACGATTGATTTCACGCGCCCCGAAGGGCAAAAGCTGATCCGGGAACTGGCGGCCAAGTCCGACATCCTGATCGAGAACTTCAAGGTGGGTGGCCTTGCGGCCTATGGTCTGGATTACGACTCGCTAAAAGCAATCAACCCGGAACTGATCTATTGCTCCATCACCGGGTTTGGCCAAACGGGCCCTTACGCCAAGCGTGCCGGTTACGACTTCATGATCCAAGGGTTGGGCGGCTTGATGAGTCTGACTGGCCGGCCGGAAGGGGATGAGGGGGCTGGGCCGGTGAAGGTCGGTGTTGCTCTGACCGATATTCTTACCGGCCTGTATTCGACCGTTGCCATTCTGGCCGCGTTGGCTCATCGCGATCATTCGGGCGGCGGGCAACATATCGATATGGCATTGCTGGATGTCCAGGTGGCTTGTCTGGCCAACCAGGCGATGAATTACTTGACTACTGGCAGCGCGCCGAAGCGGCTGGGCAATGCGCATCCGAATATCGTCCCTTATCAGGATTTTCCTACGGCTGACGGTGACTTCATCCTTACGGTGGGCAATGACGGTCAGTTCAGGAGGTTTGCCGAGGTCGCCGGTCAACCGCAGTGGGCCGATGACCCGAGGTTCGCGACAAACAAGATGCGTGTGGCGAACCGGGCGGCGTTGATTCCGATGATTCGCCAGGCGACGGTGTTCAAGACAACTGCCGAATGGGTCATACAGTTGGAACAGGCCGGTGTGCCGTGTGGGCCGATCAATGATCTGGCTCAGGTGTTTGCCGATCCTCAGGTGCAGGCTCGCGGGCTGGCAATCGAGTTGCCTCATGCGTTGGCGGGTAAGGTGCCACAGGTAGCCAGCCCGATTCGCCTGTCCGAAACTCCGATCGAGTACAGGAGCGCGCCGCCATTATTGGGAGAGCATACGCTGGAGGTGCTGCAGCGGGTGTTGGGGCTGGACTCGGAGGCGGTCACGGCTCTGAGGGACTCTGGGGTTCTTTAG	MGALSHLRVLDLSRVLAGPWAGQILADLGAEVIKVERPGNGDDTRAWGPPFLKDAYGENTTEAAYYLSANRNKQSVTIDFTRPEGQKLIRELAAKSDILIENFKVGGLAAYGLDYDSLKAINPELIYCSITGFGQTGPYAKRAGYDFMIQGLGGLMSLTGRPEGDEGAGPVKVGVALTDILTGLYSTVAILAALAHRDHSGGGQHIDMALLDVQVACLANQAMNYLTTGSAPKRLGNAHPNIVPYQDFPTADGDFILTVGNDGQFRRFAEVAGQPQWADDPRFATNKMRVANRAALIPMIRQATVFKTTAEWVIQLEQAGVPCGPINDLAQVFADPQVQARGLAIELPHALAGKVPQVASPIRLSETPIEYRSAPPLLGEHTLEVLQRVLGLDSEAVTALRDSGVL	PGPT0002130_442	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
D1-35_04410	1182	mmgC_5	COG1960	Acyl-CoA dehydrogenase	ATGGCCAGTAAGGCGAGCTTCAGCTGGATCGATCCCTTGTTGCTGGACCAGCAACTCACCGAAGAAGAACGCATGATTCGCGACACTGCCGAGCAGTTCGCTCAGCAGAAGCTGGCGCCGCGCGTACTGGAGGCGTTCCGTCATGAAAAGACTGACCCGGCGATCTTTCGTGAAATGGGCGAAGTGGGCCTCCTGGGCGCCACCATTCCCGAGCAATACGGCGGCAGCGGCCTGAATTACGTCAGCTACGGCCTCGTCGCCAGGGAAGTGGAGCGTGTGGACTCCGGCTACCGGTCGATGATGAGCGTGCAGTCCTCACTGGTCATGGTGCCGATCAACGAATTCGGCACCGAGGCGCAGAAACAGAAGTATCTGCCGAAGCTGGCTTCAGGCGAATGGATAGGCTGCTTTGGCCTGACCGAGCCGAACCATGGTTCCGACCCGGGCGCGATGATCACTCGGGCGCGCAAGGTTGAAGGCGGCTACAGCTTGACCGGCAGCAAGATGTGGATCACCAACAGTCCGATCGCGGATGTGTTTGTCGTTTGGGCGAAGGACGACGCCGGCGATATCCGAGGCTTCGTGCTGGAGAAGGGCTGGAAGGGCCTGACTGCTCCGGCGATTCACGGCAAGGTCGGGCTGCGTGCTTCGATTACCGGCGAGATCGTCATGGACAGCGTATTCGTGCCGGAAGAAAACATCTTTCCGGACGTGCGTGGCTTGAAAGGGCCGTTCACCTGTCTGAACTCGGCTCGCTACGGCATTTCCTGGGGCGCCCTGGGGGCTGCCGAGTTTTGCTGGCACACCGCCCGACAATACACGCTCGACCGGCAGCAGTTCGGTCGCCCGTTGGCTGCCAATCAATTGATCCAGAAGAAACTGGCCGATATGCAGACTGAAATCACCCTCGCGCTTCAAGGATGTCTGCGTCTTGGGCGTATGAAAGATGAAGGCACGGCTGCGGTAGAGATCACCTCGATCATGAAGCGCAACTCTTGCGGTAAGTCCTTGGATATCGCACGCATGGCGCGGGACATGCTGGGCGGCAATGGCATCTCCGACGAGTTCGGCATTGCTCGTCATTTAGTGAACCTTGAGGTGGTGAACACCTACGAGGGTACGCACGATGTTCATGCGTTGATCCTTGGCCGCGCGCAAACCGGCATTCAAGCGTTCTATTAA	MASKASFSWIDPLLLDQQLTEEERMIRDTAEQFAQQKLAPRVLEAFRHEKTDPAIFREMGEVGLLGATIPEQYGGSGLNYVSYGLVAREVERVDSGYRSMMSVQSSLVMVPINEFGTEAQKQKYLPKLASGEWIGCFGLTEPNHGSDPGAMITRARKVEGGYSLTGSKMWITNSPIADVFVVWAKDDAGDIRGFVLEKGWKGLTAPAIHGKVGLRASITGEIVMDSVFVPEENIFPDVRGLKGPFTCLNSARYGISWGALGAAEFCWHTARQYTLDRQQFGRPLAANQLIQKKLADMQTEITLALQGCLRLGRMKDEGTAAVEITSIMKRNSCGKSLDIARMARDMLGGNGISDEFGIARHLVNLEVVNTYEGTHDVHALILGRAQTGIQAFY	PGPT0021815_2019	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021815-GCDH|gcdH-K00252	NA	NA
D1-35_04411	900	gcvA_7		Glycine cleavage system transcriptional activator	ATGCGTCGTAAAATCCCAAGCACCGCCGCCCTGATCAGCTTCGAGGCTGCCGCACGCCACGAAAGCTTCACCAAGGCGGCACTGGAGCTCTCTCTCACCCAAGGCGCTATCTGCCGACAGATTGCCAGCCTGGAGGACTTCCTTGGCGTGGAGCTTTTCCGACGCTCAAGACGCGGCGTCAAGCTGACTGAAGCGGGGCTTTCATATAGCCGTCGAATCGCCACGCAACTGGATGCCGTCGAGCGCGATACCCTTTCAGTGATGGGGCACACCGGCGCGAACGTTATCGAACTCGCCGTCGTGCCCACCTTCGGCACTCAATGGCTGTTGCCACGCCTCAAGGAGTTCCAGCGGCAGCACCCTGAGGTGACGGTCAATCTCACCAACCGCACGCGCCCTTTCCTGTTCGCCGATACGGATTTCGATGCAGCCATCTACTTCGGCGACGCGGACTGGTCCGGTACCGAATCTCACAAATTAATGGGCGAACAGCCGTTGCCGGTATGCAGCCCCTCCTTGCTGGGCAACCGCAAAACTCTGACGCCAGAGGCAATCGCCGAGCTCCCCCTGCTCCAGCAGACAACCCGCCCATACGCGTGGCGCCAGTGGTTCAACTCACAAGACCTTAATATCGCGCGCGACCTGACAGGTCCGCGCTATGAACTATTCTCCATGCTTGCCCAAGCCGCCATGCACGATATGGGTGTTGCCTTGATCCCGCCCTTCCTGATCCAGCGCGAACTGGCGGAGAAGCGCCTGGTCATTGCCAACCCCAATGCCCTGTCGAGCCTCAAGGCGTATTACCTGATGATCCCGGAACGGAAGGTGGAATCGGCCTCGCTGCGGGCATTTCGCGATTGGCTGGTCACCGAAGCTAGAAACTATGACGTTGAAAATTAA	MRRKIPSTAALISFEAAARHESFTKAALELSLTQGAICRQIASLEDFLGVELFRRSRRGVKLTEAGLSYSRRIATQLDAVERDTLSVMGHTGANVIELAVVPTFGTQWLLPRLKEFQRQHPEVTVNLTNRTRPFLFADTDFDAAIYFGDADWSGTESHKLMGEQPLPVCSPSLLGNRKTLTPEAIAELPLLQQTTRPYAWRQWFNSQDLNIARDLTGPRYELFSMLAQAAMHDMGVALIPPFLIQRELAEKRLVIANPNALSSLKAYYLMIPERKVESASLRAFRDWLVTEARNYDVEN	PGPT0026360_3476	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
D1-35_04412	1122	pntAA	COG3288	NAD(P) transhydrogenase subunit alpha part 1	GTGCACATTGGTGTTCCTCTCGAAACCCAGACGGGTGAAACACGGGTTGCTGCTACCCCGGAAACCATCAAGAAGCTGGTCGGCCAAGGCCATAAAGTCACTGTTGAAAGCGGCGCCGGCATCAAGGCCAGCGTTATTGACAGTGCCTATGAGGCAGCGGGCGCAACCATTGGCAGCGCCAGTGATGCATTCGGGGCCGAACTGATCCTCAAGGTGGTCGCCCCCAGCGACAGCGAGCTGACGCTGATCAAGAGCGGCACCGTTCTGGTGGGCATGCTCAACCCGTTCAACAACGAAACCATCGCCAAGCTGGCCGAACGCGGCATCACCGCATTCGCCCTTGAGGCCGCGCCGCGTACCTCCCGCGCTCAAAGCCTGGACGTGCTGTCGTCTCAAGCGAATATCGCCGGCTATAAAGCCGTGTTGCTGGCCGCCCATCACTATCCGCGCTTCATGCCGATGCTGATGACCGCCGCAGGCACCGTGAAAGCGGCGCGCGTGCTGATTCTCGGCGCGGGCGTGGCCGGACTCCAGGCGATTGCCACGGCCAAGCGCCTGGGCGCTGTGATCGAGGCATCGGACGTGCGTCCCGCAGTGAAAGAGCAAATCGAATCCCTCGGCGCCAAGTTCGTCGACGTGCCTTACGAGACCGACGAAGAGCGTGAATGCGCCGTCGGCGTGGGTGGTTACGCCCGGCCCATGCCTGCCAGCTGGATGCAGCGCCAGGCCCAAGCCGTGCACGAGCGCGCCAAGCAGGCGGACATCGTCATCACCACCGCATTGATTCCGGGCCGCAAGGCACCGACTTTGCTGAGCGCCGAAACCGTCGCGCAGATGAAACCGGGCTCGGTGGTCATCGACCTCGCAGCAGCACAGGGCGGTAACTGTCCGCTGACCGTGGCCGATCAGGTGGTGGTCGAAAACGGCGTGACCATTTGCGGCCCGACCAATCTGGCCGGTGAAGTCGCGGCCGATGCTTCGGCGCTGTACGCCCGTAACCTGCTGGACTTCCTGAAGCTGGTCTTCACCAAGGAAGGTCAGTTCGACGTGAACCTGGAAGACGACATCGTCGCCGCGTGCCTGATGTGCCGCGACGGCCAAGTCATCCGCAAAAACGCCTAA	MHIGVPLETQTGETRVAATPETIKKLVGQGHKVTVESGAGIKASVIDSAYEAAGATIGSASDAFGAELILKVVAPSDSELTLIKSGTVLVGMLNPFNNETIAKLAERGITAFALEAAPRTSRAQSLDVLSSQANIAGYKAVLLAAHHYPRFMPMLMTAAGTVKAARVLILGAGVAGLQAIATAKRLGAVIEASDVRPAVKEQIESLGAKFVDVPYETDEERECAVGVGGYARPMPASWMQRQAQAVHERAKQADIVITTALIPGRKAPTLLSAETVAQMKPGSVVIDLAAAQGGNCPLTVADQVVVENGVTICGPTNLAGEVAADASALYARNLLDFLKLVFTKEGQFDVNLEDDIVAACLMCRDGQVIRKNA	PGPT0013500_2135	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013500-pntA-K00324	NA	NA
D1-35_04413	324	pntA	COG3288	NAD(P) transhydrogenase subunit alpha	ATGGAAGAGCTTATCTCCCCCGGTATCTACAACCTGATCATCTTCGTGCTGGCGATTTATGTCGGTTACCACGTGGTCTGGAACGTTACACCCGCGCTGCACACGCCGTTGATGGCGGTGACCAACGCCATCTCGGCAATCGTGATTGTCGGCGCCATGCTCGCCGCCGCCCTGACTGTAACGCCGCTGGGCAAGACCATGGGCACCCTCGCCGTAGCCCTGGCCGCGGTCAACGTGTTCGGCGGCTTCCTGGTGACGCGCCGCATGCTTGAGATGTTCAAGAAAAAAGCCCCGAAAGCCGTAAAAGAAGAGGCGCCCAAGTAA	MEELISPGIYNLIIFVLAIYVGYHVVWNVTPALHTPLMAVTNAISAIVIVGAMLAAALTVTPLGKTMGTLAVALAAVNVFGGFLVTRRMLEMFKKKAPKAVKEEAPK	PGPT0013500_3143	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013500-pntA-K00324	NA	NA
D1-35_04414	1437	pntB	COG1282	NAD(P) transhydrogenase subunit beta	ATGAGCATGAACCTGGTAACGACGCTCTACCTGATTGCGTCGATCTGTTTCATCCAGGCCCTCAAAGGCCTTTCGCATCCCACCACCTCCCGCCGAGGCAACCTGTTCGGCATGCTCGGCATGGCGCTGGCAGTGCTCACTACCGTGGGTCTCATCTATAAGCTGGGGGCAGAGCTGGCCACTGCCGGCATTGGCTACGTCATCGTCGGCCTGCTGGTTGGTGGTACCGCCGGCTCGATCATGGCCAAGCGCGTCGAGATGACCAAGATGCCGGAGCTGGTAGCGTTCATGCACAGCATGATCGGCCTGGCGGCGGTGTTCATTGCCATCGCGGCGGTAGTCGAGCCGCAATCGCTGGGTATCGTCAAGCAACTGGGCGATTCGATCCCGGCCGGTAACCGTCTGGAGCTGTTCCTCGGCGCGGCCATCGGTGCAATCACCTTCTCCGGTTCGGTGATCGCTTTCGGCAAGTTGTCGGGCAAGTACAAGTTCCGCCTGTTCCAAGGCGCACCGGTACAGTTTGGTGGCCAGCACAAGCTCAACCTGATCCTGGGCCTGGCAACGCTGGGCCTGGGCCTGACCTTCATGTTCACCGGCAACCTCGGCGCGTTCGCCTTGATGTTGGCCTTGGCCTTCGTGCTGGGTGTGCTGATCATCATCCCGATCGGCGGCGCGGACATGCCGGTGGTGGTCTCGATGCTCAACAGTTATTCGGGCTGGGCGGCCGCCGGTATCGGCTTCTCGCTGAACAACTCGATGCTGATCATTGCCGGCTCCCTGGTAGGTTCGAGCGGTGCGATCCTGTCTTACATCATGTGCAAGGCGATGAACCGTTCGTTCTTCAACGTGCTGCTCGGTGGCTTCGGCAACGCCGCAGATGCGGCTGGCCCGGCAGGCTCGAAAGAAGCCCGCCCGGTGAAATCCGGTTCGGCAGATGACGCGACCTTCCTGCTGACCAACGCCGACACAGTGATCATCGTGCCGGGCTACGGCCTGGCGGTGGCACGGGCGCAGCATGCGTTGAAAGAGCTGACCGAGAAGCTGACCCACCATGGCGTGACCGTCAAATATGCGATCCACCCGGTGGCCGGTCGCATGCCCGGGCACATGAACGTCCTGCTGGCCGAGGCCGAAGTACCTTACGACCAGGTGTTCGAGATGGAGGACATCAACTCCGAGTTCGGCCAGGCCGACGTGGTGCTGGTGCTGGGCGCCAACGATGTGGTCAACCCGGCGGCGAAGAACGATCCCAAGTCGCCGATCGCCGGCATGCCGATCCTCGAAGCGTTCAAGGCCAAGACCATCATCGTCAACAAGCGCTCGATGGCCAGCGGCTATGCCGGCCTGGACAACGAGCTGTTCTACCTCGACAAGACCATGATGGTGTTCGGCGACGCCAAGAAGGTCATTGAGGACATGGTCAAGGCCGTGGAATAA	MSMNLVTTLYLIASICFIQALKGLSHPTTSRRGNLFGMLGMALAVLTTVGLIYKLGAELATAGIGYVIVGLLVGGTAGSIMAKRVEMTKMPELVAFMHSMIGLAAVFIAIAAVVEPQSLGIVKQLGDSIPAGNRLELFLGAAIGAITFSGSVIAFGKLSGKYKFRLFQGAPVQFGGQHKLNLILGLATLGLGLTFMFTGNLGAFALMLALAFVLGVLIIIPIGGADMPVVVSMLNSYSGWAAAGIGFSLNNSMLIIAGSLVGSSGAILSYIMCKAMNRSFFNVLLGGFGNAADAAGPAGSKEARPVKSGSADDATFLLTNADTVIIVPGYGLAVARAQHALKELTEKLTHHGVTVKYAIHPVAGRMPGHMNVLLAEAEVPYDQVFEMEDINSEFGQADVVLVLGANDVVNPAAKNDPKSPIAGMPILEAFKAKTIIVNKRSMASGYAGLDNELFYLDKTMMVFGDAKKVIEDMVKAVE	PGPT0013505_695	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013505-pntB-K00325	NA	NA
D1-35_04415	1494	cat1	COG0427	Succinyl-CoA:coenzyme A transferase	ATGTACCGTGACCGCATCCGCCTGCCTTCGTTGTTGGACAAAGTGATGAGCGCTGCCGAGGCAGCCTTGCTGATCGAGGACGGGATGACCGTTGGCATGAGTGGCTTCACCCGCGCCGGAGAAGCCAAGGCGGTACCTCATGCACTGGCCGAACGGGCCAAGCTCATGCCGTTGAAAATCAGCCTGATGACCGGAGCGAGCCTGGGCAACGATCTCGATAAGGAGCTCACGGAGGCAGGCGTGCTCGCGCGACGCATGCCCTTCCAGGTGGACAGCACCCTGCGCAAGGCCATCAACGCTGGCGAGGTCATGTTCATCGACCAGCATCTATCGGAGACCGTTGAACAGATGCGCAACGCGCAGCTCAAGCTGCCCGATATCGCCGTGATCGAAGCCGTGGCTATTACCGAACAAGGTCATATCGTGCCCACCACATCAGTGGGCAATTCGGCCAGTTTTGCGATTTTCGCCAGACAAGTGATCGTCGAGATCAATATGGCCCACAACCCGAATCTGGAAGGGCTCCACGACATCTATATCCCGAGCTACCGCCCAACCCGCACACCCATTCCCCTGGTGAAGGTCGAGGACCGCATCGGTAGCCCTGCCATTCCAATCCCCGCGGAAAAAATTGCCGCCATTGTCATCACCCATCAAGCGGACTCACCCTCCACCGTCCTGCCACCTGACAGCGATACACAGGCTATTGCCGATCACTTGGTCGATTTTTTCAAGCAAGAGGTGGCAGCCGGACGGATGACCAACAAGCTCGGCCCGTTGCAGGCCGGAATCGGTAATATCGCCAACGCCGTGATGTGCGGCTTGATCGACTCCCCGTTCGAAGAACTGACCATGTATTCCGAGGTGCTGCAAGACTCGACCTTCGACCTGATCGATGCAGGCAAGCTGAGTTTCGCTTCTGGCAGTTCCATTACCTTGTCGGCTCGACGCAATGCCGATGTCTTCGGCAACCTGGAAAGGTACAAGGACAAGTTGGTCCTGCGCCCGCAGGAAATCTCCAACCATCCAGAAGTTGTGCGCCGCCTGGGCATCATCGGCATCAACACAGCGTTGGAATTCGATCTGTACGGCAACGTCAACTCAACCCATGTGTGCGGCACGCGGATGATGAACGGCATTGGCGGATCAGGCGACTTCGCCCGGAATGCGCACCTGGCGGTGTTCGTTACCAAATCCATCGCCAAGGGCGGTGCCATTTCCAGCGTCGTGCCGATGGTCAGCCATGTGGACCATACCGAGCACGATGTCGACATCCTGGTAACAGAGATCGGCCTGGCCGACCTGCGGGGCCTCGCACCACGGGAGCGAGCGAGGGTCATCATCGACAACTGCGTACACCCTATCTATCGCCAGGCGCTCAGCGACTATTTTGAAGCCGCTTGTAAGCTGGGCGGACATACGCCGCATATCCTGAAGGATGCACTCAGTTGGCACCTCAACCTCGAGGAAACCGGACGCATGTTGGCGATTTGA	MYRDRIRLPSLLDKVMSAAEAALLIEDGMTVGMSGFTRAGEAKAVPHALAERAKLMPLKISLMTGASLGNDLDKELTEAGVLARRMPFQVDSTLRKAINAGEVMFIDQHLSETVEQMRNAQLKLPDIAVIEAVAITEQGHIVPTTSVGNSASFAIFARQVIVEINMAHNPNLEGLHDIYIPSYRPTRTPIPLVKVEDRIGSPAIPIPAEKIAAIVITHQADSPSTVLPPDSDTQAIADHLVDFFKQEVAAGRMTNKLGPLQAGIGNIANAVMCGLIDSPFEELTMYSEVLQDSTFDLIDAGKLSFASGSSITLSARRNADVFGNLERYKDKLVLRPQEISNHPEVVRRLGIIGINTALEFDLYGNVNSTHVCGTRMMNGIGGSGDFARNAHLAVFVTKSIAKGGAISSVVPMVSHVDHTEHDVDILVTEIGLADLRGLAPRERARVIIDNCVHPIYRQALSDYFEAACKLGGHTPHILKDALSWHLNLEETGRMLAI	PGPT0001545_892	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001545-aarC|cat1-K18118	NA	NA
D1-35_04416	216			hypothetical protein	ATGGAACGTACACTCAGTTCCGAGCTGTTTTTCGAACACAAAGCTGAAAAAAACCAGGCTTCCCTGCCTCTTCGCGTTATCGCCAACCTGATGTTGTGGCAGCGCCGCATTGCCAGCCGCCATCAACTGGCTCGTCTGGATTCGCGTCTGCTGGCTGACGCCGGTATCAGCGAAGCACAACGCTACGAAGAGCTGAGCAAGCCGTTCTGGCGCTAA	MERTLSSELFFEHKAEKNQASLPLRVIANLMLWQRRIASRHQLARLDSRLLADAGISEAQRYEELSKPFWR				NA	NA	NA	NA	NA
D1-35_04417	318			hypothetical protein	ATGATCCGTCTTCGCCTGCTCAGCACAGCTGTCCTGCTGGCCGTAGCCGCCCATTCCAACGCCAGCAGCTTTATCGTCACGACTGACTCCATCGTCGGCGCACTAAAAGCCACTTCCGACGTAACCTCCGACGCCACCTCTTCACTGCGGGACAACAAGATTGTTCAAGCTGCCCGTGATGATGCCGCCAGCTTCGTGGCTAGCGAAGGGGCCATCCGTGGCGTGAAGCTGGAAAGCGCGCTGGATTTCATTCGCCAGCAGGCTCCCCAGCTCAACGCCACCGATGCGCAGTTGGCACAGGCCATCCTGGTTATTTGA	MIRLRLLSTAVLLAVAAHSNASSFIVTTDSIVGALKATSDVTSDATSSLRDNKIVQAARDDAASFVASEGAIRGVKLESALDFIRQQAPQLNATDAQLAQAILVI				NA	NA	NA	NA	NA
D1-35_04418	306			hypothetical protein	ATGCGTTTTTCAAATCTGTACCGAGTCTTTTTCTTCGCAGCTTTCTGCTGGTCTGTTCCGGCCCAAGCCTTTGACGTGTCCACCCAACAGCTGGTGGCCAGCGCTTATGCCACAAGCCTCGTGACCTCGGCGCCCTTCGACAATAAACTGGTCGTCGCCGCTCGCGATGACGCCGCAACATTCATTGCCAGCGATGGACAGTTGCGAGGCGCACAGTTGGAATCGGCCTTGGCTTACCTGCGCCGGAGCCAGCCAAAACTTCACGCCAGCGACCTTGAACTGGCACAGGCAATTCTCGTCCAATAG	MRFSNLYRVFFFAAFCWSVPAQAFDVSTQQLVASAYATSLVTSAPFDNKLVVAARDDAATFIASDGQLRGAQLESALAYLRRSQPKLHASDLELAQAILVQ				NA	NA	NA	NA	NA
D1-35_04419	321			hypothetical protein	ATGCGTAGCCCGCTGATTGCTGCCGCCCTTGGCCTGCTGGTGTTGGCCGATGTGGCCCAGGCACATACCTTGGTAGCCACCAGTAACATCATCGTTCGCGCTTCCCAGCGCTCGATCGATTTCACCTCTGACACCACTACCTCCATCCGTGATTCGAAAATCGTCCGTGAAGCCCACGATGACGCGGCCAGCTTCGTCGCCAGCAACGGCGAAATTCGTGGCGCTCATCTCGAGGCCGCTTTCGAAACCTTGCGTACCCGCGTACCGGAAGCTCGCGACGCCAGTGATCAGGTTCTCGCCGAAGCCATCCTCGCATTGTGA	MRSPLIAAALGLLVLADVAQAHTLVATSNIIVRASQRSIDFTSDTTTSIRDSKIVREAHDDAASFVASNGEIRGAHLEAAFETLRTRVPEARDASDQVLAEAILAL				NA	NA	NA	NA	NA
D1-35_04420	1962			hypothetical protein	GTGAGGCGACTCGCCGCCTGGCTGACGGCCGGGGTCGTGCTGCTTATCGGCAGCACTGCCCAGGCCGGCCTGCAGCTACACCTCAATAGCGACGGCTTGAGCCCGGCGCAACAGCAGGCCAGTCAGGCATTGCTCGATGAAGCCATGCAAGCATTACCTCCGCGCTTCATCGAGCGATTGGACCGGCGCATCGATGTCGGCTGGACCGACCAGATGCCGGAAAACGCCTACGGCCAGGCTTCGCTGGTGTCACAGCTGGACCTCAACCGTAACCTGCTCGACAGCCTCACCGACGGCAGCGCCGCCAGGCAAAAGACCCAGCGGCCGCACGGCACGGTGCGACGAGAGATGCTCGCCACGGTCCTCCACGAACTGACTCATATCTATGATCGCTCGCGTCTATGGCCGGATGCCGAACGTGCGCTGATCCAGCGCTGTACTCGACGCAACAGCAGTGCAGGGTTGATCGGGCTCCCGGATGAATGCCGGGGCGAGAACGACCGCCGCTTCACCCTCAGCGATGATCCACGCTTGCTCGACTTGGCCGGTTGGCCGCAATACGTCGGCCGCCGCGGCGAACGGGAACAGCATAACCGCCAGGTCGCCCGCAGCCCGGACCTCTACGAGACGAGCAGTCCCAAGGAGTTCGTCGCGGTGAACATGGAGTATTTCCTCCTGGACCCGAGCTATGCATGCCGGCGCCCCGCCCTGTATCGCTATTATCAGGAACACTTCGGCTGGGCGCCTGCCGCCAAGGACACCTGCGCCCAGTCCTTCGCTTTTCTCAACGCCGGCAACGATTTTGCCAAGACGCCGCTGGGCAAGGTCGATCCGGAGCGCGTCTACGCCATCGATTACCTGCTGGCCGAAGCCAACCAGAACTGGGTCAGTCGCTGGGGCCACAGCATGCTCCGGCTGGTGATCTGCGCACCAGGCCGACCACGTGGGCCGGATTGCCGGTTGGACCTGGATCAGCATCTGGTGTTGTCTTACCGTGCGTTTGTAGGTGATGTACAGCTGTCGAGCTGGGACGGACTGGTGGGCAAATACCCATCGCGCCTGTTTGTGCTGCCGCTGGCCCAGGTAATCGATGAATACACCAAGACTGAACTGCGCAGCCTGGCATCAGTTCCGCTGAACTTGTCTCGTGCCGAGATCGAGGAGACCGTCGAACGTGCCGCCGAAATGCATTGGAGCTACGACGGAAACTACTACTTCCTCTCCAATAACTGCGCAGTTGAAAGCCTGAAGCTGCTGCGCAGCGGCAGTAACAACGAGCAGCTCAAAGGCCTGGACAGCATCATGCCCAACGGCTTGCTGGAAATCCTCAAGGGTCGAGGCCTGGCGGATACCAGCGTACTGGATGATCCCAAGGAGGCACTGCGCCTCGGTTACCGTTTTGACTCGTTCCGCGACCGCTACCAGGCGATGTTCGAAGTCCTGAAAAAGCATCTGCCCATCAAACAGCAAACCGTTGAAGACTGGCTGGCCCTGGACGCCACTGAACGCCGCGCCTGGTTCGAGCAGGCAGACCTGCGCACCAGCGCGGCGCTGCTTCTATTGGAGCAGGCGAGTTTCCGCCGGCAATTGCTGCTCGCTCAGGATGAGGTCAAGCAGCGCTACCTCAATGCCCGCGAATTGCAGAACGGCGGTATGGAACGGGCAAACGCGACGCTGCAGCAGATTCTCGCCAACAGCGGTTTCCTGAGCCGCCCGGCCGAATTGCTGGGCAGCGGCGGCTATGGTCTGCCGCAACCCAGCGAGTGGCAACGACTGGAATCGGAAAGCAGCCTGCGCCAGAAGCAACTGCAAACGCTCACAGGCGACCTGGATAAGGAGGTTCGAGCGTTGCTGGAGCCGAGCCGCGCAGCTGAAATTGCTGCAAGCGAGGCCAACGTGAAGGTAATCGGCGAACATCTGCGCAAGCTGCACAAGGCCGGGGGCGGGTTGGAGTTGCCCTGA	MRRLAAWLTAGVVLLIGSTAQAGLQLHLNSDGLSPAQQQASQALLDEAMQALPPRFIERLDRRIDVGWTDQMPENAYGQASLVSQLDLNRNLLDSLTDGSAARQKTQRPHGTVRREMLATVLHELTHIYDRSRLWPDAERALIQRCTRRNSSAGLIGLPDECRGENDRRFTLSDDPRLLDLAGWPQYVGRRGEREQHNRQVARSPDLYETSSPKEFVAVNMEYFLLDPSYACRRPALYRYYQEHFGWAPAAKDTCAQSFAFLNAGNDFAKTPLGKVDPERVYAIDYLLAEANQNWVSRWGHSMLRLVICAPGRPRGPDCRLDLDQHLVLSYRAFVGDVQLSSWDGLVGKYPSRLFVLPLAQVIDEYTKTELRSLASVPLNLSRAEIEETVERAAEMHWSYDGNYYFLSNNCAVESLKLLRSGSNNEQLKGLDSIMPNGLLEILKGRGLADTSVLDDPKEALRLGYRFDSFRDRYQAMFEVLKKHLPIKQQTVEDWLALDATERRAWFEQADLRTSAALLLLEQASFRRQLLLAQDEVKQRYLNARELQNGGMERANATLQQILANSGFLSRPAELLGSGGYGLPQPSEWQRLESESSLRQKQLQTLTGDLDKEVRALLEPSRAAEIAASEANVKVIGEHLRKLHKAGGGLELP				NA	NA	NA	NA	NA
D1-35_04421	813	trpA	COG0159	Tryptophan synthase alpha chain	ATGAGCCGCCTGCAAACCCGTTTTGCCGAACTCAAGGAACAGAACCGCGCCGCGCTGGTGACCTTTGTCACCGCCGGTGATCCGGACTACGACACTTCGCTGGCGATCCTCAAGGGCCTGCCTGGCGCCGGCGCGGACGTGATCGAGCTGGGCATGCCGTTCACCGATCCGATGGCTGACGGCCCGGCAATCCAGCTGGCGAATATCCGCGCCCTGGGGGCCCAGCAGAACCTGGCGAAAACCCTGCAGATGGTGCGTGAGTTCCGCAAGGACAACACCGAGACACCGCTGGTATTGATGGGGTATTTCAACCCGATCCATCGTTATGGTGTGCAGCGTTTCATCGGCGAGGCGCTGGACTCCGGCGTCGATGGCCTGATCGTGGTGGACATGCCGCCCGAGCACAACAGCGAACTGTGCGAACCGGCCCAGGCTGTCGGCCTGGACTTTATCCGCCTGACTACGCCAACCACTGACGACGTGCGCTTGCCTACCGTGCTCAACGGCAGTTCCGGCTTTGTCTACTACGTGTCAGTTGCCGGTGTGACCGGTGCCGGCGCCGCAACGCTGGAACATGTGGAAGAGGCCGTGGCGCGTTTGCGTCGCCATACCGATCTGCCGATCAGTATCGGTTTCGGTATCCGCACGCCTGAACAGGCGGCAGCTATCGCGCGGCTGGCCGATGGGGTAGTGGTTGGCTCGGCGCTGATCGACCATATCGCCCGTGCCGACACGTCGGAGCAGGCGATCGATGGCGTGTTGAGCTTGTGTGCTGCCTTGGCTGACGGCGTGCGCAAGGCGCGCCTGGGCTGA	MSRLQTRFAELKEQNRAALVTFVTAGDPDYDTSLAILKGLPGAGADVIELGMPFTDPMADGPAIQLANIRALGAQQNLAKTLQMVREFRKDNTETPLVLMGYFNPIHRYGVQRFIGEALDSGVDGLIVVDMPPEHNSELCEPAQAVGLDFIRLTTPTTDDVRLPTVLNGSSGFVYYVSVAGVTGAGAATLEHVEEAVARLRRHTDLPISIGFGIRTPEQAAAIARLADGVVVGSALIDHIARADTSEQAIDGVLSLCAALADGVRKARLG	PGPT0007070_1670	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
D1-35_04422	1233	trpB	COG0133	Tryptophan synthase beta chain	ATGACCCAGCCTACGACCTCTTTCAACCTGCGCAGCGGCCCCGATGCCAACGGCCTGTTTGGCGCGTTCGGCGGCCGCTACGTGGCCGAAACGCTGATGCCGTTGATCCTTGATCTGGCCCGTGAATACGAAGTGGCGAAGGAAGATCCTGCGTTCATTGAGGAACTGGCCTATTTCCAACGGGATTATGTCGGTCGTCCGAGCCCGCTGTATTTCGCCGAGCGCCTGACCGAGTACTGCGGCGGCGCGAAGATCTACCTCAAGCGTGAAGAGCTGAACCACACCGGCGCCCACAAGATCAACAACTGCATCGGCCAGATCCTGCTGGCGCGGCGCATGGGCAAAAAACGCATCATCGCCGAGACCGGCGCTGGCATGCACGGCGTGGCGACTGCCACCGTGGCTGCGCGTTTTGGCCTTGAGTGTGTGATCTATATGGGCACCACCGACATCGAGCGCCAGCAGGCCAACGTGTTCCGGATGAAACTGCTCGGCGCCGAAGTGATCCCGGTGGTTGCTGGCACCGGCACCCTCAAGGATGCGATGAATGAGGCGCTGCGCGATTGGGTGACCAACGTCGACAGCACCTTCTATCTGATCGGCACCGTGGCCGGGCCGCACCCTTACCCAGCGATGGTCCGCGATTTCCAGGCGGTGATCGGCAAGGAAACCCGCGATCAGTTGCAAGCCCAGGAAGGCCGGCTGCCGGATAGCCTGGTGGCATGCATCGGTGGCGGCTCCAACGCCATGGGCCTGTTCCATCCGTTCCTGGATGACAAGAGCGTCGACATCATCGGCGTTGAAGCGGCTGGTTATGGCATCGAGACCGGCAAGCACGCCGCGAGCCTGAACGGTGGCGTTCCGGGTGTGCTGCACGGTAACCGTACGTTCCTGCTGCAGGACGACGACGGTCAGATCATCGACGCCCATTCCATATCCGCAGGTCTCGATTATCCGGGGATCGGTCCGGAACACGCCTGGTTGCATGACATCGGTCGGGTCCAGTACACCTCGGTCACCGACGCCGAAGCTTTGGAAGCTTTCCATAAATGCTGCCGTCTTGAAGGGATCATTCCTGCGCTGGAAAGCGCCCACGCCTTGGCTGAAGTGTTCAAGCGCGCACCGAACCTGCCCAAGGATCACCTGATGGTGGTCAACCTGTCCGGCCGCGGCGACAAAGACATGCAAACCGTGATGCACCATATGGAACAGTCCCAGCAGGAGAAACATTGA	MTQPTTSFNLRSGPDANGLFGAFGGRYVAETLMPLILDLAREYEVAKEDPAFIEELAYFQRDYVGRPSPLYFAERLTEYCGGAKIYLKREELNHTGAHKINNCIGQILLARRMGKKRIIAETGAGMHGVATATVAARFGLECVIYMGTTDIERQQANVFRMKLLGAEVIPVVAGTGTLKDAMNEALRDWVTNVDSTFYLIGTVAGPHPYPAMVRDFQAVIGKETRDQLQAQEGRLPDSLVACIGGGSNAMGLFHPFLDDKSVDIIGVEAAGYGIETGKHAASLNGGVPGVLHGNRTFLLQDDDGQIIDAHSISAGLDYPGIGPEHAWLHDIGRVQYTSVTDAEALEAFHKCCRLEGIIPALESAHALAEVFKRAPNLPKDHLMVVNLSGRGDKDMQTVMHHMEQSQQEKH	PGPT0007075_1537	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
D1-35_04423	918	trpI		HTH-type transcriptional regulator TrpI	ATGAGCCACGACCTCCCGCCGCTAAACGCCTTGCGTGCCTTCGAGGCCACCGCCCGCCTGAACAGCGTAAGCCAGGCGGCGGAGCAGCTGCACGTCACCCACGGTGCCGTCAGCCGGCAATTGAAATTGCTCGAAGAGCACTTGGGTGTCAGCCTGTTCATCAAGGATGGCCGTGGCCTGAAACTCACAGATGCAGGTTTGCGTCTGCGTGACGCCAGTGCCGACGCATTCGAACGCCTGCGCACGGTTTGCGCGGAGCTGACGCAAAGCACTGCGGACGCGCCGTTCGTGCTGGGCTGCTCGGGCAGCCTGCTGGCGCGCTGGTTCATACCCCGCCTGGGCAGGCTCAACGCTGATCTTCCCGACTTGCGCCTGCACCTGTCCGCCGGCGAAGGCGACCTGGACCCGAGGCGACCTGGACTGGACGCCCTGCTGGTATTCGCCGAACCGCCCTGGCCAGCCGACATGCAAGTGTATGAACTGGCCAGCGAGCGAATCGGCCCGGTGATCAGCCCGCGCTACGCCGGATTCGCCCAACTGCGGGACGCACCGGCCAGCACACTGTTGGGCGAGCCGCTATTGCATACCACCTCTCGCCCACAGGCCTGGCCAACCTGGGCACGGCAAAATGCCTTGGAACCCCAGTCACTAAGATTCGGGCAAGGTTTTGAGCATCTGTATTATTTACTCGAGGCCGCGGTAGCCGGGCTTGGCGTGGCAATCGCACCGGAACCGCTAGTAGCCGAGGACGTTCGTGCCGGACGCCTGGTCGCGCCGTGGGGCTTCAGTGAAACTCCGGCGCGGCTGGCGTTGTGGTTGCCCAAGCGCGCCGCGGATGGACGCGCCCGGCAATTGGCACAGTGGCTCAGGCATGAGCTGAGCCCACCCATTCAGTCACCGCGCTTGCACAACAAATAA	MSHDLPPLNALRAFEATARLNSVSQAAEQLHVTHGAVSRQLKLLEEHLGVSLFIKDGRGLKLTDAGLRLRDASADAFERLRTVCAELTQSTADAPFVLGCSGSLLARWFIPRLGRLNADLPDLRLHLSAGEGDLDPRRPGLDALLVFAEPPWPADMQVYELASERIGPVISPRYAGFAQLRDAPASTLLGEPLLHTTSRPQAWPTWARQNALEPQSLRFGQGFEHLYYLLEAAVAGLGVAIAPEPLVAEDVRAGRLVAPWGFSETPARLALWLPKRAADGRARQLAQWLRHELSPPIQSPRLHNK	PGPT0026360_2372	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
D1-35_04424	327	yqjD_2	COG4575	putative protein YqjD	ATGGCCAGCACTTCGTTACGTAAAGCCTCGTTGCAAAGCATGGAAGCGGAGATCGAGAGTCTGCTCAAGTCCTTGGAAAGCCTGAAGGACGACGCTTCGGACGAGTCGCGCAAAACCCTCAAGTCGCTCAAGGCCAATGCCGAAAGCGCACTGAAACACTCTCGGCATCTGCTCAGCGATGCGTATGAAGAGGTCAAGGTGAAAACCCGTGAAACCGGGATCGCCACCCGTGATTATGCTCAAGAACACCCCTGGACCACGGCCGGTGTCGCGGTTGGGGCGCTTGGTTTGCTGGCCGCTTATTTGTTGTGCAAGCGCGGTGACTGA	MASTSLRKASLQSMEAEIESLLKSLESLKDDASDESRKTLKSLKANAESALKHSRHLLSDAYEEVKVKTRETGIATRDYAQEHPWTTAGVAVGALGLLAAYLLCKRGD				NA	NA	NA	NA	NA
D1-35_04425	216		COG3360	Dodecin	ATGAGTGATCATCACACGTACAAAAAGGTCGAACTGGTCGGCTCGTCTCCCACCAGCATTGAAGACGCCATCAACAATGCCCTGGCGGAGGCCAGCAAAAGCCTCAAGCACCTGGAATGGTTCGAGGTCACCGAAACCCGCGGTCACATCGAAAACGGCCGTGCCGCGCACTTCCAGGTGACCATCAAGGTCGGGTTCCGGATCGCCAATAGCTGA	MSDHHTYKKVELVGSSPTSIEDAINNALAEASKSLKHLEWFEVTETRGHIENGRAAHFQVTIKVGFRIANS				NA	NA	NA	NA	NA
D1-35_04426	225			hypothetical protein	ATGAAGAAGTTGATGGTGGCCCTGGGTCTGCTGAGCCTTGCGGGTAGCGCGTTTGCGGCCGGCAAGCCCTGCGAAGAGCTGAAAAGCGAAATCGCGGCGAAGCTTGATGCCAAAGGTGTATCGGGTTATTCGCTGGAAGTTGTCGATAAAGGCGCAGCGGCTGACGCAAAAGTCGTCGGCACCTGCGAAGGCGGTTCAAAGGAAATCGTCTACAAACGCGGCTGA	MKKLMVALGLLSLAGSAFAAGKPCEELKSEIAAKLDAKGVSGYSLEVVDKGAAADAKVVGTCEGGSKEIVYKRG				NA	NA	NA	NA	NA
D1-35_04427	1002			hypothetical protein	ATGAAACAGCTGTCCGAAGTCAAATTTTCAACCCTCGACCTTGTCCCCGTTCGTGCCGACGGCAACGCTGCCCAGTCCTTGCGCAACTCCCTCGACCTGGCGCAACACGTGGAAAAATACGGCTACACCCGCTTCTGGGTAGCGGAACACCACAATATGGATGGCATCGCCAGCTCCGCGACGGCGGTGTTGCTGGGCTATCTGGCGGGCGGCACATCGACCATTCGTGTCGGCTCCGGCGGGGTGATGCTGCCGAATCATGCGCCTCTGGTCATTGCCGAGCAGTTCGGCACGTTGGAGAGCCTGTTTCCGGGCCGGATCGATCTCGGGCTGGGCCGCGCACCCGGCTCCGACCAGATGACCGCCCGGGCGCTGCGCCGTGAACGCTCCGGCAGTGCCGATGATTTCCCTGACGATGTGGCTGAACTGATGCGTTACCTCGGCCCGCGAACCCCGGACCAGCGGATCATTGCCATGCCGGGCACGGGGACCAACGTGCCGGTGTGGCTGCTGGGTTCGAGCCTGTTCAGTGCACAACTGGCCGGAGAGCGCGGGTTGCCCTACGCCTTCGCCTCGCATTTCGCACCGCGTTTCATGCATGAAGCGATTCGCGTCTATCGCAATCATTTCAAACCGTCTGCGGTGCTGGACAAACCTTACGTCATGCTCGGCGTACCGCTGGTGGCGGCGGATACCGATGAGCAGGCCGATTACCTGGCGACTTCGGTATACCAGCGCATCCTGGCGTTGATGCGCGGCCAAAGTCTGGTACAGCGCCCGCCAGTGGAAACCATGAATGGCCTGTGGCTGCCCCATGAGAAAGAAGCGGTCGGTGACTTCCTTGGCTTGGCGATGATCGGTGGGCCGCAGAAAATCCGCGCCAGGCTGGAGGTGCTGATCGAGCAAACCCAGGCCGACGAGCTGATTTTTACCAGCGATTTGTACGAGCACACCGACCGGCTGCACTCCTATGAGCTGCTGGCGCAAGTCATGAAAGGCTGA	MKQLSEVKFSTLDLVPVRADGNAAQSLRNSLDLAQHVEKYGYTRFWVAEHHNMDGIASSATAVLLGYLAGGTSTIRVGSGGVMLPNHAPLVIAEQFGTLESLFPGRIDLGLGRAPGSDQMTARALRRERSGSADDFPDDVAELMRYLGPRTPDQRIIAMPGTGTNVPVWLLGSSLFSAQLAGERGLPYAFASHFAPRFMHEAIRVYRNHFKPSAVLDKPYVMLGVPLVAADTDEQADYLATSVYQRILALMRGQSLVQRPPVETMNGLWLPHEKEAVGDFLGLAMIGGPQKIRARLEVLIEQTQADELIFTSDLYEHTDRLHSYELLAQVMKG	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
D1-35_04428	432	osmC	COG1764	Peroxiredoxin OsmC	ATGGCTATCGTCAAGAAAGCATCGGCTCACTGGGAAGGTGACCTGAAGACCGGAATCGGCTCCATCTCCACGGAAACCGGCGTGTTGCGCGAAGCGCCCTATGGTTTCAAGGCCCGTTTTGAAGGCGGCAAAGGCACCAACCCCGAAGAATTGATCGGCGCGGCCCATGCGGGCTGTTTTTCCATGGCGTTTTCGATGATTCTCGGCGATGCCGGGCTCAAGGCCGACAGCATCGACACCAACGCCGAAGTGACGCTGGACCAGGTTGATGGCGGCTTTGCGATTACCGCGGTGAAACTGATCCTCAAGGCCAAGATTCCGGGCGCCACCCAAGCGCAATTCGAGGAATTGAGCAACAAAGCCAAGGAGGGTTGCCCGGTTTCCAAGGTGCTCAACGCCAAAATCACCCTGGAGGCCTCGCTGGTAAATTGA	MAIVKKASAHWEGDLKTGIGSISTETGVLREAPYGFKARFEGGKGTNPEELIGAAHAGCFSMAFSMILGDAGLKADSIDTNAEVTLDQVDGGFAITAVKLILKAKIPGATQAQFEELSNKAKEGCPVSKVLNAKITLEASLVN	PGPT0013160_972	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
D1-35_04429	234			hypothetical protein	ATGAAACGATTCGCCCTGGCAGTCATCGGTTGCGCATTGGCCACATCGGCCCTCGCGGCACCCAAGCCCTGTGAAGACCTCAAGAGCGAGATCGAAGCCAAGATCCAGGCCCAAGGCGTGGCCTCCTACACGCTTGAAATCGTCACCAATGAAGAAGTCCATGACCAGAACATGGTGGTGGGCTCCTGCGAGAACGGCACCAAAAAAATCATCTACCAGAAGAACGACCGCTAG	MKRFALAVIGCALATSALAAPKPCEDLKSEIEAKIQAQGVASYTLEIVTNEEVHDQNMVVGSCENGTKKIIYQKNDR				NA	NA	NA	NA	NA
D1-35_04430	429			hypothetical protein	ATGCGCCTACCCACGCTGTTGTTGGCTCTCGCCACGTTGAGCGGATGTGCAACGAGCCCATTGCCTGAAATGGACCCGAACATGGCCTGGGTCGATTTCGCCACGCCAATGCCGGGCGGCAAATTGCTGATGGCTGAAAGCCTGGACGGCCAGCGACTGCGGGACGGGCGATTTTTCCAGGTCTCGCCGGGTAGTCATGAATTGAAGGTGCGCTTCGACTTCGAGGTGTTCGGCGCTGGCGGTGGGCTGGGCATGATGAGCGAGCCGAAAGAACGGCTGTGCTACCTCATCGTACGCTACGACCATTTCGAGGCCGGCCAGCGTTATCGCCTGGAGGCTCGCAACCTGGCTTACTCCCCAAGCGCCCGGCTCTATAACGCCAAGCGTGAAATCGTCGCCGAGGATCGGCAGGCCAATTGCCTGATGTAG	MRLPTLLLALATLSGCATSPLPEMDPNMAWVDFATPMPGGKLLMAESLDGQRLRDGRFFQVSPGSHELKVRFDFEVFGAGGGLGMMSEPKERLCYLIVRYDHFEAGQRYRLEARNLAYSPSARLYNAKREIVAEDRQANCLM				NA	NA	NA	NA	NA
D1-35_04431	414			hypothetical protein	ATGCGCGTGTTGATGCTGACTTGTGGCCTGTCGCTGCTGACCGGTTGTGCCGGTTTGCCTGATCCCGATCCCTCTCAAGCGTGGATCGACCTGGGAAATCATCGGGACACGGCTTTGCAAGCGCTGGAAGTCGATGACAAAGCCTCCATCGACCGTCGTTATTTCGAAGTGCAGCCCGGCAGCCATGAGCTGACGGTGCGTTATCAATTTGCCGTGGAACCGGGCAACATCGGCCCGGATGCCGAACCGTTGTGGCGTGATTGCCGGTTGAACGTGAAATTCAAGGATTTCAATGCGGGCCGGCGCTACCAGCTGCAGGCCGGCAGTATCGGCTTCCGTCCGTGGGCCAAGCTTTATGACGAGCAACGAAAGGTGGTGGGCCAAGGCACGCCGGCGGGCTGCCAGCAAAGCTGA	MRVLMLTCGLSLLTGCAGLPDPDPSQAWIDLGNHRDTALQALEVDDKASIDRRYFEVQPGSHELTVRYQFAVEPGNIGPDAEPLWRDCRLNVKFKDFNAGRRYQLQAGSIGFRPWAKLYDEQRKVVGQGTPAGCQQS				NA	NA	NA	NA	NA
D1-35_04432	1077			hypothetical protein	GTGCTTTTGTTACTCAACGGTTGTTCCAGCCTCGGTTACTACAGCCAGCTCGCCAGTGGGCAGATACGACTGCTGCAAGCTCGAGAGCCGATCGACCGGGTCATCGCCGACCCCGCCCGTGATCCAAAATTGCGCGCGCATCTGGCCCAGGCGCGCGAAGCCCGGACGTTCGCCAGCGCCCACCTGCACCTGCCCGACAACCAAAGCTATCGCCTGTACGCGGACATTGGCCGTCCCTTTGTCGTCTGGAATGTCTTCGCCACCGCGGAATTTTCCCTGGCCCCGCAAACCCACTGCTTCCCCATTGCCGGTTGTGTGGCGTATCGCGGCTACTACAGCCACAGTGCCGCCCGAGGCGAGGCAGCGATGCAGCGCTTGCGCGGCATGGATGTCTCGATTGGTGGCGTAGAGGCTTATTCGACACTGGGCTGGTTCAATGACCCGATCCTCAGTTCGATGCTGCATTGGGGCGACGAGCGCTTGGCGACGCTGATCTTTCATGAACTGGCGCACCAGCGCTTCTACGTGAAAGACGACACCGAATTCAATGAATCCTTTGCCACCTTCGTCGAGCAGGAAGGCACCCGCCAATGGCGCGCCCAACGCGGACTGATACCGGACAATGGCAACAAGGTGCGCCAACGCGAGCAATTCATCCAACTGATCCTCGACACCCGCCAGCGGCTCGAAGCCCTTTACGCCCTCCCCCTGCCGGCCGAACAGATGCGCCAGCGCAAGGCCGCGGAATTCGAACGCCTGCGTGCCGACTATGAACACTTGCGCGACACCCAATGGGCCGGCGACAAGCGCTACGACGCCTGGGTCTACGCACCACTGAACAACGCCCGATTGTTGCCCTTCGGCCTGTATGACCAATGGGTGCCGGCGTTCGCGACGTTGTTCAGGCGTGAGGGCGAAGATTGGGTCAGGTTTTATGCCGCCGTGGAGAAGCTGGGTCGGTTGGCGGTGGATGAGCGAAAGGCAGCGTTGAAAGCATTGGCAGCATCGCCAACGGCGAGCCTTCTCACCACCAGAATGAGCCACCTGCCATCAGCGCCCGCAACTGCGTCACACTGA	MLLLLNGCSSLGYYSQLASGQIRLLQAREPIDRVIADPARDPKLRAHLAQAREARTFASAHLHLPDNQSYRLYADIGRPFVVWNVFATAEFSLAPQTHCFPIAGCVAYRGYYSHSAARGEAAMQRLRGMDVSIGGVEAYSTLGWFNDPILSSMLHWGDERLATLIFHELAHQRFYVKDDTEFNESFATFVEQEGTRQWRAQRGLIPDNGNKVRQREQFIQLILDTRQRLEALYALPLPAEQMRQRKAAEFERLRADYEHLRDTQWAGDKRYDAWVYAPLNNARLLPFGLYDQWVPAFATLFRREGEDWVRFYAAVEKLGRLAVDERKAALKALAASPTASLLTTRMSHLPSAPATASH				NA	NA	NA	NA	NA
D1-35_04433	852	pknB	COG0515	Serine/threonine-protein kinase PknB	ATGCCAAAGATACTTGCCGGTCGCTATTGTCTCGAACGATTGCTCGGTGCCGGTGCCGGTGGCATGGGGGTGGTCTATCGGGCCCGCGACCTCCTCCATGAACAGTACGGCGATCCGGATCCTTACGTTGCGGTAAAAATGCTCAGCGAGGAACTCGGTGATGCCCCGGACGCGGGTGCGCTGCTTTATAGCGAGTTTGCCCTGAGCCGGCGCTTGAGCCATCCGAACGTGCTGCGCCCATACACGTTTGAAGTCGACGCTGCCCAGCGACGGGTTTTCATCACAATGGAGCTGATGCGCGGCTTGACCCTGGACAAGTTACTCTGCGAATCCCCCCTCGGTTTGCCCTGGCCCGAGTTGCAACCGATCGCAATTCCACTGCTTGACGCCATCGCACATACCCATGGCCGAGGCGTAGTGCATGGTGACATCAAACCGAGCAATGTCATGCTGAGTGCAGAAGGTGTGCGTTTGTTTGACTTCGGCCTGGGCCTGACTGAGGAGGGCCCCTTGAAAGGCTTGCCTTCGCTGAACCGCCAACGTCTCGGCGCCTGGACGCCGGCCTACGCCGCCCCAGAATTGCTGGAGGGAAGCCCCCTGTCTGCATGCACCGATCTCTATAGCCTGGCTTGCGTGCTGTACGAACTGGCGAGCGGCAGACACCCATATCGGCGTCTACCTTCAACCCAAGCTCGCGATACCGGGCTGGAGCGTGAGCTCAAGGCTCCGCGCAACTTGCCCAGGCGTTACTGGACAGCATTGCGCACGGCGCTGGCCCTAGATCCTGAGCGGCGCAGTATCAGTGTGACGCAGTTGCGGGCGCTGATGGCAGGTGGCTCATTCTGGTGGTGA	MPKILAGRYCLERLLGAGAGGMGVVYRARDLLHEQYGDPDPYVAVKMLSEELGDAPDAGALLYSEFALSRRLSHPNVLRPYTFEVDAAQRRVFITMELMRGLTLDKLLCESPLGLPWPELQPIAIPLLDAIAHTHGRGVVHGDIKPSNVMLSAEGVRLFDFGLGLTEEGPLKGLPSLNRQRLGAWTPAYAAPELLEGSPLSACTDLYSLACVLYELASGRHPYRRLPSTQARDTGLERELKAPRNLPRRYWTALRTALALDPERRSISVTQLRALMAGGSFWW	PGPT0030450_50	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0030450-stk1-K11916	NA	NA
D1-35_04434	729	prpC_3	COG0631	Protein phosphatase PrpC	ATGCTTCACTCCGGCAGGTGGCGCAGCGCTGCGCGTACCGATCCCGGCAAGGTTCGCTCGCGTAACGAGGATGCCTCCCTGGAATGTCCGGAGCAGGGAATCTGGGCCGTTGCCGACGGAATGGGCGGCCACTCGGGCGGCGATATGGCCAGCCAACTGGTAGTTGCCAACCTCGCGGAGCTGCCCATTCATCGAGATATCGATGAGCGTTCGAGAGCGGTGCGCCAGTGCCTGCGCTGGACCAATCGAAGACTGAGTCAGGAATTGACAGTTACTGCTGAAAATCCGCTCGGCATCATGGGAAGCACCGTCGTGGTGCTGTTACTAGAAGGCAAACGTGCCGCTTGTATCTGGGCTGGCGACAGCCGCTGCTACCTATGGCGTGATCGGCAGCTGTATCAATTGTCCAAGGATCATTCCCTGCGCCAGCAACTGATCGACGAGCATCAGGCCAGTCTCGAGGAGGCAGATGCTCACCCCGCGGCGAAGGCGCTGACCCGTGCAGTAGGCGCCTCGCACGAACTGACGTTGGAAATCCTGGAGTTGGACGTTCATTACGGTGATACGTTTTTGTTGTGCAGCGACGGTTTGTATCAGGACCTTGGCGGAAAAGCGCTCGGTGATGCGATGAGCCTGGCTTCCCCGAGCAGAGCATTGGAACATCTTTTCGCAGGGGTTTTGAGCGGTCGGGCGAGGGACAACCTGACGGCGGTGGTGATACGTAAGTGA	MLHSGRWRSAARTDPGKVRSRNEDASLECPEQGIWAVADGMGGHSGGDMASQLVVANLAELPIHRDIDERSRAVRQCLRWTNRRLSQELTVTAENPLGIMGSTVVVLLLEGKRAACIWAGDSRCYLWRDRQLYQLSKDHSLRQQLIDEHQASLEEADAHPAAKALTRAVGASHELTLEILELDVHYGDTFLLCSDGLYQDLGGKALGDAMSLASPSRALEHLFAGVLSGRARDNLTAVVIRK	PGPT0002605_80	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_REGULATION,PGPT0002605-stp1|pppA-K11915	NA	NA
D1-35_04435	3489			hypothetical protein	ATGAAATCGCTTTTCAGGAAAATGGGCGCCTGGTTGCGTCGGACTTGGGTCTGGACGCTGTCTTTGGTGCTTTTTATCGGATTGCTGGTGTGGTTTGTCGGACCGTTGCTGGCTGTTGCCGATTACAAGTTCTGGGCGAGCCCGACGGCACGTCTGCTGACGATCAGCGCGATGTTTCTGGCATGGGGACTGGGCATGGTTTTCTACTCTGAGCGCGTCTCGGAAAGCGAGAAGAAAGCCGAAGCCAATTCGCCACGTACGTTCAGTCGGACCAGGATAGACGATCAGCGCCGCGAGCTGCGCTCGCGCTTCAAGAAGGCTTTGGAAACGTTAAAGACCTCAAGCCTGTATTCCGGCCACGGCGAGTACTGGCGTGATGATTTACCCTGGTATTTGATAATGGGCCCTGCTGCCAGCGGAAAGACCAGCCTGCTGGCCTGTTCGGGTCTCGAATTTGCGTTCGACAGGTTTGAGCGTGATCCCTCGGAAGACGCTTGCGGTACACAACATTGCGATTGGTATTTTGCCCAACAGGCTGTGCTGGTCGATACGCCGGGACGCTACCTGACCCAGGCGGATCCAGATGTCGATGCTGATGCCTGGAGCGGGTTGCTCGAATGGCTGCGCAAGCGTCGCCATCATTGTCCATTGAATGGCGTGCTGTTGACGGTGCCTGTCGAGGTGCTGCTGGGAAGCGAGGATGAGGTTGCCCGGCTTGCCAGTCATATCCGGGCCCGTCTGCAGGATATCCAGCGCCAACTGCGCGCCGACATGCCGGTCTACCTCGTGCTGAGCAAGGCGGACTGCGTGCCTGGCTTTAACGAATTCTTCGACTCGATGACCCGGGAGGAGAGCGACCAGGTACTGGGCGCGAGTTTTGGTCGGGGCCCGCACGGTAACGATGTGACCGTATCGCGAACCGAATTCGAGTCTCTACTGCACAGGCTCAACAGTCAGTTGCTCACGCGTCTGCATCAGGAGCGAGATGCCGGACGTCGTGGTCTCATCCTGGATTTTCCCCAGCAACTGGCGCAGATGGGCACGCATCTCTGTCTGCTGCTCGAGCAAGTCTCCAATGGCAAGGCGTCCGCAATTCGGGGCTTTTACTTGACCTGCGCCTCGCGGCCTGGCGCTGCGGCTGCCAGCCCCGGCGATGCGAGCCCTGGCACTCGCCGCGAGCTTTCGCGGTCCTCTCGCGAAGGTATCAACTCCCGATTTATCCACCACTTGCTGACGCGGGTCATTTTTCCCGAAGCCGATCTGGCCCGCTTGGGGCGGAGCGAACATAGGCGTATCCGTTGGAACCAGCGTATGGTTTATTTCGCAGCGCTGGCGACCGTTGGATTGTTCGGGCTGCTGTGGGCACAGGGTTTTTCGGCCAACCACGAACGTCTGGAACATTTGTGGATGTTGGGCCAACGTTGGGAACAACTGCGCTTGGCGCCGATGGCCAGCGACGACTCGATTGCGCTGCTCGATTCGCTTGATGTCCGCTTCGAGGCCACTCAGGTCTTTGCTCCGGAAAAAGCGGTGCCACTGCATGAACGCATTCGTTTATATCAGGGGGATGCAACCAGCCCCATGGTGGTTGGCGCCTATGAACACGAATTGCAATCGCGACTCCTGCCTCGGGTCGCGAAAATGCTTGAGGAGCATATTCAGGGCAATCTGGGTGACCGTGAACGTTTGCTCAACAGTCTGCGCGCGTATTTGATGCTGGCCAGGCCCGAGCGACGCGACGCGGCATGGCTCAAGGATCGGCTTGCCCGCGATTGGTCGCTGCGTTATCCCGGCAATCCAGCGATCCAGAACGGCTTGAACACTCACTTCGAGCGTCTATTGGACGTGCCTCTCGCCTATGAGGTGGACGAGTCATTGGTGGCCCAGGCGCGGAAAATCCTGCGCGGTGAGTCCCTGGCGGACGTTGTTTACCGAATGCTTCGCGAGCAGGCCAACCCGCTGCCGCCATACAGTCTCAGCCAACATCTGGGCCCGCAGGGTGCGTTGCTGGTCGGCACTGACCAGATCATTCCGGGCTTCTATACCCGTCAAGGTTATGAGCAGTACTTTTCAGTCCAAGGCACGACGCTGATTACCGGACTACTACAGGACAACTGGGTGCTGGGCGAAGGTGCGAATCCCAGCGGCATGGACATGCGTCGTCTCATGAGCGAACTGGAGCAATTGTACTTTCGTGACTATGCCGAACGCTGGAGCGAGGCGATCGGGCGGGTCGGCTTGCGAAGGGCTGATAGCACCAGTGAAGCCGCCGGGCAATTGGCAGAGCTGACGTCGGCGTATTCGCCTCTGGTGCAATTGCTGGTGCAGGTGCGTGAGCACACGCGCATCCAAGGCATTGCCGAACGTATGGATGAAGCGACGCAAACGATCGGAAACAGCAGCAGTACCGTTTTGCATACGGTCGCCCTCGCTGGCAAAGCCGCCAGCTCCGTGGCAGCGAGGCTGCCGGAAGTCGGGCAGAAATCCTTACAACGGCGTTTTGAGCCATTGCACCGTCTGCTGGACGCTGAAGGTGGCCCCGCAGGCGACCTGATCCTGGCGTTGCGCGCTCTTGATGACGTCGACTCGCAGTTGGCCACTCTGACCCGCGCGAGTGCACCGGAGCAAGCCGCCTTCGAATTGGCGAGACATCGCATGGGTGTTCAGCAAGATGCGCTGAGCAATTTGCGTAGCGCGTCGGCACGCTTGCCGCGCCCGCTCAGTGGATGGCTCAACGGGCTTGCAGAGGATAGCTGGCGCCTGGTGCTCGATGATTCATATCGATACCTGAACCAGCGCTACCAGAGCGAGCTCTACACGTTCTACGCAAAGGCAATCAACAAGCGGTATCCGTTCAATGCCCACAGCGCCAGCGATGTCGCGATCAATGACTTCCGGGAGTTTTTCAAGGACCAAGGCATAGTCGATCGGTTCTTCGAGCGTTACATGCGGCCGTTCGTCAGTGGTCATTCGGGGCACTACCGTCTGCGCAGTGTCGATGGCCAGAGCCTGCCCATGTCCAGGGTCTATCTGGAGCAAATGGCAACGACACATACCATTCGCCAGAGCTTCTTTGCGGAAGATCCTGTCGAGCCAAAAGTCCAATTCAAGCTCGAACCCTACACGCTCGACCCGGCGGTCAGCCGATCCGAATTACGCCTGGGCGACCAGACGCTGGAGTACCGGCATGGGCCGATACAGCCTGTCGCTTTCACCTGGCCAATCGAGGCGCAGGACGGTCGAGCGGCCTTGGTACTGGACAGGATTGTCGGCGGGCAGGGGGTTGGCATCGAGAAGAGCACCGGGCCCTGGTCGCTGTTTCGTTTATTCGACTTGATGCAGATGGAATACCTGGTCGGTCGCGATGTGCGTGTGCTCAAGGCTGATCTCGGTGGCCTGCGGGCCAACTATCTATTGATGAGCCAGCGCACGCCGAACCCTTTCGACATGAGCACCTTGCGTACCTTCCGGATGCCGGTACAGCTCTGA	MKSLFRKMGAWLRRTWVWTLSLVLFIGLLVWFVGPLLAVADYKFWASPTARLLTISAMFLAWGLGMVFYSERVSESEKKAEANSPRTFSRTRIDDQRRELRSRFKKALETLKTSSLYSGHGEYWRDDLPWYLIMGPAASGKTSLLACSGLEFAFDRFERDPSEDACGTQHCDWYFAQQAVLVDTPGRYLTQADPDVDADAWSGLLEWLRKRRHHCPLNGVLLTVPVEVLLGSEDEVARLASHIRARLQDIQRQLRADMPVYLVLSKADCVPGFNEFFDSMTREESDQVLGASFGRGPHGNDVTVSRTEFESLLHRLNSQLLTRLHQERDAGRRGLILDFPQQLAQMGTHLCLLLEQVSNGKASAIRGFYLTCASRPGAAAASPGDASPGTRRELSRSSREGINSRFIHHLLTRVIFPEADLARLGRSEHRRIRWNQRMVYFAALATVGLFGLLWAQGFSANHERLEHLWMLGQRWEQLRLAPMASDDSIALLDSLDVRFEATQVFAPEKAVPLHERIRLYQGDATSPMVVGAYEHELQSRLLPRVAKMLEEHIQGNLGDRERLLNSLRAYLMLARPERRDAAWLKDRLARDWSLRYPGNPAIQNGLNTHFERLLDVPLAYEVDESLVAQARKILRGESLADVVYRMLREQANPLPPYSLSQHLGPQGALLVGTDQIIPGFYTRQGYEQYFSVQGTTLITGLLQDNWVLGEGANPSGMDMRRLMSELEQLYFRDYAERWSEAIGRVGLRRADSTSEAAGQLAELTSAYSPLVQLLVQVREHTRIQGIAERMDEATQTIGNSSSTVLHTVALAGKAASSVAARLPEVGQKSLQRRFEPLHRLLDAEGGPAGDLILALRALDDVDSQLATLTRASAPEQAAFELARHRMGVQQDALSNLRSASARLPRPLSGWLNGLAEDSWRLVLDDSYRYLNQRYQSELYTFYAKAINKRYPFNAHSASDVAINDFREFFKDQGIVDRFFERYMRPFVSGHSGHYRLRSVDGQSLPMSRVYLEQMATTHTIRQSFFAEDPVEPKVQFKLEPYTLDPAVSRSELRLGDQTLEYRHGPIQPVAFTWPIEAQDGRAALVLDRIVGGQGVGIEKSTGPWSLFRLFDLMQMEYLVGRDVRVLKADLGGLRANYLLMSQRTPNPFDMSTLRTFRMPVQL	PGPT0025960_1274	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025960-impL|vasK|icmF-K11891	NA	NA
D1-35_04436	864			hypothetical protein	ATGGATATGGAAAGTCCTCAGGACGAAACAACCGTTCTGCTCGATGCTGAGGGAAAGCGTCCGGCCTCGGGTCCTTTGACCGATGCCGTGACGCCGCCGCGCGTAGAACATCTGCACGAGCGGATGATCTATGCCGCTCGTCAACCGCATTCGCAAATGTTCGTTGCCAGCCTCAATCCGTTGGTGACGGCAGCGTCCGGGCTGTTATCCCGGGTGGTGCTGCTCAGGCAGGGCCGCGACCGCGGAGATCTGAATATGCTCAAACAGGAGCTGGCCCTCGACTTGAAAGACTTCGAAGCCCATGCATTGAGGTTGAACGTAGTGGAAAGCCAGCTGATCGCCGCCCGCTATGTGTTATGCACGGTGCTCGATGAAGCGGTGGTGGCTGCGCCTGGGGGGCAGGGAAGCAACTGGTCACAAATCAGCCTGCTGAGCAGTTTTCACAACGAGACTTTCGGCGGCGAAAAAGTTTTCCAGTTGCTTGATCGCTTATCGAAAGACCCCGTCAAGCATTTGCATATGCTTGAGCTCTCATACCTGTGCCTGTCCCTGGGCTTTGAAGGCAAATATGGAATGCATGCCCGTGGCGGATTTGAGCTCGAAGGCGTGCGCGATGCTCTCTACCGGTCGATCCGGCACGTTCGCGGCGACCCCCCTCGGCAGTTTTCCCATGTTGGGGACGGTTTTGTTACTCCTCGCCGCGCCCCGGTGCGCATTGTCCCCGCCTGGATGGTGATGGTCTTCGCCCTGGTCAGTCTGGGAGCGATGTATTCGGGCTTCGCCTGGGTCCTGCAGGAGCAACGCCAAAGCGCATTGCAACCCTATCAATTGCCAGAGCCGGTTATCGCTCAGCCGCTGCCGTAG	MDMESPQDETTVLLDAEGKRPASGPLTDAVTPPRVEHLHERMIYAARQPHSQMFVASLNPLVTAASGLLSRVVLLRQGRDRGDLNMLKQELALDLKDFEAHALRLNVVESQLIAARYVLCTVLDEAVVAAPGGQGSNWSQISLLSSFHNETFGGEKVFQLLDRLSKDPVKHLHMLELSYLCLSLGFEGKYGMHARGGFELEGVRDALYRSIRHVRGDPPRQFSHVGDGFVTPRRAPVRIVPAWMVMVFALVSLGAMYSGFAWVLQEQRQSALQPYQLPEPVIAQPLP	PGPT0025955_767	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025955-impK|ompA|vasF|dotU-K11892	NA	NA
D1-35_04437	1332			hypothetical protein	ATGAATCACGATAAAGTCATCTGGCAGGAAGGCATGCTGCTGCGGCCGCAACATCTGCAGCACAACGACCGCTATTTCGATCACCAGTTGAAGGTCCGCACGCGGCTATTGAGCGGCTACACCTGGGGCTTCCTGGCGCTGGAAATCGATGCGCAGTTCCTCAACATGGGACGACTGGTCGTCAACAGAGCCTCCGGTGTCCTGCCGGACGGTAGCTTGTTCGAGTTGGACGGCAGCGCTGAACCGCTCGTCCTGGAAGTCCCGTCCAATATCTGCAATACGCCGATCTACCTCGCGCTGCCACTAGTAACGGGCAATCACATCGAGTCTCGTCGTCCAGAGCAGTCGGATGTGCTGGCGCGCTACATCACCTATGACGCACAAGTGTCTGATTCAAACGCTGCGGATTCCTCCAGCAGCCAGATCAGCTGTGGCCGCCTGGATTTTCGTCTTCTGCTGGGTGAGCAGCAGGGCGATCAGGTTTTTGTGAAACTGAAACTCTGTGAAGTGCTTGATACCACGCCCGACGGTGCGATCACGCTCGATTCGGATTTCGTGCCTACGTTTATCCAGGTCAAGTCGTCCGCTTACCTGTTGTCGTGTCTCAAGGAAGTGATCGGCATGCTGGGCCACCGGGGCGAAAGCCTCGCCGAGCGAATTCGCTCCTACGGAAAGTCGGGCGGGGCACAAGTCGGCGATTTCATGATGTTGCAATTGATCAACCGCACCGAGTTGTTGCTGCGGCATCAACTGGAACTGGAGCTGGCTCAACCCGAAACGCTATACCGGATGCTGTTGGCCCTGCTGGGAGAGTTGGCGACATTTTCCACTGACAGCAAGCGACCGCCCCTCGACAATCGGTATCAGCACAGCAACCAGGGCGAGTGCTTCCGAAGCCTGATGCAGTCAATCCGTCAGGTACTGTCGATGGTACTTGAGCAGCACGCCATCGAACTGCAATTGCAGGCTCGCCAGTACGGCATCCTTGTTTCTCAAGTGAACGATCTTTCGCTGTTGGACTCGGCTTCATTCGTATTGGCCGCGAGCGCCGACTGTGACGGTGAAGAGCTGCGTCGTCGCTTGCCGTCGCATCTGAAGATCGGTTCGGTCGAGCAGATTCGCCAACTGGTCAATCTGCATCTGCCGGGCATCAGGATCAGGCCGTTACCCGTAGTGCCGCGGCAGATTGCGTTCCATGCCAACAAAGCCTATTTCATCCTCGAACCCAGTGCTGAAGATTTAGCTCAAGTGAAGCGCTCAGCTGGCTTTGCCTTCCATGTCTCTGGAGAGTTTTCCGAGCTTGAACTGAATTTTTGGGCGATCAGGAACTGA	MNHDKVIWQEGMLLRPQHLQHNDRYFDHQLKVRTRLLSGYTWGFLALEIDAQFLNMGRLVVNRASGVLPDGSLFELDGSAEPLVLEVPSNICNTPIYLALPLVTGNHIESRRPEQSDVLARYITYDAQVSDSNAADSSSSQISCGRLDFRLLLGEQQGDQVFVKLKLCEVLDTTPDGAITLDSDFVPTFIQVKSSAYLLSCLKEVIGMLGHRGESLAERIRSYGKSGGAQVGDFMMLQLINRTELLLRHQLELELAQPETLYRMLLALLGELATFSTDSKRPPLDNRYQHSNQGECFRSLMQSIRQVLSMVLEQHAIELQLQARQYGILVSQVNDLSLLDSASFVLAASADCDGEELRRRLPSHLKIGSVEQIRQLVNLHLPGIRIRPLPVVPRQIAFHANKAYFILEPSAEDLAQVKRSAGFAFHVSGEFSELELNFWAIRN	PGPT0025950_1358	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025950-impJ|vasE-K11893	NA	NA
D1-35_04438	516			hypothetical protein	ATGTCTCGCAGCACCGTGCCTTTATTCAAGCCTTTGATGTTGGCGTTCGTAACCTCGACGCTCATGACCGGCTGCGCCTCGCTGTCACCGTTTTCGACGATGACCAAGCTCAACCTCACCCTGATCGCCGGCAATCAGCTCAACCCGGATCTCAACGGACGGCCATCTCCCGTGGTGGTGCGCTTGCTTGAGCTCAAGCATCCAGTGGCTTTTGAGAACGCGGACTTCTTCAGCCTTTACGAGCGTGCCAGGGAAACTCTTTCACCTGACCTGATCGCCAGCGAAGAGCTGGAGTTGCGTCCCGGCGAAACCGTCAGGCTCCGGCTCGACATTGCAGGGGGCGGTCGTTATGTCGGGATACTCGCGGCATACCGTGATCTGCCGCAAGCAAAGTGGCGCTACACGCTGCCGATCATTGCGGGGCGAGTGACTGACGCGAGCCTGACGCTTGATCAGGATGGGATCGCCACTCGTCTTGGAAAGCCGGCAGGGTGGGTGATCGATGAATCACGATAA	MSRSTVPLFKPLMLAFVTSTLMTGCASLSPFSTMTKLNLTLIAGNQLNPDLNGRPSPVVVRLLELKHPVAFENADFFSLYERARETLSPDLIASEELELRPGETVRLRLDIAGGGRYVGILAAYRDLPQAKWRYTLPIIAGRVTDASLTLDQDGIATRLGKPAGWVIDESR	PGPT0030425_831	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0030425-vasD|lip-K11906	NA	NA
D1-35_04439	1188			hypothetical protein	ATGGAACTCGTTTTAGAAATGCTCACTGCCAGGCAGTTCATCACCCCGGATCTCTGCCGGAAGATTTTCGGGCCGTCCGGCGGTGTGATTGGGCGGGGGGATGATTGCGACTGGATCATTCCGGACTGCGAGCGCCTCCTGTCCAAGCGTCACGCACGAGTGAGTTTCGAGGAGGGCAGGTTTTTTCTGACCGATACCAGTGGCAACGGCATATCCCATCGTAAAAGCGGCATGCGATTACCCAAGGGGCAGCCAGTGCACATCGAGGATGGGGATGTGTATGTGATGGGCGACTGCACTGTCCAGGCGCGGCTGGTAGAGGGGGCGGCGAGCCGCGTTGCAGACCGCTGCCGTTCAGTACCGGTCGACGGCTTCATACCGGACGACGCGTTCTTCAATCTTGATCCGCTGAAAACCCTCGTTCAACAGGAACGGGCATATTGTGGGATTGATGAGCTGATCAACCCCGGTGCGGCGGCCACGTTCGGGTCCAGTTGCCCGGACCATGGGCGTGTGGATACGGAGAGCCTTCTGCTTCCTGAACTGGTCGAAGCACCGCGCGAACCCGAGCTACACCTGTCGTCAGAACCCGCTGCGCTGGTAAGCCAGGATTTCTGGAGACGCTTCGGCGTTGCGCTGGGCATGGATCTCGACAATTTGGACAACGAAGGCCGGGAGGCCCTGGCGATTGATGTTGCTCGGTTGTTCCAGCAAAGCATTCGAGGGCTGCAACAGAGCGTGCGAACCCGTAGGGAGTTGAAAAGCGAATTGCGCCTGGCGCCAACGCAGATTCAACGCGACCAGAAAAATCCATTGAAGTACACCGATGACGCCCTGCAGATGTTATTGCAACCGAGATCGCCAGGAATGTTGTCGGCGACCGATGCCATCGCTAGCGCATTCAGCGATCTTCAGGCTCATCAAGTGGCGTTGCTCGCCGCCAGTCGCGCCACCTTGCGCGCAACGCTGGAGCATTTTTCACCTCGGCAATTGATCCTTCGACTGGAACGAGAGCAACGACTGCTGATCAGCACACATGGTCGCTACTGGCGAGCATATGGTCGTTATCACCAGGCGCTTTGCCTGGACGACGACTGGACCGAGCGACTGCTGGCCCGGGATTTCGCCAAGGCTTATGAGGAGCAGGTTCGCCTGATCTCCACCCTGCAAAACGACTCTCATGGATGA	MELVLEMLTARQFITPDLCRKIFGPSGGVIGRGDDCDWIIPDCERLLSKRHARVSFEEGRFFLTDTSGNGISHRKSGMRLPKGQPVHIEDGDVYVMGDCTVQARLVEGAASRVADRCRSVPVDGFIPDDAFFNLDPLKTLVQQERAYCGIDELINPGAAATFGSSCPDHGRVDTESLLLPELVEAPREPELHLSSEPAALVSQDFWRRFGVALGMDLDNLDNEGREALAIDVARLFQQSIRGLQQSVRTRRELKSELRLAPTQIQRDQKNPLKYTDDALQMLLQPRSPGMLSATDAIASAFSDLQAHQVALLAASRATLRATLEHFSPRQLILRLEREQRLLISTHGRYWRAYGRYHQALCLDDDWTERLLARDFAKAYEEQVRLISTLQNDSHG	PGPT0025945_302	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025945-impI|vasC-K11894	NA	NA
D1-35_04440	141			hypothetical protein	ATGCCTGTTCGTGCCTGTCAGACCGTTCTGCTTGTTTTCATCGTGTTGTTCGGCCTTGGCGCCTGCAGCGGCAATTATAAATTCGACGATAAAGATTATCGCCCATTAGGTGATCCACAAGCGGTCAGTCGTGGCCAGTGA	MPVRACQTVLLVFIVLFGLGACSGNYKFDDKDYRPLGDPQAVSRGQ				NA	NA	NA	NA	NA
D1-35_04441	1527	norR_3		Anaerobic nitric oxide reductase transcription regulator NorR	ATGAGCGCAATGTTCACGCAGGTACCGCAGCCGCTGGCTTATGCAGAAGCCCTTTTGGCCGAGTTTTCAACCCTGTCGCGATCTGGCGACGACGTATCACTGCTTGGGGATTTCATCAGGGGCATCGCACGGCTCAGTACGTGTGAGGTGGCGCAACTATACCTTCTGGATACCACGCACGCCCGGTTGGAAATGTACGCTGAATGTCTCGAAGAGCAGCTGCAATTTCCTGATCGGGCAAGCGTGTCCTGCGACTATAACGATGAACAACTGTTGCATTACGTCCTGCGCCAGAATCGTGTGGTATGCCTGGGCGCGTTGAGTGACAGCTTGCACGATACGGCGTTCCTGCCGGTTCGTGCCGCGCCTTGGCAATCACTGCTCTGCGTGCCGCTTGTCGACATGCGAGGCGCCACCGCCGGACTGTTGCTCTGCGCCAGCGTCAAGCATCTCGACTTGAAGGGGTTCGCTGAGTCCTTCGGGCATCTGGGGATGTTTGCGCTCAGGCAGATGCACCTGCTGCAGTGCAGGCAACTTCCTGCCGACGGCCTCCGGCAAGTTGCCATTACCCTGCCAAGTGCCAACCGCTATGGTTTGATCGGCAAGAGCGACGCGATGCGTCAGACCTGCCTGTTGGTCAGCAAGGTAATCAACAGCCCATACACCGTGCTGTTGTGTGGCGAGACCGGGACTGGCAAGGAAGTGGTTGCCCAGGCCCTTCATGATCATGGTCCGCGCCGCACGGAGGCATTCATTGTTCAGAACTGTGCCGCGGTTCCCGAGCATTTGCTGGAAAGTGAGTTGTTCGGTTATCGCAAGGGGGCTTTCACGGGTGCCGATCGGGATCGCCCCGGGCTGTTCGATGCGGCTGACAGAGGCACGTTGTTGCTCGATGAAATCGGTGACATGCCATTGTCTCTCCAGTCCAAGCTGCTACGGGTATTGCAGGAAGGCGAGATTCGTCCGCTGGGGTCCAACCATACCCACAAGATCGATGTTCGCATCATTGCCGCTACCCATCGGGACCTGAAGCAATTGATGAACGAGGGCAAGTTTCGCGAAGACTTGTATTACCGCCTCGCACAGTTTCCGATCCAGTTGCCCGCGCTACGTCAGCGCGGCCCCGACATCATTGAACTGGCGCGACACTTCACTGACAAGGCCTGCGCACTCCTGCAACGAGACGTTCCGCGCTGGTCCGACGCAGCGCTGGTTCACCTGGCGGCCTATGATTTTCCAGGCAACGTACGCGAGCTCAAAGGCATCGTGGAAAGAGCCGTGCTGCTGTGCGATGGCGCCGAACTGCTGGAAGAGCATTTTTCCCTGCACATCAAAGATCTGTCCGAAGAGGGCCACGTTAGCCTGCGTGAACGGATGGAGCAAATCGAGCGCAGTTTGGTAATTGATTGCCTGCGCAAGAACCTCGGTAACCAGACGCTCACTGCCTGTGAGCTCGGCTTGCCCCGTCGGACACTGATCTATCGTATGCACCGGCTGAAAATCAGCCGTCGGGATGTTGAAGTATGA	MSAMFTQVPQPLAYAEALLAEFSTLSRSGDDVSLLGDFIRGIARLSTCEVAQLYLLDTTHARLEMYAECLEEQLQFPDRASVSCDYNDEQLLHYVLRQNRVVCLGALSDSLHDTAFLPVRAAPWQSLLCVPLVDMRGATAGLLLCASVKHLDLKGFAESFGHLGMFALRQMHLLQCRQLPADGLRQVAITLPSANRYGLIGKSDAMRQTCLLVSKVINSPYTVLLCGETGTGKEVVAQALHDHGPRRTEAFIVQNCAAVPEHLLESELFGYRKGAFTGADRDRPGLFDAADRGTLLLDEIGDMPLSLQSKLLRVLQEGEIRPLGSNHTHKIDVRIIAATHRDLKQLMNEGKFREDLYYRLAQFPIQLPALRQRGPDIIELARHFTDKACALLQRDVPRWSDAALVHLAAYDFPGNVRELKGIVERAVLLCDGAELLEEHFSLHIKDLSEEGHVSLRERMEQIERSLVIDCLRKNLGNQTLTACELGLPRRTLIYRMHRLKISRRDVEV	PGPT0030460_53	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_REGULATION,PGPT0030460-sfa2-K11914	NA	NA
D1-35_04442	2583	clpV1_3	COG0542	Protein ClpV1	ATGATCAATGTGGATCTTCAGCAACTTATCCAAGCGCTGGACGCAGATACCCGGGGCGATCTGGAGCGCTCGGCGCAGCGATGTGCGGATCGTGGCGCAGACAAGATCCTGGTGGATGATCTGTTGCTGAGCCTGCTGGAACGTAGCCAGAGCTTGCTTGTGCGTGCCTTGCTGGATGCCGGGATAAGTCCAGGCCAGTTGAGCTCGGTTCTTCAACCTCGGGCTGAACACGGCGCTTCACGTAATCCGGTATTTGCCCTTGAGCTGGTGCAATGGCTGCAGGATGCGTTGTTGGTGGCGAATCTCGAGCTAGGTCAAGGCAGTGTCACGGAGGCCGCGTTGATCCTGGCGTTGTTACGCAACCCCATTCGTCATGCAGGCACTCGGTACCAGCCGTTGCTCGCCCGGTTGAGCATCGAGCGGCTGATGGATTTCGCCCTGTCCCTACAGTCCCAGACGAACGACAGTCAACCCGCCATGCCGGGCGATTCGTTACTGGAGCGCTTCACTCATAACCTGACCCGGCAGGCTCGTGACGGCAAGCTTGATCCGGTGCTATGCCGGGACGGCGAAATCCGGCAAATGATCGATATCCTTTCGCGTCGCCGCAAGAACAATCCGATCGTTGTCGGTGAAGCCGGGGTCGGCAAGACTGCCATCGTCGAGGGGCTGGCGTTGCGCATCGCCGCAGGGGAAGTGCCGTCAGGGCTTGAAGGGGTACAAATCCTTTCGCTGGACATGGGGCTGCTGCAGGCCGGAGCCAGCATCAAAGGGGAATTCGAACGTCGCCTCAAAGGGGTGATCGACGGCGTAAAGTCTTCATCCACTCCCATTATTCTGTTCATTGACGAGGCCCATGCATTGGTCGGCGCAGGTGGAAGCGCCGGCGGTTCAGACGCGGCCAACCTGCTCAAGCCGGCGCTGGCCCGAGGTGAATTGCGCACAATTGCGGCCACGACATGGGCCGAGTACAAGAAATACTTCGAAAACGACGCGGCCCTCGCACGTCGTTTCCAGCCAGTGCAACTACACGAGCCGACCGTCAGTGATGCGGTGACAATCCTGCGTGGGTTGGCCCGGGTTTATGAGCGGAGTCATGGCATCTATCTGCGTGATGATGCGGTGGTCGCCGCGGCGCGGTTGTCAGCTCGCTATCTGGCCGGTCGTCAATTGCCGGACAAGGCCGTCGATGTGCTGGATACCGCCTGTGCTCGGGTGCGTATCAGCCTGGCTGCAGCGCCGCGAAGCCTTGAGCGCCTGCGTGGAGAACTGGCCGAAGGCGAGCGACAACGTCAGGCGTTGTGTCGTGATGCACAGGCCGGGTTGCCGATCGATCACCAGGCATTGGCGACACTTGAGGTGAACCTGGAAGCTATTGAAGAAAAGCGCCAGGTTCTGGAGTCTCGTTGGGTCGAGCAACGAGTGCTTGCCGAACGCCTGTTAACACTACGCCAGCAATTGGTCGGAGCGCGGGAGGATGGGTCGCAGGTCATGGAAGTCGAGACGCTGGAAGCGGCGTTGGACGAAACCCACCATGCGCTGCTAATCGCCCAGGCCGATGAGCGCCTGGTCAGCTTTGAAGTGTGTCCACGCCTGGTAGCTGAAGTAATCAACGCATGGACTGGCGTGCCGTTGTCGCAGCTGGCATGCGAGCACAACAGCCGGATCACCCGTTTCGCGGATGACTTGGGCGCGCGCATCAGGGGGCAGGAACCAGCCGTGCAGGCCCTTGATCGCGCGATGCGGGCGGCCGCTGCTGGCTTGAACAAGGTCGATGCTCCTGCGGGTGTGTTTTTGCTGGTGGGCCCGAGCGGTGTCGGCAAGACCGAAACGGCGTTGGCCCTGGCGGATTTGCTATACGGCGGAGACCGTTTTATCACGACGCTCCACATGGGCGAATTCCAGGAGAAACATACCGTTTCCCGACTGATCGGCGCGCCACCGGGTTATGTCGGGTTCGGCGAGGGGGGCATGCTCACCGAAGCCGTCAGGCATAAGCCCTATTCTGTTGTGTTGCTCGACGAGGTTGAGAAAGCTGATCCGGATGTGCTGAATCTGTTCTATCAGATTTTCGACAAGGGCCTGGCCAATGACGGCGAAGGACGGGAGATCGATTTTCGCAACACGCTGATTCTGATGACGTCGAATCTGGGCAGTGAATGCATCAGTCAATTGTGCCAAAACAACACGCGGCCAAGCGCTGAACATCTCGAAGAAGCTATCCGTCCGTTGCTCAGTCAGCATTTCAAACCTGCATTGCTGGCGCGGATGTGTGTGGTGCCGTACTTCCCGGTAAGTGGTGCGGTGTTGCGTGAGCTCGTGGAGATAAAAATGGCTCGCTTGGGCGAGCGGCTGAAACGTCGTCAGTTGGGATTCACTTATTGCGCGCAGCTTGTGGACCAGCTGGTCGAGCGTTGTGACCGCAGCGACAGCGGCGCGCGGCTTATCGATCACTTGCTCGATCTTCATCTGATGCCGCGATTGGCCGACCGCTTGCTCATGGCGATGGCGAACAATGAACAGCTGCGGCATGTCCACGCCACGCTTGATGATCAAGCCAGCGTAGTGTGCGAGTTCACTTGA	MINVDLQQLIQALDADTRGDLERSAQRCADRGADKILVDDLLLSLLERSQSLLVRALLDAGISPGQLSSVLQPRAEHGASRNPVFALELVQWLQDALLVANLELGQGSVTEAALILALLRNPIRHAGTRYQPLLARLSIERLMDFALSLQSQTNDSQPAMPGDSLLERFTHNLTRQARDGKLDPVLCRDGEIRQMIDILSRRRKNNPIVVGEAGVGKTAIVEGLALRIAAGEVPSGLEGVQILSLDMGLLQAGASIKGEFERRLKGVIDGVKSSSTPIILFIDEAHALVGAGGSAGGSDAANLLKPALARGELRTIAATTWAEYKKYFENDAALARRFQPVQLHEPTVSDAVTILRGLARVYERSHGIYLRDDAVVAAARLSARYLAGRQLPDKAVDVLDTACARVRISLAAAPRSLERLRGELAEGERQRQALCRDAQAGLPIDHQALATLEVNLEAIEEKRQVLESRWVEQRVLAERLLTLRQQLVGAREDGSQVMEVETLEAALDETHHALLIAQADERLVSFEVCPRLVAEVINAWTGVPLSQLACEHNSRITRFADDLGARIRGQEPAVQALDRAMRAAAAGLNKVDAPAGVFLLVGPSGVGKTETALALADLLYGGDRFITTLHMGEFQEKHTVSRLIGAPPGYVGFGEGGMLTEAVRHKPYSVVLLDEVEKADPDVLNLFYQIFDKGLANDGEGREIDFRNTLILMTSNLGSECISQLCQNNTRPSAEHLEEAIRPLLSQHFKPALLARMCVVPYFPVSGAVLRELVEIKMARLGERLKRRQLGFTYCAQLVDQLVERCDRSDSGARLIDHLLDLHLMPRLADRLLMAMANNEQLRHVHATLDDQASVVCEFT	PGPT0025985_1433	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025985-vasG|clpV-K11907	NA	NA
D1-35_04443	1020			hypothetical protein	ATGGACACCCCGTATGGGCCAGCAGCCGCTTCTATGAGCGCGCTGACGAGAGGTATACGCGAGTATTCGTTGTTCCAGGCGATCTTACTGGTGATCGAGCGGCTGCGCGGCGCCCATCCCGGGCTGGATGACGAAGCACTGTATGACCAGTTGGAGTTCCAGGCCAACCCGAGCCTGGGGTTTCCGGCCAGTGATATCGAGCGCGTGGAATTTTTCCAGGAGCATGGGCAGGTGCGGGCTCGCCTGAGTATCAACCTGATCGGCCTGGTGGGAACAGGATCACCGGTACCGGCGTTTTATGGCGAGCAGGCGTTGGGAGACGGCGATGGCAATCCGACTCGCCAGTTCCTCGACGTGTTCCACCATCGCCTTCAGCGGTTGATGCTGCCGATATGGCGAAAATATCGTTACTACCAGAGTTTCCAGACTGGCGCTAGGGACCCGTTTTCGGAGCAACTGTTCGCGCTGATCGGTCTGGGAGGCGAAGAAATTCGCAAGGCTACTCAACTGAACTGGAAACGCCTGCTGCCCTACCTGGGCCTGTTGAGTCTCCGAGCCCATTCGGCAGCCTTGATCGAAGCGGTGCTGCGTTATTACTTCAAGCACGCCGAGCTAAGCCTGGAACAGTGCGTAGAGCGCCGGGTCGAGATTCTCGCCGAGCAGCGCAATCGACTTGGAGGCGCCAATAGCCTGTTGAGCGAAGACCTTGTGCTGGGCGAAAGGGTTCGTGATCGCAGCGGCAAGTTCCGGATCCATATTCGCGAACTGGACTGGCAACGTCTGCACGAATTTCTGCCAATCGGTGTTGGCTACCAACCTCTTTGCACACTGGTGCGCTTCACCCTGCGTGATCCCCTCGAATATGACATTCGCCTGGTCTTGCGCCAGCAGGAAATACATGAGCTGCGTATTGGAGAACAGAACACTTGCCGCCTGGGATGGACCAGTTGGCTGGGGCTTGAACACGCCGACGGCGTGGTGTCCCTCGGCAGCAGCATTCATCAGGAACGAGTGAAATGA	MDTPYGPAAASMSALTRGIREYSLFQAILLVIERLRGAHPGLDDEALYDQLEFQANPSLGFPASDIERVEFFQEHGQVRARLSINLIGLVGTGSPVPAFYGEQALGDGDGNPTRQFLDVFHHRLQRLMLPIWRKYRYYQSFQTGARDPFSEQLFALIGLGGEEIRKATQLNWKRLLPYLGLLSLRAHSAALIEAVLRYYFKHAELSLEQCVERRVEILAEQRNRLGGANSLLSEDLVLGERVRDRSGKFRIHIRELDWQRLHEFLPIGVGYQPLCTLVRFTLRDPLEYDIRLVLRQQEIHELRIGEQNTCRLGWTSWLGLEHADGVVSLGSSIHQERVK	PGPT0025940_1282	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025940-impH|vasB-K11895	NA	NA
D1-35_04444	1788			hypothetical protein	ATGTCATTCAATCAGTATTACCAGAGCGAGTTGAGCGCGCTTCGCCAGTTGGGCCAGCGTTTTGCCGAGCGCAATCCTGCGCTGGCACCGTTCCTCGGCCAGGCTGGGCGCGACCCTGATGTTGAACGGTTGCTGGAGGGCGTCGCGTTCCTGACAGGGCGTTTGCGGCAGAAGCTCGATGACGAACTGCCGGAGTTGAGCCATTCGTTGATGCAACTGCTTTGGCCCAACTACATGAGGCCGCTACCGTCCTTCGGTATCTTGCAGTTTGATCCGCTACAGCGGGCTGGTCCCGCATTGCAGGTCGAGCGCGATACGCCGGTGGAGAGCAAGCCGATCAAAGAGGTGATCTGTCGTTTTCGAACCTGTTACCCGACCGAGGTATTGTCGCTGGATCTGACTGGGCTCGGTTACTCGGTAAAGGGAAACGGCTCGTTATTGAGCCTGCGTCTGCAGATGACTTGCGATGGCCACCTGGGAGAATTGCAGCTAAGCCGTTTGCGCCTGCATCTGACCGGCGAGCGTTATATCAGCCAGATGCTCTACCTCAATCTGATGCGCAACCTGGAACATGTCGAGCTGATCCCGTTGGGCGGTGATGGCGGTCCCGTAACCGCTGCGAATGGTGATCCCCTGACGTTCAGGATCGCCGCCAGCCAAGTCCGGCCGGTGGGGTTCGCCGACGAGCACGCGCTGGTCCCTTATCCGTTGAACACCTTTCGCGGCTATCGCTACCTGCAAGAATATTTCGCGTTCCAGGAAAAATTCCTGTTCATCGACGTCAATGGCCTCGATGTACTCAACACGTTGCCGCAAGACATCCTGAAACAGATGCGAGGGCTGGACCTGCGTTTCGACATCGGCAAGAGCGGTAATCAGCGGTTACGTCCGACGCTGGATAACGTGAAGCTTTATTGCACGCCCATCGTCAATCTGTTCAAACATGACGCGCAGCCGATTCGCCTGGATGGGAAGCAGGATGAATACCTGCTCTTGCCGGCCCGATACGACCCTGAACACTGCGGCGTGTTTTCCGTCGAAAGCGTTACTGGCTGGAACCCCGGTGGGCTGGGTTACCAAGCCTACGTTCCTTTCGAATCCTTCGAACACGATTCCAGTTTCGACGTACCTGGCAATCGCGGTTATTACAGCGTTCGCCAACGGCCCTCGTTGCTTCACGGTGGCTTTGACACTTGCCTGGGATTCGGCATCCGGCCCAACCCGACCCACGAGACGCTGTCGATCGAGTTGATGTGCACCAATCGGAACCTGCCGCGCCAGCTCAATCCGGGTGATATCAATCAACCGGGCGACAAGAGCCCGGCGTCGCTTGGTTTCCGCAATATCGGTCCGGTTACGCCGAGTTACGCGCCTCCGTTGGATCGTGACTTCCTCTGGAAGCTCATCAGCAACATGTCGCTCAACTACCTGTCGCTGGTGGACGTCAATGCGCTGAAAGTAATACTCGAGACCTACGACTTTCCGCGTTACCACGACGAACAGACCGAAAAGGTCAGCAAGCTTCTGCTGAGCGGCCTGAAGGCGATTGAACACCACCATGTTGATCGACTGCATCACGGCTTGCCCGTTCGCGGCATATGTACAGAGCTGACGATCAATCCTCAGGGCTATATCGGCGAAGGTGATTTGTACGTCTTCGCGTCCGTCCTCAACGAGTTTTTCGCGCTCTACGCCAGCCTCAACTCGTATCACCAGTTGCGGGTAAACAGTACGCAGGGAGAGGTGTACCAATGGACACCCCGTATGGGCCAGCAGCCGCTTCTATGA	MSFNQYYQSELSALRQLGQRFAERNPALAPFLGQAGRDPDVERLLEGVAFLTGRLRQKLDDELPELSHSLMQLLWPNYMRPLPSFGILQFDPLQRAGPALQVERDTPVESKPIKEVICRFRTCYPTEVLSLDLTGLGYSVKGNGSLLSLRLQMTCDGHLGELQLSRLRLHLTGERYISQMLYLNLMRNLEHVELIPLGGDGGPVTAANGDPLTFRIAASQVRPVGFADEHALVPYPLNTFRGYRYLQEYFAFQEKFLFIDVNGLDVLNTLPQDILKQMRGLDLRFDIGKSGNQRLRPTLDNVKLYCTPIVNLFKHDAQPIRLDGKQDEYLLLPARYDPEHCGVFSVESVTGWNPGGLGYQAYVPFESFEHDSSFDVPGNRGYYSVRQRPSLLHGGFDTCLGFGIRPNPTHETLSIELMCTNRNLPRQLNPGDINQPGDKSPASLGFRNIGPVTPSYAPPLDRDFLWKLISNMSLNYLSLVDVNALKVILETYDFPRYHDEQTEKVSKLLLSGLKAIEHHHVDRLHHGLPVRGICTELTINPQGYIGEGDLYVFASVLNEFFALYASLNSYHQLRVNSTQGEVYQWTPRMGQQPLL	PGPT0025935_1145	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025935-impG|vasA-K11896	NA	NA
D1-35_04445	414			hypothetical protein	ATGACTGGATACGGCAGCCTTTTCGAACGCTTGAATGGCGATACCGAAGCACGCTCGGGATTGAGTCGCGATGCCTGCGCCGGAGCGTCCGTGGCTGCCCATCTGGCAAAAATGCTTTGCACCCGAGCGGGCAGCGCACAAACCGCAGCCGATTACGGATTGCCCGACCTCAACGATATGCGGCTGAGTTTGCACGACGCCCGTGGTCAGGCCTGTCGTGCGATCCAGGCCTCTATCGAGGCTTACGAGCCGCGCCTGAGGAATGTCTGTGTCGTTTCAGCGCCCAATGACGCCGACCAGCTCCGCCTGTCTTTTCGCATTGACGCCTTTCTGGAAGTGGAAGGCTTCAGGGGAGCGGTGAATTTCTCCGCATGCCTGGACGGCAATGGCCAGATCAAGGTCATTCAAGGATAG	MTGYGSLFERLNGDTEARSGLSRDACAGASVAAHLAKMLCTRAGSAQTAADYGLPDLNDMRLSLHDARGQACRAIQASIEAYEPRLRNVCVVSAPNDADQLRLSFRIDAFLEVEGFRGAVNFSACLDGNGQIKVIQG	PGPT0030405_452	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030405-tssE-K11905	NA	NA
D1-35_04446	1470			hypothetical protein	ATGAATAATCACGCAGCGCAGCACCGAGATAGCGGCGAGTACAGCATTCTCGAAAGCATCATCGCTCAAACGCGCCTGACGCCTGAAGACGACGCCTATGACATTGCCAAGCGAGGCGTGTCGGCATTCATCGAAGAGCTTCTCAAGCCGCAGAACAGCGGCGAGCCAGTCAAGAAGGCCATGGTTGACCGCATGATCGCCGAGATCGACTCCAAGCTCAGCCGCCAGGTGGACGAGATCCTCCATCACGCCGATTTCCAGGCATTGGAGTCGGCGTGGCGTGGCCTGCAGCTATTGGTTGATCGCACGGATTTTCGCGAGAACATCAAGATTGAGATGCTCAGTATTTCCAAAGACGATTTGCTGGATGATTTCGAAGACTCGCCGGAAGTCATGCAGTCGGGTTTGTACAAACACATCTACACCGCCGAATACGGTCAGTTCGGCGGCCAGCCGGTCGGGGCGATCATCGCGAACTATTTCCTGTCTCCCGGATCCCCCGATGTGAAGCTGATGCAGTACGTAGCCAGCGTGGCGTGCATGTCCCATGCGCCCTTCATCGCTGCGGCCGGTCCAGGATTTTTTGGTCTGGAAAGCTTCACTGGCCTGCCAGACCTCAAGGATCTCAAAGGGCATTTTGAAGGTCCGCAATTCGCCAAATGGCAAAGTTTTCGTCAATCGGAAGACGCACGTTATATAGGCCTTACCGTGCCGCGGTTCCTTTTGCGTACACCCTATGATCCGCAGGAAAACCCGGTCAAATCGTTCGTCTACAAGGAAACCGTTGCCAATGACCATGAGCATTATTTGTGGGGCAACACGGCGTACGCATTCGGCACTCGGCTCACCGATAGCTTTGCCAGGTTCCGCTGGTGCCCGAACATCGTCGGCCCCCAGAGCGGCGGCGCGGTTGAAGATCTGCCATTGCACCACTTTGAAAGCATGGGCGAGATCGAAACCAAGATCCCTACCGAAGTGCTGGTTTCCGACCGTCGCGAATACGAGCTGGCCGAAGAAGGCTTCATCTCACTGACCATGCGTAAAGGTAGTGATAACGCTGCGTTCTTCTCCGCCAGTTCCGTGCAGAAACCGAAATTCTTTGGCATCAGTGCCGAAGGCAAGGCGAGCGAGTTGAACTACAAGCTCGGTACGCAACTGCCTTACATGATGATCGTCAACCGCCTGGCTCATTACTTGAAGGTGCTGCAGCGTGAGCAGCTCGGCTCGTGGAAAGAACGCACCGACCTTGAGCTGGAGCTGAACAAGTGGATCCGCCAATACGTCGCCGACCAGGAGAACCCGAGCTCCGAAGTCCGTGGCCGGCGGCCGTTGCGTGCGGCCCAGGTCATCGTTACAGACGTGGAGGGTGAGCCGGGCTGGTATCGCGTCAGCCTGAATGTCCGCCCACACTTCAAGTACATGGGCGCCGATTTCACCCTGTCGCTGGTCGGCAAGCTGGACAAAGAGTAA	MNNHAAQHRDSGEYSILESIIAQTRLTPEDDAYDIAKRGVSAFIEELLKPQNSGEPVKKAMVDRMIAEIDSKLSRQVDEILHHADFQALESAWRGLQLLVDRTDFRENIKIEMLSISKDDLLDDFEDSPEVMQSGLYKHIYTAEYGQFGGQPVGAIIANYFLSPGSPDVKLMQYVASVACMSHAPFIAAAGPGFFGLESFTGLPDLKDLKGHFEGPQFAKWQSFRQSEDARYIGLTVPRFLLRTPYDPQENPVKSFVYKETVANDHEHYLWGNTAYAFGTRLTDSFARFRWCPNIVGPQSGGAVEDLPLHHFESMGEIETKIPTEVLVSDRREYELAEEGFISLTMRKGSDNAAFFSASSVQKPKFFGISAEGKASELNYKLGTQLPYMMIVNRLAHYLKVLQREQLGSWKERTDLELELNKWIRQYVADQENPSSEVRGRRPLRAAQVIVTDVEGEPGWYRVSLNVRPHFKYMGADFTLSLVGKLDKE	PGPT0025920_1427	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025920-impC-K11900	NA	NA
D1-35_04447	504			hypothetical protein	ATGGCCAAAGAAGGCTCTGTCGCCCCCAAGGAACGCATCAACGTCACCTTCAAGCCTGCTATCGGAGGGGGCCAGGAAGAGATCGAACTGCCCCTCAAACTGTTGGCAATCGGTGACTACATCCATCGCAAGGACGAACGCAAGATCGAAGACCGCAAACCGATCAGCATCGACAGGATGACCTTCGACGAAGTATTGGCCAAGCAAGAGCTGAGCCTGCTCCTGAGCGTACCGAACCGCCTCCAGCAAGAGAGCGATACCGACGAGCTCGCCGTACAACTGCGCTTGCGTTCGATGAAGGATTTCAACCCGGCGAACCTGGTCGACCAAGTGCCCGAACTCAAGAAGTTGATGGAGCTGCGAGATGCGCTGGTGGCACTCAAAGGGCCGTTGGGCAACGCACCGGCGTTTCGCAAGGCCATCGAAGGCGTGCTTGCCGACGATACATCCCGCAATCGCGTGCTGGATGAACTGGGCCTGGCTGCCTCAGCCCCGGACGTTTGA	MAKEGSVAPKERINVTFKPAIGGGQEEIELPLKLLAIGDYIHRKDERKIEDRKPISIDRMTFDEVLAKQELSLLLSVPNRLQQESDTDELAVQLRLRSMKDFNPANLVDQVPELKKLMELRDALVALKGPLGNAPAFRKAIEGVLADDTSRNRVLDELGLAASAPDV	PGPT0025915_992	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025915-impB-K11901	NA	NA
D1-35_04448	1557			hypothetical protein	ATGTCTTACTCTGAAAAACTCTCTGCCCATTATCTGGTCCTTGCCAGTTGTCCCGTTTCCAGCGAAAACTTCGCGGGGGTAGATGTGCGTTTTTCAGATGAATATGAAGTTTTGGAACGCGAGCTCGGCAAAGCCCAGTCGATGCATGAGAACGGCCAGATCGACTGGCTGAAGGTCCTTGAAAAAAGTGAAGCCCTGCTGCGTACCCAGTCAAAAGATTTGCGAGTGGCCGCCTGGCTGACCTGGGCGTTGTACCAGCGTGAGTCGTTCCAAGGGTTGCTAGCCGGCCTCGGGCTTTTGCGACACCTGTGCAAGAACCATTGGCTTGAGCTCCACCCGGTCAAGACCCGAACCCGTGCCGCCAGTTTTCATTGGTTGGTGCCTCGCCTGGAGCAGGCGTTAAGTGAAGATGTCGCGATAGGCAAGCAACTGCCGTTGTTCCGTCATCTGGCAGAACAACTTGAAGACCTTGATGCCGTCTTCACCACTCATCTCGGCAATGACGCGCCTTTGGTATTGCCGCTGTGCCGACGTCTCAAGGGCATGATCCAGCGTGTGACCAGTGGCCAGCCGCAGCCTGGATCTGTCGGGACGATGGTGGCTCAAGTAAAGCAAGCCGCTACCCAACTGCTCGCTTCCGGTGCTCCGATCGAAAACGAAAGGGATGCCCACAAGGTGTTGCGGGCTCAGCAGGAGAGCGCTCGTACGTTATGCGCCTGGTGGCTCAAGCAAAAAGTGACGGATGCGCGCGCGCTGCGCCTCAACCGCACCTTGCTCTGGTTGGGCATCGACGCGGTGCCGGAGCGCAATGCCGAACAGGTTACCCAGCTACGCAGGCTTCCGGTGGATAAGCTCAAGGCTTATCAGGACAGACGCGAGCGGGGCGAGTACGCGGACCTGCTGGTAGAGATCGAGACCAGCCTGACAAAGGCGCCGTTCTGGTTCGACGGTCAGCGGCTCGCATGGGAGTGTCTTCAAGGGTTGAATGCCGAATCGGCCATGCGCGAGGTAGAGGTCCATTTCGCATTATTCATCCATCGCCTTCCGGGCGTCGTCGAGCTGCGCTGGCACGACGGCGAGCCGTTCGCCGACCCGGCCACCCGGGCCTGGATCGCTGCGCAGGTCATGCCTCGCCTGGAACGCCCCAACACTGCGCCACGAGTCGAGACCATCGATAACCAGGCGCCTTGGGAGCTGGCCCTGGAAGAAGCCGGATCAATACTGACCGTGGACGGCCTCAAGCCTGCCGTTCAGTTTCTCAGGCAAGGGATGCAAACCGCTGAGGGTGCGCGGGCGCTTTTCCTTTGGCGATTCTCATTGGCTCGCTTGTGCTTCTCGGCCAAGAAATACGAGCTTGCCAAGGTCCAGCTCGAAGCGCTGAACCAGGCGTTGCAAGACGCGGGCTTGAATGCCTGGGAGCCCGATCTCGAGCTACAGGTCCTGCATCTGCTGCATCACTGCTGTGAGTTATTGCCCCAGAACCACCTCGTTCGCGAGCGCAAGGATGAAACCTACCGCAGGTTGTGTCATCTCGACCTGGAACGGGTCATCGAATAG	MSYSEKLSAHYLVLASCPVSSENFAGVDVRFSDEYEVLERELGKAQSMHENGQIDWLKVLEKSEALLRTQSKDLRVAAWLTWALYQRESFQGLLAGLGLLRHLCKNHWLELHPVKTRTRAASFHWLVPRLEQALSEDVAIGKQLPLFRHLAEQLEDLDAVFTTHLGNDAPLVLPLCRRLKGMIQRVTSGQPQPGSVGTMVAQVKQAATQLLASGAPIENERDAHKVLRAQQESARTLCAWWLKQKVTDARALRLNRTLLWLGIDAVPERNAEQVTQLRRLPVDKLKAYQDRRERGEYADLLVEIETSLTKAPFWFDGQRLAWECLQGLNAESAMREVEVHFALFIHRLPGVVELRWHDGEPFADPATRAWIAAQVMPRLERPNTAPRVETIDNQAPWELALEEAGSILTVDGLKPAVQFLRQGMQTAEGARALFLWRFSLARLCFSAKKYELAKVQLEALNQALQDAGLNAWEPDLELQVLHLLHHCCELLPQNHLVRERKDETYRRLCHLDLERVIE	PGPT0030430_351	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0030430-vasJ-K11910	NA	NA
D1-35_04449	2064	vgrG1_5	COG3501	Actin cross-linking toxin VgrG1	ATGCCCACTCATCACGCGTTTCCAACGTTTCACCTTGATATCGAGGACTTCGGGCGTGATCTTCAGGTACTGAAATTCGAAGGTCGCGAAGCAATCAGTACCCCTTATCTGTTCGATATAGAACTGGTCAGCGAACGAAAGAATCTGGACCTCGAGAAACTCTTGCACAAGCAGGCGTTTCTTGGGTTTAACGCAAAGGACTGTGGCGTCCATGGACAGATCCACCGTGTAACTCAACGCGACTCCGCAAAACGCCTGGCTCATTACAACGTGCAACTGACGCCCAGGCTGGCTTATTTGCAGTACCGCACCAATCAACGCATCTTTCAGCAAATCACTGTTCCCGAGATCATTTCTTCAATTCTCAAGGAATATGGAATACTGGCTGACGCCTATAGCTTCCGACTGGGTACGAGCTATTCACCGCGTGACTACTGTGTCCAGTACCACGAATCGGACTTGGCTTTCATCGCGCGCCTGTGTCAGGAAGAAGGCCTGCACTACCATTTCCAGCATAGTAAGTCGGGCCATCACCTGGTGTTTGGCGATGACCAGACCGTATTCCAGAGGCTTGATCGTCCCACGGCTTATAAACAAGGCAACGGCCTGCTGGGCGAGGAGCCGGTTGTACAACGTTTCGATGTGCGGCTGGAAACCCGGGCCAGCAGGGTTACTCGTCGTGATTATGATTTTGAGAAATCAACGTTCACCCTCGAACAGGACTACCAGCCAGCGATCAACAAAATCCGACCGGACCTGGAGGCTTATGACTACCCCGGGGGTTTCATCCAACAGGAGCATGGGAAGCGATTGACCCGGCGGGCCTTTGAAAGCCATCGCGCCGACTATCGCAGGGCCGAGGGTACAAGTGATCAGCCAGAATTGGTGTCCGGCCATTTCCTGATGTTAAGTGAGCACCCGCGCCCGGAGTTGAACGACTTGTGGCTGTTGACCGAGTTGCATCATGAAGGCAGCCAGTCGCAAGTGCTGGAGGAAGGCCTGGACGACGACATCGGACGCCCTGAGAGCGAAGGCTACCGGAACAGCTTTGTCGCCACGCCGTGGGATTCGATTTTTCGCTCACCACGGGCTCATGAAAAACCGCGAATGTCCGGAAGCCAGACGGCTATCGTTACCGGTCCGCAAGGCGAAGAAATCCATTGCGACGCGTACGGCCGGGTCAAGGTCAGGTTCTTCTGGGATCGCGCCGGCGATACCAGTGAAAACAGCAGCTGCTGGCTGCGGGTGGCGTCCAATTGGGCCGGGAACGGCTTCGGCGCAGTCACCATCCCCAGGGTAGGCATGGAAGTACTGGTGACCTTCCTGGAAGGCGATCCAGACAAACCTCTGATCAGCGGTTGCCTGGTCAACAGCAGCAACGCCGCGCCCTATCAGTTGCCCGCACAAAAGACCCGAACGGTGTTTCGTTCCCGCAGCTCACCGGGTGGCCGAGGTTTCAATGAGCTACAGCTGGAAGACCGCGCGGGGCAGGAGCTGATTTACCTCCGAGCCCAGCGCGACATGGAGCAGAAGATCGAGCATGACAGCCGACTGGAGATCGGCAATGAACGTCGAGAAAACATCAAGGGCAACAGCACCACGGTGCTGCAAGCCAGTGAACACCGGACCATCGCTGCCGATCGCACGGTCCAGGTAAAAGCCAACGACTACCTGCACGTTGCCAATCGCCATACCCACGCGGACCAGGCGCTGGTCGTCGAGGCCGGCCAGCAGGTGCATATAAAAGCCGGTGCTCATCTGGTCCTGGAAGCGGGAGCGACGCTCAGCCTGAGTGCCGGAGGCGAGCATATCGTGATCGGCCATGGCGGCATTTTCAGCAGTAGCGCAATCCAATTGGGTGGCGCCCCGCTTCCCGGTGCACGTGCCGCAGCATTCGATCCAGGGTCGATCGACCCGTTGGCTACGCTGCTCAACCTGCCGCCCACGCTTGCGCCCACCCAACGCGCCCTGATGACAACCAGCAAGGTCGCCGGAGCGGATTTCTGCCCCCTTTGCGAAGCCTGCCGCGAGGGCGCATGCCCGATGGAGCCCATAGCCGCATGA	MPTHHAFPTFHLDIEDFGRDLQVLKFEGREAISTPYLFDIELVSERKNLDLEKLLHKQAFLGFNAKDCGVHGQIHRVTQRDSAKRLAHYNVQLTPRLAYLQYRTNQRIFQQITVPEIISSILKEYGILADAYSFRLGTSYSPRDYCVQYHESDLAFIARLCQEEGLHYHFQHSKSGHHLVFGDDQTVFQRLDRPTAYKQGNGLLGEEPVVQRFDVRLETRASRVTRRDYDFEKSTFTLEQDYQPAINKIRPDLEAYDYPGGFIQQEHGKRLTRRAFESHRADYRRAEGTSDQPELVSGHFLMLSEHPRPELNDLWLLTELHHEGSQSQVLEEGLDDDIGRPESEGYRNSFVATPWDSIFRSPRAHEKPRMSGSQTAIVTGPQGEEIHCDAYGRVKVRFFWDRAGDTSENSSCWLRVASNWAGNGFGAVTIPRVGMEVLVTFLEGDPDKPLISGCLVNSSNAAPYQLPAQKTRTVFRSRSSPGGRGFNELQLEDRAGQELIYLRAQRDMEQKIEHDSRLEIGNERRENIKGNSTTVLQASEHRTIAADRTVQVKANDYLHVANRHTHADQALVVEAGQQVHIKAGAHLVLEAGATLSLSAGGEHIVIGHGGIFSSSAIQLGGAPLPGARAAAFDPGSIDPLATLLNLPPTLAPTQRALMTTSKVAGADFCPLCEACREGACPMEPIAA	PGPT0030410_3173	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
D1-35_04450	852			hypothetical protein	ATGAACGATACCCAACCTCGGCAGTGGCTGCTTGAACACCTCCGCCTCGGCCATGCCCTGTGTGTGATCCTGGATGCGGACGGCGAACAACCGATGCTCCAGGCCCTGATCAAGAACAGTCGACCCGATCAATATCTGAGCGTCTACAGCAAAACCCTGATTGCCGATCTCAGCGAGGTCGGGCCGTTTGTCTTCACCTTCGATAACCCCAACGATAAAAATCTCCAGGAGTTGCTCAATCGACCGGACAGTCATTGGGGTTGGCTCGCCAGCCTCCCCAAGGGCCACCTCCCCCAGTTAGTCGGGCACTGGCGCGAACGATTGATTGTTGGGGAGCGTCCTCATCAAGCGGTGTATCGCTTCCACGACAACCGGGTATTGGCCCGGGCGCTTGCGTATCTGCCAGTCGAAGCGCATGCCGCCTATCTCGGTCCGGCCAATAGCGTGTGCTATTGGCAAGGTGACCGCTGGGAACACATCGACAATCCCTCCCCCGGGACACATCCGGTGCCAGAGGTGCTGCTTTGGTTGCAAGTCCCCATACCCGAACAGCAAGCACGAGCAACGCGCCGGATCAATGCCCGACGCTTTTTATTGGCCGAGCACCTGGACGCCTACGCGAAGCTCGCCGAACACGAGGACCCGGACGCCTGGTTGCATGCCACCCTCGACCAGGCCGAAGCATGGAACTGGTTGGCGCCCGAACAACTGGCTTTTTTCCTGGCCCAGCGCCTGAAAACGCCAACACGGACGCCGACGCAGTGGCAAGCACGCCAAGGCGAGAGCCCTGAGGAGCATTTTGAACGGGTGCGGTTGATGGTGGACTTCTGGCAAGGAGAAGCATCGCCATGA	MNDTQPRQWLLEHLRLGHALCVILDADGEQPMLQALIKNSRPDQYLSVYSKTLIADLSEVGPFVFTFDNPNDKNLQELLNRPDSHWGWLASLPKGHLPQLVGHWRERLIVGERPHQAVYRFHDNRVLARALAYLPVEAHAAYLGPANSVCYWQGDRWEHIDNPSPGTHPVPEVLLWLQVPIPEQQARATRRINARRFLLAEHLDAYAKLAEHEDPDAWLHATLDQAEAWNWLAPEQLAFFLAQRLKTPTRTPTQWQARQGESPEEHFERVRLMVDFWQGEASP				NA	NA	NA	NA	NA
D1-35_04451	762			hypothetical protein	ATGACACGGGTCTTACGGGGCACATGCCTGGGCTGCTGCATGGCAATCACTGCGGGATGTGCCGACAGACAACCAGACACATTTACTTTTACGGGTGATTTGCCGCCTGGCTTTGCCTATGAGGCGGCGGTGTATTACGTCCCCGCTCCTGGGGAAACCTGCACCGTCGAGAAAAAATACAACAAGGCACCGGTGTTCAAGAGCAAGGACAAACCCATTGCCGAAATTCTTATCCGTAGAACTCGCAGCGGCTGTCCGCTGGTGATCAGTCGTATCGAGCTTGGAATTAGCTCTATCTACGGCCCGCATTGGCTCGATTCCAGTCGAGATACTGCCAACGTGGTTATACGTGATGAGCTGGAGGAGCAATACAAGGGCACCTTCAGCAAGACGGGGGAGAGCATCTTCCACGGCCAATGCCAGTGGCTGTTCCGCACCTCGGGGGCCAAACGACGCATCGTAAAAATCCTCGATTGCAAAAAAACCAACCCAAAGGGCGACGTTGGAAACGGTCGGCCTTTTTCGGCGTTCACGCTTGATCAACTGCCGGGGAAAACGGTGAGGATGAAGATCAAGATGGCAGACGAGGAAAGACCTTACATGAAGGACACATGGGTCAAGTTCGCCAATGGCTGGAAACGCTGCATGGGAGACAATTTCGAAGATCGATACGCTTTTTGTCTCGGCAATTACAAGGATTTCAGTGGATTTCATATGCCGGACGGCGAGCCATGCACCATTTACCCAAGTTGTACCGAATAA	MTRVLRGTCLGCCMAITAGCADRQPDTFTFTGDLPPGFAYEAAVYYVPAPGETCTVEKKYNKAPVFKSKDKPIAEILIRRTRSGCPLVISRIELGISSIYGPHWLDSSRDTANVVIRDELEEQYKGTFSKTGESIFHGQCQWLFRTSGAKRRIVKILDCKKTNPKGDVGNGRPFSAFTLDQLPGKTVRMKIKMADEERPYMKDTWVKFANGWKRCMGDNFEDRYAFCLGNYKDFSGFHMPDGEPCTIYPSCTE				NA	NA	NA	NA	NA
D1-35_04452	2184			hypothetical protein	ATGATGTTGTCGAAAACGGCTTCGGAGTCACGCCTTAGGAGTCGCATGCTCGACTGCCCTGCGGGCGGTAAATGGACCAGCTTTCAATTGGTGGATGAATTGGGTTCTGGCGAGCCTTACGCATGGCTGGCCTATGTTGTCACCGACTCGGAAGGGCAAACGTACCGCGGCGATCTCGATGCCACGGGAAGGGGCAAGGTCAGCAATCATTTCGCCGGGCCGATCGCCTTGACCTTGGATCAGGAATATCAGGGCCAGGAACGGTTATACATAGAGCTCCAGAGCAGAGATAGCTACCCGCTCAAAATCACCGAACTCCAAGTTCGCGCCGAACAAACCCCCTACCTGAACGACAACGCCACCAGCACCCGAGAGAACCCCGCCCAAGCCTGCGCCGGTCAGTTCTTCCAGGTGGAGGTGCGCGACCTAGTCAAGCATGTCGCCCATCTGCCGCCGCGGGTGTACCGACATTACCCAACCAACCAGGGGCCGGCACGGCTCATGGGAAAGTTTGGCGAGACTGGCGTAGCGTTGATGCCTCAACTGCATACCGTGTTGGAAGTGCGCCCGCTGCGGGCCTTGCGGCCCATGCTGTCCATCACTCCGCAATTCTGCGCGCTCAACCTGTACCAGTTGGCGCTCATGGCGACCTTGAGTTACTGCCCCTTCGGCCAGAAGCCCGGCGAGGCTCCAATACACTTATCGGTGAGTTTCCCCAAGCAACCGAGCGTGGGCAACTGGTTCGGCGTTGCCTTGGCCAAGTCCGAGGAGCTTTGGAAGGTTGACCCGGGACAGGTAAAACACCATTACCCCTTGTATGAGGATGTGCCCTACTCCAAGCGACTGGAAATCGTCCCGTTCGACCCTGCTCTGTACCCTATGAACAATCCGGAACTGGGTGTGAAGCAGGAGCATCCCGCCAAGGTCCATTTTCTCGATGACACTGCAAAAGAAGAAAGCACCGATACCCAAGCTTTCATCACTCACAACGACGAAATAATTCTGATCGCAGTGCGCGGCACAGCGCAGATGCTTGCCGATGGCCTGCGTGACGCCGACGCGCTCCAGGTTCCCTTTGAGGAAGGTGGCGGTAAGGTGCACCAGGGGTTTTACGGAGCAGCCAAAAAAGCTGCTGCCTTCGTAATTGATTACCTGGAAAGGTTTCATGCCGGTCAGAAACTGCTGATCTGTGGCCATAGCCTGGGCGGCGCCGTGGCATTGCTGCTCGCAGAAATGCTACGTCTGAGGGAAGGATTCAGCTACGACATCCAACTCTACACCTACGGTGCCCCTCGCGCCGCCGACGCCGTCTTCGTCGAAAATGCCGCCCCCCTGGTGCATTACCGCATGGTCAATCACAACGACCCGATACCCAGCGTACCGGGCAGTTGGATGGACACCAAGGCGAGTGTCTATGGCACGGGTTTCGCGCTGATGTTCGCCAACGTGCCGGCCGGCTTCTCAGTGTTCGTGGCTGGCATCTACAACTGGACGGGGGAGTCCTATGAACACCACGGCACCTTGCGCCATTTCCTGCCCGTGGAGTTCGGTCGTCAGGAGCGGTCGACGATCCTCTGGACGCCAGGCTGCGACACCCTCACGCAACATGCCGCTTGCGAGCTGGCCTTGGAGCAGAGACGTGGCCTGCCGGACCGGGCGAAGTTCACCGCCCAGCTCTTTCAGGCCGGTAACCACCTCATGACCTCCAGCTATCTTCCTGCGTGCTGGGCAACCCTGCGCCGCTGGCAGGAGGCTTTGGAGTCGAAGAGCCCTCTGGTGACACAGCGTGAGTACGAATGCATCGAAAATGCGCTGGAACAGATCACTCGGCAGTTGCGTAACGAAAGCAGACAGTTGATCGGGCGTCCAGATGGCTACGAGCGCACCCACCAACCGATCATTGATGCCCTCGCCCGTGAGGTTGACAAGGTGCACGCCACACGTGCTCGCCTGAGAGGGCTGCACACGACGTTGGTCAGCGACCAAGACGTTTACGGCAGCCTGTCCAAATACCCTGAGCAACTGGCGCAACACCTGACCCGCTGGCAGGCCCATCCGGAAAATCGCGTGGCTGAACAACTGGCCATGGCGCCTGCGGCCGGCACCGATATCGAGCTGGTCCATGGTGCTCATGGGTACGTCATCGGTAAGCCTTATACGCTGGATATCGATGCGATCATTTGA	MMLSKTASESRLRSRMLDCPAGGKWTSFQLVDELGSGEPYAWLAYVVTDSEGQTYRGDLDATGRGKVSNHFAGPIALTLDQEYQGQERLYIELQSRDSYPLKITELQVRAEQTPYLNDNATSTRENPAQACAGQFFQVEVRDLVKHVAHLPPRVYRHYPTNQGPARLMGKFGETGVALMPQLHTVLEVRPLRALRPMLSITPQFCALNLYQLALMATLSYCPFGQKPGEAPIHLSVSFPKQPSVGNWFGVALAKSEELWKVDPGQVKHHYPLYEDVPYSKRLEIVPFDPALYPMNNPELGVKQEHPAKVHFLDDTAKEESTDTQAFITHNDEIILIAVRGTAQMLADGLRDADALQVPFEEGGGKVHQGFYGAAKKAAAFVIDYLERFHAGQKLLICGHSLGGAVALLLAEMLRLREGFSYDIQLYTYGAPRAADAVFVENAAPLVHYRMVNHNDPIPSVPGSWMDTKASVYGTGFALMFANVPAGFSVFVAGIYNWTGESYEHHGTLRHFLPVEFGRQERSTILWTPGCDTLTQHAACELALEQRRGLPDRAKFTAQLFQAGNHLMTSSYLPACWATLRRWQEALESKSPLVTQREYECIENALEQITRQLRNESRQLIGRPDGYERTHQPIIDALAREVDKVHATRARLRGLHTTLVSDQDVYGSLSKYPEQLAQHLTRWQAHPENRVAEQLAMAPAAGTDIELVHGAHGYVIGKPYTLDIDAII				NA	NA	NA	NA	NA
D1-35_04453	4407	rhsA	COG3209	putative deoxyribonuclease RhsA	ATGTCTGATGCGCTCTGGGCCGCCCGCCTGGGCGACGCGCTGGACCACACCTCAATGATGGCCGACATACTTGGCGGCGTACTGGAGGTGGCGGCGAACATTGCGATCACCGCCCTGGCGACCGCCGCGGTGGTCGCGGCCACGGGCATTACCGTGGTTACCGGCGGGCTGGGTTGCTTCGTGCTCGGTCTGGTGGTGGGCACCGTGGTTGGCCTGGCGATGAGCAAGACCGGAGCCGACAAGGGCCTGAGCAATATATGCGAGGGCATCGGCAACGCCCTTTTCCCGCCCACGGTGCAGGCCAACATCCTCACCGGCTCCGACGATACCTTCACTAACAACATTCGCGCGGCCCGTGCGGCCGGGGCAATCGAGTCTCACGTTGCCGCCGCCGGTACGGAGCTCGAAGCCCCTGAGCCTGAAGAAGAGCCCAGCTACCTGGACATGGCCGGGGCTTTCTTTTCGCAGATGTGGCGCCCCACGGTCGCCACGCCCGCGCCGGGCGCGGTGCCCAAGCCGGAAGACCTGGTGCTGTGTACCAAGCACCCGCCAATGCCACCGCAGTTCATGGCCGAGGGCTCGGACAAGGTCACCATCAACGGCCAGCCCGCCGTGCGCAGCGGCGACCGTAGTACTTGCGATGCCAAGGTCGTGTCGTCCGGGCTGATTTCGCCCAACGTCACCATTGGTGGTGGCTCGGTGGTGGTGCGCGAGATCCGCAGCGGCAAGACGCCGGGCGTGGGGCTGGCGGTCACGGCACTGCTGATGCTCAAGGGCGGCAAGGGCAAGTTCTTCAGCAAGTTGCCCTGCATGCTGGTGGGCGGCGCGGTGTCCATGGCCGCGAGCAGCGCGGCCAATGCCGCGGCCAACGCCGCCATGGGCTCGTCGAACCCGGTGCATGCTGCCACGGGGGCCAAGGTGCTGGGCGGCGATGCAGAACTGGACTTCGTGTTGCCTGGCATCCTGCCGATTGACTGGCAGCGTTTCTACAACAGCCGTGACGAACGCCGCGACGGATTGTTCGGCGCCGGCTGGAGCGTTTCCTACGAGGTTCAGGTCGACATCCTGCCCCACCCCGACGGCGGCGAGACCCTGCTGTATACCGACGAACAGGCCCGCCCCATCGACATGGGTTCGATCCCGTTGGGCGGCGCGGTGTTCAGCCCCGGCGACGGCCTCGCAGTGCGGCGCCATGTGAGCGGACAACTGCTGATCGAAAGCGACGACGGCTTGTACCGTTTGTTCGAACCGACGCCTGGAAACTCATCGCGGCTGCGCTTGAGCCAGTTGGGTGACCGCAACGACAATCGCATCCATCTCGACTATGACGAAGCTGGCCGCCTGGTGCGGCTGCGCGATACGTTTGATTTGCTCCAGGTCGAGCTGACTCGTGAAAACGAACGCGTCAGTCGGATCGAACGCCTCTACCCCGACCAGCAGCGCGAAGTGCTGGTCAGCTACGCCTACGATGCGGCGGGCAATCTCACCGCAGTGCGCGACGCTGGCGGCCAGGTGCAGCGGCGGTTCAGCTACGACGCCGGGCAGCGGATGGTCGAACATCAACTGCCTGCCGGCCTGCGCTGCTTCTACGAATGGGCCTTGATCGAAAACCAGGAGTGGCGCGTGGTCCGCCACTGGACTGACGAAGGCGACGCCTACCAGTTCGACTACGACCTCACGGCCGGCATAACGCGTATCACCGACAGCCTGCAACGCATCAGCATCCGGCATTGGAACAGCCAGCACCAGATCACCCGGTTCGCCGACAATCTCGGCCAGACCTGGTCGTTCGAGTGGAACGACGAACGCCAGTTGCTCAGCGCCACCGACCCGCAAGGCGGCCAGTACCATTTCAGTTACGACGAGGCCGGCAACCTGATCGGCGAAACCGACCCACTGGGCCGCAGCGAGTCTACCCTCTGGCTCGAGCATTGGGCGCTGCCACTGGTGGAAACCGATGCCGCCGGCAACAGCTGGAAATACCGCTACGATCAGCGCGGCAACTGTGTCGCCGAAACCGACCCGCTGGGCCAGGTCACCCGCTACCGTTACGACACCCACGGCCAGGTGGTGGAAATCATCGACGCCACCGGCAAGAGCAAGAAGCTGCGCTGGAACCCGTTCGGGCAACTGGTGGAACACATCGACTGCTCGGGCTACCCGACGCGTTTCAGTTATGACCCGCGCGGCTATCTGCAGACCCTCACCGACGCCCTCGGCGAGCGCACCCGATTCAGTTACGACGCCCAAGGGCGCCTGCTCGGCAGCCAGTTGCCGGATGGTCGCACCGAGCACTACCAGCGCGACAGCGCCGGCCAGCTCACCGGCCACACCGACCCGGCCGGGCACACCACGCATTACCAGCACAACCGCCGCGGCCAGGTGCGCCAACGCATCGACGCCCAGGGCCGGCAGGTGCAGTTTGCCTACGACAGCTTCGGCCGGCTGCAAGCGCTGATCAACGAGAACGGCGAAAGCTATCGGTTCGCCTGGGATGCCGCGGATCGGCTGGTCGAACAGCAGGACCTGGATGGCAGCGCCAAGCGCTACGCTTATGACCGGCTGGACAACGTTGCGCGGGTGACGGCTGTTCCGGCGGCTCACGGCAGCGGCCTGGCGCAGGTTCCCGAAACATCACCGGCGCCTGTCGTCCACCGTCTGGAACGCGACGCCGCGGGCCGGTTGATCGCCAAAGTCACCGATGATGGCCGCACCGAATATACCTATGATCCGCTGGACCAGCTCACCGCCGTTACCTTCACTGACCTGCAAGGCGCCGCGCAGTCCCTGAGTTTCGCCTACGATGCCCTCGGCCAGCTGCTCGCCGAAAACAGCGCCGCCGGCAGCCTCCGGCACCACTACGATGAACTCGGCAACCTGATCCAGAGCCAACTGCCCGATGGCCGCTGGGTCAATCGGCTGTACTACGGCAGCGGTCACCTGCACCAGATCAACCTCGACGGCCAGGTCATCAGCGATTTCGAACGCGATCGCCTGCATCGCGAGGTGCTGCGCACCCAAGGGCAAATCAGCACCCGCAGCGAATACGACCGCAGCGGCCGCCTGCGCGCCCGTCAACGTCGTCACAGCAGTCAGCCCGCGCTGCTGCCGGCGGCGGTGCAGAAACACTTTGAATACGACCCCGCCGACAACCTGATTGGCAAGCTCGACCAGCAACCCGCCACTCAGCAGCGCCAGTTGCTGCACTACGACGCCACCGGTCGCATCATCGCCAGCCAGGACAGCCTGCACGGCCAGCGCGAGACCTTTGCCTACGACGCCGCCGCCAACCTGCTGGACGGCCCGGCGCCCGGCGCCGGACTGGTGGTGCACAACAAGCTGCTGACCTATCAGGACAAGCGCTACCGCTACGACGCTTTCGGCCGGCTGATCGAGAAACGCAGCGCCACCCGCGGCCTGCAACGCTTCGCCTACGATGCCGAAAGCCGTTTGATCGAAGTGCGCAACGACAACGGCAGCGTAGTCAGGATGACTTACGACCCGCTGGGCCGGCGCATCGAAAAAGCCGAGCACGACAGCCACGGCTACCCGCTGGGCGAAACCCGCTTCACCTGGGACGGGCTGCGCCTGCTGCAGGAACATCGCCACCAGCAAACCAGCCTCTATCTTTACGAAGACGACGGCTACGAACCGCTGGCCCGCGTCGACGGCAGCGCCCCGCTGCAAAAGATCCGCTACTACCACAACGACCTCAACGGCTTGCCGGAGCAACTTACCGAAGCCGATGGGCACTCCGTCTGGCAGGCCACGTATCGGGTGTGGGGCAACACGCTTGAGGAGGTTCGCGAACCGTATTACATCGAAGAGCAGAACCTGCGGTTCCAGGGGCAGTACCTGGACCGGGAAACCGGGCTGCATTTCAATACGTTCAGGTTTTATGATCCGGATATAGGGCGGTTTACCACGCCGGATCCGATCGGGTGGCTGGGAGGATTGAACCTCTACCAATATGCACCAAACCCCCTGACCTGGATCGATCCATGGGGATGGGCTTGCCGAAGCGCAGTCAGTGGCAATAAAGGCCGAACCAAGGCGATCAACGATCTCAAACGCAACAAGTTCAAGATCGTCGCGGAGGAAGTCACCATGAAGGTCAACGGTAAACGTATTCGCGCCGACTTTGTCGCCAGAGACCAACGTGGAAAACTGCACGTATTTGAAGTCAAGCACGGCACCGGGAAACTGACCCCCAACCAGACCGATTCAAAAGCCTTTGACATGACCAAGCCGGCCAACACTACGCAACATCTGGGTGGGGGCACGATCAAACCGTCCGCCGGCACGAAGGGATCGTTCAAGGTTGATACCAAAGGCAAGCCTGGCGTACCGCTAGGCGGCAAAGGCGCACAGCACAATGCCACCTTCAATCTTTTAATTTACAAGTGA	MSDALWAARLGDALDHTSMMADILGGVLEVAANIAITALATAAVVAATGITVVTGGLGCFVLGLVVGTVVGLAMSKTGADKGLSNICEGIGNALFPPTVQANILTGSDDTFTNNIRAARAAGAIESHVAAAGTELEAPEPEEEPSYLDMAGAFFSQMWRPTVATPAPGAVPKPEDLVLCTKHPPMPPQFMAEGSDKVTINGQPAVRSGDRSTCDAKVVSSGLISPNVTIGGGSVVVREIRSGKTPGVGLAVTALLMLKGGKGKFFSKLPCMLVGGAVSMAASSAANAAANAAMGSSNPVHAATGAKVLGGDAELDFVLPGILPIDWQRFYNSRDERRDGLFGAGWSVSYEVQVDILPHPDGGETLLYTDEQARPIDMGSIPLGGAVFSPGDGLAVRRHVSGQLLIESDDGLYRLFEPTPGNSSRLRLSQLGDRNDNRIHLDYDEAGRLVRLRDTFDLLQVELTRENERVSRIERLYPDQQREVLVSYAYDAAGNLTAVRDAGGQVQRRFSYDAGQRMVEHQLPAGLRCFYEWALIENQEWRVVRHWTDEGDAYQFDYDLTAGITRITDSLQRISIRHWNSQHQITRFADNLGQTWSFEWNDERQLLSATDPQGGQYHFSYDEAGNLIGETDPLGRSESTLWLEHWALPLVETDAAGNSWKYRYDQRGNCVAETDPLGQVTRYRYDTHGQVVEIIDATGKSKKLRWNPFGQLVEHIDCSGYPTRFSYDPRGYLQTLTDALGERTRFSYDAQGRLLGSQLPDGRTEHYQRDSAGQLTGHTDPAGHTTHYQHNRRGQVRQRIDAQGRQVQFAYDSFGRLQALINENGESYRFAWDAADRLVEQQDLDGSAKRYAYDRLDNVARVTAVPAAHGSGLAQVPETSPAPVVHRLERDAAGRLIAKVTDDGRTEYTYDPLDQLTAVTFTDLQGAAQSLSFAYDALGQLLAENSAAGSLRHHYDELGNLIQSQLPDGRWVNRLYYGSGHLHQINLDGQVISDFERDRLHREVLRTQGQISTRSEYDRSGRLRARQRRHSSQPALLPAAVQKHFEYDPADNLIGKLDQQPATQQRQLLHYDATGRIIASQDSLHGQRETFAYDAAANLLDGPAPGAGLVVHNKLLTYQDKRYRYDAFGRLIEKRSATRGLQRFAYDAESRLIEVRNDNGSVVRMTYDPLGRRIEKAEHDSHGYPLGETRFTWDGLRLLQEHRHQQTSLYLYEDDGYEPLARVDGSAPLQKIRYYHNDLNGLPEQLTEADGHSVWQATYRVWGNTLEEVREPYYIEEQNLRFQGQYLDRETGLHFNTFRFYDPDIGRFTTPDPIGWLGGLNLYQYAPNPLTWIDPWGWACRSAVSGNKGRTKAINDLKRNKFKIVAEEVTMKVNGKRIRADFVARDQRGKLHVFEVKHGTGKLTPNQTDSKAFDMTKPANTTQHLGGGTIKPSAGTKGSFKVDTKGKPGVPLGGKGAQHNATFNLLIYK				NA	NA	NA	NA	NA
D1-35_04454	618			hypothetical protein	ATGAGCCAAGAAATTCGCAAAAATGTGGAAGTGGAGTTACTGGCGACGCTGAAAAACAAAACGTCACCACACCTGGATCTGAAGGCCAGCAAAAATAAAATTGGTCTGTTCAAAGCCAAAGAAAAGCTTGGGGAAATCTACATTCAGCACCTGACCAAAGCCGATGGTTATTACGCTGGGTTGGAGATCCATGCATGCGAGGCTTTCAGCTTCTGCAAAGAGCAATCGCCGCCCTACCAGAGTCGGTTGTTGAACGCGTCATTTTTGTCGAAGAGTTCCTTGTCGGAAGAGACGAAACAATTCGGTGACGAACTGGGAGGCATCATCAGAACCCCGTCTCCCCAGGCCCTCAGCGCAACCGTCAACAAAATAAGCGAACGGCTCGAAAAGTTTTACCTGTCCAAGGCAGAGCACTGCATTCTCGGCATGCCTGCATTGATTGATGATGTATTGGCCGAGCCTGACAACTACGCATTCCCGTTCCTGACGATTCTCTTTGCAGCGCAAAAAAACGGTCTGGGTCTGGATTCAGATGTGCTCAAGAAAGCTCTGGCGACCAAATCAATATTCGGAAACAAGCAGTTCGACCTGGCGCTTGCGAACAAACTGCTGGGCTAG	MSQEIRKNVEVELLATLKNKTSPHLDLKASKNKIGLFKAKEKLGEIYIQHLTKADGYYAGLEIHACEAFSFCKEQSPPYQSRLLNASFLSKSSLSEETKQFGDELGGIIRTPSPQALSATVNKISERLEKFYLSKAEHCILGMPALIDDVLAEPDNYAFPFLTILFAAQKNGLGLDSDVLKKALATKSIFGNKQFDLALANKLLG				NA	NA	NA	NA	NA
D1-35_04455	276	hupB_2	COG0776	DNA-binding protein HU-beta	ATGCGTAAACCAGAACTCGCCGCCGCCATTGCGGAAAAAGCGGACCTCACCAAAGAACAAGCCAACCGCGTCCTCAACGCTGTTCTCGAAGAAATCACCAGCGCCCTGCATCGCAAGGACAGCGTTACTCTGGTCGGCTTCGGCACCTTCCTGCAACGCCACCGCGGCGCCCGCACCGGCAAGAACCCACAAACCGGCGAGCCGGTAAAAATCAAGGCCAGCAACACGGTTGCGTTCAAGCCAGGCAAATTCCTGAAGGACAGCGTTAACCCATAA	MRKPELAAAIAEKADLTKEQANRVLNAVLEEITSALHRKDSVTLVGFGTFLQRHRGARTGKNPQTGEPVKIKASNTVAFKPGKFLKDSVNP				NA	NA	NA	NA	NA
D1-35_04456	1149	alkT	COG1251	Rubredoxin-NAD(+) reductase	ATGAGCGCACCTGTCGTCATCGTCGGTACCGGCCTGGCTGGCTATAACCTGGCCCGGGAATTTCGCAAGCTCGACAGCGAAACCCCGTTGCTGCTGATTACCGCGGACGACGGCCGCTCCTACTCCAAGCCGATGCTCTCCACGGGGTTCGGCAAGAACAAGGACGCCGATGGCTTGAGCATGTCCGAGCCGGGCGCCATGGCCGAGCAGTTGAAGGCCGAAGTGCGCACCCACACGCGCATCAGCGGCATCGACCCGGGCCACAAACGCCTGTGGATTGGCGAGGAAGCGGTAAGTTATCGCGATCTGGTCCTGGCCTGGGGCGCTGAAACCGTGCGCGTGCCGGTGCAGGGCGATGCGGCGGACCTGATCTTCCCGATCAACGATCTCGAAGACTACGCACGTTTTCGGGCCGCCGCCGCTGGCAAGCGCCGGGTGCTGCTGCTCGGTGCCGGCCTGATCGGCTGCGAATTCGCCAACGACCTGGTCCTCGGCGGCTACGAAGTGGAACTGGTGGCCCCCTGCGAGCAAGTCATGCCGACGCTGCTGCATCCGGCCGCTGCCGCAGCCGTCCAGGCCGGGCTGGAAAGCCTCGGCGCACATTTCCACTTGGGGCCGGTGCTCAACCGTCTGCAACGTGTGGCCGACGGATTGGAGGCGCATCTGTCGGATGGCCAGGTGATTCCCTGCGATCTGGTGGTCTCGGCCATCGGCCTGCGCCCACGCATCGACCTGGCGGCTGCCGCCGGGCTGGTGGTCAATCGCGGCGTGGTGGTTGATCGTCAGCTGAAAACTTCCCACGCCAATATCTACGCTTTAGGCGATTGTGCCGAAGTCGATGGCTTGAACCTGCTCTACGTCATGCCGCTGATGAGCTGCGCCCGCGCCCTGGCCCAGACCCTGGCTGGCAACCCGACCGCTGTCAGCTACGGTGCCATGCCGATCACTGTGAAGACCCCGGTCTGCCCGCTGGTGGTATCGCCGCCACCACGGGGCAGCGAAGGCGCGTGGAGCGTCGAAGGGGAGGGCGCCGACATCAAGGCCCTGTGCCGCGACGCCCATGGCAATCTGTTGGGCTACGCCCTGACCGGTACGGCGGTGATGGAGAAACTGGCGCTGAACAAGCAGCTTCCGGCACTACTGGCGTAA	MSAPVVIVGTGLAGYNLAREFRKLDSETPLLLITADDGRSYSKPMLSTGFGKNKDADGLSMSEPGAMAEQLKAEVRTHTRISGIDPGHKRLWIGEEAVSYRDLVLAWGAETVRVPVQGDAADLIFPINDLEDYARFRAAAAGKRRVLLLGAGLIGCEFANDLVLGGYEVELVAPCEQVMPTLLHPAAAAAVQAGLESLGAHFHLGPVLNRLQRVADGLEAHLSDGQVIPCDLVVSAIGLRPRIDLAAAAGLVVNRGVVVDRQLKTSHANIYALGDCAEVDGLNLLYVMPLMSCARALAQTLAGNPTAVSYGAMPITVKTPVCPLVVSPPPRGSEGAWSVEGEGADIKALCRDAHGNLLGYALTGTAVMEKLALNKQLPALLA	PGPT0021900_344	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021900-rubB|alkT-K05297	NA	NA
D1-35_04457	168	rubA1	COG1773	Rubredoxin-1	ATGAAAAAGTGGCAATGTATCGTCTGTGGCCTGATCTACAACGAAGCTGACGGCTGGCCCGACGATGGCATCGCGCCCGGCACCCGCTGGGAAGATGTGCCGGCGGACTGGCTGTGCCCGGACTGCGGCGTCGGCAAAATGGATTTCGAAATGATCGAAATCAACTGA	MKKWQCIVCGLIYNEADGWPDDGIAPGTRWEDVPADWLCPDCGVGKMDFEMIEIN	PGPT0021900_23	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021900-rubB|alkT-K05297	NA	NA
D1-35_04458	723	ubiC		Chorismate pyruvate-lyase	ATGTCAGGCCTTGGCCGGTATTTTCCGGCTCAGGGCCGTTTTGTACTGATCGGTCGCGACAGATGCAAGCGGGATCGGCGCAGCGGCGCCCTGGCTCGGCCAAAATCGCCGACCGGCATGGTAAGCTCGCGGCCTCATTCGCTGCCATTCAAGACCCTTGTGCCGCCTACAAATTCGATATTTCCTACACTTCGATGGCTTCCCCAGCACCTGCTGTCGCCCCGTCCCGATGCCTGCGTGCTCGACTGGTTGTTCGACCAGGGCTCCCTGACCCGGCGCCTTACAGGCCTGTCGGATGACCACTTCAGCGTGACACCGCTGCTGGAGGGCTGGCAGCCGTTGCGCGCCGACGAGTGTGCCGCGCTGGACCTGGCCGAGGGCAGCGAAGGCTGGGTGCGCGAAGTCTACCTGCGCGGCCATGATCAACCATGGGTGTTCGCCCGCAGCGTGGCGGCACGCAGCGCGTTGCAGGGCGACGGTTTGCAGATGGACGCACTGGGCAGCCGCTCCTTGGGCGAGCTGCTTTTTTGTGACCAGGCATTCCAGCGCCGGGCGATCGAGGTGTGCCATTACCCGAGCGAATGGTTGCCACCCGAGGTTCGCGCCCACGCGTTGTGGGGCCGTCGCTCGCGTTTCGATCGCGGTGCGTTGAGCGTGCTGGTGGCGGAGATTTTCCTGCCGCCGCTGTGGACCGTCGCTCGCGCCTATTCGGAGAATTGCTGA	MSGLGRYFPAQGRFVLIGRDRCKRDRRSGALARPKSPTGMVSSRPHSLPFKTLVPPTNSIFPTLRWLPQHLLSPRPDACVLDWLFDQGSLTRRLTGLSDDHFSVTPLLEGWQPLRADECAALDLAEGSEGWVREVYLRGHDQPWVFARSVAARSALQGDGLQMDALGSRSLGELLFCDQAFQRRAIEVCHYPSEWLPPEVRAHALWGRRSRFDRGALSVLVAEIFLPPLWTVARAYSENC	PGPT0009525_201	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009525-ubiC-K03181	NA	NA
D1-35_04459	891	ubiA	COG0382	4-hydroxybenzoate octaprenyltransferase	ATGTACGTGCAACTGCTCAAATCCTTGAACCGCCTCAATCCGCGGGCCTGGGACTTCGTGCAACTGACCCGCATGGACAAGCCCATCGGCATCTACCTGTTGCTGTGGCCGACATTGTGGGCGCTGTGGATTGCCGGCGAAGGCTCGCCGTCCTTGGCCAACATCGTGATTTTTGTGTTGGGCGTAGTGCTGACCCGTGCCGGCGGTTGCGTGATCAACGACTGGGCCGACCGCAAGGTCGACGGCCACGTCAAACGCACCGAGCAGCGCCCGCTGGTGAGCGGCAAGATCAGCTCGAAGGAAGCCCTGGTGTTCTTCGCGGTCTTGATGAGCGTGAGTTTCCTGCTGGTGCTGTGCACCAATGCGCCGACGATTCTGTTGTCCTTGGGCGGACTGGCGCTGGCGTTCAGTTACCCGTTCATGAAGCGCTACACCTATTACCCGCAAGTGGTGCTGGGCGCGGCGTTTTCCTGGGGCATGCCGATGGCTTTCACCGCCGAAACCGGCCATCTGCCGGCCGCCGCATGGCTGCTGTACATTGCCAACCTGCTGTGGACGGTGGGCTACGACACTTACTACGCGATGACCGACCGGGACGACGACCTGAAGATTGGCGTGAAATCCACGGCGATCCTGTTTGGCGATGCCGATCGGGTGATCATCCTGACGCTGCAAGGCCTGGCCTTGGGCTGCCTGCTGCTGGCCGGGGCTCAGTTCAAGCTGGGAGGCTGGTTCCATCTCGGTCTCGTGGCCGCCGCCGCGTGCTTTGCCTGGGAGTTCTGGTACACCCGCGGAAGGGACCGGATGCGTTGTTTCAAGGCGTTCCTGCACAACCACTGGGCCGGGTTGGCGATTTTTGTCGGGATTGTGCTGGATTACGGGTTGCGGTGA	MYVQLLKSLNRLNPRAWDFVQLTRMDKPIGIYLLLWPTLWALWIAGEGSPSLANIVIFVLGVVLTRAGGCVINDWADRKVDGHVKRTEQRPLVSGKISSKEALVFFAVLMSVSFLLVLCTNAPTILLSLGGLALAFSYPFMKRYTYYPQVVLGAAFSWGMPMAFTAETGHLPAAAWLLYIANLLWTVGYDTYYAMTDRDDDLKIGVKSTAILFGDADRVIILTLQGLALGCLLLAGAQFKLGGWFHLGLVAAAACFAWEFWYTRGRDRMRCFKAFLHNHWAGLAIFVGIVLDYGLR	PGPT0009515_1213	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009515-ubiA-K03179	NA	NA
D1-35_04460	384			hypothetical protein	ATGGCTTATTACACTCGATCCCTCAAGGCGTTGGGGCTGGTAGCTGCGCTGGCGCTGCCGGGAATGGCGCTTGCGGCTGGCGAACCGGCAATGGTCAAGGATGGCGTGCTGGTCGATCATAAGGGCATGACGTTGTACACCTATGACAAGGACGACGGCGGCAAGTCGATGTGCAACGATAAATGCGCCGAAAACTGGCCACCACTCAAGGCTGAAAGCACCGCGACTCCTTCAGGCGAATGGACCGTGATCACGCGTGATGATGGCGCGTCACAGTGGGCCTATGACGGCGATCCGTTGTACACCTTCGTCGGCGACAAGAAGGCGGGTGACAAGACCGGCGACGGCAAGGGCGGCGTCTGGAAGATCGCCAAGCCCGACTGA	MAYYTRSLKALGLVAALALPGMALAAGEPAMVKDGVLVDHKGMTLYTYDKDDGGKSMCNDKCAENWPPLKAESTATPSGEWTVITRDDGASQWAYDGDPLYTFVGDKKAGDKTGDGKGGVWKIAKPD				NA	NA	NA	NA	NA
D1-35_04461	690	phoB	COG0745	Phosphate regulon transcriptional regulatory protein PhoB	ATGGTTGGCAGGAGCATTCTGATCGTCGACGACGAGGCGCCCATCCGCGAGATGATCGCCGTTGCGTTGGAGATGGCCGGCTATGACTGCATGGAAGCAGAAAACTCTCAACAGGCCCACGCCATCATCGTCGATCGCAAGCCCGACCTGATCCTGCTGGACTGGATGCTGCCAGGCACCTCCGGCATCGAGCTGGCCCGACGTCTCAAGCGCGATGAGCTGACGGGTGACATCCCGATCATCATGCTCACCGCCAAGGGCGAAGAAGACAACAAGATCCAGGGCCTGGAAGTCGGTGCCGACGATTACATCACCAAGCCGTTTTCCCCTCGGGAGCTGGTGGCGCGCCTCAAGGCCGTGCTGCGTCGTGCCGGGCCGACCGATGGCGAAGCGCCGATCGAAGTTGGCGGCCTGCTGCTGGACCCGATCAGCCACCGCGTGACCATCGACGGCAAGCCCGCCGAGATGGGCCCGACCGAATATCGCCTGTTGCAGTTCTTCATGACGCACCAGGAGCGCGCCTACACCCGTGGGCAACTGCTGGATCAGGTCTGGGGCGGCAACGTGTACGTCGAGGAGCGCACCGTGGATGTGCACATCCGGCGCTTGCGCAAAGCCCTCGGCGACGCCTATGAGAATCTGGTACAAACCGTGCGCGGCACCGGTTATCGTTTTTCGACAAAGGCCTGA	MVGRSILIVDDEAPIREMIAVALEMAGYDCMEAENSQQAHAIIVDRKPDLILLDWMLPGTSGIELARRLKRDELTGDIPIIMLTAKGEEDNKIQGLEVGADDYITKPFSPRELVARLKAVLRRAGPTDGEAPIEVGGLLLDPISHRVTIDGKPAEMGPTEYRLLQFFMTHQERAYTRGQLLDQVWGGNVYVEERTVDVHIRRLRKALGDAYENLVQTVRGTGYRFSTKA	PGPT0002660_1206	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002660-phoB-K07657	NA	NA
D1-35_04462	1323	phoR		Phosphate regulon sensor protein PhoR	GTGAATCAAAACTGGCATGGCACCCTGATCCGCCACATGTTGTTGCTGGTGACCGGTTGCCTGTTGATCGGCCTGATCACCGGCTACTACGGCTGGAGCCTGGCCGTGGGCCTGGCGCTTTACCTGGCCTGGACCCTCAAGCAATTGCTGCGCCTGCACGAGTGGCTGCGCCTGCACCAACCCGACGAGGCCCCGCCCGACGGCTACGGCTTGTGGGGCGAGGTGTTCGACAGCATCTACCACCTGCAACGGCGCGACCAGCGCGTTCGCGGCCGCCTGCAGGCGGTGATCGACCGCGTCCAGGAATCCACCGCCGCGCTGAAAGACGCGGTGATCATGCTCGACAGCGACGGCAACCTCGAATGGTGGAACCGCGCCGCAGAAACCCTGCTGGGCCTCAAGACGCCACAGGACAGCGGCCAGCCAGTGACCAACCTGGTGCGCCATCCGCGCTTCAAGGAATATTTCGAGCAAGACAATTACGCCGAACCGCTGGAAATCCCGTCGCCCACCAATGATCGGCTGCGCATCCAGCTGTACATCACCCGCTATGGCAACAACGAGCACCTGATGCTGGTGCGCGACGTGACGCGTATTCATCAACTGGAACAGATGCGCAAGGATTTCATCGCCAACGTATCCCATGAACTGCGTACGCCATTGACGGTGATCTGCGGTTACCTGGAGACCCTGCTCGACAATGTCGAAGAGGTGAACCCGCGCTGGACCCGTGCCTTGCAGCAGATGCAGCAGCAGGGCGGACGCATGCAGACACTGCTCAACGATCTGCTGTTGCTGGCGAAGCTGGAAGCCACCGACTATCCCTCGGACAACCAGCCGGTGCCCATCGAGGACCTGTTGCAAGTCATTGCCGAAGATGCGCAGGAGTTGTCCGGCCCCAAGCAGCAGTCCATCACGCTTGAAGCAGACCCGACCGTACAACTCAAGGGCAGCGAGGCGGAACTGCGCAGCGCGTTTTCCAACCTGGTGTTCAACGCGGTCAAATACACGCCTGAACAAGGGCGGATCCATGTGCGCTGGTGGGGCGATGAACAAGGCGCACACCTGAGCGTGCGCGATTCCGGCATCGGCATCGACAGCAAGCACCTGCCGCGCCTGACCGAGCGTTTCTACCGGGTCGACTCCAGCCGCAACTCCAACACTGGCGGAACCGGGCTCGGTCTGGCAATCGTCAAGCATGTGCTGCTGCGCCATCGTGGACGCATGGAAATCAGCAGCGTGCCCGGCCATGGCAGTACGTTTACCTGCCATTTCACCCCGGCGCAGGTGGTCCGCGGACGGCACTCCAGCCACGACGAATGA	MNQNWHGTLIRHMLLLVTGCLLIGLITGYYGWSLAVGLALYLAWTLKQLLRLHEWLRLHQPDEAPPDGYGLWGEVFDSIYHLQRRDQRVRGRLQAVIDRVQESTAALKDAVIMLDSDGNLEWWNRAAETLLGLKTPQDSGQPVTNLVRHPRFKEYFEQDNYAEPLEIPSPTNDRLRIQLYITRYGNNEHLMLVRDVTRIHQLEQMRKDFIANVSHELRTPLTVICGYLETLLDNVEEVNPRWTRALQQMQQQGGRMQTLLNDLLLLAKLEATDYPSDNQPVPIEDLLQVIAEDAQELSGPKQQSITLEADPTVQLKGSEAELRSAFSNLVFNAVKYTPEQGRIHVRWWGDEQGAHLSVRDSGIGIDSKHLPRLTERFYRVDSSRNSNTGGTGLGLAIVKHVLLRHRGRMEISSVPGHGSTFTCHFTPAQVVRGRHSSHDE	PGPT0002705_2473	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
D1-35_04463	1341			hypothetical protein	ATGGACCCTTCCCCTGGCTTGTCCCTCGCTACACTCTTCGCCGAATTCGGCATGATTCTTTTTGCTCTGATCCTGGTCTTGCTCAACGGTTTTTTCGTTGCGGCCGAATTTGCCATGGTCAAGCTGCGCTCGACCCGGGTCGAGGCCATTGCCGAACAGAACGGCTGGCGCGGGCACATCCTGCGCACCGTCCACAGCCAGCTCGACGCCTATCTCTCGGCCTGCCAGTTGGGTATCACCCTCGCCTCCCTGGGGCTGGGATGGGTCGGCGAGCCGGCGTTCGCGCATATTCTCGAGCCGCTGCTGGGCGCGGTCGGCGTCCAGTCGCCGGAAGTGATCAAGGGTGTGTCGTTCTTCACCGCGTTCTTCATCATTTCCTACCTGCACATCGTGGTCGGCGAGCTGGCGCCCAAATCCTGGGCGATCCGCAAACCGGAACTGCTGTCGCTTTGGACGGCCGTGCCGCTGTACCTGTTCTACTGGGCCATGTACCCGGCGATCTACCTGCTCAATGCCAGCGCCAACGCGATCCTGCGTATCGCCGGCCAGGGTGAGCCCGGCCCGCATCATGAACACCATTACAGCCGCGAGGAGTTGAAGCTGATCCTGCACTCCAGCCGTGGCCAGGACCCGAGCGACCAAGGCATGCGCGTGCTGGCCTCCGCCGTGGAAATGGGCGAGCTGGAGGTGGTGGACTGGGCCAACTCCCGGGAAGACCTGGTAACGCTGGAATTCAATGCCCCGCTCAAGGAAATCCTGGCGATGTTCCGTCGCCACAAGTTCAGCCGGTATCCGGTGTACGACAGCGAGCGCCAGGAATTCGTCGGCCTGCTGCACATCAAGGACCTGCTGCTGGAACTGGCGGCCCTGGACCACATCCCCGAATCGTTCAACCTGGCGGAACTGACCCGCCCGCTGGAGCGAGTATCGAGGCACATGCCGTTGTCGCAGCTGCTGGAGCAGTTCCGCAAGGGCGGGTCGCACTTCGCCGTGGTCGAAGAAGCCGACGGCAATATCATCGGCTACCTGACCATGGAAGACGTTCTGGAAGTGCTGGTGGGCGATATCCAGGACGAACACCGCAAGGCCGAGCGCGGCATCCTCGCCTATCAGCCGGGCAAGCTACTGGTGCGCGGCGACACCCCGCTGTTCAAGGTGGAGCGCCTGCTGGGCATCGACCTGGACCACATCGAAGCGGAAACCCTGGCAGGGTTGGTCTACGAAACCCTGAAACGGGTGCCGGAAGAGGAAGAAGTGCTGGAAGTCGAAGGCCTGCGGATCATCATCAAGAAGATGAAAGGGCCGAAGATCATTCTGGCGAAGGTGTTGATGCTCGGTTGA	MDPSPGLSLATLFAEFGMILFALILVLLNGFFVAAEFAMVKLRSTRVEAIAEQNGWRGHILRTVHSQLDAYLSACQLGITLASLGLGWVGEPAFAHILEPLLGAVGVQSPEVIKGVSFFTAFFIISYLHIVVGELAPKSWAIRKPELLSLWTAVPLYLFYWAMYPAIYLLNASANAILRIAGQGEPGPHHEHHYSREELKLILHSSRGQDPSDQGMRVLASAVEMGELEVVDWANSREDLVTLEFNAPLKEILAMFRRHKFSRYPVYDSERQEFVGLLHIKDLLLELAALDHIPESFNLAELTRPLERVSRHMPLSQLLEQFRKGGSHFAVVEEADGNIIGYLTMEDVLEVLVGDIQDEHRKAERGILAYQPGKLLVRGDTPLFKVERLLGIDLDHIEAETLAGLVYETLKRVPEEEEVLEVEGLRIIIKKMKGPKIILAKVLMLG				NA	NA	NA	NA	NA
D1-35_04464	897			hypothetical protein	ATGCTCGTGCCGTTGCTGTTCGCCTGTGGTCTTGTCCTGGCCGCCACCCCGGCCTTGGCCATGACCATCTACAAATCCACCGACGCCAATGGCGTGGTCTCCTACAGTGACCGCCCCAGCAAAGGCTCCCAGGTGTTCGTATTTCGTGATCGCATGGTCGAGCGCCTGGAGCGCCAGGTGTTTCTCGACATCAGGAAGCAGAAGGGCGCGGACGCGGTGTACGTGCGCAACGACCTCTATGCCCCGGTGGAAATCGAGCTGAGCTTCGCCGGGTTGCGCAACGTCAGCGGGGCGCCGAGCCGGCCGATCCGCCGCGTGCTGCCGGCGCGCAGCAATCTGCGCCTGGCGCTGCTGACGGCCACTCGGCCCGGCAGGCCTCTGGCTTATACCCCAAGGTTCGAATACTCCCTGGGCGACCCCGCAGGCACGGCGCAAGCTTATCGCTATCCGTTGCCCTGGCGTGGCGGGCCTTTCCGGTTGAGCCAGGGCGCCAACGGCCAATACAGCCATTACGGCCCGAAGAACCGCTACGCCATGGACATCGCGATGCCCGAAGGCACGCCGATCATCGCGGCGCGGGGCGGCGTGGTGGTCAAGACCGAGAACGAGCAGACCGGGCGCGGCACCGATCCTGCCGGCAACTTTGTGCGCGTGTTGCACGATGACGGGACCATGGGAGTCTACCTGCACCTGCAGAAGGGCTCGGTGAGCGTCCAGGAGGGGCAACGGGTCGTGGTGGGCACGCCGCTGGCGCTATCAGGCAACACCGGTAACAGCTCCGGCCCGCACCTGCACTTCGTGGTACAGCGCAACACCGGGCTGGGGTTGGTGTCGATTCCCTATCAGTTCAACCAGCCGGTGGGTGACTTGCCCAACTTTGCGTTGGGCAAGCAGTAG	MLVPLLFACGLVLAATPALAMTIYKSTDANGVVSYSDRPSKGSQVFVFRDRMVERLERQVFLDIRKQKGADAVYVRNDLYAPVEIELSFAGLRNVSGAPSRPIRRVLPARSNLRLALLTATRPGRPLAYTPRFEYSLGDPAGTAQAYRYPLPWRGGPFRLSQGANGQYSHYGPKNRYAMDIAMPEGTPIIAARGGVVVKTENEQTGRGTDPAGNFVRVLHDDGTMGVYLHLQKGSVSVQEGQRVVVGTPLALSGNTGNSSGPHLHFVVQRNTGLGLVSIPYQFNQPVGDLPNFALGKQ				NA	NA	NA	NA	NA
D1-35_04465	954	cheB_6		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGAGTAAGGTCAGTGTGTTGGTCGTGGACGATGCTTCGTTCATTCGTGACTTGGTGAAGAAGTGCCTGCGCAACTACTTCCCAGGCATCCGCATCGAAGACGCGGTGAACGGCAAGAAAGCCCAGGCCCTGCTGGCCCGTGAAGCGTTCGACCTGGTGCTGTGCGACTGGGAAATGCCAGAAATGTCCGGCCTGGAATTGCTGACCTGGTGCCGCCAGCAGGACAATCTCAAGGGCATGCCTTTTGTGATGGTGACCAGCCGTGGCGACAAGGAGAACGTGGTCCAGGCGATCCAGGCCGGCGTTTCCGGCTACGTCAGCAAACCCTTCACCAACGAACAGTTGCTGACCAAGGTCAAGCAGGCCTTGAACAAGGTCGGCAAGCTCGACACGTTGATGAACAGCGCCCCGACCAAGATGAATTCGGCGTTCGGCAATGATTCGCTCAGTGCCCTGACCGGCGGCAAGGCCGCTCCGGTTGCCGCGGCTGCGCCAGCGGCGAACCCGTTTGCCAAGCCCGCTGCCGCGCCTGCACCCGCTGCGGCTGCCGCTCCGGCGGCACGTGGCTTGCTCAACAGCCCGCCCGTCAAGGCACCTGCCGCGTCCGCACCCACTGCCAATCGCGGCCAAGGCCAGTTGCGCCTGTCCAGCGGCACCCAGCAATGCGTGATCAAGGCCTTGAGCCTCAAGGAAGCGTTGCTGGTGGTCAAGCGCACCGACATCCTGCCGCAAGTGCTGGAGAGCTCGGTGCTGGACATGGAACAGGGCGACAACGCCGAAACCGCTCGTCTGAACGGCTACCTGCATGCCATCGTCGCCCATGAGCAAACCCCTGACAGCGAATGGCTGCAACTGACCTTCCGCTTCGTCGACAAAGACCCGCAGAAACTCGACTACATCTCCCGCCTGATCGCCCGCGGCACGGCGCAGAAGCACTTCGTACCGGGCGCCTGA	MSKVSVLVVDDASFIRDLVKKCLRNYFPGIRIEDAVNGKKAQALLAREAFDLVLCDWEMPEMSGLELLTWCRQQDNLKGMPFVMVTSRGDKENVVQAIQAGVSGYVSKPFTNEQLLTKVKQALNKVGKLDTLMNSAPTKMNSAFGNDSLSALTGGKAAPVAAAAPAANPFAKPAAAPAPAAAAAPAARGLLNSPPVKAPAASAPTANRGQGQLRLSSGTQQCVIKALSLKEALLVVKRTDILPQVLESSVLDMEQGDNAETARLNGYLHAIVAHEQTPDSEWLQLTFRFVDKDPQKLDYISRLIARGTAQKHFVPGA				NA	NA	NA	NA	NA
D1-35_04466	762	phoU	COG0704	Phosphate-specific transport system accessory protein PhoU	ATGATTAGTAAAGAAGGCCTCACCCACCACATTTCCGCGCAGTTCAACGCCGAGCTGGAAGAGGTGCGCAGCCACCTGCTGGCCATGGGCGGGCTGGTGGAAAAGCAGGTCAACGACGCGGTGACCGCGCTGATCGAGGCCGACTCCGGCCTGGCCCAGCAAGTGCGCGAGATTGATGACCAGATCAACCAGATGGAACGCAACATCGACGAAGAATGCCTGCGCATCCTGGCCCGTCGTCAGCCTGCGGCTTCCGACCTGCGCCTGATCATCAGCATCTCCAAGTCGGTGATCGACCTTGAGCGGATCGGCGACGAAGCCACCAAGATCGCTCGTCGCGCCATCCAGTTGTGCGAAGAAGGTGAAGCGCCGCGCGGCTACGTCGAGGTTCGCCACATTGGTGACCAAGTGCGCAACATGGTACGCGATGCGCTGGACGCCTTCGCCCGTTTCGACGCCGACCTGGCGCTGTCGGTGGCCCAGTACGACAAGATCATCGACCGCGAGTACAAGACCGCCCTGCGCGAGCTGGCGACCTACATGATGGAGGACCCGCGTTCGATTTCCCGGGTGTTGAGCATCATCTGGGTGCTGCGTTCGTTGGAGCGTATCGGCGATCATGCACGCAACATCTCGGAACTGGTGATCTACCTCGTGCGTGGCACCGATGTCCGGCACATGGGGCTCAAGCGGATGAAGGAAGAAGTTGAGGGCACCCCGTCCGAAACCGCTAATGTTCCCGGTCAAACTGACGATAAGTAA	MISKEGLTHHISAQFNAELEEVRSHLLAMGGLVEKQVNDAVTALIEADSGLAQQVREIDDQINQMERNIDEECLRILARRQPAASDLRLIISISKSVIDLERIGDEATKIARRAIQLCEEGEAPRGYVEVRHIGDQVRNMVRDALDAFARFDADLALSVAQYDKIIDREYKTALRELATYMMEDPRSISRVLSIIWVLRSLERIGDHARNISELVIYLVRGTDVRHMGLKRMKEEVEGTPSETANVPGQTDDK	PGPT0002630_152	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ARSENIC_RESISTANCE	ARSENIC_RESISTANCE-PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002630-phoU|phoY-K02039	NA	NA
D1-35_04467	834	pstB	COG1117	Phosphate import ATP-binding protein PstB	ATGCAACACGAAGCACCTACACACGGCATCAACATGTCGGCCCTGGGCCGCGACAAGCAGAGCCTGAACCTGGCTCAGGAAACCGTCGCCATCGAAGTGCCCGGCCTGAACCTGTTCTACGGTCAGAAACAGGCGCTGTACGATGTCAGCCTGAACATCCCGAAACAGCGCGTCACCGCGTTCATCGGTCCGTCGGGCTGCGGCAAGTCGACCTTGCTGCGCACCTTCAACCGCATGAACGATCTGGTGGACGGCTGCCGCGTCGAAGGCGAAATCAACCTCTACGGCAACAACATCTACCGCAAGGGCGAAGACGTTGCCGAACTGCGTCGTCGCGTGGGCATGGTGTTCCAGAAGCCCAACCCGTTCCCCAAGACCATCTACGAGAACGTCGTCTATGGCCTGCGGATCCAGGGCATCAACAAGAAGCGCGTACTCGATGAAGCCGTGGAGTGGGCACTCAAGGGCGCGGCGCTGTGGGATGAGGTCAAGGACCGCCTGCACGAATCGGCGCTGGGCCTGTCCGGTGGGCAGCAGCAGCGTCTGGTGATCGCCCGCACCATCGCCGTGGAGCCGGAAGTGCTGCTGCTCGACGAACCTTGCTCGGCACTCGACCCGATCTCGACGCTGAAAGTCGAGGAACTGATCTACGAGCTCAAGTCCAAGTTCACCATCGTCATCGTGACCCACAACATGCAGCAGGCGGCGCGGGTGTCCGACTACACCGCGTTCATGTACATGGGCAAGCTGGTGGAATTCGGCGACACCGATACCCTGTTTACCAATCCGGCCATGAAGCAGACCGAGGACTACATCACCGGTCGTTACGGCTAG	MQHEAPTHGINMSALGRDKQSLNLAQETVAIEVPGLNLFYGQKQALYDVSLNIPKQRVTAFIGPSGCGKSTLLRTFNRMNDLVDGCRVEGEINLYGNNIYRKGEDVAELRRRVGMVFQKPNPFPKTIYENVVYGLRIQGINKKRVLDEAVEWALKGAALWDEVKDRLHESALGLSGGQQQRLVIARTIAVEPEVLLLDEPCSALDPISTLKVEELIYELKSKFTIVIVTHNMQQAARVSDYTAFMYMGKLVEFGDTDTLFTNPAMKQTEDYITGRYG	PGPT0002615_940	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
D1-35_04468	1671			hypothetical protein	GTGAAACAGAACTCCCTGAAAGGATGGTTCAAGAGCGGCGCCCCGGGCGTCTGGATCAGCGGTGGCGCGGTGTCCATCGCGGTCATCATGACCATTGGCCTGTTGGCGGTGATTGCCGTGCGCGGCCTGGGCCACTTCTGGCCGGCCGACCTGATCCACGCCAGCTACAACGTACCGGGCATGCCGGCGCACCTGGTGGTCGGCGAAGTCGTACAGAAAGAAGAAGTGCCTCGCGAGCGCCTGAAAAGCGCTGGCCTGCCGGTGCCGGACGAAGGCCCGGAGTTCATGACCCGCGAACTGGTCAAGGTCGGTAACCGGGATCTCAACGGCACCGATTTCACCTGGATCGTCGGCGACTGGCTGAGCAACCAGACGACCCCGCCGGAGCTGATGGCTCTGGAGCGACGTGAGTGGGGCAACTTCTACGGCTACCTGGTCAACGTCAAGGAACAAGGCAAGGTCATCGCCGAGGGCGAAGCCGCCTGGCCGCAGTTGCAGGCGCGTATCGAGCGGGTCAATCAACTGGCCGACGAACTCAAGACTCTGGAAAAAGTCGACATCGGCGCGATCAACGCCGGCCTCGAGCGCATCCGCCTGCACGGTCGCAAGCTGGAGCTGGACGGCAAGCTCGACGCCGCCGCCCAGGCTGACCTGGAAAGCGAACGCGCCGAACTGAACGCCCGCTACAAGGACATCGAAGCGCGCCTGACCGACCTGCATGCGCAGTTCAACCGCGACAGCCTGACGGCCCGCGATGCCAACGGCAAGGAAGTGGAAATCGAGATCGGCAAAGTGGTGCACGCCTACCAGCCAAACGGCATGGGCACGTTCACCAAGATGGGTTTCTACTTCAGCAAGGTCTGGGAGTTCCTCAGCGACGATCCGCGTGAAGCCAACACTGAAGGTGGGATCTTCCCGGCTATTTTCGGCACCGTGATGATGACCCTGATCATGGCGATGATCGTCACGCCGTTCGGCGTGCTGGCAGCGGTCTACCTGCGTGAATACGCGCGCCAGGGGCCGATGACCCGCCTGATCCGCATCGCGGTGAACAACCTCGCAGGCGTTCCGGCCATCGTCTACGGCGTGTTCGGGCTGGGTTTTTTCGTCTATGTGCTGGGCGGCTCGGTTGACCGGCTATTCTTCCCCGAGGCTTTGCCGGCACCGACCTTCGGCACGCCGGGCCTGCTCTGGGCTTCCTTGACGCTGGCGCTGCTGGCCGTACCGGTGGTGATCGTGGCCACCGAGGAAGGCCTGGCGCGGATTCCGCGGACCGTGCGCGAAGGCTCCCTGGCACTCGGTGCAACCAAGGCCGAAACACTGTGGAAAATCGTCCTGCCGATGGCGAGCCCGGCGATGATGACCGGCATGATCCTCGCCGTGGCCCGTGCCGCCGGCGAGGTAGCGCCGCTGATGCTGGTGGGCGTGGTGAAACTGGCGCCGTCGCTGCCGCTGGATGGCAACTACCCGTACCTGCACTTGGACCAGAAAATCATGCACCTGGGCTTCCATATCTATGACGTCGGCTTCCAGAGCCCGAACGTCGAAGCAGCCCGGCCATTGGTCTACGCCACGGCGTTGCTGCTGGTGCTGGTGATCGCGACCCTGAACCTGTCGGCGGTGTGGATCCGTAACCACCTGCGTGAGAAGTACAAGGCACTGGATAGTTGA	MKQNSLKGWFKSGAPGVWISGGAVSIAVIMTIGLLAVIAVRGLGHFWPADLIHASYNVPGMPAHLVVGEVVQKEEVPRERLKSAGLPVPDEGPEFMTRELVKVGNRDLNGTDFTWIVGDWLSNQTTPPELMALERREWGNFYGYLVNVKEQGKVIAEGEAAWPQLQARIERVNQLADELKTLEKVDIGAINAGLERIRLHGRKLELDGKLDAAAQADLESERAELNARYKDIEARLTDLHAQFNRDSLTARDANGKEVEIEIGKVVHAYQPNGMGTFTKMGFYFSKVWEFLSDDPREANTEGGIFPAIFGTVMMTLIMAMIVTPFGVLAAVYLREYARQGPMTRLIRIAVNNLAGVPAIVYGVFGLGFFVYVLGGSVDRLFFPEALPAPTFGTPGLLWASLTLALLAVPVVIVATEEGLARIPRTVREGSLALGATKAETLWKIVLPMASPAMMTGMILAVARAAGEVAPLMLVGVVKLAPSLPLDGNYPYLHLDQKIMHLGFHIYDVGFQSPNVEAARPLVYATALLLVLVIATLNLSAVWIRNHLREKYKALDS	PGPT0002610_287	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002610-pstA-K02038	NA	NA
D1-35_04469	2286			hypothetical protein	ATGAATGATCTGGCCAACTCCACAATGACTACGACTTCCCCTCCCAAGCGCATTGACTTCAATACGCCTGAGCTGCAACGCAAGCGCCGCATCCGCGCGCTCAAGGATCGCCTCACCCGTTGGTACGTGCTGGTTGGCGGCCTCGCCGTCCTCGCCGCCATTACTTTGATTTTTTTCTTCCTGGCCTACGTGGTACTGCCGCTGTTCCAAGGCGCGGACCTGACCGCCAAGGACTCGATTACCCCTGCCTGGATGCAAGACGCCGGCAAGCCGCTGATGATCGCCATCGAAGAACAGAACCAGGTGGCGATGCGGGTTTCCGACAAGGGCGTGGCGCTGTTCTACAACCTCGACAGCGGTGCCGAACTGCGGCGTGTCGACCTGCCGATCCCGGCCGGCGCCACTGTGACGTCCATCGGTGAAGATCAGCCCGGCAGCCCGCTGGTGGCGATCGGCTTGTCCAATGGCCAGGCCCTGGTGTTCCGCCACACTTATAAAGTCAGCTACCCCGACGGCAAGAAAACCATCTCTCCGGCCATCGAATACCCTTACGGTGAAGCGCCGGTCGCGTTGAACGAACAGGGCGCGGCCCTGGAGCATGTCAGCCTCAACGCGACCGATTCGACGTTGCTGCTGGCTGGCTCCAGCGGCGCGCAGCTCTATGTGCTGTCGCTCACCAGCGAAGAAAACATGATGACCGGTGAAATCACCAGCGAGCAGACGCGTATCGATCTGCCGCAGATGACCGAGCCGGTAAAAAACATTTTCGTCGACCCGCGCCAGCAGTGGCTGTATGTGGTCAACGGGCGCGCCCAGGCCGATGTGTTCAGCCTGCGGGACAAGAGCCTCAACGGTCGCTACAAGCTGCTCGAGAACGCTGACGCCCAGGTCACCGCCGTTGCCCAGTTGGTCGGTGGCATATCGCTGATCATCGGTGATTCCAAGGGCGGCCTGGCCCAGTGGTTCATGGCTCGCGATCCGGACGGCGAGCTGCGTTTCAAACAGATTCGTACCTTCCAGATGGGCAGCGCACCCATCGTCGAGATCAGCGCCGAAGAGCGTCGCAAGGGCTTCGTTGCGCTCGACGCCGCCGGCAAGCTCGGCGTGTTCCACAGTACTGCCCACCGCACCTTGCTGGTTGATCAGGTAGTCGATGGCCAAGGCCTGTTCGGCATGTCGCCACGGGCCAACCGCCTGATCGTGGAGCAGGGCGGCAAGCTGCAACCGCTGGTCCTGGAAAACCCACACCCGGAAGTCTCGTGGAGCGCCTTGTGGAGCAAGGTCTGGTACGAAAACTACGATGAGCCCAAGTACGTCTGGCAATCGACTGCCGCCAACACCGACTTCGAACCCAAGCTGAGCCTGTCGCCGCTGACCTTCGGCACCCTGAAAGCGGCGTTCTACGCGATGCTTCTGGCCGCGCCGCTGGCGGTTGCCGCAGCGATCTACACCGCCTACTTCATGGCGCCGGGCATGCGCCGCAAGGTCAAGCCGGTGATCGAGCTGATGGAAGCGATGCCGACGGTGATCCTCGGTTTCTTCGCCGGTCTGTTCCTGGCGCCGTACGTCGAAGGGCATCTGCCGGGCATCTTCAGCCTGCTGATGTTGCTGCCGATCGGTATCCTGGTCGCCGGTTTCGCTTTCAGCCGCCTGCCGGAATCCATTCGCCTGCGAGTGCCGGACGGCTGGGAAAGCGCCTTGCTGATCCCGGTGATCCTGTTCGTCGGCTGGCTCTCGCTATACATGAGCCCGTACATGGAAGCCTGGTTCTTCGGCGGCGACATGCGCATGTGGATCTCCCATGACCTGGGCATCACCTACGACCAGCGCAACGCCCTGGTGGTCGGCCTGGCGATGGGCTTCGCGGTCATCCCGAACATTTACTCCATTGCCGAAGACGCCGTGTTCAGTGTGCCTCGCGGCCTGACCCTCGGCTCGCTGGCCCTGGGCGCTACCCCATGGCAGACCATGACCCGCGTGGTCATCCTCACCGCCAGCCCGGGCATCTTCTCGGCGCTGATGATCGGTATGGGCCGGGCGGTGGGCGAGACGATGATCGTGCTGATGGCAACCGGCAACACCCCGGTGATGGAAATGAACCTGTTCGAAGGCCTGCGCACCCTGGCGGCCAACGTCGCGGTGGAGATGCCTGAGTCGGAAGTCGGCGGCAGCCATTACCGCGTGCTGTTCCTGTCGGCCTTGGTGCTGCTGTTGTTCACCTTCGTCATGAACACCCTCGCCGAGCTGATCCGTCAGCGTCTGCGCAAGAAATATTCGTCGCTTTAA	MNDLANSTMTTTSPPKRIDFNTPELQRKRRIRALKDRLTRWYVLVGGLAVLAAITLIFFFLAYVVLPLFQGADLTAKDSITPAWMQDAGKPLMIAIEEQNQVAMRVSDKGVALFYNLDSGAELRRVDLPIPAGATVTSIGEDQPGSPLVAIGLSNGQALVFRHTYKVSYPDGKKTISPAIEYPYGEAPVALNEQGAALEHVSLNATDSTLLLAGSSGAQLYVLSLTSEENMMTGEITSEQTRIDLPQMTEPVKNIFVDPRQQWLYVVNGRAQADVFSLRDKSLNGRYKLLENADAQVTAVAQLVGGISLIIGDSKGGLAQWFMARDPDGELRFKQIRTFQMGSAPIVEISAEERRKGFVALDAAGKLGVFHSTAHRTLLVDQVVDGQGLFGMSPRANRLIVEQGGKLQPLVLENPHPEVSWSALWSKVWYENYDEPKYVWQSTAANTDFEPKLSLSPLTFGTLKAAFYAMLLAAPLAVAAAIYTAYFMAPGMRRKVKPVIELMEAMPTVILGFFAGLFLAPYVEGHLPGIFSLLMLLPIGILVAGFAFSRLPESIRLRVPDGWESALLIPVILFVGWLSLYMSPYMEAWFFGGDMRMWISHDLGITYDQRNALVVGLAMGFAVIPNIYSIAEDAVFSVPRGLTLGSLALGATPWQTMTRVVILTASPGIFSALMIGMGRAVGETMIVLMATGNTPVMEMNLFEGLRTLAANVAVEMPESEVGGSHYRVLFLSALVLLLFTFVMNTLAELIRQRLRKKYSSL	PGPT0002620_40	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
D1-35_04470	999	pstS_2	COG0226	Phosphate-binding protein PstS	ATGAAACTGAAGCGTTTGATGGCGGCAATGACGTTTGTCGCTGCTGGCGTCGCGACTGCCAACGCGGTTGCCGCTGTTGACCCTGCGATCCCGAGCTACACCAAGACCACTGGTGTGTCGGGCAACCTGTCCAGCGTCGGCTCCGATACCCTGGCTAACCTGATGACCTTGTGGGCCGAGAACTACAAGAAGGAATACCCGAACGTCAACATCCAGATCCAGGCCGCCGGTTCCTCCACCGCGCCGCCCGCACTCACCGAAGGCACCGCCAACCTGGGCCCGATGAGCCGCAAGATGAAGGACAACGAGCTGCAAGCCTTCGAACAGAAGTACGGCTACAAGCCGACCGCTATTCCGGTTGCCGTGGATGCCCTGGCGGTATTCGTGCACAAGGACAACCCGATCAAGCACCTGACCATGGCTCAGGTCGATGCGATTTTCTCCTCGACTCGCCTGTGCGGCGCCAAGGCTGACGTCAAGACCTGGGGCGACCTGGGCGTGACCGGCGACCTGGCCAACAAGCCAGTCCAGCTGTTTGGCCGCAACTCGGTGTCCGGCACCTACGGCTACTTCAAGGAAGAAGCCCTGTGCAAAGGCGACTACAAGCCAAATGTCAACGAACAACCAGGTTCGGCTTCGGTTGTGCAGTCGATCAGCAGCTCGCTTAACGGCATCGGCTACTCGGGTATCGGCTACAAGACCGCCAGCGTGAAAACCGTTGCCCTGGCCAAGAAGGAAGGCGGTGAGTTCGTCGAGGACACCGAAGAAAACGCCCTGAACGGCAAGTATCCGCTGTCGCGTTTCCTCTACGTCTACGTCAACAAGGCACCGAACAAGCCTCTGGCCCCGCTGGAAGCCGAGTTCGTCAAGCTGATCCTGTCCAAGCAAGGCCAGGAAGTCGTGGTCAAGGACGGCTACATCCCGGTTCCAGCCAAAGTCGCCGCCAAGGCACTGGCTGACCTGGGTCTGCAGGAAGGCGGCAACGTCGCCAAGCAGTAA	MKLKRLMAAMTFVAAGVATANAVAAVDPAIPSYTKTTGVSGNLSSVGSDTLANLMTLWAENYKKEYPNVNIQIQAAGSSTAPPALTEGTANLGPMSRKMKDNELQAFEQKYGYKPTAIPVAVDALAVFVHKDNPIKHLTMAQVDAIFSSTRLCGAKADVKTWGDLGVTGDLANKPVQLFGRNSVSGTYGYFKEEALCKGDYKPNVNEQPGSASVVQSISSSLNGIGYSGIGYKTASVKTVALAKKEGGEFVEDTEENALNGKYPLSRFLYVYVNKAPNKPLAPLEAEFVKLILSKQGQEVVVKDGYIPVPAKVAAKALADLGLQEGGNVAKQ	PGPT0002625_4355	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
D1-35_04471	1299	abaF		Fosfomycin resistance protein AbaF	ATGACCACTGCGCCTTCGAGCACGGCGACACCCGCACAACCCGCCCGTCCGCTGACCCGTAACGACTACAAGACCCTGTCGCTTTCTGCCTTGGGCGGTGCGCTGGAATTCTACGATTTCATCATTTTCGTGTTCTTTGCCACCGTGGTCGGCAAATTGTTCTTCCCCGCCGAGATGCCCGAGTGGCTGCGCCTGATGCAGACGTTCGGCATCTTTGCCGCCGGTTACCTGGCCCGGCCGCTGGGCGGGATCATCATGGCCCACTTCGGCGACCTGCTGGGACGCAAGAAGATGTTCACCCTGAGCATCTTCATGATGGCCGTGCCGACCCTGATCATGGGTCTGCTGCCCACTTACGCGCAGATCGGCATGTGGGCGCCGATTCTGTTGCTGTTGATGCGGGTAATCCAGGGCGCCGCGATTGGCGGCGAAGTGCCAGGCGCCTGGGTATTCGTTTCCGAACACGTGCCGGCGCGCCACATCGGCTATGCCTGCGGCACGCTGACCTGCGGCCTGACGGCGGGGATTTTGCTGGGTTCGCTGGTCGCCACGGCCATCAACAGCATTTATACGCCGGTGGAAGTAGCGGATTACGCCTGGCGGATCCCGTTCCTGCTGGGCGGCGTGTTCGGCCTGTTTTCGGTGTACCTGCGCCGCTGGCTCCATGAAACCCCGGTATTTGCCGAGCTGCAATTGCGCAAGGCCCTGGCCCAAGAAGTGCCGTTGCGCGCGGTGCTGCGTGATCATCGCGGCGCCATCGCCATTTCGATGCTGCTGACCTGGCTGTTGTCGGCGGGCGTCATCGTGGTGATCCTGATGACCCCAACCGTGCTGCAGACCGTGTACCACTTCAGCCCGACCACCGCGTTGCAGGCCAATAGCCTGGCGATCGTATTCCTCAGTTTCGGCTGTATCGGCGCGGGTGTGCTGGCTGACCGCTTCGGCGCCGGCCGGGTGTTCGTTTTTGGTAGTGGCTTGCTGATGATCACCTTCTGGACCTTCTACCACAGCCTGTTCGAGCACCCCGAGTGGTTGTTCCCGCTCTACGCCTTGAGCGGCTTGTTGGTGGGTACCATCGGCGCGGTGCCCTACGTCATGGTCAATGCTTTCCCGGCCGTGGTGCGCTTCAGCGGACTGTCGTTCTCCTACAACCTGGCCTACGCGATCTTCGGCGGGCTGACCCCGATGATCGTGACCCTGCTGTTGAAAGAGAGTCCGATGGGGCCGGCGTACTACGTAGCGATTATCTGCGGGATCGGGATGTTGATTGGTGGGTATCTCTGGAAGAAGGGCCGCTAG	MTTAPSSTATPAQPARPLTRNDYKTLSLSALGGALEFYDFIIFVFFATVVGKLFFPAEMPEWLRLMQTFGIFAAGYLARPLGGIIMAHFGDLLGRKKMFTLSIFMMAVPTLIMGLLPTYAQIGMWAPILLLLMRVIQGAAIGGEVPGAWVFVSEHVPARHIGYACGTLTCGLTAGILLGSLVATAINSIYTPVEVADYAWRIPFLLGGVFGLFSVYLRRWLHETPVFAELQLRKALAQEVPLRAVLRDHRGAIAISMLLTWLLSAGVIVVILMTPTVLQTVYHFSPTTALQANSLAIVFLSFGCIGAGVLADRFGAGRVFVFGSGLLMITFWTFYHSLFEHPEWLFPLYALSGLLVGTIGAVPYVMVNAFPAVVRFSGLSFSYNLAYAIFGGLTPMIVTLLLKESPMGPAYYVAIICGIGMLIGGYLWKKGR	PGPT0013645_1649	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013645-proP-K03762	NA	NA
D1-35_04472	405		COG1607	putative acyl-CoA thioester hydrolase	ATGATAGAGCTCGAACAAGAAGATCCAATCCCGCAGGGCGATCTGGCCCTGCAAATCACCGCGCTTCCCCGAGAGACCAACGGCTTCGGGGATATTTTCGGCGGTTGGCTGGTGTCCCAGATGGACCTGGCCGGCACCGCGATGGCCAGCAAGGTTGCCGGCGGCCGCGTGGCTACCGTGGCGATCGATCGCATGGCGTTCCTGGTGCCGGTGGCAGTGGGTGCGCAATTGTCGTTCTACACCCAGGCCCTGGAAATCGGCCGGAGCTCGATCCAGATGATGGTCGAGGTCTGGAGTGACGACCCATTGTCCAGCGAATGGCGCAAGGTCACCGAAGCGGTGTTCGTGTTCGTCGCCATCGATGGCAGTGGTCGTACCCGCTCGGTTCCACCTCGGGCGCGTTAA	MIELEQEDPIPQGDLALQITALPRETNGFGDIFGGWLVSQMDLAGTAMASKVAGGRVATVAIDRMAFLVPVAVGAQLSFYTQALEIGRSSIQMMVEVWSDDPLSSEWRKVTEAVFVFVAIDGSGRTRSVPPRAR	PGPT0001830_309	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001830-yciA-K10806	NA	NA
D1-35_04473	900	yeaD_2	COG0676	Putative glucose-6-phosphate 1-epimerase	ATGCCAACGCCTAACGTCGAAGCCGTCAAACTGGATGAACTGAACGGTTGGCGCATCCGCCACGGTCAGGCCGAGTTGCTCGTGGCCCAGCAAGGCGCGCACGTTCTCAGCTATCAGGTGGACGGCCAGCCGCCGCTGATCTGGCTCAACGACCAGGCGACGTTCAAGACCGGCAAGAGCATCCGTGCCGGCGTACCGGTGTGCTGGCCGTGGTTCGGCAACCTGACGCGCAACCCCGACAGCGTCCAGGCCATGCGCGTCAGCAACGAACCGGCCACCGCTCACGGCCTGGTACGGGCAATGGATTGGGAACTCAAGGGCATCGAAGCCGAGGGTGAAAGCCTGAAGATCGAATTCGTGCTGCCCTATCCCGAAAACGGTTTGTCCGGCTGGCCCCATCAGGTCGACCTGACCTTGACCATGGTCATGGACGAGCAACTGCATATCCATCTGACCAGCCATAACCGTGGCAGCGAAACCGTCAGCCTGAGCCAGGCGCTGCACAGCTATTTCGCGGTCAGCGACGTGCGCAACGTGCATGTCGACGGAGTGGATGGCTTGCGCTACGTCGAGACCCTGGATGACTGGAACGTCCATACCCAGGCCGGCGAGCTGCATTTTGCCGGCGAAACCGACCGGATCTATCTCGATACGCCGCCGACGCTGAGCATCGTCGACGCGCATTGGCAGCGACGCATCGAATTGACCGCTACCGGTTCACGTTCGGCGGTGATCTGGAACCCCTGGACCGAACGCGCCAAGGCCTTCAGCGACATGGCCGATGATGGCTGGCAACGCATGCTCTGCATCGAGACGGCCAATGTGATGGATGATGTGGTGACGTTGTTGCCAGATGCCAGCCATACGCTGGGCGTGAGCATTCGCAGCAAACCGCTCTAA	MPTPNVEAVKLDELNGWRIRHGQAELLVAQQGAHVLSYQVDGQPPLIWLNDQATFKTGKSIRAGVPVCWPWFGNLTRNPDSVQAMRVSNEPATAHGLVRAMDWELKGIEAEGESLKIEFVLPYPENGLSGWPHQVDLTLTMVMDEQLHIHLTSHNRGSETVSLSQALHSYFAVSDVRNVHVDGVDGLRYVETLDDWNVHTQAGELHFAGETDRIYLDTPPTLSIVDAHWQRRIELTATGSRSAVIWNPWTERAKAFSDMADDGWQRMLCIETANVMDDVVTLLPDASHTLGVSIRSKPL				NA	NA	NA	NA	NA
D1-35_04474	576			hypothetical protein	ATGCCCGGCGTCGTATTTTCCCTTATGCCGAGCCCTTTCATGCGCCGTCTACTGCTGACCTTCCTTCTGCTGGGCACTGGCCTGGCCCACGCCGCCGAGCTGCCCGAAACCGACTGGCTCGAACTGATGCCCAAGTCGGACCAGAAGGCCCTCGAGGCCATGCCCGAGATCGATCACAACTCCCCCGAAGCCAACGGCACCTTCACCGAAAAGGGTGGCCTGAAGCAGAGCAAAGGCTTGCCGGCGGTGATGTATTCGACCAAGACCGTGGCGTCAATGAACGACAAGCACATCCGCATCGGCGGATACCCGGTGCCGCTGGAAACCGACGCCAAGGGCCGCAGCACGCTGTTTTTCCTGGTGCCTTACCCGGGGGCCTGCATCCATGTCCCGCCACCGCCGCCCAATCAATTGGTGCTGGTGCGTTATCCCAAAGGCCTGAAGCTGGATGATATCTACACGCCGCTGTGGGTCACCGGCACGCTGAAGATCGAAAAGGTCGACAACGACCTGGCGAGCGCGGCGTATGCGATGGAGGCGCAGAAGGTGCGGGTGGTGCAGGAGGCGGATTTGTAG	MPGVVFSLMPSPFMRRLLLTFLLLGTGLAHAAELPETDWLELMPKSDQKALEAMPEIDHNSPEANGTFTEKGGLKQSKGLPAVMYSTKTVASMNDKHIRIGGYPVPLETDAKGRSTLFFLVPYPGACIHVPPPPPNQLVLVRYPKGLKLDDIYTPLWVTGTLKIEKVDNDLASAAYAMEAQKVRVVQEADL				NA	NA	NA	NA	NA
D1-35_04475	246			hypothetical protein	ATGGGAATCATCGGAACCATTTTTATCGGCCTGATCGTTGGCCTGCTCGCGCGTTTCCTGAAGCCTGGCGATGACAGCATGGGCTGGATCATGACCATCCTGCTGGGTATCGGCGGTTCGCTGGCAGCCACTTACGGCGGCCAGGCCCTGGGCATCTATCAGGCAGGCGAAGGCGCTGGTTTCCTCGGTGCCCTGGTGGGCGCGGTGGTGCTGCTGGTGATCTACGGCCTGATCAAAAGGAACTGA	MGIIGTIFIGLIVGLLARFLKPGDDSMGWIMTILLGIGGSLAATYGGQALGIYQAGEGAGFLGALVGAVVLLVIYGLIKRN				NA	NA	NA	NA	NA
D1-35_04476	1086	purK	COG0026	N5-carboxyaminoimidazole ribonucleotide synthase	ATGAAGATCGGTGTAATCGGTGGCGGCCAGTTGGGTCGCATGTTGGCCCTGGCGGGTACGCCGTTGGGGATGAACTTCGCTTTCCTGGATCCGGCGCCGGACGCCTGTGCCGCGGCGCTGGGTGAACACCTGCGTGCCGATTACGGCGATCAGGACCATCTGCGCCAGCTGGCCGATGAAGTCGACCTGGTGACCTTCGAGTTCGAAAGCGTCCCGGCCGAGACCGTTGCCTTCCTGTCCCAGTTCGTCCCGGTCTTCCCGAGCGCCGAAGCCTTGCGCATCGCCCGCGATCGATGGTTCGAAAAGAACATGTTCAAGGACCTGGGCATTCCGACCCCGGCCTTCGCCGACATTCAGTCCCAGGCCGACCTGGAAGCCGCCGTTGCGTCCATCGGCCTGCCGGCCGTGCTCAAGACCCGCACCCTGGGTTACGACGGCAAGGGCCAGAAGGTCCTGCGCAACCCGGAAGACGTCGCCGGCACATTCGCCGAGCTGGGCAGCGTCGGCTGCCTGCTGGAAGGCTTCGTGCCTTTCACCGGCGAAGTCTCGCTGATCGCCGTGCGTGCCCGTGACGGTGAAATCCGTTTCTACCCGCTGGTGCACAACACCCATAAGGACGGCATCCTCAAGCTGTCCGTCGCCAGCACCGACCACCCGCTGCAAGCCCTGGCTGAAGACTACTCCAGCCGGGTACTCAAGCAGCTCGATTATGTCGGCGTCATGGCGTTCGAGTTCTTTGAAGTGGATGGCGGCCTCAAGGCCAATGAAATCGCCCCGCGCGTGCACAACTCCGGGCACTGGACCACCGAAGGCGCCGAGTGCAGCCAGTTCGAAAACCACCTGCGGGCGGTCGCCGGGCTGCCGCTGGGGTCGACGGCCAAGGTCGGCGAAAGCGCGATGCTGAACTTCATCGGCAAGGTGCCGGACACCGAGAAGGTCCTGGCGATCGCCGACTGCCACCTGCATCACTACGGCAAGGCGTTCAAGGTCGGGCGCAAGGTTGGTCACGCCAACCTGCGTTGCGCCGACCGGGCCACGCTGGCCCAGCAGATCATCAAGGTCGAGACGCTGATCGCCGAGCAATAA	MKIGVIGGGQLGRMLALAGTPLGMNFAFLDPAPDACAAALGEHLRADYGDQDHLRQLADEVDLVTFEFESVPAETVAFLSQFVPVFPSAEALRIARDRWFEKNMFKDLGIPTPAFADIQSQADLEAAVASIGLPAVLKTRTLGYDGKGQKVLRNPEDVAGTFAELGSVGCLLEGFVPFTGEVSLIAVRARDGEIRFYPLVHNTHKDGILKLSVASTDHPLQALAEDYSSRVLKQLDYVGVMAFEFFEVDGGLKANEIAPRVHNSGHWTTEGAECSQFENHLRAVAGLPLGSTAKVGESAMLNFIGKVPDTEKVLAIADCHLHHYGKAFKVGRKVGHANLRCADRATLAQQIIKVETLIAEQ	PGPT0021550_3367	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021550-purK-K01589	NA	NA
D1-35_04477	492	purE	COG0041	N5-carboxyaminoimidazole ribonucleotide mutase	ATGAGTGCACTGGTTGGCGTGATCATGGGCTCCAAGTCCGATTGGTCCACCCTTAGCCACACCGCCGATATGCTGGAAAAGCTCGGCATCCCCTACGAGGTGAAAGTGGTGTCCGCCCACCGCACCCCGGACCTGCTGTTCCAGTACGCCGAAGAAGCCGAGGCGCGTGGCATCGAAGTGATCATCGCCGGCGCCGGCGGCGCGGCTCACCTGCCAGGCATGTGCGCGGCCAAGACGCACTTGCCGGTACTGGGCGTGCCGGTACAGTCATCGATGCTCTCGGGCGTCGATTCGTTGCTGTCGATCGTGCAGATGCCCGCCGGCATCCCGGTTGCCACCCTGGCCATCGGCAAGGCCGGCGCGATCAACGCAGCCCTGTTGTCGGCGAGTATCCTGGGCGCCAAGCATCCGCAGTTTCATACCGTGCTGAAAAAATTCCGCGCTGAGCAGACAGACAGCGTCCTGGACAATCCAGACCCACGCATTGCCTGA	MSALVGVIMGSKSDWSTLSHTADMLEKLGIPYEVKVVSAHRTPDLLFQYAEEAEARGIEVIIAGAGGAAHLPGMCAAKTHLPVLGVPVQSSMLSGVDSLLSIVQMPAGIPVATLAIGKAGAINAALLSASILGAKHPQFHTVLKKFRAEQTDSVLDNPDPRIA	PGPT0021545_2795	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021545-purE-K01588	NA	NA
D1-35_04478	570			hypothetical protein	ATGCCAAAACCTATCGTGATCCTAGTTATCCAACACGACGATCTAAAAGACTACAGTGTGAGCCAATTCTATCCCGATTATTTTTCCTGGTTTAACACCGAGCTGGAAAGAGTTGCACATCGTAAAGTCCAGATTACAGTCCATCCCGTGGGTACTTACCCCGCGCTCTCGGGATTCAATTACAAGCATGTAGACGAAGTAAAAACCATCCGGGAATGGCGGCGACTGGTGGCGGAACTGCACATCGAGACGGTGCAGAACCGCGGCCTTGAGCCGTCCCTCACCAAGATCCTGTTGCTGACTCGGGACAATCTCAACAGCAAAGTTGCCGGTATCGCGGACGTCAAGGGCTACGCGGCCATTGCTTCAATTACTAAATTCCGGACACCGGCCCATGAAATAGGCCATATGCTGGGCGCGACCCATGATGACGGTGCGATCGAATATGATGGCTGGTGGCATAATTCGATCATGTTCGGCGACGACTTCCAGGATTTTCGTGGCAATACTTACCGCTTTACCGAAAAGAACCGGGCAAACATCCGTAGCTACGTAGACTCCTTCGACTGA	MPKPIVILVIQHDDLKDYSVSQFYPDYFSWFNTELERVAHRKVQITVHPVGTYPALSGFNYKHVDEVKTIREWRRLVAELHIETVQNRGLEPSLTKILLLTRDNLNSKVAGIADVKGYAAIASITKFRTPAHEIGHMLGATHDDGAIEYDGWWHNSIMFGDDFQDFRGNTYRFTEKNRANIRSYVDSFD				NA	NA	NA	NA	NA
D1-35_04479	912	yjiE_1		HTH-type transcriptional regulator YjiE	ATGAATCTTGAAAGCAAATGGCTAGAGGACTTCAGTGCCTTGGCCGCGACGCGCAGTTTTTCCCAGGCGGCCGAGCGCCGCTTTGTGACGCAACCAGCGTTCAGCCGGCGGATCCGCAGCCTGGAGGCGGCGCTGGGGCTGACCCTGGTCAACCGCTCCCGCACGCCGATCGAACTGACTGCGGCGGGACAGTTGTTCCTGGTAACGGCGCGCACGGTGGTCGAGCAGTTGGGCGAAGTGCTGCGGCACTTGCACCACCTGGAGGGCGGGCAGGGCGAAGTTATCCAGGTAGCGGCGGCACATTCCCTGGCGCTGGGTTTCTTTCCGCGCTGGATCGCCCAGTTGCGCAACGAAGGCATGAACATCGCCACGCGGCTGGTGGCGACCAATGTCGGTGATGCGGTGCATGCCCTGCGTGAAGGGGGCTGCGACTTGATGCTGGCCTTCTACGACCCGGATTCGGCGATGCAGATGGACCCGGAGATCTTCCCATCGTTGCACCTGGGCCAGACCGAAATGCTCCCCGTCTGCGCGGCCGATGCCGACCGCAAGCCGTTGTTCGACCTGGAGGGCGAGACCAGCGTGCCCCTGCTGGCCTACAGCGCCGGCGCTTTTCTGGGCCGTTCGGTGAACCAGTTGTTGCGCCAGCGGGCCCTGCGTTTCACCACGGTCTACGAGACGGCCATGGCTGACAGCCTGAAAAGCATGGCCCTGGAAGGCCTGGGCATCGCCTGGGTGCCGCACCTGAGTGTGCGCAACGAACTGGCCCGGGGCGAGCTGGTGATATGCGGCGGGGCGCAATGGCACGTGCCGCTGGAAATCCGCCTGTACCGCTGCGCCCTGGTGCGCAAGGCCAATGTGCGGTTGTTGTGGCGCAAGCTTGAGGGTGGGGCGGCCAGCCCTGCGGCTTGA	MNLESKWLEDFSALAATRSFSQAAERRFVTQPAFSRRIRSLEAALGLTLVNRSRTPIELTAAGQLFLVTARTVVEQLGEVLRHLHHLEGGQGEVIQVAAAHSLALGFFPRWIAQLRNEGMNIATRLVATNVGDAVHALREGGCDLMLAFYDPDSAMQMDPEIFPSLHLGQTEMLPVCAADADRKPLFDLEGETSVPLLAYSAGAFLGRSVNQLLRQRALRFTTVYETAMADSLKSMALEGLGIAWVPHLSVRNELARGELVICGGAQWHVPLEIRLYRCALVRKANVRLLWRKLEGGAASPAA				NA	NA	NA	NA	NA
D1-35_04480	1425	aspA	COG1027	Aspartate ammonia-lyase	ATGTCCTCCGCTGCATCATTCCGCACAGAAAAAGACCTGCTTGGCGTACTCGAAGTACCGGCGCAAGCGTATTACGGCATCCAGACCCTGCGAGCGATCAACAACTTTCGTCTCTCCGGCGTCCCGATCTCGCATTACCCGAAACTGGTGGTCGGTCTGGCAATGGTCAAGCAAGCCGCCGCTGACGCCAACCGTGAGTTGGGCCAGCTCAGCGAAGCCAAGCACGCCGCCATCAGCGAAGCCTGTGCACGATTGATCCGCGGCGATTTCCACGACGAATTCGTGGTGGACATGATCCAGGGCGGCGCCGGCACGTCGACCAACATGAATGCCAACGAAGTCATCGCCAACATCGCGCTGGAGGCCATGGGTCACCAGAAGGGCGAATACCAGTATCTGCATCCGAACAACGACGTGAACATGGCGCAGTCGACCAACGACGCCTACCCGACCGCGATCCGCCTGGGTCTGCTGCTGGGCCACGACGCGTTGCTGGCCAGCCTCGACAGCCTGATCCAGGCGTTCGCCGCCAAGGGCGAGGAATTCAGCCACGTACTTAAAATGGGCCGTACCCAACTGCAAGACGCCGTGCCGATGACGTTGGGCCAGGAATTCCGCGCGTTCGCCACCACCTTGAGCGAAGACCTGGCGCGTCTGAAAACCCTGGCGCCTGAATTGCTCACCGAAGTGAACCTGGGCGGCACCGCCATCGGTACCGGCATCAACGCCGATCCGCGTTACCAGGCCCTGGCCGTACAACGCCTGGCGACCATCAGCGGCCAACCGCTGGTTCCGGCCGCCGACCTGATCGAAGCGACCTCCGACATGGGCGCCTTCGTGCTGTTCTCCGGCATGCTCAAGCGCACCGCGGTCAAGCTGTCGAAGATCTGCAACGACTTGCGCCTGCTGTCCAGCGGCCCACGCACCGGCATCAACGAAATCAACCTGCCGGCCCGCCAGCCAGGCAGTTCGATCATGCCTGGCAAGGTCAACCCGGTGATCCCTGAAGCGGTGAACCAGGTCGCGTTCCAGATCATCGGCAACGACCTGGCGCTGACCATGGCGGCCGAAGGCGGCCAACTGCAACTGAACGTGATGGAGCCGCTGATCGCCTTCAAGATCTTCGACTCGATCCGCCTGCTGCAACGGGCCATGGACATGCTGCGCGAGCACTGCATCGTCGGCATCACCGCCAACGAAGCGCGCTGCCGCGAACTGGTCGAGCACTCGATCGGCCTGGTTACCGCCCTGAACCCGTACATCGGCTATGAAAACGCCACCCGCATCGCCCGCGTTGCCCTGGAAAGCGGCCGCGGCGTGCTGGAACTGGTGCGCGAGGAAGGCTTGCTCGACGACGCCATGCTCGACGACATCCTGCGCCCGGAAAACATGATTGCTCCGCGTCTGGTCCCACTGAAGGCTTGA	MSSAASFRTEKDLLGVLEVPAQAYYGIQTLRAINNFRLSGVPISHYPKLVVGLAMVKQAAADANRELGQLSEAKHAAISEACARLIRGDFHDEFVVDMIQGGAGTSTNMNANEVIANIALEAMGHQKGEYQYLHPNNDVNMAQSTNDAYPTAIRLGLLLGHDALLASLDSLIQAFAAKGEEFSHVLKMGRTQLQDAVPMTLGQEFRAFATTLSEDLARLKTLAPELLTEVNLGGTAIGTGINADPRYQALAVQRLATISGQPLVPAADLIEATSDMGAFVLFSGMLKRTAVKLSKICNDLRLLSSGPRTGINEINLPARQPGSSIMPGKVNPVIPEAVNQVAFQIIGNDLALTMAAEGGQLQLNVMEPLIAFKIFDSIRLLQRAMDMLREHCIVGITANEARCRELVEHSIGLVTALNPYIGYENATRIARVALESGRGVLELVREEGLLDDAMLDDILRPENMIAPRLVPLKA	PGPT0020125_1138	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020125-aspA-K01744	NA	NA
D1-35_04481	1452	alsT	COG1115	Amino-acid carrier protein AlsT	ATGCTCGAAGTCATCAACGACTTCCTCTCAGGGAAAGTGCTGATCGTGCTCATTGTCGGGCTCGGTGGCTACTTCACGATCCGCTCGCGTTTCGTCCAGTTCCGTCATTTCTTTCATATGTTCTCGGTGTTCCGGGACAGCCTGAAAAGCAGCACTGACCAGCTCAGCTCCTTCCAGGCCCTGATGCTCAGCCTTGCCGGCCGTGTCGGCGCGGGCAACATCGCCGGTGTCGGCATCGCCGTGACCCTCGGCGGGCCTGGTGCAGTGTTCTGGATGTGGGTGACCGCGCTGGTCGGCATGTCCAGCAGCTTCTTCGAGTGCTCCCTCGGCCAGCTCTACAAGCGCTGCGATTCCGAAGGCCAGTTCCGTGGTGGTCCGTCCTACTACATCCAGCACGGCCTGCAGAAACGCTGGCTGGGCATGATCATGGCGTTCCTGCTGCTGATCACCTTCGGCTTCGCCTTCAACGGCCTGCAAGCCCACGCCGTCACTCACTCCCTGAATAACGCCTTCGGCCTCGATACCACCTACACCGGCCTCGGCCTGGCGGTGCTGCTGGGCCTGGTATTCATCGGCGGGATCAAGCGAATCGCCAAGGTTGCGGACCTGCTGGTACCGGTCAAGACCCTGGCATACATCGCCGTGACGCTTTACGTGATCGTGCTGCAATTCGAACATGTACCAGGCATGCTGGCGACGATCGTCAGGAGCGCCTTCGGTCTGGACCAGGCCTTTGGCGGCCTGATCGGCAGCGCCATCGTCATGGGCGTCAAGCGTGGCGTGTTCGCCAACGAAGCCGGCCTGGGCAGTGCGCCTAACGTGGCCGCCGTGGCGTCGGTGGAGCACCCGGTCGCCCAAGGCGTGGTCCAGGCGTTCAGCGTTTTCCTCGACACGTTCGTGATCTGCACCTGCACCGCGCTGCTGATCCTGCTGTCGGGTTTCTACACCCCAGGCTTCGAAGGCGACGGCATTGCCCTGACCCAGAACTCCCTGGCGGCCGTGGTCGGCGACTGGGGCCGGATATTCATCTCAGTGGCCCTGTCGTTGTTCGTGTTCACCTCGATCCTCTACAACTATTATCTGGGCGAAAACAACCTGCGCTTCATGCTAGGTGAAAACCGCAAGGCGCTGATGGCCTATCGCGCCTTGGTCCTGGGACTGATTTTCTGGGGCGCCATCGAGAACCTCGGCACCGTGTTCGCGTTCGCCGATATCACCATGACGCTGCTGGCGTTCGTGAACCTGATCGCGCTGTTCCTGCTGTTCAAGGTCGGCATGCGCATCCTGCGCGACTATGACGACCAGCGTTCGGCTGGTATCAAGGTTCCGGTCTTCGATTCCAGCAAATTCCCCGACCTGGACCTGGACCGCAAGGCCTGGCCAGCGAACCCGTCGACCCCCGCCGCTGAATCCGGCAACGCCCCCGCGAGCCTGGCCGCAGCGCAACGCTGA	MLEVINDFLSGKVLIVLIVGLGGYFTIRSRFVQFRHFFHMFSVFRDSLKSSTDQLSSFQALMLSLAGRVGAGNIAGVGIAVTLGGPGAVFWMWVTALVGMSSSFFECSLGQLYKRCDSEGQFRGGPSYYIQHGLQKRWLGMIMAFLLLITFGFAFNGLQAHAVTHSLNNAFGLDTTYTGLGLAVLLGLVFIGGIKRIAKVADLLVPVKTLAYIAVTLYVIVLQFEHVPGMLATIVRSAFGLDQAFGGLIGSAIVMGVKRGVFANEAGLGSAPNVAAVASVEHPVAQGVVQAFSVFLDTFVICTCTALLILLSGFYTPGFEGDGIALTQNSLAAVVGDWGRIFISVALSLFVFTSILYNYYLGENNLRFMLGENRKALMAYRALVLGLIFWGAIENLGTVFAFADITMTLLAFVNLIALFLLFKVGMRILRDYDDQRSAGIKVPVFDSSKFPDLDLDRKAWPANPSTPAAESGNAPASLAAAQR	PGPT0014405_1766	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
D1-35_04482	1005	ansA	COG0252	L-asparaginase 1	ATGAATGCCTCGACCTATCCCGCCGCCCAGCACGTCATGGTGCTCTACACCGGCGGCACCATCGGTATGCAGGCCAGCGCCAACGGCCTGGCGCCGGCATCCGGTTTCGAAGCGCGGATGCGCGACTACCTGCACAGCCAGCCCGAACTGGTTATCCCGCAATGGCGTTTCCGGGAGATGTCGCCGCTGATCGACAGCGCCAACATGACCCCGGCCTACTGGCAGCAACTGCGCGAAGCGGTGGTCGACGCCGTCGACGTACAGGGCTGTGACAGTGTGCTGATCCTGCACGGTACCGACACACTGGCCTACAGCGCCGCCGCCATGAGTTTCCAGTTGCTCGGCTTGCACGCGCGGGTTTGCTTCACCGGTTCGATGCTGCCGGCCGGCGTGACCGACAGCGACGCCTGGGAAAACCTCAGCGGCGCCCTGGTCGCCCTCGGCCAGGGCCTGGCGCCGGGCGTCCACCTGTATTTCCACGGTGAACTGCTGGCGCCGACCCGCTGCGCCAAGGTGCGCAGCTTTGGTCGCCATCCGTTCAAGCGCCTGGAGCGCCAGGGCGGCGGCATCAAGGCCACTTCGCTGCCGGCGCAGTTGAATTACAACCAGCCGAAACAGTTGGCAAATGTCGTGGTGCTGCCATTGTTCCCTGGCATTGGCGCCGAGGTTATCGATGGCTTGCTGGGCAGCGGCATCCAGGGCCTGGTGCTGGAGTGCTACGGCAGCGGCACCGGTCCGAGCGACAACCCGGCCTTCCTCGCCAGCCTGGAACGGGCGCGGGACAACGGCGTGGTGGTCGTGGCGGTCACACAATGCCATGAAGGCGGCGTCGAGCTGGACATCTACGAAGCGGGCAGTCGCTTGCGCGGCGTCGGCGTGCTGTCCGGCGGCGGCATGACCCGCGAGGCCGCGTTCGGCAAGTTGCAGGCGTTGATCGGTGCGGGCTTGCCGGTGGATGAGGTTCGGCGGCTGGTTGAGCTGGATCTATGTGGCGAGCTGATCTGA	MNASTYPAAQHVMVLYTGGTIGMQASANGLAPASGFEARMRDYLHSQPELVIPQWRFREMSPLIDSANMTPAYWQQLREAVVDAVDVQGCDSVLILHGTDTLAYSAAAMSFQLLGLHARVCFTGSMLPAGVTDSDAWENLSGALVALGQGLAPGVHLYFHGELLAPTRCAKVRSFGRHPFKRLERQGGGIKATSLPAQLNYNQPKQLANVVVLPLFPGIGAEVIDGLLGSGIQGLVLECYGSGTGPSDNPAFLASLERARDNGVVVVAVTQCHEGGVELDIYEAGSRLRGVGVLSGGGMTREAAFGKLQALIGAGLPVDEVRRLVELDLCGELI	PGPT0020180_2297	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
D1-35_04483	993			putative HTH-type transcriptional regulator	ATGCTGCATTCCCACCTCACCACGCTCAACGCGGTCTCCCTGGTGCTCAACGCGTTCAGGAACGAAGGCTTGCCCAGTGAAGCGCTATTGGCCGGCAGCGGCATCAGCATGGCGCACCTGAGCCGGGCCGACACACGCATCACCACCAACCAGGAGATGCAGGTCTGCGCCAACGCCGTGGCGCTCAAACGTGACATAGGCCTGGAATTGGGCCGCAACATGCACGTTTCGTCCTACGGCATGCTCGGCTATGCCCTGCTCACCAGCGCCACCTTAGGTGACGCTTTACGCCTGGCGCTGCGTTACCCGGCGCTATTGGGAACACTCTTTGAGCTGACACTGGAAGACGACGGCGAGCACATCTGGCTCAGCGCCAGCGACTATCGGGAAAACCCGGCCCTGGCGGTGTTCAATGCCGAGTTCTGCATGGTCTCGCTGAGGGTCATCTGCAACGACCTGCTCGGTCATGCGCTCCCCTTGCGCGCGACGCGTTTCGAACACTCGGCACCGGATTATCAGGCACGTTATGAGGCCCTGTTCGAGTGCCCTGTGCGTTTTGACAGTATCGACAACGCGTTCGCCTTCGATCGTCACTGGCTCGCGCAGCCCTTGCCACTGGCTGACCCCATCACTCATCACGCCATGGCCGAACGCTGCCGCCGCCAGAACACCGAGTTCACTGGCAGGCAGGCCTGGCTGGGACGCATCCGCCACTCGCTCGCCGCACAACTGGATGCCCCGCCAGGCCTGGAAGGCTTGGCCGAACAGATGAACTGCTCGGCGCGCACCCTGCGCCGGCATCTCAAGGACCTGGGCTGCAGCTACCAGGAATTGCTCGATGAACTGCGCTTCGAACGGGCCAAGCAGATGCTCGGTGAAGATCAATTGCCGATCTACCGGATCGCCGAAATGCTCGGCTTCAGCGAAACAGCCAGCTTCCGCCACGCATTCGTACGCTGGAGCGGCGTGGCGCCGAGTCAGTTCAGGCCATGA	MLHSHLTTLNAVSLVLNAFRNEGLPSEALLAGSGISMAHLSRADTRITTNQEMQVCANAVALKRDIGLELGRNMHVSSYGMLGYALLTSATLGDALRLALRYPALLGTLFELTLEDDGEHIWLSASDYRENPALAVFNAEFCMVSLRVICNDLLGHALPLRATRFEHSAPDYQARYEALFECPVRFDSIDNAFAFDRHWLAQPLPLADPITHHAMAERCRRQNTEFTGRQAWLGRIRHSLAAQLDAPPGLEGLAEQMNCSARTLRRHLKDLGCSYQELLDELRFERAKQMLGEDQLPIYRIAEMLGFSETASFRHAFVRWSGVAPSQFRP				NA	NA	NA	NA	NA
D1-35_04484	1032	aphA	COG0123	Acetylpolyamine amidohydrolase 1	ATGCTGACGATTTATTCCGACGATCACCACCTGCACCATGGACGTTGCGAGTTGATGGACGGGCAGCTGATGCCCTGCTTCGAAATGCCCTCCCGCGCCGATCATGTGCTGGAGCGGGTCAAGGCTAGGGCGTTGGGGCCGGTGGAGGCGCCACGGGATTTCGGCCTGGGGCCGATCCAGCGCATCCACAGTCCGCAATACCTTGAATTCTTCGAGAGTGCCTGGGACCGCTGGAGCGAATTCAACCGCGACGGCGACCTGCTGCCCTATACCTGGCCGGCGCGCACCCTGCGTACCGTTATCCCGACGAGCCTGCACGGTCAACTCGGCTATTACAGTTTCGACGGCGGCGCCCCGATTACCGCCGGCACCTGGCAGGCCGCCTACAGCGCAGCCCAGGTCGCCCTCACCGCCCAGGCCGAAATCCAGCGCGGTGCCCGCAGTGCCTTCGCGTTGTGTCGGCCACCGGGGCACCACGCCGCCAGCGACTTGATGGGCGGTTATTGCTACCTCAACAACGCGGCGATCGCCGCCCAGGCTTTCCTTGACCAGGGCCACCGGAAGGTCGCGATCCTCGATGTCGACTACCACCATGGCAACGGCACCCAATCGATTTTCTACCAACGCAGCGATGTCCTGTTCGCCTCGATTCATGGCCATCCTGAAGCCGAATTTCCGTTCTTCCTGGGCTACGCCGACGAGCGCGGCGAAGGTGCCGGCACGGGATTCAATTTCAACTACCCGCTGCCCGCCGGTTCCGGTTGGGACAGCTGGAGCGCCGCCCTCGAACAGGCCTGCGGCGAGGTCCTGGACTATGACGCCGATGTCATCGTCGTCTCCCTGGGCGTGGACACCTTCAAGGACGACCCGATCTCTCAGTTCAAGCTCGACAGCCCGGATTACCTGGCGATGGGCAAACGCATCGCGGCGCTCGGCAAACCGACGCTGTTCGTGATGGAGGGTGGTTATGCGGTGACCGAAATCGGCATCAACGCGGTGAACGTTCTCGAAGGTTTTCAAAGCGCCCAATGA	MLTIYSDDHHLHHGRCELMDGQLMPCFEMPSRADHVLERVKARALGPVEAPRDFGLGPIQRIHSPQYLEFFESAWDRWSEFNRDGDLLPYTWPARTLRTVIPTSLHGQLGYYSFDGGAPITAGTWQAAYSAAQVALTAQAEIQRGARSAFALCRPPGHHAASDLMGGYCYLNNAAIAAQAFLDQGHRKVAILDVDYHHGNGTQSIFYQRSDVLFASIHGHPEAEFPFFLGYADERGEGAGTGFNFNYPLPAGSGWDSWSAALEQACGEVLDYDADVIVVSLGVDTFKDDPISQFKLDSPDYLAMGKRIAALGKPTLFVMEGGYAVTEIGINAVNVLEGFQSAQ				NA	NA	NA	NA	NA
D1-35_04485	1101	spuD_2	COG0687	Putrescine-binding periplasmic protein SpuD	ATGAAAAGACTCAAGCGTCTGATGGCTCCAGCCCTCTGCGCCACGCTGCTGTGCGGCGCGGTCCAGGCCGAGGAGCGCACCCTGCGTGTCTACAACTGGTTCGACTACATCACGCCCAAGGCCCTGGAAGACTTCAAGGCGCAGCACAGCCAGGTCAAACTGGTCTACGACATCTTCGACACCAACGAAGCCCTGGAGGCCAAGCTGCTCACCGGTAACGCCGGCTACGACGTGGTGGTGCCGTCCAATGTGTTCCTGGCCAAGCAGATCGAGGCCGGCGTATTTCAGCCTCTGGACCGCAGCAAATTGCCGAACTGGAACCACCTCGATCCCAAACTGATGAAGCTGATCGAAGCCAACGATCCGGGCAACAAATTTGCGGTGCCCTATATGTACGGCACCATCCTGATCGGTTTCAACCCGGCCAAGATCAAGGCCGCGCTGGGCGACAATGCGCCGGTGGACAGTTGGGACCTGATCTTCAAGGAAGAAAACATCAGCAAGCTCAAGCAGTGCGGCGTGGCCCTGCTCGATTCGCCTTCGGAAATCCTGCCCTTGGCCCTGCAGCACCTGGGCCTGGATCCCAACAGCAAGAAACCGGCGGACTATGCCAAGGCCGAAGCGCTGCTGATGAAGATCCGCCCGCATATCACGTATTTTCACTCATCCAAATACATGGCCGACATCGCCAACGGCGACATCTGCGTAGCGGTCGGCTACTCCGGCAGCTTCTCCCAGGCCGCCAACCGCGCCAAGGAGGCCAAGAACGGCGTGACCGTGGACATGCGCCTGCCCAAGGAAGGCGCGCCGATCTGGTTCGACATGCTGGCCATTCCCAAGGGCGCGAAGAACCCGGACGACGCCTACGCCTTCATCGACTATCTGTTGCAGCCGAAGGTGATCGCGCCCGTCAGTGACTTTGTCGGCTACCCGAACCCGAACAAGGACGCCACCGACATGGTCGATCCGGCAATCCGCAACAATCCCAACCTGTATCCGACCGAGGCGGCAATGGCAACGCTGTACACGTTGCAACCCTTGCCGAGGGATGCCGAGCGGGCGCGGACGAGGGCCTGGACGAGGATAAAGTCAGGCCAGTAA	MKRLKRLMAPALCATLLCGAVQAEERTLRVYNWFDYITPKALEDFKAQHSQVKLVYDIFDTNEALEAKLLTGNAGYDVVVPSNVFLAKQIEAGVFQPLDRSKLPNWNHLDPKLMKLIEANDPGNKFAVPYMYGTILIGFNPAKIKAALGDNAPVDSWDLIFKEENISKLKQCGVALLDSPSEILPLALQHLGLDPNSKKPADYAKAEALLMKIRPHITYFHSSKYMADIANGDICVAVGYSGSFSQAANRAKEAKNGVTVDMRLPKEGAPIWFDMLAIPKGAKNPDDAYAFIDYLLQPKVIAPVSDFVGYPNPNKDATDMVDPAIRNNPNLYPTEAAMATLYTLQPLPRDAERARTRAWTRIKSGQ	PGPT0007805_981	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007805-potF-K11073	NA	NA
D1-35_04486	4608			hypothetical protein	ATGACACAACCTCCATCCAGCAATCCCGCTTCTGAGATCGATCTCCAAAGAGCCGTATTCAGTCAACTACTCATGGGCCCCTCCTATATAGAGGTAGCCGCCGTCCTTCTACGCGATGCTCTAAAAAAGCAATATCCGACGCTGGACCTTGATCCGAACACAACGGTAATCGGCGAACCGGCGTGGGACATCATTGATGGCGAAATCGTGGAGCTTCCCACACGCTATGAAACACTCAGCGATAGGTTGGCGGAGCAGGTCATCAATAGCGATCCGGTGTTGCTGATCGATGGCTTGCATTTCCTCAGTCGACTACCGCTGAGCAGGCCCGATGTGCATTTACCGGTCCGCATCGAGCAGATCGGGTGTCTTATCAATGAATTGACACCGGCCATCTTTGCGGCGGGCCAGGAACAGCAGTTGAAATTCTGGAACGCGTTATCCGACAGTTCCGGCCCGCGCTGGCACTATTTGTCCGAAACCCTGCAAAACATCTGGAACGTCACAGAAGTCAACGGCTGGACTGAGACTGAATGCGACATGGCCAGAGAACTGTTCCTTCACCCCACCTCGCAGGATCGCGAAAATAACAGCCGTTATGGGGCCCAGGCATACCTGATCGATATCAACGCGATTACCGATTATGGAACCGGACGCCACAGGGCAAACGCACTGGTGGTACTGACCGGCACGATTGACGGCGCAGAAGTCATTCTTGCGCATTCAATGCTCAATGGTTATGAAAAGTTTGACTCCCGCTCCGCACTCGAACAATCGCTTGCGGACCATGCCTACCCCAGGCCCGACTATAAGATGCAGTGGCGCTTCTTTGAGCCCTCCGAGAACATTTTTGCTTATGCAGCCTGCGCAATAATTTCGTCGCAGATCGAAATTATCGGCGACCCGGGTATAGCGAAAATGTCGCCCCCTGACGAAACTGAATCGCCGGACGGGAGTCGTTCCGTTGATCTGGAGTGGTTCAAAAACAAGTTACCCGACTGGCTGACGACCGCTTCCGCATCCGACCAGAATATGTTTGCCGAACACCTGAAAAAACTCTCGGAACTGAATGGCTCGCAGGCTGGCAAGACCTACCTGGATGATATCCCCCCCATCAAGAGCTTCGTATTGAGTGCTCTGAAAACACGGATGCAATCACAACACGCCGACGCCTCGACACTGGATCTGGAAACCATTGAAATCCAGATAAGCAACGTTGTCGTCTGGGGTAGTTTTGTCGTCCCCGGAAAGATCGAAACCACTCGATTCAGCCTCGTCGAATTGGCACTGCAAAATCTGATCGCCGTTCCCTTGGGCGATAAAATCGTCCGGTCGCTCGATGGCAAAGAATTGCCTGACTGGATGACGGTTGCTTTCATCGAGAATGTGATCACCACAATCGACATCGGTCGCACTTACCCCCAGTGGGTCAAAAGCAAGTTACTTGACGATCCGCTAGAATCCAAACGCCGCGAACATTTGTACACTTCCCAACTCCGGGTACAGCTCCCCATGCTTGCATTGGAAAGCCAACTCCGTGGACAAGGCGGCATTGATGAACGCGGTTATAGTTATGTCGCGGCACTGATGAACCCCGACGAGGCCGATCGCAAAGTGGACGGACAGCCCATCGTCCTGCGACAACTGGCTTTCGTACCCGAGCTGCAACTGGGCAATACCCAGGACATCGTGGCCAACATGTTTGTAATCGGTCCGCAAGATTCAAATGCCGGGCCTTGCCTGCTCTACCGTCCCCTGCTTGAGCCACAGCTGTGCCAGTACCCGTCATTCAGCAACTTGCTATATGACATCAGGCAAACCGCCTCCCTGCGTCAATCCGTACTCGCCTGGCTGCCCAAGGAAGTGCATAACAGCTACAGCCGGTACATTTTCCCAGGGCCGCTGCCTTCACCCTGGAGCATCGTGGAGTTCGTGACGAACCCTTTGGCGGCGATCTCCAACAGCGGCCCCATCAGCTTGAGCAACGAGACCTTGGGGTCGGATTTCCTGCCCTTGTTATACAAAGCCAACGCCACGGCCCTGGTGGAGCTTGCCGATCGCCAATCGGTCTCCAACAGCGAAAGCCGCTGGGAAAGCTTCAGGCAGGCAGGCTGGGTGATTTTCAACTTGGCACTGCCCTACTTGGGCACTACCGTAGGCAATGCGTTCTGGCTGTGGCAAATCCTTGATGATCTGGAGACATTGTCGCAGAGCGACGAAACGGTTGGCGCCCAAGCCAGATGGCAAGTCATTACCGACTTGCTGTGCAATATCGCACTGGCGACTACTACTTTCAGCCTCGACCGCGCCAGGACAGCCGGGCGCGAACATCCGACAGAAGCTTCTGAACTGGTTCGTGAACTCGAGAGCCTGGCCAAACCAAAACCCGAACTCATTATTGAAAAGCTCGCACCGGTGAAGCAAAAACTCGCGGCCATCGAGCACTATGACACTTTGCGAACCAGCGGCGCCCTGATCAGCCAATCGCGAGAAAGCGCCAGGCTTCTGGAACCCCTGAGTGTCGGAAAACCGCAAAACCCAGGGCAACCCAAGAGCGGGGGCCCGCTCAAAGGGCTTTACGAGCAAGGCGGGAAGCTTTATGTGGAATTGGCAGGTAAATGGTTCCAGGTACTCGCGGATGAAGAACAAGTCGCCATCGTCGATGGGAATGACCACACCCGAGCGGGACCTCTCCTGATGAGTGACACGCAAGGCCAGTGGAACGTTGATACCCGCTTGCGTCTACGCGGAGCAGGATCGGCAAGCATCGTACGAAAGATAAACGCCGAGGCGAGCCGTCGCAACGTTAAAGCGTACGAAGAGCTGAACCGGCTCGAAGTCCGCAGGCTGGAAAACCAGAAATTGCTGGCAATGCATTCGAAGCGGTTGAAGGAAGCCTCGGGCCCGTCCAGGGATGCCAGCCGCGAGGTGTATTTGAGCGCATTGAAGACGCAGCGTGAGAGTTATGACGAAGCGTTGCAGTTGCTGCTTGACTGGCCCATTTCTCAGTCCAGGCCGGACTCTACCCGAACCAGGCTCGGTTACCTCAACGCGCAAATCAATTTCACGTTCGCAGAGATAGACACGCTGGGAGAACGATTTACCCCAGTGATGCAAGCCGCCACGGAAATGATTACCTCCGGGGTCAAGATCCTGGAGCAACAACATGCGAATACAGCCTATAGCTTGCTCCAGCTCGGCAACGAGATGATCGAACGCTTGGACTACATGGAAACTCGCTTTTCCAGGCTCAAGGAGCTGGGCAGAGAGGGATTCGAGTTTGTCCGACAACACCGAAAAATGATGCCTGTTTATAAAAGCGACGATCTTCGGCTGTACCAGTTGGACATGTATCGCCACCTCTGCCTGTCGCTCGACAGTGTTAACACCGTACCTGAAGCCTGGGCGGATATTAACCAGATGGTTGATAACTCCACGGTTGCGTTCCAAAGCCTGCGCGACGCAATTGACGAGCGCAGCGTGATCCGCCTGGATGAGCAAATCAATGCACTCGGCAGCCTGACCGAACAATTCACGGCCATTGAAGACCACGTCAAGTATGTGGCTGATGAATACCGGGAACATGCCCGGTTGGCCCAACTCAACCGACTCAAAAACCAGGTCAGCGCCATGAAGAAAAGGGCCTTGCGCCATTTGGCGCTTGCCCTCGACGAAAGAAGCACCCGGCGCAGTACACCTGCTCCCTACCAGGAACGTCCGCGGCCCAGGAGGAAGTTCATCAGGGCACGCTTCTGGGGTCTTGTGAGCGTCGAACCCCGCCTATCGGAGCTGTATGAAGAAACCGATTGGGCCGACGTGAAAAAACCGTTCTCGGATGAAATCATTGTCACGTTCCACCATAAAAAAACCGGAGAATGGGTACAACACATCAATCCCGACGCGCCGCCACAACCCACCCCAACGCTGACCAGCTGCATTACCAAGGGCCAAGCCCTTATTGATGGATTGCCTGCGTTCAAGGCGCAAGTGGAAGAAAGCAAAAAACAGTCAGATCGTACTCCGGCGGGTGTCGGGATGGTGATCAATGCACACGCTCGCAGGATGGATACAATCAGCGTCGCAATCAAAACGGTGCTCGACCAAGTGCAAAGCGCCGGTACAAACGAAACGACTGAAATTTCTCCAGCGGAAAAAACCCAACGGCGAACAGCTGAGTCCCTGCGGGTAGAACTTGAAAAAGAAACCCTGGCCCTTTATGCGCTGGGATTTGATACCGAGCAGCAAGCCATCAAGCAAAGCCCACCGACCATGAGTAATGTCCTCTGGCTCAAAGAGCGAAACCAGATTGTCATTACAGGAAAGAAGAAACGTCAGAGAATCAAGAGTGCCCGCTATCTGGACAGGTACGAAATCAGGGACCGAACCGACAGGAAAACCCTATGGTTCGCAGATTTCCATTACTCCAGAAACTGGACACCTGAACATGCGTTTCTCAGCGGCCATTTGAAGACCCCTGAACAAGTTGCGTCGGGAAAACCCGTCGTCCCTCCTCAACGGCTTAGCCAAAGCCAATTGATCGATCTTTACCGCAGTGAGATCGACGTGGAACAGGCCAAGGCGGTGTTCTTTCCAGCGGTACGGTCTTAA	MTQPPSSNPASEIDLQRAVFSQLLMGPSYIEVAAVLLRDALKKQYPTLDLDPNTTVIGEPAWDIIDGEIVELPTRYETLSDRLAEQVINSDPVLLIDGLHFLSRLPLSRPDVHLPVRIEQIGCLINELTPAIFAAGQEQQLKFWNALSDSSGPRWHYLSETLQNIWNVTEVNGWTETECDMARELFLHPTSQDRENNSRYGAQAYLIDINAITDYGTGRHRANALVVLTGTIDGAEVILAHSMLNGYEKFDSRSALEQSLADHAYPRPDYKMQWRFFEPSENIFAYAACAIISSQIEIIGDPGIAKMSPPDETESPDGSRSVDLEWFKNKLPDWLTTASASDQNMFAEHLKKLSELNGSQAGKTYLDDIPPIKSFVLSALKTRMQSQHADASTLDLETIEIQISNVVVWGSFVVPGKIETTRFSLVELALQNLIAVPLGDKIVRSLDGKELPDWMTVAFIENVITTIDIGRTYPQWVKSKLLDDPLESKRREHLYTSQLRVQLPMLALESQLRGQGGIDERGYSYVAALMNPDEADRKVDGQPIVLRQLAFVPELQLGNTQDIVANMFVIGPQDSNAGPCLLYRPLLEPQLCQYPSFSNLLYDIRQTASLRQSVLAWLPKEVHNSYSRYIFPGPLPSPWSIVEFVTNPLAAISNSGPISLSNETLGSDFLPLLYKANATALVELADRQSVSNSESRWESFRQAGWVIFNLALPYLGTTVGNAFWLWQILDDLETLSQSDETVGAQARWQVITDLLCNIALATTTFSLDRARTAGREHPTEASELVRELESLAKPKPELIIEKLAPVKQKLAAIEHYDTLRTSGALISQSRESARLLEPLSVGKPQNPGQPKSGGPLKGLYEQGGKLYVELAGKWFQVLADEEQVAIVDGNDHTRAGPLLMSDTQGQWNVDTRLRLRGAGSASIVRKINAEASRRNVKAYEELNRLEVRRLENQKLLAMHSKRLKEASGPSRDASREVYLSALKTQRESYDEALQLLLDWPISQSRPDSTRTRLGYLNAQINFTFAEIDTLGERFTPVMQAATEMITSGVKILEQQHANTAYSLLQLGNEMIERLDYMETRFSRLKELGREGFEFVRQHRKMMPVYKSDDLRLYQLDMYRHLCLSLDSVNTVPEAWADINQMVDNSTVAFQSLRDAIDERSVIRLDEQINALGSLTEQFTAIEDHVKYVADEYREHARLAQLNRLKNQVSAMKKRALRHLALALDERSTRRSTPAPYQERPRPRRKFIRARFWGLVSVEPRLSELYEETDWADVKKPFSDEIIVTFHHKKTGEWVQHINPDAPPQPTPTLTSCITKGQALIDGLPAFKAQVEESKKQSDRTPAGVGMVINAHARRMDTISVAIKTVLDQVQSAGTNETTEISPAEKTQRRTAESLRVELEKETLALYALGFDTEQQAIKQSPPTMSNVLWLKERNQIVITGKKKRQRIKSARYLDRYEIRDRTDRKTLWFADFHYSRNWTPEHAFLSGHLKTPEQVASGKPVVPPQRLSQSQLIDLYRSEIDVEQAKAVFFPAVRS				NA	NA	NA	NA	NA
D1-35_04487	1551	gabR_2	COG1167	HTH-type transcriptional regulatory protein GabR	ATGCCCGATGCCGTACCGCCATTGTCTTTCAACCCCGCCGGCATCGAGCTGGACCGCCGCCATGGGCTCAGTCGCCAGCTCTATCAGGCCTTGCGTGGGCGAGTACTGGACGGACGCCTGGCCAGCGGCACACGATTGCCGGCCAGCCGCGACCTGGCGGCGGCGTTGTCGATTTCCCGCAACAGCGTGGTACGCGCCTACGACCAGCTGTATGCCGAAGGCTTCATAGAAGGGCGAGTGGGTGACGGCACCTACGTGGCGAAACTTTCACCGCTGGCAATGCCGTCGGGAAAATTATCCACAAAACCATCCACAGGGTTTTCAACAGGCTTACCCACAGCCTTATCCACAGTTCAGCTTGATTCCCCTGTGTTTTCATCCAGCAAAGTTATCCACAGCAACGCGCTCGAACGGGTCGAAAAGCACCATTTGGCCCAGCCCCCGAGCGGACCGCCAAGAGCATTTCGGGTCGGCGTTCCGGCGTTCGATCTGTTTCCTTTCGACGTGTGGGCCAAGCTGAACGCGGCGTTCTGGCGAAAACCGGACCTGCAGCAGTTGTGCTACGGCGATGCCCAAGGCGATGCGCGCCTGCGCGGCCTGGTCGCGGCCTACCTGCGTAGTTCACGGGGTTTGCACTGCTCGGCTGAGCAAATTGTGATCACCAGTGGCGCGCAACAGGCGATCAGCCTTTGTGCACAGTTGCTGGTGGACCCTGGCGACATCGTCGCGGTGGAAAATCCCGGCTATCGCGCCGCGGGGCATGCGTTTGCCGTGGCCGGTGGCGATGTGCGGGGCGTGCCGGTGGACAGCGACGGGCTCGATTGTGCAGCGCTGGCTGCACTGGACCACTGTCGGCTGGCTTACGTGACGCCATCCCATCAATATCCGACCGGAGTAGTCATGAGCCTGGCGCGGCGGCTGGAACTGCTGGCCTGGGCCGGGCGCAACGATGGCTGGATCGTCGAAGACGACTATGACGGCGAGTACCGCTACAGCGGCGCGCCGCTGGCGCCCTTGGCTGCGCTGGATCGTGGAGGCCGTGTCTTGTATGTCGGGACGTTCGGCAAGGTTGCGTTCCCGGCGTTGCGCCTGGGTTACCTGGTGCTGCCGCCCGGCCTGGTCGATGCCTTCGCCCGCCGTCGGGCGGTGGATGTGCGCCATTCTGAAGTCAGCACTCAAGCGGTGATGGCCGAGTTCATGGCCGCTGGACATTTCCAACGGCACATCAGGCGCATGCGTCGGGCCGCTCTGGCCCGCCGCGATGCGCTTCTGGCGGGCTGGCCGGAGGCTGTCGCAGGCGTTGGCGCGATGCCCACCGTGGTCGCCGGGCTGCATGTCACGGTTCCAGTGCAGAGCATCGAGCGCGAGCGTGAACTGATTGCCCAGGCCACTTGCGTCGGCGTCGAAATCAACGGATTGAGCAGTTATTGGTTGCCCGCCACGGCGCCGTCCCAAATCCGGGCAGGCATGGTGCTGGGGTTCGCCGCCGTGCCGTCTGCAGCGATAGACACTGCTCTGGCAAGCTTGGCAAAAGCCTGGGGAATCCGCTGA	MPDAVPPLSFNPAGIELDRRHGLSRQLYQALRGRVLDGRLASGTRLPASRDLAAALSISRNSVVRAYDQLYAEGFIEGRVGDGTYVAKLSPLAMPSGKLSTKPSTGFSTGLPTALSTVQLDSPVFSSSKVIHSNALERVEKHHLAQPPSGPPRAFRVGVPAFDLFPFDVWAKLNAAFWRKPDLQQLCYGDAQGDARLRGLVAAYLRSSRGLHCSAEQIVITSGAQQAISLCAQLLVDPGDIVAVENPGYRAAGHAFAVAGGDVRGVPVDSDGLDCAALAALDHCRLAYVTPSHQYPTGVVMSLARRLELLAWAGRNDGWIVEDDYDGEYRYSGAPLAPLAALDRGGRVLYVGTFGKVAFPALRLGYLVLPPGLVDAFARRRAVDVRHSEVSTQAVMAEFMAAGHFQRHIRRMRRAALARRDALLAGWPEAVAGVGAMPTVVAGLHVTVPVQSIERERELIAQATCVGVEINGLSSYWLPATAPSQIRAGMVLGFAAVPSAAIDTALASLAKAWGIR	PGPT0016790_353	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
D1-35_04488	642	paiB	COG2808	Protease synthase and sporulation protein PAI 2	ATGTACAACCCAAAAGCCTTTGCTGTGGAAGACGTGCCTCACTTGCATCGCATGATGGATGACTGTCGCCTCGCCGTATTGGTTACCCACGGCGAACACGGCTTGCAGGCCAGCCACCTGCCGCTGTTGCTGGACACACGACAGGGACCGAACGGAACCCTCCATGGGCACATGGCTCGCGCCAATCCGCAGTGGCGTGACCTGGAAGCCGGTGCCGAAGCGCTGGTGGTATTTGCAGGCGTCGACGCTTACGTCAGCCCGGGTTTCTATCCGGGCAAGGCCGAGCACGGCAAGGTCGTGCCCACCTGGAATTACCTCGCCGTCCACGCCTATGGCAACGCCGAGGTGTTCGGCGATCCTCAACGGCTGCGCAACCTGGTCGGCGAGCTCACCCACCGCCATGAAAGCGGTCGGGCCCAGCCATGGAAAATCGACGACGCCCCGGCGGAATATATCGACAGCATGCTCAAGGCCATCGTCGGCTTCGCGCTGCCCATCCAGCGTCTGGAAGGCAAGCGCAAGCTCAGCCAGAACCGCAGCCCCGCGGATGCCGCCGGGGTTCGCAACGGGCTCGCCATGAGCCCCGACCCGCAGGGCCAGGCACTCGCACGCCTGATGCCTGAACAATCGCCTCAGGAGTGA	MYNPKAFAVEDVPHLHRMMDDCRLAVLVTHGEHGLQASHLPLLLDTRQGPNGTLHGHMARANPQWRDLEAGAEALVVFAGVDAYVSPGFYPGKAEHGKVVPTWNYLAVHAYGNAEVFGDPQRLRNLVGELTHRHESGRAQPWKIDDAPAEYIDSMLKAIVGFALPIQRLEGKRKLSQNRSPADAAGVRNGLAMSPDPQGQALARLMPEQSPQE	PGPT0014760_523	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ENVELOPE_REMODELLING_REGULATION	CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014760-paiB|yumE-K07734	NA	NA
D1-35_04489	447			hypothetical protein	ATGAGCCAGCTCGAAATCCGCCTTGTCACCGCCGCCGACCACGCTGCCTGGCTACCGCTATGGCAGGCCTACCTGCGGTTCTACAACACCGAACTGCCAGACGCGGTGAGCCAGAGCACCTGGCAACGCTTGCTCGACGACCGTGAGCCCACCCATGGCGCGCTCGCCTGGGATGGCGACACGGCGGTGGGCCTGGTGCATTTCATCTATCACCGTTCCAACTGGAGCATCGAGAACTCCTGCTATCTTCAGGATCTGCTGGTGGCAGAACACTGCCGAGGCAAGGGCGCAGGTCGCCAACTCATCGAATTTGTCTACGCCACCGCCAAGGCCGACGGATGTTGCAAAGTGCACTGGCTGACCCACGAGACCAACGCGACCGCGATCCAGCTCTACGAGCGCATCGCCGAACGCCCTGGCTACATTCAATTTCGCAAAGCCCTCTAA	MSQLEIRLVTAADHAAWLPLWQAYLRFYNTELPDAVSQSTWQRLLDDREPTHGALAWDGDTAVGLVHFIYHRSNWSIENSCYLQDLLVAEHCRGKGAGRQLIEFVYATAKADGCCKVHWLTHETNATAIQLYERIAERPGYIQFRKAL				NA	NA	NA	NA	NA
D1-35_04490	672			hypothetical protein	ATGTCGACTTCGCTCGCTGATTGGAAAGGTATCCCGGCGCCGTTTACGCGCTTGCTCGAAGGACGCTTCATCCGCCTGGAAAAACTCGACCCGGCGCGTCACGCCGACGGATTGTGGCAAGCCCTCGAAGGTCCCGGCGCCGACCCGAAGCTCTGGGACTACCTGCCCTACGGCCCGTTCAAGGAGCGCAGCGGGTTCGATGCCTGGCTGAACAACCATGCGGTCAACGTCGATCCATATTTTTTCAGCGTGATCGACCGCGCCAGTGGCGAAGTGCAAGGCATCCTCAGCCTGATGTCCATCGTGCCGGCCCAAGGCCGTATCGAGATTGGCCACGTCACCTTCGGCGCGCCGATGCAGCGCTCGCCGAAAAGCACCGAGGCGGTGTACCTGCTGGCGAAAGAGTGTTTCGCCCTGGGCTATCGACGCCTGGAATGGAAATGCAACAACGCCAACGCCCGTTCCCGGTATGCCGCCGAGCGGCTGGGGTTCACGTTTGAAGGCGTATTCCGCCAACATATGGTGGTCAAGGGGCAGAACCGCGACACCGCATGGTATTCGATGCTGGACTCGGAATGGCCGGTGATCGGCGCAGCCTTCGAGCGCTGGTTGAGTGAGGAAAACCAGAGCGCGGATGGCCAGGTGCGCAGTCTCGCACAGTGCCGAGCCTGA	MSTSLADWKGIPAPFTRLLEGRFIRLEKLDPARHADGLWQALEGPGADPKLWDYLPYGPFKERSGFDAWLNNHAVNVDPYFFSVIDRASGEVQGILSLMSIVPAQGRIEIGHVTFGAPMQRSPKSTEAVYLLAKECFALGYRRLEWKCNNANARSRYAAERLGFTFEGVFRQHMVVKGQNRDTAWYSMLDSEWPVIGAAFERWLSEENQSADGQVRSLAQCRA				NA	NA	NA	NA	NA
D1-35_04491	900	yitJ	COG0646	Bifunctional homocysteine S-methyltransferase/5,10-methylenetetrahydrofolate reductase	ATGGCCGCAGCAAGGACAACTATTCTCGACGGCGGCATGGGCCGTGAGCTACAACGCCGTGGTGCGCCGTTTCGACAGCCCGAGTGGTCGGCCCTGGCCCTGAGCGAAGCGCCCCAGGCTGTGGAGGCGGTGCATGCGGCTTATATCGCCAGCGGCGCCGATGTGATTACCAGCAACAGCTACGCCGTGGTGCCCTTTCATATCGGCGAAGCGCGCTTTGCCGAGGAAGGCCAGGCGTTGGCGGCATTGGCGGGGGAATTGGCCAGGCGGGCGGTGCAGGCTTCAGGCAAAGCGGTGCGGGTGGCCGGATCGCTCCCTCCGCTGTTCGGTTCCTACCGTCCCGATCTGTTCGACGCCTCCCGCGCCAGCGAGCTGCTGGCGCCATTGGTTGCGGGCCTGACACCCCATGTCGACCTGTGGCTGGCCGAGACCCAGAGTTCGATCGTCGAGGCGCGAGCCATTCACGCCGGACTGCCGAAGGACGGCAAGCCGTTCTGGCTGTCGTTTACCTTGAAAGACGAAGACACCGATGAAGTGCCGCGCCTGCGCTCCGGCGAGCCGGTGGCGGACGCCGCGGCAGTGGCGGCGGAGCTGGGGGTCGAGACGCTGCTGTTCAATTGCAGCCAGCCCGAGGTGATCGGCGCTGCGATCGACGCGGCGCGCGAAACCTTCGAGCGCCTGGGCGTGAAAATCCACATCGGTGCCTACGCCAACGCCTTCCCACCGCAGCCCAAGGAAGCGACAGCCAATGACGGGTTGGACCCGCTGCGCGAAGACCTCGATCCGCCGGGCTATCTGCGGTGGGCGGCGGACTGGCGCAAGCGGGGGGCCAGTCACTTGGGCGGCTGTTGCGGCATCGGGCCGGAGCACATTGCGGTGTTGGCACAGCAACTGCGCTGA	MAAARTTILDGGMGRELQRRGAPFRQPEWSALALSEAPQAVEAVHAAYIASGADVITSNSYAVVPFHIGEARFAEEGQALAALAGELARRAVQASGKAVRVAGSLPPLFGSYRPDLFDASRASELLAPLVAGLTPHVDLWLAETQSSIVEARAIHAGLPKDGKPFWLSFTLKDEDTDEVPRLRSGEPVADAAAVAAELGVETLLFNCSQPEVIGAAIDAARETFERLGVKIHIGAYANAFPPQPKEATANDGLDPLREDLDPPGYLRWAADWRKRGASHLGGCCGIGPEHIAVLAQQLR				NA	NA	NA	NA	NA
D1-35_04492	822	fliY_3	COG0834	L-cystine-binding protein FliY	GTGAAATTACCTTTACCGCTTGCCCTGGGCTTGACGCTGCTGGCCGCTTCCTCATCGATCCTTGCCGGCACCACGCTGGATCGTATCGAGGAGAAAAAAGAACTGGTCGGCGTGTTGATGGAAAGCTACCCGCCCTTCTCTTTTCTCAATGACCAGAACCAGCTCGACGGTTTCGACGTGGACGTCGCCAAGGCCGTCGCGCAAAAGCTTGGGGTCAAGCTGCGCTTGGAAACGCCCTCGTGGGATGTGATCGCGGCCGGCCACTGGAGTGGCCGCTACGACATCTGCATTTGCTCGATGACACCGAGCAAGGCCCGCGCCGAAGTGTTCGATTTTCCGGTGCGGTACTACGCCTCGCCAGCGGTGATCGTGGTCAACGCCAAGGACGACAGCATCCATGGCGCCAAGGACCTGAGCGGCAAGAAAGTCGGCCTCACCAGCGCCTCCAGCTACGAAAGCTACCTGAACAAGAACCTGGTGATCGAAGGCGCCGAGGATACCCAGCTGAGCTACCCGTTCGAGGACGTGCAAATCGCGCCATACGATACCGACAACGTGGCGTTCCAGGACCTGGGCCTCGGCGCCGGGGTTCGGCTGGATGCGGTGCTGACCAACCTGGTGACCGCGCAGCCACGCCTGACCGAAGACAAGCGCTTCAAACTGGCGGGCGAGCCACTGTATTCAGAGCCTAATTCGGTTGCCATCGAGAAAGGCGACGCCGAGTGGAACAGCAAGGTGCGTGAAGTCTTTGCCCAACTGAAGCAGGACGGCACCCTGAGCAAGCTCTCGCAAAAATGGATCGGTGCCGACATCAGCCAATGA	MKLPLPLALGLTLLAASSSILAGTTLDRIEEKKELVGVLMESYPPFSFLNDQNQLDGFDVDVAKAVAQKLGVKLRLETPSWDVIAAGHWSGRYDICICSMTPSKARAEVFDFPVRYYASPAVIVVNAKDDSIHGAKDLSGKKVGLTSASSYESYLNKNLVIEGAEDTQLSYPFEDVQIAPYDTDNVAFQDLGLGAGVRLDAVLTNLVTAQPRLTEDKRFKLAGEPLYSEPNSVAIEKGDAEWNSKVREVFAQLKQDGTLSKLSQKWIGADISQ	PGPT0020800_8200	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
D1-35_04493	837			hypothetical protein	ATGAGTTCTTTTCCGCCCCCTATCCAGCCGCCTCCACCGGTGGCTGAGTCGCGCCTGCACAAAATCTTCGGTTTTCGCACACGGCTGTATCTGACCTGGGCCGCGATGCTGGTGCTGTTCGCCAGTTTTTTCCTGAGTTTCGACCTGAAGTTCTCGATCATCCTCGACAAACTGCCGAACCTGCTGGGCGTGCACCTGGCGCCCAACGGCTTTTTGCAGGGCGCGGTGCTGACACTGTTCCTGTGCCTGTGCTCCATCGTCGCCTCGTCACTGCTGGGTTTCATCGCCGCGCTGGCACGCCTGTCCAGCAGCGCGGTGGCGTTCGGCATCGCCAGCTTCTATGCGTCGTTCTTTCGTGGCACGCCGCTGTTGATCCAGATCCTGCTGATCTACCTGGGCCTGCCGCAACTGGGCGTGGTCCCGGGCGCCATCGCTGCGGGAATCATCGCCCTGTCACTCAACTACGGCGCCTACTTGAGCGAAATCTTCCGTGCCGGGATTCTCGGCGTGCCTCACGGCCAACGGGAAGCCTCCCTCGCCCTGGGCATGGGCGAAACCGTAATCTTCTGGCGCGTTACCCTGCCCCAGGCCATGCGTACCATCATCCCGCCGACCACCAACCAGTTCATCTCGATGCTCAAGGATTCTTCGCTGATCTCGGTGATGGGGGTCTGGGAGGTGATGTTTCTGGCGCAGTCCTATGGTCGTTCCAGCTATCGGTATATGGAGATGCTGACTACGGCGGCGGTTATTTACTGGCTGATGTCCATTGCGTTGGAGCTGATTCAGGCGCGGATGGAGCGGCATTATGGGAAGGCTTATCTGCATAATCGCTGA	MSSFPPPIQPPPPVAESRLHKIFGFRTRLYLTWAAMLVLFASFFLSFDLKFSIILDKLPNLLGVHLAPNGFLQGAVLTLFLCLCSIVASSLLGFIAALARLSSSAVAFGIASFYASFFRGTPLLIQILLIYLGLPQLGVVPGAIAAGIIALSLNYGAYLSEIFRAGILGVPHGQREASLALGMGETVIFWRVTLPQAMRTIIPPTTNQFISMLKDSSLISVMGVWEVMFLAQSYGRSSYRYMEMLTTAAVIYWLMSIALELIQARMERHYGKAYLHNR	PGPT0020795_2585	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
D1-35_04495	321			hypothetical protein	ATGACCAAGTATCACCCCCTTCAAGCCAATACCAGCGGCGGCCCCACACTGTTTATCGACACAGAAGCTGGGGCCTCCGATCTTCTGGAAACCGCTGCGCACCGCATCAAAGCCGCTCGCGACTTACTTAACAGTGTTTCCTGTCTCTGCATGAAAAACGCCGAGGGTTATGACCTGGAGCATTTCGCCAACGCCGCACATCTGTTGTTACAGGACGGATGTGATGCATTGGAAGTGTTGGGGTGGAGTATCGGTGGAAGTGATATCCAATCCTCACCTGCTAGCGATTCTGCTGTACATCAGGCAGATCTTCCCGTCTAA	MTKYHPLQANTSGGPTLFIDTEAGASDLLETAAHRIKAARDLLNSVSCLCMKNAEGYDLEHFANAAHLLLQDGCDALEVLGWSIGGSDIQSSPASDSAVHQADLPV				NA	NA	NA	NA	NA
D1-35_04497	2136			hypothetical protein	ATGCCTACCAAACATCTATTCCTGCCCCAACATCTCGCACTGGCGATCGCCTTGGCACTGGGTTGTGTCGAGTCTTCGATAGCTCAGTCAGTTGCCGGGGAAACCCGCCCCTTGGAAACAACAACCGAGATGCAGGCTCGTCTCAAGGCGTTCATGGCACCAACAGCGGATACGAAACGCGACAACGTGACGACCGTTCGCGAAGACGCCTTATTGAAGGACGACAGCAACGATCTGGTGATGGTCAGCAAGCAAGGCAGACTCTTCGGGCTCACCGACGGCGGCGGCGGAGCCAACGTCTTGCAGCTGGATACCCAGGGAAGCGAATTAGGCGAGATACGCAATTTCCAGGATCTGTATTTGAAGCAAGGCGAGTGGTCGAACGGCGGTCGTATCGACGCAAACAGCCTGGTCGACTCGAAGGCCAAATTGCTGAACAGCGGCCACATCAACGGCGCGGTGCACGTTCTTGGCGAACTCACCAACCAAGGCACTGTCACCGGGCCTGTCTTCGTAGGAAAAAAGGCCCGCTTCAGCGGCAGCGGGACGGTCGATGCGCTGGACGTGGCGGGCACCCTGGAAGTCGGCCCCGCAATGGGCGCCCCTTCGGTGACCAATGATCTGAAGTTTTCCAAGAGCGCGACGCTGGTTTACGCAATCGACGCCGAGAAAGGCAGCAGCACAATCAAGGTTGGCGGCACCGCTACGTTGGGCAATGCGACTCTGAAAATCGCTTCCGTACCGGGAGAGTTTATCGACACAAACAGACGCATCGTGATCGAGGCGGAGAAGATTGAAGGGACATTCGGCAAGGTCGTCGATGAACTCGCCTTTTTGACGGCTACACCTGACTACACGCTGGAAAACCAGGTAGGGCTTACCTTCAAGCGCAACGGTGTCCCACTGGGAGAGGCAGCTTCCTCCGCCAACGCGCTCGAATTCGTGGACGCCATTCAACAGCAGCCGGTCAGCCCTGCGCAGCCCGAACCCGGCATCGCGGCACCGGTTGCGCACTCGCCTGCCGTCGAGCCGCAACCCAGTCATCCAACGTCAGAGCCCGCCGCACCACCCGCGGTTGTAAGCGCCGAGGCCAAGCCCGCAGCCAAGCCAGAACTGGTCAAACCTGCCCCCAAACCCAACACTGCCATCAACGCCCTGCTTGGCACCAACATGGCCACGGCCGCCGACGCCATCGACCAACTGAGCGGTCATGACACGGCAAACCTTGGCAACGCCACCCTTAGCAGCGTCGCGCCAGTCAGCAGCGGCATGCTCTGGGCCATGGGCCGGCGAAACCCGGCGAGTGGGCACGGCAACGGCCAGGTCTGGGTCCAGGCCATCGGCAACAGTGGCAGCCTCGCCAAGCAAGCGGGCGGCGTTGCCATGAAGCATTCGACACAAGGTTTGATGCTGGGAACCGACTGGGCTGTCAGCTCCGATTGGCGGCTGGGCCTTATCGGCAGCACAACCCGGACGCGGCTCGACGGCGGTCAGTTCGACGGAGCTCTCGACAGTTGGCTAGTGGGCGCGTATGCCTTGCGCCAGGACGGGCCGCTGGCGCTGCGCCTGGGCGTTGTCCATGGCAATCATGACGGCAGTACCAAGCGCCACGTTGCCTTCAATGGGTTCAGGGATCGTCTGAAAGGTCGCTACGATGCGACGACACAGCAGGTCTTCGGGCAACTTGGCTACCAGCTGGATATCGGTCGTTTCGAACTCGAGCCCTATGCCCAACTGGGTTACCAACGTTATCAACGTGACGCCTTCACGGAGAAAGGCGGCGATGCGGCATTGCAGTACAACGGCCAGGCCCAGGAACACTTCAGCAGCGACCTGGGCCTGCGCCTCGCCCGTCCCCTCCTGCTTGATCGCGGCATGCGCGTGACGCCGCGTCTGGACATCGGCTGGAAGCACTTGTATGGGGACGTCCAGGGTAGCTCCCATCAGCGCCTGGTCAGGGGAAGCAGCACTTATCACATCAAAGGTGGCGAACTGGACCGCGACAGCCTGCTTCTGCAGGCAGGGCTGGACCTGGCGATTTCGCCACGTCATACGCTGGGGTTGAGCTACAGCGGCGAAACAGGGCAGGACAACCGCAACGGTGCGCTGGCGGGACAGTGGCGGATGACGTTCTGA	MPTKHLFLPQHLALAIALALGCVESSIAQSVAGETRPLETTTEMQARLKAFMAPTADTKRDNVTTVREDALLKDDSNDLVMVSKQGRLFGLTDGGGGANVLQLDTQGSELGEIRNFQDLYLKQGEWSNGGRIDANSLVDSKAKLLNSGHINGAVHVLGELTNQGTVTGPVFVGKKARFSGSGTVDALDVAGTLEVGPAMGAPSVTNDLKFSKSATLVYAIDAEKGSSTIKVGGTATLGNATLKIASVPGEFIDTNRRIVIEAEKIEGTFGKVVDELAFLTATPDYTLENQVGLTFKRNGVPLGEAASSANALEFVDAIQQQPVSPAQPEPGIAAPVAHSPAVEPQPSHPTSEPAAPPAVVSAEAKPAAKPELVKPAPKPNTAINALLGTNMATAADAIDQLSGHDTANLGNATLSSVAPVSSGMLWAMGRRNPASGHGNGQVWVQAIGNSGSLAKQAGGVAMKHSTQGLMLGTDWAVSSDWRLGLIGSTTRTRLDGGQFDGALDSWLVGAYALRQDGPLALRLGVVHGNHDGSTKRHVAFNGFRDRLKGRYDATTQQVFGQLGYQLDIGRFELEPYAQLGYQRYQRDAFTEKGGDAALQYNGQAQEHFSSDLGLRLARPLLLDRGMRVTPRLDIGWKHLYGDVQGSSHQRLVRGSSTYHIKGGELDRDSLLLQAGLDLAISPRHTLGLSYSGETGQDNRNGALAGQWRMTF	PGPT0030315_491	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5a_AUTOTRANSPORTER_SECRETION,PGPT0030315-ssp|pspB|pspA|ssph1|ssph2-K12685	NA	NA
D1-35_04498	1809	oadA	COG0511	Oxaloacetate decarboxylase alpha chain	ATGTCCAAGAAGATCCACGTTACCGACACAATCCTGCGCGACGCCCACCAATCGCTGCTCGCCACCCGCATGCGTACCGAAGACATGCTGCCGATCTGCGACAAGCTCGACAAAGTCGGCTACTGGTCGCTGGAAGTCTGGGGCGGCGCCACCTTCGACGCCTGCGTGCGCTTCCTGAAAGAAGATCCGTGGGAGCGTCTGCGCCAACTGCGCGCAGCGCTGCCCAACACGCGCTTGCAGATGCTGCTGCGCGGCCAGAACCTGCTCGGCTATCGCCATTACAGCGATGATGTGGTCAAGGCGTTTGTCGCCAAGGCCGCGGTCAACGGTATTGATGTGTTCCGTATTTTCGATGCGATGAACGACGTGCGTAACCTGCGCGTCGCCATCGAAGCAGTGAAGGCTGCCGGCAAGCATGCCCAAGGCACTATCGCCTACACCACCAGCCCAGTGCACACCATCGAAGCCTTCGTGGCGCAGGCCAAGCAGATGGAGGCCATGGGGTGCGACTCGGTGGCGATCAAGGACATGGCCGGCCTGCTGACTCCTTATGCCACTGGCGAACTGGTCAAGGCGCTGAAGGCCGAGCAATCCTTGCCGGTATTCATCCACTCCCATGACACCGCCGGCCTCGCCGCGATGTGCCAGCTCAAGGCTGTCGAGAACGGCGCCGACCATATCGACACGGCGATCTCCAGCTTCGCCTGGGGTACCAGCCATCCGGGTACCGAATCGATGGTAGCCGCCCTCAAGGGCAGCGAGTTCGACACCGGCCTGGACCTGGAACTGCTGCAGGAAATCGGTCTGTATTTCTACGCCGTGCGCAAGAAGTACCACCAGTTCGAAAGCGAATTCACCGCGGTGGATACCCGCGTCCAGGTCAACCAGGTACCAGGCGGAATGATTTCCAACCTGGCCAACCAGTTGAAAGAGCAGGGCGCACTGAACCGCATGAACGAAGTACTGGCGGAAATCCCGCGGGTGCGCGAAGACCTCGGCTTCCCGCCGCTGGTAACCCCGACCTCGCAGATCGTCGGCACCCAGGCATTCTTCAACGTGTTGGCCGGTGAGCGCTACAAGACCATCACCAACGAGGTGAAGCTCTATCTGCAGGGCGGCTACGGCAAGGCGCCAGGTGCGGTGAACGAGAAGCTGCGCCGCCAGGCCATCGGCAGTGAAGACGTGATTGACGTCCGTCCCGCCGACCTGCTCAAGCCGGAGATGACCCGGCTGCGTGGCGAAATCGGCGCCTTGGCCAAATCCGAGGAAGACGTGCTGACCTATGCGATGTTCCCGGACATCGGTCGCAAGTTTCTCGAGGAGCGCGAAGCCGGCACCTTGACCCCGGAAGTGCTGTTGCCTATCCCCGAAGCGGGCAGTGTGAGCTCTGCAGGCGGCGAGGGTGTGCCGACCGAGTTCGTCATTGATGTCCACGGCGAAACCTACCGCGTCGACATTACCGGCGTGGGCGTCAAGGCCGAGGGCAAGCGTCATTTCTATCTGTCCATCGACGGCATGCCGGAAGAGGTCGTGTTCGAACCGCTCAACGAATTTGTCGGCGGCGGCAGCAGCAAGCGCAAGCAAGCCACTGCGCCAGGCCACGTCAGCACCACCATGCCGGGCAACATCGTCGATGTGCTGGTCAAGGAGGGCGATGTGGTGAAAGCCGGCCAAGCCGTGTTGATTACCGAAGCCATGAAAATGGAGACCGAAGTCCAGGCGGCCATCCCGGGCAAGGTCACGGCCATTCATGTCGCCAAGGGCGACCGGGTCAATCCGGGCGAGATCCTGGTCGAAATCGAAGGCTGA	MSKKIHVTDTILRDAHQSLLATRMRTEDMLPICDKLDKVGYWSLEVWGGATFDACVRFLKEDPWERLRQLRAALPNTRLQMLLRGQNLLGYRHYSDDVVKAFVAKAAVNGIDVFRIFDAMNDVRNLRVAIEAVKAAGKHAQGTIAYTTSPVHTIEAFVAQAKQMEAMGCDSVAIKDMAGLLTPYATGELVKALKAEQSLPVFIHSHDTAGLAAMCQLKAVENGADHIDTAISSFAWGTSHPGTESMVAALKGSEFDTGLDLELLQEIGLYFYAVRKKYHQFESEFTAVDTRVQVNQVPGGMISNLANQLKEQGALNRMNEVLAEIPRVREDLGFPPLVTPTSQIVGTQAFFNVLAGERYKTITNEVKLYLQGGYGKAPGAVNEKLRRQAIGSEDVIDVRPADLLKPEMTRLRGEIGALAKSEEDVLTYAMFPDIGRKFLEEREAGTLTPEVLLPIPEAGSVSSAGGEGVPTEFVIDVHGETYRVDITGVGVKAEGKRHFYLSIDGMPEEVVFEPLNEFVGGGSSKRKQATAPGHVSTTMPGNIVDVLVKEGDVVKAGQAVLITEAMKMETEVQAAIPGKVTAIHVAKGDRVNPGEILVEIEG	PGPT0001430_254	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001430-pycB-K01960	NA	NA
D1-35_04499	1416	cfiB	COG0439	2-oxoglutarate carboxylase small subunit	TTGATAACAAAGATCCTGATCGCCAACCGCGGTGAGATTGCCGTCCGAATCGTGCGCGCCTGCGCCGAAATGGGCATTCGCTCGGTCGCGGTCTATTCCGACGCCGACCGCCATGCCTTGCATGTCAAGCGTGCGGACGAGGCCCACAGCATCGGCGCCGATCCGCTGGCCGGCTACCTCAATCCGCGCAAACTGGTGAACCTGGCGGTGGAAACCGGCTGCGACGCGTTGCACCCCGGCTACGGCTTCCTCTCGGAAAACGCCGAACTGGCGGACATCTGCGCCGAGCGCGGGATCAAATTCATTGGCCCGTCGGCGGAAGTCATTCGCCGCATGGGTGACAAGACCGAAGCGCGCCGCAGCATGATCAAGGCCGGCGTGCCGGTGACTCCAGGTACCGAAGGCAACGTGGCGGGTATCGAAGAGGCCCTGACCGAAGGTGATCGGATCGGTTACCCGGTGATGCTCAAGGCCACGTCCGGCGGTGGTGGCCGTGGTATCCGTCGCTGCAATAGTCGCGAAGAGCTCGAGCAGGCCTTCCCGCGAGTCATCTCCGAAGCCACCAAGGCGTTCGGTTCGGCGGAAGTGTTCCTGGAAAAATGCATCGTCAATCCCAAGCACATTGAAGCGCAGATTCTCGGTGACAGTTTCGGCAACGTGGTGCATCTGTTCGAACGGGATTGCTCGATCCAGCGCCGTAACCAGAAGCTGATCGAAATCGCCCCGAGTCCGCAACTGACGCCTGAACAGCGCGCCTACATCGGCGACCTCTCAGTGCGCGCCGCCAAGGCCGTGGGCTACGAAAATGCCGGCACCGTGGAGTTCCTGCTCGCCGAGGGCGAGGTGTACTTCATGGAGATGAACACCCGGGTGCAGGTGGAACACACCATCACCGAAGAAATCACCGGTATCGACATCGTTCGCGAGCAGATCCGCATCGCCTCCGGGCTGCCATTGTCGGTCAAGCAGGAAGACATCCAGCACCGGGGCTTTGCGTTGCAGTTCCGCATCAACGCCGAAGACCCGAAAAACAACTTCCTGCCCAGCTTCGGCAAGATCACCCGCTATTACGCACCGGGTGGCCCGGGGGTGCGCACCGACACAGCAATCTATACCGGCTACACCATTCCGCCGTTCTACGATTCGATGTGCCTGAAACTGGTGGTCTGGGCGCTGACCTGGGAAGAAGCGATGGACCGTGGCCTGCGAGCCCTGGATGACATGCGCCTGCAGGGGGTCAAGACCACCGCCGCGTATTACCAGGAGATCCTGCGCAATCCGGAATTCCGCAGCGGCCAGTTCAACACCAGCTTTGTTGAAAGCCATCCCGAACTGACCAATTACTCGATCAAGCGCAAACCCGAAGAGCTGGCCCTGGCCATCGCCGCCGCCATCGCCGCCCACGCAGGCCTGTAA	MITKILIANRGEIAVRIVRACAEMGIRSVAVYSDADRHALHVKRADEAHSIGADPLAGYLNPRKLVNLAVETGCDALHPGYGFLSENAELADICAERGIKFIGPSAEVIRRMGDKTEARRSMIKAGVPVTPGTEGNVAGIEEALTEGDRIGYPVMLKATSGGGGRGIRRCNSREELEQAFPRVISEATKAFGSAEVFLEKCIVNPKHIEAQILGDSFGNVVHLFERDCSIQRRNQKLIEIAPSPQLTPEQRAYIGDLSVRAAKAVGYENAGTVEFLLAEGEVYFMEMNTRVQVEHTITEEITGIDIVREQIRIASGLPLSVKQEDIQHRGFALQFRINAEDPKNNFLPSFGKITRYYAPGGPGVRTDTAIYTGYTIPPFYDSMCLKLVVWALTWEEAMDRGLRALDDMRLQGVKTTAAYYQEILRNPEFRSGQFNTSFVESHPELTNYSIKRKPEELALAIAAAIAAHAGL	PGPT0001425_415	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001425-pycA-K01959	NA	NA
D1-35_04500	963	cmpR_4	COG0583	HTH-type transcriptional activator CmpR	ATGCGTAAGTCATTGATGCGTATGACGTTGCGTCAGTTGCAGATTTTCAATGAGGTGTGCGACCTAAGGTCATACAGCCGCGCGGCTGATGAAATGTCTCTCACACAACCGGCCGTTAGCCTACAGATTCGATCCCTTGAAGAGCTGATTGGCCAGCCGCTGTTTGAGTACGTCGGAAAAAAACTCTACATGACCGAAGCGGCCGAAGCCCTGCAACGCGCCAGTCGGGATATCTTCGGGCGGCTGGAGAACCTCGACATGCAGCTTTCGGACATGCAGGGTTCGCTGCAGGGGCAATTGAAGCTGGCGGTAGAGTCCAGTGCCAAATATTTCGTCCCGCATCTGTTCGCCGCGTTCAAGCGCCAACATCCCGAGGTCAATCTGAACCTCACCGTGGTCAATCGCGGCCAGGTGATCCGGCGCCTCTCGGACAACCGTGACGATCTGGTGATCATGTCGATGGTGCCCCAGGACATGGGCCTGGAATTCCTGCCATTTCTCAACAACCCGATCGTTGCCGTGGCGCCACCCGACCATCCGCTTTGCCACATCGGCCCGCTGCGCCTGCAGGACCTGGAACCTTATACGCTGCTGTTGCGCGAGCCCGGTTCGGGCACGCGGCTGGCGTGCGAGGAGTATTTCAAGGAGAAGCGGGTGCATTTCACCCAGACGCTGGAAGTGGCGTCGGCGGAGGCCCAGCGCGAGTGCGTGGTGGCCGGGCTGGGCGTGGCACTGTTGACGCGCCACGCCGTAAGCCGCGAGCTAAGCTCCGGCGCACTCATCGAGTTGCCGGTTGAGGAGTTGCCGCTGTACCGCAGCTGGTGCCTGGTGCAGGCCAGGGCAAAGCGTCTGTCACCGGTGGCTCATGCCTTCCTGGCATTCGTGCGCGGCGAGCGCGCCCAGATTATCGGCCTGGTTGAGCGTTTCGACGGGAAGCCGCCGGCGCTGCCTGCCAGTAATTGA	MRKSLMRMTLRQLQIFNEVCDLRSYSRAADEMSLTQPAVSLQIRSLEELIGQPLFEYVGKKLYMTEAAEALQRASRDIFGRLENLDMQLSDMQGSLQGQLKLAVESSAKYFVPHLFAAFKRQHPEVNLNLTVVNRGQVIRRLSDNRDDLVIMSMVPQDMGLEFLPFLNNPIVAVAPPDHPLCHIGPLRLQDLEPYTLLLREPGSGTRLACEEYFKEKRVHFTQTLEVASAEAQRECVVAGLGVALLTRHAVSRELSSGALIELPVEELPLYRSWCLVQARAKRLSPVAHAFLAFVRGERAQIIGLVERFDGKPPALPASN	PGPT0001160_217	DIRECT EFFECT	BIO-FERTILIZATION	CARBON_DIOXID_FIXATION	CO2_FIXATION-RuBisCo	CO2_FIXATION-RuBisCo_BIOSYNTHESIS_REGULATION,PGPT0001160-cbbR|cmpR|ndhR-K21703	NA	NA
D1-35_04501	210			hypothetical protein	ATGACCCAGTCCTACGAAGACCGCAGCGCCGCCAAAACCCGTCGCCAACAGGAAGACCAACGCCGCATGGCGTTCCGCCGTGCAATCGAAGATCGCTATGAGCAACGGCAGCTTCTGGCAGAAATCAGCGAATTTCCTGACGCCGTAGAGTTCAATTACTGGCAGGCAGCGCCGGCGGCTTCCCGTCGAAACGCTCAACCAGGCCGATAA	MTQSYEDRSAAKTRRQQEDQRRMAFRRAIEDRYEQRQLLAEISEFPDAVEFNYWQAAPAASRRNAQPGR				NA	NA	NA	NA	NA
D1-35_04502	867	hexR_3	COG1737	HTH-type transcriptional regulator HexR	TTGAACCTGTTGCAACACATCGCCCAGTCGCGCCATCTGCTACGCAAGTCGGAACTGAAGGTCGCCGATCATGTACTGCTTGATCCTGCGGCAGTGATGCACAGTTCCATGGCCGATCTGGCCCATAGCGTCGGCATCAGCGAGCCGACCATCGTGCGTTTTTGCCGCGCGATTGGTTGTTCGGGTTTCCAGGACCTGAAACTCAAATTGGCGCAGAGCTTGGCGGCGGGTGCGAGTTTTGGCCAATTCGCGATTCATGAAGACGATTCGGTCGCCGATTACAGCTTGAAAATCTTCGACACGACCCTGCACACCCTGATGGAAGTTCGCGAGAAGCTCGATCCGGTGGCGTTGCAGAAAGCGGTTACGGCCATGTCCCAGGCCCAACGTGTCGAGTTCTATGGTTTTGGTGCTTCTGGCGCGGTCGCCGCCGATGCCCAGCACAAGTTCTTCCGTCTGTTGCTCACGGCGGCGGCCTATTCCGATCCACATATGCAGGCAATGTCGGCGGTGACGTTGAAGCCTACCGACGTGGCGATCTGTATTTCCCAGTCGGGTCGCTCCAAGGACTTGTTGATCACTGCGAACCTGGTACGTGAAAGCGGTGCCTCGCTGATCACCTTGTGCCCGAGCCAGACGCCATTGGCTGAATTGTCGACGGTGAATCTGGCGATCGACGTGCATGAAGACACGGAAATCTACACGCCATTGACCTCGCGCATCGCGCATCTGGTGGTCATTGATGTGTTGGCCATGGGCGTTGCCATGGCGCGCGGCCCGAGCCTGGTCAATCACCTCAAGAGTGTGAAGCGCAGCCTTCGCAGCTTGCGGTTGTCGCCCAAGTCGGTGAAGGCGCTGGATGACTGA	MNLLQHIAQSRHLLRKSELKVADHVLLDPAAVMHSSMADLAHSVGISEPTIVRFCRAIGCSGFQDLKLKLAQSLAAGASFGQFAIHEDDSVADYSLKIFDTTLHTLMEVREKLDPVALQKAVTAMSQAQRVEFYGFGASGAVAADAQHKFFRLLLTAAAYSDPHMQAMSAVTLKPTDVAICISQSGRSKDLLITANLVRESGASLITLCPSQTPLAELSTVNLAIDVHEDTEIYTPLTSRIAHLVVIDVLAMGVAMARGPSLVNHLKSVKRSLRSLRLSPKSVKALDD	PGPT0017985_592	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
D1-35_04503	2877			hypothetical protein	ATGACCTCCAGTTCCGATCTGGCGGGGCCCTGCGTGGAGCCGCGCCTCATCTGCAAGCAGTACGCCACGGAAATGGCCGTCGAACGCACCAGGCTGTTATATCAGGGTTCGCTGCTGCCCACGCTGTTCATGCTGCTCAACGGGCTGGTGTGCGCGGCGCTCTTATGGACGCCGTCGCGCTACTTCCTGGTCAGCGTCTGGTTGGTCTGGTTGCTGTCGCTGGTGGCGTTGCGGGTGATTCAGGTGGCTGCGTTCGATTCGGCGATACCAAGCCGCCAGGCCCACCCGATCTGGTTGCGCATGTTCCTGCTGGGCTCGGCCATGACCGGCTTGACGTTGGCCGGTGCCGGTATCGCCCTGGTCCCGGCGGACAGCTTCCAGCAACAGGCCTGGGTATTCGGCCTGATCGGCGCGGCCACGCTGTCGGCGAGTGTCGCCTATGCCGTGAGCCTTGCGGCGTTCCTGTCCTTTACTTTGCCCTGCCTGTTGCCGGCCATCGGTTATCTTTTCTGGGGCGGCGACGAGCAGCAGCGTGGCTGGGGCTGGCTTGGGCTGGTGGTGCTGGTTTCGCTGAGTGTGGTGGCCTGGCAGGTCAATCGGCTGATACAGAACGGCATGCTGCGCCGGTTCCAGAACCAGGCACTGATCGAGCACCTGCAGCAAGCACAAGCCCGCGGCGCCCAGCTTAACGAGGCATTGGCCCGGGAGGTCGAACAACGCCGTTCTGCAGAAGCCCAGCTGCGTACGGCGCAGGTTGGCCTGGAGGCGCGGGTCGCACAGCGCAGCCTTGAACTGGAGGCGGCCAGCCAGGCGCTGAGTAAAAGCGAAGCACGCCTGGCACTGGCGCTCAAGGCCAGTGAGCTGGGGTTGTGGGACTGGAACCTGCAGACTGATGAAGTCCATCACACCCAACTCAAGGAGCTGTTTGGCCTGGAACCCGAGTACATAACGGCCATGCTCAGTCATCTCACCCCGCGCCTGCATCCGCAGGATTTACCCGCGCTGAAGCGTGCCTTGGTCGAGCACCTGAAAGGCCGCAGCGAGGATTACCAGATCGAATACCGCGTCCGTCATGGCGATGGCCATTGGGTCTGGATCGAAGACCGTGGCCGGGCAGTGGAACGCAGCGCCACGGGTCGGGTGTTGCGCATGGTCGGCACCCGGCGAGACATCAGTGCCAGCAAAGAGCTTGAACAACAGCGACAACTGGCGGCCACGGTCTTTGAAGCGGCCAGCGAAGGCATTGTGATTTTCGACCCCAACTACGCGTTGCTGGCCGCCAACCAGGCGTTCGCGCGGGTTACCGGCTTCGATATCGCCGACATGCTGGGGCGCAGCGTGGTCGACCTGCCCTGCAGTCGCGATGCACGCCGGCACTATCCGATCATTCGCCAAGCCCTCAAGCAGCATGGCACCTGGCAAGGCGAGCTGGTGGAAGCGCGGGCCAACGGTGAACTCTACCCGCAGTGGTTGCAGTTGAATGTGGTGCGTGATCTGCGAGGGAAAGTCAGCCATGTAGTGGGCTTCTTCGCCGATCTCTCGGCCCGCCGCGAATCCGAGGAGCGGATGCGCTACCTCACTCATTACGACGAACTGACCGGATTGGCCAACCGTTCGCTGTTCCGCGAGCGCCTGCACGAGGCCCATCAACGGGTTCGCCAGGGCGGGCACCGCAGCCTGGCACTGCTGCACATCAACCTCGATCGCTTCAAGTTGCTCAACGACAGCCTCGGCCACGACATCGCCGATCAGTTGCTGCAGAAAATGGCTCGCCGCCTGATCAATGCGTTGCCGGAAGCCGACACCATTGCCAGGCTGTCCGGAGATGAGTTCGCCGTGTTGTTCGACGCCTATGGCAACCTTTCCAGCCTGGCGAGGGTAGCGACCCGGCTATCAGCCAAGCTGCGGCTGCCGCTGACGATCGAGGGACATGAGCTGGTGGTCAGCGCTTCGATCGGCATCAGCCTGTTGCCCGACAACGCTCGGGAAATCTCCACGTTGGTCAGCCAGGCGAACATGGCGATGCAACACGCCAAGCACCTGGGCGGCAATAGCTTCCAGTTTTATACCGACAGCCTTCAGGCCAGCACGCTGGAACGTCTGCAATTGGAGAACCAATTGCGCAAGGCGCTTGAGGAACAGCAACTGAGCGTTTTCTACCAGCCCAAACTGTGCCTGGCGACCGGCCGCCTGAACGCAGCCGAGGCGCTGGTGCGCTGGGACCATCCGACCATGGGCCAGATTCCACCCGCTGACTTCATCGGCTTGGCCGAGGAGACCGGGCTGATCGGACCCATTGGCGAATTCGTGCTCCGCCAGGCCTGCTGGCAGGCGTGCGAATGGCAGCGCCAGGGGCTTGCGCCTATCAGGGTGTCAGTCAATCTCTCGGTGCATCAGTTGCGCCAGGGCAAACTGGTCAGTCTTGTACGCCAAGTGTTGGAGGAGACCGGCCTGGCCCCGCAATACCTGGAGCTGGAGCTGACCGAGAGCCAGTTGCTCGACAGCGTCGAACACATCATCGCTACGTTCCAGCAGCTGCGTGATCTTGGGGTCAAGCTGGCGATCGATGACTTTGGCACCGGCTATTCTTCGCTGAGCTATCTCAAGCGTATTCCGGTGGATTACGTGAAGATCGACCAGGCATTTGTTCGTGGCCTGGCGGAGGGCGGGGAGGACGCAGCCATTACCCGGGCAATCATCGCCATGGCTCATGGGCTGTCGCTCAAGGTAGTGGCCGAAGGTGTCGAGCGGCAGGAGCAGCTGGATTTCCTGAAAAACGAGCAATGCGACGAGGTTCAAGGCTATCTCATCAGCCGACCGGTGGGAGCCGAAGGCCTGGCCCGTCTGATGCTCGAGCAGAATAAGCCTGCTTTGTAG	MTSSSDLAGPCVEPRLICKQYATEMAVERTRLLYQGSLLPTLFMLLNGLVCAALLWTPSRYFLVSVWLVWLLSLVALRVIQVAAFDSAIPSRQAHPIWLRMFLLGSAMTGLTLAGAGIALVPADSFQQQAWVFGLIGAATLSASVAYAVSLAAFLSFTLPCLLPAIGYLFWGGDEQQRGWGWLGLVVLVSLSVVAWQVNRLIQNGMLRRFQNQALIEHLQQAQARGAQLNEALAREVEQRRSAEAQLRTAQVGLEARVAQRSLELEAASQALSKSEARLALALKASELGLWDWNLQTDEVHHTQLKELFGLEPEYITAMLSHLTPRLHPQDLPALKRALVEHLKGRSEDYQIEYRVRHGDGHWVWIEDRGRAVERSATGRVLRMVGTRRDISASKELEQQRQLAATVFEAASEGIVIFDPNYALLAANQAFARVTGFDIADMLGRSVVDLPCSRDARRHYPIIRQALKQHGTWQGELVEARANGELYPQWLQLNVVRDLRGKVSHVVGFFADLSARRESEERMRYLTHYDELTGLANRSLFRERLHEAHQRVRQGGHRSLALLHINLDRFKLLNDSLGHDIADQLLQKMARRLINALPEADTIARLSGDEFAVLFDAYGNLSSLARVATRLSAKLRLPLTIEGHELVVSASIGISLLPDNAREISTLVSQANMAMQHAKHLGGNSFQFYTDSLQASTLERLQLENQLRKALEEQQLSVFYQPKLCLATGRLNAAEALVRWDHPTMGQIPPADFIGLAEETGLIGPIGEFVLRQACWQACEWQRQGLAPIRVSVNLSVHQLRQGKLVSLVRQVLEETGLAPQYLELELTESQLLDSVEHIIATFQQLRDLGVKLAIDDFGTGYSSLSYLKRIPVDYVKIDQAFVRGLAEGGEDAAITRAIIAMAHGLSLKVVAEGVERQEQLDFLKNEQCDEVQGYLISRPVGAEGLARLMLEQNKPAL	PGPT0023624_589	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
D1-35_04504	2181	uvrD	COG0210	DNA helicase II	ATGCGCGATGATCTCTCCCTTCTGCTGAATTCCCTGAACGACGCCCAACGCCAGGCAGTTGCTGCCTCCGTCGGTCGTCAATTGGTCCTGGCCGGTGCCGGCTCCGGCAAGACCCGAGTGCTGGTGCACCGTATCGCCTGGTTGATCCAGGTCGAGAACGCCTCGCCCCATTCGATCCTGTCGGTGACCTTCACCAACAAGGCCGCTGCCGAGATGCGCCATCGCATCGAGCAGTTGATGGGCCTCAACCCGGCCGGCATGTGGGTCGGCACGTTCCACGGCCTGGCGCACCGCCTGTTGCGGGCCCATTGGCAGGAGGCCGGCCTGAGCCAGACCTTCCAGATCCTCGACAGCGATGACCAGCAGCGCCTGGTCAAGCGGGTCATCCGTGAACTGGGCCTGGACGAACAGCGCTGGCCCGCCCGTCAGGCCCAATGGTTCATCAACGGCCAGAAAGACGAAGGCTTGCGCCCGCAGCACATCCAGGCCAGTGGCGACCTGTTCCTGGCGACCATGCGCAGCATCTACGAAGCCTATGAAGCGGCATGCCAACGCGCCGGAGTCATCGACTTTTCCGAGCTGCTGCTGCGAGCCCTGGACCTGTGGCGCGACCACCCGGGCCTGCTGGCGCATTATCAGAAACGCTTCCGGCATGTGCTGGTGGACGAATTCCAGGACACCAACGCTGTTCAGTACGCCTGGTTGCGCCTGCTGGCCAAGGGTGGCGACAGCCTGATGGTGGTAGGTGACGACGACCAGTCGATCTACGGCTGGCGCGGCGCCAAGATCGAAAACATTCATCAGTACTCGGCGGATTTCCCCGACGCTGAGGTCATCCGCCTGGAGCAGAACTACCGCTCCACCGCCGGTATCCTCAAGGCCGCCAACGCGTTGATCGCCAACAATACCGGGCGCCTGGGCAAGGAATTGTGGACCGACGGCGGCGAAGGCGAGGCGATCAATCTGTACGCCGCTTTCAATGAACACGATGAGGCCCGCTATGTAGTGGAGACCATCGAGAGCGCGTTGAAAACCGGCCTGGCTCGCAGCGATATCGCCATTCTCTATCGCTCCAACGCGCAATCGCGGGTGTTGGAAGAAGCGCTGCTGCGCGAACGGATCCCTTACCGAATCTATGGCGGCCAACGCTTCTTCGAGCGCGCGGAAATCAAGAACGCCATGGCCTACCTTCGCCTGATCGAAGGACGCGGCAACGACGCGGCCCTGGAGCGGGTGATCAACGTGCCGACCCGAGGCATCGGCGAGAAAACCGTCGAGGCGATTCGCGACCATGCGCGCCATAGCCACGTGTCAATGTGGGAAGCCATGCGCCAGCTGGTCGACAACAAAGGCGTTACCGGGCGCGCCGCCGGTGCGCTGAAAGCGTTCATCGACCTCATCGAAGACCTCGCCGCCAAATGCGCCGAGATGCCGCTGCACCTGATGACCCAGACCGTCATCGAGCAGTCCGGCCTGATCGCCTACCACGAGGCGGAAAAAGGCGAGAAAGGCCAGGCGCGAGTAGAAAACCTCGAGGAACTGGTCAGCGCCGCGCGCAACTTCGAAAACACCGAAGAAGACCAAGACCTGTCCCCGTTGTCGGCTTTCCTCGGTCATGCCTCCCTGGAAGCCGGCGATACCCAGGCCGACGAGCATGAAGACAGCATTCAACTGATGACGCTGCACAGCGCCAAGGGTCTGGAGTTTCCGTATGTGTTTCTGGTGGGTATGGAGGAAGGCCTGTTCCCCCACAAGATGAGCCTGGAGGAGCCGGGACGCCTCGAAGAGGAACGTCGCCTGGCCTACGTCGGCATCACCCGCGCGATGCAGAACCTGGTGCTGACCTACGCTGAAACCCGTCGCCTGTATGGCAGCGAGACCTACAACAAAGTGTCACGCTTCGTACGCGAAGTGCCGAAAGGTCTTATCCAGGAAGTACGCCTGTCCAACAGCGTCAGCCGACCGTTTGGCGGCAACCAGCAAGGCACCAGCAGCCTGTTTGGCGGTAGCGACATTCCAGAAACCGGCTTCAGCCTCGGCCAGGCTGTGCGGCATTCGGTGTTTGGCGACGGCGTGATCCTCAATTTCGAAGGCGCCGGTGCCCAGGCCCGGGTCCAGGTCAACTTCAGCGAAGGCAGCAAATGGCTGATGCTGGGGTATGCGAAGCTGGAAGCGATCTAA	MRDDLSLLLNSLNDAQRQAVAASVGRQLVLAGAGSGKTRVLVHRIAWLIQVENASPHSILSVTFTNKAAAEMRHRIEQLMGLNPAGMWVGTFHGLAHRLLRAHWQEAGLSQTFQILDSDDQQRLVKRVIRELGLDEQRWPARQAQWFINGQKDEGLRPQHIQASGDLFLATMRSIYEAYEAACQRAGVIDFSELLLRALDLWRDHPGLLAHYQKRFRHVLVDEFQDTNAVQYAWLRLLAKGGDSLMVVGDDDQSIYGWRGAKIENIHQYSADFPDAEVIRLEQNYRSTAGILKAANALIANNTGRLGKELWTDGGEGEAINLYAAFNEHDEARYVVETIESALKTGLARSDIAILYRSNAQSRVLEEALLRERIPYRIYGGQRFFERAEIKNAMAYLRLIEGRGNDAALERVINVPTRGIGEKTVEAIRDHARHSHVSMWEAMRQLVDNKGVTGRAAGALKAFIDLIEDLAAKCAEMPLHLMTQTVIEQSGLIAYHEAEKGEKGQARVENLEELVSAARNFENTEEDQDLSPLSAFLGHASLEAGDTQADEHEDSIQLMTLHSAKGLEFPYVFLVGMEEGLFPHKMSLEEPGRLEEERRLAYVGITRAMQNLVLTYAETRRLYGSETYNKVSRFVREVPKGLIQEVRLSNSVSRPFGGNQQGTSSLFGGSDIPETGFSLGQAVRHSVFGDGVILNFEGAGAQARVQVNFSEGSKWLMLGYAKLEAI				NA	NA	NA	NA	NA
D1-35_04505	876			hypothetical protein	ATGAAACGTTTTCTTAGCATCGCCATGGCGTTGTGCATCGGCCTGACGATGGCCATCGACGCCAATGCCGCCAAGCGTTTTGGCGGTGGTAAAAGTTCGGGCGCCGCCCCGACTCACCAGACCAGCCAGATGGCGCCGTCCTCTGCCGCCGGTTCAACCGCTGCCACCGCAGGCGCTGCCGGTGCGGCTGGCGCTGCCACCAAGGCCAGCGGTGCTTCGCGCTGGCTCGGCCCACTGGCCGGCATCGCCGCCGGTGGCCTGCTCGCCTCCATGTTCATGGGCGACGGCTTCCAGGGCATGCAGATCTTCGACATCCTGATCATGGCGGTCATCGCCTTCCTGGTCTTCCGCTTCATTGCCGCCCGTCGTCGCAAGCAGCAGGAGCAACTCGCTCCGGCCGGTCACGCGCCAATGCAACGTGAAGTGTTCAACCAACAGCCTGCCAGCGGCTCGATCTTCGGTGGCTCAGCCGCTCCAGTGGCCGCCCGCCCGGTGATCAACGCACCCGCCTGGTTCAACGAACAGCGCTTCATCGAAGCCGCTCGCAGCCACTTCATGTCCTTGCAGCAGCATTGGGACTCGAACGAAATGGACAAGATCGCCGAGTTCGTAACCCCGCAACTGCTGGAGTTCCTCAAGCGTGAACGTGCCGAACTGGGCGACGGCTACCAGTCCACCTACATCGACAACCTGCAGGTGCAGCTGGACGGCGTCGACGATCGGGCAGACAAGACCATCGCCACCCTGACCTTTGTCGGCGTGTCGAAGGACTCTCGCTTCGACCAGGGCGAAGCGTTCAGCGAAAGCTGGAACATGGAACGTGCCCAAGGCGAGAACCAGCCTTGGCTGGTTGCAGGTATCCGCCAGAACGGTTGA	MKRFLSIAMALCIGLTMAIDANAAKRFGGGKSSGAAPTHQTSQMAPSSAAGSTAATAGAAGAAGAATKASGASRWLGPLAGIAAGGLLASMFMGDGFQGMQIFDILIMAVIAFLVFRFIAARRRKQQEQLAPAGHAPMQREVFNQQPASGSIFGGSAAPVAARPVINAPAWFNEQRFIEAARSHFMSLQQHWDSNEMDKIAEFVTPQLLEFLKRERAELGDGYQSTYIDNLQVQLDGVDDRADKTIATLTFVGVSKDSRFDQGEAFSESWNMERAQGENQPWLVAGIRQNG				NA	NA	NA	NA	NA
D1-35_04506	408			hypothetical protein	GTGGAAGAAATCATCGAACAACTGCGTGAAGCCAACGAACCTGTACCGGTTCCACTGGAGTTGCCTGACGAAGACTTGCTGGTAGAGATCGAGGAGCAACTGTTCATCGATATCCCGTTCGTCTTCAGGGAGTTTTTGCTGACTGTCAGCGACGTAGTCTATGGCAGCCTGGAGCCGGTGACCGTTACCGATCCGCAATCCCATACCTACTTGCCCGACGTGGCAGCCAATGCCTGGGATGCGGGTGTCGATCGCAGCCTGATCCCGATCTGCCAGGACGGCGACGATTATTATTGCGTCGAAGAAGACGGCACGGTGGTGCTGTGGCAGGCCGAGGAAGAGCTGATTGCCGAGGAAACCTGGGAATCGGTCTGGCACTGGGCACGGGATGTCTGGCTGGAAAGCTGA	MEEIIEQLREANEPVPVPLELPDEDLLVEIEEQLFIDIPFVFREFLLTVSDVVYGSLEPVTVTDPQSHTYLPDVAANAWDAGVDRSLIPICQDGDDYYCVEEDGTVVLWQAEEELIAEETWESVWHWARDVWLES				NA	NA	NA	NA	NA
D1-35_04507	1764	kefB		Glutathione-regulated potassium-efflux system protein KefB	ATGCATGCCATCAGCTTCATTCAGGACCTGGCGATCATCATGCTGGTGGCGGGGCTGGTAACGGTACTCTTTCATCGTTTCAAGCAGCCGGTAGTGCTGGGCTATATCGTCGCCGGCTTCATCATTGGCCCGCATACGCCACCGTTCGGTTTCATCCACGACGAAGAAACCATCAAGACCCTGGCCGAGCTCGGGGTGATCTTCCTCATGTTCTGCCTTGGGCTGGAATTCAGCCTGCGCAAACTGTTCAAGGTTGGCGCCACGGCGTTCATCGCAGCATTCCTCGAAATTGTCCTGATGATCTGGATCGGCTATGAAATCGGCCGCTGGTTCGACTGGAATACCATGGACTCGCTGTTTCTCGGCGCGATCCTGGCCATCTCCTCGACCACGATCATCGTCAAGGCGCTCAATGACCTGAAAATGAAAAACGAGCGCTTTGCGCAGCTGATTTTTGGGGTACTCATCGTCGAAGATATCCTCGGCATCGGCATCATCGCCTTGCTCTCGAGCATCGCCGTCAGCGGCACGGTGAGTTCCGGCGAGGTGTTCTCCACGGTCGGCAAGTTATCGTTGTTCATGATCGTGGCGTTGGTCATCGGTATCCTGCTGGTGCCCAGATTGCTGGCGTACGTAGCGAAATTCGACAGTAACGAGATGCTGCTGATCACGGTGTTGGGACTTTGCTTCGGCTTCTGCCTGCTGGTAGTGAAGCTTGAATACAGCATGGTGCTGGGGGCATTCCTGATCGGTGCGATCATGGCCGAGTCCCGGCAGTTGCTGAAAATCGAACGTTTGGTAGAGCCGGTGCGCGACTTGTTCAGCGCGATATTTTTCGTGGCGATCGGGCTCATGCTCGATCCGGCGATCTTGCTTCAATACGCCTGGCCGATTGCCGTGATCACCTGCGCAGTCGTGCTGGGCAAGATGCTCTCTTGTGGTCTTGGCGCCTTTATCGCTGGCAATGACGGACGCACCTCCCTGCGAGTCGGGATGGGACTTTCACAGATCGGCGAATTTTCGTTCATCATCGCTTCGCTGGGCATGACCTTGCAGGTTACCAGCGATTTTCTTTATCCGGTGGCGGTGGCTGTGTCGGTACTGACCACGCTGCTGACGCCTTACTTGATCCGGGCCGCGGATCCGCTGTCAGTCAGGCTGGCTTCGGCAATGCCGCAACGGCTGACGCGCGTGCTGGGCATGTATGGCGAATGGTTGCGCAGTATTCAGCCACAGGGCGAGAGCGCCCTGGTGGCCGCCATGATCAGGCGAATCCTGCTGCAGGTCGGCATCAACCTGGCATTGGTCATCGCGATTTTTGTTTCGGGCGGCTATTTCGCCGAGCGGATGTCGGTTTACCTGCAAGCCTGGATCAGCGATCCGAGCTGGCAAAAAGCATTGATCTGGGGTGGGGCGCTGCTGTTGTCGCTACCGTTCCTGATCGCTGCGTACCGCAAGCTCAAGGCGCTTTCGATGCTGCTGGCGGAGTTGGGTGTCACGCCGGAGATGGCTGGCCGCCACACGCAGCGCGTGCGTCGGGTCATCGCCGAAGTGATCCCGATCCTGTCGCTGCTGGTGATTTTCCTGCTGCTGGCAGCCTTGTCGGCCAGTATCCTGCCGACCAACAAGTTGCTGGTATTGATTGCCGTGGTGGCGACTGCGGTGGCGGCGCTGCTCTGGCGCTGGTTCGTCCGCCTGCATACGCGGATGCAGGTGGCCTTGCTCGATACGCTGGACAATCACAAGGAGTCGTCCGGGCATTGA	MHAISFIQDLAIIMLVAGLVTVLFHRFKQPVVLGYIVAGFIIGPHTPPFGFIHDEETIKTLAELGVIFLMFCLGLEFSLRKLFKVGATAFIAAFLEIVLMIWIGYEIGRWFDWNTMDSLFLGAILAISSTTIIVKALNDLKMKNERFAQLIFGVLIVEDILGIGIIALLSSIAVSGTVSSGEVFSTVGKLSLFMIVALVIGILLVPRLLAYVAKFDSNEMLLITVLGLCFGFCLLVVKLEYSMVLGAFLIGAIMAESRQLLKIERLVEPVRDLFSAIFFVAIGLMLDPAILLQYAWPIAVITCAVVLGKMLSCGLGAFIAGNDGRTSLRVGMGLSQIGEFSFIIASLGMTLQVTSDFLYPVAVAVSVLTTLLTPYLIRAADPLSVRLASAMPQRLTRVLGMYGEWLRSIQPQGESALVAAMIRRILLQVGINLALVIAIFVSGGYFAERMSVYLQAWISDPSWQKALIWGGALLLSLPFLIAAYRKLKALSMLLAELGVTPEMAGRHTQRVRRVIAEVIPILSLLVIFLLLAALSASILPTNKLLVLIAVVATAVAALLWRWFVRLHTRMQVALLDTLDNHKESSGH	PGPT0014395_1937	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014395-ybaL|TC_KEF-K03455	NA	NA
D1-35_04508	486			hypothetical protein	ATGGAACCCGGAAACGCCCAGCTGTCGATGACGGTGTTGATGACCCCCGATATGGCCAACTTCTCTGGCAATGTCCATGGCGGCACCTTGCTCAAATACCTCGATGAAGTTGCCTATGCCTGCGCCAGCCGTTACGCCGGGCGCTACGTGGTGACGCTTTCGGTCGACCAGGTCATCTTTCGTGAGCCGATCCACGTCGGCGAGCTGGTGACGTTCCTGGCGTCGGTGAACTACACCGGCAACACGTCGATGGAAGTTGGCATCAAGGTCGTGACCGAGAACATTCGTGAACGCTCGGTGCGCCATACCAACAGCTGCTTTTTCACCATGGTGGCCGTGGATGACCAACGCAAACCTGCGCCCGTCCCGCCATTGCACCCGCAGAACAGTGAGGAGAAGCGCCGCTACGAACAAGCCCAGCAGCGTCGGCAGATCCGCCAGGAGCTGGAACGGCGCTATCAGGAAATCAAGGCGGACGGGCCGTAA	MEPGNAQLSMTVLMTPDMANFSGNVHGGTLLKYLDEVAYACASRYAGRYVVTLSVDQVIFREPIHVGELVTFLASVNYTGNTSMEVGIKVVTENIRERSVRHTNSCFFTMVAVDDQRKPAPVPPLHPQNSEEKRRYEQAQQRRQIRQELERRYQEIKADGP				NA	NA	NA	NA	NA
D1-35_04509	873	pdxY	COG2240	Pyridoxal kinase PdxY	ATGAAACGTACGCCTCATCTGCTTGCCATCCAGTCCCATGTGATATTTGGTCACGCCGGCAACAGTGCTGCCGTGTTTCCAATGCAGCGGGTCGGCGTCAACGTATGGCCGCTCAATACCGTGCAGTTTTCCAATCACACCCAATACGGGCAGTGGGCCGGAGAAGTGTTGGCGCCTGCTCAGATTCCACTTCTCGTTGAGGGGATCGCGGCCATTGGCGAGCTGGGCAATTGCGACGCGGTGCTGTCCGGTTATCTGGGCAGCGCGGCCCAGGGGCAGGCGATCCTGGCGGGCGTGGCGCGGATCAAGGCTTGCAACCCCAAGGCGCTGTATCTGTGTGACCCGGTCATGGGGCATCCGGAGAAGGGCTGCATCGTGGCGCCCGAGGTGAGCGAGTTTCTGCTGGAAGAGGCCGCTGCCGTAGCGGACATCATGTGTCCGAACCAGTTGGAACTGGACAGTTTTGCCGGGCGCAAGGCGCAATCATTGTTCGATTGCCTGGCCATGGCACGTGGGCTGTTGGCTCGTGGACCGAAGGTGGTGCTGGTCAAACACCTGGCTTACCCCGGCAAGCCCGACGACAGCTTCGAGATGTTGCTGGTCACGGCTGACGGGGGCTGGCACTTGCGTCGTCCATTGCTGGCGTTTCCCCGTCAGCCGGTAGGGGTAGGTGACCTGACCTCGGGGATGTTCCTGGCGCGGATACTGTTGGGCGACAGCCTGGTGGCAGCATTCGAATTCACCGCTTCGGCGGTACACGAAGTGCTGCTGGAAACCCAGGCGTGTGCCAGCTACGAGCTGCAACTGATCCGTGCCCAGGATCGTATCGCCCACCCGCGCGTGCGCTTCGAGGCCACGCCGATCAGCCTTTGA	MKRTPHLLAIQSHVIFGHAGNSAAVFPMQRVGVNVWPLNTVQFSNHTQYGQWAGEVLAPAQIPLLVEGIAAIGELGNCDAVLSGYLGSAAQGQAILAGVARIKACNPKALYLCDPVMGHPEKGCIVAPEVSEFLLEEAAAVADIMCPNQLELDSFAGRKAQSLFDCLAMARGLLARGPKVVLVKHLAYPGKPDDSFEMLLVTADGGWHLRRPLLAFPRQPVGVGDLTSGMFLARILLGDSLVAAFEFTASAVHEVLLETQACASYELQLIRAQDRIAHPRVRFEATPISL	PGPT0009125_1027	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
D1-35_04510	423			hypothetical protein	ATGCTGACCCTTGGAAACATTTTCGTGCTGATGCTGCTGGCTACCGGTGGCGCCTGGCTGTGGCACAACCACGGCTTGCGCGAACGGGCTCTGGCGAGGGTCATACAACACTGCGCCAATCTCAAGATCGAGCTGCTGGATGGCAACGTGGCGCTGCGCAAGATCGGGTTTGTGAAAGACGGCAGCGGGCGACGGCGCCTGGCACGTGTCTATAACTTCGAATTCACAGTGACGGGCGAGACGCGTCATACCGGCACCATCACTCAATTCGGCGCCCACAGTGCAAACATCGAACTGGCACCCTATCCGATGCCGTTCGAAGAAACCGCGCAGGCGCCCATCGAACCGGTCCAGACCCGGCCCCGGGCCGAGGTTATCGAGCTGAGCCAGTGGCGTCAGGAACATAATAAATGGAAGCCCTGA	MLTLGNIFVLMLLATGGAWLWHNHGLRERALARVIQHCANLKIELLDGNVALRKIGFVKDGSGRRRLARVYNFEFTVTGETRHTGTITQFGAHSANIELAPYPMPFEETAQAPIEPVQTRPRAEVIELSQWRQEHNKWKP				NA	NA	NA	NA	NA
D1-35_04511	981	yeiR	COG0523	Zinc-binding GTPase YeiR	ATGTTGCAGAACATACCCACCCATGTGATTGCCGGCCCTTTGGGAGCAGGCAAGACCAGCCTGATCAGGCAATTGCTGGCTCAGCGTCCGGCTGATGAGCGGTGGGCCGTGCTAATCAACGAGTTCGGCCAGATCGGCCTGGATGCCGCGCTGCTGACCCAGGCCGCCGATGGTATCGCATTGGGCGAAGTGGCCGGGGGCTGTTTGTGTTGCGTCAATGGAGCGCCGTTTCAGATCGGCCTTGGCCGTTTATTGCGCAAGGCGCGGCCGCACCGTCTGTTCATCGAACCCTCCGGGCTGGGTCATCCGGCGCAGCTCTTGCGACAGCTGAACGAAGCGCCCTGGCTTGGCGTGCTGGCGATCCAGCCTTGTGTGTTGGTCCTGGATGCCCAGGCAATGGCGAACGGCAAGCCGTTGCCCGATGCGCAACGACAGGTCCTGGCTGACGCCGGCTTGCTGGTGCTGAACAAGTCCGAAGACCTTAACGACGCCGATCGCGTGGGCATTACTTCCCAATTGCCCGAGATTGCGCTGTATTGGACCCATCAGGCTGCGTTGCCGATTGATCGGCTGCCCGGCCTGGCGAATCGCGGCGACGGAGCTGCGGATAACTTGGCTGTGGATAACTTGAATGTGCCCAAGAGCCTGGGGCAGATACCGGCCATCTGGAGTGACCCGACGTTGCCGATCTGTCTGCATCAGCAGCAGGGCGAAAGCTGGAGCATCGGTTGGCGCTGGCATCCGGACCAACGATTCGACGTCGGGCAGCTGTCTCGATGGCTGCACGGCAAAGACTGGAAACGCGCGAAGATGGTTATCCACAGCGAGGGCGGTTGGGTTTCCGCCAATGCGTTGGACGCAGGGCCGCTGGAGTGGCAAGCGAGCGAATGGCGACAGGATTCGCGAATCGAACTGATCTTCGCCGAACCCCAAGACGTGGGAATCCTTCAAGCGGGCCTGGCGAGCTGCCGCCACCCTTAA	MLQNIPTHVIAGPLGAGKTSLIRQLLAQRPADERWAVLINEFGQIGLDAALLTQAADGIALGEVAGGCLCCVNGAPFQIGLGRLLRKARPHRLFIEPSGLGHPAQLLRQLNEAPWLGVLAIQPCVLVLDAQAMANGKPLPDAQRQVLADAGLLVLNKSEDLNDADRVGITSQLPEIALYWTHQAALPIDRLPGLANRGDGAADNLAVDNLNVPKSLGQIPAIWSDPTLPICLHQQQGESWSIGWRWHPDQRFDVGQLSRWLHGKDWKRAKMVIHSEGGWVSANALDAGPLEWQASEWRQDSRIELIFAEPQDVGILQAGLASCRHP				NA	NA	NA	NA	NA
D1-35_04512	354			hypothetical protein	ATGCGAATGATCGGTTGGCTGTTACTGCTGCTGACCTCGAACCAGGCTTTGGCCCAGGCGTGTGTAGTGCACAGCCAGGCGGAACGGCTCGATGTCAGAGTCTGCCAGCAGAACCGCAATATTCCGCAAAAACTGTTCGCCGACGGCTTCTGCCAACCCAGCCTGGCCGGACAGAAAGTCGACGTGCAGTATGTCGATCAATGCCCTGGCGGCGCATTTGGCATTTGCAGCAACGCCCAGGTCGCCAATATGCCTTATCGCCAGGATATTCACTATTACGGCGTAGCCACCGATGCGGCTTACCTGAAACCCTTTTGCGAAAGCCAAAGCCAGGGACACTGGCTCAAGCCTTAG	MRMIGWLLLLLTSNQALAQACVVHSQAERLDVRVCQQNRNIPQKLFADGFCQPSLAGQKVDVQYVDQCPGGAFGICSNAQVANMPYRQDIHYYGVATDAAYLKPFCESQSQGHWLKP				NA	NA	NA	NA	NA
D1-35_04513	642			hypothetical protein	ATGCTGGCGCCTCGTCTGAAGCAGCTGCGTCAGGTCCACGGAGATACGCCGCTTACCTTCGCGCAGATTCTGGATGACGACACCAACCTGGCCGTGTGGCAGCGTCACCTCCCGGCACATATCGGCGATTTTGCGGCGATGCTGCTTTCGATGGGCCAACCCCTGGCCGAGTCGATGGTGCTTGAGTTGCCGGGCGAGGATACGCAGCCGGTGTTGCATGGCCTTGCCTCGGGTTTCGGCGATCTGCACGGATATGAAGGGTTCGTCGCGGATGTCGCCTGGCTGGTCAGTGCGTTTGCCTGTCTCCTCGGTGCCCGGCGCGTCGGTCTGCGCTTACGAGCGTTGGATAATGCAATGTGCCCACGTTTTCACGTCGACCATGTGCCGGTGCGGCTGATCACCACCTATGCCGGCGTCGGCAGCCAATGGCTCATGGAAGGCGTCATGGACCGTCGACGATTGGCCCAGCCTGAAGCAGAGCCTGCCGACGCGAGTCTCATTCAGCAGATGCGCAGTGGCGATGTGGCGCTGCTCAAAGGTGAAAAGTGGCAAGGCAATGAAGGTCACGGGCTGATCCACCGCTCACCGCAATTGGCGCCCGGCGAACGGCGTTTGATCCTTTCGCTGGATTGGCTGGCCTAA	MLAPRLKQLRQVHGDTPLTFAQILDDDTNLAVWQRHLPAHIGDFAAMLLSMGQPLAESMVLELPGEDTQPVLHGLASGFGDLHGYEGFVADVAWLVSAFACLLGARRVGLRLRALDNAMCPRFHVDHVPVRLITTYAGVGSQWLMEGVMDRRRLAQPEAEPADASLIQQMRSGDVALLKGEKWQGNEGHGLIHRSPQLAPGERRLILSLDWLA				NA	NA	NA	NA	NA
D1-35_04514	1209	yciC	COG0523	Putative metal chaperone YciC	ATGCCCAACCGTCTCCCCGTTACCGTGCTGTCCGGATTTCTCGGGGCTGGTAAAAGCACCTTGCTCAATCATGTGTTGCGTAATCGCGACAACCTTCGCGTTGCCGTCATCGTCAACGATATGAGCGAGATCAACATCGATGGTAGCGAAGTGCAGCGAGATGTCACCCTCAATCGCGCCGAAGAACGGTTGGTCGAAATGAGTAATGGCTGCATTTGCTGCACGCTGCGCGAGGATCTCTTGGAGGAAGTGGGCAAGCTTGCCAGGGAAGGCCGCTTCGATTATCTGCTGATCGAATCCACGGGCATTTCGGAGCCGATGCCGGTCGCCGAAACCTTCACCTTTCTTGATGAAGAAGGGCGCAGCCTGGCGGACGTTGCGAGGCTCGACACGATGGTGACAGTGGTCGATGGCGTGAATTTCCTCAAGGATTACCAGGCCGCGGAAAACCTTTCCACCAGGGGCGAAACCCTCGGAGAAGAAGATGAGCGCTCGATAACCGATTTGCTGATCGAGCAGATCGAGTTCGCCGACGTGATCCTGATCAGCAAGATTGATCTCATAAGCCGCTCCGAACGAGAAGAGTTGAGCGCAATTCTGTCGCGCCTGAATGCCCAGGCGCAGGTTATTCCCATGGTCATGGGGCAGGTACCGCTGGGGCAGATCCTTGATACGGGCCGCTTCGATTTTGAACGCGCGGCGCAGGCGCCCGGTTGGCTGCGGGAGTTGCGCGGCGAGCATGTGCCCGAAACCTTGGAGTACGGCATCGCATCGACTGCTTACCGCGCCCGTCGCCCTTTTCATCCCCAACGATTCTTCAACTTTATCGACCGCCCATGGACCAATGGAACACTCCTGCGCTCCAAAGGTTTTTTTTGGCTCGCCAGCAAACATGAGGAAGCCGGCAGTTGGTCTCAGGCCGGCGGGTTGATGCGTCACGGCTTCGCCGGGCGCTGGTGGCGGTTCGTGCCGAAAAGCCAGTGGCCGCAGGATGAGGAGAGCATCGCCGCGATCATGAAAAACTGGCTGGCGACCTCCGGTGATTGCCGCCAGGAGCTGGTATTCATTGGTCAGAATATAGACTTCGCGCTGCTCGCCACCGAACTGGACGCTTGCCTGCTAACAGACGCGGAGATGAGCCTGGGCATCGAGCGCTGGCGGCAGTTGCCAGACCCGTTCGGCCCGTGGCATGACGAGGTTGCGGCGTGA	MPNRLPVTVLSGFLGAGKSTLLNHVLRNRDNLRVAVIVNDMSEINIDGSEVQRDVTLNRAEERLVEMSNGCICCTLREDLLEEVGKLAREGRFDYLLIESTGISEPMPVAETFTFLDEEGRSLADVARLDTMVTVVDGVNFLKDYQAAENLSTRGETLGEEDERSITDLLIEQIEFADVILISKIDLISRSEREELSAILSRLNAQAQVIPMVMGQVPLGQILDTGRFDFERAAQAPGWLRELRGEHVPETLEYGIASTAYRARRPFHPQRFFNFIDRPWTNGTLLRSKGFFWLASKHEEAGSWSQAGGLMRHGFAGRWWRFVPKSQWPQDEESIAAIMKNWLATSGDCRQELVFIGQNIDFALLATELDACLLTDAEMSLGIERWRQLPDPFGPWHDEVAA				NA	NA	NA	NA	NA
D1-35_04515	897	folE2		GTP cyclohydrolase FolE2	ATGAACGCGTTAACTCTGCCGGACATTGCGGCGCAGGCGTCTCGTCAAGCCATGCCGTTGGATTGGGTGGGCATGTGCGGCATCGCCGTGCCGGTGCTGTTGGATGGCCAGCGTTTGAGCGCCTCTGCCGATGCGGGCGTCAGTCTCGATGATGGCGAAGCGCGTGGCATCCATATGTCGCGCTTGTATGTGGCACTCGAAAAGCTTGAATACACCGCGCTTTCTCCGGACCTGTTACGCCGGATCCTGCAAGAGTTTCTGGATAGTCATGAGGGTTTGTCCCGGAGTGCTTCACTGACCCTGCGCACCGATCTGATGTACAAGCGCCCCGCTTTGATCAGCCCACTCGCCGGCTGGAAGCGTTATCCCATCGTTATCGAAGCCCGCCTTAAACACTCAGTGTTCCACGTGGAACTTCAAATCGAAATTCCTTACTCGTCTACTTGCCCTTGTTCGGCAGCGCTGGCGCGGCAATTGATCCAGCAGAAATTCCTCGACGATTTCGCGAATACAAATCTGGAGCACGCTGAAGTTCTCGCGTGGCTAGGTTCTCAGAAAGGTATCGTGGCCACCCCTCATAGCCAGCGCAGCGTAGCCATCCTGAACCTGCGCTTGGACGCGAAGCTCAATGAGTTTCCGGTGTTGCCGCTGATCAACGAGGCGGAGGCGGCGCTCGGCACCGCTGTCCAAACTGCCGTCAAACGCGTCGATGAACAAGCCTTCGCGCTCGCCAATGGGCAGAACCTGATGTTCTGCGAAGATGCCGCGCGGCGCTTGAATATAGCGCTGAGGCCGCTGCCCTGGATTTCCTCTCTTGACGTACGAGTCGTTCATGCGGAAAGCCTGCACGCCCACGATGCCGTCGCCCAAAGCCATTGGCAACGGGAGGAATCATGA	MNALTLPDIAAQASRQAMPLDWVGMCGIAVPVLLDGQRLSASADAGVSLDDGEARGIHMSRLYVALEKLEYTALSPDLLRRILQEFLDSHEGLSRSASLTLRTDLMYKRPALISPLAGWKRYPIVIEARLKHSVFHVELQIEIPYSSTCPCSAALARQLIQQKFLDDFANTNLEHAEVLAWLGSQKGIVATPHSQRSVAILNLRLDAKLNEFPVLPLINEAEAALGTAVQTAVKRVDEQAFALANGQNLMFCEDAARRLNIALRPLPWISSLDVRVVHAESLHAHDAVAQSHWQREES	PGPT0007880_447	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007880-folE2-K09007	NA	NA
D1-35_04516	669	scaC_2	COG1121	Manganese import ATP-binding protein ScaC	ATGATTCGTTGCCAGGGATTGAGTTGGGGTATCCCCGGGCACCCTCTCACTCCACCTCTGCACATGGAGCGCCCGGAGGGCAGCCTGACCGCAATCATTGGCGCCAACGGATCAGGGAAAAGCAGCCTGCTGAAAGTTATCGCCGGGTTACAGAAGCCACTGACGGGGAAGGTCTCGCTCAACGTTCAACGGCGCGGCGGCGTGTCGTTCCTGCCTCAACAGCAGCACCTGGATCGGCAATTTCCCATCAGTCTGCAGGAATTGGTGGCAGCAGGTTCCTGGGGTAATCGACAGGAACCTGCCGCACGCAACCAACGACTCAAGGCGGTTCTCGACGACTGGGCCTTGAGCGGTCTGGAACACCGTCCGCTGATGGCGTTATCGGGTGGCGAGTTGCAACGGGCCCTGCTCGCGCGACTGAGCCTGACCGAAGCGCCACTCCTGTTGCTGGACGAACCCCACGCAGCCCTTGATGAAAAAGGCCAGGCACTGCTGTGGGACAACATTCAGCGATGGCATCGCGAAGGGCGCACCCTGGTGGTGGTTTGTCACGATTTGGCTGCGGTGCATCAACACATTCCCCATACCTTGCTGATCAATCCGTCCGGCTGCGTATTGGGTCGCAGCGCCGAATTGATCGCCCCGACGCCTTACACACAGGTCGCTTGA	MIRCQGLSWGIPGHPLTPPLHMERPEGSLTAIIGANGSGKSSLLKVIAGLQKPLTGKVSLNVQRRGGVSFLPQQQHLDRQFPISLQELVAAGSWGNRQEPAARNQRLKAVLDDWALSGLEHRPLMALSGGELQRALLARLSLTEAPLLLLDEPHAALDEKGQALLWDNIQRWHREGRTLVVVCHDLAAVHQHIPHTLLINPSGCVLGRSAELIAPTPYTQVA	PGPT0004265_1460	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MANGANESE_TRANSPORT,PGPT0004265-ABC_ZM_A-K02074	NA	NA
D1-35_04517	867	mntC	COG1108	Manganese transport system membrane protein MntC	ATGCTTACCGCCACCCACTTCTGGCAGCCCTTCCAGGAATTTGTCTTCATGCGCCGGGCCTTGTTGGGCGGATTGGTGTTGGCATGCAGCACGGCTCCGCTAGGCGTGTTCCTGATTTTGCGGCGCATGAGTCTGATCGGAGATGCGGTAGCTCACGGCATCTTGCCGGGCGCGGCCCTGGGTTTCTGGTTCGCCGGTCTGAGCCTGCCAGCCTTGACGGTGGGTGGCCTGGGCGCCGGCTTGAGCATGGCCGGGCTGGCGGCGTGGGTCACCCGCCGCACCGGCCTGCGGGAAGATGCCAGCCTGGCGGCGGTCTACCCCATCTCCCTCGCCGCCGGGGTGTTGATCCTCGGTATGGCCGGTAAACGCCTGGACCTGCTGCACCTGTTATTCGGCTCGGCGTTGGCGGTGGACGGCCCGACACTCACCGGCATGCTCTGGGTTTCGGCGGCCAGTCTGGTGGCGATGGCGTTGATTTACCACCCGCTGTTACTCGACACCCTGGACCCACTGTTTCTGCAAACCGTCAGCCGTCTGGGTCCACTGGCCCACGGCGTATTCCTGACCCTGGTGGTGCTGAACCTGGTCATCGGCTTCCAGGCCATCGGCGCGTTGATGGTGGTCGGCCTGATGATGTTGCCGGCGGCCGCGTCGAGATTCTGGAGTCGTCGCCTGCCGATGTTGATGCTGGTCGCTGCATTGCTCGGTTGTCTCTCGGTGTGGCTGGGCCTGCTGTTGTCCTTCTATTTTTCGCTGCCCAGCGGGCCGGCCATCGTCCTGGTGGCGGGCGCGTCATATCTGTTGTCCGTGGTATTCGGTCCGGTGCACGGCTTGCTGCGCCGCCCGCCCCTGCTTACATCCCAATGA	MLTATHFWQPFQEFVFMRRALLGGLVLACSTAPLGVFLILRRMSLIGDAVAHGILPGAALGFWFAGLSLPALTVGGLGAGLSMAGLAAWVTRRTGLREDASLAAVYPISLAAGVLILGMAGKRLDLLHLLFGSALAVDGPTLTGMLWVSAASLVAMALIYHPLLLDTLDPLFLQTVSRLGPLAHGVFLTLVVLNLVIGFQAIGALMVVGLMMLPAAASRFWSRRLPMLMLVAALLGCLSVWLGLLLSFYFSLPSGPAIVLVAGASYLLSVVFGPVHGLLRRPPLLTSQ	PGPT0004270_755	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MANGANESE_TRANSPORT,PGPT0004270-ABC_ZM_P-K02075	NA	NA
D1-35_04518	876		COG0803	putative periplasmic iron-binding protein	ATGCGCGCCCTGCTCCTGATATTCAGCTTGATGCTGTCCATGTCCCTGTCTGCTGCTGAAAAACTCAAGGTGGTGACGAGCTTCAGCATCCTTGCCGACATGACCCGACAAGTCGGCGGCGAGCATGTCCAGATCACCAACATGGTAGGGCCTGACGCTGACGCACATACCTATGAACCCACGCCGGACGACGCCAAGGCATTGCTCGGGGCGAAACTGATCATCAAGAACGGGTTGGGCTTCGAGCCGTGGCTGGATCGCCTGGTGACCAGCACCGAAACCGGTGCCCCGGTCATCAGTGCCAGCCGCGGCGTGATTCCACGCTCGCTGGAAGAAGATGGCGAGACCATTCCCGACCCGCACGCCTGGCATAACCTCGCCAACGCCGTGCTTTATGTCGGCAACATCACCAAGGCATTGGAGGCGGCCGACCCGGCGAACAAGGCCGACTACGAACGTAACAGCCAGGCGTACCTGAAGAAGATTTATGCACTACTCGCCGAAGCCAAGGCGAAGTTCGCTGCGTTGCCACCGGGCAATCGCAAAATCGTCACGTCCCATGATGCGTTCGGTTACCTGGGCCAGGCTTATGGTATCGAGTTTTTGGCGCCGCAAGGGTTGTCTACTGAGCGTGAACCGTCAGCCGCGGAAGTCGCTGCGTTGATCACCCAGATTCGTCAGGCAAAAGTCAAAGCCGTGTTCATGGAAAACATCAAGGACGCGCGCCTGCTCAAGCAGATCGCCGACGAAAGCGGCGCGCACATCGGTGGCACGCTGTACTCCGATGCCCTCGCCGCCAGCGGACCGGCCAGCACCTTTACCGGTCTCTTCGAATACAACCTCAACACACTCTACGAGGCACTGGGGCGGCCCTGA	MRALLLIFSLMLSMSLSAAEKLKVVTSFSILADMTRQVGGEHVQITNMVGPDADAHTYEPTPDDAKALLGAKLIIKNGLGFEPWLDRLVTSTETGAPVISASRGVIPRSLEEDGETIPDPHAWHNLANAVLYVGNITKALEAADPANKADYERNSQAYLKKIYALLAEAKAKFAALPPGNRKIVTSHDAFGYLGQAYGIEFLAPQGLSTEREPSAAEVAALITQIRQAKVKAVFMENIKDARLLKQIADESGAHIGGTLYSDALAASGPASTFTGLFEYNLNTLYEALGRP	PGPT0004275_1908	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MANGANESE_TRANSPORT,PGPT0004275-ABC_ZM_S-K02077	NA	NA
D1-35_04519	522			hypothetical protein	ATGAATGTTCGTCTGCTGGGTTTGGCCTTGGCCGTTGGCTTGTCGGTTCCTGTGGCGGCTCAGGCGCAGATGCTTCAACCAGGCTTGTGGGAATTGACGACCAGCAACATGAAAGTCGACAACCAGAACCTGCCGGACCTGCAATTGATCCTTGGTCAATTGCAGAACCAGATGACGCCTGAACAGCGGGCAATGCTCGAAAAGCAGGGCATCACCATGGGGGGCAAGGGGATTCGGGTGTGCCTGACTCCGGCACAGGTGCAGACCAATGACATCCCGCTGCAAGATCCGCAATCAGGCTGCAAGCAGCAGATCACCGAGCGTACCGGCAACCAGTGGAAATTCCGCTTCAGTTGCCCGAAAGCCCAGGGCAACGGTATCGCGACATTCCAGAGCGATCGCGAATTCACCACCAAGGTCAATGGCACGTTCAACGCCACGGGTATCCAGCAGAACGGCAGCCTGGACACCCGCGCCGTATGGCTGGGGCAGGATTGCGGGACGGTCAAGCCAAGGGCTTGA	MNVRLLGLALAVGLSVPVAAQAQMLQPGLWELTTSNMKVDNQNLPDLQLILGQLQNQMTPEQRAMLEKQGITMGGKGIRVCLTPAQVQTNDIPLQDPQSGCKQQITERTGNQWKFRFSCPKAQGNGIATFQSDREFTTKVNGTFNATGIQQNGSLDTRAVWLGQDCGTVKPRA				NA	NA	NA	NA	NA
D1-35_04520	1440	clsA_2	COG1502	Major cardiolipin synthase ClsA	ATGGATTTTTTTGGCCCGCATGTTTTCGGTTACCTGATCGCGCTGCTCCATACCCTCGGCTCCATCGCCGCCGTCCATGCGGTGCTGACGGTGCGTACCGCCCAGGGCTCGATTGCCTGGGCCCTGTCGCTGGTATTCATCCCCTACCTGACGTTGATTCCTTACCTGGTCTTCGGCCGCAGCACCTTCGACGGCTACATCAAGGCACGTCGACAAGCCAACGAGGAAATGCGCAAGGCGATCTCCGAGCTCAACTGGCGCCCCTGGGTCGAAGAAGCGCTGGCCGCTCGCGCGTCCCAGGCCTACGCCTCGTTACGAGCCATGCCGAAGTTGGGACGCACGCCGTGTCTGGCAAACAATCAGGTGCGTCTGCTGGTTGATGGCCCAGCTACGTTCGAAGCGATTTTCCAGGCCATCGAGAGTGCTCGCGAAGCGGTTCTGGTGCAGTTCTTCATCATCCACGACGACCGGCTCGGTCAGCGCTTGCATGCGTTGCTGCTGAAGAAAGCCGCTGAAGGTGTGGCGGTGTACCTGCTTTACGACCGTATCGGTAGCCATTCCCTGCCCCATCGTTATGTCCAGGCGTTGCGCGACGGTGGCGTTCACGTCAAAGCGTTTGCCACTCGCAGCGGTTGGCTCAACCGGTTCCAGGTCAACTTTCGCAACCACCGCAAGATCGTCGCCGTGGACGGCGTCCTGGGGTTCGTCGGCGGGCACAACGTGGGCGATGAATACCTGGGGGAAAAACCACCCCTCGCACCGTGGCGCGACACTCATGTAGAGGTACGCGGCCCAGTGGTAGCGAGCATGCAGGAGTCCTTCGCCGAGGATTGGTTCTGGGCGGCGCGTTCCCTGCCGCCGCTGATTCTGCCGGACGCTTATCCGGACGATGGAGTGCTCTGCCAACTGCTAGCCAGCGGTCCCGCCGATGCCTACGAAACCTGCTCGCTGTTCTTCGTCGAAGCCGTTCATGCGGCAAGCGAACGCATCTGGATAACCACGCCGTATTTCATTCCCGACGAAGCGGTTTTCGCGGCTTTGCGCCTGGCCGTGCTGCGTGGCGTGGACGTGCGCATCCTGCTGCCGTCGCGACCGGACCACCGGATCGTCTACGCTGCGTCCAGTCTCTATGCGTTCGAAGCGGTGCGCGCCGGCGTGCGGGTGTTTCGTTATGAGCCGGGTTTCCTGCACCAGAAAGTGGTGCTGATCGATCGGGAAATCAGCGCCATCGGCAGCGCGAACCTGGACAACCGTTCGTTCCGGCTGAACTTCGAAGTCATGCTGCTGACCGTCGACATGGCCTTTGCCAGCGAAGTCGAGCAGATGCTCGAAAAGGACTTCGCCCAGGCCCACGAAGTGGCCAAACGGGAAAGCCGGGAAACCCACCGCCTGCAAAAGGTCGGAATGCGGATCGCCCGGCTGATTTCGCCGATTCTTTAA	MDFFGPHVFGYLIALLHTLGSIAAVHAVLTVRTAQGSIAWALSLVFIPYLTLIPYLVFGRSTFDGYIKARRQANEEMRKAISELNWRPWVEEALAARASQAYASLRAMPKLGRTPCLANNQVRLLVDGPATFEAIFQAIESAREAVLVQFFIIHDDRLGQRLHALLLKKAAEGVAVYLLYDRIGSHSLPHRYVQALRDGGVHVKAFATRSGWLNRFQVNFRNHRKIVAVDGVLGFVGGHNVGDEYLGEKPPLAPWRDTHVEVRGPVVASMQESFAEDWFWAARSLPPLILPDAYPDDGVLCQLLASGPADAYETCSLFFVEAVHAASERIWITTPYFIPDEAVFAALRLAVLRGVDVRILLPSRPDHRIVYAASSLYAFEAVRAGVRVFRYEPGFLHQKVVLIDREISAIGSANLDNRSFRLNFEVMLLTVDMAFASEVEQMLEKDFAQAHEVAKRESRETHRLQKVGMRIARLISPIL	PGPT0007725_2848	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
D1-35_04521	1188	COQ3_2		Ubiquinone biosynthesis O-methyltransferase, mitochondrial	ATGCTGGCTCAACTTCCACCGGCCTTGCAGAATTTGCACCTGCCGCTTCGGTTGCGGCTCTGGGACGGCCATGAATTCACGCTGGGTGCCGATCCCAGCGTCACGATTGTGGTAAAGGACCCACAAATGGTCGCGCAATTCACCCATCCCAGCCTGGATGCCCTGGGAGCGGCGTTTGTCGAAGGCAAACTCGAACTGGAGGGCTCGATCAACGAAGTCATCCGGGTGTGTGACGAGCTGAGCCAGGCTCTGGTGGACGAAGACGAGAGCCATCTGCCGGTGCGTGCGGTGCATGACAAGGAAACCGACGCCAAGGCCATCTCCTATCATTACGATCTGTCCAACGCGTTTTATCAACTCTGGCTCGACAGCGACATGGTGTATTCCTGTGCGTATTTCGAGACCGGCAGTGAAACCCTCGAGCAAGCGCAACAAGCCAAATTCCGCCATCTGTGCCGCAAGCTACGCCTGCAACCCGGCGATTACCTGCTGGACGTCGGATGCGGCTGGGGTGGTCTTGCGCGCTTTGCCGCACGGGAATTCGGCGCCAAGGTCTTCGGCATTACCCTGAGCAAGGCGCAGCTTGCGTTGGCGCGGGAGCGGGTAAAGGCCGAAGGCCTTGAGGACCAGGTAGAGCTGCAACTTCTGGACTACCGGGACCTGCCCCAGGATGGCCGATTCGACAAAGTGGTCAGCGTCGGCATGTTCGAACACGTCGGGCATGCCAACCTGGCGCAGTACTGCAAGACGCTGAACGGCGCGGTGCGTGAGGGTGGGTTGGTGATGAATCACGGGATTACCGCCAAGCACACCGACGGGCGTCCGGTAGGTCGCGGCGCGGGTGAGTTTATCGAAAAGTATGTATTCCCGAACGGTGAGTTGCCTCATCTGTCGATGATTTCCGCCGAGATCAGCGAAGCGGGGCTGGAAATTGTCGATGTGGAAAGCCTGCGCATGCATTACGCGCGCACTCTCGACCATTGGAGCGAGCGCCTTGAGGACAATCTCGAAGCCGCTTCCAGGGAAGTGCCGGAACAGGCGCTGCGGATCTGGCGTCTTTACCTGGCCGGCTGCGCCTATGCATTCGCCAAGGGCTGGATAAACCTGCATCAGATCCTCGCGGTGAAGGCCCACGCCGATGGTAGCCATGAGCTGCCCTGGACCCGCGACGACATCTACACGCCTTAA	MLAQLPPALQNLHLPLRLRLWDGHEFTLGADPSVTIVVKDPQMVAQFTHPSLDALGAAFVEGKLELEGSINEVIRVCDELSQALVDEDESHLPVRAVHDKETDAKAISYHYDLSNAFYQLWLDSDMVYSCAYFETGSETLEQAQQAKFRHLCRKLRLQPGDYLLDVGCGWGGLARFAAREFGAKVFGITLSKAQLALARERVKAEGLEDQVELQLLDYRDLPQDGRFDKVVSVGMFEHVGHANLAQYCKTLNGAVREGGLVMNHGITAKHTDGRPVGRGAGEFIEKYVFPNGELPHLSMISAEISEAGLEIVDVESLRMHYARTLDHWSERLEDNLEAASREVPEQALRIWRLYLAGCAYAFAKGWINLHQILAVKAHADGSHELPWTRDDIYTP	PGPT0007680_3403	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-PHOSPHOLIPID_PRODUCTION	PLANT_SIGNAL-PHOSPOLIPID_METABOLISM	PLANT_SIGNAL-CYCLOPROPANE-FATTY-ACYL-PHOSPHOLIPID_BIOSYNTHESIS,PGPT0007680-cfa-K00574	NA	NA
D1-35_04522	1911	cadA_2		Cadmium-transporting ATPase	ATGACCGCGCAGAGTATCAACATGCCGATGCTGTCCACCGCCGAGCAACGCTCGGCCGCTCGACAACTGACCCTGGCGATGCTCGCCCTCGGCTTGCTTGCCCTGGGCCTGGCCTGGCGCGTCTGGTTGCCGGAGCAGGGTACCGTCAGCCAACTGCTGTTGGGGTTTGCCTCGCTGTTGGTCGCGGTGCCGGTGATGCGCTCGGCCTGGTACAGCCTGCGTTATCCAAGCCTGCATGGGATTACCGATCAATTGATCGCCCTGGCGATGCTGGGGGCCTGGGCTACCGGCGACCTGCTGACGGCGGCGCTGTTGCCGATCATCATGATTTTCGGCCATGTGCTGGAAGAGCGCAGCGTCATCGGGTCCCAGGAAGCGATCGATGCCCTTGGCCAACTGACCCGCAGCCAGGGCCGCAAAGTGCAGGCTGATGGCTCGATCATCGAAGTGGACAACGCTACGTTGCGACCCGGCGATGTAGTGGAAGTCCGCGCCGGCGACCGGGTGCCCGCCGATGGTCGGGTGTTGTCCGGCCAAGCGAGCCTCGACACCGCGCCCATTACGGGTGAGTCGGTGCCATTGGAGGCGGTGGCGGGTGTTGAAGTCTTTGGCGGCGCGATCAACCTTGACGGTCTGTTGCGCCTGGAAGTGACCCGCACCGGCGATGAATCGACGCTGGGCAAAGTCATCGCGCTGATGCAGAACGCCGAGCGCTCGAAACCGCCAATCACTCGTTTGCTTGAACGCTACGCCGGAAGTTATCTGGTGCTGGTGTTGTTGCTGGCGGCGGTTACCTGGTTTGTCACCAATGACGCCCAGGCGATGTTGGCGGTATTGGTGGCGGCGTGTCCCTGTGCCTTGGTGTTGTCAGCCCCAGCGACGGCCATCGCCGGGATTGCGGTGGCGGCGCGCCACGGCATCCTGATTCGAAGCTCAGCTTTTCTCGAGGAGCTGGCGGACCTCACCTCGTTGGTCATCGACAAGACCGGGACCCTGACCTACGGCACCCTGCGTCTGCAATCGATCGAAAGTACCGAGGACGACCCTGCCGCATTGCTGCCATTGGCCGCGAGCCTCGGATCGGCCAGCAGTCATCCGGTCAGTCGTGCCTTGGCGGGGCTGGTGACAGCGCAAGATTATCTGCCGCTGACCGATATTCACGAGCGCCAGGGCCTCGGGGTAGTTGCCATGACAGGGCTGGGGGAGGCCGCCCTTGGCCGACCCGAATTGTTTGCCCGGTTGGGCATCGAGACACCGACGGTTCCCAGTCATGACGGCCCGATCGCCGGCCTGGCACTGGACGGGCAGTTTCGCGCCTGGCTGCTGCTGGCCGACAGCGTCAAGCCGGAAGCGCGGGTGGCCATGACCGAATTGCGGGCGCTGGGGTTGGGACGCCAGTTATTGCTGACGGGGGATCGCCAGAGCGTGGCCGCCGCCCTGGCGCACGATGTCGGTATCAGCGAGCTGCAGGCACAGGCGCTGCCGGAGGATAAGCTTGACCGGGTCATGGTCGAAATCGACCAGGGTTTCCGTCCGATGGTGGTGGGTGACGGGATCAACGATTCGCTGGCGCTGAAAGCCGGTGTGGTGGGCGTGGCGATGGGCGCGGGCGGTGCCGATATCGCCCTGGCGTCGGCGGATATCGTGCTGATCGGGAGTGATCTGCGACGTCTCGGAACTTGCGTGCGGTTGAGTCGCCAGTGCCGACGCACGTTGCAGGTCAACGTGATCATCGGCCTGGGCTGGACGCTGGCCATCGTCGCTTTCGCCGCGTTCGGCTGGCTCGGAGCAGCGGGGGCGATGATCGCCGCGTTGCTGCATAACCTGAGCACATTGCTGGTGCTGGGCAATGCGGGACGACTGCTGCGGTTTCACGAGCCCTTGGCGAAGATCCAGGCGAGTAGCCGCTGA	MTAQSINMPMLSTAEQRSAARQLTLAMLALGLLALGLAWRVWLPEQGTVSQLLLGFASLLVAVPVMRSAWYSLRYPSLHGITDQLIALAMLGAWATGDLLTAALLPIIMIFGHVLEERSVIGSQEAIDALGQLTRSQGRKVQADGSIIEVDNATLRPGDVVEVRAGDRVPADGRVLSGQASLDTAPITGESVPLEAVAGVEVFGGAINLDGLLRLEVTRTGDESTLGKVIALMQNAERSKPPITRLLERYAGSYLVLVLLLAAVTWFVTNDAQAMLAVLVAACPCALVLSAPATAIAGIAVAARHGILIRSSAFLEELADLTSLVIDKTGTLTYGTLRLQSIESTEDDPAALLPLAASLGSASSHPVSRALAGLVTAQDYLPLTDIHERQGLGVVAMTGLGEAALGRPELFARLGIETPTVPSHDGPIAGLALDGQFRAWLLLADSVKPEARVAMTELRALGLGRQLLLTGDRQSVAAALAHDVGISELQAQALPEDKLDRVMVEIDQGFRPMVVGDGINDSLALKAGVVGVAMGAGGADIALASADIVLIGSDLRRLGTCVRLSRQCRRTLQVNVIIGLGWTLAIVAFAAFGWLGAAGAMIAALLHNLSTLLVLGNAGRLLRFHEPLAKIQASSR	PGPT0004200_3143	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004200-zntA|cadA-K01534	NA	NA
D1-35_04523	1053			hypothetical protein	ATGAGCGTGGTTCCACGTGGAACAAATGAGTTATCCAGCCCGTGGATTCAGGCCGGGCGTCTGGCGTTCCTCGCGCTTTATGCTGTGACTGTCCTGGCGGCGTTGGCCTGGGCATTTTCCAATGTGCGGCAAATTGATCCGCAGAGCCGGGCGGTGGTTTTGCACTTTGGTGCGTTGGACCGAATCCAGAACGCCGGTCTGTTATTGGCGTGGCCGCGTCCCGTGGAACAAGTGATTTTGCTGCCGGCGGCAGACCGGGTGCTGGAGCGCCGGGTGGAAAGTCTGCTGCGTTCGGATGCGGCCTTGCAGGCTGATCGCGTCGCCAGTTTTGCCACGCCGGTCAGCGATGAACTCGCGGGCTCCGGTTATCTGTTGACCGGCGATGCGGGCGTGGTGCAACTGGATGTGCGGCTCTTTTACAAGGTCATCGAGCCTTATGCGTTTGTCCTCCAAGGCGAACATGTATTGCCAGCGTTGGACCGGTTGGCGACGAGAAGTGCCGTGGCGCTTGCCGCGGCGCGAGACCTGGACACCATTCTGGTGGCCCGCCCCGAACTGATGGGTAGCGATACCCAGGCCGCGGAGCGACGTGAACGCTTGCGTGGCGACCTGGTGCAGGGCATCAATCGGCGCCTGGCTGACCTGACCGCGACAGGGCAGGGCTTGGGGATCGAAGTGGTGCGGGTCGACGTGCAATCGAGCCTGCCGGGGCCGGCGGTGAGCGCATTCAATGCGGTGCTGACGGCCAGCCAGCAGGCCGACAAAGCGGTCGCCAACGCCCGAACCGAGGCGGAGAAACAGACCCAGGCTGCCCGCGAGGAAGCCGACCGTGCGTTACAAGTCGCCCATGCCCAGGCCAGCGAACGACTTGCCAAGGCGTCGACCGATACAGCCTCGGTGTCGGGGCTGGCGAAAACCCAGGACAGCGATCCGCAGCTGCTGCAGCGTCTGTACCGCGAACGCATGCCCGGGATTCTTGGTCGGGCTGGTTCCGTCACCACGGTCGACCCGAAAGACGATTCTCGTCTGATCATCCAGGGAGGCGGGCAATGA	MSVVPRGTNELSSPWIQAGRLAFLALYAVTVLAALAWAFSNVRQIDPQSRAVVLHFGALDRIQNAGLLLAWPRPVEQVILLPAADRVLERRVESLLRSDAALQADRVASFATPVSDELAGSGYLLTGDAGVVQLDVRLFYKVIEPYAFVLQGEHVLPALDRLATRSAVALAAARDLDTILVARPELMGSDTQAAERRERLRGDLVQGINRRLADLTATGQGLGIEVVRVDVQSSLPGPAVSAFNAVLTASQQADKAVANARTEAEKQTQAAREEADRALQVAHAQASERLAKASTDTASVSGLAKTQDSDPQLLQRLYRERMPGILGRAGSVTTVDPKDDSRLIIQGGGQ				NA	NA	NA	NA	NA
D1-35_04524	1038			hypothetical protein	TTGAGCCAGTCCTCTTCCCATGGTCATCACGACCATGCCGGTCACGATCACGGTCATGCCGGGCATCATCACGGACATCACCACCATCATGGCGATCCGCAGCAAGCCGGCCCGTTTCCGTGGCGGCGGATGTGCTGGGCCGCGCTGCTGGTGGCGTTTGCCGTTGCGGCCGCCAGCCTGGTACAGGTGCGTTCGGGGGAGGCCACTGTCATTACCCGTTTCGGCAACCCGGCGCGGGTACTTTTGCAACCCGGCCTGGGCTGGCGCTGGCCGGCACCTTTCGAGGCGGCGATCCCGGTAGACCTGAGGTTGCGCACCACCTCCAGCGGATTGCAAGACGTCGGTACGCGCGACGGTCTGCGGGTCATCGTCCAGGCCTATGTGGCGTGGCAGGTCCAAGGTGACCCGGACCATGTGCAGCGCTTCATGCGCGCCGTGCAGAACCAGCCGGACGAAGCCGCGCGGCAGATTCGCACCTTCGTCGGCTCGGCGCTGGAAACAACGGCGGCCAGTTTTGATTTGGCAAACCTGGTCAATACCGACGCCAGTCAGGTGCATATCGCCGATTTCGAAGCCCAGTTGCGTCAGCAGATTGAGCAACAATTGCTCGCCACTTATGGCGTTCGGGTTTTGCAGGTGGGTATCGAACGTCTGACGCTGCCCTCGGTGACGCTCACCGCGACCGTGGACCGCATGCGTGCCGAGCGTGAAACCATCGCCACGGAGCGCACAGCCATCGGCAAACGCGAAGCGGCGCAGATTCGCTCGGCGGCCGAACGCGATGCGCGGATCATGCAAGCTGATGCCACGGTTAAAGCAGCCAGTATCGAAGCGCAGTCCCGCGTCGAAGCAGCTGAAATCTACGGCAAGGCCTATGCCGGTTCGCCGCAGCTTTATAATTTGCTGCGCTCGCTGGACACCTTGAACACCATTGTCGGCCCCGGCACCAAACTGATCTTGCGCACTGATGCGGCACCGTTTCGCGTTCTGGTGGATGGTCCACCCGCCCTGGAGCCTAAAGGTGGAACACAACCATGA	MSQSSSHGHHDHAGHDHGHAGHHHGHHHHHGDPQQAGPFPWRRMCWAALLVAFAVAAASLVQVRSGEATVITRFGNPARVLLQPGLGWRWPAPFEAAIPVDLRLRTTSSGLQDVGTRDGLRVIVQAYVAWQVQGDPDHVQRFMRAVQNQPDEAARQIRTFVGSALETTAASFDLANLVNTDASQVHIADFEAQLRQQIEQQLLATYGVRVLQVGIERLTLPSVTLTATVDRMRAERETIATERTAIGKREAAQIRSAAERDARIMQADATVKAASIEAQSRVEAAEIYGKAYAGSPQLYNLLRSLDTLNTIVGPGTKLILRTDAAPFRVLVDGPPALEPKGGTQP				NA	NA	NA	NA	NA
D1-35_04525	1959			hypothetical protein	ATGCAAGTCGATCTGGAAATAGACGGGGCACACGTGGCCGACTGGCCGCGCTTCCAGCGCGCCGCATTCCAAGGGCTGCGCTTGAAGCGGATCGCGCTCGTACTGGGCGGCCTCGCGGGGCTGGGGCTGGTGTCGGCGTTTTTCATCGGGCTTTTTTCGCCACAATCGATATGGTCGGCGTTGCTGGTGAGCCAAGGCGCGGCTTTATCGGTGCTGGTGGCCGGATTGCAATCGGCCTGGTGGATCACGCAATGGCGTAGCAAGGCCCTGCTGCCGATGGTGGATATCCTGCCGGTCGAAGACGAGCCTGTTGATAACTCGGGTTGGTACGAGCGCCTGCTTGAGCGGATCAGCGCGCGCTGGATCGGTCTGCTGCAGCAAATCGGCGGACCGCTTCTGTGGCTTGCCGGCTGGGCGCTGCTGTCGTTGCTGGTTCTGGAGAAAACCTGGGACTTGGCGTTGCCTGCCGCTTCGCTTGGCGTGGCGGCCAGCGTCGGCGCGGTGCTTTCGTTAGTGCTGGCGTTCGGGTTGCTGGTGCTCGAGCGCCAACTGGCTCAACAGTCGCCGATCGAATGGCCCGAAGCCGCGCCGCTGGCGCAACTGACACGGGTGCCGATCATCGTGCTGGTACTGGCTGCCGTGTGTCTGCTCTTCGCCGGGGAGGCGTCCCTCTGGCCGGTACGCCTGGCGGTGCTGATCGGATTGTTGCCGGGCCTGGTGGCGGTGGAGTTGTTGCTACGCGCGCTGCTGGCGTTATTCAGCCCGCGCCGGAACACCTTGGAACCGGCGCTTCTGGGACGCAGTGTGGTCGCCGATCTGCTGCGCTGGCCGCCGCGACCGCTGTTGGCCTTGCAGCATGAGTTGCACAATCGTTTTGGCATCGACCTGCGCCAGATCTGGGCGTTCAGCTACATGCGCCGGGCATTTGTTCCGGTGCTGGCATTGGTGGCGCTGGTCGGGTGGCTGCTGACCGGCGTGCATGAGGTGCCGCTGCAAGGGCGCGGCATCTATGAACGTTTCGGCAAGCCGGTACAGGTCTTTGGTCCGGGCCTCCACGCGGGTTTGCCATGGCCGTGGGGCAGGGTATTGAGCGTCGAGAACGGTGTCGTCCACGAGTTGGCTACCAGCGGCGACGGCAAGACGGCCTCGGTCGCGGAACCGGCAGAGGGACCGGCTCCGGCTATCGCCAATCGGTTGTGGGATGCCAGCCACGTGAATGACAAATCCCAGGTCATCGCCAGCCGTCGCGCGGATCAGCAGAGCTTCCAGATCGTCAACATGGACGTACGCTTCGTCTATCGCATCGGCCTGACGGATGCAGCGGCGCTGGCGGCGACTTACCACAGTGCGGATGTGCCGACGCTGATTCGCAGCACGGCCAGCCGCGTCCTGGTGCATGAATTTGCCTCGCGCACGCTGGATGGCTTGCTGGGCGCGGACCGTGTCAGCCTGGCGGAGGAAATCGGTCGCGCTGTACAGGCCGATCTGCAATCGCTCGACAGTGGCGTAGAGATTCTTGCGACAGTGGTCGAGGCGATCCATCCGCCGGCCGGCGCAGCCAATGCCTACCACGGTGTGCAAGCGGCGCAGATCGGTGCCCAGGCGTTAATCGCCCGCGAGCGTGGCGCCGCTGCGCAGCAGGTCAACCAGGCGCAACTGCAAGCAAGCACCGCCAACGACCAGGCCCAAGCCACGGCGCGAGAAATCAACGCCACTGCCCAAGCCGCCGACCTGCGCTTTCGCGCCGAACGCCAAGCCTACGCGACGGCTGGCCATGCCTTCGTGCTGGAGCAATACCTCGGTCAACTGAGCCAGGGCCTCGGCAGCGCCAGCTTGCTGATCCTTGACCATCGCCTGGGCGGCAACGCCAACGCCCCGACCATTGACCTGCGCACTTTCACGCTGCCGGCGGATCCCGCATCGCCAAACCAACCTGTCCAGCCAGGAGCTGCCCATTGA	MQVDLEIDGAHVADWPRFQRAAFQGLRLKRIALVLGGLAGLGLVSAFFIGLFSPQSIWSALLVSQGAALSVLVAGLQSAWWITQWRSKALLPMVDILPVEDEPVDNSGWYERLLERISARWIGLLQQIGGPLLWLAGWALLSLLVLEKTWDLALPAASLGVAASVGAVLSLVLAFGLLVLERQLAQQSPIEWPEAAPLAQLTRVPIIVLVLAAVCLLFAGEASLWPVRLAVLIGLLPGLVAVELLLRALLALFSPRRNTLEPALLGRSVVADLLRWPPRPLLALQHELHNRFGIDLRQIWAFSYMRRAFVPVLALVALVGWLLTGVHEVPLQGRGIYERFGKPVQVFGPGLHAGLPWPWGRVLSVENGVVHELATSGDGKTASVAEPAEGPAPAIANRLWDASHVNDKSQVIASRRADQQSFQIVNMDVRFVYRIGLTDAAALAATYHSADVPTLIRSTASRVLVHEFASRTLDGLLGADRVSLAEEIGRAVQADLQSLDSGVEILATVVEAIHPPAGAANAYHGVQAAQIGAQALIARERGAAAQQVNQAQLQASTANDQAQATAREINATAQAADLRFRAERQAYATAGHAFVLEQYLGQLSQGLGSASLLILDHRLGGNANAPTIDLRTFTLPADPASPNQPVQPGAAH				NA	NA	NA	NA	NA
D1-35_04526	1401	lpd3	COG1249	Dihydrolipoyl dehydrogenase 3	ATGAGCAATTACGACGTGATCATTCTGGGCGGCGGCCCCGGCGGTTATAACGCAGCGATCCGGGCCGGACAGTTGGGGTTGAAGGCGGCCTGCGTGGAAGGCCGTGCCACCCTCGGCGGCACTTGCCTGAACGTCGGTTGCATGCCTTCCAAGGCGTTGCTGCACGCCTCCGAACTGTACGAAGCAGCCAAGGGCGCGGAATTCGCCCAGCTGGGCATCAACGTCAGCCCCACCCTCGACCTCGCACAAATGATGAAACAAAAGGATGAAAGCGTCGCGGGCCTGACCAAGGGCATCGAGTTTCTGTTTCGCAAAAACAAGGTTGACTGGATCAAGGGCTGGGGCCATATCGACGGCCCCGGCAAAGTCACCGTCACCGGTGAGGACGGTGGCAAGACCGAACTGAGTGCCAAGGACATCGTCATCGCCACCGGCTCCGAGCCGACGCCACTGGCGGGGGTCGACATCGATAACCGGCGCATTCTCGATTCCACCGGTGCGTTGTCCCTGAGCGAAGTGCCTCGGCACCTGGTGGTGATCGGCGCTGGCGTCATCGGCCTTGAACTCGGTTCAGTCTGGCGGCGCCTGGGTGCCGAGGTCACCGTCGTGGAATACCTCGATCGCATTTGTCCAGGCGTCGACGGCGAAGCCGGCAAGACCCTGCAGCGGGCCCTGGCCAAGCAGGGCATCCAGTTCAAGCTGAGCGCCAAGGTGACCCGCGCCGTTTCCTCGGCGAGCGGCGTGCAACTGCAAATTGAACCCGCGGCCGGAGGCGAGGCGCAAACCCTGGACGCTGACTACGTACTGGTTGCCATCGGCCGTCGGCCTTATACCCAAGGCCTGGGGCTGGAAAATGCAGGATTGGCGACCGACCAACGCGGCATGCTCGCCAACCAGCGCCACCGCACCAAAGCGCCCGGCTTCTGGGTGATCGGCGACGTGACGTCCGGACCGATGCTTGCGCACAAGGCCGAAGACGAGGCCATGGCCTGCATCGAACAGATTGTTGGCAAGGCCGGCGAGGTCAATTACGACTTGATCCCCAACGTCATCTATACCCGCCCTGAACTGGCCAGCGTCGGCAGGACCGAAGAGCAGCTCAAGGCCGAAGGCCGCGCCTACAAGGTCGGGAAATTTCCGTTCACCGCCAACAGCCGGGCGAAGATCAATCATGAAACCGAGGGGTTCGCCAAGGTATTGGCTGACGAGCGCACCGACGAAATTCTCGGCGTGCATCTGGTAGGCCCGAGCGTCAGCGAGATGATCGGAGAGTACTGCGTAGCGATGGAATTCGGTGCCTCGGCCGAGGACATCGCTCTGATCTGCCACCCTCACCCCACTCGCTCGGAGGCGTTGCGCCAAGCAGCGATGAACGTGGAGGGGATGGCGACGCAGATGTAG	MSNYDVIILGGGPGGYNAAIRAGQLGLKAACVEGRATLGGTCLNVGCMPSKALLHASELYEAAKGAEFAQLGINVSPTLDLAQMMKQKDESVAGLTKGIEFLFRKNKVDWIKGWGHIDGPGKVTVTGEDGGKTELSAKDIVIATGSEPTPLAGVDIDNRRILDSTGALSLSEVPRHLVVIGAGVIGLELGSVWRRLGAEVTVVEYLDRICPGVDGEAGKTLQRALAKQGIQFKLSAKVTRAVSSASGVQLQIEPAAGGEAQTLDADYVLVAIGRRPYTQGLGLENAGLATDQRGMLANQRHRTKAPGFWVIGDVTSGPMLAHKAEDEAMACIEQIVGKAGEVNYDLIPNVIYTRPELASVGRTEEQLKAEGRAYKVGKFPFTANSRAKINHETEGFAKVLADERTDEILGVHLVGPSVSEMIGEYCVAMEFGASAEDIALICHPHPTRSEALRQAAMNVEGMATQM	PGPT0001380_6296	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
D1-35_04527	2151			hypothetical protein	ATGTCTACCCGTAAGTGGCCTCGTCGCCTGCTGTGCCTGAGCCTCGGTTTACCGCTGTGCCAGGCATTGGCCTGCGGGCCGGATTTTCCGATGCGCCTGCTGGATAACCGGGCCCAATCGCTGGCGGAGCTGCCCGAGGGCAGCTTTCGCTTCGAGGTCAGTCGTCTCGGCCAGGCCATCGCCGGATTGAAGCCGGCTACGGAGGCGACACGCAACCCTGACTACAGCTACGACGATGTGGCTTCCTACGTGGACCAACGCAACAAGGCCGAACAGCTTGGCCTGACCCCACCGCAGCAAGCCGTTGTGGAGCGCTTGCGGGCAATCAGCGATATCGAGCAGATCGCCGCCGAAGCGGCCAACCTGCCCGCCGAGCTGCGGCTGTACGCAATCGGAGCGGCAGCGTTCAACGCTGGCGATCATCTGCGCGCAGCCGAATCATTCCAGCAACTGCTGGCGCTGCCGGCCGACGAGCGCCGGATGCGCAGTACCTGGGCGGCGTACTCCCTGGGGCGGGCGCTGTTCGCCATGAGCACCGAGGCTGGCCGTGGCCAACCGGCTGCCTTGCGGGATCAGGCACGGCAGGCGTTCCGCCAGGCTCGCGAATTGACTATCGCCGGCTTCAGCGACCCCTTGGAGCTGGGCGTCGCCAGTCTGGGCGAAGAAGCCAGGGTGGCCTACACCGCCGATGACTGGGACAGCGCCATCGGACTGTATGCGACCCAGAATCTGCAAGGCTCCCCGGTTGGCTACAGTTCGCTGCTGCAGTTGGCGGGCGGCCTCAGCGTCGAGTCGGAGGAGCGCCTGGGCGAATTGCTCAAGGCCAAGGCCGTGCAGCGCCTGGTGACTGCTTATCTGCTCAGCCGCGTCGGCTGGTGGGACGGCGAAGAACCCTCCGGCGAGAAAACCCTCCTCAAGCTGTTGCAAGCCAGCGCCCAGGGCAACCTCGATGATGCCGACCGCTTGGCGGCAGTGAGTTATCAACACGCTGACTACGACAGCGCGAAAGCATTTGCACAAAAGGCCGGCGACAGCGGACTGGCGTGGTGGGTAAGGGCCAAGCTCGCGCTGCGCGAAGGCGACAAATCCGCTGCGGCCGCCGCCTATGCCAAGGCCGCCCAGGCCTTTCCGAAGGACGAATCCTGGGGCGACCGCCGTACGCCGGATTGGGACTACGAGACGGTACAACCCAAGTGCCGGATCGAAGGCGAAAGCGCGATCCTGGCCTTGCAGAGAGGCGACTACCTGCAGGCTTTCGATCAGCTTTATCGCGGCCAGAACAACTATTGGTACGACGCCGCAACGGTCGCCGAGCGTGTGCTGACCGTCGAGGAGCTCAAGCAGTACGTCGACGCCCAGGTTCCGGCACCGCCGCCGTTGAGCCAGGAAGATCGAGACAACTACGTACAGTTGTCGGTGGCGGCGAACCTGCGCAACCTGCTGGGGCGTCGTTTGCTGCGCGAAGGACGCTACGACGAGGCGCCGGCTTATTTCGACAATCCCGAGCTGCAGAACAAGGCCCGCACCTATGGGCAGTTGCGCCAGGATGCGGAATCCAAATGGTGGCCGACCAGCCGGGCCGAGGCGTATTTCAAGGCGTCGGTGATCGCACGCAGATCAGGAATGCAATTGCTGGGCTACGAAATGGCGCCGGATTACGCCAGCCTGGACGGCAACTACAGTTTTGAGCCGGTGGAGCTGAAGGTCGGACCGCTGGTGGCCGACGGCGAGGTCCAGCGCCAGCAGGCCAGTGCCGCCCAACCGGACATGCGTTACCACTACCGTTTTGTCGCCACGGCGCTGGCCAGCCAGGCCGCCGATCATCTGCCGCACACCAGCCAGGCGTTTGCGGCGGTGCTGTGCAGGGCGGTGGGGTACAACTCAAGCCTGGAAGAACAAAGCGCGCTGTATCAGCGTTATGTGAAGGACGGCCCCTACGTGGAATGGGCCTGGGATTTCGGCCGTCAGTGCGAGGAACCGGCATTCGACCAGGCGGACAAGCGCTATGTCACTCAGGCCCTGACGCCGATTCGCTCGGCGCTGCGGCCGTTCAAGACAGGGTTGGAAGTGGGTGGCGCGGTGCTGGTGGTGGCCGTGGTGCTGGCGCTGATCAGTCGGCGCAAGCGCAAGGCTCGCATGGCAGCGAGCTGA	MSTRKWPRRLLCLSLGLPLCQALACGPDFPMRLLDNRAQSLAELPEGSFRFEVSRLGQAIAGLKPATEATRNPDYSYDDVASYVDQRNKAEQLGLTPPQQAVVERLRAISDIEQIAAEAANLPAELRLYAIGAAAFNAGDHLRAAESFQQLLALPADERRMRSTWAAYSLGRALFAMSTEAGRGQPAALRDQARQAFRQARELTIAGFSDPLELGVASLGEEARVAYTADDWDSAIGLYATQNLQGSPVGYSSLLQLAGGLSVESEERLGELLKAKAVQRLVTAYLLSRVGWWDGEEPSGEKTLLKLLQASAQGNLDDADRLAAVSYQHADYDSAKAFAQKAGDSGLAWWVRAKLALREGDKSAAAAAYAKAAQAFPKDESWGDRRTPDWDYETVQPKCRIEGESAILALQRGDYLQAFDQLYRGQNNYWYDAATVAERVLTVEELKQYVDAQVPAPPPLSQEDRDNYVQLSVAANLRNLLGRRLLREGRYDEAPAYFDNPELQNKARTYGQLRQDAESKWWPTSRAEAYFKASVIARRSGMQLLGYEMAPDYASLDGNYSFEPVELKVGPLVADGEVQRQQASAAQPDMRYHYRFVATALASQAADHLPHTSQAFAAVLCRAVGYNSSLEEQSALYQRYVKDGPYVEWAWDFGRQCEEPAFDQADKRYVTQALTPIRSALRPFKTGLEVGGAVLVVAVVLALISRRKRKARMAAS				NA	NA	NA	NA	NA
D1-35_04528	1194			hypothetical protein	ATGACTTTTATCCACAGGCTGACGCTGACCTTCGCCGCGTTGTTTTTGAGCGGCTGCGACCAGCCCCCTCTGCCTGCCCTCGATCAGCAACTTTATATCTGGCAACGCCAGTGGACGCCGGCCCATGAACTGGCGCTGAGCCAGAGCCATGCGGACTTTTCCAGCCTCCGGGTGCTGGCGCTGCAAGCCTTCCCGGGCGCCGGCTGGAGCCACGCGCGGATCGATCCGGCATTGCTCAAGGCTGACGGTCGGCCGTTGATAGCGGTGATTCGCCTGGATGGCCAGCTCAAATCCCTCGATCAGGACGAAATAATCTCGCGGATCCAGCAGTTGCTGGCCGACTGGCAAACCCTGGACCTGGCGCCGATGGGCATCGAAATCGACCACGATGCCGGTAACGCAAGGCTGCCAGCCTATCGGAACTTCCTTGTCCGCTTGCGGCAGGCCTTGCCGGCCGCCTTGCAGCTCAGCATCACCGCGCTGCCGGCCTGGCTCGACAGCCCCGAGTTGCCCGGTCTGTTAAAGGTTGTGGACAGCAGCGTCCTGCAGGTACACGCGGTCAGCGATCCGCGTCAGGGGCTTTTCGATCCCAGCCAGGCTCAACGTTGGGCCCAGCGCTGGGGCGACCTCACCACACGCCCGTTCTACCTGGCCTTGCCGGCCTATGGCGTGGCGCTGCTGACCGAAGAAAACGGCGCACCGGTGGTGGAAAGCGAAGTGCCCATCGACCGCGGCGGCGAGCGCCGGGAGTTGCTCGCCGATCCACGACAAGTGGCCGGGCTTGTCGCGCAACTGCGCGCCGAGCCGCCAGAGCATCTGGCCGGATTGATCTGGTTTCGCCTGCCGCTGGCGGGGGACCGGCGCGCCTGGAGCCTGGCCACTCTTGGCGCGGTGGCGCGTGGTGATCGCCTGGACAGTCATTTGACTCTGCGCCTGCAAGAGCAGGGCGGACTCTATGACATCCGGCTGGTGAACCAGGGCAATCTCGACAGCCCCTGGCCGCAGCGGCTGACACTCGCCGTGGGCGGGTGTGATGGCGTCGATGCCTTGGCCGGTTATACGTTGCAACAAACCCCTGGACTGCTTACCTTCACCCGCATCCAGGAAGGCCGCTTGGCTGCCGGTGCCCAACGGGCAATCGGCTGGGCGCGCTGTACAAAAATCGACCAAGGAGGAATGAATGTCTACCCGTAA	MTFIHRLTLTFAALFLSGCDQPPLPALDQQLYIWQRQWTPAHELALSQSHADFSSLRVLALQAFPGAGWSHARIDPALLKADGRPLIAVIRLDGQLKSLDQDEIISRIQQLLADWQTLDLAPMGIEIDHDAGNARLPAYRNFLVRLRQALPAALQLSITALPAWLDSPELPGLLKVVDSSVLQVHAVSDPRQGLFDPSQAQRWAQRWGDLTTRPFYLALPAYGVALLTEENGAPVVESEVPIDRGGERRELLADPRQVAGLVAQLRAEPPEHLAGLIWFRLPLAGDRRAWSLATLGAVARGDRLDSHLTLRLQEQGGLYDIRLVNQGNLDSPWPQRLTLAVGGCDGVDALAGYTLQQTPGLLTFTRIQEGRLAAGAQRAIGWARCTKIDQGGMNVYP				NA	NA	NA	NA	NA
D1-35_04529	627	yfcG_2	COG0625	Disulfide-bond oxidoreductase YfcG	ATGAACCCTATCAAGCTCTATCACTTCCCACTGTCCGGCCATGCGCACCGTGTCCAGCTGATGCTTTCCTTGCTTGAGTTGCCGGTCGAGGTCAATTTTGTCGACCTGGCCAAGGGCGCGCACAAACAAGCGGATTTCCTCGCAATCAACCCGTTCGGCCAAGTACCGGTGATCGATGATAACGGTGTGGTACTGGCCGACTCCAACGCCATTCTGGTGTACCTGGCAAACAAGTACGGCGACGGCCGCTGGCTGCCAACGGACCCGGTCGGCGCCGCTCGCGTCCAGCGCTGGTTGTCGGTAGCGGCCGGGCCATTGCATGCCGGACCGGCCACCGCGCGCCTGATCACCGTGTTCGGTGCTTCTCATAACGCCGAGGATGTGATCGCACGTTCCCACAACCTGCTCAAAGTCATCGACCAGGAACTGAGCAACAGTGCCTATCTGGTCGGTGACATTCCGACCATCGCCGACATCGCAGGCTACAGCTATATCGCCCATGCGCCAGAAGGCAACGTTTCGCTGCAGGACTATGCCCATGTGCGCGCGTGGCTGGCGCGGATCGAAGCCTTGCCTGGGTTCGTGGGGATGCCGCGTACCGTTGTCGGCTTGCAAAAAGAGGCCTGA	MNPIKLYHFPLSGHAHRVQLMLSLLELPVEVNFVDLAKGAHKQADFLAINPFGQVPVIDDNGVVLADSNAILVYLANKYGDGRWLPTDPVGAARVQRWLSVAAGPLHAGPATARLITVFGASHNAEDVIARSHNLLKVIDQELSNSAYLVGDIPTIADIAGYSYIAHAPEGNVSLQDYAHVRAWLARIEALPGFVGMPRTVVGLQKEA	PGPT0013170_17204	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
D1-35_04530	903	dmlR_21		HTH-type transcriptional regulator DmlR	ATGGACAGGTTTCAGGAAATGCAGGTGTTTGTCGCCGTCGCCCAGGACTGCGGATTTTCAGCGGCTGCCCGGCGCCTGGGCTTGTCGGCGGCGAGCGTGACACGCGCCGTGGCGGCACTGGAACAGCGTATCGGTACGCCGCTGCTGGTTCGTACCACCCGCAACGTTTACCTGAGCGAAGCGGGCCAGCGCTTTCTTGAGGACTGTCGGCGGATCCTCGGCGATTTGCAGGAGGCCGAGGATTCGGCGGCCGGCAGCCACGCCCAGCCCCGCGGACAACTGACGATTACCGCGCCCGTGCTGTTCGGCCAGTTGTTCGTCATGCCGGTGCTGGTGGATTACCTGGGGCGATTTTCCGAAGTTTGCGTCAACGCCTTGCTGCTGGATCGCACCGTCAGCATGGTCGAGGAGGGCATTGATGTCGCGGTGCGCATCGGCGAGTTGCCCGACAGCAGCCTGCATGCCGTGCGTGTCGGCGAGGTGCGGCGCGTGGTGTGCGGTTCTCCGGAATTCTTCGACCAGCATGGCCGACCCGAGCATCCGCAGGATCTGGAGCGGATGCCCGTGGTGTCGTCATCAGCCATCGGCCAGGTCAGGAACTGGACGTTCATCGAGGCCGGTCAGCCGTTGTCGGTCCGGCCCACGCCCCGGCTCGTGGTCACGGCCAACCAGGCTGCCATCGGCGCGGCGTGCCAGGGGTTGGGGATGACCCGGGTCCTGTCCTATCAGGTTGCGAACAATATCGCGGCCGGCGAGCTGGAAATCGTCCTGGCCGATTTTGAGCTGCCGCCATTGCCAATCCACGTGGTGTATCAGGGCGGGCGCAATGCGCCGGCGCGGGTTCGCAGTTTTGTCGACTTCATGGTGAGTGCAATACGAGAACATCCAGCCTTGAAGAACTGA	MDRFQEMQVFVAVAQDCGFSAAARRLGLSAASVTRAVAALEQRIGTPLLVRTTRNVYLSEAGQRFLEDCRRILGDLQEAEDSAAGSHAQPRGQLTITAPVLFGQLFVMPVLVDYLGRFSEVCVNALLLDRTVSMVEEGIDVAVRIGELPDSSLHAVRVGEVRRVVCGSPEFFDQHGRPEHPQDLERMPVVSSSAIGQVRNWTFIEAGQPLSVRPTPRLVVTANQAAIGAACQGLGMTRVLSYQVANNIAAGELEIVLADFELPPLPIHVVYQGGRNAPARVRSFVDFMVSAIREHPALKN				NA	NA	NA	NA	NA
D1-35_04531	2214	mdoB_2		Phosphoglycerol transferase I	GTGAATTTTCTTTACCGAGCTCTCACCCACCCCCACGCTGCCATCTGCGCCCTGGCCGGATACGTGCTCCTGGTCCCCATGGGCCTGCGCCTCCTGCTCGGCTGGTCCGACCCGCTGGGCTATCTGTCGGACATGGCCATCGGCAGCTTGTTGATCGTGCTCTTGCATCGACGCCCCTGGTGGCTGGCATTGCCGGTTTTGCTGGCCTGGTGTGCGCTGACCCTGGTCAGCATCGAATTGGTCAATGCCGTCGGAAGGATGCCCAGCCCGGCGGACATTCAATACCTGGTCGATCCGCAATTCGTCGAGAACTCCACCAGCGGCGGCTTTGCGCATCCCTGGCTCGCCGCGATCATGCTGGCAGCCCTGACACTCTGGCTGGCCAACCGATGGGCCAATCGGAGCCGCCAGGCACCTCCCTTGCCCCGCCACGCCTGGGCGATCCCCGTGGTGTTTTTCCTGGCCCACGGCACGGCGCAAACCTGGCGGCCCAGCGAGGCAGACCAGTGGAATCTGTTCAACCTGCCTCATCAGCTGATGACGGCTGGCGTCGCCGCCGGCCAGGAGCACTTCGAACAATGGCTCGCAGGTGATACGCCGGACCAGGCGCCACCGATGCACGGGCTTACCCGGCTCGATCTGGATGGGCAGAAACTGCTCACCGAGCCGGGTAGCGCGCGCAATGTGCTGATCATCGCCCTGGAGGGCATTCCCGGTGCCTATCTGGAAACCAACCGCCAAGCGCTGAAAAGCAGTTATCAGGAAAACCTGATGCCGCGCCTCAGCACCTGGGCCGAGCGCGGCATGAACACGCCCGACTACGTGTTGCACAGCCACCAGACCATCCGTGGCCTGTACGCAATGCTCTGCGGTGACTACGACAAGCTCGACGATGGCACGCCCAAGGGCGTCGAAATGCTCAACCAGCGCCAACGCAACCAGGCCTGCCTGCCGGCCCAATTGCGCAAGCACGGCTTCTCGACTCATTTCCTGCAGGGTGCCGGCCTGCGGTTCATGGCCAAGGACCGGATCATGCCGCATATCGGCTTCGACACGACCCTGGGCATGGAGTGGTTCACCCGACCGGCCTACCTCGAGTTTCCCTGGGGCAAGGACGACAAGACCTTTTTCGAAGGCGCGCTGGACTACGTCGGACAACTGCAACAGGCAGACAAACCCTGGATGCTCACCCTGCTGACCGTGGGCACGCATCAGCCGTACTCGGCGCCAGATGACTACCTGGAGCGCTACGACACCGCCAAACAGGCCGCCGTCGGTTATCTGGACGACGCGCTGGACAGCTTCCTGACAAACCTCGAACGCCAGGGCATCCTGGAAAATACCCTGGTGGTCATCACCTCGGACGAATCCCATGGCATCGACGATGTGCGCCTGGCATCGTCCTGGGGCTTCAACCTGACGCTGGCACCGGAGCCGTTGCCGCGAACCAAGCAAGGCGTCCATGGCCACGTCGACCTGAGCGCGTCGATCCTCGATTACTTCGGATACGCAGTGCCCACCTCGTTATCCGGCCGCTCTCTGTTCCGGGACTACGCGGCGGGCCGGGAAATCATGTCGTTCACCAACGGCAAGCTGCGCTACCACGATGGCAAAGGCACCTTTACCGAATGCGATTTCCAGCAGCGCTGCCGGTATTACGCCAGCGAAGGCTTCATCGCCGACCGCGCCACGTACCTGGGTCAATACAGCGGCCAGCGCGCGAGGCTGATCAGCGCCCGGGCTACCGCCCTGGACCAGACACTGCTGAGTTCATCGGTGAACCAGCATTACCAGTTCGGCAGCGCCGAGAAAATCACCCTTCCCGCCCAGGTCTCCAACGACTGGACCGACAACCTGATCGGCGCCCAATACCTGGAAATGCCCAAGGGCACCCGCACCCGCGTCAGCCTGACCATTCGCGCCGTGGAAAACGATCACGCCGCCTACATTTCCCTCAAGGCCAAGGAGTTCGAGCAGGACGTGACGATGGACTTGCCCACCGACGTGACGGTAACCGCCGATCAACCGCTGGTGATGGACATTCATTTCGACAACCCGCAACCGCGCAAGGCGTTTTCCTTCCACTTGCTCGGCCATGGCACAGGCGCGATCGAAATCAGCGACTTCAGCGTCGTCACCGAACTGCTGGAGCAGACCGACCAGCCGGAGTACCTGGACGATATGCAGGACGACAGCGAGGCACAGTCCAGCTGA	MNFLYRALTHPHAAICALAGYVLLVPMGLRLLLGWSDPLGYLSDMAIGSLLIVLLHRRPWWLALPVLLAWCALTLVSIELVNAVGRMPSPADIQYLVDPQFVENSTSGGFAHPWLAAIMLAALTLWLANRWANRSRQAPPLPRHAWAIPVVFFLAHGTAQTWRPSEADQWNLFNLPHQLMTAGVAAGQEHFEQWLAGDTPDQAPPMHGLTRLDLDGQKLLTEPGSARNVLIIALEGIPGAYLETNRQALKSSYQENLMPRLSTWAERGMNTPDYVLHSHQTIRGLYAMLCGDYDKLDDGTPKGVEMLNQRQRNQACLPAQLRKHGFSTHFLQGAGLRFMAKDRIMPHIGFDTTLGMEWFTRPAYLEFPWGKDDKTFFEGALDYVGQLQQADKPWMLTLLTVGTHQPYSAPDDYLERYDTAKQAAVGYLDDALDSFLTNLERQGILENTLVVITSDESHGIDDVRLASSWGFNLTLAPEPLPRTKQGVHGHVDLSASILDYFGYAVPTSLSGRSLFRDYAAGREIMSFTNGKLRYHDGKGTFTECDFQQRCRYYASEGFIADRATYLGQYSGQRARLISARATALDQTLLSSSVNQHYQFGSAEKITLPAQVSNDWTDNLIGAQYLEMPKGTRTRVSLTIRAVENDHAAYISLKAKEFEQDVTMDLPTDVTVTADQPLVMDIHFDNPQPRKAFSFHLLGHGTGAIEISDFSVVTELLEQTDQPEYLDDMQDDSEAQSS				NA	NA	NA	NA	NA
D1-35_04532	597	nudK		GDP-mannose pyrophosphatase NudK	ATGACACAGCCAATCAGCACGCAAGACCGTGTGCGCATCAAGAATGTCGAAGTTCTCTCGGACAACTGGTACATCCTGCGCAAGACTACCTACGATTACCTCGGCCGCAACGGCCAATGGCGCGAGCTGACGCGCGAAACCTATGACCGTGGCAACGGTGCGACCATCCTGCTCTACAGCAAGGCAAAGCAAACCGTAGTGCTGACCCGGCAATTCCGCTTCCCGGCGTTCGTCAACGGGCACGACGGCCTGTTGATCGAAACCTGCGCCGGCCTGTTGGACAACGACGACCCGCACACCTGTATCCGCAAGGAAACCCAGGAGGAAACCGGCTATATCGTGCGGGACGTGCGCAAGGTGTTCGAGGCGTTCATGAGCCCAGGGTCGGTGACCGAGCGTGTGCATTTTTTCGTCGGTGAGTATTCCGATGAGGACAAACAGCACGAAGGCGGCGGGCTTGAGGCGGAGGGCGAGGAAATCGAGGTGCTGGAGATGCCTCTCGATCAAGCCTTGGGCATGATCGAAACCGGCGAGATCTGCGACGGCAAGACCATCATGTTGCTGCAGTACGCCAAGTTGCATCGGTTGCTGGATTGA	MTQPISTQDRVRIKNVEVLSDNWYILRKTTYDYLGRNGQWRELTRETYDRGNGATILLYSKAKQTVVLTRQFRFPAFVNGHDGLLIETCAGLLDNDDPHTCIRKETQEETGYIVRDVRKVFEAFMSPGSVTERVHFFVGEYSDEDKQHEGGGLEAEGEEIEVLEMPLDQALGMIETGEICDGKTIMLLQYAKLHRLLD	PGPT0017890_153	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017890-nudK-K12945	NA	NA
D1-35_04533	834	nadE_2	COG0171	NH(3)-dependent NAD(+) synthetase	ATGACTTCGCTTCAGCAAGAGAGCATTGCCCGGGAGCTGGGCATCGACCGTCGACTGCAACAGGGCGGCGAAGCCGCCGAGATTGCTCGCCGCGTCGAGTTTATAAAGCAGGTGCTGCGTGAGTCGGGTTGCAAGTCCCTGGTGCTGGGGATCAGTGGCGGCGTCGACTCCCTTACTGCCGGCCGTCTTTGCCAGTTGGCAGTGGAGCAACTGCGCAATGAAGACTACACGGCGCGGTTTATTGCGGTCCGGTTGCCGTACAAGGCCCAGGCGGACGAGCGAGACGCCCAAGCGTCCTTGGACTTCATCCGGCCGGACTCGATCACCACCAGCAACATCGGTGCTTGTGTTGACGGGCTGATGGGTCATATCGCTGTCGACGGCTTGCAGCCTTCGGCCGAACTCATCGACTTCGCCAAAGGCAATGCCAAAGCCCGGGCACGGATGCTGGCACAATACGCCATTGCCAATCTCAGCAACGGGCTGGTGGTTGGCACCGATCACGGGGCAGAGGCGGTGATGGGATTTTTCACCAAGTTCGGCGACGGTGCCTGCGATTTGGCACCGCTGTCCGGGTTGACCAAAACCCACGTGCGATTGTTGGCCGACGCGATGGGTGCCCCCGCTTACTTGGTGCGCAAGGCACCGACCGCCGATCTGGAAGACCTGGCACCTGGCAAGTTGGATGAAGTGGCATATGGATGCAGCTACGAGGAAATCGATGCGTACCTGATGGGTGAAGCGGTGTCTCCCAAGGCCCGAGAAATTATTGAACGCGCTTACCAGAAAACGGCTCATAAACGCGCATTGCCACGCGTCCCGGCATCACGTTGA	MTSLQQESIARELGIDRRLQQGGEAAEIARRVEFIKQVLRESGCKSLVLGISGGVDSLTAGRLCQLAVEQLRNEDYTARFIAVRLPYKAQADERDAQASLDFIRPDSITTSNIGACVDGLMGHIAVDGLQPSAELIDFAKGNAKARARMLAQYAIANLSNGLVVGTDHGAEAVMGFFTKFGDGACDLAPLSGLTKTHVRLLADAMGAPAYLVRKAPTADLEDLAPGKLDEVAYGCSYEEIDAYLMGEAVSPKAREIIERAYQKTAHKRALPRVPASR	PGPT0013445_1021	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013445-nadE-K01916	NA	NA
D1-35_04534	1230	pncB2_1	COG1488	Nicotinate phosphoribosyltransferase 2	ATGGACAGCGCATTCGACCCAAGCAGCGGCACTATCCAGAGTCTTCTGGACACCGACTACTACACCTTCACCATGATGCAGGCGGTCTTGCACCAGCACCCGAATGTCGAGGTGGAATACCAGTTCATCGTGCGTTCCAAGGAGCGGCTCGCTCACTTGATTCCAGACATCCGTGTCGAACTGGAGAAGCTCGCCGGGTTGCAACTACGCGAAGGAGAGCAGCGGTTTCTGTTCAACAAGCGTTTCCGTGAATACCTGACACCGGATTTCGAACAGTTTCTCGGCCTGTTTCGCTTCAACCTGCGCTACATCCACGTTTCGGAAGTCGACGGCCAACTGCACATTCGTGTCCGTGGGCCGATGCTGCACTGCATCATGTTCGAACAACCGGTATTGGCGATGGTCAGCGAGCTGCGCAATCGTGAGAAGTACCCGGAAGTCGAGTTGGCCGACGTTACTCGCAAGCTGTACCAGAAGTTTGAATGGCTGGAGAAAAATGCCAGTCGTGAAGAACTTGCCGAGTTTCGTGTCTCGGACTTCTCCACCCGCCGGCGGCTGTCATTCAGGGCCCAGCGTGAAGTAGTAAATGTCATGCGCAGCGATTTCCCCGGGGTCTTTGTCGGTACCAGTAACGCTCACCTGGCGTACGAATTCGATCTCCCCTTGATCGGCACAATGGCGCACCAATGGCTGATGGTTCACCAGCAACTTGGTCGATTGCGCGAAAGCCAGAACGCGGCATTGGAGAACTGGGTGCACGAGTATCGCGGCCGGCTCGGTATCGCGCTGACGGACTGCATCAGTACGGATTTCTTCCTCAAGGATTTCGACCTGTACTTTGCCAAACTCTATGACGGTCTGCGGCAGGATTCCGGTGACCCGATCGTCTGGGCTGACAAGGTGCTGGGGCGTTACCAGGAACTGGGCGTCGATGCGCGCACCAAGGACCTGATGTTCTCCGATGGCCTCAATTTCGAAAAATGCCTGCCGATCCTGCGCCACGTTCGTGGCAAGGCGAAATTCGGCTTCGGCATGGGCACCAGCCTGGCCTGCGACGTCGACGGCGTCGAACCGCTGAGCATCGTCATGAAACTGGTGCGGGTGCATGGCGAGCCCGTCGTCAAGTTTTCCGACGATCCGATCAAGAACGTGTGTGAAGACGCCTCATTTTTGCGCTACGCCGCTCAAGTGTTCAACGTCGCCCTGGTCAATCCACAAATGGGAGCCTGA	MDSAFDPSSGTIQSLLDTDYYTFTMMQAVLHQHPNVEVEYQFIVRSKERLAHLIPDIRVELEKLAGLQLREGEQRFLFNKRFREYLTPDFEQFLGLFRFNLRYIHVSEVDGQLHIRVRGPMLHCIMFEQPVLAMVSELRNREKYPEVELADVTRKLYQKFEWLEKNASREELAEFRVSDFSTRRRLSFRAQREVVNVMRSDFPGVFVGTSNAHLAYEFDLPLIGTMAHQWLMVHQQLGRLRESQNAALENWVHEYRGRLGIALTDCISTDFFLKDFDLYFAKLYDGLRQDSGDPIVWADKVLGRYQELGVDARTKDLMFSDGLNFEKCLPILRHVRGKAKFGFGMGTSLACDVDGVEPLSIVMKLVRVHGEPVVKFSDDPIKNVCEDASFLRYAAQVFNVALVNPQMGA	PGPT0013375_3305	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013375-pncB-K00763	NA	NA
D1-35_04535	648	pncA_1	COG1335	Nicotinamidase	ATGAACAGCCTGACCCGGAAAACAGCTTCCTTCGATGTTGATGCGCAAAAGAGCTTTACGCCGCTGTGCCCTGATGAGCTTCCGGTGCCGGGCGGTGATGAGATTGCCGGTGAGCTGAATTTCATCGCGTCCCTGGCCAGCCTTCGCATCGGCAGCAAGGATGCCCATTCGCCCCTGGCCCCGTGGGTGGTCTCCGATCATTCGAAAATGTTCGTGCCGACCGGGCTCGAGCACGCCGACATCACCTGGGTCAGCCACTGCGTTCCCGGCACCGAAGGTTTCGCCCTGCTGGATCAACTGCCGGCCCCATACGATTACGACTATTTCGTCTGGAAGGGCGTCGAGCCGGATCTGCACCCCTATGGCGCCTGCTACCACGACTTGCACGGCAAGCTTTCCACTGGCGTGATCGAGTACCTGAAAGGGTTGAAAGTGGAGCAGGTAATTGTCGGCGGGCTGGCGCTGGATTTCTGCGTCAAGACCACCGCTCTGCAACTGGCCTCCGCTGGCTTCAAGGTCATCGTTCACCTCCCGGCTTGCCGGGCCATCAGTGAAACGGGGGCCAACCAAGCCATTCAAGACCTCGAGCAAGCGGGCGTCGCGGTTACCGCCACTCGCGAAGAAACCATCCGCTTGGCAAACGCATAA	MNSLTRKTASFDVDAQKSFTPLCPDELPVPGGDEIAGELNFIASLASLRIGSKDAHSPLAPWVVSDHSKMFVPTGLEHADITWVSHCVPGTEGFALLDQLPAPYDYDYFVWKGVEPDLHPYGACYHDLHGKLSTGVIEYLKGLKVEQVIVGGLALDFCVKTTALQLASAGFKVIVHLPACRAISETGANQAIQDLEQAGVAVTATREETIRLANA	PGPT0013470_380	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013470-pncA-K08281	NA	NA
D1-35_04536	132			hypothetical protein	ATGATGTACTTTCATGACAAGCCCTTCTCGAAAGATAATTTTCCACAGGTTTGTTTCATCGGCCGACTATTATTGGAAGCCAATCAGGTTTACATGAAGGATTTTTACTATAAAGTACATGTCGTGTACTAA	MMYFHDKPFSKDNFPQVCFIGRLLLEANQVYMKDFYYKVHVVY				NA	NA	NA	NA	NA
D1-35_04537	558	nadD_1		nicotinate-nucleotide adenylyltransferase	ATGTTCGAAATAGCCGTCTATGGTGGTGCTTTTAATCCCCCTCATGCCGGTCACGCCCAGGTGATGATCGAGGCCTCGAACCAGGCCAGGCGCATGTTGGTCGCCCCTAGCTTCCGGCATCCCTACGGCAAACAGATGGTCGACTATGACGTTCGCCTGAACTGGCTGGAATCGATCGTCGAACACGTCCAGCCCCTGTGCTACGCCGAAGTGCGCGCGAGCCGGGTTGAGCAGGTCGTGGCCCGTGGCGTTGAAGGCGCCATCTACAGCTATACCCTGCTCGCCCATCTCGCCGATAGCCTGGCCCTGGACGGCAAGCGGATCGCGTTGGTGGTGGGCGAGGATGTCGCGGATTTGCTGCCGACTTTCTATCGCGGCCAGGAACTGCTTGAGCGTTTTTCCATCCTTCGCGTGAGCGAAAAGATCCACGTGCGCAGCACATCGGTTCGCGAACGACTGGCCTTGGGCAAGCCGCTGCCCAGCCACTGGATAGCTCCCGGCATGAACCCGTTAAACTATGACCTTTACGCTAACCACGGAAATCGACATGCCCACTAG	MFEIAVYGGAFNPPHAGHAQVMIEASNQARRMLVAPSFRHPYGKQMVDYDVRLNWLESIVEHVQPLCYAEVRASRVEQVVARGVEGAIYSYTLLAHLADSLALDGKRIALVVGEDVADLLPTFYRGQELLERFSILRVSEKIHVRSTSVRERLALGKPLPSHWIAPGMNPLNYDLYANHGNRHAH	PGPT0013435_4446	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013435-nadD-K00969	NA	NA
D1-35_04538	708			hypothetical protein	ATGCCCACTAGCACAGCCACCGCGCGCGGTTATCTGCATACCATCGACCTCTGCGTGCTGCGCTTCTGCCGGGAGACCCAGGCGCTGGAAATCCTCCTGAACCGACGGGAAGCCGAGCCGTTCGCCGGCCATTGGGCGTTGCCCGGGATCGTGGTCAATGGCGATGTCGAAGATCTCACGCTGAACGACGCCGTGGAGCGCCTGCGCAATTCAAACAAGGTAGGCATGCCGCTGGCCTGGATCGAACAGGTCGGCACCGTCGGCGACGCGTTCCGCGACCCACGCTGCTGGTCATCCTCGACGTTCTACCTGGCGATTGCCAACGAGGCGGTCCTGCTCGCCGAGCATCAGGGATTTTTCCCCCTCAAGGATGTCGCTGATGCCTCGATCAAACTTCCTTTCGATCACAACAGCCTGGTGGCGGCGGTCCAGGAACGGTTGTTGTCCAAAGCCCTCTACAGCAGCCTGCCGCTGATGTTCCTGGGCCCGGAATTCAGCGCGCCGGAAGCGGTGGATATTTTCTCCGTGGTGCTCGGTCGTCCGGTGCTCAAGACCAGCATGCGCCAGCGTCTGCTGAAGATGACCGAGGCCGGTTATTTGCAGGAAACCGGTCGTAAAAAAGCCGGCGACGGCGGCCGACCGCAACGCACGGTGGAAAATCTCAAACCGGCCAGCGTCTATCTTTTTGATCGGTGTTTCCTGGAGTGA	MPTSTATARGYLHTIDLCVLRFCRETQALEILLNRREAEPFAGHWALPGIVVNGDVEDLTLNDAVERLRNSNKVGMPLAWIEQVGTVGDAFRDPRCWSSSTFYLAIANEAVLLAEHQGFFPLKDVADASIKLPFDHNSLVAAVQERLLSKALYSSLPLMFLGPEFSAPEAVDIFSVVLGRPVLKTSMRQRLLKMTEAGYLQETGRKKAGDGGRPQRTVENLKPASVYLFDRCFLE				NA	NA	NA	NA	NA
D1-35_04539	1431		COG0277	putative FAD-linked oxidoreductase	ATGGCGTTGAGCCCTGAGTTTATCCACAGCATCGAGCACGTCGTGGGCGCTGCGGGCGTGGTACGGGATCCGGCGCTCATGGCCAGCTATCTGACAGACTGGCGTAACGCCTATCAAGGCCAGGCCGCGCTCGTGGTCAGGCCCGCGACCACCGAGGAGGTGGCGGCAGTGGTGCGGCTTTGCCACGACGCCAGGGTGGCGCTGGTGCCCCAGGGCGGCAATACCGGTTTGTGCGGTGGCTCGATTCCGGATGCTTCCGGCAGGCAGATGGTGTTGTCTTTGACCCGGATGAAGCGTATCCGTGAAATCGACCTTGCCAATGAAACCATCACGGTCGAGGCCGGGGTGATCCTGCAGCAACTCCAGGAGGTCGCCAGCCAGGCGGGGCGCTTGTTCCCGCTATCGCTGGGGGCGGAGGGCAGTTGCACGGTGGGTGGCAATCTGGCGACGAACGCTGGCGGCACGGCGGTGCTGCGCTACGGCAACATGCGTGAGCTGACGCTCGGGCTTGAGGTGGTATTGCCGGACGGACGAATCTGGAACGGTTTGCGGGGGTTGCGCAAGGACAACACCGGTTACGATCTCAAGCATTTGTTCATCGGCTCGGAAGGCACGCTGGGCATCATCACTGCGGCGGTGCTGAAGCTGTTTCCGGCAACCTGCAGCACGGCGACAGCCTGGGTTGCGCTGCCTTCGCCACAAGCGGCGGTGGATTTGATCGGTCATGTCCGCAGCCTGTGCGCCGACCGCCTGACGGGCTTCGAGATGATGTCGCGCCAGAGCCTGGATTTCGTCTTGGATCATGTGGCGGGTTGCAGCGATCCGCTGGAGACGAAACATCCCTGGTACGCGTTGATTGAATTGCGCGACACGGTGCCCGATGCGCCGTTGACGCTGCTGCTTGAAAACGGCCTGGCCCATGCCTTCGAGCAAGGTTGGGTCATTGATGCGGTATTGGCCAGCAGCCAGGCGCAGGCCGCCGCGCTGTGGGCGCTGCGCGAAGGAATTTCCGAGGCGCAGAATCACGAAGGCCCCAGCCTCAAGCATGACATCAGCGTGCCTGTCAGTCGGATTCCGGAGTTCATCGAGCGCACCGACAAAGCCCTGCAACAGGACTTTCCAGGCGTGCGCATCGTTTCCTATGGGCACATGGGCGACGGGAATCTGCACTACAACATCAGCAAGCCGATTAGCGATGCGGACGCTTCGTTCAAGGCCCGCGAACACGCGATCATGCAAGTCATCTACCGGATGACGAGCACCTTCAATGGCAGCATCAGTGCTGAACATGGGCTGGGGCAAGCCAAACCCCATGCCGCAGCCCAGTTCAAGGACCCGCTGGAGATCGAGTTGATGCGGGCCATTAAACATACGCTGGACCCGGCGGGTCTGATGAACCCTGGCAAGGTCTTTACCGCCTGGCTGGAGTGA	MALSPEFIHSIEHVVGAAGVVRDPALMASYLTDWRNAYQGQAALVVRPATTEEVAAVVRLCHDARVALVPQGGNTGLCGGSIPDASGRQMVLSLTRMKRIREIDLANETITVEAGVILQQLQEVASQAGRLFPLSLGAEGSCTVGGNLATNAGGTAVLRYGNMRELTLGLEVVLPDGRIWNGLRGLRKDNTGYDLKHLFIGSEGTLGIITAAVLKLFPATCSTATAWVALPSPQAAVDLIGHVRSLCADRLTGFEMMSRQSLDFVLDHVAGCSDPLETKHPWYALIELRDTVPDAPLTLLLENGLAHAFEQGWVIDAVLASSQAQAAALWALREGISEAQNHEGPSLKHDISVPVSRIPEFIERTDKALQQDFPGVRIVSYGHMGDGNLHYNISKPISDADASFKAREHAIMQVIYRMTSTFNGSISAEHGLGQAKPHAAAQFKDPLEIELMRAIKHTLDPAGLMNPGKVFTAWLE	PGPT0001440_1	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
D1-35_04540	1158		COG4948	L-talarate/galactarate dehydratase	ATGCAAGACACGCCTCAACTGCCTTCCGCCGATGACGACCGCATTGCCTGGGTGCGCGTGGCCTCGGTATTCCTGCCGCTGGCCAACCCCATCAGCGACGCCAAGGTACTGACCGGTCGGCAGAAGCCAATGACCGAAATCGCCATGCTGTTTGTCGAAATCGAAACCAGGGACGGCCACCGTGGCCTGGGTTTCAGCTATTCCAAGCGCGCCGGCGGCCCCGGGCAATTTGCCCATGCCAGGGAAATCGCTCCTGGCCTCATCGGCGAAAACCCCAGCGACATTTCCAAATTGTGGGACAAGCTCTGCTGGGCGGGTGCCTCGGTGGGGCGCAGCGGCCTGGCGACCCAGGCGATCGGTGCATTCGATGTCGCCCTGTGGGACTTGAAAGCCAAGCGGGCCAATCTTTCCCTGGCGCGTTTGCTCGGCGCTCATCGCGATTCTGTCCAGTGCTACAACACGTCGGGGGGATTCCTGCACACGCCGCTTGATCAATTGATGATCAATACTGACATCTCCCGGGAAAAGGGTATCGGCGGGATCAAGCTCAAAGTCGGCCAGCCTGACCAGGCGCTGGATCTGCACCGGGTCAGCACCATCCGCAAACACCTGGGGGATAGCTTCCCCTTGATGGTCGATGCCAATCAGCAATGGGACCGACCCAACGCCCAGCGCATGTGCCGCCAGTTGGAACAATACAACCTGGTCTGGATCGAGGAGCCGCTGGATTGCTATGACGCCGAAGGCCACGCCGCGCTGGCGCAGCAATTCGACACGCCGATCGCCACCGGTGAAATGCTCACCAGCGTTGCCGAGCACTGGGAATTCATCAAGTTGCGCGCTGCCGATTACCTGATGCCTGATGCGCCGCGTGTCGGCGGCATCACGCCTTACCTGAAAGTCCAGGCAGCAGCCGAACAAGCAGGGCTGATGATCGCGCCGCACTTTGCCATGGAACTGCACATCCATCTGGCCGCCACTTACAGCCGCGAGCCTTGGGTGGAACATTTCGAATGGCTGGAGCCATTGTTCAATGAACGCATGGAAACCCGTGACGGAAGAATGCTGGTGCCCACCCGGCCTGGCCTTGGGTTGTCCTTGAGCGAACGCGTGGCGGGATGGACGGCCGACCAGGTCGAGATCGGGCGGCGCCCGTGA	MQDTPQLPSADDDRIAWVRVASVFLPLANPISDAKVLTGRQKPMTEIAMLFVEIETRDGHRGLGFSYSKRAGGPGQFAHAREIAPGLIGENPSDISKLWDKLCWAGASVGRSGLATQAIGAFDVALWDLKAKRANLSLARLLGAHRDSVQCYNTSGGFLHTPLDQLMINTDISREKGIGGIKLKVGQPDQALDLHRVSTIRKHLGDSFPLMVDANQQWDRPNAQRMCRQLEQYNLVWIEEPLDCYDAEGHAALAQQFDTPIATGEMLTSVAEHWEFIKLRAADYLMPDAPRVGGITPYLKVQAAAEQAGLMIAPHFAMELHIHLAATYSREPWVEHFEWLEPLFNERMETRDGRMLVPTRPGLGLSLSERVAGWTADQVEIGRRP	PGPT0018185_119	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_TALARATE_DEGRADATION,PGPT0018185-talrD_galrD-K20023	NA	NA
D1-35_04541	1521			hypothetical protein	ATGATTGAGCTCATGCAAACAGGCTTCGCAGCCGTACTGACACCCTACGTCTTTCTGCTGATCACCCTCGGCGTTGCGGTGGGGATCGTTTTTGGAGCGGTGCCTGGTCTTTCGGCCACCATGGCGATCGCTTTGTGCTTGCCGCTGACTTATTCGATGGGACCCGGTCCTGGCCTGGCGCTGCTGGTGGCGCTTTTCGTTGGCGCCACCTCGGGAGGGCTGATATCGGCGATATTGCTCAACATACCGGGAACGCCGGCCTCCATCGCGACGACGTTCGATGGCTGGCCGCTGATGAAACAAGGCCATGGCGTGAAGGCCCTTGGGATTGGCGTGGTGTTCTCGTTCCTCGGCACGATCTTCAGTATCGCCGCGCTGATGTTCATCGCTCCGATCCTGGCGGAACTGGCCCTGAGCTTTGGCCCGCACGAATACTTCTCCATCGCGATCTTTTCTCTGACGCTGATTGCCACGCTGTCCACCGGCTCGCTGGTCAAAGGCTTGTTTGCCGGTGCCTTGGGCTTTGCCTTTTCCACGGTGGGGATCGCTCCGGTCGAGGCTATTCGCCGCTTTACCTTTGACCTGCCGAGCCTCAATGGCGGCTTCGCCATGCTCACCGTGATGATCGGTATGTTTGCGGTCTCCGAGGTGCTGAAGTTCGCTGAAAGCGCGCGCCTGAGTCACCGGGCCAAACCCCAGCACGTCAGCATGAAAGGCGTTAAAGGTTTTGGTTTTTCGATGAAGGAATTTGTCGGCCAACTGCCCAACGCCACTCGTTCATCCCTGATCGGCCTGGGCATCGGCATCTTGCCTGGCATCGGTGCCGGTACGTCGAATATCGTCTCTTACATCGTGGCGAAGAAACGCTCGAAGACACCGGAAGAGTTCGGCAAGGGCAAGATTGACGGCGTGGTCGCCAGCGAGACGGCAAACAACGCTGGCATCGGCGGCGCGATGATTCCTCTGCTGACGCTCGGCATTCCCGGCGATACCACTACGGCAGTGATGCTCGGTGGTTTCATGATCCACGGCATCCAGCCCGGACCGTTGCTGTTCATCAGCCAGGCACCCTTGGTCTACACGATCTTCGCCGCGCTGATCCTCGCTTCCGTGCTGATGCTGGTGCTGGAATTCTACGGCCTGCGCATGTTCATCAAGTTGTTGGCGGTGCCCAAGCACATTCTGCTGCCGATCATCCTGGTGCTTTGCGTCGTCGGCGCCTTTGGCTTGAACAGCCGGATCTTCGACGTCTGGGCGGTGCTGCTGTTTGGCTTGCTGGGGTATGGGTTCGTCAAGGCCGGTTTGCCGATTGCACCGTTCATCATCGGTTTCATCCTCGGTCCGATGGCTGAAACCAACTTGCGTCGCGGCTTGATGCTGTCCGATGGCAATTTCGGCGGCTTCCTGACCAATCCCATCTCGGCGGGCTTCCTCATCCTGGCCGCCGCGTCCATCTCCTGGCACCTGGTGACGGTCATTCGCAACCGCAAAAGTGCGGCCATCGAATTGATGCGCAGCTAG	MIELMQTGFAAVLTPYVFLLITLGVAVGIVFGAVPGLSATMAIALCLPLTYSMGPGPGLALLVALFVGATSGGLISAILLNIPGTPASIATTFDGWPLMKQGHGVKALGIGVVFSFLGTIFSIAALMFIAPILAELALSFGPHEYFSIAIFSLTLIATLSTGSLVKGLFAGALGFAFSTVGIAPVEAIRRFTFDLPSLNGGFAMLTVMIGMFAVSEVLKFAESARLSHRAKPQHVSMKGVKGFGFSMKEFVGQLPNATRSSLIGLGIGILPGIGAGTSNIVSYIVAKKRSKTPEEFGKGKIDGVVASETANNAGIGGAMIPLLTLGIPGDTTTAVMLGGFMIHGIQPGPLLFISQAPLVYTIFAALILASVLMLVLEFYGLRMFIKLLAVPKHILLPIILVLCVVGAFGLNSRIFDVWAVLLFGLLGYGFVKAGLPIAPFIIGFILGPMAETNLRRGLMLSDGNFGGFLTNPISAGFLILAAASISWHLVTVIRNRKSAAIELMRS	PGPT0017350_1130	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017350-tctA-K07793	NA	NA
D1-35_04542	474			hypothetical protein	ATGGATTCCTATAAAAGAAACGAGTTGATCGCCGGCCTGGCGATGCTCGGCGCCGGCATCGCTTACCTGATACTGACCATGAACCTGCCGCGTCGCGGGACGGTCGATGCCGCGTTTGTCCCTTGGGTACTCGCCGTCGCGCTGTGTCTGTTGGGCGCATTGCAATTGTGGGCGTGGCGCAAGCTGCCGGATAAAAGTGCCGAACCTTCGGAAAAGCCAGAGGCGATCGATTACCCAACGGTCATCAAATCCGTGGCCTTGGTGCTGCTTTACACAGCGCTGATGCAGCCGGTGGGTTTTCTAATCACGACTGCGCTCTATCTCTATGCCCAGTTCATCGTATTGACCCCGGCGGACGAAAAGGTCAAGCACCTGCGTTACACCCTGATCGCGGTCGTTTCGGCTGTGCTGATTTTTTACATCTTTCGTCATGGCTTCGACTTGCTCCTGCCTGTCGGTTTATTGGATTTCTAG	MDSYKRNELIAGLAMLGAGIAYLILTMNLPRRGTVDAAFVPWVLAVALCLLGALQLWAWRKLPDKSAEPSEKPEAIDYPTVIKSVALVLLYTALMQPVGFLITTALYLYAQFIVLTPADEKVKHLRYTLIAVVSAVLIFYIFRHGFDLLLPVGLLDF	PGPT0017355_1508	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017355-tctB-K07794	NA	NA
D1-35_04543	972			hypothetical protein	ATGAAGAAAACACTCTGCGCCTCTTTGATCGCCTCGTTTCTGAGCTTGGCCGCTGGCACAGCGATGGCTGCCGATGCCAGCGATTGGCCAAGCCGTCCGGTACAGGTCGTGGTGATTGCCAACGCCGGTGGTGACACCGATTTCAACGCACGGATGATGGCCAAGTACTTCACCAAGGTCACTGGCAAGACCATGGTCGTCACCAACATGGCCGGTGGGGGCGGCACCATCGCCGCCGATGCGGTCAAGAGCGCAGCGCCGGATGGCAATACCATCCTCTTCACCCACACCGGCCAGTTGATCGTCAACGAAGTCGCGGGGCTGTCGGAGGACCGCTTTGATGCGTTCGATATTTCCTGCATCGCTGGCGTCGACAAAGGGGCGGTGTTCGTCTCGGCAAAAAGCTCGGGCATCGACAGCCTCGACCAACTGATTGAAAAAGCCAAGGCCAAGCCCGGCACCATCACTTACGGCACCGAGATGGGCAACTTCTCGCACCTGCAAGGCTTGATGTTCGAGAAGCTCGCCGGGGTGAAACTGAAAATGGTCGACAGCGGCACCGTCTCGGAAAAAATCGTTGCCTTGCTGGGCAAACGTATCGACCTCGGCGCCATCAGCTATGGCTCGGTCCAGGATTACATTTCCAGCGGCAAGATGACTGCCCTGGGCCAGCCGAACGCCGAACGCAACGCGCTGCTGGGCGACGTCAAGACCTTCAAGGAGCAAGGCGTGGACCTGGTCCTGGACAAGCCTTACGTCGTCGCCTTCCCGAAAGGCACGGACCCGGCCATCGTCAAGAAAATGGCCGACACCATGAAGAAGATCACCGAAGAGCCTGAATATGCCGAGGAGCTGAAGAAGTCCTTCAAGCAGCCGGTCAGCTTCCAGGGCCCCGAAGAAGCCGTCGCCACGTTGAATAAAACCCGGGACAGCTTCATGCAGTTCAAGGACGAGATGCGTAAAGCAAAATAA	MKKTLCASLIASFLSLAAGTAMAADASDWPSRPVQVVVIANAGGDTDFNARMMAKYFTKVTGKTMVVTNMAGGGGTIAADAVKSAAPDGNTILFTHTGQLIVNEVAGLSEDRFDAFDISCIAGVDKGAVFVSAKSSGIDSLDQLIEKAKAKPGTITYGTEMGNFSHLQGLMFEKLAGVKLKMVDSGTVSEKIVALLGKRIDLGAISYGSVQDYISSGKMTALGQPNAERNALLGDVKTFKEQGVDLVLDKPYVVAFPKGTDPAIVKKMADTMKKITEEPEYAEELKKSFKQPVSFQGPEEAVATLNKTRDSFMQFKDEMRKAK	PGPT0017360_2386	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017360-tctC-K07795	NA	NA
D1-35_04544	1833	glmS	COG0449	Glutamine--fructose-6-phosphate aminotransferase [isomerizing]	ATGTGTGGAATTGTCGGCGCCGTTGCTGAACGCAACATCACGGCCATCTTGCTTGAAGGCCTCAAGCGTCTTGAATATCGCGGCTACGACAGTGCCGGCGTGGCGGTCTTCACCAACGACGAGAAGCTTGAGCGCGTGCGTCGTCCGGGCAAGGTCAGTGAACTGGAACGGGCGCTGGACGCCGAGCCGCTGATCGGTCGCCTGGGCATCGCCCATACCCGTTGGGCCACCCATGGTGCGCCGTGCGAGCGTAACGCCCATCCACATTTCTCCGGCGACCTGGCGGTGGTGCACAACGGCATCATCGAAAACTATGAGGCGTTGCGCGAACAGCTCAAGGCGCTTGGTTATGTCTTTACTTCGGACACCGACACCGAAGTCATTGCCCATTTGCTCACCCACAAGCTCAAGGACCTGGCTGACCTGACCGTGGCGCTCAAGGCCACGGTCAAGGAACTGCATGGTGCCTATGGCCTGGCGGTAATCAGCGCGAAACAACCGGATCGGCTGGTGGCGGCCCGCAGTGGCAGCCCGCTGGTGATTGGCCTGGGCCTGGGGGAAAACTTCCTGGCTTCCGACCAGTTGGCGCTGCGTCAGGTGACTGACCGCTTCATGTATCTGGAAGAGGGCGATATCGCCGAGATTCGCCGTGACAGCGTGCAAGTCTGGAACCTTGAGGGGAAAGAAGTCGAGCGCGAGGTGGTCCAGTATCGTGACGGTGCCGAAGCCGCTGACAAAGGTGAGTTCCGCCATTACATGCTCAAGGAAATCCACGAGCAACCGGCCGTTGTGCAGCGCACGCTTGAAGGCCGCCTGAGTCACGAGCAGGTGCTGGTTCAGGCCTTTGGTCCGCAGGCCGCCGAGTTGTTCGCCAAGGTGCGCAACGTGCAGATCGTGGCGTGTGGCACCAGCTATCACGCCGGCATGGTCGCCCGTTACTGGCTCGAAGAGCTGGCGGGTATCCCGTGCCAGGTCGAAGTTGCCAGCGAGTTCCGCTATCGCAAGGTAGTCGTGCAGCCGGACACTCTGTTCGTGACTATTTCCCAGTCCGGCGAAACCGCAGACACCCTGGCAGCGCTGCGTAACGCCAAGGAACTGGGCTTTCTCGCCAGCCTGGCGATCTGCAACGTCGGCATCAGCTCGTTGGTGCGCGAATCCGACCTGACCCTGCTGACCCAGGCTGGTCGCGAGATCGGCGTGGCGTCGACCAAAGCGTTCACCACGCAACTGGTCGGCCTGCTGCTGCTAACCCTGTCCCTGGGGCAGGTACGCGGTACGCTCCAAGAGGGCGTCGAGGCCCGGCTGGTAGAAGAGCTGCGCCGCCTGCCGGCCCGCCTGGGTGAAGCCCTGGCCATGGATAGCACCGTGGAAAAGATCGCCGAACTGTTCGCCGAGAAGAACCATACCTTGTTCCTGGGCCGTGGTGCGCAATTCCCAGTGGCGATGGAAGGGGCCTTGAAGCTCAAGGAAATCTCCTACATTCACGCCGAAGCCTACCCGGCCGGCGAACTCAAGCACGGCCCGTTGGCGCTTGTGGATAACGACATGCCGGTGGTCACCGTGGCGCCGAACAACGAGCTGCTGGAAAAGCTCAAGTCCAACCTGCAGGAAGTGCGCGCCCGTGGCGGCCAGTTGGTAGTCTTCGCCGATGAGAAGGCTGGCATGACCAACGGTGAGGGCACCCACGTGGTGCATATGCCGCACATCCACGACATCCTTTCGCCGATCCTTTACACCATCCCGCTGCAACTGCTGTCGTACTACGTCGCCGTGCTCAAGGGCACCGACGTGGACCAGCCGCGTAACCTGGCGAAATCGGTCACGGTCGAGTAA	MCGIVGAVAERNITAILLEGLKRLEYRGYDSAGVAVFTNDEKLERVRRPGKVSELERALDAEPLIGRLGIAHTRWATHGAPCERNAHPHFSGDLAVVHNGIIENYEALREQLKALGYVFTSDTDTEVIAHLLTHKLKDLADLTVALKATVKELHGAYGLAVISAKQPDRLVAARSGSPLVIGLGLGENFLASDQLALRQVTDRFMYLEEGDIAEIRRDSVQVWNLEGKEVEREVVQYRDGAEAADKGEFRHYMLKEIHEQPAVVQRTLEGRLSHEQVLVQAFGPQAAELFAKVRNVQIVACGTSYHAGMVARYWLEELAGIPCQVEVASEFRYRKVVVQPDTLFVTISQSGETADTLAALRNAKELGFLASLAICNVGISSLVRESDLTLLTQAGREIGVASTKAFTTQLVGLLLLTLSLGQVRGTLQEGVEARLVEELRRLPARLGEALAMDSTVEKIAELFAEKNHTLFLGRGAQFPVAMEGALKLKEISYIHAEAYPAGELKHGPLALVDNDMPVVTVAPNNELLEKLKSNLQEVRARGGQLVVFADEKAGMTNGEGTHVVHMPHIHDILSPILYTIPLQLLSYYVAVLKGTDVDQPRNLAKSVTVE	PGPT0017630_2981	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
D1-35_04545	777	srlR	COG1349	Glucitol operon repressor	ATGTCCAAGCGCAATACACCACAACGCCGCCACAACATTCTCGCTTTGCTCCAGGAGCAGGGCGAGGTGAGCGTGGATGAGCTGGCCAAGCGCTTCGAAACCTCGGAAGTTACGATTCGCAAGGATCTCGCCGCGTTGGAGACCAATGGCCTGTTACTGCGCCGCTACGGTGGCGCGGTGCCGATGCCGCAGGAACTGGTCGCCGACAGTGCGCAAAGCGTTTCCAAATACAAACAAGCCATCGCCCGTGCCGCCGTGAAGCGGATCCGCGAGCATGCGCGCATCATCATTGACAGCGGCAGTACCACGGCGGCGATGATTCCCGAGCTTGGCCAGCAACCGGGGCTGGTGGTCATGACCAACTCCCTGCATGTGGCCAATGCGCTGAGCGAACTGGAGCATGAGCCCGTGCTGCTGATGACCGGTGGTACCTGGGATCCTCATTCCGAGTCGTTCCAGGGCCAAGTCGCCGAGCAGGTGCTGCGCTCCTATGACTTCGACCAGCTGTTCATCGGCGCCGACGGCATCGATCTGGTTCGAGGTACCACCACTTTCAACGAACTGTTGGGCCTGAGCCGTGTGATGGCCGAGGTTGCCCGCGAAGTGATCGTGATGGTGGAGGCCGACAAGATCGGCCGCAAGATCCCCAATCTGGAACTGCCGTGGAGCAGCGTCCATACCCTCATTACCGATGATCGCCTGCCCGTGGAGGCACGCGACCAGATTCAGGCCCGCGGCATCAATCTGATCTGCGCACCTGTCAGCCAGGAGAAATAA	MSKRNTPQRRHNILALLQEQGEVSVDELAKRFETSEVTIRKDLAALETNGLLLRRYGGAVPMPQELVADSAQSVSKYKQAIARAAVKRIREHARIIIDSGSTTAAMIPELGQQPGLVVMTNSLHVANALSELEHEPVLLMTGGTWDPHSESFQGQVAEQVLRSYDFDQLFIGADGIDLVRGTTTFNELLGLSRVMAEVAREVIVMVEADKIGRKIPNLELPWSSVHTLITDDRLPVEARDQIQARGINLICAPVSQEK	PGPT0017955_577	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TAGATOSE_DEGRADATION,PGPT0017955-agaR-K02081	NA	NA
D1-35_04546	957	birA	COG0340	Bifunctional ligase/repressor BirA	ATGCTCACGTTGCTAAAACTTCTGAAGGACGGCCGTTTCCATTCGGGCCAGGCGCTGGGTGCTGGGTTAGGTATCAGTCGTAGTGCGGTATGGAAACAATTGCAGCACCTGGAGGCGGAGTTAGGCTTGTCTGTGCATAAGGTTCGAGGCAAGGGGTATCGCCTGGCGAAGCCGCTGTTGCTTTTGGATGCGGCCGAAATCCGCGCGGCAGAAGGCTGTGAGTGGCCTGTTCACCTGTTTGATTCGATTGACTCCACTAATGCCGAAGCGCTGCGGTCCATCGGGCGTGGCGTGGAAGCGCCATTCCTTGTTCTGGCCGAGCGGCAGATAGCCGGTCGGGGACGTCGCGGCCGCAAATGGGTCAGCCCATTCGCCGAAAACCTCTATTACAGCCTGGTGCTGCGCATTGACGGTGGCATGCGGCAGATTGAGGGGCTTAGTCTTGTCGTCGGGCTCGCTGTCATGCATTCGTTGCGTGACATGGGAGTCGTTGAGGCAGGGTTGAAGTGGCCTAACGATGTGTTGGTAGGTGAAAAGAAAATCGCCGGCATACTGCTTGAGTTGGTAGGCGACCCTGCGGATGTTTGTCACGTTGTCCTGGGTGTCGGGGTAAACGTGAATATGCAATCGACTGATGAAGTTGATCAGCAGTGGACGTCCATGAGTCTTGAAGCGGGTCGTGATTTTGACCGGAACGAGTTGGTGGCGCGAATGAGTGGAAAGCTTCAGGGGTATCTGGAGCTGCATCATGCGTCGGGATTTGCAGCGATCCAGTCGGAGTGGGAGCAATACCATTTGTGGCAGGGGCGGGCTGTGTCGCTGATTGCCGGTATCAATCGGATTGACGGCGTGGTGATGGGCATTGATCGCCAAGGTGCGCTGCGTTTGAAGGTGGATGGTGTGGAAAAGATATTCAGTGGTGGCGAGCTCAGCTTGAGGTTGCGTGATGATTCTTGA	MLTLLKLLKDGRFHSGQALGAGLGISRSAVWKQLQHLEAELGLSVHKVRGKGYRLAKPLLLLDAAEIRAAEGCEWPVHLFDSIDSTNAEALRSIGRGVEAPFLVLAERQIAGRGRRGRKWVSPFAENLYYSLVLRIDGGMRQIEGLSLVVGLAVMHSLRDMGVVEAGLKWPNDVLVGEKKIAGILLELVGDPADVCHVVLGVGVNVNMQSTDEVDQQWTSMSLEAGRDFDRNELVARMSGKLQGYLELHHASGFAAIQSEWEQYHLWQGRAVSLIAGINRIDGVVMGIDRQGALRLKVDGVEKIFSGGELSLRLRDDS	PGPT0022055_1830	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
D1-35_04547	750	coaX	COG1521	Type III pantothenate kinase	ATGATTCTTGAGCTTGATTGCGGCAATAGTTTTATCAAGTGGCGCGTTGTTCGTGCAGATGGCGTCACCCCTGTCGGCGGTGGGGTAGTCGGCTCGGATAGCGATTTGCTTGCGAGCCTGACAGGCTCAGATAAATTTCAGCTGAAAAAATGCCGTCTTGTCAGCGTCAGGACTTCTGAGGAGACCGATTTGTTGGTCGCCTCCCTGGTAGAGACATTTGGCGTCTCCGTGGCTCGCGCAACACCTACCCAAGAGATGGCGGGCGTTACAAACGGTTATGAAGACTATGAGCGCTTGGGGCTTGATCGATGGCTGGCTTTGCTCGGTGGGTACCACCTGGCTTCGGGCGCATGCCTGGTTCTGGATTTTGGTACGGCAATCACGGCAGATTTCGTAGCGCCTGACGGGCAGCACTTGGGAGGGTTCATCTGCCCTGGTATGCCTCTGATGCGTAACCAGTTACGTACCCATACCCGGCGAATCCGCTATGACGATACTGCTGCAGAACGGGCTCACGAGAGTCTTGCTCCTGGCAGGGCAACGGTCGAGGCGGTGGAGCGTGGTTGTATGCTGATGTTGAGAGGCTTCGTGCTGACTCAGCTCGAATTGGCGCGGCAATATTGGGGAGAGGATTTCGAGGTGTTTCTAACGGGAGGGGATGCCGATCTGGTTTCCGGGGTTGTTCCAGATGCCAAGGTCGTGCCTGACCTGGTTTTTGTTGGTTTGGCGATGGCTTGTCCTTTGTCTTGA	MILELDCGNSFIKWRVVRADGVTPVGGGVVGSDSDLLASLTGSDKFQLKKCRLVSVRTSEETDLLVASLVETFGVSVARATPTQEMAGVTNGYEDYERLGLDRWLALLGGYHLASGACLVLDFGTAITADFVAPDGQHLGGFICPGMPLMRNQLRTHTRRIRYDDTAAERAHESLAPGRATVEAVERGCMLMLRGFVLTQLELARQYWGEDFEVFLTGGDADLVSGVVPDAKVVPDLVFVGLAMACPLS	PGPT0008780_2390	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
D1-35_04548	456			hypothetical protein	ATGCGGTGGCTATTTTTGTTGTTGCTGGTTCTAAATGGCTTCTATTACATCTGGCATCAGCAAGAGGTCCCGCTTCGCGCCAAGGATGTCACTCCGCTGAGCCTGTATCGAGGTTCGCAGCAAGACATTCATCTCCTGAGCGAGACGGCGGATGCGCTAGTCAGGCGTGAGCCGGGTAAATCGAGTGAAGGGCAAAAGAACTGCAACTACCTGGGTGGCTTCGTTCGCCCGGAGCTGGCCAGGCAACTGGAGCAGCGACTGGTTTCTTCGGGGGTTGCGGGCCGTACCGTTACGTTTAGCTCGCCAGCGTCTCCAGAGTCTGGTGGATTCTGGGTCCAGGTTCCACCGGACAGCGCGGCGAAGATGAATGAGGTGCTGCTTCAAAACCTTTCCAAAGAATTCAATGAGTTAAAACATAAAATAATGCCTTGCGAAGGGGTTGCGCCTGCTGGGTAG	MRWLFLLLLVLNGFYYIWHQQEVPLRAKDVTPLSLYRGSQQDIHLLSETADALVRREPGKSSEGQKNCNYLGGFVRPELARQLEQRLVSSGVAGRTVTFSSPASPESGGFWVQVPPDSAAKMNEVLLQNLSKEFNELKHKIMPCEGVAPAG				NA	NA	NA	NA	NA
D1-35_04552	1194	tufA_1	COG0050	Elongation factor Tu-A	ATGGCTAAGGAAAAGTTCGAACGTAATAAGCCGCACGTCAACGTTGGTACCATCGGTCACGTCGACCACGGTAAAACCACGCTGACCGCTGCTCTGACCCGTGTCTGCTCCGAAGTTTTCGGTTCGGCCAAGGTTGACTTCGACAAGATCGACAGCGCCCCGGAAGAAAAAGCTCGTGGTATCACCATCAACACCGCTCACGTTGAATACGATTCGGCCGTGCGTCACTACGCACACGTTGACTGCCCAGGTCACGCCGACTACGTAAAAAACATGATCACCGGTGCTGCTCAGATGGACGGCGCGATCCTGGTTTGCTCGGCCGCCGATGGTCCGATGCCGCAAACCCGTGAGCACATCCTGCTGTCCCGTCAGGTAGGCGTTCCGTACATCGTTGTCTTCCTGAACAAGGCTGACATGGTTGACGACGCTGAGCTGCTGGAACTGGTTGAGATGGAAGTGCGCGACCTGTTGAGCACTTACGACTTCCCAGGTGATGACACTCCAATCATCATCGGTTCGGCTTTGATGGCTCTGAACGGCCAAGACGACAACGAAATGGGCACCACTGCGGTGAAGAAGCTGGTTGAGACTCTGGACAGCTACATCCCAGAGCCTGAGCGTGCTATCGACAAGCCGTTCCTGATGCCAATCGAAGACGTATTCTCGATCTCCGGTCGCGGTACTGTTGTGACTGGTCGTGTTGAGCGTGGCATCGTCCGTATCCAGGAAGAGGTTGAGATCGTCGGTCTGCGCGACACTCAGAAAACTACCTGCACCGGCGTTGAAATGTTCCGCAAGCTGCTCGACGAAGGTCGTGCTGGCGAGAACTGCGGCGTGCTGCTGCGCGGCACCAAGCGTGACGACGTTGAGCGTGGCCAGGTTCTGGTCAAGCCAGGTACTGTCAAGCCGCACACCAAGTTCACCGCAGAAGTTTACGTTCTGAGCAAGGAAGAAGGCGGCCGTCATACTCCGTTCTTCAAAGGCTACCGTCCACAGTTTTACTTCCGTACAACTGACGTGACTGGTAACTGCGAGCTGCCAGAAGGCGTTGAAATGGTAATGCCAGGTGACAACATCCAGATGACTGTCACTCTGATCAAGACCATCGCGATGGAAGACGGTCTGCGTTTCGCTATCCGTGAAGGCGGTCGTACCGTCGGCGCCGGCGTCGTAGCCAAAGTCATCGAGTAA	MAKEKFERNKPHVNVGTIGHVDHGKTTLTAALTRVCSEVFGSAKVDFDKIDSAPEEKARGITINTAHVEYDSAVRHYAHVDCPGHADYVKNMITGAAQMDGAILVCSAADGPMPQTREHILLSRQVGVPYIVVFLNKADMVDDAELLELVEMEVRDLLSTYDFPGDDTPIIIGSALMALNGQDDNEMGTTAVKKLVETLDSYIPEPERAIDKPFLMPIEDVFSISGRGTVVTGRVERGIVRIQEEVEIVGLRDTQKTTCTGVEMFRKLLDEGRAGENCGVLLRGTKRDDVERGQVLVKPGTVKPHTKFTAEVYVLSKEEGGRHTPFFKGYRPQFYFRTTDVTGNCELPEGVEMVMPGDNIQMTVTLIKTIAMEDGLRFAIREGGRTVGAGVVAKVIE	PGPT0015245_1782	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358	NA	NA
D1-35_04554	369	secE	COG0690	Protein translocase subunit SecE	ATGACTCCTAAAGCTGAAGCTCAAGGCTCTCGCTTCGATCTGCTCAAGTGGCTAGTGGTAGTCGCTTTGGTGGTTGTTGGCGTTGTTGGCAATCAGTATTTTTCTGCTTCGCCGATCCTGTACCGCGTACTTGCATTACTCGCTATTGCTGCTGTTGCTGCCTTTGTAGGCCTGCAAACAGCCAAGGGCAAGTCTTTCTTTGTACTCGCTAAGGAAGCTCGCACCGAGATTCGTAAAGTCGTATGGCCGACTCGCCAAGAAACCACGCAGACCACATTGATCGTTGTGGCTGTTGTTCTGGTAATGGCGTTGCTGTTGTGGGGGCTTGATTCCCTGCTCGGCTGGCTTGTTTCCTTGATTGTTGGCTAA	MTPKAEAQGSRFDLLKWLVVVALVVVGVVGNQYFSASPILYRVLALLAIAAVAAFVGLQTAKGKSFFVLAKEARTEIRKVVWPTRQETTQTTLIVVAVVLVMALLLWGLDSLLGWLVSLIVG	PGPT0025715_1300	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025715-secE-K03073	NA	NA
D1-35_04555	534	nusG	COG0250	Transcription termination/antitermination protein NusG	GTGGCTAAGCGTTGGTACGTTGTGCATGCTTACTCGGGTTACGAGAAGCATGTCATGCGCTCGCTGATAGAGCGCGTAAAGCTGGCTGGCATGGAAGATGGCTTTGGCGAGATTCTGGTCCCCACTGAAGAAGTGGTGGAGATGCGTAACGGCCAGAAGCGCAAAAGTGAACGCAAGTTCTTTCCAGGCTATGTGCTGGTACAGATGGATATGAACGAAGGGACTTGGCACTTGGTCAAGGATACCCCTCGGGTGATGGGCTTCATCGGCGGAACCGCCGATAAGCCTGCGCCGATCACTGACAAAGAGGCAGAAGCAATTCTGCGTCGCGTCGCTGATGGTAGCGACAAACCGAAGCCGAAGACGTTGTTTGAACCAGGTGAAGTTGTACGGGTCACTGATGGTCCATTCGCCGATTTCAACGGTACGGTCGAAGAAGTTAACTACGAAAAGAGCCGGATCCAAGTGGCAGTGCTCATTTTCGGTCGCTCTACTCCGGTAGAGTTGGAGTTCAGTCAGGTCGAAAAGGTCTGA	MAKRWYVVHAYSGYEKHVMRSLIERVKLAGMEDGFGEILVPTEEVVEMRNGQKRKSERKFFPGYVLVQMDMNEGTWHLVKDTPRVMGFIGGTADKPAPITDKEAEAILRRVADGSDKPKPKTLFEPGEVVRVTDGPFADFNGTVEEVNYEKSRIQVAVLIFGRSTPVELEFSQVEKV				NA	NA	NA	NA	NA
D1-35_04556	432	rplK	COG0080	50S ribosomal protein L11	ATGGCCAAGAAGATTACCGCTTACATCAAGCTGCAAGTGAAGGCCGCTCAGGCTAACCCAAGCCCACCCGTTGGTCCTGCACTGGGTCAGCACGGCGTGAACATCATGGAATTCTGCAAGGCTTTCAACGCCCGTACCCAGGGCCTTGAGCCGGGTCTGCCGACTCCAGTGATCATCACTGTCTACAGCGACCGTAGCTTCACTTTCGAAACAAAAAGCACCCCTGCTTCGGTTCTGCTGAAGAAGGCTGCAGGTTTGACCAGCGGTTCCGCTCGTCCAAACACCGTTAAGGTTGGCACCGTTACCCGTGCTCAGCTGGAAGAAATCGCGAAAACCAAAAACGCGGATCTGACTGCAGCTGATATGGATGCAGCCGTGCGTACTATCGCCGGTTCTGCTCGTAGCATGGGCCTTAACGTGGAGGGTGTGTAA	MAKKITAYIKLQVKAAQANPSPPVGPALGQHGVNIMEFCKAFNARTQGLEPGLPTPVIITVYSDRSFTFETKSTPASVLLKKAAGLTSGSARPNTVKVGTVTRAQLEEIAKTKNADLTAADMDAAVRTIAGSARSMGLNVEGV				NA	NA	NA	NA	NA
D1-35_04557	696	rplA	COG0081	50S ribosomal protein L1	ATGGCTAAGCTGACCAAGCGTCAAAAGGCTATCGCCGGCAAAATCGAAGCAGGCAAGGCCTACAACTTTGTAGACGCCGCCGCTCTGCTGGCCGAGCTGTCGACTGTCAAGTTCAGCGAGTCGTTCGACGTTGCTGTAAATCTGGGCGTTGACCCACGTAAATCCGACCAGGTCGTTCGTAGCGCTACCGTGCTGCCACACGGCACTGGCAAGACCGTACGTGTTGCCGTGTTCACCCAGGGCCCTGCAGCTGAAGCTGCTCTGGCTGCTGGCGCTGATCGCGTAGGCATGGACGACTTGGCTGCTGAAATGAAAGGCGGCGACCTGAACTATGACGTCGTGATCGCATCCCCGGATGCCATGCGTGTTGTAGGTCAGTTGGGTCAGATCCTCGGTCCACGTGGCCTGATGCCTAACCCTAAGGTTGGTACCGTGACTCCAGACGTAGCCACCGCGGTTAAAAACGCCAAGGCTGGTCAGGTTCGTTATCGCACCGACAAAAACGGCATCATCCACACTTCCGTTGGCAAGATCGGCTTCGACGCCGTCAAGCTGAAGGAAAACGTTGAAGCCCTGATCGCTGATCTGAAGCGTATCAAGCCAGCTTCTTCGAAAGGTATCTACGTCAAGCGCGTTACCCTGAGCACCACTATGGGCCCAGGTCTGATCATCGATCAGAGCTCGCTCGACGCGTAA	MAKLTKRQKAIAGKIEAGKAYNFVDAAALLAELSTVKFSESFDVAVNLGVDPRKSDQVVRSATVLPHGTGKTVRVAVFTQGPAAEAALAAGADRVGMDDLAAEMKGGDLNYDVVIASPDAMRVVGQLGQILGPRGLMPNPKVGTVTPDVATAVKNAKAGQVRYRTDKNGIIHTSVGKIGFDAVKLKENVEALIADLKRIKPASSKGIYVKRVTLSTTMGPGLIIDQSSLDA				NA	NA	NA	NA	NA
D1-35_04559	501	rplJ	COG0244	50S ribosomal protein L10	GTGGCAATTAATCTCGAAGACAAGAAGGCCATCGTCGCTGAAGTCAACGAGGCTGCCAAAGTCGCTCTGTCCGCTGTCGTGGCTGATGCCCGTGGCGTAACAGTAGGCGCAATGACCGGACTCCGTAAAGAGGCCCGTGAAGCTGGCGTTTATGTACGTGTCGTACGTAACACCCTGCTCAAGCGCGCTGTTGCTGACACTGAATACAGTGTTCTCAACGACGTGTTCACCGGCCCGACCCTGATCGCGTTCTCCAAAGATCATCCAGGCGCTGCTGCCCGTTTGTTCAAGGAATTCGCCAAGGGTCAGGACAAGTTCGAGATCAAGGCAGCTGCGTTCGAGGGCAAGTTCCTCGCAGCTAATCAGATCGATGTACTGGCAACACTGCCGACCCGCGACGAAGCCATTTCGCAGTTGATGAGCGTGATTCAAGGCGCCACCAGCAAGCTGGCTCGTACTCTGGCTGCAGTTCGCGAGCAAAAAGAAGCTGCCGCAGCCTAA	MAINLEDKKAIVAEVNEAAKVALSAVVADARGVTVGAMTGLRKEAREAGVYVRVVRNTLLKRAVADTEYSVLNDVFTGPTLIAFSKDHPGAAARLFKEFAKGQDKFEIKAAAFEGKFLAANQIDVLATLPTRDEAISQLMSVIQGATSKLARTLAAVREQKEAAAA				NA	NA	NA	NA	NA
D1-35_04560	366	rplL		50S ribosomal protein L7/L12	ATGTCTATCTCCCAAGACGATATCCTCAACGCCGTAGCTGAAATGTCGGTTCTGCAGGTTGTTGAGCTGATCAAAGCTTTCGAAGAAAAATTCGGCGTTTCCGCTGCTGCTGCTTCCGCTGGTCCAGCTGCTGCTGCCGCTGTTGTTGAAGAGCAAACCGAATTCAACGTCATGCTGACCGAAGCTGGCGAGAAGAAAGTTAACGTGATCAAGGCAGTACGTGAACTGACCGGTCTGGGCTTGAAAGAAGCCAAGGCTGTAGTTGACGGCGCTCCTGCCATGGTTCTGGAAGCTGTTGCCAAAGACGCAGCTGACAAAGCCAAAGCAGTACTGGAAGAAGCAGGCGCTAAAGTCGAGCTGAAGTAA	MSISQDDILNAVAEMSVLQVVELIKAFEEKFGVSAAAASAGPAAAAAVVEEQTEFNVMLTEAGEKKVNVIKAVRELTGLGLKEAKAVVDGAPAMVLEAVAKDAADKAKAVLEEAGAKVELK				NA	NA	NA	NA	NA
D1-35_04562	4074	rpoB	COG0085	DNA-directed RNA polymerase subunit beta	ATGGCTTACTCATATACTGAGAAAAAACGTATCCGCAAGGACTTTAGCAAGTTGCCGGACGTCATGGATGTGCCGTACCTCCTGGCCATCCAGCTGGATTCGTATCGTGAATTCTTGCAAGCGGGAGCGACTAAAGATCAGTTCCGCGACGTGGGCCTGCATGCGGCCTTCAAATCCGTTTTCCCGATCATCAGCTACTCCGGCAATGCTGCGCTGGAGTACGTCGGTTATCGCCTGGGCGAACCGGCATTTGATGTCAAAGAATGCGTATTGCGCGGTGTGACTTACGCCGTACCTTTGCGGGTAAAAGTGCGCCTGATCATTTTCGACAAAGAATCGTCGAACAAAGCGATCAAGGACATCAAAGAGCAAGAAGTCTACATGGGTGAAATCCCCCTGATGACTGAGAACGGTACCTTCGTAATCAACGGTACCGAGCGTGTAATCGTTTCCCAGCTGCACCGTTCTCCGGGCGTGTTCTTCGACCACGACCGTGGCAAGACGCACAGCTCCGGCAAACTGCTCTACTCCGCGCGCATCATTCCTTACCGCGGTTCGTGGCTGGACTTCGAGTTCGACCCGAAAGACTGCGTATTCGTGCGTATCGACCGTCGTCGCAAGCTGCCTGCATCGGTATTGCTGCGCGCGCTCGGCTATACCACCGAGGAAGTGCTGGACGCGTTCTACACCACCAACGTCTTCCATGTGCAGGGTGAAAACCTGAGCCTGGAGCTGGTGCCTCAGCGCCTGCGCGGTGAAATCGCCGTCCTGGATATCCAGGATGACAAGGGCAAGGTTATTGTCGAGCAAGGTCGTCGTATCACCGCTCGCCACATCAACCAGCTGGAAAAAGCCGGGATCAAAGAGCTGCAGGTGCCGATGGACTACGTCCTGGGTCGCACCACCGCCAAGGTCATCGTGCATCCGGCCACTGGCGAGATCATTGCCGAGTGCAATACCGAGCTGACCACCGAGATCCTGGCGAAAATCGCCAAGGCTCAGGTTGTTCGCATCGAGACTCTGTACACCAACGATATCGACTGCGGTCCGTTCATCTCCGATACGCTGAAGATCGACTCCACCGGCAACCAACTGGAAGCCCTGGTCGAGATCTATCGCATGATGCGTCCTGGCGAGCCGCCAACCAAGGATGCCGCCGAGACCCTGTTCAACAACCTGTTCTTCAGCCCTGAGCGCTATGACCTGTCTGCGGTCGGCCGGATGAAGTTCAACCGTCGTATCGGTCGTACCGAGATTGAAGGTTCGGGCGTGCTGAACAAGGACGACATCGTTGCGGTGCTCAAGACCCTGGTCGACATCCGTAACGGCAAAGGCATCGTCGATGACATCGACCACCTGGGTAACCGTCGTGTCCGCTGCGTAGGCGAGATGGCCGAGAACCAGTTCCGTGTTGGCCTGGTGCGTGTCGAGCGCGCGGTCAAGGAACGTCTGTCGATGGCTGAAAGCGAAGGCCTGATGCCGCAAGACCTGATCAACGCCAAGCCAGTGGCTGCGGCGGTGAAGGAGTTCTTCGGTTCGAGCCAGCTGTCGCAGTTCATGGACCAGAACAACCCGCTGTCCGAGATCACCCACAAGCGTCGTGTCTCCGCACTCGGCCCAGGCGGTCTGACTCGTGAGCGTGCAGGCTTCGAGGTTCGTGACGTACACCCGACTCACTACGGTCGCGTATGCCCGATCGAAACGCCGGAAGGTCCGAACATCGGTCTGATCAACTCCCTGGCTGCCTATGCGCGCACCAACCAGTACGGTTTCCTTGAGAGCCCGTACCGTGTGGTGAAAGACGCCCTGGTTACCGACGAGATCGTATTCCTGTCCGCCATCGAAGAAGCTGATCATGTGATCGCCCAGGCTTCGGCCACGATGAACGACAAGAAAGTCCTGACCGACGAGCTGGTAGCTGTTCGTCACTTGAACGAGTTCACCGTCAAGGCGCCGGAAGACGTCACCCTGATGGACGTATCGCCCAAGCAGGTAGTTTCGGTTGCTGCGTCGCTGATCCCGTTCCTCGAGCACGACGACGCCAACCGTGCGTTGATGGGTTCGAACATGCAGCGTCAAGCTGTACCGACCCTGCGTGCCGACAAGCCGCTGGTAGGTACCGGCATGGAGCGCAACGTTGCCCGTGACTCCGGCGTTTGCGTCGTGGCTCGTCGTGGTGGCGTGATCGACTCCGTCGATGCCAGCCGTATCGTGGTTCGTGTTGCCGATGACGAAGTTGAAACTGGCGAAGCCGGTGTCGACATTTACAACCTGACCAAGTACACCCGCTCCAACCAGAACACCTGCATCAACCAGCGTCCGCTGGTGAGCAAGGGTGATCGGGTTCAGCGCAGCGACATCATGGCCGACGGCCCGTCCACCGACATGGGTGAACTGGCACTGGGTCAGAACATGCGCATCGCGTTCATGGCATGGAACGGCTTCAACTTCGAAGACTCCATCTGCCTGTCCGAGCGTGTGGTTCAGGAAGACCGCTTCACCACGATCCACATTCAGGAACTGACCTGTGTGGCCCGTGACACCAAGCTTGGCCCGGAAGAAATCACTGCGGACATCCCGAACGTGGGTGAGGCTGCACTGAACAAGCTGGACGAAGCCGGTATCGTTTACGTAGGTGCCGAAGTAGGCGCAGGCGACATCCTGGTCGGCAAGGTCACTCCGAAAGGCGAGACCCAACTGACTCCGGAAGAGAAACTGCTGCGTGCCATCTTCGGTGAAAAAGCCAGCGACGTGAAAGACACCTCCCTGCGTGTGCCTACCGGCACCAAGGGTACCGTCATCGACGTACAGGTCTTCACCCGTGACGGTGTCGAGCGTGATGCTCGTGCGTTGTCCATCGAGAAGACTCAGCTCGACGAGATCCGCAAGGATCTGAACGAAGAGTTCCGTATCGTTGAAGGCGCGACTTTCGAACGTCTGCGTTCCGCTCTGGTAGGCCACAAGGCCGAAGGCGGCGCAGGCCTGAAGAAAGGTCAGGAAATCACCGACGAAGTTCTCGACGGTCTTGAGCATGGTCAGTGGTTCAAACTGCGCATGGCTGAAGACGCTCTGAACGAGCAGCTCGAGAAGGCCCAGGCCTACATCGTTGATCGCCGCCGTCTGCTGGACGACAAGTTCGAAGACAAGAAGCGCAAACTGCAGCAGGGCGATGACCTGGCTCCAGGCGTGCTGAAGATCGTCAAGGTTTACCTGGCAATCCGTCGTCGTATCCAGCCGGGCGACAAGATGGCCGGTCGTCACGGTAACAAAGGTGTGGTCTCCGTGATCATGCCGGTTGAAGACATGCCGCACGATGCCAATGGCACCCCGGTCGATGTGGTCCTCAACCCGCTGGGCGTACCTTCGCGTATGAACGTCGGTCAGATCCTCGAAACCCACCTGGGCCTTGCGGCCAAAGGTCTGGGCGAGAAGATCAACCGCATGATCGAAGAGCAGCGCAAGGTCGCCGACCTGCGTAAGTTCCTGCACGAGATCTACAACGAGATCGGCGGGCGCAACGAAGAGCTGGACACTTTCTCCGACCAGGAAATCCTGGACCTGGCGAAGAACCTGCGCGGCGGCGTTCCAATGGCTACCCCGGTGTTCGACGGTGCCAAGGAAAGCGAAATCAAGGCCATGCTGAAACTGGCAGACCTGCCGGAAAGCGGCCAGATGCAGCTGTTCGACGGCCGTACCGGCAACAAGTTCGAGCGTCCGGTTACCGTTGGCTACATGTACATGCTGAAGCTGAACCACTTGGTAGACGACAAGATGCACGCTCGTTCTACCGGTTCTTACAGCCTGGTTACCCAGCAGCCGCTGGGTGGTAAGGCGCAGTTCGGTGGTCAGCGTTTCGGGGAGATGGAGGTCTGGGCACTGGAAGCGTACGGTGCTGCTTACACTCTGCAAGAAATGCTCACAGTGAAGTCGGACGATGTGAACGGCCGGACCAAGATGTACAAGAACATCGTGGACGGCGATCACCGTATGGAGCCGGGCATGCCCGAGTCCTTCAACGTGTTGATCAAGGAAATTCGTTCCCTCGGCATCGATATCGATCTGGAAACCGAATAA	MAYSYTEKKRIRKDFSKLPDVMDVPYLLAIQLDSYREFLQAGATKDQFRDVGLHAAFKSVFPIISYSGNAALEYVGYRLGEPAFDVKECVLRGVTYAVPLRVKVRLIIFDKESSNKAIKDIKEQEVYMGEIPLMTENGTFVINGTERVIVSQLHRSPGVFFDHDRGKTHSSGKLLYSARIIPYRGSWLDFEFDPKDCVFVRIDRRRKLPASVLLRALGYTTEEVLDAFYTTNVFHVQGENLSLELVPQRLRGEIAVLDIQDDKGKVIVEQGRRITARHINQLEKAGIKELQVPMDYVLGRTTAKVIVHPATGEIIAECNTELTTEILAKIAKAQVVRIETLYTNDIDCGPFISDTLKIDSTGNQLEALVEIYRMMRPGEPPTKDAAETLFNNLFFSPERYDLSAVGRMKFNRRIGRTEIEGSGVLNKDDIVAVLKTLVDIRNGKGIVDDIDHLGNRRVRCVGEMAENQFRVGLVRVERAVKERLSMAESEGLMPQDLINAKPVAAAVKEFFGSSQLSQFMDQNNPLSEITHKRRVSALGPGGLTRERAGFEVRDVHPTHYGRVCPIETPEGPNIGLINSLAAYARTNQYGFLESPYRVVKDALVTDEIVFLSAIEEADHVIAQASATMNDKKVLTDELVAVRHLNEFTVKAPEDVTLMDVSPKQVVSVAASLIPFLEHDDANRALMGSNMQRQAVPTLRADKPLVGTGMERNVARDSGVCVVARRGGVIDSVDASRIVVRVADDEVETGEAGVDIYNLTKYTRSNQNTCINQRPLVSKGDRVQRSDIMADGPSTDMGELALGQNMRIAFMAWNGFNFEDSICLSERVVQEDRFTTIHIQELTCVARDTKLGPEEITADIPNVGEAALNKLDEAGIVYVGAEVGAGDILVGKVTPKGETQLTPEEKLLRAIFGEKASDVKDTSLRVPTGTKGTVIDVQVFTRDGVERDARALSIEKTQLDEIRKDLNEEFRIVEGATFERLRSALVGHKAEGGAGLKKGQEITDEVLDGLEHGQWFKLRMAEDALNEQLEKAQAYIVDRRRLLDDKFEDKKRKLQQGDDLAPGVLKIVKVYLAIRRRIQPGDKMAGRHGNKGVVSVIMPVEDMPHDANGTPVDVVLNPLGVPSRMNVGQILETHLGLAAKGLGEKINRMIEEQRKVADLRKFLHEIYNEIGGRNEELDTFSDQEILDLAKNLRGGVPMATPVFDGAKESEIKAMLKLADLPESGQMQLFDGRTGNKFERPVTVGYMYMLKLNHLVDDKMHARSTGSYSLVTQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQEMLTVKSDDVNGRTKMYKNIVDGDHRMEPGMPESFNVLIKEIRSLGIDIDLETE				NA	NA	NA	NA	NA
D1-35_04563	4200	rpoC	COG0086	DNA-directed RNA polymerase subunit beta'	TTGAAAGACCTACTGAATTTGCTGAAAAACCAGGGTCAAGTCGAAGAGTTCGACGCCATCCGTATTGGATTGGCCTCGCCTGAGATGATCCGTTCGTGGTCGTTCGGTGAAGTTAAAAAGCCGGAAACCATCAACTACCGTACGTTCAAACCCGAGCGTGACGGCCTGTTCTGCGCCAAGATCTTTGGCCCGGTAAAGGATTACGAGTGCCTGTGCGGTAAGTACAAGCGCTTGAAGCATCGCGGCGTGATCTGCGAGAAGTGCGGCGTTGAAGTTGCGCTGGCAAAAGTTCGTCGTGAGCGCATGGCGCACATCGAGCTGGCTTCGCCGGTTGCCCACATCTGGTTCCTGAAATCGCTGCCGTCCCGTATCGGCTTGCTGATGGACATGACCCTGCGTGATATCGAGCGCGTTCTCTACTTCGAGAGCTATGTCGTTATCGATCCAGGCATGACCACCCTTGAAAAAGGTCAGCTGCTCAACGACGAGCAGTACTTCGAAGCGCTGGAAGAGTTCGGCGACGATTTCGATGCCCGCATGGGTGCCGAAGCTGTCCGCGAGCTTCTGCACGCTATCGACCTGGAGCACGAGATTGGTCGTCTGCGCGAAGAGATTCCGCAAACCAACTCCGAAACCAAGATCAAGAAGCTGTCCAAGCGTCTGAAGTTGATGGAAGCCTTCCAGGGTTCCGGCAACCTGCCAGAGTGGATGGTGCTGACCGTTCTGCCGGTTCTGCCGCCAGATCTGCGTCCACTGGTCCCGCTGGATGGCGGTCGTTTCGCGACTTCCGACCTCAACGATCTGTATCGTCGAGTGATCAACCGTAACAACCGCTTGAAGCGCCTGCTCGATCTGTCCGCTCCGGACATCATCGTGCGCAACGAAAAGCGTATGTTGCAGGAAGCGGTCGATGCACTGCTCGACAACGGTCGTCGTGGTCGCGCTATCACCGGTTCGAACAAGCGTCCTCTGAAATCCCTGGCTGACATGATCAAGGGTAAGCAAGGTCGTTTCCGCCAGAACTTGCTCGGTAAGCGTGTTGACTACTCGGGTCGTTCGGTAATTACCGTAGGTCCGACCCTGCGTCTGCACCAGTGCGGTCTGCCTAAGAAAATGGCACTGGAACTGTTCAAGCCGTTCATTTTCGGCAAGCTGGAAATGCGTGGTCTCGCTACCACCATCAAAGCCGCCAAGAAAATGGTCGAGCGCGAGCTGCCAGAGGTCTGGGACGTTCTTGCCGAAGTGATTCGCGAACACCCGGTGCTGCTCAACCGTGCACCGACCCTTCACCGTCTGGGTATCCAGGCGTTTGAACCGGTACTGATCGAAGGCAAGGCTATCCAGCTGCACCCTCTGGTCTGTGCTGCGTACAACGCCGACTTCGACGGCGACCAGATGGCCGTGCACGTACCGCTGACGCTGGAAGCCCAGCTCGAAGCGCGTGCGTTGATGATGTCGACCAACAACATCCTGTCGCCAGCCAACGGTGAGCCAATCATCGTTCCGTCGCAGGACGTTGTATTGGGTCTGTACTACATGACTCGTGAAGCGATCAACGCCAAGGGCGAAGGTCGTGTTTTCGCGGACCTGCAGGAAGTTGACCGGGTGTTCCGTGCTGGCGAAGCCGCACTGCACGCCAAGGTGAAGGTGCGGATCAACGAGACCGTTAACGATCGTGATGGTGGCAGCGTCAAGAACACTCGCATCGTCGACACCACTGTTGGCCGTGCGCTGTTGTTCCAGGTTGTTCCACCTGGTCTGTCGTTTGACGTCGTCAACCTGCCGATGAAGAAAAAGGCGATCTCCAAGCTGATCAACCAGTGCTACCGCGTGGTTGGTCTGAAAGAGACCGTGATCTTCGCTGACCAGCTGATGTACACCGGTTTTGCCTATTCGACCATCTCCGGCGTTTCCATCGGTGTTAACGACTTCGTTATCCCTGATGAAAAAGCCCGCATCATCGGTGCTGCCACCGAGGAAGTGAAAGAGATCGAGAGCCAGTACGCGTCCGGCCTGGTAACCCAGGGCGAGAAGTACAACAAGGTAATCGACCTCTGGTCGAAGGCGAACGACGAAGTATCCAAGGCGATGATGGCCAACCTCTCGAAAGAGAAGGTCATCGACCGCCACGGCAACGAAGTCGATCAGGAATCGTTCAACTCGATGTACATGATGGCCGACTCGGGCGCACGGGGTTCTGCTGCGCAGATCCGTCAGCTCGCCGGTATGCGTGGCCTGATGGCCAAGCCGGACGGCTCCATCATCGAGACGCCGATTACCGCGAATTTCCGTGAAGGTTTGAGCGTACTTCAGTACTTCATCTCCACTCACGGTGCTCGTAAGGGTCTTGCGGATACCGCGTTGAAAACCGCGAACTCCGGTTACCTGACTCGTCGTCTGGTAGACGTGGCGCAGGATCTGGTTGTGACCGAGATCGATTGCGGCACCGAACACGGCCTGGTCATGACGCCGCACATTGAAGGCGGTGACGTTGTCGAGCCGCTGGGTGAGCGTGTATTGGGTCGTGTCATTGCCCGTGACGTGTTCAAGCCGGGTACCGAGGACGTCATCGTTCCTGCGGGCACCCTGGTTGACGAGAAGTGGGTCGAGTTCATCGAGCTCAACAGCATCGACGAAGTGATCGTACGTTCGCCGATCAGCTGCGAAACCCGCTACGGCATCTGCGCCAAGTGCTACGGCCGCGATCTGGCTCGTGGTCACCAGGTGAACATCGGTGAAGCGGTCGGCGTTATTGCTGCCCAGTCCATCGGTGAGCCGGGTACCCAGCTGACCATGCGTACGTTCCACATCGGTGGTGCGGCAAGCCGGACCTCCGCGGCCGACAGCGTTCAGGTGAAGAATGGCGGTACTGTCCGTCTGCACAACCTGAAGCACGTTGAGCGTGTCGACGGTCACCTGGTGGCTGTGTCCCGTTCCGGTGAGCTGGCGATTGCCGACGACTTCGGTCGTGAGCGCGAGCGCTACAAGCTGCCGTACGGTGCGGTGATTTCGGTGAAGGAAGGCGACAAGGTCGACGCTGGCGCTATCGTGGCCAAGTGGGATCCGCACACTCACCCGATCGTTACCGAAATGAAAGGTACCGTGACCTACGTGGGCATGGAAGAAGGCATCACCATCAAGCGTCAGACTGACGAATTGACCGGTATGACCAACATTGAAGTACTCGACGCCAAAGATCGTCCAGCTGCCGGCAAGGACATCCGTCCAGCCGTGAAGATGGTCGACGACAACGGTAAGGATCTGTTGCTGCCAGGCACTGACGTAATCGCTCAGTACTTCCTGCCAGCCAACGCCTTGGTCGGTGTGGCGGACGGCGCGCGGATCGCGATCGGTGATGTTATCGCTCGTATTCCGCAAGAAACTTCGAAAACCCGTGACATCACTGGTGGTCTGCCGCGTGTTGCCGACCTGTTCGAAGCCCGTCGTCCGAAAGAAGCCTCGATTCTGGCTGAAGTCAGCGGCACCATCGCGTTCGGTAAAGAGACCAAGGGCAAGCGCCGTCTGGTCATCACCCCGAACGACGGTAGCGATCCGTACGAAGAACTGATTCCGAAGTGGCGTCACCTGAACGTCTTCGAAGGCGAACAGGTAAACCGCGGCGAAGTTATCTCCGACGGTCCGAGCGATCCACACGACATCCTGCGTCTGCTGGGTGTGAGTGCGCTGGCCAAGTACATCGTGAACGAGATCCAGGACGTTTATCGTCTGCAAGGCGTGAAGATCAACGACAAGCACATCGAGACCATCCTGCGTCAGATGCTGCGTAAAGTTGAGATCTCCGAGTCCGGCGATTCCAGCTTCATCAAGGGCGACCAGATGGAACTGACTCACGTACTGGTGGAGAACGAGCGCCTGGCGAACGAGGACAAGTTCCTTGCCAAGTTCACTCGCGTACTGCTGGGTATCACCAAGGCGTCGTTGTCCACCGAATCGTTCATCTCGGCGGCTTCCTTCCAGGAAACCACGCGGGTACTGACCGAAGCGGCGGTAACCGGCAAGCGCGACTACCTGCGCGGCCTGAAAGAAAACGTGGTCGTGGGTCGTCTGATCCCGGCCGGTACCGGCTTGGCCTACCACAGCGAGCGCAAGCGCCGCCGTGAAGCAGACAAGCCGTTGCGCGTAAGCGCCAGTGAAGTGGAAGCTGCACTGACCGAAGCACTGAACTCGAGCGGTAACTGA	MKDLLNLLKNQGQVEEFDAIRIGLASPEMIRSWSFGEVKKPETINYRTFKPERDGLFCAKIFGPVKDYECLCGKYKRLKHRGVICEKCGVEVALAKVRRERMAHIELASPVAHIWFLKSLPSRIGLLMDMTLRDIERVLYFESYVVIDPGMTTLEKGQLLNDEQYFEALEEFGDDFDARMGAEAVRELLHAIDLEHEIGRLREEIPQTNSETKIKKLSKRLKLMEAFQGSGNLPEWMVLTVLPVLPPDLRPLVPLDGGRFATSDLNDLYRRVINRNNRLKRLLDLSAPDIIVRNEKRMLQEAVDALLDNGRRGRAITGSNKRPLKSLADMIKGKQGRFRQNLLGKRVDYSGRSVITVGPTLRLHQCGLPKKMALELFKPFIFGKLEMRGLATTIKAAKKMVERELPEVWDVLAEVIREHPVLLNRAPTLHRLGIQAFEPVLIEGKAIQLHPLVCAAYNADFDGDQMAVHVPLTLEAQLEARALMMSTNNILSPANGEPIIVPSQDVVLGLYYMTREAINAKGEGRVFADLQEVDRVFRAGEAALHAKVKVRINETVNDRDGGSVKNTRIVDTTVGRALLFQVVPPGLSFDVVNLPMKKKAISKLINQCYRVVGLKETVIFADQLMYTGFAYSTISGVSIGVNDFVIPDEKARIIGAATEEVKEIESQYASGLVTQGEKYNKVIDLWSKANDEVSKAMMANLSKEKVIDRHGNEVDQESFNSMYMMADSGARGSAAQIRQLAGMRGLMAKPDGSIIETPITANFREGLSVLQYFISTHGARKGLADTALKTANSGYLTRRLVDVAQDLVVTEIDCGTEHGLVMTPHIEGGDVVEPLGERVLGRVIARDVFKPGTEDVIVPAGTLVDEKWVEFIELNSIDEVIVRSPISCETRYGICAKCYGRDLARGHQVNIGEAVGVIAAQSIGEPGTQLTMRTFHIGGAASRTSAADSVQVKNGGTVRLHNLKHVERVDGHLVAVSRSGELAIADDFGRERERYKLPYGAVISVKEGDKVDAGAIVAKWDPHTHPIVTEMKGTVTYVGMEEGITIKRQTDELTGMTNIEVLDAKDRPAAGKDIRPAVKMVDDNGKDLLLPGTDVIAQYFLPANALVGVADGARIAIGDVIARIPQETSKTRDITGGLPRVADLFEARRPKEASILAEVSGTIAFGKETKGKRRLVITPNDGSDPYEELIPKWRHLNVFEGEQVNRGEVISDGPSDPHDILRLLGVSALAKYIVNEIQDVYRLQGVKINDKHIETILRQMLRKVEISESGDSSFIKGDQMELTHVLVENERLANEDKFLAKFTRVLLGITKASLSTESFISAASFQETTRVLTEAAVTGKRDYLRGLKENVVVGRLIPAGTGLAYHSERKRRREADKPLRVSASEVEAALTEALNSSGN				NA	NA	NA	NA	NA
D1-35_04565	372	rpsL	COG0048	30S ribosomal protein S12	ATGGCAACTATCAACCAGCTGGTACGTCAGCCGCGTAAGCGTATCGTCGAGAAATCCGACGTGCCTGCGCTGCAGAACTGCCCGCAACGTCGTGGCGTATGCACCCGTGTGTATACCACCACGCCGAAAAAACCTAACTCGGCACTGCGTAAAGTATGCCGTGTGCGCCTGACCAACGGTTTCGAGGTTTCCTCGTACATCGGCGGTGAAGGCCACAACCTGCAAGAGCACAGCGTGGTACTGATCCGCGGCGGTCGTGTAAAAGACTTGCCAGGTGTTCGTTACCACACCGTCCGCGGTTCTTTGGATACTTCCGGCGTCAAAGGTCGTAACCAGGGTCGTTCGAAGTACGGTACCAAGCGTCCGAAGTAA	MATINQLVRQPRKRIVEKSDVPALQNCPQRRGVCTRVYTTTPKKPNSALRKVCRVRLTNGFEVSSYIGGEGHNLQEHSVVLIRGGRVKDLPGVRYHTVRGSLDTSGVKGRNQGRSKYGTKRPK				NA	NA	NA	NA	NA
D1-35_04566	471	rpsG	COG0049	30S ribosomal protein S7	ATGCCAAGACGTCGCGTAGCAGCCAAACGTGAGATTCTGGACGATCCGAAATACGGAAGCCAGATCCTCGCCAAGTTCATGAACCACGTTATGGAGAGCGGCAAGAAAGCCGTTGCCGAGCGTATTGTTTATGGCGCACTGGACAAAGTTAAGGAACGCAAGAACAGCGATCCCCTGGAAATCTTCGAGAAAGCTCTCGACGCCATCGCTCCGCTGGTCGAAGTGAAGTCGCGCCGTGTAGGCGGTGCTACTTACCAGGTTCCGGTCGAAGTTCGTCCTTCCCGTCGTAACGCCCTGGCAATGCGCTGGCTGGTAGACTTCGCCCGCAAGCGCGGCGAGAAGTCCATGGCTCTGCGTTTGGCTGGTGAACTGTTGGACGCTGCTGAAGGTAAAGGTGCTGCAGTTAAGAAGCGTGAAGACGTGCACCGTATGGCTGAAGCCAACAAGGCTTTCTCGCACTACCGCTTCTAA	MPRRRVAAKREILDDPKYGSQILAKFMNHVMESGKKAVAERIVYGALDKVKERKNSDPLEIFEKALDAIAPLVEVKSRRVGGATYQVPVEVRPSRRNALAMRWLVDFARKRGEKSMALRLAGELLDAAEGKGAAVKKREDVHRMAEANKAFSHYRF				NA	NA	NA	NA	NA
D1-35_04567	2106	fusA	COG0480	Elongation factor G 1	ATGGCTCGTACTACACCGATTAATCGCTACCGTAACATCGGTATCGTTGCTCACGTGGATGCTGGTAAGACCACCACCACCGAGCGCGTCCTTTTTTACACCGGCAAAAGTCACAAAATGGGCGAGGTGCATGACGGCGCCGCGACCACAGACTGGATGGTGCAGGAGCAGGAGCGTGGTATTACCATTACTTCTGCTGCTATCACCGCCTTCTGGAAAGGTTCCGAGAAGCAGTACCCGCACGAGCATCGCTTCAACGTAATCGATACCCCGGGCCACGTAGACTTCACCATTGAAGTTGAACGTTCCCTGCGTGTACTCGACGGCGCGGTCGTTGTGTTCTGCGGTACTTCGGGTGTTGAGCCTCAGTCGGAAACCGTATGGCGTCAGGCCAACAAATACGGCGTTCCACGTCTTGTTTACGTAAACAAGATGGACCGTGCTGGTGCCAACTTCCTGCGCGTGATCGCTCAGATCAAGCAGCGTCTGGGTCACACTCCGGTGCCGATCCAGTTGGCTATCGGTTCCGAAGACAACTTCCAGGGTCAGATCGATCTGATCAACATGCAAGCTGTCTACTGGAACGATTCCGACAAGGGCATGGTTCCTGTTCGCAAGGACATTCCTGCTGAATTGCTGGAAGAAGCCGAGAAGTGGCGCGGCAACATGGTCGAGGCTGCGGCCGAAGCCAACGAAGAGCTGATGAACAAGTACCTCGAGGGTGAAGAACTCACCAACGAGGAAATCAAGGCCGCTCTGCGTCAGCGTACTATCGCTGGTGAGATCGTTCTGGCTGTTTGTGGTTCTTCCTTCAAGAACAAGGGTGTTCCCCTGGTTCTCGACGCCGTTATCGATTTCCTGCCTGCTCCAACCGACATTCCCGCTATCAAGGGTTCCAACCCGGATAACGAGGAAGAGGAAATGGAGCGTCACGCAAGTGACGACGAGCCGTTCGCGGCTTTGGCATTCAAGATCGCTACCGACCCATTCGTGGGTACCTTGACCTTTGTTCGGGTTTACTCGGGCGTGTTGGCCTCCGGCGACGGCGTGATCAACTCGGTCAAAGGCAAGAAAGAGCGTGTGGGTCGTATGGTGCAGATGCACGCAAACGCCCGTGAAGAAATCAAGGAAGTACGCGCTGGTGACATCGCGGCCTTGATCGGCATGAAGGACGTCACCACTGGCGAAACCTTGTGCAACGCTGACAAGCCAATCATCCTGGTTCGCATGGACTTCCCGGAGCCGGTTATTTCGGTTGCCGTTGAGCCCAAGACCAAGGATGACCAGGAAAAAATGGGTATCGCTCTGGGCAAACTTGCTCAGGAAGACCCGTCTTTCCGCGTCAAGACTGATGAAGAGACTGGTCAGACGATCATCTCCGGCATGGGCGAGCTGCACCTGGACATCCTGGTTGACCGGATGCGCCGTGAGTTCAACGTCGAAGCCAACATCGGCAAGCCTCAGGTTTCCTATCGTGAGCGCATCACGAAGAACTGTGAAATCGAAGGCAAGTTCGTTCGCCAATCCGGCGGTCGTGGCCAGTTCGGTCACTGCTGGATCCGTTTTGCACCGGCTGACGAAGGTCAGGAAGGTCTGCAATTCGTGAACGAAGTCGTAGGTGGTGTTGTTCCTAAGGAATACATCCCGGCGATCCAGAAGGGTATCGAAGAGCAGATGAAGAACGGCGTTGTTGCCGGCTATCCGCTGATCGGCCTGAAGGCAACAGTGTTTGATGGTTCTTACCACGACGTCGACTCCAACGAGATGGCGTTCAAGGTGGCTGCTTCCATGGCAACCAAGCAACTGGCCCAGAAGGGCGGTGGTGAGTTGCTCGAGCCGATCATGGCAGTAGAAGTCGTTACGCCTGAAGACTACATGGGTGATGTCATGGGCGACCTTAACCGTCGTCGTGGCATGATTCTGGGTATGGAAGATACGGTTTCCGGCAAGGTTATCCGCGCCGAGGTTCCGTTGGGTGAAATGTTCGGTTACGCGACCGACGTTCGTTCCATGTCTCAGGGTCGCGCAAGCTACTCTATGGAATTCAAAAAATACAATACAGCTCCGTCGCATATCGTCGAGACTGTTACTAAAAAGCAAGGCTGA	MARTTPINRYRNIGIVAHVDAGKTTTTERVLFYTGKSHKMGEVHDGAATTDWMVQEQERGITITSAAITAFWKGSEKQYPHEHRFNVIDTPGHVDFTIEVERSLRVLDGAVVVFCGTSGVEPQSETVWRQANKYGVPRLVYVNKMDRAGANFLRVIAQIKQRLGHTPVPIQLAIGSEDNFQGQIDLINMQAVYWNDSDKGMVPVRKDIPAELLEEAEKWRGNMVEAAAEANEELMNKYLEGEELTNEEIKAALRQRTIAGEIVLAVCGSSFKNKGVPLVLDAVIDFLPAPTDIPAIKGSNPDNEEEEMERHASDDEPFAALAFKIATDPFVGTLTFVRVYSGVLASGDGVINSVKGKKERVGRMVQMHANAREEIKEVRAGDIAALIGMKDVTTGETLCNADKPIILVRMDFPEPVISVAVEPKTKDDQEKMGIALGKLAQEDPSFRVKTDEETGQTIISGMGELHLDILVDRMRREFNVEANIGKPQVSYRERITKNCEIEGKFVRQSGGRGQFGHCWIRFAPADEGQEGLQFVNEVVGGVVPKEYIPAIQKGIEEQMKNGVVAGYPLIGLKATVFDGSYHDVDSNEMAFKVAASMATKQLAQKGGGELLEPIMAVEVVTPEDYMGDVMGDLNRRRGMILGMEDTVSGKVIRAEVPLGEMFGYATDVRSMSQGRASYSMEFKKYNTAPSHIVETVTKKQG				NA	NA	NA	NA	NA
D1-35_04568	1194	tufA_2	COG0050	Elongation factor Tu-A	GTGGCTAAAGAAAAATTTGATCGTTCCCTACCGCACGTCAACGTTGGCACCATTGGTCACGTTGACCACGGTAAAACCACTCTGACCGCTGCTCTGACTCGCGTCTGCTCCGAAGTTTTCGGTTCGGCCGTTGTTGCTTTCGACAAAATCGACAGCGCTCCGGAAGAAAAGGCTCGTGGTATCACCATCAACACCGCGCACGTTGAGTACAACTCTTCGATTCGTCACTACGCTCACGTTGACTGCCCAGGTCACGCTGACTATGTGAAGAACATGATCACCGGTGCTGCCCAGATGGACGGCGCGATCCTGGTTTGCTCGGCCGCCGATGGTCCGATGCCACAAACCCGTGAGCACATCCTGCTGTCCCGTCAGGTAGGCGTTCCGTACATCGTTGTCTTCCTGAACAAGGCTGACATGGTTGACGACGCTGAGCTGCTGGAACTGGTTGAGATGGAAGTGCGCGATCTGCTGAGCACTTACGACTTCCCAGGTGATGACACCCCAATCATCATCGGTTCGGCTCTGATGGCTCTGAACGGCCAGGACGACAACGAAATGGGTACCACCGCTGTGAAGCGTCTGGTAGAAACTCTGGACAGCTACATCCCAGAGCCAGTTCGTGTTATCGACAAGCCGTTCCTGATGCCTATCGAAGACGTATTCTCGATCTCCGGTCGCGGTACTGTTGTGACTGGTCGTATCGAGCGCGGTATCGTCAAGGTTCAGGATCCGCTGGAAATCGTAGGTCTGCGTGACACCACCGTCACCACCTGCACCGGTGTTGAAATGTTCCGTAAGCTGCTCGACGAAGGTCGTGCTGGCGAGAACTGCGGCGTTCTGCTGCGTGGTACCAAGCGTGACGACGTTGAGCGTGGCCAGGTTCTGGTTAAGCCGGGTTCGGTCAAGCCGCACACCAAGTTCGAAGCTGAAGTGTACGTTCTGAGCAAAGAAGAAGGCGGTCGTCACACTCCGTTCTTCAAAGGCTACCGTCCACAGTTCTACTTCCGGACCACTGACGTGACCGGTAACTGCGAGCTGCCGGAAGGCGTTGAAATGGTAATGCCAGGCGATAACATCAAAATGGTTGTCACCCTGATCAAAACCATCGCAATGGAAGACGGTCTGCGTTTCGCTATCCGTGAAGGCGGTCGTACCGTCGGCGCTGGCGTCGTAGCCAAAATCATCGAGTAA	MAKEKFDRSLPHVNVGTIGHVDHGKTTLTAALTRVCSEVFGSAVVAFDKIDSAPEEKARGITINTAHVEYNSSIRHYAHVDCPGHADYVKNMITGAAQMDGAILVCSAADGPMPQTREHILLSRQVGVPYIVVFLNKADMVDDAELLELVEMEVRDLLSTYDFPGDDTPIIIGSALMALNGQDDNEMGTTAVKRLVETLDSYIPEPVRVIDKPFLMPIEDVFSISGRGTVVTGRIERGIVKVQDPLEIVGLRDTTVTTCTGVEMFRKLLDEGRAGENCGVLLRGTKRDDVERGQVLVKPGSVKPHTKFEAEVYVLSKEEGGRHTPFFKGYRPQFYFRTTDVTGNCELPEGVEMVMPGDNIKMVVTLIKTIAMEDGLRFAIREGGRTVGAGVVAKIIE	PGPT0015245_1779	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358	NA	NA
D1-35_04569	312	rpsJ	COG0051	30S ribosomal protein S10	ATGCAAAATCAGCAAATCCGTATCAGGTTGAAGGCTTTTGACCATCGCCTGATCGACCAATCCACCCAGGAAATCGTGGAAACCGCGAAACGTACTGGTGCTCAAGTGCGTGGTCCAATTCCACTGCCTACCCGTAAAGAGCGGTTCACCGTTCTGGTCTCCCCGCACGTCAACAAAGACGCGCGTGACCAGTACGAGATCCGTACTCATAAGCGCGTTCTGGACATCGTCCAGCCAACGGATAAAACCGTTGATGCTCTTATGAAGCTCGATCTTGCGGCCGGTGTGGAAGTGCAGATCAGCCTCGGCTAA	MQNQQIRIRLKAFDHRLIDQSTQEIVETAKRTGAQVRGPIPLPTRKERFTVLVSPHVNKDARDQYEIRTHKRVLDIVQPTDKTVDALMKLDLAAGVEVQISLG	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
D1-35_04570	636	rplC	COG0087	50S ribosomal protein L3	ATGACTATTGGTGTAGTCGGTCGTAAATGCGGTATGACCCGTATTTTCACCGAAGAAGGTGTCTCCATTCCGGTCACGGTCATTGAGATCGAGCCGAATCGCGTCACCCAGTTCAAAACTGAAGAGATCGATGGCTATCGTGCAGTGCAAGTCACTGTCGGCGAGCGTCGTGCTTCGCGTGTAACAGCTGCTCAAGCTGGCCACTTCGCCAAGGCGAACGTTGCCGCTGGTCGTACCGTAATGGAATTCCGCCTTGAAGAAGGCGATTACCAGGCCGGCGATCTGATCAACGCTGAAATCTTCGCCGCTGGCCAACTGGTTGATGTAACCGGTCAGTCCAAGGGTAAAGGCTTCCAGGGTACGATCAAGCGTTGGAACTTCCGCGGGCAAGATAACACCCACGGTAACTCCGTATCCCACCGCGTTCCAGGCTCTATCGGCCAGTGCCAGACTCCTGGTCGTGTATTCAAGGGCAAAAAAATGTCCGGTCATATGGGCGCCGAGCGCGTGACCGTGCAGTCCCTCGAAGTAGTGCGCGTGGACGCTGAACGCAATCTGTTGTTGGTCAAGGGCGCTGTTCCTGGCGCTACTGGCGGCAACTTGGTTGTACGTCCAGCAGCCAAGGCTCGCGGTTAA	MTIGVVGRKCGMTRIFTEEGVSIPVTVIEIEPNRVTQFKTEEIDGYRAVQVTVGERRASRVTAAQAGHFAKANVAAGRTVMEFRLEEGDYQAGDLINAEIFAAGQLVDVTGQSKGKGFQGTIKRWNFRGQDNTHGNSVSHRVPGSIGQCQTPGRVFKGKKMSGHMGAERVTVQSLEVVRVDAERNLLLVKGAVPGATGGNLVVRPAAKARG				NA	NA	NA	NA	NA
D1-35_04571	603	rplD	COG0088	50S ribosomal protein L4	ATGCAATTAAATGTAAATGACGCTCAAGCGATCGAAGTTTCCGAACTGACATTTGGCGGCGAATTCAACGAGACGCTGGTTCACCAAGCAGTCGTGGCCTACATGGCCGGCGGCCGTCAAGGTAGCAAGCAGCAAAAGACCCGTTCCGACGTTTCTGGTGGCGGTAAGCGCCCATGGCGTCAGAAAGGTACTGGCCGTGCTCGTGCCGGTACTATCCGTAGCCCAATCTGGCGTGGCGGCGGTACCACTTTCGCAGCTCGTCCTCAGGATCACTCCCAGAAGCTGAACAAGAAGATGTATCGCGCAGCAATGCGTTCCATCCTTGCTGAGCTGGTGCGTACTGATCGTCTGGTCGTGGTTCAGGACTTCGCTGTTGAAGCACCGAAAACCAAAGATCTGCTGAACAAGCTGAATGGCATGGGCCTGACTGACGTCCTGATCGTGTCTGACGCTGTTGATCAGAACCTGTACCTGGCTGCTCGCAACCTGCCACACGTCGATGTCCGTGACGTGCAGGGTTCCGATCCGGTCAGTCTGATCGCATACGACAAGGTGTTGATCACCGTGTCGGCCGTGAAGAAATTCGAGGAGCTGCTGGGATGA	MQLNVNDAQAIEVSELTFGGEFNETLVHQAVVAYMAGGRQGSKQQKTRSDVSGGGKRPWRQKGTGRARAGTIRSPIWRGGGTTFAARPQDHSQKLNKKMYRAAMRSILAELVRTDRLVVVQDFAVEAPKTKDLLNKLNGMGLTDVLIVSDAVDQNLYLAARNLPHVDVRDVQGSDPVSLIAYDKVLITVSAVKKFEELLG				NA	NA	NA	NA	NA
D1-35_04572	300	rplW	COG0089	50S ribosomal protein L23	ATGAACCAGGAACGCGTATTTAAAGTTCTGCTTGGCCCGCACGTTTCCGAGAAGGCTACGGTTCTGGCAGACAAGAAAGGCCAGTTCGTTTTCAAGGTTGCAACCGATGCAACCAAGCTGGAAATCAAGAAGGCCGTCGAAAGCCTGTTCAGCGTGAAAGTAGAGCGCGTTACTACCCTGAACGTTCTGGGTAAGAGCAAGCGCACTGCTCGCGGTCTGGGCAAGCGTAATGACTGGAAGAAGGCAGTTATCTCCCTTCAGCCAGGCCAAGATCTCGATTTCAGCAGCAGTGCTGAGTAA	MNQERVFKVLLGPHVSEKATVLADKKGQFVFKVATDATKLEIKKAVESLFSVKVERVTTLNVLGKSKRTARGLGKRNDWKKAVISLQPGQDLDFSSSAE				NA	NA	NA	NA	NA
D1-35_04573	825	rplB	COG0090	50S ribosomal protein L2	ATGGCAATCGTTAAATGCAAACCGACTTCCCCTGGCCGCCGTTTTGTGGTCAAGGTGGTCAACCAGGAGCTGCATAAAGGCGCTCCTCACGCACCGCTGCTCGAGAAAAAATCGAAGTCTGGTGGTCGTAACAACAATGGCCGTATTACCACTCGTCACATTGGTGGTGGTCATAAGCAGCATTATCGTCTGGTCGACTTCCGTCGCAACGACAAGGATGGCATCGCTGCCACCGTCGAGCGTATCGAATACGATCCAAACCGTACTGCTCACATCGCTCTGCTGCTGTACGCAGATGGCGAGCGTCGCTACATCATCGCCCCTAAAGGCGTGAGTGCTGGCGACCAGCTGATCGCAGGTGCTCTGGCACCGATCAAGCCGGGCAACGCTCTGCAACTGCGCAACATTCCAGTTGGTAGCACCGTACACGGCATCGAATTGAAGCCAGGTAAAGGCGCGCAAATCGCTCGTTCCGCTGGTGCTTCGGCTCAGCTGATCGCTCGTGAAGGTGTCTACGTGACCCTGCGTCTGCGTTCTGGTGAGATGCGTAAAGTCCTGGCTGAATGCCGTGCGACCCTGGGCGAAGTCTCGAACTCCGAGCACAGCCTGCGTTCGTTGGGTAAAGCTGGTGCCAAGCGCTGGCGTGGCGTTCGCCCAACCGTTCGTGGTGTTGCCATGAACCCGGTTGACCACCCACATGGTGGTGGTGAAGGTCGTACCTCTGGTGGTCGTCATCCGGTATCGCCATGGGGCTTCCCGACTAAGGGCGCGAAGACTCGTGGTAATAAGCGTACCGACAAAATGATCGTCCGTCGTCGCAAGTAA	MAIVKCKPTSPGRRFVVKVVNQELHKGAPHAPLLEKKSKSGGRNNNGRITTRHIGGGHKQHYRLVDFRRNDKDGIAATVERIEYDPNRTAHIALLLYADGERRYIIAPKGVSAGDQLIAGALAPIKPGNALQLRNIPVGSTVHGIELKPGKGAQIARSAGASAQLIAREGVYVTLRLRSGEMRKVLAECRATLGEVSNSEHSLRSLGKAGAKRWRGVRPTVRGVAMNPVDHPHGGGEGRTSGGRHPVSPWGFPTKGAKTRGNKRTDKMIVRRRK				NA	NA	NA	NA	NA
D1-35_04574	276	rpsS	COG0185	30S ribosomal protein S19	GTGCCACGTTCTCTGAAAAAAGGTCCTTTTATTGATCTTCACCTACTGAAGAAGATCGAAGTGGCGGCGGAAAAGAACGATCGCAAACCAGTTAAGACCTGGTCGCGTCGTTCGATGATCCTGCCACAGATGGTCGGTCTGACCATCGCTGTACACAACGGTCGCCAGCACGTCCCAGTTCTCGTGAACGAAGACATGGTCGGCCACAAACTGGGCGAGTTCGCCGGTACCCGCACATATCGTGGGCACGTGGCTGACAAGAAAGCCAAGCGTTAA	MPRSLKKGPFIDLHLLKKIEVAAEKNDRKPVKTWSRRSMILPQMVGLTIAVHNGRQHVPVLVNEDMVGHKLGEFAGTRTYRGHVADKKAKR				NA	NA	NA	NA	NA
D1-35_04575	333	rplV	COG0091	50S ribosomal protein L22	ATGGAAGTAGCCGCTAAGTTGTCGGGCGCTCGAATCTCCGCCCAGAAAGCCCGCTTGGTCGCCGACCAGATCCGCGGGAAGAAGGTGGGCGAAGCGCTCAACCTGTTGGCTTTCAGCAGTAAGAAAGCCGCCGAGATCATGAAAAAAGTGCTGGAGTCGGCCGTAGCCAACGCCGAGCATAACGAAGGCGCAGACGTTGATGACCTGAAGGTCAGCACCGTTTTCGTCAACGAAGGGCGTTCGCTGAAGCGCATCATGCCACGTGCCAAAGGCCGTGCTGATCGCATCGTCAAGCGGTCTTGCCATATCACTGTCAAGGTTGCTGACAAGTAA	MEVAAKLSGARISAQKARLVADQIRGKKVGEALNLLAFSSKKAAEIMKKVLESAVANAEHNEGADVDDLKVSTVFVNEGRSLKRIMPRAKGRADRIVKRSCHITVKVADK				NA	NA	NA	NA	NA
D1-35_04576	687	rpsC	COG0092	30S ribosomal protein S3	ATGGGTCAGAAAGTACATCCCATTGGCATTCGCCTGGGAATCGTCAAGGAGCACACCTCCGTCTGGTACGCAGACGGTCGGACTTATGCGGACTACTTGTTCGCTGATCTGAAGGTGCGTGAGTATCTCCAAGACAAACTAAAAAGCGCGTCCGTCAGCCGTATCGATATCCATCGTCCGGCTCAGACTGCACGTATCACCATCCACACCGCTCGTCCAGGTATCGTTATCGGGAAGAAAGGTGAAGATGTTGAGAAACTGCGTCAGGACCTGACCAAGCAAATGGGTGTGCCTGTGCACATCAATATCGAAGAGATCCGCAAGCCGGAGCTCGACGGTATGCTGGTTGCGCAGAGCGTAGCTCAGCAGCTGGAGCGTCGCGTAATGTTCCGTCGCGCTATGAAGCGCGCTGTACAGAACGCCATGCGCATTGGTGCCAAAGGCATCAAAATCCAAGTGAGCGGTCGTCTCGGCGGTGCTGAAATCGCACGTACTGAATGGTATCGCGAAGGTCGTGTGCCATTGCACACCCTGCGTGCCGACATCGACTATGCCAACTACGAAGCTCACACCACTTACGGTGTGATCGGTGTAAAGGTTTGGATCTTCAAAGGCGAAGTAATTGGTGGTCGCCAAGAAGAACTGAAACCACAAGCACCAGCGCCTCGTAAAAAAGCTGCTAAGTAA	MGQKVHPIGIRLGIVKEHTSVWYADGRTYADYLFADLKVREYLQDKLKSASVSRIDIHRPAQTARITIHTARPGIVIGKKGEDVEKLRQDLTKQMGVPVHINIEEIRKPELDGMLVAQSVAQQLERRVMFRRAMKRAVQNAMRIGAKGIKIQVSGRLGGAEIARTEWYREGRVPLHTLRADIDYANYEAHTTYGVIGVKVWIFKGEVIGGRQEELKPQAPAPRKKAAK				NA	NA	NA	NA	NA
D1-35_04577	414	rplP	COG0197	50S ribosomal protein L16	ATGTTGCAACCAAAGCGTACGAAGTTCCGCAAGCAGATGACCGGTCACAACCGTGGCCTGGCATTGCGCGGTAGCAAAGTCAGCTTCGGCGAGTTCGCGCTGAAGTCTGTTGCTCGTGGTCGTCTCACCGCTCGTCAGATCGAGTCAGCGCGTCGTGCTCTGACCCGTCACGTAAAACGTGGCGGCAAGATCTGGATCCGTGTATTCCCGGACAAGCCTGTCACCAAGAAGCCACTCGAAGTTCGGATGGGTAAAGGTAAGGGTAACGTGGAGTACTGGGTTGCCCAGATTCAGCCAGGCAAAGTCCTGTATGAAATCGAGGGTGTTTCTGAAGAGCTGGCGCGTGAGGCTTTCGCCCTGGCTGCTGCAAAGCTGCCGCTCGCCACCTCCTTTGTTAAACGGACGGTGATGTGA	MLQPKRTKFRKQMTGHNRGLALRGSKVSFGEFALKSVARGRLTARQIESARRALTRHVKRGGKIWIRVFPDKPVTKKPLEVRMGKGKGNVEYWVAQIQPGKVLYEIEGVSEELAREAFALAAAKLPLATSFVKRTVM				NA	NA	NA	NA	NA
D1-35_04578	192	rpmC	COG0255	50S ribosomal protein L29	ATGAAAGCGAATGAACTTCGTGAAAAATCAGCACAGCAGCTGAACGAGCAACTGCTCGGCCTGCTGCGCGACCAGTTCAATCTGCGTATGCAGAAGGCAACTGGCCAGTTGGGGCAGTCTCATCTGCTCTCGCAAGTTAAGCGTGACATCGCTCGCGTGAAAACTGTGCTCAACCAGCAGGCAGGTAAGTAA	MKANELREKSAQQLNEQLLGLLRDQFNLRMQKATGQLGQSHLLSQVKRDIARVKTVLNQQAGK				NA	NA	NA	NA	NA
D1-35_04579	267	rpsQ	COG0186	30S ribosomal protein S17	ATGGCTGAAGCCGAAAAAACTGTCCGTACGCTGACTGGCCGTGTTGTCAGCGACAAGATGGACAAAACCATCACCGTTCTGATCGAGCGTCGCGTTAAGCACCCGATCTACGGTAAATACGTTAAGCGTTCGACTAAGCTGCACGCGCACGACGAAACCAATCAGTGCCACATCGGCGACAAAGTCACTATTCGTGAAACTCGTCCGATGGCCAAGACCAAGTCTTGGGCGCTGGTTGATGTTCTCGAACGCGCTGTGGAAGTCTAA	MAEAEKTVRTLTGRVVSDKMDKTITVLIERRVKHPIYGKYVKRSTKLHAHDETNQCHIGDKVTIRETRPMAKTKSWALVDVLERAVEV				NA	NA	NA	NA	NA
D1-35_04580	369	rplN	COG0093	50S ribosomal protein L14	ATGATTCAGACTCAATCCATGCTCGATGTGGCCGATAACAGCGGCGCTCGCCGTGTTATGTGCATCAAGGTGCTGGGTGGCTCCCATCGTCGTTACGCTGGTATCGGTGACATCATCAAAGTTACCGTCAAGGAAGCAATTCCTCGCGGTAAGGTGAAGAAAGGTCAAGTGATGACTGCTGTTGTAGTCCGCACTCGCCATGGTGTTCGTCGTGCTGACGGCTCCATCATCCGCTTTGATGGCAACGCTGCTGTTCTGCTGAACAACAAGCAAGAGCCAATCGGCACCCGTATCTTTGGGCCAGTGACCCGTGAACTTCGTACTGAGAAGTTCATGAAGATCGTCTCGCTCGCCCCAGAAGTGCTGTAA	MIQTQSMLDVADNSGARRVMCIKVLGGSHRRYAGIGDIIKVTVKEAIPRGKVKKGQVMTAVVVRTRHGVRRADGSIIRFDGNAAVLLNNKQEPIGTRIFGPVTRELRTEKFMKIVSLAPEVL				NA	NA	NA	NA	NA
D1-35_04581	315	rplX	COG0198	50S ribosomal protein L24	ATGCAAAAGATTCGTCGTGACGACGAGATCATCGTGATCGCCGGCAAAGACAAAGGTAAGCGCGGTAAGGTGCTTAAGGTTCTCGCTAACAACCGTCTGGTTATTGGCGGTCTGAACCTGGTCAAGCGTCATACCAAGCCTAACCCGATGTCGGGCGTGCAGGGCGGTATCGTCGAAAAAGAAGCTCCACTGGATGCTTCTAACGTCGCCATTTTCAACGGCGAAACCAACAAGGCTGACCGCGTTGGTTTCAAAGTAGAAGACGGCAAGAAAATTCGTGTCTTCAAGTCGACCCAAAAAGCGGTTGATGCTTGA	MQKIRRDDEIIVIAGKDKGKRGKVLKVLANNRLVIGGLNLVKRHTKPNPMSGVQGGIVEKEAPLDASNVAIFNGETNKADRVGFKVEDGKKIRVFKSTQKAVDA				NA	NA	NA	NA	NA
D1-35_04582	540	rplE	COG0094	50S ribosomal protein L5	ATGGCACGACTAAAAGAGATTTACCGGAAGGAAATCGCACCGAAGCTTAAGGAAGAACTTAAGCTTTCGAACGTGATGGAAGTTCCGCGCGTTACCAAAATCACCCTGAACATGGGTCTGGGCGAAGCGATCGGCGACAAAAAAGTCATCGAGCACGCTGTAGCTGACCTGGAAAAGATCACCGGTCAGAAAGTCGTTGTGACTTACGCTCGGAAATCCATCGCTGGCTTCAAAGTCCGTGAAGGTTGGCCGATCGGCGTCAAGGTGACCCTGCGCCGTGAGCGTATGTACGAGTTCCTGGATCGTCTGCTGTCGATCTCCCTGCCTCGGGTTCGCGACTTCCGCGGCCTGAATGCCAAGTCCTTCGATGGTCGTGGCAACTACAGCATGGGCGTGAAAGAGCAGATCATCTTCCCGGAAATCGATTACGACAAGATCGACGCTCTCCGCGGTCTGGACATTACCCTGACCACCACTGCTCGGACGGATGAAGAAGGTCGCGCACTGCTGCGTGCTTTCAAATTCCCGTTCCGCAACTGA	MARLKEIYRKEIAPKLKEELKLSNVMEVPRVTKITLNMGLGEAIGDKKVIEHAVADLEKITGQKVVVTYARKSIAGFKVREGWPIGVKVTLRRERMYEFLDRLLSISLPRVRDFRGLNAKSFDGRGNYSMGVKEQIIFPEIDYDKIDALRGLDITLTTTARTDEEGRALLRAFKFPFRN				NA	NA	NA	NA	NA
D1-35_04583	306	rpsN	COG0199	30S ribosomal protein S14	ATGGCCAAGAAGAGCATGAAGAACCGTGAGCTGAAGCGTCAGCTCACCGTTGCCAAGTACGCCACCAAGCGTGCAGCGCTGAAAGCTATCATCGTTGATCTGAACGCAAGTCCAGAAGCGCGTTGGGAAGCTACCGTAGCACTGCAGAAGCAGCCACGTGACGCCAGCGCTTCGCGCATGCGTAACCGCTGCCGCCTGACTGGTCGTCCGCACGGCGTGTACCGCAAGTTCGGCCTCGGCCGTAACATGCTGCGTCAAGCTGCAATGCGTGGTGACGTTCCAGGTCTGGTCAAGGCCAGCTGGTAA	MAKKSMKNRELKRQLTVAKYATKRAALKAIIVDLNASPEARWEATVALQKQPRDASASRMRNRCRLTGRPHGVYRKFGLGRNMLRQAAMRGDVPGLVKASW				NA	NA	NA	NA	NA
D1-35_04584	393	rpsH	COG0096	30S ribosomal protein S8	ATGAGTATGCAGGACCCGTTAGCGGACATGCTAACTCGTATCCGTAATGCCCAGATGGCTGAAAAGTCCGTCGTAAGCATGCCATCTTCTACGTTGAAGGTAGCTGTTGCCAAAGTCCTGAAGGACGAAGGTTACATTGCGGGTTATCAGATCAGCAGCGAAATCAAGCCTCTGCTGTCCATCGAGCTTAAGTACTTCGAAGGCCGTCCGGTCATCGAGGAAGTGAAGCGCGTTAGCCGTCCAGGCCTGCGTCAGTACAAGTCCGTCGATGATCTGCCAAAAGTTCGTGGCGGTCTCGGTGTGTCTATCGTCTCCACCAACAAAGGTGTGATGACGGATCGTGCTGCGCGCGCTGCCGGTGTCGGCGGCGAAGTTCTTTGCACTGTGTTCTAA	MSMQDPLADMLTRIRNAQMAEKSVVSMPSSTLKVAVAKVLKDEGYIAGYQISSEIKPLLSIELKYFEGRPVIEEVKRVSRPGLRQYKSVDDLPKVRGGLGVSIVSTNKGVMTDRAARAAGVGGEVLCTVF				NA	NA	NA	NA	NA
D1-35_04585	534	rplF	COG0097	50S ribosomal protein L6	ATGTCACGCGTCGCTAAGAACCCCGTTAAGCTGCCAGCCGGTGTCGAAGTCAAATTCGCAGGCCAACAGCTTTCGGTGAAGGGTGCCAAGGGCACTCTGCAACTGAACATCCATTCGTCCGTTGAGATCGTTGAAGAAGCTGGTGAGCTGCGTTTCGCTGCTCGCAATGGCGATCAACAGACTCGCGCAATGGCTGGTACCACTCGTGCGTTGGTAAACAACATGGTCCAAGGCGTAAGCCAAGGCTTCGAGCGCAAGCTCCAGCTGGTCGGTGTTGGTTACAAAGCGCAAGCAAAAGGCACAGTGCTGAACCTGGCTCTTGGCTTCTCGCACCCAGTGGATTATGAACTGCCGGAAGGCATCACCGCTGAGACTCCTAGCCAGACCGATATCCTGATCAAGGGCATCGACAAGCAGCTGGTAGGTCAAGTGGCCGCCGAGATCCGCGACTTCCGTCCACCAGAGCCGTACAAAGGCAAAGGTGTGCGCTACGCGGACGAAGTCGTCCGTCGTAAAGAAGCCAAGAAGAAGTAG	MSRVAKNPVKLPAGVEVKFAGQQLSVKGAKGTLQLNIHSSVEIVEEAGELRFAARNGDQQTRAMAGTTRALVNNMVQGVSQGFERKLQLVGVGYKAQAKGTVLNLALGFSHPVDYELPEGITAETPSQTDILIKGIDKQLVGQVAAEIRDFRPPEPYKGKGVRYADEVVRRKEAKKK				NA	NA	NA	NA	NA
D1-35_04586	351	rplR	COG0256	50S ribosomal protein L18	ATGACCGACAAAAAAGTTACTCGACTGCGTCGCGCTCGCAAAGCACGCCTGAAAATGCACGAACTCGAAGTCGTGCGTCTCTGCGTGTTCCGCTCGTCGCAGCACATCTACGCCCAGGTCATTTCGGCCGACGGCAACAAAGTCCTGGCAAGTGCCTCGACTTTGGATAAAGAACTGCGTGATGGCGCCACTGGCAACATCGACGCGGCCACTAAGGTTGGCCAGCTGGTCGCTACGCGTGCTAAAGCCGCTGGCGTCTCGCAGGTGGCTTTCGACCGCTCTGGCTTCAAGTACCACGGCCGCGTCAAGGCGCTGGCTGATGCTGCTCGTGAAGCTGGGCTGGAGTTCTAA	MTDKKVTRLRRARKARLKMHELEVVRLCVFRSSQHIYAQVISADGNKVLASASTLDKELRDGATGNIDAATKVGQLVATRAKAAGVSQVAFDRSGFKYHGRVKALADAAREAGLEF				NA	NA	NA	NA	NA
D1-35_04587	501	rpsE	COG0098	30S ribosomal protein S5	ATGTCAAATAACGACCAAAAGCGCGACGAAGGCTACATCGAGAAGCTGGTTCAAGTTAACCGCGTAGCCAAAACCGTTAAAGGCGGCCGTATCTTCACTTTCACCGCGTTGACCGTGGTAGGTGATGGTAAAGGGCGTGTTGGCTTCGGCCGTGGCAAGTCGCGTGAAGTGCCTGCTGCGATCCAGAAGGCAATGGAAGCTGCTCGCCGCAACATGATCCAGGTTGATCTGAACGGCACCACCCTGCAGTACGCAATGAAGTCTGCCCATGGCGCTTCGAAGGTGTACATGCAGCCTGCTTCTGAAGGTACCGGTATCATCGCTGGCGGCGCTATGCGTGCTGTCCTCGAAGTTGCTGGCGTTCAGAACGTTCTGGCCAAGTGCTACGGCTCGACTAACCCGGTAAACGTGGTTCACGCCACCTTCAAGGGTTTGAAAGCAATGCAGTCTCCTGAATCCATTGCCGCCAAGCGTGGCAAAAGCGTCAAGGAGATCTTCTGA	MSNNDQKRDEGYIEKLVQVNRVAKTVKGGRIFTFTALTVVGDGKGRVGFGRGKSREVPAAIQKAMEAARRNMIQVDLNGTTLQYAMKSAHGASKVYMQPASEGTGIIAGGAMRAVLEVAGVQNVLAKCYGSTNPVNVVHATFKGLKAMQSPESIAAKRGKSVKEIF				NA	NA	NA	NA	NA
D1-35_04588	177	rpmD	COG1841	50S ribosomal protein L30	ATGGCTACCGTAAAAGTTACGCTGATCAAAAGCATGACCGGCCGCATCCCTAACCACAAACTGTGCGTTAAGGGTCTGGGTCTGCGTCGCATCGGTCACACTGTAGAAGTCCAGGATACTCCCGAGAATCGCGGGATGATCAACAAGGCTTACTACATGCTGCGTGTCGAGGGTTAA	MATVKVTLIKSMTGRIPNHKLCVKGLGLRRIGHTVEVQDTPENRGMINKAYYMLRVEG				NA	NA	NA	NA	NA
D1-35_04589	438	rplO	COG0200	50S ribosomal protein L15	ATGAAACTCAATGATCTGAGTCCAGCGCCGGGTTCCCGTCGCGAAAAGCATCGTCCGGGCCGTGGTATCGGTAGTGGTTTGGGCAAGACCGGTGGCCGTGGCCACAAGGGTCAGACCTCTCGCTCCGGTGGCACCATTGCTCCAGGCTTTGAAGGCGGTCAACAGCCGCTGCATCGTCGCCTGCCGAAGTTCGGTTTCGTTTCCCTGAAAGCCATGGACCGCGCAGAAGTGCGTCTGTCCGAGCTGGCCAAAGTGGATGGCGATATCGTCACCGTGCAGTCCCTGAAGGATGCCAACGTGATCAACCAGAACGTACAGCGTGTGAAAATCATGCTGTCGGGCGAAGTTGCTCGTGCTGTCACCATCGGAAAGGGAATCGGCGCCACCAAAGGTGCGCGTGCGGCTATCGAAGCAGCTGGCGGCAAGTTCGAGGAATAA	MKLNDLSPAPGSRREKHRPGRGIGSGLGKTGGRGHKGQTSRSGGTIAPGFEGGQQPLHRRLPKFGFVSLKAMDRAEVRLSELAKVDGDIVTVQSLKDANVINQNVQRVKIMLSGEVARAVTIGKGIGATKGARAAIEAAGGKFEE				NA	NA	NA	NA	NA
D1-35_04590	1329	secY	COG0201	Protein translocase subunit SecY	ATGGCTAAGCAAGGTGCTCTCTCTGCGCTCGGCAAAGGCGGTATGTCTGAACTCTGGGCTCGTCTGCGTTTTCTGTTCCTGGCGATTATCGTCTACCGAATAGGCGCACACATCCCGGTTCCAGGTATCAACCCGGACCGACTCGCGGACCTGTTTCGACAGAATGAGGGGACCATTCTTAGCTTGTTCAACATGTTTTCCGGCGGCGCGCTGGAGCGGATGAGCATCTTTGCACTGGGGATCATGCCGTACATTTCGGCATCGATCATCATGCAGCTGATGTCCGCTGTCAGCCCGCAGCTGGAGCAGTTGAAGAAGGAAGGTGAAGCTGGCCGTCGCAAGATCAGCCAGTACACCCGCTACCTCACTGTCGTCCTCGCTCTCGTCCAGGCTGTTGGCATGTCCATCGGTCTGGCGGGGCAGGGCGTAGCGTTCACTGGTGACTTTGGCTTCCATTTCGTCGCGGTAACCACTTTTGTGGCGGGTGCGATGTTCATGATGTGGCTGGGTGAGCAGATTACTGAGCGTGGTGTTGGCAACGGTATCTCGATGTTGATCTTCGCAGGTATCGTCGCCGGTCTTCCGAGAGCGATCGGGCAGTCTTTCGAGTCTGCGCGTCAGGGTGATATCAACATCTTCGCCCTGGTTGCCATCGGTTTGCTGGCAGTAGCGATTATCGGTTTCGTGGTGTTCATTGAGCGTGGCCAGCGTCGTATCGCTGTTCACTACGCCAAGCGTCAGCAGGGCCGCAAGGTTTTTGCTGCGCAGACCAGCCACTTGCCGTTGAAGGTGAACATGGCCGGCGTTATCCCGGCCATTTTCGCGAGCAGCATCTTGCTGTTCCCGGCTTCGTTGGGTGCCTGGTTCGGCCAGTCTGAAGGTATGGGCTGGTTGCAGGACATCTCGCAGTCGATCGCTCCTGGTCAGCCGTTGAATATTCTGCTGTTTAGTGCAGGGATTATTTTCTTCTGCTTCTTCTATACGGCGTTGATGTTCAATCCGAAAGACGTAGCGGAAAACCTGAAGAAGTCCGGTGCCTTTATTCCGGGTATCCGTCCGGGCGAGCAGTCGGCGCGCTACATTGATGGCGTTCTGACGCGTTTGACCTTGTTCGGTGCTCTTTACATGACGGCCGTGTGCTTGCTTCCCCAGTTCCTGGTGGTTGCGGCAAACGTTCCGTTCTACCTTGGCGGGACCTCGTTGCTGATCGTGGTCGTGGTTGTGATGGACTTCATGTCCCAAGTACAATCGCACCTCGTTTCGCACCAGTACGAATCCCTGATGAAGAAAGCCAACCTGAAGGGCTACGGCAGCGGCATGTTGCGCTGA	MAKQGALSALGKGGMSELWARLRFLFLAIIVYRIGAHIPVPGINPDRLADLFRQNEGTILSLFNMFSGGALERMSIFALGIMPYISASIIMQLMSAVSPQLEQLKKEGEAGRRKISQYTRYLTVVLALVQAVGMSIGLAGQGVAFTGDFGFHFVAVTTFVAGAMFMMWLGEQITERGVGNGISMLIFAGIVAGLPRAIGQSFESARQGDINIFALVAIGLLAVAIIGFVVFIERGQRRIAVHYAKRQQGRKVFAAQTSHLPLKVNMAGVIPAIFASSILLFPASLGAWFGQSEGMGWLQDISQSIAPGQPLNILLFSAGIIFFCFFYTALMFNPKDVAENLKKSGAFIPGIRPGEQSARYIDGVLTRLTLFGALYMTAVCLLPQFLVVAANVPFYLGGTSLLIVVVVVMDFMSQVQSHLVSHQYESLMKKANLKGYGSGMLR	PGPT0025725_2230	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025725-secY-K03076	NA	NA
D1-35_04592	357	rpsM	COG0099	30S ribosomal protein S13	ATGGCCCGTATTGCAGGCGTCAACATTCCAGATAACAAGCATACTGTTATCTCGCTGACCTACATCTATGGTGTTGGTCGCACTACTGCACAGAAAATTTGTGCAGAGACTGGGGTCAACCCAGCAGCAAAGATCAAGGATCTGAGCGACGAGCAAATTGAACAGCTGCGTGGCGAAGTGGCGAAGTTCACCACTGAAGGTGACCTGCGTCGCGAAATCAACATGAAAATCAAGCGCTTGATGGACCTCGGTTGCTATCGCGGTCTGCGTCATCGTCGTGGTCTGCCAGTACGCGGTCAGCGTACCAAGACCAACGCGCGTACCCGTAAAGGTCCGCGTAAGCCGATCCGCAAGTAA	MARIAGVNIPDNKHTVISLTYIYGVGRTTAQKICAETGVNPAAKIKDLSDEQIEQLRGEVAKFTTEGDLRREINMKIKRLMDLGCYRGLRHRRGLPVRGQRTKTNARTRKGPRKPIRK				NA	NA	NA	NA	NA
D1-35_04593	390	rpsK	COG0100	30S ribosomal protein S11	ATGGCAAAACCTGCTGCTCGTCCTCGTAAAAAAGTTAAAAAGACAGTGGTTGATGGCATCGCCCACATCCATGCATCTTTTAACAACACCATCGTGACCATTACCGACCGTCAAGGTAACGCTCTTTCCTGGGCTACCTCCGGTGGTTCGGGTTTCCGCGGTTCCCGCAAGTCCACTCCGTTCGCTGCTCAAGTAGCTGCTGAGCGTGCTGGTCAAGCTGCGCTGGAATACGGCCTGAAAAACCTCGACGTCAACGTCAAAGGTCCAGGTCCAGGTCGTGAATCCGCAGTCCGCGCTTTGAACGGCTGTGGCTACAAGATCGCCAGCATCACCGACGTGACGCCAATCCCGCACAACGGGTGCCGTCCGCCGAAGAAGCGCCGCGTGTAA	MAKPAARPRKKVKKTVVDGIAHIHASFNNTIVTITDRQGNALSWATSGGSGFRGSRKSTPFAAQVAAERAGQAALEYGLKNLDVNVKGPGPGRESAVRALNGCGYKIASITDVTPIPHNGCRPPKKRRV				NA	NA	NA	NA	NA
D1-35_04594	621	rpsD	COG0522	30S ribosomal protein S4	ATGGCTCGTTACATTGGTCCAAAATGCAAACTCGCTCGTCGCGAAGGCACCGATCTCTTCCTGAAGAGCGGCGTGCGCGCGATCGAATCGAAGTGCAACATTGAAGCAGCACCTGGTATCCACGGCCAACGCCGCGGTCGCCAGTCCGATTACGGCACCCAACTGCGTGAAAAGCAGAAGGTCCGTCGTATCTACGGCGTTCTCGAGCGTCAATTCAGCGGCTACTACAAAGAAGCTGCTGGCAAGAAAGGCGCAACCGGCGAAAACCTGTTGCAGCTGCTCGAATGCCGTCTGGACAACGTTGTATACCGTATGGGTTTCGGTTCTACTCGTGCCGAATCCCGTCAGCTGGTATCGCACAAGTCGATCAGCGTTAACGGCCAGACCGTGAACGTTCCGTCCTACCAGGTTCGTGCTGGTGACGTGGTTGCTGTTCGCGAGAAAGCAAAAAACCAACTTCGCATTGTCCAAGCTCTCGATCTGTGTGCCCAACGTGGCCGCGTAGAATGGGTAGAAGTAGACACTGAGAAGAAGTCGGGCGTTTTCAAGAACGTTCCTGCTCGCAGTGATCTGTCCGCCGACATCAACGAAAGCCTGATTGTCGAGCTCTACTCCAAGTAA	MARYIGPKCKLARREGTDLFLKSGVRAIESKCNIEAAPGIHGQRRGRQSDYGTQLREKQKVRRIYGVLERQFSGYYKEAAGKKGATGENLLQLLECRLDNVVYRMGFGSTRAESRQLVSHKSISVNGQTVNVPSYQVRAGDVVAVREKAKNQLRIVQALDLCAQRGRVEWVEVDTEKKSGVFKNVPARSDLSADINESLIVELYSK				NA	NA	NA	NA	NA
D1-35_04595	1002	rpoA		DNA-directed RNA polymerase subunit alpha	ATGCAGATTTCGGTAAATGAGTTCCTGACACCCCGCCATATTGATGTGCAGGTTGTCAGTCCAACCCGCGCCAAGATCACACTCGAGCCTCTCGAGCGTGGTTTCGGCCACACCCTGGGCAACGCGCTGCGCCGCATCCTGTTGTCCTCAATGCCCGGCTGTGCAGTAGTCGAGGCCGAGATTGACGGTGTGCTCCACGAGTACAGCGCCATCGAAGGTGTACAGGAAGACGTAATTGAAATCCTGTTGAACCTTAAAGGTCTGGCTATCAAGCTGCACGGTCGTGACGAAGTTACGCTGACCTTGTCGAAGAAGGGTTCGGGGGTGGTTACCGCTGCCGATATTCAGCTGGATCATGATGTCGAGATCGTTAACCCCGATCACGTAATCGCTAACCTGGCGTCTAACGGCGCCCTGAACATGAAGCTCACCGTAGCTCGTGGTCGTGGTTATGAACCGGCAGACTCGCGTCAGAGCGATGAAGACGAAAGCCGCAGCATCGGTCGCTTGCAGCTTGACTCTTCGTTCAGCCCGGTTCGCCGTATCGCATACGTGGTGGAAAACGCCCGTGTCGAACAGCGTACCAACCTGGACAAGCTGGTTATTGATCTGGAAACCAACGGTACCCTGGATCCTGAAGAGGCTATCCGCCGCGCTGCAACCATCCTGCAACAGCAGTTGGCTGCGTTCGTCGACCTCAAGGGTGACAGTGAGCCAGTGGTTATCGAGCAGGAAGACGAGATCGATCCGATCCTGCTTCGCCCGGTTGACGATCTGGAACTGACTGTACGTTCGGCTAACTGCCTTAAGGCGGAAAACATCTACTACATCGGTGACCTGATTCAGCGTACCGAAGTAGAGCTGTTGAAGACTCCGAACCTTGGCAAGAAATCCTTGACTGAAATCAAGGACGTTCTGGCCTCCCGCGGTCTGTCCCTCGGCATGCGCCTCGACAACTGGCCGCCTGCAAGTCTTAAGAAGGACGACAAGGCGACTGCCTGA	MQISVNEFLTPRHIDVQVVSPTRAKITLEPLERGFGHTLGNALRRILLSSMPGCAVVEAEIDGVLHEYSAIEGVQEDVIEILLNLKGLAIKLHGRDEVTLTLSKKGSGVVTAADIQLDHDVEIVNPDHVIANLASNGALNMKLTVARGRGYEPADSRQSDEDESRSIGRLQLDSSFSPVRRIAYVVENARVEQRTNLDKLVIDLETNGTLDPEEAIRRAATILQQQLAAFVDLKGDSEPVVIEQEDEIDPILLRPVDDLELTVRSANCLKAENIYYIGDLIQRTEVELLKTPNLGKKSLTEIKDVLASRGLSLGMRLDNWPPASLKKDDKATA				NA	NA	NA	NA	NA
D1-35_04596	387	rplQ	COG0203	50S ribosomal protein L17	ATGCGTCATCGTAAAAGTGGTCGTCACCTGAGCCGCACCAGCTCGCACCGCAAGGCCATGTTCCAAAACATGGCGGTGTCGCTGTTCGAGCACGAGCTGATCAAAACTACACTGCCGAAAGCCAAAGAACTGCGCCGCGTTGCCGAGCCGCTGATCACTCTGGCCAAGACAGACAGCCTGGCTAACCGCCGTCTGGCTTTCGACCGTACTCGTTCGAAAGCTATCGTTGGTAAGCTCTTCAACGACCTGGGCAAGCGTTACGCTACCCGTGAGGGTGGCTACCTGCGCATCCTCAAGTGCGGTTTCCGCGCTGGCGACAACGCGCCTATGGCGTACGTCGAGTTGGTTGATCGTGCTACTGCCGGCGAAGCTGTAAGCGCCGAGTAA	MRHRKSGRHLSRTSSHRKAMFQNMAVSLFEHELIKTTLPKAKELRRVAEPLITLAKTDSLANRRLAFDRTRSKAIVGKLFNDLGKRYATREGGYLRILKCGFRAGDNAPMAYVELVDRATAGEAVSAE				NA	NA	NA	NA	NA
D1-35_04597	1449	cat		Catalase	ATGAGCCAGACCAAAACGCTTACGACCGCCAGTGGCGCTCCTGTCGCCGATAACCAGAACTCTCGCTCCGCCGGTCCACGTGGCCCGCTGCTGCTCGACGATTTCCACCTGATCGAGAAGCTTGCTCATTTCAATCGCGAAAACATTCCAGAGCGTCGTGTGCATGCCAAGGGCTCAGGCGCTTACGGTACCTTCACCGTAACTCGCGACATCACTCAATACACCAGCGCCAAGTTGTTCGAGTCGGTTGGCAAGCAGACGCCGACTTTCCTGCGCTTCTCTACCGTGGGTGGCGAGCGCGGCTCCGCCGATACCGAGCGCGATCCACGCGGTTTTGCCCTGAAGTTCTACACCGAAGAAGGTAACTGGGACATCGTCGGCAACAACACACCGGTGTTTTTCATCCGCGACCCACTGAAGTTTCCAGACTTCATTCACACCCAGAAGCGCCTGCCACAAAGCAACCTCAAAAGTGCCCAGATGATGTGGGACTTCTGGTCGCACTCGCCCGAAGCGTTGCACCAGGTCACCATTCTGTTCTCTGACCGGGGGATTCCTGACGGCTATCGTCACATGCACGGTTTCGGCAGTCACACCTACAGCCTGATCAATGCTCTGGGTGAGCGTCACTGGGTGAAATGGCACTACAAGACCAAGCAAGGCATCAAGAACCTCGCGCCGGCCGAAGCTGCACGCCTGGCGGGCACCGATCCGGATTATGCCCAGCGCGACCTGTTCAAGGCGATCGAGCGCGGTGACTTCCCGAAATGGAGCGTCTGCATCCAGATCATGACCGAGGCACAGGCCGCGGCCCATTACGAAAACCCGTTCGATGTGACCAAGACCTGGTCGCAGAAAGAGTTTCCGCTGATCGAAGTCGGCGAGCTGGAGCTCAACCGCAACCCGCTGAACTACTTCGCCGAAGTGGAGCAAGCGGCATTCGGGCCTAGCAACATGGTGCCGGGTGTGGGTCTCTCGCCTGATCGCATGCTGCAGGGTCGTGTGTTTGCCTATGCCGATGCACACCGCTACCGCGTAGGTACCAACCATCAGCAGTTGCCGGTGAACGCGCCGCGCAGCCCGGTCAATACCTACCAGCGCGACGGCGCCATGGCGTTCGGCAGCAATGGCGGCGCAGCTCCGAACTATGAGCCGAACAGCTTCGTGGAGGCGCCGAAGCAGGCGCCGCGTTATGCGGAGCCGGCGCTGGCCCTCAGCGGTGCGGCGGATCGGTATGATCATCGCGAGGATACCGACTACTACAGCCATGCCGGTGCGCTGTTCCGCTTGATGAACGATGAGCAGAAAGCGCTGTTGATCAGCAATATCGCCGGTGCTATGGCGGGGGTCTCGGCGGATGTTGTCGATCGCCAGTTGCAGCATTTCTTCAAGGCAGACGCTGCTTATGGAGAAGGTATCGCAAAAGCTTTGGGCGTACAGCTTAACTAA	MSQTKTLTTASGAPVADNQNSRSAGPRGPLLLDDFHLIEKLAHFNRENIPERRVHAKGSGAYGTFTVTRDITQYTSAKLFESVGKQTPTFLRFSTVGGERGSADTERDPRGFALKFYTEEGNWDIVGNNTPVFFIRDPLKFPDFIHTQKRLPQSNLKSAQMMWDFWSHSPEALHQVTILFSDRGIPDGYRHMHGFGSHTYSLINALGERHWVKWHYKTKQGIKNLAPAEAARLAGTDPDYAQRDLFKAIERGDFPKWSVCIQIMTEAQAAAHYENPFDVTKTWSQKEFPLIEVGELELNRNPLNYFAEVEQAAFGPSNMVPGVGLSPDRMLQGRVFAYADAHRYRVGTNHQQLPVNAPRSPVNTYQRDGAMAFGSNGGAAPNYEPNSFVEAPKQAPRYAEPALALSGAADRYDHREDTDYYSHAGALFRLMNDEQKALLISNIAGAMAGVSADVVDRQLQHFFKADAAYGEGIAKALGVQLN	PGPT0014380_4962	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
D1-35_04598	465	bfr_2	COG2193	Bacterioferritin	ATGCAAGGTCACCCAGACGTAATCGATTACCTCAACACGTTGCTGACAGGCGAACTGGCAGCCCGTGATCAATATTTCATCCACTCGCGGATGTACGAGGATTGGGGTTTTACCGAGCTCTACGAACGTATCAACCACGAGATGGAAGAAGAAGCGCAGCACGCCGATGCGTTGATGCGCCGGATCCTGATGCTCGAAGGCACGCCACGCATGCGCCCGGACGACCTTGACATCGGTACCACCGTACCTGACATGCTCGCCGCCGACCTGCGTCTGGAATACAAAGTCCGCGCGGCGCTGTGCAAAGGCATCGAGCTGTGCGAACAGCACAACGACTACGTCACTCGCGAGATCCTGCGGGTGCAGCTCAACGATACTGAAGAAGACCACACTTACTGGCTTGAAAAGCAGTTGGGTCTGATCAAGTTGATCGGGCTGGAGAATTACCTGCAATCGCAGTTCTGA	MQGHPDVIDYLNTLLTGELAARDQYFIHSRMYEDWGFTELYERINHEMEEEAQHADALMRRILMLEGTPRMRPDDLDIGTTVPDMLAADLRLEYKVRAALCKGIELCEQHNDYVTREILRVQLNDTEEDHTYWLEKQLGLIKLIGLENYLQSQF	PGPT0003965_2644	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003965-bfr-K03594	NA	NA
D1-35_04599	2835	uvrA_2	COG0178	UvrABC system protein A	TTGGACAAGATCCTGATTCGTGGGGCCCGTACCCACAACCTGAAGAACATCGACCTGACCCTGCCTCGGGACAAGCTGATCGTCATCACCGGCCTGTCCGGATCCGGCAAATCATCCCTGGCCTTCGACACCTTGTACGCCGAAGGCCAGCGCCGCTATGTCGAATCGCTGTCGGCCTACGCCCGGCAGTTCCTGTCGATGATGGAAAAACCCGACGTCGATACCATCGAAGGCCTGTCGCCAGCGATCTCCATCGAACAGAAGTCGACGTCCCATAACCCGCGGTCGACGGTCGGCACCATTACCGAGATCTACGACTACCTGCGCTTGCTGTATGCGCGAGTCGGTATCCCCCGCTGCCCTGATCACGACACCCCACTGGAAGCCCAGACCGTCAGCCAGATGGTCGACCTGGTGCTCGCCCAGCCGGAAGGCAGCAAGCTGATGCTGCTCGCACCGGTGATTCGCGAGCGCAAGGGTGAACACCTGATGGTCTTCGAAGAATTGCGCGCCCAGGGCTTCGTACGCGCCCGGGTCAACGGCAAGCTGTGCGAGCTCGACGAGCTGCCGAAGCTGGATAAACAGAAGAAGCACTCGATCGATGTGGTGGTAGACCGCTTCAAGGTCCGCGCCGACCTGCAGCAGCGCCTGGCCGAATCCTTCGAGACCGCACTGAAGCTGGCCGACGGCATCGCCCTGGTGGCGCCGATGGACGACGAACCCGGTGAAGAGATTATCTTCTCGGCACGCTTCGCCTGCCCGATCTGCGGCCACGCCATCAGCGAGCTGGAACCCAAGCTGTTTTCCTTCAACAACCCGGCCGGCGCCTGCCCTACCTGCGACGGCCTGGGGGTCAAGCAGTTCTTCGACACCAAGCGGCTGGTCAACGGCGAGCTGACCCTGGCCGAAGGCGCGATTCGTGGCTGGGACAGGCGCAACGTCTATTACTTCCAAATGCTCGGGTCGCTGGCGGCCCATTACAAGTTCAGCCTGGACAAACCATTCAACGAGCTGCCCGCGGACCAGCAGAAATTCATCCTGCATGGCAGCGGCACGCAGAACGTCGATTTCAAATACCTGAACGACCGTGGTGATATCGTCAAGCGCTCCCACCCGTTCGAAGGCATCGTGCCTAACCTGGAACGGCGCTACCGCGAGACCGAATCGGCCAGCGTGCGCGAAGAACTTGCCAAGTTCCTCAGCACCCAGCCCTGCCCGGACTGCCGCGGCACCCGTTTGCGCCGGGAGGCGCGGCACGTGTGGGTGGGTGAGAAAACCCTGCCGGCGGTGACCAGCCTGCCGATCGGCGATGCCACTGACTATTTCGGTGGCTTGAAGCTCACCGGCCGTCGTGGCGAAATCGCCGACAAGATCCTCAAGGAGATCCGCGAGCGCTTGCAGTTCCTGGTGAACGTCGGCCTGGACTACCTGACCCTCGACCGCAGCGCGGATACCCTGTCCGGCGGTGAGGCCCAGCGTATCCGTCTGGCCAGCCAGATCGGTGCCGGGCTCGTGGGTGTCATGTACATCCTCGACGAACCGTCCATTGGCTTGCACCAGCGGGACAACGACCGGTTGCTCGGCACGCTGAAACACCTGCGCGACATCGGCAATACGGTGATCGTGGTCGAGCACGATGAAGACGCGATTCGCCTCGCCGATTACGTCGTGGATATCGGCCCGGGCGCGGGGGTGCACGGCGGACACATCGTCGCCCAGGGCACCGCCGCCGAAGTCATGGCGCACCCCGACTCGCTGACCGGCAAATACCTGTCGGGCCGGGTGAAGATCAAGGTGCCGGCCAAGCGTACCCCACGCAATAAAAAGCTGTCGTTGACCCTCAAGGGCGCACGCGGCAACAACCTGCGCAACGTCGACCTGGAAATCCCGATCGGCCTGCTGACCTGCGTTACCGGTGTTTCCGGCTCCGGCAAGTCGACGCTGATCAACAACACGCTGTTTCCCCTCAGTGCCACCGCGCTGAACGGTGCCACCACCCTGGAAGCCGCCGCGCACGACAGCATCAAGGGCCTGGAGCATCTGGATAAAGTTGTCGACATCGACCAGAGCCCGATCGGCCGGACGCCGCGCTCCAACCCGGCGACCTATACAGGGTTGTTCACGCCGATCCGCGAACTGTTCGCCGGCGTACCGGAATCACGCTCGCGGGGCTACGGCCCGGGCCGCTTCTCGTTCAACGTCAAGGGCGGGCGCTGCGAAGCCTGCCAGGGCGATGGCCTGATCAAGGTGGAGATGCATTTCCTGCCCGACATCTATGTGCCGTGCGACGTGTGCAAGAGCAAGCGCTATAACCGTGAAACGCTGGAGATCAAGTACAAGGGCAAGAACATCCACGAAACCCTCGAAATGACGATCGAGGAGGCCCGAGCGTTCTTCGACGCAGTACCGGCATTGGCGCGCAAGCTCCAGACATTGATGGATGTAGGGCTTTCGTACATCAAGCTCGGGCAGTCGGCGACGACCTTGTCCGGCGGCGAGGCGCAGCGGGTCAAGCTGTCCCGTGAACTGTCCAAGCGCGATACCGGCAAGACCCTGTATATCCTCGACGAGCCGACCACAGGCCTGCACTTCGCCGATATCCAGCAATTGCTCGATGTATTGCATCGCCTTCGCGACCACGGCAACACCGTTGTGGTCATCGAGCACAACCTGGATGTGATCAAGACGGCTGACTGGCTGGTAGACCTCGGGCCGGAAGGCGGCTCCAAGGGCGGCCAGATCATCGCCGTAGGTACGCCGGAGCAAGTGGCGGAAATGAAGCAGTCTCACACCGGCTATTACCTCAAGCCGTTGCTGGAGCGTGATCGGGACTGA	MDKILIRGARTHNLKNIDLTLPRDKLIVITGLSGSGKSSLAFDTLYAEGQRRYVESLSAYARQFLSMMEKPDVDTIEGLSPAISIEQKSTSHNPRSTVGTITEIYDYLRLLYARVGIPRCPDHDTPLEAQTVSQMVDLVLAQPEGSKLMLLAPVIRERKGEHLMVFEELRAQGFVRARVNGKLCELDELPKLDKQKKHSIDVVVDRFKVRADLQQRLAESFETALKLADGIALVAPMDDEPGEEIIFSARFACPICGHAISELEPKLFSFNNPAGACPTCDGLGVKQFFDTKRLVNGELTLAEGAIRGWDRRNVYYFQMLGSLAAHYKFSLDKPFNELPADQQKFILHGSGTQNVDFKYLNDRGDIVKRSHPFEGIVPNLERRYRETESASVREELAKFLSTQPCPDCRGTRLRREARHVWVGEKTLPAVTSLPIGDATDYFGGLKLTGRRGEIADKILKEIRERLQFLVNVGLDYLTLDRSADTLSGGEAQRIRLASQIGAGLVGVMYILDEPSIGLHQRDNDRLLGTLKHLRDIGNTVIVVEHDEDAIRLADYVVDIGPGAGVHGGHIVAQGTAAEVMAHPDSLTGKYLSGRVKIKVPAKRTPRNKKLSLTLKGARGNNLRNVDLEIPIGLLTCVTGVSGSGKSTLINNTLFPLSATALNGATTLEAAAHDSIKGLEHLDKVVDIDQSPIGRTPRSNPATYTGLFTPIRELFAGVPESRSRGYGPGRFSFNVKGGRCEACQGDGLIKVEMHFLPDIYVPCDVCKSKRYNRETLEIKYKGKNIHETLEMTIEEARAFFDAVPALARKLQTLMDVGLSYIKLGQSATTLSGGEAQRVKLSRELSKRDTGKTLYILDEPTTGLHFADIQQLLDVLHRLRDHGNTVVVIEHNLDVIKTADWLVDLGPEGGSKGGQIIAVGTPEQVAEMKQSHTGYYLKPLLERDRD	PGPT0014915_4128	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014915-uvrA-K03701	NA	NA
D1-35_04600	1398	yajR	COG0477	Inner membrane transport protein YajR	ATGCAAGATCCCCACAGCGAACGCATGAGTAGCGGCGAGACCCGCGCGGCAGGCGGTCTGGCCCTGGTGTTCGCCTTCCGCATGCTCGGCATGTTCATGGTGTTGCCGGTACTGGCGACCTATGGCATGGACCTGGCGGGCGCGACCCCGGCCCTCATCGGGCTCGCCATCGGCGCCTACGGCCTGACCCAGGCGATTTTCCAGATTCCCTTCGGGATCATTTCCGACCGGATCGGCCGGCGCCCGGTGATTTACCTGGGGCTCATCGTGTTCGCCCTCGGCAGCGTGCTGGCGGCGAATGCCGATTCGATCTGGGGCGTGATCGCCGGACGGATCCTACAAGGAGCGGGCGCCATTTCCGCTGCCGTCATGGCGTTGCTGTCGGACCTGACCCGCGAGCAACATCGCACGAAAGCCATGGCGATGATCGGCATGACGATTGGTCTGTCGTTCGCCGTCGCCATGGTTGTAGGACCGTTGTTGACCCGTGCCTTTGGGTTGTCGGGGTTGTTCCTGGCGACCGGTGCCATGGCACTGGTGGGCATCCTCATCGTCGCGTTGATCGTGCCGCGCTCCACCGGGCCGTTGCAGCACCGTGAATCCGGGGTGGCCCGCCAGGCGCTGGTGCCGACGCTAAAGCATCCTGACCTGCTGCGCCTGGACCTGGGCATCTTCGTGCTGCATGCCATGTTGATGTCCAGCTTCGTGGCCTTGCCGCTGGCGCTGGTGGAAAAGGCCGGCCTGCCCAAGGAGCAGCACTGGTGGGTCTATCTGACGGCACTGGTCATTTCGTTCTTCGCCATGATTCCGTTCATTATCTATGGCGAGAAGCGACGCAAAATGAAACGAGTTTTGCTCGGCGCCGTCGTGACGCTCATGCTCACTGAGCTATTCTTCTGGCAGTTCGGCGACAGCTTGCGCGCCCTGGTGATTGGCACGGTGGTGTTCTTCACCGCGTTCAACCTGTTGGAGGCGTCACTGCCGTCGCTGATCAGCAAGGTGTCACCGGCGGGCGGCAAGGGCACGGCGATGGGGGTTTATTCAACCAGCCAGTTCCTCGGTTCGGCATTGGGCGGGATCCTCGGCGGCTGGCTGTTCCAGCATGGCGGTTTGTCGGTTGTGTTCCTGGGATGTGCCGCGCTGGCTGCACTTTGGCTGGTTTTTGCTGTTACCATGCGCGAACCTCCGTATGTGACGAGCCTGCGCTTGCCGTTGTCGCCCGAAGCCATCCGCGAAGCAGGCCTGGCCGAGCGCCTCAGGGCCGTCGTTGGAGTAACCGATGCAGTGGTGGTCGCCGACGAGGCGGCCGTTTATATCAAACTGGACACCGAATTATTGGATCGTGCGACGCTTGAGCGCCTGGTGAACAACCCGGCCCCGGCAGCGTGCGAAGCCTAG	MQDPHSERMSSGETRAAGGLALVFAFRMLGMFMVLPVLATYGMDLAGATPALIGLAIGAYGLTQAIFQIPFGIISDRIGRRPVIYLGLIVFALGSVLAANADSIWGVIAGRILQGAGAISAAVMALLSDLTREQHRTKAMAMIGMTIGLSFAVAMVVGPLLTRAFGLSGLFLATGAMALVGILIVALIVPRSTGPLQHRESGVARQALVPTLKHPDLLRLDLGIFVLHAMLMSSFVALPLALVEKAGLPKEQHWWVYLTALVISFFAMIPFIIYGEKRRKMKRVLLGAVVTLMLTELFFWQFGDSLRALVIGTVVFFTAFNLLEASLPSLISKVSPAGGKGTAMGVYSTSQFLGSALGGILGGWLFQHGGLSVVFLGCAALAALWLVFAVTMREPPYVTSLRLPLSPEAIREAGLAERLRAVVGVTDAVVVADEAAVYIKLDTELLDRATLERLVNNPAPAACEA				NA	NA	NA	NA	NA
D1-35_04601	516	ssb	COG0629	Single-stranded DNA-binding protein	ATGGCCCGTGGGGTTAACAAAGTCATATTGGTCGGTACTTGCGGCCAGGATCCAGAAGTTCGCTACCTGCCTAACGGCAACGCCGTGACTAACCTGAGCCTGGCGACCAGCGAACAATGGACCGACAAGCAGACCGGCCAGAAGGTCGAGAAGACCGAATGGCACCGCGTGTCGATGTTCGGCAAAGTGGCGGAGATTGCCGGCGAATACCTGCGCAAGGGTTCGCAGGTCTACATCGAAGGCAAGCTGCAGACCCGCGAGTGGGAAAAAGACGGCATCAAGCGTTACACCACCGAAATCGTGGTCGACATGCAAGGCACCATGCAGTTGCTCGGTGGCCGTCCGCAAGGTGACCAGCAGCAGGGTGGCAACAACTACCAGCAAGCGGCCCCGCGTCAGCAGGCGCCTCGTCCGCAGTCGGCGCCACAGCCACAGCGCGAGCGCCCAGCTCCGCAACAGGCCGCACCGCAACCGGCTCCGGATTTCGACAGCTTTGATGACGATATTCCGTTCTGA	MARGVNKVILVGTCGQDPEVRYLPNGNAVTNLSLATSEQWTDKQTGQKVEKTEWHRVSMFGKVAEIAGEYLRKGSQVYIEGKLQTREWEKDGIKRYTTEIVVDMQGTMQLLGGRPQGDQQQGGNNYQQAAPRQQAPRPQSAPQPQRERPAPQQAAPQPAPDFDSFDDDIPF				NA	NA	NA	NA	NA
D1-35_04602	1068	ccpA	COG1609	Catabolite control protein A	GTGGGAAAGTTACGCATTGCTGAAATTGCGGCACAGACGGGCCTGTCCATCGCGACGGTGTCGCGGGTGCTTGCTGGCAAATCCAACACCCGCCCCGCCACGAGAGAAAAAGTGCTGGCGGCGGCTCGTCAGCAGGGCGTGATGGAAGGCCTCGCCAATGGTCGCTTCCTGCTCAACGGGCTGACCATCTTCGCGCCCTCGCGGGCCTTCAACGTACGCTCGGATATCTTCTACTACAAAGTTATCCAGGGCATCACGCAGGCGGTCGCGCAACATGATGTTCGAGTTCGCTATTGCGAGCTTGAAGAGGTTGATAGCGACGCATTGCTGTTTTTACAGAAGATGAATCAGAAGGACACCGGTGCGGCGATCCTGATTGGTATTGATGATCCGCACATACACCAACTCGCGGCCGACCTCAGCAAGCCGACGGTACTGATCAACTGCATTGATCGCAGCATGCGCTTGCCCTCGATATCGCCCGACCACTTCTTGATCGGTCATTATTCGATAAATTATCTGTTTCAGATGGGGCACCGAAATGTACTGACCCTCCAGTGTCTCAGGCGGTACACGATGGATCTGCGGATACGTGGAATTCGTGATGCATGGAAGGAGCAAAATCTCGAATTCATCGAAACAAAACACCTGATGGTTGCCGAAGGTTTCGGCAGTGCTGAATCTGAAGCGCGGGTAGCGGCCTTCCTGGAAAACTGCGCACCCGACGACCGACCGACTGCCATCCTGGCCGGGGGCGACTTCATGGCAGCCGGCGCGGTTAAAGCGCTGCAGAATGCCGGCTTGAGGGTTCCTCAGGATGTTTCAGTGATGAGCATGGACGGGTTCAACCTGGCGGACATCAACGATATACCGCTCACCACGCTTCACGTGCCCCGCGGTGAACTGGGCGCGGAAGCGATAAGGATCTTGAGACAGCAGCTTTTCGAACCGCGATCGCCTTGTGGCAATCTTCTTCTCGGTGGACACCTGATAACCGGCAGTTCGGTGCGGCGCATCAAGCACAGCGCCAAGCAAACGCCGGTCTATCAGACGATTATCTATGACTGA	MGKLRIAEIAAQTGLSIATVSRVLAGKSNTRPATREKVLAAARQQGVMEGLANGRFLLNGLTIFAPSRAFNVRSDIFYYKVIQGITQAVAQHDVRVRYCELEEVDSDALLFLQKMNQKDTGAAILIGIDDPHIHQLAADLSKPTVLINCIDRSMRLPSISPDHFLIGHYSINYLFQMGHRNVLTLQCLRRYTMDLRIRGIRDAWKEQNLEFIETKHLMVAEGFGSAESEARVAAFLENCAPDDRPTAILAGGDFMAAGAVKALQNAGLRVPQDVSVMSMDGFNLADINDIPLTTLHVPRGELGAEAIRILRQQLFEPRSPCGNLLLGGHLITGSSVRRIKHSAKQTPVYQTIIYD	PGPT0014791_15	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA	NA	NA
D1-35_04603	1317	exuT_1		Hexuronate transporter	ATGACTATCGATATCGAACGCAATGCTCGACTTTCGGCCAAGCTAAAATTCATCCCGCATCTGCGATGGTGGATGCTTTCCCTGTTTTTGCTCGGCGTCACCGTCAACTATATAACCCGCAATTCACTGGGTATCTTGGCGCCGGAACTGAAAACCACGTTCAGCATGTCGACGGAACAGTACTCGTGGGTCGTCGCCTCGTTTCAACTTGCCTACACAGTTTTCCAACCCGTCTGCGGCTGGCTGATCGATGCGATCGGGCTCAAGCTCGGCTTCGTCATATGCGCCGTCGTATGGTCAGTGATGTGCCTTCTTCATGCCGGGGCAGCGAGTTGGGTACATCTGGCGATTCTGCGTTTTTTCATGGGCGCTTCGGAGGCAGCGGCTACACCCGCCAATGCCAAGGCGATAGGGGACTGGTTTCCCAAAAAAGAACGCCCTATCGCTGCGGGATGGGCGGGGGTTGGTTTTTCTCTGGGGGCGATGCTCGCCCCTCCCATCATCTATCTGGCTCATGTAAGCCTGGGCTGGCAGGGCGCATTCCTGATTTCCGGCGGGATCGGCCTGATATGGGCCGCCGTCTGGGGATGGCTCTACCACGCTCCCACTATTCATCCGCGCTTATCGCCCGATGAGTTGAAGCATATCCAACAAGACGGCGAAAAAATCGGCCAGCAAATGCCTTTTTTCAAAGCGTTGAAAAAGATTGGTCGGGACAAGCGATTTTACGGTATCGCGCTTCCCGCCTTCATGGCAGAGCCGGCATGGGCAGTCATGAGTTTCTGGGTGCCGCTGTATCTGGCCAACGAAAGAGGAATGGACCTCAAGCAAATCGTACTGTTTGCCTGGGTTCCGTTTCTGGCGGCGGATCTGGGCAGTGTCGCCAGCGGTTACCTGTCACGCGCTTACCATCGTTTTTTCAAATGCACCCGTGTGAATTCGATTGTCGCCAGTTCAATCACCGGCGCGTTCCTGATGTTTTCGTTAGCCGTGATGACCCAGGTGGAAGACCCCTATGTAGCGATTGCGCTTATTTCAGTCGGCGGTTTTGGCCACCAGATTATCTCCTGCATGTTAAGTGCACTGGTCGTCGAAACGTTTGATCGGGATGAGCTGGCGACTGTGAACGGAATGCGAGGCTCATGTGCCTGGATTGCCAGCTTCATTTTTTCGCTGATCATCGGTGTCAGCGTGGACAAGATAGGATTCAACCCATTGTTCATTGCGATGGGGCTCTTTGATTTTATAGGTGCGTTTTTCATGATTTTGTTTATCGCCGACAGAGCGTCCAAACCTGAAGCGGTGCGTGCCCAATGA	MTIDIERNARLSAKLKFIPHLRWWMLSLFLLGVTVNYITRNSLGILAPELKTTFSMSTEQYSWVVASFQLAYTVFQPVCGWLIDAIGLKLGFVICAVVWSVMCLLHAGAASWVHLAILRFFMGASEAAATPANAKAIGDWFPKKERPIAAGWAGVGFSLGAMLAPPIIYLAHVSLGWQGAFLISGGIGLIWAAVWGWLYHAPTIHPRLSPDELKHIQQDGEKIGQQMPFFKALKKIGRDKRFYGIALPAFMAEPAWAVMSFWVPLYLANERGMDLKQIVLFAWVPFLAADLGSVASGYLSRAYHRFFKCTRVNSIVASSITGAFLMFSLAVMTQVEDPYVAIALISVGGFGHQIISCMLSALVVETFDRDELATVNGMRGSCAWIASFIFSLIIGVSVDKIGFNPLFIAMGLFDFIGAFFMILFIADRASKPEAVRAQ	PGPT0017205_445	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_HEXURONATE_TRANSPORT,PGPT0017205-exuT-K08191	NA	NA
D1-35_04604	2388			hypothetical protein	ATGAAGTCACTTAAAGTCTGGGAATTACAGGCCCAGGAAAAAGGCTACATCGAGCTTCTGGTCGAGGGCCGACATCTCTTCAGAATTCATATCCTCGAAGACGGTTTGGCGCGTGTACTGCTCATGCGTGCAGGCGCGTTGGCACTGGATCGGACCTGGAGCATCGCGCCCCGGGAGGATGTCGCCTGGGAGGGCCGGGCCCGCGAGTCGTTGGCGGATTTTTCTTTGCCCGCGTACCGGGTCGAAGAATTTCAGGACCGGTTGGTACTCACGACCAGAAAACTCCGCATCACGGTAAATCGTCCGCTGTGGTTGCAATGGGAATACCACGATGGCCAGGACTGGAGGCCGTTGGTTTCGGATCGGCCCACCGGTGCCTATTCGCTTGATGCTCATGGTGAAGGCCTGGAGCATTACCAGCTTCGCGCGCCGGAACATCGCTATTACGGGCTCGGCGAAAAGACCGGCGATTTGAATCGCGCCGGCAAACGCTTTGAAATGCGTAACCTGGATGCAATGGGATATGACGCTGCGAGCACTGACCCGCTGTACAAACATATCCCCTTTGTCATCACGCACCAGGAGCACGCCAGCTTCGGGATGTTCTATGACAACCTGAACACCAGCCTCTTTGATCTGGGGAACGAGCTGGATAATTATCACCGGCCCTACCGTCGGTACAAAGCGGATGCCGGTGACCTCGATTACTGGGTACTTGCAGGCCCGCGCATACTGGATGTGACGAAGGCTTTTGTTCGTCTGACCGGACGCACTCTGTTTCTGCCTAAATGGAGCCTGGGCTACAGCGGCTCGACGATGCACTACACCGATGCCGAAAATGCCCAGGAACAATTGCTGGATTTTCTTGATCTGTGCCGTCGGCACGATATCCCTTGTGACTCTTTTCAACTGTCATCCGGGTACACGTCCATTGGCGAAAAACGTTATGTTTTCAACTGGAACCGTGAAAAGGTCCCAGACCCCAAGGCGCTTGCCCAGGCCTACCGTGATGCCGGCGTCAGGCTGGTTGCCAACATCAAGCCTTGTCTCTTGCAGGACCATCCGCGCTACGCCGAGGTAGCCAGGCGAAAGATGTTCATCGGCGACTCTGAACACGACATGCCAGAGCGCTCTGTCTTCTGGGACGATGAGGGCTCTCATCTGGACTTCACCAACCCGGACGCTGTCAGCTGGTGGCAGTCGAATGTCACAACACAGCTGTTGGAGCTGGGTATTGAATGCACGTGGAACGATAACAATGAGTTCGAGGTGTGGGACGGTGAGGCACGCTGCCACGGCTTCGGGCGCGAAATAGCAATCAAACATATCCGGCCTGTCATGGCATTGCTGATGATGAGAGCGTCTTTAGAGGCACAACAGCGGTTTTCGCCATCGGAACGGCCCTATCTCATCTCACGCTCAGGTTGCGCCGGCATGCAGCGCTACGTTCAGACTTGGAGCGGTGATAACCGAACCAACTGGAAAACCCTCCGCTACAACACCCGCATGGGCCTGGGCATGAGCCTGTCGGGGTTGTACAACGTCGGGCACGATGTAGGTGGGTTCTCGGGTAACAAGCCGGATCCGGAGTTGTTTGTCCGTTGGGTCCAGAATGGTGTGATGCATCCGCGCTTCACCATTCACTCCTGGAACGACGATGGCACCGTCAATGAGCCATGGATGCACCCAACGGTCACCGATGCGGTCCGTGACGCCATCGGGCTCCGATACAGATTGATGCCTTACTTCTATACCTTGCTGTGGCAAGCCAGTAACGAAGATGAGCCCATCTTGCGACCTACGTTTCTTGACCACGAGCATGACCTTGAAACGTTCGAGGAAAACGACGAGTTCCTTCTTGGCCGAGATGTCCTCGTCGCCAGCGTGGTAGAGGAAGGCGCCCGCGAGCGCGAGGTGTGGTTACCCCTGAATGCGACGGGATGGTGCGACTGGCATACCGGTGACTGGTACGAAGGTGGCCAATCCGTTGTTCTGGATGCGCCTTTGGAACGTTTGCCCTTGTTGGTGCGAGGGGGCGCTGCGATACCGATCGGTGAATGCCACAAGCTTAACGATCCCTCTCTTGATCGGCGTCGCGAGCTGGTGATTTTTCCTGCGCCTTCAGGTGCCTCCAGCGGCGTGCTGTTTGAAGATGACGGCATCAGTCATGACTGGAAAAACGGCAACTGCGTTGTCATCAAATGGACCCTTGAATATGGCCTGGACTTCATTGATTTGACGATCGCTAAAACAGGGGACTTTTGTCCGGCGTGGGAGCAGCTTGAGGTGTCCTTGAAGATTACGGATGCGCGAGCCTTGAGAATCAATGGCCGTAGTGGGTGCGCTTTGAAGTTGGCGGATATTCCGGAGCATGGACAACTTCATTGA	MKSLKVWELQAQEKGYIELLVEGRHLFRIHILEDGLARVLLMRAGALALDRTWSIAPREDVAWEGRARESLADFSLPAYRVEEFQDRLVLTTRKLRITVNRPLWLQWEYHDGQDWRPLVSDRPTGAYSLDAHGEGLEHYQLRAPEHRYYGLGEKTGDLNRAGKRFEMRNLDAMGYDAASTDPLYKHIPFVITHQEHASFGMFYDNLNTSLFDLGNELDNYHRPYRRYKADAGDLDYWVLAGPRILDVTKAFVRLTGRTLFLPKWSLGYSGSTMHYTDAENAQEQLLDFLDLCRRHDIPCDSFQLSSGYTSIGEKRYVFNWNREKVPDPKALAQAYRDAGVRLVANIKPCLLQDHPRYAEVARRKMFIGDSEHDMPERSVFWDDEGSHLDFTNPDAVSWWQSNVTTQLLELGIECTWNDNNEFEVWDGEARCHGFGREIAIKHIRPVMALLMMRASLEAQQRFSPSERPYLISRSGCAGMQRYVQTWSGDNRTNWKTLRYNTRMGLGMSLSGLYNVGHDVGGFSGNKPDPELFVRWVQNGVMHPRFTIHSWNDDGTVNEPWMHPTVTDAVRDAIGLRYRLMPYFYTLLWQASNEDEPILRPTFLDHEHDLETFEENDEFLLGRDVLVASVVEEGAREREVWLPLNATGWCDWHTGDWYEGGQSVVLDAPLERLPLLVRGGAAIPIGECHKLNDPSLDRRRELVIFPAPSGASSGVLFEDDGISHDWKNGNCVVIKWTLEYGLDFIDLTIAKTGDFCPAWEQLEVSLKITDARALRINGRSGCALKLADIPEHGQLH	PGPT0018560_1023	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
D1-35_04605	495			hypothetical protein	ATGATCTACGTCGCGGCAATCTTGCTGGCCCTGCCTGCCTACTGGCTGGCAGTGTTCACCCTGATGCTGTTCAAGGTCGAAGGCCTGTCGTCGATTCACAAGCAGATCATTATGGAACCGCTGATTATCGCGCTCATGTTCATCAGTGCGTTCGCGGCCGTCTGTACGATCAACTGGCTCGTCTCCGGGCCCAAGGTGCTTGGCTTCTGTTTTGACGAACGCCAGCAACGCCTCACCTTCACCCAGCGCCGTCCTGCCCGGGAAACCACCGAGAAATGCGTGCCCTATAGCGACATCCATTACATCAAGCCCTACACCTTGAGCACTTTCGCCAATGTGAACCACTTTGATGTCGGCTACACCGGAGCCGATGGCAAGCCGATTTCGCTTCGGTTTTGGGTGGACATCACGGTGGCGGAAATGGAGTTCCATGCCACATGGTTGACGCAGTCGATTGGGGAGAGGATGCAGGAGTTATTGAATCTGGACTTGTGA	MIYVAAILLALPAYWLAVFTLMLFKVEGLSSIHKQIIMEPLIIALMFISAFAAVCTINWLVSGPKVLGFCFDERQQRLTFTQRRPARETTEKCVPYSDIHYIKPYTLSTFANVNHFDVGYTGADGKPISLRFWVDITVAEMEFHATWLTQSIGERMQELLNLDL				NA	NA	NA	NA	NA
D1-35_04606	558	pncA_2	COG1335	Nicotinamidase	ATGTCCAAGCAAGCGCTCATCGTCGTAGATATCCAGAACGACTACTTCCCCCAGGGAAAATGGCCTTTGGTCGGTGCAGAGACCGCCGCCGATAACGCCGCCAGGTTGATCGAGGCGTTTCGCCAGGCCGGAAACCAGGTCGTGCACATCCGTCACGAATTCACCTCCGACGAAGCGCCATTTTTTACGCCCGGCTCTGAAGGTGCGCAGTTGCATCCCAAGGTACTCAACCGCGCCGATGAACCGGTCGTGCTCAAGCACTTCGTCAATTCGTTTCGCGAAACCGAGCTGCAAGCTGTCCTTGAACGCCACGGCATCGAGCGGTTGGTGGTGGTCGGTAGCATGAGCCACATGTGCATCGACGGCATTACCCGCGCTGCCGCTGACATGGGCTATGAGGTCACGGTGGTGCATGATGCCTGTGCCAGCCGCGACCTGGAATTCAACGGCCTCGTCGTCCCTGCGGCCCATGTCCACGCTGCGTTCATGTCGGCGCTGGGGTTTGCCTATGCGAATGTGGTGAGTACCGAGCAATTCCTGAGCGGCAGCCAGGCGTAG	MSKQALIVVDIQNDYFPQGKWPLVGAETAADNAARLIEAFRQAGNQVVHIRHEFTSDEAPFFTPGSEGAQLHPKVLNRADEPVVLKHFVNSFRETELQAVLERHGIERLVVVGSMSHMCIDGITRAAADMGYEVTVVHDACASRDLEFNGLVVPAAHVHAAFMSALGFAYANVVSTEQFLSGSQA				NA	NA	NA	NA	NA
D1-35_04607	2463	fhuA_3	COG1629	Ferrichrome outer membrane transporter/phage receptor	GTGCCCGTCCAAGCCCCTCTCCATTTCTTGCGCAACGGTTTGTTCCTCGGTGCCCTGGCTGCAACGCCAATGTTCTGCGCAACAGCCCAGGCTGAGCCCGCCAACATCGATGATGTTCGCCAGTACGATATCGCCGCGGGCCAGCTCGACCAGGCGTTGAACCAATTCGCCAGGACAGCCGGTGTGTTGCTGTCGGTGGACGCGCAACTGACCACCGGCAAGAGCACGCCGGGGCTGCACGGGCAATTCAACATTCCCGGGGCGCTGCAGCGTCTATTGGCGGGCTCGGGCTTGCAGGCCGTCAACAGCGGCAACGCCTGGTCTCTGCAACTAGCACCCGACAGCGCAACCTTGCAACTGGACGCCACACTGATCGGTGCCCGCAACGTTGGCGAAAACCCCTGGGGCCCCGTCGATGGCATCGTCGCCACGCGCAGCGCCACGGGCAGCAAGAGCGACAGCGCCCTGGTGGAGGTGCCGCAAACCATCAACGTGGTCACGGCTGACGAGATCAAGGCCCGAGGCGCCCAGACCGTCACCCAAGCTTTGCGCTACACACCTGGCATCACTGGCGGCGGCTTCTCCGATCGGGTGAAAATTTTCGACGAGCCGACATCTCGCGGCATATCCCCAGTCCCTTTGTATCTGGACGGCCTGCACTTGCCATACGGCGGGGGCAGCACAGGCGGCGCGCTGCAGATCGAACCGTACTCGCTGGAGCGCATTGAAGTGCTCAAAGGACCGGCCTCGGTGCTGTACGGTCAGAACCAGCCTGGCGGCATCGTCAACATGGTCAGCAAGCGGCCAACCCTCGAACCCGTCCACGAAGTGGTGTTGAAGGCGGGCAGCTACGACCAGATGGGTGTCGGCGTGGATATCGGCGGGCCCCTGGATGAACAAGGCACGCTGCTGTATCGCTTGACCGGGCTGGTCAACGACAGCAATTCGAGCATTGACTATGCCCAGCAGAAACGCCAGTTCCTCGCGCCGAGCCTGACCTGGCTACCTAACGAAGACACCAGCCTGACCCTGTTCGCTCAGTACCAACGCGATGACGCGGTTCCGGAAGCACAGGGATTGCCCGCCCTGGGGACGGTATTCAACAACCCCAACGGCAGGATTTCGCGGGACCTTTTCCTGGGCGAGCCCGGCGTGAATGACTACAAGCGCAACCAATATGCCCTGGGCTATGAGCTGAGCCATCGCCTGAACGATGTCTGGACCTTGAAGCAGAACGCTCGTTATGCCGTGGTGGACGACCATTACACCGCCCCGCTGCATGGCTATCGCTTCGTCAACAACCCCGTCACCGGCGCCGACGACAAACGCTACATGACCCGCTACGGCGTCGACTGGTCGCAGACCAACAAGGTCTTCGGTGTGGACAATATCGCCCAGGCCGAATTTGACAGCGGCCCCCTGAAACACACCCTGATCACCGGCCTGGACTACTACCGGTTCAACTCAAAATTCAAAGGGCTGTACGACTACAACCCGCCGATCATCGACATCTTCAACCCGGTCCATGGCCAACCTCTCAATTTCGGCAATCTGTACCGATGGGACAACACCATCACCCAGACCGGCCTGTACATGCAGGACCAGATCAAGCTCGACCAATGGGTGCTGGTGCTGGGTGGCCGCTATGACTGGACCGAAGTGGACAACAAGGAACCGGTCAGCGGCGCCCACAGCAACGTCCGCGACAGTGCCTTCACCGGGCGCGCCGGCCTGGTATACCTGTTCGACAACGGCCTGGCTCCGTTCATCAGCTATGCCGAGTCATTCCAGCCGGTGAGCGGCCGTGATGTGTCCGGCAAACCGTTCGAGGCCACCACCGGCAAGCAGTATGAGATAGGCCTCAAGTTCCAGCCGCCAGGACAGCAGAGTTTTGTGCAGTTATCCGTTTATCAACTGGACCAGGAGAACATGCTGACCACCGACCTGGACAATCCGGGCTTCAACGGCCAGACCGGTGCCGTGCGCTCGACGGGTATCGAACTGGAAGGCAAGGCCAGCCTGAACAAGTCACTGGACGTCATCGCTTCGGTCTCGCGCAACGATATTGAATACACCAAGGATAATGATGGCCGCCAAGGCAACCATTTGGCCGGCATCTCGCCGCTGACCGCCTCCGCCTGGGTCAACTACACGTTCCTGGGCAGCACTCCGCTGGCCGGATTTGGCGCCGGGCTCGGTGTTCGTTATGTGCGCAGCAGTCCCGGAACCGAATACCCGGGCACAGCCACCGCGCCCTCCTTCGACGTGCCGTCCTTTACTGTTTATGACGCTCGCCTGTCCTACGACCTCGGCCAATCGCCACTCGGCCTCAAGGGTGTGAAAGTCGACATGAACGTGGAAAACCTCGACGACAAGAAGTACGTGGCACGCTGTACCAGCAACTGGGACTGCTACTACGGCGATGGTCGAACCATGACGACAAGCCTGACGTATAACTGGTGA	MPVQAPLHFLRNGLFLGALAATPMFCATAQAEPANIDDVRQYDIAAGQLDQALNQFARTAGVLLSVDAQLTTGKSTPGLHGQFNIPGALQRLLAGSGLQAVNSGNAWSLQLAPDSATLQLDATLIGARNVGENPWGPVDGIVATRSATGSKSDSALVEVPQTINVVTADEIKARGAQTVTQALRYTPGITGGGFSDRVKIFDEPTSRGISPVPLYLDGLHLPYGGGSTGGALQIEPYSLERIEVLKGPASVLYGQNQPGGIVNMVSKRPTLEPVHEVVLKAGSYDQMGVGVDIGGPLDEQGTLLYRLTGLVNDSNSSIDYAQQKRQFLAPSLTWLPNEDTSLTLFAQYQRDDAVPEAQGLPALGTVFNNPNGRISRDLFLGEPGVNDYKRNQYALGYELSHRLNDVWTLKQNARYAVVDDHYTAPLHGYRFVNNPVTGADDKRYMTRYGVDWSQTNKVFGVDNIAQAEFDSGPLKHTLITGLDYYRFNSKFKGLYDYNPPIIDIFNPVHGQPLNFGNLYRWDNTITQTGLYMQDQIKLDQWVLVLGGRYDWTEVDNKEPVSGAHSNVRDSAFTGRAGLVYLFDNGLAPFISYAESFQPVSGRDVSGKPFEATTGKQYEIGLKFQPPGQQSFVQLSVYQLDQENMLTTDLDNPGFNGQTGAVRSTGIELEGKASLNKSLDVIASVSRNDIEYTKDNDGRQGNHLAGISPLTASAWVNYTFLGSTPLAGFGAGLGVRYVRSSPGTEYPGTATAPSFDVPSFTVYDARLSYDLGQSPLGLKGVKVDMNVENLDDKKYVARCTSNWDCYYGDGRTMTTSLTYNW	PGPT0003790_8268	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
D1-35_04608	966	fecR_7	COG3712	Protein FecR	ATGAATCGCCGCGCCGAGCGTCCGGTTTCCCCGGCCGTCGTCGAACAGGCGAGCGAGTGGCTGATGCTGCATTGGGGCGGCGAGATGACTGACGCTCAACAGCGGGCGTTTGTCCTGTGGCAGCGCGCCGATGCCGAACATGCCAGGGCCTGGCAGCGCTTGCAGGATCTGCAGCAGACCTTGGGGCGCGTCCCGCGCGACTGCGCTCAGGCCGTGCTCAAGGATGCGCCGCAGCGCTCGCGGCGAGACATGCTCAAGTTGCTTTCGCTGATGCTGGTCACTGGCGCAACCGGTTATTCGCTGCACAGCCAGAAACCCTGGCGCGGCGCATTGGCCGATCAACACACGGCGGTCGGCGAAATCCGTCGGCTGACGCTGGAGGACGGCACGCGCCTGGACCTGGATACCGACAGTGCCGTGGACGTGCGTTTTTCTGCCAGTCATCGACGCATTCGTTTGATCAAGGGGGCCATCCTGCTGGAGACCGGGCACAACCCCGAGTACCTCCAGCGGCCGTTGATCGTGCAGACCGGGGCAGGCGAGATACAGGCGCTGGGCACGCGCTTCTGCGTGGCCGAGGCCCAGCAAGGCATCCGGGTCGACCTTTACACGGGATTGCTGGAAGTACGGCCTATCGCCGCAGCGGCCCAAAGGCTGGTGGAAGGCCAGAGCCTCTGGTTCGACCAGGACCGACTCGGTGTCGTCACCGCCACTGACCCAAACGCCGGCGCCTGGAGCGAGGGCCACCTGATCGCCGAGCGCCAGCCGCTGGGTCAGTTTCTGTCGCAACTGAGCCGCTACCGGCCCGGCATCCTGCGCTGCGATCCGGCCGCCGCACCGTTGCTCATCACCGGTGTATTTCCTCTGGCCGACACCGACGCCATCCTGGCGGCGCTGGCCCGCTCGCTGCCCGTGCGTGTCCACCAGGCAACGCGTTATTGGGTCACGGTAAAGCGTCTCACGTGA	MNRRAERPVSPAVVEQASEWLMLHWGGEMTDAQQRAFVLWQRADAEHARAWQRLQDLQQTLGRVPRDCAQAVLKDAPQRSRRDMLKLLSLMLVTGATGYSLHSQKPWRGALADQHTAVGEIRRLTLEDGTRLDLDTDSAVDVRFSASHRRIRLIKGAILLETGHNPEYLQRPLIVQTGAGEIQALGTRFCVAEAQQGIRVDLYTGLLEVRPIAAAAQRLVEGQSLWFDQDRLGVVTATDPNAGAWSEGHLIAERQPLGQFLSQLSRYRPGILRCDPAAAPLLITGVFPLADTDAILAALARSLPVRVHQATRYWVTVKRLT	PGPT0003910_5313	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003910-prhR|fecR-K07165	NA	NA
D1-35_04609	510	fecI_9	COG1595	putative RNA polymerase sigma factor FecI	ATGTCAGCAACTTCCAATGGCAACGCTCAACTGCACGAACTCTACCGCGATCATCACGGCTGGCTGCACGCCTGGTTGCGTCGAAAGCTGGGCAACCATGACCACGCGGCGGACATCGCGCAAGACACATTCCTGCGCCTGCTGGTTTCCGGACGTATTCCCGGGGTAGTGGAGGGTCGCAGTTACCTGACCCAGATCGCCCGCAACCTGGTGATCGATCAGTGGCGTCGACAGCGAATCGAACGGGCCTACCTGGAAAGTATCGCTCATTTGCCCGAACCCCAGACGCCTTGCCTGGAGACACGAGCAATCATTCTCGAAACGCTTCAGAAAATCGACGCGATGCTCGACCGCATGCCAGGCAATGTGCGGACGGCCTTCCTGCTGTCGCAATTCGAAGGCCTGGGCTATGCGCAAATTGCCGAACGCCTGCAAGTCACCGTCAGCTCCGTACAAAAATACATGACCCGCGCCATCCTGGCCTGCTACCAGACGGTCTACGAAGAATGA	MSATSNGNAQLHELYRDHHGWLHAWLRRKLGNHDHAADIAQDTFLRLLVSGRIPGVVEGRSYLTQIARNLVIDQWRRQRIERAYLESIAHLPEPQTPCLETRAIILETLQKIDAMLDRMPGNVRTAFLLSQFEGLGYAQIAERLQVTVSSVQKYMTRAILACYQTVYEE	PGPT0003900_290	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003900-prhI|fecI-K23514	NA	NA
D1-35_04610	993	rhaS_13		HTH-type transcriptional activator RhaS	ATGGCGCAGGAAAGGGCATTCGTCGAACTCGGCGTGCTGATCTACCCCGGCGCGCAAATGGCCGCGGTGCATGGTTTGACCGATCTGTTTGCCGTGGCGGATGGCATTGCGGCGGAGCATGCCAGTGTGCAGCTGCCGCGGCTACGCGTGAGCCACTGGCAAACGGCGGGCGGAGAAATGCCGTCGCGGGTGTTTGCCAGTGATACCGGTCCGCACGCGCCACTGGTCGCCTTGTTGATCCCACCGTCCATTGCCGGCTTCAATGAAGCTGTCGCAACACCGACGCTGATGGATTGGCTCCGGGCGCAACACGCTAGCGGCACGGTACTGGGCGGGGTTTGCGTCGGCTCCATCCTGCTGGCCGAAAGCGGTTTGCTGGATGGGCGTAGTGCCACGACCCACTGGACCTCGGCCAAGAGCTTTGCGGCACGTTATCCGAAGATCAAGCTCAACGCCGATAAACCCATTGTCGACGACGGCGACCTGATCACCACCGCCGGGCTCATGGCCTGGTCGGAGCTCGGGCTGCGGCTGGTGGACCGCTTGCTCGGCCCCGGCATTGCCACACGCACCGCGCAGTTTCTGGTGATCGAGCACAGCGACAGCGCGAGCCAGTGCGGCAGTAATTTCGCGCCGATCCTCGGGCATGGCGATGGAGCGATTCTGAAAGTGCAGCACTGGTTGCAACGCAGCGGCGCGGTGGATGTTTCCCTTGGCACGATGGCCGAACAGGCCGGGCTGGAAGAGCGCACGTTCTTGCGCCGGTTTCGCGCGGCTACCGGCCTCAAGCCCACCGAATACTGTCAACACCTGCGGGTCGGCAAGGCCCGGGAAATGCTGGAGTACACCAACGGTACCATCGACCACATTGCCTGGACCGTCGGTTATCAGGATCCGGGCGCCTTTCGAGCGACGTTCAAGAAAATCACCGGGCTGGCGCCGAGTGATTACCGGGCAAGGTTCGGGGTGAACCCGAGTGCTGCCAAAAGCTGA	MAQERAFVELGVLIYPGAQMAAVHGLTDLFAVADGIAAEHASVQLPRLRVSHWQTAGGEMPSRVFASDTGPHAPLVALLIPPSIAGFNEAVATPTLMDWLRAQHASGTVLGGVCVGSILLAESGLLDGRSATTHWTSAKSFAARYPKIKLNADKPIVDDGDLITTAGLMAWSELGLRLVDRLLGPGIATRTAQFLVIEHSDSASQCGSNFAPILGHGDGAILKVQHWLQRSGAVDVSLGTMAEQAGLEERTFLRRFRAATGLKPTEYCQHLRVGKAREMLEYTNGTIDHIAWTVGYQDPGAFRATFKKITGLAPSDYRARFGVNPSAAKS				NA	NA	NA	NA	NA
D1-35_04611	1110			hypothetical protein	ATGACCCAGATCCATCGTGACAAATGTGTAGTGGCCCACTCGGTCAATCCCCAGGCACCCCTGCATGAAGTCGAGACCAATCGGGCGCTGGCGCGCTGGCTGGCGAATATCCTTGGCCTGGAGTTCGGCGGCAGTTACGACAGCCAGCAACACGCCGGGCGGGATCTGTACCTGTTGCCTACGCAAACCCTGATCGGTCCCGAGGCTGCGTTGCGCCTGGGCGTCAAGGGACCGGACGATCTTTGGGGCGGTTACGTCGACCACGATTTCATCTGCACCAAGGCGATTGCCCATGGTCTGTTGAATAAGGATGCGGTCGCGCCGAAGGGCTGGTCACCGCTGTTCGCCAAGCTGACCCGGGGCGTTGTGCTCGATGGCATCAGCGTGTTTTCGCTCAAGGATGCGCGCCAGGCCGCCGAGCACTTGCTCTACGCCGGGCCGATTCGCTTCAAGCCAATCCATGCTTGCGCCGGACGTGGCCAGCGAGTCATCCGGAGCATCGGGCAATTCGATGAGATCGTCGCGGCTCCAGACGCCCAGGCGTTGTTCAGCGAGGGAATCGTGCTGGAACAGAATCTCAGTGAGGTCAAGACCCAGAGCGTCGGCCAAAGCTTTATCAACGGCAAGGTCTTGAGCTACTGCGGCGTGCAGCACCTGACCCACGACAACGAAGGGGAAGAGGTCTACGGCGGCTCCGACCTGCTGGTGGCGCAAGGGGGCTACATCGAGCTTCTCGGCCTGGAATTGCCGGACGATGTGCGCGAAGCGGTCCGGCTGGCGCAGGTATTCGATGACGCCGCCAACCAGGCTTTCCCCACGTTCTTTGCTTCGCGGCGCAACTACGACATTGCCCAAGGGACGGATACCGGGGGCCAGCCTCGCGGTGGCGTGCTGGAGCAGTCCTGGCGAATGGGCGGCGCCAGCAGCGCTGAACTGGCTGCCTTGCAGGTGTTCGTCGAGGACCCATCGATCCGCGCGGTTCGGGTGTCCTCAGTCGAAACCTACACCGACCAACCGCTGCCGCCCGGCGCCACGGAGGTTTATCGCGGCGCTGCGGAAAATGGTGATTTCCTACTCAAATACGTAACGGTTCAATCCTATGACGGCTAG	MTQIHRDKCVVAHSVNPQAPLHEVETNRALARWLANILGLEFGGSYDSQQHAGRDLYLLPTQTLIGPEAALRLGVKGPDDLWGGYVDHDFICTKAIAHGLLNKDAVAPKGWSPLFAKLTRGVVLDGISVFSLKDARQAAEHLLYAGPIRFKPIHACAGRGQRVIRSIGQFDEIVAAPDAQALFSEGIVLEQNLSEVKTQSVGQSFINGKVLSYCGVQHLTHDNEGEEVYGGSDLLVAQGGYIELLGLELPDDVREAVRLAQVFDDAANQAFPTFFASRRNYDIAQGTDTGGQPRGGVLEQSWRMGGASSAELAALQVFVEDPSIRAVRVSSVETYTDQPLPPGATEVYRGAAENGDFLLKYVTVQSYDG				NA	NA	NA	NA	NA
D1-35_04612	759			hypothetical protein	ATGACGGCTAGAAGCGAAACCATCCAGATTGCGATTGATGATGAACACATGAATGGAACCTTCCTCAGCCCCAAGTCGAAGGTCCCCGGTGTGTTGTTCGTACACGGTTGGGGCGGCAGCCAGGAGCGAGATCTCGAGCGGGCCAAAGGCATTGCCGGCCTGGGCTGCGTGTGCCTGACCTTCGACTTGCGCGGCCACACCGGTGGTGCCGGGATTCCACTGTCGCGGGTCACGCGCGAGGACAACCTGCGGGACTTGCTGGCGGCCTATGACCGGTTGCTCGCCCACCCGGCCCTGGACACCTCGGCGATCGCGGTGGTCGGTACCAGCTACGGTGGTTACCTGGCCTCGATCCTTACCTCATTGCGACCGGTGCGCTGGCTGGCCCTGCGGGTGCCGGCGCTGTACCGCGACGAGCAGTGGCACACGCCCAAGCGCGACCTCGACAAGGCTGACTTGCTCGATTACCGCAGCACCCTGGTGCACGCCGATACCAACCGGGCCTTGCACGCCTGCGCGCAATTCACCGGCGATGTGTTGCTGGTGGAGTCGGAGACGGACGATCATGTGCCCCACGCCACGATCATGAGCTACCGGGCCGCCTGCCAGCAGACTCACTCGTTGACTCATCGGATCATCGATGGCGCCGACCATTCCCTGAGTGACCCCGTGTCACAGCAGGCCTACACCTCGATCCTGGTGAGCTGGATCACGGAGATGGTGGTGGGCGAGCGGTTGAGCATCATTCAGGAGCGGTAG	MTARSETIQIAIDDEHMNGTFLSPKSKVPGVLFVHGWGGSQERDLERAKGIAGLGCVCLTFDLRGHTGGAGIPLSRVTREDNLRDLLAAYDRLLAHPALDTSAIAVVGTSYGGYLASILTSLRPVRWLALRVPALYRDEQWHTPKRDLDKADLLDYRSTLVHADTNRALHACAQFTGDVLLVESETDDHVPHATIMSYRAACQQTHSLTHRIIDGADHSLSDPVSQQAYTSILVSWITEMVVGERLSIIQER				NA	NA	NA	NA	NA
D1-35_04613	1002	ybhN	COG0392	Inner membrane protein YbhN	ATGAACCACTCTGAAGCGCAGACCGCGCCGGGAGACGCCCAGGCGCCGGAACAGGCCAAGCCCAAGTCGCGCTGGAGCCGCTGGAAACGCCCGCTGACGCTGGCTTTTTTCCTGCTGCTGATTGTGCTGTTCACCGCGTTGGCGCGCCGCATCGACTGGTCCGAAGTATTCGCCACCCTGGCGGATTTCAAGCTGCGCACGCTGCTGATCGCCGCCGCGCTGACGATCACCAGTTTCATCACCTACGCCTGCTTCGACTTGATCGGTCGCACCTACATCCGGCAGAAACTCGGCTGGCGGCAGATCCTGCCGGTGGGAGTGATCAGTTACGCCTTCAACCTGAATCTCAGTGCCTGGGTCGGCGGCATCGCCATGCGCTATCGGCTGTATTCGCGGCTCGGCGTCAGCACTGGCAACATCGCCAAGATCCTCGGCCTGAGCCTGGCCACCAACTGGTTCGGCTACATGACCCTGGCCGGCGTAGTGTTCAGCAGCGGCCTGGTGACCATGCCGCCGGGTTGGAAACTGAGCAGCAACGCGCTGCAAGGCGTCGGCGTGCTGCTGTTGCTGGCCAGTGGCGGTTACCTGGCGGCCTGCCGTTTCTCCAGGCGCCGGGCCTGGACGATTCGCGGTATGGAAATCAATCTGCCGTCCCTGCGCATGGCCGTCCTGCAATTGGCACTGGGCGCGCTGAACTGGTCGCTGATGGCGGCGGTGATCTTTACCTTGCTGCCGAGCAAACTGGACTATCCCGTGGTGCTGGGGGTGTTATTGATCAGCAGCATCGCCGGGGTGATTACCCATATCCCCGCGGGGCTCGGAGTGCTGGAAGCGGTGTTCGTCGCGCTGCTGCAGCATGAAGTGTCGCGAGGCAGCCTGATCGCGGGACTGATTGCCTACCGGGCGATCTACTTCATCCTGCCATTGCTGATTACCGTGGTGATGTATCTGGTGATCGAGGCGAAGGCCAAGGCGTTGCGGGTCAAGCCTGGGCTCAAGTGA	MNHSEAQTAPGDAQAPEQAKPKSRWSRWKRPLTLAFFLLLIVLFTALARRIDWSEVFATLADFKLRTLLIAAALTITSFITYACFDLIGRTYIRQKLGWRQILPVGVISYAFNLNLSAWVGGIAMRYRLYSRLGVSTGNIAKILGLSLATNWFGYMTLAGVVFSSGLVTMPPGWKLSSNALQGVGVLLLLASGGYLAACRFSRRRAWTIRGMEINLPSLRMAVLQLALGALNWSLMAAVIFTLLPSKLDYPVVLGVLLISSIAGVITHIPAGLGVLEAVFVALLQHEVSRGSLIAGLIAYRAIYFILPLLITVVMYLVIEAKAKALRVKPGLK				NA	NA	NA	NA	NA
D1-35_04614	1299	clsB	COG1502	Cardiolipin synthase B	ATGAGCGCGACGATGAACAAGGCAACGGTGGAAAAGATCGAGGTCCCGCCGACCGAGAGCAACCCGGCGCTGAACGATATCGAATACGGCTGGCACGGCAACAACCGTGTCACGCTGCTGGAAAATGGCGAGGAATATTTCCCACGGGTTTTCGAGGCAATTCGCCGTGCCCAGGAAGAAATTCTCCTGGAGACTTTCATTCTGTTCGAGGACAAGGTCGGCTTTGAACTGCGCGACCTGCTGGTGGATGCGGCCAAGCGTGGAGTGCGTATTACCGTCAATCTCGACGGTTTCGGTTGTGGCGAACTGACCACCGAGTTTCTCGCGTCGTTGAGCGAGGCCGGGGTGCGCCTGCAGATGTTCGACCCGGCTCCGAGGCACCTGGGCATCCGCACCAACTGGTTCCGCCGCCTGCACCGCAAGATCGTCGTGGTGGACGGTGTGATCGCGTTTATCGGCGGGATCAATTTCTCCGCCGACCACCTGGGCGACTTCGGTCCCGAGGCCAAGCAGGATTACTCCGTGGAGATCAAGGGCCCGGCGGTGGTGGATATCCATCATTTTGCGCTGCTCCAGACCGGGCGGCCGGGCCGGGCCAAATACTGGTGGCAACGCCGCCGCAGCCGTCGCACCGAATTGGCGTTCAATGATCATGACGGCCAGGTGCGCCTGGTCTATCGCGACAACCATGAGCACCAGACCGACATCGAGGAGGTCTACCTGCAAGTGCTGCGCAGCGCCCAGCGGCGGGTAGTGATCGCCAATGCCTATTTCTTCCCCGGCTACCGGTTGCTGCGCGAGATCCGCAACGCCGCCCGGCGTGGCGTGGAGGTGCGGCTGATCCTGCAGGGGCAACCGGACATGATGATCGCCAAGCTTGCCGCGCGGATGCTCTACGACTATCTGCTCAAGGCCGGCGTGACGATCTATGAATATTGCGAGCGGCCGCTGCACGGCAAGGTCGCCCTGGTGGATGAGGACTGGAGTACCGTCGGCTCGAGCAACCTCGACCCGTTGAGCCTGTCCCTGAACCTGGAAGCCAACGTGCTGATCCGCGACCGTGCGTTCAACCGCGAGCTGTTCGAGCGCCTCGATCACTTGAGCCGCACCCATTGCACCATCATGCCCGAGAACCACGCACCGCGCGGGCTGCTCTGGCGCATGACCATCGGTTTCATGGTGTTCCACTTCCTGCGTCACTTCCCGGCCTGGGCCGGATGGCTGCCGGCCCATAAACCGCGTCTGAAACCTTTTTCACCGCCGACGGCGGTCCGGAGCGAACCCCATGAACCACTCTGA	MSATMNKATVEKIEVPPTESNPALNDIEYGWHGNNRVTLLENGEEYFPRVFEAIRRAQEEILLETFILFEDKVGFELRDLLVDAAKRGVRITVNLDGFGCGELTTEFLASLSEAGVRLQMFDPAPRHLGIRTNWFRRLHRKIVVVDGVIAFIGGINFSADHLGDFGPEAKQDYSVEIKGPAVVDIHHFALLQTGRPGRAKYWWQRRRSRRTELAFNDHDGQVRLVYRDNHEHQTDIEEVYLQVLRSAQRRVVIANAYFFPGYRLLREIRNAARRGVEVRLILQGQPDMMIAKLAARMLYDYLLKAGVTIYEYCERPLHGKVALVDEDWSTVGSSNLDPLSLSLNLEANVLIRDRAFNRELFERLDHLSRTHCTIMPENHAPRGLLWRMTIGFMVFHFLRHFPAWAGWLPAHKPRLKPFSPPTAVRSEPHEPL	PGPT0007725_3863	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
D1-35_04615	813			hypothetical protein	ATGACTACGCCAGAATCCAGCGAAGCCACCCGTGACCCGACCCAGCAATCGTTGCGGGATTTCGAACGGGTCAGCCGCTTCACCGTCCTGACGGTCAATACACACAAGGGGTTCACCGCCCTGAACCGGCGTTTCATCCTGCCGGAACTGCGCGAAGCCGTGCGCAGCGTTTCCGCCGACGTGGTGTTCCTGCAAGAAGTGCATGGCACCCACGAGCACCACCCCCAGCGCTACAGCAACTGGCCAAGCATCCCGCAATACGAGTTTCTCGCTGACACCCTCTGGCCGCAGTTCGCCTATGGGCGCAACGCGGTGTACCCGGCGGGCGACCATGGCAACGCGTTGCTGTCGAAATTCCAGATCATTCGCCACGAGAACCTCGACGTCTCCATCAGCGGCCACGAGAGCCGCGGCATGCTCCACAGCGTGCTGCGTCTGCCGGGTGGCGAAGGCCAGGACGTGCATGCGATCTGTGTGCACCTGGGGTTGCGCGAAGGTCATCGCGTCGAGCAACTGAAACTGCTTTGCCAGCGCCTAAGTGAGCTGCCGCCTGAAGCGCCAGTGATTGTCGCCGGTGACTTCAACGATTGGCGCGGCAAGGCCAATGACCTGCTCGCCCCCTGCGGCCTGCGGGAAGTCTTCGCCGAACAATGGGGCAAGCCGGCCCGCAGCTTTCCGGCACGCCTGCCGATCCTGCGCCTGGACCGCATCTACGTGCGCAACCTCAAGGCCCATCACGCCAAAGTATTGAATGTACGTCCCTGGTCGCACCTTTCCGACCACGCACCGCTGTCGGTGGAGATCGAATTATGA	MTTPESSEATRDPTQQSLRDFERVSRFTVLTVNTHKGFTALNRRFILPELREAVRSVSADVVFLQEVHGTHEHHPQRYSNWPSIPQYEFLADTLWPQFAYGRNAVYPAGDHGNALLSKFQIIRHENLDVSISGHESRGMLHSVLRLPGGEGQDVHAICVHLGLREGHRVEQLKLLCQRLSELPPEAPVIVAGDFNDWRGKANDLLAPCGLREVFAEQWGKPARSFPARLPILRLDRIYVRNLKAHHAKVLNVRPWSHLSDHAPLSVEIEL				NA	NA	NA	NA	NA
D1-35_04616	927			hypothetical protein	ATGACGGCGATCCACATTGGCATTTCCGGTTGGCGCTACACGCCTTGGCGGGGGGATTTCTACCCCAAGGGGCTGGCTCAGAAGCGGGAACTGCAATTCGCCTCTCGCGCGGTCAACAGCATCGAAATCAATGGATCGTTCTACGCCCTGCAACGTCCCGAACGGTATGCCCAGTGGTACGCCGAGACGCCGGACGACTTCGTCTTCAGCGTCAAGGCGCCAAGGTTCATCACTCACATCAAGCGCCTGCGGGACATCCACAAGCCGCTGGCGAACTTCTTCGCCTCCGGGGTGCTGGAACTCAAGGAAAAACTCGGGGCTATCCTCTGGCAGTTTCCGCCGAGCTTCAAATTCGACCCCGAGCTCTTCGAAGAATTTCTCAAGCAATTGCCCCACGACACCGAAGCCGCCGCCGCGCTGGCACGCGAGCATGAACCACGCCTGGACGGCCATGCCAGCACAACGACCGACAAGAAGCGTGCGCTGCGCCATGCCGTCGAAATCCGTCATGAGAGCTTTATCGATCCACGCTTCGTCGCCCTGCTCAAACGTTACGACGTCGCCCTGGTGGTGGCGGATACCGCTGGAAAATGGCCGTATCGCGAGGACGTCACCAGCGATTTCGTCTATCTGCGCCTGCACGGCGCCGAAGAGCTATACGCCAGCGGCTATACCGACGAGGCGCTGAAGCGCTGGGGCGATCGGATCGAAGCCTGGAGCCACGGCACTCAGCCGAGTGACGCCCACCTGATCGATCCGAAAAAGAAACCCCGGGCGCGCAAGAGCCGGGAAGTGTTCTGCTATTTCGACAACGACATCAAAGTCCGCGCGCCGTATGACGCGCGCCACCTGCTGGAGCGCTTCGACCTGGACAAGCATCTCGCCACCGCTCCCGGCGTGCGCCCGGCCGAAGGGGTATTGCCATGA	MTAIHIGISGWRYTPWRGDFYPKGLAQKRELQFASRAVNSIEINGSFYALQRPERYAQWYAETPDDFVFSVKAPRFITHIKRLRDIHKPLANFFASGVLELKEKLGAILWQFPPSFKFDPELFEEFLKQLPHDTEAAAALAREHEPRLDGHASTTTDKKRALRHAVEIRHESFIDPRFVALLKRYDVALVVADTAGKWPYREDVTSDFVYLRLHGAEELYASGYTDEALKRWGDRIEAWSHGTQPSDAHLIDPKKKPRARKSREVFCYFDNDIKVRAPYDARHLLERFDLDKHLATAPGVRPAEGVLP				NA	NA	NA	NA	NA
D1-35_04617	2088			hypothetical protein	TTGTCTCGATTGAGCACCGTATTGCTGTTGGTCCTGCTGACGCTGACCGGCACCAGCGCCTACGGGACCGCTGCTGTCCCTGGCGCCTCCAATCCCAGTGAGGCCCCGGCCGAGCCCGAACCGCTGGTGCAGGGCGGTTTGCTGGGCGCGATCAGTTCGAGCATCGATGACGTCCAGGACAAGCTCGACCTTAACCAGAGCCTGGTGGACGCCTGGCGCCTGCGGGCGGACCGGGCGGCGGACGAAGTCGATCGCCTGGTGGACCAGACGTCCCGTTCCACATGGCGCGTGGCGGGGGATTTCCTGCTGCTCTCGGGCGTATGGCTGGGGACGTTTGCGCTGATATGGACCGCCGCGCGATTGCTGGTGCGCCGCTTGCGCCGGCGCCGCTGGCTACGCACCCGCCAGCGGGTGCTGGACGTGCTCGGCTATGTGCTGCCCTATACCTTGCCGGCTGTGGCCTGTCTGCCGCTCACCCTTTACGTCAGCCACTTCCTGCAAGTCTCGGTCGGTCGCGCCCTGGCGCTGTGTTTCGCCTACGCCACCAGCAGCGGTATTTTTTCCACGTCGGTGCTGCTCTGCGTGATCGTGATGTTCAACGCCGGGCACAAACGGCGAGCGGTGGCGATGCTTCGTCGTTTCACCCCGCGGCCGTTGTTCCTGATCGGCTTTCTGGCCGCCCTCAGCGATGCACTGACCAGCCCGCAGATCGCCCGGCAACTGGGCGGCAATATCACCAGCAGCGTTGCGGTGTTCACCGGGCTGTCGGCGTCGATGATCTTTGGCTGGCTGGTGATCCATATGCGCCGGCCGGTGGCCCACCTGATCCGCAACCGACCGTTGGCCCAGCGCTTGAAACAGCCGGCGTTGCAGGAGTCCTTGCGGATTTTTTCCGGTCTCTGGTACTGGCCGATCCTGCTGATGGTGCTGGTGTCGGCGGTGAGCCTGATCGGCGTCGGCGAAGACAACCAGAAAGCCCTGCGTTGCGCCCTGTTCACCACCATCCTGTTGATCGCGATGGTGTTCCTCAGCACCATATTCCAACACGTCTTCAAGTCGCCCAAGGCCGAAGCCATCCAGCGTAACAGCGCCTACAAGGGACGACTGTTGAGCTTGCTGCACGCCTTGGTGCGCATCGTCATGGCGGTGGCGTTCATTGAAATCCTCGGGCGGATCTGGGGGATTTCCCTGTTCGAATTCGCTTCGCGCAACGCCGTGGGCCGGGCGATCAGTGACTCCTTGAGCCGCATCGGCCTGATCTTCCTGATGACCTGGCTGACCTGGGTGGTGCTCGACACGGCGATCCAGGAGGCTCTCAAGCCGCCGCTCAACAAGCGCGGCGCCCGCCAACCCAGCACGCGAGTCAAGACCATCCTGCCGCTGCTGCGCAACGCCGCCAAGATCATCCTGGTGGTGATCTGCGCGATCACCACCATGGCCAACCTGGGCATCAACGTCGCGCCGTTGCTGGCCGGTGCCGGGGTGGTGGGGCTGGCGATCGGTTTCGGTTCGCAGCAACTGGTACAGGACGTGATCACCGGGTTGTTCATCATCATTGAAGACACGCTGTCCATCGGTGACTGGGTGGTACTCAGCTCGGGCCACGCAGGCACTGTCGAAGGCCTGACCATCCGCACCCTGCGTCTGCGCGACGGCAAGGGGTTTGTGCATTCGGTGCCGTTTGGGCAGATCAAGGCCGTGACCAACCAGTCCCGGCAATTCGCCTTTGCGTTTTTCTCGGTGCAGTTCACCTACGACACCGATGTGGACCGTGCCATTGAATTGATCCGCGAGGCTGGCGATTCGATTTCCGAAGACCCGTTCCTCAAGTTCAACCTGCAAGGGCCGCTGGATGTGTTCGGCGTGGACAAGATGGACCTCAACGGGCTGGTGCTCACCGCCCAGTTCCGCACTGTGTCAGGCGGGCAATATGCGGTGAGCCGGGCGTTCAACCAGCGGCTCAAGAATCTTGTGGATAACGAGCCGTCGGTGCATTTTGCGCAGACTTATCCACAGCAGGTGGTGATGCCGAAGCGGTTGGCCGAGGAGCCGAAGGCAGGGAATGAACAGCCTGATCAAGCTCAATGA	MSRLSTVLLLVLLTLTGTSAYGTAAVPGASNPSEAPAEPEPLVQGGLLGAISSSIDDVQDKLDLNQSLVDAWRLRADRAADEVDRLVDQTSRSTWRVAGDFLLLSGVWLGTFALIWTAARLLVRRLRRRRWLRTRQRVLDVLGYVLPYTLPAVACLPLTLYVSHFLQVSVGRALALCFAYATSSGIFSTSVLLCVIVMFNAGHKRRAVAMLRRFTPRPLFLIGFLAALSDALTSPQIARQLGGNITSSVAVFTGLSASMIFGWLVIHMRRPVAHLIRNRPLAQRLKQPALQESLRIFSGLWYWPILLMVLVSAVSLIGVGEDNQKALRCALFTTILLIAMVFLSTIFQHVFKSPKAEAIQRNSAYKGRLLSLLHALVRIVMAVAFIEILGRIWGISLFEFASRNAVGRAISDSLSRIGLIFLMTWLTWVVLDTAIQEALKPPLNKRGARQPSTRVKTILPLLRNAAKIILVVICAITTMANLGINVAPLLAGAGVVGLAIGFGSQQLVQDVITGLFIIIEDTLSIGDWVVLSSGHAGTVEGLTIRTLRLRDGKGFVHSVPFGQIKAVTNQSRQFAFAFFSVQFTYDTDVDRAIELIREAGDSISEDPFLKFNLQGPLDVFGVDKMDLNGLVLTAQFRTVSGGQYAVSRAFNQRLKNLVDNEPSVHFAQTYPQQVVMPKRLAEEPKAGNEQPDQAQ	PGPT0013695_932	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013695-ykuT|ybiO-K22044	NA	NA
D1-35_04618	4314	srmB		ATP-dependent RNA helicase SrmB	ATGAATCTGCCCCTTCCAGCCGACCACGCCATGGCAGGCTTTCACCCCGCCGTTCGCGCCTGGTTCAGCCAGACATTCCCGGCGGTCACCGCCGCCCAGGCCCGGGCGTGGCCGTTGATCAGCCAACGACGTTCGGTGCTGGTCGCGGCGCCCACCGGCTCGGGCAAGACCTTGACGGCGTTTCTCGCGGTGCTCGATGACCTGGTGCATCGCGGCCTGGAGCAAGGCGGTCTACCGGACCAGACCCTGGTGGTCTACGTCTCGCCGCTCAAGGCGTTGAGCAACGATATCCGCATCAATCTGCAAAATCCCCTGGCCGGCATCACCGAGCAGTTGCAACGAATGGGCTTGCCGCCGTTGCCCATCACCACGGCGGTGCGCACCGGCGACACACCGCAAAAAGATCGCACGGCGATGCGCAAGACCGCGCCGCACATCCTGGTGACCACGCCCGAATCGCTCTACGTGCTGCTCGGTTCCGATTCCGGCCGGCAGATGCTCGCCAGCACGCGCACGGTGATCATTGATGAAATCCACGCCATCGCCGCGAGCAAACGCGGCAGCCACCTGGCCTTGAGCCTGGAGCGACTGCAAGCGCTGTGCGCCGAACCGCTGGTGCGCATCGGACTGTCCGCCACGCAAAAACCCATCGAAGCGGTGTCGCGCTTTCTCGTCGGCCAGGGACGCACCTGTGAAATCGTCGACATCGGCCACGCCCGCCCACGGGACCTGGACATCGAAGTGCCGCCCGTGCCGCTTTCGGCGGTGATGGCCAACGATGTCTGGGAACTGGTCTACAACCGGCTCGCCGAACTGGCCCGGCAACACCGGACCACGCTGGTGTTCGTCAATACCCGGCGCCTGGCCGAGCGCCTGAGCCGGCATTTGAGCGAGCGCCTGGGCAAGGAGGCGGTGGCGGCCCATCACGGCAGCCTGGCCAAGGAATTTCGCCTCGACGCCGAACAACGCCTCAAGCGCGGCGAACTGCAGGTATTGATCGCCACCGCGTCCCTGGAGCTGGGCATCGACATCGGCGATGTCGACCTGGTCTGCCAGATCGCCTCGCCCCGTTCGATCTCGGCGTTCCTGCAAAGGGTCGGACGCTCCGGCCACCAGGTCGGCGGCACGCCAAAGGGGCGTCTGTTCGCCACCACTCGCGACGACCTGATCGAGTGCGTCGCCCTGCTCGACTGCGTGCGCCGTGGCGAGCTGGACATCCTGCACATCCCCGAGGCGCCGCTGGATGTGCTGGCGCAGCAGATCGTCGCCGAGGTCAGTTGCCAGGAATGGCACGAACAGGCGCTGCTGGAGATGTTCCGCCGTGCCTCGCCCTACGCCGAACTCGACGAAAATCACTACCAGGCGCTGTTGCAGATGCTCGCCGAGGGCGTCAATGGCCGCCAGGGTGTGCGCAGCGCGTACCTGCATCGCGACGCGGTCAGTCGGACCTTGCGCGGGCGCCGAGGCAGCAAGCTCACCGCCGTGACCAGCGGCGGCACGATTCCGGACAATGCCGACTACAGCGTGCTGCTCGAACCCCAGGGCCTGAACATCGGCAGCGTCAACGAAGATTTCGCGGTCGAGAGCATTGCCGGCGACGTGTTCCAGTTGGGCAATACCTCGTACCGGATCATCCGCGTCGAAAGTGGCCGCGTGCGGGTCGAGGACGCCCAGGGTCAACCGCCGACCATCCCGTTCTGGCTCGGCGAAGCCCCAGGGCGCAGCGCCGAGCTGTCCGAGGCCGTGGCCCGCCTCCAAGCCCGCCTGGATGAACTGCTCGGCGCCACACCGGGCAATCTGCAACCGGCCCTCGACTGGCTGACCGGGACCCTGCAACTGAACCTCGCCAGCGCCGAGCAACTGCTCGATTACCTCGCTCCGGCGCGCCTGGCCTTCGGCGCCCTGCCGTCCCAGGACACGCTGCTGATGGAGCGCTTTTTCGACGAATCCGGCGGTACGCAACTGATCATCCACACGCCGTTCGGCAGCCGCATCAACCGCGCCTGGGGCCTGGCCCTGCGCAAGCGTTTCTGCCGTACCTTCAATTTCGAATTGCAGGCCGCCGCCAGCGAAGACGCCATCGTGCTCTCGTTATCCACCAGCCACAGCTTCGAGCTGGACGAGGTCTGGCGTTACCTCAACAGCCACAGCGCCGAACAGATCCTGATCCAGGCGGTGCTGGATGCGCCGTTGTTCGGGGTGCGCTGGCGCTGGAACGCCGGCGTGGCCCTGGCGTTGCCGCGTTACGCCGGTGGGCGCAAGGTCGCGCCGCAGATCCAGCGCATGAAGAGCGAAGACCTGATCGCCAGCGTTTTTCCCGACCAGATCGCGTGCCTGGAAAATCTCGCCGGCGAGCGAGAGATTCCCGACCATCCGCTGGTGGAACAGACTCTCGACGATTGCCTGCACGAAGCCATGGACAGCGAAGGCTGGCTGGCCCTGTTGCGACGCATGGAAGCGGGCGAGATCCGCCTGGTCAGCCGCGACCTGCCGGCGCCCTCGCCCCTGGCGGCGGAAATTCTCAGTGCCCGGCCCTACACCTTTCTCGACGACGCGCCCCTGGAAGAACGCCGCACCCAAGCGGTGATCAATCGCCGCTGGAGCGATCCGCAATCCACCGATGACCTCGGCGCGCTGGACGCCGAAGCCATTCAGGCGGTGCGGGAAGAGGCCTGGCCGACGCCGAGCAATATCGATGAAATCCATGAAGCGCTGATGAGCCTGGCGTGCATCGCCGACAGCGAAGCCGACGCCGAGCCGTCGTGGCTGGAGGGCTTGCGGACCCTGGCCGAGCGCGGTCGCGCCAGCCATGTGCGGATCAGCGAGGAGCGTGGTTTGTGGGTACCGCTGGAACGGCTGACGTGCCTGCAAGCAATTTATCCACAGGCCCGATGGCAGCCGCCGCTGACGCCACTGCCGGGGTTTGATGAGCAGTGGGACAGCGACGACGCCGTGGTCGAGGTGCTGCGGGCGCGACTCAGCGCCTTCGGCCCGCAGCCGCTGACGGCGATCGCCTATCCGCTGGGGTTGTCACCCGCGCAAGCGACCCAGGCCCTGGCCCAACTGGAGCAACAAGGGTATGTGCTGCGCGGTCGGTTTACGCCGGGCACCGGGCAGGAAGAATGGTGCGAGCGGCACCTGCTGGCGCGGATCCACCGCTACACCGTCAAGCGCCTGCGCCGGGAAATCGAGCCGGTGACGCTGCAGGATTTCATGCGATTCCTCTTCGACTGGCAGCACCTGTCGCCATCCGCCCAAGGCCGGGGCAACGCCGTATTGCCATCGATCGTCAGCCAGTTCGAAGGTTATCCGGCGGCCGCCTCGGCCTGGGACAGCGACCTGTTGCCGGCGCGGATCAAGGATTATTCAGCGAGCTGGCTCGACGAACTGTGTCGCAGCGGCAAGTTTGTCTGGACGCGCCTGAGCGCCCGCCAGAAGCTGTCCGCCAGCGCCTTGCGCAGCACGCCGATCGTCTTGCTGCCGCGCCGCCAGGTCGGGCTCTGGAGCAGCCTAGCCGAGCAGACGCCGCTCGACGAGTTGTCGCCGAGGACGCAAAAAGTCCACCAGGCCCTCAGCGAGCACGGCGCATTGTTTTTCGATGAGTTGCTGCACGAAGCCCATCTGCTGCGCAGCGAACTGGAAAGCGCCTTGCAGGAACTGGTGGGCGCCGGGCTGGTGAACGCCGACAGCTTCGCCGGGCTGCGAGCCTTGATCACTCCCGCCAGCAAGCGCCAGGCCCGCAGCAGCCGGCGCGGGCGTGGAGCGTTTGTCGGCGGCATGGACGACGCCGGGCGCTGGGCCTTGTTGCGCCGCAGTTCGCCTGCTGCGCAACCGGGTAACCGCCCGGCGCCGACTGCGCCCGAGACCTTGGAACACATCGCCATGACCCTGCTGCGCCGTTACGGCGTGGTGTTCTGGCGTCTGCTGGAGCGCGAGGCCGATTGGCTACCGAGCTGGCGCGAGTTACTGCGCACTTTCCATCGCCTGGAGGCACGCGGCGAGATTCGCGGCGGGCGGTTTGTCAGCGGGCTGGCCGGCGAGCAATTTGCCTTGCCCGAAGCCATTCCCCTGCTGCGCGAAACGCGGCGCCGTCCCAGCGATGGCAGCCTGATCGCGGTGTGTGGGGTGGATCCGCTGAACCTCGCCGGGACCTTGCTGCCGGGAGCGAAAGTGCCGGCGCTGGCGAGTAATCGACTGGTATATCGCGATGGGTTGCCGGTGGCGGCGCTGATTGCCGGCAAGCCGCAGTTCTGGGTGGAGCTGGATGCTCAAGGGATGGCTGAGGCCAGGAGCAAGCTCATCCAGAAAAGTTGA	MNLPLPADHAMAGFHPAVRAWFSQTFPAVTAAQARAWPLISQRRSVLVAAPTGSGKTLTAFLAVLDDLVHRGLEQGGLPDQTLVVYVSPLKALSNDIRINLQNPLAGITEQLQRMGLPPLPITTAVRTGDTPQKDRTAMRKTAPHILVTTPESLYVLLGSDSGRQMLASTRTVIIDEIHAIAASKRGSHLALSLERLQALCAEPLVRIGLSATQKPIEAVSRFLVGQGRTCEIVDIGHARPRDLDIEVPPVPLSAVMANDVWELVYNRLAELARQHRTTLVFVNTRRLAERLSRHLSERLGKEAVAAHHGSLAKEFRLDAEQRLKRGELQVLIATASLELGIDIGDVDLVCQIASPRSISAFLQRVGRSGHQVGGTPKGRLFATTRDDLIECVALLDCVRRGELDILHIPEAPLDVLAQQIVAEVSCQEWHEQALLEMFRRASPYAELDENHYQALLQMLAEGVNGRQGVRSAYLHRDAVSRTLRGRRGSKLTAVTSGGTIPDNADYSVLLEPQGLNIGSVNEDFAVESIAGDVFQLGNTSYRIIRVESGRVRVEDAQGQPPTIPFWLGEAPGRSAELSEAVARLQARLDELLGATPGNLQPALDWLTGTLQLNLASAEQLLDYLAPARLAFGALPSQDTLLMERFFDESGGTQLIIHTPFGSRINRAWGLALRKRFCRTFNFELQAAASEDAIVLSLSTSHSFELDEVWRYLNSHSAEQILIQAVLDAPLFGVRWRWNAGVALALPRYAGGRKVAPQIQRMKSEDLIASVFPDQIACLENLAGEREIPDHPLVEQTLDDCLHEAMDSEGWLALLRRMEAGEIRLVSRDLPAPSPLAAEILSARPYTFLDDAPLEERRTQAVINRRWSDPQSTDDLGALDAEAIQAVREEAWPTPSNIDEIHEALMSLACIADSEADAEPSWLEGLRTLAERGRASHVRISEERGLWVPLERLTCLQAIYPQARWQPPLTPLPGFDEQWDSDDAVVEVLRARLSAFGPQPLTAIAYPLGLSPAQATQALAQLEQQGYVLRGRFTPGTGQEEWCERHLLARIHRYTVKRLRREIEPVTLQDFMRFLFDWQHLSPSAQGRGNAVLPSIVSQFEGYPAAASAWDSDLLPARIKDYSASWLDELCRSGKFVWTRLSARQKLSASALRSTPIVLLPRRQVGLWSSLAEQTPLDELSPRTQKVHQALSEHGALFFDELLHEAHLLRSELESALQELVGAGLVNADSFAGLRALITPASKRQARSSRRGRGAFVGGMDDAGRWALLRRSSPAAQPGNRPAPTAPETLEHIAMTLLRRYGVVFWRLLEREADWLPSWRELLRTFHRLEARGEIRGGRFVSGLAGEQFALPEAIPLLRETRRRPSDGSLIAVCGVDPLNLAGTLLPGAKVPALASNRLVYRDGLPVAALIAGKPQFWVELDAQGMAEARSKLIQKS				NA	NA	NA	NA	NA
D1-35_04619	870	rmlD		dTDP-4-dehydrorhamnose reductase	ATGTTACTGGGCGGCGGAAATGCCCTTGGGCAGGCGCTGATTCGCCTCGGTGCAGAAGAAGACATCGGTTTTCTTGCCCCCCGCCCGCCCGAAGATGGCTGGGATGCCGCGAGCCTGACGCAGTTGCTCGACGACACCCGGCCGGACGCCTTGATCAACCTGGCGTACTACTTCGACTGGTTCCAGGCCGAGACCGTCAGCGAGCAGCGCCTGGCGAGCCAGGAGCGGGCGGTCGAGCGCCTGGCCGAACTGTGCCAGCATCACAACATCGTCCTGGTGCAACCCTCGAGTTACCGTGTATTCGACGGCTCGCGCGCCACCGCCTACAGCGAAAAAGACGAGCCGGTGCCCCTGGGCTTGCGTGGCCAGGCACTGTGGCGCATCGAGCAAAGCGTGCGCGCCACCTGTCCGCAGCATGTGCTGCTGCGTTTTGGCTGGCTGTTGGACGACAGCGCCGATGGCATCCTCGGACGGTTCCTGGCCCGGGCCGAGCAGCCCGAAGAGCTGCTGCTGGCCGACGACCGCCGGGGTAATCCGACACCGGTCGACGATGCGGCGCGGGTAATCATTTCGGTGCTCAAACAACTCGATTGCGCGGCGCCGCTGTGGGGCACGTACCATTACGCCGGACACGAGGCGACGACGCCGCTGGCGCTGGGCCAGGCAATTCTTACCGAAGCCCGCGCCCTGCACCCGCTGGCCATCGAGTCACCCACGCCCCAGGCCCACGCCGCGCGGCCGGACGCCGCCGAAGAACCGCAGCACGCGGTACTGGCCTGCAAGAAAATTCTGCACACTTTCGGGATCAAGCCACGCGCCTGGCGCGCCGCACTCCCGGGCTTACTGGATAGGTTTTATCGCCATGGCTAA	MLLGGGNALGQALIRLGAEEDIGFLAPRPPEDGWDAASLTQLLDDTRPDALINLAYYFDWFQAETVSEQRLASQERAVERLAELCQHHNIVLVQPSSYRVFDGSRATAYSEKDEPVPLGLRGQALWRIEQSVRATCPQHVLLRFGWLLDDSADGILGRFLARAEQPEELLLADDRRGNPTPVDDAARVIISVLKQLDCAAPLWGTYHYAGHEATTPLALGQAILTEARALHPLAIESPTPQAHAARPDAAEEPQHAVLACKKILHTFGIKPRAWRAALPGLLDRFYRHG	PGPT0022630_2031	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PUTATIVE_TRYLOSE_DERIVATES_MODIFICATION,PGPT0022630-rfbD|rmlD-K00067	NA	NA
D1-35_04620	930		COG1088	UDP-glucose 4-epimerase	ATGGCTAAAGGCCCTGTTTTAATCACCGGCGGCGCCGGTTTCATCGGTTCGCACTTGACCGACGCGTTGCTCGCCAACGGCCATTCGGTGCGCATTCTCGATGACTTGTCCACCGGCAAGCGCAGCAACCTGCCGCTGGACAACCCGGCAGTCGAACTGATCGAAGGCGACGTCGCCGATGCGGCGCTGGTCGCCCGGGCCATGGCCGGGTGCAGCGCGGTGGCGCACCTGGCGGCGGTGGCCTCGGTGCAAGCCTCGGTGGACGACCCGGTACGTACCCACCAGAGCAATTTCATCGGCACCCTGAATGTCTGCGAGGCCATGCGCCAGGCGGGCGTGAAACGGGTGCTGTTCGCTTCCAGCGCCGCGGTCTATGGCAACAATGGTGAAGGCCAGTCCATCGACGAAGACACCTCCAAGGCGCCGCTTACGCCCTACGCTTCGGACAAGCTGGCGAGCGAGTTCTACCTCGACTTCTACCGGCGCCAGCACGATCTCGAACCGGTGATGTTCCGCTTCTTCAACATCTACGGTCCACGCCAGGATCCGTCCTCGCCGTACTCGGGGGTCATCAGCATTTTCAGCGAGCGGGCCCAGAAAGGCTTGCCGATCAGCGTGTTCGGCGACGGCGAGCAGACCCGGGATTTCGTCTACGTGGAAGACCTGGTACAGGTGCTGGTGCAGGCCATCGAGAAACCTGAAGTGCAAGCGGGCGCGGTGAATGTCGGCTGGAACCAGGCCACCACGCTCAAGCAGATGCTCCAGGCCCTGGCCGACGTGGTCGGGGATTTGCCCGCGATCAGCTACGGCCCGGCGCGCTCCGGCGACATTCGCCATTCGCGGGCTGATAACCGTCGGTTGCTGAAGCGTTTCGACTTGCCGGCGCAAACGCCGATGAGCGTGGGCCTGGCGCGGTTACTCGGGCGCTGA	MAKGPVLITGGAGFIGSHLTDALLANGHSVRILDDLSTGKRSNLPLDNPAVELIEGDVADAALVARAMAGCSAVAHLAAVASVQASVDDPVRTHQSNFIGTLNVCEAMRQAGVKRVLFASSAAVYGNNGEGQSIDEDTSKAPLTPYASDKLASEFYLDFYRRQHDLEPVMFRFFNIYGPRQDPSSPYSGVISIFSERAQKGLPISVFGDGEQTRDFVYVEDLVQVLVQAIEKPEVQAGAVNVGWNQATTLKQMLQALADVVGDLPAISYGPARSGDIRHSRADNRRLLKRFDLPAQTPMSVGLARLLGR				NA	NA	NA	NA	NA
D1-35_04621	699	ompW	COG3047	Outer membrane protein W	ATGCAAAAGTCTCTGCTCAGCGCTTCCCTCGTCGCCCTCGCGCTCGCGGCACCACTCGCCCAGGCCCATACCGCCGGCGATATCATCGTTCGCGCCGGCGCCATCACCGTCAATCCGGATGCCGACAGTTCCAGCGTCAAGGTCGACCGTGGCCCGCTGGCCGGTGCCGACCTGGGCGGCAAGGCGACCATGAGCAGCGACACTCAGTTGGGCCTGAACTTCGCCTACATGCTCACCGACAATTGGGGGATCGAGCTGCTGGCGGCCTCGCCATTCGAGCACGACGTGAAAATCAAAGGCACCGCCCTGGGCGCGGCCAACGGCAAGCTCGGCACACTCAAGCACTTGCCGCCGACCCTGAGCCTGGTCTACTACCCGCTCGACGCCAAGTCGGCCTTCCAGCCTTACGTCGGCGCCGGCATCAACTACACCTGGATCTATGACGAACACGTCGGCAGCGACGCCAGCGCCAACGGTTTCAGCAACTTCCGGGCGAGCAACAGCTGGGGCATGGCGTGGCAAGTCGGCGCCGACTACATGCTGACGGACAACATCATGATCAACGGCCAGGTCCGCTACATCGACATCGACACCACCGCCTATGTCGACAACAACGCGGTGGCCGGCGGAACGCGGGCCAAGGTTGACGTGGACGTGGATCCGTTCGTCTACATGGTGGGGTTGGGTTACAAGTTCTGA	MQKSLLSASLVALALAAPLAQAHTAGDIIVRAGAITVNPDADSSSVKVDRGPLAGADLGGKATMSSDTQLGLNFAYMLTDNWGIELLAASPFEHDVKIKGTALGAANGKLGTLKHLPPTLSLVYYPLDAKSAFQPYVGAGINYTWIYDEHVGSDASANGFSNFRASNSWGMAWQVGADYMLTDNIMINGQVRYIDIDTTAYVDNNAVAGGTRAKVDVDVDPFVYMVGLGYKF	PGPT0022210_529	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	OTHER_INTEGRAL_MEMBRANE_REMODELLING__PROTEINS,PGPT0022210-ompW|yciD-K07275	NA	NA
D1-35_04622	519			hypothetical protein	ATGCCCCGCGCCCTGCTTGCGCTGTTGATGCTGGTCAGCCTGCCATTGTGGGCGGCCGAGCCGAGAGACCTGGCCTGGTCGGAAATGATCCCGCCGGACGCGCCGCCGGAAGTGCCGAACATGACGCCCCTGCATGACCTGTCGAAAATGAGCGACGCCCTGGCCGCCGAATCCGCGCCGGCGGCCCGGCAGGACATGCCCAACGCCCCGGTGGTCAAGGCCCTGGACGGCCAGCAGATTCGCTTGCCGGGTTATATCGTGCCGCTGGAGGTCAGCGAGGAAGGCCGCACGACCGACTTCCTGCTGGTGCCGTATTTCGGCGCCTGCATCCACGTGCCGCCCCCGCCGTCGAACCAGATCGTGCATGTGAAAAGCGAAGTCGGGGTCAAGCTCGACGAGCTTTATCAACCGTACTGGGTGGAAGGGCCGATGCAGGTCAAGCCATCCACCAGTGAACTGGCCGATGCCGGGTATCAGATGGAGGCGCAGAAGATTTACGTGTATGAGCTGCCGGAGTGA	MPRALLALLMLVSLPLWAAEPRDLAWSEMIPPDAPPEVPNMTPLHDLSKMSDALAAESAPAARQDMPNAPVVKALDGQQIRLPGYIVPLEVSEEGRTTDFLLVPYFGACIHVPPPPSNQIVHVKSEVGVKLDELYQPYWVEGPMQVKPSTSELADAGYQMEAQKIYVYELPE				NA	NA	NA	NA	NA
D1-35_04623	1266			hypothetical protein	ATGTATTTGTTCCGTCTAGCCATGGCCAGCCTGGCGAACCGCCGCTTCACGGCGATCCTCACCGCTTTTGCCATTGCCCTTTCCGTTTGCCTGCTGCTGGCCGTGGAGCGCGTGCGTACCGAGGCGCGGGCCAGTTTCGCCAGCACCATCAGCGGCACCGACCTGATTGTCGGCGCTCGCTCCGGTTCGGTGAACCTGCTGTTGTACTCGGTGTTTCGCATCGGCAACGCCACCAATAACATTCGCTGGGACAGCTTCGAGCAGTTCGCCAGCAATCCGAAAGTGAAATGGGCGATCCCCATGTCCCTTGGCGATTCCCATCGCGGTTATCGAGTGATGGGCACCACCGAGGCCTACTTCGAGCATTACCAGTACGGTCGCCGGCAGCATCTGGAACTGGCGGACGGCCGGGCATTCGTCAGCGATCCGTTCGAAGTGGTGCTCGGCGCGGAAGTGGCCGAGGCGCTGCATTACAAACTCGGCGAAAAGCTGGTGTTGGCCCACGGCGTGGCGGCCATCAGCCTGGTCAAGCACGACGACAAACCGTTCACCGTGGTCGGGATTCTCAAGCGCACCGGCACGCCAGTGGACCGCACGCTGCACATCAGCCTCGGCGGCATGGAGGCGATCCATATCGACTGGAAAAATGGCGTGCCGGCCCAGGGCAACGGCCGTATCAGCGCCGACCAGGCCCGCAATATGGACCTTACGCCCAAGGCGATCACCGCCTTCATGCTGGGCCTCAACAGCAAGATTTCCACGTTTGCGCTGCAACGGGAAATCAACGAATTCCGTGGCGAGCCGCTGCTGGCGATCCTGCCCGGTGTGGCGCTGCAAGAGTTGTGGAGCCTGATGGGCACGGCGGAAAAAGCCTTGTTCGTGATTTCACTGTTCGTGGTGCTGACCGGCTTGATCGGCATGCTCACGGCAATCCTCACCAGCCTCAACGAGCGCCGCCGGGAAATGGCGATCCTGCGCTCGGTGGGCGCGCGGCCGTGGCACATCGCGACGCTGCTGGTGCTCGAAGCCTTTGCGCTGGCGCTGGCCGGGGTCATCTCCGGGCTGGCCTTGCTGTACATCGGCATCGCCGTTGCCCAGGGTTACGTGCAGTCGGCCTACGGCCTGTATCTGCCGCTGGGCTGGCCGAGCGAGTATGAATGGACGCTGCTGGCTGGCATTCTGGTCGCCGCCTTGCTGATGGGCAGCGTGCCGGCCTGGCGCGCCTATCGCCAATCGCTGGCCGATGGCCTGTCGATCCGTTTATGA	MYLFRLAMASLANRRFTAILTAFAIALSVCLLLAVERVRTEARASFASTISGTDLIVGARSGSVNLLLYSVFRIGNATNNIRWDSFEQFASNPKVKWAIPMSLGDSHRGYRVMGTTEAYFEHYQYGRRQHLELADGRAFVSDPFEVVLGAEVAEALHYKLGEKLVLAHGVAAISLVKHDDKPFTVVGILKRTGTPVDRTLHISLGGMEAIHIDWKNGVPAQGNGRISADQARNMDLTPKAITAFMLGLNSKISTFALQREINEFRGEPLLAILPGVALQELWSLMGTAEKALFVISLFVVLTGLIGMLTAILTSLNERRREMAILRSVGARPWHIATLLVLEAFALALAGVISGLALLYIGIAVAQGYVQSAYGLYLPLGWPSEYEWTLLAGILVAALLMGSVPAWRAYRQSLADGLSIRL	PGPT0013350_14028	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
D1-35_04624	711		COG1136	putative ABC transporter ATP-binding protein	ATGACCCAAGCACTCATCGAACTGTCCGACCTGGGCTTCAGCTGGCCCGGGCATCCGCTCTTGCTGGATATCCCGGCGTTTCGCCTGGAGGCCGGTGAAACTCTGTTTCTCAAGGGCCCCAGCGGCAGCGGCAAGACCACGTTGCTGGGGCTGCTGGGCGGTGTGCAGACACCGGATCGCGGCAGCATCCGCCTGCTCGGTCAGGAACTCAGCGAACTGGGCGCCGGCCGCCGCGACCGCTTTCGCGTGGACCATACCGGCTACATTTTCCAGCAGTTCAACCTGCTGCCATTTCTCTCGGTGCGCGAAAACGTCGAGCTGCCCTGCCATTTCTCGACATTACGCGCGCAACGGGCGAAGCAACGCCATGGCAGCGTCGATCAAGCCGCCGCCACGCTGCTGGCTCACCTCGGGCTGAGCGATTCGAGCCTGCTGGATCGCCGCGCCGACTCATTGTCCATCGGCCAGCAACAACGGGTCGCCGCCGCCCGCGCGCTGATCGGCCAACCGGAACTGGTGATTGCCGACGAGCCGACCTCGGCGCTGGATTACGACGCCCGGGAAAACTTCCTGCGGCTGCTTTTCGCCGAATGCCGCGAAGCCGGTTCGAGCCTGCTGTTTGTCAGCCACGACCAGAGCCTGGCGCCGCTGTTCGATCGTCACCTCTCGCTGGCCGATCTCAATCGCGCCGCCACGCCACTCGAGGTCTGA	MTQALIELSDLGFSWPGHPLLLDIPAFRLEAGETLFLKGPSGSGKTTLLGLLGGVQTPDRGSIRLLGQELSELGAGRRDRFRVDHTGYIFQQFNLLPFLSVRENVELPCHFSTLRAQRAKQRHGSVDQAAATLLAHLGLSDSSLLDRRADSLSIGQQQRVAAARALIGQPELVIADEPTSALDYDARENFLRLLFAECREAGSSLLFVSHDQSLAPLFDRHLSLADLNRAATPLEV	PGPT0013345_7838	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
D1-35_04625	585			hypothetical protein	ATGCGTCGTCTGCTTCTCGCTTTGCCGTTCGCCCTGCTGCCGTTGGCTGTCGCTCACGCGGCCGTCGAGCATGATCACGACCATGACCATGAGCACGGCAGCCTCGGCGCCCATGAACACGGCGTCGCTCGGCTGAACGCCGCGCTGGACGGCCAGACCCTGGAACTGGAGCTGGAGAGCCCGGCGATGAACCTGGTCGGCTTCGAACACGCCGCCACCAGCGATGCCGACAAGGCCAAGGTCGCCGCCGTGCGGGCGCAGCTGGATAAACCCCTGGCGCTGTTCAACCTGCCGGCCGCGGCCAAGTGCACCGTGGCCCATCAGGAGCTGGAGAGCCCGCTTTTCGGCGATGAGCCGGACCATGAAGACCACGACGAAGACGGCGACGAGCATCACGACGAGCACAGCGAGATCCATGCCCACTACCAGTTCACCTGCGCCGCTCCGGGCGCCTTGAAGAACCTGGACCTGGCGACCCTGTTCAAAACCTTCCCGGCCACCCAGAAAATTCAGGTACAACTGATCGGCCCGAGCGGTCAGCAAGGCGTTGAAGTGACGGCAAAGGCCCCTGCACTGAAATTCTGA	MRRLLLALPFALLPLAVAHAAVEHDHDHDHEHGSLGAHEHGVARLNAALDGQTLELELESPAMNLVGFEHAATSDADKAKVAAVRAQLDKPLALFNLPAAAKCTVAHQELESPLFGDEPDHEDHDEDGDEHHDEHSEIHAHYQFTCAAPGALKNLDLATLFKTFPATQKIQVQLIGPSGQQGVEVTAKAPALKF				NA	NA	NA	NA	NA
D1-35_04626	348			hypothetical protein	ATGTTGCGGATACGCGGAACCGTCGGCGAGTGGCCGGTGGACTTGACGATCGAGATGGATGAAGGCGACTGGGCGCAGCTCGGCGCGCAGCTGCAGGTGGCCAAGTCCGAGGTTGCGACGACACCGTCGGCCAGGCCGGCGAGTCAGGACGATGCCCAATGGCAGATCGCCAAGGAACTGCTGCGCAAGGCCGGGCAATTGACCGGCCCGGACTTGCTGGAGCAGCTGGAAGGCCTGACCGGCAGCGCTTCGTCCGGCAAGCGGCTGTTGGTGCGTCTGCGCCACAGCGCCGAGGTCAAGGTGCTGAGCGGCGGGGATACGCCGCTCTACAGCTGGGTCGGTCAGTAA	MLRIRGTVGEWPVDLTIEMDEGDWAQLGAQLQVAKSEVATTPSARPASQDDAQWQIAKELLRKAGQLTGPDLLEQLEGLTGSASSGKRLLVRLRHSAEVKVLSGGDTPLYSWVGQ				NA	NA	NA	NA	NA
D1-35_04627	873	cnoX	COG3118	Chaperedoxin	ATGACCCAGGACACGCCGTACATCTTCGACGCCACCACTGCCGATTTCGACCAGTCGGTAATCGCCAACTCCTTCCACAAACCGGTGCTGGTGGATTTCTGGGCCGAGTGGTGTGCGCCGTGCAAGGCGCTGATGCCGATGCTGCAAGGCATCGCCGAGAGCTACCAGGGTGAACTGCTGCTGGCCAAGGTCAACTGCGACATCGAGCAGGACATCGTCGCCCGCTTCGGCATTCGCAGCCTGCCCACCGTTGTGTTGTTCAAGGACGGCCAGCCGGTCGACGGCTTTGCCGGTGCCCAGCCGGAATCGGCGGTGCGGGCAATGCTCGAACCCCATGTGCAGATGCCGCCGCCAGCCGCCGCCGATCCGCTGGAACAAGCCCAGGCGCTGTTCGACGACGGTCGTTTCGCCGACGCCGAAGCCCTGCTCAAGGCACTGCTGGTGGAAGACAACAGCAACGCCAAGGCGCTGATCCTCTATGCCCGCTGCCTGACCGAGCGCGGCGAGCTGGACGAAGCGCAGACAGTTCTGGATGCCGTGAAAAGTGACGAACACAAGGCCGCACTGGCCGGTGCCAAGGCGCAGATCCAGTTCCTCGGCCTGGCCAAGGACCTGCCGGACGCCGCCGACCTGAAGGCGCGCCTGGCGAAAGACCCACAAGATGATGAAGCGGTGTATCAACTGGCGATCCAGCAACTGGCGCGCCAGCAGTACGAACCCGCCCTCGATGCGCTGCTCAAGCTGTTCATCCGCAATCGCAGCTACAGCGAAGGCCTGCCGCACAAGACCTTGCTCCAAGTGTTCGAGCTGCTGGGCAATGACCACCCGCTGGTGACGACCTATCGCCGCAAGCTGTTCGCCGCGCTTTACTGA	MTQDTPYIFDATTADFDQSVIANSFHKPVLVDFWAEWCAPCKALMPMLQGIAESYQGELLLAKVNCDIEQDIVARFGIRSLPTVVLFKDGQPVDGFAGAQPESAVRAMLEPHVQMPPPAAADPLEQAQALFDDGRFADAEALLKALLVEDNSNAKALILYARCLTERGELDEAQTVLDAVKSDEHKAALAGAKAQIQFLGLAKDLPDAADLKARLAKDPQDDEAVYQLAIQQLARQQYEPALDALLKLFIRNRSYSEGLPHKTLLQVFELLGNDHPLVTTYRRKLFAALY				NA	NA	NA	NA	NA
D1-35_04628	657			hypothetical protein	ATGAAGGCACCGCAGCACCTGCAAGGTGCCTTGGTCGAGCTGCTGGGCGATGCGCGCCTGGTGTCCTGTGCGCTATCCGGCACCGACCTGGCGTTGTGGCTGATCGACGGCGAGAACATGGACCGGGCCTTCAGCCCGGAGGAAACCCGCCGCATCCTCCACGAACCGCCTTACTGGAGTTTCTGCTGGGCCAGCGGCCTGGCGCTGGCCCGCTACCTGGCCGAACACCCGCAGTGGGTCGAGGGCAAGCGGGTACTGGATTTCGGCGCCGGCTCCGGCGTGGCGGGTATCGCGGCGATCAAGGCCGGGGCGCGCGAAGTGGTGGCCTGCGACCTGGATCCGTTGGCGCTTGCCGCGTCAAGGGCCAACGCCGCGCTTAACGGCGTAGAGCTGAATTATTCAGCGGACTTTTTCGCCGAAGCCGATCGCTTCGACCTGATCCTGGTCGCCGATGTGCTTTATGACCGGGCCAACCTGCCGTTGCTCGACCAGTTCCTCAGCCGTGGCCGCGAGGCGCTGGTGGCGGACTCCCGGGTGCGCGATTTCCAGCATCCGCTGTATCGCCGTATTGAAATGCTCGAAGCCATGACTCTGCCGGACCTGGCCGAGCCGGAGGAGTTTCGGCATGTGAGCCTGTACCACGCGCGGCGCGACTGA	MKAPQHLQGALVELLGDARLVSCALSGTDLALWLIDGENMDRAFSPEETRRILHEPPYWSFCWASGLALARYLAEHPQWVEGKRVLDFGAGSGVAGIAAIKAGAREVVACDLDPLALAASRANAALNGVELNYSADFFAEADRFDLILVADVLYDRANLPLLDQFLSRGREALVADSRVRDFQHPLYRRIEMLEAMTLPDLAEPEEFRHVSLYHARRD				NA	NA	NA	NA	NA
D1-35_04629	471			hypothetical protein	ATGCCGCTACGATCGCTCGTTTTGCTCAGTCTCTTCAGCCTGCTGATGGCGTGCAGCAGCGACGCCCCCAAGCCCGCTGCCCCCGCCCCGGCCCCGGCCCCAGCGCCGAAACAGGCCCAGGAAAAGGCCCGGCAGGCCACCGAGCTTGGCCCGCTGCCGGCCCATCAGCGCGAATTGAGCGGCACCCTGCAAGGCGTACCGGCCGGCGCCGAAGTCGAACTGGCGCTACTGGTGATCGATGACAAGGACCGCCCGCAACAACTGCTCGCCAGCTCCAGCCTGATCGGCACCAACCAGGCGCTGCCCTTTCGCCTGCGCTTCAATCCGGAAGCGTTCCCGGTCGGCGCCCGTGTCGAGTTGCGCGGCCGCGCCAGCCAGTCCGGCCAACTGATCCTGCATCTGCCGGAACAACGCATCACGCAACCGACCACCCAGGCGCTGGGCGTCCTGCAATTCGTCAAAGCTCCATGA	MPLRSLVLLSLFSLLMACSSDAPKPAAPAPAPAPAPKQAQEKARQATELGPLPAHQRELSGTLQGVPAGAEVELALLVIDDKDRPQQLLASSSLIGTNQALPFRLRFNPEAFPVGARVELRGRASQSGQLILHLPEQRITQPTTQALGVLQFVKAP				NA	NA	NA	NA	NA
D1-35_04630	465	nrdR	COG1327	Transcriptional repressor NrdR	ATGCACTGTCCCTTCTGCGGTGCCAACGACACCAAAGTCATCGACTCGCGACTGGTCGCCGAGGGCGAACAGGTCCGCCGCCGCCGCGAATGCCTGGCCTGCGGCGAGCGTTTCACGACGTTCGAGACCGCTGAACTGGTGTTGCCGCGCCTGATCAAGACCGACGGCAGCCGCCAGCCGTTCGATGAAGAAAAACTGCGCGCCGGCATGCAGCGCGCCCTGGAAAAACGCCCGGTGAGCGTCGAGCGTCTGGAAGCGGCGCTGGTGCACATCAAGCACAAGCTGCGCGCGACGGGCGAGCGTGAGGTCAAGTCCCTCGTCGTCGGCGAGTTGGTCATGGCCGAGCTGCAAAAGCTCGATGAAGTGGCCTATATCCGCTTCGCCTCGGTGTACCGGCGTTTCCAGGACCTCAACGAGTTCCGCGAGGAAATCGACCGCCTGGCCCGCGAACCGGTGAAAGAATGA	MHCPFCGANDTKVIDSRLVAEGEQVRRRRECLACGERFTTFETAELVLPRLIKTDGSRQPFDEEKLRAGMQRALEKRPVSVERLEAALVHIKHKLRATGEREVKSLVVGELVMAELQKLDEVAYIRFASVYRRFQDLNEFREEIDRLAREPVKE				NA	NA	NA	NA	NA
D1-35_04631	1134	ribD	COG0117	Riboflavin biosynthesis protein RibD	ATGACCGGCGCGGCGCAGCAGGCCGTCCTCGACGCCCACTACATGGCCCGCGCCCTGGAACTGGCGCGGCGCGGTCACTACAGCACCCACCCCAACCCCCGGGTCGGTTGCGTGATCGTGCGCGACGGGCTGGTGGTCGGCGAAGGCTGGCACATCCGTGCGGGCGAACCCCATGCCGAAGTCCATGCCCTGCGCGCCGCTGCTGACAAGGCCCGGGGCGCGACGGCCTACGTGACCCTCGAACCTTGCAGCCACCATGGGCGCACGCCGCCCTGCGCCGATGCGCTGGTCAATGCCGGCGTGGCGCGGGTGGTCGCGGCAATGCAGGACCCCAATCCGGAAGTCGCCGGGCGCGGCCTGCAGCGTCTCGCCCAGGCCGGCATCGCCACACAAAGCGGCGTGCTCGAAGGCGAAGCGCGCAAGCTCAACGAAGGGTTTCTCAAGCGCATGGAGCACGGCCTGCCGTTCGTGCGGGTCAAGCTTGCCATGAGCCTGGATGGCCGTACCGCCATGGAAAGCGGCGAGAGCCAATGGATTACCGGCCCGGCCGCTCGCTCAGCGGTGCAACGCCTGCGCGCCCAGGCCAGCGTGGTGCTGACCGGCGCCGATACGGTACTGGCGGACAACGCCCGGCTGACCGTGCGTGCCGATGAGCTTGGGCTGGACGCCGAGCAGACCGCGTTGGCCATGAGCCGTCCGGCGCTGCGGGTGCTGGTGGACGGTCGTCTGCGGGTGCCGCTGGATGCGCCGTTCTTCAGAGCGGGCCCGGCGCTTGTCGCTACCTGCATGGCGGTTGAGGAACAGTACGCCAACGGCCCTGAATGCATGATCGTCGCCGGGGAAGATGGCCAGGTCGATCTGCATCGCCTGCTGCTGGAGCTGGCGGCCCGTGGCGTCAATGAAGTGCTGGTGGAAGCCGGCCCGCGCCTGGCGGGTGCTTTCGCCCGGCAGGGGTTGGTCGACGAATTCCAGATTTTCATCGCCGGCAAGTTCCTCGGATCCACGGCGCGGCCATTGCTCGATTGGCCGCTGGCGCAGATGAAAGACGCGCCGCAGCTTCAAATCACCGACATTCGCGCCGTGGGCGATGACTGGCGAGTCATCGCCGTCCCCGCTCCGCAGGCCAGCGTATAA	MTGAAQQAVLDAHYMARALELARRGHYSTHPNPRVGCVIVRDGLVVGEGWHIRAGEPHAEVHALRAAADKARGATAYVTLEPCSHHGRTPPCADALVNAGVARVVAAMQDPNPEVAGRGLQRLAQAGIATQSGVLEGEARKLNEGFLKRMEHGLPFVRVKLAMSLDGRTAMESGESQWITGPAARSAVQRLRAQASVVLTGADTVLADNARLTVRADELGLDAEQTALAMSRPALRVLVDGRLRVPLDAPFFRAGPALVATCMAVEEQYANGPECMIVAGEDGQVDLHRLLLELAARGVNEVLVEAGPRLAGAFARQGLVDEFQIFIAGKFLGSTARPLLDWPLAQMKDAPQLQITDIRAVGDDWRVIAVPAPQASV	PGPT0008555_1020	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
D1-35_04632	663	ribE		Riboflavin synthase	ATGTTTACCGGCATCATCGAATCCATCGGCAGCATCCGTGCACTCACTCCCAAGGGCGGCGATGTGCGGGTCCACGTCGAAACCGGCAAGCTCGACCTGAGCGACGTCAAGCTGGGCGACAGCATCGCCGTGAACGGCGTCTGCCTGACCGCCGTGGAACTGCCGGGCAATGGTTTCCTGGCGGACGTCAGCCGGGAAACCCTCGACTGCACCGCGATGAACGACCTCAAGAGCGGCAGCCCGGTCAACCTGGAAAAAGCCCTGACCCCGACTACCCGCCTGGGTGGGCACCTGGTCAGCGGTCATGTCGATGGCGTCGGTGAAGTGGTGTCGCGTACCGATAACGCCCGGGCCGTGGAGTTTCGTATCCGCGCTCCGAAAGAACTCGCCAAGTACATCGCCCACAAGGGCTCGATCACGGTCGACGGCACCAGCCTGACCGTCAACGCGGTGGATGGTGCCGAATTCCTGCTGACTATCATCCCGCACACGCTGAGCGAAACCATCATGGCCTCGTACCGGCCTGGTCGCCGGGTCAACCTGGAGGTCGACCTGCTGGCCCGTTACCTGGAGCGCCTGCTGCTGGGCGACAAGGCTGCCGAACCTGCGGCCGGTAACATCACTGAAAGCTTTCTGGCCGCCAACGGCTACCTCAAATCCTGA	MFTGIIESIGSIRALTPKGGDVRVHVETGKLDLSDVKLGDSIAVNGVCLTAVELPGNGFLADVSRETLDCTAMNDLKSGSPVNLEKALTPTTRLGGHLVSGHVDGVGEVVSRTDNARAVEFRIRAPKELAKYIAHKGSITVDGTSLTVNAVDGAEFLLTIIPHTLSETIMASYRPGRRVNLEVDLLARYLERLLLGDKAAEPAAGNITESFLAANGYLKS	PGPT0008610_929	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
D1-35_04633	1092	ribBA_2	COG0108	Riboflavin biosynthesis protein RibBA	GTGGCGCTCAATAGCATCGAAGAACTGGTTGAAGACATCCGCCAAGGCAAGATGGTCATCCTCATGGATGACGAAGACCGCGAGAACGAAGGCGACCTGATCATGGCCGCCGAATGCTGCAAGGCCGAACACATCAATTTCATGGCCAAGCACGCCCGTGGCCTGATCTGCATGCCGATGACCCGTGAGCGCTGCGAGCTGCTGAAGCTGCCGTTGATGGCGCCACGCAACGGTTCCGGGTTCGGCACCAAGTTCACCGTGTCCATCGAGGCCGCCGAGGGCGTGACCACCGGTATTTCCGCCGCGGACCGGGCGCGTACCGTGCAGGCCGCTGCGGCCGCCGACGCCAGGGCCGAAGACATCGTCAGCCCCGGTCACATCTTCCCGCTGATGGCCCAGGCCGGCGGCACCCTGGCCCGCGCCGGCCACACCGAAGCGGCGTGCGACCTCGCGCGTATGGCCGGTTTCGAGCCCGCCGGCGTCATCTGCGAAGTGATGAACGACGACGGCACCATGTCCCGTCGCGCCGAGCTTGAGGCTTTCGCTGCCGAGCACGACATCAAGATCGGCACCATTGCCGATCTGATCCACTACCGGATGATCCACGAGCGTACCGTTCAGCGGATTGCCGAGCAGCCGCTGGACAGCGAACTGGGCCAGTTCAACCTGGTGACCTACCGCGATTCGGTGGAAGGCGACGTGCACATGGCGCTGACCCTGGGAACCGTGTGCGCCGAAGAACCGACTCTGGTTCGCGTGCACAACATGGACCCACTGCGTGACCTGCTAATGGTCAAGCAGCCGGGCCGCTGGAGCCTGCGCGCGGCCATGGCCGCGGTAGCCGAGGCCGGCAGCGGCGTGGTGCTGTTGCTCGGGCACCCGCTCGATGGCGATGTGCTGCTGGCGCACATTCGCGAAACCACCGAACATCAACCGGTGAAAAAACCGACCACCTACAGCATCGTCGGGGCCGGTTCGCAGATCCTGCGCGACCTGGGCGTACGCAAAATGCGCCTGATGAGCGCACCGATGAAATTTAATGCGATATCCGGTTTCGATCTGGAAGTTGTAGAATACGTGCCCTCCGAATAA	MALNSIEELVEDIRQGKMVILMDDEDRENEGDLIMAAECCKAEHINFMAKHARGLICMPMTRERCELLKLPLMAPRNGSGFGTKFTVSIEAAEGVTTGISAADRARTVQAAAAADARAEDIVSPGHIFPLMAQAGGTLARAGHTEAACDLARMAGFEPAGVICEVMNDDGTMSRRAELEAFAAEHDIKIGTIADLIHYRMIHERTVQRIAEQPLDSELGQFNLVTYRDSVEGDVHMALTLGTVCAEEPTLVRVHNMDPLRDLLMVKQPGRWSLRAAMAAVAEAGSGVVLLLGHPLDGDVLLAHIRETTEHQPVKKPTTYSIVGAGSQILRDLGVRKMRLMSAPMKFNAISGFDLEVVEYVPSE	PGPT0007990_4057	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
D1-35_04634	477	ribH_2		6,7-dimethyl-8-ribityllumazine synthase	ATGACCCTGAAGACCATCGAAGGTACCTTCATCGCCCCCAAGGGCCGCTACGCGCTGGTAGTCGGCCGTTTCAACAGCTTTGTGGTTGAGAGCCTGGTCGACGGTGCGGTCGATGCCCTGGTTCGCCATGGCGTGAGCGAAGGCGACATCACCATTATCCGTGCCCCTGGCGCCTTCGAAATTCCGCTGGTTGCGCAGAAAGTCGCACAAAAAGGCGAATTTGCGGCGATCATCGCCCTCGGCGCGGTCATTCGTGGCGGTACTCCACACTTCGAATACGTGGCCGGCGAATGCACCAAGGGCCTGGCCCAGGTGTCCATGGAATTCGGCGTACCGGTTGCCTTCGGCGTGCTGACCGTTGATTCCATCGAACAAGCCATCGAACGTTCCGGCACCAAGGCCGGTAACAAAGGTGCCGAAGCTGCCCTGTCCGCCCTGGAAATGGTCAGCCTGCTGGCGCAGTTGGAGGCCAAGTGA	MTLKTIEGTFIAPKGRYALVVGRFNSFVVESLVDGAVDALVRHGVSEGDITIIRAPGAFEIPLVAQKVAQKGEFAAIIALGAVIRGGTPHFEYVAGECTKGLAQVSMEFGVPVAFGVLTVDSIEQAIERSGTKAGNKGAEAALSALEMVSLLAQLEAK	PGPT0008605_2064	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
D1-35_04635	501	nusB		Transcription antitermination protein NusB	GTGATTAGCGACGAAAGCGATCGTTTCAATCCGCGCGAGCCGAAACCGGCCGACGCCGGCAAGCCTTCGAAGAGCGTCAAGCGCCGCGAAGCCCGTCAGCTCGCGACCCAGGCCCTGTACCAATGGCACATGGCCAAGCAGTCGCTGAACGAGATCGAAGCGCAGTTTCGCGTCGATAACGACTTCAGCGATGTCGATGGCGCGTATTTCCGCGAGATCCTGCATGGCGTCCCGGCCCACAAGACCGAAATCGATACGGCCCTGGCACCTTGCCTGGACCTGACGATCGATGAATTGGACCCGGTTGAGCTGGCTGTGTTGCGCCTGTCCACCTGGGAACTGATGCAGCGCGTCGACGTACCGTACCGCGTGGTGATCAACGAAGGGATCGAGCTGGCGAAAGTCTTCGGTTCCACCGATGGCCACAAGTTCGTCAACGGCGTACTCGACAAGCTCGCCCCGCGTCTGCGTGAAGCCGAAGTGAAGGCGTTCAAGCGCTGA	MISDESDRFNPREPKPADAGKPSKSVKRREARQLATQALYQWHMAKQSLNEIEAQFRVDNDFSDVDGAYFREILHGVPAHKTEIDTALAPCLDLTIDELDPVELAVLRLSTWELMQRVDVPYRVVINEGIELAKVFGSTDGHKFVNGVLDKLAPRLREAEVKAFKR	PGPT0009010_3	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0009010-thiL-K00946	NA	NA
D1-35_04636	963	thiL	COG0611	Thiamine-monophosphate kinase	ATGGGCGAATTTGAGCTGATCCGTCACTACTTTGCCGCCGCTGCCTGTGCGCAAGGCGGCGAGGGCGTTGCGCTCGGAATCGGCGACGATTGCGCCCTGCTGGCCGTTCCTCCCGGAGAACAGCTCGCGGTATCCACCGACACGCTCGTGGCCGGTGTGCATTTTCCGGACCCTTGCGACCCGTTCCTGCTCGGCCAGCGCTCGCTGGCCGTGGCGGTCAGCGACCTGGCCGCCATGGGCGCCAGTCCTCTCGCCTTTACCCTCGCCCTGACCTTGCCGACGGTGGCCGCCGATTGGCTGCAGGCGTATGCCCGTGGCCTGAACCAGATGGCCCAGGCTTGTGGTGTAGCACTGGTGGGGGGCGATACCACCCACGGGCCGTTGAGCCTGACCATGACCGTGTTCGGCCGCGTGCCGTGCGGCCAGGCGCTGACCCGCAGCGGCGCGCAACCCGGCGATCTGCTTTGCGTCGGTGGTGACCTGGGCAATGCGGCTGGCGCGTTGCCGCTGGTTCTCGGCGAGCGCAGTGCCGAGCCTGCTATCGCCGAGCCGCTGCTGGCTCACTACTGGTCGCCACAACCGCAGATCGGCCTTGGCCTGGCTCTACGGGGCAAGGCCAGCGCGGCAATGGACATTTCCGATGGGTTGTTGGCGGACTGCGGGCATATCGCGCTGGCATCCGGCGTGGCGTTACGGGTTGAACGGGACCGGTTGCCGTTGTCCAACGCTCTGTTGGCGTTTGGCCTGCCGCAGGCACAACATGCCGCCCTGAGTGGCGGCGACGACTATGTGTTGCTGTTCACCCTGCCGCCGGTCCGATTGTCGGCACTTCTCGCCGAAGGCTGGCCGATTCATGTGGTCGGCAGTGTCACGGCGGGGCAGGGCGTCATGCTGGTCGACAGTCTTGGACAGGACATCACCCCGCCAATCCGGGGCTATCAACATTTTCGGGAGACACCGTGA	MGEFELIRHYFAAAACAQGGEGVALGIGDDCALLAVPPGEQLAVSTDTLVAGVHFPDPCDPFLLGQRSLAVAVSDLAAMGASPLAFTLALTLPTVAADWLQAYARGLNQMAQACGVALVGGDTTHGPLSLTMTVFGRVPCGQALTRSGAQPGDLLCVGGDLGNAAGALPLVLGERSAEPAIAEPLLAHYWSPQPQIGLGLALRGKASAAMDISDGLLADCGHIALASGVALRVERDRLPLSNALLAFGLPQAQHAALSGGDDYVLLFTLPPVRLSALLAEGWPIHVVGSVTAGQGVMLVDSLGQDITPPIRGYQHFRETP	PGPT0009010_2580	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
D1-35_04637	504	pgpA	COG1267	Phosphatidylglycerophosphatase A	GTGACAGATCATCCCAACCAGGTTCCGGCAGAATTCGTTCCGCCCTCGGTCTGGCGCAATCCCTGGCATTTCATGGCGTTTGGCTTCGGTTCGGGCACGTTGCCCAAAGCGCCAGGCACATGGGGCTCGCTGGTTGCGCTACCCTTCATACCGTTGTGGCAGATGTTGCCGGATTGGGGCTACTGGCTGATGCTCGGCATCACCATGCTGTTCGGCTTCTGGCTGTGCGGCAAAGTGGCGGATGATTTGCGGGTGCACGACCATGAAGGCATCGTCTGGGACGAGATGGTCGGCATGTGGATTACCCTGTGGCTGGTACCGGAAGGCTGGTATTGGTTGTTGACGGGTTTCCTGGTGTTCCGCTTCTTCGATATCCTCAAGCCGTGGCCGATCCGCTGGATCGATCGGCATGTACACGGCGGGGTAGGCATCATGCTCGATGACGTATTGGCCGGCGTGTTCGCCTGGCTGGCAATGCAAGGGTTGGTGTGGTGTTTTACCTGA	MTDHPNQVPAEFVPPSVWRNPWHFMAFGFGSGTLPKAPGTWGSLVALPFIPLWQMLPDWGYWLMLGITMLFGFWLCGKVADDLRVHDHEGIVWDEMVGMWITLWLVPEGWYWLLTGFLVFRFFDILKPWPIRWIDRHVHGGVGIMLDDVLAGVFAWLAMQGLVWCFT	PGPT0007710_660	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATASE_ACTIVITY,PGPT0007710-pgpA-K01095	NA	NA
D1-35_04638	759			hypothetical protein	ATGGGCGTAAGCCGCACACTGTTGCTGTTGTTGTGTCTCGGGGCGTTGCTCGGTGTTCGCGTGGCCGAGTCGGCGCCGTTGCCCGGCAAGATCCGCGCGGCCAGCGAGGAGTGGGCCGACTACACCCAGGCGGATGGCCAGGGCATGGCCTGGGATATCCTGCGCGAGGTGTTCGAACCCGAAGGCGTCAAGCTGGAAACCCGCAGCGTGCCTTACACCCGTTCGATCGGCCTGGTGCAGCGTGGCGAAGTCGACGTGCAGGTCGGTGCCTATCGCGACGAATCCGAGGGGGTGCTCTACCCCAATTGGCACTACGACGTCGATCACATCTATGCGTTGGGCCTGGCGTCAAAGCCCTCTCCCACGTTGGCCACGGTGGGTAATTACCGGCTGGTGTGGATGCGCGGGTACGAATACAACAATTATCTGCCGAACATCCGGCGCTTCAATGAAATCCACCGCTCCGTGGGGATCCTGCCGATGCTGGTCCACGACCGTGCCGATTTTTATATCGATGCGTTGATGGAAATCCAGGATGTGCTCGCCAAGGCCGACGACCCCCAGCAGTTCAAGCTCTCTGCGCTGATCAACCTGCCGCTGTACCTGGGCTTTGCCGACACCGAAAACGGACGTGCCTTGCGTGCACTGTTCGACCGGCGCATGGACGTGCTGGTGAAAAGCGGCCAATTGAAGCCGATTTTCGAACGTTGGAAGCAGCCCTATCCCTTCGACGAGAGTGGCAAGCCACCAAAGCCGTGA	MGVSRTLLLLLCLGALLGVRVAESAPLPGKIRAASEEWADYTQADGQGMAWDILREVFEPEGVKLETRSVPYTRSIGLVQRGEVDVQVGAYRDESEGVLYPNWHYDVDHIYALGLASKPSPTLATVGNYRLVWMRGYEYNNYLPNIRRFNEIHRSVGILPMLVHDRADFYIDALMEIQDVLAKADDPQQFKLSALINLPLYLGFADTENGRALRALFDRRMDVLVKSGQLKPIFERWKQPYPFDESGKPPKP	PGPT0020800_13887	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
D1-35_04639	618			Riboflavin biosynthesis protein	GTGCCTGTCGTTTTTGTTGCCGCTTCCAAGCTGCCAACACCCTTTGCGCAATTCACCATGCATGGTTTTCTCGATGAAGCCACCGGCCGCGAGCACGTCGTGCTCAGCCTGGGTGATTTCGCCGACGGCGCTCCGGTACTCGGTCGCCTGCACTCCGAATGCCTGACGGGCGATGCCTTGTTCAGCCAGCGCTGCGACTGCGGCTCGCAACTCGAAGCGGCCCTGCAGGCCATTGCTCGCGAGGGCCGTGGCGTACTGCTGTACCTGCGCCAGGAAGGCCGCGGCATCGGCCTGTTGAACAAGATCCGTGCCTACGAGCTGCAAGACGGCGGCGCCGATACTGTCGAAGCCAACGAGCGCCTCGGGTTTGCCGCCGACTTGCGTGACTACAGCATTTGCCAACCGATGCTCGAACACCTGGGCATCAAGTCCTTGCGACTGATGACCAACAACCCGCGCAAGGTCAAGGCATTGACCGACATGGGCGTAGTGGTGGCGGAGCGCGTGCCGCTGCATACCGGGCACAACCCGCACAACAAGCTTTACCTGGCAACCAAGGCCAGCAAGCTCGACCACATGATGGGCAACGAGCACCAGGGCGAGGTCGACCGGGCGTGA	MPVVFVAASKLPTPFAQFTMHGFLDEATGREHVVLSLGDFADGAPVLGRLHSECLTGDALFSQRCDCGSQLEAALQAIAREGRGVLLYLRQEGRGIGLLNKIRAYELQDGGADTVEANERLGFAADLRDYSICQPMLEHLGIKSLRLMTNNPRKVKALTDMGVVVAERVPLHTGHNPHNKLYLATKASKLDHMMGNEHQGEVDRA	PGPT0007985_1232	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0007985-ribA-K01497	NA	NA
D1-35_04640	420			hypothetical protein	GTGACGCGTGGTCAGGTTCGGCGGCGGCTGGCCGTCAGTTGGTGGCAATACCTGGCGCTGGCGTTGCTGCCGCTGTTCGTGATCAACGCGGTGTTCGGCCAGGGCGAAGCGATTCTGCCGGTATTGGCGATGCCGTTGTTTATCGCCGGCGTGGCGTCGATGTTTGTCAGCCTGCGATTTTTCGGCAGTTATAAAAACGCCTTGGTCGCCACGCAGAAATCCCTCGATACACCGGAAGAACCCCAAGCCTGGATCACTCTCGCGGCTCGGCGTCGCGCAGCGTTTCTGGCGGCAGGCCTGCCGGCGTGGGTTGGTGCGCTGGCGGTGTTTGTCGGGTTGGAAGCTGTACCGCTGATGCTGCTGGCGTTATCCACTGCGGTGCTGTTCTACCTGTATCGCATCCCACGCCAGCTCGGCTGA	MTRGQVRRRLAVSWWQYLALALLPLFVINAVFGQGEAILPVLAMPLFIAGVASMFVSLRFFGSYKNALVATQKSLDTPEEPQAWITLAARRRAAFLAAGLPAWVGALAVFVGLEAVPLMLLALSTAVLFYLYRIPRQLG				NA	NA	NA	NA	NA
D1-35_04641	786	btuF_1	COG0614	Vitamin B12-binding protein	ATGCGTCTCTGGCTGGCGGTTCTGTTGCTGGCCGCCAGCGCTTCGACGACGGCGGCCAATCGTGTCGTCAGCCTGGCGCCGTCGCTCTCTGAAATTGTCGTTGAACTAGGCTCCGCCGACCTGCTGGTGGGTGTGCTGGACGGTGGCGATCGTCCACCGGTCCTGAAGGACCTGCCGTCGGTGGGCCGTTATGGCCAGCTGGATATGGAGCGCTTGCTTAGCCTCCAGCCCGATCTGCTCCTGCTCTGGCCCGGCAGTATCGGCCCGGCCCAGCGCGAACAGCTCAAGGGCCTGGGCATTCCGATTTATATCGCCGAGTCCCACAGCCTCGACCAGCTCCTCCACCAAATCGAAGACATCGCCGCCCAGCTCGGCCGCCCGGAGCGGGGCGTGCAACGGGCAGCGCAATTGCGCTTGCGCCTGGAGACGCTGCGCCAACGCTACCGACGGGAGACGCCGTTGCCGGTGTTCTATCAGGTCTGGGATCGGCCGCTGTACACCGTGGGCGGCCGACAGATCATCAGTGATGCGTTGTCAGTGTGCGGCGCGCGCAACGTCTTTGCAGACCTGGACCTGCCGGCGCCGCAAGTGAGCGTGGAGTCGGTATTGCAGCGCCAACCGCAGGTGGTCCTGGCTACGGAGCAGGCGCAGCTTGACGCCTGGAAAGCCTGGCCGGTGGCGCAGGGGCGGTTGTTGCTGGTCAACGATAAAGGTCTGGAGCGGGCCAGCGGGCAGATGATCGAGGCGACGGCGCGGTTGTGTGAGTTGATTGCGCCAGACCGTTAG	MRLWLAVLLLAASASTTAANRVVSLAPSLSEIVVELGSADLLVGVLDGGDRPPVLKDLPSVGRYGQLDMERLLSLQPDLLLLWPGSIGPAQREQLKGLGIPIYIAESHSLDQLLHQIEDIAAQLGRPERGVQRAAQLRLRLETLRQRYRRETPLPVFYQVWDRPLYTVGGRQIISDALSVCGARNVFADLDLPAPQVSVESVLQRQPQVVLATEQAQLDAWKAWPVAQGRLLLVNDKGLERASGQMIEATARLCELIAPDR	PGPT0004685_581	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0004685-btuF-K06858	NA	NA
D1-35_04642	1881	btuB_2	COG4206	Vitamin B12 transporter BtuB	ATGAAACGCCGCCTCACCCTAGCCCTCGCCCTGCTCCCGACCTTCAACCTGCTCGCCGAGACCTTCGAACGCGACCAGGCCCTCAAGCTGCCTGACATCCTGATCAGCGCCAATCGCCAGGTCGAGGCGCGCAATGACAGCAGCGCCGCCAACACAATCTTCACCCGCGACGACATCGAACGCCTGCAACCGGCCAGTGTCACCGACCTGCTCAGCCGCGTGCCCGGCGTACAGGTGGCACCGCTGGGCGGGCGCGGCAGCCTGCCGGGGATCTACATTCGCGGCACCAAGTCGGCCCAGAGCCTGGTGCTGGTGGACGGCCAGCGCATCGGCAACGCGACCTCCGGCGACAGCAATCTGCAACGCTTGAATATCAACCAGATCGAACGGGTGGAAGTGCTGCGCGGTTCGCGCTCGGTGATCTACGGCGCCGATGCGGTGGGCGGGGTCATTCAGATTTTCACCCGTCGAGGCGCCCAACAAGGCCTGCAGCCACGCCTGCATATGGGCGTCGGCAATCATCAGACCTGGGAGCGCAGCCTCGGTCTGTCCGGTGGCGACGAGCAGACCCGTTTCAACCTGGGCGCCAGCCTCGACGAAAGCGAGGGGAGCAATCGGACCCATGAGTCCTACGCCAGCGACCGCGACGCCGATGCCAACCGCAACCAGTCCTTCAGTCTCAGCCTGAGCCATGCAGCCAGCGACGACCTGGAAGTTGGCCTGAACCTGCTGGATAACCGTGGCAAAAGCGAATACGACAACCCGTTCGGCCGCTTCGACCCCAACACCTTCGAATCGCTGCCCCAGCAGCCCTACAGTGAATTTGCGGTCAGCAGTTTCAGCGGTTATGTCGATGGGCGGATCAACGACGCGTGGAAATCTCGCCTCGAGCTGGGCCACAGCGAGAACCGGGAAAAAACGTACGACAAGCTCAGCGATGTCCGGGAGGTGTTCAACACTTATCGCGACTCGCTGACCTGGCAGAACGACGTGACCCTGGACGAACGCAACAGCCTGATCCTCGGCGGCGACTGGTACCAGGACCGCGTCAACAGCACCACGCCGTTCGATGAAGACAGCCGCTGGAATCGTGCGGCATTCATCCAGCACCGATTCCAGGCCGAAACGTTCTCGACCGAGCTGGGCCTGCGCCGCGACCAGAACCAGCAGTTCGGCGGCCAGAACAGCTGGAGCGGCACCCTTACCCTGCCGGTCAACCCAACCAACGACGTGTTGCTGACCTACAGCGAAAGCTTCCGCGCGCCGACCTTCAACGATCTTTACTACCCGGACTTCAGCAACCCGGACCTGAAACCCGAGACGGCCAGAAGCTACGAATTGCAATGGCGCAGCCAACTGAGCGACAGCGCTCGCCTGGAAGCGTCCCTGTACCGCACGAACCTGGAAGACGCGATCATCTTCGGCAGCAATTCACGGCCGCAAAACGTCGCTTCGGCGCGGATCAACGGTTTCGAAATGGCCTACCGACAGGAACTGTTCGGCTGGCAGGGCAACCTCGGCCTGGCGATCATCGACCCGCGCGACCGCGACAGCGGCCACACCCTGGCACGCCGCGCCCGCCGCACGTTGAGCCTGGACCTGGACCGGCAATTCGATCGCCTCGGCCTCGGCGCGAGCTGGCAAGCGGTGAGCAGCAGTTACGACGACGAAAACAACCGCAACGCCCTGGGCGGCTATGCGCTGCTCGGAGTGCGCGGCAGTTTGGCGTTGAGCCGGGAAGTGAAGCTTGAGATGAAGGTCGATAACCTGCTGGACCAGAATTACAGCCGGGCGCTGTATAGCCATGACGGGGAACAGTATGGGTATCGGGAGGAAGGGCGGGCGTGGTTGTTTGGGGTGACCTGGACGCCTTCCCTCTGA	MKRRLTLALALLPTFNLLAETFERDQALKLPDILISANRQVEARNDSSAANTIFTRDDIERLQPASVTDLLSRVPGVQVAPLGGRGSLPGIYIRGTKSAQSLVLVDGQRIGNATSGDSNLQRLNINQIERVEVLRGSRSVIYGADAVGGVIQIFTRRGAQQGLQPRLHMGVGNHQTWERSLGLSGGDEQTRFNLGASLDESEGSNRTHESYASDRDADANRNQSFSLSLSHAASDDLEVGLNLLDNRGKSEYDNPFGRFDPNTFESLPQQPYSEFAVSSFSGYVDGRINDAWKSRLELGHSENREKTYDKLSDVREVFNTYRDSLTWQNDVTLDERNSLILGGDWYQDRVNSTTPFDEDSRWNRAAFIQHRFQAETFSTELGLRRDQNQQFGGQNSWSGTLTLPVNPTNDVLLTYSESFRAPTFNDLYYPDFSNPDLKPETARSYELQWRSQLSDSARLEASLYRTNLEDAIIFGSNSRPQNVASARINGFEMAYRQELFGWQGNLGLAIIDPRDRDSGHTLARRARRTLSLDLDRQFDRLGLGASWQAVSSSYDDENNRNALGGYALLGVRGSLALSREVKLEMKVDNLLDQNYSRALYSHDGEQYGYREEGRAWLFGVTWTPSL	PGPT0003740_1364	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-VITAMIN_B12_RELATED_FERROUS_UPTAKE,PGPT0003740-butB-K16092	NA	NA
D1-35_04643	1899	dxs	COG1154	1-deoxy-D-xylulose-5-phosphate synthase	ATGCCCACGACGTTCCAAGAGATTCCCCGCACACGCCCGTCCACGCCCTTGCTGGACCGCGCCAACACGCCGGACGGCTTGCGTCGGCTGGGTGAAGCCGAGCTGGAAACCCTGGCCGATGAGTTGCGCCTGGAATTGCTCTACACGGTCGGCCAGACCGGTGGGCATTTCGGCGCTGGCCTGGGCGTCATCGAGCTGACCATCGCCCTGCATTACGTCTTCGACACTCCGGACGATCGCCTGGTGTGGGACGTTGGCCATCAGGCCTACCCGCATAAAATCCTCACCGGCCGCCGCGACCGCATGGGCACGCTGCGCCAGAAGAACGGCATCGCGGCTTTTCCGCGCCGTTCCGAGAGCGAGTACGACACCTTTGGCGTCGGTCATTCCAGCACCTCCATCAGCGCTGCCCTTGGCATGGCCATTGCCGCCCGCCTGCAGAACAGCGAACGCAAGGCGATCGCCGTGATCGGCGATGGTGCGTTGACGGCGGGCATGGCCTTCGAGGCGCTGAACCACGCCCCTGAAGTCGACGCCAACATGCTGGTGATCCTCAACGACAACGACATGTCGATCTCGCGCAATGTCGGCGGCTTGTCCAACTACCTGGCGAAGATCCTCTCCAGCCGCACCTATGCGAGCATGCGCGAAGGCAGCAAGAAGGTCTTGTCGCGCCTGCCCGGCGCCTGGGAAATCGCCCGCCGTACCGAAGAATATGCCAAGGGCATGCTGGTCCCCGGCACGCTGTTCGAAGAGCTGGGCTGGAACTACATCGGCCCCATCGACGGCCACGATCTGCCGACGCTGATCGCCACCCTGCGCAACATGCGCGATCTCAAGGGGCCGCAGTTCCTGCACGTGGTCACCAAGAAAGGCAAAGGCTTCGCTCCGGCGGAAGTCGACCCGATCGGCTATCACGCGATCACCAAGCTCGAACCCCTGGATGCCCCCGCCGCCGCGCCGAAAAAGGCCGGCGGACCGAAGTATTCCGGCGTGTTCGGCCAATGGCTGTGCGACATGGCCGACGCCGACCCGCGCCTGGTGGGCATTACCCCGGCGATGAAGGAAGGTTCGGACCTGGTGGCGTTCAGCGAACGTTACCCGCAGCGTTATTTCGACGTGGCAATTGCCGAACAGCATGCCGTTACGCTCGCCGCCGGCATGGCCTGCGAAGGCGCCAAACCGGTGGTGGCGATCTACTCGACGTTCCTGCAACGCGGCTATGACCAACTGGTGCATGACGTCGCCGTGCAGAACCTCGACGTGCTGTTCGCCATTGACCGGGCGGGCCTGGTGGGCGAAGACGGTCCGACCCATGCCGGCAGCTTCGACCTGTCCTACCTGCGCTGCATCCCCGGCATGCTGGTGATGACGCCGAGCGACGAGAACGAATTGCGCAAGATGCTCACCACCGGCCACCTGTTCAACGGTCCGGCGGCGGTGCGCTACCCGCGTGGCACCGGCCCGAATGCAACGATCGAAAGCGACCTGGAGCCGATCGAGATCGGCAAAGGCGTGATCCGCCGCCACGGCAAGCAAACCGCCCTGCTGGTGTTTGGTGTACAGCTGGCGGAAGCCTTGAAGGTCGCCGAAAAACTCGACGCCACCGTGGTGGACATGCGTTTCGTCAAACCGCTGGACGAAGCCCTGGTGCGCGAGATGGCCGGCAGCCACGAACTGCTGGTGACCATCGAGGAGAACGCCATCATGGGCGGCGCCGGCGCGGCGGTCAGCGAGTTTCTGGCCCGGGAAAACATCCTCAAGTCGGTGCTGCACCTGGGGTTGCCGGACATCTACGTCGAGCACGCCAAGCCGGCGCAGATGCTCGCCGAATGCGGGCTGGACGAGGTGGGGATCGAAGCGGCGGTGCGGCTGCGGTTGCAGTTGCTGGGCTTGTAA	MPTTFQEIPRTRPSTPLLDRANTPDGLRRLGEAELETLADELRLELLYTVGQTGGHFGAGLGVIELTIALHYVFDTPDDRLVWDVGHQAYPHKILTGRRDRMGTLRQKNGIAAFPRRSESEYDTFGVGHSSTSISAALGMAIAARLQNSERKAIAVIGDGALTAGMAFEALNHAPEVDANMLVILNDNDMSISRNVGGLSNYLAKILSSRTYASMREGSKKVLSRLPGAWEIARRTEEYAKGMLVPGTLFEELGWNYIGPIDGHDLPTLIATLRNMRDLKGPQFLHVVTKKGKGFAPAEVDPIGYHAITKLEPLDAPAAAPKKAGGPKYSGVFGQWLCDMADADPRLVGITPAMKEGSDLVAFSERYPQRYFDVAIAEQHAVTLAAGMACEGAKPVVAIYSTFLQRGYDQLVHDVAVQNLDVLFAIDRAGLVGEDGPTHAGSFDLSYLRCIPGMLVMTPSDENELRKMLTTGHLFNGPAAVRYPRGTGPNATIESDLEPIEIGKGVIRRHGKQTALLVFGVQLAEALKVAEKLDATVVDMRFVKPLDEALVREMAGSHELLVTIEENAIMGGAGAAVSEFLARENILKSVLHLGLPDIYVEHAKPAQMLAECGLDEVGIEAAVRLRLQLLGL	PGPT0008960_2872	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
D1-35_04644	888	ispA	COG0142	Farnesyl diphosphate synthase	ATGATCGGCGCGTATCAGGCCAGCAGTCAGGCCCGGGTCAATGCCGCGCTGGACAGCTTGTTCGCCGCCCCGAGCGCTGAACTGACGCGGCTGTACGAAGCCATGCGCTATAGCGTGATGAACGGCGGCAAGCGCGTGCGTCCGTTGCTCGCCTATGCCGCGTGCGAAGCCCTTGGCGGCGCTGCCGAGCAGGCCAACGGCGCGGCCTGCGCGGTGGAACTGATCCACGCCTATTCGCTGGTGCACGACGACTTGCCGGCCATGGACGATGACGACCTGCGTCGCGGCCAGCCGACCACGCACAAGAAATTCGACGAAGCCTGCGCGATCCTCGCGGGCGACGGTTTGCAAAGCCTGGCTTTCAGCGCCCTGCTGGACCCGGCCCTTAGCAATTGCCCGGCAGAGGTTCGCCTGGACATGATCAGCGCCCTGGCACAAGCGGCAGGCCCGGCTGGCATGGTCGGCGGCCAGGCCATCGACCTCGGTTCGGTGGGCTTGAAACTCGACCAGGACGCCCTGGAATACATGCATCGGCACAAGACCGGCGCGCTGATCGAAGCCAGCGTCCGGCTCGGCGCCCTGGCCAGCGGCCGGGCCACGCCTGAACAGCTGCAAGCCTTGCAGACCTACGCCCGGGCCATCGGCCTGGCCTTCCAGGTGCAGGACGACATCCTCGACGTCGAAAGCGATACCCAGACTCTCGGCAAACGCCAGGGCGCCGATATCGCCCGTGACAAGCCGACCTACCCGGCCCTGCTCGGACTCGAGGCCGCCAAGGCCTACGCGCTGGAGCTGCGCGACCAGGCCCTGGACGCGCTGCGACCCTTTGACGCGGCCGCCGAACCGTTGCGCGAGCTGGCGCGTTATATCGTCGAACGACGCAGCTGA	MIGAYQASSQARVNAALDSLFAAPSAELTRLYEAMRYSVMNGGKRVRPLLAYAACEALGGAAEQANGAACAVELIHAYSLVHDDLPAMDDDDLRRGQPTTHKKFDEACAILAGDGLQSLAFSALLDPALSNCPAEVRLDMISALAQAAGPAGMVGGQAIDLGSVGLKLDQDALEYMHRHKTGALIEASVRLGALASGRATPEQLQALQTYARAIGLAFQVQDDILDVESDTQTLGKRQGADIARDKPTYPALLGLEAAKAYALELRDQALDALRPFDAAAEPLRELARYIVERRS	PGPT0007560_1948	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007560-crtE|ispA-K13789	NA	NA
D1-35_04645	243	xseB	COG1722	Exodeoxyribonuclease 7 small subunit	ATGGCCCGCAAGAAAGCTGCACTGGATTTCGAACAATCTCTGGCCGACCTGCAAGCGCTGGTCGAACGCCTGGAGAACGGCGAACTGTCGCTGGAAGACTCGCTAACCGCTTTCGAGCAGGGTATCGGCTTGACTCGCGACTGCCAGGCGGCGCTGGCCCAGGCCGAGCAGAAAGTGCAACTGCTGCTGGAACGCGACGGCGAGCTGACCGAAGAACCGTTCGACGCGGAACAGCCTGAATGA	MARKKAALDFEQSLADLQALVERLENGELSLEDSLTAFEQGIGLTRDCQAALAQAEQKVQLLLERDGELTEEPFDAEQPE				NA	NA	NA	NA	NA
D1-35_04646	1137			hypothetical protein	ATGGCAGCTCATTGGATCTGGCAGCAGGCCGAATGGCCCGACTTTCACTGGCAAGCTGAAGCATTGGCGCCGGCGCTAAGGGAATGCGTAAAGGCGCAAGGTCGGTTGCTGGGCATGACGGGCGCGGTCACGGCGTCAATCAGCGTGCAGAACGAACTTGATGCCTTGTTGCAAAACATCGTGTCCTCTTCAGCTATCGAAGGAGAACAGTTGAATGTCGGCTCGGTGCGCTCGTCCCTGGCCCGCCGCCTGGGCCTGGAACACGCCGATGACACTTCGGTCACTCAGCGCAGCGAAGGCTTGGCGAAGCTGCTGTTGGATGCGACTCGGCATTTCAACCAGCCCTTGACTGTCGAACGCTTGCTGGAATGGCATGAGTGGTTATTTCCTGATCAAACCAGCGACCTTGCCCATCGACGGATCCGCGTAGGTGCACTGCGCGGTGACGAACCGATGCAAGTGCTTTCGGGAAGGCTGGAGCGGCCTACCGTGCATTTCGAAGCGCCGCCTCGAAATGGACTTGAGCAACAATTGCAACAGTTCATCGACTGGTTCGAAGCCAGCCGTCATCAGTCCAGCATCGATCCGCTGCTACGTGCCGGCATCGCTCATTTCTGGTTTGTCACCCTGCACCCATTCGACGATGGCAATGGCCGCCTGACCCGCACCCTGACCGATCTTGCACTGGCCCAGGGCGAGGCCCAGGCGATCCGTTTCCACGCGATGTCGGTGAGCATTCTGGATGATCGCGTCGGTTATTACCGAATTCTGGAAAACAGCCAGAGGGCCACGCTGGATATCACCGACTGGTTGACCTGGTTCCTGCAAACGCTTTTGCGCAGCCTGCAGAAGGCAATGACCAATATCGAAAGTGTTCTGGGCAAGACGCGTTTCTGGCAAGTCCATCGCGACTCGGCGCTCTCACCGGAACAGATCAAAGCGCTGGACCGATTGCTCGACGGTGGTGAAAAGGGGTTCGAGCAGGGCATCAGCGCAGCTCAGTACCAAGCCGTGGCCAAGGTCTCCAAGGCAACGGCCACGCGACACCTGACGGAGCTGTTGGAGAAGGGCTGCCTGGAGCGGATGCCCGGCGGGGGACGCAGCACCCGTTATCGCATCAATTATCCCGCTGGATAG	MAAHWIWQQAEWPDFHWQAEALAPALRECVKAQGRLLGMTGAVTASISVQNELDALLQNIVSSSAIEGEQLNVGSVRSSLARRLGLEHADDTSVTQRSEGLAKLLLDATRHFNQPLTVERLLEWHEWLFPDQTSDLAHRRIRVGALRGDEPMQVLSGRLERPTVHFEAPPRNGLEQQLQQFIDWFEASRHQSSIDPLLRAGIAHFWFVTLHPFDDGNGRLTRTLTDLALAQGEAQAIRFHAMSVSILDDRVGYYRILENSQRATLDITDWLTWFLQTLLRSLQKAMTNIESVLGKTRFWQVHRDSALSPEQIKALDRLLDGGEKGFEQGISAAQYQAVAKVSKATATRHLTELLEKGCLERMPGGGRSTRYRINYPAG				NA	NA	NA	NA	NA
D1-35_04647	789			hypothetical protein	GTGCGTTTTCTTTTTTTATCGATCGTGCTGCTCGGTGCGCCGTTGGCGTGGGCCGGGCCTTCGGCCGAGTTGTCGGAGCCGGTCGGTGGCTGGCGTTATAGCGGCTTGCTCGATCGCACGGAAAACCCTCAGGTCGCCTATCCGACACCGCCCATTGACCGAGGCATCCAGCGCAATCGCACGATGATCGAAGGTCGGATCAAGGACATGGGCACGGCGCGCCAGCCCCACAGCCTGGCAGTCAACGGCAACCCGTTGAACCTCTATACCGACGACGAGGGGCGTTTTGCCCGGCCGTATGCCTTTGGCGCCGGCTCCAACAGCGTCGAGGTGCGCAGCTCCGAAGGACAGTCCCTCAAGCGCGTGCAGTTTTATGAAGCCAACAACCTGCGCACCCCGGCGCAAATTCGCGTGGTGCTGGGCTGGGACGACCCCAAGGCCGAACTCGACCTGCATATCGTCACACCCGATGGCCAGCATGCATTCTTCGGCCAGCCGGCGCTGAGCAATGGCGGCGGCCTCGACCCGGACGGCGTCGATGGCCCCGGCCCCGAGATGTTCACCATGACCGCGCCGATGCACGGTACCTACCTGGTCTACGTGAACTATTGGGGCAACTACGGCAGCGGCGGCTACAACTTCGATGAAACGAGCAACCAGAACGAGGTGATCACCTCGCAGATCAACCTGGTGCTCAACGAAAACACCGTCGATGAAAAACGCGAGACCTTTGTCGTGCCCCTGCGCGCCATTGGCGATCTGTTGCTGGTCAAGACTTTCAATTACTAA	MRFLFLSIVLLGAPLAWAGPSAELSEPVGGWRYSGLLDRTENPQVAYPTPPIDRGIQRNRTMIEGRIKDMGTARQPHSLAVNGNPLNLYTDDEGRFARPYAFGAGSNSVEVRSSEGQSLKRVQFYEANNLRTPAQIRVVLGWDDPKAELDLHIVTPDGQHAFFGQPALSNGGGLDPDGVDGPGPEMFTMTAPMHGTYLVYVNYWGNYGSGGYNFDETSNQNEVITSQINLVLNENTVDEKRETFVVPLRAIGDLLLVKTFNY				NA	NA	NA	NA	NA
D1-35_04648	1710			hypothetical protein	ATGAGCGACAACACTGCTTCCCCGACCACGCCGACCCCTGTCGCCAAACCAGTGCGCCGCTGGCCGGCGATACTGATCGGGCTATGCCTGGTGACCGGCGTGGCCGCCGGGTTGGGCTGGTTCATGACCAAGCCCAAGGCGCCGCCCACGGAGCTGGCGTTGGAAAAGCTCGGCGTGAGCCGTCCCGACGGTCTGCTCGAGGCGCACTCCTTGAGCCAATTGCCCAAGGACCTGCTGGCCGTGCCGTTCCTCAAGGCCACGCTCACCGAGGATTTCGTCTTCTATTACGAGGCCCACGCCGACCGCCTCGGCCTGATCGGCAGCCTGCGCCGGATCATCTACGAGCATGACCTCAAGCTGCAGGACAGCCTGATCGAGCAGCTTTTCGACCAGCCAGCCGACGTCGCGCTGTGGCGCGGTGCGGACGGCCGACTCAAGGATTTCCTGCTGGTGATGGACCGTGGCGGATTGGCGAAGGTGCTGGAGCCGTTGGCGAAAGTCGCCCTGGACGACACCCAGTTGAGCAAGCTCGGCGACCTGAAGGTGGGCGGCGATGAAGTCGCGCTCTATCAACTGAGTTATAACGCCAGCAAATCCCTGGTTTTCGCGTCCCATGGCGACAAGCTGGTGGTGCTGTCCAACCCGACCAAGCTCTACGACCAGGGCAGTGGCCCTACCGACGAACCGGGCATGATCTCGACCCAGGCCCTCGAAGCGTTGCTGGCCGGTGAGAAACTCTTCCCGGAAGCCTTCGGCCTGCCGCCCAAGGCGCCGCAGGTCAAGCAGCGCATCTCGGTCAACGCCAGCGTGCTCGCCATGGGTTACCAGCGTTTCATTCCGAACTTCGCCGGCTTGCGTTTCGACATGGACGACAAGGGCTGGCACAGCTTCCTGGCCATGGACGAATTGGAGAACCAGCCGGACTTGGATTTCAAGCCCATCTGGCAAGCCATGCCGATGGGCGCCAGCGCCTGCGTAGCCTTGCCCCTGGCCGCCGAGCAGCAGAAGCCCCTGCTGGTGAAACTCGGCGCCGACGAAAAAGCCGCCCAGGCCATGGTTGATCACGTGGCGGGTGCGGCGGGCCTGTGCTGGTACGCCGAGTCGCGCCTGTACACCCCGCTGCTGGTGGCAAGCCTGAACGAAGACGACGGCAAGCTCGACGCCGACCTGGGCAAGCTGTTCGGTTCGATGGTGGGCGCCTATGAAAACAATGTCGCCGAACATGCGTTCCCGGTTGTAGAGAAGCAGCAAGGCGCGATGCACCAATGGCAACGCCAGGTCAGCTCCAACTTCGGCCCCTACCTGGCCAAGGACGCTGAGCAGCCCGAGTCGATCACCGGCAAGGCGTTCATGCGGGTCAGCCTGGCGCGCCACGGTTCGACCCTGCTGTTCTCCCTTGACGACAAACTGGTCGACAAGGCCCTCGGCACCCTCGACAAACGCTTCCCGCCCATGGCCGATGTAGTGCCCAAGGACCAATTGATGCCGGTCTACTTTGGCCCGGACTCCATGGCGCAACTGATGCAGCGCGAAACCCTCGACAGCCTGCCCCAGGACATGGAACCGGTGTTCTATAACGCCGCGCAAACCTACCTGATTCCGAAACTGCGCACCCTCGGCGGCTACGGCAAATATGCGCTGACCTTGCCTGCAGGCAGCGAGCCGGACGGCCATTGGCAATGGTTGCCGCTGGAATGGAAAGCGCTGTGA	MSDNTASPTTPTPVAKPVRRWPAILIGLCLVTGVAAGLGWFMTKPKAPPTELALEKLGVSRPDGLLEAHSLSQLPKDLLAVPFLKATLTEDFVFYYEAHADRLGLIGSLRRIIYEHDLKLQDSLIEQLFDQPADVALWRGADGRLKDFLLVMDRGGLAKVLEPLAKVALDDTQLSKLGDLKVGGDEVALYQLSYNASKSLVFASHGDKLVVLSNPTKLYDQGSGPTDEPGMISTQALEALLAGEKLFPEAFGLPPKAPQVKQRISVNASVLAMGYQRFIPNFAGLRFDMDDKGWHSFLAMDELENQPDLDFKPIWQAMPMGASACVALPLAAEQQKPLLVKLGADEKAAQAMVDHVAGAAGLCWYAESRLYTPLLVASLNEDDGKLDADLGKLFGSMVGAYENNVAEHAFPVVEKQQGAMHQWQRQVSSNFGPYLAKDAEQPESITGKAFMRVSLARHGSTLLFSLDDKLVDKALGTLDKRFPPMADVVPKDQLMPVYFGPDSMAQLMQRETLDSLPQDMEPVFYNAAQTYLIPKLRTLGGYGKYALTLPAGSEPDGHWQWLPLEWKAL				NA	NA	NA	NA	NA
D1-35_04649	648			hypothetical protein	GTGACAGGACTGATCCGCATTCCCGGATTGGTGCTGCTGCTGGCATTGCTGCTCGGCGCGCGGGCGTTCGCCGATGAGGCGCCGCCGCTGGATGGGCAACAATCCCAGGTATTTCGGGCCTGGTTCGTGCGCATCGCCCAGGAGCAACTGAGCAAAGGCCCGAGCCCGCGTTGGTACCAGCAGGACTGCGCCGGACTGGTGCGTTTCGCTGCCAACGAAGCGCTGAAAGTCCATGACCAGAAATGGTTGCGCAGCAATGGCCTGTCCAACCGCTACCTGCCGCCGGAGCTGCCGCTGAGCGATGCGCAACGGCGCCTCGCCCAGCAATGGCAACAGGGCGGCGGCAAGGTCGGGCCCTATGTCAACGCGATCAAGCTGATCCAGTTCAACAGCCGTCTGGTGGGCCGCGATGTCACCCAGGCCCGGCCCGGCGACCTGATGTTCTTCGACCAGGGCGACGACCAGCACCTGATGATCTGGATGGGCCGCTACATCGCCTATCACACCGGCACTACCACCCCCACTGACAACGGCATGCGTTCCGCAAGCCTGCAACAACTCATGAACTGGAAGGACACCCGATGGATACCCGACGCAGCCAACCCCAACTTCATCGGCGTCTATCGACTCAACTTTCTCACCCAATGA	MTGLIRIPGLVLLLALLLGARAFADEAPPLDGQQSQVFRAWFVRIAQEQLSKGPSPRWYQQDCAGLVRFAANEALKVHDQKWLRSNGLSNRYLPPELPLSDAQRRLAQQWQQGGGKVGPYVNAIKLIQFNSRLVGRDVTQARPGDLMFFDQGDDQHLMIWMGRYIAYHTGTTTPTDNGMRSASLQQLMNWKDTRWIPDAANPNFIGVYRLNFLTQ				NA	NA	NA	NA	NA
D1-35_04650	4569			hypothetical protein	ATGACCGGTGCCCGCATGCTGCGCTTGTGTTCGAAACTGCCCCTGCTGTTTGCCCTGTTGCTGGCACCTCTCGTGAATGCCGAAGACACCGTGGAGCCCAGCGGCTACACGCCGGTGTCCGGTGAAAGCTTCTTCCTGCTAGCCGACAGCAGTTTCGCCAGCGACGAGCAGGCGATGGTCCGTCTCGAAGCGCCGGGTCGCGACTACCGCCGGTTCCGCATGGAGCCCTACGGCGGCGCCGATATCCGCGTCTATCGCATCGAAAAGCCACTGGAGTTCCTCAAGCGCCAGAAGAACCTGCATCGCGTGGTCAGCGACGGCCAGTTCAAGGGCGAAGGCTTGTCCAATACCCTCGCGTACCTGTGGGACAACTGGTATCGCAAGTCCCGCCGGGTGATGCAGCGGGCGTTCTCCTACGAGTCCCGCCAGCAAGTCACTGAAGAAGTGCCGGAGCTGAAGGTCGGCAATGCCCTGATCGCGCCGACCCCGTACGACGCTCCAGCGCAATTCGCCTTGATCCCCGGCTTGCCGGTGGTCAGCCAGTTCCGCTATCCGCTGTGGCAGGCCAAACCGATCCAGCCACCGGCCGGCGTCGACCTGGCCGGTTCGTCCAGCGACTTTGTCAGCGTCGCGCCGGGCAATGTCTACGTGCCGCTGGGCCAGTTGAAGCCGGGCCTGTACCTGGTGGAAGCGCTGATCGGCAAGTACCGGGCGACGACGATGGTCTTTGTCTCCAACACCGTGGCCGTGAGCAAGATTGCCGGCGACGAATTGCTGGTCTGGGCCGCGCGCAAGCATGAGGGCCGTTCGGTGCCCAAGGTCAACGTGCTGTGGACCGACGGCCTGGGCGTGATGAGCAGCGGTGCCACCGATGAAGACGGCCTGCTGCGCCTCAAGCACGTCAGCCCGGAGCGTTCGTTCGTCATTGGCGAGGACGAAGAGGGCGGGGTGTTCGTCTCGGAAAACTTTTACTACGACAGCGAAATCTACGACACCAAGCTTTACGCGTTCACTGACCGGCCGCTGTACCGGCCGGGGGATTGGGTGTCACTGAAGATCGTTGGCCGGGAGTTCAAGAACGCCCGCGACTCGGTGCAACCGACCGCCGCCGACGTCAACGTCAGCGTGCTGGACGCGACCGGCACTGCGCTGCAAACCCTGGCCCTGAAACTCGACTCCAAGGCCGGCACCCAGGGCCGTTTCCAATTGCCGGAAAATGCCGTGGCCGGTGGTTATGAGTTGCGCTTCAGCTACAAGGATCAGCTCTACAGCAGCGCCTTTCGCGTGGCTGAATACGTCAAGCCGCATTTCGAAATCGCCCTGAACCTCGCCAAGCAGGATTACCGCACCGGCGAGCCGGTCAAGGGCAATCTGGTGTTGCTGTACCCGGACGGCAAGCCCGTGGCGGACGCCAAGGTCAGCCTGAGTCTGCGCGCCCAGCAACTGTCGATGGTAGATAACGAGCTGCAATACCTGGGGCAATTCCCGGTGGAGCTGACCAGCAGCGAAGTGACCACCGACGCCAAGGGCAACGCGGTCCTCGACCTGCCGGCCGCCGACAAGCCAAGCCGCTACACACTTACTGTATTCGCCAGCGATGGCGCGGCCTATCGGGTCAAGACCAGCAAGGAAATCCTCATCGATCGTGGCGCGGCGAATTTCCGCCTGGGCGCTCCCCAGCGGTTCAGCGCCGTCGGCCAGAAAGTGTCGTTCAGCTACGCCAACGAAGGCGGCAACGAGCAGGCCAAGGCCGTGACCCCGGGCAGCTACGCCTGGGTACGCCTGGAAGACCAGAGCACCGGCGAAGGCAAGCTGGCGGCCAAGGACAAGGGTTTCAGCCTGTCCTTCGAGCGTCCTGGCACCTACAACCTGACGCTCAAGGACGACCACGGCCGGGTCATTGGCGCGGTCGCGCATGCGGTAACCGGTGAAGGTATCAAGGCCGTGCCGGGCACGGTCGAGATCGTCTTCGACAAGCCTGAATACAAGACCAGTGACGAAGCCCTGGCCTTGATCACTTTCCCGGAACCGGTCAGCGACGCGCTGCTGTCCCTGGAGCGGGACAAGGTCGAGGCTACCGCGCTACTGACCAAGGGCGCCGACTGGCTGAAGATGGAAAAGCTCAGCGACACCCAATACCGCGCGCGCATTGCCGTGAAAGACAACTTTGCGCCGAACCTGACCTTCTCGGTGCTGTACACCAAGGGCGGCCAGTACAGCTTCCAGAACGCCGGCATCAAGGTGGTTGCGCCGCAGATCGACGTGGCCATCACCACCGATAAAGCCACGTATCGCCCGGGCGACACCGTAACCGTGGACTTGGGCACCCAGTTCGCCGGCAAGGCGATCCCGGCGCACCTGACCGTCAGCGTCGTCGATGAAATGGTCTATGCCCTGCAACCGGAAGTGGCGCCCACCATCGACCAGTTCTTCTATCACCCACGCCGCAACAACGTGCGCACCAGCGCCAGCCTGTCATTCATCAGCTACGACGTGGCGCTGCCGGGCAGCCCTGGCGCACCGGGCAAGGCCAACCGCAGCGAGCGTGGCGTCAAGGTGCTGGAACGGCCGCGTCGCGAAGACGTCGACACCGCCGCATGGCAACCGGAGCTGGTCACCGACGCCAACGGCAAGGCCCGCTTTACCTTCAAGATGCCGGACTCCCTGACCCGCTGGCGCATCACCGCCAAGGCAATCGCTGACGACGGCCAGGTGGGGCAGAAGAAGCAGTTCATCGCCTCGGAAAAACCGCTGTACCTGAAGTGGAGCGGCCCGACCCGCTTCCGCGTGGGCGACAAGCCGCAACTGGGCCTGTTCGTCTTCAGCCAGTCGGAAAAACCGCTCAAGGCCGAACTGTTGATCCGCTACGCCGGCGCCGAACAGCGTGTGGTCGCGGACCTGAAAAATGGCATCAACTACGTCGCGCTGCCGACCATGGAGCTGAGCAACGGCGACTTGACCGTGCAGTTGCAACTCAATGGCGAAACCCAGGACGCCCTGGCCATGCACCTCAATGCCAGCGGCAACGGTTGGCAAGTCACCCAGAGCCAGCGCCTCGACGTCATGAGTGACGCCACGCCACTGAACCTGCCGGCCGACGCCAGTGACATTCGCCTGCGCCTGGATGACAGCCCGCAAGCGCTGTTCCGTTCGGCCCTGGACGACCTGTTGAGCTACCCGTACGGCGGCGTCGAACAGACCGCCAGCCGCTTGTTGCCGTTGAGTATTGCCTACCCGTCCCTGGCGTCGAACCCGCAGATCCGCGACCGCTTGCGTTTGATCATGCAGAACAGTCGCTTGCGCCTGGTGCAGATGGCCGGCCCGTCGGCGAGCTTCACCTGGTGGGGCCAGGATGGCGAGCCGGATGCATTCCTCACCGCCTACGCTTATTACGCCGACTGGCACGCCAGCAAGGCCCTGGACCTGAACCTGCCGCCGGAACACTGGCAGCGAGTGCTGGAGGTCTATGCCAAGCAGGCCGGTGAGACGCCATTGCTGCAACGTGCCCTGATCCTGTCGTTCGCCAAACAGATGCAACTGCCGGTGAACACCTTGATCAGCGGTCTGATGGACGACCTGGCGAAGGCCAGCGAAGACAGCACCGAGAGCGTGCTGGACAGTGGCGAGGACAGCCTCGTCATGTACGCGCCGGATTCAGCCCTCGGCCTGGCCAGCGCCCGTGTCCTGACGGCATCGCTGGCCAAGCAGGTAAAAGTGCCAATGCCGGCGGCCTTCAGTCGCCAGGCAGACGCCGCGCAACAGCAGTTGGAACTCAGCTCCCAGCCGTTCGTCGAGGCCTTGCTCTTGTCGATGCAGAGCTTCGATCAGGCGCGCGCCGCCGCGTTGCTGCAGCGCGTGTTGCCACAGCAATCCACGCTGGAACGTGCCCTGGCCCTGACTTGGTTGCAGCGCAGTATCGAACAGGCACCGGCGGCCACAACCCTGGAACCGGCCGAAGGCTGGGCAGCCAAGCAGGGCGCGACCGGTGAAACCTACTGGCAGTGGCAGGGCGCGCAGCTACCAACGATGCTGACCCTGACCAGTGCCCAGGCGCGTCCGGTGCAGGCGTCATTGAGCTTCCAGAGCCAGCAAGCGCCAATTGCGCCGATGGCCGTGTCCATCACCCGCCGCCTGTCGCGCCTCGTCCCGGGCGACGAAGCGTTTACCTTCAAGCTCGAAGCCGTCGGCAACAAGCCGTTGTCCAGCGACAGCCTCTATCTGGATGAAGTGATCATCAACAGCAAGGCCTCGACGCCGCTGCGCTACGGCATGCTCGAAGTGCCGCTGCCGCCGGGCGCTGATGTGGAGCGCACCACGTGGGGCATCCAGTTGCTGGGCAAGGCCGACAGCGAACCGACGTCCCTGGAAAAGGCCCGTTTCGAGCCGGGCCAGATGGCTTACGCGGTCCCGGTGGATGCCCTTAGTGGCGAACTGCGCCTGCGGCACCTGGTGCGTTTCTCCCAGAAGGGCCAGTTCACCCTGCCGCCGGTGCGTTTCACCCAGGTGTATGCGCCGCAAAACCAGGCTCGCGAACAGAAACCGGCGCTCGGTCAGGTGACGGTCAACTGA	MTGARMLRLCSKLPLLFALLLAPLVNAEDTVEPSGYTPVSGESFFLLADSSFASDEQAMVRLEAPGRDYRRFRMEPYGGADIRVYRIEKPLEFLKRQKNLHRVVSDGQFKGEGLSNTLAYLWDNWYRKSRRVMQRAFSYESRQQVTEEVPELKVGNALIAPTPYDAPAQFALIPGLPVVSQFRYPLWQAKPIQPPAGVDLAGSSSDFVSVAPGNVYVPLGQLKPGLYLVEALIGKYRATTMVFVSNTVAVSKIAGDELLVWAARKHEGRSVPKVNVLWTDGLGVMSSGATDEDGLLRLKHVSPERSFVIGEDEEGGVFVSENFYYDSEIYDTKLYAFTDRPLYRPGDWVSLKIVGREFKNARDSVQPTAADVNVSVLDATGTALQTLALKLDSKAGTQGRFQLPENAVAGGYELRFSYKDQLYSSAFRVAEYVKPHFEIALNLAKQDYRTGEPVKGNLVLLYPDGKPVADAKVSLSLRAQQLSMVDNELQYLGQFPVELTSSEVTTDAKGNAVLDLPAADKPSRYTLTVFASDGAAYRVKTSKEILIDRGAANFRLGAPQRFSAVGQKVSFSYANEGGNEQAKAVTPGSYAWVRLEDQSTGEGKLAAKDKGFSLSFERPGTYNLTLKDDHGRVIGAVAHAVTGEGIKAVPGTVEIVFDKPEYKTSDEALALITFPEPVSDALLSLERDKVEATALLTKGADWLKMEKLSDTQYRARIAVKDNFAPNLTFSVLYTKGGQYSFQNAGIKVVAPQIDVAITTDKATYRPGDTVTVDLGTQFAGKAIPAHLTVSVVDEMVYALQPEVAPTIDQFFYHPRRNNVRTSASLSFISYDVALPGSPGAPGKANRSERGVKVLERPRREDVDTAAWQPELVTDANGKARFTFKMPDSLTRWRITAKAIADDGQVGQKKQFIASEKPLYLKWSGPTRFRVGDKPQLGLFVFSQSEKPLKAELLIRYAGAEQRVVADLKNGINYVALPTMELSNGDLTVQLQLNGETQDALAMHLNASGNGWQVTQSQRLDVMSDATPLNLPADASDIRLRLDDSPQALFRSALDDLLSYPYGGVEQTASRLLPLSIAYPSLASNPQIRDRLRLIMQNSRLRLVQMAGPSASFTWWGQDGEPDAFLTAYAYYADWHASKALDLNLPPEHWQRVLEVYAKQAGETPLLQRALILSFAKQMQLPVNTLISGLMDDLAKASEDSTESVLDSGEDSLVMYAPDSALGLASARVLTASLAKQVKVPMPAAFSRQADAAQQQLELSSQPFVEALLLSMQSFDQARAAALLQRVLPQQSTLERALALTWLQRSIEQAPAATTLEPAEGWAAKQGATGETYWQWQGAQLPTMLTLTSAQARPVQASLSFQSQQAPIAPMAVSITRRLSRLVPGDEAFTFKLEAVGNKPLSSDSLYLDEVIINSKASTPLRYGMLEVPLPPGADVERTTWGIQLLGKADSEPTSLEKARFEPGQMAYAVPVDALSGELRLRHLVRFSQKGQFTLPPVRFTQVYAPQNQAREQKPALGQVTVN				NA	NA	NA	NA	NA
D1-35_04651	1551			hypothetical protein	TTGCGCCTGGCTTTCGACGGTCAGCTGCTGCGAGTGAGCCAGACCCAGGTGCTGGACCGCCAGCCGTTGCCGGACGCGTTGACGGCACCGTTGGGCAGCCTGTGGAAGCTCTTCGTCTACGCCTGGCTGGTGGACACCGATGCTCGCGAGCCGGTCTATGAGTGTCGCGGCGAATCGAAAGAAGAAGTCTATTGCTGCACTGCCGGGCAGAGCATCGGCCGTGATCAGGCGCTGGTGAAGTCCTGCGGCTTGTACTTCGAACCGCAACGGCTCGGGCTTTCGGCGCCGGACTGGCGAGATTACTGGCAAGCGCGCCGGGCGCCGAACTGGTTGCTGGACTTGCCGACCTTGCAGCCGCAAACCCAGGTACCCGTTGCAGAACTGCTCAAGGCGCTGGCCACGTTGCCGGCCCAGGATCAGGCCCGGCAGGTATTACTCGACGTGGTACTCGGCGCTGCGGATGGGCGATTGGTCGGTCAATTGGGTGGTCGCCTGCGGGTCAAGACCTGGAGCTGGCTGGGTGACCGGGGCCCAGCGTCGCGCCAGGGCGGTTTCGCCGGTTGGCTGGCCGATGGCACGCCCGTCTGGGCCGGTGGGCGCGGTACCAGCCAGCAGGTGCTGAAGAAGTATGGCGATGGCTTGGCCACGGCATTGCCGTCGCGCTGGCCGGCGGAAACCGGGCGTTGCGTGGAAGTAGGCCTGTTTGCCCGTTATCCGTTGCAGCGGGTCATGGCTGGCGACCGTCCTGCCACGCCGGGTCAGCTGCGCGGCGATTACCGTGTCGAGTTCATCAATGGCAACCAATTGGATATCCACAGCGACGGCGAGCTGTTCCTGCTGCCTGGCAAGCTGGTCGCACGACTGGATCGGGAAGAATACGTCGCCCGGGTCCTGCAACGCGAAGCCAAGGCCGAACCGGTCGAAGCGGCCAAGGCATTGGCCGTGGCGATTCGCACCTACCTGCTGCAAAACGCCGGGCGCAATGGTGATTGCCTGAGCATCGATGACAGCAGTCACCGCCAGCGCGTCGCCCCGCGTCCGGCGGCGCCTGAAACCCGCGCGATTGCCGCGTGGACCACTGATCTGGTCCTGGCCGGCACTGACGTCACTTACCACTCCGATCAACCGGGCCCGGACAAATTGTCCTGGGCCCAAGCCGTTGAACAAGCCAACGGCGGCCAACGCTACGACGCCATCCTGCTGCATGCGTATCCGCGTGCCAGCCTCAGCCGCTGGGACAACCCGGTAGCGTCCTGCGAAGCGTTGCCCGCGGCCCAGGACTGGTTGCTGAAGCAGCGCCGTGGCTGGCGTCAGCGCCTGGAAAGCGAAGTGGGCTACAACGAAATCAGCGCTTTCGCGGTCTGCCGCGTCGCCTTCGGCCGGCCGTATGTCGACCGCGAGCGCCAGCGCATCTACGTACGTGGCGTGCTGTCGCTGCAAGACCGCCTCGACCTCACACATGAATACCTGCACCTGGCCTTTGAGGCTCACCCCAACGGCCAGGACGAAACCTATATCGAAGGGCTCGCCCGTCACCTCTTGCTGGAATAG	MRLAFDGQLLRVSQTQVLDRQPLPDALTAPLGSLWKLFVYAWLVDTDAREPVYECRGESKEEVYCCTAGQSIGRDQALVKSCGLYFEPQRLGLSAPDWRDYWQARRAPNWLLDLPTLQPQTQVPVAELLKALATLPAQDQARQVLLDVVLGAADGRLVGQLGGRLRVKTWSWLGDRGPASRQGGFAGWLADGTPVWAGGRGTSQQVLKKYGDGLATALPSRWPAETGRCVEVGLFARYPLQRVMAGDRPATPGQLRGDYRVEFINGNQLDIHSDGELFLLPGKLVARLDREEYVARVLQREAKAEPVEAAKALAVAIRTYLLQNAGRNGDCLSIDDSSHRQRVAPRPAAPETRAIAAWTTDLVLAGTDVTYHSDQPGPDKLSWAQAVEQANGGQRYDAILLHAYPRASLSRWDNPVASCEALPAAQDWLLKQRRGWRQRLESEVGYNEISAFAVCRVAFGRPYVDRERQRIYVRGVLSLQDRLDLTHEYLHLAFEAHPNGQDETYIEGLARHLLLE				NA	NA	NA	NA	NA
D1-35_04652	834			hypothetical protein	ATGACACTCCGTTATCCACAGGTCTTGTTGTTGCTTTGTGCCTTGACCGCGTTGCCACCGGCCATGGCTGCCGACCCCATCAAGCTCGACACTCCCGTCGGCGGCTGGCGCAGCGGTGCGCCGGGGGGCGAGGGCGAAAGCTTCAGCCAGACCGTCAACTACCCGGCCTCGTCGGTCAATACGCCCCCGGGCCAGGCCGACACCGCGCGCATCAGCGGCCAGATCAAAGGCGCGCCCAAGGACAGCAATGCACCAGGACAATTGATCGTCAACGGCGTAAGCCTGCCGCTGAAAACAGATGAAGAAGGCCGTTTCGACCGACCGTTCTCATTCCCCAATGGCAGCAACAGCGTTGAAGTGCGCAGCGCCGATGGTCAGCAGCGCCACCGCACGCAGTTCCTCAACACCACCGGCGGCGCCACCCCGGCCAAGCTGCGGGTCCTGCTGACTTGGGATAGCGACGGCACCGACCTCGACCTGCACCTGGTGACGCCCGATGGCGCCCACATCTGGTACGGCGACCGCGCCGTCGCCAACGGCGCCGCGCTCGACGTCGACGTCACCACCGGCTACGGCCCGGAAATCTTCGCCATGCCCGCGCCGATCAAAGGCCAGTACCTGGTATACGTGAATTATTACGGCGGCGGCTACCGCAGTGACGAGGATGAGGAGGGCGACGGCGAGCAGGTGGAGCAGGCGCAACAGGCCCTGACCACGGCGCAGGTAACGGTGATTACTGAAGAGGGCACACCGAGCGAGAAAATGGAAACGTTTGTGGTGCCGATGCGGGCGGTCGGGGAGCTGACATTGATCAAGAGCTTCAGCTATCCGTGA	MTLRYPQVLLLLCALTALPPAMAADPIKLDTPVGGWRSGAPGGEGESFSQTVNYPASSVNTPPGQADTARISGQIKGAPKDSNAPGQLIVNGVSLPLKTDEEGRFDRPFSFPNGSNSVEVRSADGQQRHRTQFLNTTGGATPAKLRVLLTWDSDGTDLDLHLVTPDGAHIWYGDRAVANGAALDVDVTTGYGPEIFAMPAPIKGQYLVYVNYYGGGYRSDEDEEGDGEQVEQAQQALTTAQVTVITEEGTPSEKMETFVVPMRAVGELTLIKSFSYP				NA	NA	NA	NA	NA
D1-35_04653	582			hypothetical protein	ATGAAGCAGATGCGCGCGGGCCTGAGTGCCGCAGGCTATGTAAAACACGAGACTTGGGTGCTTCCCGAAAATCGAGGCCTGCTCAAGCAAATGGAGAAACAGCTACGCCAACCGATTCTGGCTGGCTCATTCATGTCGGAGAATTACATGAGCGCAGGTAATAACTGGAACATCGACCGTCTCTACAGCGCCCTTCAGGCCCTGGACGAAGTGGTCGCGAACGACATCACCCTGAGCCTCGTCCAAGGCTCCGAATCCAGCATCAAGCTGGAAATGAATGAATTCGGCGGCTTGCCGATCTACATCGCCGTGGTCGGCGATCAGGTCATCGTCGACACCGTCCTGGTGGATGTCGAGTCGATCAACGACGTAGCGGCCTTCAACGACGCCGTGTTGCGCAGCCGGGAAATGTTTCCGCTGTCGTCCATCGGCATCGAGACCATGCCCAACGGCCAGGTCGTCTACAACATGTTCGGTGCGTTGAGCTCCGACTCCAGCCTGACCAACATCGTCACCGAGGTGAAAACCCTCGTTGACAATGTGCAGCGTGCCAGCGAAGCCTTCGAACGCTTCTTCATTTAA	MKQMRAGLSAAGYVKHETWVLPENRGLLKQMEKQLRQPILAGSFMSENYMSAGNNWNIDRLYSALQALDEVVANDITLSLVQGSESSIKLEMNEFGGLPIYIAVVGDQVIVDTVLVDVESINDVAAFNDAVLRSREMFPLSSIGIETMPNGQVVYNMFGALSSDSSLTNIVTEVKTLVDNVQRASEAFERFFI				NA	NA	NA	NA	NA
D1-35_04654	699			hypothetical protein	ATGACTCAGTCCATCTGGAGCAAATTGTTCACCGCGCTGCGAGGCGGTGCCAATGAAGTCGGCGAATCGATCGTCGATCAACAGGCCCTGCGCATCCTCGACCAGGAAATTCGCGACGCCGACACCGCGCTGGCCAACGCCAAGCGCGAGCTGGTCACGATCATGGCCAAGCACAAGCTGGCGACCGATCGCGTCGGCGAATACAACGCCAAGATCAAGGACCTGGAAGCCAAGGCCCTGGCCGCGATCCAGGCCAACCGCGAGGATCTGGCACTGGAGGTGGCCGAAGCCATTTCGACCCTGACCAACGAACTGGACGCCGAGCAAAAGCACGCAACCGAATTCGGCGGTTACGCGGAAAACATGCGCAAGGACATCACCAAGGCCGAAAGCCGCATCAAGAGCCTGCGTCAGCAAGTGGACATGGCCAAGGCCCGGGAAAGCGTGCAGAAGGCCCAGGTCAGTGCTTCGATTGCCAGCGGCGGCGCCAATGGCAAGCTGGAAACAGCGGTCGGTACACTCAATCGCCTGCAAGCCAAGCAACAGCAGCGGGCCGCTGAACTGCAAGCCCAGGACGAACTGGCCGAGGCTTCGACCGGCTCCGACCTGGAGCGCAAGCTGCGTGACGCCGGCATCACGCCGAACGAAGGCAGCGCCAACGCGATCCTGGAACGCTTGAAGAAAAAATCGGCTGAATAA	MTQSIWSKLFTALRGGANEVGESIVDQQALRILDQEIRDADTALANAKRELVTIMAKHKLATDRVGEYNAKIKDLEAKALAAIQANREDLALEVAEAISTLTNELDAEQKHATEFGGYAENMRKDITKAESRIKSLRQQVDMAKARESVQKAQVSASIASGGANGKLETAVGTLNRLQAKQQQRAAELQAQDELAEASTGSDLERKLRDAGITPNEGSANAILERLKKKSAE				NA	NA	NA	NA	NA
D1-35_04655	1035			hypothetical protein	ATGTCGATTTTCCTTCTGTTGCGCGCGTACGCTTCGTCGTTCTTCCATCGATTCGGCTGGGCCGGCCTGGCCATTGCGCTGGGCGTGCACCTGTCCACGGCCTGGATCGGCCTGGTATTGCTGGGCGAGCAGCACCTTATCGCCGCCGCCACGTTCACCTACTTCTATCTCACCACCACGCTCACCGTCGGCTATGGCGATCTCGCGCCGCAGACTGCGGCGGGACGGGTGTTCGTGGCTACCTGGGTGATGCTCGGGGGCATTGCGCTGCTGACGGCAGCCATCGGCAAAACCACCAGCAGCGTCATCGATGTATGGAGAAAAGGCATGAAAGGCAAAGGCGATTTCACCGGCCAGGTCGGCCACACGGTTCTCATCGGGTGGGAGGGCGCCTCCAGCGAGCGGGTCATTGAATTATTGCTGCAGGACGAAACGTCCAATGACAACCTGATCGTCATCTGCGATTGCGATCTCGAAGAAAACCCCATGCCCGGCAAGGCCTCGTTCATCAAGGGCGACAGCCTGTCCTCGGTCGCCCTGTTGCAGCGCGCCGGCGTACCCGGCGCCGAGCGCGTGCTGGTGCGAACCCATTCCGACGACCTGACGCTGGCCACGGTGCTGGCGGTCAATCGGCTGGGGCCCGTCGGGCATGTGGTCGCCCACTTCAATGACAGCGAAATTGCCGCCCTCGCCAGCGCCTATGCGCCGAGCCTGGAATGCACCTCCAGCATGGCCATCGAAATGCTCGTGCGGGCCTCCCAGGACCCGGGCTCGTCAGTGGTCATCAATGAATTGCTCTGTGTCGGCGAAGGCGCCACCCAATACCTGATGAAATTGCCCGATGCGTTTGAAGCGACGTTCGGCGACCTCTACGGCCGAATGAAAGAGCAGCACAACGCTACGCTGATCGGCTACCGCGCCAAGGGTGCCCGACACCCATCGATCAATCCGCCTGGCACCACGCGCATCGCGGGTGGAGAACTCTTCTACATCGCGTCCGCGCGGCTCAAGGAAATTGCCCATGGGGTGGTTTAA	MSIFLLLRAYASSFFHRFGWAGLAIALGVHLSTAWIGLVLLGEQHLIAAATFTYFYLTTTLTVGYGDLAPQTAAGRVFVATWVMLGGIALLTAAIGKTTSSVIDVWRKGMKGKGDFTGQVGHTVLIGWEGASSERVIELLLQDETSNDNLIVICDCDLEENPMPGKASFIKGDSLSSVALLQRAGVPGAERVLVRTHSDDLTLATVLAVNRLGPVGHVVAHFNDSEIAALASAYAPSLECTSSMAIEMLVRASQDPGSSVVINELLCVGEGATQYLMKLPDAFEATFGDLYGRMKEQHNATLIGYRAKGARHPSINPPGTTRIAGGELFYIASARLKEIAHGVV	PGPT0002715_1782	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716	NA	NA
D1-35_04656	663			hypothetical protein	ATGGGGTGGTTTAAACAGTTGATGGGGCTTGAGGCCCCGAACGCGAACAAGACAGCCAGCCATGACTCGCCCGTCAGCGGTCCGCTGGGCCTGGCCTCCGGCAAGCAGGTCATGTTCGATGCCACGCTCAAGTTGTTGCTCGACGGCAACAGCACCGTGGTCATCCCCGGCTCCCAACAGATCTGGAGCCTGGGCATCGTCGACCTCGGGCAGTCGAACTGGCTGTCGCGCTGCTACATGAACGACGAAGACTACTGGCTGCAAGTTCACACCAGCGGCGACGTCGCCGGGCAGGTCGAGTCGGTGATCCTGTTCAATTACCTCAGCTACGTCACGATCAACAGCGAAGCGGAGTTGCGTCGGCTGGCTGGCCCGGAAAGCCTGATCGGCCTGCCGACCTACACCCACGACGGTGTCGAATACACCCGTGAATGGGGCTCCGAAGCTGGCCAGACAGAGCTGGTGGCGTTGAGCGAGCGCGTGAGCAATCCGCAAGAATCCTACAGCGTCGAGCACCGCTCGATGCTGTACGCCCGCGAAACCGGCCTGACCGATCGCCGGGAATTCCTGCTGTTCTCTGTCGAAGAGGACGCCGAAGGCACCGTCAGCCTGAGCACTTCGCTGGGTATTTCGCTGTACACCACTGACCTGAACACTCTTTGA	MGWFKQLMGLEAPNANKTASHDSPVSGPLGLASGKQVMFDATLKLLLDGNSTVVIPGSQQIWSLGIVDLGQSNWLSRCYMNDEDYWLQVHTSGDVAGQVESVILFNYLSYVTINSEAELRRLAGPESLIGLPTYTHDGVEYTREWGSEAGQTELVALSERVSNPQESYSVEHRSMLYARETGLTDRREFLLFSVEEDAEGTVSLSTSLGISLYTTDLNTL				NA	NA	NA	NA	NA
D1-35_04657	429			hypothetical protein	ATGCTTGAAGCGCTCTCCATTTCCCTGAACAAGGCTGCCGTGTTCGGCTTCGTCCTGTACATCCTCGGCGCGGCCGTGCTGTTCGCGCTGTTTCAGTTCATCTACATCCATGTCACGCCGCACAAAGAGTTCGAGCTGATCCGCTCGGGCAACGTGGCCGCGGCGATCGCCCTGAGCGGTGCCCTGGTTGGTTTCGCCATTCCTGCGAGTAACGTGATCGCCTACTCGATCAGCCTGCTGGATTTCGTTGTCTGGGCGGTGATCGCCGCAGCCGTCCAGTTGCTGGCCTTCCTGGTGACCAGCCTGGTGCTCAAGGGCGCCTCCGCGCGTATCAAGAATGGTGAGATCGCCGCCGGTATTTACATCGCCGCCGTGGCCATCAGCGTCGGCATGCTGAACGCCGCGTGCATGACGCCTTCCACGAACTGA	MLEALSISLNKAAVFGFVLYILGAAVLFALFQFIYIHVTPHKEFELIRSGNVAAAIALSGALVGFAIPASNVIAYSISLLDFVVWAVIAAAVQLLAFLVTSLVLKGASARIKNGEIAAGIYIAAVAISVGMLNAACMTPSTN				NA	NA	NA	NA	NA
D1-35_04658	702			hypothetical protein	ATGAAACGAAGCAAGTACGTCCAGCTTTCGCTGGCTGCGTCGGTCGCCCTGGCGATATCCGGTTGCGGGCCAACGGAAAAAACCTACAAGTTGCAAAAGAAGTACAACTTCCAGTCCGTCCAGCAATGTGTCGATGAAAAGCTGCCAGTGGACATTTGCGCCGACGCCTACATGACCGCCATGGCCGAGCATCGTCGCATCGCGCCGACGTACGCCAGCCAGGCCGATTGCGATGCCGACTTCGTCCCCGATTGGTGCCAGCAGGACTCGTCCGGCCAGTTCATTCCCAAGCTGGGCGGTTTCGAGCTGAGCGCCGATGGCGAAGTCACCCAATCCCAGGTCGACGCCGCCAGGGCCCAATTGCCCGCTTCGGAAGCGAACGTCGGTGGTTCAGGCTTCGGCAACCTGCTGACGGGCATGCTGATCGGCAACATGTTGAGCAGCAACCGCAACAGCTATTACTCCGAGCCGGTCTACCGTTACCGCGATGATCGCGGCAGCTTCGGGTCCTCGACCCTCAGCCAGCGTGTCTCCAGGGGCTCGACTTTTACCAAGTCCAACCAGGCACGGTACGGCAGCTACACCGACACCATCAAGACCAGCAAGCCGATGTCCGTTGCTTCCTCCACGTCTCGCGGTGGTTTCGGCAGCAGTTCCAGCGCCCGCAGCGGTTGGGGCGGATCGAGCAGCTCCGGCGGTTGA	MKRSKYVQLSLAASVALAISGCGPTEKTYKLQKKYNFQSVQQCVDEKLPVDICADAYMTAMAEHRRIAPTYASQADCDADFVPDWCQQDSSGQFIPKLGGFELSADGEVTQSQVDAARAQLPASEANVGGSGFGNLLTGMLIGNMLSSNRNSYYSEPVYRYRDDRGSFGSSTLSQRVSRGSTFTKSNQARYGSYTDTIKTSKPMSVASSTSRGGFGSSSSARSGWGGSSSSGG				NA	NA	NA	NA	NA
D1-35_04659	1158	yjfC	COG0754	Putative acid--amine ligase YjfC	ATGAAGAAGATCCAGTGCGCAGAACGTCCTGACTGGAAGCAGACGGCCGAGCAGCTCGGCTTTCTGTTCCACACCATCGACGACGAGCCCTATTGGGACGAAAGCGCGTACTACCAGTTCAGCCTCAAGCAGATCGAGGATGACCTGGAAGACCCGACGACCGAGATCCATGAGATGTGCATGGACCTTGTGGCCCGCGTGGTCCAGAGCGAAGAATTGCTGGAGCGCCTGAGCATTCCCGCGCCGTTCTTCGACCTGGTTCGCACTTCATGGCTTGAAGGCCACCCGCACCTGTACGGGCGTATGGATTTCTCCTACAACGGCAGCGGCCCCGCCAAGCTGCTGGAGCTCAACTACGACACGCCGACCAGCCTCTACGAGGCGGCGGCGTTCCAGTGGGGCTGGCTGGAGCAATGCATCGAGCGCGGCGTGCTGCCGGCCCATGCCGACCAGTTCAACAGCATCGATACCAAGCTGCACCAGGCCTTTGCCCAGTTGCAGCTCAAGGAACCGTTTTATTTCGCCTCGATGAAAGGTTCGGTGGAAGACAAGGGCACCACGGACTACTTGCGCCTGATTGCGGAAAAAGTCGGCATCGAATCGCGGCACATCGATATCGAAGACATTGGCCTCAACAGTGACGGGCGTTTCGTCGACCTGGAGGAGCGCTGGATTCCACACCTGTTCAAGCTGCACGCCTGGGAGTTCATCTTCCACGAGCCGTTTGGCGCTGCGATTGCCCAATGCGATACGCAGTTTTTCGAGCCGGCCTGGAAGTCGATCATCTCCAACAAGGGCATTCTGCCGCTGCTGTGGGAATTCAACAAAGGCCACCCGAACCTGCTCGCGGCCCACCTGGATACCGACACGAGCAAAGCCGTGCCCAAGGGCTGGGTGCGCAAGCCGTTCTTTTCCCGGGAAGGCGCCAATATCGAGTTGCAGACTGCTGACGGCTTGATCGTCAAGGAAGATGGCCCTTATACCGACGCACCGTTCATCCTCCAGGAATTCGCGCCATTGCCACGCTTTGGCGACAGCTACACCCTGATCGGCTCTTGGGTCATCGGCGACCAGGCGGCCGGCATCGGCGTGCGCGAAGACGACAGCCTGATCACCAAGGATTCCAGCCGGTTCCTGCCGCATCTGATTCTCGACTGA	MKKIQCAERPDWKQTAEQLGFLFHTIDDEPYWDESAYYQFSLKQIEDDLEDPTTEIHEMCMDLVARVVQSEELLERLSIPAPFFDLVRTSWLEGHPHLYGRMDFSYNGSGPAKLLELNYDTPTSLYEAAAFQWGWLEQCIERGVLPAHADQFNSIDTKLHQAFAQLQLKEPFYFASMKGSVEDKGTTDYLRLIAEKVGIESRHIDIEDIGLNSDGRFVDLEERWIPHLFKLHAWEFIFHEPFGAAIAQCDTQFFEPAWKSIISNKGILPLLWEFNKGHPNLLAAHLDTDTSKAVPKGWVRKPFFSREGANIELQTADGLIVKEDGPYTDAPFILQEFAPLPRFGDSYTLIGSWVIGDQAAGIGVREDDSLITKDSSRFLPHLILD				NA	NA	NA	NA	NA
D1-35_04660	933			hypothetical protein	ATGGATCGATATACCCTGATGTTGTTTAGCGGGATCGGCGCGATTCTGCTGCTGGCTTCGCTGGTCGGTTTCATACTCAAGCTGCGGACCAAAGGCGCACCGAACTCGGTCATCGAGAACCTCAATGCGCGGATCAATGCCTGGTGGATCATGGTGCTGGTGATCGGCATCGCGTTCTGGCTGGGCAACGCGGCGGTGATCCTGTTGTTCTACGCCGTGTCGTTCTACGCGCTGCGGGAATTTCTCACGCTGACGCCCACCCGGCGCAGCGATTACCCAGCCTTGGTGGCGGCGTTCTACCTGGCGCTGCCGCTGCAATACTTGCTGATCTATTACGACTGGTACGGGCTGTTTTCGATCTTCATTCCGGTGTACGTGTTCCTGCTGCTGCCGATCCTCGCGTCCCTTGGCGGCGACAGCACGCACTTCCTGGAACGCGCCTCCAAAGTCCAGTGGGGCTTGATGATCGCGGTGTTCTGCATCTCCTTTGTACCGGCGTTGCTGACCTTGGACATTGCCGGTTTCGAAGGGCGCAACCTGCTCTTGATCGCCTATCTGGTAATCGTGGTGCAACTGTCGGATGTGTTGCAGTACGTGTGCGGCAAGTTGTTCGGCAAGCACAAGATCGCGCCGAACCTGTCACCGTCGAAAACCGTCGAAGGCTTTGTCGGTGGCATTTTCCTGGCCTCGCTGATTGGCGGCGCGTTGTGGTGGATCACCCCGTTCAATCCATGGCAGTCGTTCCTCATTGCCTTGCTGATCAACCTGCTGGGGTTTGCTGGCGGCATCGTCATGTCGGCGATCAAGCGCGACCGAGGCGTCAAGGATTGGGGGCACATGATCGAAGGCCACGGCGGCATGCTCGACCGCTTGGATTCGGTGTGCTTCGCCGCACCAATCTTCTTTCATCTGGTTCGGTACTGGTGGACTTGA	MDRYTLMLFSGIGAILLLASLVGFILKLRTKGAPNSVIENLNARINAWWIMVLVIGIAFWLGNAAVILLFYAVSFYALREFLTLTPTRRSDYPALVAAFYLALPLQYLLIYYDWYGLFSIFIPVYVFLLLPILASLGGDSTHFLERASKVQWGLMIAVFCISFVPALLTLDIAGFEGRNLLLIAYLVIVVQLSDVLQYVCGKLFGKHKIAPNLSPSKTVEGFVGGIFLASLIGGALWWITPFNPWQSFLIALLINLLGFAGGIVMSAIKRDRGVKDWGHMIEGHGGMLDRLDSVCFAAPIFFHLVRYWWT	PGPT0007685_1749	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE_ACTIVITY,PGPT0007685-cdsA|ynbB-K00981	NA	NA
D1-35_04661	621			hypothetical protein	ATGTTCGAACCCGTGGTCGCCAACCTCATCACCTCCGCCGCGCGGATGGTCACCGGTGCTCGCAGCCTGTGGCTCGGCTGCGCGCCCACGCCGGTGCAGCGGATCTATTTCGCCAACCACAGCAGCCACGGCGACTTCGTGCTGCTCTGGGCCTCGCTACCGCCGGCGCTGCGCAAACTGACTCGGCCCGTCGCTGGCGCCGACTATTGGCAAACCAGCCCGATGCGCCGCTACATCATCAACCGGGTGTTCAACGGCGTGCTGGTGGATCGCGAGCGCAAGGACCCTTCCTACAGCCCATTGCAGCCAATGCTCGATGCGCTGGAGAACGGCGACTCGCTGATCATCTTCCCCGAGGGCACGCGTAACCCGGATGAAGGCCTGCTGCCGTTCAAGAGCGGGATCTACCACCTGATGAAAAGCCACCCCGGGGTCGAGGTGATCCCGGTGTGGATCGCCAACCTCAACCGCGTCATGCCCAAGGGCCGCGTATTGCCCTTACCGCTGCTGTGCACCACCAGTTTCGGCGCGCCGCTGTGCATCGAAGAAGGCGAAAGCAAAGAGCAATTCCTTGAACGCAGCCGCGCCGCACTGCTGGCGCTGGCCCCGGAGCACGTCTGA	MFEPVVANLITSAARMVTGARSLWLGCAPTPVQRIYFANHSSHGDFVLLWASLPPALRKLTRPVAGADYWQTSPMRRYIINRVFNGVLVDRERKDPSYSPLQPMLDALENGDSLIIFPEGTRNPDEGLLPFKSGIYHLMKSHPGVEVIPVWIANLNRVMPKGRVLPLPLLCTTSFGAPLCIEEGESKEQFLERSRAALLALAPEHV	PGPT0007685_27	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE_ACTIVITY,PGPT0007685-cdsA|ynbB-K00981	NA	NA
D1-35_04662	471			hypothetical protein	ATGGTCATGAGCAGTGACATGGAACTGCACACCGTGGCGAGCCTGCTGCGCCGCGGTCATTCGCTTGACCAGCTCTCCACCGGACTGACCTTGCTCGCGGCGCTGATCGGCCTGGGCCAATGGCTGGTCGGTAGCGTCGATCCGTGGCTGCTGTTGCTGAGCTTCGGCGTGTTCGTCCTCGGCCTGCAGGAAAAATATCTGGCGTTTCGCGTGGCCTTTGATGCCGATCTGTTTCAGATCGTCGCGGATGCCGACAAGCCGCTTACCGAACGCACCCAGGCGCTGGACGCCGCCCTCGCCAACCTCGGCCTGCAACCGGTCGAGCGTGGCGGGCGGTCATGGCCCGAGCGCAGCCACGGTTCCATGCGCCTGCTTCGCCGCCAAGCCTGGCTGGTGGCGACGCAAGCGCTGTTGACGGTGAGCTTCGTATTGGCGAGCCCCTGGCTGGTTTACTCGGGTCTGGGTGTTTAA	MVMSSDMELHTVASLLRRGHSLDQLSTGLTLLAALIGLGQWLVGSVDPWLLLLSFGVFVLGLQEKYLAFRVAFDADLFQIVADADKPLTERTQALDAALANLGLQPVERGGRSWPERSHGSMRLLRRQAWLVATQALLTVSFVLASPWLVYSGLGV				NA	NA	NA	NA	NA
D1-35_04663	1338	ynbD	COG0671	putative protein YnbD	ATGAGCGCGGTCATTGCTCCGGTCCGCGAACCCGCGCTGCTGAAACCGGCGGTGCTCTGGCTGCTGTTGCTGGCACCGCTGTTCTTCAGCACCTACGGCTTCGCCACCTGGGTAACGTCCCAGCGTGACGATGTCGGCACGCTGGTGTTCGCTTGGGAAAGCCACATGCCGTTCCTGGCCTGGACCATCGTGCCGTACTGGTCGATCGACTTGTTGTACGGCCTGTCCCTGCTGCTGCCCAACAGCCGCGACGAACTCAAGCGCCACGCCCTGCGCCTGCTCACGGCTCAGGTGATAGCCGTCAGTTGCTTCCTGCTCTGGCCGCTGACGTTCACCTTTCCGCGGCCGGAAATGGACGGGGTGTTCGGCTGGATGTTCGACGTGCTGGCCGGCTTCGACAAGCCATTCAACCAGGCGCCGTCCCTGCACATCGCGCTGCTGGTGGTGCTCTGGGTCTGCTATCAACGTCACCTGCAAGGCTTCTGGCGCTGGTTGATGCACGGCTGGTTCGCCTTGATTGGCGTGTCGGTACTGACCACTTACCAACACCATTTTGTCGATGTCCCCACCGGTGCGTTGGCCGGTTGGTTGTGCGTCTGGCTGTGGCCGTTGGACCGACCGAGTCCACTGCGAAGTGCACGCCTGACGCGCGACCCGGCGCGCCTGCGACTGGCCTTGCGTTATGGCGTGGGCGCCGCAGTGTTCTTCACGTTGGCGTTCGCCTTCGGCGGCGCGTGGCTCTGGCTGATCTGGCCGGCGGTCGCGGTGCTCATGGTGGCGTTGAATTACCTGGCGTTTGGCGCCAGTGGCTTCCAGAAGCGTGAAGATGGCCGGCTGAGCCCGGCGGTGCGCTGGTTACTGGCGCCCTATCTGGCCGCGGCGTGGATCAATTCCCGCGTGTGGACGCGCAAGCATCCGCAGCCGGATCAGGTGGCGGATGACGTCTGGCTCGGGCGGATTCCTACGTCGGCGTCGCTTAAAAGCAGCCCGTTTACTGGCGTGCTCGACCTCTGCGCCGAGTTGTCGATGGACAGCACCGCAATCGCCTATCGCAGCTTGCCGGTGCTCGACCTGACGGCACCGACCGCCGAGCAGTGCCTGAACGCGGCGCAGATGATTGAGCAACTGCGTCAGCACGGGCCGGTCCTGGTCTGCTGCGCACTGGGTTATTCGCGCAGTGCCACCGCCGCGGCGGCATGGTTGCTGGACAGCGGTCGCGCCGACAGTGTCGACGCGGCCATCGCCCAGATTCGCCAAGCCCGGCCGGGTATCGTGTTGCACCCAGCCCATCGCCAGGCCTTGGAGCAACTATCCAAGGGATTCGGGGCATGGTCATGA	MSAVIAPVREPALLKPAVLWLLLLAPLFFSTYGFATWVTSQRDDVGTLVFAWESHMPFLAWTIVPYWSIDLLYGLSLLLPNSRDELKRHALRLLTAQVIAVSCFLLWPLTFTFPRPEMDGVFGWMFDVLAGFDKPFNQAPSLHIALLVVLWVCYQRHLQGFWRWLMHGWFALIGVSVLTTYQHHFVDVPTGALAGWLCVWLWPLDRPSPLRSARLTRDPARLRLALRYGVGAAVFFTLAFAFGGAWLWLIWPAVAVLMVALNYLAFGASGFQKREDGRLSPAVRWLLAPYLAAAWINSRVWTRKHPQPDQVADDVWLGRIPTSASLKSSPFTGVLDLCAELSMDSTAIAYRSLPVLDLTAPTAEQCLNAAQMIEQLRQHGPVLVCCALGYSRSATAAAAWLLDSGRADSVDAAIAQIRQARPGIVLHPAHRQALEQLSKGFGAWS				NA	NA	NA	NA	NA
D1-35_04664	1758	ynbC	COG2267	putative protein YnbC	ATGCGCGAAGCCCAGGAACTGACGTTCACCACCCACGATGGCGTGGAGTTGTTCTACCGGCACTGGCCGGCTGTCGAGGCCGCGACGGGTGAACCCCGTCAGGCTGTGTTGTTGTTTCACCGCGGCCATGAACACTCCGGGCGCATCGCGCATCTGGTGGATGAGCTGGATCTGCCCGGGTTCGAGTTTTTCGCCTGGGACGCACGCGGCCACGGCCAGTCGCCTGGCGAACGCGGCGACAGCCCGAGTTTTGCCACCAGCGCGCGGGATGTGCAGACCTTTTGTGACCACATCGGCGCAACGCACCAGATCGATGAACAGAACATCGCCGTGGTGGCGCAAAGCGTCGGTGCAGTGATCGCATCCACCTGGGTCCACGATTACGCACCGCGCATTCGCTCGCTGGTGCTGGCGTCGCCGGCCTTCAAGGTCAAGCTCTACGTGCCGTTTGCCCGTCCGGGCCTGGCATTGATGCGCAAGTTCCGTGGCAACTTTTTCGTCAACAGCTACGTCAAGGCGAAGTTCCTCAGTCATGACCCGGAGCGGGTGGCGTCCTACGACAGCGATCCGCTGATCACCAAGGCCATTTCGGTGAATGTGCTACTGGGCCTGTACGAAGCCGCCGATCGGGTTGTCGCCGACGCGCAGGCAATCCAGGTGCCGACGCAGCTGTTGATCTCCGGTTCGGACTTTGTGGTGCATCGCAAACCCCAGGAGCAGTTCTTCGAGCGGCTGGGCAGCCTGCACAAGGAAAAACACATCCTGCCGGGTTTCTTCCACGACACCCTCGGCGAGAAAAATCGCGCCCCGGCGATTGCCAGTGCCCGACGTTTTATCCTGCAAAATTTTGCCCGACCGCTGGAGCGCCCTTCCCTGCTGGACGCCGATCGCCTGGGCGTGACCTGCGCCGAAGCCGAAACCCTGGCCACGCCGTTGCCCCACAACTCGTTGCGCGATCTTTACTGGCGCATGACCCGCGCCAGCATGCGTTTTGGCAGCAAGTTGTCCGCCGGGGTAAAGCTGGGCTTCGACACCGGATTCGACTCCGGCAGTACCCTGGATTACGTCTATCGCAACCGGCCCACCGGCACGTCTGCGCTGGGCAAGATGATCGACCAGAACTACCTGAACTCCATCGGCTGGCGTGGCATTCGCCAACGCAAGTTGCACGTCGAAGAATTGCTGCGCCTGGCGATGGGCAAATTGCGCGAGCAGGACCGCGAAGTGCGCATCGTCGACATCGCCGCCGGACACGGCCGTTACATTCTCGAGGCGCTGCAAGGCGTCAGCCCGTTGCCGGAGTCGATCCTGCTGCGCGACTACAGCGACATCAACGTGCGCGACGGCAGTGCGCTGATCGTTGAAAAAGGTTTGGGCGATATCGCTCGATTCGTCAAAGGCGATGCCTTCGACCGTCAGGATCTCGCCGCCCTGGAACCCAAGCCGACCCTCGCCGTGGTGTCGGGCCTGTATGAGTTGTTCGCCGATAACCAGATGGTCGCGGGCTCTCTGGCCGGCCTGGCCGAAGCGGTCGAGCCAGGTGGTTTCCTGGTCTACACCGGCCAGCCGTGGCACCCGCAGCTGGAATTGATCGCGCGCGCCCTGACCAGCCACCGCGCTGGCCAGGCCTGGGTGATGCGTCGGCGCACTCAAGCGGAAATGGACCAACTGGTTGAGGCGGCGGGTTTCCGCAAGATCACCCTGCGGGTCGATGAGTGGGGCATCTTCAGCGTTTCGCTGGCTCAGCGAGTCCAGTAA	MREAQELTFTTHDGVELFYRHWPAVEAATGEPRQAVLLFHRGHEHSGRIAHLVDELDLPGFEFFAWDARGHGQSPGERGDSPSFATSARDVQTFCDHIGATHQIDEQNIAVVAQSVGAVIASTWVHDYAPRIRSLVLASPAFKVKLYVPFARPGLALMRKFRGNFFVNSYVKAKFLSHDPERVASYDSDPLITKAISVNVLLGLYEAADRVVADAQAIQVPTQLLISGSDFVVHRKPQEQFFERLGSLHKEKHILPGFFHDTLGEKNRAPAIASARRFILQNFARPLERPSLLDADRLGVTCAEAETLATPLPHNSLRDLYWRMTRASMRFGSKLSAGVKLGFDTGFDSGSTLDYVYRNRPTGTSALGKMIDQNYLNSIGWRGIRQRKLHVEELLRLAMGKLREQDREVRIVDIAAGHGRYILEALQGVSPLPESILLRDYSDINVRDGSALIVEKGLGDIARFVKGDAFDRQDLAALEPKPTLAVVSGLYELFADNQMVAGSLAGLAEAVEPGGFLVYTGQPWHPQLELIARALTSHRAGQAWVMRRRTQAEMDQLVEAAGFRKITLRVDEWGIFSVSLAQRVQ				NA	NA	NA	NA	NA
D1-35_04665	624	ynbA	COG0558	Inner membrane protein YnbA	ATGCCTTCCATTTATCAACTCAAACCCGCCTTTCAGAATTTGCTTCGCCCCACCGTCCAACGTCTTTACAACAAGGGTGTCACCGCCAACCAGGTCACGCTTCTGGCGGGTGCTGTGTCGGTGTTGGTGGGGGCGGTAATTGCGTGGTTCGCCAGTCATCCGTGGGTTTTTATCCTGGTACCTGTGTGGATGTTCCTGCGCATGGCCTTGAACGCGGTGGATGGCATGCTGGCGCGGGAGTTTGGTCAGCAATCGAATCTGGGCGCGTACCTCAATGAGCTATGCGATATCATCGCCGACGCTGCCTTGATCCTGCCTTTTGCCTTGTTTGCCGATACCAGCCTGTTGCTCGTGTTGTTGGTCACGCTGTTGGCGTTGTTCAGCGAATACGCCGGCGTGCTGGGGGCGATGGTCGGGGCTTCGCGGCGTTATGACGGGCCGATGGGCAAGAGTGATCGCGCCTTTGTGTTCGGCGTGCTCGCGACCGGTATTGCCCTGGGTTGGCTCGGGGCGCTGTGGGTTGATGGTGTGATGGCGGTGGTTGCCGCCCTGCTGGTTTATACCTTGGTCAATCGGGTCCGTCATGGCCTGAGTCAGGTGTCGGAAAACGCTCCCTCAGCATAA	MPSIYQLKPAFQNLLRPTVQRLYNKGVTANQVTLLAGAVSVLVGAVIAWFASHPWVFILVPVWMFLRMALNAVDGMLAREFGQQSNLGAYLNELCDIIADAALILPFALFADTSLLLVLLVTLLALFSEYAGVLGAMVGASRRYDGPMGKSDRAFVFGVLATGIALGWLGALWVDGVMAVVAALLVYTLVNRVRHGLSQVSENAPSA	PGPT0007705_1857	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLTRANSFERASE_ACTIVITY,PGPT0007705-pgsA|PGS1-K00995	NA	NA
D1-35_04666	459			hypothetical protein	ATGCTGCGATTGGATTGGCTCATCAACCACATGAATAAATGCAACCTGATGGCCAAGTGGCTTTATCGAGAGTTCAACTACGAATTTGCGCAGCAGTCGCTCGCCAGTTGGCAGGAAGAGTTTGCAGCGGGGCAACGCGATGGCCGCTGGAAATGCCTGATCGCCCTGGAACACGACCAGTTGTTGGGCGGCGCCTCGCTGGCGGGAGACGATCTACCTGAGCGCCCCGACCTCGGCCCTTGGCTTGCTTGCGTCTTCACCAGCCCGAATGCCCGCCGCAGGGGGCTCGCGGCGCAGTTGATCGACGGCATCTGTAGCCATGCGAAAGAGGCAGGCTATACCACCTTGTTCCTGCACACCCACAGCCAACGGGACTATTACGCCAGGCAGGGCTGGGAAGTGCTGGAGCGCTTCGAGGCTTGGGGCAAAGAGCAATGGCTCATGGGACGGTGTTTATGA	MLRLDWLINHMNKCNLMAKWLYREFNYEFAQQSLASWQEEFAAGQRDGRWKCLIALEHDQLLGGASLAGDDLPERPDLGPWLACVFTSPNARRRGLAAQLIDGICSHAKEAGYTTLFLHTHSQRDYYARQGWEVLERFEAWGKEQWLMGRCL				NA	NA	NA	NA	NA
D1-35_04667	237			hypothetical protein	ATGAACCACCCCACCCTGACCTTCGCCCAACTCCACCCCGGCGATCGCTTCACCCAACCCGCCGATCACCGCCTGTTCACCAAACTCACCGACCACACCGCCCGTGAGCACAGCGTGCATTCGATCAATCTGAAGGAGGAAGGCTTCGGCTACACCGAAGACCCCATCGAAACGTTGTCCGGGGATGCCCCGGTCGAGTACGTCCCGGTCGGCGGGCCGCTGCGTGCTGGGGGCTAG	MNHPTLTFAQLHPGDRFTQPADHRLFTKLTDHTAREHSVHSINLKEEGFGYTEDPIETLSGDAPVEYVPVGGPLRAGG				NA	NA	NA	NA	NA
D1-35_04668	225			hypothetical protein	ATGAAAGCCAAATGCACGCTCAACAACCTATACGACGGCGCCCTCTCGCCGAAAACACTCACTCGCCTGAAACGCTACATTCGCGCCGATGGCGAACTGAATTTGGAAAAAGGCAAAGAATATGTCGTCTACGGCATAGAATTCTGGGACAACTGCCCTTGGCTATATATATGCCGCGATAACTGCGAGAAATACCCAGCCCCCGTTGCCGCGGATTTTTTTTGA	MKAKCTLNNLYDGALSPKTLTRLKRYIRADGELNLEKGKEYVVYGIEFWDNCPWLYICRDNCEKYPAPVAADFF				NA	NA	NA	NA	NA
D1-35_04669	1224			hypothetical protein	GTGACGATCCGGGTCGATGGCCTCGACCACATCGCCCTGGGCATTACGCCGGTAGGTCCACACGGCTTTGCCGCGCTGTCGGGCGTGCAGGAAACCGTTGCGGTATTCGTAGGACGTCGGCTCGCCTTCAGGCGGAATCAGCGCCACCAGCCGTCCGGCTTCGTCGTAGCGGTATTCGGTGACCGCGCCCAGCGGATCCTGCTCGGCGGTCAGCCGACCCTGCTCGTCATAGGCCTTGAGCTGTTCGCCACCAGCGGGATCGACCTGGCGCACCAGCCGCGCCCGGTCGTCGTGGACGTACACTTCCTGGCTGCCATCCTGATGCCGGACCGTGACGCTGCCGTCTTCGCCCCAGGCGTAGCGGCTGTCTATCTGCGCGAACGACGCCCAGTGCCGCACGCAGCGCGCCGCCGGGCCGAGGCCTTGCCATTCCCAGTAGAAACTCGCGCCGCCGGCCAGTTGCCGCTGGAGGATGACGTGCTGGTCGTCGTAGTCGTAGCGCTCGCTTTCGCCAGCGGCATTGGTCGCCTCGATGAGTCGGAAACGGCCGTCGTAGCGGTAGGTCACCAGCGTCTGTTCGGTGCGCCAGGCATCGTCCGGATGCTGTTTCGGGTCAAAACTCTGATAGTCGATGGCGACCAGGTGGCGATGCTCGTAGCGCAACCGCAGCCCGCGCCGGGCGCCGTTGTCCAGGCGGCTGATGTCGCCGTAGATGTTGCGCTGGACGGTCAGGCGGTTGTCGTACCGATCGCTCAGCGCTGTCAGATGCCCGTCGCGAAAGTGCAGGAAAGGGGCGTCTTCGCCGGGCTGGGCGATGATCAGTTCGTCCGGCTCGCAGCTCAGGTAGATCGCCGCGCGGGCCAGGCTGTTGTGGATCGCCGGGCGTTGCAGGTTGGGGCGAGGGAAGGTGGTGCGGCGGTTTTCCTGATCGATCCAGGTCACCTGTTCGCCCTCGATCACCAGGCGATGGGCCAGGCCATGGCTCCAGCCACGGCCGAGGCCGACGTCCAGCTCGGCGGCGCTGGTGCGGTAGAGGCGGGTGAAGACGAAGGGCAAGCGCCCGTCGAGGGTGCCGTCCTCCAGGGTCAGCAGTTCCTCGCCGGTGACCATCGACACCGGGCAGCCGTCGGTGCGGGTCTGGGCGGCGCTGTCGGCGGGGTCGCCGTTGGGGTTTTTCGATGGGGTCGGGGCGTCGTCGTGGGGTTCGTACTTGCTCAGTCGTGA	MTIRVDGLDHIALGITPVGPHGFAALSGVQETVAVFVGRRLAFRRNQRHQPSGFVVAVFGDRAQRILLGGQPTLLVIGLELFATSGIDLAHQPRPVVVDVHFLAAILMPDRDAAVFAPGVAAVYLRERRPVPHAARRRAEALPFPVETRAAGQLPLEDDVLVVVVVALAFASGIGRLDESETAVVAVGHQRLFGAPGIVRMLFRVKTLIVDGDQVAMLVAQPQPAPGAVVQAADVAVDVALDGQAVVVPIAQRCQMPVAKVQERGVFAGLGDDQFVRLAAQVDRRAGQAVVDRRALQVGAREGGAAVFLIDPGHLFALDHQAMGQAMAPATAEADVQLGGAGAVEAGEDEGQAPVEGAVLQGQQFLAGDHRHRAAVGAGLGGAVGGVAVGVFRWGRGVVVGFVLAQS				NA	NA	NA	NA	NA
D1-35_04670	333			hypothetical protein	ATGGCGCAACACTTTGCCGGTCAGGCGCAGACCCAGACCCAGGCCGCCGGTAAAACGCGCCAACAAAAAGTTGATCAGAATGGCGGCGCGTATTTCGCCCATGACTTCAGCCATGTACTGCGGCGGCAACATCCGCAGCCAACTGGTGAAGGCCGCCGTGTAGACCAAGAGCAACGGCTCGTCGCTCAAGATCATCAAGGCTTTCGCTATCGCCTCTGCCGGGGCTTTCAGCAGCTGCTCAAGCTCGACCTCGGTGAGGTACTCCAGCAATTTTTCGCTGTTGGCCCGCAGGTCCGCCAACAGATCGAAGACCTGCTTGATATCGTCCCATAG	MAQHFAGQAQTQTQAAGKTRQQKVDQNGGAYFAHDFSHVLRRQHPQPTGEGRRVDQEQRLVAQDHQGFRYRLCRGFQQLLKLDLGEVLQQFFAVGPQVRQQIEDLLDIVP				NA	NA	NA	NA	NA
D1-35_04672	360			hypothetical protein	ATGGCCAAAATTACACCGAACCCCCCAGCTATAGATGGACATGAGCCTCGCGCTCAGTCTGCTCGCAACAAAAAAGTCGATGATGCTACCAACCGGGCTTTCGATTCCGATCTCAAGCCTACCCCTGAAAACGAAACGTCTAACAAGCCCGACGCCTTGTTTACCGTCGCGCCTGATGTGGACATGGAGTGCCTGCTCGCGAACCTGAGCGAAAGCCTGGCTTCTGCCAATGCGATGATCAATGATCTGGCATTCGATCTGGAAGGCTCGCGACGGCATGTCGCGTTGGGGATCTTGCAGTTGATTGAGCTAAGTGAGTTGTTGGCGAACCGGGCTTTGGATATTGTTGAGATGAGGTAG	MAKITPNPPAIDGHEPRAQSARNKKVDDATNRAFDSDLKPTPENETSNKPDALFTVAPDVDMECLLANLSESLASANAMINDLAFDLEGSRRHVALGILQLIELSELLANRALDIVEMR				NA	NA	NA	NA	NA
D1-35_04673	468			hypothetical protein	ATGCCGCCGAAGCCATCAAGCACAACTGGGGTCAAACATGTCACCGATTTCCTGCTGGAACTAGGCGCAGGCTTTGCCTTCGTCGGTCAACAGGTGTTGCTGGATGTAGGCGGCGAGTTCTTCATCGACCTGTTGTTCTATCACCTCAAGCTACGCTGCTACGTGGTGATCGAACTCAAGGCAGGCAAGTTCAAACCCGAACATCTGGGGCAGCTAAGTTTTTACCTCACCGCAGTGGATGCCCAGCTCAAACACCCTCAGGACGGCCCGACCATTGGTCTTCTGCTGTGCAAAAGCAAGAATAAGGTAGTGGCTGAATATGCGCTGCGTGATAGCGCACGTCCCATCGGTGTAGCTGAATACCAATTGGTGGAGTCTCTGCCCGCGGAACTACAAACCAGCCTGCCTAGCATTGAACAGATCGAGCGAGAGCTGGCAAGCGGCAAGTCCATGGAAGACGATTCGTAA	MPPKPSSTTGVKHVTDFLLELGAGFAFVGQQVLLDVGGEFFIDLLFYHLKLRCYVVIELKAGKFKPEHLGQLSFYLTAVDAQLKHPQDGPTIGLLLCKSKNKVVAEYALRDSARPIGVAEYQLVESLPAELQTSLPSIEQIERELASGKSMEDDS				NA	NA	NA	NA	NA
D1-35_04674	768	prtR_2	COG2932	HTH-type transcriptional regulator PrtR	TTGCTGAAAACACAGTCGGTCCTAAACTTTCCGTTTATGAAAATCATATCCAGCGGCGATCGCTTCAGAGCCCTTCTCAAAGAAGCCAACATCCGATCTGTCGACTTCGCCAGGCTTTACGGCGTGAAGTCGCAGCACGTAAACAACTGGTTCAACCGCGGCATCCCGCCGGGGCGCATCCACAACATTGCCCGCATGCTGACCGTCAGCCCTGAATGGCTCGCCAGCGGTGAAGGCCCGCAAACCCCGTTGGGGCTCGGCCCGGGCATCACCTACGACGCCGCGGAAACCCAGGGCGTCTACAGCGTGCCGGAAACCCTCGACATCGAACTGCCCTTCCACAAGGAAGCGCCCATCGCCCCCGGCGAAACCACAACGCACATCATCGAAGACCCCGACCAGTCCATCCGTCTGCCCCGCAGCCACCTCGAATCCCTCGACATCAACCCCAACGACGTCATTTGCATCACCATGGTCGGCGACAGCATGGCCGAACGCATCGAAGACGGTTCCACAGTCGCCATCGACCGCGGCCTGACCCAAGTCGTCGACGGCCAGATCTACGCCCTCGAACACGACGGCATGCTCCGCATCAAATACCTGCACCGCATCCCCGGCAACCGACTGCGCCTGCGCAGCCAGAACAGCGCCGCCTACCCCGACGAAGTCTTCAGCGCCGAACAGATCGAAGCCCAGCACATCCGCGTGATCGGCTGGGTCTTCTGGTGGTCCACCCTCTCGAAAAAACGACCGCAGGTGTTCGATTGA	MLKTQSVLNFPFMKIISSGDRFRALLKEANIRSVDFARLYGVKSQHVNNWFNRGIPPGRIHNIARMLTVSPEWLASGEGPQTPLGLGPGITYDAAETQGVYSVPETLDIELPFHKEAPIAPGETTTHIIEDPDQSIRLPRSHLESLDINPNDVICITMVGDSMAERIEDGSTVAIDRGLTQVVDGQIYALEHDGMLRIKYLHRIPGNRLRLRSQNSAAYPDEVFSAEQIEAQHIRVIGWVFWWSTLSKKRPQVFD				NA	NA	NA	NA	NA
D1-35_04675	528	ppa	COG0221	Inorganic pyrophosphatase	ATGAGCTACAGCAAGATTCCGGCTGGCAAAGACCTGCCGAACGACATCTACGTCGCAATCGAAATCCCGGCCAACCACGCCCCGATCAAATACGAAATCGACAAAGACAGCGATTGCCTGTTCGTTGACCGTTTCATGGCCACCCCGATGTTCTACCCGGCCAACTACGGTTACATCCCCAACACCCTGGCCGACGACGGCGACCCCCTCGACGTACTGGTCGTGACCCCTTACCCGGTTGCGCCAGGCTCGGTCATCCGCGCCCGTCCTGTCGGCATCCTGAACATGACCGACGACGGCGGCGGCGATGCCAAAGTCATCGCAGTACCACACGACAAACTGTCGCAACTGTATGTCGACGTGAAGGAATACACCGACCTGCCAGCCCTGCTGATCCAGCAGATCGAACACTTCTTCGAGAACTACAAAGACCTCGAAAAAGGCAAGTGGGTCAAGATCGAAGGCTGGGCCGGCGCCGACGCCGCCCGCGAAGCGATCACCAAGTCGGTTGCCGCCTACAAGGGCTGA	MSYSKIPAGKDLPNDIYVAIEIPANHAPIKYEIDKDSDCLFVDRFMATPMFYPANYGYIPNTLADDGDPLDVLVVTPYPVAPGSVIRARPVGILNMTDDGGGDAKVIAVPHDKLSQLYVDVKEYTDLPALLIQQIEHFFENYKDLEKGKWVKIEGWAGADAAREAITKSVAAYKG	PGPT0002600_3710	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATASE_ACTIVITY	P-SOLUBILISATION-INORGANIC_PHOSPHATASE,PGPT0002600-ppa-K01507	NA	NA
D1-35_04676	813	mtfA	COG3228	Protein MtfA	ATGTGGTCTCTCAGCACCTGGCGTCGCCGCCGCACCCTGGCCAAACACCCCGTTGCCGACGAAACCTGGCAGCGGGTGCGCCATCAACTGAGCTTTCTCGACGGTATCAGTGCCGAGGAAGACCGATGGCTGCGTGACGCCAGCGTGCTGTTCCTGCACGACAAACACCTCACCGCCCTGCCGGGCGTCGAACTGCACCAGGAACAACGCCTGTTGCTTGCCGCCCAGGCGCAACTGCCGCTGATGCACCTCGGCGAGTTGAACTGGTACCAGGGCTTCCACGAAATCGTTCTCTACCCGGACGACTTCCTCAGCCCCCAGCGCTACCGCGACGCCAGCGGCATCGAACACGAGTGGGACGGCGAACACAGCGGCGAAGCCTGGCCCCAGGGCCCGATCATCCTGGCCTGGGACGGCGTGATGGCGAGCGGCGGCTGGGAAGGCTACAACCTGGTGATCCACGAACTGGCGCACAAACTCGACATGCTCAACGGCGACGCCAACGGCCTGCCGCCGCTGCACGCCGACATGCGCGTCAGCGACTGGGCGCAAGCCATGCAAGAGGCCTTCGACGACCTCAACCGCCAACTGGACCTGAACCCCGACGCAGAAACCGTCATCGATCCCTACGCGGCGGAAAACCCGGCGGAGTTCTTCGCCGTCACCAGCGAGTACTTCTTCAGCGCCCCGGACCTGCTGCATCAGGCCTACCCAAAGGTGTACGAACAGCTCAAGGCGTTCTACCGCCAGGACCCGTTGGCCCGGCTGCGGCAACTTCAGGCCGAAGATCCGGTCTATCAGGCGTCATACTAA	MWSLSTWRRRRTLAKHPVADETWQRVRHQLSFLDGISAEEDRWLRDASVLFLHDKHLTALPGVELHQEQRLLLAAQAQLPLMHLGELNWYQGFHEIVLYPDDFLSPQRYRDASGIEHEWDGEHSGEAWPQGPIILAWDGVMASGGWEGYNLVIHELAHKLDMLNGDANGLPPLHADMRVSDWAQAMQEAFDDLNRQLDLNPDAETVIDPYAAENPAEFFAVTSEYFFSAPDLLHQAYPKVYEQLKAFYRQDPLARLRQLQAEDPVYQASY				NA	NA	NA	NA	NA
D1-35_04677	657	dedA	COG0586	Protein DedA	ATGGACTTCAACCCACTCGACCTCATTCTGCATCTCGACGTCTACCTCGACATGCTGGTGACCAACTACGGGACGTGGATCTACGCCATCCTGTTCCTGGTGATCTTCTGTGAAACCGGCCTGGTGGTGATGCCGTTCCTGCCAGGCGATTCCCTGTTGTTCATCGCCGGCGCGGTGGCAGCCGGTGGCGCCATGGACCCGCTGCTGCTAGGAGGGCTGTTGATGCTCGCGGCGATCCTCGGCGACAGCACCAACTACCTCATTGGTCGCACCGCCGGCGAGAAGCTGTTCAGCAACCCGAACTCGAAAATCTTCCGCCGCGACTACTTGCAACAGACCCACGACTTCTACGACAAACACGGCGGCAAGACCGTGACCCTGGCGCGCTTCCTGCCGATCATCCGCACCTTCGCGCCCTTCGTCGCCGGCGTCGGCAGAATGCCCTACCCGCGTTTCTTCGGCTTCAGCGTCCTCGGCACTGTGCTCTGGGTCGGTGGCCTGGTGACCCTCGGCTACTTCTTCGGCAACGTGCCCTTCATCAAGCAGAACCTGTCGCTGCTGGTAGTGGGGATCATCCTGCTGTCGCTGCTGCCGATGATCATCGGCCTGGTACGCAGCAAAATGAGCCAGCGCGGCTCGAAAGCCGAGACGCGCTGA	MDFNPLDLILHLDVYLDMLVTNYGTWIYAILFLVIFCETGLVVMPFLPGDSLLFIAGAVAAGGAMDPLLLGGLLMLAAILGDSTNYLIGRTAGEKLFSNPNSKIFRRDYLQQTHDFYDKHGGKTVTLARFLPIIRTFAPFVAGVGRMPYPRFFGFSVLGTVLWVGGLVTLGYFFGNVPFIKQNLSLLVVGIILLSLLPMIIGLVRSKMSQRGSKAETR	PGPT0004890_1670	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_TRANSPORT,PGPT0004890-dedA-K03975	NA	NA
D1-35_04678	462			hypothetical protein	ATGCGGATTATCCAAGCGACGCTGGAACACCTGGACCTGCTGACCCCATTGTTCGTCAAATACCGGGAGTTCTATGGCTCGCTGCCCTATCCGGACTCGTCCCGGGCGTTCCTGGAAAAACGCCTGCGCCGCAAGGAATCGGTGATCTACCTGGCCCTGCCGGATGACGACGACAGCCGGTTGCTGGGGTTCTGCCAGCTCTACCCAAGCTACTCGTCGCTGTCGCTCAAGCGCGTATGGATCCTCAACGACATCTACGTCGCCGAAGACGCCCGCCGCCAGCTCGTCGCCGACAACCTGATCCGCACCGCAAAAAAAATGGCCAAGGAAACCAACGCCGTGCGCATGCGCGTCTCCACCAGCAGCAACAACGACGTGGCGCAGAAAACCTACGAATCGATCGGCTTCAAGGAAGACACCGAGTTCAAGAACTACGTGTTGCCGATCAGCGAAGGGCTTTGA	MRIIQATLEHLDLLTPLFVKYREFYGSLPYPDSSRAFLEKRLRRKESVIYLALPDDDDSRLLGFCQLYPSYSSLSLKRVWILNDIYVAEDARRQLVADNLIRTAKKMAKETNAVRMRVSTSSNNDVAQKTYESIGFKEDTEFKNYVLPISEGL				NA	NA	NA	NA	NA
D1-35_04679	840	eutC	COG4302	Ethanolamine ammonia-lyase light chain	ATGAGTGAGTTGCCCATGGATAAAAAACCTGTCGATCCACAAAACCCCTGGCTGAATCTGCGCAACCTGACCCCGGCACGCATCGCCCTGGGCCGCACCGGCACCAGCCTGCCGACCTCGGCGCAACTGGATTTCCAGTTCGCCCACGCCCAGGCCCGCGACGCCGTGCACCTGGCGTTCGATCACCAGGGCATCCGTGCACAACTCACGGAGCGCGGCCACGAAAGCCTGCTGCTTCACAGCGCGGCGGCAGATCGAAACAGCTATCTGCAGCGTCCGGACCTGGGCCGACGGCTCGACGATGCTTCCGTACAGATCCTGCAGGACTACGCGGCGGCCCACCCGGGCGGCGTGGATTTGGCTATCGTGGTGGCTGACGGCCTGTCGGCGCTGGCGGTGCATCGCCATACGCTGCCGTTCCTGGCGCGACTGGAAGAACAGATCACCGCTGAAGGCTGGTCTGTGTCGCCAATCGTTTTGGTGGAACAAGGCCGGGTGGCCGTGGCTGATGAAGTGGCCGAACGGCTCGGCGCGAAGATGTCGGTGATCCTGATCGGCGAACGCCCCGGCCTCAGCTCCCCCGATAGCCTGGGACTTTATTTCACCTACGCCCCCAAAGTTGGCCTGAACGACGCCTATCGCAACTGCATCTCCAATGTCCGCCTCGAAGGCCTGAGCTACGGCATGGCGGCGCATCGCCTGATCTACCTGATGCGCGAGGCCTGTCGCCGGCAGCTTTCGGGGGTCAATCTGAAGGACGAAGCCCAGGTTCACACTCTAGAGGCGGAAAACGGTGCCGATATGAAAGGTAATTTCCTACTGGCGCCGCCCCCAAGCTGA	MSELPMDKKPVDPQNPWLNLRNLTPARIALGRTGTSLPTSAQLDFQFAHAQARDAVHLAFDHQGIRAQLTERGHESLLLHSAAADRNSYLQRPDLGRRLDDASVQILQDYAAAHPGGVDLAIVVADGLSALAVHRHTLPFLARLEEQITAEGWSVSPIVLVEQGRVAVADEVAERLGAKMSVILIGERPGLSSPDSLGLYFTYAPKVGLNDAYRNCISNVRLEGLSYGMAAHRLIYLMREACRRQLSGVNLKDEAQVHTLEAENGADMKGNFLLAPPPS	PGPT0000610_413	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_GLYCEROPHOSPHOLIPID-ETHANOLAMINE_AMMONIA-LYASE_ACTIVITY,PGPT0000610-eutC-K03736	NA	NA
D1-35_04680	1395	eutB	COG4303	Ethanolamine ammonia-lyase heavy chain	ATGGCCAGCTTTGCACACACGGTCGGCGCCCAGACCTACCGCTTCGACAGCCTCAAAGACCTGATGGCCAAGGCCAGCCCGGCGCGTTCCGGGGATTTCCTGGCCGAGATCGCCGCGCTCAACGATGGCGAGAGGGTGGCCGCGCAAATGGCCTTGGCCGACTTGCCACTTAGTCATTTCCTGCAGGAAATGCTGATTCCCTACGAGGCCGACGAGGTCACCCGGCTGATCGTCGACACCCATGACAAACAAGCCTTCGCCGCCGTCAGCCACCTCACGGTCGGCGGCTTTCGCGACTGGCTCCTTAGCGACGCCGCCGACGAACACAGCCTGCGGGCGCTGGCTCCCGGGCTGACGCCGGAAATGGTCGCCGCCGTCTCGAAGATCATGCGCGTGCAGGACCTGGTACTGGTTGCACAGAAAATCCGCGTGGTCACCAAGTTCCGCGGCACCCTTGGCCTGCGCGGGCGCCTGTCCACTCGCCTGCAACCGAACCATCCGACCGACGAACCCGCCGGCATCGCCGCAAGCATCCTCGACGGCCTGCTCTTCGGCAATGGCGACGCCATGATCGGCATCAACCCGGCCACCGACAGCACGGCCTCGATCTGCGCGATGCTGGAAATGCTCGACGCCATCATCCAGCGCTACGACATCCCGACCCAAGGCTGCGTGCTGACCCACGTCACCACCTCCATCGAGGCGGCAAACCGCGGCGTGCCGCTGGATCTGGTGTTCCAGTCCATCGCCGGCACCGAAGCGGCCAACGCCAGTTTCGGCATCAGCCTGAGCCTGTTAAAAGAAGGCTACGACGCCGGGCTCAGCCTGAAGCGTGGCACCCTCGGCAACAACCTGATGTATTTCGAAACCGGCCAGGGCAGCGCGCTGTCGGCCAACGCCCACCACGGTGTCGATCAACAGACCTGCGAGACCCGAGCCTACGCCGTGGCGCGCCATTTCAACCCGTTCCTGGTGAACACGGTGGTCGGCTTCATCGGCCCGGAATACCTGTACAACGGCAAACAGATCATCCGCGCCGGCCTCGAAGACCATTTCTGCGGCAAGCTCCTGGGCGTGCCGATGGGTTGTGACATCTGCTACACCAACCACGCCGAAGCCGACCAGGACGACATGGACACCCTGCTGACCCTGCTGGGCGTGGCCGGGATCAACTTCATCATGGGCATCCCCGGCTCCGACGACATCATGCTCAACTACCAGACCACCTCGTTCCACGACGCCCTCTACGCCCGCCAGACCCTGGGCCTGAAACCGGCGCCGGAATTCGAGCAATGGCTGGCGAACATGGGCATCTTCACCCAGGCCGATGGTCGGGTGCGGTTCGGTGACAACCTGCCGCCGGCGTTTCGTCACGCCTTGGCGCATTTGGGATGA	MASFAHTVGAQTYRFDSLKDLMAKASPARSGDFLAEIAALNDGERVAAQMALADLPLSHFLQEMLIPYEADEVTRLIVDTHDKQAFAAVSHLTVGGFRDWLLSDAADEHSLRALAPGLTPEMVAAVSKIMRVQDLVLVAQKIRVVTKFRGTLGLRGRLSTRLQPNHPTDEPAGIAASILDGLLFGNGDAMIGINPATDSTASICAMLEMLDAIIQRYDIPTQGCVLTHVTTSIEAANRGVPLDLVFQSIAGTEAANASFGISLSLLKEGYDAGLSLKRGTLGNNLMYFETGQGSALSANAHHGVDQQTCETRAYAVARHFNPFLVNTVVGFIGPEYLYNGKQIIRAGLEDHFCGKLLGVPMGCDICYTNHAEADQDDMDTLLTLLGVAGINFIMGIPGSDDIMLNYQTTSFHDALYARQTLGLKPAPEFEQWLANMGIFTQADGRVRFGDNLPPAFRHALAHLG	PGPT0000605_514	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_GLYCEROPHOSPHOLIPID-ETHANOLAMINE_AMMONIA-LYASE_ACTIVITY,PGPT0000605-eutB-K03735	NA	NA
D1-35_04681	1449	potE_2		Putrescine transporter PotE	ATGCCAAGCGATCATGCAAACCCGCAACCGGCAACGTCCTCGGTCGACTTTGAAAAAGTCGGCTCCGAATATTTCCAACAACGCGAGCTGAAAAAAGGCGCGGCAGGCTGGGTCCTGCTGGTGGGGCTGGGGGTGGCGTATGTCATCTCCGGCGACTACGCCGGCTGGAACTTCGGCCTGGCCCAGGGCGGTTGGGGCGGGATGTTCCTCGCCACGCTGCTGATGGCCGCGATGTACCTGTGCATGTGTTTTTCCCTCGCCGAACTGTCCTCGATGATCCCCACCGCTGGCGGCGGCTACGGCTTTGCCCGCAGCGCATTCGGGCCTTGGGGCGGATTTCTCACCGGCACGGCGATTCTCATCGAATACGCCATCGCCCCGGCGGCGATTGCCGTGTTCATCGGTGCTTATTGCCAATCGCTGTTCGGGATTGGCGGCTGGATGATCTACCTGGCGTTCTACATCATCTTCATCGCCATCCACATATTCGGGGTCGGCGAAGCCCTCAAGCTGATGTTCATCATCACTGCTGTCGCCGCCTTGGCGCTGGGGGTTTTTCTGGTGGCGATGGTGCCGCACTTCAACGTCGCCAACCTGCTGGACATCCCGGTCACCGAGGCCAAGGGCGCCAGCCCGTTCTTGCCCTTCGGCTACGTCGGCGTCTGGGCGGCGATTCCTTACGCGATCTGGTTTTTCCTCGCCGTCGAGGGCGTGCCACTGGCCGCTGAAGAAACCAAGAACCCCAAGCGCGACCTGCCACGTGGCCTGATTGGCGCCATGCTGGTGCTGGTGGCGTTCGCCCTGCTGATCCTGGTGATCGGCCCCGGCGGCGCAGGCTCCAACGCGCTGATGGCGTCCGGCAACCCACTGGTGGAAGCCCTGGCCAAGGCCTATGGCGGCTCGACCTGGATGGGCAGCTTCGTCAACCTCGTCGGCCTGGCCGGTCTGATCGCCAGTTTCTTCTCGATCATTTACGCCTACTCGCGGCAGATCTTCGCCTTGTCCCGCGCCGGCTACCTGCCGCGCAAACTCTCGGAAACCAATAAAAGCAAGGCACCGGTGTTGGCGCTGGTGATTCCCGGCATCATCGGTTTCGGCCTGTCCCTGACTGGCCAGGGCGACCTGCTGATTCTGGTGGCGGTGTTCGGCGCGACCATTTCCTACGTGCTGATGATGGCCGCGCACATCACCCTGCGCATCCGCCGCCCCAAAATGGACCGGCCGTACCGCACGCCGGGCGGGATCTTCACCTCGGGCGTGGCGCTGGTATTGGCTTGCATCGCCGTAGTGGCGGGCTTCCTGGTGGACCCACGAGTGGTGATCGGCGCCGCGATCATCTATGGAGTGTTAATTGCTTACTTTGCTTTCTACAGTCGGCATCACTTGGTAGCAGGCACGCCCGAAGAGGAATTCGCGGCCATTCAAAAAGCCGAAGAAGCCCTGCACTAA	MPSDHANPQPATSSVDFEKVGSEYFQQRELKKGAAGWVLLVGLGVAYVISGDYAGWNFGLAQGGWGGMFLATLLMAAMYLCMCFSLAELSSMIPTAGGGYGFARSAFGPWGGFLTGTAILIEYAIAPAAIAVFIGAYCQSLFGIGGWMIYLAFYIIFIAIHIFGVGEALKLMFIITAVAALALGVFLVAMVPHFNVANLLDIPVTEAKGASPFLPFGYVGVWAAIPYAIWFFLAVEGVPLAAEETKNPKRDLPRGLIGAMLVLVAFALLILVIGPGGAGSNALMASGNPLVEALAKAYGGSTWMGSFVNLVGLAGLIASFFSIIYAYSRQIFALSRAGYLPRKLSETNKSKAPVLALVIPGIIGFGLSLTGQGDLLILVAVFGATISYVLMMAAHITLRIRRPKMDRPYRTPGGIFTSGVALVLACIAVVAGFLVDPRVVIGAAIIYGVLIAYFAFYSRHHLVAGTPEEEFAAIQKAEEALH				NA	NA	NA	NA	NA
D1-35_04682	1521	adh_2	COG1012	Aldehyde dehydrogenase	ATGCGTTACGCTCACCCCGGTACTGAAGGCGCTATCGTTTCGTTCAAGGCCAAATACGGTAACTACATCGGCGGCGAGTTCGTCGCGCCTGTCAAAGGTCAGTACTTCACCAACACTTCCCCGGTCAATGGCCAGCCCATTGCAGAATTTCCGCGTTCCACCGCCGAAGACATCGACAAAGCCCTCGACGCTGCCCACGCGGCCGCTGATGCCTGGGGCGCCACGTCGGTCCAGGCGCGTTCGCTGATCCTGCTGAAAATCGCCGACCGCATCGAACAGAACCTCGAAACCCTGGCGATCACCGAATCCTGGGACAACGGCAAGGCCGTGCGTGAAACCCTCAACGCCGACATCCCCCTGGCCGCCGACCACTTCCGCTACTTCGCCGGTTGCCTGCGGGCCCAGGAAGGCGCCGCCGCCGAGATCGACGGCAACACCGTGGCCTATCACATCCATGAACCGCTGGGCGTGGTCGGGCAGATCATCCCGTGGAACTTCCCGCTGTTGATGGCCGCCTGGAAGCTCGCGCCAGCCCTGGCCGCCGGCAACTGCGTGGTGCTCAAGCCCGCCGAACAGACCCCGCTGGGCATCTGCGTGCTCATGGAGCTGATCGGCGACCTGCTGCCGCCGGGCGTGCTGAACGTTGTGCAAGGTTTCGGCAAGGAAGCCGGCGAAGCCCTCGCCACCAGCAAACGCATCGCCAAGATTGCCTTCACCGGCTCGACACCGGTCGGCTCGCACATCATGAAATGCGCCGCCGAAAACATCATCCCGTCCACCGTGGAACTGGGCGGCAAGTCGCCGAACATCTTCTTCGAAGACATCATGCAGGCCGAGCCGAGCTTCATCGAAAAAGCCGCCGAGGGCCTGGTGCTGGCGTTCTTCAACCAGGGTGAAGTCTGCACCTGCCCATCCCGGGCGCTGGTGCAAGAGTCGATCTACGACGAATTCATGCAAGTGGTGATGAAGAAAATCCAGCAGATCAAGCGCGGCGACCCGCTGGACACCGACACCATGGTCGGCGCCCAGGCGTCCGAGCAGCAATTCGACAAGATCCTGTCTTACCTGGAAATCGCCCGGGGCGAAGGCGCCGAGCTGCTGACCGGCGGCAAGGTGGAAAAACTCGAAGGCAACCTGGCCAGTGGTTATTACATCCAGCCGACCCTGCTCAAGGGCACCAACAAGATGCGCGTGTTCCAGGAAGAAATCTTCGGCCCGGTGGTGAGCATCACCACCTTCAAGGACGAAGCCGAAGCCCTGGCGATCGCCAACGACACCGAGTTCGGCCTCGGCGCCGGCCTCTGGACCCGCGACATCAACCGCGCCTACCGCATGGGCCGGGCGATCAAGGCGGGTCGCGTCTGGACCAACTGCTACCACCTGTACCCGGCGCATGCCGCGTTTGGCGGCTACAAGAAGTCCGGCGTGGGGCGTGAGACGCACAAGATGATGCTCGACCATTACCAGCAAACCAAGAACCTGCTGGTGAGCTACGACATCAATCCGTTGGGGTTCTTCTAA	MRYAHPGTEGAIVSFKAKYGNYIGGEFVAPVKGQYFTNTSPVNGQPIAEFPRSTAEDIDKALDAAHAAADAWGATSVQARSLILLKIADRIEQNLETLAITESWDNGKAVRETLNADIPLAADHFRYFAGCLRAQEGAAAEIDGNTVAYHIHEPLGVVGQIIPWNFPLLMAAWKLAPALAAGNCVVLKPAEQTPLGICVLMELIGDLLPPGVLNVVQGFGKEAGEALATSKRIAKIAFTGSTPVGSHIMKCAAENIIPSTVELGGKSPNIFFEDIMQAEPSFIEKAAEGLVLAFFNQGEVCTCPSRALVQESIYDEFMQVVMKKIQQIKRGDPLDTDTMVGAQASEQQFDKILSYLEIARGEGAELLTGGKVEKLEGNLASGYYIQPTLLKGTNKMRVFQEEIFGPVVSITTFKDEAEALAIANDTEFGLGAGLWTRDINRAYRMGRAIKAGRVWTNCYHLYPAHAAFGGYKKSGVGRETHKMMLDHYQQTKNLLVSYDINPLGFF	PGPT0007176_930	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007176-aldB-K00138	NA	NA
D1-35_04683	1905	acoR_5	COG3284	Acetoin catabolism regulatory protein	ATGCACAGCAACCATTTGAGTCGCCATGCCCGGCAAGTCCTCACGGTCACCCAGGGCAAGGCCCATTTGCAGGGGCCTGGCAGCGATCCGTCGATTGCCCGTTCCTGGCTGCGCTGCCTCGAGGACTATCACCTCGACCCGGCGCAGAACCTGGCGCCGACCGTGCTCGAGCATGGCCGGTTGCTGGAAAGTCGCGAGCGCCTGCAGCAGGTTCTGCATATCGCCGGTACCGAGATGACCAGCTTGCACCAGCAATTGTCCGGCGCCGGCCATGCGGTGCTGTTGACCGATGCCCGGGGCGTGATCCTCAATTGCGTCACCGCCCCCAGCGAACGGAAGATTTTCGAACGGGCCGGCCTCTGGCTCGGCGCCGACTGGAGCGAAGCCTGTGAAGGCACCAACGGGATCGGTACCTGCCTGGTGGAACGCCAGGCCCTGACCATCCACCAGGAAGAACATTTTCGCGGCCGCCACACCGGCCTGACCTGCTCGGCGAGCCCGGTGTTCGACCCTCATGGCGAGCTGCTGGCGGTGCTCGACGTGTCTTCGGCGCGGCCGGACGTATCGCGCCAGAGCCAGTTTCACACCATGGCCCTGGTCAATCTCTCGGCGAAGATGATCGAGAGCTGTTATTTCCTTCGTTGTTTCGATAATCAATGGCTGCTGCGCTTTCATCTGCAGGCCGAGTCCGTGGGGTTGTTCAGCGAAGGGCTTATGGCGTTCGACGGCGAAGGACGCATCTGTGCAGTCAACCAGAGCGCGCTGAACCTGCTCGGGCACTTTCGCGGTGGCTTGCTCGGCCAGCGGGTCGAGGACTTCTTCGACTGTTCGCTGGATGAGTTACTGGGCCGGGCCAGCGCCCAGGCCAGTGCCAGTTGGCCGCTGCGCACCCGTGACGGTCGGCACTTGTACGCGGTCCTGCGTGGGCAAGCTCGTAGCGTGCCGGCTGCGGTCGCGCCTGCGCTCAAGGCTGTCGAACCCGCCCGTCTGCCGGGCATCTGCCTGGGGGACGCGGCGTTGCAGGAACATTTTCGCAAGGCTTTGCGGGTGTTCGAGCGCGATGTGCCGCTGCTGATCCAGGGCGAAACCGGTTCCGGCAAGGAGGCGTTTGCCAAGGCCGTGCACCACGCCAGCCAGCGCGCCGGGAAAAACTTCGTCGCGCTCAATTGCGCCGCGATTCCGGAAAGCCTGATCGAGAGCGAGTTGTTTGGTTATCGCGGCGGCAGTTTCACCGGCGCGCGCAAGGAAGGCATGCGCGGCAAGCTGCAACAGGCCGACGGCGGCACGCTGTTTCTCGATGAAATCGGTGATATGCCCCTGGCCTTGCAGACCCGTTTGCTACGGGTGCTGGAGGATCGTCAGGTAGTACCCATCGGCGGCGAACCCGAGGCGGTGAACGTGCGCATCATCAGCGCCACTCACCGGCAATTACTCGACCGCGTGGCCGACGGCAGTTTTCGCGAGGATTTGTACTACCGCCTCAACGGCCTGGAAATCCCGCTTCCGGCATTGCGCGAGCGCAGCGACAAATCCCAGTTGCTGGATTTCCTTCTGGCCGAGGAGAGCGGCGCCGAGACCGTGTCCATCGACGAACCGGCGCGCCAGGCGCTGCTGGCGTTCGACTGGCCGGGCAACGTGCGGCAGTTGCGCAATGTGCTGCGGACTCTTGCGGCGTTGTGCGACGGCGGGCGGATTGGGCTGGAGGATCTGCCGGCGATGATTCGCCAGCGCCCGGTTGCGGTGACCGAAACCCCGACCGAGCATCCGTTGGAAGATGCCGAGCGCCTGGCGTTGCTCGATGCGCTGGAACGTCAGCGTTGGCACATGACCCACACCGCCGAGCAATTAGGCATCAGCCGCAATACCCTTTACCGAAAGCTGCGCAAACACGCGATTGCCCGCTGA	MHSNHLSRHARQVLTVTQGKAHLQGPGSDPSIARSWLRCLEDYHLDPAQNLAPTVLEHGRLLESRERLQQVLHIAGTEMTSLHQQLSGAGHAVLLTDARGVILNCVTAPSERKIFERAGLWLGADWSEACEGTNGIGTCLVERQALTIHQEEHFRGRHTGLTCSASPVFDPHGELLAVLDVSSARPDVSRQSQFHTMALVNLSAKMIESCYFLRCFDNQWLLRFHLQAESVGLFSEGLMAFDGEGRICAVNQSALNLLGHFRGGLLGQRVEDFFDCSLDELLGRASAQASASWPLRTRDGRHLYAVLRGQARSVPAAVAPALKAVEPARLPGICLGDAALQEHFRKALRVFERDVPLLIQGETGSGKEAFAKAVHHASQRAGKNFVALNCAAIPESLIESELFGYRGGSFTGARKEGMRGKLQQADGGTLFLDEIGDMPLALQTRLLRVLEDRQVVPIGGEPEAVNVRIISATHRQLLDRVADGSFREDLYYRLNGLEIPLPALRERSDKSQLLDFLLAEESGAETVSIDEPARQALLAFDWPGNVRQLRNVLRTLAALCDGGRIGLEDLPAMIRQRPVAVTETPTEHPLEDAERLALLDALERQRWHMTHTAEQLGISRNTLYRKLRKHAIAR	PGPT0001030_1184	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
D1-35_04684	1350	mpl	COG0773	UDP-N-acetylmuramate--L-alanyl-gamma-D-glutamyl-meso-2,6-diaminoheptandioate ligase	ATGCACATCCATATTCTCGGTATTTGCGGCACTTTCATGGGTTCGATGGCGGTCCTGGCCAAGGAGCTGGGCCATCATGTGACCGGTTCCGACGCCAACGTTTACCCGCCGATGAGCACCCAGCTGGAGGCTCAGGGCATTGAGCTGACCCAAGGTTACGACCCGGCGCAACTGGACCCGGCGCCGGACCTGGTGGTCATCGGCAACGCCATGTCCCGTGGCAACCCGGCGGTGGAATACGTGCTCAACAAAGGCTTGCCGTACGTGTCGGGGCCGCAGTGGCTGGCCGATCATGTGCTGCAGGGCCGTTGGGTCCTGGCCGTCGCCGGTACTCACGGCAAGACCACCACCAGCAGTATGCTCGCCTGGGTGCTGGAGCACGCGGGCATGAGCCCGGGTTTCCTGATCGGTGGCGTGCCGCAGAATTTTTCGGTGTCGGCGCGCCTCGGTGGCACGCCATTCTTCGTGATCGAGGCCGATGAATACGACAGCGCGTTTTTCGATAAACGCTCGAAATTCGTCCACTACCGTCCGCGCACGGCGATCCTCAACAATCTTGAGTTCGACCACGCTGACATCTTCCCTGATCTGCCGGCCATCGAGCGCCAATTCCACCATTTGGTGCGGACCATCCCAAGTGAAGGCCTGGTCATCCATCCGACCACCGAGCCGGCCTTGCAGCGGGTCATTGAAATGGGCTGCTGGACCCCGGTGCAGACCACCGGTGCGGGCGGTCAGTGGCAGGTCAAGCTACTCAAGGATGACGGTTCGGCGTTCGAAGTCATGTTCGAAGGACAGTCCCAAGGCGTGGTCGAATGGGACATGACCGGCCAGCACAACGTCGCCAACGCCTTGGCGACGCTGGCGGCGGCCCGGCACGTCGGGGTGGTGCCGCCCATGGGCATCGCCGCGTTGAGTGCGTTCAAGAGTGTGAAACGGCGGATGGAGAAAGTTGCCGAGGTGAACGGCATCACCATTTATGACGACTTCGCCCACCATCCGACCGCTATTGCCACCACCCTCGACGGTCTGCGCAAGCGCATCGGCGATGCGCCGCTGATTGCGATCATCGAGCCGCGCTCCAATTCCATGAAACTCGGCGCTCACCGCGACGGCCTGCCGGAAAGCGTGGTCGATGCCGACCAGGTGATCTGGTACGCGCCGGCCAACCTCGGCTGGGACCTCGGCGCCACGGCTGCGCTGTGCACGGTGCCGTCGATTGTCAGCGATTCCCTGGAGGGCATCATCGAGCGCGTGAAGAGCCAGGCCCAGCCCGGCACCCATGTGGTGATCATGAGCAACGGCGGCTTCGGCGGCCTGCACGGCAAACTCGCCGAGGCACTGAAATGA	MHIHILGICGTFMGSMAVLAKELGHHVTGSDANVYPPMSTQLEAQGIELTQGYDPAQLDPAPDLVVIGNAMSRGNPAVEYVLNKGLPYVSGPQWLADHVLQGRWVLAVAGTHGKTTTSSMLAWVLEHAGMSPGFLIGGVPQNFSVSARLGGTPFFVIEADEYDSAFFDKRSKFVHYRPRTAILNNLEFDHADIFPDLPAIERQFHHLVRTIPSEGLVIHPTTEPALQRVIEMGCWTPVQTTGAGGQWQVKLLKDDGSAFEVMFEGQSQGVVEWDMTGQHNVANALATLAAARHVGVVPPMGIAALSAFKSVKRRMEKVAEVNGITIYDDFAHHPTAIATTLDGLRKRIGDAPLIAIIEPRSNSMKLGAHRDGLPESVVDADQVIWYAPANLGWDLGATAALCTVPSIVSDSLEGIIERVKSQAQPGTHVVIMSNGGFGGLHGKLAEALK	PGPT0023975_1630	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_LIGASES,PGPT0023975-mpl-K02558	NA	NA
D1-35_04685	648	ubiX	COG0163	Flavin prenyltransferase UbiX	ATGAATACTCGCTTGGAGAGCAACGGTCCCGAACGCATCACGCTGGCAATGACCGGCGCTTCCGGCGCCCAGTACGGCTTGCGCCTGCTCGATTGCCTGGTGCGTGAGGATCGCGAGGTGCACTTCCTTATCTCCAAGGCCGCGCAGTTGGTGATGGCCACCGAGACCGACGTGACGTTGCCACCCAAGACGCAGATGATGCAGGCCTTTCTCACCGAGTATACCGGTGCGGCGGCAGGGCAGATTCGTGTGTATGGCAAGGAAGACTGGATGTCACCGGTGGCTTCGGGCTCCGGCGCGCCGGCGGCGATGGTCGTGGTGCCGTGTTCCACCGGTACGCTGTCGGCGATCGCCACCGGGGCCTGCAACAACCTGATCGAGCGGGCGGCGGACGTCACGCTCAAAGAGCGCCGCCAGTTGATCCTGGTGCCGCGGGAAGCGCCGTATTCGAGCATTCACCTGGAGCACATGCTCAAGCTGTCGAACATGGGCGTGACCATCCTGCCGGCCTCGCCGGGCTTCTACCATCAGCCGCAGACCATCGACGACCTGATCGATTTTGTGGTCGCGCGGATCCTCAACTTGCTGAACCTGCCGCAAGACATGCTGCCACGTTGGGGCGAGCATCATCCGGGCAGCGATGAATAA	MNTRLESNGPERITLAMTGASGAQYGLRLLDCLVREDREVHFLISKAAQLVMATETDVTLPPKTQMMQAFLTEYTGAAAGQIRVYGKEDWMSPVASGSGAPAAMVVVPCSTGTLSAIATGACNNLIERAADVTLKERRQLILVPREAPYSSIHLEHMLKLSNMGVTILPASPGFYHQPQTIDDLIDFVVARILNLLNLPQDMLPRWGEHHPGSDE	PGPT0009565_288	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-SALICYLIC_ACID_RESISTANCE,PGPT0009565-ubiX|bsdB-K03186	NA	NA
D1-35_04686	285			hypothetical protein	ATGAATAAGCTGCTGGCGGTGTTGCTGGTCCTGCAGCTGACTGGCTGTGCCACCGCGCGCACCCTTGACGCCGCCAAGCCGGGAGCGCCGGTGGTGTATGCGGGGACGCGGCTGGACATGTACGCCCTTAACGGTGGCTGCTGCGCCAAGGACCGTTTTGGCGCCGAGGCGCCGAGCTATCCGGGTCTCGATTTGCCGGGGAGTGCGCTGCTGGATACGTTGTTGTTGCCGTTGTCGTTGCTGACGGTGATTGGCGTGGGGTTTCAAGCGACCGGTGGGATGTAG	MNKLLAVLLVLQLTGCATARTLDAAKPGAPVVYAGTRLDMYALNGGCCAKDRFGAEAPSYPGLDLPGSALLDTLLLPLSLLTVIGVGFQATGGM				NA	NA	NA	NA	NA
D1-35_04687	642			hypothetical protein	ATGTACTTGACGCCTCAGCATGTTTTGCTCGCCGGCGCGACCGGATTGACCGGGGAACATCTACTGGACCGGCTGCTGAACGAGCCGACCATCACGCGGGTACTGGCGCCTTCCCGCCGGCCATTGGCCGAACACCCGCATCTGGAAAACCCGGTTGGGGAACCGGCCGAACTGCTGCCACGGCTTGGCGGCCAGGTCGACATCGCCTTCTGCTGCCTCGGCACGACCATCAAGAAAGCCGGCTCCGAATCGGCCTTTCGCGCGGTGGACCTGGACCTGGTGGTGGCCTTCGCCAAACGCGCGCGGGAATTGGGCGCACGGCACCTGGTGGTGATCAGCGCCCTCGGGGCCGACCCGAAATCGTCGATTTTCTACAACCGGGTCAAGGGTGAAATGGAAGCTGCGCTCCGCGCACAGGATTGGCCGCAACTGACCATCTGCCGACCTTCGTTGCTGTTGGGCGACCGGGTTGAACCACGCCTGGCCGAGCAACTGGCCGGCCCGTTGTCCAAGCTGATCCCCGGCAAATACCACGGCATCGAAGCCTGCCAACTGGCCCGGGCCATGTGGCGACTTGCGCTGGAGGAGCAGGATGGGGTGCGGGTAGTGGAGTCGGATGAGTTGCGCAAGCTGGGCAAATGA	MYLTPQHVLLAGATGLTGEHLLDRLLNEPTITRVLAPSRRPLAEHPHLENPVGEPAELLPRLGGQVDIAFCCLGTTIKKAGSESAFRAVDLDLVVAFAKRARELGARHLVVISALGADPKSSIFYNRVKGEMEAALRAQDWPQLTICRPSLLLGDRVEPRLAEQLAGPLSKLIPGKYHGIEACQLARAMWRLALEEQDGVRVVESDELRKLGK	PGPT0013740_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
D1-35_04688	1719			hypothetical protein	ATGCGCGCACTTGTACCCCTGACCCTGACCCTCCTGCTCACCGCCTGCGGAAACGGCGAATCACCGCTGCCCCCAGACGCACGCCTGCCCGACGGCGGACGCTATCGCGGCGATCTGGTAGACGGGCTGTTGCAGGGCCAGGGACGCATCGACTATCCCAACGGCAGCTGGTACGCCGGGCAGTTCGACAAGGGCCAGTGGCACGGCACCGGGGAATGGCATGGCAGCAATGGCGAGGTCTATCGCGGCCAGTTCCAGCATGGCCTGTTCCACGGCCAGGGCAGCCTGACCACACCGACCAGCAGCTACACCGGCGGTTTCAAGTTGGGCCGGCGGGACGGTGAAGGCACGCTCAAGGAAAACGGCGTGACCTACCGGGGCGAGTTCAAGGCCGACCGCTACTCCGGTCTCGGCCGCCTGGAACTCGACGACGGCAGCCAGTACCAAGGCCCGTTCGTCAACGGCAAGCCCAACGGCGAAGGCCAGCGCTTCGACGCCAGCGGCAACCAGTTCACCGGCCATTTCGTCGACGGCCAGCTCCAGGGCAAGGGCACGTTCAACAGCGCCGAAGGCGACGTCTACATCGGCGGCTTCAGGAATAACCAGCTCAACGGCCGCGGTCGCTACGAAAACGCCGATGGCGATGTCTGGATTGGCCAGTTCAAGGACGGTGCGCTGACCGGCAAGGGTGAACTGATCGGAGCCGATGGCAGCCACTACCGCGGGCGCTTCAATGACTGGCGCTTCACCGGCGAAGGTCGCCTGAACCTGCCCGACGGCAGCTTCTACATCGGCCAGTTCGAAGGCGACAGCTACCACGGGCGCGGCACGCTGGTGCTGACCGACGGCACCGTACAGAGCGGCACCTGGGCCAACGGCCAACGAATCCGTGACGCCGACGGCAAGCTGTTGCCCGATGTGCTCGAACTCGGCCTGCTGGCCCAGGGTCGCCTGCTGGACGAGGCCCTCGCCAACATCCCGGCCTCGACGTCGGCGGTGGAACTGTACAGTCTGACCCTGGGCGGCGATGGCAAGCAAAGCGTGTTCCTGCGTGAGTCCGACTATGTCGCCAACATGCTCGCCAGCCGTTTTGGCGCATTCGGCCAGATTCGCCTGGTGAACCATCGCGATCACCTCGGCGACCGGCCCATGGCCACTCGCGAAAACCTGCGCCGTGCCGCTGCCACGCTGGCCGAACGCAGCGGCCCGGAAGACCTGGTGTTCATCTACCTGACCAGCCACGGCAGCAGCGAACATGAACTGGTACTCGACCAGCCGCGCATGGAGCTGGCCGACCTGCCCGCCGACGAGTTGGCCGCGGTGCTGGCGCCGCTGAAGAATCGCGACAAGATCATTGTGATCTCGGCCTGTTATTCCGGCGGTTTCATCCCCGCGCTCAAGGACGAACGGACCCTGATCATGACCGCCTCCCGGGCCGACCGAGTGTCTTTCGGCTGCTCCGAGGAGGCCAACTTCACCTATTTCGGCGATGCCTTGTTCGCCCAGGCGCTGAACCAGACCGACGATCTGGAACAAGCCTTCAAGCGGGCCAAGGGCATCGTTGCCGAACGGGAGCAGGCGGACAATTTCGAAGCGTCCGAACCACAGATGTGGGCGCCCCGGACCGTGCTTTCTCATTGGCAGCTGTTGCGCAAGCAACAGGCGCGAAAAGCATTGCAAAGTGCTGCGTTGAACGACGAGGCTAAAAAGAGCAACTAA	MRALVPLTLTLLLTACGNGESPLPPDARLPDGGRYRGDLVDGLLQGQGRIDYPNGSWYAGQFDKGQWHGTGEWHGSNGEVYRGQFQHGLFHGQGSLTTPTSSYTGGFKLGRRDGEGTLKENGVTYRGEFKADRYSGLGRLELDDGSQYQGPFVNGKPNGEGQRFDASGNQFTGHFVDGQLQGKGTFNSAEGDVYIGGFRNNQLNGRGRYENADGDVWIGQFKDGALTGKGELIGADGSHYRGRFNDWRFTGEGRLNLPDGSFYIGQFEGDSYHGRGTLVLTDGTVQSGTWANGQRIRDADGKLLPDVLELGLLAQGRLLDEALANIPASTSAVELYSLTLGGDGKQSVFLRESDYVANMLASRFGAFGQIRLVNHRDHLGDRPMATRENLRRAAATLAERSGPEDLVFIYLTSHGSSEHELVLDQPRMELADLPADELAAVLAPLKNRDKIIVISACYSGGFIPALKDERTLIMTASRADRVSFGCSEEANFTYFGDALFAQALNQTDDLEQAFKRAKGIVAEREQADNFEASEPQMWAPRTVLSHWQLLRKQQARKALQSAALNDEAKKSN				NA	NA	NA	NA	NA
D1-35_04689	456		COG2030	putative enoyl-CoA hydratase 1	ATGCCCTACGTTCCCGTTGCAGAGCTCAAGGATTATGTCGGCAAGGAACTTGGATACTCCGACTGGCTGACCATCGACCAGGAGCGCATCAACCTGTTCGCCGAAGCCACCGGCGACTTCCAGTTCATCCACGTCGATCCGGTCAAGGCCGCGCAGACCCCGTTCGGCAGCACGATCGCCCACGGGTTCCTGTCGCTGTCGCTGATGCCCAAGCTGATGGAAGACATCCTGCTCCTTCCTGAGGGGGTGAAGATGGTGATCAACTACGGGCTGGACAGCGTGCGCTTCATCCAGCCAGTGAAAGTCGATTCCAAGGTCCGGCTCAAGGTCGACCTGGTGGACGTTACCGAGAAAAAACCTGGCCAATGGCTGCTCAAGGCCACCGCCACCCTGGAAATCGAAGGCTCGGAAAAACCAGCCTATATCGCCGAGCCGCTGTCACTCTGCTTCGTATAG	MPYVPVAELKDYVGKELGYSDWLTIDQERINLFAEATGDFQFIHVDPVKAAQTPFGSTIAHGFLSLSLMPKLMEDILLLPEGVKMVINYGLDSVRFIQPVKVDSKVRLKVDLVDVTEKKPGQWLLKATATLEIEGSEKPAYIAEPLSLCFV	PGPT0015281_37	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0015281-nodN-NA	NA	NA
D1-35_04690	366	cidA		Holin-like protein CidA	ATGTTGCTACGGGGCCTGACCTGGCTGGTGCTGTTCCAATTGCTGGGCACCGCCATCAATCATTTGTTCCTGCCGATCCTGCCGGGGCCGATCATTGGGCTGCTGTTGTTGCTGGGCTATCTGATCGTCCGTGGCGAAGTCAGCGAGCCGTTGAACCTTGCCGCCGGCAGCCTGCTGCGTTATCTGCCGTTGCTGCTGGTGCCGCCGGCGGTGGGCGTGATGGTCTATGCCCGGGCGATCGCTGCCGACTTCTGGGCCATCGTTGGCGCGCTGGTGTTGTCGCTGGTGCTCTCCGTGGCGCTGACGGGCGTGCTGATGCAACGTTTGGCCCGGCGCCATATCGTCGAGCCGGAGGATGCCCGATGA	MLLRGLTWLVLFQLLGTAINHLFLPILPGPIIGLLLLLGYLIVRGEVSEPLNLAAGSLLRYLPLLLVPPAVGVMVYARAIAADFWAIVGALVLSLVLSVALTGVLMQRLARRHIVEPEDAR				NA	NA	NA	NA	NA
D1-35_04691	717	yohK	COG1346	Inner membrane protein YohK	ATGATGTTCGATTGGCAGGGGGCCTGGACGTCGGTGATTCACCATCCACTGTTCGGCATCGGCATTACCCTGGGCGCCTACCAGTTGGTGTTGGCGGCGTATGAAAAGACCCGTTGGGTGTTCCTGCAGCCGGTATTGATGTCGATGGTGCTGTTGATCGTCGTGCTGGTCGGCTGCGGCATCAGCTACGCGGAATATCGCAAAAGCACCGAAATCCTCAGCATTTTGCTGGGCCCCGCGACCGTGGCGTTGGCGGTGCCGTTGTACCTGAACCTGCGGCGAATCCGCCAATTGTTCTGGCCGATTTTTACTACGCTGGTGATAGGCGGGGTGTTTGCCACCGGCTCAGCGGTGGTGCTGGGCTGGGCTTTTGGCGCCGAACACATGATTCTGATGACCATGGCGCCCAAGTCGGTCACCTCGCCGATCGCCATGTTGGTGGCCGAGCAGATCGGTGGCGTGGCGGCGATGGCGGCGGTGTTCGTGCTGATCACCGGGGTGCTTGGCGCGATCCTCGGCCCGAGCATTCTGACCCGGCTCGGTGTCCATAGCCCTGAGGCCCGGGGCATAGCCTTGGGGCTGACTGCCCATGCGGTGGGTACGTCGGTGGCCTTGCAGGAAAGCGAGGAGTCCGGTGCCTTCGCGGCGCTGGCGATGAGTCTGATGGGCGTGGCCACGGCGGTGCTGCTGCCGCTGGTGGTGTCGATGACGGTCTAA	MMFDWQGAWTSVIHHPLFGIGITLGAYQLVLAAYEKTRWVFLQPVLMSMVLLIVVLVGCGISYAEYRKSTEILSILLGPATVALAVPLYLNLRRIRQLFWPIFTTLVIGGVFATGSAVVLGWAFGAEHMILMTMAPKSVTSPIAMLVAEQIGGVAAMAAVFVLITGVLGAILGPSILTRLGVHSPEARGIALGLTAHAVGTSVALQESEESGAFAALAMSLMGVATAVLLPLVVSMTV				NA	NA	NA	NA	NA
D1-35_04692	591			hypothetical protein	ATGAGCTTGCCGCTTTTCCCATTGAACACCGTGCTGTTTCCCGGTTGCATCCTCGACCTGCAGATTTTCGAGGCACGTTACCTCGATATGATCGGGCGCTGCATGAAAAAAGGCGAAGGCTTCGGGGTGGTCTGCATCCTTGACGGCGAAGAGGTCGGTATCGCGCCCGACGGTTATGCCCGGGTGGGCTGCGAGGCGCTGATTACCGACTTCTCCCAGCAGGACAACGGCCTGCTGGGCATTCGTGTGCAGGGCGGCCGGCGCTTCATCGTGCATGCCAGCAGTGTCCAGCCGGATCAACTGACTGTCGCTGAAATCGAGTGGCTGGAAGACGAGCCGGAGCAACCGCTGCAGGACGAGGATGCCGACCTGGTGGCGCTGCTCAGGGCCCTGGCGGAACACCCGATGGTCGAGGCGCTGAACATGGGCACCGAGGCTACCGGTCAGCAGTCATTGGCCAATCAACTGGCCTATCTGCTGCCATTCAACGAACTGGACAAGATCGACCTGCTGCAGCTCGACGACCCGCAGCAGCGCCTGGATGCGATCCAGGCCTTGCTGGATGAGTTGCAGGGTGAGCTGTTTGCCTGA	MSLPLFPLNTVLFPGCILDLQIFEARYLDMIGRCMKKGEGFGVVCILDGEEVGIAPDGYARVGCEALITDFSQQDNGLLGIRVQGGRRFIVHASSVQPDQLTVAEIEWLEDEPEQPLQDEDADLVALLRALAEHPMVEALNMGTEATGQQSLANQLAYLLPFNELDKIDLLQLDDPQQRLDAIQALLDELQGELFA				NA	NA	NA	NA	NA
D1-35_04693	1317			hypothetical protein	ATGGGCCCTTGGCTCGATAGCATTACCGGCTGGCTGACCGTCAACCCGCAATGGCTGGCGGTGGCGGTGTTTGTCGTTGCTTGTATTGAATGCCTGGCCATCGCCGGGTTGATCGTGCCGGGCACTGTTTTGCTATTTGCGATCGCGGTGCTGGCCGGCAGCGGCGCTTTGTCCCTGGGCGAGACGTTGTTGCTGGGCCTTCTGGGAGGGCTGCTGGGGGACCTGGTGTCCTATTTCCTCGGCCGGCATTTCCACCAGAACATCCGGCGCCTGCCGGGGCTGCGGCAACATCCGGAATGGATGAGCGCGGCCGAGAGCTACTTCCAGCGCTATGGAATCGCCAGCCTGCTGGTGGGGCGGTTTATCGGACCGTTGAGGCCGATGCTGCCGATGGTAGCCGGGATGTGCGACATGCCGTTCCCACGCTTCGCCGCCGTCAGCGTGCTCGCCGCGGCGGGCTGGACCATAGCCTACCTGCTGCCGGGCTGGGCCACCGGCGCGGCGTTCCGCCTGCCGTTGCCCGAAGGTTTCTGGCCGCAGGCCGGCGTGGTCATCGGCAGCATCGCCGTGATGCTCGGGCTGAGTGTCAACAGCAGCCTGCGGCGTCATCGCCATGCCTCAGCGATCATCGCAAGTGTCGGTCTGGCGATCCTGATCGGCCTGTTTGTCGGCTTTCGTTACCTCACAGCCTTCGACCAGGGCCTGATGACCCTGGTGCAGGAGCATCGCAGCGCGACCCTGGACGAGATTGCCGTGACGTTCACGCTGATCGGTGAATTCCGCTACATGTTGATCGTCTGCAGCCTGGTGACCGTGTTGCTGCTGTTTGCACGACAATGGCGGCAGGCAATCTTTGCCGGCGGCACGATGCTGCTCACGGCCCTGGCCAACACTGGATTGAAACTGTTTTTCGCCCGCGTGCGCCCTGAGATCCTCAGCGAACCCTTGACCAGCTACAGCATGCCCAGCGGCCACGCCTCCGGCGCTTTCGCCCTGTTCCTGAGCCTGGCGATACTGGCCGGCCGCGGCCAACCACCGCGCCTGCGCCTGACCTGGCTGCTGCTCGGCTCGTTACCTGCGCTGGCGATTGCCTTGTCGCGGGTGTACCTGGGCGCCCACTGGCCGAGCGACATTGTCGCCGGTGCCGTGCTCGCCGCCACGGTCTGCGCCGCTGTCCTCTGGCTAAGCCAGCGCCAGGAACCGCTGCGCGCCATGTCGCCGAAAGTCTGGTGGCTGGTCCTGCCGGCGCTGGCGGCGGCGTTCAGCTTCTTCGCCCTGCGGCATCTTCCGCATGCGATGTTGCGGTATGCCTATTGA	MGPWLDSITGWLTVNPQWLAVAVFVVACIECLAIAGLIVPGTVLLFAIAVLAGSGALSLGETLLLGLLGGLLGDLVSYFLGRHFHQNIRRLPGLRQHPEWMSAAESYFQRYGIASLLVGRFIGPLRPMLPMVAGMCDMPFPRFAAVSVLAAAGWTIAYLLPGWATGAAFRLPLPEGFWPQAGVVIGSIAVMLGLSVNSSLRRHRHASAIIASVGLAILIGLFVGFRYLTAFDQGLMTLVQEHRSATLDEIAVTFTLIGEFRYMLIVCSLVTVLLLFARQWRQAIFAGGTMLLTALANTGLKLFFARVRPEILSEPLTSYSMPSGHASGAFALFLSLAILAGRGQPPRLRLTWLLLGSLPALAIALSRVYLGAHWPSDIVAGAVLAATVCAAVLWLSQRQEPLRAMSPKVWWLVLPALAAAFSFFALRHLPHAMLRYAY	PGPT0024170_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024170-bcrC-K19302	NA	NA
D1-35_04694	687			Putative 3-methyladenine DNA glycosylase	ATGACCATGACCGATTCGCCTCCGATGCCCACTGCTTTGCCACACGCTTTTTTTGACCGCGACGCCCAGGAGCTTGCCAAGGATCTGCTGGGCAAGGTGATTCGCCACAAGGTTGGCGACCTGTGGCTGAGCGCGAGGATCATCGAGACCGAAGCGTATTACTTCGCCGAAAAGGGCAGCCACGCCTCGTTGGGCTACACGGAAAAGCGTAAGGCTTTGTTTCTGGATGGCGGCCACATCTATATGTACTACGCGCGGGGCGGCGATTCGCTGAATTTCAGCGCCCAAGGCCCGGGCAATGCCGTATTGATCAAATCGGCGTATCCCTGGGTGGACGCCATCAGCGGCCCGGCAAGCCTGGCGCAGATGCTGTTGAACAACCCCGATGCGCAAGGCCGGCCACGTACACCGCAAAAACTTTGTGCCGGACAGACCTTGCTGTGCAAGGCGCTGGGCCTGAAAGTGCCGGACTGGGACGCCAGACGCTTCGACCCTGAACGGCTGCTGGTGGAGGATGTGGGTGTGCCGACGGTCAATGTGATCCAGACCACTCGCCTGGGCATCCCGCTGGGACGAGATGAGCACCTGCTTTACCGCTTCGTCGACGCCGCCTATGCGCCATGGTGCACCCGCAACCCGTTGCGACGGGGGCAGGTCGAGGGGCGGGATTATTTTCTGCTTTCTTGA	MTMTDSPPMPTALPHAFFDRDAQELAKDLLGKVIRHKVGDLWLSARIIETEAYYFAEKGSHASLGYTEKRKALFLDGGHIYMYYARGGDSLNFSAQGPGNAVLIKSAYPWVDAISGPASLAQMLLNNPDAQGRPRTPQKLCAGQTLLCKALGLKVPDWDARRFDPERLLVEDVGVPTVNVIQTTRLGIPLGRDEHLLYRFVDAAYAPWCTRNPLRRGQVEGRDYFLLS	PGPT0014885_551	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014885-yxlJ|aag-K03652	NA	NA
D1-35_04695	1272	proA		Gamma-glutamyl phosphate reductase	ATGACTGAGTCCGTTCTTGACTACATGACCCGCCTGGGTCGCGCCGCCCGCGAAGCGTCGCGCATCATCGGTCGTGCCAGCACCGCGCAGAAAAATCGCGCCCTGCAGGCCGCCGCCAATGCGCTGGACGCTGCGCGCGCCGAGCTGTCCGCCGCCAACGAGCTGGACCTGGCCGCCGGCCGGGCCAATGGGCTCGAGCCGGCCATGCTTGAGCGCCTGGCGCTGACTCCGGCACGCATCGACGGCATGATCGTCGGTCTGCGTCAGGTGGCGGCTCTGCCGGACCCGGTCGGGGCGATTCGCGACATGAGCTATCGGCCATCGGGTATCCAGGTCGGCAAGATGCGCGTGCCGCTGGGTGTGGTCGGGATCATCTACGAGTCGCGGCCGAACGTGACCATCGACGCCGCGAGCCTGTGCCTGAAGTCGGGTAACGCGACCATCCTGCGCGGCGGTTCCGAGGCGATCCATTCGAACCGTGCGATTGCCGCCTGCATCCAGCGCGGGCTGGCCGAAGCCAACCTGCCGGCGGCGGTCGTGCAAGTGGTGGAGACCACCGACCGCGCCGCGGTCGGCGCGTTGATCACCATGCCCGAGTTCGTCGACGTTATCGTCCCGCGTGGCGGCAAGGGCCTGATCGAACGGGTCAGCCGCGACGCCCGCGTACCGGTGATCAAGCACCTGGACGGCATCTGTCATGTCTACGTCAGCGCCCACGCCGAATTGCCCAAGGCCCAGCGCATCGCTTTCAATGCCAAGACCTACCGTTATGGCATCTGCGGCGCGATGGAAACCCTGCTGGTGGACCAGACCGTTGCTGGGGATTTCCTGCCGTCGATGGCGGCCCAGTTCCGCGAAAAAGGCGTCGAGCTGCGTGGCTGCGAGCGCACCCGGGCGATCATCGAGGCCGCAGTCGCCACGCCAGAGGACTGGGACACCGAATACCTCGCGCCAATCCTGTCGATCCGCGTGGTGGACGGGCTGGACCAGGCCATCGAGCACATCAATCGCCACGGATCCCACCACACCGATTCCATCGTCAGCGAGCACCAGGGCGAAACCCGGCGCTTCGTGGCTGAAGTGGATTCGGCGTCGGTGATGATCAACACCCCGACCTGTTTTGCCGACGGCTTCGAATACGGATTGGGTGCCGAGATCGGCATTTCTACTGATAAGCTGCACGCCCGGGGCCCGGTGGGCCTGGAAGGCCTGACCTGCGAGAAGTACATCGTGGTCGGCGACGGCCAGTTGCGCGGACAGGAGCCAGCCTGA	MTESVLDYMTRLGRAAREASRIIGRASTAQKNRALQAAANALDAARAELSAANELDLAAGRANGLEPAMLERLALTPARIDGMIVGLRQVAALPDPVGAIRDMSYRPSGIQVGKMRVPLGVVGIIYESRPNVTIDAASLCLKSGNATILRGGSEAIHSNRAIAACIQRGLAEANLPAAVVQVVETTDRAAVGALITMPEFVDVIVPRGGKGLIERVSRDARVPVIKHLDGICHVYVSAHAELPKAQRIAFNAKTYRYGICGAMETLLVDQTVAGDFLPSMAAQFREKGVELRGCERTRAIIEAAVATPEDWDTEYLAPILSIRVVDGLDQAIEHINRHGSHHTDSIVSEHQGETRRFVAEVDSASVMINTPTCFADGFEYGLGAEIGISTDKLHARGPVGLEGLTCEKYIVVGDGQLRGQEPA	PGPT0014215_1815	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014215-proA-K00147	NA	NA
D1-35_04696	699	nadD_2	COG1057	putative nicotinate-nucleotide adenylyltransferase	TTGGGCGACCTCGACCCACTGGCCTCCATGACTACGCCCGCTGTGACGGCGACCGCGCCAAAGCGCATCGGTATCCTGGGCGGTACGTTCGACCCGGTGCACATCGGCCATTTGCGCGGTGCGCTGGAAGTCGCCGATGCCCTGGCCCTCGATGAGCTGCGCCTGACGCCCAGCGCTCGGCCACCTCATCGGGATACACCGCAGGTGTCGGCGCAGGATCGCCTGGCGATGGTCGAGTGCGCGGTGGCCGGTGTGGCGCCGTTGGTGGTGGACGCCCGCGAATTGCAGCGGGACAAACCGTCCTACACCATTGATACCCTGGAGCTGATGCGCGCCGAGTTGGCCGCCGATGCCCAGGTTTTCCTGCTTCTGGGCTGGGACGCATTTTGCGGCCTGCCCACTTGGCACCGCTGGGAAGAGTTGCTCCAGCATTGCCACATCCTGGTGCTGCAACGCCCGGATGCCGACAGCGAACCGCCGGATGCCTTGCGCAACCTGCTGGCGGCGCGCTCGGTGAGCGACCCGCTGGCCCTCAAGGGGCCGAGCGGACAGATTGCATTCGTCTGGCAGACGCCGCTCGCGGTATCCGCCACCCAGATCCGTCAACTGCTGGCCAGCGGTAAGTCGGTACGTTTCCTGGTGCCCGACGCGGTCCTGGCCTACATCGATGCGCACGGTCTGTACCGTGCGTCGAACTGA	MGDLDPLASMTTPAVTATAPKRIGILGGTFDPVHIGHLRGALEVADALALDELRLTPSARPPHRDTPQVSAQDRLAMVECAVAGVAPLVVDARELQRDKPSYTIDTLELMRAELAADAQVFLLLGWDAFCGLPTWHRWEELLQHCHILVLQRPDADSEPPDALRNLLAARSVSDPLALKGPSGQIAFVWQTPLAVSATQIRQLLASGKSVRFLVPDAVLAYIDAHGLYRASN	PGPT0013435_671	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013435-nadD-K00969	NA	NA
D1-35_04697	495	rsfS		Ribosomal silencing factor RsfS	ATGACTGACAAAGACCTGAACAAAGTAAAGCGCAAGGGCACTTTCAAGAGCGCCCCGCTGCCGGTAGAAGCGCCAACCGGCGTGGCGCTGGTCGGTGAAGAACTGGTCAAGGTGGCCGTGGCGGCCCTGGAAGACGTCAAGGCCCAGGACATCCAGGTGATCGACGTTCGCGAAAAGCAGAGCATCACCGACTACATGATCATCGCCACCGGTACCTCGAACCGCCAGATCGGCGCGATGCTCGACAAGGTCCGCGAAGCGGTGAAGGCCCAGGGCGTCAAGCCGTTGGGCGAAGAAGGCAAGGGCGACAGCGACTGGGTCCTGCTGGACATGGACGACGTCATCGTGCACATGATGACCGCCTCGGCGCGCCAGTTCTATGACCTGGAGCGCCTGTGGGCCGGTGCCGAGCAGAGCCGTTCGGCCAGCGCCGCGCACCACAGCCCGGAAAACACCCATGAGCACTTCACCAAGCTCAACAAAGACCAGCAATAA	MTDKDLNKVKRKGTFKSAPLPVEAPTGVALVGEELVKVAVAALEDVKAQDIQVIDVREKQSITDYMIIATGTSNRQIGAMLDKVREAVKAQGVKPLGEEGKGDSDWVLLDMDDVIVHMMTASARQFYDLERLWAGAEQSRSASAAHHSPENTHEHFTKLNKDQQ				NA	NA	NA	NA	NA
D1-35_04698	468	rlmH	COG1576	Ribosomal RNA large subunit methyltransferase H	GTGCGACTGCGCCTGATCGCCGTCGGTTCTCGCATGCCCAAGTGGGTGGAAGAAGGCTGGCATGAATATGCCAAGCGTCTTCCGTCCGAGCTGGCTTTGGAACTGGTGGAAATTCCGCTCAATACCCGCGGCAAGAACGCCGACGTGGCGCGCTTTATCCGCCAGGAAGGTGAAGCCATGCTGGCCAAGGTCGGGCCGAACGAGCGCATCGTCACACTCGAAGTTCATGGCAAACCCTGGAGTACCGAGCAACTGGCGGTGGAGCTCGATCGCTGGCGGCTGGATTCGCGCACGGTCAATTTCATGGTCGGCGGTCCGGAAGGGCTGGCGCCGGAAGTCTGCGCCCGGGCCGATCAACGCTGGTCGTTGTCGCCCCTGACGTTGCCGCACCCGCTGGTGCGGATCCTGATCGGTGAACAGTTGTATCGTGCCTGGACAGTCCTGTCCGGGCACCCTTATCACAAGTAA	MRLRLIAVGSRMPKWVEEGWHEYAKRLPSELALELVEIPLNTRGKNADVARFIRQEGEAMLAKVGPNERIVTLEVHGKPWSTEQLAVELDRWRLDSRTVNFMVGGPEGLAPEVCARADQRWSLSPLTLPHPLVRILIGEQLYRAWTVLSGHPYHK				NA	NA	NA	NA	NA
D1-35_04699	1896	mrdA	COG0768	Peptidoglycan D,D-transpeptidase MrdA	ATGCCTCAGCCGATCCGCATCAAGGACCACGAAAAAGACGCCCGCCTGGTGCGGGGCCGCGTCGTGTTCGGCGCCATTACGGTGGTCACGCTGATCGGCGTGCTGATCGCGCGGCTGTATTTCCTCCAGGTGATCCAGTACGAGTACCACTCGACCCTGTCGGAAAGTAACCGCGTCCACGTGCAGCCGATCCCGCCGACCCGCGGGCTGATTTTCGACCGCAATGGCGTGGTGGTGGCCGATAACCGGCCGAGCTTCAGCCTGAGCATGACACGCGAGCGGTCCGGTGACTGGCAGAAAGTCCTCGACGTGATCGTCGAAGTGCTGCAACTGACCCCCGAGGACCGGGCGATCTTCGAGAAGCGCATGCGCCAGGGCCGGCGCCCCTTCGAGCCGGTGCCGATCATGTTCGAGCTGACCGAAGAACAGATCGCCCTGATCGCGGTTAACCAGTTCCGCCTGCCGGGCGTCGAGGTGGTGGCGCAGCTGGTGCGGCATTATCCCCAGGGGCCGCACTTCGCCCACTCGGTCGGCTACATGGGGCGGATCAACGAAAAAGAGCTCAAGACCCTCGATCCGGTCAACTACAGCGGCACCCACCATATCGGCAAGACCGGCATCGAGCGCTTCTACGAGGCCGAGCTGCACGGCCAGGTCGGCTACGAGGAGGTCGAGACCAACGCTCGCGGCCGCGTACTGCGCGTGCTCAAGCGTACCGACCCGATTCCAGGCAAGGACATCGTCCTGAGCCTCGACATCAAGTTGCAGGAAGCCGCCGAAGCGGCGCTGGGTGGACGACGTGGCGCGGTGGTTGCGCTGGACCCGAACACCGGCGAAGTCCTGGCGATGGTCAGCCAGCCGAGTTTCGACCCGAACCTGTTCGTCACCGGCATCAGCTTCAAGGCCTACGCCGAGCTGCGCGATTCCATCGACCGGCCGTTGTTCAACCGCGTGCTGCGTGGCCTTTATCCGCCGGGTTCGACCATCAAGCCGGCCGTGGCGATTGCCGGGCTGGATGCCGGAGTGGTGACCGCGTCGAGCCGGGTCTATGACCCGGGTTATTACCAATTGCCCAACTACGACCACAAGTACCGTAACTGGAACCGCACCGGTGACGGCTACGTGGACCTGGAAGCGGCGATCATGCGGTCCAACGACACCTACTTCTATGACTTGGCCCACAAGCTGGGGATTGATCGGCTGTCGTCCTACATGAACAAGTTCGGCCTTGGTCAGAAAGTCTCCCTGGACATGTTCGAAGAGTCTCCGGGCCTGATGCCGTCCCGGGAATGGAAGCGGGCGACTCGCCGCCAGGCCTGGTTCCCCGGCGAAACCCTGATCCTGGGGATCGGCCAGGGCTACATGCAGGCCACGCCGCTGCAACTGGCCCAGGCCACGGCGCTGGTGGCGAGCAAAGGCAAATGGTATCGGCCGCACCTGGCGAAGACCATCGAAGGCCAGAAACCGGTGGACCCGGACCCGATGCCGGACATCATCCTGCGCAACCCGTCGGACTGGCAGAAGGTCAACAACGGCATGCAGCAGGTCATGCACGGCGCCCGGGGTACCGCGCGCAAGGCGGCCATCGGCGCGCAATACCGCATTGCCGGCAAGAGCGGTACCGCCCAGGTGGTAGCGATCAAGCAGGGCGAGAAGTACGACCGCTCCAAGGTCCAGGAACGCCATCGCGACCACGCCTTGTTCGTTGGCTTCGCGCCCGCCGAGAACTCGAAGATCGTCGTGTCGGTGATGGTCGAGAACGGTGAATCCGGCTCCGGCGTCGCCGCGCCGGTGGTGCGCCAGATCATGGACGCCTGGCTGCTGGATGAGCACGGCCAGCTCAAGCCCGAATTCGCAAGCCCCATCAGCGCGGAGGCTACGGCCCGTGAAGAATAA	MPQPIRIKDHEKDARLVRGRVVFGAITVVTLIGVLIARLYFLQVIQYEYHSTLSESNRVHVQPIPPTRGLIFDRNGVVVADNRPSFSLSMTRERSGDWQKVLDVIVEVLQLTPEDRAIFEKRMRQGRRPFEPVPIMFELTEEQIALIAVNQFRLPGVEVVAQLVRHYPQGPHFAHSVGYMGRINEKELKTLDPVNYSGTHHIGKTGIERFYEAELHGQVGYEEVETNARGRVLRVLKRTDPIPGKDIVLSLDIKLQEAAEAALGGRRGAVVALDPNTGEVLAMVSQPSFDPNLFVTGISFKAYAELRDSIDRPLFNRVLRGLYPPGSTIKPAVAIAGLDAGVVTASSRVYDPGYYQLPNYDHKYRNWNRTGDGYVDLEAAIMRSNDTYFYDLAHKLGIDRLSSYMNKFGLGQKVSLDMFEESPGLMPSREWKRATRRQAWFPGETLILGIGQGYMQATPLQLAQATALVASKGKWYRPHLAKTIEGQKPVDPDPMPDIILRNPSDWQKVNNGMQQVMHGARGTARKAAIGAQYRIAGKSGTAQVVAIKQGEKYDRSKVQERHRDHALFVGFAPAENSKIVVSVMVENGESGSGVAAPVVRQIMDAWLLDEHGQLKPEFASPISAEATAREE	PGPT0023885_2132	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023885-mrdA-K05515	NA	NA
D1-35_04700	1146	mrdB	COG0772	Peptidoglycan glycosyltransferase MrdB	GTGAAGAATAATTTCGACCGTATCCTCTCCAGCGAAGATGTGATGCGCCGTCGCGCCACCTTGCTGCAGCGCATGCACATCGACGGTCCGTTGCTGATCCTGTTGCTGACGCTGGCCGCCGGCAGCCTGTTCGTGCTGTATTCGGCCAGTGGCAAGAGCTGGGACCTGCTGGCCAAGCAGGCCACCTCGTTCGGCATCGGCCTGGTGTCGATGATCGTCATCGCCCAGCTCGAACCACGGTTCATGGCGCGCTGGGTGCCGCTGGCCTACGTGGTCGGCGTGGGTTTGCTGGTAGTGGTCGACATCATGGGCCACAACGCCATGGGCGCCACCCGCTGGATCAACATCCCCGGGGTGATCCGCTTCCAGCCTTCGGAATTTCTCAAGATCATCATGCCCGCGACCATTGCCTGGTACTTGTCCAAGCGGTCCTTGCCGCCGCAGCTCAAGCATGTGTGTATCAGTCTGTTGCTGATCGGCATTCCGTTCATTCTCATCGTCCGCCAGCCGGACCTCGGCACCTCGCTGCTGATCCTCGCCGGGGGTGCGTTCGTGCTGTTCATGGGCGGGTTGCGCTGGCGCTGGATCCTCAGCGTGATCGCCGCCGCCGTGCCGGTGTCGGTGGCCATGTGGTATTTCGTGATGCACGACTACCAGAAGCAGCGGGTACTGACTTTCCTCGACCCGGAAAGCGATCCGCTGGGCACCGGCTGGAACATTATCCAGTCCAAGGCCGCCATCGGTTCCGGCGGGGTGTTCGGCAAAGGCTGGCTGATGGGCACCCAGTCGCACCTGGACTTTTTGCCGGAAAGCCACACCGACTTCATCATCGCCGTGATGGGCGAGGAGTTCGGCCTGGTGGGCATTTGCGTGCTGTTGCTGATCTATCTGCTGTTGATCGGGCGCGGGTTGGTGATCACCGCCCAGGCCCAGACGCTGTTCGGCAAGTTGCTGGCGGGCAGCCTGACCATGACGTTTTTTGTTTATGTTTTCGTCAACATCGGTATGGTCAGTGGCCTGCTGCCGGTGGTGGGGGTGCCGTTGCCGTTCATTAGCTACGGAGGAACTTCGCTGGTGACGCTACTGTCAGCGTTTGGGGTTTTGATGTCGATCCATACGCATCGCAAGTGGATCGCGCAGGTTTGA	MKNNFDRILSSEDVMRRRATLLQRMHIDGPLLILLLTLAAGSLFVLYSASGKSWDLLAKQATSFGIGLVSMIVIAQLEPRFMARWVPLAYVVGVGLLVVVDIMGHNAMGATRWINIPGVIRFQPSEFLKIIMPATIAWYLSKRSLPPQLKHVCISLLLIGIPFILIVRQPDLGTSLLILAGGAFVLFMGGLRWRWILSVIAAAVPVSVAMWYFVMHDYQKQRVLTFLDPESDPLGTGWNIIQSKAAIGSGGVFGKGWLMGTQSHLDFLPESHTDFIIAVMGEEFGLVGICVLLLIYLLLIGRGLVITAQAQTLFGKLLAGSLTMTFFVYVFVNIGMVSGLLPVVGVPLPFISYGGTSLVTLLSAFGVLMSIHTHRKWIAQV	PGPT0023885_26	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023885-mrdA-K05515	NA	NA
D1-35_04701	1011	mltB	COG2951	Membrane-bound lytic murein transglycosylase B	ATGCAAGCAATGCGTGGCTGGTCGACGCGATATGCGCCGTGGGTCGGCCTGGTCGGCTTCCTGGGCTGTGCGCCGCAGGCCCTGGCCGGCGAATACGAAGGCTCGCCGCAGGTGGCCGAATTCGTCGGTGAGATGACTCGCGACTACGGTTTTGCCGGCGAACAGCTGATGGGGGTGTTTCGCGAGGCCGAGCGCAAGCAGTCGATCCTCGACGCGATTTCCCGGCCCGCCGAGCGGGTCAAGCAGTGGAGCGAGTACCGGCCGATGTTCATCACCGAGGCGCGTATCGCCCGGGGTGTGGACTTCTGGCGCCAGCACGAAGCCGCCCTGGCCCGCGCCGAGCAGGAATATGGCGTACCGGCCCAGGTCATCGTATCGATTATCGGCGTCGAGACCTTCTTCGGCCGCAACACCGGGAATTTCCGGGTGATCGACGCCTTGTCGACCCTGGGCTTCGATTACCCGCCGCGCGCCGAGTTCTTCCGCAAGGAACTACGCGAATTCCTCCTGCTGGCCCGTGAAGAGCAGGTCGATCCGCTGACCCTCAAGGGCTCCTACGCCGGGGCCATGGGCTTGCCACAATTTATGCCCAGCAGTTTCCGCGCCTATGCGGTGGACTTCGACGGCGACGGCCACATCAATATCTGGACCAACCCGACCGATGCCATCGGCAGTGTTGCCAGTTATTTCAAACGGCATGGCTGGGAGGCCGGCGAGCCTGTGGTCAGCCTTGCGGACGTGCTTGGCGACCAGGTGGACCAAGGCCTGACCACGGGCATCGAGCCGACAAAAACCGTCGGGGAGTTGCGAGCGCTGGGCTGGTCGAGTCATGATGCGCTGCGTGACGACATGCCGGTCACCGCGATGCGCCTGGAAGGCGAGCAGGGCCCCGAATACTGGATGGGCCTGAAGAATTTCTACGCGATTACGCGTTATAACCGCAGCGTGATGTACGCCATGGCCGTATATCAACTGTCTGAAGAGCTGGTCAAAGCACGGGGCGTCAAATAA	MQAMRGWSTRYAPWVGLVGFLGCAPQALAGEYEGSPQVAEFVGEMTRDYGFAGEQLMGVFREAERKQSILDAISRPAERVKQWSEYRPMFITEARIARGVDFWRQHEAALARAEQEYGVPAQVIVSIIGVETFFGRNTGNFRVIDALSTLGFDYPPRAEFFRKELREFLLLAREEQVDPLTLKGSYAGAMGLPQFMPSSFRAYAVDFDGDGHINIWTNPTDAIGSVASYFKRHGWEAGEPVVSLADVLGDQVDQGLTTGIEPTKTVGELRALGWSSHDALRDDMPVTAMRLEGEQGPEYWMGLKNFYAITRYNRSVMYAMAVYQLSEELVKARGVK	PGPT0023785_2085	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023785-mltB-K08305	NA	NA
D1-35_04702	1026	rlpA_2		Endolytic peptidoglycan transglycosylase RlpA	ATGCGGGCAATGCCTACCTATCAACCCCTGAAAGCCAGGCCCCTCAAGCTGGTGGCATTGGCGGCGCTGTCTTTGCTGGTCGTGAGCTGTTCGACCAGTCGCGCACCGACCCAGAAAAGTCCCAACGTCGTGCGGGCCACACCGGGCCTGGACATCAACCGGGCCCACAAGGATGGCGCGCCGTGGTGGGATGTCGATGTCTCGCGCATTCCCGACGCGACACCGACCCTGCACACCGGCCCCTACAAGGCCAACCCGTATACGGTGCTGGGCAAGACCTATTTCCCGATGGCCGAATCCAAGCGCTATGTCGCCTCGGGCACGGCTTCCTGGTATGGCACCAAGTTCCACGGCCAGAACACCGCCAATGGCGAGGTCTACGACCTGTATGGCATGAGCGCCGCGCACAAGACCCTGCCGCTGCCCAGTTATGTGCGGGTGACCAACCTGGACAACAACAAGAGCGTGATCCTGCGGGTCAACGACCGTGGGCCGTTCTATTCCGACCGCATCATCGACTTGTCGTATGCAGCGGCGAAAAAGCTCGGTTACGCTGAAACCGGCACCGCCCGGGTCAAGGTCGAAGGCATCGATCCGCAGGAATGGTGGGCCCAGCGTGGCCGTCCGGCGCCTTTGATGCTCAACGAACCAAAAGTGGCGCAAAATGCCGCGCCGACCGTGACGGCCTCCACCGGCACGGTCGAGCAATGGACGCCGCCGCCGCAGCAACACGCCGCGGCCGTGGTGCCGGTGCAGATCGATGCAAAAAAAAACGCTTCTGCAACAGCCTCTGGCCAGTATCTGCAAGTGGGCGCGTTCGCCAACCCGGACGCTGCAGAACTGTTGAGGTCGAAGCTGAGCTCGATGGTCAGCGCGCCGGTGTTCATCAGCTCGATCGTGCGCAACCAGCAGACCCTGCATCGAGTGCGCCTGGGGCCGATCGGTTCTCCGGGTGAGGTCCAGCAGGTACAGAATAGCGTGCGCCTGGCCAATCTCGGTTCGCCGAGCCTGGTCACGTCCGAATGA	MRAMPTYQPLKARPLKLVALAALSLLVVSCSTSRAPTQKSPNVVRATPGLDINRAHKDGAPWWDVDVSRIPDATPTLHTGPYKANPYTVLGKTYFPMAESKRYVASGTASWYGTKFHGQNTANGEVYDLYGMSAAHKTLPLPSYVRVTNLDNNKSVILRVNDRGPFYSDRIIDLSYAAAKKLGYAETGTARVKVEGIDPQEWWAQRGRPAPLMLNEPKVAQNAAPTVTASTGTVEQWTPPPQQHAAAVVPVQIDAKKNASATASGQYLQVGAFANPDAAELLRSKLSSMVSAPVFISSIVRNQQTLHRVRLGPIGSPGEVQQVQNSVRLANLGSPSLVTSE	PGPT0024465_694	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024465-rlpA-K03642	NA	NA
D1-35_04703	1158	dacC_2	COG1686	D-alanyl-D-alanine carboxypeptidase DacC	ATGAACATCACCACCTTTGCCAAACGCCTTTGCCTGCTAGTCCCGCTGCTTCTCTCTCCGGCCGCGTTCGCGGTCGAGATGATGCCTTCGCCTCCGCAACTGGCGGCCAAAGCCTATGTCCTCATGGATGCCAGCAGCGGCAATGTGCTGGTAGAGAACAATGGTGACCAGCGCCTGCCACCGGCCAGCCTGACCAAGCTGATGACCGCGTACATCGCCACGCTGGAGATCCGTCGCGGCCAGATCGGTGAGAACGATCCGGTGACCGTCAGCGAAAACGCCTGGCGCACCGGCGGTTCGCGGATGTTCATCAAGGTCGGTTCGCAAGTGACTGTCAGCGACCTGCTGCACGGCATCATCATCCAGTCCGGCAACGACGCCAGCGTCGCCCTGGCCGAGCACATCGCCGGCAGCGAAGACGCGTTCGCCGACATGATGAACAAGACGGTCGCCGACCTGGGCATGACCAACAGCCATTTCATGAACCCGACCGGCCTGCCGAACCCCGAGCATTATTCCTCGGCTCACGACATGGCGATCCTGGCCCGGGCAATCATCCACGAAGACCCTGCGCATTACGCGATCTACTCCCAGAAGGAATTCTTCTGGAACGGCATCAAGCAGCCTAACCGCAACCTGTTGCTGTGGCGCGACAAGACCGTCGATGGCCTGAAGACCGGCCACACCGAGGAGGCTGGCTACTGCATGGTGTCTTCGGCGGTTCGTGACGGCATGCGCCTGATCGCCGTGGTGTTCGGCACCAACAGCGAAGTGGCCCGCGCCGCCGAGACCCAGAAGCTGCTGACCTACGGTTTCCGCTTCTTCGAAACCCAGACCTTCTACCAGAAGGGCACCGAACTGGCCCAGGCCCAGGTGTGGAAAGGCACCAGCAACCAGGTGAAAGCCGGCCTGGCGCAGGACCTGACCATGACCTTGCCTAAAGGCCAGCTCAAGAAGCTTGCCGCCAGCATGACCATGAACCCTCAGCTGACCGCGCCTATCGCCAAGGGTGACGTGATCGGCAAGGTCGAAGTCAAACTGGACGACAAGGTGGTGCACAGCGCCGACCTGATCGCGCTGGACGCGGTCGAGGAAGGTGGTATTTTCCGCCGCATGTGGGATAGCATCCGTCTATTCTTCTACGGCTTGTTCAACTGA	MNITTFAKRLCLLVPLLLSPAAFAVEMMPSPPQLAAKAYVLMDASSGNVLVENNGDQRLPPASLTKLMTAYIATLEIRRGQIGENDPVTVSENAWRTGGSRMFIKVGSQVTVSDLLHGIIIQSGNDASVALAEHIAGSEDAFADMMNKTVADLGMTNSHFMNPTGLPNPEHYSSAHDMAILARAIIHEDPAHYAIYSQKEFFWNGIKQPNRNLLLWRDKTVDGLKTGHTEEAGYCMVSSAVRDGMRLIAVVFGTNSEVARAAETQKLLTYGFRFFETQTFYQKGTELAQAQVWKGTSNQVKAGLAQDLTMTLPKGQLKKLAASMTMNPQLTAPIAKGDVIGKVEVKLDDKVVHSADLIALDAVEEGGIFRRMWDSIRLFFYGLFN	PGPT0024040_4608	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
D1-35_04704	276			hypothetical protein	ATGACAGACTCCGAAGTAAAAGCGCCAAAGATCGAATTTCCCTGCGCGGATTATCCGATCAAGGTAATCGGCGATACCGGTGTGGGCTTCAAGGACAAGATCATCGCGATCCTTGAAAAACACGCCACCGTTGACCACAACACCCTGGCCGAGCGCCAGAGTACCAACGGCAAATACACGACCATCCAGTTGCACATCATTGCCACCGGCCAGGAACAGCTCTACGACATCAACAGCGAGCTGCGAGCGACCGGTTTCGTGCATATGGTGTTGTGA	MTDSEVKAPKIEFPCADYPIKVIGDTGVGFKDKIIAILEKHATVDHNTLAERQSTNGKYTTIQLHIIATGQEQLYDINSELRATGFVHMVL				NA	NA	NA	NA	NA
D1-35_04705	648	lipB	COG0321	Octanoyltransferase	ATGCCGGGCACGCTGGGCTTTCGCGAGCTGGGCAGCATGGCTTACGAGCCGGTCTGGCACGCCATGCAGCGCTTCACGAACGAACGTGGCACCAGCGCCGACGACGAAGTCTGGCTGGTGGAACACCCGCCGGTGTTCACCCAGGGCCAGGCCGGCAAGGCCGAGCACTTGCTGCTGCCGGGCGATATCCCGGTGGTGAAGGTCGACCGGGGCGGGCAGGTGACTTACCATGGCCCCGGCCAACTGGTTGCCTACCTGTTGCTGGATGTGCGCAAGCTGGGGTTCGGCGTGCGCGAGCTGGTCACCCGCATGGAGACGTGCCTGATCGAGCTGCTCGCCAGCTACGGTGTGACCGCGGCTGCCAAGCCGGATGCACCGGGCGTCTACGTCGACGGGGCGAAGATCGCCTCGCTCGGCTTGCGCATCCGCCATGGCTGTTCGTTCCATGGCCTGGCGTTGAACGTGGACATGAATCTTGAACCGTTTAGACGGATTAATCCCTGTGGCTATGCAGGGCTGGCAATGACCCAGCTGCGCGATCACACAGGATCGATTGAATTTGCCGAGGTAAGTGCCCGGCTGCGCGCGCAGCTCGTCAAACACCTCGACTATGCTGAGCAGACGACCCTCACGGGCGGAATCGACTGA	MPGTLGFRELGSMAYEPVWHAMQRFTNERGTSADDEVWLVEHPPVFTQGQAGKAEHLLLPGDIPVVKVDRGGQVTYHGPGQLVAYLLLDVRKLGFGVRELVTRMETCLIELLASYGVTAAAKPDAPGVYVDGAKIASLGLRIRHGCSFHGLALNVDMNLEPFRRINPCGYAGLAMTQLRDHTGSIEFAEVSARLRAQLVKHLDYAEQTTLTGGID	PGPT0003925_2976	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_LIPOIC_ACID_INTERFERRENCE	PLANT_LIPOIC_ACID_BIOSYNTHESIS,PGPT0003925-lipB-K03801	NA	NA
D1-35_04706	1023	lipA	COG0320	Lipoyl synthase	ATGACTACTGATGCAGTGCAAACCATGATCCCGACGCTGGACGTCACCGAACGTCCGGCCCCGCGTGCCAAGGTAGAGGCCGGCGTCAAGCTGCGCGGCGCCGAGAAGGTTGCACGCATTCCGGTCAAGATCATCCCGACCACCGAACTGCCGAAGAAACCCGACTGGATCCGCGTGCGCATCCCGGTCTCTCCGGAAGTCGACCGGATCAAGGCCCTGCTGCGCAAGCACAAGCTGCACAGCGTCTGCGAAGAAGCCTCCTGCCCGAACCTGGGCGAGTGCTTCTCCGGCGGCACCGCGACGTTCATGATCATGGGCGACATCTGCACCCGTCGTTGCCCGTTCTGCGACGTCGGCCATGGCCGTCCGAAGCCATTGGATACCAACGAGCCGGAAAGCCTGGCCATCGCCATCGCCGACCTGAAGCTGAAATACGTGGTCATCACCTCGGTGGACCGTGACGACCTGCGTGACGGCGGTGCCCAGCACTTCGCCGACTGCATCCGCGAGATTCGCAAGCTGTCGCCGAACGTGCAGCTGGAAACCCTGGTGCCTGATTACCGTGGCCGCATGGACATTGCCCTGGAAATCACCGCCGCCGAGCCGCCGGATGTGTTCAACCACAACCTGGAAACCGTGCCACGCCTGTACAAGGCTGCGCGTCCTGGTTCGGACTACCAGTGGTCGTTGACCCTGCTGCAGCGTTTCAAGCAGATGATGCCGCATATTCCGACCAAGTCTGGCTTGATGCTGGGCCTGGGTGAGACTGATGAGGAAGTCATCGAGGTCATGAAGCGCATGCGTGAGCACGACATCGACATGCTGACCCTGGGCCAATACCTGCAGCCCTCCCGTAGCCATTTGCCGGTGCAGCGTTTTGTGCATCCGGATACCTTTGCCTGGTTTGCGGAGGAGGGGTACAAGATGGGCTTCAAGAACGTTGCTTCGGGGCCGTTGGTGCGGTCTTCTTATCATGCGGATGAGCAGGCTAAGTTGGTCAAGGCTGAGCTTTTGGGTTCCTGA	MTTDAVQTMIPTLDVTERPAPRAKVEAGVKLRGAEKVARIPVKIIPTTELPKKPDWIRVRIPVSPEVDRIKALLRKHKLHSVCEEASCPNLGECFSGGTATFMIMGDICTRRCPFCDVGHGRPKPLDTNEPESLAIAIADLKLKYVVITSVDRDDLRDGGAQHFADCIREIRKLSPNVQLETLVPDYRGRMDIALEITAAEPPDVFNHNLETVPRLYKAARPGSDYQWSLTLLQRFKQMMPHIPTKSGLMLGLGETDEEVIEVMKRMREHDIDMLTLGQYLQPSRSHLPVQRFVHPDTFAWFAEEGYKMGFKNVASGPLVRSSYHADEQAKLVKAELLGS	PGPT0003935_987	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
D1-35_04709	939	ykfA	COG1619	putative murein peptide carboxypeptidase	ATGGCCCACACCCTAATCCCACACCACCCCGTCCCGGCCCTCCTTCAAGAAGGCCTGATCGGAGTGATCGCCCCCGCCGGCCCAGCCCCATTGGACACCGAAAAAGCCATCCAATGGATGCGCGCCAGGGGCCATGATCTGCGAATTTTCCCCGGCGTCTACGAAAAAGACGGCTACCTGGCCGGCAGCGACGATACACGACTGAACGACCTGCACGCCGCCTTCGCCGACCCAGAGGTAAACGCGATCATCTGCCTGCGCGGAGGCTACGGCACCCCCCGCCTGCTCGATCGCATCGACTTCGAGCTTATTAAACGAAACCCCAAGCCCTTCGTCGGCTACAGCGACATCACCGCCCTGCATCTGGCAATCAGCCGTTACGCCGGCTTCGTGACCTTTCACGGACCGTTGCTCAACGCCGACCTGCTGGGCGATAAGGAGCCCCCGACCGTCACGTCCTTTTTCAGCCTGCTGCGCGGCCAATTGAAAGCGGGCGACGTACTGAGCCATCCCGCAGCCTATCCATTGACTACCGTGGAACCCGGCATTGCCCAAGGGCGCCTGTTGGGCGGCAATCTGTCGATGATCGCCGCAACCATGGGCACGCCCTACGAAATTGATGCCGAAGGCGTGATCCTGCTGGTCGAGGACGTCAATGAGCCGCTATATCGCATCGACCGTCTGCTGACCCAATTGCGGCTGGCAGGCACCCTGGCGAAGCTGCGAGGCGTGCTATTGGGGGATGTCGCCGGTGTGGATGGCGAGGCGCTGAACCGCTTGTTCAAGCAGACCTTCGAACCACTGCGTATTCCGGTGTTGTCCGGCTGGCGCAGCGGGCATTGTGATCCGAACCTGACGTTGCCGATGGGCGCGCTGGTGACGCTGGATGCGGGGGAGAAGAGGTTGGTGCTGGAGCAGGATGTGGTGGTCAGCCGCTAA	MAHTLIPHHPVPALLQEGLIGVIAPAGPAPLDTEKAIQWMRARGHDLRIFPGVYEKDGYLAGSDDTRLNDLHAAFADPEVNAIICLRGGYGTPRLLDRIDFELIKRNPKPFVGYSDITALHLAISRYAGFVTFHGPLLNADLLGDKEPPTVTSFFSLLRGQLKAGDVLSHPAAYPLTTVEPGIAQGRLLGGNLSMIAATMGTPYEIDAEGVILLVEDVNEPLYRIDRLLTQLRLAGTLAKLRGVLLGDVAGVDGEALNRLFKQTFEPLRIPVLSGWRSGHCDPNLTLPMGALVTLDAGEKRLVLEQDVVVSR	PGPT0023815_1466	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MURAMOYLTETRAPEPTIDE_CARBOXYPEPTIDASE_ACTIVITY,PGPT0023815-ldcA-K01297	NA	NA
D1-35_04710	1323			Tn3 family transposase TnXax1	ATGCCCCTCCGCCTTTCCCGTCGTTGGCCACTGCGCCAATTGATAGCTGCCGCAAGCGTTGCGTTATTGGTCGCCTGCGCTGAAAAACCCACCGCCGCCGATGCCCAACCGCTCAAGACCCTGCCTGCCGTGACCGCACCGGCCATCGTGCCGCCCGTAGTGCCGACCGGGGAGAACCTGGATATTGCGCCGACCCAGACCTTCGCCGAATGGCAAGCCGGGTTTCGCAAGGAAGCACTGGCCGCCGGGATCCGGGCCGACCTGTTCGACCGTGCCTTCATCGGCGTCAGCCCGGACATGAGCGTGATCAAGGCGGATCGCAGCCAACCTGAATTCAGCCGGCCGGTATGGGAATACCTCGATGGCGCCTTGTCACCTTTGCGGGTGCGCAAAGGCCAGGCCTTGCTCCAGCAGCACGCCGACATCCTGCAAAGCATCGAACAGCGCTACGGCGTTGATCGCCAGGCGCTGGTAGCGGTGTGGGGCATGGAGAGCAATTTCGGCCAGTTCCAGGGGACCAAGTCAGTGATCAACTCCCTGGCCACCCTCGCCTACGAAGGACGGCGTCCGGGCTTTGCCCACGCACAACTGATTGCCGCGCTGCAAATTCTGCAACAGGGCGATATCACCCCGGAAAAGATGCTCGGCTCCTGGGCCGGCGCCATGGGCCAGACCCAGTTCATTCCAACCACCTACAACACCCATGCAGTCGATTTCGATGGCGATGGGCGTCGTGATATCTGGGGCAGCGCCACCGACGCCCTGGCCTCGACCGCGCACTACCTGCAAAGCTCCGGCTGGCAGCGCGGCCAACCATGGGGATTCGAGGTCTCGCTCGGTGAAGGCTTCGACTACACCCTGGCCGATGGCACGATTCGCAAAGCCGTCTCCGAATGGGAGCGCCTGGGCGTTTCCGAATATGGCGGTTTGCCGATTGCCCCGGATGAGAAACAGCTCTCGGCTTCCCTTCTCCTGCCGGCAGGCCATCGCGGCCCGGCATTCCTGATATTCGACAACTTCCGAGCCATCCTCAAGTACAACAACTCATCGTCCTACGCCTTGGCGGTTGGGCTGTTGTCACAGCGCTTCGCCGGCGCAGGCCTGGTCTACGGCCAGTGGCCAAAGGAAGACCTTCCCCTGAGCCGCAGCGAACGTATCGAACTGCAGACCCTGCTGGGCAAGCACAACTACGATGCGGGCACGCCCGACGGCATTATCGGCGCCAACACCCGCAAGGCGATCCGCGGCGCCCAGCAGTCGTTTGGCTGGCCGGCGGATGGGTATCCGACGCACAAGTTGCTGGAGGCGTTGCGTAGTCGCTGA	MPLRLSRRWPLRQLIAAASVALLVACAEKPTAADAQPLKTLPAVTAPAIVPPVVPTGENLDIAPTQTFAEWQAGFRKEALAAGIRADLFDRAFIGVSPDMSVIKADRSQPEFSRPVWEYLDGALSPLRVRKGQALLQQHADILQSIEQRYGVDRQALVAVWGMESNFGQFQGTKSVINSLATLAYEGRRPGFAHAQLIAALQILQQGDITPEKMLGSWAGAMGQTQFIPTTYNTHAVDFDGDGRRDIWGSATDALASTAHYLQSSGWQRGQPWGFEVSLGEGFDYTLADGTIRKAVSEWERLGVSEYGGLPIAPDEKQLSASLLLPAGHRGPAFLIFDNFRAILKYNNSSSYALAVGLLSQRFAGAGLVYGQWPKEDLPLSRSERIELQTLLGKHNYDAGTPDGIIGANTRKAIRGAQQSFGWPADGYPTHKLLEALRSR	PGPT0023785_188	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023785-mltB-K08305	NA	NA
D1-35_04711	165			hypothetical protein	ATGAGCAAAAAGCCATCCAGGCATGGCCCCAACAAGGCCAAGTCCATCGTCGCCCAGCCCCTGTTCCGCAGCCGCCAGGAACGACCCGCCAAGGGCAAAGGCAGCTACCGCCGCGAAGCCTTCCAGTCTGACAACTGGGAGGCTTCTTGCTTTCTGGCAGCCTGA	MSKKPSRHGPNKAKSIVAQPLFRSRQERPAKGKGSYRREAFQSDNWEASCFLAA	PGPT0001755_1905	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001755-ldhA-K03778	NA	NA
D1-35_04712	1038	holA	COG1466	DNA polymerase III subunit delta	ATGAAACTCGCTCCCGCTCAACTCGGCAAACACCTGCAAGGCGCGCTCGCGCCCGTCTATATCATCAGCGGCGATGACCCGCTGCTGTGCCAGGAAGCCGCCGACGCCATCCGCTCTGCCGCCCGCCAGCAAGGTTTCGACGAACGCCAGGTGTTCGCCGCCGACGCCAGCTTCGATTGGGGTACGTTACTGCAGGCCGGGGCAAGCATGTCGCTGTTCGCCGAGAAACGCCTGCTGGAACTACGCTTGCCCTCCGGTAAACCCGGTGACAAGGGCGCCGCCGCGCTGATCGAATACTGCTCGCGGCCCGCCGAGGACACGGTACTGCTGATCAGCCTGCCGAAACTCGACGGCAGCGCGCAGAAAACCAAGTGGGGCAAGGCGCTGGTCGAAGGCCAGCAGACTCAGTTCGTGCAGATCTGGCCGGTGGATGTCAGTCAGTTGCCCAGCTGGATCCGCCAGCGCCTGTCCCAGGCCGGCCTGTCGGCCAGCCAGGACGCGGTTGAGCTGATTGCCGCCCGGGTCGAAGGCAACCTGTTGGCCGCCGCCCAGGAAATCGAAAAACTCAAGCTGATGGCCGAGGGTGGCCAGATCACAGTGGAAACGGTCCAGGCGGCCGTGGCCGACAGCGCACGCTTCGATGTCTTCGGGCTGACCGACGCGATCCTCAACGGTGAAGCCGCCCACGCCTTGCGCATGCTTGAAGGCCTGCGGGGCGAAGGCGTCGAACCGCCGGTGATTCTCTGGGCGCTGGCCCGGGAGTTGCGCCTGCTCGCGAACCTGTCGTTGCAATACAGTCAGGGCGTGCCGCTGGACAAAGCCTTCAGCCAGGCCCGGCCGCCGGTATGGGACAAACGCAAACCGTTGATGAGCAAGGCGCTGCAACGTTACTCGGCATCACGCTGGGCGCAATTGCTGCTCGAAGCCCAGCGCATCGACGCACAGATCAAGGGCCAGGCCGCAGGCTCGCCGTGGATGAGCCTGAGCCGGTTGTCGCTGTTGATGGCCGGCCAACGGCTGTCATTACCCGCTGAATAA	MKLAPAQLGKHLQGALAPVYIISGDDPLLCQEAADAIRSAARQQGFDERQVFAADASFDWGTLLQAGASMSLFAEKRLLELRLPSGKPGDKGAAALIEYCSRPAEDTVLLISLPKLDGSAQKTKWGKALVEGQQTQFVQIWPVDVSQLPSWIRQRLSQAGLSASQDAVELIAARVEGNLLAAAQEIEKLKLMAEGGQITVETVQAAVADSARFDVFGLTDAILNGEAAHALRMLEGLRGEGVEPPVILWALARELRLLANLSLQYSQGVPLDKAFSQARPPVWDKRKPLMSKALQRYSASRWAQLLLEAQRIDAQIKGQAAGSPWMSLSRLSLLMAGQRLSLPAE				NA	NA	NA	NA	NA
D1-35_04713	606	lptE		LPS-assembly lipoprotein LptE	ATGATCAAACGTAATCTGCTGGTTATGGGCCTGGCGGTCCTGCTGAGCGCCTGCGGCTTCCAGCTGCGCGGCACTGGCACCACCGAGCTGGCCATCAAGGAACTGGACCTCAGCGCGCGGGACGCTTATGGCGATACCGTGAAAATGCTGCGTCAGACCCTGGAAAACAGCGGTGTGAAAGTCTACAGCGGCGCACCGTACAAGCTGGTATTGGCAAGCGAACAGCAAAGCCAGCGCAGCCTCAGCTATGCCGGCGCCGGTCGTTCGGCCGAGTACGAGCTGACCAACGTGTTGAACTACGAAATCCGCGGCCAGAATGGTCTGTCGCTGCTGGATGACAAGCTGCAGGTGCAGAAGGTCTACCTGCACGACGGCAACAACATCACCGGTTCCGATCAGGAGTCCGTCGAAGTACGCGGCGAAATGCGTCGTGAACTGGTCCAGCGCATGATGCTGCGCCTGCAACAGCTGAGCCCCGCTCAACTGGACCAGTTGCAACAGACCGCCGACGCTCGCGCCAAGGCCGAAGCCGAAGCGCTGGAAGCGGCACGCAAGGCTGAGGCGGAAACCCCGCAACAGTCGCCGTTGCAGATCCCGGCTCAATAA	MIKRNLLVMGLAVLLSACGFQLRGTGTTELAIKELDLSARDAYGDTVKMLRQTLENSGVKVYSGAPYKLVLASEQQSQRSLSYAGAGRSAEYELTNVLNYEIRGQNGLSLLDDKLQVQKVYLHDGNNITGSDQESVEVRGEMRRELVQRMMLRLQQLSPAQLDQLQQTADARAKAEAEALEAARKAEAETPQQSPLQIPAQ	PGPT0023297_284	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023297-lptE|rlpB-K03643	NA	NA
D1-35_04714	2739	leuS		Leucine--tRNA ligase	ATGTATGCTACGGCGCTTCCTGTAACTCCACTTCCAGCTTGGCTGGGCATCGAAAACGCCGCATTCGGCGTCGTCTGCGTCCAGCATGGCCACGAAGAGGATTGGGCCACCCCATTCAGTACAAAAGTAGCCATGCACGAACACTACCAGCCCCGTGAAATCGAAGCCGCCGCCCAGTCGTTCTGGGATGAGCAAAAGTCCTTTGAAGTCAGTGAACAGCCAGGCAAGGAGACGTACTACTGCCTGTCGATGTTCCCTTACCCCAGCGGCAAGCTGCACATGGGGCACGTGCGCAACTACACCATCGGCGACGTGATCTCCCGCTACCAACGCATGCAGGGCAAGAATGTCCTGCAACCGATGGGTTGGGACGCCTTCGGCATGCCGGCGGAAAACGCCGCGATGAAAAACAACGTGGCCCCTGCCAAGTGGACCTACGAAAACATCGCCTACATGAAGACCCAGCTGCGCAGCCTGGGCCTTGCGGTGGACTGGTCCCGCGAGGTCACCACCTGCAAGCCCGAGTACTACCGCTGGGAGCAGTGGCTGTTCACCCGCCTCTTCGAAAAAGGCGTGATCTACCGCAAGAACGGCACCGTGAACTGGGACCCGGTGGACCAGACCGTACTGGCCAACGAGCAGGTCATCGACGGTCGCGGCTGGCGCTCCGGCGCGCTGATCGAAAAGCGCGAGATCCCGATGTACTACTTCAAGATCACCGCGTACGCGGATGAACTCCTGGAGAGTCTCGACGAGCTGACCGGCTGGCCCGAGCAGGTCAAGACCATGCAGCGCAACTGGATCGGCAAGTCCCGGGGCATGGAAGTGCAGTTCCCGTACGACGTCGCCTCCATTGGCGAGGCCGGCACCCTGAAAGTCTTCACCACCCGTCCGGATACCCTGATGGGCGCCACCTACGTAGCCGTGGCCGCCGAACATCCGCTGGCGACCCTCGCAGCGCAGAACAACCCCGAGCTGCAGGCGTTCATCGCCGAATGCAAGGGCGGCAGCGTCGCCGAAGCCGATGTCGCCACCCAGGAAAAGAAAGGCCTGCCGACCTCGCTGTTCGTCGAACACCCGCTCACCGGCGAGAAACTTCCGGTGTGGGTCGCCAACTACGTGCTGATGCACTATGGCGACGGCGCCGTGATGGCCGTGCCGGCTCACGACGAACGCGACTTCGAGTTCGCCCACAAGTACAACCTGCCAGTCAAACCGGTCGTGCGCACCAGCGCCGGTGACCAGACCCCGGCGCCATGGCAGGATGCCTATGGCGAGCACGGTGAGCTGATCAATTCCGGCGAGTTCAACGGCCTGGATTTCGCCGGTGCGTTCGACGCCATCGAAGTCGCCCTGATCAAGAAGAACCTTGGTGCCTCGCGCACCCAGTTCCGCCTGCGTGACTGGGGCATCAGCCGCCAGCGCTACTGGGGCTGCCCGATCCCGATCGTGCATTGCGACACCTGCGGCGATGTACCGGTACCGGAAGACCAGTTGCCAGTGGTCCTGCCGGAAGACGTCGTACCCGACGGCGCCGGCTCGCCCCTGGCGCGCATGCCCGAGTTCTACGAATGCAGTTGCCCGAAATGCGGCGCACCGGCCAAGCGTGAAACCGACACCATGGACACCTTCGTCGAGTCCTCGTGGTATTACGCCCGCTACGCCTCGCCGCATTATGAAGGCGGCCTGGTGGAAAAATCCGCGGCCGACCACTGGTTGCCGGTGGACCAGTACATCGGCGGCATCGAACACGCCATCCTGCACCTGCTCTACGCGCGCTTCTTCCACAAGCTGATGCGCGACGAAGGCCTGGTGAGCTCCAACGAGCCGTTCAAGAACCTGCTGACCCAAGGCATGGTGATCGCCGAGACTTACTATCGTCGCGAAGCCAATGGTGCCTATACCTGGTTCAACCCGAGCGACGTCGAGCTCGAACGCGACAGCAAAGCCAAGGTCATCAGCGCCAAGCTGATCGCCGATGGCCTGCCGGTGGAAATCGGCGGCACCGAGAAGATGGCCAAGTCGAAGAACAACGGCGTCGACCCACAGTCGATGATTGATCAGTTCGGCGCGGACACCTGCCGCCTGTTCATGATGTTCGCGTCGCCACCCGACATGAGCGCCGAATGGTCCGACTCCGGCGTCGAAGGCTCGCACCGCTTCCTCAAGCGCGTCTGGCGCCTGGCCCAGGCTCACGTCAGCCAGGGTCTGCCAGGCAAGCTGGACCTCGCCGGCCTGAACGACGAGCAGAAAGCCATTCGTCGCTCGATTCACCTGGCGATCAAGCAGGCCAGCCATGACGTCGGCCAGAACCACAAATTCAACACGGCCATCGCCCAAGTAATGACGCTGATGAATGTGCTGGAAAAAGCCGCGCAAGACACCGAACAGGATCGCGCGCTGGTTCATGAAGGCCTGGAAGCGGTGACGCTGCTGCTCGCGCCAATCACCCCGCACATCAGCCATGAACTGTGGAATCAACTGGGTCACGCCGACCCGGTGATCGACGCCGGTTGGCCGGTGGTGGACGAAACAGCGCTGGTACAAGACAGCCTGACCCTGGTCATCCAGGTCAACGGCAAGCTGCGCGGCCAGATCGACATGCCGGCCGCCGCCACTCGCGAAGAAGTCGAAGCCGCCGCACGCGCCAACGAAAACGTACTGCGCTTCGTCGATGGCCTGACGATCCGCAAAGTGATCGTCGTGCCCGGCAAACTGGTCAATATCGTCGCAAGCTAA	MYATALPVTPLPAWLGIENAAFGVVCVQHGHEEDWATPFSTKVAMHEHYQPREIEAAAQSFWDEQKSFEVSEQPGKETYYCLSMFPYPSGKLHMGHVRNYTIGDVISRYQRMQGKNVLQPMGWDAFGMPAENAAMKNNVAPAKWTYENIAYMKTQLRSLGLAVDWSREVTTCKPEYYRWEQWLFTRLFEKGVIYRKNGTVNWDPVDQTVLANEQVIDGRGWRSGALIEKREIPMYYFKITAYADELLESLDELTGWPEQVKTMQRNWIGKSRGMEVQFPYDVASIGEAGTLKVFTTRPDTLMGATYVAVAAEHPLATLAAQNNPELQAFIAECKGGSVAEADVATQEKKGLPTSLFVEHPLTGEKLPVWVANYVLMHYGDGAVMAVPAHDERDFEFAHKYNLPVKPVVRTSAGDQTPAPWQDAYGEHGELINSGEFNGLDFAGAFDAIEVALIKKNLGASRTQFRLRDWGISRQRYWGCPIPIVHCDTCGDVPVPEDQLPVVLPEDVVPDGAGSPLARMPEFYECSCPKCGAPAKRETDTMDTFVESSWYYARYASPHYEGGLVEKSAADHWLPVDQYIGGIEHAILHLLYARFFHKLMRDEGLVSSNEPFKNLLTQGMVIAETYYRREANGAYTWFNPSDVELERDSKAKVISAKLIADGLPVEIGGTEKMAKSKNNGVDPQSMIDQFGADTCRLFMMFASPPDMSAEWSDSGVEGSHRFLKRVWRLAQAHVSQGLPGKLDLAGLNDEQKAIRRSIHLAIKQASHDVGQNHKFNTAIAQVMTLMNVLEKAAQDTEQDRALVHEGLEAVTLLLAPITPHISHELWNQLGHADPVIDAGWPVVDETALVQDSLTLVIQVNGKLRGQIDMPAAATREEVEAAARANENVLRFVDGLTIRKVIVVPGKLVNIVAS				NA	NA	NA	NA	NA
D1-35_04715	321			hypothetical protein	ATGGTTGAATCACAACGAAAAGTCGCTACACCTGAGCTGTACGAAAAACTGATCGATCGTCTCGGGGTGGCCCTGGACGCGGCAAGAACCGCCGGTCGCTTGCGTGATGAACGCCCGGCAGAGCTGGAACTACGCGGCTTGAGCCCCGCAGAGTTCGAAGTCGTCAAGGCTTACCTTGAGCAGGTCGGGCACCAGGCCTCCTCCAGTGGTGTCCAGGCAAACAAGCGTCTCGATGCGCCCCGTCCGGCCAAGGTTGTCTGGCTCAAGGACCGGACGCCCGACAAGGATGCTGTAAAGGTCCGCTCGCTGCAGTTCAAGTGA	MVESQRKVATPELYEKLIDRLGVALDAARTAGRLRDERPAELELRGLSPAEFEVVKAYLEQVGHQASSSGVQANKRLDAPRPAKVVWLKDRTPDKDAVKVRSLQFK				NA	NA	NA	NA	NA
D1-35_04716	762			hypothetical protein	ATGCCGTTTCGTTATTTCATCAAACAACTTCTATTGCCGCCCGGCATTCTTTTACTGCTGCTGGCGCTTGCCTGGTGGTGGCGCGACTCCCGGCCGCGCCTGGCTCGCCTGTGTTTTGCGGCGGGCCTGGGTGGTTTCTGGCTGATGAGCCTGCCGGTGGTAGTGCAGTGGAGCGCCGGGGCATTGGAGCGTGAGCCGCCACTGCCGCGCAGTGAATGGGCGACCCTGGCTCAGCGTGCCGACGCCATCGTGGTGCTGGGGTCCGGTCGTGAGCGTGGCGACCTGGCCTGGGGCACTGACCAGCCCACCGGTATCGGTCTGGAGCGCCAGCGCTATGCGGCGCGCCTGGCGAAGGCGTCCGGCCTGCCTGTGCTGACTACTGGTGGCTTGCACTATGGCACTCCGCCCAGCGAAGCGAAGCTGATGGCCGACGCGATGCGCGATGATCACGGGGTGACCGTACGCTGGCTGGAAGAGCGCAGCCGCACGACTTGGGAAAATGCCCAGATGAGCGCGCAGATTCTGTTGCCTGAAGGCGTCAAGCGCGTGGTCGTTGTGACCCAGGCCTGGCATATGCCGCGCGCGGTCTGGAGCTTCCAGCGTGCGGGCTTCGAGGTGGTACCGGCGCCGATGGGGTTTCTCGGCCAGGATAACGCCCGGCCATTGGGCGGCTGGATGCCGGAATTCAAGTCGATCTGGCAGTCGGGACAGTTGATGAATGAAGCGGTGGGGTTGGTGGGGTATTGGTTGTTCTACCGCTGA	MPFRYFIKQLLLPPGILLLLLALAWWWRDSRPRLARLCFAAGLGGFWLMSLPVVVQWSAGALEREPPLPRSEWATLAQRADAIVVLGSGRERGDLAWGTDQPTGIGLERQRYAARLAKASGLPVLTTGGLHYGTPPSEAKLMADAMRDDHGVTVRWLEERSRTTWENAQMSAQILLPEGVKRVVVVTQAWHMPRAVWSFQRAGFEVVPAPMGFLGQDNARPLGGWMPEFKSIWQSGQLMNEAVGLVGYWLFYR				NA	NA	NA	NA	NA
D1-35_04717	1524	lnt	COG0815	Apolipoprotein N-acyltransferase	ATGCGCTGGATAACCCGCCCCGGCTGGCCCGGTAACCTGCTGGCCGTGGCGGCCGGCGCGATCACCACCCTGGCGTTGGCACCCTTCGACATCTGGCCGCTGGCATTGCTCGCGGTCGGGTTGTTCTACGCCGGCTTGCGCGAACTCTCGCCCCGCCAGGCCCTGGGCCGTGGTTGGTGTTTCGGTTTCGGCCTGTTTGGCGCCGGCACCAGCTGGATCTACGTCAGCATTCACAACTTCGGCGGCGCCTCGGTGCTGCTCGCCGGTCTGTTGATGCTGTTGTTCATCGCCTCCATCGCCTGGTTTTTCGCCCTGCCCGCCTGGCTGTGGGCGCGCTGGCTGCGGCGCAACGAGGCGCCCCTGGCCGACGCACTGGCCTTCGCCGCGCTGTGGTTGGGCCAGGAAGCTTTCCGCGGCTGGTTCCTGACCGGTTTCCCGTGGCTTTATTCCGGCTATAGCCAGCTCGATGGCCCGCTGGCGGGGCTCGCGCCGCTGGGCGGGATGTGGCTGATATCCTTCACCCTCGCCCTGACCGCCGCGCTGCTGTACAACGTGCCCCGGCTGCTGCGCGCCGGGCGCAAGGGCTTCATCGCTGCGGGCCTGGTGCTGCTGGTCGGTCCGTGGGTCGCCGGCATGACGCTCAAGGGCCACGCCTGGACCAGTCCTTCGGGCGACCCGCTGAGCGTGGCGGCGATCCAGGGCAATATCGAACAAAGCATGAAGTGGGACCCCGAACAGCTCAACGCGCAGTTGGCGCTGTACCGCGACATGAGCCTCAGTTCCAAGCGCGTCGACCTGCTGGTCTGGCCGGAAACCGCGGTGCCGGTGCTCAAGGAGTCTGCCCAGGGTTACCTGGACATGATGGGCAGCTTCGCCGCCGAGCGGCATTCGGCGCTGATCACCGGCGTGCCGATTCGCCAACTGGTGCGCCACGAGAGACGCTACTTCAACGGCATCACCGTGACCGGAGAAGGCGATGGCACCTACCTCAAGCAGAAACTCGTGCCCTTCGGCGAGTACGTGCCGTTGCAGGACCTGCTGCGCGGGCTGATCGCATTCTTCGACTTGCCCATGTCGGATTTCGCCCGGGGCCCGGCCGACCAGCCACTGCTGCAAGCCAAGGGTTACCAGATCGCTCCATTCATTTGTTACGAAGTGGTCTACCCGGAATTCGCCGCCAGCCTTTCGGCGCGCAGCGACCTGCTGCTGACCATCAGCAACGACACCTGGTTCGGCACCTCGATCGGCCCCTTGCAGCACCTGCAAATGGCGCAGATGCGCGCGCTGGAAGCCGGCCGCTGGATGATTCGTGCCACCAACAACGGCGTGACCGGCCTGATCAACCCCTTCGGCCAGATCACCGTCAGCATCCCGCAATTCGAGCGCGGCATCCTCTACGGCGAAGTGGTGCCGATGCACGACCTGACGCCCTACCTGCAATGGCGTTCGTGGCCGTTGATCATCCTGTGCGTGTTGCTGCTGGGCTGGGCGTTGATGGCCGGACGGATGGCCAAGACCGTTTGA	MRWITRPGWPGNLLAVAAGAITTLALAPFDIWPLALLAVGLFYAGLRELSPRQALGRGWCFGFGLFGAGTSWIYVSIHNFGGASVLLAGLLMLLFIASIAWFFALPAWLWARWLRRNEAPLADALAFAALWLGQEAFRGWFLTGFPWLYSGYSQLDGPLAGLAPLGGMWLISFTLALTAALLYNVPRLLRAGRKGFIAAGLVLLVGPWVAGMTLKGHAWTSPSGDPLSVAAIQGNIEQSMKWDPEQLNAQLALYRDMSLSSKRVDLLVWPETAVPVLKESAQGYLDMMGSFAAERHSALITGVPIRQLVRHERRYFNGITVTGEGDGTYLKQKLVPFGEYVPLQDLLRGLIAFFDLPMSDFARGPADQPLLQAKGYQIAPFICYEVVYPEFAASLSARSDLLLTISNDTWFGTSIGPLQHLQMAQMRALEAGRWMIRATNNGVTGLINPFGQITVSIPQFERGILYGEVVPMHDLTPYLQWRSWPLIILCVLLLGWALMAGRMAKTV	PGPT0024470_2975	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024470-lnt-K03820	NA	NA
D1-35_04718	840	corC	COG4535	Magnesium and cobalt efflux protein CorC	ATGAGCGAAGATCGATCGACCAACGGGCAGAAGTCATGGCTGGGCAAGCTCACCCAGGCTTTTGCCCATGAGCCGAAAAACCGCCAGGAGCTGCTGGAGCTGCTGCGCGATGCACACCAGAACAAACTGTTGGACAGCGAAGCGCTGGCCATCGTCGAAGGCGCCATCCAGGTCGCTGACCTGCAAGTGCGGGACATCATGGTCCCGCGCTCGCAGATGGTCAGCATCAAGGCGACCCAGACTCCCCGCGAATTCCTTCCGGCCGTGGTCGATTCCGCTCACTCGCGCTACCCGGTCGTCGGCGAGAGCCATGACGACGTCATGGGCGTGCTGCTGGCCAAGGACCTGCTGCCGCTGATCCTCCAGGAGAACGGCGACAGCTTCAACATCAAGGACTTGCTGCGTCCGGCCACCTTCGTGCCCGAGTCCAAGCGCCTTAACGTGCTGCTGCGCGAGTTCCGCGCCAATCACAATCATATGGCCATCGTCATCGACGAATACGGTGGCGTGGCCGGACTGGTTACCATCGAAGACGTGCTTGAGCAGATCGTCGGCGACATCGAGGACGAACACGATGTCGAGGAAGACAGCTACATCAAGCCACTGCCCAGCGGTGACTTCCTGATCAAGGCCCTGACGCCCATCGAGAACTTCAACGAGTTCTTCGACAGCGAGTTTTCCGACGATGAGTTCGATACCGTCGGCGGCTTGGTCATGAGCGCTTTCGGCCACCTGCCCAAGCGTAACGAAACCACCGAGATCGGCTCCTGGCGCTTCCGCATCCTCAATGCCGACAGTCGCCGGATCCATCTGCTGCGCCTGTCACCCATTGCCCGTTAA	MSEDRSTNGQKSWLGKLTQAFAHEPKNRQELLELLRDAHQNKLLDSEALAIVEGAIQVADLQVRDIMVPRSQMVSIKATQTPREFLPAVVDSAHSRYPVVGESHDDVMGVLLAKDLLPLILQENGDSFNIKDLLRPATFVPESKRLNVLLREFRANHNHMAIVIDEYGGVAGLVTIEDVLEQIVGDIEDEHDVEEDSYIKPLPSGDFLIKALTPIENFNEFFDSEFSDDEFDTVGGLVMSAFGHLPKRNETTEIGSWRFRILNADSRRIHLLRLSPIAR	PGPT0004695_1225	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0004695-corC-K06189	NA	NA
D1-35_04719	459	ybeY	COG0319	Endoribonuclease YbeY	ATGCTTGAACTCGACCTGCAACTGGCCAGCGAACATGCAGCCCCCGGCGAGGCCCAGTTCCGTCAATGGTGCGAACTGGCCCTGCGTCAGCGTAGCGCCGACTCGGAACTGACCATCCGCCTGGTGGACGAAGCCGAAGGTCGCGAGTTGAACCACACCTGGCGGCAGAAGGACTACGCCACCAACGTGCTGTCCTTCCCCGCCGACGTGCCCGACGAGCTGCTCGATATCCCGCTATTGGGCGACCTGGTGATTTGCGTCCCCGTGGTGGAGCGTGAAGCGGCGGAACAACACAAGACCCCTGAGGCCCACTGGGCTCACCTGGTGATTCACGGCTGCTTGCATTTGCTCGGTTACGACCATATGGAAGATGACGAAGCCGAGGAAATGGAAGCACTGGAACGAACGTTGCTTGCCGAGCTGGGTCATCCCGACCCTTATGCCGGCGACGAACACTGA	MLELDLQLASEHAAPGEAQFRQWCELALRQRSADSELTIRLVDEAEGRELNHTWRQKDYATNVLSFPADVPDELLDIPLLGDLVICVPVVEREAAEQHKTPEAHWAHLVIHGCLHLLGYDHMEDDEAEEMEALERTLLAELGHPDPYAGDEH	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
D1-35_04720	1155	ybeZ	COG1702	PhoH-like protein	GTGACAGCGCTTTCGCGAGCAGGCTCGCTCCCACACTGGTCGTGGCGAGCCTGTTGTCAGATTGCGCCGCTTAAGAGCTTTCGCACCCAGCCTACTGGCGTTATCCTTGATTTCATCTTAATTGCCCCTGGGCGGCTAAAAACGACCTTGAACGCACCCATCGAACCACATCGTTTCATTCTCGAGCCCTTCGAGGCTCGCCGCTTCGCCAATCTGTGCGGGCAATTCGACGAGCATCTGCGCTTGATCGAACAGCGCCTGGCCATCGAGATCCGCAACCGCGGAAACCAGTTCGAACTGATCGGCGAACCCAAGCACACCTCCTCCGCGGAAAACCTGCTGCGCCGCCTCTATCGGGAAACCAAGGCAAGCGAGCTGTCGCCGGATCTGGTCCATCTGTTCCTGCAGGAATCGGCTGTCGAGGAACTCGACAACCCAGCCCCTGCGGAACCTGCGGTGGCCCTACGCACGAAAAAAGGCATGATTCGCCCGCGCGGCCTGAATCAGCAGCGCTACGTGAAGGAAATCCTCGCCAACGATATCAATTTCGGTATCGGCCCGGCCGGCACCGGCAAGACGTACCTGGCCGTGGCCTGTGCGGTCGATGCGCTGGAGCGCGAACAGGTGCGACGCATCCTGCTGGTGCGCCCGGCGGTCGAAGCCGGGGAAAAGCTCGGCTTCCTGCCCGGCGACCTTTCCCAGAAAATCGACCCGTACCTGCGCCCGCTCTACGATGCGCTGTACGAAATGCTCGGTTTCGAATACGTCGCCAAGCTGATCGAACGCCAGGTCATCGAGGTTGCGCCACTGGCCTACATGCGTGGCCGCACCCTGAACAACAGCTTCATCATCCTCGACGAAAGCCAGAACACCACCGTCGAACAGATGAAGATGTTCCTGACCCGGATCGGCTTCGGCTCCACCGCCGTCATCACCGGGGACATCACCCAGGTCGACCTGCCCCGTGGCACCAAGTCCGGGCTGAACCATGTGATCCAGGTGCTCAAGGATGTTCCGGGCATCAGCTTCACGCATTTCATGCCCAAGGACGTCGTGCGCCATCCGCTGGTGCAGCGCATCGTCGAAGCCTATGAACGCTTCGAGAATCGCCAGGAAGACGCGCCCGCCGCCAAGGGCAACAGCCACGATGCTTGA	MTALSRAGSLPHWSWRACCQIAPLKSFRTQPTGVILDFILIAPGRLKTTLNAPIEPHRFILEPFEARRFANLCGQFDEHLRLIEQRLAIEIRNRGNQFELIGEPKHTSSAENLLRRLYRETKASELSPDLVHLFLQESAVEELDNPAPAEPAVALRTKKGMIRPRGLNQQRYVKEILANDINFGIGPAGTGKTYLAVACAVDALEREQVRRILLVRPAVEAGEKLGFLPGDLSQKIDPYLRPLYDALYEMLGFEYVAKLIERQVIEVAPLAYMRGRTLNNSFIILDESQNTTVEQMKMFLTRIGFGSTAVITGDITQVDLPRGTKSGLNHVIQVLKDVPGISFTHFMPKDVVRHPLVQRIVEAYERFENRQEDAPAAKGNSHDA	PGPT0002700_124	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002700-phoH-K06217	NA	NA
D1-35_04721	1365	miaB	COG0621	tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase	ATGCGCGGTTCTTTGAATCACGTGATGAACCCGTCCATGGCCAAGAAGCTTTACATCGAAACCCACGGTTGCCAGATGAACGAGTACGACAGCTCGCGCATGGTCGATCTGCTGGGTGAACACCAGGCCCTGGAAGTCACCGCTCGCGCGGAAGACGCGGACGTGATCCTGCTCAACACCTGCTCGATCCGCGAACGCGCCCAGGACCGGGTGTATTCCCAGTTGGGCCGCTGGCGCGAACTGAAGCTGGCCAACCCGGATATGGTCATTGCCGTTGGCGGCTGTGTCGCCAGCCAGGAAGGCGCGGCCATTCGTGACCGCGCGCCCTACGTGGACGTGGTCTTTGGCCCACAGACCCTGCACCGCCTGCCGGAGATGATCGACGCCGCACGCATTACCAAGCTGCCGCAAGTAGACGTCTCGTTCCCGGAAATCGAAAAATTCGATCACCTGCCCGAACCGCGTATCGACGGCCCAAGTGCCTACGTATCGGTGATGGAAGGCTGCAGCAAGTACTGCACCTTCTGCGTGGTGCCGTATACCCGCGGCGAAGAAGTCAGCCGCCCCTTCGACGACGTGATTGCCGAGATCATCCACCTGGCGGAAAACGGCGTGCGCGAAGTGACCCTGCTGGGGCAGAACGTCAACGGCTACCGAGGGCTGACCCATGACGGTCGCCTGGCGGACCTTGCCGAACTGATCCGCGTCGTGGCGGCGGTGGACGGCATTGACCGCATCCGTTACACCACCTCACACCCGCTGGAGTTTTCCGACAGCCTGATCCAGGCCCACGCCGAGGTCCCCGAACTGGTCAAGCACCTGCACCTGCCGGTGCAATCGGGTTCCGACCGGATCCTCGCGGCCATGAAGCGCAACCACACGGCGCTCGAATACAAATCCAAGCTGCGCAAGTTGCGCGCGGCGGTCCCGGGGATCTGCATCAGTTCGGATTTCATCGTCGGTTTCCCCGGCGAAACCGAGAAGGATTTCCAACAGACCATGAAGCTGATCGAGGATGTGGGCTTCGATTTCTCCTATTCCTTTGTCTACAGCCAGCGCCCCGGCACGCCAGCGGCGGACCTGGTGGACGAGACGCCCGAGGAAGTGAAGAAGGAGCGACTCAATGCCTTGCAGCACCGCCTTAACCAGCAAGGTTTCGAGATCAGCCGACAAATGGTCGGCTCCATCCAGCGGATCCTGGTGACCGATTACTCGAAAAAAGACCCGGGCGAATTGCAGGGGCGCACCGAGAATAACCGTATCGTCAACTTCCGCTGCGACACTCCGGCATTGATCGGCCAGTTCGCCGACGTGCACATCGACGCCGCGCAACCGCACTCCCTGCGCGGTTCGCTGGTCCAGTAA	MRGSLNHVMNPSMAKKLYIETHGCQMNEYDSSRMVDLLGEHQALEVTARAEDADVILLNTCSIRERAQDRVYSQLGRWRELKLANPDMVIAVGGCVASQEGAAIRDRAPYVDVVFGPQTLHRLPEMIDAARITKLPQVDVSFPEIEKFDHLPEPRIDGPSAYVSVMEGCSKYCTFCVVPYTRGEEVSRPFDDVIAEIIHLAENGVREVTLLGQNVNGYRGLTHDGRLADLAELIRVVAAVDGIDRIRYTTSHPLEFSDSLIQAHAEVPELVKHLHLPVQSGSDRILAAMKRNHTALEYKSKLRKLRAAVPGICISSDFIVGFPGETEKDFQQTMKLIEDVGFDFSYSFVYSQRPGTPAADLVDETPEEVKKERLNALQHRLNQQGFEISRQMVGSIQRILVTDYSKKDPGELQGRTENNRIVNFRCDTPALIGQFADVHIDAAQPHSLRGSLVQ	PGPT0007215_2615	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007215-miaB-K06168	NA	NA
D1-35_04722	330			hypothetical protein	ATGACCAAACGTGAAGCTCCAATCTACAAGGTGATTTTCCTCAACCAGGGCCAGGTGTTCGAAATGTACGCCAAACAGATCTATCAGAGTGATCTGTGGGGCTTCCTGGAGGTCGAGGAATTCGTCTTTGGCGAGCGCACGCAAGTGGTCGTCGACCCGAGCGAAGAAAAGCTCAAGGCGCAGTTCGAAGGCGTGGTGCGCAGCTTCGTGCCGATGCACTCGATCGTGCGCATCGACGAGGTCGAGCGCCTGGGCACGCCGAAAATCAGCGAAGCCCGTGGCGCGGTCGGCAATGTCATGCCGTTTCCGATGCCGATGCCTGAGAAGTAA	MTKREAPIYKVIFLNQGQVFEMYAKQIYQSDLWGFLEVEEFVFGERTQVVVDPSEEKLKAQFEGVVRSFVPMHSIVRIDEVERLGTPKISEARGAVGNVMPFPMPMPEK				NA	NA	NA	NA	NA
D1-35_04723	555			hypothetical protein	ATGAACCGCACCGGCCGCACCCTTGCCTTGGGCTGCCTGTTGCTCCTTCAGCCCCTGCTCGCCAACGCACAGGCAGGCGGCAACTCGTTGTTGATCCCGGCGATGGGCCGTTGCACGCTCAACACCCAGCCACAAGATCTGGCACCGGCACTCGACGCCTGTCGAAAAGCCGCCGACGAGGGCGATGCCCAAGCGCAATATGAGCTGGGCGAGTTCTACTATGACGGCAAGGCCGCGCCCCGCGACCTCAAGCAAGCCCTCGACTATTTCGAAAAAGCCTCGCTGCAAGGCCACGCCCAGGCGCAATTCAAGCTTGGCGGCATGTTCTTCCATGGCGAAGGTGTGCCGGCCAACAACGTCCAGGCTTACATCGTATTGAAGATGGCGGCGGTCAACGGCGCCGAGGAGGCACTGGACACCGCCGATGAAGTCGCCGAGCAGATGCCCCGCGACGAGCTGGAAGTGGCGACCCAGGTGCTGGGCCAGATCTTTCGCAAATACCTGATGGAATTGCAGAACGCCGACGGGCGTACGCCGTTCTCGCCGCTGCCCTGA	MNRTGRTLALGCLLLLQPLLANAQAGGNSLLIPAMGRCTLNTQPQDLAPALDACRKAADEGDAQAQYELGEFYYDGKAAPRDLKQALDYFEKASLQGHAQAQFKLGGMFFHGEGVPANNVQAYIVLKMAAVNGAEEALDTADEVAEQMPRDELEVATQVLGQIFRKYLMELQNADGRTPFSPLP	PGPT0000855_6128	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-ACIDITY|NITROGEN_RELATED_REGULATION,PGPT0000855-exoR-K07126	NA	NA
D1-35_04724	1284	hemL	COG0001	Glutamate-1-semialdehyde 2,1-aminomutase	ATGTCCCGTTCCGAAACCCTGTTTGCCAACGCTCAGAAACACATCCCCGGCGGCGTGAATTCACCCGTTCGTGCGTTCAAGAGCGTCGGCGGCACCCCGCTGTTCTTCAAGCACGCCGAGGGCGCGTATGTCACCGACGAAGACGACAAGCGCTACGTCGACTACGTGGGTTCGTGGGGCCCGATGATCCTCGGCCACAGCCATCCGGACGTGTTGGACGCGGTGCGCAAGCAATTGGAGCACGGCTTGTCCTATGGCGCGCCGACCGCGATGGAAACCGAAATGGCCGATCTGGTCTGCTCCATCGTGCCATCGATGGAAATGGTGCGCATGGTCAGTTCCGGCACCGAGGCGACCATGAGCGCGATCCGCCTGGCGCGCGGCTACACCGGGCGCGACAGCATCATCAAATTCGAAGGCTGCTACCACGGTCACTCCGACAGCCTGCTGGTCAAGGCCGGCTCCGGTGCGCTGACCCAAGGCGTGCCCAGCTCGGCGGGCGTACCGGCGGCATTTGCCAAACACACGCTGACCCTGCCGTTCAACGACCTCGAAGAAGTCGAGAAAATGCTCGGGGAAGTCGGCCAGGAAGTGGCCTGCATCATCGTCGAGCCGGTGGCCGGCAACATGAACTGCGTGCCGCCAGCGCCGGGTTTCCTCGAAGGCCTGCGCAGCCTGTGCGACCAGCACGGCGTGGTACTGATTTTCGACGAAGTGATGACCGGCTTCCGCGTCGCCCTCGGCGGTGCCCAGGCTCATTACGGCGTAACGCCGGACCTGAGCACCTTCGGCAAGATCATCGGCGGCGGCATGCCGGTAGGCTGCTTCGGCGGCAAGCGCGCGATCATGGAATGCATCGCCCCGCTGGGGCCGGTCTACCAGGCCGGTACCTTGTCGGGCAATCCGCTGGCCATGGCTGCCGGCCTGACCACCCTGCGCCTGATCAGCCGTCCGGGTTTCCACGCCGAGCTGAGCGACTTCACCACTCGCCTGCTCGACGGCTTGCAAGTACGCGCCGATGCGGCGGGCATCCCGTTCGTGACCACCCAGGCCGGCGGCATGTTCGGCCTGTACTTCAGTGGCGCCGATGACATCGTGACCTTCGACGACGTGATGGCCAGCGACGCCGACCGCTTCAAGCGCTTCTTCCACCTGATGCTCGAGGGTGGCGTATACCTGGCGCCAAGCGCGTTCGAAGCCGGCTTCACCTCCATCGCCCATGGCGAGGCGGAGTTGAAGATCACCCTCGACGCGGCCGAGCGGGCCTTTGCTGCACTGAAGTAA	MSRSETLFANAQKHIPGGVNSPVRAFKSVGGTPLFFKHAEGAYVTDEDDKRYVDYVGSWGPMILGHSHPDVLDAVRKQLEHGLSYGAPTAMETEMADLVCSIVPSMEMVRMVSSGTEATMSAIRLARGYTGRDSIIKFEGCYHGHSDSLLVKAGSGALTQGVPSSAGVPAAFAKHTLTLPFNDLEEVEKMLGEVGQEVACIIVEPVAGNMNCVPPAPGFLEGLRSLCDQHGVVLIFDEVMTGFRVALGGAQAHYGVTPDLSTFGKIIGGGMPVGCFGGKRAIMECIAPLGPVYQAGTLSGNPLAMAAGLTTLRLISRPGFHAELSDFTTRLLDGLQVRADAAGIPFVTTQAGGMFGLYFSGADDIVTFDDVMASDADRFKRFFHLMLEGGVYLAPSAFEAGFTSIAHGEAELKITLDAAERAFAALK	PGPT0003680_4471	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845	NA	NA
D1-35_04725	627	thiE_2	COG0352	Thiamine-phosphate synthase	ATGAAATTACGTGGCCTTTATGCCGTCACCGACAGCCAGTTGCTGGCCGGCAAGTTCCTCGCCTACGTGGAAGCCGCGCTGGAAGGTGGCGTGACCCTGCTGCAATACCGCGACAAAAGCAGCGACGAGGCCCGGCGCCTGCGCGAGGCCGAGGCGCTGCGCAACCTGTGCGAGCGCTACAAGACCCAACTGATTATCAACGATGACGCCGAACTGGCCGCACGCCTCGGCGTCGGCGTCCACCTGGGCCAGACCGATGGCCCGCTGGCGCCGGTGCGGGCGTTGCTGGGGCACAAGGCAATCGTCGGCGCCACTTGCCACGCCAGCCTGGAACTGGCCGAACAGGCCGTCCGGGAAGGCGCCAGCTACGTCGCGTTCGGGCGCTTCTTCAATTCCAATACCAAGCCCGGGGCGCCCGCCGCAAACCTTGAACTGCTCGAACAGACCCGTATCAAACTGCATATACCGGTGTGCGCCATCGGCGGCATCACTCTGGAAAACGCCGCCCCGCTGGTGGCCCATGGCGTCGACCTGCTCGCGGTGGTCCATGGCCTGTTCGGCGCCGACAGCACGGCTGAGGTGACGCGCCGCGCCCGCGCCTTCAACGACCTGCTGCAAACCAAATAG	MKLRGLYAVTDSQLLAGKFLAYVEAALEGGVTLLQYRDKSSDEARRLREAEALRNLCERYKTQLIINDDAELAARLGVGVHLGQTDGPLAPVRALLGHKAIVGATCHASLELAEQAVREGASYVAFGRFFNSNTKPGAPAANLELLEQTRIKLHIPVCAIGGITLENAAPLVAHGVDLLAVVHGLFGADSTAEVTRRARAFNDLLQTK	PGPT0008995_3761	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
D1-35_04726	798	thiD		Hydroxymethylpyrimidine/phosphomethylpyrimidine kinase	ATGAATATCTACAACTCCCGCCCCGTTGTCCTCTGTCTCTCCGGCCACGACCCCAGTGGTGGCGCCGGCTTGCAGGCAGATATCGAAGCCCTGCTCGCCCAGGGTTGTCATGCCGCCCCGGCCGTTACCGCGTTGACCGTGCAAGACACGGTCAATGTCAGCGATTTCCGCGTACTCGATCGCGAGTGGGTAATGGCCCAGGCCAATGCCGTGCTCAACGATTCGCCCGTCGCGGCGGTCAAGCTGGGGATGCTAGGTTCGCTGGAAATGGTCGACACAGTGGTCGAGCTGCTCCAGGCGCATCCACACCTGCCGATGGTCTGCGACCCGGTGCTGCGCGCCGGTGGTGGCGGACGGCTGGGCAAGGATGAAGTCGGCTACGCCATGCGCGAGCGCCTGCTGCCGCTGGCAATCATCGCCACGCCCAACCTTCCTGAAGCACGCATTCTCGCCGAACTGCCGGAAGGCAGCGCCGATGAATGCGCCGAAAAACTGCTGCCCTTCGTCAAGCACCTGCTGATTACCGGCGGTCACGGCGATGAACATGAAGTCCACAATCGCCTGTACAGCCGCGACGGACACCGCGAGACCTTCACCTGCCAGCGCTTGCCCGGCAGCTATCACGGTTCCGGCTGCACCCTGGCCAGCGCCCTGGCCGGCCGGCTGGCCCTGGGTGAACAGCTCGCCAGCGCGGTGAAGACCGCGCTGGATTACACCTGGCGCACCCTGCGCGATGCCGAACAATTGGGCAAAGGCCAGTTCGTACCGCGTCGCCTGCCGCTGGATTTCTGCTCGTAG	MNIYNSRPVVLCLSGHDPSGGAGLQADIEALLAQGCHAAPAVTALTVQDTVNVSDFRVLDREWVMAQANAVLNDSPVAAVKLGMLGSLEMVDTVVELLQAHPHLPMVCDPVLRAGGGGRLGKDEVGYAMRERLLPLAIIATPNLPEARILAELPEGSADECAEKLLPFVKHLLITGGHGDEHEVHNRLYSRDGHRETFTCQRLPGSYHGSGCTLASALAGRLALGEQLASAVKTALDYTWRTLRDAEQLGKGQFVPRRLPLDFCS	PGPT0008915_3424	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
D1-35_04727	2385	rcsC_23		Sensor histidine kinase RcsC	ATGCGCTATTTGCTGATGTTGCTGCTGTGCTTGTCCCCCTTGGCAAGCGCCCTTGAATTCGATGAATCTACCCGAAGCCTGCCCTTGGGCCATGCCTTGCAGGTGTTCGAGGATGCCAGCGGCACGGCCACGCTCGAGGACGTCCTGGCCCAGGCCGCGGTTGGGCGCTTCAAACCCCACGACCAAGCCACGCTGAACGCAGGGTATTCGCGCTCGGCGTTCTGGCTGAAGATCGACTTGCACTACCGCCCGGGCAATCCCGGCGCCCAGCGCACCTGGCTGCTGGAGCTGGCGTATCCGCCGCTGGACCGCCTGGACCTGTATCTGGCCGATGCGCAAGGTGCCTATCGCCTGGTTCGCCAGACCGGCGATGCCTTGCCGTTCGCCAGTCGCGAGGTCCGCCAGAACAACTACCTGTTCAGCCTGGATTTCCAACCCGATCAACGCCAGACCGTGTATCTGCGCCTGCAAAGCCAGGGCTCGATCCAGGCTCCGTTGACGCTCTGGTCGAGCACCGCCTACCTGGAACAGCAGCCGGTGCGCCTGTATGTGCTGGGCATCATCTATGGCGTACTGCTGGGGATGCTGGTCTACAACCTGTTCATCTACCTGAGCGTGCGCGACACCAGTTACCTCTATTACATCTTCTATATCGCCTCGTTCGGCCTCTATCAATTGTCGGTCAACGGCGCGGCGGTTGAGTATTTCTGGCCGGACAACCCTTGGTGGGCCAACGCGGCGACGCCATTTTTCATTGGTTGCGCGGGGGTGTTTGGCAGTCAGTTCGCCCGCAGTTTCCTGCAAACCGCCCAGCACAGCCGCTGGCTCGACCGATTGCTGCTCGCGCTGATTGCCTACGGCGCGGTGGTGGTGGGCCTGTCGTTGATGACCAGCTATGCGCTGGCGCTGCGCCTGGCGACGGCGCTGGCCCTGGTGTTCACCGTGGTGATTTTCGCCGCCGGCTTGTTCGCCTGGTGGCGGGGGCTGCGGGTGGCGCGTTACTTCATTATTGCCTGGTCGGCGTTTCTGCTGGGGGGCGTCGTCAATACGATGATGGTGTTGGGTTACCTGCCGAACATCTTCCTGACCATGTATGCCAGCCAGATCGGCTCTGCCATCGAGGTGGCGCTGTTGTCCCTGGCCCTGGCGGACCGCATCAACGCCATGCGCGAACAGCAGGCGCAGACGCTGTTCGACGCCGGGCAGAAACTCGAAGTGCTGAACCAGCAGTTGGCCCAAGGCAACAAGCTCAAGGACGAATTTCTCGCCACGTTGACCCATGAGTTGCGCACGCCGATGAATGGTGTGATCGGTTGCCTGGAACTGATGGAAACCGTCGAGATGGACGAGGAACTCAGCCAGTATCAGCAGACCGCAGCCGGTTCGGCGCGGGACATGATGCGCATGGTCAACGGCATGCTCACCCTCACCGAGTTGCAGGCCGGCAAGCTCAAGGTGTATCCGGCGCCGTTCAGCCTGCGCAGCGTGATAGAGGCCCTGCAGGTGCAGTTCGGCGCCAACGCGGCGGCCAAGGGCCTGGATTTCAAGGTCGACGTAGCGCCTGGCCTGGCGGACCGCTTGCTAGGTGACAGCGGTAAATTGGCCCAGTGCCTGGAATGCCTGCTGGACAATGCCATCAAGTTCACCCGCGTCGGTGGCATCGCGCTGCGGGTCAGTGGCCGGACGTCGGAGCTCGATCGCCTGGTGCTGTCTTTTGCCGTGATCGATACCGGCATCGGCTTTACCGATCTGGGGGAGGCGACCCTGTACCAGCGTTTCTTCCAGCTCGACGGCTCGATGACCCGCGAATACGGCGGCCTCGGCGTCGGCCTGGCGATTTGTCGGCAACTGGTCGAATTGCTCGGCGGACGCCTGACCCATACCTCGGAGCCGGGGCGCGGTAGCCGCTTCCAGCTGGACGTGGAATTTGACATCGCATTGCCTGTGGCCGTCCCGGCAACGTTTCCTGGCGGCGCACGCCGGGCTGCGCGCTTGCCCCAGGAGTGCACGGTGCTGCTGGCCGACGACAACAACATCGACCAACTGGTGATGCGCGGCATGTTGCTCAAGCTTGGCTACCGAGTACGCACCGCCGACAGTGGCCGCGCGGCGCTGGAGCTGCTGCAGGGCGACAGTTTTGACGCGGTGCTGCTCGATTGTCAGTCGACACCATCGGATGGGGTGTCGGTCTGCTGTCAGATCCGCGCGATGTCAGGTTGCGAGGACTTACCCGTGCTGGTGGTCAGCCCGAACGTGGACCAGGCGCATTGCCCTGCGGGTAGCCTGATCGATTACCTGAGCAAACCGGTGAAATTCGAAGCACTGCAGGCGATTCTGCAACGACGGGTACTTTGTCCGAAGCAGGGTGAAAGCGCCGGCATTTAG	MRYLLMLLLCLSPLASALEFDESTRSLPLGHALQVFEDASGTATLEDVLAQAAVGRFKPHDQATLNAGYSRSAFWLKIDLHYRPGNPGAQRTWLLELAYPPLDRLDLYLADAQGAYRLVRQTGDALPFASREVRQNNYLFSLDFQPDQRQTVYLRLQSQGSIQAPLTLWSSTAYLEQQPVRLYVLGIIYGVLLGMLVYNLFIYLSVRDTSYLYYIFYIASFGLYQLSVNGAAVEYFWPDNPWWANAATPFFIGCAGVFGSQFARSFLQTAQHSRWLDRLLLALIAYGAVVVGLSLMTSYALALRLATALALVFTVVIFAAGLFAWWRGLRVARYFIIAWSAFLLGGVVNTMMVLGYLPNIFLTMYASQIGSAIEVALLSLALADRINAMREQQAQTLFDAGQKLEVLNQQLAQGNKLKDEFLATLTHELRTPMNGVIGCLELMETVEMDEELSQYQQTAAGSARDMMRMVNGMLTLTELQAGKLKVYPAPFSLRSVIEALQVQFGANAAAKGLDFKVDVAPGLADRLLGDSGKLAQCLECLLDNAIKFTRVGGIALRVSGRTSELDRLVLSFAVIDTGIGFTDLGEATLYQRFFQLDGSMTREYGGLGVGLAICRQLVELLGGRLTHTSEPGRGSRFQLDVEFDIALPVAVPATFPGGARRAARLPQECTVLLADDNNIDQLVMRGMLLKLGYRVRTADSGRAALELLQGDSFDAVLLDCQSTPSDGVSVCCQIRAMSGCEDLPVLVVSPNVDQAHCPAGSLIDYLSKPVKFEALQAILQRRVLCPKQGESAGI	PGPT0025890_178	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-Gac|Rsm_PATHWAY,PGPT0025890-ladF-K20971	NA	NA
D1-35_04728	1650	aidB	COG1960	Putative acyl-CoA dehydrogenase AidB	ATGAACCTGCACCAGTTCGCCGAAACCCACGACGTCACCAATCAGCCTCCGTCCCTGGATGGCGCCAACCTGTACCGTATCGACCTGCCGCTGCAAGAGTGGTCGCGGCGTTTCGGCGCAGGGTGGGCACAGGCGCGGATTGACGCCTATGGTGCCCTGGCCGGCGGGCCGTTGATGGAGGCGGGGTTCCTGGCCAACCAGAACAAGCCGATATTTTCCAGCCACGACCGTTACGGCCATCGTATCGACCTGGTGGAATTTCATCCTGCCTATCACGAGCTGATGCGCACCGCCATCGAACATGGCCTGCCCAGCCTGCCGTGGGCCCATCCGCAACCTGGCGCGCATGTCGCCCGCGCCTCGATGACGTACCTGCACAGCCAGGCCGAAGCCGGCACCGGTTGTCCGTTGACCATGACCTTTGCCAGTGTGCCGGCCCTGCGCCTGCAACCGGACCTGGCCGAGCGCTGGGTGCCGAAAGTAATCGCCACCGAATACGATCCACGTAACGTCGGCATGGCCCACAAGGCCGGGGTCACTCTCGGTATGGCGATGACCGAGAAGCAGGGCGGCACCGATGTGCGCGCCAACACCACCAAGGCGTATCCGGTAGGCGCCAGTGGCCCGGGCCAGGCCTATGAGCTGGTGGGTCACAAGTGGTTCTGTTCGGCGCCGATGTGCGATGCCTTCCTGACCCTGGCCCAGACCGACAAGGGCCTGACCTGCTTTTTGCTGCCGCGCCACCGCCCGGACGACACCCGCAACCAGTTCTACATCCAGCGTTTGAAAAACAAACTCGGCAATTGCTCCAACGCCTCCAGCGAGGTGGAGTTCCGTGGTGCGCTGGCCTGGATGGTCGGCGAAGAGGGCCGAGGCGTGCCGACGATCATCGAAATGGTCGCCATGACCCGCTTCGATTGCATGGTCGGCTCCAGCGCCCTTATGCGCCAGGCCCTGACCCAGGCCAGTCACCATTGCGCGCACCGCAAGGTCGGCGGCAAGTTGTTGAGTGAGCAGCCCCTGATGCAGAACGTACTCGCCGACCTGGCCCTGGAAAGCGAAGCTGCGTTGGCGCTGAGCTTGCGCATGGGCCGGGCGCTGGATCATCTGAACGATGAGCATGAAGCCAAATTCGCCCGGCTGGTGACGGCAGTAGGCAAATACTGGATCTGCAAACGCGCCCCGGCAATGATCAACGAGGCGGCCGAATGCATGGGCGGTGCCGGCTATGTCGAGGACAGCATCCTGCCGCGCCTGTACCGCGAGGCACCGGTCAATTCGACCTGGGAAGGCTCCGGCAATGTGCAGTGCCTTGACGTCTTGCGCGCTCTGTCCAAAGAGCCGGGCGTGTTGGAAGTGCTGTTCGACGAACTGGGCGACGGCCATGGGGACAATCGCCTGGCGGCCCATATCGACCGGTTGCACGCAGCGTTCAAGGACACCGATGACATCCAGTATCGTGCCCGGCAATTGACCGAAGACATCGCCGTCGGCCTGCAAGCCAGGCTGTTGCTGGAAGCGGGGAACAGCGATGTCAGCGATGCCTTCATCGCCAGCCGGCTGGGTTCCACTGGCCGGGTCTACGGCGCGTTGCCCCGCGGCCTGAATGTCGAAGCCATCGTCGCCCGCTCGACCCCGCACGGCTTCTAA	MNLHQFAETHDVTNQPPSLDGANLYRIDLPLQEWSRRFGAGWAQARIDAYGALAGGPLMEAGFLANQNKPIFSSHDRYGHRIDLVEFHPAYHELMRTAIEHGLPSLPWAHPQPGAHVARASMTYLHSQAEAGTGCPLTMTFASVPALRLQPDLAERWVPKVIATEYDPRNVGMAHKAGVTLGMAMTEKQGGTDVRANTTKAYPVGASGPGQAYELVGHKWFCSAPMCDAFLTLAQTDKGLTCFLLPRHRPDDTRNQFYIQRLKNKLGNCSNASSEVEFRGALAWMVGEEGRGVPTIIEMVAMTRFDCMVGSSALMRQALTQASHHCAHRKVGGKLLSEQPLMQNVLADLALESEAALALSLRMGRALDHLNDEHEAKFARLVTAVGKYWICKRAPAMINEAAECMGGAGYVEDSILPRLYREAPVNSTWEGSGNVQCLDVLRALSKEPGVLEVLFDELGDGHGDNRLAAHIDRLHAAFKDTDDIQYRARQLTEDIAVGLQARLLLEAGNSDVSDAFIASRLGSTGRVYGALPRGLNVEAIVARSTPHGF				NA	NA	NA	NA	NA
D1-35_04729	1464	amn	COG0775	AMP nucleosidase	GTGACCGAAGCGTTTATTGTCGTTCAAACCGCCGAGCAAGCCGTGGACCGGCTGGCGGCCCTGCACGAGCGTGCGACCACTGCGCTGAACCAGGCGCTCAAGCGTTATCTCAAGGACCGCATCGAGCCGGATGCCGAGCAACGCGCATTGTTCCGCTATCCGGCCCTGCGCCTGACCTACCATTGCCATGGCGAAGTCCCGCAGACCACCCGCGCCTACGCCAAGGTCCAGCTGCCGGGCACCTACAGCGTCACCGTCACCCACCCGGCGGCATTTCGAAAATACCTGCTCGAACAGCTTGTCCCGCTGATGCACGACTTCACCGTCACCGTCGAGGTGGGCGTCAGTGAGCAGAACATTCCGTACCCGTATGTGGTGGAGCAGGGCGATGAACTGGCCGGTTCCGGTGTGACGGCGGCAGTGCTGGCGCGGGTGTTCCCCAGCACCGACCTGTCGGCCGCCACCGATGGCATCGCCGATGGCCTCTACGATTGGGAAAACACCGACCCGCTGCCCCTGGCACTGTTCGACGCCGCGCGGGTGGATTTCTCCCTGCGCCGGCTCGTGCATTACACCGGCAGCGATTGGCGCCATGTGCAGCCGTGGATTCTTCTGACCAACTATCACCGCTATGTCGACCAATTCATCGTCCACGGGCTGGAGCAGTTGCGCAGCGATCCGCGTTTCGTGCGCATGGTGCTGCCGGGCAACGTGATCATCGACAAGAACATGGATCACGGTGAAGCCTCGGCCATCGCCGCTGGCGTGGTCTGGCATCGCTACCAGATGCCGGCCTATCACTTGCAAGCCAGCGACGGCCACGGCGTGACCCTGGTGAACATCGGCGTTGGTCCGTCCAATGCCAAGAACATCACCGATCACCTGGCCGTGCTGCGTCCGCATTGCTGGCTGATGATCGGCCACTGCGGCGGCCTGCGTCAGTCCCAGACAATCGGCGATTACGTCCTGGCGCACGCCTATATGCGCCGCGATGGCATCCTCGACCGCGTGGTGCCGCCGAATATCCCAATCCCGGCCCTGGCCGAAGTGCAGCTGGCACTGCAGCAGGCGGCGGCGAACATCACCGGCGAAAAAGGCGACGAGCTGAAAAAACGCCTGCGCACCGGCACCGTGCTGACTTACGACGACCGCAACTGGGAATTGCGCTGGGCCCAGGAGCGTCCGTTGATCAACCTGTCCCGCGCCGTGGCGGTGGACATGGAAAGCGGCACCATCGCTGCCCAGGGTTACCGCTTGCGGGTGCCATACGGCACGTTGCTGTGCGTCTCGGACAAGCCGCTGCACAGCGAGATCAAACTGCCGGGTTCGGCCAACGCGTTTTATGAGCGGGCGGTCAACCAGCACCTCAAGATCGGGATCGCGGCGCTGGACCTGCTGCGCAACGAACTCAACTCGTTGCACTCGCGCAAACTGCGCAGCTTCGACGAGCCGCCGTTCCGCTGA	MTEAFIVVQTAEQAVDRLAALHERATTALNQALKRYLKDRIEPDAEQRALFRYPALRLTYHCHGEVPQTTRAYAKVQLPGTYSVTVTHPAAFRKYLLEQLVPLMHDFTVTVEVGVSEQNIPYPYVVEQGDELAGSGVTAAVLARVFPSTDLSAATDGIADGLYDWENTDPLPLALFDAARVDFSLRRLVHYTGSDWRHVQPWILLTNYHRYVDQFIVHGLEQLRSDPRFVRMVLPGNVIIDKNMDHGEASAIAAGVVWHRYQMPAYHLQASDGHGVTLVNIGVGPSNAKNITDHLAVLRPHCWLMIGHCGGLRQSQTIGDYVLAHAYMRRDGILDRVVPPNIPIPALAEVQLALQQAAANITGEKGDELKKRLRTGTVLTYDDRNWELRWAQERPLINLSRAVAVDMESGTIAAQGYRLRVPYGTLLCVSDKPLHSEIKLPGSANAFYERAVNQHLKIGIAALDLLRNELNSLHSRKLRSFDEPPFR	PGPT0021500_677	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021500-amn-K01241	NA	NA
D1-35_04730	636	rluE	COG1187	Ribosomal large subunit pseudouridine synthase E	ATGCCCCGTCCTCCACGCCCCGCTTCCCGCCGCCCTGGCGCGAAGCCTCCCGCTTCCACCCCGCGCCGTGTGGCCAAGGCGCCGCCGGCCGAAGCGAAACTGATCCTGTTCAACAAGCCTTTTGACGTGCTGACGCAATTCAGCGACGGCGAAGGGCGCGCCACGCTCAAGGATTTCATCGACGTACCGGGCATCTACCCGGCCGGTCGGCTGGACCGCGACAGCGAAGGATTGCTGTTGCTGACCAATGACGGCCAGTTGCAGGCGCGCATCGCCGATCCCAAGCACAAGCTGGCCAAGACGTACTGGGTACAAGTCGAGGGTGAGCCGAGCGACGAGCAACTGCAGCGTTTGCGTGATGGGGTCGAGTTGAACGACGGTATGACGCTGCCGGCCGAGACCCGTCAGCTGGACGAACCGCAATTATGGCCGCGCAATCCACCGGTGCGCTTTCGCAAAAGCGTGCCGACGAGTTGGCTGGAACTGGTGATACGTGAAGGGCGCAACCGCCAGGTGCGGCGCATGACCGCCGCGGTGGGTCTGCCGACCCTACGCCTGGTGCGGGTCAGGATCGGTGACTGGACGATCGAAGGGCTCGATCAGGGCCAATGGAAAGAGGTACCGGCGCGTTTATAA	MPRPPRPASRRPGAKPPASTPRRVAKAPPAEAKLILFNKPFDVLTQFSDGEGRATLKDFIDVPGIYPAGRLDRDSEGLLLLTNDGQLQARIADPKHKLAKTYWVQVEGEPSDEQLQRLRDGVELNDGMTLPAETRQLDEPQLWPRNPPVRFRKSVPTSWLELVIREGRNRQVRRMTAAVGLPTLRLVRVRIGDWTIEGLDQGQWKEVPARL	PGPT0029005_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029005-bcr|tcaB-K07552	NA	NA
D1-35_04731	210			hypothetical protein	ATGGATCCTGCTGTTTTCGAAGAGTGGATGATGACCGGACTGGTCAGCATCCTGATCATTTTCATGGGGTTCATCGTCTGGGACCTGGCGAAGAAATCCAAGGCCGGGCGTTTCGGCTCGTTCATCCTGTTTTTCGTGCTCGGCCTGGGCGTGGCGGCGTTCATCATCAAGAGCGTGGTCATCGGTCTGATCGAATCCGGCTCGTTATAA	MDPAVFEEWMMTGLVSILIIFMGFIVWDLAKKSKAGRFGSFILFFVLGLGVAAFIIKSVVIGLIESGSL				NA	NA	NA	NA	NA
D1-35_04732	480	lrp_5	COG1522	Leucine-responsive regulatory protein	ATGAGCAAACTCGACCGTTACGACCTGAGCATCCTGGCGGAATTGCAGCGCGACGCGCGCATCTCGAACCAGGAATTGGCCGAGCGCATCGGCCTGTCGCCCTCCCCCTGCTCGCGGCGGGTCAAGCAATTGGAAGACGATGGCTACATCACCCGCCAGGTTGCCCTGCTCGATCGCAAGATGCTCGGCCTGAGCCTGACGGCCTATGTGCTGATTGGCATGGACCGCCACACCCCCGACCGCTTCGAGACCTTCGAAGCCGCGATCCGCAACCTGCCGCAAGTGCTTGAATGCAGCCTGGTGACCGGCATCGACGCGGATTACCAACTGAAGGTGGTGGTGCCGGATATGGATCATTACCAGAAGCTGCTGCTGGGCCACCTGACCCGGATCGAAGGCGTCACCAGCGTGCGTTCGAGTTTTGTGCTGAACCAGGTGCTCAACAGTACCGAGCTGCCGCTGACTCACCTGCGCAGCTGA	MSKLDRYDLSILAELQRDARISNQELAERIGLSPSPCSRRVKQLEDDGYITRQVALLDRKMLGLSLTAYVLIGMDRHTPDRFETFEAAIRNLPQVLECSLVTGIDADYQLKVVVPDMDHYQKLLLGHLTRIEGVTSVRSSFVLNQVLNSTELPLTHLRS	PGPT0014049_276	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014049-doeX-K15782	NA	NA
D1-35_04734	981			hypothetical protein	ATGAAGTCGCGCATCTGGCGTTTGGCAGGTGTTGGTCTGTTGTGGGCAAGTGTCAGTGCGCAGGGAATGGCGGATGATCAGCAGAACCGTGGCGGCCCAAACGGTAATGGCCCGGGTTATTCAGGCCAGCCCCGGCCGCAAAGCAACGAGATCATTCGTGGCGATAACAGCCGACAGTTCGAGGTCCAGCCGCAATCTCCAGGTGGGCAACACTACGAGCGTCCACCGCAGGACCCCAACGTACACAACCGCCCGCCGCAACAGCAACCGGGCAACAATCTGCCGATCCAGGGCCGGCCCGACAGCGTGACCCAGACCCAGGAGCCGCGACCGGGCTACTACCGCGACATTCCACGGCGCAACGACGGCTATCCGAACGGCGGGCCGCGTCCAGGCCACGACAACCGGCCCGATCAGCACTGGCCCGGTCGGCCGGACGGCCATGGCAACGGTTGGGGGCAGGGGCCGCAATATCGGCCAGGGTATGTGATCGATCGTTTCCCGGATCGTAATTACCGTGTGCCTTATCGCGGCCAGGATTATTTCTACTCGGGTGGCTACTGGTATCGTCCGCAAGGGCCGCGTTATGTCGTAGTGCAGCCGCCTCGGGGCATTCGTACCCGCTATCTGCCCGATTATGCCCGTGAGGTCTGGATCGGCAGCTCGCTGTTTTTCCTCGCCGCCGGTGCCTATTACATTTATGAAGCCAACACCCGGGACTACGTCGTGGTCGAGGCGCCGGTCGCCAATCCGCAGCCGCAGCCCCAGGGCAACAGCTTCGACGTGGTGGCTTATCCGGCCAACGGCCAGTCGCCCGAGCAGGTCAACCAGGACGGCTACGATTGCTATCGCTGGGCGGTGCAGCAGAGTGGTTTCGACCCGCGCACCTATACCTACCCACCGGCGCCGGAAGTGGTGCAAACCTACCGCCGGGCCCAGGGCGATTGCTTGAGCAGTCGTGGGTATCAGGTGACGTACTGA	MKSRIWRLAGVGLLWASVSAQGMADDQQNRGGPNGNGPGYSGQPRPQSNEIIRGDNSRQFEVQPQSPGGQHYERPPQDPNVHNRPPQQQPGNNLPIQGRPDSVTQTQEPRPGYYRDIPRRNDGYPNGGPRPGHDNRPDQHWPGRPDGHGNGWGQGPQYRPGYVIDRFPDRNYRVPYRGQDYFYSGGYWYRPQGPRYVVVQPPRGIRTRYLPDYAREVWIGSSLFFLAAGAYYIYEANTRDYVVVEAPVANPQPQPQGNSFDVVAYPANGQSPEQVNQDGYDCYRWAVQQSGFDPRTYTYPPAPEVVQTYRRAQGDCLSSRGYQVTY				NA	NA	NA	NA	NA
D1-35_04735	894	fieF	COG0053	Ferrous-iron efflux pump FieF	ATGACCACCAGCGCCGAACATGCTCGCCTGCTACGCCTGGCCACCCGCGCATCGGTGGCCGTGGCGTGCATTCTGATCGTTGCCAAGGCGCTGGCCTGGTGGCTCAGCGGCTCGGTAAGCATGCTTGCCGGCCTGACCGACTCGGCGCTGGACGGCGTCACCTCGTTGCTCAATCTGCTGGCGGTGCATTACGCCCTGCGACCGGCTGATGACGATCATCGCTACGGGCACGGCAAGGCTGAATCACTGGCCGGCATGGCCCAGGCACTCTTTATTGGCGGCAGCGCGGTGCTGATCGCATTGCAGGCATACGAACGACTCAAGCAGCCGCTGCCGGTCGAGGCGCCCTGGCTCAGCGTCGGCGTGATCGTGTTTTCCCTGGCACTGACCCTGGCGCTGCTGGCGTTGCAGCATCGGGTCGTGCGCGCCACCGGCTCCAACGCCGTGCGCGCCGACTCGCTGCACTACCGCTCGGACCTGTTGCTCAACGGTAGCATTCTGGTGGCCCTGGTCCTGGCCGGGTTCGGCTGGTACCAGCTCGACGCCTGGTTCGGCCTGGGCATCGCCGCGTACATCCTCTGGAGCGCAGTGCAGATTGCCCGGGAAAGTTTCGCCGTGCTGATGGATGAAGAACTGCCGCCAGACGTCAGCCAGCACATGCTCGAACTGGCCTGCGCGGTGCCCGGCGTGGTCGGCGCCCATGACCTGCGCACACGAATCTCCGGCAACCACTGGTTCGTGCAGTTGCACCTGGAACTGCCGGGAGAACTGACCCTGTCAGTGGCCCACGGCATCAGCGACCAGGCCGCCGATGCGATCCATCGCGCTTATCCGAAGGCCGAGGTGCTGGTGCATGCCGATCCGACAGAAGTGGTGAAGCGCGCCAACGCTTGA	MTTSAEHARLLRLATRASVAVACILIVAKALAWWLSGSVSMLAGLTDSALDGVTSLLNLLAVHYALRPADDDHRYGHGKAESLAGMAQALFIGGSAVLIALQAYERLKQPLPVEAPWLSVGVIVFSLALTLALLALQHRVVRATGSNAVRADSLHYRSDLLLNGSILVALVLAGFGWYQLDAWFGLGIAAYILWSAVQIARESFAVLMDEELPPDVSQHMLELACAVPGVVGAHDLRTRISGNHWFVQLHLELPGELTLSVAHGISDQAADAIHRAYPKAEVLVHADPTEVVKRANA	PGPT0003831_642	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK|IRON-TRANSPORT,PGPT0003831-fieF-K13283	NA	NA
D1-35_04736	420			hypothetical protein	ATGCGTATTCCCTTTCGCGTGATCGGCGGCGTGCTGGTCGCCAGCCTGCTGACCCAGATCAGCGCCTGTGGCTCGATCTTCTACCCCGACCGTCGCGGCCAGATCGAGGGCAAGATCGACCCGGCCATCGCCGCGCTCGACGCCGTCGGCCTGCTGTTCTACATCATCCCCGGCCTGATCGCCTTTGCCGTGGATTTTGCCACCGGCGCGATCTATTTCGAGCCGGGCAGAAGCGTGCAGATCGAACCGGAGAAACTCAAGCCGGCCATCAACGCCGACGGCACGGTCAATAACCAGAAGCTGCAAGCCATCCTGGAGCGCGAGCTGGGCCGCAGCTTCCCGCTGAACGACCCGCGCCTGATCCAGCACAAGGGCAACGTGCAACAACTGGCCACGCTCGGTCTCGTACCCGCCGCGTAA	MRIPFRVIGGVLVASLLTQISACGSIFYPDRRGQIEGKIDPAIAALDAVGLLFYIIPGLIAFAVDFATGAIYFEPGRSVQIEPEKLKPAINADGTVNNQKLQAILERELGRSFPLNDPRLIQHKGNVQQLATLGLVPAA				NA	NA	NA	NA	NA
D1-35_04737	2517	hrpB	COG1643	ATP-dependent RNA helicase HrpB	ATGATTTCTTTGCCGATTGATGAAGTTTTACCGGCCCTGCGCCAAGCCTTGGCGTCGCGCCACGAAGCGGTGCTCGAAGCGCCCCCCGGTGCTGGTAAGACGACCCGTGTTCCCTTGGCCCTCTTGAACGAGCCGTGGCTGGCCGGGCAGACCATTCTGATGCTCGAACCCCGGCGCCTGGCGGCACGGGCGGCGGCCGAGCGCCTGGCCAGCGAGCTGGGGGAAAAGGTCGGCGAAACCGTGGGCTACCGGATTCGCCTCGACAGCAAGGTCGGGCCGAAAACCCGCATCGAAGTGGTCACTGAAGGCATCCTCACCCGTCGCTTACAGGATGACCCGGCACTGGATGGCGTGGGGCTGTTGATTTTCGATGAATTCCACGAGCGCAGCCTCGACGCCGACCTTGCCTTGGCCTTGAGCCTCAATGGCCGTGAGCTGTTTCGCGAAGACCAACCGCTGAAAATCCTGCTGATGTCCGCGACCCTGGAAGGCGAACGCCTGGCCGGGTTGCTGGACGATGCGCCGATCCTGCGCAGCGAAGGACGCATGTTCCCGGTGGCGGTGCGCTGGGGCCGGCCATTCCAGCCCGGCGAATTCATCGAACCGCGACTGGTGCAGACCCTTCTCGAAGCGCTGCACGACGAAACCGGCAGCGTGCTGGTGTTCCTGCCGGGGCAGGCGGAGATTCGCCGCGTTCATCAACAATTGGCCGAAGCCTTGGGCGAGGGCGGCAACGTGTTGCTCTGTCCACTGCATGGCGAACTGGACCTGGCCGCCCAACGCGCCGCCATCGATCCGGCACCGCCCGGCCAGCGCAAAGTGGTGCTCGCCACCAACATCGCCGAGACCAGCCTGACCATCAACGGTGTGCGGGTGGTGGTCGATGCCGGGCTCGCCCGCGTACCGCGCTTCGACCCGGGCAGTGGCATGACCCGCCTCGACACCCAGCGTATCTCCCGCGCCAGCGCCACCCAACGGGCCGGCCGGGCCGGGCGACTGGAGCCGGGGGTGTGTTACCGGCTGTGGTCCGAAGACCAGCATGAACAGCTGGCGGCCTACGGCAGCGCCGAGATTCTCTCGGCGGACCTGGCCGGTCTGGCGTTGCAGTTGGGCCGCTGGGGCGTGACGCCGCAGCAGTTGACGTGGCTCGACGTCCCGCCGACCGCCGCGTATGCCCAGGCGCGGGATTTATTGCAGCGCCTGGGTGCGCTGGACGGTGGACAACTGACTCGGCACGGCCAGGCCATGGCCGAGCTGCCGGCCCATCCGCGCATCGCGCACTTGCTGCTGCGGGGCCAGGCGCTGGGGCTGGCGGACATGGCCTGCAATGTCGCGGCGCTGTTGGGCGAACGTGACATTCTTCGAGGCGCCGGCGCGGATTTGCACAGTCGCCTGGCGTTACTGTCCGGCGAGGAACGAGCGGCACGCGGCGCTCAGGGCGGTGTGCAGCGGGCGCGGCAATTGGCCCGGCAATATCGTGGCTACTTGCGCGGCAAGGCCGAGGAAGCTGTCGCCGATCCCGAGCATCCGCGTTGGCTCGGCGTGCTGTTGGCGCTGGCCTATCCGGATCGCGTCGCGCAACAGCGGCGACCCGGCGGCGCGGAATATCGCCTGGCGAATGGGCGCGCGGCGCTGTTTGCCGAGGCCGATAGCTTGATGAAGCAACCGTGGTTGGTGATTGCCGAACTGGGCAGTCGCCAAGGCCAGCGGGAAGAACGGATCTATCTGGCGACGGATTTCGATCCGGTGCTGTTCGATTCGGTGCTGGCAGAGCAAGTACGTACCGAAGACCAACTGGATTGGGACGAGCGCGAAGGCGTGCTGCGGGCCGAGCGCCAGCGCAAGGTCGGTGAACTGGTGCTCAGCCGCGAGCCATTGACCGGCCTGGATGAATCTGCCCGCAGCCGGGCGCTGGTCAACCTGGCACGGCGCAAGGGGTTGGAATTGTTGCCGTGGACGCCGGAGCTGCGTCAGTGGCAGGCGCGGGTGGCGCTGTTGCGTCGGCTCGACCTGGATACCAAGGGCGACAGCGAGTGGCCGGACGTCAGCGATGCGGCGTTGCTGCTCAGTCTTGAAGACTGGTTGATGCCATATCTGGGCCGGGTGTCGCGCCTTAGTCATTTTGCCAACCTGGACCTGTCGAGCATCGTCCGTAACCTGTTGCCCTGGCCTCTGCCGCAAAGGCTGGACGAACTCGCGCCGCAGCACGTGAGCGTGCCTTCCGGTTCATCGATTCGCCTGGATTACAGCGAACACCCACCTATTCTGGCGGTGCGCTTGCAGGAGCTTTTCGGCCTGGCCGACACCCCGCGTATCGCCGGTGGTCGGCAGGTGGTCAAGCTGCACCTGCTATCGCCCGCGCGCCGACCAGTGCAAGTGACCCAGGACCTGGCGAACTTCTGGCGTAGTACTTACGCCGAGGTGAAGAAGGATCTCAAGGGACGGTATCCCAAGCACTACTGGCCGGACGACCCGCTGGTGGCGGAGGCGACGGCGCGGGCCAAGCCGCGTAAGTGA	MISLPIDEVLPALRQALASRHEAVLEAPPGAGKTTRVPLALLNEPWLAGQTILMLEPRRLAARAAAERLASELGEKVGETVGYRIRLDSKVGPKTRIEVVTEGILTRRLQDDPALDGVGLLIFDEFHERSLDADLALALSLNGRELFREDQPLKILLMSATLEGERLAGLLDDAPILRSEGRMFPVAVRWGRPFQPGEFIEPRLVQTLLEALHDETGSVLVFLPGQAEIRRVHQQLAEALGEGGNVLLCPLHGELDLAAQRAAIDPAPPGQRKVVLATNIAETSLTINGVRVVVDAGLARVPRFDPGSGMTRLDTQRISRASATQRAGRAGRLEPGVCYRLWSEDQHEQLAAYGSAEILSADLAGLALQLGRWGVTPQQLTWLDVPPTAAYAQARDLLQRLGALDGGQLTRHGQAMAELPAHPRIAHLLLRGQALGLADMACNVAALLGERDILRGAGADLHSRLALLSGEERAARGAQGGVQRARQLARQYRGYLRGKAEEAVADPEHPRWLGVLLALAYPDRVAQQRRPGGAEYRLANGRAALFAEADSLMKQPWLVIAELGSRQGQREERIYLATDFDPVLFDSVLAEQVRTEDQLDWDEREGVLRAERQRKVGELVLSREPLTGLDESARSRALVNLARRKGLELLPWTPELRQWQARVALLRRLDLDTKGDSEWPDVSDAALLLSLEDWLMPYLGRVSRLSHFANLDLSSIVRNLLPWPLPQRLDELAPQHVSVPSGSSIRLDYSEHPPILAVRLQELFGLADTPRIAGGRQVVKLHLLSPARRPVQVTQDLANFWRSTYAEVKKDLKGRYPKHYWPDDPLVAEATARAKPRK				NA	NA	NA	NA	NA
D1-35_04738	1080			hypothetical protein	ATGACCCGTCTGCTGCGATACACCTTGCTGGGCCTGTTGTTGCTCGTCGGCATTGCGGCCTTTTCCATCTATGGCCCGACCTGGCGCCCACAGGCCCGGGAAGCGATGCCCGTCAGCTGCTCCGCGAAGGCCCCACCGCTGGTGCCCGGCCAAGCCCTGAAGGTGATGACCTGGAACGTCCAGTTCCTGGCTGGCAAGCGCTACGTGTTCTGGCACGACCTGGCCGAGGGCGACGATGAAAGCCCGACCCCGGAAGACATGGCCTTCAGCCTCGACGAAGTGGCACGGGTCATTCGCGACGAACAGCCGGACGTGGTGCTATTGCAGGAACTCGACAACGGCGCCAAGGCCAGCGACTACCAGAACCAGCTCAAGCTCTTGCAGGAACGGCTGGCCGACCTCTATCCCTGCGGCACCAGCGCTTTTGACTGGAAAGCCGATTTCATTCCCAGCCCACATATCTTCGGCAGCGTTGGTCGCCAGTTGGCGACGCTGAGCCGCTATCGCATCGACCACGCCGAGCGGGTGCAATTGCCCGTGGCCGAGGCGAACTTCATCACCCGCCAGTTCCAGCCGAAAAATGCCTTGCTTGTGAGTTACCTGCCCCTGAGCGGCGGCGGCCAACTGGCGGTACTCAATACACATCTGGAGCGGGCCACCCAGCCGGACGACACTGCGCGCGCGCAAGTCAGCGCGATAGCCAAGGCCTTGGACAAGCTTGAATCCGCCGGCACTCCCTGGCTGACCGGGGGAGACTTCAACCTGTTACCCCTGGGCCAATACCGACGCCTGCCCACCGAGCAACGCTCGCCCTACTCCGCCGACAGCGAATTGCATCTGCTGTGGGACAAATACCCGATGATCCCCACCAACAACGAGGCCAGCGGCATCGACCGCGCAAACTGGCTGACCCATTACCCCAACGATCCCGGCCTCAACGGCCCCGATCGGACCGTCGATTACCTGTTCTACAGCCCCCGCCTCAAACGGGTCGAAGCCCAGGTCCGGCAGGACGATACGTTGCGCATTTCCGATCATTTGCCGGTGATCGCGCGGTTTCTGTTGCCGGCCACCCCTTGA	MTRLLRYTLLGLLLLVGIAAFSIYGPTWRPQAREAMPVSCSAKAPPLVPGQALKVMTWNVQFLAGKRYVFWHDLAEGDDESPTPEDMAFSLDEVARVIRDEQPDVVLLQELDNGAKASDYQNQLKLLQERLADLYPCGTSAFDWKADFIPSPHIFGSVGRQLATLSRYRIDHAERVQLPVAEANFITRQFQPKNALLVSYLPLSGGGQLAVLNTHLERATQPDDTARAQVSAIAKALDKLESAGTPWLTGGDFNLLPLGQYRRLPTEQRSPYSADSELHLLWDKYPMIPTNNEASGIDRANWLTHYPNDPGLNGPDRTVDYLFYSPRLKRVEAQVRQDDTLRISDHLPVIARFLLPATP				NA	NA	NA	NA	NA
D1-35_04739	660			hypothetical protein	ATGAATCCGTTAGAAGTACTGCGTGACTCCTTGTATTTTTTCAAGCGCAACCTGGGCCGGATCGCCCAGCTGTGCCTGCCGCTGGTAATACTTGAGGCGGTCCTGCAACAAGGGGTGGACAGCGCCATCGGCGCCGACGGTTTCTCCGGCTACAGCGTGATCGTCGGTCTCCTCGTGTACCCGCTGTATACCGCGGCGTTGATCCTGTTTCTCGATGCCCGCAGTCGCGGCGAAGCCCCGCGTGCCCGTGACCTGCTCGCGGCAGCCCTCCTCCAGTGGCCGCGCTTCGCCTTGCTGACCGCCCTTAACACGTTGCTGATCCTGATCGGCATTTCCTTGTACTTCCTGCCGGGGCTGTGGCTGATGGTCGTCCTCGCCTTCGGTGAATACCTGTTGGTTTTGCGGGGCATGGCGCCCTTGGCGGCCATGAAGGAAAGCGCGCGCCTGAGTCGAGGCAATTTCTGGCGAATCCTGTTATGCATCCTCGCCGTAATGGTCCCGTTGTGGCTGCTCAAGGGCGCCAGCGTCTCGGTGTATCCGCCGCCGCAGAACCCCTTCATCAGTTTGCTGATCGACAGCGTTCACAGTTTCTTGCAACTGTTCACCACCGTGGTGCTGTTCCGAATGTTCATGTTGATTGCAGAAAAACCCGAGCCATGA	MNPLEVLRDSLYFFKRNLGRIAQLCLPLVILEAVLQQGVDSAIGADGFSGYSVIVGLLVYPLYTAALILFLDARSRGEAPRARDLLAAALLQWPRFALLTALNTLLILIGISLYFLPGLWLMVVLAFGEYLLVLRGMAPLAAMKESARLSRGNFWRILLCILAVMVPLWLLKGASVSVYPPPQNPFISLLIDSVHSFLQLFTTVVLFRMFMLIAEKPEP				NA	NA	NA	NA	NA
D1-35_04740	771			hypothetical protein	ATGAACAGCGAAGAACAAACCCTGATCGATGGACTGTTTTCCCGGCTGCAACAGGCCGAAAAGGATTCAGCCCCGCGCGACGCCCAGGCAGAGGCGCGGATCAAGGAACACTTGGCCAACCAGCCTGCCGCGGGCTATTTCATGGCCCAGGCGATCCTGGTGCAAGAGGCGGCGATCAAGCGCCTGGACGAGCAGAACAGACAGCTCGCCCAACAGGTCGAGCAATTGCAGGGCGAATTGCAGCAGGCCCGCAGCCAGACTTCGGCGCCAAGCGGCGGCGGTGGTTTCCTTTCGAGTATCTTCGGTGGCAGCAACCGCGATTCACGGCCAGCAAGCGCACCGGCATCCAGCGGTGGCGGCTGGCGCGAACCTGCGCGGCCTTCCTTCAACGCACCGGCCCAGCCAGGCTTTGGCGCTGCGCCCGGCAACTATGCCGCGCCGCAACAGCAGGCCCCAGCGGCGGGCAGCTTTCTCGGTGGCGCCTTGAAAACCGCGGCGGGCGTGGCCGGTGGTGTGATGCTCGCCCAGGGCATCAGTAGCCTGTTCCACAGCAATCAACCCGAGGAGATCGTCGAGGTCCTCAAGGAAGAGCCGGCCCAGCCGGTCAATGACACCGCCAACAACGGTGACAGCGGTTGGGGCGATGATCAGCGCGTGGCCGACAGCGATAGCGACGGCAACAATAGCTATGGCAACGACCAGGGCGGTTTCAGCGACGCCGACTACAGCGACGATTCGTCCTTGTTCGGCGACGACGACTCTTTCGTCTGA	MNSEEQTLIDGLFSRLQQAEKDSAPRDAQAEARIKEHLANQPAAGYFMAQAILVQEAAIKRLDEQNRQLAQQVEQLQGELQQARSQTSAPSGGGGFLSSIFGGSNRDSRPASAPASSGGGWREPARPSFNAPAQPGFGAAPGNYAAPQQQAPAAGSFLGGALKTAAGVAGGVMLAQGISSLFHSNQPEEIVEVLKEEPAQPVNDTANNGDSGWGDDQRVADSDSDGNNSYGNDQGGFSDADYSDDSSLFGDDDSFV				NA	NA	NA	NA	NA
D1-35_04741	480			hypothetical protein	GTGAAAAAAATCGCAGTGTTCGCCGATGTCCAGAACCTCTACTACACCGTGCGCCAAGCCTATGGCTGCCATTTCAACTACGCGGCGCTGTGGGCTGATGTGAGCAAGCAGGGGCAGATCGTCGAGGCCTATGCCTACGCGATCGATCGCGGTGACAGCAAGCAACAGCAGTTCCAGCAGATCCTGCGCAACCTGGGGTTCACCGTGAAACTCAAGCCCTATATCCAGCGCAGCGACGGCTCGGCCAAGGGCGACTGGGACGTGGGCATCACCCTGGACATCATGGACGCCGCCGACCATGTCGACGAGGTGGTCCTGGCCTCCGGTGATGGCGATTTCGACATGTTGCTCGAACGCATCATCAGCAAACACGGCGTGCAGGCTGTGGCCTATGGAGTACCTGGGCTGACCGCCAACTCGCTGATCCGCGCCGCCAGCCGCTACGTGCCGATCGAAGGCGCGTTGCTGCTCAAGAATTGA	MKKIAVFADVQNLYYTVRQAYGCHFNYAALWADVSKQGQIVEAYAYAIDRGDSKQQQFQQILRNLGFTVKLKPYIQRSDGSAKGDWDVGITLDIMDAADHVDEVVLASGDGDFDMLLERIISKHGVQAVAYGVPGLTANSLIRAASRYVPIEGALLLKN				NA	NA	NA	NA	NA
D1-35_04742	612	polC_2	COG2176	DNA polymerase III PolC-type	TTGGAACGCATCGCAGTCATCGACTTTGAAACCACCGGCATCACCCCGAGCAGCGGTTGCCGGGCCACCGAAATCGCCGTGGTGATCCTTGAGCAAGGCCGGATAGTCGACCGTTACCAGAGCCTGATGAACGCCGGCGTGCGCGTGCCGGCCTTCATCGAGCAACTGACCGGTATCAGCAATGCCATGCTGCGCAGCGCACCGCCAGCGGAAAAGGTCATGAACGAGGTCAACGAGTTCGTCGGCATCACGCCGCTGCTGGCTCACAATGCCGCGTTCGACCAGAAGTTCTGGGACTTCGAACTGGGACGAATCAAGCGCACCCGCCTGCAGAATTTTGCCTGTTCACTGCTGTTGGCCCGACGCCTGATGCCAGCGGCGCCGAACCACAAGCTCGGCACGCTCAACGCTTTCGCCGGCCTGCCCCACACCGGCCAGGCTCACCGGGCCATGGCCGACGCCGAAATGGCCGCCAACCTCACCGCGCACCTGGCCTCGGAGCTGCGGCAAAAGCATGGGTTGCGGGAGCTGTCCCATGATCTGCTGTGCAGCTTGCAGAAGGTGCCGGCAGCGAAGATCAACGAGCATCTCAAGCGCCATCGCGGGTTCTGA	MERIAVIDFETTGITPSSGCRATEIAVVILEQGRIVDRYQSLMNAGVRVPAFIEQLTGISNAMLRSAPPAEKVMNEVNEFVGITPLLAHNAAFDQKFWDFELGRIKRTRLQNFACSLLLARRLMPAAPNHKLGTLNAFAGLPHTGQAHRAMADAEMAANLTAHLASELRQKHGLRELSHDLLCSLQKVPAAKINEHLKRHRGF				NA	NA	NA	NA	NA
D1-35_04743	903	yedA		putative inner membrane transporter YedA	ATGCCTGGCCCACGCCGTTTTCCGTTGCCATTGATCGCTGCCTTCTTCGCCTTGTACGTCATCTGGGGATCGACCTATCTGGTGATTCGCATCGGCGTCGAGCATTGGCCGCCCTTGCTGCTGGCCGGGATTCGTTTTGTGATCGCCGGGTCGTTGATGTACGGCTTCTTGCGCTGGAAGGGCGCGCCGGCGCCGACCTGGGCGCAATGGAAGGCCGGGGCGCTCATTGGCGTGTTGCTGCTGACCTTCGGCAATGGTGCGGTGAGTATCGCCGAGCATACAGGCGTAGCTTCGGGCGTGGCGGCGCTGGCCGTGGCGACGGTGCCGTTGTTCACCTTGCTCTGCGGGTATTTCTGGGGTGCACGCAATACCCGTCTCGAGTGGGCGGGGATTGTGTTGGGGTTGATCGGCATTGCCATGCTCAACCTGGGTTCCAACCTGCAGTCGAGCCCGTTGGGGGCGGCTTTGCTGGTGTTCGCCGCCGCCTCGTGGGCCTTCGGTTCGGTGTTGAGTAAACATGTGCAACTACCCGCAGGCGCCATGGCCAGCGCCGTGGAGATGCTGGTGGCCGGCGTGGTGCTGTTGATCGGCAGCTTCGCCAGTGGCGAGCGCCTGGAAAGCATGCCGCCGCTGGAAGGCTGGTTCGCGCTGGTCTATCTGATCGGTTTCGGTTCGATCATCGCCTTCAACGCCTACATGTACTTGCTCAAGCATGTGCGTCCGGCCGCAGCCACCAGCTACGCCTATGTCAACCCGGCGGTAGCGGTGTTGCTGGGGATCGTCTTCGCCGGGGAAACCATCGGTATCGAAGAGGCCTTGGCGATGCTGGTGATTATCAGCGCCGTGGTCCTGATCGGGTTGCCGCAGTGGCGCAAGCCCAAGCCCCCACCGGCCGAATCATGA	MPGPRRFPLPLIAAFFALYVIWGSTYLVIRIGVEHWPPLLLAGIRFVIAGSLMYGFLRWKGAPAPTWAQWKAGALIGVLLLTFGNGAVSIAEHTGVASGVAALAVATVPLFTLLCGYFWGARNTRLEWAGIVLGLIGIAMLNLGSNLQSSPLGAALLVFAAASWAFGSVLSKHVQLPAGAMASAVEMLVAGVVLLIGSFASGERLESMPPLEGWFALVYLIGFGSIIAFNAYMYLLKHVRPAAATSYAYVNPAVAVLLGIVFAGETIGIEEALAMLVIISAVVLIGLPQWRKPKPPPAES				NA	NA	NA	NA	NA
D1-35_04744	1338	rhlE_3	COG0513	ATP-dependent RNA helicase RhlE	ATGACTTTCGCCACTCTTGGCCTGATCGAACCCCTGCTGCGCGCCCTCGAGACGCTCGGCTACCAGACGCCGACCCCGGTCCAGGCCCAAGCCATGCCGGCGGTGCTCGCCGGTCGCGACCTGATGGCAGCAGCCCAGACCGGCACCGGCAAGACCGCCGGTTTCGCCGTGCCGCTGTTGCAGTTGTTGACCACCGAAGGACCGAAAGTTGCCGCCAACTCGGTGCGCGCGCTGATCCTGGTACCGACCCGCGAGCTGGCCGAGCAGGTCCATGAAAGCGTGCGCCAGTACGCGCAGAACCTGCCGCTGAGCACCTACGCGGTGTACGGCGGTGTCAGCATCAACCCGCAAATGATGAAGCTGCGCAAAGGCGTCGATCTGTTGGTGGCCACGCCGGGCCGCTTGCTCGACCTGTTCCGCCAGAACGCGCTGAAGTTCAACCAGTTGCAGACCCTGGTGCTGGACGAGGCCGACCGCATGCTCGACCTGGGCTTCTCCGAAGAACTGGCGAACATCTACAAGGCCCTGCCGAAGAAGCGCCAGACCTTGCTGTTCTCGGCGACCTTCTCCGATGCGATCCGCCTGCTGGCCGGGCAGATGCTCAACGACCCGCTGAGCATCGAAGTGAGCCCGCGCAACGTGGCCGCCAACACCGTCAAGCAATGGGTGGTGACGGTGGACAAGAAGCGCAAGCCGGAACTGTTCATCCACCTGATGCGCAAGCACAAGTGGAAGCAGGTGCTGGTATTTGCCAAGACCCGCAACGGCGTCGATGCACTGGTGGAAAAACTCCAGGGCCTGGGCGTCAACGCCGATGGCATCCACGGCGACAAACCCCAGGCGACCCGCCAGCGTGCGCTGGATCGTTTCAAGGCCAGCGAAGTGCAGATCCTGGTGGCCACCGACGTCGCGGCCCGTGGCTTGGACATCGAGGACTTGCCGCTGGTGGTGAACTTCGATTTGCCGATCGTCGCCGAGGACTACATCCACCGTATCGGTCGTACGGGCCGTGCGGGTGCCACCGGGCAGGCGATTTCCCTGGTCTGCGCCGATGAAGTGAATCTGCTGTCGGCCATCGAAACCCTGACCCGCCAGGCATTGCCCCGGCAGATGGAACATGATTTCGAACCTGAGCATCGCGTGCCGGAAACCGATGCCAGCGGCCAGGTGATCAAGAAACCGAAAAAACCAAAAAAGCCGAAAGCTTCCGGTGGTGGCGGCAAGCGCAACCTTGGCAAGTGGGTGGACAGTGGCGACTCGGGGCCGGTGGAGCCTTCGGTGAAACCTGTGCGAAAAGTGCCGGTGTTCAATACCGGACCGCGCAAGCGTAAGCCTTGA	MTFATLGLIEPLLRALETLGYQTPTPVQAQAMPAVLAGRDLMAAAQTGTGKTAGFAVPLLQLLTTEGPKVAANSVRALILVPTRELAEQVHESVRQYAQNLPLSTYAVYGGVSINPQMMKLRKGVDLLVATPGRLLDLFRQNALKFNQLQTLVLDEADRMLDLGFSEELANIYKALPKKRQTLLFSATFSDAIRLLAGQMLNDPLSIEVSPRNVAANTVKQWVVTVDKKRKPELFIHLMRKHKWKQVLVFAKTRNGVDALVEKLQGLGVNADGIHGDKPQATRQRALDRFKASEVQILVATDVAARGLDIEDLPLVVNFDLPIVAEDYIHRIGRTGRAGATGQAISLVCADEVNLLSAIETLTRQALPRQMEHDFEPEHRVPETDASGQVIKKPKKPKKPKASGGGGKRNLGKWVDSGDSGPVEPSVKPVRKVPVFNTGPRKRKP	PGPT0013740_2558	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
D1-35_04745	1242	baiN	COG2081	3-dehydro-bile acid delta(4,6)-reductase	ATGACCTCGACCACCAAGCCTTCCACCCCAAACATCGCCATTATCGGCGGCGGCCCGGCCGGCCTAATGGCGGCCGAGGTGTTGAGCAAGGCCGGCTTCCAGGTCGACCTGTACGACGGCATGCCATCGGTGGGCAGGAAATTTCTGCTGGCCGGTGTCGGCGGCATGAATATCACTCACTCGGAAGCTTTCCCGGCGTTCCTCTCCCGCTACGGCGAACGCGCGCCGAATATCGCCCCGCTGCTGCGGGCATTCGGCGCCGATGAGTTGTGCGAATGGATTCATGGCCTGGGCATCGACACCTTTGTCGGCAGCTCCGGGCGGGTATTTCCTACCGATATGAAGGCCGCCCCGCTGCTGCGCGCCTGGCTCAAGCGCCTGCGCGATGCCGGCGTGGTGATTCATACGCGCCACCGCTGGCTTGGCTGGAATGCCGACGGCAGCCTGCGCATTGCCAGCCCGGACGGGGAAAAGGCCCTACAGCCCGACGCGACCTTATTGGCGCTGGGAGGCGGCAGTTGGTCACGCCTGGGCTCCGACGGTGCCTGGATGTTGCCGCTGGAACAGCGCGGCGTGGTCCTCGCGCCCTTGCAGCCAAGCAACTGCGGGTTCGATGTGCCGGGCTGGAGCGATCTGCTGATCGCCAAATTTGCCGGCACCCCACTGAAGAACATTGCCATCGGCCTCGACGATGACGTGCCACGCCTCGGCGAATGCGTCATCACCGTCACCGGCATCGAGGGCAGCCTGATCTATGCGCTGTCGGCGCGGATTCGTGAGGCTATCAACCAACACGGCAGCGCGACCATTCATCTGGACCTGCTGCCGGGCCGGCCTGTGGACAAGATTCTCCTGGCATTAAGCAAGCCTCGCGGTTCTCGCTCGATGGCTAAGCATCTGCACAGCCAGTTGGGGCTCGACGGGGTGAAGGCGGCGTTGTTACGGGAACTGACTTCAGCCGATTGTTTTGCCGACATGGCGCGGCTGGCCCAGGCGATCAAGGCGTTGCCGGTCACGCTGGTGAAAACCCGTCCGCTGGACGAAGCCATCAGCAGTGCCGGCGGCGTGACCTTCGAGGCACTCGATGAGCGACTGATGCTCAAGCAAATGCCCGGCGTTTTCTGCGCGGGAGAGATGCTCGATTGGGAAGCGCCGACCGGCGGGTACTTGCTTACGGCATGCTTTGCCAGCGGTCGTGCGGCGGGGTTGGGGATGGTGGAGTGGCTGCAGCGCCAGGCTTGA	MTSTTKPSTPNIAIIGGGPAGLMAAEVLSKAGFQVDLYDGMPSVGRKFLLAGVGGMNITHSEAFPAFLSRYGERAPNIAPLLRAFGADELCEWIHGLGIDTFVGSSGRVFPTDMKAAPLLRAWLKRLRDAGVVIHTRHRWLGWNADGSLRIASPDGEKALQPDATLLALGGGSWSRLGSDGAWMLPLEQRGVVLAPLQPSNCGFDVPGWSDLLIAKFAGTPLKNIAIGLDDDVPRLGECVITVTGIEGSLIYALSARIREAINQHGSATIHLDLLPGRPVDKILLALSKPRGSRSMAKHLHSQLGLDGVKAALLRELTSADCFADMARLAQAIKALPVTLVKTRPLDEAISSAGGVTFEALDERLMLKQMPGVFCAGEMLDWEAPTGGYLLTACFASGRAAGLGMVEWLQRQA				NA	NA	NA	NA	NA
D1-35_04746	921			hypothetical protein	ATGCCGCTACCGCTGATCTACCACGAAGACTACAGCCCCGAATTCCCTGCGGAGCACCGTTTCCCCATGGACAAGTTCCGCCTGCTGCGCGATCACCTGGTGGACAGCGGCCTGGCCCGGGACGCGGACCTGCTGCGTCCGGCCCTATGCCCGCCGGACATCCTCGCCTTGGCCCATGATCGCGCCTATATCGAACGCTACATGGGCGGCGAGTTGTCCCGCGAAGACCAACGGCGCCTCGGCCTGCCCTGGAGCGAAGCCTTGGCTCGCCGAACGGTACGCGCCGTCGGCGGATCACTGCTGGCCGCCGAGCAGGCCCTCGAACACGGGCTGGCCTGTCACCTGGCCGGCGGTACCCACCACGCCCACTACGACCACCCGGCCGGATTTTGCATCTTCAATGACCTGGCGGTGATCAGCCGCTATTTCCTCGCCAGCGGTCAGGTCTCGCGAGTGCTGATTTTCGACTGCGACGTGCACCAGGGCGACGGTACGGCTCGAATACTCCATGACACTCCCGACGCCGTGACAGTTTCCTTGCACTGCGAAAAGAATTTTCCTGCACGCAAGGCGCAAAGCGACTGGGATATTCCCCTACCGATGGGCATGGAGGACGCCGCCTACCTGAAAGTCGTCGATGACGCGCTCAATTACCTGCTGCCGCTCTATCAGCCCGATCTGGTGCTCTATGACGCCGGCGTCGATGTGCACAAGGACGATGCCCTCGGTTACCTGAAGCTGACCGACGAAGGCCTCGCCGCCCGGGACGAGAGCGTCATGCGCCATTGCCTGGGCCGGGACATTCCGGTGGTCGGCGTGATCGGCGGCGGCTACAGCAAGGACCGCAAGGCCCTGGCCCGCCGGCACGGAATCCTGCACCACAGCGCACAGAAGGTCTGGACGTCATCAGGTTGTCATTGA	MPLPLIYHEDYSPEFPAEHRFPMDKFRLLRDHLVDSGLARDADLLRPALCPPDILALAHDRAYIERYMGGELSREDQRRLGLPWSEALARRTVRAVGGSLLAAEQALEHGLACHLAGGTHHAHYDHPAGFCIFNDLAVISRYFLASGQVSRVLIFDCDVHQGDGTARILHDTPDAVTVSLHCEKNFPARKAQSDWDIPLPMGMEDAAYLKVVDDALNYLLPLYQPDLVLYDAGVDVHKDDALGYLKLTDEGLAARDESVMRHCLGRDIPVVGVIGGGYSKDRKALARRHGILHHSAQKVWTSSGCH				NA	NA	NA	NA	NA
D1-35_04747	570		COG1670	Acetyltransferase	ATGGAGCCGATACTGGAAGTGGAAAGCGCACGGCTGATTCTGCGGCAGTGGCGCGATGAAGATCTGCCGGCGTTTGCGGCGATGTCTGCCGATCCGCAAGTGATGCGTTATTTTCCGGCCCCCCTGAGTCGTCTGGAAAGCGCTGCGTTGATCGGCCGGGTGCGCGGGCATTTTGCCGAGCATGGTTTTGGTTTGTGGGCATTGGAGCGCAAGGACACCGGTGCCTTCATCGGTTTTACCGGGCTGGGCGTGGTCGGGTTCGATGCGCATTTCACCCCGGCGGTGGAAATCGGCTGGCGCCTGGCGCGCGAACACTGGGGGCTGGGGTATGCCAGCGAAGCCGCGTGGACCGCGTTGCGTTGCGCCTTCGACCGCCTGGGCCTGGATGAAGTGGTGGCGTTTACCGCTGTGGATAACTTGCCTTCGCAGAAGGTCATGCAGGCCATCGGCATGCAGCACGATCCGGACGATGATTTCGAACACCCAAAGCTCGCGGTCGGTCATCCATTGCGTCACCATGTGCTCTATCGCATCAATCGTGAGCAATGGTTGCAGACCCTTCACGGTTAA	MEPILEVESARLILRQWRDEDLPAFAAMSADPQVMRYFPAPLSRLESAALIGRVRGHFAEHGFGLWALERKDTGAFIGFTGLGVVGFDAHFTPAVEIGWRLAREHWGLGYASEAAWTALRCAFDRLGLDEVVAFTAVDNLPSQKVMQAIGMQHDPDDDFEHPKLAVGHPLRHHVLYRINREQWLQTLHG	PGPT0012895_7	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012895-aroDE-K13832	NA	NA
D1-35_04748	870	tesB_2	COG1946	Acyl-CoA thioesterase 2	ATGAGCCACGTGTTGGAAGATCTGGTCGACCTGCTGACCCTGGAACCGATCGAAGAGAACCTGTTTCGCGGTCGCAGCCAGGACCTGGGCTTTCGCCAGCTGTTCGGCGGCCAGGTGCTGGGCCAGTCGCTGTCGGCGGCCAGCCAGACCGTGGAAGAGGCGCGCCATGTGCATTCGATGCATGGCTACTTCCTGCGTCCGGGCGATGCGGCGTTGCCGGTGGTCTACCAGGTGGATCGCGTGCGTGATGGCGGCAGCTTCAGCACCCGACGGGTCACGGCGATCCAGAAGGGCAACCCGATCTTCACCTGCAGCGCGTCGTTCCAGTACGACGAACAGGGCTTCGAGCACCAGAGCACCATGCCGCAGGTCGTCGGGCCGGAAAACCTGCCCTCGGAGCTGGAACTGACCCAGCAGCGCGCGCACCTGTTGCCTGAGCACATGCGCGAAAAACTGCTGTGCCCCAAGCCGATCGAGGTGCGCCCGGTCACCGAAAAGGACCCGTACAACCCGCAACCGGCCGATCCGGTCAAGTACGTGTGGTTTCGTGCCGATGGCGCCTTGGCTGACTCCCCGGCCCTGCATAAATACCTGCTGGCCTACGCGTCGGATTTCGGCCTGCTGACCACCTCGTTGCTGCCTCATGGCAAATCGGTCTGGCACAAGGACATGCAGGTCGCCAGCCTCGACCACGCGTTGTGGTTCCATGCCGACCTGCGCGCCGATGACTGGTTGCTCTACGCCATGGACAGCCCCTGGGCCGGCAATTCCCGTGGTTTCTCCCGTGGCAGTGTGTTCAATCGCGCCGGGCAACTGGTGGCCTCGGTGACCCAGGAAGGCCTGATTCGCCATCGCAAGGACTGGGCATGA	MSHVLEDLVDLLTLEPIEENLFRGRSQDLGFRQLFGGQVLGQSLSAASQTVEEARHVHSMHGYFLRPGDAALPVVYQVDRVRDGGSFSTRRVTAIQKGNPIFTCSASFQYDEQGFEHQSTMPQVVGPENLPSELELTQQRAHLLPEHMREKLLCPKPIEVRPVTEKDPYNPQPADPVKYVWFRADGALADSPALHKYLLAYASDFGLLTTSLLPHGKSVWHKDMQVASLDHALWFHADLRADDWLLYAMDSPWAGNSRGFSRGSVFNRAGQLVASVTQEGLIRHRKDWA	PGPT0001835_1246	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001835-tesB-K10805	NA	NA
D1-35_04749	594	mupP_2	COG0546	N-acetylmuramic acid 6-phosphate phosphatase	ATGAGCCTGGCCGATGTGCGGCACTGGGTGTTCGACATGGACGGCACGCTGACCGTCGCCGTGCACGATTTCGCCGCGATCCGCGTGGCCCTGGCGATTCCGGCCGAAGACGACATCCTCACGCATCTGGCGGGATTGCCCGCTGAAGAAGCCGCGGCCAAACATGCCTGGTTGCTGGAACACGAGCGGGACCTGGCGCTGGGCTCCAGGCCCGCGCCGGGGGCGGTGGAGCTGGTCCGCGAGTTGGCCGGGCGTGGTTATCGCCTGGGCATCCTGACGCGCAATGCCCGCGAGCTCGCCCACGTGACGCTTGACGCGATCGGCCTGGCCGATTGTTTTGCCGTGGAGGACGTTCTCGGCCGTGATGAAGCGCCGCCCAAACCTCATCCCGGTGGCCTGTTGAAACTGGCCGAGGCCTGGAACGTGGCGCCCGAGACCATGGTGATGGTGGGCGACTACCGCTTTGACCTCGACTGCGGCCGCGCGGCGGGCGCGCGGACGGTGCTGGTGAATCTGCCGGACAATCCCTGGCCTGAGTTGACGGACTGGCATGCGCGTGATTGCGCCGAGTTGCGGCGGATGCTTTCGGCTTGA	MSLADVRHWVFDMDGTLTVAVHDFAAIRVALAIPAEDDILTHLAGLPAEEAAAKHAWLLEHERDLALGSRPAPGAVELVRELAGRGYRLGILTRNARELAHVTLDAIGLADCFAVEDVLGRDEAPPKPHPGGLLKLAEAWNVAPETMVMVGDYRFDLDCGRAAGARTVLVNLPDNPWPELTDWHARDCAELRRMLSA				NA	NA	NA	NA	NA
D1-35_04750	948			hypothetical protein	ATGAAGTGGCGGGCATTGATCGGGCTGGTGCTGTGCTGCGCCGTAGCCCAGGCCGAGGAACACGGCGTCAAGGTGATCGCCGAGGGACGCTTGCAGATCAGGGGCGGCGCCATGGCCGTCGGTGTCAGCCCGCCACCGGCCTCGATCGAGCGGGTGCTGATCATCCTCCATGGTCGGCTACGCAATGCCGATACTTACTTGCACAGCGCTGAAAAAGCCGCGGCACAGGCCGGTCAGTCGGCGACGACGTTGATCATTGCCCCACAATTTCTCAACGAACATGACGTAGCGCGCCATCAGTTGCCTGCCGAAATCCTGCGCTGGCAGGGCAACGACTGGATGGCGGGAGGCCTGTCCACGGGACCGAAACCGCTCAGTTCATTCCAGGTGCTGGACGACATCGTTGCGCGGGTCAGCGACCGCCAGCAGTTTCCCGCAGTGAAAGACATCATCATCGCCGGCCACTCCGGCGGCGCCCAAGTGGTGCAGCGCTATGCCCTGCTTGCCCATGGTACTTATCGCATCAGCCCACGGTTCGTGATCGCCAACCCTTCGTCCTATGTCTACCTGGACGCACAGCGGCCCATGGCGTTCGACCCGGTCAGTTGCCCAGGCTTCAATCGCTGGAAATACGGCCTGGAAAACCTGCCCGCCTACGCTACAGGGCAAACGCCCGCCCAGCTCGAGGATCGCTACATCAGGCGCGACATCGTCTATCTGCTGGGGCAACAGGACATCGACCCGGAACATCCGGCGCTGGATAAAGGTTGTGAAGCGCAGACACAAGGGGCGTATCGGCTGCTACGGGGGCATTTCTTCTTTGACTACCTGACCCGGCGTCACCCGCAAGGGTTGAATCAGCGACTGATTGAAGTGCCCGGGGTTGGGCATGATGGGGATGGGATGTTCAATTCGCCGGAGGGGTTGAAGGTGTTGTTTGGGCAGTGA	MKWRALIGLVLCCAVAQAEEHGVKVIAEGRLQIRGGAMAVGVSPPPASIERVLIILHGRLRNADTYLHSAEKAAAQAGQSATTLIIAPQFLNEHDVARHQLPAEILRWQGNDWMAGGLSTGPKPLSSFQVLDDIVARVSDRQQFPAVKDIIIAGHSGGAQVVQRYALLAHGTYRISPRFVIANPSSYVYLDAQRPMAFDPVSCPGFNRWKYGLENLPAYATGQTPAQLEDRYIRRDIVYLLGQQDIDPEHPALDKGCEAQTQGAYRLLRGHFFFDYLTRRHPQGLNQRLIEVPGVGHDGDGMFNSPEGLKVLFGQ				NA	NA	NA	NA	NA
D1-35_04751	888		COG2321	putative protein	ATGCTATGGAAAAAAGGTCGCCGCAGTGACAACGTGGTGGACGCCCGCGGTGACGGTGGGGGCGGCGGCGGGATGCGTTTTGGTGGCGGCAAGGGCTTGAGCCTGACGGCCATTATCCTGATCGTCGGCATCGGCTGGATCACCGGCCAGGACCCCATGCAGATTCTCGGGCAACTGACCGGGCAGATGGACCAGGCTTCCGCGCCCGCCTCTTCGCAAACGCGCCAGGCACCACCGGCCAACGACGAACAGGCTGAATTCGTGCGCTCCATCCTGGGCGATACCGAAGACACCTGGGGCCAGGTTTTCCAACAGGCCGGGCGCCAGTACCAGCAACCGAAGCTGGTGCTGTTCAGCGGTCGGGTCAACTCGGCGTGCGGCCTGGCTTCCTCGGCGACCGGCCCCTTCTACTGTCCGGCGGACCGGCAGGTTTACCTGGACATGAGTTTCTTCAAGGAAATGTCCCAGCGCTTTTCCGCCGCCGGAGACTTTGCCCAAGCCTACGTCATCGCCCATGAAGTGGGCCACCACGTGCAGACGCTGCTCGGCGTGTCGGCGAAAATCCAGGAAGCGCGCCAGCAAGGCCGGCAAATGGAAGGCGACGGTGGTTTGCTGGTGCGTCAGGAATTGCAGGCCGACTGCCTGGCGGGCGTCTGGGCCAACCACGCGCAAAAACGCCTGAACTGGCTTGAACCGGGCGATATCGAAGAGGCCTTGACCGCCGCCAATGCCATTGGCGACGATCGCCTGCAGCAACAAGGCCAGGGCCGCGTGGTGCCGGACTCGTTTACTCACGGCACCTCGGCACAACGGGTGCGCTGGTTCAAGACCGGTTTTTCTCAAGGCCAGGTCAGCCAGTGCGACACCTTCGCGGCGAAAACCCTGTAG	MLWKKGRRSDNVVDARGDGGGGGGMRFGGGKGLSLTAIILIVGIGWITGQDPMQILGQLTGQMDQASAPASSQTRQAPPANDEQAEFVRSILGDTEDTWGQVFQQAGRQYQQPKLVLFSGRVNSACGLASSATGPFYCPADRQVYLDMSFFKEMSQRFSAAGDFAQAYVIAHEVGHHVQTLLGVSAKIQEARQQGRQMEGDGGLLVRQELQADCLAGVWANHAQKRLNWLEPGDIEEALTAANAIGDDRLQQQGQGRVVPDSFTHGTSAQRVRWFKTGFSQGQVSQCDTFAAKTL				NA	NA	NA	NA	NA
D1-35_04752	879	ribN		Riboflavin transporter	ATGACCGTCAGCACTCCGCTCTCCGGCGTCAACCAGGCTTTCAAGGGCATCGTGCTTATTCTGGTCGCAACGTTCCTGTTCTCCAGTCACGACGCATTGTCCAAATATCTCTCGGGTTTTTATCCGATCATCATGGTGGTCTGGGCCCGTTACGTGGTGCACACGTTGTTGATGGCGGGCATTTTCCTGCCGCGCTCGGGGCTGCGGGTGCTGCGGACCAAGCGTCCGTTGTGGCAACTGGCCCGGGCGTTGTGCCTGTTGGGCACCAGTCTGTTTTTCACCACGGCGCTGATGTACATCCCCTTGGCCGAGGCGACCGCGGTCAACTTCCTCGCCCCCGTGCTGGTCACCGCGCTGTCAGTGCCGTTGCTGGGCGAACACGTGACGCGCGGTCAGTGGATCGCGGTGATCTTCGGTTTCATCGGGGTGCTGATCATCGTTCACCCCGGTGGTGATCTGTTCACGCCGGCGGTGCTGTTGCCGTTCTGTTCGGCGCTGTTTTTCTGCTTCTACCAATTGCTCACGCGCAAGCTCAGCGAGATCGACAGCCCGACCACCAGCAACTTTTTCGCAGGACTTTGCAATACCCTGGTGATGAGCGCGCTGGTGCCGTTTTTTTGGCAAGTGCCCAGCGTGACCCACGGCTTGATGATGCTCGCATTGGGTGCCTGCGGGATGACCGCGCACCTGATGCTGACCCAGGCCTTCCGCTTCGCCGCCCCGGCGTTGCTGGCGCCATTCGGGTATTGCCAGATTATTTTCGCCGGGCTGCTCGGCTGGCTGTTGTTCAGCCATACGCCGACGCTGACCACGGTAGTGGGTATCGTCCTGATCTGCTTGAGTGGATTGGCAGCGGCGTGGCAGCAGCGGCGCAAGTAA	MTVSTPLSGVNQAFKGIVLILVATFLFSSHDALSKYLSGFYPIIMVVWARYVVHTLLMAGIFLPRSGLRVLRTKRPLWQLARALCLLGTSLFFTTALMYIPLAEATAVNFLAPVLVTALSVPLLGEHVTRGQWIAVIFGFIGVLIIVHPGGDLFTPAVLLPFCSALFFCFYQLLTRKLSEIDSPTTSNFFAGLCNTLVMSALVPFFWQVPSVTHGLMMLALGACGMTAHLMLTQAFRFAAPALLAPFGYCQIIFAGLLGWLLFSHTPTLTTVVGIVLICLSGLAAAWQQRRK	PGPT0023680_142	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023680-sam-K15270	NA	NA
D1-35_04753	1338	exuT_2		Hexuronate transporter	ATGATTCCTTCCCAGAGTTCCCGCCTGGCCCCCGGCCTGAGTGCCGCCCAAGACGGCATCGGCGACAAGATCCGTGGCGCCATGGCCGTGGGCAAGACCCGTTGGGGCATGCTTGCCCTGGTGTTTTTCGCCACCACCCTGAACTACATCGACCGCGCCGCCCTTGGGGTCATGCAGCCGATCCTGGCCAAGGAGATGAGCTGGACGGCGATGGACTACGCCAATATCAACTTCTGGTTCCAGGTCGGTTATGCGGTCGGCTTCCTGCTGCAAGGTCGCCTGATCGACCGGATCGGCGTCAAGCGCGTGTTCTTCTGCGCCGTGCTGCTCTGGAGCCTGGCAACCGGCGCCCATGGCCTGGCCACTTCGGCGGTGGGCTTCATGGTCTGCCGCTTCATCCTCGGCCTGACCGAAGCCGCCAATTACCCGGCCTGCGTCAAGACCACGCGGCTGTGGTTCCCGGCCGGCGAACGGGCCGTGGCCACCGGCATCTTCAATGCCGGCACCAACGTTGGCGCGATGTTCACGCCGATGCTGCTGCCGCTGATCCTGCACGTGTGGGGCTGGCAGGCCGCGTTCCTGTGCATGGCCGCGCTGGGCGGGATCTGGTTGCTGTTCTGGGGCCTGAAATATTTCAACCCGGAAGATCACCCCAGCGTCAAACAGTCGGAACTGGACTACATCCAGGCCCAGGAAGAACCGGACCAGGTCCGCGTACCGTTCTCCCGTATCCTGCGCATGCGCGGCACCTGGGCCTTCGCCCTGGCCTACTCGATTACCGCGCCGGTGTTCTGGTTCTACCTCTACTGGCTGCCGCCGTTTCTCAACCAGCAATACAACCTGGGCATCAACGTGACCCAGATGGGCATCCCGCTGATCATCATCTACCTGACCGCCGACTTCGGCAGCGTCGGCGGCGGGATCCTGTCCTCGTTCCTGATCGGTCGCGGGGTCAACCCGATCAAGGCGCGACTGGTCTCCATGCTGCTGTTCGCCTGCTGCATCGTTGGGGTGATCATGGCCGCCGGCTCCAGCAGCCTGTGGGTGGCGGTGTTTGCCATCTCCCTGGCCATCGGCGCGCACCAGGCCTGGACGGCAAATATCTGGAGCCTGGTGATGGATTACACGCCCAAGCACATGATGAGCACGGTGTTCGGCTTCGGCGGCATGTGCGCCGCCGTCGGCGGGATGTTCATGACCCAGTTGGTGGGGCACATCCTGACCGTCACCAATAACAACTACACGGTGCTGTTCACCCTGATTCCGGCGATGTATTTCATTGCGCTGATCTGGATGTACTTCATGGCGCCGCGCAAGGTTCCGACCCTGGAAAACTGA	MIPSQSSRLAPGLSAAQDGIGDKIRGAMAVGKTRWGMLALVFFATTLNYIDRAALGVMQPILAKEMSWTAMDYANINFWFQVGYAVGFLLQGRLIDRIGVKRVFFCAVLLWSLATGAHGLATSAVGFMVCRFILGLTEAANYPACVKTTRLWFPAGERAVATGIFNAGTNVGAMFTPMLLPLILHVWGWQAAFLCMAALGGIWLLFWGLKYFNPEDHPSVKQSELDYIQAQEEPDQVRVPFSRILRMRGTWAFALAYSITAPVFWFYLYWLPPFLNQQYNLGINVTQMGIPLIIIYLTADFGSVGGGILSSFLIGRGVNPIKARLVSMLLFACCIVGVIMAAGSSSLWVAVFAISLAIGAHQAWTANIWSLVMDYTPKHMMSTVFGFGGMCAAVGGMFMTQLVGHILTVTNNNYTVLFTLIPAMYFIALIWMYFMAPRKVPTLEN	PGPT0017205_297	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_HEXURONATE_TRANSPORT,PGPT0017205-exuT-K08191	NA	NA
D1-35_04754	1899			hypothetical protein	ATGCAGCGTTCCATTGCCACTGTTTCCTTGAGCGGTACCCTGCCGGAAAAACTCGAAGCGATTGCCGCCGCTGGTTTCGACGGCGTGGAAATTTTCGAGAACGACCTCCTGTATTACGACGGCAGCCCTCGGGAAATCAGGCAAATGTGCGCCGACCTGGGTATCGCCATCACTTTGTTCCAGCCATTTCGGGATTTCGAAGGCTGCCGCCGGGATCGTCTGGCGCGCAACCTTGACCGCGCCGAGCGCAAATTCGACCTGATGCAAGAGCTGGGCACCGATCTGGTGCTGGTGTGCAGCAATGCCTCGGCCGACAGCGTCGGCGACGAGCAGGTCCTGATTGATGACCTCAGGCTGCTGGCCGAGCGCGCCGGTGCGCGGGGCCTGCGCATCGGCTATGAGGCGTTGGCCTGGGGCCGCCACGTGAATACTTATCAACAGGTCTGGAACATCGTGCGCCAGGCCGATCACCCCAGCTTGGGCGTGCTGCTCGACAGCTTCCACACCTTGTCCCTCAAGGGCGACCCGAGCGCCATCGCCGAGATTCCCGGGGACAAGATTTTTTTCGTGCAGATGGCCGACGCACCGATCCTGGCGATGGACGTCCTGGAGTGGAGCCGGCATTTCCGCTGTTTCCCGGGCCAGGGCGAATTCGACCTGCCGGGTTTCCTCGCGCCGATCATCCAGAGCGGTTACACCGGGCCGCTGTCGCTGGAGATCTTCAACGACGGGTTTCGCGCCGCGCCGCCCAGGGCCAACGCCGCCGACGGTTTGCGTTCGCTGCTGTACCTGGAAGAGAAAACCCGTGAGCGCCTGGCCGCGCAAGCGCCTGCGCAGAACAGCGATATCCTCTTCGCGACAGCGCCGGCCAGCGAATACAACGGCGTTGAATTCCTGGAGTTCGCCGTGGATGACAACCTCGGCGCCAAGCTCTCCCACTGGCTGGAGCGGCTGGGGTTCGTCAAGGCCGGCCAGCATCGCTCCAAGAACGTCAGCCTGTTGCGCCAGGGCGATATCAACCTGATCCTCAATTGCGAGCCGTATTCCTTCGCCCACAGCTTTTTTGAAGCCCATGGCCCATCGTTGTGCGCCACCGCCGTGCGGGTCAAGGACAGCGCCAGCGCTCTCAAGCGGGCGGTGGCCTACAAGGGCCAGCCTTATCGTGGCCTGGTCGGGCCCAACGAGCTGGAGCTGGCGGCGGTGCGAGCGCCGGACGGCAGCCTGATCTACCTGGTGGACCAGGACGCCGATGTCTATGGCACCGATTTCAACTTGCAACCCGGTGCGGTCATCGGCGCCGGGCTCAAGCGCATCGACCACATGGCGATGGCGCTGCCGGCCGACAGCCTCGACAGTTGGGTGCTGTTCTACAAGAGCCTGCTGGATTTCGAAGCTGACGATGAAGTGGTGTTGCCCGACCCCTATGGCCTGGTGAAAAGCCGTGCGTTGCGCAGCCGTTGCAGTTCGATTCGTTTGCCGCTGAACATTTCCGAGAACCGCAACACCGCGATCTCACATGCACTGTCGAGTTATCGCGGTTCCGGCGTGCACCATATCGCCTTTGACTGCGACGATATCTTCGCCCAGGTCAGCCGTGCCAAGGAGGCCGGGGTGCCGTTGCTGGACATTCCGCTCAACTACTACGATGACCTGGCGGCACGTTTCGATTTCGATGATGAGTTTCTCAGCGAGCTGGCCTATTTCAACGTGTTGTACGACCGTGACGCTCAGGGCGGCGAGTTGTTTCACGTCTATACCGAACCGTTCGAAGGGCGCTTTTTCTTCGAAATCATCCAGCGCAAGAACGGTTATGCCGGCTACGGCGCGGCCAACGTCGCGGTGCGGCTGGCGGCCATGGCCAAGTCTCGTAGCGGTGGCTTGCGGCACGCCAAGTTGTAG	MQRSIATVSLSGTLPEKLEAIAAAGFDGVEIFENDLLYYDGSPREIRQMCADLGIAITLFQPFRDFEGCRRDRLARNLDRAERKFDLMQELGTDLVLVCSNASADSVGDEQVLIDDLRLLAERAGARGLRIGYEALAWGRHVNTYQQVWNIVRQADHPSLGVLLDSFHTLSLKGDPSAIAEIPGDKIFFVQMADAPILAMDVLEWSRHFRCFPGQGEFDLPGFLAPIIQSGYTGPLSLEIFNDGFRAAPPRANAADGLRSLLYLEEKTRERLAAQAPAQNSDILFATAPASEYNGVEFLEFAVDDNLGAKLSHWLERLGFVKAGQHRSKNVSLLRQGDINLILNCEPYSFAHSFFEAHGPSLCATAVRVKDSASALKRAVAYKGQPYRGLVGPNELELAAVRAPDGSLIYLVDQDADVYGTDFNLQPGAVIGAGLKRIDHMAMALPADSLDSWVLFYKSLLDFEADDEVVLPDPYGLVKSRALRSRCSSIRLPLNISENRNTAISHALSSYRGSGVHHIAFDCDDIFAQVSRAKEAGVPLLDIPLNYYDDLAARFDFDDEFLSELAYFNVLYDRDAQGGELFHVYTEPFEGRFFFEIIQRKNGYAGYGAANVAVRLAAMAKSRSGGLRHAKL	PGPT0009480_69	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0009480-hppD-K00457	NA	NA
D1-35_04755	678	nicS		HTH-type transcriptional repressor NicS	ATGACTATGAATCCAGAGCTTTCCGCAGCCCTCGACGAACCTGTCGCCGCGCCGCGCAAGAGTCGCAAGAACAACCCGGAAAAGACCCGGGAAAACATTCTTCAGGAAGCTATCGTCGAGTTCGTCCAGCAGGGCCTGGCCGGCGCGCGGGTCGACGCCATCGCCGAGCGCATCCACACCTCCAAGCGGATGATCTATTACTACTTCGGCAGCAAGGAGCAGCTGTACGTCGAGGTGCTGGAAAAACTCTACGGCGATATCCGCACCACCGAAAGCCGCCTGCACCTGGCGGAGCTGGCGCCGGTCGACGCGATCCGGCGCCTGGTGGAGTTCACCTTCGACCACCATGACCGCAACGTCGATTTCGTGCGTATCGTCTGCATCGAGAACATCCACAACGCCGAATACGTGAAGCAATCCGGCGCGATCAAGGCGATGACCAACACCATCCTCGATTCCCTTGGCGTGATATTGCGCCGAGGCGCCGAGGAGGGCGTATTTCGCGCCGGCCTCGAGCCGCTGGATGTGCATCTGCTGATCAGTTCGTTCTGCTTCTATCGGGTGTCCAACCGCCAGACGTTCGGTGAGATCTTTCAGATCGATCTGTCGGACGAAGCGGTCAAGCAGCGCCATCGGCAGATGGTCTGTGAATCGGTATTGCGGTACTTGCAGGCCTGA	MTMNPELSAALDEPVAAPRKSRKNNPEKTRENILQEAIVEFVQQGLAGARVDAIAERIHTSKRMIYYYFGSKEQLYVEVLEKLYGDIRTTESRLHLAELAPVDAIRRLVEFTFDHHDRNVDFVRIVCIENIHNAEYVKQSGAIKAMTNTILDSLGVILRRGAEEGVFRAGLEPLDVHLLISSFCFYRVSNRQTFGEIFQIDLSDEAVKQRHRQMVCESVLRYLQA				NA	NA	NA	NA	NA
D1-35_04756	852	aroE_2		Quinate/shikimate dehydrogenase (NAD(+))	ATGTCCAACGTCACTGTACTGGCCGGCCTGATCGGCGCGGGCATCCAGGCCTCTCGCACGCCGGCGCTCCACGAACACGAAGGCGATGCCCAAGGCATGCGTTACCTGTATCGGCTGATTGATCTGGATGCGCTGAAACTCGACAGCGGCGCCCTGGGCGATTTGCTGGTGGCTGCCGAACGCATGAGTTTTACCGGGTTGAATATCACGTTTCCCTGTAAACAGGCGGTCATCCCGCTGCTGGACGAGTTGTCGCCCGAAGCGCGCGGCATCGGTGCGGTAAATACCGTGGTGCTCAAGAATGGCAAACGCATCGGCCACAACACCGACTGCCTCGGGTTCGCCGAAGGCTTTCGTCGAGGCTTGGGCGATGTTTCCCGTCGCCATGTCGTCCAGATGGGCGCAGGGGGTGCCGGGGCTGCCGTTGCCCACGCGCTACTCGCCGAAGGCGTGGAGACGCTGAGCATCTTTGATGTCGAGACCAGCCGTGCCGAGGCGCTGGCGAATAACCTGAACCAACAGTTCGGCGCCAGCCGTGCTCGCGCCGGGCATGACCTGCCCACCGCCATGGCCGAGGCCGACGGGCTGGTGAACACCACGCCCATGGGCATGGCGAAACTGCCGGGGATGCCGGTACCGGTGGAGCTGTTGCGAGGCGATCTGTGGGTCGCGGAAATCGTCTATTTCCCGTTGGAAACCGAACTGCTGCGCAACGCCCGCGCCCTCGGCTGCCGCACGCTGGATGGCGGCACCATGGCGGTGTTCCAGGCGGTGAAGGCGTTCGAACTGTTCAGCGGCGTGGCGCCCGATGCGGGGCGGATGCTGGCGCATTTTCAGCGTATGGATCACTGA	MSNVTVLAGLIGAGIQASRTPALHEHEGDAQGMRYLYRLIDLDALKLDSGALGDLLVAAERMSFTGLNITFPCKQAVIPLLDELSPEARGIGAVNTVVLKNGKRIGHNTDCLGFAEGFRRGLGDVSRRHVVQMGAGGAGAAVAHALLAEGVETLSIFDVETSRAEALANNLNQQFGASRARAGHDLPTAMAEADGLVNTTPMGMAKLPGMPVPVELLRGDLWVAEIVYFPLETELLRNARALGCRTLDGGTMAVFQAVKAFELFSGVAPDAGRMLAHFQRMDH	PGPT0012890_2195	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
D1-35_04757	441	aroQ	COG0757	3-dehydroquinate dehydratase	ATGCCTCCGATCGTTCTGGTGCTCAACGGCCCGAACCTGAACCTGCTCGGCACCCGCGAGCCGGCCACCTATGGCCACGAAACCCTGGCTGATATTTCCGCGCTGTGCGGCTGCGCCGCCGAGGAGTTCGGCCTGGCCGTGGAGTTCCGCCAGACCAACCAGGAAGGCGAATTGCTCGACTGGATCCACAGCGCCCGTGGCCGGTGTGCCGGGATCATCATCAACCCGGCGGCCTGGACCCACACTTCGGTTGCGATCCGCGACGCGCTGGTGGCCAGTGAAGTCCCGGTGATCGAAGTCCACCTGTCCAACGTCCACGCCCGCGAAACCTTTCGCCACCACTCCTTTGTCTCGTCAGTCGCCATCGGCGTGATGTGCGGGTTCGGCAGCCATGGTTATCGCCTGGCCCTGGAACATTTCAGTCAGCGGTTGAAGGGTTGA	MPPIVLVLNGPNLNLLGTREPATYGHETLADISALCGCAAEEFGLAVEFRQTNQEGELLDWIHSARGRCAGIIINPAAWTHTSVAIRDALVASEVPVIEVHLSNVHARETFRHHSFVSSVAIGVMCGFGSHGYRLALEHFSQRLKG	PGPT0012905_3003	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
D1-35_04758	1080	trmA	COG2265	tRNA/tmRNA (uracil-C(5))-methyltransferase	ATGACTTTTGATTCCCAGGCCTACGCCGCCCAGTTGCAGGACAAGGTCACGCGCTTGCGTGACTTGCTGGCTCCGTTCAATGCACCCGAGCCCGAGGTATTCGACTCGCCCTTGCAGAACTTCCGCCTGCGCGCCGAATTCCGCCTGTGGCGCGAAGCCGGCGAACGCCACTATGCGATGTTCTCCCAGGACGACAAGCGCACGCCGATCCTGATCGAAGAGTTCCCCATCGCCAGCTTGCGCATCAACCAGTTGATGCCGCAGCTCAAGGCCGCCTGGCAGGCCAGCGCGCCCTTGAGCCACAAGCTGTTCCAGGTGGAATTCCTGACCACCCTGGCCGGCGACGCGATGATCACCCTGTGTTATCACCGCCCGCTGGATGAACACTGGCACGCCGCGGCGTCGAAGCTCGCGACCGACCTGGGCGTCAGTATCATCGGGCGCTCCAAAGGCAAACGGGAAGTGATCGGCCACGATTATGTGGTGGAAAAACTTGAGGTGGGCGGCCGTGCCTTCAGCTATCGCCAGCCCGAAGGTGCCTTCACCCAGCCCAACGGCACGGTAAACCAGAAGATGCTCAACTGGGCTTATGAAGCCTTGGGCGATCGCAGCGACGATCTTCTGGAGCTTTACTGCGGCAACGGCAACTTCACGTTGCCCCTGGCCACCCGCGCGCGCAACGTGCTCGCCACTGAAATCAGCAAGACATCGGTCAACGCAGCGCTGAGCAACCTCAGCGAAAACGCTGTGGATAACGTCACGTTGGTACGGCTGTCCGCCGAGGAACTGACCGAAGCCTTGAACGAAGTCCGCCCATTCCGCCGCTTGCAGGGTATCGACCTGAAAAGCTACGAATTCGGCAGCGTCTTCGTCGACCCACCTCGCGCCGGCATGGACCCGGACACCTGCGAACTGACCCGACGCTTCGACAACATCCTCTACATCTCCTGCAACCCGGAAACCCTCGCCGCGAACATCGCGCAGTTGAGCGACACCCACCGCATCACGCGCTGCGCGTTGTTCGATCAGTTTCCGTGGACTCATCACATGGAATCCGGCGTGTTGCTGACTCGGCGTTGA	MTFDSQAYAAQLQDKVTRLRDLLAPFNAPEPEVFDSPLQNFRLRAEFRLWREAGERHYAMFSQDDKRTPILIEEFPIASLRINQLMPQLKAAWQASAPLSHKLFQVEFLTTLAGDAMITLCYHRPLDEHWHAAASKLATDLGVSIIGRSKGKREVIGHDYVVEKLEVGGRAFSYRQPEGAFTQPNGTVNQKMLNWAYEALGDRSDDLLELYCGNGNFTLPLATRARNVLATEISKTSVNAALSNLSENAVDNVTLVRLSAEELTEALNEVRPFRRLQGIDLKSYEFGSVFVDPPRAGMDPDTCELTRRFDNILYISCNPETLAANIAQLSDTHRITRCALFDQFPWTHHMESGVLLTRR				NA	NA	NA	NA	NA
D1-35_04759	1296	adeP_2	COG2252	Adenine permease AdeP	ATGCTGGAAAGGCTGTTTCAACTCAAGGCACACAACACCAACGTGCGGACCGAGATCCTGGCGGGCGTCACGACCTTCCTGGCCATGGCCTACATTCTGTTCGTCAACCCGAGCATTCTCGGCGAAACCGGCATGGACAAGGGTGCCGTATTCGTCGCCACCTGCCTGGCGGCGGCCATTGGTTCGACGGTCATGGGCCTGATCGCCAACTACCCGATCGCCCTTGCACCGGGCATGGGCCTGAATGCCTTCTTCACCTACACCGTGGTCTTGCACATGGGCCATACCTGGCAAGTGGCGCTGGGTGCGGTGTTCGTCTCCGCCGTATTGTTTTTCCTGCTGTCGATCTTTCGTATTCGCGAATGGATCATCAACAGCATCCCGCTGCCACTGCGCTCGGCCATCGCCGCCGGTATCGGCCTGTTCCTGGCGCTGATCGCCTTGAACAACGCTGGCATCGTAGTGAAAAACCCGGCGACCATGGTCGGTCTCGGCGACCTGAAGCAACCGGCACCAATCCTGGCGACCCTGGGCTTCGTCCTCATCGTCGCCCTGGAAGCACTGAAAGTGCGCGGCGCCGTGCTGATCGGCATCCTGGCGGTCACCGTTGTCTCGATCGTAATGGGCTTCACGCCGTTTGGCGGGATCATTTCCGCGCCGCCCTCCCTCGCCCCGACGTTTTTGCAACTGGACATCAAGGGCGCCCTGGACATCGGTCTGGTGAGCGTGATCTTCGCCTTTCTCTTCGTCGACCTGTTCGACAACTCCGGCACCCTGATCGGCGTCGCCAAGCGCGCCGGGCTGATGGGCAAGGATGGCCACATGCCGAAGATGGGCCGCGCGCTGATCGCCGACAGCACCGCCGCCATGGCCGGTTCGCTGCTGGGCACCTCGACGACCACCAGCTACATCGAGTCGGCGGCAGGCGTCAGCGCCGGCGGACGCACCGGCCTGACCGCCATCGTCGTGGCGATCCTGTTCCTGCTGGCGCTGTTCTTCTCGCCACTGGCCGCCAGCGTCCCGGCCTTCGCCACCGCGCCGGCCCTGTTGTTTGTGGCCGTGTTGATGACCTCCGGCCTGGCCGAGATCGACTGGGACGACATCACCGTCGCCGCCCCGGTGGTGATCACGGCGCTGGCAATGCCGTTCACCTACTCCATCGCCAATGGCATCGCCTTCGGCTTCATCGCCTGGACCGCCATCAAACTGGTGTCCGGCCGTGGCCGTGAGCTGAACCCGGCGCTGGTCATCCTGTCGATCCTGTTCGTTATCAAGTTGGGTTGGTTCAACGCATGA	MLERLFQLKAHNTNVRTEILAGVTTFLAMAYILFVNPSILGETGMDKGAVFVATCLAAAIGSTVMGLIANYPIALAPGMGLNAFFTYTVVLHMGHTWQVALGAVFVSAVLFFLLSIFRIREWIINSIPLPLRSAIAAGIGLFLALIALNNAGIVVKNPATMVGLGDLKQPAPILATLGFVLIVALEALKVRGAVLIGILAVTVVSIVMGFTPFGGIISAPPSLAPTFLQLDIKGALDIGLVSVIFAFLFVDLFDNSGTLIGVAKRAGLMGKDGHMPKMGRALIADSTAAMAGSLLGTSTTTSYIESAAGVSAGGRTGLTAIVVAILFLLALFFSPLAASVPAFATAPALLFVAVLMTSGLAEIDWDDITVAAPVVITALAMPFTYSIANGIAFGFIAWTAIKLVSGRGRELNPALVILSILFVIKLGWFNA	PGPT0007325_5019	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
D1-35_04760	447			hypothetical protein	ATGTATCGCATGAAAAAATTCGCATGGGCCTGCGCGTTGAACCTGGCGCTGCTCGGACCGGCGGCGCACGCCGCCTCAGCGCCGCCGCTGAGCGAGGTCAAGGTGCTCAAGGTCGAATCGCCGACCTGTGGGTTTGAGAATATCGCGGCGGGGCAGACGCAGACCCGTTGCGATCATAGCGGGCCGAATATCAAGGTCTACGTGCTGGAGGTCGGTTATGGCCGCCAACCTCATGTCACGCTGGACGGCTTCGAAGTCGACGGCACCCGCTCGCCAGGGTGTGCGTTCAGCAATGGCAATCTCAACGACTGTTCGACAAGCACCAAGGTGGTCGGCTACCTGTATATCTTCGATCTGAAGGGCAAGCAGGAAGGCACTTTCAGCTTCAGCAATGTGTCAATCAACGCGCCGGGGAACCGGATGGCGACCGAGCTCTACATCAAATGA	MYRMKKFAWACALNLALLGPAAHAASAPPLSEVKVLKVESPTCGFENIAAGQTQTRCDHSGPNIKVYVLEVGYGRQPHVTLDGFEVDGTRSPGCAFSNGNLNDCSTSTKVVGYLYIFDLKGKQEGTFSFSNVSINAPGNRMATELYIK				NA	NA	NA	NA	NA
D1-35_04761	567	yajL	COG0693	Protein/nucleic acid deglycase 3	ATGATTCCTGGAACCAAGATCCCCCGAGCCCTGATTGCCGTGGCTGAAGGCGTCGACGATTTGCAGACGGTGACGCTGATCGATGTGTTGCGTCGTGCGCAGCTCGAAGTGGTGGTGGCGAGTATCGAGGGCCGACGCATGCTCACCTGTGCACGCGGCACGCGCCTGACCGCCGACGGCATGCTGGTGGACATGCTGGTCCAGGATTTCGACCTGATCGTCCTGCCGGGCGGCATCATTGGCGCGCAGCATCTGGCCGCCCACCAGCCGTTGCAGCAGTTGGTCAGGGACCAGGCCGCCGCCGGGCGATCTTTTGCCGCCATCGCCGAAGCGCCGGCGCTGGTACTCCAGGCGTTCGGCGTGCTACGCCAGCGCCGCATGACGTGCCTGCCCGCCGTGAGCCAGCAGCTGTCCGGATGCAGCTTCGTCGACCAGCCGGTGGTGGTGGATGGCAATTGCATCACCGCCCAAGGCTCGGCCGCCGCCCTGATATTTGCCCTGACGCTGGTGGAGCAACTCGCCGGCAAGGGTGTGAGGAGCGTGGTGGCGGCGGAGTTGCTGGCCTGA	MIPGTKIPRALIAVAEGVDDLQTVTLIDVLRRAQLEVVVASIEGRRMLTCARGTRLTADGMLVDMLVQDFDLIVLPGGIIGAQHLAAHQPLQQLVRDQAAAGRSFAAIAEAPALVLQAFGVLRQRRMTCLPAVSQQLSGCSFVDQPVVVDGNCITAQGSAAALIFALTLVEQLAGKGVRSVVAAELLA	PGPT0008945_846	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B1|THIAMIN_METABOLISM	PLANT_VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008945-thiJ-K03152	NA	NA
D1-35_04762	525	paoA	COG2080	Aldehyde oxidoreductase iron-sulfur-binding subunit PaoA	ATGAGCGCGACCTTGTCCGAAGCGACGCAGGCGTCCTTCGTCCGTCATCCGATACGTCTGACACTCAATGGCGCCGTGCGTGAGTTGCAGGTGCTGCCCTGGACCACGCTGCTGGACCTGCTGCGCGAGCAACTGGACCTGGTAGGCAGCAAGAAAGGCTGTGATCACGGCCAATGCGGCGCCTGCACGGTGTTGCGTGATGGCAAGCGTATCAACGCCTGCCTGACCCTGGCGGTGATGTGCGACGGCGCCGAGTTGACCACCGTCGAGGGCTTGGCCAATGGCGATGAGCTGCACCCCATGCAACGGGCGTTCATCAAGCATGACGCGTTCCAGTGCGGCTACTGCACGCCGGGGCAGATCTGTTCGGCGGTGGGGCTGGCCAACGAGGGCCGGGCGCAGACCAGCGCCGAAATCAGCGAACTGATGAGCGGCAACCTCTGCCGATGCGGCGCCTACAACAATATTCGCGACGCCATCGAGGAAGCGCTTCCGCTCTGCCAGCCAACGGAGGGCGAGCGATGA	MSATLSEATQASFVRHPIRLTLNGAVRELQVLPWTTLLDLLREQLDLVGSKKGCDHGQCGACTVLRDGKRINACLTLAVMCDGAELTTVEGLANGDELHPMQRAFIKHDAFQCGYCTPGQICSAVGLANEGRAQTSAEISELMSGNLCRCGAYNNIRDAIEEALPLCQPTEGER	PGPT0007290_1041	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0007290-yagT-K13483	NA	NA
D1-35_04763	993	paoB	COG1319	Aldehyde oxidoreductase FAD-binding subunit PaoB	ATGAATCCCTTTAGCTACAGCAAGCCCGACACCGTGCAGGCGGCCGTCGAGTTGTCCAGTGCGAACTCGCGCTTCATCGCCGGCGGCACCAACCTGCTGGACCTGATGAAGGAAAACCTCAGCCGCCCCCAGCACTTGATCGATATCACCGGTCTGCCTTTGACGGACCTCAGCGAGACCCCGTCGGGCGGGGTGATGATTGGCGCATTGGTGAGCAATGCCGATCTGGCCTGGCATCCGTGGGTTCAGCGGCGCTATCCGCTGCTCGCCCAAGCCATCCTGGCGGGCGCCTCGCCGCAGTTGCGCAATATGGCCAGCACCGGTGGCAACCTGTTGCAACGCACGCGCTGCTATTACTTTTATGACGCCTCCGTGCCGTGCAACAAGCGGCGCCCAGGCAGCGGTTGCCCGGCCCGAAGCGGCCTGAACCGGATCCACGCGATTTTCGGCGCCAGTGATCAGTGCGTGGCGACTCATCCGTCGGACATGTGCGTGGCCCTGGCGGCGCTTGAGGCGGTTGTTCATGTGCTGGGACGGGGCGGCGCGCGGACCATCGAGTTCGCGGATTTTCACCGTCTGCCCGGTGACGCACCGGATCGGGACAACCAATTGGCCGATGACGAGCTGATCACCTACATCGAGTTGCCCCCAGCGGGTTTTGCTGAACATAGCCACTACCTGAAGATCCGTGACCGGGCCTCCTACGCCTTTGCGCTGGTTTCGGTGGCGGCGGCGCTGGAGCTTGATGGGCCGGTGATTCGCCAGGCTCGGCTGGCCCTCGGCGGTGTAGCCCACAAACCGTGGCGCGACAAGGCCGTGGAAAACTGGCTGGTCGGCCAGGCCGTCAGCCGCGAAACCTTTACGGCGGCTGCCGATGCGTTAATGCAGAACGCCGAGCCGCTGGAGCACAACGGCTTCAAAGTCAAACTGGCACGCCGGGCAATTATCCGCGCCTTGAGCGATGCCGCGCTGGTGGGGGGAACCACCCGATGA	MNPFSYSKPDTVQAAVELSSANSRFIAGGTNLLDLMKENLSRPQHLIDITGLPLTDLSETPSGGVMIGALVSNADLAWHPWVQRRYPLLAQAILAGASPQLRNMASTGGNLLQRTRCYYFYDASVPCNKRRPGSGCPARSGLNRIHAIFGASDQCVATHPSDMCVALAALEAVVHVLGRGGARTIEFADFHRLPGDAPDRDNQLADDELITYIELPPAGFAEHSHYLKIRDRASYAFALVSVAAALELDGPVIRQARLALGGVAHKPWRDKAVENWLVGQAVSRETFTAAADALMQNAEPLEHNGFKVKLARRAIIRALSDAALVGGTTR	PGPT0007275_429	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0007275-yagS-K11178	NA	NA
D1-35_04764	2202	paoC	COG1529	Aldehyde oxidoreductase molybdenum-binding subunit PaoC	ATGAATGCATTGAGCAAAACCATAGGCAAGCCGCTTGACCGGACCGATGGCCTGCTCAAGGTCACTGGTCGGGCCCGATACGCCGGGGAGTATCCCGAAGATGGCCTGCTGCACGGCAGCGTCGTCTCCAGCGGTATCGCCCGTGGCCGGGTCGTGCGCATCGATGCTTCCCGAGCCCTGGCGCTGCCGGGCGTCGTCGCGGTGATCGACCATACCAACCGCCCGAAGATCGCCAGTTACGACGAGCCCTACCAGGATGCCGATGCCGCGGAGGGTTCGCCGTTCCGGCCGTTGTTCAACGACCAGGTCCTCTACAGCGGCCAGCCGCTCGCCCTGGTGGTTGCGGAAAATCTCGAGTTGGCGCGTTATGCCGGCTCGCTCGTTGAAATCGACTACGAGACCCAGGACCATCAGACCGATCTGACGATCCTGCAAAACGAAGCGCATCCGGCGCCCGCCGAATTACCCAAGCCCCGTGGGAATTTTCAGGGCGAGTACGCCAGCTCGGCACTCAGCGTGGATGTGTCCTACAGCACGCCGATCGAACATCACAACCCGATGGAGCCCCACGCCTCGACCGTTCTGTACCAACCCGACGGCAGCTTGCACATTCACGACAAGACCCAGGGCACGCAGAATTGCCAGGCCTATGTGCAAGAGGTGTTCGGGCTGGAAAAAGAACAGGTGCGGGTGTTTGCCGCCTACGTTGGCGGTGCTTTCGGTTCCGGGCTGCGCCCGCAGTACCAATTGCCGCTGGCAGTAATGGCCGCGCTGACGCTCAAGCGCTCGGTGCGGGTCAGCCTGACCCGTCAGCAAATGTTTACCTTCGGCTACCGGCCCCGGACCTTCCAGTGTGTGCAACTGGGAGCTGCGGCCAACGGACGTTTGCTCGCGGTGGCCCATAGCGCCGTCGGCCAGACGTCGCGCTTCGAGGACTTCACCGAGCATGTGGTGGAGTGGAGCGGCATGCTCTATCACTGCGATAACGTCGAATTGAGCTACAAGCTGGTGCCCCTGGACGTCTACACGCCGCTGGACATGCGTGCCCCCGGCGCCGCCCTTGGACTGATCGGTCTGGAGTGCGCCATGGACGAGTTGGCCTGCGCCCTGGCCATCGACCCGGTCCAGCTGCGCTTGATCAACTATGCCGAACGTAACGAGAACGAAGGCAAGCCGTATTCGAGCAAGGAGTTGCGCGAATGTTACGCCCAGGGTGCCGACCGTTTCGGTTGGAGCAAGCGCAATCCGGAGCCGCGCAGCATGCGCGCAGGGCGGCAACTGGTAGGTTGGGGCATGGCCGGCGGTGTCTGGGAGGCCATGCAGCAGAAGGCCAGCGCCCGAGCGTCGCTGGATCCCAGCGGCAAGCTGACCGTGAGCAGCGCGACCACTGACATCGGCACCGGCACCTATACCGTCATGACCCAGATTGCCGCCGAGACGTCCGGCGTTCCCCTGGAAAATGTCACCTTTGTGCTTGGCGATTCGTCGCTGCCGACCGCACCGCTGCAGGGCGGTTCGTTTACCGTCTCGTCCGTCGGCACCGCAGTGCAGCAAGCCTGTGAGGCGCTGCGGGAAAAACTGCTCGCAGTGGCTCGGCAAACTTGCCCGGCCTTCAGCGGCGCAACCCTTGAGCAAGTGACGTTTGTCGACGGTGAACTGCGCATGGGGGAGGCCAGTGTCACCCTGGCGCAGCTGGCTCGGAACAGCGGCGAGACGCCGTTGCAGGCACAAGTCACGGCCCAGCCGGATGAGAAACGCCAGGCCTATGCCACTGCTACGCACTCGGCGGTGTTCGTCGAGGTGCTGGTCGACGAAGACCTGGGCACGGTGAAGGTCAACCGCGTGGTCAGCGCCATCGCGGCCGGGCGGGTAATCAACCCGAAAACCGCCCGCAGCCAGATTCTCGGTGGCGTGGTCTGGGGCGTTGGCATGGCCTTGCATGAAGAGACCCTGACCGACCACGCCCTGGGCCGGCACATGAACCACAACCTGGCCGAATACCACGTGCCGGTCAACGCCGACATCGGTGACATCGACGTGGTGTTCGTCGATGAACAGGACGACATCGTCAATGCGCTGGGGTCCAAGGGCGTCGGTGAAATCGGCATCGTGGGCGTGGCGGCGGCGGTGGCTAATGCCATTTACCATGCGACCGGCAAGCGGGTGCGGGACTTTCCAGTCACGCTGGACAAGTTGCTCTGA	MNALSKTIGKPLDRTDGLLKVTGRARYAGEYPEDGLLHGSVVSSGIARGRVVRIDASRALALPGVVAVIDHTNRPKIASYDEPYQDADAAEGSPFRPLFNDQVLYSGQPLALVVAENLELARYAGSLVEIDYETQDHQTDLTILQNEAHPAPAELPKPRGNFQGEYASSALSVDVSYSTPIEHHNPMEPHASTVLYQPDGSLHIHDKTQGTQNCQAYVQEVFGLEKEQVRVFAAYVGGAFGSGLRPQYQLPLAVMAALTLKRSVRVSLTRQQMFTFGYRPRTFQCVQLGAAANGRLLAVAHSAVGQTSRFEDFTEHVVEWSGMLYHCDNVELSYKLVPLDVYTPLDMRAPGAALGLIGLECAMDELACALAIDPVQLRLINYAERNENEGKPYSSKELRECYAQGADRFGWSKRNPEPRSMRAGRQLVGWGMAGGVWEAMQQKASARASLDPSGKLTVSSATTDIGTGTYTVMTQIAAETSGVPLENVTFVLGDSSLPTAPLQGGSFTVSSVGTAVQQACEALREKLLAVARQTCPAFSGATLEQVTFVDGELRMGEASVTLAQLARNSGETPLQAQVTAQPDEKRQAYATATHSAVFVEVLVDEDLGTVKVNRVVSAIAAGRVINPKTARSQILGGVVWGVGMALHEETLTDHALGRHMNHNLAEYHVPVNADIGDIDVVFVDEQDDIVNALGSKGVGEIGIVGVAAAVANAIYHATGKRVRDFPVTLDKLL	PGPT0007260_909	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0007260-yagR-K11177	NA	NA
D1-35_04765	810			hypothetical protein	ATGGTACTTTCCGACATCAGCCTCATGACCCACAGCACTCCTACCCTGAATAAAGCAACCGGAACCAGAGCCACCGTTAGTAATAACCAAGATATCGTTCAAGACCCTGTAAATACCGGAGGAGATGACAACAGCACAGTTTCTGCGCTCTCACGTCAATTGAGCGAGGCCGCTTCCCGCGCAGAGGCACGTGATGCCAGCTTAAGCCGAAAAGAGCTTTCCGATCTGGCCTGGAGTATCAAGGAAAAAATAGGCGGGGATTATATAGCAACCAAAGCCAGATATGACGCGGAAGTTCCCCAGACCGATGACCCCGAACTCTTGGCACGAGCTAAACAGGCCACTGAGTACATCAATGGAGTCGTCACAGACGGCCGCGGCAAAAATCCTTTCTCCGGGATGCCAAGAGATCAGCTGAATTTGATCATTTATGATGACAGCGGCGCTTTTACCGTCAATGAGCGGCGCTCTGCGCAACATGAAGTAGCCCAACAGGAACAGGCATGGCGGCAGGTAGTCATCGCCAAGGGGACGATGGAATACAGCAACACAGGAAAAATGACCGATTTCTACAAGAACGTGCTCGAGCATTACCGTGGCTTGCCCGCCATTGAACAATCGCAGTATCCAGCCGATTACGAAGCCAGGCTGCTACTTGATATAGCAATGGACCTCAGCACCGAAGTACCTGATATCGATAGTGAAAGCTTCTGGAACGAACTGTTCAAGGGCGATACCTCACTGGCCGGCAAGCCCACCGCCTCCACCGAGGAGAAAGTAGCGGTCAACACCGATATAAAGGAGCCTTGA	MVLSDISLMTHSTPTLNKATGTRATVSNNQDIVQDPVNTGGDDNSTVSALSRQLSEAASRAEARDASLSRKELSDLAWSIKEKIGGDYIATKARYDAEVPQTDDPELLARAKQATEYINGVVTDGRGKNPFSGMPRDQLNLIIYDDSGAFTVNERRSAQHEVAQQEQAWRQVVIAKGTMEYSNTGKMTDFYKNVLEHYRGLPAIEQSQYPADYEARLLLDIAMDLSTEVPDIDSESFWNELFKGDTSLAGKPTASTEEKVAVNTDIKEP				NA	NA	NA	NA	NA
D1-35_04766	1239	entS	COG0477	Enterobactin exporter EntS	ATGCCCAGCCAAGCGCCCTTGCTGCTCCGTCACCACCGACCTTTCATCGCCTTCTGGCTGGCCCGGATCTTCACGGCGAGCGGCTTCCAGATGCTCACCGTGGCCATTGGCTGGAACCTCTATCAACTGACCGGCAACGTCTTGGACCTGGGTCTCGTAGGGCTGGTCGAGTTCGCACCGCGGGTGCTGTTCATGCTGCACACCGGGCATGTGGCCGATCGGTATGACCGGCGCAAGGTCGCGGCCATCTGCCAATCCCTGCAGGCGACGATTGCCGTGGCGCTGGTGATCGGCAGCGCCACCGATAATGTTACGCGCGAGATGATCTTCATCCTGGCGTTCCTGCTGGGCGCGGCCCGCTCCTTCGAAATGCCGACGACCCAGGCGCTGCTGCCGAGCATCGTGCCTTCCGCGCTGTTTCCCCGCGCCGTGGCCGCTGCGCAGTCGGCACAGCAATCGGCGACCATCGTCGCACCCGCGCTGGGCGGTTTGCTGTACGCCTTCGGCAGCGTCTGGGTCTACGGGCCAACCGTGCTGCTCTACCTCATCGCCTGCGGCCTGATGCTCAACCTGCCCGCGCGGCAGACGCCGTTGAACAAAGGCAAGGCGACCCTGGATTCGCTGCTGGCGGGTATCCGCTTCATCCGCAGCCGGCAGGATATTCTCGGGGCGATTTCCCTGGACCTGTTCGCGGTATTGCTGGGGGGCGCAACGGCGCTGCTGCCGGTATTCGCCAAGGACATCCTGCTCACCGGCCCCTGGGGCCTGGGCCTGTTGCGCTCGGCACCGGCGGTCGGTGCCTTGCTGATGTCGTTGTGGCTGGCGCGGTTTGCCGTCGAGCGCAAGGTTGGCCGGGTGATGTTCACGGCGGTGGGCGTGTTCGGCGTCGCCACGATCGCCTTCGGCCTCTCCACTTCGTTCTGGTTTTCCTTGGCGGTACTGGTGGTGCTGGGCGCGGCGGACATGATCAGCATGGTCATCCGCGCCTCTTTCGTGCAATTGGAAACGCCGGACGAAATGCGTGGCCGGGTCAGCGCCGTGAACGGCCTGTTCATCGGCGCCTCGAACCAGCTGGGCGAATTCGAATCCGGCCTGACCGCCCACTGGTTCGGCACGGTGCCAGCGGTGGTCATGGGCGGCGTCGGCACGCTGCTGGTGACCGGGGCCTGGATCAAACTGTTCCCGACCCTGGCCAACCGCGACCGCATGCACGAACCGGTTGCAGAAACGAAAGCCTGA	MPSQAPLLLRHHRPFIAFWLARIFTASGFQMLTVAIGWNLYQLTGNVLDLGLVGLVEFAPRVLFMLHTGHVADRYDRRKVAAICQSLQATIAVALVIGSATDNVTREMIFILAFLLGAARSFEMPTTQALLPSIVPSALFPRAVAAAQSAQQSATIVAPALGGLLYAFGSVWVYGPTVLLYLIACGLMLNLPARQTPLNKGKATLDSLLAGIRFIRSRQDILGAISLDLFAVLLGGATALLPVFAKDILLTGPWGLGLLRSAPAVGALLMSLWLARFAVERKVGRVMFTAVGVFGVATIAFGLSTSFWFSLAVLVVLGAADMISMVIRASFVQLETPDEMRGRVSAVNGLFIGASNQLGEFESGLTAHWFGTVPAVVMGGVGTLLVTGAWIKLFPTLANRDRMHEPVAETKA	PGPT0003290_47	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN_TRANSPORT,PGPT0003290-entS|ybdA|cbsS-K08225	NA	NA
D1-35_04767	1440	cydA	COG1271	Cytochrome bd-I ubiquinol oxidase subunit 1	ATGTTCGGTTTGGAGGCGCTCGATCTCGCCCGAATCCAGTTCGCATTCACCATCTCGTTCCACATCCTGTTCCCGGCCATCACCATTGGCCTGGCGAGTTACCTGGCGGTGCTCGAAGGGCTGTGGCTGAAGACGCGTGACGACACCTACCGCGACCTGTACCACTTCTGGTCGAAGATATTTGCCGTCAACTTCGGCATGGGCGTGGTGTCCGGGCTGGTCATGGCCTATCAGTTCGGCACCAACTGGAGCCGCTTTTCGGACTTTGCCGGTGCGGTCACCGGGCCGTTGCTGACCTATGAGGTGCTCACCGCATTCTTCCTCGAGGCGGGTTTCCTCGGGGTCATGTTGTTCGGCTGGAACCGCGTCGGCAGGGGACTGCACTTCTTCTCCACGGCCATGGTGGCGATCGGCACCCTGATCTCGACTTTCTGGATTCTTTCCTCCAACAGCTGGATGCAGACTCCGCAGGGCTACGAAATCATCGATGGCCGGGTCATCCCGGTGGACTGGCTGGCGGTGGTGTTCAATCCCTCGTTCCCTTACCGCCTGTTGCACATGTCGGTTGCGGCATTTGTTGCCACGGCGTTCTTCGTCGGGTCGTCGGCGGCCTGGCATTTGCTCCGTGGTCGCGACAATCCGGCCATTCGCCGGATGCTGTCCATGGCGATGTGGATGGCCCTGCTGGTGGCGCCGGTGCAAGCGGTCATCGGCGACTTCCACGGGCTCAACACGCTCAAGCACCAGCCGGCAAAAATCGCCGCGATCGAGGGGCACTGGGAAAACGTCGGCGACGAGCCCACGCCCCTGATTCTGTTCGGTTGGCCGGACATGGAAGCCGAGGAAACCAGATTTGCCGTGGAGATCCCTTATCTGGGCAGCCTGATCCTGACGCACTCGCTGACCGATCAAGTGCCGGCCCTGAAGGAGTTTCCGCCGGAGGACCGGCCGAATTCGACCATCGTGTTCTGGTCGTTCCGGGTCATGGTGGGCCTGGGGCTGCTGATGATTTTCACCGGCCTGTGCAGCCTCTGGCTGCGGCGTGGTGAACGGCTCTACCAATCCCGGCCGTTTTTGCACCTGGTGCTGTGGATGGGACCGTCGGGCTTGATTGCGATTCTCGCGGGCTGGTTCACCACTGAAATCGGCCGCCAACCCTGGGTGGTCTACGGCCTGATGCGCACGGCGGATGCCTCGTCCGGCCACAGCTTTGCGCAAATGAGCTTCACCCTGATCATGTTCGTGGTGGTGTATTTCGCGCTGTTCGGTGCGGGCCTGAGCTACATGCTGCGCCTGGTGCGCAAGGGCCCAGTGGCTCACGAAGCCGAGCCGAGCGATGGCGGTCCGGGCCAGAAACGCACCCCGGCCCGTCCATTGTCGGCCGCCAACGAAGGCGACGACGAAGTGGACCACAACGACAGCTCGCACAAGGGGAATTGA	MFGLEALDLARIQFAFTISFHILFPAITIGLASYLAVLEGLWLKTRDDTYRDLYHFWSKIFAVNFGMGVVSGLVMAYQFGTNWSRFSDFAGAVTGPLLTYEVLTAFFLEAGFLGVMLFGWNRVGRGLHFFSTAMVAIGTLISTFWILSSNSWMQTPQGYEIIDGRVIPVDWLAVVFNPSFPYRLLHMSVAAFVATAFFVGSSAAWHLLRGRDNPAIRRMLSMAMWMALLVAPVQAVIGDFHGLNTLKHQPAKIAAIEGHWENVGDEPTPLILFGWPDMEAEETRFAVEIPYLGSLILTHSLTDQVPALKEFPPEDRPNSTIVFWSFRVMVGLGLLMIFTGLCSLWLRRGERLYQSRPFLHLVLWMGPSGLIAILAGWFTTEIGRQPWVVYGLMRTADASSGHSFAQMSFTLIMFVVVYFALFGAGLSYMLRLVRKGPVAHEAEPSDGGPGQKRTPARPLSAANEGDDEVDHNDSSHKGN	PGPT0026700_2373	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
D1-35_04768	1008	appB	COG1294	Cytochrome bd-II ubiquinol oxidase subunit 2	ATGGGTATTGATCTTCCGCTGATCTGGGCCGTGGTCATCATCTTCGGCATCATGATGTACGTGATCATGGACGGCTTCGACCTGGGGATCGGCATTCTTTTCCCCTTCGTCAAGGGCGAACGCGACCGCGACGTGATGATGAATACCGTCGCGCCAGTCTGGGACGGTAACGAAACCTGGCTGGTGCTGGGCGGCGCCGGGCTGTTCGGGGCGTTTCCACTGGCCTATTCGGTGGTGCTCTCGGCGCTGTACCTGCCGCTGATCCTGATGCTCGTCGGCCTGATCTTCCGGGGCGTGGCATTCGAGTTCCGCTTCAAGGCCAAGGCCGAGAAGCGGCATTTGTGGGACAAGGCGTTCATCGGTGGTTCGCTGACGGCGACCTTTTTCCAGGGCGTGGCGCTGGGGGCATTCATCGACGGTTTCGAGGTGGTCAATCGCCAGTTTGCCGGTGGCTCCCTGGATTGGTTCACGCCATTTACGGTGTTCTGCGGCCTGGCGTTGATCGCCGCCTACGCTTTGCTCGGCTGTACCTGGCTGATCATGAAGACCGAAGGCAAGCTGCAAGAGCAGATGCACGACCTGGCCAGACCACTGGCATTCGTGGTGCTCGCCGTGATCGGCATCGTCAGCATCTGGACGCCGCTGGCTCACGCCGACATCGCGGCACGCTGGTTCACCCTGCCGAACCTGTTCTGGTTCCTGCCGGTGCCGATCCTGGTGCTCGTCACCATGTACGGCTTGTTCCGCGCCGTGGCCCGCAACGCCAACTACACGCCGTTCATCCTGACGCTGGTGTTGATCTTTCTTGGCTACAGTGGCCTCGGCATCAGCTTGTGGCCAAACATCGTGCCGCCATCCATTTCGATCTGGGACGCCGCGTCACCGCCTCAGAGCCAGGGCTTCATGCTGGTCGGCACGCTGTTCATCATTCCGTTGATCCTGGTGTACACCTTCTGGAGCTACTACGTGTTCCGCGGCAAGGTCACCCATGACGATGGCTACCATTGA	MGIDLPLIWAVVIIFGIMMYVIMDGFDLGIGILFPFVKGERDRDVMMNTVAPVWDGNETWLVLGGAGLFGAFPLAYSVVLSALYLPLILMLVGLIFRGVAFEFRFKAKAEKRHLWDKAFIGGSLTATFFQGVALGAFIDGFEVVNRQFAGGSLDWFTPFTVFCGLALIAAYALLGCTWLIMKTEGKLQEQMHDLARPLAFVVLAVIGIVSIWTPLAHADIAARWFTLPNLFWFLPVPILVLVTMYGLFRAVARNANYTPFILTLVLIFLGYSGLGISLWPNIVPPSISIWDAASPPQSQGFMLVGTLFIIPLILVYTFWSYYVFRGKVTHDDGYH	PGPT0026705_4101	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
D1-35_04769	165			hypothetical protein	ATGGCCAAGCCTGACTTGAAAGACATCGAAGCCGCTGAGAAAAAACCGTTGTGGCAGCGGCTCGGCTGGCTGGTGGCGATCTGGGCCGGGAGTGTGCTGGCGCTGTTCATCGTCGCCAGCCTGATGCGGATGTTCATGAACGCCGCCGGGCTGACGACTCATTGA	MAKPDLKDIEAAEKKPLWQRLGWLVAIWAGSVLALFIVASLMRMFMNAAGLTTH				NA	NA	NA	NA	NA
D1-35_04770	1125	rlmG	COG2813	Ribosomal RNA large subunit methyltransferase G	ATGCCCTTGCTAGACAGTCCCTTCGCCCAACTTGACCTGATCCGCCAACCCGAACAGCAGAACGAACCACTGCAGGCATTCGACGCAGCCGATGAATATCTGCTTGCGTACCTGGCCGAACAGCAGCCGGGAGTGGATATCCGGGTTCTGGTACTCAATGACGGCTTCGGGGCCCTGGCGGCGAGCTTGGCCGGCAAGGTGAAGGTCACCAGTAGCGGCGACTCGTTCCTTGCCCTACAGGCATTGGAGAAAAACCTGGCGCGCAACGGTTTGCCCTTCGATGCGGTACCGATCGTGCCCGCCAGCGAACCGCTGACAGGGCCGTTCGACCGTGTCCTGATCAAAGTACCCAAGACCCTGGCCCTGCTGGAAGAGCAATTGATCCGGCTGCAAGAGCAACTGGCTCCAGGCGCTCAGGTCATAGCCGCCGCGATGGTCAAGCATCTGCCACGGGCCGCTGGCGATCTGCTGGAGCGCTATATCGGCCCGGTACAGGCCTCGTTGGCGGTGAAGAAGGCCCGCCTGTTGATTGCCACGCCACAAACCAGGACCACCACCGCCTCTCCCTACCCCACTCGCTATTGGCTGGATGAGCCGAAAATCGAGTTACTCAATCACGCCAACGTATTCTGTCGCGAAGGGCTGGATATCGGCACGCGCGCCTTTTTGCCACACCTGCCAAAAAACCTCGGCACGGCGCGGGTGGCGGACCTGGGGTGCGGCAACGGTGTACTGGCTATCACCAGCGCCCTGCACAACCCGCAGGCCCAGTACACGTTGGTGGATGAGTCATATATGGCGGTCCAATCGGCCGCTGAAAACTGGCGAGCGGCCCTGGGCGAGCGTGAGGTGACCCTGCGGGCCGGCGATGGACTCGCCGGACAAGCGCCGCAATCTTTGGATGTGGTGCTGTGCAATCCACCCTTCCATCAGCAGCAAGTGGTCGGCGATTTCCTCGCCTGGCGGATGTTCCAGCAAGCCCGCGAGGCATTGGTGGTTGGCGGCGCGCTGTACATCGTCGGCAACCGGCACCTGGGCTACCACAGCAAGCTGGCTCGGTTGTTCCGGGGAGTCGAGCAGGTCGCCGCCACGCCAAAATTCGTGATTCTCAAGGCCCGCAAGTAG	MPLLDSPFAQLDLIRQPEQQNEPLQAFDAADEYLLAYLAEQQPGVDIRVLVLNDGFGALAASLAGKVKVTSSGDSFLALQALEKNLARNGLPFDAVPIVPASEPLTGPFDRVLIKVPKTLALLEEQLIRLQEQLAPGAQVIAAAMVKHLPRAAGDLLERYIGPVQASLAVKKARLLIATPQTRTTTASPYPTRYWLDEPKIELLNHANVFCREGLDIGTRAFLPHLPKNLGTARVADLGCGNGVLAITSALHNPQAQYTLVDESYMAVQSAAENWRAALGEREVTLRAGDGLAGQAPQSLDVVLCNPPFHQQQVVGDFLAWRMFQQAREALVVGGALYIVGNRHLGYHSKLARLFRGVEQVAATPKFVILKARK				NA	NA	NA	NA	NA
D1-35_04771	714	anoR		Transcriptional activator protein AnoR	ATGGATGCATGGAAGGATTTACAACTAAGGAAATTGTCGTGCGAGCAGGACCTGCAAAAAGCCTATCGCCTCGTACAAAATTTCTTTAATTATCAAGGATTTGAATACTGCGCCTTCGCCGCCTACCCGACTTTTGCGGACAGACACAGGCATCGGATCAATATCAACAACTACCCTTATGGATGGAACAGGCTATACAAACAAAACGGTTATGCGGCGAACGACCCGATACTGGCACACTGCAATCAATCATCGCTGCCAATTCTCTGGAGCGAAGATATTTTTTGCGAGGTCCCCGAATTATGGCAAGCACTTGAACACCAAGGGCTAAGCCATGGCTGGACACAAGCCGTCCATGAGGAACGGGGCACCTATTACAGTCTGTTCAGTCTCGCCAGGATGCAACGCCCCATCGACCCCGAGGAGCATTATGGCAACCTGGGCTATGCCATTTTCGCCAGCCAACGGTTGCATGCGCTGGCAGGCCGGCGAATGTCCGACGCCGAGCCTTCGTCACAGACAGTCCATTTGTCGCCAAGGGAAATTGAAGTATTGAGGTGGTCCGCCGAAGGCAAGACGGCATCGGAAGTCGGCAGGATCCTCTGTCTTTCCGAGCGCACCGTGAATTTCCATGTCAACAGCTGCATGCGGAAACTGAACGTGGCCAACAAAATCTCGGCGGTTGCCAAGGCGGCCCATATCCATGTGATCTGA	MDAWKDLQLRKLSCEQDLQKAYRLVQNFFNYQGFEYCAFAAYPTFADRHRHRININNYPYGWNRLYKQNGYAANDPILAHCNQSSLPILWSEDIFCEVPELWQALEHQGLSHGWTQAVHEERGTYYSLFSLARMQRPIDPEEHYGNLGYAIFASQRLHALAGRRMSDAEPSSQTVHLSPREIEVLRWSAEGKTASEVGRILCLSERTVNFHVNSCMRKLNVANKISAVAKAAHIHVI				NA	NA	NA	NA	NA
D1-35_04772	777	fpr_2	COG1018	Flavodoxin/ferredoxin--NADP reductase	ATGACCGACAGCGCAGAAAAGTTTACCCGCCAAACCCTGATCGATGTGCAGCCCCTGACGCCTCACCTGTTTACCCTGCGTACCACCCGGGATCGCGGCTTTCGTTTCCGCGCCGGTCAGTTTGCCCGGCTGGGGGTGGTCAAGGCGGACGGCACGGCCGTCTGGCGGGCTTATTCCATGGTTTCTTCGCCGTTCGACGAGTTTCTCGAGTTTTTTTCCATCGTCGTGCCGGACGGTGAATTCACCAGCGAGCTCAGCCGCTTGAAGCCGGGTGACAGCTTGTTGGTCGAGCGCCAGGCCTTTGGTTACCTGACGCTGGACCGTTTCGTTGACGGTCGCGATTTGTGGCTGTTGTCCACCGGGACAGGGGTCGCCCCGTTTCTTTCTATCCTGCAGGACTTCGAGGTCTGGGAAAAATTCGAGCGGATCATCCTCGTTTACAGCGTCCGCGAGTCACCGGAATTGGCCTACCAGGCCTTGATCGACGCGTTGCCCCGGCGAGACTACCTCGTCGAATACGCCCATAAGTTTCGCTTCATTGCGACGGTTACCCGTGAACAACACCCTGGCGCCCTCAACGGACGCATCACCACACTGATCGAAAATGGCGAGCTGGAACAGGCCGCCGGTGTCGCGCTGACGCCAGAGCATTCGCGGGTCATGTTGTGCGGCAACCCGCAGATGATTGACGACACGCGCAAGTTGCTCAAGGCCAGGGGCTTGCAACTGAGCCTCACGCGGCGGCCCGGCCAGGTGGCGGTGGAAAATTACTGGTGA	MTDSAEKFTRQTLIDVQPLTPHLFTLRTTRDRGFRFRAGQFARLGVVKADGTAVWRAYSMVSSPFDEFLEFFSIVVPDGEFTSELSRLKPGDSLLVERQAFGYLTLDRFVDGRDLWLLSTGTGVAPFLSILQDFEVWEKFERIILVYSVRESPELAYQALIDALPRRDYLVEYAHKFRFIATVTREQHPGALNGRITTLIENGELEQAAGVALTPEHSRVMLCGNPQMIDDTRKLLKARGLQLSLTRRPGQVAVENYW	PGPT0013215_2840	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528	NA	NA
D1-35_04773	414	mscL	COG1970	Large-conductance mechanosensitive channel	ATGGGCGTGCTAAGCGAGTTCAAGGCCTTCGCGGTCAAAGGCAATGTCGTCGACATGGCCGTTGGGATCATCATTGGTGCTGCTTTTGGCAAAATCGTTTCGTCATTCGTTGGCGACGTGGTCATGCCGCCGCTCGGCCTGCTGATCGGCGGAGTGGATTTCAGTGACCTGGCGATCACGCTCAAGGCGGCCGAAGGAAATACGCCAGCGGTGGTGCTCGCCTATGGCAAATTCATCCAGACGACAGTGGATTTCATCATCGTGGCTTTCGCCATTTTCATGGGCGTCAAAGCCATCAACCGCCTGAAGCGCGAGGAGGCCGTCGCTCCGAGCGCGCCGCCTGTTCCTACCAAGGAAGAACAATTGCTCAGCGAGATCCGCGACCTGCTCAAGGCTCAGAACGAGAGGCCTTGA	MGVLSEFKAFAVKGNVVDMAVGIIIGAAFGKIVSSFVGDVVMPPLGLLIGGVDFSDLAITLKAAEGNTPAVVLAYGKFIQTTVDFIIVAFAIFMGVKAINRLKREEAVAPSAPPVPTKEEQLLSEIRDLLKAQNERP	PGPT0013771_1887	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013771-mscL-K03282	NA	NA
D1-35_04774	1542	katB	COG0753	Catalase	ATGAACACTTCCCTTGGCCTTGGTGCTTTTTCCAACCGCCATACCCTTGTTGTGCTGACCGCCAGCCTGTTTTCCCTGTCCGTCAATGCCGCCACCCTGACCCGGGATAATGGCGCGGCAGTGGGCGACAACCAGAACTCCCAGACCGCCGGCCCCAACGGCCCGACCCTGCTGCAGGATGTGCAACTGATCCAGAAGCTCCAGCGTTTTGACCGTGAACGGATCCCCGAGCGTGTGGTGCATGCCCGTGGTACCGGTGCGCATGGCGAGTTTACGGTATCCAATGACCTGAGCGACCTGACCAAGGCCAAGGTATTCGCCGCCGGACAGGTCACGCCGGTGTTCGTCCGTTTTTCCGCCGTGGTGCATGGCAATCATTCGCCTGAGACGCTGCGTGATCCTCGAGGCTTCGCCACCAAGTTCTACACGGCCGATGGTAACTGGGACCTGGTCGGGAATAATTTCCCGACGTTCTTCATCCGTGATGCAATCAAGTTTCCCGACATGGTCCATGCGTTCAAGCCCGACCCGCGGACCAACCTGGACGATGATTCGCGTCGTTTCGATTTCTTTTCCCACGTACCGGAAGCCACCCGCACGCTGACCGAGCTGTATTCCAACTCCGGCACCCCGGCCAGTTATCGCGAAATGGACGGCAATGGCGTGCACGCTTACAAACTGATCAACGCCAAGGGCGATATCAGTTACGTGAAGTTTCATTGGAAAAGTTTGCAGGGGCTGAAAAACCTCGATCCAAAAGAAGTAGTGAAAGTGCAAGGGCAGGATTACAGCCATATGACGAATGATTTGGTCAGTCATATCAACAAGGGTGACTTTCCAAAGTGGGATCTGTACGTTCAGGTGCTCAAGCCGCAAGAGTTGTCGAAGTTCGATTTCGATCCGCTGGACGCCACCAAGATCTGGCCGGATGTGCCTGAGCGAAAAGTTGGGCAGATGGTGTTGAATCGTAATCCGGCGAATGTTTTCCAGGAAACCGAACAAGTCGCGATGGCCCCGGCCAATCTGGTCCCGGGTATCGAGCCTTCCGAGGATCGCCTGTTGCAGGGTCGGGTCTTCTCTTATGCCGATACGCAAATGTACCGGGTCGGGCCGAACGCGTTGCAGTTGCCCATCAACGCGCCCAAGGTCGCGGTAAACAATGGCAACCAGGACGGTGCGATGAATTTCGGCAGCACCAGCACTGGCGTGAACTACCAGCCGAGTCGCTTGATGCCGCGCGAAGAGCAACCTGCGGCGCGCTATAGCCAGGCAGCGCTGACCGGCAGCACCCAGCAAGCGAAAATCCAGCGCGAGCAGAACTTCAAGCAGGCGGGTGATCTGTACCGCTCGTTCAATCAGAAGGAGCGCAATGACTTGATCGAAAGCTTCGGTGGGTCATTGGCAACGACTGATGATGAGAGCAAGCACATCATCCTGTCGTATCTCTACAAGGCTGACCCCGAATACGGCACCGGCGTGGCTCGTGTCGCCAAAGGCGACCTGGCGCGGGTCAAGGCGCTGGCCGAGAAGCTGAGCGACTGA	MNTSLGLGAFSNRHTLVVLTASLFSLSVNAATLTRDNGAAVGDNQNSQTAGPNGPTLLQDVQLIQKLQRFDRERIPERVVHARGTGAHGEFTVSNDLSDLTKAKVFAAGQVTPVFVRFSAVVHGNHSPETLRDPRGFATKFYTADGNWDLVGNNFPTFFIRDAIKFPDMVHAFKPDPRTNLDDDSRRFDFFSHVPEATRTLTELYSNSGTPASYREMDGNGVHAYKLINAKGDISYVKFHWKSLQGLKNLDPKEVVKVQGQDYSHMTNDLVSHINKGDFPKWDLYVQVLKPQELSKFDFDPLDATKIWPDVPERKVGQMVLNRNPANVFQETEQVAMAPANLVPGIEPSEDRLLQGRVFSYADTQMYRVGPNALQLPINAPKVAVNNGNQDGAMNFGSTSTGVNYQPSRLMPREEQPAARYSQAALTGSTQQAKIQREQNFKQAGDLYRSFNQKERNDLIESFGGSLATTDDESKHIILSYLYKADPEYGTGVARVAKGDLARVKALAEKLSD	PGPT0014380_2512	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
D1-35_04775	549			hypothetical protein	ATGCGAAATGTTCTTCTATCGGTACTCGTGGCCTGGTCGGTGGGCGTGTTGGCCGAGCAACCTGTACCCGCCGATCCGGCTGCGGTGCGGGAGCAACTGCAAGACTATTATTTCGACGCTGCACGCCGGGGCGATGTGCCGATGCTCGATACCTTCATCAAGGCCGGTTATTCGCTCGACACCCGGGATGAAAAGGGCTACACGGCGCTGATCCTGGCGGCTTATCACGGCCACGCGCCCGCGGTAGAGCGGCTGCTGGCCGCTGGCGCCGATGCTTGCGCCCAGGACAAACGCGGCAATACTGCGTTGATGGGCGCCATCTTCAAGGGTGAAGTCCAGATCGCCCGCCGTTTGTTGTCCACCGAGTGCAGTCCGGACCAACGCAACGGTGCCGGACAGACCGCTGCGATGTATGCGGGCCTGTTCAAGCGTGACGAATTGCTCGATGCCTTGAAGGCCAGGGGCGCCGACCTGGAGGCCAGGGATCCGCTGGGCAATAGCGCGGCGGATCTGGCGAAGGGTGAAATCAGAATGCCGGCCCCGCAGTAA	MRNVLLSVLVAWSVGVLAEQPVPADPAAVREQLQDYYFDAARRGDVPMLDTFIKAGYSLDTRDEKGYTALILAAYHGHAPAVERLLAAGADACAQDKRGNTALMGAIFKGEVQIARRLLSTECSPDQRNGAGQTAAMYAGLFKRDELLDALKARGADLEARDPLGNSAADLAKGEIRMPAPQ				NA	NA	NA	NA	NA
D1-35_04776	1368	radA	COG1066	DNA repair protein RadA	ATGGCCAAGGCAAAGCGCATGTACGGCTGCACCGAGTGCGGCTCGACCTTTCCCAAATGGGCTGGCCAATGCAGTGAGTGCGGGGCCTGGAATACCCTGACCGAAACCATGGTGGAAAGCGGCGGGGCGGCGGCACCCACCGGGCGCACGGGTTGGGCTGGGCAACAAGCCCAGATCAAGACCCTGGCCGAGGTCAGCGTCGAAGAAATCCCGCGCTTTTCCACGGCGTCTGGCGAACTGGATCGCGTGCTGGGCGGCGGTCTGGTGGATGGTTCGGTGGTACTGATCGGCGGAGATCCGGGCATCGGCAAATCCACCATCCTGCTGCAAACCCTGTGCAATCTCGCCACTCGCATGCCGGCGCTGTATGTCACTGGCGAAGAATCCCAGCAACAGGTCGCAATGCGCGCACGACGGCTGGGGTTGCCCCAGGATCAGTTGCGCGTCATGACCGAGACTTGCATCGAAACCATCATCGCCACGGCGCGCCTGGAAAAACCCAAGGTGATGGTGATCGACTCGATCCAGACGATTTTCACCGAACAGCTGCAATCGGCACCGGGTGGCGTGTCCCAGGTGCGCGAAAGCGCGGCGTTGCTGGTGCGTTATGCCAAGCAGAGCGGCACGGCGATCTTCCTGGTCGGCCACGTCACCAAGGAGGGCGCGTTGGCGGGCCCTCGGGTGCTGGAACACATGGTCGATACGGTGTTGTATTTTGAAGGCGAATCGGACGGTCGCCTGCGTTTGTTGCGAGCGGTGAAGAACCGTTTTGGCGCCGTCAACGAATTGGGCGTGTTCGGCATGACTGACCGGGGCCTGAAGGAAGTCTCCAACCCATCGGCGATTTTTCTCACGCGTGCCCAGGAAGAAGTCCCGGGTAGCGTGGTCATGGCGACGTGGGAAGGCACTCGGCCGATGCTGGTGGAAGTCCAGGCGCTGGTGGATGACAGCCACCTGGCGAACCCGCGCCGGGTCACCCTGGGCCTGGATCAGAACCGGCTCGCCATGCTGTTGGCTGTCTTGCACCGACACGGCGGCATTCCTACCCACGATCAGGATGTGTTCCTCAACGTGGTGGGCGGGGTGAAGGTATTGGAGACCGCCTCCGACCTGGCGTTGATGGCGGCCGTGATGTCCAGTCTGCGCAATCGGCCGCTGCCGCACGATTTGCTGGTGTTTGGTGAGGTCGGGCTTTCGGGTGAAGTGCGGCCGGTGCCCAGCGGGCAGGAGCGGCTCAAGGAAGCGGCCAAACATGGTTTCAAGCGCGCCATCGTGCCCAAGGGGAACGCGCCGAAGGAAGCGCCGGCGGGGTTGCAGATCATTGCGGTGACGCGGTTGGAGCAGGCGTTGGATGCTTTGTTTGAATAG	MAKAKRMYGCTECGSTFPKWAGQCSECGAWNTLTETMVESGGAAAPTGRTGWAGQQAQIKTLAEVSVEEIPRFSTASGELDRVLGGGLVDGSVVLIGGDPGIGKSTILLQTLCNLATRMPALYVTGEESQQQVAMRARRLGLPQDQLRVMTETCIETIIATARLEKPKVMVIDSIQTIFTEQLQSAPGGVSQVRESAALLVRYAKQSGTAIFLVGHVTKEGALAGPRVLEHMVDTVLYFEGESDGRLRLLRAVKNRFGAVNELGVFGMTDRGLKEVSNPSAIFLTRAQEEVPGSVVMATWEGTRPMLVEVQALVDDSHLANPRRVTLGLDQNRLAMLLAVLHRHGGIPTHDQDVFLNVVGGVKVLETASDLALMAAVMSSLRNRPLPHDLLVFGEVGLSGEVRPVPSGQERLKEAAKHGFKRAIVPKGNAPKEAPAGLQIIAVTRLEQALDALFE	PGPT0014905_3237	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014905-radA-K04485	NA	NA
D1-35_04777	357			Cyclic diguanosine monophosphate-binding protein	ATGAGCGAACGTCGCCGCTTCGTACGAATTGAGTTCCATGCCGAGACCGAACTGAGCCAAGGGCCGTTCATCTGGCCGGTAAAGCTGCTGGATCTATCCCTCAAGGGGCTGCTGATCGAAAAGCCCGAACCCTGGATTGGTGACCCCGAAAAGTCCTTCATGGCTGATATTCATTTGAGCTCTGAGGCCGAGGTCAAGATGGAAGTCCGGCTGACTCACGACGACCATGGTCACTTGGGCTTTGTCTGTGAACACATCGACCTGGATTCCGTTGCGCATCTACGTCGGCTGGTAGAACTGAATCTGGCCGACCATGACGAGCTGGAGCGGGAACTGGCGGCGCTGATCCATATCTGA	MSERRRFVRIEFHAETELSQGPFIWPVKLLDLSLKGLLIEKPEPWIGDPEKSFMADIHLSSEAEVKMEVRLTHDDHGHLGFVCEHIDLDSVAHLRRLVELNLADHDELERELAALIHI				NA	NA	NA	NA	NA
D1-35_04778	972	dmlR_22		HTH-type transcriptional regulator DmlR	ATGCTATTCTTCGCAAAATCTGCGAAGAATAGCGCTGCCGTGGGGCTTATGAACACGAGTCGTGATCAGTTTCCATTACCGGAGGACCTGAAGGTCTTTCTCACCGTCATTCGAAAAAACGGCTTTGCCAGTGCCGCGCAAGCGCTGGGTTATTCACCGGCCTATATCAGCAAGCGCATTTCGGTACTGGAAGCGACGCTCGCCACGCGCCTGCTGCACCGTACTACCCGGCGTATCGCCCTGACCGACGATGGCGAGCGTGTGCGAGTCTGGGCCGAAAAGCTGTTGGGGGATTTCGAGGAATTTGTCGGTGAAATCGCCCAGGCGCGACATCAGCCCAGCGGCGCTCTGCACATCTGCAGCAGTTTCGGTTTTGGTCGCAACCACGTCGCACCGGCCATCGGCAAACTGTCGCAGGCGTACCCCCGGCTCGACATCCGCCTGGACGTATTCGACCGCGTCGTCGATATCGTCGGCGAAGGCTTCGACCTGGAGATCCGCGTCGGTGATGACCTGCCGGACCAACACCTGGGGCGCAAGCTGGCGAGCAATCGGCGGATACTCTGCGCAAGTCCGGAGTATCTGCAACGGCGGGGCATCCCGCATTCGCTGGAAGAGCTTGACGCTCATGATTGCCTGGTGCTCAAAGAGCGCAATAACGCGTTCGGCCTATGGACGCTGACCCGGGATGGCGAGGAGGCCACGGTACGTGTCGGCGGCCCGTTATCATCCAACAGTGGCGAGATCGTTCTGGAGTGGGCGTTGAGCGGCGGCGGGATCCTGCTGCGCTCGATGTGGGACGTCAAGCCGCTGCTGGAGCAAGGGCGGCTGGTCCAGGTGCTGCCAGACTATTCGCAAAGCGCCAACGTCTGGGCCGTATACCCGACCCGGCTCAGCCAGTCGGCCAAATTGCGGGTATGTGTCGAGTTTCTCGAGGAGTGCTTCCGGGATTTGTCGGTTGGTCAGACGTAG	MLFFAKSAKNSAAVGLMNTSRDQFPLPEDLKVFLTVIRKNGFASAAQALGYSPAYISKRISVLEATLATRLLHRTTRRIALTDDGERVRVWAEKLLGDFEEFVGEIAQARHQPSGALHICSSFGFGRNHVAPAIGKLSQAYPRLDIRLDVFDRVVDIVGEGFDLEIRVGDDLPDQHLGRKLASNRRILCASPEYLQRRGIPHSLEELDAHDCLVLKERNNAFGLWTLTRDGEEATVRVGGPLSSNSGEIVLEWALSGGGILLRSMWDVKPLLEQGRLVQVLPDYSQSANVWAVYPTRLSQSAKLRVCVEFLEECFRDLSVGQT				NA	NA	NA	NA	NA
D1-35_04779	1605	treA	COG1626	Periplasmic trehalase	ATGCGACCACTGTATTTCCCCAGCCTGTCTCTCGCTGCCGTGCTGTGCACGGCCTGTTCAAGCCAACCGCCCGCCATGTGGGGTTACGCCGACGCCCGGGACCGGGCCAATCAGCCGCCCGACCAGATGTACCCCGAGCTGTTCGAAGCCGTGCAGCGTCAGCAGATGTTCACCGACCAGAAGCATTTCGTCGATGCGTTGCCCAAGCGTGACCCGGCGAAGATCCGTGCCGATTACCTGGCCCGTCGGGAGGGCGCCGATTTCGATCTCGATGCCTTCATAAAAGACAACTTCATCGAATCCGGCCAGGCTGAAAGTCCTGCCCCCGAACCGGGTGCGCCGATCAAGGAGCACATCGATAATCTCTGGCCCGTGCTCAGCCGAACCTACACCCAGGTGCCACCCTACAGCAGCCTGCTGCCGTTGCCGCAACCGTATGTAGTCCCGGGCGGACGTTTCCGCGAAATGTATTACTGGGACTCGTATTTCACCATGCTCGGTCTGGAGCAAAGCGGCGACAAGACGCAGGTTCGCCAGATGACCGACAATTTTGCCTACATGATCGATACCTACGGCCATATCCCCAATGGCAACCGCAGCTACTACCTGAGCCGCTCGCAGCCACCGTTCTTTGCTTACATGGTCGAGTTGCAGGCGCACATCGAAGGCGAGCAGGCCTACGGGCGCTACCTTCCCCAGTTGCAAAAGGAATATGCCTACTGGATGGACGGCGCGCAGGCCCTCAAGGCCGGTGAGGCGGTGCAGCATGTCGTCAAGCTCGCCGATGGCAGTGTGCTCAACCGTTATTGGGATGCCAGCGCTACGCCTCGGCAGGAGTCATGGCTGCAAGACACGAAGACCGCCGAACAGGCGCCACAGCGACCCAAGGAGGAGGTCTGGCGCGACTTGCGCGCCGGGGCCGAAAGCGGCTGGGATTTCAGCTCCCGCTGGCTGGGGGACGGCAAGAACCTGGCGACCATCCGAACCACGTCGATTGTGCCGGTGGACCTGAACAGCCTGATGTTCCACCTGGAGCGCACCATTGCCAAGGCCTGTGAGACGGTGGCGAATATGCCTTGCGTCCAGGCCTATGGGCAACGTGCCGAGCAACGCCAGCGCGCCATCGAGACGCACTTGTGGAACGCCGAGGGTGGTTATTACGTGGACTACGACTGGCAGCAGAACCGGCAACGGCCGGGATTGACTGCCGCAACGCTGTTCCCGCTCTTCACCGGCCTGGCCTCTGCCGAACGCGCCGATCGTGCCGCCGATGCGGTGCGTCGAGGTTTGTTGCGTCCGGGCGGCATCGCCACCACCCAGGTCAATAACGGCCAGCAGTGGGACGAGCCCAATGGCTGGGCGCCGTTGCAATGGGTGGCGGTCGAAGGATTGGACCGCTACGGACAAACGGAACTGGCCCGGGAAATAGGCAGCCGCTTTCTGAAGCAGGTCCAAGACCTTTATCTCAAAGAGGACAAACTGGTCGAGAAGTACGACATGTCCGGACAGGGCGACGGCGGTGGGGGCGGCGAATACGAACTGCAGGACGGCTTCGGCTGGACGAACGGGGTAACACTGAAGCTGATGAATAAATACGGCGGTTGA	MRPLYFPSLSLAAVLCTACSSQPPAMWGYADARDRANQPPDQMYPELFEAVQRQQMFTDQKHFVDALPKRDPAKIRADYLARREGADFDLDAFIKDNFIESGQAESPAPEPGAPIKEHIDNLWPVLSRTYTQVPPYSSLLPLPQPYVVPGGRFREMYYWDSYFTMLGLEQSGDKTQVRQMTDNFAYMIDTYGHIPNGNRSYYLSRSQPPFFAYMVELQAHIEGEQAYGRYLPQLQKEYAYWMDGAQALKAGEAVQHVVKLADGSVLNRYWDASATPRQESWLQDTKTAEQAPQRPKEEVWRDLRAGAESGWDFSSRWLGDGKNLATIRTTSIVPVDLNSLMFHLERTIAKACETVANMPCVQAYGQRAEQRQRAIETHLWNAEGGYYVDYDWQQNRQRPGLTAATLFPLFTGLASAERADRAADAVRRGLLRPGGIATTQVNNGQQWDEPNGWAPLQWVAVEGLDRYGQTELAREIGSRFLKQVQDLYLKEDKLVEKYDMSGQGDGGGGGEYELQDGFGWTNGVTLKLMNKYGG	PGPT0019170_1303	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-TREHALASE,PGPT0019170-treA|treF-K01194	NA	NA
D1-35_04780	1302	hcaB_5		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGATTGCCCCAGCAACCGGCATGCGGCACGGTGAGCGTTACGCCGTTGAAAGCATCGAGCGCGCGCCTCACTTCCCAGGTTTCTTCCTTGATGGAAAGTATTACCTGGGCCCTGAATTGAATACGGCGGTGGGCTGGCTGGAAGGCCAGACATTCCTCTACGACCAGCTCGACCCCGAGGGCGAGCCGGTGTACCCCGGCAGAGTCGCCGGCACCATTGAGGATCTGACGCTGGTAATGGCCGATGGCGTGCGCCTGAAGTTGACCCCCTTGCAACCCGCCATCGACCGGCCCACGGGCCCCGCCGATACCGCTGCTCAGACCCAATCGCATCCTTTGGCGGAAAAACTCGTGGTCATCACCGGGGCGTCCAGCGGAATCGGTCGTGCCACCGCCCTGGCGTTTGCCCGGCAACGGGCGCGCCTGGTGCTGGCGGCACGTGACCGCGAGGCGCTCGCCGAAGTTGTCGACGAATGCCAGGCCCAGGGCGCCGCCGCATTGGCGGTGTGCACCGACGTCACCCGCAGCGAACAGATGCAGGCGCTAGCCGCCGAGGCCGCCGCGTTTGGCGACGGGCGCATCGATATCTGGATCAACAATGCCGGCGTCGGCGCGGTGGGCAGTTTCGAGCAAACGCCGCTTGAGGTACATGAACAGGTTCTGCAAACCGACCTGCTCGGCTACCTGCGGGGCGCCTATGTGGCATGGCCCTACTTCAAGGCGCAGAAGCGTGGAATCCTGATCAACACCCTGTCGCTGGGCAGTTGGGTCGCCCAACCCTATGCCGCGGCCTACTCGGCAAGCAAATACGGCTTGCGCGGCTTGTCCGAAGCCTTGCGCGGTGAACTCGGCGAATACCGGGACATCCACGTCTGCGACATCTACCCCGCCGTCATCGACACGCCGGGCTTTCGCGACGGCGCCAATTACACCGGCCATGCGCTCAAGCCACCGCCTCCTGTCTACGACCCGCAGCGGGTTGCCGAAGCGATGGTCAGCTGTGCGCTCAACCCCAAGCCCAGCACCACCGTGGGCAGCGCGGCGGTACTGGCGAGGGTCGCGCATTTCCTGGTGCCCGGTTTCCCGCAACTGTCCGGCTGGTTGACGCGTCTGGGCCTGAACCGCAGCCCGGCGTTGGCGCCATCGTCGGGCAACCTGTTCAACCCGCCCAGCGGTCCGCGTAAAGTCGAGGGCGGTTGGCGCAAGCCTGCGCGACGACCAGCGCCCCTGCTGGTGGCGGGCGCGGCGCTGTTGCTTGGCGGGTGCCTGGTGGCGTTGGGTCGGGAGCGTGGCCGCAGGTGA	MIAPATGMRHGERYAVESIERAPHFPGFFLDGKYYLGPELNTAVGWLEGQTFLYDQLDPEGEPVYPGRVAGTIEDLTLVMADGVRLKLTPLQPAIDRPTGPADTAAQTQSHPLAEKLVVITGASSGIGRATALAFARQRARLVLAARDREALAEVVDECQAQGAAALAVCTDVTRSEQMQALAAEAAAFGDGRIDIWINNAGVGAVGSFEQTPLEVHEQVLQTDLLGYLRGAYVAWPYFKAQKRGILINTLSLGSWVAQPYAAAYSASKYGLRGLSEALRGELGEYRDIHVCDIYPAVIDTPGFRDGANYTGHALKPPPPVYDPQRVAEAMVSCALNPKPSTTVGSAAVLARVAHFLVPGFPQLSGWLTRLGLNRSPALAPSSGNLFNPPSGPRKVEGGWRKPARRPAPLLVAGAALLLGGCLVALGRERGRR				NA	NA	NA	NA	NA
D1-35_04781	2001	norR_4		Anaerobic nitric oxide reductase transcription regulator NorR	ATGAATGCACAACCCATGGCCCTGAGCGTTGAAGACCGGGACTATCTGACCGCCCTCGGCCCCGCGTCGTTGAATGGAGGATCAAACGCTGCGCTGGAAGAGGCCTGGCGAGCCTGCCTGAACGCCAGCACCGAGCGTCCCGCCGGTGTCAGGCAAGTGATCTGGAATTCCTGGCGGCGCAGCGTCGATGCCGGGCTGGATCCGGAGGACGGCGAGTACCGTTTTGTCGCGCCCGCCGAGCTGACCGCCACGCTGACGGCGAATCGCCTGTTGATCGCCGCCGCCGCACAGGTCATGCGCGGCTTGCTCGCCTACAACCCCAACGGGCATATCAACCTGACCGATGCCGAAGGCACGACCCTGTATTTCTGCGGGCTGGACCTCACGCCCATCGGCAGCCGATTGCTCGAATCGGTGCAGGGCACCAATTGCACCGGGCTGGCGCTGGTCGAGGACCGGCTGGTGTATGTGCTGGCCGAGGAAAATTTCGGCATAGGCCTGCGCCAGCGGCGTATGCATTGCGCCGCCGCGCCTATCCGCGATGCTCATGGCCGGACCCTGGCGATGCTGACCCTGACCGCCGAGCCCGGCTGGTTTCACTTCCATACCCTGGGCACCGTCCAGGCCGCGGCTGAAGCGGTCTCCCGGCAAATGGCGCTGCAGGCACTGCTGGAAGAACTACAGACGGTCCTTGAAGTGCTCAACGAGGGCTTGGTGGTACTCGATGAAACGGGTTGCATCAAGGCCCTCAACCATTACGCCCGGCAATTGTTCCGCGTCGACCGTGACTGGTTGGGCAAGCCGTTCCAGAGCCTGGGGCAGACCGAGCAGAGCGGCGAGATCCTGCGAGGGGATGGCGAAGGGGCAAGGGACCTGGATTGCACCTTCGAGCTGCATGACCACAGTCATCTGGCCTGCCTGGTATCTGTCTGCCCTCTGGAGCAGGGCGGTCGTATCGTTTCGCTGCGCGAGAATCGGCGCATCCGTGAGATTACCCGGCGCCTCATCGGCACCCAGGCCAGCTACACCTTCGAGACCATCCAGGGTCGTTCACGGGCGATTCAGGACGCCTTGCAACTGGGCCGGATCGCCAGTCGCAGTGACTCGACCACGCTGATTCTCGGTGAGAGTGGCACCGGAAAGGAGCTGTTTGCCCAGGCCATCCATAACGCCAGCGACCGCAGTGGCGGTCCGTTCGTGGCGGTCAATTGCGGGGCCATTCCCCGGGATCTGGTGCAGAGCGAACTGTTCGGCCATGTCGAAGGTGCGTTCACCGGATCGGCTCGCGGTGGCTCGGCGGGCAGATTCGAACTGGCCGATGGCGGGACGATCTTCCTCGACGAGATCGGTGACATGGCCTTTGATGCGCAGGTCAGCCTGCTGCGCGTCCTGCAGGAAGGCGAAGTGACGCGGGTGGGGGCGAAAAAATCGCTGCGGGTCAATGTGCGCATCATTGCCGCCACTCACCGCAACCTGAGCCAGGCCGTCGCCGACGGGGCCTTTCGCGAGGACCTTTATTACCGCCTCAATGTGCTGAGCCTGACGGTGCCGCCGCTGCGGATGCGGCGGGAGGACGTGCCCTTGCTGGCGCGGCATTTCCTCGCGCGGTGTGCCCGGTCGCTGCGAAAGCCGATACGTGACCTGTCACCACAGGCGCTGGAGGTTCTCGATGCCTATCATTGGCCGGGGAACGTCCGTGAGCTGGAAAACGTCATTGAGCGCGCGACCAACCTGGCAACCACCGAACTCATCCAGGCGAATGACCTGGCCCTGGAAATCAGGCAGGGCGGGCGGCCCTCGGCCCGCCAAGCTACTCCTGAACCCAGGGCGGCCCTCGATCTGGGCACGCACGAAATGAACGCAATCATCGCCGCCCTGCTGGACACGCGCGGCAATATCCGTCTGGCCGCCCAACGGTTGAACGTGTCCCGGGGCGGCCTGTACAACAAGATGAGCCGCTTCGGGCTCAAGGTCGAAGCGTTCCGTTCGGCGCCGGACTGA	MNAQPMALSVEDRDYLTALGPASLNGGSNAALEEAWRACLNASTERPAGVRQVIWNSWRRSVDAGLDPEDGEYRFVAPAELTATLTANRLLIAAAAQVMRGLLAYNPNGHINLTDAEGTTLYFCGLDLTPIGSRLLESVQGTNCTGLALVEDRLVYVLAEENFGIGLRQRRMHCAAAPIRDAHGRTLAMLTLTAEPGWFHFHTLGTVQAAAEAVSRQMALQALLEELQTVLEVLNEGLVVLDETGCIKALNHYARQLFRVDRDWLGKPFQSLGQTEQSGEILRGDGEGARDLDCTFELHDHSHLACLVSVCPLEQGGRIVSLRENRRIREITRRLIGTQASYTFETIQGRSRAIQDALQLGRIASRSDSTTLILGESGTGKELFAQAIHNASDRSGGPFVAVNCGAIPRDLVQSELFGHVEGAFTGSARGGSAGRFELADGGTIFLDEIGDMAFDAQVSLLRVLQEGEVTRVGAKKSLRVNVRIIAATHRNLSQAVADGAFREDLYYRLNVLSLTVPPLRMRREDVPLLARHFLARCARSLRKPIRDLSPQALEVLDAYHWPGNVRELENVIERATNLATTELIQANDLALEIRQGGRPSARQATPEPRAALDLGTHEMNAIIAALLDTRGNIRLAAQRLNVSRGGLYNKMSRFGLKVEAFRSAPD	PGPT0001030_416	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
D1-35_04782	1023	iolG_3	COG0673	Myo-inositol 2-dehydrogenase	ATGAGCACCTCGAAAACCATTCGCCTGGGTCTTATCGGCGCTGGCCGCATGGGCAGTTTTCACGGCCTGACCGCCGCCCGGCACATCCCCGGCGCCTGCCTCGCCGCCATCGCCGACCCTACTCCCGGCCAGGCCGCGCGCCTGGCGGCGGAGCTGGATGTGCGCAAGACCTACGCCGACCCGCAGCAACTGCTGGACGACCCGGACATCGACGCCGTGCTGATCGCCGCCCCGGCACGCAGCCATGCCGAGCTGGTGATCAGCGCGGCCCGGGCCGGCAAAGGGGTGTTCTGTGAAAAACCCATGGCGATCACGCTGGACGAAGCCGACCGCGCCATCGCCGCCGCTGCCGATGCCCGGGTGACGCTCCAGGTCGGTTTCAACCGGCGCTTCGCCAGGAGTTTCCGCACAGCTCATCTGGACGTGGTCGCCGGCCGGATCGGCACACCCCAACTGCTGCGCTCGCTGACCCGCGACCCGGCGCTGAACAACCCCGCCGCCTCGCCGCAATGGGTGATCTTCCTGGAAACGCTGATCCATGACTTCGATACCCTGCGCTACCTGAATCCGGGCGCCGAGGCGGTCGAGGTATTCGTGATGGCCGATGCCTTGATTGCACCCGCCTACAGGGAGAACGGTTTCCTCGACACGGCAGTGGTCACGATCCGTTTCGACAATGGCGCCATTGCCACCGCGGAGGCCAACTTCCAGGCCGTCTATGGCTACGACGTCCGGGGCGAAGTGTTCGGCAGTGCCGGCATGCTGACCATGGGCAGCGTCAACGACTCCGACTTGTTGCGCTATCTGGCCAATGGGGTCCAGGCCGATACCCAACGCCTGGACACCGACTTGCTGCGTGATGCGTACGTGGCCGAGCTGAATCACTTCGTCAGTTGCGTGCGCAGCGGCGAGAAACCGCTGGCCAGCGGTGAAAATGCCCGGGCCGCCCTGGCCATTGCACGGGCTTGCATCGAGTCCTTCCAGCAGGGTAAAGCGGTACGTGTGCAAGGAGCCTCGTCATGA	MSTSKTIRLGLIGAGRMGSFHGLTAARHIPGACLAAIADPTPGQAARLAAELDVRKTYADPQQLLDDPDIDAVLIAAPARSHAELVISAARAGKGVFCEKPMAITLDEADRAIAAAADARVTLQVGFNRRFARSFRTAHLDVVAGRIGTPQLLRSLTRDPALNNPAASPQWVIFLETLIHDFDTLRYLNPGAEAVEVFVMADALIAPAYRENGFLDTAVVTIRFDNGAIATAEANFQAVYGYDVRGEVFGSAGMLTMGSVNDSDLLRYLANGVQADTQRLDTDLLRDAYVAELNHFVSCVRSGEKPLASGENARAALAIARACIESFQQGKAVRVQGASS				NA	NA	NA	NA	NA
D1-35_04783	792	otnI	COG3622	2-oxo-tetronate isomerase	ATGAGTTTCATCCCCTTCAAACTGGCGGTCAGCGCCGAGATGGTCTTTCTTGACCTGCCCTTTGTCGAACGGGTCAAACGCATCCACGCGCAGGGTTTCAGCGTCGAGATATGGAACTGGACGAGCAAGGACATCCAGGCCCTCGCGGCGACTGGCGCGGATTTCACCTCGATGACCGGCTACATCTCGGGCAACCTGACCGATCCCGAGGCCGTCCGGCAACTGCTCGACAGCGCCGGGGAATCCTTGGCCGTCGCAGCCCGGTTGAACTGCCCGAGCCTGAACCTGCACGGCACCGGCCTGGGTGATCAAGGCTTGCCGGTCAAACCGGTAGCCCGAACAACCGGACGCATGTGGTTGAGCGCCTGCAAGACCCTGGAAAAGATCGCCCGCCTGGGCGAAGACGCCGGCCGGGTATTCCTGCTGGAAAATCTCAACACCGAAGTCGACCATCCCGGCACACCGTTCGCCCGCGCCGACGATACCCTGGCGCTGATCGAAGCCGTGGGCAGCCCGCACCTGAAAATGAACCTGGACCTTTATCACGCGCAAATCGGCGAAGGAAACCTGATCGAGCTGATCCAGCGCGCCGGTGACGCCATCGGCGAAATCCAGGTCGCCGATGTTCCGGGTCGCATGGAGCCCGGCACCGGTGAAATTCACTATCCGGCCATTGCCCGGGCGCTGTTCGGCATGGGATACAGCGGTGTCGTCGGCCTTGAAGGCTGGGCCAGCGGTGACAGCGAACGGGCGCTTGAGCGCTTCAGGCAGGCCTTCACGCTGGACGGGTGA	MSFIPFKLAVSAEMVFLDLPFVERVKRIHAQGFSVEIWNWTSKDIQALAATGADFTSMTGYISGNLTDPEAVRQLLDSAGESLAVAARLNCPSLNLHGTGLGDQGLPVKPVARTTGRMWLSACKTLEKIARLGEDAGRVFLLENLNTEVDHPGTPFARADDTLALIEAVGSPHLKMNLDLYHAQIGEGNLIELIQRAGDAIGEIQVADVPGRMEPGTGEIHYPAIARALFGMGYSGVVGLEGWASGDSERALERFRQAFTLDG				NA	NA	NA	NA	NA
D1-35_04784	927	thpA	COG1879	D-threitol-binding protein	ATGCGTCGTTGCACACTGCTTTTCGCCACATTGCTCGTGCTGTTCAGCCAATGGGCCGCCGCCGATTATCGCATCGGCGTCAGCATCGCCAGGGTTGACGACAACTTCATGACCTACGTGCGTAACGGCCTGGACGAGGCCGCCAGAAAAGAAAACGTCCAGATCCAGTTCGAAGATGCCCAGGGCGACGTGGTCCGCCAGCTCAATCAGGTCCAGGGCTTCATCAACCAGAAAGTCGATGCGGTCATTGTCCTGCCGGTAGACACTTCCGCCACCGCCAACATCACCCGCGCCGCGGTCGAAGCCAAGACGCCGCTGGTCTACGTCAACCGCCACCCGGACGAGCGCACCTTGCCCAAAGGCGTAGTTACGGTGGCGTCCAACGACATCGAGGCCGGCCAACTGCAGATGCGCTACCTGGCGGAAAAACTCGGCGGCAAGGGCAATCTCGCGATCATCATGGGCGACCTCGCGCAAAACGCCACCCATGACCGCACCGAAGGGGTCAAGCAGGTGCTCAAGGACTTCCCCCAGATCAGGGTCGTCGAGCAGCAGAGCGCCGAATGGCAGCGCAGCAAAGGGATGGATCTGACCAGCAACTGGCTGCTCGCCGGCAGCCGTTTCGATGCCATCGTCGCCAACAATGACGAGATGGCCATCGGTGCGGCCATGGCCTTGCAGCAAGCCGGCAAAGCCAAGGGCGAGATTTCGATTGTCGGCATCGACGGTTTGCCTGATGGCCTGGCGGCGATCAAACGCGGGATGCTGGTCGCGTCGGTATTCCAGGACCCCAAGGCCCAGGCGACCAGCGCGGTGCAGGCAGCGCTCAAGATGATCAAGGGCGAGCCGGTTGAACCGGAAATCTGGGTACCGTTCCAGTTGATCAAGCCTGAGCAACTGGCGGTGTTTGAGCAGCGCTACAAGTAG	MRRCTLLFATLLVLFSQWAAADYRIGVSIARVDDNFMTYVRNGLDEAARKENVQIQFEDAQGDVVRQLNQVQGFINQKVDAVIVLPVDTSATANITRAAVEAKTPLVYVNRHPDERTLPKGVVTVASNDIEAGQLQMRYLAEKLGGKGNLAIIMGDLAQNATHDRTEGVKQVLKDFPQIRVVEQQSAEWQRSKGMDLTSNWLLAGSRFDAIVANNDEMAIGAAMALQQAGKAKGEISIVGIDGLPDGLAAIKRGMLVASVFQDPKAQATSAVQAALKMIKGEPVEPEIWVPFQLIKPEQLAVFEQRYK	PGPT0016780_473	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_TRANSPORT,PGPT0016780-rbsB|mocB|mglB-K17213	NA	NA
D1-35_04785	1431	dat_2	COG0160	Diaminobutyrate--2-oxoglutarate aminotransferase	ATGGAAAGTGTCCAGCCCCGTTCATCCTCCAGCGCAACCTTCACGCTGGAGCAGTTTCGCCAGCAAGCGCCGCGTGAACTGAACACCAACCCGTATCTGCAACGCCAGGCGGCCCGGGAGTCGAACGCCCGTTCTTACCCGCGGCGCATTCCGTTGGCCTTGCAAGAAGCCCATGGTCTTTATGTGCGCGATACCCAAGGCCAATTGTTCATGGACTGCCTCGCGGGTGCGGGGACATTGGCGCTGGGCCATAACCATCCGGTGGCCATCGCGGCCATGCGCCATACACTCGATTCCGGCCTGCCCTTGCACACCCTGGACCTGACGACACCGGTCAAGGATCGTTTCGTCGAGGACCTGTTCAACGCCTTGCCGGAAAACTTCGCCCGTCACGCGCGCATCCAGTTCTGCGGACCGACCGGTGCCGACGGCATCGAGGCGGCCCTGAAGCTGGCGCGGATCGCCACCGGGCGCAAACCGATCCTGACGTTCTCCGGCGGTTACCACGGCATGACCCTGGGGACACTGAGCCTGATGGGCAACCTGGGGCCGAAACAGGGGCTGGGCTCGTTGATGGCGGACGTGCAGTTCCTGCCGTACCCCTATGACTACCGCTGTCCGTTCGGCATCGGCGGCGAAGCCGGCATCGATGCCGGGCTGCACTTTATCGAACAACTGTTGAGCGACCCGGAGTCGGGTGTGCTGCCACCGGCAGCGGTGGTCGTGGAAGTCGTGCAGGGCGAGGGTGGGGTGATCCCGGCACCGGTCCGTTGGCTCCAGGGCTTGCGCCAATTGACCCGCAAACACGGCGTGGCACTGATCATCGATGAAGTACAGACCGGCCTGGGGCGTACCGGCAAGCTGTTCGCTTTCCAGCACGCCGACATCGAGCCGGACATTCTGGTCTTGTCCAAAGCCATCGGCGGCGGTCTGCCGCTGGCGGTGATGGTGTATCGCGAAGAACTGGACACCTGGAAGCCCGGTGCCCATGCCGGCACGTTCCGTGGCAACCAGATGGCGATGGCAGCGGGGGGCGCGACGTTGCGTCATATCATCAGCGAACACCTGCCAGCGCACGCTGACATCATGGGGCAACGCCTGATGGAGCAGCTGCGTCAGTTGCAGGGCGATTACCCTTGCCTGGGCCAGGTGCGTGGTCGTGGCTTGATGGTGGGCGTAGAGGTTGTCAGCGATACGCCGAGCGATGCCCGTGTGCCCGCCGCGGATACGGCACTGGCCCAGGCCATCCAGCGCCAGTGCCTGCGCTTGGGCGTCATCCTGGAGTTGGGCGGGCGCCATGGCGCCGTTGTGCGATTCCTGCCACCGCTGATCATCCAGGCTGAGGAAATCGATGTGCTGGTCGAGCTGTTCCGGGTGGCCTTGAACAATGCCATCGCCGAGACCAAGGGCAGGGCGTTGCACATCGCCTGA	MESVQPRSSSSATFTLEQFRQQAPRELNTNPYLQRQAARESNARSYPRRIPLALQEAHGLYVRDTQGQLFMDCLAGAGTLALGHNHPVAIAAMRHTLDSGLPLHTLDLTTPVKDRFVEDLFNALPENFARHARIQFCGPTGADGIEAALKLARIATGRKPILTFSGGYHGMTLGTLSLMGNLGPKQGLGSLMADVQFLPYPYDYRCPFGIGGEAGIDAGLHFIEQLLSDPESGVLPPAAVVVEVVQGEGGVIPAPVRWLQGLRQLTRKHGVALIIDEVQTGLGRTGKLFAFQHADIEPDILVLSKAIGGGLPLAVMVYREELDTWKPGAHAGTFRGNQMAMAAGGATLRHIISEHLPAHADIMGQRLMEQLRQLQGDYPCLGQVRGRGLMVGVEVVSDTPSDARVPAADTALAQAIQRQCLRLGVILELGGRHGAVVRFLPPLIIQAEEIDVLVELFRVALNNAIAETKGRALHIA	PGPT0014050_138	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014050-ectB|dat-K00836	NA	NA
D1-35_04786	216	mbtH_2	COG3251	Protein MbtH	ATGAGTTTGGATAGCCCGGATACGCGGTTTCTGGTTGTCGTCAACGAAGAGGAGCAGTACTCGATCTGGCCGGACTACCGCAGCGTGCCCGACGGCTGGCGCACCGTGGACATGCAGGGCAGCAAGGAAGAGTGCCTGGCTTACATCGAGAAAGTCTGGACCGACATGCGCCCGCTGAGCCTGCGTCAGGCCATGCAGGTACAAGGACAGGGCTGA	MSLDSPDTRFLVVVNEEEQYSIWPDYRSVPDGWRTVDMQGSKEECLAYIEKVWTDMRPLSLRQAMQVQGQG	PGPT0003370_780	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-NOCARDICIN_A-D_METABOLISM,PGPT0003370-mbtH|nocI-K05375	NA	NA
D1-35_04787	738			hypothetical protein	ATGATTCCCAGCCTTGCTCCGCTGTTCATCGGGCCGCTCGCAGCCTTTGAAGACAAGCTGCAACTGCGCAGCCAACCGCGCTCCGATCTGCCGGCCGCCGTGTTCTTCCAGCATGAGACGTTCAGCGCATTCGTCGAAGATCTGCTGGCACGCTACAAGACTGATGAGCGTCTGGCCCTGGTGTCGCTGTGGTCCAAATGGTATTTCAGTACCTTCCTGGCGCCAGTGATGGCCGCCAACCTGCTCCAGCAACGGGAGCTGCCGCTCGCCCTGGCTGATGTCGGCTTGAAACTCGGCGATGACGCCAGGCCCCAGGCCCTGCATTTGCGCGACGATGGCCAGATACTCCCCCGGTGCACGGCCTTCGAGCGGTTCCATACGCTCGTCGAATGCCATCTGGAACCGGTCATCGAGATTCTTGCCAGTGTCAGCCGGGCATCGCCCCGGTTGTTCTGGAGCAACGCCGCCAACACCTTCGAATTCGTCACCACGCGGATCGAACTGCACCCCCTGGCTGATGCCTCCAGCACCCTGCCGGCCAGGGAGATCCTCACTGCCCGGCTGCGCCCCGACGGCCGGCGCAACCCTCTGTTCGCGCCCGTACGCTACCAAGACATTGGCGAGGACGAGCCGCAGCGCCTGAGGCGCATCTGCTGCATTCGCTACCGCCTCCCCGGCGTTGGCTATTGCAGCAGCTGCCCCCTCGATGAATCCAGACGCCAGGTTCAAGGCGCCTGA	MIPSLAPLFIGPLAAFEDKLQLRSQPRSDLPAAVFFQHETFSAFVEDLLARYKTDERLALVSLWSKWYFSTFLAPVMAANLLQQRELPLALADVGLKLGDDARPQALHLRDDGQILPRCTAFERFHTLVECHLEPVIEILASVSRASPRLFWSNAANTFEFVTTRIELHPLADASSTLPAREILTARLRPDGRRNPLFAPVRYQDIGEDEPQRLRRICCIRYRLPGVGYCSSCPLDESRRQVQGA	PGPT0003315_461	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FERRICHROME|FERRIOXAMINE_METABOLISM,PGPT0003315-fhuF-K13255	NA	NA
D1-35_04788	1644	yojI_2	COG4615	ABC transporter ATP-binding/permease protein YojI	ATGATGTTATTGAAAGAACTGCTGCATGACGCGCGATGGCGCATCCTCCTTGCGGTGCTGTGCAGTGCCTTGAGCGCGGCCACCAGTATCGGCCTGATCGGCTACATCAACCGTTGCCTGGAACAAGGCCTCGATGACCTCGGTCGGGGCTTGCTGCTGTTCGGTGGGCTGTTGGTGCTGTTGTTCATCAGCGGAGTCATCTCGCAATGGCTGCTGGTGCAGATCGGTCATCGCCTGGTCTACCAGCTGCGCCTGCGGCTGGTGGGCAAGGTCCTGGGCACCGCGCTCGAACGCGTCGAACGGCTGGGCAGCCCACGTATCTACAACGCGCTGACCAAGGATGTGACCACCGTCGCCACAGCGTTCAAGCAACTGCCGATCTCCTTGTACAACGGTTTGCTGCTGTTGGCGGGGCTGGCCTACATGGGCTGGTTGAGCTTGCCGTTCTTTTGCCTGACGCTGGCAGTGATCGCCGCTGGCGTTGGTCTCGATGTGTTGCTGGGGCGCAAGGTCAAGACCTTGATGCAGGCTGTCCGGCAACAGGACGACCAATTGACCGAGCAGTTCGAAGCCACGATCCAGGGGCGCTGCGAGTTGGGCCTGAGCCGCGAGCGCCGGCATCTGCTTTATCAACACAAGCTGGAACCCATTGCGCGCGCCTCGCTGGACGCCTCGGTGCGCGCCGACACCCTCTGGGCGGTGAACCTCAATTGGACGACACTGCTGGTGTTCATGTTGATCGGCACCCTCTTTTTCCTCGGCCAGGGGCTGGGCTTGCTGGACCAGCAGGTGGTGGTCGGCTACGTGTTGGCGATCATGTTCCTGCGCACGCCCATCTCGATGATCCTCGACGCCATTCCCGCAGTGATCCGCGGTCATGTCGCGTTGCAAGCCATCGACGCGCTGGCGCTGGGCGAGACGGTGCAATTCAAGACCCCGGCGCAAGCGGCTCAGCCGTTTCGCGAACTGCGCCTGGCGGACGTGCATTACCGTTATGCCGGCAAGAACGAGGAGTTTGCATTTGAACTGGGTCCGATCGACCTGACGATTCGTCGTGGCGAGCTGATTTTCATCGTCGGTGGCAATGGCAGCGGCAAGTCGACCCTGGCCAAGCTGCTGACCGGCCTCTACGTGCCCGCTTCCGGGGAGGTGTCGCTCAATGGAGTGGTACTCGATGCCAGTACCAGTGAGTGGCACCGGGAGCATTTCGCCGCGATCTTCGCCGACTTCTATCTGTTTGCCGATGTGCTGGGCGAGGCGGGTGAACATGACGGGCTCGAAGCCCGGGTGGACCATTATCTGGAGCGCCTGGGGCTGGCCCACAAGGTCGAATTCGCCGCCGGGCGCCTGTCTACCACTGCCTTGTCCCAGGGCCAGCGCAAACGCCTCGCGTTGCTGCTACTGATGATGGAAGGCCGGGAAGTGTTCCTGCTGGATGAGTGGGCGGCGGACCAGGATCCGGTCTTCCGCCATGTGTTCTACAACGAGTTGCTGCCCGAGCTGAAGGCCGCCGGCAAGACCGTCATCGCGATCACCCATGATGATCGTTATTTCGATGTGGCGGACCGGGTCTATCGCCTCGACTACGGCCACCTCGTCGATTACGACCGGGCCACGGAGAACCCCTTTCAGCTGGTGAAATGA	MMLLKELLHDARWRILLAVLCSALSAATSIGLIGYINRCLEQGLDDLGRGLLLFGGLLVLLFISGVISQWLLVQIGHRLVYQLRLRLVGKVLGTALERVERLGSPRIYNALTKDVTTVATAFKQLPISLYNGLLLLAGLAYMGWLSLPFFCLTLAVIAAGVGLDVLLGRKVKTLMQAVRQQDDQLTEQFEATIQGRCELGLSRERRHLLYQHKLEPIARASLDASVRADTLWAVNLNWTTLLVFMLIGTLFFLGQGLGLLDQQVVVGYVLAIMFLRTPISMILDAIPAVIRGHVALQAIDALALGETVQFKTPAQAAQPFRELRLADVHYRYAGKNEEFAFELGPIDLTIRRGELIFIVGGNGSGKSTLAKLLTGLYVPASGEVSLNGVVLDASTSEWHREHFAAIFADFYLFADVLGEAGEHDGLEARVDHYLERLGLAHKVEFAAGRLSTTALSQGQRKRLALLLLMMEGREVFLLDEWAADQDPVFRHVFYNELLPELKAAGKTVIAITHDDRYFDVADRVYRLDYGHLVDYDRATENPFQLVK	PGPT0029175_235	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029175-yojI-K06159	NA	NA
D1-35_04789	3783	dltA_2		D-alanine--D-alanyl carrier protein ligase	ATGATGGATCTTGGACTGACGCTTTCACCGCAACAGAAACAACTGGCCCAGGCCAATCCGCAAGCCTGGCGCTGGGTCCGCATGCGCTTGGCGGGCGTGCCCGAGGGCATCGTCGAGCAACGCTTGCGCGACGCCCTGGCGCAGCATCAGGCGTTGCGCCTGCGTTACGAGCGCCCACTGGGCGCCACCGGCCTGCGCCAGCGGGTTATCGAACCTGATGCACTGCGGCTGGACTGGCGCCAGGGGCGGGCAGCCGACGGTCACGATGGACAGTCGTGGCTGGAGGCGGCCCGGCGTCGTTGCGATGCCGAACAACCCGACATTCTCGCCTGGCTGCTCGACGATCTGTTGCTGTTGGCAGTCCCGGTTTACTCACTGGACCAGCGCAGCCTGATCGGCTTGCAGGAACACTTGCTCGGGCGTGCCACAGCGCTTGACGACGAGCCCATGCAGTACGCCGACTATGTCGAGTGGATCAACGGCCTGCAACTGGATGAAGACGCCGAGCAGGGCGCGCAGTTCTGGCGCAACCTGGCCTTGCAGGACATTCCCGGCATGCGCCTGGTCGAGCGCTATGGCATCGCCAGCGGACGTCACGCGGTCGTCCGCCAGGAACTTGAGCAGCGCTTGCCGACGATGCTCACGGCACTGGCCGATCGTGAAGGCGTGGCCGTCGAGCAGTGGGTGCTGGCCGCCTGGGGGTCATTGCTCGGCAGGCTCAACGGGCAGCAACAGGGGCAGTTGGGGTTGCAACACGATCCTCGCGACAACTACGAGGAATTGTCCGGCGCGTATGGGCTGTTCGAGCAGACTTTACCGATGGTCTTGCAAGTGTCCGAACACAGCACGCTGACCAACCTGGCCCGGCAACTGGCCCGGCAATTGGAGAGCGCCGTGGACTGGCAGGAATATGTCGGCCAGGCACAGTTGTTGCCCGAATGGCGGGCCAGCTTCCAGGCCGGCCTGCGGGTCTCGCCCGTGCCGCAACTGGACATGTCGCACTGGCTGTCTTTCGACACACCGGTCGAACTGCAACTGCAATTGACGCTCGATGCCCAGGGCCACGGCGAGCTGGCGTTGGCCTACGACCTCGGCCTGTATCGCGAGGGGCAGATGCAGGCGCTGCTCAAGCGTTTTGCCCATTGGGTTGGCCAGCTGGTGCAATCGCCCGACGGGCTCATCGCTGACATTGACGCGCGCCTGCCTGAAGAATGGCTGGCCTCGGCGCAGACTGCTGCCCTTGGACCGGACCTCGATATCATCGCGACCTTGCGCCGCCATGCCCAGGCACAACCGTCGCGTCCGGCGCTGCGGTATGCCGAGCAGGTATTTTCCTACGCTGACCTGGATGCCCTGAGTGATCGTGTCGCCGGCAGCCTGAACGAGGCTGGCGTGGGCCGCGAGCAGGTCGTTGGGCTGTATCTGCCGCGTGGCGCGCAGATGCTGATCGCGATGCTGGCCTGCTTCAAGGTGGGGGCCGCCTATCTGCCATTGGACCCACAGCAGCCACCGCTGCGTCTGGCCGGCATACTCGACGACGCCCAACCGGCGCTGTTGCTGCACCTGGAGGGGCTGTTGCCCGAGACATCGGTGCGGACCCTGTGCTGGTCGCAGGCGAGCAACGGGCCGGCGTTCGCCGCGCCAGTCTCCGGCACAGCGCAGGACCTGGCCTACGTGCTCTATACCTCGGGCACCAGCGGCAAGCCCAAGGGTGTGCAGATTGAACAAGGGCAATTGCGTCACTACGCCACCCAGGTGACCCGCGCGCTGCAATTGCCCGAGGGCGGGCATTACGGGCTGGTGTCCTCGTTGCTCGCAGACCTGGGCAATACCGTGCTGTTCCCGGCGTGGCTGCAGGGCGGCTGCGTGCATGTCCTGGCGCAGACGACCGTGACCGATGCGCGGGCGTTTGCCGATGAGCTTCGGCGCTACCCACTGGACGTGCTCAAGATCGTACCTTCGCACCTCGAAGCGCTGATGGGCGAGCAGGCCGCCGACGTCCTTCCACGCCAGGTCCTGGTGCTGGGCGGAGAGCCGATCGGCGAGGCGCTGTTGACCCGCCTGGCGCAGGCCGGACCGACCTGCCGTGTTTACAATCACTATGGTCCGACCGAGACCACGGTAGGGGTGTTGTGGCGGGCGATCGATCTGGAGCAGGGGGTGAGTGGCTGCGCATTGGACCAGGTGTTGGGTGCCAACCGTATCCACCTGCTCGACGAGCGGCAGCGGCCGGTACCGTCAGGCCAGGCCGGCGAGTTGTGCATCAGCGGCGCCAGCGTTGGTCGGGGTTACGTCGGCAATGTCGGCGGCAACGCCTTTGCTGTCGAGCCTGCCAGTGGTCATCGTCTATACCGTACGGGCGACCTGGCCATGCGCCAGGCCGATGGGGCCGTGCGCATTCTGGGGCGCAACGATCAGCAGGTGAAAATCCGTGGGTTTCGCCTTGAGTTGGCCGAGGTCGAGCAGGCAATGCTGGCCCAGCCAGGCATCTCGCAGGCTGCCGTGCTGCTGGACGGCGAAGGTGACCACGCCCGATTGCTGGCCTTCGTGGTCACGGAGGAGGCGTATTCGCAAGGAACGGATCAGTTGCGCGCCAGCCTGGCCCGCCAGTTGCCGGACTACATGCTGCCCAGCGCTGTCCTGGCGCTGAAGGCCATGCCGTTGAACAACAATGGCAAGCTCGATCGCAAGAACCTGCTCGAACGCGCCCGGCAGCGTTTGCACAATACCCGCGTGGCACCGGTCGGCGAGCTGGAGGCGACGACCCTCGCCATCTGGTGCGAAGTATTGGGAGTCGAGGACCTTGGCGTCACCGACAATTTCTTCAATGTCGGTGGGCATTCGCTGGCCGCGATCAAGGTGGTGTCGCTGATTCGTGAACGGTTGGGCCTCGACCTGCCGACCAACCTGCTGTTCGAACGCCACACCGTGCGTGACCTCGTCCAAGGCCTGGGCGAGATCGACAGTGGTCCGTGGAAGGTCCTGAACACTGCCGATCCGCAAGCCCCGGCGCTGTTGCTGGTGCATGGGGCGCAAGGGCATCTGCAGGCCTACCAGCCGCTGGTGGACAACCTGCGCGACGGCGTCGCGGTGTTTGGCCTCGCCGCGCTTGAAAGCGGCTGGGCCGAGGGCGACATGGATGCACTGCTGCGCCGATACGTGGCGAGTATCCCGGCGCAGCTCAAAGAGCGTCCGCTGGTACTGTTGGGCTGGAGCCTGGCCGCGCGCCTGGCCATGTTGCTGGTGCCGCATCTGCAAGCAATTGGTTTCAGTGTCGCCGGGTTGGTGGTGCTGGATCACGATGCGCAGCGCAGCCTGGCCGGCGAGGGTGATGAAGCCGGCCAGTTGATTGCCGATTTCGCTTTTTATTGCCGCAGCCACGCCCAGCCGCTCGGCGAGTCGCTACGGGAGCGGTTGACGGGCCGGTTGGCCGGCCTTGACTATGCCGAGGGTGTCGCCCGGCTACTGGACGACGAACAAGTGCGCGCGCATCTGCAATGGGAGTCGGCCGACGCGGAATTACTGGCGTTGATGGCGCAATATCGCGCGATCAAGACCCGCTTGTACGAGCAGGCCTTGCCGACCGTCGATGTGCCGGTCTGGCTCTGGCGCGGCAATGCCCACGGCGATTTGCGCGCGCCGTGGCAACGCCATGCCTTGCAACCGGTCAGCCAGTGGACATTGGACGTGGGGCATCATGAAATGCTCGGCGAGCCGCGACTGGTCGAAAACCTGCTGCCTTTACTGTTGCAAAACTCTGCCAAGGTGGTGCCGGTCCCATGA	MMDLGLTLSPQQKQLAQANPQAWRWVRMRLAGVPEGIVEQRLRDALAQHQALRLRYERPLGATGLRQRVIEPDALRLDWRQGRAADGHDGQSWLEAARRRCDAEQPDILAWLLDDLLLLAVPVYSLDQRSLIGLQEHLLGRATALDDEPMQYADYVEWINGLQLDEDAEQGAQFWRNLALQDIPGMRLVERYGIASGRHAVVRQELEQRLPTMLTALADREGVAVEQWVLAAWGSLLGRLNGQQQGQLGLQHDPRDNYEELSGAYGLFEQTLPMVLQVSEHSTLTNLARQLARQLESAVDWQEYVGQAQLLPEWRASFQAGLRVSPVPQLDMSHWLSFDTPVELQLQLTLDAQGHGELALAYDLGLYREGQMQALLKRFAHWVGQLVQSPDGLIADIDARLPEEWLASAQTAALGPDLDIIATLRRHAQAQPSRPALRYAEQVFSYADLDALSDRVAGSLNEAGVGREQVVGLYLPRGAQMLIAMLACFKVGAAYLPLDPQQPPLRLAGILDDAQPALLLHLEGLLPETSVRTLCWSQASNGPAFAAPVSGTAQDLAYVLYTSGTSGKPKGVQIEQGQLRHYATQVTRALQLPEGGHYGLVSSLLADLGNTVLFPAWLQGGCVHVLAQTTVTDARAFADELRRYPLDVLKIVPSHLEALMGEQAADVLPRQVLVLGGEPIGEALLTRLAQAGPTCRVYNHYGPTETTVGVLWRAIDLEQGVSGCALDQVLGANRIHLLDERQRPVPSGQAGELCISGASVGRGYVGNVGGNAFAVEPASGHRLYRTGDLAMRQADGAVRILGRNDQQVKIRGFRLELAEVEQAMLAQPGISQAAVLLDGEGDHARLLAFVVTEEAYSQGTDQLRASLARQLPDYMLPSAVLALKAMPLNNNGKLDRKNLLERARQRLHNTRVAPVGELEATTLAIWCEVLGVEDLGVTDNFFNVGGHSLAAIKVVSLIRERLGLDLPTNLLFERHTVRDLVQGLGEIDSGPWKVLNTADPQAPALLLVHGAQGHLQAYQPLVDNLRDGVAVFGLAALESGWAEGDMDALLRRYVASIPAQLKERPLVLLGWSLAARLAMLLVPHLQAIGFSVAGLVVLDHDAQRSLAGEGDEAGQLIADFAFYCRSHAQPLGESLRERLTGRLAGLDYAEGVARLLDDEQVRAHLQWESADAELLALMAQYRAIKTRLYEQALPTVDVPVWLWRGNAHGDLRAPWQRHALQPVSQWTLDVGHHEMLGEPRLVENLLPLLLQNSAKVVPVP				NA	NA	NA	NA	NA
D1-35_04790	9033	dltA_3		D-alanine--D-alanyl carrier protein ligase	ATGACGCAACAAGCTTTCCTGGAGATTGCGCAGCGGCTGGCATCCTTGCCCGCGGACAAGAAAAAAGTCTTTCGCCAGCGCCTGGCCGAGAAGGGCATCGACAGCTGGCGCCTGCCGATCGTCCCCGCCGTGCTCGGGGAAGGCGAGCCCAGGCCGCTGGCGCAGGCGCAGCGGCGCTTCCTGTCGGCTGAAGCCCTTAGCAGCCGGGCCCTTTACAATTTGTGCTCGGTGCTGCGATTCGACGGGCGCCTGGACGGCGAGCGTCTGCAGCAGGCGATGCAGCAAGTCGTCGATCGCCACCAGATCCTGCGCACTCGCTACACCACGGATGCCAACGGGCAATTGCAGCCTCATTGCGCGCCGCAACAGGTCCGCTTGCCAGCCGTCGAGCGGTTGACGTTGGCGGCGTCTGACCAGGCGCAATGGTGCGCCGATGAGTACGCCCGCCAACTTGCCGAACCGTTTGACCTGGCTCAGTCGATGCCTTGGCGCTGGCAAGCGTTCAGTGACGCCCAGGAGCAATCCACCTGGCTGTTTTTCACCATCCATCACGTCGCCTATGACGCCTGGTCGGCCCAGCAACTCACCCTTGAACTGGCCGAGGCCTATCGGGCGCTCGCTTCGAACCAGCCTGCCGCACAACCCGAGTTGAGCATTCAATACGCCGATTACGCCGCGTGGGAGCGCGAGTGGCTGGACAGCGACACTTGCCGGCAGCACATCGACTTCTGGCGCGACCAACTGGCGGACGCGCCGGCGCCCCTGGCGTTGCCACTGGACCGGCCGCGCCCTGCGGCCACCCAACGTCGCCAGAGTGGCGCGATCCTGGCCCGGGAGCTTTCGCCGCAACTGACCGCGACGGTGGAGGCGGCCATTCGCAACCAGGGGGTGACGCTGTATATCTACGGCCTGACGGCCTTTACCTGCCTGCTGTCGCGCTACAGCGGCGAGACGGATCTGTGCCTGGGCACGTCGGCGGCCCAACGTGACCGTCCGGAGCTGGTGCCGTTGATCGGCCCGTTGCTCAATACCCTGGTGATCCGCCAGCGTCTGCAGGACAACCCGGACTTCGGCAGCGCCTTGCTGCGGACCCGCGATACGGTCGCGGCCGCATTCGACCATCAGCAGTTGCCCTTCGAAAATATCCTTGAAAGCCTTGAGCGTCCGCGTTCGAGCCCGCTGTTCCAGGTCATGTTCGTTCAGGTTGATCTACCCGAAAGCCGCACCCTGGCCTTGCCGGGTGTGGCCGTCGAAGTGCTTGACCCGCCGCAACGGCATGCACGTTTCGACTTGACGCTGCGCATGGTACGTAGCGCTGACGCGCGACTGCGCTGCGAGCTGGAGTACAGCGACGAATTGTTTGATGCGGCGACGGTCGAGCAGATGCTCGACGACTTGCTGGCGATTCTGCAGGAGGGCTCGGTGCATCCGCAGCGACGCCTGGCGGATCTGCAACTGGTTTCGCCGCCCAGCGAGTTGCATGGCCCCGCCCTGGATACGGCGCCGTTGCCGTTGGACCGGCAAGTGTTGCACTGGGCCAATCAGACGCCGTCCGCTGCGGCACTCTGCAGCGTTGGGCGGACCCTTGATTACGCCACGCTCGGCGCCGCCAGTCGGTCGATGGCCGCGCGGCTGGCCGGGCAGGGCATCGGACCTGGGCAGGTGGTTGCTCTGTGCATGCCACGCTGCGCTGAACAGCTGTTGGCGACCCTGGCTTGTTGGCAGCGTGGCGCGACCTGCCTGTTCCTCGACCCGGCGCAACCGCCGCAGCGCCTCGCGCAGTTACTGCAAGACAGCGGCGCGAGCCTGTGGGTGACGCTGGCGCACGCGCCTGAAGCCGGCGCTGGCCTCGCGCATCTGGTGATGAGCGACGCCGACTGGTCGGCCGATGCCAATGCCGGGCAGGGCGAAAGCCTCAGCCAGCCGCAATTACCTGCCTACCTTATCTATACTTCGGGCTCGACCGGCCAACCCAAAGGCGTGCTGGTCAGCCATGCCAACCTGGCGCATTACGCGAGCGCAGTCGGCCAGCGCTTGCACGCCTTACCCGGCAGCCGTTGGGCGACCCTGGCGACCGTCGCCGCGGACTTGGGGCTGACCTCGGTATTCGCCGCGCTCGCCGCTGGCGACCCGCTGGTCTTGCCGCCGGCGTCGTTGGCTTTCGATCCACCCGGCTGGGCTGACTTTCTTGATCAGAATCCCGTCGATTGCCTGAAGATCGCGCCTTCGCATCTGCGCGGCTTGCTGGCATTGGACGACGCCCGCCGTGTGTTGCCCAGGGAAATATTGATCCTCGGCGGCGAGGGGTTCGATCAGGCCCTGTTCGCCAAGGTGCATGAACTGGCGCCGCAACTGCGTATCTTCAATCACTACGGCCCGTCGGAAACCACGGTTGGGGTGATCTGCGGGGAAATCACCGGGTCCGACGCACTCGAAGCGGGTCAGTACTTGCCGTTGGGCCAGCCTTTGTCCGGCTGCGAGTTGCGCATCGTCGATGGCAATGACAGAGCCGTACCGCTCGGGGTTGCCGGTGAGCTGTTGATTGGCGGGCCCCAGGTTGCCCAAGGCTACCTCGGGCAACCCGGGTTGACGGCGCGCGCGTTCGGTTGCACGGCCCAGGGGCAGCGATTCTATCGCAGCGGTGACCGGGTGCGCCTGGATCGCAACGGGCGGCTGGTATTCCTCGGGCGCCAGGACGATCAGGTCAAGATCCGCGGTTTTCGCGTCGAACCGGGCGAGGTCAGTGCCTGGCTCAACGCCCAACCCCAGGTGCGCGAGGGGGCGGTGCTCGCCTGCGAAGTGAAAGGACGCACGCAACTGGTGGCATACCTCACCCCCGGGATCGGCTCTTCGATGACCACCGAAGCCTTGGCGATGCTGCAAGCCGAGGCCAAGCGCCAACTGCCGGAACACATGCTGCCGGCCTATTGGCTGGCCCTCGATACACTGCCGCTGACCGCCAACGGCAAGCTCGACCGGCGCGCATTGCCCGAGCCCGCAACGGATGAGCCGACCGCTGAAGCCGCCGAGCCACCGAACGGCGCGACCGAACAGCGCCTGGCGCTACTGTGGTGCCAGATTCTCGGTTGTGCGCAAGTCGGGCGCGGGGATGATTTTTTCGCCCTCGGCGGCGACTCGATTCTCAGCCTGCAATTGATCGGCCTCGCTTCGCGGGAAGGGCTGAGGCTGCAACCTCGCGATGTCTTGCAGCATCCGACATTGGCGGCCATGGCGCTGTGCATCGATTGCCGCGCCGAGCCCGCCTTGCTCACGGTGCTGACGGCCTTTCGCGAGCTGCTCGGCCAACCCGCGCTGGGCGCGGATGCGGATTTTTTTGCCATGGGCGGCGATTCGATCCTCAGCCTGCAACTGATCGCGCGCTTGCGTCAGGCCGAGCTGCGCCTGATGCCTCGGCAATTGTTGGAGAACCCAACCCCTCGGCAGTTGGCCAAGGCGCTGACGCCGGTCGTGGCGCCTGTCGTCGCGGCGGTCGAGCCGAGCGACGTGGCGAAGCAACCACAGCCGCTGTCCCACGCCCAGCAACGGGTGTGGTTCATGCAGCAGCTCGATCCGGCTGAAACCGCCTACAACGTCACCCAGTTGCTGGCCTTGCGCGGCGATCTGGATGTGCCGCGTCTGCAACGTGCCTGTCAGGCGCTGGTCGCCCGTCATGATGCGTTGCGCTGCCTCTTCTTCGAAGAGCAAGGGCAAGTCTGGCAGCGCCTGGACGATACGCCCGCGGCGATCTTCAACGTCCACGATATCGGCGGTCTGACCGGGGCGGAGCAGGATGCGGCCATCGCCAGCGCGGCCAAGCGGGTGTTCGACCTCACGCAGGGGCCCTTGCTGGCGGTCGATGTGTTTTGTGTCGCACCCGCTGACTACCGCTTGCTGTTCAATGTGCATCACATTGCCGTGGACGGTTGGTCCATGGGCCTGCTGGTCGAGGATCTGACGTCGCTCTATCAGGAGCGGACGCTGTCTTCAACAAGCGCTCTGCTGCCGTTGATCAATGCGCAGCGGCAACAGTTGGAAGGGGACCACGGCAAGACGCTGTTGGCTTATTGGCGGCAACGCCTGGAAGGCTTGGGCAACGAGCCTCTGGAATTGCCCGGACAACCCACTCGGCCGACAGTGCAGGCATACGCCGGTGCGCGGGACGAGTTCGCTTTGCCCGGTACGTTGAGTGCCGCTGTGGAGGCGCGGGCAAGGGCGTTGGGCGTCACACCGTTCGTGGTGTATTTCGCTGCGTATCAATTGCTGCTCTGGCGTCATGGCGGCCGCAGTGACTTCGCCGTCGGCGTTCCAGTGGCCGGACGCGAGTCGGCAGAGAGCCAGGCGCAAGTCGGCCTGTTCGTCAACACGCTGGCGCACCGGGTGCAGATCGATGCTCGCCAGAGCCTGCAATCGTTCGTCCAGGCCTTGAACGGCAGACTGAGCGATGACCTGGCTCATCAGGCGCTGCCGTTCGAGCAATTGCTCGACGTGCTGAATATCGAGCGCAGCCTGGATCGCACGCCGGTGTTCCAGACGATGTTCAACTACCAGGTCGACCACCAGCAGTCCCGCAGCCTGAACCTGCCCGGCGTCAGCGCACAGGCCCTGGCATTGCCGGGCGGGGTGGTGAGCGCCAAGTTCGACCTGACCTTCAACCTGTTCACCCAAGGGCGTGGTGCCGAGGCCAGTACCGGGTTGATCGTCGAATACGCGACCGCGCTGCTGCAACCGGGCACCACCCGGCGGCTGGTGGAGGACTATCAGGGATTGCTCGCCAGCCTGGCGGGTATTGACCTCCAGACACGCTTGCCGGAAATCCCGCTGCGCTCCGTTGCGACCCTGGCGACTGCCGGTGAGCCGATGCGATTGTCCGGCGAAGCGGATTTCGTGACGCGTTTCGAAGCGCAAGCCGCTGCGCATCCCGAGCGCATCGCGGTGTACTGCGCTGACCGGCAGATAAGCTACGGGACGCTGGATGCCCAGGCCAACCGCCTCGCTCATTGGCTACTGGCCCAAGGCGTGGGCGCCGAATCGATGGTTGCCTTCTGCCTGCCTCGGGATGAGCGGTTGCTGGTGTGCATGCTGGGCATTCAGAAGGCCGGGGTGGCATACCTGCCGCTCGATCCCGGCCATCCGCCGGCTCGCCAGGCGCAAATCCTCGACCGGGCGCAGCCGCATCTGCTGCTCTGCGATTCGCCGAGCGTCGATCTGCCGGCGCCGTTGCGCGTGTGCCCATGGGCGGACCTGCCGCTGGGGCAATTCGCGACCCAGGCGCCGGAAGTGGCGGCCAACCTTGGGCAACTGGCCTACACCCTCTATACCTCGGGCTCGACCGGCCAACCGAAGGGCGTGCAGATCAGTCGCGGCAACTTCGCCAACTTCCTGCTGGCCATGGAACAGGCGCTGCCCTTGGCAAATGTGCAGCGCTATCTGGCCTTGACCACGGTCACCTTCGACATCTGCGGCCTGGAGCTGTGCCTGCCGCTGGTGCGTGGCGGCGCGGTCGTCCTCGCCGACGATGAAGAGCGCCAGGATCCGCTGCTGCTTGCGCGCTTGATCGAGGAAAAGAATGTCGACCTGATCCAGGCCACACCGGCGACCTGGGCGATGTTGCTGCAAGGCGATCGCCAGCTGCTCAAGGGGCGCGTGGCCCTGGCCGGTGGCGAGGCAGTGTCGGCCGAGTTGGCGCACGAGCTGAAGCAGTGCGTGGCGCAACTGATCAATGTCTACGGCCCGACCGAGACCACGGTGTGGTCGACCCAGGCGCCGATCGATGCGCTGCAACTGCCCGTCGCGCCGATTGGCCGACCGCTGCTGAACACGCGCTGTCATGTTCTCGACGAACACCTGTGCGAAGTGCCGCCTGGCTGCGTGGGCGAACTCTATATTGCCGGCGACGGCCTGGCCCGCGGTTATGCCGGGCAGCCGGGGCTGACCGCCGAGCGCTTCATTGCCGACCCGTTCGTGGGTAACGGCGGGCGCTTGTATCGCACCGGCGATCTGGCGCGCTGGCAGCCCGACGGCCAGCTGTACTACCTCGGGCGTACCGATGACCAGATAAAGTTGCGCGGGTACCGTATCGAACTGGGAGAAATCGAGGCGGTTCTGCTCAGCCATCCCCAACTGCTGCAGGCGGTCGTGGCCGTGCAAGGCGAGCACCTGGCGGCGTTCTGGGTGGCGGAGGCTGAAAACGCACCTGACGAGGCGGCTGTGCGCGACTATCTGCAGACACGTTTGCCGATCTACATGTTGCCGACGCACCTGCAAGCGCTGGAGCGGCTGCCGCTCAACACCAACGGCAAGGTCGATCGCAAGCAGCTGCCGCGCCTGCTCGCGGTGGTCGACAGTGCACCTGCTACCGAGCGCGCCTTGTCGGCGAGCGAGGCCTTGCTGATCCAGATCTGGACCTCGGTGTTGCACGTGCAACACGTGCCGGTTGATAGCCATTTCTTCCAGATTGGCGGGCATTCGCTGATGGCCGCTCAAGTGCGTGGGCGCTTGCGCGAGCAGGGGTTTGACGTGCCATTGCGCTGGCTGTTCGAAACGCCGGTGCTGGCGCAACTGGCTGAGCGAATCGAAGGGCTTGCGGGGCAGCAGGACCTGGCTTCGCTGACGATCTCGCCGGTTGATCATGAGGTCGAGCAAGCCTTGTCATCAGCGCAACAGCGAGTCTGGTTGATGCAGCAGCTGGACCTTGCCGACAGCAGTTTCAACATGAGCAGTAATGTCCGTTTGCGCGGGCAACTCGACATCCAGGCCCTGGAGCGTTCATTGCAGCGGCTGGTAAGCCGCCACGCCATCCTGCGCACCACTTATCACCAGCGGGACGGCGAACCGCGCCAGCGCATCCACTCGCAATCGATAGTGGCCCTGGAAACCGTCGCGTCGACGCAAGCGCAGTGGCCGGTTGAAGCCCGGGACAGGGCACTGCGCCCCTTCGACCTGGTTCGCCAGGCTCCGCTGCGGGTGGTCCTGTATCGCCTCGGCGAACAGGATCATGTGCTGCAAATGATCATGCACCACATTGCCTCCGATGGCTGGTCCGGCGCTATTCTGGTCGATGAGCTGATCGAGGGCTACGAGGCCTACAGCACCGGCGTGCTACCGAGCCAGGAAGCGTTGCCGATCCAGTACGTCGACTACGCCGTATGGCAAGGTTCGGCCGCGGTCCGGTTGCGTCAGCGTGAAGGCCTGGACTTCTGGCGACGGACCCTGGCCGGCATTCCCGCGCAGGTGCCGCTGCCGTTCGATTTCCCGCGTCCGGAGCGTGACAGTGGCGCCGGGGCCGCAGTGGATTTCCAGTTATCGCCCGCCACGGTTGGCCGGCTTAAAAGGTTCGCCCAGGACAGTGGCACGTCGCCGTTCATGGTGCTGCTGACCTGTTATGCCGCAGTGCTGCAACGCGAGACGCAGGGCCGCGATCTGGTGATCGGTACGGACGTTGCGAACCGCGACCATCCGGCCACCGAATCGCTGATCGGCTTCTTCGTCAACCTGCTGGCCTTGCGTGTCCGCCTGCAACCGGAGTTGAGTTTCCGTGAGCTGGCGCTCCAGGTGCGTGAGGTTTGCCTGCAAGCGTTCGCCTGGCAAGACACGCCGTTCGAACAGGTCGTGGAGTGCCTCGAGCTGCCGCGCGTGGCCAATGTCCACCCGCTGTTGCAGACCTTGTTCGTGCTCGACAACACACCACGCCAGCAGCGTCAGCTGGGCGATCTTCAGGTCGAGCCGCTGGCCGGCGAGCAACACCACTCCAAGTTCGACATGGCTCTGTTCGCCAGCGAAGACTCTGATGCCATCAGCCTGCGCTGGGTGTACCGCACCAGCCTGTTCCGCCAGGCCACCGTCGAGCGCTTGCGCCATGCCTTCGAGTCATTGCTGGAGCTGGCCCTCGGCGCGCCGGACAATCCCATCGATACCTTGATTCCGACTGTAAAGGGAGCCGCTGCAATGTCCACGGACAACCCGCTGCAACGCAAAATGAGCAAATTGGGCAAGATGCGCCAGAGCGGATCGGCGGCGACCCGTGAGCCCATCGAAGCCCGGCCGCTGCGAGAGGAGGCGAAATTTCCGCTGCTGGTCTCGCTGCGTGACCGTGAACTGGCCCCGGCTATCTGGGCCGAAGCCAACCGCGACAAGGTCGAAAACTGGCTGCGCGAGCATGGCGGTATCCTGTTCCGAGGGTTCGACCTGCCGACACCGGCGGATTTCGAGGCGTTCTGCCAGGCGCTGTGCCCGCAGCTGTATGGACAGTACGGCGACCTGCCGAAGAAAGAAGGTGGCAAGAACATCTACAAGTCCACGCCATACCCCAAGGACCGGATGATCCTGTTCCATAACGAGAGTGCGCATCAGCACCGTTGGCCGCGCCGCCAGTGGTTCTACTGCGAGACGCCAGCGACCTCCGGTGGCGCGACGCCGATCGTCGACAGCCGCCAGGTCTACGGCGAACTGCCGGCCTGGTTGCAGGCAAACCTGCGGCGCAAACAGCTGATGTACGTGCGCAATTTCAGCGCCAGCCTGGACGTCAGCTGGCAGCATTTCTTCCAGACCGAGGATCGGGCCGAGGTCGAGCGAATCTGCCGTGAGAGCAACATTGAATTCCAATGGCGCGGCGCCAATGACCTGCACACCCGCCAGGTTTGCCCGGCGGTGATTCTGCATCCATTGACGGGCGAAGAGAGCTTCTTCAATCAGATCCAGCTGTACCACCCGGCATTTCTCGATGCCGATATCCGCGAGCAGTTCCTGCGCGATGGCGAAGCCGCCATGCCCAGGCAGGTGTTCTACGGTGACGGCTCGGACCTCGAGCCGGCCGCCATCGATGCCATCAATGCCGCCTATGACCGCTGCGCCGTGCGTTTCGATTGGCAACAGGGCGATGTGGTCATGCTCGATAACATGCTGGCGGCGCATGCCCGGGATCCGTTCGAGGGCGAGCGCAAGATTGTCGTGGCCATGGGCGAGATCTATGGTCGTCACCAGGTAATGGCTGCCCCTGCGCAGACCGAAGAGCATTCCGCAGAGTTGACCCCATGA	MTQQAFLEIAQRLASLPADKKKVFRQRLAEKGIDSWRLPIVPAVLGEGEPRPLAQAQRRFLSAEALSSRALYNLCSVLRFDGRLDGERLQQAMQQVVDRHQILRTRYTTDANGQLQPHCAPQQVRLPAVERLTLAASDQAQWCADEYARQLAEPFDLAQSMPWRWQAFSDAQEQSTWLFFTIHHVAYDAWSAQQLTLELAEAYRALASNQPAAQPELSIQYADYAAWEREWLDSDTCRQHIDFWRDQLADAPAPLALPLDRPRPAATQRRQSGAILARELSPQLTATVEAAIRNQGVTLYIYGLTAFTCLLSRYSGETDLCLGTSAAQRDRPELVPLIGPLLNTLVIRQRLQDNPDFGSALLRTRDTVAAAFDHQQLPFENILESLERPRSSPLFQVMFVQVDLPESRTLALPGVAVEVLDPPQRHARFDLTLRMVRSADARLRCELEYSDELFDAATVEQMLDDLLAILQEGSVHPQRRLADLQLVSPPSELHGPALDTAPLPLDRQVLHWANQTPSAAALCSVGRTLDYATLGAASRSMAARLAGQGIGPGQVVALCMPRCAEQLLATLACWQRGATCLFLDPAQPPQRLAQLLQDSGASLWVTLAHAPEAGAGLAHLVMSDADWSADANAGQGESLSQPQLPAYLIYTSGSTGQPKGVLVSHANLAHYASAVGQRLHALPGSRWATLATVAADLGLTSVFAALAAGDPLVLPPASLAFDPPGWADFLDQNPVDCLKIAPSHLRGLLALDDARRVLPREILILGGEGFDQALFAKVHELAPQLRIFNHYGPSETTVGVICGEITGSDALEAGQYLPLGQPLSGCELRIVDGNDRAVPLGVAGELLIGGPQVAQGYLGQPGLTARAFGCTAQGQRFYRSGDRVRLDRNGRLVFLGRQDDQVKIRGFRVEPGEVSAWLNAQPQVREGAVLACEVKGRTQLVAYLTPGIGSSMTTEALAMLQAEAKRQLPEHMLPAYWLALDTLPLTANGKLDRRALPEPATDEPTAEAAEPPNGATEQRLALLWCQILGCAQVGRGDDFFALGGDSILSLQLIGLASREGLRLQPRDVLQHPTLAAMALCIDCRAEPALLTVLTAFRELLGQPALGADADFFAMGGDSILSLQLIARLRQAELRLMPRQLLENPTPRQLAKALTPVVAPVVAAVEPSDVAKQPQPLSHAQQRVWFMQQLDPAETAYNVTQLLALRGDLDVPRLQRACQALVARHDALRCLFFEEQGQVWQRLDDTPAAIFNVHDIGGLTGAEQDAAIASAAKRVFDLTQGPLLAVDVFCVAPADYRLLFNVHHIAVDGWSMGLLVEDLTSLYQERTLSSTSALLPLINAQRQQLEGDHGKTLLAYWRQRLEGLGNEPLELPGQPTRPTVQAYAGARDEFALPGTLSAAVEARARALGVTPFVVYFAAYQLLLWRHGGRSDFAVGVPVAGRESAESQAQVGLFVNTLAHRVQIDARQSLQSFVQALNGRLSDDLAHQALPFEQLLDVLNIERSLDRTPVFQTMFNYQVDHQQSRSLNLPGVSAQALALPGGVVSAKFDLTFNLFTQGRGAEASTGLIVEYATALLQPGTTRRLVEDYQGLLASLAGIDLQTRLPEIPLRSVATLATAGEPMRLSGEADFVTRFEAQAAAHPERIAVYCADRQISYGTLDAQANRLAHWLLAQGVGAESMVAFCLPRDERLLVCMLGIQKAGVAYLPLDPGHPPARQAQILDRAQPHLLLCDSPSVDLPAPLRVCPWADLPLGQFATQAPEVAANLGQLAYTLYTSGSTGQPKGVQISRGNFANFLLAMEQALPLANVQRYLALTTVTFDICGLELCLPLVRGGAVVLADDEERQDPLLLARLIEEKNVDLIQATPATWAMLLQGDRQLLKGRVALAGGEAVSAELAHELKQCVAQLINVYGPTETTVWSTQAPIDALQLPVAPIGRPLLNTRCHVLDEHLCEVPPGCVGELYIAGDGLARGYAGQPGLTAERFIADPFVGNGGRLYRTGDLARWQPDGQLYYLGRTDDQIKLRGYRIELGEIEAVLLSHPQLLQAVVAVQGEHLAAFWVAEAENAPDEAAVRDYLQTRLPIYMLPTHLQALERLPLNTNGKVDRKQLPRLLAVVDSAPATERALSASEALLIQIWTSVLHVQHVPVDSHFFQIGGHSLMAAQVRGRLREQGFDVPLRWLFETPVLAQLAERIEGLAGQQDLASLTISPVDHEVEQALSSAQQRVWLMQQLDLADSSFNMSSNVRLRGQLDIQALERSLQRLVSRHAILRTTYHQRDGEPRQRIHSQSIVALETVASTQAQWPVEARDRALRPFDLVRQAPLRVVLYRLGEQDHVLQMIMHHIASDGWSGAILVDELIEGYEAYSTGVLPSQEALPIQYVDYAVWQGSAAVRLRQREGLDFWRRTLAGIPAQVPLPFDFPRPERDSGAGAAVDFQLSPATVGRLKRFAQDSGTSPFMVLLTCYAAVLQRETQGRDLVIGTDVANRDHPATESLIGFFVNLLALRVRLQPELSFRELALQVREVCLQAFAWQDTPFEQVVECLELPRVANVHPLLQTLFVLDNTPRQQRQLGDLQVEPLAGEQHHSKFDMALFASEDSDAISLRWVYRTSLFRQATVERLRHAFESLLELALGAPDNPIDTLIPTVKGAAAMSTDNPLQRKMSKLGKMRQSGSAATREPIEARPLREEAKFPLLVSLRDRELAPAIWAEANRDKVENWLREHGGILFRGFDLPTPADFEAFCQALCPQLYGQYGDLPKKEGGKNIYKSTPYPKDRMILFHNESAHQHRWPRRQWFYCETPATSGGATPIVDSRQVYGELPAWLQANLRRKQLMYVRNFSASLDVSWQHFFQTEDRAEVERICRESNIEFQWRGANDLHTRQVCPAVILHPLTGEESFFNQIQLYHPAFLDADIREQFLRDGEAAMPRQVFYGDGSDLEPAAIDAINAAYDRCAVRFDWQQGDVVMLDNMLAAHARDPFEGERKIVVAMGEIYGRHQVMAAPAQTEEHSAELTP				NA	NA	NA	NA	NA
D1-35_04791	9465	tycC		Tyrocidine synthase 3	ATGAACGACAAGGTCAAAGCTCTTTCGCGCAACATCGAAGCTATTTACCCGCTGGCTCCCATGCAGCAAGGATTGCTGTTCCACAGCCTGATGCACCCGGGCAAGGGCATGTACCTGCTGCAATACCGGCACGTCATGGTCATGCCGAACCTCGACCTGGCGGCGTTCCGCCAGGCTTGGGCGCAAGTGGTGGAACGCCATGAACTGCTGCGCACCTCCTTCGTCTGGAAGCAGCAGAAGCGCCCGATGCAAGTGGTGCACAAGCAGGTCGAACTGCCGATCACTTATGAGGACTGGTCGCACCTGAGCGAAGCCGAGCAGCACGCGCGCCTGGAGCAGTTGCTCAGCGCGGAACGCGCTGAAGGGCTGGACTTCACCAAGGCACCGCTCATGCGGGTCAGGCTGTACAAGTTGGCGCCCGACACGTATCAGTTCGTGCGCAGCTACCACCACATCCTGATGGATGCCTGGTGCTTCTCGATCATCATGATGGACTTCCTCAACGGCTACCGTGCCGCTCAGGAAGGCCGTCGATTGAACCTGCCGGCGCCACGTCCGTATCGCGATTTCATTCGTTGGCTGGAAACCCAGAAGCCGGAGGATCACCAGGCCTTCTGGCAACAACGCCTGGCGGGTTTCGACACGCCAAACGAGTTCGGCTTCGGCCATGTCGGCCGCATCCAGGGCGCCAGTGAACCGGTCGAGGATTGTGTGGAGTTTCTGCAGCCTGAGCAGACCTTGGCGCTGCAAAACGTCGCGGCGCAGCACGGTCTTACCCTCAATACGCTGGTGCAGGGCGCCTGGGCCTTGTTGCTGGCGCGCTACAGCGGCGATCACGACCTGGTGTTCGGTATCACCGTCGCCGGTCGTCCGGTCCATCTGCAAGGTATGGAAAGCATCGTCGGCCTGTTTATCAACAGCTTGCCGCTGCGCTGGAGCTGGCGCCCGGATGACGCGCTTGGCCCGTGGCTGAAAGCCTTGCAGACCGAGAACCTGAGCCTGCGTGAACACGAGAGTGTGTCCCTGGCCGACATCCAGCGCTGGAGCGACGTCCAGCGCCAGGACCTGTTCCAGAGTCTGTTCGTGTTCGAGAACGCGCCCATTGCCGCCGACGTGCGCCAGGGGCAGCTGGACTACCTGATCAGCGACATGGCCAACCGCACCCACACCAATTACCCGATCACCGTGGTCATCGTGCCGGGTGAGCGCCTGCACCTGCAACTGACCTACCAGACCGACTGGTTTCTGCGTGAAGAAGTCGAGCAGATGCTGCGGCACTTCCGTGCCCTGCTGTTGAACATGGGCCAGGCCCTGGGCGCGAACGCCGCAACGCCTTTGCATCAACTGGCGATGCTCGATGAAAGTGAAATCCGCCATCAGCACCAGGTCTGGGCCGGTGGAGGCCTGGCGGCCGACGAACAACTGCTGCAACCGTTGTTCATCGAGCGCTTTCAGCAGCAGGTCTGCCAGAATCCAGGGCGCGTCGCCATAGTCCATGGCGAGCACAGCCTGACCTTCGATCAGTTGAACCGCGCCGCCAACCGGCTGGCCCGGCACCTGCGGGCACAAGGGGTAAGCAGCGACGATCTGATCGCGGTGTTCGATGAGCGCGGGCTGGACCTGGTGGTGATGATTGTCGCCACGCTCAAGGCCGGCGCCGGTTGGCTGCCGCTCGATCCACGCAACCCGGCCCAACGCCTGGCCCAGGTGCTGCGCCAGAGCCGTACGCCGTTGCTCGTGCACAGCGCGGGGCAGGGCGAGTTGGCCATGCAGGCACTGGATCTGCTCGAACAGCGGCCCAAGGCCGTGCGTTATGACCCCTCGGTGCTGAGCGGCTGCAGCGATGAAAACCTGAACATCGCGGTGCACGGCGACTCGTTGGCCTATTGCATCTTCACCTCTGGCTCCACCGGCACGCCCAAGGGCGCCATGGTGGCCCAGGCGGGCATGCTCAACAATATTCTGGGCAAACTGCCGGGGCTGGGGCTCGATGCGAATGACGTGATCGCCCAGACCGCGCCGCAGTGCTTCGACATCTCGGTCTGGCAAACCCTCGCGGGCCTGGTGCTGGGCGCACGCACGGTGATTCTCGGTGACTGTGTGGTACAGGACCCCGAGGCGCTGGCAACGGCCATCGGCCGGCATGGCGTCAGCATCCTCGAAGCGGTGCCGTCATTGATGCAAAGCCTGCTCGACGCCGGCCTGGAGACGTCGCCCCTGCGCTGGGTTCTTGCCACGGGTGAAGCCTTGCCGCCAGCCTTGGCGCGACGCTGGTTCGAGCGCTATCCGGCGATCCCGCTGATGAACGCCTACGGTCCGGCCGAATGCTCCGATGACGTCGCCTTCCACCCGCTGCTGGAGCGTTTGCCGGAACAAAGCATCAACGTGCCGATCGGGCGCGCCACGCTGAACAATCGCCTGTATCTGCTCAATGCTGATCTGCAATCGATACCGGTTGGCGCAGTGGGCGAGATTTTCGTCGCCGGTGTCGGCGTCGGGCGCGGCTACATGGCCGACCCGGCGCGCACGGCGGCGGTGTTCCTGCCGGATCCGATTGCCAACGACGGTTCGCGTCTGTATCGCACCGGCGACCTGGCGCGCTTCCTGCCCAATGGCGATCTTGAATACGTCGGACGCACCGACCACCAAGTGAAGATCCGCGGCCACCGTATCGAACTGGACGAGATCGAAGCCTGCCTGACCCGTTACCCAGGGGTACGTGAGGCGGTGGTGGTGGCCCGTGATGACCAGCAGCGCTCCAAGGTGCTGGTGGCTTATGTCGTGGCCGAGGTCGCGTGCAGCATCGAGGCGTTGCGCGAGCATGTGCTGGGCAATCTTCCGGCCTACATGATCCCGAGTGCATTCGTGTTGCTGGAGCGTTTCCCGCTCAACGGCAACGGCAAGATCGATCGCAAATCCTTGCCCGCTCCGGATTTTGCCGCGCAAAGCCAGGCCCGCTATGTGGCACCCAGCAGCGCGTTGCAAGGCCAGTTGGTGGAAGCCTGGCAAAGCGTGCTCGGGCTCGAACAGGTGGGCGTCGAGGACAACTTCTTCGAACTCGGCGGCCATTCGCTGCTGGCCACTCAACTGATTGGCCTGATCGGCAAACTCACAGGCAAGGACTTGCCGTTGCGCGTGGTCTTCGAGCGTCCGACCATCACCGCCATGGCCGATTGGCTGGAAAGCCAGGCCGGTACGGTAAAACCGTCGCCGACCCTGCTGGCACGACCAGAAAAGCTGCCGCTGTCGTTTGCCCAGCAACGTCTCTGGTTCTTGCAGCAACTCGACCCGCAGAGCCCGGCGTACAACCTGGCGGGCGCGGTACGCCTGACCGGCGAGCTGCATGTCGCTGATCTGCGTGCGGCGTTGCAAGCGGTAGTCGACCAGCACGAGGTGCTGCGCAGCGGCTTTGTCAGCGGGGCCGAAGGGCCGAGCCAGGTGATCCTGGCGCAGACCGAAGTTGATTTGCCGCTGATAGATGTGGCAAGCGAGGCAGCGCTGCACGATCGGCTGCGTCAGGATGCAATGACCCCGTTTGCGCTGGAAGCAGCGCCGTTGCTGCGCGCCCGGCTGTATCGCCTGGCGCCGCAGGTGTTGGTCCTGTCGCTGAACTGTCATCACATCGTTGCCGATGGCTGGTCCCTGCAACTGATCATCGACGCTTTGTGCGAGCAGTATCGCAACCGCCGCCAGGGCCAGGCAATTCAACGACTCGCCCCGGCGATGCAATACGCTGACTACGCTGTCTGGCAGCGCCAGTGGATGGGCAGCAAGGCGTGCGCGCAAGAGCTGGCCTACTGGCGCGAGCAACTGGCCGGTGAACTGCCAGTGCTCGACCTGGCGGCCGATTTTGCCCGACCTGCCCAGGCCAGCCAGGCCGGAGGGCGCGTCGAGCGACGGCTGCCCGAGGACCTGGCGGCCCGCCTGAAAGCGTTCAGCGCTCGGCACGGCTGGAGCAATTTCATCCCGATGCTGACCGCCTTCCAGTTGCTGTTGCGCAGTCGCAGCGGCGAAGACGACATTCTGGTCGGTGTTCCAGCGGCCAACCGGCACCATGCGGTGTTGCAGCCTCTGGTCGGTTGCTTCGTCAACACGCTGGTGTACCGCAGGAAACTTTCCGGCGAGCGCAGCCTGCTGCAACTGATGAGCGAACTGCAGGCGCTGTCCGTGTCGGTCCAGTCCCATCAGGATCTGCCGTTCGATTACCTGATCGAACAACTCGGCGTGGTTCGGCAGGTGAGCTACAACCCGCTGTTCCAGGTCATGTTCAACTATTTCCCGGGCAATGCCCTGGAGCGTTTCGACCTCACCGACGTCATTGCCGAACCGCTGGACAACCGTCCGGACAGCGCGCTGTGCGACCTGCACCTGGATGTGCGCGACAGCGAGCACGGCATCACCCTGAGCTTGCAGTACAGCAGCGACCTGTTCCGTGAACAGACCGTGCAAGCGATGGCCGCACAGTACCTGGCGTTGCTCGACGCGTTGATCGAGCAGTCCGATCAGCCGTTGGGTGAGCTGGCATGGCAGCCGGCCGAGCGGGATCTTGCGCGGATTGATGGTCGCACGGTGAACGGTCATCAGGACATCCTCCAGGCCTTTGCGCTTCAGGTTGCCCGCCAGCCCGCGGCGATTGCCGTCGTGGCAGGCAATGAACAGCTGACCTACGCCGAACTGGATCAGGCCGCCGAGCGGCTGGCGGCGAAGTTGCAGGCCCAGGGCGTCGGTGTCGAAGACCGCGTTGCGCTGAGCCTGCCCCGCGACGCGCGCCTGCCGATGGCCATGTTGGCCGTGCTCAAGGCCGGCGCTGCGTATGTGCCCTTGGCCGAGGACACGCCACCGGAGCGTGGCCGCTACATTCTCCAAGCGGCCCGGCCCACGTTGTGCCTGGGCACGGCGGCGAGTCTCGGTGTGTTGGCGCAGTGGAACAGCGGCCTGCCGTTGCTCGACATTGATGCCAGCGCTTCAACCGACACCTTCAATGCAGTGGCCTGCGCCGCCGGTCAGCTCGCCTACGTGCTGTATACCTCGGGTTCCACCGGCCAGCCCAAAGGCGTGGCGATCAGCCGTGGCAACCTGATGAACCTGATGCTGGCTGTCGAGCAGGTCCTGCCGATGACGGCCCGGGACCGGGTCCTGGCGCTGACCACTGCGACGTTCGACATTGCCATCGTCGAGTTGCTCCTGCCCCTGGCCCGAGGCGCCAGTATTCTGCTGGCCGATCGCGAACAGGCGCGGGACCCGCAGGCCATCGACCAGTTGTTGCTGTCCGGGCAACCCACCGTCATGCAGGCCACGCCGGCCACCTGGCGGATGCTGGTGGCGCATACCTCGCGCAGTTGGCAAGGCGTGCGCGCCATCTCCGGTGGCGAGGCCTTGCCGTGCGCATTGGCCGAAGCCATCGAGGGCAGGGGAGCCGAGGTCATCAACGGCTACGGGCCGACGGAAGCGACCGTCTACAGCACCTTTGAAGTGCGCAGCGGCAACGAAGCCGGCGCCGAGGTGCCGATCGGGCAGCCGGTGGCCAATACCGCCGCGTACATTCTCGATGCCGACTTGCAACCGGTGGCCGCCGATGTTCCCGGTGAGCTGTACCTGGCCGGGGCCAACCTGGGCCGCGGTTATTTCGCCGCTGCGCGCCTGACCGCCGCGGCGTTCCTGCCGGATCCTTTCGTGGCCGGCGCGCGCATGTACCGTACCGGCGACCGGGTCAGGCGTAACAGCAATGGCAGCCTCGACTACCTGGGACGCCTGGATTTCCAGGTCAAGCTGCGGGGTTTCCGTATCGAACTGGGTGAGATCGAAGCGCTGTTGTCCCGCATTCATGGGGTTCGCGAGGCGGCTGTCGTGTTGTTGGGCAGCGGTGAGTCGGCGCGCCTGGTGGGCTATTACGCAGGCGATGCGCTGGATGAAGCGCTGCTGCGTGACACCCTTGGCGCTCAGTTGCCGGACTACATGCTGCCCAGTCAGTTTGTGCGTCTCGACACGCTGCCGTTGAGCCCGAGCGGCAAGGTTGACCGCAAGGCCCTGCCGGCACCGCAGCAACGTGACGGCCAGCATGGCGCGCTGGCGGGTGAGTGGGAACTGACCTTGGCCGAGCTCTGGAAGGAGCTGTTGGGATGCACCGAGGTTGGCGCCGACGATAACTTCTTTGCCTTGGGCGGGCACTCGCTCCTGGCGGCGCGACTGGTCGCGCGGATCGCCGAACAGCATGGCCGGCGTCTGCCGTTGCGCAGCGTGTTCGAGCAACCGCTGCTGCGTGACCTGGCCGCTACGCTGGCCCAGGCAAGCACCGAGGCCGACGGCATCCCGCGTGCTTTCGAAGAGCCCTTGGCACCGTTGCATTTCACCCAGCAACGCTTGTGGTTCCTTGATCGCCTGCAGGGCGATACCCAGGCCTATCACTTGTCCCTGGCCCTGCGCCTGGCTGGCAACTTGCAACCGGCCGTGCTGGAGCGGGCGCTGGCGCAACTGGTTGCCCGTCAACACAGCCTGCAAACGCTGTTCAGCGAAACAGCCGAGGGTGTGCGCCAGCGTGTCGAGGCCCTCGACGCCATGCCGCTGAGCTTCGAGCCACTGGAAAATGATGAGCAATCGAGCGCTTTCACCCAAAAACTGAGCCATGAGGCGCAGCGTCCGTTCGACCTCACCGCGCCGCCGCTGTGGCGCGTGCGTGTGTACCAAGGCAATGACCGCAGCGTGCTGCAAGTGACCGTGCATCACATCATCGCTGATGCGCGCTCGCTGGAGATTCTCTTCAACGAACTGCAACTGATCTACCAGGCTTTGCTGGAAGGGCGCGACGCTTGCCTGCCACCGCTGCCGCTGCAATTTTCCGATATCGCGGCCAGTTGGCAGAGCCCGGCCGGGCACGCGCGAATCGAAGCGCAGCTGGGGTATTGGCGTGACGCCCTGGCGGGCGAGCCGCCTGTGCTGAATCTGCCGACCGACATGCCGCGGCCCGCCGAGCAGGGCTACAACGGCCAGCGGCTGCGCTTCAACCTGCCGACTGCGCTGGTCCGGCGCCTGCGCGAAACGGCACAACGCCACGGCCTGACCGCTTTCGCGCCGTTGCTGGCGGCCTGGAAAACCCTGTTGGCCAGGCACTCGGGGCAGCGCGAAATCTGGGTCGGCCTGCCGGTCGCCCATCGCCATCAGGCCCACACGGATAACCTGATCGGTTACTTCGCCACCACTCAGGTACTGCGTAGTCACATCGACCCGCAACAATCGGTCGAGCAGTTCTGGCAGCAATTGCAAGCCACTCACCTGGCGGCGCAACAGTATGCCGACGTGCCGTTCGAGCGCTTGGTGGAAGCGTTGCAGGTGCGCCGCGATCTCAGCCACACGCCGCTGTTCCAGGCGTTGTTCAACCTGATCCAGCGGGATGCCAACGCAGCGCTCGAACAGCGCTTCGCCGGGCTGCCGTCACAGCGCCTCAACGTCGAAAGCGACAGCGCCTTGGTGGACATCGGCCTGCATATCGAACAGCAGGGCGAGGATTGGCAGTGCGTGCTGGAGTACAACACCGACCTGTTCCTGGCACATACCGCGCAGCGTTACGCCGATGAGTTCCGTTACCTGCTCGAAGGCATGCTCGAGCAACCCGAGGCGCGCCTCTGGGACATCGACCTGGCGAATGCCGACCATGCGCTCGCCGAGCGGCCGTGGAACCGGCCCGCGCAATCCTTGACCGCCGCAATGGACGTGATTGCCCGCTTCGAACGGCAAGCTGCCCTGACGCCTGAAGCCCTGGCCGTCGATTGCCAGGACCGACAACTGAACTACGCGCAACTCAACGCCATCAGCAATCGACTGGCCCATTGGCTGCGTGCGCGCAATGTCGGCACTGATGATCTGGTTGCCGTTTGCCTGAGTCGCGGCCCGTGGTTGCTGCCAACCCTGTTGGCGATTCACAAGGCGGGCGCGGCGTACCTGCCGCTGGATCCGCAACACCCGAGTGAACGCCTGCGCTTCATCACCGATCACGCGCGTCCAGCCCTGGTGCTCGGCGAAAGCCTCTGCGCCGAGGCCTTGGCCGGCGTCGATCACGTCCTGCTCGATCAGTTGACGCTGGACGCCAGCAGCGACGCCAACCTGACGCTGGCGGTGGACCCGCGGCAGCGCGCGTATGTGATCTACACTTCGGGCTCGACCGGTACCCCGAAAGGCGTGCAGGTGACCCGTGGCAACCTGAGCAATCTGTTGGCCGGTCTCGATCGCTTGCTGCCGCTTGGCGCCGAGGATGTCTGGCTCGCCAGCACCACGTACGCCTTCGATATGTGCAAGCCGGAGCTGTTCCTGCCGCTGGTCAACGGCGCCGCGATCCTGCTGGCGCGGCGCGAGCAGGTGGTCGATGGGCATCAGCTGTTCGCGCTGCTGCGTCGGGCCACGGTGTTCCAGGCGACACCGGCCGGTTGGCAGATCCTTCTGGAGACCGGCCAGGCTGACTGGCCGCCGTTGCGTGGGCTGATCGGTGGCGAGGCGGTGCCGGGTGAACTGGTGAACGAATTGCGCGGCCGAGGCGTGACGTTGATCAACGCCTATGGCCCGACGGAAACCACCGTCTGGTCGACCACCCAGGCGTTGCAAGACGTGCCGTCCGGCGTCGCCGACATCGGCGCGCCCTTGCTCAACACCCGTTGCTACGTGCTCGACGACATGCTCCGCCCGGTTCCGCTGGGCGCCACTGGCGAACTGTATATCGCCGGCTCCGGGGTCACCCGTGGTTATCAGCACGCGCCCGCCATCACGGCGGCGGCGTACTTGCCCGACCCTTATGCCGGCGAACCCGGCAGCCGCATGTACCGCACCGGCGACCTGGTGCGCCGACGCGACGACGGGCGACTGGCCTATGTCGGTCGCGGTGATTTCCAGGTCAAGGTACGCGGGTTCCGCATCGAACCGGGCGAAATCGAATCGCTGCTGCGCCGTTACCCAGGCGTCGAAGAAGCCGTGGTGATGATCGATTCGCGCAGCCAGAGCCTGTTCGCCTGGCTGCAAACGCCGAACCCGGTTGATCAGGCGGCGCTGCGTCGGTATCTCGAAGGTGTGCTGCCGGGCTACATGATTCCGGCCGGCTTCATCGAACAACCGCGCTTTGCCCTCAACGCCAACGGCAAGATCGACCGCAAGGCATTGCCGGCACCGCAGCCCGTGGCGATCCGGGGCGTGGCACCGCGCAATGAACTGGAACAGCAACTGGCGGACATCTGGCAGAACCTGCTCGAGTTGCCGCAAGTCGGGGTGTTCACCAGCTTCTTCGAGCTGGGCGGGCATTCGTTGCTGGCGATGCGCTTGATGACCCAGGTCGAAAGCCGCTTCGGCGTCAAGCTTGAGCTGCGCAGCCTGTTCCAGAACCCGACGATCGCCGCGCTCGCCGAGCAGATCGAAAAGCCCCAGGGGCCTTCGACCGACGAAGCCCTGGACGAAATGCAGCGCCTGTTATCAGAGATGGAAGAGTAA	MNDKVKALSRNIEAIYPLAPMQQGLLFHSLMHPGKGMYLLQYRHVMVMPNLDLAAFRQAWAQVVERHELLRTSFVWKQQKRPMQVVHKQVELPITYEDWSHLSEAEQHARLEQLLSAERAEGLDFTKAPLMRVRLYKLAPDTYQFVRSYHHILMDAWCFSIIMMDFLNGYRAAQEGRRLNLPAPRPYRDFIRWLETQKPEDHQAFWQQRLAGFDTPNEFGFGHVGRIQGASEPVEDCVEFLQPEQTLALQNVAAQHGLTLNTLVQGAWALLLARYSGDHDLVFGITVAGRPVHLQGMESIVGLFINSLPLRWSWRPDDALGPWLKALQTENLSLREHESVSLADIQRWSDVQRQDLFQSLFVFENAPIAADVRQGQLDYLISDMANRTHTNYPITVVIVPGERLHLQLTYQTDWFLREEVEQMLRHFRALLLNMGQALGANAATPLHQLAMLDESEIRHQHQVWAGGGLAADEQLLQPLFIERFQQQVCQNPGRVAIVHGEHSLTFDQLNRAANRLARHLRAQGVSSDDLIAVFDERGLDLVVMIVATLKAGAGWLPLDPRNPAQRLAQVLRQSRTPLLVHSAGQGELAMQALDLLEQRPKAVRYDPSVLSGCSDENLNIAVHGDSLAYCIFTSGSTGTPKGAMVAQAGMLNNILGKLPGLGLDANDVIAQTAPQCFDISVWQTLAGLVLGARTVILGDCVVQDPEALATAIGRHGVSILEAVPSLMQSLLDAGLETSPLRWVLATGEALPPALARRWFERYPAIPLMNAYGPAECSDDVAFHPLLERLPEQSINVPIGRATLNNRLYLLNADLQSIPVGAVGEIFVAGVGVGRGYMADPARTAAVFLPDPIANDGSRLYRTGDLARFLPNGDLEYVGRTDHQVKIRGHRIELDEIEACLTRYPGVREAVVVARDDQQRSKVLVAYVVAEVACSIEALREHVLGNLPAYMIPSAFVLLERFPLNGNGKIDRKSLPAPDFAAQSQARYVAPSSALQGQLVEAWQSVLGLEQVGVEDNFFELGGHSLLATQLIGLIGKLTGKDLPLRVVFERPTITAMADWLESQAGTVKPSPTLLARPEKLPLSFAQQRLWFLQQLDPQSPAYNLAGAVRLTGELHVADLRAALQAVVDQHEVLRSGFVSGAEGPSQVILAQTEVDLPLIDVASEAALHDRLRQDAMTPFALEAAPLLRARLYRLAPQVLVLSLNCHHIVADGWSLQLIIDALCEQYRNRRQGQAIQRLAPAMQYADYAVWQRQWMGSKACAQELAYWREQLAGELPVLDLAADFARPAQASQAGGRVERRLPEDLAARLKAFSARHGWSNFIPMLTAFQLLLRSRSGEDDILVGVPAANRHHAVLQPLVGCFVNTLVYRRKLSGERSLLQLMSELQALSVSVQSHQDLPFDYLIEQLGVVRQVSYNPLFQVMFNYFPGNALERFDLTDVIAEPLDNRPDSALCDLHLDVRDSEHGITLSLQYSSDLFREQTVQAMAAQYLALLDALIEQSDQPLGELAWQPAERDLARIDGRTVNGHQDILQAFALQVARQPAAIAVVAGNEQLTYAELDQAAERLAAKLQAQGVGVEDRVALSLPRDARLPMAMLAVLKAGAAYVPLAEDTPPERGRYILQAARPTLCLGTAASLGVLAQWNSGLPLLDIDASASTDTFNAVACAAGQLAYVLYTSGSTGQPKGVAISRGNLMNLMLAVEQVLPMTARDRVLALTTATFDIAIVELLLPLARGASILLADREQARDPQAIDQLLLSGQPTVMQATPATWRMLVAHTSRSWQGVRAISGGEALPCALAEAIEGRGAEVINGYGPTEATVYSTFEVRSGNEAGAEVPIGQPVANTAAYILDADLQPVAADVPGELYLAGANLGRGYFAAARLTAAAFLPDPFVAGARMYRTGDRVRRNSNGSLDYLGRLDFQVKLRGFRIELGEIEALLSRIHGVREAAVVLLGSGESARLVGYYAGDALDEALLRDTLGAQLPDYMLPSQFVRLDTLPLSPSGKVDRKALPAPQQRDGQHGALAGEWELTLAELWKELLGCTEVGADDNFFALGGHSLLAARLVARIAEQHGRRLPLRSVFEQPLLRDLAATLAQASTEADGIPRAFEEPLAPLHFTQQRLWFLDRLQGDTQAYHLSLALRLAGNLQPAVLERALAQLVARQHSLQTLFSETAEGVRQRVEALDAMPLSFEPLENDEQSSAFTQKLSHEAQRPFDLTAPPLWRVRVYQGNDRSVLQVTVHHIIADARSLEILFNELQLIYQALLEGRDACLPPLPLQFSDIAASWQSPAGHARIEAQLGYWRDALAGEPPVLNLPTDMPRPAEQGYNGQRLRFNLPTALVRRLRETAQRHGLTAFAPLLAAWKTLLARHSGQREIWVGLPVAHRHQAHTDNLIGYFATTQVLRSHIDPQQSVEQFWQQLQATHLAAQQYADVPFERLVEALQVRRDLSHTPLFQALFNLIQRDANAALEQRFAGLPSQRLNVESDSALVDIGLHIEQQGEDWQCVLEYNTDLFLAHTAQRYADEFRYLLEGMLEQPEARLWDIDLANADHALAERPWNRPAQSLTAAMDVIARFERQAALTPEALAVDCQDRQLNYAQLNAISNRLAHWLRARNVGTDDLVAVCLSRGPWLLPTLLAIHKAGAAYLPLDPQHPSERLRFITDHARPALVLGESLCAEALAGVDHVLLDQLTLDASSDANLTLAVDPRQRAYVIYTSGSTGTPKGVQVTRGNLSNLLAGLDRLLPLGAEDVWLASTTYAFDMCKPELFLPLVNGAAILLARREQVVDGHQLFALLRRATVFQATPAGWQILLETGQADWPPLRGLIGGEAVPGELVNELRGRGVTLINAYGPTETTVWSTTQALQDVPSGVADIGAPLLNTRCYVLDDMLRPVPLGATGELYIAGSGVTRGYQHAPAITAAAYLPDPYAGEPGSRMYRTGDLVRRRDDGRLAYVGRGDFQVKVRGFRIEPGEIESLLRRYPGVEEAVVMIDSRSQSLFAWLQTPNPVDQAALRRYLEGVLPGYMIPAGFIEQPRFALNANGKIDRKALPAPQPVAIRGVAPRNELEQQLADIWQNLLELPQVGVFTSFFELGGHSLLAMRLMTQVESRFGVKLELRSLFQNPTIAALAEQIEKPQGPSTDEALDEMQRLLSEMEE				NA	NA	NA	NA	NA
D1-35_04792	4815	dltA_4		D-alanine--D-alanyl carrier protein ligase	ATGCTCGATCGCCTGATGCATCGCTGCTGGCTGCGTGGAATTCGCCTATCGGAAGCCGAAGGTCAACTGGACATCGTGCCCGGGTCGCAAGGTGCTTTGACGGATGAACTTGAAGCTGAGCTCCGTTCGCGAGAGCACGAAGTGTTGCAATGGCTGGCCCTGCATCCCGATTATCTTGATGCGCGGCCACTGACCGACAATGAGCAGGCGCTCTGGTTTCTACAGCGACTGGAACCCGACAGTTGTGCCTATAACCTCGCTTACGCAGGACGAATCAAGGCGCAGTTCGTAACGGAGGACTTGCCCCGGCGCCTACAAGACGCCTGGGCCACGATTCAGCGGCGTTACCCTGTGTTGAGCACGGCCTACGGTGAACGCAACGGCGACCTGGTGCAGTGGAGTCGTAGCGAAAGTATCCAGCCGTTGCAGTGGGTTGCCTTGCAGGCGGCGGACACCGATACCTTGCAGCAACGCATTGCCGAACTGGCCGACCGGCCTTTCAATCTCCAGGCCGGTGAAGTCAGCCGAGGTGTGGTGCTGAGCAACGCCCGGGACGGTCATACCGAGCTCACGCTGCTGCTGGTGATCCATCACATCGCTGCCGATCCGGCCACGTTCCATATCGTGCTCAACGAGCTGTTCGCACAGGTCGATGGACAGCCGTTGCCTGCAATCAATCCTGATGCCTATCGCAACTACAACAGCGAGCTGCACGTGCGTAGCGAGGCGACCGAAGCTGCGGAGCTGGCATGGTGGCAGGCACAACTGAGCGAAGCTCCAACGCTGGAGTTGCCGACGGATTTCGCCTTTGGCGGTAACCGCTCATTCGAAGGGATGGAGCTGCCGGTTCGCTTCGATCCCGCCACCACGGCGAGGGCGAGGGCCCGGGCCCGGGAGTGGGGCGTGACGCCTTACGTCTGGTGGTTCTCGCTGTTTCAACAGTTTCTCGGGGTGTTGTCCGGGCAAAACGATTTTGTGCTGGGTACGGCCGGCGGTCTGCGCTTGCGACGCGAACACCTCAATTTGCCGGGCTATCTGGTCAACTCGCTGCCGGTTCGCTGTCGCTTGCAGCCAGACCTTTCAAGTCGTGACTGGGCCCGTGAGGTAGACGCCACCGTCAAGCAGGCCCTCGCGCACCGACACTACCCGTTCTCGCGCCTGGTCAAGCAGTTGAACCTCGAGCGTCAGGCGGGCAAGGCGCCGCTGTTCCAGCACATGTTCACGCTCAACAAGGAACGTGCCGCGCCGTTTCACCAGTACGTGGACCCCGTGTTGTCGGAACAGCGTGGAGCGGCCCATGAACTGAACATGGTTGTGGTGGATGAGGAGGAGGGTTTCCTCTGTCGGTGGCGTTACAGCAAGGCTTTGTACCGTCACGAAACAGTCCAGGGTTATTGCGACCAGTTCGTTGCATTGGTCCACGCGGTCATCGACCAGCCGGACGTACCTTTTGCCCAGCTCGACTGGCTACCGTCCGCGCAACGATCGGTCCTCAGTGGCGAGGACCTACCGGTCCCGGTCAGCAACGCCTGGCAGGCGTTCGTCCAGCAGTGCGCCCACAAGTCTGAGTCGATTGCCCTGCAAGACGAACAAGGCACATTGAGCTATGCCGAGCTGGGCCGAGCGGTGGTTGCCCGTGGCGAGCGCTTGCAGACAGGCGCGAACCTGGAGGGTGCTCGCATCGCCTTGTGCCTGCCCCGCAGCCGCGAGCTGGTGATGCACATGCTCGCGGCCTGGCAGTGCGGCGCCACGTACCTGGCCCTCGATCCGCAGTGGCCGCAGTCGCGTTTGCAGGACATCTGCGAGGATGCCACGCCCCGGGTCTGGGTGGGTGAGGGCCTGCGTCCCGAATGGCTGCCTGAACCGGTACGGTGGCTGTCGTTGCCAACCGCGTCGTTGTCCAGCGAATCGCCATTGCGCGCAGCCGTGGCCGCAGACCTGCCGGCTTACGTCGTCTATACCTCCGGCTCCACCGGACGGCCGAAGGGCGTGGCGGTCAGCCAGGCCAACCTGATTCATTACGTGAGCGGGTGCATTGAACGCCTGAACCTGTCCGCCGATGCCAGCCTTGCAAGCCTGGCCAGTTGCGCCACCGACCTGGGGCACACGGCGTTGTTCGGTGCACTGCTCAGTGGTCGGCGCCTGCGCCTGCTGGCCGAGGAGCTGGCTTTCGATGCCGAGGAGCTGGCTGCGGTGCTTGAGCGCGAGCCCGTGGACCTGCTGAAAATCGTGCCGTCGCACCTCAACGCCTTGCTGGTCGCCAATGATCCGCAGCGCTTGTTGCCGCGCCAGTGCCTGGTGACCGGCGGCGAGGCCCTGGGCCAGGCGCTGGTTTCACGCTTGCGCGCCTTGCAGCCGGACCTGCGCATCGTCAACCACTACGGCCCCAGCGAAACCACCGTTGGGGTGTTGACCCATGAGATCGATATCTGCGGCGCAGCGCCGCTGGGTCGACCCCTGCCGCATGTCCAGGTCAGCGTGCGTTCGCCCGCCGGCGCAGTCTTGCCGACAGGCGTCAGTGGCGAGCTGTACGTCCAGGGGGCGACCGTTGCACTGGGCTACCTCAGCGCGACCGACGCAGACCGGGTCCGCTTTGGCCGGCACGGCTATCGCACCGGCGATCGGGTTCGACTCAATCATCAAGGGCAGGTGGAGTTTCTCGGTCGGCTCGATGAGCAGGTGAAGATCCGCGGCTACCGGGTAGAACCGGCCGAAGTCGCGGCGCGATTGCGGGCGATGCCGCAGGTCGGCGACGTGCAGGTGCTGAACAGCCCTTCGCCGTTGACCGGCAATCGCCTGGTGGCTTTTCTGGTCGCGCCAGCTGCCGCGCTGCCCGACATTCAAGCTGCCCTGCAAGCGCAACTGCCGGACTACATGCAACCGGCCCAATGGCATTGTCTCGAGGGTTTCGCCTTGCTGCCCAACGGCAAGGTCGATCGCCAGGCATTGCTGCGATGGGACGAGCAGGCGCCGGCCCAAGCGCCGGCGAAAACATCGCTCGATCAGCCGTTGGACGCGGTTGAAAGCGCATTGCTGGACATCTGGCGCGGGCTGCTCGGCAATTCCGACCTGGGGCCCGATGATAACTTCTTTGCCCTGGGCGGTGACTCGATCCTCGGCTTGCAGATCATTGCGCTGGCGCGCCAGCAGAACATCCTGATGACGCCCAAGCAGCTGTTCGCCGAACAGACCGTGCGCGCCTTGGCGCGAGTGGTGCAGACACCGCAGCGCAGTCTCGAACAGCGCTTGCTCGACATCGCTCGGGAAATTCTTAGTAACCCGGAGCTGCGGGTCGATGACAATTTCTTCAGCGTTGGTGGCGACTCGATCCTGAGTCTGCAAATCATCGCCCGGGCCAAGCAGCAAGGCCTGCAACTCAAGCCCAAGCAGATTTTCGAATTCCCGACCGTACGCGGCTGGGCCGAACACGTGGTTGACCTTGGCGCGGCGAAGGAGGGTGCCAAGCCTTCCGAGCTCGAGCCCACTGCGGCATTTGCCCTGACGCCGATCCAGCAATGGTTTTTCGCCCAGGAGCAAAACCAGCCCGGGTATTGGAACCAGTCGTTGCTGCTGGCGTTGGACCAGCCATTGGAACCAGCGCGGTTTACCCAGGCCGTGGGCGCGCTGTTGCAGCGTCACGCCAGCTTGCGCCTGGTCTTCGAAGCCTCGGCGCATGGCTGGCAACAACGTTACCAGGCGTTCTCTCAATCCCAGGTCAACGGGTTGTTCCATGTCGAGGAGCAACCCCTGAGCGAAGCGCTGTTGCAGCAGTGGCAGCAAGGCTTCGATCTGGCAACGGCGCCGTTGATTCGCTGGGTGTATTTCTCCCAGAGCCGGGAGCTGCTGTGCACGGCGCATCACTTGCTCGTCGATGCAGTGTCGTGGCAGGTGCTGCTGGAGGAGCTGGAAAGTCTCTACCTGCAACCGGACCTGGCGTTGCCGGCCGTCTCGGCGGGTTTCCATGCGTGGAGCGAGGCCCTGCAGCAGCACCGCCGCGAGCCGGCCTTGCTGGGACAGGTTGATTACTGGCACGAACAACTACGTGCAGAGGGCGTTGTCCCGGAACAGGCGAATGCCTATGGCGCAAGCCGCACGCTGGACACGCAACTCTCATCGGCGCAGACGCAGTCGTTGCTGGGCGACTGCCACGCGGCCTACGGCACCCAGGTCCAGGATTTGCTGGTAGCAGCTTTGGCCGGCGTCATCGGCCAGTGGCAGGGTCGCGAGCGCGTCACCCTTGAGCTGGAAAGCCATGGCCGCAGCGGCTGGGAGCAGGCTCCCGATTTGTCCCGCTCGATCGGTTGGCACACCAGCCGCTATCCACTGGCGGTCGACACTTCCTGGGATCTGGAGCCCTCGATCATCGCGGCCAAGGAAGCCCTGCGCCGCGTACCCGAGCAAGGCATCGGCTACGGCCTGTTGCGCCAGGACCCGGCGCACGGCCTGGCTGCGGCCTCGCTGTTGACGTTCAACTACCTGGGGCGGGTCGACCAATGGATCGGCGCTTCGCGCCTCTGGCGCCTGGCGCGGCCGGTATGTCCAGGCATGCGCGCCGAGAGCACGCGCCGCACGCATTGGCTGGACGTGACGGCGCTGGTCAACGAAGGGCAACTGCACGTGGAGTGGCGTTATGCGCCGCAGGTCCATGACCCGGCGCTGGTGGGCGAGTTGGCGCGGCAGTTCCAGCAGCGCCTTTCAGCCTTGCTAGAGCATTGCCAGGCGCCCTCGGTTGGCCGCGCCACGGCTTCGGATTTCGCCGACTCAGGCTTGTCCGACGATGAATTCCTGGGGCTGCTCGAACAACTCGAACAGTGA	MLDRLMHRCWLRGIRLSEAEGQLDIVPGSQGALTDELEAELRSREHEVLQWLALHPDYLDARPLTDNEQALWFLQRLEPDSCAYNLAYAGRIKAQFVTEDLPRRLQDAWATIQRRYPVLSTAYGERNGDLVQWSRSESIQPLQWVALQAADTDTLQQRIAELADRPFNLQAGEVSRGVVLSNARDGHTELTLLLVIHHIAADPATFHIVLNELFAQVDGQPLPAINPDAYRNYNSELHVRSEATEAAELAWWQAQLSEAPTLELPTDFAFGGNRSFEGMELPVRFDPATTARARARAREWGVTPYVWWFSLFQQFLGVLSGQNDFVLGTAGGLRLRREHLNLPGYLVNSLPVRCRLQPDLSSRDWAREVDATVKQALAHRHYPFSRLVKQLNLERQAGKAPLFQHMFTLNKERAAPFHQYVDPVLSEQRGAAHELNMVVVDEEEGFLCRWRYSKALYRHETVQGYCDQFVALVHAVIDQPDVPFAQLDWLPSAQRSVLSGEDLPVPVSNAWQAFVQQCAHKSESIALQDEQGTLSYAELGRAVVARGERLQTGANLEGARIALCLPRSRELVMHMLAAWQCGATYLALDPQWPQSRLQDICEDATPRVWVGEGLRPEWLPEPVRWLSLPTASLSSESPLRAAVAADLPAYVVYTSGSTGRPKGVAVSQANLIHYVSGCIERLNLSADASLASLASCATDLGHTALFGALLSGRRLRLLAEELAFDAEELAAVLEREPVDLLKIVPSHLNALLVANDPQRLLPRQCLVTGGEALGQALVSRLRALQPDLRIVNHYGPSETTVGVLTHEIDICGAAPLGRPLPHVQVSVRSPAGAVLPTGVSGELYVQGATVALGYLSATDADRVRFGRHGYRTGDRVRLNHQGQVEFLGRLDEQVKIRGYRVEPAEVAARLRAMPQVGDVQVLNSPSPLTGNRLVAFLVAPAAALPDIQAALQAQLPDYMQPAQWHCLEGFALLPNGKVDRQALLRWDEQAPAQAPAKTSLDQPLDAVESALLDIWRGLLGNSDLGPDDNFFALGGDSILGLQIIALARQQNILMTPKQLFAEQTVRALARVVQTPQRSLEQRLLDIAREILSNPELRVDDNFFSVGGDSILSLQIIARAKQQGLQLKPKQIFEFPTVRGWAEHVVDLGAAKEGAKPSELEPTAAFALTPIQQWFFAQEQNQPGYWNQSLLLALDQPLEPARFTQAVGALLQRHASLRLVFEASAHGWQQRYQAFSQSQVNGLFHVEEQPLSEALLQQWQQGFDLATAPLIRWVYFSQSRELLCTAHHLLVDAVSWQVLLEELESLYLQPDLALPAVSAGFHAWSEALQQHRREPALLGQVDYWHEQLRAEGVVPEQANAYGASRTLDTQLSSAQTQSLLGDCHAAYGTQVQDLLVAALAGVIGQWQGRERVTLELESHGRSGWEQAPDLSRSIGWHTSRYPLAVDTSWDLEPSIIAAKEALRRVPEQGIGYGLLRQDPAHGLAAASLLTFNYLGRVDQWIGASRLWRLARPVCPGMRAESTRRTHWLDVTALVNEGQLHVEWRYAPQVHDPALVGELARQFQQRLSALLEHCQAPSVGRATASDFADSGLSDDEFLGLLEQLEQ				NA	NA	NA	NA	NA
D1-35_04793	990			hypothetical protein	ATGGAAACTGGTTTGGCGCGTGCACAGGTTCAATCCATGGAAGGCGTACCGGGCAACGAGCAGACCTTGCCGTTCATTTTCGAAGCGCCAGCCACGGGGGCTCGCTGGCAGGATAGCCGAGCGCAGATCCTGCAGGCAGTCGAGGCCGAGTTGCCGCGTGTCGGCGGCATCCTGTTCCGCGGTTTTGCCTTCAACGGGGAAGCCGATTTCGAGGAATTTGCCCGCGGTTTTGGCCATGAGCTGCTGACCTACGACTACGCCTCCACGCCGCGCACCAAGCTCAACAACCGCGTATACACCTCCACTGAATACCCGGCCCACCAGGTCATCCCGCTGCACAACGAGCAGTCCTATTCGCTCAATTGGCCGATGAAGATCTGGTTCCACTGCGTACAGGCTTCTCCTGTGGGTGGTGAAACCCCGATCGCCGATAGCCGCAGGGTCTACCAGCAACTCGATCCGGCGATCCGCCAGCGCTTCGCCGAGAAACGCCTGATGTACGTGCGCAACTACGGCAACGGCCTCGACTTGCCCTGGCAGCAGGCGTTCAGCACCGAAGATCGCTCGCAAGTGGAACAATTCTGTCGCGCCAACCACATCCAGTTCCAATGGAAGGACGACGGCGAGCTGTCCACGCGCCAGGTCTGCCAGGCCGTGGCCCAGCATCCGGTGACCGGGGAGTGGGTATGGTTCAACCAGGCGCATCTGTTTCATATCTCCAATCTCGCTGCGCCGGTACGCGAGACGCTGATTTCCATCGTTGGCGAAGAGGGTGTGCCACGTAACGTCTTCTACGGGGACGGTTCACCCATCGAGCTGGAAGCCCTGGAGCATGTGCGCGGCGTATTGCAGCGCTGCCAGGTGACTTTCCCCTGGCAGGCGGGTGACGTGCTGATGCTCGACAACATGCTGGTGGCCCACGGCCGCTCGACATTCCAGGGCGCGCGAAAGGTCGTGGTCGCCATGGCCGAGCCTGCTCCGGCGGGTTGA	METGLARAQVQSMEGVPGNEQTLPFIFEAPATGARWQDSRAQILQAVEAELPRVGGILFRGFAFNGEADFEEFARGFGHELLTYDYASTPRTKLNNRVYTSTEYPAHQVIPLHNEQSYSLNWPMKIWFHCVQASPVGGETPIADSRRVYQQLDPAIRQRFAEKRLMYVRNYGNGLDLPWQQAFSTEDRSQVEQFCRANHIQFQWKDDGELSTRQVCQAVAQHPVTGEWVWFNQAHLFHISNLAAPVRETLISIVGEEGVPRNVFYGDGSPIELEALEHVRGVLQRCQVTFPWQAGDVLMLDNMLVAHGRSTFQGARKVVVAMAEPAPAG	PGPT0031670_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-MALLEOBACTIN_METABOLISM,PGPT0031670-mbaH-NA	NA	NA
D1-35_04794	951	yfmC	COG4594	Fe(3+)-citrate-binding protein YfmC	GTGCGGGGAAGGGTGAAGGGAATATTCCAAGGGTTGCTCGGCATGCTGTGTGTGTCGTTGGCATTGCTGTCCATGCCTGCTGGCGCGGCCGAAACCAAGGTGTTCGAGAACAGTTTCGGCCGGGTTGAAGTCCCCGTTTCGCCGCGTTGCATCGTGTCTTTGCATGATTTCAGCCTGACCACCCAGTTGCTGGAGTTGGGTATCAAGCCCTGCGGCTCGACAGGGCGTAAAAAGCTGTTTTCGGATGTGCTGTTTCGTGGCGCGCAGGAGCGCTTCGATGTGACGGGCATTCAATACATCGGCTCGCACCAGTCGCCTGACCTCGAAGCCATTGCGGCGTTGAAGCCTGACCTGATCATCGGCCTGTCCTATCACGCCGACCTCAAGGACAAGCTCAGCAAGATCGCCCCGGTCGTTCTGTTGCCGTCGCGAGAGAGCGATATCAAGACCTACGCCAAGGAACTCGCCGACCTGGTCGGCAAGCAACAGCGTTATGAAGAAATGCTTCGCGAATACCAATGGGTGGTCAGCGAGTTCAAGAAGCGCGTCAAGGACCCTGCGCGCATCACGGTCACCACGCTGGAAGTCTATACCGATGGTTTCCAGTTGATCGGCCGTGGCGGGATGGATGACGTTATCGCTGATTTCGGGCTGGGGCGTGTCGCCGCGTATCGTGAGGCGCGGCAGAATGTGCCCTACAGCCTGGAGCGAATCGGTGACTTCGACAGTGATTTCATTATCGACACCTATGAGGAGCTGCTCGATTCGGAAACCAGCACCGCAGCTTTCCGCCAGTCCCCTCAATGGCGGAACCTGTTCGCCGTGAAGAACCGTCAGTTTCTCTACCTGAACCGCAGTCGTTATGCCGATACGATGCAAGGCCTGCTGGGGTCCGCTTACCTGCTGATGTCCCATATCGCTGAGCGCGAGAGTGTGCTCCAGGGCAAGTGA	MRGRVKGIFQGLLGMLCVSLALLSMPAGAAETKVFENSFGRVEVPVSPRCIVSLHDFSLTTQLLELGIKPCGSTGRKKLFSDVLFRGAQERFDVTGIQYIGSHQSPDLEAIAALKPDLIIGLSYHADLKDKLSKIAPVVLLPSRESDIKTYAKELADLVGKQQRYEEMLREYQWVVSEFKKRVKDPARITVTTLEVYTDGFQLIGRGGMDDVIADFGLGRVAAYREARQNVPYSLERIGDFDSDFIIDTYEELLDSETSTAAFRQSPQWRNLFAVKNRQFLYLNRSRYADTMQGLLGSAYLLMSHIAERESVLQGK	PGPT0003765_10038	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
D1-35_04795	1050	yfhA	COG0609	putative siderophore transport system permease protein YfhA	ATGATGCGCTTGGGGCTGACCCTGCCCAGAATGCTGCCGTTGCTGCCCTGGGTGGCCCGGCCGATCGACCTGATTTCGGTGCTGGTGTTGCTGCTCGCCTTGGTTGCGTTGGCCTTGTATGCACTAACCGTCGGCAGCTATTCACTGGATGTTGCCCAGGCCTGGCAAGCGCTGGCAGCCCCTGACCAGGCCAACCCGACGACGCGCAACCTGCTGTGGGAGTTGCGCCTGCCGCGTGTCTTGCTGGCGATCCTCGCCGGGGCGGCGATGTCGCTGGCCGGCCTGTTGATGCAATCGTTGACGCGCAATCCCCTGGCGGCGCCGGGCCTGGTAGGCGTGGAGTCAGGCGCCAGCGTCACCATGTTGTTGATCATCGTGCTCTGGCCCACGCTGCTGCCGCTGGAGCTGTATCCATTGGCGGCACTGACCGGTGGGCTGGCCGTGGCGTTCTTCGTCGCGTTGCTGTCGTGGCGCCAAGGCATCTCGCCGCTGCGCCTGATCCTCGTCGGCGTCGGGCTGACCGCCATGCTCAGTGCGGTTGCCGACCTGCTCATCACCTACGGCAATATCGACCAGGTCGAGTCAGCCTTGATGTGGCTGGGCGGCAGCTTGCATCGGGCCGGCTGGGCCCAGGTCCATAGTCTCGCCGCCTGGTTGCTGCTGGCGGGGACGCCGCTGCTGTTTTTTCATCGCCAGTTGAACCTGTTGCAGTTGGGTGAAAAAGTCGCCCTCAGCCGAGGCCTGAATGTGACGGGTGTGATGGCCTTCCTGTTGCTTTGCAGCGTCATGCTGACGGCGGCAGCGGTGGCGAATGTCGGCACCATGACCTTTGTCGGCCTGGTGGCCCCGCACCTGGCGCGCCAACTGGCGGGTGATCGCCACGGTGCCCTGATGCCTTTATCCGCGTTGATGGGGGCACTGCTGGTGCTGGCGGGCGACACACTGGGGCGGGGGCTTTTCCCACCGTTGCAGTTACCGGCAGGGCTGGTGGTCGCGATCATCGGAGCGCCTTACCTGATCGTCTTGTTGGCGCGTCAACGCAGTCGCTGA	MMRLGLTLPRMLPLLPWVARPIDLISVLVLLLALVALALYALTVGSYSLDVAQAWQALAAPDQANPTTRNLLWELRLPRVLLAILAGAAMSLAGLLMQSLTRNPLAAPGLVGVESGASVTMLLIIVLWPTLLPLELYPLAALTGGLAVAFFVALLSWRQGISPLRLILVGVGLTAMLSAVADLLITYGNIDQVESALMWLGGSLHRAGWAQVHSLAAWLLLAGTPLLFFHRQLNLLQLGEKVALSRGLNVTGVMAFLLLCSVMLTAAAVANVGTMTFVGLVAPHLARQLAGDRHGALMPLSALMGALLVLAGDTLGRGLFPPLQLPAGLVVAIIGAPYLIVLLARQRSR	PGPT0003770_3486	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
D1-35_04796	984	yfiZ	COG0609	putative siderophore transport system permease protein YfiZ	GTGATCCACGGTTTGCGCTTGCCGGTGTGGCTGGGCCTGCTGATTGCGATTGCCCTGGCCGCGCTGCTGCATCTGGCGGTGGGCGCCAAGAGCATCCCCTGGAGCGAGGCGTGGCAGGCCTTGGTCGCCTATTCGCCAGACAGCCCCGACCAGAGCGTCATTCGTGGCAGCCGCCTGCCACGCCTGCTGGTGGCCATGCTGGTGGGCGCGAGTCTCGGTCTGGCCGGTGCGATCATGCAGGCGGTGGGCGACAACCCATTGGCCGACCCGGGGATTCTCGGCATCAACAGCGGCGCGGCATTGTTCGTCGTGTTCGGCTTGCTGGTGCTACCGGGCCACGATCTGTCGATGATCCCGCTGTTTGCTTTCAGCGGCGCCCTGGTCGCCGCCGTTGGTGTCCTGCTGCTGGCGGGCAGGGGCCACAACCCGATTCGACTGACGTTGTCCGGGGCGATGATCGCAGCGTTATTCAGTGCTATCACTTCGATTTTACTGTTGCTCGATCAGCAGGGGCTGGACAGCCTGCGGCGCTGGCTCACCGGCTCGATCGGGGTGACCGGAGGTTCGATGCAGGCGTGGGTCTGGCCGTATGCCGTGTTGGGCATGTTCCTCTGCCTGGTCAACGTCCGCGCGCTGAACGCGCATCGGCTGGGTCCGCAAGCCGCCGCCGGCATGGGCGTCAACCTGTTGAAGATGCGTCTGTTCGGCCTGGCTTCGGTGGTTCTGCTGTCAGGCTGCGCCGTGGCCCTGGCGGGGCCTATCGGTTTTGTCGGGCTGGTGGTGCCTCACACCGCGCGCCTGTTGTTCGGCGATGACTACCGTCGGTTGCTGCTGGCCGCGCCCTTGCTTGGCGCGCTCCTGCTGATCCTGGCGGACATCGCCGCCAGGACCGTGGTGCGTCCCTTCGAGCTCAATACCGGGATCGTCACGGCGTTGATCGGCGGGCCGATCTTCGTGGTACTGGTGTTGAGGAAAGTCCGATGA	MIHGLRLPVWLGLLIAIALAALLHLAVGAKSIPWSEAWQALVAYSPDSPDQSVIRGSRLPRLLVAMLVGASLGLAGAIMQAVGDNPLADPGILGINSGAALFVVFGLLVLPGHDLSMIPLFAFSGALVAAVGVLLLAGRGHNPIRLTLSGAMIAALFSAITSILLLLDQQGLDSLRRWLTGSIGVTGGSMQAWVWPYAVLGMFLCLVNVRALNAHRLGPQAAAGMGVNLLKMRLFGLASVVLLSGCAVALAGPIGFVGLVVPHTARLLFGDDYRRLLLAAPLLGALLLILADIAARTVVRPFELNTGIVTALIGGPIFVVLVLRKVR	PGPT0003770_9277	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
D1-35_04797	804	fecE	COG1120	Fe(3+) dicitrate transport ATP-binding protein FecE	ATGCTGAAAGCCAGCAACGTGCGGCTGAGCTATGGCGAGCAACAGATTCTCAACGGTGTCAGCCTGGATATTCCCGAGGGTTGCTTCACCGCGTTGATCGGGGCCAACGGCTGCGGCAAGACCACGCTGCTTAATGTACTGGCGCATATGTTGCGGCCGAGCGCGGGTGACGTGCACCTGGGCGGAAAATCGTTGGGACAGTATTCTCGCCGCGCATTGGCGCAACGAATGGCGTTGCTGCCCCAGCGCACCACGTCGCCGGCCGGCATGAGCGTGCGGGAGCTGGTGATGCAGGGGCGCTTCCCCTGGCAGAGCTGGTGGCGCCAATGGTCCGACCAGGACCAGCAGGCGATTGATCGCGCCATCGACCTGGCGGGTATCGGGCCTTTGCTGGATCGCTCGCTGGCCACCCTGTCGGGCGGGCAGTTGCAGCGCTGCTGGATTGCCATGACCCTGGCCCAGGACACTCCGGTGATCCTGCTGGACGAACCGACGACCTTTCTCGACATCGCGCACCAGATCACGCTGCTCGAATTGCTGGTGGATCTGCGTGAGCAAGGCAAGACCATTGTGGCGGTGCTGCACGACCTCAACCAGGCCGCGCGTTACGCCGATCACCTGGTGATGATGCGCGAGGGTCGGTTGCTGGCCCAGGGCGCGCCTGCCGAGGTGTTCACTCGGGAAAACCTCAAGGCGGTCTTTGACCTGGACGCGCACATCATTACCGACCCTTATTCCGGCGATCCGTTATGTGTCCCGCAAACCACCCGTAGCCAGCCGCTGGCTGTGCGGGAGGCGATGTGA	MLKASNVRLSYGEQQILNGVSLDIPEGCFTALIGANGCGKTTLLNVLAHMLRPSAGDVHLGGKSLGQYSRRALAQRMALLPQRTTSPAGMSVRELVMQGRFPWQSWWRQWSDQDQQAIDRAIDLAGIGPLLDRSLATLSGGQLQRCWIAMTLAQDTPVILLDEPTTFLDIAHQITLLELLVDLREQGKTIVAVLHDLNQAARYADHLVMMREGRLLAQGAPAEVFTRENLKAVFDLDAHIITDPYSGDPLCVPQTTRSQPLAVREAM	PGPT0003760_3071	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
D1-35_04798	2190	fhuA_4	COG1629	Ferrichrome outer membrane transporter/phage receptor	ATGCTCGTCAGAAAAACAATAGTTGGCACCGAAAAACGTTACGTCTCGCGTCATCCTGCGTTTCACCTGAGCACGCTGGCACTGGCTTTGGGGAGCATTTTTTCAGCACAGGCGATGGCCGCACAGCAAGAGGCTGCTGCCAATGCCCCTCTTCAACTCGGCGAAATCAACATCAACGCCGCCGCGGTGGAAAACCCGACGGCGCCGCTGGCCGGCAAGGTCGCCTTGCGTAACGGCAGCGCCACCAAATCCAACGCAGCCATCACCGAAACGCCGCAATCGGTTTCCGTGGTGACCGCCGATGAAATGCGTGATCGCAAGTCCGACACTCTGGCAGATGCCCTGAGCTATACCCCGGGTTTCACCAGCCAGCCAAGCAGCTTCAACCGCACTTCCGACCGGTTCCGCATGCGCGGATTCGACGTCGAATCCGCCACCGGCGGTTCGCTACGCGACGGCATGCGCTTGCAGTACAACTCTTACGACGGTGTGCAGGAACCCTATGGTCTGGAACGCGTGGAGGTCGTGCGCGGCGCGGCTTCGGTGTTGTACGGCCAACTGTCGCCCGGTGGCTTCGTCAACGGCGTGAGCAAACGCCCGACCGAAACCCCACAGCACGAGCTGGGCATGCAATACGGCAACCATGATCGCAAGCAACTGACCGCCGACTTCAGCGGGCCGCTCGGCGACAGCGAAGTCCTCAGCTACCGCTTGACCATGCTCAAGCGCGACAGCGACACCCAGCAGGACTACATCAACGACGACAAGCTCTATATCGCCCCGGCCCTGACCTGGCGCCCCAATGAAGATACGTCGCTGACCCTGCTCTCGTTCTATCAGAAGAGCGACACCCGTTTCTCCGCCCCGCTGCCCTATCAATTGGTCAAGGGCGTGGGCAACGGGCCGGTCACCATCGGCCGCCACGATTTCATCGGCGAGCCCGATTACGACGACATGAATGGCGAGATGTCCGCCATCGGTTATGAGTTCGAACACCGCTTCGATGAGCACACCCGCATCAGCAACAAGCTGCGTTACTACGAAGCGGATGTGAAGTGGAAATATCTTCAGGCCGGAGCAGTCACCAACGGCGTTCTAGCTCGACAATACAGCGACCGCCGCGAGCGCTCCCGGGCACTAGCCAGCGACACCAACATAGAGACACGCTGGAACATCGGAGGGGTGGAAAACACCTTTCTGGTGGGTGCAGATACCTACGACGCGTCGTACGACTCGCATAACTTCCGGGGCCCCGCTCCTTCCATCAACATTGGTGACTATAACTACGGGCAGCCGGTCGTAGTGGACAAACGCCGGAGCCGCGAGCGAGGTTCGCAGATCGACACGTTCCAGACAGGTATTTATCTGCAAGACCAGATCAAGTTCGACGATCACTGGTTGCTGCTGCTCGGTGGCCGCCACGATTGGGCTGATCAGGATCAGGAAGCGTTCAGGACCGGTCAAAAGCTGAGCCAGGACGACGAATCTACCACCTGGCGCGCCGGACTGGTTTACCAAGCCGATAACGGCCTGGCGCCCTACATCAGCTATAGCGAATCGTTTTTCCCGGTGGCGGTAGCCGACGCACCAGACCAGACGTTCGATCCTACCGAAGGTAAGCAGTACGAAATCGGCATTCGCTACCAACCTCCTGGCAGCAACATGCTGCTGAGTGCCGCGGTGTACGAGCTGACGCAAGAAAACGTCGTGAAGCGCGACCTAGCAGGCAACAATCCTCGGCAGATTGGCGAGCAGCGCTCCCGTGGCTTGGAGCTGGAAGCCAAGGCTGACGTCACGCCCCAATTGAGTGTGATTGCCTCGTACGCTTACACCGATGCGCGGACTACTAAAAGTCAGGTCCAGAGCGAAGTGGGCCAGCGCAGCGAAGACACTCCTTACCACCAAGCCGCGCTGTGGGCTGACTACAACTTTGCTCTCTTCGGAGTGCCACAGCTGAAGGTAGGTGGTGGCGCACGTTACAAGGGCACCACCCAGGCCTCGGGCATCGATTCGCAAATGCCGGCCTATACGCTGTTCGACGCAATGGCTAGCTACCAGATCGATAAAAACTGGGACATCGCTCTAAACGCTAACAACGTGACGAACAAAAAGTACGTGTACTGCGAAGCCGCCATCTGCCGCTACGGCGATGAACGCGAGCTGGTGACGTCCGTCAACTTCCGTTGGTAA	MLVRKTIVGTEKRYVSRHPAFHLSTLALALGSIFSAQAMAAQQEAAANAPLQLGEININAAAVENPTAPLAGKVALRNGSATKSNAAITETPQSVSVVTADEMRDRKSDTLADALSYTPGFTSQPSSFNRTSDRFRMRGFDVESATGGSLRDGMRLQYNSYDGVQEPYGLERVEVVRGAASVLYGQLSPGGFVNGVSKRPTETPQHELGMQYGNHDRKQLTADFSGPLGDSEVLSYRLTMLKRDSDTQQDYINDDKLYIAPALTWRPNEDTSLTLLSFYQKSDTRFSAPLPYQLVKGVGNGPVTIGRHDFIGEPDYDDMNGEMSAIGYEFEHRFDEHTRISNKLRYYEADVKWKYLQAGAVTNGVLARQYSDRRERSRALASDTNIETRWNIGGVENTFLVGADTYDASYDSHNFRGPAPSINIGDYNYGQPVVVDKRRSRERGSQIDTFQTGIYLQDQIKFDDHWLLLLGGRHDWADQDQEAFRTGQKLSQDDESTTWRAGLVYQADNGLAPYISYSESFFPVAVADAPDQTFDPTEGKQYEIGIRYQPPGSNMLLSAAVYELTQENVVKRDLAGNNPRQIGEQRSRGLELEAKADVTPQLSVIASYAYTDARTTKSQVQSEVGQRSEDTPYHQAALWADYNFALFGVPQLKVGGGARYKGTTQASGIDSQMPAYTLFDAMASYQIDKNWDIALNANNVTNKKYVYCEAAICRYGDERELVTSVNFRW	PGPT0003790_17279	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
D1-35_04799	1215	bcr_1		Bicyclomycin resistance protein	ATGGAAACCGGGAATGCATCCGCGCTGGCGGGTTCGCCGCCACTGGCAACAAGCCAACCCCTGACCGGTCGAATCGTCGCCCTGCTCGCAGGCCTCGCGGCGATCGGAATGCTCTCCACCAACATCATCCTCCCCGCGTTCCCGGTCATTGGCGATGACTTGGGCGTGACCGCCCGCGAACTGGGCCTGACACTCTCCAGCTACTTCGTCACCTTTGCCCTGGGCCAGTTGGTGGTCGGGCCGCTGGCCGATCGTTATGGGCGCAAGAAGCTGGTGCTGGGCGGATTGTCGGTATTCATGGTCGGGACCGTCATCGCAGGGCTCGCCACCACGCTCGATGTCATGATCGCCGGACGCATCGTCCAGGCATTGGGTGTGTGCGCTGCCTCGGTGCTGTCGCGCGCCATCGCTCGGGATCTGTTCGAAGGCGAGACGTTGGCCCGCGCCCTGTCGTTGACGATGGTTGCCACCGCCGCCGCGCCAGGTTTCTCGCCCTTGGTGGGCAGCGTGCTGTCCGTCACGCTCGGGTGGCGCGCGATGTTTATCCTGGTTGGATTGGCGGCAGTCGTACTCGCCTTCTTCTACGTCCGCGACCTCGGTGAAACCCATCCCGCCGATCGCCGGGCGCCGCACTCCACCGGCAGCGTCGTGCGCGCTTACGCAAGGCTGATGGCGGACAAGCGCTTTATCCTCCCCGCCCTGTCGATGAGCCTGCTGCTGAGCGGCTTGTTCGCCTCTTTCGCCGCCGCCCCGGCGATCCTGATGAAAGGCATCGGCCTGACGTCAGTGCAAGCCGGCCTGTATTTCGCCTCGACGGTGTTCGTCGTGTTCGCCGCCGGCATGGCGGCCCCGCGCCTGGCGCACCGCTACGGCACGCGCACCATCGCCTTGCTGGGCATTGCCTGCGCCATGCTCGGCGGTGGCCTGCTTGTGGTCGGGCCGGCTGACCCAGGCCTGGGCTGGTATGCCGTCTCGATGGTGACGTTTCTCTGGGGCATGGGCCTGGCGAACCCGCTGGGCACCGCCATCACCATGGGGCCTTTCGGCAAGGAGGCCGGCATGGCCTCGGCGTTGCTGGGATTCTTGTCCATGGGCGCGGCGGCGCTGACCACCTGGCTGGCCTCCGTATTGAGCTTTTCGCCCATCACCACGCTGGGCGCGATCCAGGCGTTGACCTGCCTGATCGCGCTGCTGCTGTTCTTCTTGCGCCGCTGA	METGNASALAGSPPLATSQPLTGRIVALLAGLAAIGMLSTNIILPAFPVIGDDLGVTARELGLTLSSYFVTFALGQLVVGPLADRYGRKKLVLGGLSVFMVGTVIAGLATTLDVMIAGRIVQALGVCAASVLSRAIARDLFEGETLARALSLTMVATAAAPGFSPLVGSVLSVTLGWRAMFILVGLAAVVLAFFYVRDLGETHPADRRAPHSTGSVVRAYARLMADKRFILPALSMSLLLSGLFASFAAAPAILMKGIGLTSVQAGLYFASTVFVVFAAGMAAPRLAHRYGTRTIALLGIACAMLGGGLLVVGPADPGLGWYAVSMVTFLWGMGLANPLGTAITMGPFGKEAGMASALLGFLSMGAAALTTWLASVLSFSPITTLGAIQALTCLIALLLFFLRR	PGPT0029005_2211	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
D1-35_04800	1287	fabF_4	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGAAAAATCACCAAGGTCTGAAACGAATCGTCGTCACCGGTGTGGGCATGGTCGGGCCGCTGGGTTGCGTCGTGGATGAGGTGTGGCAGCGATTGCTGGCCGGGCATTCCGGCATACGCAATCTGTCCGTCGACGTCACCGAAGGCACCGGCGTCGCGGTGGGTGGGCAGGTGCCGACCTTTGAAGAGGACGGCGTTGCCGGCTACGACCCGGAGCGCCTCATCGCGCCCAAGGATCGCAAGAAGATGGACCGCTTCATCGAGTTCGCCCTGGTGGCCGCTCACGAAGCCCTGGAGCAGGCCGGCTGGCATCCCGTCGAGGCCATCGATCAGGAGCGGACCGCCACGATCATTTCCTCGGGCGTGGGTGGTTTCGCCACGATTGCCGATGCCGTGCGCACCACGGACAGTCGTGGCCCGCGTCGTTTGTCGCCGTTCACCGCGCCGGCTTTCCTGGCCAACATGGCGGCCGGGCAGGTGTCGATCCGGCATGCGTTCAAAGGGCCGCTGGGCGCACCCGTCACGGCTTGCGCCGCCGGTGTGCAGGCCATCGGCGATGCGGCCAGGCTGATCAGGAGTGGCGAGGCGGATATTGCCATCTGCGGCGGCACCGAGGCGGCGATAGACCGCGTGACCCTGGGTTGTTTCGCGGCGGCTCGCGCACTGTCCACCGGCTTCGCGGAGCGCCCGCAAGAGGCCTCGCGGCCGTTTGATCGTGATCGCGACGGTTTTGTCATGGCCGAAGGCGCCGGTTTGCTGGTGATCGAATCGCTGGAACACGCCCTGGCACGTGGGGCCAAGCCCCTGGCCGAGCTGGTCGGTTATGGCACCAGCGCCGACGCCTATCACCTGACCGCAGGGCCGGAGGATGGCAACGGTGCCCGCCGCGCCATGGAACAGGCGCTGCGCCAGGCCGGTATCAGCCCCGCCGAGGTGCAGCACATCAATGCTCACGCGACCTCCACCCAGGTTGGCGACGCGGGAGAGCTGGCGGCGATTCGCGCGGTGTTCGGCGTGGACTCCGGTGTGGCGATCACCTCGACAAAATCCGCCACCGGGCATCTGTTGGGCGCCGCCGGGGGCATCGAAGCCATCTTCACCGTGCTCGCGCTTCGTGACCAGATCGTGCCGCCGACGCTGAATTTGCTTCATCCGGATGAGACGGCCAGCGGGCTCGATCTGGTTGGCCTGAAGTCGCGGAAGATGCCAATCACCCACGCGCTGTCGAATGGGTTCGGCTTTGGTGGCGTCAACGCCAGCGTGCTGTTCCGTCGCTGGGAAGACTGA	MKNHQGLKRIVVTGVGMVGPLGCVVDEVWQRLLAGHSGIRNLSVDVTEGTGVAVGGQVPTFEEDGVAGYDPERLIAPKDRKKMDRFIEFALVAAHEALEQAGWHPVEAIDQERTATIISSGVGGFATIADAVRTTDSRGPRRLSPFTAPAFLANMAAGQVSIRHAFKGPLGAPVTACAAGVQAIGDAARLIRSGEADIAICGGTEAAIDRVTLGCFAAARALSTGFAERPQEASRPFDRDRDGFVMAEGAGLLVIESLEHALARGAKPLAELVGYGTSADAYHLTAGPEDGNGARRAMEQALRQAGISPAEVQHINAHATSTQVGDAGELAAIRAVFGVDSGVAITSTKSATGHLLGAAGGIEAIFTVLALRDQIVPPTLNLLHPDETASGLDLVGLKSRKMPITHALSNGFGFGGVNASVLFRRWED	PGPT0008360_1439	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
D1-35_04801	3063	cnrA		Nickel and cobalt resistance protein CnrA	ATGAGCTTCAATCTCTCGGCGCTCGCCGTTCGCGAGCGCTCGATCACGGTGTTCCTGTTGTTCCTGATTGCTGTCGCGGGTGTCCTGGCGTTCTTCCAGCTGGGCCGCGCGGAAGATCCGCCGTTCACCGTCAAGCAACTTACCGTCATCACCGCCTGGCCAGGGGCGACGGCCCAGGAGATGCAGGACCAGGTCGCCGAGCCGCTGGAAAAACGCCTGCAGGAATTGAAGTGGTACGACCGCACGGAAACCTATACGCGCCCGGGGCTCGCGTTCACCATGGTGTCGCTGGTCGACCGCACGCCGCCGTCCGAGGTCCAGGAGGAGTTCTACCAGGCGCGCAAGAAGCTCGCTGACGAAGCCATCAAGCTGCCGGCCGGTGTCATCGGGCCGATGGTCAACGACGAGTTTTCCGACGTGACCTTTGCACTGTTCGCCCTGAAAGCCAAAGGCGAGCCGCAGCGATTGCTGGTGCGTGACGCCGAGGCGTTGCGCCAACGGCTGCTGCACGTGCCGGGCGTAAAAAAGGTCAACATCATTGGCGAGCAGGCCGAACGGATTTTTGTGTCCTTTTCCCATGATCGGTTGGCGACCCTGGGGGTTTCGCCGCAGGAAATCTTTGCCGCCCTCAACGGCCAGAACATGCTCACGCCAGCAGGGTCGATCGAAACCGTCGGGCCGCAGGTCTTCCTGCGCCTGGACGGCGCCTTCGACAAGTTGCAGAAGATTCGCGATACACCGGTGGTAGTACAAGGTCGCTCGCTGAAACTGTCGGACGTGGCGACCGTCGAGCGCGGCTACGAAGACCCGGCCGCATTTCTGGTGCGCAACGGCGGCGAAGAGGCGCTGTTGCTGGGCGTGATCATGCGCGAGGGCTGGAACGGCCTCGACCTGGGCAAAGCGCTGGATGTGGAAACCAGCAATATCAATGCGGGCATGCCACTGGGCATGACGCTGACCAAGGTCACCGACCAATCGGTGAACATCGACTCGGCCGTCGGCGAGTTCATGGTCAAGTTCTTCGTCGCGCTGCTGGTGGTGATGCTTGTCTGCTTCCTGAGCATGGGCTGGCGCGTCGGGGTGGTGGTCGCGGCAGCGGTGCCGCTGACCCTGGCGGTGGTGTTCGTGGTGATGGCCGCCACCGGCAAGAACTTCGACCGCATTACCTTGGGGTCGCTGATCCTGGCGCTCGGGCTGCTGGTGGATGACGCCATCATTGCCATTGAAATGATGGTGGTGAAGATGGAGGAGGGCTACGACCGGATCAAGGCCTCCGCCTATGCCTGGAGCCACACGGCCGCGCCGATGCTTTCCGGCACCCTGGTGACCGCCATCGGCTTCATGCCCAATGGCTTCGCCCAATCGACCGCCGGCGAGTACACCAGCAACATGTTCTGGATCGTCGGCATTGCGCTGATCGCTTCCTGGGTGGTCGCGGTGGCGTTCACGCCGTACCTGGGTGTCAAGCTGTTGCCCGACATCAAGCAGGTCGAGGGTGGTCACGCGGCCATCTATAACACCCGTCATTACAACCGCTTCCGCCAGATACTGACCCGCGTCATCGCACGCAAGTGGTGGGTGGCCGGGACGGTGATCGCAACGTTCTTCGTGGCGATTGTGGGCATGGGCCTGGTGAAGAAGCAGTTCTTCCCGACCTCGGACCGGCCAGAGGTGCTGGTGGAAGTGCAGATGCCTTATGGCACCTCCATCGAGCAGACCAGCGCCACCACCGCCAAGGTCGAAGCCTGGCTGCAAGAGCAGGAAGAGGCGAAGATCGTCACCGCCTATATCGGTCAAGGCGCGCCGCGTTTCTACCTGGCGATGGCGCCGGAACTCCCCGACCCGTCCTTCGCCAAGATTGTGGTCCTGACCGACAGCCAGGAGGCGCGCGAAGCCCTCAAGTTCCGTCTGCGTGAAGCGGTCGCCGAAGGGCTTGCCCCAGAGGCGCGGGTACGGGTGACCCAACTGGTGTTTGGCCCTTACTCGCCGTTCCCCGTGGCCTATCGGGTGATGGGGCCGGATCCGGCGAAACTGCGCGAGATCGCCAGCCAGGTTGAAGGCATCATGCAGGCTAGCCCGCTGATGAGGACCGTTAACGCCGATTGGGGTCCGCTGGTGCCGACGCTGCATTTCAACCTCGACCAGGACCGCTTGCAGGCGGTGGGGCTGACGTCCAGCGCAGTCGCCCAGCAACTGCAGTTCCTGCTCACGGGCGTGCCGATAACGGCGGTCCGCGAGGACATCCGCTCGGTGCAGGTGGTCGGCCGCGCTGCCGGCGATATCCGCCTCGACCCCGCGAAAATAGACGGCTTTACCCTGGTGGGCGCGACGGGCCAGCGGATTCCGCTGTCCCAGGTGGGCGAAGTCGATGTGCGCATGGAGGACCCGATCCTGCGCCGACGTGACCGCACGCCGACCATGACCGTGCGCGGCGACATCGCCGAAGGCCTGCAACCTCCGGATGTCTCCAGCGCAATCATCAAGCAGCTGCAACCTGTGATCGACAGATTGCCCAGCGGCTACCGGATCGAGCAGGCGGGCGCGATCGAGGAGTCGGGCAAGGCCGGCAAGGCCATCGTGCCGCTGGTGCCGATCATGGTCGCCATGACGCTGCTGATCATCATCCTGCAAGTGCGTTCGGTCTCGGCGATGATCATGGTTTTCCTTACCGCACCGCTGGGCTTGATTGGCGTGGTGCCGACGCTGCTGATCTTCAATCAGCCGTTCGGCATCAACGCGCTGGTCGGGCTGATCGCGCTGTCGGGCATCCTGATGCGCAATACGTTGATCCTGATCGGGCAGATCCATCACAACGCCAATGAAGGCCTGGATCCGTTCCACGCGGTGATCGAAGCCACGGTGCAGCGAGCCAGGCCGGTGCTGCTCACGGCGCTGGCGGCGATCCTGGCGTTCATTCCGCTGACCCATTCGGTGTTCTGGGGAACGCTGGCCTACACCCTGATCGGTGGCACGTTCGTCGGCACCATCATGACGCTGGTATTCCTGCCGGCGATGTATTCCATCTGGTTCAAGATCCGTCCCGAGACGAAGAGGGCAGCATGA	MSFNLSALAVRERSITVFLLFLIAVAGVLAFFQLGRAEDPPFTVKQLTVITAWPGATAQEMQDQVAEPLEKRLQELKWYDRTETYTRPGLAFTMVSLVDRTPPSEVQEEFYQARKKLADEAIKLPAGVIGPMVNDEFSDVTFALFALKAKGEPQRLLVRDAEALRQRLLHVPGVKKVNIIGEQAERIFVSFSHDRLATLGVSPQEIFAALNGQNMLTPAGSIETVGPQVFLRLDGAFDKLQKIRDTPVVVQGRSLKLSDVATVERGYEDPAAFLVRNGGEEALLLGVIMREGWNGLDLGKALDVETSNINAGMPLGMTLTKVTDQSVNIDSAVGEFMVKFFVALLVVMLVCFLSMGWRVGVVVAAAVPLTLAVVFVVMAATGKNFDRITLGSLILALGLLVDDAIIAIEMMVVKMEEGYDRIKASAYAWSHTAAPMLSGTLVTAIGFMPNGFAQSTAGEYTSNMFWIVGIALIASWVVAVAFTPYLGVKLLPDIKQVEGGHAAIYNTRHYNRFRQILTRVIARKWWVAGTVIATFFVAIVGMGLVKKQFFPTSDRPEVLVEVQMPYGTSIEQTSATTAKVEAWLQEQEEAKIVTAYIGQGAPRFYLAMAPELPDPSFAKIVVLTDSQEAREALKFRLREAVAEGLAPEARVRVTQLVFGPYSPFPVAYRVMGPDPAKLREIASQVEGIMQASPLMRTVNADWGPLVPTLHFNLDQDRLQAVGLTSSAVAQQLQFLLTGVPITAVREDIRSVQVVGRAAGDIRLDPAKIDGFTLVGATGQRIPLSQVGEVDVRMEDPILRRRDRTPTMTVRGDIAEGLQPPDVSSAIIKQLQPVIDRLPSGYRIEQAGAIEESGKAGKAIVPLVPIMVAMTLLIIILQVRSVSAMIMVFLTAPLGLIGVVPTLLIFNQPFGINALVGLIALSGILMRNTLILIGQIHHNANEGLDPFHAVIEATVQRARPVLLTALAAILAFIPLTHSVFWGTLAYTLIGGTFVGTIMTLVFLPAMYSIWFKIRPETKRAA	PGPT0028890_426	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexJK-OprM,PGPT0028890-mexK-K18303	NA	NA
D1-35_04802	1110	mdtA_5		Multidrug resistance protein MdtA	ATGCTCCGGCGCCGACCTGTCACCATTGCCGCTTGCTTGTTGCCGCTCGTCCTGACGGCGTGCGGCGAGTCCTCCACCACCAAGGATCCGCGCACGCTGGCGCCGTTGGTGCGGGTGTCCGAGGTATCGGCGGCGTCCGATACCTCTCGCGCCTTCACCGGCGTGGTGACCGCCCGCGTCCAGAGCGATTTGGGTTTCCGGGTCTCGGGCAAGGTGCTCGAACGTCTGGTCGACACTGGCCAGACCGTCAAGCGGGGCCAGCCACTCATGCGCCTCGATCCCATCGACCTCGGCTTGCAGGCACGCGCGCAGCAGGAGGCCGTCGCCGCGGCCCGGGCGCGGGCCCGGCAGACCGCGGATGACGAGGCGCGGTATCGCGACCTGGTCGCTGCGGGCGCTGTTTCCGCCTCGGGCTACGACCAGATCAAGGCCGCCGCCGACACCGCGAAAGCGCAACTCAGCGCCGCCCAGGCGCAGGCTGACGTAGCGCGCAATGCCTCCGGCTATGCGGTGCTGCTGGCCGACGCCGATGGCGTGGTGATGGAGACCCTGGCCGAGCCCGGACAAGTCGTCACCCCTGGCCAAATCGTCGTCCGGCTGGCGCGTGCAGGCCAGCGCGAAGCTGCTGTGCAGTTGCCCGAGACCCTGCGGCCGGCCCCCGGCGCAACCGCGCAGGCGACGCTTTATGGCAACGCCGCCGCGACGGTTAACGCCAAGCTCAGGTGGCTGTCGGATTCCGCCGATCGGGTGACACGCACCTTCGAGGCACGTTATGTGTTGGAGGGCGCGCTGGCCAATGCCCCGCTGGGTTCGACGGTGACGCTGCGGATCAGTCCGGGCACCCGGTTGGGGCAGGCGCTGCAAGTGCCGATCGCCGCGCTGCACGACTCGGGCAAAGGTGCCGGCGTCTGGGTGATCGCCGGTGAACCGGCAAAAGTTTCCTGGCGTCCGGTCCAGCTACTGGGCCTGAGCGACGACACTGCGCAAGTCTCGGGCGAGCTGAACGTCGGCGAGCGGATCGTCGCGCTTGGCGCGCATCTGCTACGCGATGGTGAAGAGGTGAGGCTGGCTCAACCGGGCGATGTGCAGGTTGCGGAGAATCGCCCATGA	MLRRRPVTIAACLLPLVLTACGESSTTKDPRTLAPLVRVSEVSAASDTSRAFTGVVTARVQSDLGFRVSGKVLERLVDTGQTVKRGQPLMRLDPIDLGLQARAQQEAVAAARARARQTADDEARYRDLVAAGAVSASGYDQIKAAADTAKAQLSAAQAQADVARNASGYAVLLADADGVVMETLAEPGQVVTPGQIVVRLARAGQREAAVQLPETLRPAPGATAQATLYGNAAATVNAKLRWLSDSADRVTRTFEARYVLEGALANAPLGSTVTLRISPGTRLGQALQVPIAALHDSGKGAGVWVIAGEPAKVSWRPVQLLGLSDDTAQVSGELNVGERIVALGAHLLRDGEEVRLAQPGDVQVAENRP				NA	NA	NA	NA	NA
D1-35_04803	1461	oprM	COG1538	Outer membrane protein OprM	ATGCCTCCCCTGCGCCCCATTGCTCTTCTAATGAGTGCCAGCCTCATGGCAGGTTGCGCGGTCGGCCCGGATTACCAACGTGCCGCCGCGCCGCTTTCGAGCCGGTACCTGGGCCAGCCTGCGGTCGAACAGCGCTCCACGGCCGCACCGACCCTGCTGGTCAACTGGTGGGAAGGCTTCGCTGATCCCACCCTCACCGCCTTCATCCAACAAGCCCTGGAACAGAACCTGGACCTGGCGCAGGCGTCGGCGCGCGTCACCCAGGCACGGGCCGGCCTGGGCGCGGCCAACGCCGCTTTGCTGCCCTCGGGCAACATCAGTGGCCAGGCCGCGCGCTCATACCAATCGGTCGAGACCCCGCTCGGCCAGGTGCTGGACTCGACGCCCGGCTACGACCGATACGGAAACTTCTACGAGCTCAACCTTGGTGCCAGCTGGGAGATAGATGCCTTTGGCGGCCTGCGCCGCGGGCGCGAGGCGGCGTTGGCCGAATACCAGGCGTCGGAGGCCGGTGCCGTCGCCACGCGCCTGGCCGTTGCCGCGCAGGTCGCCGACGTCTACATCACCGTGCGGGGTTTACAGACCCGGCTGGACATCGCGAACCGCCAGGCGCGGACGCAGCAGGACCTGCTGGAAAAAGTCCGATTGCTCTACAGCAAAGGCCTGGCCGCCAACTATCAGGTCCGCCAGACCGAGGGACAATTGTCAGAGGTACAGGCCACCGTGCCGGTCTTGCAAGCCGGGTTGGACGCGGCCATGAATGCGCTGGATGTGATGCTCGGCACGCCACCTGGCACCCATCGCCCGCAATTGGCTCAGGTGGGCGATATTCCTCTCGCCCCACCGATGGCGACGACAGGAACCCCTGCGGACCTGCTTCGACGTCGACCTGACCTCATCGTCGCCGAGCGCCGCCTGGCAGCCTCCAACGCACGCATCGGCGAGGCCGTCGCCGAGTATTATCCGAAATTCTCCCTCAGCGCCTTGCTCGGCAGTGCCACGGCGGTGTCCGGCGGCAATCTTTTCAGCGGCGGGGCCAGCCAGTCGGCGGGTGTGCTGGGGCTGCGCTGGAGGCTCTTCGATTTCGCCCGCATCAACGCGCAGATCGAACAGGCCAAGGGCCAGGAAGCCGAAGCACTGGCGGCTTATCGCCAGTCGGTGTTGCGCGCCACCGAGGAGGTTGAAAACGCCCTCAGCGCCCTGGTGAACCGCGAAGCCCAGGCGACGACTCTTGCTCAAGGGGAAACGTCGCTGACCCAGGCTCGCCAATCGACATTTGTCGCCTACCGCAAAGGTACGGCCAGCCTGATCGATGTGCTCAATGCCGACGAGACGCTGCTGCGCACGTCCGACACCCGAGCGCAGGCGCGAACGGAATCGGCACGGGCGGCAGTCGCGGCTTTCCGGGCGCTCGGCGGTGGCTGGCAACCGCCCGAGGAAGCGCCCGTGGCAACCCGGTGA	MPPLRPIALLMSASLMAGCAVGPDYQRAAAPLSSRYLGQPAVEQRSTAAPTLLVNWWEGFADPTLTAFIQQALEQNLDLAQASARVTQARAGLGAANAALLPSGNISGQAARSYQSVETPLGQVLDSTPGYDRYGNFYELNLGASWEIDAFGGLRRGREAALAEYQASEAGAVATRLAVAAQVADVYITVRGLQTRLDIANRQARTQQDLLEKVRLLYSKGLAANYQVRQTEGQLSEVQATVPVLQAGLDAAMNALDVMLGTPPGTHRPQLAQVGDIPLAPPMATTGTPADLLRRRPDLIVAERRLAASNARIGEAVAEYYPKFSLSALLGSATAVSGGNLFSGGASQSAGVLGLRWRLFDFARINAQIEQAKGQEAEALAAYRQSVLRATEEVENALSALVNREAQATTLAQGETSLTQARQSTFVAYRKGTASLIDVLNADETLLRTSDTRAQARTESARAAVAAFRALGGGWQPPEEAPVATR				NA	NA	NA	NA	NA
D1-35_04804	621			hypothetical protein	ATGAACCAGCCATCCATTACCTCACCCAGCGCCCGCGGCCCCGTTGATCACGAAATTCGCGATCAGATTGTCGCGGCCGCCAATGAACACTTCAGCCAGTACGGTTATGGCAAGACCACGGTTTCCGACCTGGCCAAGGCCATCGGTTTTTCCAAGGCGTACATCTATAAATTCTTCGATTCCAAGCAGGCGATCGGCGAGGCTATCTGCGCCAATTGCCTGTCGAAAATCGTTGCTGCCGTCGAAGCAGCCATCCAGGAAGAAGGGCTGTCGGCGACGGAGCGTTTCCGGCGATTGGTCAAGACCGTGATCGCGACGGGCGTGGACCTGTTCTTCAATGAGCGCAAGCTCTACGACATCGCCGCGTTCTCGGCCTCGGAGCGCTGGCCCAGTTCACAAATCTACAACGAGCAGATCAAGAGCTTCGTGCTGCAGATCGTCCGGGAAGGTCGTGAGCTCGGCGAGTTTGAGCGCAAGACGCCGCTGGACGAGACCGTCGAAGCCATTCACCTGGCGCTGCGGCCGTTCGTCAATCCGTTGCTGCTGCAGTACAACCTCGATTTCGTCGAGGAAGCGCCCACGCTCACTTCCAACCTGATCCTGCGCAGTCTTATGCCCTGA	MNQPSITSPSARGPVDHEIRDQIVAAANEHFSQYGYGKTTVSDLAKAIGFSKAYIYKFFDSKQAIGEAICANCLSKIVAAVEAAIQEEGLSATERFRRLVKTVIATGVDLFFNERKLYDIAAFSASERWPSSQIYNEQIKSFVLQIVREGRELGEFERKTPLDETVEAIHLALRPFVNPLLLQYNLDFVEEAPTLTSNLILRSLMP				NA	NA	NA	NA	NA
D1-35_04805	957	ilvA_3	COG1171	L-threonine dehydratase biosynthetic IlvA	ATGTACACACTGACGCTCGACGAGATTGAACAAGCGGCTCGGCAGGTCTATCAAGTCATGCCCGCCACCGCCCAGTACGCCTGGCCCTTGTTGGCGCAGCGGCTGGGATGCACGGTGTGGGTCAAGCACGAAAACCATACCCCCACCGGGGCTTTCAAGGTGCGTGGCGGCATTACCTTCATGCATTGGCTCAAGCGTGAGCACCCGCAAGCAAAGGGGATCGTCACCGCCACCCGTGGCAACCACGGCCAGAGCCTGGCGCTGTCGGCCAGCGCCTCGGGGCTGAAGGCGTTGATTGTCGTGCCGGAGGGTAACTCGATCGAAAAGAACAACGCCATGCGCGGCTTCGGCGGCGAAGTGATCGAATACGGCCGCGATTTCGATGAGGCCCGGGAGGAGGCGGCACGCCTGGCGCAAGCGCAGGGCCTGTTTCTCGTGCCGCCGTTTCATACCGAGCTGGTCAAGGGCGTCGCCACCTATGCCCTTGAGCTGTTCAAGGCTGTGCCCGACCTGGACACCGTCTACGTACCCATCGGCTGTGGCTCGGGGATTTGCGCAGTGATTGCCGCGCGCGATGCCCTGGGCTTGCAGACCCGGATCGTGGGGGTGGTCTCCACCGAGGCAACGGCTGCAAAAATGTCATTTGAAACCGGAGAAATCTGCGAAACCGCTTCGGCCAACACCTTCGCCGACGGCCTTGCCGTGCGCAGGCCGATTCCCGAAGCCTTGGCCATCTACCGCGCCGCGGCGGCGCGGATCGTGGCGGTCAGTGACCAGGAGATTGCCGAGGCCATGCGCGTCTATTACACCGACACCCATAACCTCGCCGAAGGTGCTGGCGCTGCGGCACTGGCAGGGTTGATCCAGGAGCGTGGGTTGATGGAGGGAAAAAAGGTCGGGGTGGTGCTGTCCGGGGGCAATGTCGACAGGGCGGTGTATGCCGATGTGATTGGCTGA	MYTLTLDEIEQAARQVYQVMPATAQYAWPLLAQRLGCTVWVKHENHTPTGAFKVRGGITFMHWLKREHPQAKGIVTATRGNHGQSLALSASASGLKALIVVPEGNSIEKNNAMRGFGGEVIEYGRDFDEAREEAARLAQAQGLFLVPPFHTELVKGVATYALELFKAVPDLDTVYVPIGCGSGICAVIAARDALGLQTRIVGVVSTEATAAKMSFETGEICETASANTFADGLAVRRPIPEALAIYRAAAARIVAVSDQEIAEAMRVYYTDTHNLAEGAGAAALAGLIQERGLMEGKKVGVVLSGGNVDRAVYADVIG	PGPT0001960_6657	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
D1-35_04806	822	rhaS_14		HTH-type transcriptional activator RhaS	ATGGACACCATGAGCCATCGCAACCGCCCACAGCCGCCGCGCAAGACTGAATCGACCCGTCGCATCGAGGCAGGGCCGTGGGCGATCGAATTGCTCCCCGGCTGCGCCTATGCAGCGCGTTACATCGCGAGCCAGTCGGCGATCGGTTTTGCGTTCGACAGCCAGCGCGGTTTGCATGCGATCGGCAGCGACCGGGTGCAGCCCTTCAATGCGCTGCCCAACGGGCTGGCGTTCGTCCCGGCCCAGTGCGACGTGTATTCGCAGTCACCTCATGGCGGCGAATACCTGCGCCTGATACGCACCGATGGGTTCGTGCTTGAAGGCGATCACCCCTTCAACAATCGCATCGACCTTCGGGCCATTGCGCTCGCGCAGCGCATGCGTCGCGCGCTCCTGCACGGTTCGATCGACGACGATTGGGAGGCTTGGGCCCTGGCACTGGCCGAATGCGCGGCAGCGGAAAACTCCAAGTCGGCAAGGCCCCAAGGTTCCCTCACCGACAGCCGGATGCGCTTGCTGGATGAATTCATCGACGCAGGCCTCGATCAGCCATTGGCCGTACCGGCGATGGCGCAGCTGCTGGGGCTGTCCGAGGGCTACTTCATGCGTGCGTTCAAGGCCGCGACAGGCAAGAGCCCCCATGGCTACCTCATCGACCGACGCCTCGCCAGGGCCCGGGCGCTGATACGCGATTCCTCGGCCACACTGCCAGAAATCGCCCTCGCCTGCGGTTTCAGCTCACAAGCGCACATGACAACGACGTTCAAGCAGCGCCTTGGTGTGAGTCCGGCGCAATTGCGTCAAATGACGAAGTGCATTTGA	MDTMSHRNRPQPPRKTESTRRIEAGPWAIELLPGCAYAARYIASQSAIGFAFDSQRGLHAIGSDRVQPFNALPNGLAFVPAQCDVYSQSPHGGEYLRLIRTDGFVLEGDHPFNNRIDLRAIALAQRMRRALLHGSIDDDWEAWALALAECAAAENSKSARPQGSLTDSRMRLLDEFIDAGLDQPLAVPAMAQLLGLSEGYFMRAFKAATGKSPHGYLIDRRLARARALIRDSSATLPEIALACGFSSQAHMTTTFKQRLGVSPAQLRQMTKCI				NA	NA	NA	NA	NA
D1-35_04807	1011	cheB_7		Protein-glutamate methylesterase/protein-glutamine glutaminase	TTGGGTGCGCCTGTGTCGCTGATCCCCCTGGTTGTGTGCGACGACTCCACCATGGCGCGCAAGCAGGTGTTGCGTGCGCTGCCGCAAGATTGGCCGGTTTCAGTCACCGAGGCGGTCAACGGTCGCCAGGCGATGGATGCCATACGCCAGGGCCTTGGTCACGTGGTGCTGCTCGACCTGACCATGCCGGAGATGGATGGTTATCAGGTACTGAGTGCCTTGCGCGCCGAGGGCTTGAAAGCGCAGGTCATTGTGATTTCCGGCGACGTCCAGGATGAAGCGGTACGCCGGGTGCATGAACTGGGCGCGCTGGCGTTCCTGAAAAAACCTTTCGACGAAAACCAGTTGCGCCAGACACTCACCGGGCTGGGTCTACTGACTCAACCCGGCAAGGCTCCGCTGCAAAATCGACCGGCACCGAACGCGGCCATCAGTTTCCAGGATGCGTTCCGCGAGACAGTCAACGTTGCCATCGGCCAGGCCGCGGCGCTGATTGCCAAGGTCCTGGGCGTCTTCGTGCAATTGCCGGTGCCGAACGTGAACATCCTCGAAGTCGGGGAACTGCACATGGCGCTGAACGACGTCGGCAGCTCCCAGCAACTCACGGCCATCTGCCAAGGCTTTATCGGCAGCGGCATCGCCGGCGAAGCACTGCTGATATTCCATGACTCGGAGATCGCCGACATCGGGCAACTGATGCAGCGCGAGAGCGCCGACTATTCGGACCTGGAGATGCTGGTGGACCTTTCCAGCATCCTGATCGGTGCTTGCCTGAGCAGCATCGCCGAACAGATCGACGTGATTTTTTCCCAGGGGCATCCGCAGATCCTGGGTCAGCATGCAGCAATCGATGAATTGATCCGCGCCAACCGCGTCCACTGGAAAAAGACCCTGGCGGTGGAAATCAGCTATGGCCTGGAAGGCCAGGATATCCGCTTCGACCTGTTGCTGCTGTTCACGGAAGACTCTATCGAGCGGCTTACCCACAAACTCGCCTACCTGATGAACTGA	MGAPVSLIPLVVCDDSTMARKQVLRALPQDWPVSVTEAVNGRQAMDAIRQGLGHVVLLDLTMPEMDGYQVLSALRAEGLKAQVIVISGDVQDEAVRRVHELGALAFLKKPFDENQLRQTLTGLGLLTQPGKAPLQNRPAPNAAISFQDAFRETVNVAIGQAAALIAKVLGVFVQLPVPNVNILEVGELHMALNDVGSSQQLTAICQGFIGSGIAGEALLIFHDSEIADIGQLMQRESADYSDLEMLVDLSSILIGACLSSIAEQIDVIFSQGHPQILGQHAAIDELIRANRVHWKKTLAVEISYGLEGQDIRFDLLLLFTEDSIERLTHKLAYLMN				NA	NA	NA	NA	NA
D1-35_04808	957			hypothetical protein	ATGAGCGAATCCATCGATCTGAACGAATTCCACTGGTTGCTGGCCATCGTTCAGAGCATCGACGTCGGCGTGGTGGTACTTGACCGCGAATACCGCGTACAGGTCTGGAACACCTTCATGGAGAACCGCTCCGGCGTGCAGCCCAAGGATGCCCAGAACCGCAACTTCTTCAGTCTGTTTCCTGAGATCGATCGCCCCTGGTTCAGCCGCAAGGTCGAGAGCGTCGCGACCCTCGGCACGCCGGCATTCACGGTCTGGGAGCAGCGCCCGTACCTGATGCGGTTCAAGAGCTACCAGCCGATCACCGGCCAGGAAGAGTTCATGTACCAGAACACCACGCTGCTGCCGCTGCGCTCGCCCGACAACCGGATCAATCACATCTGCCTGGTGATCTACGACGTCACTGACGTCGCCACCAACCGCCATCAGATCCAGGCCGCCAACGCACAGTTGCAACTGCTGTCCAGCACCGATCGCCTGACCGGCCTGTACAACCGTGGTCATTGGGAAGCCAGCCTGAAAGCCGCCTACGCCCGCCATCAACGCTACGGCAATGCGCTGAGCCTGGTGATGCTCGACATCGATCACTTCAAGCGGGTCAACGACACCTACGGTCATCAGGCCGGCGACAAGGTCATCGAGCAAGTCGCCCGACTGTTACACGAGCATGTGCGCGAATCCGACGTCGCCGGGCGTTACGGCGGCGAAGAGTTCGGCGTGGTGCTATCGGATACCGACTCGGCCGGCGGGCAGATTTTCGCCGAGCGCCTGCGCAAGGCAGTTGAAGAGTCGCTGGTGCAGTACAACGGCCAGGACATCCGCTTCACCGTCAGCCTGGGCGTGGCCGACCTGAGCCAGCCCGCCAACGACCACGCCGAACTGATCGCCAGGGCCGACCAGGCGTTGTACACGTCGAAAAAGACCGGACGCAATCGCGTGACGGTTCACGGGCACTGA	MSESIDLNEFHWLLAIVQSIDVGVVVLDREYRVQVWNTFMENRSGVQPKDAQNRNFFSLFPEIDRPWFSRKVESVATLGTPAFTVWEQRPYLMRFKSYQPITGQEEFMYQNTTLLPLRSPDNRINHICLVIYDVTDVATNRHQIQAANAQLQLLSSTDRLTGLYNRGHWEASLKAAYARHQRYGNALSLVMLDIDHFKRVNDTYGHQAGDKVIEQVARLLHEHVRESDVAGRYGGEEFGVVLSDTDSAGGQIFAERLRKAVEESLVQYNGQDIRFTVSLGVADLSQPANDHAELIARADQALYTSKKTGRNRVTVHGH	PGPT0026210_474	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0026210-adrA-K18968	NA	NA
D1-35_04809	1011	lgoD	COG1063	L-galactonate-5-dehydrogenase	ATGCTGACTGTCGTCTGTAACGAACCCGGCTCGCTAACCGCCATCGAACGTGAAATGCCCGTCAGGAAACCGCGAGAGGTCCTGATTCGAGTCAAGCGTGTCGGCGTCTGCGGCACCGATCTGCATATTTTCAGCGGCAACCAGCCCTTCCTCGAGTACCCGCGCGTCATGGGTCATGAGTTCTCCGGAATCGTCGAAGCCAGCGACGCCTCCAGCGACCTGGCTGTCGGTGATGTCGTCTACGTGATGCCCTATCTCTCCTGCGGCACTTGCGTTGCCTGCCGTCAAGGCAAGACCAACTGCTGCACCCGCATCCAGGTTCTGGGCGTCCATTGCGACGGCGCCTTCACTCAATACCTGAGCGTTCCCCAGGAGTTCGTGCACAAGGCCGTCGGGGTTTCCCTGGACCAGGCGGCGATGATCGAATTTCTCTCCATCGGAGCCCACGCCGTACGTCGCTCGAACGTCCAGGCAGACAAACACGCCCTGGTGGTCGGCACCGGCCCGATCGGCATGGCGGCGGCGATCTTTGCGAGCCTGCGCGGGGCGAAAGTCACCGTACTGGATACGCGCCAGGATCGCCTGGCGTTCTGCAAGGAACATCTGGATATCCACGCGGCCGTGCACATCGGCGAAGGCGACAAGCAGGCCTTGGCCGAACTGACCGGGGACGACTTTTTCGACGTGGTATTCGATGCCACCGGCAACGCCCGGGCGATGGAGCGCGGATTCGAATTCATCGCCCACGGTGGCACCTACGTGATGATCTCGGTGGTACGGGACTCGATTACTTTCTCCGATCCTGAATTTCACAAGCGTGAAGCCACGCTGATGGGCAGCCGCAACGCCACCCGGGAAGATTTCCAGTATGTCGAGCAATGTTTGCGCGAGGGCTTGATTCCCGATGCAGCCCTGAACACCCATCGGTTGCTGCTGAGCGACGTGGCCCGCTCCTTCTCCACATTGCTCGACCCCAACCAGGGTGTGGTCAAGGCGATCATCGAGTGCTAG	MLTVVCNEPGSLTAIEREMPVRKPREVLIRVKRVGVCGTDLHIFSGNQPFLEYPRVMGHEFSGIVEASDASSDLAVGDVVYVMPYLSCGTCVACRQGKTNCCTRIQVLGVHCDGAFTQYLSVPQEFVHKAVGVSLDQAAMIEFLSIGAHAVRRSNVQADKHALVVGTGPIGMAAAIFASLRGAKVTVLDTRQDRLAFCKEHLDIHAAVHIGEGDKQALAELTGDDFFDVVFDATGNARAMERGFEFIAHGGTYVMISVVRDSITFSDPEFHKREATLMGSRNATREDFQYVEQCLREGLIPDAALNTHRLLLSDVARSFSTLLDPNQGVVKAIIEC	PGPT0018195_116	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018195-lgoD-K23007	NA	NA
D1-35_04810	1530	garD_2	COG2721	Galactarate dehydratase (L-threo-forming)	ATGAACCTGCCTGCTTCCATCTTGCTTGTCCTGGCGTCCGGTGACGATGTTGCCGTAGCCCGGGGCGACATTCCCGAAGGTCAAAGCCTCAGCGCCGATGGCATCACGCTGACCGCCCGACAACCGATTCCATCCGGTCACAAGATCGCCCTGCGCCCGGTGTCGGCCGGCCATCGGGTACTTAAATACGGGCAGACTATCGGCCAGGCAACTCGAGACATAGAGCCCGGCGATCACGTCCACGTGCACAACCTGGACATGTCTGCGACCAATGCCGAACACAGCGTGCGGAACGTCTATGTGCCCACATTGCCGAGCGCTCACCCCGCTACGTTCGAAGGTTATCTGCGTGACGATGGACGCGTCGGGACGCGCAACTACATTGGCGTGATTTCCAGCGTCAACTGCTCGGCGACCGTCTGCAAGCACATCGCCAAGGCCTTTTCCTCCGAGCGGCTGAAAGACTTCCCCAACGTCGACGGCGTCGTCGCAATCACCCATGGCAGTGGCTGTGGCATGGGGGCCAAGGGTGAAGGCATCGACATCCTCAAGCGCACCTTGCGTGGGTATGCCGATCACGCCAATTTCGCCGGGGTGCTGTTGATCGGCCTCGGTTGCGAGGTCAACCAACTCACCCCGCTCATGGATGAGCTGGGCGATCGCCGCGCTGCACTCAAGGCCAGCCTGATCATTCAGGACGAAGGCGGCACCCGCGAAGCCGTGCAACGCGGTATTGCCGCGATTGAAGCGATGCTGCCCATCGTCAACCAATGCCGACGCACGACCGTAGCCGCCAGCCACCTGTGCGTCGGTCTGCAATGTGGCGGCTCGGATGGCTACTCAGGCATCACGGCCAATCCGGCGCTCGGCGCGGCCGTGGACCTGCTGGTGCAACAGGGCGGCACCGCGATCCTTTCGGAAACCCCGGAAGTCTATGGCGCAGAACACCTGCTGACGGCCCGCGCCGCGTCCGCCGACATCTCGGCGAAACTGATGGAGCGCATCCATTGGTGGGAAGCCTATGTGCAGCACAACGACGGCGACATGAACAACAACCCGTCACCGGGCAACAAGGCCGGGGGCATCACTACCATTCTGGAAAAATCCCTGGGCGCGGTGGCAAAAGCCGGCTCGACCGGGCTGATGGGGGTCTATCACTACGCTGAAAAAATCGATACCCGGGGCCTGGTGTTCATGGACACGCCCGGCTACGACCCGGTATCCGCGACCGGCCAGGTGGCCGGCGGCGCCAATCTCATCTGCTTCACCACGGGTCGCGGCTCGACCTATGGCTGCAAGCCCACGCCCTCCTTGAAGATCGCCACCAACACCCGCCTGTTCCAGCACATGGAACTGGACATGGACTTCAACGCCGGTGGCATTGTCGACGGTGTGGAATCGGTGGCCGAGGCCGGTGAACGGTTGCTCCGGGTGATGCTGCAGACCGCTTCCGGAAGCCGCACCCGCAGCGAGGAAAACGGCCTGGGCGATAACGAATTCCTGCCCTGGCAGATCGGTGCGGTGATGTGA	MNLPASILLVLASGDDVAVARGDIPEGQSLSADGITLTARQPIPSGHKIALRPVSAGHRVLKYGQTIGQATRDIEPGDHVHVHNLDMSATNAEHSVRNVYVPTLPSAHPATFEGYLRDDGRVGTRNYIGVISSVNCSATVCKHIAKAFSSERLKDFPNVDGVVAITHGSGCGMGAKGEGIDILKRTLRGYADHANFAGVLLIGLGCEVNQLTPLMDELGDRRAALKASLIIQDEGGTREAVQRGIAAIEAMLPIVNQCRRTTVAASHLCVGLQCGGSDGYSGITANPALGAAVDLLVQQGGTAILSETPEVYGAEHLLTARAASADISAKLMERIHWWEAYVQHNDGDMNNNPSPGNKAGGITTILEKSLGAVAKAGSTGLMGVYHYAEKIDTRGLVFMDTPGYDPVSATGQVAGGANLICFTTGRGSTYGCKPTPSLKIATNTRLFQHMELDMDFNAGGIVDGVESVAEAGERLLRVMLQTASGSRTRSEENGLGDNEFLPWQIGAVM	PGPT0018305_410	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0018305-uxaA-K01685	NA	NA
D1-35_04811	714	lldR	COG2186	Putative L-lactate dehydrogenase operon regulatory protein	ATGGTCTCACCGATCAATCCCGCCGAACGCAAGCCGTACCAGAAAATCGCTGATCAACTGCGCAACTACATTGCCGAGGGGGAGTTCAAGACGGGCGCAAGACTTCCCCCCGAGCGCGATTTGACCCAGCTTCTCGGGGTTTCCAGGCCGTCCCTTCGCGAGGCGCTGATCGCCCTGGAAATCGACGGCGACATCGAGATCAAGATGGGCTCCGGCGTGTACGTACGGGCCAGGTCCGGCGATGCAAAAAAACCGAGCATGACCTTGGGCGAGAGTCCCTCGGAACTCATGCAGGCTCGTGCCTTGATCGAGGGCGAGTCGGTGATCCTGGCGTGTCTGCATGGCAAGAAAAGCGACTACCGCTACCTGCAGGAATGCATCGAGGCCATGCGCGCGAGCATCGCCTGTGGCCTGCCGCCGTTGGAGGATGACCGCAGATTTCATCAGCGCCTGGCGAAAATGAGCGGCAACTCCGCCCTGGTGCGGATCATCACCGCCCTGTTCGATGAACGTCACAATCCGATTTCGGCGCACCTGAGCAAACACGCGGAGAACGCACTGACGTGGGAGGCGGCAGTCGTCGAACATGAAGCAATCCTGCACGCCGTAGCCGGCAAGGATGTGCTCGGCGCCCAAACCTCGATGCGCCAGCACCTGAGCCGCTCGGAAAACCGCTGGCTGCGGGCGCTCGAACCTGAAGCCCCCGCCGACTAG	MVSPINPAERKPYQKIADQLRNYIAEGEFKTGARLPPERDLTQLLGVSRPSLREALIALEIDGDIEIKMGSGVYVRARSGDAKKPSMTLGESPSELMQARALIEGESVILACLHGKKSDYRYLQECIEAMRASIACGLPPLEDDRRFHQRLAKMSGNSALVRIITALFDERHNPISAHLSKHAENALTWEAAVVEHEAILHAVAGKDVLGAQTSMRQHLSRSENRWLRALEPEAPAD				NA	NA	NA	NA	NA
D1-35_04812	1188	uxuA	COG1312	Mannonate dehydratase	ATGGAACAGACATGGCGTTGGTTTGGCCCCAAAGATCCGATTTCCCTGGCAGACGTTCGCCAGACCGGTGCGACCGGCATCGTCACCGCGTTGCACGAGATTCCCAATGGCCAGGTCTGGCCGGTGGACGCCATCGCGGCGCGCAAGGCGCTGATCGAAGCGGCTGGCCTGACCTGGTCGGTGGTGGAAAGCATTCCGGTGCACGAAGACATCAAGCGCGGCTGCGGCCGTCGTGACGAGTACATCGCCAACTACCAGCAAAGCGTGCGTAACCTGGCGAGCTGCGGTATCGATATCGTCTGCTACAACTTCATGCCGGTGCTGGACTGGACCCGTACCGACCTGACGTATGAACTGGCGGATGGCGGTTGGGCCTTGCGCTTCGACCAGACTGCGTTCGCCGCCTTCGACCTGTTCATCCTCCAGCGGCCGGGAGCGCAGGACGAGTACAGCGTCGAGGATATCCGGCAGGCCAAGGCCTATTTCGAACAACTGTCGCCGGCCGGGCGCGAAGCCTTGGTCGATACCCTGATCGCAGGATTGCCCGGCGCCGAAGAACACTACAGCCTGGACAAATTCCGCGAGTTGCTGCGTACCTACGCCGACATCGACGAGGCCAGGTTGCGTGAGCACCTGGGGTATTTTCTGCGCGCGGTGATTCCGGTTGCGGAGGAGGTGGGCGTGCGCATGGCGATCCACCCGGACGACCCGCCCCGGGCGTTGCTCGGGCTGCCGCGCATCCTTTCTACCGCCGAAGATGCCCAATGGTTGCTGGATGCCGCGCCAAGCCCGGCCAATGGCCTGACGTTCTGTACCGGCTCCTACGGCGTGCGCGAGGATAACGACCTAGTGGCGATGGCCAGGCACTTTGCGCCGTTCATCTACTTCACTCACCTGCGTTCGACCCGTCGGGAAGCCGATCCACGCAGCTTTCATGAAGCTCATCACTTGGCTGGGGACGTCGATATGGTCGGGGTCATCAGTGCCCTGGTGGCCGAAGAGCGCCGGCGCGAGCGAGAAGGCGGCCCGCGCTTGCCGCTGCGTCCAGATCATGGGCATCAGTTGCTCGACGACCAGCATCGCAAGAGCAATCCCGGCTACTCCCTGATCGGCCGCCTCAAGGGCCTGGCGGAAATCCGCGGCGTGGAACTGGCCGTGCGCCGACAACTGGACCAAACAGCACACTAA	MEQTWRWFGPKDPISLADVRQTGATGIVTALHEIPNGQVWPVDAIAARKALIEAAGLTWSVVESIPVHEDIKRGCGRRDEYIANYQQSVRNLASCGIDIVCYNFMPVLDWTRTDLTYELADGGWALRFDQTAFAAFDLFILQRPGAQDEYSVEDIRQAKAYFEQLSPAGREALVDTLIAGLPGAEEHYSLDKFRELLRTYADIDEARLREHLGYFLRAVIPVAEEVGVRMAIHPDDPPRALLGLPRILSTAEDAQWLLDAAPSPANGLTFCTGSYGVREDNDLVAMARHFAPFIYFTHLRSTRREADPRSFHEAHHLAGDVDMVGVISALVAEERRREREGGPRLPLRPDHGHQLLDDQHRKSNPGYSLIGRLKGLAEIRGVELAVRRQLDQTAH	PGPT0018270_804	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018270-uxuA-K01686	NA	NA
D1-35_04813	1458	por_2	COG0246	Polyol:NADP oxidoreductase	ATGTCGCTCAACCAACGCGTTCCCGCCACTGGCCAGGCCCGCGAGATCGGCATCGTGCACCTGGGCCTGGGGGCCTTTCACCGGGCGCATCAGGCGGTGTACCTGCAACGCAATCTCAATCGCCACGGCGACAGCGATTGGGGCTTGTGCAGCGCCAACCTGCGCTCCAATCACGCTTTGGTCGAGCAATTGCGCGAGCAGGACGGTCGTTACCATGTGGCGGAGTATCGTGACCGCGAGCAGGTGACGCTGCGCGAGATCGGCGTGTTGCGCGAGGCCTTGTATGCGGGCGAGGGCGGTCAGGAACTGGAGCAGTTGTTGCAACGCATGGCCGCGCCGCAGACGCGGATCGTCACGCTCACCGTTACTGAAAAAGGCTACTGCCTGAGCCCTTCCTCCGGGCAGTTGCGCCGTGAGGATCCGACAATTGCCCATGACATCGCCCATCCGCAGGCGCCGCGTTCAGCGCCCGGCATCGTCCTCGAAGCCTTGCGTCGTCGCCGCGCCGCGGGCGTCCCGGCGTTTACCGTGTTGTGCTGTGACAACATGCCCGACAACGGCCAGCGCACCCGCCAGGCGGTAAGCGCATTGGCGGCGTTGCAGGATCAGGCGCTGGCGCAGTGGATCGAGCAACAGGTGGCATTTCCCAGCTCCATGGTCGACCGCATCGTGCCGGCCATGGACGAGGAGTCCTTCGTCCGGCTGGCGCAACAATTGGACTGCCACGACCGCGCCGCCGTGGTCTGTGAAAGCTTCAGCCAGTGGGTGATCGAGGACCACTTTCCCCTTGGCCGACCGGACTGGGAAGCCGAAGGCGTGCAGATGGTCGACGATGTGCGCCCGTTCGAAACCATGAAATTGCGCATGCTCAACGGCAGCCATTCGTTGCTGGCCTATGTGGGGCTGCTGGCCGGGCATGAGTCAGTCTTCGAGGCCGTCAGCGATGTGAGGCTGGCGCATTTCATCGAGCGCTACATGACCGAGGAAGCCGCGCCCACGCTGGACATGCCGGCAGGGATCGACCTGTCGGTATACGGTCGCGACCTGCTGGCGCGCTTCGCCAATGACAGCCTGCAACACCGCTTGCGCCAGATTGCCATGGACGGTTCGCAAAAACTGCCGCAACGCTGGTTGCTCGGCGCAGAGCAATTGCTCGACCAAGGGCGCGGCATCGACTGCACCGCGTTGGGAATTGCCGCCTGGATTCATTACTGCACGCAGCCGTTGCCCGGCCGACCGGCGCATGTGGTTGACGACCCGCTGAGCGCAACCTTTGCCGACGTTGCGGGACGCTTCGACGGTGCATCGCGGGTCGATGCTTTTCTCGACCTTGAAGAAGTCTTCCCGCCGGCGCTGTCAGCTCGCGCCGCGTTTCGCGACGCCGTGCACCGCGCCTATGACGCCTTGACCCGCGATGGCGTCGACAGCCTGTTGCACACCTTTGCCGCACCCAACTGA	MSLNQRVPATGQAREIGIVHLGLGAFHRAHQAVYLQRNLNRHGDSDWGLCSANLRSNHALVEQLREQDGRYHVAEYRDREQVTLREIGVLREALYAGEGGQELEQLLQRMAAPQTRIVTLTVTEKGYCLSPSSGQLRREDPTIAHDIAHPQAPRSAPGIVLEALRRRRAAGVPAFTVLCCDNMPDNGQRTRQAVSALAALQDQALAQWIEQQVAFPSSMVDRIVPAMDEESFVRLAQQLDCHDRAAVVCESFSQWVIEDHFPLGRPDWEAEGVQMVDDVRPFETMKLRMLNGSHSLLAYVGLLAGHESVFEAVSDVRLAHFIERYMTEEAAPTLDMPAGIDLSVYGRDLLARFANDSLQHRLRQIAMDGSQKLPQRWLLGAEQLLDQGRGIDCTALGIAAWIHYCTQPLPGRPAHVVDDPLSATFADVAGRFDGASRVDAFLDLEEVFPPALSARAAFRDAVHRAYDALTRDGVDSLLHTFAAPN	PGPT0018275_1083	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018275-uxuB-K00040	NA	NA
D1-35_04814	1293	exuT_3		Hexuronate transporter	ATGTTTGGTCAAGGACGTAGCTTAATCATCATCATGCTGTTCCTGGCCGGGGTGATCAATTACCTCGACCGGTCGGCATTGTCTGTGGCGGCGCCGTTCATCCAGAAAGACTACGGTCTGAGTACGGGTGAGATGGGCATGATCTTCAGCAGCTTTTTCGTCGGTTATGCCGCCTTCAACTTCATCGGTGGCTGGGCCGCCGACCGTTATGGCGCCAAGACCACGTTGCTGCTGGCCATGGTCCTGTGGTCGTTGTTCAGCGGCCTCACGGTGCTGACGGTGGGCTTCGCGTCGCTGGTGCTCATCCGGATCCTGTTCGGCATGGGCGAAGGTCCGCTGAGCGTCACCACCAGCAAGATGGTGAACAACTGGTACACCCCCAAGCGCCGGGCACGAGCCCTCGGTGCCTCGATGTCCGGCACGCCGCTGGGCGGGGCGATTTCCGGTCCGGTGGTGGGCTTCATTGCGGTCACCTACGGCTGGAAGGTGTCGTTCATCATCATCATGCTGGTCGGCCTGATCTGGGCGGCAATCTGGTACAAGTTCGTCAAGGAAAAGCCCGAGGGCGAGGGCGCCGAGGATATCCTGCGGGCCGAGGGGCAGAGCGAGCTGGCGTCGCAACCGGTATTCCCGCTGCGGTTCTACCTCAAGCAGCCGACGGTGCTGTTCACCTCCCTGGCGTTCTTTTCCTATAACTACACGCTGTTCTTCTTCCTGACCTGGTTCCCCAGTTATCTCACCATGGCCCACGGCCTGAACGTCAAGGACATGAGCATCGCCACGGTCATCCCCTGGCTGCTGGGTTTCCTGGGTCTGGCATTGGGTGGGTTCATTTCCGACTTCGTGTTCAAGAAGACCGGGCGGATCATGTTCTCGCGCAAAGTCGTGCTGGTGACTTGCCTGTTGGCCTGCGCCGGTTGCATCGGCGTCGCCGGGGTGGTGAAGACGCTATATCCGGCCGTCATCCTGGTGGCGCTGGCGGTGTTTTTCCTCTACCTCACCGGCGCGATCTATTGGGCGATCATCCAGGATACGGTGCCTGCGGCGCGGGTAGGCGGCGTCAGTGGCTTCATGCATTTCCTGGCTAACACCTCGGGCATCATCGGGCCGACCCTGACCGGGTTCATCGTCCAGTTCACCGGCTCGTTCACCAGCGCGTTCCTGCTGGCGGGCCTGCTGACCATCATCGGCGCGCTGTGCGTGGCGCGTTACGTCAAGCCGCTGGCGGTGGCAGGTGTCGCGCCGCAGGCCGATGCAGGCGTCCAGCCGCGTCCAGCCCTCGACCATCCCTGA	MFGQGRSLIIIMLFLAGVINYLDRSALSVAAPFIQKDYGLSTGEMGMIFSSFFVGYAAFNFIGGWAADRYGAKTTLLLAMVLWSLFSGLTVLTVGFASLVLIRILFGMGEGPLSVTTSKMVNNWYTPKRRARALGASMSGTPLGGAISGPVVGFIAVTYGWKVSFIIIMLVGLIWAAIWYKFVKEKPEGEGAEDILRAEGQSELASQPVFPLRFYLKQPTVLFTSLAFFSYNYTLFFFLTWFPSYLTMAHGLNVKDMSIATVIPWLLGFLGLALGGFISDFVFKKTGRIMFSRKVVLVTCLLACAGCIGVAGVVKTLYPAVILVALAVFFLYLTGAIYWAIIQDTVPAARVGGVSGFMHFLANTSGIIGPTLTGFIVQFTGSFTSAFLLAGLLTIIGALCVARYVKPLAVAGVAPQADAGVQPRPALDHP	PGPT0017205_1111	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_HEXURONATE_TRANSPORT,PGPT0017205-exuT-K08191	NA	NA
D1-35_04815	1032	rspB	COG1063	Starvation-sensing protein RspB	ATGAAAGCGTTCCAGGTAAGAGCACCCTTCGAGTTCGGCCTGGCCCAGGTCGACCGCCCCGAGGTCGCTCGTGGCGAGGTGCTGGTCGATGTGGCGTATGCCGGCATCTGTGGCTCGGACATGCACATCATTCACGGGCAGAACGCATTCGTGCGTTTCCCCAGGGTCACCGGCCATGAATTCTCCGGAGTGATCCGGCAGGTCGGTGAAGGTGTCGAGCACCTCCAGACAGGCGACCGGGTGTGCATCGATCCGGTGATCAGTTGCGGCACCTGTTATCCCTGCCGCATTGGGCGGCCGAACGTCTGCACGCGGCTGCAAGTGATCGGCGTGCATCGTGACGGCGGCTTCAGCGAGCAGGTCTGCGTCCCGGCCGAGAACGCCCACCGCTTGCCCGATTTGATGTCCCTCAGCCACGGCGCCCTGGTGGAGCCTTATTCCATTGCCCTGAACGTGCTCGATCGGATGCAGCCGCAGCCGGGTGACAGCGTGTTGATCTACGGCGCCGGCGTGATCGGCCTGACCCTGGTGCAAATGGCCCGGGCGCTGGGAATGACCGACATCACCGTGACCGATGTCATCGACAGCCGCCTGGGGACAGCGCGTGCGCTGGGCGCCAGTCGGACCCTCAACGGCCAGCAAGTCGACGTTGAAGCGCTGATGCGTGAGCACACCCAGGGCGAGGGCGTGCCGTTGATCGTCGACGCTGCCTGCATTCCGGCGCTGATGCCGCAGATGGTGCGCCTGGCCTCGCCGGCCGGGCGCATCGGATTGCTCGGCTTCAATGCCACGCCCAGCGATCTGGTGCAGTTGGAGATGATCAAGAAGGAATTGACGCTGGTCGGTTCCAGGCTCAACAACCGAAAGTTCCCCCAGGTGATCGAACTGATCGCCAGCGGCAAATTGCAGGTCCAGGACCTGATCAGCCATCGCGTCAGCTTCGATGAAATGCCCGGCGCCATCGACCTGATCGAGAAGCACCCCGAGCAAACCCGAAAAGTCCTGGTGGAGCTGACGAGCGCCCTTCACTGA	MKAFQVRAPFEFGLAQVDRPEVARGEVLVDVAYAGICGSDMHIIHGQNAFVRFPRVTGHEFSGVIRQVGEGVEHLQTGDRVCIDPVISCGTCYPCRIGRPNVCTRLQVIGVHRDGGFSEQVCVPAENAHRLPDLMSLSHGALVEPYSIALNVLDRMQPQPGDSVLIYGAGVIGLTLVQMARALGMTDITVTDVIDSRLGTARALGASRTLNGQQVDVEALMREHTQGEGVPLIVDAACIPALMPQMVRLASPAGRIGLLGFNATPSDLVQLEMIKKELTLVGSRLNNRKFPQVIELIASGKLQVQDLISHRVSFDEMPGAIDLIEKHPEQTRKVLVELTSALH	PGPT0018265_61	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018265-rspB-K08322	NA	NA
D1-35_04816	1212	rspA	COG4948	D-galactonate dehydratase family member RspA	ATGAAAATCGTTGAAGCGCGTGTCATCGTTACCTGCCCGGGGCGCAACCTGGTCACGTTGAAGATTGTCACCGACGAAGGCATCTACGGCATCGGCGATGCCACGTTGAACGGCCGCGAACTGGCCGTCGTCGCGTATCTGGAAGAGCACGTTCTTCCTGCGTTGATCGGCCGCGATGCCCATCGCATCGAGGACATCTGGCAATACCTCTATCGCGGCGCTTATTGGCGCCGGGGGCCGGTGACCATGACGGCCATCGCCGCCGTCGACGTGGCGCTCTGGGACATCAAGGCCAAGGCCGCGAACATGCCGCTGTACCAATTGCTCGGGGGCAAGAGCCGTGAGCGGGTGATGGTCTACGGGCACGCCACCGGCAAGGACATCGAAGGCTGCCTGGACGAAGTCGCCCGTCACGTCGAGCTGGGCTACAAGGCCGTGCGGGTGCAATGCGGAGTCCCGGGCATTGCCACGACGTACGGGGTCGCCAAACGCAGTGGCGAGCGTTACGAGCCGGCCGACAGCGACCTGCCCGCGGAACACGTCTGGGACACCGCCAAATACCTCAATTACGTACCCAAGCTGTTTGCCGCCGTGCGCGAACGTTTTGGCGACGACCTGCACATTCTCCACGACGTGCATCATCGCCTGACGCCCATCGAGGCCGGGCGCCTGGGCAAGGCGGTGGAACCGTACAACCTGTTCTGGCTGGAAGACTGCACGCCGGCGGAAAACCAGCAGAGCTTCCGCCTGATCCGCCAGCACACCACCACGCCGCTGGCGGTGGGCGAGGTGTTCAACTCGATCCATGACTGCCGCGAGCTGATCCAGGAACAGTTGATCGACTACATCCGCACGACGCTGGTGCATGCCGGCGGCATTACCCACGTGCGGCGAATTGCCGATTTCGCCGCGCTGTTCCAGGTGCGTACCGGTTTTCACGGGGCCACCGACCTGTCACCGGTGTGCATGGGCGCGGCCCTGCATTTCGATACGTGGGTGCCGAACTTCGGCATCCAGGAACACATGCCTCACGAAGACCGCATCGATGAAGTCTTCCCTCATGCGTATCGCTTCGAGGACGGCCATTTCACCCCGGGCGAAACGCCAGGGCATGGCGTCGATATCGATGAAGAGCTTGCCCGCCAATACCCCTACAAACGCGCCAGCTTGCCGGTCAACCGTCTTGAAGACGGCACGCTGTGGCATTGGTGA	MKIVEARVIVTCPGRNLVTLKIVTDEGIYGIGDATLNGRELAVVAYLEEHVLPALIGRDAHRIEDIWQYLYRGAYWRRGPVTMTAIAAVDVALWDIKAKAANMPLYQLLGGKSRERVMVYGHATGKDIEGCLDEVARHVELGYKAVRVQCGVPGIATTYGVAKRSGERYEPADSDLPAEHVWDTAKYLNYVPKLFAAVRERFGDDLHILHDVHHRLTPIEAGRLGKAVEPYNLFWLEDCTPAENQQSFRLIRQHTTTPLAVGEVFNSIHDCRELIQEQLIDYIRTTLVHAGGITHVRRIADFAALFQVRTGFHGATDLSPVCMGAALHFDTWVPNFGIQEHMPHEDRIDEVFPHAYRFEDGHFTPGETPGHGVDIDEELARQYPYKRASLPVNRLEDGTLWHW	PGPT0018285_537	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018285-rspA|manD-K08323	NA	NA
D1-35_04817	1011	kdgK_3		2-dehydro-3-deoxygluconokinase	ATGATGGATTTGACACTCAACCATGGCCCGGACACCCGCTTCCCCCGACCGCTGAAGGTCGCGCTGGTGGGTGAGTGCATGATCGAGGTGCGCGGCGGGCCGGATGCCGCAATCACGCAGACCTTCGGTGGCGATACGCTTAACACCGCGGTCTACCTGGCCCGATTGAATCCACGTGGCGCCGTCGCCGTGGATTACATGACCGCGGTAGGCAACGACGCATTCAGCGCGGCCATGCGCCAGTCCTGGCTGGACGAAGGCATTGGCGATGCGCATGTCCGGGTGATTGAAGACGCGCTGCCGGGGTTGTACTTCATCCAGACCGATCCACACGGCGAGCGGCGGTTCCTCTACTGGCGCGGGGAAGCGGCGGCGCGGCGCATGTTCGAAGGCGCCGAGGCCGAGGCCGAGGCCATGCTCGCTGCGCTGGCCGATTACGACTATGTCTACCTGAGCGGCATCACCCTGGCGATCCTCCTGCCGGAGGGGCGCGAACGCCTGATCCACGCCTTGCACCGGGCTCGCCGGGCGGGCACGCGCATTGTCTTCGACAACAATTACCGTCCCCACCTTTGGCCCGACCCCGAAACGGCCCGCCAGGCCTATCGCGATCTACTGCACTTGAGCGACCTGGCGCTGGTGACTTGGGAAGACGACGCGAGCCTGTTCGGCTACCACGACCCTGATGCCTTGTTCAGTGTTTACGCCGAGGCGGGAGTCCGCGAAGTCGCCCTCAAGCGTGGCGCCGCCAGTTGCCTGATCCAGTGTCCCGCGGGGCGTTTCGAAGTGCCCGCGCAGACCGTCGCGCAGGTTATCGACACCACCGCTGCCGGTGATTCGTTCAACGCTGCGTACCTGGCCTGCCATCTGCGCGGCGGTGATCCGCAGCAGGCCGCCCGCTGGGGCCATCGCCTGGCTGCCGAGGTCGTCCAGTACCGGGGCGCGCTGATTCCGCAGGCGGCCATGCCGAGCATGGACACGTCCTCACTTCCTTTTGTCGAACAGGTCTGA	MMDLTLNHGPDTRFPRPLKVALVGECMIEVRGGPDAAITQTFGGDTLNTAVYLARLNPRGAVAVDYMTAVGNDAFSAAMRQSWLDEGIGDAHVRVIEDALPGLYFIQTDPHGERRFLYWRGEAAARRMFEGAEAEAEAMLAALADYDYVYLSGITLAILLPEGRERLIHALHRARRAGTRIVFDNNYRPHLWPDPETARQAYRDLLHLSDLALVTWEDDASLFGYHDPDALFSVYAEAGVREVALKRGAASCLIQCPAGRFEVPAQTVAQVIDTTAAGDSFNAAYLACHLRGGDPQQAARWGHRLAAEVVQYRGALIPQAAMPSMDTSSLPFVEQV	PGPT0018060_1259	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0018060-kdgK-K00874	NA	NA
D1-35_04818	783	kdgR_4		Pectin degradation repressor protein KdgR	ATGGACAACAGCGTCATTCCCAACAACGATCTGGTGTCGGCGGTTGGCCGGACCATGGCCGTGCTCGAAGCCCTGGCCGAGCATCCGGAAGAAAGCGGCGTGTCGGAAATCGCCACCAAACTGGACATGTCCAAGGCCACGGTTTATCGCTTCCTGCAGTCACTCAAGGCTCGCGGGTATGTGGTGCAGGATGCCGAAGACCGTTATCGCCTCAGCGTCCGGCTGTTCGAACTGGGCGCCCAGGCCCTGCCCCATCTGGACATCGTTCGCGAAGCGGAGCCGGGGATGCGCCGGATCAACGAGCTGACCGGCGAGACCGTGCACCTGGGGATCCTTGATGAAGGCAGCATCGTCTACGTGCACAAGATCGACTCCAAATACAACCTGCGCATGTACTCGCGCATCGGCCGGCGGGCGCCGTTGTACTGCACCGGCATCGGCAAGGTGCTGATGGCGTGGCTGGAAGAGGAAGAGCTGCTCGCGCACCTCGCGCAGGAAAGCTTCGAGCGCCGTACGGCCAATACCTTGACCAGTGTCGAGGCGTATCTGCAGGAGTTGGAGATCGTTCGCCAGCGGGGCTATGCCGAGGATCACGAAGAATTCGAAGACAACATGCGCTGCCTCGCGGCACCGATCCGCGACCGGTTCGGCCATGTGATCGGCGGGATGAGCGTTTCATTCCCGTGCTTTCGCTTCAGGGAAGAATTGAAGCAGGACTATGTCAAGCAACTGATGCAGGCGACGCAGCAGATTTCAGCTCAGTTGGGTTGGCATGCACGTTGA	MDNSVIPNNDLVSAVGRTMAVLEALAEHPEESGVSEIATKLDMSKATVYRFLQSLKARGYVVQDAEDRYRLSVRLFELGAQALPHLDIVREAEPGMRRINELTGETVHLGILDEGSIVYVHKIDSKYNLRMYSRIGRRAPLYCTGIGKVLMAWLEEEELLAHLAQESFERRTANTLTSVEAYLQELEIVRQRGYAEDHEEFEDNMRCLAAPIRDRFGHVIGGMSVSFPCFRFREELKQDYVKQLMQATQQISAQLGWHAR	PGPT0018213_719	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
D1-35_04819	426			hypothetical protein	ATGAGCCTTTCACCCTTCCATCTCGCAATCCCGGTTTATGACCTCGCGGCAGCCCGAAACTTTTATGGCCAGGTGTTCGGGCTGGAGGAGGGCCGTTCCAGTGATCAATGGGTCGACTTCAACTTCTACGGGCACCAGTTGGTGATCCACGAGCATCCGAAGACCGCTTCCCAGGAAAACGCGCACAGCAATGCCGTGGATGGGCACGATGTGCCGGTGCCGCACTTCGGCGTCGTGTTGGGTTGGGCTGAATGGGAAGCGCTGGCCGAGCGATTGAAGTCGTTGGGTACCGAATTCGTGATCGAACCCTACATCCGCTTCAAGGGCCAGGTGGGCGAGCAGGCGACGATGTTCCTGTTCGACCCTTGCGGCAATGCGCTGGAGTTCAAGGCGTTCAAGGACATGAGCCAGCTGTTCGCGAAATAA	MSLSPFHLAIPVYDLAAARNFYGQVFGLEEGRSSDQWVDFNFYGHQLVIHEHPKTASQENAHSNAVDGHDVPVPHFGVVLGWAEWEALAERLKSLGTEFVIEPYIRFKGQVGEQATMFLFDPCGNALEFKAFKDMSQLFAK				NA	NA	NA	NA	NA
D1-35_04820	879	yofA	COG0583	HTH-type transcriptional regulator YofA	ATGATCAAAGAACTCAAGACCCTCATCGCGGTGGCGCGCGAAGGCACCTTTGCCGCCGCCGGGCACAGAATCGGCCTCACCCAGGCGGCGGTCAGCGCGCAAATCCAGCGTCTGGAAGCCGAACTGGGCTTCGAGCTGTTCGACCGCAAGGGACGCTCGGCCCACCTCAACAAGCGGGGCCAGCAGATACTCCTGCAAGCCCAGGAGCTGCTCCGTCTTTACGACAATCTCGGTTCCACCCTGCCCGGACTACCCGCCAGCGTCCTGGTAAATATCGGCGCGATCGCCTCCGTCCAGCGCTCCTACCTGCCGGACGCCCTCGCCAGGTTCCACCAGCAATGTCCGCAATGCCGCACGCGTGTGGTGCCAGGCCTGTCGGTCGAGCTGATCAACCTGGTGGACGCCGGCGAAATCGATCTGGCGGTGATGATCCGCCCGCCGTTCTCGCTGCAAAGCGACCTGCGCTGGACGACCCTGGCGCTTGAGCCCTACCGGTTGATCGTCCCCCGTGGAATGCTCGGCGAGGACTGGTCGGCGCTGCTGTCCAGCCAACCTTTCATCCGCTATGACCGGTCGTCCTTCGGTGGCAGGCAGGTCGACCGTTTCCTGCGGCAGATGCACTTCACCTTGCGCGAAGTGTGCGAGCTGGATGAACTGGACGCGATCATCAAACTGGTGGAAAAAGGCGTCGGTGTCGCCCTGGTGCCGCAGACATCGGCCCATCAGCCATGGCCGAAAGGTGTGCGGGCGCTCGACTTGGGCCAGCACACCTTTCACCGCGATATCGGCCTCATCCATCGGTCGCGACAGAGCCTTGCCGACCCCGTCGCGACCTTGGCCGAACTGATTCAAGAGCAGGCCGGCGGTGGTGTTGGGTAA	MIKELKTLIAVAREGTFAAAGHRIGLTQAAVSAQIQRLEAELGFELFDRKGRSAHLNKRGQQILLQAQELLRLYDNLGSTLPGLPASVLVNIGAIASVQRSYLPDALARFHQQCPQCRTRVVPGLSVELINLVDAGEIDLAVMIRPPFSLQSDLRWTTLALEPYRLIVPRGMLGEDWSALLSSQPFIRYDRSSFGGRQVDRFLRQMHFTLREVCELDELDAIIKLVEKGVGVALVPQTSAHQPWPKGVRALDLGQHTFHRDIGLIHRSRQSLADPVATLAELIQEQAGGGVG				NA	NA	NA	NA	NA
D1-35_04821	1611	ywrD	COG0405	Glutathione hydrolase-like YwrD proenzyme	ATGCTGAAATTTTCTGCCCACGAATACCCCTATCCGTCGCAGCGCCAGAGCGTTTTTGCCCGTCGCGGCATGGTCGCCGCATCCCAGCCCCTGGCAGCCCAGGCGGGCATCGAGATCATGCAAAAAGGCGGCAACGCCATTGACGCCGCCATCGCCACGGCGGCGGCGCTGACGGTGGTGGAGCCCACCGGCTGCGGTATCGGCGGTGACGCCTTCGCGTTGGTCTGGTGCAAGGGCCAGTTGCATGGGCTCAACGGCAACGGCCATGCACCGGCGGCCTTGAGCATCGAGGCGGTCAGAGCGGCCGGCCATGAACAGATGCCGGTGTATGGCTGGACACCCGTCACCGTTCCCGGTTGCCCGTCGGCCTGGGCCGAGCTGTCTCGGCGCTTCGGCAAGCTGCCTTTTGCCGAGTTGCTGCAACCGGCGATCAGCCTGGCGCGGGACGGTTTTGTAGTGTCGCCGGTGGTTGCCCATCAATGGCAGGTCGCGGTGAACGAGCTCACGCCTCATCGCGATCTGGTCCTGGAGGCCTGGTTCGATACCTTTCTCATCGAAGGTCGCGCGCCACGGGCCGGGGAGATTTTCTGCAACCCGGCCCAGGCCCGCACGCTCCAGGAACTGGCCGACACGTGCTGCGAAAGCCTCTATCGCGGCGCATTGGCCGAGCGCCTGGATGCCCATTCCCGAGCCAGCGGCGGCTACCTGCGTGCCTCGGACCTGAAGGATTATCACGCCCAGTGGGTCGACCCCATCCACGTCAATTACCGTGGCGTGGACGTCTGGGAGATCCCTCCGAGCGGGCAGGGCCTCGTGGCCTTGATGGCGTTGAAAATACTTGAAGGCTTCGACTTCGATCACCGTGACAGCCAGCAGACCTGGCATCGCCAGTTGGAGGCGATGAAGCTCGCCTACAGCGACGGCCTGCACCACATCACCGACCCCCTGCACATGCGCGTGGCGGTGGCTGATTTGCTCAGTGATGACTACAGCGCCCGCCGTCGCGGACAGATCGGCGAACAGGCCCAACCGCCGAAGCCCGGCGATCCCCACGCCAGCGGCACGGTGTACCTGGCGACCGCCGACGGCGAGGGCAATATGGTCTCGTTCATCCAGAGCAACTACCACGGGTTCGGCTCCGGCGTGGTGCTGCCCGACAGCGGAATCGCCCTGCAGAATCGCGGCCAGGAATTCAGCCTTGATCCGGCCCACGCCAATTGCCTGGCCCCAGGCAAGAAGACCTTCCATACCATCATTCCCGGGTTTCTTACCCGCGATGGCGAGGCTCTCGGTCCTTTCGGCGTGATGGGCGGCTACATGCAACCCCAGGGGCATGTGCAGATGGTCATGAACCTGGTGGATTTCGGCCTGAACCCGCAAGCGGCCCTGGATGCGCCGCGCTGGCAGTGGCTGGGCGAGATGAAGGTCGGCATCGAGCAGGGCGCTTCACGGGACCTGGTCAATGCCCTGGCACGCCGCGGCCATGAGGTTCAGGTCGCCAGCGACCTGACCGATTACGGGCGCGGCCAGATCATCCTGCGCGATCCGGTCAGTGGCGTGTTGTGTGGCGGGACCGAACCGCGGGCGGATGCGCATATCGCGGTTTGGTAG	MLKFSAHEYPYPSQRQSVFARRGMVAASQPLAAQAGIEIMQKGGNAIDAAIATAAALTVVEPTGCGIGGDAFALVWCKGQLHGLNGNGHAPAALSIEAVRAAGHEQMPVYGWTPVTVPGCPSAWAELSRRFGKLPFAELLQPAISLARDGFVVSPVVAHQWQVAVNELTPHRDLVLEAWFDTFLIEGRAPRAGEIFCNPAQARTLQELADTCCESLYRGALAERLDAHSRASGGYLRASDLKDYHAQWVDPIHVNYRGVDVWEIPPSGQGLVALMALKILEGFDFDHRDSQQTWHRQLEAMKLAYSDGLHHITDPLHMRVAVADLLSDDYSARRRGQIGEQAQPPKPGDPHASGTVYLATADGEGNMVSFIQSNYHGFGSGVVLPDSGIALQNRGQEFSLDPAHANCLAPGKKTFHTIIPGFLTRDGEALGPFGVMGGYMQPQGHVQMVMNLVDFGLNPQAALDAPRWQWLGEMKVGIEQGASRDLVNALARRGHEVQVASDLTDYGRGQIILRDPVSGVLCGGTEPRADAHIAVW	PGPT0002935_4838	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002935-ggt-K00681	NA	NA
D1-35_04822	780	glnQ_9		Glutamine transport ATP-binding protein GlnQ	ATGGCGCACAAGAGTGAAGAGCTGATCATCGAGGCGCTGGACGTGCACAAGTCCTTCGGTGAGTTGCAGATTCTCAAGGGCATCTCGCTGCAGGTGCGGCGCGGTGAAGTGGTGGTGCTGATCGGTGCGTCAGGCTCCGGCAAGACCACCTTCATCCGTTGCATCAATCTGCTGGAAGACATCCAGGGCGGACGCATTCGCGTCAATGGCCAGGCCATGGGTTACCGCGAGCGGGCCGACGGCAGCCTGGTGCGTGAGTCGGAGCGCAACATCGCCCGCCAACGAAGGGACATCGGCATGGTGTTCCAGCGCTTCAATCTGTTCCCCCACATGACCGCCCTGGAGAACATCATCGAGGCGCCGATCCAAGTGCTCGGCGTGCCTCGCGCCGCAGCGCTGGAACAGGCTCGCGGCTTGCTGGAGCGGGTCGGCCTGGCGGACAAGGCCGATCACTACCCGTCGATGCTTTCCGGCGGCCAGCAACAGCGGGTGGCGATTGCCCGCGCGCTGGCGATGAAACCCCAGGCCATGCTGTTCGACGAACCGACCAGCGCCCTCGACCCGGAAACCGTTGGCGAGGTCCTGCAGGTGATGAAGGAGTTGGCCGAGGAGGGCATGACCATGGTCGTGGTGACCCACGAGATGGGCTTTGCCCGCGAAGTGGCGGACCGCGTGGTGGTGCTCGATCAGGGCGAGCTCATCGAGCAAGGGCCGCCGGAGCAGATTTTCTGTCACCCCATCCACCCGCGCACCCGGGCCTTTCTCAGTCGCGTGCTGTGA	MAHKSEELIIEALDVHKSFGELQILKGISLQVRRGEVVVLIGASGSGKTTFIRCINLLEDIQGGRIRVNGQAMGYRERADGSLVRESERNIARQRRDIGMVFQRFNLFPHMTALENIIEAPIQVLGVPRAAALEQARGLLERVGLADKADHYPSMLSGGQQQRVAIARALAMKPQAMLFDEPTSALDPETVGEVLQVMKELAEEGMTMVVVTHEMGFAREVADRVVVLDQGELIEQGPPEQIFCHPIHPRTRAFLSRVL	PGPT0020790_1701	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
D1-35_04823	777	yecS_5	COG0765	L-cystine transport system permease protein YecS	ATGAATTTCAATTGGGATGTGTTCTGGCAGTACCTGTTGCAGCCCAGTGAGGTGTACCTCACCGGGCTGTGGCTGACCTGCCTGATCAGCGTGCTGGCGATGCTGCTCGGCTGTGCCCTGGGGCTGGCGGCCGCGCTGCTGCGGTTGTCGAAGAACCCGCTGCTGCACCTGCCGGTGCGCTTCTACGTGTGGCTGATGCGCGGTACGCCGTTGCTGGTGCAGATCGTCTTTCTCTACACCGCGCTGGCCGCCGGCGGGATTTTCCGCTTCGAAGACATCGAACTGTTCGGCCTGGTGGTGCCCGGCAATATCCAGGCGGCGATCATCGCCCTGGGTCTCAACGAGGGCGCCTACATGGCCGAGATCATCCGCGCCGGCATCGGTGCGGTGGACAAGGGCCAATACGAGGCCGGACGTTCCCTGGGCATGACCTTCGCCAAGCTGATGCGTCGCATTGTCTTGCCCCAGGCGTTCCGGGTCATCGTTCCGCCGCTGGGCAACGAGTTCAACGTGATGCTCAAGAACACCACGCTGGTCAGCGTGATCGGCGTGCAGGAACTGCTGCTCAGTACCCAGATGGTCACGTCGGCGACGTTCCGGGTGTTCGAGTTGTACCTGGTGGTGGCGATCTATTTCCTGCTGCTGACCACCCTGTGGGGCTTTTTCCAGCGCTGGCTGGAGGGCCGTTTCGGCCAGTCGGACCGGCCGTCGTCACCGCCGCCGGCGTCGCTGCGGATGTTTGGTCGCAGCACCTTGAATCTGCTGAGGGCACGTTGA	MNFNWDVFWQYLLQPSEVYLTGLWLTCLISVLAMLLGCALGLAAALLRLSKNPLLHLPVRFYVWLMRGTPLLVQIVFLYTALAAGGIFRFEDIELFGLVVPGNIQAAIIALGLNEGAYMAEIIRAGIGAVDKGQYEAGRSLGMTFAKLMRRIVLPQAFRVIVPPLGNEFNVMLKNTTLVSVIGVQELLLSTQMVTSATFRVFELYLVVAIYFLLLTTLWGFFQRWLEGRFGQSDRPSSPPPASLRMFGRSTLNLLRAR	PGPT0020795_3648	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
D1-35_04824	807	argT_6	COG0834	Lysine/arginine/ornithine-binding periplasmic protein	ATGCATAAGCCTCGCCTGTTGGTCGCCGCTTTATCCTTGGGTTTCTTCGCGCAATGGGCGGCGGCTGCGCCCGTTGTCCCGGAGCGTCTGCTCAAGGCCGATAAACTCGTCTACTGCTCGGGCATGGATTCGCCACCGCTGGTGTCCTTCGATGCGGCGCAGAAACCCAAGGGACTGACCGTGGACCTGGGGCTGGAAATCGCCAAGCGCCTGGGCGACAAGAAGGTCGAATGGCGGGTCATTCCCTTCTCGGGACTGCTTCCGGCGCTGCTGGCCCGGCAGTGCGACATGATCGTCGACCAGCTGTTCGACAAGCCCGAGCGCCGCGAGGTGATCGACATCGTCAACTACATGTATTCCAGCCAGGCGGTGGTGGTGCCCAAGGGCAATCCCAAGGGCTTGAAGACGCTGCAGAGTCTCTCCGGCCACAAGGTCGCGGTACTCAACGGTTCGACCATCAAGACCCTGCTCGACGCCGAGAACGAAACTCTGGCCAAGGCCGGCAAGCCGCCGATGAAGCTGGTGGTCTACAACACCGACACCGATGCCTTCCAGGCCCTGCGCATCAGCCAGGTCGACGCCTACGGCACCACCGTGGAAACCGCCGGTTACTACGCCACCATGGCCCCCGACCTGTTCGAGGAAGGCGTGCCGGCGTTCAGCCGGATTCTCACCGGCCTGGGTATTCGCAAGGACGATCCGCAACTGACCGCCGCCGTGCAGCAGGTGATCGGCGATATGCGCAGCGATGGCAGCTACAGCCAACTGCTCGGCAAATGGCATGTCTCCAGTGACACCCTTGATTGA	MHKPRLLVAALSLGFFAQWAAAAPVVPERLLKADKLVYCSGMDSPPLVSFDAAQKPKGLTVDLGLEIAKRLGDKKVEWRVIPFSGLLPALLARQCDMIVDQLFDKPERREVIDIVNYMYSSQAVVVPKGNPKGLKTLQSLSGHKVAVLNGSTIKTLLDAENETLAKAGKPPMKLVVYNTDTDAFQALRISQVDAYGTTVETAGYYATMAPDLFEEGVPAFSRILTGLGIRKDDPQLTAAVQQVIGDMRSDGSYSQLLGKWHVSSDTLD	PGPT0020800_9623	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
D1-35_04825	669			hypothetical protein	ATGCAGTTTGCCCCGACCTACGCTGAACGTCCGCCCATCACTGCCGAGGAAGAAGCCTACAACTTTCTGCTCGAAGCCATTTGCGGCGGTCGCCTGCGCAAAGGCGACCGGCTGATCGCCGAGGACATCGCCAACGAGATCGGCATGAGCCGCATGCCCGTGCGCGAGGCTTTCCGGCGTCTGGATGCCCAGGGCCTGGTGACCCTGCGGCCCAATCGCGGCGCGGTGGTCAGTGGCCTGGACATTGACGAACTGCACGAAGTCTTCGAAATGCGCAGCGCACTGGAAGGCCTGGCGGTGCGTGTCGCGACAGCAAAGATCGGTGAGCGTCAATTGGCAGCCCTGGAGCGCCTGCTGGACGAGATGGACGATTACCGCGAAGAGAGCGCCGAGTGGGTCAGCCGCCATCGCGCGTTCCATGAATATCTATGCAGCCTCAGCGGTCGGCCGCGCTTGCTGAAGCAGATCAGCGCGCTTTATTCGCTGATCGAAGCGCCGATGCGCCTGTGGCTGCAGCACGTGGAAAAGCCCCTGAGTGCGCGCCAGGAGCACACGCTGATCCTCGATGCCCTGCGTGCAGGCGATGCGGGGAAGGCCGAGGCGGTGGTGCGTGCGCACATCGAGGGCACCGTTCCTGAATTGATCGAGTTTCTGCAATCGAAAAAATAA	MQFAPTYAERPPITAEEEAYNFLLEAICGGRLRKGDRLIAEDIANEIGMSRMPVREAFRRLDAQGLVTLRPNRGAVVSGLDIDELHEVFEMRSALEGLAVRVATAKIGERQLAALERLLDEMDDYREESAEWVSRHRAFHEYLCSLSGRPRLLKQISALYSLIEAPMRLWLQHVEKPLSARQEHTLILDALRAGDAGKAEAVVRAHIEGTVPELIEFLQSKK				NA	NA	NA	NA	NA
D1-35_04826	942	rhaS_15		HTH-type transcriptional activator RhaS	ATGTTCGCCGAAGTTCGTACCTTCAATGATCCTCAACAACACGCCGGTTCGATCCTCGGCTGGCATCAGGTCTATGACCAACTCGGCCGTGGCTGCCTTTCCAGCGAGCTGCGGCAGGTGTGCGCCGAGCGCTTCCAGATCTTCCAGGAGGTGCTGGACAAACGCGTGGTGCAGCGCGGTAGCGCGCCGAAAGGGCGCTTGTGCATTGCCCTGTCGCTGGGCAATGCGCCGGTGGTCCAAGGGCACCAGGTCGGCGCCCACAGCGTCGTGCTGTTGCGCGACGGCGAAGACTTCATCTTGCACGCCCCGGAAGGCACGCATTTCTTCGCGGCCAACGTCGACACGGTGCGTTTTGCCAAGCTGGCGGCTTATGAGCTGGCGGACGAACAGCTCAAACGCCTGAAAAGCGTTTCGCAAATCAGCGTGGATGAAGCGGTGTTGTCGAGGGTCCAGCAGCAGATCCAACCGCTGTTTCGTCACCTTTTGGAACAGGCGAGCGCCGCCAATCCCGCCGTGGAAAAAATCCTCGAAGACGTCCTGCTCAATGCTTTCCTCGATCTGTTCAGCCATGCCTCGGACGAGGTGCGTGGGCGTCGCGGCAACGTTGCCGTCAATGCCTACCTGGTCAAGCGGTGCCAGGAATTGGTCATGGCCAGCGCCGAAGTGCCGTTGAGCATCCTGGACCTGTGCGAACAATTACGCGTGAGCCGCAGGACCCTGCAGAACAGCTTCCAGGCGGTCACCGGGATACGTCCGGTGGAGTATTTGCGCAACCTGCGGCTCAATGCGGTGCGTCGTCGTTTGATCAGCACCCGCGCGACCGCGCTGAATGTCAGCGAGATCGCCGTGGCGATGGGTTTTTTCCACCTGAGCCACTTTGCCGCCCATTACCGGGCGCTGTTTGGTGAGTCGCCTTCCGATACACCCCGGGCACCCGCATGA	MFAEVRTFNDPQQHAGSILGWHQVYDQLGRGCLSSELRQVCAERFQIFQEVLDKRVVQRGSAPKGRLCIALSLGNAPVVQGHQVGAHSVVLLRDGEDFILHAPEGTHFFAANVDTVRFAKLAAYELADEQLKRLKSVSQISVDEAVLSRVQQQIQPLFRHLLEQASAANPAVEKILEDVLLNAFLDLFSHASDEVRGRRGNVAVNAYLVKRCQELVMASAEVPLSILDLCEQLRVSRRTLQNSFQAVTGIRPVEYLRNLRLNAVRRRLISTRATALNVSEIAVAMGFFHLSHFAAHYRALFGESPSDTPRAPA	PGPT0000623_485	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ETHANOLAMINE_USAGE	N-AQUISITION-ETHANOLAMINE_DEGRADATION,PGPT0000623-eutR|yfeG-K04033	NA	NA
D1-35_04827	765	tesE		2-hydroxyhexa-2,4-dienoate hydratase	ATGAGGCGTGAAGATGATCTGTTGGTCCGGCTTCACGACGCCGCGCAGGCGGTACATGCCTTGCCTTCATTGGAATCACAGGCTTTCGATTTACCGAAGGGCTACGCCTTGCAGCGCGAGGCGTTGCGCCGACGCCAGGCCGGCGGTGAGCAGTTGAGCGGTTGGAAAGTCGCTTTCGCTGGCCGCGCGGCGCAGGAACGCTTCGGGCTCGATGAGCCGGTATTGGGCGGCTTGACCGATGCCATGGCCGTGGAGCCCGGCGGTGCGGTGGCGCTTGCACGGCTGATCCAGCCGAAGCTGGAAATCGAATTGGCGTTTGTCCTCGGGCGCGCGCTGGAGCCTGGTTTTCACAGCGACGAGGACATCCTCGCCGCCGTGTCGGAGGTCGTGCCAGCGTTTGAGATCGCCGATTGCCGCTGGCAGGGCTGGCGTTTCGGCGTCGGCGCGTTCCTGGCCGACAACGCCGCCGCGGGGCTGTACTGCCTGGGGCCACGGGTGGGGTTCAGTCCTGATCAATTGCCCCACGTGAACTACCGGCTGGAATGCGACGGGGTGGCATGCGGAGAAGGAAACGTGCTGGCGCGCGAGGACACGCCGGTGTCGAATTTGTGTTGGCTGGTCAGGCGATTACTGGCCGATGGGCAATGCGTTGAGGCGGGGCAGGTGGTGCTTTCCGGGTCGTTGTTGGCGCCGTTGGACATCAGGCCCGGCGAATATCGCTTGCACATGCTTGGCACGGAACTGGCTTTGGTTTTTCACCGATGA	MRREDDLLVRLHDAAQAVHALPSLESQAFDLPKGYALQREALRRRQAGGEQLSGWKVAFAGRAAQERFGLDEPVLGGLTDAMAVEPGGAVALARLIQPKLEIELAFVLGRALEPGFHSDEDILAAVSEVVPAFEIADCRWQGWRFGVGAFLADNAAAGLYCLGPRVGFSPDQLPHVNYRLECDGVACGEGNVLAREDTPVSNLCWLVRRLLADGQCVEAGQVVLSGSLLAPLDIRPGEYRLHMLGTELALVFHR	PGPT0006005_1307	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-3-PHENYLPROPIONIC_ACID|CINNAMIC_ACID_RESISTANCE,PGPT0006005-mhpD-K02554	NA	NA
D1-35_04828	1608	mhpA_2	COG0654	3-(3-hydroxy-phenyl)propionate/3-hydroxycinnamic acid hydroxylase	ATGAAGCAGGACAAAACCCAGGTTGTCATCGTGGGCGGCGGCCCGAACGGGATCACGGCGGCGCATTACATGGGGCTGTACGGCATCGACTGCATCGTCCTCGAATTGGCCGAGGGCATCCTGCCGTATCCCCGGGCGGTGGGCATGGACGATGAAGCGCTGCGCGTGCTGCAAGGCATCGGCATTGCGGAGCTGGCTGCGCGGGACATGATCTGCAACGTGCCCCTGCGTTACTACAACGCACGCGGTGTGTGCTTTGCCGAGGTCAAGCCGAGCACGGCCCACTATGGCTGGCCGATGCGCAACATCTTCATGCAGCAATTGCTTGAAGGCACCTTGCGTGAGCAGTTGGGCAAGCACGCGGGCGTCGAGCTGCGTCAAGGCCATGAAATGCTCGACCTGGAGCAGGATGAAGCGGGCGTGACCTTGCAGGTGCGCGATGCCCAGGGTGAGCTGTATCAGTTGAGTGCACAGTACGTGATCGGTGCCGACGGCGGCCGCTCCAGCGTGCGCAAGAAACTCGGTATCGAGCTGCTGGGGCTGACCCATCCGCGCAAATGGGTGGTGGTCGACACGGCCAACGACACCCTGGATGCGCCGTACACAGCTCTGCATGCCGATCCCCAGCGGCCCTTCGTGTGCATCTATTTGCCGTACCAGCAACGACGTTGGGAGTTCATGCTGCTGGAAGGCGAGGACGAGGCCCGCATGTGCGAAGAAACAACGATCCGACAGCTGATCCGTGGCCATATCGGCGATGCGGTGGATCAGCTGGAAATCATCCGGATCCGTGCCTACACCCACAACTCGCGAGTGGCGGCGCGGTTTGTCGCCGGCCGCGTGGCGCTGGTGGGCGATGCGGCGCACATTTCTCCGCCCTGGGCCGGGCAGGGACTCAACTCGGGCCTGCGTGACGTGGTCAACGTGGCCTGGAAACTGGCGGCGATCCTCCAGGGCCGGGCATCACCGGCGATACTCGCCAGTTACGACCAGGAGCGCCGCGGCCATGCGACAGACCTCATCGCGCTGGCCGACAACATGGGCGCGGTCCTCGGCCTGACCAACCCACTGATGGCTGGGGTGCGGGACTGGTTGTTCCAGGCGGTGAACAGCGTCGACAACCTTCGCTCGCACTTGCTGGAGTTCAAGTTCAAACCCAAGGCGACCATCACCAAAGGCCTGGTCTACCACGAGCGCGCCGAACTGCACGAGGATGACCTGGTCGGGCAATTGTTCATCCAGCCTTCAATCGAAGATGCCCAAGGGCAGCGTCGACAGCTGGATGAGGTGCTGGGGCATTCCTACGCGGTGCTCGGTTATCGGGTCAATCCGGCCGCGCACCTGAGCGAAGAAACCGCGGCCTGGTGGGCGCACTGGGAGACGCGCTTCATCCAGATCAATCGTTCGCGCAGTGGCGCGGGGCGCAACCAGCCCTTGGCGGCCGACGGCGCCATAGGCATTGAGGACGTTGATAACCGTCTGGGCGAGTGGTTTGCCAGGGTGCGCGATTGCATCGTGGTGGTGCGGCCGGATCGGTTTGTCGCGGCGATCACCACGCCCGAGCGGCTCGAAGGCGTGTTGCGCAAACTGGCGGAGCAACTGTCATGA	MKQDKTQVVIVGGGPNGITAAHYMGLYGIDCIVLELAEGILPYPRAVGMDDEALRVLQGIGIAELAARDMICNVPLRYYNARGVCFAEVKPSTAHYGWPMRNIFMQQLLEGTLREQLGKHAGVELRQGHEMLDLEQDEAGVTLQVRDAQGELYQLSAQYVIGADGGRSSVRKKLGIELLGLTHPRKWVVVDTANDTLDAPYTALHADPQRPFVCIYLPYQQRRWEFMLLEGEDEARMCEETTIRQLIRGHIGDAVDQLEIIRIRAYTHNSRVAARFVAGRVALVGDAAHISPPWAGQGLNSGLRDVVNVAWKLAAILQGRASPAILASYDQERRGHATDLIALADNMGAVLGLTNPLMAGVRDWLFQAVNSVDNLRSHLLEFKFKPKATITKGLVYHERAELHEDDLVGQLFIQPSIEDAQGQRRQLDEVLGHSYAVLGYRVNPAAHLSEETAAWWAHWETRFIQINRSRSGAGRNQPLAADGAIGIEDVDNRLGEWFARVRDCIVVVRPDRFVAAITTPERLEGVLRKLAEQLS	PGPT0019755_1011	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-3-PHENYLPROPIONIC_ACID|CINNAMIC_ACID_RESISTANCE,PGPT0019755-mhpA-K05712	NA	NA
D1-35_04829	852			2-(acetamidomethylene)succinate hydrolase	ATGTCGGCAAACAGCCAGTTTTTCACCAATCGGACGGGGATGCGCCTGCGTTATGTGCGCTGGGGCAACCCGTCAGCAATTCCGCTGCTGCTGCTCCATGGGCTGCGCTCCTACGCCCAGACGTGGGCGCCGCTGGCCGCTGCGCTGGGCGAGCAGTATGTCTGCCATGCGCTGGATCAGCGCGGCCGTGGCGAGAGTGACTGGGCCGAGGCGTCCAGCTATCGCACCGAGCGCTATGTGAGCGACCTGGAAGATTGGGTGGCTCATCTGGGCCTGGAGCGTTTTGTCCTGGTGGGCCATTCCCTCGGCGGCACCAACGCGCTGGAGTACGCCCGGCTCAATCCCGGGCGACTGCACGCGCTGGTAATCGAGGACATCGGCCCCGGTTCGTCGATCCGTGGCGAGGGCGCCGAGCGTATCCGCCGCGAGATGAGCCAGACGCCGCTGGTGTTTCCCGACTGGGACAGCGCCGCGCAGTTCTGGCGGCAGTCGCGACCGGGTCTGTCGGCCGATGCGCTGGCGTCCCGATTGCGCTTTTCCATGAAGCAGACGCCGACGGGCATCGAATGGCGTCATGACCAGAAGGGCATTGCCGAGGCGCGCCTGAGCATCACCCCGACTGATCTGTGGCCCGCGGTGCGGGCGCTGGACTGCCCGACGCTGTTCATCCGTGGCGCGCGTTCGGATTTTCTTCCGTTGGCAACCCTGGAGGCGATGCGCGAGGCCAATCCGCGGGTGCTGACGGCGGAAATCGCGGACGCCAGCCATTATGTCCATGACGACCAGGGCGACGTGTTCAACCGGGTTGTCGCGGATTACCTGCGTGATCAACTCTTGCAACTACAACAATAA	MSANSQFFTNRTGMRLRYVRWGNPSAIPLLLLHGLRSYAQTWAPLAAALGEQYVCHALDQRGRGESDWAEASSYRTERYVSDLEDWVAHLGLERFVLVGHSLGGTNALEYARLNPGRLHALVIEDIGPGSSIRGEGAERIRREMSQTPLVFPDWDSAAQFWRQSRPGLSADALASRLRFSMKQTPTGIEWRHDQKGIAEARLSITPTDLWPAVRALDCPTLFIRGARSDFLPLATLEAMREANPRVLTAEIADASHYVHDDQGDVFNRVVADYLRDQLLQLQQ				NA	NA	NA	NA	NA
D1-35_04830	603			hypothetical protein	ATGAAAAACGCGAATTTCGCCAGCTACCACATCCGCAAATGGTACAGCTTCGTCGAGGAAACCCTGGCCAACGAAACCGGCCAGCTCGCCGATGGCGAGCCGTTGTTCAAATACGCCATCGGTGCGGTGATCGCCAATCCTTATGCCGGACGCTTCAGCGAGAGCCTGGCCGAGCTGATCGAACCGTCACCGTTGTTGGGCGAGGAATTCGGCCGGCGTATCCAGGCACTGGCGGGCGGGCGGCACATCATCAGCTACGGCAAGGCTTGCCTGGTGGGCAGCCAGGGTGAGTACGAACACGGCAATGCGCTACTGACCAACCCGGCGGCGGACCCGATTCGCCTGGCCTTGGGCGGCGGCAAATCCTGGGTGCCTTCCACCGGCAAGCGCGGTGGGCCGGGTACGGCCATCGATGTGCCGCTGGCCCACAAGGACGCGCTGTATGTGCGTTCGCACTACGACAGCATTTCGCTTTCGTTCGGTGACGGTCCTTCAGCGGACGAGTTGATCATCATCTGGGCCTTCGCCACGCGCGGACGTCTGCATGCGCGTCTGGGCGGCCTCCAGGCAGCGGACGTCAAGGGCAACGACGGCCTGTACTGA	MKNANFASYHIRKWYSFVEETLANETGQLADGEPLFKYAIGAVIANPYAGRFSESLAELIEPSPLLGEEFGRRIQALAGGRHIISYGKACLVGSQGEYEHGNALLTNPAADPIRLALGGGKSWVPSTGKRGGPGTAIDVPLAHKDALYVRSHYDSISLSFGDGPSADELIIIWAFATRGRLHARLGGLQAADVKGNDGLY				NA	NA	NA	NA	NA
D1-35_04831	450			hypothetical protein	ATGAAAGTCGAGGTCGTTCGTACTCATCTGTCGCTGTTCGTGAGCGACCCTGAAGTGTCGGCGCGCTGGTACGCCGACGTGTTGGGCATGCATGAAAGTGCCCGCGGTGAAAGCTGGATCATGATGGCCTTCGGTGCCAAGCACCACGACATCGCCTTGATCCGCGCAGCACCGGGGGCCCATCAGGGCGGCCTGGGATTGCAGCACTACGGGCTGGAGATCGCGGGTGACATGACCACCCTGCGCCAGCTCTACGGCATGTTGCTGAACAAGGGCGTCGAGGTGGTGAAAATCACCGATCACGAGATCGGCAACGGCGTGTATTTCAACGACCCCGATGGCAATCGCATGGAATTTTTCCTCGAGTCCGAACACGACGACGAGCGCGGCAAGGCCCGCTTCAAGGCCGCTGGCGCGCCCAGCCGGCACTTCGATCTCGACCCACTTTGA	MKVEVVRTHLSLFVSDPEVSARWYADVLGMHESARGESWIMMAFGAKHHDIALIRAAPGAHQGGLGLQHYGLEIAGDMTTLRQLYGMLLNKGVEVVKITDHEIGNGVYFNDPDGNRMEFFLESEHDDERGKARFKAAGAPSRHFDLDPL	PGPT0005050_1248	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CATECHOL_RESISTANCE,PGPT0005050-catE-K07104	NA	NA
D1-35_04832	1041	hcf136_3		Ycf48-like protein	ATGAGTAACGGAACGCTTTTAGTCGCCACCGTAGGGCAGGCGGTCATCCGCAGCGCCGACGATGGCCGCACCTGGCATCGCCTGGGCCTGGGCCAGGATCTGGAATTCGATGCAATCACCCGGTCGCTGAGTTTCCACCCAGGCACTCCCCAAGTGATCTACGCCGGCACCGACGTCGGCCTGTGCATCAGCCGGGATGCTGGCGGTTATTGGCAGCGGGTGGATTCGCCGTTCAATGGCCAGACCGTCTGGAAGGTCGCCGTGGATCCGCAGGACGCACAACGGATTTTCGTCGGCACCGGCGCGCCTTCCCGGGCGGTGCTGTGGCGCACCCTCGACGGTGGCCAGAGCTGGGATCGTGCCCCGGTGGAGATTCCGGAGTTCTGCGACGGCGTCAGTCGTCCACGCTTGCTGGCCTTCGCCTACGACCCGACGGATCGCAACCAGCTCTGGTTCGGCCTGGAAGAGGGCGGGCTGTTCCATAGCCGCGATGGCGGCGAAAGCTGGACCCGCGTCGATGACCGCTTGTTGTGGGACTACAACTCGGATGTGCACAACATCCTGGTCCTGCCCAACCATGGGCAAAAAGTCATCGTGGTGGTCTGTGTCAATGCCGTCTACCGCAGCCTCGACGAGGGGCAGACCTGGACCGGCATCGTCGCCCGGGAAACCTTCGGCCTGTATTACGTGCGCGCCATGAACGCGCCGCTGGGCAGCGAGGACACCCTGTACCTGAGCATCTCCGACGGCACGCCAGGCACCACCAGCAAGGTGCTGGTTTCCCGGGACGCAGCTTTGAGCTGGGAAGTGTTGCCGCTGTCGCAACAACCCAACTCGTGTGTCTGGGCGATTGCCTTCAACCCGGCTGATCCTCGGCAGATCGTCGCCGGCACCAAGTACGGACACCTGTTCACCTCCGAGAACGGCGGTGATGGCTGGCAGAAGCAGTGGCGTGAATTCAGCGAAATCGCTGATGTGCTCTGGACGCCCGCCGTGGCGCAGATCAAGTCCGGGCATCAATCCATCGTCAAGAAAAACTGA	MSNGTLLVATVGQAVIRSADDGRTWHRLGLGQDLEFDAITRSLSFHPGTPQVIYAGTDVGLCISRDAGGYWQRVDSPFNGQTVWKVAVDPQDAQRIFVGTGAPSRAVLWRTLDGGQSWDRAPVEIPEFCDGVSRPRLLAFAYDPTDRNQLWFGLEEGGLFHSRDGGESWTRVDDRLLWDYNSDVHNILVLPNHGQKVIVVVCVNAVYRSLDEGQTWTGIVARETFGLYYVRAMNAPLGSEDTLYLSISDGTPGTTSKVLVSRDAALSWEVLPLSQQPNSCVWAIAFNPADPRQIVAGTKYGHLFTSENGGDGWQKQWREFSEIADVLWTPAVAQIKSGHQSIVKKN				NA	NA	NA	NA	NA
D1-35_04833	795	novJ		Short-chain reductase protein NovJ	ATGGATCTGGAATTGCAAGGCCGCGTGGCAATCGTCACCGGCGGTGGGATGGGTATCGGCAAGGAAGTCGCGCGTTTTCTGTCTCAGGAGGGCTGCAAGGTGGTGATCTGCGCGCGGCGCATGGAGTATCTCCAGCAAGCCGCCGAGGAAATCAGCGCCGAAACCGGCAACGACGTGCTGCCGCTGTTCTGTGACACCAACCAGATGTCGGCCGTGTCCGACATGGTCCAGGCCGCGCACAAGCACTTCGGCCGGATCGACATCCTGGTCAACGGCGCCGCGGCCCCGTCCGGCGTGGTGCGCAACGACATCGAGCATGCCGGCGACGACGAATTGCTCTCGGACCTGAACACCAAGGTGATCGGCTATTTCCGGTGCGCCAAGGCCGTGACCCCGCACATGAAGGCCGGCGGCTTCGGTCGCATCATCAACATCGGTGGCCTGACCGGGCGCGGCAGCAAGGTGCTCTCGGGCATGCGCAACCTGGCCATCGCCCACATGACCAAGACCCTTTCCGATCAGTTGGGCCCATCCGGCATCACGGTCAACCTGATTCACCCCGGCGTGGTCGACACCCCGCACATCCAGGAGTTGTACGAGCGCGAAGGGGTCAAGCAGGGCAAGACGCCCGAGCAGGTGGAGCAGGGCTACATCGACGCGACGCCGATCCGGCGCACCCTGGCGCCGATCGAAATGGGCTGGCTGATCGGTTTCCTCGCGTCCCCCAAGGCCGGCGCGGTGACCGGCGAATCCATCGGCATCGATGGCGGCCTGACCCGTGGCATCTTCATTTGA	MDLELQGRVAIVTGGGMGIGKEVARFLSQEGCKVVICARRMEYLQQAAEEISAETGNDVLPLFCDTNQMSAVSDMVQAAHKHFGRIDILVNGAAAPSGVVRNDIEHAGDDELLSDLNTKVIGYFRCAKAVTPHMKAGGFGRIINIGGLTGRGSKVLSGMRNLAIAHMTKTLSDQLGPSGITVNLIHPGVVDTPHIQELYEREGVKQGKTPEQVEQGYIDATPIRRTLAPIEMGWLIGFLASPKAGAVTGESIGIDGGLTRGIFI				NA	NA	NA	NA	NA
D1-35_04834	1491	styD_2		Phenylacetaldehyde dehydrogenase	ATGAGCCAGATCCAATTGTTACCTGCCGTGGAGCAGTTCCTGTCGCAGCCGGGGCGCCTGTTCATTGGCGGCACCTGGCAGGACGCCGCCGGCGGCCGCCAGTTCGCCGTGGAAAACCCGGCCACCGAACAGACCCTGGCCGAAGTGGCCGAAGGCGCTGAGCGGGACGTCGACGCCGCCGTCGCTGCCGCCCGCGCAGCCTTCACCGGCAGTTGGGCGCAGCAGTCGCCGGCCCAGCGGGGCTTGTTGCTGTTTCGTCTGGCGGAGCTGCTCGATCAGCATCGCGAAGAGCTGGCGCAACTGATCACCCTGGAAAACGGCAAGCCGATTGCCACGGCCCGTGGAGAAGCGGCGAGCGCGGCCAACATCATTCGCTACTTCGCCGGCTGGCCGACCAAGATCGAAGGCAGCACGCTGCCAGTGTCGCCCGCCAGCGGCGCACCGATGCTCAACTACACCCTGCGCGAACCGGTGGGCGTCTGCGCATTGATCGTGCCGTGGAACTTCCCCCTGACCATGTGCGTGTGGAAGCTCGGCCCGGTATTGGCGACCGGTTGTGTCGCGGTGCTCAAGCCCGCCGAGCAGACGCCGCTGGTTGCGATTCGCCTGGTGCAGTTGATCGAGGCCGCCGGCTTCCCGGCCGGCGTCGTCAACCTGCTCACCGGCCTCGGTGCCCAGACCGGTGCACCGCTGGCCGGGCATCCGGACGTCGACAAGATCGCCTTCACCGGCTCGACCCAGGTCGGCCGGCTGATCGCCCAGGCGGCCACCGGCAACATGAAGAAGGTCTCCCTGGAACTGGGTGGCAAGTCGCCGAACATCATCTTGCCGGACGCCGATATCGTCCGCGCCGCCAAGGGTGCCGCCGACGGCATCTTCTACAACCAGGGCCAGGTCTGCACCGCCGGCTCGCGTCTCTACGTACACGCCAGCGTCCTCGACCATGTGCTTGAAGAACTCCAGCGCCACGCGGCCGCGCATGTCCTCGGGCCAGGCCTGGATCCGGCCAGCAGCATGGGCCCGCTGGTCTCGGCCCGGCAATTGGGCACGGTCCGTGGCTACCTGCAACGGGGCCAGGAGGAGGGTGCCGAACTGATCTGCGGCGGCGACCGGCCGGCCCACCTGGAGCAGGGCCACTTCATTCGCCCCAGCGTGTTTCTTGACCGTGCCGAGCGCGCCTGCGTCGCCCGGGAAGAAATCTTCGGCCCGGTGCTGACCGTCATGAGCTGGACCGAAATCGATGAACTGGTGCTGCGCGCCAACGACTCGCCGTACGGGCTGGCGGCCGGTCTCTGGACCCGTGACCTGCGTTCCGCCCATCGCGTGGCCGCGCAGTTGAAGGCCGGATCGGTGTGGATCAACTGCTGGAACGTCGTCGACCCGGCGTCGCCCTTCGGTGGCTATAAGCAATCCGGTTGGGGACGGGAAATGAGCAAGAACGTGATCGATGCGTACACCGAAACCAAAAGTGTCTTTGTCGATCTGGCCTGA	MSQIQLLPAVEQFLSQPGRLFIGGTWQDAAGGRQFAVENPATEQTLAEVAEGAERDVDAAVAAARAAFTGSWAQQSPAQRGLLLFRLAELLDQHREELAQLITLENGKPIATARGEAASAANIIRYFAGWPTKIEGSTLPVSPASGAPMLNYTLREPVGVCALIVPWNFPLTMCVWKLGPVLATGCVAVLKPAEQTPLVAIRLVQLIEAAGFPAGVVNLLTGLGAQTGAPLAGHPDVDKIAFTGSTQVGRLIAQAATGNMKKVSLELGGKSPNIILPDADIVRAAKGAADGIFYNQGQVCTAGSRLYVHASVLDHVLEELQRHAAAHVLGPGLDPASSMGPLVSARQLGTVRGYLQRGQEEGAELICGGDRPAHLEQGHFIRPSVFLDRAERACVAREEIFGPVLTVMSWTEIDELVLRANDSPYGLAAGLWTRDLRSAHRVAAQLKAGSVWINCWNVVDPASPFGGYKQSGWGREMSKNVIDAYTETKSVFVDLA	PGPT0006035_544	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_LIGNIN_DEGRADATION|LIGNINASES	PLANT_LIGNIN_DEGRADATION-DEHYDROGENASE_ACTIVITY,PGPT0006035-feaB-K00146	NA	NA
D1-35_04835	1542	ilvX	COG0028	Putative acetolactate synthase large subunit IlvX	ATGAATGGTGCGCAACTGATAGTGAAGGCGGCGGTGGCAAGCGGTATCGAGTACTGCTTCGCCAACCCCGGGACGACCGAGATTCCCCTGGTAGCGGCCATGGCCAGCGCGCCAGCCCTCAAGCCGGTGTTGTCGTTGTTCGAAGGGGTATGCACCGGTGCCGGCGATGGTTACGGCCGGATTGCCGGCAAGCCGGCGATGACCCTGACCCACCTCGGGCCGGGTTTTGCCAATGGCATCGCCAACCTGCACAACGCCCGTCGCGCCAACACGCCGATCGTCAACGTCATCGGCGACCACGCCTCATGGCACGTCAATTACGATCCGCCGCTGGCGAGTGATATCCAGGCGTTGGCCGGGAGCGTATCCGGCTGGGTGCGCACCTCGCGCACGGCAGCGGGCATTGGCGAAGATTTCCAGGAAGCGGTGCGCGCCGCCTGGCAAGCCAAGGGCCAGATCGCCAGCCTGATCCTGCCGATGGATCTGCAAGCCAGCCCGGTGCAGCGGGAAAAAGCCTTCAGCTCTTTGCAGGCCCCGGTCCGGCGCTTTGCCGGTGATCGGGTCGAAGCAGTAGCGCGGGCGCTGCGTGACGGTCGGCGGCTGGTGTTCATCGTTGGCGACCAGGGCCTCTCGGTCGCTGGCCTGGAAGCGGCGGGGCGCCTGGCCCGGTTGGCCGGCGTGCGGATGTTCGCCGAAACCTTCCCGCGCTTGAGCTATCGCGGCGGTGGCCTGCCGGACCTGGATCGCCTGCCTTATTTTCCCGAAGTGGCCATCGAAATCCTCGACCAATACGACGCCGTGGTCTGCGCCGGCGTCCCCGAGCCCATCAGCTATTTCGGCTACGAAGGCATTGCGTCGCGGCTGGCGGAGCGTGAGCGGCTGTTGTGTCTGGCCGAGGTGGGCGACGACGTTGCCGGAGCGCTAACCGCACTGGCCGATGCGCTTGAGGCGCCGGCGCATATACCTACGCCGATCGGGATCGAGCTGCCCGCCGCCGAGGCTGAACTGACGCCTCAGTCGGTCGGGCAGGTGCTGGCCGCGTCGCTGCCGGACGACAGTATCGTTTCCGTCGAAGGCGGCACGTGCGGTTATCCGTTTTTCACCGCCTCGGCCCATGCCGCGCGGCATCGCGTATTGACCAATACCGGCGGCGCCATCGGCCAGGGGATTCCGGTGGGATTCGGCGCCGCCATGGCCGAGCGGGGCAACAAGGTGTTCTGCCTGCAATCGGACGGCAGCGCCCAGTACACCATCCAGACGTTATGGAGCATCGCCCGCGAACAATTGCCGGTGGTGATCCTGATCGCGGCCAACCATCGCTACGCGATCCTGCAGAACGAACTGCGCCGCTTCGGCATGACCGAGCTGGGCCCCGAGGCCTTGAGCCTGACGGTGCTGGACCGTCCACGCATCGACTGGAAAGCCCTGGCCAGAGGCTACGGCATGCCGGCCAGCACGGTGCATACCAATGGCGAGTTGCAGCGCGCCCTGGCAAACGCCAAGGCCGACGGCGGCCCGTGCCTGATCGAAATGGCGCTGTGA	MNGAQLIVKAAVASGIEYCFANPGTTEIPLVAAMASAPALKPVLSLFEGVCTGAGDGYGRIAGKPAMTLTHLGPGFANGIANLHNARRANTPIVNVIGDHASWHVNYDPPLASDIQALAGSVSGWVRTSRTAAGIGEDFQEAVRAAWQAKGQIASLILPMDLQASPVQREKAFSSLQAPVRRFAGDRVEAVARALRDGRRLVFIVGDQGLSVAGLEAAGRLARLAGVRMFAETFPRLSYRGGGLPDLDRLPYFPEVAIEILDQYDAVVCAGVPEPISYFGYEGIASRLAERERLLCLAEVGDDVAGALTALADALEAPAHIPTPIGIELPAAEAELTPQSVGQVLAASLPDDSIVSVEGGTCGYPFFTASAHAARHRVLTNTGGAIGQGIPVGFGAAMAERGNKVFCLQSDGSAQYTIQTLWSIAREQLPVVILIAANHRYAILQNELRRFGMTELGPEALSLTVLDRPRIDWKALARGYGMPASTVHTNGELQRALANAKADGGPCLIEMAL	PGPT0008185_11162	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
D1-35_04836	753	pobR	COG1414	p-hydroxybenzoate hydroxylase transcriptional activator	ATGAGCAGCCTGAGCAAAATGCTGAGCGTCCTGGACCTCTTCGGCCCGGATCGACTGAAGATCGACCCCGATACCATTGCCGAACGCATGGGCCTGTCGCGGGCGACCGTGTACCGTTACGTCAAGGACTTGTGTGACGCGGGCCTGTTGACCCGGGTGGATGCCGGCAGCTACGGCCTGGGGCCGCGCATCATCGAGCTTGACTGGATGATGCGTCAGTACGACCCGATCCTCGTCGCCGGGCGCGAGCTGATGCATGAGCTGTCCGAACAGACCGGCCTCGCCGTGTTCGCCAGCGTTTTTTATGACGGTCACATCATCAATACCTACATCGCCGACCCGAATGACACCTACCAGTTCTCATTCGGCCGCGGCCACCCGCTGCCGTTTTTTCGCGGTGCCCAATCCAAGGTATTGATTGCCTTCCAGAAAGGTCGGCGGCTGCAGCGGCTGTTCGACGAGCACCTGGCCAACGACCCTGCGAACACCTACGACTGGGCGGGCTTTTCCAAGGCGACAAAAAAGATCCGCAAGGACGGCTATTGCCTGACGCACGATGAGCTCAATCAAGGGCTGACCGGTATCGCGGCGCCGATCATCAATCCCGGGCTCGATGAAGTGGTGGGCAGCCTTTCGGCCGTCGGCAGCACCCAAAGTTTCAAGCTGCTGCGCCAGGAAACCGTGATTGAAATGGTCATGGACACCACCCGGCGGATTGCCGAACGGATGCAAAATCCGCCCGCTGTCGGCTAA	MSSLSKMLSVLDLFGPDRLKIDPDTIAERMGLSRATVYRYVKDLCDAGLLTRVDAGSYGLGPRIIELDWMMRQYDPILVAGRELMHELSEQTGLAVFASVFYDGHIINTYIADPNDTYQFSFGRGHPLPFFRGAQSKVLIAFQKGRRLQRLFDEHLANDPANTYDWAGFSKATKKIRKDGYCLTHDELNQGLTGIAAPIINPGLDEVVGSLSAVGSTQSFKLLRQETVIEMVMDTTRRIAERMQNPPAVG				NA	NA	NA	NA	NA
D1-35_04837	1326			hypothetical protein	ATGCGGTCCCTAGCGCGTATGGAATTTTTCGGCAGTGGTCTTGCCTGCACGCTGGCGCTCTGCGCCGCGAGCCAGGTCCAGGCCTATGAGCTGTATGCCGATGACGACACGCACCTCAACGCCGACATGCTCGCGGTGTTCGGCCATTTCAACAGCCGCAAGAATTACGACGGCAGGTCCGGCGGTTCGACTTGGCGTGAGGGCTTCATCAAGTATGGATTAAGCGGCGACCAGGGTCTTGCCGGTCATGGCACCGCCTACGGCGCGTTCAATCTGGTCAGTTCGGCCACCTGGGGCGATGGCGATGCGGCCGGCAATACGCTGGGCAGCGAGCGCACGACGAAGATCGAAGACGTTTACCTGGGCTGGCGCTCCGCCGACCTGTTCCCGGTGCTGGGACGGGACGGTATCGATATCTCCGGCGGCCGCCAGGTGGTCAAGCTGGGCCGGGGATTCCTGATCAACGATGACGGGCCCAACCTGGGCAAAGGCCCGGCGGACGGACGTTTGAACCGTGGTGGCGCCTATTACCTGGCCGCCCGGCATGCGTTCGACCAAACCGCCGTGTTGCGCCTGGGCGGGCAGGATGGGCTGCACGGCAGTGTGCTGTGGCTCAAGTCCGACAACCGCGCCCAGGCCGAAACCGAACTGGCCGCCGGCACGCTGGACTACACCACCCAGGCCGGTACGCTGGGGCTGACCTGGGTGCATGGCATGGACGTGAACGACCGCTGGGCCAGTGATTTCCAGCGCCAGCGCAAGGGCATGGACGTCTACAGTGTTCGCGGCGAGGGCGATGCCGGCATTGAGAACGCCAGCCTGGCCTTCGAATACGCCTGGCAAGACAAGGACGCCGGCCCGCAGAGCGCCTGGTACGCCGAGGCCGGCTACACCTTTGCCGATATCGCCTGGACGCCGAAGCTGACCTACCGCTACACCCGTTATTCGCAAAAATGGGACTCGCTGTTCACCGGCCAGAGCACCGGTTACGGCACCTGGTTCCAGGGCGAAGTCGCGGGGAACTATGCCGGCCCGTTCAACAGTAATACCGGCATCCACCATCTAGGCCTGACCGCCAGGCCATTGGAGAACCTGACCCTCGGTGCGTTGTACTTCGACTTCAACACGGTGCGTAAGGACAACGCCGTGAACCTGGATGCCCGGGAGCTGGACCTGTACGCCGAGTGGGCGGTGAACGAGCATCTGATCATCACGCCGCTGGTAGGCCTCTACAAGCCGGATCGGGATGCGACGACAGGGGGCAATCAAGTGGCGGGCAATGGCACCAATGTTTATAGCCAGGTGACGGTGGCAGTGCCGTTTTGA	MRSLARMEFFGSGLACTLALCAASQVQAYELYADDDTHLNADMLAVFGHFNSRKNYDGRSGGSTWREGFIKYGLSGDQGLAGHGTAYGAFNLVSSATWGDGDAAGNTLGSERTTKIEDVYLGWRSADLFPVLGRDGIDISGGRQVVKLGRGFLINDDGPNLGKGPADGRLNRGGAYYLAARHAFDQTAVLRLGGQDGLHGSVLWLKSDNRAQAETELAAGTLDYTTQAGTLGLTWVHGMDVNDRWASDFQRQRKGMDVYSVRGEGDAGIENASLAFEYAWQDKDAGPQSAWYAEAGYTFADIAWTPKLTYRYTRYSQKWDSLFTGQSTGYGTWFQGEVAGNYAGPFNSNTGIHHLGLTARPLENLTLGALYFDFNTVRKDNAVNLDARELDLYAEWAVNEHLIITPLVGLYKPDRDATTGGNQVAGNGTNVYSQVTVAVPF				NA	NA	NA	NA	NA
D1-35_04838	1350	spuC_3	COG0161	Putrescine--pyruvate aminotransferase	ATGTACGAGCACTACAAGACAGCGCAAAAGAAATTCTGGCATCCGATGAGTTCATCGGCCCCCGCGAACCGCTCGAAGACATTGGTCATTGCCCGGGGCGACGGCAACTACATCACCGACATCGAAGGCCATCGCATGCTCGACGGTGTCGGCGGGTTGTGGAACGTGAACGTTGGCCATAACCGTGCTTCGGTGAAGGCGGCCATTGCCGCGCAGATGGATGAACTGGCGTATTACCAGACCTTCGACGGCATCGCGCATCCTCGGGTGTTTGATTTGGCCGAGCGGCTGACGTCGATGTTTGCCGAGGAAAACATGGAGCGGGTGCTGTTCAGTTCCGGCGGTTCCGACGCAGTCGAGACCGCGTTGAAAATGGCCCGCCAATACTGGATCGCCAGCGGCGAACCCGGACGCACGCGCTTCCTGTCGTTGCGCAACGGTTACCACGGCGTGCACATGGGCGGCACCTCGGTGGGTGGCAACGGCGTCTATCACTACAACCATGGGCCGCTGTTGGCCGGCTGCCATTTGCTCGACACGCCCTGGCTGTACCGCAACCCCTGGGACTGCCGCGACCCGCAGGAGCTCACCGCCCACTGCATTCGTCAGTTGGAGGACCAGATCGCGTTGCTCGGTGCGCAGACCATCGCCGCGCTGATCGCCGAGCCAGTGCAGGGCGCCGGCGGCGTGATCGTCCCGCCTGCCAACTACTGGAAGAGCCTGCGCGAGGTGTGCGATCGCCACGGCATCCTGCTGATCGCCGATGAAGTGGTGACCGGTTTCGGCCGCACCGGCTGCATGCTCGGCAGTCGTGGCTGGGGCGTCTCGCCAGACGTACTGTGCCTGGCCAAGGGCATCACGGCCGGCTACGTGCCCATGGGCGCTACCGTGTTCAACCGGCGCATCGTCGAGGCGATCGAGAACGGGCCGGGTTTCAGCAGCGTGATCATGCATGGCTACACCTACAGCGGACACCCGACCGCTTGCGCCGCGGCTTTGGCGGTGCTGGACATCGTCGAGGCCGAAGATTTGCCGCGCAACGCCGGCAAGGTCGGCGCCCAGTTGCTGGAGCAACTGCAACCGTTGGCTGAGCGTCACGCGGTGGTCGGCGAAGCACGCGGCAAGGGCTTGATGATCGCTCTCGACCTGGTGGCGGACAAGGCCACCCGTGAACCGCTGGACCCGGCCACCGGGCTGGCCTCGCGCATCGCCGAGCATGCGCGCCGCGCCGGCGTGCTGGTGCGCCCGATCGGCAACAAGATCGTCCTCTCGCCGCCGCTAACCCTCACCTCCGATGAGGCCGGCTTGATGGTCGACGCGCTGGATGACGCGCTCGCCAACTGCCGCTGA	MYEHYKTAQKKFWHPMSSSAPANRSKTLVIARGDGNYITDIEGHRMLDGVGGLWNVNVGHNRASVKAAIAAQMDELAYYQTFDGIAHPRVFDLAERLTSMFAEENMERVLFSSGGSDAVETALKMARQYWIASGEPGRTRFLSLRNGYHGVHMGGTSVGGNGVYHYNHGPLLAGCHLLDTPWLYRNPWDCRDPQELTAHCIRQLEDQIALLGAQTIAALIAEPVQGAGGVIVPPANYWKSLREVCDRHGILLIADEVVTGFGRTGCMLGSRGWGVSPDVLCLAKGITAGYVPMGATVFNRRIVEAIENGPGFSSVIMHGYTYSGHPTACAAALAVLDIVEAEDLPRNAGKVGAQLLEQLQPLAERHAVVGEARGKGLMIALDLVADKATREPLDPATGLASRIAEHARRAGVLVRPIGNKIVLSPPLTLTSDEAGLMVDALDDALANCR	PGPT0007865_847	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007865-spuC-K12256	NA	NA
D1-35_04839	1422	prr_3	COG1012	Gamma-aminobutyraldehyde dehydrogenase	ATGCACGATTATCAAATGCTCATCAATGGGCTCCCGGTCAACGGTGAAAATGGCCACTTCGATGTGCTCAATCCGGCCACCGGTACCGCGTTCGCCCGTTGCCCGGCCGGTTCCCTGGCCCAGTTGGACCTTGCTGTCGAAGCGGCCCAGTCGGCCTTTATCGAATGGCGACACAGCAGCCACGAAGACCGCCGCCGACGTTTGCTGGATATCGCCGATGATATCGAGCAGGAGGCCGACGCATTGGCCCGGCTCATCGTCCTGGAGCAGGGCAAGCCGCTGGCGCTGGCGTTCTCCGAAGTCATGGGCGCGGCGGCCTGGACCCGCTATGCCGGCGAGCAGCAGATTCCCGTCGAACTGGTGGAAGAGACCCCGACCCAGCGCATCGAGCTGCATCGCAAACCCTTGGGCGTGGTGGCCTCGATCACACCGTGGAACTGGCCGTTCATGATCGCCGTCTGGCACATCATGCCGGCGTTGCGGGCCGGCAACTGCGTGATCAGCAAGCCTTCAAGCCTGACACCCTTGAGCACCCTGCGCCTGGTGGAAATCATCGCCGGTCATGTGCCTCATGGCGTGATCAATGTGGTGACCGGTGAACAAGGTTTCGGCAGCGCGATCACTGCCCACGCCGGCATCCAAAAGATTGTCTTCACCGGCTCGACCGCCACCGGCCAGAGTGTGATGCGCGGCGCCGCCGCCAACCTCAAACGCCTGACCCTGGAGCTGGGCGGCAACGATGCTGCGATCGTGCTGCCCGGCACGCCGGTCGAGGCGGTGGCCGAGGATATTTTCCAGGCCGCCTTCCTCAACATGGGCCAGACCTGCGCCGCCCTCAAGCGTCTGTACGTCCATCAATCCCAATACGAGGCCTTTGCCGATGCGTTGACGCGCATTGCGGCGCGCCAGGTAGTGGGCGATGGCCTGGAGCCCGAGGTGACCTTCGGCCCGGTGCAGAACGCTGAACAATTGGCGCTGGTGGAGGCGCTGGTAGCCGACGCCCGTGGCCATGGCGCGCGGGTGCTGTGTGGCGGTGCGCGACTGGACCGGCCGGGCTTCTTCTACCCGCCAACCCTGGTCGCCGACGTCACCGATGGCCATCGCCTGGTGGACGAGGAACAGTTTGGCCCGGTGTTGCCATTGATCGCCTATCAGGACGTCGAGGATGTCCTGCGCCGCGCCAATGCCGGCGACATGGGCTTGGGTGGCTCGGTCTGGGGCAGCGATATCGAGCAGGCCCAGGCGTTGGCCAGTCGTCTTGAAAGCGGCGTGGCCTGGGTCAACTGCCACGCGCAGATCCAGCCGAATACGCCGTTTGGCGGCAGCAAGATGTCCGGGTTCGGCGTCGAGTTCGGCCTTGAGGGGTTGCTGGAATTCACCGGCCAGCAACTGCTGTACGTACGCAAGCGTGAAACACAGTGA	MHDYQMLINGLPVNGENGHFDVLNPATGTAFARCPAGSLAQLDLAVEAAQSAFIEWRHSSHEDRRRRLLDIADDIEQEADALARLIVLEQGKPLALAFSEVMGAAAWTRYAGEQQIPVELVEETPTQRIELHRKPLGVVASITPWNWPFMIAVWHIMPALRAGNCVISKPSSLTPLSTLRLVEIIAGHVPHGVINVVTGEQGFGSAITAHAGIQKIVFTGSTATGQSVMRGAAANLKRLTLELGGNDAAIVLPGTPVEAVAEDIFQAAFLNMGQTCAALKRLYVHQSQYEAFADALTRIAARQVVGDGLEPEVTFGPVQNAEQLALVEALVADARGHGARVLCGGARLDRPGFFYPPTLVADVTDGHRLVDEEQFGPVLPLIAYQDVEDVLRRANAGDMGLGGSVWGSDIEQAQALASRLESGVAWVNCHAQIQPNTPFGGSKMSGFGVEFGLEGLLEFTGQQLLYVRKRETQ				NA	NA	NA	NA	NA
D1-35_04840	1449			hypothetical protein	ATGAGCGTATCTTTCCCGATCAATGGCTCGACGGAGTTGAAGCGCGGCGCCCTGGGTGTCGGCTTCATCATCTTCTTTGTGATTTCGGCGGCGAGCCCCCTGAGCGTGATCGCCGGTGGCTTTCCCATCGGCATCATGCTCGGCAACGGCGCCGGTACGCCCGCGCTGCTGCTTCTGGCGTTGTTGGTGTTGCTGGCCTTTTCGGCGGGATACACCGCCATGTCCCGGCACATGACCAATGCGGGGGGCTTCTACGCCTTTACCTCCCGTGGCCTCGGTGGGTTGGCGGGCGGGGCGGCAGGCGTGTTGGCGATGTTTGCCTACAACATTCTCCAGGTCGGCCTGTACGGGATGTTCGGCGGTGTGGTCAGTGGCACGATGGCCAGCATGTTCGGCCTGGAATTGCCGTGGTGGGCTTATTCGCTGCTGGCGATGGCGAGCGTGGCGATTCTCGGCTATCGCAAGATCGACCTGTCGGCCCGTGTGTTGTCGGTAGTGGTCATTGCCGAATACCTGGCGATCCTGACGCTGGACTTCGCCATGCTCAAGTCCGGTGGCGACAGTGGCATCAACCTCGATTCGTTTGACCGCAGCCACGTATTCAGCGGCACGCCTTCGATCGGCCTGTTGTTCTGTTTTGCCGCCTTCATCGGCTTCGAGGCCACGACCATCTACGGCGAGGAGGCGAGGAACCCGCAGCGCACGATTCCCATTGCCACCTACGCGTCGGTGCTGTTGATCGGTGGTTTTTATGCGCTGTCGGTCTGGGCCATGGTCATCGGCGTCGGGGCCGACAAGATCGTCCCGACCCTGCAGGCGCTGCAGGATCCGACCACGTTCATCTACGGCCTGTCCGATCATTTTGTCGGCCCGCAGCTGACCCAGGTCATCCGCGTGCTGTTCATGGTCAGCATCTACGCCGGGCTGCTGGCGTTCCACAATGCCGCGGCGCGTTACTTCTACGCCATCGGCCGGGACGGGCTGCTGCATAGCCGGTTGGGGACGACCCATCGCGTACACCAGAGCCCACACATGGGCTCGGTCCTGCAAAGCCTGATTGCCGCGGTGGTGGTGCTGATTTTCGCCGCGCTGGACGCCGACCCGATCCTGCAACTGTTCGCCTGGTTCTCCAACCTGGCCACCCTCTGCGTCATCCTGCTCATGGCGCTCACTTCGGCTGCGGTGCTGGTCTATTTCCGCAAACACCCGGAACTGAAACTCGGGCTGTGGCGCGGTCGGATCCTTCCCGGCTTTTCATGCCTGGCGTTACTCGCGGTGCTAGTCCTTGCCGTGCTGCATTTCGATGTGCTGACCGGCGCCAGCCAGCTCTTGTCCTACGGCCTGTGCGCCGTCATTCCCGTCGCGCTGATCGTCGGTGTGTTCCTCGCCGCCCGACTGCGCAAGGTCGCGCCCGAGCGATACAGCGCACTGGGTAGCCACAAGCTCTAG	MSVSFPINGSTELKRGALGVGFIIFFVISAASPLSVIAGGFPIGIMLGNGAGTPALLLLALLVLLAFSAGYTAMSRHMTNAGGFYAFTSRGLGGLAGGAAGVLAMFAYNILQVGLYGMFGGVVSGTMASMFGLELPWWAYSLLAMASVAILGYRKIDLSARVLSVVVIAEYLAILTLDFAMLKSGGDSGINLDSFDRSHVFSGTPSIGLLFCFAAFIGFEATTIYGEEARNPQRTIPIATYASVLLIGGFYALSVWAMVIGVGADKIVPTLQALQDPTTFIYGLSDHFVGPQLTQVIRVLFMVSIYAGLLAFHNAAARYFYAIGRDGLLHSRLGTTHRVHQSPHMGSVLQSLIAAVVVLIFAALDADPILQLFAWFSNLATLCVILLMALTSAAVLVYFRKHPELKLGLWRGRILPGFSCLALLAVLVLAVLHFDVLTGASQLLSYGLCAVIPVALIVGVFLAARLRKVAPERYSALGSHKL				NA	NA	NA	NA	NA
D1-35_04841	2052	mcpU_2	COG0840	Methyl-accepting chemotaxis protein McpU	ATGTTCTTCGCTCGTCTCTCTATCCAATGGCGGATCACGCTGTTGAGCGGTCTGTGCCTGCTCGCCGTGGTCGGGGCATTGACCGCTGCCTCGCTGTACCAGAACCAGCAAGGCGCGACGCTGCTGAAGCAGCAAAGCAGCCAGTTGCTAGGGCAATCGGCCTTGGAAGGCCTGCGGGCACAGGCTCTGGCGCACGGTCAGCGCGTGGAGCGTTTTTTCAGCGAAACAGCGATTTATGGCGAAGGTTTTGCCCAACAAGTGCTTCAACTGCGCACCCAGGCATTGCACGGGCGACTGACCCCGGGGCAACTGCGCCAGGACCTGATCGCCGCAACCCGTCAGGCCCTTGCGAAGCGCGAAAAAGTCCTCGGTTTCTACGTGGTGCTGCTTCCCGACGCGCTGATCGGTCCAGACGCCGGTTTCGCCGGGCAGCGCGACCTGGCCGGCAATGAAAACGGCCGCTTTGCCCTGTACTGGTCACAAAGCCAACCCGGCCATCTGGTGCAAGAAGTGCTCAGCGAAGCCCAGATCAGCGCCAACACCGCGCCACCGGGCAGCGAGCCGGCAAACGCCTGGTACATCTGCCCGCAGACCCAGGGGCGCACATGCGTGACAGAGCCCTACGCGATCGAAGTCGAAGGCCGCAAGACCCTGATGAGCAGCATTTCCATACCGCTGCTGGACGAGGGCAAAGTCATCGGTATCTTCGGCATGGACATCAGCCTGGATACCCTTCAGCAACTCGCCGCCAGCCTTGCCGATGACTTGTACCCCGGCCACAGCGAGATCAGTATTCTCTCCCCCTCCGGGCAGATTGCCGGCCACAGCGGCGCCGTGGCGGGCGCTTCGGTCGATGTGCAGCAAACGGTGCAAACCGCTCCGGCCAACAATCCCTGGCAATTGCAGATACGCGTGCCGGAAGCACTGGTGCAGGCGCCCGCCCTGCACATGCAGGCGCAACTGGACGACAAGCAGCGCCAGTCCAACGGGTTCAACCTCAGCCTCGGGTTGCTCTGCGCCGGACTGGGCCTGTTGCTTGTCTGGCTCAGCGCTTACGGCGTGACCCGGCCACTGCTGAGGGTGGCGCATATGCTCGATGCGATTGTCGAAGGCGACGGTGACCTCACCCAGCGGCTGCCGAACACGCGGCACGATGAACTGGGCCGACTGGCCGACGGCTTCAATCGTTTTCTCGACAAACTGCAACCGATCATCCGGGATATCCAGCAAGCCTCCCTCGATACCCGGGAGACGGCCGACACCTCGGCGCGGGTTGCCCGCGAAGTCAGCGCGGGCATGCAGCAGCAATACCGCGAGGTAGAACTGGCGGCGACGGCTTTGCATGAAATGAGCGCCAGCGCCCAGGAAGTTGCCCGCCATTCCCACCAGGCCGCCGATGCCGCAACGGTGGCCGAAAATGCCAGTCGATCGGGGCAGGAAATGTTCGCCAATGCCGTCAACAGCATCGATGCCCTGGACCAGCGGCTGGAGGCAACGCTTGGGCAGGTCAGAGTACTGGCGGACAACAGCCAGCAGATCAACCAGGTGCTCGACGTCATCTGTGCAATTGCCCAGCAAACCAACCTGCTGGCCTTGAATGCCGCTATCGAAGCGGCCCGCGCCGGCGAACAGGGGCGCGGCTTCGCGGTGGTGGCTGACGAAGTCCGGCATCTGGCGAGCAACACGCAGAACTCGGTCGAGCAGATACGCACGGTGATCGAAGCGTTGCAGCAACTGAGCCAGGACGTGGTGCACAGCACCCAGTCGAGCCGCGAGCTGGCCAGGGGCAGCGTGGTCCAGGTCGAGCAGACCCACGGGGCACTGCAACGTATCACCCGGGCCGTGGAAGTGATCGAACAGATGAACCAGCAGATCGCCAGCGCAGCCCTGGAGCAAAGCTCGGTGGTGGAAGACATCAGCCATCGGGTGAGCGGCATTCGCGGCATCAGCGAAACCTTGAGCGGCCAGATGCACGAAGCCTCCGAGGCTAGCCACTCGCTGCATGCCATGGCCAACCATCAACAGCAGTTGGTGGAGCACTTTCGGATCTAG	MFFARLSIQWRITLLSGLCLLAVVGALTAASLYQNQQGATLLKQQSSQLLGQSALEGLRAQALAHGQRVERFFSETAIYGEGFAQQVLQLRTQALHGRLTPGQLRQDLIAATRQALAKREKVLGFYVVLLPDALIGPDAGFAGQRDLAGNENGRFALYWSQSQPGHLVQEVLSEAQISANTAPPGSEPANAWYICPQTQGRTCVTEPYAIEVEGRKTLMSSISIPLLDEGKVIGIFGMDISLDTLQQLAASLADDLYPGHSEISILSPSGQIAGHSGAVAGASVDVQQTVQTAPANNPWQLQIRVPEALVQAPALHMQAQLDDKQRQSNGFNLSLGLLCAGLGLLLVWLSAYGVTRPLLRVAHMLDAIVEGDGDLTQRLPNTRHDELGRLADGFNRFLDKLQPIIRDIQQASLDTRETADTSARVAREVSAGMQQQYREVELAATALHEMSASAQEVARHSHQAADAATVAENASRSGQEMFANAVNSIDALDQRLEATLGQVRVLADNSQQINQVLDVICAIAQQTNLLALNAAIEAARAGEQGRGFAVVADEVRHLASNTQNSVEQIRTVIEALQQLSQDVVHSTQSSRELARGSVVQVEQTHGALQRITRAVEVIEQMNQQIASAALEQSSVVEDISHRVSGIRGISETLSGQMHEASEASHSLHAMANHQQQLVEHFRI	PGPT0015710_4988	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
D1-35_04842	1167	acrA_2		Multidrug efflux pump subunit AcrA	ATGTCCAAGATTCCTTTCGTCACACTGGGCCTGTTGGTCGGGGCGTTGCTGAGCGGCTGCGACGGCGCCTCGACCCCGGAAGAATCGGCGCCGCTGGCAAGCGTGCGTATCGAGACCGTCCAGGCCGGGCCACTGTCGATCAGCAACGAACTGAGTGGCCGTATCGCCGCGCCACGGGTGGCCGAGGTCCGTGCACGGGTAGCCGGCGTGGTCTTGCAGCGAGTGTTTCGAGAAGGCCGCGACGTCAAGCAGGGCGACGTGTTGTTTCGCATCGACCCGGCGCCGTTCAAGGCCGACCTGGACAGCGCCGAGGCGGCGTTGCGCAAGGCCGAGGCCAATGCATTCCAGGCCCGGTTGCAGGCGCAGCGTTATGCCCAGTTGATCGATGACCAGGCGATCAGCGGCCAGGAATATGACAATGCCCGGGCCGCCGTGCGCCAGACCGCAGCCGACGTCGCCGCCAACAAGGCGGCCGTTGAACGGGCGAAGCTGAACCTGGGCTACGCCACGGTGACCGCACCGATTTCCGGGCGCATCGGCCGGGCCCTGGTGACGGAAGGCGCGCTGGTGGGGCAGAACGAAAGCACGCCACTGGCGCTGATCCAGCAGTTAGACCCGATCCACGCCGACCTCACCCAATCGACCCGCGAACTCAACGAGCTGCGTCGCGCGTTCCGTGCGGGGCAGCTGCAAGCCGTCGGCCAGGGCCAGGCCAAGGCCACCTTGATCGAGGACGACGGCAGCCCTTATCCGCTGCCGGGCAAGTTGCTGTTCACCGACCTCAGCGTCGACCCGAGCACCGGCCAGATCACCCTGCGCAGCGAGTTCCCCAACCCCGACCTCGATCTGCTGCCCGGCAGCTTCATTCGCGTACGCCTGGAACAGGCGGTCAACCGCCAGGGAATCACCGTGCCGCAACGGGCGATCCTGCGCGACAGCGCCGGCGTCGCGCAGGTGCTGCTGCTGGACGCCGAGCAGAAGATCAGTCAGCAACCGGTGCAACTGGGCGCGGCGCAGAACGATCGCTGGATCGTCACGCAAGGCTTGAAGCCGGGCGATCGCATCGTCGTCGAAGGCCTGCAGCATGCCCGCCCCGGTGAACAGGTCCGGGTCGACGACGCCCCTCTCCCCCTCGCCCAGGTTCCCGGGCCACAGGCAGGACACTAA	MSKIPFVTLGLLVGALLSGCDGASTPEESAPLASVRIETVQAGPLSISNELSGRIAAPRVAEVRARVAGVVLQRVFREGRDVKQGDVLFRIDPAPFKADLDSAEAALRKAEANAFQARLQAQRYAQLIDDQAISGQEYDNARAAVRQTAADVAANKAAVERAKLNLGYATVTAPISGRIGRALVTEGALVGQNESTPLALIQQLDPIHADLTQSTRELNELRRAFRAGQLQAVGQGQAKATLIEDDGSPYPLPGKLLFTDLSVDPSTGQITLRSEFPNPDLDLLPGSFIRVRLEQAVNRQGITVPQRAILRDSAGVAQVLLLDAEQKISQQPVQLGAAQNDRWIVTQGLKPGDRIVVEGLQHARPGEQVRVDDAPLPLAQVPGPQAGH	PGPT0003275_2569	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003275-acrA|lir|mtcA|mexA|adeI|smeD|mtrC|cmeA-K03585	NA	NA
D1-35_04843	3096	mexB	COG0841	Multidrug resistance protein MexB	ATGCCGCATTTTTTCATCGACCGCCCCGTCTTCGCCTGGGTCGTCGCGCTGTTCATCCTGCTGGCCGGGATCCTGGCCATTCCGCAACTGCCGGTGGCGCAGTACCCGGTCGTGGCTCCGCCGCAAATCGAGATCTACGCGGTGTACCCGGGCGCTTCGGCGCAGACGGTGGACGAAAGCGTGGTCAGCCTGATCGAGGAGGAGCTCAACGGCGCCGACAACCTGTTGTATTTCGAATCCCAGAGCAGTCTCGGTAGCGCGACGATCACCGCGACCTTTCAACCGGGGACGAACCCGGAACTGGCCCAGGTCGACGTGCAGAACCGCCTCAAGGCCGTGGAGTCGCGCCTGCCGCAGGCGGTTACCCAGCAGGGCTTGCAGGTGGATAAGGTTTCCGCCGGCTTCCTGCTGCTGATCACCCTCACCTCCAGCGACGGCAAGCTCGACGACGTGGCGCTCAGCGATTACCTGGCGCGCAACGTGATGAACGAGATCAAGCGCCTCGACGGTGTCGGCAAGGCCCAGCTGTACGGTGCCGAGCGAGCCATGCGGATCTGGATCGACCCGCAGAAGTTGCTGGGTTTCAACCTGACCCCGGCCGACGTCAACGCTGCCATCGTGGCGCAGAACGCCCAAGTCTCGGCCGGCAGCCTCGGCGACCTGCCGAGCCGCAGCACCCAGGAAATCACCGCGACCATCGTCGTCAAGGGCCAGCTCTCGACCCCGCAGGAATTTGCCGACATTGTGCTCAAGGCCAACCCCGACGGTTCCACGGTGCGCATCGCCGATGTCGCACGGGTGGAAATCGGCAGCCAGGAATATCAGTTCTCCACGCGCCTGAACGGCAAACCCTCCACCGCCGTAGCCGTGCAGCTGTCGCCGGGCGCCAACGCGCTGAACACCGCCACCCTCGTTCGAGCGAAAATGGACGAGCTGTCGCGCTACTTTCCGGCCGGCGTGGAGTACAAGATTCCCTACGACACGTCGCCGTTCGTCAAGGTCTCGATCACCAAGGTGGTCTATACCCTCGGCGAGGCGATGCTGCTGGTGTTCGCGGTGATGTTCCTGTTCCTGCAGAACATCCGCTACACGCTGATCCCCACCCTCGTCGTGCCGGTGGCGCTGATGGGCACCTTCGCGACCATGCTCGCGCTGGGGTTCTCGATCAACGTACTGACCATGTTCGGCATGGTGCTGGCCATCGGCATCCTGGTGGACGATGCCATCGTGGTGGTGGAAAACGTCGAGCGGATCATGGCCGAGGAAGGCCTGTCACCCAAGGAAGCGACGCGCAAGGCCATGGGCCAGATCACCGGGGCGATCATCGGCATCACCCTGGTGCTGGTGGCGGTGTTCATTCCGATGGCGTTCATGCAGGGTTCGGTGGGCGTGATCTACCAGCAGTTCTCGCTGTCGATGGCGACGTCGATCCTGTTCTCGGCCTTTCTAGCGCTGACCTTGACCCCGGCGCTTTGCGCGACCTTGCTCAAACCGATCACCCAAGCCGATCACCACGCAAAGGGCGGTTTTTTTGGCTGGTTCAACCGTGGCTTCGACCGGTTCGGCAACCGCTACCAGGGTTGGGTCGCCTACGCGATGAAACGCAGCGGCCGCTATCTGCTGATCTATGGCGTGCTGCTGGTGGGCATGGGCCTGCTGTTCAGTCGCCTGCCCTCCTCGTTCCTGCCGGTGGAAGACCAGGGCTACACCATCACCGACATCCAGCTGCCGCCGGGTGCCAGCAAGAATCGTACGGTTCAGGTGGTGGAGCAGATCGAGGCGCACAATGCCGGCGAGCCTGGGGTCGGCGACAGCACGGTCATCCTCGGTTTCAGTTTCTCCGGCAGCGGGCAGAATGCGGCCCTGGCATTTACCACGCTGAAAGACTGGTCGCAGCGCGGTGGCGACGATTCGGCGGCGGCCATCGCCGATCGCGCCAACCAGGCCTTCGGTGGAATCAAGGACGCCATGGTGTTTTCCGTGCTGCCACCGCCGGTGGACGGTCTCGGCACCTCCAGCGGTTTCGAGTTCCGCTTGCAGGACCGCGGCGGCCTCGGCCACGCCACGCTGATGCAGGCCCGCAGCGATCTGCTCGCCGCCGCGGATAAAAGCCCGGTGCTGATGAATGTGCGCGAAAGCGCCCTGGCGGAAGCGCCGCAGGTGCAACTGGAAGTGGATCGGAAACAGGCGAATGCCTTGGGCATCTCCTTTGCCGACGTCGGCAGTGTGTTGTCCACGGCGGTGGGCTCAGCCTACATCAATGACTTCCCGAACCAGGGCCGCATGCAGCGGGTGGTGGTCCAGGCCGAGGGTGACCAGCGCAGCCAGGTCGAGGACCTGCTGAAGATTCACGTACGCAACAGCAGCGGGAAGATGGTGCCGTTGTCGGCGTTTGTCCAGGCGCGCTGGACCCAGGGGCCGGCACAGTTGACTCGCTACAACGGCTATCCGGCGGTGAGTATTTCCGGAGAACCGGCGCCGGGCTACAGCACCGGGCAAGCCATGGCCGAGATCGAACGGCTGGTGGCCCAGGGGCCCAAGGGCATGGGTCAGGAATGGACCGGCCTGTCCTTGCAGGAGCGCTTGTCCGGCAGCCAGGCACCGATCCTGCTGGGCCTGTCGCTGCTGGTGGTGTTCCTGTGCCTGGCGGCACTGTACGAGAGCTGGTCGATCCCGACCTCGGTGTTGCTGGTGGTACCGCTGGGCGTGCTCGGCGCCGTAATGGCTGTTTCGTTGCGTGGCATGCCCAACGATGTGTTCTTCAAGATCGGCCTGATTACCATCATCGGTCTGTCAGCGAAGAACGCCATCCTGATCATCGAATTCGCCAAGAGCCTCTACGACGATGGCCATGACCTGCTCGACGCCACGCTCCAGGCCGCGCGCCTGCGCCTGCGGCCGATCATCATGACCTCACTGGCGTTCATCCTCGGCGTGGTCCCGTTGGCGATCGCCACCGGGGCCAGCTCGGCGAGCCAGCAGGCGATTGGTACCGGCGTGATCGGCGGGATGATCAGCGCCACGCTGGCGGTGGTGTTTGTCCCGGTGTTTTTCGTGGTGGTGATGAAGCGGGTCGCGCGCAGCAAAACGCGTTGA	MPHFFIDRPVFAWVVALFILLAGILAIPQLPVAQYPVVAPPQIEIYAVYPGASAQTVDESVVSLIEEELNGADNLLYFESQSSLGSATITATFQPGTNPELAQVDVQNRLKAVESRLPQAVTQQGLQVDKVSAGFLLLITLTSSDGKLDDVALSDYLARNVMNEIKRLDGVGKAQLYGAERAMRIWIDPQKLLGFNLTPADVNAAIVAQNAQVSAGSLGDLPSRSTQEITATIVVKGQLSTPQEFADIVLKANPDGSTVRIADVARVEIGSQEYQFSTRLNGKPSTAVAVQLSPGANALNTATLVRAKMDELSRYFPAGVEYKIPYDTSPFVKVSITKVVYTLGEAMLLVFAVMFLFLQNIRYTLIPTLVVPVALMGTFATMLALGFSINVLTMFGMVLAIGILVDDAIVVVENVERIMAEEGLSPKEATRKAMGQITGAIIGITLVLVAVFIPMAFMQGSVGVIYQQFSLSMATSILFSAFLALTLTPALCATLLKPITQADHHAKGGFFGWFNRGFDRFGNRYQGWVAYAMKRSGRYLLIYGVLLVGMGLLFSRLPSSFLPVEDQGYTITDIQLPPGASKNRTVQVVEQIEAHNAGEPGVGDSTVILGFSFSGSGQNAALAFTTLKDWSQRGGDDSAAAIADRANQAFGGIKDAMVFSVLPPPVDGLGTSSGFEFRLQDRGGLGHATLMQARSDLLAAADKSPVLMNVRESALAEAPQVQLEVDRKQANALGISFADVGSVLSTAVGSAYINDFPNQGRMQRVVVQAEGDQRSQVEDLLKIHVRNSSGKMVPLSAFVQARWTQGPAQLTRYNGYPAVSISGEPAPGYSTGQAMAEIERLVAQGPKGMGQEWTGLSLQERLSGSQAPILLGLSLLVVFLCLAALYESWSIPTSVLLVVPLGVLGAVMAVSLRGMPNDVFFKIGLITIIGLSAKNAILIIEFAKSLYDDGHDLLDATLQAARLRLRPIIMTSLAFILGVVPLAIATGASSASQQAIGTGVIGGMISATLAVVFVPVFFVVVMKRVARSKTR	PGPT0003280_3077	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003280-acrB|acrE|mexB|adeJ|smeE|mtrD|cmeB-K18138	NA	NA
D1-35_04844	903			hypothetical protein	ATGCGCGACGACTCCCACACGCAGTTCTTCCGCTTCCAGACCCCTGACCCAGCCATCGGTCCGCGTGAGCAGGCACCGATGCTTGCGCAGGAGCTGGCCTGGGCGCGTGACCGTGCGTCCATGCATGACTTCAGTTGGTTGGTCGTACTGCTGCCGCCATTGAGCATGGGCCCGGTGCTGCCGGGCGTGGTGTTCCTGGCGGGCCTGGGCCTGGTCCAGAAGTTGTTCGCCCCGGACCTGGACGTTGATCGGATCGTCGGCGACTCCTTGGGCTGGCTGGCGCTGGCGACGCTGCTTTTCGTGGCGGCGTGGATACTGTCCAATTACCTGCGCGATTCGCGCGACCCGACCAAGCACTATTGGCAATCGATGCCCGATCAAGGGCTGGTCGAGCTTGAGCGTCACACGCTGATCTCGGCCATCAGCCTGTGGGCCAACGACTTTGATCCCGATTGCAGCAGCCTGATGTTATGGAAAAACGACAAGCTGGTGCGGGTGCAAAGCTCCGGCGTGTCGCAGTGGATCCTGGCGATGACCACGGCCGGCCATTGGCTGGTGCTCAAGGAGGAATTCCCCGGTGATTTCTGCTACCGACGGGTAGGGCAGATGCCCGCGCCGGAGAAGCAGATGCAACCCCGGCAGCAACTGGCGATTGCCTTCGCTCCCGGCACCCAGTTGGCGCTTGGCCGGCGTTTCGACGGTGCGCCTTTGCCAATGACGCAGACGTCTTACTGGATGTCTGCCGATGAGATCAAGCGACTCGCGCAGATTGCCCATCACTGGATGTTTTTCCCGCCGGACCGTTATGCGGTGGTCAATGACAGGGACGCCGGCTGGGTACGACGCCTGGCGGACAAAGCCCTGGCCAGCGTCGAGAGCCAGGCTGTGCCACAGGGCAATTAG	MRDDSHTQFFRFQTPDPAIGPREQAPMLAQELAWARDRASMHDFSWLVVLLPPLSMGPVLPGVVFLAGLGLVQKLFAPDLDVDRIVGDSLGWLALATLLFVAAWILSNYLRDSRDPTKHYWQSMPDQGLVELERHTLISAISLWANDFDPDCSSLMLWKNDKLVRVQSSGVSQWILAMTTAGHWLVLKEEFPGDFCYRRVGQMPAPEKQMQPRQQLAIAFAPGTQLALGRRFDGAPLPMTQTSYWMSADEIKRLAQIAHHWMFFPPDRYAVVNDRDAGWVRRLADKALASVESQAVPQGN				NA	NA	NA	NA	NA
D1-35_04845	969	yjiA	COG0523	P-loop guanosine triphosphatase YjiA	GTGTCCTCTCCCATCCCGGTCACGATCCTCAGCGGCTTTCTCGGTGCTGGCAAGACCACGTTGTTGCGTCATCTGCTCAAGGCCGAGCACGGCCTGAAAATCGCCGTGATCGAGAACGAATTCAGCGATGCCGGCATCGATACCCAGTTACTGGGCGACGATCCGGTGCAAGTCATGACCCTGGCCAATGGCTGCGTGTGCTGCACCATCCACACCGACCTGACCAAGGCCCTGTACCTGTTGCTCGAGCGGCTGGACAGCGGTGAGATCGCCTTCGACCGCCTGGTGATCGAATGCACCGGCCTGGCCGATCCAGCCCCAGTGGCCCAGACCTTCTTCATCGATGAAGACCTGCGCGAACGCTACATTCTTGACGGCATCCTGACCCTGGTGGACGCCGCCCACGCCGAGGTCCACCTGACCCAGGCCATCGCTCAGGCACAGGTCGGGTTTGCCGATAGGCTGCTCCTTAGCAAGACCGACCTGGTGGATGCAGCCCATGCCGAGGCGCTTGCCGAGCGCCTTACCCGGATTAACCGACGGGCGCCGATCCGAGTGGTCGAGCACGGCAAGATTGATCTGGCCGAGTTACTCGACATTCGCGGCTTCAATCTCAACGCGGACCTGGGCGGCGGGCTCAGCCTTCGCCCGGTCGCCAAGGCCACCACGGCCGATCGCATCAGCAGCCTCGTGCTGCGCACCGACAAGCCGCTGGATATCGACAAGCTCAGTGCGTTCATGAACCAGCTGCTGGAAGAACACGGCAAGCAATTGCTGCGCTATAAAGGTGTGCTGAACATTGCCGGCGAACCCCGCCGACTGGTATTCCAGGGCGTACTCAAGCTGTACGGTTTCGATTGGGACACCGAATGGGCCGAGGGTGAAGCTCGGGAAAGCGTGATCGTATTTATTGCTGACGAATTGCCTGAAGAGAAGATCCGCGAAGGGTTCGACGCCGCGCTCCTCTGA	MSSPIPVTILSGFLGAGKTTLLRHLLKAEHGLKIAVIENEFSDAGIDTQLLGDDPVQVMTLANGCVCCTIHTDLTKALYLLLERLDSGEIAFDRLVIECTGLADPAPVAQTFFIDEDLRERYILDGILTLVDAAHAEVHLTQAIAQAQVGFADRLLLSKTDLVDAAHAEALAERLTRINRRAPIRVVEHGKIDLAELLDIRGFNLNADLGGGLSLRPVAKATTADRISSLVLRTDKPLDIDKLSAFMNQLLEEHGKQLLRYKGVLNIAGEPRRLVFQGVLKLYGFDWDTEWAEGEARESVIVFIADELPEEKIREGFDAALL				NA	NA	NA	NA	NA
D1-35_04846	1254	glyA_2	COG0112	Serine hydroxymethyltransferase	ATGTTCAGCCGTGATTTGACTATTGCCAAGTACGACGCCGATCTCTTTGCCGCCATGGAGCAAGAAGCTCAGCGCCAGGAAGAGCACATTGAGCTGATCGCTTCGGAAAACTACACCAGCCCCGCGGTGATGGAAGCTCAAGGCTCGGTACTGACCAACAAGTACGCCGAAGGCTACCCGGGCAAGCGCTACTACGGCGGTTGCGAGTACGTCGATGTGGTCGAGCAACTGGCCATCGACCGCGCCAAGCAACTGTTCGGCGCCGATTACGCCAACGTCCAGCCGCACGCAGGCTCGCAAGCCAACGCCGCCGTCTACCTGGCGCTGCTGTCGGCCGGCGACACCATCCTGGGCATGAGCCTGGCCCACGGCGGTCACCTGACCCACGGCGCCAGCGTCTCGTCCTCGGGCAAACTGTATAACGCCATCCAGTACGGCATCGATGGCAACGGCCTGATCGACTACGACGAAGTCGAGCGCCTGGCGGTCGAGCACAAGCCGAAAATGATCGTGGCCGGCTTCTCCGCCTACTCGCAGATCCTCGACTTCCCGCGCTTCCGCGAAATCGCCGATAAGGTCGGTGCCTACCTGTTCGTCGACATGGCTCACGTTGCGGGCCTGGTCGCCGCTGGCGTCTACCCGAACCCGGTGCCGTTCGCCGACGTGGTCACCACCACGACCCACAAGACCCTGCGTGGCCCACGTGGCGGCCTGATCCTGGCACGCGCCAACACCGACATCGAGAAGAAGCTGAACTCGGCCGTATTCCCAGGCGCCCAGGGTGGCCCGCTGGAGCACGTGATCGCGGCCAAGGCGATCTGCTTCAAGGAAGCTCTGCAACCTGAGTTCAAGGCCTACCAGCAGCAAGTGGTGAAGAATGCCAAGGCCATGGCCGGCGTGTTCATCGAACGCGGCTTCGACGTGGTCTCCGGCGGTACTGAAAACCACCTGTTCCTGCTGTCGTTGATCAAGCAGGACATCTCCGGCAAAGACGCTGACGCCGCATTGGGCAAGGCGTTCATCACCGTGAACAAGAACTCGGTGCCGAACGACCCACGCTCCCCATTCGTCACCTCGGGCCTGCGCTTCGGCACCCCGGCCGTGACCACTCGCGGCTTCAAGGAAGCCGAGTGCAAGGAACTGGCCGGCTGGATCTGCGACATCCTGGCGGACCTGAACAACGAAGCGGTGATCGATGCCGTTCGCGAGAAGGTCAAGGCCATCTGCAAGAAGCTGCCGGTGTACGGCGCTTAA	MFSRDLTIAKYDADLFAAMEQEAQRQEEHIELIASENYTSPAVMEAQGSVLTNKYAEGYPGKRYYGGCEYVDVVEQLAIDRAKQLFGADYANVQPHAGSQANAAVYLALLSAGDTILGMSLAHGGHLTHGASVSSSGKLYNAIQYGIDGNGLIDYDEVERLAVEHKPKMIVAGFSAYSQILDFPRFREIADKVGAYLFVDMAHVAGLVAAGVYPNPVPFADVVTTTTHKTLRGPRGGLILARANTDIEKKLNSAVFPGAQGGPLEHVIAAKAICFKEALQPEFKAYQQQVVKNAKAMAGVFIERGFDVVSGGTENHLFLLSLIKQDISGKDADAALGKAFITVNKNSVPNDPRSPFVTSGLRFGTPAVTTRGFKEAECKELAGWICDILADLNNEAVIDAVREKVKAICKKLPVYGA	PGPT0008090_5743	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
D1-35_04847	3849			hypothetical protein	TTGTCCAACGTCACTCCGTCCCCGTCCCCGCGCGCCGCCCCTGCTGTGCCTGGCGTGCCCCTGCGCGGGACATTGAAGGGCGCGCTGGCCTCGCTGGTGCTGTTGCTGCTGGGCCTGCTTTTCTGGCAATTGCTCGACCAACTGCGCGAAACCCAGCAGCAACAGCGCCAATACACCATCGACTACACCGCCGACCTGGCCGCGCAAGTCAGCCTGAACATGGCGTTGAATGCGCAGATTGCACTCAATCTGCTACCGATCGTCGAACAACCGCAAAGCGCCGACGAACAACAGGCGCTGCTGCGCAAACTCCAGCAATCGTTGCCCGAATTACGCAGCCTGGCACTGCTGAGCCCTTCCGGCCGGGTGCTCAGCGACAGCGACGCTACCAGCGAGGATGCCGGCTACCTGGCCGAACTGGTACGGCGCAGTCATGCCCAGGCGCATTATTTCAGCAATGCCGAGGACGGTTCCGTGGTGCACCTGCTATTGCATCAGGCCAGCGGCAGTACTCGCGGTTATTGGGCGTTGCGCCTGACCCCGAGTTTTTTTGCGACATTGACCAAACAGGCCGATACCGGGCTGCGCCCGCTGTGGCTGGTGGAGAACCGGCTCAACCAGCAAATCGTCAGCCGTGACGAGGCCCCGCCCGCGCTCAACCCGACCCGATTGACCGAGCAAGACCTGAGCAACACCGTGTTGACCGTGCCCCTGAGCAGCAGTGACTGGCAGCTGCGCGGGTTGTTCGATCGCAGCCAGGTGCTCGAACAATTGCTGCCCGCGTTCATCGGCAAATGCCTGCTGGGCCTGGCGTTTTCGCTGCTGCCGGTGATCGCGCTGCTGAACATGCGTCGCCGCCAGCGTCAGTTGCATGAGGGGCGCCGCCGCTACCAGGACATTTTCGAGGGCACCGGCGTAGCCCTCTGTGTACTTGACCTGTCCGGGCTCAAGGCCTTTTTTGCCAGGGCCGGCCTGCATGATGGCGAGCAGTTGCGCGCCTGGCTGCAGGTCTCCCAGCAGCTCGAGCAGTTACAGCAGCAAGTGCACGTCACCGAAGTCAACCAGATGGCCTTGAAGCTGCTCAATGTCGACTCCTGCGAACAGGCCTGGCAACTGCTGGTGGGCAACGCGGCAAAAGACAACAACCCGGTTGGCTCGAAACTGCTCGAAGCGCTGCTCGACCAGCACAAACAACTGGAACTGGAAATCAGGCTCCAGGACGCCCATGGTCGTGACCAGCATTTGTGGCTGGTGTTGCGCCTGCCGGAAACGCAGGATGACTATAACGCCGTCATCCTGAGCATCAGCGATATCACCAGCCGCAAGCTCATCGAACTGTCGCTGCTTGAGCGCGAAGGCTTCTGGTCCGACGTGGTGCGCACCGTCCCGGATCATCTTTACGTACAGGACGTCATCAGCCAGCGGATGATCTTCAGCAACCACCACCTGGGCCAGACGCTCGGCTACGACCGTACTGAATTGCACCAGATGGGCGAGTATTTCTGGGAAATCCTGCTTCACAGCGACGATGCCGATCATTACCACCACCTGCGCCAGGAACAGCGCCGCGGCGGTTACACGCAACTGCTGCAATGCCAGTTACGCTTTCGCCATCGCAACGGCAAATGGCGACGTTTCGAGGTCCGCGAACAGGCTCTGGCCCGGGACCGCCATAATCAGGTCACGCGGATCATCGGCGTGGCCAAGGACATCACCGAGCAGATCGAGGCCAGCGAATCGTTGCGCGACAGCGAGCAGCGCTACCGGATGCTCGCCGAAAGCATCAGCGACGTGATTTTCTCCACCGACAGCAAACTCTCGCTCAACTATGTCAGCCCGTCGGTCCAGGCAGTGCTGGGCTACACCGCCGACTGGATCTTCCAGCATGGCTGGCAGTCGACCATCGCCAATCCGCAACAACTGACCGGCATCTACAGCCTGATGGACCGGGTCAGCAAGGCCCTCGACCAGCCCGACCAGTTGGCCGAGCTGCGCAACCAGCTGCAGACCCAACTGTTCCTGTTCGACTGCCTGCGTGCCGACGGGCGCAAGATCCCCATCGAGCTGCGGCTGGTGCTGGTGTGGGACGACAACGGCGCGTTCGAGGGGGTATTGGGCGTCGGCCGCGACATCAGCCAGCAGCGTCGCGCCGAAAAAGACCTGCGCATGGCCGCGACGGTGTTCGAGCATTCGACCTCGGCGATTCTGATCACCGACCCGGCCGGCTACATTGTCCAAGCCAACGAAGCCTTCAGCCGGGTCAGCGGTTATGCGGTGTCGCAGGTGCTGGACCAGTTGCCCAACATGCTGACCGTAGATGAGCAGCAGGAAGCCCACTTGCGCTACGTGCTCAAGCAGCTGCAACAGCACAGCACCTGGGAAGGCGAAGTCTGGCTCAAGCGCCGCAACGGCGAGCACTATCCGGCCTGGGTCGGCATTACCGCGGTGCTCGACGACGAAGGCGACCTCGCCAGTTATGTGTGCTTCTTCAGCGACATCAGCGAGCGCAAGGCCAGCGAGCAGCGCATCCATCGCCTGGCTTACTACGACGCCCTGACCCACCTGCCCAACCGCACGCTGTTCCAGGACCGCCTGCATACCGCGCTGCAATCGGCGGAACGGCAGAAGAGCTGGGTGGTGCTGATGTTCCTCGACCTGGACCGCTTCAAGCCGATCAACGATTCCCTCGGCCACGCCGCCGGCGACCGGATGCTCAAGGAAATGGCCACGCGACTGCTCGGCTGCGTGGCCGATGACGACACGGTGGCGCGCATGGGCGGCGACGAGTTCACCCTGTTGCTGCAACCGCGCGCAAGCCGCGAAATGGCGCTCAACCGGGCGATTACCGTGGCCGAGCAGATCCTTGCCAGCCTGGTCCGGCCGTTTGTGCTCGAAGGCCGGGAGTTCTTCGTCACCGCCAGTATCGGTATCGCCCTGAGCCCACAGGACGGCAACGAGCTGAGCCAACTGATGAAAAACGCCGACACCGCCATGTACCACGCCAAAGAGCGCGGCAAGAACAACTTCCAGTTCTACCAGGCCGACATGAACGCCAGCGCCCTGGAGCGCCTGGAGCTGGAAAGCGACCTGCGCCATGCGCTGGAACAGAACGAGTTCGTCCTGTATTACCAGCCACAGTTCAGCGGCGACGGCAAGCGCCTGACCGGGACCGAGGCCTTGCTGCGCTGGCGCCATCCGCGACGCGGGCTGGTGCCGCCAGGGGACTTCATCCCGGTGCTCGAAGAACTCGGGCTGGTGGTGGACGTCGGCGACTGGGTCATCAGCGAGGCCTGTCGCCAGCTCAAGACCTGGCACCAGGCCAAGGTCCGGGTGCCGAAGGTCTCGGTCAACATTTCCGCCCGGCAGTTCTCCGACGGCCAACTCGGCACGCGAATCGCCAATATCCTGCGCAGCACCGGCCTGCCGCCGGCTTGCCTGGAACTGGAGCTGACGGAGAGCATTCTGATGCGCGAAGTCAGCGAGGCGATGCAGATCCTGGCCGGCTTGAAGAATCTGGGCCTGAGCATCGCGGTCGATGACTTCGGCACTGGTTATTCATCGCTCAACTACCTCAAGCAATTCCCCATCGACGTGCTGAAGATCGACCGTACTTTCGTCGACGGCCTGCCGTCCGGCGAGCAGGATGCACAGATCGCCCGGGCAATCATCGCCATGGCCCATAGTCTCAACCTGGCGGTCATCGCCGAGGGTGTCGAGACCCATGAGCAACTGGATTTCCTCCGTGAACATGGCTGCGACGAAGTCCAGGGCTACCTGTTCGGCCGCCCGATGCCGGCCAACCGGTTTGAAGCGCAGTTCAGCAATGATGCGCTGTTCATGCTCGACTGA	MSNVTPSPSPRAAPAVPGVPLRGTLKGALASLVLLLLGLLFWQLLDQLRETQQQQRQYTIDYTADLAAQVSLNMALNAQIALNLLPIVEQPQSADEQQALLRKLQQSLPELRSLALLSPSGRVLSDSDATSEDAGYLAELVRRSHAQAHYFSNAEDGSVVHLLLHQASGSTRGYWALRLTPSFFATLTKQADTGLRPLWLVENRLNQQIVSRDEAPPALNPTRLTEQDLSNTVLTVPLSSSDWQLRGLFDRSQVLEQLLPAFIGKCLLGLAFSLLPVIALLNMRRRQRQLHEGRRRYQDIFEGTGVALCVLDLSGLKAFFARAGLHDGEQLRAWLQVSQQLEQLQQQVHVTEVNQMALKLLNVDSCEQAWQLLVGNAAKDNNPVGSKLLEALLDQHKQLELEIRLQDAHGRDQHLWLVLRLPETQDDYNAVILSISDITSRKLIELSLLEREGFWSDVVRTVPDHLYVQDVISQRMIFSNHHLGQTLGYDRTELHQMGEYFWEILLHSDDADHYHHLRQEQRRGGYTQLLQCQLRFRHRNGKWRRFEVREQALARDRHNQVTRIIGVAKDITEQIEASESLRDSEQRYRMLAESISDVIFSTDSKLSLNYVSPSVQAVLGYTADWIFQHGWQSTIANPQQLTGIYSLMDRVSKALDQPDQLAELRNQLQTQLFLFDCLRADGRKIPIELRLVLVWDDNGAFEGVLGVGRDISQQRRAEKDLRMAATVFEHSTSAILITDPAGYIVQANEAFSRVSGYAVSQVLDQLPNMLTVDEQQEAHLRYVLKQLQQHSTWEGEVWLKRRNGEHYPAWVGITAVLDDEGDLASYVCFFSDISERKASEQRIHRLAYYDALTHLPNRTLFQDRLHTALQSAERQKSWVVLMFLDLDRFKPINDSLGHAAGDRMLKEMATRLLGCVADDDTVARMGGDEFTLLLQPRASREMALNRAITVAEQILASLVRPFVLEGREFFVTASIGIALSPQDGNELSQLMKNADTAMYHAKERGKNNFQFYQADMNASALERLELESDLRHALEQNEFVLYYQPQFSGDGKRLTGTEALLRWRHPRRGLVPPGDFIPVLEELGLVVDVGDWVISEACRQLKTWHQAKVRVPKVSVNISARQFSDGQLGTRIANILRSTGLPPACLELELTESILMREVSEAMQILAGLKNLGLSIAVDDFGTGYSSLNYLKQFPIDVLKIDRTFVDGLPSGEQDAQIARAIIAMAHSLNLAVIAEGVETHEQLDFLREHGCDEVQGYLFGRPMPANRFEAQFSNDALFMLD	PGPT0023624_41	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
D1-35_04848	1665	ettA	COG0488	Energy-dependent translational throttle protein EttA	ATGGCTCAATACGTCTTCACCATGCATCGGCTGAGCAAAGTTGTTCCGCCGAAGCGGGAAATCCTGAAAAACATTTCGCTGTCATTTTTCCCCGGCGCCAAGATCGGCGTGCTGGGCCTCAACGGTTCGGGTAAGTCCACGCTGCTGAAAATCATGGCTGGCGTCGACAACGAATTCGACGGCGAAGCCTGTCCGATGCCTGACCTGAACATCGGCTACCTGCCGCAGGAGCCTCAGCTGGATCCGACCAAGACCGTTCGCGAAGTGGTCGAGGAAGCGGTCAGCGTGATCAAGGACGCCCAGGCGCGCCTGGACGAGGTCTACGCCGCCTACGCCGATCCGGACGCCGATTTCGACAAGCTGGCCGCCGAGCAGGCCAAGCTCGAAGCGATCCTGCAGGCCAGCGATGGCCACAACCTGGACCGTCAGCTGGAAGTCGCCGCCGATGCACTGCGCCTGCCAGCCTGGGACGCCAAGGTCGAGCACCTGTCCGGCGGTGAAAAGCGCCGCGTGGCGCTGTGCCGCTTGCTGCTGTCCGCCCCGGACATGCTGCTGCTCGACGAACCGACCAACCACCTGGACGCCGATTCCGTCGCCTGGCTCGAACACTTCCTGCACGATTTCCCTGGCACCGTGGTTGCGATCACGCACGACCGGTACTTCCTGGACAACGTTGCCGGCTGGATCCTGGAGCTCGACCGTGGCGCAGGCATTCCATACGAAGGCAACTATTCGGGCTGGCTGGAGGCCAAATCCGATCGTCTGGCCCAGGAGTCCAAGCAGCAATCGGCGCATGAAAAAGCCATGAAGGAAGAACTGGAGTGGGTGCGCAAAGGCGCCAAGGCTCGTCAGTCCAAATCCAAGGCGCGTCTGCAACGCTTCGAGGAAATGCAGTCCCAGGAATTCCAGAAGCGCAGCGAAACCAACGAGATCTACATCCCGGCCGGCCCACGCCTGGGTGACAAGGTCATCGAGTTCAAGAACGTCACCAAGGGCTACGGCGACCGCGTGTTGATCGACAACCTGTCGTTCTCCATGCCCAAGGGCGCCATCGTCGGCGTGATCGGTGGTAACGGCGCCGGTAAATCCACGCTGTTCCGCATGCTGATGGGCAAGGAAACGCCGGATTCGGGCACCATCGAAATCGGTGAAACCGTGCAGCTGGCCTGCGTCGACCAGAGCCGCGACGACCTGGACGGCAGCAAGACGGTGTTCCAGCAGATTTCCGACGGCTCCGACCAGATCCGCATCGGCAGCTACGAAATCCCGTCGCGTACCTACGTGGGGCGCTTCAACTTCAAGGGTGGCGATCAGCAGAAATTCGTCAAGGATCTGTCCGGTGGTGAGCGTGGTCGCTTGCACCTGGCGCTGACCTTGAAGGAGGGTGGCAACGTCCTGCTGCTCGACGAACCGTCCAACGACCTCGACGTCGAAACCCTGCGTTCCCTGGAAGAGGCCCTGCTGGACTTCCCGGGCGCGGCCATTGTGATCTCCCACGACCGGTGGTTCCTTGACCGCGTCGCGACGCACATCCTGGCGTACGAAGACGACTCGCAAGCGGTGTTCTTCGAAGGCAACTACACCGAGTACGAAGCCGATCGCAAGAAGCGCCTCGGCGAAGCCGCTGCCCAGCCGCATCGTGTACGGCACAAGAAGCTGGCTTGA	MAQYVFTMHRLSKVVPPKREILKNISLSFFPGAKIGVLGLNGSGKSTLLKIMAGVDNEFDGEACPMPDLNIGYLPQEPQLDPTKTVREVVEEAVSVIKDAQARLDEVYAAYADPDADFDKLAAEQAKLEAILQASDGHNLDRQLEVAADALRLPAWDAKVEHLSGGEKRRVALCRLLLSAPDMLLLDEPTNHLDADSVAWLEHFLHDFPGTVVAITHDRYFLDNVAGWILELDRGAGIPYEGNYSGWLEAKSDRLAQESKQQSAHEKAMKEELEWVRKGAKARQSKSKARLQRFEEMQSQEFQKRSETNEIYIPAGPRLGDKVIEFKNVTKGYGDRVLIDNLSFSMPKGAIVGVIGGNGAGKSTLFRMLMGKETPDSGTIEIGETVQLACVDQSRDDLDGSKTVFQQISDGSDQIRIGSYEIPSRTYVGRFNFKGGDQQKFVKDLSGGERGRLHLALTLKEGGNVLLLDEPSNDLDVETLRSLEEALLDFPGAAIVISHDRWFLDRVATHILAYEDDSQAVFFEGNYTEYEADRKKRLGEAAAQPHRVRHKKLA				NA	NA	NA	NA	NA
D1-35_04849	492	greB_2		Transcription elongation factor GreB	ATGAGTCGCGCCTTCGTCAACGAAGACAACGCCGCCGCCCAGGCCGATCAACCGGTCGAGCGTCAGGTCAGCACGCAACCCAACTACGTCACACCCGCCGGGCTTGCCCAGCTACAGGCGCGTGTCGCCGAGTTGCAAGCACTGCACAGCCAACAGACAGCCCAGGGCGAGCAGGCGGACAAGCAGCGTATCGCCGACCTCGAACGGGACCTGCGGTATTTCAATCAGCGGCTGCAGAGCGCGCAAGTCGTCACCTTGAGCAAATGTGATCAGGTGCGAATCGGACATTGGGTGACATTCGCCGATGAGCACGACCAGGCGCAACGAGTGCAACTGGTGGGTGAAGACCAGGCCGATGCCGCCAATGGATTGATCAATTGGGGTTCGCCGCTGGGGCGGGCCTTGCTGGGGGCGAAGATCGGGGATGAGGTGGTGTGGAAGCGGCCGGTGGGGGATGTGGCGATCGAGGTGCTGGAAATAGAGCTCGGGTGA	MSRAFVNEDNAAAQADQPVERQVSTQPNYVTPAGLAQLQARVAELQALHSQQTAQGEQADKQRIADLERDLRYFNQRLQSAQVVTLSKCDQVRIGHWVTFADEHDQAQRVQLVGEDQADAANGLINWGSPLGRALLGAKIGDEVVWKRPVGDVAIEVLEIELG				NA	NA	NA	NA	NA
D1-35_04850	357			hypothetical protein	ATGAGGCGCGCGGCAGTGGTACTGGGTGTGTTGATGTTGCTCGGTGGCTGCGAAACCACCCACGAGGATCTGATCGCCCGAGGTTATCCACCGGCCTTCGCCGATGGCTTCGATGACGGTTGCAGCAGTGGCCGGCAAGCCGCCGGCGCAATCACTGGCCAATTCCGGAAAGACGTGCCGCGTTATCTCAAGGACGCCCACTACGCCGAAGGCTGGAGCGATGGCTTTCGGCAGTGCCAGGCCATGCGCGAGAGCCAAGAGCGTGACGCCTACCGCGAGCGCCATTGGGACGACCGCGAACGGGCCTGGCAACAGGAGAAAGATCGGGACGCCGCCCGGGCTTATCGCTCGCCGTGA	MRRAAVVLGVLMLLGGCETTHEDLIARGYPPAFADGFDDGCSSGRQAAGAITGQFRKDVPRYLKDAHYAEGWSDGFRQCQAMRESQERDAYRERHWDDRERAWQQEKDRDAARAYRSP				NA	NA	NA	NA	NA
D1-35_04851	1854			hypothetical protein	ATGCTCAAACGCCTTGCCTGGCTGGCGCTCTGTGTGTGCGCCCCGCTGTCCGCCGCGCCTCATGTCGATCCTCAACGTTTGCAGCAACTGGCCAATGACCGCTTCTGGATTTCCCTGGGTCACTACGAAACGGCCAAGCTCGGTGGCTGGCGCAGCTATGTCAGCGATCGCAAGTTTTTCCTCGCACCCGACGGCAATGAACATCCCGACCGTGAGCTGACCGCCACGCTGCAAGCCTTGTACGGCCCGGCCAGTGCCGGCCAGCAACATGCCCAGTGCGTGTACCCGGCGCGAACGCGCTGGCTCAAGGCGCAGCTCAACCTGACGGACCTGCCGGCGGTCAATTGCAGCGAATTCACTCAGTGGTTCAAGGACGTATCGCCCCACAGCGCGGTGATGATTTTCCCCGCCGCGTACCTGAACAGCCCTTCCTCGATGTTCGGCCATACCTTGCTACGCATCGACCAGGCCGACGTGCAAAGCGACAAGACCGCCCTGCTCAGCTACGCAATCAACTTCGGCGCCTACATCGAGGGCTCCGACAACAGCCTGCTCTACGCCTGGAAGGGCTTGATGGGCGGCTACCCAGGACTGTTCGCCCTGGTGCCGTACCAGGAAAAACTCTCCGAGTACCGTAGCCTGGAGAACCGCGACCTGTGGGAATACCGTCTCAACCTGAGCCAGGCGGAAACCGAACGCATGGTCGAGCATGTGTGGGAACTCAAGCAGATCCAGTTCGACTATTTCTTCTTCGATGAAAACTGCTCCTATCGCCTTCTCGAACTGCTGCAGGTGGCGCGTCCGAGCCTGCGCCTGACCGAGCAGTTCCCGCTGACGGCGATCCCCACCGACACTGTCAAGGCGGTGAAAGAAGCCGGACTGGTGGAAAGCATCCAGTACCGGCCGTCCCGCGAGCGAGAGCTGCTCAGCCGCGCCGAGCCGCTCAGCGACGACGAGCAGCAATGGGTACAGAAAGTCAGCGCCGACCAGCAGCAACTGCAAGCGCCGGCATTCAAGGCGCTGCCGCGTCAACGCCAGGCCCTGATCATCGATGCCGCCTATCGCCTGGAGCGCTATCGCGCCAACGGCCAGGAACGTGACCCACAGCGGGCCCAGCGCAGCTTCGAACTGCTGCGGGCGATCAACCGCAATCCCGCGCCGGAACTGGACATCCCGCAACCCGGCCTGCCCGAGGATGGTCATGAGTCGCGCACCTGGCAGGCTGGCCTGGGTACGCGAGGCGATCGTGCGTTCGGTGAATACGGCCTGCGCATGGCCTATCACGACCTCAACGACAACGCCGAGAGTTTCCCGCTCGGCGCACAGATCGAGATCCTGCAATTGAAGCTGCGCCAGTACGAAGGCAACGATTGGCAGCTACAACAACTGGACCTGGCGACCATTCGCTCGCTGACCCCGCGCAATGAGTTGCTGCAGCCGCTGTCCTGGCAGGTTACCGGTGGCCTGGAGCGGGTGCCTGGCAAACACGACGATGAAACCCTGGTCAGCCACGTCAACGGCGGCGCCGGTGGTACCTGGGCCTTGGGTGAGGATGTGCTGGGCTTTGCCCTGGGCACGGTGCGGGTCGAGCACAATAACGACTTCGCCCAGTTCATCGCCCCGGCCGCCGGCTTCAACAGCGGCGTGCTGTGGAAAAACCCACTGGGCAACCTGAGCCTCGAAGCAAAGGGCGATTACTTCGTCAACGGCGAAGTGCGCCGTAGCCTGAGCCTGAATCAGCAGTGGGAATTGTCGCGCAACCTCGGTCTGCGCCTGAGCGCCCAGCGCGAATTCAGCCAATTGGCTTCGCCGGAAACCGAGGTGATGCTCGAAGTGAAGTGGTACCACTACTGA	MLKRLAWLALCVCAPLSAAPHVDPQRLQQLANDRFWISLGHYETAKLGGWRSYVSDRKFFLAPDGNEHPDRELTATLQALYGPASAGQQHAQCVYPARTRWLKAQLNLTDLPAVNCSEFTQWFKDVSPHSAVMIFPAAYLNSPSSMFGHTLLRIDQADVQSDKTALLSYAINFGAYIEGSDNSLLYAWKGLMGGYPGLFALVPYQEKLSEYRSLENRDLWEYRLNLSQAETERMVEHVWELKQIQFDYFFFDENCSYRLLELLQVARPSLRLTEQFPLTAIPTDTVKAVKEAGLVESIQYRPSRERELLSRAEPLSDDEQQWVQKVSADQQQLQAPAFKALPRQRQALIIDAAYRLERYRANGQERDPQRAQRSFELLRAINRNPAPELDIPQPGLPEDGHESRTWQAGLGTRGDRAFGEYGLRMAYHDLNDNAESFPLGAQIEILQLKLRQYEGNDWQLQQLDLATIRSLTPRNELLQPLSWQVTGGLERVPGKHDDETLVSHVNGGAGGTWALGEDVLGFALGTVRVEHNNDFAQFIAPAAGFNSGVLWKNPLGNLSLEAKGDYFVNGEVRRSLSLNQQWELSRNLGLRLSAQREFSQLASPETEVMLEVKWYHY				NA	NA	NA	NA	NA
D1-35_04852	489			hypothetical protein	ATGAAACGGATTCTTCTCGGTACTCTCTTCACCGCTGTATCCATCAACGCCATGGCTCAGGCCCCGGGCGGCCCGGATTGCGGTTGGGGCAACATGCTGTTCGAAGGCCAGCGTGGCACCCCGGCGCATTTCCTCGCATCCACCACCAACGGCACCTCCGGCAACGCCACCTTCGGCATGACCTCCGGCACCAACGGCTGCTCGACCAACGCGGCACTGACCTACGGTGGCAAGTCCTGGCTGGCCATGAATGGCATGATGAACGAGCTGTCCGAAGACATGGCCAAGGGTCAGGGTGAAGCACTGACCACCTACGCCGTGGTACTGGGCGTGGCGCCGGAAGACCGCGCGCACTTCTCCGCTGTGACCCACGAGCACTTCCAGCAGATCTTCAGCAAGGCTGACGTGACCGCCGAAGACGTGCATACCAACACCCTGGCCGTGCTGAAAAACGACCCTCGCCTGGCCAAGTACGCTACTCAAGCTTAA	MKRILLGTLFTAVSINAMAQAPGGPDCGWGNMLFEGQRGTPAHFLASTTNGTSGNATFGMTSGTNGCSTNAALTYGGKSWLAMNGMMNELSEDMAKGQGEALTTYAVVLGVAPEDRAHFSAVTHEHFQQIFSKADVTAEDVHTNTLAVLKNDPRLAKYATQA				NA	NA	NA	NA	NA
D1-35_04853	2439			hypothetical protein	ATGCCTGATCCTGTTGCTGCCAGCTTGCGTCTAGCGCCCGAAGCGCTGACCCGTCCGTTTTCCGCTGAACAGTTCAGCTTCTCTACCACCAATGATCTGGAGCCCTTTCGCGGTGTGCTTGGCCAGGAACGCGCGGTCGAAGCCTTGCAGTTCGGTGTGGCGATGCCACGCCCCGGTTACAACGTCTTTGTCATGGGCGAGCCCGGCACCGGTCGGTTCTCGTTCGTCAAACGCTACCTCAAGGCCGAGGGCAAGCGCATGCAGACCCCGGCGGACTGGGTCTATGTCAATAACTTCGACGAGCCTCGCGAGCCGCGTGCCCTGGAATTGCCGTCGGGCACGGCCGGGGCATTCATCGCCGACATCAATGGCCTGATCGACAATCTGCTGGCGACTTTTCCGGCGGTGTTCGAGCATCCGTCCTACCAACAGAAAAAAAGCGCGATCGACCGCGCCTTCAATCAGCGCTACGACCGCGCCCTCGATGTGATCGAGCGCCTGGCTTTGGAAAAGGATGTCGCGCTGTACCGTGACAGCAGCAACATCGCCTTTACGCCGATGAGCGAAGGCAAGGCCCTGGATGAAGCGGAGTTCGCCCAGTTGCCAGAGGCCGATCGCGAGCGCTTCCATGAGGACATTTCCAATCTGGAGGAGCGTCTGAACGAAGAGCTCGCCAGCCTGCCGCAGTGGAAACGCGAATCCAACAACCAACTGCGCCAGCTCAACGAAGAAACCATCACCCTGGCCTTGCAGCCGTTGCTCGCGCCGCTCTCGGAAAAATACGCCGAGAATGCCGCCGTCTGCGGCTACCTGCAGGCCATGCAGGTCTACCTGCTCAAGACCGTGGTCGAGCAATTGGTCGACGACAGCAAGACCGACGCCGTCGCCCGCAAATTGCTCGAGGAGCAATACGCGCCGAGCCTGGTGGTGGGGCATCCGGCGAGCGGTGGCGCGCCGGTGGTGTTCGAACCGCACCCGACCTACGACAACCTGTTCGGGCGCATCGAGTACAGCACCGATCAGGGCGCGCTCTACACCACGTATCGGCAGTTGCGCCCGGGTGCCTTGCACCGGGCCAACGGCGGGTTCCTGATTCTTGAGGCGGAAAAGATGCTCGGCGAGCCGTTCGTGTGGGATGCGCTCAAGCGCGCCCTGCAATCGCGCAAGCTGAAGATGGAGTCGCCGTTGGGTGAGCTGGGGCGGCTGGCGACGGTCACCCTGACGCCGCAACATATTCCGTTGCAGGTCAAGGTGGTGATCATCGGCGCCCGCCAGCTGTACTACGCGTTGCAGGACCTGGATTCGGACTTCCAGGAAATGTTTCGCGTGCTGGTGGACTTCGACGAAGACATCCCGATGGGCGACGAGAGCCTGGAGCAGTTTGCCCAGTTGCTCAAGACCCGAACCTCGGAGGAGGGCATGGCCCCGCTTACCGCCGATGCGGTGGCGCGCCTGGCCACTTACAGCGCGCGCCTGGCGGAGCATCAGGGGCGCCTGTCGGCGCGGATCGGTGATCTGTTCCAATTGGTCAGCGAAGCGGACTTCATCCGGCAGTTGGCCGGCGATGACATGACCGATGCCGGCCACATCGAGCGCGCCCTCAAGGCCAAGGCGACTCGCACCGGACGGGTTTCGGCGCGGATCCTCGACGACATGCTGGCCGGGATCATCCTGATCGATACCGACGGCGCGGCCGTGGGCAAGTGCAACGGGCTGACCGTGCTGGAAGTGGGGGATTCGGCGTTTGGCGTGCCGGCGCGGATTTCCGCCACGGTGTACCCGGGCGGCAGCGGTATCGTCGACATCGAGCGTGAGGTCAACCTCGGCCAGCCGATCCACTCCAAGGGTGTGATGATCCTCACCGGGTACCTGGGCAGCCGTTATGCCCAGGAATTCCCCCTGGCGATTTCGGCCAGCATCGCCCTGGAGCAATCCTACGGTTATGTGGACGGTGACAGCGCCTCCCTGGGCGAGGCTTGCACGTTGATCTCGGCCCTGTCGAAGACGCCGTTGAAGCAGTGCTTCGCCATCACCGGTTCGATCAACCAGTTCGGCGAAGTGCAGGCGGTCGGTGGGGTCAACGAGAAGATCGAAGGGTTCTTCCGCCTCTGCGAAGCCCGCGGGCTGACGGGAGAGCAGGGTGCGATCATCCCGCAGGCCAACGTTGCGACCCTGATGCTCGACGAGAAGGTGCTGGCCGCGGTGCGAGCGGGGCAGTTCCACGTCTATGCCGTGCGCCAGGCCGACGAGGCATTGAGCCTGCTGGTGGGCGAACCTGCCGGTGAGCCGGATGAAAACGGCGAGTTCCCGGAGGGCAGCGTCAACGCTCGCGTGGTGGAGCGGCTACGGGTGATCGCGGAAATGATCAGCGAAGACGACATCAAGGAAGCGGAAAAGGAAATGGCCCAGCAGGCCCTGGCGGAGGCGAAGCCTGCGTAA	MPDPVAASLRLAPEALTRPFSAEQFSFSTTNDLEPFRGVLGQERAVEALQFGVAMPRPGYNVFVMGEPGTGRFSFVKRYLKAEGKRMQTPADWVYVNNFDEPREPRALELPSGTAGAFIADINGLIDNLLATFPAVFEHPSYQQKKSAIDRAFNQRYDRALDVIERLALEKDVALYRDSSNIAFTPMSEGKALDEAEFAQLPEADRERFHEDISNLEERLNEELASLPQWKRESNNQLRQLNEETITLALQPLLAPLSEKYAENAAVCGYLQAMQVYLLKTVVEQLVDDSKTDAVARKLLEEQYAPSLVVGHPASGGAPVVFEPHPTYDNLFGRIEYSTDQGALYTTYRQLRPGALHRANGGFLILEAEKMLGEPFVWDALKRALQSRKLKMESPLGELGRLATVTLTPQHIPLQVKVVIIGARQLYYALQDLDSDFQEMFRVLVDFDEDIPMGDESLEQFAQLLKTRTSEEGMAPLTADAVARLATYSARLAEHQGRLSARIGDLFQLVSEADFIRQLAGDDMTDAGHIERALKAKATRTGRVSARILDDMLAGIILIDTDGAAVGKCNGLTVLEVGDSAFGVPARISATVYPGGSGIVDIEREVNLGQPIHSKGVMILTGYLGSRYAQEFPLAISASIALEQSYGYVDGDSASLGEACTLISALSKTPLKQCFAITGSINQFGEVQAVGGVNEKIEGFFRLCEARGLTGEQGAIIPQANVATLMLDEKVLAAVRAGQFHVYAVRQADEALSLLVGEPAGEPDENGEFPEGSVNARVVERLRVIAEMISEDDIKEAEKEMAQQALAEAKPA				NA	NA	NA	NA	NA
D1-35_04854	342			hypothetical protein	ATGTCGCGCAACCTTTGTCTTACTCGCCACTGCCTGGGTCTGGTGACCCGTATCGAATGCGCCGTTCGTCCGCTCGCTGGCAACACCGGCATGTGGACTGTACTGTTCGCCGCCGGAATGGCCGGCGAGCAACCTACCGCGATCAAGGCCCAAGGGCCGTTCCCTGGCCCGACTGCCGCTGAAACCCTCCTCGACACCATCGTCCAGAACCTGACATTGCACGGTTATGAGCTGGCTGATGATCCGCAGATCTGGTCGCTGCACATGCAGGCACAGCTACGGGAAATCAACGGAGGCCGTTGTCGCAACGTCGGCGGCGTCGAATATCGCCCGCTGCATTGA	MSRNLCLTRHCLGLVTRIECAVRPLAGNTGMWTVLFAAGMAGEQPTAIKAQGPFPGPTAAETLLDTIVQNLTLHGYELADDPQIWSLHMQAQLREINGGRCRNVGGVEYRPLH				NA	NA	NA	NA	NA
D1-35_04855	489			hypothetical protein	ATGGAACGCTTTATCGAAAATGCAATGTATGCCTCCCGTTGGCTACTGGCGCCGATCTACTTCGGGTTGTCCCTGGGCTTGCTGGCCCTGGCACTGAAATTCTTCCAGGAAGTCTTTCATATCATTCCCAACGTATTTGCCATGGCCGAGTCCGAGCTGATCCTGGTGCTGTTGTCGCTGATCGACATGGCGCTGGTAGGCGGCCTGCTGGTGATGGTGATGATTTCCGGCTACGAGAACTTCGTCTCGCAACTGGACATCGACTCCGACAAGGAAAAGCTCAACTGGCTGGGCACCATGGATTCCTCGTCGCTGAAGATGAAAGTCGCGGCGTCGATCGTTGCCATTTCGTCCATCCACTTGCTGCGTATTTTCATGGACGCCAAGAACGTCGATCCCGAGCACCTGATGTGGTACGTGATCATCCACATGACCTTCGTGGTCTCGGCATTCGCCATGGGCTATCTGGACAAACTGACCAAGCATTGA	MERFIENAMYASRWLLAPIYFGLSLGLLALALKFFQEVFHIIPNVFAMAESELILVLLSLIDMALVGGLLVMVMISGYENFVSQLDIDSDKEKLNWLGTMDSSSLKMKVAASIVAISSIHLLRIFMDAKNVDPEHLMWYVIIHMTFVVSAFAMGYLDKLTKH				NA	NA	NA	NA	NA
D1-35_04856	618	fklB_2	COG0545	FKBP-type 22 kDa peptidyl-prolyl cis-trans isomerase	ATGTCCGAAGTTAACCTGTCCACCGACGAAACCCGCGTCAGCTACGGCATCGGCCGTCAGTTGGGCGACCAACTGCGCGACAACCCGCCGCCGGGCGTCAGCCTGGACGCGATCCTCGCCGGCCTGACCGACGCTTTCGCCGGCAAGCCGAGCCGCGTGGGCCAGGACGAGATGTCCGCAAGCTTCAAGGTGATCCGCGAAATCATGCAGGCCGAAGCCGCCGCCAAGGCTGAAGCCGCTGCTGGCGAAGGCCGTGCATTCCTGGTCGAAAACGCCAAGCGCGAAGGCATCACCACCCTGGCGTCCGGCCTGCAGTTCGAAGTGCTGACCCAGGGCGAAGGCGCCAAGCCGACTCGCGAAGACCAGGTGCGTACCCACTACCATGGCACCCTGATCGACGGCACTGTGTTCGACAGCTCCTACGATCGTGGCCAGCCAGCCGAATTCCCGGTAGGTGGCGTGATCCCGGGCTGGACCGAAGCGCTGCAACTGATGAACGCCGGCAGCAAATGGCGCCTGTACGTGCCGAGCGAACTGGCCTACGGCGCCCAGGGCGTTGGCAGCATTCCACCGCACAGCGTGCTGGTGTTTGACGTCGAGCTGTTGGACGTTCTGTAA	MSEVNLSTDETRVSYGIGRQLGDQLRDNPPPGVSLDAILAGLTDAFAGKPSRVGQDEMSASFKVIREIMQAEAAAKAEAAAGEGRAFLVENAKREGITTLASGLQFEVLTQGEGAKPTREDQVRTHYHGTLIDGTVFDSSYDRGQPAEFPVGGVIPGWTEALQLMNAGSKWRLYVPSELAYGAQGVGSIPPHSVLVFDVELLDVL	PGPT0015110_204	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015110-ppiA-K03767	NA	NA
D1-35_04857	258			hypothetical protein	ATGACTTATTTGATCGATGCCTGGCTGGACCGCCCACATCCCTACCTCAGAATCCTGCATCGGGAAACCGGCGAAGTCTGTGCGGTGCTCGAAGAAGAAGCCTTGAACGAGCTGCAGGACCAAGGCGACCTGGACCTCAACAGCCTCAATTCCAGTGAGCCGCTGGTGCTCAAGGAGCTGGTGCGTAACCTGTTCCTGTTCTGCTACGCCCGGGCGTTGCGCCCGACGGGTGATTTCAGTGGCAGGTTCCATGGATGA	MTYLIDAWLDRPHPYLRILHRETGEVCAVLEEEALNELQDQGDLDLNSLNSSEPLVLKELVRNLFLFCYARALRPTGDFSGRFHG				NA	NA	NA	NA	NA
D1-35_04858	342			hypothetical protein	GTGAGCACGTTGCCTCCCTGCCCGAAATGCAATTCCGAATACACCTACGAAGACGGTACTCAACTGGTCTGCCCGGAGTGTGCCCACGAATGGTCCGCCAGCGGCGAAGCTGAAGCGCCGTCCGACGATACGGTGAAAAAAGATTCGGTCGGCAACGTCCTGCAGGACGGCGATACCATCACCGTGATCAAGGACCTCAAGGTCAAGGGCACTTCGCTGGTGGTCAAGGTCGGCACCAAGGTGAAGAATATCCGCCTGTGCGATGGCGACCACGACATCGACTGCAAGATCGACGGCATCGGCCCGATGAAGCTCAAATCCGAGTTCGTCAGAAAGGTCTGA	MSTLPPCPKCNSEYTYEDGTQLVCPECAHEWSASGEAEAPSDDTVKKDSVGNVLQDGDTITVIKDLKVKGTSLVVKVGTKVKNIRLCDGDHDIDCKIDGIGPMKLKSEFVRKV	PGPT0030500_1229	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030500-phnA|yjdM-K06193
D1-35_04859	969	ispB	COG0142	Octaprenyl diphosphate synthase	ATGCAACCCCAAGCTTTCTACCGCGCTGTGGCGGACGATTTTAGCGCCGTCGACGGTATCATCAAGAAGCAGCTGACTTCCCGAGTGCCGCTGGTATCGAAAATCGGCGACTACATCACTTCGGCCGGGGGCAAGCGCCTGCGTCCTCTATTGGTGCTTTTGTGCGGCAAGGCCCTGGGTCGCGAAGGCGACGACATGCGCCTGCTGGCCGCCACCATCGAATTTTTGCACACCGCGACGCTGCTGCATGACGACGTGGTCGACATGTCCGGCATGCGCCGTGGCCGCTCGACCGCCAACGCGATGTGGGGCAACGCCCCAAGCGTGCTGGTGGGCGACTTCCTGTATTCGCGCTCGTTCGAAATGATGGTCGAACTGGGCTCGATGCCGGTGATGAAGATTCTGTCCCAGGCCACGCGCATCATCGCCGAAGGCGAAGTGTTGCAGTTGTCCAAGGTCCGCGACGCCAGCACCACCGAAGAAACCTACATGGAAGTCATCCGCGGCAAGACCGCGATGCTCTTCGAAGCCTCGACTCACAGCGCCGCCGCCCTGGCCGGCGCCACCGCCGAGCAGAGCGAAGCCCTGCGCACCTTCGGCGATCACTTGGGCGTGGCGTTCCAACTGGTAGACGACCTGCTGGACTACAAGGGCGACGCCGACACCCTGGGCAAGAATGTCGGTGACGACCTGGCCGAAGGCAAGCCAACCCTGCCGCTGATCTACACCATGCGCGAAGGCACGCCGGAACAGGCCGCGCTGGTCCGCCAGGCGATCCAGAAAGGCGGGATTGAGGATCTGGAAAGCATCCGTGCGGCGGTTGAAGCTTCCGGTTCGCTGGACTACACCGCAACCCTGGCCCGGGACTACGTTGCCCGTGCGATCAAGTGCCTCGACGCCCTGCCGGCCAGCGAATACCGCGACGCGCTGGTGGAACTGAGCGAATTTGCGGTGGCGCGTACGCACTGA	MQPQAFYRAVADDFSAVDGIIKKQLTSRVPLVSKIGDYITSAGGKRLRPLLVLLCGKALGREGDDMRLLAATIEFLHTATLLHDDVVDMSGMRRGRSTANAMWGNAPSVLVGDFLYSRSFEMMVELGSMPVMKILSQATRIIAEGEVLQLSKVRDASTTEETYMEVIRGKTAMLFEASTHSAAALAGATAEQSEALRTFGDHLGVAFQLVDDLLDYKGDADTLGKNVGDDLAEGKPTLPLIYTMREGTPEQAALVRQAIQKGGIEDLESIRAAVEASGSLDYTATLARDYVARAIKCLDALPASEYRDALVELSEFAVARTH	PGPT0007525_2302	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007525-ispB-K02523	NA	NA
D1-35_04860	315	rplU	COG0261	50S ribosomal protein L21	ATGTCGTACGCAGTAATTGTTACTGGTGGCAAGCAATACAAGGTCGCCCCAGGTGAATACCTGAAGATCGAAAAACTGGAAATCGCTACCGGCGAATCCGTGACTTTTGATCGCGTTCTGTTGGTCGCCAATGGCGACGACGTGAATATCGGCGCTCCAGTCGTTGCTGGCGCTACCGTTGTGGCTGAAGTGATCTCCCAAGGTCGTCACGATAAAGTCCGCATCATCAAGTTCCGTCGTCGTAAGCACCACATGAAGCGTATGGGCCACCGCCAGTGGTACACCGAGATCAAAATCACCGGTATTCAGGCTTAA	MSYAVIVTGGKQYKVAPGEYLKIEKLEIATGESVTFDRVLLVANGDDVNIGAPVVAGATVVAEVISQGRHDKVRIIKFRRRKHHMKRMGHRQWYTEIKITGIQA				NA	NA	NA	NA	NA
D1-35_04861	258	rpmA	COG0211	50S ribosomal protein L27	ATGGCACACAAAAAAGCTGGTGGTAGTACCCGTAACGGTCGCGACTCAGAAGCCAAACGCCTTGGCGTGAAGATGTATGGCGGCCAGGCTATCAAAGCGGGCAACATCATCGTGCGTCAGCGCGGCACCCAATTCCACGCTGGCTACGGCGTTGGCATGGGCAAGGATCACACCCTCTTCGCTAAAGTCGAAGGCGTGATCAAGTTCGAAGTAAAAGGCGCCTTCGGTCGTCGTTACGTAAGCGTTATCGCAGCTTAA	MAHKKAGGSTRNGRDSEAKRLGVKMYGGQAIKAGNIIVRQRGTQFHAGYGVGMGKDHTLFAKVEGVIKFEVKGAFGRRYVSVIAA				NA	NA	NA	NA	NA
D1-35_04862	1224	obg		GTPase Obg	ATGAAGTTTGTTGATGAAGTATCGATTCGAGTAAAGGCTGGCGACGGCGGCAATGGTTGCATGAGTTTCCGTCGGGAAAAATTCATTGAAAACGGTGGTCCGAACGGTGGTGACGGGGGCGATGGCGGCTCGATCTACATGCTCGCCGATGAAAACCTCAACACCTTGGTGGATTACCGTTACACCCGGCATTTCGATGCCGAGCGTGGTTCCAACGGCGGCAGCACCGACTGCACCGGCAAGAAGGGCGAAGACCTGATCCTGCGTGTGCCGGTCGGTACCACAGTAATCGACTCCGCCACCCAGGAGGTCATCGGCGACCTGACCAAGGCTGGTCAGCGCCTGCTGGTGGCTCATGGCGGCTGGCACGGTCTGGGTAACACCCGCTTCAAATCCAGTACCAACCGCGCGCCGCGCCAGACTACGCCGGGCAAGCCAGGCGAGCAGCGTGACCTGAAGCTGGAAATGAAAGTGCTGGCCGACGTCGGTCTGCTGGGCCTGCCGAACGCAGGTAAGAGTACGTTCATTCGCTCGGTGTCGGCGGCCAAGCCGAAAGTCGCCGATTACCCGTTCACCACCCTGGTGCCGAACCTGGGCGTGGTCAGTGTCGATCGCTGGAAAAGCTTCGTGATCGCCGACATTCCGGGGTTGATCGAAGGTGCCTCCGAAGGTGCTGGCCTGGGGATTCGTTTCCTCAAGCATTTGTCCCGCACCCGTCTGTTGCTGCACCTCGTCGACATGGCGCCGCTGGATGAAACCGATGCCGCCGATGCCGCCGAGGTTATCGTCAACGAGCTGACCAAATTCAGCCCGGCCCTGGCCGAGCGCGACCGTTGGCTGGTGCTCAACAAGTGCGACCAGATCCTCGAAGAAGAGCACGAAGAGCGGGTCAAGGAAATCGTTGATCGCCTGGAGTGGGAAGGTCCGGTCTACATGATCTCGGCCATTGCCAAAGAAGGCACCGAGCGCCTTTGCCACGACATCATGCGTTACCTGGAAGATCGTGCTGATCGCCTGGCCAATGATCCGGCCTACAAGGAAGAACTGGCCGAGCTCGACCAGCGCATCGAAGACGAGGCGCGCGCCCAGTTGCAGGCGCTGGATGACCAGCGTGCCCTGCGCCGCAGCGGCGTCAAGTCGGTCCATGACATCGGTGATGACGATTGGGACGAAGAGGATGTGGATGACGAAGACGGTCCGGAAATCATCTACGTTCGCGACTGA	MKFVDEVSIRVKAGDGGNGCMSFRREKFIENGGPNGGDGGDGGSIYMLADENLNTLVDYRYTRHFDAERGSNGGSTDCTGKKGEDLILRVPVGTTVIDSATQEVIGDLTKAGQRLLVAHGGWHGLGNTRFKSSTNRAPRQTTPGKPGEQRDLKLEMKVLADVGLLGLPNAGKSTFIRSVSAAKPKVADYPFTTLVPNLGVVSVDRWKSFVIADIPGLIEGASEGAGLGIRFLKHLSRTRLLLHLVDMAPLDETDAADAAEVIVNELTKFSPALAERDRWLVLNKCDQILEEEHEERVKEIVDRLEWEGPVYMISAIAKEGTERLCHDIMRYLEDRADRLANDPAYKEELAELDQRIEDEARAQLQALDDQRALRRSGVKSVHDIGDDDWDEEDVDDEDGPEIIYVRD				NA	NA	NA	NA	NA
D1-35_04863	1119	proB		Glutamate 5-kinase	ATGCGGAGCAAGGTGACGGGTGCGCAACGCTGGGTCGTGAAGATCGGCAGCGCACTGCTGACGGCGGATGGCAAGGGCCTGGATCGCCAGGCGATGGCGGTGTGGGTCGAGCAGATGGTGGCCCTGCATGAGGCGGGCGTCGAGCTGGTACTGGTCTCCTCGGGTGCCGTGGCGGCCGGCATGAGCCGTTTGGGCTGGACGTCGCGACCCAGCGCGATGCACGAACTGCAGGCCGCTGCCGCCATTGGCCAGATGGGCCTGGTGCAGGCGTGGGAGTCGAGCTTTGCCGAGCATGATCGCCACACGGCGCAGATCCTGCTGACCCACGACGACCTGTCGGACCGCAAGCGTTATCTCAATGCCCGTAGTACGCTGCGAGCGTTGGTGGAGCTGAAAGTCATCCCGGTGATCAACGAGAACGACACGGTGGTCACCGACGAAATCCGTTTCGGCGACAACGACACGCTCGCGGCGCTGGTAGCCAACCTCGTGGAAGCCGACCTGCTGGTGATTCTCACGGATCGCGACGGCATGTTCGACGCCGATCCGCGCAATAACCCTGATGCCAGGCTGATCTACGAAGCCCGAGCCGACGATCCCGCGCTGGATGCGGTGGCGGGTGGCACTGGCGGAGCCCTGGGGCGCGGCGGCATGCAGACCAAGCTGCGTGCGGCGCGTCTGGCGGCGCGCTCTGGCGCCCATACCATCATCGTTGGCGGTCGGTTGGAGCGGGTGCTGGATCGCCTCAAGGCCGGGGAGCGCATCGGTACGCTGCTGTCGCCTGAGCGCGGCATGCTGGCGGCGCGCAAACAGTGGCTGGCCGGGCATCTGCAAACCCGGGGCACGCTGGTGCTGGACGCCGGTGCCGTGTCGGCGCTGTCCCAAGGTAATAAAAGCCTGCTGCCGGTAGGCGTGAAGCTGGTCCAGGGCAGCTTCCGCCGCGGCGAAATGGTCGTTTGCGTAGCGCCGGATGGTCGAGAGATTGCCCGGGGCCTGGCCAACTACAGCGCGCTGGAAGCACAGAAAATCATCGGCCAATCGTCTGATGCGATTGTTGGTCTGCTGGGTTACATGGCTGAGCCTGAGCTGGTTCACCGTGACAACCTGATCCTCGTCTAA	MRSKVTGAQRWVVKIGSALLTADGKGLDRQAMAVWVEQMVALHEAGVELVLVSSGAVAAGMSRLGWTSRPSAMHELQAAAAIGQMGLVQAWESSFAEHDRHTAQILLTHDDLSDRKRYLNARSTLRALVELKVIPVINENDTVVTDEIRFGDNDTLAALVANLVEADLLVILTDRDGMFDADPRNNPDARLIYEARADDPALDAVAGGTGGALGRGGMQTKLRAARLAARSGAHTIIVGGRLERVLDRLKAGERIGTLLSPERGMLAARKQWLAGHLQTRGTLVLDAGAVSALSQGNKSLLPVGVKLVQGSFRRGEMVVCVAPDGREIARGLANYSALEAQKIIGQSSDAIVGLLGYMAEPELVHRDNLILV	PGPT0014220_2010	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014220-proB-K00931	NA	NA
D1-35_04864	465			hypothetical protein	ATGGGTTTGGCAAAAGGATTGATCGGCTTGCTGGTGGCGCTGCCGCTATTGGCCTCTGCCGAGGAAATCGGGCAGGTGTCCACGGTGTTCAAGTTTGTCGGGCCAAACGACCGGATCGTGGTCGAGGCGTTCGATGATCCCAGGGTCGATGGCGTGACCTGCTATCTGTCGCGGGCCAAGACCGGCGGCGTAAAAGGTGGCCTGGGGCTGGCCGAAGATCGCGCCGAGGCGTCCATCGCCTGCCGCCAGGTCGGGCCGATCAGCTTCAAGGGCGAGCTCAAGGATGGCGAGGAGGTCTTCAGGGAGCGCACCTCGCTGGTCTTCAAGACCATGCAGGTGGTGCGTTTTCTCGACAAGAAGCGCAATACGTTGGTGTACCTGGTCTACAGCGACCGTGTGATCGAGGGTAGCCCGCAGAATGCGGTGACGGCGATTCCGATCCTGCCTTGGGCCAAGGCTCAATAA	MGLAKGLIGLLVALPLLASAEEIGQVSTVFKFVGPNDRIVVEAFDDPRVDGVTCYLSRAKTGGVKGGLGLAEDRAEASIACRQVGPISFKGELKDGEEVFRERTSLVFKTMQVVRFLDKKRNTLVYLVYSDRVIEGSPQNAVTAIPILPWAKAQ				NA	NA	NA	NA	NA
D1-35_04865	279	rpsT	COG0268	30S ribosomal protein S20	GTGGCCAACTCACCTTCCGCCAAAAAACGTGCAAAACAGGCTGAGAAGCGTCGCAGCCACAACGCCAGCCTGCGTTCCATGGTCCGTACCTACATCAAAAACGTAGTCAAGGCCATCGACGCAAAAGACGCTGAAAAAGCACAAGCTGCTTACGTTCTGGCTGTGCCAGTTATCGACCGCATGGCCGATAAAGGCATCATCCACAAGAACAAGGCTGCTCGCCATAAGAGCCGCCTGAATGGCCACGTAAAGGCCTTGAACGTTGCTGCTGCTGCCTAA	MANSPSAKKRAKQAEKRRSHNASLRSMVRTYIKNVVKAIDAKDAEKAQAAYVLAVPVIDRMADKGIIHKNKAARHKSRLNGHVKALNVAAAA				NA	NA	NA	NA	NA
D1-35_04866	1539	murJ	COG0728	putative lipid II flippase MurJ	ATGAATCTGCTCAAATCGTTGGCTGCCGTCAGCTCTATCACGATGCTTTCCCGGGTTCTGGGATTCGTTCGCGATACGCTGATCGCGCGGATATTCGGTGCCGGAATGGCCACCGACGCCTTCTTCATCGCCTTCAAGCTGCCAAACCTGCTGCGGCGGATCTTCGCCGAAGGGGCCTTTTCCCAGGCCTTCGTGCCGATCCTGGCTGAATACAAAAGCCAGAAGGGCGACGAGGCGACCCGCACTTTCATCGCTTATGTGACCGGTTTGCTCACGCTGGTGCTGGCGCTGGTCACCGCGGCCGGCATGCTCGCCGCGCCTTGGGTGATCTGGGCCACCGCGCCAGGTTTCACCGACACGCCGGAAAAATTCCAGCTCACCTCCGACCTGTTGCGGGTGACCTTTCCTTATATATTGCTGATTTCCCTGTCATCGCTGGCCGGGGCGATCCTCAATACCTGGAACCGTTTCTCGGTGCCGGCCTTCGTGCCGACGCTGCTCAATGTCAGCATGATCGTCTTCGCACTGTTCCTGACGCCGTACTTCGATCCGCCGGTGATGGCCCTGGGTTGGGCGGTGCTGGTCGGCGGCCTGGCGCAATTGCTCTATCAACTGCCCCACCTGAAAAAGATCGGCATGCTGGTACTGCCGCGCCTGAACTTGCGCGACAGTGGCGTGTGGCGCGTCATGAAGCAGATGCTGCCGGCCATTCTCGGGGTGTCGGTGAGCCAGATTTCCCTGATCATCAACACTATTTTCGCCTCGTTCCTGGTGGCCGGCTCGGTCTCGTGGATGTACTACGCCGACCGCTTGATGGAGCTGCCTTCCGGCGTACTGGGCGTGGCGCTGGGCACGATTCTGCTGCCTACCCTGGCCAAGACCTACGCCAGCCAGGACCGTCATGAATACTCGCGCATCCTCGACTGGGGCCTGCGCCTGTGCTTCGTGCTGGTCCTGCCTTGTGCGCTGGCGCTGGGGATCCTTGCCGAGCCGCTGACGGTTTCGCTGTTCCAGTATGGCCAGTTCAATGCGTTTGATGCCTTGATGACCCAGCGCGCGCTGATCGCCTATTCGGCGGGCTTGCTTGGAATCATTGTGATCAAGGTCCTGGCGCCGGGTTTCTACGCCCAGCAGAACATTCGCACGCCGGTGAAGATCGCCATCTTTACCTTGGTGATGACCCAGCTGTTCAACCTGCTGCTCATCGGACCCCTGGCCCATGCCGGCCTGGCCTTGGCGATCAGCGCCGGTGCCTGCCTCAACGCCGGGCTGCTGTTCTACCAGTTGCGCAAACAGAAGATGTATCAGCCGCAGCCCGGCTGGGTCAGGTTCGGCCTCAAGCTGCTGGTCGCCGTAGCGGTGATGTCGGCGGTGTTGCTGGCGGGGATGCATTTCATGCCGGCTTGGGGTGAAGGGCAGATGTTCGAGCGCTTCCTGCGCCTGGGCGTGCTGGTCGTGGCCGGCGTGGTGGCTTATTTCGGCATGTTGCTGCTAATGGGATTCCGTCTGCGCGACTTCAATCGCAAGGCCTTGAGCTGA	MNLLKSLAAVSSITMLSRVLGFVRDTLIARIFGAGMATDAFFIAFKLPNLLRRIFAEGAFSQAFVPILAEYKSQKGDEATRTFIAYVTGLLTLVLALVTAAGMLAAPWVIWATAPGFTDTPEKFQLTSDLLRVTFPYILLISLSSLAGAILNTWNRFSVPAFVPTLLNVSMIVFALFLTPYFDPPVMALGWAVLVGGLAQLLYQLPHLKKIGMLVLPRLNLRDSGVWRVMKQMLPAILGVSVSQISLIINTIFASFLVAGSVSWMYYADRLMELPSGVLGVALGTILLPTLAKTYASQDRHEYSRILDWGLRLCFVLVLPCALALGILAEPLTVSLFQYGQFNAFDALMTQRALIAYSAGLLGIIVIKVLAPGFYAQQNIRTPVKIAIFTLVMTQLFNLLLIGPLAHAGLALAISAGACLNAGLLFYQLRKQKMYQPQPGWVRFGLKLLVAVAVMSAVLLAGMHFMPAWGEGQMFERFLRLGVLVVAGVVAYFGMLLLMGFRLRDFNRKALS	PGPT0024200_3303	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
D1-35_04867	939	ribF	COG0196	Bifunctional riboflavin kinase/FMN adenylyltransferase	ATGCAGCTGGTTCGAGGCCTCCACAACCTGCGTCCCCGGCATCGGGGCTGTGTCGCCACTATTGGCAACTTCGACGGTGTTCACCGTGGCCACCAGGCTATCCTGGCGCGGCTGCGCGAGCGTGCGCTGGAGTTGGGCCTGCCCAGCTGCGTGGTGATCTTCGAGCCGCAGCCCCGGGAGTTCTTTGCTCCGGACACCGCTCCGGCGCGTCTGGCCCGGTTGCGTGACAAACTGCAACTGCTGGCCGCCGAAGGCGTCGATCGGGTCCTCTGCCTGGCCTTCAACCAGCGCCTGAGCCAGCTCAGCGCCGCCGAGTTTGTCGATACCATCCTGGTGGACGGTCTCGACGTGAAGCATCTGGAAGTCGGCGACGATTTCCGTTTCGGCTGCGACCGGGCAGGGGATTTCGATTACCTGCAACAGGCCGGCATCGCCCAGGGCTTCACCGTCGAAGCGGCACAGACCGTCGAAATGGACGGTTTGCGCGTCAGCAGCACCCAGGTCCGCAATGCCCTGGCGGCGGCGGACTTCGAATTGGCCGAGCGCTTGCTCGGCCGGCCGTACCGGATTGCCGGGCGGATCCTGCACGGGCAGAAACTGGCGCGCCAATTGGGCACGCCGACGGCCAACGTGCAACTCAAGCGCCGTCGTGTGCCGTTGACTGGGGTGTTCCTGGTGAGTGTCGACATCGACGGCAAGACCTGGCCCGGCGTCGCCAATATCGGCGTACGCCCCACGGTGCAGGGGGATGGCAAGGCCCATCTCGAAGTACACATTCTGGATTTTGCCGGCGATCTGTATGACCGGCGTTTGACGGTGGTTTTCCACCAGAAGCTGCGTGAAGAGCAGCGTTTTGCCTCTCTGGAGGCGCTCAAGACGGCGATCCATGCAGATATCGCCGCCGCCCGTGCCCTTGTCGCAACCAGCGCCAATCGCTAA	MQLVRGLHNLRPRHRGCVATIGNFDGVHRGHQAILARLRERALELGLPSCVVIFEPQPREFFAPDTAPARLARLRDKLQLLAAEGVDRVLCLAFNQRLSQLSAAEFVDTILVDGLDVKHLEVGDDFRFGCDRAGDFDYLQQAGIAQGFTVEAAQTVEMDGLRVSSTQVRNALAAADFELAERLLGRPYRIAGRILHGQKLARQLGTPTANVQLKRRRVPLTGVFLVSVDIDGKTWPGVANIGVRPTVQGDGKAHLEVHILDFAGDLYDRRLTVVFHQKLREEQRFASLEALKTAIHADIAAARALVATSANR	PGPT0008625_1627	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
D1-35_04868	2832	ileS	COG0060	Isoleucine--tRNA ligase	ATGACCGACTATAAAGCCACGCTAAACCTTCCGGACACCGCCTTCCCAATGAAGGCCGGCCTGCCTCAGCGCGAACCACAGATTCTGCAGCGTTGGGACAGCATTGGCCTGTACGGAAAGTTGCGCGAAATTGGCAAGGATCGTCCGAAGTTCGTCTTGCACGACGGCCCTCCGTACGCCAACGGCACCATCCACATCGGTCACGCGCTGAACAAGATTCTCAAGGACATGATCATCCGCTCCAAGACCCTGTCGGGTTTTGACGCGCCGTATGTCCCGGGCTGGGACTGCCACGGCCTGCCGATCGAGCACAAGGTCGAAGTGACCCACGGCAAGAACCTGGGCGCCGACAAGACCCGCGAGCTGTGCCGTGCCTACGCCACTGAGCAGATCGAAGGGCAGAAGTCCGAATTCATCCGTCTCGGCGTGCTGGGCGACTTCGCCAATCCGTACAAGACCATGGACTTTGCGAACGAAGCCGGTGAAATCCGCGCCCTGGCGAAAATCGTCGAGGGCGGCTTCGTGTTCAAGGGCCTGAAACCGGTCAACTGGTGCTTCGACTGTGGTTCGGCCCTGGCCGAGGCGGAAGTCGAGTACGAGAACAAGAAGTCCTCGACCATCGATGTCGCGTTCCCGATCGCCGATGAAGACAAGCTTGCCGCCGCTTTCGGCCTGGGCAAGCTGGCCAAGCCGGCCGCCATCGTGATCTGGACCACCACCCCATGGACCATCCCGGCCAACCAGGCGCTGAACGTCCATCCGGAATTCAACTACGCCCTGGTCGACGTCGGCGACAGACTGCTGGTGCTGGCCGAAGAGCTGGTCGAATCCTGCCTGGCCCGCTACAGCCTGGAAGGTTCGGTGATTGCCACCGCGCCAGGCTCGGCGCTGGAGCTGATCAACTTCCGTCATCCGTTCTATGACCGCCTGTCGCCAGTGTATCTGGCCGACTACGTGGAACTGGGCGCCGGCACTGGCGTGGTTCACTCCGCGCCGGCCTATGGCGTCGACGACTTCGTGACCTGCAAGAAATACGGCATGGTCAACGATGACATCCTCAATCCGGTGCAGAGCAATGGCGTCTACGTGCCGTCGCTGGAATTCTTTGGCGGCCAGTTCATCTGGAAAGCCAACCCGGCCATCGTCGACAAGCTGACCGAAGTCGGCGCGCTGCTGCACACCACCGTCATCGAACACAGCTACATGCACTGCTGGCGCCACAAGACCCCGCTGATCTACCGCGCGACCGCGCAGTGGTTCATCGGCATGGACAAGCAGCCAACCAGCGGCGACACCCTGCGCCAGCGTTCGCTCAAGGCCATCGAAGAGACCCAATTCGTTCCGGCCTGGGGCCAGGCGCGCCTGCACTCGATGATCGCCAACCGTCCGGACTGGTGCATCTCCCGCCAGCGCAACTGGGGCGTGCCGATCCCGTTCTTCCTGAACAAGGAAAGCGGCGAGCTGCACCCGCGCACCGTCGAACTGATGGAAGAAGTGGCCAAGCGCGTTGAAGCCGAAGGCATCGAAGCCTGGTTCAAGCTCGATGCCGCCGAGCTGCTCGGCGACGAAGCGCCGCTGTACGACAAGATCAGCGATACCCTCGACGTCTGGTTCGATTCCGGCACCACTCATTGGCACGTGTTGCGCGGCTCGCATCCGATGGGCCACGAGAACGGCCCGCGCGCCGACCTGTACCTGGAAGGTTCGGACCAGCACCGTGGCTGGTTCCACTCGTCCTTGCTGACCGGTTGCGCCATCGACAATCACGCGCCTTACCGCGAGCTGCTGACCCACGGTTTCACCGTCGACGAGGCCGGCCGCAAGATGTCCAAGTCCCTGGGCAACGTGATCGCGCCGCAGAAAGTCAACGACACCCTCGGCGCCGACATCATGCGCCTGTGGGTCGCGTCCACCGACTATTCCGGCGAGATGGCCGTTTCCGAGCAGATCCTGCAGCGCAGCGCGGACGCCTACCGGCGGATCCGCAACACCGCGCGCTTCCTGCTTTCGAACCTGACCGGTTTCAATCCGGCCACCGACCTGCTGCCGGCCGAAGACATGCTTGCGCTGGACCGCTGGGCCGTGGACCGCACCCTGTTGCTGCAGCGCGAATTGCAGGAGCACTACGGTGAATACCGTTTCTGGAACGTCTACTCGAAGATCCACAACTTCTGCGTGCAGGAGCTTGGCGGTTTCTACCTCGACATCATCAAGGACCGCCAGTACACCACCGGCGCCAACAGCAAGGCACGTCGTTCGTGCCAGACCGCGCTGTTCCACATCAGCGAGGCGCTGGTGCGCTGGATCGCGCCGATCCTGGCGTTCACCGCCGATGAGCTGTGGGAATACCTGCCGGGCGAGCGCAACGAATCGGTGATGCTCAACACCTGGTACGAAGGCCTGACCGAACTGCCGCAAGGCTTCGAGCTGGACCGTGCGTATTGGGACCGGATCATGGCGGTCAAGGCGGCGGTCAACAAGGAAATGGAAATCCAGCGGGCGGCCAAGGCTGTCGGCGGCAACCTGCAGGCTGAAGTGACCCTTTACGCCGAAGAGGCGCTGGGTGCCGATCTGGCCAAGCTGGGCAACGAGCTGCGCTTCGTGCTGATTACCTCGACCGCCAGCGTCGCGCCGCTGGTGCAGGCGCCGGCCGATGCGGTGGTCACCGAGGTAAGCGGCCTGAAGCTCAAGGTGGTCAAGTCGAGCTTCGTCAAGTGCGCCCGTTGCTGGCACTGCCGCGAAGACGTCGGTGTGAACCCGGAGCATCCGGAAATCTGTGGTCGTTGCGTCGACAACATCAGCGGTACGGGCGAGGTTCGCCACTATGCCTGA	MTDYKATLNLPDTAFPMKAGLPQREPQILQRWDSIGLYGKLREIGKDRPKFVLHDGPPYANGTIHIGHALNKILKDMIIRSKTLSGFDAPYVPGWDCHGLPIEHKVEVTHGKNLGADKTRELCRAYATEQIEGQKSEFIRLGVLGDFANPYKTMDFANEAGEIRALAKIVEGGFVFKGLKPVNWCFDCGSALAEAEVEYENKKSSTIDVAFPIADEDKLAAAFGLGKLAKPAAIVIWTTTPWTIPANQALNVHPEFNYALVDVGDRLLVLAEELVESCLARYSLEGSVIATAPGSALELINFRHPFYDRLSPVYLADYVELGAGTGVVHSAPAYGVDDFVTCKKYGMVNDDILNPVQSNGVYVPSLEFFGGQFIWKANPAIVDKLTEVGALLHTTVIEHSYMHCWRHKTPLIYRATAQWFIGMDKQPTSGDTLRQRSLKAIEETQFVPAWGQARLHSMIANRPDWCISRQRNWGVPIPFFLNKESGELHPRTVELMEEVAKRVEAEGIEAWFKLDAAELLGDEAPLYDKISDTLDVWFDSGTTHWHVLRGSHPMGHENGPRADLYLEGSDQHRGWFHSSLLTGCAIDNHAPYRELLTHGFTVDEAGRKMSKSLGNVIAPQKVNDTLGADIMRLWVASTDYSGEMAVSEQILQRSADAYRRIRNTARFLLSNLTGFNPATDLLPAEDMLALDRWAVDRTLLLQRELQEHYGEYRFWNVYSKIHNFCVQELGGFYLDIIKDRQYTTGANSKARRSCQTALFHISEALVRWIAPILAFTADELWEYLPGERNESVMLNTWYEGLTELPQGFELDRAYWDRIMAVKAAVNKEMEIQRAAKAVGGNLQAEVTLYAEEALGADLAKLGNELRFVLITSTASVAPLVQAPADAVVTEVSGLKLKVVKSSFVKCARCWHCREDVGVNPEHPEICGRCVDNISGTGEVRHYA				NA	NA	NA	NA	NA
D1-35_04869	525	lspA	COG0597	Lipoprotein signal peptidase	ATGCCTGATCTGGCGCCCAACGCAGCAGGCCGTTTCGGACGGCTGGGCTGGCTCTGGTTGAGTGTGCTGGTACTGGTCATCGACCAGGCCAGCAAGTACTACTTCGAGAGTTCGTTGACCATGTACCAGCAGATCGTGGTCATCCCCGACTACTTCAGCTGGACGCTGGCCTACAACACCGGCGCGGCATTCAGCTTCCTGGCCGACAGTTCGGGCTGGCAGCGTTGGCTGTTCGCCCTGATCGCCGTCGTGGTCAGCGCCGTGCTGGTGGTCTGGCTCAAGCGCCTGGGGCGTGACGAGACCTGGCTGGCCGTGGCGCTGGCGCTGGTCCTGGGTGGCGCGCTGGGCAACCTGTACGACCGGATTGCCTTGGGCCATGTGATCGATTTCATCCTGGTGCATTGGCAGAACCGCTGGTACTTCCCGGCGTTCAACATTGCCGACAGTGCCATCAGCGTGGGCGCCGTAATGCTCGCCCTGGATATGTTCAAGAGCAAGAAAACCGGAGAAGCCGTCCATGACTGA	MPDLAPNAAGRFGRLGWLWLSVLVLVIDQASKYYFESSLTMYQQIVVIPDYFSWTLAYNTGAAFSFLADSSGWQRWLFALIAVVVSAVLVVWLKRLGRDETWLAVALALVLGGALGNLYDRIALGHVIDFILVHWQNRWYFPAFNIADSAISVGAVMLALDMFKSKKTGEAVHD	PGPT0004770_1918	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004770-pbrB|pbrC-K03101	NA	NA
D1-35_04870	438	fkpB	COG1047	FKBP-type 16 kDa peptidyl-prolyl cis-trans isomerase	ATGACTGAGCAGCGTATCGCTCAAAACACCGAAGTGAAGCTTCACTTCGCCCTGCACCTGGAAAACGGCGACACCGTCGACAGCACGTTCGACAAGGCGCCGGCGGTGTTCAAGGTCGGCGACGGCAACCTGCTGCCGGGTTTTGAAGCGGCGATCTTCGGTTTCAAGGCCGGCGACAAGCGCACCGTGGTGGTTCCTCCGGAAAATGCCTTTGGTCAGCCCAACCCGCAAAACGTGCAGACCATGCCACGCTCGCAGTTCCAGGACATGGAGCTGTCCGAGGGCCTGCTGGTGATCTTCAACGACGCGGCCAACGCCGAGCTGCCGGGTGTGGTGAAAGCTTTTGACGATGCCGAGGTGACCGTGGACTTCAACCACCCACTGGCGGGCAAGACCTTGAGCTTCGAGGTGGAAATCCTTGAAGTGAAGGCGGTTTAA	MTEQRIAQNTEVKLHFALHLENGDTVDSTFDKAPAVFKVGDGNLLPGFEAAIFGFKAGDKRTVVVPPENAFGQPNPQNVQTMPRSQFQDMELSEGLLVIFNDAANAELPGVVKAFDDAEVTVDFNHPLAGKTLSFEVEILEVKAV	PGPT0015111_4495	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
D1-35_04871	948	ispH	COG0761	4-hydroxy-3-methylbut-2-enyl diphosphate reductase	ATGCAAATCAAACTCGCCAACCCCCGTGGCTTCTGCGCTGGCGTGGACCGGGCGATCGAAATCGTCAACCGCGCCCTGGAAGTCTTCGGACCGCCGATCTATGTGCGCCATGAAGTGGTCCACAACAAGTTCGTCGTCGAGGACCTGCGCAGCCGTGGGGCCATCTTCGTCGAAGAACTGGACCAGGTGCCGGACGACGTCATCGTGATCTTCAGCGCCCACGGCGTTTCCCAGGCGGTGCGTACCGAAGCTGCCGGCCGTGGCTTGAAAGTGTTCGATGCTACGTGCCCGTTGGTTACCAAGGTCCACATCGAGGTGGCGCGCTACAGCCGTGATGGTCGCGAATGCATCCTGATCGGCCATGAAGGCCACCCGGAAGTTGAAGGCACCATGGGCCAGTACGACGCCAGCAATGGCGGCGCGATCTACCTGGTCGAAGACGAAGAAGACGTGGCGGCCTTGCAGGTTCGCAACCCGGAAAAGCTGGCTTTCGTTACGCAGACTACCTTGTCCATGGACGACACCAGCCGGGTGATCGACGCCCTGCGCACGCGCTTCCCGGCCATCGGCGGGCCGCGCAAGGATGACATTTGCTACGCAACCCAGAATCGTCAGGACGCGGTCAAGCAACTGGCCAACGAGTGCGATGTGGTCCTGGTGGTCGGCAGCCCGAACAGCTCCAACTCCAACCGCTTGCGCGAGCTGGCCGAACGCATGTCGACCCCGGCCTATCTGATCGACGGTGCCGAGGACATGCAGCGCAGCTGGTTCGACGGTGTCGAGCGGATCGGTATCACCGCCGGTGCCTCCGCGCCGGAAGTCCTCGTACGCGGGGTGATCGAGCAGTTGCAGGCCTGGGGCGCAACGGGTGCCAACGAGCTGGCGGGGCGCGAGGAAAACATTACGTTCTCGATGCCGAAAGAGCTGCGGGTCCGTTCCCTGCTTTGA	MQIKLANPRGFCAGVDRAIEIVNRALEVFGPPIYVRHEVVHNKFVVEDLRSRGAIFVEELDQVPDDVIVIFSAHGVSQAVRTEAAGRGLKVFDATCPLVTKVHIEVARYSRDGRECILIGHEGHPEVEGTMGQYDASNGGAIYLVEDEEDVAALQVRNPEKLAFVTQTTLSMDDTSRVIDALRTRFPAIGGPRKDDICYATQNRQDAVKQLANECDVVLVVGSPNSSNSNRLRELAERMSTPAYLIDGAEDMQRSWFDGVERIGITAGASAPEVLVRGVIEQLQAWGATGANELAGREENITFSMPKELRVRSLL	PGPT0007615_1419	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007615-ispH|lytB-K03527	NA	NA
D1-35_04872	540			hypothetical protein	ATGCATCAACAGGGCTTCAGCCTGATTGAACTGCTCATGGGACTGGCGATTGCCGCAATTGTTCTGCCGTGGGCCGGTGCAAGCTACAAAGAGCTGATCGAGTCCATCGAACGCGAGGATACCGCCCGGTTGCTGATCAGCGGGTTGCGTTTTGCCCGCAGCGAAGCCATCACGCGCAACCGCCGCATCTTGATCCAGGGAATCGACAATGATTGGGGCAGGGGCTGGCGGATCACGCTGGACAACAAGGAGCAAACCTTGCTGAGGGAGCGCAGCGGTCATGCTCGGGTGGTTGGCAACTCGCCAGTAAAACACCGGGTGAGGTTCGGCGGCCAGGGAGAAGCCCTGCACCCCGACGGCGCGTTCCAGGCAGGCACGCTGCATGTCTGCGCCAGACGCGGGCCGGTCAGCCATCACCAGGTGATCCTGGCGCCCTCCGGCCGCGTCCGCCTGGAAAGTGTCAAAGCCGAGCAGGCCCTGTGTGAAAAAGGACTCAAAGCAGGGAACGGACCCGCAGCTCTTTCGGCATCGAGAACGTAA	MHQQGFSLIELLMGLAIAAIVLPWAGASYKELIESIEREDTARLLISGLRFARSEAITRNRRILIQGIDNDWGRGWRITLDNKEQTLLRERSGHARVVGNSPVKHRVRFGGQGEALHPDGAFQAGTLHVCARRGPVSHHQVILAPSGRVRLESVKAEQALCEKGLKAGNGPAALSASRT	PGPT0016065_729	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0016065-fimT-K08084	NA	NA
D1-35_04873	483			hypothetical protein	ATGGATCTTCGTACAAAAGGTTTCACGCTGATCGAGGTGTTGGTGGCCCTCGGCGTGCTGCTGATCCTGATCACCATGGCGGTGCCGTCATTCACCGGCTCGCTGCAAAGTACCAAGGCCGATACCGAGATCGACGACCTGCGCCGAGCCTTGAATTTCGCGCGAATGGAAGCGATCAACCGTGGCATCACCACGCGAATTCGTCCCACCACGCAGGGCGGTGCCTGGAGCGGCGAATTGATGGTGTATGACAACACGGGCAACCCGGCCAATCCGACCAATGTATTGCGGGTTGTTCCAGCAATGGGCGGCGGCGTGACTCTGACGCTAACCTCAGAAGTGACCAACATTGATTTCAACAACCTGGGCGGGTTATCGGCACCGACCACGCCGGTGGGCTTCAATTACGTGAGAGGGACGCAGAGCAGGACGCTCAATGTCTGCCTCAATGGACGAATCGTATTGGGTGGAAATTGCGGATGA	MDLRTKGFTLIEVLVALGVLLILITMAVPSFTGSLQSTKADTEIDDLRRALNFARMEAINRGITTRIRPTTQGGAWSGELMVYDNTGNPANPTNVLRVVPAMGGGVTLTLTSEVTNIDFNNLGGLSAPTTPVGFNYVRGTQSRTLNVCLNGRIVLGGNCG	PGPT0016070_43	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0016070-fimU-K08085	NA	NA
D1-35_04874	462			hypothetical protein	ATGAAGGATTGCAGTAAAACGGCGCAGGAGGGCATGACGCTCATCGAGGTGCTGGTGGCGATGCTGATTCTCGGCGTGGGTTTGCTGGGGGCGGCGATGGTCCAGCTCAATGCCCTCAAATACACCGACAGCTCGCGCATGACCAGCCAGGCCAGCTTCATCGCCTACGACTTGTTGGACCGCATCCGGGCCAATTCCGGTGCCGACTACACCATCACGCCGCCGAGCTCGCCGAACCTCAACGTGGCCCGGGACCAGGACCTTTATGACTTCAAGACCAACATCGTCGCTTTCGGCGGCGCCACGGCCACCGGTACGGTTGCGCTGAACCAGCGGGTCTACACCATCACCATTTCCTGGGACGACGCCCGGGCTGCCAACACGACCAACGCGGCCGAGGCGCGACGCAGCTTTGTGCTGACCAGCCGGGTCGCTGTCGATCCATTGGCGACGACGCCATGA	MKDCSKTAQEGMTLIEVLVAMLILGVGLLGAAMVQLNALKYTDSSRMTSQASFIAYDLLDRIRANSGADYTITPPSSPNLNVARDQDLYDFKTNIVAFGGATATGTVALNQRVYTITISWDDARAANTTNAAEARRSFVLTSRVAVDPLATTP	PGPT0015975_776	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015975-pilV-K02671	NA	NA
D1-35_04875	714			hypothetical protein	ATGAACCGGCATAGCCGGGGTTTCGGGCTGATCGAACTGATGATCGCGCTGGTCATCAGCCTGATCGTCGTGCTGGGCGTCGTGCAGATTTTCATCGCCGCGAAAAATACTTACGTAAGCCAGAGTGCCGCCGCGGTGATGCAGGAGGATGCACGGTTTGCCTTGAGCAAAATGGTTCAGGAAATTCGCATGGTGGGCATGTTCGGCTGCCTGGCGACGGTCACCGATGCGTCTTCGAACAATGATTTCGCCGCCAGCCAGATCACCCCGATTCGCTGGGACAACGCCACCCGCAGGTTGACCCTGGTCACGGCGGATATCGGCAATAGCGGCAGTGCGCCGACCTGGACCATCGTTTCCGATTGCCGCAATACGGCCGCCGCCTACACCGGAACGCGAGCACCCGCGAGCGGGCAGATGGCCTTTCCGATCCGGCGGCTGATTTATGGTTTCAACAACAATCAGTTATTGCTGGGGAGCGGCGCTGGCAACCCGACCATGGCGGTGCTGGTGGATAACGTGCGGGCATTCGACGTGACCTTCGGCGTGGCCGGCAGCGCGACGGACATCGCAGCCACCAGCTACAGCGGCAACCCGAGCGACCCGGCGCTGATCCGCAGCGTGCGCCTGACGCTGACGCTGTACGACCCGAAAAATACCGTGCGCGAGCAGACCTTCAACGTGGTTGCTGCCTTGCGCAACCGGCTGCTATGA	MNRHSRGFGLIELMIALVISLIVVLGVVQIFIAAKNTYVSQSAAAVMQEDARFALSKMVQEIRMVGMFGCLATVTDASSNNDFAASQITPIRWDNATRRLTLVTADIGNSGSAPTWTIVSDCRNTAAAYTGTRAPASGQMAFPIRRLIYGFNNNQLLLGSGAGNPTMAVLVDNVRAFDVTFGVAGSATDIAATSYSGNPSDPALIRSVRLTLTLYDPKNTVREQTFNVVAALRNRLL	PGPT0015980_1066	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015980-pilW-K02672	NA	NA
D1-35_04876	477			hypothetical protein	ATGAGGTCGACAGGTTTCGGGTATCGCCAGCGTGGCATGGCCTTGCTGGTCAGCCTGGTCTTTTTGCTGCTGCTGACACTGATTGGTTTGTCATCGATGCAGAGCGCCACGCTCCAGGAAAAGATGACCAGCAGCGTCATGCAGCGCAACCAGTCGTTCCAGATGGCCGAGGCGGCGCTGAGGATCGGGGAAAGCGCGGTGCAGGCAGAAAGTTATTCGTTGCCGGTTTGTACCGCGGCCCAATGCGCGCCACCGCCTGAGTCGGCAACAGTGACGGTGGCGGGGCGTTATTCCTCGTCGGGGGTGCTCTGGGTGGCCGCCGCCGGTGGGTTTTACGGCGTGCAGAATATCGGCACAACCCTTACGGCAGTCAACGTGCCGCTCAATACCTCGGCGACGCTGTACCGGATCACGGCGGTGGCGGTGGTGGGCAACAACCAGCGCAGCGTGGTGGAGAGCATCTATGCGAAATATTAG	MRSTGFGYRQRGMALLVSLVFLLLLTLIGLSSMQSATLQEKMTSSVMQRNQSFQMAEAALRIGESAVQAESYSLPVCTAAQCAPPPESATVTVAGRYSSSGVLWVAAAGGFYGVQNIGTTLTAVNVPLNTSATLYRITAVAVVGNNQRSVVESIYAKY	PGPT0015985_636	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015985-pilX-K02673	NA	NA
D1-35_04877	3108			hypothetical protein	ATGCGAAATATTAGAGTGCTTCGGGGCTGGCGCCAGGCGTTGTGGGGGATGTTGCTCAGCCTTTACCTGACGGCCCCGGTCTATGGCTTCACACCGTCGGAATCACCGCTGTTGAGTGCGGCGGCGGTGACGCCCAACGTGATGCTGCTGATCGATGATTCGGGGAGCATGAACAACATTATCTGGGCGGCGGGGTTTGATCCGGCGGCAACGCAACCACCGATTTCTATATGCACTGACGACAGAAGTTGTAGCAGCAGCAATAGGGCGCTGCTTGCGGCAAACGACGGGAACGTCTTGCTTGCGAGTCTGTTCCGCGGCGATTGTTTAAATGGCTGGTATGGCTTCTACCGAACTGGCTTTGGTCAGGTTTGCCTGCGGTTACCCGATCCGGTTGGCGGCGAGAATACTCGCTACACAGCTAAGTACTTATCTTATCTAGTCACCCTTGCCAACGGTTCAAGCCGGGACTTCACCAACGGCTCAATCCCGAGAGACTATCGAATAAACGTAGCAAGGAATGTTTCGACTGATCTGGTCGGCAACAATCGCTCCCTGCGCATCGGCCTTGCCACTTTCAATTCGCCCAACAGCTTCAACTCCGGCCCTGGCGGCTATATTGCTCGTGCGATCAGCGATCTGTCGCCGGTAAGTGGCAGTGTCACCCAGACGCAGGCGAATACTAACTACAGCGCCTTGATCAGCGCCATAAACGCGCTAGGCGCCGTCGCCAATACGCCGCTGGCTGAGAGTTACTACGAAGTCACTCGTTATTTCAGAGGTATGGCGCCTTATTACAACAACACCCCAAGTACCTATACCAGCCCGATTCAGTACCGATGCCAGAAAAATTTTGGCGTGGTGATCACTGATGGTTTGCCCACTTTTGACCGAACGTTTCCTACCGATGATCCGTCCGGGGGGAGCCGCTTGCCAAACTGGGATGGCATCAGCGCCAACGATGGCGCCGATCCCAAGGGGGACGGAGAGGGCGACACGCTGTACCTGGACGACATTGCCAAATTCGCCTTCGACATCGACATGCGTTCCACCGGCACCGACGTCACCGGGAAAAGCTGGGATGGAGCCGAATTCCGCCGACAGTACCTCAATACCTACACCGTCGGTTTTGCTGTCACCAACCAGATGCTTTCCGACGCTGCTCGTTACGGTGCGGGCAAATATTATCCGGCCACCGACAGTGAAGGCCTGAACTCGGCCCTGTCGTCGGCCCTGAGCGACATCACCTCCAAGGCCGGTTCGGGAGGCGGCGGCACCAGCAATGGCGCGACGCTCTCCAGCACTTCCAGTTTTTACCAGACCACCTACGACCCCAGGGACTGGCGCGGCACCATCAAGGCATTCGGCTTCAATTCCGCTGGAACGGTGAACACCGCAGCAGCGCAGTGGACCACTGACACCGCTATCGTTCCCGGTGCCACACCGCCGCTCTACCAGTCCTGGAACACCGCGACCAACGTGCCGGTGACCCTGGCCTACGGCAACTTTTCGCCGGCCCAGCAAACCAGCCTGAGCCAGGGCCTGCCCACGGGGATCACCGGCAGCGATCTGGTGGAATGGAGCAAGGGCGTCAACAAGACCGGGCTCAAGGTGCGCAGCGTCCTGCTGGGGGACATCATCAATTCGCCGCTGGCCCTGGCCTCGCCCAATGACCAGACCGCCTCGGACCTGCTGAACGACACCAGTTACAGCAATTACCTGACGACCAAGGCGGCAAACATGAGCAGCAGCCTGGTGGTGAATGGCAATGATGGTTTCTTCAGTGTCATCAACAGCGCCAACGGAGCCCGCCGTTACGCATATATGCCGTCGACCGTGCTGCCTTCATTGCAGCTCATCGCTGATCCCGGCTACATCAATGGCGTGAGTCATAAATTCCTGGTGGACGGGCAGGTTGCAGTATTCGATGCGCAACTGGGCAGCGTCTGGAAAACGCTGGCCCTGGGTGGCACCGGCGCGGGCGGCCGGGCGTTTTACGCGGTGCAACTGTTCGACGCAGCGGCAGGCAATGCGATCCGGGCCTTGTGGGAGATCAGCGCGCCGACCCTCGCCAACGCAGCCAATGTCTTCAATGACCTGGGCTACGCCTATGCGCGCCCTGAAGTCGCGCGCCTTGCGGACGGTCGTTGGGCGGCGTTCATCGCCAATGGTTATGGCAGTAATACCGGCGTGGCGGCGCTGTATGTGGTGGACGTTCGCGACGGCTCGCTGATTCGCAAGATTGTCGTCAACAGCCCCGACACCAATAACGGCCTTTCGTCGGTCAAGCTGCGGGTCAACGCCCAGAATGTTGTGCAGGCGGCCTATGGCGGGGACCTGAAAGGACGGATGTGGAAGTTCGACCTCAGCGCGACTTCGCCGAACACCTGGGGTCTGGCGTTTGCCGGCCAGCCGTTGTTCACCGCTCCAGGTGGGGCGACACAGCCGATCACCGCGCAACCGTTGCTGGCGGAGAACCCCCAGGGCGGCATCCAGGTATTTTTCGGCACGGGCAAGTTCAACGAGTCGGCGGACAAGCTCAACAAGGACCTGCAAGGTTTCTATTCGATCTGGGACGCTAGCGGCGGCGCCGGGCAGATTACCGTGGCAAGCCTGCAGGCCCAGTCGATCACCAGCATTTTTTCCGGTACTACCGGGCAATTCGTGACCACCAGCCAGAATAACGTGGCCTATCCCACGCAAAAAGGCTGGTATCTGCCGCTGATATACAACAACGCGTTGACCGGCGAACGGGTAATCAACCCGGCCAGCCTGGTACTTGGGCGTGTTGTCTTCACCACCGCCGCCGTTGATACCACTGACCCATGCGCGAGCTTCGGTACCGGCAAGCTGATCGAAGTGGATGCGTTCAACGGTAAGATGCTCAACTACGCGGTGCTCGATACCAACAACGATGGTTCGATCAATACCCTCGACACGATTTCCGCTGGCGTGGTGTTCACGGGGGGGATCCCGACCTTGAGTGCCGTCGTCAGCGCCAATGGAGCAACCAATATGGTCGTGAATGACTCCGGTGGTGGAATCACCGACCTGCTGACCAAGTCCGTCGGTGGCAGCCGTCGTATCATGTGGCGGCAAATACAGTGA	MRNIRVLRGWRQALWGMLLSLYLTAPVYGFTPSESPLLSAAAVTPNVMLLIDDSGSMNNIIWAAGFDPAATQPPISICTDDRSCSSSNRALLAANDGNVLLASLFRGDCLNGWYGFYRTGFGQVCLRLPDPVGGENTRYTAKYLSYLVTLANGSSRDFTNGSIPRDYRINVARNVSTDLVGNNRSLRIGLATFNSPNSFNSGPGGYIARAISDLSPVSGSVTQTQANTNYSALISAINALGAVANTPLAESYYEVTRYFRGMAPYYNNTPSTYTSPIQYRCQKNFGVVITDGLPTFDRTFPTDDPSGGSRLPNWDGISANDGADPKGDGEGDTLYLDDIAKFAFDIDMRSTGTDVTGKSWDGAEFRRQYLNTYTVGFAVTNQMLSDAARYGAGKYYPATDSEGLNSALSSALSDITSKAGSGGGGTSNGATLSSTSSFYQTTYDPRDWRGTIKAFGFNSAGTVNTAAAQWTTDTAIVPGATPPLYQSWNTATNVPVTLAYGNFSPAQQTSLSQGLPTGITGSDLVEWSKGVNKTGLKVRSVLLGDIINSPLALASPNDQTASDLLNDTSYSNYLTTKAANMSSSLVVNGNDGFFSVINSANGARRYAYMPSTVLPSLQLIADPGYINGVSHKFLVDGQVAVFDAQLGSVWKTLALGGTGAGGRAFYAVQLFDAAAGNAIRALWEISAPTLANAANVFNDLGYAYARPEVARLADGRWAAFIANGYGSNTGVAALYVVDVRDGSLIRKIVVNSPDTNNGLSSVKLRVNAQNVVQAAYGGDLKGRMWKFDLSATSPNTWGLAFAGQPLFTAPGGATQPITAQPLLAENPQGGIQVFFGTGKFNESADKLNKDLQGFYSIWDASGGAGQITVASLQAQSITSIFSGTTGQFVTTSQNNVAYPTQKGWYLPLIYNNALTGERVINPASLVLGRVVFTTAAVDTTDPCASFGTGKLIEVDAFNGKMLNYAVLDTNNDGSINTLDTISAGVVFTGGIPTLSAVVSANGATNMVVNDSGGGITDLLTKSVGGSRRIMWRQIQ	PGPT0015990_917	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015990-pilY1-K02674	NA	NA
D1-35_04878	402			hypothetical protein	ATGCGCAAATCCAACCGGGGTTTCACCTTGATCGAAATCATGATCGTCATCGCGATCATCGGTATCGTGATCACCATCGGCTATCCGAGCCTGACCGAATACATGAAGAAGGGGCGCCGGGCCGAAATCGCCGGACTGCTGTCGGAACAGGCGCAGATTCTCGAACGTCACTATTCGAAGACCAACGTCTATACCAACGCGACTGGCCTGAGCGGTGGCAACGATTTCTACACTATTAACCTGACGCCGACGGAGCAGAGCTTTACCCTGACCGCACTACGCAGAAGTGGCTCGTCCATGGCGACGGACAAGTGCGGTGATTTTACGATCGACAACACGGGCAAGCGGGGCAATATCAACTCCGCTGCCGGCGTGACCACCAAGGATTGCTGGGGTCGTTGA	MRKSNRGFTLIEIMIVIAIIGIVITIGYPSLTEYMKKGRRAEIAGLLSEQAQILERHYSKTNVYTNATGLSGGNDFYTINLTPTEQSFTLTALRRSGSSMATDKCGDFTIDNTGKRGNINSAAGVTTKDCWGR	PGPT0015930_1155	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015930-pilE-K02655	NA	NA
D1-35_04879	1158	thiO		Glycine oxidase	TTGAGTTTTTATCCGGGTGCGGACGAGCGCCCTCTGTCTTGTGAGTCGAAACAGAACATGACCAGGCAACAGCAAGTGGTGATAGTCGGCGGCGGAGTCATCGGCCTGTTGACGGCATTCAATCTCGCCTCCGAAGGCCAGCGGGTGGTGCTGCTGGACCGCTCCGGGCTTGGCCAGGAATCTTCCTGGGCCGGCGGCGGTATTGTTTCGCCGCTGTACCCGTGGCGCTATAGCCCGGCGGTCACCGCGCTGGCCCACTGGTCGCAGGATTTTTATCCACAGCTGGGTGATTCCTTGTTCGCAACGACCGGGATCGATCCGCAAGTGCATGTCACCGGCCTGTATTGGCTGGACCTCGACGACCAGGCTGAAGCACTGGCCTGGGCCGAGCGGGAAGGGCGTCCGCTGCGAACTGTGGATATCTCCGCGGTCCACGATGCGGTTCCGGTAGTGGGCTCGGGTTTCTCCCGGGCGATCTACATGGCCGATGTGGCGAATGTGCGTAACCCGCGGCTGGTGAAGTCCCTCAAGGCTGCGTTGCAGGCGATGCCGGGTGTCACGCTTCATGAGCATTGCGAAGTCAGCGGGTTCATTCGCGACGGTGAGCGTGTCATTGGCGTGAAGAGCTCAGCGGGTGAGATACGCGGTGATCAAATCGTACTCGCCGCGGGTGCCTGGAGCGGCGAGTTGCTGGGAACGCTGGGACTGGAGTTGCCGGTCGAGCCGGTGAAGGGCCAGATGATTTTGTACAAGTGCGCGTCCGATTTTCTCTCGAGCATAGTCCTGGCCAAGGGCCGTTATGCGATTCCGCGTCGTGACGGGCACATTTTGATCGGCAGTACGCTGGAGCATGAAGGCTTCGACAAGACGCCGACCGATGCGGCGCTGGAAAGCCTCAAGGCTTCGGCTCTGGAGTTGATCCCGGCGTTGGCCGACGCCGAGTTGGTGGGGCATTGGGCCGGGTTACGGCCAGGATCGCCGGAGGGTATTCCCTACATTGGCGAAGTGCCGGGGTTTGCGGGGTTGTGGTTGAACTGCGGCCATTACCGCAACGGCCTGGTGCTGGCGCCGGCTTCGTGCCGGTTGTTCGTCGACGTGATGCTGGGGCGTGAGCCGGTGATTGATCCTGCGCCGTATGCCCCGGCGGGGCGGCTGTAG	MSFYPGADERPLSCESKQNMTRQQQVVIVGGGVIGLLTAFNLASEGQRVVLLDRSGLGQESSWAGGGIVSPLYPWRYSPAVTALAHWSQDFYPQLGDSLFATTGIDPQVHVTGLYWLDLDDQAEALAWAEREGRPLRTVDISAVHDAVPVVGSGFSRAIYMADVANVRNPRLVKSLKAALQAMPGVTLHEHCEVSGFIRDGERVIGVKSSAGEIRGDQIVLAAGAWSGELLGTLGLELPVEPVKGQMILYKCASDFLSSIVLAKGRYAIPRRDGHILIGSTLEHEGFDKTPTDAALESLKASALELIPALADAELVGHWAGLRPGSPEGIPYIGEVPGFAGLWLNCGHYRNGLVLAPASCRLFVDVMLGREPVIDPAPYAPAGRL	PGPT0008955_1202	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008955-thiO-K03153	NA	NA
D1-35_04880	1347	atoC_4	COG2204	Regulatory protein AtoC	TTGAATACACGCTCACGGCAACGAATCCTGATCGTCGATGACGAAACGGACATCCGCGAACTCCTGGAAATCACCCTGGGAAGGATGAAACTCGACACCCGCAGCGCCAAGAACCTCGCCGAGGCCCAAGCCCTGCTGGCAGGTGAAACCTTCGACCTGTGCCTGACCGACATGCGCCTGCCCGATGGTACCGGCCTGGAACTGGTGCAACACATCCAGCAACGCGTTCCTCAACTGCCGGTGGCGATGATCACCGCCTATGGCAGCCTGGAAGTCGCTATCGACGCGCTCAAGGCCGGCGCCTTCGACTTCCTGACCAAACCGGTCGACCTGGGGCGGCTGCGGGAGCTGATTGGCAGCGCCTTGCGCCTGTCGCCGGGTGCTGCGCCGAGTACGACCGTCGAGCGCTGCCTGTTGGGCGACTCGCCACCCATGCGCAGCGTGCGGCGACAGATTGAAAAACTCGCCCGCAGCCAGGCGCCGGTCTACATCAGCGGCGAATCAGGCTGCGGCAAGGAACTGGTGGCGCGCCTGATTCATGAACAAGGCCCTCGCTACAGCCAGGGGTTTGTGCCCGTCAATTGTGGGGCCATTCCAACGGAGTTGATGGAAAGCGAGTTTTTCGGCCATCGAAAAGGCAGCTTCACCGGCGCCATCGAAGACAAGCCCGGCCTGTTCCAGGCGGCTCACGGCGGGACCCTGTTCCTCGATGAAGTCGCCGACCTGCCGCTGGCGATGCAGGTCAAGCTGTTGCGTGCCATCCAGGAAAAAGCCGTGCGCGCGGTGGGCGGGCAACAGGAAGAAGTGGTGGATGTACGAATCCTCTGCGCCACCCACAAGGACCTCGGCGCAGAAGTCGCCGCCGGTCGCTTTCGCCAGGACTTGTATTACCGGCTGAATGTGATCGAACTGCGCGTCCCGCCCTTGCGTGAACGCCGGGAAGACATCGAGCTGCTGGCCAACCACATGCTCCAGCGCCTGGCCACCAACGCCGGCAGCCCAGTGGCGACGCTCCATCCGCAAGCCCTCAAAGCGCTGCAGAACTACCGCTTCCCGGGCAACGTGCGAGAACTGGAGAACATGCTCGAACGGGCCTACACCCTGTGCGAACACCAGCAGATCGAGGCCGATGACTTGCGTCTCGCCGAACACAGCGGGGCTGGCGAGGCGGGCAATCCGGATCTGATGCAGGTCGACAATCTGGAAGATTATCTGGAGGACGTCGAACGCAAGGTCATCCTGCAGGCCTTGGAAGAAACCCGCTGGAACCGCACCGCAGCGGCGCAGAGATTGAAGTTGTCGTTTCGGTCGATGCGGTATCGGTTGAAGAAGTTGGGGTTGGATTGA	MNTRSRQRILIVDDETDIRELLEITLGRMKLDTRSAKNLAEAQALLAGETFDLCLTDMRLPDGTGLELVQHIQQRVPQLPVAMITAYGSLEVAIDALKAGAFDFLTKPVDLGRLRELIGSALRLSPGAAPSTTVERCLLGDSPPMRSVRRQIEKLARSQAPVYISGESGCGKELVARLIHEQGPRYSQGFVPVNCGAIPTELMESEFFGHRKGSFTGAIEDKPGLFQAAHGGTLFLDEVADLPLAMQVKLLRAIQEKAVRAVGGQQEEVVDVRILCATHKDLGAEVAAGRFRQDLYYRLNVIELRVPPLRERREDIELLANHMLQRLATNAGSPVATLHPQALKALQNYRFPGNVRELENMLERAYTLCEHQQIEADDLRLAEHSGAGEAGNPDLMQVDNLEDYLEDVERKVILQALEETRWNRTAAAQRLKLSFRSMRYRLKKLGLD	PGPT0015865_512	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0015865-pilR|pehR-K02667	NA	NA
D1-35_04881	1590	sasA_17		Adaptive-response sensory-kinase SasA	GTGATCGCTGAGGCCTCGCGTCCCCGCGTCAAACAGGCGCAGCGTCTGCTGCGCCTCTATCACCTGTACCGCCTGAGCATCGGCATCACCCTGGTGCTGCTGATCACCAGCAACATGGACAACCGGCTGCTGGAGTTCGCCAACGACGACCTGCTGCGCAGCGGCAGCTGGTTGTATCTGGTGCTGAACATCCTGCTGGTGGTGTTCCTTGAAAATACGCGTCGCCCAGCCCGGCTGTTCGGGCTGGCGCTCACCGACGTATTGCTGCTGTCGTGGCTGTTCTTCGTCGCGGGTGGCGCCCCCAGCGCCATCGGCAACCTGATCATTGTCTCGGTAGCCATCGGCAACACCTTGCTGAAGGGGCGCATCGGCCTGCTGATCGCTGCCGTCGCCACCCTTGGCATCGTCGGCTCGACATTTGTCCTCGGCCTCAGCGACGCGAGCCGCCCCAGCAGCTATCTACAGGCAGGCACCCTGGGCGCCTTGTGTTTCGCCGCCGCTTTGCTGGTGCAAGGCCTGACCCGACGCCTGGAAGCCAGCGAAACCCTGGCCGAGCAACGGGCCAGCGAAGTGCTCAGCCTCGAAGCGCTCAACGCCTTGATCCTGCAACGCATGCGCACCGGCATCCTGGTGCTTGATCACCAGCACCGGGTGCGACTGGCCAACGAAAGCGCCTTGAACCTGCTGGGCATGCACGACCTGGTCGGCCAGCATATAGACGATTATTCCAGCGCCCTGGTCGAACGGCTGCAATCGTGGCGGAACAACCCCAGCCTGCGCGCGCAAAGCCTGACCATCAGCGGCACCGGCCTGACGCTGCAACCCAGCTTCATCGCCCTCGGCCCTCAGGATCAGCAGCAGATCCTGGTATTTCTCGAAGACCTGGCCCAAGTGGCCCAACATGCCCAGCAACTGAAACTCGCCTCCCTCGGGCGCCTCACCGCGGGTATTTCCCATGAAATCCGCAACCCTCTGGGCGCCATCAGCCACGCCGCGCAATTGCTCGGTGAATCCGAGGAACTGAACAACGCCGACCGACGTCTGACGCAGATTATTCAAGACCACTCCCTACGAATGAATCGCGTCATCGAAAACGTCCTGCAGCTGTCCCGCCGCCAGCAAACCGCGCCGCAACGCCTGGATTTACGCACATGGCTGGAGCAATTCGCCCTGCGGACCCGGGAAAACGCGGCCGAACCCCAGCGATTGCACCTGAGCATCGACCCGGGCGACTACATCACACTCATGGACCCCGACCAACTGGCCCAGGTGCTCGACAATCTGCTGCGCAACGCCTGGCGTCATAGCGCAATGGCCCATGAACAGGCCGAGGCCTGGTTGAAGCTGTTTGTCGACCCGCACAGTCAACTGGCCACGCTGGACATCATCGACAACGGCCCTGGCGTAACGCCGGAGCAGCAGGCGCACTTGTTCGAACCCTTCTTCACCACCAGCAGCCAGGGCACCGGCCTCGGGCTCTATCTGTCCCGTGAGCTGTGCGAAAGCAACCAGGCCCGCCTAGACTTCAAATCACGCCAAGGCGGCGGTTGCTTTCGCATCACCTTTGCTCACGGACGGAAACAGATTTGA	MIAEASRPRVKQAQRLLRLYHLYRLSIGITLVLLITSNMDNRLLEFANDDLLRSGSWLYLVLNILLVVFLENTRRPARLFGLALTDVLLLSWLFFVAGGAPSAIGNLIIVSVAIGNTLLKGRIGLLIAAVATLGIVGSTFVLGLSDASRPSSYLQAGTLGALCFAAALLVQGLTRRLEASETLAEQRASEVLSLEALNALILQRMRTGILVLDHQHRVRLANESALNLLGMHDLVGQHIDDYSSALVERLQSWRNNPSLRAQSLTISGTGLTLQPSFIALGPQDQQQILVFLEDLAQVAQHAQQLKLASLGRLTAGISHEIRNPLGAISHAAQLLGESEELNNADRRLTQIIQDHSLRMNRVIENVLQLSRRQQTAPQRLDLRTWLEQFALRTRENAAEPQRLHLSIDPGDYITLMDPDQLAQVLDNLLRNAWRHSAMAHEQAEAWLKLFVDPHSQLATLDIIDNGPGVTPEQQAHLFEPFFTTSSQGTGLGLYLSRELCESNQARLDFKSRQGGGCFRITFAHGRKQI	PGPT0015870_460	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0015870-pilS|pehS-K02668	NA	NA
D1-35_04882	234			hypothetical protein	ATGCTTCGTTTACTGTTCTGGATCGCCCTGATTGCCGCCGCGATATGGTTGTGGCGCAAGTTCAAGGCAACCTCCGCCACATCGAACACCTCGCGTGACCATGACGCGCGCCCGATGGTGCGTTGCGCCCAGTGCGGGGTGCACCTGCCGCGCGACCGGGCGCTGGCCCTCGACCAACAATGGTATTGCAGCCAGGCTCACCTCGAGCAAGGCCCGGGTACTCGTGATCGCTGA	MLRLLFWIALIAAAIWLWRKFKATSATSNTSRDHDARPMVRCAQCGVHLPRDRALALDQQWYCSQAHLEQGPGTRDR				NA	NA	NA	NA	NA
D1-35_04883	1017	bamD		Outer membrane protein assembly factor BamD	ATGCAAGTGAAACACCTGCTGCTGATCGCCATCCTCGCATTGACTGCTGCTTGCTCGTCGAAGGAAGTCGTAGACGAAAACCTGAGCGAAGTCGAACTGTACCAACAGGCGCAGAACGACCTGGATAACAACAGCTATACCAGCGCCACCGCCAAGCTCAAGGCGTTGGAGTCGCGGTATCCGTTCGGTCGCTACGCCGACCAGGCGCAGCTGGAACTGATCTACGCCAACTACAAGAACGCCGAGCCGGAAGCTGCCAAGTCCGCCGCCGAGCGTTTCATTCGTCTGCACCCGCAGCACCCGAACGTCGATTACGCTTACTACCTCAAGGGCCTGACCTCCTTCGACCAGGACGTCGGCCTGCTGGCGCGCTTCCTGCCGCTGGACATGACCAAGCGTGACCCGGGCGCCGCGCGCGACTCCTACAACGAGTTCGCCCAGCTGACCAGCCGCTTCCCCAACAGCCGCTATTCGCCTGATGCCAAGCAGCGCATGATCTACCTGCGCAACCTGCTGGCGTCCTACGAAATCCACGTGGCTGACTACTATCTGACCCGCCAGGCCTACGTCGCCGCCGCCAACCGTGGCCGCTACGTGGTGGAAAACTTCCAGGAAACCCCATCGGTTGGCGACGGCCTGGCTGTCATGACCGAAGCCTACCAGCGCCTGCACCTGGATGACCTCGCGGCCACCAGCCTGGAAACGCTGAAGCTGAACTACCCCGATCACCCATCGCTGGTCGATGGCCAGTTCACCCCGCGGGTCGATGAAGCCGACAACCGTTCGTGGCTGAGCAAGGCGACCCTCGGCCTGATCGAATCCCGTCCGCCGCTGCCGCCGGGCGAAACCCGCGCCAACCAGGACGTCCAGCGCCAGTTCCAGGACGCCAAGGAAGCCATTCCGAACGAGCTCAAGCCCAAGGACGAAAATGGCGACGTGATCGAAGAAGAAGAGCCGGAAAGCGAATCCAGCGATCGCTCCTGGTTCAGCTACATGACCTTCGGCATGTTCGACTGA	MQVKHLLLIAILALTAACSSKEVVDENLSEVELYQQAQNDLDNNSYTSATAKLKALESRYPFGRYADQAQLELIYANYKNAEPEAAKSAAERFIRLHPQHPNVDYAYYLKGLTSFDQDVGLLARFLPLDMTKRDPGAARDSYNEFAQLTSRFPNSRYSPDAKQRMIYLRNLLASYEIHVADYYLTRQAYVAAANRGRYVVENFQETPSVGDGLAVMTEAYQRLHLDDLAATSLETLKLNYPDHPSLVDGQFTPRVDEADNRSWLSKATLGLIESRPPLPPGETRANQDVQRQFQDAKEAIPNELKPKDENGDVIEEEEPESESSDRSWFSYMTFGMFD				NA	NA	NA	NA	NA
D1-35_04884	963	rluD	COG0564	Ribosomal large subunit pseudouridine synthase D	ATGTCCGATAAAATAGAACTTCGCGCAGAGGTGCCGTCCGAATTGGGCGGCCAACGCCTCGATCAAGTCGCCGCCCAACTCTTCGCCGAGCACTCGCGCTCGCGCCTTTCCGCCTGGATCAAGGACGGTCGCCTGACAGTGGACGGGGCGGTGATCCGTCCGCGCGACATCGTCCATGGCGGCGCCATCCTCGAACTGACCGCCGAGCAGGAGGCCCAGGGAGAATGGGTCGCCCAGGATATTGCCCTGGACATCGTCTACGAAGACGACGACATCCTGGTGATCAACAAGCCCGCGGGCCTGGTGGTCCACCCGGCGGCCGGTCACGCCGATGGCACCCTGCTCAACGCCTTGCTGCACCATGTGCCGGACATCATCAATGTGCCCCGCGCCGGGATCGTGCACCGCCTGGACAAGGACACCACCGGCCTGATGGTGGTCGCCAAGACCATCCAGGCGCAGACACAGCTGGTCACACAGCTGCAAAGCCGCAGCGTCAGCCGCATCTATGAATGCATCGTGATCGGCGTGGTCACCGCCGGTGGCAAGATCAACGCACCGATCGGCCGTCACGGCCAGCAGCGCCAGCGCATGGCGGTGATGGAGGGTGGCAAGCAGGCGGTCAGCCATTACCGCGTGCTGGAGCGTTTTCGTTCGCACACGCATGTGCGGGTCAAGCTGGAAACCGGCCGGACCCACCAGATTCGCGTGCATATGTCCCATATCAACTTCCCACTGGTGGGCGACCCGGCCTATGGCGGTCGTTTCCGCATTCCGCCGGCCGCGAGCCAGACCATGGTCGAATCGTTGAAAAACTTCCCGCGCCAGGCGCTGCACGCGCGCTTCCTGGAGCTGGACCACCCGACGACCGGTAAGCGCATGAGCTGGGAATCGCCGTTGCCGGATGACTTCGTCTGGCTGCTGACGCTGCTCAAGCAGGATCGCGAGGCGTTCATCGGATGA	MSDKIELRAEVPSELGGQRLDQVAAQLFAEHSRSRLSAWIKDGRLTVDGAVIRPRDIVHGGAILELTAEQEAQGEWVAQDIALDIVYEDDDILVINKPAGLVVHPAAGHADGTLLNALLHHVPDIINVPRAGIVHRLDKDTTGLMVVAKTIQAQTQLVTQLQSRSVSRIYECIVIGVVTAGGKINAPIGRHGQQRQRMAVMEGGKQAVSHYRVLERFRSHTHVRVKLETGRTHQIRVHMSHINFPLVGDPAYGGRFRIPPAASQTMVESLKNFPRQALHARFLELDHPTTGKRMSWESPLPDDFVWLLTLLKQDREAFIG				NA	NA	NA	NA	NA
D1-35_04885	726	yfiH	COG1496	Polyphenol oxidase	ATGAGTGACTGGCTGATACCCGACTGGCCCGCGCCGGCCCGGGTCAAGGCCTGTGTCACCACCCGCGAGGGCGGCGTCAGCCTGGCGCCGTTCGACAGCCTCAACCTCGGCGACCATGTGGGCGATGAGCCTGCGGCCGTCGCCGAAAACCGTCGTCGCCTCACCGATCGTTTCGCCATGCGTCCGGCCTGGTTGCAGCAGGTCCACGGTATCGAGGTGGTCGAAGCTGACCCGGTCGAGGTGGCTGTCGCCGATGCCTGCTGGACCGCCACGCCGGGTATCGCCTGCGCGGCAATGACGGCCGATTGCCTGCCTGTATTGTTCTGTAACCACGCCGGCACCCATGTCGCGGCAGCCCATGCCGGTTGGCGCGGGCTGGCCAACGGAGTCCTGGAAGCCACCCTTGATCGTCTGCAAGTACCGGCCGAAGAAATCCTCGCCTGGCTCGGCCCGGCCATCGGCCCGCAAGCGTTCGAAGTGGGGCCTGAGGTGCGTGAGGTTTTTGTTGCGCAACTGCCCGAGTCGCAACAAGCCTTCATGCCCAGCCACAATGCCGGGAAGTACCTGGCGGATATCTATGCGCTGGCGCGCCTGCGTCTCGCGGCTCGCGGCGTCACCGCCGTGTACGGTGGCGGCCTGTGCACCGTGACCGATCCGCGCTTCTTTTCCTACCGTCGCAACGCCCGCACCGGTCGCTTCGCTTCCCTGATCTGGCTTGAACGCTAG	MSDWLIPDWPAPARVKACVTTREGGVSLAPFDSLNLGDHVGDEPAAVAENRRRLTDRFAMRPAWLQQVHGIEVVEADPVEVAVADACWTATPGIACAAMTADCLPVLFCNHAGTHVAAAHAGWRGLANGVLEATLDRLQVPAEEILAWLGPAIGPQAFEVGPEVREVFVAQLPESQQAFMPSHNAGKYLADIYALARLRLAARGVTAVYGGGLCTVTDPRFFSYRRNARTGRFASLIWLER	PGPT0019965_3555	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
D1-35_04886	2565	clpB	COG0542	Chaperone protein ClpB	ATGCGTATTGATCGTTTAACCAGCAAACTGCAATTGGCCTTGTCCGATGCCCAATCCCTGGCCGTCGGCCTGGACCATCCCGGCATCGAACCGGCGCACTTGATGCAGGCCATGCTCGAACAGCAAGGCGGTTCCATCAAGCCACTGCTGATGCAGGTGGGCTTTGACGTCAACAGCCTGCGCAAAGAGTTGGCCAAAGAACTCGACCAACTGCCCAAGATCCAGAATCCGACCGGTGACGTGAACATGTCCCAGGATCTGGCGCGGCTGCTCAACCAGGCCGATCGCCTGGCCCAACAGAAGGGCGACCAGTTCATTTCCAGCGAACTGGTGCTGCTCGCCGCGATGGACGAGAACAGCAAGCTGGGCAAGTTGCTGCTCGGCCAGGGCGTGAGCAAGAAAGCCCTGGAAAATGCCATCAACAACCTGCGTGGTGGCGATGCGGTCAACGACCCCAACCACGAGGAAGCGCGCCAGGCGCTGGACAAGTACACCGTCGACCTGACCAAGCGCGCAGAGGAAGGCAAGCTTGACCCGGTGATCGGCCGTGACGATGAAATTCGCCGCACTATCCAGGTCCTGCAGCGCCGTACCAAGAACAACCCGGTGCTGATCGGTGAACCTGGCGTGGGCAAGACCGCCATCGCCGAGGGCCTGGCCCAGCGCATCATCAATGGCGAAGTGCCTGACGGCCTGCGGGGCAAGCGCTTGCTGTCCCTCGACATGGGGGCGCTGATCGCTGGCGCCAAGTACCGCGGCGAATTCGAGGAACGGCTCAAGGCCTTGCTCAATGAACTGTCGAAGCAGGAAGGGCAGATCATTCTGTTCATCGACGAATTGCACACCATGGTCGGGGCCGGCAAGGGCGAGGGCTCGATGGACGCCGGCAATATGCTCAAGCCTGCGCTGGCCCGTGGTGAGTTGCATTGCGTTGGCGCGACCACGCTCAACGAATACCGCCAGTACATCGAGAAAGACGCGGCCCTGGAACGGCGCTTCCAGAAGGTGCTGGTGGAGGAGCCGAGCGAAGAAGACACCATCGCGATCTTGCGCGGCCTGAAGGAGCGCTACGAGGTTCACCACAAGGTGGCGATCACCGACGGCGCGATCATCGCGGCAGCGAAGCTCAGCCACCGCTATATCACTGACCGGCAATTGCCGGACAAGGCCATCGACCTGATTGACGAGGCCGCCAGCCGCATCCGCATGGAAATCGATTCCAAGCCTGAGGTACTGGATCGTCTGGAGCGGCGCTTGATTCAGCTCAAGGTCGAGTCCCAGGCCCTGAAAAAAGAGAGTGACGAGGCCGCGAAGAAACGCCTGGAAAGGTTGCAGGAAGAAATCGTCCGGCACGAGCGCGAGTATTCCGATCTCGAAGAAATCTGGAATTCGGAGAAAGCCGAAGTCCAGGGCTCGGCGCAGATCCAGCAGAAGATCGAGCAGTCTCGCCAGGAACTCGAAGCGGCCCGCCGCAAGGGCGATCTGAACCGCATGGCCGAGCTGCAATACGGGGTGATCCCGGACCTTGAGCGCAGCCTGCAGATGGTCGACCAGCACGGCAAGAGCGAAAACCAGCTGCTACGTAGCAAGGTCACCGAAGAGGAAATCGCCGAGGTGGTTTCCAAGTGGACCGGCATTCCCGTGTCGAAAATGCTCGAAGGCGAGCGCGACAAGCTGCTGAAGATGGAAAGCCTGTTGCACCAGCGCGTGATCGGCCAGGAAGAAGCCGTGGTGGCGGTCTCCAACGCCGTGCGTCGGTCCCGTGCCGGGTTGTCGGACCCTAACCGTCCGAGCGGCTCGTTCATGTTCCTCGGCCCGACCGGCGTGGGCAAGACCGAGCTGTGCAAGGCGCTGGCCGAATTCCTCTTCGACACCGAAGAGGCCATGGTGCGCATCGACATGTCCGAGTTCATGGAGAAACACTCCGTGGCCCGCTTGATCGGTGCGCCGCCAGGCTATGTCGGCTACGAAGAGGGCGGCTACCTGACCGAGGCCGTGCGGCGTAAACCCTACTCGGTGATCCTGCTCGATGAGGTCGAGAAGGCCCACCCGGATGTGTTCAACATCCTCTTGCAGGTCCTTGAGGACGGTCGCCTGACTGACAGCCACGGCCGTACGGTGGATTTTCGCAACACGGTGATCGTGATGACCTCCAACCTGGGCTCGACGCAGATCCAGGAACTGGTCGGCGATCGCGAGGCGCAACGCGCTGCGGTGATGGACGCGATTTCCACGCACTTCCGTCCCGAGTTCATCAACCGGGTGGATGAAGTGGTGATCTTCGAGCCGCTGGCCCGTGATCAGATCGCCGGTATTACCGAGATCCAGCTGGGTCGCCTGCGCAGCCGTCTCACCGAGCGTGAGTTGAAGCTGCAACTGAGCGACGAGGCGTTGGACAAGCTGATCGCGGTGGGTTACGACCCGGTCTATGGCGCACGGCCGCTGAAACGGGCCATCCAGCGCTGGATCGAAAACCCGTTGGCGCAGTTGATTCTGTCCGGCCGCTTCATGCCCGGCGAAACCGTGACCGGCACCGTGGAAAACGACGAGATCGTCTTCAACTGA	MRIDRLTSKLQLALSDAQSLAVGLDHPGIEPAHLMQAMLEQQGGSIKPLLMQVGFDVNSLRKELAKELDQLPKIQNPTGDVNMSQDLARLLNQADRLAQQKGDQFISSELVLLAAMDENSKLGKLLLGQGVSKKALENAINNLRGGDAVNDPNHEEARQALDKYTVDLTKRAEEGKLDPVIGRDDEIRRTIQVLQRRTKNNPVLIGEPGVGKTAIAEGLAQRIINGEVPDGLRGKRLLSLDMGALIAGAKYRGEFEERLKALLNELSKQEGQIILFIDELHTMVGAGKGEGSMDAGNMLKPALARGELHCVGATTLNEYRQYIEKDAALERRFQKVLVEEPSEEDTIAILRGLKERYEVHHKVAITDGAIIAAAKLSHRYITDRQLPDKAIDLIDEAASRIRMEIDSKPEVLDRLERRLIQLKVESQALKKESDEAAKKRLERLQEEIVRHEREYSDLEEIWNSEKAEVQGSAQIQQKIEQSRQELEAARRKGDLNRMAELQYGVIPDLERSLQMVDQHGKSENQLLRSKVTEEEIAEVVSKWTGIPVSKMLEGERDKLLKMESLLHQRVIGQEEAVVAVSNAVRRSRAGLSDPNRPSGSFMFLGPTGVGKTELCKALAEFLFDTEEAMVRIDMSEFMEKHSVARLIGAPPGYVGYEEGGYLTEAVRRKPYSVILLDEVEKAHPDVFNILLQVLEDGRLTDSHGRTVDFRNTVIVMTSNLGSTQIQELVGDREAQRAAVMDAISTHFRPEFINRVDEVVIFEPLARDQIAGITEIQLGRLRSRLTERELKLQLSDEALDKLIAVGYDPVYGARPLKRAIQRWIENPLAQLILSGRFMPGETVTGTVENDEIVFN	PGPT0014580_4681	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014580-clpB-K03695	NA	NA
D1-35_04891	1626			hypothetical protein	ATGTTTCTTCGTCAGTTGAATATCGCCCCCCGTGCCGCGCTGGGTTTCGCCTTGATCGCCGTGCTGGTGGCGCTGCTCGGCGTATTTGCGCTGGGGCAGATGTCGAGTATTCGCGACAGCGAGGTCGCGGTGGAAACCCAATGGCTGCCGAGCATCCGGGGCGGCGACGAGATCCGCGAATTGATGTTGCGCATCCGCACCATTTCCCTGCGCATGGCCCTGGATGAAGACCCGAAGAACATCCCGGTGTATCGCGGACAGATGGATACCCGCGACAAGGAACTGAGCGAGAAAATTGCCAGTTACGACAAGCTTGTGGTGACACCGGAAGGCAAGGCGCTCTACGAGCAGTTCAAGCAGACCTTCACCGCCTACCGCGCGGGGATCGCCCAGTCATTCACCCTGGCGGAGCAGGGGCGGCGGGATGAATTGATCAAGTTGTTGCTGGTGGACATGAAAACCGTGGTGGATGGCTCGGGCAAGCAGCTCAACGACCTTGCGCAACTGTTTTCCAAACAGGTGTCCATCGAGAGCCAGAAATCCCAGGAGCACTACGTCAACTCGCGGATGATCGTCAGTCTGTTCGTGGTGCTGGCGGCTCTGGCCACGGTGGTCCTGGCAATGTTGCTGACCCGCAGTATCGTCAAGCCGCTGGGCGAGGCGCTGACTGCCGCGGAGAGTGTGGCCCGCGGTGACCTGACCCGGCCGATCGAGACCCATGGCAATGATGAAGTGAGTCGCCTGCTCAAGGCGTTGGCCACCATGCAGCAGAACCTTCGGCAAACCCTGCTGGGCATCAGCGGCTCGGCGACGCAACTGGCGACCGCTGCCGATGAATTGAACGCCGTCACGCTCGACAGTACTCAAAGCCTGCAACAGCAGAACAACGAAATCGAGCAGGCCGCCACTGCGGTCACCGAAATGACTACCGCCGTGGAAGAGGTCGCGCGCAACGCGGTGTCCACCTCCGATGCGACACGCCAATCCAGCGAGTCGGCGATGTTGGGCCAGGAACGGGTCAGCGATACCGTCAACGCGATCAGCGCCCTCGCCAGCGATGTGCAAATCACCGGCGGTCTGGTGCAATCCCTGGCCAGCCAGTCCCAGGACATCGGCAAGGTGCTGGATGTGATCCGGGCTATTGCCGAGCAGACCAACCTGTTGGCGCTCAACGCGGCCATCGAAGCGGCGCGGGCGGGAGAGAGCGGCCGTGGTTTTGCCGTCGTCGCCGACGAAGTCCGGGCATTGGCCTATCGCACGCAGCAATCGACCCAGGAAATCGAGCAGATGGTCCAAGGCATGCGCAGCGGTGCCACCCAGGCCCTGGATTCCATGCAGGCCAGCTCCAGCCGTGCGGCCAGTACCCTGGCAATGGCCGAGCGCGCGGGGGAGGCGCTGCAAACCATTACGGCGTCGGTGCATCAGATCCACGAGCGCAACCTGGTGATCGCCAGCGCCGCCGAAGAGCAGGCGCAGGTGGCCCGCGAGGTGGATCGCAACCTGGTCAATATTCGTGATTTGTCCGTGCGCTCGGCCACTGGGGCCGACCAGACCAGCGCGTCCAGCCATGAACTTTCGCAGTTGGCGAACTCGCTGCGCACGATGGTGCAGCGGTTTCAGGTTTGA	MFLRQLNIAPRAALGFALIAVLVALLGVFALGQMSSIRDSEVAVETQWLPSIRGGDEIRELMLRIRTISLRMALDEDPKNIPVYRGQMDTRDKELSEKIASYDKLVVTPEGKALYEQFKQTFTAYRAGIAQSFTLAEQGRRDELIKLLLVDMKTVVDGSGKQLNDLAQLFSKQVSIESQKSQEHYVNSRMIVSLFVVLAALATVVLAMLLTRSIVKPLGEALTAAESVARGDLTRPIETHGNDEVSRLLKALATMQQNLRQTLLGISGSATQLATAADELNAVTLDSTQSLQQQNNEIEQAATAVTEMTTAVEEVARNAVSTSDATRQSSESAMLGQERVSDTVNAISALASDVQITGGLVQSLASQSQDIGKVLDVIRAIAEQTNLLALNAAIEAARAGESGRGFAVVADEVRALAYRTQQSTQEIEQMVQGMRSGATQALDSMQASSSRAASTLAMAERAGEALQTITASVHQIHERNLVIASAAEEQAQVAREVDRNLVNIRDLSVRSATGADQTSASSHELSQLANSLRTMVQRFQV	PGPT0015710_21371	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
D1-35_04892	1299	ndh	COG1252	NADH dehydrogenase	ATGACTCATCGTATTGTCATCGTTGGCGGCGGCGCCGGCGGTCTGGAGTTGGCTACCCGTCTGGGTAAGACTCTGGGCAAGCGTGGCACGGCCAGTGTGATGCTGGTCGACGCGAACCTGACCCACATCTGGAAACCCTTGCTGCACGAAGTGGCCGCCGGTTCCCTGAATTCTTCCGAAGACGAACTCAACTATGTCGCCCAGGCGAAATGGAACCACTTCGAGTTCCAGCTCGGGCGCATGAGCGGCCTGGACCGTGAGCGCAAGCGCATCCAGTTGGCCGCCACCTACGACGAAGCAGGCCTGGAGTTGTTGCCGGCCCGCGAGCTGGGCTACGACACGCTGGTGATCGCGGTCGGTAGCACCACCAATGATTTTGGCACCGACGGCGCGGCGCAGCATTGCCTGTTCCTCGACACTCGCAAACAGGCCGAGCGCTTCCATCAGCAGTTGCTGCACCACTATCTGCGCGCCCATGCCGGGCAGACTGACGTGGTCGAGCGCATCAGCGTCGCGATTGTCGGCGCGGGCGCCACCGGTGTCGAACTGGCAGCCGAGCTGCATAACGCCGCCCACGAGTTGCACGCTTATGGCCTCGACCGGATCAAACCGGAAAACATGCACATCACTCTGATCGAGGCCGGTCCGCGGGTCTTGCCGGCGCTGCCGGAGCGGATCGGCGGGCCGGTGCACAGGACCCTGGAAAAACTCGGGGTCAAGGTCATGACCAACGCGGCCGTCAGCCAAGTGACCGCCGACAGCCTGATCACTGCGGATGGCAAAGTCATCGACGCGAGCCTGAAAGTCTGGGCCGCCGGGATTCGCGCGCCGGAGTTCCTCAAGGACATCGACGGCCTGGAGACCAACCGGATCAATCAGTTGCAGGTGCTGCCTACACTCCAGACCACCCGCGACGAGAATATCTTCGCCTTTGGCGACTGCGCCGCCTGCCCGCAACCGGACAGCGACCGCAACGTTCCGCCCCGCGCCCAGGCCGCGCACCAGCAGGCCTCGCTGTTGGCGAAATCGCTGAAGCTGCGGATCGAAGGCAAGGCCTTGCCTGACTACAAATACACCGACTACGGCTCGCTGATCTCACTGTCGCGCTTCTCGGCAGTCGGCAACCTGATGGGCAACCTCACCGGCAGCGTGATGCTTGAGGGCTGGCTGGCGCGGATGTTCTACGTGTCGCTGTACCGCATGCATCAGATGGCGCTTTACGGCATGTTCCGCACGGCGATGCTGATGCTGGGCAGCAAGATAGGGCGTGGGACCGAGCCTCGGTTGAAGTTGCATTGA	MTHRIVIVGGGAGGLELATRLGKTLGKRGTASVMLVDANLTHIWKPLLHEVAAGSLNSSEDELNYVAQAKWNHFEFQLGRMSGLDRERKRIQLAATYDEAGLELLPARELGYDTLVIAVGSTTNDFGTDGAAQHCLFLDTRKQAERFHQQLLHHYLRAHAGQTDVVERISVAIVGAGATGVELAAELHNAAHELHAYGLDRIKPENMHITLIEAGPRVLPALPERIGGPVHRTLEKLGVKVMTNAAVSQVTADSLITADGKVIDASLKVWAAGIRAPEFLKDIDGLETNRINQLQVLPTLQTTRDENIFAFGDCAACPQPDSDRNVPPRAQAAHQQASLLAKSLKLRIEGKALPDYKYTDYGSLISLSRFSAVGNLMGNLTGSVMLEGWLARMFYVSLYRMHQMALYGMFRTAMLMLGSKIGRGTEPRLKLH	PGPT0004020_2904	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
D1-35_04893	174			hypothetical protein	ATGACCAGTCGCCTGAACCCAGAAGACCAGAAGCATGTCGAAGAGTACCTGCAACTGTCCCAGCACCGAGTCGAGCGCCGGCCTTTCCGGCCGTGGATGCTCCTGGTGGTGGTGCTGGCCATCACGATTGGCCTGGGCCTGTTGAGCCGATTGATCAGTTACCTGACGCTATGA	MTSRLNPEDQKHVEEYLQLSQHRVERRPFRPWMLLVVVLAITIGLGLLSRLISYLTL				NA	NA	NA	NA	NA
D1-35_04894	528			hypothetical protein	TTGAGCCCGTTACAGGAACTGATCGCCGCCGTGCCGCAGCGGGGCCGGGTACGCTGGATCGGCGTGCGCCCCGCAGGGCATGCACCGATGATCGAGCTGGACGCCGTCGAGGCACGACTGGAAGCCGGCCTGACCGGCGATCACGCTCGCCCAGGCGTGCGTAATGCGCGGCAAGTGACGTTGATCCAATGGGAACACCTGGCCGTGATCAGCTCGCTGATGGGCCGTCCCGAGGAACAACCGGTGCGTCCCGAGGAGCTGCGCCGCAACATTGTGGTCAGCGGCATCAACCTGTTCAGCCTCAAGGGCCGGCGTTTTCGCATCGGCCAGGCGATCTTCGAAACCACCGGCTGGTGCCAACCCTGCGCGCGACTTGAGCGAAATCTTGGCGAAGGCACGTTCCAGGCCGTACGCGGCCATGGCGGAATCACCGCCCGGGTGTTAAAAAGTGGAATCGTTCGCCTGGACGACAGCCTGATCGTCGAGCCCGTCCCGGCAACCGGCTACGCTGCTTTTAATGCCGGATAG	MSPLQELIAAVPQRGRVRWIGVRPAGHAPMIELDAVEARLEAGLTGDHARPGVRNARQVTLIQWEHLAVISSLMGRPEEQPVRPEELRRNIVVSGINLFSLKGRRFRIGQAIFETTGWCQPCARLERNLGEGTFQAVRGHGGITARVLKSGIVRLDDSLIVEPVPATGYAAFNAG				NA	NA	NA	NA	NA
D1-35_04895	627			hypothetical protein	ATGGATGATTCCGATTATTTACGCTTGTTGACCATCGCGGCCGAGCAAGCCAACGCCTTTCTCTCCAATGCCCGCAAATGGGAGCGTGAGCGTTGGGTCTGCCAGCGCCTGCTGCAAGGGCTCAACGTGCCCTATCGAGCCGATGAGTTCGCGCCCGCCGGGGAGCCGCCGGACGTGTTGTTTCGCGACGCCAATTTCGAAGTGTTTTTTGTCCTCGATGAAGGCCGTCGTCTCAATGATGAATGGCGCGACGAACTGCAACGCCGCCGTAGCGCCTTTTCCCTAAGCCAACTGGTGCGTCGCGAGGCCAAGCCAAGACGGATTCCGGCCAACGAGTTCCTGATGAGACTGGCCCCGACCCTGCGCAAGAAAGCCCATAACTACACCGAGCGCGGCATGGACCTGGGGGAGCTGGATATCATTGCTTTCGCCAGCCTCAAGCGCGAAGTCCTCGACCTCAACAGCCATTTCCCGCCGCCTACCGAGTACCTGCGCCAAGGGTGGCGCTCGTTGTCGCTGGTGGGCCCGACCTTTGCCCGCGTGCTGTTCGCCCATCCCGATGCACCCGACTTCCTGCGGGGCAACCTGGGCCGCAGCATCGTCTTCGATGTGGGGATCAGCCTTTGA	MDDSDYLRLLTIAAEQANAFLSNARKWERERWVCQRLLQGLNVPYRADEFAPAGEPPDVLFRDANFEVFFVLDEGRRLNDEWRDELQRRRSAFSLSQLVRREAKPRRIPANEFLMRLAPTLRKKAHNYTERGMDLGELDIIAFASLKREVLDLNSHFPPPTEYLRQGWRSLSLVGPTFARVLFAHPDAPDFLRGNLGRSIVFDVGISL				NA	NA	NA	NA	NA
D1-35_04896	687			hypothetical protein	ATGATCGGTGCCGAGTTGCTCTCCTCGCAGACCCTGGCGGTTGGCTGGCTGATCTACGTGCCGGTGTTGGCCTGGGCGGTGGCGAAGGCACCGTGGGTCGAGCTGTTTACCGACATTCGCCGCCAGCACCTGCTGTTCGGCACGGTATTCGCGCTGTTCATGTTGTGGATGGTGCGACGGGATTTCGATACGGGGGTCTCGTACCACTTCATTGGCCTGACCGCCGTCACCTTGTTGCTGGACTGGCCGCTGGCGATCCTTGGCGGGTTATTTGCCCAGCTTGCGCTGGTGCTGTTGGGGCGCCAGGACATGATGGCCGTCGGGGTCAATGGCGCGCTGCTGGTTCTCCTGCCGGTACTGGTCACGGAATGCTGCGCGATACTGGTGGAGCGTGCCCAGCCGCGCAATCTGTTCGTGTATATCTTCTGTTCGGGATTCCTCGCCGCCGCCCTGTCGGCGCTGGCGTGCCTGCTGGTGGGGCTTGGCCTGCTGTGGCATGACGGCATTTTCGCGATGCCTTATTGGCTGGAGGATTTCATCGGCTATCTCTGGCTGATGATCTTTCCCGAGGCCTTCATCAACGGCATGGTGGTCAGCGCGCTGGTGGTGTTCAGCCCCGAATGGCTGGAAACCTTCAACCGTACGCGCTACCTGTCGGCCCCCTGGAACGATGACGACAAGCCTTGA	MIGAELLSSQTLAVGWLIYVPVLAWAVAKAPWVELFTDIRRQHLLFGTVFALFMLWMVRRDFDTGVSYHFIGLTAVTLLLDWPLAILGGLFAQLALVLLGRQDMMAVGVNGALLVLLPVLVTECCAILVERAQPRNLFVYIFCSGFLAAALSALACLLVGLGLLWHDGIFAMPYWLEDFIGYLWLMIFPEAFINGMVVSALVVFSPEWLETFNRTRYLSAPWNDDDKP				NA	NA	NA	NA	NA
D1-35_04897	207	yacG	COG3024	DNA gyrase inhibitor YacG	ATGAGCCAAACCCCAACCGTTGATTGCCCAACCTGCGGCGCCCCTGTCGAATGGACCTCGGAAAGCAAATTCCGGCCGTTCTGCTCCGATCGCTGCAAGCTGATCGACCTGGGCGCCTGGGCGTCGGAGGAACACAAGATCCCGGTCGCACCGGATGCCGAGGATGAATTGTTCAGCGAAGACTTCAACCCTCGCTCCCATCACTAG	MSQTPTVDCPTCGAPVEWTSESKFRPFCSDRCKLIDLGAWASEEHKIPVAPDAEDELFSEDFNPRSHH				NA	NA	NA	NA	NA
D1-35_04898	624	coaE	COG0237	Dephospho-CoA kinase	ATGAACAGCTCTGCGAAAAAACCCTGGATCCTCGGCCTGACCGGTGGCATCGGCAGCGGCAAGAGTGCGGCGGCCGAGCACTTCATCGACCTGGGTGTGCACGTCATCGACGCCGACCATGCGGCGCGCTGGGTCGTTGAGCCCGGGCGCCCGGCGCTGGAAAAGATCAGCGAACACTTCGGCCCTGGTGTATTGCAGGCAGACGGTACGCTCGATCGGGCAGCACTGCGCAGGCTCATCTTCGAAAATGCCGAGGAACGCCGCTGGCTGGAGGCATTGCTGCATCCGCTGATCGCCGAAGAAATCGTCCATCACCTGGGCCAGGCGCAATCGCCGTACGCGATTCTGGTATCGCCACTGCTGATCGAATCCGGGCAGTACGCGATGACCCAGCGGATCCTGGTGATCGACGCTCCGGAACAATTGCAGATCGAACGCACCTTGCAGCGCGACCAGACCAGCGAACAGCAAGTCCAGGCGATCCTCAAAGCCCAATCCAGTCGCCAGGACCGTCTGAGCAATGCCGACGATGTGGTGGTCAACGACCGCGACCTCGCCTGGCTGCACAGCGAGGTCGAACGCCTGCATCACTTCTACCTTACTTTGCGTGGAGGCCAACCATGA	MNSSAKKPWILGLTGGIGSGKSAAAEHFIDLGVHVIDADHAARWVVEPGRPALEKISEHFGPGVLQADGTLDRAALRRLIFENAEERRWLEALLHPLIAEEIVHHLGQAQSPYAILVSPLLIESGQYAMTQRILVIDAPEQLQIERTLQRDQTSEQQVQAILKAQSSRQDRLSNADDVVVNDRDLAWLHSEVERLHHFYLTLRGGQP	PGPT0008835_1448	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
D1-35_04899	870	outO		Type 4 prepilin-like proteins leader peptide-processing enzyme	ATGCCCCTGAGCGAATTTTTCGTGCTTTACCCGCTGGCCTTCGTACTGACAGCGCTGCTGCTCGGGTTGATCATTGGCAGCTTTCTCAACGTGCTGGTGTGGCGCCTGCCGAAGATGCTCGATCGCGAATGGCGCCTGCAAGCCCAGGACTTGCTCGGCCTGCAGGCCGACGCCCCCGGTCCGGTCTACAACCTGATGCTGCCCCACTCCCAGTGTCCCCATTGTGGCCATCGCATCCGCGCCTGGGAAAATATTCCGCTGTTGAGCTACCTGATGTTGCGCGGCCGCTGTTCCAGCTGCGCCGTGCCCATCGGCAAGCGCTACCCGCTGACCGAACTGGCCTGTGGCGTCCTGTCGGCATTCATTGCCTGGCATTTCGGCTTCGGCTGGCAGGCCGCCATGGCGATGCTGCTGAGCTGGGGCCTGCTGTCCATGAGCCTGATCGACGCCGAGCACCAGTTGCTGCCCGATTCCCTGGTGCTGCCATTGTTATGGCTGGGCTTGATTGTCAACAGCTTCGGGCTGTTCGTCTCGCTGAACCAGGCATTGTGGGGGGCGGTGGCCGGCTATCTGGCGCTGTGGTCGGTGTTCTGGGTCTTCAAGCTGCTGACCGGGAAAGAAGGCATGGGCTACGGCGACTTCAAGCTGCTGGCGATGCTCGGTGCCTGGGGCGGCTGGCAGATCCTGCCGCTGACGCTGCTACTGTCGTCGCTGGTGGGCGCCATTATCGGCGTCATTGTGCTGCGCACGCGCGGCGCGCCGACGTCGACCCAGATCCCGTTCGGACCTTATCTGGCGATTGCCGGCTGGATTGCCTTGCTCTGGGGTGGTCAAATAACCGACTTCTATTGGCAGTCAGTCGGTTTCTAA	MPLSEFFVLYPLAFVLTALLLGLIIGSFLNVLVWRLPKMLDREWRLQAQDLLGLQADAPGPVYNLMLPHSQCPHCGHRIRAWENIPLLSYLMLRGRCSSCAVPIGKRYPLTELACGVLSAFIAWHFGFGWQAAMAMLLSWGLLSMSLIDAEHQLLPDSLVLPLLWLGLIVNSFGLFVSLNQALWGAVAGYLALWSVFWVFKLLTGKEGMGYGDFKLLAMLGAWGGWQILPLTLLLSSLVGAIIGVIVLRTRGAPTSTQIPFGPYLAIAGWIALLWGGQITDFYWQSVGF	PGPT0015925_790	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015925-pilD-K02654	NA	NA
D1-35_04900	1218	epsF_1	COG1459	Type II secretion system protein F	ATGGCGGTCAAGGCAGCAAAAACCGACGTCTACACGTGGGAAGGCAAGGACCGCAAAGGCACAAAAATGTCCGGCGAACTGACCGGCCAGAGCCCGGCATTGGTCAAGGCACAGCTGCGTAAGCAAGGGATCAATCCGGGCAAGGTACGCAAGAAATCCACCTCGATATTCAGCAAGGGCAAACGCATCAAGCCGCTGGATATCGCGCTCTTCACCCGCCAGATGGCGACGATGCTCAAGGCCGGCGTTCCTCTGCTGCAGGCATTCGACATCATCGGCGAAGGCTTCGACAACCCCAACATGCGCAAGCTGGTGGACGAGGTGAAGCAGGAAGTCGCCGCGGGCAACAGCTTCGCCGCCTCGCTGCGCAAATGCCCGCAGTATTTCGACGAGTTGTACTGCAACCTGGTGGATGCCGGTGAGCAGGCCGGTGCCCTGGACACGCTGCTCGACCGAGTCGCGACCTACAAGGAAAAGAGCGAAGCCCTGAAGGCCAAGATCAAGAAAGCCATGACCTACCCTGCCGCGGTAATCGCCGTCGCGGCGGTGGTCACCAGCATCCTGCTGATCAAGGTCGTGCCGCAGTTCGAGTCGGTATTTTCCGGATTTGGCGCAAAATTGCCGGCCTTCACGCTGATGGTCATCGGCTTGTCGGAGTTCCTGCAAGACTGGTGGTGGGTGCTGCTTGGCGGAGTGGTGGGCGGATTTTTCGGGGTGAAATATGCCCTCAAGCGCTCCCAGGCGTTTCGTGACTGGCGAGACAAGTGGCTGCTCAAGCTGCCCTTGGTCGGGACCTTGATGTACAAGTCCGCCGTGGCGCGTTATGCGCGCACGCTCTCGACCACGTTCGCCGCCGGCGTGCCGCTGGTCGAAGCCCTTGACTCCGTCTCGGGCGCCACCGGTAACGTGGTATTCAAGCGTGCCGTGCAGCGGATCAAGCAGGACGTCTCGACCGGCATGCAGTTGAACTTCTCCATGCGCACCTCAGGCATTTTTCCGAACCTGGCGATCCAGATGACCGCCATTGGCGAAGAGTCCGGTGCGCTGGATGACATGCTCGACAAAGTGGCGAGTTTTTATGAGGCCGAAGTGGATAATCTGGTGGACAACCTCACCAGCCTGATGGAACCCTTCATCATGGTGATCCTGGGGGTGGTCGTCGGCGGCCTGGTGGTTGCCATGTACATGCCCATCTTCCAACTCGGCTCTGCGATCTGA	MAVKAAKTDVYTWEGKDRKGTKMSGELTGQSPALVKAQLRKQGINPGKVRKKSTSIFSKGKRIKPLDIALFTRQMATMLKAGVPLLQAFDIIGEGFDNPNMRKLVDEVKQEVAAGNSFAASLRKCPQYFDELYCNLVDAGEQAGALDTLLDRVATYKEKSEALKAKIKKAMTYPAAVIAVAAVVTSILLIKVVPQFESVFSGFGAKLPAFTLMVIGLSEFLQDWWWVLLGGVVGGFFGVKYALKRSQAFRDWRDKWLLKLPLVGTLMYKSAVARYARTLSTTFAAGVPLVEALDSVSGATGNVVFKRAVQRIKQDVSTGMQLNFSMRTSGIFPNLAIQMTAIGEESGALDDMLDKVASFYEAEVDNLVDNLTSLMEPFIMVILGVVVGGLVVAMYMPIFQLGSAI	PGPT0015920_1052	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015920-pilC-K02653	NA	NA
D1-35_04901	1701			hypothetical protein	ATGAATGACATTGCCCTCAGCGGCCTGGCCAAGCAACTGGTGCTGGCCGAACTGATCACTGAACAAAGCGCACAGCAGGCCTATCAACAGGCGCAGCGCAATCGCACGCCCCTGGTCAGCTATCTGGTGCAGAACAAACTCGTCCAGAGCCGCCAGGTGGCGGAAATCGCCTCGGAGCATTTTGGTATCGCCCTGCTGGACCTCAACAGCCTCGACAAGGACAACCAGCCCGCTGGCCTGGTCAGCGAGAAACTCGTGCGCCAGCATCACGCCCTGCCCCTGTGGCGGCGTGGCAACAAGCTGTACGTGGGCATTTCCGATCCGACCAATCACCAGGCCATCAACGACATACAGTTCAGCACCGGCCTGACCACCGAAGCCATACTGGTGGAGGACGACAAGCTCAGCGATGCCATCGAGAAGTTCTTCGAGTCCAGCAGCACGGGCCTGGAAGGCATGGCCGACGTCGACCTCGACGGCCTCGACATCGAGTCGATCGACGACCGCAAGCAGGATGCCATCGCCGGCCAGGACGGCGACGATGCGCCGGTGGTGCGCTTCGTCAACAAGATGTTGCTGGATGCGATCAAGGGCGGCTCTTCCGACCTGCACTTCGAACCCTATGAAAAGACCTATCGGGTACGCGTGCGCACCGACGGTATGCTGCGGGAAGTCGCAAAGCCGCCCATCCAACTGGCCAACCGCATTGCCGCGCGCCTCAAGGTGATGGCGAGCCTGGACATTTCCGAACGGCGCAAGCCCCAGGACGGACGGCTGAAGATGCGCCTGTCAAAGACCAAGTCCATCGATTTCCGGGTCAACACCCTCCCCACGCTTTGGGGAGAAAAAGTGGTGATCCGGATCCTCGACCCCTCAAGCGCGCAAATGGGCATCGACGCCCTGGGCTACGAACCGGAACAGAAAGACCTGTACATGGCGGCCCTCAAGCAACCCCAGGGGCTGATTCTGGTAACCGGGCCGACCGGCTCGGGCAAGACCGTGTCGCTGTATACCGGCTTGAACATCCTCAACACCGTGGACATCAATATTTCCACCGCCGAGGACCCGGTGGAAATCAACATGGAAGGCATCAACCAGGTCAACGTGAATCCGCGCCAGGGGCTGGATTTCGCCCATGCACTGCGCTCGTTCCTGCGCCAGGACCCGGACGTGATCATGGTCGGCGAGATCCGCGACCTGGAAACCGCCGAGATCGCCATCAAGGCGGCCCAGACCGGGCACCTGGTGCTGTCCACGCTGCACACCAACAGCGCTGCCGAAACCCTGATCCGGCTACAGAACATGGGCATCCCCGGTTTCAACATCGCCACGGCAGTGCACCTGATCATCGCCCAGCGCCTGGCGCGCAAGTTGTGCATGCACTGCCGCAGAGCCATCGAGATTCCCGAGGAAACCCTGCTCAAGGAGGGCTTCCCGCGGGAACGCATCGGCTCATTCACGATCTATGAGCCGGTCGGTTGCGAACAGTGCAACAACGGCTACAAGGGTCGCGTGGGGGTCTACGAAGTGGTCAAGAACACGCCGGAGCTGCAGCGGCTGATCATGGCCGAAGGCAACTCCCTGGAAATCGACCTGCAAATGCGCAAGGACGGCTTCAATGACTTGCGCACCTCGGGGCTGGTCAAGGTGATGCAAGGCGTCACCAGTCTCGAAGAAATCAACCGGGTCACCAAGGATTGA	MNDIALSGLAKQLVLAELITEQSAQQAYQQAQRNRTPLVSYLVQNKLVQSRQVAEIASEHFGIALLDLNSLDKDNQPAGLVSEKLVRQHHALPLWRRGNKLYVGISDPTNHQAINDIQFSTGLTTEAILVEDDKLSDAIEKFFESSSTGLEGMADVDLDGLDIESIDDRKQDAIAGQDGDDAPVVRFVNKMLLDAIKGGSSDLHFEPYEKTYRVRVRTDGMLREVAKPPIQLANRIAARLKVMASLDISERRKPQDGRLKMRLSKTKSIDFRVNTLPTLWGEKVVIRILDPSSAQMGIDALGYEPEQKDLYMAALKQPQGLILVTGPTGSGKTVSLYTGLNILNTVDINISTAEDPVEINMEGINQVNVNPRQGLDFAHALRSFLRQDPDVIMVGEIRDLETAEIAIKAAQTGHLVLSTLHTNSAAETLIRLQNMGIPGFNIATAVHLIIAQRLARKLCMHCRRAIEIPEETLLKEGFPRERIGSFTIYEPVGCEQCNNGYKGRVGVYEVVKNTPELQRLIMAEGNSLEIDLQMRKDGFNDLRTSGLVKVMQGVTSLEEINRVTKD	PGPT0015915_1234	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015915-pilB-K02652	NA	NA
D1-35_04902	354			hypothetical protein	ATGAAGAAGTTCGCTATCACTGCCGCTGCTGCCACTGCACTGACCCTGACCATGGCTAACGCATTTGCCGAAACCACTCAAGCGACTCAGGCACCGATGATGCTGGCTGCTGGCGAAGTGACAGAGGCTAAGGAAGACGTTTCCGACACCTGGATCACCACCAAGGTCAAAGCTGACCTGGTCACCGAGAAAGGCATTCCAGGCTCCGACATCAAGGTTGAAACCAACAAGGGCGTTGTGTCCCTGTCTTCTATGACCAAAGTCACTGACGCACAAAAAGACACCGCTGTGGCAATCACCAAGAAAATCAAAGGCGTCAAAGCCGTATCGGCTGACGGCCTGAAAGCCGAGTAA	MKKFAITAAAATALTLTMANAFAETTQATQAPMMLAAGEVTEAKEDVSDTWITTKVKADLVTEKGIPGSDIKVETNKGVVSLSSMTKVTDAQKDTAVAITKKIKGVKAVSADGLKAE	PGPT0013305_1291	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013305-osmY-K04065	NA	NA
D1-35_04903	303			hypothetical protein	ATGAAAATGAAGTGTCTGTCTGGAATCGGCCTGGTCCTGCTGCTTGCGAGCGGCCATGCATCAGCCGCCGAGACCCTGCGCTGCGGCAGCCAATTGATCAGCGTCGGTGATCGCTCCAGCGAGGTGCTGCAGAAGTGTGGCGAGCCCACGGCGCGCGATGACCTGGGCTACCAACGCAGCGCCAATCGCCGGAATGAGTACCCGGTGGAGGAATGGACCTACGGGCCCAACAACGGCATGTACCAATACTTGCGCTTCGTGGGGAATCGGCTGGTGGAGATCACCAGCAAGCGTGGGCGGTGA	MKMKCLSGIGLVLLLASGHASAAETLRCGSQLISVGDRSSEVLQKCGEPTARDDLGYQRSANRRNEYPVEEWTYGPNNGMYQYLRFVGNRLVEITSKRGR				NA	NA	NA	NA	NA
D1-35_04904	2934			hypothetical protein	ATGCCCAAAGGATTGATTCGCGCTTTCGGCGCCCTGTTGACCGCACTGGCCCTCTACAGTCTGTTGGGTTTTCTGATACTGCCGGGCATTGCCCTGCGGATCGCCAATCAGCAACTGGCCGCCCATGCGACGGTGCCGGCCCAGATCCAGCGCATCGAGCTCAATCCTTTCAGCCTTGAAGTGACCTTGTGGGGACTGGTGGTCGGCGAACCTGGCAAGGAACAGGTCGGTTTCGAACGGCTCTATGCCAACCTGCAACTCGACAGTCTGTGGTCCGGCGCCCTGCACCTGGCCGACGTCGAGCTGGACAAGCCCAGGACCGAGATCGCGTTCGCCAAGGACGGCCAGCTGAATCTGCTGGGCCTGTTCAAGCTGCCGCCCAGCGAACCGACTCCGGCGGATCCCGACGCCAAGCCGTTTCCCTTGCGAATCGAGCGGATCAAACTGGCCAGCGGCTACGTGCACTTCCAGGACCTGCGCCCCAGCGAACCCATCGAGTTCCTGTATGACACCCTCGACTTCGAGCTGAAGAACCTCAGCACCCTGCCCGACGACAGCGCCGACATGACCCTGGTGGCCGTCGGTCCCGAGGGTGGGCAGATCGACTGGACCGGTAACTTCAGCCTCGCGCCGATCGCCTCCGAGGGCACGCTCAAGGTGACCGGGGGCCAGATGAAAGCCTGGTGGCCCTACGTGCGAGACGCAGTGCCGCTCGTTCTGGAAAACGGCGTGCTGAACCTCAGCACCGAGTACAAGCTCAACCTCGCCAAGGGCACGGAGCTGCTGCTCAACAACGCGTCGGTCAGCGTCGCGCCCTTCGCCATCAAGGCGCCCGACGGCCGTCCGCTGGCAAGGCTGGAGCGCCTGGAGGTCAGCGAAACCTCGCTGGACCTGGGCAAGCAGCAGGTCATCGTGGGCAAGATCCGCAGCCACAAACTCGAGACCTGGGCCGCTCGGGAAGCCGACGGGCAGTTGGACTGGCAGAAGCTCTTCGCCAGCCAGGCAGCCAAACCCAAGGTCAAGGCCGAACCGGCCTCGGCCCCGGCAGCCGCCGACTCGCCCAAGCCTGAGCCGACAACACCGAGCAAGCCTTGGCAGGTGATGCTGAAGGACGTGCAACTGCGCGATTACCAGATACACCTGGCCGACCGCCAGGCGCAGCCGGCCGTGGCCCTGGACCTCGGCCCGCTGAATCTCGACCTGCAGAACTACGACACACTCAACGGCTCGCCCTTCAAACTCAAGCTGGACACCGGGCTGGGCAAACAAGGCAAGCTGCTCGCCGATGGCGAGGTCAATCTGAACCCGGTTACCGCGAAGCTCAACGTCAAGACCCAGGACATCGACCTGCGGGTCGCCCAGGCCTACATCAACCCGTTCATCCGCCTGGAGCTACGCTCCGGGATGCTCGGCAGCGATCTGGCGGTAGACCTGAAAAGTACCGAACCGCTGGCGTTCGCCGTGACCGGCCGCGCCCAGGTCGATCAGTTGCATACCCTCGACACACTCAAGACCCGTGACTTCCTCAAATGGCAGCGCCTGGAACTCCAAGGCCTCAATTACCAGCATGGCGACAGCCTGTCGATCGACAAGGTCAACCTGTTCCAGCCCTATGCACGCTTCATGATCAACGACGATCGCACCACTAACGTCGACGACCTGCTGATTCCACAACCTGCCGACGCCCCGGCCAGAAACACCGCGGCCAAACCGGCACCCAAGGAAAAACCGCTGGGGATTCATGTCGGCGGAATCGCCATCAACGACGGTTCGGCCAATTTCGCCGACTTCAGCCTGACGCCGAACTTCGCCACAGCCGTCCAGCAGCTCAACGGCGAGATCGGCACCATCGACAGCCGCCAGGCCAAGCCCGCCACCGTCGATGTGAAAGGCAAGGTCGATCGCTACGCGCCTGTCACGATCAAGGGCGCGGTCAACCCTTTCGACCCGATGGCCAGCCTCGATATCGCCACCAGTTTCAAACGGGTCGAGCTGACCACCCTGACGCCGTACTCCGGCAAGTTCGCCGGCTATCGCATCCGCAAGGGCCGGCTCAATCTCGACCTGCATTACCGGATCACCAAGGGCCAGCTCCAGGCCGACAACAAAGTCGTGGTCGAACAGTTGCAACTAGGGGAAAAGGTCGACAGCCCGGACGCCGTGAGCCTGCCGCTCAAGCTCGCCGTCGCCCTGCTGAAAGATTCCGAGGGCAGGATCTCCATCGAGCTGCCGGTTTCCGGCAACCTCAACGACCCGCAGTTCAGCGTCATGCCGATTGTCTGGCAAACCTTGCGCAACCTGGTGGTCCGCGCGGCACAAGCGCCGTTCAAGCTGATCGGCGGGCTGGTGGCCGGCGGCGGCTCGGAAGACCTGGGCAGCGTGGCGTTCGCACCGGGCTCCAGTGACCTCAGCAAGGAAAACGAAAATGCTCTGCTCAAGTTGTCCGAAGCCCTGGGCAAACGGCCAGAGCTGAAGCTGGAGATCGAAGGCACCGCCGCCGAAAGCAGCGACGGCCCGCTGCTCGCCGCCCAGCGCTTGGAACGCGAATACCAGTACAACTACTACAAGATGCTGCAGCGCAGGGGCGACAAGGTCCCGGCGAAAGCTTCGTTGCTGGAAGTACCGGAAGACGAAAAAGCCCCGCTGCTTGAAGGCATCTATCGCACCCGCCTGAAGACTCAACCACCGGCCGAATGGACGCAACTGGATAAACAGGCCCGCATCGAAAAACTCCGTGAAGGGGTCATCAAGTTCTGGAGCGGCAGTGATCTGCTGTTGCGCGAACTGGGACAGGAACGGGCCAGCAGCATCAAGGACTTCCTGGTGGACAAGGGCAAGCTGGCCGATGACCGCGTGTACTTCATCGACGCCAGCCTCGGTCAGGCCGAAAGCGACGGTAGCGTCATTACTCCTATGCATCTGGATGCCGAATGA	MPKGLIRAFGALLTALALYSLLGFLILPGIALRIANQQLAAHATVPAQIQRIELNPFSLEVTLWGLVVGEPGKEQVGFERLYANLQLDSLWSGALHLADVELDKPRTEIAFAKDGQLNLLGLFKLPPSEPTPADPDAKPFPLRIERIKLASGYVHFQDLRPSEPIEFLYDTLDFELKNLSTLPDDSADMTLVAVGPEGGQIDWTGNFSLAPIASEGTLKVTGGQMKAWWPYVRDAVPLVLENGVLNLSTEYKLNLAKGTELLLNNASVSVAPFAIKAPDGRPLARLERLEVSETSLDLGKQQVIVGKIRSHKLETWAAREADGQLDWQKLFASQAAKPKVKAEPASAPAAADSPKPEPTTPSKPWQVMLKDVQLRDYQIHLADRQAQPAVALDLGPLNLDLQNYDTLNGSPFKLKLDTGLGKQGKLLADGEVNLNPVTAKLNVKTQDIDLRVAQAYINPFIRLELRSGMLGSDLAVDLKSTEPLAFAVTGRAQVDQLHTLDTLKTRDFLKWQRLELQGLNYQHGDSLSIDKVNLFQPYARFMINDDRTTNVDDLLIPQPADAPARNTAAKPAPKEKPLGIHVGGIAINDGSANFADFSLTPNFATAVQQLNGEIGTIDSRQAKPATVDVKGKVDRYAPVTIKGAVNPFDPMASLDIATSFKRVELTTLTPYSGKFAGYRIRKGRLNLDLHYRITKGQLQADNKVVVEQLQLGEKVDSPDAVSLPLKLAVALLKDSEGRISIELPVSGNLNDPQFSVMPIVWQTLRNLVVRAAQAPFKLIGGLVAGGGSEDLGSVAFAPGSSDLSKENENALLKLSEALGKRPELKLEIEGTAAESSDGPLLAAQRLEREYQYNYYKMLQRRGDKVPAKASLLEVPEDEKAPLLEGIYRTRLKTQPPAEWTQLDKQARIEKLREGVIKFWSGSDLLLRELGQERASSIKDFLVDKGKLADDRVYFIDASLGQAESDGSVITPMHLDAE				NA	NA	NA	NA	NA
D1-35_04905	1017	rlmI_2	COG1092	Ribosomal RNA large subunit methyltransferase I	ATGTCTTCCTTGAATCTGGCGCTGCGCGCCGCCCTCGACCAGCGTCAGGACCTGCTTGGCCAACTGCATCAGCAGGGCACCGATTGCTATCGCCTGTTCCACGGCAGCCAGGAAGGCGCTCCCGGCCTGACGGTCGACCGCTACGGCCCGCAGCTGCTGGTGCAGAGTTTTCATCAGTCACTGGAGCGCGAGGCCCTGTTGCAACTGCACGGCATCGTCAATCAACACTTGGGCCTGGATACCCTGCTGGTCTACAACGACCGCGCCCGGGGCAACTCGCGCATCGACCGCCAGGACAGCATCTATCAGCCTGACGAGGCTGCCTTGCAAGACCTGGTTGGCCATGAGTGGGGGTTGAACTACCGGGTTCGCGGACGTCACGCCGGGCAGGATCCGTTGCTGTTTCTCGATCTGCGCAACGCCCGGGGCTGGGTCAAGGACCACAGCCGGAACAAAAGCGTGCTGAACCTGTTCGCCTATACCTGCGGCGTCGGCCTGAGCGCCGCGGCGGGCGGAGCGCGCGAGGTGTGCAACCTGGACTTCGCCGAGGGCAACCTGGCGGTGGGCCGCGAGAACGGCCTGCTCAATCCCGACCTGCCGACGATGGAATTCGTCCAGTCGGATTATTTCCCGGCGATTCGCCAACTCGCCGGCCTGCCGATCAGTCAACGCCGCGGACAGAAACTGCCCGCTTACGTGCGCCTGGAGCAACGCCAATATGACGTGGTGCTGCTCGACCCGCCGGCCTGGGCCAAGAGCGCTTTCGGCACAGTCGACCTGCTGCGCGATTACCAAAGCCTGCTTAAGCCGGCACTGCTCACCACCGCCGAAAATGGCGTGCTGATCTGCTGCAACAACCTGGCGAAGGTGTCCATGGACGACTGGCGCGAGCAGGTATTGCGCTGTGCGGAAAAAGCCGGCCGCCCGGTTCGCGAGTGGAGCGTGCTGACACCTGGCAGCGATTTTCCCTCGCAGGATCAACAGCCGCCGCTCAAGACGTTGATCCTCCAGCTCTGA	MSSLNLALRAALDQRQDLLGQLHQQGTDCYRLFHGSQEGAPGLTVDRYGPQLLVQSFHQSLEREALLQLHGIVNQHLGLDTLLVYNDRARGNSRIDRQDSIYQPDEAALQDLVGHEWGLNYRVRGRHAGQDPLLFLDLRNARGWVKDHSRNKSVLNLFAYTCGVGLSAAAGGAREVCNLDFAEGNLAVGRENGLLNPDLPTMEFVQSDYFPAIRQLAGLPISQRRGQKLPAYVRLEQRQYDVVLLDPPAWAKSAFGTVDLLRDYQSLLKPALLTTAENGVLICCNNLAKVSMDDWREQVLRCAEKAGRPVREWSVLTPGSDFPSQDQQPPLKTLILQL				NA	NA	NA	NA	NA
D1-35_04906	1938	acsA_3	COG0365	Acetyl-coenzyme A synthetase	ATGTTCGATATCAGCCAGTACCCCCACGCCGATGCCGTCCGCCGGGCTGCGCAATTGAGTCAGGAAGAGTACAAGCGGCTCTATAAAGAATCCATTGAACACCCCAGCGCCTTCTGGGCCGAGCAGGCCACGCGTTTTCTTGACTGGATGACGCCCTGGCAGACCGTCCAGCGCTACGACTTGAAGAGCGGCGAAGCGAGCTGGTTCGCCGGTGGCAAGCTGAACGTCAGCGCCAACTGCATCGACCGTCACCTGGACACGCGCGGCGACCAGATCGCGATCATCTGGGAAGGCGACAATCCCGCCGAATCGGCACAGATCACCTACAAGAAACTTCACCATCATGTGTGCCGCCTGGCCAACGTGCTGAAAAGCCGTGGCGTGAAAAAAGGCGATCGGGTCTGCATCTACATGCCGATGATCCCGGAAGCGGCCTACGCCATGCTCGCCTGCACCCGCATCGGCGCGGTGCATTCGGTGGTGTTCGGCGGGTTCTCGCCGGACTCGCTGCGCGACCGGATTCTCGATGCCGATTGCCGCACCGTCATCACCGCCGACGAAGGCGTGCGCGGCGGACGGTTCATACCGCTCAAGCGCAACGTCGACAAGGCGCTGGAAAGCTGCCCGGACGTCAGCACCGTGCTGGTGGTGGAGCGCACCCAGGGCGAGGTGGAGTGGGTCGAAGGGCGCGACGTCTGGTACCACCAGGCCATGCACGACATGAGCGACGACTGCCCCCCCGAACCGATGGACGCCGAGGACCCGCTGTTCATCCTCTACACCTCCGGCAGCACCGGCAAACCCAAGGGCGTGCTGCACACCACCGGCGGCTATCTGTTGCAGGCGGCGATGACCTTCAAGTACGTGCTGGATTACCGCGACAACGAAGTGTTCTGGTGCACCGCCGATGTCGGCTGGGTCACCGGCCATAGCTATATCGTCTACGGGCCACTGGCGAACGGCGCCACCACGCTGATCTTCGAGGGCGTGCCAAGCCATCCGAGCAGTTCGCGGTTCTGGCAGGTAATCGACAAACATCAGGTCAACATCTTCTACACCGCCCCGACCGCCCTGCGCGCGCTGATGCGCGAGGGCGCCGGTCCGTTGCAGGACACTTCGCGCAAGAGCCTGCGCTTGCTCGGAAGTGTCGGTGAGCCGATCAACCCGGAAGCGTGGGAATGGTATTTCAACGTCGTAGGCGAACAACGCTGCCCGATTGTCGATACCTGGTGGCAGACCGAAACCGGCGGCATCATGCTCAGCCCGCTGGTGAGCGCGCCACGGCTCAAGCCGGGCTGCGCCACCCGGCCGATGTTCGGCGTGCAGCCGGTGCTGCTGGATGAAGTCGGCAAGGAGATCAGCGGCGCGGGCAGCGGCGTACTGGCGATAAAATCCAGTTGGCCGGGGCAGATTCGCAGCGTCTACGGCGACCACCAACGAATGGTCGACACCTACTTCAAGCCTTACCCCGGGTACTACTTCACCGGCGACGGCGCCCGTCGCGACGAAGATGGCGACTATTGGATCACCGGGCGTATCGACGATGTGATCAATGTATCGGGCCACCGTATCGGCACCGCGGAGATAGAGAGTGCGCTGGTGTTGCACGACAACATTGCCGAGGCAGCAGTCGTGGGTTATCCCCATGACTTGAAGGGCCAGGGCATATACGCCTTTGTCACGCCGATGAACGGGGTCGAAGCCAACGACGAGTTGAAGAAGGAGCTGCTGGCCCATGTCAGCAAGGAAATCGGCAGTTTTGCCAAGCCGGAACTGATCCAGTGGGCGCCGGCCCTGCCGAAGACCCGCTCGGGGAAGATCATGCGGCGGATCCTGCGCAAGATCGCCTGCAACGAGCTCGACAGCCTGGGCGACACCTCGACCCTGGCTGATCCGAGCGTGGTGGAGGGTTTGATCGACACACGCCTGAACCGCTGA	MFDISQYPHADAVRRAAQLSQEEYKRLYKESIEHPSAFWAEQATRFLDWMTPWQTVQRYDLKSGEASWFAGGKLNVSANCIDRHLDTRGDQIAIIWEGDNPAESAQITYKKLHHHVCRLANVLKSRGVKKGDRVCIYMPMIPEAAYAMLACTRIGAVHSVVFGGFSPDSLRDRILDADCRTVITADEGVRGGRFIPLKRNVDKALESCPDVSTVLVVERTQGEVEWVEGRDVWYHQAMHDMSDDCPPEPMDAEDPLFILYTSGSTGKPKGVLHTTGGYLLQAAMTFKYVLDYRDNEVFWCTADVGWVTGHSYIVYGPLANGATTLIFEGVPSHPSSSRFWQVIDKHQVNIFYTAPTALRALMREGAGPLQDTSRKSLRLLGSVGEPINPEAWEWYFNVVGEQRCPIVDTWWQTETGGIMLSPLVSAPRLKPGCATRPMFGVQPVLLDEVGKEISGAGSGVLAIKSSWPGQIRSVYGDHQRMVDTYFKPYPGYYFTGDGARRDEDGDYWITGRIDDVINVSGHRIGTAEIESALVLHDNIAEAAVVGYPHDLKGQGIYAFVTPMNGVEANDELKKELLAHVSKEIGSFAKPELIQWAPALPKTRSGKIMRRILRKIACNELDSLGDTSTLADPSVVEGLIDTRLNR	PGPT0002265_4467	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
D1-35_04907	1665	pgi	COG0166	Glucose-6-phosphate isomerase	ATGGCGTATTACCGAACTCCTCATGACGTGACCGCTCTGCCCGCCTGGCAAGCGCTGAATGACCACCGCAAAGCCATGCAGGATTTCAGCATGCGCGAAGCGTTCAATGCCGATCCGCAGCGTTTCAATCAATTCACCCTGTCGAGCTGCGGCCTGTTTCTCGACTATTCGAAGAACCTGATCAACGCCCAGACCCGCGACCTGTTGGTAAACCTGGCCAACGAAGTCGACCTCAAGGGCGCGATCGAGGCGCTGTTTGAAGGCGAAATCGTCAACGCCTCGGAGAACCGCCCGGCCCTGCACACCGCGCTGCGTCGCCCGGTCGGCGACAAATTGCTGGTCAATGGCGTCAACGTGATGCCCGATGTGCACAAAGTGCTGAACCAGATTACCGATCTGGTCGGTCGCATTCACGATGGTCTGTGGCGCGGCTACACCGAAAAACCGATCACCGACGTGGTGAACATCGGCATCGGTGGCTCCTTCCTCGGCCCGCAGCTGGTGTCCGAAGCGCTGTTGTCCTACACGCATAAAGGCGTGCGCTGTCACTACCTGGCGAACATCGACGGCAGTGAGTTCCACGAGCTGGCCCAGAAGCTGCGCGCCGAGACCACGTTGTTCATTGTCTCGTCGAAATCCTTCAATACCCTCGAAACCTTGAAGAATGCCGAGGCCGCTCGTGCCTGGTACCTGGCCCAGGGTGGCTCGGAAGCGGAGCTCTATCGCCACTTCATCGCGGTATCGAGCAACAACGCCGCCGCGGTGGCCTTCGGCATCCGTGAAGAAAACATCTTCCCGATGTGGGACTGGGTCGGCGGCCGTTACTCGCTGTGGTCGGCCATCGGTCTGCCAATCGCCCTGGCCATCGGCATGTCGAACTTCAAGGAGCTGCTGTCCGGCGCCTACTCCATGGACCAGCATTTCCAGAGCGCGCCGTTCGACCAGAACATGCCGGTGCTGCTGGCGCTGCTTGGCGTGTGGTACGGCAATTTCTGGGGCGCGCAAAGCCACGCGATCCTGCCGTACGACCACTATCTGCGCAACATCACCAAGCATCTCCAGCAACTGGACATGGAATCCAACGGCAAGAGCGTCCGCCAGGATGGCACGCCGGTGTCCACCGATACGGGGCCAGTGATCTGGGGTGGCGTCGGCGCCAACGGTCAGCACGCCTACCATCAATTGCTGCATCAGGGCACCCAACTGATCCCGGCCGATTTCATCGTGCCGATCGTCAGCTTCAACCCGGTTGCCGACCATCATCAGTGGCTGTACGCCAACTGCCTGTCCCAGAGCCAGGCGCTGATGCTCGGCAAGACTCGCAGCGAGGCCGAGGCCGAGTTGCGCGATAAAGGCGCCAGTGAAGAAGAAGTGCAGAAGCTCGCCCCCCACAAGGTGATCCCGGGCAACCGCCCGAGCAACACCCTGGTGGTCGAACGCATCAGCCCGCGCCGCCTCGGTGCACTGGTTGCGCTGTATGAGCACAAGGTATTCGTGCAAAGCGTGGTCTGGGGCATCAATGCCTTCGACCAATGGGGCGTGGAACTTGGCAAGGAACTGGGCAAAGGCGTCTACAACCGCCTGGTGGGCAGCGAAGAAAGCCCGGCCGAAGATGCTTCGACCCAAGGCCTGATCAGCTACTTCCGCGGACGTCATCGCGGCTGA	MAYYRTPHDVTALPAWQALNDHRKAMQDFSMREAFNADPQRFNQFTLSSCGLFLDYSKNLINAQTRDLLVNLANEVDLKGAIEALFEGEIVNASENRPALHTALRRPVGDKLLVNGVNVMPDVHKVLNQITDLVGRIHDGLWRGYTEKPITDVVNIGIGGSFLGPQLVSEALLSYTHKGVRCHYLANIDGSEFHELAQKLRAETTLFIVSSKSFNTLETLKNAEAARAWYLAQGGSEAELYRHFIAVSSNNAAAVAFGIREENIFPMWDWVGGRYSLWSAIGLPIALAIGMSNFKELLSGAYSMDQHFQSAPFDQNMPVLLALLGVWYGNFWGAQSHAILPYDHYLRNITKHLQQLDMESNGKSVRQDGTPVSTDTGPVIWGGVGANGQHAYHQLLHQGTQLIPADFIVPIVSFNPVADHHQWLYANCLSQSQALMLGKTRSEAEAELRDKGASEEEVQKLAPHKVIPGNRPSNTLVVERISPRRLGALVALYEHKVFVQSVVWGINAFDQWGVELGKELGKGVYNRLVGSEESPAEDASTQGLISYFRGRHRG	PGPT0017735_1042	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
D1-35_04908	381	panD	COG0853	Aspartate 1-decarboxylase	ATGCACGCCATCATGCTCAAGGCCAAGCTGCACCGCGCCGAAGTCACTCACGCCGTGCTCGACTACGAAGGCTCCTGCGCCATTGACGGTGAGTGGCTGGACCTGTCGGGCATCCGCGAATACGAACAGATCCAGATCTACAACGTCGACAACGGCGAGCGCTTCACCACCTACGCCATCCGTGGCGAAGAAGGCTCGCGGATGATCTCGGTCAACGGCGCTGCGGCGCACAAGGCCAAGGTCGGAGACCGCGTCATCATCTGCGCCTATGCCCATTACAGCGAAGCCGAACTGCTCAACTTCAAGCCGCGCATGCTCTACATGGCGCCGGGCAACGAACTGAGCCACACCAGCAACGCCATTCCGGTCCAGGTGGCCTGA	MHAIMLKAKLHRAEVTHAVLDYEGSCAIDGEWLDLSGIREYEQIQIYNVDNGERFTTYAIRGEEGSRMISVNGAAAHKAKVGDRVIICAYAHYSEAELLNFKPRMLYMAPGNELSHTSNAIPVQVA	PGPT0008890_1437	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0008890-panD-K01579	NA	NA
D1-35_04909	861	panC	COG0414	Pantothenate synthetase	ATGAACACCGTCAAGACCGTACGCGAACTCCGCGCCGCCGTGGCCCGCGCCCGGGGCGAAGGCAAACGCGTCGCCTTTGTCCCGACCATGGGCAACCTGCACAGCGGGCACATGGCGCTGGTGACCAAGGCGGCGCAGCGGGCCGATTTTGTCGTGGCGAGTATTTTCGTCAATCCGCTGCAATTCGGCGCTGGCGAAGACCTCGACAAATATCCGCGCACCCTCGCGGCCGACCAGGAGAAACTGCTCCAGGCCGGCTGCCATCTGCTGTTCGCGCCCAGCGTGGAGGAGATGTATCCCGATGGCATGGCCGGGCAGACCCGCGTCAGCGTCCCGCAGTTGTCCGAAGGCCTGTGTGGCGCCAGCCGTCCGGGGCATTTCGAAGGCGTGGCGACGGTGGTCAGCAAGCTCTTCAACATGGTCCAGCCGGATCTGGCGGTGTTCGGCCAGAAGGATTTCCAACAACTGGCGGTGATCCGCGCGCTGGTGCATGACCTGAACATGCCGATCCAGATCATCGGCGAGCCGACCGTGCGCGCCGATGACGGCCTGGCGCTGTCTTCGCGCAACGGTTTTCTCAGCCCCGAGCAACGCGCCGTGGCGCCCGTGGTCTACCGTGCCCTGAGCCAGATCGCCGAAGCGATCAGGCAGGGGCGACGGGACTTCCCGGCGCTGATTGGCGAACAGCTCAAACAGCTCGAATCCGCCGGCCTGCGTCCCGATTACCTGGAAATCCGTGACGCCAGGACCTTGCGCCCAGCTGTGAGCGAGGATCGCGACCTGGTGATTCTGGTTGCCGCCTTCCTGGGCACCACGCGCCTGATCGACAACCTGCATCTGGAACTCGACACGCCCGCCTGA	MNTVKTVRELRAAVARARGEGKRVAFVPTMGNLHSGHMALVTKAAQRADFVVASIFVNPLQFGAGEDLDKYPRTLAADQEKLLQAGCHLLFAPSVEEMYPDGMAGQTRVSVPQLSEGLCGASRPGHFEGVATVVSKLFNMVQPDLAVFGQKDFQQLAVIRALVHDLNMPIQIIGEPTVRADDGLALSSRNGFLSPEQRAVAPVVYRALSQIAEAIRQGRRDFPALIGEQLKQLESAGLRPDYLEIRDARTLRPAVSEDRDLVILVAAFLGTTRLIDNLHLELDTPA	PGPT0008750_1366	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
D1-35_04910	801	panB	COG0413	3-methyl-2-oxobutanoate hydroxymethyltransferase	ATGCCAGCTATTACCCTGACCACGCTGCAAGGTCTCAAGCAGAAAGGTGAAAAAATCACCATGCTGACCTGCTATGACGCAACCTTCGCCCATGCCTGCAACGAGGCCGGTGTCGAAGTGCTGCTGGTGGGCGATTCCCTCGGCATGGTGCTGCAAGGGCACGACAGCACGCTGCCGGTGACCACCGCCGAAATGGCCTACCATGTAGCCGCCGTCAAACGCGGTAACACCGACGCGCTGATCCTCGCCGACCTGCCGTTCATGGCCTACGCCACCCTCGAACAAACCATGACCAACAGCGCCATGCTCATGCAGGCCGGTGCCCACATGGTCAAGGTCGAAGGCGCGTTGTGGCTGGCCGACTCGATCCGCCTGCTGGCCGAGCGCGGTATCCCGGTGTGCGCACACCTGGGCCTGACGCCCCAGGCGGTGAATATCCTCGGTGGCTACAAGGTCCAGGGCCGCAACGAAAACCAGGCGCGGCAGATGCGTGCCGATGCGATTGCGCTGGAACAGGCCGGTGCCGCCATGTTGCTGCTCGAATGCGTACCCAGCGAGCTGGCGCAGGAAATCACTCAAGCGGTAAAAATCCCGGTGATCGGCATCGGCGCCGGTAACGCCACCGACGGCCAGGTACTGGTGCTCCACGACATGCTTGGGCTGTCGATTACCGGCCGCGTACCCAAGTTCGTGAAGAATTTCATGGCCGGGCAAACCACTATCCAGGCAGCCTTGTCCGCCTATGTCACTGAAGTGAAGGCGACGACCTTCCCTGGCGCCGAGCACGGATTTTCCGCATGA	MPAITLTTLQGLKQKGEKITMLTCYDATFAHACNEAGVEVLLVGDSLGMVLQGHDSTLPVTTAEMAYHVAAVKRGNTDALILADLPFMAYATLEQTMTNSAMLMQAGAHMVKVEGALWLADSIRLLAERGIPVCAHLGLTPQAVNILGGYKVQGRNENQARQMRADAIALEQAGAAMLLLECVPSELAQEITQAVKIPVIGIGAGNATDGQVLVLHDMLGLSITGRVPKFVKNFMAGQTTIQAALSAYVTEVKATTFPGAEHGFSA	PGPT0008740_3330	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
D1-35_04911	486	folK	COG0801	2-amino-4-hydroxy-6-hydroxymethyldihydropteridine pyrophosphokinase	ATGGAACGCATCTACATCGGCATGGGCAGCAACCTGGCCGAGCCCGCCGAACAATTGCGCAGCGCCGTCGAGGCGCTGGCGCGACTGCCCGAGACGCGATTGGCGGGCGTTTCAGCGTTCTATCAAAGCGACTCCCTGCTCCCCGGCCAGCCGCGCTATACCAATGCCGTTGCGGCGCTGGACAGCAATCTCGCGCCGCTGGACTTGCTCGATGCACTACAGGCCATCGAAACCGGCCAGGGTCGCGAGCGCCTCGAGCGCTGGGGCCCGCGCACCCTGGACCTGGATATTCTGTTGTTCGGTGATCACCTGATCGACGAGCCGCGCCTCAAAGTCCCTCATTACCATATGCACGCCCGAGCCTTTGTCCTGTATCCGCTGGCCGAGCTCGCGCCCGCCGACCTGCGCCTGGCCGATGGGCGCTTGCTCAAGGACCTCCTCGCGGCGTGCCCCTTCGTCGGCCTGGAACGCTTGCTCCCGAGCTGA	MERIYIGMGSNLAEPAEQLRSAVEALARLPETRLAGVSAFYQSDSLLPGQPRYTNAVAALDSNLAPLDLLDALQAIETGQGRERLERWGPRTLDLDILLFGDHLIDEPRLKVPHYHMHARAFVLYPLAELAPADLRLADGRLLKDLLAACPFVGLERLLPS	PGPT0007910_3439	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007910-folK-K00950	NA	NA
D1-35_04912	1398	pcnB	COG0617	Poly(A) polymerase I	ATGCTGAAGAAGCTGTTCCAGTCATTCCGTTCTCCCTTGCGTCGTACGCAACACATCCGCAGCACGCCTGAAGTGCTCAACAGCGGCCAGCATTCGTTGCAAAAGGCCCAATTCAGCCGTTACGCGGTGAACATCGTCGAACGCCTGCAGAACGCCGGCTACCAGGCTTACCTGGTCGGTGGTTGCGTGCGCGACATGCTGCTCAATATCACGCCCAAGGATTTCGACGTCGCCACCAGTGCCACGCCTGAGCAGATACGAGCCGAGTTCCGCAATGCGCGGATCATCGGGCGGCGCTTCAAGCTGGTGCACATCCACTTCGGCCGCGAAATCATCGAGGTCGCGACGTTCCGCGCCAACCACCCGCAAAACGACGAAGAAGAAGACAGCAACCAGTCTTCGCGCAACGAGAGCGGGCGCATCCTGCGCGATAACGTCTACGGCACATTGGAAGAAGACGCGCAGCGCCGCGACTTCACCATCAACGCGCTGTATTACGACCCGGTCAGCGAACGCATCCTCGATTACGCCAACGGCGTTCACGACATCCGCAACCGACTTATCCGCCTGATTGGCGATCCCAGGCAGCGTTACCAGGAAGACCCGGTGCGGATGCTGCGGGCCGTGCGTTTCGCCGCCAAGCTGGATTTTGGCATTGAAAAGCACAGCGCCCTGCCGATTCGCGAACTGGCGCCGATGCTGAGGGAAATCCCGTCGGCGCGGCTGTTCGAAGAAGTGCTCAAGTTGTTCCTGTCGGGTCACGCCGCAGACACCTTCGAAATGCTCGTCGACCTTCAGCTGTTCGACCCGCTGTTCCCCGCCAGTGCCGAGGCGCTGGAATACAACCCGACCTACACCCACACCTTGATCAGCGAAGCGTTGATCAACACTGACCTGCGCATCAAGCAGAACAAACCGGTGACCCCGGCGTTCCTGTTCGCCGCCTTGCTCTGGCCCGCCCTGCCCGCCCGGGTCCTGCGTTTGCAGGAACGCGGCATGCCGCCGATTCCGGCGATGCAGGAAGCCGCCCATGAGCTGATCGCAGAGCAATGCCAGCGCATCGCCATTCCAAAACGCTTCACGATGCCGATCCGCGAGATCTGGGATATGCAAGAACGCCTGCCGCGGCGCAGCGGCAAACGCGCCGATCTGCTGCTGGACAACCCGCGTTTCCGCGCCGGTTACGACTTCCTGCTGCTGCGCGAAAGCGCCGGCGAACAGACCGATGGCCTGGGCGAATGGTGGACCGATTACCAGGACGCCAACGACAGCGAGCGCCGCGACATGATTCGCGAACTGAGCGGCAAGGATGACGGCGCCAGCGGCCCGCGCAAACGTCGCCGCAGCAGTGGCGCCAAGCGCAAACGTGCCGGTGCGCCAAGCGCCTCGGGCGAGTGA	MLKKLFQSFRSPLRRTQHIRSTPEVLNSGQHSLQKAQFSRYAVNIVERLQNAGYQAYLVGGCVRDMLLNITPKDFDVATSATPEQIRAEFRNARIIGRRFKLVHIHFGREIIEVATFRANHPQNDEEEDSNQSSRNESGRILRDNVYGTLEEDAQRRDFTINALYYDPVSERILDYANGVHDIRNRLIRLIGDPRQRYQEDPVRMLRAVRFAAKLDFGIEKHSALPIRELAPMLREIPSARLFEEVLKLFLSGHAADTFEMLVDLQLFDPLFPASAEALEYNPTYTHTLISEALINTDLRIKQNKPVTPAFLFAALLWPALPARVLRLQERGMPPIPAMQEAAHELIAEQCQRIAIPKRFTMPIREIWDMQERLPRRSGKRADLLLDNPRFRAGYDFLLLRESAGEQTDGLGEWWTDYQDANDSERRDMIRELSGKDDGASGPRKRRRSSGAKRKRAGAPSASGE				NA	NA	NA	NA	NA
D1-35_04915	1437	zraR	COG2204	Transcriptional regulatory protein ZraR	ATGCCGCACATTTTGATCGTCGAAGACGAAACAATTATCCGCTCCGCCTTGCGCCGCCTGCTGGAACGCAACCAGTACCAGGTCAGCGAAGCCGGTTCCGTGCAGGAAGCACAAGAGCGTTTCAGCATTCCAACGTTTGACCTGATCGTCAGTGACCTGCGCTTGCCTGGTGCCCCGGGGACCGAGTTGATCAAACTCGGCCAGGGCACGCCTGTGCTGATCATGACCAGTTATGCCAGCCTGCGCTCGGCGGTCGACTCCATGAAAATGGGTGCGGTCGACTACATTGCCAAGCCGTTCGACCACGACGAAATGCTTCAGGCCGTCGCTCGAATCCTGCGTGACCGACAAACGGCGAGCAGCCAGCCTTCGGAACCGACGAACGGCAAGGCCGCGGCTCCAGGCAAGGCGGGCGCCAGCAACAGCAACGGCGAAATCGGCATCATCGGCTCCTGCCCACCCATGCAGGACCTCTACAGCAAGATCCGCAAAGTGGCGCCGACCGATTCCAACGTCCTGATCCAGGGCGAGTCCGGCACCGGCAAGGAGCTGGTGGCCAGGGCGCTGCATAACCTGTCGCGCCGAGCCAAGGCGCCAATGATTTCGGTGAACTGTGCGGCCATCCCGGAAAGCCTGATCGAGTCCGAGCTGTTCGGCCATGAGAAAGGCGCCTTCACCGGTGCCAGCGCAGGGCGTGCCGGCCTGGTCGAGGCGGCGGACGGAGGCACGCTGTTTCTTGACGAAATCGGCGAACTGCCCCTGGAAGCCCAGGCGCGGCTGTTGCGCGTTCTCCAGGAAGGCGAGATTCGTCGAGTCGGTTCGGTCCAGTCGCAAAAGGTCGATGTGCGCCTGATCGCCGCGACGCACCGCGACCTCAAGAGCCTGGCGAAAATCGGTCAGTTCCGTGAAGACCTGTATTACCGGCTGCACGTGATTGCCCTGAAGCTGCCGCCACTGCGCGAGCGCGGCGCGGACGTCAACGAGATTGCCAATGCCTTCCTCGCCCGCCAGAGCGCGCGGGTCAACCGCACCGACCTGAAGTTTGCCCCCGACGCCGAACAAGCCATTCGTCATTACGCCTGGCCGGGTAACGTCCGTGAGCTGGAAAACGCCGTGGAGCGCGCGGTGATCCTGTGCGAGAGCCCGGAAATTTCCGCCGACCTGCTGGGGATCGACATCGAATTGAGTGACCTGGACGATGAAGAATTCATCGGCCTGGCCCCTCAACAGGGCGGCGGCGCCAACAACACCAGCCACGAGCCCACCGAAGACCTGTCGCTGGAGGACTACTTCCAGCACTTCGTCCTGGAGCACCAGGACCACATGACCGAGACGGAACTGGCGCGCAAGCTGGGCGTGAGCCGCAAGTGCCTGTGGGAGCGCCGCCAGCGCCTGGGTATCCCACGACGCAAGACGGGCGTTGCCAGCGAGAGCTGA	MPHILIVEDETIIRSALRRLLERNQYQVSEAGSVQEAQERFSIPTFDLIVSDLRLPGAPGTELIKLGQGTPVLIMTSYASLRSAVDSMKMGAVDYIAKPFDHDEMLQAVARILRDRQTASSQPSEPTNGKAAAPGKAGASNSNGEIGIIGSCPPMQDLYSKIRKVAPTDSNVLIQGESGTGKELVARALHNLSRRAKAPMISVNCAAIPESLIESELFGHEKGAFTGASAGRAGLVEAADGGTLFLDEIGELPLEAQARLLRVLQEGEIRRVGSVQSQKVDVRLIAATHRDLKSLAKIGQFREDLYYRLHVIALKLPPLRERGADVNEIANAFLARQSARVNRTDLKFAPDAEQAIRHYAWPGNVRELENAVERAVILCESPEISADLLGIDIELSDLDDEEFIGLAPQQGGGANNTSHEPTEDLSLEDYFQHFVLEHQDHMTETELARKLGVSRKCLWERRQRLGIPRRKTGVASES	PGPT0004315_330	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004315-zraR|hydG-K07713	NA	NA
D1-35_04916	2955	sasA_18		Adaptive-response sensory-kinase SasA	ATGCCGATGAGCTTTAGCCTGACCCAGATGATCCTGATCAGCGCCGCCTACCTGGCGGTGCTGTTCGGCGTGGCCTGGATCAGCGAACGAGGCATGATCCCCCGGGCGATCATCCGCCACCCGCTGACCTACACCTTGTCGCTGGGGGTCTACGCCAGCGCATGGGCGTTTTATGGCACGGTCGGGCTGGCCTATCAGTATGGCTATGGTTTCCTGTCCAGCTACCTCGGGGTGTCCGGGGCCTTCCTGCTGGCGCCGGTGTTGCTCTATCCAATCCTGAAGATCACCCGTACCTACCAACTGTCATCGCTGGCCGACCTGTTCGCCTTCCGCTTTCGCAGCACCTGGGCCGGCGCGCTGACCACGATCTTCATGCTGGTCGGCGTGTTACCGCTGCTCGCTCTGCAAATCCAGGCCGTGGCCGATTCCATCAGCATCCTGACCCGCGAACCGGTGCAACATCGAGTAGCGCTGAGCTTCTGCGCGCTGATCATTCTGTTCACGATTTTTTTCGGCTCCCGGCACATCGCCACCCGGGAAAAACACGAAGGCCTGGTTTTCGCCATTGCCTTTGAATCGGTGATCAAGCTGATCGCCATCGGTGGCGTCGGCCTCTACGCGCTGTACGGCGTGTTCGATGGCCCGCAACAGCTCGAGCTTTGGCTGTTGCAGAACCAGACCGCCCTCGCCGCCCTGCATACGCCTTTGCAGGAAGGCCCGTGGCGCACGCTGTTGCTGGTGTTCTTCGCCTCGGCAATCGTGATGCCGCACATGTACCACATGACCTTCACCGAAAACCTCAACCCGCGCTCACTGGTCAGCGCGAGCTGGGGCCTGCCACTGTTCCTGCTGTTGATGAGCCTGGCGGTGCCACTGATTCTGTGGGCAGGCCTGAAACTCGGCGCCAGCACCAATCCGGAATACTTCACCCTCGGCATCGGCATTGCCGCCAACAGCAAGGCCCTGGCATTGCTGGCCTATATCGGCGGGCTGTCGGCGGCCAGCGGCCTGATCATCGTCACCACTTTGGCGTTGTCGGGCATGGCCCTCAATCATCTGGTGCTGCCGCTCTACCAGCCGCCGGCGGAAGGAAACATCTACCGCTGGTTGAAATGGACCCGCCGCGCGCTGATCGTTGCGATCATCATGGCCGGTTATGGTTTCTACCTGATGCTGGGCGACGGGCAGGACCTGGCCAACCTGGGCATCGTCGCGTTCGTCGCCACCCTGCAGTTCCTGCCCGGCGTGCTGTCGGTCCTGTATTGGCCAACCGCCAACCGCCGCGGCTTTATCGCCGGCCTGATGGCGGGGATCCTGGTCTGGCTGGTCGCCATGCTGTTGCCGCTACTGGGCAACCTGCAGGGGTTCTACATCCCGCTGCTGAACATGATCTACGTGCTCGACGACACCAGCTGGCACATGGCAGCCATCGCCTCGCTGGCGGCGAACGTGCTGATGTTCACCCTGATCTCGCTGTTCACCAACGCCAGCAGTGAAGAAGCCAGCGCCGCCGAAGCCTGCGCTGTGGATAACGTGCGTCGCCCGCAACGCCGTGAACTGCACGCCGCCTCGCCCCAGGAATTCGCCACGCAACTGGCCAAGCCGCTGGGAGCCAAGGCCGCACAAAAGGAAGTCGAACAGGCCCTGCGCGATCTTTACCTGCCGTTCGATGAGCGTCGCCCGTACGCGTTGCGTCGCTTGCGCGACCGGATCGAAGCCAACCTGTCCGGCCTGATGGGCCCCAGCGTGGCCCAGGACATGGTCGAAACCTTCCTGCCTTATAAGGCGGGCGGCGAAAACTACGTGACCGAAGACATCCACTTCATTGAAAGCCGCCTCGAGGACTACCATTCGCGCCTCACTGGCCTCGCCGCCGAGCTGGATGCCTTGCGCCGCTACCACCGCCAGACCCTGCAGGAACTGCCGATGGGCGTCTGTTCGCTGGCCAAGGACCAGGAAATCCTCATGTGGAACAAGGCCATGGAAGAGCTGACCGGCATAGCCGCCCAGCGCGTGGTCGGCTCGCGCCTGAGTACCCTGGGCGAGCCGTGGAAAGGTTTGCTGCAAGGCTTCATCGACCTGCCGGACGAACACCTGCACAAACAGCACTTGGCTCTCGACGGCCAGACCCGGTGGCTGAACCTGCACAAGGCGGCGATCGACGAGCCGTTGGCGCCGGGCAACAGCGGCCTGGTGCTGCTGGTGGAAGACCTGACCGACACCCAGATGCTCGAAGACAAGCTGGTCCATTCCGAGCGCCTGGCCAGCATCGGTCGACTGGCCGCCGGCGTGGCCCACGAAATTGGCAACCCGATCACCGGCATTGCCTGCCTGGCGCAGAACCTGCGCGAAGAACGCGAGGACGACGGTGAACTGACGGAAATCAGCGGGCAGATTCTCGAACAGACCAAGCGCGTGTCGCGCATTGTCCAGTCCCTGATGAGTTTCGCCCACGCCGGCGGCCACCAGCACAACGACGAGCCGGTGTGCCTGGCCGAAGTCGCCCAGGACGCCATTGGCCTGCTGGCACTCAACCGGCGCAATTTCGAAGTGCAGTTCTTCAACCTGTGCGACCCCGATCATTGGGTCGATGGCGATCCTCAGCGGCTCGCCCAGGTGCTGATCAACCTGCTTTCCAACGCGCGCGACGCCTCCCCGGCCGGCAGCGCGGTACGGGTCAAGAGCGAAGCCTTTGAACACACGGTCGACCTGATCGTCGAAGACGAAGGCAGCGGTATTCCACAGAACATCATGGATCGATTGTTCGAACCTTTCTTTACCACCAAGGACCCTGGCGAAGGCACCGGTCTGGGCCTCGCACTGGTCTATTCCATCGTTGAAGAGCATTATGGACAAATCACCATCGACAGCCCGGCCGATGTTCAGAGCCAACGCGGCACCCGTATCCGGGTGACCTTGCCGCGTCATGTCGAAGCGACGTCCGCTGTGAACTGA	MPMSFSLTQMILISAAYLAVLFGVAWISERGMIPRAIIRHPLTYTLSLGVYASAWAFYGTVGLAYQYGYGFLSSYLGVSGAFLLAPVLLYPILKITRTYQLSSLADLFAFRFRSTWAGALTTIFMLVGVLPLLALQIQAVADSISILTREPVQHRVALSFCALIILFTIFFGSRHIATREKHEGLVFAIAFESVIKLIAIGGVGLYALYGVFDGPQQLELWLLQNQTALAALHTPLQEGPWRTLLLVFFASAIVMPHMYHMTFTENLNPRSLVSASWGLPLFLLLMSLAVPLILWAGLKLGASTNPEYFTLGIGIAANSKALALLAYIGGLSAASGLIIVTTLALSGMALNHLVLPLYQPPAEGNIYRWLKWTRRALIVAIIMAGYGFYLMLGDGQDLANLGIVAFVATLQFLPGVLSVLYWPTANRRGFIAGLMAGILVWLVAMLLPLLGNLQGFYIPLLNMIYVLDDTSWHMAAIASLAANVLMFTLISLFTNASSEEASAAEACAVDNVRRPQRRELHAASPQEFATQLAKPLGAKAAQKEVEQALRDLYLPFDERRPYALRRLRDRIEANLSGLMGPSVAQDMVETFLPYKAGGENYVTEDIHFIESRLEDYHSRLTGLAAELDALRRYHRQTLQELPMGVCSLAKDQEILMWNKAMEELTGIAAQRVVGSRLSTLGEPWKGLLQGFIDLPDEHLHKQHLALDGQTRWLNLHKAAIDEPLAPGNSGLVLLVEDLTDTQMLEDKLVHSERLASIGRLAAGVAHEIGNPITGIACLAQNLREEREDDGELTEISGQILEQTKRVSRIVQSLMSFAHAGGHQHNDEPVCLAEVAQDAIGLLALNRRNFEVQFFNLCDPDHWVDGDPQRLAQVLINLLSNARDASPAGSAVRVKSEAFEHTVDLIVEDEGSGIPQNIMDRLFEPFFTTKDPGEGTGLGLALVYSIVEEHYGQITIDSPADVQSQRGTRIRVTLPRHVEATSAVN				NA	NA	NA	NA	NA
D1-35_04917	177			hypothetical protein	ATGTACATCTATCGCTTGGTCCTGCTTTTGGTAGTCGGGATCTACCTGTTCTCCCCGGCCATCATGGATTGGTGGATCGATGCCACGGGTGCCTGGTATCGGCCGTATCTGCTCTGGCTGATCCTGATCGTCGTGACCTTCATCCTGCAGAGCCAAAAAGATGCCGATGAGCTTTAG	MYIYRLVLLLVVGIYLFSPAIMDWWIDATGAWYRPYLLWLILIVVTFILQSQKDADEL				NA	NA	NA	NA	NA
D1-35_04918	882	gluQ	COG0008	Glutamyl-Q tRNA(Asp) synthetase	ATGACTGCCTACATCGGACGCTTCGCCCCCACCCCCAGCGGCCACCTGCACTTCGGCTCGCTGGTCGCCGCCCTGGCATCGTACCTCGACGCCCGGGCCGCGGGCGGGCGCTGGTTGTTGCGCATGGAAGACCTCGACCCACCGCGGGAAGAGCCCGGCGCGCAAGCGGCGATCCTGAATGCGCTGCAAACCTATGGTTTTGAATGGGATGGCGAAATGGTCCGCCAGAGCGACCGCCATGAAGCCTATCAACTGGTCATTGATCGCTTGTTCAGCCAAGGCCTGGCCTACGCCTGCACCTGTTCGCGCAAGCAACTGGAACCGTATCAGGGTATTTACCCAGGGCTATGCCGCAACGCCGGCCACGACACCGAGGACGCCGCCATCCGCCTGCGTGTCCCCGAGCTTGAATATCATTTCACCGACCGGGTCCAGGGCGAATTCCGCCAACACTTGGGCCGTGAGGCCGGTGATTTCGTGATCCGTCGTCGTGACGGGCTCTACGCCTATCAGCTGGCGGTGGTGCTGGACGACGCCTGGCAAGGCGTCACCCATATCGTTCGCGGCGCTGATCTGCTGGACTCCACGCCACGCCAGCTCTACCTGCAGGAACTCCTCGGGCTGCCACAACCGCGTTACCTGCATGTGCCGCTGATCACCCAGCCCGACGGGCACAAGCTCGGCAAATCCTATCGTTCACCGCCGCTGACAGCGGACCAGGCTACGCCGCTGCTGTTGCGGGCATTGCGCGCACTGGGCCAGCAACCGGGCCCGGAACTCTGCGATGCCAGCCCCCGCGAACTGCTGGCCTGGGGCATTCGGCACTGGGATGCGAGCAAGATCCCGCGCGTCCTCACCCTGCCCGAAGCGCAAATACCATGA	MTAYIGRFAPTPSGHLHFGSLVAALASYLDARAAGGRWLLRMEDLDPPREEPGAQAAILNALQTYGFEWDGEMVRQSDRHEAYQLVIDRLFSQGLAYACTCSRKQLEPYQGIYPGLCRNAGHDTEDAAIRLRVPELEYHFTDRVQGEFRQHLGREAGDFVIRRRDGLYAYQLAVVLDDAWQGVTHIVRGADLLDSTPRQLYLQELLGLPQPRYLHVPLITQPDGHKLGKSYRSPPLTADQATPLLLRALRALGQQPGPELCDASPRELLAWGIRHWDASKIPRVLTLPEAQIP	PGPT0008460_6020	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
D1-35_04919	444	dksA_2	COG1734	RNA polymerase-binding transcription factor DksA	ATGCCCACCCAAGCAAAGCAGAATCAAAATCAGTCGCTCAGCGGGTTTGAGCCGTACATCCCACAAGCGGGCGAAGAGTACATGGGCGCCCCGATGCGCGCACACTTCACCAAGATCCTGAACAAGTGGAAACAGGACTTGATGCTGGAAGTCGACCGCACCGTGGACCATATGAAGGACGACGCTGCCAACTTCCCCGACCCGGCCGACCGTGCCAGCCAGGAAGAAGAGTTCGCCCTCGAACTGCGCGCCCGTGACCGGGAACGCAAGCTGATCAAGAAAATCGACAAGACGCTGCAACTGATCGAAGACGAAGAATACGGCTGGTGCGAGTCCTGCGGCGTCGAGATCGGCGTCAAGCGACTGGAAGCACGTCCAACCGCAGACATGTGCGTCGACTGCAAGACCCTGGCGGAAATCAAGGAAAAACAGGTCGGCAAGTAA	MPTQAKQNQNQSLSGFEPYIPQAGEEYMGAPMRAHFTKILNKWKQDLMLEVDRTVDHMKDDAANFPDPADRASQEEEFALELRARDRERKLIKKIDKTLQLIEDEEYGWCESCGVEIGVKRLEARPTADMCVDCKTLAEIKEKQVGK	PGPT0014560_1006	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
D1-35_04920	1173	aspC_2	COG0436	Aspartate aminotransferase	ATGGCCCAGCCCTACAGCGCACGCAGCCGTGCCATCGAACCGTTCCATGTCATGGCGCTGCTGGCACGCGCCAACGAATTGCAGGCTGCCGGGCACGACGTCATCCATCTGGAGATCGGCGAGCCGGACTTCACCACCGCCGAGCCGATCATCCAGGCCGGCCAGGCCGCCCTGGCGGCCGGCAAGACCCGTTACACCGCAGCCCGCGGCATTCCCGAGTTGCGCGAGGCCATCGCCGGCTTTTATGCGCAGCGCCACGGCGTTGACATCGATCCGCGGCGCATCCTGGTCACGCCGGGTGGGTCTGGTGCCTTGTTGCTGACCAGTGCCCTGCTCGTCGACCCGGGCAAGCATTGGTTGCTGGCCGATCCTGGCTACCCCTGCAACCGCCATTTCCTGCGTCTGATCGAAGGTGCGGCGCAATTGGTGCCAGTAGGGCCGGACGTGCGTTACCAACTGACCCCGGACCTGGTGGATCGCCATTGGGACCACGACAGCGTGGGGGCATTGGTGGCATCGCCGGCCAACCCGACCGGGACGATTCTCTCTCGGGACGAGTTGGCCGGGTTGTCCAGGGCAATCAAGGGCCACAATGGCCACTTGGTCGTCGATGAGATCTATCACGGCCTGACCTACGGCACCGACGCCGCCAGTGTGCTGGAAGTCGACGACGATGCTTTTGTCCTAAACAGTTTTTCCAAGTATTTCGGCATGACCGGTTGGCGGCTCGGTTGGCTGGTGGCTCCTTCGGCGGCGGTCAGCGAGCTGGAGAAACTTGCGCAGAATCTTTACATCAGTGCGCCGAGCATGGCCCAGTACGCGGCCCTGGCCTGTTTCGAACCCGCGACCATCGAGATTTTCGAGCAGCGTCGTGCCGAGTTCGCGCGGCGTCGCGACTTCCTGCTGCCGGCGTTGCGTGAGTTGGGATTCGGCATCGCGGTGGAGCCCGAAGGTGCGTTCTATCTTTACGCCGATATCAACGCGTTTGGCGGCGATGCCTTTGCGTTCTGCCAGCATTTCCTGGAAACCGAACACGTGGCGTTCACGCCGGGGCTGGATTTCGGTCGGCACCAGGCCGGTCATCATGTGCGTTTTGCCTACACCCAAAGCCTGCCTCGGCTACAGGAAGCGGTGACGCGAATCGAACGTGGGCTGCGGAGCTGGCGAGGCTGA	MAQPYSARSRAIEPFHVMALLARANELQAAGHDVIHLEIGEPDFTTAEPIIQAGQAALAAGKTRYTAARGIPELREAIAGFYAQRHGVDIDPRRILVTPGGSGALLLTSALLVDPGKHWLLADPGYPCNRHFLRLIEGAAQLVPVGPDVRYQLTPDLVDRHWDHDSVGALVASPANPTGTILSRDELAGLSRAIKGHNGHLVVDEIYHGLTYGTDAASVLEVDDDAFVLNSFSKYFGMTGWRLGWLVAPSAAVSELEKLAQNLYISAPSMAQYAALACFEPATIEIFEQRRAEFARRRDFLLPALRELGFGIAVEPEGAFYLYADINAFGGDAFAFCQHFLETEHVAFTPGLDFGRHQAGHHVRFAYTQSLPRLQEAVTRIERGLRSWRG				NA	NA	NA	NA	NA
D1-35_04921	759	sfsA	COG1489	Sugar fermentation stimulation protein A	ATGCGTTTTTCTCCTGCACTGGAAGAAGGTCGGCTGATTCGACGTTACAAGCGTTTTCTCGCCGATATCGAGACCGTTGACGGCGAACTGCTCACTATCCACTGCCCGAACACCGGCTCGATGCTCAATTGCATGGCCGAGGGCGCGCGTGTCTGGTTCAGCCGCTCCAGCGACCCCAAGCGCAAGCTGCCAGGGACCTGGGAAATAGGCGAAACCCCTCAGGGCCGGTTGGCCTGCATCAACACCGCGCGAGCCAACCCCCTGGTTGAAGAGGCGCTGCGCGCGGGTGTCATCAAGGAGCTGAACGGTTTTGTCGGGCTGAAGCGAGAAGTCGCCTACGGCGTGGAGAACAGCCGTATCGATTTTCGACTCGACTATGCCGACCAGACCTCGGCCTGGGTCGAGGTCAAAAATGTCACGCTGGGTTTCGATGCAACAAATGTGGCGGCATTTCCCGATGCGGTGACGCTGCGTGGCGCCAAACATCTGCGGGAACTGGCTTGTCTGGCCCGCGACGGCGTACGGGCGGTGCAGCTGTATTGCGTAAACCTGAGTGGCATCGACGCGGTGCGCCCGGCGCAGGAAATCGACCCGGTGTACGCGGCGGCGTTGCGTGAGGCGGTGGCCGCCGGGGTGGAAGTGTTGGCCTACGGGGTCACCTTGACGCCGGAGCAGATATGGGTGGATCGCCCGCTTCCGGTATTGCTTGAACCGCTACAGGTCGACCCAGATGCCCTGATCATCCTCCCGGCTGTCTAG	MRFSPALEEGRLIRRYKRFLADIETVDGELLTIHCPNTGSMLNCMAEGARVWFSRSSDPKRKLPGTWEIGETPQGRLACINTARANPLVEEALRAGVIKELNGFVGLKREVAYGVENSRIDFRLDYADQTSAWVEVKNVTLGFDATNVAAFPDAVTLRGAKHLRELACLARDGVRAVQLYCVNLSGIDAVRPAQEIDPVYAAALREAVAAGVEVLAYGVTLTPEQIWVDRPLPVLLEPLQVDPDALIILPAV	PGPT0017980_152	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_SUGAR_FERMENTATION,PGPT0017980-sfsA-K06206	NA	NA
D1-35_04922	318			hypothetical protein	ATGAAATTTCTTTGCAGCGCCGCTGAGTTACCGGACAACAACAGTCGCGGCTTCGACATCAAGGGGCGCAAGGTCCTGGCCGTGCGGCGCGCGGGCCAGGCCTACGTCTACCTCAACCGCTGCCCGCATCGCGGTGTGCCGCTGGAGTGGCAACCCGACCAGTTCCTCGACCCCAGCGCCAGCCTGATCCAGTGCGCGACCCATGGCGCGCTATTCCTGATTGAAAGCGGTGAATGCGTCGCCGGCCCTTGCGCCGGGCAGTTCCTGGCCGCGCTAGACAGCCGGGAGGATGATCAGGGCATCTGGGTCGACCTGTAG	MKFLCSAAELPDNNSRGFDIKGRKVLAVRRAGQAYVYLNRCPHRGVPLEWQPDQFLDPSASLIQCATHGALFLIESGECVAGPCAGQFLAALDSREDDQGIWVDL				NA	NA	NA	NA	NA
D1-35_04923	870	hmuT	COG4558	Hemin-binding periplasmic protein HmuT	ATGCGCTTGAATTTCCGCGTTGCTGCGCTCTGTGTCGTCCTTTTGGCCAGCCAGGGAGCGCTGGCGGCCGATCTGCCGCAACGCTGGGTGAGCGCTGGGGGTGCCTTGTCGGAATGGGTCAGTGCGCTCGGCGGTGAGTCGAAGCTGGTGGGCGTGGACACCACCAGCCAGCATCCCGAGTCGTTGCGAGCGCTGCCCAGCATCGGTTATCAGCGACAGCTGTCGGCGGAGGGCGTGCTGAGCTTGCGGCCGCAAATTCTGGTGGGTACCGAAGAAATGGGACCGCCGCCGGTGCTCGCGCAAATTCGTGCGGCCGGGGTGCCGGTCGAGTTGTTCTCGGCGGCACCGAGCCTGGAGGCGCTTCAGACCAATCTGCGTCACCTGGGGCAGCTCTTGGGGGCCGAGACCAAGGCTGCGGAGTTGTTCGATGACTATCAACAACGGCTTTCCCAGCACGCGGTCCGCGTAAACGCAGCCCGGCTCAAGCAGAAGGCGCCTGGCGTATTGCTGCTGGTGGGCAATGCTGGCGGCAAATCGCTGATCGCCGGTAAAGGCACCGCCGCCGACTGGTTGCTGGAGCAAGCCGGTGGTCACAACCTGGCGACCCACAGCGGCTACAAACCGTTTTCCGTGGAAACCCTTGCCAGCTTGAATCCTGAAGTGCTGGTCTTTGCCGATCGAGCCTTGACCGGCGAAGAAGCGCGCGCCGCGCTGTTCAAGGAAAATCCGATCTTGTCCTCGACCCGGGCCGCCAAGAGTGGGCGTGTCATGGAACTGGACCCGACGCTGCTGGTGGGCGGATTGGGTCCGCGCCTGCCGCAAAACCTGGTGAAGCTCACCGACGGTTTTTATCCGGTCAAGACCCCATGA	MRLNFRVAALCVVLLASQGALAADLPQRWVSAGGALSEWVSALGGESKLVGVDTTSQHPESLRALPSIGYQRQLSAEGVLSLRPQILVGTEEMGPPPVLAQIRAAGVPVELFSAAPSLEALQTNLRHLGQLLGAETKAAELFDDYQQRLSQHAVRVNAARLKQKAPGVLLLVGNAGGKSLIAGKGTAADWLLEQAGGHNLATHSGYKPFSVETLASLNPEVLVFADRALTGEEARAALFKENPILSSTRAAKSGRVMELDPTLLVGGLGPRLPQNLVKLTDGFYPVKTP				NA	NA	NA	NA	NA
D1-35_04924	1038	hmuU_2	COG0609	Hemin transport system permease protein HmuU	ATGACTGCGCTGGTCAAGCCACGCACTTTATTCATTGGGTTGGGCCTGCTATGCCTGCTGGCGATCTGGTTGTCCCTGGCCTTGGGGCCGGTGAGCTTGCCGCTGTTCGATACCCTGCGCGCCGCCATGCGCCTGTCGGGCTTGCCGGTGGCTGCCGATGGCCTGGAGCAGGCCGAACTGATCCTTGGCCAGATCCGCCTGCCGCGCACCTTGCTGGGGCTGGCGGTGGGCGGGGTATTGGCGTTATCCGGCGTGGCGATGCAGGGGCTGTTTCGCAACCCGCTGGCGGACCCGGGGCTGGTCGGGGTTTCCAGTGGTGCGGCGCTGGGGGCAGCGTTTGCCATCGTCGGCGGTTCGATGCTGGGCGGGCTGCCCGGAGCGCTGGGACCTTATCTATTGTCACTGTGTGCGTTCCTCGGCGGGCTCGGGGTTACGGCGCTGGTCTATCGCCTCGGCCGGCGCAACGGTCAGACTCACGTCGCGACCATGCTTCTGGCCGGGATCGCCCTGACCGCGCTGTCCGGCTCGGCGGTCGGCTTGTTCACTTACCTGGCGGATGACGCGACCCTGCGCACCCTGACGTTCTGGAACCTGGGCAGCCTGAACGGCGCCACCTACGCGCGCTTGTGGCCCCTGCTGCTGGTCAGCATCGGCGTGGCGATCTGGTTGCCGCGTCGGGCCCGTGCGCTCAACGCCTTGTTGCTCGGCGAGTCCGAGGCCGCGCACCTGGGCATTGACGTCGAACGGCTCAAGCGTGAGCTGGTGTTCTGCACGGCGCTGGGCGTTGGGGCCGCGGTGGCGGCTGCGGGCATGATCGGTTTTGTCGGGCTGGTGGTGCCGCATCTGGTAAGGCTGATGGCGGGCCCCGACCATCGCGTCCTGCTACCGGCTTCAATCCTGGCCGGGGCGAGCTTGCTGCTGTTCGCCGATCTGGTGGCGCGCCTCGCGCTGGCCCCGGCGGAATTGCCCATCGGCATTGTCACGGCATTCATCGGCGCACCGTTCTTCCTGTATCTGTTGCTGCGGGGGCGTGCCTGA	MTALVKPRTLFIGLGLLCLLAIWLSLALGPVSLPLFDTLRAAMRLSGLPVAADGLEQAELILGQIRLPRTLLGLAVGGVLALSGVAMQGLFRNPLADPGLVGVSSGAALGAAFAIVGGSMLGGLPGALGPYLLSLCAFLGGLGVTALVYRLGRRNGQTHVATMLLAGIALTALSGSAVGLFTYLADDATLRTLTFWNLGSLNGATYARLWPLLLVSIGVAIWLPRRARALNALLLGESEAAHLGIDVERLKRELVFCTALGVGAAVAAAGMIGFVGLVVPHLVRLMAGPDHRVLLPASILAGASLLLFADLVARLALAPAELPIGIVTAFIGAPFFLYLLLRGRA	PGPT0003770_2889	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0003770-feuB|feuC|chuU|yfhA|hmuU|ABC_FEV_P|fatC|fatD-K02015	NA	NA
D1-35_04925	768	hmuV	COG4559	Hemin import ATP-binding protein HmuV	ATGCTGCGAGCACATGACCTGCATATTCTCCGGGGACGCAAAACCGTACTGGCGGACATCGACTTTCAGCTCAATCCCGGCGAAGTGCTCGGTGTGCTCGGGCCCAACGGTGCGGGGAAAAGTACGCTGCTGGCAGGCTTGTGTGGCGAGTTGCGTCCGGCCCGGGGCCAGGTCTGGCTCGACGACAGGCCCCTCGCCCAGTGGGGCGGCGCCGAGCGCGCCCGTCGTCTGGCGGTGTTGCCACAATCATCGACCCTGGATTTTGCATTCCGCGTGGAAGAGGTGGTGGGCATGGGGCGCCTGCCCCACCGGAGCGGCCAGGTGCGGGACGCGCAGATCGTTGAATCGGCATTACAGGCCGCGGATGCCACGCATCTGTATGGCCGCAACTACCTGACCCTGTCCGGTGGCGAACGCCAGCGGGTGCACTTGGCGCGGGTGCTGGCGCAACTGTGGCCGGGCGAGGTGGGGCAGACGCTGTTGTTGGACGAGCCGACTTCGATGCTCGATCCGTTGCACCAGCACACCATCCTGCAAGCGGTGCGTGAATTCGCCGGTCGCGGCGCCGCCGTGCTGGTGATCCTGCATGACCTGAACCTGGCGGCGCGTTACTGTGACCGCCTGTTGCTACTCGCGTCCGGCCGGCCGGTGGCCCTGGACACGCCCCGGCAAGTGCTGCGCCCGGAGCCGCTCAAGGCGGTATTCGGCCTGGAAGTGCTGGTGCAGTCCCATCCGGAACGCGGGCATCCGTTGATCATCGCCCGCTGA	MLRAHDLHILRGRKTVLADIDFQLNPGEVLGVLGPNGAGKSTLLAGLCGELRPARGQVWLDDRPLAQWGGAERARRLAVLPQSSTLDFAFRVEEVVGMGRLPHRSGQVRDAQIVESALQAADATHLYGRNYLTLSGGERQRVHLARVLAQLWPGEVGQTLLLDEPTSMLDPLHQHTILQAVREFAGRGAAVLVILHDLNLAARYCDRLLLLASGRPVALDTPRQVLRPEPLKAVFGLEVLVQSHPERGHPLIIAR	PGPT0003760_5879	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
D1-35_04926	849			hypothetical protein	GTGCGCCTGTTCCTGATCCTGGCTTTGAGCGTGTTGACGGCTTGCCAAAGTATCGCGCCGCCTCCGGTCAACGGACGGATCCTTGACCTGCAAAATGGCCAGGCCCTCTCGTCGCCTACGTTGGTCGAGCGCTTGGCGAAGGCCTCGCGTGTCGTGGTCGGAGAGCAGCACGACAACCGCGACCATCATGTGTTGCAACGCTGGTTGCTCCAGGCCTTGGCCGGACAGCGAGCCCAAGGCAGCTTGCTCTTGGAGATGCTGACGCCACAGCAGCAGCCGAAGGTCGACGCGGTTCGCCGGTTGCCAGCCTTGCCCAAGGATTTGCCCGGCGCGCTGGACTGGTCGCCGGGTTGGGATTGGAACCTGTACGGACCCGTGGTGGAGTTCGCCTTGCCTCAGCCTTACCCGGTGCTGGCGGCCAATCTTGACCGTACGGAGATCCAGCGCGTTTATCGTCAAATGCCCTTGGTGGAGGGTGAGCGCTCCAATTCGTCCGTGGTGAAGGAAAAGCTGCTGGGACAGATCCGCGAGTCCCACTGCGGCCTGCTGCCGGAGTCGCAGATGCCGGCGATGCTGGCGGTCCAGCAGCAGCGAGACCGGCGGATGGCGGAGCAGTTGCTCAAGGCGCCGACGCCTGCATTGTTGTTTGCCGGTGCCTGGCATGGGCGAAAAGACGTCGGCGTGCCGCTGCATGTGCGGGACTTGGGCGCCAACGAAGCGCCGGTTGTGCTGATGCTGGCCGAGGAGGGGAGCAACGTTACGTCGGCCATGGCTGATTATGTGTGGTACACCCCGGCCACCCCGCCTCAGGATTACTGCGCGCGGATGCGTGAACAACAAGGCAAGTGA	MRLFLILALSVLTACQSIAPPPVNGRILDLQNGQALSSPTLVERLAKASRVVVGEQHDNRDHHVLQRWLLQALAGQRAQGSLLLEMLTPQQQPKVDAVRRLPALPKDLPGALDWSPGWDWNLYGPVVEFALPQPYPVLAANLDRTEIQRVYRQMPLVEGERSNSSVVKEKLLGQIRESHCGLLPESQMPAMLAVQQQRDRRMAEQLLKAPTPALLFAGAWHGRKDVGVPLHVRDLGANEAPVVLMLAEEGSNVTSAMADYVWYTPATPPQDYCARMREQQGK				NA	NA	NA	NA	NA
D1-35_04928	273			hypothetical protein	ATGAATGATGAACTGCAACACCTGAAAAATCTGGGCAAGACGTCAGCCCAGTGGCTGCATGCCGTGGGCATCCACAGCGCCTCGGATCTTCGCCGCCTCGGCGCGGTGGACGCCTACCGCGCCGTTCGCACCCGCGGGTTCCGGGCATCAAAGGTATTGCTGTATGCCATCGAAGGCGCATTGATGGACATGCATTGGAACGATATTCCCGCTGAACGCAAGGAAGCCCTCAATAAACAGCTGGATGCCATTTCGGCTCGCCACAAAGCCTGA	MNDELQHLKNLGKTSAQWLHAVGIHSASDLRRLGAVDAYRAVRTRGFRASKVLLYAIEGALMDMHWNDIPAERKEALNKQLDAISARHKA				NA	NA	NA	NA	NA
D1-35_04929	342			hypothetical protein	ATGAGCCACCCCAAGCTTCTCGACACCCCGCTTTATGCCTTGTTGCGCAACGACGATATTGCCGGCTTCAACAACGAACGGCCTCAAGGGCCGATCGACATGCGCGGCGGCGATTTCCGTGGTCTTGACCTGCGGGAACTGAACGCGGACAACGTCGATTTCACCGATGCCTATTTCCGTTCCGCCGATTTGCGCGGCGTCGATTTTCGTAACTCGTCGCTGGAAGGCGCGAGCCTCGCCCACGCGCAGATTTCCGGTGCCTACTTTCCGCCCGAGCTGTCGGCCGATGAGATCCTGATGTCAATGAATTTCGGCACACGCCTGCGCTACCGCACCCGCTAA	MSHPKLLDTPLYALLRNDDIAGFNNERPQGPIDMRGGDFRGLDLRELNADNVDFTDAYFRSADLRGVDFRNSSLEGASLAHAQISGAYFPPELSADEILMSMNFGTRLRYRTR				NA	NA	NA	NA	NA
D1-35_04930	1557		COG0645	putative protein	GTGAGCCAATCACTGATCGCTGCCCTGCAAAACCCGGCCCTTTACCCGCATCCCGTCGAAGGGTTCCAGGTCATCGAAACCCATATTTCCTGGGTATTGCTCACCGGGCCCTACGCCTACAAATTCAAGAAACCGGTCAATTTCGGTTTCCTCGACTTCACCAGCCTCGACGCGCGCAAGCATTTTTGCGCTGAAGAACTGCGCCTGAACCAGCGCCTGACCCAGGACCTCTACCTGGAAGTCCTGCCGATTACCGGCAGCACCGAAGCGCCAAGCCTCGGCGGTGATGGTCCGGCCATCGAATATGCCCTGAAGATGCGCCAATTTCCCCAGAGCCAACTGCTCAGCACGCTCCAGGCCAACGGCGAACTGACCACCGCGCACATTGATGAAATGGCCGCGCAGATCGCCCAGTTCCATCTTTCGACGCCCAAGGTGCCCGCCGACAACGCGGCAGGCACGCCGGACAGCGTCATGGCGCCGGTGCGGCAGAATTTCGAACAGATCCGTCCGTTCCTCAGCGACAAGGCTGACCTGCTGCAACTCGAAGCCCTGCAAGCCTGGGCCGAAAGCAGCTTCGAACGCCTCAAGCCGCTGCTGGCCCAGCGCAAGACCGAAGGCTTCACCCGCGAATGCCACGGCGACATCCACCTGGGCAATGCCACCGTGATCGATGGCCAGGTAGTGATTTTCGACTGCATCGAGTTTAACGAGCCGTTCCGTTTCACCGACGTCTACGCCGACACCGCGTTCCTGGCGATGGACCTTGAAGACCGCGGCCTCAAGTCACTGGCGCGGCGGTTCGTCAGCCAGTACCTGGAGCTGACGGGCGATTACCAGGGCCTGGAGCTGTTGAATTTCTACAAGGCCTACCGCGCCCTGGTCCGCGCCAAGGTCGCGCTGTTCAGCATGCCCGCCGAAGCCGATCCGGTGCAGCGTGCCACGACTCTGCGCCAGTACCGCAACTATGCCAACCTGGCCGAAAGCTACAGCACCATCCCGTCGCGCTTCCTGGCGATTACCCACGGTGTTTCCGCCGTAGGCAAAAGTCACGTCGCGATGCGCCTGGTAGAGGCCCTGGGCGCGATTCGCCTGCGCTCGGACGTGGAGCGCAAGCGCCTGTTCGGCGAACAGCAAGTATCGAACGACCCCCAGGCCGGCATTTATAGCAGCGACGCCAGCAGCACCACCTACGCCCGCCTGCATGAAATTGCCGACGCGATCCTGCATGCAGGTTTCCCGGTGGTAATCGACGCCACCTACCTCAAGCGTGAGCAGCGTGACGCCGCCGCCGGGATCGCCGAAGGCACGGGGGCGCCGTTCCTGATCCTCGACTGCGACGCGCCGCAGGCGGTGATCGAAAGCCGGCTCGCCCAGCGCCAGGCGGACCAGAAGGACCCGTCCGACGCGAACCTGGCCGTCATCGCCGCCCAACAGGCCGGCCGCGAAGCGTTGACCCCGGCGGAAATCCTTTGCAGCAAACGGGTTCAGACCAACGAAAGCGGCACGCTGGATGTTGTGGTCGCGCAGATCCGTCAGCGCCTGCCGGGACTGTAG	MSQSLIAALQNPALYPHPVEGFQVIETHISWVLLTGPYAYKFKKPVNFGFLDFTSLDARKHFCAEELRLNQRLTQDLYLEVLPITGSTEAPSLGGDGPAIEYALKMRQFPQSQLLSTLQANGELTTAHIDEMAAQIAQFHLSTPKVPADNAAGTPDSVMAPVRQNFEQIRPFLSDKADLLQLEALQAWAESSFERLKPLLAQRKTEGFTRECHGDIHLGNATVIDGQVVIFDCIEFNEPFRFTDVYADTAFLAMDLEDRGLKSLARRFVSQYLELTGDYQGLELLNFYKAYRALVRAKVALFSMPAEADPVQRATTLRQYRNYANLAESYSTIPSRFLAITHGVSAVGKSHVAMRLVEALGAIRLRSDVERKRLFGEQQVSNDPQAGIYSSDASSTTYARLHEIADAILHAGFPVVIDATYLKREQRDAAAGIAEGTGAPFLILDCDAPQAVIESRLAQRQADQKDPSDANLAVIAAQQAGREALTPAEILCSKRVQTNESGTLDVVVAQIRQRLPGL				NA	NA	NA	NA	NA
D1-35_04931	2319	mrcB	COG0744	Penicillin-binding protein 1B	ATGACTCGTACCCGATCCCCCCGTACCCCCAAGAAACCTCCCGCCAGCCGCCTGCGGCCCTGGCTGGGCTGGGCCCTTAAACTGAGCCTGGTGGGCCTTGTCGTGCTCGCCGGTTTTGCCGTCTACCTCGATGCCGTGGTCCAGGAGAAATTCTCCGGCAAGCGCTGGACCATTCCGGCCAAGGTCTACGCGCGGCCGCTGGAGCTGTTCGTCGGACAAAAGCTCAGCAAGGAGGATTTCCTGACCGAGCTCGATGCCTTGGGTTATCGCCGCGAAAGCGTGGCCAATGGCCCGGGTGCAGCTTCGGTCAATGGCAACACCATCGACATCAATACTCGCGGCTTCCAGTTCTATGAAGGCATGGAGCAGGCGCAGCCGGTGCGGGTGCGTTTCTCCGGTGACTATGTGGCCGCGCTGACGGGCGCCAACAATGCGAGCCTGTCGGTGGTGCGCCTCGAGCCGCTGCTGATTGGTGGGTTGTACCCGAAAAATCTCGAAGACCGGATCCTGATCAAGATCGACCAGGTGCCGCCGTTCCTGCTTGAAACCCTGATCGCCGTCGAAGACCGTGATTTCTACCATCACTTCGGCGTCTCGCCCAAGTCGATTGCCCGGGCTGTCTGGGTCAATACCTCGTCGGGACACATGCGCCAGGGCGGCAGTACCCTGACCCAGCAGTTGGTCAAGAACTTCTACCTGACCAACGAACGCAGCCTGACCCGCAAGCTCACCGAAGCGATGATGGCGTTGTTGCTGGAGTTGCATTACAGCAAGCAGGAAATTCTCGAGGCCTACCTCAACGAGGTCTTTGTCGGCCAGGACGGCCAGCGAGCGGTGCACGGTTTCGGCCTGGCCAGCCAGTTCTTCTTCAGCCAGCCGCTGTCCGAGCTCAAGTTGCACCAGGTGGCGTTGCTGGTCGGCATGGTCAAGGGGCCGTCTTCCTACAACCCGCGTCGCAATCCGGAGCGCGCCCTCGAGCGGCGCAACCTGGTCTTGGACTTGTTGCAGCAACAAGGCGTGGCCACGGCCGAGCAGGTGGAAGCGGCGAAAAAGATGCCGCTGGGCGTGACCAAGCGCGGCAGCCTGGCGGACAGTTCGTTCCCGGGCTTCATGGACCTGGTCAAGCGTCAGCTGCGCGAAGACTATCGCGACGAAGACTTGACCGAAGAGGGCTTGCGCATCTTCACCAGCTTCGATCCGATCCTGCAGATGAAAGCCGAGGCCTCGGTCAATGACACCTTCAAGCGCCTGGCGGGGCGCAAGGGCTCTGACGAAGTCGAAGCGGCCATGGTCGTGACCAACCCGGAAACCGGCGAAGTCCAGGCGATGATCGGCAGCCGTCAGGCCAGCTATGCCGGTTTCAACCGGGCGCTGGATGCGGTGCGCCCGATCGGCTCGCTGATCAAGCCGGCGGTGTACCTCACCGCTCTGGAAAAACCGAGCCAGTACACGCTGACCAGTTGGCTCTCCGACGAGTCATTCTCGGTCAAGGGCGCGGACGGCCAGGTCTGGACGCCGCAAAACTATGATCGTCGTCCCCACGGCACGGTATTCCTTTATCAGGGCCTGGCGCATTCCTACAACCTCTCAACGGCTCGCCTCGGGCTGGAAGTCGGCGTGCCGAATGTGCTCAAGACCTTGGCGCGCCTGGGGGTGAACCGCGAGTTCCCGGCTTTCCCGTCGATGCTGTTGGGCGCCGGTGGCCTGACCCCGATCGAAGTGGCCGCGATGTACCAGACCCTGGCCAACGGTGGTTTCAATACGCCGATGCGTGGCATCCGCAGTGTGCTGACCGCCGACGGCGAGCCGCTCAAGCGTTATCCGTTCCAGATCCAGCAGCGTTTCGATCCGGCTTCCATTTATCTGATCCAGAGCGCCATGCAGCGGGTCATGCGTGAAGGTACCGGCAGCTCGGTCTATAACGTGCTTCCGCGGACGCTGACCCTGGCGGGCAAGACCGGCACCAGTAACGATTCGCGCGACAGTTGGTTCGCCGGGTTCAGCCAGGACTTGCTGGCGGTGGTCTGGCTGGGGCGTGACGACAACGGCAAGACGCCGTTCACCGGCGCCACCGGCGCATTGCAGGTCTGGACCAGTTTCATGCGCAAGGCCGACCCGTTGCCGCTGGACATGCCGCAACCGGACAACATCGTCCAGGCCTGGGTCGATTCACGCACCGGGCAGGGCTCCGACGCGAATTGCCCGGGCGCGGTTCAGATGCCGTATATTCGCGGCAGCGAACCGCCGCCAGGTGCGGAGTGTGGCGGCCAGAACCCAGCCGAATCGGTGATGGATTGGGTCAAGGACTGGGTGAATTAA	MTRTRSPRTPKKPPASRLRPWLGWALKLSLVGLVVLAGFAVYLDAVVQEKFSGKRWTIPAKVYARPLELFVGQKLSKEDFLTELDALGYRRESVANGPGAASVNGNTIDINTRGFQFYEGMEQAQPVRVRFSGDYVAALTGANNASLSVVRLEPLLIGGLYPKNLEDRILIKIDQVPPFLLETLIAVEDRDFYHHFGVSPKSIARAVWVNTSSGHMRQGGSTLTQQLVKNFYLTNERSLTRKLTEAMMALLLELHYSKQEILEAYLNEVFVGQDGQRAVHGFGLASQFFFSQPLSELKLHQVALLVGMVKGPSSYNPRRNPERALERRNLVLDLLQQQGVATAEQVEAAKKMPLGVTKRGSLADSSFPGFMDLVKRQLREDYRDEDLTEEGLRIFTSFDPILQMKAEASVNDTFKRLAGRKGSDEVEAAMVVTNPETGEVQAMIGSRQASYAGFNRALDAVRPIGSLIKPAVYLTALEKPSQYTLTSWLSDESFSVKGADGQVWTPQNYDRRPHGTVFLYQGLAHSYNLSTARLGLEVGVPNVLKTLARLGVNREFPAFPSMLLGAGGLTPIEVAAMYQTLANGGFNTPMRGIRSVLTADGEPLKRYPFQIQQRFDPASIYLIQSAMQRVMREGTGSSVYNVLPRTLTLAGKTGTSNDSRDSWFAGFSQDLLAVVWLGRDDNGKTPFTGATGALQVWTSFMRKADPLPLDMPQPDNIVQAWVDSRTGQGSDANCPGAVQMPYIRGSEPPPGAECGGQNPAESVMDWVKDWVN	PGPT0023880_814	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023880-mrcB-K05365	NA	NA
D1-35_04932	723			hypothetical protein	GTGAACAAGTGGTTGATTCCAGCGGTAACCGCCGTGGCTTTGCTCAGCGGCTGCTCTACCGTACAGCGCGGCTCGATTCCGGTTGTCGACTCCGGTACCGCCGTTTCCAACAGCGAGCGGGTCTCGGCCAATGGCGGTTTCCGTCAGACGACCGTAAAGCGGCCGGTGCAGGGTGCTCAGACCCAGGCGATTCCCCAGGGTGATACGGGCGTCGTGGTGATGGTGCCCGGTGGTGGCGCTGCCACGTCGGCACCCATCAGCAGCACGCCGATCACACCGGGGCCGATCACGCCGGGTCCTATCGAGACCTCGCCGATCGACCAGGGCAGCTACAGCATGCCATCGACGCCGAGCAGCATCCCGTCGGCGAGCTCCGGTGGCTTGTCCGCCGATGAGCAACTGGATGGTCCGGTGTTGGCGCTGCTGACTACGGCCCAACAGCAGCAGGCCGGTGGTGACCTCAACGGCGCGTCTTCCAGCCTCGAGCGCGCCCAGCGTGTCGCGCCGCGCGAGCCTCAGGTTCTTTATCGACTGGCCCAGGTACGCATGGCCCAGGGCGATGCGCCGCAAGCCGAGCAACTGGCGCGCCGCGGCCTGACATTCTCCAGCGGCCGGCCGGCACTCCAGGCAAGCCTGTGGGAACTGATTGCCCAGGCCCGCGAGAAACAAGGCGACTCCGCTGGCGCCGCACTGGCCCGTCAGAAAGCCAAGGTTTCACTCTGA	MNKWLIPAVTAVALLSGCSTVQRGSIPVVDSGTAVSNSERVSANGGFRQTTVKRPVQGAQTQAIPQGDTGVVVMVPGGGAATSAPISSTPITPGPITPGPIETSPIDQGSYSMPSTPSSIPSASSGGLSADEQLDGPVLALLTTAQQQQAGGDLNGASSSLERAQRVAPREPQVLYRLAQVRMAQGDAPQAEQLARRGLTFSSGRPALQASLWELIAQAREKQGDSAGAALARQKAKVSL				NA	NA	NA	NA	NA
D1-35_04933	330	yqcC	COG3098	putative protein YqcC	ATGGATGTTCGTTTTCCCCAGATCGCCGATCAGTTGCTGCTGATCGAGCGCGAACTGCGCGTCCAGGGTTGGTGGAGCAGCGTTTCGCCTTCGGTCGAGGCGCTGGCGAGTGTCGAGCCGTTCGCGGTCGATACCCTGGATTTCGAACAGTGGCTGCAATGGATCTTCCTGCCGCGAATGAAGGCGATCCTGGAAAACGACCTGCCACTGCCTAACGCTTCGGGCATTCTGGCCATGGCCGAAATGGTCTATGCCCAGCGGCCAGGGCAGGGCGCCGAGTTGCAGCGGTTGCTGGCGCAGTTCGACCAGTTGATCAGCGACGCCCGCTGA	MDVRFPQIADQLLLIERELRVQGWWSSVSPSVEALASVEPFAVDTLDFEQWLQWIFLPRMKAILENDLPLPNASGILAMAEMVYAQRPGQGAELQRLLAQFDQLISDAR				NA	NA	NA	NA	NA
D1-35_04934	423			hypothetical protein	ATGCGAACGATGTTATTGACGGCCTGCCTGCTGGCGGGCCTGAGCCCGATGAGCATGGCCGGCCAGATTTACAAATGGGTGGACGCCCAGGGCGTGACCCACTTCGGCGCCCAGCCGCCGCAAGGCGTAGAGGCGACAACCGTGGGCAGATCCGCACCGCCCGCTCCCAAGCAGGCAGCACCTGTTACCGGCGATGTCGTCGGCGATCAAAAAGCCATCGATCAACAAGTAAAGCAGCAGGTTGCCGAGCAGGAAGCCCAACTCAAGGCGTTCTGCGAGCAGGCCAGGACCAACCTGGCGCAACTGCAGAACAATCCCAGGGTCAGGGAAGACGTGGAAGGCGAAATGCGCCGGCTCACGGATGAAGAGCGGCGCCAGCGCATCGATGAGACCCGCAAGCAGATCGAAGAACACTGCCAGTGA	MRTMLLTACLLAGLSPMSMAGQIYKWVDAQGVTHFGAQPPQGVEATTVGRSAPPAPKQAAPVTGDVVGDQKAIDQQVKQQVAEQEAQLKAFCEQARTNLAQLQNNPRVREDVEGEMRRLTDEERRQRIDETRKQIEEHCQ				NA	NA	NA	NA	NA
D1-35_04935	1725	ilvI	COG0028	Acetolactate synthase isozyme 3 large subunit	GTGGAGCTTTTATCTGGCGGTGAGATGCTCGTCCGCTTCTTGCGTGACGAAGGCGTCAAATATATCTACGGGTACCCCGGCGGTGCTCTCCTTCATGTCTATGATGCCCTGTTCAAAGAACCGGAAGTGACCCACATCCTGGTTCGCCACGAACAAGCGGCCACCCACATGGCGGACGGCTATGCCCGCGCCACCGGCAAGGCCGGCGTGGTTCTGGTGACATCCGGCCCTGGCGCCACGAACGCCATCACCGGTATCGCCACGGCCTACATGGACTCGATCCCGATGGTGATCATCTCTGGCCAGGTGCCCAGCACCATGGTCGGTACCGATGCGTTCCAGGAAACCGACATGATCGGTATCTCCCGGCCGATCGTGAAGCACAGCTTTATGATCAAGCACGCCTCGGAAATCCCGGAGGTCATGAAAAAAGCCTTTTACCTGGCTGAGTCCGGTCGTCCAGGCCCGGTCGTGGTCGACGTGCCGAAAGACATGACCAACCCGGCCGAGAAATTCGAGTACATCTATCCGAAAAAAGCCAAGCTGCGCTCTTACAGCCCGGCCGTACGCGGTCACTCGGGACAAATCCGCAAGGCCGCCGAAATGCTGCTCGCGGCCAAGCGCCCGGTCCTGTACTCGGGTGGTGGGGTCATCCTCGGTGGTGGCTCCGCGCCGCTGACCGAATTGGCCAAGATGCTCAACCTGCCGGTTACCAATACCTTGATGGGGCTTGGCGCCTACCCGGGCACCGACCGCCAGTTTATCGGCATGCTCGGCATGCACGGCAGCTACACCGCCAACCTGGCGATGCACCATGCCGATGTCATCCTGGCCGTGGGCGCGCGTTTCGACGACCGGGTCATCAACGGCCCGGCGAAATTCTGCCCGAACGCCAAGATCATCCACATCGACATCGACCCGGCGTCCATCTCCAAGACCATCAAGGCAGACGTGCCGATTGTCGGTCCGGTCGAGAGCGTGCTGACCGAGATGGTCGCCATCCTCAAGGAAATCGGCGAGGCTCCGAACAAGGAGTCCGTGGCCGCCTGGTGGAAACAGGTCGATGAATGGCGCGGTGATCGTGGCCTGTTCCCGTACGACAAGGGCGACGGCAGCGTGATCAAGCCGCAGACCGTCATCGAGACCCTGTGCGAAGTGACCAAGGGCGATGCCTTCGTGACTTCCGACGTTGGCCAGCACCAGATGTTCGCGGCGCAATACTACCGGTTCAACAAGCCTAACCGCTGGATCAACTCCGGTGGCCTGGGCACCATGGGCTTCGGCTTCCCGGCGGCCATGGGCGTCAAGTTGAGCTTCCCGGACAACGACGTCGCCTGCGTCACCGGCGAAGGCAGTATCCAGATGAACATCCAGGAGCTGTCGACCTGCCTGCAGTACGGTTTGCCGGTGAAGATCGTCAACCTGAACAACGGTGTACTGGGCATGGTTCGCCAGTGGCAGGACATGAGCTACGGCAGCCGTCATTCGCATTCCTACATGGAGTCGCTGCCGGACTTCGTCAAGCTGGTCGAGGCCTACGGTCACGTGGGCATCCGCATCACCGACCTGAAGGACTTGAAGTCCGGGCTTGAAGAAGCCTTCGCCATGAAGGACCGCCTGGTGTTCCTCGATATCCAGGTCGATACCAGCGAGCACGTCTACCCGATGCAGATCAAAGACGGCTCCATGCGCGATATGTGGCTGAGCAAGACGGAGCGTACCTAA	MELLSGGEMLVRFLRDEGVKYIYGYPGGALLHVYDALFKEPEVTHILVRHEQAATHMADGYARATGKAGVVLVTSGPGATNAITGIATAYMDSIPMVIISGQVPSTMVGTDAFQETDMIGISRPIVKHSFMIKHASEIPEVMKKAFYLAESGRPGPVVVDVPKDMTNPAEKFEYIYPKKAKLRSYSPAVRGHSGQIRKAAEMLLAAKRPVLYSGGGVILGGGSAPLTELAKMLNLPVTNTLMGLGAYPGTDRQFIGMLGMHGSYTANLAMHHADVILAVGARFDDRVINGPAKFCPNAKIIHIDIDPASISKTIKADVPIVGPVESVLTEMVAILKEIGEAPNKESVAAWWKQVDEWRGDRGLFPYDKGDGSVIKPQTVIETLCEVTKGDAFVTSDVGQHQMFAAQYYRFNKPNRWINSGGLGTMGFGFPAAMGVKLSFPDNDVACVTGEGSIQMNIQELSTCLQYGLPVKIVNLNNGVLGMVRQWQDMSYGSRHSHSYMESLPDFVKLVEAYGHVGIRITDLKDLKSGLEEAFAMKDRLVFLDIQVDTSEHVYPMQIKDGSMRDMWLSKTERT	PGPT0008185_3977	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
D1-35_04936	492	ilvH	COG0440	Acetolactate synthase isozyme 3 small subunit	ATGCGACATATTATTTCCTTGCTTCTGGAAAACGAGCCGGGTGCTCTGTCTCGTGTAGTGGGCCTGTTCTCGCAGCGCAACTACAACATCGAAAGCCTGACCGTGGCGCCAACCGAGGACCCGACCCTGTCGCGTCTGACGCTGACCACCGTGGGCCACGATGAAGTCATCGAGCAGATCACCAAGAACCTGAACAAGCTGATCGAGGTGGTCAAGCTGGTGGACCTGTCGGAGAGCGCTCATATCGAACGCGAGCTGATGCTGGTCAAGGTCAAGGCCACCGGCGCCCAGCGCGCCGAGATCAAACGCACTACCGATATTTATCGTGGGCAGATCGTCGATGTCAGCGCCAGCGTCTATACCGTTCAGTTGACCGGTACCAGCGACAAGCTCGACAGCTTCATCCAATCGATCGGCACTGCCTCGATCCTGGAAACCGTACGCAGTGGTGTCACCGGGATTGCCCGTGGCGACAAAGTACTGAGCATCTAA	MRHIISLLLENEPGALSRVVGLFSQRNYNIESLTVAPTEDPTLSRLTLTTVGHDEVIEQITKNLNKLIEVVKLVDLSESAHIERELMLVKVKATGAQRAEIKRTTDIYRGQIVDVSASVYTVQLTGTSDKLDSFIQSIGTASILETVRSGVTGIARGDKVLSI	PGPT0008205_2784	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
D1-35_04937	1017	ilvC	COG0059	Ketol-acid reductoisomerase (NADP(+))	ATGAAAGTTTTCTACGATAAAGATTGCGACCTGTCGATCATCCAGGGCAAAAAAGTCGCCATCATCGGCTACGGCTCCCAAGGTCACGCACAGGCGTGCAACCTCAAGGATTCCGGCGTTGACGTAACTGTCGGCCTGCGCAAAGGCTCGGCCACTGTCGCCAAGGCTGAGGCCCACGGCTTGAAAGTCACCGACGTGGCTTCCGCCGTTGCCGCTGCCGACCTGGTCATGATCCTGACCCCGGACGAATTCCAGTCTGCCCTGTACAAGAACGAAATCGAGCCGAACATCAAGAAAGGCGCCACCCTGGCCTTCTCCCATGGCTTCGCGATCCATTACAACCAGGTTGTGCCGCGCGCCGACCTCGACGTGATCATGATCGCGCCGAAGGCCCCGGGCCACACCGTCCGTTCCGAGTTCGTCAAGGGCGGCGGTATCCCTGACCTGATCGCGATCTACCAGGATGCGTCCGGCAATGCCAAGAACGTTGCGCTGTCCTACGCCGCCGGCGTGGGTGGCGGTCGTACCGGCATCATCGAAACCACCTTCAAGGACGAGACCGAAACCGACCTGTTCGGTGAGCAAGCCGTTCTGTGCGGCGGCACCGTCGAGCTGGTCAAAGCCGGTTTCGAAACCCTGGTTGAAGCTGGCTACGCGCCGGAAATGGCCTACTTCGAGTGCCTGCACGAACTGAAGCTGATCGTTGACCTCATGTACGAAGGCGGTATCGCCAACATGAACTACTCGATCTCCAACAACGCCGAGTACGGCGAGTACGTGACCGGTCCGGAAGTCATCAACGCCGAATCTCGCCAGGCCATGCGCAATGCCCTGAAACGTATTCAGGACGGTGAATACGCCAAGATGTTCATCAGCGAAGGTGCCACCGGCTATCCTTCGATGACCGCCAAGCGCCGCAACAACGCCGCTCACGGTATCGAAATCATCGGCGAGCAACTGCGCTCCATGATGCCGTGGATCGGTGCCAACAAGATCGTCGACAAAGCCAAGAACTGA	MKVFYDKDCDLSIIQGKKVAIIGYGSQGHAQACNLKDSGVDVTVGLRKGSATVAKAEAHGLKVTDVASAVAAADLVMILTPDEFQSALYKNEIEPNIKKGATLAFSHGFAIHYNQVVPRADLDVIMIAPKAPGHTVRSEFVKGGGIPDLIAIYQDASGNAKNVALSYAAGVGGGRTGIIETTFKDETETDLFGEQAVLCGGTVELVKAGFETLVEAGYAPEMAYFECLHELKLIVDLMYEGGIANMNYSISNNAEYGEYVTGPEVINAESRQAMRNALKRIQDGEYAKMFISEGATGYPSMTAKRRNNAAHGIEIIGEQLRSMMPWIGANKIVDKAKN	PGPT0008735_2596	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
D1-35_04938	846			hypothetical protein	ATGAGCGAACGTCCCGACGAGCCGAACCAGGCTCCTGACGCCGAAAGCCTGTTGCCCATCGATGAACACGTCGAAGAGGGCCATGACGCTGAAGGCCGTAAGGTCCGGCATCGTGGCATCTATCTGCTGCCGAACCTGTTCACCACCGCGAACCTGTTTGCCGGCTTCTATTCCATCATCAGCTCCATGAGCGCCCAGGCGGCGCTCAGTGCCGGTGATAATTCCGGGGCAAGCCGCTATTTCGCCCTGGCTGCCATTGCGATATTCGTCGCCATGGTGCTCGATGGTCTTGACGGGCGCGTGGCCCGCATGACCAATACCCAGAGCGCATTCGGCGCCGAATACGACTCACTGTCCGACATGGTCGCGTTCGGTGTTGCCCCCGCGTTACTGGCGTTCGGCTGGGCGCTGGGCGACATGGGCAAGGTCGGCTGGATGGTGGCTTTCATCTATGTGGCCGGTGCCGCGTTGCGCCTGGCACGTTTTAACACCCAGGTCGGCACTGCCGACAAACGCTACTTCATCGGTCTCGCGAGCCCTGCAGCCGCGGGCGTGGTGGCCGGCGTGGTCTGGGCATTCAGCGACTACGGCATTCAGGGCTCGAAAATGTCGTTCCTGGTGGCGTTGCTGGTTGCGGCGGCCGGGATGCTGATGGTCAGCAACATCAAATACAACAGCTTCAAGGAACTGGATCTGAAAGGTCGCGTGCCGTTTGTCGCGATCCTGGCTGTGGTTCTGGTGTTCGCCGTGGTCTTCAGCGATCCGCCGCGTGTCCTGCTGCTGGTATTTCTCGCCTATGCTGCGTCGGGTCCGGTGCAATATTTGTTGCGTCTTCGCCGACGCTAA	MSERPDEPNQAPDAESLLPIDEHVEEGHDAEGRKVRHRGIYLLPNLFTTANLFAGFYSIISSMSAQAALSAGDNSGASRYFALAAIAIFVAMVLDGLDGRVARMTNTQSAFGAEYDSLSDMVAFGVAPALLAFGWALGDMGKVGWMVAFIYVAGAALRLARFNTQVGTADKRYFIGLASPAAAGVVAGVVWAFSDYGIQGSKMSFLVALLVAAAGMLMVSNIKYNSFKELDLKGRVPFVAILAVVLVFAVVFSDPPRVLLLVFLAYAASGPVQYLLRLRRR	PGPT0007695_834	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PSS-RELATED_EXOPOLYSACCHARIDE_METABOLISM	CE-EPS-PSS-RELATED_EXOPOLYSACCHARIDE_BIOSYNTHESIS,PGPT0007695-CHO1|pssA-K17103	NA	NA
D1-35_04939	1014	msrP	COG2041	Protein-methionine-sulfoxide reductase catalytic subunit MsrP	ATGCTGATCAAGATCCCCAAATCGTCCGACAGTCGTGAATCGGACGTCACGCCTGAATCCTTCTATCTATCCCGTCGCAAGTTGCTAGGGGCATCCGTGGCTGGCCTCGCCGTGGGTAGCTTGCCGCGATGGGCCGGCGCCGCGGATGTAGCGCGTTATCCCAATGTCGAGCCAGGCAAGGCGCCGGCCTGGTTGGCTGAGAAGGTTGCAGCTACCCAATGGGGCGCGGTGACGGCTGGAAATGAGTCGATCACCCCATTCAAGGACGCCACCCACTACAACAACTTCTATGAGTTCGGAACCGATAAGGGTGATCCGGCGGCCAATGCAGGGTCGTTGAAAACCGAGCCCTGGAGCGTAGTCGTGGAGGGTGAGGTGGGTAAGCCGGGCCGCTATGGTCTGGAAGACTTCATGAGGCCTTATCAGCTGGAGGAGCGGATTTATCGATTGCGCTGTGTCGAGGCCTGGTCGATGGTCATTCCGTGGATCGGCTTTCCCATCTCCGCACTACTCAAGCAGGTCGAGCCGACCTCCAAGGCCAAGTATATTCGTTTCGAGACGCTGCAGGATCCCAAGACCATGCCGGGCCAGCGTTCAGGCTTTGCCCTGATTGACTGGCCGTATGTGGAAGGTTTGCGGTTGGATGAGGCGATGAACCCGCTGGCAATCCTCGCGGTTGGGATGTACGGGCGGGAGTTGCCGAACCAGAACGGCGCGCCGTTGCGGTTGGTGGTGCCATGGAAGTATGGCTTCAAGAGCGTGAAATCCATCGTGCGGATCAGTCTGGTCAGCGAGCAGCCCAAGACAACCTGGCAAAGCATTGCGGCTGATGAGTACGGCTTTTATGCCAACGTCAATCCCACCGTTGACCATCCGCGCTGGACCCAGGCGCGGGAGCGTCGTTTGCCGAGCGGGCTGCTCAGCCCCAACGTTCGCGATACGTTGATGTTCAACGGCTATCAGGATGAAGTGGCTTCTTTATATGCGGGGATGGACCTGAGGAAGGATTATTGA	MLIKIPKSSDSRESDVTPESFYLSRRKLLGASVAGLAVGSLPRWAGAADVARYPNVEPGKAPAWLAEKVAATQWGAVTAGNESITPFKDATHYNNFYEFGTDKGDPAANAGSLKTEPWSVVVEGEVGKPGRYGLEDFMRPYQLEERIYRLRCVEAWSMVIPWIGFPISALLKQVEPTSKAKYIRFETLQDPKTMPGQRSGFALIDWPYVEGLRLDEAMNPLAILAVGMYGRELPNQNGAPLRLVVPWKYGFKSVKSIVRISLVSEQPKTTWQSIAADEYGFYANVNPTVDHPRWTQARERRLPSGLLSPNVRDTLMFNGYQDEVASLYAGMDLRKDY	PGPT0013075_300	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013075-msrP|yedY-K07147	NA	NA
D1-35_04940	621	msrQ		Protein-methionine-sulfoxide reductase heme-binding subunit MsrQ	ATGCGTTTTCTGGCGTGGCGGATCGGCGTATTCATCGCGGCGGCGATCTGGCCAATGCTTTGGCTTTATGAGGCATTGGCGAATTTCCTGGGGCCGGACCCGGGCAAGGTCCTGGTGGATCGGTTGGGGTTGGGGACGCTGATCCTGTTGCTGGTTACCTTGTGCATGACGCCGCTGCAGAAACTGACGGGGTGGGCGGGGTGGGTAGCCGTCCGGCGTCAGTTGGGTTTGTGGTGCTTCACTTATGTCGTACTGCATTTGAGCGGGTATCTGGCGTTCATCCTGGGGTTCGATTGGTCTCAGCTGGGTGTGGAGCTGGGCAAGCGGCCTTACATCATCGTCGGAGCGCTCGGTTTTCTGGGATTGCTGGCGCTGGCAGTGACGTCCAACCGCTACAGCCAGCGGCGACTGGGCGGGCGATGGAAGAAACTGCATCGCCTGGTCTATCCGATATTGGGGCTTGGGTTGCTGCATATGTTGTGGATCGCGCGGGCCGATCTGAAGGAGTGGGCGATATATGCCTTTATAGGTGCGGTACTGTTGGTGCTCAGGGTGCCTGCGGTGATGCGGCGTATCCCGCGTCTGATGGGGCGAAAGGAGTCTTCTGCAACAAAAACGTAA	MRFLAWRIGVFIAAAIWPMLWLYEALANFLGPDPGKVLVDRLGLGTLILLLVTLCMTPLQKLTGWAGWVAVRRQLGLWCFTYVVLHLSGYLAFILGFDWSQLGVELGKRPYIIVGALGFLGLLALAVTSNRYSQRRLGGRWKKLHRLVYPILGLGLLHMLWIARADLKEWAIYAFIGAVLLVLRVPAVMRRIPRLMGRKESSATKT				NA	NA	NA	NA	NA
D1-35_04941	573			hypothetical protein	ATGACATTCAAACGTATCCTCGGAACCCTCGCCTTGCTGCTGACCCCAGCTCTGGCCTTTGCCCACCCCGGTCACGGCGATAACGGCCTGATCGCCGGCCTGGGCCACCCCATCGGCGGGCTCGACCATCTGCTCGCGATGTTGGCGGTCGGCTTGTGGGCGGCCCAACAACAAGGCGCCGCGCGCTGGGCACTGCCATGCACTTTCGTTGGGACGATGCTGCTCGGTGGTTTGCTGGGCTTCGAAGGCCTGGACCTGCCTGCGCTGGAAAGCGGCATCGCCGCCTCGGTGCTGGCCCTGGGCCTGGCGGTGGCGCTGGCGGTGCGTCCGCCGCTAAGCCTGGCAGTCGGTGCGACCGCGCTATTTGCGCTATTCCATGGCGTCGCCCATGGCTTGGAGCTGCCGGACATGTCGAGTCCGTGGGCCTATGCGGTGGGGTTCGTCGCCGCAACGGCGGCGCTGCACGGCGCGGGCTTTGCGCTGGTTCGTGTGTTGCCACGCGCGGCGGCGCCGGTGATCAGGTTGGCCGGGGCTGCTTCGGCGGCGGCTGGGGTCTGGTTGTTGGCCAGCTGA	MTFKRILGTLALLLTPALAFAHPGHGDNGLIAGLGHPIGGLDHLLAMLAVGLWAAQQQGAARWALPCTFVGTMLLGGLLGFEGLDLPALESGIAASVLALGLAVALAVRPPLSLAVGATALFALFHGVAHGLELPDMSSPWAYAVGFVAATAALHGAGFALVRVLPRAAAPVIRLAGAASAAAGVWLLAS	PGPT0000995_690	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000995-ureJ-K03192	NA	NA
D1-35_04942	615	ureG		Urease accessory protein UreG	ATGAATACACAACCTTTGCGCGTCGGTATTGGCGGCCCGGTAGGCTCCGGCAAGACCGCACTGACCCTGGCTCTCTGCCTGGCCTTGCGCGAGCGCTACAACCTGGCCGTGGTCACCAACGATATCTACACCCGTGAAGACGCTGATTTCCTGGTGCGCAACGAAGCCCTGGCGCCGGAGCGGATCATCGGCGTGGAAACCGGTGGGTGCCCGCACACGGCGATTCGCGAAGACGCCTCGATCAACCTTGAAGCGGTGGACCAGTTGAACCGGCGGTTCCCGGGCCTCGACCTGATCCTGGTCGAGTCCGGTGGCGACAACCTGTCCGCGACCTTCAGCCCCGAGCTGTCGGACCTGACCATCTACGTGATCGACGTATCGGCTGGCGACAAGCTGCCGCGCAAGGGCGGGCCGGGCATCTGCAAATCCGACCTGCTGGTGATCAACAAGATTGACCTGGCGCCACTGGTGGGTGCCTCCCTGGAACTGATGAACAGCGATACCCAGCGGATGCGCAACGGCAAGCCCTTCGTGTTCAGCAACCAGAAGACCGGCCAGGGCCTGGACGACATCATCGCCTTCATCGAGCGCCAGGGCCTGCTGAGCGCGGCGTGA	MNTQPLRVGIGGPVGSGKTALTLALCLALRERYNLAVVTNDIYTREDADFLVRNEALAPERIIGVETGGCPHTAIREDASINLEAVDQLNRRFPGLDLILVESGGDNLSATFSPELSDLTIYVIDVSAGDKLPRKGGPGICKSDLLVINKIDLAPLVGASLELMNSDTQRMRNGKPFVFSNQKTGQGLDDIIAFIERQGLLSAA	PGPT0000985_1701	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000985-ureG-K03189	NA	NA
D1-35_04943	675	ureF	COG0830	Urease accessory protein UreF	ATGAACCCGGCCTGGGCACTGCTGCGCCTGGCCAGTCCGCAACTGCCGATTGGCGGCTACAGCTACTCCCAGGGCCTGGAAATGGCTGTGGACAAAGGCTTGGTCAAAACGCCCGACGACGCACGCCGCTGGATCAGCGATCAGATGCTACTGAACCTGGCGCGTTTCGAAGCGCCCTTGCTGCTGGCTCATTGCAGGGCGGCCGCTGCCGACGATTGGCACGCGCTGCTGGAGCTTTGTGAACAACACCGTGCCAGCCGGGAAACCCGCGAGCTGTACCAGGAGAGCCGGCAGATGGGCTACTCGCTGCAACAATTGCTGGCGGGCCTGCCGGAGCTCGACAGCGCCGCCCGCAGCTTCCTTGAACAGCGTAGCGAACCGCACCTGGCGCTGGGCTGGGCCCTGGCGGCCCGTGCCTGGGATATCAAGCCAGAGGATGCCCTCGCCGCCTGGTTGTGGAGCTGGCTGGAAAACCAACTGGCGGTGCTGATGAAAACCCTGCCCTTGGGCCAGCAAGCCGCGCAGAGGTTGACCAGCGAGCTGCTGCCATTGCTGCAACAGGCCCAGCAGATCGCCTCGAACCTCGACCCCGACCATTACGGCAGCGCCGCGTTTGGCCTGTCCCTGGCGTGCATGGCCCATGAGCGCCAGTACAGCCGCCTGTTCCGTTCCTAG	MNPAWALLRLASPQLPIGGYSYSQGLEMAVDKGLVKTPDDARRWISDQMLLNLARFEAPLLLAHCRAAAADDWHALLELCEQHRASRETRELYQESRQMGYSLQQLLAGLPELDSAARSFLEQRSEPHLALGWALAARAWDIKPEDALAAWLWSWLENQLAVLMKTLPLGQQAAQRLTSELLPLLQQAQQIASNLDPDHYGSAAFGLSLACMAHERQYSRLFRS	PGPT0000980_1731	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000980-ureF-K03188	NA	NA
D1-35_04944	501	ureE		Urease accessory protein UreE	ATGCTGGTTATCCACCGCAGAATCGACACTCAACCGCGCTGGGACGCCGAGCTGCACCTGATCTTTGACGCCCGCAGCAAAAGCCGTCTGCGCTGTTTCAGTGCCGAGGGTGAAGACGTGGGATTGTTCTTGGAGCGAGGCCAGCCGCCGCTGTACGACGGTGAATGCCTTCAGGCCGAAGATGGGCGCATCGTGCGTGTCTGCGCCCGCCCTGAACAATTGCTCCACGTTACCTGCGCCAATGCGTTCGAACTGACCCGTGCTGCCTACCACTTGGGCAATCGCCACGTTGCCCTGCAGGTGGGCGATGGCTGGTTGCGCCTGCTGGATGATTACGTGCTCAAGGCGATGCTTGAGCAACTGGGCGCCAGCGCCGAATCCATTGAAGCGCCGTTCCAGCCGGAACACGGCGCCTACGGCGGCGGCCATCATCATTCCCGGCACGGCGACGAAGATTTCAATTACGCACCGCGCCTGCACCAGTTCGGCGTGCGTTCATGA	MLVIHRRIDTQPRWDAELHLIFDARSKSRLRCFSAEGEDVGLFLERGQPPLYDGECLQAEDGRIVRVCARPEQLLHVTCANAFELTRAAYHLGNRHVALQVGDGWLRLLDDYVLKAMLEQLGASAESIEAPFQPEHGAYGGGHHHSRHGDEDFNYAPRLHQFGVRS	PGPT0000975_811	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000975-ureE-K03187	NA	NA
D1-35_04945	633	fabR	COG1309	HTH-type transcriptional repressor FabR	ATGCTTCCCCGCGCCGAACAGAAACAACAGACCCGAAATGCCCTGATGGATGCAGCGCGCCATTTGATGGAGTGCGGCAGGGGATTCGGCAGCCTGAGCCTGCGCGAAGTCGCCAAGACAGCCGGCATCGTACCCACCGGGTTCTATCGACATTTCGACGACATGGACCAGCTTGGCCTGGCGCTCGTCAGCGAAGTCGGGCAGACGTTTCGCGAAACCATCCGGCTGGTGCGCCACAACGAATTTGTCATGGGCGGCATCATCGATGCGTCTGTGCGGATTTTTCTCGACGTGGTGCATGCCAACCGATCGCAGTTTCTGTTCCTGGCCCGCGAGCAGTACGGCGGCTCCCTGCCGGTACGCCAGGCCATCGCGAAGCTGCGCGAAGACATCAGCTCGGACCTCGCCGCCGACCTGGCATTGATGCCCAAGTTGCAACACCTGGACCTTGCGGGACTGAGCGTGATGGCCGACCTCGTCGTCAAGAGTGTCTTCGCCACCCTGCCGGATATCATCGACCCGCCCGCCAAAGCGCTCCCCGAACATCTCACCCCCCAGGCGAAGATTACCCAGCAACTACGGTTCATCTTCATCGGCCTCAAGCATTGGCACGGGTTGGGTAGCACCGAGTAA	MLPRAEQKQQTRNALMDAARHLMECGRGFGSLSLREVAKTAGIVPTGFYRHFDDMDQLGLALVSEVGQTFRETIRLVRHNEFVMGGIIDASVRIFLDVVHANRSQFLFLAREQYGGSLPVRQAIAKLREDISSDLAADLALMPKLQHLDLAGLSVMADLVVKSVFATLPDIIDPPAKALPEHLTPQAKITQQLRFIFIGLKHWHGLGSTE				NA	NA	NA	NA	NA
D1-35_04946	510			hypothetical protein	ATGAAACGCCAACTACTGATGAGTCTTTCCCTTTCCCTGCTGGCCTCTACCGCTTTCGCCTTGCCAGCTTCCGAACAGGCCACGCCGCAAGTCAAGGACAGCCATTCTGTCTATAGCCAGACCGTAGCCGAAGGTGGCCGTGACCGCCTGGAAGAGAAAGGCCTGGTCGAAGGTGGTTCCGACCGCACTCCACAGGGCCAGACCCTGGCGGCTGACGGTTCCGACCGCACTCCACAGGGCCAGACCCTGGCGGCTGACGGTTCCGACCGCACTCCACAAGGCCAGACCCTGGCGGCTGACGGTTCCGACCGCACTCCACAAGGCCAGACCCTGGCGGCTGACGGCTCCGACCGCACCCCACTGGGCGAAACCCTGGCTGCTGACGGTTCCGACCGCACCCCACTGGGCGAAACCCTGGCCGCTGAAGGTTCCGATCGCACTCCACAAGGCCAGACCCTTGCCGAAGGCGGTGGTGACCGCGTAATCGAACGCAACAGTGCAGTGAGCTGA	MKRQLLMSLSLSLLASTAFALPASEQATPQVKDSHSVYSQTVAEGGRDRLEEKGLVEGGSDRTPQGQTLAADGSDRTPQGQTLAADGSDRTPQGQTLAADGSDRTPQGQTLAADGSDRTPLGETLAADGSDRTPLGETLAAEGSDRTPQGQTLAEGGGDRVIERNSAVS				NA	NA	NA	NA	NA
D1-35_04947	2070			hypothetical protein	ATGACGCGCACCTCAAAAATTTTCGCCTGGGGCTTTGCCTGCCTCATCGCATTGCTGGCCGCGCTTGTGCTGGTCATCGCTTTCTTCGACTGGAACCGCCTCAAGCCCACGCTCAACGCGAAGGTTTCCGAGGAGTTGCATCGTCCATTCGCAATCAATGGCAACCTGGCGGTGATCTGGCAGCGCGAACCGCAGGAAGGCGGCTGGCGCGCCTTTGTGCCGTGGCCCCATGTCGTGGCCGAAGATTTGAGCCTGGGAAACCCGGACTGGTCGAAAACCCCGCAAATGGTCACGCTAAAGCGCGTCGAGCTACGTATTTCGCCCTTGGCCCTGTTGGCCCGGCGGGTGGCGATCCCGCGCATCGACCTGACCGAACCCAACGCCAGCCTGCAGCGCCTGGCTGATGGCCGCGCCAACTGGACCTTCCAGTTCGATCCGAAGGACCCGGACGCCGAACCGTCCAGTTGGTCGGTCGATATCGGTGCCATCGGCTTTGACAAGGGGCATGTCACGCTGGATGACCAGACGCTCAAGACCAGGCTCGAGGTGTTGATCGACCCGTTGGGCAAACCCATTCCGTTCAGCGATATCGTCGGTGAAAAGACTGCGAACAAAGCCCGGGAACAAGGTGCGGCACCACAGGACTACGCCTTTGCTTTCAAGGCTGACGGGCAGTATCAAGGACAGAACCTGAGCGGTTCCGGCAAGGTCGGTGGCTTGCTGGCCTTGCAGGATGCATCGCAACCCTTTCCCCTGCAGGCCCAGGCGAAGATTGCCGACACCCGCATCGAGCTGGCCGGCACCCTTACCGACCCGAAGAACCTTGGCGCCCTGGACCTGCGTCTGAAACTGGCCGGTAAAAGCCTGGCCAATCTTTACCCGTTGACTGGCGTGACGCTGCCGGATTCGCCGCCCTATGCCACTGATGGTCGCCTGATCGCCAAGCTCCACGAACCGGAGGGGGCGCAGTTCCGCTACGAGGCGTTCAACGGCAAGATTGGCGAAAGCGATATTCACGGCGACCTGGCTTATGTTTCCAGCCAGCCGAGACCGAAACTCACTGGCGCGCTGGTATCCGATCAGCTGTTGTTCAGCGACCTGGCGCCGCTTATCGGCGCCGACTCCAACACGCAACAGAAGGCGCGCGGCGGTGCCAGCAAACAACCGTCCGACAAGGTCTTGCCGGTGGAAGAGTTCCGCACTGAGCGCTGGAGCGTAATGGATGCCGACGTGGAGTTCACCGGCAAGCGCATCGTCCATAGCGAGCAATTGCCCTTCACCGACCTCTACACTCATTTGCTGCTGAACAATGGCCAGTTGAGCCTTGAACCCTTGCGCTTTGGCGTGGCCGGTGGCCGTCTCGATGCGCAGATTCGCCTCAATGGACAGACTCGGCCCCTCGAAGGCCAGGCGAAACTGACCGCGCGAGGCTTCAAGCTCAAGCAGCTTTTCCCGGGTTTCGAACCGATGAAAACCAGTTTCGGCGAGCTCAATGGCGATGCCGATCTGTCCGGCCGAGGTAATTCGGTAGCAGCGTTGCTGGGCACCGCCAATGGCAACTTGAAGATGCTCATCAACGACGGCGCTATCAGTCGGGAGTTGATGGAACTGGCAGGGTTGAACGTTGGCAACTATGTGGTAGGAAAAATCTTCGGCGACAAGGAAGTGAAGATCAATTGCGCGGCGGCTGATTTCGGCATCAAGACCGGCCTGGCGACCACTCGCCTGTTTGTATTCGATACCGAGAACGCGATCATCTATATCGATGGCACGGCGAATATGGCCACTGAACAACTGGACCTGACTGTTACCCCGGAGTCCAAGGGCTGGCGATTGATTTCCCTGCGTTCGCCGCTGTACGTACGAGGCACCTTCGCCAAGCCCGCCGCCGGGGTGAAGGCCGTGCCGCTGATGTTGCGTGGGGCCGGAATGGTCGCGCTGGGTGTCATCGCCGCGCCGGCGGCGGGGTTGCTCGCGTTGGTCGCTCCCAGCGGCGGTGAGCCCAACCAATGTGCACCGTTGCTCGAACAGATGAAGGCCGGCAAGGCGCCGAAGACGGTAAAGGACTGA	MTRTSKIFAWGFACLIALLAALVLVIAFFDWNRLKPTLNAKVSEELHRPFAINGNLAVIWQREPQEGGWRAFVPWPHVVAEDLSLGNPDWSKTPQMVTLKRVELRISPLALLARRVAIPRIDLTEPNASLQRLADGRANWTFQFDPKDPDAEPSSWSVDIGAIGFDKGHVTLDDQTLKTRLEVLIDPLGKPIPFSDIVGEKTANKAREQGAAPQDYAFAFKADGQYQGQNLSGSGKVGGLLALQDASQPFPLQAQAKIADTRIELAGTLTDPKNLGALDLRLKLAGKSLANLYPLTGVTLPDSPPYATDGRLIAKLHEPEGAQFRYEAFNGKIGESDIHGDLAYVSSQPRPKLTGALVSDQLLFSDLAPLIGADSNTQQKARGGASKQPSDKVLPVEEFRTERWSVMDADVEFTGKRIVHSEQLPFTDLYTHLLLNNGQLSLEPLRFGVAGGRLDAQIRLNGQTRPLEGQAKLTARGFKLKQLFPGFEPMKTSFGELNGDADLSGRGNSVAALLGTANGNLKMLINDGAISRELMELAGLNVGNYVVGKIFGDKEVKINCAAADFGIKTGLATTRLFVFDTENAIIYIDGTANMATEQLDLTVTPESKGWRLISLRSPLYVRGTFAKPAAGVKAVPLMLRGAGMVALGVIAAPAAGLLALVAPSGGEPNQCAPLLEQMKAGKAPKTVKD				NA	NA	NA	NA	NA
D1-35_04948	969	gcvA_8		Glycine cleavage system transcriptional activator	ATGTTTGCTGCCCTGCCACTCAACGCGTTGCGTGCCTTCGAATCCGCTGCACGATTGCTCAGTTTCAAGGCCGCGGCGGCTGAGCTGTCGGTAACGCCCACGGCGATTTCCCATCAGATCCGCTCACTGGAAACCTGGCTGGGTGTGCAACTCTTTGAGCGCCTGCCTCGCCAGGTGCGGCTGACCGAAGGTGGCCAACGCTTGTTCCACAGCCTGCACGGTGCCTTGCTGGAAGTGGCGCAAAGCGTCGATACCCTGCGCCCGCAACGCAGTACCGCGCACCTGACGATTTCCACCACCGCCGCGTTCGCGGCGCTTTGGCTGGTGCCGCGCCTGGGTCGGTTCTACGCGCGCCATCCCACCATCAATGTCCGCCTGGACACGCACTGCGAAGTGATCGACCTGCACCAGGACGCCAGCGTGGACATGGTGGTGCGCTATAGCCTGGAGAACTACCCGAACCTGTATGGCATGTGCCTGTTCGATGAGTACTTCGGTGTATACGGGTCACCTGAGCAAATAGCCGCTCTGGCGACCCGACAACCGACGACGTTGATCAGTGTGCGGTGGCACAACACCAAGCTTTATGCCCATGGCTGGGACGCCTGGTGCGCGCGGGCGGGAGAAACCTGGCTGACCCGTCAGCCCTGCATACGCGAATACGACGAGGAGCATTACGCCCTGCAAGCGGCAATTGCCGGGCAAGGCCTGGTCCTGGCGAGCAACGTGCTGGCATCCGAAAGCGTCGCCAGCGGCCTACTGGTCGCTTACCACCCGCACGTCCAGGTCAACGGCGCGGGCTACAGCGCCTTATGCGTTCCGGGCCGGGAACGCCACCCGCCAGTACGAGCGTTCTTCAAATGGCTGGAGGAAGAAGCGCGGCAGTCCGGGCACGCACTGACGAGTTCGATGAAACTGTTCCAGGACCGTGTCAGCCAGAACCAGAGCAATCATGCTGGCAAAACATGA	MFAALPLNALRAFESAARLLSFKAAAAELSVTPTAISHQIRSLETWLGVQLFERLPRQVRLTEGGQRLFHSLHGALLEVAQSVDTLRPQRSTAHLTISTTAAFAALWLVPRLGRFYARHPTINVRLDTHCEVIDLHQDASVDMVVRYSLENYPNLYGMCLFDEYFGVYGSPEQIAALATRQPTTLISVRWHNTKLYAHGWDAWCARAGETWLTRQPCIREYDEEHYALQAAIAGQGLVLASNVLASESVASGLLVAYHPHVQVNGAGYSALCVPGRERHPPVRAFFKWLEEEARQSGHALTSSMKLFQDRVSQNQSNHAGKT	PGPT0026360_1440	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
D1-35_04949	639	azoR1_2	COG1182	FMN-dependent NADH-azoreductase 1	ATGAGCAATATTCTTGTGGTACACGGCAGCCCTCGCGGCGAGCGTTCCCATTCCCGGCGTCTGACGGAGGCTTTCATAGCGGCTTGGCAGGCTGCCAATCCACATACCCAACCGACCCGCCGCGAGGTCGGCCGGACCGTTATTCCTCCGGTCAACGAAGCCTTCATCGCCGCGGCGTTCCACCCCGAGCCTCAGGGAAGGCCATTGACCATGCAGGCCGACCTGGCCTTGAGCGATGCGTTGGTGGCGGAGCTGCAGGCCCATGACCGGCTGGTGATTTCCGCACCCATGCATAATTTCGGCGTGCCCAGCGGCGTGAAGGCCTGGATCGACCAGATCGTGCGCATTGGCGTGACGTTCAACCACAGCCTGGATAACGGCGTCTCGCAATATGAGCCGTTGGTGCTGGGCAAGAAGGCCCTGATCGTGACCAGCCGTGGCGATTTCGGCTTCGGCCCCGGAGGCTCGCTGGAATCCATGAACCACGCCGATACGCTGCTGCGCACGGTCCTGGAGTTTATCGGCATCAGCGACGTGACGGTGGTGGCCGCTGAAGGAGAGGAGTCGGCCGAGCACAGCTTCGCGCGGTCCTACGCCGAGGCCGAGCGGCGCTTGCTGGCGCTGGCGCGAACATTCTGA	MSNILVVHGSPRGERSHSRRLTEAFIAAWQAANPHTQPTRREVGRTVIPPVNEAFIAAAFHPEPQGRPLTMQADLALSDALVAELQAHDRLVISAPMHNFGVPSGVKAWIDQIVRIGVTFNHSLDNGVSQYEPLVLGKKALIVTSRGDFGFGPGGSLESMNHADTLLRTVLEFIGISDVTVVAAEGEESAEHSFARSYAEAERRLLALARTF	PGPT0006790_821	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
D1-35_04950	891	lips_2		Triacylglycerol lipase	ATGTCGCAACGCTGCGCCACTCGCTACCCGCTGGTGCTGGTCCCGGGCATGCTTGGGTTCATTCGCCTGGTGTTGTATCCGTATTGGTATGGCATCGTCGAGGCGTTGCGCCGGGGTGGAGCCGTGGTGGTCGCGGTGAAGGTTTCGCCATTGCATTCGTCCGAAGTTCGCGGCGAGCAATTGCTGGCACGGATCGAGGAGATTCTCAGGGAAACCGGCGCGCAAAAGGTCAACCTGATCGGCCACAGTCAGGGCGCCCTCACTGCCCGCTATGCAGCCGCGCTGCGCCCGGATCTGGTCGCCTCGGTCACATCGGTGGCCGGCACCAACCACGGGTCCGAACTGGCCGATTACCTGCAAGACCATTATCCGGCCGACAGCGCCAAAGGGCGGTTGCTCAGCGCTTTTCTGCGGCTGATCAACGCGTTGATGAGCCTGCTCGACACCGGCTACCACGGACCGAAATTGCCGGTAGACATCCGCGCCTCCCACGCCTCGCTGACGACTGCCGGCGTGGCGTTGTTCAACGAGCGTTATCCACAAGGCCTGCCGCAGACCTGGGGCGGGCAGGGGCCGGAAGAAGTCAATGGGGTGCGTTATTACTCGTGGTCCGGGACTCTGCAGCCGGGCAAGACCGACAGGGGCCGCAACCTGTTCGACGGCACCAATCGCAGCTGCCGGCTGTTCGCGCGCACCTTCGTGCGCGAAGCCGGGCAGTGCGACGGCATGGTCGGGCGCTACAGCTCGCACCTGGGCACGGTGATTCGTGATGATTATCCGCTGGACCATTTCGACATCGTCAATCAGTCGCTGGGACTGGTGGGCAGGGGAGCGGAGCCGATCCGGCTGTTTGTCGAGCATGCGCAGCGGTTGAAGGATGCCGGGGTGTAG	MSQRCATRYPLVLVPGMLGFIRLVLYPYWYGIVEALRRGGAVVVAVKVSPLHSSEVRGEQLLARIEEILRETGAQKVNLIGHSQGALTARYAAALRPDLVASVTSVAGTNHGSELADYLQDHYPADSAKGRLLSAFLRLINALMSLLDTGYHGPKLPVDIRASHASLTTAGVALFNERYPQGLPQTWGGQGPEEVNGVRYYSWSGTLQPGKTDRGRNLFDGTNRSCRLFARTFVREAGQCDGMVGRYSSHLGTVIRDDYPLDHFDIVNQSLGLVGRGAEPIRLFVEHAQRLKDAGV	PGPT0024445_1536	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_LIPASE_ACTIVITY,PGPT0024445-lip|lipC-K01046	NA	NA
D1-35_04951	252			hypothetical protein	ATGAAGTGCAGTGTAGACAAAGCCTGTTACACCTTCATCGCCAGATCTTCATTGCTTGATCTACCGCTTTCGCGAGCAGGCTCGCTCCCACAAGGGGCACGGCGCAGAGCCACTGTGGGAGCGAGCCTGCTCGCGAAGAACGATAACGCGGTCGTGCTGATGTGCTACACCCCGGCATCCTTCAACCGCTGCGCATGCTCGACAAACAGCCGGATCGGCTCCGCTCCCCTGCCCACCAGTCCCAGCGACTGA	MKCSVDKACYTFIARSSLLDLPLSRAGSLPQGARRRATVGASLLAKNDNAVVLMCYTPASFNRCACSTNSRIGSAPLPTSPSD				NA	NA	NA	NA	NA
D1-35_04952	297	psiF		Phosphate starvation-inducible protein PsiF	ATGAAGATGCTGCGTGTCCCTTTGTTGATGATCGGCCTGCTGCTGTGTTCCCAGGGCTTCGCCGCCACCGCCCAACAGACCAAGATGACCACCTGCAACGCCGACGCCACCGCCAAGGCCCTCAAGGGTGACGAACGCAAGGCTTTCATGAGCAACTGCCTGAAGGCCACTCCGGCCACCGCTGAACCCAGTACACCGCAGGAACGCATGAAGACCTGCAACGCCACGGCGACGACCCAGGCCTTGAAGGGCGATGCGCGCAAGGCGTTCATGAGTGATTGCCTGAAGAAAAAGTAA	MKMLRVPLLMIGLLLCSQGFAATAQQTKMTTCNADATAKALKGDERKAFMSNCLKATPATAEPSTPQERMKTCNATATTQALKGDARKAFMSDCLKKK				NA	NA	NA	NA	NA
D1-35_04953	1143			hypothetical protein	ATGAGGCCGGAGCAAGAAACCAAAAAACGTCTGAACCCCGGCCAGGATCGGCCGATACAATCCCTAGTGCTGCCAGCGGAACGCTGGCAGACTGCCGATCCTTTCATGCCGTTTTTGTCCTGGGGCTGTATGCCAACGTTTTCTCAGCGTCATGTGTTGTTGGTGATCAGTTGGGTGATCATTTTTGGTGGGTTGTTGCTGGTGTTGCCGCTGCGCCTGTTGCCGAGCCTGTTGGCCGGGCTGCTGGTGTTCGAGCTGGTCAACATGCTCACCCCGCAGTTGCAACGACTGATCGAAGGCCGGCGTGCCCGCTGGCTGGCGGTAGCATTGTTGGGCACGCTGGTGGTCAGTGTGCTGAGCCTGATTTTCGCCGGGGCCTTCAGTTTCCTGCTGCACGAAGCGGAAAACCCGGGCGCATCCCTGGATAAATTCATGGGCGTGGTCGACCGCGCCCGTGGGCAATTGCCGCCGTTCATCGACGCCTACCTGCCGGCCAGCGCCGCCGAGTTCCGGGTGGCGATCGGCGACTGGGTGAGCAAGCACCTGAGCGACCTGCAGCTGGTGGGCAAGGACGCGGCGCACATGTTCGTGACGTTGCTGATCGGCATGGTGCTGGGCGCCATCATCGCCTTGCAGCGCATCCCCGACCTGACCAAGCGCAAGCCCCTGGCCGCCGCGCTGTTCGACCGCCTGAACCTGCTGGTGAAGGCGTTTCGCAACATCGTTTTTGCCCAGATCAAGATTTCCCTGCTCAACACCTTCTTCACCGGGATTTTCCTAGCGGTGGTGCTGCCGCTGTTCGGCATTCAACTGCCGTTGACCAAGACCCTGATCGTGATGACGTTCCTGCTGGGGCTGTTGCCGGTGATCGGCAACCTGATGTCGAACACCCTGATCACCATCGTCGCATTGTCGCTGTCGATCTGGGTGGCCGTGGCGGCGCTGGGTTATCTGATCGTGATCCACAAGCTCGAATACTTCCTCAACGCCCGCATCGTCGGCGGGCAGATCAGTGCCAAGTCGTGGGAACTGCTCATGGCAATGCTGGTGTTCGAAGCCGCGTTCGGCCTGCCGGGTGTGGTGGCGGGGCCGATCTACTATGCGTATCTCAAGAGCGAGTTGAAGCAGGTGGGGATGGTTTGA	MRPEQETKKRLNPGQDRPIQSLVLPAERWQTADPFMPFLSWGCMPTFSQRHVLLVISWVIIFGGLLLVLPLRLLPSLLAGLLVFELVNMLTPQLQRLIEGRRARWLAVALLGTLVVSVLSLIFAGAFSFLLHEAENPGASLDKFMGVVDRARGQLPPFIDAYLPASAAEFRVAIGDWVSKHLSDLQLVGKDAAHMFVTLLIGMVLGAIIALQRIPDLTKRKPLAAALFDRLNLLVKAFRNIVFAQIKISLLNTFFTGIFLAVVLPLFGIQLPLTKTLIVMTFLLGLLPVIGNLMSNTLITIVALSLSIWVAVAALGYLIVIHKLEYFLNARIVGGQISAKSWELLMAMLVFEAAFGLPGVVAGPIYYAYLKSELKQVGMV				NA	NA	NA	NA	NA
D1-35_04954	1275	dnaK_2		Chaperone protein DnaK	ATGAAAAACCCATCCCCGGCGCGTGCCTGCGGTATCGACTTCGGCACGTCCAACTCCACCGTCGGCTGGCTGCGCCCCGGCATGGAAACGTTGATCGCGCTGGAGGACGACAAGATCACCTTGCCCTCGGTGGTCTTTTTCAATCTTGAGGAACGTCGCCCGGTCTACGGTCGCCTGGCACTGCACGAATACCTGGAAGGCTACGAAGGCCGGCTGATGCGCTCGCTCAAGAGCCTGCTGGGCTCCAAGCTGATCAAGCACGATACCAGCGTGCTCGGCACGGCGATGCCGTTCAAGGATCTGCTGGGGTTGTTCATCGGTCAGTTGAAGAAGCGTGCCGAAGCCACCGCCGGGCGGGAATTCGAAGAAGTGGTGCTGGGGCGTCCGGTGTTTTTCGTTGATGACGATGAAATGGCCGACCAGGAAGCCGAGAACACTTTGGTGGACGTGGCGCGGGCCATCGGTTTCAAGGAAGTCTCCTTCCAGTACGAACCCATTGCGGCGGCATTCGATTATGAATCGACCATCGAAAAAGAAGAGCTGGTGCTGATCGTCGACATCGGCGGCGGTACTTCGGACTTCTCCCTGGTGCGCCTGTCTCCCGAGCGCCGCATGCACGACAACCGTCACGCCGACATCCTCGCCACAGGCGGCGTGCACATCGGCGGCACCGATTTCGACAAGCAGCTCAGCCTGCAAGGCCTGATGCCGCTGTTCGGCTACGGCAGCCGGATGAAAAGCGGCGCCTACATGCCCACCAGCCATCACATGAACCTGGCGACCTGGCACACCATCAACGCGGTGTATTCGCAAAAGTCCACGCTGGCCCTGGGCAGCATGCGCTACGACATCGAAGACACCGGCGGTATCGACCGGCTGTTCAAGCTGATCGAACAGCGTGCCGGGCATTGGCTGGCGATGGAAGTGGAGGAAACCAAGATTCAGCTGACCCACGCCGACCAGCGCCACGTGGCCCTGGACCGGATCGAGCCGGGCCTGAGCGTGGACCTGAGCCGCGCCTTGTTCGAATCGGCGATCGACGGCCTGCTGGAGCGAGTGCGCAACAGCGTCACGCAACTGCTCAACGATGCCAACGTGCGGGTTGATCAAGTCGACACGGTGTTCTTCACCGGCGGCTCCAGCGGCATTCCGGCGCTGCGCAACAGCGTCGCGGCGATGCTGCCCCAGGCGCGCCATGTAGAAGGTAATATTTTCGGCAGTATTGGCAGCGGGTTGGCGATCGAGGCGATGAAGCGGTATGGCAGCCAGGTCTGA	MKNPSPARACGIDFGTSNSTVGWLRPGMETLIALEDDKITLPSVVFFNLEERRPVYGRLALHEYLEGYEGRLMRSLKSLLGSKLIKHDTSVLGTAMPFKDLLGLFIGQLKKRAEATAGREFEEVVLGRPVFFVDDDEMADQEAENTLVDVARAIGFKEVSFQYEPIAAAFDYESTIEKEELVLIVDIGGGTSDFSLVRLSPERRMHDNRHADILATGGVHIGGTDFDKQLSLQGLMPLFGYGSRMKSGAYMPTSHHMNLATWHTINAVYSQKSTLALGSMRYDIEDTGGIDRLFKLIEQRAGHWLAMEVEETKIQLTHADQRHVALDRIEPGLSVDLSRALFESAIDGLLERVRNSVTQLLNDANVRVDQVDTVFFTGGSSGIPALRNSVAAMLPQARHVEGNIFGSIGSGLAIEAMKRYGSQV				NA	NA	NA	NA	NA
D1-35_04955	939	cbpA	COG2214	Curved DNA-binding protein	ATGGATTTCAAAGACTATTACAAGATCCTGGGTGTGGAGCCGACGGCCGACGACGCCACGATCAAGGCCGCCTATCGCAAACTGGCGCGTAAATACCACCCGGATGTAAGCAAAGAGAAAGACGCGGAGACCAAGTTCAAGGACGTCTCCGAGGCGTATGAAGCGCTGAAGAGTGCGGACAAACGCGCCGAGTACGATGACTTGCGCCGCTATGGCCAGCACGGCCAGCCGTTCCAGGGACCGCCGGGGTGGCAGAGCCGTGGTGGTTTTGGCGGGCAGGACACTGGCGATTTCTCGGATTTCTTCAGTTCGATCTTTGGCAATCGCGGGCCGGGTTTCGGTGGCGGACAATCGGGTCGCAGCGCCGGCCGTCGGGGGCAAGACGTGGAAATGGAATTACCGATCTTCCTGGAAGAGACCCTGTCGAACGAATCGAAGAAGGTCAGCTTCCAGGTGCCGCAGTACAACGCCGCGGGCCAGCATGTGAGCAATACCAGCAGAAGCCTGAACGTGAAGATCCCGCTGGGAGTGACCGATGGCGAGCGCATCCGCCTCAAGGGCCAGGGCGCGCCCGGCATCGGTGGCGGCGCCAATGGCGACTTGTACCTGACCATTCGTTTCGCCCCGCACCCCAAGTTCGATGTCGAAGGCCAGGACCTGATCATCACTTTGCCCCTGGCGCCGTGGGAACTGGCGTTGGGCACCGAGGTGGCGGTGCCGACCCTCACCGGCAAGATCAACCTCAAGGTGCCGGCCGGCAGCCAGAACGGCCAGCGCATGCGCGCCAAGGGCCACGGCCTGCGCAACAAGGCCGGCGAGCGCGGTTACCTGTTCGTGCAGCTCAAGGCCGTGATGCCCAAGGCCAGCGACGAATCGGTCAAGGCGCTGTGGGCGGAGCTGGCGAAGAAAGCCGCATTTGATCCACGGGAGAACTTCTGA	MDFKDYYKILGVEPTADDATIKAAYRKLARKYHPDVSKEKDAETKFKDVSEAYEALKSADKRAEYDDLRRYGQHGQPFQGPPGWQSRGGFGGQDTGDFSDFFSSIFGNRGPGFGGGQSGRSAGRRGQDVEMELPIFLEETLSNESKKVSFQVPQYNAAGQHVSNTSRSLNVKIPLGVTDGERIRLKGQGAPGIGGGANGDLYLTIRFAPHPKFDVEGQDLIITLPLAPWELALGTEVAVPTLTGKINLKVPAGSQNGQRMRAKGHGLRNKAGERGYLFVQLKAVMPKASDESVKALWAELAKKAAFDPRENF	PGPT0014545_6230	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686	NA	NA
D1-35_04956	300	cbpM		Chaperone modulatory protein CbpM	ATGAACAACCCGATCATTGAACTGAACCTGATGGAATTCTGTGAGGCTGCTGCGTTGGCCGATGTCCATGTGATTGAAATCGTCGAACACGGCATTCTCGAACCTCACGGCACGGCCCCCACGGACTGGCGTTTCACTGATTACGAACTGGTCCTGGCCCGGCGTGCAGCGAAGCTGCGCCGCGAGTTGGAGCTGGAATGGGAAGGCGTCGCCCTGGCGCTGGACCTGCTGGAAGAGGTGCAGCAGCTGCGCAGCGAAAACCGCATGCTCAAGCAGCGGCTGGGGCGGTTGGTCGAATGA	MNNPIIELNLMEFCEAAALADVHVIEIVEHGILEPHGTAPTDWRFTDYELVLARRAAKLRRELELEWEGVALALDLLEEVQQLRSENRMLKQRLGRLVE				NA	NA	NA	NA	NA
D1-35_04957	1701	ureC		Urease subunit alpha	ATGAAAATCTCCCGCCAAGCCTACGCCGACATGTTCGGCCCCACCGTCGGCGACAAGGTTCGCCTGGCCGATACCGAGTTGTGGATCGAAGTGGAAAAGGACTTCACCACCTACGGCGAAGAAGTGAAGTTCGGCGGCGGTAAGGTGATTCGCGATGGCATGGGCCAGAGCCAACTGCTGGCCGCCGAGGTGGTCGACACGTTGATCACCAACGCACTGATCATTGACCACTGGGGCATCGTCAAGGCCGATGTCGGCCTCAAGGACGGGCGCATCGCGGCGATTGGCAAGGCCGGCAACCCGGACATCCAGCCCGACGTGACCATCGCCATCGGCGCGAGCACCGAAGTGATCGCCGGCGAAGGCATGATCCTCACCGCCGGCGGCATCGACACCCACATCCACTTCATCTGCCCGCAACAGATCGAAGAAGCCCTGATGAGCGGTGTCACCACCATGATCGGCGGCGGCACGGGCCCGGCTACCGGGACCAACGCCACCACCTGCACCTCCGGGCCGTGGCACCTGGCGCGCATGCTCCAGGCCGCCGACGCGTTCCCGATGAACATCGGTTTCACCGGCAAGGGCAACGCCAGCCTGCCGGAGCCGCTGGTCGAGCAGGTCAAGGCCGGGGCCATCGGCCTGAAGCTGCATGAAGACTGGGGCACCACGCCGGCGGCCATCGACAACTGCCTGAGCGTGGCCGACCAGTACGATGTGCAGGTGGCGATCCACACCGACACCCTCAACGAATCCGGCTTCGTCGAAACCACCCTGGCGGCGTTCAAGGGCCGCACCATCCACACCTACCACACCGAAGGTGCCGGTGGCGGTCATGCGCCGGACATCATCAAGGCCTGCGGTTTTCCTAACGTGTTGCCCAGCTCCACCAACCCGACCCGGCCATTCACCCGCAACACCATCGACGAGCATCTCGACATGCTGATGGTCTGCCACCACCTGGACCCGAGCATCGCCGAAGACGTGGCCTTCGCCGAAAGCCGCATCCGCCGTGAAACCATCGCTGCCGAAGACATTCTCCATGACCTCGGCGCGTTCTCGATGATCAGCTCCGACAGCCAGGCCATGGGCCGCGTCGGCGAGGTCATCACCCGCACCTGGCAAACCGCCGACAAGATGAAAAAGCAGCGCGGCGCCCTGCCCGGCGATGGCGCCGGTAACGACAATTTCCGCATCAAGCGCTACATCGCCAAGTACACCATCAACCCGGCGATCACCCATGGCATCAGCCATGAGGTGGGCTCCATCGAAGTCGGCAAATGGGCCGACCTGGTGTTGTGGCGCCCGGCGTTCTTCGGCGTCAAACCGACCTTGATTCTCAAGGGCGGGGCGATTGCCGCCAGCCTGATGGGCGATGCCAACGCCTCGATTCCAACACCGCAACCGGTGCACTACCGGCCGATGTTCGCCAGCTACGGCGGCTCACGACACGCCACCAGCCTGACCTTCATCAGCCAGGCCGCCGCCGAGGCGGGCCTGCCGGAGCAATTGGGCTTGAAGAAACGGATCGCCGTGGTGAAAGGTTGCCGCGATGTGCAGAAGACCGACCTGATCCACAACGACTACCTGCCGAGCATCGACGTCGACCCGCAAACCTATCAGGTCAAGGCCGATGGCGTGCTGTTGTGGTGTGAACCGGCGGACGTCCTGCCGATGGCGCAGCGGTATTTTCTGTTTTGA	MKISRQAYADMFGPTVGDKVRLADTELWIEVEKDFTTYGEEVKFGGGKVIRDGMGQSQLLAAEVVDTLITNALIIDHWGIVKADVGLKDGRIAAIGKAGNPDIQPDVTIAIGASTEVIAGEGMILTAGGIDTHIHFICPQQIEEALMSGVTTMIGGGTGPATGTNATTCTSGPWHLARMLQAADAFPMNIGFTGKGNASLPEPLVEQVKAGAIGLKLHEDWGTTPAAIDNCLSVADQYDVQVAIHTDTLNESGFVETTLAAFKGRTIHTYHTEGAGGGHAPDIIKACGFPNVLPSSTNPTRPFTRNTIDEHLDMLMVCHHLDPSIAEDVAFAESRIRRETIAAEDILHDLGAFSMISSDSQAMGRVGEVITRTWQTADKMKKQRGALPGDGAGNDNFRIKRYIAKYTINPAITHGISHEVGSIEVGKWADLVLWRPAFFGVKPTLILKGGAIAASLMGDANASIPTPQPVHYRPMFASYGGSRHATSLTFISQAAAEAGLPEQLGLKKRIAVVKGCRDVQKTDLIHNDYLPSIDVDPQTYQVKADGVLLWCEPADVLPMAQRYFLF	PGPT0000965_1980	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000965-ureC-K01428	NA	NA
D1-35_04959	306	ureB		Urease subunit beta	ATGATTCCAGGCCAGTACCAGGTCCAGCCCGGCGACATCGAGCTCAACGTCGGCCGCCGTACCCTCAAGCTGAACGTCGCCAACAGCGGCGATCGGCCGATCCAGGTCGGCTCGCACTTTCATTTTTTCGAAACCAACGACGCCCTGGCCTTCGACCGCGCCGCCAGCCGAGGCATGCGCCTGAACATCCCGGCCGGCACGGCGGTGCGCTTCGAACCGGGTCAGAGCCGCGAGGTGGAACTGGTGGACCTGGCCGGGCATCGGCGGGTGTTCGGGTTTGCCGGGCGGGTCATGGGCGATCTGTAA	MIPGQYQVQPGDIELNVGRRTLKLNVANSGDRPIQVGSHFHFFETNDALAFDRAASRGMRLNIPAGTAVRFEPGQSREVELVDLAGHRRVFGFAGRVMGDL	PGPT0000960_1129	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000960-ureB-K01429	NA	NA
D1-35_04960	534	ttr		Acetyltransferase	ATGAATGCCGCGCAGTTGCGCCGAGTCCACGCTGAAAGCTTCGCGCATTACCGCCAGGGCTTGATTGATCTGCTGCTCGACGCCGTGGGCTATGGCGCCAGCGTGGGGTTCATGGCTGACCTAGATGCCGTCCAGGCCCGCGCCTATTTCGACGAGGTCCAGGCCAGCCTCAACCAGGGCCATCTGCTGCTGTGGGTGGTGGTCAAGGACGAGCAGGTGCAAGCCAGCGTCCAGCTCGCGCTGTGCCAGAAGCCCAACGGCCTCAACCGCGCCGAAGTGCAAAAGCTGCTGGTGCGCGGCGATGCCCGCCGCCGCGGCCTCGGCCAGCAGTTGATGAATGCCTTGGAGCTCGGTGCGCGCCAGCACCAGCGCGGCTTGCTGTACCTCGACACCGAGGCCGGTTCCGAGGCCGAGGCGTTCTACCGCGCCATGGGCTACACCCGCGTCGGCGAACTGCCCGACTACTGCCAGAGCCCGGACGGGACCTACAGCCCGACCGCCATTTACTACAAGACTTTGGGGCAACCGCAATGA	MNAAQLRRVHAESFAHYRQGLIDLLLDAVGYGASVGFMADLDAVQARAYFDEVQASLNQGHLLLWVVVKDEQVQASVQLALCQKPNGLNRAEVQKLLVRGDARRRGLGQQLMNALELGARQHQRGLLYLDTEAGSEAEAFYRAMGYTRVGELPDYCQSPDGTYSPTAIYYKTLGQPQ	PGPT0012925_89	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TABTOXININE-BETA-LACTAM_RESISTANCE,PGPT0012925-ttr-K19113	NA	NA
D1-35_04961	534			L-methionine sulfoximine/L-methionine sulfone acetyltransferase	ATGACTTATCAGATTCGTGACGCCCGCCCTGCCGACCTGCCGGCGATCCGTGACATCTACAACGATGCGGTCCTCAACACCACGGCGATCTGGAACGAACAGGCTGTGGACCTGGGCAATCGCCAGGCCTGGTTCAGCGCCCGGCAAATCCAGGGTTATCCGGTGCTGGTGATCAGCGACGCCGAAGATGACGTGCTCGGCTACGCTTCATTCGGCGACTGGCGGCCGTTCGACGGTTTCCGCCACACCGTGGAGCATTCGGTGTACGTACGCAGCGATCAACGTGGCAATGGGCTCGGCCCGTTGCTGATGGGTGCGCTGATCGAGCGCGCCAGGGCCTGCGGCAAACACGTGATGGTTGCGGCCATCGAGAGCGGCAATGCGGCGTCGATTCGCCTGCACGAGCGGGCCGGTTTTGCCATCACCGGGCAGATGCCCCAGGTGGGCACCAAGTTTGGTCGCTGGCTGGACCTGACCTTCATGCAGTTGGTCCTCAATCCCGGGGCGCCACCGCCCACCATCGACAAGGAGTGA	MTYQIRDARPADLPAIRDIYNDAVLNTTAIWNEQAVDLGNRQAWFSARQIQGYPVLVISDAEDDVLGYASFGDWRPFDGFRHTVEHSVYVRSDQRGNGLGPLLMGALIERARACGKHVMVAAIESGNAASIRLHERAGFAITGQMPQVGTKFGRWLDLTFMQLVLNPGAPPPTIDKE				NA	NA	NA	NA	NA
D1-35_04962	303	ureA		Urease subunit gamma	ATGGACCTGACCCCACGCGAAAAAGACAAGCTGCTGATCTTCACCGCCGGCCTCGTCGCCGAGCGGCGCCTGGCTCGTGGCCTGAAGCTCAACTATCCGGAAGCCATGGCCTACATTTCCGCCGCGCTGCTGGAAGGCGCTCGTGACGGCCAGACCGTGGCCGAGCTGATGCACTACGGCACAACGCTGCTGAGCCGCGAGCAGGTGATGGAAGGCATTCCGGAAATGATCCCCGAGATCCAGGTCGAGGCGACATTTCCCGACGGCACCAAACTGGTCACCGTCCACCAGCCCATCGCCTGA	MDLTPREKDKLLIFTAGLVAERRLARGLKLNYPEAMAYISAALLEGARDGQTVAELMHYGTTLLSREQVMEGIPEMIPEIQVEATFPDGTKLVTVHQPIA	PGPT0000955_339	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000955-ureA-K01430	NA	NA
D1-35_04963	843	ureD		Urease accessory protein UreD	ATGAATCTACCTGTATCGCCCTCCGCCCTGTTCACCCCCAGCTGGCATGCCGAGCTGGACTTGGGCTATGCCCGATTCGGCGACTGCACGCGTCCGGTCCAGCGTCGCCACAAAGGTCCACTGCGGGTGCAGAAACACCTGTACGCCGAAGGTCCCGAAGTCTGCCAGCACATCATCGTCCACCCGCCCGGCGGGATTGCCGGCGGTGATCGGCTGGACATCTCGGCTCACGTCGGCCCCGGTGCCTGGGCGCAACTGACCAGCCCCGGCGCGGCCAAGTGGTACCGCGCGGCCGGCCCGGCGTACCAGCAACTGAAACTGAGCGTGGCTGGCGGTGCGACCCTGGAATGGCTGCCTCAGGAAACCATCGTGTTCAGCGCGGCCCAGGCCGAACTCAGCACCTGCATCGATCTGCAGGGCGACGCCCGGCTGTTCTACTGGGACATGGTTGCCCTCGGCCGACCGGCCAGCGGCGAACGCTTCGACCTCGGCCACTTTCAATCGCGGCTGGACATTCGCCGCGACGGCCAGTTGTTGTGGCATGAACGCCAGCGCATTGTCGGCGGTGACGGCTTGCTCGATTCCCCCATCGGGCTGGGCGGTGATCCGGTGTTTGCGACGTTGCTGGTAACCGGCGAGATCGACAGCGGGCTGCTGGAGCGCTGCCGATCCCTCGGCCATGCCGTGCGCGGCGACCTGACCCAGTTGCCCGGCCTGGTCGTGGCCCGCTGCCTGGCGAGCGAGGCATTACTGGCGCGCGGGTGGTTGATTGAATTGTGGCGCTTGCTCAGGCCCGCATTGCTCGGACGAGAAGCCATGCCACCGAGAATCTGGAGTACCTGA	MNLPVSPSALFTPSWHAELDLGYARFGDCTRPVQRRHKGPLRVQKHLYAEGPEVCQHIIVHPPGGIAGGDRLDISAHVGPGAWAQLTSPGAAKWYRAAGPAYQQLKLSVAGGATLEWLPQETIVFSAAQAELSTCIDLQGDARLFYWDMVALGRPASGERFDLGHFQSRLDIRRDGQLLWHERQRIVGGDGLLDSPIGLGGDPVFATLLVTGEIDSGLLERCRSLGHAVRGDLTQLPGLVVARCLASEALLARGWLIELWRLLRPALLGREAMPPRIWST	PGPT0000970_1108	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000970-ureD-K03190	NA	NA
D1-35_04964	699	livF_3	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGCTGCAAGTCGACAAGCTGCACCAGTACTACGGCGGTAGCCACATCCTGCGGGGCCTGTCGTTCGACGTGAAGGTCGGCGAGGTGACGTGCCTGCTGGGCCGCAACGGTGTGGGCAAGACCACCCTGCTCAAATGCCTGATGGGCCTGCTGCAGGCCAAGGAAGGCGTGGTGAACTGGGAAGGCAAGGCCATCACCACCTTCAAGCCGCACCAGCGGGTGCATGCCGGCATCGCTTACGTGCCCCAGGGCCGGGAGATTTTCGCTCGGCTGACGGTGGAAGAAAACCTGCTGATGGGCCTGTCGCGTTTTCCCGGTTCCGAAGCCAAGGAGGTGCCGGCCTTTATCTACGAACTGTTCCCGGTGCTGCTGCAGATGAAACAGCGCCGCGGCGGTGACCTGTCTGGTGGCCAGCAACAGCAGCTCGCCATTGGCCGGGCCCTGGCCAGCCGTCCGCGCCTGCTGATTCTCGACGAGCCCACCGAAGGCATCCAGCCGTCGGTGATCAAGGAGATTGGCGCGGTGATCAGGAAACTCGCGGCCCGGGGCGACATGGCGATCTTGCTGGTGGAGCAGTTCTACGACTTCGCCGCCGAGCTGGCCGATCAGTACCTGGTGATGTCCCGGGGCGAAATTGTCCAGCAGGGTCGCGGCGAAAATATGGAGGCAGAGGGTGTGCGCGGGCTGGTAACGATCTAG	MLQVDKLHQYYGGSHILRGLSFDVKVGEVTCLLGRNGVGKTTLLKCLMGLLQAKEGVVNWEGKAITTFKPHQRVHAGIAYVPQGREIFARLTVEENLLMGLSRFPGSEAKEVPAFIYELFPVLLQMKQRRGGDLSGGQQQQLAIGRALASRPRLLILDEPTEGIQPSVIKEIGAVIRKLAARGDMAILLVEQFYDFAAELADQYLVMSRGEIVQQGRGENMEAEGVRGLVTI	PGPT0000945_654	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000945-urtE-K11963	NA	NA
D1-35_04965	876	lptB_4	COG1137	Lipopolysaccharide export system ATP-binding protein LptB	ATGATGCGAATCACACCCACGGCGGACTTCATGCTCGAACCGATTATCGAGCCCCCTGTCGATGCCAATCGGGACCAAGGCAGCAGCCGCGATGCGATCGGCCTCGGCCAAGCCGCTGGCGTGGGCCTGGACACCCGCCACGGCACCATCCTGACCCTGGAAGACATCAGCGTCAGCTTCGACGGCTTCAAGGCGCTCAACGATCTGAACCTGTACATCGGCGTCGGCGAATTGCGCTGCATCATCGGCCCCAACGGTGCCGGCAAGACCACCTTGATGGACGTCATTACCGGCAAGACCCGACCCAGCCACGGCAAGGCCTGGTTTGGCGAAACCCTGGACCTGACCAGCATGAGCGAAGTGCAGATTGCCCAGGCCGGTATCGGCCGCAAGTTCCAGAAGCCGACGGTGTTCGAAGCCCTGAGCGTGTTCGAAAATCTGGAGCTGGCGCTCAAGACCGACAAATCGGTATGGGCCAGCCTGCGGGCGAAACTGACCGGCGAGCAACATGACCGTATCGGCGAAGTGCTCGAAACCATCCGCCTCACCGCCTCGGTCAATCGCGCCGCCGGGTTGCTGTCTCACGGGCAGAAGCAATTTCTCGAGATCGGCATGCTGCTGGTCCAGGACCCGCAACTGCTGCTGCTCGACGAACCGGTGGCGGGCATGACCGACGCCGAAACCGACTTCACCGCCGAGCTGTTCAAGTCCCTGGCCGGCAAACATTCGCTGATGGTGGTGGAACACGACATGGGCTTCGTCGGCGCGATCGCTGATCACGTCACCGTGCTGCACCAGGGCAGTGTGCTGGCCGAAGGGTCGCTGGAGCAGGTGCAGGCCGATGAGCGGGTGATCGAGGTGTATCTCGGTCGCTAG	MMRITPTADFMLEPIIEPPVDANRDQGSSRDAIGLGQAAGVGLDTRHGTILTLEDISVSFDGFKALNDLNLYIGVGELRCIIGPNGAGKTTLMDVITGKTRPSHGKAWFGETLDLTSMSEVQIAQAGIGRKFQKPTVFEALSVFENLELALKTDKSVWASLRAKLTGEQHDRIGEVLETIRLTASVNRAAGLLSHGQKQFLEIGMLLVQDPQLLLLDEPVAGMTDAETDFTAELFKSLAGKHSLMVVEHDMGFVGAIADHVTVLHQGSVLAEGSLEQVQADERVIEVYLGR	PGPT0000940_181	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000940-urtD-K11962	NA	NA
D1-35_04966	1077			hypothetical protein	ATGAACCAGCCCCTGATGCTCACGGCCACACAAAAGGCCGGTCCCAAACTCACCGTTGCCGTCGGCGCGCTGATCCTCGCCGTGCTGCTGAGCCTGCCGTTGCTGTCGTTGCTGGCGGCGGACAATCCGCTGCACATCTCGGCCTACACGCTGACCCTGGTGGGCAAGATCCTCTGCTATGCCATCGTCGCCCTGGCGCTGGACCTGGTCTGGGGCTACGCCGGCCTGCTCTCCCTCGGCCACGGCCTGTTCTTCGCCCTGGGCGGCTACGCCATGGGCATGTACCTGATGCGCCAGGCCGCCGGTGACGGCCTTCCGGCATTCATGACGTTTTTGTCGTGGACCGAACTGCCCTGGTACTGGGCCGGCACCGACAGTTTCCTCTGGGCGCTGTGCCTGGTGGTGTTGGCACCGGGTTTGCTGGCACTGGTTTTCGGCTTCTTCGCGTTCCGCTCGCGGATCAAGGGCGTGTATTTCTCGATCATGACCCAGGCCCTTACCTTCGCCGGGATGCTGCTGTTTTTCCGCAACGAGACGGGTTTTGGCGGCAATAACGGCTTCACCAATTTCCGTTCGATCCTGGGCTTTGGCATCACCGAGCCGGGCACCCGCGCGGTGCTGTTTTTTGCCACGGTGCTGTTGCTGGTGGCGAGCCTGTTCATCGGTTGGCGCCTGGCCCGCAGCAAGTTCGGACGGGTGCTGACGGCCCTGCGCGATGCGGAAAACCGCCTGATGTTCTGCGGCTACGATCCCCGTGGTTTCAAGCTGTTCGTCTGGGTGTTGAGCGCAGTGTTGTGCGGCCTGGCGGGGGCGCTGTACGTGCCGCAGGTGGGCATCATCAACCCCAGCGAAATGTCGCCAACCAACTCAATCGAAGCTGCCGTGTGGGTGGCCCTTGGCGGGCGCGGCACGCTGATCGGACCGCTGCTGGGCGCTGGCGTGGTCAATGGCATGAAGAGCTGGTTCACCGTGGCGTTTCCTGAGTACTGGCTGTTCTTCCTCGGCGCGTTGTTCATTGTCGTGACGCTGTATCTGCCCAAGGGCGTGATCGGCTTGCTGAAGAAAAGGGGCGAATGA	MNQPLMLTATQKAGPKLTVAVGALILAVLLSLPLLSLLAADNPLHISAYTLTLVGKILCYAIVALALDLVWGYAGLLSLGHGLFFALGGYAMGMYLMRQAAGDGLPAFMTFLSWTELPWYWAGTDSFLWALCLVVLAPGLLALVFGFFAFRSRIKGVYFSIMTQALTFAGMLLFFRNETGFGGNNGFTNFRSILGFGITEPGTRAVLFFATVLLLVASLFIGWRLARSKFGRVLTALRDAENRLMFCGYDPRGFKLFVWVLSAVLCGLAGALYVPQVGIINPSEMSPTNSIEAAVWVALGGRGTLIGPLLGAGVVNGMKSWFTVAFPEYWLFFLGALFIVVTLYLPKGVIGLLKKRGE	PGPT0000935_1212	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000935-urtC-K11961	NA	NA
D1-35_04967	1503			hypothetical protein	ATGCCCACCGTCCTCCACCGCTTGATCCTCGCCATCGCACTGTTACTGCCGATGGCCTCATACGCCGGCGAAGCCGAAGACTTCGTCGCCGCCAACCCGACCCAGCAGGCCAAGCTCCTGGAAGCCTGGGCCGCGCAGCCCGACCCGGCACGCGTCGAATTGATCAATGCCCTGCAGCAAGGCCAATTGACCATCGACGGCCAGCCAAAGACCCTGCGCCTGAACAACCGTTTGCGAGGGCTGATCGAAACCGCTCTCGCCAGCCACCAGCTACTCGCCGTGGACGCCCGTGTGCGCCTGGCCGCCGCGCAGCAATTGCAAAAAAGTGCCCGCCCCGCGCAACTGGCGTTCCTTGATCGGCAACTGGCCGGCGAGCAGGACGAAGACGTGCATGCCGCCCTGAGCCTGGCCCTGGCGAACCTGCAACTGGTGGATGCCAATCCTGCCGTGCGCCTGGCCGCCGTCCGCCTGTTGGGGGAAACCGGCGACCCGCTGGCCCGCACCCGCCTGGAAGCCCTGCTCGAACCCGGCGTCGAAACCGATGCCGCCGTGCGCACCGCCGCCGAAACCAGCCTCGGCCAGGTCAAGCGCAAACTGCTTATCGGCGAGTTGCTGGGCCAGGCCTTCAGCGGCATGTCCCTGGGCTCGATCCTGCTGCTCGCCGCCCTCGGCCTGGCAATCACCTTCGGCCTGCTCGGGGTGATCAACATGGCCCACGGCGAGATGCTGATGCTCGGCGCCTACTCCACGTATGTGGTGCAGATGCTGTTCCAGCGCTTCGCCCCGAACGCCATCGAGTTCTACCCGCTGATCGCCCTGCCGGTGGCGTTTTTCATCACCGCGGCCATCGGCATGGCCCTGGAGCGCACGGTGATCCGCCACCTCTACGGGCGCCCGCTGGAAACCCTGCTCGCTACCTGGGGCATCAGCCTGATGCTGATTCAGCTGGTGCGCCTGGTGTTCGGCGCGCAGAACGTCGAAGTCGCCAACCCGGCCTGGCTCTCGGGTGGGATCCAGGTGCTGCCGAACCTGGTGCTGCCGTACAACCGCATCGTGATCATCGCCTTCGCGCTGTTCGTGGTGGTCCTGACCTGGCTGTTGCTGAACAAGACGCGCCTGGGCCTGAACGTGCGCGCCGTGACCCAGAACCGCAACATGGCCGCCTGCTGCGGCGTGCCCACCGGGCGGGTCGACATGCTCGCTTTCGGCCTCGGCTCGGGCATCGCCGGGCTCGGCGGCGTGGCTTTGAGCCAGATCGGCAACGTCGGCCCGGACCTGGGCCAGAGCTACATCATCGACTCGTTCCTGGTGGTTGTACTCGGCGGCGTCGGCCAACTGGCCGGCAGCGTGTTCGCCGCGTTCGGCCTGGGCATCGCCAACAAGATCCTCGAACCGCAGATCGGCGCCGTGCTCGGCAAGATCCTAATCCTTGCGCTGATCATTCTGTTCATCCAGAAGCGTCCGCAAGGTCTCTTCGCGCTTAAAGGACGGGTAATCGACTGA	MPTVLHRLILAIALLLPMASYAGEAEDFVAANPTQQAKLLEAWAAQPDPARVELINALQQGQLTIDGQPKTLRLNNRLRGLIETALASHQLLAVDARVRLAAAQQLQKSARPAQLAFLDRQLAGEQDEDVHAALSLALANLQLVDANPAVRLAAVRLLGETGDPLARTRLEALLEPGVETDAAVRTAAETSLGQVKRKLLIGELLGQAFSGMSLGSILLLAALGLAITFGLLGVINMAHGEMLMLGAYSTYVVQMLFQRFAPNAIEFYPLIALPVAFFITAAIGMALERTVIRHLYGRPLETLLATWGISLMLIQLVRLVFGAQNVEVANPAWLSGGIQVLPNLVLPYNRIVIIAFALFVVVLTWLLLNKTRLGLNVRAVTQNRNMAACCGVPTGRVDMLAFGLGSGIAGLGGVALSQIGNVGPDLGQSYIIDSFLVVVLGGVGQLAGSVFAAFGLGIANKILEPQIGAVLGKILILALIILFIQKRPQGLFALKGRVID	PGPT0000930_966	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000930-urtB-K11960	NA	NA
D1-35_04968	1266	amiC_1		Aliphatic amidase expression-regulating protein	ATGAAGCGTCGTAGCTTGATCAAGGCTTTTACACTCTCGGCAAGCATTGCCGCGATGGGCATGGCCTGGTCCGTCCAGGCCGCCGAGACCATCAAGGTCGGCATCCTGCATTCGTTGTCCGGGACCATGGCGATCTCCGAAACGTCCCTCAAGGACATGGCGTTGATGACCATTGACGAGATCAACGCCAAGGGTGGCGTGAACGGCAAGAAGCTTGAAGCGGTGGTCGTGGACCCGGCATCGAACTGGCCGCTGTTTGCTGAAAAGGGCCGCCAGTTGCTGACCCAGGACAAGGTCGCCGTGGTGTTCGGCTGCTGGACCTCGGTGTCGCGCAAATCCGTGTTGCCGGTGTTCGAAGAACTCAACGGCCTGCTGTTCTATCCGGTGCAGTACGAAGGCGAAGAGATGTCGCCGAACGTGTTCTACACCGGCGCGGCGCCAAACCAGCAGGCGATTCCGGCGGTGGAGTACCTGATGAGCGAAGAAGGCGGCAGCGCCAAGCGCTACTTCCTGCTGGGCACCGACTACGTCTACCCGCGCACCACCAACAAGATCCTGCGTTCGTTCCTGCATTCCAAAGGCGTGGCGGACAAGGATATCGAAGAGGTCTACACCCCGTTCGGCCACAGCGATTACCAGACCATCGTCGCCAACATCAAGAAATTCTCTGCCGGCGGCAAGACAGCCGTCATCTCCACGGTCAATGGCGATTCCAACGTACCGTTTTATAAAGAGCTGGCGAACCAGGGCTTGAAAGCCACCGATGTACCGGTCGTGGCCTTCTCGGTGGGCGAAGAGGAACTGCGCGGCATCGACACCAAACCGCTGGTGGGTAACCTGGCGGCATGGAACTACTTCGAATCCGTGGATAACCCGGCGAACAAGAAGTTCGTCGATTCGTGGAAAGCCTACGCCAAGGCCAAGAACCTGCCGGGCGCCGACAAAGCGGTAACCAACGATCCGATGGAAGCCACCTACGTCGGCATCCACATGTGGGCGCAAGCGGTGGAAAAAGCCAAGTCCACCGATGTCGACAAAGTCCGCGAAGCCCTGGCCGGCCAGACCTTCGCCGCGCCGTCGGGCTACACCCTGACCATGGACAAGACCAACCACCACCTGCACAAGCCGGTGATGATCGGCGAGATCCAGGCCGACGGTCAGTTCAACGTGGTCTGGCAGACCGAAGGGCCGATCCGCGCGCAACCGTGGAGCCCGTTCATCGCCGGCAACGACAAGAAGCCTGACTATGCGGTGAAGAGCAACTGA	MKRRSLIKAFTLSASIAAMGMAWSVQAAETIKVGILHSLSGTMAISETSLKDMALMTIDEINAKGGVNGKKLEAVVVDPASNWPLFAEKGRQLLTQDKVAVVFGCWTSVSRKSVLPVFEELNGLLFYPVQYEGEEMSPNVFYTGAAPNQQAIPAVEYLMSEEGGSAKRYFLLGTDYVYPRTTNKILRSFLHSKGVADKDIEEVYTPFGHSDYQTIVANIKKFSAGGKTAVISTVNGDSNVPFYKELANQGLKATDVPVVAFSVGEEELRGIDTKPLVGNLAAWNYFESVDNPANKKFVDSWKAYAKAKNLPGADKAVTNDPMEATYVGIHMWAQAVEKAKSTDVDKVREALAGQTFAAPSGYTLTMDKTNHHLHKPVMIGEIQADGQFNVVWQTEGPIRAQPWSPFIAGNDKKPDYAVKSN	PGPT0000925_1048	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000925-urtA-K11959	NA	NA
D1-35_04969	1059			hypothetical protein	ATGAAGCTTCTCCTGGCGAAAACACACCATCAGATGCGCGTGAAAAACGAGATAGCACACTTCAGTAGCGTCTACCGGAACGAGTTTTACTCGAGCGTTCAGGAGCGACAGAGTGAAGCGGCCATGGGCGTAGCTCGCAACGTTCGCCGATTGAATGGACTGGCTCCAGCGCAAGGGCAGGGTGCCCAGTCCGAGATGGTGATTCTGGAGCCGTTTGAAGGAGAGGTCGCCTACTCCTATGCCACTCGTATGCTGAGGGCGAACGTCCCGCAAACGCCGCCCGACTTTCAAGCAAGGCTACGTCGGAAAGTCAGGGATCACGGTGCAATAAAAGTCCTGTCGATCTGCAGTGGTGCCGCGCGGATAGAAGCAGGTCTGTCGGCCGCTGTTCCGGAAGGCGTGGAATGGTCACTGCTGGATATCAATGAAGACCTGCTTCACATCGCGGCGAAGCAGTTTTCTTCAGGGGTCGGCCTCGATCTGATCGTGGCCGATGCGAATAACCTGGTGCCTACCGGTGAGCAGTGGGACGTTATTATCTGCGTCTCGGCATTGCACCATTTGATCGAGCTGGAAAAAGTGATGCTCTTTATCTCCCATAGTTTGAAAAACGATGGCGAGTTCTGGAGTGTGGGTGAGGCCGTGGGGCGCAATGGCAATCGCTTGTGGCCTGAGGCAATAATTGCGGCTGATGCCGCGTTCTCGGCATTGCCGGCACGCTACCGGCTGAACGCCGATACCCAGGTTGTCGATGCTGTCATTCCAGACAAGGACCACTCGATCGGGTGCTTCGAGGGTATTCGAAGTGAGGAAATTACCGCGCTCCTCGAACGTTGGCTCAAGCCGGTAGATGTTTACCGTACCAACTGCTTCCTCTGGCGAATGGTCAATCTCGCCTACAGTGGAAATTTTAATCTTGCAAAGGCCGAGGACCGGGCGTTGGTCATTGATATGGTTCGAGCGGAGCTGGAGCATTATCGAAATGGCGGCCTTGGTACCGAGCTATTCGGCGTGTACAAGAAGAAGCATCTTTTCAGCGACGGCGCATCAGACCAATAA	MKLLLAKTHHQMRVKNEIAHFSSVYRNEFYSSVQERQSEAAMGVARNVRRLNGLAPAQGQGAQSEMVILEPFEGEVAYSYATRMLRANVPQTPPDFQARLRRKVRDHGAIKVLSICSGAARIEAGLSAAVPEGVEWSLLDINEDLLHIAAKQFSSGVGLDLIVADANNLVPTGEQWDVIICVSALHHLIELEKVMLFISHSLKNDGEFWSVGEAVGRNGNRLWPEAIIAADAAFSALPARYRLNADTQVVDAVIPDKDHSIGCFEGIRSEEITALLERWLKPVDVYRTNCFLWRMVNLAYSGNFNLAKAEDRALVIDMVRAELEHYRNGGLGTELFGVYKKKHLFSDGASDQ				NA	NA	NA	NA	NA
D1-35_04970	1011	hmuU_3	COG0609	Hemin transport system permease protein HmuU	ATGAACGATCGTCGCTATGGTGCACTGCTGCTACTGCTCGGCGCGCTGCTGCTGGTGTCGTGCGTGGTGTCGCTGGGTTTCGGGCCGGCGCGGGTACCGGTGGCCGTGGTCTGGGATCTGCTGCTGCACAAGGCCTTCGGTGTCGGCGAGGTGCATTGGACAGCCGGCCAGGAGCATATCGTCTGGCTGATCCGCGTCCCGCGCCTGCTGCTCGGGGCGCTGGTAGGCGCAGGGTTGGCGTTGATCGGCGCGGTGCTGCAAGCGGTGACACGCAACCCGCTGGCCGATCCGCACCTGCTTGGCGTCACCTCCGGCGCCACCCTCGGGGCGGTCATCGTGGTGTTGCATGTCGGCGAGATCATCGGCCTGCTGACCCTGCCGCTGGCCGCCTTCATCGGCGCGCTGTCGAGTATGTTGCTGGTGCTGGCCATCGCTGCCCGCCAGGGCCGCCTGGAGAGCGATCGCCTGCTGCTCTGCGGCGTAGCGGTGTCGTTCGTGATGATGGCGGCGGCCAACCTGCTGCTGTTCCTCGGTGACCATCGCGCCAGTTCGGCGGTGATGTTCTGGATGCTCGGCGGCCTGGGCCTGGCACGCTGGGAACTGCTCGCGGTGCCAGCCGCCAGTGTATTGCTGGGGCTGGTGTTGCTGCTGGGCATGGCCCGGCCGTTGAACGCGCTGATGGCCGGGGAGCAGACCGCCGTGACCCTGGGGCTGAACGCGGCAAAGGTGCGATTATGGATCTTCCTGATTGCGTCGCTGATGACCGGCGTACTGGTGTCCATCAGCGGCTCGATCGGTTTTGTCGGGCTGATGGTGCCCCACATCGCGCGACACCTGGTGGGCGCCGAGCATCGTCGGCTGCTGCCGGCCTGCGTGCTGCTGGGCAGCCTGTTCCTGGTATGGGTGGACGTGGCGGCTCGCACGCTGATCGCGCCGGAGGATTTGCCGATCGGGGTCGCTACAGCCGCTATCGGTGGGCTGTTCTTTATTGGTCTGATGCGCCGTCGCTGA	MNDRRYGALLLLLGALLLVSCVVSLGFGPARVPVAVVWDLLLHKAFGVGEVHWTAGQEHIVWLIRVPRLLLGALVGAGLALIGAVLQAVTRNPLADPHLLGVTSGATLGAVIVVLHVGEIIGLLTLPLAAFIGALSSMLLVLAIAARQGRLESDRLLLCGVAVSFVMMAAANLLLFLGDHRASSAVMFWMLGGLGLARWELLAVPAASVLLGLVLLLGMARPLNALMAGEQTAVTLGLNAAKVRLWIFLIASLMTGVLVSISGSIGFVGLMVPHIARHLVGAEHRRLLPACVLLGSLFLVWVDVAARTLIAPEDLPIGVATAAIGGLFFIGLMRRR	PGPT0003770_6901	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
D1-35_04971	948	btuF_2		Vitamin B12-binding protein	ATGATCCTGCGTCCCCTGCTGTTGCTTCCGTTATTGCTGGCAAGCTTGCATGTCCAGGCCGAGGCCAGCCGCTACCCGCTGACGATCCAGAGCTGCAACCGCCAAGTGGTGTTCAACGAGGCCCCTCGGCACGCCCTCAGCCATGACATCAACATGACCCAGATGATGCTGGCCCTGGGGCTAAAGCCACGCATGGTTGGCTACAGCGGCATCAGCGGCTGGAAATCGGTCACGCCGGACATGGCCAAGATCCTCGATGGCCTGCCGGAACTGGCCGCCAAATATCCCTCGGTGGAAACCCTGCTGGACGCCAACGTCGATTTCTTCTTCGCCGGTTGGGACTACGGCATGCGCGTCGGCGGCGACCTGACTCCGCAGACCCTGCAACCGCTGGGCATCAACGTCTACGAACTGACCGAGTCCTGCGCGTTCGTGATGAAACGTCCGGCGGCCTCGCTGGAGGACACCTACAACGACCTGCGCAACCTTGGGAAAATCTTCGACGTGCAGGATCGCGCCAACGCGCTGATCGCCACGATGCAGGCCCAGGTGGCCGAAGTGCGCAAGCACCTGCCAACCCGACAACCGCGGGTGTTCCTGTATGACAGCGGCGAAGACCGGGCCATGACCTCCGGCCGCTTGGGCATGCCCCAGGCCCTGATCGACGCGGCCGGCGGGCGCAACATTCTGGATGACGTGGACGCCAGTTGGACCCGCGTCAACTGGGAGAACGTGGTGGAGCGCAATCCCCAGGTCATCGTGATCGTCGATTACGGCGAAGTCAGTGCCGAGCAGAAACAGCAATTCCTGCTAAGCAACCCGGCCCTGCAATCAGTCGATGCGATCAAGCACCGGCGCTTCGTCGTGATCCCTTACGTACAGGCCACGCCAGGTATCGATAACGTGCTGGCGGTGCAAACCCTGGCGCAGAGTTTCCACGGCCAATGA	MILRPLLLLPLLLASLHVQAEASRYPLTIQSCNRQVVFNEAPRHALSHDINMTQMMLALGLKPRMVGYSGISGWKSVTPDMAKILDGLPELAAKYPSVETLLDANVDFFFAGWDYGMRVGGDLTPQTLQPLGINVYELTESCAFVMKRPAASLEDTYNDLRNLGKIFDVQDRANALIATMQAQVAEVRKHLPTRQPRVFLYDSGEDRAMTSGRLGMPQALIDAAGGRNILDDVDASWTRVNWENVVERNPQVIVIVDYGEVSAEQKQQFLLSNPALQSVDAIKHRRFVVIPYVQATPGIDNVLAVQTLAQSFHGQ	PGPT0003765_8606	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
D1-35_04972	789	fepC_2	COG1120	Ferric enterobactin transport ATP-binding protein FepC	ATGACCTCGCTAACCCTCTCCCACCTCGCCTGGACCCCGCTGGGCCATGGCCACTGCCATCACCAGTTCCAACTGCGTGATGCCACGTTGCAGGTGGCGGCCGGGGAGTTTGTCGGGTTGATCGGGCCCAACGGCAGCGGCAAGACCAGCCTGTTGCGCTGCGCCTACCGCTTCAGCCGGCCAGAAAGCGGCGAGGTCAGACTCGAACACCACAACGTCTGGAAACAGCCCTCGCGCTGGTGCGCCCAACGCATCGCCGTGGTGCTGCAAGAGTTTCCCGACGCCTTCGGCCTGACGGTGGATGAGGTGGTCGCGATGGGGCGCACGCCGCACAAGGGTCTGTTCGATGGTGACAATCAGGAAGATCGCCGACTGATGCTCCAGGCATTGGAGTCGGCCGGGCTTGCAGGCTTTGGCGACCATGCATTCGCCACGCTCTCGGGCGGTGAGAAGCAACGGGTGATCCTCGCACGCGCCCTGGCCCAGCAGCCGCAGTTGCTGATCCTCGACGAACCGACCAATCACCTCGACCCGCGCTATCAATTGCAGTTGCTGCAACTGATCAAGGACCTGGGCATCGGCACCCTCGCCAGCATTCATGACCTGAACCTTGCCGCCGCGTTCTGCGACCGCCTGTACGTGATCGAACACGGGCGCATCGTCGCCAGCGGCACGCCCAGGGACGTCCTCACTGTCGACCTGTTGCGCGAAGTGTTCGGCGTCGCGGCCCTGGTGGACGAACACCCGCTGGCCGGCTACCCGCGAATCACCTGGATAACCCAACCATGA	MTSLTLSHLAWTPLGHGHCHHQFQLRDATLQVAAGEFVGLIGPNGSGKTSLLRCAYRFSRPESGEVRLEHHNVWKQPSRWCAQRIAVVLQEFPDAFGLTVDEVVAMGRTPHKGLFDGDNQEDRRLMLQALESAGLAGFGDHAFATLSGGEKQRVILARALAQQPQLLILDEPTNHLDPRYQLQLLQLIKDLGIGTLASIHDLNLAAAFCDRLYVIEHGRIVASGTPRDVLTVDLLREVFGVAALVDEHPLAGYPRITWITQP	PGPT0003760_4468	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
D1-35_04973	1380			hypothetical protein	ATGAGCCAACCGAAACCCAATTTCTACAACCTGGCCTGGCGCTGGCATTTTTATGCCGGGCTGTTCGTGGCGCCGTTCATGGTGATGCTGGCCCTGACCGGGATCATCTACCTGTTCAAGCCGCAACTCGATCCATTGATGTACGGCAACCTGCTGAACGTACCGGCCGGGCATCACAGCCTGGCGGCGGACGACCTGCTCAAGCAGGTCCGCCAGGCCTACCCCGAAGGCCAGGTCAAACAGTACCTGCCGCCGATCAACGCCGAGCGCAGCGCGCAATTCGTGGTGATCGACAAGGGTCGGGAGCTGAATGTGTTCATCGACCCGTACCACGGCGACGTGCTCGGCGAGCAGGACGCGAAAGACAACCTGCAAGCCATGGCCCGGGCGATTCACGGTGAATTGCTGATCGGCACCGTCGGTGACCGGCTGGTGGAAATGGCTGCCGGTTGGGGCGTGGTGCTGGTGGTTTCCGGACTGTACCTGTGGTGGCCGCGCGGGCAATCCTCGGCCGGTGTGCTGTGGCCGCGCTGGAGCGCTCGCGGTCGGGTGTTCTGGCGCGACTTGCACATCGTTGTCGGTTTCTGGGGCGCGGCGTTCCTGTTGGTGATGCTGCTCAGCGGCATGACCTGGACCGGCTTCTGGGGCAAGCAGTACGCGGACCTGTGGAACCGCTTTCCGGCGGCGATGTGGAACGACGTACCGAAGTCCGACATCGAGGCCGGCAGCCTCAACAATGCCCATCGCCAGACCGTGCCCTGGGCGGTAGAGAACACGCCAATGCCGATGTCCGGCGACCACGCCGAACACATGGCCCACGGCGGCATGCACGAAGGCCCCGCCGCGCCGACCGTCAGTTTGCAAGCGGTGCAGGACATCGCCACCGAGCGCAAGGTCGAGCCCGGCTACAGCATCACCCTGCCAACGACCGCCTCGGGCGTATTCACCATCGCCGTGTTTGCCGATGACCCGCGCAACGACGCGACCTTGCACGTGGACCAGTACACCGGAAAAGTCCTGGCCGACGTGCGCTGGGAGCACTACAACCTCGTTGCCCGCGCCACTGAAACCGGGGTGATGCTGCACGAAGGCAAGATGTTCGGTCCGGTGAACCAGATCATCGTCCTGCTGATCTGCCTGATGATCCTGCTCAGCGCCGTGAGCGGAATGGTGATCTGGTGGAAACGCCGGCCCCAGGGCAAGTTCGGCGTGCCGCCACTGCGCCACGACCTGCCGACGTGGAAGACCGGTGTGTTCATCATGTTGGCCCTGGCGGTGGTGTTCCCGTTGGTGGGGGCGTCGCTGGTGGTGGTGTGGCTGTTGGACCGGCTTGTTACCCGGTTCAATCGCCAGCCTGAGGCCGCTTCATCTTCAAGCTGA	MSQPKPNFYNLAWRWHFYAGLFVAPFMVMLALTGIIYLFKPQLDPLMYGNLLNVPAGHHSLAADDLLKQVRQAYPEGQVKQYLPPINAERSAQFVVIDKGRELNVFIDPYHGDVLGEQDAKDNLQAMARAIHGELLIGTVGDRLVEMAAGWGVVLVVSGLYLWWPRGQSSAGVLWPRWSARGRVFWRDLHIVVGFWGAAFLLVMLLSGMTWTGFWGKQYADLWNRFPAAMWNDVPKSDIEAGSLNNAHRQTVPWAVENTPMPMSGDHAEHMAHGGMHEGPAAPTVSLQAVQDIATERKVEPGYSITLPTTASGVFTIAVFADDPRNDATLHVDQYTGKVLADVRWEHYNLVARATETGVMLHEGKMFGPVNQIIVLLICLMILLSAVSGMVIWWKRRPQGKFGVPPLRHDLPTWKTGVFIMLALAVVFPLVGASLVVVWLLDRLVTRFNRQPEAASSSS				NA	NA	NA	NA	NA
D1-35_04974	420			hypothetical protein	ATGCAACCTCGTCGCGCCAGCCCGTCCAGGCACCGCCGTCAGCCCATGAGCCTGACACGCGGCAGTTGGATCAGCCTGTTCGCCATGCTGATGATCTTTATCGGACCACTGGTTTCCCAGTCGATGCCGATGGATCAGCGCATGTCCATGCCTGTGTCCATGAGCATGGATATGGAGATGAGCATGGACATGCCGGTGCACGAGCACTGCGCGCCCCAGAACGAACACCACGCGTTATGGGAAAAATGCGGTTATTGCAGCCTGCTGTTCAACTGCCCGGCGCTGCCTGGCGGCCACACATTCGCCGTCTTCGGCACCCCTCCCAGCCACACCTACACCAGCCCTTCCCCGCGCCTGGGTCATGCCCGGACGGCGTTCTTTCCGGGCGCCCGCACCCGCGCACCGCCACTCGACGCGTAA	MQPRRASPSRHRRQPMSLTRGSWISLFAMLMIFIGPLVSQSMPMDQRMSMPVSMSMDMEMSMDMPVHEHCAPQNEHHALWEKCGYCSLLFNCPALPGGHTFAVFGTPPSHTYTSPSPRLGHARTAFFPGARTRAPPLDA				NA	NA	NA	NA	NA
D1-35_04975	480			hypothetical protein	ATGTTGAACCGACTCATCCTGCTGGCCGCCCTGCTGCTCCCGGTTGGCTTCGCCCAGGCCCACCAGTACAAGGCCGCCGAGCTTGAGATCGCCCATCCGTGGTCCCAGGAGTTGCCGCCCAACGCGCCAACCGTGGCCGCGTACTTCGTGATTCACAACCGCGGCGCCACCGCCGACAAACTGCTCGGCGTCGACTCGCCGATTGCCGGCAAGGCCGAGCTCCATGAACATGTGATGCAAAACGACCTGATGAAAATGCAAGCGGTGCCCGTCGTCGCCATCGCCCCCGGTGCGACCGTCACCTTCGCGCCGATGGCCTATCACGTGATGTTGCTGGACCTGAAGGACCGCAGCTTGCTCAGCGACGGCAAACGTTTCCCCATGACCCTGCATTTCGAAAAGGCCGGGGACGTGACGGTGGATGTCGCGGTGCAGAAAAAAGCACCCGACGGCACCAAGACACACCAGCACGCCCAGTAG	MLNRLILLAALLLPVGFAQAHQYKAAELEIAHPWSQELPPNAPTVAAYFVIHNRGATADKLLGVDSPIAGKAELHEHVMQNDLMKMQAVPVVAIAPGATVTFAPMAYHVMLLDLKDRSLLSDGKRFPMTLHFEKAGDVTVDVAVQKKAPDGTKTHQHAQ				NA	NA	NA	NA	NA
D1-35_04976	399			hypothetical protein	ATGTCCCGACAACGGCTTGCATTTGCCTGGATCGCCTGCTTCGCAGTGCTGTTCAACATGCTTGCCATGCCGCTTTCCAATAGCGCCGGTGCAGCCGCCAGTACGCCAGCGGAACAAATGCTGTGGGGCAGTTTCTGCTCATCCAGCGGCACGAAGATGCTGGCGGTTTCCCTCGGCAAGCTGGAACAAGGCGCGCCACAGAAAGACAATCACTCGACGATTCAGCATTGCTGGTGCTGCTCAGGCCCGGCACCGCTGATGGCGCTCGCCGGGCACGCCCCGCAGTTGTATCTGGACGCACAACGGGCCGATCGCGGTACGGCCCACGCAAAGCTCGACAGCCCGACCCCGCGCCAGCAATGGCCCAGCCTCAACCCCCGTGCTTCGCCTCTGGCCTGA	MSRQRLAFAWIACFAVLFNMLAMPLSNSAGAAASTPAEQMLWGSFCSSSGTKMLAVSLGKLEQGAPQKDNHSTIQHCWCCSGPAPLMALAGHAPQLYLDAQRADRGTAHAKLDSPTPRQQWPSLNPRASPLA				NA	NA	NA	NA	NA
D1-35_04977	291			hypothetical protein	ATGACCGCAGAATTCACACGTTTCGATGCAGCCAGCTACCTCAAGACGCCGGAGGAGATGGCCGCTTATCTGGATGCCTGTTTTGAAGAAGATAGCGGTGACGGCGCACTGGTTCGCGCAGCTCTCAACGATATCGCCAGGGCAAAAGGCATGACGCAGATCGCCCGTGATGCCGGGCTCGGGCGAGAGAGTCTTTATAAAGCCCTGGGCAGTGCGGGCAATCCAGAATTCACAACTATCATCAAAGTCATGAAAGCTCTGGGCTTGAAGTTACGTGCAACGACCATTTGA	MTAEFTRFDAASYLKTPEEMAAYLDACFEEDSGDGALVRAALNDIARAKGMTQIARDAGLGRESLYKALGSAGNPEFTTIIKVMKALGLKLRATTI	PGPT0027571_53	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HigB-HigA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027571-toxin_higB1-na	NA	NA
D1-35_04978	729	cobK		Precorrin-6A reductase	ATGAAACGCATCCTGCTCCTCGGTGGCGTCACCGAGGCCCTGGCCATCGCTCGCACGCTCGGCCCCGAGCACATCTACAGCTTGGCGGGCATCGGTCGCGTCCCCACCGACCTGACCTGCCAGGTACGTGTCGGCGGCTACGGCGGCGCCGAAGGCCTGGCGCAATTCATCCGCGCCGAGGGCATCGACCTGCTATTGGACGCAACCCACCCCTACGCCGCGCAAATCAGCTACAACGCCGCCCGTGCCGCCCGCGCCTGCGCCATCCCCTGCTGGGCCCTGCGCCGTCCGGCCTGGCACCCACGGGCCGGCGATGACTGGCGCGAAGTGGCCGACTGGGCCGAACTGATCCAGGCCTTGCAGCCTTTCCGCCGCCCCTTGTTCACGCTCGGCCGGGAGCCGCTGCAGCATCTGCATGAAATTCCCACCGAACAGTTCTGGACCCTGCGAGCACTGGACGTTTACCCCGGCAACGAACGCTGCGAAGTCATCGGCGCCCGTGGGCCGTTTCACATTGACGGTGAACGCGAACTGTTCGAACGGCGACGAATCGATGTGCTGGTCAGCAAGAACAGCGGCAGCACGGCCACCGAGCCGAAGCTGGAGGTGGCCCGGGAACGGGGGGTGCCGGTGCTGGTGTTGAAGCGGCCGGTGTTGGCGGGGGTGGATCGGGAGTTCGCAGCGGTCAATGACGTGCTGGATGCTTTATCCGTACCCAACGGCTTTTGA	MKRILLLGGVTEALAIARTLGPEHIYSLAGIGRVPTDLTCQVRVGGYGGAEGLAQFIRAEGIDLLLDATHPYAAQISYNAARAARACAIPCWALRRPAWHPRAGDDWREVADWAELIQALQPFRRPLFTLGREPLQHLHEIPTEQFWTLRALDVYPGNERCEVIGARGPFHIDGERELFERRRIDVLVSKNSGSTATEPKLEVARERGVPVLVLKRPVLAGVDREFAAVNDVLDALSVPNGF	PGPT0004640_1545	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004640-cbiJ-K05895	NA	NA
D1-35_04979	1098	cbiD	COG1903	Cobalt-precorrin-5B C(1)-methyltransferase	ATGCGTGACGAAACCGCCGAGCAACCCGCCCCCCTGCGCAGCGGCCTGACCACCGGCAGCTGCGCCACGGCCACCAGCCTGGCGGCGGCGCGACTGCTGCTGTGCGGCACCGAGGCCGATGCCGTGGAGATCGTCCTGCCCAAGGGCAAGCAGGTGCAGATGCGCCTGGAGTTCTGCCGGCTGACCGAACAAGGTGCCGAGGCCGGAACGATCAAGGACGCTGGTGATGACCCGGACGTGACTCATGGCGCGCTGTTGTTTTCCCAGGTGCGCCTGATTGCCGAACCTGGCGTGCGTTTTGTTGCCGGTCGTGGCGTCGGCACGGTGACGCGACCGGGACTAGTCTTGGCTGTCGGTGAGCCAGCGATCAACCCGGTGCCGCGCAAAATGATCAACGATCACCTGGGTCGCCTGGCCGAGGAAAGCGGTTATGCCGGGGGGTTCGAAGTCACAGTCAATGTCGAGGGCGGCGAAGCCCTGGCGCTGAAAACCATGAACCCGCGACTGGGGATCCTCGGCGGTCTGTCGATCCTCGGCACCAGCGGCATCGTCCGGCCGTTTTCCTGCGCAGCCTACATAGCGTCGATCCACCAGGGCATCGACGTGGCGAAAACCAACGGCTACCTGCACATCGCCGCGTGCACCGGCAATGCCAGCGAAGACACCATGCGCCGGGTCTACAACCTGCCGGAAATCGCGCTGATCGAAATGGGCGACTTTGTCGGCGCCGTGCTCAAGCATGTGCGCAAGGTGCCGGTGGAAAAGCTCAGTCTTTGCGGCGGCTTCGGCAAGATCAGCAAACTCGCCGCCGGGCATATGGACCTGCACAGCCGCCACTCAAGCATCGACCTGCCACAACTGGCCAAATGGGCGACGGCAATCGGTGCCGATGAGAAGTTGCAGCACGACATTCGTCAAGCCAACACCAGCCAGCAAGCCCTCGCGATGGCCAGCGCCGTCGGCATCGCCCTCGGTGATGCCGTGTGCGAGCACGCCCTGGCCTTCGCTCGCAGCGTGGTCCCGGCCCAGGTCCAGGTCGAAGTCTTCGCCATCGACCGTCAGGGCGCAATCGTCGGCCACGCTGGAGCCTTTAAATGA	MRDETAEQPAPLRSGLTTGSCATATSLAAARLLLCGTEADAVEIVLPKGKQVQMRLEFCRLTEQGAEAGTIKDAGDDPDVTHGALLFSQVRLIAEPGVRFVAGRGVGTVTRPGLVLAVGEPAINPVPRKMINDHLGRLAEESGYAGGFEVTVNVEGGEALALKTMNPRLGILGGLSILGTSGIVRPFSCAAYIASIHQGIDVAKTNGYLHIAACTGNASEDTMRRVYNLPEIALIEMGDFVGAVLKHVRKVPVEKLSLCGGFGKISKLAAGHMDLHSRHSSIDLPQLAKWATAIGADEKLQHDIRQANTSQQALAMASAVGIALGDAVCEHALAFARSVVPAQVQVEVFAIDRQGAIVGHAGAFK	PGPT0004615_924	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004615-cbiD-K02188	NA	NA
D1-35_04980	1212	cobL		Precorrin-6Y C(5,15)-methyltransferase [decarboxylating]	ATGACCCCCTGGCTGACCGTAGTGGGCATCGGTGAAGAGGGCTTCAAGGGCCTGGGCCGAACGGCTCGCCATGCATTGCTGCGGGCGTCGCGGATACTGGGCAGCGCCCGTCAATTGGAACTGCTGCCGCTGTGTATCCGCGGCGAGCGGAAGCTGTGGCCAAGCCCGTTCTCCCTGGAACCGCTGCTGGCTCGACGGGGCGAGCCGGTGTGCGTGCTGGCCAGTGGTGATCCGATGTTCTATGGCGTCGGCGCCAGCCTGGCGAAACAGCTGCCGGCCGAGGAAATGCAGGTCATCCCCGCGCCGTCCTCCTGCTCACTGGCGGCGGCGCGCATGGGCTGGCCGTTGCAGGACGCGGTCACGCTGTCGCTGGTGGCCCGCCCCCTGGCAGCGCTCAATGCGCACTTGTCCAGTGGCGTCAGGCTGTTGCTGCTGAGTAACGACCGCCACAGCCCCAGCGCCGTGGCGATGCTGCTGCGCGAGCGCGGATTCGGCCCGAGCGCCATGACCGTGCTGGAGCATTTGGGCGGTGCGGCAGAACGACGGATCGACGGTTGCGCTGCGCACTGGTCCGATGAGGCGGTCGCCGATCTGAACCTGATCGCCATCGAATGCCGGGCCGATCCGTCGACGCAGTGCCTGTCACGCCTGGCCGGCCTGCCGGACAGCGCTTTCGAGCATGACGGCCAGCTGACCAAGCGCGACGTGCGTGCCGTCACCCTGGCTCGCCTCGCCCCAACTCCCGGCGAGTTGCTCTGGGACGTCGGCGCCGGCAGCGGCTCGATCGGCATCGAATGGATGCGCGCCCACCCCAGTTGTCGAGCCCTGGCCATCGAAGCCGACGAAGGCCGCCAAGCCTTGATCGAACGCAACCGCGACACCCTTGGCGTGCCCGGCCTCCAATTGATTCGCGGCAGCGCCCCGCAGGCGCTGGAGAACCTGGAGCGTCCGGACGCGGTGTTCATCGGTGGCGGCGTCACCCGCGAAGGCGTGCTTGATGCCTGTTGGGCCCGGCTCAAGCCTGGCGGTCGGCTCGTCGCCAATGCCGTGGCCCTGCAAAGCGAGATGACACTGATGAGCTGGCGCGAACGCCACGGCGGTGAGCTGACCCGCATCCATGTCGCCCAGGCCCAGCCTTTGGGCGCATTCGATACCTGGCGCCAAGCCTTGCCCATCACCTTGCTGGACCTGACGAAACCTCTCGATGCGTGA	MTPWLTVVGIGEEGFKGLGRTARHALLRASRILGSARQLELLPLCIRGERKLWPSPFSLEPLLARRGEPVCVLASGDPMFYGVGASLAKQLPAEEMQVIPAPSSCSLAAARMGWPLQDAVTLSLVARPLAALNAHLSSGVRLLLLSNDRHSPSAVAMLLRERGFGPSAMTVLEHLGGAAERRIDGCAAHWSDEAVADLNLIAIECRADPSTQCLSRLAGLPDSAFEHDGQLTKRDVRAVTLARLAPTPGELLWDVGAGSGSIGIEWMRAHPSCRALAIEADEGRQALIERNRDTLGVPGLQLIRGSAPQALENLERPDAVFIGGGVTREGVLDACWARLKPGGRLVANAVALQSEMTLMSWRERHGGELTRIHVAQAQPLGAFDTWRQALPITLLDLTKPLDA	PGPT0009270_1109	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009270-cobL-K00595	NA	NA
D1-35_04981	1320	sir_2	COG0155	Sulfite reductase [ferredoxin]	TTGAACGAACGTCCCTCTTCCAACGTCATTCGCCCCTCGGTTTGTCCGGGGTTGCTGCGTGTTGTCCAGGCACTGGACGGAGGAATCTGCCGAATCAAGCTCGATGGCGGCGTCATCCACGCGGATCAGGCCGAAACCGTCGCGTGGGTGGCCGAGCAGTTCGCCGGGGGCGTGATCGAGGCCACCAACCGCGGCAACTTGCAGATCCGCGGTATCGGCCCTGAGCCGGATGCGTTGATCGAGCCGTTGCTGGCCGCCGGGCTTGGCCCGCGCAAGGCGGCCGGCGATGACGTGCGCAACCTGATGCTCAGCCCCTCGGCGGGGCTCGACCGGCAGATGCTGTTCGACACCCGTCCGCTGGCCGCGCAGATCCTCTTCACCCTGCAAACCCATGAACGCTTCCACGAACTCTCGGCCAAGTTCGCCGTGCAGTTGGACGGTGGCGAAGCCTTGGCGATGCTCGAGCATCACCATGACCTGTGGCTATCGGCGCTTGTCCAGCACGGCGAGCCCTGGCTTGCCTTTGGCCTGGCCGGTTCGCCATTGGACACGCCGGCGGGCAAGGTGCCCCTGGCCCAAGGGCATGCCCTGGTGGTAGCGGTGCTGGAGCTGTTTCTCGAACTGGCCCGCCCGGACCAGAACCGCATGCGCCAACTGCTGGCTGAATATGCCGTGGATGAATTCATGACCCGGTTAGCCGGCCGCGTGCCGCTGCAACCTTGCCTTGACTGGCGGCGGAGTGCGTCGCCCGGCGGCCTGCACATCGGTATTCATTCCCAGCACGACGAACGGGTCTATGTCGGCGCGGCGGCGCCCCTCGGCCGGCTTGATACGGTCATGCTGCGCGGCGCGGCGCAGTTGGCGCGGGAGAAGGGCGACGGCAATCTTCGCTTCACTCCCTGGCAAAGCCTGTTGCTGCCCAACGTGCGCCGCGAAAATGCGGATGCCGTGTTGACCCAGCTCGACGCGCTGGGCCTGTTGTGTTCGCTCGATCACTCCCTGGCGCAACTCATCGCCTGCACCGGCTCCAGTGGCTGTGGCAAAGGCCTGGCCGACACCAAGGGCGATGCCCGCCAGTTGGCGGATCTGCTGCAACGTCGGGGCCAGGCTTTGAGCATTCATCTGTCCGGCTGCCAGCGATCGTGCGCGGCGGCCCACATCGCCCCGGCGACGTTGCTGGCGGTCGCCCCCGATCGTTATGACCTCTATTTTCGTGATGCCGCGTTGCCGGGTTTCGGCGCGCTGCAAGCACACAATCTGACAATCGAAGCGCTCGGCCACTGGCTCGACGCTCATCCCCGGAGCCCCCTTGATGCTTGA	MNERPSSNVIRPSVCPGLLRVVQALDGGICRIKLDGGVIHADQAETVAWVAEQFAGGVIEATNRGNLQIRGIGPEPDALIEPLLAAGLGPRKAAGDDVRNLMLSPSAGLDRQMLFDTRPLAAQILFTLQTHERFHELSAKFAVQLDGGEALAMLEHHHDLWLSALVQHGEPWLAFGLAGSPLDTPAGKVPLAQGHALVVAVLELFLELARPDQNRMRQLLAEYAVDEFMTRLAGRVPLQPCLDWRRSASPGGLHIGIHSQHDERVYVGAAAPLGRLDTVMLRGAAQLAREKGDGNLRFTPWQSLLLPNVRRENADAVLTQLDALGLLCSLDHSLAQLIACTGSSGCGKGLADTKGDARQLADLLQRRGQALSIHLSGCQRSCAAAHIAPATLLAVAPDRYDLYFRDAALPGFGALQAHNLTIEALGHWLDAHPRSPLDA	PGPT0009250_228	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009250-cobG-K02229	NA	NA
D1-35_04982	627	cobH		Precorrin-8X methylmutase	ATGCTTGATTACATCCGCGACGGTCAGGAGATCTATCGCAACTCCTTCGCGATCATCCGCGCCGAGGCCAATCTGGCGCGCATTCCTGCCGATCTGGAAAAACTAGCGGTGCGGGTGATCCACGCCTGCGGCATGGTCGAGGCGGTCGATGGCCTGCAGTTTTCCGCAGGCGCAGGCGCGGCGGGGCGCCAGGCACTGGCGGCCGGTGCGCCGATCCTGTGTGATGCGCGGATGGTGTCCGAGGGCGTGACCCGGGCGCGCCTGCCGGCCAACAATCCGGTGATTTGCACCTTGCGCGACGACAGCGTGCCAGCGTTGGCCCGCGAGCTGGGCAACACTCGCTCGGCGGCCGCGCTGGAGCTGTGGCGTCCACACCTGGAAGGTAGCGTCGTGGTCATCGGCAACGCACCGACCGCGCTGTTCTATCTGCTGGAAATGCTCGATGCCGGCGCGCCGAAACCGGCCCTGATCCTTGGCTTCCCGGTGGGTTTTGTCGGCGCCGCCGAGTCCAAGGCGGCGCTGGCGGCTGACAGCCGTGGCGTGCCGTTCGTGATCATGCAAGGCCGCCTGGGCGGCAGCGCCATGGCCGCCGCCGCCGTCAATGCCCTCGCCACGGAGGTTGAATGA	MLDYIRDGQEIYRNSFAIIRAEANLARIPADLEKLAVRVIHACGMVEAVDGLQFSAGAGAAGRQALAAGAPILCDARMVSEGVTRARLPANNPVICTLRDDSVPALARELGNTRSAAALELWRPHLEGSVVVIGNAPTALFYLLEMLDAGAPKPALILGFPVGFVGAAESKAALAADSRGVPFVIMQGRLGGSAMAAAAVNALATEVE	PGPT0004610_1406	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004610-cbiC-K06042	NA	NA
D1-35_04983	735	cobI		Precorrin-2 C(20)-methyltransferase	ATGATGCAGCAGCCTGGACGCTTGATCGGCCTCGGCGTAGGGCCGGGTGACCCGGAACTGATCACGGTCAAGGCACTGCGCCTGCTGCGGGAATCGCCGGTGGTGGCGTACTTCGTCGCCAAGGGCAAGAAAGGCAACGCCTTCGGCATCATCGAGGCCCATCTGCAGGACGCGCAAACCTTGCTGCCACTGGTCTACCCGGTCACCACCGAAGTGCTGCCGGCGCCGTTGTCCTACGAAGAGGTAATCGCCGACTTCTATGACACCGCCGCCGAGCAACTCGCCGTGCACCTGGATGCCGGTCGCGACGTGGCGGTGATCTGCGAGGGCGATCCGTTTTTCTACGGCTCCTATATGTACTTGCACGACCGCCTGGCCGAGCGCTACGAGGCCGAGGTCATTCCCGGCGTGTGTTCGATGCTCGGTGGTGCCTCGGTGCTGGGAGCCCCGCTGGTTTATCGCAACCAGAGCCTGTCGGTGCTCTCCGGCGTCCTGCCCCACGACGATCTCAAGCGTCGGCTGGCCGATGCCGATGCGGCGGTGATCATGAAGCTGGGGCGCAATTTTCCCAAGGTTCGGCAGGTGCTTGAGGAATTGGGCATGGACGGGCGGGCGCTGTACGTCGAGCGCGCGACCATGGCCAACCAGAAAATCGTGCCGCTGGATGAAGTCGAGCCGATGTCTTCGCCGTACTTCTCGCTGATCATCGTCCCGGGCGAGCGGTGGCAGGGATGA	MMQQPGRLIGLGVGPGDPELITVKALRLLRESPVVAYFVAKGKKGNAFGIIEAHLQDAQTLLPLVYPVTTEVLPAPLSYEEVIADFYDTAAEQLAVHLDAGRDVAVICEGDPFFYGSYMYLHDRLAERYEAEVIPGVCSMLGGASVLGAPLVYRNQSLSVLSGVLPHDDLKRRLADADAAVIMKLGRNFPKVRQVLEELGMDGRALYVERATMANQKIVPLDEVEPMSSPYFSLIIVPGERWQG	PGPT0004690_560	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004690-cbiL-K03394	NA	NA
D1-35_04984	1698	cysG_2		Siroheme synthase	ATGAGGAAACCGGCGGCAATTGTCATCCTCGGCCCGGGCAGTCTCGCGACGGCCCGACGAATCCAGCAGTGCTATCCCGATGCGCTGATCCATGGCCTCGTCGGGCGGGTCGACGGCGATCGGCAATACCTTGAGTTCGGCACCACGTTGCGCGAACTCTATCAACAGGACACGCCGATCATTGCGCTGTGCGCGGCGGGCATCGTCATTCGCACCCTCGCGCCGCTGTTGCTGGAAAAAGGCGTCGAGCCGCCGGTGCTGGCGGTGGCCGAGGATGGCAGCGCCGTGGTGCCGCTGCTGGGCGGTCTGGGCGGCGTGAATGTCATGGCCCGGGAAATCGCGACAGCGCTGCAAGTCGCCCCGGCGATCACCACCAGCGGCGAGTTGCGTTTTGGCACCTGCCTGCTCAATCCACCGAGCGGCTACAGCCTCGGCGACCTGGAACAGGGCAAGCGCTTCGTGTCCGACCTGCTCGCCGGCGAGCCGGTGCGGGTCGAAGGTGCGGCGCCGTGGCTGGACCAGGCGCAATTGCCCCAGGATGCGCAGGCACGGTTGGCGATACGCATCGACAGCGCCGCGGGTGTACCCGCGCCGGACGAATTGCGGATCTATCCGCGCAACGTGGTGGTCGCGGTGAGTGCCGGCACGCCGGACGTGTCGACTGCGGTCAGCGACGCGCTGCACCGAACCGGCCTCGCCGTGCAATCGCTGGCGTGCCTGCTGGCGGCGGACAGCGACATGGCCCGCGCCGAGTTGCACCACGCTGCGCTGGCGCTGGGTGTGCCGCTGCGCTTCGCGCGGGCCAGCGATGACATCGAGCAATGGTTGGGTGATGCGTTGGGCCTGCCGGTTTCGTTGCAACCAATGGGCGGCGTGGCCATCGCCGTGGCTGAGCGGCCCGTCGACCCGCTGCAGCTTGGCCGTGCGCGCGGACGTCTGGCGGTGATCGGCCTTGGCCCTGGAGCGGCAGAGTTGATGGTCCCGGCCGTGCGTGCCGAACTCGACCGCGCCAACGATGTGCTCGGCTATGAGACTTACGTGCGCATGGCCGGGCCTTTGCGGGCCGACCAGGTGCAGCATTGCACCGATAACCGCGAAGAAATGCAGCGTGCCCGACATGCCTTCGAACTGGCGGCTCAGGGCCGGTCGGTGGTGGTGGTGTCATCCGGTGACCCTGGCGTATTCGCCATGGCTGCCGCTGTACTGGAAGCGCTGCATGAGTCGACTGATGCCGACTGGCATAATGTCGACCTGCAAATCCTGCCAGGCGTCTCGGCCTCCCTGGCCACGGCGGCCCAGGCCGGCGCGCCGCTGGGTCATGATTTCTGCGTGATGTCCTTGTCGGATAATCTCAAGCCGTGGTCGATCATCGAGAAACGCCTGGACCTGGCGGCCGAGGCGGACCTGGCCCTGGCGTTCTACAACCCGATCTCCCGCTCCCGTCCTTGGCAACTGGGACGAGCGCTGAAAATCGTCGCACAACACCGCGCGGCTGATACTCCAGTAGTGCTGGGACGTGACATCGGCCGACCGGGCCAGACCCTGCGCGTCACCACCCTCGGGCAACTGACCCCGGACCAGGTGGACATGCGCACCATGGTGCTAATCGGCTCCTCGACCACCTGCGTATTTCCGCGCGTCGAAGGTGGCGACTGGGTGTATACGCCGCGTTGGTACGGCGATAAGCCCGGGGCATGA	MRKPAAIVILGPGSLATARRIQQCYPDALIHGLVGRVDGDRQYLEFGTTLRELYQQDTPIIALCAAGIVIRTLAPLLLEKGVEPPVLAVAEDGSAVVPLLGGLGGVNVMAREIATALQVAPAITTSGELRFGTCLLNPPSGYSLGDLEQGKRFVSDLLAGEPVRVEGAAPWLDQAQLPQDAQARLAIRIDSAAGVPAPDELRIYPRNVVVAVSAGTPDVSTAVSDALHRTGLAVQSLACLLAADSDMARAELHHAALALGVPLRFARASDDIEQWLGDALGLPVSLQPMGGVAIAVAERPVDPLQLGRARGRLAVIGLGPGAAELMVPAVRAELDRANDVLGYETYVRMAGPLRADQVQHCTDNREEMQRARHAFELAAQGRSVVVVSSGDPGVFAMAAAVLEALHESTDADWHNVDLQILPGVSASLATAAQAGAPLGHDFCVMSLSDNLKPWSIIEKRLDLAAEADLALAFYNPISRSRPWQLGRALKIVAQHRAADTPVVLGRDIGRPGQTLRVTTLGQLTPDQVDMRTMVLIGSSTTCVFPRVEGGDWVYTPRWYGDKPGA	PGPT0009255_330	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009255-cbiGH_cobJ-K13541	NA	NA
D1-35_04985	660			hypothetical protein	ATGACCAATAAAACACTCACCGGCCTCATAACGGGCCCCAGCCTTTTTTCATACATCGAGACACTCTCCCTGTCAGAGCATGACGATATTGCCGATTGCAATAACTTCGCCATCCTCATTGCTGACGAAAAACACAACCGTTATTACGATCCGGAGCGTTGGCTTGAACAGTATGTCGGTGTGTTGAAGGCTCTCGGCTGGTCAATCTATCAGGACGCAATATTTACTAGAACACAACATATCCTCACAGGCTCTGTGGCGGACTTTCTGGTCGAGAGCGCAAACGGGATGAGCGATAGCCGGCAAGGCAATGCCATGATCGACACGCTCGACAGCTTGAAAACCAACAGCCCGGCGCTGTTGTCCTTTGACCGGGAAAGCGGTTCAGGGGACAGCTTCCAAGTAGTTCCAGCCCGCTACGACGCGCGAGGCCTTCTCAATATCGCCGTTTTCAAACTTGAGCTGAACGCCTACATGAAGAGAACCAACTTCCTGTTCTGGACTTGGGAAAAACGCTCAGCCAGGATAGTCCAGCGAAAAGCCTACCTGAGGTTGAACAAGACGATACTCGACGGGCAGCGAGTATTGATAAACAGGCGATTGGAAAAAAAACGCATGGAGCGATTCGACCTCAGCCAGAACCGCCCCATGGACAATTAA	MTNKTLTGLITGPSLFSYIETLSLSEHDDIADCNNFAILIADEKHNRYYDPERWLEQYVGVLKALGWSIYQDAIFTRTQHILTGSVADFLVESANGMSDSRQGNAMIDTLDSLKTNSPALLSFDRESGSGDSFQVVPARYDARGLLNIAVFKLELNAYMKRTNFLFWTWEKRSARIVQRKAYLRLNKTILDGQRVLINRRLEKKRMERFDLSQNRPMDN				NA	NA	NA	NA	NA
D1-35_04986	822			hypothetical protein	ATGGAACTGTCTGAAAGTAAAATCAGCGTCGCAGAAACTATCGAGTTTATTAATGCGCGTATCGACAGGCGCAAGTCATCGGTTCCGGCCGGGCGGCGTGTACGCAGATCCGTTGTGCAGTCGCAGGTCAACCCGACCAAGGAACTCGATGCGCTGATGCTGGGCGACGCGCTGGTGGGTTATGGCAATAACATGACCCTCGAAAATATGACAATCATGGAAAACCTGATGAGCATGGCGATCCTCGAAGCAAACGCCAGCTTCCCCGATGGCAGGAATACGCGTGAGTGGTATGAGGAGTTCATACAGTGCCTGGAGTCTCTAGGGTGTTTCGTGCCCGACAGTGGCTATACCCGTTATTCCGAAAGTTCCGTGCGGGTAGACCTGGACCTGGTGATCAAGGATATCGTCAAAGGAATCATTGATGGAGTGAAGGCCGGTTTCCCGGCAGCGACGGTGCTTGGGGCCGTGGTGGATACCACGATCGATGGTTTGAAGCAGGACGACAAGACCATCAACCTCTTCCACAGCCAGGCGAAGACTTTTGATGGCGCGCGCTTGTCAGTCATCCCTTGTGAGCAGCTTTCCAACGGTCTCCTGATTGCTTCTGCCGCGTCGATAAAACACTCCGGCTCTTCGAATGAAGGCGGTGTTCTATTCGTAAACTGGCGGGCCTCGGCGCGGGAATTTTTCCGTGGTAAATCGTTCGTGACCTTCAACCCGGCCCGTTATGAAACGTTCAGGCAGGAAATCGAGAAATACTTGGGTGAGTATCGCAAAGAAGCATTGAGCAAAAGGTTCAGCCGTCGCAAGCGCGGGTAA	MELSESKISVAETIEFINARIDRRKSSVPAGRRVRRSVVQSQVNPTKELDALMLGDALVGYGNNMTLENMTIMENLMSMAILEANASFPDGRNTREWYEEFIQCLESLGCFVPDSGYTRYSESSVRVDLDLVIKDIVKGIIDGVKAGFPAATVLGAVVDTTIDGLKQDDKTINLFHSQAKTFDGARLSVIPCEQLSNGLLIASAASIKHSGSSNEGGVLFVNWRASAREFFRGKSFVTFNPARYETFRQEIEKYLGEYRKEALSKRFSRRKRG				NA	NA	NA	NA	NA
D1-35_04987	597			hypothetical protein	ATGCTCCATGTGCTGTTCAGCGTTTACCTGAAAATGCTGGTGCTTTATAGCCCGTTCTTCGTGCTGTCGTGTTTTATCAGCCTGACCCGCGGCTATTCGCGTAAGGAGCAACGTCGGCTGGCCTGGAAGGTCGCGACCGCGACGCTGGTATCCAGCGTATTGCTCTATCTGTTCGGGCGGGTCATCTTCAGCGTGTTTGGCATCACCGTGGATGCATTCCGTATCGGCGCCGGCAGCGTGCTGTTCATTTCGGCGCTGGGCATGGCCCAGGGCAAATCGGCGGTACAGACCGACAATGTCCAGCAGGACGTGACTATCGTCCCGCTGACCATTCCGTTGACTGTCGGCCCCGGCACCATCGGTGCCCTGCTGGTGATGGGCGTAAGCCAGCCGCACTGGGACGACAAGCTCATGGCGATCATCAGCATCGCCCTGGCCAGCTTCACCGTTGGCGTCGTGCTTTACCTGTCCAGCCGCATCGAACGGATCCTCGGCGACCAAGGCCTGCAGATCGTCAGCCGCCTGATGGGGCTGTTTGTCTGCGCGCTGGCGGCGCAGATCATTTTTACTGGAGTAAAAGGGTATCTGGCCCCGTAG	MLHVLFSVYLKMLVLYSPFFVLSCFISLTRGYSRKEQRRLAWKVATATLVSSVLLYLFGRVIFSVFGITVDAFRIGAGSVLFISALGMAQGKSAVQTDNVQQDVTIVPLTIPLTVGPGTIGALLVMGVSQPHWDDKLMAIISIALASFTVGVVLYLSSRIERILGDQGLQIVSRLMGLFVCALAAQIIFTGVKGYLAP	PGPT0029250_2904	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIPLE_ANTIBIOTIC_RESISTANCE,PGPT0029250-marC-K05595	NA	NA
D1-35_04988	2775	rcsC_24		Sensor histidine kinase RcsC	GTGCGCTGGCTCAGGATTGCCATAGGCTTCACCGTTACCCTGCTGACATTGCTCTGCATGTTCCCGGCCCAGGCCGCGCCAGGCAGTGGTTGGGCGATATTGCTCGACGAACAGGGTAACCTGAAGCTCAGCGACATCCGCTCTGCCCGCTACACCAATCAATTCAGCCCGATAGACCTGGACCACCTCAAGGCGGCCGAACCCGGCGGAGCGTTATGGCTGCGTTTCCGGCTGGCGCCTGACCGGCATGAACAGATTCTGCGCATCTTTGCCCCAGACCTGTCGCGCCTGAATCTTTATGTGCTGGACGGCGATACGCTGATTGATCAACAGATCAGTGGCAATGCCTCGCCAGATACCGGACAGTCCGCTCCCAGCAGTGATCTCATGCTGGCACTGCCGCGCAGCGACAAGCCCCTCGACGTCTACCTGCGATTGGCCTCCCGGTACGAACTGCGCCCCTACGTCACGCTGCAACCGGCCATCATGGCGGCGGCCAACCAGAACCAGACGCTGATCTACGGCCTGCTGTTCGGCTGCATCGCCATGTTGATCCTGCACAACCTCACCCGTTACGCCTATACCCGCTCGCGCAGTTGCCTGTGGCTGGCAGCCTGTGAAGGGTTGCTGATGCTCAGCCTGATCCTGTTGCTGAACCTGGCCGGGGCCTGGCTGCCTGACTGGCCGGCGATCCAGACGCCGGGAGCGTACCTGGCGCTGTTGCTGACTGCGCCCTGCGGCTTGATGTTCGCTTTTCGTTTCTTCGCGCCGCTGGGCGAGCATCCGCTGAACCGGCTGCTGGTGGGGGAAATCGTCTTCATCGTGCTATGCAGCCTGCTGCTGTTGTTCGTCAACACGCTGCCGCTCAACATCATCACCTATGCACTGGTGGCGCTGGCCGGGCTGAGCATGTTGTTCGTCAGCGCCTGGCACTGGCAGAAAGGCTACCGCCCGGCACGCCTGTTCGTCGCCGCCATGGTGGTGTTCAACCTCGGCACGCTGATCATCCTCCCGGCCTTGCAAGGGCTGACGGAAGTCGCACCGCAAGGCCTGATCGTCACGCTGCTGGTCTTCATCTGCATCAGCGGCCTGTTGATGAGCGTCGCGCTGGGCGAACGCCAGCGGTCGATCAACGAGAGCCGCTTCAGCATCAGCCGCGACCTGGCGGCAAGCAACGCCGAAATCAACGCCAAGGCCGAGTTCCTGGCCAAGATCAGTCATGAAATCCGCACCCCCATGAACGGCGTGCTGGGCATGACCGAGTTGCTGCTGGGCACGCCATTGTCGGTCAAGCAGCGTGACTACGTGCAGACGATCCACAGCGCCGGCAACGAACTGCTCACACTGATCAACGAAATTCTCGATATATCCCGTCTCGAATCGGGCCAGATCGAGCTGGACGATGTGCAATTCGACCTGAATGCGCTGATCGAGGATTGCTTGAGTATCTTCCGCGCCAAGGCTGAACAGCAGAATGTCGAGCTGATCAGTTTTATCCAGCCCCAGGTGCCGCGCGTCATCAGTGGTGATCCGACGCGGCTGCGCCAGGCCCTGCTGAGCCTGCTGGAAAATGCCTTGAAGAAAACCGACGAGGGCGAAGTGCTGATCGTCGTCGCCCTTGATGAACGCAGCAACCAGCCACGCCTGCGTATCGCGGTGCAGGACAGCGGTTCGCCCATGGACGCCGAGGAGCGCGACACGCTGATGCACGCCGAGCTGCACAGCAAGAATTTTCTCTCCGCCACGCGGCTGGGGGGCAACCTGGGCCTGGTCATCGCCCGCCAGTTGATCATGCTGATGCATGGCGAGTTCGGCATCAAGAGTGGAAGCAGCCAGGGCAGCACCTTGTGGCTGACCTTGCCACTGGACCCTGACCGCCTCGAACACCCGACTTCCGATCTCGACAGCCCGCTGCAAGGGGCGCGGGTATTGGTCGTCGACGACAACGACACCTGCCGCAAGGTGTTGGTCCAGCAATGCAGCGCCTGGGGCCTGAACGTCAGCGCGGTGCCATCGGGCAAGGAAGCCCTGGCGCTGCTGCGCACCAAGGCGCACCTGCGTGATTATTTCGACGTGGTGCTGCTGGACCAGAACATGCCCGGCATGACCGGCATGCAATTGGCGGCCAAGATCAAGGAAGACCCGAGCCTGAACCACGACATCCTGTTGATCATGCTCACCGGCATCAGCAACGCGCCGAGCAAGATCGTGGCGCGCAACAGCGGCGTCAAGCGCATCCTCGCCAAACCGGTGGCCGGTTATACGCTCAAGACCACCCTGGCGGACGAGCTCAACCAGCGCAATAAAGGCCAGGCCCCGATTGCCCCGGTGAATGCCGGCCCTCTCCTGCCGGTGAAAGTGCCCAGCGACTTTCGCATCCTGGTAGCCGAAGACAACAGCATTTCCACCAAAGTCATCCGCGGCATGCTCGGCAAGCTCAACCTGCAACCCGACACCGCCAGCAACGGCGAAGAAGCCCTCAAGGCCATGAAGGAGCAGCGCTACGACCTGGTCCTGATGGATTGCGAAATGCCGATACTCGACGGCTTCTCCGCCACCCAGCAATTACGCGCCTGGGAAGTCGGCAACCAACGGACGCGCACCCCGGTGGTCGCGCTGACGGCGCACATCCTGGCCGAACACAAGGAGCGTGCGCGCCAGGCCGGGATGGACGGACATATGGCCAAGCCGGTGGAGCTGTCGCAGTTGCGCGAGCTGATCGAGCATTGGGTGGCCCAGCGCGACCAACAGAACCGTACGGCGCAGACGTCCTGA	MRWLRIAIGFTVTLLTLLCMFPAQAAPGSGWAILLDEQGNLKLSDIRSARYTNQFSPIDLDHLKAAEPGGALWLRFRLAPDRHEQILRIFAPDLSRLNLYVLDGDTLIDQQISGNASPDTGQSAPSSDLMLALPRSDKPLDVYLRLASRYELRPYVTLQPAIMAAANQNQTLIYGLLFGCIAMLILHNLTRYAYTRSRSCLWLAACEGLLMLSLILLLNLAGAWLPDWPAIQTPGAYLALLLTAPCGLMFAFRFFAPLGEHPLNRLLVGEIVFIVLCSLLLLFVNTLPLNIITYALVALAGLSMLFVSAWHWQKGYRPARLFVAAMVVFNLGTLIILPALQGLTEVAPQGLIVTLLVFICISGLLMSVALGERQRSINESRFSISRDLAASNAEINAKAEFLAKISHEIRTPMNGVLGMTELLLGTPLSVKQRDYVQTIHSAGNELLTLINEILDISRLESGQIELDDVQFDLNALIEDCLSIFRAKAEQQNVELISFIQPQVPRVISGDPTRLRQALLSLLENALKKTDEGEVLIVVALDERSNQPRLRIAVQDSGSPMDAEERDTLMHAELHSKNFLSATRLGGNLGLVIARQLIMLMHGEFGIKSGSSQGSTLWLTLPLDPDRLEHPTSDLDSPLQGARVLVVDDNDTCRKVLVQQCSAWGLNVSAVPSGKEALALLRTKAHLRDYFDVVLLDQNMPGMTGMQLAAKIKEDPSLNHDILLIMLTGISNAPSKIVARNSGVKRILAKPVAGYTLKTTLADELNQRNKGQAPIAPVNAGPLLPVKVPSDFRILVAEDNSISTKVIRGMLGKLNLQPDTASNGEEALKAMKEQRYDLVLMDCEMPILDGFSATQQLRAWEVGNQRTRTPVVALTAHILAEHKERARQAGMDGHMAKPVELSQLRELIEHWVAQRDQQNRTAQTS				NA	NA	NA	NA	NA
D1-35_04989	1296	purD	COG0151	Phosphoribosylamine--glycine ligase	ATGAATGTTTTGATCATTGGCAGCGGTGGCCGTGAACACGCCCTGGCCTGGAAAGTGGCTCAGGATCCGCGCGTGCAGAAGGTCTTTGTCGCACCGGGCAATGCCGGCACCGCCATCGAAGCCAAGTGCGAAAACGTTGCCATCGACGTGCTGGCCCTGGAGCAACTGGCCGACTTCGCCGAGAAGAACGTCTCGCTGACTATCGTCGGCCCGGAAGTGCCGCTGGTCGCTGGCGTGGTCGACCAGTTCCGCTCTCGCGGCCTGGACTGCTTCGGCCCGACCGCCGGGGCCGCGCAGCTGGAAGGTTCGAAAGCGTTTACCAAGGATTTCCTGGCGCGTCACAAGATCCCCACCGCCGACTACCAGAACTTCACCGAAATCGAACCGGCACTGGCTTACCTGCGCGAAAAAGGCGCACCGATCGTGATCAAGGCCGACGGCCTGGCCGCCGGCAAAGGCGTGATCGTTGCCATGACCCTGGCCGAAGCCGAAGATGCCGTGCGTGACATGCTCGCCGGCAACGCCTTTGGTGACGCCGGATCGCGGGTTGTCATCGAAGAATTCCTCGATGGCGAGGAAGCCAGTTTCATCGTCATGGTCGACGGCAAGAATGTCTTGCCGATGGCCACCAGCCAGGACCACAAACGTGTCGGCGACGGCGACAGCGGCCCGAACACCGGCGGCATGGGCGCCTACTCCCCCGCCCCGGTAGTCACCGCCGAGGTACACCAGCGCGTGATGGACCAGGTGATCTGGCCGACCGTGCGCGGCATGGCCAAGGAAGGCAACGTCTACACCGGTTTCCTTTACGCTGGCCTGATGATCGACAAGGCAGGCAACCCGAAAGTCATCGAATTCAACTGCCGTTTCGGCGATCCTGAGACCCAGCCGGTGATGCTGCGCCTGCAATCGAGCCTGGTGCTGCTGGTCGAAGCGGCCCTGGCCCAGGCGCTGGACAAGGTTGAAGCCCAATGGGATCCGCGTCCAAGCGTTGGCGTGGTGTTGGCGGCGGGTGGATATCCAGGCGACTATGCCAAGGGCAGCGCCATCAAAGGCCTGGACGCCGCCGCGCAATTGGAAGGCAAGGTGTTCCACGCTGGCACGGCACTGAAGGATGGACAGGTGGTCACCGCCGGTGGTCGCGTGCTTTGCGCCACGGCCATGGGCGCCAGTGTCGATGCGGCCCAGCAGCAGGCCTACCGGCTTGCCGCGCAGATTGATTGGGAAGGTTGCTTCTACCGCAACGACATTGGCTACCGAGCCATTGCCCGTGAGAGTGGCGAAAACCAGGAATAA	MNVLIIGSGGREHALAWKVAQDPRVQKVFVAPGNAGTAIEAKCENVAIDVLALEQLADFAEKNVSLTIVGPEVPLVAGVVDQFRSRGLDCFGPTAGAAQLEGSKAFTKDFLARHKIPTADYQNFTEIEPALAYLREKGAPIVIKADGLAAGKGVIVAMTLAEAEDAVRDMLAGNAFGDAGSRVVIEEFLDGEEASFIVMVDGKNVLPMATSQDHKRVGDGDSGPNTGGMGAYSPAPVVTAEVHQRVMDQVIWPTVRGMAKEGNVYTGFLYAGLMIDKAGNPKVIEFNCRFGDPETQPVMLRLQSSLVLLVEAALAQALDKVEAQWDPRPSVGVVLAAGGYPGDYAKGSAIKGLDAAAQLEGKVFHAGTALKDGQVVTAGGRVLCATAMGASVDAAQQQAYRLAAQIDWEGCFYRNDIGYRAIARESGENQE	PGPT0021575_958	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021575-purD-K01945	NA	NA
D1-35_04990	1608	purH	COG0138	Bifunctional purine biosynthesis protein PurH	ATGACCGACCAGACCATCCGCCTGCCGATCCGCCGCGCCTTGATCAGCGTCTCCGACAAGACCGGGATCCTTGAATTCGCCCGCGAGCTGCAACAGCTGGGCGTCGAGATTCTCTCGACCGGCGGGACCTTCAAGTTGCTGCAGGACAACGGCGTCGCCGCGGTGGAAGTTGCGGACTACACCGGCTTCGCGGAAATGATGGACGGTCGGGTCAAGACCTTGCACCCGAAGATCCACGGAGGGATCCTCGGTCGTCGCGGCATCGATGACGCCATCATGAACGAACACGGCATCAAGCCGATCGATCTGGTGGCGGTCAACCTTTACCCGTTCGAAGCAACCATCAACAAGCCCGGCTGCGACCTGCCGACCGCCATCGAGAACATCGACATCGGTGGCCCGACCATGGTCCGCTCGGCGGCCAAGAACCATAAGGACGTGGCCATTGTCGTCAATGCCAGCGACTACGCCGGCGTCCTGGAAAACCTCAAGGCCGGTGGTTTGACGTACGCCCAGCGCTTCGATCTGATGCTCAAGGCCTTCGAACACACCGCCGCCTACGATGGCATGATCGCCAACTACATGGGCACCGTGAACCAGGCGGCCGAGACCCTGAGCACCGAAGGCCGCAGCGAATTCCCGCGCACCTTCAACACCCAGTTCGTCAAGGCCCAGGAAATGCGCTACGGCGAGAACCCGCACCAGAGCGCGGCGTTCTACGTGGAAGCCAAGCCAGCCGAAGTCGGCATCGCCACCGCGACCCAATTGCAGGGCAAGGAACTGTCGTTCAACAACGTGGCCGACACCGACGCCGCGCTGGAATGCGTGAAAAGCTTCGTCAAGCCAGCCTGCGTGATCGTCAAGCACGCCAACCCATGCGGCGTCGCGGTAAGCCCGGACGCCGAGGGCGGCATCCGCCAGGCCTACGAACTGGCCTACGCCACCGATACCGAGTCGGCCTTCGGCGGCATCATCGCCTTCAACCGCGAGCTGGACGCCGAGACCGCCAAGGCCATCGTCGAGCGCCAGTTCGTCGAAGTGATCATTGCCCCTTCCGTCAGCGAAGAAGCCCGCGCCATTGTTGCCGCCAAGGCCAACGTTCGCCTGCTGGCCTGTGGTCAGTGGTCGGCCGACCGCGCGCCGGCCTGGGACTACAAGCGCGTCAATGGCGGCCTGCTGGTCCAGAGCCGCGATATCGGCATGATCGGCAGCGAGGACCTCAAGGTCGTGACCCAGCGCGCGCCGAGCGAGCAGGAAATCAACGACCTTATCTTCGCCTGGAAAGTCGCCAAGTACGTCAAGTCCAACGCCATCGTCTACGCCAAGAACCGCCAGACCATCGGTGTCGGCGCCGGCCAGATGAGCCGCGTCAACTCGGCCCGCATCGCTGCGATCAAGGCTGAGCACGCCGGTTTGCAGGTTCAGGGCGCCGTCATGGCCTCCGATGCGTTCTTCCCGTTTCGCGATGGCATCGACAACGCGGCCAAGGTCGGCATCACGGCGGTGATCCAGCCGGGTGGTTCGATGCGTGACGCTGAAGTGATTGCCGCGGCTGATGAAGCCGGGATCGCGATGGTCTTCACGGGCATGCGCCACTTCCGTCACTAA	MTDQTIRLPIRRALISVSDKTGILEFARELQQLGVEILSTGGTFKLLQDNGVAAVEVADYTGFAEMMDGRVKTLHPKIHGGILGRRGIDDAIMNEHGIKPIDLVAVNLYPFEATINKPGCDLPTAIENIDIGGPTMVRSAAKNHKDVAIVVNASDYAGVLENLKAGGLTYAQRFDLMLKAFEHTAAYDGMIANYMGTVNQAAETLSTEGRSEFPRTFNTQFVKAQEMRYGENPHQSAAFYVEAKPAEVGIATATQLQGKELSFNNVADTDAALECVKSFVKPACVIVKHANPCGVAVSPDAEGGIRQAYELAYATDTESAFGGIIAFNRELDAETAKAIVERQFVEVIIAPSVSEEARAIVAAKANVRLLACGQWSADRAPAWDYKRVNGGLLVQSRDIGMIGSEDLKVVTQRAPSEQEINDLIFAWKVAKYVKSNAIVYAKNRQTIGVGAGQMSRVNSARIAAIKAEHAGLQVQGAVMASDAFFPFRDGIDNAAKVGITAVIQPGGSMRDAEVIAAADEAGIAMVFTGMRHFRH	PGPT0008110_1088	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008110-purH-K00602	NA	NA
D1-35_04991	321	fis		DNA-binding protein Fis	ATGACGATGATGACCGAGACTTTAGTGAGTGGAATAACACCCGTGAGCGACAACGTGAATTTGAAACAGCACCTCAACACGCCCAGCGAAGAAGGCCAGACCCTTCGCGGGAGCGTCGAGAAGGCGCTGCACAATTATTTCGCCCACCTTGAGGGCGCTGCCGTCACGGATGTGTACAACCTGGTGCTTTCCGAAGTCGAGGCACCGCTGCTCGAGAGCGTGATGAACTACGTCAAGGGCAACCAGACCAAGGCCAGTGAGCTGCTGGGCCTGAACCGCGGCACCCTGCGCAAGAAACTCAAGCAGTACGATCTGCTGTAA	MTMMTETLVSGITPVSDNVNLKQHLNTPSEEGQTLRGSVEKALHNYFAHLEGAAVTDVYNLVLSEVEAPLLESVMNYVKGNQTKASELLGLNRGTLRKKLKQYDLL	PGPT0025570_79	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI1|AI-2|CAI-1_PERCEPTION|SIGNALLING,PGPT0025570-fis-K03557	NA	NA
D1-35_04992	1008	dusB	COG0042	tRNA-dihydrouridine synthase B	ATGTCGGCGGTACGCATCGGCCCATATACATTGCAGAACGGTCTGGTCCTCGCCCCGATGGCGGGCGTTACCGATCAGCCCTTTCGTCAGTTGTGCAAACGATTGGGCGCCGGTCTCGTGGTCTCGGAAATGGTCACCAGCGACATGAGTCTGTGGAACACCCGCAAATCGCGTCTGCGCATGATCCACGAAGGCGATCCCGAGCCCCGCTCGGTACAGATCGCCGGTGGCGACGCACAGATGCTGGCGGAGGCGGCCCGGGCGAATGTCGAGCTGGGGGCGCAGATCATTGACATCAACATGGGCTGCCCGGCGAAGAAGGTCTGTAACAAGGCCGCAGGCTCGGCGCTGTTGAAGGATGAAGCACTGGTCACCGAGATCCTGCAGGCAGTTGTCGCCGCAGTCGATGTGCCGGTGACCCTGAAGATCCGCACCGGCTGGGACCGGGACAACAAGAACGGCCTGACGGTGGCGAAGATCGCCGAACAGGCAGGTATCACGGCGCTGGCGGTGCATGGCCGCACCCGTGCCGACCTGTACACCGGCGAAGCCGAGTACGACACCATTGCCGCGATCAAGCAGGCGGTGTCCATTCCGGTGTTTGCCAACGGCGATGTCGATTCGCCCGAAAAGGCCCGGTACGTGCTGGACGCGACCGGTGCCGACGGCCTGTTGATCGGCCGGGCCGCCCAGGGGCGGCCATGGATTTTTCGTGAGATCGAACATTTCCTGCGCACCGGCGAAAAGCTCGCTGCGCCGCAATTGTCCGAGGTGGAACGTATTCTGCTAGAGCATCTGGCCGCGCTGCACGCCTTCTATGGCGAAGTCATGGGCGTACGCATCGCTCGCAAGCATGTGGGCTGGTATCTCGCAACCCTGCCGGGCGCCAGGGAGTTTCGCGCCCGTTTCAATCGTTTGGATGGTACGCAAGCACAATGCGCCGACGTTCAGGCGTTTTTCGCCGAACGTTACAAGAGCCTGACAGGGGACGAAGGGGTGGCCGCATGA	MSAVRIGPYTLQNGLVLAPMAGVTDQPFRQLCKRLGAGLVVSEMVTSDMSLWNTRKSRLRMIHEGDPEPRSVQIAGGDAQMLAEAARANVELGAQIIDINMGCPAKKVCNKAAGSALLKDEALVTEILQAVVAAVDVPVTLKIRTGWDRDNKNGLTVAKIAEQAGITALAVHGRTRADLYTGEAEYDTIAAIKQAVSIPVFANGDVDSPEKARYVLDATGADGLLIGRAAQGRPWIFREIEHFLRTGEKLAAPQLSEVERILLEHLAALHAFYGEVMGVRIARKHVGWYLATLPGAREFRARFNRLDGTQAQCADVQAFFAERYKSLTGDEGVAA	PGPT0001030_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001030-acoR-K21405	NA	NA
D1-35_04993	1230			hypothetical protein	ATGACCGACAGCTTCGTCACCCAGTGCCCGCATTGCCACACCAGTTTTCGTGTCAGCCATGCTCAATTGAGCGTGGCACGCGGGGTGGTTCGCTGCGGCTCGTGCCTGCAGGTGTTCAACGCCGCGCGACAATTGCTCGAGCAGCGCACGGCCAAGACCGTTGCGCCCCCACTCGCGCCGCTCGCCGCACCAGCCGTCGATACACCGCCGCCCCGCGCCATCAGCCAGAAACAATGGAGCGCCGCCGAGCTCGACCTCGATGACCTGGACAAGGAGCTGGCGCGTCTGGAGCGCCTCGAAAAGCGCGCCCCGGACAGCTTTGGCCGGCGTCGCGAAGACAACCTGAGCGCCCAGCGCGAGCAGCTTCCGCAGGAGCAGGAAGCCTGGTCCGACAGCCTCTACAGCGAAGCCCCCGACGAGCGCGCCGAAGGCGCTCTGCAAATGCCGGTCGAGCCGTTCGAGCCTCATGAGCCCGCCCGGCCGCCACGGACCGAACCTTCCTTGTCCCTGGCCCTTGAGCCCCTGGAGCCGGACGACGAACCCGTCGCCCCGCTCAGCCTCACGCCGGACGACGAGCCGCACGAACACCTTGAGCGCCTGTCCGCCACCGACGACCTGGATGACGAGCCGGAGCCTGCGGCAACGCCGCGCAAGAAGCGCGAGCGCCATGAGCCGGGGATACGCGCCGAAGCCCTGCAGGACCTGGACGATGATCCATTGCAACTGGACTGGCGCAAACGCCGCTCGCCCTGGGGCCGTCGCCTGCTCTGGAGCCTGTTGATATTGCTCGGCGCGGCAGCGCTGGCCGGCCAGTACATCGCCTACCATTTCGAAGAACTGGCCCGCCAGGACCAGTACCGTCCGTGGTTCCTGCAAATCTGCCCGGTCATTGGCTGCGATGTCCCGTCCAAGGTCGACATCGCCAAGATCAAGAGCAGCAACCTGGTGGTGCGCAGCCATCCGGAATTCAGCGGCGCCCTGGTGGTGGATGCGATCATCTACAATCGCGCGCCCTTCTCCCAGCCGTTCCCGCTGCTGGAGCTGCGTTTTGCCGACCTCAACGGTCACCTGATCGCCAGCCGTCGCTTCAAGCCAGGCGAGTACCTGGGCGGCGATCTCGAAGGCCGGGGGGAAATGCCGCCGCAGACGCCGATCCATATCGCCTTGGATATCCTCGATCCGGGGCCGAAAGCGGTGAACTACAGCCTGAGCTTTCATTCACCCGAATGA	MTDSFVTQCPHCHTSFRVSHAQLSVARGVVRCGSCLQVFNAARQLLEQRTAKTVAPPLAPLAAPAVDTPPPRAISQKQWSAAELDLDDLDKELARLERLEKRAPDSFGRRREDNLSAQREQLPQEQEAWSDSLYSEAPDERAEGALQMPVEPFEPHEPARPPRTEPSLSLALEPLEPDDEPVAPLSLTPDDEPHEHLERLSATDDLDDEPEPAATPRKKRERHEPGIRAEALQDLDDDPLQLDWRKRRSPWGRRLLWSLLILLGAAALAGQYIAYHFEELARQDQYRPWFLQICPVIGCDVPSKVDIAKIKSSNLVVRSHPEFSGALVVDAIIYNRAPFSQPFPLLELRFADLNGHLIASRRFKPGEYLGGDLEGRGEMPPQTPIHIALDILDPGPKAVNYSLSFHSPE				NA	NA	NA	NA	NA
D1-35_04994	879	prmA	COG2264	Ribosomal protein L11 methyltransferase	ATGCCTTGGCTGCAAGTACGTCTGGCCATCAGCCCGGAACAAGCCGAAACCTATGAAGACGCCTTTCTTGAAGTTGGCGCCGTTTCGGTCACCTTCATGGATGCCGAGGACCAGCCGATCTTCGAGCCGGAACTCAACACTACCCCGCTGTGGTCTCACACCCACCTGCTGGCCCTGTTCGAGGGTGGCACCGAAGCCACCAGCGTGCTTGCTCACCTGGAGCTGCTGACCGGCGGCCCGCTACCCGAGCACCACAGCGAAGTGATCGAGGACCAGGATTGGGAACGCAGCTGGATGGACAACTTCCAGCCGATGCGCTTCGGCCAGCGCTTGTGGATCGTGCCGAGCTGGCATGCCGCACCGGAGCCGGACGCGGTCAACCTGCTGCTGGACCCGGGCCTGGCGTTCGGCACCGGCACCCACCCGACTACCGCGCTGTGCCTGGAGTGGCTCGACGGCCAGGACCTGAAGGACTGCCACGTACTGGACTTCGGCTGCGGTTCGGGGATCCTGGCTATTGCCGCGCTGCTGCTGGGCGCCAAGGAAGCGGTCGGCACCGACATCGATGTCCAGGCCCTGGAAGCGTCCCGCGACAACGCCGGACGCAACAACATTGCCGAAGCACTTTTCCCGCTGTATCTGCCCCAAGACCTGCCCCAAGTACAGGCCGACGTACTGGTAGCCAACATCCTCGCCGGCCCGCTGGTGTCGCTGGCACCGCAGCTGTCCAGCCTGGTCAAGCCGGGCGGACGCCTGGCGCTGTCGGGCATCCTGGCGGAACAGGGCGAAGAAGTCGCCGCCGCCTACGCCGGGGATTTCGACCTGGACCCGATTGCCAATCGCGATGGCTGGGTGCGCATCACTGGACGTCGGCGCTAG	MPWLQVRLAISPEQAETYEDAFLEVGAVSVTFMDAEDQPIFEPELNTTPLWSHTHLLALFEGGTEATSVLAHLELLTGGPLPEHHSEVIEDQDWERSWMDNFQPMRFGQRLWIVPSWHAAPEPDAVNLLLDPGLAFGTGTHPTTALCLEWLDGQDLKDCHVLDFGCGSGILAIAALLLGAKEAVGTDIDVQALEASRDNAGRNNIAEALFPLYLPQDLPQVQADVLVANILAGPLVSLAPQLSSLVKPGGRLALSGILAEQGEEVAAAYAGDFDLDPIANRDGWVRITGRRR				NA	NA	NA	NA	NA
D1-35_04995	1359	accC	COG0439	Biotin carboxylase	ATGACTGCGAAGTTGGAAAAAGTTCTGATCGCTAACCGCGGTGAGATCGCCCTGCGGATTCTGCGTGCCTGCAAAGAGATGGGCATCAAGACCGTCGCCGTTTACTCCAAGGCCGACAAAGAACTGATGCACCTGGGCCTGGCGGATGAATCCGTCTGCATCGGTCCGGCGTCGGCTGCGCACTCCTACCTGCACATCCCGGCGATCATCGCCGCCGCCGAAGTGACCGGCGCTACCGCCATTCACCCTGGCTACGGTTTCCTCGCGGAAAACGCCGACTTCGCCGAACAGGTGGAAAACTCCGGTTTTGCCTTCATCGGCCCAAAAGCCGAAACCATTCGCCTGATGGGCGACAAGGTCTCGGCCAAGCACGCCATGATCGCTGCCGGCGTGCCAACCGTTCCGGGCTCCGACGGCCCGCTGCCTGAAGACGAAGAAACCGCTCTGCGCATCGGTCGCGAAGTCGGCTATCCGGTGATCATCAAGGCCGCTGGCGGCGGTGGTGGTCGCGGCATGCGTGTGGTGCACAAGGAAGAAGACCTGATTTCCTCGGCAAAACTGACCCGCTCCGAAGCAGGCGCGGCGTTCGGCAACCCGATGGTCTATCTGGAAAAATTCCTCACCAACCCACGTCACGTCGAGGTCCAGGTACTGTCCGACGGCCAAGGCCAGGCGATTCATCTCGGCGACCGCGATTGCTCGCTGCAGCGTCGTCACCAGAAGGTCCTCGAAGAAGCGCCGGCACCAGGCATCGACGAGCAGGCTCGCCAGGAAGTCCTGGCCCGCTGCGTCAAGGCCTGCATCGATATCGGTTACCGCGGCGCGGGTACTTTCGAGTTCCTGTATGAGAACGGTCGTTTCTACTTCATCGAAATGAACACCCGCGTTCAGGTGGAGCATCCGGTTTCGGAAATGGTCACCGGCATCGACATCGTCAAGGAGATGCTCAGCATCGCCGCTGGCAACAAGCTGTCGTTCACTCAGGATGACGTGGTCATCCGCGGTCACGCGCTGGAATGCCGGATCAATGCCGAAGACCCGAAAACCTTCATGCCAAGCCCTGGCACGGTCAAGCATTTCCATGCCCCGGGCGGCAACGGCGTTCGCGTCGATTCGCACCTGTACAGCGGTTATGCCGTTCCGCCGAACTACGACTCGTTGATCGGCAAACTGATCACTTACGGGGCAACCCGCGACGAAGCCATGGCGCGCATGCGCAATGCGCTGGACGAGATCGTGGTGGACGGGATCAAGACCAACATCCCGCTGCACCGCGACCTCACCCGCGACGAAGGCTTCTGCAAAGGGGGCGTGAACATTCACTACCTCGAGCACAAGCTGGCTGGCGAGAAGCACTAA	MTAKLEKVLIANRGEIALRILRACKEMGIKTVAVYSKADKELMHLGLADESVCIGPASAAHSYLHIPAIIAAAEVTGATAIHPGYGFLAENADFAEQVENSGFAFIGPKAETIRLMGDKVSAKHAMIAAGVPTVPGSDGPLPEDEETALRIGREVGYPVIIKAAGGGGGRGMRVVHKEEDLISSAKLTRSEAGAAFGNPMVYLEKFLTNPRHVEVQVLSDGQGQAIHLGDRDCSLQRRHQKVLEEAPAPGIDEQARQEVLARCVKACIDIGYRGAGTFEFLYENGRFYFIEMNTRVQVEHPVSEMVTGIDIVKEMLSIAAGNKLSFTQDDVVIRGHALECRINAEDPKTFMPSPGTVKHFHAPGGNGVRVDSHLYSGYAVPPNYDSLIGKLITYGATRDEAMARMRNALDEIVVDGIKTNIPLHRDLTRDEGFCKGGVNIHYLEHKLAGEKH	PGPT0001705_1648	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
D1-35_04996	465	accB	COG0511	Biotin carboxyl carrier protein of acetyl-CoA carboxylase	ATGGATATCCGTAAAGTTAAGAAACTGATCGAATTGCTGGAAGAGTCCGGCATCGACGAGCTCGAGATCAAGGAAGGCGAAGAGTCCGTACGCATCAGCCGCCACAGCAAGACCCCGGCCCAGCAGTTCTATGCACCGGCACCGATGCAAGCGCCAGCCGCTGCACCTGCTCCGGCAGCTGCGCCAGTTGCCGCCGCGGCACCTGCCGCACCGGCCGCGCCGACGCTGAACGGCACTGTTGCTCGCTCGCCGATGGTGGGCACGTTCTATCGCAAGTCTTCCCCGAGCTCGCCGTCCTTCGTTGAAGTTGGCCAGACCGTGAAGAAAGGCGACACCCTGTGCATCGTCGAAGCCATGAAGATGATGAACCACATCGAAGCTGAAACCAGCGGTGTGATCGAGTCCATCCTCGTCGAAGACGGCCAGCCGGTTGAGTACGACCAACCGCTGTTCACCATCGTTTGA	MDIRKVKKLIELLEESGIDELEIKEGEESVRISRHSKTPAQQFYAPAPMQAPAAAPAPAAAPVAAAAPAAPAAPTLNGTVARSPMVGTFYRKSSPSSPSFVEVGQTVKKGDTLCIVEAMKMMNHIEAETSGVIESILVEDGQPVEYDQPLFTIV	PGPT0001700_2670	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
D1-35_04997	453	aroQ1	COG0757	3-dehydroquinate dehydratase 1	ATGGCGACCCTTCTGGTCCTGCACGGACCCAACCTGAACCTGCTGGGCACCCGTGAACCGGGCGTCTATGGCGCCGTGACACTGGCCCAGATCAACCAGGACCTGGAGCAACAGGCTCGTAGCGCCGGCCATCATTTGCTCTACCTGCAAAGCAATGCCGAATATGAATTGATCGACCGCATCCATGCCGCGCGCGGCGAAGGCGTGGATTTCATTCTGATCAATCCCGCGGCTTTTACACATACGAGCGTCGCATTACGTGACGCGCTGCTGGCAGTGAGCATCCCATTCATCGAAGTGCATTTGTCCAACGTGCACAAACGCGAACCTTTCCGCCATCACTCCTACTTCTCCGATGTAGCAGTAGGCGTGATCTGCGGCCTTGGCGCCAGCGGTTACCGACTGGCCCTGGAGGCCGCTCTAGAGCAGCTTGAAAAACAGGCAACAGCTTGA	MATLLVLHGPNLNLLGTREPGVYGAVTLAQINQDLEQQARSAGHHLLYLQSNAEYELIDRIHAARGEGVDFILINPAAFTHTSVALRDALLAVSIPFIEVHLSNVHKREPFRHHSYFSDVAVGVICGLGASGYRLALEAALEQLEKQATA	PGPT0012905_1228	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
D1-35_04998	453			hypothetical protein	ATGCCAAATTCAGAAACTACTAAAAAACCTGCCCTTCTCGCTGTCTTGTGCACAGTGCTTGCCCTCGCGCTGGCTTACACCAGTTGGACGTGTTTTTTCCGTCCAAATACGCCTGAGTTGACAGAGGTCGTATTACGAAAACCTTTGTCTCAGGATGCATTTATCTACGGCGTAAAGGATGAGCGTGGCGGAGCGACGGTTCCTTTCAGTTACCGCTACTACGTCTATCGGACCCTGGCAGCGGACGGTGACATACTTTCCGAACTGAAAACCGCGACGCCATTTCTTGTCACTCGGGATGATTCGGTAACCATAGACACTCAGGAACAGACGATTACGGTATTGGTTGACAAGGAGATCTACGCCTACCACAGCAATACCCTCTACCGAAACGCCGATGGCGAAGACTACACGGCGGTGAGTATTTATTTGCATTCTGGTCCAGCTGAGTAA	MPNSETTKKPALLAVLCTVLALALAYTSWTCFFRPNTPELTEVVLRKPLSQDAFIYGVKDERGGATVPFSYRYYVYRTLAADGDILSELKTATPFLVTRDDSVTIDTQEQTITVLVDKEIYAYHSNTLYRNADGEDYTAVSIYLHSGPAE				NA	NA	NA	NA	NA
D1-35_04999	1947	ctpL		Methyl-accepting chemotaxis protein CtpL	ATGCGCCTGAAGCTGCTGACCAACCTCAACACTGTTCTTTTAGTTGCCGTATGCCTTGGCCTCGGCGCCACCCTGTGGTGGTCGCAGATTGCCTTGGAGCGTCCTTATCTGCTGATGGAACGCTACCTGGGCCTGTCGCGGCAGTTCCAGGGCGAAGTGGCGCGCAACATCGAAGATTACCTGGCCAGCGGCGACGCCTTGCGCCTCAGCGCAGCCACCCAGGCCCTGGAAACCCTGCAAAAAGATCTGGACCAGTTCCCGCCGGACCTGGCCAGGACGCTAAGCCCGAGCCTGTCGAACCTTGACGGTTTCAGCAAGACCGACCTGCTGGCCGCCGGCAAACTGGCGGCTGATCCACAGGCCCTGTTGTTGCAGGCTGAACGTGAGCTGAGCGCCAGCCTGGACCAACTTGCCCAGTACGCCAACGGCGCGCCGGCTTATCTGCCGCCGCTGTTTGCTGCCTCACAGCATTTGGGCCGGTTATCACTCGCCCGGGACAAACTGGTCAGCAGCGGCCGCAGTGAACTGGCCGCCGATGTCGAACGGGAACTGGCCAACGTCCGCACCCAGGCCCAGCAACTGAACAGTCTGCCGCTGCTCGGCGTCACCGCCAGCAACGAATCGGGCAGCGATGACTTCGCCGCGCTGATGGGTCTGGAAACCGAGGAAAAGGCCGCCGCCGAAGACGCCGGGATTGCCCTCAAGCGCGAACTCAACAGCCTGCTCGGGCGTTATCCCGCGGAACTGGCGCGCACGCGCGAACTGATCCAGAAACGCACCGAGCTGGCCGATGCCACGCACTTGAAAACCACCGATGTGCAACAGGCAATCGACGCCATGGAGCCTGCGGTCCGTGCCCAACATGGGCAGATCCAGGGCGAAGTACGGGTCATCCAAGGGGTGATGATCGGCCTGATTCTGCTGATCGCCCTTCTTATCGATACCTTGCAGCGACGCCTGGCCCGGACCTTGACCCGCCTGGCGCCGGCCCTTTCCACTTGGGCCGAAGGCGATTTCAGTGGCGATATCCGTGTCGGCGCCAGCAACCGTGAATTGCAGGACATCGAAGCCTCGCTCAATCGCCTGCGCGCCTATCTGGTGGATCTGGTCGGTACCATCCGCCTGAACGCCGAACAGGTGGCCGGCAGCAGCCGGACCCTGGCCGAGCTCAGTGGCGAATTGCATAGCGGTGCCGAAGACCAGGCCGGTGACACGGCATTGATCCGCGACTCCCTCAGTGAGCTCGAAGCGACCATCCAGCAAGTGGCCGGCGATGCCAGCCAGGCCGCGGATGCCAGTCGCAGTGCGGGCCATGCCGTGGAGCAAGGCCAGAAAGTGATCGGCATGAGCCTCGCCGGCTTGCACTCGCTCGTCGGCGAAGTGCAGGGCAATGCGCAAATGATCGAACAGCTGGCTGAGGAGTCGGCGACCATCGGCGGCGTGCTGACCGTCATCCGCTCGATTGCCGACCAGACCAACCTGTTGGCCCTCAACGCCGCCATCGAAGCCGCCCGCGCCGGGGAAATGGGCCGCGGCTTTGCGGTTGTGGCCGAGGAGGTCCGCTCCCTGGCTCAACGCACCGCAGGCGCCACGGCCGAGATCCAGGCGCTGATTGCCCGTTTGCAGCAGGCTGCACGCCAGTCCGTGGAAGGCATGCGCGCCCAGGTCGAACACGCCGAAGCCACCGCCAGCCAGGCCCAGGCGGCCGATGGTGCACTGGATAAAATCGTCGAGGCGATCCAGACCATCGCCGATACCGCGGTGCGCATCGCCGATGTCACCGCCCAGCAAAGCGGCGCCGTCAGCGAAATCCGCGATCACAGCGAGCGGATCCACCAACTGGGCGGGGATAACCTGCAGCGCATCGGCCAAGGCCGGGAACAGGGCGACAACCTGCTGCTCCTGGGCGGGCGCTTGCACACGGCGGTGCAGGCGTTCCGGGTGTGA	MRLKLLTNLNTVLLVAVCLGLGATLWWSQIALERPYLLMERYLGLSRQFQGEVARNIEDYLASGDALRLSAATQALETLQKDLDQFPPDLARTLSPSLSNLDGFSKTDLLAAGKLAADPQALLLQAERELSASLDQLAQYANGAPAYLPPLFAASQHLGRLSLARDKLVSSGRSELAADVERELANVRTQAQQLNSLPLLGVTASNESGSDDFAALMGLETEEKAAAEDAGIALKRELNSLLGRYPAELARTRELIQKRTELADATHLKTTDVQQAIDAMEPAVRAQHGQIQGEVRVIQGVMIGLILLIALLIDTLQRRLARTLTRLAPALSTWAEGDFSGDIRVGASNRELQDIEASLNRLRAYLVDLVGTIRLNAEQVAGSSRTLAELSGELHSGAEDQAGDTALIRDSLSELEATIQQVAGDASQAADASRSAGHAVEQGQKVIGMSLAGLHSLVGEVQGNAQMIEQLAEESATIGGVLTVIRSIADQTNLLALNAAIEAARAGEMGRGFAVVAEEVRSLAQRTAGATAEIQALIARLQQAARQSVEGMRAQVEHAEATASQAQAADGALDKIVEAIQTIADTAVRIADVTAQQSGAVSEIRDHSERIHQLGGDNLQRIGQGREQGDNLLLLGGRLHTAVQAFRV				NA	NA	NA	NA	NA
D1-35_05000	1671	rssB_2		Regulator of RpoS	ATGACCGAGCCAGAAGACCCCAGCCGCGAGCGCCTCAAGCACCACTTTGCCCAGCGGGTAATTCATCAGGCTCGCCAGATCCTGGAGATATGGCAGCGCCTGCAACGCAGCGAATGGTCCAGTACCGACCTGTCGGAGCTCAGTGAAGCCAATCTGCGCCTGCTGCGCTTTGCCGAGCGTTTCGAGCAACCTGAGCATTGCCAGCTTGCCCAAGGTATCGGCCAGTCGTTGCAAGCGGTAGATGCCAATCGCGGGCGCCTGAGCAGCCAGCTGATCACCGAGATCAACCGCTTGATGCAACGCCTGTCCCGCACCGGCTTGCGCCATGGCGACCAGCTCGAGCAGACCTTCCTGCCACCGCTGCGCAAGCCCATCTACATATTGCTGCAAGACCATGACCGTGCCGAACGGCTGGCCAAGCAACTGGAATTCTTCGGCCTCAGCGCCCAGTCCCTGGACAGCGTCGCGGCATTCCGGGCCGCGATGGTCGAGCGCCTGCCTGCGGCCATTGTCATGGACGTGGATTTCAGCGGCCCGGGCGTGGGCCTGAAGCTGGCTGCCCAAGCCCAGGAAGGCCTGGATCAACCACTGCCGCTATTGTTTTTCAGTTTGCTGGAAACCGATACACCAACGCGGCTGGCCGCCGTGCGCGCCGGCGGGCAGGAGTTTCTCACCGGCACGCTGGAGGCCTCGAGCCTGCTGGAAAAAATCGAAGTGCTGACCTGCGTCGCCCAGTACGAACCCTACAAAGTGTTGATCATCGATGACTCCCGCGCCCAGGCCCTGCACACCGAACGCCTGCTCAACAGCGCCGGCATTGTCACGCGCACGCTGATCGAGCCGATCCAGGCCATGGCCGAGCTGGCGGACTTCCAGCCCGACCTGATCATCCTCGACATGTACATGCCCGCCTGCACCGGTACGGAACTGGCCAAGGTGATCCGCCACAACGACCGCTACGTCAGCGTGCCGATCATTTACCTGTCCGCCGAAGACGACCTGGACAAACAGCTCGACGCCATGAGCGAGGGCGGTGATGACTTCCTGACCAAACCGATCAAGCCCAGGCACCTGATCACCACCGTGCGCAACCGTGCAGCACGGGCCCGCAATCTCAAGGCGCGGATGGTGCGCGACAGCCTCACCGGCCTGTACAACCACACCCATATCCTGCAATTGCTCGAAGACTGCAGCTTCCGCGCCCGCCGTGAGGGCAAGCCCTTGAGCTTCGCCATGCTCGATATCGACCATTTCAAACGGGTCAATGACAGCCACGGCCACCCCATGGGCGACCGGGTGATCAAGAGCCTGGCGCTGTTTCTCAAGCAACGCTTGCGCAAGACCGATTTCATCGGCCGGTACGGCGGCGAAGAGTTCGCTATCGTCATGCCCGACACCGACATTGATGCTGCCTGCACAGTGCTGGACGAAATCCGCCAGCGCTTTGCCGAGATTCACTACCCCGCCCAACCCCAGGACTTGTGGTGCACTTTCAGCGCCGGGGTGGTGGAGATGAGCGAAGAGTCCGACAGCCTGATGATGGCCAGCCAGGCCGACGAGGCGCTGTACCGTGCCAAGCACGCCGGGCGCAATCGGGTGCAGAGCGCCAGGCAATCAAAGCAAAGTGCCACTTTTTCATCGGAATCGACTGATTCGGTCATAAACGTGTAA	MTEPEDPSRERLKHHFAQRVIHQARQILEIWQRLQRSEWSSTDLSELSEANLRLLRFAERFEQPEHCQLAQGIGQSLQAVDANRGRLSSQLITEINRLMQRLSRTGLRHGDQLEQTFLPPLRKPIYILLQDHDRAERLAKQLEFFGLSAQSLDSVAAFRAAMVERLPAAIVMDVDFSGPGVGLKLAAQAQEGLDQPLPLLFFSLLETDTPTRLAAVRAGGQEFLTGTLEASSLLEKIEVLTCVAQYEPYKVLIIDDSRAQALHTERLLNSAGIVTRTLIEPIQAMAELADFQPDLIILDMYMPACTGTELAKVIRHNDRYVSVPIIYLSAEDDLDKQLDAMSEGGDDFLTKPIKPRHLITTVRNRAARARNLKARMVRDSLTGLYNHTHILQLLEDCSFRARREGKPLSFAMLDIDHFKRVNDSHGHPMGDRVIKSLALFLKQRLRKTDFIGRYGGEEFAIVMPDTDIDAACTVLDEIRQRFAEIHYPAQPQDLWCTFSAGVVEMSEESDSLMMASQADEALYRAKHAGRNRVQSARQSKQSATFSSESTDSVINV	PGPT0015900_1290	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-CELL_FATE_CONTROL	PUTATIVE-CELL_FATE_CONTROL-1,PGPT0015900-pleD-K02488
D1-35_05001	1068			hypothetical protein	ATGCTGGACTGGAAGAACCGCGCGGGCAGCGCGCCTGAACGCGCCGCCGAACCGAAATCGGACACCCGCAGCTATCTGGGTGGGCTGTTTTTCAGTCGGGCGCTGGCCACGCTCATTGGCCTGTACCTGCTGGTGACTATTGCAGTCGGCTGGTATTGGAGCCAGGAGCCCGAGTTGTTTCCGGTACAGCAGAACGCCCAGGCAGCGGCCGAGAAGGATGGCCGGCAGATGGTGGTCGGCTACACCACCGTGGAAACCCTCAAGACCGTCGCCGGAACCTTGCTGACCAAGCAGGGCGGCTACATTTCCAACGACCGCTTCCCGCCAGGCCTGTGGATGGACAACATGCCCAGTTGGGAATACGGCGTGCTGGTGCAGGTCCGCGACCTGAGCCGTGCCCTGCGCAAGGACTTCGCCCGTTCCCAGTCGCAGTCCGCCGAAGACGCCGACCTGGCCAAGGCCGAGCCGCGCTTCAACTTCGACAACCGCAGTTGGGTGCTGCCGTCCAGCGAATCGGAATACCAGGAAGGCATCAATTCCTTGAGCCGTTATCAGGCGCGCCTGTCCGATCCAAGTCAGAAAAGCGCGTTGTTCTACGCCCGCGCCGACAACCTGAACAACTGGCTGGGGGATGTCGGTACGCGCCTGGGGTCGCTGTCCCAGCGCCTGTCTGCCAGCGTCGGCCGGGTCAAGCTCAACACCTCGCTGAAGACCGAGGTCCCGGCGCCAGGCCAGGTGCCGCAGGTTGACGAAGAGGTGGTCGAGACACCTTGGCTGCAAATCGACAACGTGTTCTACGAGGCTCGTGGTCAAGCCTGGGCGCTGTCTCACTTGTTGCGCGCCATCGAGGTGGATTTCGCAGACGTGCTGGCGAAGAAGAACGCGACGGTCAGCGTGCGGCAGATCATTCGCGAACTGGAGGCTTCACAGGAGCCGATCTGGAGCCCGATGATTCTCAACGGCAGCGGCTTCGGGGTGTTGGCGAACCACTCGCTGGTCATGGCCAACTATATTTCTCGCGCCAATGCGGCGGTGATTGACCTGCGGCAATTGCTCAACCAGGGCTGA	MLDWKNRAGSAPERAAEPKSDTRSYLGGLFFSRALATLIGLYLLVTIAVGWYWSQEPELFPVQQNAQAAAEKDGRQMVVGYTTVETLKTVAGTLLTKQGGYISNDRFPPGLWMDNMPSWEYGVLVQVRDLSRALRKDFARSQSQSAEDADLAKAEPRFNFDNRSWVLPSSESEYQEGINSLSRYQARLSDPSQKSALFYARADNLNNWLGDVGTRLGSLSQRLSASVGRVKLNTSLKTEVPAPGQVPQVDEEVVETPWLQIDNVFYEARGQAWALSHLLRAIEVDFADVLAKKNATVSVRQIIRELEASQEPIWSPMILNGSGFGVLANHSLVMANYISRANAAVIDLRQLLNQG				NA	NA	NA	NA	NA
D1-35_05002	558	yfcD		putative Nudix hydrolase YfcD	ATGGACGAAAGCACCCGGGAGGACGCTCATCGAGTGGCCTCGGATGCCGAGCTGATCGCTTGGGTCGACGAAGACGACAATCTGCTCGGCAGCCTGGTGCGCTCGGATCTGCGCGAGCGAGGCCTGATCGGACGCGGCACCTACATCATGCTGTTCAATTCGGCGGGCGAGCTGTGCGTTCATCGAAGGACTTTGAGCAAGGCTATCTACCCCGGCTATTGGGATGTCGCGGCAGGGGGAATGGTTCAGGCCCACGAGACGTACGCCGAGTCGGCGGCGCGCGAGCTGGCCGAAGAATTAGGCGTGAGCGGCGTCGAATTGGTCGCCCACGATCATTTCTATTTCGAGGACGCCGGCAGTCGCCTGTGGTGCGCGGCGTTTTCCGCCGTGTGGGACGGGCCGTTGGTCCTGCAACCGGAAGAAGTCCTGGAAGCGCGCTTTCTGCCCGTCGAGCAGGTGCTCGATGAAATACGCCACAAACCGTATTGCCCGGACTCCCTGGCGGCGCTTGGGCGCTATTTGCGCGCCCGTGAGCGCGGTGTCGCAAAGAAGCTGTAA	MDESTREDAHRVASDAELIAWVDEDDNLLGSLVRSDLRERGLIGRGTYIMLFNSAGELCVHRRTLSKAIYPGYWDVAAGGMVQAHETYAESAARELAEELGVSGVELVAHDHFYFEDAGSRLWCAAFSAVWDGPLVLQPEEVLEARFLPVEQVLDEIRHKPYCPDSLAALGRYLRARERGVAKKL				NA	NA	NA	NA	NA
D1-35_05003	372	yciH	COG0023	putative protein YciH	GTGGCCAAAAAAGCCGCATCCTTCGCCGCCCTGGGCGGCCTGGTATTTTCTACCGACGCCGGTCGTCATTGCCCTGATTGCCGCCAGCCGGTGGATGCCTGCATCTGCAAACAGACCGCCATACCCGCCGGAGACGGCATCGCTCGCGTACGCCGCGAAAGCAAAGGCCGAGGTGGCAAGACGGTGACCACGGTCACCGGCGTGCCGCTGGCCGAGGACGCGCTCAAGGAACTGGCAACGACGCTGAAAAAGCGCTGTGGTACCGGCGGCGCGTTGAAGGATGGCGTCATCGAGATCCAGGGCGATCACGTCGAGCTCTTGCTGGCGGAACTCACCCGACACGGTTTCAAGGCAAAGAAGTCCGGCGGCTAG	MAKKAASFAALGGLVFSTDAGRHCPDCRQPVDACICKQTAIPAGDGIARVRRESKGRGGKTVTTVTGVPLAEDALKELATTLKKRCGTGGALKDGVIEIQGDHVELLLAELTRHGFKAKKSGG	PGPT0015030_218	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015030-yciH-K03113	NA	NA
D1-35_05004	1914	speA		Biosynthetic arginine decarboxylase	ATGTCCGTACGACGCACACGAAAAGACGATGGCAGCCAATGGACAGTTGCGGACAGCCGCAGCGTTTATGGGATCCGCCATTGGGGGGCCGGGTATTTCGCGATCAATGAAGCCGGTCGCGTCGAAGTCCGTCCGAACGGCCCCGACAGTTCGCCGATCGATTTGTACGAGCAAGTCGACCAGTTGCGCCAGAGTGGCCTTTCGTTGCCGTTGTTGGTGCGCTTCCCCGATATCCTGCAAGATCGGGTGCGTCAGCTCACCGGCGCGTTCGACAGCAACATTGCACGCCTGGAATACCAGAGCCAGTACACCGCGCTTTACCCGATCAAGGTAAACCAGCAGGAGGCGGTGATCGAAAACATCATCGCCACCCAGAATGTCTCCATCGGCCTGGAAGCCGGTTCCAAGCCCGAGTTGCTGGCAGTGCTGGCCCTGGCGCCAAAGGGCGGGACCATCGTCTGCAATGGCTACAAGGACCGCGAGTTCATCCGCCTGGCGCTGATGGGCCAGAAGCTGGGCCACAATGTCTTCATCGTGATCGAGAAAGAGTCCGAAGTCGGCTTGGTGATCGAAGAGGCTGCGTCGCTCAAGGTCAAGCCGCAGGTCGGTCTGCGGGTGCGCCTGTCGTCCCTGGCATCGAGCAAATGGGCCGATACCGGTGGCGAAAAATCCAAGTTCGGCTTGTCCGCCGCGCAGTTGTTGTCGGTGGTCGAGCGCTTCCGCGGCGCCGGCCTCGACCAGGGCATCCGCCTGCTGCACTTCCACATGGGCTCGCAGATCGCCAACCTGGCGGACTACCAGCATGGTTTCAAGGAAGCGATTCGTTACTACGGTGAGCTGCGCAACCTCGGCCTGCCGGTGGATCACATCGATGTCGGCGGCGGTCTGGGCGTCGACTACGACGGTACGCACTCGCGCAACGCCAGCTCGATCAACTACGACATGGACGATTACGCCGGGGTCGTGGTGGGGATGCTCAAGGAGTTCTGCGATGCGCAGAGCCTGCCGCACCCGCACATCTTTTCCGAGAGCGGCCGCTCGTTGACCGCCCACCATGCGATGCTGGTGGTCCAGGTCACCGACGTCGAGAAGCACCATGACGATGTGCCGGTGATCGAAAACAAGGAAAGCCTGCCGGAAACCGTGCAATGGCTGGTGGACCTGCTGGGCCCGACCGATATCGAGATGGTCACCGAGACCTACTGGCGTGCCACCCATTACATGAGCGACGTGGCTGCGCAGTACGCCGATGGCAAGCTGACCCTGGCGGAAAAAGCCCTGGCCGAGCAGTGCTACTTCGCCGTGTGCCGTCGTCTGCACAACTCGCTGAAGGCCCGTCAGCGCTCGCACCGTCAAGTGCTCGATGAGCTCAACGACAAGCTGGCCGACAAGTACATCTGCAACTTCTCGGTGTTCCAGAGTTTGCCGGACACCTGGGCGATCGGCCAGGTGTTGCCGATCCTGCCGTTGCATCGTCTCGATGAAGAGCCACTGCGCCGCGCCGTTCTGCAAGACCTGACCTGCGATTCCGACGGCAAGATCAAGCAATACGTCGATGAGCAGAGCATCGAGACCAGCCTGCCGGTCCATTCGCTCAATCCGGGCGAAGACTATCTGCTGGGCATTTTCCTGGTGGGTGCCTACCAGGAAATCCTCGGTGACATGCACAACCTGTTTGGTGACACCGATTCGGTGAACATCTACCAGAACGCCGACGGCAGCGTGTACCACGCCGGTATCGAAACCCACGACACCATCGAGGACATGTTGCGCTACGTGCACCTGTCGCCGGAGGAGCTGATGACTCACTACCGTGACAAGTGCGCCAGCGCCCGGATCACGGCGGCCGAACGCACCCAGTTCCTGGATGCCCTGCGTCTCGGGTTGACTCGTTCCTCCTACCTGTCTTCCTGA	MSVRRTRKDDGSQWTVADSRSVYGIRHWGAGYFAINEAGRVEVRPNGPDSSPIDLYEQVDQLRQSGLSLPLLVRFPDILQDRVRQLTGAFDSNIARLEYQSQYTALYPIKVNQQEAVIENIIATQNVSIGLEAGSKPELLAVLALAPKGGTIVCNGYKDREFIRLALMGQKLGHNVFIVIEKESEVGLVIEEAASLKVKPQVGLRVRLSSLASSKWADTGGEKSKFGLSAAQLLSVVERFRGAGLDQGIRLLHFHMGSQIANLADYQHGFKEAIRYYGELRNLGLPVDHIDVGGGLGVDYDGTHSRNASSINYDMDDYAGVVVGMLKEFCDAQSLPHPHIFSESGRSLTAHHAMLVVQVTDVEKHHDDVPVIENKESLPETVQWLVDLLGPTDIEMVTETYWRATHYMSDVAAQYADGKLTLAEKALAEQCYFAVCRRLHNSLKARQRSHRQVLDELNDKLADKYICNFSVFQSLPDTWAIGQVLPILPLHRLDEEPLRRAVLQDLTCDSDGKIKQYVDEQSIETSLPVHSLNPGEDYLLGIFLVGAYQEILGDMHNLFGDTDSVNIYQNADGSVYHAGIETHDTIEDMLRYVHLSPEELMTHYRDKCASARITAAERTQFLDALRLGLTRSSYLSS	PGPT0007770_683	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
D1-35_05005	1323			hypothetical protein	ATGTCATGTCCAGCCCGCGAGTCATCATTTCGTCTGGAGATAGCCGGTCTGCCCGAATCCTTTGTTGTCGTGGCCTTCACCGGCAATGAAAACATCAGCGAACCTTTCCTGTTCGAGGTGGAACTGGTGACCAGTGACACGCCGCTGGACCTGGCGGGCCTGCTGTACCGCAGCGTCTGGTTGAGTTTCGGGAGCTGCGGCCGGGGCATTCACGGACAGCTCCACGAAGTTGTGCAGCACCGTCATGGAGGTAATTGCGATGTGCGCATCGAGCCGAAGCTTGCATACCTGGCGCAGCGCTTCAGCCAGCGGGTGTTCAGTGGCCGCTCGGTACCGCAGATCATTCGCCAGGTCTTAAGCGGGCACGGCATCGGCGGGCGCGGGCTGTGCCTGGACTTGAACGGTGATTTTGCGACGCGGGATGTCTGTAGCCAATACCGGGAGTCCGACCTGCAGTTTCTGCAGAGGATATGCGCCGAGTCTGGTATCCGGTTCCATTTTGAGCATGCCCGGGATGGGCACTGCCTGGTTTTCTCCGATGCGCCGGGCAGTGTCTTTTCCGCTGGCGAGGTTATCTACGACGGTGACGGCCAGACTGACGCCGTGCACGCCTTCAGCGTTCAGGCTGGCTCCGAGGGTATCGGCATACTGGCCGCCGAGGGCCAGAGCGATCTGATGCACTTGCACAGCGGCCAGACCCTGACCCTGACCGCTCACCCTTTCAAGGACTGGAACCGGCGCTGGTTATTGACCAGGGTCGAGCATCGTGGCCAGTCAGGTGGATATGCCAACCGGTTCCGAGCCATTCCCTTCGGGCTGTCGTTTGTGGCAGAAAAGGTGCCTGCGAAGCCGGTCATGGTGAGCCGGCAACGCGGATGGGTGGTAGACGTGGATGAGCCTGCAGACCAGGTGCCTGGGCGAGTGGCGGTGCAGTTCGACTGGGTCTATCAAGGGGAAGGGGCCAGCGCCAGCCATTGCTGGCTGCCGTTGGCGCCTGAGCTGGCGGCCTGCGCAGGCGATCGGATTCGTGAGGGCACCGAGGTCCTGGTGAGCTTTATCGAGGGTGACCCGGATCGCCCGCTTATCTGTGCCTTTCTCGGCCCACCGCCCCTCATGGGCACACAGCCAGCGCCAGCCAGTGCGAGTTTGTCAGAAACACCCGGGACGCCTGAAGTCGATGACCACCTGTTGTCTGCAGTGCGCGGTGGCGAGCCGCTGTTCCTGCTGTGCCTGCTGCCCGGCGCAGGGGCGTTCAACCCCTGCGCCCGGGCGGTGTGCATCTGCCGCCTGGTGACGCAACGTGGTACGGGCGCAGCGCCATGA	MSCPARESSFRLEIAGLPESFVVVAFTGNENISEPFLFEVELVTSDTPLDLAGLLYRSVWLSFGSCGRGIHGQLHEVVQHRHGGNCDVRIEPKLAYLAQRFSQRVFSGRSVPQIIRQVLSGHGIGGRGLCLDLNGDFATRDVCSQYRESDLQFLQRICAESGIRFHFEHARDGHCLVFSDAPGSVFSAGEVIYDGDGQTDAVHAFSVQAGSEGIGILAAEGQSDLMHLHSGQTLTLTAHPFKDWNRRWLLTRVEHRGQSGGYANRFRAIPFGLSFVAEKVPAKPVMVSRQRGWVVDVDEPADQVPGRVAVQFDWVYQGEGASASHCWLPLAPELAACAGDRIREGTEVLVSFIEGDPDRPLICAFLGPPPLMGTQPAPASASLSETPGTPEVDDHLLSAVRGGEPLFLLCLLPGAGAFNPCARAVCICRLVTQRGTGAAP	PGPT0030410_4446	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
D1-35_05006	798			hypothetical protein	ATGAACGCTGCCGCCATGCCTGGGGCCACGCCGCAATGGCTGCTGCTCGACGCGCCGAACGGCCGCGGAGCCGCGCAGCGCCTGCGGGAGCAATTTGCCGAGGCACGGCGCTTTCTTCTGTTCGAAAACACCGATCTTCACGAACTGAGGGACGATGGCCCGCTATTGGTTGATCTGCAGCGATCGCCAGCGCTGGCCAGTCTGTGCCAGCTGGATAGTCAATCCTGGCCGGGGCTACTGATAGTGAGCGCGGCGCCTGCCGAAGTATTGCTGACGCATTTGCGGCGCATGCTGACGGTCACGCTGGGCCTGCACTACAAGGCTTTGTTGAGCTATTACAACCCGCACACCGCGAGTTATTTTTTTGATGGTTGCGACCCTCGGGAACTCAGTTGCTGGCTGGGGCCGATCAGCATTCTGCGCTGGTTCGGAGGCACCTGGGCTGATCGGACCATGGGCTCGGAGGGCTGGCAACAGCTCGCCAATCCTGGCTTGTCGGTGCCGGCTCTGGAGAACGAGCCGGGCCTCAGTGACAGGCAACAAAGCCAGTTGCAGGCGTGTGTATTGGAGCGTCATGTCTGGCGTTGGTCCTGCTCCATTGGGCATGACTACTGGTCGCTCTGGGAATATATGCAGCAAGGGTTGGCGCTGGGGTTCAGCGAACAGAGCGCCCTCGACGGCTGGTTGTGGCTACGCTTGCAATACCCTGATGCTCAGCCAGCGCCGGAGCTGGCTGGCGGCTCGCAACACGAGCGTCTGGAGCAGTTGCGGCGGCTATGGCAAGGCAACCAGGATTGA	MNAAAMPGATPQWLLLDAPNGRGAAQRLREQFAEARRFLLFENTDLHELRDDGPLLVDLQRSPALASLCQLDSQSWPGLLIVSAAPAEVLLTHLRRMLTVTLGLHYKALLSYYNPHTASYFFDGCDPRELSCWLGPISILRWFGGTWADRTMGSEGWQQLANPGLSVPALENEPGLSDRQQSQLQACVLERHVWRWSCSIGHDYWSLWEYMQQGLALGFSEQSALDGWLWLRLQYPDAQPAPELAGGSQHERLEQLRRLWQGNQD				NA	NA	NA	NA	NA
D1-35_05007	1350	dinF	COG0534	DNA damage-inducible protein F	ATGCCCAAGCTGATTACCGACTGGCGCGACCGCCTTACTCATCGCCGGGTCTGGGCGCTGGCTGCGCCGATGATTCTCTCGAACATTTCCGTACCGCTGGTGGCGCTGGTAGACAGCACCGTCATCGGCCATTTGCCCCATGCCCATCAGTTAGGCGCAGTAGCGGTCGGAGCGAGTCTGTATACGGTGCTGGCATGGGCCATGGGTTTCCTGCGCATGGGCACCACCGGGTTCGCCGCCCAGGCGGCCGGGCGTGCCGACGGCGCGGCGTTGCGCCAGGTGTTGTTGCAGGGCCTGCTGCTGGCGATGGGGCTGGCGGTGCTGCTCGGTGCCGTCGGCATTCCCTTGAGCGACGTGGCGCTGCACTTCATGCAACCGTCCGCCGAACTCAACCAGTTGACCCGCGATTTCTTCCACACTCGCCTTTTCGGCTTGCCTGCGGCGCTGGCCAGCTATGCGCTGGTCGGCTGGTTCCTCGGCGCCCAGAACGCCCGCGCGCCGCTGGCGATCCTGCTGGTGACCAACCTGGTGAACATCGCGTTGAACCTCTGGTTCGTGATCGGCCTGGACTGGGGCGTGACCGGTTCGGCCCGGGCGTCGGTCATCGCCGAATGGACGGGCGCGCTGGTAGGCCTGGCCCTGGCGCGCAACACCCTGCGCAACTGGCCTGGGCAGATAGCCTGGGCGGCGCTGGGCTTGTGGCAGAGCTGGCGACCGTTGCTGGCGGTGAACCGGGACATTTTCATCCGCAGCCTGGTGCTGCAATCGGTGTTTTTCCTGATCACGGTGCAAGGCGCGCGTCTGGGCGATGCGACCGTGGCCGCCAATGCCCTGCTGCTCAACGGCCTGCTGCTGACGGCCCACGCCCTGGACGGCCTGGCCCACGCCGTGGAAGCACTGTGCGGCCACGCTATTGGGGCTCGCGACCGCCTGGCCCTGCGCCGTGCGCTGGTCGTTGCCAGCGGCTGGTCACTGATTGCCAGCCTCGGGTTTGCCCTGCTGTTCCTGCTTGCTGGGCATTTGTTCATCGACATGCAGACCGACATCGCCGAAGTGCGGAACACCGCTTACCACTACTTGCCTTATCTGGCGGCGTTACCGTTGATTGCGGTATCGAGCTACCTGCTCGATGGCCTGTTCATCGGCGCCACCCGCGCCCGGGAAATGCGCAACGGCATGCTCCTGACCCTGCTACTGACGTTGCCGTTCGCCTGGGTCCTGCAAGGATTGGGAAATCACGGCCTGTGGATCACTTTCCTGCTGTTCATGGCCTTGCGCAGCCTGACGCTCGGTACCTTCGCCTGGCGTTTGCAACGAGACGACAGCTGGCTCGGTGGCAATGCCCGGTGA	MPKLITDWRDRLTHRRVWALAAPMILSNISVPLVALVDSTVIGHLPHAHQLGAVAVGASLYTVLAWAMGFLRMGTTGFAAQAAGRADGAALRQVLLQGLLLAMGLAVLLGAVGIPLSDVALHFMQPSAELNQLTRDFFHTRLFGLPAALASYALVGWFLGAQNARAPLAILLVTNLVNIALNLWFVIGLDWGVTGSARASVIAEWTGALVGLALARNTLRNWPGQIAWAALGLWQSWRPLLAVNRDIFIRSLVLQSVFFLITVQGARLGDATVAANALLLNGLLLTAHALDGLAHAVEALCGHAIGARDRLALRRALVVASGWSLIASLGFALLFLLAGHLFIDMQTDIAEVRNTAYHYLPYLAALPLIAVSSYLLDGLFIGATRAREMRNGMLLTLLLTLPFAWVLQGLGNHGLWITFLLFMALRSLTLGTFAWRLQRDDSWLGGNAR	PGPT0029115_8692	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
D1-35_05008	294			hypothetical protein	ATGCAGGTAGAAAGCTTTTTCGAATGGCTCGGTCAGGCGCTCGGTTCGGTGATCCGTTTTATCGTCGATCTGCTCAGTGGCCTGTTCAACACCCTGGCCAATGCCGGCGGCAACTTTGTCGAAGGCCTGTCCCGGACGCTGGGAATGGATACTTCAATCATCAGCATCATTGCGCTGATCCTCGGGCTGATGCTGCTGTACTCGGCGATCCGCGCCTTCATGCGGGCGTCGATCGTCATGGGCATCATCTGGCTGGTGCTGGGGTTGTGGCTGTTGAGCTGGATTATTCACTGA	MQVESFFEWLGQALGSVIRFIVDLLSGLFNTLANAGGNFVEGLSRTLGMDTSIISIIALILGLMLLYSAIRAFMRASIVMGIIWLVLGLWLLSWIIH				NA	NA	NA	NA	NA
D1-35_05009	306			hypothetical protein	ATGAACCTTGTTGAACTGACCGAACGCCTGCATGCCATCCGTGATCGTAACGATTGGCGGCAATTTCACAGCCCGAAAAACCTGGCCATGGCCGCCAGCGTCGAAATGGCTGAATTGGTGGAGATTTTCCAGTGGTTGACCGAGGAGCAGTCACGCCAGTTGCCCGCGGAAAAACTTGCCCACGCCGGGCAGGAAATCGGTGACATCGTCTTGTACCTGTTGCTGTTGTGCAGCGAGCTGGGCCTGGACATGGACGCCGTGGTGCGCAGCAAGTTGGCCGACAGCGAACGGCGGTTCGGCCAATGA	MNLVELTERLHAIRDRNDWRQFHSPKNLAMAASVEMAELVEIFQWLTEEQSRQLPAEKLAHAGQEIGDIVLYLLLLCSELGLDMDAVVRSKLADSERRFGQ	PGPT0004286_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-LEAD_HOMEOSTASIS,PGPT0004286-bmtA-NA	NA	NA
D1-35_05010	750	cmoM	COG0500	tRNA 5-carboxymethoxyuridine methyltransferase	ATGAGCGATCGCCATTTCGATCAACTCGCCACGCGTTTTGCCGAAAAAATCTATGGAGGAGCCAAGGGGGCGATTCGGCTGGCCGTGCTTCAGGCCGATCTCCTTGAAGCGTTGCCGGATCGCCCCTTGCGAGTGCTGGATATTGGCGCGGGGCTGGGCCACATGTCTCTGTGGCTGGCCGAGCGCGGGCATCAGGTCACCCTGGCCGAACCGGCCGAGCCGATGCTCGAAGGCGCTCGCCAACGCTTTGCCGAGGCGGGCCAGGCCGCAACGTTCATCCAGGCGCCGTGGCAGGATCTGCTCGGCCAGCTCACCGAACCTTACGATCTGGTGCTGTGCCACGCGGTGCTCGAATGGCTGGCCGAGCCCCATGCGATCCTGCCGGTGCTGCATCAGTTGACGGTGCCTGGCGGCTGGTTGTCCCTGGCGTTCTACAACCGCGATGCGCTGGTCTATCGCAACCTGCTCAAGGGGCACTTTCGTAAACTGCGTAAAAACGACATGGCCGGCGAGAAACAGAGCCTGACCCCTCAGCAACCGCTTGATCCACGAGAATTGGCGGCGCAACTTGAAGGCCTGTGGCAGGTCGAAACCCAGAGTGGGGTGCGGGTTTTTCACGACTACATGCCGGTGGAGTTCCAGGGCCGTGCAGAGCTTGCGCAACTGCTGGAGATGGAACTGGCCCACCGTCGCCATCCGGCCTTTGCCGGCTTGGGACGTTATTTGCACTGGGTTTGCCGTCCCCTCTGA	MSDRHFDQLATRFAEKIYGGAKGAIRLAVLQADLLEALPDRPLRVLDIGAGLGHMSLWLAERGHQVTLAEPAEPMLEGARQRFAEAGQAATFIQAPWQDLLGQLTEPYDLVLCHAVLEWLAEPHAILPVLHQLTVPGGWLSLAFYNRDALVYRNLLKGHFRKLRKNDMAGEKQSLTPQQPLDPRELAAQLEGLWQVETQSGVRVFHDYMPVEFQGRAELAQLLEMELAHRRHPAFAGLGRYLHWVCRPL	PGPT0023655_679	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023655-smtA-K06219	NA	NA
D1-35_05011	609			hypothetical protein	ATGAAAGGTCGTTCAGGGTTAATGGTGTTGTGCCTGGGGCTGGCGGCCTGTCAGGGCAGCAACCCTTATGTCGCGACATCCAGGCCGCTGCCGCCAGCACCACCCGAGGCCGCCACGGTATTCGATCGCAGCGCCTATCCCGCGCCGCCCCGGGATTACGGGCGCTATCGCAGCTGGTCCTGGCTCAACGGCCGACTGCCACCGGGCACGGCCTGGGCGGACTCGGCGCAGGTGGCCGAAGCGGTGAGCAATGCCCTGGACCAGCGCGGCCTGCGCCCGCTGCATGACAATCGGCCGGCGGACCTCTTCGTCAGTGCCGACCTGCGCCTGGAGACCCGCGTACGCCAGGTTCGCGATGATTATGATTCGGGCTACTACGGTGGTTACAACCGATACGGGCCGGGTTATGGCATGTATAACAGCGTCCCCGTGGTACGCACTTACCGGGAGCAGGTCGTGGTGGTTCGGGTTGATCTGTTCGATGCCCGCAACAACCAGCCGGTGTGGAGTGCCAGCGCCGAGACCAGCCAGCGAGGCAGTCAGAGCGAACGTAGCGATGCCATTCGTGAGGCAGTGGAAAAGGCTCTTTCGGCTTATCCTCCCAGTTGA	MKGRSGLMVLCLGLAACQGSNPYVATSRPLPPAPPEAATVFDRSAYPAPPRDYGRYRSWSWLNGRLPPGTAWADSAQVAEAVSNALDQRGLRPLHDNRPADLFVSADLRLETRVRQVRDDYDSGYYGGYNRYGPGYGMYNSVPVVRTYREQVVVVRVDLFDARNNQPVWSASAETSQRGSQSERSDAIREAVEKALSAYPPS				NA	NA	NA	NA	NA
D1-35_05012	558			hypothetical protein	ATGTTCCGCCGTATCGCCCCATTTGCCCTGGCCTTGTTGCTTGGCGCCTGCACTTCCAATCAGGTCAATCATGACTTCGACACCACCCGCGATTTCGCGGCCTACCGCAGCTGGAGCTGGAAAGAGCCGGCGCTGCAGTACCGTCCGGATGACCCGCGCATCAAGAGCGACCTGACCGAACAGCGGATCCGCCAGGCCATTGCCGATCAGCTTGATCAGCGCGGCTTGCGCCCGGCTCCGTCCGGTACCCGCAGCGATGTGCAGGTCCAGGCCTACCTGATCGTTGAGGACCGTCAGCAACAGGTGACGACAAACTACGGCGGCGGCTGGGGCGGCCCCTGGAATGGCTATTGGGGCGGGCCGATGTATAACGAAACCCGCAACGTCAGCTACAAAGTCGCCACGGTGCAGATCGACCTGCTCGACGGCAAGGACGGCAAGCTGGTGTGGCGCGGTAGCGATGAGCAACTGCTCAGCGAGTCGCCCAACCCTACGGAGCGCAGCACGAAGGTGCGCGAGACGGTGGGGCGGATCCTGTCGAATTATCCACCGCGTTGA	MFRRIAPFALALLLGACTSNQVNHDFDTTRDFAAYRSWSWKEPALQYRPDDPRIKSDLTEQRIRQAIADQLDQRGLRPAPSGTRSDVQVQAYLIVEDRQQQVTTNYGGGWGGPWNGYWGGPMYNETRNVSYKVATVQIDLLDGKDGKLVWRGSDEQLLSESPNPTERSTKVRETVGRILSNYPPR				NA	NA	NA	NA	NA
D1-35_05013	855			hypothetical protein	ATGACGATCCATTGGCATGAGATACACGCCGCGCAGTCGATGTCCGGGCTGTACGCCAAGGCCGCGACACGCCGCAAGATCACCGGCACTACCTTGCCGGACGTTGGGCTGCGCCAAGTGATCCAGGTTGATCAGCAACGCCTGGCGGCCTATCGCAAGGTCTGCGGTTTTACCGAAAACGGTCTGCTGCCACCGACCTATCCCCATGTGCTGGCGTTCGCCCTGCAAATGCAGCTACTGACGGATCGGGATTTTCCGTTCCCGCTGCTGGGGTTGATCCACCTCAGCAACCGCATCCGCATACTGCGGCCCATGGGCGGGGTCAGCCAGGTGCGCGCCAGCGTCAATGTCGAGAATCTCCAGCCGCACGCCAAGGGCGCGGTGTTCGATCTCGTGACCCGCATTGAAGATCAGTTGGGACCGCTGTGGCAGGCCGAAAGCCAGATGCTGTGCAAAGGCGTCCAGCTTGATGGGGCGCTGGTGGAGGAACCGGCGATTGCCGCCCTTGAGTTGACGGAAGTGGCACATTGGACAGCACCTGCGGACATTGGCCGGCAATACGCCAAGGTGTCCGGCGACTACAATCCGATCCACCTGAGCGCTGCCAGCGCTCGGCTGTTCGGCTTCCCCACCGCCATCGCCCACGGCCTGTGGAACAAGGCCCGGACGTTAGCGGCGCTGGACGACCATTTGCCCGAGGCCAACATCGAGATCGAAGTGAACTTCAGGAAACCGGTGCGCCTGCCCAGCGAGGTGACGCTGCTGGCGAGCGCCGCGGGCTCCAGTGGAAAACTGCGGCTGGTGGGGGCTGGAGAGTTGGAACACATGCTCGGCAGTTGGCAGCCGGTTGCCTGA	MTIHWHEIHAAQSMSGLYAKAATRRKITGTTLPDVGLRQVIQVDQQRLAAYRKVCGFTENGLLPPTYPHVLAFALQMQLLTDRDFPFPLLGLIHLSNRIRILRPMGGVSQVRASVNVENLQPHAKGAVFDLVTRIEDQLGPLWQAESQMLCKGVQLDGALVEEPAIAALELTEVAHWTAPADIGRQYAKVSGDYNPIHLSAASARLFGFPTAIAHGLWNKARTLAALDDHLPEANIEIEVNFRKPVRLPSEVTLLASAAGSSGKLRLVGAGELEHMLGSWQPVA				NA	NA	NA	NA	NA
D1-35_05014	1353			hypothetical protein	ATGTCAGACCGTTACATAGACTTTGCCAATTCGCCCATTGGCCTGCGTCTGGTTGGCGCTCTCGGCTTGCCATCGCCGGTACGCCTGGAGCGTTGGCAAGCCGGGCGCCTGCGGCCAATCGAGGGTGCCTTGCTGCTGGGCGGCGGGCCGCTGACCGAACAGGTCGGCACATTCGCCAAGCGCCTGACCGACGCCATTTTCATCTACGGTGGCGAACCGACGCTCGCCACCGAATGGATCCCCGGGCACGGCCCGAAAATCAAGGCTGTGGTGTACGACGCCAGCCACCTGGCGCAGGTCGACCAGCTCAAGCAGTTGCGCGAGTTTTTCCAGCCGCTGATGAAAAATCTCGACCACAGCGCTCATGTCGTCATCCTCGGCCGCGCTCCGGAAAACCTCGACGACCCGTTCGCCGCCAGCGCCCAGCGGGCTTTGGAGGGTTTCAGCCGATCCCTGGCCAAAGAGCTGCGCCATGGCGGGACGCTGCAGTTGCTGTACGTCGGCGAAGGCGCCGAAACCCAGCTGGAAGGTGCGCTGCGGTTTTTCCTGTCGCCCAAGAGTGCCTACGTTTCCGGGCAAGTGATTCGTCTCAAGGCCTGTGCGACCCAGGTCCAGGACTGGACCCGTCCGTTGACGGGGCTCAAGGCATTGGTTACCGGCGCTGCCCGTGGCATCGGCGCCGCCATTGCCGAAACACTGGCCCGCGATGGCGCCGATGTGATCCTGCTGGACGTACCGCCAGCCAAGGCCGACCTCGATGCCTTGGCCGCACGCCTGAGCGGGCGCAGCCTGACGCTGGACATCTGCGCAGAAGACGCAGCCACGCAGTTGATTGAACACCTGCCCGACGGCGTCGACATCGTTGTACATAACGCTGGCATCACCCGGGACAAGACCCTCGCCAACATGACCCCGGAATTCTGGGACGCGGTGCTGGCAGTCAACCTCAATGCGCCGCAAGTGCTGACCAAGGCCCTGCTCGACAGCGGCACCCTGCGCGACAACGGCCGGGTCATCCTGCTGGCATCCATCAGTGGCATCGCCGGCAATCGCGGCCAGACCAACTACGCCGCGAGCAAGGCCGGGCTGATCGGCCTGGCTCAAGCCTGGGCGCCAACCCTGCAGGCCCGAGGCATCAGCATCAACGCCGTGGCGCCAGGCTTCATCGAAACCCGCATGACCGCAGATATTCCTTTCGCCCTGCGCGAAGCCGGGCGCCGCATGAGCTCGCTGGGCCAGGGCGGCCTGCCCCAGGATGTCGCCGAAGCCGTGGCCTGGCTCGCGCAACCGGGCACCGGTGCCGTGACCGGACAGGCGCTGCGCGTGTGTGGGCAAAGCCTGCTGGGGGCCTGA	MSDRYIDFANSPIGLRLVGALGLPSPVRLERWQAGRLRPIEGALLLGGGPLTEQVGTFAKRLTDAIFIYGGEPTLATEWIPGHGPKIKAVVYDASHLAQVDQLKQLREFFQPLMKNLDHSAHVVILGRAPENLDDPFAASAQRALEGFSRSLAKELRHGGTLQLLYVGEGAETQLEGALRFFLSPKSAYVSGQVIRLKACATQVQDWTRPLTGLKALVTGAARGIGAAIAETLARDGADVILLDVPPAKADLDALAARLSGRSLTLDICAEDAATQLIEHLPDGVDIVVHNAGITRDKTLANMTPEFWDAVLAVNLNAPQVLTKALLDSGTLRDNGRVILLASISGIAGNRGQTNYAASKAGLIGLAQAWAPTLQARGISINAVAPGFIETRMTADIPFALREAGRRMSSLGQGGLPQDVAEAVAWLAQPGTGAVTGQALRVCGQSLLGA	PGPT0003180_455	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
D1-35_05015	1278	fadI	COG0183	3-ketoacyl-CoA thiolase FadI	ATGGCACAGCTACGCCGCGTCGCGATCATCGGCGGTAACCGCATTCCTTTCGCCCGCTCCAACGGGCCCTATGCCACCGCCAGCAACCAGGCGATGCTGACCGCTGCGCTTGAAGGCTTGATCGAGCGCTACAACCTGCACGGCGTGCATATCGGGGAGATGGCCGCGGGGGCGGTGCTGAAGTTGTCCCGGGACATGAACCTGACCCGCGAGTGCGTGCTCGGCTCGCGGCTGTCGCCCAGCACACCCGCCTATGATGTGCAGCAGGCCTGCGGCACGGGGCTTGAGACGGTGCTGCTGGTGGCCAACAAAATCGCCCTCGGGCAGATCGACAGCGCCATTGCCGGCGGCGTGGACACCACCTCCGACGCACCGATCGGCGTCAATGAAGGGCTGCGCAGGATCCTGCTGCAAGCCAATCGCGCGAGAACCACCGCCGATAAAATCAAGACGTTTTTGCAATTGCGCCCCGGGCACCTGGTACCTGACCTGCCGCGCATCAACGAGCCGCGCACTGGCCTGAGCATGGGCGAGCACTGCGAGTTGATGGCGCAAACCTGGCAGATCCCCCGGCCAGAGCAGGATCAGTTGGCCTTGGAGAGTCATCAAAAAATGGCCGCCGCTTACGCCGAAGGCTGGCACAACGACCTGATGACGCCGTTTCTCGGCCTGACCCGCGACAACAACCTGCGCCCGGACCTGACCCTGGAGAAACTCGCTTCCCTCAAGCCAGCCTTCGAAAAAACCGCCAAGGGCACGCTGACGGCGGGCAACTCCACCCCACTGACCGATGGCGCCTCGCTGGTATTGTTGGCGAGCGAGGAGTGGGCCAACGCCCGTGGGCTGCCGATCCTGGCTTACCTGCGTGACGGCGAAACGGCGGCAGTGGACTTCGTCAACGGCGCCGAAGGCCTGCTGATGGCGCCGGTCTATGCCGTGCCGCGGCTGTTGGCGCGCAACGGCCTGACCTTGCAGGACTTCGACTATTACGAGATTCACGAGGCGTTCGCCGCCCAGGTGCTGTGCACGTTGAAAGCCTGGGAAGACGCGGATTACTGCAAGACCCGCCTGGGCCTTGATGCGCCGCTGGGTACTCTCGACCGCAGCCGGCTGAACGTGAAGGGCAGCTCACTGGCCGCCGGGCATCCGTTTGCCGCAACCGGCGGGCGCATTGTCGCCAACCTGGCCAAGTTGCTGGACGCGGCAGGGAAGGGCCGGGGGCTGATTTCTATCTGCGCAGCCGCCGGCCAAGGGGTGACGGCTATCATCGAGCGCTGA	MAQLRRVAIIGGNRIPFARSNGPYATASNQAMLTAALEGLIERYNLHGVHIGEMAAGAVLKLSRDMNLTRECVLGSRLSPSTPAYDVQQACGTGLETVLLVANKIALGQIDSAIAGGVDTTSDAPIGVNEGLRRILLQANRARTTADKIKTFLQLRPGHLVPDLPRINEPRTGLSMGEHCELMAQTWQIPRPEQDQLALESHQKMAAAYAEGWHNDLMTPFLGLTRDNNLRPDLTLEKLASLKPAFEKTAKGTLTAGNSTPLTDGASLVLLASEEWANARGLPILAYLRDGETAAVDFVNGAEGLLMAPVYAVPRLLARNGLTLQDFDYYEIHEAFAAQVLCTLKAWEDADYCKTRLGLDAPLGTLDRSRLNVKGSSLAAGHPFAATGGRIVANLAKLLDAAGKGRGLISICAAAGQGVTAIIER	PGPT0008320_1572	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
D1-35_05016	1029			hypothetical protein	ATGCACATCCTCAGACACCTCAAGCGCATGGCGACCGACTGGTTCCTGTGCGGCATGTTGCTCGCCACGCTGCTGGCGTATTTCTTCCCACGCTTCGGCGCTACCGGCGGCGCCATGCATGCCGAATGGGTGGTCAACATTGGCATCTTCGTGGTGTTTTTCCTCCACGGCGTCAATCTGTCCGGCGAGCAGATCCGCCATGGCCTGAAAAACATCCGGCTGCACCTGATGGTGCAAGGCTTCACCTTTGGGGTATTTCCATTGATCTGGCTACTCGGCAACTGGACACTGGGCAGCCATGTGCCGTCCTTGTTGATGCTGGGGTTCTTTTACCTGTGCGCGTTGCCTTCGACCATTTCGTCCTCGGTGGCCCTGACCGGCAGCGCCGGCGGCAACGTACCCGCGGCGATTCTCAACGCTAGCTTGTCCAGCGTGCTGGGGGTTCTCCTGACGCCGCTGCTGGTCAGCCTGGTGGTCGGCAACGGTGCCGGCGGCATCGACCTGGGCTCGACGCTGCTCGACCTGTGCATGATGTTGCTGTTGCCGCTGGTGCTCGGGCAGTTTTTGCGGCGCTGGCTGGCCGGTTTTTTCGCGCGCTACAAGCGCTATACCAGCATCATCGACAAACTGGTCATCCTGCTGCTGGTTTACGCCGCATTCTGCAATTCGATGATTTCCGGGATCTGGCAACAACAAGGTCATGGCGTGCTGCTCAGCGCCGTGCTGGGCAGTGCGGTGTTGCTGGCTGTCATCCTGTGGATGACCACCCGCACCGCTCGCGCCCTGCGTTTCAACAACGCCGATGAAGTCGCCGCGGTATTTTGCGCGAGCAAGAAATCCCTCGCCGCCGGAGTGCCGATGGCGGCGCTGATTTTCGGCAACAACCCCGGCCTCGGGCTGATCCTGCTGCCGATCATGATCTATCACCCGCTGCAATTGATCGTCTGCTCGATCCTCGCCGAACGCTATGCAAGCCGGCAACGGGCGCAGGCATCGCAAAAGAGCGAGGCCATCGTCAGCGCTCGATGA	MHILRHLKRMATDWFLCGMLLATLLAYFFPRFGATGGAMHAEWVVNIGIFVVFFLHGVNLSGEQIRHGLKNIRLHLMVQGFTFGVFPLIWLLGNWTLGSHVPSLLMLGFFYLCALPSTISSSVALTGSAGGNVPAAILNASLSSVLGVLLTPLLVSLVVGNGAGGIDLGSTLLDLCMMLLLPLVLGQFLRRWLAGFFARYKRYTSIIDKLVILLLVYAAFCNSMISGIWQQQGHGVLLSAVLGSAVLLAVILWMTTRTARALRFNNADEVAAVFCASKKSLAAGVPMAALIFGNNPGLGLILLPIMIYHPLQLIVCSILAERYASRQRAQASQKSEAIVSAR				NA	NA	NA	NA	NA
D1-35_05017	792	nimR_2		HTH-type transcriptional regulator NimR	ATGCCGACTAACGGACACCAACAGCTCGAAAGACGCATTCCGGACCTGACGGAGCTGCCTCGGCCGCTTTATGCCCGGGTCGAAAGTCTGAATGCCGGTTCGTGGACCCAGGCTCATCGCCACGATTGGGTGCAATTCTCCTACGCGATCAGTGGCGTGCTCGGCGTCCATACGGCCGAAGGCAGCTTCTTCGCGCCACCGCAGTGGGGCATCTGGATCCCGGCCGACCTGGAGCACCAGGTCGTGACGTCCATGCGCGCGGAAATGCGCAGTCTTTACGTCCATCGCCAGGCGTGCCCGTGGTCCGAAGATCGTTGCCGGGTGCTGGAAGTTACACCGCTGGCGCGGGAGCTGATCAAAGTGTTCTGCCAGTTTCCCGCCACTTACCCACAGGGCGAGACCCAGGAAACACGCTTGGTCCAAGTGCTGCTGGACCAATTGGCGGCGCTGCCGGAGGTGGGCTTTTCCCTGCCATTGCCCCGTCATGCTCGTTTGTTGGAACTGTGCAACGAATTGATCGAGCAACCCGAAGGCCACGTGACCCTGCAAGCCTGGGCCGAGCGCCTGGGCACGTCGGAAAAAACCTTGATGCGCCTGTTCCAGCGTGAAACCGGCTTGAGCTTCCGTGCGTGGCGCCAGCGCATGCGCCTGTTGTCTTCCCTGGAATCGCTGGAACAGGGCGATAGCGTGACCAGCGCGGCCTTATCCTGTGGGTATGATTCGACGTCCGCTTTCATTGCGGCATTCAAGGGACTGTTCGGTTTTACGCCGGGGGAACTGTTCAAACGCTGA	MPTNGHQQLERRIPDLTELPRPLYARVESLNAGSWTQAHRHDWVQFSYAISGVLGVHTAEGSFFAPPQWGIWIPADLEHQVVTSMRAEMRSLYVHRQACPWSEDRCRVLEVTPLARELIKVFCQFPATYPQGETQETRLVQVLLDQLAALPEVGFSLPLPRHARLLELCNELIEQPEGHVTLQAWAERLGTSEKTLMRLFQRETGLSFRAWRQRMRLLSSLESLEQGDSVTSAALSCGYDSTSAFIAAFKGLFGFTPGELFKR				NA	NA	NA	NA	NA
D1-35_05018	894			hypothetical protein	ATGAAGACTCCAAAACGCATTGAACCCCTGATCGAGGACGGTCTGGTCGACGAGGTGCTGCGCCCACTCATGAGTGGTAAAGAAGCAGCTGTTTATGTGGTGCGCTGCGGCAACGAGCTACGTTGCGCCAAAGTCTACAAGGAGGCGAACAAGCGAAGTTTTCGCCAGGCGGCCGAATACCAGGAAGGCCGCAAGGTGCGCAACAGCCGTCAGGCCCGGGCCATGGCTAAAGGCTCGAAGTTTGGCCGCAAGGAAACCGAAGACGCCTGGCAGAACGCCGAAGTGGCCGCGCTGTTCCGGCTGGCCAGCGCCGGCGTGCGGGTTCCGAAGCCGTATGACTTCCTCGAGGGCGTGCTGCTGATGGAACTGGTGGCCGACGAATACGGCGATGCGGCGCCGCGTCTCAACGACGTGGTGCTGGAGCCGGATCAGGCCCGCGAATATCACGCTTTTCTGATTTCCCAGATCGTGTTGATGCTGTGTACCGGTCTGGTGCACGGCGACCTGTCGGAGTTCAACGTGCTGCTGACGCCGACGGGGCCGGTCATCATTGACCTGCCGCAAGCGGTGGACGCTGCCGGGAACAACCACGCCTTCAGCATGCTGGAGCGGGACGTCGGCAACATGGCGTCCTACTTCGGTCGGTTTGCCCCGGAGCTGAAACGCACCAAATACGCCAAGGAAATGTGGGCCCTGTATGAAGCAGGCACCCTGCACCCGGCGAGCGTGCTGACCGGTGAGTTCGACGAGCCGGAAGAACTGGCGGATGTCGGCGGGATCATGCGCGAAATCGAGGCCGCGCGCCTGGATGAAGAGCGCCGCCAGGCCGTACGCGCCGCTGACGATGCGCCACCCGGCAAGACCGAAGAGCCGCCTCCGCCGTGGATGCAGTGA	MKTPKRIEPLIEDGLVDEVLRPLMSGKEAAVYVVRCGNELRCAKVYKEANKRSFRQAAEYQEGRKVRNSRQARAMAKGSKFGRKETEDAWQNAEVAALFRLASAGVRVPKPYDFLEGVLLMELVADEYGDAAPRLNDVVLEPDQAREYHAFLISQIVLMLCTGLVHGDLSEFNVLLTPTGPVIIDLPQAVDAAGNNHAFSMLERDVGNMASYFGRFAPELKRTKYAKEMWALYEAGTLHPASVLTGEFDEPEELADVGGIMREIEAARLDEERRQAVRAADDAPPGKTEEPPPPWMQ				NA	NA	NA	NA	NA
D1-35_05019	390	hmrR		HTH-type transcriptional regulator HmrR	ATGAACATTGGCCAGGCAGCCCGCCAGAGCGGCCTCAGCGCAAAGATGATCAGGTACTACGAATCCATCGGCCTGCTCAGGGCAGCCCATCGCACGGAGAGTGGCTATCGGATCTATGGCGCCGATGACTTGCATACGTTGGCATTCATCAAGCGCTCCCGGGATCTGGGGTTTTCCCTGGAAGAGGTCGGCAAGTTGCTGACTTTGTGGCAGGACCGTCAGCGTGCCAGCGCCGACGTAAAGGCTCTGGCCCGGCAACATATCGACGAACTGAACCAGAAAATTCGCGAACTGGCCGAACTGCGCGACACGCTCCAGGATCTGGTGGAGCACTGCCAGGGCGATCATCGCCCGGATTGCCCGATCCTCAGGAAACTGGCGTCGGGGTGA	MNIGQAARQSGLSAKMIRYYESIGLLRAAHRTESGYRIYGADDLHTLAFIKRSRDLGFSLEEVGKLLTLWQDRQRASADVKALARQHIDELNQKIRELAELRDTLQDLVEHCQGDHRPDCPILRKLASG	PGPT0004135_891	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexPQ-OpmE,PGPT0004135-cueR-K19591	NA	NA
D1-35_05020	2394	copA_3	COG2217	Copper-exporting P-type ATPase	ATGTCCGAGTCCACCACCTTCGATTTGCCGATTTCCGGCATGACCTGCGCAAGCTGTGCCGGGCGAGTCGAGCGAGCCTTGAGCAAGGTCGCCGGCGCCAGCGCCGTCAGCGTCAACCTGGCAACGGAACAGGCGCGGATCCAGGCCCCGCAGGGAAGCCTGCCGGCATTGATGCAGGCGGTCGAGCAGGCAGGTTACAGCGTTCCCGTCCAGACCCTGGAGTTGAGTATCGAGGGCATGACCTGCGCCTCTTGCGTGGGCCGGGTCGAACGGGCGTTGGGGAAAGTTGCCGGGGTGAACCGGGCCAGTGTCAATCTCGCCAATGAGCGAGCACACCTCGAATTGCTCGGGCAGGTTGATCCGCAAAGCCTGATCGATGCAGTCAAGCGCGCCGGTTACGACGCCAGTGTCTGGCAAGTCGAACAGCCTCGAAAAACCCAAGCCGATCAGCTGAGCCGCGAGCGCGTGGCCCTGGTGCTGGCGATTCTGCTGTCGATCCCGCTGGTATTGCCGATGCTGTTGCAGCCGTTCGGCGTGCATTGGATGCTGCCGGCCTGGGCGCAATTCGCGCTGGCGACGCCGGTGCAATTCATCTTCGGTGCGCGGTTTTACGTCGCGGCGTTCAAAGCCGTCCGCGCCGGCGCCGGAAACATGGACCTGCTCGTTGCCCTGGGCACCAGCGCCGGCTATGGCTTGAGCCTCTATGAGTGGGCGATGGCCCGACCGGGGAGCATGCCGCACCTGTATTTCGAGGCATCGGCCGTGGTGATTGCCCTGGTGCTGCTGGGCAAGTACCTGGAAAGCCGCGCCAAACGACAGACCGCCAGCGCCATCCGCGCCCTCGAAGCCTTGCGACCGGAGCGGGCGATTCAAGTGGTTGACGGTCAGGAACGGGACGTCGCTATCAGTGCCCTGCGCTTGAATGACCTGGTGCTGGTCAAGCCCGGCGAGCGCTTCCCGGTGGACGGTGAAGTGCTCGAGGGCCAGAGTCACGCCGACGAGGCGTTGATCAGCGGCGAAAGCCTGCCCGTGCCGAAGCAGCCCGGTGATCAGGTCACTGGCGGCGCGATCAATGGCGAAGGGCGCCTGTTGGTGCGCACCCGGGCCCTGGGGGCCGAGACCGTGCTGGCACGCATCATTCGCCTGGTGGAAGACGCCCAGGCCGCCAAGGCGCCGATTCAGAAGCTGGTGGACAAAGTCAGCCAGGTTTTCGTGCCGGTCGTATTGATCCTGGCACTCGCAACGTTGCTTGGCTGGTGGCTCTACGGTGCGCCGCTGGAGACGGCGCTGATCAATGCCGTCGCCGTGCTGGTGATCGCCTGCCCCTGTGCCCTGGGCCTGGCGACGCCGACGGCAATCATGGCCGGCACTGGCGTGGCCGCCCGCCACGGCATTCTGATCAAGGACGCCGAGGCGCTGGAACGTGCCCATGAAGTCGGCACGGTGGTGTTCGACAAGACCGGCACCCTGACGTCCGGCACGCCACGCATCGCCCATCTGGTGGCGCTTGACGGTGATGAAGACGCACTGCTGAACATGGCCGGCGCCTTGCAACGCGGCAGCGAACACCCGCTGGCCAAAGCGGTGCTCGACGCTTGCGCCGAACGCGGCCTGAGCGTAGCGGATGCCAGCGATAGCCAGTCCCTGACCGGACGCGGCATCGCCGGTAGCCTCGACGGGCGCCGCCTGGCCTTGGGAAATCGTCGTCTGCTGGAAGAGCTGGGCCTGAACCCCGGTTCGCTGGCCGAGTCGGCGCAAGCCTGGGAAACCGAAGGCCGAACCCTGTCCTGGCTCGTCGAGCAAGGCGCAACGCCTCGGGTCCTGGGCCTGCTCGCCTTCGGCGATACCCTCAAGCCCGGCGCTCTGGCGGCGGTCGAGGCCTTGAAGCAACGTCACATCGCCAGCCACCTGCTCACGGGCGACAACCGGGGCAGCGCTCGGGTCGTTGCCCAGGCATTGGGAATCGCCAACGTCCACGCCGAAGTGTTGCCGGGCGACAAGTCCGCCATCGTTCAACAACTGAAAACCCACTCGGTGGTGGCGATGGTCGGCGATGGCATCAACGACGCTCCGGCCCTGGCCGCCGCGGACATCGGCATTGCCATGGGCGGCGGCACCGACGTGGCGATGCAGGCCGCCGGCATCACCCTGATGCGCGGCGATCCGCGCCTGGTACCGGCGGCGCTGGACATCAGCCGCAAGACCTACGCGAAAATCCGTCAGAATCTGTTCTGGGCGTTCGTCTATAACCTGATCGGCATTCCGCTGGCGGCGTTCGGTTTGCTCAACCCGGTGTTGGCCGGCGCAGCCATGGCGCTGTCGAGCGTCAGCGTGGTGAGCAATGCATTGTTGTTGAAATTCTGGACACCCGCGCATCTGGAGGACAAGCGATGA	MSESTTFDLPISGMTCASCAGRVERALSKVAGASAVSVNLATEQARIQAPQGSLPALMQAVEQAGYSVPVQTLELSIEGMTCASCVGRVERALGKVAGVNRASVNLANERAHLELLGQVDPQSLIDAVKRAGYDASVWQVEQPRKTQADQLSRERVALVLAILLSIPLVLPMLLQPFGVHWMLPAWAQFALATPVQFIFGARFYVAAFKAVRAGAGNMDLLVALGTSAGYGLSLYEWAMARPGSMPHLYFEASAVVIALVLLGKYLESRAKRQTASAIRALEALRPERAIQVVDGQERDVAISALRLNDLVLVKPGERFPVDGEVLEGQSHADEALISGESLPVPKQPGDQVTGGAINGEGRLLVRTRALGAETVLARIIRLVEDAQAAKAPIQKLVDKVSQVFVPVVLILALATLLGWWLYGAPLETALINAVAVLVIACPCALGLATPTAIMAGTGVAARHGILIKDAEALERAHEVGTVVFDKTGTLTSGTPRIAHLVALDGDEDALLNMAGALQRGSEHPLAKAVLDACAERGLSVADASDSQSLTGRGIAGSLDGRRLALGNRRLLEELGLNPGSLAESAQAWETEGRTLSWLVEQGATPRVLGLLAFGDTLKPGALAAVEALKQRHIASHLLTGDNRGSARVVAQALGIANVHAEVLPGDKSAIVQQLKTHSVVAMVGDGINDAPALAAADIGIAMGGGTDVAMQAAGITLMRGDPRLVPAALDISRKTYAKIRQNLFWAFVYNLIGIPLAAFGLLNPVLAGAAMALSSVSVVSNALLLKFWTPAHLEDKR	PGPT0004090_4276	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
D1-35_05021	384			hypothetical protein	ATGCGCTGGTCAGCGTTCAGCCTGTTTTGCATGCTCGGTTTTTCTGCATTGGTGCCCCAGGCATCGGCCGCCGGCGAAGATTTCGGTGTGCTGATCATTTCCCGCGAGCGCCTGGAAGTGTCGACCAACTGCGAAATCGGCATCTACATTCAGGACCAGCTCGCGGCCAGGCTGTTCCAGGAGCAGAGCACTTCATTCAATTTGCCGCCGGGGCAGTTCTCCTTGCGCCTGAAATTGCTGCCAGGCCAGGCGCCGGGTTGCAACCCAGGCATGCTTGCCCCCGGTTCGCAGAACATCACGCTCAAGGCCGGCGACATCCTGAAGTACCGCATCGCCATGACGCATGAGGGCATGTACCTCAAGCAGGCTGATCTCGGTTACTGA	MRWSAFSLFCMLGFSALVPQASAAGEDFGVLIISRERLEVSTNCEIGIYIQDQLAARLFQEQSTSFNLPPGQFSLRLKLLPGQAPGCNPGMLAPGSQNITLKAGDILKYRIAMTHEGMYLKQADLGY				NA	NA	NA	NA	NA
D1-35_05022	198			hypothetical protein	ATGCAGATCTTCAATGTTCAAGGCATGTCCTGCGGTCATTGTGTAAAGGCAGTCACTCTGGCTCTTCAAGCCAAAGACCCGGACGCCGAGGTAAAGGTCGATCTGGGCGCCAAGACTGTTGAGGTCCAAAGCAAGTTGTCGTCCGATACCGTAATCGAGGCAATCAGGGAAGAGGGTTACGAAGCCAGTCCTGCTTGA	MQIFNVQGMSCGHCVKAVTLALQAKDPDAEVKVDLGAKTVEVQSKLSSDTVIEAIREEGYEASPA	PGPT0004125_3767	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004125-ATOX1|ATX1|copZ|golB-K07213	NA	NA
D1-35_05023	1203	bcr_2		Bicyclomycin resistance protein	ATGAACCTCCGTACCATTCTGATTCTTGGCGCCTTGAGCGCTTTTGGTCCCTTGGCGATCGATTTCTATCTGCCGGCCTTCCCGGCAATGGCGATCGCCTTTGGCACCGATGAAAACCATGTCCAGCTGACCCTGGCCGCCTACTTCCTCGGGCTGTCCCTCGGGCAACTGGCCTACGGGCCGGTGGCGGATCGCTTTGGACGGCGTATCCCGTTGCTGACAGGCGTCGGCTTGTTCACCGTGGCATCGCTGGCCTGTGCCTATGCGCCCAGTCTCGAATGGCTGATTGGCGCTCGTTTCGTCCAGGCGTTGGGCGGCTGTGCCGGGATGGTGATCTCCCGGGCGGTAGTCAGCGACAAATGCGACGCGGTGGGCTCGGCCAAGGTGTTCTCGCAACTGATGCTGGTGATGGGCCTGGCGCCGATCCTGGCGCCGATGCTCGGCGGCTTGCTGGTGAACCTGTACGGTTGGCAATCAATTTTCATCGGCCTGACCTTGTTCAGCGCGCTCGCGGCGACGGCCGTCGCGTTGTGGCTCCCGGAGAGCTTGCCGGCCCACGTACCTCGGCAACCGTTATCCGGCGCGTTGCGTCAGTACGGTCGGCTTCTCACAGACTCGGTTTTCCTAGGGCACGCCCTGACGGGCGGCATCGCGATTGCCGGGATGTTTGCCTATATCGCCGGTTCGCCATTTGTCTTCATCAAGCTTTACGGCGTACCGGCCGAACACTTCGGCTGGCTGTTCGGTACCAACGCGGCGGGTTTCATCCTGGTGGCCCAGGTCAATGCCCGCTTGTTGTCCAGGCGAGGCCCGGCATTTTTGCTGGCTCGCGCCGTCTGGGTCTACTGGATAGCCGGGCTCAGTTTACTGGCTGTCAGCGCCTTGCAGCCGGAGCGTTTGTGGCCGTTACTGATCCCATTGTTCATCTGCATCGCCAGCCTTGGCTGCATCCTTCCCAATGCATCGGCCTGCGCCATGAACGGGCAGGGGGCCCGGGCCGGTAGCGCTTCGGCGATGCTGGGGTGCCTGCAGTTTTCCGTAGCCGCCGGGGCCGCCGCACTGGTGGCGGCGCTGCATGACGGCACGGCAGTGCCGATGGCGATGGTAATCAGCCTGTGCGGACTATTGGTGGTGGGTGCCGCGATGCTGACCCGTCGGCTGCAGAACGCCCGGGCGCTCGCTCAGGCGGGCCAGCAGAGCTGA	MNLRTILILGALSAFGPLAIDFYLPAFPAMAIAFGTDENHVQLTLAAYFLGLSLGQLAYGPVADRFGRRIPLLTGVGLFTVASLACAYAPSLEWLIGARFVQALGGCAGMVISRAVVSDKCDAVGSAKVFSQLMLVMGLAPILAPMLGGLLVNLYGWQSIFIGLTLFSALAATAVALWLPESLPAHVPRQPLSGALRQYGRLLTDSVFLGHALTGGIAIAGMFAYIAGSPFVFIKLYGVPAEHFGWLFGTNAAGFILVAQVNARLLSRRGPAFLLARAVWVYWIAGLSLLAVSALQPERLWPLLIPLFICIASLGCILPNASACAMNGQGARAGSASAMLGCLQFSVAAGAAALVAALHDGTAVPMAMVISLCGLLVVGAAMLTRRLQNARALAQAGQQS	PGPT0029005_3467	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
D1-35_05024	171			hypothetical protein	ATGAAGATCCTGATAAAAGAGGTGGCAAAATCCCAATGGCAAGTGCGTCTTGACCAGCACGTCGTGACCTTTCGCTCAGAAGCCGAAGCCCAGGCTTTCGCCGCGACCTTGCAAGCGCGCATCCATGCGCCGCATCAATTTCCCGAACATCAGCAACGTGCCGCCAGCTGA	MKILIKEVAKSQWQVRLDQHVVTFRSEAEAQAFAATLQARIHAPHQFPEHQQRAAS				NA	NA	NA	NA	NA
D1-35_05025	1014			Zinc-type alcohol dehydrogenase-like protein	ATGAAAGCCATCGCGTATTACCAATCGCTGCCTATCACCCACCCGCAGTCGCTGCAGGACATCGAACTGCCCGAACCGGTTGCGGGTCCCCGAGACCTGCTGGTGGAGGTCAAGGCCATTTCAGTCAACCCCGTCGACACCAAGGTCCGCCAGAACGTCCAGCCCGAAGCAGGCGCGGCCAAGGTGCTGGGTTGGGACGTGGCCGGCGTGGTCAAGGCCGTAGGCAGCGAAGTCACGCTGTTCAAGGCCGGAGACAAGGTGTTCTACGCCGGTTCGATCGCCCGGGCCGGAGGCAACAGCGAGTTGCACGTTGTCGACGAGCGCATCGTCGGTCATATGCCGCAGACCCTCGGTTTCGCCGAAGCGGCCGCACTGCCGTTGACCGCTATCACCGCCTGGGAATTGCTCTTTGATCGATTGCAGATCAAGGAAGGCCAGAGCGATCTGGGCCAGAGCCTGCTGATCGTCGGCGCCGCCGGGGGTGTGGGTTCGATCCTGACGCAATTGGCCCGCCAACTCACCGGACTGAACGTCATCGGCAGCGCTTCCCGGCCGCAGACCCAGGAATGGGTGCGAGACCTGGGCGCCCACCTCGTCGTGGATCACAGCCAACCGCTGAGCGATGCACTGAAGGAGGCGGGCCAGGCCCAAGTGACCCACGTTGCCAGCCTGACGCAGACCGATCAGCACCTCGACCAACTGGTCGAAGCCCTGGCGCCCCAAGGCAAACTGGCACTGATCGATGATCCCAAATCGCTGGACGTGACCAAGCTCAAGCGCAAGAGCCTGTCGTTGCATTGGGAGTTCATGTACACCCGTTCACTGTTCGAGACCGTCGACATGCTTGAACAACACAAGCTGCTCAACCGTGTGGCCCGACTGATCGATGCCGGCACGTTGAAGACCACGGTGGGCGAACACTTTGGCACCATCAATGCCGAGAACCTGCGCCGGGCTCACGCGTTGCTGGAAAGCGGCAAGTCCAAGGGCAAGATCGTGCTAGAGGGCTTCTGA	MKAIAYYQSLPITHPQSLQDIELPEPVAGPRDLLVEVKAISVNPVDTKVRQNVQPEAGAAKVLGWDVAGVVKAVGSEVTLFKAGDKVFYAGSIARAGGNSELHVVDERIVGHMPQTLGFAEAAALPLTAITAWELLFDRLQIKEGQSDLGQSLLIVGAAGGVGSILTQLARQLTGLNVIGSASRPQTQEWVRDLGAHLVVDHSQPLSDALKEAGQAQVTHVASLTQTDQHLDQLVEALAPQGKLALIDDPKSLDVTKLKRKSLSLHWEFMYTRSLFETVDMLEQHKLLNRVARLIDAGTLKTTVGEHFGTINAENLRRAHALLESGKSKGKIVLEGF	PGPT0019417_427	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019417-putative_alginate_lyase_2-NA	NA	NA
D1-35_05026	735			hypothetical protein	ATGGAACATGCACCTTGCATCAGCCAGATCGCCACGCTGCTGGCCGACCCCAAGCGCAGCGCAATGATGTGGGCGTTGATGGACGGTACGGCCCGGCAAGCTGAAGAGTTGGCCTTGCTGGCCGGGCTTTCGCCATCCTCGGCCAATGCCCATCTGGGACGTCTGTCTGCCGGTGGCCTGGTGAAGGTCGAAATCCGTGGCCGCAAGCGGTTTTTTCGCCTGGCGGCACCCGAGATCGGCGCTGCCGTCGATGCATTGGCGAGCGCAACCCTGGCCAGCACGCCGCGACAGGTTCCGGAAGTCTTCAAGCGCAGCCTCATGCCTAACAGGACGCCGACGGCACCCGCTTCGTTGATGCGGGCCAGGCTTTGCGATGACCACCTGGGAGGCACACTGGCGGCGGACCTGTATCAGCGGCTGTTGGAAGCCGGATGGCTCGAACAGCTTGAGCATCGGGTGGTCGTCACGCATAAAGGTGCCAGCCAACTGGCTGGGCGAGGTCTGTTCATCCAGGCACTGGCTCATCGCGAGACGCGTATGGCCTGCGCCTGCCCCGACTGGAGCGAACTTCGTCCACATCTGGGAGGGGCGCTGGGGGCGGCATTGCTGCAATTGTTCATGCAGTCCGGCTGGCTCAGCCTGCCCAGCGACTCCAGGGCGTTGCAGGTAACCGCGCTCGGTCAACAGAAAATCCATCGATTCGCCAGGCAAGAGGTTCTGGAAATGGCGCTCTAG	MEHAPCISQIATLLADPKRSAMMWALMDGTARQAEELALLAGLSPSSANAHLGRLSAGGLVKVEIRGRKRFFRLAAPEIGAAVDALASATLASTPRQVPEVFKRSLMPNRTPTAPASLMRARLCDDHLGGTLAADLYQRLLEAGWLEQLEHRVVVTHKGASQLAGRGLFIQALAHRETRMACACPDWSELRPHLGGALGAALLQLFMQSGWLSLPSDSRALQVTALGQQKIHRFARQEVLEMAL				NA	NA	NA	NA	NA
D1-35_05027	1335	naiP_3		Putative niacin/nicotinamide transporter NaiP	ATGAGCGGCTATCACCGGGTCATCTTCATTATTATCGCGCTGGCTTTTTTCTTTGATTCCATGGATCTGGCCATGATGACGTTCCTGCTGGGCTCGATCAGAACCGAGTTCGGCTTGAGCGCCGCCCAGGCCGGTTTGTTGGCCAGTTCAAGCTTTTTCGGCATGGTGCTGGGCGCCTCGTTGTCGGGGCTGCTTGCCGATCGCTTCGGACGCAAACCGGTGTTCCAGTGGAGCATCGTCTTGTGGGGGCTCGCCAGTTACCTGTGTTCCACCGCCCAGGACGTGGAGATGCTGACGCTGTTTCGCATCCTGTTGGGCGTCGGCATGGGCATGGAGTTTCCGATTGCCCAGTCGATGCTCTCGGAGCTGATCCCGGCGAGGCAGCGCGGACGCTACATCGCCTTGATGGATGGCTTCTGGCCGCTGGGCTTCGTGGCGGCGGGGGTGCTGTCGTATTTCCTGCTGCCGCTGATCGGCTGGCGGGACATTTTCCTGGTGTTGGCGGTGCCGGCAGTGTTCGTCCTGGTGATTCGCTTCTTCATCCCCGAGTCGCCACGTTGGCTGGAGCAGGCGGGGCGGGGCGCCGACGCGGACGCCGTACTCAAGCGGATCGAAGACAAGGTCCGGGCCTCGCTGGGTCGCCAGGACCTGCCCGAACCGATTAGCCTGCCGACACTGGCGACGGCGCCCGGCAATTTCTTTTCGGCTCTGGCGCAGATCTGGTCACCGCTGTACCGCCAGCGCACGATGATGATCTGGAGCGTCTGGTTTTTTGCCTTGCTCGGCTTCTACGGGCTGACGTCCTGGCTCAGCGCGCTGCTGCAGCAGTCGGGGTTTGCGGTGACCCAGTCGGTTTATTACACGGTGCTGATTTCCCTCGGCGGGATTCCCGGTTTCCTGATGGCGGCCTGGCTGGTGGAGCGGTGGGGGCGTAAACCGGTGTGTGTCATCACGCTGCTGGGCGGCGGGATCATGGCATTTCTTTATGGCCAGAGCGCGGTGTTTGGCGGGAACGTCACGCTGCTGATCAGCTCCGGGCTGCTGATGCAGTTTTTCCTGTTCGGCATGTGGGCAGTGCTCTACACCTACACCCCGGAACTGTATCCCACCTCGGCGCGAGCCACGGGGTCGGGCTTTGCCTCGGCGGTCGGTCGCATCGGTTCGCTGCTTGGACCGCTGGTGACCGGCTTGGTCTTTCCGATCACCGGGCAGGGCGGAGTGTTCGCCCTTGGCGCCCTGTGTTTTGCCGTGGCGGCGGGCGTGGTCTGGTTGTTTGGAATGGAGACGCGGGGCAAGACGCTGGAGGAATTGAGTGAGGCGACGGTCGCTGACTAA	MSGYHRVIFIIIALAFFFDSMDLAMMTFLLGSIRTEFGLSAAQAGLLASSSFFGMVLGASLSGLLADRFGRKPVFQWSIVLWGLASYLCSTAQDVEMLTLFRILLGVGMGMEFPIAQSMLSELIPARQRGRYIALMDGFWPLGFVAAGVLSYFLLPLIGWRDIFLVLAVPAVFVLVIRFFIPESPRWLEQAGRGADADAVLKRIEDKVRASLGRQDLPEPISLPTLATAPGNFFSALAQIWSPLYRQRTMMIWSVWFFALLGFYGLTSWLSALLQQSGFAVTQSVYYTVLISLGGIPGFLMAAWLVERWGRKPVCVITLLGGGIMAFLYGQSAVFGGNVTLLISSGLLMQFFLFGMWAVLYTYTPELYPTSARATGSGFASAVGRIGSLLGPLVTGLVFPITGQGGVFALGALCFAVAAGVVWLFGMETRGKTLEELSEATVAD	PGPT0014435_964	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0014435-ydjE-K08369	NA	NA
D1-35_05028	954		COG1816	Adenine deaminase	ATGTACGACTGGCTTAACGCCTTGCCCAAGGCTGAACTGCACTTGCACCTGGAAGGCTCGCTGGAGCCCGAGCTGCTGTTTGCCCTGGCCGAACGCAACAAGATTGCCCTGCCGTGGAGCGACGTGGACACCCTGCGCCAGGCCTATGCCTTCAACAATCTGCAGGAGTTTCTCGACCTGTATTACCAGGGCGCCGACGTGCTGCGCACTTCCCAGGATTTCTACGACCTGACCTGGGCCTACCTGCTGCGCTGCAAGGCACAGAACGTGATTCACACCGAACCGTTCTTCGATCCGCAGACCCACACCGACCGGGGCATTCCATTCGAAGTGGTGCTCAACGGTATTGCCGCCGCCCTCAAGGACGGTGAGCAACAACTGGGCATCACCAGCGGCCTGATCCTGAGCTTCCTGCGTCACCTGAGCGAAGAGCAGGCGGAAAAAACCCTCGACCAGGCGCTGCCCTTCCGCGACGCGTTCGTGGCCGTCGGCCTGGACAGCTCGGAGATGGGCCACCCGCCGAGCAAGTTCCAGCGGGTGTTCGACAGGGCGCGCAATGAAGGCTTCCTGACCGTCGCCCACGCCGGCGAAGAAGGCCCCCCCGAGTACATCTGGGAAGCCTTGGATCTGCTGAAAATCCAGCGCATCGACCACGGCGTGCGAGCCATCGAAGACGAGCGGTTGATGCAGCGGATCATCGACGAACAGATCCCCTTGACGGTTTGCCCGTTGTCCAACACCAAGCTATGCGTGTTCGATGATATGTCGCAGCACAACATCCTCGACATGCTCGAACGCGGCGTGAAGGTGACGGTGAACTCCGATGACCCGGCGTACTTCGGCGGCTACGTCACCGAGAACTTCCACGCGTTGCACACGCATCTGGGCATGACCCAGGACCAGGCCAGGCGGTTGGCGCAGAACAGCCTCGATGCGCGGTTGGTGAAACCTTAA	MYDWLNALPKAELHLHLEGSLEPELLFALAERNKIALPWSDVDTLRQAYAFNNLQEFLDLYYQGADVLRTSQDFYDLTWAYLLRCKAQNVIHTEPFFDPQTHTDRGIPFEVVLNGIAAALKDGEQQLGITSGLILSFLRHLSEEQAEKTLDQALPFRDAFVAVGLDSSEMGHPPSKFQRVFDRARNEGFLTVAHAGEEGPPEYIWEALDLLKIQRIDHGVRAIEDERLMQRIIDEQIPLTVCPLSNTKLCVFDDMSQHNILDMLERGVKVTVNSDDPAYFGGYVTENFHALHTHLGMTQDQARRLAQNSLDARLVKP	PGPT0021695_821	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021695-ade-K21053	NA	NA
D1-35_05029	1092	chaA	COG0387	Sodium-potassium/proton antiporter ChaA	ATGCTGACGTTGATCAAGCAAGAAAAATTGCTGCTGCTGGCCCTGCTTGCCGCTTTTGTCGCCTACCCGCTGGAGCATTGGCTGCTGGGCAGCGGGCAGGTCGTGGCGTTGGTTGGCGGCCTGGTGCTGATCGGTTTCATCGTCGCGGCCTCCATGCGCGTGGCCCATCACGCCGAGTTGCTGGCGGAAAAGGTCGGCGATCCTTACGGCACGATGATCCTGACTTTGTCGGCGGTGCTGGTGGAAGTGGTGATCCTGGCGATCATGATGAGTAACGAGGCGTCGCCGACCCTGGTACGGGACACGATCTATTCGGCGGTGATGCTCGATATCAACGGCATTCTCGGACTGGCGGCGCTGATGGGTGGGCTCAAGCACGGCGAGCAGGTCTATAACGACGATTCGGCGCGTACCTACAGCGTGATGATCCTCACCGCCATGGGCGTGTCGATGGTGGTGCCGGAGTTTATTCCGCAGGAAAACTGGAAGCATTATTCGGCATTCACCATCGGCGCGATGATCGTCTTGTATACGTTGTTCTTGCGCATGCAGGTGGGGCCACACAGCTATTTCTTCAGCTACAGCTACCCGGAAAAACGCCGCAGGAAGGAACCGGTGGAAGCCGAGCCGAAACCCATCAGCCTGGCGTTTTCCATCGGCGCACTGGTGTTCGGCGTGGTGGTCATCGGTGCGCTGGCCGAAGTCATGTCCAAGGCTATCGACCTCGGGCTGGAAGGCTCCGGCGCGCCGCCGGTGGTCACGGCAATTCTGGTGGCGGTCATCTCCGCTGCGCCGGAAATTCTCACCGCCCTGCGCGCAGCCTTGGCCAATCGCATGCAGTCGGTGGTGAACATCGCCTTGGGCGCGTCGCTGTCCACCGTGATCCTGACGGTGCCGGTGATGGAAGCCATGGCCCTCTACACCGGCCAGCCTTTCCAGATGGCGATGACCCCGGTGCAAACGGTGATGATCTTCATCACCCTGATCGTCAGCGCCATCAACCTCAATGATGGCGAAACCAACGCCATCGAGGGCATGACCCACTTTGTGCTGTTTGCCACGTTTATCATGTTGTCGTTGCTCGGTCTTTGA	MLTLIKQEKLLLLALLAAFVAYPLEHWLLGSGQVVALVGGLVLIGFIVAASMRVAHHAELLAEKVGDPYGTMILTLSAVLVEVVILAIMMSNEASPTLVRDTIYSAVMLDINGILGLAALMGGLKHGEQVYNDDSARTYSVMILTAMGVSMVVPEFIPQENWKHYSAFTIGAMIVLYTLFLRMQVGPHSYFFSYSYPEKRRRKEPVEAEPKPISLAFSIGALVFGVVVIGALAEVMSKAIDLGLEGSGAPPVVTAILVAVISAAPEILTALRAALANRMQSVVNIALGASLSTVILTVPVMEAMALYTGQPFQMAMTPVQTVMIFITLIVSAINLNDGETNAIEGMTHFVLFATFIMLSLLGL	PGPT0013985_2057	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013985-chaA-K07300	NA	NA
D1-35_05030	1359		COG0402	8-oxoguanine deaminase	ATGCCTGCGACCCGTACCTGGTTAAAAAATCCCCTCGCCATTTTCACGGCCAACGGCCTCGATGCCCGTGGCGGTCTCGTCCTGCAGGACGGTGTGATCGTTGAGCTGCTCAACGCCGGGCAACAGCCCGCACAGCCTTGTGACACCGTGTTCGATGCTCGAGAACATGTGATCCTGCCGGGGCTGATCAACACCCATCATCACTTCTACCAGACCCTGACCCGCGCCTGGGCACCCGTCGTAAGCGAGCCGTTGTTCCCATGGCTGAAGACTCTCTATCCGGTGTGGGCGCGGCTGACTCCGGAAAAACTCGCGCTGGCGAGCAAAGTCGCGTTGGCCGAACTGCTGTTGTCGGGTTGCACCACGGCGGCCGATCACCACTACCTTTTTCCCGAAGGCCTGGAAAACGCCATCGATGTGCAGGTGCAATGCGTCGGTGAGCTGGGCATGCGCGCAATGCTGACCCGTGGTTCCATGAGCCTGGGCGAGGCCGACGGTGGCTTGCCGCCGCAGCAGACCGTGCAGCAGGGCCAGGTGATTCTCGACGACAGCCAGCGACTGATCGCTCGATACCATGAGCGCGGTGCCGGCGCGAAAATCCAGATTGCCCTGGCGCCCTGCTCGCCGTTTTCGGTCACGCCCGAGATCATGCGCGCCAGCGCCGAGCTCGCGGAAAAGCTCGACGTACGCTTGCATACCCACCTGGCCGAAACCCTCGACGAGGAGGACTTCTGCCGGCAGCGCTTCGGCCTGCGCACCGTGGATTACCTCGACAGCGTCGGCTGGCTGGGCCCACGTACCTGGCTGGCCCACGGCATTCATTTCAATCCTGACGAAATAACCCGTCTCGGCGCCGCCGGAACCGGAATCTGCCATTGCCCCAGTTCGAACATGCGCCTGGCCTCGGGCATTTGTCCGACGCTTGAACTGACCGCCGCCGGCGCCCCATTGGGCCTTGGGGTGGACGGCTCGGCGTCCAACGATGCGTCGAACATGCTGCTGGAAACCCGTCAGGCGCTATACATCCAGCGCTTGCGCTATGGCGCGCAAGCGATCACGCCGGAGAAGGTGCTGGGCTGGGCGACCCGAGGCTCGGCCCAATTGCTGGGACGCAGCGACATCGGCGAACTGGCAGAGGGCAAACAAGCCGACCTGGCGATGTTCAAGCTTGATGAGTTGCGCTTTTCCGGCAGCCACGATCCGATCTCGGCCCTGCTGCTGTGCGGTGCTGATCGGGCGGACCGGGTGATGGTCGCGGGTCAGTGGAGAGTGATCGATGGACAGGTCGAAGGGCTGGACCTGAAGGGCTTGATTGCCGACCACAGCCAGGCGGCGCGAGAGCTGATCGCGGGTACCTGA	MPATRTWLKNPLAIFTANGLDARGGLVLQDGVIVELLNAGQQPAQPCDTVFDAREHVILPGLINTHHHFYQTLTRAWAPVVSEPLFPWLKTLYPVWARLTPEKLALASKVALAELLLSGCTTAADHHYLFPEGLENAIDVQVQCVGELGMRAMLTRGSMSLGEADGGLPPQQTVQQGQVILDDSQRLIARYHERGAGAKIQIALAPCSPFSVTPEIMRASAELAEKLDVRLHTHLAETLDEEDFCRQRFGLRTVDYLDSVGWLGPRTWLAHGIHFNPDEITRLGAAGTGICHCPSSNMRLASGICPTLELTAAGAPLGLGVDGSASNDASNMLLETRQALYIQRLRYGAQAITPEKVLGWATRGSAQLLGRSDIGELAEGKQADLAMFKLDELRFSGSHDPISALLLCGADRADRVMVAGQWRVIDGQVEGLDLKGLIADHSQAARELIAGT				NA	NA	NA	NA	NA
D1-35_05031	687			hypothetical protein	ATGAATTCGGCAAAAACCGCATTGATCATCGGCGCCTCTCGGGGACTGGGCCTCGGCTTGGTGAAGACGCTTCTGGGTGATGGCTGGAACGTGACCGCCACGGTACGTAACCCACAGAACGCCGAGGCCTTGAAGGCGCTGGGCCCGGTTCGAATCGAAAAGCTCGACATGGACGACCAGCAAGCCGTCATCGCCTTGAGCCAGCAGCTCAGGGACCAGACCTTCGACCTGTTGTTCGTCAATGCCGGCGTCAAAGGCCCCGACAACCAGAGCCCAGGCGGCGCAACGCTGGCTGAGGTCGGTCAGCTGTTCTTAACCAATGCCGTGGCACCGATCAACCTCGCCCAACGCTTCGTCGGGCAGATCCGCGACGGCAGCGGCGTGCTGGCCTTCATGAGCTCGGTGCTGGGCAGCGTGACCATGCCCGACGCCCCCGAACTTGCGCTGTACAAGGCCAGCAAAGCCGCGCTCAACTCCATGACCAACAGTTTTGTCAGTCAGCTGGGCGAGCAAGCATTGACCGTCCTGTCGCTGCACCCGGGCTGGGTAAAAACCGACATGGGCGGCGAAGGCGCGGCCATCGATGTCGAGACCAGCACCCGTGGGCTGATCGATCAGGTCAATGCCTTTGCCGGCAAGGGTGGACATCACTTCGTCAATTACAAAGGCGAGACGATTCCCTGGTAA	MNSAKTALIIGASRGLGLGLVKTLLGDGWNVTATVRNPQNAEALKALGPVRIEKLDMDDQQAVIALSQQLRDQTFDLLFVNAGVKGPDNQSPGGATLAEVGQLFLTNAVAPINLAQRFVGQIRDGSGVLAFMSSVLGSVTMPDAPELALYKASKAALNSMTNSFVSQLGEQALTVLSLHPGWVKTDMGGEGAAIDVETSTRGLIDQVNAFAGKGGHHFVNYKGETIPW				NA	NA	NA	NA	NA
D1-35_05032	594	yigZ	COG1739	IMPACT family member YigZ	ATGCCTTATACCCTTGCCGGCTTTTGCGAATACCGTGAAGAAATCCGCAAAAGCCGTTTCATCACCTTCGCCGCCCCCATCACCAGCCCCGCCGAGGCCCAGGCCTTTATAGAGCGGCACAGCGACCTGGACGCCACGCATAATTGCTGGGCATGGAAACTGGGCGACCAATATCGCAGCAGCGACGATGGCGAGCCGGGCGGCACCGCCGGGCGCCCGATCCTCGCGGCCATCCAGGCCCAGGATTGCGATCAGGTGGTGGTGCTGGTCATACGCTGGTACGGCGGAATCCAGCTGGGTACCGGCGGTTTGGCCCGCGCCTATGGCGGCGGTGCGAACAAATGCCTGCAAACCGCCGAGAAGGTCGAATTGATCAGCCGCGTAGCGCTGCGTTGCCTGTGCGGTTTCGCCGAGCTGGCCCTGGTGAAACTGCGGATAGCTGAATGCGGCGGTCTGGTCCTCGCCGAGGATTTCACCGCCAACGGCGTGGAACTTCAATTGGCAGTCGGTGAAGAACACATCGAGAGCCTGCAGACGCGACTGGCCGATTTGAGTCGCGGACAGATACGACTTGAGCGCCCGGCAGCCTCATGA	MPYTLAGFCEYREEIRKSRFITFAAPITSPAEAQAFIERHSDLDATHNCWAWKLGDQYRSSDDGEPGGTAGRPILAAIQAQDCDQVVVLVIRWYGGIQLGTGGLARAYGGGANKCLQTAEKVELISRVALRCLCGFAELALVKLRIAECGGLVLAEDFTANGVELQLAVGEEHIESLQTRLADLSRGQIRLERPAAS				NA	NA	NA	NA	NA
D1-35_05033	651	rutR_2	COG1309	HTH-type transcriptional regulator RutR	ATGACCTTTGAAGTTCCTGCCCATGGTGGCAAGCCTACCGGCCGTATTCGTCAGAAAAACGAGGAAACCATCCTCAGGGCCGCCGAGGATGAGTTCGCCCGCCACGGCTTCAAGGGCACCAGCATGAACGCCATCGCCTTGAAGGCCGGATTGCCCAAGGCGAACCTGCATTACTATTTCACCAACAAGCTCGGCCTTTACGTCGCCGTGCTGAGCAACATCATCGAGTTGTGGGACAGCACTTTCAACTCCCTGACCGCCGAGGACGATCCAGCGCAGGCATTGACCCGCTACATCCGCGCCAAGATGGAATTCTCACGGCGCCAGCCCCAGGCATCGCGAATTTTCGCCATGGAAGTGATCAGCGGCGGCGAATGCCTGAGCGAGTATTTCAACCAGGACTATCGCGCCTGGTTCAAGGGCCGCGCGGCCGTGTTCCAGGCCTGGATCGATGCGGGCAAAATGGACCCGGTCGATCCGGTTCACCTGATTTTTCTGCTGTGGGGCAGCACCCAGCATTACGCCGATTTTGCCACCCAGATCTGCCGCGTGACCGGGCGTAGCAAATTGACCAGGCAAGACATGATCGACGCCGGCGACAATCTCATCCGCATCATTCTCAAAGGCTGCGGCCTGACACCAGACCTCTAG	MTFEVPAHGGKPTGRIRQKNEETILRAAEDEFARHGFKGTSMNAIALKAGLPKANLHYYFTNKLGLYVAVLSNIIELWDSTFNSLTAEDDPAQALTRYIRAKMEFSRRQPQASRIFAMEVISGGECLSEYFNQDYRAWFKGRAAVFQAWIDAGKMDPVDPVHLIFLLWGSTQHYADFATQICRVTGRSKLTRQDMIDAGDNLIRIILKGCGLTPDL				NA	NA	NA	NA	NA
D1-35_05034	921			hypothetical protein	ATGAGCGCTCGTCGTCCCGATCCACTGGCCCAAGTCAGCGACTTCGATATCCGCTTGCTGCGCATTTTCCGCAGCGTGGTGGAATGCGGCGGGTTTTCGGCAGCGGAAACCGTGCTTGGCATCGGCCGCTCTGCCATCAGCCAGCAGATGAACGATCTGGAGCAGCGTCTTGGCCTGCGTCTATGCCAGCGTGGGCGCGCGGGCTTTTCACTGACGGAGGAAGGGCGGGAAGTCTATCAATCGGCATTGCAGTTATTGAGCGCGCTGGAGAGCTTTCGCACCGAGGTCAACGGCCTGCACCAGCATTTGCGCGGTGAATTGACCATCGGCCTGACGGACAATCTTGTCACCCTGCCCCACATGCGGATCACTCACGCCTTGGCCCAGTTGAAAGAACGCGGGCCGGACGTGCAGATCCAGATTCGCATGATCGCTCCCAACGAAGTCGAACAAGGCGTGCTCGACGGGCGCCTGCATGTCGGCGTAGTGCCCCAGGCCAGCGCCCTTTCCGGACTCGAATATCAACCGCTCTACAGTGAGCGCTCGCTGCTCTATTGCGCAGTAGGCCATCCGCTGTTTTATGTGGACGACCAACAGCTTGAAGATGCTCGGCTCAACAGCCAGGACGCCATCGCGCCAACCTTTCGCCTGCCCGCCGAGATCCAGGCTCACTACCAGGCACTCAACTGCACCGCCAGCGCCTCGGATCGCGAAGGCATGGCGTTCCTGATCCTCACCGGACGTTACATTGGTTATCTGCCGGATCACTACGCCAATCTATGGGTTCAGCAAGGACGGCTGCGAGCCCTCAAGCCCTTGGCACGTTTTTATGATCTGAGCCTGGCGTCGGTCACACGCAAGGGTCGCCGCCCGCACCTGGTGCTGGAAAGTTTTCTCGAAAACCTGGCGGCAACCCGCTGA	MSARRPDPLAQVSDFDIRLLRIFRSVVECGGFSAAETVLGIGRSAISQQMNDLEQRLGLRLCQRGRAGFSLTEEGREVYQSALQLLSALESFRTEVNGLHQHLRGELTIGLTDNLVTLPHMRITHALAQLKERGPDVQIQIRMIAPNEVEQGVLDGRLHVGVVPQASALSGLEYQPLYSERSLLYCAVGHPLFYVDDQQLEDARLNSQDAIAPTFRLPAEIQAHYQALNCTASASDREGMAFLILTGRYIGYLPDHYANLWVQQGRLRALKPLARFYDLSLASVTRKGRRPHLVLESFLENLAATR	PGPT0003120_403	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ACINETOBACTIN_METABOLISM,PGPT0003120-bauR-K21699	NA	NA
D1-35_05035	1350			Omega-amino acid--pyruvate aminotransferase	ATGAACATGCCCGAACACGCTGTCGGTTCCCTGGCCAGCCAGCTCAAGCTGGATGCCCACTGGATGCCCTACACGGCCAATCGTAATTTCCAACGCGATCCCCGCTTGATCGTCGCCGCCGAGGGTAGCTGGCTGACGGATGACAAGGGGCGCAAGGTCTACGATTCGTTGTCGGGCTTGTGGACCTGTGGCGCCGGGCACACCCGCAAGGAAATCCAGGAGGCGGTCGCCAGGCAATTGGGCACCCTCGATTATTCCCCGGGATTCCAGTACGGCCATCCGCTGTCGTTCCAGCTGGCGGAAAAGATCACCAGCCTGACCCCGGGCAAACTCAACCATGTGTTCTTCACCGACTCCGGTTCCGAGTGCGCCGATACCGCAGTGAAGATGGTCCGTGCCTACTGGCGCCTCAAGGGGCAGGCCACCAAGACCAAGATGATCGGCCGTGCCCGTGGTTATCACGGCGTGAACATCGCCGGCACCAGCCTGGGCGGTGTCAGTGGCAACCGTAAATTGTTCGGCCAGGCCATGATGGACGTTGATCATCTGCCCCACACCTTGCTGGCCAGCAATGCCTATTCCCGTGGCATGCCGAAGGAAGGTGGCATCGCTCTGGCCGATGAGCTGCTGAAATTGATCGAGCTGCACGACGCTTCCAACATTGCGGCCGTATTTGTCGAGCCGATGGCCGGATCCGCCGGGGTCCTGGTCCCGCCTGAGGGATATCTCAAGCGTCTGCGGCAGATCTGCGACCAGCACAACATCCTGCTGGTGTTTGACGAAGTCATTACCGGTTTCGGTCGCACCGGTTCGATGTTTGGCGCTGATAGCTTTGGCGTGGTTCCGGACCTGATGTGCATCGCCAAGCAGGTCACCAACGGCGCCATCCCCATGGGGGCGGTGATTGCCAGTTCGGAAATCTACCAGACGTTCATGAACCAGCCGACGCCCGAATATGCGGTGGAGTTTCCCCACGGCTATACCTATTCGGCGCACCCGGTGGCCTGTGCGGCTGGCCTGGCGGCACTGGATTTGTTGCAGAAGGAAAACCTGGTGCAAAGCGTGGCCGAGGTCGCGCCGCATTTCGAGAATGCCTTGCATGGTTTGAAAGGCTCGAAGAACGTCCTCGACATTCGCAACTTCGGCCTGGCCGGGGCGATCCAGATTGCCCCGCGCGACGGCGACGCCATCGTGCGTCCGTTCGAGGCCGGGATGGCCCTGTGGAAAGCCGGGTTCTATGTGCGATTCGGCGGCGACACCCTACAGTTCGGGCCAACGTTCAACAGCAAGCCGCAGGACCTGGATCGTCTGTTCGATGCGGTCGGTGACGTGCTGAATAGAATCGACTGA	MNMPEHAVGSLASQLKLDAHWMPYTANRNFQRDPRLIVAAEGSWLTDDKGRKVYDSLSGLWTCGAGHTRKEIQEAVARQLGTLDYSPGFQYGHPLSFQLAEKITSLTPGKLNHVFFTDSGSECADTAVKMVRAYWRLKGQATKTKMIGRARGYHGVNIAGTSLGGVSGNRKLFGQAMMDVDHLPHTLLASNAYSRGMPKEGGIALADELLKLIELHDASNIAAVFVEPMAGSAGVLVPPEGYLKRLRQICDQHNILLVFDEVITGFGRTGSMFGADSFGVVPDLMCIAKQVTNGAIPMGAVIASSEIYQTFMNQPTPEYAVEFPHGYTYSAHPVACAAGLAALDLLQKENLVQSVAEVAPHFENALHGLKGSKNVLDIRNFGLAGAIQIAPRDGDAIVRPFEAGMALWKAGFYVRFGGDTLQFGPTFNSKPQDLDRLFDAVGDVLNRID	PGPT0007865_226	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007865-spuC-K12256	NA	NA
D1-35_05036	1494	bauC_1	COG1012	Putative 3-oxopropanoate dehydrogenase	ATGAGCCTCATCCCGCATCTGATCAATGGCGAATTGCTGAGCGACAGCGCACGCACGGCCGACGTGTTCAACCCATCCACCGGGCAAGCAATCCACAAGGTCCCGCTGGCGGATCGCGCAACTGTTCAGCAGGCCATCGATGCCGCCAAGGCGGCTTTCCCGGCCTGGCGCAATACGCCGGCGGCCAAGCGTGCCCAGGTGATGTTTCGTTTCAAGCAGTTGCTGGAGCAGAACGAGTCGCGCATTGCCCAGTTGATCAGCGAAGAACATGGCAAGACCCTCGAAGACGCCGCCGGTGAGCTCAAACGCGGTATCGAGAACGTCGAGTTTGCCTGTGCGGCCCCGGAAATACTGAAGGGCGAATACAGCCGTAACGTAGGACCGAACATCGACGCCTGGTCAGACTTTCAACCGTTGGGCGTGGTGGCAGGCATCACACCGTTCAATTTCCCGGCGATGGTGCCGCTGTGGATGTATCCGCTGGCGATCGTCTGCGGCAACTGCTTCATCCTCAAGCCATCCGAGCGTGACCCGAGTTCGACCCTGCTGATCGCCCAGTTGCTGCTGGAAGCCGGTCTGCCAAAGGGGGTGTTGAGTGTGGTCCATGGCGACAAGGCAGCCGTGGATGCACTGATCGAAGCGCCGGAAGTGAAGGCGCTGAGTTTTGTTGGCTCGACGCCGATTGCCGAGTACATCTATGCCGAAGGTACTCGTCGCGGCAAACGCGTTCAGGCGCTAGGCGGTGCCAAGAACCATGCGGTGTTGATGCCGGATGCCGACCTGGACAATGCCGTCAGCGCGCTGATGGGCGCGGCTTACGGTTCATGCGGTGAGCGTTGCATGGCGATTTCGGTGGCGGTGTGTGTCGGCGATCAGGTGGCGGATGCGCTGGTGGCCAAGTTGGTGCCGCAGATCCAGGCACTGAAGATCGGTGCCGGTACGTCTTGCGGTCTGGACATGGGGCCGTTGGTGACCGGCCAGCATCGGGACAAAGTCAGCGGCTATATAGAAGAGGGTGTGGCGGCAGGCGCCTCGCTGATTGTCGATGGTCGCGGCTTGAGTGTGTCTGGGCATGAAGACGGGTTTTTCCTGGGCGGTTGCCTGTTTGATCGCGTAATGCCCGAGATGCGTATCTATAAGGAAGAAATCTTCGGACCGGTGCTGTGTATCGTCCGGGTCAACAGCCTGGAAGAGGCGATGCAACTGATCAATGATCACGAGTATGGCAACGGTACTTGTATCTTTACCCGGGACGGGGAGGCGGCACGGTTGTTCTGCGATGAGATCGAAGTCGGGATGGTCGGTGTAAACGTTCCATTGCCAGTGCCTGTTGCCTATCACAGCTTTGGCGGTTGGAAGCGTTCATTGTTTGGCGACCTGCATGCCTACGGTCCGGACGGGGTGCGTTTTTATACCCGTCGCAAGGCCATTACCCAGCGCTGGCCGCAGCGTGCCAGCCACGAGGCTTCGCAGTTCGCATTCCCCAGCCTTTAA	MSLIPHLINGELLSDSARTADVFNPSTGQAIHKVPLADRATVQQAIDAAKAAFPAWRNTPAAKRAQVMFRFKQLLEQNESRIAQLISEEHGKTLEDAAGELKRGIENVEFACAAPEILKGEYSRNVGPNIDAWSDFQPLGVVAGITPFNFPAMVPLWMYPLAIVCGNCFILKPSERDPSSTLLIAQLLLEAGLPKGVLSVVHGDKAAVDALIEAPEVKALSFVGSTPIAEYIYAEGTRRGKRVQALGGAKNHAVLMPDADLDNAVSALMGAAYGSCGERCMAISVAVCVGDQVADALVAKLVPQIQALKIGAGTSCGLDMGPLVTGQHRDKVSGYIEEGVAAGASLIVDGRGLSVSGHEDGFFLGGCLFDRVMPEMRIYKEEIFGPVLCIVRVNSLEEAMQLINDHEYGNGTCIFTRDGEAARLFCDEIEVGMVGVNVPLPVPVAYHSFGGWKRSLFGDLHAYGPDGVRFYTRRKAITQRWPQRASHEASQFAFPSL	PGPT0002295_3367	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
D1-35_05038	609			hypothetical protein	ATGTCGGGTTCGATCCTTTATATCCATGGCTTCAACAGTGCCCCGGCGTCGACCAAGGCCTGTCAACTGACCGAAGTGATGACGCGCCTCGGGCTGGGGGACCAGTTGCGGGTGCCGGCCTTGCATCACCATCCGCGCGAGGCGATTGCTCAGTTGGAGCAGGCGATCACAGAACTGGGGCGGCCGCTGCTGGTCGGCAGCTCGCTCGGCGGCTACTATGCGACTCACTTGGCCGAGCGCCACGGCCTCAAGGCCCTGTTGGTCAATCCGGCGGTCAGCCCGCATCGGATGTTCGACGGTTATCTGGGCACGCAGAAGAATTTGTACACCGACGAGACCTGGGAATTGACCCACGACCACGTGACGGCCCTGGCCGAGCTGGAAGTGCCGGCGCCCCGGGATCCGCAGCGGTTTCAGGTATGGTTGCAAACCGGTGACGAAACGCTGGATTATCGCCACGCCCAGCAGTATTACCGTGCCTGCGCGTTGCGTATCCAGGCCGGCGGCGACCACAGTTTCCAAGGGTTTGCCCAGCAGTTGCCGGCGTTATTGAGTTTTGCCGGCATTGGCGCCGATTTGTACCAGGCGATCGACTTCACCTCACTGTGA	MSGSILYIHGFNSAPASTKACQLTEVMTRLGLGDQLRVPALHHHPREAIAQLEQAITELGRPLLVGSSLGGYYATHLAERHGLKALLVNPAVSPHRMFDGYLGTQKNLYTDETWELTHDHVTALAELEVPAPRDPQRFQVWLQTGDETLDYRHAQQYYRACALRIQAGGDHSFQGFAQQLPALLSFAGIGADLYQAIDFTSL				NA	NA	NA	NA	NA
D1-35_05039	1905	parE	COG0187	DNA topoisomerase 4 subunit B	ATGGCCACTCCCAGCGCTAGCTCCTATAACGCAGACGCCATCGAAGTCCTCTCGGGCCTCGACCCGGTGCGCAAGCGCCCCGGCATGTACACCGACACCAGTCGGCCGAATCACCTTGCCCAGGAAGTCATTGACAACAGCGTCGACGAAGCCTTGGCCGGGCACGCAAAGTCGGTGCAGGTCATCCTGCACGCCGATCATTCATTGGAAGTCAGCGATGACGGCCGCGGCATGCCAGTGGACATTCACCCTGAAGAGGGTGTGTCGGGCGTCGAGCTGATCCTCACCAAGCTCCACGCCGGCGGCAAGTTTTCCAACAAGAACTACCAGTTCTCCGGCGGCCTGCACGGGGTGGGTATCTCCGTGGTCAACGCCTTGTCGACCCAGGTGCGGGTGCGGGTCAAGCGTGACGGCAACGAATACCAGATGACCTTTGCTGACGGCTACAAGGCCACCGAGCTGGAAGTGGTCGGCACCGTCGGCAAGCGCAACACCGGCACCAGCGTGTATTTCGCGCCGGACCCGAAGTATTTCGATTCACCGAAGTTTTCCGTCACGCGCCTCAAGCACGTCCTCAAGGCCAAGGCGGTGTTGTGCCCGGGGCTGCTGGTGAGTTTCGAGGACAAGGCCACCGGCGAGAAGGTCGAATGGCACTACGAGGACGGCCTGCGCTCGTACCTGGTCGATGCGGTCAACGGTTTCGAGCGCCTGCCCAACGAGCCGTTCTGCGGCAGCCTGGCCGGGAACAAGGAAGCCGTGGATTGGGCGCTGCTATGGCTGCCCGAGGGCGGCGAAAGCGTCCAGGAGAGCTACGTCAACCTGATCCCCACCGCCCAAGGCGGCACCCACGTCAACGGCTTGCGCCAGGGTTTGCTCGATGCGATGCGCGAGTTCTGCGAATTCCGTAACCTGCTGCCTCGTGGCGTCAAGCTGGCGCCGGAAGACGTCTGGGAGCGCATCGCCTTCGTATTGTCGATGAAGATGCAGGAGCCGCAATTCTCCGGCCAGACCAAGGAGCGCCTGTCGTCCCGCGAGGCGGCTGCGTTTGTCTCCGGGGTGGTCAAGGATGCGTTCAGCCTGTGGCTCAATGCCAATCCGGAAACCGGCCTGGCCCTCGCCGAACTGGCGATCAACAACGCCGGCCGTCGCCTCAAGGCAAGCAAGAAGGTCGAGCGCAAGCGCATCACCCAGGGCCCGGCACTGCCGGGCAAGCTCGCCGATTGTGCCGGGCAGGACCCGATGCGCTCCGAGCTGTTCCTGGTGGAAGGTGACTCCGCCGGCGGCTCGGCCAAGCAGGCGCGGGACAAGGAGTTCCAGGCGATCCTGCCGCTGCGGGGCAAGATCCTCAACACTTGGGAAGTCGACGGCAGCGAAGTGCTGGCCAGTCAGGAAGTGCATAACATCGCGGTGGCCATCGGCGTCGATCCGGGCGCCGAGGACATGAGCCAGTTGCGTTACGGCAAGATCTGCATCCTCGCCGACGCCGACTCCGACGGCTTGCACATCGCCACCTTGCTCTGCGCCTTGTTCGTCCAGCATTTCCGCCCGCTGGTGGATGCCGGTCACGTCTACGTGGCGATGCCGCCGTTGTACCGTATCGACCTGGGCAAGGAGATCTACTACGCCCTGGATGAAGCCGAGCGCGACGGCATCCTTGATCGGCTGGTGGCCGAGAAAAAACGCGGCAAGCCGCAGGTCACCCGATTCAAAGGCCTGGGCGAGATGAACCCGCCGCAGTTGCGCGAAACCACCATGGACCCGAACACCCGTCGGCTGGTGCAGTTGACCCTGGATGATTTCGAAGCGACGTCGGAAATGATGGACATGTTGCTGGCGAAAAAACGCGCCGGCGACCGCAAGAACTGGCTTGAATCCAAGGGTGATCTGGCCGAGGTCCTGGCCTGA	MATPSASSYNADAIEVLSGLDPVRKRPGMYTDTSRPNHLAQEVIDNSVDEALAGHAKSVQVILHADHSLEVSDDGRGMPVDIHPEEGVSGVELILTKLHAGGKFSNKNYQFSGGLHGVGISVVNALSTQVRVRVKRDGNEYQMTFADGYKATELEVVGTVGKRNTGTSVYFAPDPKYFDSPKFSVTRLKHVLKAKAVLCPGLLVSFEDKATGEKVEWHYEDGLRSYLVDAVNGFERLPNEPFCGSLAGNKEAVDWALLWLPEGGESVQESYVNLIPTAQGGTHVNGLRQGLLDAMREFCEFRNLLPRGVKLAPEDVWERIAFVLSMKMQEPQFSGQTKERLSSREAAAFVSGVVKDAFSLWLNANPETGLALAELAINNAGRRLKASKKVERKRITQGPALPGKLADCAGQDPMRSELFLVEGDSAGGSAKQARDKEFQAILPLRGKILNTWEVDGSEVLASQEVHNIAVAIGVDPGAEDMSQLRYGKICILADADSDGLHIATLLCALFVQHFRPLVDAGHVYVAMPPLYRIDLGKEIYYALDEAERDGILDRLVAEKKRGKPQVTRFKGLGEMNPPQLRETTMDPNTRRLVQLTLDDFEATSEMMDMLLAKKRAGDRKNWLESKGDLAEVLA	PGPT0027710_1897	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
D1-35_05040	987			hypothetical protein	ATGCGCAACGGTTTCGCCCTGGCGTTGTTGCTGTGGGCGGGGGTGGTAGTCGCAGCGCCAGTGCCGGAACTGAAGTTGCTGTCCGAGCATGTCGTCGATGGCATGCGCGGCGGCAATCTGTCCGGGCTGGCCCTGTGTGGCAACGAGATGTGGACGGTATCCGATCGCGACGATGACCGGATTTACCGGCTTCAACCCTCCGATGCCCGGGCCTGGCAGGCCGAAGCTGTCGGTATCGAGGTGCCTGCCGTGCCGGAGAATGATTTGCCTTGGGGCCTGCAGTCGCGGACCTGGGCGGCATCGTTCGTGCGCGGTGGCGAACTGGACTACGAAGGCATCAGTTGCGACAGCGCCGGTCAGCGTTATGTGGTCAGTGAGTCCCACGCCGCCGTGCTGAGAATATCGCCGGCAGGCGAAGCAGCCTGGCTGAAAATCACCCCGACCATGCTCCGCCAGGCCCGGGGCAGCGGCATGCTGCTGCATTTTAATGCCCTGTTCGAAGGTGTGGCGGTCAACCCGGCTGGCGATCAGCTATGGCTGGCCGCCGAACGGGAGCGTCGTGGGCTGGTGTTGCTCAAGCGCCAGCAAACGGTGTGGGACTGCGACGGCAATTGCGTATTGTTGAGCGAAGCGGGGCAGGAGATGCAGCCGGCGCAGTTTCCCGAGGCCAAGGCGGTTTCCCGGGACTTCGCCGATCTGTCATTGTTCAACGGCAAGCTGTTTACCCTGGAGCGAAACGCCTATCAGATCTGCCGGCGTGACCCGCAGACCGCCAAGGTCGAGCGCTGCTGGTCGTTTGCGGGGGAGGCGTTGCAGGAAAATCGCCGTTATCCACAGCCCTTCGGCCTGGTCGAAGCGCTCATCGTCGACGCCGACGGCGCCTGGATCGGCGTGGACAACAACGACGGTGCGCGGGCTGACGGCGAGCAGCGGCCGGTTATCTGGCGCTTCGCCGCGCCCGAGGGTGGCTGGGGTGCCGCGCCATGA	MRNGFALALLLWAGVVVAAPVPELKLLSEHVVDGMRGGNLSGLALCGNEMWTVSDRDDDRIYRLQPSDARAWQAEAVGIEVPAVPENDLPWGLQSRTWAASFVRGGELDYEGISCDSAGQRYVVSESHAAVLRISPAGEAAWLKITPTMLRQARGSGMLLHFNALFEGVAVNPAGDQLWLAAERERRGLVLLKRQQTVWDCDGNCVLLSEAGQEMQPAQFPEAKAVSRDFADLSLFNGKLFTLERNAYQICRRDPQTAKVERCWSFAGEALQENRRYPQPFGLVEALIVDADGAWIGVDNNDGARADGEQRPVIWRFAAPEGGWGAAP				NA	NA	NA	NA	NA
D1-35_05041	522			hypothetical protein	ATGAGCCAGCAACCACCGGGCAAGCGCGCCGGCCGGGTACTGATGATCCTGGCCTGGTGCGCGGCACTGTTTCTGGCAACGCGGTTTTTTGCCCAGTGGGAGCAGCGAGAGCTCAACCCCAATGCCGAGGTGCATTCGCAGAAGGGCGAAGGTTTTATCGAAGTAAAGCTGATCGGCAACCGGCAGGGACATTTTGTCGCCAGCGGCCAGATCAACGGCCAGCCGGTGGATTTCATGCTCGATACCGGGGCCACCGACGTGGCGATCCCGCAGGAATTGGCCGAGCGCCTCAAGCTGGAAAAAGGTCTTGGCGTGAGGTTGAGCACCGCCAATGGTTTGAGCGAAGGCTACCGCACCCGTATCGACCGGCTGCAATTGGGTGACATCGTGTTGCGTGATGTCCGTGCCCTGGTGGCGCCAGGCCTGGAAGGCACGCAAGTGCTGCTGGGCATGAGCGCCCTGAACAAACTTGAATTTACCCAGCGCGACGGCACCATGCTGCTGCGCCAGACAACGAACTGA	MSQQPPGKRAGRVLMILAWCAALFLATRFFAQWEQRELNPNAEVHSQKGEGFIEVKLIGNRQGHFVASGQINGQPVDFMLDTGATDVAIPQELAERLKLEKGLGVRLSTANGLSEGYRTRIDRLQLGDIVLRDVRALVAPGLEGTQVLLGMSALNKLEFTQRDGTMLLRQTTN	PGPT0015885_910	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0015885-perP-K06985	NA	NA
D1-35_05042	2265	parC	COG0188	DNA topoisomerase 4 subunit A	ATGAGCGACATTCTTGCAGACAGCTTGGACGGCGTAGAACGCCGATCGCTGGCTGACTTCACCGAAAATGCCTACCTCAATTACTCCATGTACGTGATCATGGACCGCGCCTTGCCGCATATAGGCGACGGTCTGAAGCCGGTCCAACGGCGGATCATCTATGCCATGAGTGAGTTGGGGCTGGACGCCGATTCCAAGCACAAGAAGTCGGCGCGTACCGTCGGTGACGTGCTCGGCAAGTTTCACCCCCACGGCGACTCGGCCTGCTATGAAGCCATGGTGCTGATGGCCCAGCCGTTCAGCTATCGCTACACGCTGGTGGACGGGCAGGGTAACTGGGGTGCGCCGGACGATCCCAAGTCCTTCGCGGCCATGCGGTACACCGAGGCGCGCCTGTCACGCTATTCCGAAGTGCTGCTCAGCGAGCTGGGCCAAGGCACCGCGGACTGGGGGCCGAACTTTGACGGCACCCTCGATGAACCCCTGGTGTTGCCGGCACGTTTGCCGAACATCCTGCTCAATGGCACCACCGGCATTGCCGTGGGCATGGCCACCGACGTGCCGCCGCACAACCTGCGGGAAGTCGCCACAGCGTGCGTGCGCTTGTTGGACGAGCCGAAAGCCACGGTGGAACAGCTCTGCGAACATATCCAGGGCCCGGACTATCCGACCGAAGCGGAAATCATCACGCCGCGTGCCGATCTGCTGAAAATCTATGAGACCGGTCGCGGTTCGGTGCGCATGCGCGCCGTCTATCACGTTGAAGACGGTGACATTATCGTCACCGCGCTGCCGCATCAGGTTTCCGGGGCAAAAGTCCTTGAGCAGATTGCTGCGATGATGCAGGCAAAACCGTCGAAAGCGCCGCAGGTTGCTGACTTGCGCGACGAATCCGACCACGAGAATCCCTGCCGCATCGTGATCATTCCGGTGAACAGCCGGGTCGATCACGACGCGCTGATGCAGCACTTGTTCGCCAGCACCGATCTGGAATCCAGCTATCGGGTGAACATCAACATCATCGGCCTGGACGGCAAGCCGCAGCTGAAAAACCTGCGGGCATTGCTCGTGGAGTGGCTCGAATTCCGGGTCAAGACGGTGCGTCGGCGCCTGCAATTTCGCCTGGACAAGGTCGAGCGTCGCCTGCATCTGTTGGACGGCTTGCTGATTGCCTACCTCAACCTCGATGAAGTGATCCACATCATCCGCACCGAGGAGCATCCCAAGGCCAGCCTGATCGAGCGCTTCGCCCTCAGTGAAATCCAGGCCGACTACATCCTCGACACGCGCCTGCGCCAACTGGCACGCCTGGAAGAAATGAAGCTGCGTGCCGAGCAGGATGAATTGCTCAAGGAACAGGCCAAGCTGCAAGCCTTGCTGGGCAGCGAAGCCAAACTGAAGAAACTGGTACGCACCGAGTTGCTCAAGGACGCCGAAACCTACGGCGATGACCGTCGTTCGCCGATTGTCGAGCGTGCCGAGGCCAAGGCCTTGAGCGAGCACGACCTGTTGCCGAACGAGAAAGTCACCGTTGTACTGTCGGAAAAAGGCTGGGTGCGCTCCGCCAAGGGCCATGACATCGACGCTGCCGGGCTTTCCTACAAGGCCGGGGACGGCTTCAAGGCCTTGGCGCCGGGGCGCTCGAACCAGTTCGCAGTGTTCATCGACTCTACCGGGCGCAGCTATTCGGTGCCGGCCCACACCTTGCCATCGGCGCGTGGCCAGGGTGAACCGCTGACCGGACGATTAACACCTCCGCCGGGTGCAACTTTTGAATGTGTGCTGATGCCTGATGATGACGGGCTGTACGTTATCGCGTCGGACGCCGGCTACGGGTTCGTCGTCAAGGGTGAAGACCTGCAAGCCAAGAACAAGGCGGGCAAGGCGTTGTTGAGCCTGCCGAACAACGCCAAGGTCATTGCCCCGCGCCCGGTCAGCGATCGCGATAACAACTGGCTGGCTTCGGTGACGACCGAAGGTCGGTTGCTGGTCTTCAAGATCAGCGACCTGCCACAGCTTGGGAAAGGCAAAGGCAACAAGATCATCGGGATTCCTGGCGAACGGGTGGCGAGTCGCGAGGAATTTGTCACGGATATTGCAGTGTTACCTGAAGGTGCCACGCTTGTGCTGCAGGCTGGAAAGCGTACGCTTTCACTGAAAGCGGACGATCTTGAGCATTACAAAGGTGAACGCGGTCGGCGGGGCAACAAGCTTCCAAGGGGTTTTCAACGGGTGGATGCACTGCTCGTCGAAAACCTCAATTGA	MSDILADSLDGVERRSLADFTENAYLNYSMYVIMDRALPHIGDGLKPVQRRIIYAMSELGLDADSKHKKSARTVGDVLGKFHPHGDSACYEAMVLMAQPFSYRYTLVDGQGNWGAPDDPKSFAAMRYTEARLSRYSEVLLSELGQGTADWGPNFDGTLDEPLVLPARLPNILLNGTTGIAVGMATDVPPHNLREVATACVRLLDEPKATVEQLCEHIQGPDYPTEAEIITPRADLLKIYETGRGSVRMRAVYHVEDGDIIVTALPHQVSGAKVLEQIAAMMQAKPSKAPQVADLRDESDHENPCRIVIIPVNSRVDHDALMQHLFASTDLESSYRVNINIIGLDGKPQLKNLRALLVEWLEFRVKTVRRRLQFRLDKVERRLHLLDGLLIAYLNLDEVIHIIRTEEHPKASLIERFALSEIQADYILDTRLRQLARLEEMKLRAEQDELLKEQAKLQALLGSEAKLKKLVRTELLKDAETYGDDRRSPIVERAEAKALSEHDLLPNEKVTVVLSEKGWVRSAKGHDIDAAGLSYKAGDGFKALAPGRSNQFAVFIDSTGRSYSVPAHTLPSARGQGEPLTGRLTPPPGATFECVLMPDDDGLYVIASDAGYGFVVKGEDLQAKNKAGKALLSLPNNAKVIAPRPVSDRDNNWLASVTTEGRLLVFKISDLPQLGKGKGNKIIGIPGERVASREEFVTDIAVLPEGATLVLQAGKRTLSLKADDLEHYKGERGRRGNKLPRGFQRVDALLVENLN	PGPT0027705_2195	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
D1-35_05043	705			hypothetical protein	ATGACTGCTCTGCGCCTACCTATTTTGTGGCTCGCCGGCCTGCTTGGCCTGGCGGGTTGCAGCATGCACCAGCCGGTGTCGCTGTATCAGTTGGACAGCGGTACCCCGGCCCAGCCTGCGCAAAGCACAGGCATGGCGGTTTTGCTGGGCCCTGTATTGATTGCCGACTACCTGCAACGCGAAACTCTCCTGCAACGCCAACCGGACGGCAGCTTGCAAGCCGCCACGGACGGTCGTTGGGCCGGCAGCCTGTCCTCGGACATCGACCAGCTGCTGCTGCGCCAGGTCGCCGGTCACCTGGACAGTCAGCGCGTGGTGCTGGCGCCGGCTACCCAAGGCTTCACCCCGGATGTGCAGGTCCTGCTGTCGATTACCCGCCTGGACTCGGGTGAATCACAACCGGCGGTACTCGATGCCCAATGGCGGTTGATTGACCGTCGCGGCAAGGTGCGTGAGAACCGCATCGTTCATCTGCAAGAGCAACACGCCGGCACCACGGCGGCGCAGGTTCAGGCCCAGGGTGTGCTGCTGCAACGACTGGCCGAACAGTTGTCCGTCTCGCTCAAGCCGCTGGCCAACCAGCCTCCTATCGCTGAAGTTCCACGCAAGCCCGCTCCCGCCCCGGCCAAGCCGGCAGGAAAGGAAAAGGACAAGATTCCGATGGCCCTGCCGATTCGGACGGACATGGAAGTGTTCCGGTTCTGA	MTALRLPILWLAGLLGLAGCSMHQPVSLYQLDSGTPAQPAQSTGMAVLLGPVLIADYLQRETLLQRQPDGSLQAATDGRWAGSLSSDIDQLLLRQVAGHLDSQRVVLAPATQGFTPDVQVLLSITRLDSGESQPAVLDAQWRLIDRRGKVRENRIVHLQEQHAGTTAAQVQAQGVLLQRLAEQLSVSLKPLANQPPIAEVPRKPAPAPAKPAGKEKDKIPMALPIRTDMEVFRF				NA	NA	NA	NA	NA
D1-35_05044	1518			hypothetical protein	GTGAACCGGCCCACGCCAGTCAAAACCGACAATTTCTTCCTGCTGATCTTCCGAGCATTGCGCCATCGCCGCGTGCCGATCGCATTGCGCATTGCCAGCCATAACGTGATCCTGGTCGCCTTGGCCCTGGTCATCTATGCCTGCGTGATGGGCCTGCAATTCAAGCAGGCCATGCACGAGCAGGCGGATGCCCTGGGCGAGAGCCTGACCACCCAGACCGCCACGTCCGCCACCGAGCTGCTGGTGTCCAACGACATCCTCAGTCTCAATGTGCTGCTCAACAACCTGACCAAGAACAAGCTGGTGGCCCACGCCGCCATCTACAGCGTGGACAACCGCATCCTCGCCGAGGCCGGCCAGCGTCCCAAGCCAGGCTTGCTCGGCGAAACCGGCGGCATGTACCAGAGCAAGATCACCTTCCAGGACGTGACCGCCGGCCAACTACGCATCAGCCTGGACATGGACCAGTTCCAGCAACCCATGACCATCAGCCTGCAAAGCATGGGCATCCTCAGCGCGATCCTGCTGGCATTGGCCCTGGCGTTGAGCTTGCGCCTGGGGCGGCATATATCCACGCCGCTGTTGCAGTTGCGCGTCTGGCTGCGAGACATCGACGAACACACGCCAGCCACCCAGCGCCAGGATGAAATCGGCGACCTGGCCCGGCAGCTGCACGCCAGCTTCGCGCCGGAGCCGGAACCCGTGCCGGAACCTGAAGACATCGACTACGTTGACGAGGACGATGCGGAGCCGGGCTTCGAAGTGCGCAACCCGCGCGACCCGGGGTTCGACGAAAGCGCGCCGCTGCCCGCTGCCCGCCCCGCGCCGCGACATGTGGTGCGCACTGTCGAAGACGACGATGACGACGAGGCCTTTGCCGATTTGCGCGACGATTCGATCGGCGCCGAACCACAACCGCTTGCCCGCCCTGTCGCCTCGAACCAGCCCCAGCACAGCGCCGTACTGGCCGTGCAACTGGGTGCCCAGGACCAACTGCGGCGCCTGCCCCAGGCTCGCCTGAAAGAACTGCTCGAACGCTATCGCGACTGCCTCGACCAGGCCGCATCGCTTTATCAGGGCGAACTGCACACCCTGAACGACGGCAGCACGCTGATGCTGTTCCACACCGAGGACAGCGGCGACGACTACCTGACCAACGCCATCTGCTGCGGCGAATTGCTGCGGGCGCTGGGTCATCAATTGCAGATCGAAGTCGCCGACAGCGGCATCACTCTGCAATTGCAACTGGGCCTGACCTTGGGCGATGGCTTGTTCGGCCTGAGCCAGATCGACCTGCTGCTGACCGAAACCGCCCAGGACGCCCTGGCCCTTTCCCAACACAGCCGCAACCTGCTGCTGGTGGAACGCAAGATAAATGACGACGCGCTGATCCGCCAACGCGCACGCATCCGTCCGATCGCCAGCCCCGAGGGCGCCTGCTGTGTGGAACGACTGATGGAGCCTTATCCGTCGATGCTGGAACGGCAACTGGCGCGGATGCATGAGCGCCAGGCCTGA	MNRPTPVKTDNFFLLIFRALRHRRVPIALRIASHNVILVALALVIYACVMGLQFKQAMHEQADALGESLTTQTATSATELLVSNDILSLNVLLNNLTKNKLVAHAAIYSVDNRILAEAGQRPKPGLLGETGGMYQSKITFQDVTAGQLRISLDMDQFQQPMTISLQSMGILSAILLALALALSLRLGRHISTPLLQLRVWLRDIDEHTPATQRQDEIGDLARQLHASFAPEPEPVPEPEDIDYVDEDDAEPGFEVRNPRDPGFDESAPLPAARPAPRHVVRTVEDDDDDEAFADLRDDSIGAEPQPLARPVASNQPQHSAVLAVQLGAQDQLRRLPQARLKELLERYRDCLDQAASLYQGELHTLNDGSTLMLFHTEDSGDDYLTNAICCGELLRALGHQLQIEVADSGITLQLQLGLTLGDGLFGLSQIDLLLTETAQDALALSQHSRNLLLVERKINDDALIRQRARIRPIASPEGACCVERLMEPYPSMLERQLARMHERQA	PGPT0023715_9	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-MEMBRANE_DAMAGING,PGPT0023715-smp|ytjB|aphA-K07186	NA	NA
D1-35_05045	1215	serB2	COG0560	Phosphoserine phosphatase SerB2	TTGCGTGAAATCGTCCTGATAAACATCACTGGCAGCGACCGTCCGGGTCTGACTGCGGCCATTACCGGCGTTCTGGCCCAGGGTGGTGTGAACATTCTCGATATCGGTCAGGCGGTGATCCACGACACGCTGTCGTTTGGCATCCTGGTTGAAATCCCGGACGCCGAACACAGCAAATCGGTGCTCAAGGACATCTTGTTCACCGCATACAAGCTTGATCAGCAGGTGCGTTTCACCCCGGTTTCCGAGGAAGATTACCAACAGTGGGTGGCTGGCCAGGGCAAGAAACGCCATATCGTGACGCTGTTGACCCGCAAGGTGACCGCCGAGCAATTGCAGCGTGTCAGTTCGATCACTGCCCAATACGGCTTGAACATCGACCATATCGACCGACTGTCCGGGCGCATGCCGCTGGATACTCCGGCCGATCAAGGCAAGGGCTGCATCGAGTTTTCCGTGCGCGGCGAACCCGCCGATCCCCAGGCTTTGCGCGCCGAGTTCCTCAGCGTGGCGCAAGAGCTGAACGTTGACATCGCCTTCCAGGAGGATTCGCTGTTTCGCCGCAACCGTCGCCTGGCGGTGTTCGACATGGACTCGACGTTGATCGAAGCCGAGGTCATCGATGAGTTGGCCAAGGCTGCCGGCGTCGGCGACAAGGTGTCGGCGATTACCGAGCGGGCGATGGCCGGCGAGCTGGATTTCCGCGCCAGCTTCAAGGAGCGCCTGGCGTTGCTCAAAGGCCTGGATGTCAATGTGCTCGACTCGATCGGTGCCTCGTTGCGCCTGACCGAAGGCGCCGAAACCTTGTTCGCCGAGCTCAAGCGCCTGGGTTACAAGACCGCCATCCTGTCCGGCGGCTTCACTTATTTTGCCAAACAGCTGCAGGCCAGACTCGGCATCGACTACGTGTTCGCCAACGAACTGGAAGTGGTGGATGGCAAGGTCACCGGCGTGGCTGTCGAGCCGATCGTCGATGCCCAGCGCAAGGCGGACTTGCTGCGTGAGCTGGCCGCGAAAGAAGGCCTTCGACTGGAGCAGACCATCGCGGTCGGTGACGGCGCCAACGACTTGCCGATGCTTGCGATCGCCGGGCTGGGCGTGGCGTTCCGGGCCAAACCGCTGGTCAAGCAATCAGCCAGGCAGGCCATCTCGACCCTGGGGCTGGATGGGGTGCTGTATTTGCTGGGCTTCAGGGATCGCGACGGGCAGGTTTAG	MREIVLINITGSDRPGLTAAITGVLAQGGVNILDIGQAVIHDTLSFGILVEIPDAEHSKSVLKDILFTAYKLDQQVRFTPVSEEDYQQWVAGQGKKRHIVTLLTRKVTAEQLQRVSSITAQYGLNIDHIDRLSGRMPLDTPADQGKGCIEFSVRGEPADPQALRAEFLSVAQELNVDIAFQEDSLFRRNRRLAVFDMDSTLIEAEVIDELAKAAGVGDKVSAITERAMAGELDFRASFKERLALLKGLDVNVLDSIGASLRLTEGAETLFAELKRLGYKTAILSGGFTYFAKQLQARLGIDYVFANELEVVDGKVTGVAVEPIVDAQRKADLLRELAAKEGLRLEQTIAVGDGANDLPMLAIAGLGVAFRAKPLVKQSARQAISTLGLDGVLYLLGFRDRDGQV				NA	NA	NA	NA	NA
D1-35_05046	1761	fimW		Cyclic-di-GMP receptor FimW	ATGAATGAGACCAGCCCTCTCCAGTTACTGCGCGTCTCGACACCGACCCAGTCGCGCCTGTCCTTCTGCGATGCCACGCCACGCGACCTCAAGCGCTGGATCGGCAACCTGCCCAAGGCCAACATCGGTGAAACCGCGCGCCTGCTGTACCAGGTCCTCGGTGAACTGAACCAGTTGCTCACCCCGAGTGAAAACCGCCTGCAACTGCTCGAACTGTTGCGGCCCGAGGTTTATTACGTCTGCAAGCACCTGGAGCGACATTTCCTGCAACAGGCCATCGTGCTGGACGAGCGCTCGCGCAAGATCGTCAACCTGAGCCAGGCCCTGCAGACTCATTTGGCGATGGGATACAAACAAATCGTCGCGCGCATCTCGCCAAAATTCACCAAGGACCGGGCGCGCCTGCTGGCGACAGCGCTGCAACGGGCGATACATGCCCTCGACGGCACGCTGTTGCGAGCCAGCCAGCTATACAGCCCCGTGCCTGAAGGTTTATGGCTCGATTTGCACCAGCTGTACCGGATCGCCTGCCAGCACCGATTGCAGCACCTCAGCGTTGGCGATGAGCTGGCCAGCCAGGTCCCTCAATTGAATGCCGAGCAGACCTACGTCGTCGCCCTGCTGCTGGGCGCTTCGCGCAGCAACCAGTTACGCCAGAGCCAGATCGCCCGGCTGGCCGAAGTGCTGGAGCCGTGGAGTCAGAGCGTCAAGCTCGACCCGGCCGTCACCGCCGCTAGCCTGTTTGCGGTCGCACCGCAACTGGATGTAGGGCCGCGCTATCGCTCCAAATTTCGCGCCGAACAGCAACCGAGCCTGCAGGGGTTCGATCCCCAGCCCCTGGTGCGTGCCATCAGCGCTCACCTGGCGCAACCTGGCGACTCGTCCCTGGCGGTACCTGCCGGCATGAGTGCCGATACCTTGCATCATCTGCAAGCGGCCTGGGGCGAAGCCGCCGAACGCAGCTTCCAACGCACCGAAGGCAACGGCACGCTGACCCTGTGCGTGGGCATGAGCGCGCTGCACTATTACCTTGGGGGCGAACGTTCCTTCAGCGAAATCCTGAAGAACCCGGCCATGCGCAAGGCCCGATTCGAGGCCTCGCCGACCAAAACCAACGACACCTGGAACCAGGCGTTCGACGCCGCGCCAGCTGGCGACAGCGACCTCTTGCCCTACGAGGAAATCGAGTATCCGGTCAACCCGGCCGATGACGACGGCGCCAGTTCCGACAACCAGCATCATTTCCCGACCTTTGAGCTGCCGATCATCAATCACAGCCCGGGTGGGTACTGCCTAGGCTGGCCGAAGGAAGTGCCGGAGCAATTGCAGGCCGGGGAGATGGTCGGGATTCGTGACACCAGCGACCAGGCCTGGAGTATCGCCGTGGTCCGCTGGATCCGGCAGGTGCGCAACGGTGCGATGCAAATGGGCATTGAACTGGTAGCTCCCCATGCCCAGCCTTGCGGCGTGCAATTGGCGCGCGAGCAGAACGAGCAAGGCCACTACTTGCGGGGGTTGCTGCTGCCGGAAATCAGCGCGATCGACCTGCCGCCCACGATGATCGCTCCGCGCCTGCCCTTCCAGGAAGGCCAGCGAGTGTTGATCAATACCAACGGACAGGAAAGACGAGCCTCGCTGGATCGGCGCGTGACCAGCACCCACAGCTTCAATCAGTTTGCTTATCACCCCGAAGACTCAGGCACCGGCGGGGATGGCAGTGACAAGGAAGGCGATTTTGATTCGCTGTGGAAGTCACTCTAG	MNETSPLQLLRVSTPTQSRLSFCDATPRDLKRWIGNLPKANIGETARLLYQVLGELNQLLTPSENRLQLLELLRPEVYYVCKHLERHFLQQAIVLDERSRKIVNLSQALQTHLAMGYKQIVARISPKFTKDRARLLATALQRAIHALDGTLLRASQLYSPVPEGLWLDLHQLYRIACQHRLQHLSVGDELASQVPQLNAEQTYVVALLLGASRSNQLRQSQIARLAEVLEPWSQSVKLDPAVTAASLFAVAPQLDVGPRYRSKFRAEQQPSLQGFDPQPLVRAISAHLAQPGDSSLAVPAGMSADTLHHLQAAWGEAAERSFQRTEGNGTLTLCVGMSALHYYLGGERSFSEILKNPAMRKARFEASPTKTNDTWNQAFDAAPAGDSDLLPYEEIEYPVNPADDDGASSDNQHHFPTFELPIINHSPGGYCLGWPKEVPEQLQAGEMVGIRDTSDQAWSIAVVRWIRQVRNGAMQMGIELVAPHAQPCGVQLAREQNEQGHYLRGLLLPEISAIDLPPTMIAPRLPFQEGQRVLINTNGQERRASLDRRVTSTHSFNQFAYHPEDSGTGGDGSDKEGDFDSLWKSL	PGPT0016080_120	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0016080-fimW-K23127	NA	NA
D1-35_05047	579			hypothetical protein	ATGCTCATTGATATTTTCCGATCAGCCAAACGCTACTGGCATATCGAAATTCTTGGTGGCCTGGACAAACCGTTCAGATGGCGCCGGCTTTACCAGAAGTGCCAGCGCATCAACCGGTACCGCTATCTGTTCTGGTTTCGCCTGGCCTACGCCATGCATCAGCAGGACAGCAAGTTCTGGAGACGGCGCGGCAAACTGCTGAACGAGCGAATCAGTCGCCAGTTCAATGTGGAGATCATGCTCGGCGCCACCATTGGAGAAGGGCTTTGGATCGCGCACCCGAATGGAATCGTTATCACCTCGCACGCCGTTATCGGCAAAGACTTCAAGATCTGGCAGAACTGCACGCTGGGCATCAAGGGCCAAAGCGAGGCTGCGCTCTTGCGTATCGGTGACGGCGTCAGGGTACACGCCCATGCCTGCATCATTTCAGACGATTTGGAGCTGGGCGACAACGTGATCGTCGGCGCTGGCGCCTTCGTCAACAAAAGTATCCCGGCCAACCACTTGTATATCACCCGCAGCGTCGGCGAAATGAAAGCCTACGATCCCCAGTCAATGGGCCGTCTGCAAAGCTAG	MLIDIFRSAKRYWHIEILGGLDKPFRWRRLYQKCQRINRYRYLFWFRLAYAMHQQDSKFWRRRGKLLNERISRQFNVEIMLGATIGEGLWIAHPNGIVITSHAVIGKDFKIWQNCTLGIKGQSEAALLRIGDGVRVHAHACIISDDLELGDNVIVGAGAFVNKSIPANHLYITRSVGEMKAYDPQSMGRLQS	PGPT0020265_5121	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
D1-35_05048	1221			hypothetical protein	ATGACACGTTCGGTTTTTACCAGATACACCGTGCTAGTTCTGATGATCGGATTCACCGTACACCTGACAGGGCTACTCTTCATCACTGACGGCAGTAGCTACACGACGATTTCCAACCTGAGCCTGTTCCTGCCTGCATTGCTCTTGTGCATTGTCGACGCACGCCTGCGCCAAAGCCTGATGCAGAAACGCTATTGGCCGGTCCTGCTGATGCTGGCCTTCTCATTGCTGATCGCATTCCTGAACCCCGGCTCATCGACATCCGCCTTCTCGCAGTTCAAAACCGTGCTCTACGTGACCTTGTATCTCGGCACTGTGCATATACTGGCTCGAGAGGGGCTGCTTGAAAAAAGCCTCACGTTTGCCTTCGCCGTGGCAGGACTCTTTGCAATCGCAGGCCTGCTGATTCATTTCGTACAGCAAGACCAGAACATCTTTTTCATGGGCGGACGCTTGTTCAACCTGGGATATGGCGACTACGCGAATTTCAAGAACCCGATCATCGCTGCGCTGTACTACGGTTTTTTTGGCATCTACGGGTTCCACCTCCTGCTGACCAAACCCTGCGGGCCATGGCTCAGGGTCTTCTACATGGCGTGCGTGGCAGGTCTGTCGCTGTACCTGTTCTGCACCCTTTCAAGGGCCGTCTGGCTTGGGTATGGCCTGGCCATCTGCACCAGCGTGGTGTTCCAACACACACCACGAACAAGAAAATGGCTGTACCTCACAGGTGCTCTTTTTCTTGTGGCAGTTGCATGGTTATGGCCAGTCATCGTCGATCAGCAAAGTCGTGGATTCAGCCTTCGCGACCTGATCTGGGCTGGCTGGCTGAGCCGCATCGAAGAGTTCTGGCTATTCGGGGCCGGCGCGGGGAGCAATTTTGACATCTGCGTTTTGGAAACCCAATGCTACAACCAGGTGCACAACCTGTTCCTGCAGTTCTTTTATGAGTTCGGGGTCGTCGGGGCGGCGCTGCTGCTACTGGCCGTTTTCCATGTTTTCATCTGCGCCGTTGACAGAAAAACCTGGATAAACCCTATAGGCTCGGCGGGTTTTCCTCTGCTTATCTTCGCAATAGTGACGGCCATGTTCGACTACCACACGGTATTCAACAGGCCCGGGGTCTATTGGATCGTCTTCTGGCTTCCTGTCGGGATCATTCTTTCCCAGCGTTTTTTACCAGGCCCTGCGTCTTGCAAAGAGGCTGTCGATGCTCATTGA	MTRSVFTRYTVLVLMIGFTVHLTGLLFITDGSSYTTISNLSLFLPALLLCIVDARLRQSLMQKRYWPVLLMLAFSLLIAFLNPGSSTSAFSQFKTVLYVTLYLGTVHILAREGLLEKSLTFAFAVAGLFAIAGLLIHFVQQDQNIFFMGGRLFNLGYGDYANFKNPIIAALYYGFFGIYGFHLLLTKPCGPWLRVFYMACVAGLSLYLFCTLSRAVWLGYGLAICTSVVFQHTPRTRKWLYLTGALFLVAVAWLWPVIVDQQSRGFSLRDLIWAGWLSRIEEFWLFGAGAGSNFDICVLETQCYNQVHNLFLQFFYEFGVVGAALLLLAVFHVFICAVDRKTWINPIGSAGFPLLIFAIVTAMFDYHTVFNRPGVYWIVFWLPVGIILSQRFLPGPASCKEAVDAH				NA	NA	NA	NA	NA
D1-35_05049	861	psd	COG0688	Phosphatidylserine decarboxylase proenzyme	ATGAAGAACCGCTTGTTCATCCTTTCCCAATACCTGCTGCCGCACCACTTGCTGTCGCGCCTCGCCGGCTGCATTGCCGAATGCCGCGTGCGCTGGTTCAAGAACGCCTTTACGGCCTGGTTCGCCAAGCGCTACCAGGTGGATATGTCCCAGGCCCTGGTGGAAGACCTGAGCGCCTACGAGCACTTCAACGCCTTCTTCACCCGCGCGCTGAAAGACGGTGCCCGCCCTCTGGATCAAACCCCAGGCGCGATTCTGAGCCCCGCCGACGGCGCCGTCAGCCAGCTCGGCCCGATCGAGCATGGCCGCGTGTTCCAGGCCAAGGGCCACAGCTTCAGCGTGCTGGAACTGCTCGGCGGCGATGCGGCCAACGCAGCGCCATTCATGGGCGGCGACTTCGCAACGATTTACCTGTCGCCCAAGGATTACCACCGCGTGCACATGCCGTTGGCCGGCACGCTGCGGGAAATGGTCTACATCCCGGGGCGCATTTTCTCGGTCAACCAGACCACTGCCGAGAACGTTCCGGAGCTGTTCGCCCGCAACGAACGCGTAGCGTGCATTTTCGACACCGAACGCGGGCCGATGGCCGTGGTGCTGGTGGGTGCAATGATCGTGGCGTCCATCGAGACGGTCTGGGCCGGCCTGGTGACACCGCCCAAGCGCGAACTCAAGACCTTCCGTTATGACGAAGCCGCCCGTGCGCCGATTCACCTGGAGAAGGGTGCCGAGCTGGGCCGTTTCAAACTGGGTTCGACCGCTATCGTGCTGTTCGGGCCGGATCAAGTGAAGTGGACCGAAGACCTGGTAGCCGGCTCGCCGGTGCAGATGGGTCAAGGACTGGCATTACCCAAGGCTTGA	MKNRLFILSQYLLPHHLLSRLAGCIAECRVRWFKNAFTAWFAKRYQVDMSQALVEDLSAYEHFNAFFTRALKDGARPLDQTPGAILSPADGAVSQLGPIEHGRVFQAKGHSFSVLELLGGDAANAAPFMGGDFATIYLSPKDYHRVHMPLAGTLREMVYIPGRIFSVNQTTAENVPELFARNERVACIFDTERGPMAVVLVGAMIVASIETVWAGLVTPPKRELKTFRYDEAARAPIHLEKGAELGRFKLGSTAIVLFGPDQVKWTEDLVAGSPVQMGQGLALPKA	PGPT0007700_2317	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DECARBOXYLASE_ACTIVITY,PGPT0007700-psd|PISD-K01613	NA	NA
D1-35_05050	816	rhdA	COG2897	Thiosulfate sulfurtransferase	ATGCCTGACTTCTCTGGCTTGCCGCTGGTAATCGAACCGAGCGAACTGCGGCCGCGCCTCGATGCTCCCGAGCTGATTCTGGTGGACCTCACCAGCGCGGCCCGCTACAGCAACGGGCACATCCCCGGCGCGCGTTTCGTCGATCCCAAGCGCACGCAACTGGGTCAGCCTCCGGCCCCAGGCCTGTTGCCGGCAAAAGCCGACCTTGAGGTGCTGTTCGGCGAACTCGGACACAACCCCAACGCCGTCTACGTGGTGTATGACGATGAAGGCGGTGGTTGGGCCGGGCGCTTCATCTGGCTGTTGGACGTGATCGGTCATTCGAATTATCACTACCTCGACGGTGGCTTGCTGTCCTGGCTGGATGAGGGCCTGCCGGTGTCCACTGAAATGCCCGCGCCCGGCGCAGGCCCGGTGAGCCTTGTGCTGCACGACGAACCCACTGCCACCCGCGAATACCTGCAAGGCCGTCTCGGCGCTGCCGACCTGGCCATCTGGGATGCACGCGGCCCGCTGGAGTACTCCGGCGAAAAAGTCGTCGCGGCCAGGGGCGGCCATATTCCCGGCGCGGTGAACTTCGAATGGACCGCCGGCATGGACCCGACGCGCAACCTGCGCATTCGCAAGGACATGCCCGAGATCCTCGAACAGTTGGGTATTACACCCGACAAGGAAATCGTTACCCACTGCCAGACTCATCACCGCTCTGGCTTCACCTATCTGGTGGCCAAGGCGCTCGGTTATCCGCGAGTCAAAGGCTATGCCGGTTCCTGGGGCGAATGGGGCAACCACCCTGACACCCCGATCGAGCTTTGA	MPDFSGLPLVIEPSELRPRLDAPELILVDLTSAARYSNGHIPGARFVDPKRTQLGQPPAPGLLPAKADLEVLFGELGHNPNAVYVVYDDEGGGWAGRFIWLLDVIGHSNYHYLDGGLLSWLDEGLPVSTEMPAPGAGPVSLVLHDEPTATREYLQGRLGAADLAIWDARGPLEYSGEKVVAARGGHIPGAVNFEWTAGMDPTRNLRIRKDMPEILEQLGITPDKEIVTHCQTHHRSGFTYLVAKALGYPRVKGYAGSWGEWGNHPDTPIEL	PGPT0002045_5302	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0002045-sseA-K01011	NA	NA
D1-35_05051	1539			hypothetical protein	ATGGCTAACGAAACGAACGTCCCAACTCCAAGACCGACCACCCTCGAAGGCTGGGTAAAGCTGCTCGAGGGCGTGCACCTGCCGGTGCCCCAGGCCAGCCACGACCTGGTCTGCAAGGCGATTGGCGACAGTCGCCGCTCGCTGCGTGACATCGCCGAATTGATGCAGGACAGCCCCGCGCTGGCCCTGAGTGTCATTCGCGAAGCCAACCACCACACGCACGGTACCCTGGCGGAACCGGCGGAAAACCTTGAGGTGGCCATCAACCGCCTCGGCCTCAAGCGCACCGAAGAACTGCTTGCTCGCCTGCCCTCACTGCCGGGGCAGCAGATTCCCTTGGCCCTGCGCCAGTTGCAATTGATCAGCCAGCACGCCACGCAACAGGCCAACGGTTTTTTTGCCAGCCGCCTGGCGCGGCTGTGGCAAGACATCCATTGGGGCAGCCTGCTGTTCCTGTCACCGCTCTGGCCGCTGGCCCTGACTCATCCACGACTGCTCGGGGAATGGGAGCTGCGCGTCGTTCATAAAGGCCAGCCAGCCGGCGAAGTGGAGCGTGAACTGTTCGGCGTCAGCCTGCTGAAAATCTGCCTGGCATTGGTGGAGACCTGGCGCCTGCCGATCTGGGTAGCGCAGGGCTATCGCCTGCTGCTCAACGAGCGTCGCGAACTGGTCAAAGTGCTGCGCATTGCGCGCGACAGTGAGCATCCACTGCGCCAACAGAATCGCCTGGACGACGACCCGACCCTGCGGCGCTGGCTCAATCAGCCAGCCAACACCGTGCTGCTGGCCAACGGCCTGGCACTTTCGGCACAGCAGGCGTGGGACAGCCCGCACAGTGCCCGCTGGCAATACCTCACCAGCCTGTATCTGCAGATGCCGATGGACGACATTCAGCAACAGCTTCACCAACAGGCCGCCAACAGCGCGCGTCAGCACGCCATGCCGGACCTCTGGCATCCCGCCGTGGCGCTGATCTGGCCGCCGGGCAGCAAGCGGGTCCACCCAGGTTTGCTGCCCGCCGCCCCGCCCAGCGCCCAGGACCTGAGCCAATGGCGCAAACAATGCGCCGCGTTGCTGGTGGAGCCGAGCCCGTTCCGCAACGCCATGCACCTGACCACCTCGGCACGGGATGCGCTAGCGGCATGTGGCATGCGCCGGGTCATGATCTTGATGGCCGACCGCAGCCAGACCAGCGTGCGCGTGCATCAGATTGCCGGTTTGCCCAAGGAAGCGGCGGCCATGAGCTTCTCCATCAGCCAAAGCAAAATCCTGCAACGATTACTTGCCCAGCAGGCCCAGGTTCGCCTGACCCCGCAAAACAACGCCCAATATTCGGCATTGCTGCCAGCGGGCCTGCGCAGCCTGTTTCGCGGCGAACACTTGCTGCTGCGCTCTCTGACCTGTAACGGTCGAGTGATTATGCTGGTGGTGGTAGACCAGGGCGGCGGACCGTTTTCGGATGTGACGGTACAAGCTTTCGGTAAAACCGTACAGTGCATCGAGCGCGCCCTGCACAGCTTCACCAACCGCGGCCGCTGA	MANETNVPTPRPTTLEGWVKLLEGVHLPVPQASHDLVCKAIGDSRRSLRDIAELMQDSPALALSVIREANHHTHGTLAEPAENLEVAINRLGLKRTEELLARLPSLPGQQIPLALRQLQLISQHATQQANGFFASRLARLWQDIHWGSLLFLSPLWPLALTHPRLLGEWELRVVHKGQPAGEVERELFGVSLLKICLALVETWRLPIWVAQGYRLLLNERRELVKVLRIARDSEHPLRQQNRLDDDPTLRRWLNQPANTVLLANGLALSAQQAWDSPHSARWQYLTSLYLQMPMDDIQQQLHQQAANSARQHAMPDLWHPAVALIWPPGSKRVHPGLLPAAPPSAQDLSQWRKQCAALLVEPSPFRNAMHLTTSARDALAACGMRRVMILMADRSQTSVRVHQIAGLPKEAAAMSFSISQSKILQRLLAQQAQVRLTPQNNAQYSALLPAGLRSLFRGEHLLLRSLTCNGRVIMLVVVDQGGGPFSDVTVQAFGKTVQCIERALHSFTNRGR				NA	NA	NA	NA	NA
D1-35_05052	852	motA	COG1291	Motility protein A	ATGGCTAAAATTATCGGCATCATCGTCGTGTTCGCGAGCGTGCTCGGCGGATACGTGCTCTCCCATGGCAAGATTGCCGCGCTGGTCCAGCCTTTCGAGGTGTTGATCATCGGCGGTGCAGCCCTTGGTGCATTCCTGCAGGCCAACCCTGGCTATATGACAATGCATGTGCTCAAGAAATCCTTGAGCATGTTCGGCTCGCGTTTCAGCCACACCTTCTATCTCGAGGTGCTGGGGCTGGTCTACGAGATCCTCAACAAAAGCCGCCGCGAAGGCATGATGGCGATCGAGGGTGACATCGAAGACGCCGCCGCCAGCCCGATCTTCGCCAAGTACCCCTCGGTGCTGAAAGACGAGCGCATGACGGCGTTCATCTGTGACTACCTGCGCATCATGTCGTCCGGCAACATGGCCCCCCATGAGCTTGAAGGTTTGTTCGACATGGAGCTGTACAGCCTCAAGGAAGACCTCGAGCACCCGTCTCATGCAGTCAACGGCATCGCCGACGGCATGCCCGGCTTCGGTATCGTTGCGGCGGTATTGGGCATCGTGGTGACCATGGCATCCCTGGGTGAAGGCGATCAGGCGTCGATCGGCCTGCACGTGGGCGCGGCATTGGTGGGTACTTTCTTCGGTATTCTGGCGGCGTACGGTTTCTTCGGCCCGCTGGCCCATTCCCTGGCGCATGACGCCAAGGAAGAGCTCAACGTCTATGAGGCCATCAAGGCTTCCCTGGTGGCTTCGGCCTCGGGCATGCCGCCGTCCCTGGCGGTGGAGTTCGGTCGCAAGGTCCTGTACCCGGCGCACCGTCCAAGCTTCGCCGAGCTGGAACAAGCGGTTCGCGGTCGTTAA	MAKIIGIIVVFASVLGGYVLSHGKIAALVQPFEVLIIGGAALGAFLQANPGYMTMHVLKKSLSMFGSRFSHTFYLEVLGLVYEILNKSRREGMMAIEGDIEDAAASPIFAKYPSVLKDERMTAFICDYLRIMSSGNMAPHELEGLFDMELYSLKEDLEHPSHAVNGIADGMPGFGIVAAVLGIVVTMASLGEGDQASIGLHVGAALVGTFFGILAAYGFFGPLAHSLAHDAKEELNVYEAIKASLVASASGMPPSLAVEFGRKVLYPAHRPSFAELEQAVRGR	PGPT0015370_1316	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015370-motA-K02556	NA	NA
D1-35_05053	1047	motB_2	COG1360	Motility protein B	ATGGAAAATAACCAGCCCATTATAGTCAAGCGCGTCAAGCGCATTGCCGGCGGGCACCACGGGGGCGCCTGGAAAATTGCCTTCGCCGACTTCGCCACGGCGATGATGGCGTTCTTCCTGGTGCTGTGGCTGCTGTCCACCGCGACCCCGGAACAGAAAATCGCCATCGCCGGTTACTTCAAGGATCCGATCGGTTTTTCCGAGAGCGGCACGCCCTACATCATCGACCTGGGCGGCTCGCCGGTCCTGGCGCCGGAAAATACCCTCAACCCCGAGGTCAAATCCCAGCCTCAGCCTGACAAGGCGACGGTCGACGCCAATGAGGCCGAAGGCATGGCCGAGCAGGTCGAGCGCGAACGCCTGGAATTGCTCCTGCAGGAATTGCAGAACAAGGTTGAAGAGAACCCGGAACTGCAGAAATTCAAGGACCAGATCCTTTTCGAGATCACACCGAACGGCCTGCGCATCCAGATCATGGACGCCGATAACCGTCCGATGTTCGACTCTGGCAGTGCGCGCCTGAAGCCGTATTTCGAAGACATCCTGCTGGCCATGGCCGATACCATCAAAGCGGTGCCGAACAAGATCAGCATCAGTGGCCACACCGATGCCAAGCCTTACGTCGGCAAAGGCGACTTCGGTAACTGGGAACTGTCGGCCAACCGGGCCAACGCGGCACGGCGTGCCCTGGTGGCGGGCAGCTATCCGGATGAGCAGGTGGCGCGGGTCGTCGGTTATGCGTCTTCGGCACTGTTCGATCGCAAGGATCCGTTCAACCCGGTCAACCGCCGCATCGACATCGTGGTGTTGACCAAGAAAGCCCAGAAAGCCATCGAAGGTTCGCAAACCGACGATCCGGCGCCAGACCCGGCCCCGGGCGAGGGCGCGCCGGGCGAAGTGCCTGCATCGCCCGCCACGCCTGGCGCGGCCGCCGATCCGAACGCGCTGCCGGCGGACCAGCAACCAGTGCCGGCCCATGAGTTGCGCGAGCGCCTGAACCTGTTCGACGACGCCGCGCCGAAACCGGCGGAGCCGCCAGCGCAGTGA	MENNQPIIVKRVKRIAGGHHGGAWKIAFADFATAMMAFFLVLWLLSTATPEQKIAIAGYFKDPIGFSESGTPYIIDLGGSPVLAPENTLNPEVKSQPQPDKATVDANEAEGMAEQVERERLELLLQELQNKVEENPELQKFKDQILFEITPNGLRIQIMDADNRPMFDSGSARLKPYFEDILLAMADTIKAVPNKISISGHTDAKPYVGKGDFGNWELSANRANAARRALVAGSYPDEQVARVVGYASSALFDRKDPFNPVNRRIDIVVLTKKAQKAIEGSQTDDPAPDPAPGEGAPGEVPASPATPGAAADPNALPADQQPVPAHELRERLNLFDDAAPKPAEPPAQ	PGPT0015375_636	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015375-motB-K02557	NA	NA
D1-35_05054	1032	rsgA	COG1162	Small ribosomal subunit biogenesis GTPase RsgA	ATGGCCAAACGCCAACTCAATCGTCGTCAGAACTGGCGCATCGAAAAGATCCAGGGCGAGCGCGCCGCCCGCGCAGCCAAACGTGAATCCAGTGCCGTCGAGGCCCTGGAGGGCGGAGACCTGGGCCCTGAGCAGACCGGACTGGTGATCGCGCATTTCGGCGTCCAGGTCGAGGTCGAGGCCCAGGAAGGCGAGTTGGCCGGCCAGGTATTCCGTTGCCATTTGCGGGCCAACCTGCCGGCGCTGGTGACCGGCGACCAGGTGGTCTGGCGGGCCGGCAACCAGGGCATCGGCGTGATCGTCGCGCAACTGCCGCGCCACACCGAGCTGTGCCGCCCGGACAGCCGGGGCCAGCTCAAGCCGGTGGCGGCCAACGTCGACATGATCGTGATTGTCTTCGCCCCGCTGCCTGAGCCCCACGCCAACCTGATCGACCGTTACCTGGTGGCGGCCGAACACGCCGGCATCCGCCCGTTGCTGTTGCTCAACAAGTTCGACCTGATCGACGAACACAACGCCCCGGCGCTGAACGCCCTGCTGTCGGTCTATCGGGATCTGGGTTACCCGGTGCTGGAAGTCTCGGCCCACCACGGCAACGGCATGGAGCAATTGCAGCAGCAACTCGACGGGCGCATCAGCGTGTTCGTCGGCCAGTCCGGCGTCGGCAAGTCTTCATTGGTCAACAGCCTGCTGCCGGAAGTCGAGACCCGCGTCGGGCCGTTGTCCGAGCTGTCCGGCCAGGGCACCCACACCACCACCACCGCGCGGCTGTTCCACTTTCCCGGCGGCGGTGAGCTGATCGACTCGCCGGGCATCCGCGAGTTTGGCCTGGGCCACGTCAGCCGGGCGGATGTCGAAGCCGGGTTCATCGAGTTCAACGACCTGATCGGCACCTGCCGCTTCCGCGACTGCAAGCACGACCGCGAACCCGGCTGCGCCTTGCTCAAGGCGCTGGAAGAAGGCCGCGTGCATCAACAACGGATGAACAGCTACCGCTCGATCATCGCGAGCTTGCCGGAAAGCAGTTACTGA	MAKRQLNRRQNWRIEKIQGERAARAAKRESSAVEALEGGDLGPEQTGLVIAHFGVQVEVEAQEGELAGQVFRCHLRANLPALVTGDQVVWRAGNQGIGVIVAQLPRHTELCRPDSRGQLKPVAANVDMIVIVFAPLPEPHANLIDRYLVAAEHAGIRPLLLLNKFDLIDEHNAPALNALLSVYRDLGYPVLEVSAHHGNGMEQLQQQLDGRISVFVGQSGVGKSSLVNSLLPEVETRVGPLSELSGQGTHTTTTARLFHFPGGGELIDSPGIREFGLGHVSRADVEAGFIEFNDLIGTCRFRDCKHDREPGCALLKALEEGRVHQQRMNSYRSIIASLPESSY	PGPT0009020_2070	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
D1-35_05055	543	orn	COG1949	Oligoribonuclease	ATGCAAAACCCGCAGAACCTGATCTGGATCGACCTGGAAATGACCGGTCTGAACCCTGACACCGACGTCATCATCGAAATGGCCACCATCGTCACCGACAGCGATCTCAACACCCTGGCCGAGGGTCCGGTGATTGCGATCCACCACAGTGATGAGGTGCTGGCCGGCATGGACGAGTGGAACACCCGCCAGCACGGCGGCTCGGGACTGACCCAACGGGTGCGCGAGAGCAGGATCAGCATGGCCGAGGCCGAAGCCCAGACCATCGCCTTCCTGGAACAATGGGTGCCAAGGGGCAAGTCGCCGATCTGTGGCAACAGCATCTGCCAGGACCGTCGCTTCCTTTATACCCACATGAAATCCCTCGAAAGCTATTTCCATTACCGCAACCTGGATGTCTCCACACTCAAGGAGCTGGCCGCTCGCTGGGCGCCAGAAGTGCGTGACAGTTTCCAGAAGGGCAGCACCCACCTGGCCCTGGACGACATCCGCGAATCCATCGCCGAGTTGCAGCATTATCGCAAGCACTTCATCAAGTTCTGA	MQNPQNLIWIDLEMTGLNPDTDVIIEMATIVTDSDLNTLAEGPVIAIHHSDEVLAGMDEWNTRQHGGSGLTQRVRESRISMAEAEAQTIAFLEQWVPRGKSPICGNSICQDRRFLYTHMKSLESYFHYRNLDVSTLKELAARWAPEVRDSFQKGSTHLALDDIRESIAELQHYRKHFIKF				NA	NA	NA	NA	NA
D1-35_05056	612			hypothetical protein	ATGCTGCTGATGCTGTATCTGATCGCCATTACCGCCGAAGCCATGACCGGCGCCTTGTCTGCCGGGCGGCGTGGCATGGACTGGTTCGGCGTGGTGCTGATCGCCTGTATCACGGCGCTGGGTGGCGGCTCGGTGCGCGACGTGCTGCTGGGGCATTACCCGCTGACCTGGGTCAAGCATCCGGAATACCTGGTGCTGACGACCGCGGCGGCCATGTTGACGGTATTCCTCGCGCGCTGGATGCGTCACCTGCGCTCGCTGTTCCTGGTGCTCGATGCCGTCGGGCTGGTGGCGTTTACCTTGATCGGCTGCATGACCGCGCTGGAAATGGGCCATGGCATGTTGGTGGCCTCGGTCAGTGGGGTGATTACCGGGGTTTTTGGCGGCATTCTCCGGGATATCTTCTGTAACGACATCCCGTTGATTTTCCGTCGCGAACTCTATGCCAGCGTCTCGTTCGCCGCTGCGTGGTGCTACCTGCTGTGTGTCTACCTGCAATTGCCCAGCGAGCAGGCGATTCTGATCACCCTGTTTGGTGGTTTCCTGCTGCGGCTCCTGGCGATCCGGTTTCACTGGGAAATGCCCAAGTTCGTCTATAACGACGAAGTCTGA	MLLMLYLIAITAEAMTGALSAGRRGMDWFGVVLIACITALGGGSVRDVLLGHYPLTWVKHPEYLVLTTAAAMLTVFLARWMRHLRSLFLVLDAVGLVAFTLIGCMTALEMGHGMLVASVSGVITGVFGGILRDIFCNDIPLIFRRELYASVSFAAAWCYLLCVYLQLPSEQAILITLFGGFLLRLLAIRFHWEMPKFVYNDEV				NA	NA	NA	NA	NA
D1-35_05057	1080	queG		Epoxyqueuosine reductase	ATGCCTGCCATTCCCACAGACCTCCCCGCCCTCGCCCAATCCATCAAGGACTGGGGCCGCGAGCTGGGCTTCCAGCAAGTCGGCATCAGCGGCCTGGACCTTGGCGAGCATGAGCAGCACTTGCAACGCTGGCTCGAAGCCGGCTACCACGGCGAAATGGATTACATGGGCGCCCACGGCAGCAAACGCTCGCACCCGGAAGAACTGGTGCCCGGCACATTGCGGGTGGTGTCCCTGCGCATGGACTACCTGCCGGGCGACACCCGAATGGCGCAATTGCTTGGCGAACCGGAAAAAGCCTACGTCTCGCGTTATGCGTTGGGCCGCGATTACCACAAATTGATCCGTAAACGCGTGCAGCAATTAGCAGAAAAAATCCAGGCAGCCATCGGCCCCTTCGGCTATCGCGCGTTCGTCGACAGCGCACCGGTGCTGGAAAAAGCCATAGCCGAACAGGCAGGGCTGGGCTGGATCGGCAAAAATACGCTGGTGTTGAACCGCAAGGCCGGGAGCTATTTCTTCCTCAGCGAGCTGTTCGTCGACCTGCCGCTGCCGGTGGACCCGCCCCACGGCACCGAGCATTGCGGAAAATGCACCGCCTGCCTGGACATCTGTCCGACCAACGCCTTCGTTGGTCCCTACGTATTGGATGCCCGGCGTTGCATCTCCTACCTCACGATCGAACTGAAAAACGCTATCCCCGAGGAGCTGCGGCCGCTGATCGGCAATCGGGTGTTCGGTTGCGATGACTGCCAGATCGTCTGCCCGTGGAATCGCTTCGCCCGGCCCTCTGCGGAAGGCGACTTCAAGCCACGCCACAACCTGGACAATGCCGAACTGGCCGAGCTGTTCATGTGGGATGAGGACAGGTTTCTCAGCAGCACCGAAGGTTCGCCATTACGCCGCGCCGGTTATGAGCGCTGGCTGCGTAACCTGGCGGTGGGGCTTGGCAATGCGCCGACGACAATTCCCGTGCTGGAGGCGTTGAAGGCTCGACAGGATTATCCGTCAGCCCTGGTGCAGGAACATGTGCAATGGGCGCTGCGCCAACATGCCGAGCGTCAGACTTCGTCGTTATAG	MPAIPTDLPALAQSIKDWGRELGFQQVGISGLDLGEHEQHLQRWLEAGYHGEMDYMGAHGSKRSHPEELVPGTLRVVSLRMDYLPGDTRMAQLLGEPEKAYVSRYALGRDYHKLIRKRVQQLAEKIQAAIGPFGYRAFVDSAPVLEKAIAEQAGLGWIGKNTLVLNRKAGSYFFLSELFVDLPLPVDPPHGTEHCGKCTACLDICPTNAFVGPYVLDARRCISYLTIELKNAIPEELRPLIGNRVFGCDDCQIVCPWNRFARPSAEGDFKPRHNLDNAELAELFMWDEDRFLSSTEGSPLRRAGYERWLRNLAVGLGNAPTTIPVLEALKARQDYPSALVQEHVQWALRQHAERQTSSL				NA	NA	NA	NA	NA
D1-35_05058	1500	nnr	COG0062	Bifunctional NAD(P)H-hydrate repair enzyme Nnr	ATGCCGCAGACTAAAGATGAATTTCCCGACGCGCTGTACAGTGCCGCGCAAGTCCGGGCCCTCGACGCACAACTGATCGTGGCGGGCACCAGCGGCTTCGAATTGATGCAGCGCGCCGCCCGCGCCACCTGGCGAGCGATCGTTCGGCGCTGGCCTGAAGCCGGCGAGTTGACCGTATTCGCCGGCCATGGCAACAACGCCGGCGATGGCTACCTGGTGGCGACTCTGGCCCGGCGTGCCGGCTGGGCGGTCCGGGTACTGGCGGTAGGCGAGCCCCGGCGGTTGCTGGGTGATGCCGCCAATGCCCATGCCGAAGCCGTGGCGGTTGGTGTGCCGGTGGAACCTTGGGCGGATGATTGCGAATTGCGCGGTGTCCTGCTCGACGCGTTGCTCGGCACCGGGGCGAGCGGTGACGTTCGCGAACCGTATGTTCGGGCAATCGACACCATCAATGTCAGCGGGTTACCGGTCGCTGCGGTGGATATCCCTTCCGGGTTGTGTGCCGACACCGGTCGGGTGCTGGGTACCGCAGTGACGGCGGACCTGACCGTGACCTTCATTGGCCTGAAGCTCGGTCTGTTCACCGGCGATGCGGCGGATCGGGTGGGAGAGTTGGTATTCAACGACCTGCACGCGGACCCGGACTTCGTTGACGCGGCGCCGGCCAGCGCTCGATTGCTCTTGCCGCATAACCTGCCGCGTCTGCCGCCCCGTGCGCCTTCAGCCCACAAGGGCAAGTTTGGTCATGTGCTGTTGATTGGCGGCGACCGCGGTTTTGGCGGCGCCATCCAGATGAGCGCCGAAAGCGCCTTGCGCAGCGGTGCGGGGATGGTTTCGATGGCGACCCGCAGCGAGCACGTGGCCGCCGCGCTGGTGCGTTTGCCCGAGGTGATGGTGCAAGGCACCCATTCGGCTAACCAGTTGATGGGGTTGCTCAAGCAGGCCAGCGTGCTGGTGGTGGGGCCGGGCCTTGGCCAGGCCGCTTGGGGGCGCAGCCTGTTGTCGGCGGCGGCCAATGCGTCGCTGCCGCAGGTGTGGGATGCCGATGCGCTGAATTTGTTGAGCCATGGCATGGTCAGTCTGCCGGAGCAGTGCCTCATCACCCCGCATCCGGGCGAGGCCGCGCGACTGCTGGGGATTTCCACCGTGCAGGTGCAGGCCGATCGTCCAGCGGCGGCCCACGCATTGAGCAAAAAATACCGAGCCAGCGTGATTCTCAAAGGCGCCGGTAGCCTGATCGCCAGCCCGGACGGGCGCCTGGCGGTTTGCGGTCAGGGTCATCCGGCGATGGCCACCGCTGGCCTGGGGGATGTCCTCGCTGGCGTGGCCGGCGCTTTGCTGGCCCAGGGAATGGAAGGATTCGAAGCCGCGTGCCTGGCCGTCTGGCTGCATGCCAATGCCGGGGTGCAGGTCGGTCGCTCGGGCCGCGGATTGGCCGCGACCGATCTGATTCCGGCCATTCGTCAGTTGTTGGAGGAGCACTCACCGTGTCTGAAGTAA	MPQTKDEFPDALYSAAQVRALDAQLIVAGTSGFELMQRAARATWRAIVRRWPEAGELTVFAGHGNNAGDGYLVATLARRAGWAVRVLAVGEPRRLLGDAANAHAEAVAVGVPVEPWADDCELRGVLLDALLGTGASGDVREPYVRAIDTINVSGLPVAAVDIPSGLCADTGRVLGTAVTADLTVTFIGLKLGLFTGDAADRVGELVFNDLHADPDFVDAAPASARLLLPHNLPRLPPRAPSAHKGKFGHVLLIGGDRGFGGAIQMSAESALRSGAGMVSMATRSEHVAAALVRLPEVMVQGTHSANQLMGLLKQASVLVVGPGLGQAAWGRSLLSAAANASLPQVWDADALNLLSHGMVSLPEQCLITPHPGEAARLLGISTVQVQADRPAAAHALSKKYRASVILKGAGSLIASPDGRLAVCGQGHPAMATAGLGDVLAGVAGALLAQGMEGFEAACLAVWLHANAGVQVGRSGRGLAATDLIPAIRQLLEEHSPCLK				NA	NA	NA	NA	NA
D1-35_05059	468	tsaE	COG0802	tRNA threonylcarbamoyladenosine biosynthesis protein TsaE	GTGTCTGAAGTAACCCTGTACGTGGCGGACGAACAAGCCATGACACAATTTGGCGCCCGCATCGCGCAGACCACCGCAGGCCATGGTCTGATTTTTCTCGAAGGCGACCTTGGCGCGGGGAAAACCACCCTGTCCCGTGGCATCATTCGCGGCCTCGGGCATGTCGGCTCGGTCAAGAGCCCCACGTTCACGTTGGTCGAGCCCTACGAGATCGGTGATACCCGCGCCTTCCATTTCGACCTGTATCGACTGGTCGATCCTGAGGAGCTGGAGTTTCTCGGGATCCGTGATTATTTCGAAGATGACGCCTTGTGCCTGATCGAATGGCCTCAGAAGGGTGCAGGCTTTTTGCCAAAGCCCGACCTGACCATTACCATTGGCGCGCAGAACGGCGGGCGTTCGCTGAAACTGACGCCGCAAGGCTCGCGTGGCGAGTCGTGGTGTGCCGCTCTGGCACTGGAAAACTAA	MSEVTLYVADEQAMTQFGARIAQTTAGHGLIFLEGDLGAGKTTLSRGIIRGLGHVGSVKSPTFTLVEPYEIGDTRAFHFDLYRLVDPEELEFLGIRDYFEDDALCLIEWPQKGAGFLPKPDLTITIGAQNGGRSLKLTPQGSRGESWCAALALEN	PGPT0019050_89	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_MURAMATE_DEGRADATION,PGPT0019050-amgK-K07102	NA	NA
D1-35_05060	1431	amiC_2	COG0860	N-acetylmuramoyl-L-alanine amidase AmiC	ATGATGGGGTTTGGTATGCGCTTTCGCGCGGTGGTTGCTGTCGTAGGACTGTTGCTTACGGCACTGGCCGTCGATGCTGTGGCTGAGACAAAGGTCAACAGTGTTCGCCTCTGGCGGGCGCCGGACAACACCCGGCTGGTGTTCGACCTGACAGGCCCGGTGCAGCACAGCGTGTTCACCCTCGCGGCCCCGGATCGCCTGGTGATCGACATCAACGGTGCATCCCTGGGCGCGCCGCTGAACGTGCCCACGGCCAACACGCCGATTACCGCGATGCGTTCGGCCCAGCGCACGCCCACCGACCTGCGAGTGGTCATCGACCTGAAACAGGCCGTGACCCCGAAGAGTTTCACCCTCGCACCCAATGCCCAGTACGGTAACCGGTTGGTGGTGGATCTGTTCGATAACCCGGCCGACGCCGCGCCTGCGCCACCGCCCCCGACCAAGGTCGCGACGGTGCCTGCCGTGCCGGTCACACCCACCGAGCCTGCGCTCAAGCTGCCACCGGCGCCAGCCGGCAAACGCGACATCATCGTGGTCATCGATGCCGGCCACGGTGGCGAAGACCCGGGCGCCTCGGGCTCGCGCGGTCAGCGTGAGAAAGACGTGGTGCTGGCCATCGCCCGGGAGTTGCAGCGCCAGGTCAACGGCATGAAAGGCTTTCGCGCCGAGCTGACCCGCACTGGCGACTACTTCATTCCGTTGCGTGGCCGCACCGAGATCGCCCGCAAGAAAGGTGCGGACCTGTTCGTCTCGATCCACGCCGACGCCGCGCCTTCGAAGGCTGCGTTCGGCGCCTCGGTATTTGCCCTGTCCGATCGTGGCGCCACTTCCGAGACGGCGCGCTGGCTGGCCGACAGTGAAAACCGTTCCGACCTGATCGGCGGTGCCGGCAATGTCAGCCTCGACGACAAGGACCGGATGCTTGCCGGCGTGTTGCTGGATCTGTCGATGACCGCCTCGTTGACGTCAAGCCTCAACGTTGGGCAGAAGGTCCTGAGCAACATCGGCCGCGTTACCCCGCTGCACAAGCAACGCGTCGAACAGGCCGGATTCATGGTGCTCAAGTCGCCGGACATCCCGTCGATCCTCGTGGAAACCGGGTTTATCTCCAACGCCAACGAAGCCTCGAAACTGTCCTCCGCGAGCCACCAGCAGGCCCTGGCCCGTTCCATCAGCAGCGGTGTGCGGCAGTTCTTCCAGCAGAACCCGCCGCCGGGTACCTACATCGCCTGGCTGCGCGATTCGGGCAAGATTGCCCAGGGACCGCGGGATCATCGCGTCAGTCCTGGCGAAACCCTGGCGATGATCGCGGTGCGCTACCAGGTGTCGCCCGCTACCTTGCGCAGCGCCAATAACCTGCAGAGTGACGAGCTGAAGATCGGACAGACCCTGACCATTCCCGGCAACGAAGTGGCGGTCAAGCAATGA	MMGFGMRFRAVVAVVGLLLTALAVDAVAETKVNSVRLWRAPDNTRLVFDLTGPVQHSVFTLAAPDRLVIDINGASLGAPLNVPTANTPITAMRSAQRTPTDLRVVIDLKQAVTPKSFTLAPNAQYGNRLVVDLFDNPADAAPAPPPPTKVATVPAVPVTPTEPALKLPPAPAGKRDIIVVIDAGHGGEDPGASGSRGQREKDVVLAIARELQRQVNGMKGFRAELTRTGDYFIPLRGRTEIARKKGADLFVSIHADAAPSKAAFGASVFALSDRGATSETARWLADSENRSDLIGGAGNVSLDDKDRMLAGVLLDLSMTASLTSSLNVGQKVLSNIGRVTPLHKQRVEQAGFMVLKSPDIPSILVETGFISNANEASKLSSASHQQALARSISSGVRQFFQQNPPPGTYIAWLRDSGKIAQGPRDHRVSPGETLAMIAVRYQVSPATLRSANNLQSDELKIGQTLTIPGNEVAVKQ	PGPT0024160_1746	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
D1-35_05061	1914	mutL		DNA mismatch repair protein MutL	ATGACGGATGAAGTGATTGGCGGCAACGCTCGCATCGAACTGCTCAGCCCGCGGTTGGCGAACCAGATCGCCGCCGGTGAGGTGGTCGAGCGCCCGGCGTCGGTGATCAAGGAACTGCTGGAAAACAGCCTCGACTCCGGTGCCAAGCGCATCGACGTCGATGTCGAGCAAGGTGGCGTCAAGCTGCTGCGGGTGCGCGATGACGGTCGCGGCATTCCCGCCGACGACCTGCCGCTGGCGCTGGCTCGCCACGCCACCAGCAAGATTCGCGACCTGGAAGACCTTGAGCGGGTCATGAGCCTGGGGTTTCGTGGCGAGGCGCTGGCGTCCATCAGCTCGGTGTCGCGCCTGACGCTGACGTCCCGCACCCGCGATGCCGACCAGGCCTGGCAGGTCGAGACCGAAGGCCGCGACATGGCTTCTCGCGTCCAGCCCGCCGCCCATCCGGTGGGCACCTCGGTGGAAGTGCGCGACCTGTTCTTCAATACCCCGGCCCGGCGCAAGTTCCTCAAGGCCGAGAAAACCGAGTTCGATCATTTGCAGGAAGTCATCAAGCGCCTGGCCCTGGCGCGTTTTGACGTGGCTTTCCATTTGCGCCACAACGGCAAGACCATCCTCAGCCTGCACGAGGCCCACGATGATGCGGCCCGCGCCCGGCGCGTGGGCGCGGTGTGCGGTGCGGGTTTCCTCGAGCAGGCATTGCCCATCGAGGTGGAGCGCAATGGCCTGCACCTGTGGGGCTGGGTCGGCTTGCCGACGTTCTCTCGCAGCCAGGCGGACTTGCAGTATTTCTATGTGAATGGCCGCGCGGTGCGCGACAAGCTCGTGGCCCACGCGGTGCGCCAGGCTTATCGCGATGTGCTGTTCAACGGTCGGCATCCGACCTTCGTGCTGTTTTTCGAGGTCGACCCTTCGGTGGTGGACGTCAACGTGCACCCGACCAAGCATGAAGTGCGGTTCCGTGACGGGCGCATGGTCCATGACTTCCTTTACGGCACTTTGCATCGCGCCCTGGGCGACGTGCGTCCTGAAGATCAATTGGCGGCCCCGGCGGCGGTGGCCGGCATGGTCCGGCCAAGCGGATTGGAAGCTGGCGAATTCGGTCCCCAAGGCGAAATGCGCCTTGCGGCCAACGCGCTGCTTGAGCAACCCCAGCCCCAGCCGGTCTATAACACGGCCGGCAGCGGTGCCGGCAGCGGCTATCAATACCAATACACACCGCGTCCTCAGTCGAATGTGCCGGCGGCGGAGGCCCAGGCTGCCTATCGCGAATTTTTCAAGCCGTTGCAGGAGGCTGGTGCGGCGGCATTGCCCGATGGCCAGGGCGATATCCCGCCGCTAGGCTATGCCCTGGCGCAGCTCAAAGGCATCTACATTCTTTCCGAAAACGCCCAGGGCCTGGTCCTGGTGGACATGCATGCCGCCCATGAGCGGATCATGTACGAGCGGCTGAAGATCGCCATGGCCAGCGAAGGCTTGAGCGGGCAACCGCTGCTGGTGCCCGAGTCCCTGGCTGTCAGTCAGCGCGAAGCCGATTGCGCCGATGAGCATGTGAGCTGGTTCCAGCGCCTGGGCTTCGAGTTGCAGCGCCTGGGCCCGGAGACCCTGGCGATCCGGCAGATCCCGGCCTTGCTGAAACAGGCCGAGGCCAATCGCCTGGTCAGCGACGTGCTGGCGGACCTGATGGAGTACGGCACCAGTGACCGGATCCAGGCGCATCTGAACGAACTGCTCGGCACCATGGCCTGCCACGGCGCAATCCGCGCCAACCGGCGCCTGGCCCTGCCGGAAATGAACGGTCTGCTGCGGGACATGGAAAACACCGAGCGCAGCGGTCAATGCAACCATGGCCGGCCGACCTGGACCCAATTGGGCCTGGACGACCTGGACAAACTGTTCCTGCGCGGTCGCTGA	MTDEVIGGNARIELLSPRLANQIAAGEVVERPASVIKELLENSLDSGAKRIDVDVEQGGVKLLRVRDDGRGIPADDLPLALARHATSKIRDLEDLERVMSLGFRGEALASISSVSRLTLTSRTRDADQAWQVETEGRDMASRVQPAAHPVGTSVEVRDLFFNTPARRKFLKAEKTEFDHLQEVIKRLALARFDVAFHLRHNGKTILSLHEAHDDAARARRVGAVCGAGFLEQALPIEVERNGLHLWGWVGLPTFSRSQADLQYFYVNGRAVRDKLVAHAVRQAYRDVLFNGRHPTFVLFFEVDPSVVDVNVHPTKHEVRFRDGRMVHDFLYGTLHRALGDVRPEDQLAAPAAVAGMVRPSGLEAGEFGPQGEMRLAANALLEQPQPQPVYNTAGSGAGSGYQYQYTPRPQSNVPAAEAQAAYREFFKPLQEAGAAALPDGQGDIPPLGYALAQLKGIYILSENAQGLVLVDMHAAHERIMYERLKIAMASEGLSGQPLLVPESLAVSQREADCADEHVSWFQRLGFELQRLGPETLAIRQIPALLKQAEANRLVSDVLADLMEYGTSDRIQAHLNELLGTMACHGAIRANRRLALPEMNGLLRDMENTERSGQCNHGRPTWTQLGLDDLDKLFLRGR				NA	NA	NA	NA	NA
D1-35_05062	972	miaA	COG0324	tRNA dimethylallyltransferase	ATGAACCAGCTCCCTCCGGCGATCTTCCTGATGGGGCCGACGGCCGCCGGCAAGACCGACCTGGCCATCGAACTGACCAAGGTGCTGCCCTGCGAGTTGATCAGCGTCGACTCGGCCTTGGTCTATCGGGGCATGGACATCGGCACCGCCAAGCCATCGAAGGAACTGCTGGCTGAATATCCGCACCGCCTGATCGATATCCTCGACCCGGCCGACGCTTACTCGGCAGCCGATTTCCGGCGTGATGCGCTCCAGGCCATGGCCGAGATCACCGCGCGGGGCAAGATTCCGCTGCTGGTGGGCGGCACCATGCTCTATTACAAGGCCTTGGTCGACGGGCTGGCGGACATGCCGGCGGCCGATCCCGAGGTGCGCGCGCAGATCGAAGAAGAGGCTGCGCGCCTTGGCTGGCAAGCGCTTCACGAGCAATTGGCGCTGATCGATCCCGAGTCGGCGGCGCGTATTCACCCCAACGACCCGCAGCGGCTCAGCCGAGCGCTGGAGGTTTATCGGGTCAGCGGCCAGAGCATGACGGCCCTGCGCCAGCGACAATCTGCGCAAAGTACTGAAGCAGCCGCTTCGGGACTGCAACAATTGCCCTATACTGTCGCGAATCTGGCCATCGCTCCGGCGAACCGGCAAGTGTTGCATCAGCGTATTGAACAAAGATTCACATTGATGTTGGAACAGGGGTTCATAGACGAGGTCGTAGCCCTGCGTGAGCGAAGTGACCTGCATGCCGGGTTGCCGTCTATACGTGCGGTAGGTTATCGACAAGTCTGGGATTACCTGGACGGCAAGCTGACGTCAGCCGAGATGCGCGAGCGTGGGATTATCGCCACGCGCCAATTGGCGAAGCGCCAGTTCACCTGGTTGCGCAGCTGGACTGACTTGCATTGGCTCGACAGCCTTGATTGCGACAATCTGCCACGCGCCTTGAAATACCTTGGGACCATCTCCATATTGAGCTGA	MNQLPPAIFLMGPTAAGKTDLAIELTKVLPCELISVDSALVYRGMDIGTAKPSKELLAEYPHRLIDILDPADAYSAADFRRDALQAMAEITARGKIPLLVGGTMLYYKALVDGLADMPAADPEVRAQIEEEAARLGWQALHEQLALIDPESAARIHPNDPQRLSRALEVYRVSGQSMTALRQRQSAQSTEAAASGLQQLPYTVANLAIAPANRQVLHQRIEQRFTLMLEQGFIDEVVALRERSDLHAGLPSIRAVGYRQVWDYLDGKLTSAEMRERGIIATRQLAKRQFTWLRSWTDLHWLDSLDCDNLPRALKYLGTISILS	PGPT0007210_1344	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0007210-miaA|ipt-K00791	NA	NA
D1-35_05063	261	hfq	COG1923	RNA-binding protein Hfq	ATGTCAAAAGGGCATTCGCTACAAGACCCTTACTTGAACACTTTACGTAAAGAAAAAGTTGGGGTGTCCATCTATCTGGTCAACGGGATCAAACTGCAAGGCACGATCGAGTCTTTCGACCAGTTCGTCATCCTGCTGAAAAACACCGTCAGCCAGATGGTCTACAAACACGCTATCTCGACGGTAGTGCCGGTTCGTCCAATTCGTCTGCCTAGCGCAACCGAATCCGAAGGCGCTGACGCTGAGCCGGGTAACGCTTGA	MSKGHSLQDPYLNTLRKEKVGVSIYLVNGIKLQGTIESFDQFVILLKNTVSQMVYKHAISTVVPVRPIRLPSATESEGADAEPGNA	PGPT0025560_874	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
D1-35_05064	1302	hflX	COG2262	GTPase HflX	TTGTTCTTTGAGCGCCACGGTGGTGGTGAACGGACTATTCTCGTTCACTTGGAAGGACAGGACCCTGAGGCGCGCGAAGATCCGCAGGAGTTTCAGGAATTGGCAATTTCGGCCGGCGCCGAGACCGTCGCGTTTGTCAACGTGCCGCGTCATCGGCCAACCGCCAAGTTCCTGATCGGCAGTGGCAAGGTCGAGGAGTTGCGCGACCTGGTCAAGGCCGAGCACATCGATCTGGTGATTTTCAATCACATCCTTACGCCCAGTCAGGAACGTAACCTCGAACGTGTCTTCGAGTGTCGCGTGATCGACCGCACCGGGCTGATTCTCGATATCTTTGCCCAACGCGCGCGTACCCATGAAGGCAAGCTCCAGGTCGAACTGGCCCAGCTTGAGCACATGAGCACACGGCTGGTTCGCGGCTGGACTCACCTTGAGCGCCAGAAAGGCGGTATCGGCCTGCGTGGCCCGGGTGAAACCCAGCTGGAAACCGACCGGCGCCTGCTGCGGGTTCGCCTGCGCCAGATCAAGGGGCGACTGGAGAAGGTCCGCAGCCAGCGCGAGCAGTCGCGACGCGGCCGCAAGCGGGCGGACATCCCGACGGTTTCACTGGTGGGGTATACCAACGCCGGCAAATCGACGCTGTTCAATCACGTTACCCAGTCCGACGTCTACGCGGCCGACCAGTTGTTCGCCACGCTCGACCCGACCCTGCGCCGGCTCGACCTGGACGACCTCGGGCCGATCGTACTGGCCGACACCGTGGGCTTCATCCGGCACCTGCCGCATAAACTGGTCGAGGCTTTCCGGGCTACGCTCGAAGAGTCGAGCAACTCCGACCTGCTGCTGCATGTGATCGATGCTGCCGAGCCGGACCGGATGCTGCAGATCGAGCAGGTCATGGTGGTGCTGGGCGAGATCGGGGCGCAGGACTTGCCGATCCTCGAGGTATACAACAAACTCGATTTGCTCGAGGGCGTGGAACCGCAGATCCAGCGTGATGCCGACGGCAAGCCGCAGCGGGTCTGGCTGTCGGCGCGTGATGGCAGCGGCCTGGACCTGCTCAAGCAGGCCGTGGCGGAGCTGCTGGGCGACGACCTGTTTGTCGGCACCCTGAAGCTGCCACAGCGTTTTGCCCGGCTGCGTGCCCAGTTCTTCGAGCTGGGGGCGGTGCAGAAAGAAGAACACGACGAAGACGGTGTCTGCCTGCTGGCCGTTCGCCTGCCTCGGTCGGAACTGAACCGGCTGGTCAGTCGTGAAGGGCTGCAACCGATGGAATTCATCGAGCAACACACTTTGCAATAA	MFFERHGGGERTILVHLEGQDPEAREDPQEFQELAISAGAETVAFVNVPRHRPTAKFLIGSGKVEELRDLVKAEHIDLVIFNHILTPSQERNLERVFECRVIDRTGLILDIFAQRARTHEGKLQVELAQLEHMSTRLVRGWTHLERQKGGIGLRGPGETQLETDRRLLRVRLRQIKGRLEKVRSQREQSRRGRKRADIPTVSLVGYTNAGKSTLFNHVTQSDVYAADQLFATLDPTLRRLDLDDLGPIVLADTVGFIRHLPHKLVEAFRATLEESSNSDLLLHVIDAAEPDRMLQIEQVMVVLGEIGAQDLPILEVYNKLDLLEGVEPQIQRDADGKPQRVWLSARDGSGLDLLKQAVAELLGDDLFVGTLKLPQRFARLRAQFFELGAVQKEEHDEDGVCLLAVRLPRSELNRLVSREGLQPMEFIEQHTLQ	PGPT0007245_2458	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007245-hflX-K03665	NA	NA
D1-35_05065	1176	hflK	COG0330	Modulator of FtsH protease HflK	ATGGCTTGGAATGAGCCGGGTGGCAACTCGAACAACCAGGATCCCTGGGGCGGCAAGCGTCGTAACAACGGCGACCGCAAGGGACCACCGGATCTCGACGAGGCCTTCCGCAAGCTGCAGGAAAGCCTGAACGGTTTGTTCGGTGGTGGTAAGAAACGCGGTGACGATGGCGGCGGCCGTCCGGGCAGAGGCGGTGGCTTCGGCCTGCTCGGCATCGGTCTTGTCGTGCTTGCGGCTGTCTGGCTGTACAGCGCGGTGTATGTCGTGGACGAGCAGGAGCAAGCCGTGGTGCTGCGCTTCGGCAAGTACTACGAAACCGTCGGCCCGGGCCTGAACATCTATTTCCCGCCGATCGACCAGAAGTACATGGAGAACGTCACGCGTGAGCGTGCCTACACCAAGCAGGGCCAGATGCTCACCGAGGACGAGAACATCGTCGAAGTGCCGCTGACCGTGCAATACAAGATCACCAACCTGCAGGACTTCGTGCTGAACGTCGACCAGCCGGAAATCAGCCTGCAACACGCGACTGAGAGTGCCTTGCGCCATGTGGTGGGCTCCACCGCCATGGACCAGGTGCTGACCGAAGGTCGCGAGCTGATGGCCAGCGAAATCAAGGAGCGTCTGCAACGCTTCCTCGACACCTATCGCACCGGTATCACTGTCACCCAGGTCAACGTGCAGAGCGCAGCGGCACCGCGTGAAGTCCAGGAAGCCTTCGACGACGTGATCCGTGCCCGTGAAGACGAGCAGCGTTCGCGCAACCAGGCCGAAACCTACGCCAACGGCGTCGTGCCGGAAGCCCGTGGCCAGGCCCAGCGCATCATCGAGGATGCCAACGGTTATCGCGACGAAGTGGTTTCCCGCGCCAAGGGTGAGGCTGATCGCTTCACCAAGCTGGTGGCCGAGTATCGCAAGGCTCCTGAAGTGACCCGCCAGCGTCTGTACCTGGACACCATGCAGGAAGTCTTCAGTAATACCAGCAAGGTCCTCGTGACCGGCAACAAGAACGGCCAGAGCAATCTGCTGTACCTGCCGCTGGACAAGATGGTCGAGAGCGGTCGCAACACCGGCACGCCGTCAACCGGCGCGGCGGCAGCCGCCAGCAATGAAGCCAATGCCCGCGCGGCGGCGGACCTGCAGCAACAGCAAGCACGTACCAGGGAGAGTCGCTGA	MAWNEPGGNSNNQDPWGGKRRNNGDRKGPPDLDEAFRKLQESLNGLFGGGKKRGDDGGGRPGRGGGFGLLGIGLVVLAAVWLYSAVYVVDEQEQAVVLRFGKYYETVGPGLNIYFPPIDQKYMENVTRERAYTKQGQMLTEDENIVEVPLTVQYKITNLQDFVLNVDQPEISLQHATESALRHVVGSTAMDQVLTEGRELMASEIKERLQRFLDTYRTGITVTQVNVQSAAAPREVQEAFDDVIRAREDEQRSRNQAETYANGVVPEARGQAQRIIEDANGYRDEVVSRAKGEADRFTKLVAEYRKAPEVTRQRLYLDTMQEVFSNTSKVLVTGNKNGQSNLLYLPLDKMVESGRNTGTPSTGAAAAASNEANARAAADLQQQQARTRESR				NA	NA	NA	NA	NA
D1-35_05066	870	hflC	COG0330	Modulator of FtsH protease HflC	ATGAGCAATAAATCGCTGATCGCCCTTATTGTCGGTGTCGTCGTGGCGATCGCTGCCTGGAACTGCTTCTACATCGTGGCTCAGACCGAGCGTGCGGTGTTGCTGCAGTTCGGTCGCGTGGTCCAGGCTGATGTCCAGCCGGGGCTGCATGTGAAAGTGCCGTACGTCAACAAGGTGCGCAAGTTCGACGCCCGCCTGATGACGCTGGACGCGCCGACGCAGCGCTTCCTGACGCTGGAAAAGAAAGCCGTGATGGTCGATGCCTATGCCAAGTGGCGCGTGAAGGATGCCGAGCGCTTCTACACCGCGACGTCCGGCCTCAAGCAGATCGCTGACGAACGTCTGTCCCGTCGCCTGGAATCGGGTCTGCGTGACCAGTTCGGTAAGCGTACCCTGCATGAAGTGGTCTCCGGTGAGCGCGATGCGCTCATGTCCGACATCACCCGTTCGCTGAACACGATGGCGGAAAAAGAGCTGGGTATCGAAGTGGTCGATGTCCGCGTCAAGGCCATCGACCTGCCGAAGGAAGTGAACCGCAGCGTGTTCGAGCGCATGAGCACCGAGCGTGAGCGTGAAGCCCGCGAGCACCGTGCCAAGGGTAACGAGCTGGCTGAAGGCATCCGTGCCGACGCCGATCGCCAACGCCGTGTGCTGCTGGCCGAAGCCTATCGCGAGTCGGAAGAAGTCCGTGGTGATGGCGATGCCCAGGCCGCAGCGATCTACGCCAAGGCCTACGGCCAGGATCAGGAGTTCTACGCGTTCTATCGTAGCCTGCGCGCCTACCGTGAAAGCTTCGCGAACAAGTCCGACGTTCTGGTCCTGGACCCAAGCAGCGACTTTTTCCACTACCTGGAAAAGGCCAAGCCTTGA	MSNKSLIALIVGVVVAIAAWNCFYIVAQTERAVLLQFGRVVQADVQPGLHVKVPYVNKVRKFDARLMTLDAPTQRFLTLEKKAVMVDAYAKWRVKDAERFYTATSGLKQIADERLSRRLESGLRDQFGKRTLHEVVSGERDALMSDITRSLNTMAEKELGIEVVDVRVKAIDLPKEVNRSVFERMSTEREREAREHRAKGNELAEGIRADADRQRRVLLAEAYRESEEVRGDGDAQAAAIYAKAYGQDQEFYAFYRSLRAYRESFANKSDVLVLDPSSDFFHYLEKAKP				NA	NA	NA	NA	NA
D1-35_05067	1188	hisZ	COG3705	ATP phosphoribosyltransferase regulatory subunit	ATGGCAACGGTAGACCGCTGGCTGCTGCCAGATGGCATCGAAGAAGTACTGCCACCGGAGGCCGCGCGTATCGAAGTAGCGCGTCGGCAGGTGTTGGATCTGTTCCAGAGCTGGGGTTACGAATTTGTCGTGACCCCGCATATCGAGTACCTGGAATCCCTGCTGACCGGCGCGGGCCAGGACCTGGATCTGCGCACCTTCAAGGTCATCGATCCGCAGTCGGGTCGGCAGATGGGTTTTCGGGCCGACATCACGCCACAAGTGGCGCGCATCGATGCCCACACCCTGCGTCGTGAAGGTCCGAGCCGCCTGTGCTACGCCGGCAGTGTCCTGCATGCCTTGCCGCGTGCCTTGTCGTCTTCGCGCAGCCCGATCCAGCTGGGCGCCGAGCTGTACGGCGACGCGAGCCCGAGCAGCGACGTGGAAGTCATCAGCCTGATGCTGGCCATGCTGCAACTGGCTGACGTGCCGGATGTCCACATGGACCTGGGCCATGTCGGCATCTACCGCGGCCTGGCACGTGCGGCCGGCCTGTCCGGCGAAGTGGAACAGCAGTTGTTCGATGCGTTGCAGCGCAAGGCCATCGACGAAGTCATCAGCCTGACCGAAGGCCTGCCGACACAATTGTCCGGCATGCTGCGGGCATTGGTGGATCTGTGTGGCGGCCGTGAGGTGCTGGGCGCCGCTCGCGAGCGTCTGGCCGGTGCGCCGGCCCCTGTGCTGGCGGCCCTTGATGACTTGTTGGCGATTGCCGAGCGTCTGTCGGTGCGTTTCCCGGAGCTGCCGTTGTATTTCGACCTGGGTGAACTGCGCGGTTATCACTACCACACCGGCGTGGTGTTCGCGGTGTTCGTACCGGGCGTTGGCCAGTCCATCGCCCAAGGCGGTCGCTACGACGACATCGGTGCCGATTTCGGTCGTGCCCGTCCGGCGACCGGCTTCTCTACCGATTTGAAAACCCTGGTGACCCTGGGGCGTGCTGAGATCGAGTTACCGTCTGGCGGTATCTGGATGCCTGACAGTACGGATGCGGCACTCTGGCAGATGGTCTGCCAGTTGCGCGGTGAGGGTCAGCGTGTCGTCCAGGCATTGCCTGGGCAACCTTTGGCCGCCGCCCGTGAAGCGGACTGCGACCGGCAATTGATTCAGCAGAACGGGCTTTGGCAAGTATTGCCGCTGGCTTCTTGA	MATVDRWLLPDGIEEVLPPEAARIEVARRQVLDLFQSWGYEFVVTPHIEYLESLLTGAGQDLDLRTFKVIDPQSGRQMGFRADITPQVARIDAHTLRREGPSRLCYAGSVLHALPRALSSSRSPIQLGAELYGDASPSSDVEVISLMLAMLQLADVPDVHMDLGHVGIYRGLARAAGLSGEVEQQLFDALQRKAIDEVISLTEGLPTQLSGMLRALVDLCGGREVLGAARERLAGAPAPVLAALDDLLAIAERLSVRFPELPLYFDLGELRGYHYHTGVVFAVFVPGVGQSIAQGGRYDDIGADFGRARPATGFSTDLKTLVTLGRAEIELPSGGIWMPDSTDAALWQMVCQLRGEGQRVVQALPGQPLAAAREADCDRQLIQQNGLWQVLPLAS				NA	NA	NA	NA	NA
D1-35_05068	1293	purA	COG0104	Adenylosuccinate synthetase	ATGGGTAAGAATGTCGTAGTCCTGGGCACCCAGTGGGGTGATGAGGGCAAAGGCAAGATCGTTGATCTGCTGACCGAACATGCTGCCGCCGTAGTGCGCTACCAGGGTGGCCACAACGCAGGTCACACCTTGGTGATCGACGGTGAGAAAACCGTTCTGCACCTGATCCCCTCGGGCGTGCTGCGCGAAGGCGTGCAGTGCCTGATCGGCAATGGCGTGGTGGTTGCCCCCGACGCCCTGCTGCGGGAAATCATCAAGCTGGAAGAGAAGGGTGTACCGGTGCGCGAGCGCCTGCGCATCAGCCCGTCCTGCCCGCTGATCCTGTCCTATCACGTTGCGCTGGACCAGGCCCGTGAAAAGGCCCGTGGCGAGCTGAAGATCGGCACCACCGGTCGCGGCATCGGCCCGGCCTATGAAGACAAGGTCGCCCGTCGCGGCCTGCGCATCGGCGACCTGTTCCACCGCGAACGTTTCGCCGCCAAGCTGGGTGAGTTGCTGGACTACCACAACTTTGTCCTGGTCAATTACTACAAAGAGCCGGCCATCGACTTCCAGAAGACCCTGGACGAGTGCATGGAATACGCCGAGCTGCTCAAGCCGATGATGCTCGACGTTACCGCCGAGCTGCACGAGCTGCGCCGTGCCGGCAAGGACATCATGTTCGAAGGCGCCCAGGGTTCGCTGCTGGATATCGACCACGGCACCTACCCGTACGTCACCAGCTCCAACACCACCGCTGGCGGCATCGCCACCGGTTCGGGTTTTGGCCCGATGTACCTGGACTACATCCTCGGCATCACCAAGGCCTACACCACCCGCGTCGGTTCGGGCCCGTTCCCGACCGAGCTGTTCGACGACGTCGGTGCCTTCCTGGCCAAGCGCGGCCACGAGTTCGGTGCCACCACCGGCCGTGCCCGTCGTTGCGGCTGGTTCGATGCCGTCATCCTGCGTCGCGCCATCGACGTCAACAGCATCTCGGGCCTGTGCCTGACCAAGCTGGACGTGCTGGACGGCCTGGAGACCATCAACATCTGCGTGGGCTACAAGAACCAGGACGGCGCCGTCATCGACGCACCGACCGATGCAGACAGCTACATTGGCCTGGAGCCGGTGTACGAGCAGATGCCAGGCTGGACCGAATCGACCGTGGGCGCCAAGACCCTGGAAGAGCTGCCCGTGGCGGCCCGCAACTACATCAAGCGCGTCGAAGAGCTGGTCGGTGCGCCGATCGACATTATTTCGACGGGGCCGGACCGCAACGAAACCATCGTTCTGCGTCACCCTTTCGCCTGA	MGKNVVVLGTQWGDEGKGKIVDLLTEHAAAVVRYQGGHNAGHTLVIDGEKTVLHLIPSGVLREGVQCLIGNGVVVAPDALLREIIKLEEKGVPVRERLRISPSCPLILSYHVALDQAREKARGELKIGTTGRGIGPAYEDKVARRGLRIGDLFHRERFAAKLGELLDYHNFVLVNYYKEPAIDFQKTLDECMEYAELLKPMMLDVTAELHELRRAGKDIMFEGAQGSLLDIDHGTYPYVTSSNTTAGGIATGSGFGPMYLDYILGITKAYTTRVGSGPFPTELFDDVGAFLAKRGHEFGATTGRARRCGWFDAVILRRAIDVNSISGLCLTKLDVLDGLETINICVGYKNQDGAVIDAPTDADSYIGLEPVYEQMPGWTESTVGAKTLEELPVAARNYIKRVEELVGAPIDIISTGPDRNETIVLRHPFA	PGPT0020140_2660	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020140-purA-K01939	NA	NA
D1-35_05069	1935			hypothetical protein	GTGTCGGCCGTTCTCTCACTGTTACAAAGCCGTTTGCTGCGGCCTGTTTTCGTTACGCTCGGTATCGCCCTTTTGGTGCAGGTACTGGTCGCCGTTGCGCTGACCCGAAGCACGGTCACTGCGCTGGAGGCCGACCTGAACGCGCGCCTTGGGGCTGACAGCCAGAAACTCTCCGGTGAGCTGGAGCAGGCCGGGCGTGAAGTCACCTCCAGCCTCGATAGCCTTTCCGCCAGCACCCGCCAACGGTTGAACGCCGGTTTGTCCTCGCGGCTGAAGGAGGAACAGGCCCATCTGCGTGCGACTCTGGAAAAAGACCTGAGGGATTCCGCCAATGATATGGCGCAGCTTTTGGCCTCGGTCGCGCCTCGCGCCATGTGGGACAGCGACGTGCCGACCCTTTCCGAATTCGCCCGCCGCGCCCAGCGCAATCCCAACGTGTTGTTCGTCATCTATGACGACGCTGCCGGCGAACACCTGACTCGTTATCTGAACCGTGAAAACCCGATCAACAAGGCCCTGCTGGAAAAAGGCAAGGGCGAGCGAGCACTGGACAAGGTGCTGGACGCGGCGAAGAACGACCCGTCGGTCTATTACCTCGAAGCGTCGATCAACCCCAACGGTGTGGAAATTGGCAAAGTGCTGATGGGCGTTTCTACCGCCTCGGTGGAAACCGATCTGAAAGCGCTGGACCAGCGCTTCTCCGCATTGATCGCCAGCAGTGACCAATTGGTCGGTGACAGCCTCAAGGGCGCAGCCGCGGACAGCGCCACCGCCATGCGTGGCCGCCTGGGCTCGGCGCAGGCAACCGCCACGCAAATGCAGACCAATACCGCCGCCACCGTGCAGGAGGCTGCGGGAACGTTGCGCTGGCGCATCGGCCTGGGCCTGGCGCTGGTTGGGTTCGGCGTGCTGGCATTGCTGGCCGTGGTGCTGGGGCGGCGAGTGGTCAATCGCTTGAAGCTGTTGATTGCAGCGATGAACGACCTGGCGGCGGGCGAGGGCGATCTGACCAAGCGTGTACAGATCAGCAGCAAGGATGAAATTGGCGACATGGCTTCGGCGGTCAATCGTTTTGTCGACAAATTGCAACCTATCGTGCGTGAAGCGGGTGACGTGGCCCAGCGCACCGGCCAGGAAATCGGTGCAATGACCCTGCGCAACTCCGGCGCCGACGCGGCGGCCGGCATGCAGCGCGACGAAGTGGCCGAGAGCCTGCGGGCCCTGTCGCAGATGGCTGATGAGGCGCAGTCGGAAAGCCAGGCGATGCAGGCGGCCTTGCAGCAGGTAGTGGAGATCCGCCAGGCCACCGATGAAACGACCCGCACCGCGGCCAAGGTCGGCGGCTTGATCGAAGCGCTGGCCGGACAGGTCGACACCGGGGCGAAGGTCATCGAGCGGCTGGCGCAGCAGAGCGAGCAGATCGAAGTGGTCCTGACGGTTATCCATGGCATCGCCGAGCAAACCAACCTGCTGGCGTTGAACGCGGCCATCGAAGCGGCGCGGGCAGGCGAAACCGGGCGCGGATTTGCAGTGGTGGCGGACGAGGTGCGGGCACTGGCGAGCAAGACCCAGAGTTCGACCGGCGACATCCAGGCGCATATCGTCGCCTTGCAACAAGGTGCGCGCGAAGCGGTGGCTGCGATTGGCCAGGCTGGACGACAAGCGAACGAGGGTCTGGCGGTGCTGCGAGACAGCGCGCGGCTGCAGCAATCAGTGCAGGCTTCGGTCGAGCAGGTCCACGCGGCCATCGGCCTGGCGACCCAGGCAGCGGCGCATCAGGCCCAGGGCGCCCAAGCGGTGCGCGGACGGGTGGAAACCATCCACGCCCAGGCCGAAAAAGCCGCCCAGGCGGTGGTCGAGACCACTGCCAGCGGCAAGGTGTTGGACAGTCTGGCGGCGCAGTTGAAGGCGAGCCTGGGGCAGTTCAGGGCCTGA	MSAVLSLLQSRLLRPVFVTLGIALLVQVLVAVALTRSTVTALEADLNARLGADSQKLSGELEQAGREVTSSLDSLSASTRQRLNAGLSSRLKEEQAHLRATLEKDLRDSANDMAQLLASVAPRAMWDSDVPTLSEFARRAQRNPNVLFVIYDDAAGEHLTRYLNRENPINKALLEKGKGERALDKVLDAAKNDPSVYYLEASINPNGVEIGKVLMGVSTASVETDLKALDQRFSALIASSDQLVGDSLKGAAADSATAMRGRLGSAQATATQMQTNTAATVQEAAGTLRWRIGLGLALVGFGVLALLAVVLGRRVVNRLKLLIAAMNDLAAGEGDLTKRVQISSKDEIGDMASAVNRFVDKLQPIVREAGDVAQRTGQEIGAMTLRNSGADAAAGMQRDEVAESLRALSQMADEAQSESQAMQAALQQVVEIRQATDETTRTAAKVGGLIEALAGQVDTGAKVIERLAQQSEQIEVVLTVIHGIAEQTNLLALNAAIEAARAGETGRGFAVVADEVRALASKTQSSTGDIQAHIVALQQGAREAVAAIGQAGRQANEGLAVLRDSARLQQSVQASVEQVHAAIGLATQAAAHQAQGAQAVRGRVETIHAQAEKAAQAVVETTASGKVLDSLAAQLKASLGQFRA				NA	NA	NA	NA	NA
D1-35_05071	1566			hypothetical protein	ATGACACCGTCGCTGAACGCTCCCTCTGCCGCGAGGAGCTATATTCCCCGGCGCAAGCGCCCGTCGATCGGTCTGCTGCTCCCGGTTCTGCTGCTGGTGCTGCTGAGCGCGTTGCCGCTCCTGTATGTCATCGCGAAGGCCTGGCAGGCCGGTTGGACAGAAGCATTGCACTTGCTCTGGCGGCCTTATGTATTCGGCCTGCTGCGCAACACCTTGGCGCTGATGATCGGTGTCACGCTGGCCTGTGGCGTGATCGGCCTGTCGCTGGCCTGGCTTTTGGAGCGCAGCGATCTGCCGGGACGCAGGGTCTGGGGCGTGATCCTCTGCCTGCCATTCGCAGTGCCGGCGTTTGTCAGCAGCTTCACCTGGGTATCGCTCAGCGCGCAATTCGAAGGACTGGGCGGGGCCATCCTGGTCATGACGCTGTCCAAATATCCGCTGATTTTCCTGCCGGTGGCGGCAACGCTACGCAATCTCGATCCCTCTCTTGAGGAATCCGCACGAACCCTGGGGCAAAATCGCTGGGGCGTGTTTTTTCGCGTCACCCTGCCATTGCTCTGGCCCTCGCTGCTGGCCGGCTCACTGTTGATTGCCTTGCACATGCTGGTGGAGTTCGGCGCGCTGTCGATCATCGGACTGCAAACGTTTACCACCGCGATCTATCAACAATTCGAGCTGGAGTTCAGCAACGCCAATGCCGCCATGCTGTCAGCGGTGCTGTTGGTGCTTTGCCTGGCACTGTTGTGGCTGGAATTGCGCGTGCGCGGCAAGGGCCGCCACGTACGCACCGGACAAGGCGCGGCACGCCGCGCGGAACAGGTACGGCTCGGCCCCTGGGCGTTCCTCGGCCAGCTGTATTGCGCGGCACTGACGGTCATTGGCAGCGGTATTCCGCTGGGGATGCTGGTGTATTGGCTGGCGGTGGGCACTTCCGCCGCCTTCCCGGTGGGCGAGATCGGCGAAGCCCTGCTGTCATCCCTGGCGCTGTCACTGGGCGGCGCCGCGCTGTGCCTTGTACTCGCGGTGCCGGTCGGCCTGCTGGTGGTGCGTCACAAGGGGCGCCTGGCGCTATGGGCAGAACGCCTGCCGTATTTGCTGCATGCACTGCCAGGCCTGGTGATTGCCCTGAGCCTGGTGTATTTCGCGCTGCACTATGTGCCGGCGCTCTATCAGACCTCGGGTTTGCTGCTGATTGCCTACGCGCTGCTGTTCCTGCCGCTGGCCCAGGCGCCGGTGCGCACGGCGCTGAACAAGGCCGCGCCGCAGCTGGAAGAAGCGGCTCGCACGCTGGGGGCTTCTCCTTTCAGTGCGTTTTGCCGGGTGACCTTGCCGATTATCTTCCCGGCGCTGGGGGCGGCATTTGCGCTGGTGTTCCTGGACGCGATGAAAGAACTGACTGCTACTTTGCTGCTCAGCCCGACCGGGCTCAACACCCTGGCGACAGCGGTCTGGGCACATACCTCGAACATCGAGTTTGCGGCAGCGGCGCCTTACGCGGCGCTGCTTATCCTGGTGTCGGGGTTACCGGTCTATTTGCTGACGACGCGGATGTATCTGAGCCGCTGA	MTPSLNAPSAARSYIPRRKRPSIGLLLPVLLLVLLSALPLLYVIAKAWQAGWTEALHLLWRPYVFGLLRNTLALMIGVTLACGVIGLSLAWLLERSDLPGRRVWGVILCLPFAVPAFVSSFTWVSLSAQFEGLGGAILVMTLSKYPLIFLPVAATLRNLDPSLEESARTLGQNRWGVFFRVTLPLLWPSLLAGSLLIALHMLVEFGALSIIGLQTFTTAIYQQFELEFSNANAAMLSAVLLVLCLALLWLELRVRGKGRHVRTGQGAARRAEQVRLGPWAFLGQLYCAALTVIGSGIPLGMLVYWLAVGTSAAFPVGEIGEALLSSLALSLGGAALCLVLAVPVGLLVVRHKGRLALWAERLPYLLHALPGLVIALSLVYFALHYVPALYQTSGLLLIAYALLFLPLAQAPVRTALNKAAPQLEEAARTLGASPFSAFCRVTLPIIFPALGAAFALVFLDAMKELTATLLLSPTGLNTLATAVWAHTSNIEFAAAAPYAALLILVSGLPVYLLTTRMYLSR	PGPT0003730_4310	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
D1-35_05072	1011	fbpA	COG1840	Iron-utilization periplasmic protein	ATGATGTTTCGAACCACCCTGCGCCGCGCCCTGACCTGCACCCTGCTCGGCCTGACCCTCGCAACGCCCCTCACCCAAGCCGCCGACAAGGTGGAACTGACTCTCTACAACGGCCAGCACAAAGAAGTTGGCGATGAACTGGCCAAGGCCTTCGAGGCCAAGACCGGCATCCACGTCAACGTGCGCAAGGGCAGCAGCAACCAGCTCGCCAGCCAGGTTGTCGAAGAAGGCGAGCGCTCCCCTGCCGACGTGATCTACACCGAAGAGTCGCCGCCCTTGAACAAGCTCGGCGAGCAAGGGCTGCTGGCGAAGATCGACGACGCCACGCTCAACGTACTACCCAAGGATTATGTTGCGAGCAATGGCACCTGGATGGGCGTGACCGCCCGCGTGCGTGTGGTTGCCTACAACCCCAAACTGATCGACGAGAAAGATCTGCCGAAAACCGTCCTCGATTTCGCCCAGCCGCAATGGCAGGGCAAGGTCGGCTTTGTACCAACCAGCGGCGCGTTCCAGGAGCAAGCCGTCGCCATCATCAAGTTGCACGGGATGGACGCCGCCGAGGAATGGCTCACCGGGCTGCGCGCGTTCGGCAAGGTCTACAGCAACAACATGGTTGCCCTCAAGGCCGTGGAAAACGGCGAAGTCGCGACGGTCCTGGTGAATAATTACTACTGGTTCGCGCTGCAGCGAGAGAAAGGCCAGCTCGACTCCAGGCTGCACTATTTCACCGGAGGCGATGCCGGTGGCCTGGTGACCGTGTCCAGCGCCGCTGCGCTGAAATCCAGCAAGCACCCCAAGGAAGCCCAACAACTGCTCGCCTACATGGCCAGTGAAGAAGGCCAGCGCGTGATTACCCAGACGTCCGCCGAGTACCCCCTCCACAAAGGCATGGTGTCGGACCGTGGCCTCAAGCCGTTCACTGAACTTGAACCGCCAAAAGTCACTCCGGCCGACCTCGGCAATGCTGAAGAAGCCCTGGAGCTGGAACGTGAAGTCGGCCTGAACTGA	MMFRTTLRRALTCTLLGLTLATPLTQAADKVELTLYNGQHKEVGDELAKAFEAKTGIHVNVRKGSSNQLASQVVEEGERSPADVIYTEESPPLNKLGEQGLLAKIDDATLNVLPKDYVASNGTWMGVTARVRVVAYNPKLIDEKDLPKTVLDFAQPQWQGKVGFVPTSGAFQEQAVAIIKLHGMDAAEEWLTGLRAFGKVYSNNMVALKAVENGEVATVLVNNYYWFALQREKGQLDSRLHYFTGGDAGGLVTVSSAAALKSSKHPKEAQQLLAYMASEEGQRVITQTSAEYPLHKGMVSDRGLKPFTELEPPKVTPADLGNAEEALELEREVGLN	PGPT0003725_4116	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
D1-35_05075	2619	rnr	COG0557	Ribonuclease R	ATGGCCGATTGGCAGTCCCTCGATCCCGAGGCCGCTCGTGAAGCGGAAAAATATGAAAACCCTATTCCTAGCCGCGAACTGATCCTGGCGCATCTCGCCGATCGGGGTTCGCCTGCTAGCCGTGAGCAGTTGGTCGAAGAATTCGGTCTGACCACCGAGGACCAGCTCGAGGCCCTGCGCCGCCGTCTGCGCGCCATGGAGCGCGACGCTCAACTCATCTATACCCGCCGTGGCACTTATGCGCCGGTCGACAAGCTCGATCTGATCCTGGGTCGTATTGCCGGGCACCGCGACGGCTTCGGCTTCCTGATTCCGGATGACGGCAGTGACGACCTGTTCATGAGCCCGGCGCAGATGCGCCTGGTGTTCGACGGCGACCGCGCCCTGGCCCGTGTTTCCGGCCTGGATCGCCGTGGGCGTCGTGAGGGTGTGATCGTCGAAGTGGTGTCCCGTGCCCACGAGACCATTGTCGGTCGTTATTTCGAAGAGGGCGGCATCGGTTTTGTCGTCGCCGACAACCCAAAGATCCAGCAGGAAGTGCTGGTGACGCCGGGCCGCAACGCCAACGCCCAGGTCGGTCAGTTCGTCGAGGTGAAAATCACCCACTGGCCAACCCCGCGCTTCCAGCCGCAAGGCGACGTGGTGGAAGTGGTCGGCAACTACATGGCTCCGGGCATGGAAATCGACGTTGCCCTGCGCACTTATGACATCCCCCACGTCTGGCCTGAGGCGGTGCTCAAGGAAGCTGCCAAGCTCAAGCCGGAAGTCGAAGAGAAGGACAAAGAGAAGCGCATCGATCTGCGCCATCTGCCGTTCGTCACCATTGACGGCGAAGACGCCCGTGACTTCGACGACGCGGTCTACTGCGAAGCCAAGCCAGGCAAGTTGCGCTTGTTCTCCGGCGGCTGGAAGTTGTACGTGGCGATTGCCGACGTCTCCAGCTACGTAAAGCTCGGCTCTGCATTGGATGCCGAGGCCCAGGTGCGCGGCAACTCGGTGTATTTCCCCGAGCGCGTCGTGCCGATGCTGCCCGAGCAGTTGTCCAACGGCCTGTGTTCGCTCAACCCCCAGGTCGATCGCCTGGCCATGGTTTGCGAGATGGATATCTCCAAATCCGGCGAGATGACGAACTACTGCTTCTATGAAGCGGTGATCCATTCCCATGCCCGCCTGACCTACAACAAGGTCAGTGCGATGCTGGAAACGCCGAAACTCGCCGAATCGCGCAAGCTGCGCGGCGAGTACACCGACGTGGTGCCGCACCTCAAGCAGCTCTACGCGCTGTACAAGGTATTGCTGGCGGCGCGTCACGTGCGGGGCGCGATCGATTTCGAAACCCAGGAAACCCGGATCATCTTCGGTACCGAGCGCAAGATCGCCGAGATCCGTCCGACGATTCGCAACGACGCCCACAAGCTGATCGAGGAATGCATGCTGGCGGCCAACGTGGCCACGGCCGAGTTCCTGAAGAAGCATGAAATTCCTGCGCTGTACCGCGTCCACGACGGTCCGCCGCCAGAGCGTCTGGAAAAATTGCGGGCATTCCTGGGCGAGCTTGGCCTGTCGTTGCACAAGGGCAAGGAAGGTCCGTCGCCGAAGGATTACCAGGCCTTGCTGGCAAGCATCAAGGATCGTCCGGATTTCCACCTGATCCAGACCGTGATGCTGCGTTCGCTGAGCCAGGCGGTGTACAGCGCCGACAACCAGGGCCACTTCGGCCTGAATTACGAAGCCTACACCCACTTCACTTCGCCGATCCGTCGCTACCCCGACCTGCTCACGCACCGGGCGATTCGCAGCGTGATCCACTCGAAGATGGACACCCCGCACGTCAAGCGTGCCGGCGCGATGACCATCCCCAAGGCGCGTATCTACCCGTACGACGAGGCGGCCCTGGAGCAGCTCGGCGAGCAATGCTCGATGAGCGAGCGACGTGCCGACGAAGCGACCCGCGACGTGGTGAACTGGCTCAAGTGCGAGTACATGAAGGATCGCGTGGGTGAGTCTTTCCCGGGCGTGATCACCGCCGTGACCGGTTTCGGCCTGTTCGTCGAGCTGACCGACATCTACGTCGAAGGCCTGGTGCATGTCACCGCGCTGCCTGGCGACTACTACCACTTCGATCCTGTGCATCACCGCCTGGCGGGCGAGCGCACCGGTCGCAGCTTCCGTCTTGGCGATACCGTTGAAGTGCGGGTGATGCGCGTCGACCTGGACGAGCGCAAGATCGACTTCGAGATGGCCGAAAAAACCATCAGCGCGCCGATCGGTCGCAAGAAGCGCGGCACCGAAACGGCTGCGCCAGCAACCAAGACCGCCGCCGAGCCTGCTCCGGCCAAGTCGGGGCGTCGCGGTTCGGCCAAGGAGAAGGCTGTCGAGGCCTATCGCCCGAGCGATGCGGCGGCGAAAAATGCCGAGTTGCGCAAAAGCCGTGAAATGAAACAGGCGTTGCTGGCCGAAGCCAAGAACGGTGGTAAAGCGGCGTCTGGGGGAAAGACCGGAAGGTCGATCCCGGACAAGGCGACCAGCAAGCCGAGCAAGCACCGTAAAGGTCCGCCGAAAGCGGGCTCGTCCCCAGCCAAAAGTGGCGGGGCGCGTAAACCCAAGGGCAAGTCATGA	MADWQSLDPEAAREAEKYENPIPSRELILAHLADRGSPASREQLVEEFGLTTEDQLEALRRRLRAMERDAQLIYTRRGTYAPVDKLDLILGRIAGHRDGFGFLIPDDGSDDLFMSPAQMRLVFDGDRALARVSGLDRRGRREGVIVEVVSRAHETIVGRYFEEGGIGFVVADNPKIQQEVLVTPGRNANAQVGQFVEVKITHWPTPRFQPQGDVVEVVGNYMAPGMEIDVALRTYDIPHVWPEAVLKEAAKLKPEVEEKDKEKRIDLRHLPFVTIDGEDARDFDDAVYCEAKPGKLRLFSGGWKLYVAIADVSSYVKLGSALDAEAQVRGNSVYFPERVVPMLPEQLSNGLCSLNPQVDRLAMVCEMDISKSGEMTNYCFYEAVIHSHARLTYNKVSAMLETPKLAESRKLRGEYTDVVPHLKQLYALYKVLLAARHVRGAIDFETQETRIIFGTERKIAEIRPTIRNDAHKLIEECMLAANVATAEFLKKHEIPALYRVHDGPPPERLEKLRAFLGELGLSLHKGKEGPSPKDYQALLASIKDRPDFHLIQTVMLRSLSQAVYSADNQGHFGLNYEAYTHFTSPIRRYPDLLTHRAIRSVIHSKMDTPHVKRAGAMTIPKARIYPYDEAALEQLGEQCSMSERRADEATRDVVNWLKCEYMKDRVGESFPGVITAVTGFGLFVELTDIYVEGLVHVTALPGDYYHFDPVHHRLAGERTGRSFRLGDTVEVRVMRVDLDERKIDFEMAEKTISAPIGRKKRGTETAAPATKTAAEPAPAKSGRRGSAKEKAVEAYRPSDAAAKNAELRKSREMKQALLAEAKNGGKAASGGKTGRSIPDKATSKPSKHRKGPPKAGSSPAKSGGARKPKGKS				NA	NA	NA	NA	NA
D1-35_05076	762	rlmB	COG0566	23S rRNA (guanosine-2'-O-)-methyltransferase RlmB	ATGAGTCAGCTGGAAAAAATCTACGGCGTGCATGCCGTGGAGGCGCTGTTGCGTCACCACCCCAAGCGGGTCAAGCAGATCTGGTTGGCGGAAGGGCGCAGCGATCCGCGTGTCCAGACGTTGATCGAGCTGGCGGGCGAAAATCGCGTGGCGGTCGGCCAGGCCGAGCGGCGTGAGATGGACGCCTGGGTTGAAGGCGTGCACCAAGGCGTCGTCGCCGAAGTCAGCCCGAGTCAGGTCTGGGGCGAGGCGATGCTCGACGAGTTGCTCGATCGCACCGAGGGCGCGCCGTTGCTGCTGGTGCTGGACGGCGTGACCGACCCGCACAACCTCGGCGCCTGCCTGCGTTCGGCGGATGCCGCCGGGGCGTTGGCGGTGATCGTGCCAAAAGACAAGTCGGCCACCTTGACCCCGGTCGTGCGTAAAGTCGCCTGCGGTGCGGCGGAAGTGATCCCGCTGGTGGCCGTGACCAATCTGGCGCGCACCCTGGAGAAACTCCAGCAGCGCGGCTTATGGGTCGTCGGCACGGCGGGCGAGGCCGAGGTCAGCATCTATGACCAGGACCTGACCGGCCCGACCATCCTGATCATGGGCGCCGAAGGCAAGGGCATGCGCCGCCTGACCCGCGAGCATTGCGACTACCTGGTCAAGCTGCCGATGGCCGGCAGTGTCAGCAGTCTCAACGTCTCGGTTGCCACCGGCGTGTGCCTGTTCGAAGCCCAGCGCCAGCGTGGGGCCAAGGCAGCCGCCAAAAAGCCCTGA	MSQLEKIYGVHAVEALLRHHPKRVKQIWLAEGRSDPRVQTLIELAGENRVAVGQAERREMDAWVEGVHQGVVAEVSPSQVWGEAMLDELLDRTEGAPLLLVLDGVTDPHNLGACLRSADAAGALAVIVPKDKSATLTPVVRKVACGAAEVIPLVAVTNLARTLEKLQQRGLWVVGTAGEAEVSIYDQDLTGPTILIMGAEGKGMRRLTREHCDYLVKLPMAGSVSSLNVSVATGVCLFEAQRQRGAKAAAKKP				NA	NA	NA	NA	NA
D1-35_05077	429	rpsF	COG0360	30S ribosomal protein S6	ATGCGTCATTACGAAATCATCTTTTTGGTCCACCCGGATCAAAGCGAGCAAGTCGGCGGCATGGTTGAGCGTTACACCAAGCTGATCGAAGAAGACGGCGGCAAAATCCACCGTCTGGAAGATTGGGGCCGTCGTCAACTGGCCTACGCAATCAACAATGTTCACAAGGCTCACTACGTGATGCTGAACGTTGAGTGCACCGGCAAGGCCCTGGCCGAGCTGGAAGACAACTTCCGCTACAACGATGCAGTGATCCGTAACCTGGTCATCCGTCGCGAAGAAGCCGTCACCGGCCAATCCGAGATGCTCAAGGCTGAAGAAAACCGCAGTGAGCGCCGTGAGCGTCGCGACCGTCCTGAGCACTCTGACAGCGCCGATGGCGATGACAGCGATAGCGACAGCGACAACAGCGATAACGCTGACGAGTAA	MRHYEIIFLVHPDQSEQVGGMVERYTKLIEEDGGKIHRLEDWGRRQLAYAINNVHKAHYVMLNVECTGKALAELEDNFRYNDAVIRNLVIRREEAVTGQSEMLKAEENRSERRERRDRPEHSDSADGDDSDSDSDNSDNADE				NA	NA	NA	NA	NA
D1-35_05078	231	rpsR	COG0238	30S ribosomal protein S18	ATGGCACGTTTCTTCCGTCGTCGTAAATTCTGCCGCTTCACCGCTGAAGACGTGAAAGAGATCGATTACAAAGATCTCAACACTCTGAAAGCCTACGTATCCGAGACCGGCAAAATCGTTCCAAGCCGTATCACCGGTACCAAAGCACGTTATCAGCGTCAGCTGGCCACCGCTATCAAGCGCGCCCGCTTCCTGGCCCTGCTGGCCTACACCGACAGCCACGGCCGCTGA	MARFFRRRKFCRFTAEDVKEIDYKDLNTLKAYVSETGKIVPSRITGTKARYQRQLATAIKRARFLALLAYTDSHGR				NA	NA	NA	NA	NA
D1-35_05079	894			hypothetical protein	ATGCGCGCCTTAGCTGAGTTCATCATGCGCGGTCGTATGCAGGCCACTCTCGTAGTGGCTGGATGCGCGGCATTGCCGTTGTTGTATTGGTTGGGTGCTGCCGCGGTGAGTCTCGTACTCCTGCGGCGCGGATTGAGGGACGCCCTTGGCGTTCTTGCTCTGGGACTGCTGCCGGCCTTGCTCTGGTGGTTGTATTCCGCTGACCCGCGGGCACTGATGGTGCTGCTGGGGTCTTCGGCGCTGGCGTTGGTGTTGCGCGCCAGCGAATCCTGGAACCGCGTGCTGCTGGTCAGCATAGCGATGGGAGTGGTGTTTTCAGTGGTGCTCGGGGTGGCTTTCGCACCCCAGATCGAGATGCTCTCGCAGGCTTTGATAAAAATCCTGCCCGAGGCCCTCGGTGATCTCTACCAACAGATGTCGGCAGAGGAGCAGGCGCGTTTCGCGTCCCTGATCGCACCGGTCCTGACCGGCCTGATTGCGGCCTTGTTGCAAATCGTCAGTGTGCTGAGCCTGATTATCGGGCGCTACTGGCAAGCGTTGTTGTACAACCCGGGTGGTTTTGGTCGCGAATTTCGCGCCATTCGTTTCCCGCTCGGGCTGGCGATGTTACTGCTGGCGGGCATGCTCCTGGGGCCGAATTTCGGTCCGCAGATGGCCATGCTCACGCCGTTGTGCAGTGTACCGCTGGTGTTTGCCGCCCTGGCCCTGATTCACGGGCTTGTGGCGCAAAAGCGACTGGCCAGGTTCTGGCTGGTCGGGTTGTACGTCACGTTGTTGCTGTTCATGCAGCTGATCTATCCGTTGCTGGTGGTCCTGGCCATCGTCGACAGCCTGATTGATTTTCGCGGTCGTATGGCGCCGAAAGACGCCGACAACGCGAACGGTGAAGGTTAA	MRALAEFIMRGRMQATLVVAGCAALPLLYWLGAAAVSLVLLRRGLRDALGVLALGLLPALLWWLYSADPRALMVLLGSSALALVLRASESWNRVLLVSIAMGVVFSVVLGVAFAPQIEMLSQALIKILPEALGDLYQQMSAEEQARFASLIAPVLTGLIAALLQIVSVLSLIIGRYWQALLYNPGGFGREFRAIRFPLGLAMLLLAGMLLGPNFGPQMAMLTPLCSVPLVFAALALIHGLVAQKRLARFWLVGLYVTLLLFMQLIYPLLVVLAIVDSLIDFRGRMAPKDADNANGEG				NA	NA	NA	NA	NA
D1-35_05080	447	rplI	COG0359	50S ribosomal protein L9	ATGCAACTGATCCTTCTGGAAAAAATCGCCAACCTGGGCAACCTGGGCGACAAAGTAAACGTTAAGGCCGGTTACGGCCGTAACTACCTGCTGCCTTTCGGCAAAGCCACCGCTGCGACCGCTGCCAACCTGGCTGCGTTCGAAGAGCGTCGCGCTGAGCTGGAAAAAGCCGCCGCAGACCGTAAGGCATCGGCTGAAAGCCGTGCTGCCCAACTGGCCGAGCTGGAAGTGACCATCACTGCCACCGCTGGCGACGAAGGCAAGCTGTTCGGTTCGATCGGTACTCACGACATCGCTGACGCACTGACCGCCTCCGGCGTTGAAGTTGCGAAAAGCGAAGTTCGTCTGCCGAACGGCACCATCCGCAACGTAGGTGAATTCGACGTAGCCGTGCACCTGCACGCCGAAGTTGAAGCCACCGTACGCGTTGTCGTGGTAGCAGCCTAA	MQLILLEKIANLGNLGDKVNVKAGYGRNYLLPFGKATAATAANLAAFEERRAELEKAAADRKASAESRAAQLAELEVTITATAGDEGKLFGSIGTHDIADALTASGVEVAKSEVRLPNGTIRNVGEFDVAVHLHAEVEATVRVVVVAA				NA	NA	NA	NA	NA
D1-35_05081	1398	dnaB	COG0305	Replicative DNA helicase	ATGAACGAAATCACCGCCCCCGAGCAATACGATCTGCAAACCGCTGCCTTGAAGGTGCCTCCGCATTCCATCGAGGCCGAACAGGCCGTGCTCGGTGGTCTGATGCTGGACAACAACGCCTGGGAACGCGTGCTTGATCAAGTCTCCGACGGCGATTTCTATCGGCATGACCACCGCCTGATTTTCCGCGCGATCGCCAAGTTGGCCGATCAGAACATGCCGATCGACGTCGTGACCCTGGCCGAGCAATTGGACAAGGAAGGTCAGACATCCCAGGTCGGCGGCCTCGGTTACCTCGGCGAACTGGCGAAAAACACGCCGTCGGTCGCCAACATCAAGGCTTACGCCCAGATCGTTCGCGAGCGGGCGACCTTGCGCCAGTTGATCGGCATCAGCACTGAGATTGCCGACAGTGCGTTCAACCCGGAAGGTCGCACCGCCGCTGAGATTCTCGACGAAGCCGAGCGGCAGATCTTCCAGATCGCCGAGGCGCGGCCGAAAACCGGTGGCCCGGTGAGCGTCAACGACCTGCTGACCAAGGCCATCGACCGCATCGACACCTTGTTCAACACCGACAACGCCATTACCGGCCTGTCCACCGGCTACACCGACCTCGACGAGAAGACCAGCGGCCTGCAGCCGTCCGACTTGATCATCGTCGCCGGCCGTCCGTCCATGGGTAAGACCACCTTTGCGATGAACCTGGTGGAAAACGCCGTGCTACGCAGTGAAAAGGCTGTGTTGGTGTACTCCCTCGAGATGCCAGGCGAATCGCTGATCATGCGTATGCTTTCGTCCCTCGGGCGTATCGACCAGACCAAGGTCCGTTCCGGCCAGCTGGAAGACGACGATTGGCCGCGCCTCACCTCGGCGGTGAACCTGCTCAACGACCGCAAGCTGTTCATCGACGATACCGCAGGTATCAGCCCGTCGGAGATGCGCGCCCGAACCCGCCGCCTGGTGCGTGAGCACGGCGAGGTCGGGCTGATCATGATCGACTACCTGCAGTTGATGCAGATCCCCGGCTCTAGCGGCGACAACCGGACCAACGAGATTTCCGAGATCTCCCGTTCCCTCAAGGCCCTGGCCAAGGAATTCAACTGCCCAGTCGTTGCCCTTTCGCAGTTGAACCGTTCCCTGGAACAGCGCCCCAACAAGCGTCCGGTGAACTCGGACTTGCGGGAATCCGGAGCGATCGAGCAGGACGCCGACGTCATCATGTTCGTTTACCGTGACGAGGTGTATCACCCCGAGACGGAACACAAGGGCATTGCCGAAATCATCATCGGCAAGCAACGGAACGGCCCGATCGGCTTCATCCGCCTGGCGTTTATCGGCAAATACACGCGCTTCGAAAACCTGGCGCCGGGTAGCTACAATTTTGATGATGACGAGTAA	MNEITAPEQYDLQTAALKVPPHSIEAEQAVLGGLMLDNNAWERVLDQVSDGDFYRHDHRLIFRAIAKLADQNMPIDVVTLAEQLDKEGQTSQVGGLGYLGELAKNTPSVANIKAYAQIVRERATLRQLIGISTEIADSAFNPEGRTAAEILDEAERQIFQIAEARPKTGGPVSVNDLLTKAIDRIDTLFNTDNAITGLSTGYTDLDEKTSGLQPSDLIIVAGRPSMGKTTFAMNLVENAVLRSEKAVLVYSLEMPGESLIMRMLSSLGRIDQTKVRSGQLEDDDWPRLTSAVNLLNDRKLFIDDTAGISPSEMRARTRRLVREHGEVGLIMIDYLQLMQIPGSSGDNRTNEISEISRSLKALAKEFNCPVVALSQLNRSLEQRPNKRPVNSDLRESGAIEQDADVIMFVYRDEVYHPETEHKGIAEIIIGKQRNGPIGFIRLAFIGKYTRFENLAPGSYNFDDDE				NA	NA	NA	NA	NA
D1-35_05082	2301			hypothetical protein	ATGCAAGCAGCCAAGCCATTATTCGATTATCCCAAGTACTGGGCCGAATGTTTCGGACCGGCGCCGTTCCTGCCGATGAGCAGGGAGGAGATGGATCAGCTCGGCTGGGATTCGTGCGACATCATCATCGTGACCGGTGATGCCTACGTCGATCATCCGTCGTTCGGCATGGCGATCATTGGCCGTCTGCTGGAAGCCCAGGGCTTTCGCGTTGGCATCATTGCCCAGCCGAACTGGCAGTCCAAAGACGACTTCATGAAGCTCGGCGAGCCCAACCTGTTCTTCGGTGTCGCGGCCGGCAACATGGACTCGATGATCAACCGCTACACCGCCGACAAGAAAATCCGTTCCGATGACGCCTACACGCCGGGCGGTTTGGCGGGCAAGCGGCCGGACCGTGCGAGCCTGGTCTATAGCCAGCGTTGCAAGGAAGCCTACAAACACGTGCCGATCGTCCTCGGCGGTATCGAAGCGTCCCTGCGCCGCATCGCCCACTACGACTACTGGCAGGACCGGGTGCGCAACTCGATCCTGATCGACGCCTGCGCCGACATCCTGCTCTACGGCAACGCCGAGCGGGCGATTGTCGAAGTGGCCCAGCGCCTGTCCTACGGCCACAAGATCGAAGACATCACCGACGTGCGCGGCACCGCATTCATTCGCCGCGACACGCCGCAAGGCTGGTACGAAGTCGATTCCACGCGCATCGACCGTCCGGGCAAGGTCGACAAGATCATCAACCCGTACGTGAATACCCAGGACACCGCTGCCTGCGCCATTGAGCAGGAAAAGGGTCCGGTCGAGGACCCGAGCGAAGCCAAGGTCGTACAGATCCTGGCGAGCCCGAGGATGACCCGCGACAAGACCGTGATTCGCCTGCCATCGGTAGAGAAGGTGCGCAACGACGCGGTGCTGTATGCCCACGCCAACCGCGTGTTGCACCTGGAAACCAACCCGGGCAACGCCCGTGCGCTGGTGCAGAAGCACGGCGAAGTCGACGTCTGGTTCAACCCGCCGCCCATTCCGATGACAACTGAGGAAATGGACTACGTGTTTGGCATGCCTTACGCGCGTGTCCCGCATCCGGCGTATGGCAAGGAAAAAATCCCCGCTTACGAGATGATCCGCTTCTCGGTAAACATCATGCGTGGCTGCTTCGGTGGCTGCACCTTCTGCTCGATCACCGAGCACGAAGGCCGGATCATCCAGAACCGCTCGGAAGAGTCGATCATTCGCGAGATCGAAGAGATCCGCGACAAGGTGCCTGGTTTCACCGGGGTCATTTCCGACCTCGGCGGCCCGACCGCGAACATGTACCGCATCGCCTGCAAGAGCCCGGAAATCGAATCCGCGTGCCGCAAGCCGTCCTGCGTGTTCCCCGGCATCTGCCCGAACCTCAATACCGACCACTCGTCGCTGATCCAGCTGTACCGCAGCGCTCGTGCGTTGCCTGGGGTGAAGAAGATCCTCATTGCCTCCGGCCTGCGTTACGACCTGGCGGTCGAGTCGCCGGAGTACGTCAAGGAGCTGGTGACCCACCACGTCGGCGGTTACCTGAAGATCGCCCCGGAGCACACCGAGGAAGGTCCGCTCAACCAGATGATGAAGCCGGGCATCGGCAGCTATGACAAATTCAAGCGGATGTTCGAGAAGTACACCAAGGAAGCCGGGAAAGAGCAGTACCTGATTCCGTACTTCATCGCGGCTCACCCGGGCACTACCGACGAAGACATGATGAACCTGGCGCTGTGGCTCAAGGGCAACGGCTTCCGGGCCGACCAGGTGCAGGCGTTCTATCCGTCGCCGATGGCTACGGCCACCGCGATGTACCACTCGGGCAAGAACCCGCTGCGCAAGGTCACCTACAAGAGCGACGCGGTGACCATCGTCAAGAGCGAAGAGCAGCGCCGCCTGCACAAGGCGTTCCTGCGTTATCACGATCCGAAAGGCTGGCCGATGCTGCGCGAAGCGCTGACCCGCATGGGCCGCGCCGACCTGATCGGGCCGGGCAAGAACCAGTTGATTCCGTTGCACCAGCCTGCCACCGACAGCTACCAGAGTGCCCGTCGCAAGAACTCGACCCCGGCTGGCAGCCATAAGGTCGGTAAGGAGACCACCAAGATCCTGACCCAGCACACCGGCCTGCCGCCGCGGGCCAGTGACGGCGGCAATGCCTGGGATAAACGCGAGCAAGCCAAGGCCGCTGCGTTCGCCCGTAATCAGCAGGCTGCCAAGGAGCGCAAGGATGCGGCCAAGGGCAAGGGACCGAAGCCTGCGCGCAAGCCGGTTGTGCCGCGCTGA	MQAAKPLFDYPKYWAECFGPAPFLPMSREEMDQLGWDSCDIIIVTGDAYVDHPSFGMAIIGRLLEAQGFRVGIIAQPNWQSKDDFMKLGEPNLFFGVAAGNMDSMINRYTADKKIRSDDAYTPGGLAGKRPDRASLVYSQRCKEAYKHVPIVLGGIEASLRRIAHYDYWQDRVRNSILIDACADILLYGNAERAIVEVAQRLSYGHKIEDITDVRGTAFIRRDTPQGWYEVDSTRIDRPGKVDKIINPYVNTQDTAACAIEQEKGPVEDPSEAKVVQILASPRMTRDKTVIRLPSVEKVRNDAVLYAHANRVLHLETNPGNARALVQKHGEVDVWFNPPPIPMTTEEMDYVFGMPYARVPHPAYGKEKIPAYEMIRFSVNIMRGCFGGCTFCSITEHEGRIIQNRSEESIIREIEEIRDKVPGFTGVISDLGGPTANMYRIACKSPEIESACRKPSCVFPGICPNLNTDHSSLIQLYRSARALPGVKKILIASGLRYDLAVESPEYVKELVTHHVGGYLKIAPEHTEEGPLNQMMKPGIGSYDKFKRMFEKYTKEAGKEQYLIPYFIAAHPGTTDEDMMNLALWLKGNGFRADQVQAFYPSPMATATAMYHSGKNPLRKVTYKSDAVTIVKSEEQRRLHKAFLRYHDPKGWPMLREALTRMGRADLIGPGKNQLIPLHQPATDSYQSARRKNSTPAGSHKVGKETTKILTQHTGLPPRASDGGNAWDKREQAKAAAFARNQQAAKERKDAAKGKGPKPARKPVVPR				NA	NA	NA	NA	NA
D1-35_05083	927			hypothetical protein	ATGAGCAGCGCTTCAACGGGCATCGGCATGGACTTGAGCTTTTCCCAGTTCATGGCCCGTCAACGCATCGAAAGCCAGATCAACCTGCCGCGCCTGTTTGCCGCGATCGACGCCGACCCCAACATCGCCGGTGCGGGGGTGGTGTATGTCGATTCCGACTACAACGTGGTGACGCTGCGGGAGTTCAAGCCGATCTGCAGCATCGCGCCCAAACGCATCATTTTGCGCGAGGCGAAAAAGTACATTGCTCCGCAGCAATTCATAGAACAGGTGAAAAGCAGTCCACGCGAGTCGAAGCTCGGGATTGAGGCGACCAATGCCGGCTTGTCCTGTGTCGCCGCGGTGATTGGTTGGGTGGTGGTATTCAGTGGCAGCGTTGCCGTGCCCTTTACGGCTGGTGCCAGCGCTTTTGTGGTCGCCTTGGGCGCCGCTGCCGCTACGGCCAGTACCGCGCAGTGCGTCATTGGCGGAATGCGGGTGGCGAACGAGTTGAGCAACCCTACTGGCAACGATGAGATGAACGATGCTGACTGGTACAACATCGTGTCGCCGATTCTTGACGGTGTTTCCCTGGTGGGCGTCGGTGGCTCGGCGCTGACGACTGTTCGATTGCTCAAGGCCAACAAGGCGGCCGGCACCGGCAAGAGCTGGTACCAGTTGCTCAAGGGCCTGAATCGCCAAGAGCGCAGTAAGTTGACCAAGGAACTTCTGACGCTGAAGGACCCAAGCCTGACCGCTAAGTTGCTCAAGTTGCAGCAACGGGCAGGGGCTTTGCCCAAGCGTTACTCGTCCGCTGAGATCCGGCATGCGACCCTGACTCAGATCAAGGACTCGCTGGGCGGCGCCCTGGGCGTCATCGGCAGTTATACCGGTGGTGGCCATGTGAAAACCGTTGCCGTCGGCCTGTACGAAGAGTTCACGGAATGA	MSSASTGIGMDLSFSQFMARQRIESQINLPRLFAAIDADPNIAGAGVVYVDSDYNVVTLREFKPICSIAPKRIILREAKKYIAPQQFIEQVKSSPRESKLGIEATNAGLSCVAAVIGWVVVFSGSVAVPFTAGASAFVVALGAAAATASTAQCVIGGMRVANELSNPTGNDEMNDADWYNIVSPILDGVSLVGVGGSALTTVRLLKANKAAGTGKSWYQLLKGLNRQERSKLTKELLTLKDPSLTAKLLKLQQRAGALPKRYSSAEIRHATLTQIKDSLGGALGVIGSYTGGGHVKTVAVGLYEEFTE				NA	NA	NA	NA	NA
D1-35_05084	462			hypothetical protein	ATGATCGGCGGCGGATCACTGAAGCCATTCCTGGCCCGCTATTTTCCGATTTTCATGGGCACCATCCTGCTCGGCTGTTTTTCCGGTTCCACGCTGCTCGTTCTGGCCGGAGCCACTTATTGGCGCGCCTTGGAGCCCTCGATCAGGACCGACTATGTCGGTTTCGGCACGTTGGCCCTGGTGATGGTTCTAGTCTTGGGCAACCTGCTGATTGCACGCGGGCGCGCTTGGGCAATCTGGGGTGTGGCGGGTTATTTCCTAGCCTGTCTGGCGGCGGCGGTGCCGACGTTTGCTTACGGGCCGCACCAGGGCGTGTACATCTTCGCTGTGCTGTTACCCCTACTGGGACTGCTCCTGATCAACAGCAAACGCCACCGGGAAATGCGCCGCAAGCTCGTCGAGATCCGCCACCAGCGCGAACGCATCATCCAATCCGCCAAGGCCTCGCGCCCGCGCCGTTGA	MIGGGSLKPFLARYFPIFMGTILLGCFSGSTLLVLAGATYWRALEPSIRTDYVGFGTLALVMVLVLGNLLIARGRAWAIWGVAGYFLACLAAAVPTFAYGPHQGVYIFAVLLPLLGLLLINSKRHREMRRKLVEIRHQRERIIQSAKASRPRR				NA	NA	NA	NA	NA
D1-35_05085	3294			hypothetical protein	GTGTCGATCCATGTCGCTTTGCACCATGTCACACATTATCGCTACGAGCGCGCTGTCGAACTCGGTCCGCAGATCGTGCGCCTGCGCCCGGCCGCCCACAGCCGTACACGCATTCTTTCATATGCGCTGAAAGTCTCGCCTGATCAGCACTTCATCAACTGGCAACAAGACCCTCAGGGCAATTACCTGGCGCGGCTGGTGTTCCCGGAAAAGACCGATGAGCTGCGGGTCGAGGTCGATCTGGTCGCCGAGATGGCGGTGTTCAATCCATTCGATTTTTTCCTCGAGCCCTACGCCGAGAAAATTCCGTTTACGTATGCGGCCGACGAAAAACACGAGCTGATGCCCTATCTGGAAAAGCTGCCGCTGACGCCGAAGTTCAAGGCTTATCTGGACGGCATCGACCGCACGCCGCTGCCGGCGGTGGACTTCCTGGTGGGGTTGAACCAGCGCTTGAGCGAAGACATCGGTTACCTGATCCGCATGGAGCCCGGCGTGCAGACGCCGGAGCACACCCTGGAGCATGCGTCCGGTTCCTGCCGGGATTCGGCCTGGCTGCTGGTGCAACTGTTGCGTCATCTGGGCCTGGCGGCGCGGTTTGTCTCCGGTTACCTGATCCAGTTGACCGCCGATGTGAAAAGCCTCGACGGCCCGTCCGGTACGGAAGTGGACTTCACCGACCTGCATGCCTGGTGCGAGGTGTACCTGCCCGGCGCTGGCTGGATCGGCCTGGACGCCACGTCCGGGTTGTTCGCCGGTGAAGGGCATATCCCCTTGGCATGTAGTCCCGATCCGTCCTCGGCAGCGCCGATCAGCGGCCTGGTGGAACCTTGCGAGTGCCAGTTCAGCCACGAAATGTCCGTCGAGCGAATCTGGGAGGCGCCACGGGTCACCAAGCCATACACCGAAGAGCAATGGCAGGCGATCCAGGCGTTGGGCCGGCAGATCGACAGCGACCTGCTGGAGGGCGACGTGCGCTTGACCATGGGCGGCGAGCCGACCTTCGTTTCCATCGACGATCCGGACGGCGCCGAGTGGAATACCGCAGCGCTCGGCCCGGACAAGCGTCGCCTCTCCGCCGAGTTGTTCCAGCGCATGCGCAAGCACTACGCGCCCGAGGGGTTGGTGCACTTCGGTCAGGGCAAGTGGTACCCCGGCGAGCAACTGCCGCGGTGGTCGCTCAACTGTTATTGGCGGCGTGACGGCGTGCCGATCTGGCGCGACAACGCGCTGATCGCCGATGAACAGCAGGACTACGGCGCCGATGGCGAACTGGCCGGGCGCTTCCTGGCGAGTGTCGCCGAACGCCTGAATATTCCTGCGCGGTTCGTCTTCGCGGCCTACGAAGATAATTTCCATTACCTCTGGCGCGAGGGTAATTTGCCTTCGAACGTGACAGCCGAGGACCCTAGGCTCGAGGATCCCCTGGAGCGGGCGCGGTTGCGCAAGGTGTTCAGCCAGGGCCTGGACAAAGTGGTCGGCCAGGTCTTGCCGCTGGCGCGCACCGCCAAGGGCGATCAATGGCAAAGCGGCCGCTGGTATTTGCGCGACAGCCATTGTCGGCTGGTGCCGGGCGATTCGCCGCTGGGCTATCGCTTGCCGCTGGCGGCGCAGCCATGGGTGACGGCAGCCGAGTATCCCTTCATCCATCCCACCGACCCGAACCAGGACTTGCCCGAGTTGCCCGGCACCGAGCAGCTCACCCATCACGGCGAGCCGGCCCTGGAACAGGAGCGCGCGCCGAAGGTCGACGAATCGGCCGATTGGCTGACGCGCACCGCGTTCTGTGCCGAGGCCAGGGACGGGCGGCTCTATCTGTTCATGCCGCCGCTGGAGCGGGTCGAGGATTACCTGGAACTGGTCAGCGCCATCGAGGCGACAGCCGAAGAACTGGGCTGCCCTGTGCTGCTGGAAGGCTACGAGCCGCCGAGCGATCCGCGCCTGAGCAATTTTCGCATCACGCCTGACCCGGGCGTCATCGAGGTCAACGTGCAACCGTCGGCGACCTGGGATGAGCTGGTCGAGCGCACCGAGTTTCTTTACGAGCAGGCGCGGCTGAACCGGCTGACCACCGAAAAATTCATGATCGACGGTCGACACACCGGCACCGGTGGCGGTAACCATTTCGTCCTGGGCGGCGCGACGCCGGCTGACTCGCCCTTCCTGCGTCGTCCCGACTTGCTGCGCAGTTTGATCAGCTACTGGCATAACCACCCGTCGTTGTCCTACCTGTTTTCCGGACTGTTCATCGGCCCGACGTCCCAGGCGCCCCGCGTGGACGAAGCGCGCAACGATGCGTTATATGAGCTGGAGATCGCCTTCGCGCAAATGCCCGAGCCTGGCGAAGCGTGTCCGCCCTGGCTGGTGGACCGATTGCTGCGCAACCTGTTGATCGACGTGACCGGTAATACCCACCGCGCCGAGTTCTGCATCGACAAGCTCTATTCACCGGACGGCGCCACCGGGCGTCTCGGCTTGCTGGAGCTGCGCGCTTTCGAAATGCCGCCCCACGCCCGCATGAGCCTGGCCCAGCAATTGCTGCTGCGGGCGCTGGTGGCGCGGTTCTGGCGTGAACCCTACGCGCCGGCGAAACTGGCGCGCTGGGGCACCGAGCTGCATGATCGCTTCTTGCTGCCGCATTTCATCGAGCAGGATTTTGCCGATGTCATCGACGATCTCAATGTCGCCGGTTATCCGCTGCGGGCCGAGTGGTTCGCCGCGCACCTGGAGTTCCGCTTTCCCAAGGTCGGCGATTACGCGGTCAATGGTATCGAGCTGCAGTTGCGTCAGGCGCTGGAACCCTGGCATGTGCTGGGAGAGGAGGGCACGGCGGGGGGCACCGTACGCTACGTGGACTCGTCCCTGGAGCGCTTGCAGGTCAAGCTCAGCGGCCTGGCGCCACAACGTTATCTGCTGACTTGCAACGGCGTACCGGTACCCTTGCAACCCACCGGTCGAGTCGGTGAGTTCGTCGCCGGGGTACGTTTCCGCGCCTGGCAACCGGCCAACTGCCTGCAACCGACCATCCCGGTCCATGCGCCGCTGGTATTCGATGTGCTCGACACCTGGATGCAACGTTCGCTGGGCGGCTGTCAGTACCACGTGGCGCATCCGGGCGGGCGCAACTATGACAGCCTGCCGGTCAACGCCAACGAGGCGGAGAGCCGGCGGATGGCGCGTTTCTTTAGGATCGGACACACGCCTGGGAAACTTCCGATACCGAACCTGGCAACGGATGACGAATTTCCCTTCACTCTCGATCTGCGACGCTTCCAAGGGGCATTGAAGCGATAG	MSIHVALHHVTHYRYERAVELGPQIVRLRPAAHSRTRILSYALKVSPDQHFINWQQDPQGNYLARLVFPEKTDELRVEVDLVAEMAVFNPFDFFLEPYAEKIPFTYAADEKHELMPYLEKLPLTPKFKAYLDGIDRTPLPAVDFLVGLNQRLSEDIGYLIRMEPGVQTPEHTLEHASGSCRDSAWLLVQLLRHLGLAARFVSGYLIQLTADVKSLDGPSGTEVDFTDLHAWCEVYLPGAGWIGLDATSGLFAGEGHIPLACSPDPSSAAPISGLVEPCECQFSHEMSVERIWEAPRVTKPYTEEQWQAIQALGRQIDSDLLEGDVRLTMGGEPTFVSIDDPDGAEWNTAALGPDKRRLSAELFQRMRKHYAPEGLVHFGQGKWYPGEQLPRWSLNCYWRRDGVPIWRDNALIADEQQDYGADGELAGRFLASVAERLNIPARFVFAAYEDNFHYLWREGNLPSNVTAEDPRLEDPLERARLRKVFSQGLDKVVGQVLPLARTAKGDQWQSGRWYLRDSHCRLVPGDSPLGYRLPLAAQPWVTAAEYPFIHPTDPNQDLPELPGTEQLTHHGEPALEQERAPKVDESADWLTRTAFCAEARDGRLYLFMPPLERVEDYLELVSAIEATAEELGCPVLLEGYEPPSDPRLSNFRITPDPGVIEVNVQPSATWDELVERTEFLYEQARLNRLTTEKFMIDGRHTGTGGGNHFVLGGATPADSPFLRRPDLLRSLISYWHNHPSLSYLFSGLFIGPTSQAPRVDEARNDALYELEIAFAQMPEPGEACPPWLVDRLLRNLLIDVTGNTHRAEFCIDKLYSPDGATGRLGLLELRAFEMPPHARMSLAQQLLLRALVARFWREPYAPAKLARWGTELHDRFLLPHFIEQDFADVIDDLNVAGYPLRAEWFAAHLEFRFPKVGDYAVNGIELQLRQALEPWHVLGEEGTAGGTVRYVDSSLERLQVKLSGLAPQRYLLTCNGVPVPLQPTGRVGEFVAGVRFRAWQPANCLQPTIPVHAPLVFDVLDTWMQRSLGGCQYHVAHPGGRNYDSLPVNANEAESRRMARFFRIGHTPGKLPIPNLATDDEFPFTLDLRRFQGALKR				NA	NA	NA	NA	NA
D1-35_05086	2487		COG2307	putative protein	ATGCCTGACCTGCTTGACCGTTACCCGTTGACGACGGGCACCTATCACGAATTGCTGGATGACAGCGGTGCGGTGCGTGCGCATTGGCGGCGGCTGTTCGACCAATTGCAGCGCAGCACGCCGGCTCAGTTGATCCAGCGCCAGGCATTGCTCGCCCGGCAGATCCAGGAAAATGGCGTCACCTATAACGTCTATGCAGACCCCAAGGGAGCTGATCGGCCTTGGGAGCTGGACCTGCTGCCCCATGTCATCGACGCTCGGGAATGGACGCAACTGTCGGCCGGCATTGCCCAGCGGGCACGCTTGCTCAATGCCGTTCTGGCCGACCTGTACGGGCCGCAGCGGTTGATCAGCGAGGGGCTCTTGCCGGCAGAGCTGGTGTTCGGGCACAACAATTTCCTTTGGCCCTGCCAGGGCATCACGCCGCCAGACGGCAACTTCCTGCACTTGTATGCCGTGGATCTGGCGCGCGCGCCCGACGGCCGCTGGTGGGTGACTGCGGATCGGACCCAGGCGCCCTCGGGCGCCGGTTATGCGTTGGAAAATCGCACGATCGTGTCGCGAGCCTTTCCCGACCTTTATCGCGACCTCAAGGTGCAACACCTGTCCGGTTTCTTCCGCACGTTGCAAGAAACCCTGGCGCGACAGGCTCCCAGCAACGGCGAGCCGCCGCTGGTGGTACTGCTGACGCCCGGTCGGTTCAACGAAAGCTACTTCGAACACCTCTACCTGGCGCGGCAACTCGGCTATCCGCTGGTGGAAGGCGGCGACCTGACCGTCCGCGACGCCACGGTCTATCTGAAGACGCTTAGCGGGCTGCGTCGGGTGCACGCGATCATGCGTCGGCTCGATGATGATTTCTGCGACCCGCTGGAGTTGCGCACCGATTCGGCCCTGGGCGTGCCCGGATTGCTGGAGGCGGTGCGTCAGGGGCGGGTGCTGGTGGCCAATGCACTGGGTAGCGGAGTCCTGGAGTCTCCCGGGCTCTTGGGATTCCTGCCGAAAATAAGTCAGTTTCTTTTCGGTGAAGAGCTGATGCTGCCCTCCATCGCCACCTGGTGGTGCGGAGAGCCGCCGGTGCTGGCCCAGGCCCTGGAGAAACTGCCGCAGTTGTTGATCAAGCCGGCGTTTCCGTCCCAGAGCTTCACGCCGGTATTCGGTCGTGACCTGGACGAAGACCAGCGCGCTCGATTGGCCGCACGCATGCAGGCGCGGCCCTATGCCTATGTTGCTCAGGAACTGGCGCAACTGTCCCAGGCGCCGGTATGGCAGGCTGAAGACGGCCAGATCCAGCCTCGAGCCATTGGCATGCGGGTTTATGCGGTGTCCGGCAAAGACGATTATCGAGTGCTGCCGGGAGGCCTGACCCGCGTGGCCGCCGAGGCTGATGCCGAAGTGGTGTCGATGCAGCGCGGAGGCGCGAGCAAGGACACCTGGGTACTTGGCGAGCAGGCGCCCGGCGGTGAGCAATGGAAGGCCCAGCGAACCGTGGGCGTGCATGATCTGGTGCGCCGCGATCCCTATCTGCCGTCTCGTGTGGTGGAAAACCTGTTCTGGTTTGGCCGCTACTGCGAACGTTGCGACGACAGCGCCCGTCTGCTGCGGATCATGCTGGCGCGCTATGTCGATGGCGATGATCCGCAGGCCTTGCAATCGGCGGTCGCCCTGGGCGAGAGCCTGATGTTGTTGCCGGAGGAGGGCGAGTTGCCCGAACGCCTGCTGGCGGCCATGCTCGGGGATGACTGGTCGTTCAGCCTGCGCTCCAATCTGCAGCGCTTGCAGTGGGCGGCCTCCCAGGTCCGTGGCAAGCTGTCCCGGGAGAACTGGCAGGCACTGGTGGAACTGCAACGCGAAGCCGTGGAACTGGAAACCAGCGAGCCGGACTTCGGTGAGTTGCTGGATTTTCTCAATCGACTGGTGATGTCCCTGGCCGCGTTGTCCGGGTTCGCCCTGGACGACATGACCCGCGACGAGGGCTGGCGTTTCCTGATGATCGGCCGGCGCCTGGAGCGTCTGCAATTTCTCAGCAGCAGCCTGGCGGCATTCCTGCGCGGCGAGGCGGTTTTCGATCAGGCCGGGCTGGAATGGTTGCTGGAGTTGGGCAATAGCAGCATCACCTACCGTTCGCGATACCTGGCGGTGGCGCAGCTGATCCCGGTGCTCGATCTTCTGTTGCTGGACGAACAGAACCCTCACGCAGTGCTCTTCCAGTTGAAACTGGTGGCGCGCACCGTCAAGCGTCTGAACGACGATTTTGGCGCGCCGAGAGAAACCGCCCTGCCGGAACTGGTGGCGCGACTGTCGCGCTTTGACCTGCGCTGCCTGGAGAGTCTTTTGTTTGGCGAAGCCAGCCTGCGCGCGGCGCTCGACGGGCTGGCCGATCTGCTGCAGGAAGTCGCCGATGTCAGCGGGCAGGTGTCCGATCGCCTGGCCTTGCGCCATTTCGCCCATGTTGACGACGTCAGCCAGCGCACGGTATCCGTCTGA	MPDLLDRYPLTTGTYHELLDDSGAVRAHWRRLFDQLQRSTPAQLIQRQALLARQIQENGVTYNVYADPKGADRPWELDLLPHVIDAREWTQLSAGIAQRARLLNAVLADLYGPQRLISEGLLPAELVFGHNNFLWPCQGITPPDGNFLHLYAVDLARAPDGRWWVTADRTQAPSGAGYALENRTIVSRAFPDLYRDLKVQHLSGFFRTLQETLARQAPSNGEPPLVVLLTPGRFNESYFEHLYLARQLGYPLVEGGDLTVRDATVYLKTLSGLRRVHAIMRRLDDDFCDPLELRTDSALGVPGLLEAVRQGRVLVANALGSGVLESPGLLGFLPKISQFLFGEELMLPSIATWWCGEPPVLAQALEKLPQLLIKPAFPSQSFTPVFGRDLDEDQRARLAARMQARPYAYVAQELAQLSQAPVWQAEDGQIQPRAIGMRVYAVSGKDDYRVLPGGLTRVAAEADAEVVSMQRGGASKDTWVLGEQAPGGEQWKAQRTVGVHDLVRRDPYLPSRVVENLFWFGRYCERCDDSARLLRIMLARYVDGDDPQALQSAVALGESLMLLPEEGELPERLLAAMLGDDWSFSLRSNLQRLQWAASQVRGKLSRENWQALVELQREAVELETSEPDFGELLDFLNRLVMSLAALSGFALDDMTRDEGWRFLMIGRRLERLQFLSSSLAAFLRGEAVFDQAGLEWLLELGNSSITYRSRYLAVAQLIPVLDLLLLDEQNPHAVLFQLKLVARTVKRLNDDFGAPRETALPELVARLSRFDLRCLESLLFGEASLRAALDGLADLLQEVADVSGQVSDRLALRHFAHVDDVSQRTVSV				NA	NA	NA	NA	NA
D1-35_05087	894		COG1305	putative protein	ATGAATGCCCGTTACCAGATCCTTCACGACACCCACTATCATTACGACAGCCCGGTGTCCCTCGCCCAGCAACTGGCGCATCTATGGCCGCGGCCCTGTGAATGGCAGCGCTGTACCGAACGACAACTGACCATCAGCCCGGAGCCCACGACCCGTCGCGATGAAGAGGATGTGTTCGGCAATCCGCTGACCCGCCTGGCCTTCGAGCGGCCCCATGATGAGCTGCTGGTCAATGCCCGCCTGAGCGTCGAGGTGCTGGCGCGCCCGCCACTGGATTTCGGTTCATCGCCCGCCTGGGAATCCACTCGTCATGCATTGACCTACAGCGGCCGGCCGCTGACGGCGCAGTTGCTGGATGCATGCCGCTATCGTTTCGAGTCACCCTATGTGCACCTCAAGCGCAGCTTCGTCGAGTTTTCCGAAAGTTGTTTCCCGGTTGGTCGTCCGTTGATGCTCGGCGTCCAGGCGCTGATGGAAAAAATCTTCGAGGAATTCACTTTCGACGCGGAGGCCACCCAGGTCGCGACACCGCTGGTGGAAGTGCTGGAGCGACGCCGGGGCGTCTGCCAGGATTTTGCCCACCTGATGCTGGCCTGCGTACGTTCTCGCGGATTGGCGGCGCGTTACGTCAGCGGCTATCTGTTGACCCAGCCACCCCCCGGCCAGGCTCGATTGATTGGTGCCGATGCGTCTCACGCCTGGATTTCGGTGTTTTGCCCGGTGCTGGGATGGGTGGATTTCGATCCGACCAACAACGTGCAACCGTCCCTGGAGCACATCACCCTGGCCTGGGGCCGGGACTTTTCCGATGTGTCGCCTTTGCGCGGGGTGATCCTGGGGGGCGGTACCCATGACCCGGAGGTACGGGTGACGGTGATGCCGTTGGAGTCGTGA	MNARYQILHDTHYHYDSPVSLAQQLAHLWPRPCEWQRCTERQLTISPEPTTRRDEEDVFGNPLTRLAFERPHDELLVNARLSVEVLARPPLDFGSSPAWESTRHALTYSGRPLTAQLLDACRYRFESPYVHLKRSFVEFSESCFPVGRPLMLGVQALMEKIFEEFTFDAEATQVATPLVEVLERRRGVCQDFAHLMLACVRSRGLAARYVSGYLLTQPPPGQARLIGADASHAWISVFCPVLGWVDFDPTNNVQPSLEHITLAWGRDFSDVSPLRGVILGGGTHDPEVRVTVMPLES				NA	NA	NA	NA	NA
D1-35_05088	378			hypothetical protein	ATGTTCCCGGTTTCCATCAAAGGCGTACTGCAATCTCCCGACGGCCTGGTCGTGCTGATGCTCAACGAGCGTGACGAATGGGAGCTGCCCGGTGGGCGGATCGAGCTGGGCGAAACGCCGCCGCAGTGCCTGGCACGGGAAATCGCCGAGGAGCTGGCGGTCGAGGTCAGCGTGGGCGAACCGCTGGATTCGTATCTGTTCGAGGTGATTCCCGGCAAACACGTGTTCATCTCCACTTACCGCTGCCAGTTGCTGGGCGGTTTCGTGCCGACGATCAGTCATGAGCACAAGGAGATCGGGCTGTTCGAGCCAAGCCAGTTGCCAGCGAACCTGCCGGCTGGTTATCGCTTGTCGATTATCAACGCGCTGGGGTTGTGA	MFPVSIKGVLQSPDGLVVLMLNERDEWELPGGRIELGETPPQCLAREIAEELAVEVSVGEPLDSYLFEVIPGKHVFISTYRCQLLGGFVPTISHEHKEIGLFEPSQLPANLPAGYRLSIINALGL				NA	NA	NA	NA	NA
D1-35_05089	186			hypothetical protein	ATGGCCAAACCCAATTATTCCTTCGCCAAACGTCAGAGAGACCTGGCCAAGGAGCAGAAGAAAGAGGAAAAGCTCCAGCGCAAGAAAGCCACCGCCGATGAAGCAGCACTGAACCCCGATGCTGAAGGTGAAGTGGCGGCAGACGATGATACAGATGCACCGAAAGACCAGGCCCCCGACGCCTGA	MAKPNYSFAKRQRDLAKEQKKEEKLQRKKATADEAALNPDAEGEVAADDDTDAPKDQAPDA				NA	NA	NA	NA	NA
D1-35_05090	588		COG1611	Putative cytokinin riboside 5'-monophosphate phosphoribohydrolase	ATGTCCATAGCGTCTGTTTGTGTATTTTGCGGCGCCAGCGCCGGCAGCCATCCCGCCTATCGCGAAGCGGCTCAGGCCCTGGGGCAGGCACTGGCGGAGCGAAAACTGACCCTGGTCTACGGCGGCGGCGCGGTCGGCCTGATGGGAATCGTCGCTGATGCAGCCCTCGCGGCTGGCGGCGAAGTGATTGGCATCATCCCGCAAAGCCTGAAAGACAAAGAAATCGGCCACAGCGGCCTGACACGCCTGGAAGTGGTGGACGGCATGCATGCGCGCAAGGCCCGCATGGCTGAACTCAGCGACGCCTTCATCGCCCTTCCCGGCGGCCTCGGCACCCTGGAAGAACTTTTCGAAGTGTGGACCTGGGGCCAGCTCGGCTACCACGCTAAACCGATGGGGCTGCTGGAAGTGAACGGTTTCTACAGCAAACTCACCGGTTTTCTCGATCACATCGTCGGTGAAGGCTTCGTCCGGGCGCCGCATCGTGACATGCTGCAAGTGAGCGACTCGGCCCATGACCTGCTCGATGCGCTGGATGAATGGCAACCCTCGGTGCCGCCGAAATGGGCCGAGCAAAAACCCAGCTAA	MSIASVCVFCGASAGSHPAYREAAQALGQALAERKLTLVYGGGAVGLMGIVADAALAAGGEVIGIIPQSLKDKEIGHSGLTRLEVVDGMHARKARMAELSDAFIALPGGLGTLEELFEVWTWGQLGYHAKPMGLLEVNGFYSKLTGFLDHIVGEGFVRAPHRDMLQVSDSAHDLLDALDEWQPSVPPKWAEQKPS	PGPT0007225_179	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007225-log|yvdD-K22522	NA	NA
D1-35_05091	90			hypothetical protein	ATGAACCTCAACAGCCTGTTATGCAGCCTGCTCGCCGCCTACGCCTGCGGCGCCAGCGGCACCTACGAAAAACCCCGGCGCGAGGTTTAA	MNLNSLLCSLLAAYACGASGTYEKPRREV				NA	NA	NA	NA	NA
D1-35_05092	447			Azurin	ATGTTCGCCAAACTTGTAGCAGTATCCCTGTTGACGCTGGCCAGCAGCCAACTGATGGCAGCGGAGTGCAAGACCACCATCGATTCCACCGACCAGATGTCCTTCAATGCCAAGGCCATCGAAATCGACAAGAGCTGCAAAACCTTCACCGTTGAGCTGACTCATTCCGGCAACCTGCCAAAAAACGTCATGGGTCATAACTGGGTGCTGAGCAAAGAGGCTGACATGCAGCCGATCGCCACCGACGGTCTGGCCGCTGGCATTGACAAGGATTACCTGAAGGAAGGTGATGCTCGCATCATCGCCCACACCAAAATCATCGGCGCCAAGGAAACCGACTCGGTGACCTTTGATGTTTCGAAATTGAGTGCTTCCGAGAAGTACGGTTTCTTCTGCTCGTTCCCGGGCCACATCTCGATGATGAAAGGCACGGTTACCCTGAAATAA	MFAKLVAVSLLTLASSQLMAAECKTTIDSTDQMSFNAKAIEIDKSCKTFTVELTHSGNLPKNVMGHNWVLSKEADMQPIATDGLAAGIDKDYLKEGDARIIAHTKIIGAKETDSVTFDVSKLSASEKYGFFCSFPGHISMMKGTVTLK				NA	NA	NA	NA	NA
D1-35_05093	828	nadE_3	COG0171	NH(3)-dependent NAD(+) synthetase	ATGCAAGCCGTACAGCGTGAGATTGCTGAACAGCTCAAGGTCCAGCCACCGTTCGCCGATGACGCCGCCCTCAAGGCCGAAATCGCGCGCCGGGTGAGCTTCATTCAGGACTGCCTCGTCAACTCGGGTCTCAAAAGCCTGGTGCTGGGAATCAGCGGTGGGGTCGACTCGTTGACCGCCGGCCTGCTGGCCCAACGTGCCGTGCGCGAGCTGCGGGAAAAAACCGGCAATTCGGCGTACCGGTTCATCGCCGTGCGCCTGCCGTACGAAACCCAGTTCGATGAGCACGAAGCCCAGGCCTGCGTCGATTTCATCGAGCCGGACGAGCGCCATACCGTCAACATCGGTCCGGCGGTCAAGGCATTGGCGAAGGAAGTCCTGGCATTCGAAGGCAAGGCGCCGGGTTCGCGGGATTTCGTGTTGGGCAATACCAAGGCGCGGATGCGCATGGTGGCGCAATACACCATCGCCGGCGCGGAGCAAGGTCTGGTGATCGGGACCGATCACGCGGCCGAAGCGGTCATGGGTTTCTTCACCAAGTTCGGTGATGGCGCCTGTGACCTGGCCCCGCTGAGCGGCCTGGTGAAAAACCAGGTCCGGGCCATCGCCCGGGATTTCGGCGCGCCGGAGTCGCTGGTGGAAAAAGTCCCCACCGCTGATCTGGAAGACCTGTCGCCGGGCAAGCCGGATGAAGCCGCCCATGGCGTGACCTACGGCGAGATCGACGCCTTCCTGCATGGCCAACCGATTCGCGAAGAGGCGGCCAGGATCATTTGCGAAACCTACCGCAAGACCGAGCACAAGCGAGTGATGCCGTACGCTCCGTGA	MQAVQREIAEQLKVQPPFADDAALKAEIARRVSFIQDCLVNSGLKSLVLGISGGVDSLTAGLLAQRAVRELREKTGNSAYRFIAVRLPYETQFDEHEAQACVDFIEPDERHTVNIGPAVKALAKEVLAFEGKAPGSRDFVLGNTKARMRMVAQYTIAGAEQGLVIGTDHAAEAVMGFFTKFGDGACDLAPLSGLVKNQVRAIARDFGAPESLVEKVPTADLEDLSPGKPDEAAHGVTYGEIDAFLHGQPIREEAARIICETYRKTEHKRVMPYAP	PGPT0013445_1789	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013445-nadE-K01916	NA	NA
D1-35_05094	1227	pncB2_2	COG1488	Nicotinate phosphoribosyltransferase 2	ATGAGCGAGAGCGTGTTTGCCGATCGCATCGTGCAGAACCTGCTCGACACCGACTTCTACAAGCTGACGATGATGCAGGCGGTGCTGCACAACTACCCCAACGTCGAAGTGGAATGGGAGTTTCGTTGCCGCAACAGCGAAGACCTGCGCCCTTACCTCGCGGAAATTCGTTTCCAGATCGAACGCCTCGCCGAGTTGAGCCTGAGCGCCGACCAGCTGGGTTTCCTTGAGCGCATCAGCTTCCTCAAGCCGGATTTCCTGCGCTTCCTGGGCTTGTTTCGCTTCAACCTGCGCTATGTGCACACCGGCATCGATAACGGCGAGCTGTTTATCCGTCTGCGCGGGCCCTGGCTGCACGTCATCCTGTTCGAAGTACCGCTGCTGGCCATCGTCAGCGAGGTGCGCAACCGTTATCGCTACCGTGAAGTCGTCCTGGAACAGGCGCGAGAGCAGCTTTATCGCAAGTTCGACTGGCTGACGGCCAACGCCAGTGCCGACGAATTGTCCGAACTGCAAGTGGCCGACTTCGGTACTCGCCGCCGGTTTTCCTACCGTGTCCAGGAAGAAGTGGTGAACGTGCTCAAGCACGACTTCCCCGGCCGCTTCGTCGGCACCAGCAATGTGCACCTGTCCCGAGAGCTGGACATGAAGCCCTTGGGCACCATGGCCCACGAATGGATCATGGCCCACCAGCAGCTGGGTCCGCGACTGATCGACAGCCAGATCGCCGCGCTCGATTGCTGGGTTCGTGAATACCGAGGCCTGCTGGGCATCGCGCTGACCGACTGCATCACCATGGATGCGTTCCTCAAGGACTTCGATCTGTTCTTCGCCAAGCTGTTCGACGGTTTGCGCCATGATTCGGGGGATCCGGTCATCTGGGCTGAAAAGGCCATTGCCCACTACCACAAACTGGGCATCGACCCGATGAGCAAGACCCTGGTGTTCTCCGACAGCCTGACATTGCCCAAATGCCTGGATATTTTCCGCGCCTTGCGTGGTCGCATTAATGTGAGCTTCGGTATCGGGACCAACCTGACTTGCGACATTCCAGGCGTGGAGCCGATGAGCATCGTGCTTAAAATGATCAGCTGTGACGGGCAACCCGTGGCCAAGATTTCCGACGAGCCCGGCAAGACCCACTGCAAGGACCCGAATTTCGTCGCCTATATGCGACATGTTTTCCAAGTACCTGCCGCCCTTTCCGGCACATCAAGCAAGGAGTGA	MSESVFADRIVQNLLDTDFYKLTMMQAVLHNYPNVEVEWEFRCRNSEDLRPYLAEIRFQIERLAELSLSADQLGFLERISFLKPDFLRFLGLFRFNLRYVHTGIDNGELFIRLRGPWLHVILFEVPLLAIVSEVRNRYRYREVVLEQAREQLYRKFDWLTANASADELSELQVADFGTRRRFSYRVQEEVVNVLKHDFPGRFVGTSNVHLSRELDMKPLGTMAHEWIMAHQQLGPRLIDSQIAALDCWVREYRGLLGIALTDCITMDAFLKDFDLFFAKLFDGLRHDSGDPVIWAEKAIAHYHKLGIDPMSKTLVFSDSLTLPKCLDIFRALRGRINVSFGIGTNLTCDIPGVEPMSIVLKMISCDGQPVAKISDEPGKTHCKDPNFVAYMRHVFQVPAALSGTSSKE	PGPT0013375_3316	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013375-pncB-K00763	NA	NA
D1-35_05095	909	gcvA_9		Glycine cleavage system transcriptional activator	ATGCTCAATAAGCGCTATTTGCCGTCTATCACCGCGCTGCAGTGCTTCGAAGCGGTGACCCGTCACCTGAGCTTCACCCGCGCCGCCGAAGAATTGAACCTGACCCAGAGCGCCGTCAGCAAACAGGTCGCGCAGCTTGAAGAGTTGCTGCAACACCTGCTGTTTCGCCGCGTTCGCCGACGCTTGCAGCTGACGCCCGCCGGGGATCTGTATCTGGGGGAGGTGCGAAAAATCCTTTCCCAGGTAGAGATGTCGACCCATTACCTGCGTTCCTACGGTGGCGACACCGAAGTCCTGCGAGTCTCTACGCCTCCGACCTTCGGCGCCCGCTGGCTGGTCCCGCGGCTCAAGGGCTGGCGCCTGCGCCATCCCAGCATTCATCTGGACCTGTGCAGCGAGCAGGAGGCCGACGACCTGCAGCAGGGACGCAGTGACCTGGCGTTCTATTTTGGCCAGGGATCGCGGCCGGGCACCGAATCCCTGAAGCTGTTCGGCGAAGAACTGGTGCCGGTCTGCGCCCCGGGCAGCTTGCCGGACGAGCCTTTTACCGACCCCACGCAACTGACCGGGCTGGTGCTGCTGCAGAACGCCTCCCGGCCCCAGGCATGGCATGACTGGTTCGACCATCAGGGTTATCACACCGAACACAGCTACCACGGGCCACGCTTCGAGACGTTTTACATGTGCATCCGCGCCGCCCAGGTCGGCTGTGGCGTGGCCCTGTTGCCAAGATTCCTGGTGGAGGAAGAACTGGCTGACGGCAAGCTGGTCATCCCTTGGCAACATCCGATGCCCAGTACCAATGCCTACTACCTGGCGTACCCGGAACATTCGGCGGAAGTGCCCAAGGTGCGGTTGTTCGTGGAATGGATGCTGGAGCAGATCGAAGGTACTGGCACAGCCCCCTAG	MLNKRYLPSITALQCFEAVTRHLSFTRAAEELNLTQSAVSKQVAQLEELLQHLLFRRVRRRLQLTPAGDLYLGEVRKILSQVEMSTHYLRSYGGDTEVLRVSTPPTFGARWLVPRLKGWRLRHPSIHLDLCSEQEADDLQQGRSDLAFYFGQGSRPGTESLKLFGEELVPVCAPGSLPDEPFTDPTQLTGLVLLQNASRPQAWHDWFDHQGYHTEHSYHGPRFETFYMCIRAAQVGCGVALLPRFLVEEELADGKLVIPWQHPMPSTNAYYLAYPEHSAEVPKVRLFVEWMLEQIEGTGTAP	PGPT0026360_3724	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
D1-35_05096	1491	gabD_1	COG1012	Succinate-semialdehyde dehydrogenase [NADP(+)]	ATGGTTGCTGCATTGCTTGATCGTCTGGGCGTCAACCCGGCCCTGTACCAGAACGGCAAACAGCCCGTGCATTCGCCCATCGACGGCAGCCGCATCGGCGCGGTGAACTGGGAAGGCGCCGCCGAAGTCGAGCAACAGGTCAGCCGTGCCGAACATGCCTTCGATTTGTGGCGCAAGGTGCCGGCGCCCCGTCGCGGCGAGCTGGTGCGTCAGTTTGGCGACCTGCTGCGTGAATACAAGGCCGACCTCGGCGAACTGGTGTCGTGGGAAGCCGGCAAGATCACTCAGGAAGGCCTGGGTGAAGTGCAGGAGATGATCGACATCTGTGATTTCGCCGTCGGTCTATCCCGCCAGTTGTATGGCCTGACCATCGCCTCCGAGCGACCGGGCCATCACATGCGGGAAACCTGGCACCCGCTGGGGGTGGTCGGGGTGATCAGCGCCTTCAACTTCCCGGTGGCGGTGTGGGCCTGGAACACCACGCTGGCCCTGGTGTGCGGCAATTCGGTGATCTGGAAACCGTCGGAGAAAACCCCGCTGACCGCCCTGGCCTGCCAGGCATTGTTCGAGCGCGTACTGGAGAATTTCAGTGATGCGCCGCCGTACCTGAGCCAAGTGATCATCGGTGGTCGCGATGCCGGCGAAGCCCTGGTGGATGACCCGCGCGTGGCGTTGATCAGCGCCACCGGCAGCACCCGGATGGGGCGCGAAGTCGCACCAAAAGTCGCGGCGCGTTTTGCCCGCAGTATCCTCGAACTGGGTGGCAACAACGCCATGATCCTGGCCCCGAGCGCCGACCTGGACATGGCAGTGCGGGCGATCCTGTTCAGCGCCGTCGGCACCGCCGGCCAGCGCTGCACCACCCTGCGCCGTTTGATCGCCCATGAATCGGTGAAGGAGGAGATCGTCACCCGCCTCAAGGCCGCCTACTCGAAAGTGCGCATCGGTCATCCGCTGGAAGGCAACCTGGTAGGGCCGCTGATCGACAAGCAGAGCTTCGACAACATGCAGGATGCGCTGGAGCAGGCCCTCAGCGAAGGCGGCCGGGTGTTTGGTGGCAAGCGCCAGCTCGAAGAGCAGTTCCCGAACGCCTACTACGTTTCGCCGGCCATCGTCGAAATGCCGGAGCAAAGCGACGTGGTGCGTCACGAAACGTTCGCGCCGATCCTCTACGTGGTCGGTTACAAGGATTTTGCTGAAGCACTGGATTTGAACAATTCCGTGCCCCAAGGCCTGTCGTCGTGCATCTTCACCACTGATGTGCGTGAGGCCGAGCAGTTCATGTCGGCGGTGGGCAGCGATTGCGGCATCGCCAACGTCAACATCGGCCCGAGCGGCGCGGAGATCGGCGGTGCCTTTGGTGGCGAAAAGGAAACCGGCGGCGGTCGCGAGTCCGGCTCCGATGCATGGCGCGGCTATATGCGTCGTCAGACCAATACTGTGAATTATTCGCTGGAACTGCCTTTGGCCCAGGGGATTACTTTCGACTGA	MVAALLDRLGVNPALYQNGKQPVHSPIDGSRIGAVNWEGAAEVEQQVSRAEHAFDLWRKVPAPRRGELVRQFGDLLREYKADLGELVSWEAGKITQEGLGEVQEMIDICDFAVGLSRQLYGLTIASERPGHHMRETWHPLGVVGVISAFNFPVAVWAWNTTLALVCGNSVIWKPSEKTPLTALACQALFERVLENFSDAPPYLSQVIIGGRDAGEALVDDPRVALISATGSTRMGREVAPKVAARFARSILELGGNNAMILAPSADLDMAVRAILFSAVGTAGQRCTTLRRLIAHESVKEEIVTRLKAAYSKVRIGHPLEGNLVGPLIDKQSFDNMQDALEQALSEGGRVFGGKRQLEEQFPNAYYVSPAIVEMPEQSDVVRHETFAPILYVVGYKDFAEALDLNNSVPQGLSSCIFTTDVREAEQFMSAVGSDCGIANVNIGPSGAEIGGAFGGEKETGGGRESGSDAWRGYMRRQTNTVNYSLELPLAQGITFD	PGPT0006875_3784	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
D1-35_05097	1284	puuB_6		Gamma-glutamylputrescine oxidoreductase	ATGCCGTTACGCGAAGAATGTCTGTGGGAAAAGCTGACGCCACAACGGCCCGAAAACACCGTGCTCACAGGCGAGGTGACGGTGGATGTCTGCGTCATCGGCGCCGGTTTCACCGGTCTGTCAGCGGCGGTGCACTTGCTCGAGCAGGGCAAACGCGTGGCAGTGCTGGAAGCCCATCGGGCCGGACATGGCGGCTCGGGGCGTAACGTCGGGCTGGTGAACGCCGGCCTGTGGATCCCGCCGGATGATATCGAGGCCGGTTTTGGCGAGGCGGTGGGCAGCCAGCTCAACCGCATGCTCGGGGCCGCGCCGGCCTTGGTGTTCAGCCTCGTCGACAAATACAACATCGATTGCCAGCTGCGCCGCGAAGGCACCCTGCATATGGCCCACAACGCCCGGGGCGAGGCGGACCTGCGCAGCCGCGAAGAACAATGGAAACGCCGTGGCGCGCCGGTGGAACTGCTGACCGGCCAAGCCTGTGCCGAGGCTACCGGCACCGACAGGATCGCCGCGGCATTGCTCGATCGCCGCGCCGGCACGCTCAACCCGATGGCCTACACCAGCGGGCTGGCCAAGGCGGCCAAGGACCTTGGCGGCCAGTTGTTCGATCATTCGCCGGTCACGCGCCTGGAACGCCAAGGCCAGCGCTGGTCAGTGCAGACTGCCCAGGGCTCGGTGCTGGCCGAGCAAGTCGTGATCGCGTCCAACGCCTATACCGAAGGCGACTGGACCGAACTGCGGCGCAATTTCTTTCCCGGATATTACTATCAGGTCGCTTCGGTCCCACTGACCGACGCGGCCGCCCACCGAATTCTGCCGGGTGGGCAAGGTTCCTGGGATACTCGCCAGGTATTGAGCAGCATCCGCCGGGACAAGGACGGTCGCTTGCTGCTCGGCAGCCTGGGCAATGGCAACCGTAAGCCAACCTGGTTTCTCAAGGCCTGGGCGGACCGCGTCCAGCAGCATTATTTCCCTTACCTCAAGCCTGTGGAGTGGGAGTGCACCTGGACCGGTTGCATTGCGTTCACGCCCGATCATCTGATGCGCCTGTTCGAGCCGGCGCCAGGCCTGGTGGCAGTCACCGGCTACAACGGTCGAGGCGTGACCACCGGCACCGTGGTCGGCAAGGCATTCGCCGACTATCTGTGCCACGGCGATGCCAAGGCATTGCCCATCCCTTTCGCGCCCATGCAACCCTTGGCCGGCGTGGGCCTGCGCAGTTGCCTGTATGAGGCGGGCTTTTCCCTGTATCACGCGGGCCAGTGCCTGCGGATCGTCATCTGA	MPLREECLWEKLTPQRPENTVLTGEVTVDVCVIGAGFTGLSAAVHLLEQGKRVAVLEAHRAGHGGSGRNVGLVNAGLWIPPDDIEAGFGEAVGSQLNRMLGAAPALVFSLVDKYNIDCQLRREGTLHMAHNARGEADLRSREEQWKRRGAPVELLTGQACAEATGTDRIAAALLDRRAGTLNPMAYTSGLAKAAKDLGGQLFDHSPVTRLERQGQRWSVQTAQGSVLAEQVVIASNAYTEGDWTELRRNFFPGYYYQVASVPLTDAAAHRILPGGQGSWDTRQVLSSIRRDKDGRLLLGSLGNGNRKPTWFLKAWADRVQQHYFPYLKPVEWECTWTGCIAFTPDHLMRLFEPAPGLVAVTGYNGRGVTTGTVVGKAFADYLCHGDAKALPIPFAPMQPLAGVGLRSCLYEAGFSLYHAGQCLRIVI				NA	NA	NA	NA	NA
D1-35_05098	1137	braC_2	COG0683	Leucine-, isoleucine-, valine-, threonine-, and alanine-binding protein	ATGTCCCAGACGTTTTACAAGAAAGGCTTTCTGGCCCTCGCAGTGGCAGCTGCGCTGGGTGTTTCTGCGTTTGCCCAGGCTGATGTGAAATTTGGTGTGGCGGGGCCGATGACCGGCGCCAACGCCGCGTTTGGCGAGCAGTACATGAAAGGTGCGCAGGCCGCGGCCGATGTCATCAACAAGGCAGGTGGCGTCAATGGCGAAAAAATCGTCCTGGTCGCCGGTGACGACGCCTGCGAACCGAAGCAGGCCGTGGCCGTGGCCAACCGACTGGTTGACCAGGACAAAGTGATCGGCGTGGTCGGGCACTTCTGCTCGTCCAACACCATCCCGGCCTCCGAGGTCTATGACGAAGCAGGCATCATTGCCATCACCCCAGGCTCGACCAACCCGGCCGTTACCGAACGTGGCCTGAGCGCGATGTTCCGCATGTGTGGTCGTGACGACCAGCAAGGCATCGTGGCTGGCGACTACATCGTCGACGTGCTCAAGGGCAAGAAAGTCGTCGTCCTGCACGACAAGGACACCTACGGCCAAGGCCTGGCGGATGCTACCAAGGCACAACTGGCCAAGCGTGGCGTGACCCCTGTCTTGTACGAAGGCCTGACCCGTGGCGAAAAAGACTTCAGCGCCGTGGTGACCAAGATCCGTTCGGCCGGTGCCGACGTGGTCTACTTCGGCGGCCTGCACCCGGAAGCCGGCCCGCTGGTTCGCCAGCTGCGTGAGCAAGGACTCAAGGACGTCAAGTTCATGTCCGACGATGGCATCGTCACCGATGAACTGGTCACTACCGCTGGTGGCGCGCAATACGTCGATGGCGTGTACATGACCTTCGGCGCCGACCCGCGCCTGCTGCCGGACAGCAAGGCCGTGGTGGACGCTTTCCGTGCCCAGGGCGTCGAGCCTGAGGGCTACACTCTGTACGCCTATGCCTCGGTCCAGGCGCTGGCCGCCGGTTTCAATGGTGCCAAGTCCAACAAGGGCGAAGACGCCGCCAAGTGGCTGAAAGCCAACCCGGTGAAAACCGTCATGGGCGAAAAAGCCTGGGACACCAAAGGCGACCTGAAAGTCTCCGATTACGTGGTCTACCAGTGGGACAAGGATGGCAAATACCACCAGTTGGAAAAACAGAAGTAA	MSQTFYKKGFLALAVAAALGVSAFAQADVKFGVAGPMTGANAAFGEQYMKGAQAAADVINKAGGVNGEKIVLVAGDDACEPKQAVAVANRLVDQDKVIGVVGHFCSSNTIPASEVYDEAGIIAITPGSTNPAVTERGLSAMFRMCGRDDQQGIVAGDYIVDVLKGKKVVVLHDKDTYGQGLADATKAQLAKRGVTPVLYEGLTRGEKDFSAVVTKIRSAGADVVYFGGLHPEAGPLVRQLREQGLKDVKFMSDDGIVTDELVTTAGGAQYVDGVYMTFGADPRLLPDSKAVVDAFRAQGVEPEGYTLYAYASVQALAAGFNGAKSNKGEDAAKWLKANPVKTVMGEKAWDTKGDLKVSDYVVYQWDKDGKYHQLEKQK	PGPT0020765_12379	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
D1-35_05099	915	livH_4	COG0559	High-affinity branched-chain amino acid transport system permease protein LivH	ATGGATGGTATTTTCCTGCAGCAACTGATCAACGGCCTGACCCTCGGGTCGGTCTATGGTCTGATCGCCATCGGCTACACAATGGTCTATGGCATCATCGGCATGATCAACTTCGCCCACGGCGAGGTTTACATGATTTCCGCTTACCTCGCGGCAATCAGTCTGGCTCTGCTGGCTTACTTCGGTATCGAATCCTTTCCGCTGATGATCCTTGGCACTCTGGTGTTCACGATCGTGGTCACCGGGGTATACGGCTGGGTCATCGAACGCGTCGCCTACAAACCCCTGCGCAACTCCACCCGACTGGCACCGCTGATCAGCGCCATCGGCATCTCGCTGATCCTGCAGAACTACGCGCAGATCAGCCAGGGCGCCCGCCAACAGGGTGTGCCGACACTGCTCGAAGGCGCCATGCGCGTCGACATCGGTACCGGCTTCGTGCAGCTCACCTACACCAAGATATTCATCCTGATTGCCGCATTCGCCGGCATGGCGCTGCTGACCTACATCATCAAATACACCAAGCTCGGCCGCATGTGCCGTGCCACCCAGCAAGACCGCAAGATGGCCTCCATCCTTGGCATCAACACCGACCGGGTGATTTCCTACGTGTTCATCATCGGTGCGGCCATGGCGGCCCTGGCCGGTGTGCTGATTACCATGAACTACGGCACCTTCGACTTCTATGCCGGCTTCATCATCGGCATCAAGGCGTTCACCGCGGCGGTACTCGGCGGCATCGGCTCCCTGCCTGGGGCAATGCTCGGCGGGATCATCCTCGGGATCTCCGAGTCGCTGTTCGCCGGTCTGATCAACTCCGACTACAAAGACGTGTTCAGTTTCTCGCTGCTGGTGCTGATTCTGATTTTCCGTCCCCAAGGCCTGTTGGGTCGCCCACTCGTGGCGAAGGTATAA	MDGIFLQQLINGLTLGSVYGLIAIGYTMVYGIIGMINFAHGEVYMISAYLAAISLALLAYFGIESFPLMILGTLVFTIVVTGVYGWVIERVAYKPLRNSTRLAPLISAIGISLILQNYAQISQGARQQGVPTLLEGAMRVDIGTGFVQLTYTKIFILIAAFAGMALLTYIIKYTKLGRMCRATQQDRKMASILGINTDRVISYVFIIGAAMAALAGVLITMNYGTFDFYAGFIIGIKAFTAAVLGGIGSLPGAMLGGIILGISESLFAGLINSDYKDVFSFSLLVLILIFRPQGLLGRPLVAKV	PGPT0020770_3892	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
D1-35_05100	1281			hypothetical protein	ATGTCTGCTGCCAATAAACCGCTTGATATCAAAAAGAGCGTCATCGACGCGATCCTGGCCGGCCTGATCTCGCTGATCGTATTCGGGCCGATCGTCGGCGTAGTGCTCGACGGCTACAGCTTCAACCTGCAACCGGCCCGCGTCGGCTGGCTGGTGGCGATCGTGATGGTCGGGCGCTTTGCCCTGAGCCTGTTCCTGCAAACCCCGAAGGGGCTGAAGATCCTCCAGGGGTTCGAGAGCACTGGCTCCGGCGTGCATGTGCTGCCACCCGACTACAAATCGCGGCTGCGCTGGATCATCCCGGCCCTGATCGTGATTGCCATCGTGTTCCCGTTCTTCGCCAACAAGTACGTGCTTACCGTAGTCATCCTCGGGCTGATCTACGTGCTGCTGGGCCTGGGCCTGAATATTGTGGTCGGCCTGGCCGGGTTGCTCGATCTGGGTTACGTGGCGTTCTATGCCATCGGCGCCTACGGCCTGGCGCTGGGTTACCAATACCTGGGGCTGGGTTTCTGGACTGTGCTGCCGCTGGCGGCCATCGCAGCGGCGATGGCCGGGTGTATTTTAGGATTCCCCGTGTTGCGAATGCACGGTGACTACCTGGCCATCGTGACCCTGGGCTTCGGCGAGATCATCCGGCTGGTGCTGAACAACTGGTTGTCGTTCACTGGCGGGCCGAATGGCATGCCGGTTCCTGCACCAACCTTCCTGGGCCTGGAGTTCGGCAGGCGAGCGAAGGACGGCGGGGTGCCGTTCCATGAGTTCTTCGGCATCGACTACAACCCCAACATCAAATTCCTGTTCATCTACATCGTGTTGTTCATCACCGTATTGCTGGTGCTCTACGTCAAGCATCGCCTGACCCGCATGCCGGTCGGCCGCGCCTGGGAGGCCCTGCGCGAGGACGAAATCGCCTGTCGCTCCATGGGCTTGAACCATGTGCTGGTCAAGCTTTCTGCGTTCACCATCGGTGCTTCCACCGCTGGCCTGGCGGGAGTGTTTTTTGCCAGTTACCAGGGTTTCGTCAATCCGTCCTCTTTCACCTTCTTCGAGTCGGCGTTGATCCTGGCGATCGTCGTGCTGGGTGGCATGGGCTCGACGGTTGGCGTGGTGATCGCGGCATTCGTGCTCACCGTGGCGCCGGAGCTGCTGCGCAGTTTCTCGGAATACCGCGTGCTGCTATTCGGCGTACTGATGGTATTGATGATGATCTGGCGCCCACGCGGCCTGATCCGCATCAGCCGTACCGGTGTGACGCCGCGCAAGGGGGTAGCGCCATGA	MSAANKPLDIKKSVIDAILAGLISLIVFGPIVGVVLDGYSFNLQPARVGWLVAIVMVGRFALSLFLQTPKGLKILQGFESTGSGVHVLPPDYKSRLRWIIPALIVIAIVFPFFANKYVLTVVILGLIYVLLGLGLNIVVGLAGLLDLGYVAFYAIGAYGLALGYQYLGLGFWTVLPLAAIAAAMAGCILGFPVLRMHGDYLAIVTLGFGEIIRLVLNNWLSFTGGPNGMPVPAPTFLGLEFGRRAKDGGVPFHEFFGIDYNPNIKFLFIYIVLFITVLLVLYVKHRLTRMPVGRAWEALREDEIACRSMGLNHVLVKLSAFTIGASTAGLAGVFFASYQGFVNPSSFTFFESALILAIVVLGGMGSTVGVVIAAFVLTVAPELLRSFSEYRVLLFGVLMVLMMIWRPRGLIRISRTGVTPRKGVAP	PGPT0020775_2292	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
D1-35_05101	873	glnQ_10		Glutamine transport ATP-binding protein GlnQ	ATGAGCGAAGTCGTACTCAAAGTCGAAAACCTGATGATGCAGTTCGGTGGCATCAAGGCCCTCAGCGACGTCAGCCTGCAAGTCAAGCGCAACTCGATCTTCGCCCTGATCGGCCCCAACGGCGCGGGCAAGACCACGGTGTTCAACTGCCTGACCGGTTTCTACAAGGCTTCGGGCGGCAAGATCGAACTCAACGTGCGTGGCGAGCAGACCAACGTGATCAAGTTGTTGGGCGAAGCGTTCCGCCCGACGGACTTTGTCTCGCCAAAGTCTTTCGCCAGCCGGCTGTACTACAAGATGTTCGGCGGCACCCACCTGGTAAACCGCGCCGGCCTGGCGCGAACGTTCCAGAACATTCGCCTGTTCAAGGAAATGTCGGTGCTGGAGAACCTGCTGGTGGCCCAGCACATGTGGGTCAATCGCAGCCTGGTGGCGGGCATCCTCAACACCAAGGGTTATCGTCAGGCGGAAAGCGATGCCCTGGACCACGCTTTCTACTGGCTGGAAGTTGTGGACCTGGTGGACTGTGCCAACCGCCTGGCTGGTGAGCTTTCCTACGGCCAGCAGCGCCGCCTGGAAATCGCCCGGGCGATGTGCACGCGTCCGCAGATCATCTGCCTCGACGAACCGGCCGCCGGCCTCAACCCTCAGGAAACCGAAGCGCTGAGCGCGATGATCCGGCTGCTGCGCGACGAGCACGATCTGACCGTGGTGCTGATCGAACACGACATGGGCATGGTGATGAGTATTTCCGATCACATCGTAGTGCTGGATCACGGCAACGTGATTGCCGAGGGCGGTCCCGAGGCGATTCGCAACGATCCGAAGGTGATCGCGGCTTACCTGGGCGCCGATGAAGAGGAATTGGTATGA	MSEVVLKVENLMMQFGGIKALSDVSLQVKRNSIFALIGPNGAGKTTVFNCLTGFYKASGGKIELNVRGEQTNVIKLLGEAFRPTDFVSPKSFASRLYYKMFGGTHLVNRAGLARTFQNIRLFKEMSVLENLLVAQHMWVNRSLVAGILNTKGYRQAESDALDHAFYWLEVVDLVDCANRLAGELSYGQQRRLEIARAMCTRPQIICLDEPAAGLNPQETEALSAMIRLLRDEHDLTVVLIEHDMGMVMSISDHIVVLDHGNVIAEGGPEAIRNDPKVIAAYLGADEEELV	PGPT0020780_1790	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
D1-35_05102	717	livF_4	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGAGTGGGCCTATCCTCGAACTCAAGGAGCTGGACGTGTTCTACGGGCCGATCCAGGCCCTGAAGAAAGTCTCGATGCACATCGGCGAAGGCGAAACCGTGAGCCTGATCGGCTCCAACGGTGCCGGCAAGTCCACGCTGCTGATGTCGATCTTCGGCCAGCCCCGCGCTGCGGGTGGGCAGATCATCTACCAGGGCGTGGACATCACCCACAAGTCGTCGCACTACATCGCCTCCAACGGCATCGCTCAATCGCCGGAAGGGCGCCGGGTGTTCCCCGACATGACCGTTGAGGAAAACCTGCTGATGGGCACCATTCCTATCGGTGACAAATACGCCAGCGAAGACATGCAGCGCATGTTCGAGCTGTTTCCGCGGCTCAAGGAGCGCCGCAACCAGCGAGCCATGACCATGTCCGGCGGCGAGCAGCAAATGCTCGCCATCGCCCGGGCCTTGATGAGCCGGCCGAAGTTGTTGCTGCTCGACGAGCCGAGCCTGGGGCTGGCGCCGATCGTGGTGAAGCAGATCTTCGCCACCCTGCGGGAACTGGCGTCCACCGGCATGACTATCTTCCTGGTGGAGCAGAACGCCAACCACGCGCTCAAGCTGTCAGACCGGGCCTATGTGATGGTCAACGGAGAAATCCGCCTGACCGGCAGCGGCAAGGAACTACTCGCCAACGAAGAGGTGCGCAACGCGTATCTTGGCGGGCATTGA	MSGPILELKELDVFYGPIQALKKVSMHIGEGETVSLIGSNGAGKSTLLMSIFGQPRAAGGQIIYQGVDITHKSSHYIASNGIAQSPEGRRVFPDMTVEENLLMGTIPIGDKYASEDMQRMFELFPRLKERRNQRAMTMSGGEQQMLAIARALMSRPKLLLLDEPSLGLAPIVVKQIFATLRELASTGMTIFLVEQNANHALKLSDRAYVMVNGEIRLTGSGKELLANEEVRNAYLGGH	PGPT0020785_4765	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
D1-35_05103	765	isfD2	COG4221	Sulfoacetaldehyde reductase 2	ATGTCCGACACCCTGTTTATCACCGGCGCTACGTCCGGTTTTGGTGAAGCCTGTGCCCGTCGTTTTGCCGAGGCCGGTTGGAAACTGGTGCTGACCGGTCGTCGTGAAGAGCGCCTCAGCGCCCTCTGTGCCGAGTTATCGAAGCAGACCGAGGTCCATGGCCTGGTTCTGGACGTGCGTGATCGCAAGGCCATGGAAGAGGCCATCGCCAGCCTGCCGCCTTCGTTCGCCAAATTGCGCGGCCTGATCAATAACGCCGGCCTGGCCCTGGGCGTCGACCCGGCGCCCAAGTGCGACCTCGATGACTGGGACACCATGGTCGACACCAATGTGAAGGGCCTGATCTACAGCACCCGCCTGCTGTTGCCGCGGCTGATTGCCCATGGGCGCGGCGCCGGGATCGTCAACCTGGGCTCCATCGCCGGCAACTATCCGTATCCGGGCAGCCACGTGTATGGCGCGAGCAAGGCGTTCGTCAAACAGTTCTCGCTGAACCTGCGCTGTGACCTGCAGGGCACCGGCGTGCGGGTGAGCAATATCGAGCCGGGGCTGTGCGAGAGCGAATTTTCCCTGGTGCGCTTCGGTGGTGACCAGGAGCGCTACAACGCGACTTACGCCGGCGCCGAGCCGATCCAGCCGCAGGACATCGCCGACACCATCTTCTGGGTGCTCAACACCCCGGCGCACATCAACATCAACAGCCTGGAGCTGATGCCGGTGAGCCAGACCTGGGCCGGCTTCGCCATCGAGCGCAACAAGGCCTGA	MSDTLFITGATSGFGEACARRFAEAGWKLVLTGRREERLSALCAELSKQTEVHGLVLDVRDRKAMEEAIASLPPSFAKLRGLINNAGLALGVDPAPKCDLDDWDTMVDTNVKGLIYSTRLLLPRLIAHGRGAGIVNLGSIAGNYPYPGSHVYGASKAFVKQFSLNLRCDLQGTGVRVSNIEPGLCESEFSLVRFGGDQERYNATYAGAEPIQPQDIADTIFWVLNTPAHININSLELMPVSQTWAGFAIERNKA	PGPT0021285_780	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021285-ydfG-K16066	NA	NA
D1-35_05104	1134			Cellobiose 2-epimerase	ATGCCTGAAGCCTCCCGCTCCGCCCTTCTACCCGAATTGACCACGCTGTTCGCCAAGGTGCATCAGCAGCTTCACGATGTAATCGTGCCGATGTGGCAAGGTCCGGGCTGGAATGCCGAGCTGGCGTTGCCCTACGAGTCCCTGGATACCCAGCACAAGCCGCTGCCGCCCCAGCGTTATCGCGCCATGGCCTGTGCGCGGCAGTTGTATGTGTTCGCCAGCCTGATCGGCGAAGTGCCGCAGGCCGAGGAACGGGCCGCCGCGCTATTTCGCTCGCTGCAACGGCACTTCCACGATGCCGAACATGGCGGCTGGTTCTACAGCATCGACCCGCAGGGGATACCGCTGGATACCGGCAAGGATCTGTACACCCACGCCTTCATCCTGTTCGCCTGCGCCCATTACTGGGGCAAGGTTCGCGAACCGCTGGTGGAGTCGGTGCTCAACGCGGCCCTGGAAATCATCGCGCGACGCTTCGCCACTGGCGACGGTCTCTACGAAGCCAGCCTCGGCCGCGACTGGTCGACAGCCGAGACCGGCCCGCTGCAGAACCCGCTGATGCATCTGGCAGAAGCTTTTCTCGCGACCCTGGCGGTTCGCGACGATGCCGCTGTTCGCCAAGCGTTGCTGAGCCTGTGCGAGGGGATGTTCAAGTGCTTCGTTGATCCGCAACGACAAGTCATGATGGAGAAACCGCTCAAGGCTGTGGATAACTGGTTCGAGCCGGGGCATCAGTTCGAGTGGTATTTCCTGCTGGCCTCATCGCCCTTGTTGCGTGACGGCAAACTGCACCTGGCCCTGGAACGCAGCTTCGGCGATACCGAACAACAAGGCGTCGATCCGGATACCGCTGGCGTTTGCGCCATGCTGGCCCTGGAACCGCAGACGGCTCCGCGCGATGCAACCCCACGCATCTGGGCCCAGGCGGAATACCTACGGGCACTCACGTTGCGCCCTGGCAGCGAAGGGACGTTGCTGCGCCAGCTACGGGCGTTGCAGCAATGTTTCCTGCATCCCCTAGGCTGGAACGAATGCCTTGATGCCAACGGCAATGTCAGCCGCCGGGACATGCCGTCCACTACGCCCTACCACCTGCTGACCTGCTATCGCGGGCTGGCCGAATATCTGGCCTGA	MPEASRSALLPELTTLFAKVHQQLHDVIVPMWQGPGWNAELALPYESLDTQHKPLPPQRYRAMACARQLYVFASLIGEVPQAEERAAALFRSLQRHFHDAEHGGWFYSIDPQGIPLDTGKDLYTHAFILFACAHYWGKVREPLVESVLNAALEIIARRFATGDGLYEASLGRDWSTAETGPLQNPLMHLAEAFLATLAVRDDAAVRQALLSLCEGMFKCFVDPQRQVMMEKPLKAVDNWFEPGHQFEWYFLLASSPLLRDGKLHLALERSFGDTEQQGVDPDTAGVCAMLALEPQTAPRDATPRIWAQAEYLRALTLRPGSEGTLLRQLRALQQCFLHPLGWNECLDANGNVSRRDMPSTTPYHLLTCYRGLAEYLA	PGPT0017860_2060	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
D1-35_05105	2178	glcB	COG2225	Malate synthase G	ATGACTGAACACGTTCAAGTCGGTGGCCTGCAGGTCGCCAAAGTCCTGTTCGACTTCGTGAATAACGAAGCCATTCCCGGAACCGGCCTCACCGCCGAGGCATTCTGGGCCGGCGCCGACAAGGTCATCCACGACCTGGCACCGAAGAACAAAGCCCTACTCGCCAAACGCGACGATTTCCAGGCGCAGATCGATGCCTGGCACCAGGCTCGTGCCGGCCAGGCCCACGACGCCGTGGCTTACAAAGCCTTCCTGCAAGACATTGGTTACCTGCTGCCAGAAGCGGCGGATTTCCAGGCCACGACCCAGAATGTCGATGACGAAATTGCCCGCATGGCCGGCCCGCAGCTGGTGGTGCCGGTGATGAATGCCCGTTTCGCCCTCAACGCCTCGAACGCCCGCTGGGGTTCGCTGTACGACGCGCTGTACGGCACCGATGCGATCAGCGAAGCCGATGGCGCGGAGAAAGGCAAAGGCTACAACAAGGTCCGCGGCGACAAGGTCATTGCCTTCGCCCGCGTCTTTCTCGACGAAGCAGCCCCGTTGGCGGCCGGCTCCCATGTCGATTCCATCGCCTACAAGATCGTCGACGGCAAGCTGGTCATCACGCTCAAGGGCGGCAGCAACAGCGGCCTGCGCGACGATGCCCAACTGATCGGTTTCCAGGGCGATACGTCGGCGCCGAGCGCCGTGCTGCTCAAGCACAACGGCCTGCACTTCGAAATCCAGATCGATGCCAGCACTCCGGTCGGGCAGACCGACGCCGCCGGCGTCAAAGACATCCTGATGGAAGCCGCGCTGACCACCATCATGGATTGCGAAGACTCGGTCGCCGCCGTCGATGCCGATGACAAGGTGGTGATCTACCGTAACTGGCTCGGCTTGATGAAAGGCGATCTGTCGGAAGAAGTCGCCAAGGGCGGCCAGACGTTTACCCGGATCATGAACCCTGACCGCGTCTACACCGCCGCGGACGGGTCGAGCGTGACGCTGCACGGCCGTTCGCTTTTGTTCGTACGCAACGTCGGTCACCTGATGACCATTGACGCGATCTTGGACAAGGACGGCAATGAAGTGCCGGAAGGCATCCTCGACGGGCTGATCACCAGCCTGGCCGCGATCCACAGCCTCAACGGCAACACCTCGCGCCGCAACAGCCGCACCGGCTCGGTCTATATCGTCAAGCCGAAGATGCATGGCCCGGAAGAAGCGGCGTTTACCAACGAGCTGTTCGGCCGCGTCGAAGACGTGCTGAACCTGCCGCGCAACACGCTGAAAGTCGGAATCATGGATGAGGAGCGCCGTACCACGGTCAACCTAAAGGCGTGTATCAAGGCGGCCAGCGAGCGCGTGGTGTTCATCAATACCGGCTTCCTCGACCGCACCGGCGACGAAATCCATACGTCCATGGAAGCCGGCCCGATGGTCCGCAAGGCCGACATGAAGGCCGAGAAGTGGATCGCTGCGTACGAAAACTGGAACGTCGACATCGGTTTGAGCACCGGTCTGCAAGGCCGCGCGCAAATCGGCAAGGGCATGTGGGCCATGCCGGACCTGATGGCCGCGATGCTTGAGCAGAAAATCGCCCATCCGATGGCAGGCGCCAACACGGCCTGGGTCCCATCGCCGACCGCTGCCGCCCTGCACGCGTTGCACTATCACAAGGTCGATGTATTCGCCCGTCAGGCCGAGCTGGCCAAGCGTGCCCGCGCCTCGGTGGACGACATCCTGACCATCCCGCTGGCGGTCAACCCGAACTGGACGCCCGAGCAGATCAAGCATGAACTGGACAACAATGCCCAGGGCATCCTTGGCTACGTAGTGCGCTGGATCGACCAGGGCGTGGGCTGCTCCAAGGTGCCGGACATCAACGACATCGGCCTGATGGAGGACCGTGCAACGCTGCGGATCTCCAGCCAGCACATCGCCAACTGGCTGCGCCATGGCATCGTCACCCGGGACCAGGTGATGGAAAGCCTCAAGCGCATGGCACCGGTAGTCGACCGCCAGAACGCCAGCGACCCGCTGTATCGCCCGCTGGCGCCAGACTTCGACAGCAACATCGCCTTCAAGGCGGCGGTCGAGTTGGTGATCGAAGGCACCAAACAACCGAACGGCTATACCGAGCCAGTGCTGCACCGTCGTCGTCGCGAGTTCAAGGCAGCCAATGGGTTGTGA	MTEHVQVGGLQVAKVLFDFVNNEAIPGTGLTAEAFWAGADKVIHDLAPKNKALLAKRDDFQAQIDAWHQARAGQAHDAVAYKAFLQDIGYLLPEAADFQATTQNVDDEIARMAGPQLVVPVMNARFALNASNARWGSLYDALYGTDAISEADGAEKGKGYNKVRGDKVIAFARVFLDEAAPLAAGSHVDSIAYKIVDGKLVITLKGGSNSGLRDDAQLIGFQGDTSAPSAVLLKHNGLHFEIQIDASTPVGQTDAAGVKDILMEAALTTIMDCEDSVAAVDADDKVVIYRNWLGLMKGDLSEEVAKGGQTFTRIMNPDRVYTAADGSSVTLHGRSLLFVRNVGHLMTIDAILDKDGNEVPEGILDGLITSLAAIHSLNGNTSRRNSRTGSVYIVKPKMHGPEEAAFTNELFGRVEDVLNLPRNTLKVGIMDEERRTTVNLKACIKAASERVVFINTGFLDRTGDEIHTSMEAGPMVRKADMKAEKWIAAYENWNVDIGLSTGLQGRAQIGKGMWAMPDLMAAMLEQKIAHPMAGANTAWVPSPTAAALHALHYHKVDVFARQAELAKRARASVDDILTIPLAVNPNWTPEQIKHELDNNAQGILGYVVRWIDQGVGCSKVPDINDIGLMEDRATLRISSQHIANWLRHGIVTRDQVMESLKRMAPVVDRQNASDPLYRPLAPDFDSNIAFKAAVELVIEGTKQPNGYTEPVLHRRRREFKAANGL	PGPT0001445_680	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-OXALACETIC_ACID_BIOSYNTHESIS,PGPT0001445-aceB|glcB-K01638	NA	NA
D1-35_05106	519			hypothetical protein	ATGGACCATCTCGTCATCACCGTTTTCGCCCCGGACAAACCCGGGCAGGTCGAGCGCATCGCTGAGTGCATTGCCGAGCACGGCGGCAACTGGCTGGAAAGCCGTATGTCGCACCTCGCCGGGCAATTCGCCGGGATCCTGCGCCTCAGCGCCCCGGCTGAATCTCATGAAGAACTGATCGAGGCTTTGCATGGGCTCGCGGCCTATGGCATTCGTGTGCTGATTGCCGAGAATGGGATCGAAGAATCCTGCACCTGGAAACCCATCGCCATGGAACTGGTGGGCAATGACCGTCCCGGCATCGTGCGCGACATCACGCGTCTGTTGAGCGAGCAGGGGGTGAACGTCGAGCGGCTGGTTACCCATGTTCGACCCGCGCCGATGAGCAGCGAATTGTTATTTCATGCCGAGGCGATTCTCGGAGTGCCCCTGACTTTGTCACTGGACACCCTGCAGGAGCGCCTGGAAACCCTGGCCGATGAATTGATGGTCGAGCTGAAACTCAGCGACGAAAGCTGA	MDHLVITVFAPDKPGQVERIAECIAEHGGNWLESRMSHLAGQFAGILRLSAPAESHEELIEALHGLAAYGIRVLIAENGIEESCTWKPIAMELVGNDRPGIVRDITRLLSEQGVNVERLVTHVRPAPMSSELLFHAEAILGVPLTLSLDTLQERLETLADELMVELKLSDES				NA	NA	NA	NA	NA
D1-35_05107	888	rarD_2	COG2962	Protein RarD	ATGCAAGCCGCCAACCCGCGTCGCGGGTACATCCTGGGCCTGAGCGCCTATATCATCTGGGGCCTGTTCCCCATCTATTTCAAAGCCATCGCCAACGTTCCATCGGTGGAAATCATCATCCACCGGGTACTCTGGTCGGCGCTGTTCGGCGCGGCCCTGCTGATGGTCTGGAAACATCCGGGCTGGTGGCGCGAGCTGCGGGACAATCCGCGGCGCCTGGCGATCCTGGCCCTGAGCGGCACGCTGATCGCCGTCAACTGGCTGACCTACGTCTGGGCGGTGAATAACGGTCGCATGCTCGAAGCCAGCCTGGGCTATTACATCAATCCGCTGGTCAACGTGTTGCTGGGCATGTTGATCCTCGGCGAGCGGCTGCGACGCATGCAATGGGTCGCGGTGGCGTTGGCAGCCATTGGCGTGGCGCAACAGGTCTGGCAGGTGGGCAGCCTGCCGTGGGTATCGCTGATGCTGGCGCTGACGTTTGGCTTCTACGGGTTGATCCGCAAGCAGGCGCCGGTCAAGGCCTTGCCAGGGCTGGTGGTGGAAACCTGGATGCTGGTACCGATTGCTATCGCATGGCTGCTGTTCAACCCGGCCGCCACCAGCGCCCAGGCGGCTTTCTGGACGACTTCCGAAGCCTGGTGGCTGGTGGCGGCCGGTCCCGTGACGCTGGTACCTCTGGTCTGCTTCAACGCGGCGGCGCGGCACCTGCCCTACACCACGCTGGGTTTCTTGCAGTACATCGCGCCGACGCTCGTCCTGCTGCTCGCGGTGCTTCTGTTTGACGAACATTTGTCGTCCAGCACGCTGGTGGCGTTCCTGTTCATCTGGGCCGGTCTGGCGGTGTACAGCATCGACGCGGTGGTCAGCATGCGCCGGCGCACCTGA	MQAANPRRGYILGLSAYIIWGLFPIYFKAIANVPSVEIIIHRVLWSALFGAALLMVWKHPGWWRELRDNPRRLAILALSGTLIAVNWLTYVWAVNNGRMLEASLGYYINPLVNVLLGMLILGERLRRMQWVAVALAAIGVAQQVWQVGSLPWVSLMLALTFGFYGLIRKQAPVKALPGLVVETWMLVPIAIAWLLFNPAATSAQAAFWTTSEAWWLVAAGPVTLVPLVCFNAAARHLPYTTLGFLQYIAPTLVLLLAVLLFDEHLSSSTLVAFLFIWAGLAVYSIDAVVSMRRRT	PGPT0003906_2374	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003906-rarD-K05786	NA	NA
D1-35_05108	975	srkA	COG2334	Stress response kinase A	ATGTCCCATCCGTTTGAAACCCTTACGCCCGACCTGGTGCTCGATGCCGTTGAAAGCATCGGCTTTCTCAGCGACGCCCGCGTGCTGGCGCTCAACAGCTACGAAAACCGTGTCTATCAGGTCGGCATCGAAGACGCCGAACCGCTGATCGCCAAGTTCTATCGCCCCCAGCGCTGGACCAACGAAGCGATCCTGGAAGAACACCGCTTTACCTTCGAGCTGGCCGACTGCGAAGTGCCGGTGGTGGCGCCGCTGATCCATAACGGCGCCAGCCTGCATGAGCACGCCGGGTTTCGTTTCACCCTGTTCCCCCGTCGCGGCGGGCGGGCGCCGGAGCCAGGCAATCTCGACCAGCTCTATCGTCTGGGCCAGTTGCTCGGAAGGCTTCACGCGATCGGCGCGACCCGGCCATTCGAGCATCGCGAAGCACTGGGCGTGAGGAACTTCGGCCATGACTCGCTGGAGACCGTGCTGCAAAGCGGCTTTGTCCCCCGCAGCCTGCTGCCGGCCTACGAATCAGTGGCCAGGGATCTGCTCAAGCGTGTCGAAGATGCCTACGCCGCCACGCCCCACCAGAACATCCGCATGCACGGCGATTGCCATCCCGGCAACATGATGTGCCGCGACGAGGTGTTCCATATCGTCGACCTCGACGATTGCCGCATGGGCCCGGCCGTGCAGGATCTGTGGATGATGCTCGCCGGGGATCGGCAGGAATGCCTCGGACAGCTATCGGAATTGATGGACGGCTACCGGGAATTCCATGATTTCGACCCGCGCGAATTGGCCCTGATCGAACCGCTGCGCGCCCTGCGCCTGATGCACTACAGCGCCTGGCTGGCGCGCCGCTGGGATGACCCGGCGTTTCCACGAAGCTTCCCCTGGTTCGGCAGCGAACGTTACTGGGGCGACCAGGTGTTGGCGTTGCGCGAGCAACTGGCGGCGCTTCAGGAAGAGCCGTTGAAGCTTTTTTGA	MSHPFETLTPDLVLDAVESIGFLSDARVLALNSYENRVYQVGIEDAEPLIAKFYRPQRWTNEAILEEHRFTFELADCEVPVVAPLIHNGASLHEHAGFRFTLFPRRGGRAPEPGNLDQLYRLGQLLGRLHAIGATRPFEHREALGVRNFGHDSLETVLQSGFVPRSLLPAYESVARDLLKRVEDAYAATPHQNIRMHGDCHPGNMMCRDEVFHIVDLDDCRMGPAVQDLWMMLAGDRQECLGQLSELMDGYREFHDFDPRELALIEPLRALRLMHYSAWLARRWDDPAFPRSFPWFGSERYWGDQVLALREQLAALQEEPLKLF				NA	NA	NA	NA	NA
D1-35_05109	1902			hypothetical protein	ATGAGCCTATTAGAAGAAAACCAATCCACCGACCTGGAAAAGATCGTCGGCCTGAGCCGTCGCCGCTTCATCGGCGCAGGCGCTCTGTGCGGCGCGGCGATGTTCCTCGGCGGCAACCTGCTGAGCCGCAGCGTCATGGCCGCCGCCGTGAGCGAAGGCAACAAAAGGTTGCTGGGCTTTGACAGCATTGCCGCCGCCACGACCGACACCATTACCTTGCCGCCAGGCTACAAAGCCTCGGTGCTGATCAGTTGGGGCCAGCCACTGCAAAAAAATGCTCCGGCATTCGACCCCAGCGGCAATGGCACCGCCCGCGCCCAGGAAATGCAGTTCGGTGACAATAACGACGGCATGAGCCTGTTCCCGTTTCCCGGCGAGGACAACCGGGCGCTGATGGCGATCAACAACGAATACACCAACTACCGCTACCTCTTCCCCCATGGCGGCCAGCCGCAGTCCGCCGAAGACGTACACAAGGCCCAGGCCAGCGAGGGCGTGTCGGTCATCGAGATCCAGCGGCGCCGGGGCCAGTGGCAATTCGTCCAGGATTCACGCTACAACCGCAGGATCCATGGCAACACGCCGATTCGCCTGGGCGGCCCGGCTGCCGGTCACGACCTGATGAAAACCAGCGCCGACAAGAGCGGCAAAAAAGCGCTGGGGACGTTCCAGAACTGCGCCAACGGCATGACGCCGTGGGGCACCTACCTGACCTGTGAAGAAAACTTCACCGACTGCTTCGGCAGCAGCAACGCTGATCTGAAGTTCGATGAGGCGCAAAAGCGCTACGGCGCTACCGTCACCAGCCGCGAAATCAACTGGCACCTGTTCGATCCGCGTTTCGACCTGGCGAAAAACCCCAACGAGCTCAATCGTCACGGCTGGGTGGTTGAAATCGACCCGTTCGATCCAAAGTCCACGCCAGTGAAACGCACCGCCCTGGGCCGCTTCAAACACGAAAACGCCGCGCTGGCGAAAACCCGTGACGGGCGCGCCGTTGTGTACATGGGCGATGACGAGCGTGGCGAGTTCATCTACAAGTTCGTCAGCCGCGATCGCATCGACCGCCGCAATCCCAAGGCCAACCGCGACCTGCTGGACCACGGCACGTTGTACGTGGCGCGCTTCGACGCCGGCGACGGCAACCCGGACCATCCGAAAGGCAAGGGCCAGTGGATCGAACTGACCCATGGCAAGAATGGCCTCGACGCCGGCAAGGGCTTCAATGACCAGGCTGAAGTGCTGATCCATGCGCGCCTGGCCGCCACCGCCGTTGGCGCCACCCGCATGGACCGCCCGGAGTGGATCGTGGTGAGTCCGAAGGATGGCCAGGTCTATTGCACCCTGACCAACAACTCCAAGCGCGGCGAAGAAGGCCAACCGGTGGACGGGCCCAACCCTCGGGCCAAAAACGTCTACGGGCAGATTCTGCGCTGGCGCACCGACCGCGACGATCACGCCTCCAAGACCTTCGAGTGGGATCTGTTCGTGGTCGCCGGTAACCCGACGGTGCATGCCGGCACGCCCAAAGCCGGATCGTCCAACGTCAATGCGCAGAACATGTTCAACAGCCCCGACGGCCTGGGCTTCGACAAAGCCGGCCGGCTGTGGATCCAGACCGATGGCGACTCAAGCAACGCCGGGGATTTCGCCGGCATGGGCAACAACCAGATGCTCTGCGCCGACCCCAACAGCGGTGAGATCCGCCGCTTCATGGTCGGACCGGTGGGTTGTGAGGTCACCGGGATCAGCTTCGCGCCGGACTACAAGACCTTGTTCGTGGGCATCCAGCACCCTGGGGAAAACGGCGGTTCGACGTTCCCCGAGCACCTGCCCAATGGCAAGCCACGGTCGTCAGTGATGGTGATTACGCGCGAGGATGGCGGGATCATCGGCGGCTGA	MSLLEENQSTDLEKIVGLSRRRFIGAGALCGAAMFLGGNLLSRSVMAAAVSEGNKRLLGFDSIAAATTDTITLPPGYKASVLISWGQPLQKNAPAFDPSGNGTARAQEMQFGDNNDGMSLFPFPGEDNRALMAINNEYTNYRYLFPHGGQPQSAEDVHKAQASEGVSVIEIQRRRGQWQFVQDSRYNRRIHGNTPIRLGGPAAGHDLMKTSADKSGKKALGTFQNCANGMTPWGTYLTCEENFTDCFGSSNADLKFDEAQKRYGATVTSREINWHLFDPRFDLAKNPNELNRHGWVVEIDPFDPKSTPVKRTALGRFKHENAALAKTRDGRAVVYMGDDERGEFIYKFVSRDRIDRRNPKANRDLLDHGTLYVARFDAGDGNPDHPKGKGQWIELTHGKNGLDAGKGFNDQAEVLIHARLAATAVGATRMDRPEWIVVSPKDGQVYCTLTNNSKRGEEGQPVDGPNPRAKNVYGQILRWRTDRDDHASKTFEWDLFVVAGNPTVHAGTPKAGSSNVNAQNMFNSPDGLGFDKAGRLWIQTDGDSSNAGDFAGMGNNQMLCADPNSGEIRRFMVGPVGCEVTGISFAPDYKTLFVGIQHPGENGGSTFPEHLPNGKPRSSVMVITREDGGIIGG				NA	NA	NA	NA	NA
D1-35_05110	765	modE	COG2005	DNA-binding transcriptional dual regulator ModE	ATGTCATTGCCTACGCTGTTGAGCCAACATATCGTCCGCCGTCCACAACGCATCGCCCTGTTACAGCACATCGCCGAACAGGGTTCCATCACGCGGGCCGCCAAAAGCGCCGGGCTGAGCTACAAGGCGGCCTGGGATGCGATCGATGAGTTGAACAACCTGGCGGACCGGCCATTGGTCGAGCGCAGCGTTGGCGGCAAGGGTGGCGGCGGCGCGAAACTGTCGGAAGAAGGCCTGCGCGTGCTGCGTCTTTATCAGCGTTTGCAGGTATTGCAGGCGCAGTTGCTGGAAGCGAGCGAGGACGCCGCTGACCTGGGCCTGCTCAGCCGCCTGATGTTGCGCACCAGCGCGCGCAACCAACTGCATGGCAAGGTCGTCGGCATCCAGGCCCAGGGCCACAACGACCGGATACACCTGGAACTGGCGCGCGGTTTGCTCATCGACGCGCAGATCACCCACGACAGCACGCTGCGCCTGGAGCTGGGCCTCGGTACCGAAGTGGTGGCCCTGATCAAGGCCGGCTGGCTGACGTTGTATCCACTCGACCAGCCGGACGATTGCTCGGCCAACAGTCTGCAAGGCGTGATCGAGCACATCGCGGTCGCTGCGGATGGCCCCAATGAAGTGCGCATCGGCTTGCCCAACGGCCAGACGTTGTGTGCCCTTGCAGACCCGCTTGAGCTGGTTGAACGAAACCTCGACGCCGGCTCACCGGTGCAAGTGCGTTTTTCCCCTGCAAATGTGCTACTCGGCACACCGTTGTAG	MSLPTLLSQHIVRRPQRIALLQHIAEQGSITRAAKSAGLSYKAAWDAIDELNNLADRPLVERSVGGKGGGGAKLSEEGLRVLRLYQRLQVLQAQLLEASEDAADLGLLSRLMLRTSARNQLHGKVVGIQAQGHNDRIHLELARGLLIDAQITHDSTLRLELGLGTEVVALIKAGWLTLYPLDQPDDCSANSLQGVIEHIAVAADGPNEVRIGLPNGQTLCALADPLELVERNLDAGSPVQVRFSPANVLLGTPL	PGPT0000520_941	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0000520-modE-K02019	NA	NA
D1-35_05111	741			hypothetical protein	ATGCGCTGTCAACCACGATACAAAGGTCCGGTTTACATCTGGTTAAAAAACAAACAGCTCTGTCTGCTGTGCGGCGAACCCACCGACACCTTGCAACCCATCTGCACCCCTTGCGAAAGCGAACTGCCCTGGCTCGGCGAGCATTGCGCCGTTTGCGCCCTGCCGCTGCCCATGGCCGGGCTCCGTTGCGGCCAATGCGCCGCGCGGCCTCCGGCTTTCGAGCGAGTCCTGGCGCCATGGGCCTACGACTTTCCGGTGGACAGCCTGATTACGCGCTTCAAGCACCAGGCAAAATGGCCCCTCGGTCGACTGCTTGGCGAGTTGCTGGCGCAATCGCTGCAGCATCATTTCGACGAAGGCCTGGAGCGGCCCGATGCGCTGGTGCCAGTGCCGCTGGCGTCACGCCGCTTGCGCCAGCGCGGCTTCAACCAGGCGACGCTGCTGGCCCGCTGGCTCAGCGCAGCGCTGCGGATCCCTTGCGAAGACGACCTGCTGCTGCGCATTCAGGATACCCCGGCCCAACAGGTCCTGGACGCCCGGGCCCGGCGCCGGAACCTGCGCCAGGCCTTTGCCTTAGCGCCCCGCGCGGTGTTGAACAACCGTCACCTGGCGCTGGTCGATGATGTACTCACCACCGGCGCCACGGCGCAGGCACTGGCCCGGTTGCTGCTCGATGCCGGTGCCGCACGGGTCGATGTGTATTGCCTGGCGCGCACGCCGAAACCCGGTGATCCGGCTTGA	MRCQPRYKGPVYIWLKNKQLCLLCGEPTDTLQPICTPCESELPWLGEHCAVCALPLPMAGLRCGQCAARPPAFERVLAPWAYDFPVDSLITRFKHQAKWPLGRLLGELLAQSLQHHFDEGLERPDALVPVPLASRRLRQRGFNQATLLARWLSAALRIPCEDDLLLRIQDTPAQQVLDARARRRNLRQAFALAPRAVLNNRHLALVDDVLTTGATAQALARLLLDAGAARVDVYCLARTPKPGDPA				NA	NA	NA	NA	NA
D1-35_05112	1056	bioB	COG0502	Biotin synthase	ATGAGCGCCAGCACCACTGCCAACCTGCGTCATGACTGGTCTTTGGCCGAAGTCAAAGCACTCTTTGTCCAGCCATTCAATGACCTGCTCTTCCAGGCGCAGACCGTGCACCGCGCGCACTTCGATGCCAACCGCGTCCAGGTGTCGACCCTGCTGTCGATCAAGACCGGCGCCTGCCCGGAAGATTGCAAATATTGTCCGCAGTCCGGCCACTACAACACCGGGCTGGAAAAAGAGAAGTTGCTCGAAGTGCAGAAGGTCCTTGAAGAGGCCGCGCGCGCCAAGGCCATCGGTTCGACCCGTTTCTGCATGGGCGCGGCGTGGAAACATCCGTCGGCCAAGGACATGCCTTACGTGCTGGAGATGGTCAAGGGGGTCAAGGCCATGGGCCTGGAGACCTGCATGACCCTGGGGCGTCTCGACCAGGAGCAGACCGAAGCGCTGGCCCAGGCCGGCCTGGATTATTACAACCACAACCTCGACACCTCGCCGGAGTTCTACGGCAGCATCATCACCACCCGCACCTACAGCGAGCGCCTGCAAACCCTGGCGTATGTACGTGATTCGGGGATGAAGATCTGTTCCGGCGGGATCCTGGGCATGGGCGAGTCCCTGGACGACCGCGCCAACCTGCTTATCCAGCTGGCCAACCTGCCGGAGCATCCAGAGTCGGTGCCGATCAACATGCTGGTGAAAGTCGCCGGCACGCCGCTGGAAAATGCCGAGGACATCGACCCGTTCGATTTCATCCGCATGCTCGCCGTGGCGCGCATCCTCATGCCGAAATCCCATGTGCGCTTGTCCGCTGGCCGCGAAGCCATGAACGAGCAGATGCAGGCCCTGGCGTTCTTCGCTGGCGCCAACTCGATTTTCTACGGCGACAAATTGCTGACCACCGCCAACCCGCAGGCCGACAAGGACATGCAACTGTTTGCGCGCTTGGGCATCCAGCCAGAAGCTCGCGAAGAGCATGCCGATGAAGTGCATCAGGCGGCCATCGAGCAGGCGCTGGTGGAGCAGAAGAGCAGCGAGCAGTTCTATAACGCCGCTGTTTGA	MSASTTANLRHDWSLAEVKALFVQPFNDLLFQAQTVHRAHFDANRVQVSTLLSIKTGACPEDCKYCPQSGHYNTGLEKEKLLEVQKVLEEAARAKAIGSTRFCMGAAWKHPSAKDMPYVLEMVKGVKAMGLETCMTLGRLDQEQTEALAQAGLDYYNHNLDTSPEFYGSIITTRTYSERLQTLAYVRDSGMKICSGGILGMGESLDDRANLLIQLANLPEHPESVPINMLVKVAGTPLENAEDIDPFDFIRMLAVARILMPKSHVRLSAGREAMNEQMQALAFFAGANSIFYGDKLLTTANPQADKDMQLFARLGIQPEAREEHADEVHQAAIEQALVEQKSSEQFYNAAV	PGPT0022120_1237	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022120-bioB-K01012	NA	NA
D1-35_05113	1179	bioF	COG0156	8-amino-7-oxononanoate synthase	ATGCCCTTCGATCTTGCCGCACGCCTGGCTGCCCGTCGTGCCGAAAACCTCTATCGCCAGCGTCCGCTGCTTGAAAGCCCCCAAGGCCCGCAAGTGGTGGTGGACGGCCAGCCGTTGCTGGCGTTCTGCAACAACGACTACCTGGGCCTGGCCAATCACCCGCAGGTGATCGAGGCCTGGCGTGCCGGCGCGTCGCGTTGGGGCGTCGGTGGTGGTGCGTCGCATCTGGTGATCGGCCACAGCGGCCCTCATCACGCCGTGGAAGAAGCGCTGGCCGACTTGACCGGCCGGCCCCGGGCACTGTTATTCACCACCGGCTACATGGCCAACCTTGGTGCCGTCACGGCGCTGGTCGGACAGGGCGACACGGTGTTGCAGGACCGGCTCAACCACGCCTCGTTGCTCGACGCCGGGCTGTTGTCCGGTGCCCGTTTCAGCCGTTACTTGCACAACGATGCCCAAAGCCTGGCGACCCGCCTGGAAAAAGCCATCGGCAATACCCTGGTGGTCACTGACGGCGTGTTCAGCATGGACGGCGACATCGCCGACCTGCCGGCTCTCGCCCGCGCAGCACGGGCCAAGGGCGCCTGGCTGATGGTCGACGATGCCCATGGCTTCGGCACGCTGGGTACCACCGGCGGCGGCGTCGTCGAGCATTTCGGCCTGAGCCAGGAAGACGTACCGGTGCTGGTGGGGACGCTGGGCAAGGCGTTCGGCACCGCCGGGGCCTTTATTGCTGGCAGCGAAGAATTGATCGAAAGCCTGATCCAGTTCGCCCGCCCCTACATCTACACCACCAGCCAGCCGCCGGCGTTGGCCTGCGCCACGCTCAAGAGCCTTGAGTTGCTGCGTAGCGAGCATTGGCGGCGTGAGCATCTGCAACTGCTGATCCGCCAGTTCCGCCACGGTGCCGAGCAGATCGGCTTGCAATTGATGGACAGTTTCACGCCGATCCAACCCATCCTGATCGGTGATGCGGGACGGGCGATGCGGCTGTCGCTGATGCTGCGCGAGCGCGGGCTGATGGTCACCGCAATCCGGCCACCCACCGTGCCGGCCGGCAGCGCTCGGCTGCGTGTGACGTTGACCGCTGCCCACAGCGAAGCCCAGGTACAACTCTTGTTGAATGCACTGGCCGACTGTTTTGCACAACTGGGAGCGGAGCCAAGCCATGCGTGA	MPFDLAARLAARRAENLYRQRPLLESPQGPQVVVDGQPLLAFCNNDYLGLANHPQVIEAWRAGASRWGVGGGASHLVIGHSGPHHAVEEALADLTGRPRALLFTTGYMANLGAVTALVGQGDTVLQDRLNHASLLDAGLLSGARFSRYLHNDAQSLATRLEKAIGNTLVVTDGVFSMDGDIADLPALARAARAKGAWLMVDDAHGFGTLGTTGGGVVEHFGLSQEDVPVLVGTLGKAFGTAGAFIAGSEELIESLIQFARPYIYTTSQPPALACATLKSLELLRSEHWRREHLQLLIRQFRHGAEQIGLQLMDSFTPIQPILIGDAGRAMRLSLMLRERGLMVTAIRPPTVPAGSARLRVTLTAAHSEAQVQLLLNALADCFAQLGAEPSHA	PGPT0022095_1896	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022095-bioF-K00652	NA	NA
D1-35_05114	732	bioH		Pimeloyl-[acyl-carrier protein] methyl ester esterase	ATGCGTGATCGATTGATATTGCTGCCCGGCTGGGGCTTGGGCATCTCGCCCCTCGAACCGCTGGCGGCGGCCCTGCAAGGGCTCGACGAGCACTTGCAAGTGGAAATCGAGCCATTGCCTGCACTGGTGTCGAGCGACCTCGGTGAATGGCTCGATGAGCTGGATGCCACGTTGCCCCAGGATGCCTGGCTGGGCGGCTGGTCCCTGGGCGGGATGCTGGCCGCGGAACTGGCGGCGCGTCGGGGCGAGCGCTGCTGTGGCCTGTTGACCCTGGCGAGCAACGTGTCGTTTGTCGCCCACGAGCATTGGCCGAGCGCGATGCCCGGTGAAACCTTCGATGGATTTCTCGCCGGATGCGCCGCCGATCCGCGCCAGACCCTCAAACGCTTCAGCTTGCTGTGTGCGCAAGGCTGCGGCGACCCGCGCGGGTTGTCGCGATTGCTGCTGGCCGGCGCGCCGAACACGTCGCCTGAGGTATTGATGGCCGGGCTCGAGCTGCTGGCGCGACTGGACATGGGGGTTGCCTTGCAGGGTTTTCGAGGCCCGCAATTGCATCTGTTTGCCGGGCTCGACGCGCTGGTGCCTGCCGAGGCTGCGGGAGAACTGCTGGCGATGCTGCCAGATGTCGAAATCGGTCTGATTGAACAGGCCGGCCACGGATTCCCACTGGAGGACCCCCACGGCGTGGCGGGGGCGATCCAGGCTTTTCTGCATGAGTCCGGTGATGACTGA	MRDRLILLPGWGLGISPLEPLAAALQGLDEHLQVEIEPLPALVSSDLGEWLDELDATLPQDAWLGGWSLGGMLAAELAARRGERCCGLLTLASNVSFVAHEHWPSAMPGETFDGFLAGCAADPRQTLKRFSLLCAQGCGDPRGLSRLLLAGAPNTSPEVLMAGLELLARLDMGVALQGFRGPQLHLFAGLDALVPAEAAGELLAMLPDVEIGLIEQAGHGFPLEDPHGVAGAIQAFLHESGDD	PGPT0022065_953	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022065-bioH-K02170	NA	NA
D1-35_05115	813	bioC		Malonyl-[acyl-carrier protein] O-methyltransferase	ATGACTGATTTATCTGTTGTGAAGTTGCCGGGCGCCTTGCCCGACAAACGTCAGGTCGCGGCCTCGTTCTCCCGGGCGGCGGCCAGCTATGACAGCGTCGCTGAACTGCAGCGCGACGTCGGACAGCAATTGCTGTCGCGGCTGCCCGTCTCGTTTATGCCGGGACGCTGGTTGGACATGGGTTGTGGCACCGGTTATTTCACCCGCGCCCTTGGTGCGCGGTTCGGTGAGAGGGCGGGTGTTGCGCTGGATATCGCCGAAGGCATGCTCAACCACGCCCGTCCTCAAGGCGGCGCCGCGCATTTCATCGCCGGTGATGCCGAGCGGCTGCCGTTGCAGTCGGCCAGCTGTGACCTGGTGTATTCCAGCCTCGCGGTGCAATGGTGTGGCGATTTTGCCTCGGTATTGAGCGAGTCCTATCGTGTTCTGAAACCCGGTGGGATGTTTGCCTTCACCAGCCTGTGTGTCGGCACGTTATACGAGTTGCGCGACAGCTGGCGTGAAGTGGATGGCCTGGTACACGTCAACCGTTTCCGCGCATTCGATACCTATAGACAGCTGGCCGACGCCAGCGGGTTGCGCGTCGTCAGCCTGGAGAATCGCCCGCATGTTCTGCATTACCCCGATGTACGTGCCCTGACCCACGAATTGAAAGCATTGGGTGCGCACAATCTGAATCCTGGTCGTCCCGGTGGGTTGACGGGCAGGGCGAGAATTTTCGCGCTGGTCCAGGCCTATGAAAAATATCGCCAGGCCCAGGGCCTGCCGGCCACTTACCAGGTGGTCTACGCCGTGCTGGAGAAACCGCTATGA	MTDLSVVKLPGALPDKRQVAASFSRAAASYDSVAELQRDVGQQLLSRLPVSFMPGRWLDMGCGTGYFTRALGARFGERAGVALDIAEGMLNHARPQGGAAHFIAGDAERLPLQSASCDLVYSSLAVQWCGDFASVLSESYRVLKPGGMFAFTSLCVGTLYELRDSWREVDGLVHVNRFRAFDTYRQLADASGLRVVSLENRPHVLHYPDVRALTHELKALGAHNLNPGRPGGLTGRARIFALVQAYEKYRQAQGLPATYQVVYAVLEKPL	PGPT0022060_869	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022060-bioC-K02169	NA	NA
D1-35_05116	681	bioD1	COG0132	ATP-dependent dethiobiotin synthetase BioD 1	ATGAGCCAGGCTTATTTCATCACCGGCACCGACACGGACGTGGGCAAGACCACTGTTGCGGCGGGGTTGCTGCACGCGGCCAGGCGGGCCGGCATGAGCACCGCCGCGGGCAAGCCCGTAGCCTCTGGTTGCGCAGTGACGCCCAAGGGCCTGCGCAACGCCGATGCCTTGGCCCTGTTGGCCGAATGTTCGGTGCCATTGACTTATGCACAGGTCAATCCGGTGGCATTCGAACCGGCGATCGCACCTCACCTGGCCGCTCGGGAAGCTGGCGTGGCCTTGACCGTGCAATCCTTGCTCGGGCCGATGCGCGAGGTGCTGGCTCTGGATGCGGATTTCACCTTGATCGAAGGCGCGGGCGGCTGGCGTGTGCCGCTGGCCGGGCAAGACAATCTTTCCGACCTTGCGATAGCGTTGGGCCTGCCGGTGATCCTGGTGGTTGGGGTACGCCTGGGCTGCATCAGCCACGCGTTGCTGACCGCCGAGGCTATCGCGCGGGACGGCTTGCCATTGGCCGGCTGGGTAGCAAACATCATCGATCCGGCGACGTCGCGCATGGAAGAAAACCTCGCGACCCTCGCCGAACGCCTGCCGGCGCCCTGCCTGGGCAGAGTCGCGCGAATCAAGGACGTGACGGCCGAAGCGGTGGCCGAACATCTGCAGCTGGATCTGCTGGACTGA	MSQAYFITGTDTDVGKTTVAAGLLHAARRAGMSTAAGKPVASGCAVTPKGLRNADALALLAECSVPLTYAQVNPVAFEPAIAPHLAAREAGVALTVQSLLGPMREVLALDADFTLIEGAGGWRVPLAGQDNLSDLAIALGLPVILVVGVRLGCISHALLTAEAIARDGLPLAGWVANIIDPATSRMEENLATLAERLPAPCLGRVARIKDVTAEAVAEHLQLDLLD	PGPT0022115_2012	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022115-bioD-K01935	NA	NA
D1-35_05117	297			hypothetical protein	ATGGAAATCTCAGGAAACACCGCGTTCTATGCCGGTCTGAGCACGATTCAGACAGGGCAGTACCGCGTTGATCAGGCCTCCAGCCAGATTGCCAACACCACGATCGAGCGCTCGGTCACCAGCCAGTCCTCCGACGTTCAGGTGGATCGCCTGCGTTCGGTGGATCGCAGTCAGCAATCGGACCTGACCAGCAACATGGTCGAAATGGCCCAAGGCAAGTTCCAGGTGCAACTGGGGGTGAACGTTGCCAAGGCTTCCGACGAAATGCTCGGAACGTTGATCGATACGTTCGCCTGA	MEISGNTAFYAGLSTIQTGQYRVDQASSQIANTTIERSVTSQSSDVQVDRLRSVDRSQQSDLTSNMVEMAQGKFQVQLGVNVAKASDEMLGTLIDTFA				NA	NA	NA	NA	NA
D1-35_05118	1806	dmdC_2	COG1960	3-methylmercaptopropionyl-CoA dehydrogenase	ATGCCTGACTACAAGGCCCCCTTGCGTGATATTCGCTTCGTTCGTGACGAACTGCTCGGCTACGAAGCGCATTATCAGAGCCTTCCAGCGTGCCAGGAGGCAACTCCGGACATGGTTGACGCCATCCTCGAAGAAGGCGCCAAGTTCTGTGAGCAGGTGCTGGCGCCGCTGAACCGCGTGGGTGATCTCGAAGGTTGCACCTGGAGCGAGTCCGGCGTGAAAACCCCGACCGGCTTCAAGGAAGCCTACAAGCAATTTGTCGAAGGCGGCTGGCCGAGCCTGGCCCATGACGTGGCGCACGGTGGCCAAGGCCTGCCGGAATCCCTGGGCCTGGCAGTCAGCGAGATGGTCGGCGAAGCCAACTGGTCGTGGGGCATGTACCCGGGCCTGTCCCATGGCGCGATGAACACCATTTCCGAGCACGGTACCCCCGAGCAGCAAGAGGCTTACCTGACCAAGCTGGTATCCGGCGAATGGACCGGCACCATGTGCCTGACCGAACCGCACTGCGGCACCGACCTGGGCATGTTGCGCACCAAGGCCGAACCTCAGGCCGACGGCTCCTACAAAGTGACCGGCACCAAGATCTTCATCTCGGCCGGCGAACACGACATGGCCGACAACATCGTCCACATCGTGCTGGCGCGCCTGCCGGACGCACCGGCTGGCACCAAAGGTATCTCGCTGTTCATCGTTCCGAAATTCCTGCCTGAGGCCGACGGCTCAATCGGCCAGCGCAACGCAGTCAGCTGTGGCTCCCTGGAACACAAGATGGGCATCCACGGCAACGCCACCTGCGTGATGAACTTCGACGCGGCCACCGGTTTCCTGATCGGCCCGGCGAACAAAGGCCTGAATTGCATGTTCACCTTCATGAACACCGCTCGCCTGGGTACCGCGCTGCAAGGCCTGGCCCACGCCGAAATCGGTTTCCAGGGTGGCCTGAAGTACGCTCGCGACCGCCTGCAGATGCGTTCCCTGACCGGCCCGAAAGCACCGGACAAGGCCGCCGACCCGATCATCGTGCACCCTGACGTGCGTCGCATGTTGCTGACCATGAAAGCCTTCGCCGAGGGCAACCGGGCGATGGTGTACTTCACCGCCAAGCAGGTCGACATCGTCAAGTATGGTGTGGACGAAGAAGAGAAGAAGAAGGCTGACGCCCTGCTGGCGTTCATGACCCCGATCGCCAAGGCGTTCATGACCGAAGTCGGCTTCGAATCGGCCAACCACGGCGTGCAGATCTACGGCGGCCACGGCTTCATCGCCGAGTGGGGCATGGAGCAGAACGTGCGCGACAGCCGCATCTCGATGCTGTACGAAGGCACCACCGGCATCCAGGCGCTCGACCTGCTGGGCCGTAAAGTGCTGATGACCCAGGGCGAGGCGCTCAAGGGCTTCACCAAGATTGTCCACAAGTTCTGCCAGGGCAACGAAGGCAACGAAGCCGTCAAGGAATTCGTCGAGCCGTTGGCTGCACTGAACAAGGAATGGGGCGAACTGACCATGAAGGTCGGCATGGCCGCCATGAAGGATCGCGAAGAAGTCGGCGCGGCCTCGGTGGACTACCTGATGTACTCCGGTTACGCCTGCCTGGCTTACTTCTGGGCCGACATGGCGCGCCTGGCTGCGGAAAAACTGGCGGCCGGCACGACCGAAGAAGCGTTCTACACCGCCAAGCTGCAGACCGCGCGCTTCTACTTCCAGCGCATCCTGCCGCGCACCCGCACCCACGTGGCGACCATGTTGTCGGGCGCCAACAACCTGATGGACATGAAAGAAGAAGACTTCGCGCTGGGCTACTAA	MPDYKAPLRDIRFVRDELLGYEAHYQSLPACQEATPDMVDAILEEGAKFCEQVLAPLNRVGDLEGCTWSESGVKTPTGFKEAYKQFVEGGWPSLAHDVAHGGQGLPESLGLAVSEMVGEANWSWGMYPGLSHGAMNTISEHGTPEQQEAYLTKLVSGEWTGTMCLTEPHCGTDLGMLRTKAEPQADGSYKVTGTKIFISAGEHDMADNIVHIVLARLPDAPAGTKGISLFIVPKFLPEADGSIGQRNAVSCGSLEHKMGIHGNATCVMNFDAATGFLIGPANKGLNCMFTFMNTARLGTALQGLAHAEIGFQGGLKYARDRLQMRSLTGPKAPDKAADPIIVHPDVRRMLLTMKAFAEGNRAMVYFTAKQVDIVKYGVDEEEKKKADALLAFMTPIAKAFMTEVGFESANHGVQIYGGHGFIAEWGMEQNVRDSRISMLYEGTTGIQALDLLGRKVLMTQGEALKGFTKIVHKFCQGNEGNEAVKEFVEPLAALNKEWGELTMKVGMAAMKDREEVGAASVDYLMYSGYACLAYFWADMARLAAEKLAAGTTEEAFYTAKLQTARFYFQRILPRTRTHVATMLSGANNLMDMKEEDFALGY	PGPT0008385_210	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
D1-35_05119	1290			hypothetical protein	TTGCCGCGTCTTTCCGTAATGCGCTTCAGCCATTTCCTACCGTCGACAGTGCTTTTACTGGCGGGGCTCGCGGCTGCCTACGTCAAGGACCTGAACGTCTTCTTCACCTCATTGTTCAACGTGCTTCCTACGCTGGTGTTGTTGTTGGGCGGGGCGTACTGCTCCGTTTACCGACGTCAGCGCGAACTGTTTCTGATGGTCACGGTGTACATCGCTTATTTCCTGCTGGATACCCAGACCGACTTCTATCGCGATAACGGCAAGGTGCGCGAAGACGCGGCGGTGGTGTTCCATCTGGTCTGCCTGCTGCTGCCGCTGTTGTTCGGGCTGTTCGCGGCGTGGCAGGAGCGCACGCATCTGTTCCAGGACATGGTGGCGCGTTTCGCGGTGCTACTGGCCTTTGGTGGCGTAGCCCTGGCCCTGGAGCAAAGCTTTCCCCAGGCCCTGCTGCTGTGGCTTTCGGAAATACGCTGGCCGGCGCTGCATGGCGCCTGGATGAGCCTGATCCAATTGTCATACCCGGTGTTTGCCGCTGCGTTCGTGCTGCTGGCCTGGCAATACTGGCGTAACCCACGACCCTTGCATGCGGCGCAGCTGGTGGGGTTGGTCGGGCTGTTCTGGATGCTGCCGAAGACGTTCATCCTGCCGTTCACCCTGAACATCATGTGCAGCCAGGTGATGCTGATGATCGCCGCCGCGGTTGCTCACGAGGCCTACCAGATGGCCTTCCGCGATGAGCTCACCGGCCTGCCGGGGCGCCGGGCGCTGAATGAACGCATGCAGCGCCTGGGTCGAAACTACGTGCTGGCGATGAGCGACGTGGATCACTTCAAGAAATTCAACGACACCCACGGTCACGATGTCGGCGATCAGGTGCTGCGCCTGGTGGCCAGCAAGCTGTCGAAAATCGGTGGGGGCGGCAGGGCTTATCGTTACGGCGGCGAGGAGTTTGCGCTGGTGTTTGCCGGCAAGACCATTGATGAATGCATGCCTCATCTGGAAGTCATCCGCCAGTCCATCGAGACGTACGCCATTCAACTGCGTAATCCCGACAATCGCCCTCAGGACGATCAGCAAGGTCGCCAGCGTCGCTCCGGCAGCGGCGCCACCAGCGTATCGGTGACCGTCAGCATCGGCGTGGCCGAACGCGTGGACCAGCGCACGCCCGAGGAAGTGCTCAAGTCCGCCGACCAGGCGCTCTACAACGCCAAAGGGGCGGGGCGCAATTGTGTAATTGCCTTCGGCCAGAATCGTCGCGGCGCAGTGCGCATGGAGGCTGCCGCGGGTTGA	MPRLSVMRFSHFLPSTVLLLAGLAAAYVKDLNVFFTSLFNVLPTLVLLLGGAYCSVYRRQRELFLMVTVYIAYFLLDTQTDFYRDNGKVREDAAVVFHLVCLLLPLLFGLFAAWQERTHLFQDMVARFAVLLAFGGVALALEQSFPQALLLWLSEIRWPALHGAWMSLIQLSYPVFAAAFVLLAWQYWRNPRPLHAAQLVGLVGLFWMLPKTFILPFTLNIMCSQVMLMIAAAVAHEAYQMAFRDELTGLPGRRALNERMQRLGRNYVLAMSDVDHFKKFNDTHGHDVGDQVLRLVASKLSKIGGGGRAYRYGGEEFALVFAGKTIDECMPHLEVIRQSIETYAIQLRNPDNRPQDDQQGRQRRSGSGATSVSVTVSIGVAERVDQRTPEEVLKSADQALYNAKGAGRNCVIAFGQNRRGAVRMEAAAG				NA	NA	NA	NA	NA
D1-35_05120	1797	dmdC_3	COG1960	3-methylmercaptopropionyl-CoA dehydrogenase	ATGCCCGAGTACAAAGCCCCGCTGCGCGACATGCGTTTCCTGATCGACAACGTCTTTGATTTCCACGGCCGTTATGCCGAGTTGGGGGCCAGCGACGCCAGTCCGGACATGGTCAGCGCCATCCTCGAAGAAGGTGCCCGGTTCTGTGAGAACGTGCTGGCTCCGCTCAATCGTCCGGGTGACGAAGAGGGCTGCCATTTCGATAACGGCGTGGTCACTACACCTGCAGGCTTCAAGCAAGCTTTCGCACAGTATGTGGAAGGCGGCTGGCACGGCCTGGCAGCGGATCCGGCTTATGGCGGCCAAGGCCTGCCCAGCTCGCTGGGGCTGGTGATCAGCGAAATGATCGGGTCGAGCAATACCTCCTGGGGCATGTACCCCGGCCTGACCCACGGCGCCATGTCGGCCATCCACGCTCACGGCACCGAACAGCAGAAACAGACCTACCTCAACAAGCTCACCGCCGGCCAGTGGACCGGCACCATGTGCCTGACCGAAGCCCACTGCGGCACGGACCTGGGCATCATTAAGACCCGCGCCGTGCCTCAGGCGGATGGCAGCTACGCGGTGACCGGCAGCAAGATCTTCATCAGCGCCGGCGAGCACGACATGAGCGACAACATCATTCACCTGGTGCTCGCCAAATTGCCGGATGCTCCCGCCGGGACCAAAGGCATCTCGTTGTTCATCGTGCCCAAGTTCCTGCCCGATGCAGCGGGCGAGGCCGGTGAGCGCAATGGTGTTTCCTGCGGTTCGATCGAGCACAAGATGGGCATCAAGGCGTCGGCCACGTGCGTGCTGAACTTCGATGGGGCCAAGGGTTTCCTGATCGGCGAACCGAACAAGGGCCTCAACTGCATGTTCACCATGATGAACCACGCCCGCCTCGGTACCGGCATGCAGGGCCTGTGCCTCGGCGAAGCGAGCTTCCAGGGTGCGATCAAATACGCCAACGATCGCCTGCAGATGCGCTCTTTGACCGGCCCCAAGGCGCCGGAAAAAGTCGCCGACCCGATCATTGTCCATCCCGATGTACGCCGGATGCTGCTGACCATGAAAGCCTTCAATGAAGGCAATCGGGCGCTGACCTATTTCACCGCGCAACTGCTCGATACCGCGCATTTGAGCCGCGACGAAAGCGCCCGCCAGGAGGCGGAAGACCTGCTGGCCTTCCTCACCCCGATCTGCAAGGCCTTCATGACCGACACGGGTTTGGAAGTGACCAACCACGGCATGCAGGTCTTTGGCGGTCATGGCTTCATTCGTGAGTGGGGCATGGAGCAGCTGGTGCGTGATTGCCGGATCGCGCCGATCTATGAAGGCACCAACGGCATCCAGGCCCTGGACCTGCTGGGGCGCAAAGTGCTGGGTAGCCAGGGCAAGTTGCTGCGCGGTTTCACCAGAATCGTTCACAAATTCTGCGCTGCCAATGCCGGGCATCCGCAGCTCCAGGCTTTCATTGCGCAACTGGACGGGCTCAACCAGCAATGGGGCGAACTGACGACGCAGGTCGGCATGGCCGCCATGAAAAATCCGGATGAGGTGGGCGCCGCTTCGGTGGATTACCTGATGTACAGCGGCTATATCATTCTGGCCTATCTGTGGTTGCGCATGGCGTTGGTGGCCCAGGCGCAACTCGACAGCGGCACTGGAGGCAGCGATTTCTGCCGGGCCAAGCTGGCGACCTGCGAGTTTTACTTCAAGCGCCTGCTGCCGCGTACGGCCGCCCATCGGGCTGCTATAGAGGCGGGGAGCGATTGCCTGATGAGGTTGCCGGCGGAGTTGTTTGCGCTTTGA	MPEYKAPLRDMRFLIDNVFDFHGRYAELGASDASPDMVSAILEEGARFCENVLAPLNRPGDEEGCHFDNGVVTTPAGFKQAFAQYVEGGWHGLAADPAYGGQGLPSSLGLVISEMIGSSNTSWGMYPGLTHGAMSAIHAHGTEQQKQTYLNKLTAGQWTGTMCLTEAHCGTDLGIIKTRAVPQADGSYAVTGSKIFISAGEHDMSDNIIHLVLAKLPDAPAGTKGISLFIVPKFLPDAAGEAGERNGVSCGSIEHKMGIKASATCVLNFDGAKGFLIGEPNKGLNCMFTMMNHARLGTGMQGLCLGEASFQGAIKYANDRLQMRSLTGPKAPEKVADPIIVHPDVRRMLLTMKAFNEGNRALTYFTAQLLDTAHLSRDESARQEAEDLLAFLTPICKAFMTDTGLEVTNHGMQVFGGHGFIREWGMEQLVRDCRIAPIYEGTNGIQALDLLGRKVLGSQGKLLRGFTRIVHKFCAANAGHPQLQAFIAQLDGLNQQWGELTTQVGMAAMKNPDEVGAASVDYLMYSGYIILAYLWLRMALVAQAQLDSGTGGSDFCRAKLATCEFYFKRLLPRTAAHRAAIEAGSDCLMRLPAELFAL	PGPT0008385_210	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
D1-35_05121	1779	dmdC_4	COG1960	3-methylmercaptopropionyl-CoA dehydrogenase	ATGGCTGACTACAAAGCGCCCCTGCGCGATATGCGCTTCGTCCTCAATGAAGTGTTCGAGGTCGCGAAACTCTGGGCTCAACTGCCGGCGTTGGCCGAAACCGTGGACGCTGAAACCGTCGAAGCGATCCTCGAAGAGGCGGGCAAGGTCACCGGTAAAAGCATCGCGCCCCTCAGCCGTGCAGCTGACGAAGAGGGTTGCCACTGGGCTGACGGCGCCGTGACCACCCCGGCGGGTTTCCCTGAGGCCTACAGGACCTTCGCTGAAGGCGGTTGGGTCGGCGTCGGCGGAGATCCAACGTACGGTGGCATGGGCATGCCCAAGGCGGTTTCGGCCCAGGTCGAGGAAATGGTCAACTCCGCCAGCTTGTCCTTCGGTCTGTACCCGATGCTTACCGCAGGAGCCTGCCTGTCGATCAACGCCCACGCCAGTGAAGAATTGAAAGCCGCGTACCTGCCAAACATGTACGCCGGCGTCTGGGCCGGCTCCATGTGCCTGACCGAACCCCATGCCGGCACCGACCTGGGGATTATCCGGACCAAGGCTGAGCCCCAGGCTGACGGCACCTACAAGGTCAGCGGCACGAAGATTTTCATTACCGGCGGCGAACACGACCTCACCGAAAACATCATTCACCTGGTGCTGGCGAAGCTCCCCGACGCACCGGCGGGCCCGAAAGGCATTTCGCTGTTCCTGGTGCCGAAATTCATGGTCAACGCCGACGGCAGCCTGGGTGCACGCAACGCGGCCAACTGCGGTTCGATCGAACACAAGATGGGCATCCAGGCGTCCGCCACCTGCGTGATGAACTTCGACGAAGCAGTGGGTTACCTGGTCGGCGAGCCGAACAAAGGCCTGGCGGCGATGTTCACCATGATGAATTACGAACGCCTGGGCGTGGGGATCCAGGGTCTGGCCTCCGGCGAGCGTTCGTACCAGAACGCTGTCGAGTACGCCCGTGATCGCCTGCAAAGCCGTTCGCCAAGCGGCGCGCAGAACAAGGACAAGATCGCCGACCCGATCATCGTCCACCCGGATGTGCGCCGGATGTTGCTGACCATGAAAGCGTCGAACGAAGGTGGCCGGGCATTCTCCACCTACGTGGCGATGCAACTGGACACCGCCAAGTTCAGCGAAGACCCGACGACTCGCAAGCGCGCCGAAGATCTGGTGGCCTTGCTGACGCCGGTTGCCAAGGCATTCCTGACCGACCTGGGCCTGGAAACCACTATTCACGGCCAGCAGATTTTCGGCGGCCACGGCTACATTCGCGAATGGGGCCAGGAGCAGTTGGTGCGCGACGTGCGCATCACCCAGATCTACGAAGGCACCAACGGCATCCAGGCACTGGACCTGGTGGGGCGCAAGATCGTCGGCAACGGCGGGGCGTTCTACAAACTGTTCGCCGACGAGATTCGTCATTTCACCGCTACCGCTGGCAGCGATCTGGCGGAGTTCACCCAGCCGTTGAACGATGCCGTCGGCACGCTGGACGAGCTGACCGAGTGGCTGCTGGACCGGGCGAAAAACAATCCCCATGAAATTGGCGCGGCTTCGGTGGAGTACCTGCAGGCGTTCGGCTACACCGCGTATGCCTACATGTGGGCGCTCATGGCCCGGGCGGCCCTGGGCAAGGAGACGCAGGACGATTTCTACGCGAGCAAACTGGGCACGGCACGTTTCTATTTCGCCCGCCTGTTGCCACGAATCCATTCCTTGAGCGCTTCGGTTAGGGCGGGTAGCGAGTCGCTGTTCCTGCTGGAACCCGGTCAGTTCTAA	MADYKAPLRDMRFVLNEVFEVAKLWAQLPALAETVDAETVEAILEEAGKVTGKSIAPLSRAADEEGCHWADGAVTTPAGFPEAYRTFAEGGWVGVGGDPTYGGMGMPKAVSAQVEEMVNSASLSFGLYPMLTAGACLSINAHASEELKAAYLPNMYAGVWAGSMCLTEPHAGTDLGIIRTKAEPQADGTYKVSGTKIFITGGEHDLTENIIHLVLAKLPDAPAGPKGISLFLVPKFMVNADGSLGARNAANCGSIEHKMGIQASATCVMNFDEAVGYLVGEPNKGLAAMFTMMNYERLGVGIQGLASGERSYQNAVEYARDRLQSRSPSGAQNKDKIADPIIVHPDVRRMLLTMKASNEGGRAFSTYVAMQLDTAKFSEDPTTRKRAEDLVALLTPVAKAFLTDLGLETTIHGQQIFGGHGYIREWGQEQLVRDVRITQIYEGTNGIQALDLVGRKIVGNGGAFYKLFADEIRHFTATAGSDLAEFTQPLNDAVGTLDELTEWLLDRAKNNPHEIGAASVEYLQAFGYTAYAYMWALMARAALGKETQDDFYASKLGTARFYFARLLPRIHSLSASVRAGSESLFLLEPGQF	PGPT0008385_210	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
D1-35_05123	336			hypothetical protein	ATGTCAGGGAAACAGTCTGCAAAGCCCCGCTTCGGCGGGGTTTTCTTTTGCCCGCGTTTTTTGCCTGCGTATCTTCTCCCTGCGGCCCGCCTCTTTGGACGCGCACTGAACCCTGACGAGCGGTCAGCTGTCCATGAGCTATATGGCAATGTGGCCATCGACCATCAGGAGCTGTCCATGGATATCATTCGAATCATCATCGCCATTCTGTTGCCACCGCTGGGTGTGTTCCTGCAAGTCGGGTTCGGCGGGGCTTTCTGGCTGAACATTCTGCTGACGCTGTTGGGTTATATCCCCGGCATCGTGCATGCGGTGTACATCATCGCCAAGCGCTGA	MSGKQSAKPRFGGVFFCPRFLPAYLLPAARLFGRALNPDERSAVHELYGNVAIDHQELSMDIIRIIIAILLPPLGVFLQVGFGGAFWLNILLTLLGYIPGIVHAVYIIAKR				NA	NA	NA	NA	NA
D1-35_05124	1827			hypothetical protein	ATGAACGAAACTCGCGCCTCATCGTTAAAGGCTGAACCTTTCAGCGCCGCCCAGGCCGTCGCGGCAGGCATCGACTTTGCCGAGCTGCAACTCGGCCCCCTGGGCCTTTTCTGGAACGAATACCGTCCCGAAGATGGCGCTTGCCGGATCTGGCATTGGCGAGACGGCAAGGCGCGTTGCCTGACCCCGGACGGTTTCAGTGTGCGCAGCCGGGTGTATGAATACGGCGGCGGGTCGTTCTGTCTGAGCGACGACGGCGTGCTGTTCGTCAACGAACGCGACCAACAGTTGTATCACCAATCGCTGGGCGACCAGTGTCCGGTAGCGCTGACCGCGGGCGATTGTCGATACGGCGATCTGCACTTCGCCACAGGGCACGTGCTGGCCGTGGAGGAACAGGCCGACCAGCATCGATTGGTATCGATCGGACTGGCGGATCACCAGCGGCGCTTATTGGCCGAAGGCGCGGACTTCTATGCCGCGCCGATCTTGAGCCCCGACGGAAAACGTCTCGCCTGGATTGAATGGAGTCGCCCCCACCAGCCATGGACAGCGACGCGGCTGATGCTCGCCGAGCGCAACGATTCAACCTGGGCAGCGCCATGCTGCGTGGCCGGCGATGATGACGAAGAATCCATCCAGCAACCTCGCTTCGATGCTTGCAGTCGCCTTTATTGCCTGACCGACCGAGACGGTTACTGGCAGCCCTGGAGTGAATGCGCCGGCGTCCTGAAGCCAATGGACGCCGCCGAAGCCGATCACGCCCCGGCGCCTTGGCAACTGGGCGGGTGTACATGGTTGCCGGTGGATGAAAGCAGTTTCCTGGCAAGCTGGACCGAGGCCGGCTTCGGGCGGTTGGGGCTGCGCAGCGGCGGCGTGCTCGAAGATTTCACCGGCACTTACAGCCGCTTCCGCAGCCTCGCGCTGGATGAGCAATTCGTCTATGCCATTGCCGCCTCGCCAGCCAGCCCCTCGGCGGTCATTGCGATCGAGCGGCGCAGTCATGAAGCGCTGGTGCTGGCCGGAGGCATCGCGCCGTTGCCTCCCGAGCAAATCAGCCGCCCCCGGACTCTGCGCTATCCCTCTGCGTCCAGCGAAGCCCACGGTTTTTTTTATCCAGCCATGAACACCGACGCGAAGCCGCCGCTGGTGGTGTTTATCCACGGTGGGCCGACCTCGGCTTGCTACCCGATGTTCGACCCGCGCATCCAGTATTGGACCCAGCGCGGCTTCGCCGTTGCCGACCTCAACTACCGTGGCAGCAGCGGTTATGGGCGCGTCTATCGGCAAGCGCTGCATTTGAGTTGGGGCGTGGTGGATGTCGAGGAGGCCTGCGCCGTGGTTGCTTACCTTGATGAGCAAGACTTGGTCGATGGCCGCTGCGCCTTCATCCGTGGCGGCAGCGCGGGAGGATATACCAGCCTCTGCGCCCTGGCGTTCCGGGACGTGTTCCGCGCTGGCGCCAGCCTCTACGGCGTCAGCGATCCCGTTGCCCTGGCCCGCGCTACGCACAAATTCGAAGGTGACTATCTGGACTGGCTGATCGGCGACCCGCAACTGGACGCCGAACGCTACCGGGCCCGCACGCCGTTACTGCATGCCGAGAGGATTCGCGCGCCGGTGATTTTTTTCCAAGGCGAGCTGGACGCCGTGGTCGTGCCGCAGCAGACCCGCGACATGGTCAAGGCGCTGGAGGACAACGGTGTTGCGGTCGAGGCTCATTACTACCCTGATGAGCGCCATGGCTTTCGCAAGGCCGCGAACCAGGCACATGCGCTGGAGCATGAGTGGTTGTTCTATCGCAGGGTGATGGATGGACTCGCATAG	MNETRASSLKAEPFSAAQAVAAGIDFAELQLGPLGLFWNEYRPEDGACRIWHWRDGKARCLTPDGFSVRSRVYEYGGGSFCLSDDGVLFVNERDQQLYHQSLGDQCPVALTAGDCRYGDLHFATGHVLAVEEQADQHRLVSIGLADHQRRLLAEGADFYAAPILSPDGKRLAWIEWSRPHQPWTATRLMLAERNDSTWAAPCCVAGDDDEESIQQPRFDACSRLYCLTDRDGYWQPWSECAGVLKPMDAAEADHAPAPWQLGGCTWLPVDESSFLASWTEAGFGRLGLRSGGVLEDFTGTYSRFRSLALDEQFVYAIAASPASPSAVIAIERRSHEALVLAGGIAPLPPEQISRPRTLRYPSASSEAHGFFYPAMNTDAKPPLVVFIHGGPTSACYPMFDPRIQYWTQRGFAVADLNYRGSSGYGRVYRQALHLSWGVVDVEEACAVVAYLDEQDLVDGRCAFIRGGSAGGYTSLCALAFRDVFRAGASLYGVSDPVALARATHKFEGDYLDWLIGDPQLDAERYRARTPLLHAERIRAPVIFFQGELDAVVVPQQTRDMVKALEDNGVAVEAHYYPDERHGFRKAANQAHALEHEWLFYRRVMDGLA				NA	NA	NA	NA	NA
D1-35_05125	1152	pqqE	COG0535	PqqA peptide cyclase	GTGCACAGCACTGGATCACCCTTGCCTGAGAAGCCCGCCGTCGGCTTGCCGCTGTGGCTGCTGGCCGAGCTGACCTATCGCTGCCCGTTGCAATGCCCGTACTGCTCCAACCCGCTGGACTTTGCCGAACAAGGCAAGGAGCTGAGCACCGAGCAGTGGTTCAAGGTCTTTCGCGAGGCCCGGGAAATGGGCGCCGCGCAACTGGGCTTTTCCGGCGGCGAGCCGTTGGTGCGCCAGGACCTCGCCGAGCTGATCGGCGAGGCGCGCAAGCTAGGCTTCTACACCAATCTGATCACCTCCGGCATCGGCTTGACCGAACAGAAAATCAGCGATTTCAAGAAGGCCGGCCTCGACCACATCCAGATCAGTTTCCAGGCCAGCGACGAGCAGGTGAACAATCTGCTGGCCGGTTCGAAAAAAGCTTTCGCGCAAAAACTGGAGATGGCCCGAGCGGTGAAAGCCCATGGTTATCCGATGGTGCTGAACTTCGTCACCCATCGGCACAACATCGACAAGATCGACCGCATCATCGAGTTGTGCATCGCCCTGGAAGCCGACTTTGTCGAACTCGCCACCTGTCAGTTCTATGGCTGGGCACACCTCAACCGCGTCGGCCTGCTGCCCACGCGGGAACAACTGGTGCGTGCCGAGCGCATCACCAATGAATACCGGGCCAGGCTCGAGGCCGAAGGTAACCCGTGCAAGTTGATTTTCGTGACCCCGGATTACTATGAAGAGCGCCCCAAGGCCTGCATGAACGGCTGGGGCAGCATCTTCCTGACCGTTACCCCGGATGGCACGGCATTGCCTTGCCATGGCGCCCGGCAGATGCCGGTGCAATTCCCGAATGTGCGTGACCACAGCATGCAACACATCTGGTACGACTCGTTCGGCTTCAACCGTTTTCGAGGTTATGACTGGATGCCCGAGCCCTGCCGCTCGTGCGATGAAAAAGAAAAGGATTTCGGCGGCTGTCGTTGCCAGGCGTTCATGCTCACCGGTGACGCCAGCAATGCCGATCCTGTGTGCAGCAAATCCGCGCACCACGGGATGATTCTCCAGGCTCGCGAAGACGCCGAGCATGCCACGCAAACCATCGGACAACTGGCCTTTCGCAATGAACGAAACTCGCGCCTCATCGTTAAAGGCTGA	MHSTGSPLPEKPAVGLPLWLLAELTYRCPLQCPYCSNPLDFAEQGKELSTEQWFKVFREAREMGAAQLGFSGGEPLVRQDLAELIGEARKLGFYTNLITSGIGLTEQKISDFKKAGLDHIQISFQASDEQVNNLLAGSKKAFAQKLEMARAVKAHGYPMVLNFVTHRHNIDKIDRIIELCIALEADFVELATCQFYGWAHLNRVGLLPTREQLVRAERITNEYRARLEAEGNPCKLIFVTPDYYEERPKACMNGWGSIFLTVTPDGTALPCHGARQMPVQFPNVRDHSMQHIWYDSFGFNRFRGYDWMPEPCRSCDEKEKDFGGCRCQAFMLTGDASNADPVCSKSAHHGMILQAREDAEHATQTIGQLAFRNERNSRLIVKG	PGPT0001265_116	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001265-pqqE-K06139	NA	NA
D1-35_05126	276	pqqD		PqqA binding protein	ATGAGCTTCGACCGCAGCAAAACCCCTCAGTGGCGTCCCGGCTATCGCTTCCAATACGAACCGGCCCAGAAAGGCCATGTGCTGCTTTATCCTGAAGGCATGATCAAGCTCAACGACAGCGCCTCGCTGATCGGCGGCCTGATCGATGGTGAACGGGATGTCGCGGCGATCATCGGCGAGCTGGAGAAGCAATTCCCGGACGTGCCGGAACTCGGTGACGACATCGAGCAATTCATGGAGGTCGCCCGTGCACAGCACTGGATCACCCTTGCCTGA	MSFDRSKTPQWRPGYRFQYEPAQKGHVLLYPEGMIKLNDSASLIGGLIDGERDVAAIIGELEKQFPDVPELGDDIEQFMEVARAQHWITLA	PGPT0001260_564	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001260-pqqD-K06138	NA	NA
D1-35_05127	753	pqqC	COG5424	Pyrroloquinoline-quinone synthase	ATGACTGACACCCCCCTGTCCATCGCCGAGTTCGAGGCGGCCCTGCGTGCCAAAGGCGCGTACTACCACATCCATCACCCCTACCACGTGGCGATGTATGAAGGCCGCGCCACGCGCGAGCAGATCCAGGGCTGGGTCGCGAACCGCTTCTACTACCAAGTGAATATTCCGCTCAAGGACGCCGCGATCCTGGCCAACTGCCCGGACCGGGAAATCCGTCGCGAGTGGATCCAGCGCCTGCTCGACCATGACGGTGCCCCCGGCGAAGACGGCGGCATCGAAGCCTGGCTGCGACTGGGCCAGGCAGTGGGCCTGGACCCCGATCAGCTGCGCTCCCAAGAGTTGGTGCTACCCGGCGTACGCTTCGCCGTGGATGCCTACGTCAACTTCGCCCGCCGGGCTTCCTGGCAGGAAGCCGCCAGCAGCTCATTGACCGAACTGTTCGCCCCGCAGATCCACCAGTCGCGCCTGGACAGCTGGCCGCAGCACTACTCCTGGATCGACCCGGCCGGCTATGAATATTTCCGCACCCGCCTGGGCCAGGCTCGGCGTGATGTGGAGCATGGTCTCGCGATCACCTTGCAGCACTACACCACCCGCGCAGGCCAGGAGCGCATGCTGGAAATTCTCCAGTTCAAATTGGACATTCTCTGGAGCATGCTCGACGCCATGAGCATGGCTTACGAATTAAAACGCCCGCCCTATCACAGCGTGACCGATCAACGGGTGTGGCATAAAGGGATTACCTTATGA	MTDTPLSIAEFEAALRAKGAYYHIHHPYHVAMYEGRATREQIQGWVANRFYYQVNIPLKDAAILANCPDREIRREWIQRLLDHDGAPGEDGGIEAWLRLGQAVGLDPDQLRSQELVLPGVRFAVDAYVNFARRASWQEAASSSLTELFAPQIHQSRLDSWPQHYSWIDPAGYEYFRTRLGQARRDVEHGLAITLQHYTTRAGQERMLEILQFKLDILWSMLDAMSMAYELKRPPYHSVTDQRVWHKGITL	PGPT0001255_482	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001255-pqqC-K06137	NA	NA
D1-35_05128	912	pqqB	COG1235	Coenzyme PQQ synthesis protein B	ATGTTCGTCCAGATTCTAGGTTCCGCCGCCGGTGGGGGCTTTCCCCAGTGGAACTGCAACTGCGCCAATTGCGCGGGTTTTCGCGACGGCAATCTCCGAGCGCAGGCGCGCACCCAGTCGTCCATTGCAATTTCCGATGATGGCGTGAGCTGGGTCCTGTGCAACGCCTCGCCGGACATCCGCGCGCAACTCCAGGGTTTCGCCCCGATGCAGCCTGGCCGGGCGCTACGGGACACCGGCATCGGCGCGATCATCCTGATGGACAGCCAGATCGATCACACCACCGGCTTGCTCAGCCTGCGCGAAGGCTGCCCGCATCAGGTCTGGTGCACCGACATGGTCCATGAAGACCTGAGCACCGGTTTCCCGCTGTTCAACATGCTGACCCACTGGAACGGCGGCCTGAGCTGGAACCGCATCGAGCTGGACCAGAGCTTCACCGTCCCGGCCTGTCCGAACCTGCGCTTCACCCCGCTGCCGCTGCGCAGCGCCGCGCCGCCCTATTCACCGCACCGCTTCGATCCGCATCCGGGTGACAACATCGGGCTGATCGTTGAAGACCTGCGCAGCCGCGGCAAACTGTTCTATGCGCCGGGCCTGGGCAAGGTCGACGAACCGTTGCTGCAGATCATGGCCGACAGCGACTGCCTGCTGGTGGACGGCACGATGTGGGACGACGACGAAATGCAACGCCGTGGCGTCGGCACTCGCACCGGTCGGGAAATGGGCCACCTGGCGCAGAACGGTCCCGGAGGGATGCTGGAGGTGCTGGAGCAATTGCCCGAGCAGCGCAAGGTGCTCATCCATATCAACAACACCAACCCGATCCTGGACGAAGACTCGCCCGAGCGGGCCGAGCTGGTGCGACGCAGGATTGAAGTGGCTTACGATGGCATGAGCATCGAACTGTAG	MFVQILGSAAGGGFPQWNCNCANCAGFRDGNLRAQARTQSSIAISDDGVSWVLCNASPDIRAQLQGFAPMQPGRALRDTGIGAIILMDSQIDHTTGLLSLREGCPHQVWCTDMVHEDLSTGFPLFNMLTHWNGGLSWNRIELDQSFTVPACPNLRFTPLPLRSAAPPYSPHRFDPHPGDNIGLIVEDLRSRGKLFYAPGLGKVDEPLLQIMADSDCLLVDGTMWDDDEMQRRGVGTRTGREMGHLAQNGPGGMLEVLEQLPEQRKVLIHINNTNPILDEDSPERAELVRRRIEVAYDGMSIEL	PGPT0001250_462	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001250-pqqB|pqqG-K06136	NA	NA
D1-35_05129	120	pqqA		Coenzyme PQQ synthesis protein A	ATGTATAGCTTTAAACCGATCCACCCCAACCAAAGGAGTATTCCCATGTCCTGGTCCAAACCCGCATATATCGACCTGCGTATCGGCTTCGAAGTCACCATGTACTTCGCCAGCCGTTGA	MYSFKPIHPNQRSIPMSWSKPAYIDLRIGFEVTMYFASR				NA	NA	NA	NA	NA
D1-35_05130	2439			hypothetical protein	ATGCCGGCCCCCGATTCCCTCCGCCCCCATACCGAAACCCTGGCCAACGGCCTACAAGTGACGTTGCGCCATGCACCCGACCTCAAGCGCAGCGCTGCGGTATTGCGGGTGGCGGCCGGCAGCCATGATGCGCCTGAGGCCTGGCCGGGCCTCGCGCATTTTCTCGAACATCTTTTTTTTCTCGGGACAGAACGTTTTCCCAGCGGGCAGAACCTGATGGCCTACGTGCGGGACCACGGTGGGCAAGTCAACGCGCGTACCAGCGAGCGCACCACGGACTTTTTCATCGAGCTGCCGCCTGCCGCCCTGGCCGACGGGTTGGAGCGTCTGGCAGACATGCTCGCTCATCCCCGACTGGATGAAGCCGACCAGTTACGCGAGCGGGAAGTGCTGCACGCCGAATTCATCGCCTGGTCCCGGGACGCCGTCGCCCAGCGCCAGCTTGCCCTGTATGACGGATTAACGGCGGCCCATCCGCTGCGAGGTTTTCACGCCGGCAATCGCGACAGCCTCGGCGTATCACAGCCTGAATTTCAAACGGCCCTGCGCGGTTTCCATCAGCGTTTCTACCAGAGCGGTCAGATGACCTTGAGCCTCGCCGGCCCGCAAAGCCTCGAAACAATGAAGGCGCTGGCCGATCAATTCGCTACAAGCATGCCCATCGGAAAAGCGGCGACCAGGCAATTGCCACCGAGGCTAATGACGTCGCCAGGCATCGCTTATCAACAGGTCCGGGAAGGCTGCCTCGACTTGCTCTTCGCCCTCGAACACTTGCCTGGCGCCTCGCCTCAAGCATTGGCCTTCCTGTGTCACTGGCTGAACTCCAGCAAACCGGGCGGCTTGCTTGCGACGTTGCGCCAACGCGGTCTCGCCGACAGCCTCAAGGCTTCGCAGCTGTATGAATTTGCCGGTCAAGCACTGCTGCACATCGAGCTCAAGCTCGACAGCGGCCCGGTGCCGTCGGCTGTCGAGCCGTTGCTGCGCGACTGGCTGGGGTTCTTTGCCGCCCATGACGACTGGGCTCCCTTGCGCCAGGAATTCAACGCCCGGCTGCAGCGCCGTCAGGAAACGGCAACCGCCCTGCAACTGGCGCGTTGGGACGGCGAAGGATGTGCCGGGGCTCTAGCGGAAAACGACTTGATGCGGATTCGAGAAATCCTCAAACAACTGCACCCTGCGAATCCGGTCACCGAACAATGGCAACTGCCCTCGCCCAACCCGTTCCTGCAAGCGCCAAGCGAGCCGCCCCGCGCCGGTTTGATACGCGGCCAGACCAGCGCCCACCGTGGTCTGCGCACGTTCGCACAAGACCGCAGCCGGGGCCGGCGGGAACGCTCACCCATGCAGTTCAGCCAGGCATTGCCGGACTCCCGGGAAAGTGGGGTGTATGTGCGCTGGCAACTGGAGACCCGGGTACCGCTCGATTTTCAACCCAGACTCGATCGGCACCTGGCGGATGTGTGCGAGGACGCCCGGCAGGCAGGCGTGGACATCACTTTCGAAGCCTGTAGTGATCGATGGCTGTTGAAGCTGGTCGGTTTGCAAGCACCGATGCCGTTGGTGCTTGAGCACCTGCTGACAAAGCTGGAGCAGCCGCTGCCACCCGTTCAGGCCAGGAACGAAACGCCCCTGATGCCGATTCGACATTTGCTGCGGGAATTGCCGGATCACTATCAGCAGAACCTGCGGCATGCAGAGCCGCCACCGCCCGACAGCGAACAAGACGTCTGGGCAAGCGCCCGCTGGGACGGCCTGGCCATCGGTCTGTCGGCTGCTTCCCAAGCCGCTGTGGGCCCGTTGTTGGCCCGGATTCCTGGCGTGGCCCGCGAGGCGACGGCGCCAGCAGCGACGCCTTCACCAGGGCGGATCTGGCGCACCCTAGAGACCCATGGCGACGAACAGGCCGTGTTGCTGTTTTGCCCCTCGCCCACGTTGGACTTGCCCGACGAAGCTGCCTGGCGATTGCTGGCTCATTTGTGCCAGACCCCGTATTACCAGCGCTTGAGGATCGAGCTGCAGTTAGGTTATGCGGTGTTCAGTGGCTTGAAGCAAATCGATGGGTGGACCGGCTTGTTGCTGGGTGCGCAATCGCCCGAGACGTCGGCCGCGCAATTGGTCAGCCATATGGAGCAGTTTCTGACCGAGCTTCCCGCCGTGATCGAGCGAACCGACGATGCAACCCTGGCCAGCCAACAACAAGCCCTGGCCAGCCAGATGCAAATCGCCGCGTTGCCCTGCGCCCAGGCGGCCGAGCTACTCTGGCAAGGAAAACTGGCCGGCCACCCGGCGGACTTCCCTGAGCGACTGGCCGATGCCATTCTGGGCATGCAGCGCATAGACCTGGTGAATGCCGCCTGCCGCTTGATCGATGCGCAGGGAGGACGTTATTGCCTCAGCAACGCGCCGAGCCCGGGCGCCCCTTGGCGAGCGGCCGAATGA	MPAPDSLRPHTETLANGLQVTLRHAPDLKRSAAVLRVAAGSHDAPEAWPGLAHFLEHLFFLGTERFPSGQNLMAYVRDHGGQVNARTSERTTDFFIELPPAALADGLERLADMLAHPRLDEADQLREREVLHAEFIAWSRDAVAQRQLALYDGLTAAHPLRGFHAGNRDSLGVSQPEFQTALRGFHQRFYQSGQMTLSLAGPQSLETMKALADQFATSMPIGKAATRQLPPRLMTSPGIAYQQVREGCLDLLFALEHLPGASPQALAFLCHWLNSSKPGGLLATLRQRGLADSLKASQLYEFAGQALLHIELKLDSGPVPSAVEPLLRDWLGFFAAHDDWAPLRQEFNARLQRRQETATALQLARWDGEGCAGALAENDLMRIREILKQLHPANPVTEQWQLPSPNPFLQAPSEPPRAGLIRGQTSAHRGLRTFAQDRSRGRRERSPMQFSQALPDSRESGVYVRWQLETRVPLDFQPRLDRHLADVCEDARQAGVDITFEACSDRWLLKLVGLQAPMPLVLEHLLTKLEQPLPPVQARNETPLMPIRHLLRELPDHYQQNLRHAEPPPPDSEQDVWASARWDGLAIGLSAASQAAVGPLLARIPGVAREATAPAATPSPGRIWRTLETHGDEQAVLLFCPSPTLDLPDEAAWRLLAHLCQTPYYQRLRIELQLGYAVFSGLKQIDGWTGLLLGAQSPETSAAQLVSHMEQFLTELPAVIERTDDATLASQQQALASQMQIAALPCAQAAELLWQGKLAGHPADFPERLADAILGMQRIDLVNAACRLIDAQGGRYCLSNAPSPGAPWRAAE				NA	NA	NA	NA	NA
D1-35_05131	795	ramA_2		(R)-stereoselective amidase	ATGCGCGTAGCCCTCTACCAATGTCCACCGCTGCCAATGGATCCGGCCGGCAACCTGCAGCGTCTGCACCAAGTCGCGCTGGAGGCCCGAGGCGCTGACATATTGGTGCTGCCGGAGATGTTCCTGACCGGCTATAACATCGGCGTCGATGCGGTGCATGTACTGGCCGAGGTCTACAACGGCGAATGGGCCCAGCAAATTGGCCGCATCGCCAAGGCGGCCGGCCTGGCGATTCTCTATGGCTACCCCGAACGCAGCGAAGACGGACAGATCTACAACGCCGTGCAACTGATCGATGCCCAAGGCGAACGCCTCGCCAACTATCGCAAGAGCCACCTGTTCGGCGACCTCGACCATACGATGTTCAGCGCCGGGGATGCGACGCTGCCCATTGTCGAGCTCAACGGCTGGAAGCTCGGTTTCCTGATCTGCTATGACTTGGAGTTCCCGGAAAACGCCCGGCGGCTGGCCTTGGCCGGTGCCGAGCTGATCCTGGTGCCGACCGCCAACATGCAGCCCTACGAGTTCATCGCCGACGTCACCGTGCGGGCGCGGGCCATTGAAAACCAGTGTTTCGTGGCCTACGCCAACTACTGTGGCCACGAAGGTGAGTTGCGCTATTGCGGCCAGAGCAGCATCGCCGCGCCGGACGGCAGCCGCCCGGCCCTGGCGGGGCTGGACGAGGCGTTGATCGTCGGTGAACTGGATCGACAGCTGATGAATGACTCGCGCGCGGCCTACAACTACCTGCACGACCGTCGCCCGGCGCTATACGGCGACTTGCATAAACACTGA	MRVALYQCPPLPMDPAGNLQRLHQVALEARGADILVLPEMFLTGYNIGVDAVHVLAEVYNGEWAQQIGRIAKAAGLAILYGYPERSEDGQIYNAVQLIDAQGERLANYRKSHLFGDLDHTMFSAGDATLPIVELNGWKLGFLICYDLEFPENARRLALAGAELILVPTANMQPYEFIADVTVRARAIENQCFVAYANYCGHEGELRYCGQSSIAAPDGSRPALAGLDEALIVGELDRQLMNDSRAAYNYLHDRRPALYGDLHKH				NA	NA	NA	NA	NA
D1-35_05132	1683	iaaM		Tryptophan 2-monooxygenase	ATGAACAAGCACAATCGCCACCCAGCAGACGGCAAGAAGCCCATCACCATTTTCGGACCGGACTTTCCTTTCGCCTTTGACGACTGGATCGAGCACCCGGCCGGCCTGGGGGTCATTCCCGAGCACAACCACGGGGCTGAAGTGGCGATCGTCGGCGCGGGGATCGCCGGTCTCGTAGCCGCTTACGAATTGATGAAGCTAGGCCTCAAACCGGTGGTCTACGAGGCGTCGAAGATGGGCGGACGTCTGCGCTCCCAAGCGTTCAACGGCGCCGAAGGCATCGTTGCCGAGCTCGGTGGCATGCGTTTTCCGGTGTCGTCCACGGCGTTCTACCACTACGTCGACAAACTGGGCCTGGAGACCAAACCGTTCCCCAACCCACTGACCTCGGCCTCGGGCAGCACCGTCATCGACCTGGAAGGGCAGACTTACTACGCCGAAAAAATGGCCGACCTTCCTGCGCTGTTCCAGGAAGTCGCTGACGCCTGGGCCGATGCCCTGGAGGATGGCTCGCGTTTCAGCGAGATCCAGCAGGCGATCCGCGAGCGCGACGTGCCGCGTCTCAAAGAGCTGTGGAACACCCTGGTACCGCTGTGGGATGACCGCACATTCTACGATTTCGTCGCCACCTCCAAGGCGTTCGCCAAGCTGTCTTTCCAGCACCGCGAAGTGTTCGGCCAGGTCGGCTTCGGCACGGGCGGCTGGGACTCGGACTTCCCCAACTCGATGCTGGAAATCTTTCGCGTGGTGATGACCAATTGCGACGACCATCAGCACCTGGTGGTTGGCGGCGTTGAACAGGTGCCGCAGGGAATCTGGAGGCATGTGCCGGAGCGTTGTGTGCATTGGCCGGAGGGCACCAGCCTGAATTCGTTGCACCTGGGCGCGCCACGCAGCGGGGTGAAGCGTATCGCTCGCGCCGACGACGGCCGATTCAGCGTGACCGACGTCTGGGGCGACACGCGCGAATACGCCGCCGTGCTGGTCACCTGCCAGACCTGGCTGCTTACCACCCAGATCGAGTGTGAAGAAGCGCTGTTCTCGCAAAAGATGTGGATGGCCCTGGATCGCACCCGCTACATGCAATCGTCAAAGACCTTCGTGATGGTCGACCGGCCGTTCTGGAAGGACAAGGACCCGGAAACCGGCCGCGACCTGATGAGCATGACCCTCACCGATCGCCTGACCCGTGGTACCTACCTGTTCGACAATGGCGACAACAAGCCGGGGGTCATCTGCCTGTCGTATTCCTGGATGAGCGATGCGCTGAAAATGCTCCCGTACCCGGTGGAAAAACGCGTCAAGCTGGCCCTGGATGCCCTGAAAAAAATCTACCCGAAGGTGGACATCGCCGCGCGGATCATTGGCGAACCGATCACCGTGTCTTGGGAAGCCGACCCGTATTTCCTCGGCGCCTTCAAGGGCGCGCTACCCGGCCACTATCGTTACAACCAGCGCATGTACGCGCATTTCATGCAGGACGACATGCCGGCCGAACAAAAAGGGATCTTTATCGCCGGCGACGACGTCTCATGGACACCCGCCTGGGTTGAAGGCGCGGTCCAGACCTCGCTCAATGCCGTGTGGGGAATCATGAAACACTTCGGCGGTGAAACCCATGCCGAGAATCCGGGTCCAGGGGATGTGTTCGACGAAATCGGTCCGATCGCCCTGCCCGAATAA	MNKHNRHPADGKKPITIFGPDFPFAFDDWIEHPAGLGVIPEHNHGAEVAIVGAGIAGLVAAYELMKLGLKPVVYEASKMGGRLRSQAFNGAEGIVAELGGMRFPVSSTAFYHYVDKLGLETKPFPNPLTSASGSTVIDLEGQTYYAEKMADLPALFQEVADAWADALEDGSRFSEIQQAIRERDVPRLKELWNTLVPLWDDRTFYDFVATSKAFAKLSFQHREVFGQVGFGTGGWDSDFPNSMLEIFRVVMTNCDDHQHLVVGGVEQVPQGIWRHVPERCVHWPEGTSLNSLHLGAPRSGVKRIARADDGRFSVTDVWGDTREYAAVLVTCQTWLLTTQIECEEALFSQKMWMALDRTRYMQSSKTFVMVDRPFWKDKDPETGRDLMSMTLTDRLTRGTYLFDNGDNKPGVICLSYSWMSDALKMLPYPVEKRVKLALDALKKIYPKVDIAARIIGEPITVSWEADPYFLGAFKGALPGHYRYNQRMYAHFMQDDMPAEQKGIFIAGDDVSWTPAWVEGAVQTSLNAVWGIMKHFGGETHAENPGPGDVFDEIGPIALPE	PGPT0020330_196	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LYSINE_DEGRADATION,PGPT0020330-davB-K00468	NA	NA
D1-35_05133	462	lrp_6	COG1522	Leucine-responsive regulatory protein	TTGACTGAGATCCGCCCTCCCGTCCTCGACGAAATCGACCGCCAGTTGATCGCGGCCCTGCAAATCAACGCGCGGGAAAGCGTCGCCATGCTCGCCCGGCAATTGGGAATTGCCCGCACCACCGTGACGTCGCGCCTGGCTCGACTGGAGAAAGCCAAGGTGATCACTGGGTACGGCGTGCGCCTTGGCCAGCGGGTGATCGATGGCGGTCTGCAGGCCTATGTCGGGATCAAGGTGCAGCCACGCTCCGGTAAAGAGGTACTGCGCCGCTTGAGCGCCATGGCCCAGGTCCAGCAGTTGTGCGCGGTCAGCGGCGAATTTGATTATGTGGCGTGGCTGCGCACCGATTCGCCGGAGCAGCTGGATCAGTTGCTCGACCAGATCGGCAGCGTGGACGGGGTGGAGAAAACGACTACGTCGATCATTCTCAGCAGCAAGATCGATCGGGGCCAGCCGGTCTGA	MTEIRPPVLDEIDRQLIAALQINARESVAMLARQLGIARTTVTSRLARLEKAKVITGYGVRLGQRVIDGGLQAYVGIKVQPRSGKEVLRRLSAMAQVQQLCAVSGEFDYVAWLRTDSPEQLDQLLDQIGSVDGVEKTTTSIILSSKIDRGQPV				NA	NA	NA	NA	NA
D1-35_05134	2496			hypothetical protein	TTGTCTTTTTTAACGTCCGCTCACTTACAATCAGATTTCCAATACCCCGCCGAGACGCCCATCATCGCCAGCCCCAGCCTTCCCCGCCTATTCCTCGAACTCTTCTGGCAACTCGGCATCCTGGTGGTGCCAGCCTTTTTCATCACGATACTGCCGCCGCCGCTGGCCTTGCTGGGGGTGGTGTTGCTCGGTTTGCTGATGGGTCTTGCCGCGCGGCTGGGCTTTTTGGGGGTGGGCCGGGGCATTGCCCGGCTGACTGTCGGCGCGGTGTTTGGCCTGGGTTTCAGTCTGGGACGGGCATTGCCTGAGTGGTGGGGAATTCTGGTGGCGATCGTCGCCATCGTTGGCGGGCTCGCCTGCGTGAGCAAGTGGGAGCGCCGCCTTGGGTTGGCGCCGGTCTCCTCTGCGGGCCAAGGACCGAGTGCCTGGGGCACAAACGAGCCGCTGCTGACGCCCGAGGGCGAGCCGATCCGGGTGTTCAACCACAGCGAAATTGCCATGGGCGGCCCCGTTCATTGCGATTATCTGTTTCCTGATGGCGTGCTCTTGCAAGGCCTTGGCTCCTCGGCGGTGTTCTCCAGCGACGGTCGCTATTTCGCCGCGCCGGTACCGTCACGCCAGGAATGGGGACTGGTCGTTCTCGACCGGGAGCAACGCAAGCTGTACCGCTGTGCCGAAACCGAGTTCTGGGAGCTGGATGCCCTGGACCTGGATCAACTGAGCGGCCGCCATAGCCCCTTGGTCGACAACAGCGTTCGTCAGGTCCGACTGGATGAACTGTTGCAGGCCGCCGAAGTAGCCGACCTGATCCCGTTTGCGGACCTTTGGCTGGAGCCTGGCTGGAATCCGGACAGTGTTGCGCGCAGCTTCGAACGGGCTTCCATTGATGGCGGGCAAATCCTGCAGGGCGACATCTTGTTGCCCAAGACCTTTCGCGATCTGGCCCAGCCACTGGAGCCACTGTATTCGCCGCGCTACGCCATCAGCCTCAATGGTCAACCATCGGGCCTGGTCATGGCAGCCGATGCGCCACTGGTCTGGAGCGGCGATAACCGCGCCCTGGTCTGTCTGGCCCGGGAGCAGGCCAACGAGGCGGATGGCAATCAGTACTGGTTGTGGCAAGTGGATCATGGCTGGCGAGCCCTGCCCTCGCCGTGGGTAAAGAGCGACGCGGAGCCGTCCTTTTATTGGCATGAATTATTGAGCCTTGATGCGAGCCATGTCCGTATCGGCTCGTATCTCGATTATCCGCGACCAAGCGCCGGCCGTTATGGCTATCGCCTGGAGAGTATCCACGGCGATACCGAAACCCAAGTGGGTCATGACGCTCGAGGTCGCGTGCAGGTCGGTGAGTTCAAGCTGACCCGCATGGCGATCATGCTGCCGCTGGACAGCACGGGGCGGCGAGGCGACTCGTGCGTCGAGACGCAACCGTTGCAAGGCGATGCGCGCGCTGTCCTGACCTGGCTCGGTGACAATCCCCAAGGCCTGGGTGGCTATCGCTGCCGGATCGGCGACTGGTCGTTGCCGGGGGCTTGGCTGCTGGACCATCGGGTTTCCGATTGCGGACGCTATCTGGCGCTGCTGCCCTTTGAAAACTCAACGACAGTCACCAGCCATGCGCTGGTGGCGGATGTGCAGGAACACCGCCTGCTGGAAGGACCGCCCATGTGGGTGGAACGGATACTGGATTTCCGCGATGGCCGATTGAATCTGGCAGTGATCCAGGGCCGTCTTGATCAAGACAGGGAAAGCAGCCCGTTGCAACGTTTCAACATCGCCGCGCCAGAGGTTGGCGGCGACGCGTCGTTCTTCCGTCCCAACGAGCAATCCCGGCTGTTCTACAACACTGCGCAGTTGCAGCCGACAGACTCGCAGCTCAAAGCCGTCCCGCCTTGGCGTCTGGTGGCTGGCCCGCAAGCGGCCACTGCCGAGGGGGATTTCATCCAGCCCGCGCCGAATGATCAGAATGCCGCCTGGCTGTTCGGCAGTGAGACGGAATACACCGACAGCTGGGTGCGTACCGGTACGCCCCGTCTCGGCGGACACTTGCTGACCGCCTCAGGCTGCGCGTTGGTTGATCTGGCGCCCTCGATGATCTGGTCGGCGGACAGCCGCTACCTGGCCCTGACCTGCATGGCGACCGATGTCACGGAACTGTGTGGAAGTTACCGCGGTTGGCAACTGCTGCTCCTTGATGTTGAGGCGCGTACGCTGCGTATACATCCGCAATGGCTGGGCAATCGGCCGCTATTTGAAAGCTTCGAAGAAGAGCAACTACGCCTGCGAAGCTTCCAGCGCGACTGGGAGACCGAAGCCGACGAGGACCAGGGTTCGGTGCAGTCGTTCTCACTGGACGCTCTGCTGCAGTTGCCCACTGAGCAACTGATCTGCCAGGAAGGCGTCTGGCTCAGGTCTTCCCAGGCTCACCTGGCAGCCGCCTGGCGGGCGCTGGCTTTACCTGCCACTGGCTATTTCGAGCGAGGGAACCTGTAA	MSFLTSAHLQSDFQYPAETPIIASPSLPRLFLELFWQLGILVVPAFFITILPPPLALLGVVLLGLLMGLAARLGFLGVGRGIARLTVGAVFGLGFSLGRALPEWWGILVAIVAIVGGLACVSKWERRLGLAPVSSAGQGPSAWGTNEPLLTPEGEPIRVFNHSEIAMGGPVHCDYLFPDGVLLQGLGSSAVFSSDGRYFAAPVPSRQEWGLVVLDREQRKLYRCAETEFWELDALDLDQLSGRHSPLVDNSVRQVRLDELLQAAEVADLIPFADLWLEPGWNPDSVARSFERASIDGGQILQGDILLPKTFRDLAQPLEPLYSPRYAISLNGQPSGLVMAADAPLVWSGDNRALVCLAREQANEADGNQYWLWQVDHGWRALPSPWVKSDAEPSFYWHELLSLDASHVRIGSYLDYPRPSAGRYGYRLESIHGDTETQVGHDARGRVQVGEFKLTRMAIMLPLDSTGRRGDSCVETQPLQGDARAVLTWLGDNPQGLGGYRCRIGDWSLPGAWLLDHRVSDCGRYLALLPFENSTTVTSHALVADVQEHRLLEGPPMWVERILDFRDGRLNLAVIQGRLDQDRESSPLQRFNIAAPEVGGDASFFRPNEQSRLFYNTAQLQPTDSQLKAVPPWRLVAGPQAATAEGDFIQPAPNDQNAAWLFGSETEYTDSWVRTGTPRLGGHLLTASGCALVDLAPSMIWSADSRYLALTCMATDVTELCGSYRGWQLLLLDVEARTLRIHPQWLGNRPLFESFEEEQLRLRSFQRDWETEADEDQGSVQSFSLDALLQLPTEQLICQEGVWLRSSQAHLAAAWRALALPATGYFERGNL				NA	NA	NA	NA	NA
D1-35_05136	3744			hypothetical protein	ATGCCCAGACTGACGGCCGTGCTTTTGCTGTCACTGATGACCTGGACCGCAACGGCCGGCGCGTTGACGCTCACGGAGGAAGAACGCCGCTGGCTCAAGGACCACCCCGACCTGCGCCTGGGTGTCGATGCGTCATGGCCGCCGTTCGAATTTCGCGACGACAACGGCCGCTACCAAGGCCTGGCCGCCGACTATGTCGATATCATCCGCGAGAAACTGGCCGTCACGCTCACACCCATCGAACCCGTCAGTTGGACGGAGGTGCTGGAACAGGTCGTGCAGGGCAAGATCGACCTTCTACCGGGCATCATGTCCACCCCCGAACGCCAGAACTACCTGTCGTTCACTCGTCCCTACCTCGATTTTCCAATTGTCATCCTGGCCCATAAAGGCGGGCCCCGACCCCATAAGCTCGAAGACCTTTACGGGCTGAAAATCGCCGTGGTGGAGAACTATGCCCCCCACGAACTGTTGCGCAACCACCACCCCGACCTGAACCTGGTCGCACTGCCCAACGTCAGTTCGGCGCTGCAGGCCTTGGCGACCGATGAAGTCGATGCGGTGGTGGGCGATCTTGCTTCCAGCGTGTGGAGCTTGCGCCAGCTCAAGCTTGACGGGCTCTACGTCAGCGGAGAAACGCCCTACCGCTACCAGTTGGCGATGGCCGTCCCACGGGAAAACAAGATATTGGTGGGCATCCTCGACAAGGTCCTGGCGGACATGACGCCGATGGAGATCAGCGAAATCCAGGAAAAATGGGTTGGCAACGTGCGGGACCATCGCCAGCTCTGGTCAGACCTGCTGCTTTACGGCCTGCCCGGGCTGCTGCTGTTGATCGCCATCCTGGCAGTGGTGATTCGCATCAACCGTCGCCTGAGTTCGGAAATAGCCCGACGCGTCGACCTGGAACAGGAGCTGCGCAGCAGCGAATACCATTATCGCGGGCTGGTTGAGAGCCTTTCGGCGATTGCCTGGGAGGCCAGGGTCAGCGACTTCACCTACAGCTATGTATCGCCTCACGCCGAAGAATTGCTCGGCTATCCCCTCGCCCATTGGCTCATCCCCGGGTTCTGGCGCAACATCATTCATCCGGCGGACCTGATCCGCGCGCAGACATATTGCGATCACGAAGTCCTTGCCGGCCGCGATCACTGCATCGACTACCGGGTGATCACCGCCGACGGTCGCTGCCTGTGGGTGCGGGACATCGTCAGCCTGATCAAGCATGGCCATGAACCGTTGATGCGCGGACTGATGATCGACATCAGCGAAGCCAAGCACACCGAGGAAGCGCTGCGCCTTTCCGAACAGAAGTTCGGCTCGGTATTTCGCCAGTGCCCGGACATCCTGGTGATTGCGCGCCTGCTGGACGGTTGCCTGCTGGAGGTCAATAAAGCCTTCGAAGAGCAGATTGGCCTCAGCGCCGCAGAGGTGGTCGGCAAAAGCGCGACCGACCTGGACATCTGGGGCATACAAGGCGTCGGCCCAAGTTTGCTCCAGCGGTTGCAGGCCGGGAGCATTCGCAATCTGGAAATGCCTTTTCAACGCAGCAACGGCGAGGTGTTCACCGGGCTGATATCGGCCGAACCCTTTGATCTGGACACCACCCCAGCCCTGGTCGTGGTGGTGCGCGACATCAGCCAGCTCAAGGAGACCCAGCAGCAATTGCAGACCTCCGAAGAAAAATTCGCCAAGGCTTTTCACGCCTCGCCCGACGGCTTGCTGCTGTCCAGGCAGAGCGATGGTTTGCTGATTGAAGTCAACGACGGTTTCAGCCGCATTACCGGTTTCAACAGCGCCCTGTCGGTTGATCGTTCGACCCTGGACCTGGGAATCTGGGTCAATCTCAACGAGCGCAAGCAGATGCTCGACCTGCTGCAGCGGGACGGTTTCGTAAAGGATTTCAGCTGCCATATCCGCCGTAACGACGGGCAGATACGGCTCTGCGAGGTGTCCAGCCGTCCGCTGCCCATCGGCAACGAGGACTGCATGCTGACGATCGCCCGGGACATCACCGAACGCCACTTCATGCAGGAGAAACTGCAGCAGGCCGCCACCGTATTCGAAAGCACCGCCGAAGGCGTACTGATCACCGATACACAACAGCACATCAGCGCCGTGAACCGAGCCTTTACGGAAATCACCGGCTATAGCGAAACCGAAGCCCTGGGCCATACGCCTCGGCTGCTGGCTTCCGGGCTGCACGACAGCGCGTTTTATGCCGCGATGTGGCATCAGTTGACCGCCGAGGGCCACTGGCAGGGTGAAATCTCCAATCGACGCAAAAATGGCGAGCTGTATCCCAGCTGGCTGACCATCAGCGCCGTGCGCAACCAGGAACAACAGACCACCCATTTCGTCGCGGTTTTTGCCGACATTTCAAGCCTCAAGCACGCCCAGGCCCGACTCGACTACCAGGCGCATCACGACCCGCTCACGGGCCTGCCGAATCGCACGCTGTTCGAAAGCCGTTTGCTCTCGGCGCTCAATAGTCAGCAAGAAAATGGCGGCCAAGGCGCGGTGTTGTTCCTGGACCTGGACCGTTTCAAACACATCAACGACAGCCTCGGGCACCCGGTCGGCGATCTGCTGCTCAAGGGCATTGCCGTGCGCCTGCGCGAGCAATTGCGTGACATCGACACCGTGGCGCGCCTGGGCGGTGACGAATTCATCATCCTGCTGCCCGGCCTGCAGCAGCCCAGCGATGCCGAGCACATTGCGCAGAAGCTGTTGAACTGTTTCTGCGCGCCGTTCCAGGCCGGCGAGCATGAGTTTTTCATCAGCGCCAGCATCGGCACCAGCCTCTATCCGCAGGATGGCTGCGATGTCGCCACGCTGGTCAAAAACGCCGACGCGGCGATGTACCGCTCCAAGGCCAAGGGTCGCAACCGGGTGGAAAGCTACACTCGCGACCTCACGGCCCAGGCCAGCGAGCGCGTGGCACTGGAACACGAGCTGCGTCGGGCGATCGAGCGCAACGAACTGTCGTTGTCGTTCCAGCCGAAAATCAGCCTCATCGACAACCGCCTGGTAGGCGCCGAGGCATTGATTCGCTGGACCCATCCGACCTTTGGCGACGTACCACCGGAGCATTTCATCCCCCTGGCCGAAGAAAACGGCATGATCCTGCAAATCGGCGATTGGGTACTGGAAAACGCCTGCCGACAACTGCACGCATGGAACAGCTGTCACGAAAGCCTCGGGCCACTGTCAGTCAACCTGGCCGGCGCCCAACTGCGTCAGCCCAACCTGCTGAATCGGATCGAACAATTGCTGCGGGAAAACCACCTTGAGCCTGGTTTGTTGCAACTGGAGATTACCGAAAACTTCATCATGAGCCAGGCCGAAGAGGCCCTGACGGTACTGTATCAACTGAAAAAACTCGGCGTGCAACTGGCCATCGACGACTTCGGTACCGGCTATTCCTCGCTGAGCTACCTCAAGCGCCTGCCGCTGGACATCCTGAAAATCGACCAGTCTTTCGTCCGCGGCCTGCCCGATGACCCCCACGATGTGGCCATCGTGCGGGCAATCATCGCCTTGGGCCGGAGCATGCAATTCAGCATCATCGCCGAGGGCGTCGAAACTCTCGCCCAACAGCAATTTCTCGCCGAGGAAGGCTGCGAGCAGATCCAGGGCTACATCGTCAGCCTGCCCCTGTGCGCCGAAGAATTTGCCGCGACGTTTCTGCATGTGACCGTATCGGATTTTTCGGATAGCACAGCCGAGAAACCGTCGCTATAA	MPRLTAVLLLSLMTWTATAGALTLTEEERRWLKDHPDLRLGVDASWPPFEFRDDNGRYQGLAADYVDIIREKLAVTLTPIEPVSWTEVLEQVVQGKIDLLPGIMSTPERQNYLSFTRPYLDFPIVILAHKGGPRPHKLEDLYGLKIAVVENYAPHELLRNHHPDLNLVALPNVSSALQALATDEVDAVVGDLASSVWSLRQLKLDGLYVSGETPYRYQLAMAVPRENKILVGILDKVLADMTPMEISEIQEKWVGNVRDHRQLWSDLLLYGLPGLLLLIAILAVVIRINRRLSSEIARRVDLEQELRSSEYHYRGLVESLSAIAWEARVSDFTYSYVSPHAEELLGYPLAHWLIPGFWRNIIHPADLIRAQTYCDHEVLAGRDHCIDYRVITADGRCLWVRDIVSLIKHGHEPLMRGLMIDISEAKHTEEALRLSEQKFGSVFRQCPDILVIARLLDGCLLEVNKAFEEQIGLSAAEVVGKSATDLDIWGIQGVGPSLLQRLQAGSIRNLEMPFQRSNGEVFTGLISAEPFDLDTTPALVVVVRDISQLKETQQQLQTSEEKFAKAFHASPDGLLLSRQSDGLLIEVNDGFSRITGFNSALSVDRSTLDLGIWVNLNERKQMLDLLQRDGFVKDFSCHIRRNDGQIRLCEVSSRPLPIGNEDCMLTIARDITERHFMQEKLQQAATVFESTAEGVLITDTQQHISAVNRAFTEITGYSETEALGHTPRLLASGLHDSAFYAAMWHQLTAEGHWQGEISNRRKNGELYPSWLTISAVRNQEQQTTHFVAVFADISSLKHAQARLDYQAHHDPLTGLPNRTLFESRLLSALNSQQENGGQGAVLFLDLDRFKHINDSLGHPVGDLLLKGIAVRLREQLRDIDTVARLGGDEFIILLPGLQQPSDAEHIAQKLLNCFCAPFQAGEHEFFISASIGTSLYPQDGCDVATLVKNADAAMYRSKAKGRNRVESYTRDLTAQASERVALEHELRRAIERNELSLSFQPKISLIDNRLVGAEALIRWTHPTFGDVPPEHFIPLAEENGMILQIGDWVLENACRQLHAWNSCHESLGPLSVNLAGAQLRQPNLLNRIEQLLRENHLEPGLLQLEITENFIMSQAEEALTVLYQLKKLGVQLAIDDFGTGYSSLSYLKRLPLDILKIDQSFVRGLPDDPHDVAIVRAIIALGRSMQFSIIAEGVETLAQQQFLAEEGCEQIQGYIVSLPLCAEEFAATFLHVTVSDFSDSTAEKPSL				NA	NA	NA	NA	NA
D1-35_05137	1848	rpoD	COG0568	RNA polymerase sigma factor RpoD	ATGTCCGGAAAAGCGCAACAGCAGTCTCGTATCAAAGAGTTGATCCTATTGGGTCGTGAGCAGGGCTACCTGACTTACGCGGAGGTCAACGACCACCTGCCGGAGGATATTTCAGATCCGGAACAGGTGGAAGACATCATCCGCATGATCAACGACATGGGGATCAACGTATTCGAGGTTGCTCCAGATAAGGATGCCCTTATGCTGGCCGACGCCGATACCGACGAGGCGGCCGCTGAAGAAGCGGCCGCAGCGTTGGCAGCGGTCGAGACCGACATTGGTCGCACCACCGACCCCGTGCGCATGTACATGCGTGAGATGGGTACGGTAGAGCTCCTCACGCGTGAAGGCGAAATTGAAATCGCCAAGCGTATTGAAGAAGGCATCCGTGAAGTGATGGGCGCAATTGCGCACTTCCCTGGCACGGTCGACCATATTCTCTCCGAATACACCCGCGTCACCACCGAAGGTGGGCGCCTGTCTGACGTCCTGAGCGGTTACATCGACCCGGACGACGGCATCGCGCCGCCTGCCGCCGAAGTGCCACCACTGGTCGACCCGAAAGCCGTCAAGGCCGACGATGAGACCGACGATGACGACGCCGAAGCCAGCGACGACGAAGAAGAAGCCGAAAGCGGTCCAGACCCGGTCATCGCCGCCCAGCGTTTTGGCGCCGTGGCCGACCAGATGGAGATCACCCGCAAGGCGCTGAAAAAGCACGGTCGCAACAACAAGCAGGCAATTGCCGAACTGTTGGCGCTGGCTGAGCTGTTCATGCCGATCAAGCTGGTGCCCAAGCAGTTCGAAGGCCTGGTCGAGCGTGTTCGCAGTGCCCTGGATCGTCTGCGTCAGCAAGAGCGCGCGATCATGCAACTGTGTGTGCGTGACGCCCGCATGCCGCGTGCAGATTTCCTGCGCCAGTTCCCTGGCCATGAAGTCGACGAAAGCTGGACCGATGCACTGGCCAAAGGCAAGAGCAAATACGCCGAAGCGATTGGCCGCCTGCAACCGGACATCATTCGTTGCCAGCAGAAGCTGAGCGCGCTGGAGGCCGAGACTGGCCTGAGCATCGCTGAAATCAAGGACATCAACCGTCGCATGTCGATCGGCGAGGCCAAGGCCCGTCGCGCGAAGAAAGAGATGGTCGAAGCGAACTTGCGTCTGGTGATCTCGATCGCCAAGAAGTACACCAACCGTGGCCTGCAATTCCTCGACCTGATCCAGGAAGGCAACATCGGGCTGATGAAGGCGGTGGACAAGTTCGAATACCGTCGCGGCTACAAGTTCTCGACTTATGCCACCTGGTGGATTCGTCAGGCGATCACTCGCTCGATCGCCGACCAGGCTCGCACCATCCGTATCCCGGTGCACATGATCGAGACGATCAACAAGCTCAACCGTATTTCCCGGCAGATGTTGCAGGAAATGGGTCGCGAACCGACGCCGGAAGAGCTGGGCGAACGCATGGAAATGCCTGAGGACAAGATCCGCAAGGTATTGAAGATCGCCAAAGAGCCGATCTCCATGGAAACCCCGATCGGTGATGACGAAGATTCCCATCTGGGTGACTTCATCGAAGACTCCACCATGCAGTCGCCGATTGATGTCGCCACCGTTGAGAGCCTCAAGGAAGCGACTCGCGAAGTCCTTTCCGGTCTCACTGCCCGTGAAGCCAAGGTACTGCGGATGCGCTTCGGCATCGACATGAACACCGACCACACCCTCGAGGAAGTCGGTAAACAGTTCGATGTAACTCGTGAGCGGATTCGTCAGATCGAAGCCAAGGCGTTGCGCAAACTGCGCCACCCGACGCGAAGCGAGCATCTGCGTTCGTTCCTCGACGAGTGA	MSGKAQQQSRIKELILLGREQGYLTYAEVNDHLPEDISDPEQVEDIIRMINDMGINVFEVAPDKDALMLADADTDEAAAEEAAAALAAVETDIGRTTDPVRMYMREMGTVELLTREGEIEIAKRIEEGIREVMGAIAHFPGTVDHILSEYTRVTTEGGRLSDVLSGYIDPDDGIAPPAAEVPPLVDPKAVKADDETDDDDAEASDDEEEAESGPDPVIAAQRFGAVADQMEITRKALKKHGRNNKQAIAELLALAELFMPIKLVPKQFEGLVERVRSALDRLRQQERAIMQLCVRDARMPRADFLRQFPGHEVDESWTDALAKGKSKYAEAIGRLQPDIIRCQQKLSALEAETGLSIAEIKDINRRMSIGEAKARRAKKEMVEANLRLVISIAKKYTNRGLQFLDLIQEGNIGLMKAVDKFEYRRGYKFSTYATWWIRQAITRSIADQARTIRIPVHMIETINKLNRISRQMLQEMGREPTPEELGERMEMPEDKIRKVLKIAKEPISMETPIGDDEDSHLGDFIEDSTMQSPIDVATVESLKEATREVLSGLTAREAKVLRMRFGIDMNTDHTLEEVGKQFDVTRERIRQIEAKALRKLRHPTRSEHLRSFLDE				NA	NA	NA	NA	NA
D1-35_05138	1959	dnaG	COG0358	DNA primase	ATGGCCGGGCTAATTCCCCAGAGCTTTATTGACGACCTCCTGAACCGCACCGACATCGTCGACGTGGTCAGCTCTCGCCTGCAAATGAAGAAAGCGGGCAAGAACTACACAGCCTGCTGCCCGTTTCACAAAGAAAAAACCCCCTCCTTCAGCGTCAGCCCCGACAAGCAGTTCTATTATTGCTTCGGCTGCGGCGCTGGCGGCAATGCCCTCGGCTTCATCATGGACCACGACAACCTGGATTTCCCCCAGGCCGTCGAGGAACTGGCCAAAGCCGCCGGCATGGAAATTCCTCGCGAGGAGAGCGGACGACAACACAAGCCTCGCCAACCCACCGATTCGCCGCTGTATCCGCTGCTCACGGCAGCAGCCGACTTTTATCGCCAGGCACTTAAAAGCCATCCGGCCCGCAAGGCGGCGGTGGATTATCTCAAGGGCCGCGGCCTGACCGGTGAGATTGCTCGCGACTTCGGCCTCGGCTTCGCCCCGCCGGGCTGGGACAACCTGTACAAACATTTGAGCAGCGATACGCTGCAGCAACGTGCCATGATCGACGCTGGCCTGCTGATCGAGAACGCCGAGACGGGCAAGCGCTACGACCGCTTCCGTGACCGGGTGATGTTCCCGATCCGCGATACCCGCGGGCGGATCATCGCCTTTGGCGGCCGGGTGCTGGGGGACGACAAGCCCAAGTACCTGAACTCCCCGGAAACCCCGGTTTTCCATAAGGGCCAGGAACTCTACGGCCTGTACGAGGCGCGCAAGAACAATCGCAACCTCGATGAAATCATCGTTGTCGAAGGCTACATGGATGTCATCGCCCTGGCCCAGCAAGGCTTGCGCAACGCCGTTGCGACCCTGGGCACGGCCACCAGCGAAGAACACATGAAGCGCCTGTTTCGCGTCGTGCCGAGCGTGCTGTTCTGCTTCGACGGCGACCAGGCCGGACGCAACGCCGCCTGGCGCGCGCTTGAAGCGACGCTGCCATGCCTGCAGGACGGGCGGCGCGCACGTTTTCTGTTCCTGCCCGAGGGCGAGGACCCGGACACCCTGGTGCGCTCCGAGGGCACCGATGCGTTCCGTGCGCGGATCAACCAGCACGCACAGCCGCTGGCCGACTATTTTTTCCAGCAACTGACCGAAGAAGCCGATCCTCGCTCCCTCGAAGGCAAAGCCCATATGGCCACGCTCGCGGCACCGCTCATCGACAAGGTGCCCGGCGCCAACCTGCGGACCTTGATGCGTCAACGCCTGACGGAAATTACCGGGCTGAACAGCGAAGCGGTCAGCCAGCTGGCCCACAGTGCCCCTCAGGAGGCACCGCCGGCTTACGACCCGGGCATCGACTACGACGCGATACCCGACTTCGCCGACTATCATCAAACCCAGCAGGACTACGCGCCGCAGCAGGAATGGACACCGAAGAAACCCGGTGCCGGCGGCAAGAAATGGGACAAGAAACCCTGGGACAAGAACGGCAAGCGCGGCGATCGCGACCAGCCACGTGCCCCGCGCGTGCCGGCCGCCGTCGAACCACCAACACTGGCTGCCCTGCGCACCCTGCTGCACCACCCGCAGTTGGCTGAAAAGGTAGAGGATGCCGGGCACTTCGCCGCCGAGGACCACAGCAATACACAATTGCTGGTCGCGCTCCTTGAAGCTGTGCAGAAGAACCCCAAGCTAAACTCATTCCAGCTGATCGCGCGGTGGCACGGCACCGAGCAGGGGCGCCTTTTGAAGGCATTGGCCGAGAAGGAATGGCTGATAGAGGGAGATAACCTTGAACAACAGTTTTTCGACACCATTACTAGCTTGTCCGCCCGCCAACGCGAGCGAAACCTGGAACAACTTCTGCGCAAAGCTCGCCAGAGCGAGTTGACCAGCGAAGAGAAAAACCAATTGCGTGACTTACTCAGCCGCAATGTTTGCGCATCAAACCCGACCTCAACTGGCGCGTGA	MAGLIPQSFIDDLLNRTDIVDVVSSRLQMKKAGKNYTACCPFHKEKTPSFSVSPDKQFYYCFGCGAGGNALGFIMDHDNLDFPQAVEELAKAAGMEIPREESGRQHKPRQPTDSPLYPLLTAAADFYRQALKSHPARKAAVDYLKGRGLTGEIARDFGLGFAPPGWDNLYKHLSSDTLQQRAMIDAGLLIENAETGKRYDRFRDRVMFPIRDTRGRIIAFGGRVLGDDKPKYLNSPETPVFHKGQELYGLYEARKNNRNLDEIIVVEGYMDVIALAQQGLRNAVATLGTATSEEHMKRLFRVVPSVLFCFDGDQAGRNAAWRALEATLPCLQDGRRARFLFLPEGEDPDTLVRSEGTDAFRARINQHAQPLADYFFQQLTEEADPRSLEGKAHMATLAAPLIDKVPGANLRTLMRQRLTEITGLNSEAVSQLAHSAPQEAPPAYDPGIDYDAIPDFADYHQTQQDYAPQQEWTPKKPGAGGKKWDKKPWDKNGKRGDRDQPRAPRVPAAVEPPTLAALRTLLHHPQLAEKVEDAGHFAAEDHSNTQLLVALLEAVQKNPKLNSFQLIARWHGTEQGRLLKALAEKEWLIEGDNLEQQFFDTITSLSARQRERNLEQLLRKARQSELTSEEKNQLRDLLSRNVCASNPTSTGA				NA	NA	NA	NA	NA
D1-35_05139	216	rpsU	COG0828	30S ribosomal protein S21	ATGCCAGCCGTCAAAGTAAAAGAGAACGAACCCTTCGACGTAGCTCTGCGTCGTTTCAAGCGCTCCTGCGAAAAAGCCGGTGTTCTGGCTGAAGTTCGTAGCCGCGAATTCTACGAGAAGCCGACTTCCGAGCGTAAGCGCAAAGCAGCAGCCGCTGTTAAGCGTCACGCCAAGAAAGTTCAGCGCGAACAGCGCCGCGCCGTACGTCTGTACTAA	MPAVKVKENEPFDVALRRFKRSCEKAGVLAEVRSREFYEKPTSERKRKAAAAVKRHAKKVQREQRRAVRLY				NA	NA	NA	NA	NA
D1-35_05140	1065	tsaD	COG0533	tRNA N6-adenosine threonylcarbamoyltransferase	ATGCGCGCCTTCGAATTCAGCCTCTACAAGGCGCAACCCATGCTAGTACTGGGATTAGAAACGTCCTGCGACGAAACCGGCGTCGCCCTCTACGACAGTGAACGTGGCCTGCTGGCCGACGCGCTGTTCAGCCAGATCGACCTGCACCGCGCGTACGGCGGCGTGGTGCCGGAGCTTGCATCACGCGATCACGTCAAGCGCATGCTGCCCTTGATCCGCCAGGTCCTGGCCGAAGGCGGCTGCGTGCCGACCGAGATCGATGCCATCGCCTACACGGCCGGGCCGGGTCTGGTGGGCGCCCTGTTGGTCGGTGCTTCCTGTGCCCAGGCGCTGGCCTTTGCCTGGGGCATTCCGGCCTTGGGCGTGCACCACATGGAGGGCCACCTGCTGGCGCCGATGCTGGAGCCGCAGCCGCCGGAGTTTCCGTTCGTCGCTTTGTTGGTATCCGGAGGCCATACGCAGCTCGTGCGGGTCGATGGAATCGGCCAATACCAACTCATGGGTGAGTCGCTCGACGACGCCGCGGGCGAGGCTTTTGATAAAACCGCCAAGATGATGGGGCTCAATTATCCTGGCGGACCGGAAATCGCACGACTTGCCGCTCAAGGCATTGAAGGGCGTTTCGTATTCCCGCGTCCGATGTGCGACCGGCCTGGACTGGATTTCAGCTTCAGTGGCCTGAAAACCTTCGCGCTGAATACCTGGCAACAATGCGTCAATGCCGGGGACGACAGTGAGCAAGCCCGTTGCGACATCTCCCTGGCGTTCCAGCAGGCCGTGGTGGAGACTTTGACGATCAAGTGCAAGCGCGCGCTGAAACAGGCTGGGCTCAAGCGCCTGGTGATTGCCGGCGGGGTGAGCGCGAACAAGGCCTTGCGGGTATCCCTGGAGAAAATGCTCGGCGATATGAAGGGCGACGTTTACTACGCTCGGCCGGAGTTCTGCACAGATAACGGCGCAATGATTGCTTTTGCCGGTTGCCAGCGCCTGCAGGCGGGGCAGCAGGAAAGCCTGGCGATCAGCGTGCAGGCGCGCTGGCCCATGGAGCAACTTTCACCGCTGTGA	MRAFEFSLYKAQPMLVLGLETSCDETGVALYDSERGLLADALFSQIDLHRAYGGVVPELASRDHVKRMLPLIRQVLAEGGCVPTEIDAIAYTAGPGLVGALLVGASCAQALAFAWGIPALGVHHMEGHLLAPMLEPQPPEFPFVALLVSGGHTQLVRVDGIGQYQLMGESLDDAAGEAFDKTAKMMGLNYPGGPEIARLAAQGIEGRFVFPRPMCDRPGLDFSFSGLKTFALNTWQQCVNAGDDSEQARCDISLAFQQAVVETLTIKCKRALKQAGLKRLVIAGGVSANKALRVSLEKMLGDMKGDVYYARPEFCTDNGAMIAFAGCQRLQAGQQESLAISVQARWPMEQLSPL				NA	NA	NA	NA	NA
D1-35_05141	570	plsY	COG0344	Glycerol-3-phosphate acyltransferase	ATGTTTTGGTCACTGGCGATCCTCGCCTACCTGCTCGGCTCACTGTCCTTTGCCATTTTGCTCAGCCGCCTGACCGGTCGCCCGGATCCGCGAATGAGTGGCTCAGGCAATGCCGGCGCCACCAACATGCTGCGCCTGGCCGGACGCAAGCTTGCCGTCCTGACCCTGCTTGGCGACCTCTGCAAAGGCCTCGTGCCGGTTCTGCTCGCCAGCCTCGCAGGGCTTTCGTTGCAGCAACAGGCCTGGGTCGGCGTCTGCGCGGTCATCGGCCATCTGTTCCCGCTGTACTTCCGCTTTCGCGGCGGCAAGGGTGTCGCCACCGCCGCCGGCATGCTGCTGGGCCTGTATCCGCCTGCCGCCCTGCTTGCCGTGTGCGCCTGGCTGCTGACCTTCTACCTGACCCGCACCAGCTCCCTGGCCGCATTGATCGCCACGCCACTGACCCTGCCTTTGCTGGCCTGGCAGGAACCGGCAGCGTTGCTGCCGATGACGACACTCGTTGCGCTGATCGTCTGGCGCCACCGGGGCAATCTACGCGACCTGTTCGCCGGGCGCGAACGGCATTTCTGA	MFWSLAILAYLLGSLSFAILLSRLTGRPDPRMSGSGNAGATNMLRLAGRKLAVLTLLGDLCKGLVPVLLASLAGLSLQQQAWVGVCAVIGHLFPLYFRFRGGKGVATAAGMLLGLYPPAALLAVCAWLLTFYLTRTSSLAALIATPLTLPLLAWQEPAALLPMTTLVALIVWRHRGNLRDLFAGRERHF	PGPT0024375_3639	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024375-plsY-K08591	NA	NA
D1-35_05142	354	folB	COG1539	Dihydroneopterin aldolase	TTGGACAGAGTGTTTATCGAAGGCCTGGAAGTCGACACGGTGATTGGTGCCTACGACTGGGAGCGAGGCATCCGACAGTGCCTGCGGCTTGATCTGAGTTTTGCCTGGGATAATCGTCCGGCGGCTGCGGACGATGACCTGAGCCTGGCCCTCGACTACGCCAGCGTATCGGCCCGCATCCAGGCATTTGCCGAGCAGGCGCAGTTCCAATTGGTCGAAACCTTTGCCGAGCGACTGGCCCAAGAGCTCATGGATGAGTTCAGGATCACCTGGCTGCGGCTGAAAGTGACCAAGCCCGGGGCCGTGCCGGCCGCTACCGGCGTTGGCGTGGAGATCGAGCGCGGATGTCGCTGA	MDRVFIEGLEVDTVIGAYDWERGIRQCLRLDLSFAWDNRPAAADDDLSLALDYASVSARIQAFAEQAQFQLVETFAERLAQELMDEFRITWLRLKVTKPGAVPAATGVGVEIERGCR	PGPT0007905_3420	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007905-folB-K01633	NA	NA
D1-35_05143	519			hypothetical protein	ATGTCGCTGACTCAGGTTTTTCTCGGGCTCGGCAGTAATATCGAGCGTGAAATCCATTTGCGCGCGGGGCTTGAGGCTCTGGCCGGTTTCCTGGTGGATATGCGCTGTTCGGCCGTGTTCGAAAGTCAGCCGGTGGGTATCAAGAGCGGGCCGTTCTTCAATTTCGTCGTGTCAGCGTTCACCGATCTTCCACTGATGGAACTGGACCGCCGCCTCAAGTTCATCGAGGCCGATAATGGCCGCTACGCGCCGGACCGCAAGGGTTTGCCGCTGGATATCGACGTGCTGCTGTATGGCGAGCAGGTCGGCAACTTCGATGGGTTGATCCTGCCGCGCGCGGAAATTCTCAAGAATGCTTTTGTCTTGTGGCCTTTGTCATTGATTGCGCCGGACCGGATTCATCCAGGCGTGGGCAAGAGCTTTTCCACGTTGTGGAAAGAAGCACAGATTGATCAGGTGCTGGCGCCGGTGGCTTTCGAGTGGCGAGGTCAGCCGCTTACGCCATCAGAGCTGCTGTGA	MSLTQVFLGLGSNIEREIHLRAGLEALAGFLVDMRCSAVFESQPVGIKSGPFFNFVVSAFTDLPLMELDRRLKFIEADNGRYAPDRKGLPLDIDVLLYGEQVGNFDGLILPRAEILKNAFVLWPLSLIAPDRIHPGVGKSFSTLWKEAQIDQVLAPVAFEWRGQPLTPSELL	PGPT0007910_1406	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007910-folK-K00950	NA	NA
D1-35_05144	1227	cca	COG0617	Multifunctional CCA protein	ATGCAGATCTACAAAGTCGGCGGCGCTGTTCGTGATCGCCTGCTCGGCATCCCTGTCACCGACATCGACCGGGTGGTCGTGGGCGCCACCGCCGAGGAAATGCTGGCCAAGGGATTCCGTCCCGTGGGGGCTGATTTTCCGGTCTTCCTTGACCCGAAGACTGGCGAGGAATACGCCCTCGCCCGCACCGAACGCAAGAGCGGCAGGGGTTACGGTGGCTTCGTATTCCATGCCAGCCCCGAAGTGACGCTCGAAGAAGACCTCATCCGCAGGGACCTGACAATCAACGCCATGGCCGAAGACGACCATGGCAACCTCACCGATCCCTACCACGGCCAGCGCGATCTCGAAGATCGCCTGCTGCGGCACGTTTCCCCGGCGTTTGCCGAGGATCCACTGCGGGTTCTGCGAGTTGCCCGCTTTGCCGCACGTTATGCCCCGCTGGGTTTTAAGGTGGCGGACGAAACCCTCACGTTGATGCGCAAGCTCAGTGAATCTGGCGAGCTGGAAGCTTTGACTGCCGAACGCAGCTGGAAAGAGATCTCCCGCGCCCTGATGGAAGATCAGCCACAAGTGTTTATCCAGGTACTGCGCGACTGCGATGCCCTCAAGGTATTGATGCCCGAGGTCAATGCGCTGTTCGGGGTCCCGCAGCCTGAAGCTCATCACCCGGAAATCGACAGCGGCGTCCATACCTTGAGCGTGCTGGAACAGTCGGCGCTGCACAAACAGCCACTGGCGGTCCGCTGGGCTTGCCTGTTGCATGACCTCGGCAAAGGTTTGACACCCGAGCACGAATGGCCAAGGCACATCGCCCATGAGCACAAGGGGCTGAAGCTGATCAAAGCAGTCAACGAACGCTTCAAGGCGCCCCGTGACTGCCAGGAACTGGCGCTGCTGGTAGGTCAATACCACACCCATGGACACCGCGCGCTGGAGCTCAGGGCAACCACTTTGCTTGAGCTGCTGCAGAGCTTTGATGTGTACCGGCGCCCCCAGCGTTTCGAGGAGTTCATTGCCGCATGCGAGATGGATGCGCGAGGGCGCAAGGGGCTTGAGGAACGAAGTTACCCACAGGCTGATTACCTGCGGGGCGCTGCGTCAGCGGCCCGCGGCGTTGCGGTGCAGCCGTTGCTGGAGAAGGGTTTCAAGGGGCCGGAACTGGGTGAAGCGATCAAGCGAGAGCGCCTCAGGGCGTTGAAGGCTTACAAGGAAGCGGCGAGCTGA	MQIYKVGGAVRDRLLGIPVTDIDRVVVGATAEEMLAKGFRPVGADFPVFLDPKTGEEYALARTERKSGRGYGGFVFHASPEVTLEEDLIRRDLTINAMAEDDHGNLTDPYHGQRDLEDRLLRHVSPAFAEDPLRVLRVARFAARYAPLGFKVADETLTLMRKLSESGELEALTAERSWKEISRALMEDQPQVFIQVLRDCDALKVLMPEVNALFGVPQPEAHHPEIDSGVHTLSVLEQSALHKQPLAVRWACLLHDLGKGLTPEHEWPRHIAHEHKGLKLIKAVNERFKAPRDCQELALLVGQYHTHGHRALELRATTLLELLQSFDVYRRPQRFEEFIAACEMDARGRKGLEERSYPQADYLRGAASAARGVAVQPLLEKGFKGPELGEAIKRERLRALKAYKEAAS				NA	NA	NA	NA	NA
D1-35_05145	1566			hypothetical protein	ATGACCGCCAAAAAAGAGCAGAAGCGCCAGCCCATTTCCACCGGTTCCGAATGGACATTCGAGCTGATCCAGGCCTATGACCGCGAAATCAGCCGTATCGCGGACCGTTACGCCCTGGACACGTACCCCAACCAGATCGAAGTGATCACCGCCGAGCAAATGATGGACGCCTATGCATCCGTAGGGATGCCACTGGGCTACCACCACTGGTCCTACGGCAAGCATTTCCTCAGTACGGAGAAATCCTACAGTCGCGGCCAGATGGGGCTGGCCTATGAGATCGTGATCAACTCCGATCCCTGCATCGCCTACCTGATGGAAGAAAACACCATCTGCATGCAGGCGCTGGTGGTGGCGCATGCCTGCTATGGCCACAACAGCTTCTTCAAGGGCAACTATCTGTTCCGCACCTGGACCGACGCCAGCTCGATCATCGATTACCTGGTGTTCGCCAAGCAGTACATCATGCAGTGCGAGGAACGCCACGGCATTGATGCGGTGGAGGACCTGCTGGACTCCTGCCACGCCCTGATGAACTATGGTGTGGACCGCTACAAGCGGCCGTATCCGATTTCCGCCGAGGAAGAGCGCCGACGCCAGAAGGACCGTGAAGAACACCTGCAGAAGCAGATCAACGATCTTTGGCGGACCATTCCCAAAGGCGCGGACAAGTACAGCGAGAAAGACAACGCGCGGTTCCCTGCCGAGCCCCAGGAGAACATCCTTTATTTCATCGAGAAACACGCGCCGCTGCTGGAACCCTGGCAGCGCGAGATCGTACGCATCGTGCGCAAGATCGCCCAGTATTTCTACCCTCAGCGCCAGACCCAGGTGATGAACGAGGGCTGGGCAACATTCTGGCACTACACGTTGATGAACGACCTGTACGACGAGGGCCTGGTCACCGATGGCTTCATGATGGAGTTCCTGACCTCCCATACCAGCGTGGTATTCCAGCCAGGCTTCGATAGTCCCTACTACAGCGGCATCAACCCTTATGCCCTGGGCTTTGCCATGTACCGCGACATTCGGCGCATGTGTGAAGACCCTACCGAAGAGGATCGCCGCTGGTTTCCGGAAATCGCCGGCTCGGACTGGCTTTCCACGATCAAATTCGCCATGAGCAGCTTCAAGGACGAGAGTTTCATCCTGCAGTACCTTTCGCCCAAGGTGATCCGCGACCTCAAGCTGTTCAGCATCATGGACGATGATCAGAAGGATGACCTGCTGGTGCCCGCCATCCACGATGAGAGCGGTTACCGGGTCATCCGTGAAACCCTGGCGGCGCAATACAATCTCGGTAATCGCGAGCCCAACGTGCAGATCTACAGCATCGACCGTCGTGGTGATCGTTCCCTGACCCTGCGTCACCAACAGCACAACCGCAAACCGCTGGGCGATTCCACGGACGAGGTCCTCAAGCACCTGCATCGGCTTTGGGGGTTCGACATCCACCTGGAAACCCTGCAGGGCGACCAGGTGATGAAAACCCACCATGTGCCGCCGCGCGGCGAACAAGGCGAAGGGGATTACGGACGCCTGGACCTGGCCGTCATTCATCTTTGA	MTAKKEQKRQPISTGSEWTFELIQAYDREISRIADRYALDTYPNQIEVITAEQMMDAYASVGMPLGYHHWSYGKHFLSTEKSYSRGQMGLAYEIVINSDPCIAYLMEENTICMQALVVAHACYGHNSFFKGNYLFRTWTDASSIIDYLVFAKQYIMQCEERHGIDAVEDLLDSCHALMNYGVDRYKRPYPISAEEERRRQKDREEHLQKQINDLWRTIPKGADKYSEKDNARFPAEPQENILYFIEKHAPLLEPWQREIVRIVRKIAQYFYPQRQTQVMNEGWATFWHYTLMNDLYDEGLVTDGFMMEFLTSHTSVVFQPGFDSPYYSGINPYALGFAMYRDIRRMCEDPTEEDRRWFPEIAGSDWLSTIKFAMSSFKDESFILQYLSPKVIRDLKLFSIMDDDQKDDLLVPAIHDESGYRVIRETLAAQYNLGNREPNVQIYSIDRRGDRSLTLRHQQHNRKPLGDSTDEVLKHLHRLWGFDIHLETLQGDQVMKTHHVPPRGEQGEGDYGRLDLAVIHL	PGPT0024845_238	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024845-spoVR-K06415	NA	NA
D1-35_05146	1272			hypothetical protein	ATGAGCTATGTGATCGACCGACGCCTGAATGGCAAGAACAAGAGCACGGTGAACCGCCAGCGTTTCTTGCGGCGTTACCGTGACCACATCAAGAAAGCCGTCGAAGAGGCGGTCAGCCGTCGTTCCATTACGGACATGGAGCATGGCGAGCAGATCAGCATCCCTGGCCGCGACATCGACGAGCCGGTGCTTCACCACGGCCGTGGTGGCAAGCAGACCGTCGTGCACCCGGGAAACAAGGAATTCACCACTGGCGAGCACATCCCGCGCCCACAGGGGGGAGGCGGCGGCAAGGGGCCCGGCAAGGCCGGCAATTCCGGCGAAGGCATGGACGAGTTCGTATTCCAGATCACCCAGGAGGAATTCCTCGAATTCATGTTCGAGGACCTGGAACTGCCGAACCTGGTCAAGCGCAACCTGACCGGTACCGACACCTTCAAGACCGTGCGCGCCGGCATCAGCAACGAGGGTAATCCGTCACGCATCAATATCATTCGCACCCTGCGTTCGGCCCATGCCCGACGAATCGCGCTCTCAGGCAGTAGCCGGGCGAAACTGCGCGAAGCCAAGGAAGAGCTGGCTCGCCTTAAACGTGAAGAACCCGACAATTTTGGCGATATTCAGGACCTGGAAGCGGAAATCGAGAAACTCAGCGCGCGTATCCATCGTGTGCCGTTCCTCGACACGTTCGACCTCAAATACAACCTCCTGGTGAAACAACCGAATCCCAGTTCGAAGGCCGTGATGTTCTGCCTGATGGACGTTTCCGGCTCCATGACCCAAGCCACCAAGGACATCGCCAAGCGCTTCTTTATCCTGCTGTACCTGTTCCTGAAGAGGAACTACGACAAGATCGATGTGGTGTTCATCCGTCACCACACCAGCGCCAGGGAAGTCGACGAGGAAGAGTTTTTCTATTCCAGGGAAACCGGCGGCACGATCGTGTCCAGCGCGCTGAAACTGATGCAGGAGATCATGGCCGAACGTTACCCCGCCAATGAATGGAACATCTATGCGGCCCAGGCGTCCGACGGCGATAACTGGAACGACGACTCGCCAATCTGCCGTGACATCCTGATCAACCAGATCATGCCGTTCGTCCAGTACTACACCTACGTGGAAATTACTCCACGCGAACACCAGGCCCTGTGGTACGAATACGAACGCATCGCCGAAGCCTTCTCCGACACATTTGCCCAACAGCAACTGGTCTCGGCCGGGGATATCTACCCGGTCTTCCGTGAACTCTTCCAGCGCAGGTTAGTGACATGA	MSYVIDRRLNGKNKSTVNRQRFLRRYRDHIKKAVEEAVSRRSITDMEHGEQISIPGRDIDEPVLHHGRGGKQTVVHPGNKEFTTGEHIPRPQGGGGGKGPGKAGNSGEGMDEFVFQITQEEFLEFMFEDLELPNLVKRNLTGTDTFKTVRAGISNEGNPSRINIIRTLRSAHARRIALSGSSRAKLREAKEELARLKREEPDNFGDIQDLEAEIEKLSARIHRVPFLDTFDLKYNLLVKQPNPSSKAVMFCLMDVSGSMTQATKDIAKRFFILLYLFLKRNYDKIDVVFIRHHTSAREVDEEEFFYSRETGGTIVSSALKLMQEIMAERYPANEWNIYAAQASDGDNWNDDSPICRDILINQIMPFVQYYTYVEITPREHQALWYEYERIAEAFSDTFAQQQLVSAGDIYPVFRELFQRRLVT	PGPT0025005_681	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0025005-yhbH-K09786	NA	NA
D1-35_05147	1923			hypothetical protein	ATGAGTATTTTTAGCCACTTCCAGCAACGTTTCGAGTCCACGCGGCAGGAGGAGTACTCGCTGCAGGAATACCTCGAACTCTGCAAGCAGGACCGCAGTGCCTACGCATCGGCCGCGGAGCGTCTGTTGCTGGCAATCGGAGAACCGGAACTGCTGGATACCTCGACCAACTCGAGGCTCTCGCGAATCTTTTCCAACAAGGTGATTCGCCGCTATCCGGCCTTTGCGGACTTCCACGGGATGGAAGAATGCATCGAACAGATCGTTTCCTATTTCCGCCATGCCGCCCAAGGCCTGGAGGAGAAAAAACAAATCCTCTATCTGCTCGGCCCCGTCGGTGGCGGTAAATCGTCCCTGGCCGAGAAGCTCAAGCAACTGATCGAAAAAGTGCCCTTCTATGCCATCAAGGGTTCGCCGGTGTTCGAGTCCCCACTGGGGCTGTTCAACGCTACCGAAGACGGCGCGATTCTCGAGGAAGACTTTGGCATTCCCCGGCGCTATCTCAATACCATCATGTCGCCATGGGCTACCAAGCGCCTGGCCGAGTTCGGCGGCGATATCAGCCAGTTCCGGGTGGTCAAGCTCTACCCCTCGATCCTTAACCAGATCGCCGTGGCCAAGACCGAGCCCGGGGATGAAAACAACCAGGATATCTCTGCCCTGGTGGGTAAGGTCGATATTCGCAAACTGGAGGAATTCCCTCAGAACGACGCCGACGCCTATAGCTATTCGGGCGCGCTGTGCCGGGCCAACCAGGGCCTGATGGAATTCGTCGAGATGTTCAAGGCGCCCATCAAGGTGCTGCACCCCCTCCTGACTGCCACCCAGGAAGGCAACTACAACAGTACCGAAGGGCTGGGAGCGATCCCGTTCAGCGGCATCCTGCTGGCCCACTCCAACGAGTCGGAATGGCATACCTTCCGCAACAACAAGAACAACGAAGCCTTCATCGACCGGATCTACATCGTCAAGGTGCCGTACTGCCTGCGGGTGACCGATGAGATAAAAATCTACGACAAGCTGTTGTTCAACAGTTCGCTGTCCAAGGCCCATTGCGCCCCCGATACGCTGAAGATGCTGGCCCAGTTCACCGTGCTGTCGCGTCTCAAGGAGCCGGAAAACTCCAACATCTATTCGAAAATGCGCGTCTACGACGGTGAAAACCTCAAGGACACCGATCCGAAGGCCAAGTCGATCCAGGAATACCGCGACAACGCGGGCGTGGACGAAGGCATGAATGGTCTTTCCACGCGTTTCGCATTCAAGATCCTGTCCAAGGTCTTCAACTTCGATCCTCACGAAATTGCCGCCAACCCAGTCCATCTGCTTTATGTACTTGAACAGCAGATCGAGCAGGAGCAGTTCCAGGCTGAAACCCGTGAGCGGTACCTGCGCTTCCTCAAGGAATACCTGGCTCCACGTTATATCGAGTTCATCGGCAAGGAGATCCAGACGGCCTATCTGGAGTCCTACAGCGAGTACGGTCAGAACATCTTCGATCGTTATGTGCTGTACGCAGATTTCTGGATCCAGGACCAGGAATACCGGGACCCGGAAACCGGCGAAATCCTCAATCGCGTGGCACTGAACGAGGAACTGGAAAAAATCGAAAAACCGGCGGGCATCAGCAATCCGAAGGATTTCCGCAACGAAATCGTCAACTTCGTGCTGCGCGCCCGGGCCAACAACAACGGCAAGAACCCGACCTGGCTCAGCTACGAGAAGCTGCGGGTGGTTATCGAGAAAAAAATGTTCTCCAACACCGAAGACCTGCTGCCAGTCATCAGCTTCAATGCCAAGGCCAGCAAGGAGGACCAGCAAAAACACAACGACTTCGTTACACGCATGGTCGAACGTGGCTACACCGACAAACAGGTACGCCTGCTTTCCGAGTGGTACCTGCGGGTCCGTAAATCACAGTAG	MSIFSHFQQRFESTRQEEYSLQEYLELCKQDRSAYASAAERLLLAIGEPELLDTSTNSRLSRIFSNKVIRRYPAFADFHGMEECIEQIVSYFRHAAQGLEEKKQILYLLGPVGGGKSSLAEKLKQLIEKVPFYAIKGSPVFESPLGLFNATEDGAILEEDFGIPRRYLNTIMSPWATKRLAEFGGDISQFRVVKLYPSILNQIAVAKTEPGDENNQDISALVGKVDIRKLEEFPQNDADAYSYSGALCRANQGLMEFVEMFKAPIKVLHPLLTATQEGNYNSTEGLGAIPFSGILLAHSNESEWHTFRNNKNNEAFIDRIYIVKVPYCLRVTDEIKIYDKLLFNSSLSKAHCAPDTLKMLAQFTVLSRLKEPENSNIYSKMRVYDGENLKDTDPKAKSIQEYRDNAGVDEGMNGLSTRFAFKILSKVFNFDPHEIAANPVHLLYVLEQQIEQEQFQAETRERYLRFLKEYLAPRYIEFIGKEIQTAYLESYSEYGQNIFDRYVLYADFWIQDQEYRDPETGEILNRVALNEELEKIEKPAGISNPKDFRNEIVNFVLRARANNNGKNPTWLSYEKLRVVIEKKMFSNTEDLLPVISFNAKASKEDQQKHNDFVTRMVERGYTDKQVRLLSEWYLRVRKSQ	PGPT0014345_739	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014345-prkA|yeaG-K07180	NA	NA
D1-35_05148	330	glpE	COG0607	Thiosulfate sulfurtransferase GlpE	ATGACCGAATTCAAACGCATCCCTCCCGAACAAGCCCAGGCCCTGCGTGAGCAGGGCGCTGTCGTCGTCGATGTGCGCGACCCGCAGACTTACGCCATGAACCATATTCCGGGATCCAAACACCTGGACAACCATTCCATCGCCGACTTCATCCGTGCCGCCGATCTCGATGCGCCTACCGTTGTGGTCTGCTACCACGGCAACTCCAGCCAGAGCGCAGCGGGTTACCTGGTCAGCCAGGGCTTCAGCGATGTCTACAGCCTGGACGGCGGTTTTGAGCTGTGGCGCGCAACTTATCCTGACGAAACAGTGCAAGGCACTCACGAATAA	MTEFKRIPPEQAQALREQGAVVVDVRDPQTYAMNHIPGSKHLDNHSIADFIRAADLDAPTVVVCYHGNSSQSAAGYLVSQGFSDVYSLDGGFELWRATYPDETVQGTHE	PGPT0003021_197	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-THIOSULFATE_DEGRADATION,PGPT0003021-glpE-K02439	NA	NA
D1-35_05149	876	apaH_2	COG0639	Bis(5'-nucleosyl)-tetraphosphatase, symmetrical	ATGGCCACGTACGCGGTCGGCGACCTGCAAGGCTGCCTAGACCCGCTCAAGTGCCTGCTGGAGCGGGTCGCCTTCGACCCACGTGAAGACACCCTGTGGCTCGTGGGCGACCTGGTCAACCGGGGGCCGCAGTCGCTTGAAACCTTGCGCTTCCTCTACGGCATCCGCGATTCGCTGGTTTGCGTGCTGGGTAACCATGACCTGCACCTGCTGGCGGCCTGGCAGAACATCGAGCGCCTGAAGAAGTCCGATACCCTGAAGGAAATCCTCGACGCGCCTGATTGCGTCGAGCTGCTTGAATGGCTGCGCCAGCAGAAGCTCATGCACTACGACGAGGCGCGCAACCTGGCGCTGGTCCATGCCGGCATTCCGCCCCAATGGTCTTTGCGCAAGGCGCTCAAGTGCGCAGGCGAAGTGGAGCAGGCGTTGCGCGATGACAACCTGTTCGGCCCCTACCTGGATGGCATGTACGGCAACGAACCGGTGAAGTGGGACAACGACCTCACCGGCGCCGCCCGCCTCAGGGTCATTACCAATTATTTCACCCGGATGCGCTTCTGCACCCGTGATGGCAAGCTTGATCTCAAGGGCAAGGAAGGCATCGAAACCGCTCCGCCCGGCTATGCGCCCTGGTTCAAGCACAAGGAGCGCAAGACCCGTAACCTGAAGATCATCTTCGGCCATTGGGCCGCGCTTGAAGGCCAAAGCGACGAGCCAGGGGTCTTTGCCCTCGATACGGGCTGTGTCTGGGGCAGCGCGCTGACACTGATGAATGTCGACAGCGGCGAGTTGCTGCGCTGCGATTGCGACGAGAAGGGGCATGCCAGACCCCACCAACCGACCACCGCATCATTGCCGGCCGGCACTGCCATTTGA	MATYAVGDLQGCLDPLKCLLERVAFDPREDTLWLVGDLVNRGPQSLETLRFLYGIRDSLVCVLGNHDLHLLAAWQNIERLKKSDTLKEILDAPDCVELLEWLRQQKLMHYDEARNLALVHAGIPPQWSLRKALKCAGEVEQALRDDNLFGPYLDGMYGNEPVKWDNDLTGAARLRVITNYFTRMRFCTRDGKLDLKGKEGIETAPPGYAPWFKHKERKTRNLKIIFGHWAALEGQSDEPGVFALDTGCVWGSALTLMNVDSGELLRCDCDEKGHARPHQPTTASLPAGTAI	PGPT0021535_153	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021535-apaH-K01525	NA	NA
D1-35_05150	381	apaG	COG2967	Protein ApaG	ATGTCCGATCCCCGTTATCAGGTCGACGTCAGCGTCGCCACCCGCTTTCTCGCTGAACAGTCGCAACCCGAGCACAACCGCTTCGCCTTTGCCTACACCATCACTGTGCGCAACAACGGCTCGTTGCCAGCCCGACTGCTGTCACGGCACTGGATCATTACCGACGGCGACGGGCACGTCGAAGAAGTCCGTGGCGAGGGTGTGGTCGGTCAGCAACCGTTGATCGACGCAGGCCAAAGCCACAGCTACAGCAGCGGCACCGTGATGACGACCAAGGTCGGCACCATGCAGGGCACCTACCAGATGCTGGCCGAGGACGGCAAACGCTTCGACGCGGTCATCAAGCCCTTTCGCCTGGCGGTGCCAGGAGCGTTGCACTGA	MSDPRYQVDVSVATRFLAEQSQPEHNRFAFAYTITVRNNGSLPARLLSRHWIITDGDGHVEEVRGEGVVGQQPLIDAGQSHSYSSGTVMTTKVGTMQGTYQMLAEDGKRFDAVIKPFRLAVPGALH	PGPT0004665_1034	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-RELATED_ROTEINS,PGPT0004665-apaG-K06195	NA	NA
D1-35_05151	819	rsmA	COG0030	Ribosomal RNA small subunit methyltransferase A	ATGACCGAGCAATACCAACACCGCGCGCGCAAGCGCTTCGGCCAGAACTTCCTGCATGACGCCGGCGTTATCGACCGCATCCTGCGCTCCATCAATGCCAAGCCCGATGACCGTATGCTCGAGATCGGGCCGGGCCAGGGCGCACTGACCGAAGGGTTGCTTGGCAGCGGCGCGCAACTGGACGTGGTGGAGCTGGACAAGGACCTGGTACCGATTCTCAACCAGCAGTTCGCCGGTAAGAGCAATTTCAACCTGCATCAGGGCGATGCGCTGAAATTCGACTTCAACAGCCTGAATGCCGCACCGGGCAGCCTTCGAGTCGTGGGCAACCTGCCGTACAACATCTCGACGCCGCTGATTTTTCACCTGCTGAACAATGCCGGCCTGATCCGCGACATGCACTTCATGCTGCAGAAAGAAGTGGTCGAGCGTCTCGCCGCCGGGCCTGGCGGAGGTGACTGGGGTCGTTTGTCGATCATGGTCCAGTATCATTGCCGGGTTGATCACCTGTTCAACGTAGGCCCCGGTGCGTTCAACCCGCCGCCGAAAGTCGACTCCGCCATCGTCCGGCTTGTGCCTCATGCGGTCCTGCCGCATCCCGCCAAGGACCATCGCCTGCTGGAGCGTCTGGTACGCGAAGCGTTCAACCAGCGCCGTAAAACCCTGCGCAACACCCTGAAACTGTTGCTCAGCAGTGCCGAAATCGAAGCCGCCGGCGTCGATGGCAGCCTGCGTCCGGAGCAACTGGACCTCGCAGCCTTCGTCCGCCTGGCCGACAAGCTCAGCGAACAGGTCGCGCCAGATACCGACGCCATCTGA	MTEQYQHRARKRFGQNFLHDAGVIDRILRSINAKPDDRMLEIGPGQGALTEGLLGSGAQLDVVELDKDLVPILNQQFAGKSNFNLHQGDALKFDFNSLNAAPGSLRVVGNLPYNISTPLIFHLLNNAGLIRDMHFMLQKEVVERLAAGPGGGDWGRLSIMVQYHCRVDHLFNVGPGAFNPPPKVDSAIVRLVPHAVLPHPAKDHRLLERLVREAFNQRRKTLRNTLKLLLSSAEIEAAGVDGSLRPEQLDLAAFVRLADKLSEQVAPDTDAI				NA	NA	NA	NA	NA
D1-35_05152	990	pdxA	COG1995	4-hydroxythreonine-4-phosphate dehydrogenase	GTGAAACCCAAGCGTTTCGCGCTGACTCCCGGCGAGCCTGCCGGCATCGGTCCCGACCTGTGCCTGCTGCTCGCCTCGCAAGTCCAACCACACCCTCTGATCGCCATCACCAACCACGACCTGCTCCTTGAGCGGGCCGCGCAGTTGGGGGTGGCCGTCGACCTGTTGCCAGTGACGCCGGACGCTTGGCCGGATTTCCCCGCTCCCGCCGGTAGCCTGTATGTATGGGATACGCCGCTGGGCGCACCTGTCACCGCAGGCCAGCTGGACAAGGCCAACGCAGCATTCGTGCTGCAGACCCTGACCCGCGCCGGCCAAGGCTGCCTGGATGGGGCTTTCGCCGGCATGATCACGGCGCCGGTACACAAGGGTGTGATCAATGAATCCGGCATTCATTTTTCCGGACACACCGAATTCCTGGCCGACCTGACCCATACCGCGCAAGTGGTGATGATGCTCGCCACCCGTGGCCTTCGCGTGGCTCTGGTCACCACTCACCTGCCCCTGCGAGACATCGCCGACGCCATTACCCCGGAACGCCTCGAACGCGTTACGCGGATATTGCACGCCGACCTCCAGGAAAAATTCGGCATCGCCCGGCCCCGCATCCTGGTGTGCGGGCTGAATCCGCATGCCGGCGAAGGCGGGCATCTGGGCCATGAAGAAATCGACATCATCGAACCCACACTGGAGCGCTTGCGCAGCGAGGGCATGGACCTGCGTGGCCCGCTGCCTGCCGACACTCTGTTTACCCCCAAATATCTGGAGCACTGCGATGCGGTGCTGGCGATGTACCACGACCAGGGCCTGCCCGTGCTGAAATACAAAGGTTTCGGTGCGGCGGTCAACGTGACCCTGGGCCTGCCGATCATCCGCACATCCGTGGATCACGGCACCGCCCTGGATTTGGCCGGCAGCGGCAGGATCGACACCGGGAGCCTGCAAGTCGCGCTGGAAACCGCCTACCAGATGGCCGAGACCCATTTATGA	MKPKRFALTPGEPAGIGPDLCLLLASQVQPHPLIAITNHDLLLERAAQLGVAVDLLPVTPDAWPDFPAPAGSLYVWDTPLGAPVTAGQLDKANAAFVLQTLTRAGQGCLDGAFAGMITAPVHKGVINESGIHFSGHTEFLADLTHTAQVVMMLATRGLRVALVTTHLPLRDIADAITPERLERVTRILHADLQEKFGIARPRILVCGLNPHAGEGGHLGHEEIDIIEPTLERLRSEGMDLRGPLPADTLFTPKYLEHCDAVLAMYHDQGLPVLKYKGFGAAVNVTLGLPIIRTSVDHGTALDLAGSGRIDTGSLQVALETAYQMAETHL	PGPT0009165_1839	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009165-pdxA-K00097	NA	NA
D1-35_05153	1323	surA_1	COG0760	Chaperone SurA	GTGAACGTGAAGACCAAGCTTTCTGATTGTCTGCGCCCGCTGATGCTGGGCGCGCTGTTCCTGGGTACCGCGGCGAACGCCGCGGTACAGTCCATCGACAAGGTCGTGGCCATCGTCGACAACGACGTGGTCATGCAGAGCCAGTTGGACCAGCGGGTCCATGAAGTTCAGCAAACCATCGCCAAGCGTGGCGGTGGCTTGCCGCCACCGGGTGTGCTGGACCAACAGGTGCTGGAGCGCCTGATCGTCGAGAACCTGCAGTTGCAGATTGGCGAGCGTTCCGGCATCCGCATCACCGATGAAGAACTGAACCAGGCCGTCGGCACCATTGCCCAGCGCAATAACATGACTGTCGACCAGTTCCGCGCTGCCCTGGCGCGCGATGGCCTGTCGTTTGACGACGCCCGCGACCAGATCCGTCGCGAGATGGTCATCAGCCGTGTGCGTCAGCGCCGCGTCGCCGAACGCATCCAGGTTTCCGAGCAGGAAGTGAAGAACTTCCTCGCCTCCGACTTGGGCAAGATGCAGCTTTCGGAAGAACTGCACCTGGCAAACATCCTGATTCCTACGCCGGAAAGCGCCAATTCGGAAGCGATCCAGAGCGCTTATCGCCAGGCAATGGACATTTACCAGCAGCTCAAGCAAGGCGCTGACTTCAGCCAGATGGCGGTAGCCCGTTCGGCCAGTGAAAACGCTCTGGAAGGCGGTGACATGGGCTGGCGCAAGGCCGCCCAGCTGCCGCCTCCGTTCGATCGCGAGCTGAGCACCATGGCCGTGGGCGACATCACCCAGCCAGCCCGCACGCCTGGCGGCTTCATTATCCTGAAGCTGCTGGAAAAACGTGGTGGCGGTACCCAGGTGCGTGACGAAGTACATGTTCGTCATATCCTGATCAAGCCAAGCGAGATCCGCAGCGAAGCCGAGACCAAGCGTCTGGCCGAGAAACTGTACGAACGCATCACCTCCGGCGAAGACTTCGCCGAGCTGGCGAAGAGCTTCTCGGAAGACCCGGGCTCGGCCCTGAACGGCGGCGACCTGAACTGGGTCGACCCGAACGCGCTGGTTCCCGAGTTCCGCCAGGTCATGGCCGAAACACCGCAAGGCCAACTGTCCAAGCCGTTCAAGAGCCCTTATGGCTGGCATGTCCTGGAAGTCCTTGGCCGTCGCGCCACCGACAGCACCACCCAGGCGCGCGAACAACAGGCGTTGACGGTATTGCGTAACCGCAAGTACGACGAAGAGCTGCAAACCTGGCTGCGCCAGATTCGCGACGAAGCCTACGTCGAGATCAAACTCCCTGGTGCAGACCAGGCAGCGCAGTGA	MNVKTKLSDCLRPLMLGALFLGTAANAAVQSIDKVVAIVDNDVVMQSQLDQRVHEVQQTIAKRGGGLPPPGVLDQQVLERLIVENLQLQIGERSGIRITDEELNQAVGTIAQRNNMTVDQFRAALARDGLSFDDARDQIRREMVISRVRQRRVAERIQVSEQEVKNFLASDLGKMQLSEELHLANILIPTPESANSEAIQSAYRQAMDIYQQLKQGADFSQMAVARSASENALEGGDMGWRKAAQLPPPFDRELSTMAVGDITQPARTPGGFIILKLLEKRGGGTQVRDEVHVRHILIKPSEIRSEAETKRLAEKLYERITSGEDFAELAKSFSEDPGSALNGGDLNWVDPNALVPEFRQVMAETPQGQLSKPFKSPYGWHVLEVLGRRATDSTTQAREQQALTVLRNRKYDEELQTWLRQIRDEAYVEIKLPGADQAAQ	PGPT0014978_1289	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014978-surA-K03771	NA	NA
D1-35_05154	2826	lptD	COG1452	LPS-assembly protein LptD	ATGGCATTGAAATCCCCCGCGTTTCGTAAAAAATTTCCGTTGCTGGTCACCGGCAGTCTGCTGGCTCTGCAACCCCTGGCCTCTTCATTCGTCGTCGCGGCGCAGCAGTATGACTGTTCCGTCTCCGCTTCGGGTGCCTGGGACTGTTCACCCAAAGCGCCGGCCGCTGCATTGCCGCCGCGCCCGGTGCATGAAGGCAGTGCGGTTGCCGACAGCGGCAGCGCTCCGGCCGACAGCGATTCGGGCGAGGTAGCCGGCGATAAGCCGATGCTCGTTACCGAATCCAAGGGCCGCGGCCTGAAGTCGCGCAGTGCAGACTACAGTCACCTGGACTGGGTTCCGCGCGAGAACCTCACGCCTGCGCAACTGGCTGAAACCGGCCCGTACTGCGCGGGCGCGTACATCGAGCCGTCTCGCCCAGGCATGAACGACAAGACCGCCAAGAGTGACGCTCCGACGTTCCTCGGCGCCAAGGCTTCACGCTACGAGCAGGAACAGCAAGTGGCGACCCTGGCCGGTGACGTGGTCATGCGTCAGGGCAGCATGCAGGTCGAGGCCGACGAGGCCAGCCTGTACCAGGCCGAGAACCGCGGCGAGCTGAGCGGCAACGTGCGAGTTCGCGACAACGGTGCGCTGATTGTCGGCGACCACGCCGATGTGCAGCTGGACACCGGTGAAGCCAAGGTCGACAACGCCGAATACGTGATGCACAAATCGCGCATCCGCGGTAACGCGCTGTACGCCAAGCGCGCCGAGAACGCGATCATCCGCCTCAAGGACGGTACGTACACCACGTGCGAGCCGGGCAGCAACGCCTGGACGCTCAAGGGCAACAACATCACCCTGAACCCGGCCACCGGATTCGGCACCGCTACCAACGTGACGCTGCGGGTCAAGGACTTTCCGGTCCTGTATACGCCGTACATCTACTTCCCGATCGACGACCGTCGCCAGTCCGGCTTCCTGCCACCGACCATCGGCAGCGGCAGCGACACCGGCTTCCTGCTGGTCACTCCGTACTACTTCAACCTGGCGCCTAACTACGACGCCACGTTGTACCCACGCTACATGAGCAAGCGCGGCCTGTTGATGGAAGGCGAATTCCGCTACCTGACCAAGTCCAGCGAAGGCCAGTTCGGCGCGGCGTACCTCAACGACGAAGAAGACGAGCGCGCCAGGCAGACCGACTACAGCAAGACCCGCTACATGTACAACTGGCAGCACAAGGGCGGGCTGGATTCACGTGTACTGACAGAAGTCGACTACACGAAGATCAGCGATCCGTATTACTTCCAGGATCTGCAGACCGATCAGATCGGCGTGGAATCCAGGAACTTCGTGAACCAGCAGGGTGCGGTCAGCTACCGGGGCGATACCTACACCGCTCGGCTGAACGTCCAGGCGTTCCAGATGGCCACGATTTCCAACATCACGCCTTATGACCGCTTGCCGCAAATCACCTTCAACGGTTTTCTGCCACAGCATCCGTATGGTCTGGATTTCGCCTATAACACTGAGTTCGTGCGGTTTGATAGGGACTTGAGGACTGGGAACTATCTAGACGAAAATGGCGGTCCCGTTGATCCTGTTACCGGGATCGTCGGCACGCCGTTCCTCGATACCAACGTCAGAGGCCTGGCCCGTGCTACTGGCGACCGGATGAACCTGGCCCCCGTTGTCAGCCTGCCGATGAATGCAAGCTACGGCTTCATCAAGCCGTCGCTCAAGTACCAGTACACCCAATACGATCTTGACCTGGATAGCCAGGGCAAGCAGGATATCGCCGACCAGAACGCTGAAGGTGATCGCCTGAACGGCACCTACGGCAGCAGCCAGAACCGTGGCGTCCCTATCGCCAGCATCGACAGCGGCCTGTACTTCGACCGTGATACCCAATGGTTCGGCAAGAATTATCGCCAGACGCTGGAGCCGCGCCTGTTCTATCTCTACGTACCGGAGAAAGATCAGAGCGATATCCCGGTCTTCGACACCAGCGAAAGCACCTTCAACTACGCCTCGCTGTTCCGGGACAATCGCTTCTCCGGTTCCGACCGTGTCGGCGACGAGAACAAGCTGTCGCTGGGCGTGACCAATCGCTGGATCCAGGAAGATGGCTTCGAACGTCAGCGCATCAGCGTCGGCCAGGCCTTCTATTTCAAGGACCGCGAAGTCCAACTGCCGGGTATTGACTTCAGGACTCGCGAAGACGCCCATTCAAGCGTTTCGCCTTACGCGCTGGAATACGAATACCGCTGGAACCGCGACTGGCGCACCACCGCCGACTACAACTGGGATCCGGACAGCCACAGCCCGCGTTCGGGCAGTGCGATGTTCCACTACCAGCCTGAAGACAATCCGAACAAGGTCATCAACGCCGGTTATCGCTATCGCAACGACCTGGTCCGTTACGACGAAACCACCGGTCGCTGGCAAGTGGGTGGAGGCGACTACGGTACGCCGGGCACTCCTGGCTACGTGAAGGACTATTACAAGATCAAACAGCACGACTTCTCGGTCATCTGGCCGATCGTGCCGCAGTGGAACGTGATCAGCCGCTGGCAGTATGACTACAACCGCAACCGTACCCTGGAAGCCTTCGGTGGTTTCGAATACGACAACTGCTGCTGGAAACTGCGCCTGATCAACCGTTACTGGGTCGACTATGAAGAATTCAGTCAAGCCGCCCCGGAAAACGAAAAAGGCGACCACGGCGTCTTCCTCCAAATTGTTCTGAAGGGACTCGGCGGCCTCACCGGCGCCAAGGTAGAGAGCTTCCTCGACAAAGGCATTCAAGGTTATCGTGAACGTGAAGACCAAGCTTTCTGA	MALKSPAFRKKFPLLVTGSLLALQPLASSFVVAAQQYDCSVSASGAWDCSPKAPAAALPPRPVHEGSAVADSGSAPADSDSGEVAGDKPMLVTESKGRGLKSRSADYSHLDWVPRENLTPAQLAETGPYCAGAYIEPSRPGMNDKTAKSDAPTFLGAKASRYEQEQQVATLAGDVVMRQGSMQVEADEASLYQAENRGELSGNVRVRDNGALIVGDHADVQLDTGEAKVDNAEYVMHKSRIRGNALYAKRAENAIIRLKDGTYTTCEPGSNAWTLKGNNITLNPATGFGTATNVTLRVKDFPVLYTPYIYFPIDDRRQSGFLPPTIGSGSDTGFLLVTPYYFNLAPNYDATLYPRYMSKRGLLMEGEFRYLTKSSEGQFGAAYLNDEEDERARQTDYSKTRYMYNWQHKGGLDSRVLTEVDYTKISDPYYFQDLQTDQIGVESRNFVNQQGAVSYRGDTYTARLNVQAFQMATISNITPYDRLPQITFNGFLPQHPYGLDFAYNTEFVRFDRDLRTGNYLDENGGPVDPVTGIVGTPFLDTNVRGLARATGDRMNLAPVVSLPMNASYGFIKPSLKYQYTQYDLDLDSQGKQDIADQNAEGDRLNGTYGSSQNRGVPIASIDSGLYFDRDTQWFGKNYRQTLEPRLFYLYVPEKDQSDIPVFDTSESTFNYASLFRDNRFSGSDRVGDENKLSLGVTNRWIQEDGFERQRISVGQAFYFKDREVQLPGIDFRTREDAHSSVSPYALEYEYRWNRDWRTTADYNWDPDSHSPRSGSAMFHYQPEDNPNKVINAGYRYRNDLVRYDETTGRWQVGGGDYGTPGTPGYVKDYYKIKQHDFSVIWPIVPQWNVISRWQYDYNRNRTLEAFGGFEYDNCCWKLRLINRYWVDYEEFSQAAPENEKGDHGVFLQIVLKGLGGLTGAKVESFLDKGIQGYREREDQAF	PGPT0023298_78	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023298-lptD|imp|ostA-K04744	NA	NA
D1-35_05155	1026	amgK	COG3178	N-acetylmuramate/N-acetylglucosamine kinase	ATGCCTGACCAAGATGTACGCTTGCAACACCTGAAAGTTTGGCTCGATGAGCAGCTACCAATCCTCTTCACCCAACAAGGCTGGGGCGCCGTACCCCCGGCCACGTTGACTGCGGCCAGCAGTGACGCGAGTTTCCGGCGGTACTTCCGCTGGCAGGGTGAGGGCCGCAGCCTGATCGTGATGGACGCGCCACCGCCCCAGGAAAACTGCAAACCGTTCGTGGATATTGCTTTTTTGCTGGCGAAATCCGGGATCAACGTGCCGAAAATTTATGCCGAAGACCTCGAACGCGGGTTTCTTTTGCTCAATGACCTGGGCAACCAGACCTATCTGGACGTGATCAACGGCGAAAATGCCGACGATCTGTTCGGCGATGCCCTGCAAGCCTTGTTGGCTTTTCAGCAGTTGCCGATGGTCGCGCCGCTGCCCAGCTACGACGTCGCGTTATTGCGCCGCGAGTTGGAGTTGTTCCCCGAGTGGTACGTCAAGCGTGAGCTGGGAATCGAGTTCGATACGGCCCAGCAGCAACTGTGGCAGCAGGCATCCGACCTGCTGATCAACAGTGCCCTGGCCCAGCCGAAAGTACTGGTGCACCGCGACTACATGCCGCGCAACCTGATGCTCAGCGAACCCAACCCAGGCGTACTGGATTTCCAGGACGCGGTCTATGGCCCGGTGACCTACGATGTGACGTGCCTGTTCAAGGACGCCTTCCTCAGTTGGCCGGAAGAACGCGTGCGCGGCTGGCTGGAAGATTATTGGCGGCAGGCCGGCACGCTCGGCATTCCGGTCCAGCCGGATTTCGAGGATTTCCTGCGTGCCAGCGACCTGATGGGCGTGCAACGCCATCTCAAGGTGATCGGCATCTTCGCGCGCATTTGCCACCGCGATGGCAAGCCGCGTTACCTGGCTGACGTGCCGCGTTTCTTCGCCTATATAGAAGCGGTCATTGCCCGTCGTCCGGAACTGGCACCGTTGGACGAGTTGCTCCGCAGCCTGCGCCAAGCGGATGGAGCGAGCGCATGA	MPDQDVRLQHLKVWLDEQLPILFTQQGWGAVPPATLTAASSDASFRRYFRWQGEGRSLIVMDAPPPQENCKPFVDIAFLLAKSGINVPKIYAEDLERGFLLLNDLGNQTYLDVINGENADDLFGDALQALLAFQQLPMVAPLPSYDVALLRRELELFPEWYVKRELGIEFDTAQQQLWQQASDLLINSALAQPKVLVHRDYMPRNLMLSEPNPGVLDFQDAVYGPVTYDVTCLFKDAFLSWPEERVRGWLEDYWRQAGTLGIPVQPDFEDFLRASDLMGVQRHLKVIGIFARICHRDGKPRYLADVPRFFAYIEAVIARRPELAPLDELLRSLRQADGASA	PGPT0019050_883	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_MURAMATE_DEGRADATION,PGPT0019050-amgK-K07102	NA	NA
D1-35_05156	672	murU	COG1208	N-acetylmuramate alpha-1-phosphate uridylyltransferase	ATGAAGGCGATGATCCTGGCGGCGGGCAAAGGCGAGCGCATGCGGCCCCTGACCCTCACTACCCCCAAGCCGTTGATTCGCGTCGGCGGCATCCCGTTGATCGAGTACCACCTGCGGGCATTGGCCACGGCCGGGTTCACCGAAATCGTGATCAACCATGCCTGGCTCGGCCAGCAGATCGAAGATCACCTAGGCGACGGTTCGCGGTTTGGCGTGCAGATCCGCTATTCGCCGGAGGGTGAGCCGCTGGAAACCGGCGGCGGAATTTTCCGCGCGCTGCCGCTGCTGGGTAACGATGCGTTTCTGGTGGTCAACGGCGATATCTGGACCGATTACGATTTCAGCGCCCTGCGCCAGCCGATCCAGGGGTTGGCGCACCTGGTGCTGGTGGACAATCCGGAGCATCACCCCGAGGGTGATTTCATGCTGGCTGGCGGCCAGGTTAATGACGGCGGGCCTGGTGCCGATAAGCTGACATACAGCGGCATCGCCGTGCTGGATCCACAGCTGTTTGCCGGCTGCGCCGATGGCGCATTCAAGCTGGCCCCGCTGTTTCGCCGCGCCATGGCCGCAGGGCAGGTCAGCGGTTCGCGCCTGGAAGGACGCTGGGTCGATGTGGGTACTCACGAACGTTTGTCGCAAGTCGAAAAACTGATAGAAGCGAGCTGTTGA	MKAMILAAGKGERMRPLTLTTPKPLIRVGGIPLIEYHLRALATAGFTEIVINHAWLGQQIEDHLGDGSRFGVQIRYSPEGEPLETGGGIFRALPLLGNDAFLVVNGDIWTDYDFSALRQPIQGLAHLVLVDNPEHHPEGDFMLAGGQVNDGGPGADKLTYSGIAVLDPQLFAGCADGAFKLAPLFRRAMAAGQVSGSRLEGRWVDVGTHERLSQVEKLIEASC	PGPT0019055_1425	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_MURAMATE_DEGRADATION,PGPT0019055-murU-K00992	NA	NA
D1-35_05157	768	djlA	COG1076	Co-chaperone protein DjlA	ATGTGGTGGCCAGGGACTCTGATTGGAGCGGGGGCGGGCTTTGCCATTGCCAGCATCCCGGGGGCCATGCTCGGCGCATTGTTGGGGCAGGCGCTGGACCGGCGTCTGAATCTGCACGGCTGGGCCCAGGTGCGCGAGCGCCTGGGCGGGCGCCCGGCGTTGCGCAACGATGAACTGTTGTTCGTCTTGCTCGGTCGCCTGGCGAAGATCGACGGGCGCGTGGTCGATGGTCACATCCAGCAGGCGCGTCTGGAAATGCGCGCTCTGGACCTGAGCGAACCGGCGCAACGTCGGGCTATCGCGGCCTTTAATCGGGGCAAATCGGGAAACGATCGGCTGCGTGGTTATCTGCGTCGCCTGAGTGCCCAGCCGCATGCGGCTGAAGGCGTGCTTCGGGCCTGCTGGCGGATGGTCTGGGCCGACGGCCGTGCCGGTGTAGCCGAACGTGAGTTGCTCGCCCAGTGGGGCAAGTGGCTGGGTTGGACGCCGCAGCAGGTCCAGGCGTTGGCGATGGACTACGAGCCGCAGAAACCGGGGTTGCCCAGCAGTGGCTTGACGTATCAGGAGGCGTTGCGGCTGTTAGGGGTTTCGGCCAGCAGCGAACCGTCGCAAATCAAGCGCGCTTACCGCCGCCTGATCAGTCGTCATCACCCGGACAAGATCGCCGGCAGCGGGGCGACAGCCTTGCAGGTACGCGAAGCAACCGACAAGACCCGCGAGCTGCACAACGCCTATCGCTTGATTCGCGAGCGCAGGGATTTTCGCTAG	MWWPGTLIGAGAGFAIASIPGAMLGALLGQALDRRLNLHGWAQVRERLGGRPALRNDELLFVLLGRLAKIDGRVVDGHIQQARLEMRALDLSEPAQRRAIAAFNRGKSGNDRLRGYLRRLSAQPHAAEGVLRACWRMVWADGRAGVAERELLAQWGKWLGWTPQQVQALAMDYEPQKPGLPSSGLTYQEALRLLGVSASSEPSQIKRAYRRLISRHHPDKIAGSGATALQVREATDKTRELHNAYRLIRERRDFR	PGPT0014550_874	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014550-djlA-K05801	NA	NA
D1-35_05158	990			hypothetical protein	ATGTCCTTTGTTAACCGCCTGACACTGCCTGCATTGTGCCTGTCGCTGATCCTGCCGAGTGCATTTTCTGTACAGGCCGGTGAAACGACGCCCGCCGCGGGCGATCAACCCGCCGAGGCGAAACCGGCCGAGCGCCAGCCTTTGCTCGAGCGTAGCCAGGAAGAAGCGGCGGCGCTCGCACGAAAAGTCCCAGCCCAGGAACAACAACAGCTGCAAACCGGCAGCGATGCTTTCCTTGCCCTCTGGAAGCCGGCCAACACCAGCGAGCCCAAGGGCGTGGTCATCATCGTCCCTGGCGCCGGCGAAACGGCTGACTGGCCGCAGGTCATCAGCCCGCTGCGCAAAAAACTGCCGGATGCCGAATGGAGCAGCCTGAGTATTACGCTGCCGGACATGCAGAGCGACGTTATCGCACCCCGCGCGGCGGAAACACCGCCGGAGACCAAGCCGGCCGACATCGCTGCGGCAGCCCCCGACGCAACCACCGCGGCCCCGATCGAGCAGGTCGCCGGCGGCGAGGCCGACGCGGCTGAGCCGGCCTCCGCCGAAACCGGCGAAGAATCCGACAAGGCCGACGCCGAACGGATTTTCGCCCGTATCGACGCGGCATTGGCCTACGCCGAGCAACAGAGCGCCCGCAGTATCGTCTTGCTGGGCCACGGCACCGGCGCCTATTGGGCGGCGCGCTATCTTGGCGAAAGACAACCCACGCAAATCCAGCGCTTCGTGATGGTCGCGGCCCAGACACCCGTCACCGCCAAGCCCGGCCTCGCCGAGCTGACACCGAACCTGAAGCTGGCAACGGCAGACATCTTTTATATGGACAAACCGACGGACCGCAACGCGGCCCTGGAGCGCCTGCAAGCCAGCAAACGACTGAAAGGGTCGAGCTTCAGCCAGGTTTCCCTCAAGGCACTGCCCAACGCAACGGCGCAGCAGGAACAGCTGTTTCGACGGGTTCGGGGGTGGTTGAGTCCGCAGACAGACTGA	MSFVNRLTLPALCLSLILPSAFSVQAGETTPAAGDQPAEAKPAERQPLLERSQEEAAALARKVPAQEQQQLQTGSDAFLALWKPANTSEPKGVVIIVPGAGETADWPQVISPLRKKLPDAEWSSLSITLPDMQSDVIAPRAAETPPETKPADIAAAAPDATTAAPIEQVAGGEADAAEPASAETGEESDKADAERIFARIDAALAYAEQQSARSIVLLGHGTGAYWAARYLGERQPTQIQRFVMVAAQTPVTAKPGLAELTPNLKLATADIFYMDKPTDRNAALERLQASKRLKGSSFSQVSLKALPNATAQQEQLFRRVRGWLSPQTD				NA	NA	NA	NA	NA
D1-35_05159	2394	mltF_4		Membrane-bound lytic murein transglycosylase F	ATGATGCGTGTTTGCCTGTGGGTTATCGGCTGTCTATGGCTTCCCTTGATGGCGTGGGCTGCACCCGCGCCACAGGCGCAGGCGGTGCAGTTGAGCGCGGGCCAGCGCCAATGGTTGGCGGAGCATCCGCAGTTGCGCGTCGGCCTGGTGTTGCAGGCGCCCTACGCACAATACGACCGGCGCTTGCAGCGTCTGTCCGGCACCCACGTCGAACTGATGCAATGGCTGGGCAAGGCATTGAACGTCGAGCTGACCTGGCGCAACTTCCAGGATGTGGCGCAACTGGAAGCCGCGGTGCGCAACGGCGAAGTGGATGTCGCGCCGGGCTTGACCCAGACCCCGGCCGGCCTGCGGCTCTGGCAGTTTTCCGACCCTTACATGCGTGTGCCGCAGTTGATCGTGGGCGAGCAGAAGGGCGCCGAAGGCGTGGAGTTGGAGAAGCTCGACCCCCAGGCCCGGGTTGTCGTGCGCATGCCCAGCGCCACGGCCGATTACTTGCGCAGCAACTACCCCATGCTGAACCTGCAAGGCGTGCCGATGGAACGCCAGGCCCTGCAACTGCTTTTGAGCCAACAGGCACGGTACGCGGTGATCGACGAGGCACAGTTGGGTCGCCTGATGGTCGAGCCGGAATTTTCCGGATTGGTGGTGGTGGGTGATATCGGCCTGCCGCAACTGCTCAGGGTCGCCACGCGCCGGGACTGGCCGCAGTTGGCCGAAATCGTCGACAAGGGCTTGCAGGCGATTCCCGCCAAGGAGCTGGAGCAACTGCACAACCGTTGGATCAAGCCCAAATACCCACGCCTGACCGAGACGCCTGGCTTCTGGCAGAACCTGACCCTGCTGATGCTCGCCTTGTTGCTGTGCAGTGTCTCCATCGTGTTCTGGCAGCGCCGCCAGCAACGCGGGCTGGAACGTCGCCTGCGCTCGGCGCGCGAGGACATCGCCCAGCGCGCCGCCAGTGAAGAAGCCTTGCGCCTGACGCAATTTTCCATCGATCAAAGCACGGTCGGGATCCTCTGGGTGAATTGGGACAGCCATGTGCGCTACGCCAACCGCGCCGCCGAAACCATGCTGGGTTATGCGCCAGGCGCGATCATCGATCGGCCGCTGATCGACTTCGAACCGGGCCTGCACATGGACCGTTGGCTCAACCTGTGGAAGCGCGCCCGTGCCAGCGAAGATGGGCCGCAGAGTTTCGAAACCGAATGCGTGCGGGCCGATGGCAGTATCCTGCCGGCGGACGTTTCCCTGAGTTTCCTGCGTTTTCGTGACGCGGAATACCTGGTGGTCTACCTCAATGATGTGACCGAGCGTCGCCGCGCGCTGGCAGCCCTGCGTGAAAGCGAAGCGCGGCTGCAGGGCATCGCCGCCAATGTGCCGGGCCTGGTCTTTCGCCTGGAGCGGGCACCGGTGACCGGCCAGATCGACTTTGCCTATATCAGCGAAGGCAGCGAAAGCCTGGTGGGCTACGCCCCGGCGGTACTGGCCCGCAGTGATACCGGGCTGCGCAGCCTGGTGCACCCGCAGGACAAGGCCGATTACCACCGCACCCAGGACCAGGCGCTGGACAGTGACAGCGATTGGTCTTGGCAAGGCCGTATCCTGACTCGCGAAGGCCAGGAGCGCTGGGCCGAGATCAAGGCGATCACGCGTCGGCTCGAAGATGGCGCCTATGTCTGGGACGGCATTGTCTGGGATATCACCGAAAGCAAACGTGTCGAGCTGGAATTGGCCAGTTCCCGGGAGCAGTTGCGTGAGCTGTCGGCGCACCTGGAAAGCGTACGGGAAGAAGAGAAGGCGCGCATTGCCCGGGAAGTCCACGATGAGCTGGGTCAGATGCTGACGGTGCTGAAGCTGGAGACGTCCATGTGCGAACTGGCCTACGCGCAACTTGACCCGGGCCTGCAAGAACGGCTCAACAGCATGAAGCGCCTGATTGCCCAGTTGTTCCAATTGGTGCGGGACGTGGCGACGGCGTTGCGCCCGCCAATCCTCGATGCCGGTATTGCCTCGGCCATCGAATGGCAGGCCCGCCGTTTCGAGGCGCGCACACAGATTCCGTGCCTGGTGCAGGTGCCGGACAACCTGCCGGCGTTGAGCGACGCCAAGGCCATCGGCCTGTTCCGGATTCTCCAGGAAGCACTGACCAATGTGATGCGCCATGCCCAGGCGCATACTGTGGAGTTGACGTTGGCTCAACAAGGCGCTGATTTATGTCTGACGGTCAGCGACGACGGTGTAGGATTTATTGCCGATACGGGCCGGCCAACGTCCTTTGGCCTGGTCGGCATGCGTGAGCGCGTGTTGATCATGGGCGGGCAATTGACCCTGGACAGTGAGCCGGGGGAGGGGACAACCTTGTCGGTGCGGGTGCCTTTGGGTGAGGCCTGA	MMRVCLWVIGCLWLPLMAWAAPAPQAQAVQLSAGQRQWLAEHPQLRVGLVLQAPYAQYDRRLQRLSGTHVELMQWLGKALNVELTWRNFQDVAQLEAAVRNGEVDVAPGLTQTPAGLRLWQFSDPYMRVPQLIVGEQKGAEGVELEKLDPQARVVVRMPSATADYLRSNYPMLNLQGVPMERQALQLLLSQQARYAVIDEAQLGRLMVEPEFSGLVVVGDIGLPQLLRVATRRDWPQLAEIVDKGLQAIPAKELEQLHNRWIKPKYPRLTETPGFWQNLTLLMLALLLCSVSIVFWQRRQQRGLERRLRSAREDIAQRAASEEALRLTQFSIDQSTVGILWVNWDSHVRYANRAAETMLGYAPGAIIDRPLIDFEPGLHMDRWLNLWKRARASEDGPQSFETECVRADGSILPADVSLSFLRFRDAEYLVVYLNDVTERRRALAALRESEARLQGIAANVPGLVFRLERAPVTGQIDFAYISEGSESLVGYAPAVLARSDTGLRSLVHPQDKADYHRTQDQALDSDSDWSWQGRILTREGQERWAEIKAITRRLEDGAYVWDGIVWDITESKRVELELASSREQLRELSAHLESVREEEKARIAREVHDELGQMLTVLKLETSMCELAYAQLDPGLQERLNSMKRLIAQLFQLVRDVATALRPPILDAGIASAIEWQARRFEARTQIPCLVQVPDNLPALSDAKAIGLFRILQEALTNVMRHAQAHTVELTLAQQGADLCLTVSDDGVGFIADTGRPTSFGLVGMRERVLIMGGQLTLDSEPGEGTTLSVRVPLGEA				NA	NA	NA	NA	NA
D1-35_05160	630	uvrY	COG2197	Response regulator UvrY	GTGATCCGTGTACTGGTAGCTGAAGACCACACCATCGTGCGCGAAGGGATCAAGCAATTGATCGGCCTGGCCAAGGATCTGGTGGTGGCAGGGGAGGCGAGCAATGGCGAACAGCTGCTCGAGACCCTGCGACACGTGCCTTGCGAAGTGGTGCTGCTGGATATTTCCATGCCGGGTGTCAACGGCCTTGAGGCAATCCCACGGATCCGTGCGCTGAACAACCCGCCGGCCATCCTGGTGTTGTCGATGCATGACGAGGCGCAAATGGCCGCCCGGGCCTTGAAAGTCGGCGCCGCTGGCTACGCCACCAAAGACAGCGATCCCGCTTTGCTGCTCATGGCGATCCGCAAGGTCGCGGCGGGTGGACGCTACATTGACCCGGACCTTGCCGACCGCATGGTCTTCGAAGTGGGCCTGACCGACACACGGCCGCTGCACTCCTTGCTGTCGGAGCGTGAATTCTCGGTTTTCGAACGCCTGGCCCAAGGTGCCAACGTCAACGACATCGCCCAGCAACTCGCCCTGAGCAGCAAGACCATCAGCACCCACAAGGCGCGGCTGATGCAGAAGCTCAACATCACCTCGTTGGCCGAGCTGGTGAAATACGCGATGGAGCACAAGTTGCTCTAA	MIRVLVAEDHTIVREGIKQLIGLAKDLVVAGEASNGEQLLETLRHVPCEVVLLDISMPGVNGLEAIPRIRALNNPPAILVLSMHDEAQMAARALKVGAAGYATKDSDPALLLMAIRKVAAGGRYIDPDLADRMVFEVGLTDTRPLHSLLSEREFSVFERLAQGANVNDIAQQLALSSKTISTHKARLMQKLNITSLAELVKYAMEHKLL	PGPT0017180_34	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_HEXOSE_PHOSPHATE_UPTAKE_SENSING,PGPT0017180-uhpA-K07686	NA	NA
D1-35_05161	1125	btuD_11		Vitamin B12 import ATP-binding protein BtuD	ATGAGCCAGGTGGATTCAAGCGCGGGGGCCAGTGATGTGCTGGTCAGCTTTCGTGGTGTGCAAAAGAGCTACGACGGCGAGAACCTGATCGTCAAGGACCTCAACCTGGACATTCGCAAAGGCGAATTCCTGACCCTGCTCGGGCCTTCCGGCTCCGGCAAGACCACCAGCCTGATGATGCTCGCAGGCTTCGAGACCCCGACCGCCGGCGAGATCCAGCTGGCCGGGCGCTCCATCAACAACGTGCCGCCGCACAAGCGCGATATCGGCATGGTGTTCCAGAACTACGCCTTGTTCCCGCACATGACCGTCGCCGAAAACCTGGCATTCCCGCTGACCGTCCGCGGCCTGAACAAAAGCGACGTCGGCGATCGGGTCAAGCGTGTCTTGAGCATGGTCCAACTGGACACCTTCGCCCAACGTTATCCGGCGCAGTTGTCCGGCGGCCAGCAACAACGTGTGGCCCTGGCCCGGGCGCTGGTATTCGAGCCGCAACTGGTGCTGATGGACGAACCTCTCGGCGCACTGGACAAGCAATTGCGCGAACACATGCAGATGGAAATCAAACACCTGCACCAGCGCCTGGGCGTGACGGTGGTCTACGTGACGCACGACCAAGGGGAAGCCCTGACCATGTCCGACCGCGTGGCGGTGTTCCACCAGGGCGAGATCCAGCAGATCGCCCCGCCGCGCACGCTCTATGAGGAGCCGAAGAACACCTTCGTCGCCAACTTCATCGGCGAGAACAACCGCCTCAACGGCCGCCTGCACAGTCACACCGGTGACCGTTGCGTGGTGGAGCTGGGGCGTGGCGAAAAGGTCGAGGCCCTGGCGGTCAATGTCGGCAAGCCCGGCGAACCCGTCACCTTGTCGATCCGCCCGGAGCGGGTGAGCCTCAACGGCGCCAGCGAACAATGTATCAACCGCTTCTCAGGGAGGGTGGCGGAATTCATCTATCTGGGCGACCACGTCCGGGTTCGCCTCGAAGTCTGCGGCAAGAACGACTTCTTCGTGAAACAACCGATTGCCGAGCTCGACCCCGGGCTTGCTGTCGGGGACGTGGTTCCGCTTGGCTGGCAGGTCGAGCACGTACGCGCGCTCGATCCGCTTCTAGAGGCGAATTGA	MSQVDSSAGASDVLVSFRGVQKSYDGENLIVKDLNLDIRKGEFLTLLGPSGSGKTTSLMMLAGFETPTAGEIQLAGRSINNVPPHKRDIGMVFQNYALFPHMTVAENLAFPLTVRGLNKSDVGDRVKRVLSMVQLDTFAQRYPAQLSGGQQQRVALARALVFEPQLVLMDEPLGALDKQLREHMQMEIKHLHQRLGVTVVYVTHDQGEALTMSDRVAVFHQGEIQQIAPPRTLYEEPKNTFVANFIGENNRLNGRLHSHTGDRCVVELGRGEKVEALAVNVGKPGEPVTLSIRPERVSLNGASEQCINRFSGRVAEFIYLGDHVRVRLEVCGKNDFFVKQPIAELDPGLAVGDVVPLGWQVEHVRALDPLLEAN	PGPT0007860_421	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
D1-35_05162	1044			hypothetical protein	ATGTTGAGATCCCTGAAGTTCACAGCCCTGACATTGGGCATGATGGGTGCGGCAAGCGCGATGGCGGCGGGCCCGGACCTGACCGTCGTGTCTTTCGGCGGGGCGAACAAGGCGGCTCAGGTCAAAGCCTTCTACGCACCGTGGGAAGCGGCTGGCAACGGCAAGATCGTGGCTGGCGAATACAACGGCGAAATGGCCAAGGTCAAGGCCATGGTCGACACCAAGAGCGTCTCGTGGGACCTGGTGGAAGTCGAGTCGCCGGAATTGTCCCGTGGCTGCGACGAAGACATGTTCGAGCAACTCGATCCGGCCCTGTTCGGCAAGGCCGAAGACTACGTCAAAGGCGCCATTCAGCCTTGCGGCGTGGGCTTCTTCGTGTGGTCGACCGTGCTGGCCTACAACGCCGACAAACTGAAGACCGCGCCGACCAGTTGGGCGGACTTCTGGGACACCAAGCAATTCCCGGGCAAACGCGGCCTGCGCAAAGGCGCCAAGTACACCCTGGAATTCGCCTTGATGGCCGACGGCGTAGCGCCGAAGGACGTCTACAAGGTGCTGGCCGGCAAAGACGGCCAGGACCGTGCGTTCAAGAAGCTCGATGAGCTCAAGCCGAACATCCAGTGGTGGGAAGCCGGTGCCCAGCCACCGCAATACCTTGCTTCCGGTGACGTGGTCATGAGCTCTGCGTACAACGGCCGGATCGCCGCGGTACAGAAAGAGAGCAACCTGAAAGTGGTGTGGAACGGCGGCATCTACGACTTCGACGCCTGGGCCATCCCGCGTGGGCTGGACAAGACTCGCGCCGAAGCTGCGAAAAAATTCATCGCCTTCTCGGTGGCGCCGCAGCAGCAGAAGACCTACTCGGAAAACATCGCCTACGGCCCGGCGAATACCCAGGCCGTGCCGTTGCTGGCCAAGGATGTGCTGAAAGACATGCCGACCACCCCGGAAAACATCGCCAACCAGGTGCAGATCGACGTCAGCTTCTGGGCTGACAACGGCGAGCAACTGGAGCAGCGCTTCAACTCCTGGGCGGCGAAGTAA	MLRSLKFTALTLGMMGAASAMAAGPDLTVVSFGGANKAAQVKAFYAPWEAAGNGKIVAGEYNGEMAKVKAMVDTKSVSWDLVEVESPELSRGCDEDMFEQLDPALFGKAEDYVKGAIQPCGVGFFVWSTVLAYNADKLKTAPTSWADFWDTKQFPGKRGLRKGAKYTLEFALMADGVAPKDVYKVLAGKDGQDRAFKKLDELKPNIQWWEAGAQPPQYLASGDVVMSSAYNGRIAAVQKESNLKVVWNGGIYDFDAWAIPRGLDKTRAEAAKKFIAFSVAPQQQKTYSENIAYGPANTQAVPLLAKDVLKDMPTTPENIANQVQIDVSFWADNGEQLEQRFNSWAAK	PGPT0007855_3941	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
D1-35_05164	708			hypothetical protein	ATGCTAGAGCCCACTGCCGTGCTGTTGGCCCACGCCAACGGCACTCCCGCGTCAACCGCATTCACCGGCGGCTCATTGGGAGCCAACGATCCGTTCGACAGGCAGATTGCCTATCTCGGGACCCAAGACATTGCTGCCGGTATCGTCCAGGCGAGCGGACAGTTCAGCGTCGATGCATATCCCTACAGTGAAACGATCGTGGTCCACGCCGGACAAGTCATTCTGCAAAGCGAGGAACACTCGCTGCAACTTGATCCGGGTGACAGCGCGGTAATTGCCCGCGGCACATCGATTCGGATCGAGGCGCAACCTGGTTCGCTCTGGGCATTCTGCGCCGATACCCAGCCTGTTGAAGCGGGCAACGTCGGAGTGACCGCTCTCCCCAAGCACACCCTCCTCGCGCCCTCGACGCCACCGAGTGAAGAATTCCTGCTGAGCCCGACACCACAATGTCGCTCGAACAATTTGTTCGTCGAGGACACGACAAACCTGCGCATCGGCGTCTGGGATTCGACGCCCTATAACCGCAGGGCAAGGCCGCACACGATGCACGAACTGATGCACCTGATCGAGGGCAGCATCATTCTCCAGCTCGGCGATGGGCCGGGGTTGGCGGTGAATACTGGCGATACGGTGTTTGTGCCCAAGGGGGCTCCTTGCGCCTGGAAGAGCAGCGTCTATGTGCGCAAGTTTTATGTTTGCAAGTGA	MLEPTAVLLAHANGTPASTAFTGGSLGANDPFDRQIAYLGTQDIAAGIVQASGQFSVDAYPYSETIVVHAGQVILQSEEHSLQLDPGDSAVIARGTSIRIEAQPGSLWAFCADTQPVEAGNVGVTALPKHTLLAPSTPPSEEFLLSPTPQCRSNNLFVEDTTNLRIGVWDSTPYNRRARPHTMHELMHLIEGSIILQLGDGPGLAVNTGDTVFVPKGAPCAWKSSVYVRKFYVCK				NA	NA	NA	NA	NA
D1-35_05165	858			hypothetical protein	ATGTCCAGTTCGCAACGCCCGACGTATGCCTATCGCCCCATGACCGCTGCCGATGTGGCAGCGGCCCATGCCTTGTCCGTGCAGTTGAAGTGGCCCCATCGCCTGGAGGACTGGGCCATGCTGCAGCGCGTCTCGCAGGGTTTTGTCGCCGAGGACCACGGCCGCCTGATCGGCACCGCATTCACCTGCCCGCAGGGTGATTACGCCACGATCGGCCTGGTGATCGTCAGTGACGAATACCAGGGCCAGGGCATCGGTCGCAAACTGATGGAACTGGCACTCCAAGCGTGTGGAACGCAGACCGCCATGCTCAACGCGACGCTGGCCGGGGCGCCTCTTTATGCCAGCCAGGGATTCGTTGACTTTGGTCATATCCAACAACATCAGGGGAACGTATCGCCCCCGGCCCCCAAGGACCTGCCATCCGGCGAACATTGCCGCCGCCTGACCAAGGCCGATCAAACCGACCAGATCGAACTGGCCAATGCCGGCAGCGGCCTGGACAGGCGCGCCGTGCTCGGTGACTTGTTCGACTGTGTCGAAGAGGCGGTTGGTATCGAGCGCGATGGTCAGCTGCGCGCATTCGCCATCCTGCGTCCATTCGGTCGTGGTCGTTACATCGGCCCGGTCGTTGCAGAAAATCCACAGCAGGCCGAGCACTTGATCGCAGTGCTGTTGGCGCAGGTGCCGGATGCTTTCGTGCGCATGGATGTACCGTCCGACAGCGGCCTGGGTCCGTGGCTGGAAGAAGCCGGGCTGAAGCAGGTCGACACCGTCGCCCAGATGGTCCGTGGTTCCCCGCCCCAGGCCAGGGGCGGCGTAAAGCAGTTTGCGCTGGTGACCCAGGCCATCGGCTGA	MSSSQRPTYAYRPMTAADVAAAHALSVQLKWPHRLEDWAMLQRVSQGFVAEDHGRLIGTAFTCPQGDYATIGLVIVSDEYQGQGIGRKLMELALQACGTQTAMLNATLAGAPLYASQGFVDFGHIQQHQGNVSPPAPKDLPSGEHCRRLTKADQTDQIELANAGSGLDRRAVLGDLFDCVEEAVGIERDGQLRAFAILRPFGRGRYIGPVVAENPQQAEHLIAVLLAQVPDAFVRMDVPSDSGLGPWLEEAGLKQVDTVAQMVRGSPPQARGGVKQFALVTQAIG				NA	NA	NA	NA	NA
D1-35_05166	927	ghrA_2	COG0111	Glyoxylate/hydroxypyruvate reductase A	ATGGCCCTGTTGTATAAAGCCGACCCGGTACGCGGTGAACAATGGAAACGTCTATTCGCCGAGCACGCTCCGGACATCGAATGGCGCGCCTGGCCGGACATCGGCGACCCGAAGGACATTCGCTTCCTCGCCGCCTGGCAGGCGCCGGATGACCTCGAAACACTCTTGCCGAACCTGCAAGTGCTGTTCGCTTTGTCGGCCGGGGTCGATCAGCTTGATCTTGATCGCTTGCCCACCTCCCTGCCGGTGGTCCGTCTCCTCGATCCAGGCATCACCCGGGGCATGTGCGAGTACGCCAGCTTCGCCGTGCTCAGCCTGCACCGGGATATGCTCCGTTATCGCCAGCAACAGATTGCCCGATGCTGGCAGGCGCACTTGCTGCAACCGGCGGCCCAGCGTCGGGTCGGGGTCATGGGGCTTGGTATGCAGGCCCGGCAGATCCTGGCCACCTTGCAGACCTTTGGTTTCGCCTTGTCAGGTTGGGCACGCAGCGAGCATCACATCGCCGGGGTGAATTGCTTTGCCGGTGATGAACAGCTCCCGGCTTTCCTCGGCCAATGCGACATCGTCATTTGCGTGCTGCCATTGACCGAGCAGACCCAAGGGATTCTCAATCGCCAATTGTTCAGGCATCTGCCCAAGGGTGCTGCCCTGGTCAACATGGGTCGTGGCGGGCATCTGATAGAAGAGGATCTGCTCGAGGCCCTGGCCAGCGGTCAAATCAGTGCGGCGGTGCTCGACGTCCTGCAACAGGAGCCGGCAGCGCCGGATCACCCGTTCTGGCAGCATCCGCAAATACTGCTGACGCCGCATATCGCGGCGATGACTCAACCCGAAAGTGCCTTCGGCGTGTTGCTGGACAACATCCGTCGGCATCAGCGCGGTGAGTCGATGCTCGGCCAGGTTGACCGCCAGCGATGTTATTGA	MALLYKADPVRGEQWKRLFAEHAPDIEWRAWPDIGDPKDIRFLAAWQAPDDLETLLPNLQVLFALSAGVDQLDLDRLPTSLPVVRLLDPGITRGMCEYASFAVLSLHRDMLRYRQQQIARCWQAHLLQPAAQRRVGVMGLGMQARQILATLQTFGFALSGWARSEHHIAGVNCFAGDEQLPAFLGQCDIVICVLPLTEQTQGILNRQLFRHLPKGAALVNMGRGGHLIEEDLLEALASGQISAAVLDVLQQEPAAPDHPFWQHPQILLTPHIAAMTQPESAFGVLLDNIRRHQRGESMLGQVDRQRCY	PGPT0019465_1336	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0019465-ghrA-K12972	NA	NA
D1-35_05167	1293	gabT	COG0160	4-aminobutyrate aminotransferase GabT	ATGAACAGTAAAGTCGAAGAAACCCCGAGCCTGCTCCTTCAACGCGATCAATTCGTGCCACGAGGGTTGGTCACCGCGCATCCGCTGGTCATCGACCGGGCCCAGGGGGCAGAGGTGTGGGACGTGGACGGGGCGCGTTATCTGGACTTCGTCGGCGGCATCGGCGTGTTGAACATCGGTCACAATCACCCGAAGGTGATCGCGGCGGTGCAGGCTCAATTGCAGAAAGTCAGTCACGCGTGTTTCCAAGTGGTGGCCTACAAACCGTATATCGATCTGGTCAAGCGCCTGTGTGCCTTGGTGGGTGGGCAGCAAGCCTGCAAGGCGGCGCTGTTCACTTCCGGCGCGGAAGCGGTGGAGAACGCGGTGAAGATCGCCCGCGCGCATACCAATCGTCCCGCCGTCATTGCCTTCCGGGGCGGTTTCCATGGGCGTACTTTACTGGGTACGACGCTGACGGGCATGAGCCAGCCCTACAAGCAGAACTTCGGACCTCTGGCGCCGGAGGTCTTCCATACGCCATACCCGAATGCCTATCGCGGTTTCAGCAGTGAGATGGCGTTGCAGGCACTCAACGAATTGCTGGCGACCCAAGTCGCGCCGGATCGGGTCGCGGCGATTATCATCGAGCCGGTGCAGGGCGATGGAGGCTTCCTCAGCGCTCCACCAGAATTTCTCCAGGCGCTGCGAGCCTTGACCGAACAGCACGGCATCGTGCTCATCCTCGACGAAATCCAGACCGGCTTCGGTCGTACCGGCAAATGGTTCGGTTTTCAGCACGCCGGCATCCAGCCGGACCTGGTCACCGTCGCCAAGAGCCTGGCCGGTGGTTTGCCCATCTCGGCTGTGGTGGGGCGCGCGCACATCATGGACGCGCCACTGCCCGGTGGCCTTGGCGGCACCTACGGCGGTAACGCCTTGGCGTGTGCCGCGGCATTGGCGGTGATCGAGGCTTATGAGCAGGAGCATCTGCTCGAGCGTGGCCTGGTCCTGGGGGAGCGGCTGCGTCAGGGCCTGCTGCGCTTGCAGGCCCGCCACCCGCGCATCGGTGATGTGCGCGGCACCGGCTTCATGCTGGCAATCGAATTGATCAAGGATGATCAAGCCCGCAGCCCGGATGCCGAGCTCACCCAGCGCCTGATCGATCAGGCAAGGATTGGCGGGCTGCTGGTGATCAAATGCGGGGTGTACCGAAATGTCCTGCGCTTCCTCGCTCCCCTGGTCACCGAAGAAAGTCAGATCGACGAAGCACTGGCCATCCTTGAAGCCGCATTGCAGCGGGTAATGGATTAG	MNSKVEETPSLLLQRDQFVPRGLVTAHPLVIDRAQGAEVWDVDGARYLDFVGGIGVLNIGHNHPKVIAAVQAQLQKVSHACFQVVAYKPYIDLVKRLCALVGGQQACKAALFTSGAEAVENAVKIARAHTNRPAVIAFRGGFHGRTLLGTTLTGMSQPYKQNFGPLAPEVFHTPYPNAYRGFSSEMALQALNELLATQVAPDRVAAIIIEPVQGDGGFLSAPPEFLQALRALTEQHGIVLILDEIQTGFGRTGKWFGFQHAGIQPDLVTVAKSLAGGLPISAVVGRAHIMDAPLPGGLGGTYGGNALACAAALAVIEAYEQEHLLERGLVLGERLRQGLLRLQARHPRIGDVRGTGFMLAIELIKDDQARSPDAELTQRLIDQARIGGLLVIKCGVYRNVLRFLAPLVTEESQIDEALAILEAALQRVMD	PGPT0007660_1138	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007660-gabT-K07250	NA	NA
D1-35_05168	657			hypothetical protein	ATGCACCTGACTGATTATCGTGCGCTGCTGATCGATTGCGACGAAGTCCTGGTCGATCGGGATTCCGGTGTCTGGACGGCCCTGCAACCCTTGCTTGAAAACCGTCCGGGCATGCCGGGCAAGGAGCAGGTATTGGCGGAATTCGACGAGGCGGTACGTGGGCTCTATCCACGCTTTTCCGATCTCGGCTTCAGCGGCTTGTTGTGTTTTGCCCATCGCCAGTTGGCGGAGCGCCTGGGGCTCAAGGTCAGCTGGGAAGAGGGCATGAGCTTTGCCCGTTCGGCCTGCAACTGGTCGCTGTTCGAGGACGCACCGGGTGCCATGTTGTATTTGCGCAAATTCTACCGGTTATTGGTTTACTGCGATCGTGATGCCGAGGATCGCGACCAGCTCTGCGAGCGCTTGGGAATTCCACCCGAGGACCTGCATTCGCGAGCCAACAATCCACTGGAGGATGAGGCATGGTTGCTGCAGAACCAACTCGAGCCTGGAACGATCATGCAAGTGTCCAGACCGCCCGCACAACCGCCAAAATCGGCTGGCCTGTGCCTGATTCGCCGTGGCCATGAGCCTGAAAATCAAGAATATTCCGCCGACTTCTACATCACCAGCATGGCCGACCTCGTCGCTCAGCATCAGCTATCTTTGCGCCGTTGA	MHLTDYRALLIDCDEVLVDRDSGVWTALQPLLENRPGMPGKEQVLAEFDEAVRGLYPRFSDLGFSGLLCFAHRQLAERLGLKVSWEEGMSFARSACNWSLFEDAPGAMLYLRKFYRLLVYCDRDAEDRDQLCERLGIPPEDLHSRANNPLEDEAWLLQNQLEPGTIMQVSRPPAQPPKSAGLCLIRRGHEPENQEYSADFYITSMADLVAQHQLSLRR	PGPT0006885_2608	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
D1-35_05169	420	lrp_7	COG1522	Leucine-responsive regulatory protein	ATGACCAATGTCAGCCTCGCCGATGCCGTGGGACTTTCGTCCAGCCCTTGTCTGCAGCGGGTCAAGCGCCTCGAATCAGCCGGTTATATCTCCGGGTACAGGGCGCATCTGAACCTCGCAAAGATCACCGACTCGGTCACGGTATTTACCGAAATCACCCTCAGCGACCATAAACGGGAAGACTTCGCCAAGTTTGAATCGAATATTCGTCTGGTCGACGAAGTACTTGAGTGCCACTTGATCAGCGGCGGTTACGATTATCTGGTGCGCTTCATGACGTGCAGCATCCAGCATTATCAGGAAGTGGTCGAAGGGTTGCTGGACAAGAACATCGGTATCTCCAAATACTTCAGTTACATCGTCATCAAATCGCCGGTGCTCAAGGATGGAGTGCCGTTGCGCCGACTACTGCGCCATTAA	MTNVSLADAVGLSSSPCLQRVKRLESAGYISGYRAHLNLAKITDSVTVFTEITLSDHKREDFAKFESNIRLVDEVLECHLISGGYDYLVRFMTCSIQHYQEVVEGLLDKNIGISKYFSYIVIKSPVLKDGVPLRRLLRH	PGPT0014049_183	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014049-doeX-K15782	NA	NA
D1-35_05170	756	fabG_10		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAACAAGATCGCACTCATTACCGGCGCCAACCGTGGCCTGGGCCGCAATGCCGCTATTGCCATCGCTGAAAAGGGCAACGACGTCATCCTCACCTATCGCAACGGCGAGGCCCAAGCCCGGGACGTGGTCGGCGAAATCGAACGGCTCGGGCGCAAAGCCGTTGCGTTGAAACTCGATGTGAGTGACGTCTCCAGCTTCGGCACATTCGTCGCTACGCTTTCCGGCGCCCTCCAGCAAGGCTGGGGTCGAGCCGACTTCGACTTCCTCCTCAACAACGCGGGTCACGGCGCGATGGCGGCGTTTGCCGAAACCACCGAAGAGCAGTTCGATGAGCTGTTCAATGTGCACGTCAAAGGTGTTTTTTTCCTGACGCAGGCGCTCTTGCCACTGATCATCGATGGCGGTCGCATCGTCAACTATTCATCCGGGCTGACGCGTGTTTCCTTTCCCGGTTTCTCGGCGTATGCCGCCGCTAAAGGCGCGATCGAAACCCTCACGGTCTATATGGCCAGAGAGCTGGGCGGCCGTGGGATCACGGTAAATACGGTGGCCCCTGGTGCGATTGCCACGGACTTCCTGGGCGGCGCAGTGCGCGACATGCCGGATCTGAATGCGCAATTTGCTGGCATGACTGCCCTTGGCCGGGTGGGCGTCCCGGACGACATCGGGCCAATGGTTGCGAGCCTGCTGGCGGAGGACAACCGCTGGGTTACCGGGCAGCGCATCGAAGTTTCCGGCGGGCAGACAATCTGA	MNKIALITGANRGLGRNAAIAIAEKGNDVILTYRNGEAQARDVVGEIERLGRKAVALKLDVSDVSSFGTFVATLSGALQQGWGRADFDFLLNNAGHGAMAAFAETTEEQFDELFNVHVKGVFFLTQALLPLIIDGGRIVNYSSGLTRVSFPGFSAYAAAKGAIETLTVYMARELGGRGITVNTVAPGAIATDFLGGAVRDMPDLNAQFAGMTALGRVGVPDDIGPMVASLLAEDNRWVTGQRIEVSGGQTI	PGPT0003180_8318	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
D1-35_05171	915	hcaR_2		Hca operon transcriptional activator HcaR	ATGGAGCTGCGTCACCTTCGTTACTTCGTTGCCGTTGCCGAAGAGGGCAACCTGACCTCTGCCGCGACCAAACGTCTTCATACCGCGCAACCATCCCTTAGCCGCCAGCTGCGCGATCTGGAGTTGGAGGTTGGCGCGCAGCTGTTTGTCCGCAAGGCCAGGGGCATCGAACTGACGCCGGCCGGAATAGCGTTCCTGGATCAGGCCAGGCTTGCGCTCAGTCATGCCGAAGAAGCCGTGGCGGCGGCTCGGCGAGCGGCAAGGCCGGCGAAGAAGGTGTTCTCGGTGGGCTTTCTGACAGGGCAGGAGGTGGACTGGCTGCCCAGCGTGACGCGCTTGCTTCGACATGACCTGCCCAACATCGAATTCAAGGTCATCAGCTTGCAATCGCCCTCGCTGGCCGACGCTATCCAACGTGGCGACGTCGACCTTGGCTTTCTGCGCGTGGAGCCGCGGCCGGATGTCAGTTATGAGGTTGTCGCGAAAGAGCCATTGCTGGTCATCATGCCGAACGACCATCGCCTGGCCTCGGTGGGCGATGTCGATCCTGCCGAGTTGGCGAGCGAGACGTTCATCGGCTGTTCGGAGATTCCCCATGTACTACGCGATGTCATCGCGCAGTATTTCGCCAGTTGCAACGTGCAGGTCAACGCCTCCTACTGGCTGGACGACTACGGCACCGGGATCTCTCTGATCAGCTCCACGCGGGGCGTTGCCATCCTGCCAGCCTACGTGGAGCCGCTGCTGCCTTGGACGATCGTCAGCAGGCCGCTCAAGGGAACACGACCTACCATTGATCTGGCGGTGGGTTATCGGACCGACAATCCGTCACCTATCCTGAAAATGTTCCTTGAGAACATCGATCAGATAAAAGACGCAGGGCCGCTGGGCAATCGGCGCAGGACGGACAACTAG	MELRHLRYFVAVAEEGNLTSAATKRLHTAQPSLSRQLRDLELEVGAQLFVRKARGIELTPAGIAFLDQARLALSHAEEAVAAARRAARPAKKVFSVGFLTGQEVDWLPSVTRLLRHDLPNIEFKVISLQSPSLADAIQRGDVDLGFLRVEPRPDVSYEVVAKEPLLVIMPNDHRLASVGDVDPAELASETFIGCSEIPHVLRDVIAQYFASCNVQVNASYWLDDYGTGISLISSTRGVAILPAYVEPLLPWTIVSRPLKGTRPTIDLAVGYRTDNPSPILKMFLENIDQIKDAGPLGNRRRTDN				NA	NA	NA	NA	NA
D1-35_05172	432			hypothetical protein	ATGCAAGACATCTACCACCTGTCCCGCTTTGTCGAGGCCCAGAACCCGGTGTTCGATCGAGTCATGGACGAGTTACGCGCAGGCCGCAAGACGAGCCACTGGATGTGGTTCATCTTTCCCCAGGTGCAGGGCCTCGGGCGTTCCGAAATGGCCGCGCGCTTCGCCATCTCTGGCATTGCCGAGGCCCGTGCTTACGTTCAGCACGACGTGCTCGGCCCGCGACTGGAGGGTTGTGTGGAAACAGTTCTGCTGCATCACGGGAAGAGTGCCGGGCAGATCTTTGGCTCACCCGACGACCTCAAGTTTCGTTCCTGTCTGACGTTGTTCAGGAGCGTCCAACCGGGATCGTCCCTGTTCCAACAGGCGCTTGACCGGTTTTATTCGGGCGAGCCGGATCGCAAGACACTGCTGCTGCTTGAGCAACCGAGGTGA	MQDIYHLSRFVEAQNPVFDRVMDELRAGRKTSHWMWFIFPQVQGLGRSEMAARFAISGIAEARAYVQHDVLGPRLEGCVETVLLHHGKSAGQIFGSPDDLKFRSCLTLFRSVQPGSSLFQQALDRFYSGEPDRKTLLLLEQPR				NA	NA	NA	NA	NA
D1-35_05173	1224			hypothetical protein	ATGCGTAAGGATTACCTCGCTTTTTTCATTTCGTTGTTTCTGTCGCGGCTGGCGGATCAGATCCTGCTGTTCATCGTACCGCTGGTAGTGTTCCAGACGACCAACAGCGCATCCTGGGCCGGGCTGGCGTTTTTCGTCGAGTCGCTGCCGCGATTCCTCGCGTTTCCGTTGTGTGGCGCCCTGTGCGACAAGTACTCGCCCATCAAAATCCTGCATATCAGCCAGGTCTACCGGGCCCTGCTGTGTGTCCTGGCGATGGCGCTGCATGGGGTCTTTGGTGGTATCGCCTGGGTCGTCGTGCTGTCAGCGGTGTGCGGGGTACTGACCACCCAAGGCATCATGGCGCGCGAAGTGCTGATGCCGCACATCTTCCAGCACTACAGCTACACCAAGACCTTGTCTTACTCGCAGATCGCCGACCAGACCGGGCTGGTGCTCGGGCCATTGGTGGCGGCCCTGATGCTGGAAGTGTGGGCCTGGCATTGGGTGGTGCTGTGGATCGCCGGGTTGTTCCTGCTGGCCGATCTGAGCATGCTGGTCTGGCAACGCCTCAGCCGTATCACGCTTGAGGTTTTCGAGCAGCATCAGGACATCTGGTTGCAGCCGCTGCGGATTGCCTTCGGGCATATCCGTAACCTGGCGGAGCTGAAGAAAATCATCACCCTGGCGGTAGGCGTCAACCTGGTCGTGGGTGTCACCTTGGCCACCTCGGCGGCGATGGTGCTTGGCGAGTACAGCGCCGGCAAGGACGACTACGCGGGCCTGCAGGCGGCTGGCGCGGTGACAACGATCGTGATCCTGTTCTTTCTTGCCCGGGTCGCCCTGCCTCTGCGCGTCTCGGGAGGCGTCGGCTATTCGATGATCGCCGCGGGAGGCTTCATCAGTGCCCTGAGCCCGAACCTGGTCGGCTACGTCGTGGGCTTCCTGTTGATCGTCGGCTTCGACAAGATGTTCAACGTCTACATGCGCACGATCCGGCAACAGGTGATTCCGCCCAAGGATTTCGGCAAGACGGTGGGCGTGATCACTTTGCTCAACAACCTTTCGCAGCCGTTGGCCGGCTTGTTGGTAGCGGTGCTGGCGGCGCCCTTGGGCACGCAACCGGTAATCCTGATCCTGGCCGTGCTGGCCACGCTCCTGGGAGCCGCGGCGTGGTGGTGGTTTGCCAAGGCCCGAAGCCCCCTCACCGCCTCGATTCTGGCGGAGCAGGAAATCGGCAAGTGA	MRKDYLAFFISLFLSRLADQILLFIVPLVVFQTTNSASWAGLAFFVESLPRFLAFPLCGALCDKYSPIKILHISQVYRALLCVLAMALHGVFGGIAWVVVLSAVCGVLTTQGIMAREVLMPHIFQHYSYTKTLSYSQIADQTGLVLGPLVAALMLEVWAWHWVVLWIAGLFLLADLSMLVWQRLSRITLEVFEQHQDIWLQPLRIAFGHIRNLAELKKIITLAVGVNLVVGVTLATSAAMVLGEYSAGKDDYAGLQAAGAVTTIVILFFLARVALPLRVSGGVGYSMIAAGGFISALSPNLVGYVVGFLLIVGFDKMFNVYMRTIRQQVIPPKDFGKTVGVITLLNNLSQPLAGLLVAVLAAPLGTQPVILILAVLATLLGAAAWWWFAKARSPLTASILAEQEIGK				NA	NA	NA	NA	NA
D1-35_05174	387	ectC		L-ectoine synthase	ATGTTCATTCGCAACATATCCGAGGTCGAGAAAACCCCTTACTTCGTCGAGTGGGGCGCCGGCACGAGTCATCGCTTGCTCACTGAACGTGACGCCATGGGCTTTACGCTGTGCCATACCGTCGTGCGTGCAGGTACAGAGTCGCTGTTGCAATACCGCAATCACCTGGAGGCCTGTTATTGCATTGCCGGAGAAGGTGAAGTCGAAGACATGCACGGCAATGTCTTTGCGATCCGGCCTGGCGATGTCTACGTGCTCGATCAGCATGACCGGCATTTCCTGCGCGGAGGCAAGGACCAGGACCTGATCCTGGTCAGCGTCTTCAATCCGCCACTGCGCGGTGACGAACGACACAATCTCAACGACAGTTCAGGGTCGGCCTACTGA	MFIRNISEVEKTPYFVEWGAGTSHRLLTERDAMGFTLCHTVVRAGTESLLQYRNHLEACYCIAGEGEVEDMHGNVFAIRPGDVYVLDQHDRHFLRGGKDQDLILVSVFNPPLRGDERHNLNDSSGSAY	PGPT0014060_583	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014060-ectC-K06720	NA	NA
D1-35_05175	1182	hsaA		Flavin-dependent monooxygenase, oxygenase subunit HsaA	ATGCTTGAGCTTGCCGAGCAGGCGTTCCATCCGGCCGCACAACCCTCGCTGTGTCAGCGGGCCGTCGAGCACTTGCCCGGCTGGCGCGAGCGGGCCGCCACGGCTGAAGCGAATCGACGGCTGAGCAACAGCACCTTCGACGAATTGTTTGCCGGCGGCTGGCTGGATCTGTTGACGCCGCGCGCGCCGGTGACGAGCAGCGGACACTGGCCCACATTGGTGGAAAGCGCGCGGATCGCCGCGCGGGCGTGCGCCTCCACGGGCTGGATGCTCGCGCTGGTGGGCGGCCACGGCGCCATCGCCCGACGACTGCCGCCTGCCTGCACGGACCAGCTCTACACCGACGGCCCACGACAGCTCTTCGCCTCAGCCTCCGTCAGTGCCGATAGCCGGCTGACCTTTGACTCCGCCGGGGTACGGATCGATGGGCGCTGGCGCTTCGGTTCAGGGATCGATGACGCGACCTGGCTGATGCTCAACGCCCCCTGCCCCAACCACCCGGACGCGGCTCACACCCCACGTTTCCTGGTGCTGATCGCCGCCGATGAAGTCGAAAGACTCGACAGCTGGGACAGCTGTGGTATGGCGGCGACCGGCTCCCATGACGTACTGACCCGCCAATTGCTGGTGCCGCATGCTCGCGTATTCGCGCTGCATGAAGTGTTTGCGCAGGCCACGCATGCACCGGCGTCCGACTACATCGACCGTATGCCCCTGGTGCCTTACCTCACCACGTCGATCGTCGGTCCGCTGCTGGGGTGCGCCGAGGGTGCTCTTGGCGCGTTTGTCACTGGGCTCAACGGTTCGTTGGCGGTGAGCGATCCGCGGATCGCCGAACAGGCCGCCCACTCGGCAGCACAGCTGTACAGCGCCGGGTTGTTGTATGACTCGCTGATCACCCGACTGCATGACGCCGGTATGAATGACCGGCCGCCAGATACGCGACAACTGATGCAACTCAAGCGCGACCGCGCCTATCTGGCAGGCCAGTGCGTGCAGGCCGTGCGCCGTCTGGTGGAAAGGCTCGGTGCGTCGTCCCTGGTCGCCGGCAACCCGCTCCAGCGTCACTGGCGTGATATCCAGGCCATGGCCGCGCATCGAGACGTTGCCTGGAACGAGGCGATGCTGGCCAGCGGCGATGCGCTGCTGCGGCCCGTCGCCGCCGGCACTGCAAAGAGCTGA	MLELAEQAFHPAAQPSLCQRAVEHLPGWRERAATAEANRRLSNSTFDELFAGGWLDLLTPRAPVTSSGHWPTLVESARIAARACASTGWMLALVGGHGAIARRLPPACTDQLYTDGPRQLFASASVSADSRLTFDSAGVRIDGRWRFGSGIDDATWLMLNAPCPNHPDAAHTPRFLVLIAADEVERLDSWDSCGMAATGSHDVLTRQLLVPHARVFALHEVFAQATHAPASDYIDRMPLVPYLTTSIVGPLLGCAEGALGAFVTGLNGSLAVSDPRIAEQAAHSAAQLYSAGLLYDSLITRLHDAGMNDRPPDTRQLMQLKRDRAYLAGQCVQAVRRLVERLGASSLVAGNPLQRHWRDIQAMAAHRDVAWNEAMLASGDALLRPVAAGTAKS	PGPT0006695_242	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STEROID|DERIVATE_DEGRADATION	XENOBIOTIC_ADROSTENEDIONE_DEGRADATION,PGPT0006695-hsaA-K16047	NA	NA
D1-35_05176	1029			hypothetical protein	ATGAAAATTTCCCCGCAGTCCATGGATGACACCGACCTCGACCGGGACCTGCAAAAAAGCGCCATGCTCAAGCTCGCCGGGCATTTCCACAGTCTGGCGACAGGCGCCAGCCAGGTGCCCATGCAGTCTCTTGGCAGCCACTTGCGCGCCGAGATTCAGGATCCACTGGTTCTCGATTACCACGATCGCCTGATCGAAGGGGCAGGACCGTTGTTCTCCCACTTTCTGGCCAGCGTGCCGTACATTCTCGAGGAGTTGTCCAGGATCGGCGCAGCCCTGACCCGCCTGGCCGAGGCCAATACCCGAGAAACAGGCCAGACCTTCAGTCTGTTCGAAGTGGACGCCTTTGATGGCAGTAACGGCCGCGCCGTTGCTGGCCATTCCAATGGACTGATCCGCAGTTTCACCTCATCGCCGAATCGGGCCAACCAGGTTGCCTTCGACCGGTATGCCGACCCGGCGCTGTCGCGGTTCTATCCGCAGTCGGTGTTCAAGGTGACACCGGACCTGCTGCAGCAACCCGAATACAGGCTTTTCAGCCAGGGCTTCGACTTCATTTACGAGATGGCCGCGTTCCAGTTCTACAGCCGCGACCGTGACCGCCAGATCGCCCATATCCAGCAATTTCTCAAGCCTGGCGGCCTGGTGTTTTTCGTTGAAAAGCTTAACCACCCGGACCCGGAGGAATACCTGCGCAGGGAACGGGTCAAGGATGAGCAATTCAAGACCCGCTACTTCAGCGAGGAAGAAATCCACTGGAAACGCCAGCAGATGCTTGAGCAAATGCAGAATGGCCAGGTCACCTTCGAAGAATTGGCAAGCGCCCTGTGCGCCCGGTTCAAGTGCGTCCATCTGTTGTGGAACAGCAGCAATTTCTGTGAGTTCGTCGCCTCCGACGATCCACAGCAAATCGAGCGCTTGGTTCGGCTGTTGGGCCCGGTGGTGCAGCCTGCGGACTTCTGTTTCGAGGGCTCGCGCCTGGGCGCCGTGGCAACGCTGCGCAGTGCCGGGGGGCCAGACGATGCTTGA	MKISPQSMDDTDLDRDLQKSAMLKLAGHFHSLATGASQVPMQSLGSHLRAEIQDPLVLDYHDRLIEGAGPLFSHFLASVPYILEELSRIGAALTRLAEANTRETGQTFSLFEVDAFDGSNGRAVAGHSNGLIRSFTSSPNRANQVAFDRYADPALSRFYPQSVFKVTPDLLQQPEYRLFSQGFDFIYEMAAFQFYSRDRDRQIAHIQQFLKPGGLVFFVEKLNHPDPEEYLRRERVKDEQFKTRYFSEEEIHWKRQQMLEQMQNGQVTFEELASALCARFKCVHLLWNSSNFCEFVASDDPQQIERLVRLLGPVVQPADFCFEGSRLGAVATLRSAGGPDDA				NA	NA	NA	NA	NA
D1-35_05177	1542	lcfB_2	COG0318	Long-chain-fatty-acid--CoA ligase	ATGCAGCTTTTCCATCAGGTTATCGCCAGCAATGCAAAAAAATACCCGTCCAAGCCAGCCATCATCCTCGACGGGCAAGCGACTTCCTATCAGCAACTGCAGCAGCGCGCGGATGACATTGCCTCGGTGCTCCCCCTGCTCGGCATTGCTCCCGGTGACCGGGTGGGCCTGTACGCGCCCATTTCCGTCGATTTGATCGCAGGTTATCTGGGCCTGCTACAGGCTGGAGTGATCAGCGCAGCGACGCACCACACCTTGAGTCGTACCAAGCTGATCCATCAGCTCAAGCACTCGGGCGCCCGGGTACTGATCACCGACTGCACGGATGACTTGCCTGGCCTGATTGACGAGGCTGGCCTGGAACTGGTCCTGCTTACCGTTCCAGCCCAGGTTGCGGTGCCCAAGGTCATGCAGCTTGCCGATGCCGTCGCTGCGCTCGGAGGAAAGAAGGCCGCGCCCTCCTCTGCGTTGCCCGCTGACCCTGAACGTCCCACCTCGATCTTTTATACCTCTGGGTCATCCTTCAATCCGAAAGGCGTGCTCGTCAATCACCGCATCATGTTGGCGGCCTGTGGCCGGGTGACTGCGTATCTGCAAAACATCCCTGATGATCGTGTCCTCAGTTATTCCACGCTGGCATCCGACTACGGGGTGTACAACGTGATGATGCCGCTGTATGCCGGGGCCACCAGTGTCATCGAGAGCCGGCCGGCCAGCAGCGCCGAGGAGGTGCTCGCGGTGGTCGAACGCGAGGGGGCCACGGCAATGCATGTGTTTCCCCCGGTGTTCTTCCTGTTGGCCAATACCGGCCCGCACTGGCAGGCGCGCGTGCCTGGCTTGCGCTACATCTCCAGCAGCGGGCAGGCCCTCTACAGTCGTCATATCCAGCGGATCCGCGAAGCACTGCCCGCGGTGCGGATTTTTTCCAACTACGGGCTCACCGAGTGCAAGCGCGTGAGCTACCTGCCGCCCGAAGAAATCGACCAACGACCGACCTCGGTGGGTAAGCCTTTGCCGGGAGTCAGCGTGTACCTGGTAGACGAACAGGGCCTGCGTATCGAGCAGCCTGGACAAACAGGCGAGTTGCTGGTGACCAGCGACTACCTGATGCTCGAGTACTGGAACATGCCCGAAGCCAATGCCAGCGCCTTTGTCCATGATGCCTTCGGCCAATCACGACTGTATCGCACCGGGGACCTGTTCAAGCAGGACGCCGAAGGCTACCTCTACTACGTCGCCCGCAAGGACGACGTCTTCGCGCGCAATATCTGGAACGTCAATCCGCGAGAAATCGAGCAGTGCCTGGCCGCGCATCCAGCGGTCGCCGAGGTCCTCGTGGTTCCGGTTGCCGACGAGTCGGCCGGGCACGTGCCCAAGGCTTGCATCGTGCTTGATGCCGATCATCTCCAGACCAGCGAACAGGCATTGCTCGATCACTGCAAGGCGCATCTGGACTGGCACATGGTCCCGGCCCAGTGGGCATTCCTCAAGGCCTTGCCGAAAACCGATTCGGGCAAGTTCACCACCAAAGGACTGATCTGA	MQLFHQVIASNAKKYPSKPAIILDGQATSYQQLQQRADDIASVLPLLGIAPGDRVGLYAPISVDLIAGYLGLLQAGVISAATHHTLSRTKLIHQLKHSGARVLITDCTDDLPGLIDEAGLELVLLTVPAQVAVPKVMQLADAVAALGGKKAAPSSALPADPERPTSIFYTSGSSFNPKGVLVNHRIMLAACGRVTAYLQNIPDDRVLSYSTLASDYGVYNVMMPLYAGATSVIESRPASSAEEVLAVVEREGATAMHVFPPVFFLLANTGPHWQARVPGLRYISSSGQALYSRHIQRIREALPAVRIFSNYGLTECKRVSYLPPEEIDQRPTSVGKPLPGVSVYLVDEQGLRIEQPGQTGELLVTSDYLMLEYWNMPEANASAFVHDAFGQSRLYRTGDLFKQDAEGYLYYVARKDDVFARNIWNVNPREIEQCLAAHPAVAEVLVVPVADESAGHVPKACIVLDADHLQTSEQALLDHCKAHLDWHMVPAQWAFLKALPKTDSGKFTTKGLI	PGPT0008380_13609	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
D1-35_05178	681	COQ3_3		Ubiquinone biosynthesis O-methyltransferase, mitochondrial	ATGAAAATAGTAGACAGTTCGGTTCTGAAGGAATGGTATGACAGCGAATACAGCGCCTGTAATAACGGTGCTTTATTTGGTGAACTACGCGAAGAGTTCAAACAGTTTTTATCCACCCTGCCTGACGGCCCCGGCGATGCCCTTGAGCTCGGCTGCGGAGACGGTCGCAACCTTACCGCCCTGGCGCGCAAGGGCTATAGCCTGAGCGGCGTGGACATGGTCGACAGCACGGTACAGAGTCGCAAGCTCAATCCCTGGCTAAAGGATCTGTATTTCCAGCAGGCAGATATTCTGACGTACGAGCCGTTGCGTGAAGGTTACGACGTACTGGTCTGTTCCGAAGTTCTGCATTTCTTCAATCAAGATGAACTTCAGACGGTAATGGCCAAGATTATCGGTGCGGTAAAGCCTGGCGGATATATTTTCCTTGATCTGTTATCGGACCTGTCGCGGTACTTTCAAGCGAGCGGAGAACCCTTCATCTGGGACAAGGAAGCGGGCTTGTCTGTCCAGGACAGCGAAGGGTTATTTGATGCCTGGCTGGGTGATTTCGACATTTATGCGTCGCGGCATTTTTTTGATAAGCAAAGTTGGCCATTAAGCAATTCGGCAAACTTGCCAATAGCTCCCTATACCTGGCAAGGCACCTACGTCTCGGTGTGTGCGCGAAAACGTAAATGA	MKIVDSSVLKEWYDSEYSACNNGALFGELREEFKQFLSTLPDGPGDALELGCGDGRNLTALARKGYSLSGVDMVDSTVQSRKLNPWLKDLYFQQADILTYEPLREGYDVLVCSEVLHFFNQDELQTVMAKIIGAVKPGGYIFLDLLSDLSRYFQASGEPFIWDKEAGLSVQDSEGLFDAWLGDFDIYASRHFFDKQSWPLSNSANLPIAPYTWQGTYVSVCARKRK	PGPT0004925_339	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TELLURIUM_RESISTANCE	TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004925-tehB-K16868	NA	NA
D1-35_05179	615			hypothetical protein	GTGCAGAAACCCATTAAAACCGCTACAGGCAACTCCCCTTCCCGCCGACTCTCGAAAGCCGAACGGCGCCGGCAGCTGTTGGACACTGCGTTATTGATCGTGCGCGAGGAAAACGCCGACAGCTTGACCCTCGGCCGCCTGGCCGTCCGCGCGGGCGTTTCCAAACCGGTGGTGTACGATCATTTCGCTACCCGCTCGGCGCTGTTGATCGAGCTGTACAAATGGATTGATACCGAGCGGGTCCGCGCTTTTCGCGAGGCCATGAGCAGGACTGCGCGAAGCCCGGAGGAAACCGCTCAGGTCCTGGCCAGCGCCTATATTCAGTGCGCAGCAGACAACACCGATGAATTCCATGCGGTCGGCGCAGCCCTGGCCGGCAGTGAAGAGAAGGCGGCGGTTTTCCAGGAGCTGCTCGACAACTGCGTACGGATGTTCGTGAGCGTACTTGAGCCTCACGCGACGTTGGCAAGCGCAGAACTTGAGCGCTGCTGCACCGGTTTGGTCGGTGCGGGGGAAGCACTTGCCGGCGCCCTGGTGCGGGGACGACATGCCCAGGATGAAGTGATTGAAGCGTTCGCCGCGTTGATTCGCGGCGTGTTGAGTCCGCCTGAATAA	MQKPIKTATGNSPSRRLSKAERRRQLLDTALLIVREENADSLTLGRLAVRAGVSKPVVYDHFATRSALLIELYKWIDTERVRAFREAMSRTARSPEETAQVLASAYIQCAADNTDEFHAVGAALAGSEEKAAVFQELLDNCVRMFVSVLEPHATLASAELERCCTGLVGAGEALAGALVRGRHAQDEVIEAFAALIRGVLSPPE				NA	NA	NA	NA	NA
D1-35_05180	1002			hypothetical protein	ATGTCACTTGATCCTATCTTGTTCATGGGTGGTTCCGGCGCCATTGGTCACCAGACTGCCCGAGCGCTGCGCGCCGCTCATCCCGACGTACCGCTGTTGATCGGCGGCCGTGACCTTGCCAAGGCTCGGCAGGCCGCAGAGGAAATTGGCGGGGCGCAGGGTGTGGTGATCGATTCCACTGCGGACGATCTGGGACTTGGCGCTCGCCCGGTCAGCGGGGTTGTGGTCTTTTATATGGACCACGCGATGGCAGGATTGCGCTATGCACAAAAGCGCGGGGTGCCGCACCTCAGCATTTCTTCCGGCATTTTCGAGATCGCGCCGGAAATCGCCACATTCATGCACACGCCCGATGCTTCGCCCATAGTCCTGGGCTACGAATGGATGGCGGGCGCGACGACGGTGGCTACATTGAGCTGTGCCCAGGCGTTCAGCCGAGTCCAGCAGATCAGCATCAACGCGCTGGTCGATGAACAGGACACCGGCGGGCCGACCGTCGCCAGCGACTTTGAACACCTGAACAAAATGTTGCCCGCCGCGCTGACACGACGCGACGGGGTGTTCGTCTGGCGCGAAGGCAAGGACTCCAAGGCCAGCTTCCACGCTGTGGATGGTACGCAGATCGAGGCCTCAGGCTTTTCGTCGATTGATGTTGTCGGCCTGGCCACCGCCACAGGTGCGCCTGATGTTCAATTCAACATTGGCATCGGGGTCAGCTCAACCCGACGCCAGGGCGGGCCGATGTCCACCGAGATCATCATCGAACTCGCTGGCGAAGACCTCGAGGGCAAACCGCTGCGCACCCGCTATGCCGTCGTCCACCCAGCGGGTACCGCACCGCTGACCGGCCTCAGTGTGGCAATGCTCCTGGAGCGTCTGCTCGGTCTGGACGGCCTTCCCTCGACGCCGCCAGGGCTTTATTTCCCTTATCAACTACTGGACGCCAGCGCGTATCTGCGGCGTCTGGAGCAGGAGGGAGGTGAGCTTCGTCAGCTGCAATGA	MSLDPILFMGGSGAIGHQTARALRAAHPDVPLLIGGRDLAKARQAAEEIGGAQGVVIDSTADDLGLGARPVSGVVVFYMDHAMAGLRYAQKRGVPHLSISSGIFEIAPEIATFMHTPDASPIVLGYEWMAGATTVATLSCAQAFSRVQQISINALVDEQDTGGPTVASDFEHLNKMLPAALTRRDGVFVWREGKDSKASFHAVDGTQIEASGFSSIDVVGLATATGAPDVQFNIGIGVSSTRRQGGPMSTEIIIELAGEDLEGKPLRTRYAVVHPAGTAPLTGLSVAMLLERLLGLDGLPSTPPGLYFPYQLLDASAYLRRLEQEGGELRQLQ				NA	NA	NA	NA	NA
D1-35_05181	1251			hypothetical protein	ATGAACAATTCGCTGTCCCTGGTGATCGAGCAACACGTCGAAGAGGCCAGCTTCCTCGCAGCCCTGCGAGACTATGCGCTGCGCGCTCCGCACTACGACATCGACCACCTCGGCAAACTCGATAACCGCATCGACGCTCACCTCGATGGCTTGCGTATCGCCGGGCCAACCGGCCTGGAGATTCTGCTGGCCCAGCTCGGCCCCGACGCTGTCGGCGAGATGTTCGCCAGCGTGGTGCTGGCCTTCGAGGCGGCCGAGGCCAAGGTGCTGTCGCGGCTCAGCGAGCATCTGCGCAGTGCGGTAGAAACCGAGCGTGGTTATCTGATGGCCCTGGGGTGGCTGGACTGGGAGCGGCTGTCGCCCTGGATCGAGCGCATGCTCGCCGCTCCGGAGCCGCTGTTCCGTCGCCTCGGCCTGGCCGCCTGCGGCATGCATCGTCGTGATCCTGGCCCGGCCCTGCTTGCCGGGCTTTGCGAGGCTGACCCAAGCGTGCTGGCGCGTGCCGCGCGCACGGCTGGCGAGCTGCGACGTCGGGACCTGCTGTCGGAAATTCGCGCCCACCGTCTGCATGAGGATGCGACCACACGCTTCTGGGCCAATTGGGCCACCGCCCAGATGGGCGACCAGCAGGCCCTCGATCCTCTGCGTCAATTTGCCGAGCAACCGGGCGAGTTTCAGTATCGCGCGCTCTGCGTATTGTTGGCCTGGCAGGACCGCGAACCCAGCATCGCCTGGATACGCCAGTGCGTTCAGGATCCCAGGGACAGGCGTTTGGGCATCCAGGCCCTGGGACTGCTGGGCGATCCGGTCAGCATCCCGTGGTTGATACAGCAGATGAACGACCTGCCTTACGCCCGGGTCGCTGGCGAAGCTTTCAGCCTGATCACCGGCGCCGACCTGGCGCTACTCGACCTGGAGCTGCGCAGCTCACCGGACTTCGCGGCAGGGCCGAACGATGACCCTGAGGACTCGAATGTCGCCATGGACCCCGATGAAAACCTGCCGTGGCCCACCCCGTCGGCAATCGAAGCCTGGTGGCAGGCCAATGGCGGACAATTCCAGGCGGGGACTCGTTACATGCTGGGGCTGGCCCACAGCGAACGCAGTTTTGAGCAAGCACTCGTCCGGGGCCAGCAACGCCAACGCGTGGCCGCCGCCTGCGGCCTCGCCCGCTTTCGGCCGGATGAGGTGCTCTTTCCAACCAGTGCACCGGTGTTGCGGCAACAAAGACTCTTGAAAATTACCCCGTGA	MNNSLSLVIEQHVEEASFLAALRDYALRAPHYDIDHLGKLDNRIDAHLDGLRIAGPTGLEILLAQLGPDAVGEMFASVVLAFEAAEAKVLSRLSEHLRSAVETERGYLMALGWLDWERLSPWIERMLAAPEPLFRRLGLAACGMHRRDPGPALLAGLCEADPSVLARAARTAGELRRRDLLSEIRAHRLHEDATTRFWANWATAQMGDQQALDPLRQFAEQPGEFQYRALCVLLAWQDREPSIAWIRQCVQDPRDRRLGIQALGLLGDPVSIPWLIQQMNDLPYARVAGEAFSLITGADLALLDLELRSSPDFAAGPNDDPEDSNVAMDPDENLPWPTPSAIEAWWQANGGQFQAGTRYMLGLAHSERSFEQALVRGQQRQRVAAACGLARFRPDEVLFPTSAPVLRQQRLLKITP				NA	NA	NA	NA	NA
D1-35_05182	909			hypothetical protein	ATGAACCATGAAGACTCCCTGTTTTTTACCTGTGGCCTGATCGTCAACGCGGGCACACTCGTTATCCCTGCGCAGTACAACTCCCTGCCGGACGAACAGATGTCCCGGGTCGCATTCTGTTTCGATGGGAACTGGGTCTACAACGATGTAGACAATGATGTTATCGGGGCCGTCTGCTTCAGACACAGTGACAACAGCCTCTGGATGCTTGGTCGAAATGGCAACCTTCGTCATGTCAAATCCGGCTCGGCAGACTTCACGCTGGACAATATCCGCGGAAAGTTCGAAAACCACCGCATCGATACTGGCCGGCTCGGCGAGCTGCTTTGCATACGAGAAATCGAGAACGAGTTATATATCAGCGGCCAGTCATCACAGGTGTATCGCTACTTGAACGGTACCTGGGCGAATATCAGCCCTCCCGGAACGAAAGTAGGCTCGCCAACTCTGGAAAGCCTGGATGGCCTTGTTCACGCCGATATCTACGCCGTGGGTGAAAAGGGCATCATCCTGCACTACGACGGGTCACGCTGGAGCACGCTGGACTCCCCCACCAATCGCCCATTGTCATGCGTACGGTGCAAGAGTGAAAACGAGGTCTACGCATGCGGGAATGATGGGCTTCTGTTGGTTGGCAACCGCCATGGATGGCAAGTGATCGACACCGAGAGAACGATGAACTTCTGGGACATGGCGCTATACAACGGGCACCTCTACCTTTCCCATGTACACGGCCTCGTTCGGTATGACGGGCAAGACTTCGTCGATATCGATACGGGCATCGTCCCCGCTCCCGGCGCCCATAAACTGGATGCCCGAGACGGGTTGCTCTGTTCCTTTGGCGTGGACGACATACTCACGTTCGATGGCAATCGGTGGGAGCGGTTGATATGCCCACACAACACTTGA	MNHEDSLFFTCGLIVNAGTLVIPAQYNSLPDEQMSRVAFCFDGNWVYNDVDNDVIGAVCFRHSDNSLWMLGRNGNLRHVKSGSADFTLDNIRGKFENHRIDTGRLGELLCIREIENELYISGQSSQVYRYLNGTWANISPPGTKVGSPTLESLDGLVHADIYAVGEKGIILHYDGSRWSTLDSPTNRPLSCVRCKSENEVYACGNDGLLLVGNRHGWQVIDTERTMNFWDMALYNGHLYLSHVHGLVRYDGQDFVDIDTGIVPAPGAHKLDARDGLLCSFGVDDILTFDGNRWERLICPHNT				NA	NA	NA	NA	NA
D1-35_05183	1083			hypothetical protein	ATGGCCAACGAAGTCTTTGCCAACAACATGGAAGTTTCCTGCAAGGCGGCCGACGGCAAGTCGATCGCCTGTTTCCCGGATGTCTGCTTCACCCCCCCGCAAACCGCTGCCACTCCCCTCGGCGTGCCCATTCCCTACCCCAACACTGGCATGGCCAAGGACACTACCCGGGGCACGCGAACAGTGAAGATCAGTGGCAATGAAGTCATGCTCAAAGATAAGAGCTACTTCAAGACCAGTTATGGAGACGAGGCTGGAAATGCCCCGAAAAAAGGGATTATTACCAGCAAGATCAAAGGCAAGGTCTATTTCACGGCCTGGTCGATGAATGTGAAATTTGAAGCTGAAAACGTCGTGCGCAATATGGACCTGACCACTCATAACCACGGCTCGACTTCTAACACGCTGGCTTGGCCGTATCTTGATTCAGTAGCGATGGCAGACCCTGAAAACCCTTGCGTCAAGTCAGGGGCCGTGGAAAAAATCAAAGCAGCCTGCCCTCCGCCTGCCAAGTCATTGTCACGCGGCGCAACACCCGGCCCGGCTGACAATACCAGCCCCGGATGTTGTGAAGCACGCAAGTGCATGCTGGTGCCGAATTCTCCAAAAACCCGCTGTTCCAAGTGTGGGGGAAAGACACCGCATCACCCAGTGCCGGTAGCCGATTTATCGACACCCCGCCCCATCAACCCGAAGACCGGGAAGCTGAAAGTAAGGGGGGATGCTTTCGTTCCTAGCTACGATCACAACAAGGCCCCCTGCATATGCGTAGAGGGCGCCGACCACAACTCTCGCCAGGGCCCGACGGACAAGCTCATGCAGCATGGACGTATCGGCAGGAGTTACGTGGTCAAGCGAGATGAAATGTTGAACGGACGTAATGACTTCACGTACGCGGAAATCAGCGACCTTTCGGCACAGGCGGTTGCCGATGAGACAGGTTGCGACAAAGATTGCCTGAAGGCTCAGATCGACAAAGGCCACGAAGACCTGGGTGTCGGCCCGGAGTCCGGGATGCGCAGGGGAGAAGTTCGTGCACCTGCCCTTGAAAAAAAGCCGAAGAACCCCGCCCCTTTGATTTAG	MANEVFANNMEVSCKAADGKSIACFPDVCFTPPQTAATPLGVPIPYPNTGMAKDTTRGTRTVKISGNEVMLKDKSYFKTSYGDEAGNAPKKGIITSKIKGKVYFTAWSMNVKFEAENVVRNMDLTTHNHGSTSNTLAWPYLDSVAMADPENPCVKSGAVEKIKAACPPPAKSLSRGATPGPADNTSPGCCEARKCMLVPNSPKTRCSKCGGKTPHHPVPVADLSTPRPINPKTGKLKVRGDAFVPSYDHNKAPCICVEGADHNSRQGPTDKLMQHGRIGRSYVVKRDEMLNGRNDFTYAEISDLSAQAVADETGCDKDCLKAQIDKGHEDLGVGPESGMRRGEVRAPALEKKPKNPAPLI				NA	NA	NA	NA	NA
D1-35_05184	1038			hypothetical protein	ATGAGTGCTCTGTGCGTCATCGGTTCGGGGATGGTCAGCGCTGTTGGCCTCAGCGCACCGGCCAGCTGCGCGGCGATCCGCTGCGCCATCGACAACTTCCAGGAAACCCGCTTCATCGACCGCGGCGGCGAATGGATCATTGGCGCCAGCGTACCTTTGGAACAGCCCTGGCGCGGCCACACCAAGCTGATCAAGATGGCCGCTCGCGCCATCGCCGAGGCATTGCAGGGCACCCCAGGGGTCGATCCGGAAAAGACTCCGCTGTTGCTGTGCGTGGCGGAAGCCGAGCGTCCCGGACGCCTGAGCGGCCTGGATAAGGGACTGTTGCAGGCCATCGAGACAGAGCTGGGGCTGCGCTTTCATCCTGACTCCAGCGTCATTGCCCGGGGACGGGTCAGTGCTGCCGTGGCCCTGCTCGATGCGCGCACGCTGATCTACCAGGGCGGTCGTCGCCACGTACTGGTTGCCGGCGTCGATTCGTTCCTGAGTGGAGCGACGTTGACCGTCTTCGAAGCGCGGGAGCGCCTGCTCACCAGCCAGAACTCCAACGGTTTCATTCCCGGCGAAGGCGCCGCTGCCGTGGTGCTGGCCGCCCCGGTCGCCAGCGAAACGCCGCAGTTAACCTGCATCGGCCTGGGTTTCGGCCTGGAACAGGCCACCGTGGAATCCGAAGACCTGCCGCTGCGCGCCGAAGGCCTGACCCAGGCTGTACGCGCAGCGCTGAACGAAGCCGGCTGCGGCCTGGAGCAGATGGATTATCGCCTGACGGATATTTCCGGCGAACAGTACTACTTCAAGGAGGCTTCCCTGGCCCTGAGTCGCAGCCTGCGGGTACGCAAGGAGTTCTTCCATCTCTGGCATCCGGCGGATTGCATCGGCGAAGTCGGTGCCGCCATTGGCCCGGCAATGCTCGCCGTGGCCCTGGCTGCCAGTCGCAAGGGCTACGGCGAAGGGCCGAATATTTTCTGCCACCTGGGCAACGACGCCGGCGAGCGCGCGGCCGCACTGCTCAGCTACCGGATTGTGAGGGCTGCCTGA	MSALCVIGSGMVSAVGLSAPASCAAIRCAIDNFQETRFIDRGGEWIIGASVPLEQPWRGHTKLIKMAARAIAEALQGTPGVDPEKTPLLLCVAEAERPGRLSGLDKGLLQAIETELGLRFHPDSSVIARGRVSAAVALLDARTLIYQGGRRHVLVAGVDSFLSGATLTVFEARERLLTSQNSNGFIPGEGAAAVVLAAPVASETPQLTCIGLGFGLEQATVESEDLPLRAEGLTQAVRAALNEAGCGLEQMDYRLTDISGEQYYFKEASLALSRSLRVRKEFFHLWHPADCIGEVGAAIGPAMLAVALAASRKGYGEGPNIFCHLGNDAGERAAALLSYRIVRAA	PGPT0013310_2639	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0013310-fabB-K00647	NA	NA
D1-35_05185	1113			hypothetical protein	ATGGAACTGCTCAACGCCAGCAAACTGCAGGCTGCCTATACCCTGGGCATGGCGAGCGACGGCCGCGAATCCCTGGTCGTCGTGGCCAAGGGCACCTTCGATCTACCGCTGGACGGGCGTGCCGCGACCCTCGCAGACATCCAGCAACCGCTGCTGATGGCTGACACCTTCTTCGGCGAGCCGGGCCTCAGCGCGCCACGAGAGGAAATGGACTTTGCGCCTTTCAAGCCATTCTGCGACGTGCTGGTATCGGGCAAAGCTTATGCACCGGGTGGTCGGCCCGTGACGCAGTTGACCGCCGGTATTCGTGTCGGTCGGGTGAGCAAGGCTTTTTCAGTGTTCGGTCCCCGGCAGTGGCAACTGGGAATCTCAGGTATTCATGCCGGCTTACCGCAGCCTTTTACCGCGCAGGCTATCTCCTATGCCCAGGCTTTCGGCGGTTCTCATGCCATGGAGAAGATCCCCGACATGCGTCATTGTTACCAGGACAACCCGAGCGGTTGTGGCTGGTATCCAGGCAGTTGCGATGACGCTGGCATCGTCGGCCGGCCGATGCCGAACAGCGAAGAGCCGGGCAAGCCGATCGACAGCCCTTCTGGCGATTTCCGCCCCATGGCCCTCGGGCCAACTGGGCGCAGTTGGCCGCAACGCGCGCGCTTCGCCGGTACTTACGACGATGCCTGGCTGGCCGATTGCTTTCCGTTCCTGCCTGGGGATTTCGACGACCGCTATTTCCAGGCAGCGCCTGAAGACCAGCAAACCGATTACCTGCGCGGCGGCGAAGAGGTGTTGTTGCTGAACCTCACTTCCCGGGAGCGGGCAGGCTTTCGCATTCCCGAAATGGCTGTGCCGGTGACTTTTTTTATGAAAAAAGGCGGCCATGAAACGGTCTCGGCGGTGATCGACACCTTGCTGATCGACACTGACGCCCACCAGGTGCAACTGACCTGGCGGATTTCCCGGCCGCTACGGCGCAACATTTTCGAGATTGCCCAGGTGCTGGTCGGGACGATGTCCACGGCTTGGTGGCGTGCGCGTGAATTGGGCAAGGAGTACTACCCGTCGCTGGGTGCCCTGGTCAAAGCCAAACGTGCTCCTGAGGAAACCGATTGA	MELLNASKLQAAYTLGMASDGRESLVVVAKGTFDLPLDGRAATLADIQQPLLMADTFFGEPGLSAPREEMDFAPFKPFCDVLVSGKAYAPGGRPVTQLTAGIRVGRVSKAFSVFGPRQWQLGISGIHAGLPQPFTAQAISYAQAFGGSHAMEKIPDMRHCYQDNPSGCGWYPGSCDDAGIVGRPMPNSEEPGKPIDSPSGDFRPMALGPTGRSWPQRARFAGTYDDAWLADCFPFLPGDFDDRYFQAAPEDQQTDYLRGGEEVLLLNLTSRERAGFRIPEMAVPVTFFMKKGGHETVSAVIDTLLIDTDAHQVQLTWRISRPLRRNIFEIAQVLVGTMSTAWWRARELGKEYYPSLGALVKAKRAPEETD				NA	NA	NA	NA	NA
D1-35_05186	459			hypothetical protein	ATGACCGTTGAATATCATCTCCCCGTATCTTCCACCGCCACGCCGACGCGCGTGGATGGCGTCGTGATCGGGGTGCTGCTGGACGTACCCACGCCGGACGCTCCGGTCGTGGCCTTCCCCGGCTGTCCCGGCGAAACCGGCCTCGCCGCGCGCACCACCACCGCGCTCTGTCGTGACGACATCGGCGCCCAGGTCGCGCTGATGTTCGAGGCCGGTGACCCGGCCCGGCCGCTGGTGATCGGCCGCATCCAGCGCCTGCCGGCAAGCGCAACGCCAACGGTCGCCCACCTCGATGGCGAGCGGCTGGAGTTCAGCGCGAAACAGGAGATCGTCCTGCGTTGCGGCAAGGCCAGCATCACCCTGACCCGCGCGGGCAAGGTGATCATCCGGGGCACCTACCTCTCCAGCCGCTCCAGCGGGGTCAACCGCATCAAGGGCGGCTCGGTGCAAATCAACTGA	MTVEYHLPVSSTATPTRVDGVVIGVLLDVPTPDAPVVAFPGCPGETGLAARTTTALCRDDIGAQVALMFEAGDPARPLVIGRIQRLPASATPTVAHLDGERLEFSAKQEIVLRCGKASITLTRAGKVIIRGTYLSSRSSGVNRIKGGSVQIN				NA	NA	NA	NA	NA
D1-35_05187	2178	vgrG1_6	COG3501	Actin cross-linking toxin VgrG1	ATGGCAATTACGCAAAACAACCGGTTGGTGCAGGTCGACAGTCCCCTCGGCGGCGATGTGATACTGCTGCAAAGCATGGACGGCAGCGAAGAGCTGGGGCGGTTGTTCCATTACGAGCTGGACCTCACTTCCGAAGACCGGGCGATCAAGTTCGACCAGTTGCTGGGCAAGCCGATGGGCCTGACCCTCGAGCTCTATGACGGAGGCAAACGTTATTTCCACGGCATTGTCAGCACCTGCCGACAGCTGACCGGGCACGGGCAGTTCGCCGGGTATCGCGTCAGCCTCCGGCCCTGGTTCTGGCTGCTCACGCGCACCTCGGATTGCCGGATCTTCCAGAACAAGACCGTGCCGGACATCATCAAGCAGGTATTTCGCGACCTCGGCTTCTCCGACTTCGAAGACAGCCTGAGCGGCAGTTACCGCGAGTGGGAATATTGCGTGCAGTACCGTGAGACCAGCTTCGATTTCGTCAGTCGGCTGATGGAGCAGGAAGGCATCTATTACTACTTCCGCCATGAGAAGTCCCGCCATGTACTGGTGCTGGCCGACGCCTACGGCGCTCACTCCACGGCGGCGGACTACGCGTCGGTGCCCTTCTATCCGCCCGATCGGCAAATGCGCGAGCGCGACCATTTCTACGATTGGCAGATGGCCCGTGAAGTGCAACCCGGCTCGCTGGCGCTGAACGACTATGACTTCCTGCGGCCGCGCGCCAGCCTTGAGGTGCGCTCCAGTGTGCCGCGAAACCACAGCAACGGCGAATACCCGCTCTTCGACTACCCCGGTGAGTACGTCCAGAGCAACGATGGCGATCACTATGCGCGAACCCGCATCGAAGCCATCCATAGCCAGTTCGAGCGCGTGCAGCTGCGTGGCCGCGCTCGCGGGCTGGGGTCCGGCCATTTGTTCACGCTGACCGGTTATGACCGCGCGGACCAGAACCGCGAGTACCTGATCGTCGTCGCACGCTACCAGATCCGCCAGGAAGCCTACGAAAGCGGGCAACAGGAACAGGCTGAACAGTTCGTCAGCGAGTTGGACTGCATGGATGCCAGCCAGGCGTTTCGCCCCCTCCCCGTCACACCCATGCCGATTGTCCGCGGTCCACAGACCGCGGTGGTGGTGGGTCCCAGTGGCGAGGAGATATGGACCGACCAGTATGGTCGGGTCAAGGTGCATTTCCATTGGGATCGCCATGATCAGTCGAACGAAAACAGCTCCTGCTGGATTCGCGTCTCACAGGCCTGGGCCGGCAAGAACTGGGGCTCGGTGCAGATTCCTCGAATCGGCCAGGAAGTGATCGTCAGTTTCCTCGAAGGCGACCCGGACCGGCCGATCATCACTGGCCGCGTCTACAACGCTGAACAGACCGTGCCTTACCAACTGCCGGCCAACGCCACTCAGAGCGGCGTGAAAAGCCGATCGAGCAAGGACGGCACGCAGGCCAACTTCAACGAAATCCGCATGGAAGACAAAAAAGGCGCGGAGCAGCTGTTCATTCACGCCGAGAAGAACCAGGACATCGAGGTCGAGAACGACGAGACCCATTGGGTCGGGCATGATCGCAGCAAGACCGTCGACAACGACGAAACCGTGCAGGTCAAACACGACCGCACCGAAACAGTGGGCAATAACGAAACCATTTCCATCGGCGTCGACCGCACCGAGGATGTCGGCAGCAATGAAAAGATCACCATCGGCGCCAATCGCACCGAACGGGTCGGCAGCAACGAAACCATCACCATCGGCGCGGACCGCACGGAAAAGGTCGGCGCGAACGAAAAAATCAGCATCGCCAGCAACCGCACCGAGGACGTCGGCGGCAACGAGACCATCGACATCGCGGGCAACCGTAATGAAACGGTGCAGGGCAACGAAGGGATCGAGATCAATGGCAACCAGAGCACCCGGATCGGCCAGAACGAATCCCGCGACGTTGCCCATAACCGCAGCACGGGCATCAAACAGAACGACAGCCTGGACGTCGGCAAGCATTTCGTGCTCAACGCCGGCGATTCGATCAGCCTGACCACCGGTGCCGCCAGCATCACCATGAAGAAGGATGGCAGCATCGTCATCAAGGGCAAGAACATCACCCTCGATGGCTCTGGCGCCATCAACATCAAGGCCAACAAGAATGTGGTCGTCAAAGGCCAGAAAATTCTGCAGAACTGA	MAITQNNRLVQVDSPLGGDVILLQSMDGSEELGRLFHYELDLTSEDRAIKFDQLLGKPMGLTLELYDGGKRYFHGIVSTCRQLTGHGQFAGYRVSLRPWFWLLTRTSDCRIFQNKTVPDIIKQVFRDLGFSDFEDSLSGSYREWEYCVQYRETSFDFVSRLMEQEGIYYYFRHEKSRHVLVLADAYGAHSTAADYASVPFYPPDRQMRERDHFYDWQMAREVQPGSLALNDYDFLRPRASLEVRSSVPRNHSNGEYPLFDYPGEYVQSNDGDHYARTRIEAIHSQFERVQLRGRARGLGSGHLFTLTGYDRADQNREYLIVVARYQIRQEAYESGQQEQAEQFVSELDCMDASQAFRPLPVTPMPIVRGPQTAVVVGPSGEEIWTDQYGRVKVHFHWDRHDQSNENSSCWIRVSQAWAGKNWGSVQIPRIGQEVIVSFLEGDPDRPIITGRVYNAEQTVPYQLPANATQSGVKSRSSKDGTQANFNEIRMEDKKGAEQLFIHAEKNQDIEVENDETHWVGHDRSKTVDNDETVQVKHDRTETVGNNETISIGVDRTEDVGSNEKITIGANRTERVGSNETITIGADRTEKVGANEKISIASNRTEDVGGNETIDIAGNRNETVQGNEGIEINGNQSTRIGQNESRDVAHNRSTGIKQNDSLDVGKHFVLNAGDSISLTTGAASITMKKDGSIVIKGKNITLDGSGAINIKANKNVVVKGQKILQN	PGPT0030410_2462	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
D1-35_05188	342			hypothetical protein	ATGAAACAGTGGATGAGCATGACGGCCGGAATCGGCTTGCTGATGACTTTGCCCGGGGTCCAGGGCGAAGAAGCCCCGGCCTGTATCGAGGTGACTGTCGGCGGCTACAAGACCCCGGATTACAACTGCCTGAGCCGCCAGATGGGCAACGACCCCGAGGCCGCCGCCGCGGCGCAACACGCGCAGGACAGGCTGGATGTGCCGGTCGACAAACGCGCACCGAACAGTGTCGGCCTCGCGACGCCGGCAGCCACCGGTGTGCGAATGGGCAACACTTTTGGCACGTCGGTCAAGCCCCAGCGACCGCCTGCTCCCGTACCTGGTTCGCCGCTGCCCAGATAA	MKQWMSMTAGIGLLMTLPGVQGEEAPACIEVTVGGYKTPDYNCLSRQMGNDPEAAAAAQHAQDRLDVPVDKRAPNSVGLATPAATGVRMGNTFGTSVKPQRPPAPVPGSPLPR				NA	NA	NA	NA	NA
D1-35_05189	699			hypothetical protein	GTGCAGCAGGGCATAACCGGGGGCGGACGCAGGCGTGGATTGGCCAGGGCGCCCTTGGGGTGGCTGATGGTGGCGTGGTGTCTGCTGGCCGGGCCGGCCCAGGCGGCCGGCGTGGTGGACCTGGACATTGCGCCTCAGGAACTGGCCCCGGCACTGGAGCAATTCAGTCGGGCCACAGGCATGGCGGTGCTGGTGGATCACGCCTTGTCGAACCGGCGCCAGACGATGGGCGTCCAGGGGCTGTTTACGCCTGCCCAAGGGCTGACTGTTCTGCTCAGTGGTACCGGGCTGGCGGCGCAGTATGCCCGTGCGGATGCATTCACCTTGCAACCGGTACAGGTTCGCGAGGTGCCATTACCGCCGGGCGCCACAGCCGGATTGAGCGACAGCAACTATGCGGCAACGATCCAGGCGGTCATCCAGCGCAACCTGTGCCGTTCGCCATTGACCCGACCGGGCAGTTTTCGCGCGTTGTTGCAAGTGTGGATCGGACGCGACGGCGTGGTGCAAAACAGTCGGCTGGTCAGTTCCACGGGTGATGTGTTGCGTGACAAAGCCTTGGTCAACAGTTTGCAGAACCTCAGGATCGACCGTCCGGCGCCCAGTTCGCTGCGCCAGCCGGTGACCCTGCTTTTGGTACCCGATTCATCAGGAAAAAGCATGGAATGCACAGCAGGGGAAGAGGTGTTCGGGCAATGA	MQQGITGGGRRRGLARAPLGWLMVAWCLLAGPAQAAGVVDLDIAPQELAPALEQFSRATGMAVLVDHALSNRRQTMGVQGLFTPAQGLTVLLSGTGLAAQYARADAFTLQPVQVREVPLPPGATAGLSDSNYAATIQAVIQRNLCRSPLTRPGSFRALLQVWIGRDGVVQNSRLVSSTGDVLRDKALVNSLQNLRIDRPAPSSLRQPVTLLLVPDSSGKSMECTAGEEVFGQ				NA	NA	NA	NA	NA
D1-35_05190	546			hypothetical protein	ATGAAAGACGCTGGCCGCAGCCCGATGGTCAAGCTGTTCCTCACCTCCTATGAGGATTTCAAGGTGCGTCTGCGCAGGCGCCTGGGTTCCGAGGAACTGGCCAACGATGTGCTGCATGAAACCTACCTGCGGGTCGACCGCATGGGCGACACGCCGGAGATCGTCCAGCCTAACGCCTACCTCTATCGCATGGCCCTGAACATTGCCGCCGACCGCCGGCAGTCCGATGCTCGTCTGCTCACCGGCAGCGAGATCGAAGAGCTGCTGCAAATCTCCGACGAAGCGCTGGACCCGGCTCGGGTGGTGGGCGGCCAGAAGGAGTTGCAGACCCTGCTTAAGGCGTTGTACGAGTTGCCGGCGCGGCGCCGCAGGATTTTCATTGCCGCGCGCCTGGAAGAGGCCCCGCACCTGGAGATCTCCCAGCGTTTCGGTATCTCCACGCGCATGGTGGAGAAGGAAATCAAGGCTGCGTTGGGGCATTGCGCCCTGCGCCTGGAAAGAAAAGTCATTCAACGGTTCGGTCCCGGCGCGGGAAAACCGTCTTGA	MKDAGRSPMVKLFLTSYEDFKVRLRRRLGSEELANDVLHETYLRVDRMGDTPEIVQPNAYLYRMALNIAADRRQSDARLLTGSEIEELLQISDEALDPARVVGGQKELQTLLKALYELPARRRRIFIAARLEEAPHLEISQRFGISTRMVEKEIKAALGHCALRLERKVIQRFGPGAGKPS	PGPT0014960_9166	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-35_05191	948			hypothetical protein	GTGCGCTTGAATATCTTCAGCATCGCGTCCCCTGACGATACGCCCGAGGCCCGACTGGCCGGCGAGGCCCGTGACTGGTTGATCCTGCTGACCTCGGGACGCGCCACCGTCGCCGATGCCCGTGCCTTGCGCCAATGGTGCGGGCAGAGCGCCGAACATGCGCAGGCGTTCGAGCAGGCCAAGGCGCTGTGGCATGGGCTGCGACCGGCCGCCGAAGCGACGCAGGGGCCTCGGCATTTTGGCCGTCGGGCGTTGCTCGGTGGCGCGCTGGCCGCCTCCGTGGGCTTCTTGCTGATCCGCGCCACGGTGCCGGGTGGCGTTTCCGGGCTCGCTGCGGACTACGTCACCGAAGTGGGCGAACAGCGCCGGGTCGAGCTGGGCGATGGCGTGAGCCTGGAACTCAATACCCAGACTCGCCTCAGCCGCCTGCCGCTGGCCGAGGGCGGGCAGGGCCTGGAATTGCTCGCCGGCGAAGTCGAAGTGTCCGGCAGCAGCACCACGACGATCAACGTCCAGGCCGGCTCCGGCTGGATCAGCGCCGCGCGGGCCCGGTTCAATGTTCGCTACATCGACCAGAGCGTCTGCGCAACTTGCCTGGAAGGCGTCGTGCAAGTCCAAGTGCAGGGCCGAGAGTTTCGCCTCGAGCCGGGCATGCAATTGACCTACGACACCCGCCAGGTCGGCAGCCCACAGGCGGCCGATGTATCCGCCGCCGTTGCCTGGCGCGAACAGGTGCTGGTGTTCAACGATGCGACCCTGGCCAGCGTCATCGACGAGATCAACCGTTATCGGCCTGGCATGTTGCTGTTACTCAACCGCGAGCTGGGCTTGCGCAAGGTCCAGGCCCGTTTCCGCCTCGATCAACTGGCTGGGGTGGCGCTGCTGATTCGCGATGCCTATGGCGCCAAGTGCACCGAGTTACCGGGTGGGGTGGTGGTGTTGAGTTAG	MRLNIFSIASPDDTPEARLAGEARDWLILLTSGRATVADARALRQWCGQSAEHAQAFEQAKALWHGLRPAAEATQGPRHFGRRALLGGALAASVGFLLIRATVPGGVSGLAADYVTEVGEQRRVELGDGVSLELNTQTRLSRLPLAEGGQGLELLAGEVEVSGSSTTTINVQAGSGWISAARARFNVRYIDQSVCATCLEGVVQVQVQGREFRLEPGMQLTYDTRQVGSPQAADVSAAVAWREQVLVFNDATLASVIDEINRYRPGMLLLLNRELGLRKVQARFRLDQLAGVALLIRDAYGAKCTELPGGVVVLS	PGPT0003910_6007	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003910-prhR|fecR-K07165	NA	NA
D1-35_05192	387			hypothetical protein	TTGACTGACTGGGTACATATCCGTTGCTGCGGTAACGGCTGCTTGGGGTTCCGCCCTTACGGCGGGTCACTTTTTTCAGACGCCAAAAAAGTAACCCAAAAGGCTTTGCCCCACCACTCGGTGCCTCGCCAAGGCTCGGCATGCCCTCACTCCGGCATTGCTCCGTGGGCCCGCCGCGAAGGGCCGTCCCTGGCCCAGCGCGGCTATCCCGGCATCCATGCCGGGATGCCCACTGCACAATGCCTGCGTTCGGCCAGCGTGGTTAACGGGGCGTCTCAGATCAAGATCAGGATCAAGATCAAGATCAAGATCAAGATCAGGATCAAGATCAGGATCAAGATCAAGATCAAGATCAGGATCAGGATCAAGAGCGAGGCGGTCTGGTAG	MTDWVHIRCCGNGCLGFRPYGGSLFSDAKKVTQKALPHHSVPRQGSACPHSGIAPWARREGPSLAQRGYPGIHAGMPTAQCLRSASVVNGASQIKIRIKIKIKIKIRIKIRIKIKIKIRIRIKSEAVW				NA	NA	NA	NA	NA
D1-35_05194	612	xcpW	COG4795	Type II secretion system protein J	ATGAGCGGCCGGGAGACAGGCTTCACCTTGCTTGAAGTCATGGTGGCGATCCTGCTGATGGCGGTGATCAGCCTGATCGCCTGGCGCGGGCTGGACAGCGTGACCCGCGCCGACAGCCACTTGCAGGCCAGCACCGAGCAGACCGAAGCCTTGCTGCGAGTGCTGAACCAGCTGGAGCGCGATGTGGCCCTGCGGGCCGGCGTCGAGTTGAGCGAACCGCTCAAGCCAGGGGTCGACAACGAGCCCTCGACAGCCCCGCCCGCCCTCACCCTGCGCAGCACCGAAGGCCAGGGTTTTCGCCTTGACGTTATCCGTGAGGCCGCCGATCAGGGCGGTGGCTTGCAACGGGTACGCTGGTGGCTCAAGGGCGACACGCTGTATCGCGCCCAGGGCCAGGCCCGCAGCCGCTACCCTCTACCGGCGCCGGGTGCGGGCGTGGCTGTGTTGAGTGAGGTCAGCGATGCGGGGCTGCGATTCTGGGACAGGGAAAAGGGCTGGCGCAAACTCAGCGGCAACCGGCAGGAGGATCCGCCGGGCATCGAAATCAGCTTGACCCGGCAGACACCGCAAGGGCCGGAGAAGTATCGACAGGTGCTGGGGCCGTTGGAGTAG	MSGRETGFTLLEVMVAILLMAVISLIAWRGLDSVTRADSHLQASTEQTEALLRVLNQLERDVALRAGVELSEPLKPGVDNEPSTAPPALTLRSTEGQGFRLDVIREAADQGGGLQRVRWWLKGDTLYRAQGQARSRYPLPAPGAGVAVLSEVSDAGLRFWDREKGWRKLSGNRQEDPPGIEISLTRQTPQGPEKYRQVLGPLE	PGPT0026455_1050	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026455-gspJ|epsJ-K02459	NA	NA
D1-35_05195	450			hypothetical protein	ATGCACGGCAAGCAACGCGGTTTTACCCTGATCGAATTGATGGTTGTGCTGGTGATCGTCGGCATCGCCAGCGCGGCCGTGAGCCTGAGCATCAAGCCGGACCCGGCGAAGCTGCTGCGCCAGGATGCCGAACGGCTGGCCCAGCTGCTGCAACTGGCCCAGACGGAAGCCCGTGCCGACGGGCGACCGATCACCTGGCGCTGGGACGCCAAGGGTTTCGGCTTCAGCCGCCGCCCGGACCAGGGCGCAGGACTGGACCGCTTCAAGGAAGACCCGCAGCTGCGCCCGCGACGGTGGCAAAGCCCGTCCATGGAGGTACGTGTGGAACCCCGGCAACGCGTGGTGCTCAATGCCGAATGGATCGGCGTGCCGCTACAGATCCGCTTGTCCGACGGCCAGAACAGTTTCACTGTGCAACGCAGCGCCGCCGGTCGGGTATGGGTTCAATGA	MHGKQRGFTLIELMVVLVIVGIASAAVSLSIKPDPAKLLRQDAERLAQLLQLAQTEARADGRPITWRWDAKGFGFSRRPDQGAGLDRFKEDPQLRPRRWQSPSMEVRVEPRQRVVLNAEWIGVPLQIRLSDGQNSFTVQRSAAGRVWVQ	PGPT0026445_1047	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026445-gspH|xcpU|epsH-K02457	NA	NA
D1-35_05196	429			hypothetical protein	ATGACGTTCACGGAACGAGTCTCCCCGGCGCATATCGTCCAGGCGCTGGGACTGGTGGCAGCGTTGGCCGGAGTGGCGACCTGGTCTTCTCTGCTGCTGACATCCGCCGAGTCGCGCACCCCGGACGTGGCCCCGCAACGCCTGGCCGAGCGTTCCGACAGTCCTGCATTGCAGTGGTTTTCCAACCAACCGGCGGCGGTGGATATCAAGGTCAGCGGGGTGATGGCCGGTGCCCGCGGCGCGGTGGCGATCCTGAGTCTCAACGACGGACCACCGCGCAGTTTCCTGGCCGGCGAGCGGGTAGCCCAAGGGGTAAGGCTGGTAGCGATCGAGGCGCAGGCCGTGGTGATCGAACGCGGCAGCGAACAGACCCGGCTGGAACTGGCGCGGCTGCCGGATTCAGTGAGTTTGCCGTCGCTGCTCCGCTGA	MTFTERVSPAHIVQALGLVAALAGVATWSSLLLTSAESRTPDVAPQRLAERSDSPALQWFSNQPAAVDIKVSGVMAGARGAVAILSLNDGPPRSFLAGERVAQGVRLVAIEAQAVVIERGSEQTRLELARLPDSVSLPSLLR	PGPT0026420_993	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026420-gspC|epsC-K02452	NA	NA
D1-35_05197	375			hypothetical protein	ATGTCACGCCCAGCCCCACAAGCCGGTTTCACCCTGATTGAAGTGCTGGTGGCCCTGGCGATCATTGCCGTGGCCATGTCTGCCGCAGTGCGCGTGGCGGCGGTGATGACCCAGAGCAACGGCTTGCTGCGAGACAAGTCCATCGCCTTGCTGACGGCTCGCAGCCAATTGGCGCAATTGCGCCTGGAAGGACACGCGACGCCGGGGATGAAGGTTTTTGAATGCGATCAGGGTCGCTTGCTGCTGCGCTGCGAGCAGAACCTGCGCCCGGCGGAAAACGGGCGGATGCTGCGGGTCGAGCTGAGCGTATCCGACCGCAGCCGCGAGGCGCCGCCCTTGGCTCGGCTGGAGACCTTGCTCAGTCGGGAAAAATAA	MSRPAPQAGFTLIEVLVALAIIAVAMSAAVRVAAVMTQSNGLLRDKSIALLTARSQLAQLRLEGHATPGMKVFECDQGRLLLRCEQNLRPAENGRMLRVELSVSDRSREAPPLARLETLLSREK	PGPT0026450_867	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026450-gspI|epsI-K02458	NA	NA
D1-35_05198	450	xcpT	COG2165	Type II secretion system protein G	ATGCACATCGCCCCTTGTTACGCCCGTTCCCGAGGCCCACGCGGGCAGCGGGGCTTCACCCTGATCGAGATCATGGTCGTGGTGGTCATCCTCGGCATTCTCGCGGCGATGGTAGTGCCCAAGGTTCTTGATCGACCTGACCAGGCCCGTGCCACGGCGGCGAAGCAGGACATCGGCGGGTTGATGCAGGCCTTGAAGCTTTATCGCCTCGATCACGGCAGCTACCCCAGCATGAACCAGGGCCTCAAGGTGCTGGTGGAGCGGCCGGCCGATGCCAAGAACAGCACCTGGCGTTCCTACCTGGACCGCTTGCCCAATGATCCGTGGGGCCGCCCCTACAACTACCTCAATCCTGGCGCGAACGGCGAGGTCGATATCTTTTCCCTTGGTGCCGACGGCCAGCCTGACGGCGACGGTGTGAACGCCGACATCGGCTCCTGGCAGTTATAA	MHIAPCYARSRGPRGQRGFTLIEIMVVVVILGILAAMVVPKVLDRPDQARATAAKQDIGGLMQALKLYRLDHGSYPSMNQGLKVLVERPADAKNSTWRSYLDRLPNDPWGRPYNYLNPGANGEVDIFSLGADGQPDGDGVNADIGSWQL	PGPT0026440_1222	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026440-gspG|epsG-K02456	NA	NA
D1-35_05199	984	xcpX	COG3156	Type II secretion system protein K	ATGCGCACGAATTCGCCGACAGCGGCGAAGCAGCGCGGCATGGCGGTGATCAGTGCCTTGCTGATTGCTGCCGTGGTGGCCGTCATTGCCGGCGGCATGCTCACCCGCCAGACCTTGTTCACCCGCAGCCTGGAAGCCGAGCAACTGCGCATCCAGGGCGCGGCGCGGTTGCAAGGCGGCCTGCAGGTGAGTCGCCAGTTGCTCTGGGATGTTCGCCAGCGCGATCCCTTGACGCGCTTCGGCCAGCCTTGGGCGAAACCTATTCTGATGCCGGGCTCCGGCCAGGTCGACACGCCATTCGAAGGGCAACTGGAGGATGAACAAGGCAAGTTCAACCTGCGCAATCTGGTGGTCGATGACCAGCTGGACCAGGAACAGCTGCGCGCCTTCGAGCGGCTGTGCGAGCAGTTGGGTGTCGCCGCCACGGTACGGGCGCGTATCGTCGAGCGGGTGATTGCTGGCTACCCGCGCCTGTTGAATCCGCCGCGGGCGGGCCAGGCGTCCATGAGCAGCACGTTCGACAGCGGCCGCAGCACCTCGCCGGACGCCTCCGACACGCTGGCGCCGACCCGGCCGATGCTGCGCACTTTACAAGACCTGCTCAGCGTCAAGGGCGTCACCCCGGCACTGCTGGAAATGCTGGCCCCTTACGTCACGATCCTGCCGGCCAACACCTGGCTCAACGGCAACACCGCCAGCGCCGCGGTGCTCGCCGCCTACGTGCCGGGATTGTCGCTGCAACGCGCCCAGGCGCTGATCAATGAACGCGACGGTGGCCACTGGTTCATCAATCGCGGGGATTTCGTCAACCGCCTGCGCATGCCCGAACTGGACGTCAGCACCGTCAAGGTCGGCATCGCCAGCGACTGGTTCCGCCTGCGGGGCCAGGTGCGCAGCGGCCAACGGCGGGTCGAACTGGATGCCTTGCTCCAATGCAGCCAGGACCGCTTGCCTCAGGTGATCTGGTCGCGGGTGGGTGTATGA	MRTNSPTAAKQRGMAVISALLIAAVVAVIAGGMLTRQTLFTRSLEAEQLRIQGAARLQGGLQVSRQLLWDVRQRDPLTRFGQPWAKPILMPGSGQVDTPFEGQLEDEQGKFNLRNLVVDDQLDQEQLRAFERLCEQLGVAATVRARIVERVIAGYPRLLNPPRAGQASMSSTFDSGRSTSPDASDTLAPTRPMLRTLQDLLSVKGVTPALLEMLAPYVTILPANTWLNGNTASAAVLAAYVPGLSLQRAQALINERDGGHWFINRGDFVNRLRMPELDVSTVKVGIASDWFRLRGQVRSGQRRVELDALLQCSQDRLPQVIWSRVGV	PGPT0026460_629	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026460-gspK|epsK-K02460	NA	NA
D1-35_05200	1182			hypothetical protein	ATGAGCCGTTTGCGCATTGCCCTGGCGCCGCTGGATCGTCTTGGCCTCGACAGCCCGGTGGCATTTGCCTGGCTGGATCGCCAAGGGCAGGTGCGTGAGGCCGGTCTCAGCACACTCCGGGCGCTTGGCCAGGGCACGAAGAAGCAGCCGGTCGAATGCTTCCTGCATTCGCGTGACAGCTTGCTGACGCGCCTGGAGCTGCCGCCGTTGTCCGCGGCGAAAACCACCGCCGCCGTGACCTGCGCGGCCCAGGCGCTGATGCTCGGTGCCACTGAACAGATGCAAGTGGCCCACGGCCCGCGCGATGCGGACGGGCAGGTAGCGGTCGCCTGGCTGGACCGTGCGTCGCTGAACCTATTAGGTCAGATCCTGCTGCAGGCCGGCCTCAAGTTGCGCGGCCTGTATCCGGCCGCCTACGCCTTGCCGGTGTTGTCGGGGCCAGTGGCGTGTATCGAAGACGGGCACTTGCTGGTGCGTCATGGCTTGCAGCACGCGGTGGTCCAGCCGTTGCTGGAAGATGCGCTGGACGAGTGGCTTGTGGAAATGGGCAGCGGCCTGCATTGGGTGGGCGAGTCGCCGCCGCAAGTGACGACTGACAGCTTGCCCGTCACCCAGCGCTGGACTGGCGTCGCGCCGGGCTGGGGCCTGCATGCCGGGTTGACGCAGGGGCGTTCCGGGCGCGGCGGCTGGGGGCGGGCGGCGGGCATCTGCGCGCTGGCGGTGGCGGTGTGGGGGGGCGGGCTCAATCTTTATGCCAGCCGTGAAGCGGCCCAGGGGCAGCGGCTCAAGGCGCAGATGAGTCAACGGGTGAAGCAGGCGTTTCCTCAGTTACCGGTGATTCTCAATCCCTTGCAGCAGGCCCGTCAGCAAATCGCCGCGCGCCAGAGCGGTTCGCTGACGGAGCCTGGGCAGCGCTTCGCCAGCCTGGTAAGGCAGGCGGGCAGCGCCATGCCGTTCATGAGCGGCAATGTGCAGGAACTGGTGTTCGAAAACGCTGAGTTGCGCCTCAAGCTCGTCGCCGAAGCGCAGAAAGTCGCGGCGGGCGACGACTGGAAAATGCCCCTGGCGCAGGCCGGCATCGAGGTCGCGGCCATTGACCAGGGGTGGACGTTGCGCGTGGCTCCGGCCGGGCAGGAAGCGCAAGACAGCCCCGACGAAAACCAGGAAGCGAACGATGAATAA	MSRLRIALAPLDRLGLDSPVAFAWLDRQGQVREAGLSTLRALGQGTKKQPVECFLHSRDSLLTRLELPPLSAAKTTAAVTCAAQALMLGATEQMQVAHGPRDADGQVAVAWLDRASLNLLGQILLQAGLKLRGLYPAAYALPVLSGPVACIEDGHLLVRHGLQHAVVQPLLEDALDEWLVEMGSGLHWVGESPPQVTTDSLPVTQRWTGVAPGWGLHAGLTQGRSGRGGWGRAAGICALAVAVWGGGLNLYASREAAQGQRLKAQMSQRVKQAFPQLPVILNPLQQARQQIAARQSGSLTEPGQRFASLVRQAGSAMPFMSGNVQELVFENAELRLKLVAEAQKVAAGDDWKMPLAQAGIEVAAIDQGWTLRVAPAGQEAQDSPDENQEANDE	PGPT0026465_734	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026465-gspL|epsL-K02461	NA	NA
D1-35_05201	546			hypothetical protein	ATGAATAAGCTGACCGCGGCACAGCTGAAGGCGCGTTGGCAAAACCTTCGCACGGCCTGGCAGGGCCTGGCCGCCCGCGAGCAACGTGCCGTGGCCCTGGCGGCGTTGGTGCTCGGTAGCGGCCTGGTCTGGCTGGCGTTGATCGAGCCGGCGTTGAAAACCATCGCTTACTGGCAGGCCGAAACCCCGAAGCTGCGCTCGCAGACCGAAGCCCTCGAGGTGCTGCTGCGCGACGTTGGCGGACCCGCCCGGGGCCAATCCCTTGAAGTCGCCCTGCGCCAGACCCTGGATGCCAGCGGCCTGGGCGAGCACTACCAGTTACAACCGCCGGGCACCGCGGCGCCTGGCGCGTGGCAACTCACTTTCACCGACGCGCCGGCGGACGGGGTGATCGATTGGCTGCTCGGCAGTCCACCACAATTTTCCCTGGAAGTGATCGAGGCCCGCTTGCAGCGCACGGCCCCGGCCAGTTCCGACCCAACCCCCGGCACTCTGTCCGGAACCGTTCGCATGAACCACGCGTCAAGCGCTAAGGAAGCTTCATGA	MNKLTAAQLKARWQNLRTAWQGLAAREQRAVALAALVLGSGLVWLALIEPALKTIAYWQAETPKLRSQTEALEVLLRDVGGPARGQSLEVALRQTLDASGLGEHYQLQPPGTAAPGAWQLTFTDAPADGVIDWLLGSPPQFSLEVIEARLQRTAPASSDPTPGTLSGTVRMNHASSAKEAS	PGPT0026470_252	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026470-gspM|epsM-K02462	NA	NA
D1-35_05202	2355	gspD2		Secretin GspD 2	ATGAAGGGGTCCAGATACCCGCGACATTGGCGCAAGGCCGCGCCGCTGCTGTTGCTTGCTTTGGGCGCGTGCACCAGCACGCCACCGGCCTCGCAGCCACCGTTGCTGGTGGACAGCGAACTGGGCATCCCGCTGGGCAGTACCCAGCGCAGCGGTGACGCGTTGCTGGACCGGCAACGGGCCCAGGCGTCCCGCGAGCAGAAACCGCCGGTGCGCCATCAGGTCGACCTGACCGCCCGCGCCCGCACGCCGCGTAGCGATGCCCCTGCGAGCAATCCGTTGGGTGATCAACCGGTGACGCTGAATTTTGTCGAGGCCGATATCCAGGCGGTGGTGCGCGCCTTGTCGCGTTCCACCGGTCAGCAGTTCCTGGTCGATCCGCGAGTCAAAGGCAACCTGACCCTGGTCTCCGAAGGCCAGGTGCCGGCCCGCCAGGCCTATGAAATGCTGCTCGCGGCATTGCGCATGCAGGGCTTCAGCGTGGTCGATGTCGGCGGTGTCGCCCAAGTGGTCCCGGAAGCCGATGCCAAGTTGCTGGGTGGGCCGATCTACAATGCTGACAAACCGGCCGGCAACGGCATGCTGACTCGCACCTTTCGCCTGCAATACGAGAACGCGGTCAACCTGATCCCGGTGCTGCGCCCGATCGTCTCGCCGAACAACCCGATCAACGCGTACCCCGGCAACAACACGATTGTGGTGACCGATTACGCCGAGAACCTCTCTCGCGTCGCGCAGCTCATCGAGGGCATCGACACTCCAAGTGCTATCGATACCGATGTGGTGCCGATCCAGAACGGCATCGCCGTGGACATCGCCCAGATGGTTTCCGACCTGCTGGAGACCCAGGGCGGCGACCAGACGCAGAAGATCAATGTGATCGGCGACCCGCGCTCCAACTCCATCATCATCCGCGCCGGCAGCCCGGAGCGGACCGAGCTGGCGCGCAACCTGATCTACAAGCTCGACAACGCGCAGAACAACCCGAGCAACCTGCACGTGGTGTACCTGCGCAACGCCCAGGCCGCCAAACTCGCCCAGGCCCTGCGCGGCTTGCTCACCGGGGAAAGCGAAGGCGAGGGCAACGACAATTCGCGCTCGGTGCTCAGCAGCATGGGCGCCAGTACCAACGGCCAGAGCGGGCAGGGCAACGAAAGCGCAACCAGCCCCGTGAGTAGCACCACCTCGGGCAGCGGCAGCGGCTATGGCCAAGGCAGCAGCGGGCAAACCTCCAGCACGACGCAGAGCGAGCAGAACACCGCCTTCAGCGCCGGTGGCGTGACCATCCAGGCCGATGCCACCACCAACACCTTGCTGATTTCCGCGCCGGACCCGCTGTATCGCAACCTGCGCGAGGTCATCGACCTGCTCGACCAGCGCCGCGCCCAGGTGGTGATCGAGAGCCTGATCGTCGAAGTCGGCGAGGACGATGCCAGCGAGTTTGGCGTGCAATGGCAGACCGGCAACCTCGGTGGCAGCGGCGTGATCGGCGGGGTCAACCTCGGCGGCACCGGGCTCAACCTCAACGGCAAGACCAGCATCGACGTGTTGCCCCAGGGCCTGAACCTGGGCCTGGTCAACGGCACCGTGGACATCCCCGGCATCGGCAAGATCCTCGACCTCAAGGTGCTGGCCCGGGCCTTGAAGAGCAAGGGCGGCACCAACGTCTTGTCGACGCCGAACCTGCTGACCCTGGACAACGAAGCGGCGAGCATCTTCGTCGGCCAGACCATCCCGTTCGTCAGCGGCAGCTACGTCACCGGTGGTGGCGGCACCAGTAACAACCCGTTCCAGACCGTGACCCGTGAGGAGGTCGGCCTGAAGCTCAACGTCCGGCCGCAGATTTCCGAGGGCGGTACGGTCAAGCTCGACATCTACCAAGAGGTCAGCAGTGTCGACAACCGCGCCTCCAGCACCACCGGGATCGTCACCAACAAACGTGCGATCGACACCAGCATCCTGCTGGACGACGGGCAGATCATGGTCCTCGGCGGGCTGCTGCAGGACGGCTACAGCCAGAGCAACGACGCGGTGCCGTGGCTGTCGACGATCCCCGGCATTGGCGCGCTGTTTCGCAACGAGCGGCGCCAGGTCACCAAGACCAACCTGATGGTCTTCCTGCGGCCCTACATCATCCGCGACACGGCGGCGGGTCGCGGGATCACCCTGAACCGCTACGACTTCATGCGCCGCGCCCAAGGCCTGCTGCAACCGGAGCGCAGCTGGGCGCTGCCGGACGTGCAGGCGCCGCAACTGCCGGCCTCGGCCCGGGCGATTCCAGGCGCCACGCCCGCCGGGTTGCAAACGCCGAGGGCGGTGATCAAGGCGGTGCCGGTCGAAGGAGGCGCTCGCTGA	MKGSRYPRHWRKAAPLLLLALGACTSTPPASQPPLLVDSELGIPLGSTQRSGDALLDRQRAQASREQKPPVRHQVDLTARARTPRSDAPASNPLGDQPVTLNFVEADIQAVVRALSRSTGQQFLVDPRVKGNLTLVSEGQVPARQAYEMLLAALRMQGFSVVDVGGVAQVVPEADAKLLGGPIYNADKPAGNGMLTRTFRLQYENAVNLIPVLRPIVSPNNPINAYPGNNTIVVTDYAENLSRVAQLIEGIDTPSAIDTDVVPIQNGIAVDIAQMVSDLLETQGGDQTQKINVIGDPRSNSIIIRAGSPERTELARNLIYKLDNAQNNPSNLHVVYLRNAQAAKLAQALRGLLTGESEGEGNDNSRSVLSSMGASTNGQSGQGNESATSPVSSTTSGSGSGYGQGSSGQTSSTTQSEQNTAFSAGGVTIQADATTNTLLISAPDPLYRNLREVIDLLDQRRAQVVIESLIVEVGEDDASEFGVQWQTGNLGGSGVIGGVNLGGTGLNLNGKTSIDVLPQGLNLGLVNGTVDIPGIGKILDLKVLARALKSKGGTNVLSTPNLLTLDNEAASIFVGQTIPFVSGSYVTGGGGTSNNPFQTVTREEVGLKLNVRPQISEGGTVKLDIYQEVSSVDNRASSTTGIVTNKRAIDTSILLDDGQIMVLGGLLQDGYSQSNDAVPWLSTIPGIGALFRNERRQVTKTNLMVFLRPYIIRDTAAGRGITLNRYDFMRRAQGLLQPERSWALPDVQAPQLPASARAIPGATPAGLQTPRAVIKAVPVEGGAR	PGPT0026425_384	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026425-gspD|epsD-K02453	NA	NA
D1-35_05203	192			hypothetical protein	ATGGACACCAACCCAGAAAACACTGCACCTGTGGCGAGGGGATTTATCCCCGCTGAGCTGCGCAGCAGCTCCAAAAAATTCAACAACATCAACCTGACATACCTTGTTGTCAGGTTGGGGGCCGCTGCGCGCCCCAGCGGGGATAAATCCCCTCGCCACAAGTGTTGTATCGAGCAGAAGGTGTCGGCATGA	MDTNPENTAPVARGFIPAELRSSSKKFNNINLTYLVVRLGAAARPSGDKSPRHKCCIEQKVSA				NA	NA	NA	NA	NA
D1-35_05204	1419	hxcR	COG2804	putative type II secretion system protein HxcR	ATGAACACCCTCCCATACGCCTGGGCCAAGGCCCAGCGCCTGGTATTGCGCCAGTCCGGGGAGGAGGCGGTGCTGATGGTCTGCCCCTCAACGCCGGGCTGGTCGATCAGTGAAGTTCGTCGCCAGTTCGGCGAGGTCCGGCTGGAACGGGTGCGTGACGAGGAGCTCGACGGCCTGCTCAATACCGCTTACGCCGACACTGGCAGCGCCGCCGCCGTGGTCGGCGCGGCGGAAAACGAGGTGGACCTCGACCGGTTGATGCAGGACATTCCCGAGATCACCGACCTGCTGGACACCCAGGACGGCGCGCCGGTGATCCGCATGATCAATGCGCTGCTGACCCAGGCCGCCCGGGACGAGGCCAGCGACATCCACATCGAACCCTACGAGAGCCATTCGGTGGTGCGCTATCGGGTCGACGGCACGCTGCGTGACGTGGTCTCGCCGCGCAAGGCCTTACATGGCGCGCTGGTGTCGCGGATCAAGATCATGGCCCAGCTCGACATCGCCGAAAAACGCCTGCCCCAGGACGGCCGCATCGCCCTGCGTGTCGCCGGGCGGCCGATCGACATCCGCGTATCCACTGTGCCCACTGGCCACGGCGAACGGGTGGTGATGCGCCTGCTGGACAAACAGGCCGGACGCTTGCAACTGGAAACTTTGGGGATGGACCCGGACGTGCTCGGCAAGCTCGACCACCTGATCCGCCAGCCCCACGGCATTGTGTTGGTCACCGGCCCTACGGGCAGCGGCAAAACCACCAGCCTGTATGCCGCCCTGGCGCGGCTGGACGCCAGCGTGCATAACATCCTCACCGTGGAGGACCCGGTGGAGTACGACCTGCCGGGCATCAGCCAGATCCAGGTCAACGCGAAAATCGACATGACCTTCGCCCTGGCCCTGCGGGCGATCCTCCGCCAGGACCCGGACATCATCATGATCGGTGAAATCCGCGACCTGGAGACCGCGCAGATTGCCGTGCAGGCCTCGCTCACCGGTCACCTGGTGCTGGCAACGTTGCACACCAACGACGCGGTGTCGGCGATCAACCGTCTGATCGACATGGGCGTCGAACCCTTCCTGCTGGCCTCGTCGATGCTCGGCGTGCTGGCCCAGCGGCTGGTGCGCAGGCTCTGTCCGCACTGCAAACAAGCCGATCCGGCCACGCCCGGCACCTGGCGCCCGGTGGGTTGCCCGAGTTGCAACCAGACCGGCTACAGCGGCCGCACCGGCATTCATGAACTGTTCTGCATCGACGACGACATCCGCACGCTGATCCATCAGGGGGCAGGGGAGCAGGCACTGCGCGCCGCGGCCCGCCAGGCCGGCATGTTCAGCATGCGCGAAGACGGCGAACGCTGGGTGCGCAGTGGCGCCACCGCGCCTGAAGAAATCCTCCGCGTAACACGGGACGCCTGA	MNTLPYAWAKAQRLVLRQSGEEAVLMVCPSTPGWSISEVRRQFGEVRLERVRDEELDGLLNTAYADTGSAAAVVGAAENEVDLDRLMQDIPEITDLLDTQDGAPVIRMINALLTQAARDEASDIHIEPYESHSVVRYRVDGTLRDVVSPRKALHGALVSRIKIMAQLDIAEKRLPQDGRIALRVAGRPIDIRVSTVPTGHGERVVMRLLDKQAGRLQLETLGMDPDVLGKLDHLIRQPHGIVLVTGPTGSGKTTSLYAALARLDASVHNILTVEDPVEYDLPGISQIQVNAKIDMTFALALRAILRQDPDIIMIGEIRDLETAQIAVQASLTGHLVLATLHTNDAVSAINRLIDMGVEPFLLASSMLGVLAQRLVRRLCPHCKQADPATPGTWRPVGCPSCNQTGYSGRTGIHELFCIDDDIRTLIHQGAGEQALRAAARQAGMFSMREDGERWVRSGATAPEEILRVTRDA	PGPT0026430_2462	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026430-gspE|epsE-K02454	NA	NA
D1-35_05205	1212	epsF_2	COG1459	Type II secretion system protein F	ATGAACCGCTACCGTTTCGAAGCCGCCGACGCCCAGGGCAAGATCGAATCCGGGCACTTGGAAGCCGACAGCCAGGGCGCTGCCTTCAGCCTGCTGCGCAGTCGCGGGCTAACGGCGTTGCAGGTGCAGCTCGAGCGCAACACGGCGCAGGCCAACGGCGGCGGTCTGTTCAGTGCCAAGCTCTCGGACAACGACCTGGCCTGGGCCACCCGCCAACTGGCGAGCCTGCTCGGGGCGAGCCTGCCACTGGAGGCCGCGTTGAGTGCGACGGTGGAGCAGGCCGAACGCAAGCACATCGCCCAGACCCTCAGCGCCGTGCGCGCCGATGTGCGCAGTGGCATGCGCCTGGCCGAAGCCTTGGCGGCACGGCCGCGGGATTTTCCGGAAATCTACCGGGCGCTGATTGCCGCCGGCGAAGAGTCCGGCGACCTGGCCCAGGTGATGGAACGGTTGGCGGACTACATCGAGGAGCGCAACAACCTGCGCGGCAAGATCCTCACGGCGTTTATCTATCCCGGCGTGGTGGGACTGGTGTCGGTCGCCATCGTGATTTTCCTGCTCAGCTACGTGGTGCCGCAGGTGGTCAGCGCGTTCTCCCAGGCCCGCCAGGACTTGCCCGGGCTGACCTTGGCGATGCTCACCGCCAGCGACTTCATCCGGGCCTGGGGCTGGCTGTGTTTTTGCGTCCTGGCCGGGGGCTTCTGGAGTTGGCGCCTGTACCTGCGCCAGCCGGCGGCGCGGTTGAACTGGCACGCGCGGGTGCTGCGCCTGCCGCTGATCGGGCGATTTGTGCTGGGCCTCAACACCGCGCGTTTCGCCTCGACCCTGGCGATCCTCGGCGGCGCCGGGGTGCCCTTGCTGCGAGCACTGGAGGCCGCGCGCCAGACCCTCTCCAACGACCGCCTGAGCCTGAGCGTCAGCGATGCCACCGCAAAGGTCCGCGAAGGGGTCAACCTGGCGGCGGCGCTGCGGGTGGAAAAAGTCTTTCCGCCGGTGCTGATCCACCTGATCGCCAGCGGCGAGAAGACCGGCTGCCTGCCACCCATGCTCGAACGTGCCGCGCAAACCCTGTCCCGCGACATCGAACGCCGCGCCATGGGCATGACCGCGCTGCTGGAGCCGTTGATGATCGTGGTCATGGGCGGGGTGGTGCTGATCATCGTCATGGCCGTGCTGCTGCCGATCATCGAGATCAATCAGTTGGTTCAATAG	MNRYRFEAADAQGKIESGHLEADSQGAAFSLLRSRGLTALQVQLERNTAQANGGGLFSAKLSDNDLAWATRQLASLLGASLPLEAALSATVEQAERKHIAQTLSAVRADVRSGMRLAEALAARPRDFPEIYRALIAAGEESGDLAQVMERLADYIEERNNLRGKILTAFIYPGVVGLVSVAIVIFLLSYVVPQVVSAFSQARQDLPGLTLAMLTASDFIRAWGWLCFCVLAGGFWSWRLYLRQPAARLNWHARVLRLPLIGRFVLGLNTARFASTLAILGGAGVPLLRALEAARQTLSNDRLSLSVSDATAKVREGVNLAAALRVEKVFPPVLIHLIASGEKTGCLPPMLERAAQTLSRDIERRAMGMTALLEPLMIVVMGGVVLIIVMAVLLPIIEINQLVQ	PGPT0026435_1032	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026435-gspF|epsF-K02455	NA	NA
D1-35_05207	1188	phoA2_1		Alkaline phosphatase L	ATGTTTAAGCGCAACGTTCTCGCGGTATCCCTGACCCTCGCCGGCCTCTGCGCCGCTCAGGCCGCCATGGCTGATGTCAATGGCGGTGGTGCAACCTTGCCTCAGCCTCTGTACCAGACTTCCGGTGTTCTGACCGCCGGTTTTGCCCCCTACATCGGCGTGGGCAGCGGCAACGGCAAACTGGCTTTCCTGAACAACGACTACACCAAGTTCGTGGCTGGCAACACCAGCAAGAACGTGCACTGGGCTGGCAGCGATTCGAAGCTCAGCACCACTGAGCTGAACAACTACGTCACTGCCCACGGCGCTGCCTGGGGCCCACTGATCCAGGTGCCTTCGGTTGCCACCTCGGTAGCCATTCCGTTCAACAAGACTGGCACTGCCAACGTTAACCTCAGCGTCGCTCAGTTGTGCGGCGTGTTCGCCGGCACACTGACTGACTGGAACCAGATCACCGGTTCCGGCCGTTCCGGCCCGATCACTGTGACTTATCGTGCTGAGAGCAGCGGTACTACCGAACTGTTCACCCGCTTTCTGAACGCCAAGTGCCCTACAGCTGTACCCGCTGTGCCCGGCACTTTCGCCATCACCACCAACTTCGCCTCCAGCTATAGCCTTGGCCTGCCAGCCGGCGCCGTAGCCGCCACTGGTAGCCAAGCTGTGATGGATGCGGTGAATGCTGCCCAAGGTCGCATCACCTACATGAGCCCGGATTACGCCGCCACCACCTTGGCCGGCCTGGACGACGCCACCAAGGTCGCTCGCGTTGCCGGTGTTTCCCCAGCCCCGGCCAACGTGTCGGCCGCAATCGCAGCCGTCACCGTGCCTGCTGCCGCCAACCGCGCTAACCCGAACGCCTGGGTACCGGTATTCGCCGCAACTACCAACCCTAGCGATCCAAGCGTTGTGGCTTACCCAACCACCGGCTACCCGATCCTGGGCTTCACTAACGTGATCTTCAGCCAGTGCTACGCCAACGCTGCACAAACCACTCAGGTGCGTGATTTCTTCACCCGTCATTACAACGCAACTGCGGCTAACAGCAACGATGCCGCAATCACCGCCAACCGTTTTGTGCCTTTGCCAGCTGCCTGGAAGCAAGCTGTTCGTAGCAGCTTCCTCACCAGCACCAACGCTCTCAGCATTGGTAACACCAACGTTTGCAACGGCATTGGTCGTCCGCTGTAA	MFKRNVLAVSLTLAGLCAAQAAMADVNGGGATLPQPLYQTSGVLTAGFAPYIGVGSGNGKLAFLNNDYTKFVAGNTSKNVHWAGSDSKLSTTELNNYVTAHGAAWGPLIQVPSVATSVAIPFNKTGTANVNLSVAQLCGVFAGTLTDWNQITGSGRSGPITVTYRAESSGTTELFTRFLNAKCPTAVPAVPGTFAITTNFASSYSLGLPAGAVAATGSQAVMDAVNAAQGRITYMSPDYAATTLAGLDDATKVARVAGVSPAPANVSAAIAAVTVPAAANRANPNAWVPVFAATTNPSDPSVVAYPTTGYPILGFTNVIFSQCYANAAQTTQVRDFFTRHYNATAANSNDAAITANRFVPLPAAWKQAVRSSFLTSTNALSIGNTNVCNGIGRPL	PGPT0002625_734	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
D1-35_05208	1170	phoA2_2		Alkaline phosphatase L	ATGTTCAATCGTTTATCCAAGGCTGTTGCATTGCTGTGCAGCGGTATATGCGCGCCGTTGGCAATGGCGGATGTCAACGGTGGCGGCGCTACCTTGCCCCAGCCGCTTTACCAAACGCCTGGCGTGTTGACGGCCGGTTTCGCTCCCTACATCGGTGTGGGTAGCGGCAATGGCAAACAGGCTTTCCTGAGCAATGACTACACCAGATTCGTGGCAGGCGACACCAGCAAGAACGTTCACTGGGCCGCCAGCGATTCGAAGCTCACGTCGACTGAGTTGAGCTACTACAACTCTACTCACAGTGCCACTTGGGGGCCATTGATCCAGGTGCCCTCGGCAGCGACCTCAGTTGCCATTCCGTTCAATAAGGCCGGCACCGCCAATGTCGATCTGAGCGTTAACCAACTGTGCGGGATCTTCTCCGGTCGCCTGACCGACTGGAGCCAGATCAACGGCTCTGGCCGTACCGGTCCAATCACTGTGGTTTACCGTGCCGAGAGCAGCGGAACCACGGAATTGTTCACCCGCTTCCTGCGCGCAAAGTGCGCGGAAACAGGCAGCTTCTCTGTCACCACCAACTTCGCCTCCACCTATAGTGGCGGCCTACCGGCCGGTGCAGTATCAGCTAACCGCAGTCAAGGTGTCATGGATGCGGTGAACGCAGCTCAAGGTCGTATTACCTACATGAGCCCTGCCTATGCGGCGTCGACGCTAGCGGGTCTTGATGACGCCACAAAAGTGGCGCGGGTTGGTGGTATTTCTCCGGCACCAGCAAACATTTCGGCGGCCATCGCTGCTGTTCCAGTACCAGCCGCCGCCAACCGCGCCAACCCGAACGCCTGGGTGCCAGTGTTCGCCGCAACCACCAACCCTAACGATCCAAGCGTCGTGGCTTACCCTACTACCGGCTACCCGATCTTGGGCTTCACCAACGTGATCTTCAGCCAGTGCTATGCCGACGCCACCCAGAGTACGCAGGTGCGAGGCTTCATCGCCCGTCACTATAACGGCTTAGTAGCCAGCACCAACGACGCAGCGATCACCGCCAACCGTTTTGTGCCGTTGCCAGCTGCCTGGAAGCAAGCTGTTCGTAGCAGCTTCCTGACCGCTACCAACGCCCTTAGCATCGGCCACGCCAACACTTGCAACGGCATCGGTCGTCCGCTGTAA	MFNRLSKAVALLCSGICAPLAMADVNGGGATLPQPLYQTPGVLTAGFAPYIGVGSGNGKQAFLSNDYTRFVAGDTSKNVHWAASDSKLTSTELSYYNSTHSATWGPLIQVPSAATSVAIPFNKAGTANVDLSVNQLCGIFSGRLTDWSQINGSGRTGPITVVYRAESSGTTELFTRFLRAKCAETGSFSVTTNFASTYSGGLPAGAVSANRSQGVMDAVNAAQGRITYMSPAYAASTLAGLDDATKVARVGGISPAPANISAAIAAVPVPAAANRANPNAWVPVFAATTNPNDPSVVAYPTTGYPILGFTNVIFSQCYADATQSTQVRGFIARHYNGLVASTNDAAITANRFVPLPAAWKQAVRSSFLTATNALSIGHANTCNGIGRPL	PGPT0002625_798	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
D1-35_05209	12432			hypothetical protein	ATGCTGCGCTGCAAACCCCAGACGAACCTGAATGCCCCACGTCGCGATGGCGAGTTGTCGATGTTGCGACTCAAGCCGCTGGCCCAGGCCATTGCCCTGCTGATGGTGGCCGGCAATGCCCACGCAGCGACGGCGTTCAGTTCGGCCTGGTTTGCCGCCAAGGGCGCGCCTCAGGCCGGCGGTGCGGGGCGACCTGCAACGGCGCAGCCAGGCATGCCGCCACCCCTGGCGCAGCAGCAGCGGGCCAATGCGCAGTTGCAGCGTTCGCTGACCAACCTCAACAACACCGTGGCCGCGATAGCCGCCCAGCAAGCGGCACAGGCGGCCGGGCGGCAAGCCGCGTTCGGCCAGTTACAGGTGGTGCCTGACGGTTTGGGCGAGGGCGGGCTCAAGGTCGATAACAGCCTGACCCAGGGCTGGCTCAACGCCAAGGGACCGCAGCAGACCCAGGACGGCGGCAAGACCACGGTGAAGATCGAGCAGACCGCCGACAAGGCGATTCTCAACTGGGAAACCTTTAACGTCGGGCGCAACACCACGGTGGATTTCCAGCAGCAATCGGACTGGGCCGTGCTCAACCGGGTCAACGACCCGCAGGCGCGACCGAGCCAGATCCAGGGCCAGATCAAGGGCAACGGCACGGTGATGCTGGTTAACCGCAACGGCATCATTTTCAGCGGCAGCAGCCAGGTCAACGTGCGCAACCTGGCGGCGGTGGCGGCGAACATCAGCGATGAGCAGTTCAGCCAGCGCGGGTTGTACGTCGATGCCACCGGCACCCAGCCAACCTTCACCGATGCCGCCGGCAAGGTCGAAGTGCAACGCGGTGCGCAAATTGAAACCCACCGCGCCGCCACTTCAACCGCAGGCGGTGGCTATGCCTTGCTGCTGGGTTCGGAAGTGGAGAACGCCGGCTCCATCATCACCGCCAAGGGCCAGACCACCCTGGCGGCGGGCGACAGCTTCTACATCCGCCGGGGCCAGGGCACCAGCGGCAACTTGCGCTCCACCACCCGTGGCAACGAGGTCGCGACGTCACTCAAGTCAGGCAGCAGCGCCGGCACCGTGATCAACAGTGGCCTGATCCAGGCCAGCACCGGCGACATCACCCTCACTGGACATCGCGTGCAGCAGAACGGGGTGGCGGTCGCGAGCAGTTCGGTGGATACGCGCGGCACCGTGCACCTACTCAACGCCGCGAGCGACAGCAGCGGCAGTGTGACCCTGGGGCAGGGCAGCGCCACGGCGGTGCTGCTCGACGCCGCGGGCGGCAGCGCCCTGGACAGCCAACGCAATGCCGGACCGGCCGGCCTGGACGGCACGCCGAACAACCTGATCACGGGCCAGTTCAACAACCTCAGCAGCGTGGTCGACCGCACCGACCAGTCGCGGGTCGAGATCGTCAGTGGCGGCAGCGTCGACTTCCAGAACGGCTCCATCACCCTGGCCACCGGCGGCCAGGTTGCGGTCAGCGCGGCCGGTCGCAGCCTGGTGCGCGATGGCGTGGTGATCGACGTGTCCGGCGCCATCGGCGTCAAGGTGGCGATGGAATCGAATTCCATCAAGGTCAACGTCCAGGGCAACGAACAGCGTGACGCCTCGGTCAACCGCGAAGGCGGCAAGTTGACCAACAACGACGTGTGGGTGGACGTGCGGGATCTGGTCTACGTCCCGGCGGGTACCAACGGTTACGCCACCGACCGCTGGTACACGGCGGGTGGGCTGTTGGAAGTCGGCGGCTATTTGGGGACCCGAGGTCACAGCGCCGGTGAGTGGGCAGCGCAAGGCGGCACCCTGACGTTCACCGGTAACGACGTGGTGACCCAACAGGCGGCGCAACTGAACCTGTCTGGCGGTACCCTGGATGTACAGAGCGGCTACTTGCGCCAGTCCTGGCTCAAGGGCCCCAACGGGCGTTTGTATGACTTGTCCAAGGCGCCGGGGGACATCCTCTACACCGGCATCTACAAGGGTTACGAAGACCACAGCCAACGCTGGGGCCAGACTGATTACTACTACAATCCGCTGATTGCCCCGCGCGAGCGTTTTGAAGCCGGCTACACCGTCGGCCGCGATGCCGGCAAGCTGGTGGTGTCGACCCGCAACGCGGTGCTGGAAGGTCAGATCGTCGGCGAGGTCTACCAGGGCGAACGCCAGACCCAAGCGCCGAACCTCAACCTCGACGGCTACAAGCAATCGCAGAACGCCGTGGCCCGTCGCGCGCAATTATGGGTGGGCAGCTACTCGCCGATCTATGACAAGACCAGCGGCGTGATCAACAGTGGCCTGAACCCAACCTTCGACCAGGTCACCGTCGGCAAGGTGGCCGACAAGCTTGCCGCGATGCTGGACCTGACCTCGGTGGTCGGCACTGACCGGCAAGGCAAGCTGGTGCTGGACAATGCGTTGCTCAATGGCTTCCAGCTCGGCGCGGTCAAGGTGGCGGCGGCTGAAGGCATCCAGGTCGACGGTGCACTCAAGGTCGCCGACGGCGGCGATATCACGCTTTATGCCCCGCAGGTCGAGGTGAACGCCGACCTGACTGCCCGCAGCGGTCGCATTGCCTTGGGTAACGTGCTCAAACAGGTCAGGACGGATAATTTCCAGATGGCAGACGTCACACTTTCACCCGCCACGGGACAGCGGGCGACGGTCACCTTGGGCGAAGGCGTCAAGCTGAACACCGCCGGGCGCTGGAGCAATCTGCTGCTCGACGGCAACGACCGCCAAGGCCTGCCGTTCATCAACGGCGGCAGCGTGTCCGTGCGCAGTACTGGCGATATCGATGTGCAGCAGGGCAGCCTGATTGACGTCAGCTCCGGCGCTGCCGTGATGGCCGATGGCAAGACTCGCGGCGGCAAGGGCGGTGACCTGACCTTGACCGCGAGTATTGGTGCATCGTCCGGTAACGGTGACTTGATCCTCAAAGGTGAACTGCGCGGTACCGGCGTGAGTGGCGGCGGGACCTTGAAGCTGGCGGCCAGCAAAGTGCTGATCGGCAACAGCAACATTCCTCTCGAACCTGGCACTTTGCAACTGGGCGGCGATTTCTTCGACAAGGGTTTCTCGGCCTATGACATCACCGGTAATCAAGGCCTGACCGTGGCCGACGGGACCCGGGTCGATGTGACGATGCCGGTGTACCGTTTCGGTGAGCAGGCTTTGACTCCCGGCAGCAACGCAGAACCGGCTGATGCCTTGCAGCGCTGGACGCCGGAGCTGTATCAGGAAGATGCGATCAAAGGTGTTCTCACCCAGCGCCACGGCGCGAGCCTGAGCCTCAGTGCCGGTACCGCGAACTCCAGCGCGGCAGACATGGCCAGCACGGTATTGAACATCGGGCGTGGAAGCGTGATCAGCGTCGATCCGGGACAAGGCATCGACTTGCGCAGCATCGGTCAACTGACCGTCAACGGCACCCTCAACGCCTGGGGAGGACGAGTCAGTCTCACCGAACTGAGCGTCAGCAACCCAGTTCGCAACCCGGTCAATGCCCAAGGCCATGGACGCTCCATCTGGTTAGGCGAGCAAGCGTTGATCGATGTCTCCAGTCGGGCCGTGACTGCCAAGGACATGCGCGGCCAGACCTATGGTCTGGTGCGTGACGGTGGCGAGATTGTCATTGGTGGTCAGATTGATGTCGCGAAAGGATCGGCTTCGGCGCCGGAATTGTTCGTGGTGATGCGCGAGGGGGCACGCCTGCAAGCGGATGGCAGCCAGGCAATGCTGGATGTTCCTGGCCAGGGACGCACATCGGTGACGAGCAACGGTGGCAGTATTTCCCTGGCGTCGGCCAATGGCCTGTACCTGGACGGCGAATTCAGTGCCCGTTCCGGTGGCACGGGGGCCGCAGGGGGAAGTTTGTCGGTGGCGCTGGAGACACCGTATTACCTGAAAAGCGCGGTCAATGACCGGGTCTTGCAGTTGCGTGAACTGGTACTGGGACAAACCGCCCAGGCGAGCCCGCTAAGCGACACCGCCGAGGCCTCGGCGGATGCGTTGATCTATGGTCATGGGCGTTTGGGTGTGGACCAGGTCCAGGCGGGCGGCTTCGACAGCCTGTCTCTGCTGAGTAACGGCATTATTAGTATCGGTGGCGACGTGTCGCTGTCCCTCGGCCAAAGCCTGAGCCTATATGCGCGTAGCTTCGGGTTGAGCTCAGCCGCGCCAGCCGACACCCGTGTTCAACTTAATGCAGCTCATCTGCTGCTGGCGGGGCCGGCGGCCAGTCTACCGAATATGGATTCCTATACCCGACCGCTGATCGAAGGCGACGTATCGCCACTTGCGAACAAGGCGGTGCTTTCCGTCAACGCCGACTTGTTGGATGTACAGGGCAATGTGAGATTCAGCAGCAAAGGCACGCTGAGACAGGCCAATGGCACCACGGTCGAGTTGGAGCGCGCCGGGTTCGACCTGGTCCAGTTAAGCAGCCGTGGTGATTTGCGCTTCCTGGCGGGATTCTCCAGCGAAGGATTGCCTACGGGCTTTACCACGCAATTAATGACTCCTTCGGACATGATCCTGCAAGCGGCGCAACTGTATCCGGCGACTGGGGTCGGGGCTCGGGTATTGGCGGGGTATAGCTTGAGTGGCACCTCTGCCTACGACCCGGCGCGCAGCTTGGTCATCGGGCGGACTACCCAGGTGACGCCTCAGGTACCTTATTCGGCATTCGGTCACTTACAACTGGGCAGTGCGAATATCGAGCAGGGCGGGGTGGTTCGGGCCCCGCTGGGGTTGATTGAGGTCGGCACCAACGACGGCACTAGCATCACTAGCCAAGTGGACTTGCTGCCGAACAGCCTCACTTCAGTCAGTGGCCTCGGTCTGGTTCTGCCTTACGGCGGTACCGTCGATGGTCAGAGTTATGAGTACGCGGGCAAGAAGGTGGTGCTTCTGGGGCAAGGGGCCATCTCCTATGGCAACGGGGATCTGAATATTGGTGTGATTCTGGGCGGAAAATCTGTTGTGGCCCAGGAAGGCTCGGTACTCGATCTTTCGGGCGGCGGTGATCTGCTGGGTGCCGGTTTCATTTCCGGCCGTGGCGGCTCCACCGACGCGCGCTTCAACCCGCTGGTGCAAATCGGTGCCAACGGCGGCTTTACTTTACCGGGCCTGTCCAGCAACCCGGTCTACGCCATTGTGCCGGGCAACCAGAGTGCATACGCGCCAGTGGCGCCCGAGGGCGGCGCAGTGGACCCCAGGATCGGACAACAAATCACCCTTGGCGCCGGTGTACCGGGGCTGGCCGCCGGTACCTATACGCTGATGCCGTCCACCTATGCCTTGCTGCCGGGGGCGTTCCGGGTCGAGGTCAACGGTCTGGCGGGTCAGGGTTCCACGGCGGGTGCGTTGCAGATGCGCAACGGCTCCTGGACCACCGCCGGGGTGCTGTCGGTGGTCAATACCGAGCAGCGCAACAGTCTGTCCAGCCAGGTCATCCTGACTTCGGGCGATGTGCTGCGTCGCTATTCGCAGTACAACGAAACCAGCTACGCCCAGTTCGCTGTAGCCGATGCCGCACGCCTGGGCGTGCCACGAGCCCTGTTGCCGGTGGACGCCAAGACTTTGAAGTTGAAGCTCGCGCAAGGAGCGGGAGATCAGGCGTTCTCCTTTAAAGGCATCGGCAAGTTCGCGCCTCAAAAAGGTGGCTACGGCGGTACCGTCACGGTGGTTGGAGGTAATGGGGCGTTGGAGGTCGTTGCCGATGGGCGCGGGGCCACGGCCGGCTTCGAGGGCGTGACCCTCAATGCCGAAAGCCTGAATGCCTTGAATGCATCACGTCAGGTTATTGGCGGCCAGTTCTTGACGCTCTATGGGCAGAGCGGAAACTACATCACGCCCTCGAGCAGTGGAGGTAGAACCTCGTCCAGAGTGATCTTGCGTGAAGGTGTTACGTTGGCGGCACCGGAGGTTTTCCTGCTGGCCAGCGGCGAGGTGTCGATGGAACAAGGCGCCGCCATCAATACCATTGGTCGTGGCGCGGCTGCCTACGATGCCCATGACGGTTTTATCTATGACCTCAATGTGAGTGGTCAGAACTTGCTGGCCGCCTCCAACGGCTTGCTCAACGTGTTGGCACCCTCATCGGGCAGCAGCGGCACCATCAACATCGGCGGCTGCAGCCTGACGCCATGCAGCGGCGTCACCCGAATTCATTCCGAGGGCAGCATCGTCGCCGCCACCGGAGGGAGCCTGGAATTGGACGACAAGGTGCGCTACGGCACCCGTCACCTGACCCTGGCCCTGAGCAATATCAACGTCGGCACCGCCCCGGCATTGAGCGACGCAGCGGCGCGTCAGGTCTTGCCGGCCGGCCTGACCCTGAGCCAGACCGTGCTCGATCGCCTGCTGCGCGGAGACACCGAATACGGCGCCCCGGCCCTGGAAACCCTGGAACTGTCGGCGCGTGAGGCGTTGAATTTCTACGGCACTGTCAGTCTCGACACCTATGACCCGGTGACGGGCAAGTCGCGGTTGGCCAACCTGATGCTCAGCACGCCGGCCATTCATGGCGCAGGCAGCGTCAACGACGTGGCGACCATTCGCACCGCCAACCTGATCTGGAACGGTGCCGTCGGCGCGCCGGGTTCGGTCATCGCCGGCGGGGCCGGCACCGGTGCCGGTCGCCTGGACATCCAGGCCCAGCGCATCGAGTTCGGTTATGGCGAGTTCGCCCAACCGAGCTCGATCACCACCCTGGACCGCCTGGCCCTGGGCTTCGCCAACGTCAACCTCAGTGCCAGCGAACGCTTGACCGCCAATCACAAGGGCAGCCTGGCGGTGTATCAGAGCCAGGGCGCCTATGACGCTAAAACGGGCTACGCCTACAGCGGTGGCAACCTGAATATCCTCACCCCGTTGCTGACTGGCGAAGCCGGTTCGGTCAACCGCATCACCGCGGGCGGTGCGGTCAATGTGACGGGCGCGACCGCTAAGCCGGGCACTGTCTCCGGGCTCGGGGGCGAGTTGTCCCTCAAGGGAGCGAGCCTCAACCTGGCCAGTGCGGTGGTGTTGCCCAGCGGCAAACTGACCCTGAGCGCGACGGATGACCTGACCCTGGCCGATGAGGCGCTGATCGACGTGGCGGGTCGCACGGTCACCTTCAACGATGTCACGCGCTACAGCGCTGGTGGCGAGGTGATCCTGCAAAGCCAGAACGGCAACATCCGCCAGGCGGTTGGCTCCAGCATTGATCTGTCGGCGCGCCACAACCAGGCCGGACGGCTCAGCGCCGTGGCCTTGGGCAGCACGGCCGGGGTTGTCGACCTGCAAGGACGAATCCTCGCCAGCAGCACTGGCGAATACGATGCCGGTGGCACGCTCATGCCATACCTGGCCGGTGGCGTGCAAATCCAGGCCCAGCGCCTGGGCGACAATGGCAGTCTCAGCGAACAGTTCGCCGCGTTGAACCAACGCTTGAGCGACGGCCAAGTGTTCGGCTCCCGCAGCTTCCAGCTCAAGCAGGGCGACCTGGTGATCGGCAACGAACTCAAGGCTTCGTCCATTGACGTGTCCCTGGACAACGGCAGCCTGTTGATCAACGGCACGGTGTACGCCAGTGGTGAGCGGGTCGGCAGCATTTACCTGGCTGCCAAGAATGCCCTGACCCTGGGCAGCGGTGCCGTGCTTGACGCCCATGGTCGACGCCTGCGGGTGGACAGCTACGGCAAGATCATCGACTCGCCGAACCGTGCCATCGTTGACTTGACCGCCAGGGAAGGTCTCCTGACCCTGGGTAACGGCGTGCGTATCGATTTGCGCCACGGTACCGAAGTCGCGCTGGGCAGTGCGTCCGGTATGAACGACGGTCGGCCTCGCGGGACGTTGCAACTCAGCGCGCCACGACTGAGTGGCGTGTCGGGGGGCGACGTGGCGATCGATGCCAGTGGTGCCCTGGACGTACAAGGCGCCCGTTCGATTGCGTTGGTTGCTACGTGGCAATACAGCGACGCGCCGCTGGTGAACGTGCCGGCGGCCAGCGGCAAGCCTTATCAGGTCATCAATCAGGCATGGCTGAAGGATGTGGTGGACCCCGACAACACCGCCTTTATCACCAACGCTCACGACAACAACGATCTGTTGCAGCGCAAACTCGCCGGGCTGAACAACAGCCGCTATCGCGACGTGTTCCACCTGCGCCCCGGTGTAGAGGTGGTGAGTGCGACGGCCGATGGCGACCTGGTGGTCCAGGGGGATCTGGACCTGTCGCAATATCGCTATGCGAGCCTCAATCCGCATAACGTTTTGGATGAAAACGTCTACGGCTCCGGCGAATCCGCCAGCCTGACGCTGCGCGCCGGCGGTGACCTGAACATCTATGGCAGCATCACCGACGGTTTTGCCCAGCCGCCCGCCAGCAACGATGACAAGGGCTGGGTGCTGTTGCCAGGCATTGATTTTGCGGCGGGCGATATCGTCGTGCCCGGCACTGGCGTGACCCTGGAGGTCGACACCGCGTTCCCGGCCGGCTCGGTGCTCAACTTCGACGTGCCGCTCAAGGGCGCGACCCTGGCTGCGGGAACGCGGTTGCCGGTCGCCGCCACGCTGGATCAGCCAATGGTACTGCCGGCCGGCACGGTGCTGGCCGCGGCGGTGCATGACGCACAGGGCAATCTGTTGTTCGCGGCCGGCACGTTGTTGGCTTCGACCCAAACCCTGCAGGCGGGCACGGTGCTCGGGGCGGGCAGCCTGCTGGGCAGCAGCGCAACGATAGGCAACCTGATCTGGCCCAAAGGCGTTGCGTTGCCAGACATTGAAGGCGCGAGTAACGGCTTGACCAACGTGCTGCGTCTCAGCAGCGCCCTGGCACTGAGTGTGGGTTCGAAAATTCCGTCAGGTACCGACATCAAGTTGCCGGCCGGTGTCGAGTCGGTGCAGTTGCGTCCGGAAGTGGCGGGGAGCAACTGGGCCATCGCGCCGATGCTGGCCGAGGGCTCGCAGTCCTGGTCATTGCGACTGGTGGCCGGTGCCGATACGCAGGCGGCGGACAGTCGGGTCGTACGGCCGGTGCTGGCGGGTGGTGATCTGCATTTGGCTGATAGTCACTACGGCACGTTCGGCGTGGCGTCGATGGTCTGGACCGAAGCAGGATCGCTGGATTGGTTCGGCGACACCAGCATGGTGGGGCTGCCGGTTGACTTTGAAGTTTTTGATTACCCCAACTTATGTGTCGACAATCCACTTCATTGTGAAGCTGGCGGAGCACCTGAATACGAGCCCGGCAGCCAACGTTGGAGTGTCATTCGCACCGGCGCAGCGGACTTGGAGCTGCTGTCGGCAGGTGATCTGAAAATGGACTCGCTGTACGGCGTCTATACCGCCGGCAGTTCAGCCAGCGAAACGTACGCCAACGACCCGTACAACCAACCCAAGGCGCGTGCGGCGGCGGGCAAGGTGCTCAATGATGCACTAGGTGAAAACGAGCAATTCGTGGATGGCGGTTCCAATAGTCTTTACCGCGCCTGGTACCCGGACTTTGGCGGCAACCTGAGTTTGAAGGTCGGCGGCAATCTGACCGGTAATAGCCTGGATGTATCGAGTGCGAGTATAGGGCGGCCCAATGGAGGAGACATTGGTTACGATACGGTCAACGTCGGTAATTGGCTGTGGCGTCAGGGCAATGGCTCAGTCGCAACCGGTACGCAGGCACAACCCACCGCTTGGTGGATCAATTTTGGTAGTTACACCGCCGCGAAGGACGGCAAGGCTGACCTGATGGTTGGGTTTACCGGTTTCGGTACTCTGGGCGGCGGTAACCTGAATGTTCAGGTCGCCGGCGATGCGGGGGAGCTCGAACAGATGGCAGGGAGTCGTCTTGTGCCAGGCAGCAACAGCCGCAGCCAAGGACTGGTTCTTGCCGTGGGCAGCACCGGGCGTGTGGGCGCTGATGGCAGCCTGCAATTGACCGGTGGTGGTGATCTCAACCTGCGTGTAGGCGGCGCCTTGAATCCCGATAGCGCGTTCGTCGACGGGCATCTGAACGGTGCGGTCATCAACCTGCGGGGCCACGCGCAGATCGACAGCGGTGCCATCGGTCGAATTGACCTGCGCTATGGCAACGTTGCTTCGGCACAGTCTCCGGGGGAAACGCGTGCGTACGACTCCTTCAGAGCCACACGTAGCCTGCCAACAGGCGGGCTGACCCTGATGCCGGGCGATGCCACGTTCGATCTGACAACTTCGGGCGACCTGGTAGTGATGGACGTAGCGGACCCTGGCCGGGCGCCGATGATGAGCGTATCGCCCTTCAAAGATGGCGCCACTAACGGATCCGGCGTGAGCTGGTTTTCGTTATGGACCGCCAACACGGCAGTTGATCTGTGGTCATCGGGGGGGAATCTGACGCCTGTGGTGCCAGAGGTCGAGACGGATCTGGCGGTGGTCTACCCATCGATCGTGAGGGCTGTGGCGGCCAATGGCAGCCTTTACTATGGCAAGTCCTCGGTATGGGATGGAACAGGTTATGACGGCAACAATCGTCCAGCCCTGTTGCTCGCTCCCGGCATCAACAGTGAGTTGCAATTCATGGCCGGCGATTCCATCTACGGCGGCGACATGTCGGTCAGTCGTTCCGGTGCATCCTCCGCAGCCCTGGCAACGCCGTTCAGGCCAGCCTTTGTGGGTATCGTCGAGACTGTCGAATCCGGTCCCGTCATAAAAGCCAGCAATCTCTCAGCCGATGGCAACCTCGCTCGCCCTAGTGCGAACATATTGCCGCTGTTTGCCTTCGACACCAGCAGTACCTCAGGCGAATGGGCCCTCAATGACGACCCTGCGCGCTTCTATGCGCTGGAAGGTGATTTGCTGGCTGTCACCAGCGGACGGTCGATGACATCGGCATCCGTTGGCAGGTGGCCAGGGCGAATCGCCTACGAAGGCGCCGGAGCTGTACGAATGATGGCAGGACGAGACATCGTCAGTAGCGGGATTCCACTGGGCGGCTCTTTGAGCAACAACTCCCAGGCAGGGGATTACACCAGCGCCGGCAACCTCTTCATCCACAACAACCCCACCGACATCTCAATCGTTTCAGCCGGGCGCGACATCCTCTACAGCAGCTTCAACGTCGCCGGCCCCGGCCTGCTGGAGATCACCGCCGGACGCAACATCCTGATGGATGACAAGGTCAGCATCACCAGTATCGGCGCCGTGGTGCCGGGGGATTCGCGCCCTGGGGCGAGCCTGGTGCTGCAAGCCGGCGCCGGCCTCGACGGCGCCGATTACCAGCGCTTCGTCAAGGCCTACCTGGACCCGGCGAACCAGGCCCTGGCCGGTGTGCCCCTGGCGGACCAGGATGGCAAGGTCGCCAAGACCTACGAAGCGGAGCTGGTGAAGTGGCTCAAGGAACGCTTCGGCTTCAGCGGCGATACCGAGCAGGTCCGCAGTTTCTTCGCGGCGTTGCCGGCGGAGCAGCAACGGGTGTTTGCCCGCGACGTGTACTTTGCCGAGCTCAAGGCCGGTGGCCGTGAGTACAACGAAGTCGGCGGCGTGCGCCAGGGCAGCTATCTGCGTGGACGAGAGGCGATCGAGTTGTTGTTCCCGACCAAGGACGTGGCGGGCAATGCGATCACCTACAAGGGCGACATCACCATGTTCGGCGGGGCAGGGGTGCACACCGATTTTGGTGGCGGCATTCAGATGCTCACTCCCGGCGGCGGGCAGACGTTCGGCATCGAAGGCAACGCGCCGCCGTCCACCGCCGGGGTCATCACCCAGGGTGAGGGCGATATCCAGTTGTATGCGAAGAACAGCATCCTGCTGGGGCAGAGCCGGATCATGACCACTTTTGGTGGTTCGATCCTCAGTTGGTCGGCTCAGGGTGATATCAACGCCGGTCGTGGTTCGAAGACCACCGTGGTCTACACGCCGCCCAAGCGCCTGTACGACACCTGGGGCAACGTGACCCTGTCGCCGTCGGTGCCGAGCACGGGGGCTGGTATCGCCACTCTCAACCCGATTCCAGAGGTAGCGCCGGGGGATATCGACCTGATCGCGCCGCTGGGCACCATTGATGCGGGCGAGGCGGGGATCCGCGTGTCAGGTAACGTCAACATTGCGGCGTTGACCGTGGTCAACGCGGCCAACATCCAGACCCAGGGCAAGTCCAGCGGCGTGCCGCTGGCGGCTTCGGTGAACACCGGGGCGATCACCTCGGCCAGTTCGGCGGCGTCCTCGGCCACGCAAGCGGCGGAAGACGTAGCGCGCCAGCAGCAGAATGCGGCGCGGCAGAACCAGGCCTCGGTGTTTACCGTGCAGGTGGTGAGTTTCGGCTCCGAGCAACTGGCGCCTTCGCGTGATGGCGCCAGCCGTGAGGCGCCACGCACCTATGATCCGGCCAGTCCGGTGCAGGTGCTGGGCGCCGGGCCGTTGGACGAGCAGGCGCGGCAGCGGTTGACCGAGGAGGAGCGGGGGCGGTTGAGCTTGTAG	MLRCKPQTNLNAPRRDGELSMLRLKPLAQAIALLMVAGNAHAATAFSSAWFAAKGAPQAGGAGRPATAQPGMPPPLAQQQRANAQLQRSLTNLNNTVAAIAAQQAAQAAGRQAAFGQLQVVPDGLGEGGLKVDNSLTQGWLNAKGPQQTQDGGKTTVKIEQTADKAILNWETFNVGRNTTVDFQQQSDWAVLNRVNDPQARPSQIQGQIKGNGTVMLVNRNGIIFSGSSQVNVRNLAAVAANISDEQFSQRGLYVDATGTQPTFTDAAGKVEVQRGAQIETHRAATSTAGGGYALLLGSEVENAGSIITAKGQTTLAAGDSFYIRRGQGTSGNLRSTTRGNEVATSLKSGSSAGTVINSGLIQASTGDITLTGHRVQQNGVAVASSSVDTRGTVHLLNAASDSSGSVTLGQGSATAVLLDAAGGSALDSQRNAGPAGLDGTPNNLITGQFNNLSSVVDRTDQSRVEIVSGGSVDFQNGSITLATGGQVAVSAAGRSLVRDGVVIDVSGAIGVKVAMESNSIKVNVQGNEQRDASVNREGGKLTNNDVWVDVRDLVYVPAGTNGYATDRWYTAGGLLEVGGYLGTRGHSAGEWAAQGGTLTFTGNDVVTQQAAQLNLSGGTLDVQSGYLRQSWLKGPNGRLYDLSKAPGDILYTGIYKGYEDHSQRWGQTDYYYNPLIAPRERFEAGYTVGRDAGKLVVSTRNAVLEGQIVGEVYQGERQTQAPNLNLDGYKQSQNAVARRAQLWVGSYSPIYDKTSGVINSGLNPTFDQVTVGKVADKLAAMLDLTSVVGTDRQGKLVLDNALLNGFQLGAVKVAAAEGIQVDGALKVADGGDITLYAPQVEVNADLTARSGRIALGNVLKQVRTDNFQMADVTLSPATGQRATVTLGEGVKLNTAGRWSNLLLDGNDRQGLPFINGGSVSVRSTGDIDVQQGSLIDVSSGAAVMADGKTRGGKGGDLTLTASIGASSGNGDLILKGELRGTGVSGGGTLKLAASKVLIGNSNIPLEPGTLQLGGDFFDKGFSAYDITGNQGLTVADGTRVDVTMPVYRFGEQALTPGSNAEPADALQRWTPELYQEDAIKGVLTQRHGASLSLSAGTANSSAADMASTVLNIGRGSVISVDPGQGIDLRSIGQLTVNGTLNAWGGRVSLTELSVSNPVRNPVNAQGHGRSIWLGEQALIDVSSRAVTAKDMRGQTYGLVRDGGEIVIGGQIDVAKGSASAPELFVVMREGARLQADGSQAMLDVPGQGRTSVTSNGGSISLASANGLYLDGEFSARSGGTGAAGGSLSVALETPYYLKSAVNDRVLQLRELVLGQTAQASPLSDTAEASADALIYGHGRLGVDQVQAGGFDSLSLLSNGIISIGGDVSLSLGQSLSLYARSFGLSSAAPADTRVQLNAAHLLLAGPAASLPNMDSYTRPLIEGDVSPLANKAVLSVNADLLDVQGNVRFSSKGTLRQANGTTVELERAGFDLVQLSSRGDLRFLAGFSSEGLPTGFTTQLMTPSDMILQAAQLYPATGVGARVLAGYSLSGTSAYDPARSLVIGRTTQVTPQVPYSAFGHLQLGSANIEQGGVVRAPLGLIEVGTNDGTSITSQVDLLPNSLTSVSGLGLVLPYGGTVDGQSYEYAGKKVVLLGQGAISYGNGDLNIGVILGGKSVVAQEGSVLDLSGGGDLLGAGFISGRGGSTDARFNPLVQIGANGGFTLPGLSSNPVYAIVPGNQSAYAPVAPEGGAVDPRIGQQITLGAGVPGLAAGTYTLMPSTYALLPGAFRVEVNGLAGQGSTAGALQMRNGSWTTAGVLSVVNTEQRNSLSSQVILTSGDVLRRYSQYNETSYAQFAVADAARLGVPRALLPVDAKTLKLKLAQGAGDQAFSFKGIGKFAPQKGGYGGTVTVVGGNGALEVVADGRGATAGFEGVTLNAESLNALNASRQVIGGQFLTLYGQSGNYITPSSSGGRTSSRVILREGVTLAAPEVFLLASGEVSMEQGAAINTIGRGAAAYDAHDGFIYDLNVSGQNLLAASNGLLNVLAPSSGSSGTINIGGCSLTPCSGVTRIHSEGSIVAATGGSLELDDKVRYGTRHLTLALSNINVGTAPALSDAAARQVLPAGLTLSQTVLDRLLRGDTEYGAPALETLELSAREALNFYGTVSLDTYDPVTGKSRLANLMLSTPAIHGAGSVNDVATIRTANLIWNGAVGAPGSVIAGGAGTGAGRLDIQAQRIEFGYGEFAQPSSITTLDRLALGFANVNLSASERLTANHKGSLAVYQSQGAYDAKTGYAYSGGNLNILTPLLTGEAGSVNRITAGGAVNVTGATAKPGTVSGLGGELSLKGASLNLASAVVLPSGKLTLSATDDLTLADEALIDVAGRTVTFNDVTRYSAGGEVILQSQNGNIRQAVGSSIDLSARHNQAGRLSAVALGSTAGVVDLQGRILASSTGEYDAGGTLMPYLAGGVQIQAQRLGDNGSLSEQFAALNQRLSDGQVFGSRSFQLKQGDLVIGNELKASSIDVSLDNGSLLINGTVYASGERVGSIYLAAKNALTLGSGAVLDAHGRRLRVDSYGKIIDSPNRAIVDLTAREGLLTLGNGVRIDLRHGTEVALGSASGMNDGRPRGTLQLSAPRLSGVSGGDVAIDASGALDVQGARSIALVATWQYSDAPLVNVPAASGKPYQVINQAWLKDVVDPDNTAFITNAHDNNDLLQRKLAGLNNSRYRDVFHLRPGVEVVSATADGDLVVQGDLDLSQYRYASLNPHNVLDENVYGSGESASLTLRAGGDLNIYGSITDGFAQPPASNDDKGWVLLPGIDFAAGDIVVPGTGVTLEVDTAFPAGSVLNFDVPLKGATLAAGTRLPVAATLDQPMVLPAGTVLAAAVHDAQGNLLFAAGTLLASTQTLQAGTVLGAGSLLGSSATIGNLIWPKGVALPDIEGASNGLTNVLRLSSALALSVGSKIPSGTDIKLPAGVESVQLRPEVAGSNWAIAPMLAEGSQSWSLRLVAGADTQAADSRVVRPVLAGGDLHLADSHYGTFGVASMVWTEAGSLDWFGDTSMVGLPVDFEVFDYPNLCVDNPLHCEAGGAPEYEPGSQRWSVIRTGAADLELLSAGDLKMDSLYGVYTAGSSASETYANDPYNQPKARAAAGKVLNDALGENEQFVDGGSNSLYRAWYPDFGGNLSLKVGGNLTGNSLDVSSASIGRPNGGDIGYDTVNVGNWLWRQGNGSVATGTQAQPTAWWINFGSYTAAKDGKADLMVGFTGFGTLGGGNLNVQVAGDAGELEQMAGSRLVPGSNSRSQGLVLAVGSTGRVGADGSLQLTGGGDLNLRVGGALNPDSAFVDGHLNGAVINLRGHAQIDSGAIGRIDLRYGNVASAQSPGETRAYDSFRATRSLPTGGLTLMPGDATFDLTTSGDLVVMDVADPGRAPMMSVSPFKDGATNGSGVSWFSLWTANTAVDLWSSGGNLTPVVPEVETDLAVVYPSIVRAVAANGSLYYGKSSVWDGTGYDGNNRPALLLAPGINSELQFMAGDSIYGGDMSVSRSGASSAALATPFRPAFVGIVETVESGPVIKASNLSADGNLARPSANILPLFAFDTSSTSGEWALNDDPARFYALEGDLLAVTSGRSMTSASVGRWPGRIAYEGAGAVRMMAGRDIVSSGIPLGGSLSNNSQAGDYTSAGNLFIHNNPTDISIVSAGRDILYSSFNVAGPGLLEITAGRNILMDDKVSITSIGAVVPGDSRPGASLVLQAGAGLDGADYQRFVKAYLDPANQALAGVPLADQDGKVAKTYEAELVKWLKERFGFSGDTEQVRSFFAALPAEQQRVFARDVYFAELKAGGREYNEVGGVRQGSYLRGREAIELLFPTKDVAGNAITYKGDITMFGGAGVHTDFGGGIQMLTPGGGQTFGIEGNAPPSTAGVITQGEGDIQLYAKNSILLGQSRIMTTFGGSILSWSAQGDINAGRGSKTTVVYTPPKRLYDTWGNVTLSPSVPSTGAGIATLNPIPEVAPGDIDLIAPLGTIDAGEAGIRVSGNVNIAALTVVNAANIQTQGKSSGVPLAASVNTGAITSASSAASSATQAAEDVARQQQNAARQNQASVFTVQVVSFGSEQLAPSRDGASREAPRTYDPASPVQVLGAGPLDEQARQRLTEEERGRLSL	PGPT0003647_25	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_TRANSPORT,PGPT0003647-hxuA-NA	NA	NA
D1-35_05210	612			hypothetical protein	ATGGGGACTATGGAACGTTATTCGAAAGTGGGCATGCAGGAGCTGGACCAGCGGCTATCGAAGATCGTCGAGGCGGCGCGCAAGCAGCCGGTCTCGGTGTATCGCTACGGTGCGCCGTGGGTCTGGATCGTTTCCCAGGATGACTGGCAGGGCGCGCTCAAGGAAGTGTCCAGCTACATCCCCCAGGGCCACTCCCTGGTGCTGTTACGGCCACAGATCGACGACTTGCTGGCCGAACACCGCGACGTGCTGCAGGGCCTCAACGCCGATGCCGGCATGCTCATCGCGCCGCAGACGGCCATGCACATCCTGCTGCTGCAACTGCTTTATTCGGTGCCCAGCGAGCAGCAACTCTACGAACAACTCAATTACAACCTGCTGTTCCGCTGGTTCGTCGGCCTGGACCTGAACCAGAAGGTCTGGAGCTTCAACGTGCTGAGCAAGGACCTCGCCACGCTGCTGGGCGATGCGCGGGCCGTGCGGCTTATCCAGAAAATCATCGGTGAAGTGTTCTGTGGCGCCTTGCTGCAAATGCCCGAGTTCTCCTTGAACTTCGCGCTGCTGCACACCTGGCTGGCCCGGCACGCCACGACATCGACCGCAAGCAATTGA	MGTMERYSKVGMQELDQRLSKIVEAARKQPVSVYRYGAPWVWIVSQDDWQGALKEVSSYIPQGHSLVLLRPQIDDLLAEHRDVLQGLNADAGMLIAPQTAMHILLLQLLYSVPSEQQLYEQLNYNLLFRWFVGLDLNQKVWSFNVLSKDLATLLGDARAVRLIQKIIGEVFCGALLQMPEFSLNFALLHTWLARHATTSTASN	PGPT0030640_90	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030640-truncated_tnp-K07487	NA	NA
D1-35_05211	1605			hypothetical protein	GTGGAGCATTTTTTCAAATCGCGGCCGGCGCTGTGGGGCTGGCTGCTGTTGGCGGTCTGGGGGCCGTCGGCATTCGCAGCAGAAGGAGCACCGGAAGCCGAAGCGGCGCCGGCTCGCCTGGTGGACGTCAACGAGTACTTCGTGCGGGGCAACACTGTGCTGGATGCCCGCGCGATCGAGGAAGCGGTGTATCCGTTCCTTGGCCCGCAAAAGACTTTGAACGACATTGAAGGCGCTCGCGAGGCGCTGCAAAAGGTCTATCAGGCTCGCGGCTACCAATCGGTGTTCGTCGAGTTGCCGGAGCAGAAAGTCGAAGACGGCATCGTCTACCTGCAGGTCAGCGAGACCAAGATCGGCCGCGTGCGGGTGGTCGGTGCCAAGCACTATTCGCCGGTGGAAATCCGCGAAGATGTGCCGGCGCTCAAGGAAGGCGAGGTGCCGGACTTCGCCCAGGTCCAGACCGAGCTGGCGCAGTTGAACAAGACCCCGGGACGCCAAGTCATGCCGCTGGTGCGCGAAGGCCAGCGGCCGGGCACCATGGACGTGGACTTGCAGGTCGAGGACCAGGATCCCTGGCAGGCCAGCCTCGGTCTGAACAACGACTACAGCGCCGACACCGAGAAGCTGCGCACGGTCGCCAGCCTCGGCTACAACAACCTCTGGCAACTGGGTCACAGTATTTCGCTGACCTTTTTCACCGCGCCCCAGGACACCGAAAACGCCAAGGTCTGGTCGGGTTCCTACACCGCGCCACTGAGCGAGCGCTGGAGCGTGCAGTTCTCCGGTCACCAGTCCGACAGCAACGTGGCGACCGTCGGCGGCAGCAACGTGTTGGGCAAGGGCCATTCCTACGGTGTGTCGGCGATCTACAGCCTGCCGTCCAGTGGCGCATGGGCCAACAGCTTTTCAGTCGGGGTGGATTTCAAGGACTTCGACGAAGAACTCAACCTGGGCGGCGCCAGCGACAAGGCACCGCTCAAGTACGCGCCGTTCACCTTCGCCTACAACGGTTTCCGCTACACCGAAACCAGCCAGTTGGGCCTCGGCCTGAGCCTGGTGGCAGGCACCCGTAGCCTGCTGGGTTATGGCAGCGACGACGAGGAATTCGACTACAAGCGCTACCGCGCCAGCCCAAGCTTTGCGGTGCTCAAGGGCGACGGCAATTACACCTTCACCTTCGGCAACGACTGGCAGACCGCCTCTAAAGCCGCCTTCCAGCTGGCCTCCGGGCCGCTGGTCTCCAATGAACAGTTCTCCGCCGGCGGTGCCACGTCGGTACGCGGCTACCTGGCCGCCGAGCGCACCGCTGACGACGGCTACCTGTTGTCCCAGGAGCTGCGCACGCCGTCGCTGGCCAGGTTTCTCGGCAGCTATGTCCAGGAGTGGCGCTTCTATGCCTTCGCCGAGGGTGCGCAGCTGTACCTGCGCGACGAGCTGCCCGACCAGGATGCCGATTACAGCCTCGCCAGCGTCGGCCTCGGTACCCGCGCGAGCCTGAGCAAATGGCTGTCCGGGAGCCTCGACTGGGGCTTTCCGCTGCTCGACGGGCCGAACACCACGAAACAGGAATCGCGCCTGCACTTCAACCTGCAAGCGACGTTTTGA	MEHFFKSRPALWGWLLLAVWGPSAFAAEGAPEAEAAPARLVDVNEYFVRGNTVLDARAIEEAVYPFLGPQKTLNDIEGAREALQKVYQARGYQSVFVELPEQKVEDGIVYLQVSETKIGRVRVVGAKHYSPVEIREDVPALKEGEVPDFAQVQTELAQLNKTPGRQVMPLVREGQRPGTMDVDLQVEDQDPWQASLGLNNDYSADTEKLRTVASLGYNNLWQLGHSISLTFFTAPQDTENAKVWSGSYTAPLSERWSVQFSGHQSDSNVATVGGSNVLGKGHSYGVSAIYSLPSSGAWANSFSVGVDFKDFDEELNLGGASDKAPLKYAPFTFAYNGFRYTETSQLGLGLSLVAGTRSLLGYGSDDEEFDYKRYRASPSFAVLKGDGNYTFTFGNDWQTASKAAFQLASGPLVSNEQFSAGGATSVRGYLAAERTADDGYLLSQELRTPSLARFLGSYVQEWRFYAFAEGAQLYLRDELPDQDADYSLASVGLGTRASLSKWLSGSLDWGFPLLDGPNTTKQESRLHFNLQATF	PGPT0003648_95	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_TRANSPORT,PGPT0003648-hxuB-NA	NA	NA
D1-35_05212	1800	tolQ_4		Tol-Pal system protein TolQ	ATGCAACGCTTATTCATTCCGCTGTTGATCTGCCTGGGGCTGCTGCTTCCGGCGACCGCCAACGCCTGGTGGCAGGACGATTGGCACTACCGCAAACAGATTTCGGTGGACACCACGCCGCAAGGCGCGGCCATCGCCCAGGCCTTGGGCCGCACGGCGTTGCTGGTACGCCTGCACACCGGCAACTTCACCTTCGACGGCGTCAAGGAGGATGGTTCGGACCTGCGCTTCGTCAGTGCCGACGACAAGACCGTGCTCAATCACCAGATCGAAAGCTTCGACCCGTTGATGGGCATGGCCCTGATCTGGGTCGATGTGCCGAACGTCGAGGGTGGCCAGCGCCAGGACCTGTGGATGTACTACGGCAACCAGAAAGCCCCGGCCACCGCCAGCGGCCAACTGGCCTTCGATCCGGACTACACCGCGCTGTATCACTTCGACGGTGCCACCGGAATTCCGCCACGGGACACCACGGCCTATGGCAATACTGCCCAGGGCGCGGCGGGCGTGAGCATCGACGGCGTGATCGGCCGGGCCCTGCAGTTCAACGGCCAGCCACTGTTGCTACCGGCCAGCCCGTCGCTGCAACACACCGCCGGCGCCGCGTTCACCTTCAGCACCTGGCTGCGCCAGGACCAGGCCAGCGGCGAGCAAATCGTCATGGCCCGTCGCGAAGCTGCCGCCAGTCTGTTGGTGGGGGTCAACCAAGGAGTGCCGTTCGTAGCGATCAATGATCAGCGTGCGGTCTCGACCCAGCCGCTGAACCCCGGCCAATGGCAGCACCTGGCATTGACCGCCTTGGGTGATCGAGTCGTGCTGTACGTCAATGGCCGCGAAGCCGCGAGCCTGGCGCTGGCAATGCCGGCGTTCAATTCGCCGATCGCCTTGGGGGCAGACGTTGCCGCCGGTGCCTTCGCGCCGTTCAGCGGGGCCATGGACGAGGCGCGCCTGTCCAAGGTCGCCCGGCCCGCGCCGCTGCTCCTGGCCGATGCCAACGCCCAGGGCGCCGAATCGAAACTGGTGGCCTACGGTGTTGATGAAGAACAGTCCGGCTTCGGTTTCGGCAGCCTCGGTTTCCTGCTCAATGCCGTGCCGCTGGACGCCTGGGTGATCATCGCCGTGCTGGTGCTGATGATGTTCCAGTCGTGGGTCATCATGATCCGCAAGAACCGCATGGTCAGTCGTCTCAGTGCCGCCAACGAAGCGTTCCGCGAGCAGTTCGCCCGGATCGGCACGCGCCTGGAGATGTTCGCCGACGACCAGGAACTTGCCCAGCGCCTGCAACATTCGTCCCTGTGGCGCCTGTACCTGGTGGCGGTCAAGGAGATCCGCACCCGCCGCGATCAGGGTGCCGACACCTCGACCGTCTCGGCCGCCACCATCGAGGCGATCCGCTGCTCCATGGATGGCGTGCGCACCCGCGAAAACCAGGCGCTGAGTTCGAAGCTCTCGACCCTGTCCAACGCCATCGCCGGCGGCCCGTACATCGGCCTGCTCGGCACCGTGCTGGGGATCATGGTGGTGTTCCTTGGCACGGCCATGGCCGGTGACGTCAACATCAACGCCATCGCCCCGGGCATGGCCGCCGCGTTGCTGGCCACCGCCATGGGCCTGTTCGTCGCGATCCCGGCGCTGTTTGGCTACAACCGCCTGATCACCCGCAACAAGGAAGTCAGCGCCGACATGCGCGTATTCGTCGACGAGTTCATCACGCGCCTGGCGGAGATGCACGGCGAAGGCCAGTCCGGCGAAGCAGCTCATCGCCGTGACCATCACGTCCAATCGTCCGTACCGGCCTGA	MQRLFIPLLICLGLLLPATANAWWQDDWHYRKQISVDTTPQGAAIAQALGRTALLVRLHTGNFTFDGVKEDGSDLRFVSADDKTVLNHQIESFDPLMGMALIWVDVPNVEGGQRQDLWMYYGNQKAPATASGQLAFDPDYTALYHFDGATGIPPRDTTAYGNTAQGAAGVSIDGVIGRALQFNGQPLLLPASPSLQHTAGAAFTFSTWLRQDQASGEQIVMARREAAASLLVGVNQGVPFVAINDQRAVSTQPLNPGQWQHLALTALGDRVVLYVNGREAASLALAMPAFNSPIALGADVAAGAFAPFSGAMDEARLSKVARPAPLLLADANAQGAESKLVAYGVDEEQSGFGFGSLGFLLNAVPLDAWVIIAVLVLMMFQSWVIMIRKNRMVSRLSAANEAFREQFARIGTRLEMFADDQELAQRLQHSSLWRLYLVAVKEIRTRRDQGADTSTVSAATIEAIRCSMDGVRTRENQALSSKLSTLSNAIAGGPYIGLLGTVLGIMVVFLGTAMAGDVNINAIAPGMAAALLATAMGLFVAIPALFGYNRLITRNKEVSADMRVFVDEFITRLAEMHGEGQSGEAAHRRDHHVQSSVPA	PGPT0003750_110	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003750-exbB-K03561	NA	NA
D1-35_05213	426	exbD_3	COG0848	Biopolymer transport protein ExbD	ATGGCTAGCGTAAATACGTCACACGATGACGACGATGATGCAGCGGTCGACAGCATCAACGTCACGCCGCTGGTGGATGTGCTCATGGTGGTGCTGGTGATGTTCATCCTCACCGCCACGGCGCAGGTCTCGGGCATCCAGATCAACCTGCCCAAGGCCAGCGCCTCGGTGTCGTTGTCCGAGGCCAAGACCAAGGCGATTTCGGTGAATGACGGTGGCCAGGTATTCCTCGATGCCTACCCGGTGACCCTGGCCGAGCTGGAGGAGCGCCTGCGCATCGAGAAGGCCCAGAGCCCGGACTTCCCGGTGATCGTGCGCGGCGACGCCACGGTGCAGTACCAGAAAGTCATCGAGGTGCTGGACCTGTTGCGGCGCCTGGAACTGTCCCAAGTCGGTCTGGTGACCGGCAAACCGAGCCAGGGCTGA	MASVNTSHDDDDDAAVDSINVTPLVDVLMVVLVMFILTATAQVSGIQINLPKASASVSLSEAKTKAISVNDGGQVFLDAYPVTLAELEERLRIEKAQSPDFPVIVRGDATVQYQKVIEVLDLLRRLELSQVGLVTGKPSQG	PGPT0003755_1757	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003755-exbD-K03559	NA	NA
D1-35_05214	705			hypothetical protein	ATGACCGCCAGACTTCCCGTCAACCCGCCCCCCGTGAAGCGCTCGCCGCTGCGCCTGCTCAAGTGGGCCGCCGGCCTGGCGCTGGCTGGCCTGGCGGCCTGGCTGCTGTGGCAATGGGCCAACGACATGAGCGGCGTGCGCCGTGAAGCGCCGAAGGTGCCGACCATCATCCCGCTGCCGCCACCACCACCGCCGCCCCCGGAAAAACCCAAGGAGCCGGAACCCAAGGTCGAGGAAAAAGTGCCCGAGCCCGAACCGACCCCGGAACCCGAAGAGGTCAAGCCCGAGGAAGAAGCGCCGCCGTCGCCGGTGGATGACCTGGCCAACCCGATGCAGATGGACGGTGATGCCCAGGCCGGCAACGACGCTTTCAACATTGGCGCGGGTAAGGGTGGCGGCATGGCCGGGGCAGGGGGCGGACGCCTCGGCAACGGCACCTACAGCCAGTTTCTGGCGTTCACCTTCCAGCGCTTGCTGCGGGAGAACCCTGACTTGCGCAGCCTGGCGTTTTCGCTGCAGGCCGACGTCTGGCTCAGCGCGGTCGGGGAAATCACCCGTGTCGAGCTGGTCAAGTCCAGCGGCAACCCGCAGTTGGATGAGCAAGTGATCGCCGCCCTGCGTGCCGCGCCGCATCTGAGTGAACGGCCTCCGGCCTCCCTGACTTTGCCCGTGCGCCTGTCCTTGCAGGGACGGCGTCCGGGTTAA	MTARLPVNPPPVKRSPLRLLKWAAGLALAGLAAWLLWQWANDMSGVRREAPKVPTIIPLPPPPPPPPEKPKEPEPKVEEKVPEPEPTPEPEEVKPEEEAPPSPVDDLANPMQMDGDAQAGNDAFNIGAGKGGGMAGAGGGRLGNGTYSQFLAFTFQRLLRENPDLRSLAFSLQADVWLSAVGEITRVELVKSSGNPQLDEQVIAALRAAPHLSERPPASLTLPVRLSLQGRRPG	PGPT0003745_4945	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003745-tonB-K03832	NA	NA
D1-35_05215	1692			hypothetical protein	ATGATTGCCAATGTGAATCGATTGTCGTGGGCGGTCGGCCTGGTTGTCTTGAGCCTGGCCGGCCACGCGTCGGCAGCCCCGGCGCCTTCGGAAAACGCCACGATCAATCTGATCCGCCTGCTGGTGCAGCAGGGCGTGCTGAAGCAGGACCAGGCTGAAGGCCTGATCGCCCAGGCCGAGCGCGAAGCCGTGCAGGCCCGTCAGGCTGCCACTGCCGTTGCCGCCGCACCCGCCGGTGCGCCCGGGGATGTGCGGGTGCAGTACGTGCCGAACATCGTGCGTGAGCAGATCCGCGACCAGGTCAAGGCCGAAGTCATGGCCACGGCCAAACAGGAAAACTGGGCGCAACCCAACACCTTCCCGGATTGGGTCTCGCGCATCAGTTTTGATGGCGATATCCGCCTGCGGGACGAGTCGCGCTACTACTCGGGCACCAACAGCAACCAGATCGTCGACTTCGCTCGCCTCAACGACCGCGGCCCCTACGATGTCAACCCCAACAGCAGCTCGAACCTGCCGCCCTTGCTCAACACCCGCGAGGACCGCGAAAACCTCTTCCGCCTGCGCGCGCGCCTGGGCATGAAGGCGGTGATCGCGCCCGAGTGGACCGCGGGCATCCGCATCGGCACCGGCTCGGACAACAACCCGGTGTCCACCACCCAGACCCTCGGCGGCGGCTTCGGCAAGAAGGATATCTGGCTCGACCAGGGTTACCTGACCTGGAAGCCCTCGGACGAGTTGACCCTGACCGGCGGGCGTATCGCCAACCCGTTCTACTCTACCGACCTGCTGTACTCCGGCGACCTGAACTTCGATGGCGTGGCGGCGATTTTCAACCGCAAGCTCAGCCAGGACTTCGGCCTGTTCGGCACCGTCGGCGCGTTCCCGGTGGAGTACACCAACGACACCAGCACCAGCAACGGCACAGACAAGGAAGAGAGCGACAACAAGTGGTTGTACGGCGCGCAACTGGGCGCCAACTGGGCAATCAACGACAGCAACCGCGTCAAGGGTGCGCTGGCCTATTACCGCTTCGACGACATCGAAGGCCAACGCTCGTCGCCGTGCGAGCCCTGGGCCGGTGACCCGGGCTGCGACACCGACGGCTCGCGCGTGGCGTTCATGCAGAAGGGCAACACCGTGTTCCTGCTGCGCGACATCACGCCCAATCCGCTCAATCCGTCTGCCACGCCACAGCCGCAATACGTCGGCCTGGCCTCGGAGTTCAACCTGCTGGACCTGAACCTGGCGTGGGACACCGATCTGCCGGAAGACCTGAAGCTGCGCAGCCAGGCGCATTACGTGCATAACCTCGGTTATGACGAAGGTGAAATGCGCAAACGTTCGGAAGGGCAGTTCGCCAACAACCTCGATGAGAACGGTGAAGTCGAGAGCGGAGCCAACGCCTGGATGCTCCAGTTCACCCTGGGTAACTCCCTGGAGCTCAAGCGCCAGGGCGACTGGAACATGTTCGCCGGCTACAAATATATCCAGCCGGACGCCTTGCCGGACGGCTTCAACGATTCCTCGTTCCACTTGGGCGGCACCAACGCCAAGGGCTATTTCCTGGGCGGCAACTACGGCCTGGCGAGCAACGTCTTCGCCACCGGTCGCTGGCTGAGTTCCGAAGCGGTGTACGGCGCGCCGTACGACATCGATGTCCTGCAGCTTGAAATCAACACGCGCTTCTAA	MIANVNRLSWAVGLVVLSLAGHASAAPAPSENATINLIRLLVQQGVLKQDQAEGLIAQAEREAVQARQAATAVAAAPAGAPGDVRVQYVPNIVREQIRDQVKAEVMATAKQENWAQPNTFPDWVSRISFDGDIRLRDESRYYSGTNSNQIVDFARLNDRGPYDVNPNSSSNLPPLLNTREDRENLFRLRARLGMKAVIAPEWTAGIRIGTGSDNNPVSTTQTLGGGFGKKDIWLDQGYLTWKPSDELTLTGGRIANPFYSTDLLYSGDLNFDGVAAIFNRKLSQDFGLFGTVGAFPVEYTNDTSTSNGTDKEESDNKWLYGAQLGANWAINDSNRVKGALAYYRFDDIEGQRSSPCEPWAGDPGCDTDGSRVAFMQKGNTVFLLRDITPNPLNPSATPQPQYVGLASEFNLLDLNLAWDTDLPEDLKLRSQAHYVHNLGYDEGEMRKRSEGQFANNLDENGEVESGANAWMLQFTLGNSLELKRQGDWNMFAGYKYIQPDALPDGFNDSSFHLGGTNAKGYFLGGNYGLASNVFATGRWLSSEAVYGAPYDIDVLQLEINTRF				NA	NA	NA	NA	NA
D1-35_05216	657			hypothetical protein	ATGAAAAGGCGAGCCATCAACCCTTGTCCTTCCGCGTTGCTGCTGGGCCTGCTGCTCAGTCCGTTATTGATCGGCAGCGCCCACGGCGAAGGCCTGGAAGAACGCCTGCGCACGCAACTGCGCAGCACCACCGCCCAGTTGCAGACGTTGCAGAGCGAGCAGGCCCAGGCCAGCGTCGCCCGCCAGGCGGCGGAAAACCGCGCCAAGGAAGCCGAGGCGCAGGTCAAGCGCCTGACCGCCGAGCTGGCCAAGGCGCAAGGCCTGGCCGAACAACTGGCCGGGCGCCAGGAAAGCCTGCAAAGCCAGGCCCAGGCCCAGGCCGCGGCCAGCCACGAGCAGATCGGCAAGTTCAAGAAGGCCTACGACGAGCTGCTGGTCATGGCCCGGGGCAAGGAAACCGAACGGGCCCGCCTCGAAGCCCGGTTGCATGAACGTGACACACAAGTGCAGCAATGTTCGGTCAAGAATCAGCAGATGTACGACGTCGCCAAGGAACTGCTGCACGCCTACGAAACCATCGACGTGACCGACGTCATGAAGATCCGCCAGCCGTTCGCCGGCAAGGCCCGGGTACGTTTCGAAGAGTTGGCCCAAGGTTTTGGCGATGATCTCTACAAGAACCGTTTCGATGCGCCCCAGGCCTCGATCACCCATTGA	MKRRAINPCPSALLLGLLLSPLLIGSAHGEGLEERLRTQLRSTTAQLQTLQSEQAQASVARQAAENRAKEAEAQVKRLTAELAKAQGLAEQLAGRQESLQSQAQAQAAASHEQIGKFKKAYDELLVMARGKETERARLEARLHERDTQVQQCSVKNQQMYDVAKELLHAYETIDVTDVMKIRQPFAGKARVRFEELAQGFGDDLYKNRFDAPQASITH				NA	NA	NA	NA	NA
D1-35_05217	480			hypothetical protein	ATGACTTCATTGATTGAACACGTCACGCCCGCGTCCCTCACCGAGGTGTTGCAAGCCGCCGGTTATCGGGTCAACGAAACGGAGCAGAACGGTATCGTGCAACTGCTCAGCGCCAGCCAAGGCATCGGTTATGCCGTGCGCTTCGGCAATCCGACACCGACGCCGGGCCAATACCTGGACTTCACCTTCAGCTGTGCCTTGCGCGTGCAGGGTGAATTGCCGGCCGGGCTGGCGGAACTGTGGAATGCCTCGCGACGTTTTGCCCGGTTGTCGGTGCAGGGCGAATTCCTGGTGATGGAAATGGACGTGGTGGTGGCGGCCGGCGTCAGCGCCGAGCACCTGCGCAGCAACCTGGAACTGTGGGACCGGTTGCTTCAGGAATTCATCGTCTACCTGCGCGAGTTCAGCCAGAACGCCGCCCGCCTGCACACCGGCGCCGAGCCCGCTGAAGCCGCGCAGGAGGAGGCCGCCGCACTGTGA	MTSLIEHVTPASLTEVLQAAGYRVNETEQNGIVQLLSASQGIGYAVRFGNPTPTPGQYLDFTFSCALRVQGELPAGLAELWNASRRFARLSVQGEFLVMEMDVVVAAGVSAEHLRSNLELWDRLLQEFIVYLREFSQNAARLHTGAEPAEAAQEEAAAL				NA	NA	NA	NA	NA
D1-35_05218	945	surA_2		Chaperone SurA	GTGAAAAAGCCAACGTTTGTCATCAGCGCTGCGGCGCTGGGCCTGGTCGCCGTGGCTGTTGCCCTCGGCTTGCGTCCCGGCAACGATCCGGTGGCGGCGGTGCAATCGGTCAGCGTGGCGACAAGCGAGTCGCCGAGCCTGGCGCGGTTGGGCAGCCAGCAGGTCAGCCCGGAAGAACTCAAGGCGCTGCTTGCGACGCTCGCCCCCGAGGTACGCCAGCAGATGCGCGGCAACCGCGCCGCACTGGAGGGCTGGATCCGCGCAAGACTGGCGGAAAAAGCCGTGCTGGAGCAGGCCGATGCCCAAGGCTGGCGTCAGCGCCCGGAAGTGGAGCGCCAGATGCGCGCTGCGACCGAGCAGATTGTCTTTCGGGATTATCTGCAGTCGGTCAGCCAGGTGCCGGCCGGGTATCCCAGCGAGGATGAGCTGAAACAGGCCTACGAAGCAGGAAAAGCCAACTGGACCGCGCCTGCGCTGTACCGGGTCAGCCAGATTTTCCTTGCGGCGACCGAGCCACAGACCGTCGAGGCGGTGCGCCGCCAAGCCGTGGAGCTGAGCAAAAAGGCCCAGGCCGCGCCGGCTGAATTCGCCGCCCTGGCCAGCCGTTATTCCCAGGACCGCACCAGTGCCGAGCGCGGTGGTGATAGTGGCTTCCAGCCGTTGCAACAATTGGTGCCTACGGTACGCGAGGCAGTGGTGCGGTTGAAGGTAGGCGCGGTATCGGACCCGGTGCAGAGCGCGGCGGGCTTCCATGTGATCAAGCTCACCGAGCAGCAACCGGCGCGGGAAGCGACCCTGGATGAAGTCCGCGAGCGCCTGACCCAGGCGTTGCGTGCCCAGCGCCAGGAGCAGATCGCCAAGGCCTACCTGGACGGCATGCTCGACACCGCGACGTTGAGCATTGATGGCGCGCAGTTGAGCAAGGTGCTGGAGGAGGTTAGGTAG	MKKPTFVISAAALGLVAVAVALGLRPGNDPVAAVQSVSVATSESPSLARLGSQQVSPEELKALLATLAPEVRQQMRGNRAALEGWIRARLAEKAVLEQADAQGWRQRPEVERQMRAATEQIVFRDYLQSVSQVPAGYPSEDELKQAYEAGKANWTAPALYRVSQIFLAATEPQTVEAVRRQAVELSKKAQAAPAEFAALASRYSQDRTSAERGGDSGFQPLQQLVPTVREAVVRLKVGAVSDPVQSAAGFHVIKLTEQQPAREATLDEVRERLTQALRAQRQEQIAKAYLDGMLDTATLSIDGAQLSKVLEEVR				NA	NA	NA	NA	NA
D1-35_05219	981			hypothetical protein	ATGTCTTTCATAGAGCCCGCAGGACGCCAGGCTGTCACCGCATACCGCGCGCCCTTGCGCGCACCTGAGCCGTGGTTGGCCTTGGCCGCCAGCATCGAGCCGCAGGTGGCGCAGTGTTTTCTGGTCAGCGCCCGTTGTGGCTGTTTCATGCAGGCGTCCCGCAGCCTGAACGTCAAGGCCACCTGGCTGCGCAAGCAGTTGGCCCAACTGGAAGCTCGCCTGCAGCGATCACTGTTCAGCTTCCAGGGCAGCACCCTGGCGCTTACCCGCGAAGGACGGCAATTGCAGGCGCGCTTGCTTGCCCTGGGCGAGGATGGTCCGCCAGCGCTGGCCGATCAACCGTTGATTCGCCTTGCAGTGGCCGAGTCGATCCTGCATGACCTTCTGGGTCGTGACCTGATCTCATTGCTGCGCCGCAACGCCAGCGTGCGCTTGCAAATCATCACGCTGGACAGCGAACTGGCGCTGCAGGCGGTCAGTGCCGACCTGGTGCTGTGGCTGAGTGACGGGCAGGAATCGACACCGGTGCCGAGCGTTGCGACACAGGCGCCGGAGCGGCTGGCGCGGCTGGACTATCTGCCCTACATCGCCAAGCGTTATTCCCGCCCGGCCAGCCGTCCGCGCCGGTTGGAAGAGCTGGACGACTACATGTTGGTGCAATGGCAGGCCGACAGCCAGGTGGGCAGTTTCACGCCGTGGAATACCCTCGTCGAGCAACGCCGCGCCGGCGTGGTGCAGGTGCAATCCTATGAGCTGATGCTGGAAATGATCCGCTGCTGCGCCTGCATTGGCCTGTTGCCGCAATACATGAGCCATTTCGATCGCGGCCTGGTCGCCTTGCCGGGGTTGTTTGAGCAGCCGATGCAGCGCCACCTGTGGATGGCGGCGAGCACCGAGGCCCGGCCAGTGCCGCAGGTGCAGATGCTCATCGAACTGATCCGCCACACGCTGGATGAGCGCAGGGAATGGTTCCGGGCTTGA	MSFIEPAGRQAVTAYRAPLRAPEPWLALAASIEPQVAQCFLVSARCGCFMQASRSLNVKATWLRKQLAQLEARLQRSLFSFQGSTLALTREGRQLQARLLALGEDGPPALADQPLIRLAVAESILHDLLGRDLISLLRRNASVRLQIITLDSELALQAVSADLVLWLSDGQESTPVPSVATQAPERLARLDYLPYIAKRYSRPASRPRRLEELDDYMLVQWQADSQVGSFTPWNTLVEQRRAGVVQVQSYELMLEMIRCCACIGLLPQYMSHFDRGLVALPGLFEQPMQRHLWMAASTEARPVPQVQMLIELIRHTLDERREWFRA				NA	NA	NA	NA	NA
D1-35_05220	1692	mdlC		Benzoylformate decarboxylase	ATGCCTTCAACCCCCGATTCAACGGTGCGCACCAGAGGGCAACGCGGCGCGGACCTGTTCGTAGAAGTGCTGCGCAGCGAAGGCGTTCGCCATGTCTTCGGCAATCCAGGCACCACGGAGCTGCCGTTGCTCGATGCGCTTTCAGGCGTCTCTGATATTCACTACGTGCTCGGCCTCCAGGAAGCCTCCGTCGTGGCGATGGCCGACGGTTATGCGCAAGCGTCCGGGCGCCCCGCTTTCGTCAATCTCCATACGGCCGGTGGGCTGGGCAATGCGATGGGCGCCATCCTGAACGCGAAGATGGCGAACACGCCTTTGGTGATCACCGCAGGCCAGCAAGACACCCGCCATGGGGTAACCGATCCGCTGCTTCACGGTGATCTGGTCAGCCTGGCCCGACCGAGCGTCAAGTGGGCGGAGGAAATCCAGCATCCCGAACATATCCCGATGCTGTTGCGCCGCGCTCTTCAGGACTGCCGTACGGGGCCGACCGGCCCGGTGTTCCTTTCGCTGCCGATCAACGTGATGGAGCAGCACACGGATACCGGTGCTGGCCAGCCGTCGCGAATCGAACGGGGTGCGGTGACCGCAGCAATCGAGCCATTGGCTGACGCTTTATCGACGGTTACCCCGGGCCGGCTGGCGATGATCGTCGGTGAAGAGGTGTTCCAGTCGAATGCGCAAGCGGAAGCGGTGAGGCTCGCCGAAGCGCTCGGCGCGCCGGTGTTCGGGCCCTCTTGGCCCGGGCATATCCCGTTCCCCACCGCTCATCCTCAATGGCGAGGCGCCCTGGCGCCCAAGGCTGCCGACATCAGGGCAACATTCGCTGAATTCGACGCTGTGCTGCTTCTCGGCGGCCATTCGCTGATCAGTTACCAATACTCGGACGGCCCGGCGATTCCCCCACATTGCCGCCTCATTCAATTGACCGGCGATGGCCACCAACTGGGCAGGGTCCATGAAACGGCGCTGGGATTGATAGGCGACATAAGGCTGTCGTTGCAGCTGTTGCTGCCATTCCTGGATGAACAACTGGCCCCGCACGGCCAGGCAATCGCGACGCTGCGAAATCTCGCTGCGCACGAGCGCAATAACCGTCGGGTCGAAGTGGCCGAGCGCGCGCGCCGTGAATTCGATACGCCGGTGACCACGCCTTTCGTGGCGGCCCATGAAGCTGTCCGGGCCATCGGCCCTGACGTCTGGATCGTCGACGAAGCGCCGGTCACCATCCCTCACGTGCGTGCTTGCCTGGACTCACATTCGGCCAGCCAGTACCTGTTTACGCGTAGCGCCATCCTCGGCTGGGGCATGCCGGCGGCTGTCGGCACATCCCTTGGCCTGGACCGCAGCCCGGTGGTGTGTCTGGTCGGCGATGGCTCGGCGATGTATTCACCCCAAGCGCTGTGGACAGCTGCCCACGAGCGTTTGCCGGTGACTTTTGTGGTCATGAATAATGGCGAATACAACATTCTGAAAAACTACGCGCGTAACCAGGCGCATTACCGCAGTGCCGGCACCGACCAGTTCATCGGCATGGACATCCGCGACCCGGCCATCGACTTCCTGGCCCTCGCTTCTTCCCTGGGGATTGCGTCGCGCAGGGTCGAGCGAGCCTGCGACATTGCCGGGGCGGTCGAGGATGGTATTCGCTCGGGCCGTCCCAATCTCATCGAATTGCCGATCACGGCTTGA	MPSTPDSTVRTRGQRGADLFVEVLRSEGVRHVFGNPGTTELPLLDALSGVSDIHYVLGLQEASVVAMADGYAQASGRPAFVNLHTAGGLGNAMGAILNAKMANTPLVITAGQQDTRHGVTDPLLHGDLVSLARPSVKWAEEIQHPEHIPMLLRRALQDCRTGPTGPVFLSLPINVMEQHTDTGAGQPSRIERGAVTAAIEPLADALSTVTPGRLAMIVGEEVFQSNAQAEAVRLAEALGAPVFGPSWPGHIPFPTAHPQWRGALAPKAADIRATFAEFDAVLLLGGHSLISYQYSDGPAIPPHCRLIQLTGDGHQLGRVHETALGLIGDIRLSLQLLLPFLDEQLAPHGQAIATLRNLAAHERNNRRVEVAERARREFDTPVTTPFVAAHEAVRAIGPDVWIVDEAPVTIPHVRACLDSHSASQYLFTRSAILGWGMPAAVGTSLGLDRSPVVCLVGDGSAMYSPQALWTAAHERLPVTFVVMNNGEYNILKNYARNQAHYRSAGTDQFIGMDIRDPAIDFLALASSLGIASRRVERACDIAGAVEDGIRSGRPNLIELPITA	PGPT0005425_106	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_BENZOYLFORMATE_DEGRADATION,PGPT0005425-mdlC-K01576	NA	NA
D1-35_05221	1002			hypothetical protein	ATGCCTGTCCAGCAATGGCCCATGAATAAACCCGTCCTGCCTGTCACCTACGAGCAGATGGATCGCTGGGTCGCCTCGATACAGCCGGTGCTTCTCGAAGAGCGGTTCAGCAGCATCATCGGCATCTTGCGAGGGGGAGCGCCCCTGGCCTTAATGGTTTCGCATGCCACGGGCGTCGAAACGGCCTTTTTGCGTTATTACCGGGCGGATCAAAGCGTGATCTGGGACTCATCGGTCCCACTCCCTCCATCCGGCAGCAAAGTGCTGCTCTGTGAGGACATTGCCGGCGCCGGGCACACGCTGAAGGACTGCGTGGCGTTTTTGCAGCAGCGAGGTTTGATCGTCAGGATCTTCACTGTCGGCTTCGACGATCTAAGTGGTATTCGCCCCGATTATGGGTTGGACGGGCAAGGATATTTCTTGCAGTTCCCTTGGGAGCGGCAAACCGTTACCCGCGCTTATCGCGACCGCTGGAACGCCACCGGTGGCGGACGCGCCGGCACGATGGCCCATGACCACGATTACGACGTGTACGCCGTTGACCTCGACGGGATATTGCTCCCGGATATCCCGCTCCAGCGCTATGCGGCTGACCTGACCGCGGCGCTCGACGAACGCGACCGCCTCGATCCCTTCAACCAGCTGCCGCCCTTGGGGCGGGTAAAGGCCATCATCACCGGACGCCCGGAGATGGATCGAGCTCGGACTCAAGCCTGGCTTCGCCAGCACGGCCATGGCGCGATACAGCTGATCATGAGAGACATTCACTCGTGCAGCGACAGCCCGGACCAGGTTGCTCTCTACAAGGCCCGCGCATCCGTGCAGTTGGGGTGCACGCACTTTATTGAAAGCGATCCGACGCAAGCGATCATGATCGCGCATCAAGCGCCTTTGCTGCGGATGATCTGGTGGGATGCCGAATGCAGCCAGGGACGGTTGATTGGGGCGGCGGGCTGGAAACAGAGTGCGCCTGAGGCGCCATGCGCCATGCGCCATGGCTGA	MPVQQWPMNKPVLPVTYEQMDRWVASIQPVLLEERFSSIIGILRGGAPLALMVSHATGVETAFLRYYRADQSVIWDSSVPLPPSGSKVLLCEDIAGAGHTLKDCVAFLQQRGLIVRIFTVGFDDLSGIRPDYGLDGQGYFLQFPWERQTVTRAYRDRWNATGGGRAGTMAHDHDYDVYAVDLDGILLPDIPLQRYAADLTAALDERDRLDPFNQLPPLGRVKAIITGRPEMDRARTQAWLRQHGHGAIQLIMRDIHSCSDSPDQVALYKARASVQLGCTHFIESDPTQAIMIAHQAPLLRMIWWDAECSQGRLIGAAGWKQSAPEAPCAMRHG				NA	NA	NA	NA	NA
D1-35_05222	489			hypothetical protein	ATGGCAATTCGTAAAGGCAAAGCTCCACTGGAAGCAAAAGCCGTCGCCGCCCTCAGTATGCTTTACACCCCTATTGGCATGGCACGTAAAATCCTTGCATCCAAACAGCTGATAAAAGTCGGTCAGCAGGAACTCGACACAAGGCGCCAACTCGATGCTCTACCGCGGGCGGAAAATGCCGGAGTCATCGCGTCGCGTGCGAAGCGAGACAGCCTGGAATCGCTTGACCTGAACGATATCTCATTGGGGCGCGTAGAATCCGGCGAACCGGATAACCTGACAATCAAGGCCGGCGCCGCGGCTTATCAGGCGGTAAGCCCAGAGACACGTGCGGCCCTGGACGCGATTTTGGTGCTTCTCGAAAACCATGGAGAAGCCGCCTTAACGGACCTTTCCGAAAAATCACGACGTTCTCTCGACGAGTTTCGCGACGTGTCCTCCCGACTTTCCTTTGTGGACGCCGACGACGTTGGGCCAATTGTCTGGTAA	MAIRKGKAPLEAKAVAALSMLYTPIGMARKILASKQLIKVGQQELDTRRQLDALPRAENAGVIASRAKRDSLESLDLNDISLGRVESGEPDNLTIKAGAAAYQAVSPETRAALDAILVLLENHGEAALTDLSEKSRRSLDEFRDVSSRLSFVDADDVGPIVW				NA	NA	NA	NA	NA
D1-35_05223	654			hypothetical protein	ATGATATCGGGTGCGAGCCACTCTCCCGTTTCCATTGCTCCCTTGCGACATGAGCGAACCATCGGACCTGCCACGTCTTGCGTCCAAACCGCACACGTATCCAAGCTTTCCCCCTCGCATCTGAGTAAACAGGCCCTTGACGCGCTTAAGGCCGACTCCCCGGACAAAATACAGTCAGCCATCACCCGTATGGCGGACAACGCCATTGTCGATGGATCGCTGAATCTGTGCTCAACCGAGCACAACGAGGCGACATTCAAGCTGTTGCTCAGCCAGAGAAACAGCAGCCCCGGTGAATTGCTAGTGCACACCAGGAAAAATGAACAGCAGCGCGACGACATCCTGGAACTCAAGCATAAATCCTATGCAGCGGGCCCCACCGAAACCGTCGTGCTCATGGAACGGCCGCATGAAGGCGCGCGTTCGACTGACCCTCAACAAGAGGCGATGGAGACATCAAAAAAACTGAATTCACTGCCGCCGACGTTGGGCGATGGCTCCCACAAACAGAGTCTTCCCAGGCTGAGCGAATATGCCCGAGTGCAGATTCAGAAAAGAGATGCTCAGTTCGTCGGCCAGAAGGTGGATAAAAAAGATGCTAACAAGCGCTATCAAACGCTTGAACAGGAAAACCGCCAACTGCCCCCCGCATAA	MISGASHSPVSIAPLRHERTIGPATSCVQTAHVSKLSPSHLSKQALDALKADSPDKIQSAITRMADNAIVDGSLNLCSTEHNEATFKLLLSQRNSSPGELLVHTRKNEQQRDDILELKHKSYAAGPTETVVLMERPHEGARSTDPQQEAMETSKKLNSLPPTLGDGSHKQSLPRLSEYARVQIQKRDAQFVGQKVDKKDANKRYQTLEQENRQLPPA				NA	NA	NA	NA	NA
D1-35_05224	657	dctD_5		C4-dicarboxylate transport transcriptional regulatory protein DctD	ATGCCACTCAGCCTGCAAGCCAAGTTGCTGCGTGTCCTTGAGGTGCGAGCCATCGAGCGTTTGGGCTCTACCACGGTCATTCCACTGGATATCTGTGTGATCGCCTCGGCCCAGCGGCCCTTGGCCGAGTTGGTGGAGCGGGGTGAGTTCAGGCGCGATCTGTATTTTCGCCTCAATGTGCTGACGATCCAGTTGCCAGCGCTACGTGACCGTCGCGAAGACATCGTTCCACTGTTTTCCCAGTTCGTGAACGCAGCTGGGCAAGACCTGGGGTGCGCACCGAAACCCATATCCCCCGAGCTCATGCAGACACTGCTGAGCCATCCCTGGCCGGGCAATATCCGTGAACTGAAATCGGCGGCCAAGCGATATATCCTGGGGCTGGCGTCGATAACCCTAGGCTCAGGCACGGAGATCGAGGGGCGCACGCTGAGGGCGCAACTGCGCGCTATCGAACGCATCCTTATCCAGGAAGCCCTCAAGCGTCACGGGCACTCGATTGATGCGGCGAGTGTGGAATTGGGCATCCCCCGTAGAACTCTTTATCACCGGATCAAATCGTTGGATGTATTCGGCAAGGCATCGTTGCTTGAAAAAATCTGCAAGCTGACTGCTACTGAACGCAAAAAATGTCTGGCTGACGTGGGAACCGGATAA	MPLSLQAKLLRVLEVRAIERLGSTTVIPLDICVIASAQRPLAELVERGEFRRDLYFRLNVLTIQLPALRDRREDIVPLFSQFVNAAGQDLGCAPKPISPELMQTLLSHPWPGNIRELKSAAKRYILGLASITLGSGTEIEGRTLRAQLRAIERILIQEALKRHGHSIDAASVELGIPRRTLYHRIKSLDVFGKASLLEKICKLTATERKKCLADVGTG	PGPT0017310_1124	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017310-dctD-K10126	NA	NA
D1-35_05226	1080	dmlA	COG0473	D-malate dehydrogenase [decarboxylating]	ATGAGCAAACCATTCAGAATCGCCGCGATTGCTGGCGACGGTATTGGTAAGGAAGTCTTGCCGGAGGGGCTGCGGGTATTGGAGCAGGCGGCGAAGAAATGGCAATTGGATCTGAGCATCGAAGTGCTCGACTGGGCCCACTGCGATTATTACCTGGAACACGGGCAGATGATGCCCGCCGACTGGTTCGAACAGCTCAAGGGCTTCGATGCGATCTACTTTGGCGCCGTGGGCTGGCCGGACAAGGTGCCGGATCACATTTCCCTGTGGGGTTCGCTGCTGAAGTTTCGCCGGGACTTCGATCAGTACGTGAACATCCGTCCGGTGCGGCTGTTTCCCGGCGTGCCGTGTCCGTTGGCCGGACGTGAAGCCGGGGACATCGACTTCGTGGTGATCCGCGAAAACACCGAGGGCGAGTACTCCTCGGTCGGCGGCAAGATGTTCGAAGGCACCGAGCACGAGTTCGTGCTGCAGGAGTCGGTATTCACCCGACGCGGTGTGGACCGGATTCTCAAGTTCGCCTTCGACCTGGCCCAGACCCGGCCGCGCAAACGCCTGACGGCGGCGACCAAGTCCAACGGCATTTCCATCAGCATGCCGTACTGGGACGAACGCACGGCGCTCATGGCGCAGCAGTACCCGGACGTCACCTGGGACAAGCAACACATCGATATCCTCTGTGCGCGCTTTGTGCTTCAGCCAGACCGTTTCGATGTGGTCGTGGCGTCGAATCTGTTCGGTGACATCCTGTCCGACCTCGGACCTGCCTGCGCCGGCACCATCGGCATTGCCCCTTCGGCCAACCTCGATCCACAGCGACGATTTCCCTCGTTGTTCGAACCGGTCCATGGCTCGGCGCCAGATATCTATGGACGGAACATCGCCAACCCGATTGCGATGATCTGGTCCGGTGCCTTGATGCTCGATTTCCTGGGTAATGGCGATGAACGCTATCGCGCGGCCCATGACGGGATTCTCAAGGCCATCGAGCGGGTTATTGCAGAGGGCCCGATTACGCCTGATCTTGGGGGACAGGCGTCGACTCAGGAGGTTGGTCTGGCTGTGGCTATGGCGCTTTGA	MSKPFRIAAIAGDGIGKEVLPEGLRVLEQAAKKWQLDLSIEVLDWAHCDYYLEHGQMMPADWFEQLKGFDAIYFGAVGWPDKVPDHISLWGSLLKFRRDFDQYVNIRPVRLFPGVPCPLAGREAGDIDFVVIRENTEGEYSSVGGKMFEGTEHEFVLQESVFTRRGVDRILKFAFDLAQTRPRKRLTAATKSNGISISMPYWDERTALMAQQYPDVTWDKQHIDILCARFVLQPDRFDVVVASNLFGDILSDLGPACAGTIGIAPSANLDPQRRFPSLFEPVHGSAPDIYGRNIANPIAMIWSGALMLDFLGNGDERYRAAHDGILKAIERVIAEGPITPDLGGQASTQEVGLAVAMAL	PGPT0001905_719	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
D1-35_05227	1458	gabD_2	COG1012	Succinate-semialdehyde dehydrogenase [NADP(+)] GabD	ATGCTCAAGAATCGCCTGAAAGACCCCAGCCTGCTGGTAGAACTCGCTTACATCGACGGCCAGTGGGTCGGCGCCGACAACGCCGCCACCCTGGACGTGATCAACCCGGCCACCGGCGAGGTGCTTGCCCGGGTACCGGCGATACACGGCAGTGAAACCCGGCGCGCCATCGAAGCCGCCGACCGTGCCTGGCCGGCCTGGCGTGCACGTCCGGCGGCGGAACGGGCGGCGCTGCTCGATCGCTGGTACCAGGCGATGATCGACAACCTCGACGACCTGGCGCTGATCCTCACCCTTGAGCAGGGCAAGCCGCTGGCAGAAGCCAAGGGCGAGATCCGCTACGGTGCCAGCTTCGTCAAATGGTTTGCCGAAGAAGCTCGACGGATCTACGGCGAAACCATCCCGGCCCCCAGCGGTGATCGGCGCTTGATGACCCTCAAGCAACCGGTCGGTGTTTGCGCCGCGATCACCCCGTGGAATTTCCCCAATGCGATGATCACCCGCAAGTGCGCACCGGCCCTGGCCGCGGGCTGCACGATCGTGGTCAAGCCGTCGGACCTGACCCCGCTGTCGGCCCTGGCCCTGGCGGTGCTGGCCGAGCGGGTCGGGATTCCGGCCGGGGTGTTCAACGTCGTGACCGGCATGCCCGCCGGCATTGGTGAAGAGCTGACCGGCAACCCGACGGTGCGCAAGCTTTCCTTCACCGGCTCTACCGCTGTCGGACGCCTGCTGATGCGTCAGAGCTCGGAACACATCAAGCGCTTGAGCCTGGAGCTGGGCGGTAACGCTCCGTTCATCGTGTTTGACGACGCGGACCTGGAGCAAGCCGTGACCGGCATCATGCTCAGCAAATTCCGCAACGCCGGGCAGACCTGCGTCTGCGCCAACCGCATTCTGGTGCAGGATGGGATCTACGAGCGCTTCGCCCAGCGCCTGGTGGAGGAGGTGGGCAAGCTCAAGGTTGGCGACGGCCTCGAGGCCGAGGTGAACATCGGTCCGCTGATCAACGCGGCGGCGGTCAGCAAGGTCGCTCGACACATCGACGAGGCGTTGAGCCAGGGCGCTCGCCTGCTTTGTGGCGAAATCCCCACGGGCGACAGCCGGTTCGTCCAGCCGACGGTGCTCGGGCAGACGCATGCCGGGATGCTGCTGGCCAACGAAGAAACCTTCGGTCCGGTTGCTCCGCTGATGCGCTTCAGCACGGAAGAAGAGGCGCTCGCCTTGGCCAACGCTACGCCCTATGGCTTGGCGGCATATTTTTTCACCCAAGATCTGCGCCGCTCATGGCGGTTCGGCGAGGCCCTGGAGTTCGGCATGGTTGGCCTCAATACCGGGCTCATTTCCATGGACGTCGCGCCCTTCGGCGGCATCAAGCAATCGGGCCTTGGGCGTGAAGGCAGCAAGTATGGCCTGGATGAATTTCTTGAAGTCAAAGCCTTCCACGTCGGCGGGCTGTGA	MLKNRLKDPSLLVELAYIDGQWVGADNAATLDVINPATGEVLARVPAIHGSETRRAIEAADRAWPAWRARPAAERAALLDRWYQAMIDNLDDLALILTLEQGKPLAEAKGEIRYGASFVKWFAEEARRIYGETIPAPSGDRRLMTLKQPVGVCAAITPWNFPNAMITRKCAPALAAGCTIVVKPSDLTPLSALALAVLAERVGIPAGVFNVVTGMPAGIGEELTGNPTVRKLSFTGSTAVGRLLMRQSSEHIKRLSLELGGNAPFIVFDDADLEQAVTGIMLSKFRNAGQTCVCANRILVQDGIYERFAQRLVEEVGKLKVGDGLEAEVNIGPLINAAAVSKVARHIDEALSQGARLLCGEIPTGDSRFVQPTVLGQTHAGMLLANEETFGPVAPLMRFSTEEEALALANATPYGLAAYFFTQDLRRSWRFGEALEFGMVGLNTGLISMDVAPFGGIKQSGLGREGSKYGLDEFLEVKAFHVGGL	PGPT0001580_2728	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
D1-35_05228	1158	argE_3	COG0624	Acetylornithine deacetylase	ATGAAACCCCGTGTATTGGAGATTCTCAAACGGCTGATGGCCTTCGATACCGTCTCTTCGGAATCGAATATGGCCTTGATCGAATACGTGCGCGATCTGCTCATGACCAAGGGCATCGAGTCCTTGATCGTGCGGGACGACAGCGGCAACAAAGCCAACCTGTTTGCCAGTACCGGTCCAAGGGATGTGCCGGGGATCCTGCTGTCGGGTCATACCGACGTGGTGCCGGCGGCGGGGCAGGCCTGGACCTTCCCGGCGTTTGCGGCGACGGTGCGGGACGGACGGATCTATGGCCGTGGCAGTTGCGATATGAAGGGCTTTATCGCCCTGGCAGTCGACGCCATGCTCGATGCCGCCGAGCAGCCATTGAGCAGGCCGCTGCAGCTGGCGCTGTCCCATGACGAGGAGATCGGCTGCGTGGGGGTACGGCGTTTGCTTGATGTGCTGCACCTGGCACCGGTCCGGCCGTTTCTGTGCGTCATCGGCGAGCCGACCCATATGCAGTTCGTTCTCGGGCACAAGGGCAAGGGTTCCTACCGTACGTACTGTCGTGGGCTGGAGGCGCACTCATCATTGGCGCCACGCTCGGTCAATGCGATTCATGTGGCCTGCGATTTCATCGCCGCGCTGCGCCTGAGCCAACAGCAGTTGCAAGAGCAGGGTGCCCGGGATACCGATTACGATGTGCCCTACAGCACCGTGCATGTCGGTCAGATTGTCGGCGGCAAGGCGCTGAACATCGTACCCAACCTGTGCACCCTTGATTTCGAAGTGCGTAACTTGCCGGCGGACGACCTGGACGGCTTCCTCGAGCAGATGCGCGAACGGGCCGAACTGATCGTACGCGAGGCGCAAAAGCTCTCCAGCGTGGCGGCGATTGAAATCGAGACCCTGAACGTCTACCCGGGCCTCGACACCCATCCGAGCGTCGAAGCAGTACGGTTCCTGAAAAACTTTGCCGCCCCGGACACTGGCACCGCGAAAGTCTCGTTCGGCACCGAGGGCGGTTTGTTCAAGCAACGCCTGGATGTACCGGTGGTGGTCTGCGGCCCGGGTTCGATCGAACAGGCGCACAAACCTGACGAGTTCATCGAGATCAGCCAGATGGAGGCGGGCGAGTGCTTTCTGCAAGGGTTGCTGGGCTCGATGCGCATTTGA	MKPRVLEILKRLMAFDTVSSESNMALIEYVRDLLMTKGIESLIVRDDSGNKANLFASTGPRDVPGILLSGHTDVVPAAGQAWTFPAFAATVRDGRIYGRGSCDMKGFIALAVDAMLDAAEQPLSRPLQLALSHDEEIGCVGVRRLLDVLHLAPVRPFLCVIGEPTHMQFVLGHKGKGSYRTYCRGLEAHSSLAPRSVNAIHVACDFIAALRLSQQQLQEQGARDTDYDVPYSTVHVGQIVGGKALNIVPNLCTLDFEVRNLPADDLDGFLEQMRERAELIVREAQKLSSVAAIEIETLNVYPGLDTHPSVEAVRFLKNFAAPDTGTAKVSFGTEGGLFKQRLDVPVVVCGPGSIEQAHKPDEFIEISQMEAGECFLQGLLGSMRI	PGPT0014254_1824	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014254-argE-K01438	NA	NA
D1-35_05229	1842	gsiA	COG1123	Glutathione import ATP-binding protein GsiA	ATGAGCGAATTGATTCGGGTACAGGACCTGCGCGTGGTCGCCTGCGGCGAGCGCGAGGAGGTGGACATCGTCAAGGGGGTCAGCTTCTCCCTGCAAAAAGGCGAAGTATTGGCGTTGATCGGTGAGTCCGGTTCCGGCAAGACCACCATCGCCCTGGCATTGCTCGGTTATGCCCGACGCGGTTGTCGGCTGGCGGGCGGCGTGGTGCAAATCGGCGAGGACGACATGCTGGCGTTGAGCGAGAGCCAATTGCAGAAGTTGCGCGGCAACCGCGTGTCCTATATCGCCCAGAGCGCCGCAGCGGCGTTCAACCCGGCGAAAAAACTCATCGACCAGGTAGTGGAAGGCGCGCTGATTCATGGCCTGGGTAGCCGAGCGGTGCTTGAGGCGAAGGCCATCGAGCTGTTCCGTGACCTGGCCCTGCCAGACCCGGAGCGCATCGGCCAGCGCTATCCTCATCAGGTGTCCGGCGGGCAGCTGCAACGGGTAATGGCGGCCATGGCGCTGATCAGCGATCCATTGCTGGTGGTGCTCGACGAGCCGACCACGGCCCTTGATGTGACGACCCAGATCGATGTACTGCGGGCCTTCAAACGGGTAGTCCGCGAGCGTGGGGCCACGGCCGTCTATGTGTCTCACGACCTGGCGGTCGTGGCGCAGATGGCTGATCAGATCGTGGTACTCAATGGCGGCGAGATCTTCGAACATAGCGCCACGGCACCTTTGCTCAAGGGCCCGGCCCACGAATACACCCGCAGCCTGTTGGCGGCGGCGCGGCCGGACACGACGATCCGTCCGCCCGGCGACATCGCGCAACACACCCCTTTGCTGACCATCCAGGGGCTGACCGCCGGCTACGGCAACAAGAATGCCCAGGGCATGCCAGCGATTCGCGTGCTGGAAGACATCGACCTGACGGTTCGCCGAGGCCAGGCCATTGGCGTCATCGGTGAGTCGGGCTCGGGCAAATCGACCCTTGCACGGGTGGTGGCCGGGTTGTTGCAGCCAGCCCTTGGCGGGTTGTCCTTCGATGGTCAACCCCTGGGCGGCAGCCTGCCGTCGCGTACCCAGGAGCAGTTCCGACGCATACAGATGGTCTTCCAGAATGCCGACACCGCACTCAATCCGATGCACAGCGTCAGCACGATCCTGAGCCGCCCGCTTAAGATGTATTTCGGCCTCAAAGGCGCCGCGTTGCGCGAGCGTATCGGCGAGCTGCTGGACCTGGTGCGTTTGCCCCGGACGATGGCGGACCGGCGTCCGAACGAACTGTCTGGCGGACAGAAGCAACGGATCAACCTGGCCCGGGCCTTGGCGGCCAAGCCAGACCTGATTCTCTGTGACGAGGTGACCTCGGCGCTGGATACCGTGGTCGGTGCGGCAATTCTCGAATTGCTGCGCGATTTGCGCCAGGAGCTGGGAGTGTCCTATCTGTTCATCAGCCACGACATCTCCACCGTGCGCGCCTTGTGTGACGACATCGTGGTGATGTATAGCGGGCACAAGGTCCAGGCCGGTACGCGTCAATCCTATGCCGAGGCTCCGTTCCATCCGTATACCGATCTGTTGATCCATTCCGTACCGGAACTGCGCCAGGGCTGGCTGGAAAGCTGCGGGGCAACGACCTGCCAGACGCTGCCGCCGATTGGGCCGAAAGCCGCTGTGCCAGGGCTGTGCACTTTCCTCAGTCGCTGCCCGGTGCGGGTCGACGGGCTGTGCAACCGCGTCGCGCCGGACCGACGGATGTTAGTCGGTGGCAGCGAAATCCTTTGCCACCACGACAGCGCCGAACTGATGAAAACCCAGCAACCGAACACTCCGACCGTGGCGGCGTACGCATGA	MSELIRVQDLRVVACGEREEVDIVKGVSFSLQKGEVLALIGESGSGKTTIALALLGYARRGCRLAGGVVQIGEDDMLALSESQLQKLRGNRVSYIAQSAAAAFNPAKKLIDQVVEGALIHGLGSRAVLEAKAIELFRDLALPDPERIGQRYPHQVSGGQLQRVMAAMALISDPLLVVLDEPTTALDVTTQIDVLRAFKRVVRERGATAVYVSHDLAVVAQMADQIVVLNGGEIFEHSATAPLLKGPAHEYTRSLLAAARPDTTIRPPGDIAQHTPLLTIQGLTAGYGNKNAQGMPAIRVLEDIDLTVRRGQAIGVIGESGSGKSTLARVVAGLLQPALGGLSFDGQPLGGSLPSRTQEQFRRIQMVFQNADTALNPMHSVSTILSRPLKMYFGLKGAALRERIGELLDLVRLPRTMADRRPNELSGGQKQRINLARALAAKPDLILCDEVTSALDTVVGAAILELLRDLRQELGVSYLFISHDISTVRALCDDIVVMYSGHKVQAGTRQSYAEAPFHPYTDLLIHSVPELRQGWLESCGATTCQTLPPIGPKAAVPGLCTFLSRCPVRVDGLCNRVAPDRRMLVGGSEILCHHDSAELMKTQQPNTPTVAAYA	PGPT0004435_1543	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
D1-35_05230	876	ddpC_2	COG1173	putative D,D-dipeptide transport system permease protein DdpC	ATGAACAACCTCATTGTGAAATCGCCGACGGCGGCCGCTGCGCTGGGGTTGGGCAAAGACGCCCACGCAAAGTCCTGGCTTGGCCTGGCCGGCGCCGCGATGTGTGTGATCTGGTTGCTGGTGGCGATTTTCGGCCCGTGGCTGGCGCCGCATCCGGTGGGCGAAGTGGTCTCCGACAACGTCTTCGACAGCCTCAGCGCGACGTACCCGTTCGGCACCGATTACCTGGGCCGCGACATGCTCAGCCGGGTTCTTGTCGGCGCGCGTTTCACCGTCGGCCTGGCGTTGGTGGCCGCGGTGCTGTCGAGCACCCTGGGAACCAGTCTGGCGCTGTTGTCGGTGGTGTCGCCAAAGTGGCTGGATGAGCTGATCAGCCGCCTGATGGACGCGTTCATTTCGATCCCGAGCAAGATGCTGGCGCTGATCATGGTCTCGGCCTTCGGCTCCTCGGTCACCTTGCTGATCTGCACGGCGGTGTTGAGCTACACCCCCGGTGCCTTCCGCATCGCCCGCAGCATGGCGGTGAATATCGAAGCGCTGGAGTACGTGCAAGTGGCCCGTACCCGGGGCGAGCGCCGACTGTATATCGCCTGCGTGGAAATCCTGCCGAATATCCTCAATCCGGTGCTGGCGGACCTGGGCCTGCGTTTTGGTTTCATCGTGCTGCTGCTCAGTGGCATGAGTTTCCTCGGGCTGGGCGTGCAACCGCCGGATGCCGACCTTGGCTCGCTGGTGCGCGAGAACATCGGCGGCCTCAATCAGGGGGCGCCGGCCATCGTGATTCCTGCCCTGGCCATCGGCACCCTGACCATCGGCGTGAATCTGTTCATCGACCGGTTGTCGTCGCGACGTAGCCGACGTACGGGAGGTCATTGA	MNNLIVKSPTAAAALGLGKDAHAKSWLGLAGAAMCVIWLLVAIFGPWLAPHPVGEVVSDNVFDSLSATYPFGTDYLGRDMLSRVLVGARFTVGLALVAAVLSSTLGTSLALLSVVSPKWLDELISRLMDAFISIPSKMLALIMVSAFGSSVTLLICTAVLSYTPGAFRIARSMAVNIEALEYVQVARTRGERRLYIACVEILPNILNPVLADLGLRFGFIVLLLSGMSFLGLGVQPPDADLGSLVRENIGGLNQGAPAIVIPALAIGTLTIGVNLFIDRLSSRRSRRTGGH	PGPT0004450_9761	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
D1-35_05231	957	gsiC_2	COG0601	Glutathione transport system permease protein GsiC	ATGAATAGCAACACACTGTGGTTGATCGGCCGCCGTCTGGGGGCGGCGGTCGTGACCTTGTTGATTGTCTCGATGGTGGTGTTCGCCATCACGGCGGTACTGCCGGGGGACGCGGCGCAACAGGCGCTGGGACAGTTCGCCACGCCGGAACAGGTGGCGGCCCTGCGGGCGAAAATGGGCCTGGACCAGCCCGGTGTGTTGCGTTATCTGCATTGGCTGACGAGCCTGCTCAGCGGTGACCTGGGGATGTCGATGTCCAACGCCACGCCGGTAATCGAGCTGATGGCCGGCCGGGTTCCCAACACCTTGATGCTCGCCGCTGCCACGGCCCTGGTGTCGGTGCCCGTGGCGTTGACCCTGGGGATCGGCTCGGCCATGGGCCGAGGCGGGCGCCTCGACAGCTTCCTGAGTTTTTTCACCTTGACCATGGTGGCCGTGCCGGAGTTTCTGGTCGCCACCTTGGCGGTGCTGATATTCGCCGTGAACCTGGGTTGGTTATCGGCGCTGTCCTATGCCAGTGACATCACGTCCCCCTGGCAATTCATGCGCACCTACGCATTGCCGGTGATGACGCTGTGCTGCGTGATTGTCGCGCAAATGTCACGCATGACCCGCGCAGCCGTGATCGATCAGCTCGACAGCCCTTACGTGGAAATGGCCCGGCTCAAGGGCGTGAGCAATATCCGTATCGTGCTCCGGCATGCCTTGCCCAATGCCATCGGCCCCATTGCCAATGCCATCGCCCTGAGCTTGTCCTACCTGTTGGGCGGGGTGGTGATCGTCGAAACGATCTTCAACTATCCCGGCATTGCCAGCTTGATGGTCGATGCCGTGACCAACCGCGACATGGCCCTGGTTCAAGCCTGCACCATGTTGTTCTGTACGGCGTATCTGGCGTTGGTGTTGATCGCCGACCTGTGCGCGATTCTTTCCAATCCGAGGCTGAGAAACCAATGA	MNSNTLWLIGRRLGAAVVTLLIVSMVVFAITAVLPGDAAQQALGQFATPEQVAALRAKMGLDQPGVLRYLHWLTSLLSGDLGMSMSNATPVIELMAGRVPNTLMLAAATALVSVPVALTLGIGSAMGRGGRLDSFLSFFTLTMVAVPEFLVATLAVLIFAVNLGWLSALSYASDITSPWQFMRTYALPVMTLCCVIVAQMSRMTRAAVIDQLDSPYVEMARLKGVSNIRIVLRHALPNAIGPIANAIALSLSYLLGGVVIVETIFNYPGIASLMVDAVTNRDMALVQACTMLFCTAYLALVLIADLCAILSNPRLRNQ	PGPT0004445_9394	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
D1-35_05232	1647	sgrR		HTH-type transcriptional regulator SgrR	ATGACTGACAAAAAAAACAGTATCGATACCCAGCTGATAACAGGTACGGAAAGTCTGCGCGTTTTCGAAGGGCTCAATCGCGGCATGTCCCGCCGCAATGCATTGCAGATGCTCGGGTTGGCCGGGGTGGCCGTGGCGGGCGCCGGTAGCCTGTTCGGCACCGCCGGCAAGCTGTTCGCCGATGAGGAGGCCGCCAGCCCAGGCAAAGGCAAGCCGGGCGGGCGCATCCGCGTCGCCGGCTCGACCAGTTCCACCGCCGACACCCTGGACCCGGCCAAAGGTTCGTCGTCCACCGACTACGTACGCCATTACATGTTCTACAACGGGCTGACGCGTTTTGACAGCCACATGGTGCCGCAACTGGAACTGGCCGAGCGTATCGAGACCACGGACGCCACGCTCTGGGTGATCAGCCTGCGCAAGGAAGTGACCTTCCACAACGGCAAGGCATTGACCGCCGCCGACGTGGTGTTCTCGCTGTTGCGTCACAAGGACCCGATCACCGGCTCCAAGGTCTTGCCGCTGGCGTCGCAGTTCGCCGACGTCAAAGCCGTCGGCACCCATGAAGTGCAGATTCAGTTGAGCGGCCCCAACGCTGAACTGCCCTCGGTCCTTGCCGTCTCGCACATGTTGATCGTGCCCGAGGGCACCAGCGATTTCACCCAGGGCATCGGTACCGGCCCGTTCAAGGTCAAGGAGTTCAAGCCCGGGGTGCGTTCGGTTGGCGTGCGCAACAGCAATTACTGGAAGCCCGGCTTGCCGTACCTGGACGAGATCGAATTCATCGGCATTGCCGACGAATCGTCACGGATCAACGCCCTGCTGTCAGGGGACGTGCACATCGTCAACGAGGTCAACCCGCGTTCGACGACCCGCATCAAGGCCAGCGCCCGGCATCGGGTCATCGACTCACCGTCGGGCAACTACACTGACCTAATCATCCGTCAGGACCAGATGCCCGGCAAAAGCCCGGAGTTCACCCAGGCGATGAAGCTATTGCTGGACCGGGAACAGATCAAGTCGGCGATCTTCCGTGGCTATGCGCGGGTCGGCAACGACCATCCGATCGCGCCCGGAGCACGCTTCTTCAACGCCGATTTGCCGCAACGGGCTTACGATCCTGAACAGGCCAGGTCGTTGTTGAAGAAGGCCGGCATGGAAAGCATCAGCATGCCGCTGATGTGCTCGCCCGCGGCGACCGGTTCGGTGGACATCGCGGTGCTGCTGCAGCAGTCCGCCAAGGAAGCCGGGCTCAAGCTCAACGTCAACCGCCTGCCGAGCGATGGCTACTGGTCCAACCACTGGGCCAAGCACCCGCTGAGCTTTGGCAACATCAATCCGCGACCGAATGCCGACATGCTGTTCTCGCAGTTCTTCCAGTCGAGCGCGCCCTGGAACGAATCAGGCTGGAAAAACGAGCAGTTCGACCAATTGTTGATACAGGCCCGCGGTGAAACCGACGAGGCCAAGCGCGGCAAGATGTACGCCGACATGCAGGTGCTGGTGCATGAGCACGGAGGTATCGGCGTACCGGTGTTCATCAGCAACATCGACGGTGCCGACCAGCGCGTAAAGGGCTACGGCGCCAATCCCCTGGGCGGTTTCATGGGCTACATGTTTGCCGAGCAGATCTGGCTGGATGCCTGA	MTDKKNSIDTQLITGTESLRVFEGLNRGMSRRNALQMLGLAGVAVAGAGSLFGTAGKLFADEEAASPGKGKPGGRIRVAGSTSSTADTLDPAKGSSSTDYVRHYMFYNGLTRFDSHMVPQLELAERIETTDATLWVISLRKEVTFHNGKALTAADVVFSLLRHKDPITGSKVLPLASQFADVKAVGTHEVQIQLSGPNAELPSVLAVSHMLIVPEGTSDFTQGIGTGPFKVKEFKPGVRSVGVRNSNYWKPGLPYLDEIEFIGIADESSRINALLSGDVHIVNEVNPRSTTRIKASARHRVIDSPSGNYTDLIIRQDQMPGKSPEFTQAMKLLLDREQIKSAIFRGYARVGNDHPIAPGARFFNADLPQRAYDPEQARSLLKKAGMESISMPLMCSPAATGSVDIAVLLQQSAKEAGLKLNVNRLPSDGYWSNHWAKHPLSFGNINPRPNADMLFSQFFQSSAPWNESGWKNEQFDQLLIQARGETDEAKRGKMYADMQVLVHEHGGIGVPVFISNIDGADQRVKGYGANPLGGFMGYMFAEQIWLDA	PGPT0004430_6568	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
D1-35_05233	1275	puuB_7		Gamma-glutamylputrescine oxidoreductase	ATGGGCAGTGAGTCTTATTGGCTCGATACCGCACCGGCATTTACCGGTGCCCAGCTCGGTGCGTTACCCGGGCAGGTCGATGTGGCCATCGTCGGTGGCGGTTTCACTGGCCTGGCCGCCGCCCGGTCCCTGGCCTTGAAGGGCGCCAATGTGGTGGTGCTGGAAGGCGGGCGGGTCATTGGCGAGGCTTCGGGGCGCAATGGCGGCCAGTGCAACACCGGCGTCGCCCAGGACTACGCGTCATTGAGTGCCAGCCTCGGCGCCGACAAGGCGCGCGCCTATTACCAGGCCTATGAAAGCGCCGTGCAGAGTGTCGTCTCGCTGGTGGAGCAAGAGCAGATTGCCTGCGACTTCAAGCGCAACGGCAAGCTCAAGTTGGCGGCCAAGCCCCTGCACTACGAAGGGTTGGCACGTACTTGCGAATTGATCCGGCGCGAGGTCGATGCCGAGGTCGAGTTGCTGTCTGCGCAGGAAGCTCGGGCTGAAGTGAACTCGGCCCAGTTCCATGGCGGCTTGCTGCAGCGTAACGGCGTGCAGATGCATGTCGGACGCTTCGGGGTCGGATTGGCCGAGGCCGCGGCCCGTCACGGCGCGCTGATTTTCCAAGGCGTATCGGTAACGGACTGGAAAACCAGCGCCGGTGGTTATCGGGTCAATACCACCAAGGGTTCGCTCCAGGCCACGCAGATCCTGCTGGCCACGGGAACCTGCCAGCAGGGTGGGTTGGGTTGGTATCGGCGGCGGATCGTGCCGGTGGGCAGTTTTGTGATCGCCACCGAGGTGTTGCCGCAGGCCCTGATCGACAGTTTGCTGCCGGCACACCGCTCCTATGTCACCAGCCGGATGATCGGCAACTACTTTCGGATCACCCCGGACAACCGCTTGCTGTTTGGCGGGCGGGCGCGGTTCGCCATGTCCGACAGTGTGTCCGATGCCAAGAGCGGCAAAGTCCTGCACGCGGCGATGGTGCAGATGTTTCCGCAACTGGCCCACGTGAAGGTCGAGTATTGCTGGGGCGGATTGGTCGACATGACCTCCGATCGGCTGCCCCGGGCCGGCCAGCACGGCGGCGTCTATCACTCCATGGGCTACAGCGGCCATGGCGTGCAGATGTCGGTGCACATGGGCCAGGTCATGGCCGACGTCATGGCCGGGAAAGTCGAGGCCAACCCTTGGCGCGAACTCGACTGGCCGGCCATCCCCGGACATTTTGGCAAGCCCTGGTTCCTGCCGCTGGTAGGTGCGTATTACCGCCTTCAAGACTATTTGCACTGA	MGSESYWLDTAPAFTGAQLGALPGQVDVAIVGGGFTGLAAARSLALKGANVVVLEGGRVIGEASGRNGGQCNTGVAQDYASLSASLGADKARAYYQAYESAVQSVVSLVEQEQIACDFKRNGKLKLAAKPLHYEGLARTCELIRREVDAEVELLSAQEARAEVNSAQFHGGLLQRNGVQMHVGRFGVGLAEAAARHGALIFQGVSVTDWKTSAGGYRVNTTKGSLQATQILLATGTCQQGGLGWYRRRIVPVGSFVIATEVLPQALIDSLLPAHRSYVTSRMIGNYFRITPDNRLLFGGRARFAMSDSVSDAKSGKVLHAAMVQMFPQLAHVKVEYCWGGLVDMTSDRLPRAGQHGGVYHSMGYSGHGVQMSVHMGQVMADVMAGKVEANPWRELDWPAIPGHFGKPWFLPLVGAYYRLQDYLH				NA	NA	NA	NA	NA
D1-35_05234	669			hypothetical protein	ATGAGCTTCCTTCGCCCCAAGTTCATTACCTTTGACTGCTATGGCACGTTGACCAACTTTCAGATGGGGACCATGACGCGCGAGCTGTTCGCCGATCGGGTCCCAGCCGAGCAGATGGATCAGTTCGTCAAGGATTTCTCGGCCTACCGGCTGGACCAGGTGATGGGCGACTGGCGGCCCTATGATGAAATTCTCAAGACTGCCCTGGCCCGGGTCTGCAAGCGTTGGGGGGTCGAATACAAAGGCGAAGGCCAGCTCTATTACGACGCCGTACCGACCTGGGGCCCACATGCCGACGTACCGGCAGGCCTGTCGAAAATCGCCGACAAGATTCCCCTGGTGATTTTCTCCAATGCGATGGACGAGCAGATCATGTCCAACGTCGACAAGCTCGGCGCACCTTTTCATAAAGTCTTCACGGCTCAACAGGCCCAAGCCTACAAGCCACGTCTGGCGGCCTTCGAGTACATGCTCGATAACCTCGGCTGCGGGCCGGAGGATGTCCTGCATGTGTCTTCGAGCTTCCGCTACGACCTGATGTCGGCCCACGACATGAAGATCAAGCACAAAGCCTTCGTGGCCCGGGGTCATGAGCAACCGGCGAACGCGGCCTTTGGTTACCACCAGATCCCGGACATCGGCGGGTTGGCCGGTCTGGTCGGTCTCTGA	MSFLRPKFITFDCYGTLTNFQMGTMTRELFADRVPAEQMDQFVKDFSAYRLDQVMGDWRPYDEILKTALARVCKRWGVEYKGEGQLYYDAVPTWGPHADVPAGLSKIADKIPLVIFSNAMDEQIMSNVDKLGAPFHKVFTAQQAQAYKPRLAAFEYMLDNLGCGPEDVLHVSSSFRYDLMSAHDMKIKHKAFVARGHEQPANAAFGYHQIPDIGGLAGLVGL	PGPT0006885_2168	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
D1-35_05235	1326	abo_2		4-methylaminobutanoate oxidase (formaldehyde-forming)	ATGCCTGCACCGTTAACTTCCGTAGAGACGAATTCTGAACTGCCGACGCACGCTGACGTTGTCGTGATCGGCGGCGGCATTATCGGAACCTTCACGGCCTATTACCTGGCAAAGCGCGGCCTGAAGGTCGCGCTGGTGGAGAAGGGGCGCGTGGGGGCGGAGCAGTCGAGTCGAAACTGGGGTTGGTGCCGTCAGCAGAATCGGGACGCTCGTGAGCTGCCGCTGTCGACCAAGAGCCTCGAACTTTGGGAACAGTTCGCCGCGGAGACCGGCGAGGACACCGGATTCAGAAGGTGTGGCTTGCTCTATCTGAGCAACAACGAGAAAGAACTGGCGGGTTGGGCAAAGTGGGGTGAGTTTGCCCGTACCGTCAATGTCACAACGCACATGCTGACGGCGGAACAGGCTGCAGAACATGGCCGGGTGACTGGCAAGTCCTGGAAAGGCGGGGTCTTCTCGCCGACCGACGGTACGGCAGACCCGTCCCGTGCCGCTCCGGCGGTTGCGCGGGCGATCATCAAGCTGGGCGGCACGGTGCATCAGGGCTGCGCTGCCCGTGGCGTCGAGACCGAAGGCGGCCGGCTATCGGCGGTCGTTACCGAAAAGGGCACCATTCGCACCAAGCTCGCGGTGCTGGCCGGTGGCGCATGGGCGTCCTCGTTCTGCCGTCAGTACGGCATCCGGTTTCCCCAGGCGTCCATTCGCCAGACGATACTGTCGATCTCCAAGGGCGCCGAAGAGATACCGGACGCACTCCACACGGATGAGGTCTCCATGACCCGTCGCTCTGATGGCGGTTTCACGCTGGCCATCAGTGGCAGAGGGCGCGTTGACCCGACCCCGCAGCTGTTGCGGTTCGCTCCGCAGTTCCTGCCGATGTTCCAGCGTCGCTGGCGCAAGCTGGCGCCCGGTGGTCTGCAAGGCTTCCAGTCGGGGCATGAAGGCCTGGGCCGCTGGCGGTTGGACCAGCCAACCCCGATGGAGCGGATGCGCATCCTCGATCCTGCAGCCGATGCATCGGTTGTCGAGCTGACTTACAAGCGCGCGGTCGACCTGATCCCGATGCTGAAAAACTCGTCAGTCACCGCTGCCTGGGCAGGTTATGTGGACAGCACGCCTGATGGCGTCCCGGGCATTGGCGAAATAGCGAGCCTGCCTGGCCTGGTGCTGGCGGCGGGGTTCAGTGGCCATGGCTTCGGCATCGGCCCTGGCGCGGGCCACTTGATCGCCGACATTGTCAGCGACATGCCTCCCCTGGTTGACCCGCGTCCCTATCACCCGGATCGATTCCAGTCTTCAGCCTGGGGCAAAGTCGCGGAGTTCTGA	MPAPLTSVETNSELPTHADVVVIGGGIIGTFTAYYLAKRGLKVALVEKGRVGAEQSSRNWGWCRQQNRDARELPLSTKSLELWEQFAAETGEDTGFRRCGLLYLSNNEKELAGWAKWGEFARTVNVTTHMLTAEQAAEHGRVTGKSWKGGVFSPTDGTADPSRAAPAVARAIIKLGGTVHQGCAARGVETEGGRLSAVVTEKGTIRTKLAVLAGGAWASSFCRQYGIRFPQASIRQTILSISKGAEEIPDALHTDEVSMTRRSDGGFTLAISGRGRVDPTPQLLRFAPQFLPMFQRRWRKLAPGGLQGFQSGHEGLGRWRLDQPTPMERMRILDPAADASVVELTYKRAVDLIPMLKNSSVTAAWAGYVDSTPDGVPGIGEIASLPGLVLAAGFSGHGFGIGPGAGHLIADIVSDMPPLVDPRPYHPDRFQSSAWGKVAEF				NA	NA	NA	NA	NA
D1-35_05236	1461	ald		3-succinoylsemialdehyde-pyridine dehydrogenase	ATGACTATTCAATCTTCGAATCGCTACAGTGTTGATCCGCAAACGGCTCAGCGGCTTTATATCAATGGCGGTTGGTCTGCGCCGGCCAGCCCGGCCAGCCTGGCGGTGGTCAACCCGGCGACAGAAGAAGTGGTCGCCCAGGTTGCCAGCGGTTCTGCCGAGGATATCGATCGGGCGGTAGCAGCGGCGCGCGCCGCGTTTGCCGGTTGGTCTGCCACCTCCACGGCGTCGCGCGCGCTGCTGCTGGGCAAGATCCATGAGCTTATCCTTGAGCGAAAAGAAGCGTTTGCCCAGGCGATCTCCCTGGAAATGGGCTCGGCCATCGCTGCTGCTCGGGCAATGCAGGTACCCTTGGCGGCCGAACACGTTCGGGTCGCGCGCGATCTGCTGTCCACTTATTGCTTCCAGACGCTCGAGGGCACGACCGCAATCCGACGCGAACCCATAGGCGTCTGCGGCTTGATCACGCCCTGGAACTGGCCGCTTTACCAGATCACAGCAAAAGTCGCCCCGGCACTGGCGGCCGGATGCACGGTGGTGCTCAAGCCCAGTGAGCTGTCACCGCTGAGCGCCCTGCTGTTTGCACAGGTGGTGCATGACGCGGGCCTGCCACCGGGGGTCTTCAACCTGGTGAACGGCAGCGGCCATGTGGTCGGCGCCGCGATGGCCGCACACGCTGATATCGACATGATTTCGATCACCGGCTCAAACCGCGCGGGCACGCTGGTGGCACAGGCGGCCGCCCCGACGGCGAAGCGGGTCGGCCAGGAACTGGGCGGCAAATCGCCGAATATATTGCTTCCCGATGCGGACTTTGCCAAAGCCGTCCCGGCCGGCGTGCTGGCGGCGCTGCGCAACGTTGGACAATCATGCAGCGCCCCGACCCGCATGATCGTTCCCAAGGACCGACTGGCTGAAGTCGAAGCGCTGGCGGCCGCAACCGCCAACGCGATCATCGTTGGTGATCCGCAATCGCCGGAAACGGTACTCGGCCCGATTGCCAATCAAGCCCAGTTCAATCGCGTGCAGGCGATGATCGAGACCGGCCTGCACGAAGGCGCAAAACTGCTTTGCGGCGGACTTGGACGCGTGCCCGGTTTTGAAAAGGGTTACTACACCCGCCCGACAGTGTTCTCCGAGGTGGATAACGCCATGCGCATCGCCCAGGAGGAAATCTTCGGGCCGGTGCTGTGCATCATTGCCTATGAAACGATCGACGAGGCGGTGGCTATTGCGAACGATACGGTCTATGGGCTGGGCGCCCACGTCCAGTCACAGGACCTTGACCTGGCGCGCGCGGTGGCTTCTCGGATCCGCGCCGGGCAAGTGCTCCTGAATTACCCGGCCTGGAATCCGATGGCGCCGTTCGGTGGTTACAAGCGATCGGGAAACGGGCGTGAGTACGGCGTCTTCGGGCTTGAGGAATATCTGGAAACCAAGGCCATCGTCGGGTTCGGCTGA	MTIQSSNRYSVDPQTAQRLYINGGWSAPASPASLAVVNPATEEVVAQVASGSAEDIDRAVAAARAAFAGWSATSTASRALLLGKIHELILERKEAFAQAISLEMGSAIAAARAMQVPLAAEHVRVARDLLSTYCFQTLEGTTAIRREPIGVCGLITPWNWPLYQITAKVAPALAAGCTVVLKPSELSPLSALLFAQVVHDAGLPPGVFNLVNGSGHVVGAAMAAHADIDMISITGSNRAGTLVAQAAAPTAKRVGQELGGKSPNILLPDADFAKAVPAGVLAALRNVGQSCSAPTRMIVPKDRLAEVEALAAATANAIIVGDPQSPETVLGPIANQAQFNRVQAMIETGLHEGAKLLCGGLGRVPGFEKGYYTRPTVFSEVDNAMRIAQEEIFGPVLCIIAYETIDEAVAIANDTVYGLGAHVQSQDLDLARAVASRIRAGQVLLNYPAWNPMAPFGGYKRSGNGREYGVFGLEEYLETKAIVGFG	PGPT0006875_5759	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
D1-35_05237	693	hchA		Protein/nucleic acid deglycase HchA	ATGAAGATTCTAATGGTCCTTACATCTCACGATCAGTTGGGCGACACCGGCAAGAAAACCGGCTTCTGGCTGGAAGAATTCGCCGCTCCCTATTACGTGTTCGTCGATGCCAAGGCCACGGTCACGCTTGCGTCGCCGAAGGGCGGGCAACCACCGCTGGACCCCAAGAGCGATGAAGAGGACGCCCAGACTGATGCAACCCGTCGCTTTGGCACCGACACCCAGGCCCAAGCGGCGTTGGCCAACACCGTGCCGCTGGGCGAGGTCGACCCCTATGACTTCGATGCGGTGTTTTATCCCGGCGGTCATGGCCCCCTGTGGGATCTCGCCGAGGACACCGACTCCAAGACCCTCATCGAAGCGTTTTACGCAGCGAATAAACCCATCGCGGCCGTCTGCCACGCGCCCGGAGTGTTCAAGAACGTCAACGCCCCGGATGGCCAGCCGGTGGTCAAGGGTAAAAAAGTCACCGGTTTCACCAATTCCGAAGAAGAGGCGGTGGGGCTGACCGAAGTGGTCCCGTTCCTGGTCGAGGATATGCTCAAGGCCAAGGGCGGCGAGTATTCCAAAGGGGCGGACTGGGGCAGCCATGTGGTCGAGGACGGGCATCTGATCACCGGGCAGAATCCCGCCTCATCCGAAGCGGCCGCCAAGGCGTTGCTCAAGCGGTTGGAGGCGGAACAGGCGGGTTGA	MKILMVLTSHDQLGDTGKKTGFWLEEFAAPYYVFVDAKATVTLASPKGGQPPLDPKSDEEDAQTDATRRFGTDTQAQAALANTVPLGEVDPYDFDAVFYPGGHGPLWDLAEDTDSKTLIEAFYAANKPIAAVCHAPGVFKNVNAPDGQPVVKGKKVTGFTNSEEEAVGLTEVVPFLVEDMLKAKGGEYSKGADWGSHVVEDGHLITGQNPASSEAAAKALLKRLEAEQAG				NA	NA	NA	NA	NA
D1-35_05238	1254	nicP_5		Porin-like protein NicP	ATGAGCAATTACCTGCCCCGCGCGGCCTGGTTTCCGATCCTCGGCCTGTTGCCGCTGTCCCCGGCCAGCGCCGAAGGTTTCATCGACGACAGCAAGTTGAAGTTGCAACTGCGCAACGTCTACTTCAACGAGAACTTTCGCGACGAACATGGCATGAGCGCACGGGCCGCCAAGACCGCCAAGAGCGAGCGAACCGAATGGGCCCAGGGTTTCCTGTTGGATTACCAGTCAGGTTATACCCCGGGTACCGTCGGCTTCGGCGTCGATGCCTTGGGCCTGCTGGGGGTCAAGCTTGATTCCGGGCGCGGGCGCAGCGGCACGGGCCTGCTACCGGTGCATGACGACGGGCGCGCCGCCGACGAGTTTGCCAGCGCCGGCATGACCGCCAAGGCCCGGGTGGCCAAGACCACCCTCAAGCACGGCACCCTGTTGCCGAAGAACCCGGTGCTGATCTACAACGACGCGCGCCTGTTGCCGCAGACCTACCAGGGGACCCAGATCAACAGCAGCGACATCGACAATCTCAGCCTGACTGGCGGGCACCTGCAGCGTTTCAAACTGCGCGATTCAAGCGACAGCATGCCGATCGTGCCCGACGGTTATGGTGGCGATCAGTCAGGCGACTTCAGCTACGCGGGCGCCGACTACAAGTTGGGCAAGACCCTGCGCCTGAGCTACTTCTATGGCGAGCTGGAGAACTTCTATCGACAGAACTTCGCTGGCATCCAGCACGACCTGCCGCTTGGCCCCGGGGTTCTCACCAGCGATCTGCGCTATTTCAACAGCGCCGATTCCGGCTCGGCCTACGGCGGGAACATCGATAACGACATGCTCAGCGGGCTGCTGTCCTATGCCGTCGTGGGCCACACCTTCAGCGCCGGCTACCAGAAACTCAGCGGGGAAGGGGGTTTGCCTTATATCAGCGGGGCGACGGTCTATTCCTTCAGCAATGCCGGGATCGGCAAATTCATCGAGGAAGACGAGAAGACCTGGATGCTCGGTTACGGCTACGACTTCGCGCGCCTTGGCATTCCCGGCCTGACGTTTTCCAGCCGTTATCTCAGCGGTGACGATGGCAAGTCCAACAGCGCGGTGAAGGAATGGGAGCGTGATGCAGAAGTGGCCTATGTCGTGCAGCAGGGCACTTTCAAGGGACTGGGTGTGAAAATGCGCAACTATGTCTATCGCTCGGATTTTGCCAGGGGCCGTGACAGTAATCGTCTCTACCTGACCTACGATGTTGCGCTTTGGTAG	MSNYLPRAAWFPILGLLPLSPASAEGFIDDSKLKLQLRNVYFNENFRDEHGMSARAAKTAKSERTEWAQGFLLDYQSGYTPGTVGFGVDALGLLGVKLDSGRGRSGTGLLPVHDDGRAADEFASAGMTAKARVAKTTLKHGTLLPKNPVLIYNDARLLPQTYQGTQINSSDIDNLSLTGGHLQRFKLRDSSDSMPIVPDGYGGDQSGDFSYAGADYKLGKTLRLSYFYGELENFYRQNFAGIQHDLPLGPGVLTSDLRYFNSADSGSAYGGNIDNDMLSGLLSYAVVGHTFSAGYQKLSGEGGLPYISGATVYSFSNAGIGKFIEEDEKTWMLGYGYDFARLGIPGLTFSSRYLSGDDGKSNSAVKEWERDAEVAYVVQQGTFKGLGVKMRNYVYRSDFARGRDSNRLYLTYDVALW	PGPT0023610_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0023610-galP-K16517	NA	NA
D1-35_05239	1305	citN_4	COG2851	Citrate transporter	ATGCTCGCTTTACTTGGCTTGGCCATGGTGGTGGTCTTTACCTTCCTGATAATGACCAAACGGCTGTCGCCGATCGTCGCCCTGACAATCGTGCCGATCGTCTTCGCAATACTGGGCGGGTTTGGCGGAACCACCGGCAAGATGATGCTGGACGGCCTGAAGATGGTCGCGCCGTCGGCGGCGCTGCTGCTGTTCGCGATCCTGTTTTTCGGCCTGATGATCGACGCCGGCCTGTTCGACCCGCTGATCCGCAAGATTCTCAAACGCGTCAATGGCGACCCGATGAAGATCGCCGTGGGCACCGCACTGTTGTCATTGCTGGTGGCCCTGGACGGTGACGGCACGACGACCTACATGATCACCTGCGCCGCGATGCTGCCGCTGTACAAGCGCATCGGCATGAATCCGATGATCCTGGCGACCGTCTCGATGCTGTCGCTGAGCATCATGAGCGGTATGACGCCCTGGGGTGGGCCGGCGACCCGCGCCATCGCGGCGTTGGGCCTGGATGCCGGCGAGTATTTCGTGCCGCTGCTGCCGACCATGATCGGCGGTGCCGCCTGGGTGGTGTTCACCGCCTACCTGCTGGGCCGCGCCGAGCGCAAGCGCATTGGCAATATCCAGCTGCAAAGCGGTGGCGGCGACTGCTACATCAAGGCGATTCTTGAAGACACGCCGCACAAGCGTCCGAAGCTGGCCTACGTCAATCTGCTGCTGGTGATTGCGGTGATGGTCGCGCTGGTGATGGGGCTGATGCATTCGGCGATCCTGTTCCTGATCGGTTTTGTCCTGGCGCTGGTGATCAACTACCCGCAACTGGATATCCAGAAGGAGCGCATCCTCGCTCATTCGGGCAACGCCATGACCGTGGTCTTGCTGGTGTTCGCGGCGGGCATTTTTGCCGGGATCTTCTCCGGGACCAAAATGGTCGATGCCCTGGCGCAGACCCTGGTCGACTGGATCCCGCCATCCTGGGGCCATCTGTTCCCACTGGTGGTGGCGATTACCAGCATGCCGCTGACCTTCGTGCTGTCCAATGATGCCTACTACTTCGGTGTGGTGCCGATCCTGGCGAACGCCGCTGCTGCCTACGGCATTCATCCGGTGGAAATCGCCCGGGCGTCGATTCTCGGCCAGCCGGTGCACCTGATGAGTCCGCTGGTGGCCTCGACCCTGTTGCTGGTGGGCATGGTTGACCGCGACCTCGGCGACTTCCAGAAAGCCACCCTCAAATGGGCGGTGCTCACCTCCCTGGTGATTACCGCGTTGGCCCTGCTGACCGGGGCGCTGACGCTGTTCTCCTGA	MLALLGLAMVVVFTFLIMTKRLSPIVALTIVPIVFAILGGFGGTTGKMMLDGLKMVAPSAALLLFAILFFGLMIDAGLFDPLIRKILKRVNGDPMKIAVGTALLSLLVALDGDGTTTYMITCAAMLPLYKRIGMNPMILATVSMLSLSIMSGMTPWGGPATRAIAALGLDAGEYFVPLLPTMIGGAAWVVFTAYLLGRAERKRIGNIQLQSGGGDCYIKAILEDTPHKRPKLAYVNLLLVIAVMVALVMGLMHSAILFLIGFVLALVINYPQLDIQKERILAHSGNAMTVVLLVFAAGIFAGIFSGTKMVDALAQTLVDWIPPSWGHLFPLVVAITSMPLTFVLSNDAYYFGVVPILANAAAAYGIHPVEIARASILGQPVHLMSPLVASTLLLVGMVDRDLGDFQKATLKWAVLTSLVITALALLTGALTLFS	PGPT0001500_876	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_CITRATE_TRANSPORT,PGPT0001500-TC_CITMHS|CitMHS_family|citN-K03300	NA	NA
D1-35_05240	1083	ybhH	COG2828	Putative isomerase YbhH	ATGCAACGAATTCCTTGTGTACTCATGCGCGGCGGCACGTCCAAAGGTCCGGTATTTCTCGCCTGGGATTTGCCTGCGGTGATCGCCGAACGAGACGAGTTGCTGCTCAACCTGATGGGTTCCGGTCACGAGCTGGAAATCGATGGCATCGGCGGTGGCAGTCCGCAGACCAGCAAAGTGGCGATCGTCAGTCCTTCGCTGCATCCGGAGGCCGATGTGGATTACCTGTTTGTGCAGGTCATGGTGTCCCAGCGGCGGGTCGATACCGCGCCCAACTGCGGCAACATGCTCTGCGCCGTCGGCCCGTTCGCCATCGAGCAGGGCCTGGTCAAGGCGACAGGCGAGCTGACCCGGGTGCGTATCCGCAACCTCAACACCGGCACCTTCGTCAACGCCGAGGTGCAGACTCCGCAAGGCAAGGTCAGCTATGAGGGCGACACCGCCATCGATGGCGTGCCCGGCACGGCGGCGCCAGTGCAACTGACCTTCCTCGACGCCGCGGGCAGCAAGACCGGCAAACTCTTCCCGACCGGGCAACCCCTTGACCTGATCGACGGCGTCCCGGTGACCTGTATCGACATGGCCATGCCGATGCTGATCATCGAGGCCAGCCAACTGGGCAAGCGTGGCGACGAGAGTCCGGCCGAACTGGACGCCGACAAGGCTTTCCTGCAACGCCTGGAGTCGTTGCGACTGAAAGCCGGGCTCGCGATGGGCCTGGGCGATGTCAGCGACAAGGTGATTCCCAAGCCGGTGCTGGTTTCCGCGGCCAAGAGCGGCGGGACGATTCAGGTGCGCTACTTCATGCCGCACAACTGCCACCGCGCGCTGGCGATTACCGGCTCGATCGGCCTGGCGACGGCGTGCGTGACCGACGGCAGCGTGGTCGCCAACCTGCTCGGCGGCGCCAGCGAGCCGCGCTTGCAGCGGGTGCGCATCGAGCACCCCAGCGGCGGCATCGACGTGGTGTTGTCCTACACCGGCGAAAAGGGTGAGACCATCCGTGCGTCGGTGGTCCGCACCGCCCGCCGGCTCTTCTCGGGTTTCGTCTACGCCACGGTTTCCCGGCGCCTGGCCGGATAG	MQRIPCVLMRGGTSKGPVFLAWDLPAVIAERDELLLNLMGSGHELEIDGIGGGSPQTSKVAIVSPSLHPEADVDYLFVQVMVSQRRVDTAPNCGNMLCAVGPFAIEQGLVKATGELTRVRIRNLNTGTFVNAEVQTPQGKVSYEGDTAIDGVPGTAAPVQLTFLDAAGSKTGKLFPTGQPLDLIDGVPVTCIDMAMPMLIIEASQLGKRGDESPAELDADKAFLQRLESLRLKAGLAMGLGDVSDKVIPKPVLVSAAKSGGTIQVRYFMPHNCHRALAITGSIGLATACVTDGSVVANLLGGASEPRLQRVRIEHPSGGIDVVLSYTGEKGETIRASVVRTARRLFSGFVYATVSRRLAG	PGPT0005280_144	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0005280-galD-K16514	NA	NA
D1-35_05241	960	cynR_4		HTH-type transcriptional regulator CynR	TTGCGTTTCACAAAAGAATTATTCTACGATCCGGGGCGTGTTCAAGCCCCTTCCCAGCGAGATAAAAACATGGAATACGAACTGCAGGACATCCGATCTTTCGTGAAAATCGCCGAACTGGGGAGTTTTCACGAGGCCGCCGATGCGCTGCACCTGTCCCAGCCAGCCCTGAGCCGGCGCATGAAAAAACTTGAGGAAGGCCTGGGAACGGCTCTGCTTGATCGCACCACGCGCAAGGTCAGCCTGACCAGCGTCGGGCGGGATTTCCTGCCCAAGGCGCGACGCCTGCTGGATGATTTCGACGACTCGATCCTCAACATCCGCGAGTTGGCGGAACGACAGATCGGCCGAGTGACCCTGGCCTGCATCCCGACGGCGGCGTTCTACTTCCTGCCCTCGGTGATCCGGCTCTACAACGAGCGCTACCCGAAAATTCGCATCCGCCTGCTGGACCTCAGCGCCAACGAAGGATTGGAGGCAGTACTGCGCGGCGAAGCCGATTTCGGCATTAACATGATGAGCGGCCAGCACCCGGACATCGAATTCGTGCCGCTGGTCAACGAACCCTTTGTATTGGCCTGCCGGCGCGACCATGAACTGGCAGGACGCAGCGCCGTGACCTGGTCGGAACTCAGCGACTATCGATTGATCGGCGTCGGGCGCCTGAGCGGCAACCGCATGCTGCTCGATCACGCGCTGTCTGGCCTGAGCTGGCGCCCGCAGTGGTTCTATGAAGTGCAACACCTGTCCACCTCCCTCGGCCTGGTCGAGGCCGGCCTCGGGGTGTCGGCGATGCCCAGCCTGGCAATGCCTGCCGGGGACCATCCGACACTGGTCAGCGTGCCGCTGATCGAGCCGGTGGTGAACCGGTCACTGGGCCTGGTTTATCGACGAGGGGCTTCGCTGTCGCCTGCCGCAGAGAAATTCGTCTCGATCCTGCTGGAGCAGTGGCCGCAGTAG	MRFTKELFYDPGRVQAPSQRDKNMEYELQDIRSFVKIAELGSFHEAADALHLSQPALSRRMKKLEEGLGTALLDRTTRKVSLTSVGRDFLPKARRLLDDFDDSILNIRELAERQIGRVTLACIPTAAFYFLPSVIRLYNERYPKIRIRLLDLSANEGLEAVLRGEADFGINMMSGQHPDIEFVPLVNEPFVLACRRDHELAGRSAVTWSELSDYRLIGVGRLSGNRMLLDHALSGLSWRPQWFYEVQHLSTSLGLVEAGLGVSAMPSLAMPAGDHPTLVSVPLIEPVVNRSLGLVYRRGASLSPAAEKFVSILLEQWPQ				NA	NA	NA	NA	NA
D1-35_05242	795	ucpA_3		Oxidoreductase UcpA	ATGCCTAACGCAATCGGACTTAACCCTGTGGCGCTCATCAGCGGCGTTGGCAGCGAGACGGGCATCGGCATGGCGATCGCCCGCAGGCTCGGTGCCGCCGGCGCCAGGCTGATCGTTACCGCCAGCAGCGCGCGCATCGAAGCGCGCATCGAGGAACTGCGCGCCGAAGGGTTTGAAGTCGCGGGACGGCCCCTCGACCTCACCGATGAAAAACAGGTACGCGAGTTTGGGTCGTGGGCGGAGTCCGTCTGGGGCCGGATCGACATCCTGGTGAACAACGCCGGCATGGCCATGCAAGGCAGTCCGGAGTCTTTCTCCGAGGTGGCAACCATGGACCTGGCGCTGTGGAACCTGTCGCTGGCGCGAAATGTGACCACGGCTTTCCTGCTGACCCGTGCCGTATTGCCCGGTATGCAGTCGCGCAATTACGGGCGCATCGTCAATATCAGCTCCACCACCGGCACCCGGTGCAGCAATCCTGGCGAGGCGGCCTACAGCGCCGCGAAGGCCGCCATGGTGGGCATGAGCATGGGCCTGGCGCTGGAAGTGGCCCGGCAGGGAATCACGGTGAACTGCGTCGCACCCGGCTGGATCGCCACCGGCTCGACCACCGCCGAGGAAGCCAATGCCGCGCGCTACACACCGATGCGCCGGGCCGGTCGCCCGGAGGAAGTCGCCGCGCTGGTCGCCTTCCTCGCCTCTGCCGAGGCGAGCTACATCACCGGGGAAGTGATGGTGGTGGACGGCGGCAACTGCCTGGTCGAGAACAAGGCGCCGGACCGGTCACTGGACTGA	MPNAIGLNPVALISGVGSETGIGMAIARRLGAAGARLIVTASSARIEARIEELRAEGFEVAGRPLDLTDEKQVREFGSWAESVWGRIDILVNNAGMAMQGSPESFSEVATMDLALWNLSLARNVTTAFLLTRAVLPGMQSRNYGRIVNISSTTGTRCSNPGEAAYSAAKAAMVGMSMGLALEVARQGITVNCVAPGWIATGSTTAEEANAARYTPMRRAGRPEEVAALVAFLASAEASYITGEVMVVDGGNCLVENKAPDRSLD	PGPT0003180_5492	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
D1-35_05243	1308	dctA2_3	COG1301	C4-dicarboxylate transport protein 2	GTGGAAATCTCCAAGTCTCGCTGGTACAGCCAGCTGTATGTGCAGGTACTGATCGGCATCGTGATCGGCGCAGCGATCGGTTACTTCATCCCGAATGTCGGGGCCAAGCTCCAGCCCTTCGCCGATGGCTTTATCAAACTCATCAAGATGCTCTTGGCGCCGATCATCTTCGGCACGGTGGTCGTGGGTATCGCCAAGATGGGCAGCATCAAGGAGGTCGGACGGATTGGTGTGAAGGCGCTGATTTACTTCGAGATCCTTTCGACCATTGCGCTGGTCGTCGGCCTGGTCGTGGTCAACGTCGTCAAGCCTGGCGTCGGGATGAACATCAATGCCAACTCCCTTGATGGCAGCTCCATCAGCAAGTACAGCCAGGCGGCGAGTGAGCAGGGTGGTACCGTCGAGTTCTTTCTCAACATCATCCCGCAGACGTTCGTCGGCGCATTCTCCAATGGCGTCATGCTCCAGGTGATTCTGCTGTCGGTGCTGATGGGTGTCGCCCTGGTGCAAATGGGCGAGACCAGCAAGCCGCTGATCAACACCATCGATCTGTTCCTGCAGGGGCTGTTCAGGATAGTCGCGATGGTCATGCGACTGGCGCCGATTGGCGCGGGTGCCGGCATGGCATTCACCATCGGCAAATACGGCATCGGCACCTTGCTGTCCCTGGGCCAGTTACTGGTCGCTCTGTATGTCACAACGCTGATTTTCATCGTCGTCGTGCTGGGCGCGGTCGCCCGGTGGTCGGGGATGCCGCTGATGCAGTTCCTTCGTTATTTCAAGGACGAGATCCTCATCACCCTGGGGACCTGCTCGACCGAAGCGGTGCTTCCGCGAATGATGGTCAAGCTGGAAAAACTCGGCTGCAGAAAGTCAGTCGTGGGCATGGTCTTGCCCACCGGGTACACCTTCAATGCCGATGGCACCTGCATCTACCTGACGATGGCGGCGATTTTCATCGCCCAGGCCACCAATACGCCGCTGACGTTCATGGACCAGATGATCCTGCTGGGTGTGTTCCTACTCACATCAAAAGGCTCGGCGGGTGTCGCCGGAGCCGGTTTCGTGACCCTCGCCGCGACACTCACCACGATTCATTCCATCCCCTTGGTCGGGTTGGTGTTGCTGCTCGGGATCGACCGATTCCTCAATGAAGCACGGGCCGTGACCAACCTGATCGGCAATGGCATCGGCACCCTTGCCATTGCCAAGTGGGACAATTCCTTCGACGTGCAAGCCTGCGAGCGTGAGATCGCGGCGATGAAACAAGAGAAGGCCGATCGAAAGGCGCTGTTGGCGCCTAAATGA	MEISKSRWYSQLYVQVLIGIVIGAAIGYFIPNVGAKLQPFADGFIKLIKMLLAPIIFGTVVVGIAKMGSIKEVGRIGVKALIYFEILSTIALVVGLVVVNVVKPGVGMNINANSLDGSSISKYSQAASEQGGTVEFFLNIIPQTFVGAFSNGVMLQVILLSVLMGVALVQMGETSKPLINTIDLFLQGLFRIVAMVMRLAPIGAGAGMAFTIGKYGIGTLLSLGQLLVALYVTTLIFIVVVLGAVARWSGMPLMQFLRYFKDEILITLGTCSTEAVLPRMMVKLEKLGCRKSVVGMVLPTGYTFNADGTCIYLTMAAIFIAQATNTPLTFMDQMILLGVFLLTSKGSAGVAGAGFVTLAATLTTIHSIPLVGLVLLLGIDRFLNEARAVTNLIGNGIGTLAIAKWDNSFDVQACEREIAAMKQEKADRKALLAPK	PGPT0001450_1722	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0001450-dctA-K11103	NA	NA
D1-35_05244	1170	tarD	COG4948	D(-)-tartrate dehydratase	ATGCGTATCGTCGACATCCGCGAAAAAACTGTTTCCATCGCCTCTCCGATTGCCAATGCCTATATCGATTTTTCGAAAATGACCTGCTCGGTCGTGGCGGTTGTCACCGATGTGATTCGCGATGGCAAACCGGTGATCGGTTACGGTTTCAACTCCAACGGTCGCTACGGCCAGGGCGCGCTGATGCGTGATCGATTCCTGGCGCGAGTCACCGAGGCCGACCCGGAAACGCTGATCGACAAGGAATACGTCAACCTGGATCCGTTCGCCATCTGGAAAACCCTGATGACCAACGAGAAACCGGGTGGCCACGGTGAGCGTTCAGTGGCCGTCGGCACCATCGACATGGCGGTGTGGGACGCTGTCGCCAAGATCGAAGGCAAGCCGCTGTACCGCCTGTTGGCCGACCGTTATCGCGGTGGCGTGGCGGATGACAAGGTCTGGGTCTATGCGGCGGGTGGTTATTACTATCCCGGCAAGGACCAGAGCAAGCTCAAGGCAGAAATGCAGGGTTATCTGGATCGTGGCTATGACGTGGTCAAGATGAAGATCGGCGCGGTGCCACTGGACGAAGATATCCGGCGCATCGAAGCGGTGCTTGAAGTGGTCGGGGACGGGCGGCGACTGGCGGTCGATGCCAACGGCCGCTTCGATCTGGAGACCGGTATCGCGTACGCCGAAGCCATCAAGCAGTACAACCTCTTCTGGTACGAGGAAGTCGGCGATCCGTTGGACTACGCGCTCCAGGCCGAGCTCGCCAATCACTATGAACTGCCGATGGCGACCGGCGAGAACCTGTTCTCCCACCAGGACGCGCGCAACCTGCTGCGGCACGGCGGCATGCGTCCGGATCGCGATTACCTGCAGTTCGATTGCGCCCTGTCCTACGGGCTCGTGGAGTACATGCGCACCCTGAAAGTCATGGAAGAGATGGGTTGGTCTTCGCGCCGCGTGGTGCCCCACGGCGGCCATCAGATGTCCCTGAACATCGCTGCCGGTCTGCACCTGGGCGGCAACGAATCGTACCCCGATGTGTTCCAGCCGTTCGGCGGTTTTGCTGACGGCATCCGCGTGGAAAACAGCTACGTCGGCCTGCCGGATATTCCTGGCGTCGGTTTCGAAGCCAAGTCCGCCCTGTACGCGGTCATGCGCGAGCTGGGCGAGGGCTGA	MRIVDIREKTVSIASPIANAYIDFSKMTCSVVAVVTDVIRDGKPVIGYGFNSNGRYGQGALMRDRFLARVTEADPETLIDKEYVNLDPFAIWKTLMTNEKPGGHGERSVAVGTIDMAVWDAVAKIEGKPLYRLLADRYRGGVADDKVWVYAAGGYYYPGKDQSKLKAEMQGYLDRGYDVVKMKIGAVPLDEDIRRIEAVLEVVGDGRRLAVDANGRFDLETGIAYAEAIKQYNLFWYEEVGDPLDYALQAELANHYELPMATGENLFSHQDARNLLRHGGMRPDRDYLQFDCALSYGLVEYMRTLKVMEEMGWSSRRVVPHGGHQMSLNIAAGLHLGGNESYPDVFQPFGGFADGIRVENSYVGLPDIPGVGFEAKSALYAVMRELGEG				NA	NA	NA	NA	NA
D1-35_05245	909	yjiE_2		HTH-type transcriptional regulator YjiE	TTGGAACTCGTCTGGCTAGAAGATTTTTCAGCACTTGCGGAGTACGGCAGCTTCGTTCGCGCCGCCGAAGCGCGCCACGTTACGCAGCCGGCTTTCAGTCGCAGGGTCCGTTCGCTGGAAAACTGGATGGGCGTGGATCTGTTTGTGCGCACGCCTCAAGGCGCGACGCTGACCGAGGCTGGAAGGCAGATTCTGCCTGGCGCCCAGGAGGCTGCGAGGCGCCTCTACAGGCTGCGCACCGAGGCCCAGGAAGTCGCCGGAGTGGCCGCCAAGACGCTGCAATTTGCAGCCACGCATTCGCTGTCGTTCACGTTTTTTCCGCGCTGGCTGAGAAGCGCCGAAAATGGCGCGCCGATAGATGCCGTGCGCCTGCACTCCGACAGCATGGCGGTGTGCGAACAGATGCTGATTCATGGCCAGGTGCAGTTCCTGCTCTGCCATCGGCACCCCGACGTACCGCCACTGTTGGCGCCTGATCAATTCAGCGGGAAAAAAGTCGGCGAGGACGTCCTCATACCCTTGGCGAGTGCCTCGGCCAATGTCGGTACCTCACCGGCGACGTTGCCCTACCTGGCCTACACCGAGGAATCGGGACTCGGGCGTATCGTCGCTCACCGACTCCACGGCAAGGAGGAATACCTGCACCTCAAGCCGCTTTTCAGCAGCCATCTCGCCGCGGTGCTGATGTCCATGGCACTGGAAAGCAAGGGCGTCGCGTGGCTGCCCAAAAGCCTGACAGAACAGGAAATGGCTGACGGGCGCCTGGTCCGGGCCCTGGATGAAAGCTGGGATATTCCACTGGAAATCCATCTCACCCGCCCAACCGCGCCGATCAGCGCAGCGGCAGAGGAGTTCTGGAACAGGCTGAAGGGTCAGGGCGATTCAACTGCCCTGCTCTGCCACCTGTAA	MELVWLEDFSALAEYGSFVRAAEARHVTQPAFSRRVRSLENWMGVDLFVRTPQGATLTEAGRQILPGAQEAARRLYRLRTEAQEVAGVAAKTLQFAATHSLSFTFFPRWLRSAENGAPIDAVRLHSDSMAVCEQMLIHGQVQFLLCHRHPDVPPLLAPDQFSGKKVGEDVLIPLASASANVGTSPATLPYLAYTEESGLGRIVAHRLHGKEEYLHLKPLFSSHLAAVLMSMALESKGVAWLPKSLTEQEMADGRLVRALDESWDIPLEIHLTRPTAPISAAAEEFWNRLKGQGDSTALLCHL				NA	NA	NA	NA	NA
D1-35_05246	1098	menH_3		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGACCGAAGCGGAAAATTTCCAGGCGTATGCCCAGGCATCCCGCGCCTGGATTGAGGAAAAGCGCCTGTTCCAGACCGAGAATCGCGCCGATGAGCTGGACTGGAACGCGCCTTATGAAGTGCGCCCCGATGTTCCTTCCACCAAGGCCATTCTCTTGCTGCATGGCTTGGGGGATTCACCCTGGTCCTTCGTCGATATCGCCCGGGATCTGGCCGCCCAAGGCTACGTGGTGCGCGTCGCATTGCTGCCCGGGCATGGCACCAAGCCGGCCGACCTGATCGATGTGCAACTGGAACAGTGGCAACAGTTGGTCGAGCAGCAGGTTGCGTTGCTGCACAAGGAGTTCGCGAACGTCTACCTGGGCGGTTTCTCGACCGGCGCCAATCTGGCGCTGGCCTATGCCGCCAGGGACCCGGACATCAAGGGCCTGGTGCTGTTTTCCCCGGCCTTTCGCTCGAGCGAGTCCTACGACTGGGCCACGCCCTGGCTGGCGCATTTCAAGACCTGGATCCTTGCGCCCGACAATTCCCGGCCGCAGCAGTCGCCCGTGCGCTACCACAATGTCCCCACCAACGGCTTTGCCCAGTTCTACCGCAGCAGCGTAGCGGTTCGCCGGCTCATCGAGCAGCAAGACTTCGATCGGCCGGTGGTGATAGTGCTGACCGAGCAGGATTCAGTCGTCGACGTGCGCTATGTGCGGGAGCTGTTCCAACGGCGCTTCACCCATGCCGCGAGCCGGTTGATCTGGTATGGCCAGGCGGAGCCGACCGGTGACAAGGGCGCTGCGCAGGAGCGGCGCATCCTGACGCGCAGCGACCGCATCGCCGATGAACGCATCAGCCAGTTCTCCCACATGGGCATCCTCTTCTCGCCAGCCAACCCGCTCTACGGTCGTTCGGGCACCTTGCGGTTCTGCCGCAACAGCCGCAATGCCGACGAAGTGGCCCGGTGCGAAGCGGGGGAAGAAGTCTGGTATTCGGACTGGGGGTACAGCGAGCCGGGGAAGATCCACGCACGGCTGACTTACAATCCTTATTTCGAATGGCAGTCCGGGGTGATTCGTGGGGTTTTACAGGTGGCAGAGCAGGGCAGTTGA	MTEAENFQAYAQASRAWIEEKRLFQTENRADELDWNAPYEVRPDVPSTKAILLLHGLGDSPWSFVDIARDLAAQGYVVRVALLPGHGTKPADLIDVQLEQWQQLVEQQVALLHKEFANVYLGGFSTGANLALAYAARDPDIKGLVLFSPAFRSSESYDWATPWLAHFKTWILAPDNSRPQQSPVRYHNVPTNGFAQFYRSSVAVRRLIEQQDFDRPVVIVLTEQDSVVDVRYVRELFQRRFTHAASRLIWYGQAEPTGDKGAAQERRILTRSDRIADERISQFSHMGILFSPANPLYGRSGTLRFCRNSRNADEVARCEAGEEVWYSDWGYSEPGKIHARLTYNPYFEWQSGVIRGVLQVAEQGS				NA	NA	NA	NA	NA
D1-35_05247	3099	mdtC_2		Multidrug resistance protein MdtC	ATGAGCCTCAACTTGTCGTCCTGGTCGATCCGCAATCCGACGCCTTCGGTCCTGTTGTTCATCCTGCTGACCTTCGCCGGCTTGATGGGCTTCTGGAAGATGAAGGTGCAGAACTTCCCTGACGTCGATCTGCCCATGGTCAGCGTGTCGGCCGAGCTGCCCGGGGCTTCGCCCGCGCAACTGGAAAATGACGTGGCCCGCAAGCTCGAGGACTCGCTCGCAACCGTGCAGGGCGTCAAGCATATCCAGAGCATCCTGACCGACGGCAACGCCGCTATCTCGATCGAGTTCCACCTCGACAAGCCCACCCAGGAAGCGCTGGATGACGTGCGTGATGCGGTGTCACGGGTCCGGGCCGACCTGCCCGCCGACTTGCGCGACCCGGTGGTCCGCAAGATCGAACTCGCCGGTTCGCCGATCCTGACCTACACGGTTTCGGCCAAGCGGATGGACGACGAAGCGCTGTCCTGGTTTGTCGACAACAGCGTCAGCAAGGCCTTGCTGGCGGTGCCTGGCGTGGGGGCCGTCACTCGGGTCGGTGGGGTGGCCCGGGAAATCCGCATCGACCTCGATCCCGCGCGTCTGCTGGCGCTGAACACCTCGGCCCTGGACGTCTCCCGCCAGCTGCGCCTGATCCAGCAAGAGGCATCGGGCGGACGCGTGGACCTGGGCGGCGCCGAGCAGACGGTGCGCACCCTCGCCACGGTGCAGTCGGCCGCGGAAATCGCCTTGCTTGACGTGACCTTGAGCGACGGCCGGCGTGTCCGGCTCGACCAGCTGGCGACGGTCTCCGATACCGTCGGCGAACCCCGCTCGGCGGCGTTCCTCGACGGTAAGCCAGTGGTCGGCTTTGAAATCACCCGGGCCAGAGGGGCCGGCGAAATCGAGGTGGATGAAGGCGTACGCGCCGCCCTGGAGTTGCTCAAGATCCGTCATCCCGAAATCACCGTCACCCAGGCTTTCAACTTCGTCGACCCAGTGATCGAGAATTATCGGGGCTCCATGCACCTGCTTTATGAAGGCGCGGCGCTCGCGGTGCTGGTGGTGTTCCTGTTTCTGCCGGATTGGCGCGCGACCTTCGTTTCCGCCGTCGCGTTGCCGCTGTCGGCGATACCGACGTTCGCCGTGATGCACTGGATGGGGTTCACCCTCAACACCGTGACGCTATTGTCGCTGTCGCTGGTCATCGGCGTGCTGGTGGACGACGCCATCGTCGAGGTCGAGAACATCGGGCGCCATTTGCAGATGGGCAAGAAACCTTATCAAGCCGCCATGGATGCTTCCGATGAAATCGGCCTGGCGGTGGTCGCCACGGCATTCACGCTGATCGCGGTGTTCCTGCCCACGGCTTTCATGAGCGGTTCGGTCGGCAAGTTCTTCGTCCAGTTTGGCTGGACGGCGGCAACCGCAGTGTTTTTCTCCCTCGTCGTCGCCCGCTTGCTGACGCCCATGATGGCGGCCTACCTGATGCGCGCGCCGAAAAGGCCGGCCCAGGATGCGCCCGGGTGGATAAACCGCTACCTGTCCTGGGCGCGCTGGTGCCTGCGCCATCGCGTGGTGACCACCCTCGGCGCGGTGGCTTTTTTCGCCGGAGGGCTGATGCTCGCCACCGTTTTGCCGGGCACCTTCATCCCGCCGGATGACGACTGGCAGACCCAGGTCACCCTCACGCTTGCGCCCGGCAGCAAACTGGGCGACACGCTGGCGTTGGCTGAGCAAGCGCGGCAGATAGTCACGCAAAATCAGCAGGTCAAAAAGGTCTACACCGCGGTGGGGGATGGCAGCGCCGGCGCGGACCTGATCGAACCGGCCGGCAGCGATGTCGCGAATGTCCGCACGGCGGTGCTGACGCTTAACCTGACGCACCGCAACGAGCGTCCGGGACTGACCCGGCAGCAGCTCGAAAACCAGCTACGCGAAGCGCTCGCCGTGTTGCCTGGCGCGCGTATCAAGGTCGGTATGGGAGAGTCGGAAAGCTACGTGCTGGTGCTCGCGGGTGAGGACGCTAGCTTGCTCACCCGGCATGCGCAGCAGGTGGAACGAGAGCTGCGTAGCGTGCCGGGCGTGGGGGCGGTGATCTCGACCGCCAGCCTGATGCGCCCCGAACTGGTGGTTCGGCCGGATTTCGCCAGGGCCGCCGACCTGGGCGTGACCGCGAGCGCGATTGCCGACACGCTCCGCGTGGCCACCCTGGGAGATTACGACCAGGAGCTTGCCAAGCTCAATTTCAGCGACCGCCAGGTGCCTATCGTTGTGCGGCTGAGCGACACCGCCCGCGCGGACTTCGAGACGCTGAAACGTCTGCCGGTGCCCGGCGCGCGTGGTCCGGTAGCGCTGGAAAACGTGGCGACGCTGGAGATCACCAGTGGCCCGGCGCAAATCGAACGGTTCGACCGTACGCGCAATGTCAACATCGAGATCGAGACGAACGGCCAACCGTTGGGCGACATCGAGCAGGCTGTTCTGGCCTTGCCAGGCTTGCAGAACCTACCGCCAGGCCTGGTGCGAACCTCGGTAGGCGATGCCGAGGCCATGGGCGAACTGGCTTCCGGATTCGGCGTGGCGATGTTGACCGGAGTGTTATGCATCTACATGGTCCTGGTGTTGTTGCTCAAGGATTTCCTGCAACCGCTGACGATCCTTGCCGCCCTGGTGCTCTCGGTGCCTGGGGCCTTCGTGGCGCTGTTCGTGACCGGCTCGACATTGTCCATGCCCTCGATGATCGGCCTGATCATGCTGATGGGTATCGCGACGAAAAATTCGATCCTGCTGGTCGACTACATCATCCTCGCGCGTCGACGCGACGGCCTGAGCCGCCAGGAAGCGATCCTCGACGCCTGCGGCAAACGCGCTCGGCCGATTGTCATGACGACAATCGCGATGGGCGCAGGCATGATGCCAATCGCCCTGGGGCTGGGGGCCGACCCGAGCTTTCGCGCACCGATGGCCATCGTCTTGATTGGCGGGCTTGTCACGTCAACGCTGTTGAGCCTGCTGGTCATACCCGTGGTGTTTTCCTATGTGGACGATGGGGCGCAGTGGTTGTACAAACGCACCGGTAACGTTTCTCGCAGCGAAGCTGCTGGAGTGATCAATTGA	MSLNLSSWSIRNPTPSVLLFILLTFAGLMGFWKMKVQNFPDVDLPMVSVSAELPGASPAQLENDVARKLEDSLATVQGVKHIQSILTDGNAAISIEFHLDKPTQEALDDVRDAVSRVRADLPADLRDPVVRKIELAGSPILTYTVSAKRMDDEALSWFVDNSVSKALLAVPGVGAVTRVGGVAREIRIDLDPARLLALNTSALDVSRQLRLIQQEASGGRVDLGGAEQTVRTLATVQSAAEIALLDVTLSDGRRVRLDQLATVSDTVGEPRSAAFLDGKPVVGFEITRARGAGEIEVDEGVRAALELLKIRHPEITVTQAFNFVDPVIENYRGSMHLLYEGAALAVLVVFLFLPDWRATFVSAVALPLSAIPTFAVMHWMGFTLNTVTLLSLSLVIGVLVDDAIVEVENIGRHLQMGKKPYQAAMDASDEIGLAVVATAFTLIAVFLPTAFMSGSVGKFFVQFGWTAATAVFFSLVVARLLTPMMAAYLMRAPKRPAQDAPGWINRYLSWARWCLRHRVVTTLGAVAFFAGGLMLATVLPGTFIPPDDDWQTQVTLTLAPGSKLGDTLALAEQARQIVTQNQQVKKVYTAVGDGSAGADLIEPAGSDVANVRTAVLTLNLTHRNERPGLTRQQLENQLREALAVLPGARIKVGMGESESYVLVLAGEDASLLTRHAQQVERELRSVPGVGAVISTASLMRPELVVRPDFARAADLGVTASAIADTLRVATLGDYDQELAKLNFSDRQVPIVVRLSDTARADFETLKRLPVPGARGPVALENVATLEITSGPAQIERFDRTRNVNIEIETNGQPLGDIEQAVLALPGLQNLPPGLVRTSVGDAEAMGELASGFGVAMLTGVLCIYMVLVLLLKDFLQPLTILAALVLSVPGAFVALFVTGSTLSMPSMIGLIMLMGIATKNSILLVDYIILARRRDGLSRQEAILDACGKRARPIVMTTIAMGAGMMPIALGLGADPSFRAPMAIVLIGGLVTSTLLSLLVIPVVFSYVDDGAQWLYKRTGNVSRSEAAGVIN	PGPT0016195_314	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
D1-35_05248	1143	cnrB		Nickel and cobalt resistance protein CnrB	ATGAAAAGAAAAACACGGCATGTCGTGCTGTTTGTCGTGACCATGGCCTGCGCCATCGCCGTCGGGATGATCGCTGTTTCGCCCGGCCCTCGCCAGGCCAAGGTCGACGTGCCCGCCAGGCCGGCACTGACGGTGGCCGTTACCCGACTGCAATCGTCCATGCTGCCGATCCGCATCCAGGCGAACGGCAACATTGTCGCCTGGCAGGAAGCCAGTGTCGGCACCGAGGCCGATGGCCTGCGGTTGGCCGAGGTCATGGTCAACGTGGGCGATGTGGTCCGGCGCGGCCAGGTACTTGCGACGTTCAGCGCCGAGACGATGACCGCTGAACTCGCCCAGCGTCGCGCCGCCACCGCCGAAGCGCAAGCGACGCTTGCCGAGGCGCGAGCCAATGCGCAGCGCGCCCGTCAATTGCAGTCGAGCGGGGCGCTGTCGAAGCAGGAGGTTCACCAACAGCTGACGGCCGAACGCACGGCTCAGGCGCGGCTGGAGGCGGGCAGGGCGCTGGAGCGTATCCAGCACCTGCGTCTGGCCCAGACCCAGGTCCTGGCCCCCGATGACGGGGTGATTTCGGCGCGCAGTGCCACGGTGGGCGCGGTACTGCCCGCTGGCCAGGAGCTGTTTCGCTTGATTCGCAACGGACGGCTCGAATGGCGCGCCGAAGTCGCGGCCCCCGACCTTGTCAGGTTCAGCCCCGGCCAGCTCGCGCAGGTAACTCCGGTCAATGGCGGGGCGATAGAGGGCCGGGTGCGCAGGGTTGCGCCGACGGTCGACCTGCAGACTCGCAACGGCCTGGTTTATGTCGATTTGCCCGCAGGCACGGCGGCGCGTGCCGGGATGTTTGCCCGTGGCGAGTTCGAAGTGGCCGCCGAGCGGATGATGACGCTGCCCCAGAGCTCGGTGCTGCAGCGTGACGGCTTCGATTACGTGTTGCAGGTAGGACCGCATTTGAAGGTGCGCCAGGTCAAGGTGACGGTCGGCCGCCGCGTTGGCGACCGTATCGAGATAACCGCGGGTATCGACGCTGGCGCCGCGGTGGTCGAAACCGGAGGTGGTTTTCTTGCCGAGGGTGACCTCGTCCGGGTTGTCCAGGCGCGCACCGACCCAATGAACAACCACCCAGCACGCGGGAGCGCGCAATGA	MKRKTRHVVLFVVTMACAIAVGMIAVSPGPRQAKVDVPARPALTVAVTRLQSSMLPIRIQANGNIVAWQEASVGTEADGLRLAEVMVNVGDVVRRGQVLATFSAETMTAELAQRRAATAEAQATLAEARANAQRARQLQSSGALSKQEVHQQLTAERTAQARLEAGRALERIQHLRLAQTQVLAPDDGVISARSATVGAVLPAGQELFRLIRNGRLEWRAEVAAPDLVRFSPGQLAQVTPVNGGAIEGRVRRVAPTVDLQTRNGLVYVDLPAGTAARAGMFARGEFEVAAERMMTLPQSSVLQRDGFDYVLQVGPHLKVRQVKVTVGRRVGDRIEITAGIDAGAAVVETGGGFLAEGDLVRVVQARTDPMNNHPARGSAQ				NA	NA	NA	NA	NA
D1-35_05249	801	mipA_2	COG3713	MltA-interacting protein	ATGCCCCTGTCCATTTCGAAAACTGCAATTGCGATCCGGTTGACCACCGCCGGCACGGCGTTCGTGCTGGGCGTGTGCGCGTCGATGGCGGCCAGTGCCGACCAGCCTGAAGGCTCCGCCTGGGGGCTCGGTGTGGGTGCGGTCAGCAGCCAACAGCCGTACGAAGGCATCGACCGTGACAGCGAGGTCCTGCCGCTGATCTATTTCGAGAATGAATACCTTCGTGTCTTCGGCCCCACCGCCGAAATCAAGCTGCCGGGCCTGGAGATCAGCGACACCCAGCAGCTCGATTTCAGCCTCGTCGGCGAATACGATTTCAGTGGCTACGATGACGACGACGCGCGAATCCTGGAGGGCATGAGCGATCGCAAGGGCGGATTCTGGGCGGGCGCCAAGGTCGAATGGCGCAATGACCTGGCCGATGTCAGCGCCGAGTGGCTGGGCGATGTTTCGGGCAACAGCAAGGGCCAGCGTTTCACCCTGGGCCTGGAGCGATCCTGGCGGATCGGCGAACACATCATGCTGACGCCACGGCTGGCGGCCATCTGGCAGGACGAAAAATACATCGATTACTACTTTGGCGTTCGGGAAAATGAAGCTCGCATCGATCGGGCGGCCTATGATGGCAAGTCCGGCATCAACACCGAATTTGGCGTACGTGGAAACTATATGTTCGATGACCATCACTCCGTGTTCCTGGACCTCAAGGCGACGAGCCTTGCCAATGAAATCAAGGACAGCCCGCTGGTCGACCAGTCCACCGAGAACAGCGTGCTGTTCGGCTACCTGTACCGTTTCTGA	MPLSISKTAIAIRLTTAGTAFVLGVCASMAASADQPEGSAWGLGVGAVSSQQPYEGIDRDSEVLPLIYFENEYLRVFGPTAEIKLPGLEISDTQQLDFSLVGEYDFSGYDDDDARILEGMSDRKGGFWAGAKVEWRNDLADVSAEWLGDVSGNSKGQRFTLGLERSWRIGEHIMLTPRLAAIWQDEKYIDYYFGVRENEARIDRAAYDGKSGINTEFGVRGNYMFDDHHSVFLDLKATSLANEIKDSPLVDQSTENSVLFGYLYRF				NA	NA	NA	NA	NA
D1-35_05250	687	tctD_2	COG0745	Transcriptional regulatory protein tctD	ATGAGCCGCATTCTGCTGGTCGAGGACCACGAACGCCTCGCGCAACTGGTGTGCAAAGGCTTGGCGAGCGCCGGCATCGCTGTCGATGTCATCAGCCGCATCGACGCGGCGTGGGCGGCAATCCAGCAAGTGCCTTACCAGGCGCTGGTGCTTGATCGCGGCCTGCCGGACGGCGATGGGCTGCTGTTGCTGGCGCGTTTGCGTAATGCCGGGCTGGGCCTGCCGTGCCTGGTCCTGACCGCACGTGACGCGCTGCATGACCGGATCGAAGGCCTCGACGCTGGGGCGGATGACTACCTGCCCAAGCCGTTCGCCATGGACGAAATGGTCGCGCGCGTGCGAGCCCTGCTGCGTCGCCCCGCAGAGCGGCGGTCGTTGGCGCCTTCCCATGGCGACCTCAGTGTGCAGCCCGACACAGGCCTCATGTGCAGCGTCGAAGGTAGCATCCCGCTAGCGCCGGCGGAGATGCAGATCATGTTGTTGCTGCTGCGCAAACCAGGCGAAATCGTCCGGCGCAGCGCCATCGAGGCGGCGGCATGGGGCCTGAGTGAAGCCGTGACGCCGAACGCCCTGGATGTGGCCCTGCATCGGATTCGCCGCAAGCTGCTGGCGATCGGTTCCCACCAACGGATAGTCAACCTCAGAGGCCTGGGTTATGCCCTTCGGCAAGACGATCTGGCGCAATAG	MSRILLVEDHERLAQLVCKGLASAGIAVDVISRIDAAWAAIQQVPYQALVLDRGLPDGDGLLLLARLRNAGLGLPCLVLTARDALHDRIEGLDAGADDYLPKPFAMDEMVARVRALLRRPAERRSLAPSHGDLSVQPDTGLMCSVEGSIPLAPAEMQIMLLLLRKPGEIVRRSAIEAAAWGLSEAVTPNALDVALHRIRRKLLAIGSHQRIVNLRGLGYALRQDDLAQ	PGPT0003915_254	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-POLYMYXIN_RESISTANCE,PGPT0003915-pmrA-K07666	NA	NA
D1-35_05251	1365	sasA_19		Adaptive-response sensory-kinase SasA	ATGCCCTTCGGCAAGACGATCTGGCGCAATAGCATCAGCTTCAAGGTACTGGTCGCCTACGTCGCGGGCGTGGGCTTGAGCATCCTGCTGATTGCACTGGGCGCGTTCGCGCTCATCACGTCCAAGAGCGATATCCTGCTGACCACCGACGTCGCCGAGCGTACCCATGAGCTGGCCGGCAAGCTGCAGTTCGACGCGGCGGGCCGACCCACCGGGTTCGACAGCAGCGAGGGCGATCGCGTCTGGACCTTCAACAGCCTGGGCGAGGAAATCGGCTATCGGGTGCTGGATTCAGAGGCAAGCGTCCTCCTGGCTTCCACTGACGAGGCATTCTGGGCTTCGGCCGCAACGGTTCGCCCCGCGGAACAGGGGCGCTTCAAGTTCGAGCGCAAAGGCATCACGATGTACGCCGCGACCGCTCCGGTGGAGCAGGTCGACCACACCTTGTACCTGCAATTCGCCGTCAGCGAACGCCTGATGGACCTGCTGCACAAGGGCTTTGCCTGGCCTTTCATGGGCGCCGGGATCGTCCTGTTCAGCCTGGTGCTGCTCTTCGTCTTTGGCACCTGCGCCTATTTCACGCTGGGCTACACGCTCAAACCGCTGCGCGAGGTCTCGGAGTCGGCGGCGGCCATCTCCCCTCGCTCCCTGCACTCACGGCTGGATGTCAAAACCGTGCCGTCCGAGGTAGCGCCGCTGGTGACCAGCTTCAACAGCGCGCTTGAGCGCCTGGAACACGGCTACCGGGTCCAGCAGGAATTTCTAGCAACCGCCGCGCACGAACTGAAGACGCCACTGGCGCTGATCCGCGCACAGCTCGAACTGATGGCGCCAGACAAAGGCCGCGACTCGCTGCTCAACGATGCCGAGCACATGACGCGGCAGGTCCAGCAACTGCTGCTGCTGGCCGAAACCAGCGAGGCGCATAACTACAGCTTCGCCGCCGTAGATGTCATGGAGGTAGCACGGCAAGCGGCAGGTTATCTGCAACGCATGGCCGACGCGGCCGATGTGCGCCTCGTCCTGACTGGCCCGACGGCTGTGGCAGAGCCTTGGCAGGCCGACCGTAGCGCCTTGTTTACCCTGCTGAAAAACCTCCTGGAAAATGCCATCCAGCATGCGCCTCGTGGTACCCAGGTGTTGCTGGAGCTCGGCGCCGATACGCTGACTGTGCGCGACTGGGGCCCTGGCGTGACGCAGGAGCAGGTGGTGCAGATATTCACCCGTTTCTGGCGCGGGGCTCATCGCCGCGATCATGGCGCCGGGCTGGGCCTGACGATCTGCCAGGAGATTGCCCGGGCGCACGGGTGGAGCTTGATTGCACGAAGAGCGGAGCCCGGGTTGTCGTTTTGCTTGTCTCGCTGA	MPFGKTIWRNSISFKVLVAYVAGVGLSILLIALGAFALITSKSDILLTTDVAERTHELAGKLQFDAAGRPTGFDSSEGDRVWTFNSLGEEIGYRVLDSEASVLLASTDEAFWASAATVRPAEQGRFKFERKGITMYAATAPVEQVDHTLYLQFAVSERLMDLLHKGFAWPFMGAGIVLFSLVLLFVFGTCAYFTLGYTLKPLREVSESAAAISPRSLHSRLDVKTVPSEVAPLVTSFNSALERLEHGYRVQQEFLATAAHELKTPLALIRAQLELMAPDKGRDSLLNDAEHMTRQVQQLLLLAETSEAHNYSFAAVDVMEVARQAAGYLQRMADAADVRLVLTGPTAVAEPWQADRSALFTLLKNLLENAIQHAPRGTQVLLELGADTLTVRDWGPGVTQEQVVQIFTRFWRGAHRRDHGAGLGLTICQEIARAHGWSLIARRAEPGLSFCLSR				NA	NA	NA	NA	NA
D1-35_05252	474	iorA_2		Isoquinoline 1-oxidoreductase subunit alpha	ATGAGCGCCCTCAATATCAATGGCCGTGAACACACGGTTGACGTAGATCCCGGCACCCCGATTCTCTGGGCCCTGCGCGACACGCTGGGCATGACCGGCACCAAGTTCGGCTGCGGCGCAGCCCTGTGTGGCGCCTGTACCGTCCACCTGGATGGCCAGGCCATTCGCTCCTGCGTGACCCCGGTGGCCGCGGCGCTTGGCAAGAAGATCACCACCATCGAGGCGGCCACCGACGGCAGCGACCCGGTGGGCAGTGCCGTGCATGACGCCTGGGTCAAACATGACGTGGCGCAGTGCGGTTACTGCCAGAGCGGCCAGATCATGAGCGCCACGGCGTTCCTCAAGGCGCAGCCCAAGGGCAAGCAACCCACGCCAGCCGAGATCGACTCGGCCATGGCCGGCAATATCTGCCGCTGCGGCACCTACGCCCGTATTCGCGCCGCGGTGGCCGATGCCGCCAAGACCCTCGCCTGA	MSALNINGREHTVDVDPGTPILWALRDTLGMTGTKFGCGAALCGACTVHLDGQAIRSCVTPVAAALGKKITTIEAATDGSDPVGSAVHDAWVKHDVAQCGYCQSGQIMSATAFLKAQPKGKQPTPAEIDSAMAGNICRCGTYARIRAAVADAAKTLA	PGPT0009812_637	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-QUINOLINE_RESISTANCE,PGPT0009812-iorA-K07302	NA	NA
D1-35_05253	2241	iorB_2		Isoquinoline 1-oxidoreductase subunit beta	ATGCTGAACGAGATTTTTCCCAACGAGCTTCCGCGCGCCTTGCAGCACCTGCTTGAACGCGACGACAGCGACGGCCCCGCCACCCTGCCCCGGCGCAGCTTTCTCAAGATCGTCGGTATCGGCGGCCTGGCCTTGGGCGCGTTTCCTCACCTGGCCTTGGGGCAACAGGCCAACGGCGCTGGCGACGGCGCGCTCAAGCCGACTCAACAACCTTCGGCCTTTGTGCAGATCGCGCCGAGTGGCGAAGTCACCGTAACGATCAACCGCCTGGAGTTCGGCCAGGGTGTCCAGACCGGCCTGCCGATGATCCTCGCCGAAGAGCTCGACGCCGACTGGAGCCTGGTGCGCACACGTAACGGCAGCAACGACTCGGCCTACATGGACCCGGCGTTTGGCATTCACCTCACCGGTGGCTCCAATTCGATCAAGAACAGCTACACGCAATACCGCGAACTGGGCGCCCGCGCCCGCGCCATGCTGCTCAGCGCTGCCGCCGCGCGCTGGAACGTCGATGCGGCGAGCCTGACCACGCAAAACGGCACGGTGCTGGGGCCTGGCGGCCGCAAGGCCAGTTACGGCGAGCTCGCCGAAGCGGCCATGGCGCTGCCCGTTCCGGAGAAGGTCACGCTCAAGGATCCGAAGGATTTTCGCATCATCGGCCAGGCCACCACCCGCCTCGATGCCAAGGCCAAGAGCAGCGGCCAGCAGGATTTCGGCATTGATGTGAATCTACCGGGGCAACTGACCGCCGTGGTCGCCCGGCCACCGGTGTTCGGTGCCCGGATCGCGTCCCTGGACGACAGCGCCGCACGGGCGACCAAAGGCGTGAAAGCCGTATTGCGCGTGCCGCTGGACGGCGGCGCCGAAGGCGTTGCGGTGGTTGCCGACGGTTACTGGCCGGCGAAGCTGGGGCGCGATGCGCTTAAAGTCGAGTGGGACGTGGCCAAAGTCGAGAAAGTGGACACGGAAAAACAGCTGGCTCAGTACCGGGAACTGGCCGGCAAGCCTGGCCTGGTCCACTTTGATGCCGACATGAAACCACTCGCCACGGCGCCGCATCAGCTGGAGGCCGAGTTCATTTTCCCTTACCTGGCCCACGCGCCCATGGAACCGCTGAACTGCACCGTCCAGTTGTCCGAAGGTCGCGCCCAGTTGTGGGTCGGCACGCAATTCCCCGGCGGCGATGGCGCGGCGGCGGCCAAGGTGCTGAATCTCAAGCCCGAGCAAGTCCAGGTCAATGTACAGACGGCGGGCGGCGGCTTCGGGCGGCGTGGTGTGCCCAGCAATGATTTCGTCGTGCAGGCTTGTGAAGTGGCCAAGGCCGCCCGTGCTGCCGGCATCGATGCGCCGGTGCGCACGCTGTGGAGTCGAGAAGATGACATCAAGGGCGGCTACTACCGCCCGATGCACCTGCACCGTGCGCGCATCGGTTTTGACGACAGCGGCAAAGTCCTGGCCTGGGACCACGCCCTGGTCGGGCAATCCATCCTCACCGGCACGCTGTTCGGTGGGCAGATGAAAAACGGCATCGACCCCACCGCGACCGAAGGCATGCGCGATCCCTACCCGCTGCCGATGCGCTTGTCCGTACATCATCCCAAGCTCAACGTGCCGGTGTTGTGGTGGCGCAGCGTGGGTTCCACCCATACGGCCTTTGTGATGGAAACGCTGATCGACGAAATCGCCCGCGCGACGAAACAGGACCCGGTGGCGTATCGCATGAACCTGTTCGGCGATCAAAGCCCACGCCATCGCGCCGCGCTGCAACTGGCGGTGGACAAGAGCGAATACGGCAAGCGTCAACTGCCCGCCGGCCAGGCCTGGGGCGTGGCGGTCCACGAGTCGTTCAGTTCGGTGGTGGCTTATGTGGTGGAGGCCTCGGTGCAGGACGGGCGTGCGGTGCTGCACAACGTGACCGCCGGGGTCCATTGCAACCTGGTGGTCAATCCGCGGAGCGTCGAAGCCCAGGTTCAAGGCGCGGCCCTGATGGGCCTGTCGATGTGCCTGCCGGGCGGTGCCGTCACGCTGAAAGACGGTGTCGTGCAGCAGAGCAACTTCGCCGACTTCAGCGTGCCGCGCATTACCGACATGCCACAGATCGCCGTGCACATCGTTCCCAGCGCCGAACCGCCAACCGGCATGGGCGAACCCGGCCTGCCCGCCCTCGCCCCGGCGTTTGCCAATGCGATCGCCAGCCTGACGGGCAAACCGCTGCGGCAGTTGCCGTTCAACCTGGCGTAA	MLNEIFPNELPRALQHLLERDDSDGPATLPRRSFLKIVGIGGLALGAFPHLALGQQANGAGDGALKPTQQPSAFVQIAPSGEVTVTINRLEFGQGVQTGLPMILAEELDADWSLVRTRNGSNDSAYMDPAFGIHLTGGSNSIKNSYTQYRELGARARAMLLSAAAARWNVDAASLTTQNGTVLGPGGRKASYGELAEAAMALPVPEKVTLKDPKDFRIIGQATTRLDAKAKSSGQQDFGIDVNLPGQLTAVVARPPVFGARIASLDDSAARATKGVKAVLRVPLDGGAEGVAVVADGYWPAKLGRDALKVEWDVAKVEKVDTEKQLAQYRELAGKPGLVHFDADMKPLATAPHQLEAEFIFPYLAHAPMEPLNCTVQLSEGRAQLWVGTQFPGGDGAAAAKVLNLKPEQVQVNVQTAGGGFGRRGVPSNDFVVQACEVAKAARAAGIDAPVRTLWSREDDIKGGYYRPMHLHRARIGFDDSGKVLAWDHALVGQSILTGTLFGGQMKNGIDPTATEGMRDPYPLPMRLSVHHPKLNVPVLWWRSVGSTHTAFVMETLIDEIARATKQDPVAYRMNLFGDQSPRHRAALQLAVDKSEYGKRQLPAGQAWGVAVHESFSSVVAYVVEASVQDGRAVLHNVTAGVHCNLVVNPRSVEAQVQGAALMGLSMCLPGGAVTLKDGVVQQSNFADFSVPRITDMPQIAVHIVPSAEPPTGMGEPGLPALAPAFANAIASLTGKPLRQLPFNLA	PGPT0009811_1081	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-QUINOLINE_RESISTANCE,PGPT0009811-iorB-K07303	NA	NA
D1-35_05254	264			hypothetical protein	ATGAACCTGAAGAACCTCAGCCTCGCTTCACTGTTTGCCGTCCTCAGCCTCGGCGCCCTGACCGCCAACGCCCAGGACAGCGTCAAGCCACACACCTACATGTACGGCGATCATCTGGACATCGCCAAGGTGCTGTCGGTCAAGCAAGGGTCGGGCTCGGGCTGCGGCGTCGTCGAATCGCGCATGACCTATCTGGACTCCACCGGGACGATCCGGGCGCTGGACTACAGCGCTCTGGCCCAGGGGTGCGACCAGGATAATTGA	MNLKNLSLASLFAVLSLGALTANAQDSVKPHTYMYGDHLDIAKVLSVKQGSGSGCGVVESRMTYLDSTGTIRALDYSALAQGCDQDN				NA	NA	NA	NA	NA
D1-35_05255	1521			hypothetical protein	ATGAAATCGCCCCTGCGCTTTAACGATCACTACCGCAAAGCCGATCGCATCATGCTCGGGCTGCTCTGGCTCACGCTCCTGTATTCGCTGGGCCTGGCATTTCTTCATTCGACCTTCACTCAGGCGCTGCTGATCGGCGCACCAACGTGCCTGCTGGCGACGCTGCTCTACCGGGGCATCGGCGGCACCCGTGCGATGCGCTGCATCATCGCCATGGCGCTGATGGTCATGGCCGCGCTGCACATCAACCAGACCCGAGGCGTGATCGAGTTTCACTTCGGCATCTTCGTGCTGCTGGCGGTATTGACGTTCTATCGCGACTGGCTGCCGATCGTCGTGGCCGCCGGTACCATCGCCGTTCACCACGTCGGGTTTCATTGGCTCCAGCATCAGGGCTACCCGGTGTTCGTGATGGATGCCCACGGCGGGTGGACGATGATTTTTGTGCATGCCTTTTATGTCGTCGTCGAAAGCGTGATCCTGATCTACCTGGCGAACCAGAGCCTGGCCGATGCAACGGACAACCAGGACGTGCTCGACAAGGTGCTGGCCGCCGCCGCGCAGTTGAGTCGTGACACCGACACACAACGCAGCCAGGGCGTGAAAGTCTCATCCGGCGAGCGTTTCGACCATTTCCTCCTGCAGGTGACCAACCTGGTGGACGGTGTGGTGCGCGACACCCGTGACCTGTCGGACCTCGGCCAGGACCTGTCCCAGGTCGGCCGGACCCTGGAAAACGGTGCCCGGCACCAGTTGGACGAAGTGGCACAGATGAGCGGCGCGATCGGCCAGCTGATGCAGGCCATGGAGAGTATTACCGGCCACGTCGGCCAGACGCTGGAGCGCGCCGGGCAGGCCAACGAGCAAGTCAACCGGGGGCGCACCACGGTTGACCAGACCCGGGAAGAAATTCTCGAACTGGCGGGACGGATCAACCTGACCAATGAAACCGTGCAACTGCTGGCCGAGCAGGCGCAGCAGATCGGCCAGGTGCTGGACGTGATCAACAGCATCGCCGAACAGACCAACCTGCTGGCCCTCAATGCGGCCATCGAGGCGGCCCGGGCCGGCGAGCAGGGGCGTGGGTTCGCCGTGGTGGCCGACGAGGTCCGGACGCTGTCCCAACGGACCTCGACTTCCACCACGGAAATCCAGCAGATCATCGCCAAGCTGCAACAGGGCAGCCGTCAGGCTGCGATCGCCATGCAAGACAGCCGTGAAGGGGTCGAGCGTTGCGTGTCCGCCAGCCAGCAGGCCTCGCAACTGTTGCATGCTGTCGTCGAAGACATCGCGGTGATCAACCACTTCAACGACCTGATCGCCAGCACGACCCAGCAACAGTCCGCGGCGTCGATGGGTATCAATGAGCGCTTGCAAACGGTACAGGCCGTGGCCGAGCGCAACGCCGACAACATCGGTGTGCTGGCCCGCAGCAGCCAATGCCTGCCGCCTTTGGCGGAGCGGCTGGCGGCGCTGGGGCAAGCGTTTCATGGGCCAGACCGGCAGCTTGAGCGAAAATAG	MKSPLRFNDHYRKADRIMLGLLWLTLLYSLGLAFLHSTFTQALLIGAPTCLLATLLYRGIGGTRAMRCIIAMALMVMAALHINQTRGVIEFHFGIFVLLAVLTFYRDWLPIVVAAGTIAVHHVGFHWLQHQGYPVFVMDAHGGWTMIFVHAFYVVVESVILIYLANQSLADATDNQDVLDKVLAAAAQLSRDTDTQRSQGVKVSSGERFDHFLLQVTNLVDGVVRDTRDLSDLGQDLSQVGRTLENGARHQLDEVAQMSGAIGQLMQAMESITGHVGQTLERAGQANEQVNRGRTTVDQTREEILELAGRINLTNETVQLLAEQAQQIGQVLDVINSIAEQTNLLALNAAIEAARAGEQGRGFAVVADEVRTLSQRTSTSTTEIQQIIAKLQQGSRQAAIAMQDSREGVERCVSASQQASQLLHAVVEDIAVINHFNDLIASTTQQQSAASMGINERLQTVQAVAERNADNIGVLARSSQCLPPLAERLAALGQAFHGPDRQLERK	PGPT0015710_24516	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
D1-35_05256	1149	patB	COG1168	Cystathionine beta-lyase PatB	ATGACTTTCGATTTCGACCAGGTGTTCGAACGCCAAGGCACCGGCAGCACCAAATGGAGCCGTTACCCGGCCGAGGTATTGCCGATGTGGGTGGCCGACATGGATTTTGCCGCCCCGCCGATGGTGATCGATGCGCTGCACAAGCGCCTGGAGCATCCGATGCTGGGCTACAGCGTGGCCCAGGACAGCCTGCGCGCCGCCATCGTCGCCGATCTCTGGAGCAAGTATGGCTGGCGCGTCGAGCCCCAGCAGATCCTGTTCCTGCCGGGGGTCGAGCCAGGTTTCAACATGGCTTTGCATGCGTTGGTCGAGCCGCAGCAGAACGTTGTGGTGCAGGTGCCCAATTACCCGCCGCTGCGTCATGCGCCGGGCCATTGGAACCTGAACAAGCTGGAGTTGCCCTTCACCCCGCTCGACGGAGAGTTCCACACGCCCCTGGGCGCATTGCGCGACGCCTTGCAGGGCGGCGGCGCGTTGTTGCTGAGCAATCCACACAACCCGCTGGGCAAGGTGTTTGGACGCGACGAACTCAAGGCCGTGGCGGACATTTGCGTCGAGCAGGACGCCTGGATCATTTCCGACGAGATCCATGCCGAACTGTGCTTCGATGGCCGCGTGCACATCCCCACCGCCAGCCTCGGCGCGGAGATTGCCGAGCGCACCATCACGCTGATGTCGGCCAGCAAGGCCTACAACATCGCGGGGCTGAAAACCTCCTTTGCGATCATCCAGAACGCCAGGCTGCGCGAGCGGGTCAACAGCGCCAGGGCGGGCATGGTCGACAGCGTCAATGCCCTGGGCCTGGAGGCGACTCGTGCCGCCTACAGCGAAGCGGGTCCGTGGCTGGAGGCATTGAAGGCCTACCTGCAAGCCAACCGGGACTACCTGGTCGACGCGGTGAAGAACCGCCTGCCAGGCGTGACCATGACCGTGCCCCAGGGGACCTACCTGGCGTGGCTGGATTGCTCCGGGCTGGGGCTGGACGATCCGCAAGCGTTTTTCCTGAAGGAAGCCAAGGTCGGCTTGAGCGCCGGGATGGATTTTGGCGATGATGCCGGGCAATTCGTGCGGCTGAACTTCGGTTGCCCGAGGGCCCTGCTGGAGGAAGGTCTTGCGCGGATGGAGCGGAGCCTGAAGGCCAGAGGCTGA	MTFDFDQVFERQGTGSTKWSRYPAEVLPMWVADMDFAAPPMVIDALHKRLEHPMLGYSVAQDSLRAAIVADLWSKYGWRVEPQQILFLPGVEPGFNMALHALVEPQQNVVVQVPNYPPLRHAPGHWNLNKLELPFTPLDGEFHTPLGALRDALQGGGALLLSNPHNPLGKVFGRDELKAVADICVEQDAWIISDEIHAELCFDGRVHIPTASLGAEIAERTITLMSASKAYNIAGLKTSFAIIQNARLRERVNSARAGMVDSVNALGLEATRAAYSEAGPWLEALKAYLQANRDYLVDAVKNRLPGVTMTVPQGTYLAWLDCSGLGLDDPQAFFLKEAKVGLSAGMDFGDDAGQFVRLNFGCPRALLEEGLARMERSLKARG	PGPT0001990_2525	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
D1-35_05257	405			hypothetical protein	ATGTTCAGTCACATTCAGATTGGTGCGCGGGATCTACCGAAAATGGTCGCGTTCTACGATGCCGTCCTGGGGTGCCTGGGGTTGGTGCGCATGGACAGCGAAGACGACTCGGGCCCGCCCGGGGAAGGCTGGCATCAACCCGGCAGGCATTGGCCGCAGGTGTTCGTCCAGGTGCCGATCAATGGCCTGCCCGCGACCTGGGGCAATGGCATGCAAGTGAGCTTCGCCGCCGATTCGCCGCAGACCGTGCGCGCCGCTTGGGACATGGCCCTGGCGATGGGCGGTTTCGACGAAGGCGCGCCGGGCCCGAGGCCCCAGTATTCAAAGGATTACTTCGGGGCTTATTGCCGGGACCCGGAGGGCAATAAGTTGTGCTTTGTGCATACGCCGGATATGTATGACTGA	MFSHIQIGARDLPKMVAFYDAVLGCLGLVRMDSEDDSGPPGEGWHQPGRHWPQVFVQVPINGLPATWGNGMQVSFAADSPQTVRAAWDMALAMGGFDEGAPGPRPQYSKDYFGAYCRDPEGNKLCFVHTPDMYD				NA	NA	NA	NA	NA
D1-35_05258	858	ydaD		General stress protein 39	ATGGCCGATTACCCAACCCCACCCTTCCCCAAACAAAGCCAGCCCGTCCCCGGCAGCCAGCAGAAGATGGACCCGTATCCAGACTGCGGTGAACAAAGCTACAAGGGTTCCGGTCGCCTGGCGAACAAGATTGCGCTGATCACCGGCGCCGACAGCGGCATCGGGCGAGCGGTAGCCATCGCCTTCGCCCGCGAAGGCGCCGACGTGGCCATTTCCTACCTGAACGAGCACGAGGATGCCAAGGAGACCGCTCGCTGGGTCGAACAGGCCGGCCGGCAATGCCTGTTGCTGCCCGGCGACCTGGCGGACAAGGTCCAATGCCGCAAGGTCGTCGATGAAACCGTGGCGCGCTTCGGCCGCATCGACGTCCTCGTCAACAACGCCGCGTTCCAGATGACTCACGAAACCCTGGAAGAGATTCCGGACGAAGAATGGGTGCGCACGTTCGATATCAACATCACCGCAATGTTCAGGATCTGCCAGGCCGCGGTGCCGCACATGCAGGCCGGGGGATCGATCATCAACACCACCTCGGTCAACTCGGACATGCCCAAGCCGACGTTGCTGGCCTATGCCACGACCAAAGGCGCCATCGCCAACTTCACCGGTGGCCTGGCGCAGATGCTCGGGCCCAAGGGCATCCGGGTGAACAGCGTCGCGCCAGGGCCGATCTGGACACCGCTGATCGTTGCCACCATGCCCGAGGAAGAAGTGCAGAACTTCGGTTCGCAGACACCACTGGGGCGCCCCGGCCAGCCCGTGGAAGTGGCGCCGATCTTCGTGCTGCTGGCCTCGGATGAGTCCAGCTACATCTCCGGCTCGCGGTATGCGGTGACCGGGGGCAAGCCGATCCTTTAA	MADYPTPPFPKQSQPVPGSQQKMDPYPDCGEQSYKGSGRLANKIALITGADSGIGRAVAIAFAREGADVAISYLNEHEDAKETARWVEQAGRQCLLLPGDLADKVQCRKVVDETVARFGRIDVLVNNAAFQMTHETLEEIPDEEWVRTFDINITAMFRICQAAVPHMQAGGSIINTTSVNSDMPKPTLLAYATTKGAIANFTGGLAQMLGPKGIRVNSVAPGPIWTPLIVATMPEEEVQNFGSQTPLGRPGQPVEVAPIFVLLASDESSYISGSRYAVTGGKPIL				NA	NA	NA	NA	NA
D1-35_05259	444			hypothetical protein	ATGGATTCGGTATTGCGAGCCGCCGCTATGTACGCGGTATTGTTGGTGTTGTTCAAGATCGCCGGGCGACGTTCGCTGGCGGAGATCACCACCTTCGATTTCGTCCTGTTGATGATCATTGGCGAGGCTACCCAGCAGGCATTGTTGGGGGACGATTTCTCGATGACCAATTCGTTCATGGTCATCGTCACGCTGATTGCCATCGATGTCGGGTTTTCGCTGCTCAAGCTGCGCTCCGACTGGGTTTCGCGGCTGATCGATGGTGGTCCGACCATCATCGTCGAGGATGGGCGTATCTTGCAGGGGCGCATGCGTCACGCCCGGCTGATAGAGGCAGACATCATGGAAGCGGCGCGCTCGAGCCAGGGCATCGAGACCCTGGATCAGATCAAGTTCGCGATCATCGAACGCAACGGGAAGATTTCGGTGATCGCCAAGGAGTGA	MDSVLRAAAMYAVLLVLFKIAGRRSLAEITTFDFVLLMIIGEATQQALLGDDFSMTNSFMVIVTLIAIDVGFSLLKLRSDWVSRLIDGGPTIIVEDGRILQGRMRHARLIEADIMEAARSSQGIETLDQIKFAIIERNGKISVIAKE				NA	NA	NA	NA	NA
D1-35_05260	519			hypothetical protein	ATGATCGATCAGCGTGAACAAGACGACCACCGCAGCCGCCAGTTCCCGGTGGAAGAGGACATGGCATTCCAGCACAAGGTCTGGCGCTTCGAGCGGGTCGGCTGGTACGTATTGGTGCTGTTGGTGATCCTGACCCTGCTCGGGCTGTTTTCCCGTGGTCCGCTGAGCAGCCGCGAAGCGCAAAGCGCGGACGGCAGCATTGGCGTCGAATACGAGATGTTCCATCGCAACGGCTCGGTCAATCCGCTGGTCGTCCGTCTGCAAGGCGCGTCCAACGCGGTGCTGGAGGTGGAGCTCGGCGGCGATTGGCTGGAGGGGTTCGATGTGCAGAGCGTGCAACCGCAGCCAGTGCGTTCGGCCGCCGCGGGGCAGGGTATGAAGATCTGGGTCCAGGCCGACGGGCAGGGGCGGGCCAACCTGCACCTGTCACTGCTCGGTGAAGGCCTCGGTAACTATAAAAGCCGCATCGCAACGCCCAATGGCGCCGAGGTCAGGTTCAATCAATTCATCTTTCCATAG	MIDQREQDDHRSRQFPVEEDMAFQHKVWRFERVGWYVLVLLVILTLLGLFSRGPLSSREAQSADGSIGVEYEMFHRNGSVNPLVVRLQGASNAVLEVELGGDWLEGFDVQSVQPQPVRSAAAGQGMKIWVQADGQGRANLHLSLLGEGLGNYKSRIATPNGAEVRFNQFIFP				NA	NA	NA	NA	NA
D1-35_05261	501	pncC_2	COG1546	Nicotinamide-nucleotide amidohydrolase PncC	ATGACTGTTGCCCAATCCCTGGTTGATTATCTGCAAGACCATGAACTGCGCCTGACCACCGCCGAGTCCTGCACCGCCGGGCTGATCGTCACCCTGTTGGCGGAAGTGCCGGGCAGTGGCTCGCTGATCGAAAGCGGCTATGTGGTGTATTCCCCCGAAGCCAAGCAGCGCTTGCTCGGCGTCAAGCCGCGCACCATCGATACCTTCAATCTCACCAGCCGCGAAGTCGCCGAGGAAATGGCCCTGGGCGCGCTGCGCGACGCCGACGCCAACGTCGCGGTCGCTACCACCGGCCTGCTCGGGCCGGACGACAAGGACGGCATACCTGCTGGCACGGTCTGTTTTGCCTGGGCGTTCGAGGTAAACGGCCAGCGTGCGCTGTTCAGCCGCCAGGAGCGATTCTTTGGCGACCGGCGCCAGGTGCAGTTGCTCTCCAGCGAGTACGCCTTGCGGCAATTGCCCGGCTATCACCAGCGTGCTTTGGCCGGTGAACTTCGATAG	MTVAQSLVDYLQDHELRLTTAESCTAGLIVTLLAEVPGSGSLIESGYVVYSPEAKQRLLGVKPRTIDTFNLTSREVAEEMALGALRDADANVAVATTGLLGPDDKDGIPAGTVCFAWAFEVNGQRALFSRQERFFGDRRQVQLLSSEYALRQLPGYHQRALAGELR	PGPT0013460_343	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013460-pncC2-K03743	NA	NA
D1-35_05262	612	yohC_2		Inner membrane protein YohC	ATGTCTGTGCTTTTCGTCAAGCTGTTCACCCATCCGGAATTTGCCTGGGGGGACATTCGCGAGCAGGAGCAGGCTCACCCTCACCATTACCTGGCCCATCTGCTGTTGCTGGCGCTGATTCCGGCGGTGTGCCTGTTCATCGGTACCACCTGGACCGGCTGGAGCCTGGCCGAAAACGAGACCGTGAGGTTGAGTCAGGCCAGCGCCTTGCAACTGTGCGCCCTGCTCTACCTGACCATCGTGATCGGCGTCTCGCTGATGGGGCTGTTCATCCGCTGGATGTCGCGCACCTTCGAGGCTCGGCCCACGGTCAACCAGTGCATCGGTTTTGCCGCCTACACCGCAACCCCGTACTTCCTGGCCGGCATCTTCGGGCTGTACCCCAGCCGCTGGCTGGCGGTGGTGGTCCTGTTGCTCGCCTCGGTCTACTCGACATTCCTGCTGTTCGTCGGTCTACCCAAGTTCATGGGCCTGAAGAAAGAACAAGGGCTATTGTATTCAGCGAGCGTCTGGGGCGTCGGTTTACTGGTGCTGGTCACGATCCTGGTGGAAATGATCCTGCTGTGGTTCAACTACCTGCAACCGGAATACCTTCGCGTGCCGGTGGGCTGA	MSVLFVKLFTHPEFAWGDIREQEQAHPHHYLAHLLLLALIPAVCLFIGTTWTGWSLAENETVRLSQASALQLCALLYLTIVIGVSLMGLFIRWMSRTFEARPTVNQCIGFAAYTATPYFLAGIFGLYPSRWLAVVVLLLASVYSTFLLFVGLPKFMGLKKEQGLLYSASVWGVGLLVLVTILVEMILLWFNYLQPEYLRVPVG				NA	NA	NA	NA	NA
D1-35_05263	4146	rcsC_25		Sensor histidine kinase RcsC	ATGTCTTCACCAAGCAAACGCTCTCCCAACGTGCCACAGCGACGAGAGCTGAGCCCCAGCAGCCTCGAGTTTCCGGTAGTAGGAATCGGCGCCTCTGCGGGCGGCTTGCAGGCCATCAAGCAGTTTTTTGAACACATGCCCAAGGACAATGGCATGGCGTTCGTGATCGTCCTGCACCTGGCTCCAGACCATCAAAGCATCGCCGACAAGATCATCCAGGAATCGACCAAGATGCCGGTGCTCCAGGTGAGCGAGACGGTCGCTATCCAGAAAAACCATGTCTATGTCATTTCCCCCGCCCATCATTTGTCGATGAACGACGGATATCTGAAGGTCAAGCCGGCCGAGCCGCGCCTCGGCGGGCATGTGGCTATCGACCTGTTTTTCCGTGACCTGGCCGACGTACACAAGGAGCGGGCATTCTGCCTGGTGCTGTCGGGCACCGGCTCCGACGGAGCCGTGGGCCTGTCGCGCATCAAGGAACAGGGCGGCGTGACCATCGCCCAATCGCCCCAGGACGCCGAATTCGACGGCATGCCCCAGGCCGCCATCGACACCCAGATGGTCGACCTGGTGCTTCCCGTGGTGGAAATGCCGCAAAAGCTCCTGGAGCTGTGGCGAAATTCCCAGAATATTCGCCTACCGACGGCCAACGACCCGGAAATCAAGACCCAACCGCCAACCTCCGAGCGCGAAGCAGTCGCCGCCGAGCAATCGCTGCATGACATCCTGGTGCAGCTGCGCGCTGGCACCGGGCATGACTTCAAGCATTACAAGCGGGCCACCGTGCTGCGGCGCATCGAACGGCGCATGCAGGTCACCGCCCAGCCAGATCTGGGCGCCTACTACGCGTATCTGCAGAATCACCCCGAAGAAACCAAGGCGCTGCTGGGCGACCTGCTGATCGGGGTGACCAATTTCTTCCGCGATCGCGAAGCCTTCGAAGCCCTGGAGCGCGACGTCCTGCCCAACCTGTTGAAGCCGGTCGAGCCGGGTAGCGTGCCGCCTGAGGAGATCAGGATCTGGTCGGCCGGCTGCTCCACCGGCGAAGAGGCCTATACCCTGGCCATGTTGCTCAGCGATCAGTTACAGCATGATTCGAGCAACGCCAAGCTGCAGATATTCGCCACCGACATCGACGAACGCGCCATTACCGTGGGGCGCGGCGGCGCCTACCCGGAAGCGATCATTACCGACGTGCCGCCCACTCGCCTGCGCCAATATTTCCTGAAGGAAACCACGACGTACCGTGTGCGCAAGGAAATCCGCGAGCGCGTGCTGTTTGCCAAACACAGCCTGCTGTCGGACCCGCCCTTCTCGCAGATCGACCTGATCGTCTGCCGCAACCTGCTGATCTACCTCGACCGCGAAGTGCAGCGGGAAATCCTGCAAATGTTCCACTTTGCCCTGCGCCCGGGAGGCTACCTGTTCCTCGGTTCGTCGGAGTCGGCCGATGCCTGCAGCGAGCTGTTCAGCCCGGTGGACAAGCGCAACCGGATCTTCCGCGCCAAATACGGCACTGCCGCCAGCCGCCGAACCCCGACCATGCCCCGTGGCGGTTACGTGCGCAGCACCTCGTCCCTGGCCGCGCCGCAGATCATCGCGCCGCGCAAGGTGTCGTTTGCCGATATCCACTTGCGTGCCATCGAACGGGCCGCGCCACCGAGCATAATTGTCGACAGCAATGGCGACATCCTGCACATGATCGAAACCGCCGGCCGCTATCTGCGCCACGTCGGCGGCGAGATGTCGCGTAACCTGCTGACGCTGATCAACCCGCAGCTGCGCCTGGAAATCCGCACCGCCTTGTTCCAGGTGAACCAGAACGGCCAGCCGGTCAAGTCCCGCCAGGTCAATATGGAGCGCGATGGCAAGCGCTTCCTGGTGGACCTGCTGGTCCAGCCGTATCGCGACGACGAATCCGATGGCGAGTTTGTCCTTGTCGTGTTCGAGGAGGAGGAAGTCGATCCCAGCCAGCAGGTTACCGCCATCACCAGCCAGACCGAAAACCAGGTGCTGGCCAATCTGGAGCGGGAGCTGCAGCGGACCAAGTCGCACCTGCAGGACACCATCGAGCAGGCCGAGGTCTCCAGCGAGGAGCTCAAGGCCTCCAATGAAGAAATGCAGGCCATCAACGAGGAACTGCGCTCGGCCACCGAGGAGCTGGAAACCAGCAAGGAAGAGCTGCAATCGATCAACGAAGAGTTGCTGACGGTCAATTACGAGCTGAAGACCAAGGTCGAGGAAACCGACAAGATCAACGACTACCTCACCAACCTGATCGCCTCCACCGACATCGCCACGGTATTCGTCGACCGCAGCATGCGCATCAAATGGTTCACCCCGCGGGCCACGGAAATCTTCAGCATGCTCCCGGTGGACACCGGCCGTTCACTGCTCGACATCACCCACCGCCTGGACTATGCGGAGATGGCTGCGGACGCCACCCAGGTGTTCGAGTCGCTGAACATGATCGAGCGCGAAGTCAGCAGCAAGGATGACCGCTGGTACATCGCCCGCCTGCTGCCCTATCGCTCCAGCGAAGACCACATCGACGGCACGGTGTTGACCTTTATCGACATCACCAAGCGCCGTGCCGCTGAAGAAGAGTTGCGCCTGGGCGAAGAGCGCATGCGCCTGGTGGCCGAAAGCACCCGCGACTACGCGATCATCCTGCTCGACGAACATGGCGTGATCACCAGTTGGAACACCGGCGCGCAGTTGATTTTCGGCCATACCAAGGCCGAAGCCGAAGGCGCTTATTACGACTTCCTCTTTACCCCGGAAGACCGTAGCTACGGCGCTCCTGAAACCGAACTGAGCACCGCTCGTGCCAAAGGCCGTTGCGAAGACGAGCGCTGGCATCAACGCAAGGACGGCAGCCGCTTCTTCTGCAGTGGCGAGGTCACGCTGCTCAGTGGCGACTACTTGCAGGGCTACGTGAAGATTGCCCGTGATCTCACCGGGCATAAGCGCCTGCACGAAGAACAGACCCAACGGCTCATGGAAACCCAGAACAACAGCCACTTGAAGGATGAGTTCTTCGCGGTCATGTCCCACGAACTGAAGCACCCGCTGAATCTGATCCAGCTCAACGCCGAATTGCTGCGCCGCCTGCCGGTGACCAAGAGCGTCACTGCGGCTGCCAGGGCGGTCAACACCATCTGCGACGCTGTTACCAGCCAGGCGCGTATCATCGACGACCTGCTGGACGTAGCCCGAGTACGCACCGGCAAGCTCAAGCTCAAGCGCCTGGCGGTCGATCTGGGTCGCGTGCTGCAAGACATCTACACCGTGGTGATCAACGACAACCATCCGAACAAGGTCACTCTGGAACTGCCCGAAGGGCCCGGCAGCGAGCTGATTGTCAACGCCGATCCGACCCGGCTGGAGCAGATCATCTGGAACCTGGTGAATAACGCGCTGAAATTCACCCCGAATGGCGGCCGCGTGCAGTTGATCGCCAGCCAGGACGGGCGCATGGCTCGCCTGGACGTCAAGGATTCAGGCGTCGGTATTGCCGCGGAACACTTGAGCGAAGTGTTCGACCTGTTCGGCCAGGCCGAGACCCAGCATGCGACCCATCAGCGCGAAGGGCTGGGAATCGGCCTGTCGCTGGTACGGCAGTTGACCGAAGCCCACGGCGGCAGCGTCGAGGTCAAGTCCGAAGGGCTGGGCAAAGGCTGTACGTTCACCATCCGCCTGCCCTTGAGCAGCGCCGAGCTGGCGCCCAAGCCGCAAGCCTGCGAAGAGCAATCCGGACGCCTGAGCGGCTTGACGGTGTTGTTGGTGGACGATTCCCCCGACGTGCTCGATACCCTCAAGCTGCTGCTGGAAATGGAGGACGCCAACGTCGTTGCGTTCGATCAACCGTTGCAAGCGCTGGAAGCGGCCCGGGACGCCCGTTACGACGTGGTGATCTCGGACCTGGGCATGCCGGTAATGAATGGCCATGAACTGATGCAGGCGCTGCGCGAGTTGCCCCACATCAAAAACATCCCGGCCATCGCCCTGACCGGGTACGGTGCGTCTGTCGACATGCACAAGTCGCAGCAGTCGGGTTTTGACCAGCACATCGGCAAACCGGTGTCCTATGACGAGTTGATCGAAGCGATCGAGCAATTGCGGCGGGCGCGGGTTTATTAG	MSSPSKRSPNVPQRRELSPSSLEFPVVGIGASAGGLQAIKQFFEHMPKDNGMAFVIVLHLAPDHQSIADKIIQESTKMPVLQVSETVAIQKNHVYVISPAHHLSMNDGYLKVKPAEPRLGGHVAIDLFFRDLADVHKERAFCLVLSGTGSDGAVGLSRIKEQGGVTIAQSPQDAEFDGMPQAAIDTQMVDLVLPVVEMPQKLLELWRNSQNIRLPTANDPEIKTQPPTSEREAVAAEQSLHDILVQLRAGTGHDFKHYKRATVLRRIERRMQVTAQPDLGAYYAYLQNHPEETKALLGDLLIGVTNFFRDREAFEALERDVLPNLLKPVEPGSVPPEEIRIWSAGCSTGEEAYTLAMLLSDQLQHDSSNAKLQIFATDIDERAITVGRGGAYPEAIITDVPPTRLRQYFLKETTTYRVRKEIRERVLFAKHSLLSDPPFSQIDLIVCRNLLIYLDREVQREILQMFHFALRPGGYLFLGSSESADACSELFSPVDKRNRIFRAKYGTAASRRTPTMPRGGYVRSTSSLAAPQIIAPRKVSFADIHLRAIERAAPPSIIVDSNGDILHMIETAGRYLRHVGGEMSRNLLTLINPQLRLEIRTALFQVNQNGQPVKSRQVNMERDGKRFLVDLLVQPYRDDESDGEFVLVVFEEEEVDPSQQVTAITSQTENQVLANLERELQRTKSHLQDTIEQAEVSSEELKASNEEMQAINEELRSATEELETSKEELQSINEELLTVNYELKTKVEETDKINDYLTNLIASTDIATVFVDRSMRIKWFTPRATEIFSMLPVDTGRSLLDITHRLDYAEMAADATQVFESLNMIEREVSSKDDRWYIARLLPYRSSEDHIDGTVLTFIDITKRRAAEEELRLGEERMRLVAESTRDYAIILLDEHGVITSWNTGAQLIFGHTKAEAEGAYYDFLFTPEDRSYGAPETELSTARAKGRCEDERWHQRKDGSRFFCSGEVTLLSGDYLQGYVKIARDLTGHKRLHEEQTQRLMETQNNSHLKDEFFAVMSHELKHPLNLIQLNAELLRRLPVTKSVTAAARAVNTICDAVTSQARIIDDLLDVARVRTGKLKLKRLAVDLGRVLQDIYTVVINDNHPNKVTLELPEGPGSELIVNADPTRLEQIIWNLVNNALKFTPNGGRVQLIASQDGRMARLDVKDSGVGIAAEHLSEVFDLFGQAETQHATHQREGLGIGLSLVRQLTEAHGGSVEVKSEGLGKGCTFTIRLPLSSAELAPKPQACEEQSGRLSGLTVLLVDDSPDVLDTLKLLLEMEDANVVAFDQPLQALEAARDARYDVVISDLGMPVMNGHELMQALRELPHIKNIPAIALTGYGASVDMHKSQQSGFDQHIGKPVSYDELIEAIEQLRRARVY	PGPT0015655_237	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015655-cheBR-K13924	NA	NA
D1-35_05264	2622	ligD_2	COG1793	Multifunctional non-homologous end joining protein LigD	ATGACCAGCAAAACCCTTGAAGACTACAACCGCATGCGCGACTTCGCCGCCACCCCGGAACCGGCGGCGAAACGCTCGCGCAAAGCGGCGAAAACCGCCCATGCCCTGCAGTACTGCATCCAGAAGCACGATGCCACGCGGCTGCATTACGATTTTCGCCTGGAGCTGGACGGCGCGCTCAAGAGCTGGGCAGTGCCCAAGGGACCGTCCCTGGATCCGAAGGTCAAGCGCCTGGCCGTGCATGTCGAAGACCATCCGCTCGATTACGCGACCTTCGAGGGCAGCATTCCCGAAGGGCACTACGGCGCCGGCGATGTCATTGTCTGGGACCGGGGCGTGTGGATTCCCCAGGGCGACGTACACGAAGCCTACGAAAAGGGCCGCCTCAAGTTCGAGCTGCGCGGGGAGAAACTCGCTGGCCTGTGGAACCTGGTGCGCACCCATATGCCCGGTAAACAGGAGCAATGGTTCCTGATCAAGCATCAGGACGACGCAGCCCGTCCGGAGAGCGAGTACGACGTGGTCGAGGCCGAGCCGGACAGCGTGCTCAGCGACCGCACGATCGTGCCCAAGCGCCGAGGCAAGGCCGCTGCTGCCAAAGCCGTAAAACAACCGGAAAAAGCCGCGCCGCCGAAATCGTCGAAAAAAACCGCGAAGACCACCCTCAGCGGCGCCGTTGCCGGCCCGATTCCCGAAACCCTCAAGCCGGAACTGGCGACGCTGGTGGACAGCGCGCCCGAGGGCGACTGGCTCTACGAGATCAAGTTCGACGGCTACCGGGTCATGGCGCGTATCGACAACGGCGATGTGCGCTTGATCACCCGCAACGGCCATGACTGGACCCACAAACTGCCGAAACAGGCCGAGGCCTTGGCCGGGCTCGGATTGGAATCGGCCTGGCTCGACGGCGAGATGGTCGTCGCCAATGAGCAAGGCGTGCCGGACTTCCAGGCCCTGCAAAACGCCTTTGATGCCGGCAGCAGCGGCAAGATCGCCTATTACCTGTTCGATTTGCCCTACCTCAACGGCATGGATCTGCGCAAAGTGCCGGTGGAGGAGCGTCGGGCCGCGCTGGCAGCGGTGCTTGAGGCGAATGAAGATCCGTTGCTGCGCTTTTCCGACGCCTTCGAGGAAACCCCCGAAGCACTGCTCAACAGCGCTTGCCAGATGCGCATGGAAGGACTGATCGGCAAACGCCAGGGCAGCGCCTATGTGTCCCGGCGCAGCAGCGACTGGATCAAGCTCAAATGCAAGAATCGCCAGGAGTTTGTCGTGGTCGGCTTCAGCGAGCCCAAGGGCTCGCGCAGCGCGTTCGGTGCCTTGTTGCTGGGCCTGCATGACGTAGACAGCGGTGAGCTGCGGTATGCCGGCAAGGTCGGCACCGGTTTCAACGAGACGACGCTCAAAAGCATCTACCAGCAGCTGTTGCCCCTGGAAACGAAAAAAGCCGCCGTGGTCAACCCCCCCACTGGTTACGAGGCCAAGGGCGTGCACTGGCTCAAGCCGGAATTACTGGCCGAGGTGGCATTTGCTGAAATGACCAAGGAAGGTTCGGTACGCCACGCGGTGTTCCATGGCTTGCGCAACGACAAGCCGGCCAAGGCGATTACCCAGGAACTGCCGAAACCGATAGAGAAGCCCGCCAGGAAAAAAACCGCCGCCAAGGAGGAGCCGGCACCGGCCAAGCCCAAGACCAAAGCCAAGGCCAAGACCACCCAGGCACCGACCCTGGACGGCAAGGTGCGCATTACCCACCCGGACCGGATCATCGATGCCAGCAGTGGCACGACCAAGATGCAACTGGCCGAGTACTACGCCAGCGTTGCCGAATTCATCCTGCCGGAACTGGCCGACCGTCCGGTGGCCCTGGTGCGCGCGCCGGACGGCATCGCCGGCGAGCTGTTCTTCCAGAAGAACCCCGAGCGCCTGGCGATTCCCGGCATCACCAGCCTGGACAAGGACCTGACCGGGCAACCGGTGATGATCATCAACAACGCCGAAGCGCTCATCGGTGCGGTGCAGATGAGTACCGTGGAGCTGCACACCTGGAACGCCACTTCGGTAGACCTGGACAAACCCGACCGTTTTGTCCTCGACCTTGACCCGGACCCGGCGCTGCCGTGGAAAAGCATGGTGGAAGCCACGCAACTGACCTTGTCGGTGCTGGATGAGCTGGGCCTGAAGGCGTTTCTCAAGACCAGCGGCGGCAAGGGTATCCACGTGGTGGTGCCGCTGACCCGCAAGTTGGGCTGGGACGAGGTCAAGGGCTTCAGCCACGCCATTGTCAGCCACATGGCCAAGCTGTTGCCCGATCGCTTCTCGGCGGTATCGGGACCGAAAAACCGGGTGGGGCGGATTTTCATCGATTACCTGCGCAACGGCCTGGGCGCCACGACCATTTGTGCCTATGCCGCCCGCACCCGTGAAGGGCTGCCAGTGTCGGTGCCGATTTATCGCGAAGAAGTGGCCGAGCTCAAGGGCGCCAACCTGTGGAACGTACACAACGTGCATGAGCGGCTGGCCGAGGTGGGGCATGAGCCTTGGGCGGACCTGAAGAAAACCCGCCAGGGCATCACGGCCGAGATGCGTCGGCGGATCGGGATGAAGACCACCGCCAAGTAG	MTSKTLEDYNRMRDFAATPEPAAKRSRKAAKTAHALQYCIQKHDATRLHYDFRLELDGALKSWAVPKGPSLDPKVKRLAVHVEDHPLDYATFEGSIPEGHYGAGDVIVWDRGVWIPQGDVHEAYEKGRLKFELRGEKLAGLWNLVRTHMPGKQEQWFLIKHQDDAARPESEYDVVEAEPDSVLSDRTIVPKRRGKAAAAKAVKQPEKAAPPKSSKKTAKTTLSGAVAGPIPETLKPELATLVDSAPEGDWLYEIKFDGYRVMARIDNGDVRLITRNGHDWTHKLPKQAEALAGLGLESAWLDGEMVVANEQGVPDFQALQNAFDAGSSGKIAYYLFDLPYLNGMDLRKVPVEERRAALAAVLEANEDPLLRFSDAFEETPEALLNSACQMRMEGLIGKRQGSAYVSRRSSDWIKLKCKNRQEFVVVGFSEPKGSRSAFGALLLGLHDVDSGELRYAGKVGTGFNETTLKSIYQQLLPLETKKAAVVNPPTGYEAKGVHWLKPELLAEVAFAEMTKEGSVRHAVFHGLRNDKPAKAITQELPKPIEKPARKKTAAKEEPAPAKPKTKAKAKTTQAPTLDGKVRITHPDRIIDASSGTTKMQLAEYYASVAEFILPELADRPVALVRAPDGIAGELFFQKNPERLAIPGITSLDKDLTGQPVMIINNAEALIGAVQMSTVELHTWNATSVDLDKPDRFVLDLDPDPALPWKSMVEATQLTLSVLDELGLKAFLKTSGGKGIHVVVPLTRKLGWDEVKGFSHAIVSHMAKLLPDRFSAVSGPKNRVGRIFIDYLRNGLGATTICAYAARTREGLPVSVPIYREEVAELKGANLWNVHNVHERLAEVGHEPWADLKKTRQGITAEMRRRIGMKTTAK	PGPT0014910_382	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971	NA	NA
D1-35_05265	1164		COG2170	Putative glutamate--cysteine ligase 2	ATGAACAGGCGTTTGAAGTTCGGCATTGAAGAGGAATATTTCGTCACCGACCTGCAAACCCGGCACATGCCCGACCAGCCGCCCGTAGCGGCGATTGCGGCATGCCGGGAGGAGCTGGGTGAGCATTTCGCCCACGAGATGTTCCTGAGCCAGGTGGAGATGGCTTCGCCCATCTTCGAGAACCTGGCGGAGGCCGCCGATTACCTGGCCCAGGTGCGTAGCGGCCTGACGCGGCGCCTGGCACCCCACGGCCTGGGATTATTGAGCGCCGGCTCACATCCGATGACCACGGTCGGCTTGCAGCCCACCGACGAGCTGCATTTCCAGCAATTGTTCGACGATTACCAGCGAGTGGCGCGCCGCAGCGTGTTATCGGGCCTGCATGTACACGTGGAAGTACCGGGCGATCAGGACCGGGTCAAGGTCATGAACGAAGTGTTGCCGTGGCTGCCGATGTTGTTGGCGCTGAGTGCGTCTTCGCCGTTCTGGAACGGCGGCTACAGCGGCTTCAGCAGTTATCGCCAGGTAGCCTGCGATGAATGGCCGCGGATGGGCGTGCCGGAGTTCTTCGCCGACGAGGCCGCGTTCAACGGCTACGTCGACATGCTCACGCGCACCGGCTCCATTCGCCAGCCCAGCGATTGCTGGTGGGTGCTCAGGCCGTCGTCGCGTTACCCGACGCTGGAGCTGCGCATCTGCGATGCCTGCCCGCGGATCGACGACGTCCTGTGCCTGGTTTCGCTGTTTCGCCTGATGGTTGCCCATGCCTGCGCCCAGCCCAAGCCTGGGGCCAATTACAGCCTGATGTCGCAGTGGATCCTCAAGGAAAACCGCTACCGGGCCAAGCGCCACGGCATCCTGGCGGAGTTCATCATCGAGGGGCAGGAACAACCCATGCTCATTGGCGAATGGCTGAACCTGGCCGAGCAGACCTTCGCCGACACCGCCACAGCGCTGGGCGTGCAGGACGTGTTCAAGCAAGCCCGCCGGATCGTTCAGGAGGGCACCAGTGCCGATCGCCAGGTCGTGCTGTATGAACAAGGCTTGCTGCTGGGGGACTCCATCGAACAGGCCCTGAGCCGGGTGGTTGATCAGTTGCTCTCGGAAACCGCCGGCATGCCGGTGGCCGATCCTACCCTTGCGCAAGTTGCAGGTGGCCCATGA	MNRRLKFGIEEEYFVTDLQTRHMPDQPPVAAIAACREELGEHFAHEMFLSQVEMASPIFENLAEAADYLAQVRSGLTRRLAPHGLGLLSAGSHPMTTVGLQPTDELHFQQLFDDYQRVARRSVLSGLHVHVEVPGDQDRVKVMNEVLPWLPMLLALSASSPFWNGGYSGFSSYRQVACDEWPRMGVPEFFADEAAFNGYVDMLTRTGSIRQPSDCWWVLRPSSRYPTLELRICDACPRIDDVLCLVSLFRLMVAHACAQPKPGANYSLMSQWILKENRYRAKRHGILAEFIIEGQEQPMLIGEWLNLAEQTFADTATALGVQDVFKQARRIVQEGTSADRQVVLYEQGLLLGDSIEQALSRVVDQLLSETAGMPVADPTLAQVAGGP	PGPT0026300_366	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048	NA	NA
D1-35_05266	1002	prmC_2		Release factor glutamine methyltransferase	ATGAATCAGGAAGATCGCCTGTCCGAACCCGACCTGGCGCTGCTGCAACTGGGTCGCCGCCTGCACGCCGACGGCTACCGTTTCATCACCCCGACACCGTTAACCCATGAACGGGTCAATAAACGGCCCGGCAACGAGCGTTCGAAGACCCTGCGGGACGTTTTCGGCTGGTCGCGGCCGTTCGCGCCTGGGCTGATTTCCGCCGATGAGCAGCGTCAGTTGCAGGAGGCGCAGGTGTTGGAGGAACGTGACGGCCTGTTATACAGCCGCGTGCGCTGGTCGAGCCTGGACGGGATGCTGTTCGCCCATTCGCAGTTTCCCACCCAGGCCAATGACGCAGTATTTTTCGGCCCGGACAGCTATCGGTTCGCCCATCTGATCCATACCCACCTGCAACAGAACTTCACCGCGGTGCATCGGGCCGTGGACATCGGCTGTGGTGCCGGTGTCGGGGCCATGGTGATTGCCCGCGCCCGGCGCGAGGCCGAGGTTCTCGCCGTGGACATCAATCCCCTGGCCCTGCGCCTGTGCGCGGTCAACGCCGCGCTGGCCGAGGTTGCCAACGTCGAGGTCGCCCACAGTGATGTTCTCCGGGACGTCGAGGGCAGCTTTGACCTGATCGTTGCCAACCCACCGTACATGGCCGACCCGGCCGAGCGCGCCTATCGCCATGGTGGCGGCGCGCTGGGCGCCGGCCTGTCGCTGCGTATCGTCGAGCAGGCGTTGCCCCGGCTTACGCCTGGTGGCTCGCTGGTGCTCTACACCGGCGTGGCGATGGTCGACGGTCGCGATCCGTTCCTGGAGGCGCTTGGCCCTTGGCGCGATTCGGCGCAGTACGGCTGGACTTACCGGGAACTGGACCCGGATGTCTTCGGCGAGGAATTGCTGACCCCGGGTTATCAGGACGTGGAACGGATCGCCGTGGTGGCGTTGGTTGTCACCCGCACGGGTGCGGGTATCGGAGGGAACATCGATGAACAGGCGTTTGAAGTTCGGCATTGA	MNQEDRLSEPDLALLQLGRRLHADGYRFITPTPLTHERVNKRPGNERSKTLRDVFGWSRPFAPGLISADEQRQLQEAQVLEERDGLLYSRVRWSSLDGMLFAHSQFPTQANDAVFFGPDSYRFAHLIHTHLQQNFTAVHRAVDIGCGAGVGAMVIARARREAEVLAVDINPLALRLCAVNAALAEVANVEVAHSDVLRDVEGSFDLIVANPPYMADPAERAYRHGGGALGAGLSLRIVEQALPRLTPGGSLVLYTGVAMVDGRDPFLEALGPWRDSAQYGWTYRELDPDVFGEELLTPGYQDVERIAVVALVVTRTGAGIGGNIDEQAFEVRH				NA	NA	NA	NA	NA
D1-35_05267	1386			hypothetical protein	ATGACTGCGCTGACATCCCTCCAATCCAGGCCTGCCACCGCGCAGCCATTCACCACTGCGGGCAACGTTCGTCAATGCTACGAGCGGCTGCTGCAGGGCCCCGACGACAGCGACAAGCAAGCCGATGCCCAAGCCTTTCTCCAGCCTTTGCTGGAGCAGGCCGCGGCGTTGCCCCAGGAGATGCCCGACGATCCAGCGGCGCTGCTTGCCTGGGTAGAACAGCACAGCGCCGGCGTGGCCCGGCAGTACGCCGACTACCTGGAACGACGCAAGAGTGGCGGTCGTCGGGAGTTCTTCCACAGCAAGGCCCAGGCTTTGTACTTCCTGCAGGCCGTGGCGCCGACGAAACTAGTGGATGGCGCCTGGTTGTATGGCGTGCTCAGGCACTGGCATGACCACCGTTTCGAAGGGCTGCTGTGTACCTATCTGGAAGAGCTCGGCGATGGTGTGCCGGCCCAGAACCATGTGGTGCTCTACCGCAAGCTGCTAGCCGAACATGGGCTGTCGGACATGCCCGACATCCACGATGACCGCTATCTGCAAGGTGCGGTGCAACTGGCTTTGGGTTATGCCGGCGACGAGTATCTGCCCGAGGTCATCGGCTACAACCTTGGCTACGAACAACTGCCACTGCATTTGCTGATCAGCGCCTATGAGCTGAGCGAACTCGACATCGACCCGTATTACTTCACTCTCCATGTGACCATCGACAACGCCAGCACCGGCCATGCCCACAAGGCTGTGCAATCGCTGCTGCAACTGATGCCGATGGAGGCGGATCGCGAATCCTTCTGGCGTCGGGTCACCCTGGGCTATCGCCTCAACGACCTGGGGCAGGGCAGCCGGGCGGTCATCGAGTCGTTTGACTTGGAACGCGAGGTCCTCGACATGCTTGAGCGCAAGCGCCCGTTTGGCCAACACATGCATTCCGATTACTGCAAATTCGAAGGCAAGACCGTCAACCAATGGCTGGCGGAGCCGGGGCAGCTGGAAGGTTTCCTCAAGGCCATGCAAGGCAAAGGCTGGATCCGGCGCCACGAAGATCCGCAGAACAGCCGCTTCTGGACCCTGATCGAAGGCGCTGGCGCGGCGATGTTCGGGGTCTTCAGCCCTTACGAAAAGCAGCTGTTGCACGATTGGATCGCCGGTGACTGGTTGGAGGAGCGCGGTCGCTCCGGCGCCCGCCGCAGCCTTGGCGCGGCGCAGGATACCCAGGCACCGCCGCAGGATCCGGACGTGCAGAACCTGCAGCAATTACTGCGGGGCAAGGCGCCCGATGCGCAGATGCAGATCCTCTTGTCCTGGCTTTCGCCGCGCGCCCATAGCCATCCGGCCGGGCTGCTGGCGACCCGCCGGTTCATCGAACTCAAATCCGCCCTTCGTTAG	MTALTSLQSRPATAQPFTTAGNVRQCYERLLQGPDDSDKQADAQAFLQPLLEQAAALPQEMPDDPAALLAWVEQHSAGVARQYADYLERRKSGGRREFFHSKAQALYFLQAVAPTKLVDGAWLYGVLRHWHDHRFEGLLCTYLEELGDGVPAQNHVVLYRKLLAEHGLSDMPDIHDDRYLQGAVQLALGYAGDEYLPEVIGYNLGYEQLPLHLLISAYELSELDIDPYYFTLHVTIDNASTGHAHKAVQSLLQLMPMEADRESFWRRVTLGYRLNDLGQGSRAVIESFDLEREVLDMLERKRPFGQHMHSDYCKFEGKTVNQWLAEPGQLEGFLKAMQGKGWIRRHEDPQNSRFWTLIEGAGAAMFGVFSPYEKQLLHDWIAGDWLEERGRSGARRSLGAAQDTQAPPQDPDVQNLQQLLRGKAPDAQMQILLSWLSPRAHSHPAGLLATRRFIELKSALR				NA	NA	NA	NA	NA
D1-35_05268	1332			hypothetical protein	ATGATTTTCACAGTGTGGGTAGCGGTGCTCGGTGCCGTTTTGCTGACCCTGGCCCTGACGTCGTCCTACCTGCGCTGGATGCCGGTCACCACCTCGGCCGTGTGCCTGGTGCTGGGCGTCGCCATTGGCCCGGCGGGGCTGGGACTGCTGCGGCTGGGGGTCGACGATTCGTCAGGCTGGATGGAGCACCTGACCGAAGTCGCCGTGGTGTTCTCGCTGTTCGTCAGCGGCCTCAAGCTGCGCCTGCCACTGAAGAACCGCAGCTGGCGCGTGGCCTACGGGCTGGCCGGTCCGGTGATGATCCTGACCATCGCCGGCCTGTGCCTGACCTTGCACTACCTGTTTGGGCTCGGATGGGGCGTGTCCATGTTGATCGGCGCGATGCTCGCACCCACCGACCCGGTGCTGGCGGCACTGGTGCAGGTCAATGATGCCCGCGACGATGATCGCGTGCGATTCGGCTTGTCCGGGGAAGCCGGGCTGAACGACGGCACTGCATTTCCCTTTGTCATCCTTGGCTTGCTCATGCTGCAGGAAGACGGCAGCGGATTTCTCGGCGAGTGGGCCTTGCGCAACGTCTTGTGGGCCGTACCGGCGGGGCTGCTGATCGGCTACTGGCTGGGGCGTGGCATCGGCCGGCTGACCTTGTCGATGCGCATCAAGAACGCCGACAGTACCCTGTCGCCAAACGATTACCTGGCCCTGGCCCTGATCGCACTGGCCTACGTGGCGGCGGAGTCGGTGCAGGCTTATGGCTTTCTTTCGGTGTTCGCCGCCGGCCTGGGATTGCGTCAGGCGGAAGTCGAGTCCACCGATGAAAACGCGCCGCCGGCCGAGCATCTGGTGCAACCGCTGGTGGGCCATGAAGCGGTAGAACCGGAGCAGGCCGTGCACGGCGACACCCAGGCCCTGGACGACGGCCAGGTGGCGGCCGGGGTGATGATGAGCGACATGCTGGCGTTCGGCAGCCTGGTGGAGCGCTCCATGGAAGTGTTCCTGGTCACACTGCTCGGCGTGGTCCTTGCCCATCACTGGGATTGGCGGGCCCTGGCCATCGGTGCCTTGCTGTTCGCGGTGATCCGCCCGTTGAGCGTGCTGGCGATGCCTTGGGGGAGATTGCTGGATGGGCCGCAACGGTTATTGATCGGCTGGTTCGGCATACGCGGCATCGGCAGCCTGTTTTACCTGTTCTACGCCTTGAACCATCACCTGCAACCCGAAGTGGCGCAGCTGTGCATCGACCTCACGCTGTCGGTGGTGGCGCTGAGCATCCTGGTGCACGGCGTAAGCACCCAACCCGCACTGGCGTGGTATGAGCGCCGAAAAAAGTGA	MIFTVWVAVLGAVLLTLALTSSYLRWMPVTTSAVCLVLGVAIGPAGLGLLRLGVDDSSGWMEHLTEVAVVFSLFVSGLKLRLPLKNRSWRVAYGLAGPVMILTIAGLCLTLHYLFGLGWGVSMLIGAMLAPTDPVLAALVQVNDARDDDRVRFGLSGEAGLNDGTAFPFVILGLLMLQEDGSGFLGEWALRNVLWAVPAGLLIGYWLGRGIGRLTLSMRIKNADSTLSPNDYLALALIALAYVAAESVQAYGFLSVFAAGLGLRQAEVESTDENAPPAEHLVQPLVGHEAVEPEQAVHGDTQALDDGQVAAGVMMSDMLAFGSLVERSMEVFLVTLLGVVLAHHWDWRALAIGALLFAVIRPLSVLAMPWGRLLDGPQRLLIGWFGIRGIGSLFYLFYALNHHLQPEVAQLCIDLTLSVVALSILVHGVSTQPALAWYERRKK	PGPT0013856_405	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013856-NHA1_like|SOD2_like-K24160	NA	NA
D1-35_05269	537			hypothetical protein	ATGCCCAGAATCCTGACTTACCCTACGCCCGAAGAAGATCTGACCGAGCACAATGCCAAGCTGTTTGGCTCACCCAAGGAGCGGCTGGATTTCTATCGGCGGGAAATCCAGTACGAAACCAGTATTCTCGCCAATCGAACCGACGCGTATCTGGCCGCACAGTCTTTCCTGGTGATTGCCTTCGCGTCGTGCATGGCCAACCTGAATCCGGAGTGGGGCAAGCTCTTCACGCTGATCGTGCCGCCATTTCTGGCGCTGCTCGGTTTCCTGAGTTCGCTCAACGCCTGGCCGGGGATTCGGGCTGCCTACGAGATCATCGACCATTGGCATTTCAAACAAAGCGAACTGCTGCGCAGTGAACCGTTGATGGGCCTGGCCTACGATGATTCGCCGCTGTTCAGCGAGCGCGAGTCGACCCACAAGGGCTATCGCAAGTCGCTGCTGTTTTCGGTGCGCACGCCGTGGATCTTCGCGGCGTTCTGGGTGTTGCTGGGGGTGTATTCGGTGTTCATCCAAGTGACCGACCCGGGTGGCTGA	MPRILTYPTPEEDLTEHNAKLFGSPKERLDFYRREIQYETSILANRTDAYLAAQSFLVIAFASCMANLNPEWGKLFTLIVPPFLALLGFLSSLNAWPGIRAAYEIIDHWHFKQSELLRSEPLMGLAYDDSPLFSERESTHKGYRKSLLFSVRTPWIFAAFWVLLGVYSVFIQVTDPGG				NA	NA	NA	NA	NA
D1-35_05272	1530	davD_2	COG1012	Glutarate-semialdehyde dehydrogenase	ATGATTTCCCTGACGGCAGCCCATGAGGCGCCTTTCTACAACTCTAATTCGCTCCGCGTGCGCGCGGTGCTGTTAAGGAAAGCCGACATGCAGCTTAAAGACACCCAGTTGTTCCGCCAGCAAGCCTTTATCGATGGCGCTTGGGTCGATGCGGACAATGGTCAGACGATCAAGGTCACCAACCCGGCGACGGGCGAAGTATTGGGCACAGTGCCGAAGATGGGCGCTGCCGAAACCCGTCGCGCTATCGAAGCCGCCGACAAGGCGCTGCCGGCCTGGCGTGCGTTGACCGCCAAGGAACGCGCCAACAAGCTGCGTCGCTGGTATGAACTGCTGATCGAAAACCAGGACGACCTTGGTCGCCTGATGACCCTGGAGCAGGGCAAGCCGCTGGCCGAAGCCAAGGGCGAGATCGTCTATGCCGCCTCCTTTATCGAATGGTTCGCCGAAGAAGCCAAGCGCATCTATGGTGATGTGATTCCCGGCCACCAGCCGGACAAGCGCCTGATCGTGATCAAGCAGCCGATTGGCGTGACCGCCGCCATCACGCCGTGGAACTTCCCGGCCGCGATGATCACCCGCAAGGCCGGCCCGGCCCTGGCCGCCGGTTGCACCATGGTCATCAAGCCGGCTTCGCAGACGCCGTTCTCGGCCCTGGCCCTGGTAGAGCTGGCGCACCGTGCCGGCATCCCGCAAGGCGTGTTGAGCGTGGTCACCGGCAGTGCCGGCGACATCGGTGGCGAGCTGACCAGCAACCCGATCGTGCGCAAGCTGTCCTTCACCGGTTCGACCGAGATCGGTCGCCAGTTGATGGCCGAATGCGCCAAGGACATCAAGAAGGTTTCCCTGGAACTGGGCGGCAACGCGCCCTTCATCGTGTTCGACGACGCGGACCTGGATAAGGCCGTCGAAGGGGCGATCATTTCCAAATACCGCAACAACGGCCAGACCTGCGTCTGCGCCAACCGCCTTTACGTCCAGGATTCGGTATACGACGCCTTCGCCGAGAAACTCAAGGCAGCGGTGGCCAAGCTCAAGATCGGCAACGGTCTGGAAGACGGCATCACTACCGGTCCGTTGATCGACGAAAAAGCGGTTGCCAAGGTACAGGAACATATCGCCGATGCGGTCAGCAAAGGCGCAACCGTGCTGTCGGGCGGCAAGCCGATGGAAGGCAATTTCTTCGAGCCGACCATCCTGACCAACGTGCCGAAGAATGCCGCCGTGGCGAAGGAAGAGACCTTCGGCCCATTGGCGCCGCTGTTCCGCTTCAAAGACGAAGCCGAAGTGATCGCGATGTCCAACGACACCGAGTTCGGCCTGGCTTCGTACTTTTATGCCCGCGACCTGGGCCGTGTGTTCCGTGTGGCCGAAGCCCTGGAATACGGCATGGTCGGCGTCAACACCGGTTTGATCTCCAACGAAGTCGCGCCGTTCGGCGGCATCAAGGCTTCGGGCCTGGGCCGTGAGGGCTCCAAGTACGGCATCGAGGACTACCTGGAAATCAAATACCTCTGCCTGGGTATCTGA	MISLTAAHEAPFYNSNSLRVRAVLLRKADMQLKDTQLFRQQAFIDGAWVDADNGQTIKVTNPATGEVLGTVPKMGAAETRRAIEAADKALPAWRALTAKERANKLRRWYELLIENQDDLGRLMTLEQGKPLAEAKGEIVYAASFIEWFAEEAKRIYGDVIPGHQPDKRLIVIKQPIGVTAAITPWNFPAAMITRKAGPALAAGCTMVIKPASQTPFSALALVELAHRAGIPQGVLSVVTGSAGDIGGELTSNPIVRKLSFTGSTEIGRQLMAECAKDIKKVSLELGGNAPFIVFDDADLDKAVEGAIISKYRNNGQTCVCANRLYVQDSVYDAFAEKLKAAVAKLKIGNGLEDGITTGPLIDEKAVAKVQEHIADAVSKGATVLSGGKPMEGNFFEPTILTNVPKNAAVAKEETFGPLAPLFRFKDEAEVIAMSNDTEFGLASYFYARDLGRVFRVAEALEYGMVGVNTGLISNEVAPFGGIKASGLGREGSKYGIEDYLEIKYLCLGI	PGPT0001580_4259	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
D1-35_05274	1278	davT_2	COG0160	5-aminovalerate aminotransferase DavT	ATGAGCAAGACCAACGCAGACCTGATGGCCCGCCGTACCGCCGCTGTTCCCCGCGGTGTCGGCCAGATTCACCCGATCTTTGCCGAATCGGCGAAGAACGCCACGGTTACCGACGTTGAAGGTCGTGAATTCATCGACTTCGCCGGTGGTATCGCCGTACTGAACACCGGCCACGTGCACCCGAAGATCATCGCCGCCGTCACCGAACAGCTGAACAAGCTGACCCACACTTGCTTCCAGGTCCTGGCCTACGAGCCGTACGTGGAGCTGTGCGAAAAAATCAACGCCAAGGTCCCGGGTGATTTCGCCAAGAAAACCCTGCTGGTGACCACCGGTTCCGAAGCGGTGGAAAACGCCGTGAAGATCGCCCGCGCCGCCACCGGCCGTGCCGGTGTGATCGCCTTCACCGGCGCTTACCACGGTCGTACCATGATGACCCTGGGCCTGACCGGTAAGGTCGTGCCTTACTCGGCCGGCATGGGCCTGATGCCTGGCGGCATTTTCCGCGCGCTGTACCCGAACGAGCTGCATGGCGTGAGCGTCGACGACTCCATCGCCAGCATCGAACGCATCTTCAAGAACGACGCCGAGCCACGCGACATCGCCGCCATCATCATCGAGCCGGTCCAGGGTGAGGGTGGCTTCTATGTGGCGCCGAAAGCCTTCATGCAGCGCCTGCGCGCCCTGTGCGACCAGCACGGCATCCTGCTGATTGCCGACGAAGTGCAGACCGGCGCCGGTCGTACCGGTACGTTCTTCGCCATGGAGCAGATGGGCGTCGCCGCCGACCTGACCACCTTTGCCAAATCCATTGCTGGCGGTTTCCCGCTGGCCGGTGTGTGCGGCAAGGCCGAATACATGGATGCGATCGCGCCGGGCGGCCTCGGCGGCACCTACGCCGGCAGCCCGATTGCCTGCGCCGCTGCGCTGGCGGTGATGGACGTGTTCGAAGAAGAACACCTGCTGGATCGCTGCAAGGCCGTGGGCGAGCGCCTGGTGACTGGCCTCAAGGCTATCCAGAAGAAGTACCCGGTCATTGGTGAAGTCCGTGCCCTGGGCGCCATGATCGCCGTGGAGCTGTTCGAAGATGGCGACACCCACAAGCCGAACGCTGCCGCCGTTGCGCAAGTGGTGGCCAAGGCGCGTGACAAGGGCTTGATCCTGCTGTCCTGCGGGACCTATGGCAACGTCCTGCGCGTGCTGGTGCCGCTGACTTCGCCGGATGAGCAACTGGACAAAGGCCTGGCAATCATCGAAGAGTGTTTCTCCGAGCTTTGA	MSKTNADLMARRTAAVPRGVGQIHPIFAESAKNATVTDVEGREFIDFAGGIAVLNTGHVHPKIIAAVTEQLNKLTHTCFQVLAYEPYVELCEKINAKVPGDFAKKTLLVTTGSEAVENAVKIARAATGRAGVIAFTGAYHGRTMMTLGLTGKVVPYSAGMGLMPGGIFRALYPNELHGVSVDDSIASIERIFKNDAEPRDIAAIIIEPVQGEGGFYVAPKAFMQRLRALCDQHGILLIADEVQTGAGRTGTFFAMEQMGVAADLTTFAKSIAGGFPLAGVCGKAEYMDAIAPGGLGGTYAGSPIACAAALAVMDVFEEEHLLDRCKAVGERLVTGLKAIQKKYPVIGEVRALGAMIAVELFEDGDTHKPNAAAVAQVVAKARDKGLILLSCGTYGNVLRVLVPLTSPDEQLDKGLAIIEECFSEL	PGPT0007655_65	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007655-davT|gabT-K14268	NA	NA
D1-35_05275	1215	rssB_3		Regulator of RpoS	ATGACTGCTGTGGATTTACCCGCTGTACCGCGTGTGTTGATCGCCGAGGCCGATCCGGCGTCCAGGGAGCTGCTTGAACAAGTGCTGTCCGGAGTGCGTTGCGATGCGCGGATAGACACTTGTGGCGAGGGACGCCAGGCCTTGGAGCTCCTGGCGCATAGTTCTTACGACATGGTGATCGCCGATTGGGAACTGCCGGGTGTCGACGGCCTGAGCATCTTGCGCAGCTTGCGCCAACACCATCGCACGCCCGTGTTGCCGTTCATCCTGGTGAGCCGGCGCAACGACAGCGCCAGCGTGCGCGAGGTCTTGCCCCTGGCGCCGACGGCCTATCTGACCAAGCCCTTGAACCGGGAAAACCTGACCCAGCGTCTGCAAGGGTTACTTCTCCATAGCGAAGACACATCCAACGCCGCGCCAATTCCAGGACCGGGCCTTACATTGGCAACGTTCCTGGAGCGTCGACGAGACATGGCCGAAGGCGCGCCGTTGATGACCGATGTGCAGGTCGCGATCAAACGCAGCCTCAATCCTGGTGGACTGGATCTGAAACTGCTGGAAGAAGAGCTCCGTACTGACCCGCAGATCACCGCCGTGCTGATTGCCGCAGCCAACAGCGCCGCGCAACATCAAGGCGGCGGTCCGGTGCAGACCGTGGCCCAGGCGCTGCATCAGCTAGGCACCGGGCAAAGCATGAACCTGATCCTGGGCTTGACGCTCAAGCGCTGTGCCCGGTTGAACGTGCCTTGGCTGGCGGACTATGCCGAACGTTATTGGGAGTTGTCGTTGCACACCGCCGAGTACGCCCGGACGATGGCGCGCATGCTTGATCTGGAGCAGGAGCGCTGTTATTGCGCCGGCCTGTTGCATCGCTTGGGCGACCTGGCACTGCTGCGCTGCATGGAAGAGTGGAAGCAGGCCGGCGGCGAGCTGGACGAGCCGGAGGAAATCGGCGATTCGCTCGAACAGTTCGGCGCCGGTTTTGGCTCGGCGCTGCGTACCCGCTGGCGCTTGCCGCTGGAGCTGCGCGAATTGATCGCGGCGGTCTACGGTCTCGGTGGCGGGGTTTATTCCCGCGAGGCGCTGGTGATGAACATGGCGGCGCAGATGGCGCATTTACCCGCGCACGAAGGGCTTGAAGAACTGGCCCGGGGACGCACGGCGCGCTTGCTGAAGATCGGGCTGCCAGAGTTGATGCGGTTGCGCCGCCAGTAA	MTAVDLPAVPRVLIAEADPASRELLEQVLSGVRCDARIDTCGEGRQALELLAHSSYDMVIADWELPGVDGLSILRSLRQHHRTPVLPFILVSRRNDSASVREVLPLAPTAYLTKPLNRENLTQRLQGLLLHSEDTSNAAPIPGPGLTLATFLERRRDMAEGAPLMTDVQVAIKRSLNPGGLDLKLLEEELRTDPQITAVLIAAANSAAQHQGGGPVQTVAQALHQLGTGQSMNLILGLTLKRCARLNVPWLADYAERYWELSLHTAEYARTMARMLDLEQERCYCAGLLHRLGDLALLRCMEEWKQAGGELDEPEEIGDSLEQFGAGFGSALRTRWRLPLELRELIAAVYGLGGGVYSREALVMNMAAQMAHLPAHEGLEELARGRTARLLKIGLPELMRLRRQ				NA	NA	NA	NA	NA
D1-35_05276	990			hypothetical protein	ATGGTCGACAAGAACCTACAGGATTCATCCCAGCCACATTGGCCAGAAGCGGCCCAGACACTCATGGCGCTGATGCACGCCCAAGGGGAAGTGGCGCGTCTGAGCGAGCGGGAGCAGTTGTTCAGTTCGCTGCTGGTCAGCGTCAACGCGGTGCTGTGGGCATTCAATTGGGAAACCCGGCAAGTGCTGTATGTCAGCCCCGCCTACGAGCGGATTTTCGGCCGCCCGGCCGGCCTCGTGCTTGCTGACTACAACGAATGGCGTGACGCAATCTATCCGGACGATCTGGATTACGCCGAGCGCAGCCTCGCCGAAGTGTTGGTCAAAGGTGCCGTCGAGGATCGGGAATACCGCATCATCGCCGCCGACGGCCAGATCCGCTGGCTCAGCGACAAATGCTTCATCAACCGTCAGGCCGATCCGGGCCAACCGGTGATTGTGGTCGGCATCGCCGAAGACATCACCGAGAAGAAGCTGCTCGAAAGCGAACTGCAGCGACTGGCGACCACCGACGTGCTAACCCAGAGCAGCAACCGCCGTCATTTCTTCGAGTGCGCCCATCGGGAATTCGAGCAGGCAAGGCTGCAAGGCACGCCGATGGCATTCCTGTTGCTGGACATCGATGACTTCAAACTGATCAACGACACTTACGGCCACCAGGAAGGCGATACGGTATTGCAAAAGATCGCCGAGAGCGGGCGGAGCGTGCTCAGGCGCGGTGACCTCTTCGGTCGGATCGGTGGTGAAGAGTTTGCCGCTGTTTTCCCCGGCTGTGCCCCGGACATGGCATTGCAGGTCGCCGAGCGCTTGCAGCGGGAAATCCAGCGCCTGGCGTTTCGCTGCGGGGAGCATGACTTCGGCATCACCGTCAGTCAGGGCCTGACCGGGATCAGCGCCGAAGACCAGACCCTCGACAACCTGTTCGCCCGTGCTGACGCGGCGATGTACGAGGCCAAGCGCCAGGGCAAGAACCGCATCATCGCGGCTTGA	MVDKNLQDSSQPHWPEAAQTLMALMHAQGEVARLSEREQLFSSLLVSVNAVLWAFNWETRQVLYVSPAYERIFGRPAGLVLADYNEWRDAIYPDDLDYAERSLAEVLVKGAVEDREYRIIAADGQIRWLSDKCFINRQADPGQPVIVVGIAEDITEKKLLESELQRLATTDVLTQSSNRRHFFECAHREFEQARLQGTPMAFLLLDIDDFKLINDTYGHQEGDTVLQKIAESGRSVLRRGDLFGRIGGEEFAAVFPGCAPDMALQVAERLQREIQRLAFRCGEHDFGITVSQGLTGISAEDQTLDNLFARADAAMYEAKRQGKNRIIAA				NA	NA	NA	NA	NA
D1-35_05277	1185			hypothetical protein	ATGTGGTACGAAGGTTTTCTTGGCTTGTCGGCCTGGTCGCTGGTGGCAGTCACCCTGCTGATGACTCACGTGACGATCATCAGCGTCACGGTCTACCTGCACCGGTATTCGGCTCACCGTTCCCTGGAACTCAACGCCGGTCTCAAACATTTCTTCCGCTTCTGGCTGTGGCTGACCACGGCGCAGAATACCCGCGAGTGGACCGCCATCCACCGCAAGCACCACGCCAAATGCGAAACCGAGGACGATCCCCACAGCCCGGTGATCAAAGGCCTGTCTACGGTGCTGCGCAAGGGCGCCGAGCTGTACCGCGCCGAAGCGGAAAATCCGGAAACCTTGCGCATCTATGGCAAGAACTGCCCCGAGGACTGGATCGAACGCAACCTGTACAGCCGCTTCCCCCTACTGGGCGTGGCGATTATGGGCGTCATCGACCTGCTGCTGTTCGGCACAATAGGCATCACTATCTGGGCCATCCAGATGATGTGGATCCCGGTCTGGGCCGCTGGCGTCGTCAATGGCCTGGGGCATGCCGTGGGCTACCGCAATTTCGAATGCCGTGACGCGGCCACCAATCTGGTGCCCTGGGGCATCCTCATTGGTGGCGAAGAACTGCACAACAACCACCACACCTATCCCAATTCGGCCAAGCTGTCGGTGCGCAAATGGGAATTCGACCTGGGCTGGGCCTGGATCAAGGTCTTCAGTTTCCTGCGCCTGGCCAAGGTCCAGCGGGTCGCGCCGATCGCCCACCGGGTCGAAGGCAAGGGCCACCTGGACATGGACACCGCCATGGCGATCCTCAACAACCGTTTCCAGATCATGGCCCAGTATCGCAGGCTGGTCATCGCGCCCCTGGTCAAGCAGGAGCTGGAAAAAGTCGATCACTCGGTCCGCCATCAGTTTCATCGGGCCAAACGCCTTTTGTCGCGTGAAACCAGCCTGCTGGACGAGCGCCATCATGTGCGCATCCAGAACATGCTGGAACACAGCCAGGCGCTGAAGGTGATCTACGAGAAGCGCCTGGCCTTGCAGCAGATCTGGGTCAAGACCAGCAGCAACGGCCACGACATGCTCGCGGCCATCAAGGAATGGGTCCACGAAGCCGAGGCCAGCGGCATCCAGTCACTGCGCGATTTTGCCGACCAGCTCAAGACTTATTCCTTGCGGCCGGCCACCGCCTGA	MWYEGFLGLSAWSLVAVTLLMTHVTIISVTVYLHRYSAHRSLELNAGLKHFFRFWLWLTTAQNTREWTAIHRKHHAKCETEDDPHSPVIKGLSTVLRKGAELYRAEAENPETLRIYGKNCPEDWIERNLYSRFPLLGVAIMGVIDLLLFGTIGITIWAIQMMWIPVWAAGVVNGLGHAVGYRNFECRDAATNLVPWGILIGGEELHNNHHTYPNSAKLSVRKWEFDLGWAWIKVFSFLRLAKVQRVAPIAHRVEGKGHLDMDTAMAILNNRFQIMAQYRRLVIAPLVKQELEKVDHSVRHQFHRAKRLLSRETSLLDERHHVRIQNMLEHSQALKVIYEKRLALQQIWVKTSSNGHDMLAAIKEWVHEAEASGIQSLRDFADQLKTYSLRPATA	PGPT0012215_801	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012215-desC-K00507	NA	NA
D1-35_05278	1908			hypothetical protein	ATGACCGTCTATCACCGCGCTGCCATGCGTGGGGCACTGCTTTATCTGGTGCTGTCAGTCGCCTGGCTGCAGCTGGTTGGTTATTTATTGAGCAGTTTCTTCGATCATTCGGCCGATCGGCTGCGTTGGCAACTGATCAACGGTTATGCCTGGGTACTCGTCAGTGCCGGATTGATTTTCATTGCACGGATGCGGATAGCACGCTTTTTCGAGAAAGCCGAAGGTAATGTCGACCGTGAACGGTTACGCCAGGCCGCCGCGGTGTTCGACTGCACCCGCGAAGGCGTCCTGGTCACGGACCGCCATGGTTTGATCGTGCATGTGAACCGGGCATTCATGGCAATCACCGGCTATGCCCGCGACGAAGTGTTGGGCCGGCAACCGAATCTGTTCAAGTCCGGCCGGCATGGCCCGACTTTTTATCGAGAGATGTTTGCGGCGCTGTCCAGCCGCGGCGAATGGAGTGGCGAAATCTGGAACCGCCGCAAGAGCGGTGAAATCTACCCGCAATGGCAGACTATCCGGGCCGTCGTCGATGACTCCGGCGAAGTCAGCCAATACGTCGCGGTGTTTTCCGACATCAGTGCGATCAAGGACTCGGAGCATGAGCTGGCGCATCTGGCCCATCATGATCCGCTGACTGGCCTGCCCAATCGCCTGCTGTTTTCCGATCGCGCCGAGCAGGCGGTGGCTTCGGCGCAACTGCACAAGCGTGGGTGCGCGTTGCTGCTGCTGGACCTGGATCATTTCAAGAACATCAACGACAGCCTCGGGCACAACGTCGGTGACGAGCTGCTCAAAGGCGTTGCCGAACGCTTCCTCGGGCTGTTTGCGCCCGGTATCACTCTGGCGCGGCTAGGCGGTGACGAATTCGCGGTGCTGGTGGAAAACTGCTCGCAGCCGGGTCAGGCCGCCGCTTTGGCCCGGCGTATCCTCGATGCCTTGAAAGCACCGTTGCAGCTCGGCGAGCAATCGCTGTTTATCAACGCCAGCATCGGCATCAGCCTGTTTCCCGGTGACGCCCTCAGCGCCGGGCAACTGCTGCGCAACGCCGACTCGGCACTGTTCAAGGCCAAGAACAGCGGACGTGACGGCTACGCGTTATATACCGAGGAACTCACTGCTCATGCCCAGCAAAGGGTCGAGATCGCCTTCGAACTGCGTCGCGCGCTCCAGCAGCAGGAGCTACGCGTGCATTACCAACCGGTGCACGACCTGGCCACCAGCCGGTTGATCGGCGTCGAGGCGCTGGTGCGCTGGGAACATCCCGTGCGTGGTCTGGTTTCGCCGGCGGAGTTCATTCCCATCGCCGAGCGCACGGGGTTGATCGCTCAGATCGATGCCTGGGTCATGGACCAGGCTTGTCGGCAAATGTGTCTTTGGCAGCAGGCCGGTGTGGTTTTGTCATTCGTTGCGGTCAACGTCTCCAGCCGTTTGTTTGCTCGCCGCGAATTGTACGAGCAGGTCGCCCGCGTACTTCACGACACGGGCCTCGATCCGGCCTTCCTGGAGCTGGAGGTGACCGAAAGTGCGGTCATGGATGATCCGGAGGTGGCGCTGGAACAAATGCACCGTCTGCGGGAGTTGGGCGTGCGGTTGGCCATTGATGATTTCGGCACAGGTTATTCGTCGCTGCTGCGGCTCAAGCGTCTACCGGTGCAGAAACTCAAGATCGACCAGGGTTTTGTCGCCGGGCTGCCCTGGGATGAAGACGACGCGGCGATCGTCCGGGTAATCATCGCCCTGGCCCGCAGCATGGGCATGCAGGTGCACGCAGAAGGTATCGAGCAGCGAGAGCAAGCGGCATTTCTGCTTGAACAGGCGTGTGAGCTAGGGCAGGGCTACTGGTTTGGTCGACCGGTTGTGGCGCAACAGTTGGATTGGAATCGTGCACCGGTGATTGGCTGA	MTVYHRAAMRGALLYLVLSVAWLQLVGYLLSSFFDHSADRLRWQLINGYAWVLVSAGLIFIARMRIARFFEKAEGNVDRERLRQAAAVFDCTREGVLVTDRHGLIVHVNRAFMAITGYARDEVLGRQPNLFKSGRHGPTFYREMFAALSSRGEWSGEIWNRRKSGEIYPQWQTIRAVVDDSGEVSQYVAVFSDISAIKDSEHELAHLAHHDPLTGLPNRLLFSDRAEQAVASAQLHKRGCALLLLDLDHFKNINDSLGHNVGDELLKGVAERFLGLFAPGITLARLGGDEFAVLVENCSQPGQAAALARRILDALKAPLQLGEQSLFINASIGISLFPGDALSAGQLLRNADSALFKAKNSGRDGYALYTEELTAHAQQRVEIAFELRRALQQQELRVHYQPVHDLATSRLIGVEALVRWEHPVRGLVSPAEFIPIAERTGLIAQIDAWVMDQACRQMCLWQQAGVVLSFVAVNVSSRLFARRELYEQVARVLHDTGLDPAFLELEVTESAVMDDPEVALEQMHRLRELGVRLAIDDFGTGYSSLLRLKRLPVQKLKIDQGFVAGLPWDEDDAAIVRVIIALARSMGMQVHAEGIEQREQAAFLLEQACELGQGYWFGRPVVAQQLDWNRAPVIG	PGPT0023624_538	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
D1-35_05279	183			hypothetical protein	ATGAGCGCATCCCTACGTAGCGTTGACGGCCAGGACGAAGCAACCATCTTGCGCGAGATCCAGAGTGCATTGCGTGACCTGCGCTTTGGCGCGGTGGAGATTACCGTGCACAACGCCCAGGTGGTCCAGATCGAGCGCAAGGAAAAATTCCGCTTGCAGCAACCGAGTCATAAACCGAGCTGA	MSASLRSVDGQDEATILREIQSALRDLRFGAVEITVHNAQVVQIERKEKFRLQQPSHKPS				NA	NA	NA	NA	NA
D1-35_05280	1014	sbp_2	COG1613	Sulfate-binding protein	ATGTCGTCGATTCGCCGTTATGCCTTGGCCGCCCTGGCCAGTGCTGTTTTTGCAGGTTCCGCGGTTGCCAAGGACTACGAGTTGCTCAACGTGTCCTACGACCCGACCCGCGAGCTGTATCAGGATTACAACGCCGAATTCGCCAGCTTCTGGAAAAAAGCCCATCCGGACGACACCGTGAAAATCCAGCAGTCCCATGGTGGTTCGGGCAAGCAAGGCCGAGCAGTAATTGACGGCCTGCGTGCCGACGTCGTGACCCTGGCCCTGGCCGGCGACATCGACGAAATCGCCAAATTGGGCAAGTCACTGCCGGCGGACTGGCAAAAACGCCTGCCGGATGCCAGCACGCCTTACACCTCGACCATTGTGTTCCTGGTGCGCAAGGGCAATCCGAAGGGCATCAAGGACTGGGGCGACCTGATCAAGGATGACGTCTCGGTCATCACGCCAAACCCGAAGACCTCCGGCGGTGCCCGCTGGAATTTCCTCGCCGCCTGGGCCTACGGCCTGAAAGCCAACGGTGGCGACGAAGCCAAGGCCAAGGAATACGTGCAGGCGCTGTTCAAGCACGTGCCGATCCTCGACACCGGTGCCCGTGGCTCGACCATCACGTTCGTCAACAACGGTCAGGGAGACGTGTTGCTGGCCTGGGAAAACGAAGCGTTCCTGGCGCTGAAAGAGGACGGTGGCGCGGACAAGTTCGACATCGTTGTGCCGTCGCTGTCGATCCTCGCCGAACCGCCGGTTGCGGTGGTGGACAAGAACGCCGAGAAAAAGGGTAATGCCGAGATCGCCGAAGCGTACCTCAAGCACCTGTACAGCCCGGCCGGCCAGGAAATTGCGGCGAAAAACTTCTATCGTCCGCGTGACAAGGACGTGGCCGCCAAATACGCCCGGCAGTTCCCGAAACTTGAGCTGGTGACTATCGACAAGGACTTCGGCGGCTGGAAAACGGCACAGCCTAAATTCTTCAATGATGGCGGTGTGTTCGACCAGATCTATCAGGCGCAGTAA	MSSIRRYALAALASAVFAGSAVAKDYELLNVSYDPTRELYQDYNAEFASFWKKAHPDDTVKIQQSHGGSGKQGRAVIDGLRADVVTLALAGDIDEIAKLGKSLPADWQKRLPDASTPYTSTIVFLVRKGNPKGIKDWGDLIKDDVSVITPNPKTSGGARWNFLAAWAYGLKANGGDEAKAKEYVQALFKHVPILDTGARGSTITFVNNGQGDVLLAWENEAFLALKEDGGADKFDIVVPSLSILAEPPVAVVDKNAEKKGNAEIAEAYLKHLYSPAGQEIAAKNFYRPRDKDVAAKYARQFPKLELVTIDKDFGGWKTAQPKFFNDGGVFDQIYQAQ	PGPT0003015_1111	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003015-sbp-K23163	NA	NA
D1-35_05281	819	cysT	COG0555	Sulfate transport system permease protein CysT	ATGTCGCGTCGCATATCCCCCGTCATACCCGGCTTCGGGCTGACGCTGGGCTACACCCTGGTGTACCTCAGTCTGATTGTGCTCATACCCCTGGCGGCGATGTTCGTACATGCCGCCCAACTCACCTGGGAACAGTTCTGGGCGATCATTTCGGCGCCGCGGGTGCTGGCAGCCTTGAAGCTCAGTTTCGGCACCGCGCTGTACGCTGCGATCATCAATGGCGTGATTGGCACGCTGCTGGCCTGGGTGCTGGTGCGCTACACCTTCCCGGGGCGCAAGATCATCGACGCGATGATCGATTTGCCGTTCGCCTTGCCCACCGCCGTGGCCGGTATCGCCCTGACCGCGTTGTACGCGCCGACCGGCCTGGTCGGCCAGTTCGCCACCGACCTGGGTTTCAAGATTGCCTACACCCCGCTGGGCATCACCCTCGCGCTGACCTTCGTGACGCTGCCGTTCGTGGTGCGCACGGTGCAGCCGGTGCTCGCCGACATTCCCCGTGAAGTCGAAGAAGCCGCCGCGTGCCTCGGTGCCAAGCCATGGCAGGTGTTCCGCCACATCCTCGTGCCGGCGTTGTTGCCGGCCTGGTTGACCGGCTTCGCACTGGCGTTTGCCCGGGGCGTGGGCGAGTACGGTTCGGTGATTTTCATCGCCGGCAACATGCCGATGAAAACCGAGATCCTGCCGCTGCTGATCATGGTCAAGCTCGACCAATACGACTACACCGGCGCCACCTCCATCGGCGTGCTGATGCTGGTGGTTTCCTTCGTCCTGCTGCTGCTGATCAACTTGTTGCAGCGGCGCATCGAAACCCCATAA	MSRRISPVIPGFGLTLGYTLVYLSLIVLIPLAAMFVHAAQLTWEQFWAIISAPRVLAALKLSFGTALYAAIINGVIGTLLAWVLVRYTFPGRKIIDAMIDLPFALPTAVAGIALTALYAPTGLVGQFATDLGFKIAYTPLGITLALTFVTLPFVVRTVQPVLADIPREVEEAAACLGAKPWQVFRHILVPALLPAWLTGFALAFARGVGEYGSVIFIAGNMPMKTEILPLLIMVKLDQYDYTGATSIGVLMLVVSFVLLLLINLLQRRIETP	PGPT0003000_1626	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003000-cysT|cysU-K02046	NA	NA
D1-35_05282	870	cysW_2	COG4208	Sulfate transport system permease protein CysW	ATGTCCCAATCGTCTATTTCCGCCGCCTCCACCAACGCTGCCCGCCGCGGCAGCGCGGTTTCGCGGCGCATCCTGATCGGCCTCGGCTGGCTGGTTTTTGCACTGTTTCTGCTGTTGCCGCTGTTCATCGTGGTGTCCCAGGGCCTGAAGTCGGGCCTGGGTACTTTCTTCGCGGCGATCTTCGAGCCCGATGCGTTGTCGGCGCTCAAGCTCACGGTGATTGCGGTACTGATTTCGGTACCGTTGAACCTGGTGTTCGGCGTCAGCGCCGCATGGTGCGTGAGCAAGTATTCGTTCCGTGGCAAAAGCATGCTGGTGACGCTGATCGACCTGCCGTTCTCGGTGTCGCCGGTAATCGCTGGCCTGGTCTACGTGTTGATGTTTGGTGCCCAGGGCCTGTTCGGGCCATGGCTGTCGGATCACGACATCCAGATCGTGTTCGCGCTGCCGGGCATCGTCCTGGCGACGATCTTCGTCACCGTGCCGTTCGTGGCCCGTGAACTGATCCCGCTGATGCAGGAGCAGGGCACCCAGGAAGAAGAAGCCGCGCGCCTGCTGGGCGCCAACGGCTGGCAGATGTTCTGGCATGTGACTGTGCCGAACATCAAGTGGGGTCTGATCTATGGCGTGGTGCTGTGTACCGCCCGGGCCATGGGCGAGTTCGGCGCGGTGTCGGTGGTTTCCGGGCACATTCGCGGGGTGACCAACACCCTGCCGCTGCACGTCGAGATCCTCTACAACGAATACAACCATGTGGCCGCGTTCGCCGTGGCGAGCCTGTTGCTGATCCTGGCGCTCTTCATCCTGCTGCTCAAGCAGTGGAGCGAAAACCGAATCAACCGCCTGCGCGCCAGCGCCGCGGAGGAATAA	MSQSSISAASTNAARRGSAVSRRILIGLGWLVFALFLLLPLFIVVSQGLKSGLGTFFAAIFEPDALSALKLTVIAVLISVPLNLVFGVSAAWCVSKYSFRGKSMLVTLIDLPFSVSPVIAGLVYVLMFGAQGLFGPWLSDHDIQIVFALPGIVLATIFVTVPFVARELIPLMQEQGTQEEEAARLLGANGWQMFWHVTVPNIKWGLIYGVVLCTARAMGEFGAVSVVSGHIRGVTNTLPLHVEILYNEYNHVAAFAVASLLLILALFILLLKQWSENRINRLRASAAEE	PGPT0003005_1055	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003005-cysW-K02047	NA	NA
D1-35_05283	990	cysA_3	COG1118	Sulfate/thiosulfate import ATP-binding protein CysA	ATGTCGATCGAAGTCCGTAACGTCAGCAAGAATTTCAACACCTTCAAGGCCCTCGACGATATCAGCCTGGACATCCAGAGCGGCGAGCTGGTGGCGCTGCTCGGCCCGTCGGGCTGTGGCAAGACGACCCTGCTGCGGATCATTGCCGGCCTCGAGACGCCGGACCAGGGCAACATCGTGTTCCATGGTGAAGACGTATCCGGCCACGACGTGCGTGATCGCAACGTCGGTTTTGTGTTCCAGCACTACGCCCTGTTCCGCCACATGACGGTGTTCGACAACGTCGCTTTCGGCTTGCGCATGAAGCCCAAGAACCAGCGCCCGAACGAAAGCCAGATCGCGACCAAGGTCCATGAGCTGCTGAACATGGTGCAGCTGGACTGGCTCGCCGACCGTTATCCGGAGCAGTTGTCCGGCGGCCAGCGCCAGCGTATCGCCCTGGCCCGCGCCTTGGCGGTAGAACCCAAGGTGTTGCTGCTGGACGAACCGTTCGGCGCCCTCGACGCCAAGGTCCGCAAGGAATTGCGCCGCTGGCTGGCGCGGCTGCACGAGGACATCAACCTGACCTCGGTATTCGTGACCCACGACCAGGAAGAGGCCATGGAAGTCGCCGACCGGATCGTGGTGATGAACAAGGGCGTTATCGAGCAGATCGGCTCACCGGGCGATGTGTACGAGAACCCGGCCAGCGATTTTGTCTATCACTTCCTGGGCGACTCGAACCGTCTGCATCTCGGGGAGGACCGGCATGTGCTGTTCCGTCCGCATGAAGTGTCGCTGTCGCGCTCGGAACTGGAGGACCACCACGCCGCTGAAGTGCGCGACATTCGTCCGCTCGGCGCGACCACGCGGGTGACGTTGAAGGTCGAGGGCCAAAGCGAACTGATCGAGGCCGAAGTAGTGAAGGACCACGATAGCCTGGTTGGGTTGGCGAAGGGCGAGACGCTGTTCTTCAAGCCGAAGGTCTGGCAGAAAGTTTCAAACCTTTAA	MSIEVRNVSKNFNTFKALDDISLDIQSGELVALLGPSGCGKTTLLRIIAGLETPDQGNIVFHGEDVSGHDVRDRNVGFVFQHYALFRHMTVFDNVAFGLRMKPKNQRPNESQIATKVHELLNMVQLDWLADRYPEQLSGGQRQRIALARALAVEPKVLLLDEPFGALDAKVRKELRRWLARLHEDINLTSVFVTHDQEEAMEVADRIVVMNKGVIEQIGSPGDVYENPASDFVYHFLGDSNRLHLGEDRHVLFRPHEVSLSRSELEDHHAAEVRDIRPLGATTRVTLKVEGQSELIEAEVVKDHDSLVGLAKGETLFFKPKVWQKVSNL	PGPT0002990_1616	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002990-cysA-K02045	NA	NA
D1-35_05284	525			hypothetical protein	ATGAAAAGCCTCGTCGATCATCTCAGTCAATACGCGACCTATCACCGCGACCCACGCAACATCGCCAGCCATTTTATCGGTATTCCGCTGATTTTCGTTGCCGTCGCCGTGCTCTTGTCACGGCCGGGATGGCCGGTTGGCGCGATTTTGATTTCGCCCGCGCTGCTGGTGGCAGTGGCCAGTGCCTGGTTCTACCTGCGCCTGGAATTGCGCCTGGGTGTGCTGATGACCGTGCTGCTGGGGCTTGCCGTCTGGCTGGGCCAGGTGCTCGCCACGCAAAGCACGGCGATATGGCTGGCCGGTGGCCTGGGCATGTTTGTGGTGGGCTGGGTGATCCAGTTCGTCGGCCACTATTACGAAGGGCGCAAACCGGCGTTCGTCGATGATCTGACCGGGTTGATTGTCGGGCCGTTGTTCGTCGTGGTCGAGGCGGGATTCCTGCTGGGCATGCGCGATGACCTCAAACAACAGATCGAGGCGCAGGCCGGGCCGGTAAAGGTCAATCAGAAGCGGGCCGCAGCCTGA	MKSLVDHLSQYATYHRDPRNIASHFIGIPLIFVAVAVLLSRPGWPVGAILISPALLVAVASAWFYLRLELRLGVLMTVLLGLAVWLGQVLATQSTAIWLAGGLGMFVVGWVIQFVGHYYEGRKPAFVDDLTGLIVGPLFVVVEAGFLLGMRDDLKQQIEAQAGPVKVNQKRAAA				NA	NA	NA	NA	NA
D1-35_05285	687	crp	COG0664	CRP-like cAMP-activated global transcriptional regulator	ATGAATACTCATCCCTGGCATGCGCACTTGATGACCGGCCACTGGTACAGCCATCTGCCCGCCGAGTTACAGAATAGTCTGCTGGAGATGTCGCGGCTGCGTCGCCTGTCGCCCGGTCAGCGGTTGTTCAAGCGCGGCGATCCGCCGTGTGGCGTGTACGCTGTGCTCGAAGGGGCGGTGCGGATCGGCGCCGTCAGTGAGCAGGGCAAGGAAGCGCTGTTGAGCGTCGTGGAGCCGCCCTATTGGTTCGGCGAAATCAGCCTGTTTGATGGCCAGCCACGTACCCATGACGCGCAGGGGGTCGGGCAATGCACGTTGTTGCATGTACCTCAGGCCGGGCTGTTGGCTTTTCTCGAAGAACAACCTGGTTATTGGCGGCAGCTGGCCTTGTTGATGAGCCACAAGTTGCGCCTGACCTTCGTCAACCTCGAACACCTGAGCCTGATGCCTGCTCCGGCCCGCGTGGTCCATCGCTTGCTGATGATTGCCGAAGGCTACGGTGAAATCGAACCGGCACGCCGGGTTTTGCAACTGCCCCAGGACCAGCTGGCGTTGATGCTTTCCCTGTCGCGCCAGACCACCAACCAGATTCTCAAGGATCTGCAGGGGCAGGGGATTCTTCAGCTTGGTTATGGCGAGATCGAAATCCTTGATATCGAGGGGCTGCGGCGCCTGGCTTCTACCTGA	MNTHPWHAHLMTGHWYSHLPAELQNSLLEMSRLRRLSPGQRLFKRGDPPCGVYAVLEGAVRIGAVSEQGKEALLSVVEPPYWFGEISLFDGQPRTHDAQGVGQCTLLHVPQAGLLAFLEEQPGYWRQLALLMSHKLRLTFVNLEHLSLMPAPARVVHRLLMIAEGYGEIEPARRVLQLPQDQLALMLSLSRQTTNQILKDLQGQGILQLGYGEIEILDIEGLRRLAST	PGPT0015075_2255	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
D1-35_05286	249			hypothetical protein	ATGGAAACCCTCGGTGCGTTGATCAGGCGATTGCGCAAGGAACACCGTCTTTCCCAGCAGGCATTGGCTGCGCAGTACGGCATGAGCCGCGCGACGATTTCCGGGATCGAAAACAATACTATTGCTGAAGTCGGCATTCGTAAGGTCGAAGCCATTCTCAACGGTTTTGGCTATGAGCTGACAGCGACCGCCCGTCCAGCGAAGCGCCCGACCCTCGACACGCTGAAAAAGGATTCTTTCCATGACTGA	METLGALIRRLRKEHRLSQQALAAQYGMSRATISGIENNTIAEVGIRKVEAILNGFGYELTATARPAKRPTLDTLKKDSFHD	PGPT0027485_739	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HipA-HipB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027485-REGULATION_hipB-K15773	NA	NA
D1-35_05287	1239			hypothetical protein	ATGACTGATGAGCAAGGTCTGGACAGATTGCAAGTCACCGTCAGCGAAGCGGCTATCGGCGTCCTTGGGCGAGGCCAACAGCGCAGCGATTCAGTGTTCACTTATGCACCTGACGCGGATGAGGAGCATTCGGTTTCGCTGACCATGCCAGCGCGTCTTGAAAGCTATAGCTGGGAGCCCGGCGTACCACCAATCTTTGAAATGAACCTGCCGGAAGGCGCCTTGCGTGACGAGCTGGTGCGCCGTTTCAGTAAAGCGGTGCGGGGCTTTGACGACTTTGCCATGCTTGCCATCGTGGGACCTCATCAGCTGGGCCGGGTGGGTATTGGTCGTTTGCATACCGAGGCCGGGCCGCCCGAAACCAGTTTGGCGGACTTGTTGGTGCATGACGGGGCCGAGGGGCTGTTCGAGGATTTGCTGGACACCTATGGGCGATATTCGGGTGTTTCTGGAGTACAACCCAAAGTATTGGTACGCGACAGCGCATCCGCTGTTGATCGCTTGACTCACCGGGGTGCTACACATCTGGTCAAGGCGTTTCGCTCGGACGAGTTCCCCGAGTTGGTCGCCAATGAATTCTTTTGCATGCGGGCCGCGTTGCATGCGGGGCTTGAAGTGCCGGAATTCGAGTTGAGCGAGCGCGGAAAATTTTTGATCGTCAAGCGTTTTGATCTGCCACGCACTGGCGAATATCTGGGCTTTGAGGATTTTTGTGTGCTCAATGGCTCGCCATCGAAAGCCAAGTATGACGGTTCGTATGAAGGCGCGGCCCGGCAGATCAAGGCGTTTGTTTCGCCTCATATGCTCAATCAGGCGCTGGAGTCCTTGTTTAAAATCGTGGCTCTCTCGGCCGGATTGAAGAATGGTGATGCGCACCTGAAAAATTTCGGGGTGCTTTATAACCACTGTGGCGCGGATGCATCTATCCGGCTCGCGCCCGCCTACGACCTCGTCAGCACAGCGGTTTATATTCGTAACGACAACATGGCGCTCTTGTTAGGCGGTTCCAAAGCCTGGCCGAAATATAAAATGCTGATGGGGTTTGGCCGCTCGGCCTGCAATCTGACGGAGAGGCGCTGCAAGGATTTGTTGGAGCAGGTTATTCATGGGATGGACCTTGCGTTGGCCGAGATGCGTCGCTACATGGACGCTAATCAAACGTTCAGAGCAACTGGCGAAGCAATGGTCGAGGCGTGGAAGGCGGGGCTTGCACGCAGCCTCAAAGCTGACAACGACTGA	MTDEQGLDRLQVTVSEAAIGVLGRGQQRSDSVFTYAPDADEEHSVSLTMPARLESYSWEPGVPPIFEMNLPEGALRDELVRRFSKAVRGFDDFAMLAIVGPHQLGRVGIGRLHTEAGPPETSLADLLVHDGAEGLFEDLLDTYGRYSGVSGVQPKVLVRDSASAVDRLTHRGATHLVKAFRSDEFPELVANEFFCMRAALHAGLEVPEFELSERGKFLIVKRFDLPRTGEYLGFEDFCVLNGSPSKAKYDGSYEGAARQIKAFVSPHMLNQALESLFKIVALSAGLKNGDAHLKNFGVLYNHCGADASIRLAPAYDLVSTAVYIRNDNMALLLGGSKAWPKYKMLMGFGRSACNLTERRCKDLLEQVIHGMDLALAEMRRYMDANQTFRATGEAMVEAWKAGLARSLKADND	PGPT0027480_2100	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HipA-HipB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027480-toxin_hipA-K07154	NA	NA
D1-35_05288	1005			putative HTH-type transcriptional regulator	ATGACGGAACCCACCTCCCTCGCCAGCTGGACCCGCGCCCTGCGCAAACAGCTCGATGCACTGGGCCTGGACAGCCATGCCTTGTGCCTGGAGGCGGGCCTGGACCCACAATGGATGGACGACCCGAACGCCCGTTATCCGCTCTCGGCCACCACGCGCCTGTGGGCGCTCGCGGTGCAGGCCAGCGGTGATCCGGCGATCGGCCTGCGGGTGTCGCGCTTTGTCAGCCCCACCACCTTTCATGCGCTGGGTTATGCCCTGGTAGCCAGCGGCAGCCTGCGGGAAGTGTTCGAGCGGATCGTGCGCTATCACCCGGTGGTCAGCGATGCGCTGACGTTGCAACTGAGCCGTGGCGAGGATCGCTACCGCTTCAATCTCGACATACCGGCGGGACGTCCGGCGCCGGCCCTGGAAGCCATCGACGCGTTCGCCGCGATTTACGTGCGCACCTGCCGTAACCGCCTCGGCCGCGATTACGCCCCGCTGGCGGTTTATCTGCGGCGACCGGAGCCGGCAGACCCCGCCCCTTGGCACAAAGTGTTCCGTTCACCGGTGCACTTCGATGCCGGACATGATTGCCTGGAGTTCAGCCTCGCCGATTTCGACAGTCACCTGGACGACGCCAACCCGGAGCTGGCCGAACACAACGAAACCGTGCTCAAGCGCACCCTCGCCCAGCTCCAGCCGTTGACCTGGGAGCGCAAGGTCCGCGCCGCCATCGAAGCACAACTGCCCGAAGGCGAACCCAGCGCCGAACGCATCGCCCAGACCATGCACCTGAGTCTGCGCAGTCTGCAGCGGCATCTGGCCGACGAAGGCTGCCGCTTCGACGCGCTGCTCAATGAATGCCGGGAAAACCTGGCGCTGCTACACCTGCGCGATCCGCAATGCTCATTGAGCGAGGTCAGTTATCTGCTGGGCTTTGCTGATACCAGCAGCTTCAGCCGCGCGTTCAAGCGCTGGACCGGGATGACGCCGGGGCAGTTTCGGGATGGCTTGCGTTAG	MTEPTSLASWTRALRKQLDALGLDSHALCLEAGLDPQWMDDPNARYPLSATTRLWALAVQASGDPAIGLRVSRFVSPTTFHALGYALVASGSLREVFERIVRYHPVVSDALTLQLSRGEDRYRFNLDIPAGRPAPALEAIDAFAAIYVRTCRNRLGRDYAPLAVYLRRPEPADPAPWHKVFRSPVHFDAGHDCLEFSLADFDSHLDDANPELAEHNETVLKRTLAQLQPLTWERKVRAAIEAQLPEGEPSAERIAQTMHLSLRSLQRHLADEGCRFDALLNECRENLALLHLRDPQCSLSEVSYLLGFADTSSFSRAFKRWTGMTPGQFRDGLR				NA	NA	NA	NA	NA
D1-35_05289	1074			hypothetical protein	ATGCACGGCACTTGCGCAAGCCCCGAGCGATTGAATGCACAGCAGCGCTCCGCCCATATTCGCCAGGTGGTCCTGGCCCGGGGCGAAGAATTGCGCGAGCGCTATCCGATCCTGCGGCATCAGGATGCGCTGGGCGCGGGCATCCTGGCGTTCGCCCTGGCGGGGATGACCGGCTCGGCGCTGCTCTACATCAACGGCTATCTGGCCGGCTGGGCGTGCCTGCTGCTCAACGCCTTTTTTGCATCCCTGACCCACGAGCTGGAACACGACCTGATCCACAGTATGTATTTTCGCAAGCAGCGCGTGCCGCACAACCTGATGATGGGCCTGGTCTGGCTGGCGCGGCCGAGCACCATCAATCCGTGGATTCGCCGCCACCTGCACCTCAATCATCACAAGGTTTCCGGCAGCGAGGCGGACCTGGAGGAGCGCGCGATCACCAACGGCGAGCCGTGGGGATTGGCGCGCTTGCTGATGGTTGGCGACAACGTGATGTCGGCGTTCATTCGCCTGCTGCGAGCCAGGACCTGGGCGCACAAGCGCAGCATCCTCAGGCGCACGCTGAAGGTGTACTTCCCGTTGGCGCTGTTGCATTGGGGCGCGTGGTACGTTTTCCTCGGTTTCCATGGCGCCAACGCGGTTGCCGGGCTGCTCGGCACTTCGATCGACTGGTCGACCAGCACTCTGGCGACCCTGCACGTCATAGACATCGCGGCGGTGGTGATCATCGGCCCGAATGTGCTGCGCACCTTTTGCCTGCACTTCATCAGCTCGAACATGCATTACTACGGCGACATCGAGCCAGGCAACGTCATCCAGCAGACCCAGGTGTTGAACCCTTGGTGGCTGTGGCCGTTGCAGGCGTTCTGCTTCAATTTCGGCAGCAGCCACGGCATCCATCATTTCGTGGTGAAGGAGCCGTTCTACATTCGCCAGATGACGGTGCCGGTGGCGCACAAGGTGATGCGGGAGATGGGCGTGCGCTTCAATGATTTCGGCACGTTTGGGCGGGCGAATCGGTTTGTGGGTAAGGAAGGCGTTGCGAGGGAAGAGGCGAAGGCGGTTCAGGCCTAG	MHGTCASPERLNAQQRSAHIRQVVLARGEELRERYPILRHQDALGAGILAFALAGMTGSALLYINGYLAGWACLLLNAFFASLTHELEHDLIHSMYFRKQRVPHNLMMGLVWLARPSTINPWIRRHLHLNHHKVSGSEADLEERAITNGEPWGLARLLMVGDNVMSAFIRLLRARTWAHKRSILRRTLKVYFPLALLHWGAWYVFLGFHGANAVAGLLGTSIDWSTSTLATLHVIDIAAVVIIGPNVLRTFCLHFISSNMHYYGDIEPGNVIQQTQVLNPWWLWPLQAFCFNFGSSHGIHHFVVKEPFYIRQMTVPVAHKVMREMGVRFNDFGTFGRANRFVGKEGVAREEAKAVQA				NA	NA	NA	NA	NA
D1-35_05290	2505	fhuA_5	COG1629	Ferrichrome outer membrane transporter/phage receptor	ATGACTGAGCGCGTGACTCTCAAGACTTCCCTCGGCTGTTCCTCGCCCACCGGCCTGCTGCGCCAGGCCATCCGCGCCGCGCTGTTGAGCACGGCGCTCGGTGTCGGCGCCCTACCGATGTCCGCTGTCGCGGCGCAGGATGGCGCGATCGCCGGCCGCCAGAACTACAACATAGCCGCCGGCCCGTTGAGCGAGGTGCTCAACCAGTTCGCCCGCCAGGCCGGTATCACCTTGGCAAGTACCCCTGGACAAACCGGCGGCGTCCAGTCCCCCGGCCTGAAAGGCGAATATTCGGCGGACCAGGCCCTGCAGCAGTTGCTCAGCGGCTCAGGGCTGGTTGCCGTCAGCCAGGATAGCGGCAGCTATGTGCTGCAAACCGTGGCCCCCGAAAGCACGTTGGCGTTGCCGACCACCGACGTCAAAGGCTTCGCCCTGGGTAACGCTCTCGGCAGCATGGAAGGCTACAACGCCACCCACAGCCAGGTGGCGACCAAGACCAGTACCGCCCTGCGGGAAACGTCGCAAAGCGTATCGGTGGTCACGCGCGAGCAAATGGACGACCAGGGCGCGCAAACCGTGTCCCAGGCAATGCGCTACACCCCTGGCGTGCTGACCAACCCCTATGGCGCGACCCACCGCTACGACTACGTGGCGATGCGCGGCTTCAACGATGGCTCGGTGGACAACATCTACCTGGACGGTTTGAAGTCGATGGGTGACAGCGGCACCTACAGCTCGATTCAGGTCGATCCGTATTTCCTCGAGCGGGTCGACATCCTCAAGGGCCCGTCCTCCGTGCTCTATGGCCGCAGCTCGCCGGGTGGCCTGGTGGCGCTCACCAGCAAGAAACCGCTGTACGAGGCCTATCACCAGATCCAGGCCACGGTCGGTACCCAAGGCCAACGCGGCATGGGTTTCGACTTCAGCGGCCCGGTGGATGACGACAAGCGCATCGCCTACCGCCTGGTCGGCCTGGCCGATACGTCCGACACGCAATTCGACCACAACAAGGAAAAGCGCTTCGCCCTCGCGCCCACGGTGAGCATCGACTTTAGCGAAGACACCTCGCTGACGTTGCAAGCCTACCTGCAGCATGACCCCGACGGCGGTTACCACGGCGGCATGCCGGCGAACGGCACCTTGCACAAGCGCAACGGCCGGCGGATTTCGGAGAACTTCTTCGAAGGCGAGCCTGGCGTCGACGGCTACGAACGTGACCAGCAGTCGTTCGGCTATCAGTTCGAACACCGCTTCAACGACGTCTTCACCGCCCGACAGAACTTCCGCTACCTGGATTCGGACGTCAGCAATGACCAGGTCTATGCCTATGACTGGACCACGCCGACCAGCAACGAGCTGAACCGCTATTACACCGGCGCTGAAGAAAAGCTCCACGCCTTCATCGTCGATAACATGCTCCAGGCGGAATTCTTCACCGGCGCCACCAAACACACCGTGCTGATGGGCGCCGACTACCAGCGGCGCAAGACCGTGGTCGATTGGACCAGCGGCAGCCTCGCGCCGATCAACGCCTTCGACCCGGTCTACGGCAACTCGGCGATCAGCTACTTCAGCCCCACCAGCTACCTGCGGCGCCTGGAGCAGACCGGCGTCTATCTGCAAGACCTGATCGAAATGGACAAGTGGCGCTTCTCTCTGGGCCTGCGCCAGGATTGGGTCGAGACCTCGGACGAGAACCGCATTGCCGAATTCGGCCGTCCGGAAGGCACCGAGATCAACGACAAGCGCACCAAACTCACCGGTAGGGTCGGGGCGCTGTACCTGTTCGACAACGGCCTGGCGCCGTACATCAGCTACTCGGAGTCATTCAACCCCAACTCCTACGCCGACAGCGCCGGCAACCCGCTGCCGCCCACCGACGGCAAGCAGTGGGAACTGGGCCTGAAGTACCAGCCGCCGGGTACCGATGACTTGTACACTGCCTCGCTGTTCCGCATCGACCAGGAGAACCTGGCGACCAAGCTGCCCCAGGAAAACTTCTACCGCGCCGTCGGCGCTGTGCGCTCCCAGGGCCTGGAACTGGAAGCGCACATGCAGTTGACCGAGCAGTTCAAGGTGCTGGGCAGCTACACCTTCACCGACATCGAATACTCGAAATCGATGGTCAGCACCCTGAGCACGCCCACCGACATCATCGAAAACAAAGGCAACTCTCCGACCCAGGCCCCGCGCCACATGGCATCGGTGTGGGCTGACTATAAATTCGACAGCGGCACGCTCGATGGCCTGCGGCTGGGCGGCGGCGTGCGGTATGTCGGCTACAGCTGGGCCGACGCGGAAAACACCATGAAGGTGCCGTCGTACACGTTGTTCGATGCCTCGGTGGGGTATGACCTGGGCAAGGTCGGCTTGAAGGGCGTGGATGTGCGCCTGAACGCGAACAACCTGACCAACGAGAGCTACATCGCGTCATGCGCCAGCCTGAGCTATTGCTACATGGGCGAGGAGCGCAACGTGGCGGCTACGGTGAGTTATCAGTTCTGA	MTERVTLKTSLGCSSPTGLLRQAIRAALLSTALGVGALPMSAVAAQDGAIAGRQNYNIAAGPLSEVLNQFARQAGITLASTPGQTGGVQSPGLKGEYSADQALQQLLSGSGLVAVSQDSGSYVLQTVAPESTLALPTTDVKGFALGNALGSMEGYNATHSQVATKTSTALRETSQSVSVVTREQMDDQGAQTVSQAMRYTPGVLTNPYGATHRYDYVAMRGFNDGSVDNIYLDGLKSMGDSGTYSSIQVDPYFLERVDILKGPSSVLYGRSSPGGLVALTSKKPLYEAYHQIQATVGTQGQRGMGFDFSGPVDDDKRIAYRLVGLADTSDTQFDHNKEKRFALAPTVSIDFSEDTSLTLQAYLQHDPDGGYHGGMPANGTLHKRNGRRISENFFEGEPGVDGYERDQQSFGYQFEHRFNDVFTARQNFRYLDSDVSNDQVYAYDWTTPTSNELNRYYTGAEEKLHAFIVDNMLQAEFFTGATKHTVLMGADYQRRKTVVDWTSGSLAPINAFDPVYGNSAISYFSPTSYLRRLEQTGVYLQDLIEMDKWRFSLGLRQDWVETSDENRIAEFGRPEGTEINDKRTKLTGRVGALYLFDNGLAPYISYSESFNPNSYADSAGNPLPPTDGKQWELGLKYQPPGTDDLYTASLFRIDQENLATKLPQENFYRAVGAVRSQGLELEAHMQLTEQFKVLGSYTFTDIEYSKSMVSTLSTPTDIIENKGNSPTQAPRHMASVWADYKFDSGTLDGLRLGGGVRYVGYSWADAENTMKVPSYTLFDASVGYDLGKVGLKGVDVRLNANNLTNESYIASCASLSYCYMGEERNVAATVSYQF	PGPT0003790_7342	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
D1-35_05291	996	fecR_8	COG3712	Protein FecR	ATGAAGATTGAACCGATGGACCAGCCTTCGGGCCGGGGCCCATCACAGCAGGTGGTCAAGCAAGCGATCCATTGGTTGCTGCGCCTGCGCAACCATGCCGCCAACCCAGCGCTGCGCCAACAGTGCGAGGCCTGGCGCATCGCTCACCATGACCACGAACTGGCTTGGCAACGGGTGCAATCGCTGCACAGCGAACTGACTTCCAGCCTGCGGGCGGTACCTGGCGCCCGGACTGCCCTCGATACCCTGGAGACCAGCGCCCAGCGCCTCGGCCGGCGCCAAGCCCTGAAGCTGTTGTCAGGCGTGGCGGTGATGGGCTGCGCCGCCTGGCTGGGCAAGGACCTGGGCTGGCAGCCGTGGAGCGCCGATTTTGCGACCGCCACCGGCGAACGACGTGGCTTCCAACTGCCAGACGGCACGCGACTGGAGCTCAATACCAACAGCGCGGCCGACCTCGATTACACGGCTTCGCGACGCCTGATCACGTTGACGCGCGGCGAAATCATGCTCACCTGCGGCCGCGATCCCGGACGCCCATTACTGGTAAAAAGCCGACACGGCTTGTTCGAGGGGCTGGAGGGCCGCTTCGTCGTGCGCCAGGACAACGACTGCACGCGCCTGAGTGTCGCCAGCGGACACGTCGCCATCCGCTCGCATGTCGGCAGCGACGGCGCCCCGATCCAGGTGGAAGCTGGACAAAGCTACCTGGTCAGCGCATCCACCGCGACGCTCGCGCCCCCCCTGGACATGGACGCCGGCGCCTGGGCGGACGGCTTGATCGTCACGCGCAACATGCGCCTGGAAGACTTCCTCAACGAAGTGGGACGTTACCGTCGGGGCTACCTGAAATGCGCCGCCTCGATCGCCGATTTGCGCTTGTCAGGCGTCTTCCGTCTGGCTGACACCGACAAGCTGCTGGCCGTCCTGCCGCACACGCTCCCCGTGCAAATACACTACCGAACCCGCTGGTGGATCACGGTGGAGCGTACGGCCTGA	MKIEPMDQPSGRGPSQQVVKQAIHWLLRLRNHAANPALRQQCEAWRIAHHDHELAWQRVQSLHSELTSSLRAVPGARTALDTLETSAQRLGRRQALKLLSGVAVMGCAAWLGKDLGWQPWSADFATATGERRGFQLPDGTRLELNTNSAADLDYTASRRLITLTRGEIMLTCGRDPGRPLLVKSRHGLFEGLEGRFVVRQDNDCTRLSVASGHVAIRSHVGSDGAPIQVEAGQSYLVSASTATLAPPLDMDAGAWADGLIVTRNMRLEDFLNEVGRYRRGYLKCAASIADLRLSGVFRLADTDKLLAVLPHTLPVQIHYRTRWWITVERTA	PGPT0003910_3172	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003910-prhR|fecR-K07165	NA	NA
D1-35_05292	501	fecI_10	COG1595	putative RNA polymerase sigma factor FecI	ATGTCATCCCCCCAGTTTGCAGTACAGGCGCTCTACAGCAGCCATCACGGCTGGCTCCACACATGGCTGCGCAACCGATTGGGCAATGCCGCCGATGCAGCGGACCTGGCCCAGGACACCTTCGTGCGCCTGCTGCAACGCACCGAACGCCTGGAACTCAAGGCGCCACGCGCCTTCCTGCGCACCATCGCCCAGGGCTTGGTGATTGACCATTGGCGCCGAGCGGAAATCGAACGCGCCTACCTTGAGACCATCGCGCACCTGCCGGAAGCGCAAACGCCCGGCGCCGAAGCCCAGGCATTGATCCTGGAGCTGCTGGAGGCCATCGCCCGGATGCTCGAAGGCCTCAAGCCCAAAGTGCGCAAGGCGTTCCTGCTGGCCCAGTGCGAAGGCCTGACCTACAAGCAGATTGCCGAACAGATGGGCATTTCCCTGCGCTCGGTGGAACGCTACGTTGCCGACGCGTTGTACCACTGCTATGTGCTGCGCTATGAAGATTGA	MSSPQFAVQALYSSHHGWLHTWLRNRLGNAADAADLAQDTFVRLLQRTERLELKAPRAFLRTIAQGLVIDHWRRAEIERAYLETIAHLPEAQTPGAEAQALILELLEAIARMLEGLKPKVRKAFLLAQCEGLTYKQIAEQMGISLRSVERYVADALYHCYVLRYED	PGPT0003900_364	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003900-prhI|fecI-K23514	NA	NA
D1-35_05293	1881	mcpA	COG0840	Methyl-accepting chemotaxis protein McpA	ATGAATCTCAAGTTCAGTCACAAAATCCTCCTGGCCGCCTCTGGTGTGGTGGTCCTGGCTTTTGCCCTGTTCACGCTCTACAACGATTACCTGCAGCGCAACACCATCGGTCGAAGCCTGGAGTCGTCCATCGAGCAATCCGGCGACCTGACAGCCAGCAGCGTCCAGAACTGGATGAGTGGCCGTGTGCTGGTGTTGGAGAACCTGGCGCAGAACATTGCGCACCAGGGCGCCGGGGCCGATTTGCCGGGGCTCGTCGACCAGCCGGCATTGACCTCGAATTTCCAGTTCACCTATGTCGGCCAGAACACCGGCGTTTTCACTCAGCGGCCTGACGCCAAGATGCCCGACGGCTACGACCCGCGTCAGCGCCCTTGGTATAAGCAGGCGGTCGCCGCGGATAAAACCATGTTGACCCCGCCCTACATGGCAGCCGTCGGCGGGCTGGTGGTAACCATTGCCCTGCCGGTCAAGCACAACGGCGAACTGCTCGGTGTGGTGGGTGGCGACCTGAGTCTGGAAACCCTGGTGAAGATCATCAACTCGGTGGATTTCGGCGGCATCGGCCATGCGTTCCTGGTCAGCGGCGACGGTCAGGTGATCGTCAGCCCGGACAAAGACCATGTGATGAAAAACCTCAAGGACATCTACCCAGGCACGCCGGTGCGCATCGGCAAAGGTATCCAGGAAGTCGAGTTGAACGGGGAGGACCGCATCCTTTCGTTTACCCCGGTGGCAGGCTTGCCGAACGCCGAGTGGTATATCGGACTGTCGATCGACAAAGCCAAGGCCTACGCGCCGCTGAGCCATTTCCGTACGTCTGCGTTGATTGCGATGTTCGTCGCGGTGGCGGCGATTGCGTTGTTGCTGAGCCTGCTGATCCAGGTCTTGATGCGTCCGTTGACCACCATGGGCCGCGCCATGCAGGACATTGCCCAGGGCGAAGGCGACCTGACCCGACGTCTCGTCGTGCAGGGCAAGGATGAGTTCGCTGTGCTGGGTGGTTCGTTCAACCAGTTCGTGGAGCGCATCCATGCATCGATTGCTGAAGTGTCTTCGGCCACGCGGCAGGTACATGATCTGTCGCAGCGGGTGATGACGTCGTCCAACGCCTCGCTTGTCGGCTCGGATGAGCAGAGCGCCCGCACCAACAGCGTGGCCGCTGCGATCAATCAGTTGGGCGCCGCGACCCAGGAAATCGCCCGCAATGCCGCCGATGCTTCGCAACAGGCCAGCGGCGCCAGCGAGCAGGCCGACGACGGGCGCCAGGTGGTGGAAAAAACCATCCAGGCGATGACCGCGCTGTCGCAGAAGATCAGCCTGTCGTGCACCCAGATCGAAACCCTGAACGCCAGCACCGACAACATCGGGCACATCCTCGATGTGATCAAGGGCATCTCTCAGCAAACCAACCTGCTGGCGTTGAACGCCGCCATCGAAGCGGCCCGTGCCGGTGAAGCCGGGCGTGGCTTTGCGGTGGTGGCCGATGAGGTGCGCAACCTGGCGCACCGCACGCAGGAGTCGGCTGAAGAGATCCACAAGATGATCACTTCGTTGCAGGTGGGTTCTCGTGAGGCGGTAACCACCATGAACGCCAGCCAGGCCTCCAGCGAAGAAAGCGTGGAAGTGGCCAACCAGGCCGGCCTGCGCCTGGTCAGCGTGACCCAGCGTATCGGTGAGATCGACGGCATGAACCAGTCGGTGGCCGCCGCGACCGAAGAACAGACCGCCGTGGTGGAAACCCTCAACATGGATGTCAGCCACATCAACCTGCTGAACCAGCAGAGCGTCGCCAACCTCAACGAAACGCTGAAGGATTGCGATGCCTTGTCCCAACAGGCCAATCGGTTGAAGCAACTGGTGGACAGCTTCAAGATCTGA	MNLKFSHKILLAASGVVVLAFALFTLYNDYLQRNTIGRSLESSIEQSGDLTASSVQNWMSGRVLVLENLAQNIAHQGAGADLPGLVDQPALTSNFQFTYVGQNTGVFTQRPDAKMPDGYDPRQRPWYKQAVAADKTMLTPPYMAAVGGLVVTIALPVKHNGELLGVVGGDLSLETLVKIINSVDFGGIGHAFLVSGDGQVIVSPDKDHVMKNLKDIYPGTPVRIGKGIQEVELNGEDRILSFTPVAGLPNAEWYIGLSIDKAKAYAPLSHFRTSALIAMFVAVAAIALLLSLLIQVLMRPLTTMGRAMQDIAQGEGDLTRRLVVQGKDEFAVLGGSFNQFVERIHASIAEVSSATRQVHDLSQRVMTSSNASLVGSDEQSARTNSVAAAINQLGAATQEIARNAADASQQASGASEQADDGRQVVEKTIQAMTALSQKISLSCTQIETLNASTDNIGHILDVIKGISQQTNLLALNAAIEAARAGEAGRGFAVVADEVRNLAHRTQESAEEIHKMITSLQVGSREAVTTMNASQASSEESVEVANQAGLRLVSVTQRIGEIDGMNQSVAAATEEQTAVVETLNMDVSHINLLNQQSVANLNETLKDCDALSQQANRLKQLVDSFKI	PGPT0015710_11603	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
D1-35_05294	465			hypothetical protein	ATGACCACATTTCAACCCGACACACTGATCAAGAATCCTCAAGCCTGCCACGTTGAAACCTCGGTGCAAGTGTCCGCTGACGCGGCGCGAGTCTGGGAAGTGGTCGGGGACTTTGGCGGGTTCAACCGCTTTATCCCCGCGCTTGAGCGCATCGAAATGACCGGCGAAGGGGTGAGATCCCTGCGCAAGAAATTCTTCGTCGACGGACAGAACCTGGTGGTGGAACAGCTCAACAGCCGTGACGACCAGGCCATGCACATGACCTGGACGCTGATCTACAACACCCTGGGCATCGACAACCTCTGGGCAGCCATGCGCGTGGAGCCCCTGGCGGACAACCGCTGCCGCGCCACCTGGACCATCATTGCCGACCACACCGACGCCCACACCCCGTCGGGCTTCAGGGATTTCCTGCAAGGGTTCGCCGATGAAGCGATGGAGAACGTGGTGAAGATGTTCACCTGA	MTTFQPDTLIKNPQACHVETSVQVSADAARVWEVVGDFGGFNRFIPALERIEMTGEGVRSLRKKFFVDGQNLVVEQLNSRDDQAMHMTWTLIYNTLGIDNLWAAMRVEPLADNRCRATWTIIADHTDAHTPSGFRDFLQGFADEAMENVVKMFT				NA	NA	NA	NA	NA
D1-35_05295	3426	lgrD_2		Linear gramicidin synthase subunit D	ATGAAACGCCTCGAAATTGCGCTATCCGGCACCAGCCAGGCCATGGCCGAACTGGCCCGGGAACTTGAACTTCACGGTCATTCGGTCAGGGAATTTCGATCGCCAACCGCCCACGGCGCGGTCGACCTGTCGATCGATGACGGTACGCTGCCGTGTGCCACACAGGCGCGCTTTCGACTTCATGTGCGCGTGGCGCTCCAGGCCCTGTCAGGCCAGGCATTGCCGCAACCGGTGGTGGTTTTCCGCGACGCTGCACAGCGCCTGTTATCCGAGGCCGTGATTGCCCCGCCAAGCCGGGGCAACGGCCAGTCATTGCGCCTCTGCGCACTGGCGGCGGTGGTCGAGCACGGCGCCCGGCTGGTCAGCCAGCTCTCGCGGGACGAGACCCGCTTCGACACCTGGCCGACGCTGGAAACCGCCGTTGCAGACGAGCTCCTGCACGGGCTCGATGCGCTGGAGCCGCTGGCTTTCGAACATCACCTCAACCGCGCCCCGGTGCCCTGGCTCCTGGCCGCCGCCCAAGTGCCGGTGATGAACAGCATCGAACAACGCATGCTTGATCAGCCGACGCAACCGGCCCTGTGGGTCGACGGTCAGCTCATCGACTACCGATCCTTGCGCGACCTGACGCTCAGGTTGCAACAATCGATGCTGGAAATCCTGCCGGGCGCGGCTGATCGCCCGAAGGTGATCGGCGTGTGCCTGCCCAAATCCGCACTGCTGTATGCAGCGATCCTGGCGGTTTTGGGATGCGGAGCGGTGTACCTGCCGCTGGACCCGCAACACCCGGCGCAGCGGCGGCGCTTCATCCTCGAAAATGCCCGGGCCGATCTGCTGCTGCATGACGTGCAAAGCGACCTGGACGACTGCGCAGTACCCAGGCTGAACGTCCATCGACTGCCCTCTTCGAAAACGATCATCCCGCTCTCGACAATCCGGCGCGTGGCGGGCATCGACGAGCCGGCCGTGGCGATCTACACCTCCGGCACCACCGGCCAGCCCAAAGGCGTGTTGCTCAGCCAGCGCAACCTCAGCCATTTTTGCGCGTGGTACTGCGACCATGTCGAGTTGAAGCGCGACAGTCGCGCGCTGCAGTTTTCCACCATCAACTTCGACGCGTCGCTGCTGGACATCCTGCCGACGTTCGTCCAGGGCGGACTGTTGATCGTGCCCAGCGAAGACCAGCGCCGCGACCCGCAGCAACTGGTCGCGTTGATTCGCGCACAGCGCGTCAGCCACGCCTTCCTGCCACCGGCACTGCTGAGCGTACTGCCACTGGACGCGCCGCTGGGGCTGGATCACCTGGTCACCGGAGGGGATGTCTGCGAGCCGTATGTGATCGAGCAACTGGCGCCACAGTGCCGCTTCCACAATATCTATGGCCCGACCGAAACCACGGTGCTGGCGACCACGCGGCAGTTCGGCAGCGGCGACAACAATCGCAACCTTGGCAGACCCATTGCCAATGCCCGGTTGCTGATTCTGGACGAGCAACGGCAACCGGTGCCCGACGGCACGCCCGGCGAGCTTTACATTGCCGGGCCGGGTGTCGGCCTGGGGTACCTGAACGCCCCGGGGCTGACCGCCGAGCGCTACCTCAACCTGACGTTGCCCACCGGGCAGACGCTGCGGGCCTATCGCACCGGGGATATCGGCCAGTGGACGGACGCTGGGATCGAGCTGTGTGGACGTCGCGATAACCAGGTGAAGATCCGTGGCTTTCGGGTCGAGCCCGAGGAGATCGAACATTGCCTGCGCGACAGCCAGTTGTTTCGTCAGGTGGCGGTGGGGGTGGATGAACGCCGGCGGATCCTGGCGTTCCTGGTGAACCCTGTGCAAGAACTTCCCGGCGCGGCTCTTCAGGCATTGCGCGAGCATGTGCAGGACAGGTTGCCCAGCTACATGCACCCGACGGCCTACATCGAGTTGCCCAGCCTGCCTTACACCAGCAATGGCAAGGTTGATCGCCGGGCGTTGCTTGCCTCGGCGGGGCCGGTCCAGGCCGAAGGCCAGGGACGCCAGCCGCAGAACGCCTTGGAAAACCAGCTGCGAGCGCTTTGGGCCGAGCTGCTGGAACTGCCGGCCGAGGACATCGCCACCGACGAGAGCTTCTTCAACCTCGGCGGGCATTCGATTCTGTTGTCGCAATTGCTGCTGAGCATCCGCCAGTCGTTCGGCCGTAGCCTGTCGATCAATCGCTTCATCGAAGCGCCGACGCTGATCACCCTGGCGAAGCTGCTCGACGACTCCGAACAGAGCGGTACGTCAACGCTGAGCCCGCAGGCTTTCATCGACGCCGAGGCGGAGCTCAACCTTGATCCACTGTCCATCAGCCAGAGCGGTGACGTGCACAAAGTGCTGGTGACCGGCGCCAACAGCTTTCTCGGCGTGCACATCGTCGAGGCGTTGCTGGCGTGGGGCGCCACCGAGGTTGCGTGCCTAGTGCGTGAGTCCGGCGGGCAAAGCGCGGCCGAACGGTTCGCCCAGGCCCTGCGGGACAATCGCCTGGAGCACCTGGACCTGAGTCGCGTCAGCGTCTACGCCGCCGACATCACCCAACCGCAACTGGGTTTGCCGGACGACATCTACCAACGCATCGACAGCACCTTCGGCGCGCTGGTGCACAACGCGGCCCACGTCAACCACGTGCTCGATTACGAGTCCCTGGCGCGGGACAACGTCGAGCCGATCTTCGAATGCCTGCGCCTGTGCGAAGGCCGGCGCAAGAAGATCTTCAACTTCGTCTCGACGCTCTCGGCTTCCAGCGCCCTGGACGCCGATGGCCAGGTGTTGGAGCAACCAGCGGCGCAGACACCGCCGATCTACATCAAGAACGGCTACAACCTGTCCAAATGGGTCGGCGAGCGGATCCTGCAGCGGGCCCGTGACCTTGGCGTGCGGGTGAACCTGTTCCGCCCCGGTAACATCAGCTTCAACAGCCAGACGGGGGTCTGCCAACCCCACAAGAACCGGTTGATGCTGATGCTCAAGGGCTCGATCCAGCTCGGCCAGGTGCCGGCCCTGTCACTCAACTTCGACCTGATGCCGGTGGACTTCCTGGCCCGTTTCATCGCCTTCCACGCCAGCCGCTACCAACCGAACCAGGCCGTGTTCAATCTGCACAACCCCGAACCGCTGAGCTGGGACGCCTACGTGGCGTCGTTCCGGGACAGCGGCCGGGCGTTTTCCCTGGTGAGCGTCGCCGACTGGCAACGGCAATTGGCGCGGGTCGATGCCGACAACGCGTTGTTCGGCGTGCTGGGTTTCTATCTGAACGGCTTCGAGGAGGACATCGGCGACATCTCGCTGATCCGTCATGACAACGCCCGGTCCGGCGTCCGGCAGATGGGCGCGCGCTACCCGGAAAAATCCCCGGCCCTGCTACGCCGTGGCGCGGACTACCTCAAGGCCATTGATTTCATCTGA	MKRLEIALSGTSQAMAELARELELHGHSVREFRSPTAHGAVDLSIDDGTLPCATQARFRLHVRVALQALSGQALPQPVVVFRDAAQRLLSEAVIAPPSRGNGQSLRLCALAAVVEHGARLVSQLSRDETRFDTWPTLETAVADELLHGLDALEPLAFEHHLNRAPVPWLLAAAQVPVMNSIEQRMLDQPTQPALWVDGQLIDYRSLRDLTLRLQQSMLEILPGAADRPKVIGVCLPKSALLYAAILAVLGCGAVYLPLDPQHPAQRRRFILENARADLLLHDVQSDLDDCAVPRLNVHRLPSSKTIIPLSTIRRVAGIDEPAVAIYTSGTTGQPKGVLLSQRNLSHFCAWYCDHVELKRDSRALQFSTINFDASLLDILPTFVQGGLLIVPSEDQRRDPQQLVALIRAQRVSHAFLPPALLSVLPLDAPLGLDHLVTGGDVCEPYVIEQLAPQCRFHNIYGPTETTVLATTRQFGSGDNNRNLGRPIANARLLILDEQRQPVPDGTPGELYIAGPGVGLGYLNAPGLTAERYLNLTLPTGQTLRAYRTGDIGQWTDAGIELCGRRDNQVKIRGFRVEPEEIEHCLRDSQLFRQVAVGVDERRRILAFLVNPVQELPGAALQALREHVQDRLPSYMHPTAYIELPSLPYTSNGKVDRRALLASAGPVQAEGQGRQPQNALENQLRALWAELLELPAEDIATDESFFNLGGHSILLSQLLLSIRQSFGRSLSINRFIEAPTLITLAKLLDDSEQSGTSTLSPQAFIDAEAELNLDPLSISQSGDVHKVLVTGANSFLGVHIVEALLAWGATEVACLVRESGGQSAAERFAQALRDNRLEHLDLSRVSVYAADITQPQLGLPDDIYQRIDSTFGALVHNAAHVNHVLDYESLARDNVEPIFECLRLCEGRRKKIFNFVSTLSASSALDADGQVLEQPAAQTPPIYIKNGYNLSKWVGERILQRARDLGVRVNLFRPGNISFNSQTGVCQPHKNRLMLMLKGSIQLGQVPALSLNFDLMPVDFLARFIAFHASRYQPNQAVFNLHNPEPLSWDAYVASFRDSGRAFSLVSVADWQRQLARVDADNALFGVLGFYLNGFEEDIGDISLIRHDNARSGVRQMGARYPEKSPALLRRGADYLKAIDFI				NA	NA	NA	NA	NA
D1-35_05296	933			hypothetical protein	ATGAACGCCATTTCATACCAGTCCTTCGCCGACACCTGGGAAAGTCGTGCCACCATCCGTACCCGACCACGGCGCCGGGTCGAGGATGACGACAAGCTGATCTTCCCCATGAGCCGTCAGCCCCTTGTGCACAGCCAGACCTTTCTCAGCCACTGCCCGCAGTTGCGCGATTTTGTCCTGGTGCAGAGCCTCTACAAATTCATCAATGACGTGGTGATTTTCGAGACTGAGCTGGTGGACCACACCGCGCGGCGCATCGCCAAGAACCGCTTCGGCATCGAGTTTCCGTTCGCCTGTCGCTACGACGCGATGACTGTGGTGGTGGATGAGGACTATCACGCGCTGGTGGCCATGGACTTCATGCAACAGACCATCGACATGACCGGCATCGAGCCGATCCCGCTGCCCGACCAGATCGAACTCAGCCGCGCGGTCCCGGCCACGCTGGCGCGGGCACCGGAGCGTTTGCTCAGTGCCGTGGAGCTGATCTGCATCGCCATTGCCGAGAACACGGTGACCAACGAAGTGGCGGCCTTTGCCCGGGATGACTCGGTCAAGGCTTCGATCAAGGGTTTGATGGCGGACCACTTGCAGGATGAGGGCCGACACTCCGGTTTCTGGACACGGCTGGTGCAGATTTACTGGCGCACCGCACCGGAAGAAGACCGCCAAGCCATCGCGCAACTGATGCCCGGCTTCATTGCCGAGTACCTGGCGAGCGACCTGCAACAACAGTTCGATTTCGAGCTGATCGCCCATCTGCCCGTCGATGAATCGGTACGTCAGTCGCTGCGGGATGACGCCAGTGCGTTGGCGTACCCGATCAATCGCTTTCATCCGCTGGTGGGCAACATCACACGCTTTTTTCGCACCAGCTCGATGCTCGCTTCACCGTGCGTGCGCGATGCCCTGGCCGACTACCTGACCCCATGA	MNAISYQSFADTWESRATIRTRPRRRVEDDDKLIFPMSRQPLVHSQTFLSHCPQLRDFVLVQSLYKFINDVVIFETELVDHTARRIAKNRFGIEFPFACRYDAMTVVVDEDYHALVAMDFMQQTIDMTGIEPIPLPDQIELSRAVPATLARAPERLLSAVELICIAIAENTVTNEVAAFARDDSVKASIKGLMADHLQDEGRHSGFWTRLVQIYWRTAPEEDRQAIAQLMPGFIAEYLASDLQQQFDFELIAHLPVDESVRQSLRDDASALAYPINRFHPLVGNITRFFRTSSMLASPCVRDALADYLTP				NA	NA	NA	NA	NA
D1-35_05297	777			hypothetical protein	ATGCAGCCAACCAAAGAACAACTATTCCTGAAGAAACTCGAACTAGGTGAACACCCGGTTTTTTCTGAAATAACATCAATCGACCTGTTGCGCCGTTTTATGGAAAGTCATGTTTTTGCCGTGTGGGATTTCATGTCCCTGACCAAGCGCCTGCAACGCGAGCTGACCTGTATCCAGTTGCCGTGGCTACCTCCGGCCGACCCGCACGCAGCACGGCTGATCAATGAAATCGTCTTGGGGGAAGAATCCGACGACCGTCCCGGAGCGGGCTATTGCAGCCATTTCGAGCTGTACCTGGACGCCATGCGCGAGGTCGGCGCGGATACCCGGGCCATTGAGCAATTCATTGCCCTGCAACAGGAAGGCGTCAGCCCCGAAACCGCGCTGGACAGCGTCGAGGTAGACCCGGCCGCGGCGCGCTTCGTACGCCAGACCTTGCACACTGCCTTGCACGCCCCGGCCCACAGCGTGGCCGCCGCGTTCGTGCACGGTCGCGAAAGCGTCATCCCGCAGATGTTCCAGCGCATGCTGGATGCCTGGGGCATCGGCCTGGACCAGGCACCGACGTTTCGTTATTACCTGCAACGGCATATCGAAGTGGACTCCGAAGACCATGGCCCGGCTGCGGAAAAACTCCTGGCACGGCTGATCGATGGCGACCCGCAGCGCGAGCGCGAAGTCCTTGCCGCCGCCCTCGCCGCCGTCCACAGCCGCGCGGCGTTGTGGGATGGTTTGCGTCAGAGCATGGCCCTGCCCGTTGCGCAGGTGACGCCATGA	MQPTKEQLFLKKLELGEHPVFSEITSIDLLRRFMESHVFAVWDFMSLTKRLQRELTCIQLPWLPPADPHAARLINEIVLGEESDDRPGAGYCSHFELYLDAMREVGADTRAIEQFIALQQEGVSPETALDSVEVDPAAARFVRQTLHTALHAPAHSVAAAFVHGRESVIPQMFQRMLDAWGIGLDQAPTFRYYLQRHIEVDSEDHGPAAEKLLARLIDGDPQREREVLAAALAAVHSRAALWDGLRQSMALPVAQVTP				NA	NA	NA	NA	NA
D1-35_05298	681			hypothetical protein	GTGACAAAGAAGCCCAACCCGTTAAGCACTATCCAGGTCAACGGCCCCATTCCCGCCTCCCAGGCCCGCGCCATCATCGAGAGCTCCCTGCGTGAAGCCATTCTCGATGGGCGCCTGCCCAGTGGCACGGCGCTACGCCAACAGGAACTGGCCGACCTGTTCGGCGTCAGCCGCATGCCGGTACGCGAGGCATTACGCCAGCTCGAGGCGCAGTCATTGCTAAACGTGGTACAGCACAAGGGCGCCGTGGTGGCTCCGCTGATCACCAGCAATGCGATCGAGACCTATGCCTTGCGTTCGGTCCTGGAAAGCTTCGCCCTGCGCCTGTCCGTTCCGCTGCTCAACGACAACGACCTGACGATGGCCGCCCAGTACATCGAGCAACTCGAGGCGCAAACCGACTACGCCGAGATCGCCAGGCTCAATCGGCTGTTTCATATGTCGCTTTACCACAGGGCACCCAACGCCAAGCTGCTTGACCTGGTCGAGCACGAGCTCAATGAGGAAGAGCGTTTCCTGCGTTTTCACATGTCATCGATGGGCCTGGGCACGCTGACCCAGGACGACCACCGCGCGATGCTCGCAGCCGCGGTGGCGAAGGATGTCGACACAGCGGTCGCCTTGCTTGAGCAGCACTTGGAAAAAGCCTCCGTCACCATGCGCCGATACCTCAACCAATAA	MTKKPNPLSTIQVNGPIPASQARAIIESSLREAILDGRLPSGTALRQQELADLFGVSRMPVREALRQLEAQSLLNVVQHKGAVVAPLITSNAIETYALRSVLESFALRLSVPLLNDNDLTMAAQYIEQLEAQTDYAEIARLNRLFHMSLYHRAPNAKLLDLVEHELNEEERFLRFHMSSMGLGTLTQDDHRAMLAAAVAKDVDTAVALLEQHLEKASVTMRRYLNQ				NA	NA	NA	NA	NA
D1-35_05299	663			hypothetical protein	ATGCGTTGGCTGTGTTCGGCATTGTTGCTGGCCGGCCTGCTGCTGGGCGGCCTGCGGGCCGATTGGGACTTTGCGCAGATCAGCCGCCGGGCGCAAGCGTTATATGGGCCTTTGGGCGAAGGGCAGCAACGGATCGACGCGTGGCAGCAACTGTTGGCGACCCAGAAGCAGATTCCGGAACTGGAACAACTCAAGGTAGTGAATCTGTTTTTCAACAAGCAGGTGCGCTACGTCGAAGACATCGACCTGTGGCGTGAGGTTGATTACTGGGAAACCCCTATCCAGGCCTTATGGAAGGGCGCAGGTGATTGCGAGGACTACGCCATCGCCAAGTATTTCAGCCTGCGCCGGCTCGGGGTGTCCAGTGACAAGCTGCGCATCACCTACGTCAAGGCCTTGCGGCAGAACCGGGCGCACATGGTGCTGACCTACTACGCCACGCCCGATGCCATGCCCTTGGTACTCGACAGCCTGATCGACGGTATCCAGCCGGCCAGCCAGCGAACCGACCTGCTGCCGGTCTACTCTTTCAATGCCGAAGGGCTGTGGCTGCCGGGCGCCAAGGGCAACAAAAAAGTGGGTGACACCAAGCGCCTGTCCCGCTGGCAGGATGTGTTGAAAAAAATGCAGGCCGAAGGTTTTCCGGTCGAGACGACTAACTAG	MRWLCSALLLAGLLLGGLRADWDFAQISRRAQALYGPLGEGQQRIDAWQQLLATQKQIPELEQLKVVNLFFNKQVRYVEDIDLWREVDYWETPIQALWKGAGDCEDYAIAKYFSLRRLGVSSDKLRITYVKALRQNRAHMVLTYYATPDAMPLVLDSLIDGIQPASQRTDLLPVYSFNAEGLWLPGAKGNKKVGDTKRLSRWQDVLKKMQAEGFPVETTN	PGPT0022238_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ADHESIN_TRANSPORT,PGPT0022238-lapP-NA	NA	NA
D1-35_05300	1947			hypothetical protein	ATGTCCTTGTTCAAACAGCTGTTGATCGCTATCTGTCTGTTCCTGGTGGTTGCCTTCAGCGGCAGCTTCATGGTCAGCCTGGAAAGCTCGCGGACCCAGTACGTCAATCAATTGCGCTCGCACGCGCAGGATGCGGCCACGGCGCTGGCCTTGTCGCTGACGCCGAATATCGACGACCCGGCAATGGTCGAGCTGATGGTCAGCTCGATCTTCGACAGCGGCTACTACGCAAGCATCCGCGTGGTCGACGTGAAGAACGACAGCACCATCGTCGAACGCACCGGCATTCCGGACGCCGGCAACGTACCGCAGTGGTTCATCAAGCTCATTGGCCTGGAGCCGGCCGGTGGCGATGCGCTCGTCAGTCGGGGCTGGGAGCAGGCGGCACGGGTCGAAGTGGTCAGCCACCCTATGTTCGCCCTCGCCAAGCTGTGGCAGAGCGCGCTGGGCAGCCTGGGTTGGCTGTTGCTGTGCGGCGCTGTGAGCGCGGTGTTGGGGGCCTTGCTGCTGCGCCGTCAGCTCAAGCCGCTGGATTACATGGTGCACCAGTCCCATGCCATCGCCCGTCGGGAGTTCCTCAGCTTGCCGGAGCTGCCGCGTACCCCTGAGCTGCGCCGGGTGGTGCAGGCGATGAACCAGATGGTCGAAAAGCTCAAGGCGCTGTTCCAGGAGCAGGCCGAGCGCAGCGAGAAGCTGCGGGTCGAGTCCTATCAGGACAACCTCACGGGCCTGGCCAACCGACGTTACTTCGAAATGCAGCTGCATGCCCGGGTGAGCAATCCCGAGCAGGCCAGTTCCGGTTATCTGCTGTTGTTGCGGGTCAGGGACCTGGCCGGGTTGAACCAGCGGCTGGGCGGGCAGCGCACCGATCAGTTGCTCAAGGCCGTGGGCGAGCAATTGCTGCGTGAATGCGCGCGTTATCCGGAAACCCATAACCTGGTGACGCGCATCCGCGGCGGAGAGTTCGCCGTGTTGGCGCCCGGGCTGGTGCGCGAGGAAGCCTTGCAACTGGCGCAGAATCTCGAAGGCGCGTTGGCGAGCCTGCACGCCACCGGCGCGACGGACGTCGCATCGGTGGCCTCCATCGGGCTGGCGCCGTTCGTCCACGGCGACTCGCCGCAAGCGGTGCTCCAGCTCGGCGACCAGGCGCTGGCCCAGGCCGAAACCCAGGGTGAACCGGGCTGGGCCTGCCTGGATCACAGCGCGTCGGCCAGCGTTGGCGATGATCACCATGCCTGGCACAACCTGCTTGACCAGGCGCTGAGCAACCAGCGCTTCGAGCTGTATTTCCAGCCGGTGGTGGCCGCCCAGGACACCCAGGTGGTGCTGCATTACAAAGTGCTTTCGCGGCTGCTCGACGATCAGGGCCAGAGCATCCCCGCCGGGCGTTTCCTGCCATGGCTGGAGCGCTTCGGCTGGACTGCGCGCCTGGACCGCCTGATGCTCGAACAGGTGCTCAAGCAAATGGCCGGGCACGAGCAATCCCTGGCGCTCAACCTGTCCTCTGCCACGCTGGCCGACCCGCAGGCTTTGAACAAGGTCTTTGAAATCCTGCGGGCTCACGGCAATCTCGGGGCGCGCCTGACCCTGGAGATCGGTGAGGAGCAACTACCTGAACAAGCGGTGCTGGAGCAGTTGACCCGGCAGTTGCGCGAGCTCGGTTTCTCCCTGAGCCTGCAGCGTTTCGGCGGACGGTTCAGCATGATCGGCAACTTGTCGCGGCTGGGGCTGGCGTATCTGAAAATCGACGGCAGTTATATTCGCGCCATCGACCAGGAGAGCGACAAGCGCCTGTTCATCGAAGCCATCCAGCGCGCCGCCCACAGCATCGACCTGCCGCTGATTGCCGAGCGGGTTGAGACGGAAGGCGAACTGGTGGTGATTCGCGAGATGGGGTTGTTTGGGGTGCAAGGGCAGTTGGTGGGCGAGCCTAGGCGTTGGGGATGA	MSLFKQLLIAICLFLVVAFSGSFMVSLESSRTQYVNQLRSHAQDAATALALSLTPNIDDPAMVELMVSSIFDSGYYASIRVVDVKNDSTIVERTGIPDAGNVPQWFIKLIGLEPAGGDALVSRGWEQAARVEVVSHPMFALAKLWQSALGSLGWLLLCGAVSAVLGALLLRRQLKPLDYMVHQSHAIARREFLSLPELPRTPELRRVVQAMNQMVEKLKALFQEQAERSEKLRVESYQDNLTGLANRRYFEMQLHARVSNPEQASSGYLLLLRVRDLAGLNQRLGGQRTDQLLKAVGEQLLRECARYPETHNLVTRIRGGEFAVLAPGLVREEALQLAQNLEGALASLHATGATDVASVASIGLAPFVHGDSPQAVLQLGDQALAQAETQGEPGWACLDHSASASVGDDHHAWHNLLDQALSNQRFELYFQPVVAAQDTQVVLHYKVLSRLLDDQGQSIPAGRFLPWLERFGWTARLDRLMLEQVLKQMAGHEQSLALNLSSATLADPQALNKVFEILRAHGNLGARLTLEIGEEQLPEQAVLEQLTRQLRELGFSLSLQRFGGRFSMIGNLSRLGLAYLKIDGSYIRAIDQESDKRLFIEAIQRAAHSIDLPLIAERVETEGELVVIREMGLFGVQGQLVGEPRRWG	PGPT0022237_10	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ADHESIN_TRANSPORT,PGPT0022237-lapD-NA	NA	NA
D1-35_05301	339			hypothetical protein	ATGTTTTATGTGCAACGCGATGCGCAAGGCCTGCTGGTGCGCGTCGAAGCCGCCGCTTATGCCGAGGCCACCGAGACCTTGCCGGCCGACAACCATGAGATCCAGGACTGGTTCGCCAACCAGGCGGTAGAGAACAGCCTCAAGCAACTCAAGCAGAGCGACCTGGAGATGATCCGGGTACTCGACGACCTGATCCAGGTACTCACCAGCAAAGGCGTCATCCGCGTCACCGACCTGCCGCCAGCGGCCCAGGCCAAGCTGATGGACCGCAACCAGGCACGGGAAGCGCTGGGCGGGTTGAGTCGGTTGATCGATGACGATGAGAAGGGGTTGATCTGA	MFYVQRDAQGLLVRVEAAAYAEATETLPADNHEIQDWFANQAVENSLKQLKQSDLEMIRVLDDLIQVLTSKGVIRVTDLPPAAQAKLMDRNQAREALGGLSRLIDDDEKGLI				NA	NA	NA	NA	NA
D1-35_05302	3912			hypothetical protein	GTGACCGTGACCCTGAGCAACGGCGCGGTGATCAACATCGCCGCCGGTGCCAAGACCGGCACCGTGACCGTCGATGCGCCGAAAGATGATGTCTACAAAGACGCCGGCAATGTCGAAGCAACGATCAAGACGGCCACCGGGGGTAACTTCGAGCACCTGGTGCCGAGCACCACGCCAGCCGTGACCGCCGTGACCGACACGCCTGACAACACCACCGTCAGCATCACCGGCAGCAGTTCGGTAACCGAAGGCCAGGCCGCCACTTACACGGTCAACCTGACGAACCCGGCGCAAACCGAGGTAACGGTCAAGATCGTCTACAGCGGTACCGCCGCCGATGGCTCGGACTTCACCGGTGTCTACACCGTGAAGATCCCGGCCAACGCCACCAGCGCCAGCTTCAACGTGGCGACCCTGGACGACAAGATCACCGAAGGCACTGAAAACTTCGTGGTCAAGATCGACTCGGCCACCGGTGGCAACTTCGAGAACCTGGCGGTCAGCGGCACCAATGGCAGCGTCAGCACTTCGATCATCGACAACGATGCGGCGCCGGTACTCGATCTGGATGCCAACAATTCCAGCGGCAAGACCGGCGCCGATTACCAGGTGACCTTCACCGAAGGCACCGCGGGCCCAGGCGTATCGATCGGCGACACTGACCTGAAAATCACCGACCCGGACAGCACCCAGCTGACCGGCGCCACCATCGTGCTGACCAACCGTCAGCCTGGCGATCATCTGAACCTGGGCAGTAGCGTCAACGGCATCAGCATCAACGCCAATAGCACCGACGGCAAAATCGTCCTGACGCTGACGGGCAATGCGACGTTGGCCGACTACATGCAGCAGATCAAGAACATCAGCTTCATCAACAACAGCGAAGATCCGAGCACCGTACCGCGCGTCATCACCGTGACAGTGACCGACGGCACGAGCTACTCCAACACCGCCACCACCACCGTGAACGTGGTCGGAGTCAACGACGCACCCGTAGCCACCGGTGGCGCGGTGACCGGTACCGAAGACACTTCACTGGTCCTCGGCTGGTCGACGTTCGGCATCAGCGACGTGGACAGCGCCGCCACCAGCCAGGGTGTGAAAATCACCGGGCTGCCGGGTGACGGCAAGTTGCAGTACCTGGACGGCGCAACCTGGAAGGACGTGGCCAACAACCAGACCTTCACCAAGGCCGACATCGACGCCGGCAAGCTGCGCTTCACACCCGATGCCAACGAATCCGGGGCCGATGGCTACGGCGGCAGCGGCGTGGGCAACAAGCAGGCTGACTACGCGCAGATCAAGTTCCAGCCAACCGACGGCCAGACTCTGGGTAACACCGGCACCGTGAAGATCGACATCACGCCAACCGCCGATGCGCCGACCCTCAACGTCGCCGGCAACAACGTGACCTCTACCGGCCTGATCAAGGAAGTCTGGACCGGCCTGTCGGGCCTGGGCACCGATGGCAATGGCGCGCCGTCCGGCACGCTCAAGTCGGTGATCGACGCCGCCGGCACGCCGAACAGCAGCACCAATGTGAGCAACGTTCAGAACGACGGCAACGTCAATCCGGGCACCGCGTCGAAGACCTCGGGCCTGATCTTCCTGGAAGCCGGCAAGACCTACACCTTCAGCGGCACCGGCGACGACAGTTTGCTGGTGACCATCGGCGGCAAGACCGCCGCGGCCATCACTTGGGGTGCGGGCGGCCAGTTGAACGGTTCGTTCACGCCGACCACCAGCGGCTATTACACCCTGGATATCTACCACCACAACCAGACCGGCCCAGGCAGTTATGACGTGAACCTGTCGGTCAACGGCAGCACGCCGGTGGACCTGAGCAGCGCAGGCGTACCGCTGTATACCGGCGTGGCTGACCTGGTGAATGCCGGGGTTTCCGTTTCCGACCTGCACGGCACCAATGGCGAAGGCTACTACGACGGCTACAAGCTCAACGAAGGCGCCGAAGGCGGCAGCGTGAAGCTGTCGAAGATCACCACCGCACTGACCGACACCGATGGCTCCGAAAGCCTGAGCGTGAAAATCGGCGGCATGCCGGAAGGCAGTGTGCTGAGCGATGGCGCGGGACATACCGCAACCGTGGGCGCCAACGGCGAAGCTTCGCTCACCGGCTGGAACCTGGGTAGCCTCAACCTGACGCCGCCGACCTACTTCAGCGGCCAGATCAACCTGACCGTAACGTCGACCTCCACCGAATCCCTCGGCGGGTCGGCAGTGACGACCGCGCAGATCCCGGTCACCGTTTACCCGGCGACCTATAACGCTGTCACCGCCACCTCCGGCAGCGACAATGTCACCGGTACCGACGGCAACGACATCGTGGTCGCCGACATCGGCGGCCTGACCGTGGTACCGGGCGTCAACTACAATATCGCGTTCATGGTCGACAGCTCCGGCAGCATGAGTTCGTCGTCCGTCACAGCCGCCAAGAACTCGCTGACCCAGGTGTTCAACACGCTCAAGCAGAGCCTGGGCAGCAACTCCGGGACGGTGAACATCTTCCTGGCGGACTTCGATAACCAGGTCAACAAGAACGTTGCGGTCAACCTCAACGATCCGAACGCGCTGACACTGCTCAAGAGCGTGCTCGACTCGATGGTGTCCGGCGGCAATACCAACTATGAAGAGGTGTTCAAGACCACCGCGAACTTCTTTAACAGCACCCAGGCCCTGAGCAATACCGGCGCGAAGAACCTGACGTACTTCATCACCGACGGTGAGCCAACGCGCTACCAGTCCGGCGAACAGACGAACCCGACGCTGTACGGCACCGTCAAGCTCGACGACGTGCTGAGTGCGTCCAACTATACCGTTGGCAAGTACTACACCCAGACGATCGACAGCACACACAAATTCACCATCGAAGAAAATGGCGACATGTACCTGTCGACCAAGAGCGGCAAGAACTGGAATGACAGTTACGTCGGCACGGTGCGTGCCGAGGGCAACGGCACGTTCGAGTTCTCCAACCTGGACGGCGGCGGGTGGGGCGACGTCTCGGCAGCAACCGGCTCAGCGGCCAGCTTCACTCTGCTCAAAGGCTTGAGCAACGTTGAAGCCATCGGCCTGAACAACGGCGTGACCCTGGACGACCTCAAGCCGTACGACTCCGATGGCAAGCCGCAAACCAACATCGACCCCAAGGACCTGGCCAACTCGATCATCGGCCACACCGAAGCGACGTTGCCGGGTGCCGACACGGTCAACGGTGCCGACGGCAACGACATCCTGTTCGGCGACCTGGTGAGCTTCAACGGCATTGCCGGCGAGGGCTACCAGGCCATCCAGTCGTTCGTGGCCCAGCAAAGCGGCGTGGACGTCAGCAAGGTCAGCACTTCGAACGTGCACCAGTACATCACCGAGCACTACACCGCGTTCGATGTGTCCGGTGCCCATGATGGCAATGACACTCTGCTGGGCGGCGCCGGCAACGACATCCTCTTCGGCCAGGGCGGCAACGATTTGCTCGACGGCGGCAAGGGCAATGACATCCTGCTCGGTGGCAGCGGCAGCGACATCCTGATCGGCGGCAAGGGCAACGACACGCTCATCGGTGGCCTGGGCGGCGATACCTTCGTCTGGAAATCCGGCGACACCGGCACTGACGTGATCAAGGACTTCAAGGCCGCCGAAGGTGACCGGATCGACCTGCGAGACCTGTTGCAGGGCGAAACCGGCAGCACCATCGACCACTTCCTGAAGATCAGCACGGTCGATGGCGTGTCTTCCCTGCAAGTCAGCACCACCGGTCAATTCAACGCGGCCAACACTGCGGCGACGCCGGACGTGACGATCAAGCTGGAAGGCAACAACTGGTCGAACATCAACCTGAACTCGCTCATCGCTGGCAGTGACCCGACCATCAAGATCGATCACAACAACAGCTGA	MTVTLSNGAVINIAAGAKTGTVTVDAPKDDVYKDAGNVEATIKTATGGNFEHLVPSTTPAVTAVTDTPDNTTVSITGSSSVTEGQAATYTVNLTNPAQTEVTVKIVYSGTAADGSDFTGVYTVKIPANATSASFNVATLDDKITEGTENFVVKIDSATGGNFENLAVSGTNGSVSTSIIDNDAAPVLDLDANNSSGKTGADYQVTFTEGTAGPGVSIGDTDLKITDPDSTQLTGATIVLTNRQPGDHLNLGSSVNGISINANSTDGKIVLTLTGNATLADYMQQIKNISFINNSEDPSTVPRVITVTVTDGTSYSNTATTTVNVVGVNDAPVATGGAVTGTEDTSLVLGWSTFGISDVDSAATSQGVKITGLPGDGKLQYLDGATWKDVANNQTFTKADIDAGKLRFTPDANESGADGYGGSGVGNKQADYAQIKFQPTDGQTLGNTGTVKIDITPTADAPTLNVAGNNVTSTGLIKEVWTGLSGLGTDGNGAPSGTLKSVIDAAGTPNSSTNVSNVQNDGNVNPGTASKTSGLIFLEAGKTYTFSGTGDDSLLVTIGGKTAAAITWGAGGQLNGSFTPTTSGYYTLDIYHHNQTGPGSYDVNLSVNGSTPVDLSSAGVPLYTGVADLVNAGVSVSDLHGTNGEGYYDGYKLNEGAEGGSVKLSKITTALTDTDGSESLSVKIGGMPEGSVLSDGAGHTATVGANGEASLTGWNLGSLNLTPPTYFSGQINLTVTSTSTESLGGSAVTTAQIPVTVYPATYNAVTATSGSDNVTGTDGNDIVVADIGGLTVVPGVNYNIAFMVDSSGSMSSSSVTAAKNSLTQVFNTLKQSLGSNSGTVNIFLADFDNQVNKNVAVNLNDPNALTLLKSVLDSMVSGGNTNYEEVFKTTANFFNSTQALSNTGAKNLTYFITDGEPTRYQSGEQTNPTLYGTVKLDDVLSASNYTVGKYYTQTIDSTHKFTIEENGDMYLSTKSGKNWNDSYVGTVRAEGNGTFEFSNLDGGGWGDVSAATGSAASFTLLKGLSNVEAIGLNNGVTLDDLKPYDSDGKPQTNIDPKDLANSIIGHTEATLPGADTVNGADGNDILFGDLVSFNGIAGEGYQAIQSFVAQQSGVDVSKVSTSNVHQYITEHYTAFDVSGAHDGNDTLLGGAGNDILFGQGGNDLLDGGKGNDILLGGSGSDILIGGKGNDTLIGGLGGDTFVWKSGDTGTDVIKDFKAAEGDRIDLRDLLQGETGSTIDHFLKISTVDGVSSLQVSTTGQFNAANTAATPDVTIKLEGNNWSNINLNSLIAGSDPTIKIDHNNS	PGPT0022180_17	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-SURFACE_PROTEIN,PGPT0022180-lapA-K12549	NA	NA
D1-35_05303	816	cpdA	COG1409	3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	TTGCCGAGCGTATCCAGCTTGACCACTGCCGACGCGGCGCTGCTGGTCCAACTGTCTGACAGCCATTTGTTCGCCGAGGCCGATGCTTCGTTGCTGGGTATGAACACCCGTGACAGCTTGCGGGCGGTGGTTGACCTCGTACTCCGGCAGCACCCGGATATCGACCTGATGCTCGCCACGGGCGATTTGTCCCAGGACGGTACGCTGCAATCCTACGAGGCATTTCGGCACCTGACTGCGCGTATCGATGCGCCGGCGCGGTGGATTCCGGGCAATCATGATGAGCCGCAGGTGATGCTTGAGGCGGCGGTGCAGAGCATGTTGCTCGATCCGGTGGTGGACATCGGCAACTGGCGAGTCACTCTGTTGGATTCAGCCGTGCCAGGTTCGGTGCCGGGTTTTTTGGCCGAGGAGCAGTTGATTCTGTTGGCCAATGCCTTGAGCGAGGCGCCGGAGCGGCATCATCTGGTGTGTCTGCATCATCATCCGGTGTCGATTGGTTGTGCGTGGATGGAGCCGATCGGGTTGCGCAATCCAGAGGCGCTGTTTGCGGTGTTGGATCGGTTTCCGCAGGTGCGGGCGGTGTTGTGGGGGCATGTGCATCAGGAAATAGACCGGGTGCGCGAGGGGGTTCGTTTGTTGGCTTCGCCTTCGACCTGTATTCAGTTTGAGCCTGGGAGTGAGGATTTTGCGGTGGGCTCGCAGGCGCCAGGGTATCGGTGGTTGCGGTTGTTGCCGGATGGGCGGTTGGAGACAGGAGTTGAGCGGGTGGTTGGGTTTGCGTTTACGCCTGACTACGGATCCAACGGCTATTGA	MPSVSSLTTADAALLVQLSDSHLFAEADASLLGMNTRDSLRAVVDLVLRQHPDIDLMLATGDLSQDGTLQSYEAFRHLTARIDAPARWIPGNHDEPQVMLEAAVQSMLLDPVVDIGNWRVTLLDSAVPGSVPGFLAEEQLILLANALSEAPERHHLVCLHHHPVSIGCAWMEPIGLRNPEALFAVLDRFPQVRAVLWGHVHQEIDRVREGVRLLASPSTCIQFEPGSEDFAVGSQAPGYRWLRLLPDGRLETGVERVVGFAFTPDYGSNGY	PGPT0021595_1930	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0021595-cpdA-K03651	NA	NA
D1-35_05304	453			hypothetical protein	ATGGTCCTGAACAAGCTGCGCGATCGTTATCGCGTCGACCTGGTGGGGTTGCAGGCCGCCTGCGAGGCCAACTATGCCCGCCTGATGCGCTTGTTGCCGGACATGCGCAACGACCCGGCACCGCGCCGCATCGCCGTGACCCACGGCGACCAGATGCTCGGCGTGCTGGCCCTGGAAGTGCTGCAGACCTGTCCATACACCACCACATTGCAGGTGCGCCAGGAGCACAGCCTGCCCTGGCTGCCGGTGCCGCAGCTGGAAGTGCAGGTCTATCACGATGCACGCATGGCCGAAGTGGTCAGCGCCGAACATGCACGACGCTTTCGCGGCATCTATCCTTACCCCAATGCGTCAATGCACCAGCCGGACGAAAAGGCCCAGTTGAACCTTTTCCTGGGCGAGTGGCTGAGTCATTGCCTGGCGCTGGGCCACGAGTTCGAAGTCGTACGGTAG	MVLNKLRDRYRVDLVGLQAACEANYARLMRLLPDMRNDPAPRRIAVTHGDQMLGVLALEVLQTCPYTTTLQVRQEHSLPWLPVPQLEVQVYHDARMAEVVSAEHARRFRGIYPYPNASMHQPDEKAQLNLFLGEWLSHCLALGHEFEVVR				NA	NA	NA	NA	NA
D1-35_05305	618	nudF		ADP-ribose pyrophosphatase	ATGACCGATTTCGCCAACGCCACACCGAGCAACGTGGACATCGTCAAGCGTGAAACCTGCTTCAAGGGTTTCTATAAGCTCGACCGCCTCGTCTTGCGCCACGAGCTGTTTGCCGGTGGCATGAGCCGTGAGATCAGTCGTGAACTGTTTGTACGTCATGATGCGGTGTGTGTGCTGCCCTACGATCCGCAGCGCGACGAAGTGGTATTGATAGAGCAGTTTCGCGTGGGTGCCATTGGCAAGGCCGCCAATCCCTGGTTGGTTGAACTGGTGGCTGGTCTGATCGACAAGGACGAGCAACCGGAAGAAGTTGCTCATCGCGAAGCGCAGGAGGAAGCTGGGCTGGTCTTCGCTGCGCTCTGGCCGATGACCAAGTATTTCCCGTCGCCGGGCGGCAGCAATGAGTTCGTGCATCTTTACCTGGGGCGTTGCGACAGTACGGGGGCCGGCGGCCTGCATGGCCTGCTGGAAGAGGCTGAAGATATCCGCGTAAAGACCTGGGCATTCGAAGACGCCCTGCAAGCGGTGCGCGACGGACGTATCTGCAACGCGGCCAGCATCATTGCCTTGCAATGGCTGGCCTTGAATCGAGATGAAGTGAGGGGGCTATGGTCCTGA	MTDFANATPSNVDIVKRETCFKGFYKLDRLVLRHELFAGGMSREISRELFVRHDAVCVLPYDPQRDEVVLIEQFRVGAIGKAANPWLVELVAGLIDKDEQPEEVAHREAQEEAGLVFAALWPMTKYFPSPGGSNEFVHLYLGRCDSTGAGGLHGLLEEAEDIRVKTWAFEDALQAVRDGRICNAASIIALQWLALNRDEVRGLWS	PGPT0021525_968	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021525-nudF-K01515	NA	NA
D1-35_05306	747			hypothetical protein	ATGTCGCTTTTCAAGATTGCTTCGCTGGCCGCCATTGCCCTGATCCTGGGCGCTTGCCAGAGCCTGTTCCAACCCAATTACCGCGCCCCGCTGGAGACCACTCGCGATGCGTCGGAGCAATTGCAGCCTGGCTGCGCCAGCGCCGACTGCCCGCTGGTCAACATTGACACACTGCATTTCCCCACCGAGCCCGCGCTGGACGGAATCATCGAAAAACGTCTGCTGCAAATGACCCGCACGACCCCGGACGCCCCGGTGGCGCCGACCCTGGCCGCCTATCGCGAGCAGTTTCTGCGCAGCGCAGAGCCGCGCAACAGCAGCTATCTGCAGGCCAAGGTACGTGAGCAACATGACGGCCTGGTGATCATCGAACTGTCCAGCTACTTGGACACTGGCGGCGCTCACGGCACCCCTGGTCGCGGTTTCATCAATTATTCGCGCCAGCAGCAAAAAGTGCTGACGCTGTCGGACATGCTGCTGCCGGGCCAGGAAGAAGCCTTCTGGAAAGCCGCGCAAGTGGCCCACAACAGCTGGCTGATCAGCACCAAGCTGGATCAGGAACCGGAATTCCTGAAGCAGTGGTCCTTCCAGAAAACCCCGCACATCGCGCTGACCTACGGCGGGGTGATCCTCAAATACGAAGTGAGCACCATCGCGCCGTACGCCCTGGGCCACATCGAATTGAAGATCGCCTACCCCCGCCTCAACGGCATCCTCAAGCCCGAGCTGTTTCCCGGCCGTAGCTGA	MSLFKIASLAAIALILGACQSLFQPNYRAPLETTRDASEQLQPGCASADCPLVNIDTLHFPTEPALDGIIEKRLLQMTRTTPDAPVAPTLAAYREQFLRSAEPRNSSYLQAKVREQHDGLVIIELSSYLDTGGAHGTPGRGFINYSRQQQKVLTLSDMLLPGQEEAFWKAAQVAHNSWLISTKLDQEPEFLKQWSFQKTPHIALTYGGVILKYEVSTIAPYALGHIELKIAYPRLNGILKPELFPGRS				NA	NA	NA	NA	NA
D1-35_05307	1293	codB_2	COG1457	Cytosine permease	TTGAACATCCAACCCAGCACCTATTCCCCAGACACCGCCGTGCCCCTGGACAAACGCGTCTTCGGCGCCCGCGATCTGTTTTCCCTGTGGTTCTCCCTGGGCATCGGCCTGATGGTCTTGCAGGTCGGCGCCTTGCTTGCGCCGGGCCTGGGCTTGAGCGGTTCGCTGCTGGCGATTTTCCTCGGCACGCTGGTGGGCGTCCTGCTATTGGCGGCGGTCGGGGTGATTGGCAGCGACACCGGCCTGTCGGCCATGGCCGCGCTCAAGCTCAGCCTCGGTGGCAAGGGCGCGAGCGTGCCGGCGCTGTTGAACCTGTTGCAGTTGATCGGCTGGGGCTCGTTCGAAATCATCGTCATGCGCGATGCCGCCAGCCTGCTCGGCGCGCGGGCCTTCAGCGAAGGCAGCCTGGGCTCGAATCCATTGCTGTGGACGCTGTTCTTCGGCGCGTTGGCGACCCTGCTCGCGGTGAGCGGGCCGCTGACCTTCGTACGCAAAATCCTGCGCAAATGGGGCATCTGGTTGCTGCTGGCGGCGTGCATCTGGTTGACCTGGAACCTGTTCGCCAAGGCCGATCTGCCGGCGCTGTGGGCCCAGTCCGGCGACGGTTCGATGTCGCTGGCGGTGGGTTTTGACATCGCCATCGCCATGCCGCTGTCCTGGTTGCCGCTGATCGCCGACTACTCGCGTTTCGGCAAACGCGCCAGAAACGTCTTCGGCGGCACGGCCGTGGGGTTCTTCATCGGTAACGTCTGGCTGATGAGCCTGGGCGTGGCCTACACCCTGGCGTTCGCGCCGAGCGGCGAAGTCAATGCGTTGCTGCTGGCCCTGGCTGGTGCCGGGTTGGGCATCCCGCTGTTGCTGATTCTTCTGGACGAGTCGGAAAACGCCTTCGCCGACATTCATTCGGCGGCGGTGTCGACGAGCATGTTGTCGGGGCTGAAGGTCGAGCACCTGGCCTTGGCGATTGGTGTCATCTGCACCGTGATCGCCTGCTTCGCGCCGCTGGCTCAGTACCAGAACTTCCTGTTGCTGATCGGCTCGGTGTTCGCGCCGCTGTTCGGCGTGGTGCTGGTGGATCACTTCATCCTGCGCAAGCGCAGCAGCCAGGTGCGCTCGGTCGCGTTGCGCTGGCCGGCGTTGTTGGCCTGGCTGGGCGGGGTGAGTACCTACCACCTGCTAGCCAACTTCTATCCGGACATCGGCGCTACCCTGCCGTCGCTGATCCTGGCAGGGGTGCTGCAATTGTTGCTGGGCCGGGCTTTCAGCTACGGCCGGGAAACAGCTCGGGCTTGA	MNIQPSTYSPDTAVPLDKRVFGARDLFSLWFSLGIGLMVLQVGALLAPGLGLSGSLLAIFLGTLVGVLLLAAVGVIGSDTGLSAMAALKLSLGGKGASVPALLNLLQLIGWGSFEIIVMRDAASLLGARAFSEGSLGSNPLLWTLFFGALATLLAVSGPLTFVRKILRKWGIWLLLAACIWLTWNLFAKADLPALWAQSGDGSMSLAVGFDIAIAMPLSWLPLIADYSRFGKRARNVFGGTAVGFFIGNVWLMSLGVAYTLAFAPSGEVNALLLALAGAGLGIPLLLILLDESENAFADIHSAAVSTSMLSGLKVEHLALAIGVICTVIACFAPLAQYQNFLLLIGSVFAPLFGVVLVDHFILRKRSSQVRSVALRWPALLAWLGGVSTYHLLANFYPDIGATLPSLILAGVLQLLLGRAFSYGRETARA	PGPT0009075_3521	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
D1-35_05308	1890	thiC	COG0422	Phosphomethylpyrimidine synthase	ATGACGACAAAATCAAAAAACGCGACCAACCTCAGTGAATCGGCCCAGGTCGATCAGCAATCGGTCCAACCGTTTACCCGCTCGCAAAAAATCTACGTCCAGGGCAGTCGCCCGGATATCCGCGTGCCGATGCGCGAAATCAGCCTCGACGTGACCCCCACCGACTTCGGCGGCGAAATCAACGCGCCAGTAGTGGTGTATGACACCTCGGGGCCCTACACCGACCCGAACGTGTCCATTGATGTGCGCAAGGGCCTGGCCGATGTGCGCTCGCCGTGGATCGAAGCTCGTGGCGACACCGAGCGTCTCGCCGGCCTGAGTTCCAATTTCGGCCAGGAACGCCTGGCCGATCCCGAGCTGACCAAGCTGCGCTTCGCCCATGTAAACAACCCGCGTCGCGCCAAGCCGGGCGCCAACGTCAGCCAGATGCACTACGCGCGCAAAGGCATCATCACCGCCGAGATGGAATACGTCGCCATCCGCGAAAACATGAAGCTGGAAGTGGCCCGCGCCGCCGGCCTGCTGGACCAGCAACACGCCGGTCACAGCTTCGGCGCCAGCGTGCCGAAAGTCATCACCCCGGAATTCGTGCGTGACGAAATCGCCCGTGGCCGCGCGATCATTCCGGCCAACATCAACCACACCGAACTGGAACCGATGATCATCGGCCGTAACTTCCTGGTGAAGATCAACGGCAACATCGGCAACAGCGCGCTGGGTTCGTCCATCGAAGAAGAAGTGGCGAAGCTGACATGGGGCATCCGCTGGGGTTCGGACACGGTCATGGACCTGTCCACCGGCAAGCACATCCACGAAACCCGCGAGTGGATCATCCGCAACTCGCCGGTGCCGATCGGCACCGTGCCGATCTACCAGGCCCTGGAAAAAGTCGGCGGCGCGGCCGAAGACCTGACTTGGGAGTTGTTTCGCGACACGCTGATCGAACAGGCCGAGCAGGGTGTCGACTACTTCACCATCCATGCCGGCGTGTTGCTGCGTTATGTGCCGATGACCGCCAAGCGCGTCACCGGTATCGTCAGCCGTGGCGGTTCGATCATGGCCAAGTGGTGCTTGGCGCACCACAAGGAAAATTTCCTCTACACCCACTTCGAAGACATCTGCGAAATCATGAAGGCCTACGACGTCAGCTTCTCGCTGGGCGACGGCCTGCGTCCGGGCTCGATTGCCGACGCCAACGACGAAGCGCAGTTCGGCGAGCTGGAAACCCTCGGCGAGCTGACCAAGATCGCCTGGAAGCACGACGTGCAGTGCATGATCGAAGGCCCCGGCCACGTGCCGATGCAGTTGATCAAGGAGAACATGGACAAGCAGCTCGAGTGCTGCGACGAGGCGCCGTTCTACACCCTCGGCCCGCTGACCACCGACATCGCGCCGGGCTACGATCACATCACTTCCGGCATCGGCGCGGCGATGATCGGCTGGTTCGGGTGCGCGATGCTCTGCTATGTCACGCCGAAGGAACACCTCGGCCTGCCGAACAAGGATGACGTCAAGACGGGAATCATCACTTACAAAATCGCCGCCCATGCGGCCGATCTGGCCAAAGGGCATCCGGGCGCGCAGATCCGTGACAACGCCTTGAGCAAGGCGCGGTTCGAGTTCCGCTGGGAAGACCAGTTCAACCTCGGCCTCGACCCGGACACCGCCCGCTCGTACCACGACGAAACCCTGCCGAAGGATTCGGCCAAGGTCGCGCATTTCTGTTCGATGTGCGGGCCAAAATTCTGCTCGATGAAAATTACCCAGGAAGTGCGTGAGTACGCGGCCAACCAGCGCATTGAAGCGGTGGATGTCGAGGTCGCCCAAGGCCTGGCGGAGCAGGCGGAGCGGTTCAAGAAGGAAGGCAGTCAGCTTTACAAGAAAGTGTGA	MTTKSKNATNLSESAQVDQQSVQPFTRSQKIYVQGSRPDIRVPMREISLDVTPTDFGGEINAPVVVYDTSGPYTDPNVSIDVRKGLADVRSPWIEARGDTERLAGLSSNFGQERLADPELTKLRFAHVNNPRRAKPGANVSQMHYARKGIITAEMEYVAIRENMKLEVARAAGLLDQQHAGHSFGASVPKVITPEFVRDEIARGRAIIPANINHTELEPMIIGRNFLVKINGNIGNSALGSSIEEEVAKLTWGIRWGSDTVMDLSTGKHIHETREWIIRNSPVPIGTVPIYQALEKVGGAAEDLTWELFRDTLIEQAEQGVDYFTIHAGVLLRYVPMTAKRVTGIVSRGGSIMAKWCLAHHKENFLYTHFEDICEIMKAYDVSFSLGDGLRPGSIADANDEAQFGELETLGELTKIAWKHDVQCMIEGPGHVPMQLIKENMDKQLECCDEAPFYTLGPLTTDIAPGYDHITSGIGAAMIGWFGCAMLCYVTPKEHLGLPNKDDVKTGIITYKIAAHAADLAKGHPGAQIRDNALSKARFEFRWEDQFNLGLDPDTARSYHDETLPKDSAKVAHFCSMCGPKFCSMKITQEVREYAANQRIEAVDVEVAQGLAEQAERFKKEGSQLYKKV	PGPT0008905_1146	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACIMETHRIN|CF3-HMP_DETOXIFICATION,PGPT0008905-thiC-K03147	NA	NA
D1-35_05310	1440	tolC_3	COG1538	Outer membrane protein TolC	ATGCTGCGCAAACTCTCACTGGCCCTTGCCGTGTCTTGTGCGACCAATGGAATGGCCTGGGCCGCCGAAGCCCCGTTATCCACCAGAACCGACCTGGTCAGCGTGTACCAGGAAGCGGTGGACAACAACGCCGACCTGGCCGCCGCCCGCGCCCAATACGGCGCCCAGAAAGAAGTGGTGCCCCAGGCCCGCGCCGGGCTGTTGCCCAATCTTTCGGCCGGAGCCGACCTGAACAACACCCGCACCGAGCTCGACCAGCCGGCGATGACCGCCACCCGCAGCTCGACGGTGTACCAGGCCACCTTGTCCCAGCCGATTTTCCGCGCCGACCGCTGGTTCCAGTTGCAGGCCGCCAAATCGGTCAACGAACAAGCGTCGCTGCAGTTGTCGGCCACCGAGCAGAACCTGATCCTGCAAAGCGCCGAAGCCTATTTCAATGTGCTGCGCAGCCAGGACAACCTGGCCTCGACCAAGGCCGAGGAAGCCGCGTTCAAGCGCCAGCTCGACCAGTCCAACGAACGCTTCGACGTCGGTCTTTCGGACAAGACCGACGTGCTGCAGTCCCAGGCCAGCTACGATACCGCGCGGGCCAACCGGATCATCGCGCAGCGCCAGGTCGAAGATGCCTTTGAAGCGCTGATCACCCTGACCAACCGCCAATACAATGCGATCCAGGGCGTCGTCCACACCCTGCCGATCCTGCCGCCGGCGCCCAACGACGCCAAGGCCTGGGTCGACACCGCTGCCCGGCAAAACCTCAATCTGTTGGCCAGCAACTATGCCGTCACCGCCGCCGAAGACACCCTGCGCCAGCGCAAGGCCGGCCACGCGCCAACCCTCGACGCCATCGCGCAATACCGCAAAGGTGACAACGACGGCCTCGGTTTTACCAACCCGAACCCCACCGGCCAGCGCTACGGTGGCGACGCCGAGCAACGGACCATCGGCCTGCAATTGAGCATTCCGATCTACAGCGGCGGGCTGACCAGCTCCCAGGTGCGCGAGTCCTACTCGCAACTCACCCAGACCGAGCAGCAGCGCGAAGGCCTGCGCCGCCAGGTGGTGGAAAACACCCGCAACCTGCACCGCGCGGTGAACACCGATGTGGAGCAGGTCCAGGCCCGGCGCCAGTCGATCATTTCCAACCAGAGCGCGGTGGACGCCACGGAAATCGGCTATCAGGTGGGCACCCGCAACATCGTCGATGTGCTCGACGCCCAGCGCCAGCTGTACACTTCGGTGCGCGATTACAACAACGCCCGGTACGACTACATACTCGACAATTTGCGCCTCAAACAGGCCGCCGGGACGTTGAGCCCGGAAGACCTGCAGGCCCTGTCACGCTACCTCAAGCCCGACTACAACCCGGACAAGGACTTCCTGCCGCCGGACCTGGCACAGGCCGCCGCGCAGCAACTGCGCGCTCGGCCGGCGCAGTAG	MLRKLSLALAVSCATNGMAWAAEAPLSTRTDLVSVYQEAVDNNADLAAARAQYGAQKEVVPQARAGLLPNLSAGADLNNTRTELDQPAMTATRSSTVYQATLSQPIFRADRWFQLQAAKSVNEQASLQLSATEQNLILQSAEAYFNVLRSQDNLASTKAEEAAFKRQLDQSNERFDVGLSDKTDVLQSQASYDTARANRIIAQRQVEDAFEALITLTNRQYNAIQGVVHTLPILPPAPNDAKAWVDTAARQNLNLLASNYAVTAAEDTLRQRKAGHAPTLDAIAQYRKGDNDGLGFTNPNPTGQRYGGDAEQRTIGLQLSIPIYSGGLTSSQVRESYSQLTQTEQQREGLRRQVVENTRNLHRAVNTDVEQVQARRQSIISNQSAVDATEIGYQVGTRNIVDVLDAQRQLYTSVRDYNNARYDYILDNLRLKQAAGTLSPEDLQALSRYLKPDYNPDKDFLPPDLAQAAAQQLRARPAQ	PGPT0003600_1383	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-AlgE-TYPE_MANNURONAN_C-5-EPIMERASE_TRANSPORT,PGPT0003600-tolC-K12340	NA	NA
D1-35_05311	1281	waaA	COG1519	3-deoxy-D-manno-octulosonic acid transferase	ATGAACAGAACTCTCTATAGCGCATTGTTTTATCTGGGGCTGCCGCTGGTGGCGATTCGGCTGTGGTTGCGGGCACGCAAGGCGCCGGCCTATGCCCGCCGCATCGGCGAGCGGTTTGCGTGGGGCTTGCCAGCACTGGTTCCGGGCGGCATCTGGGTCCATGCGGTGTCGGTGGGCGAGAGCATTGCCGCCGCGCCGATGATCCGCGCCTTGCTGCAACGTTATCCACAGCTGCCGATCACGGTGACGTGCATGACGCCCACCGGTTCGGAGCGGATCAAGGCGTTGTTCGCCGAGGAGCCGCGCGTCCAGCACTGCTATCTGCCTTATGACCTGCCTTGCGCGGCCAAGCGTTTTCTCGATCAGGTCCGGCCGAAACTGGCGGTGATCATGGAAACCGAGCTGTGGCCCAACCACATCCATCAATGCGCCAGGCGCGGTATCCCGGTGGCGTTGGCCAATGCCCGGCTCTCGGAGCGTTCGGCGCGCGGTTATGCGCGCTTCCCTAGGCTCACCCGACCGATGCTCGGGGAAATGAGCCTGTTCGCCGTGCAGACCGAAGCCGAGGCCGAGCGGTTTCGCCAACTCGGTGCCCGAGCCGGAACCGTCGAGGTGACGGGCTCGATCAAGTTCGACCTGACCATCGACCCGCAACTGCTCGAAAGCGCCAGCGCCCTGCGCCGCCAATGGCAAGCCGTGGACCGCCCGGTGTGGATCGCCGCCAGCACCCATGAGGGTGAGGATGAAGTGGTGCTGGCAGCCCACCAACGGCTGCTCGCCAGTTATCCCGATGCGTTGTTGATCCTGGTGCCGCGGCATCCGGAACGCTTCGATTCGGTGGCGCAGTTGTGTGAGCGTGAAGGTTTCGCCACGGTCCGGCGTTCCAGTGCGCAACCGGTCACTGCACAGGCATCGGTGCTGCTGGGCGACACCATGGGCGAGCTGCTGTTTCTCTACGCGCTGGCCGACAGCGCTTTTGTTGGCGGCAGCCTGGTGCCCAACGGCGGGCACAACCTGCTCGAACCGGCGGCGCTGGCAAAACCGGTCCTCAGTGGCCCACACCTGTTCAATTTCCTCGAAATCGCCGCGCAACTGCGCGCGGCCGGTGCGTTGCAGGAAGTCGAAGATGCCGAAAGCCTGGCCCTGGCGGTACAGCGCCTGTTCGAACTGCCCCGCGATGCCCAGCGCATGGCCGAGGCGGGGTTGAAGGTGATGCGCAGCAACCAGGGCGCGTTGCAGCGATTGCTGGACGGGTTGGGGCGGTTGCTCGACGGCCGCTGA	MNRTLYSALFYLGLPLVAIRLWLRARKAPAYARRIGERFAWGLPALVPGGIWVHAVSVGESIAAAPMIRALLQRYPQLPITVTCMTPTGSERIKALFAEEPRVQHCYLPYDLPCAAKRFLDQVRPKLAVIMETELWPNHIHQCARRGIPVALANARLSERSARGYARFPRLTRPMLGEMSLFAVQTEAEAERFRQLGARAGTVEVTGSIKFDLTIDPQLLESASALRRQWQAVDRPVWIAASTHEGEDEVVLAAHQRLLASYPDALLILVPRHPERFDSVAQLCEREGFATVRRSSAQPVTAQASVLLGDTMGELLFLYALADSAFVGGSLVPNGGHNLLEPAALAKPVLSGPHLFNFLEIAAQLRAAGALQEVEDAESLALAVQRLFELPRDAQRMAEAGLKVMRSNQGALQRLLDGLGRLLDGR	PGPT0022485_1790	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022485-waaA|kdtA-K02527	NA	NA
D1-35_05312	891	yhaJ_2		HTH-type transcriptional regulator YhaJ	ATGAATGTTCAATGGAATCTGGAGCAGTTGCGGCTGTTTGTCGGTGTGGCCGAGAAACGCTCGTTTTCCGCCGTGGCTCGGGACCAGCGCAAGGCGCAGTCGGCCATCAGCAGCGCGATTGCCCTGCTCGAAGCCGACCTTGGCGTGAACCTTTTCGAGCGCAGCAGCGGTCGCCAACCCCGGCTCACCGATGCGGGCGAGACGCTGCTGGAAGAGGCGCGGGAAGTGTTGCGCCAATGCGAGCGGCTCAACGGTCGAGCCCTGGCCTTGATGCGCGGGCAGGAGGCTTCGCTGCGCCTGGCCCAGGATGAAGCCATGCCCTATCAACCGGTAATCGACAGCCTGGTGGCGCTGGCCGAGCAGTTTCCAACGCTCGAAGTGCAGCTTGCCAGCGCCGCCCAGGGCGACGTGGCGCGCAAACTGGTGGAACGTCGCGCCGATCTTGGCTTGCTGTTCTATCACGATCAGATCCCAGAGGCGCTGGAGCGGCGGGTGCTGGGCAGCGTCGAGATGGTCACGGTGTGTGGCCGGGGCCATCCACTGGCGCACCATGGCTATGTGTCGTGCCGGGAAATGGCCCGGCACCGGCAGTTGCTGATGGCGACCCAGACCAGCGTCTACCCCGGCAGCGAGCAGGCCAGCCCGCAGGTCTGGCGCGCCGACAGCTTCTATGTGCTCGCCGAATGGCTCAGAAGTGGCCTGGGCTGGGCCTGGCTCCCTCGCCACGTTGTGCAATACCCGGCCTATCTGGGAGAGATGGTCGAGCTGAGCAGCGAATGGACCCCGCCGGCCCTGGTGGTGGAGCTGGTCTGGCGTCGCGATGAACCGCTGGGCCCGGCCGCGCGCTGGCTGGCGGAACGTTTTGCCGTGCAGTTGCAGGCGATTGGCTGA	MNVQWNLEQLRLFVGVAEKRSFSAVARDQRKAQSAISSAIALLEADLGVNLFERSSGRQPRLTDAGETLLEEAREVLRQCERLNGRALALMRGQEASLRLAQDEAMPYQPVIDSLVALAEQFPTLEVQLASAAQGDVARKLVERRADLGLLFYHDQIPEALERRVLGSVEMVTVCGRGHPLAHHGYVSCREMARHRQLLMATQTSVYPGSEQASPQVWRADSFYVLAEWLRSGLGWAWLPRHVVQYPAYLGEMVELSSEWTPPALVVELVWRRDEPLGPAARWLAERFAVQLQAIG				NA	NA	NA	NA	NA
D1-35_05313	333		COG2076	Multidrug transporter	ATGAACGCCTATTACTACCTGGCCATCGCCATCTGCGCCGAAGTGATCGCCACCGTTTCGATGAAAGCGGTCAAAGGCTTGAGCACACCGCTGCCCCTGCTGCTGGTCGTCGCCGGTTACGGCATTGCGTTCTGGATGCTGACGCTGGTGGTGCGCACCGTACCGGTAGGCGTGGCCTACGCGGTCTGGGCCGGGATGGGCATCGTCATGGTCAGCGTGGCGGCGCTGTTCATCTACGGCCAGAAACTCGACGTACCGGCGATGCTGGGGATGGCGTTGATCGTGCTGGGGGTGGTGGTGATTCAGTTGTTTTCCAAGACGGCGGGGCACTAA	MNAYYYLAIAICAEVIATVSMKAVKGLSTPLPLLLVVAGYGIAFWMLTLVVRTVPVGVAYAVWAGMGIVMVSVAALFIYGQKLDVPAMLGMALIVLGVVVIQLFSKTAGH	PGPT0029230_1239	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029230-emrE|qac|mmr|smr-K03297	NA	NA
D1-35_05314	1176		COG0578	putative FAD-dependent oxidoreductase	ATGCCATCCGTTATTTCCACCGACATCCTGATTGTCGGCGCCGGAGTCGCCGGCCTCTGGCTGAACGCGCGCTTGCGCCGCCAGGGGTTTTCAACCGTGCTGGTGGAAAGCGCCAGCCTCGGTGGCGGGCAGAGTGTCAAATCCCAGGGCATCATTCATGGGGGCGCCAAATACGCGCTGCACGGAGCCCTGACCGGCGCCTCGGAAGCCATCGCCGATATGCCGCGACGCTGGCGCGAAGCCCTGAAGGGCGACGGTGAGTTGGATCTGTCCGGCGTACGCATGTTGTCCGACGCTCATTACCTCTGGTCTCCCGGCACCCTGGCCGGCAACCTGACCAGTTTCTTCGCCAGCAAGGCCGTGCGCGGTCGCGTCGACCAGGTCAAAGGCGAGCAACTGCCGCCGGCCCTGCAGGACAAGCGCTTCAAGGGCAAGGTCTACCGCCTCGCCGAGCTGGTGGTGGACGTTCCCAGCCTGATTGCCCGCCTGGCGGACCTGGCCGGCGACAGCCTGCTGGCCGGGCAGCGCATCGAACCCTTGCACGAACAGGGCGAGCTGGTCGGACTGAAGGTCGACGACCGCGAGATCCGCGCCCAACGCATTGTCCTCAGTGCTGGCGGAGGCACTGCCGACTTGCTCAAGGCCCTTGGCCTGGATCAGCCGGCCATGCAGACCCGGCCGCTGCACATGGTGCTGGTCAAGGGGCCGAGCCTCAAGCCGTTGTATGCGCACTGCCTGGGCGGCGGACCGAAGCCACGCGTCACCGTAACCACGCACCCGGCAGCCGACGGCCAGTGGGTCTGGTACTTGGGTGGCGACCTCGCCGAGGGCGATGCCGTCGCTCGCGAACCCGCCGCGCAGATTGCCATCGCCCAGAAAGAAATCAGCCAGTTGTTGCCGTGGATCGACCTCAGTACGGCGCAATGGGCCACGCTGCGGGTCGCGCGCGCCGAACCGCTGCAATCGGGCCTGACCCGTCCGGACAATGCTTTTGTCGCCGAGCAAGGACGCCTGCTGGTGGGTTGGCCGACCAAGCTGGCGCTGGCCCCGGACTTTTCCGACCGGGTCATCACCGCGCTGCAACGCGACGGCATCCAGCCCAGCCACCCCGCCCCGCTGCCGGCCCTGCCGAAACCGCCCATGGGCGTCCCCGCCTGGGAGCAATTGTTGCCATGA	MPSVISTDILIVGAGVAGLWLNARLRRQGFSTVLVESASLGGGQSVKSQGIIHGGAKYALHGALTGASEAIADMPRRWREALKGDGELDLSGVRMLSDAHYLWSPGTLAGNLTSFFASKAVRGRVDQVKGEQLPPALQDKRFKGKVYRLAELVVDVPSLIARLADLAGDSLLAGQRIEPLHEQGELVGLKVDDREIRAQRIVLSAGGGTADLLKALGLDQPAMQTRPLHMVLVKGPSLKPLYAHCLGGGPKPRVTVTTHPAADGQWVWYLGGDLAEGDAVAREPAAQIAIAQKEISQLLPWIDLSTAQWATLRVARAEPLQSGLTRPDNAFVAEQGRLLVGWPTKLALAPDFSDRVITALQRDGIQPSHPAPLPALPKPPMGVPAWEQLLP				NA	NA	NA	NA	NA
D1-35_05315	813	iolS	COG0667	Aldo-keto reductase IolS	ATGAGCCTACCGACCCTGCACGACCTGCATCGCCCGCTGGGCCATAACGGCCCGCTGGTTTCTCCCCTGGGCCTGGGCACGGTCAAGCTTGGCCGCGACCAGGGCGTCAAGTACCCCAACGGTTTTCGCATCCCGGATGACAGCGAAGCGCGCATGCTGCTCAAGCTGGCCCGCGAGCTGGGCATCAACCTGATCGACACCGCACCGGCTTATGGGCACAGCGAAGAACGCCTCGGCCCACTACTGCGCGGCCAGCGTCACGACTGGGTGATCGTCAGCAAGGTCGGTGAGGAGTTCAACGATGGCCAGTCGCGCCACGACTTCAGCGCCGCCCATACGCGGTTTTCGGTGGAGCGCAGTCTCAAACGCCTGGAAACCGAGTATATCGACCTGGTACTGGTGCACTCGGACGGCAACGACCTGGCGATCCTCAACGACAGCGAGGTCTACCCGACCCTGGCGGCCCTCAAGCGCGAGGGCAAGATCGGTGGCTTCGGTTTCTCCGGCAAGACCGTCGACGGCGGCTTGAAAGCCCTGGAGCAAGGTGATTGTGCGATGGTCACCTACAATCTGAACGAACGAAGCGAAAAGGCGGTCATTGACTACGCAAGCGAGCACGGCAAGGCGATCCTGGTAAAAAAAGCCCTGGCCAGCGGTCACGTCTGCCTGAGCCCCGGCGAAGACCCGGTTCGCACCAGCTTCGAACTGTTGTTTGAGCATCCCGGGGTTGCCAGTGCTATTGTCGGCACCATCAATCCGCTGCACCTCGCCCATAACGTCGCGACCGTAGCCAAGGTCCTGCGTAAAAACTGA	MSLPTLHDLHRPLGHNGPLVSPLGLGTVKLGRDQGVKYPNGFRIPDDSEARMLLKLARELGINLIDTAPAYGHSEERLGPLLRGQRHDWVIVSKVGEEFNDGQSRHDFSAAHTRFSVERSLKRLETEYIDLVLVHSDGNDLAILNDSEVYPTLAALKREGKIGGFGFSGKTVDGGLKALEQGDCAMVTYNLNERSEKAVIDYASEHGKAILVKKALASGHVCLSPGEDPVRTSFELLFEHPGVASAIVGTINPLHLAHNVATVAKVLRKN				NA	NA	NA	NA	NA
D1-35_05316	966			hypothetical protein	ATGCCGCGTACGCTCATCAGAAAAAACCCGAGCAACTTCAAGACCCTGCCCCTCGCTGTCGAAGCAACGCCCGAAGGCCTGACATACCAGAGCGTGGGCATGCCGCTGAATTTCGCCCAGACTTTGCAGCGGCGCCGCCCCGTGACAGTCGACGATGCCGAGCGTTTTTCCGTGGAACTGGCGAACCTGGGCGTCTCGGTACGCCTGACGCTGCATTGGCAGAACCGCGATTATTGGGTGCTCGTGCGTCAACGCCGACAGGATCGCGGCGATGTAGTGCTCAAGCTGATTTCCGGCTACGTCCCGGCCCATGAACTGAACCTGCCGCTGCTCACCGCGATCAACGAAATAGCCGAAGAATGCCTGCTGGAAACCCCTGAAGGCTGGCTTGGCGGACGTTTCAACGACACGTGGTTGCCGGCGCCCTATTCAAGCGCCCTGCATTACCGTGAGGCCCTGCCGTTTCGACTGGCCCCGCTATCGGGCTCGGCTCGCCCGGTGCGCTGCGCCAACCTGCAACTGATCGAACGCCCAAGGGCCTACGTCCATTTGCCCACGGCATCGCTGCAGTTGATCTACGATTTGCGCCTGGATGTGCCCAAGGAAGCCAAGTCCCTGAGCCTTTTCCATGTCGATGAACGGCTGGAGGGCGACCAACTGGTCGCGCGCCTGGATCGCAAGCGGCCCGATCTCTACCTGATGCCGCTGCAGGACGGGCAACCCTTGCCCGAGCTGTATACGTTGAAGAAAGACCAGTTATACCCGGCCAGCACCCGAGGGTTGTATCTGGCGGAGAGCTTCGCCCGACAGGACGGCTGGCTGGTGCGCGAGGAGCGGATTCGCTGGAAGGACTGGCTGCGCCAGCAAGGGCTGACGCCGCCAGGAAAAGAATCCGGGCTGACCCGATTGAAGGGCAAGGCCCGGCAGTTGCTCAAGAAGATCGTGCCACGCAAGGTGGTGCGTTAG	MPRTLIRKNPSNFKTLPLAVEATPEGLTYQSVGMPLNFAQTLQRRRPVTVDDAERFSVELANLGVSVRLTLHWQNRDYWVLVRQRRQDRGDVVLKLISGYVPAHELNLPLLTAINEIAEECLLETPEGWLGGRFNDTWLPAPYSSALHYREALPFRLAPLSGSARPVRCANLQLIERPRAYVHLPTASLQLIYDLRLDVPKEAKSLSLFHVDERLEGDQLVARLDRKRPDLYLMPLQDGQPLPELYTLKKDQLYPASTRGLYLAESFARQDGWLVREERIRWKDWLRQQGLTPPGKESGLTRLKGKARQLLKKIVPRKVVR				NA	NA	NA	NA	NA
D1-35_05317	1422	hldE	COG2870	Bifunctional protein HldE	ATGAAGTTGTCCATGCCGCGATTCGATCAAGCCCCTGTATTGGTGGTCGGCGATGTCATGCTCGACCGCTATTGGCATGGCGGTACATCACGGATTTCCCCCGAGGCTCCGGTGCCGGTGGTCAGGGTCGAGCATATCGAGGATCGGCCAGGTGGCGCCGCCAACGTCGCCCTGAACATTGCCGCGCTCGGCGCACCGGCGTCCCTGGTCGGCGTGACCGGCGACGACGAAGCCGCCGACAGCCTGGCCAACAGCCTCAAGGGCGCGGGCGTGCGGGCGATATTCCAGCGCATTGCGCACCAGCCGACGATCGTCAAGTTGCGGGTCATCAGCCGCCATCAACAACTGTTGCGGATCGACTTCGAAGAACCGTTCGCCACCGATCCCCTGGCCCTTGGCGCCGAGGTCGATCAACTGCTCGAAGGTATCAAGGTGCTGGTGTTGTCGGACTACGGCAAGGGCGCCTTGAAAAATCACCAGACGCTTATCCAGGCGGCTCGTGCCCGGGGCATTCCGGTGTTGGCCGACCCCAAGGGCAAGGATTTTTCCATCTACCGTGGCGCGAGCCTGATCACCCCGAACCTCAGCGAATTCGAGACCATCGTCGGTGGCTGCGCCGACGAGCACGAGCTGGTGAGCAAAGGCGCACAGCTGATGCACGACCTGGAGCTCGGTGCGCTGCTGGTCACCCGGGGCGAACATGGCATGACCTTGTTGCGTCCCGATCATCCGGCGCTGCACCTGCCGGCCCGTGCCCGTGAGGTATTCGACGTGACGGGTGCCGGCGATACGGTGATTTCCACACTGGCGGCGGCCATCGCCGCTGGCGAGGAACTGCCTCATGCGGTGGCCCTGGCGAACCTGGCGGCGGGTATCGTGGTTGGCAAACTGGGTACGGCGGCCATCAGCGCTCCGGAGCTGCGTCGCGCCATCCAGCGTGAAGAGGGTTCCGAGCGTGGCGTGCTCGGGCTGGAGCAGTTGCTGCTGGCCGTCGACGACGCCCGCGCGCACAACGAAACAATCGTGTTCACCAACGGTTGCTTTGACATCCTCCATGCCGGCCATGTGACGTACCTCGAACAGGCCAGAGCCCAAGGCGATCGTCTGATCGTCGCGGTCAACGACGATGCCTCCGTGAGCCGTCTCAAAGGGCCGGGCCGGCCAATCAACAGCGTTGACCGCCGCATGGCGGTGCTGGCCGGCCTTGGCGCGGTGGACTGGGTGATCAGCTTCAGTGAAGGCACGCCGGAAAACCTGCTGCGTCAAGTCAAGCCGGACGTGCTGGTCAAGGGTGGCGACTATGGCATCGACCAGGTCGTCGGCGCCGATATCGTCGCGGCTTATGGCGGCACCGTGAAGGTGCTGGGGCTGGTGGAGAACAGCTCGACGACGGCGATTGTGGAGAAGATCCGCAATAACTGA	MKLSMPRFDQAPVLVVGDVMLDRYWHGGTSRISPEAPVPVVRVEHIEDRPGGAANVALNIAALGAPASLVGVTGDDEAADSLANSLKGAGVRAIFQRIAHQPTIVKLRVISRHQQLLRIDFEEPFATDPLALGAEVDQLLEGIKVLVLSDYGKGALKNHQTLIQAARARGIPVLADPKGKDFSIYRGASLITPNLSEFETIVGGCADEHELVSKGAQLMHDLELGALLVTRGEHGMTLLRPDHPALHLPARAREVFDVTGAGDTVISTLAAAIAAGEELPHAVALANLAAGIVVGKLGTAAISAPELRRAIQREEGSERGVLGLEQLLLAVDDARAHNETIVFTNGCFDILHAGHVTYLEQARAQGDRLIVAVNDDASVSRLKGPGRPINSVDRRMAVLAGLGAVDWVISFSEGTPENLLRQVKPDVLVKGGDYGIDQVVGADIVAAYGGTVKVLGLVENSSTTAIVEKIRNN	PGPT0023040_1098	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-MANNO-HEPTOSE|-PHOSPHATE_MODIFICATION,PGPT0023040-gmhC|hldE|waaE|rfaE-K03272	NA	NA
D1-35_05318	1434			hypothetical protein	GTGAGCGCACGCAAGCAGCAACTGCTCAAACGCCACCGTCAACGCAAGCGCCTGGTTCTGGCCGGCGCGCTGCTGGCGGCGCTGGTGCTCGGCTTCACGGTCTCGTGGTGGTCGTTGCCGGTGTTTCTCCTGTTGGGCTGGGTGGCTCATGAAGCCTGGTTCTCCGACCATCTGTTCTATGCTCCGAGCGATGATTATCGCTATGACTTTCCGCCAGATACCCCGCAATTTCCCGTCACGCTGAGCGGCGGACGCCTGCAGGTCACGGGTCAGTTCGATGCCCGGCAGACGCTGATCCTGCAGGTACGGGTAAAAAGTCGTTGGCTGGGGCGGTTCCTCGACCCACAGGTGTGGATCGGTGAGGATCGCCAGGATCTTGAGCGGGGCGTCTGTGGCGAGCGCTTCCTCAATCTGTCCGGGCAAGGAGCCGCGCTGACTACCGGGACCCTGGCCTTGCGCGGGCGTTTTTGCAGCCTGGCTCCCCAGGCTATGTTGCATGTGCTGAGCAACCCGGATTTCGCCCGGCAGCGCCTGCTGATCGTCGCGCCCCATGCCGATGACGCCGAACTGGCGGCGTTCGGGCTGTACAGTCGTGCCAGCGAGGTTGCGATCGTTACGCTGACCCAGGGTGAGATCGAGGCCGAGCGTTATCGCGACATGGGCCTGGATCCCGCCGAGGCCGCTCGTCTCAAGGGTCGCCTGCGCAGTTGGGACAGCTTGGCCGTGCCATTGTGGGGGGGCGTGGCGCAACAGCAGTGCGTGCAGCTGGGTTACTACTGCCTGCAATTGGAGGCCATGGCCAAGACGCCGGACCAGGGCTTTGGCTCGCGGGAGTCGGGCGAGAGCGATATCCGCCAGGTTCGTCGGTTCAATGCCTTGAACCTGCCGGGTGACGCGGATGGCCTGCCGACGTGGCGCAACCTGGTGGCTGACCTTGCGCGGCTGCTCGAACATCACCGGCCCGAGGTGGTGCTGACGCCGCACCCCGAGCTGGACCCCCACAGCGATCATGTCGCCAGTACCCGGGCGCTGATGGAGGCGATCGAACTCAGCACCTGGCGGCCACAGACATTGCTGCTCTATGCCAATCACCTGCACGACAACGACCGCTGGCCGATGGGCCCGGCAGGCTATGGCATTGCGCTGCCGCCGGCCATCGAACCGTTGCCGGCCGATGGGTTGTGGAGCCCGTCGCTGGACGCCTCCACCCGCATGGACAAGGCCATGGCCCTTGGCATGCAGCATGACTTGCAGGGCCGACCTCCATTCAAGCGACGGCTGCGCCGTATCATCCAGCGACTGCTGGCCGGGCGCCGCTGGCCCAGCACCGGAGAAGACGAATTTTTCCGCAAGGCGGTTCGGCGCCACGAGCTTTTCTGGGTCCGGCGGCTGAATGGGACGCCGCCGGAGGACGACCAGGCCCGTCGACCTTGA	MSARKQQLLKRHRQRKRLVLAGALLAALVLGFTVSWWSLPVFLLLGWVAHEAWFSDHLFYAPSDDYRYDFPPDTPQFPVTLSGGRLQVTGQFDARQTLILQVRVKSRWLGRFLDPQVWIGEDRQDLERGVCGERFLNLSGQGAALTTGTLALRGRFCSLAPQAMLHVLSNPDFARQRLLIVAPHADDAELAAFGLYSRASEVAIVTLTQGEIEAERYRDMGLDPAEAARLKGRLRSWDSLAVPLWGGVAQQQCVQLGYYCLQLEAMAKTPDQGFGSRESGESDIRQVRRFNALNLPGDADGLPTWRNLVADLARLLEHHRPEVVLTPHPELDPHSDHVASTRALMEAIELSTWRPQTLLLYANHLHDNDRWPMGPAGYGIALPPAIEPLPADGLWSPSLDASTRMDKAMALGMQHDLQGRPPFKRRLRRIIQRLLAGRRWPSTGEDEFFRKAVRRHELFWVRRLNGTPPEDDQARRP				NA	NA	NA	NA	NA
D1-35_05319	900			hypothetical protein	TTGATCCTGAGTTACTGGCGGGCCTGGCGCGAGAACGGTTGGACCCCCATAGACGCCGTGGCATACGCCCAGGCCTGGCATCAATTCGGTGGCAGCGTGGCGACACACCCTGATGTGGTCGAGCGCCTGGCCGGGCTGGTGGGCATTCCGGTGCGCTACCTGGGCTGGCTCGTTGACGGCCAGCTGTGTGCCGCCATGCCTACCTGGGGCCGGCATGTGGCGCTGTCCAAGGATGTGCTCAAGCGTGAAGGCAAGCGTGGCATGCTCGACCTCGGCAATGCCGAGGTCATCCTGCCCGTCAGCCAAGGCGCCCAGGTTCGCCTGCGGCACCGCATGCGGTATGTGTCCGAACTGAATGCACCGCACATCATCGGTCTCGCCGAACAACCCGAAGGCCTGGCGCTGGCGCGTGAGCCCGAGGACTACAGCAAGAAGTTTCGCTACAACCAGCGTCGCGAGCAGCGCCTGCTGGAAGACGCCGGTGGCAGTATCCGGCCAATGCTCGACCTGAGCCCCGGCGAGCAGGCTGCGGTGTATGCCGACCTGTTCCAGCGTCGCTGGAATTTCGAAGCCCCCGGCAAGACCCATCTGGCCGAGGTGTTCAGCCTGATGCGCGAATTCATGACCGGCTCGCTGATCTATCTGAATGACGAACCGGTGGCGATCCAGATTCTGTATCGGGTCGAGGCGCCCGGCTGGTTCAGCCTGGAATATATCAATGGCGGGGTTGACCCGCAGAGCCGAGATTTCAGCCCGGGCAGCGTGCTTAGCTTCGTCAACACCCAGGCACAATGGGAGCACGCCCGGGCGGCGGGCAAACCGTTGCGCTACTCGTTCGGCCGCGCCGATCGCGAATACAAGGATCGCTGGTGCAACCGGGTTCCGGTCTACCAGGTTTGA	MILSYWRAWRENGWTPIDAVAYAQAWHQFGGSVATHPDVVERLAGLVGIPVRYLGWLVDGQLCAAMPTWGRHVALSKDVLKREGKRGMLDLGNAEVILPVSQGAQVRLRHRMRYVSELNAPHIIGLAEQPEGLALAREPEDYSKKFRYNQRREQRLLEDAGGSIRPMLDLSPGEQAAVYADLFQRRWNFEAPGKTHLAEVFSLMREFMTGSLIYLNDEPVAIQILYRVEAPGWFSLEYINGGVDPQSRDFSPGSVLSFVNTQAQWEHARAAGKPLRYSFGRADREYKDRWCNRVPVYQV				NA	NA	NA	NA	NA
D1-35_05320	1791	msbA	COG1132	Lipid A export ATP-binding/permease protein MsbA	ATGGCCAATTCCGACCAGCAATCGAGCATGAAGATTTACTTGCGATTGCTGAAATACGTTCTCCCGTATTGGGGCGCTTTCGCCGTCAGTATCGTTGGCTTCGTGTTGTTTGCATCCAGCCAGCCGATGCTGGCGGACATGCTCAAGCATTTTCTCGACGCGCTGCAAAAGCCCAATGACACCCGCTTCATGGGGGTCTCGCTGGTGCTCGGGGTGCCGCTGCTGATCGTGCTGATCGCGGTTTACCAGGGGATCGGTTCGTTCCTGGGCAACTACTACCTGGCCAAGGTCGCCCGGGGCGTCGTCCATGACTTGCGTTGCGCGCTGTTCGACAACCTGCTGACCTTGCCCAACCGTTATTTCGACAACCATAACTCCGGCCACCTGATTTCCCGTATCACCTACAACGTGACCATGGTCACCGGCGCCGCCACCGATGCCATCAAGGTTGTCATCCGGGAAGGCCTGACCGTGGTGTTCCTGTTCGGCTACCTGCTTTACAGTAACTGGAAAATGACCCTGGTATTGCTGGCGATCCTGCCGGTCATTGCCGTGCTGGTGAGTAGCGCCAGCAAGAAATTCCGTAAGCAGAGCAAGAAGATCCAGGTGGCGATGGGCGATGTGACCCACGTGGCGTCGGAAACCATCCAGGGCTACCGCGTGGTACGCAGCTTCGGCGGCGAACACTACGAAATCGAGCGGTTTCACAAGGCCAGCGCCGACAACATGAACCGCAGCCTGGGCATGACGCGGACCCAGTCGATCTACACGCCGATGCTGCAACTGGTGATCTATATCGGCATGGCCGTGTTGATGTACCTGGTGCTTTACCTGCGTGGCGATGCGTCGGCAGGGGAACTGGTCGCCTACATCACCGCCGCCGGTCTGCTACCCAAACCTATCCGCCAGTTGTCGGAAGTCAGCGCCACGATCCAGAAAGGACTGGCCGCGGCGGAAAGCATTTTCGAGCAGCTCGACGAAGAGCCCGAAATCGATACCGGCACCCAGGAAATGGTCCGGGTCAATGGTCGCCTGGAAGTGCGCAACCTGAGCTTCCAATACCCGGGTACGGAAAAGCTGGTACTCGACGATATCTCCTTCACCGCCGAAGAGGGCCAGATGATCGCCCTCGTAGGGCGCTCGGGCAGCGGCAAGTCGACCCTTGCCAACCTCATCCCGCGGTTCTATCACCACGACAAGGGCCAGATATTGCTCGACGGCGTGGATGTCGAGCAGTACCGGTTGACCAACCTGCGTCGCCACATTGCCCTGGTGAACCAGCAGGTCACGCTGTTCAACGACAGTGTCACCAACAACATCGCCTATGGCGATCTTGCCGGCGCACCGTTTGAAGACGTCCGCAGGGCTGCCGAAGATGCCTACGCGGCTGAGTTCATCGAGCAGATGCCCCAGGGTTACGACACCCTGGTGGGCGAGAACGGCGTGCTGCTGTCCGGCGGCCAGCGCCAGCGCCTGGCGATTGCCCGGGCGTTGCTCAAGAACGCTCCGCTGCTGATCCTCGATGAAGCCACGTCGGCGCTGGACACCGAGTCCGAGCGGCACATCCAGGCAGCCCTCGACCAGGTGATGAAAGGGCGCACCACGTTGGTCATCGCCCACCGGTTGTCGACGATCGAGAAAGCCGATCTCATCCTGCTGATGGACAAGGGCCGTATCGTCGAGCGCGGTACCCACGCCGAGTTGCTGGCGCTGAATGGCTTCTACGCACGCTTGCACGAGAAGGACTTCGTCGAGGCTACCGACGAGGTGGCGAAGGAGACCTTCGTTTGA	MANSDQQSSMKIYLRLLKYVLPYWGAFAVSIVGFVLFASSQPMLADMLKHFLDALQKPNDTRFMGVSLVLGVPLLIVLIAVYQGIGSFLGNYYLAKVARGVVHDLRCALFDNLLTLPNRYFDNHNSGHLISRITYNVTMVTGAATDAIKVVIREGLTVVFLFGYLLYSNWKMTLVLLAILPVIAVLVSSASKKFRKQSKKIQVAMGDVTHVASETIQGYRVVRSFGGEHYEIERFHKASADNMNRSLGMTRTQSIYTPMLQLVIYIGMAVLMYLVLYLRGDASAGELVAYITAAGLLPKPIRQLSEVSATIQKGLAAAESIFEQLDEEPEIDTGTQEMVRVNGRLEVRNLSFQYPGTEKLVLDDISFTAEEGQMIALVGRSGSGKSTLANLIPRFYHHDKGQILLDGVDVEQYRLTNLRRHIALVNQQVTLFNDSVTNNIAYGDLAGAPFEDVRRAAEDAYAAEFIEQMPQGYDTLVGENGVLLSGGQRQRLAIARALLKNAPLLILDEATSALDTESERHIQAALDQVMKGRTTLVIAHRLSTIEKADLILLMDKGRIVERGTHAELLALNGFYARLHEKDFVEATDEVAKETFV	PGPT0029415_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029415-comEC-K02238	NA	NA
D1-35_05321	1086			hypothetical protein	GTGTTGCCCAGCAACAAGCTGTACCACCAATTGCTGATTTTCCTGTTGTGGTTGCCCGCGTTGTTGGGACTGCTGCATCGGGATTTCCGCTCGATGCTCAAGCTGCCCGAATGCGTACTTTTCGCCGTGCTAGTGGCCTGGACGCTGGCAGTGCTGATGGTCGAGGGCGGCGATAACGCCTTGGGCAAGAGCAAGGTGGTTCTCTACGTGACGCTGACCCTGGCAGGCGTGCTGCTGGCTGCGCAGAATCGCCACTGGCGGCTGGAGTCCATGGTGCTGGGGGCGTCGATTCTCGGCGGGTTATTCGCAGCCGCGTCCTGGGTGTATTTCTACGGGCTCAGTGCCCGGCCTTTGAGCGACCGGTTGATTGCCATCGGCCTGTGGGATACGCCGATCATGGCTGCCCATGCGGTGGGGAGCCTGGCGATCATGGGCGCTTTCACCTGGCGATCCAGGCATCTGAAACCGGCTTTGATGGCGCTGCTGATGATCGCGGCGCTGGGCTATCTGTTATTTCTGGGTTCCAACCAGACCCGTGGGGTGTGGATCGGGCTGGGCGCCTGTCTGCTGGTGATGGCGATGGCGCGACCTTCACGCCTGGGCGGCGCGCTGGTAGCCCTGGTCGTGGTGGGGGTGGCCATGGTTGCCGCATTCGAGCCGGAAATCCTCCTGCAGCGGGGCCTGTCTTATCGTCCCCAGCTGTGGCGGGGCGGTGTTCAATTGATGCTCGATCACTGGGCGATGGGCGTGGGGTTCCATTCCTACCTGATTCCCGTCCCTGAAATTGGCCAGGCTTTCAAGCATCCGCACAATCTGTTCCTGGATACCGGTGTGCGCCTTGGCGTGCCTGGCCTGCTGCTGTTTGGCGGGCTGTGGCTGGTTGCAGGCTGGAGAGGCTGGATGTGCCGCGCGCAATCGCTGGGCCAGGTGTTGTTGGCGCTCTGGGTCTTCGCATCGGTTTCCTTGATGACCGACGGCATTGGCTTGTGGCTCAAACCCAATGCGGACTGGATGGCCATCTGGCTGCCCATTGCGTTGAGCATCGTGCTGGCTGCCCGAGGTCGCGCCGCAGGGACTTCCTCCTGA	MLPSNKLYHQLLIFLLWLPALLGLLHRDFRSMLKLPECVLFAVLVAWTLAVLMVEGGDNALGKSKVVLYVTLTLAGVLLAAQNRHWRLESMVLGASILGGLFAAASWVYFYGLSARPLSDRLIAIGLWDTPIMAAHAVGSLAIMGAFTWRSRHLKPALMALLMIAALGYLLFLGSNQTRGVWIGLGACLLVMAMARPSRLGGALVALVVVGVAMVAAFEPEILLQRGLSYRPQLWRGGVQLMLDHWAMGVGFHSYLIPVPEIGQAFKHPHNLFLDTGVRLGVPGLLLFGGLWLVAGWRGWMCRAQSLGQVLLALWVFASVSLMTDGIGLWLKPNADWMAIWLPIALSIVLAARGRAAGTSS				NA	NA	NA	NA	NA
D1-35_05322	1122			hypothetical protein	ATGACAAAAACGCTGTTCATTTCCCTGGCCAAGCACCAAGGCCTTTATTTCAACCGCTTGCTCAACGAAACCGAGCTGCAGGGTAAAGTCGTTTCTCCTCAACAAATGCCTTGGCCCGGGTTCCGACGGATCTCCAAGGTTGTTTCGCGCATCGATTGGCCGAGTCTGATCGAGGAAAAGTGCGCGGAACGTCGGGTCAAGAACAAGAACAATGGCGCGCTGTATCGCCTGTTGCTGCGCCTCGAACTTCTCTGGATGGCCCTGCGCGCCCAGGCCTTGCTTGATCGGGAACGCCCCGATGCGTTGGCGTTCTGGAACGGTTCCCATCGTTATTGCCGGTTGCTCACGGCGCTGGCACCGAGTGGCTGCAAGACGTTCTTTTTCGAGAACGGCCTGTTGCCCGACACCACCACCGTGGACCCGCGCGGCGTGAACTACCTGAACGCGGTTCCTCGCGATGCCGGTTTCTACCTCGACTACCCGTATCCGGTGCCGGAAAACCAGGCTGCACCGGTGCTGATTCCGCGTGCGCCACGCAGCGCCGGCCCGGCGCCGATCGAGCTGCCGGCGCAATTCGTGTTCATTCCGTTCCAGGACGATCGTGACAGCCAGGTCCGGCTATTCTCGCCCTGGATCAGGAACATGTGCGAGATGTTTGCCTTGGGCGAGCGACTCGCCGAGGAGACGGGCCTGACGGTGGTGTTCAAGGAGCACCCGTCCAGCCGCGAGACGTACCCCGAGCTGCACGAACGGACCCATGAGCGCCTGCTCTTCGCCAACGGCAATGCCACGCAGCAGTTGATCGAGGCCAGTCAGTTCGTGATCACGATCAATTCGACCGTGGGCCTGGAAAGCTTGTTGTTGGGCAAGCCGGTGCTGACCCTGGGCCAGGCGTTTTTTAATATCGAGGGGCTGGTGATGCACGCCGACGATGCCGATCAGGTCGTATCATTGGCCCGTGCATTCCCGCAATGGCCGCTTGATGAGCGCTTGCGCCGCAACTTCTTCCATTACCTTTCCGAGTGCTATTGCATCAAGGGTGGCTGGAAGAATGCCGATCAGGCTCAGTTGCAACGGGTCGCCGACAGGCTGTTGGGTAAAGACCAATGCCCATCTGCCTGA	MTKTLFISLAKHQGLYFNRLLNETELQGKVVSPQQMPWPGFRRISKVVSRIDWPSLIEEKCAERRVKNKNNGALYRLLLRLELLWMALRAQALLDRERPDALAFWNGSHRYCRLLTALAPSGCKTFFFENGLLPDTTTVDPRGVNYLNAVPRDAGFYLDYPYPVPENQAAPVLIPRAPRSAGPAPIELPAQFVFIPFQDDRDSQVRLFSPWIRNMCEMFALGERLAEETGLTVVFKEHPSSRETYPELHERTHERLLFANGNATQQLIEASQFVITINSTVGLESLLLGKPVLTLGQAFFNIEGLVMHADDADQVVSLARAFPQWPLDERLRRNFFHYLSECYCIKGGWKNADQAQLQRVADRLLGKDQCPSA				NA	NA	NA	NA	NA
D1-35_05323	633			hypothetical protein	ATGCAAACGCTCGACCCTACTGTTTACCTCAGCCTGCGCGAAGGTGCCGATGTCCTTGAGGCCGATCGCCAAGGGGATAAGGTGCTGCGCCTGGCCGATGGCTCGATGCTCAAGCTGTTTCGCCGCAAACGCCTGCTGACCTCCGCGCTCTGGTCACCGTATGCCAAGCGCTTTGCCGACAACTGCCAGACCTTGCAGGCGCGCGGCATCGAATGCCCGCGCATTCGCCAGGTCTACCGCATTCCCGCCATCGAGCGTGATGCCGTGCATTACGACCCGCTGCCCGGCAGCACCCTTCGTCAACTGCTCGGCGCGGACACCTCTATCGACCTTCGGTCACGACTGGGTGAGTTCATCGCTCGCCTGCATCAGAACGGTATCTATTTTCGCTCCGCGCACCTGGGCAACGTGGTGCTGACGCCTGAAAACACCTTGGGACTGATCGATGTCGCCGACCTGAAGGCCTATCGCAAGCCGCTACGCAAAGGGCTGCGCCTGCGCAATTTCAAACACATGTTGCGCTATCGACAGGACCGCGAATGGCTGCTCCAGGACAACCAGTTCCTGGAGCATTATCTCAGTCATCAGAAGGTGTGCAACGAGCGGGAGCTGAAGCTCGCGCTCGGCATTTGA	MQTLDPTVYLSLREGADVLEADRQGDKVLRLADGSMLKLFRRKRLLTSALWSPYAKRFADNCQTLQARGIECPRIRQVYRIPAIERDAVHYDPLPGSTLRQLLGADTSIDLRSRLGEFIARLHQNGIYFRSAHLGNVVLTPENTLGLIDVADLKAYRKPLRKGLRLRNFKHMLRYRQDREWLLQDNQFLEHYLSHQKVCNERELKLALGI				NA	NA	NA	NA	NA
D1-35_05324	1260			hypothetical protein	ATGTTCCAGGCCGACGGAAGCTGGGCTCGAAAGGCTCGTGAACTGGACCGCTACCGCTGGAAACTGCTGCGCGAGCGCCACGGTCGCCTGGGCAGCCTGTTGCGCCTGGTTCGTGACGTGCTGGTGGATGTAACGATTGGTTTGCGCGCCAAGGCGTGCTTGAAGCATTCGACCGACACGGTACCTTGCGAAGTGCTGCTGCTGCATTCAGCGCCCAAGTCCATGGCGCTGCAGCGCAAGAACATCCTGATCGATGCCCTGCGCAAGCGCGGTCATCAACTGACGGAAGCTGCGCTGCGCGCTCCCGCGGATGCCTGTGCCCAGCGCATGCTGGCACCGCCGCCACAGTCCGTGCCGCTGCGTTACCTGGTCTATGCCGCCCACGCCCAATGGCTGGTGATGACCTATCAGCCCAAAGTACTGATCAACGAACGCAATGGCAGTCTGCACGCGCCGTTCCTGCGCCTGGCGCTGGCTGCGCGTGGGGCCCGCCTGCTGCACCTGGCGCATGCCACGACATTGGAGTCGTCCCGCCGGCTGGGAATGAACGACTACGATTATTACGGCGTCTTCGGCCGCAGTTCGCTGGAAGCACTGCAAGAGCGGACGCTGCGGTTCGGTGAGTCGACGGTGGTGCTGGTCGGTTCCTACCTCGCCGACGAAACCTATGACCTGCCCGTCGCTGATCCAACTATCAAAACGCTGCTGGTGTTGGGGGTAGGGCCTGATCGGGAGAAAGAAGCCGGTTACCAAGACACTTATCAGTTGCTGCGCGATTGGGCCGGGCGCAACCCGGATTATCGCGTGCTGTTCAAGCGCCATCCGCGCAGCAAGGCGCAGTTCTGGCGCGACGCGGCGACGCGGTTCGCCAACATCGAGTTGCTGGATGTGGAGTGCTCGCTGGCACAGGCGCTCGCCCAGGCCAGCGTGGTCATCAATATCATGTCCAATGCCGGCATCGAGGCAGGGCTGGCGGGGCGTCCGGTAGTTCACGTGAATGCCGGCCGCGATGTGGATATCTTTTCCCACGCGTTGTTCTTCGGGCCGCAAGTGCGCGATGAACGGGCGTTTTCCCAGCAGTTGCACGCGCTTGAGCAGGACTATCCGCAATGCGTGGCCAAGGCTCGGGGCTTCGCCGACTACCATCTGGTGCACGGCTCCAGAGGGTTGGCAAAAACCGTCGAGCTGGTCGATGACTTGCTGCGCGGCAGAGACCCAGCAGAAAAATTCGAAACCTTCAGGCTGCCTGCCGTCGGCTGA	MFQADGSWARKARELDRYRWKLLRERHGRLGSLLRLVRDVLVDVTIGLRAKACLKHSTDTVPCEVLLLHSAPKSMALQRKNILIDALRKRGHQLTEAALRAPADACAQRMLAPPPQSVPLRYLVYAAHAQWLVMTYQPKVLINERNGSLHAPFLRLALAARGARLLHLAHATTLESSRRLGMNDYDYYGVFGRSSLEALQERTLRFGESTVVLVGSYLADETYDLPVADPTIKTLLVLGVGPDREKEAGYQDTYQLLRDWAGRNPDYRVLFKRHPRSKAQFWRDAATRFANIELLDVECSLAQALAQASVVINIMSNAGIEAGLAGRPVVHVNAGRDVDIFSHALFFGPQVRDERAFSQQLHALEQDYPQCVAKARGFADYHLVHGSRGLAKTVELVDDLLRGRDPAEKFETFRLPAVG				NA	NA	NA	NA	NA
D1-35_05325	906	arnC		Undecaprenyl-phosphate 4-deoxy-4-formamido-L-arabinose transferase	ATGACTGAGGTGCTGATCAGTGTCGTCATCCCGGCCTACAACTACGCCGAGACCTTGCCGCGCGCGGTGAACTCGGTCATTGCGCAGTTGGGCGAAGCCCAGGCCGAGCTGTTGGTGATCGACGATGGTTCCACTGATGCAACGCCGCAGGTCCTGGAGCAATTGCAGGCCGAACATGCCGGGCTCTTCCGGGCCCTGCGCAAACCCAATGGTGGTTTGTCGTCGGTACGCAATCGCGGAATCGAGGAGGCTCGGGGGCAATACCTGATCTTCCTGGATGCCGACGATGAGATGGCGCCGGGCGCGCTTGCCGCCGTGACCCGGCATGTTGCCAGTCATCCCGAAACTCGCCTGGTCATCGGCGGCCACTGGTCGGTGTTCACGGACGGGCGTCGCGTCCAGCATGCGGTAAAGCCGCTGCCGGCCACGCCGCGTGGGCGCGTTCGGGGCTACCTGCTGGACAAGACGGTGACCCTGTCCAACGGCGCCTGTGCCATGCACCGCGAGGTGTTCGGGCCGGGTAACTATCCCGAGCATCTGCGTAACGTCGAAGACATTCCGGTGTTTGCCCAGGTACTGGCGCGCTTTCCATGCACCGTGCTCGATCAGCCGCTGGCGCTGATCTACAAGCATGGCGACAGCATGCGGCATGACCTCAGGCAAAGCCTGGCGGCGGGCGTGGGCATGGTCGACGAGGTGTTTTCCCCGGCGCGCATGCCGCAGTCGTTGCAAGATTTGCGCAAGGCCTTCATGGCCCAGCGTTGCCTGTCGTTGTTCCGCGATTGCTACAGCGCCGGTGACTATGCCAATGCCAAGGCTTTTTATGCCCAGGCCGTGCGTACCGATGTTCGCTCGATCACGCGCTGGTCCTATACGCGCAAGGCTATCCGGTTGTTGTTCAAGTGA	MTEVLISVVIPAYNYAETLPRAVNSVIAQLGEAQAELLVIDDGSTDATPQVLEQLQAEHAGLFRALRKPNGGLSSVRNRGIEEARGQYLIFLDADDEMAPGALAAVTRHVASHPETRLVIGGHWSVFTDGRRVQHAVKPLPATPRGRVRGYLLDKTVTLSNGACAMHREVFGPGNYPEHLRNVEDIPVFAQVLARFPCTVLDQPLALIYKHGDSMRHDLRQSLAAGVGMVDEVFSPARMPQSLQDLRKAFMAQRCLSLFRDCYSAGDYANAKAFYAQAVRTDVRSITRWSYTRKAIRLLFK				NA	NA	NA	NA	NA
D1-35_05326	1749	tobZ		nebramycin 5' synthase	GTGGCATTGACGATTCTTGGCCTGTCCGGCGCCCTTAGCCATGATCCTTCCGCAGCGCTGTACATTGACGGCAAGCTGATCGCGGCGGCCGAGGAAGAGCGCTTCGTACGCGATAAACATGCAAAGAACCGCATGCCCTACGAGTCGGCGAAGTTCTGCCTGGAGCAGGCCGGCATCAAGCCATCCGATGTTGATGTGGTGGCGATCCCGTTCGCCCCGATCAGCCTGTTCGGCGAAGCGCGCTGGCACTACGCCAAGCGTTACTGGTACGCCCCGGATCGCGCCCTTGATGCGATCCTGATGGGCAACCGTCGCTACAAGCGTTATCGCCGCAAGATCGTCTGGTGCCTGGAGCAACTGGGCTTCGATCCGAAAAAAATCAAGATCGAACCGGTCGAGCACCACCTGGCTCATGCCTCCAGCGCCTACCACTGCTCGGGTTTCCAGGAAAAAACCGCGATCCTCGGTATCGATGGCAAGGGTGAATACGCCACGACGTTCTTTGGCTACGGCGAAAACGGCAAGATCCACAAGATCAAGGAATTCTACGATCCGGACTCCCTGGGTGGTCTGTATGGCGCGATCACCGAGTTCCTCGGCTTTGAAATGCTCGACGGCGAATTCAAGGTCATGGGCATGGCGCCGTATGGCGATGCCAGCAAGTACGATTTCTCGCGCCTGGCCTCGTTCGAAAACGGCGAACTGGTGATCAACACCGACTACGCCAACGTGATCGGCCTGCGTCGCTATAAAGAGAAAGGCAAGGGCTTCTACTTCTCGCCAAAGCTGATCGAATGGCTCGGTCCGAAGCGTGAAGGCGACATCGCCGACGAGCCGTACATCCATTACGCCGCCAGCATGCAGGCGCTGTTCGAGAAGCTCGCGCTGCAGATGATCGACCACTACCTGGGCGACGTGCTCAAGGAAACCGGCAAGCTGGCCTTCGCCGGCGGCTGCGCACTGAACGTCAAGCTCAACCAGAAAATCATCGCCCGTGACGACGTCAAGGAGCTGTTCGTGCAGCCGGCCTCCGGCGACGCCGGCACCGCGGTAGGCGCGGCGGCTTATGTGTCCCATGCCCGTGGCGTGCCGGTGGAGAAGATGGAACACGTCTACCTCGGCCCGGCCTACAGCAACGAAGACGTGATCGCCGCGTGCGCCCGTCATCCGAGCAAGCCGGTATGGCGCAAGATCGACAACACCCCCGAGCGCATCGCCAGGATCATGGTCGACGGCAACCCGGTGGCCTGGTTCCAGGGGCGCATGGAGTTCGGCCCGCGTGCCTTGGGCGGTCGTTCGATCATCGGTTGCCCGAGCGCCAGCGGCGTGGCCAATCGCATCAACGAGCAGATCAAGTTCCGCGAGCGCTGGAGGCCTTTCTGCCCGTCGATGCTCGACACCGTTGCCCCACAGATGATCAAGGTCGATCACCCGGCGCCATTCATGACCTTTACCTTCGAAGTGGCCGAGGAATGGAAGACCCGCGTGCCGGAAGTGGTTCACGAAGACGGCACTTCCCGGGCCCAGGTGCTCAAGCGTGAATACAATCCGCGCTACTACGACATGATGAAGGCGCTGGAAGTCCTGACCGGCAATGGCGTGTCGCTGAACACTTCGCTCAACCGTCGTGGCGAGCCGATGATCTGCTCGCCGACCGATGCGCTGAACATGTTCTTCGGCTCCGACCTGCAGTACCTGATCATGGAAGACATTCTGGTCGTCAAGGACGGTGTGGACGCTTATGACTGA	MALTILGLSGALSHDPSAALYIDGKLIAAAEEERFVRDKHAKNRMPYESAKFCLEQAGIKPSDVDVVAIPFAPISLFGEARWHYAKRYWYAPDRALDAILMGNRRYKRYRRKIVWCLEQLGFDPKKIKIEPVEHHLAHASSAYHCSGFQEKTAILGIDGKGEYATTFFGYGENGKIHKIKEFYDPDSLGGLYGAITEFLGFEMLDGEFKVMGMAPYGDASKYDFSRLASFENGELVINTDYANVIGLRRYKEKGKGFYFSPKLIEWLGPKREGDIADEPYIHYAASMQALFEKLALQMIDHYLGDVLKETGKLAFAGGCALNVKLNQKIIARDDVKELFVQPASGDAGTAVGAAAYVSHARGVPVEKMEHVYLGPAYSNEDVIAACARHPSKPVWRKIDNTPERIARIMVDGNPVAWFQGRMEFGPRALGGRSIIGCPSASGVANRINEQIKFRERWRPFCPSMLDTVAPQMIKVDHPAPFMTFTFEVAEEWKTRVPEVVHEDGTSRAQVLKREYNPRYYDMMKALEVLTGNGVSLNTSLNRRGEPMICSPTDALNMFFGSDLQYLIMEDILVVKDGVDAYD	PGPT0015285_559	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-INHIBITION_OF_SALICYLIC_ACID|JASMONIC_ACID	ADAPTION_TO_PIS_REGULATION_BY_Nod_FACTORS,PGPT0015285-nodU-K00612	NA	NA
D1-35_05327	1461			hypothetical protein	ATGATTTTGTCCGAACTGAAAAATGCCGGCCGCAGCCCTGGCCTGCCCTTGAGCCTGGAGCTGGCGGACGCCGCCGGACCGGCGCAATTGCAATTGCTGACGCTTCTGCGCGTATTGCCGGGGCAGCGTTACGTGGGCGCGGGTGTCTGGCGCGGTCGCCCGGTACTGGCGAAATTGTTGGTTGGCGCCAAGGCGGCTCGTCACTTCCAGCGTGAGCTGCAAGGCGTGCGTCTGCTGGCGGAACAGGGCCTGACCACACCGCTGTTGCTAGTGGACGGCTTGAAGGACGGCGAGGGTGGCTGGCTGCTGTTCGAATTGCTCGAAGGGGCCCAAAGCCTGGGCGACGCCTGGAGGCAAGTCGAGCAATTGCCGCCGTTGGCCGATGAGCAGGCCGCAGTGCTGGCGGAGGCCCTGGGTGCCATTGCACAACTGCACGCCAAGGGCCTGTGGCAAGAGGATCTGCACCTGGACAACCTGCTGCGCCACGATGGGAAACTCTACCTGATCGATGGCGCCGGTATTCGGGTCGAAACCGCAGGGCAGCCGTTGTCGCGGCAAAAAGTGCTGGAGAATCTCGGTGTGTTTTTCGCCCAGTTGCCCAAGTCCCTGGCGCCGTTCACCGAGGAGTTGCTGGTGCATTATCTGCTTGGCAATGCCGAACATGCGTTGCCGATGGAGGCGTTGCAAAAACAGATCGACAAGGTGCATTCCTGGCGCCTGAAGGATTTCCTCGAAAAGGTCGGGCGAGAATGCAGCCTGTTCAGCGTCAAGCGTGGGGCCTTCGGCCTGCGGGTTATCCGCCGTGATGAAGAGGCCGCGATAGCGCCCGTGCTTGAGCAGGCCGATGCCCTGCTTGACCAGGGACATCTGTTCAAGACCGGCGGCGCGGCGAGTGTCGGCAGGGTGGTGGCGGACGGCCGTACGCTGATCATCAAGCGCTACAACATCAAGGGCTTCGCCCATTGGCTCAAGCGCTTCTGGCGTCCGAGCCGTGCCTGGCATGCCTGGCGCGAAGGTCATCGCCTGGCCTTCCTCGGCATTGCCACGCCCAAGCCGCTGGCGCTGCTGGAAAAGCGTTTCCTGTGGCTGCGCCGTGGTGCGTATCTGGTCACCGAGTACTTGCCGGGCCCGGACATCATCGAACGCTTCGCCCCATACGTGGAGACCGGTGAGGCGCCCGAAACAGAATTGCTGGCGCTGGATCGCTTGTTCGCCGACCTCATCCGCGAACGGATCAGCCATGGCGACTTCAAGGGCCACAACCTGTTCTGGCAACACGACCGCTGGGCGTTGATCGACCTCGACTCCATGTGCCAACACCGCACCCAGGCGAGCTTCGCCCAGGCCTACGCCCGGGATCGCGCGCGGTTCATGCGCAACTGGCCGCAGGATAGCGCGCTGTATCGGGTGATTGATGAGCGCTTGCCAAAGGATGTCGAAAACACCCTCTCGGCCTTGTGA	MILSELKNAGRSPGLPLSLELADAAGPAQLQLLTLLRVLPGQRYVGAGVWRGRPVLAKLLVGAKAARHFQRELQGVRLLAEQGLTTPLLLVDGLKDGEGGWLLFELLEGAQSLGDAWRQVEQLPPLADEQAAVLAEALGAIAQLHAKGLWQEDLHLDNLLRHDGKLYLIDGAGIRVETAGQPLSRQKVLENLGVFFAQLPKSLAPFTEELLVHYLLGNAEHALPMEALQKQIDKVHSWRLKDFLEKVGRECSLFSVKRGAFGLRVIRRDEEAAIAPVLEQADALLDQGHLFKTGGAASVGRVVADGRTLIIKRYNIKGFAHWLKRFWRPSRAWHAWREGHRLAFLGIATPKPLALLEKRFLWLRRGAYLVTEYLPGPDIIERFAPYVETGEAPETELLALDRLFADLIRERISHGDFKGHNLFWQHDRWALIDLDSMCQHRTQASFAQAYARDRARFMRNWPQDSALYRVIDERLPKDVENTLSAL				NA	NA	NA	NA	NA
D1-35_05328	753			hypothetical protein	ATGACTGATTTTCTGGCCGATGAAGACCGCGCGTTGCTGCAACGCCATGGCCTGGACAGCTTCGAGGCCTTGTGGGCACGACAACTGGAAGCGGTGGACGAACCCAACACCTCGGGGGAAGGCTGGAGCAGCGTGTTCCGCCTGGAACTGGAAGGGCAGGGGTACTACCTCAAGCGTCAGAGCAATTACCTGACCCGAACCTTGTCGCATCCGTTCGGCGAGCCGAGTTTTTCCCGGGAATTCCGTAATATCAGCCGTTATCGGCAACTGCGCATCCCCGCGCTGCAGGCCGTGTTCTATGGCCAGCGCAAGGTGAACGGCGAGGCTCGTGCGGTTCTGCTGACGCGTGCGCTGGACGGCTGGGATGACCTCGATTCATTGCTGCAGCGCTGGTCGACGCTGAGTGGCGCGCAGCGCACGGGCATCCTGCAGGCCTGCGGGCACCTGGCGCGGCGCCTGCACGATGCGCATCAGATGCATGGTTGTTTTTATCCCAAGCACATTTTTCTGCAAGCCGGCGACAGCGGCTACCAAGCGCAGTTGATCGACCTGGAGAAGACCCGGCCGCTGCTGTTCGGCCAACGTGACCGGATCAAGGACCTGGAACCGCTGTTGCGCCGGGCAGGTGCCTGGAAGGGTGACGATGTGCGCCAGTTGCTGGCTACTTATCTGGAGCAGCCGCTGGACAGCGCTCTGGTCGACAGCTGGATGACACGCGTGGCCGCCCGCCGTACCGACAAGGAGGCGCGTTGA	MTDFLADEDRALLQRHGLDSFEALWARQLEAVDEPNTSGEGWSSVFRLELEGQGYYLKRQSNYLTRTLSHPFGEPSFSREFRNISRYRQLRIPALQAVFYGQRKVNGEARAVLLTRALDGWDDLDSLLQRWSTLSGAQRTGILQACGHLARRLHDAHQMHGCFYPKHIFLQAGDSGYQAQLIDLEKTRPLLFGQRDRIKDLEPLLRRAGAWKGDDVRQLLATYLEQPLDSALVDSWMTRVAARRTDKEAR				NA	NA	NA	NA	NA
D1-35_05329	735			hypothetical protein	ATGTCAGGCTGGACACTGGAACCGGCCTACGCCGAACTGGCGGCGGATTTCGGTAGCCTGGACGCGGTGTTCGCCCTCCAGGGCGAGCGCCTGACGCGCGACCCGCTGTCGGAGGTGATTCGTGTACAGCGCAACGGCGTCAATTATTACGTCAAGCGCTACACCGGCGCCGGCAAGGGCTTGCGGCGTTACCTGGGCAGGCCGCGGGTCAAGTCCGAATGGCAGAACCTCAAGCGCTTCGCCAAATGGGGGATCCCGACCGCGCAAATCATTGCCTGGGGACTGGAGCGAAACGGCGCGGCGTTCGCCCGTGGTGCGATGATCACCCGCGAATTGCCTCGCACCGAAGACCTCTCGGCCCTGGCCGAACGTCGCGACCGCAGGCTGGCGGATCGCGCCTGGGTCGACGGTGTGAGCCGGCAGTTGGCGGGTTACACGCGGACCATGCACGAGCAGCGCTTTACCCATAACGATTTGAAGTGGCGCAACCTGCTGATCGACGATCAGTCGCGGTTGTTCCTGATCGATTGTCCGAACGGTGATTTCTGGCGCGGCTTCTGGCTCAAGTACCGGATCATCAAGGACCTGGCGTGCCTGGACAAGGTCGCCAAATATCACCTGTCGGCCACTCAGCGCCTGCGTTTTTACCTGCAATACCGGCAGCGCGACCGGCTGGATGCCCTGGACAAGAAGCGTATCCGGCACGTGGTGAAATTTTTCGAGGGGCGTGAATGA	MSGWTLEPAYAELAADFGSLDAVFALQGERLTRDPLSEVIRVQRNGVNYYVKRYTGAGKGLRRYLGRPRVKSEWQNLKRFAKWGIPTAQIIAWGLERNGAAFARGAMITRELPRTEDLSALAERRDRRLADRAWVDGVSRQLAGYTRTMHEQRFTHNDLKWRNLLIDDQSRLFLIDCPNGDFWRGFWLKYRIIKDLACLDKVAKYHLSATQRLRFYLQYRQRDRLDALDKKRIRHVVKFFEGRE				NA	NA	NA	NA	NA
D1-35_05330	807	rfaP		Lipopolysaccharide core heptose(I) kinase RfaP	ATGAAATTGATGCTGGCCGAACCGTTCAAGAGCCTTTGGGCTGGACGCGATGCGTTCACCGAGGTCGAGGCGCTCAAGGGCGAGGTCTACCGTGAACTCGAAGCCCGGCGCACCTTGCGCACCGAGGTGGACGGTCGCGGCTTTTTCGTGAAGATCCACCGTGGCATCGGTTGGGGCGAGATTTTCAAGAACCTGCTGACCGCCAAGCTGCCGGTACTTGGCGCGGGACAGGAATGGAAAGCCATCCAGCGTCTGCAGGAAGTCGGCGTGCCGACCATGACGGCCGTCGCGTATGGCGAGAAGGGCAGCAACCCGGCCGACCAGCATTCGTTCATCGTCACCGAAGAACTGGCGCCCACCATCAGCCTTGAAGATTACAGCATCGACTGGGTCAGGCAGCCGCCGCAGCCCAGGCTCAAGCGGGCACTGATCGCTGAAGTGGCGCGCATGACCGGCATGATGCACCGCGCCGGGGTCAACCATCGCGACTGCTACATCTGCCATTTCCTGCTGCATACCGACACACCGGTGACGGCCGACGGTTTCAAGCTCTCGGTGATCGACCTGCACCGCGCCCAGACCCGCCCGGCCATCACCACGCGCTGGCGCAACAAAGACCTGGCCGCGCTGTATTTTTCGGCGCTGGACATCGGCCTGACGCGCCGCGACAAGCTGCGTTTCCTCAAAGGCTATTTCCAGCAGCCGTTGCGCCAGGTACTGGCTGAAGAAGCGTCGCTGCTGGCCTGGCTCGAAGGCAAGGCCAACAAGCTGTATGCGCGCAAGCAGCGGTATGGGGACGCGCTCTGA	MKLMLAEPFKSLWAGRDAFTEVEALKGEVYRELEARRTLRTEVDGRGFFVKIHRGIGWGEIFKNLLTAKLPVLGAGQEWKAIQRLQEVGVPTMTAVAYGEKGSNPADQHSFIVTEELAPTISLEDYSIDWVRQPPQPRLKRALIAEVARMTGMMHRAGVNHRDCYICHFLLHTDTPVTADGFKLSVIDLHRAQTRPAITTRWRNKDLAALYFSALDIGLTRRDKLRFLKGYFQQPLRQVLAEEASLLAWLEGKANKLYARKQRYGDAL	PGPT0022545_100	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022545-waaP|rfaP-K02848	NA	NA
D1-35_05331	1122	rfaG		Lipopolysaccharide core biosynthesis protein RfaG	ATGCAATTGGCTTTTGTCCTTTACAAATATTTTCCTTTCGGTGGCCTGCAGCGTGACTTCATGCGCATCGCCCTGGAATGCCAGCGGCGTGGCCACCAGATCCGCGTCTACACGCTGATCTGGGAGGGCGACGTGCCGCCCGGCTTCGAGGTGCTGGTGGCGCCGGTCAAGGCGCTGTTCAACCACCGTCGCAATGAGAAGCTCAGCGCCTGGATGGAGGCCGACCTGGCACAGCGCCCGGTGGATCGTCTGATCGGTTTCAACAAAATGCCTGGCCTGGACGTCTATTACGCCGCCGACGGCTGCTTCGAAGACAAGGCACAGAACCTGCGCAATTCGCTGTACCGGCGCTGGGGCCGCTACCGGCATTTCGCCGAATACGAGCGGGCGGTGTTCGCCAAGGATGCCAAGACCGAAGTCCTGATGATTTCCGAAGTCCAGCAGCCGCTGTTCATCAAGCACTACGACACGCCGCTGGAACGCTTCCATCTGCTGCCGCCCGGCATCGCCCAGGACCGTCGCCGGCCCGCCGACGCCGACGAGATCCGTGCCGCGTTCCGGGCCGAATTCCAGCTGGCCGACGATGACCTGCTACTGGTGCAGATCGGCTCCGGCTTCAAGACCAAGGGTGTGGATCGCAGCCTCAAGGCCCTGGCCGCGCTGCCGGCCGAATTGAGAAAACGCACCCGGCTGTTTGTAATCGGCCAGGACGACCCCAAGGTATTCCAACTGCAGAGTGCCGCGCTGGGTCTGGGCGACAATGTGCGGTTCCTCAAGGGCCGCAGCGATATCCCGCGTTTCCTGCTTGGCGCCGACCTGTTGATCCACCCGGCCTACAACGAAAACACCGGCACGGTACTGCTCGAAGCGCTGGTGGCCGGGTTGCCGGTGCTGGTCAGCGCGGTGTGCGGGTACGCCCATTACATCGCCGAGGCCGACAGCGGCCTGGTGCTGGATGAGCCGTTCGAGCAGACGCAACTGACCGAATACCTGGGGCGGATGCTCGGTGATTCCGAGGCAAGAGCGGCCTGGAGCCGCAACGGTCTGGCCTTCGCCGAGACGGCCGACCTCTACAGCATGCCGCAGCACGCGGCCGATGTGATATTGGCGGAGCACGCTTGA	MQLAFVLYKYFPFGGLQRDFMRIALECQRRGHQIRVYTLIWEGDVPPGFEVLVAPVKALFNHRRNEKLSAWMEADLAQRPVDRLIGFNKMPGLDVYYAADGCFEDKAQNLRNSLYRRWGRYRHFAEYERAVFAKDAKTEVLMISEVQQPLFIKHYDTPLERFHLLPPGIAQDRRRPADADEIRAAFRAEFQLADDDLLLVQIGSGFKTKGVDRSLKALAALPAELRKRTRLFVIGQDDPKVFQLQSAALGLGDNVRFLKGRSDIPRFLLGADLLIHPAYNENTGTVLLEALVAGLPVLVSAVCGYAHYIAEADSGLVLDEPFEQTQLTEYLGRMLGDSEARAAWSRNGLAFAETADLYSMPQHAADVILAEHA	PGPT0022515_341	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022515-waaG|rfaG-K02844	NA	NA
D1-35_05332	1059	rfaC	COG0859	Lipopolysaccharide heptosyltransferase 1	TTGCGGGTATTGCTGATCAAGACCTCCTCCCTGGGGGATGTGGTCCACACCCTGCCGGCGCTGACCGATGCGGCGCGGGCGATTCCCGGCATCCGCTTCGATTGGGTGGTGGAAGAGGGGTTCGCCGAAATCCCTACGTGGCACCCCGCGGTGGGCAAAGTCATCCCGGTGGCGATCCGGCGCTGGCGCAAGAATATCTGGCAAACCATCAAGAGCGGCGAGTGGCGGCGGTTCAAGCAAAGCATGCGGGCCGAGAAGTATGACTTGGTGATTGACGCCCAAGGCTTGCTGAAAAGCGCCTGGCTGACTCGCTACGTCAAGGCCCCGGTGGCTGGCCTGGATAAGGATTCGGCGCGCGAACCCCTGGCGGCGCGGTTTTACTCCCGGCGCCTGGCGGTGGCCCGTGGTCAGCATGCGGTCGAGCGCGTGCGCCAGCTGTTTGCCGTGGCGCTGGGCTACGACTTGCCGCAGACCCAGGGCAACTATGGCCTCGACATCGACCGCCTGGTGGAACTGCCGCGCCCCTATCCCTATGTGGTTTTCCTGCATGGCACGACCTGGGACTCCAAGCACTGGCCCGAGCTTTACTGGCGCCAGCTCACCGAGCGCATGGGCCAGTACGGCGTGGTGGTAAAACTGCCGTGGGGCAACCCTGTCGAAAAGGCCCGCGCCGAGCGCATCGCCAGCGGGCTGCGCAACGCCCTGGTACTGCCGAAACTGAACCTTGGCGGCATGGGCAAGGTGCTCGCCGGTGCACAGGCCTGCGTAGCCGTGGACACTGGCCTCGGTCACCTGGCTGCGGCCCTGGACGTGCCGACCGTTTCGCTGCTCGGCCCGACCAACCCGGTGCTGACCGGTGCCTACGGCAAGGGCCAGATTCACCTCGCCAGTGATTTCCCCTGCGCGCCCTGCATGCAGAAACAGTGTACTTATCCACCGACTGCCGAAGATGCCCGTCGGTTTGACCTTAAGCGCGAGCAGCCCCTGTGCTTCACGCGTGTAAACCCCGAGCGTGTTGCCAGCCACTTGAGCACGTTATTGGCTGAGGAGCCGCGCTGA	MRVLLIKTSSLGDVVHTLPALTDAARAIPGIRFDWVVEEGFAEIPTWHPAVGKVIPVAIRRWRKNIWQTIKSGEWRRFKQSMRAEKYDLVIDAQGLLKSAWLTRYVKAPVAGLDKDSAREPLAARFYSRRLAVARGQHAVERVRQLFAVALGYDLPQTQGNYGLDIDRLVELPRPYPYVVFLHGTTWDSKHWPELYWRQLTERMGQYGVVVKLPWGNPVEKARAERIASGLRNALVLPKLNLGGMGKVLAGAQACVAVDTGLGHLAAALDVPTVSLLGPTNPVLTGAYGKGQIHLASDFPCAPCMQKQCTYPPTAEDARRFDLKREQPLCFTRVNPERVASHLSTLLAEEPR	PGPT0022495_216	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022495-waaC|rfaC-K02841	NA	NA
D1-35_05333	1035	rfaF	COG0859	ADP-heptose--LPS heptosyltransferase 2	ATGAATATTCTGATCGTTGGACCCAGTTGGGTCGGTGACATGGTGATGGCGCAGACACTGTTCCAGTGCCTCAAACAGCGTCATCCGCAATGCGAAATCGATGTCCTGGCCCCCGAGTGGAGCCGGCCGATTCTTGAGCGCATGCCGCAGGTGCGCAAGGCCTTGAGCTTCCCGCTCGGTCATGGCGTGCTTGAGCTGGCTACCCGCCGGCGCATCGGCAAATCCCTGGCCGGTCAGTACGACCAGGCGATCCTGCTGCCCAATTCGCTGAAATCGGCGTTGGTGCCGTTCTTCGCCAGCATCCCCAAGCGCACTGGCTGGCGTGGCGAATTTCGCTATGGCTTGCTCAACGATGTGCGCACGCTGGATAAAGATCGTTATCCGCTGATGATCGAGCGCTTCATGGCCCTGGCCTACGAGCCGGGCGCCGAGTTGCCCAAGCCTTATCCGCGACCGAGCCTGCAGATCGACCCGGTCACGCGCGAAACGGCCCTGGCCAAGTTCGGCCTGACCCTGGACCGGCCGGTATTGGCGCTGTGCCCGGGTGCCGAATTTGGTGAGTCCAAACGCTGGCCGGCCGAGCATTACGCCCAGGTGGCCGAGGCGAAGATCCGCGAAGGCTGGCAAGTCTGGCTGTTCGGTTCGAAAAACGATCACTCCGTGGGCGAGGAGATCCGCTCGCGGCTGATCCCGGGCCTGCGGGAGGAGTCGACCAATCTGAGCGGCGACACGTCCCTGGCCGAGGCCATTGATCTGTTGTCCTGTGCCGATTCCGTGGTGTCCAACGACTCCGGCCTGATGCACGTCGCGGCGGCGTTGAACCGCCCTCTGGTGGCGGTCTACGGTTCCACCTCGCCGGGCTTCACGCCGCCGTTGGCCGACAAAGTCGAAGTCGTGCGCCTGGGCATCGAATGCAGCCCGTGCTTCGATCGCACCTGCCGCTTCGGCCACTACAATTGCCTGCGCCAGCTCATGCCGCCGTCGGTGAACGAGGCCCTGGAGCGATTGCAGGGCTCACCCGTGGAGGTCCGGTAA	MNILIVGPSWVGDMVMAQTLFQCLKQRHPQCEIDVLAPEWSRPILERMPQVRKALSFPLGHGVLELATRRRIGKSLAGQYDQAILLPNSLKSALVPFFASIPKRTGWRGEFRYGLLNDVRTLDKDRYPLMIERFMALAYEPGAELPKPYPRPSLQIDPVTRETALAKFGLTLDRPVLALCPGAEFGESKRWPAEHYAQVAEAKIREGWQVWLFGSKNDHSVGEEIRSRLIPGLREESTNLSGDTSLAEAIDLLSCADSVVSNDSGLMHVAAALNRPLVAVYGSTSPGFTPPLADKVEVVRLGIECSPCFDRTCRFGHYNCLRQLMPPSVNEALERLQGSPVEVR	PGPT0022510_980	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022510-waaF|rfaF-K02843	NA	NA
D1-35_05334	1200	tyrS	COG0162	Tyrosine--tRNA ligase	ATGAAGTCGGTTGAAGAGCAGCTAGCGCTGATCAAACGTGGTGCGGAAGAACTGTTGGTCGAGTCCGAGCTGATCGAAAAGCTCAAGCGCGGGCAGCCGCTGCGTATCAAGGCCGGTTTCGATCCGACGGCGCCCGATCTGCACCTGGGGCATACCGTGCTTATTAATAAGCTGCGTCAATTCCAGGACCTGGGGCATCAGGTTATCTTCCTTATAGGCGACTTCACCGGCATGATCGGTGATCCGAGCGGCAAGAGTGCCACGCGTCCTCCGCTGACTCGTGAGCAGGTTCTCGACAACGCCGAGACCTACAAGACTCAGGTCTTCAAGATTCTTGACCCGGCCAAGACCGAAGTGGCTTTCAACTCCACTTGGATGGATCAGATGGGGCCGGCGGATTTCATACGCCTGACTTCCCAATACACCGTAGCTCGCATGCTCGAGCGCGATGATTTCGACAAGCGTTATACAACCAATCAGCCAATCGCCATCCATGAGTTCCTCTATCCGCTTGTGCAGGGTTATGACTCGGTCGCATTGCGGGCGGACGTTGAGCTTGGCGGTACCGATCAGAAGTTCAACCTGCTGATGGGGCGTGAGCTGCAGCGCGGCTATGGGCAAGAAGCTCAGTGCATCCTGACCATGCCATTGCTGGAAGGTCTGGATGGCGTGAAGAAGATGTCCAAGTCGCTGGGCAACTACGTCGGGATCCAGGAAGCGCCGGGCGTCATGTACGGCAAGTTGGTTTCCATTCCTGATGTGCTGATGTGGCGTTATTTCGAGCTGTTGAGCTTCCGCTCCATGGATGAGATCAATGCTTTCCGAGCCGATGTGGAGGCGGGCGCTAATCCGCGTGACATCAAGATCAAGCTGGCCGAAGAGATCGTTGCTCGTTTCCACGGGGAAGAGGCTGCGGCCAACGCTCATCGCGCGGCGGGTAATCGCATGAAGGATGGCGAGCTGCCGGATGACCTGCCGGAGATCGAATTGACTGCTGCCGAGGATATGCCGATTGCGGCGGTTCTGAATAAGGCGGGCTTGGTCAAGAATGCTGCGGTGGCGCGAGACCTCTTGGGTTCGGGTGGCGTGCGTATAGATGGTGAGGTCGTGGATCGCACCTATATATATAAGCTGGGCTCCACTCATGTGTGTCAGGCCGGCAAGAAGGCTTTCGCACGTATTACGCTCAAATCCGAATAA	MKSVEEQLALIKRGAEELLVESELIEKLKRGQPLRIKAGFDPTAPDLHLGHTVLINKLRQFQDLGHQVIFLIGDFTGMIGDPSGKSATRPPLTREQVLDNAETYKTQVFKILDPAKTEVAFNSTWMDQMGPADFIRLTSQYTVARMLERDDFDKRYTTNQPIAIHEFLYPLVQGYDSVALRADVELGGTDQKFNLLMGRELQRGYGQEAQCILTMPLLEGLDGVKKMSKSLGNYVGIQEAPGVMYGKLVSIPDVLMWRYFELLSFRSMDEINAFRADVEAGANPRDIKIKLAEEIVARFHGEEAAANAHRAAGNRMKDGELPDDLPEIELTAAEDMPIAAVLNKAGLVKNAAVARDLLGSGGVRIDGEVVDRTYIYKLGSTHVCQAGKKAFARITLKSE				NA	NA	NA	NA	NA
D1-35_05335	1419	mepM	COG0739	Murein DD-endopeptidase MepM	ATGACCACCGAACCGTCTAAAGCGCCGCCGCTTTACCCAAAGACCCACCTGCTCGCCGCAAGTGGTATCGCCGCCCTCCTTAGCCTGGCGCTCCTGGTATTTCCTTCCAGCGATGTCGAAGCCAAAAAGACGACTCTGAGTCTTGAACTGGAAAGTCCCGCTGAACAACTGACACAAGAACAAGACGCCGCCGAAGCCGTTCAAGCCACAAACGAACCGGCCGCCTCGCCTTTTGCGCAGATTGAAGAAAGCCCGGAAGACACTGCAAACGCCACTGCACAGGTAGAAGCTCCTGTTGCAGAAGAGAAGAAAGGACCGGACCACCGTGAAGTGATTGTTGCCAAGGGCGACACACTCTCCACCCTCTTCGAAAAGGTGGGCCTGCCCTCAACCTCAGTCCATGAAATCCTGGCCAGCGACAAGCAAGCCAAACAGTTCACTCAACTGCAACGTGGCCAGAAACTCGAATTCGAACTCAATCCAGACGGGCAGTTGACCAACCTGCACACCAAGCTGAGCGATCTGGAAAGCATCACCCTGACCAAAAACGAAAAGGGTTATGTATTCAACCGCGTCACCACCAAACCTACCGTGCGCTCCGCCTATGTTCACGGCGTCATCAATAGTTCGCTGTCCCAGTCGGCTGCCCGCGCCGGCCTTTCCCACAGCCTGACCATGGACATGGCCAGCGTGTTTGGTTATGACATCGACTTCGCGCAGGATATTCGCCAGGGCGACGAGTTCGACGTCATCTACGAACAGAAAGTGGTCAATGGGAAAAGCGTCGGCAACGGACCGATCCTTTCCGCGCGCTTCACCAACCGCGGCAAGACCTATACGGCGGTGCGCTACACCAACAAGCAGGGCAACAGCAGCTACTACACCGCTGACGGCAACAGCATGCGCAAGGCGTTTATCCGTACTCCAGTCGACTTCGCCCGCATCAGCTCCAGGTTTTCCGCAGGCCGCAAGCATCCTATTCTGAACAAGATCCGCGCCCACAAAGGCGTCGACTACGCAGCTCCGCGCGGCACGCCCATCAAGGCTGCCGGCGATGGCAAGGTACTGCTGGCCGGCCGTCGAGGCGGTTATGGCAATACCGTGATCATCCAGCACGGCAACACCTACCGCACGCTGTACGGCCACATGCAAGGTTTCGCCAAGGGCGTGAAGACCGGCGGCTCCGTCAAGCAAGGCCAGGTTATTGGCTACATCGGTACGACTGGCCTGTCCACCGGCCCGCACTTGCACTATGAATTCCAGGTCAACGGCGTTCACGTCGATCCGCTCGGCCAGAAGCTGCCGATGGCCGATCCGATTGCGAAATCCGAGCGCACCCGTTTCCTGGCTCAGAGCCAGCCTCTGATGGCTCGCATGGATCAAGAGAAAGCCACCCTGCTGGCTTCGAGCAAGCGCTAA	MTTEPSKAPPLYPKTHLLAASGIAALLSLALLVFPSSDVEAKKTTLSLELESPAEQLTQEQDAAEAVQATNEPAASPFAQIEESPEDTANATAQVEAPVAEEKKGPDHREVIVAKGDTLSTLFEKVGLPSTSVHEILASDKQAKQFTQLQRGQKLEFELNPDGQLTNLHTKLSDLESITLTKNEKGYVFNRVTTKPTVRSAYVHGVINSSLSQSAARAGLSHSLTMDMASVFGYDIDFAQDIRQGDEFDVIYEQKVVNGKSVGNGPILSARFTNRGKTYTAVRYTNKQGNSSYYTADGNSMRKAFIRTPVDFARISSRFSAGRKHPILNKIRAHKGVDYAAPRGTPIKAAGDGKVLLAGRRGGYGNTVIIQHGNTYRTLYGHMQGFAKGVKTGGSVKQGQVIGYIGTTGLSTGPHLHYEFQVNGVHVDPLGQKLPMADPIAKSERTRFLAQSQPLMARMDQEKATLLASSKR				NA	NA	NA	NA	NA
D1-35_05336	1092	anmK	COG2377	Anhydro-N-acetylmuramic acid kinase	ATGGCGCTCTATATCGGTGTGATGTCCGGGACCAGCCTGGATGGCCTGGATATCGCGCTGATCGAACTGGCCCCGGCGATCAAATTGATCGCCACGCATTACATACCCATGCCCACGCCCCTGCGCACCGAGTTGCTTGCACTGTGCAGCAGTGGGCCCGATGAGATCGCCCGCTCCGCCATCGCCCAGCAGAACTGGGTAAAGCTGGCCGCGCAGGGCATCCATACCTTACTCGACGAACAGAAGCTCAAGCCTGAAGACCTCACCGCGGTTGGCAGCCACGGCCAAACCATTCGCCATGAACCGGCCCGCGGATTTACCGTGCAGATCGGTAACCCGGCACTCTTGAGCGAATTGACTGGCATCACCGTTGTCAGCGATTTCCGCAGCCGTGATGTCGCCGCCGGAGGACAGGGGGCGCCTCTGGTTCCGGCATTTCACGAAGCACTGTTCGAAGAACGAGTCGGTCCTCGTGCAGTGCTGAATGTCGGCGGCTTCAGCAATCTCAGCCTGATAGAGCTGGCAAAACCCGTATCAGGTTTCGATTGTGGCCCAGGCAACGTATTGCTCGATGCATGGATACACCAGGAGCGAGGCGAGCCTTTTGATCGTGACGGCCAATGGGCAGCCAGCGGAAAAGTAGAGCCGACTTTGCTCAAGACGTTGCTTGGAGACCCCTTCTTTGTAACCAAGGGCCCGAAAAGTACCGGACGAGAAGTATTCAACCTGTCCTGGCTGACCCGTCATCTATCGCAATTGCCAGCCTTCACCCCTGAAGATGTGCAGGCGACACTACTTGAACTGACTGCCCTGACCATCGTCGAATCACTCCAGCATGCCCAGCCGAACACGCAGGAGTTGCTGGTCTGCGGCGGTGGGGCACACAACCAGACACTGATGAAGCGCCTGGCTGACTTGCTACCAGCTACCAAAGTCAGCAGTACGGCAGTGTACGGCGTGGACCCGGATTGGGTTGAAGCCATGGCCTTTGCCTGGCTCGCCCATTGCTGTCTTGAGGGTATTCCAGGCAACCGTCCAAGTGTCACTGGGGCCCGTGGCCCGCGCGTACTCGGTGCCATTTATCCGGCCTGA	MALYIGVMSGTSLDGLDIALIELAPAIKLIATHYIPMPTPLRTELLALCSSGPDEIARSAIAQQNWVKLAAQGIHTLLDEQKLKPEDLTAVGSHGQTIRHEPARGFTVQIGNPALLSELTGITVVSDFRSRDVAAGGQGAPLVPAFHEALFEERVGPRAVLNVGGFSNLSLIELAKPVSGFDCGPGNVLLDAWIHQERGEPFDRDGQWAASGKVEPTLLKTLLGDPFFVTKGPKSTGREVFNLSWLTRHLSQLPAFTPEDVQATLLELTALTIVESLQHAQPNTQELLVCGGGAHNQTLMKRLADLLPATKVSSTAVYGVDPDWVEAMAFAWLAHCCLEGIPGNRPSVTGARGPRVLGAIYPA				NA	NA	NA	NA	NA
D1-35_05337	351	erpA	COG0316	Iron-sulfur cluster insertion protein ErpA	ATGAGCGTCGAAACCTTCACCCCCACGGCTTTGCAATTCACCCACGGTGCCGCGCACAAGGTGAAGAGCCTGGTCGATGAAGAGGGCAATGATCGTTTGAAGCTGCGCGTGTTCGTGACGGGCGGCGGTTGTTCAGGTTTTCAGTACGGCTTCACTTTCGATGAGGAAGTGGCCGAGGATGACACCATCGTCGAGCGCGAAGGCGTCAGCCTGGTGGTCGATCCGATGAGCTTCCAGTACCTGGCGGGTGCCGAAGTGGATTATCAGGAAGGCCTGGAAGGATCGCGCTTCGTGATCAAGAATCCTAACGCCACCACAACTTGTGGGTGCGGTTCTTCGTTTTCGATCTGA	MSVETFTPTALQFTHGAAHKVKSLVDEEGNDRLKLRVFVTGGGCSGFQYGFTFDEEVAEDDTIVEREGVSLVVDPMSFQYLAGAEVDYQEGLEGSRFVIKNPNATTTCGCGSSFSI				NA	NA	NA	NA	NA
D1-35_05338	1035	argC	COG0002	N-acetyl-gamma-glutamyl-phosphate reductase	ATGGTCAAGGTCGGTATCGTCGGCGGCACGGGTTACACCGGTGTCGAACTGCTGCGTCTGTTGGCGCAGCATCCGCAAGCTGAGGTGGTGGTCATTACCTCCCGATCCGAGGCCGGCTTGGCCGTCGCCGACATGTATCCGAACTTGCGTGGCCATTACGACGGCCTGGCGTTCAGCGTCCCTGACGTCAAGACCCTCGGGGCCTGCGATGTGGTGTTTTTCGCCACCCCCCATGGTGTCGCCCACGCTCTGGCGGGTGAGCTGCTGGCCGCGGGAACCAAGGTCATTGACCTGTCGGCAGACTTCCGTCTGCAGGACGCAGACGAATGGGCCAAGTGGTACGGTCAGCCTCACGGCGCACCGGAACTGCTGGACGAGGCGGTCTACGGCTTGCCGGAAGTCAATCGTGAAAAAATCAGGCAGGCACGGCTGATCGCGGTGCCGGGTTGCTATCCGACCGCGACGCAGTTGGGATTCCTGCCTTTGCTCGAGGCCGGTCTCGCCGATGCGTCGCGCTTGATCGCCGACTGCAAGTCGGGCGTCAGCGGCGCCGGTCGAGGTGCCAGCGTTGGCTCGTTGTACTCCGAAACATCGGAGAGCATGAAGGCCTACGCGGTCAAGGGGCATCGTCATTTGCCGGAGATTCGCCAAGGGTTGCGTCGCGCGGCAGGCAAGGACGTCGGCCTGACTTTCGTGCCGCACCTGACGCCCATGATCCGTGGTATCCATTCCACCCTCTACGCCACCGTGACCGATCGCTCCGTGGATCTGCAGGCGCTGTTCGAGAAGCGTTATGCCGATGAGCCGTTTGTCGACGTGATGCCGGCTGGCAGCCATCCGGAAACCCGCAGTGTCCGCGGCGCGAACGTATGCCGGATCGCTGTGCATCGCCCGCAGGATGGCGACCTGGTCGTGGTCTTGTCGGTAATCGACAACCTGGTCAAGGGCGCTTCCGGCCAAGCGGTACAGAACCTCAACATCCTCTTCGGGCTGGATGAGCGACTGGGCCTGTCCCACGCTGGGATGCTGCCTTGA	MVKVGIVGGTGYTGVELLRLLAQHPQAEVVVITSRSEAGLAVADMYPNLRGHYDGLAFSVPDVKTLGACDVVFFATPHGVAHALAGELLAAGTKVIDLSADFRLQDADEWAKWYGQPHGAPELLDEAVYGLPEVNREKIRQARLIAVPGCYPTATQLGFLPLLEAGLADASRLIADCKSGVSGAGRGASVGSLYSETSESMKAYAVKGHRHLPEIRQGLRRAAGKDVGLTFVPHLTPMIRGIHSTLYATVTDRSVDLQALFEKRYADEPFVDVMPAGSHPETRSVRGANVCRIAVHRPQDGDLVVVLSVIDNLVKGASGQAVQNLNILFGLDERLGLSHAGMLP	PGPT0014251_1734	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014251-argC-K00145	NA	NA
D1-35_05339	432			hypothetical protein	ATGCTCTATCTATGGCTCAAAGCGCTTCACATTGTCAGCATGGTCTGCTGGTTTGCCGGCCTGTTCTACCTGCCTAGATTGTTCGTCTACCACGCTCAAAGCGAAGACAGCGTCAGCAAGGAACGCTTCTCCATCATGGAACGCAAGTTGTATCGCGGCATCATGGGCCCGGCGATGATCGCCACGCTGGTGTTCGGCATCGGCTTGCTCAGCCTCAATGCCAGCGCCTACTTCACCCAAGGCGGCTGGATGCACGCAAAGCTGACTCTGGTCGTCCTGCTGATCGGCTATCACCATATGTGCGGTGCCCAGGTGAAGCGCTTCGCCCGTGGCGAAAACACCCGCAGTCATGTCTTTTATCGCTGGTTCAATGAAGTGCCGGTCGTGATATTGCTGGCTATTGTAATTCTGGTCGTGGTCCGGCCGTTCTAA	MLYLWLKALHIVSMVCWFAGLFYLPRLFVYHAQSEDSVSKERFSIMERKLYRGIMGPAMIATLVFGIGLLSLNASAYFTQGGWMHAKLTLVVLLIGYHHMCGAQVKRFARGENTRSHVFYRWFNEVPVVILLAIVILVVVRPF	PGPT0008480_1275	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008480-hemJ-K08973	NA	NA
D1-35_05340	969			hypothetical protein	ATGTCGCTGCCCGCTCTGCTTGAACAACGTCTGCGCCTGCCTGTCGTGGTCGCACCGATGTTCCTCATTTCCAATCCGCAGCTGGTACTGGCCTGCTGCCGCAACGGTGTCGTCGGGAGTTTCCCGGCGTTGAACCAACGTGAAAGCAGCGGCTTCAAGGCGTGGCTGGAGGAAATCGAAGCGGGCTTGGCGACTCTGGAAAAGCCGGCGCCCTACGCAGTCAATCTGATCGTCCATCACAGCAACCCGCGACTCCAGGCCGACCTGGCAATCTGTATCGAGCACAAGGTGCCGATCGTCATCACCAGCCTGGGGGCGGTGAAGGAATTGGTGGACGCGGTTCATGGCTATGGCGGCCTGGTATTTCACGACGTGACCACTCGCCGCCATGCCGAAAAAGCCGCCGAAGCGGGCGTCGACGGTTTGATTGCCGTTGCGGCCGGTGCGGGTGGGCACGCAGGAACCTGGAGCCCATTCGCACTGATTGCTGAAATCCGGCAGTTCTTCGATAAAACCCTGTTGCTTGCAGGATGCCTTAACCACGGCCATCAGATTCTGGCTGCGCAATTGCTTGGCGCGGATCTGGCCTACTTCGGAACGCGTTTTATCGGCACGACGGAAAGTCACGCGTCCGACGCTTATAAAGAGATGTTGCTCACATCCAGAGCCGCGGACATCGTGCATACTCCCGCAGTGTCCGGGGTGCCGGCCAGTTTCATGCGTCAGAGCCTGGAAAGTGCCGGCTTCGACCTGGCTGCTCTGCAAGGCAAGGGCGTGGCGGATGCGGGGGCGAAACTCAAACCGCTCAATGATGAAGCCAAGGCCTGGAAGACCGTATGGTCCGCCGGCCAGGGTGTAGGTGACATCAATGATTTGCCCGGTGTCGATCAATTGATCGCACGCCTGGATGAAGAATACCGGCAGGCGCAAGCCCTAGCGACACAACTTGGCGGCCATTGGCCGCGCTGA	MSLPALLEQRLRLPVVVAPMFLISNPQLVLACCRNGVVGSFPALNQRESSGFKAWLEEIEAGLATLEKPAPYAVNLIVHHSNPRLQADLAICIEHKVPIVITSLGAVKELVDAVHGYGGLVFHDVTTRRHAEKAAEAGVDGLIAVAAGAGGHAGTWSPFALIAEIRQFFDKTLLLAGCLNHGHQILAAQLLGADLAYFGTRFIGTTESHASDAYKEMLLTSRAADIVHTPAVSGVPASFMRQSLESAGFDLAALQGKGVADAGAKLKPLNDEAKAWKTVWSAGQGVGDINDLPGVDQLIARLDEEYRQAQALATQLGGHWPR	PGPT0006800_3846	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
D1-35_05341	960			hypothetical protein	ATGAGCGAAAACCGTTTCAACATTGTATTCGACGGGGCCCTGCTGCCAGGCGTAGATACCACTACCGCCAAGCTCAACCTCGCCGAACTGTTCAAAAGTGATGTGAGCGCCATTGAACGACTGTTCAGCGGTCGCAAGGTGTCCCTCAAGAACAACCTGTCCCAGAATGAAGCGCAACAGTACCTGGACGCGCTTCATAAAAGCGGCATCGATGCACGAATCGAAGCCGAACCGTCCATCCAGCTCAATCTCGGCGAAATCCAGGAGCAGCCGGGCGGCCGCCAGCCGGACTCCGTGATCGATCCTGTTTCTCCTTATGCGCCTCCACGGGCAGCAGTGGGTGAAACGTTCGCCGAGTACGGCACGCTCAAACCCTTCAGCTTCGAGGGACGTATCGGACGCCTGCGCTACCTGGCCTGGACCATGGTCCTGACCCTGGCCATGCTGCCGTTGGTAGGCCTGGGCTTCTGGGTCGCCACGAACTGGCTGCTCGCTTCCGACTCGATAGCAGGGTTGGTCGTCGGTGGTCTGATCGCTGTAGTCGTCGTGCTTGCCTTCGCGTTCGTGAGCATCCAGTTCAACGTCCAGCGTCTGCATGATCTCGGCTGGTCGGGGTGGTTGTGGCTGATCAACCTCGTGCCATTCGTGGGCAGCATCTTCCCGTTCATTCTCATCATCGCCCCAGGCAATACCGGCGCCAACCAGTACGGCCCACCACCGCCGCGCAATACCACGGCGGTCAAGCTGCTGGCGTCGCTGTGGCTGGTAATGATCGTCCTGATTTTCGTGGCTACCTTCGCCGGCATCTTCGGTGCTCTCCAGGAGGACTTCGATAGCGGTGCCTCGAGCAGCTACGAAAGCAGCGAATACAGTGACCAGACCAGCGAAGAACCGGCCGTTGATGCAGCCGAGCCCGCCTCGCCTTCTGTAGACTACGAAGAAGAAGAAGAGGAACAATAG	MSENRFNIVFDGALLPGVDTTTAKLNLAELFKSDVSAIERLFSGRKVSLKNNLSQNEAQQYLDALHKSGIDARIEAEPSIQLNLGEIQEQPGGRQPDSVIDPVSPYAPPRAAVGETFAEYGTLKPFSFEGRIGRLRYLAWTMVLTLAMLPLVGLGFWVATNWLLASDSIAGLVVGGLIAVVVVLAFAFVSIQFNVQRLHDLGWSGWLWLINLVPFVGSIFPFILIIAPGNTGANQYGPPPPRNTTAVKLLASLWLVMIVLIFVATFAGIFGALQEDFDSGASSSYESSEYSDQTSEEPAVDAAEPASPSVDYEEEEEEQ				NA	NA	NA	NA	NA
D1-35_05342	786			putative oxidoreductase	ATGACCCGTTACGCCCTGATCACTGGCGCTTCCAGCGGAATCGGCCTGGCCCTGGCTGAAGCACTGGCCCGGCGCGGGCGCAACCTGATACTCGTGGCGCGACAGCGCGATCGACTGGAAAGTATTGCGATCGAACTGACCCAGCGATTTGGCGTGGAAGTATTGTTCCGGGCTTGCGACCTGAGCGAGCCCTTGCGGCTTTCAGGTTTCCTGCTGGAACTGGAAGAAGGCGAACGCCAGATCGACCTGCTGGTCAACTGCGCCGGCATCGGCACCTTCGGCCCGTTCCTGGGCCAGGACTGGATGACCGAGCAGGACCTCATCGAAGTGAATATCCTGGCCCTGACCCGCCTCTGTCACGCCGTAGGCAACAGCATGGCGCTGCATGGAGGCGGCCAGATCCTGAACGTCGCGTCGACTGCCGCATTCCAGCCGGGCCCCTGGATGAGCACCTACCACGCCAGCAAAGCGTACGTATTGCACTTTTCCGAAGCCCTGCGAATCGAGCTGAAGAAATGTGCGATCAAAGTCTCGGTACTTTGCCCGGGCCCGACCCGCACCGGTTTTTTTGCCGAGTGGCAACGGGACGAGAAGCCCAGCGACGATAAGAAGCTGATGAGCCCTGAAGAGGTTGCGCTGTACGCTGTCCGCGCGCTGGACAGGGACCGGGCCATTATCATTCCCGGACGCCGCAATCGCTGGATCGCCGCCCTGCCCCGACTCGGGCCGCGCTGGCTGGTGCGAATTCTTAGCGGCATGTCCAATAAAGCCTACTGTCCACGCTAG	MTRYALITGASSGIGLALAEALARRGRNLILVARQRDRLESIAIELTQRFGVEVLFRACDLSEPLRLSGFLLELEEGERQIDLLVNCAGIGTFGPFLGQDWMTEQDLIEVNILALTRLCHAVGNSMALHGGGQILNVASTAAFQPGPWMSTYHASKAYVLHFSEALRIELKKCAIKVSVLCPGPTRTGFFAEWQRDEKPSDDKKLMSPEEVALYAVRALDRDRAIIIPGRRNRWIAALPRLGPRWLVRILSGMSNKAYCPR	PGPT0030485_2499	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-OXIDOREDUCTASE_ACTIVITY	PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124
D1-35_05343	339		COG0537	Purine nucleoside phosphoramidase	GTGGACACTCTGTTTACCAAGATCATCAACCGGGAAATTCCGGCCAGGATCATTTATGAAGACGATCAGGTTCTGGCTTTTCACGACATCGCCCCCCAGGCTCCAGTGCATTTCCTGGTGATTCCGAAAAAACCGATCCGCACCCTCAATGACCTGACCGAGGAAGACAAAGGGTTGGCCGGACATATCCTGTTTACCGCCCAGCGCCTTGCGCTTGAGCTGGGCTGTGAGGAAGGCTTCCGCGTGGTGATGAACTGCAATGAACTTGGCGGGCAGACCGTCTATCACATTCATATGCACGTGCTGGGGCAGCGCCAGATGAACTGGCCACCGGGTTGA	MDTLFTKIINREIPARIIYEDDQVLAFHDIAPQAPVHFLVIPKKPIRTLNDLTEEDKGLAGHILFTAQRLALELGCEEGFRVVMNCNELGGQTVYHIHMHVLGQRQMNWPPG				NA	NA	NA	NA	NA
D1-35_05344	648	coq7	COG2941	3-demethoxyubiquinol 3-hydroxylase	ATGACTACCCAACGTCACTACTCGCCCATTGACCGCCTGCTGCTGCAAGCCGATACCGCGATGCGCACGCTACTGCCCTTCAGTGGCCAGCCGTACCGTCCGTCGCCGGCAATCGTGCAGCCGGACGTACAGATGAGTGACGAAGAGACTCGCCATGTCGCGGGCCTGATGCGTATCAACCATACCGGTGAGGTTTGCGCCCAGGCTCTGTACCAGGGCCAGGCGCTGACGGCAAGATTGCCGCAGGTACGCGAGGCGATGGAGCATGCCGCCGAAGAAGAAGTCGACCACCTGGTCTGGTGCGAGCAGCGCATTCGCCAATTGGGTAGCCATACCAGCGTCCTGAATCCGTTGTTCTACGGGATGTCATTCGGCATCGGCGCGGCGGCCGGACTGATCAGCGACAAGGTCAGCCTGGGTTTCGTCGCGGCAACCGAACATCAAGTGTGCAAGCATCTGAATGAGCACCTGGAGCAGTTGCCGGCCGAAGATGAAAAGTCCCGGGCGATTCTTGAACAGATGCGCAAGGATGAAGAACAGCATGCCGAAAGCGCTCTCGATGCGGGGGGTTTTCGTTTCCCGGCTCCGGTGAAATTCGGCATGAGCCTGTTGGCGAAGGTCATGACCAAGAGCACCTATCGGATCTGA	MTTQRHYSPIDRLLLQADTAMRTLLPFSGQPYRPSPAIVQPDVQMSDEETRHVAGLMRINHTGEVCAQALYQGQALTARLPQVREAMEHAAEEEVDHLVWCEQRIRQLGSHTSVLNPLFYGMSFGIGAAAGLISDKVSLGFVAATEHQVCKHLNEHLEQLPAEDEKSRAILEQMRKDEEQHAESALDAGGFRFPAPVKFGMSLLAKVMTKSTYRI	PGPT0009541_467	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009541-COQ7_like-K06134	NA	NA
D1-35_05345	843	speD	COG1586	S-adenosylmethionine decarboxylase proenzyme	ATGCTTGATCACGCGGCCGGGCCGCAATACACAGAGAGTTTTCAAACGGTGAAAAGCAAACTCAAGCTCCATGGGTTCAATAACCTGACAAAGACCTTGAGCTTCAACATCTATGACATCTGCTATGCGGAAACCCCGCAAGACCAGCAGGCCTACGTCGAGTACATCAATAAAGAGTACAACGCCAAGCGCCTCACGCAGATCCTCACGGAAGTTGTCGATATCATTGGTGCCAACATCCTGAACATCGCCAGTCAGGACTATGAACCCCAAGGCGCCAGCGTGACCATTCTGATCTCGGAAGAGCCGGTGACACCGACCGAAAGCCAGATCGAAGAGTCCCCGGGCCCGTTGCCTGAAATTATCCTGGCCCACCTCGACAAGAGCCACATCACGGTACATACCTATCCGGAGATCCACCCGGTGGACGGTATCGCAACGTTCCGAGTGGACATCGATGTGTCGACCTGTGGCGTCATTTCACCGCTCAAGGCACTCAACTTCCTGATTCACCAATTCGATTCCGACATCGTGACCGTGGATTACCGTGTGCGTGGCTTCACACGGGACGTGGAAGGCCACAAGCACTTCATTGATCACGAGATCAATTCGATCCAGAACTATCTCTCCGAAGACACTCGCGACGCGTATCAGATGACCGACGTGAACGTGTACCAGGAAAACCTGTTCCACACCAAGATGCTGCTCAAGGACTTCGAGCTGGACAACTACCTGTTCGGTGATGCCACCAGCAACCTGTCCGTTGAGCAGCGTGGCCAGGTGGAAGAGCGTGTGAAGCACGAGATGCTGGAGATTTTCTACGCGCGCAACATGCCGCGCTGA	MLDHAAGPQYTESFQTVKSKLKLHGFNNLTKTLSFNIYDICYAETPQDQQAYVEYINKEYNAKRLTQILTEVVDIIGANILNIASQDYEPQGASVTILISEEPVTPTESQIEESPGPLPEIILAHLDKSHITVHTYPEIHPVDGIATFRVDIDVSTCGVISPLKALNFLIHQFDSDIVTVDYRVRGFTRDVEGHKHFIDHEINSIQNYLSEDTRDAYQMTDVNVYQENLFHTKMLLKDFELDNYLFGDATSNLSVEQRGQVEERVKHEMLEIFYARNMPR	PGPT0007760_1366	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
D1-35_05346	423	yhfA	COG1765	Protein YhfA	ATGAAGGCACGCATCCAATGGGCTGGCGAAGCCATGTTCCTCGGTGAATCAGGCAGTGGTCATGTGGTCGTCATGGACGGCCCACCGGATGCCGGCGGTCGGAACCTGGGTGTCCGGCCAATGGAAATGCTCTTGCTCGGTGTCGGCGGCTGCAGCAACTTCGATGTGGTCAGCATTCTCAAGAAGTCACGCCAGGCCGTCGAAAGTTGCGAAGCGTTCCTTGAAGCCGAGCGCGCGACAGAGGATCCGAAAGTGTTTACCAAGATCCACATGCACTTCGTGGTCAAAGGCCGTGGACTGAAGGAAGCCCAGGTCAAGCGCGCCATTGAGCTGTCCGCCGAGAAATACTGCTCGGCCTCGATCATGCTCGGTGCTGCCGGTGTTGAAATCACTCACGATTATGAAATCATCGAGTTGGGTTGA	MKARIQWAGEAMFLGESGSGHVVVMDGPPDAGGRNLGVRPMEMLLLGVGGCSNFDVVSILKKSRQAVESCEAFLEAERATEDPKVFTKIHMHFVVKGRGLKEAQVKRAIELSAEKYCSASIMLGAAGVEITHDYEIIELG				NA	NA	NA	NA	NA
D1-35_05347	645	vfr	COG0664	Cyclic AMP receptor-like protein	ATGGTTGCCATTACTCCCACGTCCAAGATCAAGAACCTCGACAAACTCTTGATGCATTGCCAGCGTCGCCGCTACCCCGCCAAGCACAACATCATTTGCGCAGGCGACCGCTCCGATACGCTGTTTTTCATCATCAAGGGCTCCGTCACTATCCTGATCGAGGACGATGACGGCCGGGAAATGATCATCGCCTACCTCAACTCCGGGGATTTTTTCGGCGAACTGGGATTGTTCGAGCAGGCGGGCAAGGAGCAGGAGCGCAGTGCCTGGGTACGAGCCAAGGTCGAATGTGAAGTGGCGGAAATCAGCTATGGCAAATTCCGAGAGCTGTCGCAGCAGGATCCGGACATTCTTTACGCCCTCAGCGGACAAATCGCGCAGCGTCTGCGCAATACCACCCGCAAAGTCGGTGACCTGGCGTTCTTCGACGTGACCGGTCGCGTCGCCCGCTGCCTGCTGGAACTGTGCAAGCAGCCCGACGCCATGACCCATCCGGATGGTATGCAGATCAAAGTGACCCGTCAGGAAATCGGCCGCATCGTTGGCTGCTCCCGAGAGATGGTCGGACGCGTGCTCAAGGACCTGGAAGAGCGCGATCTGGTCAGCGTCAAAGGCAAGACCATGGTCGTGTTCGGGACGCGCTAA	MVAITPTSKIKNLDKLLMHCQRRRYPAKHNIICAGDRSDTLFFIIKGSVTILIEDDDGREMIIAYLNSGDFFGELGLFEQAGKEQERSAWVRAKVECEVAEISYGKFRELSQQDPDILYALSGQIAQRLRNTTRKVGDLAFFDVTGRVARCLLELCKQPDAMTHPDGMQIKVTRQEIGRIVGCSREMVGRVLKDLEERDLVSVKGKTMVVFGTR	PGPT0015075_4073	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
D1-35_05348	693			hypothetical protein	ATGCCTTCAGCCATTGCCTTCACGGTTGAAAGCGGCCTGCAGGCCGAACAGGATCTGCTGGCCAGCGTTTGCGCCGGTGACGCTGAATCCGGCTTGCTGTTCTGGCAACCCAGCGATCGTGCCCTGGTCATGCCGCGTCGCTTGAGTCGCCTGCCAGGTTTTGAACTTGCCTGTGAGGTATCGGCCGCAAGCGGCTGGCCGGTGCTGCTGCGTGAAACCGGTGGCGAGCCAGTGCCTCAATCGGGCGCTACGGTCAATATCGCGCTGGTCTATGCGCCACCGCGAAGTGAAGGTGACCATGGCCGGATCGAGACTGCTTATCGGCGTCTGTGCGATCCGATCTGCCAGTTGCTCGATGAGCTGGGCGGGGTGGCTTCCCTTGGCGAAGTGGAGGGCGCGTTTTGTGATGGGCGCTTCAACGTCAATCTGGACGGCCGAAAAATGGTCGGTACCGCCCAGCGCTGGCGGCAAAGCAAGGGTGGCCAGAGGCCGGTGGGTCTGGTGCATGGCGCCCTATTGCTGGATGACGAGCGTGATCCCATGGTTGCGGCGGTCAATCGGTTCAACGAGGCGTGTGGCCTGGAGCAGCGTGTGCGTGCCGAGAGCCACATTGCCCTGCATGAGAAATTCCCGGCGCCTCATGCGCTGGAACGGCTCGAGGCGCTCTACCGGGAACTGTTGAGCAGCTTTTAG	MPSAIAFTVESGLQAEQDLLASVCAGDAESGLLFWQPSDRALVMPRRLSRLPGFELACEVSAASGWPVLLRETGGEPVPQSGATVNIALVYAPPRSEGDHGRIETAYRRLCDPICQLLDELGGVASLGEVEGAFCDGRFNVNLDGRKMVGTAQRWRQSKGGQRPVGLVHGALLLDDERDPMVAAVNRFNEACGLEQRVRAESHIALHEKFPAPHALERLEALYRELLSSF				NA	NA	NA	NA	NA
D1-35_05349	837	trpC		Indole-3-glycerol phosphate synthase	ATGAGCGTGCCAACGGTTCTGGAAAACATTCTGGCTCGCAAGGCTGAAGAAGTGGCCGAGCGCCGGGCCCGGGTCAGCCTCGCCGAGCTGGAAGGTCTCGCACGTTCAGCAGACGCGCCTCGCGGCTTTGCCCAGGCGCTGATCGATCAGGCGAAGAAAAAGCAGCCTGCAGTCATCGCCGAAATCAAGAAGGCGTCCCCCAGCAAAGGTGTGATCCGTGAGGACTTCGTCCCCGCCGACATCGCCAGGAGCTACGAGAAGGGCGGTGCGACCTGCCTTTCGGTGCTCACCGACGTCGATTTTTTCCAAGGCGCCGATGACTATCTAAAACAGGCGCGGGCGGCGTGCAAGCTGCCGGTGATCCGCAAGGATTTCATGATCGATCCGTACCAGATCGTCGAGGCGCGGGCCTTGGGTGCCGATTGCGTGCTGTTGATCGTTTCCGCCCTGGATGACGTGAAAATGGCCGAGCTGGCAGCAGTCGCTAAAGAGGTGGGCCTGGATGTGTTGGTGGAAGTCCACGACGGCGACGAGCTGGAGCGCGCCCTGAAAACTCTGGATACCAAGCTGGTCGGCGTGAATAACCGCAACCTGCATACGTTTGAAGTCAGCCTGGAAACCACTCTTGACCTGTTGCCGCGAATTCCACGTGATCGCCTGGTCATCACCGAGAGCGGCATTCTCAACCGAGCCGATGTCGAGTTGATGGAAGTCAGCGATGTGTATTCATTCCTGGTTGGCGAGGCTTTCATGCGGGCCGAAAGCCCGGGTACAGAACTGCAGCGCTTGTTTTTCCCCGAGCGCGGCGTTCCGGTAACCGGCTCGACGCTGGACTGA	MSVPTVLENILARKAEEVAERRARVSLAELEGLARSADAPRGFAQALIDQAKKKQPAVIAEIKKASPSKGVIREDFVPADIARSYEKGGATCLSVLTDVDFFQGADDYLKQARAACKLPVIRKDFMIDPYQIVEARALGADCVLLIVSALDDVKMAELAAVAKEVGLDVLVEVHDGDELERALKTLDTKLVGVNNRNLHTFEVSLETTLDLLPRIPRDRLVITESGILNRADVELMEVSDVYSFLVGEAFMRAESPGTELQRLFFPERGVPVTGSTLD	PGPT0007080_636	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
D1-35_05350	1050	trpD_2	COG0547	Anthranilate phosphoribosyltransferase	ATGGACATCAAGACAGCCCTGAACCGTATCGTCGGCCAGCTCGACCTGAGCACCGACGAGATGCGCGACGTGATGCGGGAAATCATGACTGGCCAGTGCACGGACGCGCAGATTGGCGCGTTCATGATGGCCATGCGCATGAAGAGCGAGAGCATCGACGAAATTGTCGGTGCGGTCACGACCATGCGCGAGTTGGCGGACAAGGTCGAACTCAAGACCCTTGATGGTGTGGTGGATGTCGTCGGGACCGGTGGTGACGGAGCCAATATATTCAACGTTTCCACCGCCTCGGCATTTGTCGTTGCGGCGGCCGGCTGCACGGTCGCCAAGCATGGCAATCGTGCAGTGTCGGGCAAGAGCGGCAGCGCCGATCTGCTGGAAGCCGCCGGTATCTACCTCAACCTGACGTCGGTCCAGGTGGCTCGTTGCATCGATAGCGTCGGCATCGGCTTCATGTTTGCCCAGACCCACCACCGCGCCATGAAATATGCCGCGGCGCCGCGTCGCGAGCTGGGCTTGCGCACGCTGTTCAACATGCTCGGCCCGCTTACGAATCCGGCCGGTGTGAAGCATCAAGTGGTCGGCGTGTTCAGCCAGGCGCTGTGCCGGCCATTGGCAGAGGTCCTGCAACGTTTAGGTAGCAAGCACGTGCTGGTCGTCCATTCAAAAGACGGCCTGGATGAATTCAGCCTGGCGGCGCCCACTTTCGTGGCCGAGCTAAAAAATGATCAGATCACCGAATATTGGGTCGAACCTGAAGACCTCGGCATGAAGAGCCAGAGCCTGCATGGACTGGCGGTGGATGGGCCAGCTCAGTCACTTGAGTTGATCCGCGATGCCTTGGGGCGGCGTAAAACCGAGAATGGCCAGAAGGCTGCGGAAATGATCATGCTCAACGCGGGCGCCGCGTTGTATGCCGCCGATCACGCCAGCAGCCTCAAGCAAGGTGTCGAGCTCGCTCATGATGCGTTGCACACCGGCCTGGCCCGGGAAAAACTGGAAGAATTGGGCGCGTTTACCGCCGTATTCAAAGTGGAGAATGAAGGATGA	MDIKTALNRIVGQLDLSTDEMRDVMREIMTGQCTDAQIGAFMMAMRMKSESIDEIVGAVTTMRELADKVELKTLDGVVDVVGTGGDGANIFNVSTASAFVVAAAGCTVAKHGNRAVSGKSGSADLLEAAGIYLNLTSVQVARCIDSVGIGFMFAQTHHRAMKYAAAPRRELGLRTLFNMLGPLTNPAGVKHQVVGVFSQALCRPLAEVLQRLGSKHVLVVHSKDGLDEFSLAAPTFVAELKNDQITEYWVEPEDLGMKSQSLHGLAVDGPAQSLELIRDALGRRKTENGQKAAEMIMLNAGAALYAADHASSLKQGVELAHDALHTGLAREKLEELGAFTAVFKVENEG	PGPT0007090_1252	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
D1-35_05351	594	trpG	COG0512	Anthranilate synthase component 2	ATGTTGCTGATGATCGATAACTACGACTCCTTTACTTACAACGTTGTGCAGTACCTTGGCGAGCTGGGCTCCGAGGTCAAGGTCGTGCGCAACGATGAGCTGACCATTGCCGAAATCGAGGCCCTCAAGCCCGAACGCATCGTCGTCTCGCCCGGCCCTTGCACGCCGACCGAAGCGGGCATCTCCATCGAAGCCATCAAATATTTTGCCGGCAAGCTGCCGATCCTAGGTGTCTGCCTGGGGCACCAGTCGATCGGCCAGGCGTTCGGTGGCGATGTCGTGCGGGCCCGCCAGGTGATGCACGGCAAGACCAGCCCGGTATTCCATGAAGACAAGGGCGTGTTCGAAGGCTTGAATCGCCCGCTTACCGTCACCCGCTACCACTCGTTGATCGTCAAGCGCGAAAACCTGCCCGACTGCCTTGAGCTGACCGCCTGGACCCAGCTCGAAGACGGCTCGGTGGACGAAATCATGGGGTTGCGTCACAAGACGTTAAACATCGAGGGTGTGCAATTTCACCCCGAGTCTATCCTCACCGAGCAGGGCCACGAACTGTTCGCCAACTTCCTCAAACAAACCGGCGGCACGCGCTAA	MLLMIDNYDSFTYNVVQYLGELGSEVKVVRNDELTIAEIEALKPERIVVSPGPCTPTEAGISIEAIKYFAGKLPILGVCLGHQSIGQAFGGDVVRARQVMHGKTSPVFHEDKGVFEGLNRPLTVTRYHSLIVKRENLPDCLELTAWTQLEDGSVDEIMGLRHKTLNIEGVQFHPESILTEQGHELFANFLKQTGGTR	PGPT0007105_1457	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-HQQ|PQS_BIOSYNTHESIS,PGPT0007105-trpG|phnB-K01658	NA	NA
D1-35_05352	1908	estA	COG3240	Esterase EstA	ATGATCAAGCCGACCTTGTTCATCCCCATCGCCAGCTGCCTGCTGACCATGGCCTGCGCTCAGGCGATTGCTGCCCCCAATCCCTACTCCAATTTCATCGTGTTCGGCGACAGTCTCAGCGACGCCGGTCAGTTCAGCGATCCCGACGGCCCGCCCGGCTCAACCTTGCGTTTTACCAACCGCACCGGCCCGGTCTACCTGGATGGCAGCGGCGAAGCCTATTCTGCAAACGCGACCCAACTGCTCGGTGGACGACTGGGCTTCTCCGCCGATGAAACCGCCGCGTCCACTTCGGCAGTGCGTGCCCGCGAAGGACTCGCGGACGGCAACAACTGGGCTGTAGGTGGTTATCGTACCGACCAGATACTGGACTCGATCACCAATATTTCCGCCACTGGCGAGCGCAGCCGGGCCGGTTATCTGCCAGCCAATGGCCTGCGTGCCGACCCGAATGCGCTGTATTACCTCTCCGGCGGCGGCAATGATTTTCTTCAAGGCAGAGTGTTGAGCATCGCCCAGGCGGATGCCGCCGCGGACCGCCTGGCCGACAGCGTGCAAGTGCTGCAAACCGCCGGAGCCCGCTATGTGATGGTCTGGTTGCTGCCGGACCTGGGCCTGACGCCGGCCCTCAACGGCACCCCCCTGCAGGGAACGGTCTCGCTGCTCAGCAATCGGTTCAACCAGCAACTGGTCACGCGGTTGCAGGGCATCGATGCCGAGATCATTCCGCTGAACGTTCCGCTATTGTTGCAGGAAACCTTTGCCGATCCTGGACGATTCGGCCTTGCCACCGGCGAGAACCTCACCGCCAGTTGCTTCAGCGGCAACAGCTGTACGGAAAACCCCACCTACGGCATCAACAGCGCCACGCCTGATCCGAGCAAGCTGATCTACAACGATGCGGTTCACCCCACCGAAACCGGGCAGAAGCTGATTGCCGACTACGCCTATTCCCTGCTCGCAGCGCCGTGGGAACTGACCTTGCTGCCGGAAATGGCCCACTCGACCTTGCGCGCCCACCAGGATGAATTGCGCAGCCAATGGCAATCGGACTGGGAGGATTGGCAGGCGGTAGGTCAATGGCGGGCGATTGTTGCCGGCGGCGGCCAGCATCTGGACATTGATAGCCAAGGCAGCGGTGCAAGCGCCGACGGCAGTGGCTACAACCTGAACATCGGCGGCAGTTACCGTCTCAACGAAGCCTGGCGCATCGGCGTGGCCGCCGGTCTGTACCGCCAGGACATGGACGCAGGCCGCAACGATTCGAACTACAAGCTCAACAGCTACCTCGCCACCGCGTTCGCCCAGTTCCAGCAGAACCGCTGGTGGGCCGACGCCGCGCTGACCGGCGGCAAGCTCGACTACGACAACCTGGAGCGCAAATTCGACCTGGGCGTCAGCCAGGCGCAGGAAAAAGGCGATACCGATGGTCATCTCTGGGCATTCAGCACACGCGTAGGCTACGACATTGCCCAGCCGGGCAGCCAATGGCACCTGTCACCGTTTGTCAGCGCCGATTATGCGAAGGTCGAGGTCGATGGTTACTCGGAACAGGGCAGCCGCTCCACGGCGCTGACTTTCGACGACCAGACCCGCGATTCAAAACGCCTGGGCATCGGCTTGCAGGGCAAATACAACTTTACCCGCCAGACCCAGGTGTACGGGGAGTATGCCCACGAGCGCGAGTATGAGGACGATACGCAAAAGGTGAACATCGCCCTCAACAGCTTGCCGGCCAATGACTTCACGCTGGAGGGCTACACCCCACAAAGCCACCTCAATCGCCTGAGCCTGGGGATCAGCCACAAGTTGACCAGCGATCTGGCGCTGCGGGGCGGTTATACGTTGCGCAAGGATGATGATTTTACCCAGCAAGGGGTGAGCCTGGGGGTCAGCCTGGATTTTTGA	MIKPTLFIPIASCLLTMACAQAIAAPNPYSNFIVFGDSLSDAGQFSDPDGPPGSTLRFTNRTGPVYLDGSGEAYSANATQLLGGRLGFSADETAASTSAVRAREGLADGNNWAVGGYRTDQILDSITNISATGERSRAGYLPANGLRADPNALYYLSGGGNDFLQGRVLSIAQADAAADRLADSVQVLQTAGARYVMVWLLPDLGLTPALNGTPLQGTVSLLSNRFNQQLVTRLQGIDAEIIPLNVPLLLQETFADPGRFGLATGENLTASCFSGNSCTENPTYGINSATPDPSKLIYNDAVHPTETGQKLIADYAYSLLAAPWELTLLPEMAHSTLRAHQDELRSQWQSDWEDWQAVGQWRAIVAGGGQHLDIDSQGSGASADGSGYNLNIGGSYRLNEAWRIGVAAGLYRQDMDAGRNDSNYKLNSYLATAFAQFQQNRWWADAALTGGKLDYDNLERKFDLGVSQAQEKGDTDGHLWAFSTRVGYDIAQPGSQWHLSPFVSADYAKVEVDGYSEQGSRSTALTFDDQTRDSKRLGIGLQGKYNFTRQTQVYGEYAHEREYEDDTQKVNIALNSLPANDFTLEGYTPQSHLNRLSLGISHKLTSDLALRGGYTLRKDDDFTQQGVSLGVSLDF	PGPT0023515_80	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5a_AUTOTRANSPORTER_SECRETION,PGPT0023515-apeE|estA|lip_1-K12686	NA	NA
D1-35_05353	1482	trpE	COG0147	Anthranilate synthase component 1	ATGATCCGCGAAGAATTTCTGCGTCTAGCCGCTGCCGGCTACAACCGCATCCCGCTTGCCTGCGAAACCCTGGCCGACTTCGACACGCCGCTGTCGATCTACCTCAAGTTGGCCGACCAACCCAATTCCTACTTGCTCGAATCGGTGCAAGGTGGGGAAAAATGGGGTCGCTATTCCATGATCGGCCTGCCGTGCCGCACCGTGCTGCGAGTCCATGACCATCGCATCAGCGTGACCTGCGATGGCGTCGAAATCGAAAGCCACGAAGTCGAGGATCCGCTCGCGTTCGTTGAATCCTTCAAGGCCCGCTACAACGTCCCGACCATCCCCGGCCTGCCACGTTTCAACGGCGGCCTGGTGGGTTATTTCGGCTACGACTGCGTGCGCTATGTGGAAAAACGCCTGGGCACCTGTCCGAACCCCGATCCGCTGGGTGTGCCGGACATTCTGCTGATGGTCTCCGATGCGGTGGTTGTCTTCGACAATCTCGCCGGCAAGATGCACGCCATCGTCCTGGCCGATCCGTCCCGTGAAGATGCCTACGAGCAAGGTCAACAAAGCCTTCAGACGTTGCTGGAAAAACTCCGCCAGCCGATCACCCCGCGTCCCGGCCTGGACTTCAGCAAGCAGTCGGCTGCCGACCCGGTGTTCCGTTCCAGTTTCACCCAGGGTGACTACGAAAAAGCCGTCGACACCATCAAGGAATACATCCTGGCGGGCGACTGCATGCAGGTCGTGCCGTCGCAACGGATGTCGATCGACTTCAAGGCCGCGCCGATCGATCTGTACCGGGCGCTGCGCTGTTTCAACCCGACGCCTTACATGTACTTCTTCAACTTCGGTGACTTCCATGTCGTGGGCAGTTCGCCCGAGGTGCTGGTGCGGGTCGAGGAAAACCTGATCACCGTGCGGCCGATCGCCGGCACACGGCCACGCGGCGCCACGGAGGAAGCGGACCGGGCGCTGGAAGAGGACCTGTTGTCAGATGCCAAGGAGATCGCCGAGCACCTGATGCTGATCGATCTGGGGCGCAACGACACTGGCCGGGTTTCCGAAGTGGGCTCGGTGAAACTCACCGAGAAAATGGTCATCGAGCGCTACTCCAACGTGATGCACATCGTGTCCAACGTCACCGGGCAGTTGAAGGCGGGGTTGACGGCGATGGACGCCTTGCGAGCGATCCTGCCGGCGGGCACTTTGTCTGGCGCGCCGAAGATCCGCGCCATGGAAATCATCGACGAGCTGGAGCCGGTCAAGCGCGGTGTGTACGGCGGAGCCGTCGGCTACTTCGCCTGGAACGGCAACATGGACACGGCCATCGCCATCCGCACCGCCGTGATCAAGAACGGTGAACTGCACGTGCAGGCCGGCGGCGGCATCGTCGCCGACTCGGTGCCCGCGCTGGAATGGGAGGAAACCCTGAACAAGCGTCGGGCAATGTTCCGTGCCGTGGCCCTGGCCGAGCAGACCCCAAGCGACTGA	MIREEFLRLAAAGYNRIPLACETLADFDTPLSIYLKLADQPNSYLLESVQGGEKWGRYSMIGLPCRTVLRVHDHRISVTCDGVEIESHEVEDPLAFVESFKARYNVPTIPGLPRFNGGLVGYFGYDCVRYVEKRLGTCPNPDPLGVPDILLMVSDAVVVFDNLAGKMHAIVLADPSREDAYEQGQQSLQTLLEKLRQPITPRPGLDFSKQSAADPVFRSSFTQGDYEKAVDTIKEYILAGDCMQVVPSQRMSIDFKAAPIDLYRALRCFNPTPYMYFFNFGDFHVVGSSPEVLVRVEENLITVRPIAGTRPRGATEEADRALEEDLLSDAKEIAEHLMLIDLGRNDTGRVSEVGSVKLTEKMVIERYSNVMHIVSNVTGQLKAGLTAMDALRAILPAGTLSGAPKIRAMEIIDELEPVKRGVYGGAVGYFAWNGNMDTAIAIRTAVIKNGELHVQAGGGIVADSVPALEWEETLNKRRAMFRAVALAEQTPSD	PGPT0007095_3276	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
D1-35_05354	819	gph_2	COG0546	Phosphoglycolate phosphatase	ATGAGCGGCTTCGAGCAGCTGTTTCCCGGCAGCCTGCCGCGTCTGGTGATGTTCGATCTCGACGGCACGCTCGTCGACTCGGTCCCGGACCTGGCGGCCGCCGTGGACAATATGCTGCTCCAGCTCGGGCGTCCGCCTGCGGGCATCGACGCCGTGCGCCAGTGGGTCGGCAACGGCGCGCCGATGCTGGTGCGCCGGGCCCTGGCCAATCACATTGATGCCCAAGGCGTTGATGAGGCCGAGGCCGAGCGGGCACTGGAGCTGTTCAACGAAGCCTATGAAGGCAACCACGAACTGACCGTGGTTTATCCGGGCGTGCGCTCCACCCTCAAATGGTTGCACAAGCAGGGCGTGGAAATGGCGCTGATCACCAACAAGCCGGAGCGTTTTGTCGCGCCGCTGCTGGATCAGATGAAGATCGGCCGTTATTTCCGCTGGATCATCGGCGGCGACACCTTGCCACAGAAAAAGCCCGACCCGGCCGCGCTGTTCTTCGTCATGAAAATGGCCAACATCCCGGCGTCCCAATCGTTGTTTGTCGGCGACTCGCGCAGCGACGTGCTGGCGGCGAAGGCGGCGGGGGTCAAATGTGTTGCCCTGAGCTACGGCTACAATCATGGCCGACCGATTGCCGAGGAATTTCCGACATTGGTGATTGATGATCTGCGCCTGCTAATTCCCGGTTGCCTGGACCCGGCCGCTGAGATAACGTTGCCCGACGCTGTTCAATCCTCTTCTGGAAACGCCATCGTGGTGGTCACTCGCAAACTCTGGATGAAAGTCATGAAGGCCCTGGCCCGCTGGCGTTGGCGCGCCTGA	MSGFEQLFPGSLPRLVMFDLDGTLVDSVPDLAAAVDNMLLQLGRPPAGIDAVRQWVGNGAPMLVRRALANHIDAQGVDEAEAERALELFNEAYEGNHELTVVYPGVRSTLKWLHKQGVEMALITNKPERFVAPLLDQMKIGRYFRWIIGGDTLPQKKPDPAALFFVMKMANIPASQSLFVGDSRSDVLAAKAAGVKCVALSYGYNHGRPIAEEFPTLVIDDLRLLIPGCLDPAAEITLPDAVQSSSGNAIVVVTRKLWMKVMKALARWRWRA	PGPT0001730_150	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
D1-35_05355	675	rpe	COG0036	Ribulose-phosphate 3-epimerase	ATGCAGCCCTTCGCTATTGCTCCGTCGATTCTCTCCGCCGACTTCGCCCGCCTGGGCGAGGAAGTGGACAACGTTCTGGCCGCCGGGGCCGACATCGTCCACTTCGATGTCATGGACAACCACTACGTACCCAACCTGACCATCGGCCCGATGGTCTGCGCGGCGTTGCGCAAATATGGCATCACCGCGCCAATCGATGCGCACCTGATGGTCAGTCCTGTGGATCGTATCGTCGGTGATTTCATCGAGGCCGGTGCCACCTACATCACTTTCCACCCGGAAGCCACGCTGCACGTCGACCGCTCCCTGCAATTGATCCGCGAAGGCGGCTGCAAGGCCGGCCTGGTGTTCAACCCGGCCACGCCCCTGGACGTACTCAAGTACGTGATGGACAAGGTCGACATGATTCTGCTGATGAGCGTCAACCCGGGTTTCGGCGGGCAGAAGTTCATTCCGGGCACGCTCGACAAGCTGCGCGAAGCCCGCGCCCTGATCGATGCCTCGGGCCGGGATATCCGCCTGGAAATCGACGGCGGGGTGAACGTGAACAACATCCGCGAAATCGCCGCGGCCGGTGCCGACACCTTTGTCGCCGGTTCGGCGATCTTCAACGCACCGGACTACCAGGCAGTGATCGAAAAGATGCGCGCCGAACTGGCCCTGGCACGTCCATGA	MQPFAIAPSILSADFARLGEEVDNVLAAGADIVHFDVMDNHYVPNLTIGPMVCAALRKYGITAPIDAHLMVSPVDRIVGDFIEAGATYITFHPEATLHVDRSLQLIREGGCKAGLVFNPATPLDVLKYVMDKVDMILLMSVNPGFGGQKFIPGTLDKLREARALIDASGRDIRLEIDGGVNVNNIREIAAAGADTFVAGSAIFNAPDYQAVIEKMRAELALARP	PGPT0017425_2765	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
D1-35_05356	1149	adh1	COG1454	Long-chain-alcohol dehydrogenase 1	ATGAGTCTTTCCTCATTCAAGATCGCCCACAAACTGATCACCGGCGCCGCTGCCATCGAGCAACTGGCGGCGGAGCTGACACGGCTGGATGTCGATAACCCGTTGATCGTCACGGACGCGGCGCTGGTCAAGTCGGGCACCGTGGAGTTGGCGCTGCAGCATTTGGGCGGGCGCGACTACGAGATTTTCGACCGGGTCATGCCCGACCCGGAAATCGCCATCGTCGAAGATTGCATGCAAGCCTACCGCGACGGCGGGCATGACGGCCTCATCGGCCTGGGTGGCGGCAGCGCCATCGACATTGCCAAGTGCGTGGGCGTCTATGCCGGTTATCACGGCGAGCTGCAGGATATGTTCGGTGTCGATCAGGTGCCGCGCAAAGGTCCGCCCATGATTGCCATTCCCACCACCGCCGGTACCGGTTCGGAAGTCACCAACGTGGCGATCCTCTCTGACAAGGCCGCACAGCTGAAAAAGGGCATCGTCAGTGATTTCCTGCTGCCGGACGTGGCGCTGGTCAGCCCGCAGATGACCCTGACGTGTCCGCGCAGCGTGACCGCCGCCAGCGGCGTTGATGCGTTGGTGCATGCCATCGAGTCGTACCTGTCACTCAACGCCTCGCCGATCACCGATGCCCTGGCCATCGGCGCGATCAAGCTGATCACCCGCGCCTTGCCCAAGGCCTACGCCAACCCGTCCCACTTGCAGGCCCGTGAAGACATGGCCACCGCCAGCCTGATGGCCGGTATGGCGTTCGGCAATGCCGGGGTCGGCGCCGTGCATGCGCTGGCCTATCCGCTGGGCGGACGTTTCCTTGTCTCTCATGGCGTCGCCAATGCCTTGTTGCTGCCGTATGTCATGCACTGGAACAAGATGGCCTGCGTCGAGCGCATGCGCGATATTGCCGAAGCCATGGGCATCAAGACGGCTCATTTGAGTGATATCGAAGCCGCGGACGAGGCCGTGGAGGCCATGGCCGCGTTGTGTGCCGCGGTGGAAATTCCCAAGGGCCTGAGTGGCCTGGGCGTCACCGAGGAGGTGATTCCGTCCATGGCGGCGGAGGCGGCGGGTATAGAGCGGCTGATGCGCAACAACCCGCGCAAGCTGAGCGCCGGCGATATCGAGAAGATCTACCGAGCGGCGTATTGA	MSLSSFKIAHKLITGAAAIEQLAAELTRLDVDNPLIVTDAALVKSGTVELALQHLGGRDYEIFDRVMPDPEIAIVEDCMQAYRDGGHDGLIGLGGGSAIDIAKCVGVYAGYHGELQDMFGVDQVPRKGPPMIAIPTTAGTGSEVTNVAILSDKAAQLKKGIVSDFLLPDVALVSPQMTLTCPRSVTAASGVDALVHAIESYLSLNASPITDALAIGAIKLITRALPKAYANPSHLQAREDMATASLMAGMAFGNAGVGAVHALAYPLGGRFLVSHGVANALLLPYVMHWNKMACVERMRDIAEAMGIKTAHLSDIEAADEAVEAMAALCAAVEIPKGLSGLGVTEEVIPSMAAEAAGIERLMRNNPRKLSAGDIEKIYRAAY	PGPT0008305_394	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008305-adh1-K19954	NA	NA
D1-35_05357	825	ydcV_4		Inner membrane ABC transporter permease protein YdcV	ATGCTGAGTCCTTACATGTCCCCCGTCGAGCGGGTGTGGTTCTACAGCTTGCGCATACTCTGCGGGCTGATCCTGTTGTTCCTGATCCTGCCAGTGCTGGTGATCATTCCGTTGTCGTTCAACTCGGGCAGCTTCCTGGTTTATCCGCTGCAGGGCTTTTCGTTGCAGTGGTACCACGATTTCTTCGCTTCGGCCGAGTGGATGCGGGCGTTGAAGAACAGCATCATCGTGGCCCCGGCGGCAACGCTGTTGGCGATGATCTTCGGTACGCTGGCGGCGATCGGCCTGACTCGTGGTGATTTCCCGGGCAAGGCGCTGGTGATGGCCCTGGTGATTTCGCCCATGGTGGTGCCGGTGGTGATCATTGGCGTCGCGAGCTACCTGTTTTTCGCGCCATTGGGGATGGGCAACAGCTTCTTCTCGCTGATCATCGTCCACGCGGTGCTCGGTGTGCCGTTCGTCATCATCACCGTCTCGGCGACTTTGCAAGGGTTCAACCACAACCTGGTCCGCGCTGCTGCCAGCCTCGGGGCTTCGCCATTGACCGCGTTCCGTCGCGTGACCTTGCCGTTGATCGCGCCGGGCGTCATCTCTGGTGCGTTGTTCGCCTTCGCGACTTCGTTTGATGAAGTGGTGGTGACCCTGTTCCTGGCCGGCCCGGAGCAAGCGACCCTGCCACGGCAGATGTTCAGCGGTATTCGCGAGAACCTGAGCCCGACCATCGCCGCCGCGGCTACGTTGTTGATCGCCTTCTCGGTGATCCTGCTGCTGACGCTGGAATGGCTGCGTGGGCGTAGCGAGAAGCTGCGTACGACCCAAGTCTGA	MLSPYMSPVERVWFYSLRILCGLILLFLILPVLVIIPLSFNSGSFLVYPLQGFSLQWYHDFFASAEWMRALKNSIIVAPAATLLAMIFGTLAAIGLTRGDFPGKALVMALVISPMVVPVVIIGVASYLFFAPLGMGNSFFSLIIVHAVLGVPFVIITVSATLQGFNHNLVRAAASLGASPLTAFRRVTLPLIAPGVISGALFAFATSFDEVVVTLFLAGPEQATLPRQMFSGIRENLSPTIAAAATLLIAFSVILLLTLEWLRGRSEKLRTTQV	PGPT0007845_1729	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
D1-35_05358	1248			hypothetical protein	ATGGCCATCGCCGTTCCACTGAACGCGGGCACCAGCCCCACCCTCAAGCAGCGACTCAAGCGCGCCGAGCGGCTCAACCGCTGGAAGGCCCAGGCCCTGATCGCGCCGCTGGTGCTGTTTCTGTTGCTGGTGTTTCTGGTGCCGATCGTGGCGCTGCTGTTCAAAAGCGTCAGCAACCCGGAAGTGGTGGGCGCGATGCCGCGGACCGTCGCTGCCGTCGCGGCTTGGGACGGACGCGGTCTGCCGGGCGAGCCGGTGTACAAGGCTGCCAGTGAAGATCTGGCCGAAGCCCGCAAGAATCAGACCCTGGGCGACTTGTCCAAGCGCCTGAACATGGAACTGGCCGGCTACCGCAGCCTGCTGACCAAGACTGCTCGCGCGCTGCCGTTCGCCACCGAGCCGGTCTCTTATAAAGAAGCACTGGAGAGCCTCGACGAACGCTGGGGTGACCCCGCGTACTGGCAGGTGATCCGGCGCAACACCAGTAATGTCACTCCGTACTACCTGCTGGCGGCTGTCGATCACCGCATCGACGATCTCGGTGAACTGGCCCCGGCCACCCCCGACCAGGCGATCTACCTGGATATTTTCACCCGTACTTTCTGGATGGGCCTGGTGATTACCGCCATCTGTCTGGTGCTCGCCTATCCACTGGCTTACCTGCTGGCGAACCTGCCGTCACGCCAGAGCAACCTGTTGATGATCCTCGTGCTGCTGCCGTTCTGGACCTCGATCCTGGTGCGGGTGGCGGCGTGGATCGTGCTACTGCAGTCGGGCGGATTGATCAACAGCGCGCTGATGGCCATGGGCGTCATCGATAAACCGCTGGAGCTGGTGTTCAACCGCACCGGCGTGTACATCTCCATGGTCCACATCCTTCTGCCGTTCATGATCCTGCCGATCTACAGCGTGATGAAGGGCATCTCGCCCACCTACATGCGGGCGGCGATCTCCCTGGGCTGCCACCCGTTCGCCAGTTTCTGGCGGGTGTATTTCCCGCAGACCTACGCCGGCGTAGGTGCCGGGTGCCTGTTGGTGTTCATCCTCGCCATCGGCTACTACATCACCCCGGCACTGCTGGGCAGCCCGAACGACCAGATGGTCAGCTACTTCGTCGCGTTCTACACCAACACCAGTATCAACTGGGGCATGGCCACGGCGCTCGGCGGATTGCTGTTGCTGGCGACCATCGTGCTTTATCTGATTTACAGCTGGCTGGTGGGCGCCAGTCGCCTGCGCCTGAGCTAA	MAIAVPLNAGTSPTLKQRLKRAERLNRWKAQALIAPLVLFLLLVFLVPIVALLFKSVSNPEVVGAMPRTVAAVAAWDGRGLPGEPVYKAASEDLAEARKNQTLGDLSKRLNMELAGYRSLLTKTARALPFATEPVSYKEALESLDERWGDPAYWQVIRRNTSNVTPYYLLAAVDHRIDDLGELAPATPDQAIYLDIFTRTFWMGLVITAICLVLAYPLAYLLANLPSRQSNLLMILVLLPFWTSILVRVAAWIVLLQSGGLINSALMAMGVIDKPLELVFNRTGVYISMVHILLPFMILPIYSVMKGISPTYMRAAISLGCHPFASFWRVYFPQTYAGVGAGCLLVFILAIGYYITPALLGSPNDQMVSYFVAFYTNTSINWGMATALGGLLLLATIVLYLIYSWLVGASRLRLS	PGPT0007850_680	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
D1-35_05359	279			hypothetical protein	ATGTTTCCCAATGCCGAGCGCTACAACCACTCCACCGAATACGCCAACAAACTCGTCGACCGCATCGGCCAGACGCCGGCCTGGATTGCCTTGCGCATCGGCGTCACTGAAAAACGCATGCGCTACATTCTTGCGGGCTCGCGTACGATCAAGGGCGATACTACCGAAATCCTGATGTCTTACGCCGAGCAGTTCTGCCTGGAGTGCCTCGCCGCCGAGGCCAAGGCCGCCAAGGATCGCGCCCGCTCGAAAGCGGCAGGCCCTGCCAGCGACGCCTGA	MFPNAERYNHSTEYANKLVDRIGQTPAWIALRIGVTEKRMRYILAGSRTIKGDTTEILMSYAEQFCLECLAAEAKAAKDRARSKAAGPASDA				NA	NA	NA	NA	NA
D1-35_05360	1662			hypothetical protein	ATGGATCATTACACCCCGCGCGCCTGGCAGCCGCACGAACGGCCGACGCTGCCCGGTTCGCCCTCGACGCCGTTGCATCCCACGCCCAAGCGGCTTGCCTACGCGCTGGTTGGCGTGCTGGTGGCGTTGACCGGGGGGTTGGGCAATTCGCTGGTGATCGCCAATCTGCCTTATCTGCAGGGGTCCCTGGGCGCCACCACGGCGGAGATGGCCTGGTTGCCCGCGGCCTACGTCATGACCAACGTCTCGATGAACCTGCTGCTGGTGAAATTTCGCCAGCAGTTCGGCTTGCGCGCGTTCACCGAAGTGTTCCTGGCGCTCTACGCCCTGGTGACCTTCGGCCATCTGTTCGTCAACGACCTGAACTCGGCGATCGCCGTGCGTGCGGCCCATGGCATGGTGGGTGCGGCCCTCAGCTCCCTGGGCCTGTATTATATGGTCCAGGCTTTCCCGGCCAAGTGGCGGCTAAAGGCGCTGGTGTTGGGCCTGGGCACTTCGCAATTGGCCTTGCCAATGGCCCGGCTGTTCTCTGAAGACCTGCTGCAAATCGCCGAATGGCGCGGCTTGTACCTGTTCGAACTGGGCATGGCGCTGCTGTCGCTGGGCTGCGTGCTGCTGCTCAAGTTGCCGCCGGGTGATCGCTTCAAGACCTTTGAAAAACTCGACTTCCTGACCTTCACCGTGCTCGCCAGCGGCGTCGCCTTGCTGTGCGCGGTGTTGTCGCTGGGGCGCATTGACTGGTGGTTGGAAGCGCCATGGATCGGCGTGGCCTCGGCGGCTTCCATCGTGCTGATCATGGCGGGCCTGGCGATCGAACATAACCGCAGCAATCCGATGCTGATGACGCGTTGGCTCGGCAGCGGGGTAATGATCCGTCTGGCCCTGGCGGTGATTCTGATCCGCATGGTGACTTCGGAACAATCCACTGGGGCGGTGGGTTTCCTGCAAGCGCTGAACATGAGCAGCCAGCAGATGCACAGCCTTTACGTGGTGATGCTGATCGGCAGTATTGCCGGGCTGGTGACCAGCGCGCTGACCATCAACCCGGCGCACCTGTTCATGCCGCTGATCATTTCCCTGGCGTTGATGGCCACGGGGTCGGTGATGGACAGTTATTCGAACAACCTGAGCCGTCCGCAAAACATGTACTTCAGCCAGTTCCTGCTGGCATTCGGCAGCACGTTCTTCCTCGGGCCGACGATGATCCTGGGGGTGCGCAATGTGCTGACCAACCCGCGAAACCTGGTGAGTTTTTCCGTGCTGTTCGGGATCTGCCAGAGCCTCGGCGGCCTGGTGGGGGCTGCGGTGCTCGGCACGTTCCAGGTAGTACGCGAGAAATTCCATTCCAGCCATCTGGTGGAGAACCTGAGTCAGTTCGACCCTCGCGTCGCCGCGCGGGTGGACAGCGGCGGCTCGGCGGTGGGTTCGCTGATTGCCGATCCGGGCCTGCGTCACCTGCAAGGCCTTCGCAGCCTCGCCACGGCCGCTACCCGCGAAGCCAACATACTTGCCTATAACGATGTGTTCATGCTGATCGCGGTGATCGCCGTGCTGACCATGATCTGGATTTCCATTCGTGCCCTGTGGCTGATGAGCACCACCCAGCCCGCCGCCGCAGCGCCTGCCCCTTCGACACAACCCAGCGGTGCCACCTCTTCATGA	MDHYTPRAWQPHERPTLPGSPSTPLHPTPKRLAYALVGVLVALTGGLGNSLVIANLPYLQGSLGATTAEMAWLPAAYVMTNVSMNLLLVKFRQQFGLRAFTEVFLALYALVTFGHLFVNDLNSAIAVRAAHGMVGAALSSLGLYYMVQAFPAKWRLKALVLGLGTSQLALPMARLFSEDLLQIAEWRGLYLFELGMALLSLGCVLLLKLPPGDRFKTFEKLDFLTFTVLASGVALLCAVLSLGRIDWWLEAPWIGVASAASIVLIMAGLAIEHNRSNPMLMTRWLGSGVMIRLALAVILIRMVTSEQSTGAVGFLQALNMSSQQMHSLYVVMLIGSIAGLVTSALTINPAHLFMPLIISLALMATGSVMDSYSNNLSRPQNMYFSQFLLAFGSTFFLGPTMILGVRNVLTNPRNLVSFSVLFGICQSLGGLVGAAVLGTFQVVREKFHSSHLVENLSQFDPRVAARVDSGGSAVGSLIADPGLRHLQGLRSLATAATREANILAYNDVFMLIAVIAVLTMIWISIRALWLMSTTQPAAAAPAPSTQPSGATSS				NA	NA	NA	NA	NA
D1-35_05361	1134	emrA_2		Colistin resistance protein EmrA	ATGACCGAGCCGACCACCACGACCACCAATGCCATCGCCGATACGCCGGAAGACCAGGCGCCTCCTGCCGCTCCGGCGACAAAACCGCGCTCCCTGCGAGTGCGGATGCTTTCATCCCTCGGATTCGCCGCAGTGGCGATCGTCGGCGTGCTGGTGGTGCTTTATGCCTGGCAATTGCCGCCGTTCAGCAGCGCCGTGGAAACCACCGAGAATGCTCTGGTGCGCGGGCAGGTGACGATCATCGGGCCGCAGCTCAGTGGTTATGTCCATGAAGTCCCGGTGCAGGACTTCCAGTTCGTCAAGGCCGGCGATCTGCTGGTGCGCCTGGATGACCGCATCTACCGGCAACGGCTCGACCAGGCGCTGGCGCAACTGGCGGTGCAACAGGCGGCCCTGGCCAACGTCGTACAGCAGCGCAACAGCGCCGAGGCGAGCATCAAGCTGCGCCAGGCCGCGCTGGCCGACAGCCAGGCCCAGGCCCACAAAGCCGCCGCCGACCTGCGCCGCAACGAGGCGTTGATAAAGGACGGTTCGGTGTCCAGGCGTGAACTGGATATCAGTCGCGCCGCCAGCGCCCAAGCCACCGCGGCCGTCGCCCAGGCCCAGGCCAGCCTGGAAATTGCCCGTCAGGACCGGCAAACCGTCATCGTCAACCGCGGCTCCCTGGAAGCGGCTGTCGCCAGCGCCGAGGCGGCGGTGCAACTGGCGCGCATCGACCTGTCCAACACGCGCGTGTTGGCGCCACGGGACGGTCAGCTGGGGCAGATCGGCGTGCGCCTGGGCGCCTACGTCAATTCCGGAGCGCAGTTGATGGCGCTGGTGCCGAACCAGAAGTGGGTGATCGCCAACCTCAAGGAAACCCAGATGGACAAGGTACGGGTCGGTCAGCCGGCAAGCTTCACCGTGGATGCCCTCGGCCATCGCCGCTTCCAGGGGCATGTCGAACGCATTTCCCCGGCCACCGGTTCCGAGTTCAGCCTGCTGCAGGCCGACAACGCCACCGGCAATTTCGTCAAGATTGCCCAGCGCGTTCCGGTTCGCATCACCGTGGATCCGGACCAGCCCGAAAGTGAACGCCTGCGGCCAGGGATGTCGGTGGTGGTGAGCATCGACACGGCCGCCGAACAGCAATGA	MTEPTTTTTNAIADTPEDQAPPAAPATKPRSLRVRMLSSLGFAAVAIVGVLVVLYAWQLPPFSSAVETTENALVRGQVTIIGPQLSGYVHEVPVQDFQFVKAGDLLVRLDDRIYRQRLDQALAQLAVQQAALANVVQQRNSAEASIKLRQAALADSQAQAHKAAADLRRNEALIKDGSVSRRELDISRAASAQATAAVAQAQASLEIARQDRQTVIVNRGSLEAAVASAEAAVQLARIDLSNTRVLAPRDGQLGQIGVRLGAYVNSGAQLMALVPNQKWVIANLKETQMDKVRVGQPASFTVDALGHRRFQGHVERISPATGSEFSLLQADNATGNFVKIAQRVPVRITVDPDQPESERLRPGMSVVVSIDTAAEQQ	PGPT0013750_2383	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0013750-emrB-K03543	NA	NA
D1-35_05362	1485	malT_3		HTH-type transcriptional regulator MalT	ATGAATCTGGAAGTCCCGAGCACCGATACCAATCGCCGCCAACTGCTGCAGATCATCGCCGGGCTATCGGATGGCGTGATGCTGATCGAAGTCGACCAGACGATTGCCTGGGCCAACGAAGCGGCCTTGACCATGCACGGAGTCGAGGAGCTTGGCGAGTTGGGCACCAACGCCAAGGAGTACGCCCGGCGTTTCAATTTGCGTTATCGCAACAACCATTCGCTCCCCGAAGACAACTATCCCATCGCCCGCGTGGCCCGCGGCGACGAATTCAGCGATGTGCTGGTGGAGGTGACGCCGGTGGCCGATCCGGACCGCACCTGGGTGCACCGCATCCGCAGCATGGTGCTGACCGACCGCAACGACGAGCCGGAATACCTGGTGCTGATTCTCAGCGATGCCACGGAATGGGCCAGCGCCGAACAGCGCTTCGAGAAAACCTTTGGCGCCAACCCGGCACCAGCGGTGATCTGCCGTCTCAGCGATTTGCGCTATATCAAGGTCAACGCGGGTTTCCTGGAAATGACCGGCTACAGCCGCGAAGAGGTGATCGGGCGTTCGGTTTATGAACTGGATGTGCTCGAGGCTGCCGAAAAGCGCGACCTAGCCGTCGAGCGCCTGGGGCAGGGCGCGACCATCCCGCAGATGCAGGCCGAACTGCGCTTGCCCGATGGCACCAACAAACAGGTGATCGTCGCTGGCCAGCCGCTGGACCTCCACGATGAAGACTGCATGCTGTTTTCGTTCATGGACATGGAGCCGCGGCGCAAGGCCGAAACGGCGCTGCGCCAGAGCGAGGAGCGTTTTGCCAAGTCGTTCCGGCTGTCACCGGTGCCGACGCTGATCTGTAGCGCCGAGCTGCAACTGGCGGAAATCAACGAGGCCTTCCTCCAGGCGACGGGTTATGCCAGCCAAGAGCTGTTGGGCAAGACCGTGGAGGAGATCGGCTTCCTCGAGAAGGAAGCGGCGGCGACGTTGTTCGGGCGCCTGGAAAAGACTGCCACCGTGTCCAGGGTCGACGTCAAGGTGCACAAGAAAGGCGGGGAGCAGATCGACTGCGAAGTGGCGGCCGATACCGTCATCATCCAGGACAAGCCATGTTTCCTGCTGGTGCTGATGAATATCACCGAACGCAAGCGCTCGGAGCTGGAGCTGGTAGCAGCCATCGAAGAGGTGATGAAGGACGCGTCGTGGTTCAGCCGCACCCTGATCGAAAAGCTGGCCAATGTGAAGAGCATCAATGCGCAGACCCCGACGACTTCTTTCACCGAGCTGACCGCCCGCGAACGTGACGTACTGGGGCTGATTTGCGAGGGTCTGGCGGACAAGGAAATCGCCGCGCGCTTGAAACTGGCCCCCAACACCGTGCGCAATCACGTGGCGACGCTGTATTCGAAACTCGACGTCCATAGTCGTAGCGAGGCGATTGTCTGGGCGCGGGAGCGGGGCTTGTTCGCGAACGAATGGCGGATAAAGGCACCATGA	MNLEVPSTDTNRRQLLQIIAGLSDGVMLIEVDQTIAWANEAALTMHGVEELGELGTNAKEYARRFNLRYRNNHSLPEDNYPIARVARGDEFSDVLVEVTPVADPDRTWVHRIRSMVLTDRNDEPEYLVLILSDATEWASAEQRFEKTFGANPAPAVICRLSDLRYIKVNAGFLEMTGYSREEVIGRSVYELDVLEAAEKRDLAVERLGQGATIPQMQAELRLPDGTNKQVIVAGQPLDLHDEDCMLFSFMDMEPRRKAETALRQSEERFAKSFRLSPVPTLICSAELQLAEINEAFLQATGYASQELLGKTVEEIGFLEKEAAATLFGRLEKTATVSRVDVKVHKKGGEQIDCEVAADTVIIQDKPCFLLVLMNITERKRSELELVAAIEEVMKDASWFSRTLIEKLANVKSINAQTPTTSFTELTARERDVLGLICEGLADKEIAARLKLAPNTVRNHVATLYSKLDVHSRSEAIVWARERGLFANEWRIKAP				NA	NA	NA	NA	NA
D1-35_05363	249			hypothetical protein	ATGACCCATCTGGCTCCGTTACGTACCCGTCTCGAGCAAAGCTTTGCGCCACTGGCCTGTGAATGCAGCCTCAACGGCGACGGCACCCTGACCATTCGCCTGTACCGCCAGGAAAGCGGCGAGGTCGACCTGGTGGTGAGCGGCATGAGCGTCGACAGCATCCGCTCCGAAGAAGGCTTGAACAAGCTGATCGATGAACTGCGTTATGAGCTGTACAACACGCCGCTGCATCGCAGCGATCCAGCCTGA	MTHLAPLRTRLEQSFAPLACECSLNGDGTLTIRLYRQESGEVDLVVSGMSVDSIRSEEGLNKLIDELRYELYNTPLHRSDPA				NA	NA	NA	NA	NA
D1-35_05364	1386	sasA_20		Adaptive-response sensory-kinase SasA	ATGTCATTGCTGAACCCCGCTAAGGGCTGGCGCTCCTCCAGCAGCCGCCTGCTGGCGCTGTACAGTTCGCTGTTCGTGATCTGGAGCGCGATCCTGATGGGGGTCATGTATTACGAGGTGTTCGGCTACCTTGACAGCCTCGCCAAGCATTCCCTGATGCAGCGCCAGCACCTGTTCGCGCGCATCCATGGCGAACAACTGGAAGACGCGCTCATGGCCAGCCTGTCGCTGGATGAACGCGGCGTCGACGCCTACGGCCTGTTCGATCCGCAACTGCGCCATCTGAGCGGACCGATCCAGCGCATCCCCGCCGATCTGCCGCTGGACGGCAAGATCCATATGCTCGGTGGCTGCGTCGACTCCGACGACCCGATGATCCCCTCCGACAGTTGCGACGCGGTCGCGACCCGGACCCAGGACGGCCGCTGGCTGGTATTGGCGCGGGACAACGGCTCGCTGTTCGCCGTGACCCGCATCATCCTGCACGCGCTGCTCTGGGGGGTCTCGTTGACTATCCTGCCGGGCATCGCCGGCTGGCACCTGTTGCGACGTCGACCGCTGCGGCGTATCCGCGCCTTGCAGGCCAGCGCGGAAGCCATCGTCGCCGGCGACCTGACCCATCGCCTGCCGCTGTCGAGCCGTCGCGATGAACTGGACATGCTGGCAGCCATCGTCAATGCCATGCTCGATCGCATCGAACGGCTGATGAATGAGGTCAAGGGCGTCTGCGACAACATTGCCCATGACTTGCGCACCCCGCTGACGCGCCTGCGTGCCCAGCTTTATCGCATCCAGCAAGAAGCGGCGGACAGCTCCCCGGAAGCGTTGCAGATGGATCAGGTGATCGCCGAGACCGATACGCTGATGGCGCGGTTTCGCGGTCTGCTGCGGATTTCGGAACTGGAGGACCAGCAGCGCCGCTCCGGTTTCGTGCGTCTGGATCCGTTGCAGTTGTTGCAGGAACTGCATGACTTCTATCTGCCGCTGGCCGAAGAACGCGAGCTGGTGTTCAAGCTGGAAGTGCCCGACACCCTGCCCTTGCTCAACGGTGACCGGGCATTGTTGTTCGAGGCGGTGTCGAACCTGTTGAGCAACTCGATCAAATTCACCCCATCGGGCGGCGAGGTGATCTTGCGGGGCGTCGACCAGGGCGACAGCAGCCGCATCGAAGTGCTCGACTCAGGCCCTGGCATTCCCGAGGCGGAACGCAAGGCGGTGTTCCGGCGCTTCTACCGCGCCGAGGGCAGCAGCCAGCACGGCGGCTTCGGCCTGGGCCTGTCGATCGTCGCGGCGATTGTCACGCTGCACGGGTTTACGCTGGAGGTGGATCGCAGCGAGCTGGGCGGGGCGCGGTTGGCGCTGGATTGTCGGGCGACGTTGCTTTGA	MSLLNPAKGWRSSSSRLLALYSSLFVIWSAILMGVMYYEVFGYLDSLAKHSLMQRQHLFARIHGEQLEDALMASLSLDERGVDAYGLFDPQLRHLSGPIQRIPADLPLDGKIHMLGGCVDSDDPMIPSDSCDAVATRTQDGRWLVLARDNGSLFAVTRIILHALLWGVSLTILPGIAGWHLLRRRPLRRIRALQASAEAIVAGDLTHRLPLSSRRDELDMLAAIVNAMLDRIERLMNEVKGVCDNIAHDLRTPLTRLRAQLYRIQQEAADSSPEALQMDQVIAETDTLMARFRGLLRISELEDQQRRSGFVRLDPLQLLQELHDFYLPLAEERELVFKLEVPDTLPLLNGDRALLFEAVSNLLSNSIKFTPSGGEVILRGVDQGDSSRIEVLDSGPGIPEAERKAVFRRFYRAEGSSQHGGFGLGLSIVAAIVTLHGFTLEVDRSELGGARLALDCRATLL				NA	NA	NA	NA	NA
D1-35_05365	783	cusR	COG0745	Transcriptional regulatory protein CusR	ATGCATTTGCCGGCGCCCATGAACTTTTTTTCAGAAAGCCGACAGGTAATCTTTGGCAGAATGCTGCGCAATAGCTCCACTTCCCAACCGGTAACGCCCATGAACCGTATCCTGACCATCGAAGACGACGCCGTGACCGCCCGTGAAATCGTCGCCGAACTGACCCGCAACGGCCTGGACGTCGACTGGGTCGACAACGGCCGCGAGGGCCTGGAACGGGCTGTCAGCGGTGACTATGACCTGATCACTCTCGACCGGATGCTGCCCGAACTCGACGGCCTGGTGATCGTCACCCAGCTGCGCAGCATGGGCGTGGCCACGCCGATCCTGATGATCAGCGCCCTCTCCGATGTCGACGAGCGGGTGCGTGGCTTGCGGGCCGGCGGCGACGATTACCTGACCAAGCCGTTCGCCACCGACGAAATGGCCGCCCGGGTCGAAGTGCTGCTGCGCCGCAACAACGGCGCCCGCGAGCCGGAAACCGTGCTGCGGGTGGCGGACCTGGAGCTGAACCTGATCAGCCGCGAGGCCAGCCGCAACGGCCAGTTGCTGAGCCTGCTGCCCACCGAATACAAGTTGCTGGAATTTCTGATGCGCAACAGTGGCCAAATCCTCTCGCGCATGATGATTTTCGAAGAAGTCTGGGGTTATCACTTCGATCCGGGCACCAACCTGATCGACGTCCACATCGGTCGCCTGCGCAAGAAGATCGATCCGCCGGGCCTGGAACCGCTGATTCGCACGGTACGAGGCTCCGGCTATGTCATTGCTGAACCCCGCTAA	MHLPAPMNFFSESRQVIFGRMLRNSSTSQPVTPMNRILTIEDDAVTAREIVAELTRNGLDVDWVDNGREGLERAVSGDYDLITLDRMLPELDGLVIVTQLRSMGVATPILMISALSDVDERVRGLRAGGDDYLTKPFATDEMAARVEVLLRRNNGAREPETVLRVADLELNLISREASRNGQLLSLLPTEYKLLEFLMRNSGQILSRMMIFEEVWGYHFDPGTNLIDVHIGRLRKKIDPPGLEPLIRTVRGSGYVIAEPR	PGPT0004105_1002	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0004105-cusR|copR|silR-K07665	NA	NA
D1-35_05366	327	hcnA		Hydrogen cyanide synthase subunit HcnA	ATGATCAACTCCCAGAATGTTCTACGCCGTAAATTCGATATTCAACCGCTGAAACGGGCCGACATGAGCGTTCGCCTGGACGGCCAGACTGTCGACGCCGCCGAGGGTGAGACCGTACTCACCGTCATCCAGGCCATGGGCCAACGCCAGGTGGCCCGCAACGACCACGGCCAGGTCAGCGGTGCCTACTGCGGCATGGGCATTTGCCAATGCTGCCTCGTCAGGATCGATGGCCGCCACAAGCGACGGGCCTGCCAGACGCTGGTGCGACCGGGCATGCAGATCGAAACCCGGGCCAATCGCATCGCCGCAACGGAGGCGCCATGA	MINSQNVLRRKFDIQPLKRADMSVRLDGQTVDAAEGETVLTVIQAMGQRQVARNDHGQVSGAYCGMGICQCCLVRIDGRHKRRACQTLVRPGMQIETRANRIAATEAP	PGPT0008401_10	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-VOLATILE_RELATED_HYDROGEN_CYANIDE_METABOLISM,PGPT0008401-hcnA-K10814	NA	NA
D1-35_05367	1419	hcnB_4		Hydrogen cyanide synthase subunit HcnB	ATGAACCTCGATCCGGTGATTGTAGGCGGCGGGCCGGCGGGTATGGCGGCGGCCATCGAGCTGGCCGCCAATGGCCTGCGTTGCACGCTGCTCGAAGAAGCGCCACGCCTGGGCGGCGTGGTGTACCGCGGGCCGTTGCGCGATGGCGTGAGCCTGGACTACCTGGGGGCGCGCTACAGTGAGACCCTGGCAAAGCTCCATGGGGAATTCCAGCGCAACGCCGGCCTGATTGATGTGCGACTGGGTAGTCGGGTCATCGGTGCCGAGGGGTTCCGGGCCCTGATGCTGCTGGACGGCGACGAGCGCTTGCGGGAAGTGGCCTATTCCCAGTTGATCCTGGCAGCCGGTTGTCATGAACGCAGTGTGCCGTTCCCCGGCTGGACACTGCCGGGGGTGATGATGCTCGGTGGCCTGCAATTGCAGATCAAGAGTGGCGTGGTTAAGCCGCCGAGCCCGGTGGTGATTGCCGGCACCGGCCCGTTGCTGCCCTTGGTGGCCTGCCAGCTGCACGCCTCGGGCGTCACCGTGGCGGGCGTCTACGAAGCCTGTGCCTTCGGCAGGATCGCCAAGGAAAGCCTGGCGTTATTGAACAAACCGCAATTGTTTCTCGATGGCCTGGGCATGCTGGCGTACCTCAAGCGGCACCGCATCCGGGTGCGCTATGGTTGGGGCGTGGTGCGCGCCGAGGGCGAGGGTGAACTGAGCAGCGTGACCGTTGCGCCTTACTCCGCCGACTGGAAACCGGACCTTGGACAGGCCGAACAGCTGCCGGCCGAGACGCTGGCGGTCGGCTACGGGTTTATCCCGCGCACGCAGTTGAGCCAGCAGATGGGGCTTGACCATGGCTTCAGCGAGGACGGCTACCTGCGCGCCGTGTCCGATGCCTGGCAGCGCAGCAGCGAGGCGCATATCCACCTGGCGGGCGATATGGGCGGGATCCGCGGCGGTGAAGCGGCCATGTTGAGCGGGCGCATCGCGGCATTGTCGGTCCTGCTGCAGCGTAATGTCCTGGATGAGGCCACGGCGCTGGAGCGCCGCAGGCGCTATCAGGCCCAATTGGACCGGATCATTCGTTTTCGCGCCGCCGTTGATCGCTACACCCGGCGCGGCGCCGGGCAAACCGCGCTGCCAGCCGCCGATACAGTGATCTGCCGTTGCGAACACGCCACCCGCGCGGACATCGACCGCGCCCTTGAACAGGGCGTGCAAGACATGGCCAGCCTGAAAATGCGCACCCGGGTGAGCATGGGCGATTGCCAGGGTCGCCTGTGTGTCGGCTACTGCAGCGACCGCCTGCGCGAAGCTACCGGACGGACCGATGTGGGCTGGCTACGGCCACGTTTTCCGATCGATCCGATTCCTTTCTCTGCGTTCCAGAACGACGACCCGGAGGCGCTATCCCATGATCAGGCACTATGA	MNLDPVIVGGGPAGMAAAIELAANGLRCTLLEEAPRLGGVVYRGPLRDGVSLDYLGARYSETLAKLHGEFQRNAGLIDVRLGSRVIGAEGFRALMLLDGDERLREVAYSQLILAAGCHERSVPFPGWTLPGVMMLGGLQLQIKSGVVKPPSPVVIAGTGPLLPLVACQLHASGVTVAGVYEACAFGRIAKESLALLNKPQLFLDGLGMLAYLKRHRIRVRYGWGVVRAEGEGELSSVTVAPYSADWKPDLGQAEQLPAETLAVGYGFIPRTQLSQQMGLDHGFSEDGYLRAVSDAWQRSSEAHIHLAGDMGGIRGGEAAMLSGRIAALSVLLQRNVLDEATALERRRRYQAQLDRIIRFRAAVDRYTRRGAGQTALPAADTVICRCEHATRADIDRALEQGVQDMASLKMRTRVSMGDCQGRLCVGYCSDRLREATGRTDVGWLRPRFPIDPIPFSAFQNDDPEALSHDQAL	PGPT0008402_11	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-VOLATILE_RELATED_HYDROGEN_CYANIDE_METABOLISM,PGPT0008402-hcnB-K10815	NA	NA
D1-35_05368	1260	hcnC_2		Hydrogen cyanide synthase subunit HcnC	ATGATCAGGCACTATGACGTAGTGATCGCCGGTGGTGGGGTGATCGGGGCGTCCTGCGCCTATCAACTGTCCAAGCGCAAGCACCTGAAGATCGCCCTGATCGATGCCAAGCGTCCAGGCAACGCCACCCGCGCGTCGGCCGGCGGCCTGTGGGCCATCGGCGAATCGGTGGGGCTGGGCTGTGGGGTGATTTTTTTTCGCATGATGTCGGCCAATCGCAAGCGCCAGGCCCAAGGCGCCGCCGTGGCGGTGGATGCCAGCACTCCGCATATCCTGCCCGACTCGTTTTTCGATTTCGCCTTGCAGTCCAACGCGATGTATCCGCAGTTGCACAGGGAACTGATCGAGCGTCACGGCATGGATTTCAAGTTTGAAGAGACCGGGCTCAAGTTCGTGATCTATGACGATGAGGACCGCTCCTACGCCGAACACATCGTCGCCTGCATTCCCCACCTGGCTGATCAGGTGCGCTGGCTCGACCAGGCGGCGTTGCGCGAGGCCGAGCCGAGTGTCAGCCATGAGGCCTTGGGCGTGCTGGAGTTTCTCTGCGACCACCAGGTCAGCCCGTTCCGCCTGGCCGACGCCTACACCGAGGGCGCGCGGCAGAATGGCGTTGATCTGTTTTTCAATACCAACGTGACTGACGTATTACGTGACGGCAGTCGGGTGACAGGGGTGAAAACCGCCGAAGTCGGCACGTTCAACTGCCGGACGTTGATCAATGCTGCCGGCGCCTGGGCGGCGGACTTGAGCGAGCAGGCGACGGGCGTGCGGATTCCGGTCAAGCCGGTCAAGGGGCAGATCCTGCTGACCGAGCGCATGCCGAAAATCCTCAGGGGATGCCTGACCACCAGCGATTGTTATGTGGCGCAGAAGGACAACGGCGAGATCCTGATCGGCAGCACCACGGAAGACAAAGGGTTCGACGTGACCACCACCTACCCTGAAATCGAGGGGTTGGTGCAAGGCGCGGTGCGGTGTATCCCGCAACTGGCCGACATCAACCTGAAACGCACCTGGGCCGGCCTGCGTCCCGGCTCACCGGATGAATTGCCGATCCTCGGGCCGATGCGCGGCGTGGAGGGCTACCTCAACGCCTGCGGGCATTTTCGCACCGGCATCCTGACCTCGGCCATCACCGGGGTGCTGCTGGACAAACTGGTGAACGACGAGCCGTTGCCGCTGGACATCACACCGTTCCTGGCGGACCGGTTTGGACTGGCGGCGGTTGCAGAGCCGAGGAAAATGCAACCGGCCTGA	MIRHYDVVIAGGGVIGASCAYQLSKRKHLKIALIDAKRPGNATRASAGGLWAIGESVGLGCGVIFFRMMSANRKRQAQGAAVAVDASTPHILPDSFFDFALQSNAMYPQLHRELIERHGMDFKFEETGLKFVIYDDEDRSYAEHIVACIPHLADQVRWLDQAALREAEPSVSHEALGVLEFLCDHQVSPFRLADAYTEGARQNGVDLFFNTNVTDVLRDGSRVTGVKTAEVGTFNCRTLINAAGAWAADLSEQATGVRIPVKPVKGQILLTERMPKILRGCLTTSDCYVAQKDNGEILIGSTTEDKGFDVTTTYPEIEGLVQGAVRCIPQLADINLKRTWAGLRPGSPDELPILGPMRGVEGYLNACGHFRTGILTSAITGVLLDKLVNDEPLPLDITPFLADRFGLAAVAEPRKMQPA	PGPT0008403_5	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-VOLATILE_RELATED_HYDROGEN_CYANIDE_METABOLISM,PGPT0008403-hcnC-K10816	NA	NA
D1-35_05369	612	yibF_2	COG0625	putative GST-like protein YibF	ATGAAACTGATCGGCATGCTGGACTCGCCCTATGTGCGACGCGTCGCCATTACCGCCAAGCGCCTGGGCATCGCCCTGGAACACCAATCAGTTTCGGTGTTCAGGCATTTCGACCAATTCCAGCGCATCAACCCGGTGGTCAAGGCCCCGACCCTGGTGCTGGATGATGGCTCGGTGTTGATGGACTCGACCTTGATCATCGATTACCTGGAAACCTTGGCCGGGCCCGGGAAGAGCCTGATGCCGAGCGATCCGGGGCAACGGTTGCAATCGTTGCAACTGATCGGGTTGGCATTGGCGGCGTGCGAAAAATCGGTGCAGATCTATTACGAACGCACTTTGCGCCCAGCGGAAATCCAGCATGAGCCGTGGCTCGCGCGGGTGTCGGGCCAGTTGCTGGCGGCATATGGCGAGTTGGAAAAGGCATTGGTGAAACAACCATTGCCCACCGATGGCTCGCTCGACCAGGCCGGCATCAGCGTCGCGGTGGCATGGACTTTCACCAACCTGTTGGTGGCCGATCAGGTGCAAGGCAAGGCCTTCCCACAGATCAGCGCGTTTACCGCTTATGCCGAAGGCCTGGAAGCGTTTGTCAGTACACCGGTGGAATAA	MKLIGMLDSPYVRRVAITAKRLGIALEHQSVSVFRHFDQFQRINPVVKAPTLVLDDGSVLMDSTLIIDYLETLAGPGKSLMPSDPGQRLQSLQLIGLALAACEKSVQIYYERTLRPAEIQHEPWLARVSGQLLAAYGELEKALVKQPLPTDGSLDQAGISVAVAWTFTNLLVADQVQGKAFPQISAFTAYAEGLEAFVSTPVE	PGPT0013170_20299	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
D1-35_05370	921	murR		HTH-type transcriptional regulator MurR	ATGACCCGCCCCGATCTGCCGGTGCCGTCCGAGAGCGCGTCCGAACCCGCCCTCCCCAGCCCACCGATCAACGCCGAGCGGCTGCTGCAATTGATTACCGAGGAGTACGAAGGCCTGCCGCGCCAGCTCAAACGCATCGCCAGCTACATGAGCCAGCAAAGCGACCGGATCATGGTCGATCGCATCAGCGACATTGCCCGGGAGTGCGAAGTGCACCCCTCGGCCATCGTGCGTTTTTCCCAGCGCTTCGGCTTCAGCGGGTTCAGCGAAATGCAGGCGCTGTTTCGCGAGGCCTACACCCACAAGACCACGCCGGTGCAGAACTACCAGCAACGCATTCGCAGCATGATCGCCAACAAGTCGCAGAAGGCCAGCGCCGGCGATCTCGCGCGCGAATGCGTCAACGCCACCCTGTCGGGCATCGAGCGCCTGGGGTTGGAACTCGACGACGAGGCGTTCGAAAAAGCCGTCGACCTGGTGGTCAACGCCGATAACATCTACGTCGTTGGTGTGCGGCGCTCGTTCGCGGTGGCCGATTACCTGGTCTATAACCTTCAGCACACCAACAAGCGCATCCACCTTGTGTCGGGCCTGGGCGGCAGTTATCGCGAGCAGATGCGCAGCGTCCGGGCCAATGATCTGGTCATCGCCATCAGCTTTACCCCGTACGGCAAGGAAACCCAGCACTGCCTGCGCATCGCCCAGCATCACCAGGCCAAGACGCTGATCATCACCGACAGCAACCTGTCGCCCCTGGCCAAGCGGGCCAATGCGGTGCTGCTGGTGAACGAAGGCAGCTCGTTCGCCTTTCGCTCGTTGAGCGCCACCCTGTGCCTGTGCCAGGCGCTGTTCATCGCCGTGGCCTACCGGCTTGAACTCAAGGTTGATGAAATCCATGAACAGGTCGGATTCGAAGATTGA	MTRPDLPVPSESASEPALPSPPINAERLLQLITEEYEGLPRQLKRIASYMSQQSDRIMVDRISDIARECEVHPSAIVRFSQRFGFSGFSEMQALFREAYTHKTTPVQNYQQRIRSMIANKSQKASAGDLARECVNATLSGIERLGLELDDEAFEKAVDLVVNADNIYVVGVRRSFAVADYLVYNLQHTNKRIHLVSGLGGSYREQMRSVRANDLVIAISFTPYGKETQHCLRIAQHHQAKTLIITDSNLSPLAKRANAVLLVNEGSSFAFRSLSATLCLCQALFIAVAYRLELKVDEIHEQVGFED				NA	NA	NA	NA	NA
D1-35_05371	1938	iolC		5-dehydro-2-deoxygluconokinase	ATGGGCCAGACTCGTTTTGCCAGTGGACGTCAATTGGATGTGATCTGCCTGGGGCGCCTGGGCGTCGATCTCTACGCGCAGCAAGTCGGTGCGCGGCTTGAGGATGTCTCGAGCTTCGCCAAGTACCTGGGTGGCTCATCTGCCAACATCGCCTTTGGCACGGCCCGTCTCGGGCTTCGGTCGGCGATGCTGAGCCGGGTGGGCGATGATCATATGGGGCGCTTCCTGGTGGAATCCCTGATGCGCGAAGGCTGCGACGTCAGCGGCATCAAGGTCGACCCCGAGCGACTGACAGCCATGGTGTTGCTCGGCATCAAGGACCGCGAGACCTTTCCCCTGGTGTTCTACCGTGAAAATTGCGCGGACATGGCGCTACGGTCCGAGGACATCGACGAAGCCTTCATCGCGTCCAGCAAGGCGCTGTTGATCACCGGCACGCACTTCTCCACCGACAGCGTCTACCAGGCCAGCATCCAGGCGCTGGACTATGCGCAGACGCACCAGGTCAAACGTATCCTCGATATCGACTACCGCCCGGTACTCTGGGGCCTGGCGCCCAAGGCCGATGGCGAAACCCGTTTTGTCGCCGACCGCAAGGTCAGCCAGCACGTACAAGGCATCCTGGCGCGTTTCGACCTGATCGTCGGCACCGAAGAAGAGTTTTTGATCGCCGGTGGCAGCGAAGATCTGCTGGCCGCGCTGCGTACCGTGCGCTCGCTGACGGCGGCGACCCTGGTGGTGAAGCTTGGCCCGCAAGGTTGCACGGTGATCCACGGCGATATCCCGAACCGCCTGGAAGACGGCGCCATCTACCCCGGCGTGCGGGTCGAGGTGTTGAATGTGCTGGGCGCGGGCGATGCGTTCATGTCGGGTTTCCTCGCCGGTTGGCTGGAGGACGCCAGCGATGAGCGCTGCTGCCAGTTGGCCAACGCCTGTGGCGGGTTGGTGGTGTCGCGTCATGCCTGCGCCCCGGCGATGCCGACCCGGGCCGAGCTGGATTACCTGTTTGCCAGCCCGGTGCCGATCACCCGCCCTGACCAGGATGTCGTGCTGCAACGGCTGCATCAGGTCAGCGTGCCGCGCAGGGTCTGGAAACAGCTGTTCATCTTTGCCTTTGACCATCGCTGGCAGTTGGTGGAACTGGCCCAGCGGGGCGGTCGTGGCCTCGACAGCATCGGCGAGCTCAAGCAACTGTTCATCCAGGCCGTGGAGCGGGTCGAGGCTGACCTGCAACGCCAGGGCATCGAGGCGGATGTCGGTCTGCTGGCCGACCAGCGTTTCGGCCAGGATTCCCTGAATGCGGCCACCGGGCGCGGCTGGTGGGTCGCGCGGCCGGTGGAGGTGCAGGGCTCGCGGCCGCTGGCGTTCGAACACGGCCGTTCCATCGGCAGCAACCTGATTGCCTGGCCACAAGAGCAGATCATCAAATGCCTGGTGCAATTTCATCCTGACGACGAACCGCTGCTGCGCCTGGAGCAAGAGGCGCAATTGATGGGGTTGTACAAGGCGTCCCAGGCCAGCGGCCATGAATTGCTGCTGGAGGTCATTCCGCCCAAGGATCATCCATCGGCCCATCCGGACGTGCTGTATCGGGCGCTCAAGCGGCTCTACAACCTGGGTATTTTCCCGGCGTGGTGGAAAATCGAGGCGCAGACCTGCGATGAGTGGAAACAACTTGATGAGCTGATCCAGCAGCGCGATCCGTATTGCCGTGGCGTGGTGCTGCTGGGCCTCAACGCCCCTGCGGCCGCGTTGGCCGAAGGCTTTCGCCAGGCCAGCCAGAGCAGCACTTGCAGAGGGTTTGCCGTGGGCCGGACGATCTTCCAGGAACCGAGCCGCGCCTGGCTGGCCGGGGAGATCGATGATGAAACGCTGATCCGGGATGTGCAGGGCCGGTTTGTGGAATTGATCGAGGCCTGGCGCGCTGCGCGCAGTTAA	MGQTRFASGRQLDVICLGRLGVDLYAQQVGARLEDVSSFAKYLGGSSANIAFGTARLGLRSAMLSRVGDDHMGRFLVESLMREGCDVSGIKVDPERLTAMVLLGIKDRETFPLVFYRENCADMALRSEDIDEAFIASSKALLITGTHFSTDSVYQASIQALDYAQTHQVKRILDIDYRPVLWGLAPKADGETRFVADRKVSQHVQGILARFDLIVGTEEEFLIAGGSEDLLAALRTVRSLTAATLVVKLGPQGCTVIHGDIPNRLEDGAIYPGVRVEVLNVLGAGDAFMSGFLAGWLEDASDERCCQLANACGGLVVSRHACAPAMPTRAELDYLFASPVPITRPDQDVVLQRLHQVSVPRRVWKQLFIFAFDHRWQLVELAQRGGRGLDSIGELKQLFIQAVERVEADLQRQGIEADVGLLADQRFGQDSLNAATGRGWWVARPVEVQGSRPLAFEHGRSIGSNLIAWPQEQIIKCLVQFHPDDEPLLRLEQEAQLMGLYKASQASGHELLLEVIPPKDHPSAHPDVLYRALKRLYNLGIFPAWWKIEAQTCDEWKQLDELIQQRDPYCRGVVLLGLNAPAAALAEGFRQASQSSTCRGFAVGRTIFQEPSRAWLAGEIDDETLIRDVQGRFVELIEAWRAARS	PGPT0018480_237	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018480-iolC-K03338	NA	NA
D1-35_05372	894	iolE_3	COG1082	Inosose dehydratase	ATGCCCGCTATTCGAATTGGCATCAACCCGATTTCCTGGAGCAACGACGACTTGCCATCGTTGGGCGGCGAGACGCCGTTGAGCACGGCGTTGAGCGAAGGCAAGGAAATCGGCTATGAAGGTTTCGAGCTCAATGGCAAGTTTCCCAAGGACGCCAAGGGCGTCGGCGACGTGTTGCGCCCTTACGATCTGGCGCTGGTCTCCGGCTGGTATTCCAGTCGACTGGCGCGGCGTTCGGCGGCCGAGGAGATCGACGCCATCGCCAGCCATGTCGAGCTGCTGGCGCAGAACGGCGCAACGGTGCTGGTCTATGGCGAAGTGGCCGATTCGATCCAGGGCCAGCGCATTCCGTTGATCGAGCGGCCACGCTTTCACACTGACGAGGCCTGGCAGGCCTATGCCGACAAGCTCACCGAGCTGGCCCGCTTCACCTTGTCACAAGGCGTGCGCCTGGCCTACCACCACCACATGGGCGCCTACGTTGAATCGCCTTCGGACATCGACAAGCTGATGGCGCTGACCGGCAGCGAGGTCGGCCTGTTGTTCGATTCGGGCCATTGCTACATGGGCGGCGGCGAACCGCTGCAGGTGCTGCGCAAACACATCGAGCGCATCTGCCATGTGCACTTCAAGGACGTGCGCAAACCCGTGGTGCAGTTGGCGCGCAACAACCTCTGGAGCTTTCCGGACTGCATCATCAACGGCACGTTCACCGTGCCTGGAGATGGCGATATCGACTTCGCTGCGTTGCTCGATGTCCTGCTGGCTGCCGATTATCAGGGCTGGCTGGTGGTGGAAGCCGAGCAGGACCCGGCGGTGGCGCCGAGTTATATCTATGCCAAGAAGGGCTACGACACCTTGCGTGCCCTGTTGCAGGAGAGAACTGCGCCATGA	MPAIRIGINPISWSNDDLPSLGGETPLSTALSEGKEIGYEGFELNGKFPKDAKGVGDVLRPYDLALVSGWYSSRLARRSAAEEIDAIASHVELLAQNGATVLVYGEVADSIQGQRIPLIERPRFHTDEAWQAYADKLTELARFTLSQGVRLAYHHHMGAYVESPSDIDKLMALTGSEVGLLFDSGHCYMGGGEPLQVLRKHIERICHVHFKDVRKPVVQLARNNLWSFPDCIINGTFTVPGDGDIDFAALLDVLLAADYQGWLVVEAEQDPAVAPSYIYAKKGYDTLRALLQERTAP	PGPT0016785_1414	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016785-mocC-K03335	NA	NA
D1-35_05373	810	iolB	COG3718	5-deoxy-glucuronate isomerase	ATGAGCCTGCTGATCAAGAGCAATCCCAGCGACCGGACCATGGTTGAACTGCCACGCGACGCGCTGGAATACGTCGGTTTTGCCGCCTACCGCTTGAGCCTTGGCGAAAGCCTGCCGGTGGCCGCCGCAGACCGGGAATTGTGCGTGGTACTGCTCAGCGGCCGCATCAACCTCAAGGGCGAAGCACCGGGGCAGGGCGCCTTCGATTGGGACAACCTCGGCGATCGCCAGTCGGTATTCGAGGACAAATCCCCTTACGCCGCGTATCTGCCGCCCGGCAGCCAGGCCCAGATCACCGCGTTGAGCGATGTGCAAGTGGCGGTGTGCGCCGCGCCGGGCGGCGCGCCGAATGCGTACGGCCCACGGCTGATCCGTCCCGAGAGCATGAAGCGCAGCGTGCGCGGCAAGGGCGCCAATACCCGCTACGTCTGCGACATCCTGCCGGACAGCGAGCCGGCCCATTCGCTGCTGGTGGTGGAAGTGCGCACGCCGTCGGGGCATTCGTCCAGCTATCCGCCGCACAAGCACGACACCGACGACTTGCCGCACCAGAGCTTTCTCGAAGAGACCTATTACCACCAGGTCAACCCTTCCCAGGGCTTCGTGTTCCAACGGGTCTACACCGACGATCGCAGCATCGACCAGGCCATGGCCGTGGAAAACAGCGATCTGGTCGTGGTGCCCAAGGGTTACCACCCGGTCAGCGTGCCCTACGGGTACGAGTCGTATTACCTGAACGTCATGGCCGGTCCGAAGCGGGTCTGGCAATTCCATAACGATCCGCAGCATAGCTGGCTGCTCGACCTCTGA	MSLLIKSNPSDRTMVELPRDALEYVGFAAYRLSLGESLPVAAADRELCVVLLSGRINLKGEAPGQGAFDWDNLGDRQSVFEDKSPYAAYLPPGSQAQITALSDVQVAVCAAPGGAPNAYGPRLIRPESMKRSVRGKGANTRYVCDILPDSEPAHSLLVVEVRTPSGHSSSYPPHKHDTDDLPHQSFLEETYYHQVNPSQGFVFQRVYTDDRSIDQAMAVENSDLVVVPKGYHPVSVPYGYESYYLNVMAGPKRVWQFHNDPQHSWLLDL	PGPT0018475_877	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018475-iolB-K03337	NA	NA
D1-35_05374	1503	bauC_2	COG1012	Putative 3-oxopropanoate dehydrogenase	ATGAGCGACACCCCGGTAATAGGCCATTACATCAACGGTCAGGTGCACAGCAACGACTCCGCGCGGTTCAGCAACGTCTTCAATCCCGCTACCGGCACGGTACAGGCCCGGGTGGCGCTGGCCGAACCGGGTACCGTCGAGGCAGCGGTGGCTTCGGCGCTGGCGGCCTTTCCCGGCTGGTCCGAGCAGTCGTCGTTGCGCCGTTCCCGGGTGATGTTCAAGTTCAAGGAACTGCTTGACCGCCACCACGACGAGTTGGCGCAGATCATCAGCCGCGAGCACGGCAAGGTACTCTCCGACGCCCACGGCGAAGTCACCCGGGGCATCGAGATCGTCGAGTACGCCTGCGGTGCGCCGAGCCTGCTCAAGACCGATTTCAGCGACAACATCGGCGGTGGCATCGACAACTGGAACCTGCGCCAGCCCCTGGGCGTCTGTGCCGGGGTCACGCCATTCAACTTCCCGGTGATGGTGCCGCTGTGGATGATTCCCCTGGCGCTGGTGGCGGGCAACTGCTTCATCCTCAAGCCTTCGGAGCGCGACCCGTCCGCCAGTCTGCTGATGGCTCGGTTATTGACCGAGGCCGGGTTGCCGGATGGCGTGTTCAACGTGGTCCAGGGCGACAAGACGGCGGTGGATGCGCTGTTGCAGCACCCGGACATCGAGGCGATCTCCTTTGTCGGCTCCACGCCCATCGCCGAATACATCCACCAGCAGGGCACCGCGAACGGCAAGCGCGTGCAGGCCCTGGGCGGGGCGAAAAACCACATGATCGTCATGCCCGACGCCGACCTCGACCAGGCGGCGGATGCGCTGATCGGAGCGGCTTACGGCTCGGCCGGTGAGCGCTGCATGGCGATCTCTATCGCCGTGGCGGTGGGTGACGTCGGCGATGAGCTGATCGCGCGATTGTTGCCACGCATCGACCAGTTGAAGGTCGGCAATGGCCAGCAGCCCGGCACCGACATGGGGCCGCTGGTGACTGCCGAGCACAAGGCCAAGGTTGAAGGTTTCATCGATTCCGGCGTAGCCGAGGGCGCGCGGCTGATCGTCGACGGGAGGGGCTTCAAGGTGCCCGGGGCCGATCAGGGGTTCTTTGTCGGGGCGACGCTGTTCGACCAGGTCACTGCCGAAATGAGCATCTACCAGCAGGAGATTTTCGGCCCGGTGCTGGGGATCGTTCGTGTGCCGGATTTCGCCACGGCGGTCGCGCTGATCAACGCCCATGAATTCGGCAACGGCGTGTCGTGTTTTACCCGTGACGGCGGCATCGCCCGGGCATTCGCCCGCAGCATCAAGGTCGGCATGGTCGGTATCAACGTACCGATTCCGGTGCCCATGGCCTGGCACTCCTTTGGCGGCTGGAAGCGCTCGCTGTTCGGTGATCACCACGCTTATGGCGAGGAAGGCCTGCGCTTCTACAGTCGCTACAAGAGCGTGATGCAGCGCTGGCCGGACAGCATCGCCAAGGGTCCCGAATTCAGCATGCCCACTGCTCAATAA	MSDTPVIGHYINGQVHSNDSARFSNVFNPATGTVQARVALAEPGTVEAAVASALAAFPGWSEQSSLRRSRVMFKFKELLDRHHDELAQIISREHGKVLSDAHGEVTRGIEIVEYACGAPSLLKTDFSDNIGGGIDNWNLRQPLGVCAGVTPFNFPVMVPLWMIPLALVAGNCFILKPSERDPSASLLMARLLTEAGLPDGVFNVVQGDKTAVDALLQHPDIEAISFVGSTPIAEYIHQQGTANGKRVQALGGAKNHMIVMPDADLDQAADALIGAAYGSAGERCMAISIAVAVGDVGDELIARLLPRIDQLKVGNGQQPGTDMGPLVTAEHKAKVEGFIDSGVAEGARLIVDGRGFKVPGADQGFFVGATLFDQVTAEMSIYQQEIFGPVLGIVRVPDFATAVALINAHEFGNGVSCFTRDGGIARAFARSIKVGMVGINVPIPVPMAWHSFGGWKRSLFGDHHAYGEEGLRFYSRYKSVMQRWPDSIAKGPEFSMPTAQ	PGPT0002295_2096	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
D1-35_05375	822			hypothetical protein	ATGAACAAGCCCCTGCGTTTTGCCTTGAACCGAATGGTTGCCCCACGCCTGTCGCTGCCCGCTTTCATCGACCTGGCGCTGGCGTTGAAAACCGATGCCATCGAAATCCGCAATGACCTCAAGGGTGTCGAAATCGAAGACGGCATGCCGCCCGCCCGGGTCCGTGAGCTGTGCGACGAACGCGGCGTCAAGGTGCTGTCGATCAACGCCCTGTACCCGTTCGACGTATGGAATGAAGAGCGCCGCGCCCAGGCCGTGCGCCTGGCCGATTACGCCCGCGAGTGTGGCGCCGAGGGCCTGGTGATGTGCCCGCTCAACGACCGCGCCGACCCGCGCAACGCCGCCGAACGCGCGGCGGGGCTACGCACCGCGCTCAGTGAGCTGGCGCCGATCCTGCGCGCCTTCGGCATCTACGGTTTTATCGAACCCCTGGGGTTCGAGGAGTGCTCGTTGCGGCGCAAACGCGCGGCGGTGGAGGCGATCAAGGCCATCGGCGGGCTGGATGTGTTCCGCCTGGTGCATGACACCTTTCACCATCACCTGGCCGGCGAGGAGGAATTTTTTCCCGAGCTGACCGGGCTGGTGCACATCTCCGGCGTCGAGGATGCGCAGGCACCGTTGGCGAGTATTCGCGACGGCCACCGGGTGCTGGTGGGCGACGCCGACATCCTTGGCAATGCCGCGCAGATCGAGGCGCTGCGCGCGGGCGGTTATGAAGGCTACCTGTCCTTCGAGCCGTTTGCCGAAAGCGTCCATGAACTGGCCGATATCCGCCAGGCGCTGGGGGCGAGTATGAGCCACCTGCAAAGCTCGCAGGCCTGA	MNKPLRFALNRMVAPRLSLPAFIDLALALKTDAIEIRNDLKGVEIEDGMPPARVRELCDERGVKVLSINALYPFDVWNEERRAQAVRLADYARECGAEGLVMCPLNDRADPRNAAERAAGLRTALSELAPILRAFGIYGFIEPLGFEECSLRRKRAAVEAIKAIGGLDVFRLVHDTFHHHLAGEEEFFPELTGLVHISGVEDAQAPLASIRDGHRVLVGDADILGNAAQIEALRAGGYEGYLSFEPFAESVHELADIRQALGASMSHLQSSQA	PGPT0018495_360	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0018495-iolI-K06606	NA	NA
D1-35_05376	1932	iolD	COG3962	3D-(3,5/4)-trihydroxycyclohexane-1,2-dione hydrolase	ATGACCACAACACGACTGACCATGGCCCAGGCCCTGGTGAAATTCCTCGATAACCAGTACATCGAGGTCGATGGCGTCCAGAGCAAGTTCGTCGCCGGGGTGTTTACCATTTTCGGCCACGGCAACGTGCTGGGCCTCGGCCAGGCACTGGAGCAGGACAGCGGCGACCTGGTGGTCCATCAGGGCCGCAACGAGCAGGGAATGGCCCATGCCGCCATCGGCTTTGCCAAGCAGCACCTGCGGCGCAGGATCTACGCCTGTAGCTCGTCGGTCGGCCCCGGTGCGGCGAACATGCTGACCGCCGCCGCCACCGCGACGGCCAACCGCATTCCTTTGCTGCTGTTGCCCGGCGATGTCTACGCCAGCCGCCAACCCGACCCGGTGCTGCAGCAGATCGAGCAGTTCCATGACCTGAGCATCAGCACCAACGATGCGTTCAAGGCCGTGAGCAAATACTGGGATCGGATCAACCGCCCCGAGCAACTGATGACCGCCGCGATCCAGGCGATGCGCGTGCTCACCGATCCGGCCGAAACCGGCGCGGTGACGCTGGCGCTACCCCAGGATGTACAGGCCGAGGCCTACGATTACCCGGATTATTTCCTGCAAAAACGTGTCCACCGCATCGACCGTCGCCCGGCCACCGAGGCGATGCTCGGCGATGCCTTGGCGCTGCTCAAGGGCAAGCGCCGGCCGTTGATCATCTGCGGTGGTGGCGTCAGATATTCAGGAGCCAACGCCGCGTTGCAGGCCTTAGCCGAGCGTTTCGACATCCCCTTCGCCGAAACCCAGGCGGGCAAAAGCGCCGTGGTCTCCAGTCATCCATTGAACGTCGGCGGCGTCGGCGAAACCGGTTGCCTGGCGGCGAACCTGCTGGCCAAGGAAGCGGACCTGATCATCGGCGTTGGCACCCGCTACAGCGATTTCACCACGGCCTCGAAATGGCTGTTCCAGCATCCCGAGGTGCAGTTTCTCAACCTCAACATCAGCCCGTGCGATGCCTTGAAGCTCGACGGTGTGCAACTGCTCGCCGATGCGCGTTCCGGGCTTGAGGCTTTGTCCGCCGCGATGGGCGCCTATCGCGCCGAATGGGGCGGGCAGATCGCCGATGCCAAGGCGCAGTTGCAGGCGGAAGTGGACCGGGTCTACCAGGCCGATTTCCAGGCTGATGACTTCGTCCCCGAGATCAACGACCACATGGACCCAGCGGTGTTTCGCGAGTTCATCGAGCTCACCGGATCCTGCCTGACCCAGAGCCGCGTGCTCGGCACCCTCAACGAAACCCTGGCCGATGATGCCGTCATCGTCGCCGCCGCCGGCAGCCTGCCGGGTGATTTGCAGCGCAGCTGGCGCAGCAAGGGCGTGAATACCTACCACGTCGAATATGGCTATTCGTGCATGGGCTACGAGGTCAATGCCGCCCTGGGCGTGAAGCTCGCCGAGCCGGACAAAGAGGTCTACGCGCTGGTGGGCGATGGCTCCTACATGATGCTGCACTCCGAACTTGCCACCTCGATCCAGGAGCGCCGCAAGATCAATGTGGTGCTGCTGGACAACATGACGTTCGGATGCATCAACAACCTGCAGATGGAACACGGCATGGACAGCTTCGGCACCGAGTTCCGCTTTCGCAACCCCGAGACGGGCAAGCTCGACGGCGCCTTCGTGCCGGTGGATTTCGCCATGAGCGCGGCGGCCTACGGTTGCAAGACCTACAAGGTCAAGACACTGGAGGAACTGCACGCCGCGCTGGCCGACGCCCGACTCCAGACGGTCTCGACGCTGATCGACATCAAGGTCCTGCCCAAGACCATGATCCACAAGTACCTGTCGTGGTGGCGGGTCGGCGTGGCGCAAGTCTCTACCAGCGCCCGTACCGATGCCGTCGCCAAGACCCTCAACGAACGACTGGCCAAGGCCCGTCAATACTGA	MTTTRLTMAQALVKFLDNQYIEVDGVQSKFVAGVFTIFGHGNVLGLGQALEQDSGDLVVHQGRNEQGMAHAAIGFAKQHLRRRIYACSSSVGPGAANMLTAAATATANRIPLLLLPGDVYASRQPDPVLQQIEQFHDLSISTNDAFKAVSKYWDRINRPEQLMTAAIQAMRVLTDPAETGAVTLALPQDVQAEAYDYPDYFLQKRVHRIDRRPATEAMLGDALALLKGKRRPLIICGGGVRYSGANAALQALAERFDIPFAETQAGKSAVVSSHPLNVGGVGETGCLAANLLAKEADLIIGVGTRYSDFTTASKWLFQHPEVQFLNLNISPCDALKLDGVQLLADARSGLEALSAAMGAYRAEWGGQIADAKAQLQAEVDRVYQADFQADDFVPEINDHMDPAVFREFIELTGSCLTQSRVLGTLNETLADDAVIVAAAGSLPGDLQRSWRSKGVNTYHVEYGYSCMGYEVNAALGVKLAEPDKEVYALVGDGSYMMLHSELATSIQERRKINVVLLDNMTFGCINNLQMEHGMDSFGTEFRFRNPETGKLDGAFVPVDFAMSAAAYGCKTYKVKTLEELHAALADARLQTVSTLIDIKVLPKTMIHKYLSWWRVGVAQVSTSARTDAVAKTLNERLAKARQY	PGPT0018485_395	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0018485-iolD-K03336	NA	NA
D1-35_05377	1011	iolG_4	COG0673	Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGTCTTTGAAGCTGGGCGTCATCGGCACCGGGGCCATCGGCCAGGACCATATCCGTCGTTGCAGCCAGACGTTGCTCAACAGCCAGGTCGTCGCGGTGACCGACATCAACCTGGTGCAAGCGGCGAAAGTGGTGGCCGACCTGAAGTTGACCGCCGAGGTCTATCCCGACGGCCATGCACTGATCAAGGCGCCGGACGTCGAGGCGATCCTCGTCACGTCCTGGGGCCCGAGTCATGAAGAATTCGTGCTGGCGGCCATCGCCGCCGGCAAGCCGGTGTTCTGTGAGAAGCCGTTGGCCGTTACCGCCGAAGGTTGCCGCCGGATCGTCGAAGCCGAAGTGGCCCACGGCAAGCGCCTGGTACAGGTCGGGTTCATGCGCCCCTACGATGAAGGTTATCGGGCGCTCAAGTCGGTGATCGACAGCGGACAGATCGGCGAGCCGTTGATGCTGCACTGTGCCCACCGCAACCCCAGCGTGGGCGAAAACTACAAGACCGACATGGCCATCACCGACACCTTGATTCACGAGCTGGATGTGTTGCGCTGGTTGCTGGCCGACGACTACGTCTCGGTGCAGGTGGTGTTTCCACGCAAGACCAGCAAGGCCCTGGCGCACTTGCGCGATCCACAGATCGTCCTGCTGGAAACCGCCAAGGGCACGCGCATCGACGTTGAAGTGTTCGTCAATTGCCAGTACGGCTACGACATCCAGTGCGAAGTGGTGGGGGAGACCGGCATCGCCAGGCTGCCAGAACCGTCCCAGGTGCAACTGCGCAGCGGCGCCAAGCTTTCCAATGCGATCCTGATGGACTGGAAAGATCGGTTCATCGGCGCTTACGACGTCGAACTGCAGGCCTTCATCGACGGCGTGCGCGCCGGCCAGGTGGGCGGCCCCTCGGCCTGGGATGGGTTCGCCGCGGCGGTGGCGGCGGACGCGTGTATCGAAGCGCAGCAGAGCGGGCAGATCGTCAAGGTCGAGCTGCCCGAACGGCCACCATTCTACGGCTGA	MSLKLGVIGTGAIGQDHIRRCSQTLLNSQVVAVTDINLVQAAKVVADLKLTAEVYPDGHALIKAPDVEAILVTSWGPSHEEFVLAAIAAGKPVFCEKPLAVTAEGCRRIVEAEVAHGKRLVQVGFMRPYDEGYRALKSVIDSGQIGEPLMLHCAHRNPSVGENYKTDMAITDTLIHELDVLRWLLADDYVSVQVVFPRKTSKALAHLRDPQIVLLETAKGTRIDVEVFVNCQYGYDIQCEVVGETGIARLPEPSQVQLRSGAKLSNAILMDWKDRFIGAYDVELQAFIDGVRAGQVGGPSAWDGFAAAVAADACIEAQQSGQIVKVELPERPPFYG				NA	NA	NA	NA	NA
D1-35_05378	615			hypothetical protein	ATGATCGACCCCAAACAGACGCCGGATTCCATCGACGAAACGCTGGTCGAACATTTCCGCCAACACGCCAGCGGCGAGCCGCCGGCCTCCATGGACGCCTTCATCCTGGCGACCGCCCGCCGTGAAGCCCCGACGCCGGCGCCGAGCCCGTGGCAGCGCTGGCTGCAGGCTTGTCAGCGACCACGGTGGCAAATGGCGTTCGCCACGGTTGCCGGTGTGGCGCTGATGATCGGCCTGGTGCTGCGTACGTCGACCGAGGAGCAACTGGCTTCACCCGCCTCGATGGAGTTTTCCGCCGATCGGCAACAGCCCCCGGTTGCCGCTGCCCCACCGCCAGCCATGCCGGCCCCCGCACCGATCACTCGCATGGCGCCCCAGGGCGAACTGGCCCGAGCCCCGGCCAGCCCGGTGCAGGCGTTGGCGGATAAGCCCGCAGCGAAAATGAGCAAAGCCGCGCCCGCCGCAATGCCAACACTTGAGCAGGAGCTGCTGGAAGTGCTGCGATTGCGCGAGGCGGGTGACAGCAAGGCGGCTGATGGGAAGCTGCTGGCGTTGCACAAGCGCTTTCCCAAGGAAGACTTGCCGGCGCGGTTGGAAATATTGCGTAAGCGATGA	MIDPKQTPDSIDETLVEHFRQHASGEPPASMDAFILATARREAPTPAPSPWQRWLQACQRPRWQMAFATVAGVALMIGLVLRTSTEEQLASPASMEFSADRQQPPVAAAPPPAMPAPAPITRMAPQGELARAPASPVQALADKPAAKMSKAAPAAMPTLEQELLEVLRLREAGDSKAADGKLLALHKRFPKEDLPARLEILRKR				NA	NA	NA	NA	NA
D1-35_05379	573	rpoE_2	COG1595	ECF RNA polymerase sigma factor RpoE	ATGCCCGCTGCGCTTGATTCTCCCAGCGACGAATCGCTGCTGGCCCGCTATCGCGAAGGCGACGGGGCTTGTTTCGAAGCCCTGTACGCCCGCCATCGGCAAGGGCTTTATCGTTTTCTCGTGTCCTTGAGCAACAAGGCCGAACTGGCCGAGGAAATTTTCCAGGACACCTGGCTCAGCCTGATTCGCAGCACCACCCAGCCACAAGGCCGGGCGAGTTTTCGTACATGGTTGTTCCAGATTGCCCGTAACCGCTTGATCGACCACTGGCGCAAGCACGGCGTCCACAACCCGCTGCACGACAGTTACGACGAGCAGCTTCATGTCCAGCCCGACGACACCGGCAACCCTGAGCAACAGCTGCGCCTGAGTCGCGACCAGGCTCGTCTGGACGCCGCGTTGCAGGCCTTGCCCGAGGATCAGCGGGAAGTCTTCCTGCTGCGCCTGCACGGTGATCTCGAATTGCCACAGATCGCTGCCCTGACCGGCGTTCCGCTGGAAACGGTCAAGAGCCGCTTGCGTTACGCCCAACAGAAGCTGCATCGCCTGTTGGCCGAGGAGGTACCCGCATGA	MPAALDSPSDESLLARYREGDGACFEALYARHRQGLYRFLVSLSNKAELAEEIFQDTWLSLIRSTTQPQGRASFRTWLFQIARNRLIDHWRKHGVHNPLHDSYDEQLHVQPDDTGNPEQQLRLSRDQARLDAALQALPEDQREVFLLRLHGDLELPQIAALTGVPLETVKSRLRYAQQKLHRLLAEEVPA	PGPT0014960_4039	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-35_05380	1668			hypothetical protein	ATGTCCCGTCCGCTTTCGTATATGCGTCCTGCCACCCAGGGCTTTGCCGTCACGCTGCTGGTGGCGTTGGCCGGTTGTGGGTTGTCTTCGTCCCGTGAGGCTGCCAAGCCGGCCGAACCGGTGGCGGCGGCGCCCATTGTCGCGCCGCTAGGAGAGATCGCCTACGTGCGCCAGCCTATGGCCAAGCGCATGGCGGCGCCGGCATCAATGCCTGCGCCGATGGGCGATGTAGTCTCCAATGATTACCGCAGCGAGCCGCGCGAACAGTACGAGAAGCTGCCGGAAAATCCTGTCCACAGCGTCGCCGAGACACCGGTCTCGACCTTCAGCGTGGATGTCGATACCGGTAGCTATGCCAACGTGCGACGTTTCCTCAACCAGGGCAGCCTGCCGCCTGAGGGCGCTGTGCGGTTGGAGGAAATGGTCAACTACTTTCCTTACCACTACGCGTTGCCCACCGACGGTTCGCCCTTTGGCGTGACCACCGAAATCGCGCCATCGCCCTGGAACCCTCACACCCGGTTGTTGCGTGTCGGGATCAAGGCCAGCGACCGCGCCGTCTCAGACCTGGCCCCGGCCAACCTGGTGTTTCTGGTGGATGTGTCCGGCTCGATGAACCGTCGCGAAGGCCTGCCGCTGGTCAAGAGCACGCTGAAATTGCTGGTGGACCAATTGCGCGATCAGGACCGGGTGTCCCTGGTGGTCTATGCCGGTGAGTCGCGGGTGGTGCTCAAGCCCACCTCGGGTAGCGACAAGGTGAAGATCCGCAACGCCATCGATCAACTGAACGCCGGTGGATCGACCGCCGGTGCCTCGGGCATCGAACTGGCCTATCAGATGGCTCGGGAGAGCTTTATCGACAAAGGCATCAACCGCATCCTGCTGGCCACCGATGGTGACTTCAACGTCGGCATCAGTGATTTCGACAGCCTCAAGCAGATGGCCGTGGATCAGCGCAAAAGCGGCGTCTCCCTGACCACACTGGGCTTCGGTGTGGATAACTACAACGAACACCTGATGGAGCAACTGGCTGACGCCGGTGACGGTAACTACGCGTACATCGACAACCTGCTCGAAGCGCGCAAGGTCCTGGTGGACCAGCTCAGCTCCACCCTGGCGGTGGTAGCGCGAGACGTGAAGTTGCAGGTGGAGTTCAACCCCGCCCAGGTCAGCGAATATCGACTGCTGGGTTATGAGAACCGCGCGTTGAAGCGTGAGGATTTCAGCAACGACAAGGTCGACGCAGGCGAGATCGGCGCTGGGCATACCGTGACCGCGCTGTATGAAATTGTCCCGAAAGGAGAGCAGGGCTGGTTGGAGCCGCTGCGTTATGGCAGCGCACCCAAGGCGGACGGCAAGTCAGGCGAACTGGCGATGTTGCGCGTACGCTACAAGCTGGCGGAAGGCGGTAGCAGCCGGTTGATCGAACATCCCATTGCCGTTTCACCGCGCAATGACAAAACCAGCGACGACCTGCGCTTCTCCGCCGCCGTGGCAGCCTTCGCCCAACAGCTCAAGGGCGATGGACGCTACACTGGGCAGATGACCTTGAAGGATACCGCGCAGTTGGCGCGCTCGGCGCGCGGTGACGATCCGTTCGGGCTGCGTGCCGAGTTCGTGCAACTGGTGGAGCTGGCCCAGAGCCTCGAACCTGCGGCCAAACGCTGA	MSRPLSYMRPATQGFAVTLLVALAGCGLSSSREAAKPAEPVAAAPIVAPLGEIAYVRQPMAKRMAAPASMPAPMGDVVSNDYRSEPREQYEKLPENPVHSVAETPVSTFSVDVDTGSYANVRRFLNQGSLPPEGAVRLEEMVNYFPYHYALPTDGSPFGVTTEIAPSPWNPHTRLLRVGIKASDRAVSDLAPANLVFLVDVSGSMNRREGLPLVKSTLKLLVDQLRDQDRVSLVVYAGESRVVLKPTSGSDKVKIRNAIDQLNAGGSTAGASGIELAYQMARESFIDKGINRILLATDGDFNVGISDFDSLKQMAVDQRKSGVSLTTLGFGVDNYNEHLMEQLADAGDGNYAYIDNLLEARKVLVDQLSSTLAVVARDVKLQVEFNPAQVSEYRLLGYENRALKREDFSNDKVDAGEIGAGHTVTALYEIVPKGEQGWLEPLRYGSAPKADGKSGELAMLRVRYKLAEGGSSRLIEHPIAVSPRNDKTSDDLRFSAAVAAFAQQLKGDGRYTGQMTLKDTAQLARSARGDDPFGLRAEFVQLVELAQSLEPAAKR	PGPT0014015_2141	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
D1-35_05381	582			hypothetical protein	ATGCGCGTTTTTGCCACCCTCCTGGCCATCTTGCTTATGGCGGGCTGCGCCTCCAAGCCGGACTACTACATTTCTCCTGCGCCGGTGGCGATTCCCAAAACCGCCACATACTGGATCGACACGTTCAACGTAGAGGTCGCCGGCAAGAACGAACGTTTCCTGCCCGACGAAAAAGTCCGTGACAAGCTGCACACCGACCTGATCGTGCGCTTGCTCGACGGCAATCGCTACGCCTCCAGCAAGGAAAGCGCTGACTACCTGCTGGATATCAACGCCGTCTACGCCCGCCGTATCCAGGACACCCAAGGTGGTTTGATGAGCAGTATCGTTGCCGACGGTACGTACCTTGCCAGTGTCGACTTCAGCTACCAGGTCCAGGTGAAGAAGGCCGGCGCCGAGGTGCTGCATTTCGCCCAGGCTCGCGAGGGGCTGATGCCGGCCGGCGCGATCGGGCAATTTCACGCCATGAAAGGCATCGCTGGAGCCCTCACGAAACGGGGCAATTCCGATGTCGAGGAGTACTACACCAGCCAGTTGAGTCGTTTCATCGCCGATGACCTGCGGGCCATTCCGTCTCGCTGA	MRVFATLLAILLMAGCASKPDYYISPAPVAIPKTATYWIDTFNVEVAGKNERFLPDEKVRDKLHTDLIVRLLDGNRYASSKESADYLLDINAVYARRIQDTQGGLMSSIVADGTYLASVDFSYQVQVKKAGAEVLHFAQAREGLMPAGAIGQFHAMKGIAGALTKRGNSDVEEYYTSQLSRFIADDLRAIPSR				NA	NA	NA	NA	NA
D1-35_05382	1314	proP_2		Proline/betaine transporter	ATGACTGCCACCCATCATTTGCCAGGCGCGCGGTTCAGCCGCTCCGACTACAAGACCCTGGGCCTCGCCGCCCTCGGCGGCGCGCTGGAAATCTACGACTTCATCATTTTCGTTTTTTTCGCCCTGACCCTCAGCCAACTGTTCTTCCCGCCGGAAATGCCCGAGTGGCTGCGCCTGCTACAGAGCTTCGGGATTTTTGCCACCGGCTATCTGGCGCGTCCCCTGGGCGGGATACTCATGGCGCACTTTGCCGATCGGCTGGGCCGCAAGCGTGTCTTCAGCCTGAGCATCCTGATGATGGCGTTGCCGTGTCTGCTCATCGGTGTACTGCCGACCTATGCGCAAATCGGCTATTTCGCCCCGTTGCTGTTGTTGGCGCTGCGCATCCTGCAAGGCGCGGCGGTGGGCGGGGAGGTGCCGAGTGCCTGGGTGTTCGTGGCCGAACACGCGCCGTTGCGGCATCGCGGCTATGCCTTGGGGTTTCTCCAGGCAGGCTTGACCTTCGGCTACTTGCTCGGCGCCTTGACCGCTACGGCGCTGGCGCGGATCTTCACCCCGACCGAAATCCTCGACTACGCGTGGCGCTTGCCGTTCCTGCTGGGCGGGGTATTCGGCGTGATCGGCGTCTGGCTGCGCCGCTGGCTGAGCGAAACGCCGATCTTCATGGCCCTGCAAGCCAATCGCGAATGCGCGACGGAGCTGCCGCTGCGCACGGTTTTGCGCGACCATCGGCATGCCTTGCTGCCCGCCGCCATTCTTACCTGCGTACTGACTTCCGCCGTGGTGGTCTTTGTGGTCATCACCCCCACAGTGATGCAGAAAAGCTTCGGCCTGACCCCCAGCCACACGTTTGCCCTGAGCAGCCTCGGCATCGTTTTCCTGAACATCGGCTGCGTCCTGGCCGGCCTCGTCGTCGACCGCATCGGCGCCTGGCGCACTGTCATGCTCTACAGCCTGCTGTTGCCGCTGGGCATCGCCGTGCTCTATGCCAGCCTGATCAGCGGCAGCGACTGGCTGGGCCTGGCCTACGCCGTGGCCGGCCTGGGTTGCGGCGTGGTCGGCGCGGTGCCTTCGGTGATGATCAGCCTGTTCCCGCCAAAGATTCGCGTGTCCGGTATCTCCTTCACCTACAACATCGCTTATGCACTCTGGGCCAGCATGACGCCGTTGTTGTTGATTGCGCTGGTGCCGTGGAGCCCGTGGGTTTGCGTGGTGTATTGCGTGGTGATGGGTGCGGTGGGAGTAGGGGGGGCGGCTTATTTTCCGAGGCGGCACGCAAAGATCCTGCGGCCCTCTCTGGCCTGTGAGTCTTGA	MTATHHLPGARFSRSDYKTLGLAALGGALEIYDFIIFVFFALTLSQLFFPPEMPEWLRLLQSFGIFATGYLARPLGGILMAHFADRLGRKRVFSLSILMMALPCLLIGVLPTYAQIGYFAPLLLLALRILQGAAVGGEVPSAWVFVAEHAPLRHRGYALGFLQAGLTFGYLLGALTATALARIFTPTEILDYAWRLPFLLGGVFGVIGVWLRRWLSETPIFMALQANRECATELPLRTVLRDHRHALLPAAILTCVLTSAVVVFVVITPTVMQKSFGLTPSHTFALSSLGIVFLNIGCVLAGLVVDRIGAWRTVMLYSLLLPLGIAVLYASLISGSDWLGLAYAVAGLGCGVVGAVPSVMISLFPPKIRVSGISFTYNIAYALWASMTPLLLIALVPWSPWVCVVYCVVMGAVGVGGAAYFPRRHAKILRPSLACES				NA	NA	NA	NA	NA
D1-35_05383	174			hypothetical protein	ATGACGCAGCAAACCGACGGCATCGCCCGCCTCAAGAACTGCCCCACCAAGGGCGACGAAATACGCCGGGCCATCGCCCAGAGCCGCAAGGATTTTCTGCCTGCTGACGAGGCCGTAGACGCCGAGCCAGGCCAACCGTCGGCGCAGCCCGTGGACAAGGGTCCCGCTGCCTGA	MTQQTDGIARLKNCPTKGDEIRRAIAQSRKDFLPADEAVDAEPGQPSAQPVDKGPAA				NA	NA	NA	NA	NA
D1-35_05384	561			hypothetical protein	ATGACTCGATTGACCTCCCTTTCCTCCTGGCTCGCGGCCGTCACCCTCGTGCTGTGCGCGCAAGGGGTTGTCCAGGCCGAAGAGCGTTTCACCCTGAGCATTCCCGGTGTATCGGACGACCGCCTCTTCACTGCCGCCGCCGCGAGCGACGCGAATACCTGCGGCGGCAAGAATATTTCTCCGGCGTTGAGCTGGAACGCCGGCCCGCCTGGCACCCTCAGCTATGCCATCGTCATGCTCGATCCCGACGGCCAGCGCGGGCAGGGCGTCGACCACTGGGTCCATTACGGGATCAAGGCCAGCACCCGACAGATCCCGGCGGGCGCGGGTACCAAATCCACCCTGGAAGGCATGAGCGGCATCAATAGCAAGAACACTCACGGCTACATCGGTCCGTGCCCACCCGTTGGCGACAGCGCTCATCACTACCTGATCCAGATATTCGCCCTGGACCTGCCACCCGACGCATTGCCCGCCGGCCTCACACGCGCCCAGTTGATGGAAAAACTCAAAGGCCACGTCCTGCGCAACAGCAGCGTGGTGCGTCGCTACCACCGCTGA	MTRLTSLSSWLAAVTLVLCAQGVVQAEERFTLSIPGVSDDRLFTAAAASDANTCGGKNISPALSWNAGPPGTLSYAIVMLDPDGQRGQGVDHWVHYGIKASTRQIPAGAGTKSTLEGMSGINSKNTHGYIGPCPPVGDSAHHYLIQIFALDLPPDALPAGLTRAQLMEKLKGHVLRNSSVVRRYHR				NA	NA	NA	NA	NA
D1-35_05385	1533	hcaD		3-phenylpropionate/cinnamic acid dioxygenase ferredoxin--NAD(+) reductase component	ATGCCCATGCATCAAGTCGCCCGCCTCGCTGATGTGCGAGAGGACCGCGGCCTCGAAGTGACCCTCAACGAAACACCCATTCTGCTGCTGCGGGCTGGCGGACAGGTCCGAGCCTTCCAAGGCAAATGCCCGCATGCCGGGGCGCCGCTGGCCGAGGGCGCGGTGTGTCACGGCAGGCTGATCTGCCCGTGGCACAAGGCCGCGTTCCGTGCCGAAGACGGCGCCCTGTGCGAGCCGCCGGCCCTCGACAGCCTGCAGCGTTATCACGTCGAGCTGCGGGGCGATGAAGTATGGGTCGATGAGCAACCACTGCCAGCCGAAAAAATCCCTCCCGCCGATGACCCGCGCACCTTCGTCATCGTCGGCGCCGGAGCGGCCGGCACGGCTTGCGCGGCGGCGCTGCGCGAGAAGGGTTTCGGTGGCCGGATCCAGATGATCGACCGCGAAGCCGAGGCCGGTTATGACCGCACCGTACTGAGCAAATACGTGTTGGCCGGCGACATGGCCGCAGAAAAGACGCCGGCCTTGCGCGATGAAACCTACTTCACCCGGCAACGCATCGAAAGGCGCAACGGCGAAGTGGCCGGTCTCGACACCAGCGCGCGCCAGATTCATCTCGCCGACGGTCAACGCCTGGACTATGACGCACTGCTCATCGCCACCGGTGGAGTGCCCAGGACGCCAGACATGCCGGGCCTCGACTTGCCCAATGTGTTCACCCTGCGCTCTTTGGCCGATAGCCGGCAAATCCTCGACCGTGCCCAGCCGGGGCAGCGAGCGGTGATTATCGGCGACAGCTTCATCGCCATGGAAGTCGCCTCGTCCCTGCGCAAACGTGAACTGAGCGTGACCGTCCTGGCCCGCCACCCGGTCCCGTTCGCCGCGCAGTTTGGCGACAGCATCGGCAAGGCGATCCTGGCCCGACACCGGGCCAATGGTGTGGTCTATCACAGCGAGGGCGAAGCGGCGCGGATCGAAGGTGTGGAGAAGGTTGAAGCCGTGGTGCTGGATAACGGTCAGCGTTTCGCGGCGGACCTGGTCATCATCGGTGTCGGCGTGCGCCCGGCGACCGAGCCGTTCGCCGATCTGCCACGGGAAAAAGATCAATCATTGATCGCTGACGACGGCATGCGCGTCGCCGATGGCGTCTGGGCCGTTGGCGATATCGCCACCTTTCCACTGAACGGCCAACCCCGGCGCATCGAACATTGGCGCCTGGCCCAGCAACAGGCACGCATCGCCGCGACGAACATGCTCGGCGGTGAGGAACACTACCTGGATGTGCCGTTCTTCTGGACGTACCACTTCGGCAAACGCTACGACTACCTCGGTCATGCCGAGGAATGGGACGAGGTGCAATTCAAGGGCACGCCTGAGCATCCTCCGTTCATCGCTCTGCTCGGCAAGGACGGTCTCGTTGCCGCCGTCGTGGCCTGCGATGAAGGCCGGGCCATGGCGGCGCTGGCCCAGCGCATGAAACAACCGCTGCCGGTGGATGAGGCCTGGCGGCTGGTCCGGGATTTTTCGGTGTAG	MPMHQVARLADVREDRGLEVTLNETPILLLRAGGQVRAFQGKCPHAGAPLAEGAVCHGRLICPWHKAAFRAEDGALCEPPALDSLQRYHVELRGDEVWVDEQPLPAEKIPPADDPRTFVIVGAGAAGTACAAALREKGFGGRIQMIDREAEAGYDRTVLSKYVLAGDMAAEKTPALRDETYFTRQRIERRNGEVAGLDTSARQIHLADGQRLDYDALLIATGGVPRTPDMPGLDLPNVFTLRSLADSRQILDRAQPGQRAVIIGDSFIAMEVASSLRKRELSVTVLARHPVPFAAQFGDSIGKAILARHRANGVVYHSEGEAARIEGVEKVEAVVLDNGQRFAADLVIIGVGVRPATEPFADLPREKDQSLIADDGMRVADGVWAVGDIATFPLNGQPRRIEHWRLAQQQARIAATNMLGGEEHYLDVPFFWTYHFGKRYDYLGHAEEWDEVQFKGTPEHPPFIALLGKDGLVAAVVACDEGRAMAALAQRMKQPLPVDEAWRLVRDFSV	PGPT0028500_465	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-3-PHENYLPROPIONIC_ACID|CINNAMIC_ACID_RESISTANCE,PGPT0028500-hcaD_like-K22747	NA	NA
D1-35_05386	504			hypothetical protein	ATGAAAATTATCAGGACCCGGCAGCGGCCTTTTCTGGTGGTCATCGATGTGCTCTTTACCGTGCTGGCGTGGGTTGGGCTGTTGTATCTGCTGGTCAATGGGCTCTGGCCGTTGTTCGACAGCCATGCCGGGCCGCGCCTGGGTGGTTCGCTGTTCGATACCCTGGGAACCTTGCAGATCTATGGCTGGATCGCGCTGGTCAACGCAATCATCCTGATTACCTGGGCGCGTTACCAACAGCGCAAAAGCCGCAGCTTCGCCCAGCGTCGGCTGCCGAGGCCTGCGGTGGATGACCAAGGCCTGAGCGCAAGTTTCAAGCTGACTGACGAACGACTGGAAACGCTGCGCCAGCCTGGCTCCAAAATCATCCATAACAACCCGGATGGCGACATCAGCCACGTAGTGCCGCACTTTCATCTGCTGAGCCCGGACTTGCAACCGCCGCCCCTGGCACCGCTGGACCGGCCGCGGGTGATTCATCTGCCGGCTGATCGCCCTGCGTAG	MKIIRTRQRPFLVVIDVLFTVLAWVGLLYLLVNGLWPLFDSHAGPRLGGSLFDTLGTLQIYGWIALVNAIILITWARYQQRKSRSFAQRRLPRPAVDDQGLSASFKLTDERLETLRQPGSKIIHNNPDGDISHVVPHFHLLSPDLQPPPLAPLDRPRVIHLPADRPA	PGPT0023490_40	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-POLY-N-ACETYL-GLUCOSAMINE_METABOLISM	CE-EPS-POLY-N_ACETYL-GLUCOSAMINE_BIOSYNTHESIS,PGPT0023490-pgaD-K11937	NA	NA
D1-35_05387	1356	pgaC	COG1215	Poly-beta-1,6-N-acetyl-D-glucosamine synthase	ATGCTCGACAGACTGCTCGCCGTCCTGGTGCTGGCGATCGTCCTTGGGGTGCCCCTGGGCCTGATCTTCCTGGTCACTGGGCAATTCCTGATGGACTTCGTGTTCTTCTACCCGCTGTTCATGTCCGGGCTGTGGATCGCCGGGGGCCTGTATTTCTGGCTGCACTGGGAGCGCCACTGGCCGTGGAAAGACGATACCTTGCCGCCGCCCCTGGCCGGCGAACCGCTGATCAGCATCCTGATCCCGTGCTTCAACGAAGGCGACAACGTTGCCGACACGATTCACGCAGCGCTGGGCCAGCACTACCCGAACATCGAGGTGATCGCCATCAACGACGGCTCCAAGGACAACACCGCCGAGGTGCTGGACCGACTGGCGGCCGAAGACCCGCGCTTGCGTGTGCTGCACCTGGCGGAAAACCAGGGCAAGGCCGTAGCCCTGCGCATGGGCGCCATCGCTGCACGCAGCGAATACCTTGTGTGCATTGACGGCGACGCGCTACTGGCACCGAATACCTGCGCCTACCTGGTGGCGCCGATGCTCGACAACGCCCGCCTCGGCGCGGTGACGGGCAACCCGCGCATTCGCACCCGTTCAACCTTGGTGGGTCGGGTCCAGGTCGGTGAGTTTTCCTCGATCATCGGCTTGATCAAGCGTACCCAGCGGGTCTTCGGACGAATCTTCACCGTGTCCGGTGTGATCGTCGCCTTCCGTCGCACAGCGCTGCACCGGGTCGGCTACTGGAGCCCGGACATGATCACCGAGGACATCGACATCAGCTGGAAGCTGCAACTGGACCACTGGAGCATCTTCTACGAACCCCGTGCGTTGTGCTGGATCCTCATGCCCGAAACCCTGCGCGGCCTGTGGCGGCAACGGCTGCGCTGGGCCCAGGGCGGTGCCGAAGTGCTGTTCAAGAACATCCGCGGCATCTGGCAATACCGCCACCGTTACCTGTGGCCGCTGCTGTTCGAATACTGCCTGTCCACCGGTTGGGCGTTCACCTTCCTGCTGTCGGTGATCTTCTGGGGCGCCGGCAAATTCATCGAGATGCCCGCCGCCATCGCGGTGGACCACCTCATGCCGCCGGCCTTCACCGGGCTGTTGCTGGCGGTGGTGTGCCTGATGCAATTCGCGGTGAGCATCCTGATCGACCGTCGCTACGAAAAAGGCCTGTGGCACATCATGTTCTGGGTGGTCTGGTACCCGTTGGTGTTCTGGTTGATCAGCCTGTTCACCACCCTGGTGAGCTTCCCCAAGGTGCTGTTCGGGCAGCATCAGAAACGTGCGCGCTGGGTTAGCCCGGATCGCGGGATCAAGCCGTTCGATGACGAAGAAGAGGAAGTGATCCGATGA	MLDRLLAVLVLAIVLGVPLGLIFLVTGQFLMDFVFFYPLFMSGLWIAGGLYFWLHWERHWPWKDDTLPPPLAGEPLISILIPCFNEGDNVADTIHAALGQHYPNIEVIAINDGSKDNTAEVLDRLAAEDPRLRVLHLAENQGKAVALRMGAIAARSEYLVCIDGDALLAPNTCAYLVAPMLDNARLGAVTGNPRIRTRSTLVGRVQVGEFSSIIGLIKRTQRVFGRIFTVSGVIVAFRRTALHRVGYWSPDMITEDIDISWKLQLDHWSIFYEPRALCWILMPETLRGLWRQRLRWAQGGAEVLFKNIRGIWQYRHRYLWPLLFEYCLSTGWAFTFLLSVIFWGAGKFIEMPAAIAVDHLMPPAFTGLLLAVVCLMQFAVSILIDRRYEKGLWHIMFWVVWYPLVFWLISLFTTLVSFPKVLFGQHQKRARWVSPDRGIKPFDDEEEEVIR	PGPT0023485_250	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
D1-35_05388	1998	pgaB	COG0726	Poly-beta-1,6-N-acetyl-D-glucosamine N-deacetylase	ATGCCCGTCATTTCGCGATTCATCCTTCTGCTGGGAGTCTTGCTGATCAGCGCTTGTGCCCAGCAGGCCCCGGCATTTGCCCCGCCTTCGCAACGGCCGGTGATGGCCAACGATGCGCCATGGCCGAAAAACCACGTGCTTGGTATTGCCTACCACGACGTCGAAGACCGCGACCCCGACCAAGCCTTGGTGGCCGTGCGCACCGAGCGCCTGATCGAGCAATTGGCCTGGCTGCGGGAAAACAATTATCAGCCGGTCACGATCGACCAGATCATCGCTGCCCGCAACGGCGGCCCCGAACTGCCACCGCGCGCAGTACTGCTGAGTTTCGACGACGGCTACTCAAGCTTTTACACCCGCGTCATGCCCATCCTGCGCGCCTACAACTGGCCGGCCATCCTTGCTCCGGTCGGCAGTTGGATCGACACGCCGCTGAATCAACCGGTGGATTTTGCCGGGGTGCCGCGCAAGCGTTCCGAGTTCCTGACCTGGGAGCAGATTCGCGAGGTGTCGAAATCGGGCCTGGTGGAAATCGCCGCCCACACCGACGCCAATCACAAAGGCGTACTCGCCAACCCGCAAGGCAACCAGCAGCCGGCGGCGACCACGCGGCGCTACGATCCGGCTACCGGTCGCTATGAAGCGGAAGCCGATTTCCAGGCGCGTCTGCGCAAGGACGTGGCAGCCATTTCCGAGAAGATCCGCAAAGTCACCGGCTACAGTCCGCGCGTCTGGGTCTGGCCATACGGCGAGGCGGACGGCACCGCGTTGCAGGTGATTGGCAGCCAGGGCTACCAGATGGCCCTGACCCTGGAAGACGGCCTCGACAGCCTCGATAACCTGATGAGCGGCCCGCGCTTTCTGGTGGCTTCCGATCCGGACGGCGCTCACTTCGCCGAAAGCATCGTCTCGGTGCAGACTATGGACCCGATGCGGGTGGTCCACGTCGACCTGGATTACGTCTACGATCCGGACCCCGTGCAGCAGGAGGCCAACGTCGGCAAGCTGGTCCAGCGTATCTACGATCTGGGCGCGAACACCGTCTTCCTGCAAGCTTTTGCCGACCCGAAGGGCGATGGCCTGGTCCATTCGCTGTACTTCCCCAATCGGCATCTGCCGGTACGCGCCGATCTGTTCGATCGGGTCGCATGGCAATTGCGCACCCGGGCCAACGTGAAGGTGTATGCCTGGATGCCGGCGCTCAGTTTTGCCCTGGACCCGAAGTTGCCGCGTGTACAGCGCTGGGATCCTGAAACCGGCAAGATTGGCGTCGCCCCGGACCAGTACCTGCGCCTGTCGCCCTTCGACCCGAACGTGCGCAAGGTCATCGGCGAAATCTACGAAGACCTGGCGCGGATGAGCTCGGTGGACGGCGTTCTGTACCATGACGACGCGGTGTTCTCCGACTTCGAGGATGCCGGCCCAGCTGCGATGAAAGTCTATGCGGCCAACGGCTTGCCGACTTCCATCGCCGCTCTGCGCGACGACCCGGCGGCCATGCAGCGCTGGACCCGTTTCAAGAGCCGCTACCTGATCGACTTCACCGCTGAGCTCACGGCCAAGGTTCGGGCAATTCGTGGTCCGGAGGTGCGCACGGCGCGCAATATCTTTGCCGAGCCGATGCTCAACCCGCAGAGCGAGGCCTGGTTCGCCCAGAACCTCAATGACTTCCTCGGCGCCTACGATTGGACGGCTCCGATGGCCATGCCATTGATGGAAAAACAGACCCGCGAGCAATCCGGGCCCTGGCTCGAACGGCTGGTGGAAACCGTCAAGGCTCGCCCCGGTGCGCTCAAGCGCACGGTATTCGAATTGCAAGCGCGCGACTGGCACAGCAAGCCGGTGGCCGATATCGAAGGTGAACAACTGGCCGACTGGATGGGGCGACTCAAGCGCCAGGGCGTGACCAGTTTCGGCTACTACCCGGACAACTTCATCGAAGACCAGCCTGCCGTGAAAGCCGTGCGGCCTGCGCTCTCCAACAAGTGGAATCCTTGA	MPVISRFILLLGVLLISACAQQAPAFAPPSQRPVMANDAPWPKNHVLGIAYHDVEDRDPDQALVAVRTERLIEQLAWLRENNYQPVTIDQIIAARNGGPELPPRAVLLSFDDGYSSFYTRVMPILRAYNWPAILAPVGSWIDTPLNQPVDFAGVPRKRSEFLTWEQIREVSKSGLVEIAAHTDANHKGVLANPQGNQQPAATTRRYDPATGRYEAEADFQARLRKDVAAISEKIRKVTGYSPRVWVWPYGEADGTALQVIGSQGYQMALTLEDGLDSLDNLMSGPRFLVASDPDGAHFAESIVSVQTMDPMRVVHVDLDYVYDPDPVQQEANVGKLVQRIYDLGANTVFLQAFADPKGDGLVHSLYFPNRHLPVRADLFDRVAWQLRTRANVKVYAWMPALSFALDPKLPRVQRWDPETGKIGVAPDQYLRLSPFDPNVRKVIGEIYEDLARMSSVDGVLYHDDAVFSDFEDAGPAAMKVYAANGLPTSIAALRDDPAAMQRWTRFKSRYLIDFTAELTAKVRAIRGPEVRTARNIFAEPMLNPQSEAWFAQNLNDFLGAYDWTAPMAMPLMEKQTREQSGPWLERLVETVKARPGALKRTVFELQARDWHSKPVADIEGEQLADWMGRLKRQGVTSFGYYPDNFIEDQPAVKAVRPALSNKWNP	PGPT0023480_203	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-POLY-N-ACETYL-GLUCOSAMINE_METABOLISM	CE-EPS-POLY-N_ACETYL-GLUCOSAMINE_BIOSYNTHESIS,PGPT0023480-pgaB-K11931	NA	NA
D1-35_05389	2484	pgaA		Poly-beta-1,6-N-acetyl-D-glucosamine export protein	ATGCCGCGTACTGTGGGTCCTCTTATTCAATTCGGTTTGCGCCCGTTGTTTCGCGTCGCGCTGTGCAGCCAATTGTGCTGGTCGGTGGTGGCGTTTGCCGATACCGCTTATGACCAGATGGTGCTCGACGCCCGCGCGGGGCATTACACGCCCGCGTTGTCCGTATTGCGCCAGGTGCCGGTTGGCCAGGCCAGCACCGCACAGATCAGTGACCATCTGCAGATCGCCAGTTGGGCCGGTCTTGATGCCGAGGTGGTGAAAGTCTACGAAACCCAGGGCCGCTACCGCGACCTTCCGGTTCAGGCGCTGACCGCAGCTGCTCGCTCCTATCGCAACCTCAAGCGCTGGGATCCGGCGGTCGAGTTGTATCGCCGGGCGTTGGCGATAGATCCGCAGAACCCCGATCTGCAACTAGGCCTGGCCTTGACCCAGGCCGATGCCGGCAAGCCAGATGAAGCCGTCAACCGCGCCAGGGCGCTCGTTGCCGCCAAGCCAGAAGATCCGATGCGCCGGTTGGCCTTGGGTTATGCGCTGACGCGTGCGGACAATCCCCACGAAGCGCTTTTCGAATACGACCAGGCGTTCACCCGTGCCGGCAGCAACAAGCCTGAAGTCGCCCGCGAGTACGTCTACGCCCTGCAACGCGCCCGTTTGCCTGAGCCGGCCCTGCGCCTGGCCCGGCTTCAGCCCGGCCTGATCGATCGTGGCGTGCAACGCAGGCTCGAAGGCGATGTGGCGGCCGAGCGGGTGCGCCTGGCGGATATGGCCAGTCGCAGCGAAACAGAACGTTTTGTCATTGCCGATCGCGCGCTGGCGGACTACGACAAACTGCTCGCCACCTGGACTCCGGTGGCCGAGGCCCACGATGATGTCTTGCGCTGGCGGATCGACCGCATGGGCGCCCTCAACGCCCGGGCTCGCCGGGCCGAGGTGATCGCCGAGTACCAGAAGCTGGTCGCTGAAGGGGTCAGCATTCCAACCTACGCGCTGCGCTGGGTGGCGTCTTCCTATCTGGAGCAACGTGAACCGGAGATCGCCGTCGATCTGTACCGCCGCGTGCTGATTGCACCGGATGCAGATCCTGCGGACCGCTTCGAAGACAGCACTGCGCTCTACTACGCCTTGCTGGAAAGCGAAAAATCCGAGGAGGCTCGCGCACTGGCCGAAGACCTGGCGAAAGCACAGCCGGCCCGCGTGGAGCTCAAGGGGCTGCCGATCGGCAATCCCAACGACGAGTGGATGGACGCGCAGCTCCTGGCCGCTCAAGCAGGTACCTACGGCGCCGATCTGCCTACCGCCGAGGCGCGCCTGGACGCTCTGGTCTACCACGGCCCCGGCAATATCGGCTTGCGCCTGGCCCAGGCCGATCTGTACCAGGCACGTGACTGGCCGCGACGTTCGGAAAGCCTGCTCAAGGAAGTCGAGGCCACGACGCCGCGCAATCGCGACCTGGAAGTCGCCCAGGCCCGCGCCGCCATGGATCTGCAGGAATGGCGGCAAATGGATGCGCTTACCGATGACGTCGTCGCCCGCTATCCCGAGAACGCTCACGTCAAGCGCCTGCAACGCCAGCGTGACGTCCATGACATGGCTGAACTGCGCATCGAGGCCTACACCGGCAAGAGCTACGGTGGCGGCAATGGCGACGCAGGCGCGGTGACCGGCAGCCGCGATTTTGGTATCGAGACCTTGCTCTACAGCCCGCCCATCGATGAAGACTGGCGGCTGTTCGGCGGTGCCGGTTACGCAACCGGCGACTTCGAGGAAGGCACCGGCCATCATCGCTGGCAGCGCCTGGGAGTGGAGCGGCGTACCCGCGACATGACCCTGGAGGCGGAAGTCTCCAACCATTCGTATGGTTCCGGTGACAAACAGGGCGCGCGAGTAGCCGTGGCCCGGGACATCAATGATCACTGGCAGTACGGCGGCAGCCTGGACTACCTCTCGGCCAACACTCCGTTGCGGGCTCTCAACAGCGGGATTCGCGCCAATGGTGGAAGCGGTTTCGTCCGCTGGCGTGCCAATGAAAGCCGCGAGTGGCGGCTGGCTGTCAGCCCGTCCCACTTCAGCGATGGCAACAACCGCCTCGAGACCTTGCTGACTGGCCGCGAGGGCATCTACAGCGCTCCGAGGCTGCAAGTGGAGCTGGGCCTGGAAGTCGGTGCCAGTCGCAACAGCGGCTCCAATGAAGTGCCGTACTTCAATCCGAAATCGGACTTCAGTGTCATGCCGACCGTGAGCGCCAATCACGTGTTGTATCGCCGCTACGAAACCACCTGGAGCCAGCAGTTCCAGGCGGGCGCCGGCACCTACAGCCAGAGTGACTACAGCACCGGGGCCATGGGGTTGCTCAGCTACGGCCAACGTCTGCTCTGGAACGATGTGCTTGAAGCCGGGGCCGCGCTGAGCTGGCTCAACCGCCCTTACGACGGCGATCGTGAAAGCGATCTGCGCCTGCTTGTCGACCTCACCTACCGCTTCTAG	MPRTVGPLIQFGLRPLFRVALCSQLCWSVVAFADTAYDQMVLDARAGHYTPALSVLRQVPVGQASTAQISDHLQIASWAGLDAEVVKVYETQGRYRDLPVQALTAAARSYRNLKRWDPAVELYRRALAIDPQNPDLQLGLALTQADAGKPDEAVNRARALVAAKPEDPMRRLALGYALTRADNPHEALFEYDQAFTRAGSNKPEVAREYVYALQRARLPEPALRLARLQPGLIDRGVQRRLEGDVAAERVRLADMASRSETERFVIADRALADYDKLLATWTPVAEAHDDVLRWRIDRMGALNARARRAEVIAEYQKLVAEGVSIPTYALRWVASSYLEQREPEIAVDLYRRVLIAPDADPADRFEDSTALYYALLESEKSEEARALAEDLAKAQPARVELKGLPIGNPNDEWMDAQLLAAQAGTYGADLPTAEARLDALVYHGPGNIGLRLAQADLYQARDWPRRSESLLKEVEATTPRNRDLEVAQARAAMDLQEWRQMDALTDDVVARYPENAHVKRLQRQRDVHDMAELRIEAYTGKSYGGGNGDAGAVTGSRDFGIETLLYSPPIDEDWRLFGGAGYATGDFEEGTGHHRWQRLGVERRTRDMTLEAEVSNHSYGSGDKQGARVAVARDINDHWQYGGSLDYLSANTPLRALNSGIRANGGSGFVRWRANESREWRLAVSPSHFSDGNNRLETLLTGREGIYSAPRLQVELGLEVGASRNSGSNEVPYFNPKSDFSVMPTVSANHVLYRRYETTWSQQFQAGAGTYSQSDYSTGAMGLLSYGQRLLWNDVLEAGAALSWLNRPYDGDRESDLRLLVDLTYRF	PGPT0023475_69	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-POLY-N-ACETYL-GLUCOSAMINE_METABOLISM	CE-EPS-POLY-N_ACETYL-GLUCOSAMINE_BIOSYNTHESIS,PGPT0023475-pgaA-K11935	NA	NA
D1-35_05390	1506	ydgA	COG5339	Protein YdgA	ATGAACAAATCAGCAAGCGTACTTCTGGGAATCATTGTGGTTGTTGGTGCAATCAGTGCGGGTGGCGCCTGGTATACCGGCACCAAGCTTGAAGGCGTACTGCAAACCGCTATTGCCGACAGCAATAAGCAACTGCAAACGGCTTTGGCGGGTTCCAATGGCACCGCTTCGATTGAACTGGTCTCCCTGGACCGTGGCACTTTCAGCAGTACTGCCCGTTATCGTCTCAAGGGTGAAGGCGAAATGTTCGGCGGCGAACCGGTCGAGCTGCTGTTCGTTGACAATATCGAACACGGTCCACTGCCATTCTCGCGCCTGATGACGCTCAAATGGTTGCCGGTCATGGCCACCAGCCACACCGAACTGGAGCGGACTCCGCTGACCGAAAAGTGGTTCGTTGCCGCCAAGGATAAATCGCCTCTCAAAGGCGTCTTCAATCTCGGTTACGATCAATCCACCAACGGCACGTTCGAACTGCTGCCTCTGGATACCAAGCTGGATGAGCAATCCCAGCTGATCTTCTCCGGCCTGAAAATCGATGTGGCCGCCAGCGCCCAGGCTGAGAAGATCAAGGCCGACGGCTACATGGACAGCTTCAAGTTGACCACCGTCGCCGAAGATCAGACGCCGGTTCAGGTAGAGTTCAGTGGCCTGACATTGGCCAGCAACCTGACCAAGAGCACCTATGGCTACTACAAGGGCGACAACACCCTGTTGCTGAGCAGCAGCAAGACCACCTTCGGCGAGCCGAAATCGGTATTGGGCCTGAAAAACTTCGAGATGAAGAACAACAGCTCCGAGAACGGCACCAGTGCTTCGGGACGCGCTGATTACAAGATCGGCGAGTTGTCGTTCAACGACAAGGTCATCGGTTCTGCACAGATGGCGGTCAGCCTGAAGAACCTGGACATCCCTGCCACAATGTCGCTGATGCAGGTCTACCAGGCCAAGCTGCAACCCTACGAAAAGGCAGTTGCCGAGGCCGCTGAAGCGGGCGAGCCGGCTCCAGAGCTGAACCTCACCGAGGCAGAAGAAGCGCAGGTCAAAGCCGACCTGGAAAAACTCCTGGCTGGCGCCCCGCAAGTGGCCCTGGAGAACCTCTCGTTCAATACCGCTAACGGCGAAAGCCGCGCGAGCCTGGTTGTTGATCTGGCCAAGCCGCAGTCCATGGACCTGCCACCCGATGAGCTGGGCCGTCAGTTGCTCGCTCTGCTGGACTTCAAGGTTAAGCTTTCCAAGCCAATGCTGGTGGATCTCCTGACCGTGCAAGCGCAGATGGAAGGCCAGACCGACGCAAAACTGATCGCCGACCAGGCGACTGCCACCAGCGATATGTTCAGCGCCATGGCGGTAGGCACGGAGCTGGCGAAGCTTGAAGGCAATGATGTGGTTACCAATCTGCACTACGCCAACAATCAGGTCGATTTCAACGGCCAGAAGATGACCGTTGAACAGTTCACCGCGTTTGTGATGAACAAGCTGGGCGGCGGCGTCGCCATTCAGTAA	MNKSASVLLGIIVVVGAISAGGAWYTGTKLEGVLQTAIADSNKQLQTALAGSNGTASIELVSLDRGTFSSTARYRLKGEGEMFGGEPVELLFVDNIEHGPLPFSRLMTLKWLPVMATSHTELERTPLTEKWFVAAKDKSPLKGVFNLGYDQSTNGTFELLPLDTKLDEQSQLIFSGLKIDVAASAQAEKIKADGYMDSFKLTTVAEDQTPVQVEFSGLTLASNLTKSTYGYYKGDNTLLLSSSKTTFGEPKSVLGLKNFEMKNNSSENGTSASGRADYKIGELSFNDKVIGSAQMAVSLKNLDIPATMSLMQVYQAKLQPYEKAVAEAAEAGEPAPELNLTEAEEAQVKADLEKLLAGAPQVALENLSFNTANGESRASLVVDLAKPQSMDLPPDELGRQLLALLDFKVKLSKPMLVDLLTVQAQMEGQTDAKLIADQATATSDMFSAMAVGTELAKLEGNDVVTNLHYANNQVDFNGQKMTVEQFTAFVMNKLGGGVAIQ				NA	NA	NA	NA	NA
D1-35_05391	636			hypothetical protein	ATGAAAAACCCTTATGCTCCCGGCTTCTGGTGCGCTGTCGCGGCCTTGGTGCTGCTTTCGGCCACCTACTTCTATGGCGTCATGCTGACTCACCATATCGACAAGGCACTGATTTTCCTGGATAGCGCGGCTGCGCTGATCGGTGTCATTTCTGTCGCAATCGTCGCCTGGGCTTCTCTTCAAGGCCAGCGCATCAAGAAGAAGCAGCTTGTGCAAGGCAAGACACTGGTCCTGATCTGGGATACCAAGGTTGCGCTGCGCCGGGTTGAAACGGTATTCGACCGTTATTTCTGGGGCAGCTATTGGCAGCCTGGACGCACGTTTCAGGAAGTCATGGGTGAACTCACCGGCACTCCGCTGGAGAAAAGCCTCGAGGCACTGAAAACTCAATGCGCCGCCCTGGACAAGCAAGTCGCGCAAGACGACTGGCATTGGCTCAACAATGCCCGCGAGCTGTGCGATGTGGCCAACGCGATGGCTCGGGAGCGCTATCAATTGGACTTCTACGATGGGCGTGACGATTCATCGGGTGCGGCAGTAATCAATCGAGATTTCGAAGTGTTGGTCTACACCTGGACAGCACGTCTCAAGACCTTCGATCATCAACTTGACGAGATCGAAGTCGAATATTCGTAG	MKNPYAPGFWCAVAALVLLSATYFYGVMLTHHIDKALIFLDSAAALIGVISVAIVAWASLQGQRIKKKQLVQGKTLVLIWDTKVALRRVETVFDRYFWGSYWQPGRTFQEVMGELTGTPLEKSLEALKTQCAALDKQVAQDDWHWLNNARELCDVANAMARERYQLDFYDGRDDSSGAAVINRDFEVLVYTWTARLKTFDHQLDEIEVEYS				NA	NA	NA	NA	NA
D1-35_05393	438			hypothetical protein	ATGAATGAGCGCTATCATCGTTTGGTTACAGATATCTGCCAGCTCTCTCAGATCCCCTTGGCTGCAATTGATTTAGAGTTGGTTCAGTTAAGCGTGAAAGGCATTGACTTCAGCTTTTCCAACTTGGCAGATACCGTCATGATCCACGCGGACTTCGGTCCGTTACCAGTCCGCCGCAGAGAAGCCATCTTGCTTCAGCTCATGAATGTCAACTTTCATTTGTTTGGCGGAGACAGCCCCTGTTGCTTTTCACACAACGATGGCACGGGCCAAGTGCAGTTCAGTTGCACAGTGGGGCTGACCCAGATTGGCGCGCCTCAGTTCGTGCAGTTGCTGGGCCATATCGCTGAGTATGCGCAATCATGGCAGCACAGCTATTTCCTCGATGAGGGCTCGAAGCGCGAAGCTTCAGTGCGCACCAATTTGGGGGGCTTATGA	MNERYHRLVTDICQLSQIPLAAIDLELVQLSVKGIDFSFSNLADTVMIHADFGPLPVRRREAILLQLMNVNFHLFGGDSPCCFSHNDGTGQVQFSCTVGLTQIGAPQFVQLLGHIAEYAQSWQHSYFLDEGSKREASVRTNLGGL				NA	NA	NA	NA	NA
D1-35_05394	1866			hypothetical protein	TTGGCGCCCCGCCTGGGGCAGCCCGGCTTTGAGGGCACGGTAGCCAGGCAGCGCATGGTTCTGGAAGGTAAATATCTGCAGGAGCACCCCGATATTCCCTACGCCGATATAAGTAACAAGCTATTTGCGAAGGCCAATGGGAAAGCGCCCGCATCCATGACCGGACGCTTACTGGCCGATGCCAAGCAAGCGCAACAGACGCTGATCCACGAGTTGGAAAAGCTGACTGAGGATCCACAACGTCCACCGGATCTGGAGGCATATCACAAGGTGCTGACGGAGGCAGTGCGCGCGCAAACCGATTTGCTGGGCGCACACGTCGCTCTCTACGAACAGGCATTGACCGATCCACAACTGTCGACCGCCGACAGACAACACATAGAACGTAGCGAAAGCGCCTTCGCGCGTCATGCCCAACAGACCGTGGGCCTGATACCAGGCGCGTTGAAAACGGCCTTGACCAAAGCGGACGCAACGGTCAGCGCACTGAAGCAACTGAAGCAACCGTCAGAGGAATGGGAGCATATCAGCACGATGCTCAGTGACCTGGTCGAGCACACCTCAGTCGATGGAGAATTCAAAGATGCGCTGGATAACGCCAAACTTCCCGCCGAGCTTCAGAAGCTCCATCAGCACAACGACGGCTGGGTAGCGACTGCCAAGGCCGCGGCCGCAGGCGCCATGCCCCAAATGCTCGCGTCGGGCCTGGCGTTCGGCTTTGCGCGCGCGGTCGTAGAGTCCGCGGTCCCCGACCTGAAGGCCCAGGCATTCGCTACCGCGCCCGTGATGGCGGCGGCACATGAAGTAGGCACTAACCTGCTTAAGCCCATCAGCCAGGAGATGATGGGCGGGTGGTCGCTAAAACCGGTGAAAGCGTCAGAGGTCATTCCAAACCCTAACCCGCGCACTATTGTCGATGGCGAGCTCCAGCCCCTGCCCATCGAACAAAAAGAAATCGCCATGCAGGAGGTTGATGAACAGCGCAGCCGCCATCTCAACGCCCAGCAAGCCAACAAGAATGGAACCGGCATTGGCGAGGCTGAAGCCTTCGGCGCGTTTAGCCTGGCACAAGGCATCCGGCAAGCAATAGGACTGGCCAAGCCGCATATTCCTGTGGAGCAATTTGGTCCCCGCACGCTGGCCTCCATGGCAGGCGGCCTGTTCATGGGCGGCCTGCAATCGGCTGCGCAACTGCGCAGTAGCGTTCCGGACCGACGTGGACGCGAGCTGCCGACCCACACCTTCAAGGAAGTCGACGAACCGTTGGCGAATCGCTTGGCTAAAGCGGCATCGGACGCGGTGTTGGCCAGCGACCCGAGCAATCCTGAGGTTCGTCAAAGCCTGTTCAGTAAAACCTATGGCTCACTTGCCGGACTGGGCAGCGCCATGGGCGTCAGCTTCGCGGCAGGGCGCTTTGACTCAGACACGCCGGTGAAGCAGTTTGGCCAGGTGCTTTTGGCCGCGTTGGGCTCGCCTGCTCTCCTTATTCCTACCTATGCCGGCTTTCAAGCCGGTGCTGAGACCAAGGCTTATCAGGCGGCACTTGAACAGGAGCGCAAAGCGCAGGAGTTGCCCGGGCCGGGCGCCCCCGCCCCGCCCCCCGCGTCCAACTTCCCGCGGACACAAACGGCAATCCAGAACTTCCTGTCGCCCGACCGAGCCGACCTACCGCATGGCTCCATGCCAGGAACCTGGGGCAGAGTTGCAGAAAATACCTACCACCGTGTGCGAGGGGGGTTGCAGGTCGCGTCCCAAATCCCGACTGAACTCACCGAGCTTGCAATCAAAAAGGCTATCACTCGTGAGGGAAACAATGCTGATGACGAGGCGGCCCCACAACCACCTGAAGCTTTGCCGCAGAAGTGA	MAPRLGQPGFEGTVARQRMVLEGKYLQEHPDIPYADISNKLFAKANGKAPASMTGRLLADAKQAQQTLIHELEKLTEDPQRPPDLEAYHKVLTEAVRAQTDLLGAHVALYEQALTDPQLSTADRQHIERSESAFARHAQQTVGLIPGALKTALTKADATVSALKQLKQPSEEWEHISTMLSDLVEHTSVDGEFKDALDNAKLPAELQKLHQHNDGWVATAKAAAAGAMPQMLASGLAFGFARAVVESAVPDLKAQAFATAPVMAAAHEVGTNLLKPISQEMMGGWSLKPVKASEVIPNPNPRTIVDGELQPLPIEQKEIAMQEVDEQRSRHLNAQQANKNGTGIGEAEAFGAFSLAQGIRQAIGLAKPHIPVEQFGPRTLASMAGGLFMGGLQSAAQLRSSVPDRRGRELPTHTFKEVDEPLANRLAKAASDAVLASDPSNPEVRQSLFSKTYGSLAGLGSAMGVSFAAGRFDSDTPVKQFGQVLLAALGSPALLIPTYAGFQAGAETKAYQAALEQERKAQELPGPGAPAPPPASNFPRTQTAIQNFLSPDRADLPHGSMPGTWGRVAENTYHRVRGGLQVASQIPTELTELAIKKAITREGNNADDEAAPQPPEALPQK				NA	NA	NA	NA	NA
D1-35_05395	723	aceE_4	COG2609	Pyruvate dehydrogenase E1 component	ATGGCCTCAACGGTACCCAACTGCCGAGCCTATGATCCGGCGTTCGCCGGCGAGTTTGCGGTGATCCTCGACCACGGCATGCGCCAGATGCTGGAGCGCCAGGTGGACGAGCTCTACTACGTCACGCTGATGAATGAAAACTACCCGCAGCCCGACCCTCCAGCCGGTGTCGAGCAAGACATTCTCAAAGGCATGTACCTGTTCGCCCGCAAGCAATTAAAAGGGGCGCGTGGCAGTGTTCAGCTACTGGGCTCTGGCACTATCCTGCGCGAAGTGATCGCCGCCGCTGAACTGCTCGCCAGCGACTGGAACATCGACAGCCAGGTATGGAGCGTCACCAGTTTCACCGAGCTGGCACGGGACGCGCGCGAGGTCGAACGCCACAATCGACTGCATCCTGAACAACCTGGGCGCAGGAGCCACCTGCAGGCGTTGCTCGACAATGCGTCGCCGGTCATCGCCTGTAGCGACTATGTCCGGGCCGTGCCAGCCTTGATAGCGAGCTACGTTGAGGCGCGCTACACGGTGCTCGGCACCGATGGTTTCGGCCGCAGCGACACCCGCGCTCAGCTGCGCCGATTCTTCGAAGTTGATCGGCATCAGATCGTCCTGAGTGCCCTGACCGCGCTGGTTCAAGCCCAGGCATTGGCGCCGGATGTATGCGTCGAGGCGATTGCCCGGTACGCCATTGACGTGGACAGCCTGGCGCCGTGGGAGGCGTGA	MASTVPNCRAYDPAFAGEFAVILDHGMRQMLERQVDELYYVTLMNENYPQPDPPAGVEQDILKGMYLFARKQLKGARGSVQLLGSGTILREVIAAAELLASDWNIDSQVWSVTSFTELARDAREVERHNRLHPEQPGRRSHLQALLDNASPVIACSDYVRAVPALIASYVEARYTVLGTDGFGRSDTRAQLRRFFEVDRHQIVLSALTALVQAQALAPDVCVEAIARYAIDVDSLAPWEA	PGPT0001385_1015	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001385-aceE-K00163	NA	NA
D1-35_05396	1434			hypothetical protein	ATGTCGGCAGCGGACTGTATCGAATTGGAAGATTCCATCCTGGCGTTGTCCATGGTCGGCGACCTGAGCATGGGCCAGCCGTTCGATCAGTCGCGCCGCACCGCGCGGCTGGTGCAGATGCTCGCACAGGCGTGCAACGGCGCTGGCGAGCACACCGAGATCGGACGCCAGGTCGCGTTGCTGCGCTGGTCCGGATGCACCGCCAATGCGCAGGGCTTTACCCGTCTGCTGGGCGATGACGTCGAGGGCCGCAACGCGATGTTGACGCATACCCTCGATGAGGCGGGTCAGCGAGCGATGCACCGGTCCACACCGTTGGCGCAGATCCATTGCGAGGTGTCAGGTGATATTGCTCATACATTGGGCTTGCGCGCCGAAGTCGAACACGGGCTGCGCCATGTGTTCGAGCAATACGACGGTGAGGGAAGGCCGTCTGGCCTGCGTCATCCCCAGGTGCCGGAGGTGGTATATCAAGTGTCGCTGGCGGGAGATCTGGAAATCCTGTCCCGTACGCATGGACTGGAAACCGCATTGCGATGGATTGCCAGCAGGAGCGATCGTCGTTATCCGGCAGCGCTCGCCGCTGAAATGCTGCAACACGCCGAAGACTGGCTCGCGCAACTGCGCACGCCACAGGTCACGACTTCGCGGCAAACCGCGCCATCGGTGCCGTTGACGCTGGTCGGCGATGTGATCGATCTCAAGCTGCCGTGGCTGGCAGGGTATTCGCGACGCGCTTCGGAGCTGGTCCGGGACGCCGCCAGACTTGGCGGACTGCCAGAGACCTCGGTCGACCATCTTGGCCAGGCGGCGCTGATCCATGGCCTGGGCCGCGCAGCGGTGCCCAATAGAGTCTGGAACACCCCAGGTGCGTTATTGGAAGGCGATCTTGAGCTCGTGCGGTTGGTGCCTTACTGGACGTCGCGGGCCTGTAGCCAGATACCATCGCTTGCAGTGTCGGGCCAGATCGCGGCCCACGCCTACGAGCGACTGGATGGCAGTGGCTACTTCCGTAATCTCAACGCCGACGCGCTGCACAGTGAACATCGCTTGCTCGCCGCAGCCCTGGCTTGGCAAGCGTTGCTGAGCGAGCGACCGTGGCGGCCGGCCCTCACGCAGGATGCCGCCGCCCGTTTGCTGCTGGACGAGGCGCAGCAGGGCCGCTTCGAACACCGAGCCTGCCAGGCAGTCATTGCGGCGGCGCGCGGGGATGCAACGATGGCGGCCTGCAAGCCGACCGCTGGCCTGTTGTCCGAGCGCGAAACGGAAATTCTCCGGCGCATCAGCACGGGGGGCAGCAACAAGGAGGTGGCGCGCCAGCTAGGCATCAGTCCTAGCACCGTGCGCACCCATGTGGAAAACCTGTTCCGCAAGCTTCAATGCACCACCCGCGCGGCTGCGACGCTCAAAGCGCTGACGCTGGGGTTGATTTGA	MSAADCIELEDSILALSMVGDLSMGQPFDQSRRTARLVQMLAQACNGAGEHTEIGRQVALLRWSGCTANAQGFTRLLGDDVEGRNAMLTHTLDEAGQRAMHRSTPLAQIHCEVSGDIAHTLGLRAEVEHGLRHVFEQYDGEGRPSGLRHPQVPEVVYQVSLAGDLEILSRTHGLETALRWIASRSDRRYPAALAAEMLQHAEDWLAQLRTPQVTTSRQTAPSVPLTLVGDVIDLKLPWLAGYSRRASELVRDAARLGGLPETSVDHLGQAALIHGLGRAAVPNRVWNTPGALLEGDLELVRLVPYWTSRACSQIPSLAVSGQIAAHAYERLDGSGYFRNLNADALHSEHRLLAAALAWQALLSERPWRPALTQDAAARLLLDEAQQGRFEHRACQAVIAAARGDATMAACKPTAGLLSERETEILRRISTGGSNKEVARQLGISPSTVRTHVENLFRKLQCTTRAAATLKALTLGLI				NA	NA	NA	NA	NA
D1-35_05397	762			hypothetical protein	ATGTTCACACCCAAGGCCCTTGCCCTCACACTCGCCATGACCTGCTCACTGCTCGGCGGCGCGGTCCATGCCGCGGCGCAGCAACCTTCTGTCGTTATCGTTCACGGCGCTTTTGCCGACGGCTCCGACTGGAGCAAGGTCGTTCCGCTGCTGCAGGCGGAAGGCATCAAGGTCACCGTTGTACAAAATCCGCTGACGTCGCTGGCAGACGATGTCGCCGCCACGCAGCGTGTTCTGAACAACCAGGAGAACGACGTCGTGTTGGTCGGCCATTCCTGGGGCGGCACGGTCATCAGCGAGGCTGGCAGCGACAAGAAAGTACGCAGCCTGGTGTACGTCGCCGCGTTCGCGCCGGATGCCGGTCAAGCCAGTAAAGACCTGGGCAAGGACTACCCGGCACCGTCCGGCGTGAAAGATATCGCCGCCGACAAGAACGGTTTCCTGTACATGACCGCCGAGGGCATGGCCACCGGTTTTGCCCAGGATCTTTCCGCAGAACAAACCGCCGTCATGACTGCGACGCAAGGGCCGATCCGCGCCTCGGCATTCGATGACAAGACCAGCGTTGCTGCCTGGAAAGGCAAGCCAACCTGGTACGTCGTGGCCAAGGAAGACCGGATGATCCAGCCTGATCTGCAACGCGCTTTCGCCAAGAAGATCGGCGCCAAGGTCACCGAAATCGAAGCCAGCCACGTGCCGCAACAATCGCGCCCGGCAGACGTCGCAAAAGTCATCATCCAGGCCGTTCAAAAGAGCCAGTAA	MFTPKALALTLAMTCSLLGGAVHAAAQQPSVVIVHGAFADGSDWSKVVPLLQAEGIKVTVVQNPLTSLADDVAATQRVLNNQENDVVLVGHSWGGTVISEAGSDKKVRSLVYVAAFAPDAGQASKDLGKDYPAPSGVKDIAADKNGFLYMTAEGMATGFAQDLSAEQTAVMTATQGPIRASAFDDKTSVAAWKGKPTWYVVAKEDRMIQPDLQRAFAKKIGAKVTEIEASHVPQQSRPADVAKVIIQAVQKSQ				NA	NA	NA	NA	NA
D1-35_05398	1560		COG2303	putative GMC-type oxidoreductase	ATGCCTGTGAATCGCGAGGTGAAAAAGCATTATTTCGATTTTATCGTCTGTGGGGCGGGAGCTGCCGGCTCCGTCGTGGCCGGTCGCCTGGCCGAGAATCCTGAGGTAGAGGTATTGCTTATCGAGGCCGGCGGCAGCGACGAACATCCCCACGTGCTGGAACCGGGGAACTGGCCGCTGAACCTGGGCACCGAGCGCGATTGGAATTTCGTGGGTGCGGCAAACCCTCATCTCAACGACAGGAAAATCCCGCTGAATATGGGCCGCGGACTGGGCGGTGGGTCCAGCGTCAATGTCATGTTGTGGGCCCGCGGTCATAAAAACGACTGGGAAGATTTTGCCGCGCAAAGTGGCGACCCGGCGTGGAGCTACGCCTCGGTCCTGAAGATATATCAACGCGTGGAAGACTATCGGGGCACCTGCGATCCGGTCCGTCGTGGCAAGGGCGGACCGGTTCATGTCGCGCCTGTACGAGATGCTCAGCCGATTGCCAACGCCATGATCAGCGCGGCTGTCGGCATGGGTATACCGGCTTTCGAGAACCCGAACGGCGCGATGATGGAAGGTCGCGGAGGTGCGGCCCTGAACGACCTCATCGTTAAGGACGGCCAGCGTAACTCCATTTACCGCGCCTACGTCGCTCCACGCATTGGCCAGCCCAACCTCACGGTCCTGACTGATACGCTTGTCAGCCGCGTGCTTTTCCGGGACCAGCGCGTCATTGGCGTGCAAACCATACGCAATGGGCAGACCGAGTGTTTTTACGCCGACCACGAAGTGGTTCTTTCTCTGGGGGCGGTCAACACCCCCAAAGTCCTGATGCAATCAGGCGTGGGACCGGAGGAAGAATTGCAGCGTCATGGCATCCCGCTCGTCCAGCATCTCCCCGGCGTTGGCGCCAATCATCAGGATCACGTGTCCTTTGCGGTTATTTTCGAATACGCGACGCCACAACCGGTGGGCTATGGTGGCTCGGAGGCGACGCTCTACTGGAGCAGCGAAAGCGCTTTGCATCTCCCGGACATGTTCCACTGCCAGGTTGAATTTCCCGTACCCAGCGCAGAGACCGCTTCACTCGGTGTTCCCGCACATGGCTGGACAATGTTTGCCGGCCTTGCCCACCCGGAAAGTCGCGGACGGGTCAAGCTCAGCGGCCCGGATGTGACCGATGCCCCGATCATTCAGCCCAACACCCTCTCTCACCCCACCGATCGACGCAACGCGCTGGAGAACATCCGTTTTGTCCAGGAACTGGGCGCACAGGCACCCTTCAAGGGCTTGGTCAAACGTGAAAGCCTGCCGGGAAAACTCGACACCCAATCGCTCGAACATTATGCGCGCAACGCCGCCGTTACTTACTGGCACCAGTGTGGTACGGCAAAAATGGGCCAGGACGCGATGTCCGTGGTCAATGGTCAGCTGCGTGTCTATGGGGTCCAGGGCCTGCGCATTGCCGATGCATCCATCATGCCGCACGTCACGAGCGGCAATACGATGGCCCCTTGTGTCGTGATCGGTGAGCGGGCCGTGGAAGCCATACGGACCACTTACGACATATAA	MPVNREVKKHYFDFIVCGAGAAGSVVAGRLAENPEVEVLLIEAGGSDEHPHVLEPGNWPLNLGTERDWNFVGAANPHLNDRKIPLNMGRGLGGGSSVNVMLWARGHKNDWEDFAAQSGDPAWSYASVLKIYQRVEDYRGTCDPVRRGKGGPVHVAPVRDAQPIANAMISAAVGMGIPAFENPNGAMMEGRGGAALNDLIVKDGQRNSIYRAYVAPRIGQPNLTVLTDTLVSRVLFRDQRVIGVQTIRNGQTECFYADHEVVLSLGAVNTPKVLMQSGVGPEEELQRHGIPLVQHLPGVGANHQDHVSFAVIFEYATPQPVGYGGSEATLYWSSESALHLPDMFHCQVEFPVPSAETASLGVPAHGWTMFAGLAHPESRGRVKLSGPDVTDAPIIQPNTLSHPTDRRNALENIRFVQELGAQAPFKGLVKRESLPGKLDTQSLEHYARNAAVTYWHQCGTAKMGQDAMSVVNGQLRVYGVQGLRIADASIMPHVTSGNTMAPCVVIGERAVEAIRTTYDI	PGPT0013615_4461	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013615-betA|CHDH-K00108	NA	NA
D1-35_05399	927	pgrR_8		HTH-type transcriptional regulator PgrR	ATGGCGGATCTTCGTGTTGGGCTCAGTGAGTTGGAGGCGGTAACGGCGGTGGCGCGCCGGGCCTCGTTTCGGCAAGCCGCTATCGACTTGAGCGTTTCGACGACCGCGCTGAGCAATACCATCGCCAAAGTGGAGTCGAGCCTTGAAACGCGGCTGTTCAATCGCACGACGCGCAGCGTGTCCCTCACCGAGGCCGGCCGGATGTACATGGCCCAAGTCGGGCCGGCGCTGCAGGATGTTCGCGCGGCGCTTGAGACGGTGCGCTCGCACAATGTCGGACCTTCGGGAATATTGCGCATCAACGCATTTGCCAGTGCTGCCCGTATGACACTGATGCCGCTGTTGCTGGAGTTTTCGCAGCGTTACCCGAAGGTGCATATCGATCTGGTGACCGAAGGGCGCCTGGTGGATATCGTCGCTGACGGTTTCGACCTTGGGGTGCGGTCTGCCAATCTGGTACCCAGCGACATGATTGTCGTCCCGCTGGACCGACCGCAACGTTACGCCATCGTCGGCGCGCCGGCGTACTTCGAAAAGCACGGCCGACCTCGAACGCCAGCCGATCTACTCAACCATGGCTGCTTGCGGATCCGCCTGCCCAACGGTGCCATTTATCCGTGGCATCTGGAACGCGACGGGGAGGTCATCAGGCTGGATGTGAACGGGCAATTCACGCTGGACGAACCTGGCCTTGCCAAGGCGGTAGTCGGGGCGGGCGTGGCTCTCGGTTTTTTCATGGAACAGGACGTTCAGGGCGAAATCGAGCGTGCGGAGTTCGAGCGGGTGCTGGAGGCGTGGACCCCCGCGCGAGACAACTTGTGTCTGTATTACCCCAACCGGCGCAACCCTTCGGCAGTGCTCAAGGCGTTTACCGACTTGGCCCGCGCCAGCCTGGTCGGCAACGAAACACTGGCGCTGCCGGCCTGA	MADLRVGLSELEAVTAVARRASFRQAAIDLSVSTTALSNTIAKVESSLETRLFNRTTRSVSLTEAGRMYMAQVGPALQDVRAALETVRSHNVGPSGILRINAFASAARMTLMPLLLEFSQRYPKVHIDLVTEGRLVDIVADGFDLGVRSANLVPSDMIVVPLDRPQRYAIVGAPAYFEKHGRPRTPADLLNHGCLRIRLPNGAIYPWHLERDGEVIRLDVNGQFTLDEPGLAKAVVGAGVALGFFMEQDVQGEIERAEFERVLEAWTPARDNLCLYYPNRRNPSAVLKAFTDLARASLVGNETLALPA				NA	NA	NA	NA	NA
D1-35_05400	330			hypothetical protein	ATGAACCTCAAGCTTCCCAGCGTCGTCGAGCAGTACTTCGACATCACCAATGGCAGCGATGCATCAAGCCTGGCGGCGTGTTTCAGCACAGACTCCACCGTGTTCGACGAAAACCGGACACATGAAGGGATCGAGGCGATCGAGGCCTGGCGACGCGAGACACAGCAAGCCTTTGCTTTCCAGGTCGAGCCAACCGAGGTTATCGACGGTGCAGGCACGTTGACCGTCTTCGCTCGTGTAACTGGTGATTTCCCAGGCAGTCCAGTCAAGTTGAAGCACCTGTTTACCTTAGCGGATGGTCGGATCCGCGCATTGGAGATTACCCCGTGA	MNLKLPSVVEQYFDITNGSDASSLAACFSTDSTVFDENRTHEGIEAIEAWRRETQQAFAFQVEPTEVIDGAGTLTVFARVTGDFPGSPVKLKHLFTLADGRIRALEITP				NA	NA	NA	NA	NA
D1-35_05401	777	fabG_11		3-oxoacyl-[acyl-carrier-protein] reductase FabG	GTGAATCTGGATCTGAAAGGCAAACGCATTCTGGTTACCGGCGGCACCAAGGGCGTCGGCGAAGCGGTTGTCGAGTTGCTGCTCGACGAAGGCGCAAAAGTACTGACCTCAGCGCGCCAGGCGACCACCGGGATGTCACCAGACTTGTGCGTTCCGGCGGACCTGTCGACCCGGGAGGGCTGCGAGACACTGGTGGCAGCGACCAAGCGAATACTCGGTGACGTCGACGTCATCATCCACGTCGTCGGAGGCTCATCGGCACCCGGTGGCGGCTTTGCCGCACTGGACGAGGAACACTGGCAACGCGAACTCGATCTGAACCTGTTTGCGGCCGTGCGCATCGACCGAGCCTTGTTGCCCGCCATGCTCGAACGAAACGAAGGCGTCATTATCCACGTGACGTCCATCCAGAATCGATTGCCGTTGCCTGAAGCCACGACCGCTTACGCGGCTGCCAAGGCTGCGCTCTCGACTTACAGCAAAAGCCTGTCGAAGGAGGTTTCGCCGAAGGGCGTGCGTGTTGTCCGGGTATCGCCGGGGTGGGTTGAAACCGACGCGTCGGTCGCATTGGCCGAGCGCCTGGCAGAGCAAGCAGGTACCGACTATGAAGGCGGCAAGCGGATGATCATGGACGCGCTAGGCGGCATTCCACTCGGCCGCCCCTCGAAGCCTGCTGAAGTGGCGAACCTCATCGCTTTCCTGGCCTCGCCCCGCGCGGCATCCATTACCGGCAGCGAATTTATCATTGATGGGGGCACCATTCCGACGGCGTCATGA	MNLDLKGKRILVTGGTKGVGEAVVELLLDEGAKVLTSARQATTGMSPDLCVPADLSTREGCETLVAATKRILGDVDVIIHVVGGSSAPGGGFAALDEEHWQRELDLNLFAAVRIDRALLPAMLERNEGVIIHVTSIQNRLPLPEATTAYAAAKAALSTYSKSLSKEVSPKGVRVVRVSPGWVETDASVALAERLAEQAGTDYEGGKRMIMDALGGIPLGRPSKPAEVANLIAFLASPRAASITGSEFIIDGGTIPTAS				NA	NA	NA	NA	NA
D1-35_05402	1389			hypothetical protein	ATGGAAGCGGAAGAAATGAATAGATTAGGCCCGACTGGATGGAACCAACAGTTCAGCTTCAACCCCGGAAAAGCCCCGAAGCTCGAACATGCCACGTCGGTTTCTCCCCGCCCGTTGACGGAGGTGGTCCGCGAGGACATCAAAAAGGTCAGCCAGCAAACGGGCATCAGCGCGGAGCACTTGCATCAACTACATGCCATCGCGCGCAGACATCAATGCGTTATCGCGTTTCGCCCCGTTGATCCACATAACGCGCAGCTGATAGAGATGGGTTACCCGACCAAGGGGCTGAACATAAAAGGAAAGAGTTCCATGATCGGCCCCCTGTTCGGATTCATTCCGGTAAAACAGCAGCTCTGTGGCAAGGGCAGCACCGCATCGGACGATATAGAAAAAGCCAATTTGCACGTCGAGCAATGTGTGGCAAACGGCCATGCGGTTAAAGTCCCCTTGGAACTGCCTGCGGCACGAATGGATTATCTGAAGCAACATGATTTGATCAGGGCGCTTGATCCGCCCGCATTCGAGAGCACCAGGGAAGATGGGTCTACGTTTAGCTTCACTGCTGAAGAAACAACCAGCGGCAACTATCGAATAGCCACGCAGGGCCAGGTTGTAGAAGTCCTGGCACCAAAGATTCAACCTCACGGCGAGCCAGCTCGGCCTTTTACCGCCGACTACGACTTGCTGTTTCTGATGCCTCAATGGGATGACGTCCCGCAACAAAGCCAACGACGAGGCTCAGCAACGCCAGCCGCGCCAAACGAGCAGCCGTTTAATATTGGCGTCGCCCATATTCGGTCGAAATATGAAAATGTCGCCCCCACAGATACGCAGGATTCCCACCCGCCAGTCGACTATCTCACCCGCCTCGAGGAACGAGTCATCAACGACATCAACCACGAATTACGCGGCGAGTTGAAAACCCATCTGAACATGGACAATCCGTCCGACTGGAACCTCGTTCATCATGGCTCGGACGAAGGCAACCCAGGCACCAACATGCGCAATAACTTCCCAGCCACCGTCGTTGCCCCGCAAGCACTCGGTGAATTTGGCGCCATCACCGTCCTACCTGACATGGACAGGTTGAATGAGTTCCTGGTGGAGGCACGTGACGCTCGCGGAAGCGGTCGTACGGGCTATGTGCTGGTCGGTAACCGGCAATGGCTCGATGACGAACTAAAAACCAACGTCACTAACCGCAGCCAGGAGATCATGCGCAAGCTCAGTAGTCCGTCGTCCTTTTCGCCACCTGAAACGCGTCGTGGTAGTACAGCCTCCGGTGAAGGCAGCCGGCGTGGCAGTCATATTTCCCAGCCTGAACTGGATTTATTGAGAGGGGCTGCCGAGCGTCGCAGGGCTCAGTCCGGTAGGTTGCCTGAATGA	MEAEEMNRLGPTGWNQQFSFNPGKAPKLEHATSVSPRPLTEVVREDIKKVSQQTGISAEHLHQLHAIARRHQCVIAFRPVDPHNAQLIEMGYPTKGLNIKGKSSMIGPLFGFIPVKQQLCGKGSTASDDIEKANLHVEQCVANGHAVKVPLELPAARMDYLKQHDLIRALDPPAFESTREDGSTFSFTAEETTSGNYRIATQGQVVEVLAPKIQPHGEPARPFTADYDLLFLMPQWDDVPQQSQRRGSATPAAPNEQPFNIGVAHIRSKYENVAPTDTQDSHPPVDYLTRLEERVINDINHELRGELKTHLNMDNPSDWNLVHHGSDEGNPGTNMRNNFPATVVAPQALGEFGAITVLPDMDRLNEFLVEARDARGSGRTGYVLVGNRQWLDDELKTNVTNRSQEIMRKLSSPSSFSPPETRRGSTASGEGSRRGSHISQPELDLLRGAAERRRAQSGRLPE				NA	NA	NA	NA	NA
D1-35_05403	1380			hypothetical protein	GTGACGATCCGGGTCGATGGCCTCGACCACATCGCCCTGGGCATTACGCCGGTAGGTCCACACGGCTTTGCCGCGCTGTCGGGCGTGCAGGAAACCGTTGCGGTATTCGTAGGACGTGGGCTCGCCTTCAGGCGGAATCAGCGCCACCAGCCGTCCGGCTTCGTCGTAGCGGTATTCGGTGACCGCGCCCAGCGGATCCTGCTCGGCGGTCAGCCGACCCTGCTCGTCATAAGCCTTGAGCTGTTCGCCGCCAACGGGATCGACCTGGCGCACCAGCCGCGCACGGTCGTCGTGGACGTACACCTCCTGGCTGCCGTCCCGATGCCGGACCGTGACGCTGCCGTCTTCGCCCCAGCTGTAGTGGCTGTCCATCTGCGCGAACGACGCCCTGTGCCGCACACAGCGCGCCGCCGGGCCGAGGCCTTGCCATTCCCAGTAGAAACTTGCGCCGCCGGCCAGTTGCCGCTGGAGGATGACGTGCTGGTCGTCGTAGTCGTAGCGCTCGCTTTCGCCAGCGGCATTGGTCGCCTCTACCAGTCGGAAACGGCCGTCGTAGCGGTAGGTCACCAGCGTCTGTTCGGTGCGCCAGGCATCGTCCGGATGCTGTTTCGGGTCAAAACTCTGATAGTCGATGGCAACCAGGTGGCGATGCTCGTAGCGCAACCGCAGACCGCGCCGGGCGCCGTTGTCCAGGCGGCTGATGTCGCCGTAGATGTTGCGCTGGACGGTCAGACGGTTGTCGTACCGATCGCTCAGCGCCGTCAGATGACCGTCGCGAAAGTGCAGGAAAGGGGCGTCTTCGCCGGGCTGGGCGATGATCAGTTCGTCCGGCTCGCAGCTCAGGTAGATCGCCGCGCGGGCCAGGCTGTTGTGGATCGCCGGGCGTTGCAGGTTGGGGCGAGGGAAGGTGGTGCGGCGGTTTTCCTGATCAATCCAGGTCACCTGTTCGCCCTCGATCACCAGGCGATGGGCCAGGCCATGGCTCCAGCCACGGCCGAGGCCGACGTCCAGCTCGGCGGCGCTGGTGCGATAGAGACGGGTGAAGACGAAGGGCAAGCGCCCGTCGAGGGTGCCGTCCTCCAGGGTCAGCAGTTCCTCGCCAGTGACCATCGACACCGGACAGCCGTCGGTGCGGGTCTGGGCGGCGCTGTCGGCGGGGTCGCCGTTGGGGTTTTTCGATGGGGTGGGGGCGTCGTCGTGGGCTTCGTCTTTTTTCAGCGTGGTGTTGCGCTGCGCGTCCCAGCGCAATTGCATCCGGCCTTTTTTCACGCCAGCGGCGATGCCTCGCGCCGCCACGGTTTTGTAGCGGTCCACGTAGGCCATGAACCCGTTCACCACCGCGAAGATCGCCCGGATGAAACGCGTCATCGCGTCCAGTAG	MTIRVDGLDHIALGITPVGPHGFAALSGVQETVAVFVGRGLAFRRNQRHQPSGFVVAVFGDRAQRILLGGQPTLLVISLELFAANGIDLAHQPRTVVVDVHLLAAVPMPDRDAAVFAPAVVAVHLRERRPVPHTARRRAEALPFPVETCAAGQLPLEDDVLVVVVVALAFASGIGRLYQSETAVVAVGHQRLFGAPGIVRMLFRVKTLIVDGNQVAMLVAQPQTAPGAVVQAADVAVDVALDGQTVVVPIAQRRQMTVAKVQERGVFAGLGDDQFVRLAAQVDRRAGQAVVDRRALQVGAREGGAAVFLINPGHLFALDHQAMGQAMAPATAEADVQLGGAGAIETGEDEGQAPVEGAVLQGQQFLASDHRHRTAVGAGLGGAVGGVAVGVFRWGGGVVVGFVFFQRGVALRVPAQLHPAFFHASGDASRRHGFVAVHVGHEPVHHREDRPDETRHRVQ				NA	NA	NA	NA	NA
D1-35_05404	951			hypothetical protein	GTGCCGGACCAGGCGCATCGACAGGTAGGCAATCCCGGCGCCCGCCCCGGCGAAGGTCAATACCACGCCGATCAGCAGGTCGATCACCAGCTGCACGACTACCATGGACAACGCTTCGGCCGTGCCGCCGGCCACTTCGCTGGGCGGCAGCATGTCCAGCCAGAGACTCGCGGTGCGCACCAGCAGGCACAGCGCCGCTTCGTCGCTGGCGAGCAACTGCAGCTTGGCCATGATCTGCGGGGACGACTCGGCAAGTTCGATCAGGTCCGCCGCACCGCTGCCCAATTGATCGCCAAACCGGCTCGGGTCCTTGAGGATGTCCGAGAGCAAGCTGATGCTGTCCCAAACGCCCTCGATGGCCGCCCAACCGCCGGCGAGCAGGCCATTGCCCACCGCGGCCGCCGACGATTGCTGCGCCCATTGCGGCTTGAAAACCTGCCATTCGCTACGCAGCCAGTCCGTCAGATCAGCAGTCAGGCCGTTGTAGGAAGAAAACAGGTCCTCGATCTGCCTGGGGGTGACTTCGCTTTGAACGTGAACCCGGTAGTAGCGACCCGCTTCGCCTTTGAAGGTCCCGACGCCCTGGGCATTCAGCTGGACGGGGGTGACCTCGCCGCTGTCCACCGACACTACATCCACCACGATGTCGCCGAGCGGAATGTCGTACACCGACTCGAGCTTGCTCTCGATCGTCAGGACCCCACCCTTGGGGCATCGAGCGACGGTCGAGTGAAAATCACTGTCGCGGCTGCTGACCGTCGTGGCGTTGCCACCAAAAAGAAGCACCCGTTCCATGCCCATCAGCGAAGGCAAGTCGGCCGCCTGGCTGGCCCGGTCCGCCGCACGGGCGTACCAGCGGTCGAGTTGTTCGCGGTAGAGGGAAAGGCTGTCTTTGAAGCTGTCGAGTTCCGCCTCGATGCGGCGCACCTGATCCATCAGGAAGCGGTCTGA	MPDQAHRQVGNPGARPGEGQYHADQQVDHQLHDYHGQRFGRAAGHFAGRQHVQPETRGAHQQAQRRFVAGEQLQLGHDLRGRLGKFDQVRRTAAQLIAKPARVLEDVREQADAVPNALDGRPTAGEQAIAHRGRRRLLRPLRLENLPFATQPVRQISSQAVVGRKQVLDLPGGDFALNVNPVVATRFAFEGPDALGIQLDGGDLAAVHRHYIHHDVAERNVVHRLELALDRQDPTLGASSDGRVKITVAAADRRGVATKKKHPFHAHQRRQVGRLAGPVRRTGVPAVELFAVEGKAVFEAVEFRLDAAHLIHQEAV				NA	NA	NA	NA	NA
D1-35_05405	1785	araC_2		L-arabonate dehydratase	ATGAGTGACACGCCAAAACGCCGCCTGCGCAGCGAGCAGTGGTTCAACGACCCGGCTCACGCGGACATGACCGCCCTGTATGTCGAGCGCTACATGAACTACGGGATGACTCGCGAAGAGCTGCAATCGGGCCGGCCGATCATCGGCATCGCCCAGACCGGCAGCGACCTGACGCCCTGCAATCGTCATCACCTGGAGCTGGCGCAACGGGTCAAGGCCGGCATCCGCGATGCTGGCGGCATCCCGATGGAATTCCCGGTGCACCCGATCGCCGAACAGTCGCGCCGGCCCACTGCCGCCCTGGACCGCAACCTGGCCTACCTGGGCCTGGTGGAAATCCTCCATGGCTACCCGTTGGACGGCGTGGTGCTCACCACCGGCTGCGACAAGACCACCCCGGCGTGCCTGATGGCGGCGGCGACCACCGACCTGCCGGCCATCGTGCTCTCCGGCGGGCCGATGCTCGACGGCCATCACAAGGGCGAACTGATCGGCTCCGGCACCGTGCTCTGGCACGCACGCAACCTGATGGCCGCCGGCGAAATCGACTACGAAGGCTTCATGGAAATGACCACGGCGGCATCGCCCTCCGTGGGCCACTGCAACACCATGGGTACCGCGCTGTCGATGAACGCCCTGGCCGAAGCCCTGGGCATGTCGCTGCCCGGTTGCGCGAGCATTCCGGCGCCCTATCGCGAGCGCGGGCAGATGGCCTACGCCACCGGCAAGCGCATCTGCGAACTGGTGCGCCAGGACGTGCGCCCATCCCGGATCATGACTCGAGAGGCGTTCGAAAACGCCATCGCCGTCGCCTCGGCACTCGGCGCATCGAGCAATTGCCCGCCGCACCTGATTGCCATCGCCCGGCACATGGGCGTCGAACTGAGCCTGGACGACTGGCAGCGGATTGGCGAAGACGTGCCGCTGCTGGTCAACTGCATGCCGGCCGGCAAGTACCTCGGCGAAGGCTTCCACCGCGCCGGTGGCGTGCCGGCAGTCATGCATGAACTGCAAAAGGCCGGGCGCCTGCACGAGGACTGCGCCACGGTCAGCGGCAAATCGATTGGCGAAATCGTCAGCAGCAGCCTGACCAGCAACGCCGATGTCATCTACCCGTTTGATACCCCGCTCAAGCATCGCGCCGGATTCATCGTGCTCAGCGGCAATTTTTTCGACAGCGCGATCATGAAGATGTCGGTGGTCGGCGAGGCGTTTCGCAAGACCTACCTGTCCGAGCCCGGCGCCGAAAACAGCTTCGAAGCCCGGGCGATCGTGTTCGAAGGGCCGGAGGATTACCACGCGCGGATCGACGACCCGGCGCTGGACATCGACGAGCGCTGCATCCTGGTCATTCGCGGCGTTGGCACCGTGGGTTATCCGGGCAGCGCCGAGGTGGTGAACATGGCGCCACCCGCAGCGTTGATCAAACGCGGTATCGACTCCCTGCCCTGCCTGGGCGACGGCCGCCAGAGCGGCACCTCGGCGAGCCCGTCGATCCTCAACATGTCCCCTGAAGCGGCGGTGGGCGGCGGCCTGGCGCTGCTGCAAACCAACGACCGGCTGCAAGTGGACCTGAACACCCGCACCGTCAACCTGCTGGTCGACGAGGCCGAAATGGAACGGCGCCGTCGCGAATGGACACCGAGCATCCCGCCCTCGCAAACGCCCTGGCAGGAACTCTATCGGCAACTGGTCGGGCAGCTGTCCACCGGCGGCTGCCTGGAGCCGGCCACGTTGCATTTGCGGGTAATCGCCCGGAGTGGCGAGCCGCGGCATTCGCACTGA	MSDTPKRRLRSEQWFNDPAHADMTALYVERYMNYGMTREELQSGRPIIGIAQTGSDLTPCNRHHLELAQRVKAGIRDAGGIPMEFPVHPIAEQSRRPTAALDRNLAYLGLVEILHGYPLDGVVLTTGCDKTTPACLMAAATTDLPAIVLSGGPMLDGHHKGELIGSGTVLWHARNLMAAGEIDYEGFMEMTTAASPSVGHCNTMGTALSMNALAEALGMSLPGCASIPAPYRERGQMAYATGKRICELVRQDVRPSRIMTREAFENAIAVASALGASSNCPPHLIAIARHMGVELSLDDWQRIGEDVPLLVNCMPAGKYLGEGFHRAGGVPAVMHELQKAGRLHEDCATVSGKSIGEIVSSSLTSNADVIYPFDTPLKHRAGFIVLSGNFFDSAIMKMSVVGEAFRKTYLSEPGAENSFEARAIVFEGPEDYHARIDDPALDIDERCILVIRGVGTVGYPGSAEVVNMAPPAALIKRGIDSLPCLGDGRQSGTSASPSILNMSPEAAVGGGLALLQTNDRLQVDLNTRTVNLLVDEAEMERRRREWTPSIPPSQTPWQELYRQLVGQLSTGGCLEPATLHLRVIARSGEPRHSH	PGPT0017560_368	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017560-xylD-K22186	NA	NA
D1-35_05406	1182			hypothetical protein	ATGTCGCTGATGCTTACCCCCGAGAACACGCTGCCGGTCGATGGCCTGGCCGGCACCCTGATTGGTCGTGCCTGGGTCCCTGGCCGGGTCGCCGGGCCTTCGCCAATCGTGCTGCGCAGCGACGGAGTGTTCGACCTGTCGGAGCGTTTCGCGACGTTGAGCGATTTGCTGGAAACGCCCGCGCCGCTGACAGCGGTCAGGCAAACGCCTGGCACGTTCATCGCCAGCGTCGACGCGCTGCTGGCCAACACCGGCATGCATGCTGACCCGACCAAGCCGTTCCTGTTGCCGCCCTTGGACTTGCAAGTGATCAAGGCCGCCGGCGTGACCTTCGCCGCGAGCATGATCGAGCGGGTGATCGAGGAGCAGGCTGGCGGTGACGCGGCCCGGGCCGAAGCCGTGCGCGCGACGGTGCACAGCGTCATTGGCGACAACCTGCGCTCGATCGTCCCGGGCTCCGAGCAAGCCATGCGCCTCAAGGCCTTCCTTATCGAACAGGGCATGTGGTCGCAGTACCTAGAGGTCGGCATCGGACCGGACGCGGAAATCTTCACCAAGGCGCCGGTGCTGGCCGCCGTCGGCAGCGGCAGCCAGATCGGCATTCATCCAGCCTCGCAATGGAACAACCCGGAACCGGAAGTGGTGCTGGCGGTGAATAGCCGCGGCCAGATCCACGGCGCCACCCTGGGCAACGACGTCAACCTGCGGGACATCGAAGGCCGCAGCGCGTTGTTGCTGAGCAAGGCCAAGGACAATAATGCCTCGTGCGCCATCGGGCCGTTCATTCGGCTGTTCGATGAACACTTCAGCCTGGACGACGTGCGGGCCTGCGAGGTCGATCTGCAGGTACACGGCGAAGACGGTTACCGCCTGCACGGCTGCAGCTCCATGAGCCAGATCAGCCGCGACCCGCAGGACCTCGCAGGCCAGACACTCAACGCCAACCACCAATACCCGGATGGCTTCCTGCTGTTTCTCGGTACCCTGTTCGCCCCCACCGAGGATCGCGACCACGCCGGCAGCGGTTTCACCCACAAACTGGGCGACCGGGTCAGTATCAGCAGCCCGTTGCTCGGCTGTTTGCATAATCAGGTGACTCACAGCTGCGAGGCCGCGCCCTGGACCTTCGGCGTCGGCGCCTTGCTGCGTAATCTCGCCGCGCGGGGGCTGCTCGATCGCTGA	MSLMLTPENTLPVDGLAGTLIGRAWVPGRVAGPSPIVLRSDGVFDLSERFATLSDLLETPAPLTAVRQTPGTFIASVDALLANTGMHADPTKPFLLPPLDLQVIKAAGVTFAASMIERVIEEQAGGDAARAEAVRATVHSVIGDNLRSIVPGSEQAMRLKAFLIEQGMWSQYLEVGIGPDAEIFTKAPVLAAVGSGSQIGIHPASQWNNPEPEVVLAVNSRGQIHGATLGNDVNLRDIEGRSALLLSKAKDNNASCAIGPFIRLFDEHFSLDDVRACEVDLQVHGEDGYRLHGCSSMSQISRDPQDLAGQTLNANHQYPDGFLLFLGTLFAPTEDRDHAGSGFTHKLGDRVSISSPLLGCLHNQVTHSCEAAPWTFGVGALLRNLAARGLLDR	PGPT0018165_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018165-aldH-K13877	NA	NA
D1-35_05407	939	gbpR_2		HTH-type transcriptional regulator GbpR	ATGTCCGATCTGTCCTTTTCCAGCTTCTGCGGCTGGCTCAAATTCCGCCATCTGCTGCTGATCGATACCTTGGGCCGCACCTGCAACATGCACCTGGCGGCCGAACAGATGAACCTCAGCCAGCCGGCGGTGAGCAAGATGCTCAAGGAAATCGAGAGCCTGCTCGGCTTCGCCCTGTTCGAGCGGCGTCCGCGCAGCATGCCGCCCACCGCGCTGGGCGAGCATGTGCTGCGCTACGCACAGATCGCTTTGAATGACGCGCGCTCGTTCGTCGAGCAGATCAGCAGCCTGCGGGAGGGCGGCCATGGTTATCTCAAGGTCGGCGGGATCTTTGCCGCGACCGCGGTGGCCCTGCCCGAGGCGATCCTGCAGATCAAGCAGCGCTGGCCGTTGTTGTCCATCGAGGTGGTAGAGCAGACCAGCAATCACCTGATGAAGATGCTGGAAGAGAAGAAGCTCGACCTGGCCGTGGCGCGGTTTACCGAGCAGAGCCAGCAGCAGCGCTACGACTTCCAGCCCCTGGCTCCGGAACCGTTCTGCATCGTCGTCAACGACCGGCATCCGCTGGCAGACGCCGGGCCGATATCGCTGCAGCAACTGGTGGACCTGCCATGGATTCTCTACCCGGTCGGCACGCCGATCCGCGCCCGCATGGAACTGGCGTTCGCCGAAGCGGGCGTGCGGATGCCGCGCAACACCATCGATACGATTTCCATGCAGACCTTCCTCCAGGTGCTGAAACGCGGCCCGATGATCGGCATGCTGCCCAATGCGATGGTTGATCCGCTGCTGGAAAGCGGCCAGCTCAAGACCCTCGATACCCCGTTGCACCTGGTGCCGCAGGATTACGGCATCCTCACGCGAAAGGACGAGCCGCTGGTGGGCGCGGCGCTGGAGTTTGCCGAGATCCTCAAGGACAACGCCCGCCAGAGTGGTTGA	MSDLSFSSFCGWLKFRHLLLIDTLGRTCNMHLAAEQMNLSQPAVSKMLKEIESLLGFALFERRPRSMPPTALGEHVLRYAQIALNDARSFVEQISSLREGGHGYLKVGGIFAATAVALPEAILQIKQRWPLLSIEVVEQTSNHLMKMLEEKKLDLAVARFTEQSQQQRYDFQPLAPEPFCIVVNDRHPLADAGPISLQQLVDLPWILYPVGTPIRARMELAFAEAGVRMPRNTIDTISMQTFLQVLKRGPMIGMLPNAMVDPLLESGQLKTLDTPLHLVPQDYGILTRKDEPLVGAALEFAEILKDNARQSG				NA	NA	NA	NA	NA
D1-35_05408	1383	nicT_4		Putative metabolite transport protein NicT	ATGCAAACCATCTCCGAGCCGTTGCCTGCCCAGGCGCAAGCCGGCGAACTGGATTTCGAAGACCGGACCTACCGCAAGGTGATCTGGCGGATCCTGCCAGTGCTGCTGTTGTGCTACATGGCGGCATACCTCGATCGGGTCAATATCGGCTTCGCCAAGCTCGACATGCTCGCCGAGTTGCAATTCAGCAACACCGTGTACGCCTTGGGCGCCAGTATGTTTTTCTGGGGCTATTTCCTGTTCGAGGTCCCCAGCAACCTGTTGCTGCATCGTCTGGGCGCGCGGTTCTGGATCGCCCGGATCATGCTCAGTTGGGCGGTGATCTCCATGGCCGTGGCCTACACGGTGCCGCTGGCAGCGTTCTTCCACATCGAATCGAGCACGATGTTTTATGTGCTGCGTTTCCTGCTAGGCATCTGTGAAGCAGGCTTTTTCCCCGGCGTGATCCTCTACCTCAACTACTGGTTCCCGACCCACCGGCAGAGCCGGGTGATGTCCGGGTTCCTGCTGGCGTTGCCGGTCAGCCTGACACTGGGCGGGATCCTGTCCGGGTGGCTGATGAACAGCATGCAGGGCGTGCAAGGCATGTCCGGCTGGCAGTGGATGCTGATCATCGAGGGCATCCCTTCGATCATCATGGCCTTCGTGGTGATCGTCTGCCTGGCCGATAACATCGACAAGGCCAAGTGGCTGTCGGCAGCGGAAAAGGCCATGCTCAAGGCCAACCTGCAAACCGACAACCAGGGCAAGGCTTCGCGCTTGAGCGAAGTGTTCTTCAACCCTCGCGTCTGGTTGCTGGTGCTGATCCTGCTGACCTTCAACACCGGTTTCTACGGCCTGGCCTTCTGGATGCCCTCGATCATCAAGAGCACCGGCATCACCAATAGCCTGCACATCGGCTTGCTCACCGCCATTCCCTACTCGGTGGCAATCGTGGCGATGCTGCTCAATGCGCGGCACTCCAACCGCACCGGCGAACGGCGCCTGCACGCAGCCATCCCGGCATTCATTGGTGGCGCCGGGCTGATCCTCAGCGCGTTTTTCGCCGATAACCTGGTGCTGTCGGTGCTGTTCCTCAGCGTCTCCGCCTCGGGGATCCTCAGCCTGATGCCGATTTTCTGGACCTTGCCGGGCACTGTGCTGTCGGGCGTTGCCGCCGCAGCCGGGATCGGCATGATCAACGCGATCGGCAACCTGTCGGGCTTCACCGGTTCGATGATCACGGCCGTGGCGGAAACCCTGACGGGCAATATCAACAACGGTACGTACGTCCTGGCGCTGTGCCTGTTGGTCAGCGGCGGGTTGATCCTGGCCATCCCCGCCTCGATGCTCGGCAGGACGCCCAAGACCGCGCCCACGGCCGCGCAACTGGAGACCGCATGA	MQTISEPLPAQAQAGELDFEDRTYRKVIWRILPVLLLCYMAAYLDRVNIGFAKLDMLAELQFSNTVYALGASMFFWGYFLFEVPSNLLLHRLGARFWIARIMLSWAVISMAVAYTVPLAAFFHIESSTMFYVLRFLLGICEAGFFPGVILYLNYWFPTHRQSRVMSGFLLALPVSLTLGGILSGWLMNSMQGVQGMSGWQWMLIIEGIPSIIMAFVVIVCLADNIDKAKWLSAAEKAMLKANLQTDNQGKASRLSEVFFNPRVWLLVLILLTFNTGFYGLAFWMPSIIKSTGITNSLHIGLLTAIPYSVAIVAMLLNARHSNRTGERRLHAAIPAFIGGAGLILSAFFADNLVLSVLFLSVSASGILSLMPIFWTLPGTVLSGVAAAAGIGMINAIGNLSGFTGSMITAVAETLTGNINNGTYVLALCLLVSGGLILAIPASMLGRTPKTAPTAAQLETA	PGPT0002325_617	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-ORGANIC_ACID_METABOLISM	P-SOLUBILISATION-TARTARIC_ACID_TRANSPORT,PGPT0002325-ttuB-K13021	NA	NA
D1-35_05409	741			2-keto-3-deoxy-L-fuconate dehydrogenase	ATGAACCTGCAAGGCAAGCGGGTGCTGGTGACGGCGGCGGGACAGGGCATCGGCCTGGCCAGCGCCGTGGCCTTCGCCCGGGCCGGCGCCGAGGTGTTCGCCAGTGACATCGATATTCGCGCGCTGGCGGGCATCGAGGGGGTCACGCCGATGCTCCTGGATGTCACCTCGGCCAGCGCCATCGACGCTGCCCGCGAGCGGATTGGCGGGTTGGACGTGCTTTTCAACTGCGCCGGCTACGTGCACAGCGGCACCATTCTCGATTGCGACGAAGCCGCCTGGGCGCGCTCGATGGACCTCAATGTCAGCGCCATGTATCGCATGATCCGCGCGTTTCTGCCGGGTATGCTGGCGCGTGGCGGCGGGTCGATCATCAACATGTCGTCGGTGGCGTCCAGTATCAAGGGCGTGCCCAATCGTTTCGCCTATGCTGCCAGCAAGGCGGCGGTAGTCGGTCTGACCAAGTCCGTCGCCATCGACTTCGTCAGCCAGGGTATCCGTTGCAATGCGATATGCCCCGGCACCGTCGACTCGCCTTCGCTGCGCCAGCGCATTGCCGACCAGGCGGCGCAGCAGGGGGTCGAGGAGGAACAGGTCTACCGGCAGTTTCTCGACCGCCAGCCCATGGGGCGCATCGGCAACACCGAGGAGGTCGCGCAACTGGCGCTGTACCTGGGCAGCGACGCATCTGCCTACACCACCGGGACGGTGCACGTCATTGACGGTGGCATGAGCCTCTGA	MNLQGKRVLVTAAGQGIGLASAVAFARAGAEVFASDIDIRALAGIEGVTPMLLDVTSASAIDAARERIGGLDVLFNCAGYVHSGTILDCDEAAWARSMDLNVSAMYRMIRAFLPGMLARGGGSIINMSSVASSIKGVPNRFAYAASKAAVVGLTKSVAIDFVSQGIRCNAICPGTVDSPSLRQRIADQAAQQGVEEEQVYRQFLDRQPMGRIGNTEEVAQLALYLGSDASAYTTGTVHVIDGGMSL	PGPT0008310_2927	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008310-bdh-K00019	NA	NA
D1-35_05410	849			Ureidoglycolate lyase	ATGAAACTGTTGCGTTACGGCGAAAAAGGTTCGGAAAAGCCCGGGCTGCTGGATGATGACAATCAGATCCGTGATCTGTCGGGCCACGTGCCAGACATCGCCGGGCAAGCCCTGGCTCCTGAAGGCCTGGCAAGACTCGCCGCCATCGACCCAGGCAGCCTGCCGGTCGTGGGCGGGCAGCCGCGGATCGGCGCGTGCGTCGGGCAAGTCGGCAAGTTCATCTGCATCGGCCTGAACTACGCCGACCATGCCGCCGAGTCGAACATGGAGGTGCCGAAGGAACCGATCATCTTCAACAAATGGACCAGCGCCATCTGCGGACCGAACGACGATGTCCAGATTCCCCGTGGCTCGCTCAAGACCGACTGGGAAGTCGAACTCGGCGTGGTCATTGGCAAGGGCGGGCGCTACATCGACGAAGCGAACGCCATGGAGCATGTCGCCGGTTATTGCGTCATCAACGATGTGTCGGAACGCGAGTGGCAACTCGAACGCGGCGGCACCTGGGACAAGGGCAAAGGCTTCGACACCTTCGGCCCGCTTGGACCCTGGCTGGTGACGAAGGACGAAATCGCCGATCCCCACGCGCTTGATCTGTGGCTGGAAGTCGACGGACATCGTTATCAGAACGGCAATACCCGGACGCTGATCTTCAGCGTGCCGCAACTGATTGCCTACCTGAGCCGGTGCATGAGCCTGCAGCCCGGCGACGTGATCTCGACCGGGACGCCACCGGGTGTCGGCCTGGGCATCAAGCCCAACCCGGTGTTCCTGCGCCCGGGCCAGACCATGCGCCTGGGCATTCAAGGTTTGGGTGAACAGCGTCAGGTGACGGTGCAGGCGGACTGA	MKLLRYGEKGSEKPGLLDDDNQIRDLSGHVPDIAGQALAPEGLARLAAIDPGSLPVVGGQPRIGACVGQVGKFICIGLNYADHAAESNMEVPKEPIIFNKWTSAICGPNDDVQIPRGSLKTDWEVELGVVIGKGGRYIDEANAMEHVAGYCVINDVSEREWQLERGGTWDKGKGFDTFGPLGPWLVTKDEIADPHALDLWLEVDGHRYQNGNTRTLIFSVPQLIAYLSRCMSLQPGDVISTGTPPGVGLGIKPNPVFLRPGQTMRLGIQGLGEQRQVTVQAD	PGPT0021665_53	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021665-ugl-K16856	NA	NA
D1-35_05414	198			hypothetical protein	ATGTTCAATGACTTGAGTCGCCTCGGTAAATACCTCGGTCAGGCCGCCCGCCTGATGGTCGGCATGCCCGACTACGACAACTACGTCGAGCACATGCAAACCAAGCACCCCGACAAGCCGATGATGGACTACGAGGCGTTCTTCCGAGAACGCCAGGAAGCCCGTTACGGTGGCAAGGGTGGCCCCAAATGCTGTTGA	MFNDLSRLGKYLGQAARLMVGMPDYDNYVEHMQTKHPDKPMMDYEAFFRERQEARYGGKGGPKCC				NA	NA	NA	NA	NA
D1-35_05415	1935	btsT	COG1966	Pyruvate/proton symporter BtsT	GTGGCCATCTACCTGGTCGCCTACCGCTACTACAGCCTCTTCATCGCCAACAACGTGATGCAACTCGATGCGCGCCGGGCCACGCCCGCCGTGCTCAACAACGATGGCCTGGACTACGTCCCGACCAACAAACACATCCTTTTCGGCCACCACTTCGCGGCCATTGCCGGCGCGGGGCCGCTGGTCGGGCCGGTGCTGGCGGCGCAGATGGGCTATCTGCCCGGCACGCTCTGGCTGATCGCCGGCGTGGTGCTGGCCGGTGCGGTGCAGGACTTCATGGTCCTGTTCCTGTCGACCCGCCGCAACGGTCGCTCGCTGGGCGACATGGTGCGCGAGGAAATGGGCCGCATCCCCGGCACCATCGCGCTGTTCGGCTGCTTCCTGATCATGATCATCATCCTCGCGGTGCTGGCGCTGATCGTGGTCAAGGCCCTGGCCGAGAGCCCGTGGGGCATCTTCACGGTGATGGCGACCATCCCGATCGCGATGTTCATGGGCATCTACATGCGCTACATCCGCCCGGGCCGCATCGGTGAAATCTCGCTCATCGGCGTGCTGTTGCTGCTCGGTTCGATCTGGCTGGGCGGGCAGATCGCCGCCGACCCGGTCTGGGCCAAGGCCTTCACCTTCACCGGGATCCAGATCACCTGGATGCTGATCGGCTACGGCTTTGTCGCCGCGGTGCTGCCGGTGTGGCTGATCCTGGCGCCACGGGACTACCTGTCGACCTTCCTCAAGATCGGCACCATTATCGCCCTGGCGATCGGCATCCTGGTGACCATGCCCGAGCTGAAAATGCCGGCGCTGACCCAGTTCACCGACGGCACCGGACCGGTGTGGAAGGGCGGTCTGTTTCCGTTCCTGTTCATCACCATCGCCTGCGGCGCGGTCTCGGGTTTCCACGCGCTGATCTCCTCAGGCACCACGCCCAAGCTGCTGGATAACGAAACCAACGCGCGCTACATCGGTTACGGCGGCATGCTGATGGAGTCGTTCGTGGCGATCATGGCGATGGTCGCGGCCTCGGTGATCGAGCCGGGCGTGTACTTCGCCATGAACAGCCCGGCGGCGATCGTCGGCACCGACGTGGTGGCCGTGGCCCAGACCGTCAGCAGTTGGGGTTTTGCAATCACCCCCGACGCGCTGCAAGCGGTGGCCAAGGACATCGGCGAGACCACCATCCTGGCCCGTGCCGGCGGTGCGCCGACCCTGGCGGTGGGTATCGCGCAGATCCTCCACTCGGTGCTGCCGGGTGAGAACACCATGGCGTTCTGGTACCACTTCGCGATCCTGTTCGAAGCGCTGTTCATCCTCACCGCGGTAGACGCCGGCACCCGTGCCGGGCGGTTCATGCTGCAAGACCTGCTCGGCTCGTTCGTCCCGGCCCTCAAGCGCACCGAATCGTGGACCGCGAACCTGATCGCCACCGCCGGCTGCGTCGCGCTGTGGGGCTACCTGCTGTATCAGGGCGTGATCGATCCGCTGGGCGGCATCAACACCTTGTGGCCGCTGTTCGGCATCTCCAACCAGATGCTGGCCGGTATCGCGCTGATGCTCGCCACCGTGGTGCTGATCAAGATGAAGCGCCAGCGCTACGTCTGGGTCACGCTGCTGCCGGCCAGCTGGCTGCTGATCTGCACCACCACCGCGGGCCTGATCAAGCTGTTCGACGCCAACCCGGCGATCGGCTTCCTGGCCCTGGCGCGCAAATACAACGATGCCCTGGCCGCCGGCCAGATCCTGGCCCCAGCCAAGAGCATCGAGCAGATGCAGCACGTGGTGTTCAACGCCTACACCAACGCAACGCTGACGGTGTTGTTCCTGTTCGTGGTCTTCAGCATCCTGTTCTACGCGCTCAAGGTCGGCATCGCCGCCTGGGGCACGAAAGAACGCACGGACAAGGAAGCGCCATTCCAGGCGCTGCCGGACGCTTGA	MAIYLVAYRYYSLFIANNVMQLDARRATPAVLNNDGLDYVPTNKHILFGHHFAAIAGAGPLVGPVLAAQMGYLPGTLWLIAGVVLAGAVQDFMVLFLSTRRNGRSLGDMVREEMGRIPGTIALFGCFLIMIIILAVLALIVVKALAESPWGIFTVMATIPIAMFMGIYMRYIRPGRIGEISLIGVLLLLGSIWLGGQIAADPVWAKAFTFTGIQITWMLIGYGFVAAVLPVWLILAPRDYLSTFLKIGTIIALAIGILVTMPELKMPALTQFTDGTGPVWKGGLFPFLFITIACGAVSGFHALISSGTTPKLLDNETNARYIGYGGMLMESFVAIMAMVAASVIEPGVYFAMNSPAAIVGTDVVAVAQTVSSWGFAITPDALQAVAKDIGETTILARAGGAPTLAVGIAQILHSVLPGENTMAFWYHFAILFEALFILTAVDAGTRAGRFMLQDLLGSFVPALKRTESWTANLIATAGCVALWGYLLYQGVIDPLGGINTLWPLFGISNQMLAGIALMLATVVLIKMKRQRYVWVTLLPASWLLICTTTAGLIKLFDANPAIGFLALARKYNDALAAGQILAPAKSIEQMQHVVFNAYTNATLTVLFLFVVFSILFYALKVGIAAWGTKERTDKEAPFQALPDA	PGPT0015060_1073	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015060-cstA-K06200	NA	NA
D1-35_05416	912			hypothetical protein	ATGCCGGTTGTAGTGCAGGCCGCTTTCCAGGTCGTGGTATTGGCCTTGGAAGCGCAACGGCTGGGTCAGTGGCTTGCCGGCGCCGTGGGCCAGCTTGGTGAGTTTGCCGTAGCCGGTGTAGCGCGCCGCCCAGACGACTTCGCCCTGGTGACTGGTCAGTTCCTGCGGTGTGCCGAGGTGGTCGTTGTGGTAGTAGAACGGCGTGGCGTTTTTTGGGCCTTGGCCTTCGAGCAGGGCGAGGGGGCGGAAGGTGCCGGGCTCGTAGACGTAGCTTTGGTAATGATGGTCGCTGCTTTCGGCGATGAGCTGGTCGCCTTGCCAGATGAATTCGGTGGTCTGGCCGTCCACGGTCTTTTCGATGCGTCGGCCGAAGGCGTCGTAGCGGTAGGACGTTTCGTTGCCTTCCGGGGTGGTGAGGCCGATAAGGCGGTGCTGGCTGTCGTAGCGGTATTCGGTGATCAGGCACTGGGTTTTACCGCGGCGCTCGCGGACCAGGTTGCCGTAGGCGTCGTAGTCGTAGTGGCGATCGCCCTCCATCAGCAGGCGGTTGCCCTTGAGGGTGGTCGGGCCGGGGCGGTCGTGCAGCAGCAGGTTGCCGGCCGGGTCGTGGGAAAAGTGCTCGGGGGGCTGGCTGTGGGCGTAGTCGATGCGCAGCAGGCGATCTTGCGGGTCGTAGTGGTAGGCGCGTCGGTTTCGGTTGTCGGACAGCGTGGCGAGGTTGCCGTTGGCGCTGTAGGAATAGTCGCGCCAGAACAATTGCTTCTGCTGGGTCTGCCATACGGTCTGGGCCTTGAGGCGGCCCTGTTCGTCGTAGTTGTAGTCGCTGAGCAGCAGGCCTTGCTGGCGCTGGCGTTCGCGGGTGCCGGTGAAGCGGTGTTCGGTCAGGCACTGGCCGTTGAGGTCGATGGCTAG	MPVVVQAAFQVVVLALEAQRLGQWLAGAVGQLGEFAVAGVARRPDDFALVTGQFLRCAEVVVVVVERRGVFWALAFEQGEGAEGAGLVDVALVMMVAAFGDELVALPDEFGGLAVHGLFDASAEGVVAVGRFVAFRGGEADKAVLAVVAVFGDQALGFTAALADQVAVGVVVVVAIALHQQAVALEGGRAGAVVQQQVAGRVVGKVLGGLAVGVVDAQQAILRVVVVGASVSVVGQRGEVAVGAVGIVAPEQLLLLGLPYGLGLEAALFVVVVVAEQQALLALAFAGAGEAVFGQALAVEVDG				NA	NA	NA	NA	NA
D1-35_05417	216			hypothetical protein	ATGCACATGATGGCCGACTATTTTGCGCGAAAACGCATCAGTGACCAGGCTCACATAAGCGACGCTTTGTTCGGTAGGCAAGTAGGTTATATCCGCTACCCATACCTGTTCAGGACCCGTGGCAGTGACTTGGTCAGGGCCGGGTTTGAGCCGATTCGGATGTCGACGGAAGCGATGATGACTATCGGTAGTCTTGTGATAAGCGCGTTTGCGTAG	MHMMADYFARKRISDQAHISDALFGRQVGYIRYPYLFRTRGSDLVRAGFEPIRMSTEAMMTIGSLVISAFA				NA	NA	NA	NA	NA
D1-35_05418	210			hypothetical protein	ATGGTCTCGCAAGATATCGAACAACCGATCTCGACCTACCGTTCGCGTCAGTTCAGGTTCGGCTTGCATAAGGCCATGCAGCTTACGAGTGCCCAACCGGGGCATTTCAAGACGAGTCTCCAACACAAATCCCAGCACTCTTTGCGTATGTCTGGCTTGTGCGTCGTAAGCTCGATTGCGCTTGTAGTAGGCCTGCCGAGAGATGCCTAG	MVSQDIEQPISTYRSRQFRFGLHKAMQLTSAQPGHFKTSLQHKSQHSLRMSGLCVVSSIALVVGLPRDA				NA	NA	NA	NA	NA
D1-35_05419	189			hypothetical protein	ATGGCCGAGCCAAATTTGCCGCTGACACCAGAGCAGCGAATCAAGGAGCTGGAAGAAAAGCTGGCCCTTGCCAACCAGAAAGCCCAATTTTTTGAAGCTGTCGTTGACGTGCTGAAAAACGATTACGGTGTTTCTGTCGTAAAAAAGCGATCCGGCAAGTCCTCACCCAAGGGCAAATCGAAGGCCTGA	MAEPNLPLTPEQRIKELEEKLALANQKAQFFEAVVDVLKNDYGVSVVKKRSGKSSPKGKSKA				NA	NA	NA	NA	NA
D1-35_05425	240			hypothetical protein	ATGGGTGTTTTCACATTCGAGGATGAAATCAACTCCCCTGTGGCTCCTGCTACTCTTTACAAGGCCCTAGTTACAGATGCCGACAACGTCATCCCAAAGGCTCTTGATTCCTTCAAGAGTGTTGAAAACGTTGAGGGAAATGGTGGCCCAGGAACCATCAAGAAGATCACTTTCGTTGAGGATGGAGAAACCAAGTTTGTGCTGCACAAAATAGAAAGCATTGATGAGGCGAACTTGTGA	MGVFTFEDEINSPVAPATLYKALVTDADNVIPKALDSFKSVENVEGNGGPGTIKKITFVEDGETKFVLHKIESIDEANL				NA	NA	NA	NA	NA